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deleted file mode 100644 index e69de29..0000000 diff --git a/target/doc/COPYRIGHT.txt b/target/doc/COPYRIGHT.txt deleted file mode 100644 index af77776..0000000 --- a/target/doc/COPYRIGHT.txt +++ /dev/null @@ -1,45 +0,0 @@ -These documentation pages include resources by third parties. This copyright -file applies only to those resources. The following third party resources are -included, and carry their own copyright notices and license terms: - -* Fira Sans (FiraSans-Regular.woff, FiraSans-Medium.woff): - - Copyright (c) 2014, Mozilla Foundation https://mozilla.org/ - with Reserved Font Name Fira Sans. - - Copyright (c) 2014, Telefonica S.A. - - Licensed under the SIL Open Font License, Version 1.1. - See FiraSans-LICENSE.txt. - -* rustdoc.css, main.js, and playpen.js: - - Copyright 2015 The Rust Developers. - Licensed under the Apache License, Version 2.0 (see LICENSE-APACHE.txt) or - the MIT license (LICENSE-MIT.txt) at your option. - -* normalize.css: - - Copyright (c) Nicolas Gallagher and Jonathan Neal. - Licensed under the MIT license (see LICENSE-MIT.txt). - -* Source Code Pro (SourceCodePro-Regular.woff, SourceCodePro-Semibold.woff): - - Copyright 2010, 2012 Adobe Systems Incorporated (http://www.adobe.com/), - with Reserved Font Name 'Source'. All Rights Reserved. Source is a trademark - of Adobe Systems Incorporated in the United States and/or other countries. - - Licensed under the SIL Open Font License, Version 1.1. - See SourceCodePro-LICENSE.txt. - -* Source Serif Pro (SourceSerifPro-Regular.ttf.woff, - SourceSerifPro-Bold.ttf.woff, SourceSerifPro-It.ttf.woff): - - Copyright 2014 Adobe Systems Incorporated (http://www.adobe.com/), with - Reserved Font Name 'Source'. All Rights Reserved. Source is a trademark of - Adobe Systems Incorporated in the United States and/or other countries. - - Licensed under the SIL Open Font License, Version 1.1. - See SourceSerifPro-LICENSE.txt. - -This copyright file is intended to be distributed with rustdoc output. diff --git a/target/doc/FiraSans-LICENSE.txt b/target/doc/FiraSans-LICENSE.txt deleted file mode 100644 index d444ea9..0000000 --- a/target/doc/FiraSans-LICENSE.txt +++ /dev/null @@ -1,94 +0,0 @@ -Digitized data copyright (c) 2012-2015, The Mozilla Foundation and Telefonica S.A. -with Reserved Font Name < Fira >, - -This Font Software is licensed under the SIL Open Font License, Version 1.1. -This license is copied below, and is also available with a FAQ at: -http://scripts.sil.org/OFL - - ------------------------------------------------------------ -SIL OPEN FONT LICENSE Version 1.1 - 26 February 2007 ------------------------------------------------------------ - -PREAMBLE -The goals of the Open Font License (OFL) are to stimulate worldwide -development of collaborative font projects, to support the font creation -efforts of academic and linguistic communities, and to provide a free and -open framework in which fonts may be shared and improved in partnership -with others. - -The OFL allows the licensed fonts to be used, studied, modified and -redistributed freely as long as they are not sold by themselves. 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- - - \ No newline at end of file diff --git a/target/doc/aho_corasick/all.html b/target/doc/aho_corasick/all.html deleted file mode 100644 index 2a4a9bc..0000000 --- a/target/doc/aho_corasick/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Enums

Traits

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[][src]Enum aho_corasick::ErrorKind

pub enum ErrorKind {
-    StateIDOverflow {
-        max: usize,
-    },
-    PremultiplyOverflow {
-        max: usize,
-        requested_max: usize,
-    },
-}

The kind of error that occurred.

-

- Variants

-StateIDOverflow

An error that occurs when constructing an automaton would require the -use of a state ID that overflows the chosen state ID representation. -For example, if one is using u8 for state IDs and builds a DFA with -257 states, then the last state's ID will be 256 which cannot be -represented with u8.

-

Fields of StateIDOverflow

max: usize

The maximum possible state ID.

-
PremultiplyOverflow

An error that occurs when premultiplication of state IDs is requested -when constructing an Aho-Corasick DFA, but doing so would overflow the -chosen state ID representation.

-

When max == requested_max, then the state ID would overflow usize.

-

Fields of PremultiplyOverflow

max: usize

The maximum possible state id.

-
requested_max: usize

The maximum ID required by premultiplication.

-

Trait Implementations

impl Clone for ErrorKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ErrorKind[src]

Auto Trait Implementations

impl Send for ErrorKind

impl Sync for ErrorKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/enum.MatchKind.html b/target/doc/aho_corasick/enum.MatchKind.html deleted file mode 100644 index 6dd9f63..0000000 --- a/target/doc/aho_corasick/enum.MatchKind.html +++ /dev/null @@ -1,119 +0,0 @@ -aho_corasick::MatchKind - Rust

[][src]Enum aho_corasick::MatchKind

pub enum MatchKind {
-    Standard,
-    LeftmostFirst,
-    LeftmostLongest,
-    // some variants omitted
-}

A knob for controlling the match semantics of an Aho-Corasick automaton.

-

There are two generally different ways that Aho-Corasick automatons can -report matches. The first way is the "standard" approach that results from -implementing most textbook explanations of Aho-Corasick. The second way is -to report only the leftmost non-overlapping matches. The leftmost approach -is in turn split into two different ways of resolving ambiguous matches: -leftmost-first and leftmost-longest.

-

The Standard match kind is the default and is the only one that supports -overlapping matches and stream searching. (Trying to find overlapping -or streaming matches using leftmost match semantics will result in a -panic.) The Standard match kind will report matches as they are seen. -When searching for overlapping matches, then all possible matches are -reported. When searching for non-overlapping matches, the first match seen -is reported. For example, for non-overlapping matches, given the patterns -abcd and b and the subject string abcdef, only a match for b is -reported since it is detected first. The abcd match is never reported -since it overlaps with the b match.

-

In contrast, the leftmost match kind always prefers the leftmost match -among all possible matches. Given the same example as above with abcd and -b as patterns and abcdef as the subject string, the leftmost match is -abcd since it begins before the b match, even though the b match is -detected before the abcd match. In this case, the b match is not -reported at all since it overlaps with the abcd match.

-

The difference between leftmost-first and leftmost-longest is in how they -resolve ambiguous matches when there are multiple leftmost matches to -choose from. Leftmost-first always chooses the pattern that was provided -earliest, where as leftmost-longest always chooses the longest matching -pattern. For example, given the patterns a and ab and the subject -string ab, the leftmost-first match is a but the leftmost-longest match -is ab. Conversely, if the patterns were given in reverse order, i.e., -ab and a, then both the leftmost-first and leftmost-longest matches -would be ab. Stated differently, the leftmost-first match depends on the -order in which the patterns were given to the Aho-Corasick automaton. -Because of that, when leftmost-first matching is used, if a pattern A -that appears before a pattern B is a prefix of B, then it is impossible -to ever observe a match of B.

-

If you're not sure which match kind to pick, then stick with the standard -kind, which is the default. In particular, if you need overlapping or -streaming matches, then you must use the standard kind. The leftmost -kinds are useful in specific circumstances. For example, leftmost-first can -be very useful as a way to implement match priority based on the order of -patterns given and leftmost-longest can be useful for dictionary searching -such that only the longest matching words are reported.

-

Relationship with regular expression alternations

-

Understanding match semantics can be a little tricky, and one easy way -to conceptualize non-overlapping matches from an Aho-Corasick automaton -is to think about them as a simple alternation of literals in a regular -expression. For example, let's say we wanted to match the strings -Sam and Samwise, which would turn into the regex Sam|Samwise. It -turns out that regular expression engines have two different ways of -matching this alternation. The first way, leftmost-longest, is commonly -found in POSIX compatible implementations of regular expressions (such as -grep). The second way, leftmost-first, is commonly found in backtracking -implementations such as Perl. (Some regex engines, such as RE2 and Rust's -regex engine do not use backtracking, but still implement leftmost-first -semantics in an effort to match the behavior of dominant backtracking -regex engines such as those found in Perl, Ruby, Python, Javascript and -PHP.)

-

That is, when matching Sam|Samwise against Samwise, a POSIX regex -will match Samwise because it is the longest possible match, but a -Perl-like regex will match Sam since it appears earlier in the -alternation. Indeed, the regex Sam|Samwise in a Perl-like regex engine -will never match Samwise since Sam will always have higher priority. -Conversely, matching the regex Samwise|Sam against Samwise will lead to -a match of Samwise in both POSIX and Perl-like regexes since Samwise is -still longest match, but it also appears earlier than Sam.

-

The "standard" match semantics of Aho-Corasick generally don't correspond -to the match semantics of any large group of regex implementations, so -there's no direct analogy that can be made here. Standard match semantics -are generally useful for overlapping matches, or if you just want to see -matches as they are detected.

-

The main conclusion to draw from this section is that the match semantics -can be tweaked to precisely match either Perl-like regex alternations or -POSIX regex alternations.

-

- Variants

-Standard

Use standard match semantics, which support overlapping matches. When -used with non-overlapping matches, matches are reported as they are -seen.

-
LeftmostFirst

Use leftmost-first match semantics, which reports leftmost matches. -When there are multiple possible leftmost matches, the match -corresponding to the pattern that appeared earlier when constructing -the automaton is reported.

-

This does not support overlapping matches or stream searching. If -this match kind is used, attempting to find overlapping matches or -stream matches will panic.

-
LeftmostLongest

Use leftmost-longest match semantics, which reports leftmost matches. -When there are multiple possible leftmost matches, the longest match -is chosen.

-

This does not support overlapping matches or stream searching. If -this match kind is used, attempting to find overlapping matches or -stream matches will panic.

-

Trait Implementations

impl PartialEq<MatchKind> for MatchKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for MatchKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for MatchKind[src]

The default match kind is MatchKind::Standard.

-

impl Eq for MatchKind[src]

impl Copy for MatchKind[src]

impl Debug for MatchKind[src]

Auto Trait Implementations

impl Send for MatchKind

impl Sync for MatchKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

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[][src]Crate aho_corasick

A library for finding occurrences of many patterns at once. This library -provides multiple pattern search principally through an implementation of the -Aho-Corasick algorithm, -which builds a fast finite state machine for executing searches in linear time.

-

Additionally, this library provides a number of configuration options for -building the automaton that permit controlling the space versus time trade -off. Other features include simple ASCII case insensitive matching, finding -overlapping matches, replacements, searching streams and even searching and -replacing text in streams.

-

Finally, unlike all other (known) Aho-Corasick implementations, this one -supports enabling -leftmost-first -or -leftmost-longest -match semantics, using a (seemingly) novel alternative construction algorithm. -For more details on what match semantics means, see the -MatchKind -type.

-

Overview

-

This section gives a brief overview of the primary types in this crate:

-
    -
  • AhoCorasick is the primary type and represents -an Aho-Corasick automaton. This is the type you use to execute searches.
  • -
  • AhoCorasickBuilder can be used to build -an Aho-Corasick automaton, and supports configuring a number of options.
  • -
  • Match represents a single match reported by an -Aho-Corasick automaton. Each match has two pieces of information: the pattern -that matched and the start and end byte offsets corresponding to the position -in the haystack at which it matched.
  • -
-

Example: basic searching

-

This example shows how to search for occurrences of multiple patterns -simultaneously. Each match includes the pattern that matched along with the -byte offsets of the match.

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["apple", "maple", "Snapple"];
-let haystack = "Nobody likes maple in their apple flavored Snapple.";
-
-let ac = AhoCorasick::new(patterns);
-let mut matches = vec![];
-for mat in ac.find_iter(haystack) {
-    matches.push((mat.pattern(), mat.start(), mat.end()));
-}
-assert_eq!(matches, vec![
-    (1, 13, 18),
-    (0, 28, 33),
-    (2, 43, 50),
-]);
-

Example: case insensitivity

-

This is like the previous example, but matches Snapple case insensitively -using AhoCorasickBuilder:

- -
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["apple", "maple", "snapple"];
-let haystack = "Nobody likes maple in their apple flavored Snapple.";
-
-let ac = AhoCorasickBuilder::new()
-    .ascii_case_insensitive(true)
-    .build(patterns);
-let mut matches = vec![];
-for mat in ac.find_iter(haystack) {
-    matches.push((mat.pattern(), mat.start(), mat.end()));
-}
-assert_eq!(matches, vec![
-    (1, 13, 18),
-    (0, 28, 33),
-    (2, 43, 50),
-]);
-

Example: replacing matches in a stream

-

This example shows how to execute a search and replace on a stream without -loading the entire stream into memory first.

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["fox", "brown", "quick"];
-let replace_with = &["sloth", "grey", "slow"];
-
-// In a real example, these might be `std::fs::File`s instead. All you need to
-// do is supply a pair of `std::io::Read` and `std::io::Write` implementations.
-let rdr = "The quick brown fox.";
-let mut wtr = vec![];
-
-let ac = AhoCorasick::new(patterns);
-ac.stream_replace_all(rdr.as_bytes(), &mut wtr, replace_with)?;
-assert_eq!(b"The slow grey sloth.".to_vec(), wtr);
-

Example: finding the leftmost first match

-

In the textbook description of Aho-Corasick, its formulation is typically -structured such that it reports all possible matches, even when they overlap -with another. In many cases, overlapping matches may not be desired, such as -the case of finding all successive non-overlapping matches like you might with -a standard regular expression.

-

Unfortunately the "obvious" way to modify the Aho-Corasick algorithm to do -this doesn't always work in the expected way, since it will report matches as -soon as they are seen. For example, consider matching the regex Samwise|Sam -against the text Samwise. Most regex engines (that are Perl-like, or -non-POSIX) will report Samwise as a match, but the standard Aho-Corasick -algorithm modified for reporting non-overlapping matches will report Sam.

-

A novel contribution of this library is the ability to change the match -semantics of Aho-Corasick (without additional search time overhead) such that -Samwise is reported instead. For example, here's the standard approach:

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["Samwise", "Sam"];
-let haystack = "Samwise";
-
-let ac = AhoCorasick::new(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("Sam", &haystack[mat.start()..mat.end()]);
-

And now here's the leftmost-first version, which matches how a Perl-like -regex will work:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["Samwise", "Sam"];
-let haystack = "Samwise";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("Samwise", &haystack[mat.start()..mat.end()]);
-

In addition to leftmost-first semantics, this library also supports -leftmost-longest semantics, which match the POSIX behavior of a regular -expression alternation. See -MatchKind -for more details.

-

Prefilters

-

While an Aho-Corasick automaton can perform admirably when compared to more -naive solutions, it is generally slower than more specialized algorithms that -are accelerated using vector instructions such as SIMD.

-

For that reason, this library will internally use a "prefilter" to attempt -to accelerate searches when possible. Currently, this library has fairly -limited implementation that only applies when there are 3 or fewer unique -starting bytes among all patterns in an automaton.

-

In the future, it is intended for this prefilter to grow more sophisticated -by pushing applicable optimizations from the -regex -crate (and other places) down into this library.

-

While a prefilter is generally good to have on by default since it works well -in the common case, it can lead to less predictable or even sub-optimal -performance in some cases. For that reason, prefilters can be disabled via -AhoCorasickBuilder::prefilter.

-

Structs

-
AhoCorasick

An automaton for searching multiple strings in linear time.

-
AhoCorasickBuilder

A builder for configuring an Aho-Corasick automaton.

-
Error

An error that occurred during the construction of an Aho-Corasick -automaton.

-
FindIter

An iterator of non-overlapping matches in a particular haystack.

-
FindOverlappingIter

An iterator of overlapping matches in a particular haystack.

-
Match

A representation of a match reported by an Aho-Corasick automaton.

-
StreamFindIter

An iterator that reports Aho-Corasick matches in a stream.

-

Enums

-
ErrorKind

The kind of error that occurred.

-
MatchKind

A knob for controlling the match semantics of an Aho-Corasick automaton.

-

Traits

-
StateID

A trait describing the representation of an automaton's state identifier.

-
\ No newline at end of file diff --git a/target/doc/aho_corasick/sidebar-items.js b/target/doc/aho_corasick/sidebar-items.js deleted file mode 100644 index 6daed18..0000000 --- a/target/doc/aho_corasick/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["ErrorKind","The kind of error that occurred."],["MatchKind","A knob for controlling the match semantics of an Aho-Corasick automaton."]],"struct":[["AhoCorasick","An automaton for searching multiple strings in linear time."],["AhoCorasickBuilder","A builder for configuring an Aho-Corasick automaton."],["Error","An error that occurred during the construction of an Aho-Corasick automaton."],["FindIter","An iterator of non-overlapping matches in a particular haystack."],["FindOverlappingIter","An iterator of overlapping matches in a particular haystack."],["Match","A representation of a match reported by an Aho-Corasick automaton."],["StreamFindIter","An iterator that reports Aho-Corasick matches in a stream."]],"trait":[["StateID","A trait describing the representation of an automaton's state identifier."]]}); \ No newline at end of file diff --git a/target/doc/aho_corasick/state_id/trait.StateID.html b/target/doc/aho_corasick/state_id/trait.StateID.html deleted file mode 100644 index b173524..0000000 --- a/target/doc/aho_corasick/state_id/trait.StateID.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

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[][src]Struct aho_corasick::AhoCorasick

pub struct AhoCorasick<S: StateID = usize> { /* fields omitted */ }

An automaton for searching multiple strings in linear time.

-

The AhoCorasick type supports a few basic ways of constructing an -automaton, including -AhoCorasick::new -and -AhoCorasick::new_auto_configured. -However, there are a fair number of configurable options that can be set -by using -AhoCorasickBuilder -instead. Such options include, but are not limited to, how matches are -determined, simple case insensitivity, whether to use a DFA or not and -various knobs for controlling the space-vs-time trade offs taken when -building the automaton.

-

If you aren't sure where to start, try beginning with -AhoCorasick::new_auto_configured.

-

Resource usage

-

Aho-Corasick automatons are always constructed in O(p) time, where p -is the combined length of all patterns being searched. With that said, -building an automaton can be fairly costly because of high constant -factors, particularly when enabling the -DFA -option (which is disabled by default). For this reason, it's generally a -good idea to build an automaton once and reuse it as much as possible.

-

Aho-Corasick automatons can also use a fair bit of memory. To get a -concrete idea of how much memory is being used, try using the -AhoCorasick::heap_bytes -method.

-

Examples

-

This example shows how to search for occurrences of multiple patterns -simultaneously in a case insensitive fashion. Each match includes the -pattern that matched along with the byte offsets of the match.

- -
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["apple", "maple", "snapple"];
-let haystack = "Nobody likes maple in their apple flavored Snapple.";
-
-let ac = AhoCorasickBuilder::new()
-    .ascii_case_insensitive(true)
-    .build(patterns);
-let mut matches = vec![];
-for mat in ac.find_iter(haystack) {
-    matches.push((mat.pattern(), mat.start(), mat.end()));
-}
-assert_eq!(matches, vec![
-    (1, 13, 18),
-    (0, 28, 33),
-    (2, 43, 50),
-]);
-

This example shows how to replace matches with some other string:

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["fox", "brown", "quick"];
-let haystack = "The quick brown fox.";
-let replace_with = &["sloth", "grey", "slow"];
-
-let ac = AhoCorasick::new(patterns);
-let result = ac.replace_all(haystack, replace_with);
-assert_eq!(result, "The slow grey sloth.");
-

Methods

impl AhoCorasick[src]

pub fn new<I, P>(patterns: I) -> AhoCorasick where
    I: IntoIterator<Item = P>,
    P: AsRef<[u8]>, 
[src]

Create a new Aho-Corasick automaton using the default configuration.

-

The default configuration optimizes for less space usage, but at the -expense of longer search times. To change the configuration, use -AhoCorasickBuilder -for fine-grained control, or -AhoCorasick::new_auto_configured -for automatic configuration if you aren't sure which settings to pick.

-

This uses the default -MatchKind::Standard -match semantics, which reports a match as soon as it is found. This -corresponds to the standard match semantics supported by textbook -descriptions of the Aho-Corasick algorithm.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new(&[
-    "foo", "bar", "baz",
-]);
-assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-

pub fn new_auto_configured<B>(patterns: &[B]) -> AhoCorasick where
    B: AsRef<[u8]>, 
[src]

Build an Aho-Corasick automaton with an automatically determined -configuration.

-

Specifically, this requires a slice of patterns instead of an iterator -since the configuration is determined by looking at the patterns before -constructing the automaton. The idea here is to balance space and time -automatically. That is, when searching a small number of patterns, this -will attempt to use the fastest possible configuration since the total -space required will be small anyway. As the number of patterns grows, -this will fall back to slower configurations that use less space.

-

If you want auto configuration but with match semantics different from -the default MatchKind::Standard, then use -AhoCorasickBuilder::auto_configure.

-

Examples

-

Basic usage is just like new, except you must provide a slice:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new_auto_configured(&[
-    "foo", "bar", "baz",
-]);
-assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-

impl<S: StateID> AhoCorasick<S>[src]

pub fn is_match<B: AsRef<[u8]>>(&self, haystack: B) -> bool[src]

Returns true if and only if this automaton matches the haystack at any -position.

-

haystack may be any type that is cheaply convertible to a &[u8]. -This includes, but is not limited to, String, &str, Vec<u8>, and -&[u8] itself.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new(&[
-    "foo", "bar", "quux", "baz",
-]);
-assert!(ac.is_match("xxx bar xxx"));
-assert!(!ac.is_match("xxx qux xxx"));
-

pub fn earliest_find<B: AsRef<[u8]>>(&self, haystack: B) -> Option<Match>[src]

Returns the location of the first detected match in haystack.

-

This method has the same behavior regardless of the -MatchKind -of this automaton.

-

haystack may be any type that is cheaply convertible to a &[u8]. -This includes, but is not limited to, String, &str, Vec<u8>, and -&[u8] itself.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new(&[
-    "abc", "b",
-]);
-let mat = ac.earliest_find("abcd").expect("should have match");
-assert_eq!(1, mat.pattern());
-assert_eq!((1, 2), (mat.start(), mat.end()));
-

pub fn find<B: AsRef<[u8]>>(&self, haystack: B) -> Option<Match>[src]

Returns the location of the first match according to the match -semantics that this automaton was constructed with.

-

When using MatchKind::Standard, this corresponds precisely to the -same behavior as -earliest_find. -Otherwise, match semantics correspond to either -leftmost-first -or -leftmost-longest.

-

haystack may be any type that is cheaply convertible to a &[u8]. -This includes, but is not limited to, String, &str, Vec<u8>, and -&[u8] itself.

-

Examples

-

Basic usage, with standard semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["b", "abc", "abcd"];
-let haystack = "abcd";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::Standard) // default, not necessary
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("b", &haystack[mat.start()..mat.end()]);
-

Now with leftmost-first semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["b", "abc", "abcd"];
-let haystack = "abcd";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("abc", &haystack[mat.start()..mat.end()]);
-

And finally, leftmost-longest semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["b", "abc", "abcd"];
-let haystack = "abcd";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostLongest)
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("abcd", &haystack[mat.start()..mat.end()]);
-

Important traits for FindIter<'a, 'b, S>
pub fn find_iter<'a, 'b, B: ?Sized + AsRef<[u8]>>(
    &'a self,
    haystack: &'b B
) -> FindIter<'a, 'b, S>
[src]

Returns an iterator of non-overlapping matches, using the match -semantics that this automaton was constructed with.

-

haystack may be any type that is cheaply convertible to a &[u8]. -This includes, but is not limited to, String, &str, Vec<u8>, and -&[u8] itself.

-

Examples

-

Basic usage, with standard semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::Standard) // default, not necessary
-    .build(patterns);
-let matches: Vec<usize> = ac
-    .find_iter(haystack)
-    .map(|mat| mat.pattern())
-    .collect();
-assert_eq!(vec![2, 2, 2], matches);
-

Now with leftmost-first semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let matches: Vec<usize> = ac
-    .find_iter(haystack)
-    .map(|mat| mat.pattern())
-    .collect();
-assert_eq!(vec![0, 2, 0], matches);
-

And finally, leftmost-longest semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostLongest)
-    .build(patterns);
-let matches: Vec<usize> = ac
-    .find_iter(haystack)
-    .map(|mat| mat.pattern())
-    .collect();
-assert_eq!(vec![0, 2, 1], matches);
-

Important traits for FindOverlappingIter<'a, 'b, S>
pub fn find_overlapping_iter<'a, 'b, B: ?Sized + AsRef<[u8]>>(
    &'a self,
    haystack: &'b B
) -> FindOverlappingIter<'a, 'b, S>
[src]

Returns an iterator of overlapping matches in the given haystack.

-

Overlapping matches can only be detected using -MatchKind::Standard semantics. If this automaton was constructed with -leftmost semantics, then this method will panic. To determine whether -this will panic at runtime, use the -AhoCorasick::supports_overlapping -method.

-

haystack may be any type that is cheaply convertible to a &[u8]. -This includes, but is not limited to, String, &str, Vec<u8>, and -&[u8] itself.

-

Panics

-

This panics when AhoCorasick::supports_overlapping returns false. -That is, this panics when this automaton's match semantics are not -MatchKind::Standard.

-

Examples

-

Basic usage, with standard semantics:

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasick::new(patterns);
-let matches: Vec<usize> = ac
-    .find_overlapping_iter(haystack)
-    .map(|mat| mat.pattern())
-    .collect();
-assert_eq!(vec![2, 0, 2, 2, 0, 1], matches);
-

pub fn replace_all<B>(&self, haystack: &str, replace_with: &[B]) -> String where
    B: AsRef<str>, 
[src]

Replace all matches with a corresponding value in the replace_with -slice given. Matches correspond to the same matches as reported by -find_iter.

-

Replacements are determined by the index of the matching pattern. -For example, if the pattern with index 2 is found, then it is -replaced by replace_with[2].

-

Panics

-

This panics when replace_with.len() does not equal the total number -of patterns that are matched by this automaton.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let result = ac.replace_all(haystack, &["x", "y", "z"]);
-assert_eq!("x the z to the xage", result);
-

pub fn replace_all_bytes<B>(
    &self,
    haystack: &[u8],
    replace_with: &[B]
) -> Vec<u8> where
    B: AsRef<[u8]>, 
[src]

Replace all matches using raw bytes with a corresponding value in the -replace_with slice given. Matches correspond to the same matches as -reported by find_iter.

-

Replacements are determined by the index of the matching pattern. -For example, if the pattern with index 2 is found, then it is -replaced by replace_with[2].

-

Panics

-

This panics when replace_with.len() does not equal the total number -of patterns that are matched by this automaton.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = b"append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let result = ac.replace_all_bytes(haystack, &["x", "y", "z"]);
-assert_eq!(b"x the z to the xage".to_vec(), result);
-

pub fn replace_all_with<F>(
    &self,
    haystack: &str,
    dst: &mut String,
    replace_with: F
) where
    F: FnMut(&Match, &str, &mut String) -> bool
[src]

Replace all matches using a closure called on each match. -Matches correspond to the same matches as reported by -find_iter.

-

The closure accepts three parameters: the match found, the text of -the match and a string buffer with which to write the replaced text -(if any). If the closure returns true, then it continues to the next -match. If the closure returns false, then searching is stopped.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let mut result = String::new();
-ac.replace_all_with(haystack, &mut result, |mat, _, dst| {
-    dst.push_str(&mat.pattern().to_string());
-    true
-});
-assert_eq!("0 the 2 to the 0age", result);
-

pub fn replace_all_with_bytes<F>(
    &self,
    haystack: &[u8],
    dst: &mut Vec<u8>,
    replace_with: F
) where
    F: FnMut(&Match, &[u8], &mut Vec<u8>) -> bool
[src]

Replace all matches using raw bytes with a closure called on each -match. Matches correspond to the same matches as reported by -find_iter.

-

The closure accepts three parameters: the match found, the text of -the match and a byte buffer with which to write the replaced text -(if any). If the closure returns true, then it continues to the next -match. If the closure returns false, then searching is stopped.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["append", "appendage", "app"];
-let haystack = b"append the app to the appendage";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let mut result = vec![];
-ac.replace_all_with_bytes(haystack, &mut result, |mat, _, dst| {
-    dst.extend(mat.pattern().to_string().bytes());
-    true
-});
-assert_eq!(b"0 the 2 to the 0age".to_vec(), result);
-

Important traits for StreamFindIter<'a, R, S>
pub fn stream_find_iter<'a, R: Read>(
    &'a self,
    rdr: R
) -> StreamFindIter<'a, R, S>
[src]

Returns an iterator of non-overlapping matches in the given -stream. Matches correspond to the same matches as reported by -find_iter.

-

The matches yielded by this iterator use absolute position offsets in -the stream given, where the first byte has index 0. Matches are -yieled until the stream is exhausted.

-

Each item yielded by the iterator is an io::Result<Match>, where an -error is yielded if there was a problem reading from the reader given.

-

When searching a stream, an internal buffer is used. Therefore, callers -should avoiding providing a buffered reader, if possible.

-

Searching a stream requires that the automaton was built with -MatchKind::Standard semantics. If this automaton was constructed -with leftmost semantics, then this method will panic. To determine -whether this will panic at runtime, use the -AhoCorasick::supports_stream -method.

-

Memory usage

-

In general, searching streams will use a constant amount of memory for -its internal buffer. The one requirement is that the internal buffer -must be at least the size of the longest possible match. In most use -cases, the default buffer size will be much larger than any individual -match.

-

Panics

-

This panics when AhoCorasick::supports_stream returns false. -That is, this panics when this automaton's match semantics are not -MatchKind::Standard. This restriction may be lifted in the future.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["append", "appendage", "app"];
-let haystack = "append the app to the appendage";
-
-let ac = AhoCorasick::new(patterns);
-let mut matches = vec![];
-for result in ac.stream_find_iter(haystack.as_bytes()) {
-    let mat = result?;
-    matches.push(mat.pattern());
-}
-assert_eq!(vec![2, 2, 2], matches);
-

pub fn stream_replace_all<R, W, B>(
    &self,
    rdr: R,
    wtr: W,
    replace_with: &[B]
) -> Result<()> where
    R: Read,
    W: Write,
    B: AsRef<[u8]>, 
[src]

Search for and replace all matches of this automaton in -the given reader, and write the replacements to the given -writer. Matches correspond to the same matches as reported by -find_iter.

-

Replacements are determined by the index of the matching pattern. -For example, if the pattern with index 2 is found, then it is -replaced by replace_with[2].

-

After all matches are replaced, the writer is not flushed.

-

If there was a problem reading from the given reader or writing to the -given writer, then the corresponding io::Error is returned and all -replacement is stopped.

-

When searching a stream, an internal buffer is used. Therefore, callers -should avoiding providing a buffered reader, if possible. However, -callers may want to provide a buffered writer.

-

Searching a stream requires that the automaton was built with -MatchKind::Standard semantics. If this automaton was constructed -with leftmost semantics, then this method will panic. To determine -whether this will panic at runtime, use the -AhoCorasick::supports_stream -method.

-

Memory usage

-

In general, searching streams will use a constant amount of memory for -its internal buffer. The one requirement is that the internal buffer -must be at least the size of the longest possible match. In most use -cases, the default buffer size will be much larger than any individual -match.

-

Panics

-

This panics when AhoCorasick::supports_stream returns false. -That is, this panics when this automaton's match semantics are not -MatchKind::Standard. This restriction may be lifted in the future.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let patterns = &["fox", "brown", "quick"];
-let haystack = "The quick brown fox.";
-let replace_with = &["sloth", "grey", "slow"];
-
-let ac = AhoCorasick::new(patterns);
-let mut result = vec![];
-ac.stream_replace_all(haystack.as_bytes(), &mut result, replace_with)?;
-assert_eq!(b"The slow grey sloth.".to_vec(), result);
-

pub fn stream_replace_all_with<R, W, F>(
    &self,
    rdr: R,
    wtr: W,
    replace_with: F
) -> Result<()> where
    R: Read,
    W: Write,
    F: FnMut(&Match, &[u8], &mut W) -> Result<()>, 
[src]

Search the given reader and replace all matches of this automaton -using the given closure. The result is written to the given -writer. Matches correspond to the same matches as reported by -find_iter.

-

The closure accepts three parameters: the match found, the text of -the match and the writer with which to write the replaced text -(if any). If the closure returns true, then it continues to the next -match. If the closure returns false, then searching is stopped.

-

After all matches are replaced, the writer is not flushed.

-

If there was a problem reading from the given reader or writing to the -given writer, then the corresponding io::Error is returned and all -replacement is stopped.

-

When searching a stream, an internal buffer is used. Therefore, callers -should avoiding providing a buffered reader, if possible. However, -callers may want to provide a buffered writer.

-

Searching a stream requires that the automaton was built with -MatchKind::Standard semantics. If this automaton was constructed -with leftmost semantics, then this method will panic. To determine -whether this will panic at runtime, use the -AhoCorasick::supports_stream -method.

-

Memory usage

-

In general, searching streams will use a constant amount of memory for -its internal buffer. The one requirement is that the internal buffer -must be at least the size of the longest possible match. In most use -cases, the default buffer size will be much larger than any individual -match.

-

Panics

-

This panics when AhoCorasick::supports_stream returns false. -That is, this panics when this automaton's match semantics are not -MatchKind::Standard. This restriction may be lifted in the future.

-

Examples

-

Basic usage:

- -
-use std::io::Write;
-use aho_corasick::AhoCorasick;
-
-let patterns = &["fox", "brown", "quick"];
-let haystack = "The quick brown fox.";
-
-let ac = AhoCorasick::new(patterns);
-let mut result = vec![];
-ac.stream_replace_all_with(
-    haystack.as_bytes(),
-    &mut result,
-    |mat, _, wtr| {
-        wtr.write_all(mat.pattern().to_string().as_bytes())
-    },
-)?;
-assert_eq!(b"The 2 1 0.".to_vec(), result);
-

pub fn match_kind(&self) -> &MatchKind[src]

Returns the match kind used by this automaton.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasick, MatchKind};
-
-let ac = AhoCorasick::new(&[
-    "foo", "bar", "quux", "baz",
-]);
-assert_eq!(&MatchKind::Standard, ac.match_kind());
-

pub fn max_pattern_len(&self) -> usize[src]

Returns the length of the longest pattern matched by this automaton.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new(&[
-    "foo", "bar", "quux", "baz",
-]);
-assert_eq!(4, ac.max_pattern_len());
-

pub fn pattern_count(&self) -> usize[src]

Return the total number of patterns matched by this automaton.

-

This includes patterns that may never participate in a match. For -example, if -MatchKind::LeftmostFirst -match semantics are used, and the patterns Sam and Samwise were -used to build the automaton, then Samwise can never participate in a -match because Sam will always take priority.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new(&[
-    "foo", "bar", "baz",
-]);
-assert_eq!(3, ac.pattern_count());
-

pub fn supports_overlapping(&self) -> bool[src]

Returns true if and only if this automaton supports reporting -overlapping matches.

-

If this returns false and overlapping matches are requested, then it -will result in a panic.

-

Since leftmost matching is inherently incompatible with overlapping -matches, only -MatchKind::Standard -supports overlapping matches. This is unlikely to change in the future.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::Standard)
-    .build(&["foo", "bar", "baz"]);
-assert!(ac.supports_overlapping());
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(&["foo", "bar", "baz"]);
-assert!(!ac.supports_overlapping());
-

pub fn supports_stream(&self) -> bool[src]

Returns true if and only if this automaton supports stream searching.

-

If this returns false and stream searching (or replacing) is attempted, -then it will result in a panic.

-

Currently, only -MatchKind::Standard -supports streaming. This may be expanded in the future.

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::Standard)
-    .build(&["foo", "bar", "baz"]);
-assert!(ac.supports_stream());
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(&["foo", "bar", "baz"]);
-assert!(!ac.supports_stream());
-

pub fn heap_bytes(&self) -> usize[src]

Returns the total amount of heap used by this automaton, in units of -bytes.

-

Examples

-

This example shows the difference in heap usage between a few -configurations:

- -
This example is not tested
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let ac = AhoCorasickBuilder::new()
-    .dfa(false) // default
-    .build(&["foo", "bar", "baz"]);
-assert_eq!(10_336, ac.heap_bytes());
-
-let ac = AhoCorasickBuilder::new()
-    .dfa(false) // default
-    .ascii_case_insensitive(true)
-    .build(&["foo", "bar", "baz"]);
-assert_eq!(10_384, ac.heap_bytes());
-
-let ac = AhoCorasickBuilder::new()
-    .dfa(true)
-    .byte_classes(false)
-    .build(&["foo", "bar", "baz"]);
-assert_eq!(20_768, ac.heap_bytes());
-
-let ac = AhoCorasickBuilder::new()
-    .dfa(true)
-    .byte_classes(true) // default
-    .build(&["foo", "bar", "baz"]);
-assert_eq!(1_248, ac.heap_bytes());
-
-let ac = AhoCorasickBuilder::new()
-    .dfa(true)
-    .ascii_case_insensitive(true)
-    .build(&["foo", "bar", "baz"]);
-assert_eq!(1_248, ac.heap_bytes());
-

Trait Implementations

impl<S: Clone + StateID> Clone for AhoCorasick<S>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<S: Debug + StateID> Debug for AhoCorasick<S>[src]

Auto Trait Implementations

impl<S> Send for AhoCorasick<S> where
    S: Send

impl<S> Sync for AhoCorasick<S> where
    S: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/struct.AhoCorasickBuilder.html b/target/doc/aho_corasick/struct.AhoCorasickBuilder.html deleted file mode 100644 index 3270e71..0000000 --- a/target/doc/aho_corasick/struct.AhoCorasickBuilder.html +++ /dev/null @@ -1,256 +0,0 @@ -aho_corasick::AhoCorasickBuilder - Rust

[][src]Struct aho_corasick::AhoCorasickBuilder

pub struct AhoCorasickBuilder { /* fields omitted */ }

A builder for configuring an Aho-Corasick automaton.

-

Methods

impl AhoCorasickBuilder[src]

pub fn new() -> AhoCorasickBuilder[src]

Create a new builder for configuring an Aho-Corasick automaton.

-

If you don't need fine grained configuration or aren't sure which knobs -to set, try using -AhoCorasick::new_auto_configured -instead.

-

pub fn build<I, P>(&self, patterns: I) -> AhoCorasick where
    I: IntoIterator<Item = P>,
    P: AsRef<[u8]>, 
[src]

Build an Aho-Corasick automaton using the configuration set on this -builder.

-

A builder may be reused to create more automatons.

-

This method will use the default for representing internal state -identifiers, which is usize. This guarantees that building the -automaton will succeed and is generally a good default, but can make -the size of the automaton 2-8 times bigger than it needs to be, -depending on your target platform.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["foo", "bar", "baz"];
-let ac = AhoCorasickBuilder::new()
-    .build(patterns);
-assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-

pub fn build_with_size<S, I, P>(
    &self,
    patterns: I
) -> Result<AhoCorasick<S>, Error> where
    S: StateID,
    I: IntoIterator<Item = P>,
    P: AsRef<[u8]>, 
[src]

Build an Aho-Corasick automaton using the configuration set on this -builder with a specific state identifier representation. This only has -an effect when the dfa option is enabled.

-

Generally, the choices for a state identifier representation are -u8, u16, u32, u64 or usize, with usize being the default. -The advantage of choosing a smaller state identifier representation -is that the automaton produced will be smaller. This might be -beneficial for just generally using less space, or might even allow it -to fit more of the automaton in your CPU's cache, leading to overall -better search performance.

-

Unlike the standard build method, this can report an error if the -state identifier representation cannot support the size of the -automaton.

-

Note that the state identifier representation is determined by the -S type variable. This requires a type hint of some sort, either -by specifying the return type or using the turbofish, e.g., -build_with_size::<u16, _, _>(...).

-

Examples

-

Basic usage:

- -
-use aho_corasick::{AhoCorasick, AhoCorasickBuilder};
-
-let patterns = &["foo", "bar", "baz"];
-let ac: AhoCorasick<u8> = AhoCorasickBuilder::new()
-    .build_with_size(patterns)?;
-assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-

Or alternatively, with turbofish:

- -
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["foo", "bar", "baz"];
-let ac = AhoCorasickBuilder::new()
-    .build_with_size::<u8, _, _>(patterns)?;
-assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-

pub fn auto_configure<B: AsRef<[u8]>>(
    &mut self,
    patterns: &[B]
) -> &mut AhoCorasickBuilder
[src]

Automatically configure the settings on this builder according to the -patterns that will be used to construct the automaton.

-

The idea here is to balance space and time automatically. That is, when -searching a small number of patterns, this will attempt to use the -fastest possible configuration since the total space required will be -small anyway. As the number of patterns grows, this will fall back to -slower configurations that use less space.

-

This is guaranteed to never set match_kind, but any other option may -be overridden.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["foo", "bar", "baz"];
-let ac = AhoCorasickBuilder::new()
-    .auto_configure(patterns)
-    .build(patterns);
-assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-

pub fn match_kind(&mut self, kind: MatchKind) -> &mut AhoCorasickBuilder[src]

Set the desired match semantics.

-

The default is MatchKind::Standard, which corresponds to the match -semantics supported by the standard textbook description of the -Aho-Corasick algorithm. Namely, matches are reported as soon as they -are found. Moreover, this is the only way to get overlapping matches -or do stream searching.

-

The other kinds of match semantics that are supported are -MatchKind::LeftmostFirst and MatchKind::LeftmostLongest. The former -corresponds to the match you would get if you were to try to match -each pattern at each position in the haystack in the same order that -you give to the automaton. That is, it returns the leftmost match -corresponding the earliest pattern given to the automaton. The latter -corresponds to finding the longest possible match among all leftmost -matches.

-

For more details on match semantics, see the -documentation for MatchKind.

-

Examples

-

In these examples, we demonstrate the differences between match -semantics for a particular set of patterns in a specific order: -b, abc, abcd.

-

Standard semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["b", "abc", "abcd"];
-let haystack = "abcd";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::Standard) // default, not necessary
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("b", &haystack[mat.start()..mat.end()]);
-

Leftmost-first semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["b", "abc", "abcd"];
-let haystack = "abcd";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("abc", &haystack[mat.start()..mat.end()]);
-

Leftmost-longest semantics:

- -
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["b", "abc", "abcd"];
-let haystack = "abcd";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostLongest)
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("abcd", &haystack[mat.start()..mat.end()]);
-

pub fn ascii_case_insensitive(&mut self, yes: bool) -> &mut AhoCorasickBuilder[src]

Enable ASCII-aware case insensitive matching.

-

When this option is enabled, searching will be performed without -respect to case for ASCII letters (a-z and A-Z) only.

-

Enabling this option does not change the search algorithm, but it may -increase the size of the automaton.

-

NOTE: In the future, support for full Unicode case insensitivity -may be added, but ASCII case insensitivity is comparatively much -simpler to add.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["FOO", "bAr", "BaZ"];
-let haystack = "foo bar baz";
-
-let ac = AhoCorasickBuilder::new()
-    .ascii_case_insensitive(true)
-    .build(patterns);
-assert_eq!(3, ac.find_iter(haystack).count());
-

pub fn dense_depth(&mut self, depth: usize) -> &mut AhoCorasickBuilder[src]

Set the limit on how many NFA states use a dense representation for -their transitions.

-

A dense representation uses more space, but supports faster access to -transitions at search time. Thus, this setting permits the control of a -space vs time trade off when using the NFA variant of Aho-Corasick.

-

This limit is expressed in terms of the depth of a state, i.e., the -number of transitions from the starting state of the NFA. The idea is -that most of the time searching will be spent near the starting state -of the automaton, so states near the start state should use a dense -representation. States further away from the start state would then use -a sparse representation, which uses less space but is slower to access -transitions at search time.

-

By default, this is set to a low but non-zero number.

-

This setting has no effect if the dfa option is enabled.

-

pub fn dfa(&mut self, yes: bool) -> &mut AhoCorasickBuilder[src]

Compile the standard Aho-Corasick automaton into a deterministic finite -automaton (DFA).

-

When this is disabled (which is the default), then a non-deterministic -finite automaton (NFA) is used instead.

-

The main benefit to a DFA is that it can execute searches more quickly -than a DFA (perhaps 2-4 times as fast). The main drawback is that the -DFA uses more space and can take much longer to build.

-

Enabling this option does not change the time complexity for -constructing the Aho-Corasick automaton (which is O(p) where -p is the total number of patterns being compiled). Enabling this -option does however reduce the time complexity of non-overlapping -searches from O(n + p) to O(n), where n is the length of the -haystack.

-

In general, it's a good idea to enable this if you're searching a -small number of fairly short patterns (~1000), or if you want the -fastest possible search without regard to compilation time or space -usage.

-

pub fn prefilter(&mut self, yes: bool) -> &mut AhoCorasickBuilder[src]

Enable heuristic prefilter optimizations.

-

When enabled, searching will attempt to quickly skip to match -candidates using specialized literal search routines. A prefilter -cannot always be used, and is generally treated as a heuristic. It -can be useful to disable this if the prefilter is observed to be -sub-optimal for a particular workload.

-

This is enabled by default.

-

pub fn byte_classes(&mut self, yes: bool) -> &mut AhoCorasickBuilder[src]

Shrink the size of the transition alphabet by mapping bytes to their -equivalence classes. This only has an effect when the dfa option is -enabled.

-

When enabled, each a DFA will use a map from all possible bytes -to their corresponding equivalence class. Each equivalence class -represents a set of bytes that does not discriminate between a match -and a non-match in the DFA. For example, the patterns bar and baz -have at least five equivalence classes: singleton sets of b, a, r -and z, and a final set that contains every other byte.

-

The advantage of this map is that the size of the transition table can -be reduced drastically from #states * 256 * sizeof(id) to -#states * k * sizeof(id) where k is the number of equivalence -classes. As a result, total space usage can decrease substantially. -Moreover, since a smaller alphabet is used, compilation becomes faster -as well.

-

The disadvantage of this map is that every byte searched must be -passed through this map before it can be used to determine the next -transition. This has a small match time performance cost. However, if -the DFA is otherwise very large without byte classes, then using byte -classes can greatly improve memory locality and thus lead to better -overall performance.

-

This option is enabled by default.

-

pub fn premultiply(&mut self, yes: bool) -> &mut AhoCorasickBuilder[src]

Premultiply state identifiers in the transition table. This only has -an effect when the dfa option is enabled.

-

When enabled, state identifiers are premultiplied to point to their -corresponding row in the transition table. That is, given the ith -state, its corresponding premultiplied identifier is i * k where k -is the alphabet size of the automaton. (The alphabet size is at most -256, but is in practice smaller if byte classes is enabled.)

-

When state identifiers are not premultiplied, then the identifier of -the ith state is i.

-

The advantage of premultiplying state identifiers is that is saves a -multiplication instruction per byte when searching with a DFA. This has -been observed to lead to a 20% performance benefit in micro-benchmarks.

-

The primary disadvantage of premultiplying state identifiers is -that they require a larger integer size to represent. For example, -if the DFA has 200 states, then its premultiplied form requires 16 -bits to represent every possible state identifier, where as its -non-premultiplied form only requires 8 bits.

-

This option is enabled by default.

-

Trait Implementations

impl Clone for AhoCorasickBuilder[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for AhoCorasickBuilder[src]

impl Debug for AhoCorasickBuilder[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/struct.Error.html b/target/doc/aho_corasick/struct.Error.html deleted file mode 100644 index 0586679..0000000 --- a/target/doc/aho_corasick/struct.Error.html +++ /dev/null @@ -1,26 +0,0 @@ -aho_corasick::Error - Rust

[][src]Struct aho_corasick::Error

pub struct Error { /* fields omitted */ }

An error that occurred during the construction of an Aho-Corasick -automaton.

-

Methods

impl Error[src]

pub fn kind(&self) -> &ErrorKind[src]

Return the kind of this error.

-

Trait Implementations

impl Clone for Error[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Display for Error[src]

impl Debug for Error[src]

impl Error for Error[src]

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/struct.FindIter.html b/target/doc/aho_corasick/struct.FindIter.html deleted file mode 100644 index 0b8b508..0000000 --- a/target/doc/aho_corasick/struct.FindIter.html +++ /dev/null @@ -1,89 +0,0 @@ -aho_corasick::FindIter - Rust

[][src]Struct aho_corasick::FindIter

pub struct FindIter<'a, 'b, S: 'a + StateID> { /* fields omitted */ }

An iterator of non-overlapping matches in a particular haystack.

-

This iterator yields matches according to the -MatchKind -used by this automaton.

-

This iterator is constructed via the -AhoCorasick::find_iter -method.

-

The type variable S refers to the representation used for state -identifiers. (By default, this is usize.)

-

The lifetime 'a refers to the lifetime of the AhoCorasick automaton.

-

The lifetime 'b refers to the lifetime of the haystack being searched.

-

Trait Implementations

impl<'a, 'b, S: StateID> Iterator for FindIter<'a, 'b, S>[src]

type Item = Match

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a, 'b, S: Debug + 'a + StateID> Debug for FindIter<'a, 'b, S>[src]

Auto Trait Implementations

impl<'a, 'b, S> Send for FindIter<'a, 'b, S> where
    S: Send + Sync

impl<'a, 'b, S> Sync for FindIter<'a, 'b, S> where
    S: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/struct.FindOverlappingIter.html b/target/doc/aho_corasick/struct.FindOverlappingIter.html deleted file mode 100644 index 010e4a0..0000000 --- a/target/doc/aho_corasick/struct.FindOverlappingIter.html +++ /dev/null @@ -1,88 +0,0 @@ -aho_corasick::FindOverlappingIter - Rust

[][src]Struct aho_corasick::FindOverlappingIter

pub struct FindOverlappingIter<'a, 'b, S: 'a + StateID> { /* fields omitted */ }

An iterator of overlapping matches in a particular haystack.

-

This iterator will report all possible matches in a particular haystack, -even when the matches overlap.

-

This iterator is constructed via the -AhoCorasick::find_overlapping_iter -method.

-

The type variable S refers to the representation used for state -identifiers. (By default, this is usize.)

-

The lifetime 'a refers to the lifetime of the AhoCorasick automaton.

-

The lifetime 'b refers to the lifetime of the haystack being searched.

-

Trait Implementations

impl<'a, 'b, S: StateID> Iterator for FindOverlappingIter<'a, 'b, S>[src]

type Item = Match

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a, 'b, S: Debug + 'a + StateID> Debug for FindOverlappingIter<'a, 'b, S>[src]

Auto Trait Implementations

impl<'a, 'b, S> Send for FindOverlappingIter<'a, 'b, S> where
    S: Send + Sync

impl<'a, 'b, S> Sync for FindOverlappingIter<'a, 'b, S> where
    S: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/struct.Match.html b/target/doc/aho_corasick/struct.Match.html deleted file mode 100644 index 5da98ef..0000000 --- a/target/doc/aho_corasick/struct.Match.html +++ /dev/null @@ -1,49 +0,0 @@ -aho_corasick::Match - Rust

[][src]Struct aho_corasick::Match

pub struct Match { /* fields omitted */ }

A representation of a match reported by an Aho-Corasick automaton.

-

A match has two essential pieces of information: the identifier of the -pattern that matched, along with the start and end offsets of the match -in the haystack.

-

Examples

-

Basic usage:

- -
-use aho_corasick::AhoCorasick;
-
-let ac = AhoCorasick::new(&[
-    "foo", "bar", "baz",
-]);
-let mat = ac.find("xxx bar xxx").expect("should have a match");
-assert_eq!(1, mat.pattern());
-assert_eq!(4, mat.start());
-assert_eq!(7, mat.end());
-

Methods

impl Match[src]

pub fn pattern(&self) -> usize[src]

Returns the identifier of the pattern that matched.

-

The identifier of a pattern is derived from the position in which it -was originally inserted into the corresponding automaton. The first -pattern has identifier 0, and each subsequent pattern is 1, 2 -and so on.

-

pub fn start(&self) -> usize[src]

The starting position of the match.

-

pub fn end(&self) -> usize[src]

The ending position of the match.

-

pub fn is_empty(&self) -> bool[src]

Returns true if and only if this match is empty. That is, when -start() == end().

-

An empty match can only be returned when the empty string was among -the patterns used to build the Aho-Corasick automaton.

-

Trait Implementations

impl PartialEq<Match> for Match[src]

impl Clone for Match[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Match[src]

impl Debug for Match[src]

impl Hash for Match[src]

fn hash_slice<H>(data: &[Self], state: &mut H) where
    H: Hasher
1.3.0[src]

Feeds a slice of this type into the given [Hasher]. Read more

-

Auto Trait Implementations

impl Send for Match

impl Sync for Match

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/struct.StreamFindIter.html b/target/doc/aho_corasick/struct.StreamFindIter.html deleted file mode 100644 index 9c20087..0000000 --- a/target/doc/aho_corasick/struct.StreamFindIter.html +++ /dev/null @@ -1,90 +0,0 @@ -aho_corasick::StreamFindIter - Rust

[][src]Struct aho_corasick::StreamFindIter

pub struct StreamFindIter<'a, R, S: 'a + StateID> { /* fields omitted */ }

An iterator that reports Aho-Corasick matches in a stream.

-

This iterator yields elements of type io::Result<Match>, where an error -is reported if there was a problem reading from the underlying stream. -The iterator terminates only when the underlying stream reaches EOF.

-

This iterator is constructed via the -AhoCorasick::stream_find_iter -method.

-

The type variable R refers to the io::Read stream that is being read -from.

-

The type variable S refers to the representation used for state -identifiers. (By default, this is usize.)

-

The lifetime 'a refers to the lifetime of the AhoCorasick automaton.

-

Trait Implementations

impl<'a, R: Read, S: StateID> Iterator for StreamFindIter<'a, R, S>[src]

type Item = Result<Match>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a, R: Debug, S: Debug + 'a + StateID> Debug for StreamFindIter<'a, R, S>[src]

Auto Trait Implementations

impl<'a, R, S> Send for StreamFindIter<'a, R, S> where
    R: Send,
    S: Send + Sync

impl<'a, R, S> Sync for StreamFindIter<'a, R, S> where
    R: Sync,
    S: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/aho_corasick/trait.StateID.html b/target/doc/aho_corasick/trait.StateID.html deleted file mode 100644 index 89f9169..0000000 --- a/target/doc/aho_corasick/trait.StateID.html +++ /dev/null @@ -1,43 +0,0 @@ -aho_corasick::StateID - Rust

[][src]Trait aho_corasick::StateID

pub unsafe trait StateID: Sealed + Clone + Copy + Debug + Eq + Hash + PartialEq + PartialOrd + Ord {
-    fn from_usize(n: usize) -> Self;
-
fn to_usize(self) -> usize; -
fn max_id() -> usize; -}

A trait describing the representation of an automaton's state identifier.

-

The purpose of this trait is to safely express both the possible state -identifier representations that can be used in an automaton and to convert -between state identifier representations and types that can be used to -efficiently index memory (such as usize).

-

In general, one should not need to implement this trait explicitly. Indeed, -for now, this trait is sealed such that it cannot be implemented by any -other type. In particular, this crate provides implementations for u8, -u16, u32, u64 and usize. (u32 and u64 are only provided for -targets that can represent all corresponding values in a usize.)

-

Safety

-

This trait is unsafe because the correctness of its implementations may be -relied upon by other unsafe code. For example, one possible way to -implement this trait incorrectly would be to return a maximum identifier -in max_id that is greater than the real maximum identifier. This will -likely result in wrap-on-overflow semantics in release mode, which can in -turn produce incorrect state identifiers. Those state identifiers may then -in turn access out-of-bounds memory in an automaton's search routine, where -bounds checks are explicitly elided for performance reasons.

-
-

Required methods

fn from_usize(n: usize) -> Self

Convert from a usize to this implementation's representation.

-

Implementors may assume that n <= Self::max_id. That is, implementors -do not need to check whether n can fit inside this implementation's -representation.

-

fn to_usize(self) -> usize

Convert this implementation's representation to a usize.

-

Implementors must not return a usize value greater than -Self::max_id and must not permit overflow when converting between the -implementor's representation and usize. In general, the preferred -way for implementors to achieve this is to simply not provide -implementations of StateID that cannot fit into the target platform's -usize.

-

fn max_id() -> usize

Return the maximum state identifier supported by this representation.

-

Implementors must return a correct bound. Doing otherwise may result -in memory unsafety.

-
Loading content... -

Implementations on Foreign Types

impl StateID for usize[src]

impl StateID for u8[src]

impl StateID for u16[src]

impl StateID for u32[src]

impl StateID for u64[src]

Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/aliases.js b/target/doc/aliases.js deleted file mode 100644 index 30cd9e2..0000000 --- a/target/doc/aliases.js +++ /dev/null @@ -1,17 +0,0 @@ -var ALIASES = {}; -ALIASES["aho_corasick"] = {}; -ALIASES["c2_chacha"] = {}; -ALIASES["cfg_if"] = {}; -ALIASES["getrandom"] = {}; -ALIASES["lazy_static"] = {}; -ALIASES["memchr"] = {}; -ALIASES["owoify"] = {}; -ALIASES["ppv_lite86"] = {}; -ALIASES["rand"] = {}; -ALIASES["rand_chacha"] = {}; -ALIASES["rand_core"] = {}; -ALIASES["regex"] = {}; -ALIASES["regex_syntax"] = {}; -ALIASES["thread_local"] = {}; -ALIASES["ucd_util"] = {}; -ALIASES["utf8_ranges"] = {}; diff --git a/target/doc/brush.svg b/target/doc/brush.svg deleted file mode 100644 index 072264a..0000000 --- a/target/doc/brush.svg +++ /dev/null @@ -1 +0,0 @@ - \ No newline at end of file diff --git a/target/doc/c2_chacha/all.html b/target/doc/c2_chacha/all.html deleted file mode 100644 index 09427d2..0000000 --- a/target/doc/c2_chacha/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Traits

\ No newline at end of file diff --git a/target/doc/c2_chacha/guts/index.html b/target/doc/c2_chacha/guts/index.html deleted file mode 100644 index 7dd0cb1..0000000 --- a/target/doc/c2_chacha/guts/index.html +++ /dev/null @@ -1,3 +0,0 @@ -c2_chacha::guts - Rust

[][src]Module c2_chacha::guts

Structs

-
ChaCha
State

Traits

-
Machine
\ No newline at end of file diff --git a/target/doc/c2_chacha/guts/sidebar-items.js b/target/doc/c2_chacha/guts/sidebar-items.js deleted file mode 100644 index fe17ac6..0000000 --- a/target/doc/c2_chacha/guts/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["ChaCha",""],["State",""]],"trait":[["Machine",""]]}); \ No newline at end of file diff --git a/target/doc/c2_chacha/guts/struct.ChaCha.html b/target/doc/c2_chacha/guts/struct.ChaCha.html deleted file mode 100644 index a587738..0000000 --- a/target/doc/c2_chacha/guts/struct.ChaCha.html +++ /dev/null @@ -1,18 +0,0 @@ -c2_chacha::guts::ChaCha - Rust

[][src]Struct c2_chacha::guts::ChaCha

pub struct ChaCha { /* fields omitted */ }

Methods

impl ChaCha[src]

pub fn new(key: &[u8; 32], nonce: &[u8]) -> Self[src]

pub fn refill4(&mut self, drounds: u32, out: &mut [u8; 256])[src]

Produce 4 blocks of output, advancing the state

-

pub fn refill(&mut self, drounds: u32, out: &mut [u8; 64])[src]

Produce a block of output, advancing the state

-

pub fn set_stream_param(&mut self, param: u32, value: u64)[src]

pub fn get_stream_param(&self, param: u32) -> u64[src]

Trait Implementations

impl Clone for ChaCha[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for ChaCha

impl Sync for ChaCha

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/c2_chacha/guts/struct.State.html b/target/doc/c2_chacha/guts/struct.State.html deleted file mode 100644 index 124618d..0000000 --- a/target/doc/c2_chacha/guts/struct.State.html +++ /dev/null @@ -1,16 +0,0 @@ -c2_chacha::guts::State - Rust

[][src]Struct c2_chacha::guts::State

pub struct State<V> { /* fields omitted */ }

Trait Implementations

impl<V: Clone> Clone for State<V>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl<V> Send for State<V> where
    V: Send

impl<V> Sync for State<V> where
    V: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/c2_chacha/guts/trait.Machine.html b/target/doc/c2_chacha/guts/trait.Machine.html deleted file mode 100644 index c815460..0000000 --- a/target/doc/c2_chacha/guts/trait.Machine.html +++ /dev/null @@ -1,29 +0,0 @@ -c2_chacha::guts::Machine - Rust

[][src]Trait c2_chacha::guts::Machine

pub trait Machine: Copy {
-    type u32x4: u32x4<Self>;
-    type u64x2: u64x2<Self>;
-    type u128x1: u128x1<Self>;
-    type u32x4x2: u32x4x2<Self>;
-    type u64x2x2: u64x2x2<Self>;
-    type u64x4: u64x4<Self>;
-    type u128x2: u128x2<Self>;
-    type u32x4x4: u32x4x4<Self>;
-    type u64x2x4: u64x2x4<Self>;
-    type u128x4: u128x4<Self>;
-    unsafe fn instance() -> Self;
-
-    fn unpack<S, V>(self, s: S) -> V
    where
        V: Store<S>
, - { ... } -
fn vec<V, A>(self, a: A) -> V
    where
        V: MultiLane<A>
, - { ... } -
fn read_le<V>(self, input: &[u8]) -> V
    where
        V: StoreBytes
, - { ... } -
fn read_be<V>(self, input: &[u8]) -> V
    where
        V: StoreBytes
, - { ... } -}
-

Associated Types

type u32x4: u32x4<Self>

type u64x2: u64x2<Self>

type u128x1: u128x1<Self>

type u32x4x2: u32x4x2<Self>

type u64x2x2: u64x2x2<Self>

type u64x4: u64x4<Self>

type u128x2: u128x2<Self>

type u32x4x4: u32x4x4<Self>

type u64x2x4: u64x2x4<Self>

type u128x4: u128x4<Self>

Loading content... -

Required methods

unsafe fn instance() -> Self

Loading content... -

Provided methods

fn unpack<S, V>(self, s: S) -> V where
    V: Store<S>, 

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes

Loading content... -

Implementations on Foreign Types

impl<S3, S4, NI> Machine for SseMachine<S3, S4, NI> where
    NI: Copy,
    S3: Copy,
    S4: Copy,
    u128x1_sse2<S3, S4, NI>: Swap64,
    u64x2_sse2<S3, S4, NI>: BSwap,
    u64x2_sse2<S3, S4, NI>: RotateEachWord32,
    u64x2_sse2<S3, S4, NI>: MultiLane<[u64; 2]>,
    u64x2_sse2<S3, S4, NI>: Vec2<u64>,
    u32x4_sse2<S3, S4, NI>: BSwap,
    u32x4_sse2<S3, S4, NI>: RotateEachWord32,
    u32x4_sse2<S3, S4, NI>: MultiLane<[u32; 4]>,
    u32x4_sse2<S3, S4, NI>: Vec4<u32>,
    x2<u64x2_sse2<S3, S4, NI>, G1>: BSwap,
    x2<u64x2_sse2<S3, S4, NI>, G1>: Words4,
    u128x1_sse2<S3, S4, NI>: BSwap,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u64x2_sse2<S3, S4, NI>, G0>>,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u64x2_sse2<S3, S4, NI>, G1>>,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u32x4_sse2<S3, S4, NI>, G0>>,
    x4<u128x1_sse2<S3, S4, NI>>: Into<x4<u64x2_sse2<S3, S4, NI>>>,
    x4<u128x1_sse2<S3, S4, NI>>: Into<x4<u32x4_sse2<S3, S4, NI>>>, 
[src]

type u32x4 = u32x4_sse2<S3, S4, NI>

type u64x2 = u64x2_sse2<S3, S4, NI>

type u128x1 = u128x1_sse2<S3, S4, NI>

type u32x4x2 = x2<u32x4_sse2<S3, S4, NI>, G0>

type u64x2x2 = x2<u64x2_sse2<S3, S4, NI>, G0>

type u64x4 = x2<u64x2_sse2<S3, S4, NI>, G1>

type u128x2 = x2<u128x1_sse2<S3, S4, NI>, G0>

type u32x4x4 = x4<u32x4_sse2<S3, S4, NI>>

type u64x2x4 = x4<u64x2_sse2<S3, S4, NI>>

type u128x4 = x4<u128x1_sse2<S3, S4, NI>>

fn unpack<S, V>(self, s: S) -> V where
    V: Store<S>, 
[src]

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 
[src]

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

impl<NI> Machine for Avx2Machine<NI> where
    NI: Copy,
    u128x1_sse2<YesS3, YesS4, NI>: BSwap,
    u128x1_sse2<YesS3, YesS4, NI>: Swap64,
    u64x2_sse2<YesS3, YesS4, NI>: BSwap,
    u64x2_sse2<YesS3, YesS4, NI>: RotateEachWord32,
    u64x2_sse2<YesS3, YesS4, NI>: MultiLane<[u64; 2]>,
    u64x2_sse2<YesS3, YesS4, NI>: Vec2<u64>,
    u32x4_sse2<YesS3, YesS4, NI>: BSwap,
    u32x4_sse2<YesS3, YesS4, NI>: RotateEachWord32,
    u32x4_sse2<YesS3, YesS4, NI>: MultiLane<[u32; 4]>,
    u32x4_sse2<YesS3, YesS4, NI>: Vec4<u32>,
    x2<u64x2_sse2<YesS3, YesS4, NI>, G1>: BSwap,
    x2<u64x2_sse2<YesS3, YesS4, NI>, G1>: Words4
[src]

type u32x4 = u32x4_sse2<YesS3, YesS4, NI>

type u64x2 = u64x2_sse2<YesS3, YesS4, NI>

type u128x1 = u128x1_sse2<YesS3, YesS4, NI>

type u32x4x2 = x2<u32x4_sse2<YesS3, YesS4, NI>, G0>

type u64x2x2 = x2<u64x2_sse2<YesS3, YesS4, NI>, G0>

type u64x4 = x2<u64x2_sse2<YesS3, YesS4, NI>, G1>

type u128x2 = x2<u128x1_sse2<YesS3, YesS4, NI>, G0>

type u32x4x4 = u32x4x4_avx2<NI>

type u64x2x4 = x4<u64x2_sse2<YesS3, YesS4, NI>>

type u128x4 = x4<u128x1_sse2<YesS3, YesS4, NI>>

fn unpack<S, V>(self, s: S) -> V where
    V: Store<S>, 
[src]

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 
[src]

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/c2_chacha/index.html b/target/doc/c2_chacha/index.html deleted file mode 100644 index d8460f9..0000000 --- a/target/doc/c2_chacha/index.html +++ /dev/null @@ -1,28 +0,0 @@ -c2_chacha - Rust

[][src]Crate c2_chacha

Pure Rust ChaCha with SIMD optimizations.

-

Stream-cipher usage:

- -
-extern crate c2_chacha;
-
-use c2_chacha::stream_cipher::{NewStreamCipher, SyncStreamCipher, SyncStreamCipherSeek};
-use c2_chacha::{ChaCha20, ChaCha12};
-
-let key = b"very secret key-the most secret.";
-let iv = b"my nonce";
-let plaintext = b"The quick brown fox jumps over the lazy dog.";
-
-let mut buffer = plaintext.to_vec();
-// create cipher instance
-let mut cipher = ChaCha20::new_var(key, iv).unwrap();
-// apply keystream (encrypt)
-cipher.apply_keystream(&mut buffer);
-// and decrypt it back
-cipher.seek(0);
-cipher.apply_keystream(&mut buffer);
-// stream ciphers can be used with streaming messages
-let mut cipher = ChaCha12::new_var(key, iv).unwrap();
-for chunk in buffer.chunks_mut(3) {
-    cipher.apply_keystream(chunk);
-}
-

Modules

-
guts
\ No newline at end of file diff --git a/target/doc/c2_chacha/sidebar-items.js b/target/doc/c2_chacha/sidebar-items.js deleted file mode 100644 index ea58fe3..0000000 --- a/target/doc/c2_chacha/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"mod":[["guts",""]]}); \ No newline at end of file diff --git a/target/doc/cfg_if/all.html b/target/doc/cfg_if/all.html deleted file mode 100644 index b4c79f3..0000000 --- a/target/doc/cfg_if/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Macros

\ No newline at end of file diff --git a/target/doc/cfg_if/index.html b/target/doc/cfg_if/index.html deleted file mode 100644 index 43b04d7..0000000 --- a/target/doc/cfg_if/index.html +++ /dev/null @@ -1,25 +0,0 @@ -cfg_if - Rust

[][src]Crate cfg_if

A macro for defining #[cfg] if-else statements.

-

The macro provided by this crate, cfg_if, is similar to the if/elif C -preprocessor macro by allowing definition of a cascade of #[cfg] cases, -emitting the implementation which matches first.

-

This allows you to conveniently provide a long list #[cfg]'d blocks of code -without having to rewrite each clause multiple times.

-

Example

-
-#[macro_use]
-extern crate cfg_if;
-
-cfg_if! {
-    if #[cfg(unix)] {
-        fn foo() { /* unix specific functionality */ }
-    } else if #[cfg(target_pointer_width = "32")] {
-        fn foo() { /* non-unix, 32-bit functionality */ }
-    } else {
-        fn foo() { /* fallback implementation */ }
-    }
-}
-
-

Macros

-
cfg_if

The main macro provided by this crate. See crate documentation for more -information.

-
\ No newline at end of file diff --git a/target/doc/cfg_if/macro.cfg_if!.html b/target/doc/cfg_if/macro.cfg_if!.html deleted file mode 100644 index 36f9a6d..0000000 --- a/target/doc/cfg_if/macro.cfg_if!.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to macro.cfg_if.html...

- - - \ No newline at end of file diff --git a/target/doc/cfg_if/macro.cfg_if.html b/target/doc/cfg_if/macro.cfg_if.html deleted file mode 100644 index d80c207..0000000 --- a/target/doc/cfg_if/macro.cfg_if.html +++ /dev/null @@ -1,20 +0,0 @@ -cfg_if::cfg_if - Rust

[][src]Macro cfg_if::cfg_if

-macro_rules! cfg_if {
-    ($(
-        if #[cfg($($meta:meta),*)] { $($it:item)* }
-    ) else * else {
-        $($it2:item)*
-    }) => { ... };
-    (
-        if #[cfg($($i_met:meta),*)] { $($i_it:item)* }
-        $(
-            else if #[cfg($($e_met:meta),*)] { $($e_it:item)* }
-        )*
-    ) => { ... };
-    (@__items ($($not:meta,)*) ; ) => { ... };
-    (@__items ($($not:meta,)*) ; ( ($($m:meta),*) ($($it:item)*) ), $($rest:tt)*) => { ... };
-    (@__apply $m:meta, $($it:item)*) => { ... };
-}
-

The main macro provided by this crate. See crate documentation for more -information.

-
\ No newline at end of file diff --git a/target/doc/cfg_if/sidebar-items.js b/target/doc/cfg_if/sidebar-items.js deleted file mode 100644 index dbc0f91..0000000 --- a/target/doc/cfg_if/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"macro":[["cfg_if","The main macro provided by this crate. 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[] - - List of all items

Structs

Functions

\ No newline at end of file diff --git a/target/doc/getrandom/error/struct.Error.html b/target/doc/getrandom/error/struct.Error.html deleted file mode 100644 index 20453a6..0000000 --- a/target/doc/getrandom/error/struct.Error.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../getrandom/struct.Error.html...

- - - \ No newline at end of file diff --git a/target/doc/getrandom/fn.getrandom.html b/target/doc/getrandom/fn.getrandom.html deleted file mode 100644 index 46f7cb9..0000000 --- a/target/doc/getrandom/fn.getrandom.html +++ /dev/null @@ -1,9 +0,0 @@ -getrandom::getrandom - Rust

[][src]Function getrandom::getrandom

pub fn getrandom(dest: &mut [u8]) -> Result<(), Error>

Fill dest with random bytes from the system's preferred random number -source.

-

This function returns an error on any failure, including partial reads. We -make no guarantees regarding the contents of dest on error.

-

Blocking is possible, at least during early boot; see module documentation.

-

In general, getrandom will be fast enough for interactive usage, though -significantly slower than a user-space CSPRNG; for the latter consider -rand::thread_rng.

-
\ No newline at end of file diff --git a/target/doc/getrandom/index.html b/target/doc/getrandom/index.html deleted file mode 100644 index f42b733..0000000 --- a/target/doc/getrandom/index.html +++ /dev/null @@ -1,64 +0,0 @@ -getrandom - Rust

[][src]Crate getrandom

Interface to the random number generator of the operating system.

-

Platform sources

- - - - - - - - - - - - - - - - - - -
OSinterface
Linux, Androidgetrandom system call if available, otherwise /dev/urandom after reading from /dev/random once
WindowsRtlGenRandom
macOSgetentropy() if available, otherwise /dev/random (identical to /dev/urandom)
iOSSecRandomCopyBytes
FreeBSDgetrandom() if available, otherwise kern.arandom
OpenBSDgetentropy
NetBSD/dev/urandom after reading from /dev/random once
Dragonfly BSD/dev/random
Solaris, illumosgetrandom system call if available, otherwise /dev/random
Fuchsia OScprng_draw
Redoxrand:
CloudABIcloudabi_sys_random_get
Haiku/dev/random (identical to /dev/urandom)
L4RE, SGX, UEFIRDRAND
HermitRDRAND as sys_rand is currently broken.
Web browsersCrypto.getRandomValues (see Support for WebAssembly and ams.js)
Node.jscrypto.randomBytes (see Support for WebAssembly and ams.js)
WASI__wasi_random_get
-

Getrandom doesn't have a blanket implementation for all Unix-like operating -systems that reads from /dev/urandom. This ensures all supported operating -systems are using the recommended interface and respect maximum buffer -sizes.

-

Support for WebAssembly and ams.js

-

The three Emscripten targets asmjs-unknown-emscripten, -wasm32-unknown-emscripten and wasm32-experimental-emscripten use -Emscripten's emulation of /dev/random on web browsers and Node.js.

-

The bare WASM target wasm32-unknown-unknown tries to call the javascript -methods directly, using either stdweb or wasm-bindgen depending on what -features are activated for this crate. Note that if both features are -enabled wasm-bindgen will be used. If neither feature is enabled, -getrandom will always fail.

-

The WASI target wasm32-wasi uses the __wasi_random_get function defined -by the WASI standard.

-

Early boot

-

It is possible that early in the boot process the OS hasn't had enough time -yet to collect entropy to securely seed its RNG, especially on virtual -machines.

-

Some operating systems always block the thread until the RNG is securely -seeded. This can take anywhere from a few seconds to more than a minute. -Others make a best effort to use a seed from before the shutdown and don't -document much.

-

A few, Linux, NetBSD and Solaris, offer a choice between blocking and -getting an error; in these cases we always choose to block.

-

On Linux (when the genrandom system call is not available) and on NetBSD -reading from /dev/urandom never blocks, even when the OS hasn't collected -enough entropy yet. To avoid returning low-entropy bytes, we first read from -/dev/random and only switch to /dev/urandom once this has succeeded.

-

Error handling

-

We always choose failure over returning insecure "random" bytes. In general, -on supported platforms, failure is highly unlikely, though not impossible. -If an error does occur, then it is likely that it will occur on every call to -getrandom, hence after the first successful call one can be reasonably -confident that no errors will occur.

-

On unsupported platforms, getrandom always fails. See the [Error] type -for more information on what data is returned on failure.

-

Structs

-
Error

A small and no_std compatible error type.

-

Functions

-
getrandom

Fill dest with random bytes from the system's preferred random number -source.

-
\ No newline at end of file diff --git a/target/doc/getrandom/sidebar-items.js b/target/doc/getrandom/sidebar-items.js deleted file mode 100644 index a6e84ce..0000000 --- a/target/doc/getrandom/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"fn":[["getrandom","Fill `dest` with random bytes from the system's preferred random number source."]],"struct":[["Error","A small and `no_std` compatible error type."]]}); \ No newline at end of file diff --git a/target/doc/getrandom/struct.Error.html b/target/doc/getrandom/struct.Error.html deleted file mode 100644 index d752d10..0000000 --- a/target/doc/getrandom/struct.Error.html +++ /dev/null @@ -1,46 +0,0 @@ -getrandom::Error - Rust

[][src]Struct getrandom::Error

pub struct Error(_);

A small and no_std compatible error type.

-

The [Error::raw_os_error()] will indicate if the error is from the OS, and -if so, which error code the OS gave the application. If such an error is -encountered, please consult with your system documentation.

-

Internally this type is a NonZeroU32, with certain values reserved for -certain purposes, see [Error::INTERNAL_START] and [Error::CUSTOM_START].

-

Methods

impl Error[src]

pub const UNKNOWN: Error[src]

Deprecated since 0.1.7

pub const UNAVAILABLE: Error[src]

Deprecated since 0.1.7

pub const INTERNAL_START: u32[src]

Codes below this point represent OS Errors (i.e. positive i32 values). -Codes at or above this point, but below [Error::CUSTOM_START] are -reserved for use by the rand and getrandom crates.

-

pub const CUSTOM_START: u32[src]

Codes at or above this point can be used by users to define their own -custom errors.

-

pub fn raw_os_error(&self) -> Option<i32>[src]

Extract the raw OS error code (if this error came from the OS)

-

This method is identical to std::io::Error::raw_os_error(), except -that it works in no_std contexts. If this method returns None, the -error value can still be formatted via the Diplay implementation.

-

pub fn code(&self) -> NonZeroU32[src]

Extract the bare error code.

-

This code can either come from the underlying OS, or be a custom error. -Use [Error::raw_os_error()] to disambiguate.

-

Trait Implementations

impl PartialEq<Error> for Error[src]

impl Eq for Error[src]

impl From<NonZeroU32> for Error[src]

impl From<Error> for Error[src]

impl From<Error> for Error[src]

impl Display for Error[src]

impl Debug for Error[src]

impl Copy for Error[src]

impl Clone for Error[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Error for Error[src]

fn description(&self) -> &str1.0.0[src]

This method is soft-deprecated. Read more

-

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/implementors/aho_corasick/trait.StateID.js b/target/doc/implementors/aho_corasick/trait.StateID.js deleted file mode 100644 index d87c946..0000000 --- a/target/doc/implementors/aho_corasick/trait.StateID.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/c2_chacha/guts/trait.Machine.js b/target/doc/implementors/c2_chacha/guts/trait.Machine.js deleted file mode 100644 index c1151a4..0000000 --- a/target/doc/implementors/c2_chacha/guts/trait.Machine.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["c2_chacha"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/clone/trait.Clone.js b/target/doc/implementors/core/clone/trait.Clone.js deleted file mode 100644 index 598282f..0000000 --- a/target/doc/implementors/core/clone/trait.Clone.js +++ /dev/null @@ -1,19 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl<S: Clone + StateID> Clone for AhoCorasick<S>",synthetic:false,types:["aho_corasick::ahocorasick::AhoCorasick"]},{text:"impl Clone for AhoCorasickBuilder",synthetic:false,types:["aho_corasick::ahocorasick::AhoCorasickBuilder"]},{text:"impl Clone for MatchKind",synthetic:false,types:["aho_corasick::ahocorasick::MatchKind"]},{text:"impl Clone for Error",synthetic:false,types:["aho_corasick::error::Error"]},{text:"impl Clone for ErrorKind",synthetic:false,types:["aho_corasick::error::ErrorKind"]},{text:"impl Clone for Match",synthetic:false,types:["aho_corasick::Match"]},]; -implementors["c2_chacha"] = [{text:"impl Clone for ChaCha",synthetic:false,types:["c2_chacha::guts::ChaCha"]},{text:"impl<V: Clone> Clone for State<V>",synthetic:false,types:["c2_chacha::guts::State"]},]; -implementors["getrandom"] = [{text:"impl Clone for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["ppv_lite86"] = [{text:"impl Clone for YesS3",synthetic:false,types:["ppv_lite86::x86_64::YesS3"]},{text:"impl Clone for NoS3",synthetic:false,types:["ppv_lite86::x86_64::NoS3"]},{text:"impl Clone for YesS4",synthetic:false,types:["ppv_lite86::x86_64::YesS4"]},{text:"impl Clone for NoS4",synthetic:false,types:["ppv_lite86::x86_64::NoS4"]},{text:"impl Clone for YesA1",synthetic:false,types:["ppv_lite86::x86_64::YesA1"]},{text:"impl Clone for NoA1",synthetic:false,types:["ppv_lite86::x86_64::NoA1"]},{text:"impl Clone for YesA2",synthetic:false,types:["ppv_lite86::x86_64::YesA2"]},{text:"impl Clone for NoA2",synthetic:false,types:["ppv_lite86::x86_64::NoA2"]},{text:"impl Clone for YesNI",synthetic:false,types:["ppv_lite86::x86_64::YesNI"]},{text:"impl Clone for NoNI",synthetic:false,types:["ppv_lite86::x86_64::NoNI"]},{text:"impl<S3: Clone, S4: Clone, NI: Clone> Clone for SseMachine<S3, S4, NI>",synthetic:false,types:["ppv_lite86::x86_64::SseMachine"]},{text:"impl<NI: Clone> Clone for Avx2Machine<NI>",synthetic:false,types:["ppv_lite86::x86_64::Avx2Machine"]},{text:"impl Clone for vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Clone for vec256_storage",synthetic:false,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Clone for vec512_storage",synthetic:false,types:["ppv_lite86::x86_64::vec512_storage"]},]; -implementors["rand"] = [{text:"impl<X: Clone + SampleUniform> Clone for Uniform<X> where
    X::Sampler: Clone
",synthetic:false,types:["rand::distributions::uniform::Uniform"]},{text:"impl<X: Clone> Clone for UniformInt<X>",synthetic:false,types:["rand::distributions::uniform::UniformInt"]},{text:"impl<X: Clone> Clone for UniformFloat<X>",synthetic:false,types:["rand::distributions::uniform::UniformFloat"]},{text:"impl Clone for UniformDuration",synthetic:false,types:["rand::distributions::uniform::UniformDuration"]},{text:"impl Clone for Bernoulli",synthetic:false,types:["rand::distributions::bernoulli::Bernoulli"]},{text:"impl Clone for BernoulliError",synthetic:false,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl<W: Weight> Clone for WeightedIndex<W> where
    Uniform<W>: Clone
",synthetic:false,types:["rand::distributions::weighted::alias_method::WeightedIndex"]},{text:"impl<X: Clone + SampleUniform + PartialOrd> Clone for WeightedIndex<X> where
    X::Sampler: Clone
",synthetic:false,types:["rand::distributions::weighted::WeightedIndex"]},{text:"impl Clone for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},{text:"impl Clone for UnitSphereSurface",synthetic:false,types:["rand::distributions::unit_sphere::UnitSphereSurface"]},{text:"impl Clone for UnitCircle",synthetic:false,types:["rand::distributions::unit_circle::UnitCircle"]},{text:"impl Clone for Gamma",synthetic:false,types:["rand::distributions::gamma::Gamma"]},{text:"impl Clone for ChiSquared",synthetic:false,types:["rand::distributions::gamma::ChiSquared"]},{text:"impl Clone for FisherF",synthetic:false,types:["rand::distributions::gamma::FisherF"]},{text:"impl Clone for StudentT",synthetic:false,types:["rand::distributions::gamma::StudentT"]},{text:"impl Clone for Beta",synthetic:false,types:["rand::distributions::gamma::Beta"]},{text:"impl Clone for StandardNormal",synthetic:false,types:["rand::distributions::normal::StandardNormal"]},{text:"impl Clone for Normal",synthetic:false,types:["rand::distributions::normal::Normal"]},{text:"impl Clone for LogNormal",synthetic:false,types:["rand::distributions::normal::LogNormal"]},{text:"impl Clone for Exp1",synthetic:false,types:["rand::distributions::exponential::Exp1"]},{text:"impl Clone for Exp",synthetic:false,types:["rand::distributions::exponential::Exp"]},{text:"impl Clone for Pareto",synthetic:false,types:["rand::distributions::pareto::Pareto"]},{text:"impl Clone for Poisson",synthetic:false,types:["rand::distributions::poisson::Poisson"]},{text:"impl Clone for Binomial",synthetic:false,types:["rand::distributions::binomial::Binomial"]},{text:"impl Clone for Cauchy",synthetic:false,types:["rand::distributions::cauchy::Cauchy"]},{text:"impl Clone for Dirichlet",synthetic:false,types:["rand::distributions::dirichlet::Dirichlet"]},{text:"impl Clone for Triangular",synthetic:false,types:["rand::distributions::triangular::Triangular"]},{text:"impl Clone for Weibull",synthetic:false,types:["rand::distributions::weibull::Weibull"]},{text:"impl Clone for OpenClosed01",synthetic:false,types:["rand::distributions::float::OpenClosed01"]},{text:"impl Clone for Open01",synthetic:false,types:["rand::distributions::float::Open01"]},{text:"impl Clone for Standard",synthetic:false,types:["rand::distributions::Standard"]},{text:"impl<R, Rsdr> Clone for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng + Clone,
    Rsdr: RngCore + Clone
",synthetic:false,types:["rand::rngs::adapter::reseeding::ReseedingRng"]},{text:"impl Clone for StepRng",synthetic:false,types:["rand::rngs::mock::StepRng"]},{text:"impl Clone for StdRng",synthetic:false,types:["rand::rngs::std::StdRng"]},{text:"impl Clone for ThreadRng",synthetic:false,types:["rand::rngs::thread::ThreadRng"]},{text:"impl Clone for OsRng",synthetic:false,types:["rand::rngs::os::OsRng"]},{text:"impl Clone for IndexVec",synthetic:false,types:["rand::seq::index::IndexVec"]},{text:"impl Clone for IndexVecIntoIter",synthetic:false,types:["rand::seq::index::IndexVecIntoIter"]},]; -implementors["rand_chacha"] = [{text:"impl Clone for ChaCha20Core",synthetic:false,types:["rand_chacha::chacha::ChaCha20Core"]},{text:"impl Clone for ChaCha20Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl Clone for ChaCha12Core",synthetic:false,types:["rand_chacha::chacha::ChaCha12Core"]},{text:"impl Clone for ChaCha12Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl Clone for ChaCha8Core",synthetic:false,types:["rand_chacha::chacha::ChaCha8Core"]},{text:"impl Clone for ChaCha8Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = [{text:"impl<R: Clone + BlockRngCore + ?Sized> Clone for BlockRng<R> where
    R::Results: Clone
",synthetic:false,types:["rand_core::block::BlockRng"]},{text:"impl<R: Clone + BlockRngCore + ?Sized> Clone for BlockRng64<R> where
    R::Results: Clone
",synthetic:false,types:["rand_core::block::BlockRng64"]},]; -implementors["regex"] = [{text:"impl Clone for Error",synthetic:false,types:["regex::error::Error"]},{text:"impl<'t> Clone for Match<'t>",synthetic:false,types:["regex::re_bytes::Match"]},{text:"impl Clone for Regex",synthetic:false,types:["regex::re_bytes::Regex"]},{text:"impl Clone for CaptureLocations",synthetic:false,types:["regex::re_bytes::CaptureLocations"]},{text:"impl Clone for RegexSet",synthetic:false,types:["regex::re_set::unicode::RegexSet"]},{text:"impl Clone for SetMatches",synthetic:false,types:["regex::re_set::unicode::SetMatches"]},{text:"impl<'a> Clone for SetMatchesIter<'a>",synthetic:false,types:["regex::re_set::unicode::SetMatchesIter"]},{text:"impl Clone for RegexSet",synthetic:false,types:["regex::re_set::bytes::RegexSet"]},{text:"impl Clone for SetMatches",synthetic:false,types:["regex::re_set::bytes::SetMatches"]},{text:"impl<'a> Clone for SetMatchesIter<'a>",synthetic:false,types:["regex::re_set::bytes::SetMatchesIter"]},{text:"impl<'t> Clone for Match<'t>",synthetic:false,types:["regex::re_unicode::Match"]},{text:"impl Clone for Regex",synthetic:false,types:["regex::re_unicode::Regex"]},{text:"impl Clone for CaptureLocations",synthetic:false,types:["regex::re_unicode::CaptureLocations"]},]; -implementors["regex_syntax"] = [{text:"impl Clone for ParserBuilder",synthetic:false,types:["regex_syntax::ast::parse::ParserBuilder"]},{text:"impl Clone for Parser",synthetic:false,types:["regex_syntax::ast::parse::Parser"]},{text:"impl Clone for Error",synthetic:false,types:["regex_syntax::ast::Error"]},{text:"impl Clone for ErrorKind",synthetic:false,types:["regex_syntax::ast::ErrorKind"]},{text:"impl Clone for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl Clone for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl Clone for WithComments",synthetic:false,types:["regex_syntax::ast::WithComments"]},{text:"impl Clone for Comment",synthetic:false,types:["regex_syntax::ast::Comment"]},{text:"impl Clone for Ast",synthetic:false,types:["regex_syntax::ast::Ast"]},{text:"impl Clone for Alternation",synthetic:false,types:["regex_syntax::ast::Alternation"]},{text:"impl Clone for Concat",synthetic:false,types:["regex_syntax::ast::Concat"]},{text:"impl Clone for Literal",synthetic:false,types:["regex_syntax::ast::Literal"]},{text:"impl Clone for LiteralKind",synthetic:false,types:["regex_syntax::ast::LiteralKind"]},{text:"impl Clone for SpecialLiteralKind",synthetic:false,types:["regex_syntax::ast::SpecialLiteralKind"]},{text:"impl Clone for HexLiteralKind",synthetic:false,types:["regex_syntax::ast::HexLiteralKind"]},{text:"impl Clone for Class",synthetic:false,types:["regex_syntax::ast::Class"]},{text:"impl Clone for ClassPerl",synthetic:false,types:["regex_syntax::ast::ClassPerl"]},{text:"impl Clone for ClassPerlKind",synthetic:false,types:["regex_syntax::ast::ClassPerlKind"]},{text:"impl Clone for ClassAscii",synthetic:false,types:["regex_syntax::ast::ClassAscii"]},{text:"impl Clone for ClassAsciiKind",synthetic:false,types:["regex_syntax::ast::ClassAsciiKind"]},{text:"impl Clone for ClassUnicode",synthetic:false,types:["regex_syntax::ast::ClassUnicode"]},{text:"impl Clone for ClassUnicodeKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeKind"]},{text:"impl Clone for ClassUnicodeOpKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeOpKind"]},{text:"impl Clone for ClassBracketed",synthetic:false,types:["regex_syntax::ast::ClassBracketed"]},{text:"impl Clone for ClassSet",synthetic:false,types:["regex_syntax::ast::ClassSet"]},{text:"impl Clone for ClassSetItem",synthetic:false,types:["regex_syntax::ast::ClassSetItem"]},{text:"impl Clone for ClassSetRange",synthetic:false,types:["regex_syntax::ast::ClassSetRange"]},{text:"impl Clone for ClassSetUnion",synthetic:false,types:["regex_syntax::ast::ClassSetUnion"]},{text:"impl Clone for ClassSetBinaryOp",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOp"]},{text:"impl Clone for ClassSetBinaryOpKind",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl Clone for Assertion",synthetic:false,types:["regex_syntax::ast::Assertion"]},{text:"impl Clone for AssertionKind",synthetic:false,types:["regex_syntax::ast::AssertionKind"]},{text:"impl Clone for Repetition",synthetic:false,types:["regex_syntax::ast::Repetition"]},{text:"impl Clone for RepetitionOp",synthetic:false,types:["regex_syntax::ast::RepetitionOp"]},{text:"impl Clone for RepetitionKind",synthetic:false,types:["regex_syntax::ast::RepetitionKind"]},{text:"impl Clone for RepetitionRange",synthetic:false,types:["regex_syntax::ast::RepetitionRange"]},{text:"impl Clone for Group",synthetic:false,types:["regex_syntax::ast::Group"]},{text:"impl Clone for GroupKind",synthetic:false,types:["regex_syntax::ast::GroupKind"]},{text:"impl Clone for CaptureName",synthetic:false,types:["regex_syntax::ast::CaptureName"]},{text:"impl Clone for SetFlags",synthetic:false,types:["regex_syntax::ast::SetFlags"]},{text:"impl Clone for Flags",synthetic:false,types:["regex_syntax::ast::Flags"]},{text:"impl Clone for FlagsItem",synthetic:false,types:["regex_syntax::ast::FlagsItem"]},{text:"impl Clone for FlagsItemKind",synthetic:false,types:["regex_syntax::ast::FlagsItemKind"]},{text:"impl Clone for Flag",synthetic:false,types:["regex_syntax::ast::Flag"]},{text:"impl Clone for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl Clone for Literals",synthetic:false,types:["regex_syntax::hir::literal::Literals"]},{text:"impl Clone for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},{text:"impl Clone for TranslatorBuilder",synthetic:false,types:["regex_syntax::hir::translate::TranslatorBuilder"]},{text:"impl Clone for Translator",synthetic:false,types:["regex_syntax::hir::translate::Translator"]},{text:"impl Clone for Error",synthetic:false,types:["regex_syntax::hir::Error"]},{text:"impl Clone for ErrorKind",synthetic:false,types:["regex_syntax::hir::ErrorKind"]},{text:"impl Clone for Hir",synthetic:false,types:["regex_syntax::hir::Hir"]},{text:"impl Clone for HirKind",synthetic:false,types:["regex_syntax::hir::HirKind"]},{text:"impl Clone for Literal",synthetic:false,types:["regex_syntax::hir::Literal"]},{text:"impl Clone for Class",synthetic:false,types:["regex_syntax::hir::Class"]},{text:"impl Clone for ClassUnicode",synthetic:false,types:["regex_syntax::hir::ClassUnicode"]},{text:"impl Clone for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Clone for ClassBytes",synthetic:false,types:["regex_syntax::hir::ClassBytes"]},{text:"impl Clone for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl Clone for Anchor",synthetic:false,types:["regex_syntax::hir::Anchor"]},{text:"impl Clone for WordBoundary",synthetic:false,types:["regex_syntax::hir::WordBoundary"]},{text:"impl Clone for Group",synthetic:false,types:["regex_syntax::hir::Group"]},{text:"impl Clone for GroupKind",synthetic:false,types:["regex_syntax::hir::GroupKind"]},{text:"impl Clone for Repetition",synthetic:false,types:["regex_syntax::hir::Repetition"]},{text:"impl Clone for RepetitionKind",synthetic:false,types:["regex_syntax::hir::RepetitionKind"]},{text:"impl Clone for RepetitionRange",synthetic:false,types:["regex_syntax::hir::RepetitionRange"]},{text:"impl Clone for ParserBuilder",synthetic:false,types:["regex_syntax::parser::ParserBuilder"]},{text:"impl Clone for Parser",synthetic:false,types:["regex_syntax::parser::Parser"]},]; -implementors["utf8_ranges"] = [{text:"impl Clone for Utf8Sequence",synthetic:false,types:["utf8_ranges::Utf8Sequence"]},{text:"impl Clone for Utf8Range",synthetic:false,types:["utf8_ranges::Utf8Range"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/cmp/trait.Eq.js b/target/doc/implementors/core/cmp/trait.Eq.js deleted file mode 100644 index bcc846a..0000000 --- a/target/doc/implementors/core/cmp/trait.Eq.js +++ /dev/null @@ -1,15 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl Eq for MatchKind",synthetic:false,types:["aho_corasick::ahocorasick::MatchKind"]},{text:"impl Eq for Match",synthetic:false,types:["aho_corasick::Match"]},]; -implementors["getrandom"] = [{text:"impl Eq for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["rand"] = [{text:"impl Eq for BernoulliError",synthetic:false,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl Eq for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},]; -implementors["regex"] = [{text:"impl<'t> Eq for Match<'t>",synthetic:false,types:["regex::re_bytes::Match"]},{text:"impl<'t> Eq for Match<'t>",synthetic:false,types:["regex::re_unicode::Match"]},]; -implementors["regex_syntax"] = [{text:"impl Eq for Error",synthetic:false,types:["regex_syntax::ast::Error"]},{text:"impl Eq for ErrorKind",synthetic:false,types:["regex_syntax::ast::ErrorKind"]},{text:"impl Eq for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl Eq for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl Eq for WithComments",synthetic:false,types:["regex_syntax::ast::WithComments"]},{text:"impl Eq for Comment",synthetic:false,types:["regex_syntax::ast::Comment"]},{text:"impl Eq for Ast",synthetic:false,types:["regex_syntax::ast::Ast"]},{text:"impl Eq for Alternation",synthetic:false,types:["regex_syntax::ast::Alternation"]},{text:"impl Eq for Concat",synthetic:false,types:["regex_syntax::ast::Concat"]},{text:"impl Eq for Literal",synthetic:false,types:["regex_syntax::ast::Literal"]},{text:"impl Eq for LiteralKind",synthetic:false,types:["regex_syntax::ast::LiteralKind"]},{text:"impl Eq for SpecialLiteralKind",synthetic:false,types:["regex_syntax::ast::SpecialLiteralKind"]},{text:"impl Eq for HexLiteralKind",synthetic:false,types:["regex_syntax::ast::HexLiteralKind"]},{text:"impl Eq for Class",synthetic:false,types:["regex_syntax::ast::Class"]},{text:"impl Eq for ClassPerl",synthetic:false,types:["regex_syntax::ast::ClassPerl"]},{text:"impl Eq for ClassPerlKind",synthetic:false,types:["regex_syntax::ast::ClassPerlKind"]},{text:"impl Eq for ClassAscii",synthetic:false,types:["regex_syntax::ast::ClassAscii"]},{text:"impl Eq for ClassAsciiKind",synthetic:false,types:["regex_syntax::ast::ClassAsciiKind"]},{text:"impl Eq for ClassUnicode",synthetic:false,types:["regex_syntax::ast::ClassUnicode"]},{text:"impl Eq for ClassUnicodeKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeKind"]},{text:"impl Eq for ClassUnicodeOpKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeOpKind"]},{text:"impl Eq for ClassBracketed",synthetic:false,types:["regex_syntax::ast::ClassBracketed"]},{text:"impl Eq for ClassSet",synthetic:false,types:["regex_syntax::ast::ClassSet"]},{text:"impl Eq for ClassSetItem",synthetic:false,types:["regex_syntax::ast::ClassSetItem"]},{text:"impl Eq for ClassSetRange",synthetic:false,types:["regex_syntax::ast::ClassSetRange"]},{text:"impl Eq for ClassSetUnion",synthetic:false,types:["regex_syntax::ast::ClassSetUnion"]},{text:"impl Eq for ClassSetBinaryOp",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOp"]},{text:"impl Eq for ClassSetBinaryOpKind",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl Eq for Assertion",synthetic:false,types:["regex_syntax::ast::Assertion"]},{text:"impl Eq for AssertionKind",synthetic:false,types:["regex_syntax::ast::AssertionKind"]},{text:"impl Eq for Repetition",synthetic:false,types:["regex_syntax::ast::Repetition"]},{text:"impl Eq for RepetitionOp",synthetic:false,types:["regex_syntax::ast::RepetitionOp"]},{text:"impl Eq for RepetitionKind",synthetic:false,types:["regex_syntax::ast::RepetitionKind"]},{text:"impl Eq for RepetitionRange",synthetic:false,types:["regex_syntax::ast::RepetitionRange"]},{text:"impl Eq for Group",synthetic:false,types:["regex_syntax::ast::Group"]},{text:"impl Eq for GroupKind",synthetic:false,types:["regex_syntax::ast::GroupKind"]},{text:"impl Eq for CaptureName",synthetic:false,types:["regex_syntax::ast::CaptureName"]},{text:"impl Eq for SetFlags",synthetic:false,types:["regex_syntax::ast::SetFlags"]},{text:"impl Eq for Flags",synthetic:false,types:["regex_syntax::ast::Flags"]},{text:"impl Eq for FlagsItem",synthetic:false,types:["regex_syntax::ast::FlagsItem"]},{text:"impl Eq for FlagsItemKind",synthetic:false,types:["regex_syntax::ast::FlagsItemKind"]},{text:"impl Eq for Flag",synthetic:false,types:["regex_syntax::ast::Flag"]},{text:"impl Eq for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl Eq for Literals",synthetic:false,types:["regex_syntax::hir::literal::Literals"]},{text:"impl Eq for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},{text:"impl Eq for Error",synthetic:false,types:["regex_syntax::hir::Error"]},{text:"impl Eq for ErrorKind",synthetic:false,types:["regex_syntax::hir::ErrorKind"]},{text:"impl Eq for Hir",synthetic:false,types:["regex_syntax::hir::Hir"]},{text:"impl Eq for HirKind",synthetic:false,types:["regex_syntax::hir::HirKind"]},{text:"impl Eq for Literal",synthetic:false,types:["regex_syntax::hir::Literal"]},{text:"impl Eq for Class",synthetic:false,types:["regex_syntax::hir::Class"]},{text:"impl Eq for ClassUnicode",synthetic:false,types:["regex_syntax::hir::ClassUnicode"]},{text:"impl Eq for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Eq for ClassBytes",synthetic:false,types:["regex_syntax::hir::ClassBytes"]},{text:"impl Eq for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl Eq for Anchor",synthetic:false,types:["regex_syntax::hir::Anchor"]},{text:"impl Eq for WordBoundary",synthetic:false,types:["regex_syntax::hir::WordBoundary"]},{text:"impl Eq for Group",synthetic:false,types:["regex_syntax::hir::Group"]},{text:"impl Eq for GroupKind",synthetic:false,types:["regex_syntax::hir::GroupKind"]},{text:"impl Eq for Repetition",synthetic:false,types:["regex_syntax::hir::Repetition"]},{text:"impl Eq for RepetitionKind",synthetic:false,types:["regex_syntax::hir::RepetitionKind"]},{text:"impl Eq for RepetitionRange",synthetic:false,types:["regex_syntax::hir::RepetitionRange"]},]; -implementors["utf8_ranges"] = [{text:"impl Eq for Utf8Sequence",synthetic:false,types:["utf8_ranges::Utf8Sequence"]},{text:"impl Eq for Utf8Range",synthetic:false,types:["utf8_ranges::Utf8Range"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/cmp/trait.Ord.js b/target/doc/implementors/core/cmp/trait.Ord.js deleted file mode 100644 index f64bf57..0000000 --- a/target/doc/implementors/core/cmp/trait.Ord.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex_syntax"] = [{text:"impl Ord for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl Ord for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl Ord for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},{text:"impl Ord for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Ord for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/cmp/trait.PartialEq.js b/target/doc/implementors/core/cmp/trait.PartialEq.js deleted file mode 100644 index 104034a..0000000 --- a/target/doc/implementors/core/cmp/trait.PartialEq.js +++ /dev/null @@ -1,15 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl PartialEq<MatchKind> for MatchKind",synthetic:false,types:["aho_corasick::ahocorasick::MatchKind"]},{text:"impl PartialEq<Match> for Match",synthetic:false,types:["aho_corasick::Match"]},]; -implementors["getrandom"] = [{text:"impl PartialEq<Error> for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["rand"] = [{text:"impl PartialEq<BernoulliError> for BernoulliError",synthetic:false,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl PartialEq<WeightedError> for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},{text:"impl PartialEq<IndexVec> for IndexVec",synthetic:false,types:["rand::seq::index::IndexVec"]},]; -implementors["regex"] = [{text:"impl PartialEq<Error> for Error",synthetic:false,types:["regex::error::Error"]},{text:"impl<'t> PartialEq<Match<'t>> for Match<'t>",synthetic:false,types:["regex::re_bytes::Match"]},{text:"impl<'t> PartialEq<Match<'t>> for Match<'t>",synthetic:false,types:["regex::re_unicode::Match"]},]; -implementors["regex_syntax"] = [{text:"impl PartialEq<Error> for Error",synthetic:false,types:["regex_syntax::ast::Error"]},{text:"impl PartialEq<ErrorKind> for ErrorKind",synthetic:false,types:["regex_syntax::ast::ErrorKind"]},{text:"impl PartialEq<Span> for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl PartialEq<Position> for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl PartialEq<WithComments> for WithComments",synthetic:false,types:["regex_syntax::ast::WithComments"]},{text:"impl PartialEq<Comment> for Comment",synthetic:false,types:["regex_syntax::ast::Comment"]},{text:"impl PartialEq<Ast> for Ast",synthetic:false,types:["regex_syntax::ast::Ast"]},{text:"impl PartialEq<Alternation> for Alternation",synthetic:false,types:["regex_syntax::ast::Alternation"]},{text:"impl PartialEq<Concat> for Concat",synthetic:false,types:["regex_syntax::ast::Concat"]},{text:"impl PartialEq<Literal> for Literal",synthetic:false,types:["regex_syntax::ast::Literal"]},{text:"impl PartialEq<LiteralKind> for LiteralKind",synthetic:false,types:["regex_syntax::ast::LiteralKind"]},{text:"impl PartialEq<SpecialLiteralKind> for SpecialLiteralKind",synthetic:false,types:["regex_syntax::ast::SpecialLiteralKind"]},{text:"impl PartialEq<HexLiteralKind> for HexLiteralKind",synthetic:false,types:["regex_syntax::ast::HexLiteralKind"]},{text:"impl PartialEq<Class> for Class",synthetic:false,types:["regex_syntax::ast::Class"]},{text:"impl PartialEq<ClassPerl> for ClassPerl",synthetic:false,types:["regex_syntax::ast::ClassPerl"]},{text:"impl PartialEq<ClassPerlKind> for ClassPerlKind",synthetic:false,types:["regex_syntax::ast::ClassPerlKind"]},{text:"impl PartialEq<ClassAscii> for ClassAscii",synthetic:false,types:["regex_syntax::ast::ClassAscii"]},{text:"impl PartialEq<ClassAsciiKind> for ClassAsciiKind",synthetic:false,types:["regex_syntax::ast::ClassAsciiKind"]},{text:"impl PartialEq<ClassUnicode> for ClassUnicode",synthetic:false,types:["regex_syntax::ast::ClassUnicode"]},{text:"impl PartialEq<ClassUnicodeKind> for ClassUnicodeKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeKind"]},{text:"impl PartialEq<ClassUnicodeOpKind> for ClassUnicodeOpKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeOpKind"]},{text:"impl PartialEq<ClassBracketed> for ClassBracketed",synthetic:false,types:["regex_syntax::ast::ClassBracketed"]},{text:"impl PartialEq<ClassSet> for ClassSet",synthetic:false,types:["regex_syntax::ast::ClassSet"]},{text:"impl PartialEq<ClassSetItem> for ClassSetItem",synthetic:false,types:["regex_syntax::ast::ClassSetItem"]},{text:"impl PartialEq<ClassSetRange> for ClassSetRange",synthetic:false,types:["regex_syntax::ast::ClassSetRange"]},{text:"impl PartialEq<ClassSetUnion> for ClassSetUnion",synthetic:false,types:["regex_syntax::ast::ClassSetUnion"]},{text:"impl PartialEq<ClassSetBinaryOp> for ClassSetBinaryOp",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOp"]},{text:"impl PartialEq<ClassSetBinaryOpKind> for ClassSetBinaryOpKind",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl PartialEq<Assertion> for Assertion",synthetic:false,types:["regex_syntax::ast::Assertion"]},{text:"impl PartialEq<AssertionKind> for AssertionKind",synthetic:false,types:["regex_syntax::ast::AssertionKind"]},{text:"impl PartialEq<Repetition> for Repetition",synthetic:false,types:["regex_syntax::ast::Repetition"]},{text:"impl PartialEq<RepetitionOp> for RepetitionOp",synthetic:false,types:["regex_syntax::ast::RepetitionOp"]},{text:"impl PartialEq<RepetitionKind> for RepetitionKind",synthetic:false,types:["regex_syntax::ast::RepetitionKind"]},{text:"impl PartialEq<RepetitionRange> for RepetitionRange",synthetic:false,types:["regex_syntax::ast::RepetitionRange"]},{text:"impl PartialEq<Group> for Group",synthetic:false,types:["regex_syntax::ast::Group"]},{text:"impl PartialEq<GroupKind> for GroupKind",synthetic:false,types:["regex_syntax::ast::GroupKind"]},{text:"impl PartialEq<CaptureName> for CaptureName",synthetic:false,types:["regex_syntax::ast::CaptureName"]},{text:"impl PartialEq<SetFlags> for SetFlags",synthetic:false,types:["regex_syntax::ast::SetFlags"]},{text:"impl PartialEq<Flags> for Flags",synthetic:false,types:["regex_syntax::ast::Flags"]},{text:"impl PartialEq<FlagsItem> for FlagsItem",synthetic:false,types:["regex_syntax::ast::FlagsItem"]},{text:"impl PartialEq<FlagsItemKind> for FlagsItemKind",synthetic:false,types:["regex_syntax::ast::FlagsItemKind"]},{text:"impl PartialEq<Flag> for Flag",synthetic:false,types:["regex_syntax::ast::Flag"]},{text:"impl PartialEq<Error> for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl PartialEq<Literals> for Literals",synthetic:false,types:["regex_syntax::hir::literal::Literals"]},{text:"impl PartialEq<Literal> for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},{text:"impl PartialEq<Error> for Error",synthetic:false,types:["regex_syntax::hir::Error"]},{text:"impl PartialEq<ErrorKind> for ErrorKind",synthetic:false,types:["regex_syntax::hir::ErrorKind"]},{text:"impl PartialEq<Hir> for Hir",synthetic:false,types:["regex_syntax::hir::Hir"]},{text:"impl PartialEq<HirKind> for HirKind",synthetic:false,types:["regex_syntax::hir::HirKind"]},{text:"impl PartialEq<Literal> for Literal",synthetic:false,types:["regex_syntax::hir::Literal"]},{text:"impl PartialEq<Class> for Class",synthetic:false,types:["regex_syntax::hir::Class"]},{text:"impl PartialEq<ClassUnicode> for ClassUnicode",synthetic:false,types:["regex_syntax::hir::ClassUnicode"]},{text:"impl PartialEq<ClassUnicodeRange> for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl PartialEq<ClassBytes> for ClassBytes",synthetic:false,types:["regex_syntax::hir::ClassBytes"]},{text:"impl PartialEq<ClassBytesRange> for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl PartialEq<Anchor> for Anchor",synthetic:false,types:["regex_syntax::hir::Anchor"]},{text:"impl PartialEq<WordBoundary> for WordBoundary",synthetic:false,types:["regex_syntax::hir::WordBoundary"]},{text:"impl PartialEq<Group> for Group",synthetic:false,types:["regex_syntax::hir::Group"]},{text:"impl PartialEq<GroupKind> for GroupKind",synthetic:false,types:["regex_syntax::hir::GroupKind"]},{text:"impl PartialEq<Repetition> for Repetition",synthetic:false,types:["regex_syntax::hir::Repetition"]},{text:"impl PartialEq<RepetitionKind> for RepetitionKind",synthetic:false,types:["regex_syntax::hir::RepetitionKind"]},{text:"impl PartialEq<RepetitionRange> for RepetitionRange",synthetic:false,types:["regex_syntax::hir::RepetitionRange"]},]; -implementors["utf8_ranges"] = [{text:"impl PartialEq<Utf8Sequence> for Utf8Sequence",synthetic:false,types:["utf8_ranges::Utf8Sequence"]},{text:"impl PartialEq<Utf8Range> for Utf8Range",synthetic:false,types:["utf8_ranges::Utf8Range"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/cmp/trait.PartialOrd.js b/target/doc/implementors/core/cmp/trait.PartialOrd.js deleted file mode 100644 index 147ef14..0000000 --- a/target/doc/implementors/core/cmp/trait.PartialOrd.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex_syntax"] = [{text:"impl PartialOrd<Span> for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl PartialOrd<Position> for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl PartialOrd<Literal> for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},{text:"impl PartialOrd<ClassUnicodeRange> for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl PartialOrd<ClassBytesRange> for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/convert/trait.AsRef.js b/target/doc/implementors/core/convert/trait.AsRef.js deleted file mode 100644 index 7b1c661..0000000 --- a/target/doc/implementors/core/convert/trait.AsRef.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex_syntax"] = [{text:"impl AsRef<[u8]> for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/convert/trait.From.js b/target/doc/implementors/core/convert/trait.From.js deleted file mode 100644 index 11387ca..0000000 --- a/target/doc/implementors/core/convert/trait.From.js +++ /dev/null @@ -1,15 +0,0 @@ -(function() {var implementors = {}; -implementors["getrandom"] = [{text:"impl From<NonZeroU32> for Error",synthetic:false,types:["getrandom::error::Error"]},{text:"impl From<Error> for Error",synthetic:false,types:["getrandom::error::Error"]},{text:"impl From<Error> for Error",synthetic:false,types:["std::io::error::Error"]},]; -implementors["rand"] = [{text:"impl<X: SampleUniform> From<Range<X>> for Uniform<X>",synthetic:false,types:["rand::distributions::uniform::Uniform"]},{text:"impl<X: SampleUniform> From<RangeInclusive<X>> for Uniform<X>",synthetic:false,types:["rand::distributions::uniform::Uniform"]},{text:"impl From<Vec<u32>> for IndexVec",synthetic:false,types:["rand::seq::index::IndexVec"]},{text:"impl From<Vec<usize>> for IndexVec",synthetic:false,types:["rand::seq::index::IndexVec"]},]; -implementors["rand_chacha"] = [{text:"impl From<ChaCha20Core> for ChaCha20Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl From<ChaCha12Core> for ChaCha12Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl From<ChaCha8Core> for ChaCha8Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = [{text:"impl From<NonZeroU32> for Error",synthetic:false,types:["rand_core::error::Error"]},{text:"impl From<Error> for Error",synthetic:false,types:["rand_core::error::Error"]},{text:"impl From<Error> for Error",synthetic:false,types:["std::io::error::Error"]},]; -implementors["regex"] = [{text:"impl<'t> From<Match<'t>> for &'t str",synthetic:false,types:[]},]; -implementors["regex_syntax"] = [{text:"impl From<Error> for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl From<Error> for Error",synthetic:false,types:["regex_syntax::error::Error"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/convert/trait.Into.js b/target/doc/implementors/core/convert/trait.Into.js deleted file mode 100644 index f7aa13a..0000000 --- a/target/doc/implementors/core/convert/trait.Into.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["ppv_lite86"] = [{text:"impl<'a> Into<&'a [u32; 4]> for &'a vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Into<vec128_storage> for [u32; 4]",synthetic:false,types:[]},{text:"impl Into<vec256_storage> for [u64; 4]",synthetic:false,types:[]},{text:"impl Into<[u32; 4]> for vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Into<[u64; 2]> for vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Into<[u128; 1]> for vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Into<[u32; 8]> for vec256_storage",synthetic:false,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Into<[u64; 4]> for vec256_storage",synthetic:false,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Into<[u128; 2]> for vec256_storage",synthetic:false,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Into<[u32; 16]> for vec512_storage",synthetic:false,types:["ppv_lite86::x86_64::vec512_storage"]},{text:"impl Into<[u64; 8]> for vec512_storage",synthetic:false,types:["ppv_lite86::x86_64::vec512_storage"]},{text:"impl Into<[u128; 4]> for vec512_storage",synthetic:false,types:["ppv_lite86::x86_64::vec512_storage"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/default/trait.Default.js b/target/doc/implementors/core/default/trait.Default.js deleted file mode 100644 index bfb6a16..0000000 --- a/target/doc/implementors/core/default/trait.Default.js +++ /dev/null @@ -1,14 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl Default for AhoCorasickBuilder",synthetic:false,types:["aho_corasick::ahocorasick::AhoCorasickBuilder"]},{text:"impl Default for MatchKind",synthetic:false,types:["aho_corasick::ahocorasick::MatchKind"]},]; -implementors["ppv_lite86"] = [{text:"impl Default for vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Default for vec256_storage",synthetic:false,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Default for vec512_storage",synthetic:false,types:["ppv_lite86::x86_64::vec512_storage"]},]; -implementors["rand"] = [{text:"impl Default for EntropyRng",synthetic:false,types:["rand::rngs::entropy::EntropyRng"]},{text:"impl Default for ThreadRng",synthetic:false,types:["rand::rngs::thread::ThreadRng"]},{text:"impl Default for OsRng",synthetic:false,types:["rand::rngs::os::OsRng"]},]; -implementors["regex_syntax"] = [{text:"impl Default for ParserBuilder",synthetic:false,types:["regex_syntax::ast::parse::ParserBuilder"]},{text:"impl Default for TranslatorBuilder",synthetic:false,types:["regex_syntax::hir::translate::TranslatorBuilder"]},{text:"impl Default for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Default for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl Default for ParserBuilder",synthetic:false,types:["regex_syntax::parser::ParserBuilder"]},]; -implementors["thread_local"] = [{text:"impl<T: ?Sized + Send> Default for ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},{text:"impl<T: ?Sized + Send> Default for CachedThreadLocal<T>",synthetic:false,types:["thread_local::CachedThreadLocal"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/fmt/trait.Debug.js b/target/doc/implementors/core/fmt/trait.Debug.js deleted file mode 100644 index cb81947..0000000 --- a/target/doc/implementors/core/fmt/trait.Debug.js +++ /dev/null @@ -1,18 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl<S: Debug + StateID> Debug for AhoCorasick<S>",synthetic:false,types:["aho_corasick::ahocorasick::AhoCorasick"]},{text:"impl<'a, 'b, S: Debug + 'a + StateID> Debug for FindIter<'a, 'b, S>",synthetic:false,types:["aho_corasick::ahocorasick::FindIter"]},{text:"impl<'a, 'b, S: Debug + 'a + StateID> Debug for FindOverlappingIter<'a, 'b, S>",synthetic:false,types:["aho_corasick::ahocorasick::FindOverlappingIter"]},{text:"impl<'a, R: Debug, S: Debug + 'a + StateID> Debug for StreamFindIter<'a, R, S>",synthetic:false,types:["aho_corasick::ahocorasick::StreamFindIter"]},{text:"impl Debug for AhoCorasickBuilder",synthetic:false,types:["aho_corasick::ahocorasick::AhoCorasickBuilder"]},{text:"impl Debug for MatchKind",synthetic:false,types:["aho_corasick::ahocorasick::MatchKind"]},{text:"impl Debug for Error",synthetic:false,types:["aho_corasick::error::Error"]},{text:"impl Debug for ErrorKind",synthetic:false,types:["aho_corasick::error::ErrorKind"]},{text:"impl Debug for Match",synthetic:false,types:["aho_corasick::Match"]},]; -implementors["getrandom"] = [{text:"impl Debug for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["rand"] = [{text:"impl<X: Debug + SampleUniform> Debug for Uniform<X> where
    X::Sampler: Debug
",synthetic:false,types:["rand::distributions::uniform::Uniform"]},{text:"impl<X: Debug> Debug for UniformInt<X>",synthetic:false,types:["rand::distributions::uniform::UniformInt"]},{text:"impl<X: Debug> Debug for UniformFloat<X>",synthetic:false,types:["rand::distributions::uniform::UniformFloat"]},{text:"impl Debug for UniformDuration",synthetic:false,types:["rand::distributions::uniform::UniformDuration"]},{text:"impl Debug for Bernoulli",synthetic:false,types:["rand::distributions::bernoulli::Bernoulli"]},{text:"impl Debug for BernoulliError",synthetic:false,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl<W: Weight> Debug for WeightedIndex<W> where
    W: Debug,
    Uniform<W>: Debug
",synthetic:false,types:["rand::distributions::weighted::alias_method::WeightedIndex"]},{text:"impl<X: Debug + SampleUniform + PartialOrd> Debug for WeightedIndex<X> where
    X::Sampler: Debug
",synthetic:false,types:["rand::distributions::weighted::WeightedIndex"]},{text:"impl Debug for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},{text:"impl Debug for UnitSphereSurface",synthetic:false,types:["rand::distributions::unit_sphere::UnitSphereSurface"]},{text:"impl Debug for UnitCircle",synthetic:false,types:["rand::distributions::unit_circle::UnitCircle"]},{text:"impl Debug for Gamma",synthetic:false,types:["rand::distributions::gamma::Gamma"]},{text:"impl Debug for ChiSquared",synthetic:false,types:["rand::distributions::gamma::ChiSquared"]},{text:"impl Debug for FisherF",synthetic:false,types:["rand::distributions::gamma::FisherF"]},{text:"impl Debug for StudentT",synthetic:false,types:["rand::distributions::gamma::StudentT"]},{text:"impl Debug for Beta",synthetic:false,types:["rand::distributions::gamma::Beta"]},{text:"impl Debug for StandardNormal",synthetic:false,types:["rand::distributions::normal::StandardNormal"]},{text:"impl Debug for Normal",synthetic:false,types:["rand::distributions::normal::Normal"]},{text:"impl Debug for LogNormal",synthetic:false,types:["rand::distributions::normal::LogNormal"]},{text:"impl Debug for Exp1",synthetic:false,types:["rand::distributions::exponential::Exp1"]},{text:"impl Debug for Exp",synthetic:false,types:["rand::distributions::exponential::Exp"]},{text:"impl Debug for Pareto",synthetic:false,types:["rand::distributions::pareto::Pareto"]},{text:"impl Debug for Poisson",synthetic:false,types:["rand::distributions::poisson::Poisson"]},{text:"impl Debug for Binomial",synthetic:false,types:["rand::distributions::binomial::Binomial"]},{text:"impl Debug for Cauchy",synthetic:false,types:["rand::distributions::cauchy::Cauchy"]},{text:"impl Debug for Dirichlet",synthetic:false,types:["rand::distributions::dirichlet::Dirichlet"]},{text:"impl Debug for Triangular",synthetic:false,types:["rand::distributions::triangular::Triangular"]},{text:"impl Debug for Weibull",synthetic:false,types:["rand::distributions::weibull::Weibull"]},{text:"impl Debug for OpenClosed01",synthetic:false,types:["rand::distributions::float::OpenClosed01"]},{text:"impl Debug for Open01",synthetic:false,types:["rand::distributions::float::Open01"]},{text:"impl Debug for Alphanumeric",synthetic:false,types:["rand::distributions::other::Alphanumeric"]},{text:"impl<D: Debug, R: Debug, T: Debug> Debug for DistIter<D, R, T>",synthetic:false,types:["rand::distributions::DistIter"]},{text:"impl Debug for Standard",synthetic:false,types:["rand::distributions::Standard"]},{text:"impl<R: Debug> Debug for ReadRng<R>",synthetic:false,types:["rand::rngs::adapter::read::ReadRng"]},{text:"impl Debug for ReadError",synthetic:false,types:["rand::rngs::adapter::read::ReadError"]},{text:"impl<R: Debug, Rsdr: Debug> Debug for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng,
    Rsdr: RngCore
",synthetic:false,types:["rand::rngs::adapter::reseeding::ReseedingRng"]},{text:"impl Debug for EntropyRng",synthetic:false,types:["rand::rngs::entropy::EntropyRng"]},{text:"impl Debug for StepRng",synthetic:false,types:["rand::rngs::mock::StepRng"]},{text:"impl Debug for StdRng",synthetic:false,types:["rand::rngs::std::StdRng"]},{text:"impl Debug for ThreadRng",synthetic:false,types:["rand::rngs::thread::ThreadRng"]},{text:"impl Debug for OsRng",synthetic:false,types:["rand::rngs::os::OsRng"]},{text:"impl Debug for IndexVec",synthetic:false,types:["rand::seq::index::IndexVec"]},{text:"impl<'a> Debug for IndexVecIter<'a>",synthetic:false,types:["rand::seq::index::IndexVecIter"]},{text:"impl Debug for IndexVecIntoIter",synthetic:false,types:["rand::seq::index::IndexVecIntoIter"]},{text:"impl<'a, S: Debug + ?Sized + 'a, T: Debug + 'a> Debug for SliceChooseIter<'a, S, T>",synthetic:false,types:["rand::seq::SliceChooseIter"]},]; -implementors["rand_chacha"] = [{text:"impl Debug for ChaCha20Core",synthetic:false,types:["rand_chacha::chacha::ChaCha20Core"]},{text:"impl Debug for ChaCha20Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl Debug for ChaCha12Core",synthetic:false,types:["rand_chacha::chacha::ChaCha12Core"]},{text:"impl Debug for ChaCha12Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl Debug for ChaCha8Core",synthetic:false,types:["rand_chacha::chacha::ChaCha8Core"]},{text:"impl Debug for ChaCha8Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = [{text:"impl Debug for Error",synthetic:false,types:["rand_core::error::Error"]},{text:"impl<R: BlockRngCore + Debug> Debug for BlockRng<R>",synthetic:false,types:["rand_core::block::BlockRng"]},{text:"impl<R: BlockRngCore + Debug> Debug for BlockRng64<R>",synthetic:false,types:["rand_core::block::BlockRng64"]},]; -implementors["regex"] = [{text:"impl Debug for Error",synthetic:false,types:["regex::error::Error"]},{text:"impl<'t> Debug for Match<'t>",synthetic:false,types:["regex::re_bytes::Match"]},{text:"impl Debug for Regex",synthetic:false,types:["regex::re_bytes::Regex"]},{text:"impl Debug for CaptureLocations",synthetic:false,types:["regex::re_bytes::CaptureLocations"]},{text:"impl<'t> Debug for Captures<'t>",synthetic:false,types:["regex::re_bytes::Captures"]},{text:"impl<'a, R: Debug + ?Sized + 'a> Debug for ReplacerRef<'a, R>",synthetic:false,types:["regex::re_bytes::ReplacerRef"]},{text:"impl Debug for SetMatches",synthetic:false,types:["regex::re_set::unicode::SetMatches"]},{text:"impl Debug for RegexSet",synthetic:false,types:["regex::re_set::unicode::RegexSet"]},{text:"impl Debug for SetMatches",synthetic:false,types:["regex::re_set::bytes::SetMatches"]},{text:"impl Debug for RegexSet",synthetic:false,types:["regex::re_set::bytes::RegexSet"]},{text:"impl<'t> Debug for Match<'t>",synthetic:false,types:["regex::re_unicode::Match"]},{text:"impl Debug for Regex",synthetic:false,types:["regex::re_unicode::Regex"]},{text:"impl Debug for CaptureLocations",synthetic:false,types:["regex::re_unicode::CaptureLocations"]},{text:"impl<'t> Debug for Captures<'t>",synthetic:false,types:["regex::re_unicode::Captures"]},{text:"impl<'a, R: Debug + ?Sized + 'a> Debug for ReplacerRef<'a, R>",synthetic:false,types:["regex::re_unicode::ReplacerRef"]},]; -implementors["regex_syntax"] = [{text:"impl Debug for ParserBuilder",synthetic:false,types:["regex_syntax::ast::parse::ParserBuilder"]},{text:"impl Debug for Parser",synthetic:false,types:["regex_syntax::ast::parse::Parser"]},{text:"impl Debug for Printer",synthetic:false,types:["regex_syntax::ast::print::Printer"]},{text:"impl Debug for Error",synthetic:false,types:["regex_syntax::ast::Error"]},{text:"impl Debug for ErrorKind",synthetic:false,types:["regex_syntax::ast::ErrorKind"]},{text:"impl Debug for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl Debug for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl Debug for WithComments",synthetic:false,types:["regex_syntax::ast::WithComments"]},{text:"impl Debug for Comment",synthetic:false,types:["regex_syntax::ast::Comment"]},{text:"impl Debug for Ast",synthetic:false,types:["regex_syntax::ast::Ast"]},{text:"impl Debug for Alternation",synthetic:false,types:["regex_syntax::ast::Alternation"]},{text:"impl Debug for Concat",synthetic:false,types:["regex_syntax::ast::Concat"]},{text:"impl Debug for Literal",synthetic:false,types:["regex_syntax::ast::Literal"]},{text:"impl Debug for LiteralKind",synthetic:false,types:["regex_syntax::ast::LiteralKind"]},{text:"impl Debug for SpecialLiteralKind",synthetic:false,types:["regex_syntax::ast::SpecialLiteralKind"]},{text:"impl Debug for HexLiteralKind",synthetic:false,types:["regex_syntax::ast::HexLiteralKind"]},{text:"impl Debug for Class",synthetic:false,types:["regex_syntax::ast::Class"]},{text:"impl Debug for ClassPerl",synthetic:false,types:["regex_syntax::ast::ClassPerl"]},{text:"impl Debug for ClassPerlKind",synthetic:false,types:["regex_syntax::ast::ClassPerlKind"]},{text:"impl Debug for ClassAscii",synthetic:false,types:["regex_syntax::ast::ClassAscii"]},{text:"impl Debug for ClassAsciiKind",synthetic:false,types:["regex_syntax::ast::ClassAsciiKind"]},{text:"impl Debug for ClassUnicode",synthetic:false,types:["regex_syntax::ast::ClassUnicode"]},{text:"impl Debug for ClassUnicodeKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeKind"]},{text:"impl Debug for ClassUnicodeOpKind",synthetic:false,types:["regex_syntax::ast::ClassUnicodeOpKind"]},{text:"impl Debug for ClassBracketed",synthetic:false,types:["regex_syntax::ast::ClassBracketed"]},{text:"impl Debug for ClassSet",synthetic:false,types:["regex_syntax::ast::ClassSet"]},{text:"impl Debug for ClassSetItem",synthetic:false,types:["regex_syntax::ast::ClassSetItem"]},{text:"impl Debug for ClassSetRange",synthetic:false,types:["regex_syntax::ast::ClassSetRange"]},{text:"impl Debug for ClassSetUnion",synthetic:false,types:["regex_syntax::ast::ClassSetUnion"]},{text:"impl Debug for ClassSetBinaryOp",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOp"]},{text:"impl Debug for ClassSetBinaryOpKind",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl Debug for Assertion",synthetic:false,types:["regex_syntax::ast::Assertion"]},{text:"impl Debug for AssertionKind",synthetic:false,types:["regex_syntax::ast::AssertionKind"]},{text:"impl Debug for Repetition",synthetic:false,types:["regex_syntax::ast::Repetition"]},{text:"impl Debug for RepetitionOp",synthetic:false,types:["regex_syntax::ast::RepetitionOp"]},{text:"impl Debug for RepetitionKind",synthetic:false,types:["regex_syntax::ast::RepetitionKind"]},{text:"impl Debug for RepetitionRange",synthetic:false,types:["regex_syntax::ast::RepetitionRange"]},{text:"impl Debug for Group",synthetic:false,types:["regex_syntax::ast::Group"]},{text:"impl Debug for GroupKind",synthetic:false,types:["regex_syntax::ast::GroupKind"]},{text:"impl Debug for CaptureName",synthetic:false,types:["regex_syntax::ast::CaptureName"]},{text:"impl Debug for SetFlags",synthetic:false,types:["regex_syntax::ast::SetFlags"]},{text:"impl Debug for Flags",synthetic:false,types:["regex_syntax::ast::Flags"]},{text:"impl Debug for FlagsItem",synthetic:false,types:["regex_syntax::ast::FlagsItem"]},{text:"impl Debug for FlagsItemKind",synthetic:false,types:["regex_syntax::ast::FlagsItemKind"]},{text:"impl Debug for Flag",synthetic:false,types:["regex_syntax::ast::Flag"]},{text:"impl Debug for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl Debug for Literals",synthetic:false,types:["regex_syntax::hir::literal::Literals"]},{text:"impl Debug for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},{text:"impl Debug for Printer",synthetic:false,types:["regex_syntax::hir::print::Printer"]},{text:"impl Debug for TranslatorBuilder",synthetic:false,types:["regex_syntax::hir::translate::TranslatorBuilder"]},{text:"impl Debug for Translator",synthetic:false,types:["regex_syntax::hir::translate::Translator"]},{text:"impl Debug for Error",synthetic:false,types:["regex_syntax::hir::Error"]},{text:"impl Debug for ErrorKind",synthetic:false,types:["regex_syntax::hir::ErrorKind"]},{text:"impl Debug for Hir",synthetic:false,types:["regex_syntax::hir::Hir"]},{text:"impl Debug for HirKind",synthetic:false,types:["regex_syntax::hir::HirKind"]},{text:"impl Debug for Literal",synthetic:false,types:["regex_syntax::hir::Literal"]},{text:"impl Debug for Class",synthetic:false,types:["regex_syntax::hir::Class"]},{text:"impl Debug for ClassUnicode",synthetic:false,types:["regex_syntax::hir::ClassUnicode"]},{text:"impl<'a> Debug for ClassUnicodeIter<'a>",synthetic:false,types:["regex_syntax::hir::ClassUnicodeIter"]},{text:"impl Debug for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Debug for ClassBytes",synthetic:false,types:["regex_syntax::hir::ClassBytes"]},{text:"impl<'a> Debug for ClassBytesIter<'a>",synthetic:false,types:["regex_syntax::hir::ClassBytesIter"]},{text:"impl Debug for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl Debug for Anchor",synthetic:false,types:["regex_syntax::hir::Anchor"]},{text:"impl Debug for WordBoundary",synthetic:false,types:["regex_syntax::hir::WordBoundary"]},{text:"impl Debug for Group",synthetic:false,types:["regex_syntax::hir::Group"]},{text:"impl Debug for GroupKind",synthetic:false,types:["regex_syntax::hir::GroupKind"]},{text:"impl Debug for Repetition",synthetic:false,types:["regex_syntax::hir::Repetition"]},{text:"impl Debug for RepetitionKind",synthetic:false,types:["regex_syntax::hir::RepetitionKind"]},{text:"impl Debug for RepetitionRange",synthetic:false,types:["regex_syntax::hir::RepetitionRange"]},{text:"impl Debug for ParserBuilder",synthetic:false,types:["regex_syntax::parser::ParserBuilder"]},{text:"impl Debug for Parser",synthetic:false,types:["regex_syntax::parser::Parser"]},]; -implementors["thread_local"] = [{text:"impl<T: ?Sized + Send + Debug> Debug for ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},{text:"impl<T: ?Sized + Send + Debug> Debug for CachedThreadLocal<T>",synthetic:false,types:["thread_local::CachedThreadLocal"]},]; -implementors["utf8_ranges"] = [{text:"impl Debug for Utf8Sequence",synthetic:false,types:["utf8_ranges::Utf8Sequence"]},{text:"impl Debug for Utf8Range",synthetic:false,types:["utf8_ranges::Utf8Range"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/fmt/trait.Display.js b/target/doc/implementors/core/fmt/trait.Display.js deleted file mode 100644 index 227a7cc..0000000 --- a/target/doc/implementors/core/fmt/trait.Display.js +++ /dev/null @@ -1,15 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl Display for Error",synthetic:false,types:["aho_corasick::error::Error"]},]; -implementors["getrandom"] = [{text:"impl Display for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["rand"] = [{text:"impl Display for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},{text:"impl Display for ReadError",synthetic:false,types:["rand::rngs::adapter::read::ReadError"]},]; -implementors["rand_core"] = [{text:"impl Display for Error",synthetic:false,types:["rand_core::error::Error"]},]; -implementors["regex"] = [{text:"impl Display for Error",synthetic:false,types:["regex::error::Error"]},{text:"impl Display for Regex",synthetic:false,types:["regex::re_bytes::Regex"]},{text:"impl Display for Regex",synthetic:false,types:["regex::re_unicode::Regex"]},]; -implementors["regex_syntax"] = [{text:"impl Display for Error",synthetic:false,types:["regex_syntax::ast::Error"]},{text:"impl Display for ErrorKind",synthetic:false,types:["regex_syntax::ast::ErrorKind"]},{text:"impl Display for Ast",synthetic:false,types:["regex_syntax::ast::Ast"]},{text:"impl Display for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl Display for Error",synthetic:false,types:["regex_syntax::hir::Error"]},{text:"impl Display for ErrorKind",synthetic:false,types:["regex_syntax::hir::ErrorKind"]},{text:"impl Display for Hir",synthetic:false,types:["regex_syntax::hir::Hir"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/hash/trait.Hash.js b/target/doc/implementors/core/hash/trait.Hash.js deleted file mode 100644 index a56c2c1..0000000 --- a/target/doc/implementors/core/hash/trait.Hash.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl Hash for Match",synthetic:false,types:["aho_corasick::Match"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/iter/traits/collect/trait.IntoIterator.js b/target/doc/implementors/core/iter/traits/collect/trait.IntoIterator.js deleted file mode 100644 index 0c426ec..0000000 --- a/target/doc/implementors/core/iter/traits/collect/trait.IntoIterator.js +++ /dev/null @@ -1,12 +0,0 @@ -(function() {var implementors = {}; -implementors["regex"] = [{text:"impl IntoIterator for SetMatches",synthetic:false,types:["regex::re_set::unicode::SetMatches"]},{text:"impl<'a> IntoIterator for &'a SetMatches",synthetic:false,types:["regex::re_set::unicode::SetMatches"]},{text:"impl IntoIterator for SetMatches",synthetic:false,types:["regex::re_set::bytes::SetMatches"]},{text:"impl<'a> IntoIterator for &'a SetMatches",synthetic:false,types:["regex::re_set::bytes::SetMatches"]},]; -implementors["thread_local"] = [{text:"impl<T: ?Sized + Send> IntoIterator for ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},{text:"impl<'a, T: ?Sized + Send + 'a> IntoIterator for &'a mut ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},{text:"impl<T: ?Sized + Send> IntoIterator for CachedThreadLocal<T>",synthetic:false,types:["thread_local::CachedThreadLocal"]},{text:"impl<'a, T: ?Sized + Send + 'a> IntoIterator for &'a mut CachedThreadLocal<T>",synthetic:false,types:["thread_local::CachedThreadLocal"]},]; -implementors["utf8_ranges"] = [{text:"impl<'a> IntoIterator for &'a Utf8Sequence",synthetic:false,types:["utf8_ranges::Utf8Sequence"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/iter/traits/double_ended/trait.DoubleEndedIterator.js b/target/doc/implementors/core/iter/traits/double_ended/trait.DoubleEndedIterator.js deleted file mode 100644 index 81006f4..0000000 --- a/target/doc/implementors/core/iter/traits/double_ended/trait.DoubleEndedIterator.js +++ /dev/null @@ -1,11 +0,0 @@ -(function() {var implementors = {}; -implementors["memchr"] = [{text:"impl<'a> DoubleEndedIterator for Memchr<'a>",synthetic:false,types:["memchr::iter::Memchr"]},{text:"impl<'a> DoubleEndedIterator for Memchr2<'a>",synthetic:false,types:["memchr::iter::Memchr2"]},{text:"impl<'a> DoubleEndedIterator for Memchr3<'a>",synthetic:false,types:["memchr::iter::Memchr3"]},]; -implementors["regex"] = [{text:"impl DoubleEndedIterator for SetMatchesIntoIter",synthetic:false,types:["regex::re_set::unicode::SetMatchesIntoIter"]},{text:"impl<'a> DoubleEndedIterator for SetMatchesIter<'a>",synthetic:false,types:["regex::re_set::unicode::SetMatchesIter"]},{text:"impl DoubleEndedIterator for SetMatchesIntoIter",synthetic:false,types:["regex::re_set::bytes::SetMatchesIntoIter"]},{text:"impl<'a> DoubleEndedIterator for SetMatchesIter<'a>",synthetic:false,types:["regex::re_set::bytes::SetMatchesIter"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/iter/traits/exact_size/trait.ExactSizeIterator.js b/target/doc/implementors/core/iter/traits/exact_size/trait.ExactSizeIterator.js deleted file mode 100644 index c9b96a2..0000000 --- a/target/doc/implementors/core/iter/traits/exact_size/trait.ExactSizeIterator.js +++ /dev/null @@ -1,11 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = [{text:"impl<'a> ExactSizeIterator for IndexVecIter<'a>",synthetic:false,types:["rand::seq::index::IndexVecIter"]},{text:"impl ExactSizeIterator for IndexVecIntoIter",synthetic:false,types:["rand::seq::index::IndexVecIntoIter"]},{text:"impl<'a, S: Index<usize, Output = T> + ?Sized + 'a, T: 'a> ExactSizeIterator for SliceChooseIter<'a, S, T>",synthetic:false,types:["rand::seq::SliceChooseIter"]},]; -implementors["thread_local"] = [{text:"impl<'a, T: ?Sized + Send + 'a> ExactSizeIterator for IterMut<'a, T>",synthetic:false,types:["thread_local::IterMut"]},{text:"impl<T: ?Sized + Send> ExactSizeIterator for IntoIter<T>",synthetic:false,types:["thread_local::IntoIter"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/iter/traits/iterator/trait.Iterator.js b/target/doc/implementors/core/iter/traits/iterator/trait.Iterator.js deleted file mode 100644 index f55ef2c..0000000 --- a/target/doc/implementors/core/iter/traits/iterator/trait.Iterator.js +++ /dev/null @@ -1,16 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl<'a, 'b, S: StateID> Iterator for FindIter<'a, 'b, S>",synthetic:false,types:["aho_corasick::ahocorasick::FindIter"]},{text:"impl<'a, 'b, S: StateID> Iterator for FindOverlappingIter<'a, 'b, S>",synthetic:false,types:["aho_corasick::ahocorasick::FindOverlappingIter"]},{text:"impl<'a, R: Read, S: StateID> Iterator for StreamFindIter<'a, R, S>",synthetic:false,types:["aho_corasick::ahocorasick::StreamFindIter"]},]; -implementors["memchr"] = [{text:"impl<'a> Iterator for Memchr<'a>",synthetic:false,types:["memchr::iter::Memchr"]},{text:"impl<'a> Iterator for Memchr2<'a>",synthetic:false,types:["memchr::iter::Memchr2"]},{text:"impl<'a> Iterator for Memchr3<'a>",synthetic:false,types:["memchr::iter::Memchr3"]},]; -implementors["rand"] = [{text:"impl<D, R, T> Iterator for DistIter<D, R, T> where
    D: Distribution<T>,
    R: Rng
",synthetic:false,types:["rand::distributions::DistIter"]},{text:"impl<'a> Iterator for IndexVecIter<'a>",synthetic:false,types:["rand::seq::index::IndexVecIter"]},{text:"impl Iterator for IndexVecIntoIter",synthetic:false,types:["rand::seq::index::IndexVecIntoIter"]},{text:"impl<'a, S: Index<usize, Output = T> + ?Sized + 'a, T: 'a> Iterator for SliceChooseIter<'a, S, T>",synthetic:false,types:["rand::seq::SliceChooseIter"]},]; -implementors["regex"] = [{text:"impl<'r, 't> Iterator for Matches<'r, 't>",synthetic:false,types:["regex::re_bytes::Matches"]},{text:"impl<'r, 't> Iterator for CaptureMatches<'r, 't>",synthetic:false,types:["regex::re_bytes::CaptureMatches"]},{text:"impl<'r, 't> Iterator for Split<'r, 't>",synthetic:false,types:["regex::re_bytes::Split"]},{text:"impl<'r, 't> Iterator for SplitN<'r, 't>",synthetic:false,types:["regex::re_bytes::SplitN"]},{text:"impl<'r> Iterator for CaptureNames<'r>",synthetic:false,types:["regex::re_bytes::CaptureNames"]},{text:"impl<'c, 't> Iterator for SubCaptureMatches<'c, 't>",synthetic:false,types:["regex::re_bytes::SubCaptureMatches"]},{text:"impl Iterator for SetMatchesIntoIter",synthetic:false,types:["regex::re_set::unicode::SetMatchesIntoIter"]},{text:"impl<'a> Iterator for SetMatchesIter<'a>",synthetic:false,types:["regex::re_set::unicode::SetMatchesIter"]},{text:"impl Iterator for SetMatchesIntoIter",synthetic:false,types:["regex::re_set::bytes::SetMatchesIntoIter"]},{text:"impl<'a> Iterator for SetMatchesIter<'a>",synthetic:false,types:["regex::re_set::bytes::SetMatchesIter"]},{text:"impl<'r> Iterator for CaptureNames<'r>",synthetic:false,types:["regex::re_unicode::CaptureNames"]},{text:"impl<'r, 't> Iterator for Split<'r, 't>",synthetic:false,types:["regex::re_unicode::Split"]},{text:"impl<'r, 't> Iterator for SplitN<'r, 't>",synthetic:false,types:["regex::re_unicode::SplitN"]},{text:"impl<'c, 't> Iterator for SubCaptureMatches<'c, 't>",synthetic:false,types:["regex::re_unicode::SubCaptureMatches"]},{text:"impl<'r, 't> Iterator for CaptureMatches<'r, 't>",synthetic:false,types:["regex::re_unicode::CaptureMatches"]},{text:"impl<'r, 't> Iterator for Matches<'r, 't>",synthetic:false,types:["regex::re_unicode::Matches"]},]; -implementors["regex_syntax"] = [{text:"impl<'a> Iterator for ClassUnicodeIter<'a>",synthetic:false,types:["regex_syntax::hir::ClassUnicodeIter"]},{text:"impl<'a> Iterator for ClassBytesIter<'a>",synthetic:false,types:["regex_syntax::hir::ClassBytesIter"]},]; -implementors["thread_local"] = [{text:"impl<'a, T: ?Sized + Send + 'a> Iterator for IterMut<'a, T>",synthetic:false,types:["thread_local::IterMut"]},{text:"impl<T: ?Sized + Send> Iterator for IntoIter<T>",synthetic:false,types:["thread_local::IntoIter"]},]; -implementors["utf8_ranges"] = [{text:"impl Iterator for Utf8Sequences",synthetic:false,types:["utf8_ranges::Utf8Sequences"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/iter/traits/marker/trait.FusedIterator.js b/target/doc/implementors/core/iter/traits/marker/trait.FusedIterator.js deleted file mode 100644 index 2186958..0000000 --- a/target/doc/implementors/core/iter/traits/marker/trait.FusedIterator.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = [{text:"impl<D, R, T> FusedIterator for DistIter<D, R, T> where
    D: Distribution<T>,
    R: Rng
",synthetic:false,types:["rand::distributions::DistIter"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/marker/trait.Copy.js b/target/doc/implementors/core/marker/trait.Copy.js deleted file mode 100644 index dd990a8..0000000 --- a/target/doc/implementors/core/marker/trait.Copy.js +++ /dev/null @@ -1,16 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl Copy for MatchKind",synthetic:false,types:["aho_corasick::ahocorasick::MatchKind"]},]; -implementors["getrandom"] = [{text:"impl Copy for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["ppv_lite86"] = [{text:"impl Copy for YesS3",synthetic:false,types:["ppv_lite86::x86_64::YesS3"]},{text:"impl Copy for NoS3",synthetic:false,types:["ppv_lite86::x86_64::NoS3"]},{text:"impl Copy for YesS4",synthetic:false,types:["ppv_lite86::x86_64::YesS4"]},{text:"impl Copy for NoS4",synthetic:false,types:["ppv_lite86::x86_64::NoS4"]},{text:"impl Copy for YesA1",synthetic:false,types:["ppv_lite86::x86_64::YesA1"]},{text:"impl Copy for NoA1",synthetic:false,types:["ppv_lite86::x86_64::NoA1"]},{text:"impl Copy for YesA2",synthetic:false,types:["ppv_lite86::x86_64::YesA2"]},{text:"impl Copy for NoA2",synthetic:false,types:["ppv_lite86::x86_64::NoA2"]},{text:"impl Copy for YesNI",synthetic:false,types:["ppv_lite86::x86_64::YesNI"]},{text:"impl Copy for NoNI",synthetic:false,types:["ppv_lite86::x86_64::NoNI"]},{text:"impl<S3: Copy, S4: Copy, NI: Copy> Copy for SseMachine<S3, S4, NI>",synthetic:false,types:["ppv_lite86::x86_64::SseMachine"]},{text:"impl<NI: Copy> Copy for Avx2Machine<NI>",synthetic:false,types:["ppv_lite86::x86_64::Avx2Machine"]},{text:"impl Copy for vec128_storage",synthetic:false,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Copy for vec256_storage",synthetic:false,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Copy for vec512_storage",synthetic:false,types:["ppv_lite86::x86_64::vec512_storage"]},]; -implementors["rand"] = [{text:"impl<X: Copy + SampleUniform> Copy for Uniform<X> where
    X::Sampler: Copy
",synthetic:false,types:["rand::distributions::uniform::Uniform"]},{text:"impl<X: Copy> Copy for UniformInt<X>",synthetic:false,types:["rand::distributions::uniform::UniformInt"]},{text:"impl<X: Copy> Copy for UniformFloat<X>",synthetic:false,types:["rand::distributions::uniform::UniformFloat"]},{text:"impl Copy for UniformDuration",synthetic:false,types:["rand::distributions::uniform::UniformDuration"]},{text:"impl Copy for Bernoulli",synthetic:false,types:["rand::distributions::bernoulli::Bernoulli"]},{text:"impl Copy for BernoulliError",synthetic:false,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl Copy for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},{text:"impl Copy for UnitSphereSurface",synthetic:false,types:["rand::distributions::unit_sphere::UnitSphereSurface"]},{text:"impl Copy for UnitCircle",synthetic:false,types:["rand::distributions::unit_circle::UnitCircle"]},{text:"impl Copy for Gamma",synthetic:false,types:["rand::distributions::gamma::Gamma"]},{text:"impl Copy for ChiSquared",synthetic:false,types:["rand::distributions::gamma::ChiSquared"]},{text:"impl Copy for FisherF",synthetic:false,types:["rand::distributions::gamma::FisherF"]},{text:"impl Copy for StudentT",synthetic:false,types:["rand::distributions::gamma::StudentT"]},{text:"impl Copy for Beta",synthetic:false,types:["rand::distributions::gamma::Beta"]},{text:"impl Copy for StandardNormal",synthetic:false,types:["rand::distributions::normal::StandardNormal"]},{text:"impl Copy for Normal",synthetic:false,types:["rand::distributions::normal::Normal"]},{text:"impl Copy for LogNormal",synthetic:false,types:["rand::distributions::normal::LogNormal"]},{text:"impl Copy for Exp1",synthetic:false,types:["rand::distributions::exponential::Exp1"]},{text:"impl Copy for Exp",synthetic:false,types:["rand::distributions::exponential::Exp"]},{text:"impl Copy for Pareto",synthetic:false,types:["rand::distributions::pareto::Pareto"]},{text:"impl Copy for Poisson",synthetic:false,types:["rand::distributions::poisson::Poisson"]},{text:"impl Copy for Binomial",synthetic:false,types:["rand::distributions::binomial::Binomial"]},{text:"impl Copy for Cauchy",synthetic:false,types:["rand::distributions::cauchy::Cauchy"]},{text:"impl Copy for Triangular",synthetic:false,types:["rand::distributions::triangular::Triangular"]},{text:"impl Copy for Weibull",synthetic:false,types:["rand::distributions::weibull::Weibull"]},{text:"impl Copy for OpenClosed01",synthetic:false,types:["rand::distributions::float::OpenClosed01"]},{text:"impl Copy for Open01",synthetic:false,types:["rand::distributions::float::Open01"]},{text:"impl Copy for Standard",synthetic:false,types:["rand::distributions::Standard"]},{text:"impl Copy for ThreadRng",synthetic:false,types:["rand::rngs::thread::ThreadRng"]},{text:"impl Copy for OsRng",synthetic:false,types:["rand::rngs::os::OsRng"]},]; -implementors["regex"] = [{text:"impl<'t> Copy for Match<'t>",synthetic:false,types:["regex::re_bytes::Match"]},{text:"impl<'t> Copy for Match<'t>",synthetic:false,types:["regex::re_unicode::Match"]},]; -implementors["regex_syntax"] = [{text:"impl Copy for Span",synthetic:false,types:["regex_syntax::ast::Span"]},{text:"impl Copy for Position",synthetic:false,types:["regex_syntax::ast::Position"]},{text:"impl Copy for ClassSetBinaryOpKind",synthetic:false,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl Copy for Flag",synthetic:false,types:["regex_syntax::ast::Flag"]},{text:"impl Copy for ClassUnicodeRange",synthetic:false,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Copy for ClassBytesRange",synthetic:false,types:["regex_syntax::hir::ClassBytesRange"]},]; -implementors["utf8_ranges"] = [{text:"impl Copy for Utf8Sequence",synthetic:false,types:["utf8_ranges::Utf8Sequence"]},{text:"impl Copy for Utf8Range",synthetic:false,types:["utf8_ranges::Utf8Range"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/marker/trait.Send.js b/target/doc/implementors/core/marker/trait.Send.js deleted file mode 100644 index b8e2036..0000000 --- a/target/doc/implementors/core/marker/trait.Send.js +++ /dev/null @@ -1,21 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl<S> Send for AhoCorasick<S> where
    S: Send
",synthetic:true,types:["aho_corasick::ahocorasick::AhoCorasick"]},{text:"impl Send for AhoCorasickBuilder",synthetic:true,types:["aho_corasick::ahocorasick::AhoCorasickBuilder"]},{text:"impl<'a, 'b, S> Send for FindIter<'a, 'b, S> where
    S: Send + Sync
",synthetic:true,types:["aho_corasick::ahocorasick::FindIter"]},{text:"impl<'a, 'b, S> Send for FindOverlappingIter<'a, 'b, S> where
    S: Send + Sync
",synthetic:true,types:["aho_corasick::ahocorasick::FindOverlappingIter"]},{text:"impl<'a, R, S> Send for StreamFindIter<'a, R, S> where
    R: Send,
    S: Send + Sync
",synthetic:true,types:["aho_corasick::ahocorasick::StreamFindIter"]},{text:"impl Send for Error",synthetic:true,types:["aho_corasick::error::Error"]},{text:"impl Send for Match",synthetic:true,types:["aho_corasick::Match"]},{text:"impl Send for MatchKind",synthetic:true,types:["aho_corasick::ahocorasick::MatchKind"]},{text:"impl Send for ErrorKind",synthetic:true,types:["aho_corasick::error::ErrorKind"]},]; -implementors["c2_chacha"] = [{text:"impl Send for ChaCha",synthetic:true,types:["c2_chacha::guts::ChaCha"]},{text:"impl<V> Send for State<V> where
    V: Send
",synthetic:true,types:["c2_chacha::guts::State"]},]; -implementors["getrandom"] = [{text:"impl Send for Error",synthetic:true,types:["getrandom::error::Error"]},]; -implementors["memchr"] = [{text:"impl<'a> Send for Memchr<'a>",synthetic:true,types:["memchr::iter::Memchr"]},{text:"impl<'a> Send for Memchr2<'a>",synthetic:true,types:["memchr::iter::Memchr2"]},{text:"impl<'a> Send for Memchr3<'a>",synthetic:true,types:["memchr::iter::Memchr3"]},]; -implementors["ppv_lite86"] = [{text:"impl Send for YesS3",synthetic:true,types:["ppv_lite86::x86_64::YesS3"]},{text:"impl Send for NoS3",synthetic:true,types:["ppv_lite86::x86_64::NoS3"]},{text:"impl Send for YesS4",synthetic:true,types:["ppv_lite86::x86_64::YesS4"]},{text:"impl Send for NoS4",synthetic:true,types:["ppv_lite86::x86_64::NoS4"]},{text:"impl Send for YesA1",synthetic:true,types:["ppv_lite86::x86_64::YesA1"]},{text:"impl Send for NoA1",synthetic:true,types:["ppv_lite86::x86_64::NoA1"]},{text:"impl Send for YesA2",synthetic:true,types:["ppv_lite86::x86_64::YesA2"]},{text:"impl Send for NoA2",synthetic:true,types:["ppv_lite86::x86_64::NoA2"]},{text:"impl Send for YesNI",synthetic:true,types:["ppv_lite86::x86_64::YesNI"]},{text:"impl Send for NoNI",synthetic:true,types:["ppv_lite86::x86_64::NoNI"]},{text:"impl<S3, S4, NI> Send for SseMachine<S3, S4, NI> where
    NI: Send,
    S3: Send,
    S4: Send
",synthetic:true,types:["ppv_lite86::x86_64::SseMachine"]},{text:"impl<NI> Send for Avx2Machine<NI> where
    NI: Send
",synthetic:true,types:["ppv_lite86::x86_64::Avx2Machine"]},{text:"impl Send for vec128_storage",synthetic:true,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Send for vec256_storage",synthetic:true,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Send for vec512_storage",synthetic:true,types:["ppv_lite86::x86_64::vec512_storage"]},]; -implementors["rand"] = [{text:"impl Send for Alphanumeric",synthetic:true,types:["rand::distributions::other::Alphanumeric"]},{text:"impl<X> Send for Uniform<X> where
    <X as SampleUniform>::Sampler: Send
",synthetic:true,types:["rand::distributions::uniform::Uniform"]},{text:"impl Send for OpenClosed01",synthetic:true,types:["rand::distributions::float::OpenClosed01"]},{text:"impl Send for Open01",synthetic:true,types:["rand::distributions::float::Open01"]},{text:"impl Send for Bernoulli",synthetic:true,types:["rand::distributions::bernoulli::Bernoulli"]},{text:"impl Send for UnitSphereSurface",synthetic:true,types:["rand::distributions::unit_sphere::UnitSphereSurface"]},{text:"impl Send for UnitCircle",synthetic:true,types:["rand::distributions::unit_circle::UnitCircle"]},{text:"impl Send for Gamma",synthetic:true,types:["rand::distributions::gamma::Gamma"]},{text:"impl Send for ChiSquared",synthetic:true,types:["rand::distributions::gamma::ChiSquared"]},{text:"impl Send for FisherF",synthetic:true,types:["rand::distributions::gamma::FisherF"]},{text:"impl Send for StudentT",synthetic:true,types:["rand::distributions::gamma::StudentT"]},{text:"impl Send for Beta",synthetic:true,types:["rand::distributions::gamma::Beta"]},{text:"impl Send for Normal",synthetic:true,types:["rand::distributions::normal::Normal"]},{text:"impl Send for LogNormal",synthetic:true,types:["rand::distributions::normal::LogNormal"]},{text:"impl Send for StandardNormal",synthetic:true,types:["rand::distributions::normal::StandardNormal"]},{text:"impl Send for Exp",synthetic:true,types:["rand::distributions::exponential::Exp"]},{text:"impl Send for Exp1",synthetic:true,types:["rand::distributions::exponential::Exp1"]},{text:"impl Send for Pareto",synthetic:true,types:["rand::distributions::pareto::Pareto"]},{text:"impl Send for Poisson",synthetic:true,types:["rand::distributions::poisson::Poisson"]},{text:"impl Send for Binomial",synthetic:true,types:["rand::distributions::binomial::Binomial"]},{text:"impl Send for Cauchy",synthetic:true,types:["rand::distributions::cauchy::Cauchy"]},{text:"impl Send for Dirichlet",synthetic:true,types:["rand::distributions::dirichlet::Dirichlet"]},{text:"impl Send for Triangular",synthetic:true,types:["rand::distributions::triangular::Triangular"]},{text:"impl Send for Weibull",synthetic:true,types:["rand::distributions::weibull::Weibull"]},{text:"impl<D, R, T> Send for DistIter<D, R, T> where
    D: Send,
    R: Send,
    T: Send
",synthetic:true,types:["rand::distributions::DistIter"]},{text:"impl Send for Standard",synthetic:true,types:["rand::distributions::Standard"]},{text:"impl Send for BernoulliError",synthetic:true,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl<X> Send for UniformInt<X> where
    X: Send
",synthetic:true,types:["rand::distributions::uniform::UniformInt"]},{text:"impl<X> Send for UniformFloat<X> where
    X: Send
",synthetic:true,types:["rand::distributions::uniform::UniformFloat"]},{text:"impl Send for UniformDuration",synthetic:true,types:["rand::distributions::uniform::UniformDuration"]},{text:"impl<X> Send for WeightedIndex<X> where
    X: Send,
    <X as SampleUniform>::Sampler: Send
",synthetic:true,types:["rand::distributions::weighted::WeightedIndex"]},{text:"impl Send for WeightedError",synthetic:true,types:["rand::distributions::weighted::WeightedError"]},{text:"impl<W> Send for WeightedIndex<W> where
    W: Send,
    <W as SampleUniform>::Sampler: Send
",synthetic:true,types:["rand::distributions::weighted::alias_method::WeightedIndex"]},{text:"impl Send for EntropyRng",synthetic:true,types:["rand::rngs::entropy::EntropyRng"]},{text:"impl Send for StdRng",synthetic:true,types:["rand::rngs::std::StdRng"]},{text:"impl !Send for ThreadRng",synthetic:true,types:["rand::rngs::thread::ThreadRng"]},{text:"impl Send for OsRng",synthetic:true,types:["rand::rngs::os::OsRng"]},{text:"impl<R> Send for ReadRng<R> where
    R: Send
",synthetic:true,types:["rand::rngs::adapter::read::ReadRng"]},{text:"impl Send for ReadError",synthetic:true,types:["rand::rngs::adapter::read::ReadError"]},{text:"impl<R, Rsdr> Send for ReseedingRng<R, Rsdr> where
    R: Send,
    Rsdr: Send,
    <R as BlockRngCore>::Results: Send
",synthetic:true,types:["rand::rngs::adapter::reseeding::ReseedingRng"]},{text:"impl Send for StepRng",synthetic:true,types:["rand::rngs::mock::StepRng"]},{text:"impl<'a, S: ?Sized, T> Send for SliceChooseIter<'a, S, T> where
    S: Sync,
    T: Send
",synthetic:true,types:["rand::seq::SliceChooseIter"]},{text:"impl Send for IndexVec",synthetic:true,types:["rand::seq::index::IndexVec"]},{text:"impl<'a> Send for IndexVecIter<'a>",synthetic:true,types:["rand::seq::index::IndexVecIter"]},{text:"impl Send for IndexVecIntoIter",synthetic:true,types:["rand::seq::index::IndexVecIntoIter"]},]; -implementors["rand_chacha"] = [{text:"impl Send for ChaCha12Core",synthetic:true,types:["rand_chacha::chacha::ChaCha12Core"]},{text:"impl Send for ChaCha12Rng",synthetic:true,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl Send for ChaCha20Core",synthetic:true,types:["rand_chacha::chacha::ChaCha20Core"]},{text:"impl Send for ChaCha20Rng",synthetic:true,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl Send for ChaCha8Core",synthetic:true,types:["rand_chacha::chacha::ChaCha8Core"]},{text:"impl Send for ChaCha8Rng",synthetic:true,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = [{text:"impl Send for Error",synthetic:true,types:["rand_core::error::Error"]},{text:"impl<R: ?Sized> Send for BlockRng<R> where
    R: Send,
    <R as BlockRngCore>::Results: Send
",synthetic:true,types:["rand_core::block::BlockRng"]},{text:"impl<R: ?Sized> Send for BlockRng64<R> where
    R: Send,
    <R as BlockRngCore>::Results: Send
",synthetic:true,types:["rand_core::block::BlockRng64"]},]; -implementors["regex"] = [{text:"impl Send for RegexBuilder",synthetic:true,types:["regex::re_builder::unicode::RegexBuilder"]},{text:"impl Send for RegexSetBuilder",synthetic:true,types:["regex::re_builder::set_unicode::RegexSetBuilder"]},{text:"impl Send for RegexSet",synthetic:true,types:["regex::re_set::unicode::RegexSet"]},{text:"impl Send for SetMatches",synthetic:true,types:["regex::re_set::unicode::SetMatches"]},{text:"impl Send for SetMatchesIntoIter",synthetic:true,types:["regex::re_set::unicode::SetMatchesIntoIter"]},{text:"impl<'a> Send for SetMatchesIter<'a>",synthetic:true,types:["regex::re_set::unicode::SetMatchesIter"]},{text:"impl Send for Regex",synthetic:true,types:["regex::re_unicode::Regex"]},{text:"impl<'t> Send for Match<'t>",synthetic:true,types:["regex::re_unicode::Match"]},{text:"impl<'t> Send for Captures<'t>",synthetic:true,types:["regex::re_unicode::Captures"]},{text:"impl<'r> Send for CaptureNames<'r>",synthetic:true,types:["regex::re_unicode::CaptureNames"]},{text:"impl<'r, 't> !Send for Matches<'r, 't>",synthetic:true,types:["regex::re_unicode::Matches"]},{text:"impl<'r, 't> !Send for CaptureMatches<'r, 't>",synthetic:true,types:["regex::re_unicode::CaptureMatches"]},{text:"impl<'c, 't> Send for SubCaptureMatches<'c, 't>",synthetic:true,types:["regex::re_unicode::SubCaptureMatches"]},{text:"impl Send for CaptureLocations",synthetic:true,types:["regex::re_unicode::CaptureLocations"]},{text:"impl<'a, R: ?Sized> Send for ReplacerRef<'a, R> where
    R: Send
",synthetic:true,types:["regex::re_unicode::ReplacerRef"]},{text:"impl<'t> Send for NoExpand<'t>",synthetic:true,types:["regex::re_unicode::NoExpand"]},{text:"impl<'r, 't> !Send for Split<'r, 't>",synthetic:true,types:["regex::re_unicode::Split"]},{text:"impl<'r, 't> !Send for SplitN<'r, 't>",synthetic:true,types:["regex::re_unicode::SplitN"]},{text:"impl Send for Error",synthetic:true,types:["regex::error::Error"]},{text:"impl Send for RegexBuilder",synthetic:true,types:["regex::re_builder::bytes::RegexBuilder"]},{text:"impl Send for RegexSetBuilder",synthetic:true,types:["regex::re_builder::set_bytes::RegexSetBuilder"]},{text:"impl<'t> Send for Match<'t>",synthetic:true,types:["regex::re_bytes::Match"]},{text:"impl Send for Regex",synthetic:true,types:["regex::re_bytes::Regex"]},{text:"impl<'r, 't> !Send for Matches<'r, 't>",synthetic:true,types:["regex::re_bytes::Matches"]},{text:"impl<'r, 't> !Send for CaptureMatches<'r, 't>",synthetic:true,types:["regex::re_bytes::CaptureMatches"]},{text:"impl<'r, 't> !Send for Split<'r, 't>",synthetic:true,types:["regex::re_bytes::Split"]},{text:"impl<'r, 't> !Send for SplitN<'r, 't>",synthetic:true,types:["regex::re_bytes::SplitN"]},{text:"impl<'r> Send for CaptureNames<'r>",synthetic:true,types:["regex::re_bytes::CaptureNames"]},{text:"impl Send for CaptureLocations",synthetic:true,types:["regex::re_bytes::CaptureLocations"]},{text:"impl<'t> Send for Captures<'t>",synthetic:true,types:["regex::re_bytes::Captures"]},{text:"impl<'c, 't> Send for SubCaptureMatches<'c, 't>",synthetic:true,types:["regex::re_bytes::SubCaptureMatches"]},{text:"impl<'a, R: ?Sized> Send for ReplacerRef<'a, R> where
    R: Send
",synthetic:true,types:["regex::re_bytes::ReplacerRef"]},{text:"impl<'t> Send for NoExpand<'t>",synthetic:true,types:["regex::re_bytes::NoExpand"]},{text:"impl Send for RegexSet",synthetic:true,types:["regex::re_set::bytes::RegexSet"]},{text:"impl Send for SetMatches",synthetic:true,types:["regex::re_set::bytes::SetMatches"]},{text:"impl Send for SetMatchesIntoIter",synthetic:true,types:["regex::re_set::bytes::SetMatchesIntoIter"]},{text:"impl<'a> Send for SetMatchesIter<'a>",synthetic:true,types:["regex::re_set::bytes::SetMatchesIter"]},]; -implementors["regex_syntax"] = [{text:"impl Send for Parser",synthetic:true,types:["regex_syntax::parser::Parser"]},{text:"impl Send for ParserBuilder",synthetic:true,types:["regex_syntax::parser::ParserBuilder"]},{text:"impl Send for Error",synthetic:true,types:["regex_syntax::error::Error"]},{text:"impl Send for Error",synthetic:true,types:["regex_syntax::ast::Error"]},{text:"impl Send for Span",synthetic:true,types:["regex_syntax::ast::Span"]},{text:"impl Send for Position",synthetic:true,types:["regex_syntax::ast::Position"]},{text:"impl Send for WithComments",synthetic:true,types:["regex_syntax::ast::WithComments"]},{text:"impl Send for Comment",synthetic:true,types:["regex_syntax::ast::Comment"]},{text:"impl Send for Alternation",synthetic:true,types:["regex_syntax::ast::Alternation"]},{text:"impl Send for Concat",synthetic:true,types:["regex_syntax::ast::Concat"]},{text:"impl Send for Literal",synthetic:true,types:["regex_syntax::ast::Literal"]},{text:"impl Send for ClassPerl",synthetic:true,types:["regex_syntax::ast::ClassPerl"]},{text:"impl Send for ClassAscii",synthetic:true,types:["regex_syntax::ast::ClassAscii"]},{text:"impl Send for ClassUnicode",synthetic:true,types:["regex_syntax::ast::ClassUnicode"]},{text:"impl Send for ClassBracketed",synthetic:true,types:["regex_syntax::ast::ClassBracketed"]},{text:"impl Send for ClassSetRange",synthetic:true,types:["regex_syntax::ast::ClassSetRange"]},{text:"impl Send for ClassSetUnion",synthetic:true,types:["regex_syntax::ast::ClassSetUnion"]},{text:"impl Send for ClassSetBinaryOp",synthetic:true,types:["regex_syntax::ast::ClassSetBinaryOp"]},{text:"impl Send for Assertion",synthetic:true,types:["regex_syntax::ast::Assertion"]},{text:"impl Send for Repetition",synthetic:true,types:["regex_syntax::ast::Repetition"]},{text:"impl Send for RepetitionOp",synthetic:true,types:["regex_syntax::ast::RepetitionOp"]},{text:"impl Send for Group",synthetic:true,types:["regex_syntax::ast::Group"]},{text:"impl Send for CaptureName",synthetic:true,types:["regex_syntax::ast::CaptureName"]},{text:"impl Send for SetFlags",synthetic:true,types:["regex_syntax::ast::SetFlags"]},{text:"impl Send for Flags",synthetic:true,types:["regex_syntax::ast::Flags"]},{text:"impl Send for FlagsItem",synthetic:true,types:["regex_syntax::ast::FlagsItem"]},{text:"impl Send for ErrorKind",synthetic:true,types:["regex_syntax::ast::ErrorKind"]},{text:"impl Send for Ast",synthetic:true,types:["regex_syntax::ast::Ast"]},{text:"impl Send for LiteralKind",synthetic:true,types:["regex_syntax::ast::LiteralKind"]},{text:"impl Send for SpecialLiteralKind",synthetic:true,types:["regex_syntax::ast::SpecialLiteralKind"]},{text:"impl Send for HexLiteralKind",synthetic:true,types:["regex_syntax::ast::HexLiteralKind"]},{text:"impl Send for Class",synthetic:true,types:["regex_syntax::ast::Class"]},{text:"impl Send for ClassPerlKind",synthetic:true,types:["regex_syntax::ast::ClassPerlKind"]},{text:"impl Send for ClassAsciiKind",synthetic:true,types:["regex_syntax::ast::ClassAsciiKind"]},{text:"impl Send for ClassUnicodeKind",synthetic:true,types:["regex_syntax::ast::ClassUnicodeKind"]},{text:"impl Send for ClassUnicodeOpKind",synthetic:true,types:["regex_syntax::ast::ClassUnicodeOpKind"]},{text:"impl Send for ClassSet",synthetic:true,types:["regex_syntax::ast::ClassSet"]},{text:"impl Send for ClassSetItem",synthetic:true,types:["regex_syntax::ast::ClassSetItem"]},{text:"impl Send for ClassSetBinaryOpKind",synthetic:true,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl Send for AssertionKind",synthetic:true,types:["regex_syntax::ast::AssertionKind"]},{text:"impl Send for RepetitionKind",synthetic:true,types:["regex_syntax::ast::RepetitionKind"]},{text:"impl Send for RepetitionRange",synthetic:true,types:["regex_syntax::ast::RepetitionRange"]},{text:"impl Send for GroupKind",synthetic:true,types:["regex_syntax::ast::GroupKind"]},{text:"impl Send for FlagsItemKind",synthetic:true,types:["regex_syntax::ast::FlagsItemKind"]},{text:"impl Send for Flag",synthetic:true,types:["regex_syntax::ast::Flag"]},{text:"impl Send for ParserBuilder",synthetic:true,types:["regex_syntax::ast::parse::ParserBuilder"]},{text:"impl Send for Parser",synthetic:true,types:["regex_syntax::ast::parse::Parser"]},{text:"impl Send for Printer",synthetic:true,types:["regex_syntax::ast::print::Printer"]},{text:"impl Send for Error",synthetic:true,types:["regex_syntax::hir::Error"]},{text:"impl Send for Hir",synthetic:true,types:["regex_syntax::hir::Hir"]},{text:"impl Send for ClassUnicode",synthetic:true,types:["regex_syntax::hir::ClassUnicode"]},{text:"impl<'a> Send for ClassUnicodeIter<'a>",synthetic:true,types:["regex_syntax::hir::ClassUnicodeIter"]},{text:"impl Send for ClassUnicodeRange",synthetic:true,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Send for ClassBytes",synthetic:true,types:["regex_syntax::hir::ClassBytes"]},{text:"impl<'a> Send for ClassBytesIter<'a>",synthetic:true,types:["regex_syntax::hir::ClassBytesIter"]},{text:"impl Send for ClassBytesRange",synthetic:true,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl Send for Group",synthetic:true,types:["regex_syntax::hir::Group"]},{text:"impl Send for Repetition",synthetic:true,types:["regex_syntax::hir::Repetition"]},{text:"impl Send for ErrorKind",synthetic:true,types:["regex_syntax::hir::ErrorKind"]},{text:"impl Send for HirKind",synthetic:true,types:["regex_syntax::hir::HirKind"]},{text:"impl Send for Literal",synthetic:true,types:["regex_syntax::hir::Literal"]},{text:"impl Send for Class",synthetic:true,types:["regex_syntax::hir::Class"]},{text:"impl Send for Anchor",synthetic:true,types:["regex_syntax::hir::Anchor"]},{text:"impl Send for WordBoundary",synthetic:true,types:["regex_syntax::hir::WordBoundary"]},{text:"impl Send for GroupKind",synthetic:true,types:["regex_syntax::hir::GroupKind"]},{text:"impl Send for RepetitionKind",synthetic:true,types:["regex_syntax::hir::RepetitionKind"]},{text:"impl Send for RepetitionRange",synthetic:true,types:["regex_syntax::hir::RepetitionRange"]},{text:"impl Send for Literals",synthetic:true,types:["regex_syntax::hir::literal::Literals"]},{text:"impl Send for Literal",synthetic:true,types:["regex_syntax::hir::literal::Literal"]},{text:"impl Send for Printer",synthetic:true,types:["regex_syntax::hir::print::Printer"]},{text:"impl Send for TranslatorBuilder",synthetic:true,types:["regex_syntax::hir::translate::TranslatorBuilder"]},{text:"impl Send for Translator",synthetic:true,types:["regex_syntax::hir::translate::Translator"]},]; -implementors["thread_local"] = [{text:"impl<T: ?Sized> Send for ThreadLocal<T>",synthetic:true,types:["thread_local::ThreadLocal"]},{text:"impl<'a, T> !Send for IterMut<'a, T>",synthetic:true,types:["thread_local::IterMut"]},{text:"impl<T> !Send for IntoIter<T>",synthetic:true,types:["thread_local::IntoIter"]},{text:"impl<T: ?Sized> Send for CachedThreadLocal<T>",synthetic:true,types:["thread_local::CachedThreadLocal"]},]; -implementors["utf8_ranges"] = [{text:"impl Send for Utf8Range",synthetic:true,types:["utf8_ranges::Utf8Range"]},{text:"impl Send for Utf8Sequences",synthetic:true,types:["utf8_ranges::Utf8Sequences"]},{text:"impl Send for Utf8Sequence",synthetic:true,types:["utf8_ranges::Utf8Sequence"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/marker/trait.Sync.js b/target/doc/implementors/core/marker/trait.Sync.js deleted file mode 100644 index f237f7e..0000000 --- a/target/doc/implementors/core/marker/trait.Sync.js +++ /dev/null @@ -1,21 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl<S> Sync for AhoCorasick<S> where
    S: Sync
",synthetic:true,types:["aho_corasick::ahocorasick::AhoCorasick"]},{text:"impl Sync for AhoCorasickBuilder",synthetic:true,types:["aho_corasick::ahocorasick::AhoCorasickBuilder"]},{text:"impl<'a, 'b, S> Sync for FindIter<'a, 'b, S> where
    S: Sync
",synthetic:true,types:["aho_corasick::ahocorasick::FindIter"]},{text:"impl<'a, 'b, S> Sync for FindOverlappingIter<'a, 'b, S> where
    S: Sync
",synthetic:true,types:["aho_corasick::ahocorasick::FindOverlappingIter"]},{text:"impl<'a, R, S> Sync for StreamFindIter<'a, R, S> where
    R: Sync,
    S: Sync
",synthetic:true,types:["aho_corasick::ahocorasick::StreamFindIter"]},{text:"impl Sync for Error",synthetic:true,types:["aho_corasick::error::Error"]},{text:"impl Sync for Match",synthetic:true,types:["aho_corasick::Match"]},{text:"impl Sync for MatchKind",synthetic:true,types:["aho_corasick::ahocorasick::MatchKind"]},{text:"impl Sync for ErrorKind",synthetic:true,types:["aho_corasick::error::ErrorKind"]},]; -implementors["c2_chacha"] = [{text:"impl Sync for ChaCha",synthetic:true,types:["c2_chacha::guts::ChaCha"]},{text:"impl<V> Sync for State<V> where
    V: Sync
",synthetic:true,types:["c2_chacha::guts::State"]},]; -implementors["getrandom"] = [{text:"impl Sync for Error",synthetic:true,types:["getrandom::error::Error"]},]; -implementors["memchr"] = [{text:"impl<'a> Sync for Memchr<'a>",synthetic:true,types:["memchr::iter::Memchr"]},{text:"impl<'a> Sync for Memchr2<'a>",synthetic:true,types:["memchr::iter::Memchr2"]},{text:"impl<'a> Sync for Memchr3<'a>",synthetic:true,types:["memchr::iter::Memchr3"]},]; -implementors["ppv_lite86"] = [{text:"impl Sync for YesS3",synthetic:true,types:["ppv_lite86::x86_64::YesS3"]},{text:"impl Sync for NoS3",synthetic:true,types:["ppv_lite86::x86_64::NoS3"]},{text:"impl Sync for YesS4",synthetic:true,types:["ppv_lite86::x86_64::YesS4"]},{text:"impl Sync for NoS4",synthetic:true,types:["ppv_lite86::x86_64::NoS4"]},{text:"impl Sync for YesA1",synthetic:true,types:["ppv_lite86::x86_64::YesA1"]},{text:"impl Sync for NoA1",synthetic:true,types:["ppv_lite86::x86_64::NoA1"]},{text:"impl Sync for YesA2",synthetic:true,types:["ppv_lite86::x86_64::YesA2"]},{text:"impl Sync for NoA2",synthetic:true,types:["ppv_lite86::x86_64::NoA2"]},{text:"impl Sync for YesNI",synthetic:true,types:["ppv_lite86::x86_64::YesNI"]},{text:"impl Sync for NoNI",synthetic:true,types:["ppv_lite86::x86_64::NoNI"]},{text:"impl<S3, S4, NI> Sync for SseMachine<S3, S4, NI> where
    NI: Sync,
    S3: Sync,
    S4: Sync
",synthetic:true,types:["ppv_lite86::x86_64::SseMachine"]},{text:"impl<NI> Sync for Avx2Machine<NI> where
    NI: Sync
",synthetic:true,types:["ppv_lite86::x86_64::Avx2Machine"]},{text:"impl Sync for vec128_storage",synthetic:true,types:["ppv_lite86::x86_64::vec128_storage"]},{text:"impl Sync for vec256_storage",synthetic:true,types:["ppv_lite86::x86_64::vec256_storage"]},{text:"impl Sync for vec512_storage",synthetic:true,types:["ppv_lite86::x86_64::vec512_storage"]},]; -implementors["rand"] = [{text:"impl Sync for Alphanumeric",synthetic:true,types:["rand::distributions::other::Alphanumeric"]},{text:"impl<X> Sync for Uniform<X> where
    <X as SampleUniform>::Sampler: Sync
",synthetic:true,types:["rand::distributions::uniform::Uniform"]},{text:"impl Sync for OpenClosed01",synthetic:true,types:["rand::distributions::float::OpenClosed01"]},{text:"impl Sync for Open01",synthetic:true,types:["rand::distributions::float::Open01"]},{text:"impl Sync for Bernoulli",synthetic:true,types:["rand::distributions::bernoulli::Bernoulli"]},{text:"impl Sync for UnitSphereSurface",synthetic:true,types:["rand::distributions::unit_sphere::UnitSphereSurface"]},{text:"impl Sync for UnitCircle",synthetic:true,types:["rand::distributions::unit_circle::UnitCircle"]},{text:"impl Sync for Gamma",synthetic:true,types:["rand::distributions::gamma::Gamma"]},{text:"impl Sync for ChiSquared",synthetic:true,types:["rand::distributions::gamma::ChiSquared"]},{text:"impl Sync for FisherF",synthetic:true,types:["rand::distributions::gamma::FisherF"]},{text:"impl Sync for StudentT",synthetic:true,types:["rand::distributions::gamma::StudentT"]},{text:"impl Sync for Beta",synthetic:true,types:["rand::distributions::gamma::Beta"]},{text:"impl Sync for Normal",synthetic:true,types:["rand::distributions::normal::Normal"]},{text:"impl Sync for LogNormal",synthetic:true,types:["rand::distributions::normal::LogNormal"]},{text:"impl Sync for StandardNormal",synthetic:true,types:["rand::distributions::normal::StandardNormal"]},{text:"impl Sync for Exp",synthetic:true,types:["rand::distributions::exponential::Exp"]},{text:"impl Sync for Exp1",synthetic:true,types:["rand::distributions::exponential::Exp1"]},{text:"impl Sync for Pareto",synthetic:true,types:["rand::distributions::pareto::Pareto"]},{text:"impl Sync for Poisson",synthetic:true,types:["rand::distributions::poisson::Poisson"]},{text:"impl Sync for Binomial",synthetic:true,types:["rand::distributions::binomial::Binomial"]},{text:"impl Sync for Cauchy",synthetic:true,types:["rand::distributions::cauchy::Cauchy"]},{text:"impl Sync for Dirichlet",synthetic:true,types:["rand::distributions::dirichlet::Dirichlet"]},{text:"impl Sync for Triangular",synthetic:true,types:["rand::distributions::triangular::Triangular"]},{text:"impl Sync for Weibull",synthetic:true,types:["rand::distributions::weibull::Weibull"]},{text:"impl<D, R, T> Sync for DistIter<D, R, T> where
    D: Sync,
    R: Sync,
    T: Sync
",synthetic:true,types:["rand::distributions::DistIter"]},{text:"impl Sync for Standard",synthetic:true,types:["rand::distributions::Standard"]},{text:"impl Sync for BernoulliError",synthetic:true,types:["rand::distributions::bernoulli::BernoulliError"]},{text:"impl<X> Sync for UniformInt<X> where
    X: Sync
",synthetic:true,types:["rand::distributions::uniform::UniformInt"]},{text:"impl<X> Sync for UniformFloat<X> where
    X: Sync
",synthetic:true,types:["rand::distributions::uniform::UniformFloat"]},{text:"impl Sync for UniformDuration",synthetic:true,types:["rand::distributions::uniform::UniformDuration"]},{text:"impl<X> Sync for WeightedIndex<X> where
    X: Sync,
    <X as SampleUniform>::Sampler: Sync
",synthetic:true,types:["rand::distributions::weighted::WeightedIndex"]},{text:"impl Sync for WeightedError",synthetic:true,types:["rand::distributions::weighted::WeightedError"]},{text:"impl<W> Sync for WeightedIndex<W> where
    W: Sync,
    <W as SampleUniform>::Sampler: Sync
",synthetic:true,types:["rand::distributions::weighted::alias_method::WeightedIndex"]},{text:"impl Sync for EntropyRng",synthetic:true,types:["rand::rngs::entropy::EntropyRng"]},{text:"impl Sync for StdRng",synthetic:true,types:["rand::rngs::std::StdRng"]},{text:"impl !Sync for ThreadRng",synthetic:true,types:["rand::rngs::thread::ThreadRng"]},{text:"impl Sync for OsRng",synthetic:true,types:["rand::rngs::os::OsRng"]},{text:"impl<R> Sync for ReadRng<R> where
    R: Sync
",synthetic:true,types:["rand::rngs::adapter::read::ReadRng"]},{text:"impl Sync for ReadError",synthetic:true,types:["rand::rngs::adapter::read::ReadError"]},{text:"impl<R, Rsdr> Sync for ReseedingRng<R, Rsdr> where
    R: Sync,
    Rsdr: Sync,
    <R as BlockRngCore>::Results: Sync
",synthetic:true,types:["rand::rngs::adapter::reseeding::ReseedingRng"]},{text:"impl Sync for StepRng",synthetic:true,types:["rand::rngs::mock::StepRng"]},{text:"impl<'a, S: ?Sized, T> Sync for SliceChooseIter<'a, S, T> where
    S: Sync,
    T: Sync
",synthetic:true,types:["rand::seq::SliceChooseIter"]},{text:"impl Sync for IndexVec",synthetic:true,types:["rand::seq::index::IndexVec"]},{text:"impl<'a> Sync for IndexVecIter<'a>",synthetic:true,types:["rand::seq::index::IndexVecIter"]},{text:"impl Sync for IndexVecIntoIter",synthetic:true,types:["rand::seq::index::IndexVecIntoIter"]},]; -implementors["rand_chacha"] = [{text:"impl Sync for ChaCha12Core",synthetic:true,types:["rand_chacha::chacha::ChaCha12Core"]},{text:"impl Sync for ChaCha12Rng",synthetic:true,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl Sync for ChaCha20Core",synthetic:true,types:["rand_chacha::chacha::ChaCha20Core"]},{text:"impl Sync for ChaCha20Rng",synthetic:true,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl Sync for ChaCha8Core",synthetic:true,types:["rand_chacha::chacha::ChaCha8Core"]},{text:"impl Sync for ChaCha8Rng",synthetic:true,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = [{text:"impl Sync for Error",synthetic:true,types:["rand_core::error::Error"]},{text:"impl<R: ?Sized> Sync for BlockRng<R> where
    R: Sync,
    <R as BlockRngCore>::Results: Sync
",synthetic:true,types:["rand_core::block::BlockRng"]},{text:"impl<R: ?Sized> Sync for BlockRng64<R> where
    R: Sync,
    <R as BlockRngCore>::Results: Sync
",synthetic:true,types:["rand_core::block::BlockRng64"]},]; -implementors["regex"] = [{text:"impl Sync for RegexBuilder",synthetic:true,types:["regex::re_builder::unicode::RegexBuilder"]},{text:"impl Sync for RegexSetBuilder",synthetic:true,types:["regex::re_builder::set_unicode::RegexSetBuilder"]},{text:"impl Sync for RegexSet",synthetic:true,types:["regex::re_set::unicode::RegexSet"]},{text:"impl Sync for SetMatches",synthetic:true,types:["regex::re_set::unicode::SetMatches"]},{text:"impl Sync for SetMatchesIntoIter",synthetic:true,types:["regex::re_set::unicode::SetMatchesIntoIter"]},{text:"impl<'a> Sync for SetMatchesIter<'a>",synthetic:true,types:["regex::re_set::unicode::SetMatchesIter"]},{text:"impl Sync for Regex",synthetic:true,types:["regex::re_unicode::Regex"]},{text:"impl<'t> Sync for Match<'t>",synthetic:true,types:["regex::re_unicode::Match"]},{text:"impl<'t> Sync for Captures<'t>",synthetic:true,types:["regex::re_unicode::Captures"]},{text:"impl<'r> Sync for CaptureNames<'r>",synthetic:true,types:["regex::re_unicode::CaptureNames"]},{text:"impl<'r, 't> !Sync for Matches<'r, 't>",synthetic:true,types:["regex::re_unicode::Matches"]},{text:"impl<'r, 't> !Sync for CaptureMatches<'r, 't>",synthetic:true,types:["regex::re_unicode::CaptureMatches"]},{text:"impl<'c, 't> Sync for SubCaptureMatches<'c, 't>",synthetic:true,types:["regex::re_unicode::SubCaptureMatches"]},{text:"impl Sync for CaptureLocations",synthetic:true,types:["regex::re_unicode::CaptureLocations"]},{text:"impl<'a, R: ?Sized> Sync for ReplacerRef<'a, R> where
    R: Sync
",synthetic:true,types:["regex::re_unicode::ReplacerRef"]},{text:"impl<'t> Sync for NoExpand<'t>",synthetic:true,types:["regex::re_unicode::NoExpand"]},{text:"impl<'r, 't> !Sync for Split<'r, 't>",synthetic:true,types:["regex::re_unicode::Split"]},{text:"impl<'r, 't> !Sync for SplitN<'r, 't>",synthetic:true,types:["regex::re_unicode::SplitN"]},{text:"impl Sync for Error",synthetic:true,types:["regex::error::Error"]},{text:"impl Sync for RegexBuilder",synthetic:true,types:["regex::re_builder::bytes::RegexBuilder"]},{text:"impl Sync for RegexSetBuilder",synthetic:true,types:["regex::re_builder::set_bytes::RegexSetBuilder"]},{text:"impl<'t> Sync for Match<'t>",synthetic:true,types:["regex::re_bytes::Match"]},{text:"impl Sync for Regex",synthetic:true,types:["regex::re_bytes::Regex"]},{text:"impl<'r, 't> !Sync for Matches<'r, 't>",synthetic:true,types:["regex::re_bytes::Matches"]},{text:"impl<'r, 't> !Sync for CaptureMatches<'r, 't>",synthetic:true,types:["regex::re_bytes::CaptureMatches"]},{text:"impl<'r, 't> !Sync for Split<'r, 't>",synthetic:true,types:["regex::re_bytes::Split"]},{text:"impl<'r, 't> !Sync for SplitN<'r, 't>",synthetic:true,types:["regex::re_bytes::SplitN"]},{text:"impl<'r> Sync for CaptureNames<'r>",synthetic:true,types:["regex::re_bytes::CaptureNames"]},{text:"impl Sync for CaptureLocations",synthetic:true,types:["regex::re_bytes::CaptureLocations"]},{text:"impl<'t> Sync for Captures<'t>",synthetic:true,types:["regex::re_bytes::Captures"]},{text:"impl<'c, 't> Sync for SubCaptureMatches<'c, 't>",synthetic:true,types:["regex::re_bytes::SubCaptureMatches"]},{text:"impl<'a, R: ?Sized> Sync for ReplacerRef<'a, R> where
    R: Sync
",synthetic:true,types:["regex::re_bytes::ReplacerRef"]},{text:"impl<'t> Sync for NoExpand<'t>",synthetic:true,types:["regex::re_bytes::NoExpand"]},{text:"impl Sync for RegexSet",synthetic:true,types:["regex::re_set::bytes::RegexSet"]},{text:"impl Sync for SetMatches",synthetic:true,types:["regex::re_set::bytes::SetMatches"]},{text:"impl Sync for SetMatchesIntoIter",synthetic:true,types:["regex::re_set::bytes::SetMatchesIntoIter"]},{text:"impl<'a> Sync for SetMatchesIter<'a>",synthetic:true,types:["regex::re_set::bytes::SetMatchesIter"]},]; -implementors["regex_syntax"] = [{text:"impl !Sync for Parser",synthetic:true,types:["regex_syntax::parser::Parser"]},{text:"impl Sync for ParserBuilder",synthetic:true,types:["regex_syntax::parser::ParserBuilder"]},{text:"impl Sync for Error",synthetic:true,types:["regex_syntax::error::Error"]},{text:"impl Sync for Error",synthetic:true,types:["regex_syntax::ast::Error"]},{text:"impl Sync for Span",synthetic:true,types:["regex_syntax::ast::Span"]},{text:"impl Sync for Position",synthetic:true,types:["regex_syntax::ast::Position"]},{text:"impl Sync for WithComments",synthetic:true,types:["regex_syntax::ast::WithComments"]},{text:"impl Sync for Comment",synthetic:true,types:["regex_syntax::ast::Comment"]},{text:"impl Sync for Alternation",synthetic:true,types:["regex_syntax::ast::Alternation"]},{text:"impl Sync for Concat",synthetic:true,types:["regex_syntax::ast::Concat"]},{text:"impl Sync for Literal",synthetic:true,types:["regex_syntax::ast::Literal"]},{text:"impl Sync for ClassPerl",synthetic:true,types:["regex_syntax::ast::ClassPerl"]},{text:"impl Sync for ClassAscii",synthetic:true,types:["regex_syntax::ast::ClassAscii"]},{text:"impl Sync for ClassUnicode",synthetic:true,types:["regex_syntax::ast::ClassUnicode"]},{text:"impl Sync for ClassBracketed",synthetic:true,types:["regex_syntax::ast::ClassBracketed"]},{text:"impl Sync for ClassSetRange",synthetic:true,types:["regex_syntax::ast::ClassSetRange"]},{text:"impl Sync for ClassSetUnion",synthetic:true,types:["regex_syntax::ast::ClassSetUnion"]},{text:"impl Sync for ClassSetBinaryOp",synthetic:true,types:["regex_syntax::ast::ClassSetBinaryOp"]},{text:"impl Sync for Assertion",synthetic:true,types:["regex_syntax::ast::Assertion"]},{text:"impl Sync for Repetition",synthetic:true,types:["regex_syntax::ast::Repetition"]},{text:"impl Sync for RepetitionOp",synthetic:true,types:["regex_syntax::ast::RepetitionOp"]},{text:"impl Sync for Group",synthetic:true,types:["regex_syntax::ast::Group"]},{text:"impl Sync for CaptureName",synthetic:true,types:["regex_syntax::ast::CaptureName"]},{text:"impl Sync for SetFlags",synthetic:true,types:["regex_syntax::ast::SetFlags"]},{text:"impl Sync for Flags",synthetic:true,types:["regex_syntax::ast::Flags"]},{text:"impl Sync for FlagsItem",synthetic:true,types:["regex_syntax::ast::FlagsItem"]},{text:"impl Sync for ErrorKind",synthetic:true,types:["regex_syntax::ast::ErrorKind"]},{text:"impl Sync for Ast",synthetic:true,types:["regex_syntax::ast::Ast"]},{text:"impl Sync for LiteralKind",synthetic:true,types:["regex_syntax::ast::LiteralKind"]},{text:"impl Sync for SpecialLiteralKind",synthetic:true,types:["regex_syntax::ast::SpecialLiteralKind"]},{text:"impl Sync for HexLiteralKind",synthetic:true,types:["regex_syntax::ast::HexLiteralKind"]},{text:"impl Sync for Class",synthetic:true,types:["regex_syntax::ast::Class"]},{text:"impl Sync for ClassPerlKind",synthetic:true,types:["regex_syntax::ast::ClassPerlKind"]},{text:"impl Sync for ClassAsciiKind",synthetic:true,types:["regex_syntax::ast::ClassAsciiKind"]},{text:"impl Sync for ClassUnicodeKind",synthetic:true,types:["regex_syntax::ast::ClassUnicodeKind"]},{text:"impl Sync for ClassUnicodeOpKind",synthetic:true,types:["regex_syntax::ast::ClassUnicodeOpKind"]},{text:"impl Sync for ClassSet",synthetic:true,types:["regex_syntax::ast::ClassSet"]},{text:"impl Sync for ClassSetItem",synthetic:true,types:["regex_syntax::ast::ClassSetItem"]},{text:"impl Sync for ClassSetBinaryOpKind",synthetic:true,types:["regex_syntax::ast::ClassSetBinaryOpKind"]},{text:"impl Sync for AssertionKind",synthetic:true,types:["regex_syntax::ast::AssertionKind"]},{text:"impl Sync for RepetitionKind",synthetic:true,types:["regex_syntax::ast::RepetitionKind"]},{text:"impl Sync for RepetitionRange",synthetic:true,types:["regex_syntax::ast::RepetitionRange"]},{text:"impl Sync for GroupKind",synthetic:true,types:["regex_syntax::ast::GroupKind"]},{text:"impl Sync for FlagsItemKind",synthetic:true,types:["regex_syntax::ast::FlagsItemKind"]},{text:"impl Sync for Flag",synthetic:true,types:["regex_syntax::ast::Flag"]},{text:"impl Sync for ParserBuilder",synthetic:true,types:["regex_syntax::ast::parse::ParserBuilder"]},{text:"impl !Sync for Parser",synthetic:true,types:["regex_syntax::ast::parse::Parser"]},{text:"impl Sync for Printer",synthetic:true,types:["regex_syntax::ast::print::Printer"]},{text:"impl Sync for Error",synthetic:true,types:["regex_syntax::hir::Error"]},{text:"impl Sync for Hir",synthetic:true,types:["regex_syntax::hir::Hir"]},{text:"impl Sync for ClassUnicode",synthetic:true,types:["regex_syntax::hir::ClassUnicode"]},{text:"impl<'a> Sync for ClassUnicodeIter<'a>",synthetic:true,types:["regex_syntax::hir::ClassUnicodeIter"]},{text:"impl Sync for ClassUnicodeRange",synthetic:true,types:["regex_syntax::hir::ClassUnicodeRange"]},{text:"impl Sync for ClassBytes",synthetic:true,types:["regex_syntax::hir::ClassBytes"]},{text:"impl<'a> Sync for ClassBytesIter<'a>",synthetic:true,types:["regex_syntax::hir::ClassBytesIter"]},{text:"impl Sync for ClassBytesRange",synthetic:true,types:["regex_syntax::hir::ClassBytesRange"]},{text:"impl Sync for Group",synthetic:true,types:["regex_syntax::hir::Group"]},{text:"impl Sync for Repetition",synthetic:true,types:["regex_syntax::hir::Repetition"]},{text:"impl Sync for ErrorKind",synthetic:true,types:["regex_syntax::hir::ErrorKind"]},{text:"impl Sync for HirKind",synthetic:true,types:["regex_syntax::hir::HirKind"]},{text:"impl Sync for Literal",synthetic:true,types:["regex_syntax::hir::Literal"]},{text:"impl Sync for Class",synthetic:true,types:["regex_syntax::hir::Class"]},{text:"impl Sync for Anchor",synthetic:true,types:["regex_syntax::hir::Anchor"]},{text:"impl Sync for WordBoundary",synthetic:true,types:["regex_syntax::hir::WordBoundary"]},{text:"impl Sync for GroupKind",synthetic:true,types:["regex_syntax::hir::GroupKind"]},{text:"impl Sync for RepetitionKind",synthetic:true,types:["regex_syntax::hir::RepetitionKind"]},{text:"impl Sync for RepetitionRange",synthetic:true,types:["regex_syntax::hir::RepetitionRange"]},{text:"impl Sync for Literals",synthetic:true,types:["regex_syntax::hir::literal::Literals"]},{text:"impl Sync for Literal",synthetic:true,types:["regex_syntax::hir::literal::Literal"]},{text:"impl Sync for Printer",synthetic:true,types:["regex_syntax::hir::print::Printer"]},{text:"impl Sync for TranslatorBuilder",synthetic:true,types:["regex_syntax::hir::translate::TranslatorBuilder"]},{text:"impl !Sync for Translator",synthetic:true,types:["regex_syntax::hir::translate::Translator"]},]; -implementors["thread_local"] = [{text:"impl<'a, T> !Sync for IterMut<'a, T>",synthetic:true,types:["thread_local::IterMut"]},{text:"impl<T> !Sync for IntoIter<T>",synthetic:true,types:["thread_local::IntoIter"]},{text:"impl<T: ?Sized + Send> Sync for ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},{text:"impl<T: ?Sized + Send> Sync for CachedThreadLocal<T>",synthetic:false,types:["thread_local::CachedThreadLocal"]},]; -implementors["utf8_ranges"] = [{text:"impl Sync for Utf8Range",synthetic:true,types:["utf8_ranges::Utf8Range"]},{text:"impl Sync for Utf8Sequences",synthetic:true,types:["utf8_ranges::Utf8Sequences"]},{text:"impl Sync for Utf8Sequence",synthetic:true,types:["utf8_ranges::Utf8Sequence"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/ops/deref/trait.Deref.js b/target/doc/implementors/core/ops/deref/trait.Deref.js deleted file mode 100644 index 2638ce9..0000000 --- a/target/doc/implementors/core/ops/deref/trait.Deref.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex_syntax"] = [{text:"impl Deref for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/ops/deref/trait.DerefMut.js b/target/doc/implementors/core/ops/deref/trait.DerefMut.js deleted file mode 100644 index 354dab7..0000000 --- a/target/doc/implementors/core/ops/deref/trait.DerefMut.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex_syntax"] = [{text:"impl DerefMut for Literal",synthetic:false,types:["regex_syntax::hir::literal::Literal"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/ops/drop/trait.Drop.js b/target/doc/implementors/core/ops/drop/trait.Drop.js deleted file mode 100644 index 016ef8e..0000000 --- a/target/doc/implementors/core/ops/drop/trait.Drop.js +++ /dev/null @@ -1,11 +0,0 @@ -(function() {var implementors = {}; -implementors["regex_syntax"] = [{text:"impl Drop for Ast",synthetic:false,types:["regex_syntax::ast::Ast"]},{text:"impl Drop for ClassSet",synthetic:false,types:["regex_syntax::ast::ClassSet"]},{text:"impl Drop for Hir",synthetic:false,types:["regex_syntax::hir::Hir"]},]; -implementors["thread_local"] = [{text:"impl<T: ?Sized + Send> Drop for ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/ops/index/trait.Index.js b/target/doc/implementors/core/ops/index/trait.Index.js deleted file mode 100644 index 3e192e6..0000000 --- a/target/doc/implementors/core/ops/index/trait.Index.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex"] = [{text:"impl<'t> Index<usize> for Captures<'t>",synthetic:false,types:["regex::re_bytes::Captures"]},{text:"impl<'t, 'i> Index<&'i str> for Captures<'t>",synthetic:false,types:["regex::re_bytes::Captures"]},{text:"impl<'t> Index<usize> for Captures<'t>",synthetic:false,types:["regex::re_unicode::Captures"]},{text:"impl<'t, 'i> Index<&'i str> for Captures<'t>",synthetic:false,types:["regex::re_unicode::Captures"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/core/str/trait.FromStr.js b/target/doc/implementors/core/str/trait.FromStr.js deleted file mode 100644 index 17f89fc..0000000 --- a/target/doc/implementors/core/str/trait.FromStr.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex"] = [{text:"impl FromStr for Regex",synthetic:false,types:["regex::re_bytes::Regex"]},{text:"impl FromStr for Regex",synthetic:false,types:["regex::re_unicode::Regex"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/owoify/trait.OwOifiable.js b/target/doc/implementors/owoify/trait.OwOifiable.js deleted file mode 100644 index 7475ebd..0000000 --- a/target/doc/implementors/owoify/trait.OwOifiable.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["owoify"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/ppv_lite86/trait.Machine.js b/target/doc/implementors/ppv_lite86/trait.Machine.js deleted file mode 100644 index 1db41c7..0000000 --- a/target/doc/implementors/ppv_lite86/trait.Machine.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["ppv_lite86"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/ppv_lite86/trait.Store.js b/target/doc/implementors/ppv_lite86/trait.Store.js deleted file mode 100644 index 1db41c7..0000000 --- a/target/doc/implementors/ppv_lite86/trait.Store.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["ppv_lite86"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/ppv_lite86/trait.VZip.js b/target/doc/implementors/ppv_lite86/trait.VZip.js deleted file mode 100644 index 1db41c7..0000000 --- a/target/doc/implementors/ppv_lite86/trait.VZip.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["ppv_lite86"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/distributions/trait.Distribution.js b/target/doc/implementors/rand/distributions/trait.Distribution.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/distributions/trait.Distribution.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/distributions/uniform/trait.SampleBorrow.js b/target/doc/implementors/rand/distributions/uniform/trait.SampleBorrow.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/distributions/uniform/trait.SampleBorrow.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/distributions/uniform/trait.SampleUniform.js b/target/doc/implementors/rand/distributions/uniform/trait.SampleUniform.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/distributions/uniform/trait.SampleUniform.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/distributions/uniform/trait.UniformSampler.js b/target/doc/implementors/rand/distributions/uniform/trait.UniformSampler.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/distributions/uniform/trait.UniformSampler.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/distributions/weighted/alias_method/trait.Weight.js b/target/doc/implementors/rand/distributions/weighted/alias_method/trait.Weight.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/distributions/weighted/alias_method/trait.Weight.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/seq/trait.IteratorRandom.js b/target/doc/implementors/rand/seq/trait.IteratorRandom.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/seq/trait.IteratorRandom.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/seq/trait.SliceRandom.js b/target/doc/implementors/rand/seq/trait.SliceRandom.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/seq/trait.SliceRandom.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/trait.AsByteSliceMut.js b/target/doc/implementors/rand/trait.AsByteSliceMut.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/trait.AsByteSliceMut.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/trait.CryptoRng.js b/target/doc/implementors/rand/trait.CryptoRng.js deleted file mode 100644 index d124cd5..0000000 --- a/target/doc/implementors/rand/trait.CryptoRng.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = [{text:"impl<R, Rsdr> CryptoRng for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng + CryptoRng,
    Rsdr: RngCore + CryptoRng
",synthetic:false,types:["rand::rngs::adapter::reseeding::ReseedingRng"]},{text:"impl CryptoRng for EntropyRng",synthetic:false,types:["rand::rngs::entropy::EntropyRng"]},{text:"impl CryptoRng for StdRng",synthetic:false,types:["rand::rngs::std::StdRng"]},{text:"impl CryptoRng for ThreadRng",synthetic:false,types:["rand::rngs::thread::ThreadRng"]},{text:"impl CryptoRng for OsRng",synthetic:false,types:["rand::rngs::os::OsRng"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/trait.Rng.js b/target/doc/implementors/rand/trait.Rng.js deleted file mode 100644 index 4a757ff..0000000 --- a/target/doc/implementors/rand/trait.Rng.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/trait.RngCore.js b/target/doc/implementors/rand/trait.RngCore.js deleted file mode 100644 index 4ef9d83..0000000 --- a/target/doc/implementors/rand/trait.RngCore.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = [{text:"impl<R: Read> RngCore for ReadRng<R>",synthetic:false,types:["rand::rngs::adapter::read::ReadRng"]},{text:"impl<R, Rsdr: RngCore> RngCore for ReseedingRng<R, Rsdr> where
    R: BlockRngCore<Item = u32> + SeedableRng,
    <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>, 
",synthetic:false,types:["rand::rngs::adapter::reseeding::ReseedingRng"]},{text:"impl RngCore for EntropyRng",synthetic:false,types:["rand::rngs::entropy::EntropyRng"]},{text:"impl RngCore for StepRng",synthetic:false,types:["rand::rngs::mock::StepRng"]},{text:"impl RngCore for StdRng",synthetic:false,types:["rand::rngs::std::StdRng"]},{text:"impl RngCore for ThreadRng",synthetic:false,types:["rand::rngs::thread::ThreadRng"]},{text:"impl RngCore for OsRng",synthetic:false,types:["rand::rngs::os::OsRng"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand/trait.SeedableRng.js b/target/doc/implementors/rand/trait.SeedableRng.js deleted file mode 100644 index 55d5189..0000000 --- a/target/doc/implementors/rand/trait.SeedableRng.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand"] = [{text:"impl SeedableRng for StdRng",synthetic:false,types:["rand::rngs::std::StdRng"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand_core/block/trait.BlockRngCore.js b/target/doc/implementors/rand_core/block/trait.BlockRngCore.js deleted file mode 100644 index 0cb3c88..0000000 --- a/target/doc/implementors/rand_core/block/trait.BlockRngCore.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand_chacha"] = [{text:"impl BlockRngCore for ChaCha20Core",synthetic:false,types:["rand_chacha::chacha::ChaCha20Core"]},{text:"impl BlockRngCore for ChaCha12Core",synthetic:false,types:["rand_chacha::chacha::ChaCha12Core"]},{text:"impl BlockRngCore for ChaCha8Core",synthetic:false,types:["rand_chacha::chacha::ChaCha8Core"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand_core/trait.CryptoRng.js b/target/doc/implementors/rand_core/trait.CryptoRng.js deleted file mode 100644 index fc08697..0000000 --- a/target/doc/implementors/rand_core/trait.CryptoRng.js +++ /dev/null @@ -1,11 +0,0 @@ -(function() {var implementors = {}; -implementors["rand_chacha"] = [{text:"impl CryptoRng for ChaCha20Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl CryptoRng for ChaCha12Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl CryptoRng for ChaCha8Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand_core/trait.RngCore.js b/target/doc/implementors/rand_core/trait.RngCore.js deleted file mode 100644 index 087010b..0000000 --- a/target/doc/implementors/rand_core/trait.RngCore.js +++ /dev/null @@ -1,11 +0,0 @@ -(function() {var implementors = {}; -implementors["rand_chacha"] = [{text:"impl RngCore for ChaCha20Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl RngCore for ChaCha12Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl RngCore for ChaCha8Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/rand_core/trait.SeedableRng.js b/target/doc/implementors/rand_core/trait.SeedableRng.js deleted file mode 100644 index ae9e694..0000000 --- a/target/doc/implementors/rand_core/trait.SeedableRng.js +++ /dev/null @@ -1,11 +0,0 @@ -(function() {var implementors = {}; -implementors["rand_chacha"] = [{text:"impl SeedableRng for ChaCha20Core",synthetic:false,types:["rand_chacha::chacha::ChaCha20Core"]},{text:"impl SeedableRng for ChaCha20Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha20Rng"]},{text:"impl SeedableRng for ChaCha12Core",synthetic:false,types:["rand_chacha::chacha::ChaCha12Core"]},{text:"impl SeedableRng for ChaCha12Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha12Rng"]},{text:"impl SeedableRng for ChaCha8Core",synthetic:false,types:["rand_chacha::chacha::ChaCha8Core"]},{text:"impl SeedableRng for ChaCha8Rng",synthetic:false,types:["rand_chacha::chacha::ChaCha8Rng"]},]; -implementors["rand_core"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/regex/bytes/trait.Replacer.js b/target/doc/implementors/regex/bytes/trait.Replacer.js deleted file mode 100644 index 3e5703b..0000000 --- a/target/doc/implementors/regex/bytes/trait.Replacer.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/regex/trait.Replacer.js b/target/doc/implementors/regex/trait.Replacer.js deleted file mode 100644 index 3e5703b..0000000 --- a/target/doc/implementors/regex/trait.Replacer.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["regex"] = []; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/std/error/trait.Error.js b/target/doc/implementors/std/error/trait.Error.js deleted file mode 100644 index 55d8b9d..0000000 --- a/target/doc/implementors/std/error/trait.Error.js +++ /dev/null @@ -1,15 +0,0 @@ -(function() {var implementors = {}; -implementors["aho_corasick"] = [{text:"impl Error for Error",synthetic:false,types:["aho_corasick::error::Error"]},]; -implementors["getrandom"] = [{text:"impl Error for Error",synthetic:false,types:["getrandom::error::Error"]},]; -implementors["rand"] = [{text:"impl Error for WeightedError",synthetic:false,types:["rand::distributions::weighted::WeightedError"]},{text:"impl Error for ReadError",synthetic:false,types:["rand::rngs::adapter::read::ReadError"]},]; -implementors["rand_core"] = [{text:"impl Error for Error",synthetic:false,types:["rand_core::error::Error"]},]; -implementors["regex"] = [{text:"impl Error for Error",synthetic:false,types:["regex::error::Error"]},]; -implementors["regex_syntax"] = [{text:"impl Error for Error",synthetic:false,types:["regex_syntax::ast::Error"]},{text:"impl Error for Error",synthetic:false,types:["regex_syntax::error::Error"]},{text:"impl Error for Error",synthetic:false,types:["regex_syntax::hir::Error"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/std/io/trait.Read.js b/target/doc/implementors/std/io/trait.Read.js deleted file mode 100644 index d27fb63..0000000 --- a/target/doc/implementors/std/io/trait.Read.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["rand_core"] = [{text:"impl Read for dyn RngCore",synthetic:false,types:["rand_core::RngCore"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/implementors/std/panic/trait.UnwindSafe.js b/target/doc/implementors/std/panic/trait.UnwindSafe.js deleted file mode 100644 index 8804a88..0000000 --- a/target/doc/implementors/std/panic/trait.UnwindSafe.js +++ /dev/null @@ -1,10 +0,0 @@ -(function() {var implementors = {}; -implementors["thread_local"] = [{text:"impl<T: ?Sized + Send + UnwindSafe> UnwindSafe for ThreadLocal<T>",synthetic:false,types:["thread_local::ThreadLocal"]},{text:"impl<T: ?Sized + Send + UnwindSafe> UnwindSafe for CachedThreadLocal<T>",synthetic:false,types:["thread_local::CachedThreadLocal"]},]; - - if (window.register_implementors) { - window.register_implementors(implementors); - } else { - window.pending_implementors = implementors; - } - -})() diff --git a/target/doc/lazy_static/all.html b/target/doc/lazy_static/all.html deleted file mode 100644 index f371fde..0000000 --- a/target/doc/lazy_static/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Traits

Macros

Functions

\ No newline at end of file diff --git a/target/doc/lazy_static/fn.initialize.html b/target/doc/lazy_static/fn.initialize.html deleted file mode 100644 index cae038a..0000000 --- a/target/doc/lazy_static/fn.initialize.html +++ /dev/null @@ -1,20 +0,0 @@ -lazy_static::initialize - Rust

[][src]Function lazy_static::initialize

pub fn initialize<T: LazyStatic>(lazy: &T)

Takes a shared reference to a lazy static and initializes -it if it has not been already.

-

This can be used to control the initialization point of a lazy static.

-

Example:

- -
-#[macro_use]
-extern crate lazy_static;
-
-lazy_static! {
-    static ref BUFFER: Vec<u8> = (0..255).collect();
-}
-
-fn main() {
-    lazy_static::initialize(&BUFFER);
-
-    // ...
-    work_with_initialized_data(&BUFFER);
-}
-
\ No newline at end of file diff --git a/target/doc/lazy_static/index.html b/target/doc/lazy_static/index.html deleted file mode 100644 index cdb3215..0000000 --- a/target/doc/lazy_static/index.html +++ /dev/null @@ -1,77 +0,0 @@ -lazy_static - Rust

[][src]Crate lazy_static

A macro for declaring lazily evaluated statics.

-

Using this macro, it is possible to have statics that require code to be -executed at runtime in order to be initialized. -This includes anything requiring heap allocations, like vectors or hash maps, -as well as anything that requires function calls to be computed.

-

Syntax

-
This example is not tested
-lazy_static! {
-    [pub] static ref NAME_1: TYPE_1 = EXPR_1;
-    [pub] static ref NAME_2: TYPE_2 = EXPR_2;
-    ...
-    [pub] static ref NAME_N: TYPE_N = EXPR_N;
-}
-

Attributes (including doc comments) are supported as well:

- -
-lazy_static! {
-    /// This is an example for using doc comment attributes
-    static ref EXAMPLE: u8 = 42;
-}
-

Semantics

-

For a given static ref NAME: TYPE = EXPR;, the macro generates a unique type that -implements Deref<TYPE> and stores it in a static with name NAME. (Attributes end up -attaching to this type.)

-

On first deref, EXPR gets evaluated and stored internally, such that all further derefs -can return a reference to the same object. Note that this can lead to deadlocks -if you have multiple lazy statics that depend on each other in their initialization.

-

Apart from the lazy initialization, the resulting "static ref" variables -have generally the same properties as regular "static" variables:

-
    -
  • Any type in them needs to fulfill the Sync trait.
  • -
  • If the type has a destructor, then it will not run when the process exits.
  • -
-

Example

-

Using the macro:

- -
-#[macro_use]
-extern crate lazy_static;
-
-use std::collections::HashMap;
-
-lazy_static! {
-    static ref HASHMAP: HashMap<u32, &'static str> = {
-        let mut m = HashMap::new();
-        m.insert(0, "foo");
-        m.insert(1, "bar");
-        m.insert(2, "baz");
-        m
-    };
-    static ref COUNT: usize = HASHMAP.len();
-    static ref NUMBER: u32 = times_two(21);
-}
-
-fn times_two(n: u32) -> u32 { n * 2 }
-
-fn main() {
-    println!("The map has {} entries.", *COUNT);
-    println!("The entry for `0` is \"{}\".", HASHMAP.get(&0).unwrap());
-    println!("A expensive calculation on a static results in: {}.", *NUMBER);
-}
-

Implementation details

-

The Deref implementation uses a hidden static variable that is guarded by an atomic check on each access.

-

Cargo features

-

This crate provides two cargo features:

-
    -
  • spin_no_std: This allows using this crate in a no-std environment, by depending on the standalone spin crate.
  • -
-

Both features depend on unstable language features, which means -no guarantees can be made about them in regard to SemVer stability.

-

Macros

-
lazy_static

Traits

-
LazyStatic

Support trait for enabling a few common operation on lazy static values.

-

Functions

-
initialize

Takes a shared reference to a lazy static and initializes -it if it has not been already.

-
\ No newline at end of file diff --git a/target/doc/lazy_static/macro.lazy_static!.html b/target/doc/lazy_static/macro.lazy_static!.html deleted file mode 100644 index d556a77..0000000 --- a/target/doc/lazy_static/macro.lazy_static!.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to macro.lazy_static.html...

- - - \ No newline at end of file diff --git a/target/doc/lazy_static/macro.lazy_static.html b/target/doc/lazy_static/macro.lazy_static.html deleted file mode 100644 index 63a2acf..0000000 --- a/target/doc/lazy_static/macro.lazy_static.html +++ /dev/null @@ -1,8 +0,0 @@ -lazy_static::lazy_static - Rust

[][src]Macro lazy_static::lazy_static

-macro_rules! lazy_static {
-    ($(#[$attr:meta])* static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => { ... };
-    ($(#[$attr:meta])* pub static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => { ... };
-    ($(#[$attr:meta])* pub ($($vis:tt)+) static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => { ... };
-    () => { ... };
-}
-
\ No newline at end of file diff --git a/target/doc/lazy_static/sidebar-items.js b/target/doc/lazy_static/sidebar-items.js deleted file mode 100644 index 4b10a8e..0000000 --- a/target/doc/lazy_static/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"fn":[["initialize","Takes a shared reference to a lazy static and initializes it if it has not been already."]],"macro":[["lazy_static",""]],"trait":[["LazyStatic","Support trait for enabling a few common operation on lazy static values."]]}); \ No newline at end of file diff --git a/target/doc/lazy_static/trait.LazyStatic.html b/target/doc/lazy_static/trait.LazyStatic.html deleted file mode 100644 index 42ef51a..0000000 --- a/target/doc/lazy_static/trait.LazyStatic.html +++ /dev/null @@ -1,7 +0,0 @@ -lazy_static::LazyStatic - Rust

[][src]Trait lazy_static::LazyStatic

pub trait LazyStatic { }

Support trait for enabling a few common operation on lazy static values.

-

This is implemented by each defined lazy static, and -used by the free functions in this crate.

-
-

Implementors

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[] - - List of all items

Structs

Functions

\ No newline at end of file diff --git a/target/doc/memchr/fn.memchr.html b/target/doc/memchr/fn.memchr.html deleted file mode 100644 index 9d68170..0000000 --- a/target/doc/memchr/fn.memchr.html +++ /dev/null @@ -1,16 +0,0 @@ -memchr::memchr - Rust

[][src]Function memchr::memchr

pub fn memchr(needle: u8, haystack: &[u8]) -> Option<usize>

Search for the first occurrence of a byte in a slice.

-

This returns the index corresponding to the first occurrence of needle in -haystack, or None if one is not found.

-

While this is operationally the same as something like -haystack.iter().position(|&b| b == needle), memchr will use a highly -optimized routine that can be up to an order of magnitude faster in some -cases.

-

Example

-

This shows how to find the first position of a byte in a byte string.

- -
-use memchr::memchr;
-
-let haystack = b"the quick brown fox";
-assert_eq!(memchr(b'k', haystack), Some(8));
-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memchr2.html b/target/doc/memchr/fn.memchr2.html deleted file mode 100644 index 0c045f2..0000000 --- a/target/doc/memchr/fn.memchr2.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memchr2 - Rust

[][src]Function memchr::memchr2

pub fn memchr2(needle1: u8, needle2: u8, haystack: &[u8]) -> Option<usize>

Like memchr, but searches for two bytes instead of one.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memchr2_iter.html b/target/doc/memchr/fn.memchr2_iter.html deleted file mode 100644 index 6d21cf3..0000000 --- a/target/doc/memchr/fn.memchr2_iter.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memchr2_iter - Rust

[][src]Function memchr::memchr2_iter

Important traits for Memchr2<'a>
pub fn memchr2_iter(needle1: u8, needle2: u8, haystack: &[u8]) -> Memchr2

An iterator over all occurrences of the needles in a haystack.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memchr3.html b/target/doc/memchr/fn.memchr3.html deleted file mode 100644 index 98426ef..0000000 --- a/target/doc/memchr/fn.memchr3.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memchr3 - Rust

[][src]Function memchr::memchr3

pub fn memchr3(
    needle1: u8,
    needle2: u8,
    needle3: u8,
    haystack: &[u8]
) -> Option<usize>

Like memchr, but searches for three bytes instead of one.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memchr3_iter.html b/target/doc/memchr/fn.memchr3_iter.html deleted file mode 100644 index a0ebe8e..0000000 --- a/target/doc/memchr/fn.memchr3_iter.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memchr3_iter - Rust

[][src]Function memchr::memchr3_iter

Important traits for Memchr3<'a>
pub fn memchr3_iter(
    needle1: u8,
    needle2: u8,
    needle3: u8,
    haystack: &[u8]
) -> Memchr3

An iterator over all occurrences of the needles in a haystack.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memchr_iter.html b/target/doc/memchr/fn.memchr_iter.html deleted file mode 100644 index 35294a8..0000000 --- a/target/doc/memchr/fn.memchr_iter.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memchr_iter - Rust

[][src]Function memchr::memchr_iter

Important traits for Memchr<'a>
pub fn memchr_iter(needle: u8, haystack: &[u8]) -> Memchr

An iterator over all occurrences of the needle in a haystack.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memrchr.html b/target/doc/memchr/fn.memrchr.html deleted file mode 100644 index a1e2c1f..0000000 --- a/target/doc/memchr/fn.memrchr.html +++ /dev/null @@ -1,16 +0,0 @@ -memchr::memrchr - Rust

[][src]Function memchr::memrchr

pub fn memrchr(needle: u8, haystack: &[u8]) -> Option<usize>

Search for the last occurrence of a byte in a slice.

-

This returns the index corresponding to the last occurrence of needle in -haystack, or None if one is not found.

-

While this is operationally the same as something like -haystack.iter().rposition(|&b| b == needle), memrchr will use a highly -optimized routine that can be up to an order of magnitude faster in some -cases.

-

Example

-

This shows how to find the last position of a byte in a byte string.

- -
-use memchr::memrchr;
-
-let haystack = b"the quick brown fox";
-assert_eq!(memrchr(b'o', haystack), Some(17));
-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memrchr2.html b/target/doc/memchr/fn.memrchr2.html deleted file mode 100644 index 5705d07..0000000 --- a/target/doc/memchr/fn.memrchr2.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memrchr2 - Rust

[][src]Function memchr::memrchr2

pub fn memrchr2(needle1: u8, needle2: u8, haystack: &[u8]) -> Option<usize>

Like memrchr, but searches for two bytes instead of one.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memrchr2_iter.html b/target/doc/memchr/fn.memrchr2_iter.html deleted file mode 100644 index e6dac1c..0000000 --- a/target/doc/memchr/fn.memrchr2_iter.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memrchr2_iter - Rust

[][src]Function memchr::memrchr2_iter

pub fn memrchr2_iter(needle1: u8, needle2: u8, haystack: &[u8]) -> Rev<Memchr2>

An iterator over all occurrences of the needles in a haystack, in reverse.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memrchr3.html b/target/doc/memchr/fn.memrchr3.html deleted file mode 100644 index ba82cd0..0000000 --- a/target/doc/memchr/fn.memrchr3.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memrchr3 - Rust

[][src]Function memchr::memrchr3

pub fn memrchr3(
    needle1: u8,
    needle2: u8,
    needle3: u8,
    haystack: &[u8]
) -> Option<usize>

Like memrchr, but searches for three bytes instead of one.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memrchr3_iter.html b/target/doc/memchr/fn.memrchr3_iter.html deleted file mode 100644 index 6f5a126..0000000 --- a/target/doc/memchr/fn.memrchr3_iter.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memrchr3_iter - Rust

[][src]Function memchr::memrchr3_iter

pub fn memrchr3_iter(
    needle1: u8,
    needle2: u8,
    needle3: u8,
    haystack: &[u8]
) -> Rev<Memchr3>

An iterator over all occurrences of the needles in a haystack, in reverse.

-
\ No newline at end of file diff --git a/target/doc/memchr/fn.memrchr_iter.html b/target/doc/memchr/fn.memrchr_iter.html deleted file mode 100644 index 3b50183..0000000 --- a/target/doc/memchr/fn.memrchr_iter.html +++ /dev/null @@ -1,2 +0,0 @@ -memchr::memrchr_iter - Rust

[][src]Function memchr::memrchr_iter

pub fn memrchr_iter(needle: u8, haystack: &[u8]) -> Rev<Memchr>

An iterator over all occurrences of the needle in a haystack, in reverse.

-
\ No newline at end of file diff --git a/target/doc/memchr/index.html b/target/doc/memchr/index.html deleted file mode 100644 index 749d4b2..0000000 --- a/target/doc/memchr/index.html +++ /dev/null @@ -1,34 +0,0 @@ -memchr - Rust

[][src]Crate memchr

The memchr crate provides heavily optimized routines for searching bytes.

-

The memchr function is traditionally provided by libc, however, the -performance of memchr can vary significantly depending on the specific -implementation of libc that is used. They can range from manually tuned -Assembly implementations (like that found in GNU's libc) all the way to -non-vectorized C implementations (like that found in MUSL).

-

To smooth out the differences between implementations of libc, at least -on x86_64 for Rust 1.27+, this crate provides its own implementation of -memchr that should perform competitively with the one found in GNU's libc. -The implementation is in pure Rust and has no dependency on a C compiler or an -Assembler.

-

Additionally, GNU libc also provides an extension, memrchr. This crate -provides its own implementation of memrchr as well, on top of memchr2, -memchr3, memrchr2 and memrchr3. The difference between memchr and -memchr2 is that that memchr2 permits finding all occurrences of two bytes -instead of one. Similarly for memchr3.

-

Structs

-
Memchr

An iterator for memchr.

-
Memchr2

An iterator for memchr2.

-
Memchr3

An iterator for memchr3.

-

Functions

-
memchr

Search for the first occurrence of a byte in a slice.

-
memchr2_iter

An iterator over all occurrences of the needles in a haystack.

-
memchr2

Like memchr, but searches for two bytes instead of one.

-
memchr3_iter

An iterator over all occurrences of the needles in a haystack.

-
memchr3

Like memchr, but searches for three bytes instead of one.

-
memchr_iter

An iterator over all occurrences of the needle in a haystack.

-
memrchr

Search for the last occurrence of a byte in a slice.

-
memrchr2_iter

An iterator over all occurrences of the needles in a haystack, in reverse.

-
memrchr2

Like memrchr, but searches for two bytes instead of one.

-
memrchr3_iter

An iterator over all occurrences of the needles in a haystack, in reverse.

-
memrchr3

Like memrchr, but searches for three bytes instead of one.

-
memrchr_iter

An iterator over all occurrences of the needle in a haystack, in reverse.

-
\ No newline at end of file diff --git a/target/doc/memchr/iter/struct.Memchr.html b/target/doc/memchr/iter/struct.Memchr.html deleted file mode 100644 index 6b7dd8a..0000000 --- a/target/doc/memchr/iter/struct.Memchr.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../memchr/struct.Memchr.html...

- - - \ No newline at end of file diff --git a/target/doc/memchr/iter/struct.Memchr2.html b/target/doc/memchr/iter/struct.Memchr2.html deleted file mode 100644 index ae44068..0000000 --- a/target/doc/memchr/iter/struct.Memchr2.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../memchr/struct.Memchr2.html...

- - - \ No newline at end of file diff --git a/target/doc/memchr/iter/struct.Memchr3.html b/target/doc/memchr/iter/struct.Memchr3.html deleted file mode 100644 index 576c4dc..0000000 --- a/target/doc/memchr/iter/struct.Memchr3.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../memchr/struct.Memchr3.html...

- - - \ No newline at end of file diff --git a/target/doc/memchr/sidebar-items.js b/target/doc/memchr/sidebar-items.js deleted file mode 100644 index ff444e7..0000000 --- a/target/doc/memchr/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"fn":[["memchr","Search for the first occurrence of a byte in a slice."],["memchr2","Like `memchr`, but searches for two bytes instead of one."],["memchr2_iter","An iterator over all occurrences of the needles in a haystack."],["memchr3","Like `memchr`, but searches for three bytes instead of one."],["memchr3_iter","An iterator over all occurrences of the needles in a haystack."],["memchr_iter","An iterator over all occurrences of the needle in a haystack."],["memrchr","Search for the last occurrence of a byte in a slice."],["memrchr2","Like `memrchr`, but searches for two bytes instead of one."],["memrchr2_iter","An iterator over all occurrences of the needles in a haystack, in reverse."],["memrchr3","Like `memrchr`, but searches for three bytes instead of one."],["memrchr3_iter","An iterator over all occurrences of the needles in a haystack, in reverse."],["memrchr_iter","An iterator over all occurrences of the needle in a haystack, in reverse."]],"struct":[["Memchr","An iterator for `memchr`."],["Memchr2","An iterator for `memchr2`."],["Memchr3","An iterator for `memchr3`."]]}); \ No newline at end of file diff --git a/target/doc/memchr/struct.Memchr.html b/target/doc/memchr/struct.Memchr.html deleted file mode 100644 index 1d87519..0000000 --- a/target/doc/memchr/struct.Memchr.html +++ /dev/null @@ -1,84 +0,0 @@ -memchr::Memchr - Rust

[][src]Struct memchr::Memchr

pub struct Memchr<'a> { /* fields omitted */ }

An iterator for memchr.

-

Methods

impl<'a> Memchr<'a>[src]

Important traits for Memchr<'a>
pub fn new(needle: u8, haystack: &[u8]) -> Memchr[src]

Creates a new iterator that yields all positions of needle in haystack.

-

Trait Implementations

impl<'a> DoubleEndedIterator for Memchr<'a>[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl<'a> Iterator for Memchr<'a>[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'a> Send for Memchr<'a>

impl<'a> Sync for Memchr<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/memchr/struct.Memchr2.html b/target/doc/memchr/struct.Memchr2.html deleted file mode 100644 index b3e5a80..0000000 --- a/target/doc/memchr/struct.Memchr2.html +++ /dev/null @@ -1,84 +0,0 @@ -memchr::Memchr2 - Rust

[][src]Struct memchr::Memchr2

pub struct Memchr2<'a> { /* fields omitted */ }

An iterator for memchr2.

-

Methods

impl<'a> Memchr2<'a>[src]

Important traits for Memchr2<'a>
pub fn new(needle1: u8, needle2: u8, haystack: &[u8]) -> Memchr2[src]

Creates a new iterator that yields all positions of needle in haystack.

-

Trait Implementations

impl<'a> DoubleEndedIterator for Memchr2<'a>[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl<'a> Iterator for Memchr2<'a>[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'a> Send for Memchr2<'a>

impl<'a> Sync for Memchr2<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/memchr/struct.Memchr3.html b/target/doc/memchr/struct.Memchr3.html deleted file mode 100644 index a60132c..0000000 --- a/target/doc/memchr/struct.Memchr3.html +++ /dev/null @@ -1,84 +0,0 @@ -memchr::Memchr3 - Rust

[][src]Struct memchr::Memchr3

pub struct Memchr3<'a> { /* fields omitted */ }

An iterator for memchr3.

-

Methods

impl<'a> Memchr3<'a>[src]

Important traits for Memchr3<'a>
pub fn new(needle1: u8, needle2: u8, needle3: u8, haystack: &[u8]) -> Memchr3[src]

Create a new Memchr3 that's initialized to zero with a haystack

-

Trait Implementations

impl<'a> DoubleEndedIterator for Memchr3<'a>[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl<'a> Iterator for Memchr3<'a>[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'a> Send for Memchr3<'a>

impl<'a> Sync for Memchr3<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/normalize.css b/target/doc/normalize.css deleted file mode 100644 index 45b6cb2..0000000 --- a/target/doc/normalize.css +++ /dev/null @@ -1,2 +0,0 @@ -/*! normalize.css v3.0.0 | MIT License | git.io/normalize */ -html{font-family:sans-serif;-ms-text-size-adjust:100%;-webkit-text-size-adjust:100%}body{margin:0}article,aside,details,figcaption,figure,footer,header,hgroup,main,nav,section,summary{display:block}audio,canvas,progress,video{display:inline-block;vertical-align:baseline}audio:not([controls]){display:none;height:0}[hidden],template{display:none}a{background:transparent}a:active,a:hover{outline:0}abbr[title]{border-bottom:1px dotted}b,strong{font-weight:bold}dfn{font-style:italic}h1{font-size:2em;margin:.67em 0}mark{background:#ff0;color:#000}small{font-size:80%}sub,sup{font-size:75%;line-height:0;position:relative;vertical-align:baseline}sup{top:-0.5em}sub{bottom:-0.25em}img{border:0}svg:not(:root){overflow:hidden}figure{margin:1em 40px}hr{-moz-box-sizing:content-box;box-sizing:content-box;height:0}pre{overflow:auto}code,kbd,pre,samp{font-family:monospace,monospace;font-size:1em}button,input,optgroup,select,textarea{color:inherit;font:inherit;margin:0}button{overflow:visible}button,select{text-transform:none}button,html input[type="button"],input[type="reset"],input[type="submit"]{-webkit-appearance:button;cursor:pointer}button[disabled],html input[disabled]{cursor:default}button::-moz-focus-inner,input::-moz-focus-inner{border:0;padding:0}input{line-height:normal}input[type="checkbox"],input[type="radio"]{box-sizing:border-box;padding:0}input[type="number"]::-webkit-inner-spin-button,input[type="number"]::-webkit-outer-spin-button{height:auto}input[type="search"]{-webkit-appearance:textfield;-moz-box-sizing:content-box;-webkit-box-sizing:content-box;box-sizing:content-box}input[type="search"]::-webkit-search-cancel-button,input[type="search"]::-webkit-search-decoration{-webkit-appearance:none}fieldset{border:1px solid silver;margin:0 2px;padding:.35em .625em .75em}legend{border:0;padding:0}textarea{overflow:auto}optgroup{font-weight:bold}table{border-collapse:collapse;border-spacing:0}td,th{padding:0} \ No newline at end of file diff --git a/target/doc/noscript.css b/target/doc/noscript.css deleted file mode 100644 index fa0b2c4..0000000 --- a/target/doc/noscript.css +++ /dev/null @@ -1 +0,0 @@ -#main>h2+div,#main>h2+h3,#main>h3+div{display:block;}.loading-content{display:none;} \ No newline at end of file diff --git a/target/doc/owoify/all.html b/target/doc/owoify/all.html deleted file mode 100644 index ab771f8..0000000 --- a/target/doc/owoify/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Traits

\ No newline at end of file diff --git a/target/doc/owoify/index.html b/target/doc/owoify/index.html deleted file mode 100644 index 5f30bae..0000000 --- a/target/doc/owoify/index.html +++ /dev/null @@ -1,2 +0,0 @@ -owoify - Rust

[][src]Crate owoify

Traits

-
OwOifiable
\ No newline at end of file diff --git a/target/doc/owoify/sidebar-items.js b/target/doc/owoify/sidebar-items.js deleted file mode 100644 index 51b045d..0000000 --- a/target/doc/owoify/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"trait":[["OwOifiable",""]]}); \ No newline at end of file diff --git a/target/doc/owoify/trait.OwOifiable.html b/target/doc/owoify/trait.OwOifiable.html deleted file mode 100644 index df3f444..0000000 --- a/target/doc/owoify/trait.OwOifiable.html +++ /dev/null @@ -1,14 +0,0 @@ -owoify::OwOifiable - Rust

[][src]Trait owoify::OwOifiable

pub trait OwOifiable {
-    fn owoify(&self) -> Self;
-}
-

Required methods

fn owoify(&self) -> Self

The owoification method

-
Loading content... -

Implementations on Foreign Types

impl OwOifiable for String[src]

fn owoify(&self) -> Self[src]

Owoifies a String

-

Examples

-
-use use owoify::OwOifiable;
-let owoified = String::from("Example text").owoify();
-
Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/ppv_lite86/all.html b/target/doc/ppv_lite86/all.html deleted file mode 100644 index 7e3116c..0000000 --- a/target/doc/ppv_lite86/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Unions

Traits

Macros

Typedefs

\ No newline at end of file diff --git a/target/doc/ppv_lite86/index.html b/target/doc/ppv_lite86/index.html deleted file mode 100644 index 9d1cdd1..0000000 --- a/target/doc/ppv_lite86/index.html +++ /dev/null @@ -1,20 +0,0 @@ -ppv_lite86 - Rust

[][src]Crate ppv_lite86

Re-exports

-
pub use self::arch::vec128_storage;
pub use self::arch::vec256_storage;
pub use self::arch::vec512_storage;

Modules

-
x86_64

Macros

-
dispatch

Generate the full set of optimized implementations to take advantage of the most important -hardware feature sets.

-
dispatch_light128

Generate only the basic implementations necessary to be able to operate efficiently on 128-bit -vectors on this platfrom. For x86-64, that would mean SSE2 and AVX.

-
dispatch_light256

Generate only the basic implementations necessary to be able to operate efficiently on 256-bit -vectors on this platfrom. For x86-64, that would mean SSE2, AVX, and AVX2.

-

Traits

-
AndNot
ArithOps

Ops that depend on word size

-
BSwap
BitOps0

Ops that are independent of word size and endian

-
BitOps32
BitOps64
BitOps128
LaneWords4

A vector composed one or more lanes each composed of four words.

-
Machine
MultiLane

A vector composed of multiple 128-bit lanes.

-
RotateEachWord32
RotateEachWord64
RotateEachWord128
Store
StoreBytes
Swap64

Exchange neigboring ranges of bits of the specified size

-
UnsafeFrom
VZip

Combine single vectors into a multi-lane vector.

-
Vec2

A vector composed of two elements, which may be words or themselves vectors.

-
Vec4

A vector composed of four elements, which may be words or themselves vectors.

-
Words4

A vector composed of four words; depending on their size, operations may cross lanes.

-
u128x1
u128x2
u128x4
u32x4
u32x4x2
u32x4x4
u64x2
u64x4
u64x2x2
u64x2x4
\ No newline at end of file diff --git a/target/doc/ppv_lite86/macro.dispatch!.html b/target/doc/ppv_lite86/macro.dispatch!.html deleted file mode 100644 index 0314e89..0000000 --- a/target/doc/ppv_lite86/macro.dispatch!.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to macro.dispatch.html...

- - - \ No newline at end of file diff --git a/target/doc/ppv_lite86/macro.dispatch.html b/target/doc/ppv_lite86/macro.dispatch.html deleted file mode 100644 index 0343415..0000000 --- a/target/doc/ppv_lite86/macro.dispatch.html +++ /dev/null @@ -1,9 +0,0 @@ -ppv_lite86::dispatch - Rust

[][src]Macro ppv_lite86::dispatch

-macro_rules! dispatch {
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) -> $ret:ty $body:block }) => { ... };
-    ($mach:ident, $MTy:ident, { $([$pub:tt $(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) $body:block }) => { ... };
-}
-

Generate the full set of optimized implementations to take advantage of the most important -hardware feature sets.

-

This dispatcher is suitable for maximizing throughput.

-
\ No newline at end of file diff --git a/target/doc/ppv_lite86/macro.dispatch_light128!.html b/target/doc/ppv_lite86/macro.dispatch_light128!.html deleted file mode 100644 index a32f8a9..0000000 --- a/target/doc/ppv_lite86/macro.dispatch_light128!.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to macro.dispatch_light128.html...

- - - \ No newline at end of file diff --git a/target/doc/ppv_lite86/macro.dispatch_light128.html b/target/doc/ppv_lite86/macro.dispatch_light128.html deleted file mode 100644 index 3609680..0000000 --- a/target/doc/ppv_lite86/macro.dispatch_light128.html +++ /dev/null @@ -1,11 +0,0 @@ -ppv_lite86::dispatch_light128 - Rust

[][src]Macro ppv_lite86::dispatch_light128

-macro_rules! dispatch_light128 {
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) -> $ret:ty $body:block }) => { ... };
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) $body:block }) => { ... };
-}
-

Generate only the basic implementations necessary to be able to operate efficiently on 128-bit -vectors on this platfrom. For x86-64, that would mean SSE2 and AVX.

-

This dispatcher is suitable for vector operations that do not benefit from advanced hardware -features (e.g. because they are done infrequently), so minimizing their contribution to code -size is more important.

-
\ No newline at end of file diff --git a/target/doc/ppv_lite86/macro.dispatch_light256!.html b/target/doc/ppv_lite86/macro.dispatch_light256!.html deleted file mode 100644 index d578781..0000000 --- a/target/doc/ppv_lite86/macro.dispatch_light256!.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to macro.dispatch_light256.html...

- - - \ No newline at end of file diff --git a/target/doc/ppv_lite86/macro.dispatch_light256.html b/target/doc/ppv_lite86/macro.dispatch_light256.html deleted file mode 100644 index 74574c3..0000000 --- a/target/doc/ppv_lite86/macro.dispatch_light256.html +++ /dev/null @@ -1,11 +0,0 @@ -ppv_lite86::dispatch_light256 - Rust

[][src]Macro ppv_lite86::dispatch_light256

-macro_rules! dispatch_light256 {
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) -> $ret:ty $body:block }) => { ... };
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) $body:block }) => { ... };
-}
-

Generate only the basic implementations necessary to be able to operate efficiently on 256-bit -vectors on this platfrom. For x86-64, that would mean SSE2, AVX, and AVX2.

-

This dispatcher is suitable for vector operations that do not benefit from advanced hardware -features (e.g. because they are done infrequently), so minimizing their contribution to code -size is more important.

-
\ No newline at end of file diff --git a/target/doc/ppv_lite86/sidebar-items.js b/target/doc/ppv_lite86/sidebar-items.js deleted file mode 100644 index df22a65..0000000 --- a/target/doc/ppv_lite86/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"macro":[["dispatch","Generate the full set of optimized implementations to take advantage of the most important hardware feature sets."],["dispatch_light128","Generate only the basic implementations necessary to be able to operate efficiently on 128-bit vectors on this platfrom. For x86-64, that would mean SSE2 and AVX."],["dispatch_light256","Generate only the basic implementations necessary to be able to operate efficiently on 256-bit vectors on this platfrom. For x86-64, that would mean SSE2, AVX, and AVX2."]],"mod":[["x86_64",""]],"trait":[["AndNot",""],["ArithOps","Ops that depend on word size"],["BSwap",""],["BitOps0","Ops that are independent of word size and endian"],["BitOps128",""],["BitOps32",""],["BitOps64",""],["LaneWords4","A vector composed one or more lanes each composed of four words."],["Machine",""],["MultiLane","A vector composed of multiple 128-bit lanes."],["RotateEachWord128",""],["RotateEachWord32",""],["RotateEachWord64",""],["Store",""],["StoreBytes",""],["Swap64","Exchange neigboring ranges of bits of the specified size"],["UnsafeFrom",""],["VZip","Combine single vectors into a multi-lane vector."],["Vec2","A vector composed of two elements, which may be words or themselves vectors."],["Vec4","A vector composed of four elements, which may be words or themselves vectors."],["Words4","A vector composed of four words; depending on their size, operations may cross lanes."],["u128x1",""],["u128x2",""],["u128x4",""],["u32x4",""],["u32x4x2",""],["u32x4x4",""],["u64x2",""],["u64x2x2",""],["u64x2x4",""],["u64x4",""]]}); \ No newline at end of file diff --git a/target/doc/ppv_lite86/trait.AndNot.html b/target/doc/ppv_lite86/trait.AndNot.html deleted file mode 100644 index 5a201b7..0000000 --- a/target/doc/ppv_lite86/trait.AndNot.html +++ /dev/null @@ -1,9 +0,0 @@ -ppv_lite86::AndNot - Rust

[][src]Trait ppv_lite86::AndNot

pub trait AndNot {
-    type Output;
-    fn andnot(self, rhs: Self) -> Self::Output;
-}
-

Associated Types

type Output

Loading content... -

Required methods

fn andnot(self, rhs: Self) -> Self::Output

Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/ppv_lite86/trait.ArithOps.html b/target/doc/ppv_lite86/trait.ArithOps.html deleted file mode 100644 index aa280c1..0000000 --- a/target/doc/ppv_lite86/trait.ArithOps.html +++ /dev/null @@ -1,5 +0,0 @@ -ppv_lite86::ArithOps - Rust

[][src]Trait ppv_lite86::ArithOps

pub trait ArithOps: Add<Output = Self> + AddAssign + Sized + Copy + Clone + BSwap { }

Ops that depend on word size

-
-

Implementors

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[][src]Trait ppv_lite86::BSwap

pub trait BSwap {
-    fn bswap(self) -> Self;
-}
-

Required methods

fn bswap(self) -> Self

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Implementors

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[][src]Trait ppv_lite86::BitOps0

pub trait BitOps0: BitAnd<Output = Self> + BitOr<Output = Self> + BitXor<Output = Self> + BitXorAssign + Not<Output = Self> + AndNot<Output = Self> + Sized + Copy + Clone { }

Ops that are independent of word size and endian

-
-

Implementors

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[][src]Trait ppv_lite86::BitOps128

pub trait BitOps128: BitOps64 + RotateEachWord128 { }
-

Implementors

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[][src]Trait ppv_lite86::BitOps32

pub trait BitOps32: BitOps0 + RotateEachWord32 { }
-

Implementors

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[][src]Trait ppv_lite86::BitOps64

pub trait BitOps64: BitOps32 + RotateEachWord64 { }
-

Implementors

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[][src]Trait ppv_lite86::LaneWords4

pub trait LaneWords4 {
-    fn shuffle_lane_words1230(self) -> Self;
-
fn shuffle_lane_words2301(self) -> Self; -
fn shuffle_lane_words3012(self) -> Self; -}

A vector composed one or more lanes each composed of four words.

-
-

Required methods

fn shuffle_lane_words1230(self) -> Self

fn shuffle_lane_words2301(self) -> Self

fn shuffle_lane_words3012(self) -> Self

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Implementors

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\ No newline at end of file diff --git a/target/doc/ppv_lite86/trait.Machine.html b/target/doc/ppv_lite86/trait.Machine.html deleted file mode 100644 index 3494b8c..0000000 --- a/target/doc/ppv_lite86/trait.Machine.html +++ /dev/null @@ -1,27 +0,0 @@ -ppv_lite86::Machine - Rust

[][src]Trait ppv_lite86::Machine

pub trait Machine: Sized + Copy {
-    type u32x4: u32x4<Self>;
-    type u64x2: u64x2<Self>;
-    type u128x1: u128x1<Self>;
-    type u32x4x2: u32x4x2<Self>;
-    type u64x2x2: u64x2x2<Self>;
-    type u64x4: u64x4<Self>;
-    type u128x2: u128x2<Self>;
-    type u32x4x4: u32x4x4<Self>;
-    type u64x2x4: u64x2x4<Self>;
-    type u128x4: u128x4<Self>;
-    unsafe fn instance() -> Self;
-
-    fn unpack<S, V: Store<S>>(self, s: S) -> V { ... }
-
fn vec<V, A>(self, a: A) -> V
    where
        V: MultiLane<A>
, - { ... } -
fn read_le<V>(self, input: &[u8]) -> V
    where
        V: StoreBytes
, - { ... } -
fn read_be<V>(self, input: &[u8]) -> V
    where
        V: StoreBytes
, - { ... } -}
-

Associated Types

type u32x4: u32x4<Self>

type u64x2: u64x2<Self>

type u128x1: u128x1<Self>

type u32x4x2: u32x4x2<Self>

type u64x2x2: u64x2x2<Self>

type u64x4: u64x4<Self>

type u128x2: u128x2<Self>

type u32x4x4: u32x4x4<Self>

type u64x2x4: u64x2x4<Self>

type u128x4: u128x4<Self>

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Required methods

unsafe fn instance() -> Self

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Provided methods

fn unpack<S, V: Store<S>>(self, s: S) -> V

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes

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Implementors

impl<NI: Copy> Machine for Avx2Machine<NI> where
    u128x1_sse2<YesS3, YesS4, NI>: BSwap + Swap64,
    u64x2_sse2<YesS3, YesS4, NI>: BSwap + RotateEachWord32 + MultiLane<[u64; 2]> + Vec2<u64>,
    u32x4_sse2<YesS3, YesS4, NI>: BSwap + RotateEachWord32 + MultiLane<[u32; 4]> + Vec4<u32>,
    x2<u64x2_sse2<YesS3, YesS4, NI>, G1>: BSwap + Words4
[src]

type u32x4 = u32x4_sse2<YesS3, YesS4, NI>

type u64x2 = u64x2_sse2<YesS3, YesS4, NI>

type u128x1 = u128x1_sse2<YesS3, YesS4, NI>

type u32x4x2 = x2<u32x4_sse2<YesS3, YesS4, NI>, G0>

type u64x2x2 = x2<u64x2_sse2<YesS3, YesS4, NI>, G0>

type u64x4 = x2<u64x2_sse2<YesS3, YesS4, NI>, G1>

type u128x2 = x2<u128x1_sse2<YesS3, YesS4, NI>, G0>

type u32x4x4 = u32x4x4_avx2<NI>

type u64x2x4 = x4<u64x2_sse2<YesS3, YesS4, NI>>

type u128x4 = x4<u128x1_sse2<YesS3, YesS4, NI>>

fn unpack<S, V: Store<S>>(self, s: S) -> V[src]

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 
[src]

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

impl<S3: Copy, S4: Copy, NI: Copy> Machine for SseMachine<S3, S4, NI> where
    u128x1_sse2<S3, S4, NI>: Swap64,
    u64x2_sse2<S3, S4, NI>: BSwap + RotateEachWord32 + MultiLane<[u64; 2]> + Vec2<u64>,
    u32x4_sse2<S3, S4, NI>: BSwap + RotateEachWord32 + MultiLane<[u32; 4]> + Vec4<u32>,
    x2<u64x2_sse2<S3, S4, NI>, G1>: BSwap + Words4,
    u128x1_sse2<S3, S4, NI>: BSwap,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u64x2_sse2<S3, S4, NI>, G0>>,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u64x2_sse2<S3, S4, NI>, G1>>,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u32x4_sse2<S3, S4, NI>, G0>>,
    x4<u128x1_sse2<S3, S4, NI>>: Into<x4<u64x2_sse2<S3, S4, NI>>>,
    x4<u128x1_sse2<S3, S4, NI>>: Into<x4<u32x4_sse2<S3, S4, NI>>>, 
[src]

type u32x4 = u32x4_sse2<S3, S4, NI>

type u64x2 = u64x2_sse2<S3, S4, NI>

type u128x1 = u128x1_sse2<S3, S4, NI>

type u32x4x2 = x2<u32x4_sse2<S3, S4, NI>, G0>

type u64x2x2 = x2<u64x2_sse2<S3, S4, NI>, G0>

type u64x4 = x2<u64x2_sse2<S3, S4, NI>, G1>

type u128x2 = x2<u128x1_sse2<S3, S4, NI>, G0>

type u32x4x4 = x4<u32x4_sse2<S3, S4, NI>>

type u64x2x4 = x4<u64x2_sse2<S3, S4, NI>>

type u128x4 = x4<u128x1_sse2<S3, S4, NI>>

fn unpack<S, V: Store<S>>(self, s: S) -> V[src]

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 
[src]

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

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\ No newline at end of file diff --git a/target/doc/ppv_lite86/trait.MultiLane.html b/target/doc/ppv_lite86/trait.MultiLane.html deleted file mode 100644 index 459c058..0000000 --- a/target/doc/ppv_lite86/trait.MultiLane.html +++ /dev/null @@ -1,11 +0,0 @@ -ppv_lite86::MultiLane - Rust

[][src]Trait ppv_lite86::MultiLane

pub trait MultiLane<Lanes> {
-    fn to_lanes(self) -> Lanes;
-
fn from_lanes(lanes: Lanes) -> Self; -}

A vector composed of multiple 128-bit lanes.

-
-

Required methods

fn to_lanes(self) -> Lanes

Split a multi-lane vector into single-lane vectors.

-

fn from_lanes(lanes: Lanes) -> Self

Build a multi-lane vector from individual lanes.

-
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Implementors

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[][src]Trait ppv_lite86::RotateEachWord128

pub trait RotateEachWord128 { }
-

Implementors

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[][src]Trait ppv_lite86::RotateEachWord32

pub trait RotateEachWord32 {
-    fn rotate_each_word_right7(self) -> Self;
-
fn rotate_each_word_right8(self) -> Self; -
fn rotate_each_word_right11(self) -> Self; -
fn rotate_each_word_right12(self) -> Self; -
fn rotate_each_word_right16(self) -> Self; -
fn rotate_each_word_right20(self) -> Self; -
fn rotate_each_word_right24(self) -> Self; -
fn rotate_each_word_right25(self) -> Self; -}
-

Required methods

fn rotate_each_word_right7(self) -> Self

fn rotate_each_word_right8(self) -> Self

fn rotate_each_word_right11(self) -> Self

fn rotate_each_word_right12(self) -> Self

fn rotate_each_word_right16(self) -> Self

fn rotate_each_word_right20(self) -> Self

fn rotate_each_word_right24(self) -> Self

fn rotate_each_word_right25(self) -> Self

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Implementors

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[][src]Trait ppv_lite86::RotateEachWord64

pub trait RotateEachWord64 {
-    fn rotate_each_word_right32(self) -> Self;
-}
-

Required methods

fn rotate_each_word_right32(self) -> Self

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Implementors

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[][src]Trait ppv_lite86::Store

pub trait Store<S> {
-    unsafe fn unpack(p: S) -> Self;
-}
-

Required methods

unsafe fn unpack(p: S) -> Self

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Implementors

impl Store<vec128_storage> for vec128_storage[src]

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[][src]Trait ppv_lite86::StoreBytes

pub trait StoreBytes {
-    unsafe fn unsafe_read_le(input: &[u8]) -> Self;
-
unsafe fn unsafe_read_be(input: &[u8]) -> Self; -
fn write_le(self, out: &mut [u8]); -
fn write_be(self, out: &mut [u8]); -}
-

Required methods

unsafe fn unsafe_read_le(input: &[u8]) -> Self

unsafe fn unsafe_read_be(input: &[u8]) -> Self

fn write_le(self, out: &mut [u8])

fn write_be(self, out: &mut [u8])

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Implementors

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[][src]Trait ppv_lite86::Swap64

pub trait Swap64 {
-    fn swap1(self) -> Self;
-
fn swap2(self) -> Self; -
fn swap4(self) -> Self; -
fn swap8(self) -> Self; -
fn swap16(self) -> Self; -
fn swap32(self) -> Self; -
fn swap64(self) -> Self; -}

Exchange neigboring ranges of bits of the specified size

-
-

Required methods

fn swap1(self) -> Self

fn swap2(self) -> Self

fn swap4(self) -> Self

fn swap8(self) -> Self

fn swap16(self) -> Self

fn swap32(self) -> Self

fn swap64(self) -> Self

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Implementors

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[][src]Trait ppv_lite86::UnsafeFrom

pub trait UnsafeFrom<T> {
-    unsafe fn unsafe_from(t: T) -> Self;
-}
-

Required methods

unsafe fn unsafe_from(t: T) -> Self

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Implementors

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[][src]Trait ppv_lite86::VZip

pub trait VZip<V> {
-    fn vzip(self) -> V;
-}

Combine single vectors into a multi-lane vector.

-
-

Required methods

fn vzip(self) -> V

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Implementors

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

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[][src]Trait ppv_lite86::Vec2

pub trait Vec2<W> {
-    fn extract(self, i: u32) -> W;
-
fn insert(self, w: W, i: u32) -> Self; -}

A vector composed of two elements, which may be words or themselves vectors.

-
-

Required methods

fn extract(self, i: u32) -> W

fn insert(self, w: W, i: u32) -> Self

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Implementors

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[][src]Trait ppv_lite86::Vec4

pub trait Vec4<W> {
-    fn extract(self, i: u32) -> W;
-
fn insert(self, w: W, i: u32) -> Self; -}

A vector composed of four elements, which may be words or themselves vectors.

-
-

Required methods

fn extract(self, i: u32) -> W

fn insert(self, w: W, i: u32) -> Self

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Implementors

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\ No newline at end of file diff --git a/target/doc/ppv_lite86/trait.Words4.html b/target/doc/ppv_lite86/trait.Words4.html deleted file mode 100644 index 20fe596..0000000 --- a/target/doc/ppv_lite86/trait.Words4.html +++ /dev/null @@ -1,10 +0,0 @@ -ppv_lite86::Words4 - Rust

[][src]Trait ppv_lite86::Words4

pub trait Words4 {
-    fn shuffle1230(self) -> Self;
-
fn shuffle2301(self) -> Self; -
fn shuffle3012(self) -> Self; -}

A vector composed of four words; depending on their size, operations may cross lanes.

-
-

Required methods

fn shuffle1230(self) -> Self

fn shuffle2301(self) -> Self

fn shuffle3012(self) -> Self

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Implementors

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[][src]Trait ppv_lite86::u128x1

pub trait u128x1<M: Machine>: BitOps128 + Store<vec128_storage> + Swap64 + MultiLane<[u128; 1]> + Into<vec128_storage> { }
-

Implementors

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[][src]Trait ppv_lite86::u128x2

pub trait u128x2<M: Machine>: BitOps128 + Store<vec256_storage> + Vec2<M::u128x1> + MultiLane<[M::u128x1; 2]> + Swap64 + Into<vec256_storage> { }
-

Implementors

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[][src]Trait ppv_lite86::u128x4

pub trait u128x4<M: Machine>: BitOps128 + Store<vec512_storage> + Vec4<M::u128x1> + MultiLane<[M::u128x1; 4]> + Swap64 + Into<vec512_storage> { }
-

Implementors

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[][src]Trait ppv_lite86::u32x4

pub trait u32x4<M: Machine>: BitOps32 + Store<vec128_storage> + ArithOps + Vec4<u32> + Words4 + LaneWords4 + StoreBytes + MultiLane<[u32; 4]> + Into<vec128_storage> { }
-

Implementors

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[][src]Trait ppv_lite86::u32x4x2

pub trait u32x4x2<M: Machine>: BitOps32 + Store<vec256_storage> + Vec2<M::u32x4> + MultiLane<[M::u32x4; 2]> + ArithOps + Into<vec256_storage> { }
-

Implementors

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[][src]Trait ppv_lite86::u32x4x4

pub trait u32x4x4<M: Machine>: BitOps32 + Store<vec512_storage> + Vec4<M::u32x4> + MultiLane<[M::u32x4; 4]> + ArithOps + LaneWords4 + Into<vec512_storage> { }
-

Implementors

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[][src]Trait ppv_lite86::u64x2

pub trait u64x2<M: Machine>: BitOps64 + Store<vec128_storage> + ArithOps + Vec2<u64> + MultiLane<[u64; 2]> + Into<vec128_storage> { }
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Implementors

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[][src]Trait ppv_lite86::u64x2x2

pub trait u64x2x2<M: Machine>: BitOps64 + Store<vec256_storage> + Vec2<M::u64x2> + MultiLane<[M::u64x2; 2]> + ArithOps + StoreBytes + Into<vec256_storage> { }
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Implementors

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[][src]Trait ppv_lite86::u64x2x4

pub trait u64x2x4<M: Machine>: BitOps64 + Store<vec512_storage> + Vec4<M::u64x2> + MultiLane<[M::u64x2; 4]> + ArithOps + Into<vec512_storage> { }
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[][src]Trait ppv_lite86::u64x4

pub trait u64x4<M: Machine>: BitOps64 + Store<vec256_storage> + Vec4<u64> + MultiLane<[u64; 4]> + ArithOps + Words4 + StoreBytes + Into<vec256_storage> { }
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Implementors

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[][src]Module ppv_lite86::x86_64

Structs

-
Avx2Machine
NoA1
NoA2
NoNI
NoS3
NoS4
SseMachine
YesA1
YesA2
YesNI
YesS3
YesS4

Type Definitions

-
AVX

AVX but not AVX2: only 128-bit integer operations, but use VEX versions of everything -to avoid expensive SSE/VEX conflicts.

-
AVX2
SSE2
SSE41
SSSE3

Unions

-
vec128_storage

Generic wrapper for unparameterized storage of any of the possible impls. -Converting into and out of this type should be essentially free, although it may be more -aligned than a particular impl requires.

-
vec256_storage
vec512_storage
\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/sidebar-items.js b/target/doc/ppv_lite86/x86_64/sidebar-items.js deleted file mode 100644 index c295d30..0000000 --- a/target/doc/ppv_lite86/x86_64/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Avx2Machine",""],["NoA1",""],["NoA2",""],["NoNI",""],["NoS3",""],["NoS4",""],["SseMachine",""],["YesA1",""],["YesA2",""],["YesNI",""],["YesS3",""],["YesS4",""]],"type":[["AVX","AVX but not AVX2: only 128-bit integer operations, but use VEX versions of everything to avoid expensive SSE/VEX conflicts."],["AVX2",""],["SSE2",""],["SSE41",""],["SSSE3",""]],"union":[["vec128_storage","Generic wrapper for unparameterized storage of any of the possible impls. Converting into and out of this type should be essentially free, although it may be more aligned than a particular impl requires."],["vec256_storage",""],["vec512_storage",""]]}); \ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.Avx2Machine.html b/target/doc/ppv_lite86/x86_64/struct.Avx2Machine.html deleted file mode 100644 index b14259e..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.Avx2Machine.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::Avx2Machine - Rust

[][src]Struct ppv_lite86::x86_64::Avx2Machine

pub struct Avx2Machine<NI>(_);

Trait Implementations

impl<NI: Copy> Machine for Avx2Machine<NI> where
    u128x1_sse2<YesS3, YesS4, NI>: BSwap + Swap64,
    u64x2_sse2<YesS3, YesS4, NI>: BSwap + RotateEachWord32 + MultiLane<[u64; 2]> + Vec2<u64>,
    u32x4_sse2<YesS3, YesS4, NI>: BSwap + RotateEachWord32 + MultiLane<[u32; 4]> + Vec4<u32>,
    x2<u64x2_sse2<YesS3, YesS4, NI>, G1>: BSwap + Words4
[src]

type u32x4 = u32x4_sse2<YesS3, YesS4, NI>

type u64x2 = u64x2_sse2<YesS3, YesS4, NI>

type u128x1 = u128x1_sse2<YesS3, YesS4, NI>

type u32x4x2 = x2<u32x4_sse2<YesS3, YesS4, NI>, G0>

type u64x2x2 = x2<u64x2_sse2<YesS3, YesS4, NI>, G0>

type u64x4 = x2<u64x2_sse2<YesS3, YesS4, NI>, G1>

type u128x2 = x2<u128x1_sse2<YesS3, YesS4, NI>, G0>

type u32x4x4 = u32x4x4_avx2<NI>

type u64x2x4 = x4<u64x2_sse2<YesS3, YesS4, NI>>

type u128x4 = x4<u128x1_sse2<YesS3, YesS4, NI>>

fn unpack<S, V: Store<S>>(self, s: S) -> V[src]

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 
[src]

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

impl<NI: Copy> Copy for Avx2Machine<NI>[src]

impl<NI: Clone> Clone for Avx2Machine<NI>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl<NI> Send for Avx2Machine<NI> where
    NI: Send

impl<NI> Sync for Avx2Machine<NI> where
    NI: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

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[][src]Struct ppv_lite86::x86_64::NoA1

pub struct NoA1;

Trait Implementations

impl Copy for NoA1[src]

impl Clone for NoA1[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for NoA1

impl Sync for NoA1

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

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[][src]Struct ppv_lite86::x86_64::NoA2

pub struct NoA2;

Trait Implementations

impl Copy for NoA2[src]

impl Clone for NoA2[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for NoA2

impl Sync for NoA2

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.NoNI.html b/target/doc/ppv_lite86/x86_64/struct.NoNI.html deleted file mode 100644 index b0ebea9..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.NoNI.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::NoNI - Rust

[][src]Struct ppv_lite86::x86_64::NoNI

pub struct NoNI;

Trait Implementations

impl Copy for NoNI[src]

impl Clone for NoNI[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for NoNI

impl Sync for NoNI

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.NoS3.html b/target/doc/ppv_lite86/x86_64/struct.NoS3.html deleted file mode 100644 index e5bb2dc..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.NoS3.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::NoS3 - Rust

[][src]Struct ppv_lite86::x86_64::NoS3

pub struct NoS3;

Trait Implementations

impl Copy for NoS3[src]

impl Clone for NoS3[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for NoS3

impl Sync for NoS3

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.NoS4.html b/target/doc/ppv_lite86/x86_64/struct.NoS4.html deleted file mode 100644 index bbf1321..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.NoS4.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::NoS4 - Rust

[][src]Struct ppv_lite86::x86_64::NoS4

pub struct NoS4;

Trait Implementations

impl Copy for NoS4[src]

impl Clone for NoS4[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for NoS4

impl Sync for NoS4

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.SseMachine.html b/target/doc/ppv_lite86/x86_64/struct.SseMachine.html deleted file mode 100644 index 4aa6ad0..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.SseMachine.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::SseMachine - Rust

[][src]Struct ppv_lite86::x86_64::SseMachine

pub struct SseMachine<S3, S4, NI>(_);

Trait Implementations

impl<S3: Copy, S4: Copy, NI: Copy> Machine for SseMachine<S3, S4, NI> where
    u128x1_sse2<S3, S4, NI>: Swap64,
    u64x2_sse2<S3, S4, NI>: BSwap + RotateEachWord32 + MultiLane<[u64; 2]> + Vec2<u64>,
    u32x4_sse2<S3, S4, NI>: BSwap + RotateEachWord32 + MultiLane<[u32; 4]> + Vec4<u32>,
    x2<u64x2_sse2<S3, S4, NI>, G1>: BSwap + Words4,
    u128x1_sse2<S3, S4, NI>: BSwap,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u64x2_sse2<S3, S4, NI>, G0>>,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u64x2_sse2<S3, S4, NI>, G1>>,
    x2<u128x1_sse2<S3, S4, NI>, G0>: Into<x2<u32x4_sse2<S3, S4, NI>, G0>>,
    x4<u128x1_sse2<S3, S4, NI>>: Into<x4<u64x2_sse2<S3, S4, NI>>>,
    x4<u128x1_sse2<S3, S4, NI>>: Into<x4<u32x4_sse2<S3, S4, NI>>>, 
[src]

type u32x4 = u32x4_sse2<S3, S4, NI>

type u64x2 = u64x2_sse2<S3, S4, NI>

type u128x1 = u128x1_sse2<S3, S4, NI>

type u32x4x2 = x2<u32x4_sse2<S3, S4, NI>, G0>

type u64x2x2 = x2<u64x2_sse2<S3, S4, NI>, G0>

type u64x4 = x2<u64x2_sse2<S3, S4, NI>, G1>

type u128x2 = x2<u128x1_sse2<S3, S4, NI>, G0>

type u32x4x4 = x4<u32x4_sse2<S3, S4, NI>>

type u64x2x4 = x4<u64x2_sse2<S3, S4, NI>>

type u128x4 = x4<u128x1_sse2<S3, S4, NI>>

fn unpack<S, V: Store<S>>(self, s: S) -> V[src]

fn vec<V, A>(self, a: A) -> V where
    V: MultiLane<A>, 
[src]

fn read_le<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

fn read_be<V>(self, input: &[u8]) -> V where
    V: StoreBytes
[src]

impl<S3: Copy, S4: Copy, NI: Copy> Copy for SseMachine<S3, S4, NI>[src]

impl<S3: Clone, S4: Clone, NI: Clone> Clone for SseMachine<S3, S4, NI>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl<S3, S4, NI> Send for SseMachine<S3, S4, NI> where
    NI: Send,
    S3: Send,
    S4: Send

impl<S3, S4, NI> Sync for SseMachine<S3, S4, NI> where
    NI: Sync,
    S3: Sync,
    S4: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.YesA1.html b/target/doc/ppv_lite86/x86_64/struct.YesA1.html deleted file mode 100644 index 93d9b67..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.YesA1.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::YesA1 - Rust

[][src]Struct ppv_lite86::x86_64::YesA1

pub struct YesA1;

Trait Implementations

impl Copy for YesA1[src]

impl Clone for YesA1[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for YesA1

impl Sync for YesA1

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.YesA2.html b/target/doc/ppv_lite86/x86_64/struct.YesA2.html deleted file mode 100644 index d883737..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.YesA2.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::YesA2 - Rust

[][src]Struct ppv_lite86::x86_64::YesA2

pub struct YesA2;

Trait Implementations

impl Copy for YesA2[src]

impl Clone for YesA2[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for YesA2

impl Sync for YesA2

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.YesNI.html b/target/doc/ppv_lite86/x86_64/struct.YesNI.html deleted file mode 100644 index 57474dd..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.YesNI.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::YesNI - Rust

[][src]Struct ppv_lite86::x86_64::YesNI

pub struct YesNI;

Trait Implementations

impl Copy for YesNI[src]

impl Clone for YesNI[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for YesNI

impl Sync for YesNI

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.YesS3.html b/target/doc/ppv_lite86/x86_64/struct.YesS3.html deleted file mode 100644 index 858103f..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.YesS3.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::YesS3 - Rust

[][src]Struct ppv_lite86::x86_64::YesS3

pub struct YesS3;

Trait Implementations

impl Copy for YesS3[src]

impl Clone for YesS3[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for YesS3

impl Sync for YesS3

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/struct.YesS4.html b/target/doc/ppv_lite86/x86_64/struct.YesS4.html deleted file mode 100644 index 4fa9fec..0000000 --- a/target/doc/ppv_lite86/x86_64/struct.YesS4.html +++ /dev/null @@ -1,12 +0,0 @@ -ppv_lite86::x86_64::YesS4 - Rust

[][src]Struct ppv_lite86::x86_64::YesS4

pub struct YesS4;

Trait Implementations

impl Copy for YesS4[src]

impl Clone for YesS4[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl Send for YesS4

impl Sync for YesS4

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/type.AVX.html b/target/doc/ppv_lite86/x86_64/type.AVX.html deleted file mode 100644 index abf05f9..0000000 --- a/target/doc/ppv_lite86/x86_64/type.AVX.html +++ /dev/null @@ -1,3 +0,0 @@ -ppv_lite86::x86_64::AVX - Rust

[][src]Type Definition ppv_lite86::x86_64::AVX

type AVX = SseMachine<YesS3, YesS4, NoNI>;

AVX but not AVX2: only 128-bit integer operations, but use VEX versions of everything -to avoid expensive SSE/VEX conflicts.

-
\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/type.AVX2.html b/target/doc/ppv_lite86/x86_64/type.AVX2.html deleted file mode 100644 index 58b4918..0000000 --- a/target/doc/ppv_lite86/x86_64/type.AVX2.html +++ /dev/null @@ -1 +0,0 @@ -ppv_lite86::x86_64::AVX2 - Rust

[][src]Type Definition ppv_lite86::x86_64::AVX2

type AVX2 = Avx2Machine<NoNI>;
\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/type.SSE2.html b/target/doc/ppv_lite86/x86_64/type.SSE2.html deleted file mode 100644 index cf87241..0000000 --- a/target/doc/ppv_lite86/x86_64/type.SSE2.html +++ /dev/null @@ -1 +0,0 @@ -ppv_lite86::x86_64::SSE2 - Rust

[][src]Type Definition ppv_lite86::x86_64::SSE2

type SSE2 = SseMachine<NoS3, NoS4, NoNI>;
\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/type.SSE41.html b/target/doc/ppv_lite86/x86_64/type.SSE41.html deleted file mode 100644 index af9d3bd..0000000 --- a/target/doc/ppv_lite86/x86_64/type.SSE41.html +++ /dev/null @@ -1 +0,0 @@ -ppv_lite86::x86_64::SSE41 - Rust

[][src]Type Definition ppv_lite86::x86_64::SSE41

type SSE41 = SseMachine<YesS3, YesS4, NoNI>;
\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/type.SSSE3.html b/target/doc/ppv_lite86/x86_64/type.SSSE3.html deleted file mode 100644 index 1040dcb..0000000 --- a/target/doc/ppv_lite86/x86_64/type.SSSE3.html +++ /dev/null @@ -1 +0,0 @@ -ppv_lite86::x86_64::SSSE3 - Rust

[][src]Type Definition ppv_lite86::x86_64::SSSE3

type SSSE3 = SseMachine<YesS3, NoS4, NoNI>;
\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/union.vec128_storage.html b/target/doc/ppv_lite86/x86_64/union.vec128_storage.html deleted file mode 100644 index 6d704d2..0000000 --- a/target/doc/ppv_lite86/x86_64/union.vec128_storage.html +++ /dev/null @@ -1,23 +0,0 @@ -ppv_lite86::x86_64::vec128_storage - Rust

[][src]Union ppv_lite86::x86_64::vec128_storage

pub union vec128_storage {
-    // some fields omitted
-}

Generic wrapper for unparameterized storage of any of the possible impls. -Converting into and out of this type should be essentially free, although it may be more -aligned than a particular impl requires.

-

Trait Implementations

impl Store<vec128_storage> for vec128_storage[src]

impl Copy for vec128_storage[src]

impl<'a> Into<&'a [u32; 4]> for &'a vec128_storage[src]

impl Into<vec128_storage> for [u32; 4][src]

impl Into<[u32; 4]> for vec128_storage[src]

impl Into<[u64; 2]> for vec128_storage[src]

impl Into<[u128; 1]> for vec128_storage[src]

impl Clone for vec128_storage[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for vec128_storage[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/union.vec256_storage.html b/target/doc/ppv_lite86/x86_64/union.vec256_storage.html deleted file mode 100644 index cda173e..0000000 --- a/target/doc/ppv_lite86/x86_64/union.vec256_storage.html +++ /dev/null @@ -1,19 +0,0 @@ -ppv_lite86::x86_64::vec256_storage - Rust

[][src]Union ppv_lite86::x86_64::vec256_storage

pub union vec256_storage {
-    // some fields omitted
-}

Methods

impl vec256_storage[src]

pub fn new128(xs: [vec128_storage; 2]) -> Self[src]

pub fn split128(self) -> [vec128_storage; 2][src]

Trait Implementations

impl Copy for vec256_storage[src]

impl Into<vec256_storage> for [u64; 4][src]

impl Into<[u32; 8]> for vec256_storage[src]

impl Into<[u64; 4]> for vec256_storage[src]

impl Into<[u128; 2]> for vec256_storage[src]

impl Clone for vec256_storage[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for vec256_storage[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/ppv_lite86/x86_64/union.vec512_storage.html b/target/doc/ppv_lite86/x86_64/union.vec512_storage.html deleted file mode 100644 index 7b0635e..0000000 --- a/target/doc/ppv_lite86/x86_64/union.vec512_storage.html +++ /dev/null @@ -1,18 +0,0 @@ -ppv_lite86::x86_64::vec512_storage - Rust

[][src]Union ppv_lite86::x86_64::vec512_storage

pub union vec512_storage {
-    // some fields omitted
-}

Methods

impl vec512_storage[src]

pub fn new128(xs: [vec128_storage; 4]) -> Self[src]

pub fn split128(self) -> [vec128_storage; 4][src]

Trait Implementations

impl Copy for vec512_storage[src]

impl Into<[u32; 16]> for vec512_storage[src]

impl Into<[u64; 8]> for vec512_storage[src]

impl Into<[u128; 4]> for vec512_storage[src]

impl Clone for vec512_storage[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for vec512_storage[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

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[] - - List of all items

Structs

Enums

Traits

Functions

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[][src]Enum rand::distributions::BernoulliError

pub enum BernoulliError {
-    InvalidProbability,
-}

Error type returned from Bernoulli::new.

-

- Variants

-InvalidProbability

p < 0 or p > 1.

-

Trait Implementations

impl PartialEq<BernoulliError> for BernoulliError[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for BernoulliError[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for BernoulliError[src]

impl Copy for BernoulliError[src]

impl Debug for BernoulliError[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

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[][src]Module rand::distributions

Generating random samples from probability distributions

-

This module is the home of the [Distribution] trait and several of its -implementations. It is the workhorse behind some of the convenient -functionality of the [Rng] trait, e.g. [Rng::gen], [Rng::gen_range] and -of course [Rng::sample].

-

Abstractly, a probability distribution describes the probability of -occurance of each value in its sample space.

-

More concretely, an implementation of Distribution<T> for type X is an -algorithm for choosing values from the sample space (a subset of T) -according to the distribution X represents, using an external source of -randomness (an RNG supplied to the sample function).

-

A type X may implement Distribution<T> for multiple types T. -Any type implementing [Distribution] is stateless (i.e. immutable), -but it may have internal parameters set at construction time (for example, -Uniform allows specification of its sample space as a range within T).

-

The Standard distribution

-

The Standard distribution is important to mention. This is the -distribution used by [Rng::gen()] and represents the "default" way to -produce a random value for many different types, including most primitive -types, tuples, arrays, and a few derived types. See the documentation of -Standard for more details.

-

Implementing Distribution<T> for Standard for user types T makes it -possible to generate type T with [Rng::gen()], and by extension also -with the [random()] function.

-

Random characters

-

Alphanumeric is a simple distribution to sample random letters and -numbers of the char type; in contrast Standard may sample any valid -char.

-

Uniform numeric ranges

-

The Uniform distribution is more flexible than Standard, but also -more specialised: it supports fewer target types, but allows the sample -space to be specified as an arbitrary range within its target type T. -Both Standard and Uniform are in some sense uniform distributions.

-

Values may be sampled from this distribution using [Rng::gen_range] or -by creating a distribution object with Uniform::new, -Uniform::new_inclusive or From<Range>. When the range limits are not -known at compile time it is typically faster to reuse an existing -distribution object than to call [Rng::gen_range].

-

User types T may also implement Distribution<T> for Uniform, -although this is less straightforward than for Standard (see the -documentation in the uniform module. Doing so enables generation of -values of type T with [Rng::gen_range].

-

Open and half-open ranges

-

There are surprisingly many ways to uniformly generate random floats. A -range between 0 and 1 is standard, but the exact bounds (open vs closed) -and accuracy differ. In addition to the Standard distribution Rand offers -Open01 and OpenClosed01. See "Floating point implementation" section of -Standard documentation for more details.

-

Non-uniform sampling

-

Sampling a simple true/false outcome with a given probability has a name: -the Bernoulli distribution (this is used by [Rng::gen_bool]).

-

For weighted sampling from a sequence of discrete values, use the -weighted module.

-

This crate no longer includes other non-uniform distributions; instead -it is recommended that you use either rand_distr or statrs.

-

Re-exports

-
pub use self::weighted::WeightedIndex;
pub use self::weighted::WeightedError;

Modules

-
uniform

A distribution uniformly sampling numbers within a given range.

-
weighted

Weighted index sampling

-

Structs

-
Alphanumeric

Sample a char, uniformly distributed over ASCII letters and numbers: -a-z, A-Z and 0-9.

-
Bernoulli

The Bernoulli distribution.

-
BetaDeprecated

The Beta distribution with shape parameters alpha and beta.

-
BinomialDeprecated

The binomial distribution Binomial(n, p).

-
CauchyDeprecated

The Cauchy distribution Cauchy(median, scale).

-
ChiSquaredDeprecated

The chi-squared distribution χ²(k), where k is the degrees of -freedom.

-
DirichletDeprecated

The dirichelet distribution Dirichlet(alpha).

-
DistIter

An iterator that generates random values of T with distribution D, -using R as the source of randomness.

-
ExpDeprecated

The exponential distribution Exp(lambda).

-
Exp1Deprecated

Samples floating-point numbers according to the exponential distribution, -with rate parameter λ = 1. This is equivalent to Exp::new(1.0) or -sampling with -rng.gen::<f64>().ln(), but faster.

-
FisherFDeprecated

The Fisher F distribution F(m, n).

-
GammaDeprecated

The Gamma distribution Gamma(shape, scale) distribution.

-
LogNormalDeprecated

The log-normal distribution ln N(mean, std_dev**2).

-
NormalDeprecated

The normal distribution N(mean, std_dev**2).

-
Open01

A distribution to sample floating point numbers uniformly in the open -interval (0, 1), i.e. not including either endpoint.

-
OpenClosed01

A distribution to sample floating point numbers uniformly in the half-open -interval (0, 1], i.e. including 1 but not 0.

-
ParetoDeprecated

Samples floating-point numbers according to the Pareto distribution

-
PoissonDeprecated

The Poisson distribution Poisson(lambda).

-
Standard

A generic random value distribution, implemented for many primitive types. -Usually generates values with a numerically uniform distribution, and with a -range appropriate to the type.

-
StandardNormalDeprecated

Samples floating-point numbers according to the normal distribution -N(0, 1) (a.k.a. a standard normal, or Gaussian). This is equivalent to -Normal::new(0.0, 1.0) but faster.

-
StudentTDeprecated

The Student t distribution, t(nu), where nu is the degrees of -freedom.

-
TriangularDeprecated

The triangular distribution.

-
Uniform

Sample values uniformly between two bounds.

-
UnitCircleDeprecated

Samples uniformly from the edge of the unit circle in two dimensions.

-
UnitSphereSurfaceDeprecated

Samples uniformly from the surface of the unit sphere in three dimensions.

-
WeibullDeprecated

Samples floating-point numbers according to the Weibull distribution

-

Enums

-
BernoulliError

Error type returned from Bernoulli::new.

-

Traits

-
Distribution

Types (distributions) that can be used to create a random instance of T.

-
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- - - \ No newline at end of file diff --git a/target/doc/rand/distributions/poisson/struct.Poisson.html b/target/doc/rand/distributions/poisson/struct.Poisson.html deleted file mode 100644 index 79d474b..0000000 --- a/target/doc/rand/distributions/poisson/struct.Poisson.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

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- - - \ No newline at end of file diff --git a/target/doc/rand/distributions/sidebar-items.js b/target/doc/rand/distributions/sidebar-items.js deleted file mode 100644 index ce19081..0000000 --- a/target/doc/rand/distributions/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["BernoulliError","Error type returned from `Bernoulli::new`."]],"mod":[["uniform","A distribution uniformly sampling numbers within a given range."],["weighted","Weighted index sampling"]],"struct":[["Alphanumeric","Sample a `char`, uniformly distributed over ASCII letters and numbers: a-z, A-Z and 0-9."],["Bernoulli","The Bernoulli distribution."],["Beta","The Beta distribution with shape parameters `alpha` and `beta`."],["Binomial","The binomial distribution `Binomial(n, p)`."],["Cauchy","The Cauchy distribution `Cauchy(median, scale)`."],["ChiSquared","The chi-squared distribution `χ²(k)`, where `k` is the degrees of freedom."],["Dirichlet","The dirichelet distribution `Dirichlet(alpha)`."],["DistIter","An iterator that generates random values of `T` with distribution `D`, using `R` as the source of randomness."],["Exp","The exponential distribution `Exp(lambda)`."],["Exp1","Samples floating-point numbers according to the exponential distribution, with rate parameter `λ = 1`. This is equivalent to `Exp::new(1.0)` or sampling with `-rng.gen::().ln()`, but faster."],["FisherF","The Fisher F distribution `F(m, n)`."],["Gamma","The Gamma distribution `Gamma(shape, scale)` distribution."],["LogNormal","The log-normal distribution `ln N(mean, std_dev**2)`."],["Normal","The normal distribution `N(mean, std_dev**2)`."],["Open01","A distribution to sample floating point numbers uniformly in the open interval `(0, 1)`, i.e. not including either endpoint."],["OpenClosed01","A distribution to sample floating point numbers uniformly in the half-open interval `(0, 1]`, i.e. including 1 but not 0."],["Pareto","Samples floating-point numbers according to the Pareto distribution"],["Poisson","The Poisson distribution `Poisson(lambda)`."],["Standard","A generic random value distribution, implemented for many primitive types. Usually generates values with a numerically uniform distribution, and with a range appropriate to the type."],["StandardNormal","Samples floating-point numbers according to the normal distribution `N(0, 1)` (a.k.a. a standard normal, or Gaussian). This is equivalent to `Normal::new(0.0, 1.0)` but faster."],["StudentT","The Student t distribution, `t(nu)`, where `nu` is the degrees of freedom."],["Triangular","The triangular distribution."],["Uniform","Sample values uniformly between two bounds."],["UnitCircle","Samples uniformly from the edge of the unit circle in two dimensions."],["UnitSphereSurface","Samples uniformly from the surface of the unit sphere in three dimensions."],["Weibull","Samples floating-point numbers according to the Weibull distribution"]],"trait":[["Distribution","Types (distributions) that can be used to create a random instance of `T`."]]}); \ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Alphanumeric.html b/target/doc/rand/distributions/struct.Alphanumeric.html deleted file mode 100644 index a264bdc..0000000 --- a/target/doc/rand/distributions/struct.Alphanumeric.html +++ /dev/null @@ -1,27 +0,0 @@ -rand::distributions::Alphanumeric - Rust

[][src]Struct rand::distributions::Alphanumeric

pub struct Alphanumeric;

Sample a char, uniformly distributed over ASCII letters and numbers: -a-z, A-Z and 0-9.

-

Example

-
-use std::iter;
-use rand::{Rng, thread_rng};
-use rand::distributions::Alphanumeric;
- 
-let mut rng = thread_rng();
-let chars: String = iter::repeat(())
-        .map(|()| rng.sample(Alphanumeric))
-        .take(7)
-        .collect();
-println!("Random chars: {}", chars);
-

Trait Implementations

impl Distribution<char> for Alphanumeric[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Debug for Alphanumeric[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

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[][src]Struct rand::distributions::Bernoulli

pub struct Bernoulli { /* fields omitted */ }

The Bernoulli distribution.

-

This is a special case of the Binomial distribution where n = 1.

-

Example

-
-use rand::distributions::{Bernoulli, Distribution};
-
-let d = Bernoulli::new(0.3).unwrap();
-let v = d.sample(&mut rand::thread_rng());
-println!("{} is from a Bernoulli distribution", v);
-

Precision

-

This Bernoulli distribution uses 64 bits from the RNG (a u64), -so only probabilities that are multiples of 2-64 can be -represented.

-

Methods

impl Bernoulli[src]

pub fn new(p: f64) -> Result<Bernoulli, BernoulliError>[src]

Construct a new Bernoulli with the given probability of success p.

-

Precision

-

For p = 1.0, the resulting distribution will always generate true. -For p = 0.0, the resulting distribution will always generate false.

-

This method is accurate for any input p in the range [0, 1] which is -a multiple of 2-64. (Note that not all multiples of -2-64 in [0, 1] can be represented as a f64.)

-

pub fn from_ratio(
    numerator: u32,
    denominator: u32
) -> Result<Bernoulli, BernoulliError>
[src]

Construct a new Bernoulli with the probability of success of -numerator-in-denominator. I.e. new_ratio(2, 3) will return -a Bernoulli with a 2-in-3 chance, or about 67%, of returning true.

-

If numerator == denominator then the returned Bernoulli will always -return true. If numerator == 0 it will always return false.

-

Trait Implementations

impl Distribution<bool> for Bernoulli[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Bernoulli[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Bernoulli[src]

impl Debug for Bernoulli[src]

Auto Trait Implementations

impl Send for Bernoulli

impl Sync for Bernoulli

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Beta.html b/target/doc/rand/distributions/struct.Beta.html deleted file mode 100644 index 977a267..0000000 --- a/target/doc/rand/distributions/struct.Beta.html +++ /dev/null @@ -1,24 +0,0 @@ -rand::distributions::Beta - Rust

[][src]Struct rand::distributions::Beta

pub struct Beta { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The Beta distribution with shape parameters alpha and beta.

-

Methods

impl Beta[src]

pub fn new(alpha: f64, beta: f64) -> Beta[src]

Construct an object representing the Beta(alpha, beta) -distribution.

-

Panics if shape <= 0 or scale <= 0.

-

Trait Implementations

impl Distribution<f64> for Beta[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Beta[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Beta[src]

impl Debug for Beta[src]

Auto Trait Implementations

impl Send for Beta

impl Sync for Beta

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Binomial.html b/target/doc/rand/distributions/struct.Binomial.html deleted file mode 100644 index da7b11b..0000000 --- a/target/doc/rand/distributions/struct.Binomial.html +++ /dev/null @@ -1,26 +0,0 @@ -rand::distributions::Binomial - Rust

[][src]Struct rand::distributions::Binomial

pub struct Binomial { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The binomial distribution Binomial(n, p).

-

This distribution has density function: -f(k) = n!/(k! (n-k)!) p^k (1-p)^(n-k) for k >= 0.

-

Methods

impl Binomial[src]

pub fn new(n: u64, p: f64) -> Binomial[src]

Construct a new Binomial with the given shape parameters n (number -of trials) and p (probability of success).

-

Panics if p < 0 or p > 1.

-

Trait Implementations

impl Distribution<u64> for Binomial[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Binomial[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Binomial[src]

impl Debug for Binomial[src]

Auto Trait Implementations

impl Send for Binomial

impl Sync for Binomial

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Cauchy.html b/target/doc/rand/distributions/struct.Cauchy.html deleted file mode 100644 index b94dfbc..0000000 --- a/target/doc/rand/distributions/struct.Cauchy.html +++ /dev/null @@ -1,26 +0,0 @@ -rand::distributions::Cauchy - Rust

[][src]Struct rand::distributions::Cauchy

pub struct Cauchy { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The Cauchy distribution Cauchy(median, scale).

-

This distribution has a density function: -f(x) = 1 / (pi * scale * (1 + ((x - median) / scale)^2))

-

Methods

impl Cauchy[src]

pub fn new(median: f64, scale: f64) -> Cauchy[src]

Construct a new Cauchy with the given shape parameters -median the peak location and scale the scale factor. -Panics if scale <= 0.

-

Trait Implementations

impl Distribution<f64> for Cauchy[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Cauchy[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Cauchy[src]

impl Debug for Cauchy[src]

Auto Trait Implementations

impl Send for Cauchy

impl Sync for Cauchy

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.ChiSquared.html b/target/doc/rand/distributions/struct.ChiSquared.html deleted file mode 100644 index d75a7e8..0000000 --- a/target/doc/rand/distributions/struct.ChiSquared.html +++ /dev/null @@ -1,28 +0,0 @@ -rand::distributions::ChiSquared - Rust

[][src]Struct rand::distributions::ChiSquared

pub struct ChiSquared { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The chi-squared distribution χ²(k), where k is the degrees of -freedom.

-

For k > 0 integral, this distribution is the sum of the squares -of k independent standard normal random variables. For other -k, this uses the equivalent characterisation -χ²(k) = Gamma(k/2, 2).

-

Methods

impl ChiSquared[src]

pub fn new(k: f64) -> ChiSquared[src]

Create a new chi-squared distribution with degrees-of-freedom -k. Panics if k < 0.

-

Trait Implementations

impl Distribution<f64> for ChiSquared[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for ChiSquared[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for ChiSquared[src]

impl Debug for ChiSquared[src]

Auto Trait Implementations

impl Send for ChiSquared

impl Sync for ChiSquared

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Dirichlet.html b/target/doc/rand/distributions/struct.Dirichlet.html deleted file mode 100644 index 0a7a182..0000000 --- a/target/doc/rand/distributions/struct.Dirichlet.html +++ /dev/null @@ -1,35 +0,0 @@ -rand::distributions::Dirichlet - Rust

[][src]Struct rand::distributions::Dirichlet

pub struct Dirichlet { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The dirichelet distribution Dirichlet(alpha).

-

The Dirichlet distribution is a family of continuous multivariate -probability distributions parameterized by a vector alpha of positive reals. -It is a multivariate generalization of the beta distribution.

-

Methods

impl Dirichlet[src]

pub fn new<V: Into<Vec<f64>>>(alpha: V) -> Dirichlet[src]

Construct a new Dirichlet with the given alpha parameter alpha.

-

Panics

-
    -
  • if alpha.len() < 2
  • -
-

pub fn new_with_param(alpha: f64, size: usize) -> Dirichlet[src]

Construct a new Dirichlet with the given shape parameter alpha and size.

-

Panics

-
    -
  • if alpha <= 0.0
  • -
  • if size < 2
  • -
-

Trait Implementations

impl Distribution<Vec<f64>> for Dirichlet[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Dirichlet[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for Dirichlet[src]

Auto Trait Implementations

impl Send for Dirichlet

impl Sync for Dirichlet

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.DistIter.html b/target/doc/rand/distributions/struct.DistIter.html deleted file mode 100644 index 1a0bd9f..0000000 --- a/target/doc/rand/distributions/struct.DistIter.html +++ /dev/null @@ -1,85 +0,0 @@ -rand::distributions::DistIter - Rust

[][src]Struct rand::distributions::DistIter

pub struct DistIter<D, R, T> { /* fields omitted */ }

An iterator that generates random values of T with distribution D, -using R as the source of randomness.

-

This struct is created by the sample_iter method on [Distribution]. -See its documentation for more.

-

Trait Implementations

impl<D, R, T> Iterator for DistIter<D, R, T> where
    D: Distribution<T>,
    R: Rng
[src]

type Item = T

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<D: Debug, R: Debug, T: Debug> Debug for DistIter<D, R, T>[src]

impl<D, R, T> FusedIterator for DistIter<D, R, T> where
    D: Distribution<T>,
    R: Rng
[src]

Auto Trait Implementations

impl<D, R, T> Send for DistIter<D, R, T> where
    D: Send,
    R: Send,
    T: Send

impl<D, R, T> Sync for DistIter<D, R, T> where
    D: Sync,
    R: Sync,
    T: Sync

Blanket Implementations

impl<I> IteratorRandom for I where
    I: Iterator
[src]

fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item> where
    R: Rng
[src]

Choose one element at random from the iterator. Read more

-

fn choose_multiple_fill<R: ?Sized>(
    self,
    rng: &mut R,
    buf: &mut [Self::Item]
) -> usize where
    R: Rng
[src]

Collects values at random from the iterator into a supplied buffer until that buffer is filled. Read more

-

fn choose_multiple<R: ?Sized>(
    self,
    rng: &mut R,
    amount: usize
) -> Vec<Self::Item> where
    R: Rng
[src]

Collects amount values at random from the iterator into a vector. Read more

-

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Exp.html b/target/doc/rand/distributions/struct.Exp.html deleted file mode 100644 index 5d740cd..0000000 --- a/target/doc/rand/distributions/struct.Exp.html +++ /dev/null @@ -1,26 +0,0 @@ -rand::distributions::Exp - Rust

[][src]Struct rand::distributions::Exp

pub struct Exp { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The exponential distribution Exp(lambda).

-

This distribution has density function: f(x) = lambda * exp(-lambda * x) -for x > 0.

-

Note that [Exp1][crate::distributions::Exp1] is an optimised implementation for lambda = 1.

-

Methods

impl Exp[src]

pub fn new(lambda: f64) -> Exp[src]

Construct a new Exp with the given shape parameter -lambda. Panics if lambda <= 0.

-

Trait Implementations

impl Distribution<f64> for Exp[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Exp[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Exp[src]

impl Debug for Exp[src]

Auto Trait Implementations

impl Send for Exp

impl Sync for Exp

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Exp1.html b/target/doc/rand/distributions/struct.Exp1.html deleted file mode 100644 index 125d607..0000000 --- a/target/doc/rand/distributions/struct.Exp1.html +++ /dev/null @@ -1,29 +0,0 @@ -rand::distributions::Exp1 - Rust

[][src]Struct rand::distributions::Exp1

pub struct Exp1;
Deprecated since 0.7.0:

moved to rand_distr crate

-

Samples floating-point numbers according to the exponential distribution, -with rate parameter λ = 1. This is equivalent to Exp::new(1.0) or -sampling with -rng.gen::<f64>().ln(), but faster.

-

See Exp for the general exponential distribution.

-

Implemented via the ZIGNOR variant1 of the Ziggurat method. The exact -description in the paper was adjusted to use tables for the exponential -distribution rather than normal.

-

  1. Jurgen A. Doornik (2005). An Improved Ziggurat Method to -Generate Normal Random Samples. -Nuffield College, Oxford 

Trait Implementations

impl Distribution<f64> for Exp1[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Exp1[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Exp1[src]

impl Debug for Exp1[src]

Auto Trait Implementations

impl Send for Exp1

impl Sync for Exp1

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.FisherF.html b/target/doc/rand/distributions/struct.FisherF.html deleted file mode 100644 index 1446cd6..0000000 --- a/target/doc/rand/distributions/struct.FisherF.html +++ /dev/null @@ -1,25 +0,0 @@ -rand::distributions::FisherF - Rust

[][src]Struct rand::distributions::FisherF

pub struct FisherF { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The Fisher F distribution F(m, n).

-

This distribution is equivalent to the ratio of two normalised -chi-squared distributions, that is, F(m,n) = (χ²(m)/m) / (χ²(n)/n).

-

Methods

impl FisherF[src]

pub fn new(m: f64, n: f64) -> FisherF[src]

Create a new FisherF distribution, with the given -parameter. Panics if either m or n are not positive.

-

Trait Implementations

impl Distribution<f64> for FisherF[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for FisherF[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for FisherF[src]

impl Debug for FisherF[src]

Auto Trait Implementations

impl Send for FisherF

impl Sync for FisherF

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Gamma.html b/target/doc/rand/distributions/struct.Gamma.html deleted file mode 100644 index b0ca6ad..0000000 --- a/target/doc/rand/distributions/struct.Gamma.html +++ /dev/null @@ -1,35 +0,0 @@ -rand::distributions::Gamma - Rust

[][src]Struct rand::distributions::Gamma

pub struct Gamma { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The Gamma distribution Gamma(shape, scale) distribution.

-

The density function of this distribution is

-
f(x) =  x^(k - 1) * exp(-x / θ) / (Γ(k) * θ^k)
-
-

where Γ is the Gamma function, k is the shape and θ is the -scale and both k and θ are strictly positive.

-

The algorithm used is that described by Marsaglia & Tsang 20001, -falling back to directly sampling from an Exponential for shape == 1, and using the boosting technique described in that paper for -shape < 1.

-

  1. George Marsaglia and Wai Wan Tsang. 2000. "A Simple Method for -Generating Gamma Variables" ACM Trans. Math. Softw. 26, 3 -(September 2000), 363-372. -DOI:10.1145/358407.358414 

Methods

impl Gamma[src]

pub fn new(shape: f64, scale: f64) -> Gamma[src]

Construct an object representing the Gamma(shape, scale) -distribution.

-

Panics if shape <= 0 or scale <= 0.

-

Trait Implementations

impl Distribution<f64> for Gamma[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Gamma[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Gamma[src]

impl Debug for Gamma[src]

Auto Trait Implementations

impl Send for Gamma

impl Sync for Gamma

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.LogNormal.html b/target/doc/rand/distributions/struct.LogNormal.html deleted file mode 100644 index d620fe5..0000000 --- a/target/doc/rand/distributions/struct.LogNormal.html +++ /dev/null @@ -1,27 +0,0 @@ -rand::distributions::LogNormal - Rust

[][src]Struct rand::distributions::LogNormal

pub struct LogNormal { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The log-normal distribution ln N(mean, std_dev**2).

-

If X is log-normal distributed, then ln(X) is N(mean, std_dev**2) -distributed.

-

Methods

impl LogNormal[src]

pub fn new(mean: f64, std_dev: f64) -> LogNormal[src]

Construct a new LogNormal distribution with the given mean -and standard deviation.

-

Panics

-

Panics if std_dev < 0.

-

Trait Implementations

impl Distribution<f64> for LogNormal[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for LogNormal[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for LogNormal[src]

impl Debug for LogNormal[src]

Auto Trait Implementations

impl Send for LogNormal

impl Sync for LogNormal

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Normal.html b/target/doc/rand/distributions/struct.Normal.html deleted file mode 100644 index 0f33552..0000000 --- a/target/doc/rand/distributions/struct.Normal.html +++ /dev/null @@ -1,29 +0,0 @@ -rand::distributions::Normal - Rust

[][src]Struct rand::distributions::Normal

pub struct Normal { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The normal distribution N(mean, std_dev**2).

-

This uses the ZIGNOR variant of the Ziggurat method, see StandardNormal -for more details.

-

Note that StandardNormal is an optimised implementation for mean 0, and -standard deviation 1.

-

Methods

impl Normal[src]

pub fn new(mean: f64, std_dev: f64) -> Normal[src]

Construct a new Normal distribution with the given mean and -standard deviation.

-

Panics

-

Panics if std_dev < 0.

-

Trait Implementations

impl Distribution<f64> for Normal[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Normal[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Normal[src]

impl Debug for Normal[src]

Auto Trait Implementations

impl Send for Normal

impl Sync for Normal

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Open01.html b/target/doc/rand/distributions/struct.Open01.html deleted file mode 100644 index 48c95ed..0000000 --- a/target/doc/rand/distributions/struct.Open01.html +++ /dev/null @@ -1,36 +0,0 @@ -rand::distributions::Open01 - Rust

[][src]Struct rand::distributions::Open01

pub struct Open01;

A distribution to sample floating point numbers uniformly in the open -interval (0, 1), i.e. not including either endpoint.

-

All values that can be generated are of the form n * ε + ε/2. For f32 -the 22 most significant random bits of an u32 are used, for f64 52 from -an u64. The conversion uses a transmute-based method.

-

See also: Standard which samples from [0, 1), OpenClosed01 -which samples from (0, 1] and Uniform which samples from arbitrary -ranges.

-

Example

-
-use rand::{thread_rng, Rng};
-use rand::distributions::Open01;
-
-let val: f32 = thread_rng().sample(Open01);
-println!("f32 from (0, 1): {}", val);
-

Trait Implementations

impl Distribution<f32> for Open01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<f64> for Open01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Open01[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Open01[src]

impl Debug for Open01[src]

Auto Trait Implementations

impl Send for Open01

impl Sync for Open01

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.OpenClosed01.html b/target/doc/rand/distributions/struct.OpenClosed01.html deleted file mode 100644 index 7f6af10..0000000 --- a/target/doc/rand/distributions/struct.OpenClosed01.html +++ /dev/null @@ -1,37 +0,0 @@ -rand::distributions::OpenClosed01 - Rust

[][src]Struct rand::distributions::OpenClosed01

pub struct OpenClosed01;

A distribution to sample floating point numbers uniformly in the half-open -interval (0, 1], i.e. including 1 but not 0.

-

All values that can be generated are of the form n * ε/2. For f32 -the 23 most significant random bits of a u32 are used and for f64 the -53 most significant bits of a u64 are used. The conversion uses the -multiplicative method.

-

See also: Standard which samples from [0, 1), Open01 -which samples from (0, 1) and Uniform which samples from arbitrary -ranges.

-

Example

-
-use rand::{thread_rng, Rng};
-use rand::distributions::OpenClosed01;
-
-let val: f32 = thread_rng().sample(OpenClosed01);
-println!("f32 from (0, 1): {}", val);
-

Trait Implementations

impl Distribution<f32> for OpenClosed01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<f64> for OpenClosed01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for OpenClosed01[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for OpenClosed01[src]

impl Debug for OpenClosed01[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Pareto.html b/target/doc/rand/distributions/struct.Pareto.html deleted file mode 100644 index 0dd92d1..0000000 --- a/target/doc/rand/distributions/struct.Pareto.html +++ /dev/null @@ -1,26 +0,0 @@ -rand::distributions::Pareto - Rust

[][src]Struct rand::distributions::Pareto

pub struct Pareto { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

Samples floating-point numbers according to the Pareto distribution

-

Methods

impl Pareto[src]

pub fn new(scale: f64, shape: f64) -> Pareto[src]

Construct a new Pareto distribution with given scale and shape.

-

In the literature, scale is commonly written as xm or k and -shape is often written as α.

-

Panics

-

scale and shape have to be non-zero and positive.

-

Trait Implementations

impl Distribution<f64> for Pareto[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Pareto[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Pareto[src]

impl Debug for Pareto[src]

Auto Trait Implementations

impl Send for Pareto

impl Sync for Pareto

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Poisson.html b/target/doc/rand/distributions/struct.Poisson.html deleted file mode 100644 index dcf10cb..0000000 --- a/target/doc/rand/distributions/struct.Poisson.html +++ /dev/null @@ -1,25 +0,0 @@ -rand::distributions::Poisson - Rust

[][src]Struct rand::distributions::Poisson

pub struct Poisson { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The Poisson distribution Poisson(lambda).

-

This distribution has a density function: -f(k) = lambda^k * exp(-lambda) / k! for k >= 0.

-

Methods

impl Poisson[src]

pub fn new(lambda: f64) -> Poisson[src]

Construct a new Poisson with the given shape parameter -lambda. Panics if lambda <= 0.

-

Trait Implementations

impl Distribution<u64> for Poisson[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Poisson[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Poisson[src]

impl Debug for Poisson[src]

Auto Trait Implementations

impl Send for Poisson

impl Sync for Poisson

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Standard.html b/target/doc/rand/distributions/struct.Standard.html deleted file mode 100644 index 9fe9a39..0000000 --- a/target/doc/rand/distributions/struct.Standard.html +++ /dev/null @@ -1,222 +0,0 @@ -rand::distributions::Standard - Rust

[][src]Struct rand::distributions::Standard

pub struct Standard;

A generic random value distribution, implemented for many primitive types. -Usually generates values with a numerically uniform distribution, and with a -range appropriate to the type.

-

Provided implementations

-

Assuming the provided Rng is well-behaved, these implementations -generate values with the following ranges and distributions:

-
    -
  • Integers (i32, u32, isize, usize, etc.): Uniformly distributed -over all values of the type.
  • -
  • char: Uniformly distributed over all Unicode scalar values, i.e. all -code points in the range 0...0x10_FFFF, except for the range -0xD800...0xDFFF (the surrogate code points). This includes -unassigned/reserved code points.
  • -
  • bool: Generates false or true, each with probability 0.5.
  • -
  • Floating point types (f32 and f64): Uniformly distributed in the -half-open range [0, 1). See notes below.
  • -
  • Wrapping integers (Wrapping<T>), besides the type identical to their -normal integer variants.
  • -
-

The Standard distribution also supports generation of the following -compound types where all component types are supported:

-
    -
  • Tuples (up to 12 elements): each element is generated sequentially.
  • -
  • Arrays (up to 32 elements): each element is generated sequentially; -see also [Rng::fill] which supports arbitrary array length for integer -types and tends to be faster for u32 and smaller types.
  • -
  • Option<T> first generates a bool, and if true generates and returns -Some(value) where value: T, otherwise returning None.
  • -
-

Custom implementations

-

The [Standard] distribution may be implemented for user types as follows:

- -
-use rand::Rng;
-use rand::distributions::{Distribution, Standard};
-
-struct MyF32 {
-    x: f32,
-}
-
-impl Distribution<MyF32> for Standard {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> MyF32 {
-        MyF32 { x: rng.gen() }
-    }
-}
-

Example usage

-
-use rand::prelude::*;
-use rand::distributions::Standard;
-
-let val: f32 = StdRng::from_entropy().sample(Standard);
-println!("f32 from [0, 1): {}", val);
-

Floating point implementation

-

The floating point implementations for Standard generate a random value in -the half-open interval [0, 1), i.e. including 0 but not 1.

-

All values that can be generated are of the form n * ε/2. For f32 -the 23 most significant random bits of a u32 are used and for f64 the -53 most significant bits of a u64 are used. The conversion uses the -multiplicative method: (rng.gen::<$uty>() >> N) as $ty * (ε/2).

-

See also: [Open01] which samples from (0, 1), [OpenClosed01] which -samples from (0, 1] and Rng::gen_range(0, 1) which also samples from -[0, 1). Note that Open01 and gen_range (which uses Uniform) use -transmute-based methods which yield 1 bit less precision but may perform -faster on some architectures (on modern Intel CPUs all methods have -approximately equal performance).

-

Trait Implementations

impl Distribution<f32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<f64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<u8> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<u16> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<u32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<u64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<u128> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<usize> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<i8> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<i16> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<i32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<i64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<i128> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<isize> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<NonZeroU8> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<NonZeroU16> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<NonZeroU32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<NonZeroU64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<NonZeroU128> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<NonZeroUsize> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<char> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<bool> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Distribution<()> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A> Distribution<(A,)> for Standard where
    Standard: Distribution<A>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B> Distribution<(A, B)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C> Distribution<(A, B, C)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D> Distribution<(A, B, C, D)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E> Distribution<(A, B, C, D, E)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F> Distribution<(A, B, C, D, E, F)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F, G> Distribution<(A, B, C, D, E, F, G)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F, G, H> Distribution<(A, B, C, D, E, F, G, H)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F, G, H, I> Distribution<(A, B, C, D, E, F, G, H, I)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F, G, H, I, J> Distribution<(A, B, C, D, E, F, G, H, I, J)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>,
    Standard: Distribution<J>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F, G, H, I, J, K> Distribution<(A, B, C, D, E, F, G, H, I, J, K)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>,
    Standard: Distribution<J>,
    Standard: Distribution<K>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<A, B, C, D, E, F, G, H, I, J, K, L> Distribution<(A, B, C, D, E, F, G, H, I, J, K, L)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>,
    Standard: Distribution<J>,
    Standard: Distribution<K>,
    Standard: Distribution<L>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 0]> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 1]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 2]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 3]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 4]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 5]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 6]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 7]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 8]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 9]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 10]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 11]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 12]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 13]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 14]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 15]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 16]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 17]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 18]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 19]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 20]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 21]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 22]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 23]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 24]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 25]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 26]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 27]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 28]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 29]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 30]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 31]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<[T; 32]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<Option<T>> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<T> Distribution<Wrapping<T>> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Standard[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Standard[src]

impl Debug for Standard[src]

Auto Trait Implementations

impl Send for Standard

impl Sync for Standard

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.StandardNormal.html b/target/doc/rand/distributions/struct.StandardNormal.html deleted file mode 100644 index 84a626f..0000000 --- a/target/doc/rand/distributions/struct.StandardNormal.html +++ /dev/null @@ -1,27 +0,0 @@ -rand::distributions::StandardNormal - Rust

[][src]Struct rand::distributions::StandardNormal

pub struct StandardNormal;
Deprecated since 0.7.0:

moved to rand_distr crate

-

Samples floating-point numbers according to the normal distribution -N(0, 1) (a.k.a. a standard normal, or Gaussian). This is equivalent to -Normal::new(0.0, 1.0) but faster.

-

See Normal for the general normal distribution.

-

Implemented via the ZIGNOR variant1 of the Ziggurat method.

-

  1. Jurgen A. Doornik (2005). An Improved Ziggurat Method to -Generate Normal Random Samples. -Nuffield College, Oxford 

Trait Implementations

impl Distribution<f64> for StandardNormal[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for StandardNormal[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for StandardNormal[src]

impl Debug for StandardNormal[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.StudentT.html b/target/doc/rand/distributions/struct.StudentT.html deleted file mode 100644 index 1259ea9..0000000 --- a/target/doc/rand/distributions/struct.StudentT.html +++ /dev/null @@ -1,24 +0,0 @@ -rand::distributions::StudentT - Rust

[][src]Struct rand::distributions::StudentT

pub struct StudentT { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The Student t distribution, t(nu), where nu is the degrees of -freedom.

-

Methods

impl StudentT[src]

pub fn new(n: f64) -> StudentT[src]

Create a new Student t distribution with n degrees of -freedom. Panics if n <= 0.

-

Trait Implementations

impl Distribution<f64> for StudentT[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for StudentT[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for StudentT[src]

impl Debug for StudentT[src]

Auto Trait Implementations

impl Send for StudentT

impl Sync for StudentT

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Triangular.html b/target/doc/rand/distributions/struct.Triangular.html deleted file mode 100644 index 08ba34e..0000000 --- a/target/doc/rand/distributions/struct.Triangular.html +++ /dev/null @@ -1,25 +0,0 @@ -rand::distributions::Triangular - Rust

[][src]Struct rand::distributions::Triangular

pub struct Triangular { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

The triangular distribution.

-

Methods

impl Triangular[src]

pub fn new(min: f64, max: f64, mode: f64) -> Triangular[src]

Construct a new Triangular with minimum min, maximum max and mode -mode.

-

Panics

-

If max < mode, mode < max or max == min.

-

Trait Implementations

impl Distribution<f64> for Triangular[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Triangular[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Triangular[src]

impl Debug for Triangular[src]

Auto Trait Implementations

impl Send for Triangular

impl Sync for Triangular

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Uniform.html b/target/doc/rand/distributions/struct.Uniform.html deleted file mode 100644 index 9094774..0000000 --- a/target/doc/rand/distributions/struct.Uniform.html +++ /dev/null @@ -1,55 +0,0 @@ -rand::distributions::Uniform - Rust

[][src]Struct rand::distributions::Uniform

pub struct Uniform<X: SampleUniform> { /* fields omitted */ }

Sample values uniformly between two bounds.

-

[Uniform::new] and [Uniform::new_inclusive] construct a uniform -distribution sampling from the given range; these functions may do extra -work up front to make sampling of multiple values faster.

-

When sampling from a constant range, many calculations can happen at -compile-time and all methods should be fast; for floating-point ranges and -the full range of integer types this should have comparable performance to -the Standard distribution.

-

Steps are taken to avoid bias which might be present in naive -implementations; for example rng.gen::<u8>() % 170 samples from the range -[0, 169] but is twice as likely to select numbers less than 85 than other -values. Further, the implementations here give more weight to the high-bits -generated by the RNG than the low bits, since with some RNGs the low-bits -are of lower quality than the high bits.

-

Implementations must sample in [low, high) range for -Uniform::new(low, high), i.e., excluding high. In particular care must -be taken to ensure that rounding never results values < low or >= high.

-

Example

-
-use rand::distributions::{Distribution, Uniform};
-
-fn main() {
-    let between = Uniform::from(10..10000);
-    let mut rng = rand::thread_rng();
-    let mut sum = 0;
-    for _ in 0..1000 {
-        sum += between.sample(&mut rng);
-    }
-    println!("{}", sum);
-}
-

Methods

impl<X: SampleUniform> Uniform<X>[src]

pub fn new<B1, B2>(low: B1, high: B2) -> Uniform<X> where
    B1: SampleBorrow<X> + Sized,
    B2: SampleBorrow<X> + Sized
[src]

Create a new Uniform instance which samples uniformly from the half -open range [low, high) (excluding high). Panics if low >= high.

-

pub fn new_inclusive<B1, B2>(low: B1, high: B2) -> Uniform<X> where
    B1: SampleBorrow<X> + Sized,
    B2: SampleBorrow<X> + Sized
[src]

Create a new Uniform instance which samples uniformly from the closed -range [low, high] (inclusive). Panics if low > high.

-

Trait Implementations

impl<X: SampleUniform> Distribution<X> for Uniform<X>[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<X: SampleUniform> From<Range<X>> for Uniform<X>[src]

impl<X: SampleUniform> From<RangeInclusive<X>> for Uniform<X>[src]

impl<X: Clone + SampleUniform> Clone for Uniform<X> where
    X::Sampler: Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<X: Copy + SampleUniform> Copy for Uniform<X> where
    X::Sampler: Copy
[src]

impl<X: Debug + SampleUniform> Debug for Uniform<X> where
    X::Sampler: Debug
[src]

Auto Trait Implementations

impl<X> Send for Uniform<X> where
    <X as SampleUniform>::Sampler: Send

impl<X> Sync for Uniform<X> where
    <X as SampleUniform>::Sampler: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.UnitCircle.html b/target/doc/rand/distributions/struct.UnitCircle.html deleted file mode 100644 index 502a4cd..0000000 --- a/target/doc/rand/distributions/struct.UnitCircle.html +++ /dev/null @@ -1,26 +0,0 @@ -rand::distributions::UnitCircle - Rust

[][src]Struct rand::distributions::UnitCircle

pub struct UnitCircle;
Deprecated since 0.7.0:

moved to rand_distr crate

-

Samples uniformly from the edge of the unit circle in two dimensions.

-

Implemented via a method by von Neumann1.

-

  1. von Neumann, J. (1951) Various Techniques Used in Connection with -Random Digits. -NBS Appl. Math. Ser., No. 12. Washington, DC: U.S. Government Printing -Office, pp. 36-38. 

Methods

impl UnitCircle[src]

pub fn new() -> UnitCircle[src]

Construct a new UnitCircle distribution.

-

Trait Implementations

impl Distribution<[f64; 2]> for UnitCircle[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for UnitCircle[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for UnitCircle[src]

impl Debug for UnitCircle[src]

Auto Trait Implementations

impl Send for UnitCircle

impl Sync for UnitCircle

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.UnitSphereSurface.html b/target/doc/rand/distributions/struct.UnitSphereSurface.html deleted file mode 100644 index 2dc703b..0000000 --- a/target/doc/rand/distributions/struct.UnitSphereSurface.html +++ /dev/null @@ -1,25 +0,0 @@ -rand::distributions::UnitSphereSurface - Rust

[][src]Struct rand::distributions::UnitSphereSurface

pub struct UnitSphereSurface;
Deprecated since 0.7.0:

moved to rand_distr crate

-

Samples uniformly from the surface of the unit sphere in three dimensions.

-

Implemented via a method by Marsaglia1.

-

  1. Marsaglia, George (1972). Choosing a Point from the Surface of a -Sphere. -Ann. Math. Statist. 43, no. 2, 645--646. 

Methods

impl UnitSphereSurface[src]

pub fn new() -> UnitSphereSurface[src]

Construct a new UnitSphereSurface distribution.

-

Trait Implementations

impl Distribution<[f64; 3]> for UnitSphereSurface[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for UnitSphereSurface[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for UnitSphereSurface[src]

impl Debug for UnitSphereSurface[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/struct.Weibull.html b/target/doc/rand/distributions/struct.Weibull.html deleted file mode 100644 index 427db16..0000000 --- a/target/doc/rand/distributions/struct.Weibull.html +++ /dev/null @@ -1,24 +0,0 @@ -rand::distributions::Weibull - Rust

[][src]Struct rand::distributions::Weibull

pub struct Weibull { /* fields omitted */ }
Deprecated since 0.7.0:

moved to rand_distr crate

-

Samples floating-point numbers according to the Weibull distribution

-

Methods

impl Weibull[src]

pub fn new(scale: f64, shape: f64) -> Weibull[src]

Construct a new Weibull distribution with given scale and shape.

-

Panics

-

scale and shape have to be non-zero and positive.

-

Trait Implementations

impl Distribution<f64> for Weibull[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl Clone for Weibull[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for Weibull[src]

impl Debug for Weibull[src]

Auto Trait Implementations

impl Send for Weibull

impl Sync for Weibull

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/trait.Distribution.html b/target/doc/rand/distributions/trait.Distribution.html deleted file mode 100644 index ff4e1e9..0000000 --- a/target/doc/rand/distributions/trait.Distribution.html +++ /dev/null @@ -1,47 +0,0 @@ -rand::distributions::Distribution - Rust

[][src]Trait rand::distributions::Distribution

pub trait Distribution<T> {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> T;
-
-    fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T>
    where
        R: Rng,
        Self: Sized
, - { ... } -}

Types (distributions) that can be used to create a random instance of T.

-

It is possible to sample from a distribution through both the -Distribution and [Rng] traits, via distr.sample(&mut rng) and -rng.sample(distr). They also both offer the sample_iter method, which -produces an iterator that samples from the distribution.

-

All implementations are expected to be immutable; this has the significant -advantage of not needing to consider thread safety, and for most -distributions efficient state-less sampling algorithms are available.

-
-

Required methods

fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> T

Generate a random value of T, using rng as the source of randomness.

-
Loading content... -

Provided methods

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized

Create an iterator that generates random values of T, using rng as -the source of randomness.

-

Note that this function takes self by value. This works since -Distribution<T> is impl'd for &D where D: Distribution<T>, -however borrowing is not automatic hence distr.sample_iter(...) may -need to be replaced with (&distr).sample_iter(...) to borrow or -(&*distr).sample_iter(...) to reborrow an existing reference.

-

Example

-
-use rand::thread_rng;
-use rand::distributions::{Distribution, Alphanumeric, Uniform, Standard};
-
-let rng = thread_rng();
-
-// Vec of 16 x f32:
-let v: Vec<f32> = Standard.sample_iter(rng).take(16).collect();
-
-// String:
-let s: String = Alphanumeric.sample_iter(rng).take(7).collect();
-
-// Dice-rolling:
-let die_range = Uniform::new_inclusive(1, 6);
-let mut roll_die = die_range.sample_iter(rng);
-while roll_die.next().unwrap() != 6 {
-    println!("Not a 6; rolling again!");
-}
-
Loading content... -

Implementations on Foreign Types

impl<'a, T, D: Distribution<T>> Distribution<T> for &'a D[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Loading content... -

Implementors

impl Distribution<[f64; 2]> for UnitCircle[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<[f64; 3]> for UnitSphereSurface[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<bool> for Bernoulli[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<bool> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<char> for Alphanumeric[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<char> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f32> for Open01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f32> for OpenClosed01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Gamma[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for ChiSquared[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for FisherF[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for StudentT[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Beta[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for StandardNormal[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Normal[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for LogNormal[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Exp[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Pareto[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Cauchy[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Triangular[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Weibull[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Exp1[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for Open01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<f64> for OpenClosed01[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<i128> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<i16> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<i32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<i64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<i8> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<isize> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u128> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u16> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u64> for Poisson[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u64> for Binomial[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<u8> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<()> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<usize> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<Vec<f64>> for Dirichlet[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<NonZeroU128> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<NonZeroU16> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<NonZeroU32> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<NonZeroU64> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<NonZeroU8> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl Distribution<NonZeroUsize> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A> Distribution<(A,)> for Standard where
    Standard: Distribution<A>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B> Distribution<(A, B)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C> Distribution<(A, B, C)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D> Distribution<(A, B, C, D)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E> Distribution<(A, B, C, D, E)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F> Distribution<(A, B, C, D, E, F)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F, G> Distribution<(A, B, C, D, E, F, G)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F, G, H> Distribution<(A, B, C, D, E, F, G, H)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F, G, H, I> Distribution<(A, B, C, D, E, F, G, H, I)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F, G, H, I, J> Distribution<(A, B, C, D, E, F, G, H, I, J)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>,
    Standard: Distribution<J>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F, G, H, I, J, K> Distribution<(A, B, C, D, E, F, G, H, I, J, K)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>,
    Standard: Distribution<J>,
    Standard: Distribution<K>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<A, B, C, D, E, F, G, H, I, J, K, L> Distribution<(A, B, C, D, E, F, G, H, I, J, K, L)> for Standard where
    Standard: Distribution<A>,
    Standard: Distribution<B>,
    Standard: Distribution<C>,
    Standard: Distribution<D>,
    Standard: Distribution<E>,
    Standard: Distribution<F>,
    Standard: Distribution<G>,
    Standard: Distribution<H>,
    Standard: Distribution<I>,
    Standard: Distribution<J>,
    Standard: Distribution<K>,
    Standard: Distribution<L>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<Option<T>> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 0]> for Standard[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 1]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 2]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 3]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 4]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 5]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 6]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 7]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 8]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 9]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 10]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 11]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 12]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 13]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 14]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 15]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 16]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 17]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 18]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 19]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 20]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 21]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 22]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 23]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 24]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 25]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 26]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 27]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 28]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 29]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 30]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 31]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<[T; 32]> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<T> Distribution<Wrapping<T>> for Standard where
    Standard: Distribution<T>, 
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<W: Weight> Distribution<usize> for rand::distributions::weighted::alias_method::WeightedIndex<W>[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<X> Distribution<usize> for rand::distributions::weighted::WeightedIndex<X> where
    X: SampleUniform + PartialOrd
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

impl<X: SampleUniform> Distribution<X> for Uniform<X>[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

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- - - \ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/index.html b/target/doc/rand/distributions/uniform/index.html deleted file mode 100644 index ea56420..0000000 --- a/target/doc/rand/distributions/uniform/index.html +++ /dev/null @@ -1,94 +0,0 @@ -rand::distributions::uniform - Rust

[][src]Module rand::distributions::uniform

A distribution uniformly sampling numbers within a given range.

-

[Uniform] is the standard distribution to sample uniformly from a range; -e.g. Uniform::new_inclusive(1, 6) can sample integers from 1 to 6, like a -standard die. [Rng::gen_range] supports any type supported by -[Uniform].

-

This distribution is provided with support for several primitive types -(all integer and floating-point types) as well as [std::time::Duration], -and supports extension to user-defined types via a type-specific back-end -implementation.

-

The types UniformInt, UniformFloat and UniformDuration are the -back-ends supporting sampling from primitive integer and floating-point -ranges as well as from [std::time::Duration]; these types do not normally -need to be used directly (unless implementing a derived back-end).

-

Example usage

-
-use rand::{Rng, thread_rng};
-use rand::distributions::Uniform;
-
-let mut rng = thread_rng();
-let side = Uniform::new(-10.0, 10.0);
-
-// sample between 1 and 10 points
-for _ in 0..rng.gen_range(1, 11) {
-    // sample a point from the square with sides -10 - 10 in two dimensions
-    let (x, y) = (rng.sample(side), rng.sample(side));
-    println!("Point: {}, {}", x, y);
-}
-

Extending Uniform to support a custom type

-

To extend [Uniform] to support your own types, write a back-end which -implements the UniformSampler trait, then implement the SampleUniform -helper trait to "register" your back-end. See the MyF32 example below.

-

At a minimum, the back-end needs to store any parameters needed for sampling -(e.g. the target range) and implement new, new_inclusive and sample. -Those methods should include an assert to check the range is valid (i.e. -low < high). The example below merely wraps another back-end.

-

The new, new_inclusive and sample_single functions use arguments of -type SampleBorrow in order to support passing in values by reference or -by value. In the implementation of these functions, you can choose to -simply use the reference returned by SampleBorrow::borrow, or you can choose -to copy or clone the value, whatever is appropriate for your type.

- -
-use rand::prelude::*;
-use rand::distributions::uniform::{Uniform, SampleUniform,
-        UniformSampler, UniformFloat, SampleBorrow};
-
-struct MyF32(f32);
-
-#[derive(Clone, Copy, Debug)]
-struct UniformMyF32 {
-    inner: UniformFloat<f32>,
-}
-
-impl UniformSampler for UniformMyF32 {
-    type X = MyF32;
-    fn new<B1, B2>(low: B1, high: B2) -> Self
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized
-    {
-        UniformMyF32 {
-            inner: UniformFloat::<f32>::new(low.borrow().0, high.borrow().0),
-        }
-    }
-    fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized
-    {
-        UniformSampler::new(low, high)
-    }
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
-        MyF32(self.inner.sample(rng))
-    }
-}
-
-impl SampleUniform for MyF32 {
-    type Sampler = UniformMyF32;
-}
-
-let (low, high) = (MyF32(17.0f32), MyF32(22.0f32));
-let uniform = Uniform::new(low, high);
-let x = uniform.sample(&mut thread_rng());
-

Structs

-
Uniform

Sample values uniformly between two bounds.

-
UniformDuration

The back-end implementing [UniformSampler] for Duration.

-
UniformFloat

The back-end implementing [UniformSampler] for floating-point types.

-
UniformInt

The back-end implementing [UniformSampler] for integer types.

-

Traits

-
SampleBorrow

Helper trait similar to Borrow but implemented -only for SampleUniform and references to SampleUniform in -order to resolve ambiguity issues.

-
SampleUniform

Helper trait for creating objects using the correct implementation of -[UniformSampler] for the sampling type.

-
UniformSampler

Helper trait handling actual uniform sampling.

-
\ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/sidebar-items.js b/target/doc/rand/distributions/uniform/sidebar-items.js deleted file mode 100644 index d1dbb52..0000000 --- a/target/doc/rand/distributions/uniform/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Uniform","Sample values uniformly between two bounds."],["UniformDuration","The back-end implementing [`UniformSampler`] for `Duration`."],["UniformFloat","The back-end implementing [`UniformSampler`] for floating-point types."],["UniformInt","The back-end implementing [`UniformSampler`] for integer types."]],"trait":[["SampleBorrow","Helper trait similar to [`Borrow`] but implemented only for SampleUniform and references to SampleUniform in order to resolve ambiguity issues."],["SampleUniform","Helper trait for creating objects using the correct implementation of [`UniformSampler`] for the sampling type."],["UniformSampler","Helper trait handling actual uniform sampling."]]}); \ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/struct.Uniform.html b/target/doc/rand/distributions/uniform/struct.Uniform.html deleted file mode 100644 index 2d9bab3..0000000 --- a/target/doc/rand/distributions/uniform/struct.Uniform.html +++ /dev/null @@ -1,55 +0,0 @@ -rand::distributions::uniform::Uniform - Rust

[][src]Struct rand::distributions::uniform::Uniform

pub struct Uniform<X: SampleUniform> { /* fields omitted */ }

Sample values uniformly between two bounds.

-

[Uniform::new] and [Uniform::new_inclusive] construct a uniform -distribution sampling from the given range; these functions may do extra -work up front to make sampling of multiple values faster.

-

When sampling from a constant range, many calculations can happen at -compile-time and all methods should be fast; for floating-point ranges and -the full range of integer types this should have comparable performance to -the Standard distribution.

-

Steps are taken to avoid bias which might be present in naive -implementations; for example rng.gen::<u8>() % 170 samples from the range -[0, 169] but is twice as likely to select numbers less than 85 than other -values. Further, the implementations here give more weight to the high-bits -generated by the RNG than the low bits, since with some RNGs the low-bits -are of lower quality than the high bits.

-

Implementations must sample in [low, high) range for -Uniform::new(low, high), i.e., excluding high. In particular care must -be taken to ensure that rounding never results values < low or >= high.

-

Example

-
-use rand::distributions::{Distribution, Uniform};
-
-fn main() {
-    let between = Uniform::from(10..10000);
-    let mut rng = rand::thread_rng();
-    let mut sum = 0;
-    for _ in 0..1000 {
-        sum += between.sample(&mut rng);
-    }
-    println!("{}", sum);
-}
-

Methods

impl<X: SampleUniform> Uniform<X>[src]

pub fn new<B1, B2>(low: B1, high: B2) -> Uniform<X> where
    B1: SampleBorrow<X> + Sized,
    B2: SampleBorrow<X> + Sized
[src]

Create a new Uniform instance which samples uniformly from the half -open range [low, high) (excluding high). Panics if low >= high.

-

pub fn new_inclusive<B1, B2>(low: B1, high: B2) -> Uniform<X> where
    B1: SampleBorrow<X> + Sized,
    B2: SampleBorrow<X> + Sized
[src]

Create a new Uniform instance which samples uniformly from the closed -range [low, high] (inclusive). Panics if low > high.

-

Trait Implementations

impl<X: SampleUniform> Distribution<X> for Uniform<X>[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<X: SampleUniform> From<Range<X>> for Uniform<X>[src]

impl<X: SampleUniform> From<RangeInclusive<X>> for Uniform<X>[src]

impl<X: Clone + SampleUniform> Clone for Uniform<X> where
    X::Sampler: Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<X: Copy + SampleUniform> Copy for Uniform<X> where
    X::Sampler: Copy
[src]

impl<X: Debug + SampleUniform> Debug for Uniform<X> where
    X::Sampler: Debug
[src]

Auto Trait Implementations

impl<X> Send for Uniform<X> where
    <X as SampleUniform>::Sampler: Send

impl<X> Sync for Uniform<X> where
    <X as SampleUniform>::Sampler: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/struct.UniformDuration.html b/target/doc/rand/distributions/uniform/struct.UniformDuration.html deleted file mode 100644 index 37ab81b..0000000 --- a/target/doc/rand/distributions/uniform/struct.UniformDuration.html +++ /dev/null @@ -1,25 +0,0 @@ -rand::distributions::uniform::UniformDuration - Rust

[][src]Struct rand::distributions::uniform::UniformDuration

pub struct UniformDuration { /* fields omitted */ }

The back-end implementing [UniformSampler] for Duration.

-

Unless you are implementing [UniformSampler] for your own types, this type -should not be used directly, use [Uniform] instead.

-

Trait Implementations

impl UniformSampler for UniformDuration[src]

type X = Duration

The type sampled by this implementation.

-

fn sample_single<R: Rng + ?Sized, B1, B2>(
    low: B1,
    high: B2,
    rng: &mut R
) -> Self::X where
    B1: SampleBorrow<Self::X> + Sized,
    B2: SampleBorrow<Self::X> + Sized
[src]

Sample a single value uniformly from a range with inclusive lower bound and exclusive upper bound [low, high). Read more

-

impl Clone for UniformDuration[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Copy for UniformDuration[src]

impl Debug for UniformDuration[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/struct.UniformFloat.html b/target/doc/rand/distributions/uniform/struct.UniformFloat.html deleted file mode 100644 index 2f8d726..0000000 --- a/target/doc/rand/distributions/uniform/struct.UniformFloat.html +++ /dev/null @@ -1,38 +0,0 @@ -rand::distributions::uniform::UniformFloat - Rust

[][src]Struct rand::distributions::uniform::UniformFloat

pub struct UniformFloat<X> { /* fields omitted */ }

The back-end implementing [UniformSampler] for floating-point types.

-

Unless you are implementing [UniformSampler] for your own type, this type -should not be used directly, use [Uniform] instead.

-

Implementation notes

-

Instead of generating a float in the [0, 1) range using Standard, the -UniformFloat implementation converts the output of an PRNG itself. This -way one or two steps can be optimized out.

-

The floats are first converted to a value in the [1, 2) interval using a -transmute-based method, and then mapped to the expected range with a -multiply and addition. Values produced this way have what equals 22 bits of -random digits for an f32, and 52 for an f64.

-

Trait Implementations

impl UniformSampler for UniformFloat<f32>[src]

type X = f32

The type sampled by this implementation.

-

impl UniformSampler for UniformFloat<f64>[src]

type X = f64

The type sampled by this implementation.

-

impl<X: Clone> Clone for UniformFloat<X>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<X: Copy> Copy for UniformFloat<X>[src]

impl<X: Debug> Debug for UniformFloat<X>[src]

Auto Trait Implementations

impl<X> Send for UniformFloat<X> where
    X: Send

impl<X> Sync for UniformFloat<X> where
    X: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/struct.UniformInt.html b/target/doc/rand/distributions/uniform/struct.UniformInt.html deleted file mode 100644 index 3b07a43..0000000 --- a/target/doc/rand/distributions/uniform/struct.UniformInt.html +++ /dev/null @@ -1,103 +0,0 @@ -rand::distributions::uniform::UniformInt - Rust

[][src]Struct rand::distributions::uniform::UniformInt

pub struct UniformInt<X> { /* fields omitted */ }

The back-end implementing [UniformSampler] for integer types.

-

Unless you are implementing [UniformSampler] for your own type, this type -should not be used directly, use [Uniform] instead.

-

Implementation notes

-

For simplicity, we use the same generic struct UniformInt<X> for all -integer types X. This gives us only one field type, X; to store unsigned -values of this size, we take use the fact that these conversions are no-ops.

-

For a closed range, the number of possible numbers we should generate is -range = (high - low + 1). To avoid bias, we must ensure that the size of -our sample space, zone, is a multiple of range; other values must be -rejected (by replacing with a new random sample).

-

As a special case, we use range = 0 to represent the full range of the -result type (i.e. for new_inclusive($ty::MIN, $ty::MAX)).

-

The optimum zone is the largest product of range which fits in our -(unsigned) target type. We calculate this by calculating how many numbers we -must reject: reject = (MAX + 1) % range = (MAX - range + 1) % range. Any (large) -product of range will suffice, thus in sample_single we multiply by a -power of 2 via bit-shifting (faster but may cause more rejections).

-

The smallest integer PRNGs generate is u32. For 8- and 16-bit outputs we -use u32 for our zone and samples (because it's not slower and because -it reduces the chance of having to reject a sample). In this case we cannot -store zone in the target type since it is too large, however we know -ints_to_reject < range <= $unsigned::MAX.

-

An alternative to using a modulus is widening multiply: After a widening -multiply by range, the result is in the high word. Then comparing the low -word against zone makes sure our distribution is uniform.

-

Trait Implementations

impl UniformSampler for UniformInt<i8>[src]

type X = i8

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<i16>[src]

type X = i16

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<i32>[src]

type X = i32

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<i64>[src]

type X = i64

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<i128>[src]

type X = i128

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<isize>[src]

type X = isize

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<u8>[src]

type X = u8

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<u16>[src]

type X = u16

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<u32>[src]

type X = u32

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<u64>[src]

type X = u64

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<usize>[src]

type X = usize

The type sampled by this implementation.

-

impl UniformSampler for UniformInt<u128>[src]

type X = u128

The type sampled by this implementation.

-

impl<X: Clone> Clone for UniformInt<X>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<X: Copy> Copy for UniformInt<X>[src]

impl<X: Debug> Debug for UniformInt<X>[src]

Auto Trait Implementations

impl<X> Send for UniformInt<X> where
    X: Send

impl<X> Sync for UniformInt<X> where
    X: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/trait.SampleBorrow.html b/target/doc/rand/distributions/uniform/trait.SampleBorrow.html deleted file mode 100644 index c6d96d7..0000000 --- a/target/doc/rand/distributions/uniform/trait.SampleBorrow.html +++ /dev/null @@ -1,12 +0,0 @@ -rand::distributions::uniform::SampleBorrow - Rust

[][src]Trait rand::distributions::uniform::SampleBorrow

pub trait SampleBorrow<Borrowed> {
-    fn borrow(&self) -> &Borrowed;
-}

Helper trait similar to Borrow but implemented -only for SampleUniform and references to SampleUniform in -order to resolve ambiguity issues.

-
-

Required methods

fn borrow(&self) -> &Borrowed

Immutably borrows from an owned value. See Borrow::borrow

-
Loading content... -

Implementations on Foreign Types

impl<'a, Borrowed> SampleBorrow<Borrowed> for &'a Borrowed where
    Borrowed: SampleUniform
[src]

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Implementors

impl<Borrowed> SampleBorrow<Borrowed> for Borrowed where
    Borrowed: SampleUniform
[src]

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[][src]Trait rand::distributions::uniform::SampleUniform

pub trait SampleUniform: Sized {
-    type Sampler: UniformSampler<X = Self>;
-}

Helper trait for creating objects using the correct implementation of -[UniformSampler] for the sampling type.

-

See the module documentation on how to implement [Uniform] range -sampling for a custom type.

-
-

Associated Types

type Sampler: UniformSampler<X = Self>

The UniformSampler implementation supporting type X.

-
Loading content... -

Implementations on Foreign Types

impl SampleUniform for i8[src]

impl SampleUniform for i16[src]

impl SampleUniform for i32[src]

impl SampleUniform for i64[src]

impl SampleUniform for i128[src]

impl SampleUniform for isize[src]

impl SampleUniform for u8[src]

impl SampleUniform for u16[src]

impl SampleUniform for u32[src]

impl SampleUniform for u64[src]

impl SampleUniform for usize[src]

impl SampleUniform for u128[src]

impl SampleUniform for f32[src]

impl SampleUniform for f64[src]

impl SampleUniform for Duration[src]

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Implementors

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\ No newline at end of file diff --git a/target/doc/rand/distributions/uniform/trait.UniformSampler.html b/target/doc/rand/distributions/uniform/trait.UniformSampler.html deleted file mode 100644 index 7479b55..0000000 --- a/target/doc/rand/distributions/uniform/trait.UniformSampler.html +++ /dev/null @@ -1,37 +0,0 @@ -rand::distributions::uniform::UniformSampler - Rust

[][src]Trait rand::distributions::uniform::UniformSampler

pub trait UniformSampler: Sized {
-    type X;
-    fn new<B1, B2>(low: B1, high: B2) -> Self
    where
        B1: SampleBorrow<Self::X> + Sized,
        B2: SampleBorrow<Self::X> + Sized
; -
fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
    where
        B1: SampleBorrow<Self::X> + Sized,
        B2: SampleBorrow<Self::X> + Sized
; -
fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X; - - fn sample_single<R: Rng + ?Sized, B1, B2>(
        low: B1,
        high: B2,
        rng: &mut R
    ) -> Self::X
    where
        B1: SampleBorrow<Self::X> + Sized,
        B2: SampleBorrow<Self::X> + Sized
, - { ... } -}

Helper trait handling actual uniform sampling.

-

See the module documentation on how to implement [Uniform] range -sampling for a custom type.

-

Implementation of sample_single is optional, and is only useful when -the implementation can be faster than Self::new(low, high).sample(rng).

-
-

Associated Types

type X

The type sampled by this implementation.

-
Loading content... -

Required methods

fn new<B1, B2>(low: B1, high: B2) -> Self where
    B1: SampleBorrow<Self::X> + Sized,
    B2: SampleBorrow<Self::X> + Sized

Construct self, with inclusive lower bound and exclusive upper bound -[low, high).

-

Usually users should not call this directly but instead use -Uniform::new, which asserts that low < high before calling this.

-

fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self where
    B1: SampleBorrow<Self::X> + Sized,
    B2: SampleBorrow<Self::X> + Sized

Construct self, with inclusive bounds [low, high].

-

Usually users should not call this directly but instead use -Uniform::new_inclusive, which asserts that low <= high before -calling this.

-

fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X

Sample a value.

-
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Provided methods

fn sample_single<R: Rng + ?Sized, B1, B2>(
    low: B1,
    high: B2,
    rng: &mut R
) -> Self::X where
    B1: SampleBorrow<Self::X> + Sized,
    B2: SampleBorrow<Self::X> + Sized

Sample a single value uniformly from a range with inclusive lower bound -and exclusive upper bound [low, high).

-

By default this is implemented using -UniformSampler::new(low, high).sample(rng). However, for some types -more optimal implementations for single usage may be provided via this -method (which is the case for integers and floats). -Results may not be identical.

-
Loading content... -

Implementors

impl UniformSampler for UniformDuration[src]

type X = Duration

fn sample_single<R: Rng + ?Sized, B1, B2>(
    low: B1,
    high: B2,
    rng: &mut R
) -> Self::X where
    B1: SampleBorrow<Self::X> + Sized,
    B2: SampleBorrow<Self::X> + Sized
[src]

impl UniformSampler for UniformFloat<f32>[src]

type X = f32

impl UniformSampler for UniformFloat<f64>[src]

type X = f64

impl UniformSampler for UniformInt<i128>[src]

type X = i128

impl UniformSampler for UniformInt<i16>[src]

type X = i16

impl UniformSampler for UniformInt<i32>[src]

type X = i32

impl UniformSampler for UniformInt<i64>[src]

type X = i64

impl UniformSampler for UniformInt<i8>[src]

type X = i8

impl UniformSampler for UniformInt<isize>[src]

type X = isize

impl UniformSampler for UniformInt<u128>[src]

type X = u128

impl UniformSampler for UniformInt<u16>[src]

type X = u16

impl UniformSampler for UniformInt<u32>[src]

type X = u32

impl UniformSampler for UniformInt<u64>[src]

type X = u64

impl UniformSampler for UniformInt<u8>[src]

type X = u8

impl UniformSampler for UniformInt<usize>[src]

type X = usize

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Redirecting to ../../../rand/distributions/struct.UnitCircle.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/distributions/unit_sphere/struct.UnitSphereSurface.html b/target/doc/rand/distributions/unit_sphere/struct.UnitSphereSurface.html deleted file mode 100644 index 64c37e8..0000000 --- a/target/doc/rand/distributions/unit_sphere/struct.UnitSphereSurface.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../rand/distributions/struct.UnitSphereSurface.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/distributions/weibull/struct.Weibull.html b/target/doc/rand/distributions/weibull/struct.Weibull.html deleted file mode 100644 index a89ee24..0000000 --- a/target/doc/rand/distributions/weibull/struct.Weibull.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../rand/distributions/struct.Weibull.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/alias_method/index.html b/target/doc/rand/distributions/weighted/alias_method/index.html deleted file mode 100644 index 79a31b1..0000000 --- a/target/doc/rand/distributions/weighted/alias_method/index.html +++ /dev/null @@ -1,9 +0,0 @@ -rand::distributions::weighted::alias_method - Rust

[][src]Module rand::distributions::weighted::alias_method

This module contains an implementation of alias method for sampling random -indices with probabilities proportional to a collection of weights.

-

Structs

-
WeightedIndex

A distribution using weighted sampling to pick a discretely selected item.

-

Traits

-
Weight

Trait that must be implemented for weights, that are used with -[WeightedIndex]. Currently no guarantees on the correctness of -[WeightedIndex] are given for custom implementations of this trait.

-
\ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/alias_method/sidebar-items.js b/target/doc/rand/distributions/weighted/alias_method/sidebar-items.js deleted file mode 100644 index f94db45..0000000 --- a/target/doc/rand/distributions/weighted/alias_method/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["WeightedIndex","A distribution using weighted sampling to pick a discretely selected item."]],"trait":[["Weight","Trait that must be implemented for weights, that are used with [`WeightedIndex`]. Currently no guarantees on the correctness of [`WeightedIndex`] are given for custom implementations of this trait."]]}); \ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/alias_method/struct.WeightedIndex.html b/target/doc/rand/distributions/weighted/alias_method/struct.WeightedIndex.html deleted file mode 100644 index 283be50..0000000 --- a/target/doc/rand/distributions/weighted/alias_method/struct.WeightedIndex.html +++ /dev/null @@ -1,61 +0,0 @@ -rand::distributions::weighted::alias_method::WeightedIndex - Rust

[][src]Struct rand::distributions::weighted::alias_method::WeightedIndex

pub struct WeightedIndex<W: Weight> { /* fields omitted */ }

A distribution using weighted sampling to pick a discretely selected item.

-

Sampling a WeightedIndex<W> distribution returns the index of a randomly -selected element from the vector used to create the WeightedIndex<W>. -The chance of a given element being picked is proportional to the value of -the element. The weights can have any type W for which a implementation of -Weight exists.

-

Performance

-

Given that n is the number of items in the vector used to create an -WeightedIndex<W>, WeightedIndex<W> will require O(n) amount of -memory. More specifically it takes up some constant amount of memory plus -the vector used to create it and a Vec<u32> with capacity n.

-

Time complexity for the creation of a WeightedIndex<W> is O(n). -Sampling is O(1), it makes a call to Uniform<u32>::sample and a call -to Uniform<W>::sample.

-

Example

-
-use rand::distributions::weighted::alias_method::WeightedIndex;
-use rand::prelude::*;
-
-let choices = vec!['a', 'b', 'c'];
-let weights = vec![2, 1, 1];
-let dist = WeightedIndex::new(weights).unwrap();
-let mut rng = thread_rng();
-for _ in 0..100 {
-    // 50% chance to print 'a', 25% chance to print 'b', 25% chance to print 'c'
-    println!("{}", choices[dist.sample(&mut rng)]);
-}
-
-let items = [('a', 0), ('b', 3), ('c', 7)];
-let dist2 = WeightedIndex::new(items.iter().map(|item| item.1).collect()).unwrap();
-for _ in 0..100 {
-    // 0% chance to print 'a', 30% chance to print 'b', 70% chance to print 'c'
-    println!("{}", items[dist2.sample(&mut rng)].0);
-}
-

Methods

impl<W: Weight> WeightedIndex<W>[src]

pub fn new(weights: Vec<W>) -> Result<Self, WeightedError>[src]

Creates a new [WeightedIndex].

-

Returns an error if:

-
    -
  • The vector is empty.
  • -
  • The vector is longer than u32::MAX.
  • -
  • For any weight w: w < 0 or w > max where max = W::MAX / weights.len().
  • -
  • The sum of weights is zero.
  • -
-

Trait Implementations

impl<W: Weight> Distribution<usize> for WeightedIndex<W>[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<W: Weight> Clone for WeightedIndex<W> where
    Uniform<W>: Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<W: Weight> Debug for WeightedIndex<W> where
    W: Debug,
    Uniform<W>: Debug
[src]

Auto Trait Implementations

impl<W> Send for WeightedIndex<W> where
    W: Send,
    <W as SampleUniform>::Sampler: Send

impl<W> Sync for WeightedIndex<W> where
    W: Sync,
    <W as SampleUniform>::Sampler: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/alias_method/trait.Weight.html b/target/doc/rand/distributions/weighted/alias_method/trait.Weight.html deleted file mode 100644 index 1619d3a..0000000 --- a/target/doc/rand/distributions/weighted/alias_method/trait.Weight.html +++ /dev/null @@ -1,24 +0,0 @@ -rand::distributions::weighted::alias_method::Weight - Rust

[][src]Trait rand::distributions::weighted::alias_method::Weight

pub trait Weight: Sized + Copy + SampleUniform + PartialOrd + Add<Output = Self> + AddAssign + Sub<Output = Self> + SubAssign + Mul<Output = Self> + MulAssign + Div<Output = Self> + DivAssign + Sum {
-    const MAX: Self;
-    const ZERO: Self;
-
-    fn try_from_u32_lossy(n: u32) -> Option<Self>;
-
-    fn sum(values: &[Self]) -> Self { ... }
-}

Trait that must be implemented for weights, that are used with -[WeightedIndex]. Currently no guarantees on the correctness of -[WeightedIndex] are given for custom implementations of this trait.

-
-

Associated Constants

const MAX: Self

Maximum number representable by Self.

-

const ZERO: Self

Element of Self equivalent to 0.

-
Loading content... -

Required methods

fn try_from_u32_lossy(n: u32) -> Option<Self>

Produce an instance of Self from a u32 value, or return None if -out of range. Loss of precision (where Self is a floating point type) -is acceptable.

-
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Provided methods

fn sum(values: &[Self]) -> Self

Sums all values in slice values.

-
Loading content... -

Implementations on Foreign Types

impl Weight for f64[src]

impl Weight for f32[src]

impl Weight for usize[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for u128[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for u64[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for u32[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for u16[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for u8[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for isize[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for i128[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for i64[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for i32[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for i16[src]

fn sum(values: &[Self]) -> Self[src]

impl Weight for i8[src]

fn sum(values: &[Self]) -> Self[src]

Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/enum.WeightedError.html b/target/doc/rand/distributions/weighted/enum.WeightedError.html deleted file mode 100644 index e86de0d..0000000 --- a/target/doc/rand/distributions/weighted/enum.WeightedError.html +++ /dev/null @@ -1,39 +0,0 @@ -rand::distributions::weighted::WeightedError - Rust

[][src]Enum rand::distributions::weighted::WeightedError

pub enum WeightedError {
-    NoItem,
-    InvalidWeight,
-    AllWeightsZero,
-    TooMany,
-}

Error type returned from WeightedIndex::new.

-

- Variants

-NoItem

The provided weight collection contains no items.

-
InvalidWeight

A weight is either less than zero, greater than the supported maximum or -otherwise invalid.

-
AllWeightsZero

All items in the provided weight collection are zero.

-
TooMany

Too many weights are provided (length greater than u32::MAX)

-

Trait Implementations

impl PartialEq<WeightedError> for WeightedError[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for WeightedError[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for WeightedError[src]

impl Copy for WeightedError[src]

impl Display for WeightedError[src]

impl Debug for WeightedError[src]

impl Error for WeightedError[src]

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/index.html b/target/doc/rand/distributions/weighted/index.html deleted file mode 100644 index 525421d..0000000 --- a/target/doc/rand/distributions/weighted/index.html +++ /dev/null @@ -1,16 +0,0 @@ -rand::distributions::weighted - Rust

[][src]Module rand::distributions::weighted

Weighted index sampling

-

This module provides two implementations for sampling indices:

- -

Modules

-
alias_method

This module contains an implementation of alias method for sampling random -indices with probabilities proportional to a collection of weights.

-

Structs

-
WeightedIndex

A distribution using weighted sampling to pick a discretely selected -item.

-

Enums

-
WeightedError

Error type returned from WeightedIndex::new.

-
\ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/sidebar-items.js b/target/doc/rand/distributions/weighted/sidebar-items.js deleted file mode 100644 index 874c352..0000000 --- a/target/doc/rand/distributions/weighted/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["WeightedError","Error type returned from `WeightedIndex::new`."]],"mod":[["alias_method","This module contains an implementation of alias method for sampling random indices with probabilities proportional to a collection of weights."]],"struct":[["WeightedIndex","A distribution using weighted sampling to pick a discretely selected item."]]}); \ No newline at end of file diff --git a/target/doc/rand/distributions/weighted/struct.WeightedIndex.html b/target/doc/rand/distributions/weighted/struct.WeightedIndex.html deleted file mode 100644 index f80607a..0000000 --- a/target/doc/rand/distributions/weighted/struct.WeightedIndex.html +++ /dev/null @@ -1,66 +0,0 @@ -rand::distributions::weighted::WeightedIndex - Rust

[][src]Struct rand::distributions::weighted::WeightedIndex

pub struct WeightedIndex<X: SampleUniform + PartialOrd> { /* fields omitted */ }

A distribution using weighted sampling to pick a discretely selected -item.

-

Sampling a WeightedIndex distribution returns the index of a randomly -selected element from the iterator used when the WeightedIndex was -created. The chance of a given element being picked is proportional to the -value of the element. The weights can use any type X for which an -implementation of Uniform<X> exists.

-

Performance

-

A WeightedIndex<X> contains a Vec<X> and a Uniform<X> and so its -size is the sum of the size of those objects, possibly plus some alignment.

-

Creating a WeightedIndex<X> will allocate enough space to hold N - 1 -weights of type X, where N is the number of weights. However, since -Vec doesn't guarantee a particular growth strategy, additional memory -might be allocated but not used. Since the WeightedIndex object also -contains, this might cause additional allocations, though for primitive -types, ['Uniform`] doesn't allocate any memory.

-

Time complexity of sampling from WeightedIndex is O(log N) where -N is the number of weights.

-

Sampling from WeightedIndex will result in a single call to -Uniform<X>::sample (method of the [Distribution] trait), which typically -will request a single value from the underlying RngCore, though the -exact number depends on the implementaiton of Uniform<X>::sample.

-

Example

-
-use rand::prelude::*;
-use rand::distributions::WeightedIndex;
-
-let choices = ['a', 'b', 'c'];
-let weights = [2,   1,   1];
-let dist = WeightedIndex::new(&weights).unwrap();
-let mut rng = thread_rng();
-for _ in 0..100 {
-    // 50% chance to print 'a', 25% chance to print 'b', 25% chance to print 'c'
-    println!("{}", choices[dist.sample(&mut rng)]);
-}
-
-let items = [('a', 0), ('b', 3), ('c', 7)];
-let dist2 = WeightedIndex::new(items.iter().map(|item| item.1)).unwrap();
-for _ in 0..100 {
-    // 0% chance to print 'a', 30% chance to print 'b', 70% chance to print 'c'
-    println!("{}", items[dist2.sample(&mut rng)].0);
-}
-

Methods

impl<X: SampleUniform + PartialOrd> WeightedIndex<X>[src]

pub fn new<I>(weights: I) -> Result<WeightedIndex<X>, WeightedError> where
    I: IntoIterator,
    I::Item: SampleBorrow<X>,
    X: for<'a> AddAssign<&'a X> + Clone + Default
[src]

Creates a new a WeightedIndex [Distribution] using the values -in weights. The weights can use any type X for which an -implementation of Uniform<X> exists.

-

Returns an error if the iterator is empty, if any weight is < 0, or -if its total value is 0.

-

Trait Implementations

impl<X> Distribution<usize> for WeightedIndex<X> where
    X: SampleUniform + PartialOrd
[src]

Important traits for DistIter<D, R, T>
fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T> where
    R: Rng,
    Self: Sized
[src]

Create an iterator that generates random values of T, using rng as the source of randomness. Read more

-

impl<X: Clone + SampleUniform + PartialOrd> Clone for WeightedIndex<X> where
    X::Sampler: Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<X: Debug + SampleUniform + PartialOrd> Debug for WeightedIndex<X> where
    X::Sampler: Debug
[src]

Auto Trait Implementations

impl<X> Send for WeightedIndex<X> where
    X: Send,
    <X as SampleUniform>::Sampler: Send

impl<X> Sync for WeightedIndex<X> where
    X: Sync,
    <X as SampleUniform>::Sampler: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/fn.random.html b/target/doc/rand/fn.random.html deleted file mode 100644 index 128249e..0000000 --- a/target/doc/rand/fn.random.html +++ /dev/null @@ -1,35 +0,0 @@ -rand::random - Rust

[][src]Function rand::random

pub fn random<T>() -> T where
    Standard: Distribution<T>, 

Generates a random value using the thread-local random number generator.

-

This is simply a shortcut for thread_rng().gen(). See [thread_rng] for -documentation of the entropy source and Standard for documentation of -distributions and type-specific generation.

-

Examples

-
-let x = rand::random::<u8>();
-println!("{}", x);
-
-let y = rand::random::<f64>();
-println!("{}", y);
-
-if rand::random() { // generates a boolean
-    println!("Better lucky than good!");
-}
-

If you're calling random() in a loop, caching the generator as in the -following example can increase performance.

- -
-use rand::Rng;
-
-let mut v = vec![1, 2, 3];
-
-for x in v.iter_mut() {
-    *x = rand::random()
-}
-
-// can be made faster by caching thread_rng
-
-let mut rng = rand::thread_rng();
-
-for x in v.iter_mut() {
-    *x = rng.gen();
-}
-
\ No newline at end of file diff --git a/target/doc/rand/fn.thread_rng.html b/target/doc/rand/fn.thread_rng.html deleted file mode 100644 index 862bc51..0000000 --- a/target/doc/rand/fn.thread_rng.html +++ /dev/null @@ -1,7 +0,0 @@ -rand::thread_rng - Rust

[][src]Function rand::thread_rng

pub fn thread_rng() -> ThreadRng

Retrieve the lazily-initialized thread-local random number generator, -seeded by the system. Intended to be used in method chaining style, -e.g. thread_rng().gen::<i32>(), or cached locally, e.g. -let mut rng = thread_rng();. Invoked by the Default trait, making -ThreadRng::default() equivalent.

-

For more information see [ThreadRng].

-
\ No newline at end of file diff --git a/target/doc/rand/index.html b/target/doc/rand/index.html deleted file mode 100644 index 07640e8..0000000 --- a/target/doc/rand/index.html +++ /dev/null @@ -1,49 +0,0 @@ -rand - Rust

[][src]Crate rand

Utilities for random number generation

-

Rand provides utilities to generate random numbers, to convert them to -useful types and distributions, and some randomness-related algorithms.

-

Quick Start

-

To get you started quickly, the easiest and highest-level way to get -a random value is to use [random()]; alternatively you can use -[thread_rng()]. The [Rng] trait provides a useful API on all RNGs, while -the [distributions] and [seq] modules provide further -functionality on top of RNGs.

- -
-use rand::prelude::*;
-
-if rand::random() { // generates a boolean
-    // Try printing a random unicode code point (probably a bad idea)!
-    println!("char: {}", rand::random::<char>());
-}
-
-let mut rng = rand::thread_rng();
-let y: f64 = rng.gen(); // generates a float between 0 and 1
-
-let mut nums: Vec<i32> = (1..100).collect();
-nums.shuffle(&mut rng);
-

The Book

-

For the user guide and futher documentation, please read -The Rust Rand Book.

-

Modules

-
distributions

Generating random samples from probability distributions

-
prelude

Convenience re-export of common members

-
rngs

Random number generators and adapters

-
seq

Sequence-related functionality

-

Structs

-
Error

Error type of random number generators

-

Traits

-
AsByteSliceMut

Trait for casting types to byte slices

-
CryptoRng

A marker trait used to indicate that an [RngCore] or BlockRngCore -implementation is supposed to be cryptographically secure.

-
Rng

An automatically-implemented extension trait on [RngCore] providing high-level -generic methods for sampling values and other convenience methods.

-
RngCore

The core of a random number generator.

-
SeedableRng

A random number generator that can be explicitly seeded.

-

Functions

-
random

Generates a random value using the thread-local random number generator.

-
thread_rng

Retrieve the lazily-initialized thread-local random number generator, -seeded by the system. Intended to be used in method chaining style, -e.g. thread_rng().gen::<i32>(), or cached locally, e.g. -let mut rng = thread_rng();. Invoked by the Default trait, making -ThreadRng::default() equivalent.

-
\ No newline at end of file diff --git a/target/doc/rand/prelude/index.html b/target/doc/rand/prelude/index.html deleted file mode 100644 index ed94af5..0000000 --- a/target/doc/rand/prelude/index.html +++ /dev/null @@ -1,9 +0,0 @@ -rand::prelude - Rust

[][src]Module rand::prelude

Convenience re-export of common members

-

Like the standard library's prelude, this module simplifies importing of -common items. Unlike the standard prelude, the contents of this module must -be imported manually:

- -
-use rand::prelude::*;
-

Re-exports

-
pub use crate::distributions::Distribution;
pub use crate::rngs::StdRng;
pub use crate::rngs::ThreadRng;
pub use crate::Rng;
pub use crate::RngCore;
pub use crate::CryptoRng;
pub use crate::SeedableRng;
pub use crate::random;
pub use crate::thread_rng;
pub use crate::seq::SliceRandom;
pub use crate::seq::IteratorRandom;
\ No newline at end of file diff --git a/target/doc/rand/prelude/sidebar-items.js b/target/doc/rand/prelude/sidebar-items.js deleted file mode 100644 index 48333d3..0000000 --- a/target/doc/rand/prelude/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({}); \ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/index.html b/target/doc/rand/rngs/adapter/index.html deleted file mode 100644 index f8d7cc2..0000000 --- a/target/doc/rand/rngs/adapter/index.html +++ /dev/null @@ -1,8 +0,0 @@ -rand::rngs::adapter - Rust

[][src]Module rand::rngs::adapter

Wrappers / adapters forming RNGs

-

Structs

-
ReadError

ReadRng error type

-
ReadRng

An RNG that reads random bytes straight from any type supporting -[std::io::Read], for example files.

-
ReseedingRng

A wrapper around any PRNG that implements BlockRngCore, that adds the -ability to reseed it.

-
\ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/read/struct.ReadError.html b/target/doc/rand/rngs/adapter/read/struct.ReadError.html deleted file mode 100644 index a924427..0000000 --- a/target/doc/rand/rngs/adapter/read/struct.ReadError.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../../rand/rngs/adapter/struct.ReadError.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/read/struct.ReadRng.html b/target/doc/rand/rngs/adapter/read/struct.ReadRng.html deleted file mode 100644 index 47beefd..0000000 --- a/target/doc/rand/rngs/adapter/read/struct.ReadRng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../../rand/rngs/adapter/struct.ReadRng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/reseeding/struct.ReseedingRng.html b/target/doc/rand/rngs/adapter/reseeding/struct.ReseedingRng.html deleted file mode 100644 index ab23f15..0000000 --- a/target/doc/rand/rngs/adapter/reseeding/struct.ReseedingRng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../../rand/rngs/adapter/struct.ReseedingRng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/sidebar-items.js b/target/doc/rand/rngs/adapter/sidebar-items.js deleted file mode 100644 index 9158072..0000000 --- a/target/doc/rand/rngs/adapter/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["ReadError","`ReadRng` error type"],["ReadRng","An RNG that reads random bytes straight from any type supporting [`std::io::Read`], for example files."],["ReseedingRng","A wrapper around any PRNG that implements [`BlockRngCore`], that adds the ability to reseed it."]]}); \ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/struct.ReadError.html b/target/doc/rand/rngs/adapter/struct.ReadError.html deleted file mode 100644 index 0853c86..0000000 --- a/target/doc/rand/rngs/adapter/struct.ReadError.html +++ /dev/null @@ -1,18 +0,0 @@ -rand::rngs::adapter::ReadError - Rust

[][src]Struct rand::rngs::adapter::ReadError

pub struct ReadError(_);

ReadRng error type

-

Trait Implementations

impl Display for ReadError[src]

impl Debug for ReadError[src]

impl Error for ReadError[src]

fn description(&self) -> &str1.0.0[src]

This method is soft-deprecated. Read more

-

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

Auto Trait Implementations

impl Send for ReadError

impl Sync for ReadError

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/struct.ReadRng.html b/target/doc/rand/rngs/adapter/struct.ReadRng.html deleted file mode 100644 index de9669c..0000000 --- a/target/doc/rand/rngs/adapter/struct.ReadRng.html +++ /dev/null @@ -1,42 +0,0 @@ -rand::rngs::adapter::ReadRng - Rust

[][src]Struct rand::rngs::adapter::ReadRng

pub struct ReadRng<R> { /* fields omitted */ }

An RNG that reads random bytes straight from any type supporting -[std::io::Read], for example files.

-

This will work best with an infinite reader, but that is not required.

-

This can be used with /dev/urandom on Unix but it is recommended to use -OsRng instead.

-

Panics

-

ReadRng uses [std::io::Read::read_exact], which retries on interrupts. -All other errors from the underlying reader, including when it does not -have enough data, will only be reported through try_fill_bytes. -The other [RngCore] methods will panic in case of an error.

-

Example

-
-use rand::Rng;
-use rand::rngs::adapter::ReadRng;
-
-let data = vec![1, 2, 3, 4, 5, 6, 7, 8];
-let mut rng = ReadRng::new(&data[..]);
-println!("{:x}", rng.gen::<u32>());
-

Methods

impl<R: Read> ReadRng<R>[src]

pub fn new(r: R) -> ReadRng<R>[src]

Create a new ReadRng from a Read.

-

Trait Implementations

impl<R: Debug> Debug for ReadRng<R>[src]

impl<R: Read> RngCore for ReadRng<R>[src]

Auto Trait Implementations

impl<R> Send for ReadRng<R> where
    R: Send

impl<R> Sync for ReadRng<R> where
    R: Sync

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/adapter/struct.ReseedingRng.html b/target/doc/rand/rngs/adapter/struct.ReseedingRng.html deleted file mode 100644 index 5ba0eca..0000000 --- a/target/doc/rand/rngs/adapter/struct.ReseedingRng.html +++ /dev/null @@ -1,81 +0,0 @@ -rand::rngs::adapter::ReseedingRng - Rust

[][src]Struct rand::rngs::adapter::ReseedingRng

pub struct ReseedingRng<R, Rsdr>(_)
where
    R: BlockRngCore + SeedableRng,
    Rsdr: RngCore
;

A wrapper around any PRNG that implements BlockRngCore, that adds the -ability to reseed it.

-

ReseedingRng reseeds the underlying PRNG in the following cases:

-
    -
  • On a manual call to reseed().
  • -
  • After clone(), the clone will be reseeded on first use.
  • -
  • After a process is forked, the RNG in the child process is reseeded within -the next few generated values, depending on the block size of the -underlying PRNG. For ChaCha and Hc128 this is a maximum of -15 u32 values before reseeding.
  • -
  • After the PRNG has generated a configurable number of random bytes.
  • -
-

When should reseeding after a fixed number of generated bytes be used?

-

Reseeding after a fixed number of generated bytes is never strictly -necessary. Cryptographic PRNGs don't have a limited number of bytes they -can output, or at least not a limit reachable in any practical way. There is -no such thing as 'running out of entropy'.

-

Occasionally reseeding can be seen as some form of 'security in depth'. Even -if in the future a cryptographic weakness is found in the CSPRNG being used, -or a flaw in the implementation, occasionally reseeding should make -exploiting it much more difficult or even impossible.

-

Use ReseedingRng::new with a threshold of 0 to disable reseeding -after a fixed number of generated bytes.

-

Error handling

-

Although unlikely, reseeding the wrapped PRNG can fail. ReseedingRng will -never panic but try to handle the error intelligently through some -combination of retrying and delaying reseeding until later. -If handling the source error fails ReseedingRng will continue generating -data from the wrapped PRNG without reseeding.

-

Manually calling reseed() will not have this retry or delay logic, but -reports the error.

-

Example

-
-use rand::prelude::*;
-use rand_chacha::ChaCha20Core; // Internal part of ChaChaRng that
-                             // implements BlockRngCore
-use rand::rngs::OsRng;
-use rand::rngs::adapter::ReseedingRng;
-
-let prng = ChaCha20Core::from_entropy();
-let mut reseeding_rng = ReseedingRng::new(prng, 0, OsRng);
-
-println!("{}", reseeding_rng.gen::<u64>());
-
-let mut cloned_rng = reseeding_rng.clone();
-assert!(reseeding_rng.gen::<u64>() != cloned_rng.gen::<u64>());
-

Methods

impl<R, Rsdr> ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng,
    Rsdr: RngCore
[src]

pub fn new(rng: R, threshold: u64, reseeder: Rsdr) -> Self[src]

Create a new ReseedingRng from an existing PRNG, combined with a RNG -to use as reseeder.

-

threshold sets the number of generated bytes after which to reseed the -PRNG. Set it to zero to never reseed based on the number of generated -values.

-

pub fn reseed(&mut self) -> Result<(), Error>[src]

Reseed the internal PRNG.

-

Trait Implementations

impl<R, Rsdr> Clone for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng + Clone,
    Rsdr: RngCore + Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<R: Debug, Rsdr: Debug> Debug for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng,
    Rsdr: RngCore
[src]

impl<R, Rsdr: RngCore> RngCore for ReseedingRng<R, Rsdr> where
    R: BlockRngCore<Item = u32> + SeedableRng,
    <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>, 
[src]

impl<R, Rsdr> CryptoRng for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng + CryptoRng,
    Rsdr: RngCore + CryptoRng
[src]

Auto Trait Implementations

impl<R, Rsdr> Send for ReseedingRng<R, Rsdr> where
    R: Send,
    Rsdr: Send,
    <R as BlockRngCore>::Results: Send

impl<R, Rsdr> Sync for ReseedingRng<R, Rsdr> where
    R: Sync,
    Rsdr: Sync,
    <R as BlockRngCore>::Results: Sync

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/entropy/struct.EntropyRng.html b/target/doc/rand/rngs/entropy/struct.EntropyRng.html deleted file mode 100644 index 62bf6c7..0000000 --- a/target/doc/rand/rngs/entropy/struct.EntropyRng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../rand/rngs/struct.EntropyRng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/index.html b/target/doc/rand/rngs/index.html deleted file mode 100644 index cb32293..0000000 --- a/target/doc/rand/rngs/index.html +++ /dev/null @@ -1,82 +0,0 @@ -rand::rngs - Rust

[][src]Module rand::rngs

Random number generators and adapters

-

Background: Random number generators (RNGs)

-

Computers cannot produce random numbers from nowhere. We classify -random number generators as follows:

-
    -
  • "True" random number generators (TRNGs) use hard-to-predict data sources -(e.g. the high-resolution parts of event timings and sensor jitter) to -harvest random bit-sequences, apply algorithms to remove bias and -estimate available entropy, then combine these bits into a byte-sequence -or an entropy pool. This job is usually done by the operating system or -a hardware generator (HRNG).
  • -
  • "Pseudo"-random number generators (PRNGs) use algorithms to transform a -seed into a sequence of pseudo-random numbers. These generators can be -fast and produce well-distributed unpredictable random numbers (or not). -They are usually deterministic: given algorithm and seed, the output -sequence can be reproduced. They have finite period and eventually loop; -with many algorithms this period is fixed and can be proven sufficiently -long, while others are chaotic and the period depends on the seed.
  • -
  • "Cryptographically secure" pseudo-random number generators (CSPRNGs) -are the sub-set of PRNGs which are secure. Security of the generator -relies both on hiding the internal state and using a strong algorithm.
  • -
-

Traits and functionality

-

All RNGs implement the [RngCore] trait, as a consequence of which the -[Rng] extension trait is automatically implemented. Secure RNGs may -additionally implement the [CryptoRng] trait.

-

All PRNGs require a seed to produce their random number sequence. The -[SeedableRng] trait provides three ways of constructing PRNGs:

-
    -
  • from_seed accepts a type specific to the PRNG
  • -
  • from_rng allows a PRNG to be seeded from any other RNG
  • -
  • seed_from_u64 allows any PRNG to be seeded from a u64 insecurely
  • -
  • from_entropy securely seeds a PRNG from fresh entropy
  • -
-

Use the [rand_core] crate when implementing your own RNGs.

-

Our generators

-

This crate provides several random number generators:

-
    -
  • OsRng is an interface to the operating system's random number -source. Typically the operating system uses a CSPRNG with entropy -provided by a TRNG and some type of on-going re-seeding.
  • -
  • ThreadRng, provided by the [thread_rng] function, is a handle to a -thread-local CSPRNG with periodic seeding from OsRng. Because this -is local, it is typically much faster than OsRng. It should be -secure, though the paranoid may prefer OsRng.
  • -
  • StdRng is a CSPRNG chosen for good performance and trust of security -(based on reviews, maturity and usage). The current algorithm is ChaCha20, -which is well established and rigorously analysed. -StdRng provides the algorithm used by ThreadRng but without -periodic reseeding.
  • -
  • SmallRng is an insecure PRNG designed to be fast, simple, require -little memory, and have good output quality.
  • -
-

The algorithms selected for StdRng and SmallRng may change in any -release and may be platform-dependent, therefore they should be considered -not reproducible.

-

Additional generators

-

TRNGs: The rdrand crate provides an interface to the RDRAND and -RDSEED instructions available in modern Intel and AMD CPUs. -The rand_jitter crate provides a user-space implementation of -entropy harvesting from CPU timer jitter, but is very slow and has -security issues.

-

PRNGs: Several companion crates are available, providing individual or -families of PRNG algorithms. These provide the implementations behind -StdRng and SmallRng but can also be used directly, indeed should -be used directly when reproducibility matters. -Some suggestions are: rand_chacha, rand_pcg, rand_xoshiro. -A full list can be found by searching for crates with the rng tag.

-

Modules

-
adapter

Wrappers / adapters forming RNGs

-
mock

Mock random number generator

-

Structs

-
EntropyRngDeprecated

An interface returning random data from external source(s), provided -specifically for securely seeding algorithmic generators (PRNGs).

-
OsRng

A random number generator that retrieves randomness from from the -operating system.

-
StdRng

The standard RNG. The PRNG algorithm in StdRng is chosen to be efficient -on the current platform, to be statistically strong and unpredictable -(meaning a cryptographically secure PRNG).

-
ThreadRng

The type returned by [thread_rng], essentially just a reference to the -PRNG in thread-local memory.

-
\ No newline at end of file diff --git a/target/doc/rand/rngs/mock/index.html b/target/doc/rand/rngs/mock/index.html deleted file mode 100644 index 75b9096..0000000 --- a/target/doc/rand/rngs/mock/index.html +++ /dev/null @@ -1,4 +0,0 @@ -rand::rngs::mock - Rust

[][src]Module rand::rngs::mock

Mock random number generator

-

Structs

-
StepRng

A simple implementation of RngCore for testing purposes.

-
\ No newline at end of file diff --git a/target/doc/rand/rngs/mock/sidebar-items.js b/target/doc/rand/rngs/mock/sidebar-items.js deleted file mode 100644 index aca61f8..0000000 --- a/target/doc/rand/rngs/mock/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["StepRng","A simple implementation of `RngCore` for testing purposes."]]}); \ No newline at end of file diff --git a/target/doc/rand/rngs/mock/struct.StepRng.html b/target/doc/rand/rngs/mock/struct.StepRng.html deleted file mode 100644 index 6af4448..0000000 --- a/target/doc/rand/rngs/mock/struct.StepRng.html +++ /dev/null @@ -1,43 +0,0 @@ -rand::rngs::mock::StepRng - Rust

[][src]Struct rand::rngs::mock::StepRng

pub struct StepRng { /* fields omitted */ }

A simple implementation of RngCore for testing purposes.

-

This generates an arithmetic sequence (i.e. adds a constant each step) -over a u64 number, using wrapping arithmetic. If the increment is 0 -the generator yields a constant.

- -
-use rand::Rng;
-use rand::rngs::mock::StepRng;
- 
-let mut my_rng = StepRng::new(2, 1);
-let sample: [u64; 3] = my_rng.gen();
-assert_eq!(sample, [2, 3, 4]);
-

Methods

impl StepRng[src]

pub fn new(initial: u64, increment: u64) -> Self[src]

Create a StepRng, yielding an arithmetic sequence starting with -initial and incremented by increment each time.

-

Trait Implementations

impl Clone for StepRng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for StepRng[src]

impl RngCore for StepRng[src]

Auto Trait Implementations

impl Send for StepRng

impl Sync for StepRng

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/os/struct.OsRng.html b/target/doc/rand/rngs/os/struct.OsRng.html deleted file mode 100644 index 52105c6..0000000 --- a/target/doc/rand/rngs/os/struct.OsRng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../rand/rngs/struct.OsRng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/sidebar-items.js b/target/doc/rand/rngs/sidebar-items.js deleted file mode 100644 index 59219a0..0000000 --- a/target/doc/rand/rngs/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"mod":[["adapter","Wrappers / adapters forming RNGs"],["mock","Mock random number generator"]],"struct":[["EntropyRng","An interface returning random data from external source(s), provided specifically for securely seeding algorithmic generators (PRNGs)."],["OsRng","A random number generator that retrieves randomness from from the operating system."],["StdRng","The standard RNG. The PRNG algorithm in `StdRng` is chosen to be efficient on the current platform, to be statistically strong and unpredictable (meaning a cryptographically secure PRNG)."],["ThreadRng","The type returned by [`thread_rng`], essentially just a reference to the PRNG in thread-local memory."]]}); \ No newline at end of file diff --git a/target/doc/rand/rngs/std/struct.StdRng.html b/target/doc/rand/rngs/std/struct.StdRng.html deleted file mode 100644 index 563af84..0000000 --- a/target/doc/rand/rngs/std/struct.StdRng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../rand/rngs/struct.StdRng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/struct.EntropyRng.html b/target/doc/rand/rngs/struct.EntropyRng.html deleted file mode 100644 index 7418278..0000000 --- a/target/doc/rand/rngs/struct.EntropyRng.html +++ /dev/null @@ -1,32 +0,0 @@ -rand::rngs::EntropyRng - Rust

[][src]Struct rand::rngs::EntropyRng

pub struct EntropyRng { /* fields omitted */ }
Deprecated since 0.7.0:

use rngs::OsRng instead

-

An interface returning random data from external source(s), provided -specifically for securely seeding algorithmic generators (PRNGs).

-

This is deprecated. It is suggested you use rngs::OsRng instead.

-

Methods

impl EntropyRng[src]

pub fn new() -> Self[src]

Create a new EntropyRng.

-

This method will do no system calls or other initialization routines, -those are done on first use. This is done to make new infallible, -and try_fill_bytes the only place to report errors.

-

Trait Implementations

impl Default for EntropyRng[src]

impl Debug for EntropyRng[src]

impl RngCore for EntropyRng[src]

impl CryptoRng for EntropyRng[src]

Auto Trait Implementations

impl Send for EntropyRng

impl Sync for EntropyRng

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/struct.OsRng.html b/target/doc/rand/rngs/struct.OsRng.html deleted file mode 100644 index 35916ce..0000000 --- a/target/doc/rand/rngs/struct.OsRng.html +++ /dev/null @@ -1,57 +0,0 @@ -rand::rngs::OsRng - Rust

[][src]Struct rand::rngs::OsRng

pub struct OsRng;

A random number generator that retrieves randomness from from the -operating system.

-

This is a zero-sized struct. It can be freely constructed with OsRng.

-

The implementation is provided by the getrandom crate. Refer to -getrandom documentation for details.

-

Blocking and error handling

-

It is possible that when used during early boot the first call to OsRng -will block until the system's RNG is initialised. It is also possible -(though highly unlikely) for OsRng to fail on some platforms, most -likely due to system mis-configuration.

-

After the first successful call, it is highly unlikely that failures or -significant delays will occur (although performance should be expected to -be much slower than a user-space PRNG).

-

Usage example

-
-use rand::rngs::{StdRng, OsRng};
-use rand::{RngCore, SeedableRng};
-
-let mut key = [0u8; 16];
-OsRng.fill_bytes(&mut key);
-let random_u64 = OsRng.next_u64();
- 
-// OsRng is especially useful for seeding other RNGs (see also from_entropy)
-let mut rng = StdRng::from_rng(OsRng).unwrap();
-let _ = rng.next_u32();
-

Methods

impl OsRng[src]

pub fn new() -> Result<OsRng, Error>[src]

Deprecated since 0.7.0:

replace OsRng::new().unwrap() with just OsRng

-

Create a new OsRng.

-

Trait Implementations

impl Clone for OsRng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for OsRng[src]

impl Copy for OsRng[src]

impl Debug for OsRng[src]

impl RngCore for OsRng[src]

impl CryptoRng for OsRng[src]

Auto Trait Implementations

impl Send for OsRng

impl Sync for OsRng

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/struct.StdRng.html b/target/doc/rand/rngs/struct.StdRng.html deleted file mode 100644 index 273e09b..0000000 --- a/target/doc/rand/rngs/struct.StdRng.html +++ /dev/null @@ -1,45 +0,0 @@ -rand::rngs::StdRng - Rust

[][src]Struct rand::rngs::StdRng

pub struct StdRng(_);

The standard RNG. The PRNG algorithm in StdRng is chosen to be efficient -on the current platform, to be statistically strong and unpredictable -(meaning a cryptographically secure PRNG).

-

The current algorithm used is the ChaCha block cipher with either 20 or 12 -rounds (see the stdrng_* feature flags, documented in the README). -This may change as new evidence of cipher security and performance -becomes available.

-

The algorithm is deterministic but should not be considered reproducible -due to dependence on configuration and possible replacement in future -library versions. For a secure reproducible generator, we recommend use of -the rand_chacha crate directly.

-

Trait Implementations

impl Clone for StdRng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for StdRng[src]

impl RngCore for StdRng[src]

impl CryptoRng for StdRng[src]

impl SeedableRng for StdRng[src]

type Seed = <Rng as SeedableRng>::Seed

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

impl Send for StdRng

impl Sync for StdRng

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/rngs/struct.ThreadRng.html b/target/doc/rand/rngs/struct.ThreadRng.html deleted file mode 100644 index cbc483b..0000000 --- a/target/doc/rand/rngs/struct.ThreadRng.html +++ /dev/null @@ -1,41 +0,0 @@ -rand::rngs::ThreadRng - Rust

[][src]Struct rand::rngs::ThreadRng

pub struct ThreadRng { /* fields omitted */ }

The type returned by [thread_rng], essentially just a reference to the -PRNG in thread-local memory.

-

ThreadRng uses the same PRNG as StdRng for security and performance. -As hinted by the name, the generator is thread-local. ThreadRng is a -handle to this generator and thus supports Copy, but not Send or Sync.

-

Unlike StdRng, ThreadRng uses the ReseedingRng wrapper to reseed -the PRNG from fresh entropy every 64 kiB of random data. -[OsRng] is used to provide seed data.

-

Note that the reseeding is done as an extra precaution against side-channel -attacks and mis-use (e.g. if somehow weak entropy were supplied initially). -The PRNG algorithms used are assumed to be secure.

-

Trait Implementations

impl Clone for ThreadRng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for ThreadRng[src]

impl Copy for ThreadRng[src]

impl Debug for ThreadRng[src]

impl RngCore for ThreadRng[src]

impl CryptoRng for ThreadRng[src]

Auto Trait Implementations

impl !Send for ThreadRng

impl !Sync for ThreadRng

Blanket Implementations

impl<R> Rng for R where
    R: RngCore + ?Sized
[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

Return a random value supporting the [Standard] distribution. Read more

-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

Generate a random value in the range [low, high), i.e. inclusive of low and exclusive of high. Read more

-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Sample a new value, using the given distribution. Read more

-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

Create an iterator that generates values using the given distribution. Read more

-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

Fill dest entirely with random bytes (uniform value distribution), where dest is any type supporting [AsByteSliceMut], namely slices and arrays over primitive integer types (i8, i16, u32, etc.). Read more

-

fn gen_bool(&mut self, p: f64) -> bool[src]

Return a bool with a probability p of being true. Read more

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

Return a bool with a probability of numerator/denominator of being true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of returning true. If numerator == denominator, then the returned value is guaranteed to be true. If numerator == 0, then the returned value is guaranteed to be false. Read more

-

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

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Redirecting to ../../../rand/fn.thread_rng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/rngs/thread/struct.ThreadRng.html b/target/doc/rand/rngs/thread/struct.ThreadRng.html deleted file mode 100644 index 11702f7..0000000 --- a/target/doc/rand/rngs/thread/struct.ThreadRng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../rand/rngs/struct.ThreadRng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand/seq/index.html b/target/doc/rand/seq/index.html deleted file mode 100644 index 7942b77..0000000 --- a/target/doc/rand/seq/index.html +++ /dev/null @@ -1,24 +0,0 @@ -rand::seq - Rust

[][src]Module rand::seq

Sequence-related functionality

-

This module provides:

-
    -
  • [seq::SliceRandom] slice sampling and mutation
  • -
  • [seq::IteratorRandom] iterator sampling
  • -
  • [seq::index::sample] low-level API to choose multiple indices from -0..length
  • -
-

Also see:

-
    -
  • [distributions::weighted] module which provides implementations of -weighted index sampling.
  • -
-

In order to make results reproducible across 32-64 bit architectures, all -usize indices are sampled as a u32 where possible (also providing a -small performance boost in some cases).

-

Modules

-
index

Low-level API for sampling indices

-

Structs

-
SliceChooseIter

An iterator over multiple slice elements.

-

Traits

-
IteratorRandom

Extension trait on iterators, providing random sampling methods.

-
SliceRandom

Extension trait on slices, providing random mutation and sampling methods.

-
\ No newline at end of file diff --git a/target/doc/rand/seq/index/enum.IndexVec.html b/target/doc/rand/seq/index/enum.IndexVec.html deleted file mode 100644 index c2fa427..0000000 --- a/target/doc/rand/seq/index/enum.IndexVec.html +++ /dev/null @@ -1,33 +0,0 @@ -rand::seq::index::IndexVec - Rust

[][src]Enum rand::seq::index::IndexVec

pub enum IndexVec {
-    // some variants omitted
-}

A vector of indices.

-

Multiple internal representations are possible.

-

Methods

impl IndexVec[src]

pub fn len(&self) -> usize[src]

Returns the number of indices

-

pub fn index(&self, index: usize) -> usize[src]

Return the value at the given index.

-

(Note: we cannot implement [std::ops::Index] because of lifetime -restrictions.)

-

pub fn into_vec(self) -> Vec<usize>[src]

Return result as a Vec<usize>. Conversion may or may not be trivial.

-

Important traits for IndexVecIter<'a>
pub fn iter<'a>(&'a self) -> IndexVecIter<'a>[src]

Iterate over the indices as a sequence of usize values

-

Important traits for IndexVecIntoIter
pub fn into_iter(self) -> IndexVecIntoIter[src]

Convert into an iterator over the indices as a sequence of usize values

-

Trait Implementations

impl PartialEq<IndexVec> for IndexVec[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl From<Vec<u32>> for IndexVec[src]

impl From<Vec<usize>> for IndexVec[src]

impl Clone for IndexVec[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for IndexVec[src]

Auto Trait Implementations

impl Send for IndexVec

impl Sync for IndexVec

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/seq/index/enum.IndexVecIntoIter.html b/target/doc/rand/seq/index/enum.IndexVecIntoIter.html deleted file mode 100644 index 9f7c345..0000000 --- a/target/doc/rand/seq/index/enum.IndexVecIntoIter.html +++ /dev/null @@ -1,92 +0,0 @@ -rand::seq::index::IndexVecIntoIter - Rust

[][src]Enum rand::seq::index::IndexVecIntoIter

pub enum IndexVecIntoIter {
-    // some variants omitted
-}

Return type of IndexVec::into_iter.

-

Trait Implementations

impl Iterator for IndexVecIntoIter[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl Clone for IndexVecIntoIter[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl ExactSizeIterator for IndexVecIntoIter[src]

fn len(&self) -> usize1.0.0[src]

Returns the exact number of times the iterator will iterate. Read more

-

fn is_empty(&self) -> bool[src]

🔬 This is a nightly-only experimental API. (exact_size_is_empty)

Returns true if the iterator is empty. Read more

-

impl Debug for IndexVecIntoIter[src]

Auto Trait Implementations

Blanket Implementations

impl<I> IteratorRandom for I where
    I: Iterator
[src]

fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item> where
    R: Rng
[src]

Choose one element at random from the iterator. Read more

-

fn choose_multiple_fill<R: ?Sized>(
    self,
    rng: &mut R,
    buf: &mut [Self::Item]
) -> usize where
    R: Rng
[src]

Collects values at random from the iterator into a supplied buffer until that buffer is filled. Read more

-

fn choose_multiple<R: ?Sized>(
    self,
    rng: &mut R,
    amount: usize
) -> Vec<Self::Item> where
    R: Rng
[src]

Collects amount values at random from the iterator into a vector. Read more

-

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/seq/index/enum.IndexVecIter.html b/target/doc/rand/seq/index/enum.IndexVecIter.html deleted file mode 100644 index 0384de9..0000000 --- a/target/doc/rand/seq/index/enum.IndexVecIter.html +++ /dev/null @@ -1,86 +0,0 @@ -rand::seq::index::IndexVecIter - Rust

[][src]Enum rand::seq::index::IndexVecIter

pub enum IndexVecIter<'a> {
-    // some variants omitted
-}

Return type of IndexVec::iter.

-

Trait Implementations

impl<'a> Iterator for IndexVecIter<'a>[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a> ExactSizeIterator for IndexVecIter<'a>[src]

fn len(&self) -> usize1.0.0[src]

Returns the exact number of times the iterator will iterate. Read more

-

fn is_empty(&self) -> bool[src]

🔬 This is a nightly-only experimental API. (exact_size_is_empty)

Returns true if the iterator is empty. Read more

-

impl<'a> Debug for IndexVecIter<'a>[src]

Auto Trait Implementations

impl<'a> Send for IndexVecIter<'a>

impl<'a> Sync for IndexVecIter<'a>

Blanket Implementations

impl<I> IteratorRandom for I where
    I: Iterator
[src]

fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item> where
    R: Rng
[src]

Choose one element at random from the iterator. Read more

-

fn choose_multiple_fill<R: ?Sized>(
    self,
    rng: &mut R,
    buf: &mut [Self::Item]
) -> usize where
    R: Rng
[src]

Collects values at random from the iterator into a supplied buffer until that buffer is filled. Read more

-

fn choose_multiple<R: ?Sized>(
    self,
    rng: &mut R,
    amount: usize
) -> Vec<Self::Item> where
    R: Rng
[src]

Collects amount values at random from the iterator into a vector. Read more

-

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/seq/index/fn.sample.html b/target/doc/rand/seq/index/fn.sample.html deleted file mode 100644 index 7d2aae5..0000000 --- a/target/doc/rand/seq/index/fn.sample.html +++ /dev/null @@ -1,18 +0,0 @@ -rand::seq::index::sample - Rust

[][src]Function rand::seq::index::sample

pub fn sample<R: ?Sized>(rng: &mut R, length: usize, amount: usize) -> IndexVec where
    R: Rng

Randomly sample exactly amount distinct indices from 0..length, and -return them in random order (fully shuffled).

-

This method is used internally by the slice sampling methods, but it can -sometimes be useful to have the indices themselves so this is provided as -an alternative.

-

The implementation used is not specified; we automatically select the -fastest available algorithm for the length and amount parameters -(based on detailed profiling on an Intel Haswell CPU). Roughly speaking, -complexity is O(amount), except that when amount is small, performance -is closer to O(amount^2), and when length is close to amount then -O(length).

-

Note that performance is significantly better over u32 indices than over -u64 indices. Because of this we hide the underlying type behind an -abstraction, IndexVec.

-

If an allocation-free no_std function is required, it is suggested -to adapt the internal sample_floyd implementation.

-

Panics if amount > length.

-
\ No newline at end of file diff --git a/target/doc/rand/seq/index/index.html b/target/doc/rand/seq/index/index.html deleted file mode 100644 index f5085f2..0000000 --- a/target/doc/rand/seq/index/index.html +++ /dev/null @@ -1,9 +0,0 @@ -rand::seq::index - Rust

[][src]Module rand::seq::index

Low-level API for sampling indices

-

Enums

-
IndexVec

A vector of indices.

-
IndexVecIntoIter

Return type of IndexVec::into_iter.

-
IndexVecIter

Return type of IndexVec::iter.

-

Functions

-
sample

Randomly sample exactly amount distinct indices from 0..length, and -return them in random order (fully shuffled).

-
\ No newline at end of file diff --git a/target/doc/rand/seq/index/sidebar-items.js b/target/doc/rand/seq/index/sidebar-items.js deleted file mode 100644 index 7df2fd8..0000000 --- a/target/doc/rand/seq/index/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["IndexVec","A vector of indices."],["IndexVecIntoIter","Return type of `IndexVec::into_iter`."],["IndexVecIter","Return type of `IndexVec::iter`."]],"fn":[["sample","Randomly sample exactly `amount` distinct indices from `0..length`, and return them in random order (fully shuffled)."]]}); \ No newline at end of file diff --git a/target/doc/rand/seq/sidebar-items.js b/target/doc/rand/seq/sidebar-items.js deleted file mode 100644 index 7cccd4d..0000000 --- a/target/doc/rand/seq/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"mod":[["index","Low-level API for sampling indices"]],"struct":[["SliceChooseIter","An iterator over multiple slice elements."]],"trait":[["IteratorRandom","Extension trait on iterators, providing random sampling methods."],["SliceRandom","Extension trait on slices, providing random mutation and sampling methods."]]}); \ No newline at end of file diff --git a/target/doc/rand/seq/struct.SliceChooseIter.html b/target/doc/rand/seq/struct.SliceChooseIter.html deleted file mode 100644 index 255fa0a..0000000 --- a/target/doc/rand/seq/struct.SliceChooseIter.html +++ /dev/null @@ -1,86 +0,0 @@ -rand::seq::SliceChooseIter - Rust

[][src]Struct rand::seq::SliceChooseIter

pub struct SliceChooseIter<'a, S: ?Sized + 'a, T: 'a> { /* fields omitted */ }

An iterator over multiple slice elements.

-

This struct is created by -SliceRandom::choose_multiple.

-

Trait Implementations

impl<'a, S: Index<usize, Output = T> + ?Sized + 'a, T: 'a> Iterator for SliceChooseIter<'a, S, T>[src]

type Item = &'a T

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a, S: Index<usize, Output = T> + ?Sized + 'a, T: 'a> ExactSizeIterator for SliceChooseIter<'a, S, T>[src]

fn is_empty(&self) -> bool[src]

🔬 This is a nightly-only experimental API. (exact_size_is_empty)

Returns true if the iterator is empty. Read more

-

impl<'a, S: Debug + ?Sized + 'a, T: Debug + 'a> Debug for SliceChooseIter<'a, S, T>[src]

Auto Trait Implementations

impl<'a, S: ?Sized, T> Send for SliceChooseIter<'a, S, T> where
    S: Sync,
    T: Send

impl<'a, S: ?Sized, T> Sync for SliceChooseIter<'a, S, T> where
    S: Sync,
    T: Sync

Blanket Implementations

impl<I> IteratorRandom for I where
    I: Iterator
[src]

fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item> where
    R: Rng
[src]

Choose one element at random from the iterator. Read more

-

fn choose_multiple_fill<R: ?Sized>(
    self,
    rng: &mut R,
    buf: &mut [Self::Item]
) -> usize where
    R: Rng
[src]

Collects values at random from the iterator into a supplied buffer until that buffer is filled. Read more

-

fn choose_multiple<R: ?Sized>(
    self,
    rng: &mut R,
    amount: usize
) -> Vec<Self::Item> where
    R: Rng
[src]

Collects amount values at random from the iterator into a vector. Read more

-

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand/seq/trait.IteratorRandom.html b/target/doc/rand/seq/trait.IteratorRandom.html deleted file mode 100644 index 9007228..0000000 --- a/target/doc/rand/seq/trait.IteratorRandom.html +++ /dev/null @@ -1,57 +0,0 @@ -rand::seq::IteratorRandom - Rust

[][src]Trait rand::seq::IteratorRandom

pub trait IteratorRandom: Iterator + Sized {
-    fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item>
    where
        R: Rng
, - { ... } -
fn choose_multiple_fill<R: ?Sized>(
        self,
        rng: &mut R,
        buf: &mut [Self::Item]
    ) -> usize
    where
        R: Rng
, - { ... } -
fn choose_multiple<R: ?Sized>(
        self,
        rng: &mut R,
        amount: usize
    ) -> Vec<Self::Item>
    where
        R: Rng
, - { ... } -}

Extension trait on iterators, providing random sampling methods.

-

This trait is implemented on all sized iterators, providing methods for -choosing one or more elements. You must use this trait:

- -
-use rand::seq::IteratorRandom;
- 
-fn main() {
-    let mut rng = rand::thread_rng();
-     
-    let faces = "😀😎😐😕😠😢";
-    println!("I am {}!", faces.chars().choose(&mut rng).unwrap());
-}
-

Example output (non-deterministic):

-
I am 😀!
-
-
-

Provided methods

fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item> where
    R: Rng

Choose one element at random from the iterator.

-

Returns None if and only if the iterator is empty.

-

This method uses [Iterator::size_hint] for optimisation. With an -accurate hint and where [Iterator::nth] is a constant-time operation -this method can offer O(1) performance. Where no size hint is -available, complexity is O(n) where n is the iterator length. -Partial hints (where lower > 0) also improve performance.

-

For slices, prefer [SliceRandom::choose] which guarantees O(1) -performance.

-

fn choose_multiple_fill<R: ?Sized>(
    self,
    rng: &mut R,
    buf: &mut [Self::Item]
) -> usize where
    R: Rng

Collects values at random from the iterator into a supplied buffer -until that buffer is filled.

-

Although the elements are selected randomly, the order of elements in -the buffer is neither stable nor fully random. If random ordering is -desired, shuffle the result.

-

Returns the number of elements added to the buffer. This equals the length -of the buffer unless the iterator contains insufficient elements, in which -case this equals the number of elements available.

-

Complexity is O(n) where n is the length of the iterator. -For slices, prefer [SliceRandom::choose_multiple].

-

fn choose_multiple<R: ?Sized>(
    self,
    rng: &mut R,
    amount: usize
) -> Vec<Self::Item> where
    R: Rng

Collects amount values at random from the iterator into a vector.

-

This is equivalent to choose_multiple_fill except for the result type.

-

Although the elements are selected randomly, the order of elements in -the buffer is neither stable nor fully random. If random ordering is -desired, shuffle the result.

-

The length of the returned vector equals amount unless the iterator -contains insufficient elements, in which case it equals the number of -elements available.

-

Complexity is O(n) where n is the length of the iterator. -For slices, prefer [SliceRandom::choose_multiple].

-
Loading content... -

Implementors

impl<I> IteratorRandom for I where
    I: Iterator + Sized
[src]

fn choose<R: ?Sized>(self, rng: &mut R) -> Option<Self::Item> where
    R: Rng
[src]

fn choose_multiple_fill<R: ?Sized>(
    self,
    rng: &mut R,
    buf: &mut [Self::Item]
) -> usize where
    R: Rng
[src]

fn choose_multiple<R: ?Sized>(
    self,
    rng: &mut R,
    amount: usize
) -> Vec<Self::Item> where
    R: Rng
[src]

Loading content...
\ No newline at end of file diff --git a/target/doc/rand/seq/trait.SliceRandom.html b/target/doc/rand/seq/trait.SliceRandom.html deleted file mode 100644 index c5c8365..0000000 --- a/target/doc/rand/seq/trait.SliceRandom.html +++ /dev/null @@ -1,115 +0,0 @@ -rand::seq::SliceRandom - Rust

[][src]Trait rand::seq::SliceRandom

pub trait SliceRandom {
-    type Item;
-    fn choose<R: ?Sized>(&self, rng: &mut R) -> Option<&Self::Item>
    where
        R: Rng
; -
fn choose_mut<R: ?Sized>(&mut self, rng: &mut R) -> Option<&mut Self::Item>
    where
        R: Rng
; -
fn choose_multiple<R: ?Sized>(
        &self,
        rng: &mut R,
        amount: usize
    ) -> SliceChooseIter<Self, Self::Item>
    where
        R: Rng
; -
fn choose_weighted<R: ?Sized, F, B, X>(
        &self,
        rng: &mut R,
        weight: F
    ) -> Result<&Self::Item, WeightedError>
    where
        R: Rng,
        F: Fn(&Self::Item) -> B,
        B: SampleBorrow<X>,
        X: SampleUniform + for<'a> AddAssign<&'a X> + PartialOrd<X> + Clone + Default
; -
fn choose_weighted_mut<R: ?Sized, F, B, X>(
        &mut self,
        rng: &mut R,
        weight: F
    ) -> Result<&mut Self::Item, WeightedError>
    where
        R: Rng,
        F: Fn(&Self::Item) -> B,
        B: SampleBorrow<X>,
        X: SampleUniform + for<'a> AddAssign<&'a X> + PartialOrd<X> + Clone + Default
; -
fn shuffle<R: ?Sized>(&mut self, rng: &mut R)
    where
        R: Rng
; -
fn partial_shuffle<R: ?Sized>(
        &mut self,
        rng: &mut R,
        amount: usize
    ) -> (&mut [Self::Item], &mut [Self::Item])
    where
        R: Rng
; -}

Extension trait on slices, providing random mutation and sampling methods.

-

This trait is implemented on all [T] slice types, providing several -methods for choosing and shuffling elements. You must use this trait:

- -
-use rand::seq::SliceRandom;
- 
-fn main() {
-    let mut rng = rand::thread_rng();
-    let mut bytes = "Hello, random!".to_string().into_bytes();
-    bytes.shuffle(&mut rng);
-    let str = String::from_utf8(bytes).unwrap();
-    println!("{}", str);
-}
-

Example output (non-deterministic):

-
l,nmroHado !le
-
-
-

Associated Types

type Item

The element type.

-
Loading content... -

Required methods

fn choose<R: ?Sized>(&self, rng: &mut R) -> Option<&Self::Item> where
    R: Rng

Returns a reference to one random element of the slice, or None if the -slice is empty.

-

For slices, complexity is O(1).

-

Example

-
-use rand::thread_rng;
-use rand::seq::SliceRandom;
-
-let choices = [1, 2, 4, 8, 16, 32];
-let mut rng = thread_rng();
-println!("{:?}", choices.choose(&mut rng));
-assert_eq!(choices[..0].choose(&mut rng), None);
-

fn choose_mut<R: ?Sized>(&mut self, rng: &mut R) -> Option<&mut Self::Item> where
    R: Rng

Returns a mutable reference to one random element of the slice, or -None if the slice is empty.

-

For slices, complexity is O(1).

-

Important traits for SliceChooseIter<'a, S, T>
fn choose_multiple<R: ?Sized>(
    &self,
    rng: &mut R,
    amount: usize
) -> SliceChooseIter<Self, Self::Item> where
    R: Rng

Chooses amount elements from the slice at random, without repetition, -and in random order. The returned iterator is appropriate both for -collection into a Vec and filling an existing buffer (see example).

-

In case this API is not sufficiently flexible, use [index::sample].

-

For slices, complexity is the same as [index::sample].

-

Example

-
-use rand::seq::SliceRandom;
-
-let mut rng = &mut rand::thread_rng();
-let sample = "Hello, audience!".as_bytes();
-
-// collect the results into a vector:
-let v: Vec<u8> = sample.choose_multiple(&mut rng, 3).cloned().collect();
-
-// store in a buffer:
-let mut buf = [0u8; 5];
-for (b, slot) in sample.choose_multiple(&mut rng, buf.len()).zip(buf.iter_mut()) {
-    *slot = *b;
-}
-

fn choose_weighted<R: ?Sized, F, B, X>(
    &self,
    rng: &mut R,
    weight: F
) -> Result<&Self::Item, WeightedError> where
    R: Rng,
    F: Fn(&Self::Item) -> B,
    B: SampleBorrow<X>,
    X: SampleUniform + for<'a> AddAssign<&'a X> + PartialOrd<X> + Clone + Default

Similar to choose, but where the likelihood of each outcome may be -specified.

-

The specified function weight maps each item x to a relative -likelihood weight(x). The probability of each item being selected is -therefore weight(x) / s, where s is the sum of all weight(x).

-

For slices of length n, complexity is O(n). -See also choose_weighted_mut, distributions::weighted.

-

Example

-
-use rand::prelude::*;
-
-let choices = [('a', 2), ('b', 1), ('c', 1)];
-let mut rng = thread_rng();
-// 50% chance to print 'a', 25% chance to print 'b', 25% chance to print 'c'
-println!("{:?}", choices.choose_weighted(&mut rng, |item| item.1).unwrap().0);
-

fn choose_weighted_mut<R: ?Sized, F, B, X>(
    &mut self,
    rng: &mut R,
    weight: F
) -> Result<&mut Self::Item, WeightedError> where
    R: Rng,
    F: Fn(&Self::Item) -> B,
    B: SampleBorrow<X>,
    X: SampleUniform + for<'a> AddAssign<&'a X> + PartialOrd<X> + Clone + Default

Similar to choose_mut, but where the likelihood of each outcome may -be specified.

-

The specified function weight maps each item x to a relative -likelihood weight(x). The probability of each item being selected is -therefore weight(x) / s, where s is the sum of all weight(x).

-

For slices of length n, complexity is O(n). -See also choose_weighted, distributions::weighted.

-

fn shuffle<R: ?Sized>(&mut self, rng: &mut R) where
    R: Rng

Shuffle a mutable slice in place.

-

For slices of length n, complexity is O(n).

-

Example

-
-use rand::seq::SliceRandom;
-use rand::thread_rng;
-
-let mut rng = thread_rng();
-let mut y = [1, 2, 3, 4, 5];
-println!("Unshuffled: {:?}", y);
-y.shuffle(&mut rng);
-println!("Shuffled:   {:?}", y);
-

fn partial_shuffle<R: ?Sized>(
    &mut self,
    rng: &mut R,
    amount: usize
) -> (&mut [Self::Item], &mut [Self::Item]) where
    R: Rng

Shuffle a slice in place, but exit early.

-

Returns two mutable slices from the source slice. The first contains -amount elements randomly permuted. The second has the remaining -elements that are not fully shuffled.

-

This is an efficient method to select amount elements at random from -the slice, provided the slice may be mutated.

-

If you only need to choose elements randomly and amount > self.len()/2 -then you may improve performance by taking -amount = values.len() - amount and using only the second slice.

-

If amount is greater than the number of elements in the slice, this -will perform a full shuffle.

-

For slices, complexity is O(m) where m = amount.

-
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Implementations on Foreign Types

impl<T> SliceRandom for [T][src]

type Item = T

Loading content... -

Implementors

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\ No newline at end of file diff --git a/target/doc/rand/sidebar-items.js b/target/doc/rand/sidebar-items.js deleted file mode 100644 index e3933f0..0000000 --- a/target/doc/rand/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"fn":[["random","Generates a random value using the thread-local random number generator."],["thread_rng","Retrieve the lazily-initialized thread-local random number generator, seeded by the system. Intended to be used in method chaining style, e.g. `thread_rng().gen::()`, or cached locally, e.g. `let mut rng = thread_rng();`. Invoked by the `Default` trait, making `ThreadRng::default()` equivalent."]],"mod":[["distributions","Generating random samples from probability distributions"],["prelude","Convenience re-export of common members"],["rngs","Random number generators and adapters"],["seq","Sequence-related functionality"]],"struct":[["Error","Error type of random number generators"]],"trait":[["AsByteSliceMut","Trait for casting types to byte slices"],["CryptoRng","A marker trait used to indicate that an [`RngCore`] or [`BlockRngCore`] implementation is supposed to be cryptographically secure."],["Rng","An automatically-implemented extension trait on [`RngCore`] providing high-level generic methods for sampling values and other convenience methods."],["RngCore","The core of a random number generator."],["SeedableRng","A random number generator that can be explicitly seeded."]]}); \ No newline at end of file diff --git a/target/doc/rand/struct.Error.html b/target/doc/rand/struct.Error.html deleted file mode 100644 index 9a874e6..0000000 --- a/target/doc/rand/struct.Error.html +++ /dev/null @@ -1,36 +0,0 @@ -rand::Error - Rust

[][src]Struct rand::Error

pub struct Error { /* fields omitted */ }

Error type of random number generators

-

In order to be compatible with std and no_std, this type has two -possible implementations: with std a boxed Error trait object is stored, -while with no_std we merely store an error code.

-

Methods

impl Error[src]

pub fn new<E>(err: E) -> Error where
    E: Into<Box<dyn Error + 'static + Sync + Send>>, 
[src]

Construct from any type supporting std::error::Error

-

Available only when configured with std.

-

See also From<NonZeroU32>, which is available with and without std.

-

pub fn inner(&self) -> &(dyn Error + 'static + Sync + Send)[src]

Reference the inner error (std only)

-

When configured with std, this is a trivial operation and never -panics. Without std, this method is simply unavailable.

-

pub fn take_inner(self) -> Box<dyn Error + 'static + Sync + Send>[src]

Unwrap the inner error (std only)

-

When configured with std, this is a trivial operation and never -panics. Without std, this method is simply unavailable.

-

pub fn code(&self) -> Option<NonZeroU32>[src]

Retrieve the error code, if any.

-

If this Error was constructed via From<NonZeroU32>, then this method -will return this NonZeroU32 code (for no_std this is always the -case). Otherwise, this method will return None.

-

Trait Implementations

impl Debug for Error[src]

impl Display for Error[src]

impl From<NonZeroU32> for Error[src]

impl From<Error> for Error[src]

impl Error for Error[src]

fn description(&self) -> &str1.0.0[src]

This method is soft-deprecated. Read more

-

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

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[][src]Trait rand::AsByteSliceMut

pub trait AsByteSliceMut {
-    fn as_byte_slice_mut(&mut self) -> &mut [u8];
-
fn to_le(&mut self); -}

Trait for casting types to byte slices

-

This is used by the [Rng::fill] and [Rng::try_fill] methods.

-
-

Required methods

fn as_byte_slice_mut(&mut self) -> &mut [u8]

Return a mutable reference to self as a byte slice

-

fn to_le(&mut self)

Call to_le on each element (i.e. byte-swap on Big Endian platforms).

-
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Implementations on Foreign Types

impl AsByteSliceMut for [u8][src]

impl AsByteSliceMut for [u16][src]

impl AsByteSliceMut for [Wrapping<u16>][src]

impl AsByteSliceMut for [u32][src]

impl AsByteSliceMut for [Wrapping<u32>][src]

impl AsByteSliceMut for [u64][src]

impl AsByteSliceMut for [Wrapping<u64>][src]

impl AsByteSliceMut for [usize][src]

impl AsByteSliceMut for [Wrapping<usize>][src]

impl AsByteSliceMut for [u128][src]

impl AsByteSliceMut for [Wrapping<u128>][src]

impl AsByteSliceMut for [i8][src]

impl AsByteSliceMut for [Wrapping<i8>][src]

impl AsByteSliceMut for [i16][src]

impl AsByteSliceMut for [Wrapping<i16>][src]

impl AsByteSliceMut for [i32][src]

impl AsByteSliceMut for [Wrapping<i32>][src]

impl AsByteSliceMut for [i64][src]

impl AsByteSliceMut for [Wrapping<i64>][src]

impl AsByteSliceMut for [isize][src]

impl AsByteSliceMut for [Wrapping<isize>][src]

impl AsByteSliceMut for [i128][src]

impl AsByteSliceMut for [Wrapping<i128>][src]

impl<T> AsByteSliceMut for [T; 32] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 31] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 30] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 29] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 28] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 27] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 26] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 25] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 24] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 23] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 22] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 21] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 20] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 19] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 18] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 17] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 16] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 15] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 14] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 13] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 12] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 11] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 10] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 9] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 8] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 7] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 6] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 5] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 4] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 3] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 2] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 1] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 0] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 4096] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 2048] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 1024] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 512] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 256] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 128] where
    [T]: AsByteSliceMut
[src]

impl<T> AsByteSliceMut for [T; 64] where
    [T]: AsByteSliceMut
[src]

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Implementors

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\ No newline at end of file diff --git a/target/doc/rand/trait.CryptoRng.html b/target/doc/rand/trait.CryptoRng.html deleted file mode 100644 index 3759fb2..0000000 --- a/target/doc/rand/trait.CryptoRng.html +++ /dev/null @@ -1,21 +0,0 @@ -rand::CryptoRng - Rust

[][src]Trait rand::CryptoRng

pub trait CryptoRng { }

A marker trait used to indicate that an [RngCore] or BlockRngCore -implementation is supposed to be cryptographically secure.

-

Cryptographically secure generators, also known as CSPRNGs, should -satisfy an additional properties over other generators: given the first -k bits of an algorithm's output -sequence, it should not be possible using polynomial-time algorithms to -predict the next bit with probability significantly greater than 50%.

-

Some generators may satisfy an additional property, however this is not -required by this trait: if the CSPRNG's state is revealed, it should not be -computationally-feasible to reconstruct output prior to this. Some other -generators allow backwards-computation and are consided reversible.

-

Note that this trait is provided for guidance only and cannot guarantee -suitability for cryptographic applications. In general it should only be -implemented for well-reviewed code implementing well-regarded algorithms.

-

Note also that use of a CryptoRng does not protect against other -weaknesses such as seeding from a weak entropy source or leaking state.

-
-

Implementations on Foreign Types

impl<'a, R> CryptoRng for &'a mut R where
    R: CryptoRng + ?Sized
[src]

impl<R> CryptoRng for BlockRng<R> where
    R: BlockRngCore + CryptoRng
[src]

impl<R> CryptoRng for Box<R> where
    R: CryptoRng + ?Sized
[src]

impl CryptoRng for ChaCha8Rng[src]

impl CryptoRng for ChaCha12Rng[src]

impl CryptoRng for ChaCha20Rng[src]

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Implementors

impl CryptoRng for EntropyRng[src]

impl CryptoRng for OsRng[src]

impl CryptoRng for StdRng[src]

impl CryptoRng for ThreadRng[src]

impl<R, Rsdr> CryptoRng for ReseedingRng<R, Rsdr> where
    R: BlockRngCore + SeedableRng + CryptoRng,
    Rsdr: RngCore + CryptoRng
[src]

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\ No newline at end of file diff --git a/target/doc/rand/trait.Rng.html b/target/doc/rand/trait.Rng.html deleted file mode 100644 index 65be0bd..0000000 --- a/target/doc/rand/trait.Rng.html +++ /dev/null @@ -1,182 +0,0 @@ -rand::Rng - Rust

[][src]Trait rand::Rng

pub trait Rng: RngCore {
-    fn gen<T>(&mut self) -> T
    where
        Standard: Distribution<T>
, - { ... } -
fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T
    where
        B1: SampleBorrow<T> + Sized,
        B2: SampleBorrow<T> + Sized
, - { ... } -
fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T { ... } -
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T>
    where
        D: Distribution<T>,
        Self: Sized
, - { ... } -
fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T) { ... } -
fn try_fill<T: AsByteSliceMut + ?Sized>(
        &mut self,
        dest: &mut T
    ) -> Result<(), Error> { ... } -
fn gen_bool(&mut self, p: f64) -> bool { ... } -
fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool { ... } -}

An automatically-implemented extension trait on [RngCore] providing high-level -generic methods for sampling values and other convenience methods.

-

This is the primary trait to use when generating random values.

-

Generic usage

-

The basic pattern is fn foo<R: Rng + ?Sized>(rng: &mut R). Some -things are worth noting here:

-
    -
  • Since Rng: RngCore and every RngCore implements Rng, it makes no -difference whether we use R: Rng or R: RngCore.
  • -
  • The + ?Sized un-bounding allows functions to be called directly on -type-erased references; i.e. foo(r) where r: &mut RngCore. Without -this it would be necessary to write foo(&mut r).
  • -
-

An alternative pattern is possible: fn foo<R: Rng>(rng: R). This has some -trade-offs. It allows the argument to be consumed directly without a &mut -(which is how from_rng(thread_rng()) works); also it still works directly -on references (including type-erased references). Unfortunately within the -function foo it is not known whether rng is a reference type or not, -hence many uses of rng require an extra reference, either explicitly -(distr.sample(&mut rng)) or implicitly (rng.gen()); one may hope the -optimiser can remove redundant references later.

-

Example:

- -
-use rand::Rng;
-
-fn foo<R: Rng + ?Sized>(rng: &mut R) -> f32 {
-    rng.gen()
-}
-
-
-

Provided methods

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 

Return a random value supporting the Standard distribution.

-

Example

-
-use rand::{thread_rng, Rng};
-
-let mut rng = thread_rng();
-let x: u32 = rng.gen();
-println!("{}", x);
-println!("{:?}", rng.gen::<(f64, bool)>());
-

Arrays and tuples

-

The rng.gen() method is able to generate arrays (up to 32 elements) -and tuples (up to 12 elements), so long as all element types can be -generated.

-

For arrays of integers, especially for those with small element types -(< 64 bit), it will likely be faster to instead use [Rng::fill].

- -
-use rand::{thread_rng, Rng};
-
-let mut rng = thread_rng();
-let tuple: (u8, i32, char) = rng.gen(); // arbitrary tuple support
-
-let arr1: [f32; 32] = rng.gen();        // array construction
-let mut arr2 = [0u8; 128];
-rng.fill(&mut arr2);                    // array fill
-

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized

Generate a random value in the range [low, high), i.e. inclusive of -low and exclusive of high.

-

This function is optimised for the case that only a single sample is -made from the given range. See also the Uniform distribution -type which may be faster if sampling from the same range repeatedly.

-

Panics

-

Panics if low >= high.

-

Example

-
-use rand::{thread_rng, Rng};
-
-let mut rng = thread_rng();
-let n: u32 = rng.gen_range(0, 10);
-println!("{}", n);
-let m: f64 = rng.gen_range(-40.0f64, 1.3e5f64);
-println!("{}", m);
-

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T

Sample a new value, using the given distribution.

-

Example

-
-use rand::{thread_rng, Rng};
-use rand::distributions::Uniform;
-
-let mut rng = thread_rng();
-let x = rng.sample(Uniform::new(10u32, 15));
-// Type annotation requires two types, the type and distribution; the
-// distribution can be inferred.
-let y = rng.sample::<u16, _>(Uniform::new(10, 15));
-

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized

Create an iterator that generates values using the given distribution.

-

Note that this function takes its arguments by value. This works since -(&mut R): Rng where R: Rng and -(&D): Distribution where D: Distribution, -however borrowing is not automatic hence rng.sample_iter(...) may -need to be replaced with (&mut rng).sample_iter(...).

-

Example

-
-use rand::{thread_rng, Rng};
-use rand::distributions::{Alphanumeric, Uniform, Standard};
-
-let rng = thread_rng();
-
-// Vec of 16 x f32:
-let v: Vec<f32> = rng.sample_iter(Standard).take(16).collect();
-
-// String:
-let s: String = rng.sample_iter(Alphanumeric).take(7).collect();
-
-// Combined values
-println!("{:?}", rng.sample_iter(Standard).take(5)
-                             .collect::<Vec<(f64, bool)>>());
-
-// Dice-rolling:
-let die_range = Uniform::new_inclusive(1, 6);
-let mut roll_die = rng.sample_iter(die_range);
-while roll_die.next().unwrap() != 6 {
-    println!("Not a 6; rolling again!");
-}
-

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)

Fill dest entirely with random bytes (uniform value distribution), -where dest is any type supporting [AsByteSliceMut], namely slices -and arrays over primitive integer types (i8, i16, u32, etc.).

-

On big-endian platforms this performs byte-swapping to ensure -portability of results from reproducible generators.

-

This uses fill_bytes internally which may handle some RNG errors -implicitly (e.g. waiting if the OS generator is not ready), but panics -on other errors. See also try_fill which returns errors.

-

Example

-
-use rand::{thread_rng, Rng};
-
-let mut arr = [0i8; 20];
-thread_rng().fill(&mut arr[..]);
-

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>

Fill dest entirely with random bytes (uniform value distribution), -where dest is any type supporting [AsByteSliceMut], namely slices -and arrays over primitive integer types (i8, i16, u32, etc.).

-

On big-endian platforms this performs byte-swapping to ensure -portability of results from reproducible generators.

-

This is identical to fill except that it uses try_fill_bytes -internally and forwards RNG errors.

-

Example

-
-use rand::{thread_rng, Rng};
-
-let mut arr = [0u64; 4];
-thread_rng().try_fill(&mut arr[..])?;
-
-

fn gen_bool(&mut self, p: f64) -> bool

Return a bool with a probability p of being true.

-

See also the Bernoulli distribution, which may be faster if -sampling from the same probability repeatedly.

-

Example

-
-use rand::{thread_rng, Rng};
-
-let mut rng = thread_rng();
-println!("{}", rng.gen_bool(1.0 / 3.0));
-

Panics

-

If p < 0 or p > 1.

-

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool

Return a bool with a probability of numerator/denominator of being -true. I.e. gen_ratio(2, 3) has chance of 2 in 3, or about 67%, of -returning true. If numerator == denominator, then the returned value -is guaranteed to be true. If numerator == 0, then the returned -value is guaranteed to be false.

-

See also the Bernoulli distribution, which may be faster if -sampling from the same numerator and denominator repeatedly.

-

Panics

-

If denominator == 0 or numerator > denominator.

-

Example

-
-use rand::{thread_rng, Rng};
-
-let mut rng = thread_rng();
-println!("{}", rng.gen_ratio(2, 3));
-
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Implementors

impl<R: RngCore + ?Sized> Rng for R[src]

fn gen<T>(&mut self) -> T where
    Standard: Distribution<T>, 
[src]

fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T where
    B1: SampleBorrow<T> + Sized,
    B2: SampleBorrow<T> + Sized
[src]

fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T[src]

Important traits for DistIter<D, R, T>
fn sample_iter<T, D>(self, distr: D) -> DistIter<D, Self, T> where
    D: Distribution<T>,
    Self: Sized
[src]

fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T)[src]

fn try_fill<T: AsByteSliceMut + ?Sized>(
    &mut self,
    dest: &mut T
) -> Result<(), Error>
[src]

fn gen_bool(&mut self, p: f64) -> bool[src]

fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool[src]

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\ No newline at end of file diff --git a/target/doc/rand/trait.RngCore.html b/target/doc/rand/trait.RngCore.html deleted file mode 100644 index 73b920e..0000000 --- a/target/doc/rand/trait.RngCore.html +++ /dev/null @@ -1,114 +0,0 @@ -rand::RngCore - Rust

[][src]Trait rand::RngCore

pub trait RngCore {
-    fn next_u32(&mut self) -> u32;
-
fn next_u64(&mut self) -> u64; -
fn fill_bytes(&mut self, dest: &mut [u8]); -
fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error>; -}

The core of a random number generator.

-

This trait encapsulates the low-level functionality common to all -generators, and is the "back end", to be implemented by generators. -End users should normally use the Rng trait from the rand crate, -which is automatically implemented for every type implementing RngCore.

-

Three different methods for generating random data are provided since the -optimal implementation of each is dependent on the type of generator. There -is no required relationship between the output of each; e.g. many -implementations of fill_bytes consume a whole number of u32 or u64 -values and drop any remaining unused bytes.

-

The try_fill_bytes method is a variant of fill_bytes allowing error -handling; it is not deemed sufficiently useful to add equivalents for -next_u32 or next_u64 since the latter methods are almost always used -with algorithmic generators (PRNGs), which are normally infallible.

-

Algorithmic generators implementing [SeedableRng] should normally have -portable, reproducible output, i.e. fix Endianness when converting values -to avoid platform differences, and avoid making any changes which affect -output (except by communicating that the release has breaking changes).

-

Typically implementators will implement only one of the methods available -in this trait directly, then use the helper functions from the -[impls] module to implement the other methods.

-

It is recommended that implementations also implement:

-
    -
  • Debug with a custom implementation which does not print any internal -state (at least, [CryptoRng]s should not risk leaking state through -Debug).
  • -
  • Serialize and Deserialize (from Serde), preferably making Serde -support optional at the crate level in PRNG libs.
  • -
  • Clone, if possible.
  • -
  • never implement Copy (accidental copies may cause repeated values).
  • -
  • do not implement Default for pseudorandom generators, but instead -implement [SeedableRng], to guide users towards proper seeding. -External / hardware RNGs can choose to implement Default.
  • -
  • Eq and PartialEq could be implemented, but are probably not useful.
  • -
-

Example

-

A simple example, obviously not generating very random output:

- -
-#![allow(dead_code)]
-use rand_core::{RngCore, Error, impls};
-
-struct CountingRng(u64);
-
-impl RngCore for CountingRng {
-    fn next_u32(&mut self) -> u32 {
-        self.next_u64() as u32
-    }
-
-    fn next_u64(&mut self) -> u64 {
-        self.0 += 1;
-        self.0
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        impls::fill_bytes_via_next(self, dest)
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        Ok(self.fill_bytes(dest))
-    }
-}
-
-

Required methods

fn next_u32(&mut self) -> u32

Return the next random u32.

-

RNGs must implement at least one method from this trait directly. In -the case this method is not implemented directly, it can be implemented -using self.next_u64() as u32 or via -[fill_bytes][impls::next_u32_via_fill].

-

fn next_u64(&mut self) -> u64

Return the next random u64.

-

RNGs must implement at least one method from this trait directly. In -the case this method is not implemented directly, it can be implemented -via [next_u32][impls::next_u64_via_u32] or via -[fill_bytes][impls::next_u64_via_fill].

-

fn fill_bytes(&mut self, dest: &mut [u8])

Fill dest with random data.

-

RNGs must implement at least one method from this trait directly. In -the case this method is not implemented directly, it can be implemented -via [next_u*][impls::fill_bytes_via_next] or -via [try_fill_bytes][RngCore::try_fill_bytes]; if this generator can -fail the implementation must choose how best to handle errors here -(e.g. panic with a descriptive message or log a warning and retry a few -times).

-

This method should guarantee that dest is entirely filled -with new data, and may panic if this is impossible -(e.g. reading past the end of a file that is being used as the -source of randomness).

-

fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error>

Fill dest entirely with random data.

-

This is the only method which allows an RNG to report errors while -generating random data thus making this the primary method implemented -by external (true) RNGs (e.g. OsRng) which can fail. It may be used -directly to generate keys and to seed (infallible) PRNGs.

-

Other than error handling, this method is identical to fill_bytes; -thus this may be implemented using Ok(self.fill_bytes(dest)) or -fill_bytes may be implemented with -self.try_fill_bytes(dest).unwrap() or more specific error handling.

-
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Trait Implementations

impl Read for dyn RngCore + 'static[src]

fn read_vectored(&mut self, bufs: &mut [IoSliceMut]) -> Result<usize, Error>1.36.0[src]

Like read, except that it reads into a slice of buffers. Read more

-

unsafe fn initializer(&self) -> Initializer[src]

🔬 This is a nightly-only experimental API. (read_initializer)

Determines if this Reader can work with buffers of uninitialized memory. Read more

-

fn read_to_end(&mut self, buf: &mut Vec<u8>) -> Result<usize, Error>1.0.0[src]

Read all bytes until EOF in this source, placing them into buf. Read more

-

fn read_to_string(&mut self, buf: &mut String) -> Result<usize, Error>1.0.0[src]

Read all bytes until EOF in this source, appending them to buf. Read more

-

fn read_exact(&mut self, buf: &mut [u8]) -> Result<(), Error>1.6.0[src]

Read the exact number of bytes required to fill buf. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Creates a "by reference" adaptor for this instance of Read. Read more

-

fn bytes(self) -> Bytes<Self>1.0.0[src]

Transforms this Read instance to an [Iterator] over its bytes. Read more

-

fn chain<R>(self, next: R) -> Chain<Self, R> where
    R: Read
1.0.0[src]

Creates an adaptor which will chain this stream with another. Read more

-

fn take(self, limit: u64) -> Take<Self>1.0.0[src]

Creates an adaptor which will read at most limit bytes from it. Read more

-
-

Implementations on Foreign Types

impl<R> RngCore for BlockRng<R> where
    R: BlockRngCore<Item = u32>,
    <R as BlockRngCore>::Results: AsRef<[u32]>,
    <R as BlockRngCore>::Results: AsMut<[u32]>, 
[src]

impl<R> RngCore for Box<R> where
    R: RngCore + ?Sized
[src]

impl<R> RngCore for BlockRng64<R> where
    R: BlockRngCore<Item = u64>,
    <R as BlockRngCore>::Results: AsRef<[u64]>,
    <R as BlockRngCore>::Results: AsMut<[u64]>, 
[src]

impl<'a, R> RngCore for &'a mut R where
    R: RngCore + ?Sized
[src]

impl RngCore for ChaCha12Rng[src]

impl RngCore for ChaCha8Rng[src]

impl RngCore for ChaCha20Rng[src]

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Implementors

impl RngCore for StepRng[src]

impl RngCore for EntropyRng[src]

impl RngCore for OsRng[src]

impl RngCore for StdRng[src]

impl RngCore for ThreadRng[src]

impl<R, Rsdr: RngCore> RngCore for ReseedingRng<R, Rsdr> where
    R: BlockRngCore<Item = u32> + SeedableRng,
    <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>, 
[src]

impl<R: Read> RngCore for ReadRng<R>[src]

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\ No newline at end of file diff --git a/target/doc/rand/trait.SeedableRng.html b/target/doc/rand/trait.SeedableRng.html deleted file mode 100644 index e4cb272..0000000 --- a/target/doc/rand/trait.SeedableRng.html +++ /dev/null @@ -1,116 +0,0 @@ -rand::SeedableRng - Rust

[][src]Trait rand::SeedableRng

pub trait SeedableRng {
-    type Seed: Sized + Default + AsMut<[u8]>;
-    fn from_seed(seed: Self::Seed) -> Self;
-
-    fn seed_from_u64(state: u64) -> Self { ... }
-
fn from_rng<R>(rng: R) -> Result<Self, Error>
    where
        R: RngCore
, - { ... } -
fn from_entropy() -> Self { ... } -}

A random number generator that can be explicitly seeded.

-

This trait encapsulates the low-level functionality common to all -pseudo-random number generators (PRNGs, or algorithmic generators).

-
-

Associated Types

type Seed: Sized + Default + AsMut<[u8]>

Seed type, which is restricted to types mutably-dereferencable as u8 -arrays (we recommend [u8; N] for some N).

-

It is recommended to seed PRNGs with a seed of at least circa 100 bits, -which means an array of [u8; 12] or greater to avoid picking RNGs with -partially overlapping periods.

-

For cryptographic RNG's a seed of 256 bits is recommended, [u8; 32].

-

Implementing SeedableRng for RNGs with large seeds

-

Note that the required traits core::default::Default and -core::convert::AsMut<u8> are not implemented for large arrays -[u8; N] with N > 32. To be able to implement the traits required by -SeedableRng for RNGs with such large seeds, the newtype pattern can be -used:

- -
-use rand_core::SeedableRng;
-
-const N: usize = 64;
-pub struct MyRngSeed(pub [u8; N]);
-pub struct MyRng(MyRngSeed);
-
-impl Default for MyRngSeed {
-    fn default() -> MyRngSeed {
-        MyRngSeed([0; N])
-    }
-}
-
-impl AsMut<[u8]> for MyRngSeed {
-    fn as_mut(&mut self) -> &mut [u8] {
-        &mut self.0
-    }
-}
-
-impl SeedableRng for MyRng {
-    type Seed = MyRngSeed;
-
-    fn from_seed(seed: MyRngSeed) -> MyRng {
-        MyRng(seed)
-    }
-}
-
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Required methods

fn from_seed(seed: Self::Seed) -> Self

Create a new PRNG using the given seed.

-

PRNG implementations are allowed to assume that bits in the seed are -well distributed. That means usually that the number of one and zero -bits are roughly equal, and values like 0, 1 and (size - 1) are unlikely. -Note that many non-cryptographic PRNGs will show poor quality output -if this is not adhered to. If you wish to seed from simple numbers, use -seed_from_u64 instead.

-

All PRNG implementations should be reproducible unless otherwise noted: -given a fixed seed, the same sequence of output should be produced -on all runs, library versions and architectures (e.g. check endianness). -Any "value-breaking" changes to the generator should require bumping at -least the minor version and documentation of the change.

-

It is not required that this function yield the same state as a -reference implementation of the PRNG given equivalent seed; if necessary -another constructor replicating behaviour from a reference -implementation can be added.

-

PRNG implementations should make sure from_seed never panics. In the -case that some special values (like an all zero seed) are not viable -seeds it is preferable to map these to alternative constant value(s), -for example 0xBAD5EEDu32 or 0x0DDB1A5E5BAD5EEDu64 ("odd biases? bad -seed"). This is assuming only a small number of values must be rejected.

-
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Provided methods

fn seed_from_u64(state: u64) -> Self

Create a new PRNG using a u64 seed.

-

This is a convenience-wrapper around from_seed to allow construction -of any SeedableRng from a simple u64 value. It is designed such that -low Hamming Weight numbers like 0 and 1 can be used and should still -result in good, independent seeds to the PRNG which is returned.

-

This is not suitable for cryptography, as should be clear given that -the input size is only 64 bits.

-

Implementations for PRNGs may provide their own implementations of -this function, but the default implementation should be good enough for -all purposes. Changing the implementation of this function should be -considered a value-breaking change.

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore

Create a new PRNG seeded from another Rng.

-

This may be useful when needing to rapidly seed many PRNGs from a master -PRNG, and to allow forking of PRNGs. It may be considered deterministic.

-

The master PRNG should be at least as high quality as the child PRNGs. -When seeding non-cryptographic child PRNGs, we recommend using a -different algorithm for the master PRNG (ideally a CSPRNG) to avoid -correlations between the child PRNGs. If this is not possible (e.g. -forking using small non-crypto PRNGs) ensure that your PRNG has a good -mixing function on the output or consider use of a hash function with -from_seed.

-

Note that seeding XorShiftRng from another XorShiftRng provides an -extreme example of what can go wrong: the new PRNG will be a clone -of the parent.

-

PRNG implementations are allowed to assume that a good RNG is provided -for seeding, and that it is cryptographically secure when appropriate. -As of rand 0.7 / rand_core 0.5, implementations overriding this -method should ensure the implementation satisfies reproducibility -(in prior versions this was not required).

-

fn from_entropy() -> Self

Creates a new instance of the RNG seeded via getrandom.

-

This method is the recommended way to construct non-deterministic PRNGs -since it is convenient and secure.

-

In case the overhead of using getrandom to seed many PRNGs is an -issue, one may prefer to seed from a local PRNG, e.g. -from_rng(thread_rng()).unwrap().

-

Panics

-

If getrandom is unable to provide secure entropy this method will panic.

-
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Implementations on Foreign Types

impl<R> SeedableRng for BlockRng<R> where
    R: BlockRngCore + SeedableRng
[src]

type Seed = <R as SeedableRng>::Seed

fn from_entropy() -> Self[src]

impl<R> SeedableRng for BlockRng64<R> where
    R: BlockRngCore + SeedableRng
[src]

type Seed = <R as SeedableRng>::Seed

fn from_entropy() -> Self[src]

impl SeedableRng for ChaCha12Core[src]

type Seed = [u8; 32]

fn seed_from_u64(state: u64) -> Self[src]

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

fn from_entropy() -> Self[src]

impl SeedableRng for ChaCha12Rng[src]

type Seed = [u8; 32]

fn seed_from_u64(state: u64) -> Self[src]

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

fn from_entropy() -> Self[src]

impl SeedableRng for ChaCha20Rng[src]

type Seed = [u8; 32]

fn seed_from_u64(state: u64) -> Self[src]

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

fn from_entropy() -> Self[src]

impl SeedableRng for ChaCha8Core[src]

type Seed = [u8; 32]

fn seed_from_u64(state: u64) -> Self[src]

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

fn from_entropy() -> Self[src]

impl SeedableRng for ChaCha8Rng[src]

type Seed = [u8; 32]

fn seed_from_u64(state: u64) -> Self[src]

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

fn from_entropy() -> Self[src]

impl SeedableRng for ChaCha20Core[src]

type Seed = [u8; 32]

fn seed_from_u64(state: u64) -> Self[src]

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

fn from_entropy() -> Self[src]

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Implementors

impl SeedableRng for StdRng[src]

type Seed = <Rng as SeedableRng>::Seed

fn seed_from_u64(state: u64) -> Self[src]

fn from_entropy() -> Self[src]

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[] - - List of all items

Structs

Typedefs

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- - - \ No newline at end of file diff --git a/target/doc/rand_chacha/chacha/struct.ChaCha12Rng.html b/target/doc/rand_chacha/chacha/struct.ChaCha12Rng.html deleted file mode 100644 index bfcd29e..0000000 --- a/target/doc/rand_chacha/chacha/struct.ChaCha12Rng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

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Redirecting to ../../rand_chacha/struct.ChaCha20Core.html...

- - - \ No newline at end of file diff --git a/target/doc/rand_chacha/chacha/struct.ChaCha20Rng.html b/target/doc/rand_chacha/chacha/struct.ChaCha20Rng.html deleted file mode 100644 index 1bab540..0000000 --- a/target/doc/rand_chacha/chacha/struct.ChaCha20Rng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../rand_chacha/struct.ChaCha20Rng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand_chacha/chacha/struct.ChaCha8Core.html b/target/doc/rand_chacha/chacha/struct.ChaCha8Core.html deleted file mode 100644 index 98d6397..0000000 --- a/target/doc/rand_chacha/chacha/struct.ChaCha8Core.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../rand_chacha/struct.ChaCha8Core.html...

- - - \ No newline at end of file diff --git a/target/doc/rand_chacha/chacha/struct.ChaCha8Rng.html b/target/doc/rand_chacha/chacha/struct.ChaCha8Rng.html deleted file mode 100644 index 94c5515..0000000 --- a/target/doc/rand_chacha/chacha/struct.ChaCha8Rng.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../rand_chacha/struct.ChaCha8Rng.html...

- - - \ No newline at end of file diff --git a/target/doc/rand_chacha/index.html b/target/doc/rand_chacha/index.html deleted file mode 100644 index 4cd4d03..0000000 --- a/target/doc/rand_chacha/index.html +++ /dev/null @@ -1,13 +0,0 @@ -rand_chacha - Rust

[][src]Crate rand_chacha

The ChaCha random number generator.

-

Re-exports

-
pub use rand_core;

Structs

-
ChaCha8Core

ChaCha with 8 rounds

-
ChaCha8Rng

A cryptographically secure random number generator that uses the ChaCha algorithm.

-
ChaCha12Core

ChaCha with 12 rounds

-
ChaCha12Rng

A cryptographically secure random number generator that uses the ChaCha algorithm.

-
ChaCha20Core

ChaCha with 20 rounds

-
ChaCha20Rng

A cryptographically secure random number generator that uses the ChaCha algorithm.

-

Type Definitions

-
ChaChaCore

ChaCha with 20 rounds, low-level interface

-
ChaChaRng

ChaCha with 20 rounds

-
\ No newline at end of file diff --git a/target/doc/rand_chacha/sidebar-items.js b/target/doc/rand_chacha/sidebar-items.js deleted file mode 100644 index 00a0730..0000000 --- a/target/doc/rand_chacha/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["ChaCha12Core","ChaCha with 12 rounds"],["ChaCha12Rng","A cryptographically secure random number generator that uses the ChaCha algorithm."],["ChaCha20Core","ChaCha with 20 rounds"],["ChaCha20Rng","A cryptographically secure random number generator that uses the ChaCha algorithm."],["ChaCha8Core","ChaCha with 8 rounds"],["ChaCha8Rng","A cryptographically secure random number generator that uses the ChaCha algorithm."]],"type":[["ChaChaCore","ChaCha with 20 rounds, low-level interface"],["ChaChaRng","ChaCha with 20 rounds"]]}); \ No newline at end of file diff --git a/target/doc/rand_chacha/struct.ChaCha12Core.html b/target/doc/rand_chacha/struct.ChaCha12Core.html deleted file mode 100644 index 90cdfd0..0000000 --- a/target/doc/rand_chacha/struct.ChaCha12Core.html +++ /dev/null @@ -1,27 +0,0 @@ -rand_chacha::ChaCha12Core - Rust

[][src]Struct rand_chacha::ChaCha12Core

pub struct ChaCha12Core { /* fields omitted */ }

ChaCha with 12 rounds

-

Trait Implementations

impl From<ChaCha12Core> for ChaCha12Rng[src]

impl Clone for ChaCha12Core[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ChaCha12Core[src]

impl BlockRngCore for ChaCha12Core[src]

type Item = u32

Results element type, e.g. u32.

-

type Results = Array64<u32>

Results type. This is the 'block' an RNG implementing BlockRngCore generates, which will usually be an array like [u32; 16]. Read more

-

impl SeedableRng for ChaCha12Core[src]

type Seed = [u8; 32]

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

Create a new PRNG seeded from another Rng. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand_chacha/struct.ChaCha12Rng.html b/target/doc/rand_chacha/struct.ChaCha12Rng.html deleted file mode 100644 index ab5899e..0000000 --- a/target/doc/rand_chacha/struct.ChaCha12Rng.html +++ /dev/null @@ -1,69 +0,0 @@ -rand_chacha::ChaCha12Rng - Rust

[][src]Struct rand_chacha::ChaCha12Rng

pub struct ChaCha12Rng { /* fields omitted */ }

A cryptographically secure random number generator that uses the ChaCha algorithm.

-

ChaCha is a stream cipher designed by Daniel J. Bernstein1, that we use as an RNG. It is -an improved variant of the Salsa20 cipher family, which was selected as one of the "stream -ciphers suitable for widespread adoption" by eSTREAM2.

-

ChaCha uses add-rotate-xor (ARX) operations as its basis. These are safe against timing -attacks, although that is mostly a concern for ciphers and not for RNGs. We provide a SIMD -implementation to support high throughput on a variety of common hardware platforms.

-

With the ChaCha algorithm it is possible to choose the number of rounds the core algorithm -should run. The number of rounds is a tradeoff between performance and security, where 8 -rounds is the minimum potentially secure configuration, and 20 rounds is widely used as a -conservative choice.

-

We use a 64-bit counter and 64-bit stream identifier as in Bernstein's implementation1 -except that we use a stream identifier in place of a nonce. A 64-bit counter over 64-byte -(16 word) blocks allows 1 ZiB of output before cycling, and the stream identifier allows -264 unique streams of output per seed. Both counter and stream are initialized -to zero but may be set via the set_word_pos and set_stream methods.

-

The word layout is:

-
constant  constant  constant  constant
-seed      seed      seed      seed
-seed      seed      seed      seed
-counter   counter   stream_id stream_id
-
-

This implementation uses an output buffer of sixteen u32 words, and uses -[BlockRng] to implement the [RngCore] methods.

-

Methods

impl ChaCha12Rng[src]

pub fn get_word_pos(&self) -> u128[src]

Get the offset from the start of the stream, in 32-bit words.

-

Since the generated blocks are 16 words (24) long and the -counter is 64-bits, the offset is a 68-bit number. Sub-word offsets are -not supported, hence the result can simply be multiplied by 4 to get a -byte-offset.

-

pub fn set_word_pos(&mut self, word_offset: u128)[src]

Set the offset from the start of the stream, in 32-bit words.

-

As with get_word_pos, we use a 68-bit number. Since the generator -simply cycles at the end of its period (1 ZiB), we ignore the upper -60 bits.

-

pub fn set_stream(&mut self, stream: u64)[src]

Set the stream number.

-

This is initialized to zero; 264 unique streams of output -are available per seed/key.

-

Note that in order to reproduce ChaCha output with a specific 64-bit -nonce, one can convert that nonce to a u64 in little-endian fashion -and pass to this function. In theory a 96-bit nonce can be used by -passing the last 64-bits to this function and using the first 32-bits as -the most significant half of the 64-bit counter (which may be set -indirectly via set_word_pos), but this is not directly supported.

-

Trait Implementations

impl From<ChaCha12Core> for ChaCha12Rng[src]

impl Clone for ChaCha12Rng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ChaCha12Rng[src]

impl RngCore for ChaCha12Rng[src]

impl CryptoRng for ChaCha12Rng[src]

impl SeedableRng for ChaCha12Rng[src]

type Seed = [u8; 32]

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

Create a new PRNG seeded from another Rng. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

impl Send for ChaCha12Rng

impl Sync for ChaCha12Rng

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand_chacha/struct.ChaCha20Core.html b/target/doc/rand_chacha/struct.ChaCha20Core.html deleted file mode 100644 index 0c7f0a1..0000000 --- a/target/doc/rand_chacha/struct.ChaCha20Core.html +++ /dev/null @@ -1,27 +0,0 @@ -rand_chacha::ChaCha20Core - Rust

[][src]Struct rand_chacha::ChaCha20Core

pub struct ChaCha20Core { /* fields omitted */ }

ChaCha with 20 rounds

-

Trait Implementations

impl From<ChaCha20Core> for ChaCha20Rng[src]

impl Clone for ChaCha20Core[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ChaCha20Core[src]

impl BlockRngCore for ChaCha20Core[src]

type Item = u32

Results element type, e.g. u32.

-

type Results = Array64<u32>

Results type. This is the 'block' an RNG implementing BlockRngCore generates, which will usually be an array like [u32; 16]. Read more

-

impl SeedableRng for ChaCha20Core[src]

type Seed = [u8; 32]

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

Create a new PRNG seeded from another Rng. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand_chacha/struct.ChaCha20Rng.html b/target/doc/rand_chacha/struct.ChaCha20Rng.html deleted file mode 100644 index 67627e7..0000000 --- a/target/doc/rand_chacha/struct.ChaCha20Rng.html +++ /dev/null @@ -1,69 +0,0 @@ -rand_chacha::ChaCha20Rng - Rust

[][src]Struct rand_chacha::ChaCha20Rng

pub struct ChaCha20Rng { /* fields omitted */ }

A cryptographically secure random number generator that uses the ChaCha algorithm.

-

ChaCha is a stream cipher designed by Daniel J. Bernstein1, that we use as an RNG. It is -an improved variant of the Salsa20 cipher family, which was selected as one of the "stream -ciphers suitable for widespread adoption" by eSTREAM2.

-

ChaCha uses add-rotate-xor (ARX) operations as its basis. These are safe against timing -attacks, although that is mostly a concern for ciphers and not for RNGs. We provide a SIMD -implementation to support high throughput on a variety of common hardware platforms.

-

With the ChaCha algorithm it is possible to choose the number of rounds the core algorithm -should run. The number of rounds is a tradeoff between performance and security, where 8 -rounds is the minimum potentially secure configuration, and 20 rounds is widely used as a -conservative choice.

-

We use a 64-bit counter and 64-bit stream identifier as in Bernstein's implementation1 -except that we use a stream identifier in place of a nonce. A 64-bit counter over 64-byte -(16 word) blocks allows 1 ZiB of output before cycling, and the stream identifier allows -264 unique streams of output per seed. Both counter and stream are initialized -to zero but may be set via the set_word_pos and set_stream methods.

-

The word layout is:

-
constant  constant  constant  constant
-seed      seed      seed      seed
-seed      seed      seed      seed
-counter   counter   stream_id stream_id
-
-

This implementation uses an output buffer of sixteen u32 words, and uses -[BlockRng] to implement the [RngCore] methods.

-

Methods

impl ChaCha20Rng[src]

pub fn get_word_pos(&self) -> u128[src]

Get the offset from the start of the stream, in 32-bit words.

-

Since the generated blocks are 16 words (24) long and the -counter is 64-bits, the offset is a 68-bit number. Sub-word offsets are -not supported, hence the result can simply be multiplied by 4 to get a -byte-offset.

-

pub fn set_word_pos(&mut self, word_offset: u128)[src]

Set the offset from the start of the stream, in 32-bit words.

-

As with get_word_pos, we use a 68-bit number. Since the generator -simply cycles at the end of its period (1 ZiB), we ignore the upper -60 bits.

-

pub fn set_stream(&mut self, stream: u64)[src]

Set the stream number.

-

This is initialized to zero; 264 unique streams of output -are available per seed/key.

-

Note that in order to reproduce ChaCha output with a specific 64-bit -nonce, one can convert that nonce to a u64 in little-endian fashion -and pass to this function. In theory a 96-bit nonce can be used by -passing the last 64-bits to this function and using the first 32-bits as -the most significant half of the 64-bit counter (which may be set -indirectly via set_word_pos), but this is not directly supported.

-

Trait Implementations

impl From<ChaCha20Core> for ChaCha20Rng[src]

impl Clone for ChaCha20Rng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ChaCha20Rng[src]

impl RngCore for ChaCha20Rng[src]

impl CryptoRng for ChaCha20Rng[src]

impl SeedableRng for ChaCha20Rng[src]

type Seed = [u8; 32]

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

Create a new PRNG seeded from another Rng. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

impl Send for ChaCha20Rng

impl Sync for ChaCha20Rng

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand_chacha/struct.ChaCha8Core.html b/target/doc/rand_chacha/struct.ChaCha8Core.html deleted file mode 100644 index 3495614..0000000 --- a/target/doc/rand_chacha/struct.ChaCha8Core.html +++ /dev/null @@ -1,27 +0,0 @@ -rand_chacha::ChaCha8Core - Rust

[][src]Struct rand_chacha::ChaCha8Core

pub struct ChaCha8Core { /* fields omitted */ }

ChaCha with 8 rounds

-

Trait Implementations

impl From<ChaCha8Core> for ChaCha8Rng[src]

impl Clone for ChaCha8Core[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ChaCha8Core[src]

impl BlockRngCore for ChaCha8Core[src]

type Item = u32

Results element type, e.g. u32.

-

type Results = Array64<u32>

Results type. This is the 'block' an RNG implementing BlockRngCore generates, which will usually be an array like [u32; 16]. Read more

-

impl SeedableRng for ChaCha8Core[src]

type Seed = [u8; 32]

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

Create a new PRNG seeded from another Rng. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

impl Send for ChaCha8Core

impl Sync for ChaCha8Core

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand_chacha/struct.ChaCha8Rng.html b/target/doc/rand_chacha/struct.ChaCha8Rng.html deleted file mode 100644 index 3cfd012..0000000 --- a/target/doc/rand_chacha/struct.ChaCha8Rng.html +++ /dev/null @@ -1,69 +0,0 @@ -rand_chacha::ChaCha8Rng - Rust

[][src]Struct rand_chacha::ChaCha8Rng

pub struct ChaCha8Rng { /* fields omitted */ }

A cryptographically secure random number generator that uses the ChaCha algorithm.

-

ChaCha is a stream cipher designed by Daniel J. Bernstein1, that we use as an RNG. It is -an improved variant of the Salsa20 cipher family, which was selected as one of the "stream -ciphers suitable for widespread adoption" by eSTREAM2.

-

ChaCha uses add-rotate-xor (ARX) operations as its basis. These are safe against timing -attacks, although that is mostly a concern for ciphers and not for RNGs. We provide a SIMD -implementation to support high throughput on a variety of common hardware platforms.

-

With the ChaCha algorithm it is possible to choose the number of rounds the core algorithm -should run. The number of rounds is a tradeoff between performance and security, where 8 -rounds is the minimum potentially secure configuration, and 20 rounds is widely used as a -conservative choice.

-

We use a 64-bit counter and 64-bit stream identifier as in Bernstein's implementation1 -except that we use a stream identifier in place of a nonce. A 64-bit counter over 64-byte -(16 word) blocks allows 1 ZiB of output before cycling, and the stream identifier allows -264 unique streams of output per seed. Both counter and stream are initialized -to zero but may be set via the set_word_pos and set_stream methods.

-

The word layout is:

-
constant  constant  constant  constant
-seed      seed      seed      seed
-seed      seed      seed      seed
-counter   counter   stream_id stream_id
-
-

This implementation uses an output buffer of sixteen u32 words, and uses -[BlockRng] to implement the [RngCore] methods.

-

Methods

impl ChaCha8Rng[src]

pub fn get_word_pos(&self) -> u128[src]

Get the offset from the start of the stream, in 32-bit words.

-

Since the generated blocks are 16 words (24) long and the -counter is 64-bits, the offset is a 68-bit number. Sub-word offsets are -not supported, hence the result can simply be multiplied by 4 to get a -byte-offset.

-

pub fn set_word_pos(&mut self, word_offset: u128)[src]

Set the offset from the start of the stream, in 32-bit words.

-

As with get_word_pos, we use a 68-bit number. Since the generator -simply cycles at the end of its period (1 ZiB), we ignore the upper -60 bits.

-

pub fn set_stream(&mut self, stream: u64)[src]

Set the stream number.

-

This is initialized to zero; 264 unique streams of output -are available per seed/key.

-

Note that in order to reproduce ChaCha output with a specific 64-bit -nonce, one can convert that nonce to a u64 in little-endian fashion -and pass to this function. In theory a 96-bit nonce can be used by -passing the last 64-bits to this function and using the first 32-bits as -the most significant half of the 64-bit counter (which may be set -indirectly via set_word_pos), but this is not directly supported.

-

Trait Implementations

impl From<ChaCha8Core> for ChaCha8Rng[src]

impl Clone for ChaCha8Rng[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for ChaCha8Rng[src]

impl RngCore for ChaCha8Rng[src]

impl CryptoRng for ChaCha8Rng[src]

impl SeedableRng for ChaCha8Rng[src]

type Seed = [u8; 32]

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn seed_from_u64(state: u64) -> Self[src]

Create a new PRNG using a u64 seed. Read more

-

fn from_rng<R>(rng: R) -> Result<Self, Error> where
    R: RngCore
[src]

Create a new PRNG seeded from another Rng. Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

Auto Trait Implementations

impl Send for ChaCha8Rng

impl Sync for ChaCha8Rng

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<V, T> VZip<V> for T where
    V: MultiLane<T>, 
[src]

\ No newline at end of file diff --git a/target/doc/rand_chacha/type.ChaChaCore.html b/target/doc/rand_chacha/type.ChaChaCore.html deleted file mode 100644 index c234abd..0000000 --- a/target/doc/rand_chacha/type.ChaChaCore.html +++ /dev/null @@ -1,2 +0,0 @@ -rand_chacha::ChaChaCore - Rust

[][src]Type Definition rand_chacha::ChaChaCore

type ChaChaCore = ChaCha20Core;

ChaCha with 20 rounds, low-level interface

-
\ No newline at end of file diff --git a/target/doc/rand_chacha/type.ChaChaRng.html b/target/doc/rand_chacha/type.ChaChaRng.html deleted file mode 100644 index 2ec0db1..0000000 --- a/target/doc/rand_chacha/type.ChaChaRng.html +++ /dev/null @@ -1,2 +0,0 @@ -rand_chacha::ChaChaRng - Rust

[][src]Type Definition rand_chacha::ChaChaRng

type ChaChaRng = ChaCha20Rng;

ChaCha with 20 rounds

-
\ No newline at end of file diff --git a/target/doc/rand_core/all.html b/target/doc/rand_core/all.html deleted file mode 100644 index 7fa08b4..0000000 --- a/target/doc/rand_core/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Traits

Functions

\ No newline at end of file diff --git a/target/doc/rand_core/block/index.html b/target/doc/rand_core/block/index.html deleted file mode 100644 index 0a86323..0000000 --- a/target/doc/rand_core/block/index.html +++ /dev/null @@ -1,47 +0,0 @@ -rand_core::block - Rust

[][src]Module rand_core::block

The BlockRngCore trait and implementation helpers

-

The BlockRngCore trait exists to assist in the implementation of RNGs -which generate a block of data in a cache instead of returning generated -values directly.

-

Usage of this trait is optional, but provides two advantages: -implementations only need to concern themselves with generation of the -block, not the various [RngCore] methods (especially fill_bytes, where -the optimal implementations are not trivial), and this allows -ReseedingRng (see rand crate) perform periodic -reseeding with very low overhead.

-

Example

-
use rand_core::block::{BlockRngCore, BlockRng};
-
-struct MyRngCore;
-
-impl BlockRngCore for MyRngCore {
-    type Results = [u32; 16];
-
-    fn generate(&mut self, results: &mut Self::Results) {
-        unimplemented!()
-    }
-}
-
-impl SeedableRng for MyRngCore {
-    type Seed = unimplemented!();
-    fn from_seed(seed: Self::Seed) -> Self {
-        unimplemented!()
-    }
-}
-
-// optionally, also implement CryptoRng for MyRngCore
-
-// Final RNG.
-type MyRng = BlockRng<u32, MyRngCore>;
-
-

Structs

-
BlockRng

A wrapper type implementing [RngCore] for some type implementing -[BlockRngCore] with u32 array buffer; i.e. this can be used to implement -a full RNG from just a generate function.

-
BlockRng64

A wrapper type implementing [RngCore] for some type implementing -[BlockRngCore] with u64 array buffer; i.e. this can be used to implement -a full RNG from just a generate function.

-

Traits

-
BlockRngCore

A trait for RNGs which do not generate random numbers individually, but in -blocks (typically [u32; N]). This technique is commonly used by -cryptographic RNGs to improve performance.

-
\ No newline at end of file diff --git a/target/doc/rand_core/block/sidebar-items.js b/target/doc/rand_core/block/sidebar-items.js deleted file mode 100644 index 1bc831f..0000000 --- a/target/doc/rand_core/block/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["BlockRng","A wrapper type implementing [`RngCore`] for some type implementing [`BlockRngCore`] with `u32` array buffer; i.e. this can be used to implement a full RNG from just a `generate` function."],["BlockRng64","A wrapper type implementing [`RngCore`] for some type implementing [`BlockRngCore`] with `u64` array buffer; i.e. this can be used to implement a full RNG from just a `generate` function."]],"trait":[["BlockRngCore","A trait for RNGs which do not generate random numbers individually, but in blocks (typically `[u32; N]`). This technique is commonly used by cryptographic RNGs to improve performance."]]}); \ No newline at end of file diff --git a/target/doc/rand_core/block/struct.BlockRng.html b/target/doc/rand_core/block/struct.BlockRng.html deleted file mode 100644 index 6699302..0000000 --- a/target/doc/rand_core/block/struct.BlockRng.html +++ /dev/null @@ -1,66 +0,0 @@ -rand_core::block::BlockRng - Rust

[][src]Struct rand_core::block::BlockRng

pub struct BlockRng<R: BlockRngCore + ?Sized> {
-    pub core: R,
-    // some fields omitted
-}

A wrapper type implementing [RngCore] for some type implementing -[BlockRngCore] with u32 array buffer; i.e. this can be used to implement -a full RNG from just a generate function.

-

The core field may be accessed directly but the results buffer may not. -PRNG implementations can simply use a type alias -(pub type MyRng = BlockRng<MyRngCore>;) but might prefer to use a -wrapper type (pub struct MyRng(BlockRng<MyRngCore>);); the latter must -re-implement RngCore but hides the implementation details and allows -extra functionality to be defined on the RNG -(e.g. impl MyRng { fn set_stream(...){...} }).

-

BlockRng has heavily optimized implementations of the [RngCore] methods -reading values from the results buffer, as well as -calling [BlockRngCore::generate] directly on the output array when -fill_bytes / try_fill_bytes is called on a large array. These methods -also handle the bookkeeping of when to generate a new batch of values.

-

No whole generated u32 values are thown away and all values are consumed -in-order. next_u32 simply takes the next available u32 value. -next_u64 is implemented by combining two u32 values, least -significant first. fill_bytes and try_fill_bytes consume a whole -number of u32 values, converting each u32 to a byte slice in -little-endian order. If the requested byte length is not a multiple of 4, -some bytes will be discarded.

-

See also [BlockRng64] which uses u64 array buffers. Currently there is -no direct support for other buffer types.

-

For easy initialization BlockRng also implements [SeedableRng].

-

- Fields

core: R

The core part of the RNG, implementing the generate function.

-

Methods

impl<R: BlockRngCore> BlockRng<R>[src]

pub fn new(core: R) -> BlockRng<R>[src]

Create a new BlockRng from an existing RNG implementing -BlockRngCore. Results will be generated on first use.

-

pub fn index(&self) -> usize[src]

Get the index into the result buffer.

-

If this is equal to or larger than the size of the result buffer then -the buffer is "empty" and generate() must be called to produce new -results.

-

pub fn reset(&mut self)[src]

Reset the number of available results. -This will force a new set of results to be generated on next use.

-

pub fn generate_and_set(&mut self, index: usize)[src]

Generate a new set of results immediately, setting the index to the -given value.

-

Trait Implementations

impl<R: BlockRngCore<Item = u32>> RngCore for BlockRng<R> where
    <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>, 
[src]

impl<R: BlockRngCore + CryptoRng> CryptoRng for BlockRng<R>[src]

impl<R: BlockRngCore + SeedableRng> SeedableRng for BlockRng<R>[src]

type Seed = R::Seed

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

impl<R: Clone + BlockRngCore + ?Sized> Clone for BlockRng<R> where
    R::Results: Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<R: BlockRngCore + Debug> Debug for BlockRng<R>[src]

Auto Trait Implementations

impl<R: ?Sized> Send for BlockRng<R> where
    R: Send,
    <R as BlockRngCore>::Results: Send

impl<R: ?Sized> Sync for BlockRng<R> where
    R: Sync,
    <R as BlockRngCore>::Results: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/rand_core/block/struct.BlockRng64.html b/target/doc/rand_core/block/struct.BlockRng64.html deleted file mode 100644 index ede9e25..0000000 --- a/target/doc/rand_core/block/struct.BlockRng64.html +++ /dev/null @@ -1,55 +0,0 @@ -rand_core::block::BlockRng64 - Rust

[][src]Struct rand_core::block::BlockRng64

pub struct BlockRng64<R: BlockRngCore + ?Sized> {
-    pub core: R,
-    // some fields omitted
-}

A wrapper type implementing [RngCore] for some type implementing -[BlockRngCore] with u64 array buffer; i.e. this can be used to implement -a full RNG from just a generate function.

-

This is similar to [BlockRng], but specialized for algorithms that operate -on u64 values.

-

No whole generated u64 values are thrown away and all values are consumed -in-order. next_u64 simply takes the next available u64 value. -next_u32 is however a bit special: half of a u64 is consumed, leaving -the other half in the buffer. If the next function called is next_u32 -then the other half is then consumed, however both next_u64 and -fill_bytes discard the rest of any half-consumed u64s when called.

-

fill_bytes and try_fill_bytes consume a whole number of u64 -values. If the requested length is not a multiple of 8, some bytes will be -discarded.

-

- Fields

core: R

The core part of the RNG, implementing the generate function.

-

Methods

impl<R: BlockRngCore> BlockRng64<R>[src]

pub fn new(core: R) -> BlockRng64<R>[src]

Create a new BlockRng from an existing RNG implementing -BlockRngCore. Results will be generated on first use.

-

pub fn index(&self) -> usize[src]

Get the index into the result buffer.

-

If this is equal to or larger than the size of the result buffer then -the buffer is "empty" and generate() must be called to produce new -results.

-

pub fn reset(&mut self)[src]

Reset the number of available results. -This will force a new set of results to be generated on next use.

-

pub fn generate_and_set(&mut self, index: usize)[src]

Generate a new set of results immediately, setting the index to the -given value.

-

Trait Implementations

impl<R: BlockRngCore<Item = u64>> RngCore for BlockRng64<R> where
    <R as BlockRngCore>::Results: AsRef<[u64]> + AsMut<[u64]>, 
[src]

impl<R: BlockRngCore + SeedableRng> SeedableRng for BlockRng64<R>[src]

type Seed = R::Seed

Seed type, which is restricted to types mutably-dereferencable as u8 arrays (we recommend [u8; N] for some N). Read more

-

fn from_entropy() -> Self[src]

Creates a new instance of the RNG seeded via [getrandom]. Read more

-

impl<R: Clone + BlockRngCore + ?Sized> Clone for BlockRng64<R> where
    R::Results: Clone
[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<R: BlockRngCore + Debug> Debug for BlockRng64<R>[src]

Auto Trait Implementations

impl<R: ?Sized> Send for BlockRng64<R> where
    R: Send,
    <R as BlockRngCore>::Results: Send

impl<R: ?Sized> Sync for BlockRng64<R> where
    R: Sync,
    <R as BlockRngCore>::Results: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/rand_core/block/trait.BlockRngCore.html b/target/doc/rand_core/block/trait.BlockRngCore.html deleted file mode 100644 index 0b087e3..0000000 --- a/target/doc/rand_core/block/trait.BlockRngCore.html +++ /dev/null @@ -1,18 +0,0 @@ -rand_core::block::BlockRngCore - Rust

[][src]Trait rand_core::block::BlockRngCore

pub trait BlockRngCore {
-    type Item;
-    type Results: AsRef<[Self::Item]> + AsMut<[Self::Item]> + Default;
-    fn generate(&mut self, results: &mut Self::Results);
-}

A trait for RNGs which do not generate random numbers individually, but in -blocks (typically [u32; N]). This technique is commonly used by -cryptographic RNGs to improve performance.

-

See the [module][crate::block] documentation for details.

-
-

Associated Types

type Item

Results element type, e.g. u32.

-

type Results: AsRef<[Self::Item]> + AsMut<[Self::Item]> + Default

Results type. This is the 'block' an RNG implementing BlockRngCore -generates, which will usually be an array like [u32; 16].

-
Loading content... -

Required methods

fn generate(&mut self, results: &mut Self::Results)

Generate a new block of results.

-
Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/rand_core/error/struct.Error.html b/target/doc/rand_core/error/struct.Error.html deleted file mode 100644 index 3cf4623..0000000 --- a/target/doc/rand_core/error/struct.Error.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../rand_core/struct.Error.html...

- - - \ No newline at end of file diff --git a/target/doc/rand_core/impls/fn.fill_bytes_via_next.html b/target/doc/rand_core/impls/fn.fill_bytes_via_next.html deleted file mode 100644 index 3bfcafc..0000000 --- a/target/doc/rand_core/impls/fn.fill_bytes_via_next.html +++ /dev/null @@ -1,6 +0,0 @@ -rand_core::impls::fill_bytes_via_next - Rust

[][src]Function rand_core::impls::fill_bytes_via_next

pub fn fill_bytes_via_next<R: RngCore + ?Sized>(rng: &mut R, dest: &mut [u8])

Implement fill_bytes via next_u64 and next_u32, little-endian order.

-

The fastest way to fill a slice is usually to work as long as possible with -integers. That is why this method mostly uses next_u64, and only when -there are 4 or less bytes remaining at the end of the slice it uses -next_u32 once.

-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/fn.fill_via_u32_chunks.html b/target/doc/rand_core/impls/fn.fill_via_u32_chunks.html deleted file mode 100644 index 1c07760..0000000 --- a/target/doc/rand_core/impls/fn.fill_via_u32_chunks.html +++ /dev/null @@ -1,27 +0,0 @@ -rand_core::impls::fill_via_u32_chunks - Rust

[][src]Function rand_core::impls::fill_via_u32_chunks

pub fn fill_via_u32_chunks(src: &[u32], dest: &mut [u8]) -> (usize, usize)

Implement fill_bytes by reading chunks from the output buffer of a block -based RNG.

-

The return values are (consumed_u32, filled_u8).

-

filled_u8 is the number of filled bytes in dest, which may be less than -the length of dest. -consumed_u32 is the number of words consumed from src, which is the same -as filled_u8 / 4 rounded up.

-

Example

-

(from IsaacRng)

- -
This example is not tested
-fn fill_bytes(&mut self, dest: &mut [u8]) {
-    let mut read_len = 0;
-    while read_len < dest.len() {
-        if self.index >= self.rsl.len() {
-            self.isaac();
-        }
-
-        let (consumed_u32, filled_u8) =
-            impls::fill_via_u32_chunks(&mut self.rsl[self.index..],
-                                       &mut dest[read_len..]);
-
-        self.index += consumed_u32;
-        read_len += filled_u8;
-    }
-}
-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/fn.fill_via_u64_chunks.html b/target/doc/rand_core/impls/fn.fill_via_u64_chunks.html deleted file mode 100644 index 00a57a5..0000000 --- a/target/doc/rand_core/impls/fn.fill_via_u64_chunks.html +++ /dev/null @@ -1,9 +0,0 @@ -rand_core::impls::fill_via_u64_chunks - Rust

[][src]Function rand_core::impls::fill_via_u64_chunks

pub fn fill_via_u64_chunks(src: &[u64], dest: &mut [u8]) -> (usize, usize)

Implement fill_bytes by reading chunks from the output buffer of a block -based RNG.

-

The return values are (consumed_u64, filled_u8). -filled_u8 is the number of filled bytes in dest, which may be less than -the length of dest. -consumed_u64 is the number of words consumed from src, which is the same -as filled_u8 / 8 rounded up.

-

See fill_via_u32_chunks for an example.

-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/fn.next_u32_via_fill.html b/target/doc/rand_core/impls/fn.next_u32_via_fill.html deleted file mode 100644 index aa90a21..0000000 --- a/target/doc/rand_core/impls/fn.next_u32_via_fill.html +++ /dev/null @@ -1,2 +0,0 @@ -rand_core::impls::next_u32_via_fill - Rust

[][src]Function rand_core::impls::next_u32_via_fill

pub fn next_u32_via_fill<R: RngCore + ?Sized>(rng: &mut R) -> u32

Implement next_u32 via fill_bytes, little-endian order.

-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/fn.next_u64_via_fill.html b/target/doc/rand_core/impls/fn.next_u64_via_fill.html deleted file mode 100644 index 66d2871..0000000 --- a/target/doc/rand_core/impls/fn.next_u64_via_fill.html +++ /dev/null @@ -1,2 +0,0 @@ -rand_core::impls::next_u64_via_fill - Rust

[][src]Function rand_core::impls::next_u64_via_fill

pub fn next_u64_via_fill<R: RngCore + ?Sized>(rng: &mut R) -> u64

Implement next_u64 via fill_bytes, little-endian order.

-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/fn.next_u64_via_u32.html b/target/doc/rand_core/impls/fn.next_u64_via_u32.html deleted file mode 100644 index 81cb5bd..0000000 --- a/target/doc/rand_core/impls/fn.next_u64_via_u32.html +++ /dev/null @@ -1,2 +0,0 @@ -rand_core::impls::next_u64_via_u32 - Rust

[][src]Function rand_core::impls::next_u64_via_u32

pub fn next_u64_via_u32<R: RngCore + ?Sized>(rng: &mut R) -> u64

Implement next_u64 via next_u32, little-endian order.

-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/index.html b/target/doc/rand_core/impls/index.html deleted file mode 100644 index 65ebc8b..0000000 --- a/target/doc/rand_core/impls/index.html +++ /dev/null @@ -1,18 +0,0 @@ -rand_core::impls - Rust

[][src]Module rand_core::impls

Helper functions for implementing RngCore functions.

-

For cross-platform reproducibility, these functions all use Little Endian: -least-significant part first. For example, next_u64_via_u32 takes u32 -values x, y, then outputs (y << 32) | x. To implement next_u32 -from next_u64 in little-endian order, one should use next_u64() as u32.

-

Byte-swapping (like the std to_le functions) is only needed to convert -to/from byte sequences, and since its purpose is reproducibility, -non-reproducible sources (e.g. OsRng) need not bother with it.

-

Functions

-
fill_bytes_via_next

Implement fill_bytes via next_u64 and next_u32, little-endian order.

-
fill_via_u32_chunks

Implement fill_bytes by reading chunks from the output buffer of a block -based RNG.

-
fill_via_u64_chunks

Implement fill_bytes by reading chunks from the output buffer of a block -based RNG.

-
next_u32_via_fill

Implement next_u32 via fill_bytes, little-endian order.

-
next_u64_via_fill

Implement next_u64 via fill_bytes, little-endian order.

-
next_u64_via_u32

Implement next_u64 via next_u32, little-endian order.

-
\ No newline at end of file diff --git a/target/doc/rand_core/impls/sidebar-items.js b/target/doc/rand_core/impls/sidebar-items.js deleted file mode 100644 index ac2123c..0000000 --- a/target/doc/rand_core/impls/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"fn":[["fill_bytes_via_next","Implement `fill_bytes` via `next_u64` and `next_u32`, little-endian order."],["fill_via_u32_chunks","Implement `fill_bytes` by reading chunks from the output buffer of a block based RNG."],["fill_via_u64_chunks","Implement `fill_bytes` by reading chunks from the output buffer of a block based RNG."],["next_u32_via_fill","Implement `next_u32` via `fill_bytes`, little-endian order."],["next_u64_via_fill","Implement `next_u64` via `fill_bytes`, little-endian order."],["next_u64_via_u32","Implement `next_u64` via `next_u32`, little-endian order."]]}); \ No newline at end of file diff --git a/target/doc/rand_core/index.html b/target/doc/rand_core/index.html deleted file mode 100644 index 0d663bc..0000000 --- a/target/doc/rand_core/index.html +++ /dev/null @@ -1,24 +0,0 @@ -rand_core - Rust

[][src]Crate rand_core

Random number generation traits

-

This crate is mainly of interest to crates publishing implementations of -[RngCore]. Other users are encouraged to use the rand crate instead -which re-exports the main traits and error types.

-

[RngCore] is the core trait implemented by algorithmic pseudo-random number -generators and external random-number sources.

-

[SeedableRng] is an extension trait for construction from fixed seeds and -other random number generators.

-

[Error] is provided for error-handling. It is safe to use in no_std -environments.

-

The [impls] and [le] sub-modules include a few small functions to assist -implementation of [RngCore].

-

Modules

-
block

The BlockRngCore trait and implementation helpers

-
impls

Helper functions for implementing RngCore functions.

-
le

Little-Endian utilities

-

Structs

-
Error

Error type of random number generators

-

Traits

-
CryptoRng

A marker trait used to indicate that an [RngCore] or BlockRngCore -implementation is supposed to be cryptographically secure.

-
RngCore

The core of a random number generator.

-
SeedableRng

A random number generator that can be explicitly seeded.

-
\ No newline at end of file diff --git a/target/doc/rand_core/le/fn.read_u32_into.html b/target/doc/rand_core/le/fn.read_u32_into.html deleted file mode 100644 index 03ea4bc..0000000 --- a/target/doc/rand_core/le/fn.read_u32_into.html +++ /dev/null @@ -1,3 +0,0 @@ -rand_core::le::read_u32_into - Rust

[][src]Function rand_core::le::read_u32_into

pub fn read_u32_into(src: &[u8], dst: &mut [u32])

Reads unsigned 32 bit integers from src into dst. -Borrowed from the byteorder crate.

-
\ No newline at end of file diff --git a/target/doc/rand_core/le/fn.read_u64_into.html b/target/doc/rand_core/le/fn.read_u64_into.html deleted file mode 100644 index ea2267f..0000000 --- a/target/doc/rand_core/le/fn.read_u64_into.html +++ /dev/null @@ -1,3 +0,0 @@ -rand_core::le::read_u64_into - Rust

[][src]Function rand_core::le::read_u64_into

pub fn read_u64_into(src: &[u8], dst: &mut [u64])

Reads unsigned 64 bit integers from src into dst. -Borrowed from the byteorder crate.

-
\ No newline at end of file diff --git a/target/doc/rand_core/le/index.html b/target/doc/rand_core/le/index.html deleted file mode 100644 index 6457642..0000000 --- a/target/doc/rand_core/le/index.html +++ /dev/null @@ -1,9 +0,0 @@ -rand_core::le - Rust

[][src]Module rand_core::le

Little-Endian utilities

-

Little-Endian order has been chosen for internal usage; this makes some -useful functions available.

-

Functions

-
read_u32_into

Reads unsigned 32 bit integers from src into dst. -Borrowed from the byteorder crate.

-
read_u64_into

Reads unsigned 64 bit integers from src into dst. -Borrowed from the byteorder crate.

-
\ No newline at end of file diff --git a/target/doc/rand_core/le/sidebar-items.js b/target/doc/rand_core/le/sidebar-items.js deleted file mode 100644 index a18f3ad..0000000 --- a/target/doc/rand_core/le/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"fn":[["read_u32_into","Reads unsigned 32 bit integers from `src` into `dst`. Borrowed from the `byteorder` crate."],["read_u64_into","Reads unsigned 64 bit integers from `src` into `dst`. Borrowed from the `byteorder` crate."]]}); \ No newline at end of file diff --git a/target/doc/rand_core/sidebar-items.js b/target/doc/rand_core/sidebar-items.js deleted file mode 100644 index a11b8df..0000000 --- a/target/doc/rand_core/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"mod":[["block","The `BlockRngCore` trait and implementation helpers"],["impls","Helper functions for implementing `RngCore` functions."],["le","Little-Endian utilities"]],"struct":[["Error","Error type of random number generators"]],"trait":[["CryptoRng","A marker trait used to indicate that an [`RngCore`] or [`BlockRngCore`] implementation is supposed to be cryptographically secure."],["RngCore","The core of a random number generator."],["SeedableRng","A random number generator that can be explicitly seeded."]]}); \ No newline at end of file diff --git a/target/doc/rand_core/struct.Error.html b/target/doc/rand_core/struct.Error.html deleted file mode 100644 index e5dc3a3..0000000 --- a/target/doc/rand_core/struct.Error.html +++ /dev/null @@ -1,37 +0,0 @@ -rand_core::Error - Rust

[][src]Struct rand_core::Error

pub struct Error { /* fields omitted */ }

Error type of random number generators

-

In order to be compatible with std and no_std, this type has two -possible implementations: with std a boxed Error trait object is stored, -while with no_std we merely store an error code.

-

Methods

impl Error[src]

pub fn new<E>(err: E) -> Self where
    E: Into<Box<dyn Error + Send + Sync + 'static>>, 
[src]

Construct from any type supporting std::error::Error

-

Available only when configured with std.

-

See also From<NonZeroU32>, which is available with and without std.

-

pub fn inner(&self) -> &(dyn Error + Send + Sync + 'static)[src]

Reference the inner error (std only)

-

When configured with std, this is a trivial operation and never -panics. Without std, this method is simply unavailable.

-

pub fn take_inner(self) -> Box<dyn Error + Send + Sync + 'static>[src]

Unwrap the inner error (std only)

-

When configured with std, this is a trivial operation and never -panics. Without std, this method is simply unavailable.

-

pub fn code(&self) -> Option<NonZeroU32>[src]

Retrieve the error code, if any.

-

If this Error was constructed via From<NonZeroU32>, then this method -will return this NonZeroU32 code (for no_std this is always the -case). Otherwise, this method will return None.

-

Trait Implementations

impl From<NonZeroU32> for Error[src]

impl From<Error> for Error[src]

impl From<Error> for Error[src]

impl Display for Error[src]

impl Debug for Error[src]

impl Error for Error[src]

fn description(&self) -> &str1.0.0[src]

This method is soft-deprecated. Read more

-

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/rand_core/trait.CryptoRng.html b/target/doc/rand_core/trait.CryptoRng.html deleted file mode 100644 index 7d3cfaf..0000000 --- a/target/doc/rand_core/trait.CryptoRng.html +++ /dev/null @@ -1,21 +0,0 @@ -rand_core::CryptoRng - Rust

[][src]Trait rand_core::CryptoRng

pub trait CryptoRng { }

A marker trait used to indicate that an [RngCore] or BlockRngCore -implementation is supposed to be cryptographically secure.

-

Cryptographically secure generators, also known as CSPRNGs, should -satisfy an additional properties over other generators: given the first -k bits of an algorithm's output -sequence, it should not be possible using polynomial-time algorithms to -predict the next bit with probability significantly greater than 50%.

-

Some generators may satisfy an additional property, however this is not -required by this trait: if the CSPRNG's state is revealed, it should not be -computationally-feasible to reconstruct output prior to this. Some other -generators allow backwards-computation and are consided reversible.

-

Note that this trait is provided for guidance only and cannot guarantee -suitability for cryptographic applications. In general it should only be -implemented for well-reviewed code implementing well-regarded algorithms.

-

Note also that use of a CryptoRng does not protect against other -weaknesses such as seeding from a weak entropy source or leaking state.

-
-

Implementations on Foreign Types

impl<'a, R: CryptoRng + ?Sized> CryptoRng for &'a mut R[src]

impl<R: CryptoRng + ?Sized> CryptoRng for Box<R>[src]

Loading content... -

Implementors

impl<R: BlockRngCore + CryptoRng> CryptoRng for BlockRng<R>[src]

Loading content...
\ No newline at end of file diff --git a/target/doc/rand_core/trait.RngCore.html b/target/doc/rand_core/trait.RngCore.html deleted file mode 100644 index 3238d4d..0000000 --- a/target/doc/rand_core/trait.RngCore.html +++ /dev/null @@ -1,114 +0,0 @@ -rand_core::RngCore - Rust

[][src]Trait rand_core::RngCore

pub trait RngCore {
-    fn next_u32(&mut self) -> u32;
-
fn next_u64(&mut self) -> u64; -
fn fill_bytes(&mut self, dest: &mut [u8]); -
fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error>; -}

The core of a random number generator.

-

This trait encapsulates the low-level functionality common to all -generators, and is the "back end", to be implemented by generators. -End users should normally use the Rng trait from the rand crate, -which is automatically implemented for every type implementing RngCore.

-

Three different methods for generating random data are provided since the -optimal implementation of each is dependent on the type of generator. There -is no required relationship between the output of each; e.g. many -implementations of fill_bytes consume a whole number of u32 or u64 -values and drop any remaining unused bytes.

-

The try_fill_bytes method is a variant of fill_bytes allowing error -handling; it is not deemed sufficiently useful to add equivalents for -next_u32 or next_u64 since the latter methods are almost always used -with algorithmic generators (PRNGs), which are normally infallible.

-

Algorithmic generators implementing [SeedableRng] should normally have -portable, reproducible output, i.e. fix Endianness when converting values -to avoid platform differences, and avoid making any changes which affect -output (except by communicating that the release has breaking changes).

-

Typically implementators will implement only one of the methods available -in this trait directly, then use the helper functions from the -[impls] module to implement the other methods.

-

It is recommended that implementations also implement:

-
    -
  • Debug with a custom implementation which does not print any internal -state (at least, [CryptoRng]s should not risk leaking state through -Debug).
  • -
  • Serialize and Deserialize (from Serde), preferably making Serde -support optional at the crate level in PRNG libs.
  • -
  • Clone, if possible.
  • -
  • never implement Copy (accidental copies may cause repeated values).
  • -
  • do not implement Default for pseudorandom generators, but instead -implement [SeedableRng], to guide users towards proper seeding. -External / hardware RNGs can choose to implement Default.
  • -
  • Eq and PartialEq could be implemented, but are probably not useful.
  • -
-

Example

-

A simple example, obviously not generating very random output:

- -
-#![allow(dead_code)]
-use rand_core::{RngCore, Error, impls};
-
-struct CountingRng(u64);
-
-impl RngCore for CountingRng {
-    fn next_u32(&mut self) -> u32 {
-        self.next_u64() as u32
-    }
-
-    fn next_u64(&mut self) -> u64 {
-        self.0 += 1;
-        self.0
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        impls::fill_bytes_via_next(self, dest)
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        Ok(self.fill_bytes(dest))
-    }
-}
-
-

Required methods

fn next_u32(&mut self) -> u32

Return the next random u32.

-

RNGs must implement at least one method from this trait directly. In -the case this method is not implemented directly, it can be implemented -using self.next_u64() as u32 or via -[fill_bytes][impls::next_u32_via_fill].

-

fn next_u64(&mut self) -> u64

Return the next random u64.

-

RNGs must implement at least one method from this trait directly. In -the case this method is not implemented directly, it can be implemented -via [next_u32][impls::next_u64_via_u32] or via -[fill_bytes][impls::next_u64_via_fill].

-

fn fill_bytes(&mut self, dest: &mut [u8])

Fill dest with random data.

-

RNGs must implement at least one method from this trait directly. In -the case this method is not implemented directly, it can be implemented -via [next_u*][impls::fill_bytes_via_next] or -via [try_fill_bytes][RngCore::try_fill_bytes]; if this generator can -fail the implementation must choose how best to handle errors here -(e.g. panic with a descriptive message or log a warning and retry a few -times).

-

This method should guarantee that dest is entirely filled -with new data, and may panic if this is impossible -(e.g. reading past the end of a file that is being used as the -source of randomness).

-

fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error>

Fill dest entirely with random data.

-

This is the only method which allows an RNG to report errors while -generating random data thus making this the primary method implemented -by external (true) RNGs (e.g. OsRng) which can fail. It may be used -directly to generate keys and to seed (infallible) PRNGs.

-

Other than error handling, this method is identical to fill_bytes; -thus this may be implemented using Ok(self.fill_bytes(dest)) or -fill_bytes may be implemented with -self.try_fill_bytes(dest).unwrap() or more specific error handling.

-
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Trait Implementations

impl Read for dyn RngCore[src]

fn read_vectored(&mut self, bufs: &mut [IoSliceMut]) -> Result<usize, Error>1.36.0[src]

Like read, except that it reads into a slice of buffers. Read more

-

unsafe fn initializer(&self) -> Initializer[src]

🔬 This is a nightly-only experimental API. (read_initializer)

Determines if this Reader can work with buffers of uninitialized memory. Read more

-

fn read_to_end(&mut self, buf: &mut Vec<u8>) -> Result<usize, Error>1.0.0[src]

Read all bytes until EOF in this source, placing them into buf. Read more

-

fn read_to_string(&mut self, buf: &mut String) -> Result<usize, Error>1.0.0[src]

Read all bytes until EOF in this source, appending them to buf. Read more

-

fn read_exact(&mut self, buf: &mut [u8]) -> Result<(), Error>1.6.0[src]

Read the exact number of bytes required to fill buf. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Creates a "by reference" adaptor for this instance of Read. Read more

-

fn bytes(self) -> Bytes<Self>1.0.0[src]

Transforms this Read instance to an [Iterator] over its bytes. Read more

-

fn chain<R>(self, next: R) -> Chain<Self, R> where
    R: Read
1.0.0[src]

Creates an adaptor which will chain this stream with another. Read more

-

fn take(self, limit: u64) -> Take<Self>1.0.0[src]

Creates an adaptor which will read at most limit bytes from it. Read more

-
-

Implementations on Foreign Types

impl<'a, R: RngCore + ?Sized> RngCore for &'a mut R[src]

impl<R: RngCore + ?Sized> RngCore for Box<R>[src]

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Implementors

impl<R: BlockRngCore<Item = u32>> RngCore for BlockRng<R> where
    <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>, 
[src]

impl<R: BlockRngCore<Item = u64>> RngCore for BlockRng64<R> where
    <R as BlockRngCore>::Results: AsRef<[u64]> + AsMut<[u64]>, 
[src]

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\ No newline at end of file diff --git a/target/doc/rand_core/trait.SeedableRng.html b/target/doc/rand_core/trait.SeedableRng.html deleted file mode 100644 index 159f876..0000000 --- a/target/doc/rand_core/trait.SeedableRng.html +++ /dev/null @@ -1,114 +0,0 @@ -rand_core::SeedableRng - Rust

[][src]Trait rand_core::SeedableRng

pub trait SeedableRng: Sized {
-    type Seed: Sized + Default + AsMut<[u8]>;
-    fn from_seed(seed: Self::Seed) -> Self;
-
-    fn seed_from_u64(state: u64) -> Self { ... }
-
fn from_rng<R: RngCore>(rng: R) -> Result<Self, Error> { ... } -
fn from_entropy() -> Self { ... } -}

A random number generator that can be explicitly seeded.

-

This trait encapsulates the low-level functionality common to all -pseudo-random number generators (PRNGs, or algorithmic generators).

-
-

Associated Types

type Seed: Sized + Default + AsMut<[u8]>

Seed type, which is restricted to types mutably-dereferencable as u8 -arrays (we recommend [u8; N] for some N).

-

It is recommended to seed PRNGs with a seed of at least circa 100 bits, -which means an array of [u8; 12] or greater to avoid picking RNGs with -partially overlapping periods.

-

For cryptographic RNG's a seed of 256 bits is recommended, [u8; 32].

-

Implementing SeedableRng for RNGs with large seeds

-

Note that the required traits core::default::Default and -core::convert::AsMut<u8> are not implemented for large arrays -[u8; N] with N > 32. To be able to implement the traits required by -SeedableRng for RNGs with such large seeds, the newtype pattern can be -used:

- -
-use rand_core::SeedableRng;
-
-const N: usize = 64;
-pub struct MyRngSeed(pub [u8; N]);
-pub struct MyRng(MyRngSeed);
-
-impl Default for MyRngSeed {
-    fn default() -> MyRngSeed {
-        MyRngSeed([0; N])
-    }
-}
-
-impl AsMut<[u8]> for MyRngSeed {
-    fn as_mut(&mut self) -> &mut [u8] {
-        &mut self.0
-    }
-}
-
-impl SeedableRng for MyRng {
-    type Seed = MyRngSeed;
-
-    fn from_seed(seed: MyRngSeed) -> MyRng {
-        MyRng(seed)
-    }
-}
-
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Required methods

fn from_seed(seed: Self::Seed) -> Self

Create a new PRNG using the given seed.

-

PRNG implementations are allowed to assume that bits in the seed are -well distributed. That means usually that the number of one and zero -bits are roughly equal, and values like 0, 1 and (size - 1) are unlikely. -Note that many non-cryptographic PRNGs will show poor quality output -if this is not adhered to. If you wish to seed from simple numbers, use -seed_from_u64 instead.

-

All PRNG implementations should be reproducible unless otherwise noted: -given a fixed seed, the same sequence of output should be produced -on all runs, library versions and architectures (e.g. check endianness). -Any "value-breaking" changes to the generator should require bumping at -least the minor version and documentation of the change.

-

It is not required that this function yield the same state as a -reference implementation of the PRNG given equivalent seed; if necessary -another constructor replicating behaviour from a reference -implementation can be added.

-

PRNG implementations should make sure from_seed never panics. In the -case that some special values (like an all zero seed) are not viable -seeds it is preferable to map these to alternative constant value(s), -for example 0xBAD5EEDu32 or 0x0DDB1A5E5BAD5EEDu64 ("odd biases? bad -seed"). This is assuming only a small number of values must be rejected.

-
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Provided methods

fn seed_from_u64(state: u64) -> Self

Create a new PRNG using a u64 seed.

-

This is a convenience-wrapper around from_seed to allow construction -of any SeedableRng from a simple u64 value. It is designed such that -low Hamming Weight numbers like 0 and 1 can be used and should still -result in good, independent seeds to the PRNG which is returned.

-

This is not suitable for cryptography, as should be clear given that -the input size is only 64 bits.

-

Implementations for PRNGs may provide their own implementations of -this function, but the default implementation should be good enough for -all purposes. Changing the implementation of this function should be -considered a value-breaking change.

-

fn from_rng<R: RngCore>(rng: R) -> Result<Self, Error>

Create a new PRNG seeded from another Rng.

-

This may be useful when needing to rapidly seed many PRNGs from a master -PRNG, and to allow forking of PRNGs. It may be considered deterministic.

-

The master PRNG should be at least as high quality as the child PRNGs. -When seeding non-cryptographic child PRNGs, we recommend using a -different algorithm for the master PRNG (ideally a CSPRNG) to avoid -correlations between the child PRNGs. If this is not possible (e.g. -forking using small non-crypto PRNGs) ensure that your PRNG has a good -mixing function on the output or consider use of a hash function with -from_seed.

-

Note that seeding XorShiftRng from another XorShiftRng provides an -extreme example of what can go wrong: the new PRNG will be a clone -of the parent.

-

PRNG implementations are allowed to assume that a good RNG is provided -for seeding, and that it is cryptographically secure when appropriate. -As of rand 0.7 / rand_core 0.5, implementations overriding this -method should ensure the implementation satisfies reproducibility -(in prior versions this was not required).

-

fn from_entropy() -> Self

Creates a new instance of the RNG seeded via getrandom.

-

This method is the recommended way to construct non-deterministic PRNGs -since it is convenient and secure.

-

In case the overhead of using getrandom to seed many PRNGs is an -issue, one may prefer to seed from a local PRNG, e.g. -from_rng(thread_rng()).unwrap().

-

Panics

-

If getrandom is unable to provide secure entropy this method will panic.

-
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Implementors

impl<R: BlockRngCore + SeedableRng> SeedableRng for BlockRng<R>[src]

type Seed = R::Seed

fn from_entropy() -> Self[src]

impl<R: BlockRngCore + SeedableRng> SeedableRng for BlockRng64<R>[src]

type Seed = R::Seed

fn from_entropy() -> Self[src]

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\ No newline at end of file diff --git a/target/doc/regex/all.html b/target/doc/regex/all.html deleted file mode 100644 index 56b3608..0000000 --- a/target/doc/regex/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Enums

Traits

Functions

\ No newline at end of file diff --git a/target/doc/regex/bytes/index.html b/target/doc/regex/bytes/index.html deleted file mode 100644 index b09b679..0000000 --- a/target/doc/regex/bytes/index.html +++ /dev/null @@ -1,98 +0,0 @@ -regex::bytes - Rust

[][src]Module regex::bytes

Match regular expressions on arbitrary bytes.

-

This module provides a nearly identical API to the one found in the -top-level of this crate. There are two important differences:

-
    -
  1. Matching is done on &[u8] instead of &str. Additionally, Vec<u8> -is used where String would have been used.
  2. -
  3. Unicode support can be disabled even when disabling it would result in -matching invalid UTF-8 bytes.
  4. -
-

Example: match null terminated string

-

This shows how to find all null-terminated strings in a slice of bytes:

- -
-let re = Regex::new(r"(?-u)(?P<cstr>[^\x00]+)\x00").unwrap();
-let text = b"foo\x00bar\x00baz\x00";
-
-// Extract all of the strings without the null terminator from each match.
-// The unwrap is OK here since a match requires the `cstr` capture to match.
-let cstrs: Vec<&[u8]> =
-    re.captures_iter(text)
-      .map(|c| c.name("cstr").unwrap().as_bytes())
-      .collect();
-assert_eq!(vec![&b"foo"[..], &b"bar"[..], &b"baz"[..]], cstrs);
-

Example: selectively enable Unicode support

-

This shows how to match an arbitrary byte pattern followed by a UTF-8 encoded -string (e.g., to extract a title from a Matroska file):

- -
-let re = Regex::new(
-    r"(?-u)\x7b\xa9(?:[\x80-\xfe]|[\x40-\xff].)(?u:(.*))"
-).unwrap();
-let text = b"\x12\xd0\x3b\x5f\x7b\xa9\x85\xe2\x98\x83\x80\x98\x54\x76\x68\x65";
-let caps = re.captures(text).unwrap();
-
-// Notice that despite the `.*` at the end, it will only match valid UTF-8
-// because Unicode mode was enabled with the `u` flag. Without the `u` flag,
-// the `.*` would match the rest of the bytes.
-let mat = caps.get(1).unwrap();
-assert_eq!((7, 10), (mat.start(), mat.end()));
-
-// If there was a match, Unicode mode guarantees that `title` is valid UTF-8.
-let title = str::from_utf8(&caps[1]).unwrap();
-assert_eq!("☃", title);
-

In general, if the Unicode flag is enabled in a capture group and that capture -is part of the overall match, then the capture is guaranteed to be valid -UTF-8.

-

Syntax

-

The supported syntax is pretty much the same as the syntax for Unicode -regular expressions with a few changes that make sense for matching arbitrary -bytes:

-
    -
  1. The u flag can be disabled even when disabling it might cause the regex to -match invalid UTF-8. When the u flag is disabled, the regex is said to be in -"ASCII compatible" mode.
  2. -
  3. In ASCII compatible mode, neither Unicode scalar values nor Unicode -character classes are allowed.
  4. -
  5. In ASCII compatible mode, Perl character classes (\w, \d and \s) -revert to their typical ASCII definition. \w maps to [[:word:]], \d maps -to [[:digit:]] and \s maps to [[:space:]].
  6. -
  7. In ASCII compatible mode, word boundaries use the ASCII compatible \w to -determine whether a byte is a word byte or not.
  8. -
  9. Hexadecimal notation can be used to specify arbitrary bytes instead of -Unicode codepoints. For example, in ASCII compatible mode, \xFF matches the -literal byte \xFF, while in Unicode mode, \xFF is a Unicode codepoint that -matches its UTF-8 encoding of \xC3\xBF. Similarly for octal notation when -enabled.
  10. -
  11. . matches any byte except for \n instead of any Unicode scalar value. -When the s flag is enabled, . matches any byte.
  12. -
-

Performance

-

In general, one should expect performance on &[u8] to be roughly similar to -performance on &str.

-

Structs

-
CaptureLocations

CaptureLocations is a low level representation of the raw offsets of each -submatch.

-
CaptureMatches

An iterator that yields all non-overlapping capture groups matching a -particular regular expression.

-
CaptureNames

An iterator over the names of all possible captures.

-
Captures

Captures represents a group of captured byte strings for a single match.

-
Match

Match represents a single match of a regex in a haystack.

-
Matches

An iterator over all non-overlapping matches for a particular string.

-
NoExpand

NoExpand indicates literal byte string replacement.

-
Regex

A compiled regular expression for matching arbitrary bytes.

-
RegexBuilder

A configurable builder for a regular expression.

-
RegexSet

Match multiple (possibly overlapping) regular expressions in a single scan.

-
RegexSetBuilder

A configurable builder for a set of regular expressions.

-
ReplacerRef

By-reference adaptor for a Replacer

-
SetMatches

A set of matches returned by a regex set.

-
SetMatchesIntoIter

An owned iterator over the set of matches from a regex set.

-
SetMatchesIter

A borrowed iterator over the set of matches from a regex set.

-
Split

Yields all substrings delimited by a regular expression match.

-
SplitN

Yields at most N substrings delimited by a regular expression match.

-
SubCaptureMatches

An iterator that yields all capturing matches in the order in which they -appear in the regex.

-

Traits

-
Replacer

Replacer describes types that can be used to replace matches in a byte -string.

-
\ No newline at end of file diff --git a/target/doc/regex/bytes/sidebar-items.js b/target/doc/regex/bytes/sidebar-items.js deleted file mode 100644 index 87294e5..0000000 --- a/target/doc/regex/bytes/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["CaptureLocations","CaptureLocations is a low level representation of the raw offsets of each submatch."],["CaptureMatches","An iterator that yields all non-overlapping capture groups matching a particular regular expression."],["CaptureNames","An iterator over the names of all possible captures."],["Captures","Captures represents a group of captured byte strings for a single match."],["Match","Match represents a single match of a regex in a haystack."],["Matches","An iterator over all non-overlapping matches for a particular string."],["NoExpand","`NoExpand` indicates literal byte string replacement."],["Regex","A compiled regular expression for matching arbitrary bytes."],["RegexBuilder","A configurable builder for a regular expression."],["RegexSet","Match multiple (possibly overlapping) regular expressions in a single scan."],["RegexSetBuilder","A configurable builder for a set of regular expressions."],["ReplacerRef","By-reference adaptor for a `Replacer`"],["SetMatches","A set of matches returned by a regex set."],["SetMatchesIntoIter","An owned iterator over the set of matches from a regex set."],["SetMatchesIter","A borrowed iterator over the set of matches from a regex set."],["Split","Yields all substrings delimited by a regular expression match."],["SplitN","Yields at most `N` substrings delimited by a regular expression match."],["SubCaptureMatches","An iterator that yields all capturing matches in the order in which they appear in the regex."]],"trait":[["Replacer","Replacer describes types that can be used to replace matches in a byte string."]]}); \ No newline at end of file diff --git a/target/doc/regex/bytes/struct.CaptureLocations.html b/target/doc/regex/bytes/struct.CaptureLocations.html deleted file mode 100644 index 81e3bd6..0000000 --- a/target/doc/regex/bytes/struct.CaptureLocations.html +++ /dev/null @@ -1,36 +0,0 @@ -regex::bytes::CaptureLocations - Rust

[][src]Struct regex::bytes::CaptureLocations

pub struct CaptureLocations(_);

CaptureLocations is a low level representation of the raw offsets of each -submatch.

-

You can think of this as a lower level -Captures, where this type does not support -named capturing groups directly and it does not borrow the text that these -offsets were matched on.

-

Primarily, this type is useful when using the lower level Regex APIs -such as read_captures, which permits amortizing the allocation in which -capture match locations are stored.

-

In order to build a value of this type, you'll need to call the -capture_locations method on the Regex being used to execute the search. -The value returned can then be reused in subsequent searches.

-

Methods

impl CaptureLocations[src]

pub fn get(&self, i: usize) -> Option<(usize, usize)>[src]

Returns the start and end positions of the Nth capture group. Returns -None if i is not a valid capture group or if the capture group did -not match anything. The positions returned are always byte indices -with respect to the original string matched.

-

pub fn len(&self) -> usize[src]

Returns the total number of capturing groups.

-

This is always at least 1 since every regex has at least 1 -capturing group that corresponds to the entire match.

-

Trait Implementations

impl Clone for CaptureLocations[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for CaptureLocations[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.CaptureMatches.html b/target/doc/regex/bytes/struct.CaptureMatches.html deleted file mode 100644 index 3274aaa..0000000 --- a/target/doc/regex/bytes/struct.CaptureMatches.html +++ /dev/null @@ -1,82 +0,0 @@ -regex::bytes::CaptureMatches - Rust

[][src]Struct regex::bytes::CaptureMatches

pub struct CaptureMatches<'r, 't>(_);

An iterator that yields all non-overlapping capture groups matching a -particular regular expression.

-

The iterator stops when no more matches can be found.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the matched byte string.

-

Trait Implementations

impl<'r, 't> Iterator for CaptureMatches<'r, 't>[src]

type Item = Captures<'t>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for CaptureMatches<'r, 't>

impl<'r, 't> !Sync for CaptureMatches<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.CaptureNames.html b/target/doc/regex/bytes/struct.CaptureNames.html deleted file mode 100644 index 99c9933..0000000 --- a/target/doc/regex/bytes/struct.CaptureNames.html +++ /dev/null @@ -1,81 +0,0 @@ -regex::bytes::CaptureNames - Rust

[][src]Struct regex::bytes::CaptureNames

pub struct CaptureNames<'r>(_);

An iterator over the names of all possible captures.

-

None indicates an unnamed capture; the first element (capture 0, the -whole matched region) is always unnamed.

-

'r is the lifetime of the compiled regular expression.

-

Trait Implementations

impl<'r> Iterator for CaptureNames<'r>[src]

type Item = Option<&'r str>

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r> Send for CaptureNames<'r>

impl<'r> Sync for CaptureNames<'r>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.Captures.html b/target/doc/regex/bytes/struct.Captures.html deleted file mode 100644 index 26f5b1c..0000000 --- a/target/doc/regex/bytes/struct.Captures.html +++ /dev/null @@ -1,74 +0,0 @@ -regex::bytes::Captures - Rust

[][src]Struct regex::bytes::Captures

pub struct Captures<'t> { /* fields omitted */ }

Captures represents a group of captured byte strings for a single match.

-

The 0th capture always corresponds to the entire match. Each subsequent -index corresponds to the next capture group in the regex. If a capture -group is named, then the matched byte string is also available via the -name method. (Note that the 0th capture is always unnamed and so must be -accessed with the get method.)

-

Positions returned from a capture group are always byte indices.

-

't is the lifetime of the matched text.

-

Methods

impl<'t> Captures<'t>[src]

pub fn get(&self, i: usize) -> Option<Match<'t>>[src]

Returns the match associated with the capture group at index i. If -i does not correspond to a capture group, or if the capture group -did not participate in the match, then None is returned.

-

Examples

-

Get the text of the match with a default of an empty string if this -group didn't participate in the match:

- -
-let re = Regex::new(r"[a-z]+(?:([0-9]+)|([A-Z]+))").unwrap();
-let caps = re.captures(b"abc123").unwrap();
-
-let text1 = caps.get(1).map_or(&b""[..], |m| m.as_bytes());
-let text2 = caps.get(2).map_or(&b""[..], |m| m.as_bytes());
-assert_eq!(text1, &b"123"[..]);
-assert_eq!(text2, &b""[..]);
-

pub fn name(&self, name: &str) -> Option<Match<'t>>[src]

Returns the match for the capture group named name. If name isn't a -valid capture group or didn't match anything, then None is returned.

-

Important traits for SubCaptureMatches<'c, 't>
pub fn iter<'c>(&'c self) -> SubCaptureMatches<'c, 't>[src]

An iterator that yields all capturing matches in the order in which -they appear in the regex. If a particular capture group didn't -participate in the match, then None is yielded for that capture.

-

The first match always corresponds to the overall match of the regex.

-

pub fn expand(&self, replacement: &[u8], dst: &mut Vec<u8>)[src]

Expands all instances of $name in replacement to the corresponding -capture group name, and writes them to the dst buffer given.

-

name may be an integer corresponding to the index of the -capture group (counted by order of opening parenthesis where 0 is the -entire match) or it can be a name (consisting of letters, digits or -underscores) corresponding to a named capture group.

-

If name isn't a valid capture group (whether the name doesn't exist -or isn't a valid index), then it is replaced with the empty string.

-

The longest possible name is used. e.g., $1a looks up the capture -group named 1a and not the capture group at index 1. To exert more -precise control over the name, use braces, e.g., ${1}a.

-

To write a literal $ use $$.

-

pub fn len(&self) -> usize[src]

Returns the number of captured groups.

-

This is always at least 1, since every regex has at least one capture -group that corresponds to the full match.

-

Trait Implementations

impl<'t> Debug for Captures<'t>[src]

impl<'t> Index<usize> for Captures<'t>[src]

Get a group by index.

-

't is the lifetime of the matched text.

-

The text can't outlive the Captures object if this method is -used, because of how Index is defined (normally a[i] is part -of a and can't outlive it); to do that, use get() instead.

-

Panics

-

If there is no group at the given index.

-

type Output = [u8]

The returned type after indexing.

-

impl<'t, 'i> Index<&'i str> for Captures<'t>[src]

Get a group by name.

-

't is the lifetime of the matched text and 'i is the lifetime -of the group name (the index).

-

The text can't outlive the Captures object if this method is -used, because of how Index is defined (normally a[i] is part -of a and can't outlive it); to do that, use name instead.

-

Panics

-

If there is no group named by the given value.

-

type Output = [u8]

The returned type after indexing.

-

Auto Trait Implementations

impl<'t> Send for Captures<'t>

impl<'t> Sync for Captures<'t>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.Match.html b/target/doc/regex/bytes/struct.Match.html deleted file mode 100644 index a6d1210..0000000 --- a/target/doc/regex/bytes/struct.Match.html +++ /dev/null @@ -1,24 +0,0 @@ -regex::bytes::Match - Rust

[][src]Struct regex::bytes::Match

pub struct Match<'t> { /* fields omitted */ }

Match represents a single match of a regex in a haystack.

-

The lifetime parameter 't refers to the lifetime of the matched text.

-

Methods

impl<'t> Match<'t>[src]

pub fn start(&self) -> usize[src]

Returns the starting byte offset of the match in the haystack.

-

pub fn end(&self) -> usize[src]

Returns the ending byte offset of the match in the haystack.

-

pub fn as_bytes(&self) -> &'t [u8][src]

Returns the matched text.

-

Trait Implementations

impl<'t> PartialEq<Match<'t>> for Match<'t>[src]

impl<'t> Clone for Match<'t>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<'t> Eq for Match<'t>[src]

impl<'t> Copy for Match<'t>[src]

impl<'t> Debug for Match<'t>[src]

Auto Trait Implementations

impl<'t> Send for Match<'t>

impl<'t> Sync for Match<'t>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.Matches.html b/target/doc/regex/bytes/struct.Matches.html deleted file mode 100644 index b952e78..0000000 --- a/target/doc/regex/bytes/struct.Matches.html +++ /dev/null @@ -1,83 +0,0 @@ -regex::bytes::Matches - Rust

[][src]Struct regex::bytes::Matches

pub struct Matches<'r, 't>(_);

An iterator over all non-overlapping matches for a particular string.

-

The iterator yields a tuple of integers corresponding to the start and end -of the match. The indices are byte offsets. The iterator stops when no more -matches can be found.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the matched byte string.

-

Trait Implementations

impl<'r, 't> Iterator for Matches<'r, 't>[src]

type Item = Match<'t>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for Matches<'r, 't>

impl<'r, 't> !Sync for Matches<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.NoExpand.html b/target/doc/regex/bytes/struct.NoExpand.html deleted file mode 100644 index 05c019b..0000000 --- a/target/doc/regex/bytes/struct.NoExpand.html +++ /dev/null @@ -1,19 +0,0 @@ -regex::bytes::NoExpand - Rust

[][src]Struct regex::bytes::NoExpand

pub struct NoExpand<'t>(pub &'t [u8]);

NoExpand indicates literal byte string replacement.

-

It can be used with replace and replace_all to do a literal byte string -replacement without expanding $name to their corresponding capture -groups. This can be both convenient (to avoid escaping $, for example) -and performant (since capture groups don't need to be found).

-

't is the lifetime of the literal text.

-

Trait Implementations

impl<'t> Replacer for NoExpand<'t>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Return a Replacer that borrows and wraps this Replacer. Read more

-

Auto Trait Implementations

impl<'t> Send for NoExpand<'t>

impl<'t> Sync for NoExpand<'t>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.Regex.html b/target/doc/regex/bytes/struct.Regex.html deleted file mode 100644 index 6aa9160..0000000 --- a/target/doc/regex/bytes/struct.Regex.html +++ /dev/null @@ -1,296 +0,0 @@ -regex::bytes::Regex - Rust

[][src]Struct regex::bytes::Regex

pub struct Regex(_);

A compiled regular expression for matching arbitrary bytes.

-

It can be used to search, split or replace text. All searching is done with -an implicit .*? at the beginning and end of an expression. To force an -expression to match the whole string (or a prefix or a suffix), you must -use an anchor like ^ or $ (or \A and \z).

-

Like the Regex type in the parent module, matches with this regex return -byte offsets into the search text. Unlike the parent Regex type, -these byte offsets may not correspond to UTF-8 sequence boundaries since -the regexes in this module can match arbitrary bytes.

-

Methods

impl Regex[src]

Core regular expression methods.

-

pub fn new(re: &str) -> Result<Regex, Error>[src]

Compiles a regular expression. Once compiled, it can be used repeatedly -to search, split or replace text in a string.

-

If an invalid expression is given, then an error is returned.

-

pub fn is_match(&self, text: &[u8]) -> bool[src]

Returns true if and only if the regex matches the string given.

-

It is recommended to use this method if all you need to do is test -a match, since the underlying matching engine may be able to do less -work.

-

Example

-

Test if some text contains at least one word with exactly 13 ASCII word -bytes:

- -
-let text = b"I categorically deny having triskaidekaphobia.";
-assert!(Regex::new(r"\b\w{13}\b").unwrap().is_match(text));
-

pub fn find<'t>(&self, text: &'t [u8]) -> Option<Match<'t>>[src]

Returns the start and end byte range of the leftmost-first match in -text. If no match exists, then None is returned.

-

Note that this should only be used if you want to discover the position -of the match. Testing the existence of a match is faster if you use -is_match.

-

Example

-

Find the start and end location of the first word with exactly 13 -ASCII word bytes:

- -
-let text = b"I categorically deny having triskaidekaphobia.";
-let mat = Regex::new(r"\b\w{13}\b").unwrap().find(text).unwrap();
-assert_eq!((mat.start(), mat.end()), (2, 15));
-

Important traits for Matches<'r, 't>
pub fn find_iter<'r, 't>(&'r self, text: &'t [u8]) -> Matches<'r, 't>[src]

Returns an iterator for each successive non-overlapping match in -text, returning the start and end byte indices with respect to -text.

-

Example

-

Find the start and end location of every word with exactly 13 ASCII -word bytes:

- -
-let text = b"Retroactively relinquishing remunerations is reprehensible.";
-for mat in Regex::new(r"\b\w{13}\b").unwrap().find_iter(text) {
-    println!("{:?}", mat);
-}
-

pub fn captures<'t>(&self, text: &'t [u8]) -> Option<Captures<'t>>[src]

Returns the capture groups corresponding to the leftmost-first -match in text. Capture group 0 always corresponds to the entire -match. If no match is found, then None is returned.

-

You should only use captures if you need access to the location of -capturing group matches. Otherwise, find is faster for discovering -the location of the overall match.

-

Examples

-

Say you have some text with movie names and their release years, -like "'Citizen Kane' (1941)". It'd be nice if we could search for text -looking like that, while also extracting the movie name and its release -year separately.

- -
-let re = Regex::new(r"'([^']+)'\s+\((\d{4})\)").unwrap();
-let text = b"Not my favorite movie: 'Citizen Kane' (1941).";
-let caps = re.captures(text).unwrap();
-assert_eq!(caps.get(1).unwrap().as_bytes(), &b"Citizen Kane"[..]);
-assert_eq!(caps.get(2).unwrap().as_bytes(), &b"1941"[..]);
-assert_eq!(caps.get(0).unwrap().as_bytes(), &b"'Citizen Kane' (1941)"[..]);
-// You can also access the groups by index using the Index notation.
-// Note that this will panic on an invalid index.
-assert_eq!(&caps[1], b"Citizen Kane");
-assert_eq!(&caps[2], b"1941");
-assert_eq!(&caps[0], b"'Citizen Kane' (1941)");
-

Note that the full match is at capture group 0. Each subsequent -capture group is indexed by the order of its opening (.

-

We can make this example a bit clearer by using named capture groups:

- -
-let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-               .unwrap();
-let text = b"Not my favorite movie: 'Citizen Kane' (1941).";
-let caps = re.captures(text).unwrap();
-assert_eq!(caps.name("title").unwrap().as_bytes(), b"Citizen Kane");
-assert_eq!(caps.name("year").unwrap().as_bytes(), b"1941");
-assert_eq!(caps.get(0).unwrap().as_bytes(), &b"'Citizen Kane' (1941)"[..]);
-// You can also access the groups by name using the Index notation.
-// Note that this will panic on an invalid group name.
-assert_eq!(&caps["title"], b"Citizen Kane");
-assert_eq!(&caps["year"], b"1941");
-assert_eq!(&caps[0], b"'Citizen Kane' (1941)");
-
-

Here we name the capture groups, which we can access with the name -method or the Index notation with a &str. Note that the named -capture groups are still accessible with get or the Index notation -with a usize.

-

The 0th capture group is always unnamed, so it must always be -accessed with get(0) or [0].

-

Important traits for CaptureMatches<'r, 't>
pub fn captures_iter<'r, 't>(&'r self, text: &'t [u8]) -> CaptureMatches<'r, 't>[src]

Returns an iterator over all the non-overlapping capture groups matched -in text. This is operationally the same as find_iter, except it -yields information about capturing group matches.

-

Example

-

We can use this to find all movie titles and their release years in -some text, where the movie is formatted like "'Title' (xxxx)":

- -
-let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-               .unwrap();
-let text = b"'Citizen Kane' (1941), 'The Wizard of Oz' (1939), 'M' (1931).";
-for caps in re.captures_iter(text) {
-    let title = str::from_utf8(&caps["title"]).unwrap();
-    let year = str::from_utf8(&caps["year"]).unwrap();
-    println!("Movie: {:?}, Released: {:?}", title, year);
-}
-// Output:
-// Movie: Citizen Kane, Released: 1941
-// Movie: The Wizard of Oz, Released: 1939
-// Movie: M, Released: 1931
-

Important traits for Split<'r, 't>
pub fn split<'r, 't>(&'r self, text: &'t [u8]) -> Split<'r, 't>[src]

Returns an iterator of substrings of text delimited by a match of the -regular expression. Namely, each element of the iterator corresponds to -text that isn't matched by the regular expression.

-

This method will not copy the text given.

-

Example

-

To split a string delimited by arbitrary amounts of spaces or tabs:

- -
-let re = Regex::new(r"[ \t]+").unwrap();
-let fields: Vec<&[u8]> = re.split(b"a b \t  c\td    e").collect();
-assert_eq!(fields, vec![
-    &b"a"[..], &b"b"[..], &b"c"[..], &b"d"[..], &b"e"[..],
-]);
-

Important traits for SplitN<'r, 't>
pub fn splitn<'r, 't>(&'r self, text: &'t [u8], limit: usize) -> SplitN<'r, 't>[src]

Returns an iterator of at most limit substrings of text delimited -by a match of the regular expression. (A limit of 0 will return no -substrings.) Namely, each element of the iterator corresponds to text -that isn't matched by the regular expression. The remainder of the -string that is not split will be the last element in the iterator.

-

This method will not copy the text given.

-

Example

-

Get the first two words in some text:

- -
-let re = Regex::new(r"\W+").unwrap();
-let fields: Vec<&[u8]> = re.splitn(b"Hey! How are you?", 3).collect();
-assert_eq!(fields, vec![&b"Hey"[..], &b"How"[..], &b"are you?"[..]]);
-

pub fn replace<'t, R: Replacer>(&self, text: &'t [u8], rep: R) -> Cow<'t, [u8]>[src]

Replaces the leftmost-first match with the replacement provided. The -replacement can be a regular byte string (where $N and $name are -expanded to match capture groups) or a function that takes the matches' -Captures and returns the replaced byte string.

-

If no match is found, then a copy of the byte string is returned -unchanged.

-

Replacement string syntax

-

All instances of $name in the replacement text is replaced with the -corresponding capture group name.

-

name may be an integer corresponding to the index of the -capture group (counted by order of opening parenthesis where 0 is the -entire match) or it can be a name (consisting of letters, digits or -underscores) corresponding to a named capture group.

-

If name isn't a valid capture group (whether the name doesn't exist -or isn't a valid index), then it is replaced with the empty string.

-

The longest possible name is used. e.g., $1a looks up the capture -group named 1a and not the capture group at index 1. To exert more -precise control over the name, use braces, e.g., ${1}a.

-

To write a literal $ use $$.

-

Examples

-

Note that this function is polymorphic with respect to the replacement. -In typical usage, this can just be a normal byte string:

- -
-let re = Regex::new("[^01]+").unwrap();
-assert_eq!(re.replace(b"1078910", &b""[..]), &b"1010"[..]);
-

But anything satisfying the Replacer trait will work. For example, a -closure of type |&Captures| -> Vec<u8> provides direct access to the -captures corresponding to a match. This allows one to access capturing -group matches easily:

- -
-let re = Regex::new(r"([^,\s]+),\s+(\S+)").unwrap();
-let result = re.replace(b"Springsteen, Bruce", |caps: &Captures| {
-    let mut replacement = caps[2].to_owned();
-    replacement.push(b' ');
-    replacement.extend(&caps[1]);
-    replacement
-});
-assert_eq!(result, &b"Bruce Springsteen"[..]);
-

But this is a bit cumbersome to use all the time. Instead, a simple -syntax is supported that expands $name into the corresponding capture -group. Here's the last example, but using this expansion technique -with named capture groups:

- -
-let re = Regex::new(r"(?P<last>[^,\s]+),\s+(?P<first>\S+)").unwrap();
-let result = re.replace(b"Springsteen, Bruce", &b"$first $last"[..]);
-assert_eq!(result, &b"Bruce Springsteen"[..]);
-

Note that using $2 instead of $first or $1 instead of $last -would produce the same result. To write a literal $ use $$.

-

Sometimes the replacement string requires use of curly braces to -delineate a capture group replacement and surrounding literal text. -For example, if we wanted to join two words together with an -underscore:

- -
-let re = Regex::new(r"(?P<first>\w+)\s+(?P<second>\w+)").unwrap();
-let result = re.replace(b"deep fried", &b"${first}_$second"[..]);
-assert_eq!(result, &b"deep_fried"[..]);
-

Without the curly braces, the capture group name first_ would be -used, and since it doesn't exist, it would be replaced with the empty -string.

-

Finally, sometimes you just want to replace a literal string with no -regard for capturing group expansion. This can be done by wrapping a -byte string with NoExpand:

- -
-use regex::bytes::NoExpand;
-
-let re = Regex::new(r"(?P<last>[^,\s]+),\s+(\S+)").unwrap();
-let result = re.replace(b"Springsteen, Bruce", NoExpand(b"$2 $last"));
-assert_eq!(result, &b"$2 $last"[..]);
-

pub fn replace_all<'t, R: Replacer>(
    &self,
    text: &'t [u8],
    rep: R
) -> Cow<'t, [u8]>
[src]

Replaces all non-overlapping matches in text with the replacement -provided. This is the same as calling replacen with limit set to -0.

-

See the documentation for replace for details on how to access -capturing group matches in the replacement text.

-

pub fn replacen<'t, R: Replacer>(
    &self,
    text: &'t [u8],
    limit: usize,
    rep: R
) -> Cow<'t, [u8]>
[src]

Replaces at most limit non-overlapping matches in text with the -replacement provided. If limit is 0, then all non-overlapping matches -are replaced.

-

See the documentation for replace for details on how to access -capturing group matches in the replacement text.

-

impl Regex[src]

Advanced or "lower level" search methods.

-

pub fn shortest_match(&self, text: &[u8]) -> Option<usize>[src]

Returns the end location of a match in the text given.

-

This method may have the same performance characteristics as -is_match, except it provides an end location for a match. In -particular, the location returned may be shorter than the proper end -of the leftmost-first match.

-

Example

-

Typically, a+ would match the entire first sequence of a in some -text, but shortest_match can give up as soon as it sees the first -a.

- -
-let text = b"aaaaa";
-let pos = Regex::new(r"a+").unwrap().shortest_match(text);
-assert_eq!(pos, Some(1));
-

pub fn shortest_match_at(&self, text: &[u8], start: usize) -> Option<usize>[src]

Returns the same as shortest_match, but starts the search at the given -offset.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

pub fn is_match_at(&self, text: &[u8], start: usize) -> bool[src]

Returns the same as is_match, but starts the search at the given -offset.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

pub fn find_at<'t>(&self, text: &'t [u8], start: usize) -> Option<Match<'t>>[src]

Returns the same as find, but starts the search at the given -offset.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

pub fn captures_read<'t>(
    &self,
    locs: &mut CaptureLocations,
    text: &'t [u8]
) -> Option<Match<'t>>
[src]

This is like captures, but uses -CaptureLocations -instead of -Captures in order to amortize allocations.

-

To create a CaptureLocations value, use the -Regex::capture_locations method.

-

This returns the overall match if this was successful, which is always -equivalence to the 0th capture group.

-

pub fn captures_read_at<'t>(
    &self,
    locs: &mut CaptureLocations,
    text: &'t [u8],
    start: usize
) -> Option<Match<'t>>
[src]

Returns the same as captures_read, but starts the search at the given -offset and populates the capture locations given.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

impl Regex[src]

Auxiliary methods.

-

pub fn as_str(&self) -> &str[src]

Returns the original string of this regex.

-

Important traits for CaptureNames<'r>
pub fn capture_names(&self) -> CaptureNames[src]

Returns an iterator over the capture names.

-

pub fn captures_len(&self) -> usize[src]

Returns the number of captures.

-

pub fn capture_locations(&self) -> CaptureLocations[src]

Returns an empty set of capture locations that can be reused in -multiple calls to captures_read or captures_read_at.

-

Trait Implementations

impl Clone for Regex[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Display for Regex[src]

fn fmt(&self, f: &mut Formatter) -> Result[src]

Shows the original regular expression.

-

impl Debug for Regex[src]

fn fmt(&self, f: &mut Formatter) -> Result[src]

Shows the original regular expression.

-

impl FromStr for Regex[src]

type Err = Error

The associated error which can be returned from parsing.

-

fn from_str(s: &str) -> Result<Regex, Error>[src]

Attempts to parse a string into a regular expression

-

Auto Trait Implementations

impl Send for Regex

impl Sync for Regex

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.RegexBuilder.html b/target/doc/regex/bytes/struct.RegexBuilder.html deleted file mode 100644 index 9c6861b..0000000 --- a/target/doc/regex/bytes/struct.RegexBuilder.html +++ /dev/null @@ -1,89 +0,0 @@ -regex::bytes::RegexBuilder - Rust

[][src]Struct regex::bytes::RegexBuilder

pub struct RegexBuilder(_);

A configurable builder for a regular expression.

-

A builder can be used to configure how the regex is built, for example, by -setting the default flags (which can be overridden in the expression -itself) or setting various limits.

-

Methods

impl RegexBuilder[src]

pub fn new(pattern: &str) -> RegexBuilder[src]

Create a new regular expression builder with the given pattern.

-

If the pattern is invalid, then an error will be returned when -build is called.

-

pub fn build(&self) -> Result<Regex, Error>[src]

Consume the builder and compile the regular expression.

-

Note that calling as_str on the resulting Regex will produce the -pattern given to new verbatim. Notably, it will not incorporate any -of the flags set on this builder.

-

pub fn case_insensitive(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the case insensitive (i) flag.

-

When enabled, letters in the pattern will match both upper case and -lower case variants.

-

pub fn multi_line(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the multi-line matching (m) flag.

-

When enabled, ^ matches the beginning of lines and $ matches the -end of lines.

-

By default, they match beginning/end of the input.

-

pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the any character (s) flag, where in . matches -anything when s is set and matches anything except for new line when -it is not set (the default).

-

N.B. "matches anything" means "any byte" when Unicode is disabled and -means "any valid UTF-8 encoding of any Unicode scalar value" when -Unicode is enabled.

-

pub fn swap_greed(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the greedy swap (U) flag.

-

When enabled, a pattern like a* is lazy (tries to find shortest -match) and a*? is greedy (tries to find longest match).

-

By default, a* is greedy and a*? is lazy.

-

pub fn ignore_whitespace(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the ignore whitespace (x) flag.

-

When enabled, whitespace such as new lines and spaces will be ignored -between expressions of the pattern, and # can be used to start a -comment until the next new line.

-

pub fn unicode(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the Unicode (u) flag.

-

Enabled by default. When disabled, character classes such as \w only -match ASCII word characters instead of all Unicode word characters.

-

pub fn octal(&mut self, yes: bool) -> &mut RegexBuilder[src]

Whether to support octal syntax or not.

-

Octal syntax is a little-known way of uttering Unicode codepoints in -a regular expression. For example, a, \x61, \u0061 and -\141 are all equivalent regular expressions, where the last example -shows octal syntax.

-

While supporting octal syntax isn't in and of itself a problem, it does -make good error messages harder. That is, in PCRE based regex engines, -syntax like \0 invokes a backreference, which is explicitly -unsupported in Rust's regex engine. However, many users expect it to -be supported. Therefore, when octal support is disabled, the error -message will explicitly mention that backreferences aren't supported.

-

Octal syntax is disabled by default.

-

pub fn size_limit(&mut self, limit: usize) -> &mut RegexBuilder[src]

Set the approximate size limit of the compiled regular expression.

-

This roughly corresponds to the number of bytes occupied by a single -compiled program. If the program exceeds this number, then a -compilation error is returned.

-

pub fn dfa_size_limit(&mut self, limit: usize) -> &mut RegexBuilder[src]

Set the approximate size of the cache used by the DFA.

-

This roughly corresponds to the number of bytes that the DFA will -use while searching.

-

Note that this is a per thread limit. There is no way to set a global -limit. In particular, if a regex is used from multiple threads -simultaneously, then each thread may use up to the number of bytes -specified here.

-

pub fn nest_limit(&mut self, limit: u32) -> &mut RegexBuilder[src]

Set the nesting limit for this parser.

-

The nesting limit controls how deep the abstract syntax tree is allowed -to be. If the AST exceeds the given limit (e.g., with too many nested -groups), then an error is returned by the parser.

-

The purpose of this limit is to act as a heuristic to prevent stack -overflow for consumers that do structural induction on an Ast using -explicit recursion. While this crate never does this (instead using -constant stack space and moving the call stack to the heap), other -crates may.

-

This limit is not checked until the entire Ast is parsed. Therefore, -if callers want to put a limit on the amount of heap space used, then -they should impose a limit on the length, in bytes, of the concrete -pattern string. In particular, this is viable since this parser -implementation will limit itself to heap space proportional to the -length of the pattern string.

-

Note that a nest limit of 0 will return a nest limit error for most -patterns but not all. For example, a nest limit of 0 permits a but -not ab, since ab requires a concatenation, which results in a nest -depth of 1. In general, a nest limit is not something that manifests -in an obvious way in the concrete syntax, therefore, it should not be -used in a granular way.

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.RegexSet.html b/target/doc/regex/bytes/struct.RegexSet.html deleted file mode 100644 index 6edb419..0000000 --- a/target/doc/regex/bytes/struct.RegexSet.html +++ /dev/null @@ -1,164 +0,0 @@ -regex::bytes::RegexSet - Rust

[][src]Struct regex::bytes::RegexSet

pub struct RegexSet(_);

Match multiple (possibly overlapping) regular expressions in a single scan.

-

A regex set corresponds to the union of two or more regular expressions. -That is, a regex set will match text where at least one of its -constituent regular expressions matches. A regex set as its formulated here -provides a touch more power: it will also report which regular -expressions in the set match. Indeed, this is the key difference between -regex sets and a single Regex with many alternates, since only one -alternate can match at a time.

-

For example, consider regular expressions to match email addresses and -domains: [a-z]+@[a-z]+\.(com|org|net) and [a-z]+\.(com|org|net). If a -regex set is constructed from those regexes, then searching the text -foo@example.com will report both regexes as matching. Of course, one -could accomplish this by compiling each regex on its own and doing two -searches over the text. The key advantage of using a regex set is that it -will report the matching regexes using a single pass through the text. -If one has hundreds or thousands of regexes to match repeatedly (like a URL -router for a complex web application or a user agent matcher), then a regex -set can realize huge performance gains.

-

Example

-

This shows how the above two regexes (for matching email addresses and -domains) might work:

- -
-let set = RegexSet::new(&[
-    r"[a-z]+@[a-z]+\.(com|org|net)",
-    r"[a-z]+\.(com|org|net)",
-]).unwrap();
-
-// Ask whether any regexes in the set match.
-assert!(set.is_match(b"foo@example.com"));
-
-// Identify which regexes in the set match.
-let matches: Vec<_> = set.matches(b"foo@example.com").into_iter().collect();
-assert_eq!(vec![0, 1], matches);
-
-// Try again, but with text that only matches one of the regexes.
-let matches: Vec<_> = set.matches(b"example.com").into_iter().collect();
-assert_eq!(vec![1], matches);
-
-// Try again, but with text that doesn't match any regex in the set.
-let matches: Vec<_> = set.matches(b"example").into_iter().collect();
-assert!(matches.is_empty());
-

Note that it would be possible to adapt the above example to using Regex -with an expression like:

- -
This example is not tested
-(?P<email>[a-z]+@(?P<email_domain>[a-z]+[.](com|org|net)))|(?P<domain>[a-z]+[.](com|org|net))
-

After a match, one could then inspect the capture groups to figure out -which alternates matched. The problem is that it is hard to make this -approach scale when there are many regexes since the overlap between each -alternate isn't always obvious to reason about.

-

Limitations

-

Regex sets are limited to answering the following two questions:

-
    -
  1. Does any regex in the set match?
  2. -
  3. If so, which regexes in the set match?
  4. -
-

As with the main Regex type, it is cheaper to ask (1) instead of (2) -since the matching engines can stop after the first match is found.

-

Other features like finding the location of successive matches or their -sub-captures aren't supported. If you need this functionality, the -recommended approach is to compile each regex in the set independently and -selectively match them based on which regexes in the set matched.

-

Performance

-

A RegexSet has the same performance characteristics as Regex. Namely, -search takes O(mn) time, where m is proportional to the size of the -regex set and n is proportional to the length of the search text.

-

Methods

impl RegexSet[src]

pub fn new<I, S>(exprs: I) -> Result<RegexSet, Error> where
    S: AsRef<str>,
    I: IntoIterator<Item = S>, 
[src]

Create a new regex set with the given regular expressions.

-

This takes an iterator of S, where S is something that can produce -a &str. If any of the strings in the iterator are not valid regular -expressions, then an error is returned.

-

Example

-

Create a new regex set from an iterator of strings:

- -
-let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
-assert!(set.is_match("foo"));
-

pub fn is_match(&self, text: &[u8]) -> bool[src]

Returns true if and only if one of the regexes in this set matches -the text given.

-

This method should be preferred if you only need to test whether any -of the regexes in the set should match, but don't care about which -regexes matched. This is because the underlying matching engine will -quit immediately after seeing the first match instead of continuing to -find all matches.

-

Note that as with searches using Regex, the expression is unanchored -by default. That is, if the regex does not start with ^ or \A, or -end with $ or \z, then it is permitted to match anywhere in the -text.

-

Example

-

Tests whether a set matches some text:

- -
-let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
-assert!(set.is_match("foo"));
-assert!(!set.is_match("☃"));
-

pub fn matches(&self, text: &[u8]) -> SetMatches[src]

Returns the set of regular expressions that match in the given text.

-

The set returned contains the index of each regular expression that -matches in the given text. The index is in correspondence with the -order of regular expressions given to RegexSet's constructor.

-

The set can also be used to iterate over the matched indices.

-

Note that as with searches using Regex, the expression is unanchored -by default. That is, if the regex does not start with ^ or \A, or -end with $ or \z, then it is permitted to match anywhere in the -text.

-

Example

-

Tests which regular expressions match the given text:

- -
-let set = RegexSet::new(&[
-    r"\w+",
-    r"\d+",
-    r"\pL+",
-    r"foo",
-    r"bar",
-    r"barfoo",
-    r"foobar",
-]).unwrap();
-let matches: Vec<_> = set.matches("foobar").into_iter().collect();
-assert_eq!(matches, vec![0, 2, 3, 4, 6]);
-
-// You can also test whether a particular regex matched:
-let matches = set.matches("foobar");
-assert!(!matches.matched(5));
-assert!(matches.matched(6));
-

pub fn len(&self) -> usize[src]

Returns the total number of regular expressions in this set.

-

pub fn patterns(&self) -> &[String][src]

Returns the patterns that this set will match on.

-

This function can be used to determine the pattern for a match. The -slice returned has exactly as many patterns givens to this regex set, -and the order of the slice is the same as the order of the patterns -provided to the set.

-

Example

-
-let set = RegexSet::new(&[
-    r"\w+",
-    r"\d+",
-    r"\pL+",
-    r"foo",
-    r"bar",
-    r"barfoo",
-    r"foobar",
-]).unwrap();
-let matches: Vec<_> = set
-    .matches("foobar")
-    .into_iter()
-    .map(|match_idx| &set.patterns()[match_idx])
-    .collect();
-assert_eq!(matches, vec![r"\w+", r"\pL+", r"foo", r"bar", r"foobar"]);
-

Trait Implementations

impl Clone for RegexSet[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for RegexSet[src]

Auto Trait Implementations

impl Send for RegexSet

impl Sync for RegexSet

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.RegexSetBuilder.html b/target/doc/regex/bytes/struct.RegexSetBuilder.html deleted file mode 100644 index 9d02f08..0000000 --- a/target/doc/regex/bytes/struct.RegexSetBuilder.html +++ /dev/null @@ -1,73 +0,0 @@ -regex::bytes::RegexSetBuilder - Rust

[][src]Struct regex::bytes::RegexSetBuilder

pub struct RegexSetBuilder(_);

A configurable builder for a set of regular expressions.

-

A builder can be used to configure how the regexes are built, for example, -by setting the default flags (which can be overridden in the expression -itself) or setting various limits.

-

Methods

impl RegexSetBuilder[src]

pub fn new<I, S>(patterns: I) -> RegexSetBuilder where
    S: AsRef<str>,
    I: IntoIterator<Item = S>, 
[src]

Create a new regular expression builder with the given pattern.

-

If the pattern is invalid, then an error will be returned when -build is called.

-

pub fn build(&self) -> Result<RegexSet, Error>[src]

Consume the builder and compile the regular expressions into a set.

-

pub fn case_insensitive(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the case insensitive (i) flag.

-

pub fn multi_line(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the multi-line matching (m) flag.

-

pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the any character (s) flag, where in . matches -anything when s is set and matches anything except for new line when -it is not set (the default).

-

N.B. "matches anything" means "any byte" for regex::bytes::RegexSet -expressions and means "any Unicode scalar value" for regex::RegexSet -expressions.

-

pub fn swap_greed(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the greedy swap (U) flag.

-

pub fn ignore_whitespace(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the ignore whitespace (x) flag.

-

pub fn unicode(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the Unicode (u) flag.

-

pub fn octal(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Whether to support octal syntax or not.

-

Octal syntax is a little-known way of uttering Unicode codepoints in -a regular expression. For example, a, \x61, \u0061 and -\141 are all equivalent regular expressions, where the last example -shows octal syntax.

-

While supporting octal syntax isn't in and of itself a problem, it does -make good error messages harder. That is, in PCRE based regex engines, -syntax like \0 invokes a backreference, which is explicitly -unsupported in Rust's regex engine. However, many users expect it to -be supported. Therefore, when octal support is disabled, the error -message will explicitly mention that backreferences aren't supported.

-

Octal syntax is disabled by default.

-

pub fn size_limit(&mut self, limit: usize) -> &mut RegexSetBuilder[src]

Set the approximate size limit of the compiled regular expression.

-

This roughly corresponds to the number of bytes occupied by a single -compiled program. If the program exceeds this number, then a -compilation error is returned.

-

pub fn dfa_size_limit(&mut self, limit: usize) -> &mut RegexSetBuilder[src]

Set the approximate size of the cache used by the DFA.

-

This roughly corresponds to the number of bytes that the DFA will -use while searching.

-

Note that this is a per thread limit. There is no way to set a global -limit. In particular, if a regex is used from multiple threads -simultaneously, then each thread may use up to the number of bytes -specified here.

-

pub fn nest_limit(&mut self, limit: u32) -> &mut RegexSetBuilder[src]

Set the nesting limit for this parser.

-

The nesting limit controls how deep the abstract syntax tree is allowed -to be. If the AST exceeds the given limit (e.g., with too many nested -groups), then an error is returned by the parser.

-

The purpose of this limit is to act as a heuristic to prevent stack -overflow for consumers that do structural induction on an Ast using -explicit recursion. While this crate never does this (instead using -constant stack space and moving the call stack to the heap), other -crates may.

-

This limit is not checked until the entire Ast is parsed. Therefore, -if callers want to put a limit on the amount of heap space used, then -they should impose a limit on the length, in bytes, of the concrete -pattern string. In particular, this is viable since this parser -implementation will limit itself to heap space proportional to the -length of the pattern string.

-

Note that a nest limit of 0 will return a nest limit error for most -patterns but not all. For example, a nest limit of 0 permits a but -not ab, since ab requires a concatenation, which results in a nest -depth of 1. In general, a nest limit is not something that manifests -in an obvious way in the concrete syntax, therefore, it should not be -used in a granular way.

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.ReplacerRef.html b/target/doc/regex/bytes/struct.ReplacerRef.html deleted file mode 100644 index ce013a5..0000000 --- a/target/doc/regex/bytes/struct.ReplacerRef.html +++ /dev/null @@ -1,16 +0,0 @@ -regex::bytes::ReplacerRef - Rust

[][src]Struct regex::bytes::ReplacerRef

pub struct ReplacerRef<'a, R: ?Sized + 'a>(_);

By-reference adaptor for a Replacer

-

Returned by Replacer::by_ref.

-

Trait Implementations

impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Return a Replacer that borrows and wraps this Replacer. Read more

-

impl<'a, R: Debug + ?Sized + 'a> Debug for ReplacerRef<'a, R>[src]

Auto Trait Implementations

impl<'a, R: ?Sized> Send for ReplacerRef<'a, R> where
    R: Send

impl<'a, R: ?Sized> Sync for ReplacerRef<'a, R> where
    R: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.SetMatches.html b/target/doc/regex/bytes/struct.SetMatches.html deleted file mode 100644 index 3472cae..0000000 --- a/target/doc/regex/bytes/struct.SetMatches.html +++ /dev/null @@ -1,38 +0,0 @@ -regex::bytes::SetMatches - Rust

[][src]Struct regex::bytes::SetMatches

pub struct SetMatches { /* fields omitted */ }

A set of matches returned by a regex set.

-

Methods

impl SetMatches[src]

pub fn matched_any(&self) -> bool[src]

Whether this set contains any matches.

-

pub fn matched(&self, regex_index: usize) -> bool[src]

Whether the regex at the given index matched.

-

The index for a regex is determined by its insertion order upon the -initial construction of a RegexSet, starting at 0.

-

Panics

-

If regex_index is greater than or equal to self.len().

-

pub fn len(&self) -> usize[src]

The total number of regexes in the set that created these matches.

-

Important traits for SetMatchesIter<'a>
pub fn iter(&self) -> SetMatchesIter[src]

Returns an iterator over indexes in the regex that matched.

-

This will always produces matches in ascending order of index, where -the index corresponds to the index of the regex that matched with -respect to its position when initially building the set.

-

Trait Implementations

impl Clone for SetMatches[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl IntoIterator for SetMatches[src]

type IntoIter = SetMatchesIntoIter

Which kind of iterator are we turning this into?

-

type Item = usize

The type of the elements being iterated over.

-

impl<'a> IntoIterator for &'a SetMatches[src]

type IntoIter = SetMatchesIter<'a>

Which kind of iterator are we turning this into?

-

type Item = usize

The type of the elements being iterated over.

-

impl Debug for SetMatches[src]

Auto Trait Implementations

impl Send for SetMatches

impl Sync for SetMatches

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.SetMatchesIntoIter.html b/target/doc/regex/bytes/struct.SetMatchesIntoIter.html deleted file mode 100644 index 0b08c1e..0000000 --- a/target/doc/regex/bytes/struct.SetMatchesIntoIter.html +++ /dev/null @@ -1,86 +0,0 @@ -regex::bytes::SetMatchesIntoIter - Rust

[][src]Struct regex::bytes::SetMatchesIntoIter

pub struct SetMatchesIntoIter(_);

An owned iterator over the set of matches from a regex set.

-

This will always produces matches in ascending order of index, where the -index corresponds to the index of the regex that matched with respect to -its position when initially building the set.

-

Trait Implementations

impl DoubleEndedIterator for SetMatchesIntoIter[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl Iterator for SetMatchesIntoIter[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.SetMatchesIter.html b/target/doc/regex/bytes/struct.SetMatchesIter.html deleted file mode 100644 index 93186a5..0000000 --- a/target/doc/regex/bytes/struct.SetMatchesIter.html +++ /dev/null @@ -1,93 +0,0 @@ -regex::bytes::SetMatchesIter - Rust

[][src]Struct regex::bytes::SetMatchesIter

pub struct SetMatchesIter<'a>(_);

A borrowed iterator over the set of matches from a regex set.

-

The lifetime 'a refers to the lifetime of a SetMatches value.

-

This will always produces matches in ascending order of index, where the -index corresponds to the index of the regex that matched with respect to -its position when initially building the set.

-

Trait Implementations

impl<'a> DoubleEndedIterator for SetMatchesIter<'a>[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl<'a> Iterator for SetMatchesIter<'a>[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a> Clone for SetMatchesIter<'a>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl<'a> Send for SetMatchesIter<'a>

impl<'a> Sync for SetMatchesIter<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.Split.html b/target/doc/regex/bytes/struct.Split.html deleted file mode 100644 index a837924..0000000 --- a/target/doc/regex/bytes/struct.Split.html +++ /dev/null @@ -1,80 +0,0 @@ -regex::bytes::Split - Rust

[][src]Struct regex::bytes::Split

pub struct Split<'r, 't> { /* fields omitted */ }

Yields all substrings delimited by a regular expression match.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the byte string being split.

-

Trait Implementations

impl<'r, 't> Iterator for Split<'r, 't>[src]

type Item = &'t [u8]

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for Split<'r, 't>

impl<'r, 't> !Sync for Split<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.SplitN.html b/target/doc/regex/bytes/struct.SplitN.html deleted file mode 100644 index ffcf141..0000000 --- a/target/doc/regex/bytes/struct.SplitN.html +++ /dev/null @@ -1,81 +0,0 @@ -regex::bytes::SplitN - Rust

[][src]Struct regex::bytes::SplitN

pub struct SplitN<'r, 't> { /* fields omitted */ }

Yields at most N substrings delimited by a regular expression match.

-

The last substring will be whatever remains after splitting.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the byte string being split.

-

Trait Implementations

impl<'r, 't> Iterator for SplitN<'r, 't>[src]

type Item = &'t [u8]

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for SplitN<'r, 't>

impl<'r, 't> !Sync for SplitN<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/struct.SubCaptureMatches.html b/target/doc/regex/bytes/struct.SubCaptureMatches.html deleted file mode 100644 index f9192f5..0000000 --- a/target/doc/regex/bytes/struct.SubCaptureMatches.html +++ /dev/null @@ -1,84 +0,0 @@ -regex::bytes::SubCaptureMatches - Rust

[][src]Struct regex::bytes::SubCaptureMatches

pub struct SubCaptureMatches<'c, 't: 'c> { /* fields omitted */ }

An iterator that yields all capturing matches in the order in which they -appear in the regex.

-

If a particular capture group didn't participate in the match, then None -is yielded for that capture. The first match always corresponds to the -overall match of the regex.

-

The lifetime 'c corresponds to the lifetime of the Captures value, and -the lifetime 't corresponds to the originally matched text.

-

Trait Implementations

impl<'c, 't> Iterator for SubCaptureMatches<'c, 't>[src]

type Item = Option<Match<'t>>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'c, 't> Send for SubCaptureMatches<'c, 't>

impl<'c, 't> Sync for SubCaptureMatches<'c, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/bytes/trait.Replacer.html b/target/doc/regex/bytes/trait.Replacer.html deleted file mode 100644 index 44a0ab6..0000000 --- a/target/doc/regex/bytes/trait.Replacer.html +++ /dev/null @@ -1,45 +0,0 @@ -regex::bytes::Replacer - Rust

[][src]Trait regex::bytes::Replacer

pub trait Replacer {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut Vec<u8>);
-
-    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>> { ... }
-
fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self> { ... } -}

Replacer describes types that can be used to replace matches in a byte -string.

-

In general, users of this crate shouldn't need to implement this trait, -since implementations are already provided for &[u8] and -FnMut(&Captures) -> Vec<u8> (or any FnMut(&Captures) -> T -where T: AsRef<[u8]>), which covers most use cases.

-
-

Required methods

fn replace_append(&mut self, caps: &Captures, dst: &mut Vec<u8>)

Appends text to dst to replace the current match.

-

The current match is represented by caps, which is guaranteed to -have a match at capture group 0.

-

For example, a no-op replacement would be -dst.extend(&caps[0]).

-
Loading content... -

Provided methods

fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>>

Return a fixed unchanging replacement byte string.

-

When doing replacements, if access to Captures is not needed (e.g., -the replacement byte string does not need $ expansion), then it can -be beneficial to avoid finding sub-captures.

-

In general, this is called once for every call to replacen.

-

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>

Return a Replacer that borrows and wraps this Replacer.

-

This is useful when you want to take a generic Replacer (which might -not be cloneable) and use it without consuming it, so it can be used -more than once.

-

Example

-
-use regex::bytes::{Regex, Replacer};
-
-fn replace_all_twice<R: Replacer>(
-    re: Regex,
-    src: &[u8],
-    mut rep: R,
-) -> Vec<u8> {
-    let dst = re.replace_all(src, rep.by_ref());
-    let dst = re.replace_all(&dst, rep.by_ref());
-    dst.into_owned()
-}
-
Loading content... -

Implementations on Foreign Types

impl<'a> Replacer for &'a [u8][src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Loading content... -

Implementors

impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

impl<'t> Replacer for NoExpand<'t>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

impl<F, T> Replacer for F where
    F: FnMut(&Captures) -> T,
    T: AsRef<[u8]>, 
[src]

fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Loading content...
\ No newline at end of file diff --git a/target/doc/regex/enum.Error.html b/target/doc/regex/enum.Error.html deleted file mode 100644 index ee38590..0000000 --- a/target/doc/regex/enum.Error.html +++ /dev/null @@ -1,35 +0,0 @@ -regex::Error - Rust

[][src]Enum regex::Error

pub enum Error {
-    Syntax(String),
-    CompiledTooBig(usize),
-    // some variants omitted
-}

An error that occurred during parsing or compiling a regular expression.

-

- Variants

-Syntax(String)

A syntax error.

-
CompiledTooBig(usize)

The compiled program exceeded the set size limit. -The argument is the size limit imposed.

-

Trait Implementations

impl PartialEq<Error> for Error[src]

impl Clone for Error[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Display for Error[src]

impl Debug for Error[src]

impl Error for Error[src]

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/error/enum.Error.html b/target/doc/regex/error/enum.Error.html deleted file mode 100644 index d5bba07..0000000 --- a/target/doc/regex/error/enum.Error.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../regex/enum.Error.html...

- - - \ No newline at end of file diff --git a/target/doc/regex/fn.escape.html b/target/doc/regex/fn.escape.html deleted file mode 100644 index 737f556..0000000 --- a/target/doc/regex/fn.escape.html +++ /dev/null @@ -1,4 +0,0 @@ -regex::escape - Rust

[][src]Function regex::escape

pub fn escape(text: &str) -> String

Escapes all regular expression meta characters in text.

-

The string returned may be safely used as a literal in a regular -expression.

-
\ No newline at end of file diff --git a/target/doc/regex/index.html b/target/doc/regex/index.html deleted file mode 100644 index 32610f9..0000000 --- a/target/doc/regex/index.html +++ /dev/null @@ -1,418 +0,0 @@ -regex - Rust

[][src]Crate regex

This crate provides a library for parsing, compiling, and executing regular -expressions. Its syntax is similar to Perl-style regular expressions, but lacks -a few features like look around and backreferences. In exchange, all searches -execute in linear time with respect to the size of the regular expression and -search text.

-

This crate's documentation provides some simple examples, describes -Unicode support and exhaustively lists the -supported syntax.

-

For more specific details on the API for regular expressions, please see the -documentation for the Regex type.

-

Usage

-

This crate is on crates.io and can be -used by adding regex to your dependencies in your project's Cargo.toml.

-
[dependencies]
-regex = "1"
-
-

and this to your crate root:

- -
-extern crate regex;
-

Example: find a date

-

General use of regular expressions in this package involves compiling an -expression and then using it to search, split or replace text. For example, -to confirm that some text resembles a date:

- -
-use regex::Regex;
-let re = Regex::new(r"^\d{4}-\d{2}-\d{2}$").unwrap();
-assert!(re.is_match("2014-01-01"));
-

Notice the use of the ^ and $ anchors. In this crate, every expression -is executed with an implicit .*? at the beginning and end, which allows -it to match anywhere in the text. Anchors can be used to ensure that the -full text matches an expression.

-

This example also demonstrates the utility of -raw strings -in Rust, which -are just like regular strings except they are prefixed with an r and do -not process any escape sequences. For example, "\\d" is the same -expression as r"\d".

-

Example: Avoid compiling the same regex in a loop

-

It is an anti-pattern to compile the same regular expression in a loop -since compilation is typically expensive. (It takes anywhere from a few -microseconds to a few milliseconds depending on the size of the -regex.) Not only is compilation itself expensive, but this also prevents -optimizations that reuse allocations internally to the matching engines.

-

In Rust, it can sometimes be a pain to pass regular expressions around if -they're used from inside a helper function. Instead, we recommend using the -lazy_static crate to ensure that -regular expressions are compiled exactly once.

-

For example:

- -
-#[macro_use] extern crate lazy_static;
-extern crate regex;
-
-use regex::Regex;
-
-fn some_helper_function(text: &str) -> bool {
-    lazy_static! {
-        static ref RE: Regex = Regex::new("...").unwrap();
-    }
-    RE.is_match(text)
-}
-
-fn main() {}
-

Specifically, in this example, the regex will be compiled when it is used for -the first time. On subsequent uses, it will reuse the previous compilation.

-

Example: iterating over capture groups

-

This crate provides convenient iterators for matching an expression -repeatedly against a search string to find successive non-overlapping -matches. For example, to find all dates in a string and be able to access -them by their component pieces:

- -
-let re = Regex::new(r"(\d{4})-(\d{2})-(\d{2})").unwrap();
-let text = "2012-03-14, 2013-01-01 and 2014-07-05";
-for cap in re.captures_iter(text) {
-    println!("Month: {} Day: {} Year: {}", &cap[2], &cap[3], &cap[1]);
-}
-// Output:
-// Month: 03 Day: 14 Year: 2012
-// Month: 01 Day: 01 Year: 2013
-// Month: 07 Day: 05 Year: 2014
-

Notice that the year is in the capture group indexed at 1. This is -because the entire match is stored in the capture group at index 0.

-

Example: replacement with named capture groups

-

Building on the previous example, perhaps we'd like to rearrange the date -formats. This can be done with text replacement. But to make the code -clearer, we can name our capture groups and use those names as variables -in our replacement text:

- -
-let re = Regex::new(r"(?P<y>\d{4})-(?P<m>\d{2})-(?P<d>\d{2})").unwrap();
-let before = "2012-03-14, 2013-01-01 and 2014-07-05";
-let after = re.replace_all(before, "$m/$d/$y");
-assert_eq!(after, "03/14/2012, 01/01/2013 and 07/05/2014");
-

The replace methods are actually polymorphic in the replacement, which -provides more flexibility than is seen here. (See the documentation for -Regex::replace for more details.)

-

Note that if your regex gets complicated, you can use the x flag to -enable insignificant whitespace mode, which also lets you write comments:

- -
-let re = Regex::new(r"(?x)
-  (?P<y>\d{4}) # the year
-  -
-  (?P<m>\d{2}) # the month
-  -
-  (?P<d>\d{2}) # the day
-").unwrap();
-let before = "2012-03-14, 2013-01-01 and 2014-07-05";
-let after = re.replace_all(before, "$m/$d/$y");
-assert_eq!(after, "03/14/2012, 01/01/2013 and 07/05/2014");
-

If you wish to match against whitespace in this mode, you can still use \s, -\n, \t, etc. For escaping a single space character, you can use its hex -character code \x20 or temporarily disable the x flag, e.g., (?-x: ).

-

Example: match multiple regular expressions simultaneously

-

This demonstrates how to use a RegexSet to match multiple (possibly -overlapping) regular expressions in a single scan of the search text:

- -
-use regex::RegexSet;
-
-let set = RegexSet::new(&[
-    r"\w+",
-    r"\d+",
-    r"\pL+",
-    r"foo",
-    r"bar",
-    r"barfoo",
-    r"foobar",
-]).unwrap();
-
-// Iterate over and collect all of the matches.
-let matches: Vec<_> = set.matches("foobar").into_iter().collect();
-assert_eq!(matches, vec![0, 2, 3, 4, 6]);
-
-// You can also test whether a particular regex matched:
-let matches = set.matches("foobar");
-assert!(!matches.matched(5));
-assert!(matches.matched(6));
-

Pay for what you use

-

With respect to searching text with a regular expression, there are three -questions that can be asked:

-
    -
  1. Does the text match this expression?
  2. -
  3. If so, where does it match?
  4. -
  5. Where did the capturing groups match?
  6. -
-

Generally speaking, this crate could provide a function to answer only #3, -which would subsume #1 and #2 automatically. However, it can be significantly -more expensive to compute the location of capturing group matches, so it's best -not to do it if you don't need to.

-

Therefore, only use what you need. For example, don't use find if you -only need to test if an expression matches a string. (Use is_match -instead.)

-

Unicode

-

This implementation executes regular expressions only on valid UTF-8 -while exposing match locations as byte indices into the search string.

-

Only simple case folding is supported. Namely, when matching -case-insensitively, the characters are first mapped using the "simple" case -folding rules defined by Unicode.

-

Regular expressions themselves are only interpreted as a sequence of -Unicode scalar values. This means you can use Unicode characters directly -in your expression:

- -
-let re = Regex::new(r"(?i)Δ+").unwrap();
-let mat = re.find("ΔδΔ").unwrap();
-assert_eq!((mat.start(), mat.end()), (0, 6));
-

Most features of the regular expressions in this crate are Unicode aware. Here -are some examples:

-
    -
  • . will match any valid UTF-8 encoded Unicode scalar value except for \n. -(To also match \n, enable the s flag, e.g., (?s:.).)
  • -
  • \w, \d and \s are Unicode aware. For example, \s will match all forms -of whitespace categorized by Unicode.
  • -
  • \b matches a Unicode word boundary.
  • -
  • Negated character classes like [^a] match all Unicode scalar values except -for a.
  • -
  • ^ and $ are not Unicode aware in multi-line mode. Namely, they only -recognize \n and not any of the other forms of line terminators defined -by Unicode.
  • -
-

Unicode general categories, scripts, script extensions, ages and a smattering -of boolean properties are available as character classes. For example, you can -match a sequence of numerals, Greek or Cherokee letters:

- -
-let re = Regex::new(r"[\pN\p{Greek}\p{Cherokee}]+").unwrap();
-let mat = re.find("abcΔᎠβⅠᏴγδⅡxyz").unwrap();
-assert_eq!((mat.start(), mat.end()), (3, 23));
-

For a more detailed breakdown of Unicode support with respect to -UTS#18, -please see the -UNICODE -document in the root of the regex repository.

-

Opt out of Unicode support

-

The bytes sub-module provides a Regex type that can be used to match -on &[u8]. By default, text is interpreted as UTF-8 just like it is with -the main Regex type. However, this behavior can be disabled by turning -off the u flag, even if doing so could result in matching invalid UTF-8. -For example, when the u flag is disabled, . will match any byte instead -of any Unicode scalar value.

-

Disabling the u flag is also possible with the standard &str-based Regex -type, but it is only allowed where the UTF-8 invariant is maintained. For -example, (?-u:\w) is an ASCII-only \w character class and is legal in an -&str-based Regex, but (?-u:\xFF) will attempt to match the raw byte -\xFF, which is invalid UTF-8 and therefore is illegal in &str-based -regexes.

-

Syntax

-

The syntax supported in this crate is documented below.

-

Note that the regular expression parser and abstract syntax are exposed in -a separate crate, regex-syntax.

-

Matching one character

-.             any character except new line (includes new line with s flag)
-\d            digit (\p{Nd})
-\D            not digit
-\pN           One-letter name Unicode character class
-\p{Greek}     Unicode character class (general category or script)
-\PN           Negated one-letter name Unicode character class
-\P{Greek}     negated Unicode character class (general category or script)
-
-

Character classes

-[xyz]         A character class matching either x, y or z (union).
-[^xyz]        A character class matching any character except x, y and z.
-[a-z]         A character class matching any character in range a-z.
-[[:alpha:]]   ASCII character class ([A-Za-z])
-[[:^alpha:]]  Negated ASCII character class ([^A-Za-z])
-[x[^xyz]]     Nested/grouping character class (matching any character except y and z)
-[a-y&&xyz]    Intersection (matching x or y)
-[0-9&&[^4]]   Subtraction using intersection and negation (matching 0-9 except 4)
-[0-9--4]      Direct subtraction (matching 0-9 except 4)
-[a-g~~b-h]    Symmetric difference (matching `a` and `h` only)
-[\[\]]        Escaping in character classes (matching [ or ])
-
-

Any named character class may appear inside a bracketed [...] character -class. For example, [\p{Greek}[:digit:]] matches any Greek or ASCII -digit. [\p{Greek}&&\pL] matches Greek letters.

-

Precedence in character classes, from most binding to least:

-
    -
  1. Ranges: a-cd == [a-c]d
  2. -
  3. Union: ab&&bc == [ab]&&[bc]
  4. -
  5. Intersection: ^a-z&&b == ^[a-z&&b]
  6. -
  7. Negation
  8. -
-

Composites

-xy    concatenation (x followed by y)
-x|y   alternation (x or y, prefer x)
-
-

Repetitions

-x*        zero or more of x (greedy)
-x+        one or more of x (greedy)
-x?        zero or one of x (greedy)
-x*?       zero or more of x (ungreedy/lazy)
-x+?       one or more of x (ungreedy/lazy)
-x??       zero or one of x (ungreedy/lazy)
-x{n,m}    at least n x and at most m x (greedy)
-x{n,}     at least n x (greedy)
-x{n}      exactly n x
-x{n,m}?   at least n x and at most m x (ungreedy/lazy)
-x{n,}?    at least n x (ungreedy/lazy)
-x{n}?     exactly n x
-
-

Empty matches

-^     the beginning of text (or start-of-line with multi-line mode)
-$     the end of text (or end-of-line with multi-line mode)
-\A    only the beginning of text (even with multi-line mode enabled)
-\z    only the end of text (even with multi-line mode enabled)
-\b    a Unicode word boundary (\w on one side and \W, \A, or \z on other)
-\B    not a Unicode word boundary
-
-

Grouping and flags

-(exp)          numbered capture group (indexed by opening parenthesis)
-(?P<name>exp)  named (also numbered) capture group (allowed chars: [_0-9a-zA-Z])
-(?:exp)        non-capturing group
-(?flags)       set flags within current group
-(?flags:exp)   set flags for exp (non-capturing)
-
-

Flags are each a single character. For example, (?x) sets the flag x -and (?-x) clears the flag x. Multiple flags can be set or cleared at -the same time: (?xy) sets both the x and y flags and (?x-y) sets -the x flag and clears the y flag.

-

All flags are by default disabled unless stated otherwise. They are:

-
-i     case-insensitive: letters match both upper and lower case
-m     multi-line mode: ^ and $ match begin/end of line
-s     allow . to match \n
-U     swap the meaning of x* and x*?
-u     Unicode support (enabled by default)
-x     ignore whitespace and allow line comments (starting with `#`)
-
-

Flags can be toggled within a pattern. Here's an example that matches -case-insensitively for the first part but case-sensitively for the second part:

- -
-let re = Regex::new(r"(?i)a+(?-i)b+").unwrap();
-let cap = re.captures("AaAaAbbBBBb").unwrap();
-assert_eq!(&cap[0], "AaAaAbb");
-

Notice that the a+ matches either a or A, but the b+ only matches -b.

-

Multi-line mode means ^ and $ no longer match just at the beginning/end of -the input, but at the beginning/end of lines:

- -
-let re = Regex::new(r"(?m)^line \d+").unwrap();
-let m = re.find("line one\nline 2\n").unwrap();
-assert_eq!(m.as_str(), "line 2");
-

Note that ^ matches after new lines, even at the end of input:

- -
-let re = Regex::new(r"(?m)^").unwrap();
-let m = re.find_iter("test\n").last().unwrap();
-assert_eq!((m.start(), m.end()), (5, 5));
-

Here is an example that uses an ASCII word boundary instead of a Unicode -word boundary:

- -
-let re = Regex::new(r"(?-u:\b).+(?-u:\b)").unwrap();
-let cap = re.captures("$$abc$$").unwrap();
-assert_eq!(&cap[0], "abc");
-

Escape sequences

-\*          literal *, works for any punctuation character: \.+*?()|[]{}^$
-\a          bell (\x07)
-\f          form feed (\x0C)
-\t          horizontal tab
-\n          new line
-\r          carriage return
-\v          vertical tab (\x0B)
-\123        octal character code (up to three digits) (when enabled)
-\x7F        hex character code (exactly two digits)
-\x{10FFFF}  any hex character code corresponding to a Unicode code point
-\u007F      hex character code (exactly four digits)
-\u{7F}      any hex character code corresponding to a Unicode code point
-\U0000007F  hex character code (exactly eight digits)
-\U{7F}      any hex character code corresponding to a Unicode code point
-
-

Perl character classes (Unicode friendly)

-

These classes are based on the definitions provided in -UTS#18:

-
-\d     digit (\p{Nd})
-\D     not digit
-\s     whitespace (\p{White_Space})
-\S     not whitespace
-\w     word character (\p{Alphabetic} + \p{M} + \d + \p{Pc} + \p{Join_Control})
-\W     not word character
-
-

ASCII character classes

-[[:alnum:]]    alphanumeric ([0-9A-Za-z])
-[[:alpha:]]    alphabetic ([A-Za-z])
-[[:ascii:]]    ASCII ([\x00-\x7F])
-[[:blank:]]    blank ([\t ])
-[[:cntrl:]]    control ([\x00-\x1F\x7F])
-[[:digit:]]    digits ([0-9])
-[[:graph:]]    graphical ([!-~])
-[[:lower:]]    lower case ([a-z])
-[[:print:]]    printable ([ -~])
-[[:punct:]]    punctuation ([!-/:-@\[-`{-~])
-[[:space:]]    whitespace ([\t\n\v\f\r ])
-[[:upper:]]    upper case ([A-Z])
-[[:word:]]     word characters ([0-9A-Za-z_])
-[[:xdigit:]]   hex digit ([0-9A-Fa-f])
-
-

Untrusted input

-

This crate can handle both untrusted regular expressions and untrusted -search text.

-

Untrusted regular expressions are handled by capping the size of a compiled -regular expression. -(See RegexBuilder::size_limit.) -Without this, it would be trivial for an attacker to exhaust your system's -memory with expressions like a{100}{100}{100}.

-

Untrusted search text is allowed because the matching engine(s) in this -crate have time complexity O(mn) (with m ~ regex and n ~ search text), which means there's no way to cause exponential blow-up like with -some other regular expression engines. (We pay for this by disallowing -features like arbitrary look-ahead and backreferences.)

-

When a DFA is used, pathological cases with exponential state blow-up are -avoided by constructing the DFA lazily or in an "online" manner. Therefore, -at most one new state can be created for each byte of input. This satisfies -our time complexity guarantees, but can lead to memory growth -proportional to the size of the input. As a stopgap, the DFA is only -allowed to store a fixed number of states. When the limit is reached, its -states are wiped and continues on, possibly duplicating previous work. If -the limit is reached too frequently, it gives up and hands control off to -another matching engine with fixed memory requirements. -(The DFA size limit can also be tweaked. See -RegexBuilder::dfa_size_limit.)

-

Modules

-
bytes

Match regular expressions on arbitrary bytes.

-

Structs

-
CaptureLocations

CaptureLocations is a low level representation of the raw offsets of each -submatch.

-
CaptureMatches

An iterator that yields all non-overlapping capture groups matching a -particular regular expression.

-
CaptureNames

An iterator over the names of all possible captures.

-
Captures

Captures represents a group of captured strings for a single match.

-
Match

Match represents a single match of a regex in a haystack.

-
Matches

An iterator over all non-overlapping matches for a particular string.

-
NoExpand

NoExpand indicates literal string replacement.

-
Regex

A compiled regular expression for matching Unicode strings.

-
RegexBuilder

A configurable builder for a regular expression.

-
RegexSet

Match multiple (possibly overlapping) regular expressions in a single scan.

-
RegexSetBuilder

A configurable builder for a set of regular expressions.

-
ReplacerRef

By-reference adaptor for a Replacer

-
SetMatches

A set of matches returned by a regex set.

-
SetMatchesIntoIter

An owned iterator over the set of matches from a regex set.

-
SetMatchesIter

A borrowed iterator over the set of matches from a regex set.

-
Split

Yields all substrings delimited by a regular expression match.

-
SplitN

Yields at most N substrings delimited by a regular expression match.

-
SubCaptureMatches

An iterator that yields all capturing matches in the order in which they -appear in the regex.

-

Enums

-
Error

An error that occurred during parsing or compiling a regular expression.

-

Traits

-
Replacer

Replacer describes types that can be used to replace matches in a string.

-

Functions

-
escape

Escapes all regular expression meta characters in text.

-
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- - - \ No newline at end of file diff --git a/target/doc/regex/sidebar-items.js b/target/doc/regex/sidebar-items.js deleted file mode 100644 index 2319e7b..0000000 --- a/target/doc/regex/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["Error","An error that occurred during parsing or compiling a regular expression."]],"fn":[["escape","Escapes all regular expression meta characters in `text`."]],"mod":[["bytes","Match regular expressions on arbitrary bytes."]],"struct":[["CaptureLocations","CaptureLocations is a low level representation of the raw offsets of each submatch."],["CaptureMatches","An iterator that yields all non-overlapping capture groups matching a particular regular expression."],["CaptureNames","An iterator over the names of all possible captures."],["Captures","Captures represents a group of captured strings for a single match."],["Match","Match represents a single match of a regex in a haystack."],["Matches","An iterator over all non-overlapping matches for a particular string."],["NoExpand","`NoExpand` indicates literal string replacement."],["Regex","A compiled regular expression for matching Unicode strings."],["RegexBuilder","A configurable builder for a regular expression."],["RegexSet","Match multiple (possibly overlapping) regular expressions in a single scan."],["RegexSetBuilder","A configurable builder for a set of regular expressions."],["ReplacerRef","By-reference adaptor for a `Replacer`"],["SetMatches","A set of matches returned by a regex set."],["SetMatchesIntoIter","An owned iterator over the set of matches from a regex set."],["SetMatchesIter","A borrowed iterator over the set of matches from a regex set."],["Split","Yields all substrings delimited by a regular expression match."],["SplitN","Yields at most `N` substrings delimited by a regular expression match."],["SubCaptureMatches","An iterator that yields all capturing matches in the order in which they appear in the regex."]],"trait":[["Replacer","Replacer describes types that can be used to replace matches in a string."]]}); \ No newline at end of file diff --git a/target/doc/regex/struct.CaptureLocations.html b/target/doc/regex/struct.CaptureLocations.html deleted file mode 100644 index c18442e..0000000 --- a/target/doc/regex/struct.CaptureLocations.html +++ /dev/null @@ -1,36 +0,0 @@ -regex::CaptureLocations - Rust

[][src]Struct regex::CaptureLocations

pub struct CaptureLocations(_);

CaptureLocations is a low level representation of the raw offsets of each -submatch.

-

You can think of this as a lower level -Captures, where this type does not support -named capturing groups directly and it does not borrow the text that these -offsets were matched on.

-

Primarily, this type is useful when using the lower level Regex APIs -such as read_captures, which permits amortizing the allocation in which -capture match locations are stored.

-

In order to build a value of this type, you'll need to call the -capture_locations method on the Regex being used to execute the search. -The value returned can then be reused in subsequent searches.

-

Methods

impl CaptureLocations[src]

pub fn get(&self, i: usize) -> Option<(usize, usize)>[src]

Returns the start and end positions of the Nth capture group. Returns -None if i is not a valid capture group or if the capture group did -not match anything. The positions returned are always byte indices -with respect to the original string matched.

-

pub fn len(&self) -> usize[src]

Returns the total number of capturing groups.

-

This is always at least 1 since every regex has at least 1 -capturing group that corresponds to the entire match.

-

Trait Implementations

impl Clone for CaptureLocations[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for CaptureLocations[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.CaptureMatches.html b/target/doc/regex/struct.CaptureMatches.html deleted file mode 100644 index 3c982dc..0000000 --- a/target/doc/regex/struct.CaptureMatches.html +++ /dev/null @@ -1,82 +0,0 @@ -regex::CaptureMatches - Rust

[][src]Struct regex::CaptureMatches

pub struct CaptureMatches<'r, 't>(_);

An iterator that yields all non-overlapping capture groups matching a -particular regular expression.

-

The iterator stops when no more matches can be found.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the matched string.

-

Trait Implementations

impl<'r, 't> Iterator for CaptureMatches<'r, 't>[src]

type Item = Captures<'t>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for CaptureMatches<'r, 't>

impl<'r, 't> !Sync for CaptureMatches<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.CaptureNames.html b/target/doc/regex/struct.CaptureNames.html deleted file mode 100644 index 050c584..0000000 --- a/target/doc/regex/struct.CaptureNames.html +++ /dev/null @@ -1,81 +0,0 @@ -regex::CaptureNames - Rust

[][src]Struct regex::CaptureNames

pub struct CaptureNames<'r>(_);

An iterator over the names of all possible captures.

-

None indicates an unnamed capture; the first element (capture 0, the -whole matched region) is always unnamed.

-

'r is the lifetime of the compiled regular expression.

-

Trait Implementations

impl<'r> Iterator for CaptureNames<'r>[src]

type Item = Option<&'r str>

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r> Send for CaptureNames<'r>

impl<'r> Sync for CaptureNames<'r>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.Captures.html b/target/doc/regex/struct.Captures.html deleted file mode 100644 index 472f549..0000000 --- a/target/doc/regex/struct.Captures.html +++ /dev/null @@ -1,74 +0,0 @@ -regex::Captures - Rust

[][src]Struct regex::Captures

pub struct Captures<'t> { /* fields omitted */ }

Captures represents a group of captured strings for a single match.

-

The 0th capture always corresponds to the entire match. Each subsequent -index corresponds to the next capture group in the regex. If a capture -group is named, then the matched string is also available via the name -method. (Note that the 0th capture is always unnamed and so must be -accessed with the get method.)

-

Positions returned from a capture group are always byte indices.

-

't is the lifetime of the matched text.

-

Methods

impl<'t> Captures<'t>[src]

pub fn get(&self, i: usize) -> Option<Match<'t>>[src]

Returns the match associated with the capture group at index i. If -i does not correspond to a capture group, or if the capture group -did not participate in the match, then None is returned.

-

Examples

-

Get the text of the match with a default of an empty string if this -group didn't participate in the match:

- -
-let re = Regex::new(r"[a-z]+(?:([0-9]+)|([A-Z]+))").unwrap();
-let caps = re.captures("abc123").unwrap();
-
-let text1 = caps.get(1).map_or("", |m| m.as_str());
-let text2 = caps.get(2).map_or("", |m| m.as_str());
-assert_eq!(text1, "123");
-assert_eq!(text2, "");
-

pub fn name(&self, name: &str) -> Option<Match<'t>>[src]

Returns the match for the capture group named name. If name isn't a -valid capture group or didn't match anything, then None is returned.

-

Important traits for SubCaptureMatches<'c, 't>
pub fn iter<'c>(&'c self) -> SubCaptureMatches<'c, 't>[src]

An iterator that yields all capturing matches in the order in which -they appear in the regex. If a particular capture group didn't -participate in the match, then None is yielded for that capture.

-

The first match always corresponds to the overall match of the regex.

-

pub fn expand(&self, replacement: &str, dst: &mut String)[src]

Expands all instances of $name in replacement to the corresponding -capture group name, and writes them to the dst buffer given.

-

name may be an integer corresponding to the index of the -capture group (counted by order of opening parenthesis where 0 is the -entire match) or it can be a name (consisting of letters, digits or -underscores) corresponding to a named capture group.

-

If name isn't a valid capture group (whether the name doesn't exist -or isn't a valid index), then it is replaced with the empty string.

-

The longest possible name is used. e.g., $1a looks up the capture -group named 1a and not the capture group at index 1. To exert more -precise control over the name, use braces, e.g., ${1}a.

-

To write a literal $ use $$.

-

pub fn len(&self) -> usize[src]

Returns the number of captured groups.

-

This is always at least 1, since every regex has at least one capture -group that corresponds to the full match.

-

Trait Implementations

impl<'t> Debug for Captures<'t>[src]

impl<'t> Index<usize> for Captures<'t>[src]

Get a group by index.

-

't is the lifetime of the matched text.

-

The text can't outlive the Captures object if this method is -used, because of how Index is defined (normally a[i] is part -of a and can't outlive it); to do that, use get() instead.

-

Panics

-

If there is no group at the given index.

-

type Output = str

The returned type after indexing.

-

impl<'t, 'i> Index<&'i str> for Captures<'t>[src]

Get a group by name.

-

't is the lifetime of the matched text and 'i is the lifetime -of the group name (the index).

-

The text can't outlive the Captures object if this method is -used, because of how Index is defined (normally a[i] is part -of a and can't outlive it); to do that, use name instead.

-

Panics

-

If there is no group named by the given value.

-

type Output = str

The returned type after indexing.

-

Auto Trait Implementations

impl<'t> Send for Captures<'t>

impl<'t> Sync for Captures<'t>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.Match.html b/target/doc/regex/struct.Match.html deleted file mode 100644 index f435231..0000000 --- a/target/doc/regex/struct.Match.html +++ /dev/null @@ -1,25 +0,0 @@ -regex::Match - Rust

[][src]Struct regex::Match

pub struct Match<'t> { /* fields omitted */ }

Match represents a single match of a regex in a haystack.

-

The lifetime parameter 't refers to the lifetime of the matched text.

-

Methods

impl<'t> Match<'t>[src]

pub fn start(&self) -> usize[src]

Returns the starting byte offset of the match in the haystack.

-

pub fn end(&self) -> usize[src]

Returns the ending byte offset of the match in the haystack.

-

pub fn as_str(&self) -> &'t str[src]

Returns the matched text.

-

Trait Implementations

impl<'t> PartialEq<Match<'t>> for Match<'t>[src]

impl<'t> From<Match<'t>> for &'t str[src]

impl<'t> Clone for Match<'t>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<'t> Eq for Match<'t>[src]

impl<'t> Copy for Match<'t>[src]

impl<'t> Debug for Match<'t>[src]

Auto Trait Implementations

impl<'t> Send for Match<'t>

impl<'t> Sync for Match<'t>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.Matches.html b/target/doc/regex/struct.Matches.html deleted file mode 100644 index 1cbd093..0000000 --- a/target/doc/regex/struct.Matches.html +++ /dev/null @@ -1,82 +0,0 @@ -regex::Matches - Rust

[][src]Struct regex::Matches

pub struct Matches<'r, 't>(_);

An iterator over all non-overlapping matches for a particular string.

-

The iterator yields a Match value. The iterator stops when no more -matches can be found.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the matched string.

-

Trait Implementations

impl<'r, 't> Iterator for Matches<'r, 't>[src]

type Item = Match<'t>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for Matches<'r, 't>

impl<'r, 't> !Sync for Matches<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.NoExpand.html b/target/doc/regex/struct.NoExpand.html deleted file mode 100644 index 4e38b43..0000000 --- a/target/doc/regex/struct.NoExpand.html +++ /dev/null @@ -1,19 +0,0 @@ -regex::NoExpand - Rust

[][src]Struct regex::NoExpand

pub struct NoExpand<'t>(pub &'t str);

NoExpand indicates literal string replacement.

-

It can be used with replace and replace_all to do a literal string -replacement without expanding $name to their corresponding capture -groups. This can be both convenient (to avoid escaping $, for example) -and performant (since capture groups don't need to be found).

-

't is the lifetime of the literal text.

-

Trait Implementations

impl<'t> Replacer for NoExpand<'t>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Return a Replacer that borrows and wraps this Replacer. Read more

-

Auto Trait Implementations

impl<'t> Send for NoExpand<'t>

impl<'t> Sync for NoExpand<'t>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.Regex.html b/target/doc/regex/struct.Regex.html deleted file mode 100644 index 9764012..0000000 --- a/target/doc/regex/struct.Regex.html +++ /dev/null @@ -1,324 +0,0 @@ -regex::Regex - Rust

[][src]Struct regex::Regex

pub struct Regex(_);

A compiled regular expression for matching Unicode strings.

-

It is represented as either a sequence of bytecode instructions (dynamic) -or as a specialized Rust function (native). It can be used to search, split -or replace text. All searching is done with an implicit .*? at the -beginning and end of an expression. To force an expression to match the -whole string (or a prefix or a suffix), you must use an anchor like ^ or -$ (or \A and \z).

-

While this crate will handle Unicode strings (whether in the regular -expression or in the search text), all positions returned are byte -indices. Every byte index is guaranteed to be at a Unicode code point -boundary.

-

The lifetimes 'r and 't in this crate correspond to the lifetime of a -compiled regular expression and text to search, respectively.

-

The only methods that allocate new strings are the string replacement -methods. All other methods (searching and splitting) return borrowed -pointers into the string given.

-

Examples

-

Find the location of a US phone number:

- -
-let re = Regex::new("[0-9]{3}-[0-9]{3}-[0-9]{4}").unwrap();
-let mat = re.find("phone: 111-222-3333").unwrap();
-assert_eq!((mat.start(), mat.end()), (7, 19));
-

Using the std::str::pattern methods with Regex

-
-

Note: This section requires that this crate is compiled with the -pattern Cargo feature enabled, which requires nightly Rust.

-
-

Since Regex implements Pattern, you can use regexes with methods -defined on &str. For example, is_match, find, find_iter -and split can be replaced with str::contains, str::find, -str::match_indices and str::split.

-

Here are some examples:

- -
This example is not tested
-let re = Regex::new(r"\d+").unwrap();
-let haystack = "a111b222c";
-
-assert!(haystack.contains(&re));
-assert_eq!(haystack.find(&re), Some(1));
-assert_eq!(haystack.match_indices(&re).collect::<Vec<_>>(),
-           vec![(1, 4), (5, 8)]);
-assert_eq!(haystack.split(&re).collect::<Vec<_>>(), vec!["a", "b", "c"]);
-

Methods

impl Regex[src]

Core regular expression methods.

-

pub fn new(re: &str) -> Result<Regex, Error>[src]

Compiles a regular expression. Once compiled, it can be used repeatedly -to search, split or replace text in a string.

-

If an invalid expression is given, then an error is returned.

-

pub fn is_match(&self, text: &str) -> bool[src]

Returns true if and only if the regex matches the string given.

-

It is recommended to use this method if all you need to do is test -a match, since the underlying matching engine may be able to do less -work.

-

Example

-

Test if some text contains at least one word with exactly 13 -Unicode word characters:

- -
-let text = "I categorically deny having triskaidekaphobia.";
-assert!(Regex::new(r"\b\w{13}\b").unwrap().is_match(text));
-

pub fn find<'t>(&self, text: &'t str) -> Option<Match<'t>>[src]

Returns the start and end byte range of the leftmost-first match in -text. If no match exists, then None is returned.

-

Note that this should only be used if you want to discover the position -of the match. Testing the existence of a match is faster if you use -is_match.

-

Example

-

Find the start and end location of the first word with exactly 13 -Unicode word characters:

- -
-let text = "I categorically deny having triskaidekaphobia.";
-let mat = Regex::new(r"\b\w{13}\b").unwrap().find(text).unwrap();
-assert_eq!(mat.start(), 2);
-assert_eq!(mat.end(), 15);
-

Important traits for Matches<'r, 't>
pub fn find_iter<'r, 't>(&'r self, text: &'t str) -> Matches<'r, 't>[src]

Returns an iterator for each successive non-overlapping match in -text, returning the start and end byte indices with respect to -text.

-

Example

-

Find the start and end location of every word with exactly 13 Unicode -word characters:

- -
-let text = "Retroactively relinquishing remunerations is reprehensible.";
-for mat in Regex::new(r"\b\w{13}\b").unwrap().find_iter(text) {
-    println!("{:?}", mat);
-}
-

pub fn captures<'t>(&self, text: &'t str) -> Option<Captures<'t>>[src]

Returns the capture groups corresponding to the leftmost-first -match in text. Capture group 0 always corresponds to the entire -match. If no match is found, then None is returned.

-

You should only use captures if you need access to the location of -capturing group matches. Otherwise, find is faster for discovering -the location of the overall match.

-

Examples

-

Say you have some text with movie names and their release years, -like "'Citizen Kane' (1941)". It'd be nice if we could search for text -looking like that, while also extracting the movie name and its release -year separately.

- -
-let re = Regex::new(r"'([^']+)'\s+\((\d{4})\)").unwrap();
-let text = "Not my favorite movie: 'Citizen Kane' (1941).";
-let caps = re.captures(text).unwrap();
-assert_eq!(caps.get(1).unwrap().as_str(), "Citizen Kane");
-assert_eq!(caps.get(2).unwrap().as_str(), "1941");
-assert_eq!(caps.get(0).unwrap().as_str(), "'Citizen Kane' (1941)");
-// You can also access the groups by index using the Index notation.
-// Note that this will panic on an invalid index.
-assert_eq!(&caps[1], "Citizen Kane");
-assert_eq!(&caps[2], "1941");
-assert_eq!(&caps[0], "'Citizen Kane' (1941)");
-

Note that the full match is at capture group 0. Each subsequent -capture group is indexed by the order of its opening (.

-

We can make this example a bit clearer by using named capture groups:

- -
-let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-               .unwrap();
-let text = "Not my favorite movie: 'Citizen Kane' (1941).";
-let caps = re.captures(text).unwrap();
-assert_eq!(caps.name("title").unwrap().as_str(), "Citizen Kane");
-assert_eq!(caps.name("year").unwrap().as_str(), "1941");
-assert_eq!(caps.get(0).unwrap().as_str(), "'Citizen Kane' (1941)");
-// You can also access the groups by name using the Index notation.
-// Note that this will panic on an invalid group name.
-assert_eq!(&caps["title"], "Citizen Kane");
-assert_eq!(&caps["year"], "1941");
-assert_eq!(&caps[0], "'Citizen Kane' (1941)");
-
-

Here we name the capture groups, which we can access with the name -method or the Index notation with a &str. Note that the named -capture groups are still accessible with get or the Index notation -with a usize.

-

The 0th capture group is always unnamed, so it must always be -accessed with get(0) or [0].

-

Important traits for CaptureMatches<'r, 't>
pub fn captures_iter<'r, 't>(&'r self, text: &'t str) -> CaptureMatches<'r, 't>[src]

Returns an iterator over all the non-overlapping capture groups matched -in text. This is operationally the same as find_iter, except it -yields information about capturing group matches.

-

Example

-

We can use this to find all movie titles and their release years in -some text, where the movie is formatted like "'Title' (xxxx)":

- -
-let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-               .unwrap();
-let text = "'Citizen Kane' (1941), 'The Wizard of Oz' (1939), 'M' (1931).";
-for caps in re.captures_iter(text) {
-    println!("Movie: {:?}, Released: {:?}",
-             &caps["title"], &caps["year"]);
-}
-// Output:
-// Movie: Citizen Kane, Released: 1941
-// Movie: The Wizard of Oz, Released: 1939
-// Movie: M, Released: 1931
-

Important traits for Split<'r, 't>
pub fn split<'r, 't>(&'r self, text: &'t str) -> Split<'r, 't>[src]

Returns an iterator of substrings of text delimited by a match of the -regular expression. Namely, each element of the iterator corresponds to -text that isn't matched by the regular expression.

-

This method will not copy the text given.

-

Example

-

To split a string delimited by arbitrary amounts of spaces or tabs:

- -
-let re = Regex::new(r"[ \t]+").unwrap();
-let fields: Vec<&str> = re.split("a b \t  c\td    e").collect();
-assert_eq!(fields, vec!["a", "b", "c", "d", "e"]);
-

Important traits for SplitN<'r, 't>
pub fn splitn<'r, 't>(&'r self, text: &'t str, limit: usize) -> SplitN<'r, 't>[src]

Returns an iterator of at most limit substrings of text delimited -by a match of the regular expression. (A limit of 0 will return no -substrings.) Namely, each element of the iterator corresponds to text -that isn't matched by the regular expression. The remainder of the -string that is not split will be the last element in the iterator.

-

This method will not copy the text given.

-

Example

-

Get the first two words in some text:

- -
-let re = Regex::new(r"\W+").unwrap();
-let fields: Vec<&str> = re.splitn("Hey! How are you?", 3).collect();
-assert_eq!(fields, vec!("Hey", "How", "are you?"));
-

pub fn replace<'t, R: Replacer>(&self, text: &'t str, rep: R) -> Cow<'t, str>[src]

Replaces the leftmost-first match with the replacement provided. -The replacement can be a regular string (where $N and $name are -expanded to match capture groups) or a function that takes the matches' -Captures and returns the replaced string.

-

If no match is found, then a copy of the string is returned unchanged.

-

Replacement string syntax

-

All instances of $name in the replacement text is replaced with the -corresponding capture group name.

-

name may be an integer corresponding to the index of the -capture group (counted by order of opening parenthesis where 0 is the -entire match) or it can be a name (consisting of letters, digits or -underscores) corresponding to a named capture group.

-

If name isn't a valid capture group (whether the name doesn't exist -or isn't a valid index), then it is replaced with the empty string.

-

The longest possible name is used. e.g., $1a looks up the capture -group named 1a and not the capture group at index 1. To exert more -precise control over the name, use braces, e.g., ${1}a.

-

To write a literal $ use $$.

-

Examples

-

Note that this function is polymorphic with respect to the replacement. -In typical usage, this can just be a normal string:

- -
-let re = Regex::new("[^01]+").unwrap();
-assert_eq!(re.replace("1078910", ""), "1010");
-

But anything satisfying the Replacer trait will work. For example, -a closure of type |&Captures| -> String provides direct access to the -captures corresponding to a match. This allows one to access -capturing group matches easily:

- -
-let re = Regex::new(r"([^,\s]+),\s+(\S+)").unwrap();
-let result = re.replace("Springsteen, Bruce", |caps: &Captures| {
-    format!("{} {}", &caps[2], &caps[1])
-});
-assert_eq!(result, "Bruce Springsteen");
-

But this is a bit cumbersome to use all the time. Instead, a simple -syntax is supported that expands $name into the corresponding capture -group. Here's the last example, but using this expansion technique -with named capture groups:

- -
-let re = Regex::new(r"(?P<last>[^,\s]+),\s+(?P<first>\S+)").unwrap();
-let result = re.replace("Springsteen, Bruce", "$first $last");
-assert_eq!(result, "Bruce Springsteen");
-

Note that using $2 instead of $first or $1 instead of $last -would produce the same result. To write a literal $ use $$.

-

Sometimes the replacement string requires use of curly braces to -delineate a capture group replacement and surrounding literal text. -For example, if we wanted to join two words together with an -underscore:

- -
-let re = Regex::new(r"(?P<first>\w+)\s+(?P<second>\w+)").unwrap();
-let result = re.replace("deep fried", "${first}_$second");
-assert_eq!(result, "deep_fried");
-

Without the curly braces, the capture group name first_ would be -used, and since it doesn't exist, it would be replaced with the empty -string.

-

Finally, sometimes you just want to replace a literal string with no -regard for capturing group expansion. This can be done by wrapping a -byte string with NoExpand:

- -
-use regex::NoExpand;
-
-let re = Regex::new(r"(?P<last>[^,\s]+),\s+(\S+)").unwrap();
-let result = re.replace("Springsteen, Bruce", NoExpand("$2 $last"));
-assert_eq!(result, "$2 $last");
-

pub fn replace_all<'t, R: Replacer>(
    &self,
    text: &'t str,
    rep: R
) -> Cow<'t, str>
[src]

Replaces all non-overlapping matches in text with the replacement -provided. This is the same as calling replacen with limit set to -0.

-

See the documentation for replace for details on how to access -capturing group matches in the replacement string.

-

pub fn replacen<'t, R: Replacer>(
    &self,
    text: &'t str,
    limit: usize,
    rep: R
) -> Cow<'t, str>
[src]

Replaces at most limit non-overlapping matches in text with the -replacement provided. If limit is 0, then all non-overlapping matches -are replaced.

-

See the documentation for replace for details on how to access -capturing group matches in the replacement string.

-

impl Regex[src]

Advanced or "lower level" search methods.

-

pub fn shortest_match(&self, text: &str) -> Option<usize>[src]

Returns the end location of a match in the text given.

-

This method may have the same performance characteristics as -is_match, except it provides an end location for a match. In -particular, the location returned may be shorter than the proper end -of the leftmost-first match.

-

Example

-

Typically, a+ would match the entire first sequence of a in some -text, but shortest_match can give up as soon as it sees the first -a.

- -
-let text = "aaaaa";
-let pos = Regex::new(r"a+").unwrap().shortest_match(text);
-assert_eq!(pos, Some(1));
-

pub fn shortest_match_at(&self, text: &str, start: usize) -> Option<usize>[src]

Returns the same as shortest_match, but starts the search at the given -offset.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

pub fn is_match_at(&self, text: &str, start: usize) -> bool[src]

Returns the same as is_match, but starts the search at the given -offset.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

pub fn find_at<'t>(&self, text: &'t str, start: usize) -> Option<Match<'t>>[src]

Returns the same as find, but starts the search at the given -offset.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

pub fn captures_read<'t>(
    &self,
    locs: &mut CaptureLocations,
    text: &'t str
) -> Option<Match<'t>>
[src]

This is like captures, but uses -CaptureLocations -instead of -Captures in order to amortize allocations.

-

To create a CaptureLocations value, use the -Regex::capture_locations method.

-

This returns the overall match if this was successful, which is always -equivalence to the 0th capture group.

-

pub fn captures_read_at<'t>(
    &self,
    locs: &mut CaptureLocations,
    text: &'t str,
    start: usize
) -> Option<Match<'t>>
[src]

Returns the same as captures, but starts the search at the given -offset and populates the capture locations given.

-

The significance of the starting point is that it takes the surrounding -context into consideration. For example, the \A anchor can only -match when start == 0.

-

impl Regex[src]

Auxiliary methods.

-

pub fn as_str(&self) -> &str[src]

Returns the original string of this regex.

-

Important traits for CaptureNames<'r>
pub fn capture_names(&self) -> CaptureNames[src]

Returns an iterator over the capture names.

-

pub fn captures_len(&self) -> usize[src]

Returns the number of captures.

-

pub fn capture_locations(&self) -> CaptureLocations[src]

Returns an empty set of capture locations that can be reused in -multiple calls to captures_read or captures_read_at.

-

Trait Implementations

impl Clone for Regex[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Display for Regex[src]

fn fmt(&self, f: &mut Formatter) -> Result[src]

Shows the original regular expression.

-

impl Debug for Regex[src]

fn fmt(&self, f: &mut Formatter) -> Result[src]

Shows the original regular expression.

-

impl FromStr for Regex[src]

type Err = Error

The associated error which can be returned from parsing.

-

fn from_str(s: &str) -> Result<Regex, Error>[src]

Attempts to parse a string into a regular expression

-

Auto Trait Implementations

impl Send for Regex

impl Sync for Regex

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.RegexBuilder.html b/target/doc/regex/struct.RegexBuilder.html deleted file mode 100644 index 4c0f499..0000000 --- a/target/doc/regex/struct.RegexBuilder.html +++ /dev/null @@ -1,89 +0,0 @@ -regex::RegexBuilder - Rust

[][src]Struct regex::RegexBuilder

pub struct RegexBuilder(_);

A configurable builder for a regular expression.

-

A builder can be used to configure how the regex is built, for example, by -setting the default flags (which can be overridden in the expression -itself) or setting various limits.

-

Methods

impl RegexBuilder[src]

pub fn new(pattern: &str) -> RegexBuilder[src]

Create a new regular expression builder with the given pattern.

-

If the pattern is invalid, then an error will be returned when -build is called.

-

pub fn build(&self) -> Result<Regex, Error>[src]

Consume the builder and compile the regular expression.

-

Note that calling as_str on the resulting Regex will produce the -pattern given to new verbatim. Notably, it will not incorporate any -of the flags set on this builder.

-

pub fn case_insensitive(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the case insensitive (i) flag.

-

When enabled, letters in the pattern will match both upper case and -lower case variants.

-

pub fn multi_line(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the multi-line matching (m) flag.

-

When enabled, ^ matches the beginning of lines and $ matches the -end of lines.

-

By default, they match beginning/end of the input.

-

pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the any character (s) flag, where in . matches -anything when s is set and matches anything except for new line when -it is not set (the default).

-

N.B. "matches anything" means "any byte" when Unicode is disabled and -means "any valid UTF-8 encoding of any Unicode scalar value" when -Unicode is enabled.

-

pub fn swap_greed(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the greedy swap (U) flag.

-

When enabled, a pattern like a* is lazy (tries to find shortest -match) and a*? is greedy (tries to find longest match).

-

By default, a* is greedy and a*? is lazy.

-

pub fn ignore_whitespace(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the ignore whitespace (x) flag.

-

When enabled, whitespace such as new lines and spaces will be ignored -between expressions of the pattern, and # can be used to start a -comment until the next new line.

-

pub fn unicode(&mut self, yes: bool) -> &mut RegexBuilder[src]

Set the value for the Unicode (u) flag.

-

Enabled by default. When disabled, character classes such as \w only -match ASCII word characters instead of all Unicode word characters.

-

pub fn octal(&mut self, yes: bool) -> &mut RegexBuilder[src]

Whether to support octal syntax or not.

-

Octal syntax is a little-known way of uttering Unicode codepoints in -a regular expression. For example, a, \x61, \u0061 and -\141 are all equivalent regular expressions, where the last example -shows octal syntax.

-

While supporting octal syntax isn't in and of itself a problem, it does -make good error messages harder. That is, in PCRE based regex engines, -syntax like \0 invokes a backreference, which is explicitly -unsupported in Rust's regex engine. However, many users expect it to -be supported. Therefore, when octal support is disabled, the error -message will explicitly mention that backreferences aren't supported.

-

Octal syntax is disabled by default.

-

pub fn size_limit(&mut self, limit: usize) -> &mut RegexBuilder[src]

Set the approximate size limit of the compiled regular expression.

-

This roughly corresponds to the number of bytes occupied by a single -compiled program. If the program exceeds this number, then a -compilation error is returned.

-

pub fn dfa_size_limit(&mut self, limit: usize) -> &mut RegexBuilder[src]

Set the approximate size of the cache used by the DFA.

-

This roughly corresponds to the number of bytes that the DFA will -use while searching.

-

Note that this is a per thread limit. There is no way to set a global -limit. In particular, if a regex is used from multiple threads -simultaneously, then each thread may use up to the number of bytes -specified here.

-

pub fn nest_limit(&mut self, limit: u32) -> &mut RegexBuilder[src]

Set the nesting limit for this parser.

-

The nesting limit controls how deep the abstract syntax tree is allowed -to be. If the AST exceeds the given limit (e.g., with too many nested -groups), then an error is returned by the parser.

-

The purpose of this limit is to act as a heuristic to prevent stack -overflow for consumers that do structural induction on an Ast using -explicit recursion. While this crate never does this (instead using -constant stack space and moving the call stack to the heap), other -crates may.

-

This limit is not checked until the entire Ast is parsed. Therefore, -if callers want to put a limit on the amount of heap space used, then -they should impose a limit on the length, in bytes, of the concrete -pattern string. In particular, this is viable since this parser -implementation will limit itself to heap space proportional to the -length of the pattern string.

-

Note that a nest limit of 0 will return a nest limit error for most -patterns but not all. For example, a nest limit of 0 permits a but -not ab, since ab requires a concatenation, which results in a nest -depth of 1. In general, a nest limit is not something that manifests -in an obvious way in the concrete syntax, therefore, it should not be -used in a granular way.

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.RegexSet.html b/target/doc/regex/struct.RegexSet.html deleted file mode 100644 index f637310..0000000 --- a/target/doc/regex/struct.RegexSet.html +++ /dev/null @@ -1,164 +0,0 @@ -regex::RegexSet - Rust

[][src]Struct regex::RegexSet

pub struct RegexSet(_);

Match multiple (possibly overlapping) regular expressions in a single scan.

-

A regex set corresponds to the union of two or more regular expressions. -That is, a regex set will match text where at least one of its -constituent regular expressions matches. A regex set as its formulated here -provides a touch more power: it will also report which regular -expressions in the set match. Indeed, this is the key difference between -regex sets and a single Regex with many alternates, since only one -alternate can match at a time.

-

For example, consider regular expressions to match email addresses and -domains: [a-z]+@[a-z]+\.(com|org|net) and [a-z]+\.(com|org|net). If a -regex set is constructed from those regexes, then searching the text -foo@example.com will report both regexes as matching. Of course, one -could accomplish this by compiling each regex on its own and doing two -searches over the text. The key advantage of using a regex set is that it -will report the matching regexes using a single pass through the text. -If one has hundreds or thousands of regexes to match repeatedly (like a URL -router for a complex web application or a user agent matcher), then a regex -set can realize huge performance gains.

-

Example

-

This shows how the above two regexes (for matching email addresses and -domains) might work:

- -
-let set = RegexSet::new(&[
-    r"[a-z]+@[a-z]+\.(com|org|net)",
-    r"[a-z]+\.(com|org|net)",
-]).unwrap();
-
-// Ask whether any regexes in the set match.
-assert!(set.is_match("foo@example.com"));
-
-// Identify which regexes in the set match.
-let matches: Vec<_> = set.matches("foo@example.com").into_iter().collect();
-assert_eq!(vec![0, 1], matches);
-
-// Try again, but with text that only matches one of the regexes.
-let matches: Vec<_> = set.matches("example.com").into_iter().collect();
-assert_eq!(vec![1], matches);
-
-// Try again, but with text that doesn't match any regex in the set.
-let matches: Vec<_> = set.matches("example").into_iter().collect();
-assert!(matches.is_empty());
-

Note that it would be possible to adapt the above example to using Regex -with an expression like:

- -
This example is not tested
-(?P<email>[a-z]+@(?P<email_domain>[a-z]+[.](com|org|net)))|(?P<domain>[a-z]+[.](com|org|net))
-

After a match, one could then inspect the capture groups to figure out -which alternates matched. The problem is that it is hard to make this -approach scale when there are many regexes since the overlap between each -alternate isn't always obvious to reason about.

-

Limitations

-

Regex sets are limited to answering the following two questions:

-
    -
  1. Does any regex in the set match?
  2. -
  3. If so, which regexes in the set match?
  4. -
-

As with the main Regex type, it is cheaper to ask (1) instead of (2) -since the matching engines can stop after the first match is found.

-

Other features like finding the location of successive matches or their -sub-captures aren't supported. If you need this functionality, the -recommended approach is to compile each regex in the set independently and -selectively match them based on which regexes in the set matched.

-

Performance

-

A RegexSet has the same performance characteristics as Regex. Namely, -search takes O(mn) time, where m is proportional to the size of the -regex set and n is proportional to the length of the search text.

-

Methods

impl RegexSet[src]

pub fn new<I, S>(exprs: I) -> Result<RegexSet, Error> where
    S: AsRef<str>,
    I: IntoIterator<Item = S>, 
[src]

Create a new regex set with the given regular expressions.

-

This takes an iterator of S, where S is something that can produce -a &str. If any of the strings in the iterator are not valid regular -expressions, then an error is returned.

-

Example

-

Create a new regex set from an iterator of strings:

- -
-let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
-assert!(set.is_match("foo"));
-

pub fn is_match(&self, text: &str) -> bool[src]

Returns true if and only if one of the regexes in this set matches -the text given.

-

This method should be preferred if you only need to test whether any -of the regexes in the set should match, but don't care about which -regexes matched. This is because the underlying matching engine will -quit immediately after seeing the first match instead of continuing to -find all matches.

-

Note that as with searches using Regex, the expression is unanchored -by default. That is, if the regex does not start with ^ or \A, or -end with $ or \z, then it is permitted to match anywhere in the -text.

-

Example

-

Tests whether a set matches some text:

- -
-let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
-assert!(set.is_match("foo"));
-assert!(!set.is_match("☃"));
-

pub fn matches(&self, text: &str) -> SetMatches[src]

Returns the set of regular expressions that match in the given text.

-

The set returned contains the index of each regular expression that -matches in the given text. The index is in correspondence with the -order of regular expressions given to RegexSet's constructor.

-

The set can also be used to iterate over the matched indices.

-

Note that as with searches using Regex, the expression is unanchored -by default. That is, if the regex does not start with ^ or \A, or -end with $ or \z, then it is permitted to match anywhere in the -text.

-

Example

-

Tests which regular expressions match the given text:

- -
-let set = RegexSet::new(&[
-    r"\w+",
-    r"\d+",
-    r"\pL+",
-    r"foo",
-    r"bar",
-    r"barfoo",
-    r"foobar",
-]).unwrap();
-let matches: Vec<_> = set.matches("foobar").into_iter().collect();
-assert_eq!(matches, vec![0, 2, 3, 4, 6]);
-
-// You can also test whether a particular regex matched:
-let matches = set.matches("foobar");
-assert!(!matches.matched(5));
-assert!(matches.matched(6));
-

pub fn len(&self) -> usize[src]

Returns the total number of regular expressions in this set.

-

pub fn patterns(&self) -> &[String][src]

Returns the patterns that this set will match on.

-

This function can be used to determine the pattern for a match. The -slice returned has exactly as many patterns givens to this regex set, -and the order of the slice is the same as the order of the patterns -provided to the set.

-

Example

-
-let set = RegexSet::new(&[
-    r"\w+",
-    r"\d+",
-    r"\pL+",
-    r"foo",
-    r"bar",
-    r"barfoo",
-    r"foobar",
-]).unwrap();
-let matches: Vec<_> = set
-    .matches("foobar")
-    .into_iter()
-    .map(|match_idx| &set.patterns()[match_idx])
-    .collect();
-assert_eq!(matches, vec![r"\w+", r"\pL+", r"foo", r"bar", r"foobar"]);
-

Trait Implementations

impl Clone for RegexSet[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for RegexSet[src]

Auto Trait Implementations

impl Send for RegexSet

impl Sync for RegexSet

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.RegexSetBuilder.html b/target/doc/regex/struct.RegexSetBuilder.html deleted file mode 100644 index b399fc8..0000000 --- a/target/doc/regex/struct.RegexSetBuilder.html +++ /dev/null @@ -1,73 +0,0 @@ -regex::RegexSetBuilder - Rust

[][src]Struct regex::RegexSetBuilder

pub struct RegexSetBuilder(_);

A configurable builder for a set of regular expressions.

-

A builder can be used to configure how the regexes are built, for example, -by setting the default flags (which can be overridden in the expression -itself) or setting various limits.

-

Methods

impl RegexSetBuilder[src]

pub fn new<I, S>(patterns: I) -> RegexSetBuilder where
    S: AsRef<str>,
    I: IntoIterator<Item = S>, 
[src]

Create a new regular expression builder with the given pattern.

-

If the pattern is invalid, then an error will be returned when -build is called.

-

pub fn build(&self) -> Result<RegexSet, Error>[src]

Consume the builder and compile the regular expressions into a set.

-

pub fn case_insensitive(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the case insensitive (i) flag.

-

pub fn multi_line(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the multi-line matching (m) flag.

-

pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the any character (s) flag, where in . matches -anything when s is set and matches anything except for new line when -it is not set (the default).

-

N.B. "matches anything" means "any byte" for regex::bytes::RegexSet -expressions and means "any Unicode scalar value" for regex::RegexSet -expressions.

-

pub fn swap_greed(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the greedy swap (U) flag.

-

pub fn ignore_whitespace(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the ignore whitespace (x) flag.

-

pub fn unicode(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Set the value for the Unicode (u) flag.

-

pub fn octal(&mut self, yes: bool) -> &mut RegexSetBuilder[src]

Whether to support octal syntax or not.

-

Octal syntax is a little-known way of uttering Unicode codepoints in -a regular expression. For example, a, \x61, \u0061 and -\141 are all equivalent regular expressions, where the last example -shows octal syntax.

-

While supporting octal syntax isn't in and of itself a problem, it does -make good error messages harder. That is, in PCRE based regex engines, -syntax like \0 invokes a backreference, which is explicitly -unsupported in Rust's regex engine. However, many users expect it to -be supported. Therefore, when octal support is disabled, the error -message will explicitly mention that backreferences aren't supported.

-

Octal syntax is disabled by default.

-

pub fn size_limit(&mut self, limit: usize) -> &mut RegexSetBuilder[src]

Set the approximate size limit of the compiled regular expression.

-

This roughly corresponds to the number of bytes occupied by a single -compiled program. If the program exceeds this number, then a -compilation error is returned.

-

pub fn dfa_size_limit(&mut self, limit: usize) -> &mut RegexSetBuilder[src]

Set the approximate size of the cache used by the DFA.

-

This roughly corresponds to the number of bytes that the DFA will -use while searching.

-

Note that this is a per thread limit. There is no way to set a global -limit. In particular, if a regex is used from multiple threads -simultaneously, then each thread may use up to the number of bytes -specified here.

-

pub fn nest_limit(&mut self, limit: u32) -> &mut RegexSetBuilder[src]

Set the nesting limit for this parser.

-

The nesting limit controls how deep the abstract syntax tree is allowed -to be. If the AST exceeds the given limit (e.g., with too many nested -groups), then an error is returned by the parser.

-

The purpose of this limit is to act as a heuristic to prevent stack -overflow for consumers that do structural induction on an Ast using -explicit recursion. While this crate never does this (instead using -constant stack space and moving the call stack to the heap), other -crates may.

-

This limit is not checked until the entire Ast is parsed. Therefore, -if callers want to put a limit on the amount of heap space used, then -they should impose a limit on the length, in bytes, of the concrete -pattern string. In particular, this is viable since this parser -implementation will limit itself to heap space proportional to the -length of the pattern string.

-

Note that a nest limit of 0 will return a nest limit error for most -patterns but not all. For example, a nest limit of 0 permits a but -not ab, since ab requires a concatenation, which results in a nest -depth of 1. In general, a nest limit is not something that manifests -in an obvious way in the concrete syntax, therefore, it should not be -used in a granular way.

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.ReplacerRef.html b/target/doc/regex/struct.ReplacerRef.html deleted file mode 100644 index 01a0f65..0000000 --- a/target/doc/regex/struct.ReplacerRef.html +++ /dev/null @@ -1,16 +0,0 @@ -regex::ReplacerRef - Rust

[][src]Struct regex::ReplacerRef

pub struct ReplacerRef<'a, R: ?Sized + 'a>(_);

By-reference adaptor for a Replacer

-

Returned by Replacer::by_ref.

-

Trait Implementations

impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Return a Replacer that borrows and wraps this Replacer. Read more

-

impl<'a, R: Debug + ?Sized + 'a> Debug for ReplacerRef<'a, R>[src]

Auto Trait Implementations

impl<'a, R: ?Sized> Send for ReplacerRef<'a, R> where
    R: Send

impl<'a, R: ?Sized> Sync for ReplacerRef<'a, R> where
    R: Sync

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.SetMatches.html b/target/doc/regex/struct.SetMatches.html deleted file mode 100644 index 85bdecc..0000000 --- a/target/doc/regex/struct.SetMatches.html +++ /dev/null @@ -1,38 +0,0 @@ -regex::SetMatches - Rust

[][src]Struct regex::SetMatches

pub struct SetMatches { /* fields omitted */ }

A set of matches returned by a regex set.

-

Methods

impl SetMatches[src]

pub fn matched_any(&self) -> bool[src]

Whether this set contains any matches.

-

pub fn matched(&self, regex_index: usize) -> bool[src]

Whether the regex at the given index matched.

-

The index for a regex is determined by its insertion order upon the -initial construction of a RegexSet, starting at 0.

-

Panics

-

If regex_index is greater than or equal to self.len().

-

pub fn len(&self) -> usize[src]

The total number of regexes in the set that created these matches.

-

Important traits for SetMatchesIter<'a>
pub fn iter(&self) -> SetMatchesIter[src]

Returns an iterator over indexes in the regex that matched.

-

This will always produces matches in ascending order of index, where -the index corresponds to the index of the regex that matched with -respect to its position when initially building the set.

-

Trait Implementations

impl Clone for SetMatches[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl IntoIterator for SetMatches[src]

type IntoIter = SetMatchesIntoIter

Which kind of iterator are we turning this into?

-

type Item = usize

The type of the elements being iterated over.

-

impl<'a> IntoIterator for &'a SetMatches[src]

type IntoIter = SetMatchesIter<'a>

Which kind of iterator are we turning this into?

-

type Item = usize

The type of the elements being iterated over.

-

impl Debug for SetMatches[src]

Auto Trait Implementations

impl Send for SetMatches

impl Sync for SetMatches

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.SetMatchesIntoIter.html b/target/doc/regex/struct.SetMatchesIntoIter.html deleted file mode 100644 index 29e9e61..0000000 --- a/target/doc/regex/struct.SetMatchesIntoIter.html +++ /dev/null @@ -1,86 +0,0 @@ -regex::SetMatchesIntoIter - Rust

[][src]Struct regex::SetMatchesIntoIter

pub struct SetMatchesIntoIter(_);

An owned iterator over the set of matches from a regex set.

-

This will always produces matches in ascending order of index, where the -index corresponds to the index of the regex that matched with respect to -its position when initially building the set.

-

Trait Implementations

impl DoubleEndedIterator for SetMatchesIntoIter[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl Iterator for SetMatchesIntoIter[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.SetMatchesIter.html b/target/doc/regex/struct.SetMatchesIter.html deleted file mode 100644 index 9e9ce0c..0000000 --- a/target/doc/regex/struct.SetMatchesIter.html +++ /dev/null @@ -1,93 +0,0 @@ -regex::SetMatchesIter - Rust

[][src]Struct regex::SetMatchesIter

pub struct SetMatchesIter<'a>(_);

A borrowed iterator over the set of matches from a regex set.

-

The lifetime 'a refers to the lifetime of a SetMatches value.

-

This will always produces matches in ascending order of index, where the -index corresponds to the index of the regex that matched with respect to -its position when initially building the set.

-

Trait Implementations

impl<'a> DoubleEndedIterator for SetMatchesIter<'a>[src]

fn nth_back(&mut self, n: usize) -> Option<Self::Item>[src]

🔬 This is a nightly-only experimental API. (iter_nth_back)

Returns the nth element from the end of the iterator. Read more

-

fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

This is the reverse version of [try_fold()]: it takes elements starting from the back of the iterator. Read more

-

fn rfold<B, F>(self, accum: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.27.0[src]

An iterator method that reduces the iterator's elements to a single, final value, starting from the back. Read more

-

fn rfind<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.27.0[src]

Searches for an element of an iterator from the back that satisfies a predicate. Read more

-

impl<'a> Iterator for SetMatchesIter<'a>[src]

type Item = usize

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a> Clone for SetMatchesIter<'a>[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

Auto Trait Implementations

impl<'a> Send for SetMatchesIter<'a>

impl<'a> Sync for SetMatchesIter<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.Split.html b/target/doc/regex/struct.Split.html deleted file mode 100644 index f9e0f5a..0000000 --- a/target/doc/regex/struct.Split.html +++ /dev/null @@ -1,80 +0,0 @@ -regex::Split - Rust

[][src]Struct regex::Split

pub struct Split<'r, 't> { /* fields omitted */ }

Yields all substrings delimited by a regular expression match.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the string being split.

-

Trait Implementations

impl<'r, 't> Iterator for Split<'r, 't>[src]

type Item = &'t str

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for Split<'r, 't>

impl<'r, 't> !Sync for Split<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.SplitN.html b/target/doc/regex/struct.SplitN.html deleted file mode 100644 index c26ce5b..0000000 --- a/target/doc/regex/struct.SplitN.html +++ /dev/null @@ -1,81 +0,0 @@ -regex::SplitN - Rust

[][src]Struct regex::SplitN

pub struct SplitN<'r, 't> { /* fields omitted */ }

Yields at most N substrings delimited by a regular expression match.

-

The last substring will be whatever remains after splitting.

-

'r is the lifetime of the compiled regular expression and 't is the -lifetime of the string being split.

-

Trait Implementations

impl<'r, 't> Iterator for SplitN<'r, 't>[src]

type Item = &'t str

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'r, 't> !Send for SplitN<'r, 't>

impl<'r, 't> !Sync for SplitN<'r, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/struct.SubCaptureMatches.html b/target/doc/regex/struct.SubCaptureMatches.html deleted file mode 100644 index 93e6903..0000000 --- a/target/doc/regex/struct.SubCaptureMatches.html +++ /dev/null @@ -1,84 +0,0 @@ -regex::SubCaptureMatches - Rust

[][src]Struct regex::SubCaptureMatches

pub struct SubCaptureMatches<'c, 't: 'c> { /* fields omitted */ }

An iterator that yields all capturing matches in the order in which they -appear in the regex.

-

If a particular capture group didn't participate in the match, then None -is yielded for that capture. The first match always corresponds to the -overall match of the regex.

-

The lifetime 'c corresponds to the lifetime of the Captures value, and -the lifetime 't corresponds to the originally matched text.

-

Trait Implementations

impl<'c, 't> Iterator for SubCaptureMatches<'c, 't>[src]

type Item = Option<Match<'t>>

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

impl<'c, 't> Send for SubCaptureMatches<'c, 't>

impl<'c, 't> Sync for SubCaptureMatches<'c, 't>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex/trait.Replacer.html b/target/doc/regex/trait.Replacer.html deleted file mode 100644 index a5ea170..0000000 --- a/target/doc/regex/trait.Replacer.html +++ /dev/null @@ -1,44 +0,0 @@ -regex::Replacer - Rust

[][src]Trait regex::Replacer

pub trait Replacer {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut String);
-
-    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, str>> { ... }
-
fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self> { ... } -}

Replacer describes types that can be used to replace matches in a string.

-

In general, users of this crate shouldn't need to implement this trait, -since implementations are already provided for &str and -FnMut(&Captures) -> String (or any FnMut(&Captures) -> T -where T: AsRef<str>), which covers most use cases.

-
-

Required methods

fn replace_append(&mut self, caps: &Captures, dst: &mut String)

Appends text to dst to replace the current match.

-

The current match is represented by caps, which is guaranteed to -have a match at capture group 0.

-

For example, a no-op replacement would be -dst.extend(caps.get(0).unwrap().as_str()).

-
Loading content... -

Provided methods

fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, str>>

Return a fixed unchanging replacement string.

-

When doing replacements, if access to Captures is not needed (e.g., -the replacement byte string does not need $ expansion), then it can -be beneficial to avoid finding sub-captures.

-

In general, this is called once for every call to replacen.

-

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>

Return a Replacer that borrows and wraps this Replacer.

-

This is useful when you want to take a generic Replacer (which might -not be cloneable) and use it without consuming it, so it can be used -more than once.

-

Example

-
-use regex::{Regex, Replacer};
-
-fn replace_all_twice<R: Replacer>(
-    re: Regex,
-    src: &str,
-    mut rep: R,
-) -> String {
-    let dst = re.replace_all(src, rep.by_ref());
-    let dst = re.replace_all(&dst, rep.by_ref());
-    dst.into_owned()
-}
-
Loading content... -

Implementations on Foreign Types

impl<'a> Replacer for &'a str[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Loading content... -

Implementors

impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

impl<'t> Replacer for NoExpand<'t>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

impl<F, T> Replacer for F where
    F: FnMut(&Captures) -> T,
    T: AsRef<str>, 
[src]

fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, str>>[src]

fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self>[src]

Loading content...
\ No newline at end of file diff --git a/target/doc/regex_syntax/all.html b/target/doc/regex_syntax/all.html deleted file mode 100644 index f54ecf0..0000000 --- a/target/doc/regex_syntax/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Enums

Traits

Functions

Typedefs

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.AssertionKind.html b/target/doc/regex_syntax/ast/enum.AssertionKind.html deleted file mode 100644 index fc63a55..0000000 --- a/target/doc/regex_syntax/ast/enum.AssertionKind.html +++ /dev/null @@ -1,36 +0,0 @@ -regex_syntax::ast::AssertionKind - Rust

[][src]Enum regex_syntax::ast::AssertionKind

pub enum AssertionKind {
-    StartLine,
-    EndLine,
-    StartText,
-    EndText,
-    WordBoundary,
-    NotWordBoundary,
-}

An assertion kind.

-

- Variants

-StartLine

^

-
EndLine

$

-
StartText

\A

-
EndText

\z

-
WordBoundary

\b

-
NotWordBoundary

\B

-

Trait Implementations

impl PartialEq<AssertionKind> for AssertionKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for AssertionKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for AssertionKind[src]

impl Debug for AssertionKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.Ast.html b/target/doc/regex_syntax/ast/enum.Ast.html deleted file mode 100644 index 96a2fc2..0000000 --- a/target/doc/regex_syntax/ast/enum.Ast.html +++ /dev/null @@ -1,61 +0,0 @@ -regex_syntax::ast::Ast - Rust

[][src]Enum regex_syntax::ast::Ast

pub enum Ast {
-    Empty(Span),
-    Flags(SetFlags),
-    Literal(Literal),
-    Dot(Span),
-    Assertion(Assertion),
-    Class(Class),
-    Repetition(Repetition),
-    Group(Group),
-    Alternation(Alternation),
-    Concat(Concat),
-}

An abstract syntax tree for a single regular expression.

-

An Ast's fmt::Display implementation uses constant stack space and heap -space proportional to the size of the Ast.

-

This type defines its own destructor that uses constant stack space and -heap space proportional to the size of the Ast.

-

- Variants

-Empty(Span)

An empty regex that matches everything.

-
Flags(SetFlags)

A set of flags, e.g., (?is).

-
Literal(Literal)

A single character literal, which includes escape sequences.

-
Dot(Span)

The "any character" class.

-
Assertion(Assertion)

A single zero-width assertion.

-
Class(Class)

A single character class. This includes all forms of character classes -except for .. e.g., \d, \pN, [a-z] and [[:alpha:]].

-
Repetition(Repetition)

A repetition operator applied to an arbitrary regular expression.

-
Group(Group)

A grouped regular expression.

-
Alternation(Alternation)

An alternation of regular expressions.

-
Concat(Concat)

A concatenation of regular expressions.

-

Methods

impl Ast[src]

pub fn span(&self) -> &Span[src]

Return the span of this abstract syntax tree.

-

pub fn is_empty(&self) -> bool[src]

Return true if and only if this Ast is empty.

-

Trait Implementations

impl PartialEq<Ast> for Ast[src]

impl Clone for Ast[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Ast[src]

impl Drop for Ast[src]

A custom Drop impl is used for Ast such that it uses constant stack -space but heap space proportional to the depth of the Ast.

-

impl Display for Ast[src]

Print a display representation of this Ast.

-

This does not preserve any of the original whitespace formatting that may -have originally been present in the concrete syntax from which this Ast -was generated.

-

This implementation uses constant stack space and heap space proportional -to the size of the Ast.

-

impl Debug for Ast[src]

Auto Trait Implementations

impl Send for Ast

impl Sync for Ast

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.Class.html b/target/doc/regex_syntax/ast/enum.Class.html deleted file mode 100644 index 2da1b41..0000000 --- a/target/doc/regex_syntax/ast/enum.Class.html +++ /dev/null @@ -1,32 +0,0 @@ -regex_syntax::ast::Class - Rust

[][src]Enum regex_syntax::ast::Class

pub enum Class {
-    Unicode(ClassUnicode),
-    Perl(ClassPerl),
-    Bracketed(ClassBracketed),
-}

A single character class expression.

-

- Variants

-Unicode(ClassUnicode)

A Unicode character class, e.g., \pL or \p{Greek}.

-
Perl(ClassPerl)

A perl character class, e.g., \d or \W.

-
Bracketed(ClassBracketed)

A bracketed character class set, which may contain zero or more -character ranges and/or zero or more nested classes. e.g., -[a-zA-Z\pL].

-

Methods

impl Class[src]

pub fn span(&self) -> &Span[src]

Return the span of this character class.

-

Trait Implementations

impl PartialEq<Class> for Class[src]

impl Clone for Class[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Class[src]

impl Debug for Class[src]

Auto Trait Implementations

impl Send for Class

impl Sync for Class

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassAsciiKind.html b/target/doc/regex_syntax/ast/enum.ClassAsciiKind.html deleted file mode 100644 index 37b8047..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassAsciiKind.html +++ /dev/null @@ -1,57 +0,0 @@ -regex_syntax::ast::ClassAsciiKind - Rust

[][src]Enum regex_syntax::ast::ClassAsciiKind

pub enum ClassAsciiKind {
-    Alnum,
-    Alpha,
-    Ascii,
-    Blank,
-    Cntrl,
-    Digit,
-    Graph,
-    Lower,
-    Print,
-    Punct,
-    Space,
-    Upper,
-    Word,
-    Xdigit,
-}

The available ASCII character classes.

-

- Variants

-Alnum

[0-9A-Za-z]

-
Alpha

[A-Za-z]

-
Ascii

[\x00-\x7F]

-
Blank

[ \t]

-
Cntrl

[\x00-\x1F\x7F]

-
Digit

[0-9]

-
Graph

[!-~]

-
Lower

[a-z]

-
Print

[ -~]

-
Punct

[!-/:-@\[-{-~]`

-
Space

[\t\n\v\f\r ]

-
Upper

[A-Z]

-
Word

[0-9A-Za-z_]

-
Xdigit

[0-9A-Fa-f]

-

Methods

impl ClassAsciiKind[src]

pub fn from_name(name: &str) -> Option<ClassAsciiKind>[src]

Return the corresponding ClassAsciiKind variant for the given name.

-

The name given should correspond to the lowercase version of the -variant name. e.g., cntrl is the name for ClassAsciiKind::Cntrl.

-

If no variant with the corresponding name exists, then None is -returned.

-

Trait Implementations

impl PartialEq<ClassAsciiKind> for ClassAsciiKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for ClassAsciiKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassAsciiKind[src]

impl Debug for ClassAsciiKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassPerlKind.html b/target/doc/regex_syntax/ast/enum.ClassPerlKind.html deleted file mode 100644 index a263500..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassPerlKind.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::ClassPerlKind - Rust

[][src]Enum regex_syntax::ast::ClassPerlKind

pub enum ClassPerlKind {
-    Digit,
-    Space,
-    Word,
-}

The available Perl character classes.

-

- Variants

-Digit

Decimal numbers.

-
Space

Whitespace.

-
Word

Word characters.

-

Trait Implementations

impl PartialEq<ClassPerlKind> for ClassPerlKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for ClassPerlKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassPerlKind[src]

impl Debug for ClassPerlKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassSet.html b/target/doc/regex_syntax/ast/enum.ClassSet.html deleted file mode 100644 index 383a528..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassSet.html +++ /dev/null @@ -1,37 +0,0 @@ -regex_syntax::ast::ClassSet - Rust

[][src]Enum regex_syntax::ast::ClassSet

pub enum ClassSet {
-    Item(ClassSetItem),
-    BinaryOp(ClassSetBinaryOp),
-}

A character class set.

-

This type corresponds to the internal structure of a bracketed character -class. That is, every bracketed character is one of two types: a union of -items (literals, ranges, other bracketed classes) or a tree of binary set -operations.

-

- Variants

-Item(ClassSetItem)

An item, which can be a single literal, range, nested character class -or a union of items.

-
BinaryOp(ClassSetBinaryOp)

A single binary operation (i.e., &&, -- or ~~).

-

Methods

impl ClassSet[src]

pub fn union(ast: ClassSetUnion) -> ClassSet[src]

Build a set from a union.

-

pub fn span(&self) -> &Span[src]

Return the span of this character class set.

-

Trait Implementations

impl PartialEq<ClassSet> for ClassSet[src]

impl Clone for ClassSet[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassSet[src]

impl Drop for ClassSet[src]

A custom Drop impl is used for ClassSet such that it uses constant -stack space but heap space proportional to the depth of the ClassSet.

-

impl Debug for ClassSet[src]

Auto Trait Implementations

impl Send for ClassSet

impl Sync for ClassSet

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassSetBinaryOpKind.html b/target/doc/regex_syntax/ast/enum.ClassSetBinaryOpKind.html deleted file mode 100644 index 9ac6b03..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassSetBinaryOpKind.html +++ /dev/null @@ -1,35 +0,0 @@ -regex_syntax::ast::ClassSetBinaryOpKind - Rust

[][src]Enum regex_syntax::ast::ClassSetBinaryOpKind

pub enum ClassSetBinaryOpKind {
-    Intersection,
-    Difference,
-    SymmetricDifference,
-}

The type of a Unicode character class set operation.

-

Note that this doesn't explicitly represent union since there is no -explicit union operator. Concatenation inside a character class corresponds -to the union operation.

-

- Variants

-Intersection

The intersection of two sets, e.g., \pN&&[a-z].

-
Difference

The difference of two sets, e.g., \pN--[0-9].

-
SymmetricDifference

The symmetric difference of two sets. The symmetric difference is the -set of elements belonging to one but not both sets. -e.g., [\pL~~[:ascii:]].

-

Trait Implementations

impl PartialEq<ClassSetBinaryOpKind> for ClassSetBinaryOpKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for ClassSetBinaryOpKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassSetBinaryOpKind[src]

impl Copy for ClassSetBinaryOpKind[src]

impl Debug for ClassSetBinaryOpKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassSetItem.html b/target/doc/regex_syntax/ast/enum.ClassSetItem.html deleted file mode 100644 index 661363a..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassSetItem.html +++ /dev/null @@ -1,45 +0,0 @@ -regex_syntax::ast::ClassSetItem - Rust

[][src]Enum regex_syntax::ast::ClassSetItem

pub enum ClassSetItem {
-    Empty(Span),
-    Literal(Literal),
-    Range(ClassSetRange),
-    Ascii(ClassAscii),
-    Unicode(ClassUnicode),
-    Perl(ClassPerl),
-    Bracketed(Box<ClassBracketed>),
-    Union(ClassSetUnion),
-}

A single component of a character class set.

-

- Variants

-Empty(Span)

An empty item.

-

Note that a bracketed character class cannot contain a single empty -item. Empty items can appear when using one of the binary operators. -For example, [&&] is the intersection of two empty classes.

-
Literal(Literal)

A single literal.

-
Range(ClassSetRange)

A range between two literals.

-
Ascii(ClassAscii)

An ASCII character class, e.g., [:alnum:] or [:punct:].

-
Unicode(ClassUnicode)

A Unicode character class, e.g., \pL or \p{Greek}.

-
Perl(ClassPerl)

A perl character class, e.g., \d or \W.

-
Bracketed(Box<ClassBracketed>)

A bracketed character class set, which may contain zero or more -character ranges and/or zero or more nested classes. e.g., -[a-zA-Z\pL].

-
Union(ClassSetUnion)

A union of items.

-

Methods

impl ClassSetItem[src]

pub fn span(&self) -> &Span[src]

Return the span of this character class set item.

-

Trait Implementations

impl PartialEq<ClassSetItem> for ClassSetItem[src]

impl Clone for ClassSetItem[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassSetItem[src]

impl Debug for ClassSetItem[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassUnicodeKind.html b/target/doc/regex_syntax/ast/enum.ClassUnicodeKind.html deleted file mode 100644 index 63329ce..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassUnicodeKind.html +++ /dev/null @@ -1,37 +0,0 @@ -regex_syntax::ast::ClassUnicodeKind - Rust

[][src]Enum regex_syntax::ast::ClassUnicodeKind

pub enum ClassUnicodeKind {
-    OneLetter(char),
-    Named(String),
-    NamedValue {
-        op: ClassUnicodeOpKind,
-        name: String,
-        value: String,
-    },
-}

The available forms of Unicode character classes.

-

- Variants

-OneLetter(char)

A one letter abbreviated class, e.g., \pN.

-
Named(String)

A binary property, general category or script. The string may be -empty.

-
NamedValue

A property name and an associated value.

-

Fields of NamedValue

op: ClassUnicodeOpKind

The type of Unicode op used to associate name with value.

-
name: String

The property name (which may be empty).

-
value: String

The property value (which may be empty).

-

Trait Implementations

impl PartialEq<ClassUnicodeKind> for ClassUnicodeKind[src]

impl Clone for ClassUnicodeKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassUnicodeKind[src]

impl Debug for ClassUnicodeKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ClassUnicodeOpKind.html b/target/doc/regex_syntax/ast/enum.ClassUnicodeOpKind.html deleted file mode 100644 index 91a6187..0000000 --- a/target/doc/regex_syntax/ast/enum.ClassUnicodeOpKind.html +++ /dev/null @@ -1,32 +0,0 @@ -regex_syntax::ast::ClassUnicodeOpKind - Rust

[][src]Enum regex_syntax::ast::ClassUnicodeOpKind

pub enum ClassUnicodeOpKind {
-    Equal,
-    Colon,
-    NotEqual,
-}

The type of op used in a Unicode character class.

-

- Variants

-Equal

A property set to a specific value, e.g., \p{scx=Katakana}.

-
Colon

A property set to a specific value using a colon, e.g., -\p{scx:Katakana}.

-
NotEqual

A property that isn't a particular value, e.g., \p{scx!=Katakana}.

-

Methods

impl ClassUnicodeOpKind[src]

pub fn is_equal(&self) -> bool[src]

Whether the op is an equality op or not.

-

Trait Implementations

impl PartialEq<ClassUnicodeOpKind> for ClassUnicodeOpKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for ClassUnicodeOpKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassUnicodeOpKind[src]

impl Debug for ClassUnicodeOpKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.ErrorKind.html b/target/doc/regex_syntax/ast/enum.ErrorKind.html deleted file mode 100644 index a9d7a32..0000000 --- a/target/doc/regex_syntax/ast/enum.ErrorKind.html +++ /dev/null @@ -1,123 +0,0 @@ -regex_syntax::ast::ErrorKind - Rust

[][src]Enum regex_syntax::ast::ErrorKind

pub enum ErrorKind {
-    CaptureLimitExceeded,
-    ClassEscapeInvalid,
-    ClassRangeInvalid,
-    ClassRangeLiteral,
-    ClassUnclosed,
-    DecimalEmpty,
-    DecimalInvalid,
-    EscapeHexEmpty,
-    EscapeHexInvalid,
-    EscapeHexInvalidDigit,
-    EscapeUnexpectedEof,
-    EscapeUnrecognized,
-    FlagDanglingNegation,
-    FlagDuplicate {
-        original: Span,
-    },
-    FlagRepeatedNegation {
-        original: Span,
-    },
-    FlagUnexpectedEof,
-    FlagUnrecognized,
-    GroupNameDuplicate {
-        original: Span,
-    },
-    GroupNameEmpty,
-    GroupNameInvalid,
-    GroupNameUnexpectedEof,
-    GroupUnclosed,
-    GroupUnopened,
-    NestLimitExceeded(u32),
-    RepetitionCountInvalid,
-    RepetitionCountDecimalEmpty,
-    RepetitionCountUnclosed,
-    RepetitionMissing,
-    UnsupportedBackreference,
-    UnsupportedLookAround,
-    // some variants omitted
-}

The type of an error that occurred while building an AST.

-

- Variants

-CaptureLimitExceeded

The capturing group limit was exceeded.

-

Note that this represents a limit on the total number of capturing -groups in a regex and not necessarily the number of nested capturing -groups. That is, the nest limit can be low and it is still possible for -this error to occur.

-
ClassEscapeInvalid

An invalid escape sequence was found in a character class set.

-
ClassRangeInvalid

An invalid character class range was found. An invalid range is any -range where the start is greater than the end.

-
ClassRangeLiteral

An invalid range boundary was found in a character class. Range -boundaries must be a single literal codepoint, but this error indicates -that something else was found, such as a nested class.

-
ClassUnclosed

An opening [ was found with no corresponding closing ].

-
DecimalEmpty

Note that this error variant is no longer used. Namely, a decimal -number can only appear as a repetition quantifier. When the number -in a repetition quantifier is empty, then it gets its own specialized -error, RepetitionCountDecimalEmpty.

-
DecimalInvalid

An invalid decimal number was given where one was expected.

-
EscapeHexEmpty

A bracketed hex literal was empty.

-
EscapeHexInvalid

A bracketed hex literal did not correspond to a Unicode scalar value.

-
EscapeHexInvalidDigit

An invalid hexadecimal digit was found.

-
EscapeUnexpectedEof

EOF was found before an escape sequence was completed.

-
EscapeUnrecognized

An unrecognized escape sequence.

-
FlagDanglingNegation

A dangling negation was used when setting flags, e.g., i-.

-
FlagDuplicate

A flag was used twice, e.g., i-i.

-

Fields of FlagDuplicate

original: Span

The position of the original flag. The error position -points to the duplicate flag.

-
FlagRepeatedNegation

The negation operator was used twice, e.g., -i-s.

-

Fields of FlagRepeatedNegation

original: Span

The position of the original negation operator. The error position -points to the duplicate negation operator.

-
FlagUnexpectedEof

Expected a flag but got EOF, e.g., (?.

-
FlagUnrecognized

Unrecognized flag, e.g., a.

-
GroupNameDuplicate

A duplicate capture name was found.

-

Fields of GroupNameDuplicate

original: Span

The position of the initial occurrence of the capture name. The -error position itself points to the duplicate occurrence.

-
GroupNameEmpty

A capture group name is empty, e.g., (?P<>abc).

-
GroupNameInvalid

An invalid character was seen for a capture group name. This includes -errors where the first character is a digit (even though subsequent -characters are allowed to be digits).

-
GroupNameUnexpectedEof

A closing > could not be found for a capture group name.

-
GroupUnclosed

An unclosed group, e.g., (ab.

-

The span of this error corresponds to the unclosed parenthesis.

-
GroupUnopened

An unopened group, e.g., ab).

-
NestLimitExceeded(u32)

The nest limit was exceeded. The limit stored here is the limit -configured in the parser.

-
RepetitionCountInvalid

The range provided in a counted repetition operator is invalid. The -range is invalid if the start is greater than the end.

-
RepetitionCountDecimalEmpty

An opening { was not followed by a valid decimal value. -For example, x{} or x{]} would fail.

-
RepetitionCountUnclosed

An opening { was found with no corresponding closing }.

-
RepetitionMissing

A repetition operator was applied to a missing sub-expression. This -occurs, for example, in the regex consisting of just a * or even -(?i)*. It is, however, possible to create a repetition operating on -an empty sub-expression. For example, ()* is still considered valid.

-
UnsupportedBackreference

When octal support is disabled, this error is produced when an octal -escape is used. The octal escape is assumed to be an invocation of -a backreference, which is the common case.

-
UnsupportedLookAround

When syntax similar to PCRE's look-around is used, this error is -returned. Some example syntaxes that are rejected include, but are -not necessarily limited to, (?=re), (?!re), (?<=re) and -(?<!re). Note that all of these syntaxes are otherwise invalid; this -error is used to improve the user experience.

-

Trait Implementations

impl PartialEq<ErrorKind> for ErrorKind[src]

impl Clone for ErrorKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ErrorKind[src]

impl Display for ErrorKind[src]

impl Debug for ErrorKind[src]

Auto Trait Implementations

impl Send for ErrorKind

impl Sync for ErrorKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.Flag.html b/target/doc/regex_syntax/ast/enum.Flag.html deleted file mode 100644 index d07fd52..0000000 --- a/target/doc/regex_syntax/ast/enum.Flag.html +++ /dev/null @@ -1,36 +0,0 @@ -regex_syntax::ast::Flag - Rust

[][src]Enum regex_syntax::ast::Flag

pub enum Flag {
-    CaseInsensitive,
-    MultiLine,
-    DotMatchesNewLine,
-    SwapGreed,
-    Unicode,
-    IgnoreWhitespace,
-}

A single flag.

-

- Variants

-CaseInsensitive

i

-
MultiLine

m

-
DotMatchesNewLine

s

-
SwapGreed

U

-
Unicode

u

-
IgnoreWhitespace

x

-

Trait Implementations

impl PartialEq<Flag> for Flag[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for Flag[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Flag[src]

impl Copy for Flag[src]

impl Debug for Flag[src]

Auto Trait Implementations

impl Send for Flag

impl Sync for Flag

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.FlagsItemKind.html b/target/doc/regex_syntax/ast/enum.FlagsItemKind.html deleted file mode 100644 index 4fddbe9..0000000 --- a/target/doc/regex_syntax/ast/enum.FlagsItemKind.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::ast::FlagsItemKind - Rust

[][src]Enum regex_syntax::ast::FlagsItemKind

pub enum FlagsItemKind {
-    Negation,
-    Flag(Flag),
-}

The kind of an item in a group of flags.

-

- Variants

-Negation

A negation operator applied to all subsequent flags in the enclosing -group.

-
Flag(Flag)

A single flag in a group.

-

Methods

impl FlagsItemKind[src]

pub fn is_negation(&self) -> bool[src]

Returns true if and only if this item is a negation operator.

-

Trait Implementations

impl PartialEq<FlagsItemKind> for FlagsItemKind[src]

impl Clone for FlagsItemKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for FlagsItemKind[src]

impl Debug for FlagsItemKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.GroupKind.html b/target/doc/regex_syntax/ast/enum.GroupKind.html deleted file mode 100644 index 29a6781..0000000 --- a/target/doc/regex_syntax/ast/enum.GroupKind.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::ast::GroupKind - Rust

[][src]Enum regex_syntax::ast::GroupKind

pub enum GroupKind {
-    CaptureIndex(u32),
-    CaptureName(CaptureName),
-    NonCapturing(Flags),
-}

The kind of a group.

-

- Variants

-CaptureIndex(u32)

(a)

-
CaptureName(CaptureName)

(?P<name>a)

-
NonCapturing(Flags)

(?:a) and (?i:a)

-

Trait Implementations

impl PartialEq<GroupKind> for GroupKind[src]

impl Clone for GroupKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for GroupKind[src]

impl Debug for GroupKind[src]

Auto Trait Implementations

impl Send for GroupKind

impl Sync for GroupKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.HexLiteralKind.html b/target/doc/regex_syntax/ast/enum.HexLiteralKind.html deleted file mode 100644 index 00ec8db..0000000 --- a/target/doc/regex_syntax/ast/enum.HexLiteralKind.html +++ /dev/null @@ -1,39 +0,0 @@ -regex_syntax::ast::HexLiteralKind - Rust

[][src]Enum regex_syntax::ast::HexLiteralKind

pub enum HexLiteralKind {
-    X,
-    UnicodeShort,
-    UnicodeLong,
-}

The type of a Unicode hex literal.

-

Note that all variants behave the same when used with brackets. They only -differ when used without brackets in the number of hex digits that must -follow.

-

- Variants

-X

A \x prefix. When used without brackets, this form is limited to -two digits.

-
UnicodeShort

A \u prefix. When used without brackets, this form is limited to -four digits.

-
UnicodeLong

A \U prefix. When used without brackets, this form is limited to -eight digits.

-

Methods

impl HexLiteralKind[src]

pub fn digits(&self) -> u32[src]

The number of digits that must be used with this literal form when -used without brackets. When used with brackets, there is no -restriction on the number of digits.

-

Trait Implementations

impl PartialEq<HexLiteralKind> for HexLiteralKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for HexLiteralKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for HexLiteralKind[src]

impl Debug for HexLiteralKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.LiteralKind.html b/target/doc/regex_syntax/ast/enum.LiteralKind.html deleted file mode 100644 index 2df92ce..0000000 --- a/target/doc/regex_syntax/ast/enum.LiteralKind.html +++ /dev/null @@ -1,41 +0,0 @@ -regex_syntax::ast::LiteralKind - Rust

[][src]Enum regex_syntax::ast::LiteralKind

pub enum LiteralKind {
-    Verbatim,
-    Punctuation,
-    Octal,
-    HexFixed(HexLiteralKind),
-    HexBrace(HexLiteralKind),
-    Special(SpecialLiteralKind),
-}

The kind of a single literal expression.

-

- Variants

-Verbatim

The literal is written verbatim, e.g., a or .

-
Punctuation

The literal is written as an escape because it is punctuation, e.g., -* or [.

-
Octal

The literal is written as an octal escape, e.g., \141.

-
HexFixed(HexLiteralKind)

The literal is written as a hex code with a fixed number of digits -depending on the type of the escape, e.g., \x61 or or \u0061 or -\U00000061.

-
HexBrace(HexLiteralKind)

The literal is written as a hex code with a bracketed number of -digits. The only restriction is that the bracketed hex code must refer -to a valid Unicode scalar value.

-
Special(SpecialLiteralKind)

The literal is written as a specially recognized escape, e.g., \f -or \n.

-

Trait Implementations

impl PartialEq<LiteralKind> for LiteralKind[src]

impl Clone for LiteralKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for LiteralKind[src]

impl Debug for LiteralKind[src]

Auto Trait Implementations

impl Send for LiteralKind

impl Sync for LiteralKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.RepetitionKind.html b/target/doc/regex_syntax/ast/enum.RepetitionKind.html deleted file mode 100644 index af86d61..0000000 --- a/target/doc/regex_syntax/ast/enum.RepetitionKind.html +++ /dev/null @@ -1,31 +0,0 @@ -regex_syntax::ast::RepetitionKind - Rust

[][src]Enum regex_syntax::ast::RepetitionKind

pub enum RepetitionKind {
-    ZeroOrOne,
-    ZeroOrMore,
-    OneOrMore,
-    Range(RepetitionRange),
-}

The kind of a repetition operator.

-

- Variants

-ZeroOrOne

?

-
ZeroOrMore

*

-
OneOrMore

+

-
Range(RepetitionRange)

{m,n}

-

Trait Implementations

impl PartialEq<RepetitionKind> for RepetitionKind[src]

impl Clone for RepetitionKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for RepetitionKind[src]

impl Debug for RepetitionKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.RepetitionRange.html b/target/doc/regex_syntax/ast/enum.RepetitionRange.html deleted file mode 100644 index 41409e4..0000000 --- a/target/doc/regex_syntax/ast/enum.RepetitionRange.html +++ /dev/null @@ -1,32 +0,0 @@ -regex_syntax::ast::RepetitionRange - Rust

[][src]Enum regex_syntax::ast::RepetitionRange

pub enum RepetitionRange {
-    Exactly(u32),
-    AtLeast(u32),
-    Bounded(u32u32),
-}

A range repetition operator.

-

- Variants

-Exactly(u32)

{m}

-
AtLeast(u32)

{m,}

-
Bounded(u32u32)

{m,n}

-

Methods

impl RepetitionRange[src]

pub fn is_valid(&self) -> bool[src]

Returns true if and only if this repetition range is valid.

-

The only case where a repetition range is invalid is if it is bounded -and its start is greater than its end.

-

Trait Implementations

impl PartialEq<RepetitionRange> for RepetitionRange[src]

impl Clone for RepetitionRange[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for RepetitionRange[src]

impl Debug for RepetitionRange[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/enum.SpecialLiteralKind.html b/target/doc/regex_syntax/ast/enum.SpecialLiteralKind.html deleted file mode 100644 index 9719540..0000000 --- a/target/doc/regex_syntax/ast/enum.SpecialLiteralKind.html +++ /dev/null @@ -1,41 +0,0 @@ -regex_syntax::ast::SpecialLiteralKind - Rust

[][src]Enum regex_syntax::ast::SpecialLiteralKind

pub enum SpecialLiteralKind {
-    Bell,
-    FormFeed,
-    Tab,
-    LineFeed,
-    CarriageReturn,
-    VerticalTab,
-    Space,
-}

The type of a special literal.

-

A special literal is a special escape sequence recognized by the regex -parser, e.g., \f or \n.

-

- Variants

-Bell

Bell, spelled \a (\x07).

-
FormFeed

Form feed, spelled \f (\x0C).

-
Tab

Tab, spelled \t (\x09).

-
LineFeed

Line feed, spelled \n (\x0A).

-
CarriageReturn

Carriage return, spelled \r (\x0D).

-
VerticalTab

Vertical tab, spelled \v (\x0B).

-
Space

Space, spelled \ (\x20). Note that this can only appear when -parsing in verbose mode.

-

Trait Implementations

impl PartialEq<SpecialLiteralKind> for SpecialLiteralKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for SpecialLiteralKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for SpecialLiteralKind[src]

impl Debug for SpecialLiteralKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/fn.visit.html b/target/doc/regex_syntax/ast/fn.visit.html deleted file mode 100644 index c7f9beb..0000000 --- a/target/doc/regex_syntax/ast/fn.visit.html +++ /dev/null @@ -1,13 +0,0 @@ -regex_syntax::ast::visit - Rust

[][src]Function regex_syntax::ast::visit

pub fn visit<V: Visitor>(ast: &Ast, visitor: V) -> Result<V::Output, V::Err>

Executes an implementation of Visitor in constant stack space.

-

This function will visit every node in the given Ast while calling the -appropriate methods provided by the -Visitor trait.

-

The primary use case for this method is when one wants to perform case -analysis over an Ast without using a stack size proportional to the depth -of the Ast. Namely, this method will instead use constant stack size, but -will use heap space proportional to the size of the Ast. This may be -desirable in cases where the size of Ast is proportional to end user -input.

-

If the visitor returns an error at any point, then visiting is stopped and -the error is returned.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/index.html b/target/doc/regex_syntax/ast/index.html deleted file mode 100644 index 07639a8..0000000 --- a/target/doc/regex_syntax/ast/index.html +++ /dev/null @@ -1,55 +0,0 @@ -regex_syntax::ast - Rust

[][src]Module regex_syntax::ast

Defines an abstract syntax for regular expressions.

-

Modules

-
parse

This module provides a regular expression parser.

-
print

This module provides a regular expression printer for Ast.

-

Structs

-
Alternation

An alternation of regular expressions.

-
Assertion

A single zero-width assertion.

-
CaptureName

A capture name.

-
ClassAscii

An ASCII character class.

-
ClassBracketed

A bracketed character class, e.g., [a-z0-9].

-
ClassPerl

A Perl character class.

-
ClassSetBinaryOp

A Unicode character class set operation.

-
ClassSetRange

A single character class range in a set.

-
ClassSetUnion

A union of items inside a character class set.

-
ClassUnicode

A Unicode character class.

-
Comment

A comment from a regular expression with an associated span.

-
Concat

A concatenation of regular expressions.

-
Error

An error that occurred while parsing a regular expression into an abstract -syntax tree.

-
Flags

A group of flags.

-
FlagsItem

A single item in a group of flags.

-
Group

A grouped regular expression.

-
Literal

A single literal expression.

-
Position

A single position in a regular expression.

-
Repetition

A repetition operation applied to a regular expression.

-
RepetitionOp

The repetition operator itself.

-
SetFlags

A group of flags that is not applied to a particular regular expression.

-
Span

Span represents the position information of a single AST item.

-
WithComments

An abstract syntax tree for a singular expression along with comments -found.

-

Enums

-
AssertionKind

An assertion kind.

-
Ast

An abstract syntax tree for a single regular expression.

-
Class

A single character class expression.

-
ClassAsciiKind

The available ASCII character classes.

-
ClassPerlKind

The available Perl character classes.

-
ClassSet

A character class set.

-
ClassSetBinaryOpKind

The type of a Unicode character class set operation.

-
ClassSetItem

A single component of a character class set.

-
ClassUnicodeKind

The available forms of Unicode character classes.

-
ClassUnicodeOpKind

The type of op used in a Unicode character class.

-
ErrorKind

The type of an error that occurred while building an AST.

-
Flag

A single flag.

-
FlagsItemKind

The kind of an item in a group of flags.

-
GroupKind

The kind of a group.

-
HexLiteralKind

The type of a Unicode hex literal.

-
LiteralKind

The kind of a single literal expression.

-
RepetitionKind

The kind of a repetition operator.

-
RepetitionRange

A range repetition operator.

-
SpecialLiteralKind

The type of a special literal.

-

Traits

-
Visitor

A trait for visiting an abstract syntax tree (AST) in depth first order.

-

Functions

-
visit

Executes an implementation of Visitor in constant stack space.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/parse/index.html b/target/doc/regex_syntax/ast/parse/index.html deleted file mode 100644 index abda522..0000000 --- a/target/doc/regex_syntax/ast/parse/index.html +++ /dev/null @@ -1,5 +0,0 @@ -regex_syntax::ast::parse - Rust

[][src]Module regex_syntax::ast::parse

This module provides a regular expression parser.

-

Structs

-
Parser

A regular expression parser.

-
ParserBuilder

A builder for a regular expression parser.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/parse/sidebar-items.js b/target/doc/regex_syntax/ast/parse/sidebar-items.js deleted file mode 100644 index d779309..0000000 --- a/target/doc/regex_syntax/ast/parse/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Parser","A regular expression parser."],["ParserBuilder","A builder for a regular expression parser."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/ast/parse/struct.Parser.html b/target/doc/regex_syntax/ast/parse/struct.Parser.html deleted file mode 100644 index 9e437c6..0000000 --- a/target/doc/regex_syntax/ast/parse/struct.Parser.html +++ /dev/null @@ -1,31 +0,0 @@ -regex_syntax::ast::parse::Parser - Rust

[][src]Struct regex_syntax::ast::parse::Parser

pub struct Parser { /* fields omitted */ }

A regular expression parser.

-

This parses a string representation of a regular expression into an -abstract syntax tree. The size of the tree is proportional to the length -of the regular expression pattern.

-

A Parser can be configured in more detail via a -ParserBuilder.

-

Methods

impl Parser[src]

pub fn new() -> Parser[src]

Create a new parser with a default configuration.

-

The parser can be run with either the parse or parse_with_comments -methods. The parse methods return an abstract syntax tree.

-

To set configuration options on the parser, use -ParserBuilder.

-

pub fn parse(&mut self, pattern: &str) -> Result<Ast, Error>[src]

Parse the regular expression into an abstract syntax tree.

-

pub fn parse_with_comments(
    &mut self,
    pattern: &str
) -> Result<WithComments, Error>
[src]

Parse the regular expression and return an abstract syntax tree with -all of the comments found in the pattern.

-

Trait Implementations

impl Clone for Parser[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for Parser[src]

Auto Trait Implementations

impl Send for Parser

impl !Sync for Parser

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/parse/struct.ParserBuilder.html b/target/doc/regex_syntax/ast/parse/struct.ParserBuilder.html deleted file mode 100644 index 9d9abe2..0000000 --- a/target/doc/regex_syntax/ast/parse/struct.ParserBuilder.html +++ /dev/null @@ -1,61 +0,0 @@ -regex_syntax::ast::parse::ParserBuilder - Rust

[][src]Struct regex_syntax::ast::parse::ParserBuilder

pub struct ParserBuilder { /* fields omitted */ }

A builder for a regular expression parser.

-

This builder permits modifying configuration options for the parser.

-

Methods

impl ParserBuilder[src]

pub fn new() -> ParserBuilder[src]

Create a new parser builder with a default configuration.

-

pub fn build(&self) -> Parser[src]

Build a parser from this configuration with the given pattern.

-

pub fn nest_limit(&mut self, limit: u32) -> &mut ParserBuilder[src]

Set the nesting limit for this parser.

-

The nesting limit controls how deep the abstract syntax tree is allowed -to be. If the AST exceeds the given limit (e.g., with too many nested -groups), then an error is returned by the parser.

-

The purpose of this limit is to act as a heuristic to prevent stack -overflow for consumers that do structural induction on an Ast using -explicit recursion. While this crate never does this (instead using -constant stack space and moving the call stack to the heap), other -crates may.

-

This limit is not checked until the entire Ast is parsed. Therefore, -if callers want to put a limit on the amount of heap space used, then -they should impose a limit on the length, in bytes, of the concrete -pattern string. In particular, this is viable since this parser -implementation will limit itself to heap space proportional to the -lenth of the pattern string.

-

Note that a nest limit of 0 will return a nest limit error for most -patterns but not all. For example, a nest limit of 0 permits a but -not ab, since ab requires a concatenation, which results in a nest -depth of 1. In general, a nest limit is not something that manifests -in an obvious way in the concrete syntax, therefore, it should not be -used in a granular way.

-

pub fn octal(&mut self, yes: bool) -> &mut ParserBuilder[src]

Whether to support octal syntax or not.

-

Octal syntax is a little-known way of uttering Unicode codepoints in -a regular expression. For example, a, \x61, \u0061 and -\141 are all equivalent regular expressions, where the last example -shows octal syntax.

-

While supporting octal syntax isn't in and of itself a problem, it does -make good error messages harder. That is, in PCRE based regex engines, -syntax like \0 invokes a backreference, which is explicitly -unsupported in Rust's regex engine. However, many users expect it to -be supported. Therefore, when octal support is disabled, the error -message will explicitly mention that backreferences aren't supported.

-

Octal syntax is disabled by default.

-

pub fn ignore_whitespace(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable verbose mode in the regular expression.

-

When enabled, verbose mode permits insigificant whitespace in many -places in the regular expression, as well as comments. Comments are -started using # and continue until the end of the line.

-

By default, this is disabled. It may be selectively enabled in the -regular expression by using the x flag regardless of this setting.

-

Trait Implementations

impl Clone for ParserBuilder[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for ParserBuilder[src]

impl Debug for ParserBuilder[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/print/index.html b/target/doc/regex_syntax/ast/print/index.html deleted file mode 100644 index 90cdd7d..0000000 --- a/target/doc/regex_syntax/ast/print/index.html +++ /dev/null @@ -1,4 +0,0 @@ -regex_syntax::ast::print - Rust

[][src]Module regex_syntax::ast::print

This module provides a regular expression printer for Ast.

-

Structs

-
Printer

A printer for a regular expression abstract syntax tree.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/print/sidebar-items.js b/target/doc/regex_syntax/ast/print/sidebar-items.js deleted file mode 100644 index ff36f31..0000000 --- a/target/doc/regex_syntax/ast/print/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Printer","A printer for a regular expression abstract syntax tree."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/ast/print/struct.Printer.html b/target/doc/regex_syntax/ast/print/struct.Printer.html deleted file mode 100644 index e0ca704..0000000 --- a/target/doc/regex_syntax/ast/print/struct.Printer.html +++ /dev/null @@ -1,23 +0,0 @@ -regex_syntax::ast::print::Printer - Rust

[][src]Struct regex_syntax::ast::print::Printer

pub struct Printer { /* fields omitted */ }

A printer for a regular expression abstract syntax tree.

-

A printer converts an abstract syntax tree (AST) to a regular expression -pattern string. This particular printer uses constant stack space and heap -space proportional to the size of the AST.

-

This printer will not necessarily preserve the original formatting of the -regular expression pattern string. For example, all whitespace and comments -are ignored.

-

Methods

impl Printer[src]

pub fn new() -> Printer[src]

Create a new printer.

-

pub fn print<W: Write>(&mut self, ast: &Ast, wtr: W) -> Result[src]

Print the given Ast to the given writer. The writer must implement -fmt::Write. Typical implementations of fmt::Write that can be used -here are a fmt::Formatter (which is available in fmt::Display -implementations) or a &mut String.

-

Trait Implementations

impl Debug for Printer[src]

Auto Trait Implementations

impl Send for Printer

impl Sync for Printer

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/sidebar-items.js b/target/doc/regex_syntax/ast/sidebar-items.js deleted file mode 100644 index 696ba7a..0000000 --- a/target/doc/regex_syntax/ast/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["AssertionKind","An assertion kind."],["Ast","An abstract syntax tree for a single regular expression."],["Class","A single character class expression."],["ClassAsciiKind","The available ASCII character classes."],["ClassPerlKind","The available Perl character classes."],["ClassSet","A character class set."],["ClassSetBinaryOpKind","The type of a Unicode character class set operation."],["ClassSetItem","A single component of a character class set."],["ClassUnicodeKind","The available forms of Unicode character classes."],["ClassUnicodeOpKind","The type of op used in a Unicode character class."],["ErrorKind","The type of an error that occurred while building an AST."],["Flag","A single flag."],["FlagsItemKind","The kind of an item in a group of flags."],["GroupKind","The kind of a group."],["HexLiteralKind","The type of a Unicode hex literal."],["LiteralKind","The kind of a single literal expression."],["RepetitionKind","The kind of a repetition operator."],["RepetitionRange","A range repetition operator."],["SpecialLiteralKind","The type of a special literal."]],"fn":[["visit","Executes an implementation of `Visitor` in constant stack space."]],"mod":[["parse","This module provides a regular expression parser."],["print","This module provides a regular expression printer for `Ast`."]],"struct":[["Alternation","An alternation of regular expressions."],["Assertion","A single zero-width assertion."],["CaptureName","A capture name."],["ClassAscii","An ASCII character class."],["ClassBracketed","A bracketed character class, e.g., `[a-z0-9]`."],["ClassPerl","A Perl character class."],["ClassSetBinaryOp","A Unicode character class set operation."],["ClassSetRange","A single character class range in a set."],["ClassSetUnion","A union of items inside a character class set."],["ClassUnicode","A Unicode character class."],["Comment","A comment from a regular expression with an associated span."],["Concat","A concatenation of regular expressions."],["Error","An error that occurred while parsing a regular expression into an abstract syntax tree."],["Flags","A group of flags."],["FlagsItem","A single item in a group of flags."],["Group","A grouped regular expression."],["Literal","A single literal expression."],["Position","A single position in a regular expression."],["Repetition","A repetition operation applied to a regular expression."],["RepetitionOp","The repetition operator itself."],["SetFlags","A group of flags that is not applied to a particular regular expression."],["Span","Span represents the position information of a single AST item."],["WithComments","An abstract syntax tree for a singular expression along with comments found."]],"trait":[["Visitor","A trait for visiting an abstract syntax tree (AST) in depth first order."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Alternation.html b/target/doc/regex_syntax/ast/struct.Alternation.html deleted file mode 100644 index 0b5b77e..0000000 --- a/target/doc/regex_syntax/ast/struct.Alternation.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::Alternation - Rust

[][src]Struct regex_syntax::ast::Alternation

pub struct Alternation {
-    pub span: Span,
-    pub asts: Vec<Ast>,
-}

An alternation of regular expressions.

-

- Fields

span: Span

The span of this alternation.

-
asts: Vec<Ast>

The alternate regular expressions.

-

Methods

impl Alternation[src]

pub fn into_ast(self) -> Ast[src]

Return this alternation as an AST.

-

If this alternation contains zero ASTs, then Ast::Empty is -returned. If this alternation contains exactly 1 AST, then the -corresponding AST is returned. Otherwise, Ast::Alternation is returned.

-

Trait Implementations

impl PartialEq<Alternation> for Alternation[src]

impl Clone for Alternation[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Alternation[src]

impl Debug for Alternation[src]

Auto Trait Implementations

impl Send for Alternation

impl Sync for Alternation

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Assertion.html b/target/doc/regex_syntax/ast/struct.Assertion.html deleted file mode 100644 index 5419618..0000000 --- a/target/doc/regex_syntax/ast/struct.Assertion.html +++ /dev/null @@ -1,26 +0,0 @@ -regex_syntax::ast::Assertion - Rust

[][src]Struct regex_syntax::ast::Assertion

pub struct Assertion {
-    pub span: Span,
-    pub kind: AssertionKind,
-}

A single zero-width assertion.

-

- Fields

span: Span

The span of this assertion.

-
kind: AssertionKind

The assertion kind, e.g., \b or ^.

-

Trait Implementations

impl PartialEq<Assertion> for Assertion[src]

impl Clone for Assertion[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Assertion[src]

impl Debug for Assertion[src]

Auto Trait Implementations

impl Send for Assertion

impl Sync for Assertion

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.CaptureName.html b/target/doc/regex_syntax/ast/struct.CaptureName.html deleted file mode 100644 index a3036c6..0000000 --- a/target/doc/regex_syntax/ast/struct.CaptureName.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::CaptureName - Rust

[][src]Struct regex_syntax::ast::CaptureName

pub struct CaptureName {
-    pub span: Span,
-    pub name: String,
-    pub index: u32,
-}

A capture name.

-

This corresponds to the name itself between the angle brackets in, e.g., -(?P<foo>expr).

-

- Fields

span: Span

The span of this capture name.

-
name: String

The capture name.

-
index: u32

The capture index.

-

Trait Implementations

impl PartialEq<CaptureName> for CaptureName[src]

impl Clone for CaptureName[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for CaptureName[src]

impl Debug for CaptureName[src]

Auto Trait Implementations

impl Send for CaptureName

impl Sync for CaptureName

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassAscii.html b/target/doc/regex_syntax/ast/struct.ClassAscii.html deleted file mode 100644 index 294bfda..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassAscii.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::ast::ClassAscii - Rust

[][src]Struct regex_syntax::ast::ClassAscii

pub struct ClassAscii {
-    pub span: Span,
-    pub kind: ClassAsciiKind,
-    pub negated: bool,
-}

An ASCII character class.

-

- Fields

span: Span

The span of this class.

-
kind: ClassAsciiKind

The kind of ASCII class.

-
negated: bool

Whether the class is negated or not. e.g., [[:alpha:]] is not negated -but [[:^alpha:]] is.

-

Trait Implementations

impl PartialEq<ClassAscii> for ClassAscii[src]

impl Clone for ClassAscii[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassAscii[src]

impl Debug for ClassAscii[src]

Auto Trait Implementations

impl Send for ClassAscii

impl Sync for ClassAscii

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassBracketed.html b/target/doc/regex_syntax/ast/struct.ClassBracketed.html deleted file mode 100644 index e854fa7..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassBracketed.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::ClassBracketed - Rust

[][src]Struct regex_syntax::ast::ClassBracketed

pub struct ClassBracketed {
-    pub span: Span,
-    pub negated: bool,
-    pub kind: ClassSet,
-}

A bracketed character class, e.g., [a-z0-9].

-

- Fields

span: Span

The span of this class.

-
negated: bool

Whether this class is negated or not. e.g., [a] is not negated but -[^a] is.

-
kind: ClassSet

The type of this set. A set is either a normal union of things, e.g., -[abc] or a result of applying set operations, e.g., [\pL--c].

-

Trait Implementations

impl PartialEq<ClassBracketed> for ClassBracketed[src]

impl Clone for ClassBracketed[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassBracketed[src]

impl Debug for ClassBracketed[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassPerl.html b/target/doc/regex_syntax/ast/struct.ClassPerl.html deleted file mode 100644 index ef40569..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassPerl.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::ast::ClassPerl - Rust

[][src]Struct regex_syntax::ast::ClassPerl

pub struct ClassPerl {
-    pub span: Span,
-    pub kind: ClassPerlKind,
-    pub negated: bool,
-}

A Perl character class.

-

- Fields

span: Span

The span of this class.

-
kind: ClassPerlKind

The kind of Perl class.

-
negated: bool

Whether the class is negated or not. e.g., \d is not negated but -\D is.

-

Trait Implementations

impl PartialEq<ClassPerl> for ClassPerl[src]

impl Clone for ClassPerl[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassPerl[src]

impl Debug for ClassPerl[src]

Auto Trait Implementations

impl Send for ClassPerl

impl Sync for ClassPerl

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassSetBinaryOp.html b/target/doc/regex_syntax/ast/struct.ClassSetBinaryOp.html deleted file mode 100644 index 888c6d4..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassSetBinaryOp.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::ClassSetBinaryOp - Rust

[][src]Struct regex_syntax::ast::ClassSetBinaryOp

pub struct ClassSetBinaryOp {
-    pub span: Span,
-    pub kind: ClassSetBinaryOpKind,
-    pub lhs: Box<ClassSet>,
-    pub rhs: Box<ClassSet>,
-}

A Unicode character class set operation.

-

- Fields

span: Span

The span of this operation. e.g., the a-z--[h-p] in [a-z--h-p].

-
kind: ClassSetBinaryOpKind

The type of this set operation.

-
lhs: Box<ClassSet>

The left hand side of the operation.

-
rhs: Box<ClassSet>

The right hand side of the operation.

-

Trait Implementations

impl PartialEq<ClassSetBinaryOp> for ClassSetBinaryOp[src]

impl Clone for ClassSetBinaryOp[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassSetBinaryOp[src]

impl Debug for ClassSetBinaryOp[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassSetRange.html b/target/doc/regex_syntax/ast/struct.ClassSetRange.html deleted file mode 100644 index b2be3c5..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassSetRange.html +++ /dev/null @@ -1,31 +0,0 @@ -regex_syntax::ast::ClassSetRange - Rust

[][src]Struct regex_syntax::ast::ClassSetRange

pub struct ClassSetRange {
-    pub span: Span,
-    pub start: Literal,
-    pub end: Literal,
-}

A single character class range in a set.

-

- Fields

span: Span

The span of this range.

-
start: Literal

The start of this range.

-
end: Literal

The end of this range.

-

Methods

impl ClassSetRange[src]

pub fn is_valid(&self) -> bool[src]

Returns true if and only if this character class range is valid.

-

The only case where a range is invalid is if its start is greater than -its end.

-

Trait Implementations

impl PartialEq<ClassSetRange> for ClassSetRange[src]

impl Clone for ClassSetRange[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassSetRange[src]

impl Debug for ClassSetRange[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassSetUnion.html b/target/doc/regex_syntax/ast/struct.ClassSetUnion.html deleted file mode 100644 index 0a0823b..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassSetUnion.html +++ /dev/null @@ -1,40 +0,0 @@ -regex_syntax::ast::ClassSetUnion - Rust

[][src]Struct regex_syntax::ast::ClassSetUnion

pub struct ClassSetUnion {
-    pub span: Span,
-    pub items: Vec<ClassSetItem>,
-}

A union of items inside a character class set.

-

- Fields

span: Span

The span of the items in this operation. e.g., the a-z0-9 in -[^a-z0-9]

-
items: Vec<ClassSetItem>

The sequence of items that make up this union.

-

Methods

impl ClassSetUnion[src]

pub fn push(&mut self, item: ClassSetItem)[src]

Push a new item in this union.

-

The ending position of this union's span is updated to the ending -position of the span of the item given. If the union is empty, then -the starting position of this union is set to the starting position -of this item.

-

In other words, if you only use this method to add items to a union -and you set the spans on each item correctly, then you should never -need to adjust the span of the union directly.

-

pub fn into_item(self) -> ClassSetItem[src]

Return this union as a character class set item.

-

If this union contains zero items, then an empty union is -returned. If this concatenation contains exactly 1 item, then the -corresponding item is returned. Otherwise, ClassSetItem::Union is -returned.

-

Trait Implementations

impl PartialEq<ClassSetUnion> for ClassSetUnion[src]

impl Clone for ClassSetUnion[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassSetUnion[src]

impl Debug for ClassSetUnion[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.ClassUnicode.html b/target/doc/regex_syntax/ast/struct.ClassUnicode.html deleted file mode 100644 index 85d4335..0000000 --- a/target/doc/regex_syntax/ast/struct.ClassUnicode.html +++ /dev/null @@ -1,38 +0,0 @@ -regex_syntax::ast::ClassUnicode - Rust

[][src]Struct regex_syntax::ast::ClassUnicode

pub struct ClassUnicode {
-    pub span: Span,
-    pub negated: bool,
-    pub kind: ClassUnicodeKind,
-}

A Unicode character class.

-

- Fields

span: Span

The span of this class.

-
negated: bool

Whether this class is negated or not.

-

Note: be careful when using this attribute. This specifically refers -to whether the class is written as \p or \P, where the latter -is negated = true. However, it also possible to write something like -\P{scx!=Katakana} which is actually equivalent to -\p{scx=Katakana} and is therefore not actually negated even though -negated = true here. To test whether this class is truly negated -or not, use the is_negated method.

-
kind: ClassUnicodeKind

The kind of Unicode class.

-

Methods

impl ClassUnicode[src]

pub fn is_negated(&self) -> bool[src]

Returns true if this class has been negated.

-

Note that this takes the Unicode op into account, if it's present. -e.g., is_negated for \P{scx!=Katakana} will return false.

-

Trait Implementations

impl PartialEq<ClassUnicode> for ClassUnicode[src]

impl Clone for ClassUnicode[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassUnicode[src]

impl Debug for ClassUnicode[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Comment.html b/target/doc/regex_syntax/ast/struct.Comment.html deleted file mode 100644 index a4e03dd..0000000 --- a/target/doc/regex_syntax/ast/struct.Comment.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::ast::Comment - Rust

[][src]Struct regex_syntax::ast::Comment

pub struct Comment {
-    pub span: Span,
-    pub comment: String,
-}

A comment from a regular expression with an associated span.

-

A regular expression can only contain comments when the x flag is -enabled.

-

- Fields

span: Span

The span of this comment, including the beginning # and ending \n.

-
comment: String

The comment text, starting with the first character following the # -and ending with the last character preceding the \n.

-

Trait Implementations

impl PartialEq<Comment> for Comment[src]

impl Clone for Comment[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Comment[src]

impl Debug for Comment[src]

Auto Trait Implementations

impl Send for Comment

impl Sync for Comment

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Concat.html b/target/doc/regex_syntax/ast/struct.Concat.html deleted file mode 100644 index 39db317..0000000 --- a/target/doc/regex_syntax/ast/struct.Concat.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::Concat - Rust

[][src]Struct regex_syntax::ast::Concat

pub struct Concat {
-    pub span: Span,
-    pub asts: Vec<Ast>,
-}

A concatenation of regular expressions.

-

- Fields

span: Span

The span of this concatenation.

-
asts: Vec<Ast>

The concatenation regular expressions.

-

Methods

impl Concat[src]

pub fn into_ast(self) -> Ast[src]

Return this concatenation as an AST.

-

If this concatenation contains zero ASTs, then Ast::Empty is -returned. If this concatenation contains exactly 1 AST, then the -corresponding AST is returned. Otherwise, Ast::Concat is returned.

-

Trait Implementations

impl PartialEq<Concat> for Concat[src]

impl Clone for Concat[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Concat[src]

impl Debug for Concat[src]

Auto Trait Implementations

impl Send for Concat

impl Sync for Concat

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Error.html b/target/doc/regex_syntax/ast/struct.Error.html deleted file mode 100644 index 02b4604..0000000 --- a/target/doc/regex_syntax/ast/struct.Error.html +++ /dev/null @@ -1,41 +0,0 @@ -regex_syntax::ast::Error - Rust

[][src]Struct regex_syntax::ast::Error

pub struct Error { /* fields omitted */ }

An error that occurred while parsing a regular expression into an abstract -syntax tree.

-

Note that note all ASTs represents a valid regular expression. For example, -an AST is constructed without error for \p{Quux}, but Quux is not a -valid Unicode property name. That particular error is reported when -translating an AST to the high-level intermediate representation (HIR).

-

Methods

impl Error[src]

pub fn kind(&self) -> &ErrorKind[src]

Return the type of this error.

-

pub fn pattern(&self) -> &str[src]

The original pattern string in which this error occurred.

-

Every span reported by this error is reported in terms of this string.

-

pub fn span(&self) -> &Span[src]

Return the span at which this error occurred.

-

pub fn auxiliary_span(&self) -> Option<&Span>[src]

Return an auxiliary span. This span exists only for some errors that -benefit from being able to point to two locations in the original -regular expression. For example, "duplicate" errors will have the -main error position set to the duplicate occurrence while its -auxiliary span will be set to the initial occurrence.

-

Trait Implementations

impl PartialEq<Error> for Error[src]

impl From<Error> for Error[src]

impl Clone for Error[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Error[src]

impl Display for Error[src]

impl Debug for Error[src]

impl Error for Error[src]

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Flags.html b/target/doc/regex_syntax/ast/struct.Flags.html deleted file mode 100644 index 4be7106..0000000 --- a/target/doc/regex_syntax/ast/struct.Flags.html +++ /dev/null @@ -1,38 +0,0 @@ -regex_syntax::ast::Flags - Rust

[][src]Struct regex_syntax::ast::Flags

pub struct Flags {
-    pub span: Span,
-    pub items: Vec<FlagsItem>,
-}

A group of flags.

-

This corresponds only to the sequence of flags themselves, e.g., is-u.

-

- Fields

span: Span

The span of this group of flags.

-
items: Vec<FlagsItem>

A sequence of flag items. Each item is either a flag or a negation -operator.

-

Methods

impl Flags[src]

pub fn add_item(&mut self, item: FlagsItem) -> Option<usize>[src]

Add the given item to this sequence of flags.

-

If the item was added successfully, then None is returned. If the -given item is a duplicate, then Some(i) is returned, where -items[i].kind == item.kind.

-

pub fn flag_state(&self, flag: Flag) -> Option<bool>[src]

Returns the state of the given flag in this set.

-

If the given flag is in the set but is negated, then Some(false) is -returned.

-

If the given flag is in the set and is not negated, then Some(true) -is returned.

-

Otherwise, None is returned.

-

Trait Implementations

impl PartialEq<Flags> for Flags[src]

impl Clone for Flags[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Flags[src]

impl Debug for Flags[src]

Auto Trait Implementations

impl Send for Flags

impl Sync for Flags

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.FlagsItem.html b/target/doc/regex_syntax/ast/struct.FlagsItem.html deleted file mode 100644 index 612d946..0000000 --- a/target/doc/regex_syntax/ast/struct.FlagsItem.html +++ /dev/null @@ -1,26 +0,0 @@ -regex_syntax::ast::FlagsItem - Rust

[][src]Struct regex_syntax::ast::FlagsItem

pub struct FlagsItem {
-    pub span: Span,
-    pub kind: FlagsItemKind,
-}

A single item in a group of flags.

-

- Fields

span: Span

The span of this item.

-
kind: FlagsItemKind

The kind of this item.

-

Trait Implementations

impl PartialEq<FlagsItem> for FlagsItem[src]

impl Clone for FlagsItem[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for FlagsItem[src]

impl Debug for FlagsItem[src]

Auto Trait Implementations

impl Send for FlagsItem

impl Sync for FlagsItem

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Group.html b/target/doc/regex_syntax/ast/struct.Group.html deleted file mode 100644 index 5857c2b..0000000 --- a/target/doc/regex_syntax/ast/struct.Group.html +++ /dev/null @@ -1,37 +0,0 @@ -regex_syntax::ast::Group - Rust

[][src]Struct regex_syntax::ast::Group

pub struct Group {
-    pub span: Span,
-    pub kind: GroupKind,
-    pub ast: Box<Ast>,
-}

A grouped regular expression.

-

This includes both capturing and non-capturing groups. This does not -include flag-only groups like (?is), but does contain any group that -contains a sub-expression, e.g., (a), (?P<name>a), (?:a) and -(?is:a).

-

- Fields

span: Span

The span of this group.

-
kind: GroupKind

The kind of this group.

-
ast: Box<Ast>

The regular expression in this group.

-

Methods

impl Group[src]

pub fn flags(&self) -> Option<&Flags>[src]

If this group is non-capturing, then this returns the (possibly empty) -set of flags. Otherwise, None is returned.

-

pub fn is_capturing(&self) -> bool[src]

Returns true if and only if this group is capturing.

-

pub fn capture_index(&self) -> Option<u32>[src]

Returns the capture index of this group, if this is a capturing group.

-

This returns a capture index precisely when is_capturing is true.

-

Trait Implementations

impl PartialEq<Group> for Group[src]

impl Clone for Group[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Group[src]

impl Debug for Group[src]

Auto Trait Implementations

impl Send for Group

impl Sync for Group

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Literal.html b/target/doc/regex_syntax/ast/struct.Literal.html deleted file mode 100644 index 48ff8c7..0000000 --- a/target/doc/regex_syntax/ast/struct.Literal.html +++ /dev/null @@ -1,33 +0,0 @@ -regex_syntax::ast::Literal - Rust

[][src]Struct regex_syntax::ast::Literal

pub struct Literal {
-    pub span: Span,
-    pub kind: LiteralKind,
-    pub c: char,
-}

A single literal expression.

-

A literal corresponds to a single Unicode scalar value. Literals may be -represented in their literal form, e.g., a or in their escaped form, -e.g., \x61.

-

- Fields

span: Span

The span of this literal.

-
kind: LiteralKind

The kind of this literal.

-
c: char

The Unicode scalar value corresponding to this literal.

-

Methods

impl Literal[src]

pub fn byte(&self) -> Option<u8>[src]

If this literal was written as a \x hex escape, then this returns -the corresponding byte value. Otherwise, this returns None.

-

Trait Implementations

impl PartialEq<Literal> for Literal[src]

impl Clone for Literal[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Literal[src]

impl Debug for Literal[src]

Auto Trait Implementations

impl Send for Literal

impl Sync for Literal

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Position.html b/target/doc/regex_syntax/ast/struct.Position.html deleted file mode 100644 index 2317dd9..0000000 --- a/target/doc/regex_syntax/ast/struct.Position.html +++ /dev/null @@ -1,49 +0,0 @@ -regex_syntax::ast::Position - Rust

[][src]Struct regex_syntax::ast::Position

pub struct Position {
-    pub offset: usize,
-    pub line: usize,
-    pub column: usize,
-}

A single position in a regular expression.

-

A position encodes one half of a span, and include the byte offset, line -number and column number.

-

- Fields

offset: usize

The absolute offset of this position, starting at 0 from the -beginning of the regular expression pattern string.

-
line: usize

The line number, starting at 1.

-
column: usize

The approximate column number, starting at 1.

-

Methods

impl Position[src]

pub fn new(offset: usize, line: usize, column: usize) -> Position[src]

Create a new position with the given information.

-

offset is the absolute offset of the position, starting at 0 from -the beginning of the regular expression pattern string.

-

line is the line number, starting at 1.

-

column is the approximate column number, starting at 1.

-

Trait Implementations

impl PartialEq<Position> for Position[src]

impl Clone for Position[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Ord for Position[src]

fn max(self, other: Self) -> Self1.21.0[src]

Compares and returns the maximum of two values. Read more

-

fn min(self, other: Self) -> Self1.21.0[src]

Compares and returns the minimum of two values. Read more

-

fn clamp(self, min: Self, max: Self) -> Self[src]

🔬 This is a nightly-only experimental API. (clamp)

Restrict a value to a certain interval. Read more

-

impl Eq for Position[src]

impl Copy for Position[src]

impl PartialOrd<Position> for Position[src]

#[must_use] -
fn lt(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests less than (for self and other) and is used by the < operator. Read more

-

#[must_use] -
fn le(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests less than or equal to (for self and other) and is used by the <= operator. Read more

-

#[must_use] -
fn gt(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests greater than (for self and other) and is used by the > operator. Read more

-

#[must_use] -
fn ge(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests greater than or equal to (for self and other) and is used by the >= operator. Read more

-

impl Debug for Position[src]

Auto Trait Implementations

impl Send for Position

impl Sync for Position

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Repetition.html b/target/doc/regex_syntax/ast/struct.Repetition.html deleted file mode 100644 index 83f51e4..0000000 --- a/target/doc/regex_syntax/ast/struct.Repetition.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::Repetition - Rust

[][src]Struct regex_syntax::ast::Repetition

pub struct Repetition {
-    pub span: Span,
-    pub op: RepetitionOp,
-    pub greedy: bool,
-    pub ast: Box<Ast>,
-}

A repetition operation applied to a regular expression.

-

- Fields

span: Span

The span of this operation.

-
op: RepetitionOp

The actual operation.

-
greedy: bool

Whether this operation was applied greedily or not.

-
ast: Box<Ast>

The regular expression under repetition.

-

Trait Implementations

impl PartialEq<Repetition> for Repetition[src]

impl Clone for Repetition[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Repetition[src]

impl Debug for Repetition[src]

Auto Trait Implementations

impl Send for Repetition

impl Sync for Repetition

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.RepetitionOp.html b/target/doc/regex_syntax/ast/struct.RepetitionOp.html deleted file mode 100644 index 603a635..0000000 --- a/target/doc/regex_syntax/ast/struct.RepetitionOp.html +++ /dev/null @@ -1,27 +0,0 @@ -regex_syntax::ast::RepetitionOp - Rust

[][src]Struct regex_syntax::ast::RepetitionOp

pub struct RepetitionOp {
-    pub span: Span,
-    pub kind: RepetitionKind,
-}

The repetition operator itself.

-

- Fields

span: Span

The span of this operator. This includes things like +, *? and -{m,n}.

-
kind: RepetitionKind

The type of operation.

-

Trait Implementations

impl PartialEq<RepetitionOp> for RepetitionOp[src]

impl Clone for RepetitionOp[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for RepetitionOp[src]

impl Debug for RepetitionOp[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.SetFlags.html b/target/doc/regex_syntax/ast/struct.SetFlags.html deleted file mode 100644 index 04fa3da..0000000 --- a/target/doc/regex_syntax/ast/struct.SetFlags.html +++ /dev/null @@ -1,26 +0,0 @@ -regex_syntax::ast::SetFlags - Rust

[][src]Struct regex_syntax::ast::SetFlags

pub struct SetFlags {
-    pub span: Span,
-    pub flags: Flags,
-}

A group of flags that is not applied to a particular regular expression.

-

- Fields

span: Span

The span of these flags, including the grouping parentheses.

-
flags: Flags

The actual sequence of flags.

-

Trait Implementations

impl PartialEq<SetFlags> for SetFlags[src]

impl Clone for SetFlags[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for SetFlags[src]

impl Debug for SetFlags[src]

Auto Trait Implementations

impl Send for SetFlags

impl Sync for SetFlags

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.Span.html b/target/doc/regex_syntax/ast/struct.Span.html deleted file mode 100644 index 372bb1c..0000000 --- a/target/doc/regex_syntax/ast/struct.Span.html +++ /dev/null @@ -1,50 +0,0 @@ -regex_syntax::ast::Span - Rust

[][src]Struct regex_syntax::ast::Span

pub struct Span {
-    pub start: Position,
-    pub end: Position,
-}

Span represents the position information of a single AST item.

-

All span positions are absolute byte offsets that can be used on the -original regular expression that was parsed.

-

- Fields

start: Position

The start byte offset.

-
end: Position

The end byte offset.

-

Methods

impl Span[src]

pub fn new(start: Position, end: Position) -> Span[src]

Create a new span with the given positions.

-

pub fn splat(pos: Position) -> Span[src]

Create a new span using the given position as the start and end.

-

pub fn with_start(self, pos: Position) -> Span[src]

Create a new span by replacing the starting the position with the one -given.

-

pub fn with_end(self, pos: Position) -> Span[src]

Create a new span by replacing the ending the position with the one -given.

-

pub fn is_one_line(&self) -> bool[src]

Returns true if and only if this span occurs on a single line.

-

pub fn is_empty(&self) -> bool[src]

Returns true if and only if this span is empty. That is, it points to -a single position in the concrete syntax of a regular expression.

-

Trait Implementations

impl PartialEq<Span> for Span[src]

impl Clone for Span[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Ord for Span[src]

fn max(self, other: Self) -> Self1.21.0[src]

Compares and returns the maximum of two values. Read more

-

fn min(self, other: Self) -> Self1.21.0[src]

Compares and returns the minimum of two values. Read more

-

fn clamp(self, min: Self, max: Self) -> Self[src]

🔬 This is a nightly-only experimental API. (clamp)

Restrict a value to a certain interval. Read more

-

impl Eq for Span[src]

impl Copy for Span[src]

impl PartialOrd<Span> for Span[src]

#[must_use] -
fn lt(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests less than (for self and other) and is used by the < operator. Read more

-

#[must_use] -
fn le(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests less than or equal to (for self and other) and is used by the <= operator. Read more

-

#[must_use] -
fn gt(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests greater than (for self and other) and is used by the > operator. Read more

-

#[must_use] -
fn ge(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests greater than or equal to (for self and other) and is used by the >= operator. Read more

-

impl Debug for Span[src]

Auto Trait Implementations

impl Send for Span

impl Sync for Span

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/struct.WithComments.html b/target/doc/regex_syntax/ast/struct.WithComments.html deleted file mode 100644 index d915b90..0000000 --- a/target/doc/regex_syntax/ast/struct.WithComments.html +++ /dev/null @@ -1,30 +0,0 @@ -regex_syntax::ast::WithComments - Rust

[][src]Struct regex_syntax::ast::WithComments

pub struct WithComments {
-    pub ast: Ast,
-    pub comments: Vec<Comment>,
-}

An abstract syntax tree for a singular expression along with comments -found.

-

Comments are not stored in the tree itself to avoid complexity. Each -comment contains a span of precisely where it occurred in the original -regular expression.

-

- Fields

ast: Ast

The actual ast.

-
comments: Vec<Comment>

All comments found in the original regular expression.

-

Trait Implementations

impl PartialEq<WithComments> for WithComments[src]

impl Clone for WithComments[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for WithComments[src]

impl Debug for WithComments[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/trait.Visitor.html b/target/doc/regex_syntax/ast/trait.Visitor.html deleted file mode 100644 index 568e718..0000000 --- a/target/doc/regex_syntax/ast/trait.Visitor.html +++ /dev/null @@ -1,61 +0,0 @@ -regex_syntax::ast::Visitor - Rust

[][src]Trait regex_syntax::ast::Visitor

pub trait Visitor {
-    type Output;
-    type Err;
-    fn finish(self) -> Result<Self::Output, Self::Err>;
-
-    fn start(&mut self) { ... }
-
fn visit_pre(&mut self, _ast: &Ast) -> Result<(), Self::Err> { ... } -
fn visit_post(&mut self, _ast: &Ast) -> Result<(), Self::Err> { ... } -
fn visit_alternation_in(&mut self) -> Result<(), Self::Err> { ... } -
fn visit_class_set_item_pre(
        &mut self,
        _ast: &ClassSetItem
    ) -> Result<(), Self::Err> { ... } -
fn visit_class_set_item_post(
        &mut self,
        _ast: &ClassSetItem
    ) -> Result<(), Self::Err> { ... } -
fn visit_class_set_binary_op_pre(
        &mut self,
        _ast: &ClassSetBinaryOp
    ) -> Result<(), Self::Err> { ... } -
fn visit_class_set_binary_op_post(
        &mut self,
        _ast: &ClassSetBinaryOp
    ) -> Result<(), Self::Err> { ... } -
fn visit_class_set_binary_op_in(
        &mut self,
        _ast: &ClassSetBinaryOp
    ) -> Result<(), Self::Err> { ... } -}

A trait for visiting an abstract syntax tree (AST) in depth first order.

-

The principle aim of this trait is to enable callers to perform case -analysis on an abstract syntax tree without necessarily using recursion. -In particular, this permits callers to do case analysis with constant stack -usage, which can be important since the size of an abstract syntax tree -may be proportional to end user input.

-

Typical usage of this trait involves providing an implementation and then -running it using the visit function.

-

Note that the abstract syntax tree for a regular expression is quite -complex. Unless you specifically need it, you might be able to use the -much simpler -high-level intermediate representation -and its -corresponding Visitor trait -instead.

-
-

Associated Types

type Output

The result of visiting an AST.

-

type Err

An error that visiting an AST might return.

-
Loading content... -

Required methods

fn finish(self) -> Result<Self::Output, Self::Err>

All implementors of Visitor must provide a finish method, which -yields the result of visiting the AST or an error.

-
Loading content... -

Provided methods

fn start(&mut self)

This method is called before beginning traversal of the AST.

-

fn visit_pre(&mut self, _ast: &Ast) -> Result<(), Self::Err>

This method is called on an Ast before descending into child Ast -nodes.

-

fn visit_post(&mut self, _ast: &Ast) -> Result<(), Self::Err>

This method is called on an Ast after descending all of its child -Ast nodes.

-

fn visit_alternation_in(&mut self) -> Result<(), Self::Err>

This method is called between child nodes of an -Alternation.

-

fn visit_class_set_item_pre(
    &mut self,
    _ast: &ClassSetItem
) -> Result<(), Self::Err>

This method is called on every -ClassSetItem -before descending into child nodes.

-

fn visit_class_set_item_post(
    &mut self,
    _ast: &ClassSetItem
) -> Result<(), Self::Err>

This method is called on every -ClassSetItem -after descending into child nodes.

-

fn visit_class_set_binary_op_pre(
    &mut self,
    _ast: &ClassSetBinaryOp
) -> Result<(), Self::Err>

This method is called on every -ClassSetBinaryOp -before descending into child nodes.

-

fn visit_class_set_binary_op_post(
    &mut self,
    _ast: &ClassSetBinaryOp
) -> Result<(), Self::Err>

This method is called on every -ClassSetBinaryOp -after descending into child nodes.

-

fn visit_class_set_binary_op_in(
    &mut self,
    _ast: &ClassSetBinaryOp
) -> Result<(), Self::Err>

This method is called between the left hand and right hand child nodes -of a ClassSetBinaryOp.

-
Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/regex_syntax/ast/visitor/fn.visit.html b/target/doc/regex_syntax/ast/visitor/fn.visit.html deleted file mode 100644 index 899f672..0000000 --- a/target/doc/regex_syntax/ast/visitor/fn.visit.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../regex_syntax/ast/fn.visit.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/ast/visitor/trait.Visitor.html b/target/doc/regex_syntax/ast/visitor/trait.Visitor.html deleted file mode 100644 index 9f0bae0..0000000 --- a/target/doc/regex_syntax/ast/visitor/trait.Visitor.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../regex_syntax/ast/trait.Visitor.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/enum.Error.html b/target/doc/regex_syntax/enum.Error.html deleted file mode 100644 index 95b35f3..0000000 --- a/target/doc/regex_syntax/enum.Error.html +++ /dev/null @@ -1,38 +0,0 @@ -regex_syntax::Error - Rust

[][src]Enum regex_syntax::Error

pub enum Error {
-    Parse(Error),
-    Translate(Error),
-    // some variants omitted
-}

This error type encompasses any error that can be returned by this crate.

-

- Variants

-Parse(Error)

An error that occurred while translating concrete syntax into abstract -syntax (AST).

-
Translate(Error)

An error that occurred while translating abstract syntax into a high -level intermediate representation (HIR).

-

Trait Implementations

impl PartialEq<Error> for Error[src]

impl From<Error> for Error[src]

impl From<Error> for Error[src]

impl Clone for Error[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Error[src]

impl Display for Error[src]

impl Debug for Error[src]

impl Error for Error[src]

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/error/enum.Error.html b/target/doc/regex_syntax/error/enum.Error.html deleted file mode 100644 index 2ab401b..0000000 --- a/target/doc/regex_syntax/error/enum.Error.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../regex_syntax/enum.Error.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/error/type.Result.html b/target/doc/regex_syntax/error/type.Result.html deleted file mode 100644 index 88a072b..0000000 --- a/target/doc/regex_syntax/error/type.Result.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../regex_syntax/type.Result.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/fn.escape.html b/target/doc/regex_syntax/fn.escape.html deleted file mode 100644 index 94c3be2..0000000 --- a/target/doc/regex_syntax/fn.escape.html +++ /dev/null @@ -1,4 +0,0 @@ -regex_syntax::escape - Rust

[][src]Function regex_syntax::escape

pub fn escape(text: &str) -> String

Escapes all regular expression meta characters in text.

-

The string returned may be safely used as a literal in a regular -expression.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/fn.escape_into.html b/target/doc/regex_syntax/fn.escape_into.html deleted file mode 100644 index 51b6cb5..0000000 --- a/target/doc/regex_syntax/fn.escape_into.html +++ /dev/null @@ -1,4 +0,0 @@ -regex_syntax::escape_into - Rust

[][src]Function regex_syntax::escape_into

pub fn escape_into(text: &str, buf: &mut String)

Escapes all meta characters in text and writes the result into buf.

-

This will append escape characters into the given buffer. The characters -that are appended are safe to use as a literal in a regular expression.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/fn.is_meta_character.html b/target/doc/regex_syntax/fn.is_meta_character.html deleted file mode 100644 index 77c4279..0000000 --- a/target/doc/regex_syntax/fn.is_meta_character.html +++ /dev/null @@ -1,8 +0,0 @@ -regex_syntax::is_meta_character - Rust

[][src]Function regex_syntax::is_meta_character

pub fn is_meta_character(c: char) -> bool

Returns true if the give character has significance in a regex.

-

These are the only characters that are allowed to be escaped, with one -exception: an ASCII space character may be escaped when extended mode (with -the x flag) is enabld. In particular, is_meta_character(' ') returns -false.

-

Note that the set of characters for which this function returns true or -false is fixed and won't change in a semver compatible release.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/fn.is_word_byte.html b/target/doc/regex_syntax/fn.is_word_byte.html deleted file mode 100644 index 1eeb8e7..0000000 --- a/target/doc/regex_syntax/fn.is_word_byte.html +++ /dev/null @@ -1,4 +0,0 @@ -regex_syntax::is_word_byte - Rust

[][src]Function regex_syntax::is_word_byte

pub fn is_word_byte(c: u8) -> bool

Returns true if and only if the given character is an ASCII word character.

-

An ASCII word character is defined by the following character class: -`[_0-9a-zA-Z]'.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/fn.is_word_character.html b/target/doc/regex_syntax/fn.is_word_character.html deleted file mode 100644 index e53d27a..0000000 --- a/target/doc/regex_syntax/fn.is_word_character.html +++ /dev/null @@ -1,9 +0,0 @@ -regex_syntax::is_word_character - Rust

[][src]Function regex_syntax::is_word_character

pub fn is_word_character(c: char) -> bool

Returns true if and only if the given character is a Unicode word -character.

-

A Unicode word character is defined by -UTS#18 Annex C. -In particular, a character -is considered a word character if it is in either of the Alphabetic or -Join_Control properties, or is in one of the Decimal_Number, Mark -or Connector_Punctuation general categories.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.Anchor.html b/target/doc/regex_syntax/hir/enum.Anchor.html deleted file mode 100644 index df0b0dd..0000000 --- a/target/doc/regex_syntax/hir/enum.Anchor.html +++ /dev/null @@ -1,39 +0,0 @@ -regex_syntax::hir::Anchor - Rust

[][src]Enum regex_syntax::hir::Anchor

pub enum Anchor {
-    StartLine,
-    EndLine,
-    StartText,
-    EndText,
-}

The high-level intermediate representation for an anchor assertion.

-

A matching anchor assertion is always zero-length.

-

- Variants

-StartLine

Match the beginning of a line or the beginning of text. Specifically, -this matches at the starting position of the input, or at the position -immediately following a \n character.

-
EndLine

Match the end of a line or the end of text. Specifically, -this matches at the end position of the input, or at the position -immediately preceding a \n character.

-
StartText

Match the beginning of text. Specifically, this matches at the starting -position of the input.

-
EndText

Match the end of text. Specifically, this matches at the ending -position of the input.

-

Trait Implementations

impl PartialEq<Anchor> for Anchor[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for Anchor[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Anchor[src]

impl Debug for Anchor[src]

Auto Trait Implementations

impl Send for Anchor

impl Sync for Anchor

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.Class.html b/target/doc/regex_syntax/hir/enum.Class.html deleted file mode 100644 index 5c08ae4..0000000 --- a/target/doc/regex_syntax/hir/enum.Class.html +++ /dev/null @@ -1,59 +0,0 @@ -regex_syntax::hir::Class - Rust

[][src]Enum regex_syntax::hir::Class

pub enum Class {
-    Unicode(ClassUnicode),
-    Bytes(ClassBytes),
-}

The high-level intermediate representation of a character class.

-

A character class corresponds to a set of characters. A character is either -defined by a Unicode scalar value or a byte. Unicode characters are used -by default, while bytes are used when Unicode mode (via the u flag) is -disabled.

-

A character class, regardless of its character type, is represented by a -sequence of non-overlapping non-adjacent ranges of characters.

-

Note that unlike Literal, a Bytes variant may -be produced even when it exclusively matches valid UTF-8. This is because -a Bytes variant represents an intention by the author of the regular -expression to disable Unicode mode, which in turn impacts the semantics of -case insensitive matching. For example, (?i)k and (?i-u)k will not -match the same set of strings.

-

- Variants

-Unicode(ClassUnicode)

A set of characters represented by Unicode scalar values.

-
Bytes(ClassBytes)

A set of characters represented by arbitrary bytes (one byte per -character).

-

Methods

impl Class[src]

pub fn case_fold_simple(&mut self)[src]

Apply Unicode simple case folding to this character class, in place. -The character class will be expanded to include all simple case folded -character variants.

-

If this is a byte oriented character class, then this will be limited -to the ASCII ranges A-Z and a-z.

-

pub fn negate(&mut self)[src]

Negate this character class in place.

-

After completion, this character class will contain precisely the -characters that weren't previously in the class.

-

pub fn is_always_utf8(&self) -> bool[src]

Returns true if and only if this character class will only ever match -valid UTF-8.

-

A character class can match invalid UTF-8 only when the following -conditions are met:

-
    -
  1. The translator was configured to permit generating an expression -that can match invalid UTF-8. (By default, this is disabled.)
  2. -
  3. Unicode mode (via the u flag) was disabled either in the concrete -syntax or in the parser builder. By default, Unicode mode is -enabled.
  4. -
-

Trait Implementations

impl PartialEq<Class> for Class[src]

impl Clone for Class[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Class[src]

impl Debug for Class[src]

Auto Trait Implementations

impl Send for Class

impl Sync for Class

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.ErrorKind.html b/target/doc/regex_syntax/hir/enum.ErrorKind.html deleted file mode 100644 index 02466a5..0000000 --- a/target/doc/regex_syntax/hir/enum.ErrorKind.html +++ /dev/null @@ -1,44 +0,0 @@ -regex_syntax::hir::ErrorKind - Rust

[][src]Enum regex_syntax::hir::ErrorKind

pub enum ErrorKind {
-    UnicodeNotAllowed,
-    InvalidUtf8,
-    UnicodePropertyNotFound,
-    UnicodePropertyValueNotFound,
-    EmptyClassNotAllowed,
-    // some variants omitted
-}

The type of an error that occurred while building an Hir.

-

- Variants

-UnicodeNotAllowed

This error occurs when a Unicode feature is used when Unicode -support is disabled. For example (?-u:\pL) would trigger this error.

-
InvalidUtf8

This error occurs when translating a pattern that could match a byte -sequence that isn't UTF-8 and allow_invalid_utf8 was disabled.

-
UnicodePropertyNotFound

This occurs when an unrecognized Unicode property name could not -be found.

-
UnicodePropertyValueNotFound

This occurs when an unrecognized Unicode property value could not -be found.

-
EmptyClassNotAllowed

This occurs when the translator attempts to construct a character class -that is empty.

-

Note that this restriction in the translator may be removed in the -future.

-

Trait Implementations

impl PartialEq<ErrorKind> for ErrorKind[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for ErrorKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ErrorKind[src]

impl Display for ErrorKind[src]

impl Debug for ErrorKind[src]

Auto Trait Implementations

impl Send for ErrorKind

impl Sync for ErrorKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.GroupKind.html b/target/doc/regex_syntax/hir/enum.GroupKind.html deleted file mode 100644 index 9c20a26..0000000 --- a/target/doc/regex_syntax/hir/enum.GroupKind.html +++ /dev/null @@ -1,35 +0,0 @@ -regex_syntax::hir::GroupKind - Rust

[][src]Enum regex_syntax::hir::GroupKind

pub enum GroupKind {
-    CaptureIndex(u32),
-    CaptureName {
-        name: String,
-        index: u32,
-    },
-    NonCapturing,
-}

The kind of group.

-

- Variants

-CaptureIndex(u32)

A normal unnamed capturing group.

-

The value is the capture index of the group.

-
CaptureName

A named capturing group.

-

Fields of CaptureName

name: String

The name of the group.

-
index: u32

The capture index of the group.

-
NonCapturing

A non-capturing group.

-

Trait Implementations

impl PartialEq<GroupKind> for GroupKind[src]

impl Clone for GroupKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for GroupKind[src]

impl Debug for GroupKind[src]

Auto Trait Implementations

impl Send for GroupKind

impl Sync for GroupKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.HirKind.html b/target/doc/regex_syntax/hir/enum.HirKind.html deleted file mode 100644 index 7bca496..0000000 --- a/target/doc/regex_syntax/hir/enum.HirKind.html +++ /dev/null @@ -1,57 +0,0 @@ -regex_syntax::hir::HirKind - Rust

[][src]Enum regex_syntax::hir::HirKind

pub enum HirKind {
-    Empty,
-    Literal(Literal),
-    Class(Class),
-    Anchor(Anchor),
-    WordBoundary(WordBoundary),
-    Repetition(Repetition),
-    Group(Group),
-    Concat(Vec<Hir>),
-    Alternation(Vec<Hir>),
-}

The kind of an arbitrary Hir expression.

-

- Variants

-Empty

The empty regular expression, which matches everything, including the -empty string.

-
Literal(Literal)

A single literal character that matches exactly this character.

-
Class(Class)

A single character class that matches any of the characters in the -class. A class can either consist of Unicode scalar values as -characters, or it can use bytes.

-
Anchor(Anchor)

An anchor assertion. An anchor assertion match always has zero length.

-
WordBoundary(WordBoundary)

A word boundary assertion, which may or may not be Unicode aware. A -word boundary assertion match always has zero length.

-
Repetition(Repetition)

A repetition operation applied to a child expression.

-
Group(Group)

A possibly capturing group, which contains a child expression.

-
Concat(Vec<Hir>)

A concatenation of expressions. A concatenation always has at least two -child expressions.

-

A concatenation matches only if each of its child expression matches -one after the other.

-
Alternation(Vec<Hir>)

An alternation of expressions. An alternation always has at least two -child expressions.

-

An alternation matches only if at least one of its child expression -matches. If multiple expressions match, then the leftmost is preferred.

-

Methods

impl HirKind[src]

pub fn is_empty(&self) -> bool[src]

Return true if and only if this HIR is the empty regular expression.

-

Note that this is not defined inductively. That is, it only tests if -this kind is the Empty variant. To get the inductive definition, -use the is_match_empty method on Hir.

-

pub fn has_subexprs(&self) -> bool[src]

Returns true if and only if this kind has any (including possibly -empty) subexpressions.

-

Trait Implementations

impl PartialEq<HirKind> for HirKind[src]

impl Clone for HirKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for HirKind[src]

impl Debug for HirKind[src]

Auto Trait Implementations

impl Send for HirKind

impl Sync for HirKind

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.Literal.html b/target/doc/regex_syntax/hir/enum.Literal.html deleted file mode 100644 index d56301e..0000000 --- a/target/doc/regex_syntax/hir/enum.Literal.html +++ /dev/null @@ -1,33 +0,0 @@ -regex_syntax::hir::Literal - Rust

[][src]Enum regex_syntax::hir::Literal

pub enum Literal {
-    Unicode(char),
-    Byte(u8),
-}

The high-level intermediate representation of a literal.

-

A literal corresponds to a single character, where a character is either -defined by a Unicode scalar value or an arbitrary byte. Unicode characters -are preferred whenever possible. In particular, a Byte variant is only -ever produced when it could match invalid UTF-8.

-

- Variants

-Unicode(char)

A single character represented by a Unicode scalar value.

-
Byte(u8)

A single character represented by an arbitrary byte.

-

Methods

impl Literal[src]

pub fn is_unicode(&self) -> bool[src]

Returns true if and only if this literal corresponds to a Unicode -scalar value.

-

Trait Implementations

impl PartialEq<Literal> for Literal[src]

impl Clone for Literal[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Literal[src]

impl Debug for Literal[src]

Auto Trait Implementations

impl Send for Literal

impl Sync for Literal

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.RepetitionKind.html b/target/doc/regex_syntax/hir/enum.RepetitionKind.html deleted file mode 100644 index ffdd9b7..0000000 --- a/target/doc/regex_syntax/hir/enum.RepetitionKind.html +++ /dev/null @@ -1,31 +0,0 @@ -regex_syntax::hir::RepetitionKind - Rust

[][src]Enum regex_syntax::hir::RepetitionKind

pub enum RepetitionKind {
-    ZeroOrOne,
-    ZeroOrMore,
-    OneOrMore,
-    Range(RepetitionRange),
-}

The kind of a repetition operator.

-

- Variants

-ZeroOrOne

Matches a sub-expression zero or one times.

-
ZeroOrMore

Matches a sub-expression zero or more times.

-
OneOrMore

Matches a sub-expression one or more times.

-
Range(RepetitionRange)

Matches a sub-expression within a bounded range of times.

-

Trait Implementations

impl PartialEq<RepetitionKind> for RepetitionKind[src]

impl Clone for RepetitionKind[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for RepetitionKind[src]

impl Debug for RepetitionKind[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.RepetitionRange.html b/target/doc/regex_syntax/hir/enum.RepetitionRange.html deleted file mode 100644 index 087b8bf..0000000 --- a/target/doc/regex_syntax/hir/enum.RepetitionRange.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::hir::RepetitionRange - Rust

[][src]Enum regex_syntax::hir::RepetitionRange

pub enum RepetitionRange {
-    Exactly(u32),
-    AtLeast(u32),
-    Bounded(u32u32),
-}

The kind of a counted repetition operator.

-

- Variants

-Exactly(u32)

Matches a sub-expression exactly this many times.

-
AtLeast(u32)

Matches a sub-expression at least this many times.

-
Bounded(u32u32)

Matches a sub-expression at least m times and at most n times.

-

Trait Implementations

impl PartialEq<RepetitionRange> for RepetitionRange[src]

impl Clone for RepetitionRange[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for RepetitionRange[src]

impl Debug for RepetitionRange[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/enum.WordBoundary.html b/target/doc/regex_syntax/hir/enum.WordBoundary.html deleted file mode 100644 index dbf0718..0000000 --- a/target/doc/regex_syntax/hir/enum.WordBoundary.html +++ /dev/null @@ -1,38 +0,0 @@ -regex_syntax::hir::WordBoundary - Rust

[][src]Enum regex_syntax::hir::WordBoundary

pub enum WordBoundary {
-    Unicode,
-    UnicodeNegate,
-    Ascii,
-    AsciiNegate,
-}

The high-level intermediate representation for a word-boundary assertion.

-

A matching word boundary assertion is always zero-length.

-

- Variants

-Unicode

Match a Unicode-aware word boundary. That is, this matches a position -where the left adjacent character and right adjacent character -correspond to a word and non-word or a non-word and word character.

-
UnicodeNegate

Match a Unicode-aware negation of a word boundary.

-
Ascii

Match an ASCII-only word boundary. That is, this matches a position -where the left adjacent character and right adjacent character -correspond to a word and non-word or a non-word and word character.

-
AsciiNegate

Match an ASCII-only negation of a word boundary.

-

Methods

impl WordBoundary[src]

pub fn is_negated(&self) -> bool[src]

Returns true if and only if this word boundary assertion is negated.

-

Trait Implementations

impl PartialEq<WordBoundary> for WordBoundary[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl Clone for WordBoundary[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for WordBoundary[src]

impl Debug for WordBoundary[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/fn.visit.html b/target/doc/regex_syntax/hir/fn.visit.html deleted file mode 100644 index c39932d..0000000 --- a/target/doc/regex_syntax/hir/fn.visit.html +++ /dev/null @@ -1,13 +0,0 @@ -regex_syntax::hir::visit - Rust

[][src]Function regex_syntax::hir::visit

pub fn visit<V: Visitor>(hir: &Hir, visitor: V) -> Result<V::Output, V::Err>

Executes an implementation of Visitor in constant stack space.

-

This function will visit every node in the given Hir while calling -appropriate methods provided by the -Visitor trait.

-

The primary use case for this method is when one wants to perform case -analysis over an Hir without using a stack size proportional to the depth -of the Hir. Namely, this method will instead use constant stack space, -but will use heap space proportional to the size of the Hir. This may be -desirable in cases where the size of Hir is proportional to end user -input.

-

If the visitor returns an error at any point, then visiting is stopped and -the error is returned.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/index.html b/target/doc/regex_syntax/hir/index.html deleted file mode 100644 index 029ebda..0000000 --- a/target/doc/regex_syntax/hir/index.html +++ /dev/null @@ -1,32 +0,0 @@ -regex_syntax::hir - Rust

[][src]Module regex_syntax::hir

Defines a high-level intermediate representation for regular expressions.

-

Modules

-
literal

Provides routines for extracting literal prefixes and suffixes from an Hir.

-
print

This module provides a regular expression printer for Hir.

-
translate

Defines a translator that converts an Ast to an Hir.

-

Structs

-
ClassBytes

A set of characters represented by arbitrary bytes (where one byte -corresponds to one character).

-
ClassBytesIter

An iterator over all ranges in a byte character class.

-
ClassBytesRange

A single range of characters represented by arbitrary bytes.

-
ClassUnicode

A set of characters represented by Unicode scalar values.

-
ClassUnicodeIter

An iterator over all ranges in a Unicode character class.

-
ClassUnicodeRange

A single range of characters represented by Unicode scalar values.

-
Error

An error that can occur while translating an Ast to a Hir.

-
Group

The high-level intermediate representation for a group.

-
Hir

A high-level intermediate representation (HIR) for a regular expression.

-
Repetition

The high-level intermediate representation of a repetition operator.

-

Enums

-
Anchor

The high-level intermediate representation for an anchor assertion.

-
Class

The high-level intermediate representation of a character class.

-
ErrorKind

The type of an error that occurred while building an Hir.

-
GroupKind

The kind of group.

-
HirKind

The kind of an arbitrary Hir expression.

-
Literal

The high-level intermediate representation of a literal.

-
RepetitionKind

The kind of a repetition operator.

-
RepetitionRange

The kind of a counted repetition operator.

-
WordBoundary

The high-level intermediate representation for a word-boundary assertion.

-

Traits

-
Visitor

A trait for visiting the high-level IR (HIR) in depth first order.

-

Functions

-
visit

Executes an implementation of Visitor in constant stack space.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/literal/index.html b/target/doc/regex_syntax/hir/literal/index.html deleted file mode 100644 index 9fd7cdf..0000000 --- a/target/doc/regex_syntax/hir/literal/index.html +++ /dev/null @@ -1,5 +0,0 @@ -regex_syntax::hir::literal - Rust

[][src]Module regex_syntax::hir::literal

Provides routines for extracting literal prefixes and suffixes from an Hir.

-

Structs

-
Literal

A single member of a set of literals extracted from a regular expression.

-
Literals

A set of literal byte strings extracted from a regular expression.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/literal/sidebar-items.js b/target/doc/regex_syntax/hir/literal/sidebar-items.js deleted file mode 100644 index 8f4e565..0000000 --- a/target/doc/regex_syntax/hir/literal/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Literal","A single member of a set of literals extracted from a regular expression."],["Literals","A set of literal byte strings extracted from a regular expression."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/hir/literal/struct.Literal.html b/target/doc/regex_syntax/hir/literal/struct.Literal.html deleted file mode 100644 index 3a83c8b..0000000 --- a/target/doc/regex_syntax/hir/literal/struct.Literal.html +++ /dev/null @@ -1,550 +0,0 @@ -regex_syntax::hir::literal::Literal - Rust

[][src]Struct regex_syntax::hir::literal::Literal

pub struct Literal { /* fields omitted */ }

A single member of a set of literals extracted from a regular expression.

-

This type has Deref and DerefMut impls to Vec<u8> so that all slice -and Vec operations are available.

-

Methods

impl Literal[src]

pub fn new(bytes: Vec<u8>) -> Literal[src]

Returns a new complete literal with the bytes given.

-

pub fn empty() -> Literal[src]

Returns a new complete empty literal.

-

pub fn is_cut(&self) -> bool[src]

Returns true if this literal was "cut."

-

pub fn cut(&mut self)[src]

Cuts this literal.

-

Methods from Deref<Target = Vec<u8>>

pub fn capacity(&self) -> usize1.0.0[src]

Returns the number of elements the vector can hold without -reallocating.

-

Examples

-
-let vec: Vec<i32> = Vec::with_capacity(10);
-assert_eq!(vec.capacity(), 10);
-

pub fn reserve(&mut self, additional: usize)1.0.0[src]

Reserves capacity for at least additional more elements to be inserted -in the given Vec<T>. The collection may reserve more space to avoid -frequent reallocations. After calling reserve, capacity will be -greater than or equal to self.len() + additional. Does nothing if -capacity is already sufficient.

-

Panics

-

Panics if the new capacity overflows usize.

-

Examples

-
-let mut vec = vec![1];
-vec.reserve(10);
-assert!(vec.capacity() >= 11);
-

pub fn reserve_exact(&mut self, additional: usize)1.0.0[src]

Reserves the minimum capacity for exactly additional more elements to -be inserted in the given Vec<T>. After calling reserve_exact, -capacity will be greater than or equal to self.len() + additional. -Does nothing if the capacity is already sufficient.

-

Note that the allocator may give the collection more space than it -requests. Therefore, capacity can not be relied upon to be precisely -minimal. Prefer reserve if future insertions are expected.

-

Panics

-

Panics if the new capacity overflows usize.

-

Examples

-
-let mut vec = vec![1];
-vec.reserve_exact(10);
-assert!(vec.capacity() >= 11);
-

pub fn try_reserve(
    &mut self,
    additional: usize
) -> Result<(), CollectionAllocErr>
[src]

🔬 This is a nightly-only experimental API. (try_reserve)

new API

-

Tries to reserve capacity for at least additional more elements to be inserted -in the given Vec<T>. The collection may reserve more space to avoid -frequent reallocations. After calling reserve, capacity will be -greater than or equal to self.len() + additional. Does nothing if -capacity is already sufficient.

-

Errors

-

If the capacity overflows, or the allocator reports a failure, then an error -is returned.

-

Examples

-
-#![feature(try_reserve)]
-use std::collections::CollectionAllocErr;
-
-fn process_data(data: &[u32]) -> Result<Vec<u32>, CollectionAllocErr> {
-    let mut output = Vec::new();
-
-    // Pre-reserve the memory, exiting if we can't
-    output.try_reserve(data.len())?;
-
-    // Now we know this can't OOM in the middle of our complex work
-    output.extend(data.iter().map(|&val| {
-        val * 2 + 5 // very complicated
-    }));
-
-    Ok(output)
-}
-

pub fn try_reserve_exact(
    &mut self,
    additional: usize
) -> Result<(), CollectionAllocErr>
[src]

🔬 This is a nightly-only experimental API. (try_reserve)

new API

-

Tries to reserves the minimum capacity for exactly additional more elements to -be inserted in the given Vec<T>. After calling reserve_exact, -capacity will be greater than or equal to self.len() + additional. -Does nothing if the capacity is already sufficient.

-

Note that the allocator may give the collection more space than it -requests. Therefore, capacity can not be relied upon to be precisely -minimal. Prefer reserve if future insertions are expected.

-

Errors

-

If the capacity overflows, or the allocator reports a failure, then an error -is returned.

-

Examples

-
-#![feature(try_reserve)]
-use std::collections::CollectionAllocErr;
-
-fn process_data(data: &[u32]) -> Result<Vec<u32>, CollectionAllocErr> {
-    let mut output = Vec::new();
-
-    // Pre-reserve the memory, exiting if we can't
-    output.try_reserve(data.len())?;
-
-    // Now we know this can't OOM in the middle of our complex work
-    output.extend(data.iter().map(|&val| {
-        val * 2 + 5 // very complicated
-    }));
-
-    Ok(output)
-}
-

pub fn shrink_to_fit(&mut self)1.0.0[src]

Shrinks the capacity of the vector as much as possible.

-

It will drop down as close as possible to the length but the allocator -may still inform the vector that there is space for a few more elements.

-

Examples

-
-let mut vec = Vec::with_capacity(10);
-vec.extend([1, 2, 3].iter().cloned());
-assert_eq!(vec.capacity(), 10);
-vec.shrink_to_fit();
-assert!(vec.capacity() >= 3);
-

pub fn shrink_to(&mut self, min_capacity: usize)[src]

🔬 This is a nightly-only experimental API. (shrink_to)

new API

-

Shrinks the capacity of the vector with a lower bound.

-

The capacity will remain at least as large as both the length -and the supplied value.

-

Panics if the current capacity is smaller than the supplied -minimum capacity.

-

Examples

-
-#![feature(shrink_to)]
-let mut vec = Vec::with_capacity(10);
-vec.extend([1, 2, 3].iter().cloned());
-assert_eq!(vec.capacity(), 10);
-vec.shrink_to(4);
-assert!(vec.capacity() >= 4);
-vec.shrink_to(0);
-assert!(vec.capacity() >= 3);
-

pub fn truncate(&mut self, len: usize)1.0.0[src]

Shortens the vector, keeping the first len elements and dropping -the rest.

-

If len is greater than the vector's current length, this has no -effect.

-

The drain method can emulate truncate, but causes the excess -elements to be returned instead of dropped.

-

Note that this method has no effect on the allocated capacity -of the vector.

-

Examples

-

Truncating a five element vector to two elements:

- -
-let mut vec = vec![1, 2, 3, 4, 5];
-vec.truncate(2);
-assert_eq!(vec, [1, 2]);
-

No truncation occurs when len is greater than the vector's current -length:

- -
-let mut vec = vec![1, 2, 3];
-vec.truncate(8);
-assert_eq!(vec, [1, 2, 3]);
-

Truncating when len == 0 is equivalent to calling the clear -method.

- -
-let mut vec = vec![1, 2, 3];
-vec.truncate(0);
-assert_eq!(vec, []);
-

pub fn as_slice(&self) -> &[T]1.7.0[src]

Extracts a slice containing the entire vector.

-

Equivalent to &s[..].

-

Examples

-
-use std::io::{self, Write};
-let buffer = vec![1, 2, 3, 5, 8];
-io::sink().write(buffer.as_slice()).unwrap();
-

pub fn as_mut_slice(&mut self) -> &mut [T]1.7.0[src]

Extracts a mutable slice of the entire vector.

-

Equivalent to &mut s[..].

-

Examples

-
-use std::io::{self, Read};
-let mut buffer = vec![0; 3];
-io::repeat(0b101).read_exact(buffer.as_mut_slice()).unwrap();
-

pub unsafe fn set_len(&mut self, new_len: usize)1.0.0[src]

Forces the length of the vector to new_len.

-

This is a low-level operation that maintains none of the normal -invariants of the type. Normally changing the length of a vector -is done using one of the safe operations instead, such as -truncate, resize, extend, or clear.

-

Safety

-
    -
  • new_len must be less than or equal to capacity().
  • -
  • The elements at old_len..new_len must be initialized.
  • -
-

Examples

-

This method can be useful for situations in which the vector -is serving as a buffer for other code, particularly over FFI:

- -
-pub fn get_dictionary(&self) -> Option<Vec<u8>> {
-    // Per the FFI method's docs, "32768 bytes is always enough".
-    let mut dict = Vec::with_capacity(32_768);
-    let mut dict_length = 0;
-    // SAFETY: When `deflateGetDictionary` returns `Z_OK`, it holds that:
-    // 1. `dict_length` elements were initialized.
-    // 2. `dict_length` <= the capacity (32_768)
-    // which makes `set_len` safe to call.
-    unsafe {
-        // Make the FFI call...
-        let r = deflateGetDictionary(self.strm, dict.as_mut_ptr(), &mut dict_length);
-        if r == Z_OK {
-            // ...and update the length to what was initialized.
-            dict.set_len(dict_length);
-            Some(dict)
-        } else {
-            None
-        }
-    }
-}
-

While the following example is sound, there is a memory leak since -the inner vectors were not freed prior to the set_len call:

- -
-let mut vec = vec![vec![1, 0, 0],
-                   vec![0, 1, 0],
-                   vec![0, 0, 1]];
-// SAFETY:
-// 1. `old_len..0` is empty so no elements need to be initialized.
-// 2. `0 <= capacity` always holds whatever `capacity` is.
-unsafe {
-    vec.set_len(0);
-}
-

Normally, here, one would use clear instead to correctly drop -the contents and thus not leak memory.

-

pub fn swap_remove(&mut self, index: usize) -> T1.0.0[src]

Removes an element from the vector and returns it.

-

The removed element is replaced by the last element of the vector.

-

This does not preserve ordering, but is O(1).

-

Panics

-

Panics if index is out of bounds.

-

Examples

-
-let mut v = vec!["foo", "bar", "baz", "qux"];
-
-assert_eq!(v.swap_remove(1), "bar");
-assert_eq!(v, ["foo", "qux", "baz"]);
-
-assert_eq!(v.swap_remove(0), "foo");
-assert_eq!(v, ["baz", "qux"]);
-

pub fn insert(&mut self, index: usize, element: T)1.0.0[src]

Inserts an element at position index within the vector, shifting all -elements after it to the right.

-

Panics

-

Panics if index > len.

-

Examples

-
-let mut vec = vec![1, 2, 3];
-vec.insert(1, 4);
-assert_eq!(vec, [1, 4, 2, 3]);
-vec.insert(4, 5);
-assert_eq!(vec, [1, 4, 2, 3, 5]);
-

pub fn remove(&mut self, index: usize) -> T1.0.0[src]

Removes and returns the element at position index within the vector, -shifting all elements after it to the left.

-

Panics

-

Panics if index is out of bounds.

-

Examples

-
-let mut v = vec![1, 2, 3];
-assert_eq!(v.remove(1), 2);
-assert_eq!(v, [1, 3]);
-

pub fn retain<F>(&mut self, f: F) where
    F: FnMut(&T) -> bool
1.0.0[src]

Retains only the elements specified by the predicate.

-

In other words, remove all elements e such that f(&e) returns false. -This method operates in place, visiting each element exactly once in the -original order, and preserves the order of the retained elements.

-

Examples

-
-let mut vec = vec![1, 2, 3, 4];
-vec.retain(|&x| x%2 == 0);
-assert_eq!(vec, [2, 4]);
-

The exact order may be useful for tracking external state, like an index.

- -
-let mut vec = vec![1, 2, 3, 4, 5];
-let keep = [false, true, true, false, true];
-let mut i = 0;
-vec.retain(|_| (keep[i], i += 1).0);
-assert_eq!(vec, [2, 3, 5]);
-

pub fn dedup_by_key<F, K>(&mut self, key: F) where
    F: FnMut(&mut T) -> K,
    K: PartialEq<K>, 
1.16.0[src]

Removes all but the first of consecutive elements in the vector that resolve to the same -key.

-

If the vector is sorted, this removes all duplicates.

-

Examples

-
-let mut vec = vec![10, 20, 21, 30, 20];
-
-vec.dedup_by_key(|i| *i / 10);
-
-assert_eq!(vec, [10, 20, 30, 20]);
-

pub fn dedup_by<F>(&mut self, same_bucket: F) where
    F: FnMut(&mut T, &mut T) -> bool
1.16.0[src]

Removes all but the first of consecutive elements in the vector satisfying a given equality -relation.

-

The same_bucket function is passed references to two elements from the vector and -must determine if the elements compare equal. The elements are passed in opposite order -from their order in the slice, so if same_bucket(a, b) returns true, a is removed.

-

If the vector is sorted, this removes all duplicates.

-

Examples

-
-let mut vec = vec!["foo", "bar", "Bar", "baz", "bar"];
-
-vec.dedup_by(|a, b| a.eq_ignore_ascii_case(b));
-
-assert_eq!(vec, ["foo", "bar", "baz", "bar"]);
-

pub fn push(&mut self, value: T)1.0.0[src]

Appends an element to the back of a collection.

-

Panics

-

Panics if the number of elements in the vector overflows a usize.

-

Examples

-
-let mut vec = vec![1, 2];
-vec.push(3);
-assert_eq!(vec, [1, 2, 3]);
-

pub fn pop(&mut self) -> Option<T>1.0.0[src]

Removes the last element from a vector and returns it, or None if it -is empty.

-

Examples

-
-let mut vec = vec![1, 2, 3];
-assert_eq!(vec.pop(), Some(3));
-assert_eq!(vec, [1, 2]);
-

pub fn append(&mut self, other: &mut Vec<T>)1.4.0[src]

Moves all the elements of other into Self, leaving other empty.

-

Panics

-

Panics if the number of elements in the vector overflows a usize.

-

Examples

-
-let mut vec = vec![1, 2, 3];
-let mut vec2 = vec![4, 5, 6];
-vec.append(&mut vec2);
-assert_eq!(vec, [1, 2, 3, 4, 5, 6]);
-assert_eq!(vec2, []);
-

pub fn drain<R>(&mut self, range: R) -> Drain<T> where
    R: RangeBounds<usize>, 
1.6.0[src]

Creates a draining iterator that removes the specified range in the vector -and yields the removed items.

-

Note 1: The element range is removed even if the iterator is only -partially consumed or not consumed at all.

-

Note 2: It is unspecified how many elements are removed from the vector -if the Drain value is leaked.

-

Panics

-

Panics if the starting point is greater than the end point or if -the end point is greater than the length of the vector.

-

Examples

-
-let mut v = vec![1, 2, 3];
-let u: Vec<_> = v.drain(1..).collect();
-assert_eq!(v, &[1]);
-assert_eq!(u, &[2, 3]);
-
-// A full range clears the vector
-v.drain(..);
-assert_eq!(v, &[]);
-

pub fn clear(&mut self)1.0.0[src]

Clears the vector, removing all values.

-

Note that this method has no effect on the allocated capacity -of the vector.

-

Examples

-
-let mut v = vec![1, 2, 3];
-
-v.clear();
-
-assert!(v.is_empty());
-

pub fn len(&self) -> usize1.0.0[src]

Returns the number of elements in the vector, also referred to -as its 'length'.

-

Examples

-
-let a = vec![1, 2, 3];
-assert_eq!(a.len(), 3);
-

pub fn is_empty(&self) -> bool1.0.0[src]

Returns true if the vector contains no elements.

-

Examples

-
-let mut v = Vec::new();
-assert!(v.is_empty());
-
-v.push(1);
-assert!(!v.is_empty());
-

pub fn split_off(&mut self, at: usize) -> Vec<T>1.4.0[src]

Splits the collection into two at the given index.

-

Returns a newly allocated Self. self contains elements [0, at), -and the returned Self contains elements [at, len).

-

Note that the capacity of self does not change.

-

Panics

-

Panics if at > len.

-

Examples

-
-let mut vec = vec![1,2,3];
-let vec2 = vec.split_off(1);
-assert_eq!(vec, [1]);
-assert_eq!(vec2, [2, 3]);
-

pub fn resize_with<F>(&mut self, new_len: usize, f: F) where
    F: FnMut() -> T, 
1.33.0[src]

Resizes the Vec in-place so that len is equal to new_len.

-

If new_len is greater than len, the Vec is extended by the -difference, with each additional slot filled with the result of -calling the closure f. The return values from f will end up -in the Vec in the order they have been generated.

-

If new_len is less than len, the Vec is simply truncated.

-

This method uses a closure to create new values on every push. If -you'd rather Clone a given value, use resize. If you want -to use the [Default] trait to generate values, you can pass -[Default::default()] as the second argument.

-

Examples

-
-let mut vec = vec![1, 2, 3];
-vec.resize_with(5, Default::default);
-assert_eq!(vec, [1, 2, 3, 0, 0]);
-
-let mut vec = vec![];
-let mut p = 1;
-vec.resize_with(4, || { p *= 2; p });
-assert_eq!(vec, [2, 4, 8, 16]);
-

pub fn resize(&mut self, new_len: usize, value: T)1.5.0[src]

Resizes the Vec in-place so that len is equal to new_len.

-

If new_len is greater than len, the Vec is extended by the -difference, with each additional slot filled with value. -If new_len is less than len, the Vec is simply truncated.

-

This method requires Clone to be able clone the passed value. If -you need more flexibility (or want to rely on Default instead of -Clone), use resize_with.

-

Examples

-
-let mut vec = vec!["hello"];
-vec.resize(3, "world");
-assert_eq!(vec, ["hello", "world", "world"]);
-
-let mut vec = vec![1, 2, 3, 4];
-vec.resize(2, 0);
-assert_eq!(vec, [1, 2]);
-

pub fn extend_from_slice(&mut self, other: &[T])1.6.0[src]

Clones and appends all elements in a slice to the Vec.

-

Iterates over the slice other, clones each element, and then appends -it to this Vec. The other vector is traversed in-order.

-

Note that this function is same as extend except that it is -specialized to work with slices instead. If and when Rust gets -specialization this function will likely be deprecated (but still -available).

-

Examples

-
-let mut vec = vec![1];
-vec.extend_from_slice(&[2, 3, 4]);
-assert_eq!(vec, [1, 2, 3, 4]);
-

pub fn resize_default(&mut self, new_len: usize)[src]

Deprecated since 1.33.0:

This is moving towards being removed in favor of .resize_with(Default::default). If you disagree, please comment in the tracking issue.

-
🔬 This is a nightly-only experimental API. (vec_resize_default)

Resizes the Vec in-place so that len is equal to new_len.

-

If new_len is greater than len, the Vec is extended by the -difference, with each additional slot filled with Default::default(). -If new_len is less than len, the Vec is simply truncated.

-

This method uses Default to create new values on every push. If -you'd rather Clone a given value, use resize.

-

Examples

-
-#![feature(vec_resize_default)]
-
-let mut vec = vec![1, 2, 3];
-vec.resize_default(5);
-assert_eq!(vec, [1, 2, 3, 0, 0]);
-
-let mut vec = vec![1, 2, 3, 4];
-vec.resize_default(2);
-assert_eq!(vec, [1, 2]);
-

pub fn dedup(&mut self)1.0.0[src]

Removes consecutive repeated elements in the vector according to the -[PartialEq] trait implementation.

-

If the vector is sorted, this removes all duplicates.

-

Examples

-
-let mut vec = vec![1, 2, 2, 3, 2];
-
-vec.dedup();
-
-assert_eq!(vec, [1, 2, 3, 2]);
-

pub fn remove_item(&mut self, item: &T) -> Option<T>[src]

🔬 This is a nightly-only experimental API. (vec_remove_item)

recently added

-

Removes the first instance of item from the vector if the item exists.

-

Examples

-
-let mut vec = vec![1, 2, 3, 1];
-
-vec.remove_item(&1);
-
-assert_eq!(vec, vec![2, 3, 1]);
-

pub fn splice<R, I>(
    &mut self,
    range: R,
    replace_with: I
) -> Splice<<I as IntoIterator>::IntoIter> where
    I: IntoIterator<Item = T>,
    R: RangeBounds<usize>, 
1.21.0[src]

Creates a splicing iterator that replaces the specified range in the vector -with the given replace_with iterator and yields the removed items. -replace_with does not need to be the same length as range.

-

Note 1: The element range is removed even if the iterator is not -consumed until the end.

-

Note 2: It is unspecified how many elements are removed from the vector, -if the Splice value is leaked.

-

Note 3: The input iterator replace_with is only consumed -when the Splice value is dropped.

-

Note 4: This is optimal if:

-
    -
  • The tail (elements in the vector after range) is empty,
  • -
  • or replace_with yields fewer elements than range’s length
  • -
  • or the lower bound of its size_hint() is exact.
  • -
-

Otherwise, a temporary vector is allocated and the tail is moved twice.

-

Panics

-

Panics if the starting point is greater than the end point or if -the end point is greater than the length of the vector.

-

Examples

-
-let mut v = vec![1, 2, 3];
-let new = [7, 8];
-let u: Vec<_> = v.splice(..2, new.iter().cloned()).collect();
-assert_eq!(v, &[7, 8, 3]);
-assert_eq!(u, &[1, 2]);
-

pub fn drain_filter<F>(&mut self, filter: F) -> DrainFilter<T, F> where
    F: FnMut(&mut T) -> bool
[src]

🔬 This is a nightly-only experimental API. (drain_filter)

recently added

-

Creates an iterator which uses a closure to determine if an element should be removed.

-

If the closure returns true, then the element is removed and yielded. -If the closure returns false, the element will remain in the vector and will not be yielded -by the iterator.

-

Using this method is equivalent to the following code:

- -
-let mut i = 0;
-while i != vec.len() {
-    if some_predicate(&mut vec[i]) {
-        let val = vec.remove(i);
-        // your code here
-    } else {
-        i += 1;
-    }
-}
-
-

But drain_filter is easier to use. drain_filter is also more efficient, -because it can backshift the elements of the array in bulk.

-

Note that drain_filter also lets you mutate every element in the filter closure, -regardless of whether you choose to keep or remove it.

-

Examples

-

Splitting an array into evens and odds, reusing the original allocation:

- -
-#![feature(drain_filter)]
-let mut numbers = vec![1, 2, 3, 4, 5, 6, 8, 9, 11, 13, 14, 15];
-
-let evens = numbers.drain_filter(|x| *x % 2 == 0).collect::<Vec<_>>();
-let odds = numbers;
-
-assert_eq!(evens, vec![2, 4, 6, 8, 14]);
-assert_eq!(odds, vec![1, 3, 5, 9, 11, 13, 15]);
-

Trait Implementations

impl PartialEq<Literal> for Literal[src]

#[must_use] -
fn ne(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests for !=.

-

impl AsRef<[u8]> for Literal[src]

impl Clone for Literal[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Ord for Literal[src]

fn max(self, other: Self) -> Self1.21.0[src]

Compares and returns the maximum of two values. Read more

-

fn min(self, other: Self) -> Self1.21.0[src]

Compares and returns the minimum of two values. Read more

-

fn clamp(self, min: Self, max: Self) -> Self[src]

🔬 This is a nightly-only experimental API. (clamp)

Restrict a value to a certain interval. Read more

-

impl Eq for Literal[src]

impl PartialOrd<Literal> for Literal[src]

#[must_use] -
fn lt(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests less than (for self and other) and is used by the < operator. Read more

-

#[must_use] -
fn le(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests less than or equal to (for self and other) and is used by the <= operator. Read more

-

#[must_use] -
fn gt(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests greater than (for self and other) and is used by the > operator. Read more

-

#[must_use] -
fn ge(&self, other: &Rhs) -> bool
1.0.0[src]

This method tests greater than or equal to (for self and other) and is used by the >= operator. Read more

-

impl Deref for Literal[src]

type Target = Vec<u8>

The resulting type after dereferencing.

-

impl DerefMut for Literal[src]

impl Debug for Literal[src]

Auto Trait Implementations

impl Send for Literal

impl Sync for Literal

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/literal/struct.Literals.html b/target/doc/regex_syntax/hir/literal/struct.Literals.html deleted file mode 100644 index 1f41e54..0000000 --- a/target/doc/regex_syntax/hir/literal/struct.Literals.html +++ /dev/null @@ -1,124 +0,0 @@ -regex_syntax::hir::literal::Literals - Rust

[][src]Struct regex_syntax::hir::literal::Literals

pub struct Literals { /* fields omitted */ }

A set of literal byte strings extracted from a regular expression.

-

Every member of the set is a Literal, which is represented by a -Vec<u8>. (Notably, it may contain invalid UTF-8.) Every member is -said to be either complete or cut. A complete literal means that -it extends until the beginning (or end) of the regular expression. In -some circumstances, this can be used to indicate a match in the regular -expression.

-

A key aspect of literal extraction is knowing when to stop. It is not -feasible to blindly extract all literals from a regular expression, even if -there are finitely many. For example, the regular expression [0-9]{10} -has 10^10 distinct literals. For this reason, literal extraction is -bounded to some low number by default using heuristics, but the limits can -be tweaked.

-

WARNING: Literal extraction uses stack space proportional to the size -of the Hir expression. At some point, this drawback will be eliminated. -To protect yourself, set a reasonable -nest_limit on your Parser. -This is done for you by default.

-

Methods

impl Literals[src]

pub fn empty() -> Literals[src]

Returns a new empty set of literals using default limits.

-

pub fn prefixes(expr: &Hir) -> Literals[src]

Returns a set of literal prefixes extracted from the given Hir.

-

pub fn suffixes(expr: &Hir) -> Literals[src]

Returns a set of literal suffixes extracted from the given Hir.

-

pub fn limit_size(&self) -> usize[src]

Get the approximate size limit (in bytes) of this set.

-

pub fn set_limit_size(&mut self, size: usize) -> &mut Literals[src]

Set the approximate size limit (in bytes) of this set.

-

If extracting a literal would put the set over this limit, then -extraction stops.

-

The new limits will only apply to additions to this set. Existing -members remain unchanged, even if the set exceeds the new limit.

-

pub fn limit_class(&self) -> usize[src]

Get the character class size limit for this set.

-

pub fn set_limit_class(&mut self, size: usize) -> &mut Literals[src]

Limits the size of character(or byte) classes considered.

-

A value of 0 prevents all character classes from being considered.

-

This limit also applies to case insensitive literals, since each -character in the case insensitive literal is converted to a class, and -then case folded.

-

The new limits will only apply to additions to this set. Existing -members remain unchanged, even if the set exceeds the new limit.

-

pub fn literals(&self) -> &[Literal][src]

Returns the set of literals as a slice. Its order is unspecified.

-

pub fn min_len(&self) -> Option<usize>[src]

Returns the length of the smallest literal.

-

Returns None is there are no literals in the set.

-

pub fn all_complete(&self) -> bool[src]

Returns true if all members in this set are complete.

-

pub fn any_complete(&self) -> bool[src]

Returns true if any member in this set is complete.

-

pub fn contains_empty(&self) -> bool[src]

Returns true if this set contains an empty literal.

-

pub fn is_empty(&self) -> bool[src]

Returns true if this set is empty or if all of its members is empty.

-

pub fn to_empty(&self) -> Literals[src]

Returns a new empty set of literals using this set's limits.

-

pub fn longest_common_prefix(&self) -> &[u8][src]

Returns the longest common prefix of all members in this set.

-

pub fn longest_common_suffix(&self) -> &[u8][src]

Returns the longest common suffix of all members in this set.

-

pub fn trim_suffix(&self, num_bytes: usize) -> Option<Literals>[src]

Returns a new set of literals with the given number of bytes trimmed -from the suffix of each literal.

-

If any literal would be cut out completely by trimming, then None is -returned.

-

Any duplicates that are created as a result of this transformation are -removed.

-

pub fn unambiguous_prefixes(&self) -> Literals[src]

Returns a new set of prefixes of this set of literals that are -guaranteed to be unambiguous.

-

Any substring match with a member of the set is returned is guaranteed -to never overlap with a substring match of another member of the set -at the same starting position.

-

Given any two members of the returned set, neither is a substring of -the other.

-

pub fn unambiguous_suffixes(&self) -> Literals[src]

Returns a new set of suffixes of this set of literals that are -guaranteed to be unambiguous.

-

Any substring match with a member of the set is returned is guaranteed -to never overlap with a substring match of another member of the set -at the same ending position.

-

Given any two members of the returned set, neither is a substring of -the other.

-

pub fn union_prefixes(&mut self, expr: &Hir) -> bool[src]

Unions the prefixes from the given expression to this set.

-

If prefixes could not be added (for example, this set would exceed its -size limits or the set of prefixes from expr includes the empty -string), then false is returned.

-

Note that prefix literals extracted from expr are said to be complete -if and only if the literal extends from the beginning of expr to the -end of expr.

-

pub fn union_suffixes(&mut self, expr: &Hir) -> bool[src]

Unions the suffixes from the given expression to this set.

-

If suffixes could not be added (for example, this set would exceed its -size limits or the set of suffixes from expr includes the empty -string), then false is returned.

-

Note that prefix literals extracted from expr are said to be complete -if and only if the literal extends from the end of expr to the -beginning of expr.

-

pub fn union(&mut self, lits: Literals) -> bool[src]

Unions this set with another set.

-

If the union would cause the set to exceed its limits, then the union -is skipped and it returns false. Otherwise, if the union succeeds, it -returns true.

-

pub fn cross_product(&mut self, lits: &Literals) -> bool[src]

Extends this set with another set.

-

The set of literals is extended via a cross product.

-

If a cross product would cause this set to exceed its limits, then the -cross product is skipped and it returns false. Otherwise, if the cross -product succeeds, it returns true.

-

pub fn cross_add(&mut self, bytes: &[u8]) -> bool[src]

Extends each literal in this set with the bytes given.

-

If the set is empty, then the given literal is added to the set.

-

If adding any number of bytes to all members of this set causes a limit -to be exceeded, then no bytes are added and false is returned. If a -prefix of bytes can be fit into this set, then it is used and all -resulting literals are cut.

-

pub fn add(&mut self, lit: Literal) -> bool[src]

Adds the given literal to this set.

-

Returns false if adding this literal would cause the class to be too -big.

-

pub fn add_char_class(&mut self, cls: &ClassUnicode) -> bool[src]

Extends each literal in this set with the character class given.

-

Returns false if the character class was too big to add.

-

pub fn add_byte_class(&mut self, cls: &ClassBytes) -> bool[src]

Extends each literal in this set with the byte class given.

-

Returns false if the byte class was too big to add.

-

pub fn cut(&mut self)[src]

Cuts every member of this set. When a member is cut, it can never -be extended.

-

pub fn reverse(&mut self)[src]

Reverses all members in place.

-

pub fn clear(&mut self)[src]

Clears this set of all members.

-

Trait Implementations

impl PartialEq<Literals> for Literals[src]

impl Clone for Literals[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Literals[src]

impl Debug for Literals[src]

Auto Trait Implementations

impl Send for Literals

impl Sync for Literals

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/print/index.html b/target/doc/regex_syntax/hir/print/index.html deleted file mode 100644 index 002b971..0000000 --- a/target/doc/regex_syntax/hir/print/index.html +++ /dev/null @@ -1,5 +0,0 @@ -regex_syntax::hir::print - Rust

[][src]Module regex_syntax::hir::print

This module provides a regular expression printer for Hir.

-

Structs

-
Printer

A printer for a regular expression's high-level intermediate -representation.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/print/sidebar-items.js b/target/doc/regex_syntax/hir/print/sidebar-items.js deleted file mode 100644 index 5c4fc7a..0000000 --- a/target/doc/regex_syntax/hir/print/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Printer","A printer for a regular expression's high-level intermediate representation."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/hir/print/struct.Printer.html b/target/doc/regex_syntax/hir/print/struct.Printer.html deleted file mode 100644 index 6419587..0000000 --- a/target/doc/regex_syntax/hir/print/struct.Printer.html +++ /dev/null @@ -1,29 +0,0 @@ -regex_syntax::hir::print::Printer - Rust

[][src]Struct regex_syntax::hir::print::Printer

pub struct Printer { /* fields omitted */ }

A printer for a regular expression's high-level intermediate -representation.

-

A printer converts a high-level intermediate representation (HIR) to a -regular expression pattern string. This particular printer uses constant -stack space and heap space proportional to the size of the HIR.

-

Since this printer is only using the HIR, the pattern it prints will likely -not resemble the original pattern at all. For example, a pattern like -\pL will have its entire class written out.

-

The purpose of this printer is to provide a means to mutate an HIR and then -build a regular expression from the result of that mutation. (A regex -library could provide a constructor from this HIR explicitly, but that -creates an unnecessary public coupling between the regex library and this -specific HIR representation.)

-

Methods

impl Printer[src]

pub fn new() -> Printer[src]

Create a new printer.

-

pub fn print<W: Write>(&mut self, hir: &Hir, wtr: W) -> Result[src]

Print the given Ast to the given writer. The writer must implement -fmt::Write. Typical implementations of fmt::Write that can be used -here are a fmt::Formatter (which is available in fmt::Display -implementations) or a &mut String.

-

Trait Implementations

impl Debug for Printer[src]

Auto Trait Implementations

impl Send for Printer

impl Sync for Printer

Blanket Implementations

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/sidebar-items.js b/target/doc/regex_syntax/hir/sidebar-items.js deleted file mode 100644 index 035f004..0000000 --- a/target/doc/regex_syntax/hir/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["Anchor","The high-level intermediate representation for an anchor assertion."],["Class","The high-level intermediate representation of a character class."],["ErrorKind","The type of an error that occurred while building an `Hir`."],["GroupKind","The kind of group."],["HirKind","The kind of an arbitrary `Hir` expression."],["Literal","The high-level intermediate representation of a literal."],["RepetitionKind","The kind of a repetition operator."],["RepetitionRange","The kind of a counted repetition operator."],["WordBoundary","The high-level intermediate representation for a word-boundary assertion."]],"fn":[["visit","Executes an implementation of `Visitor` in constant stack space."]],"mod":[["literal","Provides routines for extracting literal prefixes and suffixes from an `Hir`."],["print","This module provides a regular expression printer for `Hir`."],["translate","Defines a translator that converts an `Ast` to an `Hir`."]],"struct":[["ClassBytes","A set of characters represented by arbitrary bytes (where one byte corresponds to one character)."],["ClassBytesIter","An iterator over all ranges in a byte character class."],["ClassBytesRange","A single range of characters represented by arbitrary bytes."],["ClassUnicode","A set of characters represented by Unicode scalar values."],["ClassUnicodeIter","An iterator over all ranges in a Unicode character class."],["ClassUnicodeRange","A single range of characters represented by Unicode scalar values."],["Error","An error that can occur while translating an `Ast` to a `Hir`."],["Group","The high-level intermediate representation for a group."],["Hir","A high-level intermediate representation (HIR) for a regular expression."],["Repetition","The high-level intermediate representation of a repetition operator."]],"trait":[["Visitor","A trait for visiting the high-level IR (HIR) in depth first order."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.ClassBytes.html b/target/doc/regex_syntax/hir/struct.ClassBytes.html deleted file mode 100644 index be746a7..0000000 --- a/target/doc/regex_syntax/hir/struct.ClassBytes.html +++ /dev/null @@ -1,50 +0,0 @@ -regex_syntax::hir::ClassBytes - Rust

[][src]Struct regex_syntax::hir::ClassBytes

pub struct ClassBytes { /* fields omitted */ }

A set of characters represented by arbitrary bytes (where one byte -corresponds to one character).

-

Methods

impl ClassBytes[src]

pub fn new<I>(ranges: I) -> ClassBytes where
    I: IntoIterator<Item = ClassBytesRange>, 
[src]

Create a new class from a sequence of ranges.

-

The given ranges do not need to be in any specific order, and ranges -may overlap.

-

pub fn empty() -> ClassBytes[src]

Create a new class with no ranges.

-

pub fn push(&mut self, range: ClassBytesRange)[src]

Add a new range to this set.

-

Important traits for ClassBytesIter<'a>
pub fn iter(&self) -> ClassBytesIter[src]

Return an iterator over all ranges in this class.

-

The iterator yields ranges in ascending order.

-

pub fn ranges(&self) -> &[ClassBytesRange][src]

Return the underlying ranges as a slice.

-

pub fn case_fold_simple(&mut self)[src]

Expand this character class such that it contains all case folded -characters. For example, if this class consists of the range a-z, -then applying case folding will result in the class containing both the -ranges a-z and A-Z.

-

Note that this only applies ASCII case folding, which is limited to the -characters a-z and A-Z.

-

pub fn negate(&mut self)[src]

Negate this byte class.

-

For all b where b is a any byte, if b was in this set, then it -will not be in this set after negation.

-

pub fn union(&mut self, other: &ClassBytes)[src]

Union this byte class with the given byte class, in place.

-

pub fn intersect(&mut self, other: &ClassBytes)[src]

Intersect this byte class with the given byte class, in place.

-

pub fn difference(&mut self, other: &ClassBytes)[src]

Subtract the given byte class from this byte class, in place.

-

pub fn symmetric_difference(&mut self, other: &ClassBytes)[src]

Compute the symmetric difference of the given byte classes, in place.

-

This computes the symmetric difference of two byte classes. This -removes all elements in this class that are also in the given class, -but all adds all elements from the given class that aren't in this -class. That is, the class will contain all elements in either class, -but will not contain any elements that are in both classes.

-

pub fn is_all_ascii(&self) -> bool[src]

Returns true if and only if this character class will either match -nothing or only ASCII bytes. Stated differently, this returns false -if and only if this class contains a non-ASCII byte.

-

Trait Implementations

impl PartialEq<ClassBytes> for ClassBytes[src]

impl Clone for ClassBytes[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassBytes[src]

impl Debug for ClassBytes[src]

Auto Trait Implementations

impl Send for ClassBytes

impl Sync for ClassBytes

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.ClassBytesIter.html b/target/doc/regex_syntax/hir/struct.ClassBytesIter.html deleted file mode 100644 index 0094693..0000000 --- a/target/doc/regex_syntax/hir/struct.ClassBytesIter.html +++ /dev/null @@ -1,80 +0,0 @@ -regex_syntax::hir::ClassBytesIter - Rust

[][src]Struct regex_syntax::hir::ClassBytesIter

pub struct ClassBytesIter<'a>(_);

An iterator over all ranges in a byte character class.

-

The lifetime 'a refers to the lifetime of the underlying class.

-

Trait Implementations

impl<'a> Iterator for ClassBytesIter<'a>[src]

type Item = &'a ClassBytesRange

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a> Debug for ClassBytesIter<'a>[src]

Auto Trait Implementations

impl<'a> Send for ClassBytesIter<'a>

impl<'a> Sync for ClassBytesIter<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.ClassBytesRange.html b/target/doc/regex_syntax/hir/struct.ClassBytesRange.html deleted file mode 100644 index 72214a1..0000000 --- a/target/doc/regex_syntax/hir/struct.ClassBytesRange.html +++ /dev/null @@ -1,41 +0,0 @@ -regex_syntax::hir::ClassBytesRange - Rust

[][src]Struct regex_syntax::hir::ClassBytesRange

pub struct ClassBytesRange { /* fields omitted */ }

A single range of characters represented by arbitrary bytes.

-

The range is closed. That is, the start and end of the range are included -in the range.

-

Methods

impl ClassBytesRange[src]

pub fn new(start: u8, end: u8) -> ClassBytesRange[src]

Create a new byte range for a character class.

-

The returned range is always in a canonical form. That is, the range -returned always satisfies the invariant that start <= end.

-

pub fn start(&self) -> u8[src]

Return the start of this range.

-

The start of a range is always less than or equal to the end of the -range.

-

pub fn end(&self) -> u8[src]

Return the end of this range.

-

The end of a range is always greater than or equal to the start of the -range.

-

Trait Implementations

impl PartialEq<ClassBytesRange> for ClassBytesRange[src]

impl Clone for ClassBytesRange[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Ord for ClassBytesRange[src]

fn max(self, other: Self) -> Self1.21.0[src]

Compares and returns the maximum of two values. Read more

-

fn min(self, other: Self) -> Self1.21.0[src]

Compares and returns the minimum of two values. Read more

-

fn clamp(self, min: Self, max: Self) -> Self[src]

🔬 This is a nightly-only experimental API. (clamp)

Restrict a value to a certain interval. Read more

-

impl Default for ClassBytesRange[src]

impl Eq for ClassBytesRange[src]

impl Copy for ClassBytesRange[src]

impl PartialOrd<ClassBytesRange> for ClassBytesRange[src]

impl Debug for ClassBytesRange[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.ClassUnicode.html b/target/doc/regex_syntax/hir/struct.ClassUnicode.html deleted file mode 100644 index b3ef351..0000000 --- a/target/doc/regex_syntax/hir/struct.ClassUnicode.html +++ /dev/null @@ -1,46 +0,0 @@ -regex_syntax::hir::ClassUnicode - Rust

[][src]Struct regex_syntax::hir::ClassUnicode

pub struct ClassUnicode { /* fields omitted */ }

A set of characters represented by Unicode scalar values.

-

Methods

impl ClassUnicode[src]

pub fn new<I>(ranges: I) -> ClassUnicode where
    I: IntoIterator<Item = ClassUnicodeRange>, 
[src]

Create a new class from a sequence of ranges.

-

The given ranges do not need to be in any specific order, and ranges -may overlap.

-

pub fn empty() -> ClassUnicode[src]

Create a new class with no ranges.

-

pub fn push(&mut self, range: ClassUnicodeRange)[src]

Add a new range to this set.

-

Important traits for ClassUnicodeIter<'a>
pub fn iter(&self) -> ClassUnicodeIter[src]

Return an iterator over all ranges in this class.

-

The iterator yields ranges in ascending order.

-

pub fn ranges(&self) -> &[ClassUnicodeRange][src]

Return the underlying ranges as a slice.

-

pub fn case_fold_simple(&mut self)[src]

Expand this character class such that it contains all case folded -characters, according to Unicode's "simple" mapping. For example, if -this class consists of the range a-z, then applying case folding will -result in the class containing both the ranges a-z and A-Z.

-

pub fn negate(&mut self)[src]

Negate this character class.

-

For all c where c is a Unicode scalar value, if c was in this -set, then it will not be in this set after negation.

-

pub fn union(&mut self, other: &ClassUnicode)[src]

Union this character class with the given character class, in place.

-

pub fn intersect(&mut self, other: &ClassUnicode)[src]

Intersect this character class with the given character class, in -place.

-

pub fn difference(&mut self, other: &ClassUnicode)[src]

Subtract the given character class from this character class, in place.

-

pub fn symmetric_difference(&mut self, other: &ClassUnicode)[src]

Compute the symmetric difference of the given character classes, in -place.

-

This computes the symmetric difference of two character classes. This -removes all elements in this class that are also in the given class, -but all adds all elements from the given class that aren't in this -class. That is, the class will contain all elements in either class, -but will not contain any elements that are in both classes.

-

Trait Implementations

impl PartialEq<ClassUnicode> for ClassUnicode[src]

impl Clone for ClassUnicode[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for ClassUnicode[src]

impl Debug for ClassUnicode[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.ClassUnicodeIter.html b/target/doc/regex_syntax/hir/struct.ClassUnicodeIter.html deleted file mode 100644 index 5a9ccbb..0000000 --- a/target/doc/regex_syntax/hir/struct.ClassUnicodeIter.html +++ /dev/null @@ -1,80 +0,0 @@ -regex_syntax::hir::ClassUnicodeIter - Rust

[][src]Struct regex_syntax::hir::ClassUnicodeIter

pub struct ClassUnicodeIter<'a>(_);

An iterator over all ranges in a Unicode character class.

-

The lifetime 'a refers to the lifetime of the underlying class.

-

Trait Implementations

impl<'a> Iterator for ClassUnicodeIter<'a>[src]

type Item = &'a ClassUnicodeRange

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a> Debug for ClassUnicodeIter<'a>[src]

Auto Trait Implementations

impl<'a> Send for ClassUnicodeIter<'a>

impl<'a> Sync for ClassUnicodeIter<'a>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.ClassUnicodeRange.html b/target/doc/regex_syntax/hir/struct.ClassUnicodeRange.html deleted file mode 100644 index 0e772b3..0000000 --- a/target/doc/regex_syntax/hir/struct.ClassUnicodeRange.html +++ /dev/null @@ -1,41 +0,0 @@ -regex_syntax::hir::ClassUnicodeRange - Rust

[][src]Struct regex_syntax::hir::ClassUnicodeRange

pub struct ClassUnicodeRange { /* fields omitted */ }

A single range of characters represented by Unicode scalar values.

-

The range is closed. That is, the start and end of the range are included -in the range.

-

Methods

impl ClassUnicodeRange[src]

pub fn new(start: char, end: char) -> ClassUnicodeRange[src]

Create a new Unicode scalar value range for a character class.

-

The returned range is always in a canonical form. That is, the range -returned always satisfies the invariant that start <= end.

-

pub fn start(&self) -> char[src]

Return the start of this range.

-

The start of a range is always less than or equal to the end of the -range.

-

pub fn end(&self) -> char[src]

Return the end of this range.

-

The end of a range is always greater than or equal to the start of the -range.

-

Trait Implementations

impl PartialEq<ClassUnicodeRange> for ClassUnicodeRange[src]

impl Clone for ClassUnicodeRange[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Ord for ClassUnicodeRange[src]

fn max(self, other: Self) -> Self1.21.0[src]

Compares and returns the maximum of two values. Read more

-

fn min(self, other: Self) -> Self1.21.0[src]

Compares and returns the minimum of two values. Read more

-

fn clamp(self, min: Self, max: Self) -> Self[src]

🔬 This is a nightly-only experimental API. (clamp)

Restrict a value to a certain interval. Read more

-

impl Default for ClassUnicodeRange[src]

impl Eq for ClassUnicodeRange[src]

impl Copy for ClassUnicodeRange[src]

impl PartialOrd<ClassUnicodeRange> for ClassUnicodeRange[src]

impl Debug for ClassUnicodeRange[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.Error.html b/target/doc/regex_syntax/hir/struct.Error.html deleted file mode 100644 index aa36fea..0000000 --- a/target/doc/regex_syntax/hir/struct.Error.html +++ /dev/null @@ -1,31 +0,0 @@ -regex_syntax::hir::Error - Rust

[][src]Struct regex_syntax::hir::Error

pub struct Error { /* fields omitted */ }

An error that can occur while translating an Ast to a Hir.

-

Methods

impl Error[src]

pub fn kind(&self) -> &ErrorKind[src]

Return the type of this error.

-

pub fn pattern(&self) -> &str[src]

The original pattern string in which this error occurred.

-

Every span reported by this error is reported in terms of this string.

-

pub fn span(&self) -> &Span[src]

Return the span at which this error occurred.

-

Trait Implementations

impl PartialEq<Error> for Error[src]

impl From<Error> for Error[src]

impl Clone for Error[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Error[src]

impl Display for Error[src]

impl Debug for Error[src]

impl Error for Error[src]

fn cause(&self) -> Option<&dyn Error>1.0.0[src]

Deprecated since 1.33.0:

replaced by Error::source, which can support downcasting

-

The lower-level cause of this error, if any. Read more

-

fn source(&self) -> Option<&(dyn Error + 'static)>1.30.0[src]

The lower-level source of this error, if any. Read more

-

Auto Trait Implementations

impl Send for Error

impl Sync for Error

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.Group.html b/target/doc/regex_syntax/hir/struct.Group.html deleted file mode 100644 index feba08b..0000000 --- a/target/doc/regex_syntax/hir/struct.Group.html +++ /dev/null @@ -1,34 +0,0 @@ -regex_syntax::hir::Group - Rust

[][src]Struct regex_syntax::hir::Group

pub struct Group {
-    pub kind: GroupKind,
-    pub hir: Box<Hir>,
-}

The high-level intermediate representation for a group.

-

This represents one of three possible group types:

-
    -
  1. A non-capturing group (e.g., (?:expr)).
  2. -
  3. A capturing group (e.g., (expr)).
  4. -
  5. A named capturing group (e.g., (?P<name>expr)).
  6. -
-

- Fields

kind: GroupKind

The kind of this group. If it is a capturing group, then the kind -contains the capture group index (and the name, if it is a named -group).

-
hir: Box<Hir>

The expression inside the capturing group, which may be empty.

-

Trait Implementations

impl PartialEq<Group> for Group[src]

impl Clone for Group[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Group[src]

impl Debug for Group[src]

Auto Trait Implementations

impl Send for Group

impl Sync for Group

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.Hir.html b/target/doc/regex_syntax/hir/struct.Hir.html deleted file mode 100644 index 0b269cb..0000000 --- a/target/doc/regex_syntax/hir/struct.Hir.html +++ /dev/null @@ -1,142 +0,0 @@ -regex_syntax::hir::Hir - Rust

[][src]Struct regex_syntax::hir::Hir

pub struct Hir { /* fields omitted */ }

A high-level intermediate representation (HIR) for a regular expression.

-

The HIR of a regular expression represents an intermediate step between its -abstract syntax (a structured description of the concrete syntax) and -compiled byte codes. The purpose of HIR is to make regular expressions -easier to analyze. In particular, the AST is much more complex than the -HIR. For example, while an AST supports arbitrarily nested character -classes, the HIR will flatten all nested classes into a single set. The HIR -will also "compile away" every flag present in the concrete syntax. For -example, users of HIR expressions never need to worry about case folding; -it is handled automatically by the translator (e.g., by translating (?i)A -to [aA]).

-

If the HIR was produced by a translator that disallows invalid UTF-8, then -the HIR is guaranteed to match UTF-8 exclusively.

-

This type defines its own destructor that uses constant stack space and -heap space proportional to the size of the HIR.

-

The specific type of an HIR expression can be accessed via its kind -or into_kind methods. This extra level of indirection exists for two -reasons:

-
    -
  1. Construction of an HIR expression must use the constructor methods -on this Hir type instead of building the HirKind values directly. -This permits construction to enforce invariants like "concatenations -always consist of two or more sub-expressions."
  2. -
  3. Every HIR expression contains attributes that are defined inductively, -and can be computed cheaply during the construction process. For -example, one such attribute is whether the expression must match at the -beginning of the text.
  4. -
-

Also, an Hir's fmt::Display implementation prints an HIR as a regular -expression pattern string, and uses constant stack space and heap space -proportional to the size of the Hir.

-

Methods

impl Hir[src]

pub fn kind(&self) -> &HirKind[src]

Returns a reference to the underlying HIR kind.

-

pub fn into_kind(self) -> HirKind[src]

Consumes ownership of this HIR expression and returns its underlying -HirKind.

-

pub fn empty() -> Hir[src]

Returns an empty HIR expression.

-

An empty HIR expression always matches, including the empty string.

-

pub fn literal(lit: Literal) -> Hir[src]

Creates a literal HIR expression.

-

If the given literal has a Byte variant with an ASCII byte, then this -method panics. This enforces the invariant that Byte variants are -only used to express matching of invalid UTF-8.

-

pub fn class(class: Class) -> Hir[src]

Creates a class HIR expression.

-

pub fn anchor(anchor: Anchor) -> Hir[src]

Creates an anchor assertion HIR expression.

-

pub fn word_boundary(word_boundary: WordBoundary) -> Hir[src]

Creates a word boundary assertion HIR expression.

-

pub fn repetition(rep: Repetition) -> Hir[src]

Creates a repetition HIR expression.

-

pub fn group(group: Group) -> Hir[src]

Creates a group HIR expression.

-

pub fn concat(exprs: Vec<Hir>) -> Hir[src]

Returns the concatenation of the given expressions.

-

This flattens the concatenation as appropriate.

-

pub fn alternation(exprs: Vec<Hir>) -> Hir[src]

Returns the alternation of the given expressions.

-

This flattens the alternation as appropriate.

-

pub fn dot(bytes: bool) -> Hir[src]

Build an HIR expression for ..

-

A . expression matches any character except for \n. To build an -expression that matches any character, including \n, use the any -method.

-

If bytes is true, then this assumes characters are limited to a -single byte.

-

pub fn any(bytes: bool) -> Hir[src]

Build an HIR expression for (?s)..

-

A (?s). expression matches any character, including \n. To build an -expression that matches any character except for \n, then use the -dot method.

-

If bytes is true, then this assumes characters are limited to a -single byte.

-

pub fn is_always_utf8(&self) -> bool[src]

Return true if and only if this HIR will always match valid UTF-8.

-

When this returns false, then it is possible for this HIR expression -to match invalid UTF-8.

-

pub fn is_all_assertions(&self) -> bool[src]

Returns true if and only if this entire HIR expression is made up of -zero-width assertions.

-

This includes expressions like ^$\b\A\z and even ((\b)+())*^, but -not ^a.

-

pub fn is_anchored_start(&self) -> bool[src]

Return true if and only if this HIR is required to match from the -beginning of text. This includes expressions like ^foo, ^(foo|bar), -^foo|^bar but not ^foo|bar.

-

pub fn is_anchored_end(&self) -> bool[src]

Return true if and only if this HIR is required to match at the end -of text. This includes expressions like foo$, (foo|bar)$, -foo$|bar$ but not foo$|bar.

-

pub fn is_line_anchored_start(&self) -> bool[src]

Return true if and only if this HIR is required to match from the -beginning of text or the beginning of a line. This includes expressions -like ^foo, (?m)^foo, ^(foo|bar), ^(foo|bar), (?m)^foo|^bar -but not ^foo|bar or (?m)^foo|bar.

-

Note that if is_anchored_start is true, then -is_line_anchored_start will also be true. The reverse implication -is not true. For example, (?m)^foo is line anchored, but not -is_anchored_start.

-

pub fn is_line_anchored_end(&self) -> bool[src]

Return true if and only if this HIR is required to match at the -end of text or the end of a line. This includes expressions like -foo$, (?m)foo$, (foo|bar)$, (?m)(foo|bar)$, foo$|bar$, -(?m)(foo|bar)$, but not foo$|bar or (?m)foo$|bar.

-

Note that if is_anchored_end is true, then -is_line_anchored_end will also be true. The reverse implication -is not true. For example, (?m)foo$ is line anchored, but not -is_anchored_end.

-

pub fn is_any_anchored_start(&self) -> bool[src]

Return true if and only if this HIR contains any sub-expression that -is required to match at the beginning of text. Specifically, this -returns true if the ^ symbol (when multiline mode is disabled) or the -\A escape appear anywhere in the regex.

-

pub fn is_any_anchored_end(&self) -> bool[src]

Return true if and only if this HIR contains any sub-expression that is -required to match at the end of text. Specifically, this returns true -if the $ symbol (when multiline mode is disabled) or the \z escape -appear anywhere in the regex.

-

pub fn is_match_empty(&self) -> bool[src]

Return true if and only if the empty string is part of the language -matched by this regular expression.

-

This includes a*, a?b*, a{0}, (), ()+, ^$, a|b?, \B, -but not a, a+ or \b.

-

pub fn is_literal(&self) -> bool[src]

Return true if and only if this HIR is a simple literal. This is only -true when this HIR expression is either itself a Literal or a -concatenation of only Literals.

-

For example, f and foo are literals, but f+, (foo), foo() -are not (even though that contain sub-expressions that are literals).

-

pub fn is_alternation_literal(&self) -> bool[src]

Return true if and only if this HIR is either a simple literal or an -alternation of simple literals. This is only -true when this HIR expression is either itself a Literal or a -concatenation of only Literals or an alternation of only Literals.

-

For example, f, foo, a|b|c, and foo|bar|baz are alternaiton -literals, but f+, (foo), foo() -are not (even though that contain sub-expressions that are literals).

-

Trait Implementations

impl PartialEq<Hir> for Hir[src]

impl Clone for Hir[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Hir[src]

impl Drop for Hir[src]

A custom Drop impl is used for HirKind such that it uses constant stack -space but heap space proportional to the depth of the total Hir.

-

impl Display for Hir[src]

Print a display representation of this Hir.

-

The result of this is a valid regular expression pattern string.

-

This implementation uses constant stack space and heap space proportional -to the size of the Hir.

-

impl Debug for Hir[src]

Auto Trait Implementations

impl Send for Hir

impl Sync for Hir

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T> ToString for T where
    T: Display + ?Sized
[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/struct.Repetition.html b/target/doc/regex_syntax/hir/struct.Repetition.html deleted file mode 100644 index 9dd2ab4..0000000 --- a/target/doc/regex_syntax/hir/struct.Repetition.html +++ /dev/null @@ -1,43 +0,0 @@ -regex_syntax::hir::Repetition - Rust

[][src]Struct regex_syntax::hir::Repetition

pub struct Repetition {
-    pub kind: RepetitionKind,
-    pub greedy: bool,
-    pub hir: Box<Hir>,
-}

The high-level intermediate representation of a repetition operator.

-

A repetition operator permits the repetition of an arbitrary -sub-expression.

-

- Fields

kind: RepetitionKind

The kind of this repetition operator.

-
greedy: bool

Whether this repetition operator is greedy or not. A greedy operator -will match as much as it can. A non-greedy operator will match as -little as it can.

-

Typically, operators are greedy by default and are only non-greedy when -a ? suffix is used, e.g., (expr)* is greedy while (expr)*? is -not. However, this can be inverted via the U "ungreedy" flag.

-
hir: Box<Hir>

The expression being repeated.

-

Methods

impl Repetition[src]

pub fn is_match_empty(&self) -> bool[src]

Returns true if and only if this repetition operator makes it possible -to match the empty string.

-

Note that this is not defined inductively. For example, while a* -will report true, ()+ will not, even though () matches the empty -string and one or more occurrences of something that matches the empty -string will always match the empty string. In order to get the -inductive definition, see the corresponding method on -Hir.

-

Trait Implementations

impl PartialEq<Repetition> for Repetition[src]

impl Clone for Repetition[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Repetition[src]

impl Debug for Repetition[src]

Auto Trait Implementations

impl Send for Repetition

impl Sync for Repetition

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/trait.Visitor.html b/target/doc/regex_syntax/hir/trait.Visitor.html deleted file mode 100644 index 8404800..0000000 --- a/target/doc/regex_syntax/hir/trait.Visitor.html +++ /dev/null @@ -1,34 +0,0 @@ -regex_syntax::hir::Visitor - Rust

[][src]Trait regex_syntax::hir::Visitor

pub trait Visitor {
-    type Output;
-    type Err;
-    fn finish(self) -> Result<Self::Output, Self::Err>;
-
-    fn start(&mut self) { ... }
-
fn visit_pre(&mut self, _hir: &Hir) -> Result<(), Self::Err> { ... } -
fn visit_post(&mut self, _hir: &Hir) -> Result<(), Self::Err> { ... } -
fn visit_alternation_in(&mut self) -> Result<(), Self::Err> { ... } -}

A trait for visiting the high-level IR (HIR) in depth first order.

-

The principle aim of this trait is to enable callers to perform case -analysis on a high-level intermediate representation of a regular -expression without necessarily using recursion. In particular, this permits -callers to do case analysis with constant stack usage, which can be -important since the size of an HIR may be proportional to end user input.

-

Typical usage of this trait involves providing an implementation and then -running it using the visit function.

-
-

Associated Types

type Output

The result of visiting an HIR.

-

type Err

An error that visiting an HIR might return.

-
Loading content... -

Required methods

fn finish(self) -> Result<Self::Output, Self::Err>

All implementors of Visitor must provide a finish method, which -yields the result of visiting the HIR or an error.

-
Loading content... -

Provided methods

fn start(&mut self)

This method is called before beginning traversal of the HIR.

-

fn visit_pre(&mut self, _hir: &Hir) -> Result<(), Self::Err>

This method is called on an Hir before descending into child Hir -nodes.

-

fn visit_post(&mut self, _hir: &Hir) -> Result<(), Self::Err>

This method is called on an Hir after descending all of its child -Hir nodes.

-

fn visit_alternation_in(&mut self) -> Result<(), Self::Err>

This method is called between child nodes of an alternation.

-
Loading content... -

Implementors

Loading content...
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/translate/index.html b/target/doc/regex_syntax/hir/translate/index.html deleted file mode 100644 index b0d39b2..0000000 --- a/target/doc/regex_syntax/hir/translate/index.html +++ /dev/null @@ -1,6 +0,0 @@ -regex_syntax::hir::translate - Rust

[][src]Module regex_syntax::hir::translate

Defines a translator that converts an Ast to an Hir.

-

Structs

-
Translator

A translator maps abstract syntax to a high level intermediate -representation.

-
TranslatorBuilder

A builder for constructing an AST->HIR translator.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/translate/sidebar-items.js b/target/doc/regex_syntax/hir/translate/sidebar-items.js deleted file mode 100644 index dedca84..0000000 --- a/target/doc/regex_syntax/hir/translate/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["Translator","A translator maps abstract syntax to a high level intermediate representation."],["TranslatorBuilder","A builder for constructing an AST->HIR translator."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/hir/translate/struct.Translator.html b/target/doc/regex_syntax/hir/translate/struct.Translator.html deleted file mode 100644 index 6bbeaef..0000000 --- a/target/doc/regex_syntax/hir/translate/struct.Translator.html +++ /dev/null @@ -1,31 +0,0 @@ -regex_syntax::hir::translate::Translator - Rust

[][src]Struct regex_syntax::hir::translate::Translator

pub struct Translator { /* fields omitted */ }

A translator maps abstract syntax to a high level intermediate -representation.

-

A translator may be benefit from reuse. That is, a translator can translate -many abstract syntax trees.

-

A Translator can be configured in more detail via a -TranslatorBuilder.

-

Methods

impl Translator[src]

pub fn new() -> Translator[src]

Create a new translator using the default configuration.

-

pub fn translate(&mut self, pattern: &str, ast: &Ast) -> Result<Hir, Error>[src]

Translate the given abstract syntax tree (AST) into a high level -intermediate representation (HIR).

-

If there was a problem doing the translation, then an HIR-specific -error is returned.

-

The original pattern string used to produce the Ast must also be -provided. The translator does not use the pattern string during any -correct translation, but is used for error reporting.

-

Trait Implementations

impl Clone for Translator[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for Translator[src]

Auto Trait Implementations

impl Send for Translator

impl !Sync for Translator

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/translate/struct.TranslatorBuilder.html b/target/doc/regex_syntax/hir/translate/struct.TranslatorBuilder.html deleted file mode 100644 index 0a2feb8..0000000 --- a/target/doc/regex_syntax/hir/translate/struct.TranslatorBuilder.html +++ /dev/null @@ -1,36 +0,0 @@ -regex_syntax::hir::translate::TranslatorBuilder - Rust

[][src]Struct regex_syntax::hir::translate::TranslatorBuilder

pub struct TranslatorBuilder { /* fields omitted */ }

A builder for constructing an AST->HIR translator.

-

Methods

impl TranslatorBuilder[src]

pub fn new() -> TranslatorBuilder[src]

Create a new translator builder with a default c onfiguration.

-

pub fn build(&self) -> Translator[src]

Build a translator using the current configuration.

-

pub fn allow_invalid_utf8(&mut self, yes: bool) -> &mut TranslatorBuilder[src]

When enabled, translation will permit the construction of a regular -expression that may match invalid UTF-8.

-

When disabled (the default), the translator is guaranteed to produce -an expression that will only ever match valid UTF-8 (otherwise, the -translator will return an error).

-

Perhaps surprisingly, when invalid UTF-8 isn't allowed, a negated ASCII -word boundary (uttered as (?-u:\B) in the concrete syntax) will cause -the parser to return an error. Namely, a negated ASCII word boundary -can result in matching positions that aren't valid UTF-8 boundaries.

-

pub fn case_insensitive(&mut self, yes: bool) -> &mut TranslatorBuilder[src]

Enable or disable the case insensitive flag (i) by default.

-

pub fn multi_line(&mut self, yes: bool) -> &mut TranslatorBuilder[src]

Enable or disable the multi-line matching flag (m) by default.

-

pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut TranslatorBuilder[src]

Enable or disable the "dot matches any character" flag (s) by -default.

-

pub fn swap_greed(&mut self, yes: bool) -> &mut TranslatorBuilder[src]

Enable or disable the "swap greed" flag (U) by default.

-

pub fn unicode(&mut self, yes: bool) -> &mut TranslatorBuilder[src]

Enable or disable the Unicode flag (u) by default.

-

Trait Implementations

impl Clone for TranslatorBuilder[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for TranslatorBuilder[src]

impl Debug for TranslatorBuilder[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/hir/visitor/fn.visit.html b/target/doc/regex_syntax/hir/visitor/fn.visit.html deleted file mode 100644 index 92be9c1..0000000 --- a/target/doc/regex_syntax/hir/visitor/fn.visit.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../regex_syntax/hir/fn.visit.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/hir/visitor/trait.Visitor.html b/target/doc/regex_syntax/hir/visitor/trait.Visitor.html deleted file mode 100644 index c8f8499..0000000 --- a/target/doc/regex_syntax/hir/visitor/trait.Visitor.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../../regex_syntax/hir/trait.Visitor.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/index.html b/target/doc/regex_syntax/index.html deleted file mode 100644 index 3d5d960..0000000 --- a/target/doc/regex_syntax/index.html +++ /dev/null @@ -1,93 +0,0 @@ -regex_syntax - Rust

[][src]Crate regex_syntax

This crate provides a robust regular expression parser.

-

This crate defines two primary types:

-
    -
  • Ast is the abstract syntax of a regular expression. -An abstract syntax corresponds to a structured representation of the -concrete syntax of a regular expression, where the concrete syntax is the -pattern string itself (e.g., foo(bar)+). Given some abstract syntax, it -can be converted back to the original concrete syntax (modulo some details, -like whitespace). To a first approximation, the abstract syntax is complex -and difficult to analyze.
  • -
  • Hir is the high-level intermediate representation -("HIR" or "high-level IR" for short) of regular expression. It corresponds to -an intermediate state of a regular expression that sits between the abstract -syntax and the low level compiled opcodes that are eventually responsible for -executing a regular expression search. Given some high-level IR, it is not -possible to produce the original concrete syntax (although it is possible to -produce an equivalent concrete syntax, but it will likely scarcely resemble -the original pattern). To a first approximation, the high-level IR is simple -and easy to analyze.
  • -
-

These two types come with conversion routines:

- -

As a convenience, the above two conversion routines are combined into one via -the top-level Parser type. This Parser will first -convert your pattern to an Ast and then convert the Ast to an Hir.

-

Example

-

This example shows how to parse a pattern string into its HIR:

- -
-use regex_syntax::Parser;
-use regex_syntax::hir::{self, Hir};
-
-let hir = Parser::new().parse("a|b").unwrap();
-assert_eq!(hir, Hir::alternation(vec![
-    Hir::literal(hir::Literal::Unicode('a')),
-    Hir::literal(hir::Literal::Unicode('b')),
-]));
-

Concrete syntax supported

-

The concrete syntax is documented as part of the public API of the -regex crate.

-

Input safety

-

A key feature of this library is that it is safe to use with end user facing -input. This plays a significant role in the internal implementation. In -particular:

-
    -
  1. Parsers provide a nest_limit option that permits callers to control how -deeply nested a regular expression is allowed to be. This makes it possible -to do case analysis over an Ast or an Hir using recursion without -worrying about stack overflow.
  2. -
  3. Since relying on a particular stack size is brittle, this crate goes to -great lengths to ensure that all interactions with both the Ast and the -Hir do not use recursion. Namely, they use constant stack space and heap -space proportional to the size of the original pattern string (in bytes). -This includes the type's corresponding destructors. (One exception to this -is literal extraction, but this will eventually get fixed.)
  4. -
-

Error reporting

-

The Display implementations on all Error types exposed in this library -provide nice human readable errors that are suitable for showing to end users -in a monospace font.

-

Literal extraction

-

This crate provides limited support for -literal extraction from Hir values. -Be warned that literal extraction currently uses recursion, and therefore, -stack size proportional to the size of the Hir.

-

The purpose of literal extraction is to speed up searches. That is, if you -know a regular expression must match a prefix or suffix literal, then it is -often quicker to search for instances of that literal, and then confirm or deny -the match using the full regular expression engine. These optimizations are -done automatically in the regex crate.

-

Modules

-
ast

Defines an abstract syntax for regular expressions.

-
hir

Defines a high-level intermediate representation for regular expressions.

-

Structs

-
Parser

A convenience parser for regular expressions.

-
ParserBuilder

A builder for a regular expression parser.

-

Enums

-
Error

This error type encompasses any error that can be returned by this crate.

-

Functions

-
escape

Escapes all regular expression meta characters in text.

-
escape_into

Escapes all meta characters in text and writes the result into buf.

-
is_meta_character

Returns true if the give character has significance in a regex.

-
is_word_byte

Returns true if and only if the given character is an ASCII word character.

-
is_word_character

Returns true if and only if the given character is a Unicode word -character.

-

Type Definitions

-
Result

A type alias for dealing with errors returned by this crate.

-
\ No newline at end of file diff --git a/target/doc/regex_syntax/parser/struct.Parser.html b/target/doc/regex_syntax/parser/struct.Parser.html deleted file mode 100644 index aa4290e..0000000 --- a/target/doc/regex_syntax/parser/struct.Parser.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../regex_syntax/struct.Parser.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/parser/struct.ParserBuilder.html b/target/doc/regex_syntax/parser/struct.ParserBuilder.html deleted file mode 100644 index 85622b6..0000000 --- a/target/doc/regex_syntax/parser/struct.ParserBuilder.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../regex_syntax/struct.ParserBuilder.html...

- - - \ No newline at end of file diff --git a/target/doc/regex_syntax/sidebar-items.js b/target/doc/regex_syntax/sidebar-items.js deleted file mode 100644 index 655a02a..0000000 --- a/target/doc/regex_syntax/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["Error","This error type encompasses any error that can be returned by this crate."]],"fn":[["escape","Escapes all regular expression meta characters in `text`."],["escape_into","Escapes all meta characters in `text` and writes the result into `buf`."],["is_meta_character","Returns true if the give character has significance in a regex."],["is_word_byte","Returns true if and only if the given character is an ASCII word character."],["is_word_character","Returns true if and only if the given character is a Unicode word character."]],"mod":[["ast","Defines an abstract syntax for regular expressions."],["hir","Defines a high-level intermediate representation for regular expressions."]],"struct":[["Parser","A convenience parser for regular expressions."],["ParserBuilder","A builder for a regular expression parser."]],"type":[["Result","A type alias for dealing with errors returned by this crate."]]}); \ No newline at end of file diff --git a/target/doc/regex_syntax/struct.Parser.html b/target/doc/regex_syntax/struct.Parser.html deleted file mode 100644 index f6554dd..0000000 --- a/target/doc/regex_syntax/struct.Parser.html +++ /dev/null @@ -1,36 +0,0 @@ -regex_syntax::Parser - Rust

[][src]Struct regex_syntax::Parser

pub struct Parser { /* fields omitted */ }

A convenience parser for regular expressions.

-

This parser takes as input a regular expression pattern string (the -"concrete syntax") and returns a high-level intermediate representation -(the HIR) suitable for most types of analysis. In particular, this parser -hides the intermediate state of producing an AST (the "abstract syntax"). -The AST is itself far more complex than the HIR, so this parser serves as a -convenience for never having to deal with it at all.

-

If callers have more fine grained use cases that need an AST, then please -see the ast::parse module.

-

A Parser can be configured in more detail via a -ParserBuilder.

-

Methods

impl Parser[src]

pub fn new() -> Parser[src]

Create a new parser with a default configuration.

-

The parser can be run with parse method. The parse method returns -a high level intermediate representation of the given regular -expression.

-

To set configuration options on the parser, use -ParserBuilder.

-

pub fn parse(&mut self, pattern: &str) -> Result<Hir>[src]

Parse the regular expression into a high level intermediate -representation.

-

Trait Implementations

impl Clone for Parser[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Debug for Parser[src]

Auto Trait Implementations

impl Send for Parser

impl !Sync for Parser

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/struct.ParserBuilder.html b/target/doc/regex_syntax/struct.ParserBuilder.html deleted file mode 100644 index 561403b..0000000 --- a/target/doc/regex_syntax/struct.ParserBuilder.html +++ /dev/null @@ -1,92 +0,0 @@ -regex_syntax::ParserBuilder - Rust

[][src]Struct regex_syntax::ParserBuilder

pub struct ParserBuilder { /* fields omitted */ }

A builder for a regular expression parser.

-

This builder permits modifying configuration options for the parser.

-

This type combines the builder options for both the -AST ParserBuilder -and the -HIR TranslatorBuilder.

-

Methods

impl ParserBuilder[src]

pub fn new() -> ParserBuilder[src]

Create a new parser builder with a default configuration.

-

pub fn build(&self) -> Parser[src]

Build a parser from this configuration with the given pattern.

-

pub fn nest_limit(&mut self, limit: u32) -> &mut ParserBuilder[src]

Set the nesting limit for this parser.

-

The nesting limit controls how deep the abstract syntax tree is allowed -to be. If the AST exceeds the given limit (e.g., with too many nested -groups), then an error is returned by the parser.

-

The purpose of this limit is to act as a heuristic to prevent stack -overflow for consumers that do structural induction on an Ast using -explicit recursion. While this crate never does this (instead using -constant stack space and moving the call stack to the heap), other -crates may.

-

This limit is not checked until the entire Ast is parsed. Therefore, -if callers want to put a limit on the amount of heap space used, then -they should impose a limit on the length, in bytes, of the concrete -pattern string. In particular, this is viable since this parser -implementation will limit itself to heap space proportional to the -lenth of the pattern string.

-

Note that a nest limit of 0 will return a nest limit error for most -patterns but not all. For example, a nest limit of 0 permits a but -not ab, since ab requires a concatenation, which results in a nest -depth of 1. In general, a nest limit is not something that manifests -in an obvious way in the concrete syntax, therefore, it should not be -used in a granular way.

-

pub fn octal(&mut self, yes: bool) -> &mut ParserBuilder[src]

Whether to support octal syntax or not.

-

Octal syntax is a little-known way of uttering Unicode codepoints in -a regular expression. For example, a, \x61, \u0061 and -\141 are all equivalent regular expressions, where the last example -shows octal syntax.

-

While supporting octal syntax isn't in and of itself a problem, it does -make good error messages harder. That is, in PCRE based regex engines, -syntax like \0 invokes a backreference, which is explicitly -unsupported in Rust's regex engine. However, many users expect it to -be supported. Therefore, when octal support is disabled, the error -message will explicitly mention that backreferences aren't supported.

-

Octal syntax is disabled by default.

-

pub fn allow_invalid_utf8(&mut self, yes: bool) -> &mut ParserBuilder[src]

When enabled, the parser will permit the construction of a regular -expression that may match invalid UTF-8.

-

When disabled (the default), the parser is guaranteed to produce -an expression that will only ever match valid UTF-8 (otherwise, the -parser will return an error).

-

Perhaps surprisingly, when invalid UTF-8 isn't allowed, a negated ASCII -word boundary (uttered as (?-u:\B) in the concrete syntax) will cause -the parser to return an error. Namely, a negated ASCII word boundary -can result in matching positions that aren't valid UTF-8 boundaries.

-

pub fn ignore_whitespace(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable verbose mode in the regular expression.

-

When enabled, verbose mode permits insigificant whitespace in many -places in the regular expression, as well as comments. Comments are -started using # and continue until the end of the line.

-

By default, this is disabled. It may be selectively enabled in the -regular expression by using the x flag regardless of this setting.

-

pub fn case_insensitive(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable or disable the case insensitive flag by default.

-

By default this is disabled. It may alternatively be selectively -enabled in the regular expression itself via the i flag.

-

pub fn multi_line(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable or disable the multi-line matching flag by default.

-

By default this is disabled. It may alternatively be selectively -enabled in the regular expression itself via the m flag.

-

pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable or disable the "dot matches any character" flag by default.

-

By default this is disabled. It may alternatively be selectively -enabled in the regular expression itself via the s flag.

-

pub fn swap_greed(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable or disable the "swap greed" flag by default.

-

By default this is disabled. It may alternatively be selectively -enabled in the regular expression itself via the U flag.

-

pub fn unicode(&mut self, yes: bool) -> &mut ParserBuilder[src]

Enable or disable the Unicode flag (u) by default.

-

By default this is enabled. It may alternatively be selectively -disabled in the regular expression itself via the u flag.

-

Note that unless allow_invalid_utf8 is enabled (it's disabled by -default), a regular expression will fail to parse if Unicode mode is -disabled and a sub-expression could possibly match invalid UTF-8.

-

Trait Implementations

impl Clone for ParserBuilder[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Default for ParserBuilder[src]

impl Debug for ParserBuilder[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/regex_syntax/type.Result.html b/target/doc/regex_syntax/type.Result.html deleted file mode 100644 index 318f46f..0000000 --- a/target/doc/regex_syntax/type.Result.html +++ /dev/null @@ -1,2 +0,0 @@ -regex_syntax::Result - Rust

[][src]Type Definition regex_syntax::Result

type Result<T> = Result<T, Error>;

A type alias for dealing with errors returned by this crate.

-
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The PRNG algorithm in `StdRng` is chosen…",N,N],[3,R[359],E,"The type returned by [`thread_rng`], essentially just a…",N,N],[3,"OsRng",E,"A random number generator that retrieves randomness from…",N,N],[0,"adapter",E,"Wrappers / adapters forming RNGs",N,N],[3,"ReadRng",R[321],"An RNG that reads random bytes straight from any type…",N,N],[3,R[360],E,"`ReadRng` error type",N,N],[3,R[347],E,"A wrapper around any PRNG that implements…",N,N],[11,"new",E,"Create a new `ReadRng` from a `Read`.",30,[[["r"]],["readrng"]]],[11,"new",E,"Create a new `ReseedingRng` from an existing PRNG,…",31,[[["rsdr"],["u64"],["r"]],["self"]]],[11,"reseed",E,"Reseed the internal PRNG.",31,[[["self"]],[[R[15],["error"]],["error"]]]],[11,"new",R[314],"Create a new `EntropyRng`.",32,[[],["self"]]],[0,"mock",E,"Mock random number generator",N,N],[3,"StepRng",R[322],"A simple implementation of `RngCore` for testing purposes.",N,N],[11,"new",E,"Create a `StepRng`, yielding an arithmetic sequence…",33,[[["u64"]],["self"]]],[11,"new",R[314],"Create a new `OsRng`.",34,[[],[["osrng"],["error"],[R[15],["osrng","error"]]]]],[0,"seq","rand","Sequence-related functionality",N,N],[3,R[361],R[315],"An iterator over multiple slice elements.",N,N],[0,"index",E,"Low-level API for sampling indices",N,N],[4,"IndexVec",R[323],"A vector of indices.",N,N],[4,R[362],E,"Return type of `IndexVec::iter`.",N,N],[4,R[363],E,"Return type of `IndexVec::into_iter`.",N,N],[5,"sample",E,"Randomly sample exactly `amount` distinct indices from…",N,[[["r"],["usize"]],[R[332]]]],[11,"len",E,"Returns the number of indices",35,[[["self"]],["usize"]]],[11,"index",E,"Return the value at the given `index`.",35,[[["self"],["usize"]],["usize"]]],[11,"into_vec",E,"Return result as a `Vec`. 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of…",36,[[["self"],["r"],["f"]],[[R[15],[R[310]]],[R[310]]]]],[10,"shuffle",E,"Shuffle a mutable slice in place.",36,[[["self"],["r"]]]],[10,"partial_shuffle",E,"Shuffle a slice in place, but exit early.",36,[[["self"],["r"],["usize"]]]],[8,R[350],E,"Extension trait on iterators, providing random sampling…",N,N],[11,"choose",E,"Choose one element at random from the iterator.",37,[[["r"]],[R[3]]]],[11,"choose_multiple_fill",E,"Collects values at random from the iterator into a…",37,[[["r"]],["usize"]]],[11,R[316],E,"Collects `amount` values at random from the iterator into…",37,[[["r"],["usize"]],["vec"]]],[8,"Rng","rand","An automatically-implemented extension trait on…",N,N],[11,"gen",E,"Return a random value supporting the [`Standard`]…",38,[[["self"]],[T]]],[11,"gen_range",E,"Generate a random value in the range [`low`, `high`), i.e.…",38,[[["self"],["b1"],["b2"]],["sampleuniform"]]],[11,"sample",E,"Sample a new value, using the given 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-searchIndex["regex_syntax"]={"doc":"This crate provides a robust regular expression parser.","i":[[3,"Parser",R[154],"A convenience parser for regular expressions.",N,N],[3,R[145],E,R[146],N,N],[4,"Error",E,"This error type encompasses any error that can be returned…",N,N],[13,"Parse",E,"An error that occurred while translating concrete syntax…",0,N],[13,"Translate",E,"An error that occurred while translating abstract syntax…",0,N],[5,"escape",E,R[499],N,[[["str"]],[R[2]]]],[5,"escape_into",E,"Escapes all meta characters in `text` and writes the…",N,[[[R[2]],["str"]]]],[5,"is_meta_character",E,"Returns true if the give character has significance in a…",N,[[["char"]],["bool"]]],[5,"is_word_character",E,"Returns true if and only if the given character is a…",N,[[["char"]],["bool"]]],[5,"is_word_byte",E,"Returns true if and only if the given character is an…",N,[[["u8"]],["bool"]]],[0,"ast",E,"Defines an abstract syntax for regular expressions.",N,N],[3,"Error",R[130],"An error that occurred while parsing a regular expression…",N,N],[3,"Span",E,"Span represents the position information of a single AST…",N,N],[12,"start",E,"The start byte offset.",1,N],[12,"end",E,"The end byte offset.",1,N],[3,"Position",E,"A single position in a regular expression.",N,N],[12,"offset",E,"The absolute offset of this position, starting at `0` from…",2,N],[12,"line",E,"The line number, starting at `1`.",2,N],[12,"column",E,"The approximate column number, starting at `1`.",2,N],[3,R[274],E,"An abstract syntax tree for a singular expression along…",N,N],[12,"ast",E,"The actual ast.",3,N],[12,"comments",E,"All comments found in the original regular expression.",3,N],[3,"Comment",E,"A comment from a regular expression with an associated span.",N,N],[12,"span",E,"The span of this comment, including the beginning `#` and…",4,N],[12,"comment",E,"The comment text, starting with the first character…",4,N],[3,R[137],E,R[138],N,N],[12,"span",E,"The span of this alternation.",5,N],[12,"asts",E,"The alternate regular expressions.",5,N],[3,"Concat",E,R[139],N,N],[12,"span",E,"The span of this concatenation.",6,N],[12,"asts",E,"The concatenation regular expressions.",6,N],[3,R[172],E,"A single literal expression.",N,N],[12,"span",E,"The span of this literal.",7,N],[12,"kind",E,"The kind of this literal.",7,N],[12,"c",E,"The Unicode scalar value corresponding to this literal.",7,N],[3,R[275],E,"A Perl character class.",N,N],[12,"span",E,R[129],8,N],[12,"kind",E,"The kind of Perl class.",8,N],[12,"negated",E,"Whether the class is negated or not. e.g., `\\d` is not…",8,N],[3,R[276],E,"An ASCII character class.",N,N],[12,"span",E,R[129],9,N],[12,"kind",E,"The kind of ASCII class.",9,N],[12,"negated",E,"Whether the class is negated or not. e.g., `[[:alpha:]]`…",9,N],[3,R[155],E,"A Unicode character class.",N,N],[12,"span",E,R[129],10,N],[12,"negated",E,"Whether this class is negated or not.",10,N],[12,"kind",E,"The kind of Unicode class.",10,N],[3,R[277],E,"A bracketed character class, e.g., `[a-z0-9]`.",N,N],[12,"span",E,R[129],11,N],[12,"negated",E,"Whether this class is negated or not. e.g., `[a]` is not…",11,N],[12,"kind",E,"The type of this set. A set is either a normal union of…",11,N],[3,R[278],E,"A single character class range in a set.",N,N],[12,"span",E,"The span of this range.",12,N],[12,"start",E,"The start of this range.",12,N],[12,"end",E,"The end of this range.",12,N],[3,R[279],E,"A union of items inside a character class set.",N,N],[12,"span",E,"The span of the items in this operation. e.g., the…",13,N],[12,"items",E,"The sequence of items that make up this union.",13,N],[3,R[280],E,"A Unicode character class set operation.",N,N],[12,"span",E,"The span of this operation. e.g., the `a-z--[h-p]` in…",14,N],[12,"kind",E,"The type of this set operation.",14,N],[12,"lhs",E,"The left hand side of the operation.",14,N],[12,"rhs",E,"The right hand side of the operation.",14,N],[3,R[133],E,R[134],N,N],[12,"span",E,"The span of this assertion.",15,N],[12,"kind",E,"The assertion kind, e.g., `\\b` or `^`.",15,N],[3,R[135],E,"A repetition operation applied to a regular expression.",N,N],[12,"span",E,"The span of this operation.",16,N],[12,"op",E,"The actual operation.",16,N],[12,"greedy",E,"Whether this operation was applied greedily or not.",16,N],[12,"ast",E,"The regular expression under repetition.",16,N],[3,R[281],E,"The repetition operator itself.",N,N],[12,"span",E,"The span of this operator. This includes things like `+`,…",17,N],[12,"kind",E,"The type of operation.",17,N],[3,"Group",E,R[136],N,N],[12,"span",E,"The span of this group.",18,N],[12,"kind",E,"The kind of this group.",18,N],[12,"ast",E,"The regular expression in this group.",18,N],[3,R[144],E,"A capture name.",N,N],[12,"span",E,"The span of this capture name.",19,N],[12,"name",E,"The capture name.",19,N],[12,"index",E,"The capture index.",19,N],[3,"SetFlags",E,"A group of flags that is not applied to a particular…",N,N],[12,"span",E,"The span of these flags, including the grouping parentheses.",20,N],[12,"flags",E,"The actual sequence of flags.",20,N],[3,"Flags",E,"A group of flags.",N,N],[12,"span",E,"The span of this group of flags.",21,N],[12,"items",E,"A sequence of flag items. Each item is either a flag or a…",21,N],[3,R[282],E,"A single item in a group of flags.",N,N],[12,"span",E,"The span of this item.",22,N],[12,"kind",E,"The kind of this item.",22,N],[4,R[106],E,"The type of an error that occurred while building an AST.",N,N],[13,"CaptureLimitExceeded",E,"The capturing group limit was exceeded.",23,N],[13,"ClassEscapeInvalid",E,"An invalid escape sequence was found in a character class…",23,N],[13,"ClassRangeInvalid",E,"An invalid character class range was found. An invalid…",23,N],[13,"ClassRangeLiteral",E,"An invalid range boundary was found in a character class.…",23,N],[13,"ClassUnclosed",E,"An opening `[` was found with no corresponding closing `]`.",23,N],[13,"DecimalEmpty",E,"Note that this error variant is no longer used. Namely, a…",23,N],[13,"DecimalInvalid",E,"An invalid decimal number was given where one was expected.",23,N],[13,"EscapeHexEmpty",E,"A bracketed hex literal was empty.",23,N],[13,"EscapeHexInvalid",E,"A bracketed hex literal did not correspond to a Unicode…",23,N],[13,"EscapeHexInvalidDigit",E,"An invalid hexadecimal digit was found.",23,N],[13,"EscapeUnexpectedEof",E,"EOF was found before an escape sequence was completed.",23,N],[13,"EscapeUnrecognized",E,"An unrecognized escape sequence.",23,N],[13,"FlagDanglingNegation",E,"A dangling negation was used when setting flags, e.g., `i-`.",23,N],[13,"FlagDuplicate",E,"A flag was used twice, e.g., `i-i`.",23,N],[12,R[132],R[131],"The position of the original flag. The error position…",23,N],[13,"FlagRepeatedNegation",R[130],"The negation operator was used twice, e.g., `-i-s`.",23,N],[12,R[132],R[131],"The position of the original negation operator. The error…",23,N],[13,"FlagUnexpectedEof",R[130],"Expected a flag but got EOF, e.g., `(?`.",23,N],[13,"FlagUnrecognized",E,"Unrecognized flag, e.g., `a`.",23,N],[13,"GroupNameDuplicate",E,"A duplicate capture name was found.",23,N],[12,R[132],R[131],"The position of the initial occurrence of the capture…",23,N],[13,"GroupNameEmpty",R[130],"A capture group name is empty, e.g., `(?P<>abc)`.",23,N],[13,"GroupNameInvalid",E,"An invalid character was seen for a capture group name.…",23,N],[13,"GroupNameUnexpectedEof",E,"A closing `>` could not be found for a capture group name.",23,N],[13,"GroupUnclosed",E,"An unclosed group, e.g., `(ab`.",23,N],[13,"GroupUnopened",E,"An unopened group, e.g., `ab)`.",23,N],[13,"NestLimitExceeded",E,"The nest limit was exceeded. The limit stored here is the…",23,N],[13,"RepetitionCountInvalid",E,"The range provided in a counted repetition operator is…",23,N],[13,"RepetitionCountDecimalEmpty",E,"An opening `{` was not followed by a valid decimal value.…",23,N],[13,"RepetitionCountUnclosed",E,"An opening `{` was found with no corresponding closing `}`.",23,N],[13,"RepetitionMissing",E,"A repetition operator was applied to a missing…",23,N],[13,"UnsupportedBackreference",E,"When octal support is disabled, this error is produced…",23,N],[13,"UnsupportedLookAround",E,"When syntax similar to PCRE's look-around is used, this…",23,N],[4,"Ast",E,"An abstract syntax tree for a single regular expression.",N,N],[13,"Empty",E,"An empty regex that matches everything.",24,N],[13,"Flags",E,"A set of flags, e.g., `(?is)`.",24,N],[13,R[172],E,"A single character literal, which includes escape sequences.",24,N],[13,"Dot",E,"The \"any character\" class.",24,N],[13,R[133],E,R[134],24,N],[13,"Class",E,"A single character class. This includes all forms of…",24,N],[13,R[135],E,"A repetition operator applied to an arbitrary regular…",24,N],[13,"Group",E,R[136],24,N],[13,R[137],E,R[138],24,N],[13,"Concat",E,R[139],24,N],[4,R[283],E,"The kind of a single literal expression.",N,N],[13,"Verbatim",E,"The literal is written verbatim, e.g., `a` or `☃`.",25,N],[13,"Punctuation",E,"The literal is written as an escape because it is…",25,N],[13,"Octal",E,"The literal is written as an octal escape, e.g., `\\141`.",25,N],[13,"HexFixed",E,"The literal is written as a hex code with a fixed number…",25,N],[13,"HexBrace",E,"The literal is written as a hex code with a bracketed…",25,N],[13,"Special",E,"The literal is written as a specially recognized escape,…",25,N],[4,R[284],E,"The type of a special literal.",N,N],[13,"Bell",E,"Bell, spelled `\\a` (`\\x07`).",26,N],[13,"FormFeed",E,"Form feed, spelled `\\f` (`\\x0C`).",26,N],[13,"Tab",E,"Tab, spelled `\\t` (`\\x09`).",26,N],[13,"LineFeed",E,"Line feed, spelled `\\n` (`\\x0A`).",26,N],[13,"CarriageReturn",E,"Carriage return, spelled `\\r` (`\\x0D`).",26,N],[13,"VerticalTab",E,"Vertical tab, spelled `\\v` (`\\x0B`).",26,N],[13,"Space",E,"Space, spelled `\\ ` (`\\x20`). Note that this can only…",26,N],[4,R[285],E,"The type of a Unicode hex literal.",N,N],[13,"X",E,"A `\\x` prefix. When used without brackets, this form is…",27,N],[13,"UnicodeShort",E,"A `\\u` prefix. When used without brackets, this form is…",27,N],[13,"UnicodeLong",E,"A `\\U` prefix. When used without brackets, this form is…",27,N],[4,"Class",E,"A single character class expression.",N,N],[13,R[160],E,R[140],28,N],[13,"Perl",E,R[141],28,N],[13,R[142],E,R[143],28,N],[4,R[286],E,"The available Perl character classes.",N,N],[13,"Digit",E,"Decimal numbers.",29,N],[13,"Space",E,"Whitespace.",29,N],[13,"Word",E,"Word characters.",29,N],[4,R[287],E,"The available ASCII character classes.",N,N],[13,"Alnum",E,"`[0-9A-Za-z]`",30,N],[13,"Alpha",E,"`[A-Za-z]`",30,N],[13,"Ascii",E,"`[\\x00-\\x7F]`",30,N],[13,"Blank",E,"`[ \\t]`",30,N],[13,"Cntrl",E,"`[\\x00-\\x1F\\x7F]`",30,N],[13,"Digit",E,"`[0-9]`",30,N],[13,"Graph",E,"`[!-~]`",30,N],[13,"Lower",E,"`[a-z]`",30,N],[13,"Print",E,"`[ -~]`",30,N],[13,"Punct",E,"`[!-/:-@\\[-`{-~]`",30,N],[13,"Space",E,"`[\\t\\n\\v\\f\\r ]`",30,N],[13,"Upper",E,"`[A-Z]`",30,N],[13,"Word",E,"`[0-9A-Za-z_]`",30,N],[13,"Xdigit",E,"`[0-9A-Fa-f]`",30,N],[4,R[288],E,"The available forms of Unicode character classes.",N,N],[13,"OneLetter",E,"A one letter abbreviated class, e.g., `\\pN`.",31,N],[13,"Named",E,"A binary property, general category or script. The string…",31,N],[13,"NamedValue",E,"A property name and an associated value.",31,N],[12,"op","regex_syntax::ast::ClassUnicodeKind","The type of Unicode op used to associate `name` with…",31,N],[12,"name",E,"The property name (which may be empty).",31,N],[12,"value",E,"The property value (which may be empty).",31,N],[4,R[289],R[130],"The type of op used in a Unicode character class.",N,N],[13,"Equal",E,"A property set to a specific value, e.g.,…",32,N],[13,"Colon",E,"A property set to a specific value using a colon, e.g.,…",32,N],[13,"NotEqual",E,"A property that isn't a particular value, e.g.,…",32,N],[4,"ClassSet",E,"A character class set.",N,N],[13,"Item",E,"An item, which can be a single literal, range, nested…",33,N],[13,"BinaryOp",E,"A single binary operation (i.e., &&, -- or ~~).",33,N],[4,R[290],E,"A single component of a character class set.",N,N],[13,"Empty",E,"An empty item.",34,N],[13,R[172],E,"A single literal.",34,N],[13,"Range",E,"A range between two literals.",34,N],[13,"Ascii",E,"An ASCII character class, e.g., `[:alnum:]` or `[:punct:]`.",34,N],[13,R[160],E,R[140],34,N],[13,"Perl",E,R[141],34,N],[13,R[142],E,R[143],34,N],[13,"Union",E,"A union of items.",34,N],[4,R[291],E,"The type of a Unicode character class set operation.",N,N],[13,"Intersection",E,"The intersection of two sets, e.g., `\\pN&&[a-z]`.",35,N],[13,"Difference",E,"The difference of two sets, e.g., `\\pN--[0-9]`.",35,N],[13,"SymmetricDifference",E,"The symmetric difference of two sets. The symmetric…",35,N],[4,R[292],E,"An assertion kind.",N,N],[13,R[158],E,"`^`",36,N],[13,"EndLine",E,"`$`",36,N],[13,R[159],E,"`\\A`",36,N],[13,"EndText",E,"`\\z`",36,N],[13,R[156],E,"`\\b`",36,N],[13,"NotWordBoundary",E,"`\\B`",36,N],[4,R[165],E,R[166],N,N],[13,R[167],E,"`?`",37,N],[13,R[168],E,"`*`",37,N],[13,R[169],E,"`+`",37,N],[13,"Range",E,"`{m,n}`",37,N],[4,R[170],E,"A range repetition operator.",N,N],[13,"Exactly",E,"`{m}`",38,N],[13,"AtLeast",E,"`{m,}`",38,N],[13,"Bounded",E,"`{m,n}`",38,N],[4,R[161],E,"The kind of a group.",N,N],[13,R[162],E,"`(a)`",39,N],[13,R[144],E,"`(?Pa)`",39,N],[13,R[163],E,"`(?:a)` and `(?i:a)`",39,N],[4,R[293],E,"The kind of an item in a group of flags.",N,N],[13,"Negation",E,"A negation operator applied to all subsequent flags in the…",40,N],[13,"Flag",E,"A single flag in a group.",40,N],[4,"Flag",E,"A single flag.",N,N],[13,"CaseInsensitive",E,"`i`",41,N],[13,"MultiLine",E,"`m`",41,N],[13,"DotMatchesNewLine",E,"`s`",41,N],[13,"SwapGreed",E,"`U`",41,N],[13,R[160],E,"`u`",41,N],[13,"IgnoreWhitespace",E,"`x`",41,N],[5,"visit",E,R[171],N,[[["ast"],["visitor"]],[R[15]]]],[0,"parse",E,"This module provides a regular expression parser.",N,N],[3,R[145],R[223],R[146],N,N],[3,"Parser",E,"A regular expression parser.",N,N],[11,"new",E,R[209],42,[[],[R[147]]]],[11,"build",E,R[210],42,[[["self"]],["parser"]]],[11,R[211],E,R[212],42,[[["self"],["u32"]],[R[147]]]],[11,"octal",E,R[213],42,[[["self"],["bool"]],[R[147]]]],[11,R[215],E,R[216],42,[[["self"],["bool"]],[R[147]]]],[11,"new",E,R[222],43,[[],["parser"]]],[11,"parse",E,"Parse the regular expression into an abstract syntax tree.",43,[[["self"],["str"]],[["error"],[R[15],["ast","error"]],["ast"]]]],[11,"parse_with_comments",E,"Parse the regular expression and return an abstract syntax…",43,[[["self"],["str"]],[[R[15],[R[148],"error"]],[R[148]],["error"]]]],[0,"print",R[130],"This module provides a regular expression printer for `Ast`.",N,N],[3,"Printer",R[224],"A printer for a regular expression abstract syntax tree.",N,N],[11,"new",E,R[174],44,[[],["printer"]]],[11,"print",E,R[175],44,[[["self"],["ast"],["write"]],[R[15]]]],[8,"Visitor",R[130],"A trait for visiting an abstract syntax tree (AST) in…",N,N],[16,"Output",E,"The result of visiting an AST.",45,N],[16,"Err",E,"An error that visiting an AST might return.",45,N],[10,"finish",E,R[179],45,[[],[R[15]]]],[11,"start",E,R[256],45,[[["self"]]]],[11,R[180],E,R[257],45,[[["self"],["ast"]],[R[15]]]],[11,R[181],E,R[258],45,[[["self"],["ast"]],[R[15]]]],[11,R[182],E,R[259],45,[[["self"]],[R[15]]]],[11,R[260],E,R[261],45,[[["self"],[R[149]]],[R[15]]]],[11,R[262],E,R[263],45,[[["self"],[R[149]]],[R[15]]]],[11,R[264],E,R[265],45,[[["self"],[R[150]]],[R[15]]]],[11,R[266],E,R[267],45,[[["self"],[R[150]]],[R[15]]]],[11,R[268],E,R[269],45,[[["self"],[R[150]]],[R[15]]]],[11,"kind",E,R[183],46,[[["self"]],[R[104]]]],[11,"pattern",E,R[184],46,[[["self"]],["str"]]],[11,"span",E,R[185],46,[[["self"]],["span"]]],[11,"auxiliary_span",E,"Return an auxiliary span. This span exists only for some…",46,[[["self"]],[["span"],[R[3],["span"]]]]],[11,"new",E,"Create a new span with the given positions.",1,[[[R[151]]],["span"]]],[11,"splat",E,"Create a new span using the given position as the start…",1,[[[R[151]]],["span"]]],[11,"with_start",E,"Create a new span by replacing the starting the position…",1,[[[R[151]]],["span"]]],[11,"with_end",E,"Create a new span by replacing the ending the position…",1,[[[R[151]]],["span"]]],[11,"is_one_line",E,"Returns true if and only if this span occurs on a single…",1,[[["self"]],["bool"]]],[11,R[152],E,"Returns true if and only if this span is empty. That is,…",1,[[["self"]],["bool"]]],[11,"new",E,"Create a new position with the given information.",2,[[["usize"]],[R[151]]]],[11,"span",E,"Return the span of this abstract syntax tree.",24,[[["self"]],["span"]]],[11,R[152],E,"Return true if and only if this Ast is empty.",24,[[["self"]],["bool"]]],[11,"into_ast",E,"Return this alternation as an AST.",5,[[],["ast"]]],[11,"into_ast",E,"Return this concatenation as an AST.",6,[[],["ast"]]],[11,"byte",E,"If this literal was written as a `\\x` hex escape, then…",7,[[["self"]],[[R[3],["u8"]],["u8"]]]],[11,"digits",E,"The number of digits that must be used with this literal…",27,[[["self"]],["u32"]]],[11,"span",E,"Return the span of this character class.",28,[[["self"]],["span"]]],[11,"from_name",E,"Return the corresponding ClassAsciiKind variant for the…",30,[[["str"]],[[R[153]],[R[3],[R[153]]]]]],[11,R[207],E,"Returns true if this class has been negated.",10,[[["self"]],["bool"]]],[11,"is_equal",E,"Whether the op is an equality op or not.",32,[[["self"]],["bool"]]],[11,"union",E,"Build a set from a union.",33,[[[R[236]]],[R[234]]]],[11,"span",E,"Return the span of this character class set.",33,[[["self"]],["span"]]],[11,"span",E,"Return the span of this character class set item.",34,[[["self"]],["span"]]],[11,"is_valid",E,"Returns true if and only if this character class range is…",12,[[["self"]],["bool"]]],[11,"push",E,"Push a new item in this union.",13,[[["self"],[R[149]]]]],[11,"into_item",E,"Return this union as a character class set item.",13,[[],[R[149]]]],[11,"is_valid",E,"Returns true if and only if this repetition range is valid.",38,[[["self"]],["bool"]]],[11,"flags",E,"If this group is non-capturing, then this returns the…",18,[[["self"]],[["flags"],[R[3],["flags"]]]]],[11,"is_capturing",E,"Returns true if and only if this group is capturing.",18,[[["self"]],["bool"]]],[11,"capture_index",E,"Returns the capture index of this group, if this is a…",18,[[["self"]],[["u32"],[R[3],["u32"]]]]],[11,"add_item",E,"Add the given item to this sequence of flags.",21,[[["self"],[R[243]]],[[R[3],["usize"]],["usize"]]]],[11,"flag_state",E,"Returns the state of the given flag in this set.",21,[[["flag"],["self"]],[[R[3],["bool"]],["bool"]]]],[11,"is_negation",E,"Returns true if and only if this item is a negation…",40,[[["self"]],["bool"]]],[0,"hir",R[154],"Defines a high-level intermediate representation for…",N,N],[3,"Error",R[164],"An error that can occur while translating an `Ast` to a…",N,N],[3,"Hir",E,"A high-level intermediate representation (HIR) for a…",N,N],[3,R[155],E,R[157],N,N],[3,R[299],E,"An iterator over all ranges in a Unicode character class.",N,N],[3,R[296],E,"A single range of characters represented by Unicode scalar…",N,N],[3,R[297],E,"A set of characters represented by arbitrary bytes (where…",N,N],[3,R[300],E,"An iterator over all ranges in a byte character class.",N,N],[3,R[298],E,"A single range of characters represented by arbitrary bytes.",N,N],[3,"Group",E,"The high-level intermediate representation for a group.",N,N],[12,"kind",E,"The kind of this group. If it is a capturing group, then…",47,N],[12,"hir",E,"The expression inside the capturing group, which may be…",47,N],[3,R[135],E,"The high-level intermediate representation of a repetition…",N,N],[12,"kind",E,"The kind of this repetition operator.",48,N],[12,"greedy",E,"Whether this repetition operator is greedy or not. A…",48,N],[12,"hir",E,"The expression being repeated.",48,N],[4,R[106],E,"The type of an error that occurred while building an `Hir`.",N,N],[13,"UnicodeNotAllowed",E,"This error occurs when a Unicode feature is used when…",49,N],[13,"InvalidUtf8",E,"This error occurs when translating a pattern that could…",49,N],[13,"UnicodePropertyNotFound",E,"This occurs when an unrecognized Unicode property name…",49,N],[13,"UnicodePropertyValueNotFound",E,"This occurs when an unrecognized Unicode property value…",49,N],[13,"EmptyClassNotAllowed",E,"This occurs when the translator attempts to construct a…",49,N],[4,"HirKind",E,"The kind of an arbitrary `Hir` expression.",N,N],[13,"Empty",E,"The empty regular expression, which matches everything,…",50,N],[13,R[172],E,"A single literal character that matches exactly this…",50,N],[13,"Class",E,"A single character class that matches any of the…",50,N],[13,"Anchor",E,"An anchor assertion. An anchor assertion match always has…",50,N],[13,R[156],E,"A word boundary assertion, which may or may not be Unicode…",50,N],[13,R[135],E,"A repetition operation applied to a child expression.",50,N],[13,"Group",E,"A possibly capturing group, which contains a child…",50,N],[13,"Concat",E,"A concatenation of expressions. A concatenation always has…",50,N],[13,R[137],E,"An alternation of expressions. An alternation always has…",50,N],[4,R[172],E,"The high-level intermediate representation of a literal.",N,N],[13,R[160],E,"A single character represented by a Unicode scalar value.",51,N],[13,"Byte",E,"A single character represented by an arbitrary byte.",51,N],[4,"Class",E,"The high-level intermediate representation of a character…",N,N],[13,R[160],E,R[157],52,N],[13,"Bytes",E,"A set of characters represented by arbitrary bytes (one…",52,N],[4,"Anchor",E,"The high-level intermediate representation for an anchor…",N,N],[13,R[158],E,"Match the beginning of a line or the beginning of text.…",53,N],[13,"EndLine",E,"Match the end of a line or the end of text. Specifically,…",53,N],[13,R[159],E,"Match the beginning of text. Specifically, this matches at…",53,N],[13,"EndText",E,"Match the end of text. Specifically, this matches at the…",53,N],[4,R[156],E,"The high-level intermediate representation for a…",N,N],[13,R[160],E,"Match a Unicode-aware word boundary. That is, this matches…",54,N],[13,"UnicodeNegate",E,"Match a Unicode-aware negation of a word boundary.",54,N],[13,"Ascii",E,"Match an ASCII-only word boundary. That is, this matches a…",54,N],[13,"AsciiNegate",E,"Match an ASCII-only negation of a word boundary.",54,N],[4,R[161],E,"The kind of group.",N,N],[13,R[162],E,"A normal unnamed capturing group.",55,N],[13,R[144],E,"A named capturing group.",55,N],[12,"name","regex_syntax::hir::GroupKind","The name of the group.",55,N],[12,"index",E,"The capture index of the group.",55,N],[13,R[163],R[164],"A non-capturing group.",55,N],[4,R[165],E,R[166],N,N],[13,R[167],E,"Matches a sub-expression zero or one times.",56,N],[13,R[168],E,"Matches a sub-expression zero or more times.",56,N],[13,R[169],E,"Matches a sub-expression one or more times.",56,N],[13,"Range",E,"Matches a sub-expression within a bounded range of times.",56,N],[4,R[170],E,"The kind of a counted repetition operator.",N,N],[13,"Exactly",E,"Matches a sub-expression exactly this many times.",57,N],[13,"AtLeast",E,"Matches a sub-expression at least this many times.",57,N],[13,"Bounded",E,"Matches a sub-expression at least `m` times and at most…",57,N],[5,"visit",E,R[171],N,[[["hir"],["visitor"]],[R[15]]]],[0,R[186],E,"Provides routines for extracting literal prefixes and…",N,N],[3,"Literals",R[225],"A set of literal byte strings extracted from a regular…",N,N],[3,R[172],E,"A single member of a set of literals extracted from a…",N,N],[11,"empty",E,"Returns a new empty set of literals using default limits.",58,[[],[R[173]]]],[11,"prefixes",E,"Returns a set of literal prefixes extracted from the given…",58,[[["hir"]],[R[173]]]],[11,"suffixes",E,"Returns a set of literal suffixes extracted from the given…",58,[[["hir"]],[R[173]]]],[11,"limit_size",E,"Get the approximate size limit (in bytes) of this set.",58,[[["self"]],["usize"]]],[11,"set_limit_size",E,"Set the approximate size limit (in bytes) of this set.",58,[[["self"],["usize"]],[R[173]]]],[11,"limit_class",E,"Get the character class size limit for this set.",58,[[["self"]],["usize"]]],[11,"set_limit_class",E,"Limits the size of character(or byte) classes considered.",58,[[["self"],["usize"]],[R[173]]]],[11,R[173],E,"Returns the set of literals as a slice. Its order is…",58,[[["self"]]]],[11,"min_len",E,"Returns the length of the smallest literal.",58,[[["self"]],[[R[3],["usize"]],["usize"]]]],[11,"all_complete",E,"Returns true if all members in this set are complete.",58,[[["self"]],["bool"]]],[11,"any_complete",E,"Returns true if any member in this set is complete.",58,[[["self"]],["bool"]]],[11,"contains_empty",E,"Returns true if this set contains an empty literal.",58,[[["self"]],["bool"]]],[11,R[152],E,"Returns true if this set is empty or if all of its members…",58,[[["self"]],["bool"]]],[11,"to_empty",E,"Returns a new empty set of literals using this set's limits.",58,[[["self"]],[R[173]]]],[11,"longest_common_prefix",E,"Returns the longest common prefix of all members in this…",58,[[["self"]]]],[11,"longest_common_suffix",E,"Returns the longest common suffix of all members in this…",58,[[["self"]]]],[11,"trim_suffix",E,"Returns a new set of literals with the given number of…",58,[[["self"],["usize"]],[[R[173]],[R[3],[R[173]]]]]],[11,"unambiguous_prefixes",E,"Returns a new set of prefixes of this set of literals that…",58,[[["self"]],[R[173]]]],[11,"unambiguous_suffixes",E,"Returns a new set of suffixes of this set of literals that…",58,[[["self"]],[R[173]]]],[11,"union_prefixes",E,"Unions the prefixes from the given expression to this set.",58,[[["self"],["hir"]],["bool"]]],[11,"union_suffixes",E,"Unions the suffixes from the given expression to this set.",58,[[["self"],["hir"]],["bool"]]],[11,"union",E,"Unions this set with another set.",58,[[["self"],[R[173]]],["bool"]]],[11,"cross_product",E,"Extends this set with another set.",58,[[["self"],[R[173]]],["bool"]]],[11,"cross_add",E,"Extends each literal in this set with the bytes given.",58,[[["self"]],["bool"]]],[11,"add",E,"Adds the given literal to this set.",58,[[["self"],[R[186]]],["bool"]]],[11,"add_char_class",E,"Extends each literal in this set with the character class…",58,[[["self"],[R[191]]],["bool"]]],[11,"add_byte_class",E,"Extends each literal in this set with the byte class given.",58,[[["self"],[R[195]]],["bool"]]],[11,"cut",E,"Cuts every member of this set. When a member is cut, it…",58,[[["self"]]]],[11,"reverse",E,"Reverses all members in place.",58,[[["self"]]]],[11,"clear",E,"Clears this set of all members.",58,[[["self"]]]],[11,"new",E,"Returns a new complete literal with the bytes given.",59,[[["vec",["u8"]],["u8"]],[R[186]]]],[11,"empty",E,"Returns a new complete empty literal.",59,[[],[R[186]]]],[11,"is_cut",E,"Returns true if this literal was \"cut.\"",59,[[["self"]],["bool"]]],[11,"cut",E,"Cuts this literal.",59,[[["self"]]]],[0,"print",R[164],"This module provides a regular expression printer for `Hir`.",N,N],[3,"Printer",R[226],"A printer for a regular expression's high-level…",N,N],[11,"new",E,R[174],60,[[],["printer"]]],[11,"print",E,R[175],60,[[["self"],["hir"],["write"]],[R[15]]]],[0,R[178],R[164],"Defines a translator that converts an `Ast` to an `Hir`.",N,N],[3,R[294],R[227],"A builder for constructing an AST->HIR translator.",N,N],[3,R[295],E,"A translator maps abstract syntax to a high level…",N,N],[11,"new",E,"Create a new translator builder with a default c…",61,[[],[R[176]]]],[11,"build",E,"Build a translator using the current configuration.",61,[[["self"]],[R[177]]]],[11,R[214],E,"When enabled, translation will permit the construction of…",61,[[["self"],["bool"]],[R[176]]]],[11,R[217],E,"Enable or disable the case insensitive flag (`i`) by…",61,[[["self"],["bool"]],[R[176]]]],[11,R[218],E,"Enable or disable the multi-line matching flag (`m`) by…",61,[[["self"],["bool"]],[R[176]]]],[11,R[219],E,"Enable or disable the \"dot matches any character\" flag…",61,[[["self"],["bool"]],[R[176]]]],[11,R[220],E,"Enable or disable the \"swap greed\" flag (`U`) by default.",61,[[["self"],["bool"]],[R[176]]]],[11,R[500],E,R[221],61,[[["self"],["bool"]],[R[176]]]],[11,"new",E,"Create a new translator using the default configuration.",62,[[],[R[177]]]],[11,R[178],E,"Translate the given abstract syntax tree (AST) into a high…",62,[[["self"],["ast"],["str"]],[[R[15],["hir","error"]],["hir"],["error"]]]],[8,"Visitor",R[164],"A trait for visiting the high-level IR (HIR) in depth…",N,N],[16,"Output",E,"The result of visiting an HIR.",63,N],[16,"Err",E,"An error that visiting an HIR might return.",63,N],[10,"finish",E,R[179],63,[[],[R[15]]]],[11,"start",E,R[270],63,[[["self"]]]],[11,R[180],E,R[271],63,[[["self"],["hir"]],[R[15]]]],[11,R[181],E,R[272],63,[[["self"],["hir"]],[R[15]]]],[11,R[182],E,R[273],63,[[["self"]],[R[15]]]],[11,"kind",E,R[183],64,[[["self"]],[R[104]]]],[11,"pattern",E,R[184],64,[[["self"]],["str"]]],[11,"span",E,R[185],64,[[["self"]],["span"]]],[11,"kind",E,"Returns a reference to the underlying HIR kind.",65,[[["self"]],["hirkind"]]],[11,"into_kind",E,"Consumes ownership of this HIR expression and returns its…",65,[[],["hirkind"]]],[11,"empty",E,"Returns an empty HIR expression.",65,[[],["hir"]]],[11,R[186],E,"Creates a literal HIR expression.",65,[[[R[186]]],["hir"]]],[11,"class",E,"Creates a class HIR expression.",65,[[["class"]],["hir"]]],[11,"anchor",E,"Creates an anchor assertion HIR expression.",65,[[["anchor"]],["hir"]]],[11,"word_boundary",E,"Creates a word boundary assertion HIR expression.",65,[[[R[245]]],["hir"]]],[11,R[187],E,"Creates a repetition HIR expression.",65,[[[R[187]]],["hir"]]],[11,"group",E,"Creates a group HIR expression.",65,[[["group"]],["hir"]]],[11,"concat",E,"Returns the concatenation of the given expressions.",65,[[["hir"],["vec",["hir"]]],["hir"]]],[11,R[228],E,"Returns the alternation of the given expressions.",65,[[["hir"],["vec",["hir"]]],["hir"]]],[11,"dot",E,"Build an HIR expression for `.`.",65,[[["bool"]],["hir"]]],[11,"any",E,"Build an HIR expression for `(?s).`.",65,[[["bool"]],["hir"]]],[11,R[190],E,"Return true if and only if this HIR will always match…",65,[[["self"]],["bool"]]],[11,"is_all_assertions",E,"Returns true if and only if this entire HIR expression is…",65,[[["self"]],["bool"]]],[11,"is_anchored_start",E,R[188],65,[[["self"]],["bool"]]],[11,"is_anchored_end",E,R[188],65,[[["self"]],["bool"]]],[11,"is_line_anchored_start",E,R[188],65,[[["self"]],["bool"]]],[11,"is_line_anchored_end",E,R[188],65,[[["self"]],["bool"]]],[11,"is_any_anchored_start",E,R[189],65,[[["self"]],["bool"]]],[11,"is_any_anchored_end",E,R[189],65,[[["self"]],["bool"]]],[11,R[208],E,"Return true if and only if the empty string is part of the…",65,[[["self"]],["bool"]]],[11,"is_literal",E,"Return true if and only if this HIR is a simple literal.…",65,[[["self"]],["bool"]]],[11,"is_alternation_literal",E,"Return true if and only if this HIR is either a simple…",65,[[["self"]],["bool"]]],[11,R[152],E,"Return true if and only if this HIR is the empty regular…",50,[[["self"]],["bool"]]],[11,"has_subexprs",E,"Returns true if and only if this kind has any (including…",50,[[["self"]],["bool"]]],[11,"is_unicode",E,"Returns true if and only if this literal corresponds to a…",51,[[["self"]],["bool"]]],[11,R[192],E,"Apply Unicode simple case folding to this character class,…",52,[[["self"]]]],[11,"negate",E,"Negate this character class in place.",52,[[["self"]]]],[11,R[190],E,"Returns true if and only if this character class will only…",52,[[["self"]],["bool"]]],[11,"new",E,R[194],66,[[["i"]],[R[191]]]],[11,"empty",E,R[196],66,[[],[R[191]]]],[11,"push",E,R[197],66,[[["self"],[R[193]]]]],[11,"iter",E,R[198],66,[[["self"]],["classunicodeiter"]]],[11,"ranges",E,R[199],66,[[["self"]]]],[11,R[192],E,R[200],66,[[["self"]]]],[11,"negate",E,"Negate this character class.",66,[[["self"]]]],[11,"union",E,"Union this character class with the given character class,…",66,[[["self"],[R[191]]]]],[11,R[201],E,"Intersect this character class with the given character…",66,[[["self"],[R[191]]]]],[11,R[202],E,"Subtract the given character class from this character…",66,[[["self"],[R[191]]]]],[11,R[203],E,"Compute the symmetric difference of the given character…",66,[[["self"],[R[191]]]]],[11,"new",E,"Create a new Unicode scalar value range for a character…",67,[[["char"]],[R[193]]]],[11,"start",E,R[205],67,[[["self"]],["char"]]],[11,"end",E,R[206],67,[[["self"]],["char"]]],[11,"new",E,R[194],68,[[["i"]],[R[195]]]],[11,"empty",E,R[196],68,[[],[R[195]]]],[11,"push",E,R[197],68,[[["self"],[R[204]]]]],[11,"iter",E,R[198],68,[[["self"]],["classbytesiter"]]],[11,"ranges",E,R[199],68,[[["self"]]]],[11,R[192],E,R[200],68,[[["self"]]]],[11,"negate",E,"Negate this byte class.",68,[[["self"]]]],[11,"union",E,"Union this byte class with the given byte class, in place.",68,[[["self"],[R[195]]]]],[11,R[201],E,"Intersect this byte class with the given byte class, in…",68,[[["self"],[R[195]]]]],[11,R[202],E,"Subtract the given byte class from this byte class, in…",68,[[["self"],[R[195]]]]],[11,R[203],E,"Compute the symmetric difference of the given byte…",68,[[["self"],[R[195]]]]],[11,"is_all_ascii",E,"Returns true if and only if this character class will…",68,[[["self"]],["bool"]]],[11,"new",E,"Create a new byte range for a character class.",69,[[["u8"]],[R[204]]]],[11,"start",E,R[205],69,[[["self"]],["u8"]]],[11,"end",E,R[206],69,[[["self"]],["u8"]]],[11,R[207],E,"Returns true if and only if this word boundary assertion…",54,[[["self"]],["bool"]]],[11,R[208],E,"Returns true if and only if this repetition operator makes…",48,[[["self"]],["bool"]]],[11,"new",R[154],R[209],70,[[],[R[147]]]],[11,"build",E,R[210],70,[[["self"]],["parser"]]],[11,R[211],E,R[212],70,[[["self"],["u32"]],[R[147]]]],[11,"octal",E,R[213],70,[[["self"],["bool"]],[R[147]]]],[11,R[214],E,"When enabled, the parser will permit the construction of a…",70,[[["self"],["bool"]],[R[147]]]],[11,R[215],E,R[216],70,[[["self"],["bool"]],[R[147]]]],[11,R[217],E,"Enable or disable the case insensitive flag by default.",70,[[["self"],["bool"]],[R[147]]]],[11,R[218],E,"Enable or disable the multi-line matching flag by 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-
-use std::io;
-
-use automaton::Automaton;
-use buffer::Buffer;
-use dfa::{self, DFA};
-use error::Result;
-use nfa::{self, NFA};
-use prefilter::PrefilterState;
-use state_id::StateID;
-use Match;
-
-/// An automaton for searching multiple strings in linear time.
-///
-/// The `AhoCorasick` type supports a few basic ways of constructing an
-/// automaton, including
-/// [`AhoCorasick::new`](struct.AhoCorasick.html#method.new)
-/// and
-/// [`AhoCorasick::new_auto_configured`](struct.AhoCorasick.html#method.new_auto_configured).
-/// However, there are a fair number of configurable options that can be set
-/// by using
-/// [`AhoCorasickBuilder`](struct.AhoCorasickBuilder.html)
-/// instead. Such options include, but are not limited to, how matches are
-/// determined, simple case insensitivity, whether to use a DFA or not and
-/// various knobs for controlling the space-vs-time trade offs taken when
-/// building the automaton.
-///
-/// If you aren't sure where to start, try beginning with
-/// [`AhoCorasick::new_auto_configured`](struct.AhoCorasick.html#method.new_auto_configured).
-///
-/// # Resource usage
-///
-/// Aho-Corasick automatons are always constructed in `O(p)` time, where `p`
-/// is the combined length of all patterns being searched. With that said,
-/// building an automaton can be fairly costly because of high constant
-/// factors, particularly when enabling the
-/// [DFA](struct.AhoCorasickBuilder.html#method.dfa)
-/// option (which is disabled by default). For this reason, it's generally a
-/// good idea to build an automaton once and reuse it as much as possible.
-///
-/// Aho-Corasick automatons can also use a fair bit of memory. To get a
-/// concrete idea of how much memory is being used, try using the
-/// [`AhoCorasick::heap_bytes`](struct.AhoCorasick.html#method.heap_bytes)
-/// method.
-///
-/// # Examples
-///
-/// This example shows how to search for occurrences of multiple patterns
-/// simultaneously in a case insensitive fashion. Each match includes the
-/// pattern that matched along with the byte offsets of the match.
-///
-/// ```
-/// use aho_corasick::AhoCorasickBuilder;
-///
-/// let patterns = &["apple", "maple", "snapple"];
-/// let haystack = "Nobody likes maple in their apple flavored Snapple.";
-///
-/// let ac = AhoCorasickBuilder::new()
-///     .ascii_case_insensitive(true)
-///     .build(patterns);
-/// let mut matches = vec![];
-/// for mat in ac.find_iter(haystack) {
-///     matches.push((mat.pattern(), mat.start(), mat.end()));
-/// }
-/// assert_eq!(matches, vec![
-///     (1, 13, 18),
-///     (0, 28, 33),
-///     (2, 43, 50),
-/// ]);
-/// ```
-///
-/// This example shows how to replace matches with some other string:
-///
-/// ```
-/// use aho_corasick::AhoCorasick;
-///
-/// let patterns = &["fox", "brown", "quick"];
-/// let haystack = "The quick brown fox.";
-/// let replace_with = &["sloth", "grey", "slow"];
-///
-/// let ac = AhoCorasick::new(patterns);
-/// let result = ac.replace_all(haystack, replace_with);
-/// assert_eq!(result, "The slow grey sloth.");
-/// ```
-#[derive(Clone, Debug)]
-pub struct AhoCorasick<S: StateID = usize> {
-    imp: Imp<S>,
-    match_kind: MatchKind,
-}
-
-impl AhoCorasick {
-    /// Create a new Aho-Corasick automaton using the default configuration.
-    ///
-    /// The default configuration optimizes for less space usage, but at the
-    /// expense of longer search times. To change the configuration, use
-    /// [`AhoCorasickBuilder`](struct.AhoCorasickBuilder.html)
-    /// for fine-grained control, or
-    /// [`AhoCorasick::new_auto_configured`](struct.AhoCorasick.html#method.new_auto_configured)
-    /// for automatic configuration if you aren't sure which settings to pick.
-    ///
-    /// This uses the default
-    /// [`MatchKind::Standard`](enum.MatchKind.html#variant.Standard)
-    /// match semantics, which reports a match as soon as it is found. This
-    /// corresponds to the standard match semantics supported by textbook
-    /// descriptions of the Aho-Corasick algorithm.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let ac = AhoCorasick::new(&[
-    ///     "foo", "bar", "baz",
-    /// ]);
-    /// assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-    /// ```
-    pub fn new<I, P>(
-        patterns: I,
-    ) -> AhoCorasick
-    where I: IntoIterator<Item=P>,
-          P: AsRef<[u8]>
-    {
-        AhoCorasickBuilder::new().build(patterns)
-    }
-
-    /// Build an Aho-Corasick automaton with an automatically determined
-    /// configuration.
-    ///
-    /// Specifically, this requires a slice of patterns instead of an iterator
-    /// since the configuration is determined by looking at the patterns before
-    /// constructing the automaton. The idea here is to balance space and time
-    /// automatically. That is, when searching a small number of patterns, this
-    /// will attempt to use the fastest possible configuration since the total
-    /// space required will be small anyway. As the number of patterns grows,
-    /// this will fall back to slower configurations that use less space.
-    ///
-    /// If you want auto configuration but with match semantics different from
-    /// the default `MatchKind::Standard`, then use
-    /// [`AhoCorasickBuilder::auto_configure`](struct.AhoCorasickBuilder.html#method.auto_configure).
-    ///
-    /// # Examples
-    ///
-    /// Basic usage is just like `new`, except you must provide a slice:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let ac = AhoCorasick::new_auto_configured(&[
-    ///     "foo", "bar", "baz",
-    /// ]);
-    /// assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-    /// ```
-    pub fn new_auto_configured<B>(
-        patterns: &[B],
-    ) -> AhoCorasick
-    where B: AsRef<[u8]>
-    {
-        AhoCorasickBuilder::new().auto_configure(patterns).build(patterns)
-    }
-}
-
-impl<S: StateID> AhoCorasick<S> {
-    /// Returns true if and only if this automaton matches the haystack at any
-    /// position.
-    ///
-    /// `haystack` may be any type that is cheaply convertible to a `&[u8]`.
-    /// This includes, but is not limited to, `String`, `&str`, `Vec<u8>`, and
-    /// `&[u8]` itself.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let ac = AhoCorasick::new(&[
-    ///     "foo", "bar", "quux", "baz",
-    /// ]);
-    /// assert!(ac.is_match("xxx bar xxx"));
-    /// assert!(!ac.is_match("xxx qux xxx"));
-    /// ```
-    pub fn is_match<B: AsRef<[u8]>>(&self, haystack: B) -> bool {
-        self.earliest_find(haystack).is_some()
-    }
-
-    /// Returns the location of the first detected match in `haystack`.
-    ///
-    /// This method has the same behavior regardless of the
-    /// [`MatchKind`](enum.MatchKind.html)
-    /// of this automaton.
-    ///
-    /// `haystack` may be any type that is cheaply convertible to a `&[u8]`.
-    /// This includes, but is not limited to, `String`, `&str`, `Vec<u8>`, and
-    /// `&[u8]` itself.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let ac = AhoCorasick::new(&[
-    ///     "abc", "b",
-    /// ]);
-    /// let mat = ac.earliest_find("abcd").expect("should have match");
-    /// assert_eq!(1, mat.pattern());
-    /// assert_eq!((1, 2), (mat.start(), mat.end()));
-    /// ```
-    pub fn earliest_find<B: AsRef<[u8]>>(&self, haystack: B) -> Option<Match> {
-        let mut prestate = PrefilterState::new(self.max_pattern_len());
-        let mut start = self.imp.start_state();
-        self.imp.earliest_find_at(
-            &mut prestate, haystack.as_ref(), 0, &mut start,
-        )
-    }
-
-    /// Returns the location of the first match according to the match
-    /// semantics that this automaton was constructed with.
-    ///
-    /// When using `MatchKind::Standard`, this corresponds precisely to the
-    /// same behavior as
-    /// [`earliest_find`](struct.AhoCorasick.html#method.earliest_find).
-    /// Otherwise, match semantics correspond to either
-    /// [leftmost-first](enum.MatchKind.html#variant.LeftmostFirst)
-    /// or
-    /// [leftmost-longest](enum.MatchKind.html#variant.LeftmostLongest).
-    ///
-    /// `haystack` may be any type that is cheaply convertible to a `&[u8]`.
-    /// This includes, but is not limited to, `String`, `&str`, `Vec<u8>`, and
-    /// `&[u8]` itself.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage, with standard semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["b", "abc", "abcd"];
-    /// let haystack = "abcd";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::Standard) // default, not necessary
-    ///     .build(patterns);
-    /// let mat = ac.find(haystack).expect("should have a match");
-    /// assert_eq!("b", &haystack[mat.start()..mat.end()]);
-    /// ```
-    ///
-    /// Now with leftmost-first semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["b", "abc", "abcd"];
-    /// let haystack = "abcd";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let mat = ac.find(haystack).expect("should have a match");
-    /// assert_eq!("abc", &haystack[mat.start()..mat.end()]);
-    /// ```
-    ///
-    /// And finally, leftmost-longest semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["b", "abc", "abcd"];
-    /// let haystack = "abcd";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostLongest)
-    ///     .build(patterns);
-    /// let mat = ac.find(haystack).expect("should have a match");
-    /// assert_eq!("abcd", &haystack[mat.start()..mat.end()]);
-    /// ```
-    pub fn find<B: AsRef<[u8]>>(&self, haystack: B) -> Option<Match> {
-        let mut prestate = PrefilterState::new(self.max_pattern_len());
-        let mut start = self.imp.start_state();
-        self.imp.find_at(&mut prestate, haystack.as_ref(), 0, &mut start)
-    }
-
-    /// Returns an iterator of non-overlapping matches, using the match
-    /// semantics that this automaton was constructed with.
-    ///
-    /// `haystack` may be any type that is cheaply convertible to a `&[u8]`.
-    /// This includes, but is not limited to, `String`, `&str`, `Vec<u8>`, and
-    /// `&[u8]` itself.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage, with standard semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::Standard) // default, not necessary
-    ///     .build(patterns);
-    /// let matches: Vec<usize> = ac
-    ///     .find_iter(haystack)
-    ///     .map(|mat| mat.pattern())
-    ///     .collect();
-    /// assert_eq!(vec![2, 2, 2], matches);
-    /// ```
-    ///
-    /// Now with leftmost-first semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let matches: Vec<usize> = ac
-    ///     .find_iter(haystack)
-    ///     .map(|mat| mat.pattern())
-    ///     .collect();
-    /// assert_eq!(vec![0, 2, 0], matches);
-    /// ```
-    ///
-    /// And finally, leftmost-longest semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostLongest)
-    ///     .build(patterns);
-    /// let matches: Vec<usize> = ac
-    ///     .find_iter(haystack)
-    ///     .map(|mat| mat.pattern())
-    ///     .collect();
-    /// assert_eq!(vec![0, 2, 1], matches);
-    /// ```
-    pub fn find_iter<'a, 'b, B: ?Sized + AsRef<[u8]>>(
-        &'a self,
-        haystack: &'b B,
-    ) -> FindIter<'a, 'b, S> {
-        FindIter::new(self, haystack.as_ref())
-    }
-
-    /// Returns an iterator of overlapping matches in the given `haystack`.
-    ///
-    /// Overlapping matches can _only_ be detected using
-    /// `MatchKind::Standard` semantics. If this automaton was constructed with
-    /// leftmost semantics, then this method will panic. To determine whether
-    /// this will panic at runtime, use the
-    /// [`AhoCorasick::supports_overlapping`](struct.AhoCorasick.html#method.supports_overlapping)
-    /// method.
-    ///
-    /// `haystack` may be any type that is cheaply convertible to a `&[u8]`.
-    /// This includes, but is not limited to, `String`, `&str`, `Vec<u8>`, and
-    /// `&[u8]` itself.
-    ///
-    /// # Panics
-    ///
-    /// This panics when `AhoCorasick::supports_overlapping` returns `false`.
-    /// That is, this panics when this automaton's match semantics are not
-    /// `MatchKind::Standard`.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage, with standard semantics:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasick::new(patterns);
-    /// let matches: Vec<usize> = ac
-    ///     .find_overlapping_iter(haystack)
-    ///     .map(|mat| mat.pattern())
-    ///     .collect();
-    /// assert_eq!(vec![2, 0, 2, 2, 0, 1], matches);
-    /// ```
-    pub fn find_overlapping_iter<'a, 'b, B: ?Sized + AsRef<[u8]>>(
-        &'a self,
-        haystack: &'b B,
-    ) -> FindOverlappingIter<'a, 'b, S> {
-        FindOverlappingIter::new(self, haystack.as_ref())
-    }
-
-    /// Replace all matches with a corresponding value in the `replace_with`
-    /// slice given. Matches correspond to the same matches as reported by
-    /// [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// Replacements are determined by the index of the matching pattern.
-    /// For example, if the pattern with index `2` is found, then it is
-    /// replaced by `replace_with[2]`.
-    ///
-    /// # Panics
-    ///
-    /// This panics when `replace_with.len()` does not equal the total number
-    /// of patterns that are matched by this automaton.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let result = ac.replace_all(haystack, &["x", "y", "z"]);
-    /// assert_eq!("x the z to the xage", result);
-    /// ```
-    pub fn replace_all<B>(
-        &self,
-        haystack: &str,
-        replace_with: &[B],
-    ) -> String
-    where B: AsRef<str>
-    {
-        assert_eq!(
-            replace_with.len(), self.pattern_count(),
-            "replace_all requires a replacement for every pattern \
-             in the automaton"
-        );
-        let mut dst = String::with_capacity(haystack.len());
-        self.replace_all_with(haystack, &mut dst, |mat, _, dst| {
-            dst.push_str(replace_with[mat.pattern()].as_ref());
-            true
-        });
-        dst
-    }
-
-    /// Replace all matches using raw bytes with a corresponding value in the
-    /// `replace_with` slice given. Matches correspond to the same matches as
-    /// reported by [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// Replacements are determined by the index of the matching pattern.
-    /// For example, if the pattern with index `2` is found, then it is
-    /// replaced by `replace_with[2]`.
-    ///
-    /// # Panics
-    ///
-    /// This panics when `replace_with.len()` does not equal the total number
-    /// of patterns that are matched by this automaton.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = b"append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let result = ac.replace_all_bytes(haystack, &["x", "y", "z"]);
-    /// assert_eq!(b"x the z to the xage".to_vec(), result);
-    /// ```
-    pub fn replace_all_bytes<B>(
-        &self,
-        haystack: &[u8],
-        replace_with: &[B],
-    ) -> Vec<u8>
-    where B: AsRef<[u8]>
-    {
-        assert_eq!(
-            replace_with.len(), self.pattern_count(),
-            "replace_all_bytes requires a replacement for every pattern \
-             in the automaton"
-        );
-        let mut dst = Vec::with_capacity(haystack.len());
-        self.replace_all_with_bytes(haystack, &mut dst, |mat, _, dst| {
-            dst.extend(replace_with[mat.pattern()].as_ref());
-            true
-        });
-        dst
-    }
-
-    /// Replace all matches using a closure called on each match.
-    /// Matches correspond to the same matches as reported by
-    /// [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// The closure accepts three parameters: the match found, the text of
-    /// the match and a string buffer with which to write the replaced text
-    /// (if any). If the closure returns `true`, then it continues to the next
-    /// match. If the closure returns false, then searching is stopped.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let mut result = String::new();
-    /// ac.replace_all_with(haystack, &mut result, |mat, _, dst| {
-    ///     dst.push_str(&mat.pattern().to_string());
-    ///     true
-    /// });
-    /// assert_eq!("0 the 2 to the 0age", result);
-    /// ```
-    pub fn replace_all_with<F>(
-        &self,
-        haystack: &str,
-        dst: &mut String,
-        mut replace_with: F,
-    ) where F: FnMut(&Match, &str, &mut String) -> bool
-    {
-        let mut last_match = 0;
-        for mat in self.find_iter(haystack) {
-            dst.push_str(&haystack[last_match..mat.start()]);
-            last_match = mat.end();
-            replace_with(&mat, &haystack[mat.start()..mat.end()], dst);
-        }
-        dst.push_str(&haystack[last_match..]);
-    }
-
-    /// Replace all matches using raw bytes with a closure called on each
-    /// match. Matches correspond to the same matches as reported by
-    /// [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// The closure accepts three parameters: the match found, the text of
-    /// the match and a byte buffer with which to write the replaced text
-    /// (if any). If the closure returns `true`, then it continues to the next
-    /// match. If the closure returns false, then searching is stopped.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = b"append the app to the appendage";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let mut result = vec![];
-    /// ac.replace_all_with_bytes(haystack, &mut result, |mat, _, dst| {
-    ///     dst.extend(mat.pattern().to_string().bytes());
-    ///     true
-    /// });
-    /// assert_eq!(b"0 the 2 to the 0age".to_vec(), result);
-    /// ```
-    pub fn replace_all_with_bytes<F>(
-        &self,
-        haystack: &[u8],
-        dst: &mut Vec<u8>,
-        mut replace_with: F,
-    ) where F: FnMut(&Match, &[u8], &mut Vec<u8>) -> bool
-    {
-        let mut last_match = 0;
-        for mat in self.find_iter(haystack) {
-            dst.extend(&haystack[last_match..mat.start()]);
-            last_match = mat.end();
-            replace_with(&mat, &haystack[mat.start()..mat.end()], dst);
-        }
-        dst.extend(&haystack[last_match..]);
-    }
-
-    /// Returns an iterator of non-overlapping matches in the given
-    /// stream. Matches correspond to the same matches as reported by
-    /// [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// The matches yielded by this iterator use absolute position offsets in
-    /// the stream given, where the first byte has index `0`. Matches are
-    /// yieled until the stream is exhausted.
-    ///
-    /// Each item yielded by the iterator is an `io::Result<Match>`, where an
-    /// error is yielded if there was a problem reading from the reader given.
-    ///
-    /// When searching a stream, an internal buffer is used. Therefore, callers
-    /// should avoiding providing a buffered reader, if possible.
-    ///
-    /// Searching a stream requires that the automaton was built with
-    /// `MatchKind::Standard` semantics. If this automaton was constructed
-    /// with leftmost semantics, then this method will panic. To determine
-    /// whether this will panic at runtime, use the
-    /// [`AhoCorasick::supports_stream`](struct.AhoCorasick.html#method.supports_stream)
-    /// method.
-    ///
-    /// # Memory usage
-    ///
-    /// In general, searching streams will use a constant amount of memory for
-    /// its internal buffer. The one requirement is that the internal buffer
-    /// must be at least the size of the longest possible match. In most use
-    /// cases, the default buffer size will be much larger than any individual
-    /// match.
-    ///
-    /// # Panics
-    ///
-    /// This panics when `AhoCorasick::supports_stream` returns `false`.
-    /// That is, this panics when this automaton's match semantics are not
-    /// `MatchKind::Standard`. This restriction may be lifted in the future.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// # fn example() -> Result<(), ::std::io::Error> {
-    /// let patterns = &["append", "appendage", "app"];
-    /// let haystack = "append the app to the appendage";
-    ///
-    /// let ac = AhoCorasick::new(patterns);
-    /// let mut matches = vec![];
-    /// for result in ac.stream_find_iter(haystack.as_bytes()) {
-    ///     let mat = result?;
-    ///     matches.push(mat.pattern());
-    /// }
-    /// assert_eq!(vec![2, 2, 2], matches);
-    /// # Ok(()) }; example().unwrap()
-    /// ```
-    pub fn stream_find_iter<'a, R: io::Read>(
-        &'a self,
-        rdr: R,
-    ) -> StreamFindIter<'a, R, S> {
-        StreamFindIter::new(self, rdr)
-    }
-
-    /// Search for and replace all matches of this automaton in
-    /// the given reader, and write the replacements to the given
-    /// writer. Matches correspond to the same matches as reported by
-    /// [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// Replacements are determined by the index of the matching pattern.
-    /// For example, if the pattern with index `2` is found, then it is
-    /// replaced by `replace_with[2]`.
-    ///
-    /// After all matches are replaced, the writer is _not_ flushed.
-    ///
-    /// If there was a problem reading from the given reader or writing to the
-    /// given writer, then the corresponding `io::Error` is returned and all
-    /// replacement is stopped.
-    ///
-    /// When searching a stream, an internal buffer is used. Therefore, callers
-    /// should avoiding providing a buffered reader, if possible. However,
-    /// callers may want to provide a buffered writer.
-    ///
-    /// Searching a stream requires that the automaton was built with
-    /// `MatchKind::Standard` semantics. If this automaton was constructed
-    /// with leftmost semantics, then this method will panic. To determine
-    /// whether this will panic at runtime, use the
-    /// [`AhoCorasick::supports_stream`](struct.AhoCorasick.html#method.supports_stream)
-    /// method.
-    ///
-    /// # Memory usage
-    ///
-    /// In general, searching streams will use a constant amount of memory for
-    /// its internal buffer. The one requirement is that the internal buffer
-    /// must be at least the size of the longest possible match. In most use
-    /// cases, the default buffer size will be much larger than any individual
-    /// match.
-    ///
-    /// # Panics
-    ///
-    /// This panics when `AhoCorasick::supports_stream` returns `false`.
-    /// That is, this panics when this automaton's match semantics are not
-    /// `MatchKind::Standard`. This restriction may be lifted in the future.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// # fn example() -> Result<(), ::std::io::Error> {
-    /// let patterns = &["fox", "brown", "quick"];
-    /// let haystack = "The quick brown fox.";
-    /// let replace_with = &["sloth", "grey", "slow"];
-    ///
-    /// let ac = AhoCorasick::new(patterns);
-    /// let mut result = vec![];
-    /// ac.stream_replace_all(haystack.as_bytes(), &mut result, replace_with)?;
-    /// assert_eq!(b"The slow grey sloth.".to_vec(), result);
-    /// # Ok(()) }; example().unwrap()
-    /// ```
-    pub fn stream_replace_all<R, W, B>(
-        &self,
-        rdr: R,
-        wtr: W,
-        replace_with: &[B],
-    ) -> io::Result<()>
-    where R: io::Read,
-          W: io::Write,
-          B: AsRef<[u8]>
-    {
-        assert_eq!(
-            replace_with.len(), self.pattern_count(),
-            "stream_replace_all requires a replacement for every pattern \
-             in the automaton"
-        );
-        self.stream_replace_all_with(rdr, wtr, |mat, _, wtr| {
-            wtr.write_all(replace_with[mat.pattern()].as_ref())
-        })
-    }
-
-    /// Search the given reader and replace all matches of this automaton
-    /// using the given closure. The result is written to the given
-    /// writer. Matches correspond to the same matches as reported by
-    /// [`find_iter`](struct.AhoCorasick.html#method.find_iter).
-    ///
-    /// The closure accepts three parameters: the match found, the text of
-    /// the match and the writer with which to write the replaced text
-    /// (if any). If the closure returns `true`, then it continues to the next
-    /// match. If the closure returns false, then searching is stopped.
-    ///
-    /// After all matches are replaced, the writer is _not_ flushed.
-    ///
-    /// If there was a problem reading from the given reader or writing to the
-    /// given writer, then the corresponding `io::Error` is returned and all
-    /// replacement is stopped.
-    ///
-    /// When searching a stream, an internal buffer is used. Therefore, callers
-    /// should avoiding providing a buffered reader, if possible. However,
-    /// callers may want to provide a buffered writer.
-    ///
-    /// Searching a stream requires that the automaton was built with
-    /// `MatchKind::Standard` semantics. If this automaton was constructed
-    /// with leftmost semantics, then this method will panic. To determine
-    /// whether this will panic at runtime, use the
-    /// [`AhoCorasick::supports_stream`](struct.AhoCorasick.html#method.supports_stream)
-    /// method.
-    ///
-    /// # Memory usage
-    ///
-    /// In general, searching streams will use a constant amount of memory for
-    /// its internal buffer. The one requirement is that the internal buffer
-    /// must be at least the size of the longest possible match. In most use
-    /// cases, the default buffer size will be much larger than any individual
-    /// match.
-    ///
-    /// # Panics
-    ///
-    /// This panics when `AhoCorasick::supports_stream` returns `false`.
-    /// That is, this panics when this automaton's match semantics are not
-    /// `MatchKind::Standard`. This restriction may be lifted in the future.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use std::io::Write;
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// # fn example() -> Result<(), ::std::io::Error> {
-    /// let patterns = &["fox", "brown", "quick"];
-    /// let haystack = "The quick brown fox.";
-    ///
-    /// let ac = AhoCorasick::new(patterns);
-    /// let mut result = vec![];
-    /// ac.stream_replace_all_with(
-    ///     haystack.as_bytes(),
-    ///     &mut result,
-    ///     |mat, _, wtr| {
-    ///         wtr.write_all(mat.pattern().to_string().as_bytes())
-    ///     },
-    /// )?;
-    /// assert_eq!(b"The 2 1 0.".to_vec(), result);
-    /// # Ok(()) }; example().unwrap()
-    /// ```
-    pub fn stream_replace_all_with<R, W, F>(
-        &self,
-        rdr: R,
-        mut wtr: W,
-        mut replace_with: F,
-    ) -> io::Result<()>
-    where R: io::Read,
-          W: io::Write,
-          F: FnMut(&Match, &[u8], &mut W) -> io::Result<()>
-    {
-        let mut it = StreamChunkIter::new(self, rdr);
-        while let Some(result) = it.next() {
-            let chunk = result?;
-            match chunk {
-                StreamChunk::NonMatch { bytes, .. } => {
-                    wtr.write_all(bytes)?;
-                }
-                StreamChunk::Match { bytes, mat } => {
-                    replace_with(&mat, bytes, &mut wtr)?;
-                }
-            }
-        }
-        Ok(())
-    }
-
-    /// Returns the match kind used by this automaton.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasick, MatchKind};
-    ///
-    /// let ac = AhoCorasick::new(&[
-    ///     "foo", "bar", "quux", "baz",
-    /// ]);
-    /// assert_eq!(&MatchKind::Standard, ac.match_kind());
-    /// ```
-    pub fn match_kind(&self) -> &MatchKind {
-        self.imp.match_kind()
-    }
-
-    /// Returns the length of the longest pattern matched by this automaton.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let ac = AhoCorasick::new(&[
-    ///     "foo", "bar", "quux", "baz",
-    /// ]);
-    /// assert_eq!(4, ac.max_pattern_len());
-    /// ```
-    pub fn max_pattern_len(&self) -> usize {
-        self.imp.max_pattern_len()
-    }
-
-    /// Return the total number of patterns matched by this automaton.
-    ///
-    /// This includes patterns that may never participate in a match. For
-    /// example, if
-    /// [`MatchKind::LeftmostFirst`](enum.MatchKind.html#variant.LeftmostFirst)
-    /// match semantics are used, and the patterns `Sam` and `Samwise` were
-    /// used to build the automaton, then `Samwise` can never participate in a
-    /// match because `Sam` will always take priority.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasick;
-    ///
-    /// let ac = AhoCorasick::new(&[
-    ///     "foo", "bar", "baz",
-    /// ]);
-    /// assert_eq!(3, ac.pattern_count());
-    /// ```
-    pub fn pattern_count(&self) -> usize {
-        self.imp.pattern_count()
-    }
-
-    /// Returns true if and only if this automaton supports reporting
-    /// overlapping matches.
-    ///
-    /// If this returns false and overlapping matches are requested, then it
-    /// will result in a panic.
-    ///
-    /// Since leftmost matching is inherently incompatible with overlapping
-    /// matches, only
-    /// [`MatchKind::Standard`](enum.MatchKind.html#variant.Standard)
-    /// supports overlapping matches. This is unlikely to change in the future.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::Standard)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert!(ac.supports_overlapping());
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert!(!ac.supports_overlapping());
-    /// ```
-    pub fn supports_overlapping(&self) -> bool {
-        self.match_kind.supports_overlapping()
-    }
-
-    /// Returns true if and only if this automaton supports stream searching.
-    ///
-    /// If this returns false and stream searching (or replacing) is attempted,
-    /// then it will result in a panic.
-    ///
-    /// Currently, only
-    /// [`MatchKind::Standard`](enum.MatchKind.html#variant.Standard)
-    /// supports streaming. This may be expanded in the future.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::Standard)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert!(ac.supports_stream());
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert!(!ac.supports_stream());
-    /// ```
-    pub fn supports_stream(&self) -> bool {
-        self.match_kind.supports_stream()
-    }
-
-    /// Returns the total amount of heap used by this automaton, in units of
-    /// bytes.
-    ///
-    /// # Examples
-    ///
-    /// This example shows the difference in heap usage between a few
-    /// configurations:
-    ///
-    /// ```ignore
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .dfa(false) // default
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert_eq!(10_336, ac.heap_bytes());
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .dfa(false) // default
-    ///     .ascii_case_insensitive(true)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert_eq!(10_384, ac.heap_bytes());
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .dfa(true)
-    ///     .byte_classes(false)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert_eq!(20_768, ac.heap_bytes());
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .dfa(true)
-    ///     .byte_classes(true) // default
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert_eq!(1_248, ac.heap_bytes());
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .dfa(true)
-    ///     .ascii_case_insensitive(true)
-    ///     .build(&["foo", "bar", "baz"]);
-    /// assert_eq!(1_248, ac.heap_bytes());
-    /// ```
-    pub fn heap_bytes(&self) -> usize {
-        match self.imp {
-            Imp::NFA(ref nfa) => nfa.heap_bytes(),
-            Imp::DFA(ref dfa) => dfa.heap_bytes(),
-        }
-    }
-}
-
-/// The internal implementation of Aho-Corasick, which is either an NFA or
-/// a DFA. The NFA is slower but uses less memory. The DFA is faster but uses
-/// more memory.
-#[derive(Clone, Debug)]
-enum Imp<S: StateID> {
-    NFA(NFA<S>),
-    DFA(DFA<S>),
-}
-
-impl<S: StateID> Imp<S> {
-    /// Returns the type of match semantics implemented by this automaton.
-    fn match_kind(&self) -> &MatchKind {
-        match *self {
-            Imp::NFA(ref nfa) => nfa.match_kind(),
-            Imp::DFA(ref dfa) => dfa.match_kind(),
-        }
-    }
-
-    /// Returns the identifier of the start state.
-    fn start_state(&self) -> S {
-        match *self {
-            Imp::NFA(ref nfa) => nfa.start_state(),
-            Imp::DFA(ref dfa) => dfa.start_state(),
-        }
-    }
-
-    /// The length, in bytes, of the longest pattern in this automaton. This
-    /// information is useful for maintaining correct buffer sizes when
-    /// searching on streams.
-    fn max_pattern_len(&self) -> usize {
-        match *self {
-            Imp::NFA(ref nfa) => nfa.max_pattern_len(),
-            Imp::DFA(ref dfa) => dfa.max_pattern_len(),
-        }
-    }
-
-    /// The total number of patterns added to this automaton. This includes
-    /// patterns that may never match. The maximum matching pattern that can be
-    /// reported is exactly one less than this number.
-    fn pattern_count(&self) -> usize {
-        match *self {
-            Imp::NFA(ref nfa) => nfa.pattern_count(),
-            Imp::DFA(ref dfa) => dfa.pattern_count(),
-        }
-    }
-
-    #[inline(always)]
-    fn overlapping_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut S,
-        match_index: &mut usize,
-    ) -> Option<Match> {
-        match *self {
-            Imp::NFA(ref nfa) => {
-                nfa.overlapping_find_at(
-                    prestate, haystack, at, state_id, match_index,
-                )
-            }
-            Imp::DFA(ref dfa) => {
-                dfa.overlapping_find_at(
-                    prestate, haystack, at, state_id, match_index,
-                )
-            }
-        }
-    }
-
-    #[inline(always)]
-    fn earliest_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut S,
-    ) -> Option<Match> {
-        match *self {
-            Imp::NFA(ref nfa) => {
-                nfa.earliest_find_at(prestate, haystack, at, state_id)
-            }
-            Imp::DFA(ref dfa) => {
-                dfa.earliest_find_at(prestate, haystack, at, state_id)
-            }
-        }
-    }
-
-    #[inline(always)]
-    fn find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut S,
-    ) -> Option<Match> {
-        match *self {
-            Imp::NFA(ref nfa) => {
-                nfa.find_at(prestate, haystack, at, state_id)
-            }
-            Imp::DFA(ref dfa) => {
-                dfa.find_at(prestate, haystack, at, state_id)
-            }
-        }
-    }
-}
-
-/// An iterator of non-overlapping matches in a particular haystack.
-///
-/// This iterator yields matches according to the
-/// [`MatchKind`](enum.MatchKind.html)
-/// used by this automaton.
-///
-/// This iterator is constructed via the
-/// [`AhoCorasick::find_iter`](struct.AhoCorasick.html#method.find_iter)
-/// method.
-///
-/// The type variable `S` refers to the representation used for state
-/// identifiers. (By default, this is `usize`.)
-///
-/// The lifetime `'a` refers to the lifetime of the `AhoCorasick` automaton.
-///
-/// The lifetime `'b` refers to the lifetime of the haystack being searched.
-#[derive(Debug)]
-pub struct FindIter<'a, 'b, S: 'a + StateID> {
-    fsm: &'a Imp<S>,
-    prestate: PrefilterState,
-    haystack: &'b [u8],
-    pos: usize,
-    start: S,
-}
-
-impl<'a, 'b, S: StateID> FindIter<'a, 'b, S> {
-    fn new(ac: &'a AhoCorasick<S>, haystack: &'b [u8]) -> FindIter<'a, 'b, S> {
-        let prestate = PrefilterState::new(ac.max_pattern_len());
-        let start = ac.imp.start_state();
-        FindIter { fsm: &ac.imp, prestate, haystack, pos: 0, start }
-    }
-}
-
-impl<'a, 'b, S: StateID> Iterator for FindIter<'a, 'b, S> {
-    type Item = Match;
-
-    fn next(&mut self) -> Option<Match> {
-        if self.pos > self.haystack.len() {
-            return None;
-        }
-        let mut start = self.start;
-        let result = self.fsm.find_at(
-            &mut self.prestate, self.haystack, self.pos, &mut start,
-        );
-        let mat = match result {
-            None => return None,
-            Some(mat) => mat,
-        };
-        if mat.end() == self.pos {
-            // If the automaton can match the empty string and if we found an
-            // empty match, then we need to forcefully move the position.
-            self.pos += 1;
-        } else {
-            self.pos = mat.end();
-        }
-        Some(mat)
-    }
-}
-
-/// An iterator of overlapping matches in a particular haystack.
-///
-/// This iterator will report all possible matches in a particular haystack,
-/// even when the matches overlap.
-///
-/// This iterator is constructed via the
-/// [`AhoCorasick::find_overlapping_iter`](struct.AhoCorasick.html#method.find_overlapping_iter)
-/// method.
-///
-/// The type variable `S` refers to the representation used for state
-/// identifiers. (By default, this is `usize`.)
-///
-/// The lifetime `'a` refers to the lifetime of the `AhoCorasick` automaton.
-///
-/// The lifetime `'b` refers to the lifetime of the haystack being searched.
-#[derive(Debug)]
-pub struct FindOverlappingIter<'a, 'b, S: 'a + StateID> {
-    fsm: &'a Imp<S>,
-    prestate: PrefilterState,
-    haystack: &'b [u8],
-    pos: usize,
-    last_match_end: usize,
-    state_id: S,
-    match_index: usize,
-}
-
-impl<'a, 'b, S: StateID> FindOverlappingIter<'a, 'b, S> {
-    fn new(
-        ac: &'a AhoCorasick<S>,
-        haystack: &'b [u8],
-    ) -> FindOverlappingIter<'a, 'b, S> {
-        assert!(
-            ac.supports_overlapping(),
-            "automaton does not support overlapping searches"
-        );
-        let prestate = PrefilterState::new(ac.max_pattern_len());
-        FindOverlappingIter {
-            fsm: &ac.imp,
-            prestate,
-            haystack,
-            pos: 0,
-            last_match_end: 0,
-            state_id: ac.imp.start_state(),
-            match_index: 0,
-        }
-    }
-}
-
-impl<'a, 'b, S: StateID> Iterator for FindOverlappingIter<'a, 'b, S> {
-    type Item = Match;
-
-    fn next(&mut self) -> Option<Match> {
-        let result = self.fsm.overlapping_find_at(
-            &mut self.prestate,
-            self.haystack,
-            self.pos,
-            &mut self.state_id,
-            &mut self.match_index,
-        );
-        match result {
-            None => return None,
-            Some(m) => {
-                self.pos = m.end();
-                Some(m)
-            }
-        }
-    }
-}
-
-/// An iterator that reports Aho-Corasick matches in a stream.
-///
-/// This iterator yields elements of type `io::Result<Match>`, where an error
-/// is reported if there was a problem reading from the underlying stream.
-/// The iterator terminates only when the underlying stream reaches `EOF`.
-///
-/// This iterator is constructed via the
-/// [`AhoCorasick::stream_find_iter`](struct.AhoCorasick.html#method.stream_find_iter)
-/// method.
-///
-/// The type variable `R` refers to the `io::Read` stream that is being read
-/// from.
-///
-/// The type variable `S` refers to the representation used for state
-/// identifiers. (By default, this is `usize`.)
-///
-/// The lifetime `'a` refers to the lifetime of the `AhoCorasick` automaton.
-#[derive(Debug)]
-pub struct StreamFindIter<'a, R, S: 'a + StateID> {
-    it: StreamChunkIter<'a, R, S>,
-}
-
-impl<'a, R: io::Read, S: StateID> StreamFindIter<'a, R, S> {
-    fn new(ac: &'a AhoCorasick<S>, rdr: R) -> StreamFindIter<'a, R, S> {
-        StreamFindIter {
-            it: StreamChunkIter::new(ac, rdr),
-        }
-    }
-}
-
-impl<'a, R: io::Read, S: StateID> Iterator for StreamFindIter<'a, R, S> {
-    type Item = io::Result<Match>;
-
-    fn next(&mut self) -> Option<io::Result<Match>> {
-        loop {
-            match self.it.next() {
-                None => return None,
-                Some(Err(err)) => return Some(Err(err)),
-                Some(Ok(StreamChunk::NonMatch { .. })) => {}
-                Some(Ok(StreamChunk::Match { mat, .. })) => {
-                    return Some(Ok(mat));
-                }
-            }
-        }
-    }
-}
-
-/// An iterator over chunks in an underlying reader. Each chunk either
-/// corresponds to non-matching bytes or matching bytes, but all bytes from
-/// the underlying reader are reported in sequence. There may be an arbitrary
-/// number of non-matching chunks before seeing a matching chunk.
-///
-/// N.B. This does not actually implement Iterator because we need to borrow
-/// from the underlying reader. But conceptually, it's still an iterator.
-#[derive(Debug)]
-struct StreamChunkIter<'a, R, S: 'a + StateID> {
-    /// The AC automaton.
-    fsm: &'a Imp<S>,
-    /// State associated with this automaton's prefilter. It is a heuristic
-    /// for stopping the prefilter if it's deemed ineffective.
-    prestate: PrefilterState,
-    /// The source of bytes we read from.
-    rdr: R,
-    /// A fixed size buffer. This is what we actually search. There are some
-    /// invariants around the buffer's size, namely, it must be big enough to
-    /// contain the longest possible match.
-    buf: Buffer,
-    /// The ID of the FSM state we're currently in.
-    state_id: S,
-    /// The current position at which to start the next search in `buf`.
-    search_pos: usize,
-    /// The absolute position of `search_pos`, where `0` corresponds to the
-    /// position of the first byte read from `rdr`.
-    absolute_pos: usize,
-    /// The ending position of the last StreamChunk that was returned to the
-    /// caller. This position is used to determine whether we need to emit
-    /// non-matching bytes before emitting a match.
-    report_pos: usize,
-    /// A match that should be reported on the next call.
-    pending_match: Option<Match>,
-    /// Enabled only when the automaton can match the empty string. When
-    /// enabled, we need to execute one final search after consuming the
-    /// reader to find the trailing empty match.
-    has_empty_match_at_end: bool,
-}
-
-/// A single chunk yielded by the stream chunk iterator.
-///
-/// The `'r` lifetime refers to the lifetime of the stream chunk iterator.
-#[derive(Debug)]
-enum StreamChunk<'r> {
-    /// A chunk that does not contain any matches.
-    NonMatch { bytes: &'r [u8], start: usize },
-    /// A chunk that precisely contains a match.
-    Match { bytes: &'r [u8], mat: Match },
-}
-
-impl<'a, R: io::Read, S: StateID> StreamChunkIter<'a, R, S> {
-    fn new(ac: &'a AhoCorasick<S>, rdr: R) -> StreamChunkIter<'a, R, S> {
-        assert!(
-            ac.supports_stream(),
-            "stream searching is only supported for Standard match semantics"
-        );
-
-        let prestate = PrefilterState::new(ac.max_pattern_len());
-        let buf = Buffer::new(ac.imp.max_pattern_len());
-        let state_id = ac.imp.start_state();
-        StreamChunkIter {
-            fsm: &ac.imp,
-            prestate,
-            rdr,
-            buf,
-            state_id,
-            absolute_pos: 0,
-            report_pos: 0,
-            search_pos: 0,
-            pending_match: None,
-            has_empty_match_at_end: ac.is_match(""),
-        }
-    }
-
-    fn next<'r>(&'r mut self) -> Option<io::Result<StreamChunk<'r>>> {
-        loop {
-            if let Some(mut mat) = self.pending_match.take() {
-                let bytes = &self.buf.buffer()[mat.start()..mat.end()];
-                self.report_pos = mat.end();
-                mat = mat.increment(self.absolute_pos);
-                return Some(Ok(StreamChunk::Match { bytes, mat }));
-            }
-            if self.search_pos >= self.buf.len() {
-                if let Some(end) = self.unreported() {
-                    let bytes = &self.buf.buffer()[self.report_pos..end];
-                    let start = self.absolute_pos + self.report_pos;
-                    self.report_pos = end;
-                    return Some(Ok(StreamChunk::NonMatch { bytes, start }));
-                }
-                if self.buf.len() >= self.buf.min_buffer_len() {
-                    // This is the point at which we roll our buffer, which we
-                    // only do if our buffer has at least the minimum amount of
-                    // bytes in it. Before rolling, we update our various
-                    // positions to be consistent with the buffer after it has
-                    // been rolled.
-
-                    self.report_pos -=
-                        self.buf.len() - self.buf.min_buffer_len();
-                    self.absolute_pos +=
-                        self.search_pos - self.buf.min_buffer_len();
-                    self.search_pos = self.buf.min_buffer_len();
-                    self.buf.roll();
-                }
-                match self.buf.fill(&mut self.rdr) {
-                    Err(err) => return Some(Err(err)),
-                    Ok(false) => {
-                        // We've hit EOF, but if there are still some
-                        // unreported bytes remaining, return them now.
-                        if self.report_pos < self.buf.len() {
-                            let bytes = &self.buf.buffer()[self.report_pos..];
-                            let start = self.absolute_pos + self.report_pos;
-                            self.report_pos = self.buf.len();
-
-                            let chunk = StreamChunk::NonMatch { bytes, start };
-                            return Some(Ok(chunk));
-                        } else {
-                            // We've reported everything, but there might still
-                            // be a match at the very last position.
-                            if !self.has_empty_match_at_end {
-                                return None;
-                            }
-                            // fallthrough for another search to get trailing
-                            // empty matches
-                            self.has_empty_match_at_end = false;
-                        }
-                    }
-                    Ok(true) => {}
-                }
-            }
-            let result = self.fsm.earliest_find_at(
-                &mut self.prestate,
-                self.buf.buffer(),
-                self.search_pos,
-                &mut self.state_id,
-            );
-            match result {
-                None => {
-                    self.search_pos = self.buf.len();
-                }
-                Some(mat) => {
-                    self.state_id = self.fsm.start_state();
-                    if mat.end() == self.search_pos {
-                        // If the automaton can match the empty string and if
-                        // we found an empty match, then we need to forcefully
-                        // move the position.
-                        self.search_pos += 1;
-                    } else {
-                        self.search_pos = mat.end();
-                    }
-                    self.pending_match = Some(mat.clone());
-                    if self.report_pos < mat.start() {
-                        let bytes =
-                            &self.buf.buffer()[self.report_pos..mat.start()];
-                        let start = self.absolute_pos + self.report_pos;
-                        self.report_pos = mat.start();
-
-                        let chunk = StreamChunk::NonMatch { bytes, start };
-                        return Some(Ok(chunk));
-                    }
-                }
-            }
-        }
-    }
-
-    fn unreported(&self) -> Option<usize> {
-        let end = self.search_pos.saturating_sub(self.buf.min_buffer_len());
-        if self.report_pos < end {
-            Some(end)
-        } else {
-            None
-        }
-    }
-}
-
-/// A builder for configuring an Aho-Corasick automaton.
-#[derive(Clone, Debug)]
-pub struct AhoCorasickBuilder {
-    nfa_builder: nfa::Builder,
-    dfa_builder: dfa::Builder,
-    dfa: bool,
-}
-
-impl Default for AhoCorasickBuilder {
-    fn default() -> AhoCorasickBuilder {
-        AhoCorasickBuilder::new()
-    }
-}
-
-impl AhoCorasickBuilder {
-    /// Create a new builder for configuring an Aho-Corasick automaton.
-    ///
-    /// If you don't need fine grained configuration or aren't sure which knobs
-    /// to set, try using
-    /// [`AhoCorasick::new_auto_configured`](struct.AhoCorasick.html#method.new_auto_configured)
-    /// instead.
-    pub fn new() -> AhoCorasickBuilder {
-        AhoCorasickBuilder {
-            nfa_builder: nfa::Builder::new(),
-            dfa_builder: dfa::Builder::new(),
-            dfa: false,
-        }
-    }
-
-    /// Build an Aho-Corasick automaton using the configuration set on this
-    /// builder.
-    ///
-    /// A builder may be reused to create more automatons.
-    ///
-    /// This method will use the default for representing internal state
-    /// identifiers, which is `usize`. This guarantees that building the
-    /// automaton will succeed and is generally a good default, but can make
-    /// the size of the automaton 2-8 times bigger than it needs to be,
-    /// depending on your target platform.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasickBuilder;
-    ///
-    /// let patterns = &["foo", "bar", "baz"];
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .build(patterns);
-    /// assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-    /// ```
-    pub fn build<I, P>(
-        &self,
-        patterns: I,
-    ) -> AhoCorasick
-    where I: IntoIterator<Item=P>,
-          P: AsRef<[u8]>
-    {
-        // The builder only returns an error if the chosen state ID
-        // representation is too small to fit all of the given patterns. In
-        // this case, since we fix the representation to usize, it will always
-        // work because it's impossible to overflow usize since the underlying
-        // storage would OOM long before that happens.
-        self.build_with_size::<usize, I, P>(patterns)
-            .expect("usize state ID type should always work")
-    }
-
-    /// Build an Aho-Corasick automaton using the configuration set on this
-    /// builder with a specific state identifier representation. This only has
-    /// an effect when the `dfa` option is enabled.
-    ///
-    /// Generally, the choices for a state identifier representation are
-    /// `u8`, `u16`, `u32`, `u64` or `usize`, with `usize` being the default.
-    /// The advantage of choosing a smaller state identifier representation
-    /// is that the automaton produced will be smaller. This might be
-    /// beneficial for just generally using less space, or might even allow it
-    /// to fit more of the automaton in your CPU's cache, leading to overall
-    /// better search performance.
-    ///
-    /// Unlike the standard `build` method, this can report an error if the
-    /// state identifier representation cannot support the size of the
-    /// automaton.
-    ///
-    /// Note that the state identifier representation is determined by the
-    /// `S` type variable. This requires a type hint of some sort, either
-    /// by specifying the return type or using the turbofish, e.g.,
-    /// `build_with_size::<u16, _, _>(...)`.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasick, AhoCorasickBuilder};
-    ///
-    /// # fn example() -> Result<(), ::aho_corasick::Error> {
-    /// let patterns = &["foo", "bar", "baz"];
-    /// let ac: AhoCorasick<u8> = AhoCorasickBuilder::new()
-    ///     .build_with_size(patterns)?;
-    /// assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-    /// # Ok(()) }; example().unwrap()
-    /// ```
-    ///
-    /// Or alternatively, with turbofish:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasickBuilder;
-    ///
-    /// # fn example() -> Result<(), ::aho_corasick::Error> {
-    /// let patterns = &["foo", "bar", "baz"];
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .build_with_size::<u8, _, _>(patterns)?;
-    /// assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-    /// # Ok(()) }; example().unwrap()
-    /// ```
-    pub fn build_with_size<S, I, P>(
-        &self,
-        patterns: I,
-    ) -> Result<AhoCorasick<S>>
-    where S: StateID,
-          I: IntoIterator<Item=P>,
-          P: AsRef<[u8]>
-    {
-        let nfa = self.nfa_builder.build(patterns)?;
-        let match_kind = nfa.match_kind().clone();
-        let imp =
-            if self.dfa {
-                let dfa = self.dfa_builder.build(&nfa)?;
-                Imp::DFA(dfa)
-            } else {
-                Imp::NFA(nfa)
-            };
-        Ok(AhoCorasick { imp, match_kind })
-    }
-
-    /// Automatically configure the settings on this builder according to the
-    /// patterns that will be used to construct the automaton.
-    ///
-    /// The idea here is to balance space and time automatically. That is, when
-    /// searching a small number of patterns, this will attempt to use the
-    /// fastest possible configuration since the total space required will be
-    /// small anyway. As the number of patterns grows, this will fall back to
-    /// slower configurations that use less space.
-    ///
-    /// This is guaranteed to never set `match_kind`, but any other option may
-    /// be overridden.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasickBuilder;
-    ///
-    /// let patterns = &["foo", "bar", "baz"];
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .auto_configure(patterns)
-    ///     .build(patterns);
-    /// assert_eq!(Some(1), ac.find("xxx bar xxx").map(|m| m.pattern()));
-    /// ```
-    pub fn auto_configure<B: AsRef<[u8]>>(
-        &mut self,
-        patterns: &[B],
-    ) -> &mut AhoCorasickBuilder {
-        // N.B. Currently we only use the length of `patterns` to make a
-        // decision here, and could therefore ask for an `ExactSizeIterator`
-        // instead. But it's conceivable that we might adapt this to look at
-        // the total number of bytes, which would requires a second pass.
-        //
-        // The logic here is fairly rudimentary at the moment, but probably
-        // OK. The idea here is to use the fastest thing possible for a small
-        // number of patterns. That is, a DFA with no byte classes, since byte
-        // classes require an extra indirection for every byte searched. With a
-        // moderate number of patterns, we still want a DFA, but save on both
-        // space and compilation time by enabling byte classes. Finally, fall
-        // back to the slower but smaller NFA.
-        if patterns.len() <= 100 {
-            // N.B. Using byte classes can actually be faster by improving
-            // locality, but this only really applies for multi-megabyte
-            // automata (i.e., automata that don't fit in your CPU's cache).
-            self.dfa(true).byte_classes(false);
-        } else if patterns.len() <= 5000 {
-            self.dfa(true);
-        }
-        self
-    }
-
-    /// Set the desired match semantics.
-    ///
-    /// The default is `MatchKind::Standard`, which corresponds to the match
-    /// semantics supported by the standard textbook description of the
-    /// Aho-Corasick algorithm. Namely, matches are reported as soon as they
-    /// are found. Moreover, this is the only way to get overlapping matches
-    /// or do stream searching.
-    ///
-    /// The other kinds of match semantics that are supported are
-    /// `MatchKind::LeftmostFirst` and `MatchKind::LeftmostLongest`. The former
-    /// corresponds to the match you would get if you were to try to match
-    /// each pattern at each position in the haystack in the same order that
-    /// you give to the automaton. That is, it returns the leftmost match
-    /// corresponding the earliest pattern given to the automaton. The latter
-    /// corresponds to finding the longest possible match among all leftmost
-    /// matches.
-    ///
-    /// For more details on match semantics, see the
-    /// [documentation for `MatchKind`](enum.MatchKind.html).
-    ///
-    /// # Examples
-    ///
-    /// In these examples, we demonstrate the differences between match
-    /// semantics for a particular set of patterns in a specific order:
-    /// `b`, `abc`, `abcd`.
-    ///
-    /// Standard semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["b", "abc", "abcd"];
-    /// let haystack = "abcd";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::Standard) // default, not necessary
-    ///     .build(patterns);
-    /// let mat = ac.find(haystack).expect("should have a match");
-    /// assert_eq!("b", &haystack[mat.start()..mat.end()]);
-    /// ```
-    ///
-    /// Leftmost-first semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["b", "abc", "abcd"];
-    /// let haystack = "abcd";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostFirst)
-    ///     .build(patterns);
-    /// let mat = ac.find(haystack).expect("should have a match");
-    /// assert_eq!("abc", &haystack[mat.start()..mat.end()]);
-    /// ```
-    ///
-    /// Leftmost-longest semantics:
-    ///
-    /// ```
-    /// use aho_corasick::{AhoCorasickBuilder, MatchKind};
-    ///
-    /// let patterns = &["b", "abc", "abcd"];
-    /// let haystack = "abcd";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .match_kind(MatchKind::LeftmostLongest)
-    ///     .build(patterns);
-    /// let mat = ac.find(haystack).expect("should have a match");
-    /// assert_eq!("abcd", &haystack[mat.start()..mat.end()]);
-    /// ```
-    pub fn match_kind(&mut self, kind: MatchKind) -> &mut AhoCorasickBuilder {
-        self.nfa_builder.match_kind(kind);
-        self
-    }
-
-    /// Enable ASCII-aware case insensitive matching.
-    ///
-    /// When this option is enabled, searching will be performed without
-    /// respect to case for ASCII letters (`a-z` and `A-Z`) only.
-    ///
-    /// Enabling this option does not change the search algorithm, but it may
-    /// increase the size of the automaton.
-    ///
-    /// **NOTE:** In the future, support for full Unicode case insensitivity
-    /// may be added, but ASCII case insensitivity is comparatively much
-    /// simpler to add.
-    ///
-    /// # Examples
-    ///
-    /// Basic usage:
-    ///
-    /// ```
-    /// use aho_corasick::AhoCorasickBuilder;
-    ///
-    /// let patterns = &["FOO", "bAr", "BaZ"];
-    /// let haystack = "foo bar baz";
-    ///
-    /// let ac = AhoCorasickBuilder::new()
-    ///     .ascii_case_insensitive(true)
-    ///     .build(patterns);
-    /// assert_eq!(3, ac.find_iter(haystack).count());
-    /// ```
-    pub fn ascii_case_insensitive(
-        &mut self,
-        yes: bool,
-    ) -> &mut AhoCorasickBuilder {
-        self.nfa_builder.ascii_case_insensitive(yes);
-        self
-    }
-
-    /// Set the limit on how many NFA states use a dense representation for
-    /// their transitions.
-    ///
-    /// A dense representation uses more space, but supports faster access to
-    /// transitions at search time. Thus, this setting permits the control of a
-    /// space vs time trade off when using the NFA variant of Aho-Corasick.
-    ///
-    /// This limit is expressed in terms of the depth of a state, i.e., the
-    /// number of transitions from the starting state of the NFA. The idea is
-    /// that most of the time searching will be spent near the starting state
-    /// of the automaton, so states near the start state should use a dense
-    /// representation. States further away from the start state would then use
-    /// a sparse representation, which uses less space but is slower to access
-    /// transitions at search time.
-    ///
-    /// By default, this is set to a low but non-zero number.
-    ///
-    /// This setting has no effect if the `dfa` option is enabled.
-    pub fn dense_depth(&mut self, depth: usize) -> &mut AhoCorasickBuilder {
-        self.nfa_builder.dense_depth(depth);
-        self
-    }
-
-    /// Compile the standard Aho-Corasick automaton into a deterministic finite
-    /// automaton (DFA).
-    ///
-    /// When this is disabled (which is the default), then a non-deterministic
-    /// finite automaton (NFA) is used instead.
-    ///
-    /// The main benefit to a DFA is that it can execute searches more quickly
-    /// than a DFA (perhaps 2-4 times as fast). The main drawback is that the
-    /// DFA uses more space and can take much longer to build.
-    ///
-    /// Enabling this option does not change the time complexity for
-    /// constructing the Aho-Corasick automaton (which is `O(p)` where
-    /// `p` is the total number of patterns being compiled). Enabling this
-    /// option does however reduce the time complexity of non-overlapping
-    /// searches from `O(n + p)` to `O(n)`, where `n` is the length of the
-    /// haystack.
-    ///
-    /// In general, it's a good idea to enable this if you're searching a
-    /// small number of fairly short patterns (~1000), or if you want the
-    /// fastest possible search without regard to compilation time or space
-    /// usage.
-    pub fn dfa(&mut self, yes: bool) -> &mut AhoCorasickBuilder {
-        self.dfa = yes;
-        self
-    }
-
-    /// Enable heuristic prefilter optimizations.
-    ///
-    /// When enabled, searching will attempt to quickly skip to match
-    /// candidates using specialized literal search routines. A prefilter
-    /// cannot always be used, and is generally treated as a heuristic. It
-    /// can be useful to disable this if the prefilter is observed to be
-    /// sub-optimal for a particular workload.
-    ///
-    /// This is enabled by default.
-    pub fn prefilter(&mut self, yes: bool) -> &mut AhoCorasickBuilder {
-        self.nfa_builder.prefilter(yes);
-        self
-    }
-
-    /// Shrink the size of the transition alphabet by mapping bytes to their
-    /// equivalence classes. This only has an effect when the `dfa` option is
-    /// enabled.
-    ///
-    /// When enabled, each a DFA will use a map from all possible bytes
-    /// to their corresponding equivalence class. Each equivalence class
-    /// represents a set of bytes that does not discriminate between a match
-    /// and a non-match in the DFA. For example, the patterns `bar` and `baz`
-    /// have at least five equivalence classes: singleton sets of `b`, `a`, `r`
-    /// and `z`, and a final set that contains every other byte.
-    ///
-    /// The advantage of this map is that the size of the transition table can
-    /// be reduced drastically from `#states * 256 * sizeof(id)` to
-    /// `#states * k * sizeof(id)` where `k` is the number of equivalence
-    /// classes. As a result, total space usage can decrease substantially.
-    /// Moreover, since a smaller alphabet is used, compilation becomes faster
-    /// as well.
-    ///
-    /// The disadvantage of this map is that every byte searched must be
-    /// passed through this map before it can be used to determine the next
-    /// transition. This has a small match time performance cost. However, if
-    /// the DFA is otherwise very large without byte classes, then using byte
-    /// classes can greatly improve memory locality and thus lead to better
-    /// overall performance.
-    ///
-    /// This option is enabled by default.
-    pub fn byte_classes(&mut self, yes: bool) -> &mut AhoCorasickBuilder {
-        self.dfa_builder.byte_classes(yes);
-        self
-    }
-
-    /// Premultiply state identifiers in the transition table. This only has
-    /// an effect when the `dfa` option is enabled.
-    ///
-    /// When enabled, state identifiers are premultiplied to point to their
-    /// corresponding row in the transition table. That is, given the `i`th
-    /// state, its corresponding premultiplied identifier is `i * k` where `k`
-    /// is the alphabet size of the automaton. (The alphabet size is at most
-    /// 256, but is in practice smaller if byte classes is enabled.)
-    ///
-    /// When state identifiers are not premultiplied, then the identifier of
-    /// the `i`th state is `i`.
-    ///
-    /// The advantage of premultiplying state identifiers is that is saves a
-    /// multiplication instruction per byte when searching with a DFA. This has
-    /// been observed to lead to a 20% performance benefit in micro-benchmarks.
-    ///
-    /// The primary disadvantage of premultiplying state identifiers is
-    /// that they require a larger integer size to represent. For example,
-    /// if the DFA has 200 states, then its premultiplied form requires 16
-    /// bits to represent every possible state identifier, where as its
-    /// non-premultiplied form only requires 8 bits.
-    ///
-    /// This option is enabled by default.
-    pub fn premultiply(&mut self, yes: bool) -> &mut AhoCorasickBuilder {
-        self.dfa_builder.premultiply(yes);
-        self
-    }
-}
-
-/// A knob for controlling the match semantics of an Aho-Corasick automaton.
-///
-/// There are two generally different ways that Aho-Corasick automatons can
-/// report matches. The first way is the "standard" approach that results from
-/// implementing most textbook explanations of Aho-Corasick. The second way is
-/// to report only the leftmost non-overlapping matches. The leftmost approach
-/// is in turn split into two different ways of resolving ambiguous matches:
-/// leftmost-first and leftmost-longest.
-///
-/// The `Standard` match kind is the default and is the only one that supports
-/// overlapping matches and stream searching. (Trying to find overlapping
-/// or streaming matches using leftmost match semantics will result in a
-/// panic.) The `Standard` match kind will report matches as they are seen.
-/// When searching for overlapping matches, then all possible matches are
-/// reported. When searching for non-overlapping matches, the first match seen
-/// is reported. For example, for non-overlapping matches, given the patterns
-/// `abcd` and `b` and the subject string `abcdef`, only a match for `b` is
-/// reported since it is detected first. The `abcd` match is never reported
-/// since it overlaps with the `b` match.
-///
-/// In contrast, the leftmost match kind always prefers the leftmost match
-/// among all possible matches. Given the same example as above with `abcd` and
-/// `b` as patterns and `abcdef` as the subject string, the leftmost match is
-/// `abcd` since it begins before the `b` match, even though the `b` match is
-/// detected before the `abcd` match. In this case, the `b` match is not
-/// reported at all since it overlaps with the `abcd` match.
-///
-/// The difference between leftmost-first and leftmost-longest is in how they
-/// resolve ambiguous matches when there are multiple leftmost matches to
-/// choose from. Leftmost-first always chooses the pattern that was provided
-/// earliest, where as leftmost-longest always chooses the longest matching
-/// pattern. For example, given the patterns `a` and `ab` and the subject
-/// string `ab`, the leftmost-first match is `a` but the leftmost-longest match
-/// is `ab`. Conversely, if the patterns were given in reverse order, i.e.,
-/// `ab` and `a`, then both the leftmost-first and leftmost-longest matches
-/// would be `ab`. Stated differently, the leftmost-first match depends on the
-/// order in which the patterns were given to the Aho-Corasick automaton.
-/// Because of that, when leftmost-first matching is used, if a pattern `A`
-/// that appears before a pattern `B` is a prefix of `B`, then it is impossible
-/// to ever observe a match of `B`.
-///
-/// If you're not sure which match kind to pick, then stick with the standard
-/// kind, which is the default. In particular, if you need overlapping or
-/// streaming matches, then you _must_ use the standard kind. The leftmost
-/// kinds are useful in specific circumstances. For example, leftmost-first can
-/// be very useful as a way to implement match priority based on the order of
-/// patterns given and leftmost-longest can be useful for dictionary searching
-/// such that only the longest matching words are reported.
-///
-/// # Relationship with regular expression alternations
-///
-/// Understanding match semantics can be a little tricky, and one easy way
-/// to conceptualize non-overlapping matches from an Aho-Corasick automaton
-/// is to think about them as a simple alternation of literals in a regular
-/// expression. For example, let's say we wanted to match the strings
-/// `Sam` and `Samwise`, which would turn into the regex `Sam|Samwise`. It
-/// turns out that regular expression engines have two different ways of
-/// matching this alternation. The first way, leftmost-longest, is commonly
-/// found in POSIX compatible implementations of regular expressions (such as
-/// `grep`). The second way, leftmost-first, is commonly found in backtracking
-/// implementations such as Perl. (Some regex engines, such as RE2 and Rust's
-/// regex engine do not use backtracking, but still implement leftmost-first
-/// semantics in an effort to match the behavior of dominant backtracking
-/// regex engines such as those found in Perl, Ruby, Python, Javascript and
-/// PHP.)
-///
-/// That is, when matching `Sam|Samwise` against `Samwise`, a POSIX regex
-/// will match `Samwise` because it is the longest possible match, but a
-/// Perl-like regex will match `Sam` since it appears earlier in the
-/// alternation. Indeed, the regex `Sam|Samwise` in a Perl-like regex engine
-/// will never match `Samwise` since `Sam` will always have higher priority.
-/// Conversely, matching the regex `Samwise|Sam` against `Samwise` will lead to
-/// a match of `Samwise` in both POSIX and Perl-like regexes since `Samwise` is
-/// still longest match, but it also appears earlier than `Sam`.
-///
-/// The "standard" match semantics of Aho-Corasick generally don't correspond
-/// to the match semantics of any large group of regex implementations, so
-/// there's no direct analogy that can be made here. Standard match semantics
-/// are generally useful for overlapping matches, or if you just want to see
-/// matches as they are detected.
-///
-/// The main conclusion to draw from this section is that the match semantics
-/// can be tweaked to precisely match either Perl-like regex alternations or
-/// POSIX regex alternations.
-#[derive(Clone, Copy, Debug, Eq, PartialEq)]
-pub enum MatchKind {
-    /// Use standard match semantics, which support overlapping matches. When
-    /// used with non-overlapping matches, matches are reported as they are
-    /// seen.
-    Standard,
-    /// Use leftmost-first match semantics, which reports leftmost matches.
-    /// When there are multiple possible leftmost matches, the match
-    /// corresponding to the pattern that appeared earlier when constructing
-    /// the automaton is reported.
-    ///
-    /// This does **not** support overlapping matches or stream searching. If
-    /// this match kind is used, attempting to find overlapping matches or
-    /// stream matches will panic.
-    LeftmostFirst,
-    /// Use leftmost-longest match semantics, which reports leftmost matches.
-    /// When there are multiple possible leftmost matches, the longest match
-    /// is chosen.
-    ///
-    /// This does **not** support overlapping matches or stream searching. If
-    /// this match kind is used, attempting to find overlapping matches or
-    /// stream matches will panic.
-    LeftmostLongest,
-    /// Hints that destructuring should not be exhaustive.
-    ///
-    /// This enum may grow additional variants, so this makes sure clients
-    /// don't count on exhaustive matching. (Otherwise, adding a new variant
-    /// could break existing code.)
-    #[doc(hidden)]
-    __Nonexhaustive,
-}
-
-/// The default match kind is `MatchKind::Standard`.
-impl Default for MatchKind {
-    fn default() -> MatchKind {
-        MatchKind::Standard
-    }
-}
-
-impl MatchKind {
-    fn supports_overlapping(&self) -> bool {
-        self.is_standard()
-    }
-
-    fn supports_stream(&self) -> bool {
-        // TODO: It may be possible to support this. It's hard.
-        //
-        // See: https://github.com/rust-lang/regex/issues/425#issuecomment-471367838
-        self.is_standard()
-    }
-
-    pub(crate) fn is_standard(&self) -> bool {
-        *self == MatchKind::Standard
-    }
-
-    pub(crate) fn is_leftmost(&self) -> bool {
-        *self == MatchKind::LeftmostFirst
-        || *self == MatchKind::LeftmostLongest
-    }
-
-    pub(crate) fn is_leftmost_first(&self) -> bool {
-        *self == MatchKind::LeftmostFirst
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    #[test]
-    fn oibits() {
-        use std::panic::{RefUnwindSafe, UnwindSafe};
-
-        fn assert_send<T: Send>() {}
-        fn assert_sync<T: Sync>() {}
-        fn assert_unwind_safe<T: RefUnwindSafe + UnwindSafe>() {}
-
-        assert_send::<AhoCorasick>();
-        assert_sync::<AhoCorasick>();
-        assert_unwind_safe::<AhoCorasick>();
-        assert_send::<AhoCorasickBuilder>();
-        assert_sync::<AhoCorasickBuilder>();
-        assert_unwind_safe::<AhoCorasickBuilder>();
-    }
-}
-
-
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-
-use ahocorasick::MatchKind;
-use prefilter::{Prefilter, PrefilterState};
-use state_id::{StateID, dead_id, fail_id};
-use Match;
-
-// NOTE: This trait was essentially copied from regex-automata, with some
-// wording changed since we use this trait for NFAs in addition to DFAs in this
-// crate. Additionally, we do not export this trait. It's only used internally
-// to reduce code duplication. The regex-automata crate needs to expose it
-// because its Regex type is generic over implementations of this trait. In
-// this crate, we can encapsulate everything behind the AhoCorasick type.
-
-/// A trait describing the interface of an Aho-Corasick finite state machine.
-///
-/// Every automaton has exactly one fail state, one dead state and exactly one
-/// start state. Generally, these correspond to the first, second and third
-/// states, respectively. The failure state is always treated as a sentinel.
-/// That is, no correct Aho-Corasick automaton will ever transition into the
-/// fail state. The dead state, however, can be transitioned into, but only
-/// when leftmost-first or leftmost-longest match semantics are enabled and
-/// only when at least one match has been observed.
-///
-/// Every automaton also has one or more match states, such that
-/// `Automaton::is_match_state_unchecked(id)` returns `true` if and only if
-/// `id` corresponds to a match state.
-pub trait Automaton {
-    /// The representation used for state identifiers in this automaton.
-    ///
-    /// Typically, this is one of `u8`, `u16`, `u32`, `u64` or `usize`.
-    type ID: StateID;
-
-    /// The type of matching that should be done.
-    fn match_kind(&self) -> &MatchKind;
-
-    /// An optional prefilter for quickly skipping to the next candidate match.
-    /// A prefilter must report at least every match, although it may report
-    /// positions that do not correspond to a match. That is, it must not allow
-    /// false negatives, but can allow false positives.
-    ///
-    /// Currently, a prefilter only runs when the automaton is in the start
-    /// state. That is, the position reported by a prefilter should always
-    /// correspond to the start of a potential match.
-    fn prefilter(&self) -> Option<&Prefilter>;
-
-    /// Return the identifier of this automaton's start state.
-    fn start_state(&self) -> Self::ID;
-
-    /// Returns true if and only if the given state identifier refers to a
-    /// valid state.
-    fn is_valid(&self, id: Self::ID) -> bool;
-
-    /// Returns true if and only if the given identifier corresponds to a match
-    /// state.
-    ///
-    /// The state ID given must be valid, or else implementors may panic.
-    fn is_match_state(&self, id: Self::ID) -> bool;
-
-    /// Returns true if and only if the given identifier corresponds to a state
-    /// that is either the dead state or a match state.
-    ///
-    /// Depending on the implementation of the automaton, this routine can
-    /// be used to save a branch in the core matching loop. Nevertheless,
-    /// `is_match_state(id) || id == dead_id()` is always a valid
-    /// implementation. Indeed, this is the default implementation.
-    ///
-    /// The state ID given must be valid, or else implementors may panic.
-    fn is_match_or_dead_state(&self, id: Self::ID) -> bool {
-        id == dead_id() || self.is_match_state(id)
-    }
-
-    /// If the given state is a match state, return the match corresponding
-    /// to the given match index. `end` must be the ending position of the
-    /// detected match. If no match exists or if `match_index` exceeds the
-    /// number of matches in this state, then `None` is returned.
-    ///
-    /// The state ID given must be valid, or else implementors may panic.
-    ///
-    /// If the given state ID is correct and if the `match_index` is less than
-    /// the number of matches for that state, then this is guaranteed to return
-    /// a match.
-    fn get_match(
-        &self,
-        id: Self::ID,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match>;
-
-    /// Returns the number of matches for the given state. If the given state
-    /// is not a match state, then this returns 0.
-    ///
-    /// The state ID given must be valid, or else implementors must panic.
-    fn match_count(&self, id: Self::ID) -> usize;
-
-    /// Given the current state that this automaton is in and the next input
-    /// byte, this method returns the identifier of the next state. The
-    /// identifier returned must always be valid and may never correspond to
-    /// the fail state. The returned identifier may, however, point to the
-    /// dead state.
-    ///
-    /// This is not safe so that implementors may look up the next state
-    /// without memory safety checks such as bounds checks. As such, callers
-    /// must ensure that the given identifier corresponds to a valid automaton
-    /// state. Implementors must, in turn, ensure that this routine is safe for
-    /// all valid state identifiers and for all possible `u8` values.
-    unsafe fn next_state_unchecked(
-        &self,
-        current: Self::ID,
-        input: u8,
-    ) -> Self::ID;
-
-    /// Like next_state_unchecked, but debug_asserts that the underlying
-    /// implementation never returns a `fail_id()` for the next state.
-    unsafe fn next_state_unchecked_no_fail(
-        &self,
-        current: Self::ID,
-        input: u8,
-    ) -> Self::ID {
-        let next = self.next_state_unchecked(current, input);
-        // We should never see a transition to the failure state.
-        debug_assert!(
-            next != fail_id(),
-            "automaton should never return fail_id for next state"
-        );
-        next
-    }
-
-    /// Execute a search using standard match semantics.
-    ///
-    /// This can be used even when the automaton was constructed with leftmost
-    /// match semantics when you want to find the earliest possible match. This
-    /// can also be used as part of an overlapping search implementation.
-    ///
-    /// N.B. This does not report a match if `state_id` is given as a matching
-    /// state. As such, this should not be used directly.
-    #[inline(always)]
-    fn standard_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-    ) -> Option<Match> {
-        if let Some(pre) = self.prefilter() {
-            self.standard_find_at_imp(
-                prestate, Some(pre), haystack, at, state_id,
-            )
-        } else {
-            self.standard_find_at_imp(
-                prestate, None, haystack, at, state_id,
-            )
-        }
-    }
-
-    // It's important for this to always be inlined. Namely, it's only caller
-    // is standard_find_at, and the inlining should remove the case analysis
-    // for prefilter scanning when there is no prefilter available.
-    #[inline(always)]
-    fn standard_find_at_imp(
-        &self,
-        prestate: &mut PrefilterState,
-        prefilter: Option<&Prefilter>,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-    ) -> Option<Match> {
-        // This is necessary for guaranteeing a safe API, since we use the
-        // state ID below in a function that exhibits UB if called with an
-        // invalid state ID.
-        assert!(
-            self.is_valid(*state_id),
-            "{} is not a valid state ID",
-            state_id.to_usize()
-        );
-        unsafe {
-            let start = haystack.as_ptr();
-            let end = haystack[haystack.len()..].as_ptr();
-            let mut ptr = haystack[at..].as_ptr();
-            while ptr < end {
-                if let Some(pre) = prefilter {
-                    if prestate.is_effective()
-                        && *state_id == self.start_state()
-                    {
-                        let at = ptr as usize - start as usize;
-                        match pre.next_candidate(haystack, at) {
-                            None => return None,
-                            Some(i) => {
-                                prestate.update(i - at);
-                                ptr = start.offset(i as isize);
-                            }
-                        }
-                    }
-                }
-                // SAFETY: next_state is safe for all possible u8 values,
-                // so the only thing we're concerned about is the validity
-                // of `state_id`. `state_id` either comes from the caller
-                // (in which case, we assert above that it is valid), or it
-                // comes from the return value of next_state, which is also
-                // guaranteed to be valid.
-                *state_id = self.next_state_unchecked_no_fail(*state_id, *ptr);
-                ptr = ptr.offset(1);
-                // This routine always quits immediately after seeing a
-                // match, and since dead states can only come after seeing
-                // a match, seeing a dead state here is impossible.
-                debug_assert!(
-                    *state_id != dead_id(),
-                    "standard find should never see a dead state"
-                );
-
-                let end = ptr as usize - start as usize;
-                if let Some(m) = self.get_match(*state_id, 0, end) {
-                    return Some(m);
-                }
-            }
-            None
-        }
-    }
-
-    /// Execute a search using leftmost (either first or longest) match
-    /// semantics.
-    ///
-    /// The principle difference between searching with standard semantics and
-    /// searching with leftmost semantics is that leftmost searching will
-    /// continue searching even after a match has been found. Once a match
-    /// is found, the search does not stop until either the haystack has been
-    /// exhausted or a dead state is observed in the automaton. (Dead states
-    /// only exist in automatons constructed with leftmost semantics.) That is,
-    /// we rely on the construction of the automaton to tell us when to quit.
-    #[inline(never)]
-    fn leftmost_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-    ) -> Option<Match> {
-        if let Some(pre) = self.prefilter() {
-            self.leftmost_find_at_imp(
-                prestate, Some(pre), haystack, at, state_id,
-            )
-        } else {
-            self.leftmost_find_at_imp(
-                prestate, None, haystack, at, state_id,
-            )
-        }
-    }
-
-    // It's important for this to always be inlined. Namely, it's only caller
-    // is leftmost_find_at, and the inlining should remove the case analysis
-    // for prefilter scanning when there is no prefilter available.
-    #[inline(always)]
-    fn leftmost_find_at_imp(
-        &self,
-        prestate: &mut PrefilterState,
-        prefilter: Option<&Prefilter>,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-    ) -> Option<Match> {
-        debug_assert!(self.match_kind().is_leftmost());
-        // This is necessary for guaranteeing a safe API, since we use the
-        // state ID below in a function that exhibits UB if called with an
-        // invalid state ID.
-        assert!(
-            self.is_valid(*state_id),
-            "{} is not a valid state ID",
-            state_id.to_usize()
-        );
-        unsafe {
-            let start = haystack.as_ptr();
-            let end = haystack[haystack.len()..].as_ptr();
-            let mut ptr = haystack[at..].as_ptr();
-
-            let mut last_match = self.get_match(*state_id, 0, at);
-            while ptr < end {
-                if let Some(pre) = prefilter {
-                    if prestate.is_effective()
-                        && *state_id == self.start_state()
-                    {
-                        let at = ptr as usize - start as usize;
-                        match pre.next_candidate(haystack, at) {
-                            None => return None,
-                            Some(i) => {
-                                prestate.update(i - at);
-                                ptr = start.offset(i as isize);
-                            }
-                        }
-                    }
-                }
-                // SAFETY: next_state is safe for all possible u8 values,
-                // so the only thing we're concerned about is the validity
-                // of `state_id`. `state_id` either comes from the caller
-                // (in which case, we assert above that it is valid), or it
-                // comes from the return value of next_state, which is also
-                // guaranteed to be valid.
-                *state_id = self.next_state_unchecked_no_fail(*state_id, *ptr);
-                ptr = ptr.offset(1);
-                if self.is_match_or_dead_state(*state_id) {
-                    if *state_id == dead_id() {
-                        // The only way to enter into a dead state is if a
-                        // match has been found, so we assert as much. This
-                        // is different from normal automata, where you might
-                        // enter a dead state if you know a subsequent match
-                        // will never be found (regardless of whether a match
-                        // has already been found). For Aho-Corasick, it is
-                        // built so that we can match at any position, so the
-                        // possibility of a match always exists.
-                        debug_assert!(
-                            last_match.is_some(),
-                            "failure state should only be seen after match"
-                        );
-                        return last_match;
-                    }
-                    let end = ptr as usize - start as usize;
-                    last_match = self.get_match(*state_id, 0, end);
-                }
-            }
-            last_match
-        }
-    }
-
-    /// Execute an overlapping search.
-    ///
-    /// When executing an overlapping match, the previous state ID in addition
-    /// to the previous match index should be given. If there are more matches
-    /// at the given state, then the match is reported and the given index is
-    /// incremented.
-    #[inline(always)]
-    fn overlapping_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-        match_index: &mut usize,
-    ) -> Option<Match> {
-        let match_count = self.match_count(*state_id);
-        if *match_index < match_count {
-            // This is guaranteed to return a match since
-            // match_index < match_count.
-            let result = self.get_match(
-                *state_id,
-                *match_index,
-                at,
-            );
-            debug_assert!(result.is_some(), "must be a match");
-            *match_index += 1;
-            return result;
-        }
-
-        *match_index = 0;
-        match self.standard_find_at(prestate, haystack, at, state_id) {
-            None => None,
-            Some(m) => {
-                *match_index = 1;
-                Some(m)
-            }
-        }
-    }
-
-    /// Return the earliest match found. This returns as soon as we know that
-    /// we have a match. As such, this does not necessarily correspond to the
-    /// leftmost starting match, but rather, the leftmost position at which a
-    /// match ends.
-    #[inline(always)]
-    fn earliest_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-    ) -> Option<Match> {
-        if *state_id == self.start_state() {
-            if let Some(m) = self.get_match(*state_id, 0, at) {
-                return Some(m);
-            }
-        }
-        self.standard_find_at(prestate, haystack, at, state_id)
-    }
-
-    /// A convenience function for finding the next match according to the
-    /// match semantics of this automaton. For standard match semantics, this
-    /// finds the earliest match. Otherwise, the leftmost match is found.
-    #[inline(always)]
-    fn find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut Self::ID,
-    ) -> Option<Match> {
-        match *self.match_kind() {
-            MatchKind::Standard => {
-                self.earliest_find_at(prestate, haystack, at, state_id)
-            }
-            MatchKind::LeftmostFirst | MatchKind::LeftmostLongest => {
-                self.leftmost_find_at(prestate, haystack, at, state_id)
-            }
-            MatchKind::__Nonexhaustive => unreachable!(),
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/aho_corasick/buffer.rs.html b/target/doc/src/aho_corasick/buffer.rs.html deleted file mode 100644 index 614fb6a..0000000 --- a/target/doc/src/aho_corasick/buffer.rs.html +++ /dev/null @@ -1,265 +0,0 @@ -buffer.rs.html -- source
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-
-use std::cmp;
-use std::io;
-use std::ptr;
-
-/// The default buffer capacity that we use for the stream buffer.
-const DEFAULT_BUFFER_CAPACITY: usize = 8 * (1<<10); // 8 KB
-
-/// A fairly simple roll buffer for supporting stream searches.
-///
-/// This buffer acts as a temporary place to store a fixed amount of data when
-/// reading from a stream. Its central purpose is to allow "rolling" some
-/// suffix of the data to the beginning of the buffer before refilling it with
-/// more data from the stream. For example, let's say we are trying to match
-/// "foobar" on a stream. When we report the match, we'd like to not only
-/// report the correct offsets at which the match occurs, but also the matching
-/// bytes themselves. So let's say our stream is a file with the following
-/// contents: `test test foobar test test`. Now assume that we happen to read
-/// the aforementioned file in two chunks: `test test foo` and `bar test test`.
-/// Naively, it would not be possible to report a single contiguous `foobar`
-/// match, but this roll buffer allows us to do that. Namely, after the second
-/// read, the contents of the buffer should be `st foobar test test`, where the
-/// search should ultimately resume immediately after `foo`. (The prefix `st `
-/// is included because the roll buffer saves N bytes at the end of the buffer,
-/// where N is the maximum possible length of a match.)
-///
-/// A lot of the logic for dealing with this is unfortunately split out between
-/// this roll buffer and the `StreamChunkIter`.
-#[derive(Debug)]
-pub struct Buffer {
-    /// The raw buffer contents. This has a fixed size and never increases.
-    buf: Vec<u8>,
-    /// The minimum size of the buffer, which is equivalent to the maximum
-    /// possible length of a match. This corresponds to the amount that we
-    /// roll
-    min: usize,
-    /// The end of the contents of this buffer.
-    end: usize,
-}
-
-impl Buffer {
-    /// Create a new buffer for stream searching. The minimum buffer length
-    /// given should be the size of the maximum possible match length.
-    pub fn new(min_buffer_len: usize) -> Buffer {
-        let min = cmp::max(1, min_buffer_len);
-        // The minimum buffer amount is also the amount that we roll our
-        // buffer in order to support incremental searching. To this end,
-        // our actual capacity needs to be at least 1 byte bigger than our
-        // minimum amount, otherwise we won't have any overlap. In actuality,
-        // we want our buffer to be a bit bigger than that for performance
-        // reasons, so we set a lower bound of `8 * min`.
-        //
-        // TODO: It would be good to find a way to test the streaming
-        // implementation with the minimal buffer size.
-        let capacity = cmp::max(min * 8, DEFAULT_BUFFER_CAPACITY);
-        Buffer {
-            buf: vec![0; capacity],
-            min,
-            end: 0,
-        }
-    }
-
-    /// Return the contents of this buffer.
-    #[inline]
-    pub fn buffer(&self) -> &[u8] {
-        &self.buf[..self.end]
-    }
-
-    /// Return the minimum size of the buffer. The only way a buffer may be
-    /// smaller than this is if the stream itself contains less than the
-    /// minimum buffer amount.
-    #[inline]
-    pub fn min_buffer_len(&self) -> usize {
-        self.min
-    }
-
-    /// Return the total length of the contents in the buffer.
-    #[inline]
-    pub fn len(&self) -> usize {
-        self.end
-    }
-
-    /// Return all free capacity in this buffer.
-    fn free_buffer(&mut self) -> &mut [u8] {
-        &mut self.buf[self.end..]
-    }
-
-    /// Refill the contents of this buffer by reading as much as possible into
-    /// this buffer's free capacity. If no more bytes could be read, then this
-    /// returns false. Otherwise, this reads until it has filled the buffer
-    /// past the minimum amount.
-    pub fn fill<R: io::Read>(&mut self, mut rdr: R) -> io::Result<bool> {
-        let mut readany = false;
-        loop {
-            let readlen = rdr.read(self.free_buffer())?;
-            if readlen == 0 {
-                return Ok(readany);
-            }
-            readany = true;
-            self.end += readlen;
-            if self.len() >= self.min {
-                return Ok(true);
-            }
-        }
-    }
-
-    /// Roll the contents of the buffer so that the suffix of this buffer is
-    /// moved to the front and all other contents are dropped. The size of the
-    /// suffix corresponds precisely to the minimum buffer length.
-    ///
-    /// This should only be called when the entire contents of this buffer have
-    /// been searched.
-    pub fn roll(&mut self) {
-        let roll_start = self.end
-            .checked_sub(self.min)
-            .expect("buffer capacity should be bigger than minimum amount");
-        let roll_len = self.min;
-
-        assert!(roll_start + roll_len <= self.end);
-        unsafe {
-            // SAFETY: A buffer contains Copy data, so there's no problem
-            // moving it around. Safety also depends on our indices being in
-            // bounds, which they always should be, given the assert above.
-            ptr::copy(
-                self.buf[roll_start..].as_ptr(),
-                self.buf.as_mut_ptr(),
-                roll_len,
-            );
-        }
-        self.end = roll_len;
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/aho_corasick/classes.rs.html b/target/doc/src/aho_corasick/classes.rs.html deleted file mode 100644 index 6f16b92..0000000 --- a/target/doc/src/aho_corasick/classes.rs.html +++ /dev/null @@ -1,489 +0,0 @@ -classes.rs.html -- source
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-
-use std::fmt;
-
-/// A representation of byte oriented equivalence classes.
-///
-/// This is used in an FSM to reduce the size of the transition table. This can
-/// have a particularly large impact not only on the total size of an FSM, but
-/// also on compile times.
-#[derive(Clone, Copy)]
-pub struct ByteClasses([u8; 256]);
-
-impl ByteClasses {
-    /// Creates a new set of equivalence classes where all bytes are mapped to
-    /// the same class.
-    pub fn empty() -> ByteClasses {
-        ByteClasses([0; 256])
-    }
-
-    /// Creates a new set of equivalence classes where each byte belongs to
-    /// its own equivalence class.
-    pub fn singletons() -> ByteClasses {
-        let mut classes = ByteClasses::empty();
-        for i in 0..256 {
-            classes.set(i as u8, i as u8);
-        }
-        classes
-    }
-
-    /// Set the equivalence class for the given byte.
-    #[inline]
-    pub fn set(&mut self, byte: u8, class: u8) {
-        self.0[byte as usize] = class;
-    }
-
-    /// Get the equivalence class for the given byte.
-    #[inline]
-    pub fn get(&self, byte: u8) -> u8 {
-        self.0[byte as usize]
-    }
-
-    /// Get the equivalence class for the given byte while forcefully
-    /// eliding bounds checks.
-    #[inline]
-    pub unsafe fn get_unchecked(&self, byte: u8) -> u8 {
-        *self.0.get_unchecked(byte as usize)
-    }
-
-    /// Return the total number of elements in the alphabet represented by
-    /// these equivalence classes. Equivalently, this returns the total number
-    /// of equivalence classes.
-    #[inline]
-    pub fn alphabet_len(&self) -> usize {
-        self.0[255] as usize + 1
-    }
-
-    /// Returns true if and only if every byte in this class maps to its own
-    /// equivalence class. Equivalently, there are 256 equivalence classes
-    /// and each class contains exactly one byte.
-    #[inline]
-    pub fn is_singleton(&self) -> bool {
-        self.alphabet_len() == 256
-    }
-
-    /// Returns an iterator over a sequence of representative bytes from each
-    /// equivalence class. Namely, this yields exactly N items, where N is
-    /// equivalent to the number of equivalence classes. Each item is an
-    /// arbitrary byte drawn from each equivalence class.
-    ///
-    /// This is useful when one is determinizing an NFA and the NFA's alphabet
-    /// hasn't been converted to equivalence classes yet. Picking an arbitrary
-    /// byte from each equivalence class then permits a full exploration of
-    /// the NFA instead of using every possible byte value.
-    pub fn representatives(&self) -> ByteClassRepresentatives {
-        ByteClassRepresentatives { classes: self, byte: 0, last_class: None }
-    }
-
-    /// Returns all of the bytes in the given equivalence class.
-    ///
-    /// The second element in the tuple indicates the number of elements in
-    /// the array.
-    fn elements(&self, equiv: u8) -> ([u8; 256], usize) {
-        let (mut array, mut len) = ([0; 256], 0);
-        for b in 0..256 {
-            if self.get(b as u8) == equiv {
-                array[len] = b as u8;
-                len += 1;
-            }
-        }
-        (array, len)
-    }
-}
-
-impl fmt::Debug for ByteClasses {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        if self.is_singleton() {
-            write!(f, "ByteClasses({{singletons}})")
-        } else {
-            write!(f, "ByteClasses(")?;
-            for equiv in 0..self.alphabet_len() {
-                let (members, len) = self.elements(equiv as u8);
-                write!(f, " {} => {:?}", equiv, &members[..len])?;
-            }
-            write!(f, ")")
-        }
-    }
-}
-
-/// An iterator over representative bytes from each equivalence class.
-#[derive(Debug)]
-pub struct ByteClassRepresentatives<'a> {
-    classes: &'a ByteClasses,
-    byte: usize,
-    last_class: Option<u8>,
-}
-
-impl<'a> Iterator for ByteClassRepresentatives<'a> {
-    type Item = u8;
-
-    fn next(&mut self) -> Option<u8> {
-        while self.byte < 256 {
-            let byte = self.byte as u8;
-            let class = self.classes.get(byte);
-            self.byte += 1;
-
-            if self.last_class != Some(class) {
-                self.last_class = Some(class);
-                return Some(byte);
-            }
-        }
-        None
-    }
-}
-
-/// A byte class builder keeps track of an *approximation* of equivalence
-/// classes of bytes during NFA construction. That is, every byte in an
-/// equivalence class cannot discriminate between a match and a non-match.
-///
-/// For example, in the literals `abc` and `xyz`, the bytes [\x00-`], [d-w]
-/// and [{-\xFF] never discriminate between a match and a non-match, precisely
-/// because they never occur in the literals anywhere.
-///
-/// Note though that this does not necessarily compute the minimal set of
-/// equivalence classes. For example, in the literals above, the byte ranges
-/// [\x00-`], [d-w] and [{-\xFF] are all treated as distinct equivalence
-/// classes even though they could be treated a single class. The reason for
-/// this is implementation complexity. In the future, we should endeavor to
-/// compute the minimal equivalence classes since they can have a rather large
-/// impact on the size of the DFA.
-///
-/// The representation here is 256 booleans, all initially set to false. Each
-/// boolean maps to its corresponding byte based on position. A `true` value
-/// indicates the end of an equivalence class, where its corresponding byte
-/// and all of the bytes corresponding to all previous contiguous `false`
-/// values are in the same equivalence class.
-///
-/// This particular representation only permits contiguous ranges of bytes to
-/// be in the same equivalence class, which means that we can never discover
-/// the true minimal set of equivalence classes.
-#[derive(Debug)]
-pub struct ByteClassBuilder(Vec<bool>);
-
-impl ByteClassBuilder {
-    /// Create a new builder of byte classes where all bytes are part of the
-    /// same equivalence class.
-    pub fn new() -> ByteClassBuilder {
-        ByteClassBuilder(vec![false; 256])
-    }
-
-    /// Indicate the the range of byte given (inclusive) can discriminate a
-    /// match between it and all other bytes outside of the range.
-    pub fn set_range(&mut self, start: u8, end: u8) {
-        debug_assert!(start <= end);
-        if start > 0 {
-            self.0[start as usize - 1] = true;
-        }
-        self.0[end as usize] = true;
-    }
-
-    /// Build byte classes that map all byte values to their corresponding
-    /// equivalence class. The last mapping indicates the largest equivalence
-    /// class identifier (which is never bigger than 255).
-    pub fn build(&self) -> ByteClasses {
-        let mut classes = ByteClasses::empty();
-        let mut class = 0u8;
-        let mut i = 0;
-        loop {
-            classes.set(i as u8, class as u8);
-            if i >= 255 {
-                break;
-            }
-            if self.0[i] {
-                class = class.checked_add(1).unwrap();
-            }
-            i += 1;
-        }
-        classes
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    #[test]
-    fn byte_classes() {
-        let mut set = ByteClassBuilder::new();
-        set.set_range(b'a', b'z');
-
-        let classes = set.build();
-        assert_eq!(classes.get(0), 0);
-        assert_eq!(classes.get(1), 0);
-        assert_eq!(classes.get(2), 0);
-        assert_eq!(classes.get(b'a' - 1), 0);
-        assert_eq!(classes.get(b'a'), 1);
-        assert_eq!(classes.get(b'm'), 1);
-        assert_eq!(classes.get(b'z'), 1);
-        assert_eq!(classes.get(b'z' + 1), 2);
-        assert_eq!(classes.get(254), 2);
-        assert_eq!(classes.get(255), 2);
-
-        let mut set = ByteClassBuilder::new();
-        set.set_range(0, 2);
-        set.set_range(4, 6);
-        let classes = set.build();
-        assert_eq!(classes.get(0), 0);
-        assert_eq!(classes.get(1), 0);
-        assert_eq!(classes.get(2), 0);
-        assert_eq!(classes.get(3), 1);
-        assert_eq!(classes.get(4), 2);
-        assert_eq!(classes.get(5), 2);
-        assert_eq!(classes.get(6), 2);
-        assert_eq!(classes.get(7), 3);
-        assert_eq!(classes.get(255), 3);
-    }
-
-    #[test]
-    fn full_byte_classes() {
-        let mut set = ByteClassBuilder::new();
-        for i in 0..256u16 {
-            set.set_range(i as u8, i as u8);
-        }
-        assert_eq!(set.build().alphabet_len(), 256);
-    }
-}
-
-
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-
-use std::mem::size_of;
-
-use ahocorasick::MatchKind;
-use automaton::Automaton;
-use classes::ByteClasses;
-use error::Result;
-use nfa::{NFA, PatternID, PatternLength};
-use prefilter::{Prefilter, PrefilterObj, PrefilterState};
-use state_id::{StateID, dead_id, fail_id, premultiply_overflow_error};
-use Match;
-
-#[derive(Clone, Debug)]
-pub enum DFA<S> {
-    Standard(Standard<S>),
-    ByteClass(ByteClass<S>),
-    Premultiplied(Premultiplied<S>),
-    PremultipliedByteClass(PremultipliedByteClass<S>),
-}
-
-impl<S: StateID> DFA<S> {
-    fn repr(&self) -> &Repr<S> {
-        match *self {
-            DFA::Standard(ref dfa) => dfa.repr(),
-            DFA::ByteClass(ref dfa) => dfa.repr(),
-            DFA::Premultiplied(ref dfa) => dfa.repr(),
-            DFA::PremultipliedByteClass(ref dfa) => dfa.repr(),
-        }
-    }
-
-    pub fn match_kind(&self) -> &MatchKind {
-        &self.repr().match_kind
-    }
-
-    pub fn heap_bytes(&self) -> usize {
-        self.repr().heap_bytes
-    }
-
-    pub fn max_pattern_len(&self) -> usize {
-        self.repr().max_pattern_len
-    }
-
-    pub fn pattern_count(&self) -> usize {
-        self.repr().pattern_count
-    }
-
-    pub fn start_state(&self) -> S {
-        self.repr().start_id
-    }
-
-    #[inline(always)]
-    pub fn overlapping_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut S,
-        match_index: &mut usize,
-    ) -> Option<Match> {
-        match *self {
-            DFA::Standard(ref dfa) => {
-                dfa.overlapping_find_at(
-                    prestate, haystack, at, state_id, match_index,
-                )
-            }
-            DFA::ByteClass(ref dfa) => {
-                dfa.overlapping_find_at(
-                    prestate, haystack, at, state_id, match_index,
-                )
-            }
-            DFA::Premultiplied(ref dfa) => {
-                dfa.overlapping_find_at(
-                    prestate, haystack, at, state_id, match_index,
-                )
-            }
-            DFA::PremultipliedByteClass(ref dfa) => {
-                dfa.overlapping_find_at(
-                    prestate, haystack, at, state_id, match_index,
-                )
-            }
-        }
-    }
-
-    #[inline(always)]
-    pub fn earliest_find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut S,
-    ) -> Option<Match> {
-        match *self {
-            DFA::Standard(ref dfa) => {
-                dfa.earliest_find_at(prestate, haystack, at, state_id)
-            }
-            DFA::ByteClass(ref dfa) => {
-                dfa.earliest_find_at(prestate, haystack, at, state_id)
-            }
-            DFA::Premultiplied(ref dfa) => {
-                dfa.earliest_find_at(prestate, haystack, at, state_id)
-            }
-            DFA::PremultipliedByteClass(ref dfa) => {
-                dfa.earliest_find_at(prestate, haystack, at, state_id)
-            }
-        }
-    }
-
-    #[inline(always)]
-    pub fn find_at(
-        &self,
-        prestate: &mut PrefilterState,
-        haystack: &[u8],
-        at: usize,
-        state_id: &mut S,
-    ) -> Option<Match> {
-        match *self {
-            DFA::Standard(ref dfa) => {
-                dfa.find_at(prestate, haystack, at, state_id)
-            }
-            DFA::ByteClass(ref dfa) => {
-                dfa.find_at(prestate, haystack, at, state_id)
-            }
-            DFA::Premultiplied(ref dfa) => {
-                dfa.find_at(prestate, haystack, at, state_id)
-            }
-            DFA::PremultipliedByteClass(ref dfa) => {
-                dfa.find_at(prestate, haystack, at, state_id)
-            }
-        }
-    }
-}
-
-#[derive(Clone, Debug)]
-pub struct Standard<S>(Repr<S>);
-
-impl<S: StateID> Standard<S> {
-    fn repr(&self) -> &Repr<S> {
-        &self.0
-    }
-}
-
-impl<S: StateID> Automaton for Standard<S> {
-    type ID = S;
-
-    fn match_kind(&self) -> &MatchKind {
-        &self.repr().match_kind
-    }
-
-    fn prefilter(&self) -> Option<&Prefilter> {
-        self.repr().prefilter.as_ref().map(|p| p.as_ref())
-    }
-
-    fn start_state(&self) -> S {
-        self.repr().start_id
-    }
-
-    fn is_valid(&self, id: S) -> bool {
-        id.to_usize() < self.repr().state_count
-    }
-
-    fn is_match_state(&self, id: S) -> bool {
-        self.repr().is_match_state(id)
-    }
-
-    fn is_match_or_dead_state(&self, id: S) -> bool {
-        self.repr().is_match_or_dead_state(id)
-    }
-
-    fn get_match(
-        &self,
-        id: S,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match> {
-        self.repr().get_match(id, match_index, end)
-    }
-
-    fn match_count(&self, id: S) -> usize {
-        self.repr().match_count(id)
-    }
-
-    unsafe fn next_state_unchecked(&self, current: S, input: u8) -> S {
-        let o = current.to_usize() * 256 + input as usize;
-        *self.repr().trans.get_unchecked(o)
-    }
-}
-
-#[derive(Clone, Debug)]
-pub struct ByteClass<S>(Repr<S>);
-
-impl<S: StateID> ByteClass<S> {
-    fn repr(&self) -> &Repr<S> {
-        &self.0
-    }
-}
-
-impl<S: StateID> Automaton for ByteClass<S> {
-    type ID = S;
-
-    fn match_kind(&self) -> &MatchKind {
-        &self.repr().match_kind
-    }
-
-    fn prefilter(&self) -> Option<&Prefilter> {
-        self.repr().prefilter.as_ref().map(|p| p.as_ref())
-    }
-
-    fn start_state(&self) -> S {
-        self.repr().start_id
-    }
-
-    fn is_valid(&self, id: S) -> bool {
-        id.to_usize() < self.repr().state_count
-    }
-
-    fn is_match_state(&self, id: S) -> bool {
-        self.repr().is_match_state(id)
-    }
-
-    fn is_match_or_dead_state(&self, id: S) -> bool {
-        self.repr().is_match_or_dead_state(id)
-    }
-
-    fn get_match(
-        &self,
-        id: S,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match> {
-        self.repr().get_match(id, match_index, end)
-    }
-
-    fn match_count(&self, id: S) -> usize {
-        self.repr().match_count(id)
-    }
-
-    unsafe fn next_state_unchecked(&self, current: S, input: u8) -> S {
-        let alphabet_len = self.repr().byte_classes.alphabet_len();
-        let input = self.repr().byte_classes.get_unchecked(input);
-        let o = current.to_usize() * alphabet_len + input as usize;
-        *self.repr().trans.get_unchecked(o)
-    }
-}
-
-#[derive(Clone, Debug)]
-pub struct Premultiplied<S>(Repr<S>);
-
-impl<S: StateID> Premultiplied<S> {
-    fn repr(&self) -> &Repr<S> {
-        &self.0
-    }
-}
-
-impl<S: StateID> Automaton for Premultiplied<S> {
-    type ID = S;
-
-    fn match_kind(&self) -> &MatchKind {
-        &self.repr().match_kind
-    }
-
-    fn prefilter(&self) -> Option<&Prefilter> {
-        self.repr().prefilter.as_ref().map(|p| p.as_ref())
-    }
-
-    fn start_state(&self) -> S {
-        self.repr().start_id
-    }
-
-    fn is_valid(&self, id: S) -> bool {
-        (id.to_usize() / 256) < self.repr().state_count
-    }
-
-    fn is_match_state(&self, id: S) -> bool {
-        self.repr().is_match_state(id)
-    }
-
-    fn is_match_or_dead_state(&self, id: S) -> bool {
-        self.repr().is_match_or_dead_state(id)
-    }
-
-    fn get_match(
-        &self,
-        id: S,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match> {
-        if id > self.repr().max_match {
-            return None;
-        }
-        self.repr()
-            .matches
-            .get(id.to_usize() / 256)
-            .and_then(|m| m.get(match_index))
-            .map(|&(id, len)| Match { pattern: id, len, end })
-    }
-
-    fn match_count(&self, id: S) -> usize {
-        let o = id.to_usize() / 256;
-        self.repr().matches[o].len()
-    }
-
-    unsafe fn next_state_unchecked(&self, current: S, input: u8) -> S {
-        let o = current.to_usize() + input as usize;
-        *self.repr().trans.get_unchecked(o)
-    }
-}
-
-#[derive(Clone, Debug)]
-pub struct PremultipliedByteClass<S>(Repr<S>);
-
-impl<S: StateID> PremultipliedByteClass<S> {
-    fn repr(&self) -> &Repr<S> {
-        &self.0
-    }
-}
-
-impl<S: StateID> Automaton for PremultipliedByteClass<S> {
-    type ID = S;
-
-    fn match_kind(&self) -> &MatchKind {
-        &self.repr().match_kind
-    }
-
-    fn prefilter(&self) -> Option<&Prefilter> {
-        self.repr().prefilter.as_ref().map(|p| p.as_ref())
-    }
-
-    fn start_state(&self) -> S {
-        self.repr().start_id
-    }
-
-    fn is_valid(&self, id: S) -> bool {
-        (id.to_usize() / self.repr().alphabet_len()) < self.repr().state_count
-    }
-
-    fn is_match_state(&self, id: S) -> bool {
-        self.repr().is_match_state(id)
-    }
-
-    fn is_match_or_dead_state(&self, id: S) -> bool {
-        self.repr().is_match_or_dead_state(id)
-    }
-
-    fn get_match(
-        &self,
-        id: S,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match> {
-        if id > self.repr().max_match {
-            return None;
-        }
-        self.repr()
-            .matches
-            .get(id.to_usize() / self.repr().alphabet_len())
-            .and_then(|m| m.get(match_index))
-            .map(|&(id, len)| Match { pattern: id, len, end })
-    }
-
-    fn match_count(&self, id: S) -> usize {
-        let o = id.to_usize() / self.repr().alphabet_len();
-        self.repr().matches[o].len()
-    }
-
-    unsafe fn next_state_unchecked(&self, current: S, input: u8) -> S {
-        let input = self.repr().byte_classes.get_unchecked(input);
-        let o = current.to_usize() + input as usize;
-        *self.repr().trans.get_unchecked(o)
-    }
-}
-
-#[derive(Clone, Debug)]
-pub struct Repr<S> {
-    match_kind: MatchKind,
-    premultiplied: bool,
-    start_id: S,
-    /// The length, in bytes, of the longest pattern in this automaton. This
-    /// information is useful for keeping correct buffer sizes when searching
-    /// on streams.
-    max_pattern_len: usize,
-    /// The total number of patterns added to this automaton. This includes
-    /// patterns that may never match.
-    pattern_count: usize,
-    state_count: usize,
-    max_match: S,
-    /// The number of bytes of heap used by this NFA's transition table.
-    heap_bytes: usize,
-    /// A prefilter for quickly detecting candidate matchs, if pertinent.
-    prefilter: Option<PrefilterObj>,
-    byte_classes: ByteClasses,
-    trans: Vec<S>,
-    matches: Vec<Vec<(PatternID, PatternLength)>>,
-}
-
-impl<S: StateID> Repr<S> {
-    /// Returns the total alphabet size for this DFA.
-    ///
-    /// If byte classes are enabled, then this corresponds to the number of
-    /// equivalence classes. If they are disabled, then this is always 256.
-    fn alphabet_len(&self) -> usize {
-        self.byte_classes.alphabet_len()
-    }
-
-    /// Returns true only if the given state is a match state.
-    fn is_match_state(&self, id: S) -> bool {
-        id <= self.max_match && id > dead_id()
-    }
-
-    /// Returns true only if the given state is either a dead state or a match
-    /// state.
-    fn is_match_or_dead_state(&self, id: S) -> bool {
-        id <= self.max_match
-    }
-
-    /// Get the ith match for the given state, where the end position of a
-    /// match was found at `end`.
-    ///
-    /// # Panics
-    ///
-    /// The caller must ensure that the given state identifier is valid,
-    /// otherwise this may panic. The `match_index` need not be valid. That is,
-    /// if the given state has no matches then this returns `None`.
-    fn get_match(
-        &self,
-        id: S,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match> {
-        if id > self.max_match {
-            return None;
-        }
-        self.matches
-            .get(id.to_usize())
-            .and_then(|m| m.get(match_index))
-            .map(|&(id, len)| Match { pattern: id, len, end })
-    }
-
-    /// Return the total number of matches for the given state.
-    ///
-    /// # Panics
-    ///
-    /// The caller must ensure that the given identifier is valid, or else
-    /// this panics.
-    fn match_count(&self, id: S) -> usize {
-        self.matches[id.to_usize()].len()
-    }
-
-    /// Get the next state given `from` as the current state and `byte` as the
-    /// current input byte.
-    fn next_state(&self, from: S, byte: u8) -> S {
-        let alphabet_len = self.alphabet_len();
-        let byte = self.byte_classes.get(byte);
-        self.trans[from.to_usize() * alphabet_len + byte as usize]
-    }
-
-    /// Set the `byte` transition for the `from` state to point to `to`.
-    fn set_next_state(&mut self, from: S, byte: u8, to: S) {
-        let alphabet_len = self.alphabet_len();
-        let byte = self.byte_classes.get(byte);
-        self.trans[from.to_usize() * alphabet_len + byte as usize] = to;
-    }
-
-    /// Swap the given states in place.
-    fn swap_states(&mut self, id1: S, id2: S) {
-        assert!(!self.premultiplied, "can't swap states in premultiplied DFA");
-
-        let o1 = id1.to_usize() * self.alphabet_len();
-        let o2 = id2.to_usize() * self.alphabet_len();
-        for b in 0..self.alphabet_len() {
-            self.trans.swap(o1 + b, o2 + b);
-        }
-        self.matches.swap(id1.to_usize(), id2.to_usize());
-    }
-
-    /// This routine shuffles all match states in this DFA to the beginning
-    /// of the DFA such that every non-match state appears after every match
-    /// state. (With one exception: the special fail and dead states remain as
-    /// the first two states.)
-    ///
-    /// The purpose of doing this shuffling is to avoid an extra conditional
-    /// in the search loop, and in particular, detecting whether a state is a
-    /// match or not does not need to access any memory.
-    ///
-    /// This updates `self.max_match` to point to the last matching state as
-    /// well as `self.start` if the starting state was moved.
-    fn shuffle_match_states(&mut self) {
-        assert!(
-            !self.premultiplied,
-            "cannot shuffle match states of premultiplied DFA"
-        );
-
-        if self.state_count <= 1 {
-            return;
-        }
-
-        let mut first_non_match = self.start_id.to_usize();
-        while first_non_match < self.state_count
-            && self.matches[first_non_match].len() > 0
-        {
-            first_non_match += 1;
-        }
-
-        let mut swaps: Vec<S> = vec![fail_id(); self.state_count];
-        let mut cur = self.state_count - 1;
-        while cur > first_non_match {
-            if self.matches[cur].len() > 0 {
-                self.swap_states(
-                    S::from_usize(cur),
-                    S::from_usize(first_non_match),
-                );
-                swaps[cur] = S::from_usize(first_non_match);
-                swaps[first_non_match] = S::from_usize(cur);
-
-                first_non_match += 1;
-                while first_non_match < cur
-                    && self.matches[first_non_match].len() > 0
-                {
-                    first_non_match += 1;
-                }
-            }
-            cur -= 1;
-        }
-        for id in (0..self.state_count).map(S::from_usize) {
-            let alphabet_len = self.alphabet_len();
-            let offset = id.to_usize() * alphabet_len;
-            for next in &mut self.trans[offset..offset + alphabet_len] {
-                if swaps[next.to_usize()] != fail_id() {
-                    *next = swaps[next.to_usize()];
-                }
-            }
-        }
-        if swaps[self.start_id.to_usize()] != fail_id() {
-            self.start_id = swaps[self.start_id.to_usize()];
-        }
-        self.max_match = S::from_usize(first_non_match - 1);
-    }
-
-    fn premultiply(&mut self) -> Result<()> {
-        if self.premultiplied || self.state_count <= 1 {
-            return Ok(());
-        }
-
-        let alpha_len = self.alphabet_len();
-        premultiply_overflow_error(
-            S::from_usize(self.state_count - 1),
-            alpha_len,
-        )?;
-
-        for id in (2..self.state_count).map(S::from_usize) {
-            let offset = id.to_usize() * alpha_len;
-            for next in &mut self.trans[offset..offset + alpha_len] {
-                if *next == dead_id() {
-                    continue;
-                }
-                *next = S::from_usize(next.to_usize() * alpha_len);
-            }
-        }
-        self.premultiplied = true;
-        self.start_id = S::from_usize(self.start_id.to_usize() * alpha_len);
-        self.max_match = S::from_usize(self.max_match.to_usize() * alpha_len);
-        Ok(())
-    }
-
-    /// Computes the total amount of heap used by this NFA in bytes.
-    fn calculate_size(&mut self) {
-        let mut size =
-            (self.trans.len() * size_of::<S>())
-            + (self.matches.len() *
-               size_of::<Vec<(PatternID, PatternLength)>>());
-        for state_matches in &self.matches {
-            size +=
-                state_matches.len() * size_of::<(PatternID, PatternLength)>();
-        }
-        self.heap_bytes = size;
-    }
-}
-
-/// A builder for configuring the determinization of an NFA into a DFA.
-#[derive(Clone, Debug)]
-pub struct Builder {
-    premultiply: bool,
-    byte_classes: bool,
-}
-
-impl Builder {
-    /// Create a new builder for a DFA.
-    pub fn new() -> Builder {
-        Builder {
-            premultiply: true,
-            byte_classes: true,
-        }
-    }
-
-    /// Build a DFA from the given NFA.
-    ///
-    /// This returns an error if the state identifiers exceed their
-    /// representation size. This can only happen when state ids are
-    /// premultiplied (which is enabled by default).
-    pub fn build<S: StateID>(&self, nfa: &NFA<S>) -> Result<DFA<S>> {
-        let byte_classes =
-            if self.byte_classes {
-                nfa.byte_classes().clone()
-            } else {
-                ByteClasses::singletons()
-            };
-        let alphabet_len = byte_classes.alphabet_len();
-        let trans = vec![fail_id(); alphabet_len * nfa.state_len()];
-        let matches = vec![vec![]; nfa.state_len()];
-        let mut repr = Repr {
-            match_kind: nfa.match_kind().clone(),
-            premultiplied: false,
-            start_id: nfa.start_state(),
-            max_pattern_len: nfa.max_pattern_len(),
-            pattern_count: nfa.pattern_count(),
-            state_count: nfa.state_len(),
-            max_match: fail_id(),
-            heap_bytes: 0,
-            prefilter: nfa.prefilter_obj().map(|p| p.clone()),
-            byte_classes: byte_classes.clone(),
-            trans: trans,
-            matches: matches,
-        };
-        for id in (0..nfa.state_len()).map(S::from_usize) {
-            repr.matches[id.to_usize()].extend_from_slice(nfa.matches(id));
-
-            let fail = nfa.failure_transition(id);
-            nfa.iter_all_transitions(&byte_classes, id, |b, mut next| {
-                if next == fail_id() {
-                    next = nfa_next_state_memoized(nfa, &repr, id, fail, b);
-                }
-                repr.set_next_state(id, b, next);
-            });
-        }
-        repr.shuffle_match_states();
-        repr.calculate_size();
-        if self.premultiply {
-            repr.premultiply()?;
-            if byte_classes.is_singleton() {
-                Ok(DFA::Premultiplied(Premultiplied(repr)))
-            } else {
-                Ok(DFA::PremultipliedByteClass(PremultipliedByteClass(repr)))
-            }
-        } else {
-            if byte_classes.is_singleton() {
-                Ok(DFA::Standard(Standard(repr)))
-            } else {
-                Ok(DFA::ByteClass(ByteClass(repr)))
-            }
-        }
-    }
-
-    /// Whether to use byte classes or in the DFA.
-    pub fn byte_classes(&mut self, yes: bool) -> &mut Builder {
-        self.byte_classes = yes;
-        self
-    }
-
-    /// Whether to premultiply state identifier in the DFA.
-    pub fn premultiply(&mut self, yes: bool) -> &mut Builder {
-        self.premultiply = yes;
-        self
-    }
-}
-
-/// This returns the next NFA transition (including resolving failure
-/// transitions), except once it sees a state id less than the id of the DFA
-/// state that is currently being populated, then we no longer need to follow
-/// failure transitions and can instead query the pre-computed state id from
-/// the DFA itself.
-///
-/// In general, this should only be called when a failure transition is seen.
-fn nfa_next_state_memoized<S: StateID>(
-    nfa: &NFA<S>,
-    dfa: &Repr<S>,
-    populating: S,
-    mut current: S,
-    input: u8,
-) -> S {
-    loop {
-        if current < populating {
-            return dfa.next_state(current, input);
-        }
-        let next = nfa.next_state(current, input);
-        if next != fail_id() {
-            return next;
-        }
-        current = nfa.failure_transition(current);
-    }
-}
-
-
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-
-use std::error;
-use std::fmt;
-use std::result;
-
-pub type Result<T> = result::Result<T, Error>;
-
-/// An error that occurred during the construction of an Aho-Corasick
-/// automaton.
-#[derive(Clone, Debug)]
-pub struct Error {
-    kind: ErrorKind,
-}
-
-/// The kind of error that occurred.
-#[derive(Clone, Debug)]
-pub enum ErrorKind {
-    /// An error that occurs when constructing an automaton would require the
-    /// use of a state ID that overflows the chosen state ID representation.
-    /// For example, if one is using `u8` for state IDs and builds a DFA with
-    /// 257 states, then the last state's ID will be `256` which cannot be
-    /// represented with `u8`.
-    StateIDOverflow {
-        /// The maximum possible state ID.
-        max: usize,
-    },
-    /// An error that occurs when premultiplication of state IDs is requested
-    /// when constructing an Aho-Corasick DFA, but doing so would overflow the
-    /// chosen state ID representation.
-    ///
-    /// When `max == requested_max`, then the state ID would overflow `usize`.
-    PremultiplyOverflow {
-        /// The maximum possible state id.
-        max: usize,
-        /// The maximum ID required by premultiplication.
-        requested_max: usize,
-    }
-}
-
-impl Error {
-    /// Return the kind of this error.
-    pub fn kind(&self) -> &ErrorKind {
-        &self.kind
-    }
-
-    pub(crate) fn state_id_overflow(max: usize) -> Error {
-        Error { kind: ErrorKind::StateIDOverflow { max } }
-    }
-
-    pub(crate) fn premultiply_overflow(
-        max: usize,
-        requested_max: usize,
-    ) -> Error {
-        Error { kind: ErrorKind::PremultiplyOverflow { max, requested_max } }
-    }
-}
-
-impl error::Error for Error {
-    fn description(&self) -> &str {
-        match self.kind {
-            ErrorKind::StateIDOverflow { .. } => {
-                "state id representation too small"
-            }
-            ErrorKind::PremultiplyOverflow { .. } => {
-                "state id representation too small for premultiplication"
-            }
-        }
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        match self.kind {
-            ErrorKind::StateIDOverflow { max } => {
-                write!(
-                    f,
-                    "building the automaton failed because it required \
-                     building more states that can be identified, where the \
-                     maximum ID for the chosen representation is {}",
-                    max,
-                )
-            }
-            ErrorKind::PremultiplyOverflow { max, requested_max } => {
-                if max == requested_max {
-                    write!(
-                        f,
-                        "premultiplication of states requires the ability to \
-                         represent a state ID greater than what can fit on \
-                         this platform's usize, which is {}",
-                        ::std::usize::MAX,
-                    )
-                } else {
-                    write!(
-                        f,
-                        "premultiplication of states requires the ability to \
-                         represent at least a state ID of {}, but the chosen \
-                         representation only permits a maximum state ID of {}",
-                        requested_max, max,
-                    )
-                }
-            }
-        }
-    }
-}
-
-
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-
-/*!
-A library for finding occurrences of many patterns at once. This library
-provides multiple pattern search principally through an implementation of the
-[Aho-Corasick algorithm](https://en.wikipedia.org/wiki/Aho%E2%80%93Corasick_algorithm),
-which builds a fast finite state machine for executing searches in linear time.
-
-Additionally, this library provides a number of configuration options for
-building the automaton that permit controlling the space versus time trade
-off. Other features include simple ASCII case insensitive matching, finding
-overlapping matches, replacements, searching streams and even searching and
-replacing text in streams.
-
-Finally, unlike all other (known) Aho-Corasick implementations, this one
-supports enabling
-[leftmost-first](enum.MatchKind.html#variant.LeftmostFirst)
-or
-[leftmost-longest](enum.MatchKind.html#variant.LeftmostFirst)
-match semantics, using a (seemingly) novel alternative construction algorithm.
-For more details on what match semantics means, see the
-[`MatchKind`](enum.MatchKind.html)
-type.
-
-# Overview
-
-This section gives a brief overview of the primary types in this crate:
-
-* [`AhoCorasick`](struct.AhoCorasick.html) is the primary type and represents
-  an Aho-Corasick automaton. This is the type you use to execute searches.
-* [`AhoCorasickBuilder`](struct.AhoCorasickBuilder.html) can be used to build
-  an Aho-Corasick automaton, and supports configuring a number of options.
-* [`Match`](struct.Match.html) represents a single match reported by an
-  Aho-Corasick automaton. Each match has two pieces of information: the pattern
-  that matched and the start and end byte offsets corresponding to the position
-  in the haystack at which it matched.
-
-# Example: basic searching
-
-This example shows how to search for occurrences of multiple patterns
-simultaneously. Each match includes the pattern that matched along with the
-byte offsets of the match.
-
-```
-use aho_corasick::AhoCorasick;
-
-let patterns = &["apple", "maple", "Snapple"];
-let haystack = "Nobody likes maple in their apple flavored Snapple.";
-
-let ac = AhoCorasick::new(patterns);
-let mut matches = vec![];
-for mat in ac.find_iter(haystack) {
-    matches.push((mat.pattern(), mat.start(), mat.end()));
-}
-assert_eq!(matches, vec![
-    (1, 13, 18),
-    (0, 28, 33),
-    (2, 43, 50),
-]);
-```
-
-# Example: case insensitivity
-
-This is like the previous example, but matches `Snapple` case insensitively
-using `AhoCorasickBuilder`:
-
-```
-use aho_corasick::AhoCorasickBuilder;
-
-let patterns = &["apple", "maple", "snapple"];
-let haystack = "Nobody likes maple in their apple flavored Snapple.";
-
-let ac = AhoCorasickBuilder::new()
-    .ascii_case_insensitive(true)
-    .build(patterns);
-let mut matches = vec![];
-for mat in ac.find_iter(haystack) {
-    matches.push((mat.pattern(), mat.start(), mat.end()));
-}
-assert_eq!(matches, vec![
-    (1, 13, 18),
-    (0, 28, 33),
-    (2, 43, 50),
-]);
-```
-
-# Example: replacing matches in a stream
-
-This example shows how to execute a search and replace on a stream without
-loading the entire stream into memory first.
-
-```
-use aho_corasick::AhoCorasick;
-
-# fn example() -> Result<(), ::std::io::Error> {
-let patterns = &["fox", "brown", "quick"];
-let replace_with = &["sloth", "grey", "slow"];
-
-// In a real example, these might be `std::fs::File`s instead. All you need to
-// do is supply a pair of `std::io::Read` and `std::io::Write` implementations.
-let rdr = "The quick brown fox.";
-let mut wtr = vec![];
-
-let ac = AhoCorasick::new(patterns);
-ac.stream_replace_all(rdr.as_bytes(), &mut wtr, replace_with)?;
-assert_eq!(b"The slow grey sloth.".to_vec(), wtr);
-# Ok(()) }; example().unwrap()
-```
-
-# Example: finding the leftmost first match
-
-In the textbook description of Aho-Corasick, its formulation is typically
-structured such that it reports all possible matches, even when they overlap
-with another. In many cases, overlapping matches may not be desired, such as
-the case of finding all successive non-overlapping matches like you might with
-a standard regular expression.
-
-Unfortunately the "obvious" way to modify the Aho-Corasick algorithm to do
-this doesn't always work in the expected way, since it will report matches as
-soon as they are seen. For example, consider matching the regex `Samwise|Sam`
-against the text `Samwise`. Most regex engines (that are Perl-like, or
-non-POSIX) will report `Samwise` as a match, but the standard Aho-Corasick
-algorithm modified for reporting non-overlapping matches will report `Sam`.
-
-A novel contribution of this library is the ability to change the match
-semantics of Aho-Corasick (without additional search time overhead) such that
-`Samwise` is reported instead. For example, here's the standard approach:
-
-```
-use aho_corasick::AhoCorasick;
-
-let patterns = &["Samwise", "Sam"];
-let haystack = "Samwise";
-
-let ac = AhoCorasick::new(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("Sam", &haystack[mat.start()..mat.end()]);
-```
-
-And now here's the leftmost-first version, which matches how a Perl-like
-regex will work:
-
-```
-use aho_corasick::{AhoCorasickBuilder, MatchKind};
-
-let patterns = &["Samwise", "Sam"];
-let haystack = "Samwise";
-
-let ac = AhoCorasickBuilder::new()
-    .match_kind(MatchKind::LeftmostFirst)
-    .build(patterns);
-let mat = ac.find(haystack).expect("should have a match");
-assert_eq!("Samwise", &haystack[mat.start()..mat.end()]);
-```
-
-In addition to leftmost-first semantics, this library also supports
-leftmost-longest semantics, which match the POSIX behavior of a regular
-expression alternation. See
-[`MatchKind`](enum.MatchKind.html)
-for more details.
-
-# Prefilters
-
-While an Aho-Corasick automaton can perform admirably when compared to more
-naive solutions, it is generally slower than more specialized algorithms that
-are accelerated using vector instructions such as SIMD.
-
-For that reason, this library will internally use a "prefilter" to attempt
-to accelerate searches when possible. Currently, this library has fairly
-limited implementation that only applies when there are 3 or fewer unique
-starting bytes among all patterns in an automaton.
-
-In the future, it is intended for this prefilter to grow more sophisticated
-by pushing applicable optimizations from the
-[`regex`](http://docs.rs/regex)
-crate (and other places) down into this library.
-
-While a prefilter is generally good to have on by default since it works well
-in the common case, it can lead to less predictable or even sub-optimal
-performance in some cases. For that reason, prefilters can be disabled via
-[`AhoCorasickBuilder::prefilter`](struct.AhoCorasickBuilder.html#method.prefilter).
-*/
-
-#![deny(missing_docs)]
-#![allow(bare_trait_objects)]
-
-// We can never be truly no_std, but we could be alloc-only some day, so
-// require the std feature for now.
-#[cfg(not(feature = "std"))]
-compile_error!("`std` feature is currently required to build this crate");
-
-extern crate memchr;
-#[cfg(test)]
-#[macro_use]
-extern crate doc_comment;
-
-#[cfg(test)]
-doctest!("../README.md");
-
-pub use ahocorasick::{
-    AhoCorasick, AhoCorasickBuilder, MatchKind,
-    FindIter, FindOverlappingIter, StreamFindIter,
-};
-pub use error::{Error, ErrorKind};
-pub use state_id::StateID;
-
-mod ahocorasick;
-mod automaton;
-mod buffer;
-mod dfa;
-mod error;
-mod classes;
-mod prefilter;
-mod nfa;
-mod state_id;
-#[cfg(test)]
-mod tests;
-
-/// A representation of a match reported by an Aho-Corasick automaton.
-///
-/// A match has two essential pieces of information: the identifier of the
-/// pattern that matched, along with the start and end offsets of the match
-/// in the haystack.
-///
-/// # Examples
-///
-/// Basic usage:
-///
-/// ```
-/// use aho_corasick::AhoCorasick;
-///
-/// let ac = AhoCorasick::new(&[
-///     "foo", "bar", "baz",
-/// ]);
-/// let mat = ac.find("xxx bar xxx").expect("should have a match");
-/// assert_eq!(1, mat.pattern());
-/// assert_eq!(4, mat.start());
-/// assert_eq!(7, mat.end());
-/// ```
-#[derive(Clone, Debug, Eq, Hash, PartialEq)]
-pub struct Match {
-    /// The pattern id.
-    pattern: usize,
-    /// The length of this match, such that the starting position of the match
-    /// is `end - len`.
-    ///
-    /// We use length here because, other than the pattern id, the only
-    /// information about each pattern that the automaton stores is its length.
-    /// So using the length here is just a bit more natural. But it isn't
-    /// technically required.
-    len: usize,
-    /// The end offset of the match, exclusive.
-    end: usize,
-}
-
-impl Match {
-    /// Returns the identifier of the pattern that matched.
-    ///
-    /// The identifier of a pattern is derived from the position in which it
-    /// was originally inserted into the corresponding automaton. The first
-    /// pattern has identifier `0`, and each subsequent pattern is `1`, `2`
-    /// and so on.
-    #[inline]
-    pub fn pattern(&self) -> usize {
-        self.pattern
-    }
-
-    /// The starting position of the match.
-    #[inline]
-    pub fn start(&self) -> usize {
-        self.end - self.len
-    }
-
-    /// The ending position of the match.
-    #[inline]
-    pub fn end(&self) -> usize {
-        self.end
-    }
-
-    /// Returns true if and only if this match is empty. That is, when
-    /// `start() == end()`.
-    ///
-    /// An empty match can only be returned when the empty string was among
-    /// the patterns used to build the Aho-Corasick automaton.
-    #[inline]
-    pub fn is_empty(&self) -> bool {
-        self.len == 0
-    }
-
-    #[inline]
-    fn increment(&self, by: usize) -> Match {
-        Match {
-            pattern: self.pattern,
-            len: self.len,
-            end: self.end + by,
-        }
-    }
-}
-
-
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-
-use std::collections::VecDeque;
-use std::cmp;
-use std::fmt;
-use std::mem::size_of;
-
-use ahocorasick::MatchKind;
-use automaton::Automaton;
-use classes::{ByteClasses, ByteClassBuilder};
-use error::Result;
-use prefilter::{self, Prefilter, PrefilterObj};
-use state_id::{StateID, dead_id, fail_id, usize_to_state_id};
-use Match;
-
-/// The identifier for a pattern, which is simply the position of the pattern
-/// in the sequence of patterns given by the caller.
-pub type PatternID = usize;
-
-/// The length of a pattern, in bytes.
-pub type PatternLength = usize;
-
-/// An Aho-Corasick automaton, represented as an NFA.
-///
-/// This is the classical formulation of Aho-Corasick, which involves building
-/// up a prefix trie of a given set of patterns, and then wiring up failure
-/// transitions between states in order to guarantee linear time matching. The
-/// standard formulation is, technically, an NFA because of these failure
-/// transitions. That is, one can see them as enabling the automaton to be in
-/// multiple states at once. Indeed, during search, it is possible to check
-/// the transitions on multiple states for a single input byte.
-///
-/// This particular implementation not only supports the standard style of
-/// matching, but also provides a mode for choosing leftmost-first or
-/// leftmost-longest match semantics. When a leftmost mode is chosen, some
-/// failure transitions that would otherwise be added are elided. See
-/// the documentation of `MatchKind` for more details and examples on how the
-/// match semantics may differ.
-///
-/// If one wants a DFA, then it is necessary to first build an NFA and convert
-/// it into a DFA. Note, however, that because we've constrained ourselves to
-/// matching literal patterns, this does not need to use subset construction
-/// for determinization. Instead, the DFA has at most a number of states
-/// equivalent to the number of NFA states. The only real difference between
-/// them is that all failure transitions are followed and pre-computed. This
-/// uses much more memory, but also executes searches more quickly.
-#[derive(Clone)]
-pub struct NFA<S> {
-    /// The match semantics built into this NFA.
-    match_kind: MatchKind,
-    /// The start state id as an index into `states`.
-    start_id: S,
-    /// The length, in bytes, of the longest pattern in this automaton. This
-    /// information is useful for keeping correct buffer sizes when searching
-    /// on streams.
-    max_pattern_len: usize,
-    /// The total number of patterns added to this automaton, including
-    /// patterns that may never be matched.
-    pattern_count: usize,
-    /// The number of bytes of heap used by this NFA's transition table.
-    heap_bytes: usize,
-    /// A prefilter for quickly skipping to candidate matches, if pertinent.
-    prefilter: Option<PrefilterObj>,
-    /// A set of equivalence classes in terms of bytes. We compute this while
-    /// building the NFA, but don't use it in the NFA's states. Instead, we
-    /// use this for building the DFA. We store it on the NFA since it's easy
-    /// to compute while visiting the the patterns.
-    byte_classes: ByteClasses,
-    /// A set of states. Each state defines its own transitions, a fail
-    /// transition and a set of indices corresponding to matches.
-    ///
-    /// The first state is always the fail state, which is used only as a
-    /// sentinel. Namely, in the final NFA, no transition into the fail state
-    /// exists. (Well, they do, but they aren't followed. Instead, the state's
-    /// failure transition is followed.)
-    ///
-    /// The second state (index 1) is always the dead state. Dead states are
-    /// in every automaton, but only used when leftmost-{first,longest} match
-    /// semantics are enabled. Specifically, they instruct search to stop
-    /// at specific points in order to report the correct match location. In
-    /// the standard Aho-Corasick construction, there are no transitions to
-    /// the dead state.
-    ///
-    /// The third state (index 2) is generally intended to be the starting or
-    /// "root" state.
-    states: Vec<State<S>>,
-}
-
-impl<S: StateID> NFA<S> {
-    /// Returns the equivalence classes of bytes found while constructing
-    /// this NFA.
-    ///
-    /// Note that the NFA doesn't actually make use of these equivalence
-    /// classes. Instead, these are useful for building the DFA when desired.
-    pub fn byte_classes(&self) -> &ByteClasses {
-        &self.byte_classes
-    }
-
-    /// Returns a start byte prefilter, if one exists.
-    pub fn prefilter_obj(&self) -> Option<&PrefilterObj> {
-        self.prefilter.as_ref()
-    }
-
-    /// Returns the total number of heap bytes used by this NFA's transition
-    /// table.
-    pub fn heap_bytes(&self) -> usize {
-        self.heap_bytes
-    }
-
-    /// Return the length of the longest pattern in this automaton.
-    pub fn max_pattern_len(&self) -> usize {
-        self.max_pattern_len
-    }
-
-    /// Return the total number of patterns added to this automaton.
-    pub fn pattern_count(&self) -> usize {
-        self.pattern_count
-    }
-
-    /// Returns the total number of states in this NFA.
-    pub fn state_len(&self) -> usize {
-        self.states.len()
-    }
-
-    /// Returns the matches for the given state.
-    pub fn matches(&self, id: S) -> &[(PatternID, PatternLength)] {
-        &self.states[id.to_usize()].matches
-    }
-
-    /// Returns an iterator over all transitions in the given state according
-    /// to the given equivalence classes, including transitions to `fail_id()`.
-    /// The number of transitions returned is always equivalent to the number
-    /// of equivalence classes.
-    pub fn iter_all_transitions<F: FnMut(u8, S)>(
-        &self,
-        byte_classes: &ByteClasses,
-        id: S,
-        f: F,
-    ) {
-        self.states[id.to_usize()].trans.iter_all(byte_classes, f);
-    }
-
-    /// Returns the failure transition for the given state.
-    pub fn failure_transition(&self, id: S) -> S {
-        self.states[id.to_usize()].fail
-    }
-
-    /// Returns the next state for the given state and input byte.
-    ///
-    /// Note that this does not follow failure transitions. As such, the id
-    /// returned may be `fail_id`.
-    pub fn next_state(&self, current: S, input: u8) -> S {
-        self.states[current.to_usize()].next_state(input)
-    }
-
-    fn state(&self, id: S) -> &State<S> {
-        &self.states[id.to_usize()]
-    }
-
-    fn state_mut(&mut self, id: S) -> &mut State<S> {
-        &mut self.states[id.to_usize()]
-    }
-
-    fn start(&self) -> &State<S> {
-        self.state(self.start_id)
-    }
-
-    fn start_mut(&mut self) -> &mut State<S> {
-        let id = self.start_id;
-        self.state_mut(id)
-    }
-
-    fn iter_transitions_mut(&mut self, id: S) -> IterTransitionsMut<S> {
-        IterTransitionsMut::new(self, id)
-    }
-
-    fn copy_matches(&mut self, src: S, dst: S) {
-        let (src, dst) = get_two_mut(
-            &mut self.states, src.to_usize(), dst.to_usize(),
-        );
-        dst.matches.extend_from_slice(&src.matches);
-    }
-
-    fn copy_empty_matches(&mut self, dst: S) {
-        let start_id = self.start_id;
-        self.copy_matches(start_id, dst);
-    }
-
-    fn add_dense_state(&mut self, depth: usize) -> Result<S> {
-        let trans = Transitions::Dense(vec![fail_id(); 256]);
-        let id = usize_to_state_id(self.states.len())?;
-        self.states.push(State {
-            trans,
-            fail: self.start_id,
-            depth: depth,
-            matches: vec![],
-        });
-        Ok(id)
-    }
-
-    fn add_sparse_state(&mut self, depth: usize) -> Result<S> {
-        let trans = Transitions::Sparse(vec![]);
-        let id = usize_to_state_id(self.states.len())?;
-        self.states.push(State {
-            trans,
-            fail: self.start_id,
-            depth: depth,
-            matches: vec![],
-        });
-        Ok(id)
-    }
-}
-
-impl<S: StateID> Automaton for NFA<S> {
-    type ID = S;
-
-    fn match_kind(&self) -> &MatchKind {
-        &self.match_kind
-    }
-
-    fn prefilter(&self) -> Option<&Prefilter> {
-        self.prefilter.as_ref().map(|p| p.as_ref())
-    }
-
-    fn start_state(&self) -> S {
-        self.start_id
-    }
-
-    fn is_valid(&self, id: S) -> bool {
-        id.to_usize() < self.states.len()
-    }
-
-    fn is_match_state(&self, id: S) -> bool {
-        self.states[id.to_usize()].is_match()
-    }
-
-    fn get_match(
-        &self,
-        id: S,
-        match_index: usize,
-        end: usize,
-    ) -> Option<Match> {
-        let state = match self.states.get(id.to_usize()) {
-            None => return None,
-            Some(state) => state,
-        };
-        state.matches
-            .get(match_index)
-            .map(|&(id, len)| Match { pattern: id, len, end })
-    }
-
-    fn match_count(&self, id: S) -> usize {
-        self.states[id.to_usize()].matches.len()
-    }
-
-    unsafe fn next_state_unchecked(&self, mut current: S, input: u8) -> S {
-        // This terminates since:
-        //
-        // 1. `State.fail` never points to fail_id().
-        // 2. All `State.fail` values point to a state closer to `start`.
-        // 3. The start state has no transitions to fail_id().
-        loop {
-            let state = self.states.get_unchecked(current.to_usize());
-            let next = state.next_state(input);
-            if next != fail_id() {
-                return next;
-            }
-            current = state.fail;
-        }
-    }
-}
-
-/// A representation of an NFA state for an Aho-Corasick automaton.
-///
-/// It contains the transitions to the next state, a failure transition for
-/// cases where there exists no other transition for the current input byte,
-/// the matches implied by visiting this state (if any) and the depth of this
-/// state. The depth of a state is simply the distance from it to the start
-/// state in the automaton, where the depth of the start state is 0.
-#[derive(Clone, Debug)]
-pub struct State<S> {
-    trans: Transitions<S>,
-    fail: S,
-    matches: Vec<(PatternID, PatternLength)>,
-    // TODO: Strictly speaking, this isn't needed for searching. It's only
-    // used when building an NFA that supports leftmost match semantics. We
-    // could drop this from the state and dynamically build a map only when
-    // computing failure transitions, but it's not clear which is better.
-    // Benchmark this.
-    depth: usize,
-}
-
-impl<S: StateID> State<S> {
-    fn heap_bytes(&self) -> usize {
-        self.trans.heap_bytes()
-        + (self.matches.len() * size_of::<(PatternID, PatternLength)>())
-    }
-
-    fn add_match(&mut self, i: PatternID, len: PatternLength) {
-        self.matches.push((i, len));
-    }
-
-    fn is_match(&self) -> bool {
-        !self.matches.is_empty()
-    }
-
-    fn get_longest_match_len(&self) -> Option<usize> {
-        // Why is this true? Because the first match in any matching state
-        // will always correspond to the match added to it during trie
-        // construction (since when we copy matches due to failure transitions,
-        // we always append them). Therefore, it follows that the first match
-        // must always be longest since any subsequent match must be from a
-        // failure transition, and a failure transition by construction points
-        // to a proper suffix. A proper suffix is, by definition, smaller.
-        self.matches.get(0).map(|&(_, len)| len)
-    }
-
-    fn next_state(&self, input: u8) -> S {
-        self.trans.next_state(input)
-    }
-
-    fn set_next_state(&mut self, input: u8, next: S) {
-        self.trans.set_next_state(input, next);
-    }
-}
-
-/// A representation of transitions in an NFA.
-///
-/// Transitions have either a sparse representation, which is slower for
-/// lookups but uses less memory, or a dense representation, which is faster
-/// for lookups but uses more memory. In the sparse representation, the absence
-/// of a state implies a transition to `fail_id()`. Transitions to `dead_id()`
-/// are still explicitly represented.
-///
-/// For the NFA, by default, we use a dense representation for transitions for
-/// states close to the start state because it's likely these are the states
-/// that will be most frequently visited.
-#[derive(Clone, Debug)]
-enum Transitions<S> {
-    Sparse(Vec<(u8, S)>),
-    Dense(Vec<S>),
-}
-
-impl<S: StateID> Transitions<S> {
-    fn heap_bytes(&self) -> usize {
-        match *self {
-            Transitions::Sparse(ref sparse) => {
-                sparse.len() * size_of::<(u8, S)>()
-            }
-            Transitions::Dense(ref dense) => {
-                dense.len() * size_of::<S>()
-            }
-        }
-    }
-
-    fn next_state(&self, input: u8) -> S {
-        match *self {
-            Transitions::Sparse(ref sparse) => {
-                for &(b, id) in sparse {
-                    if b == input {
-                        return id;
-                    }
-                }
-                fail_id()
-            }
-            Transitions::Dense(ref dense) => {
-                // SAFETY: This is safe because all dense transitions have
-                // exactly 256 elements, so all u8 values are valid indices.
-                unsafe { *dense.get_unchecked(input as usize) }
-            }
-        }
-    }
-
-    fn set_next_state(&mut self, input: u8, next: S) {
-        match *self {
-            Transitions::Sparse(ref mut sparse) => {
-                match sparse.binary_search_by_key(&input, |&(b, _)| b) {
-                    Ok(i) => sparse[i] = (input, next),
-                    Err(i) => sparse.insert(i, (input, next)),
-                }
-            }
-            Transitions::Dense(ref mut dense) => {
-                dense[input as usize] = next;
-            }
-        }
-    }
-
-    /// Iterate over transitions in this state while skipping over transitions
-    /// to `fail_id()`.
-    fn iter<F: FnMut(u8, S)>(&self, mut f: F) {
-        match *self {
-            Transitions::Sparse(ref sparse) => {
-                for &(b, id) in sparse {
-                    f(b, id);
-                }
-            }
-            Transitions::Dense(ref dense) => {
-                for b in AllBytesIter::new() {
-                    let id = dense[b as usize];
-                    if id != fail_id() {
-                        f(b, id);
-                    }
-                }
-            }
-        }
-    }
-
-    /// Iterate over all transitions in this state according to the given
-    /// equivalence classes, including transitions to `fail_id()`.
-    fn iter_all<F: FnMut(u8, S)>(&self, classes: &ByteClasses, mut f: F) {
-        if classes.is_singleton() {
-            match *self {
-                Transitions::Sparse(ref sparse) => {
-                    sparse_iter(sparse, f);
-                }
-                Transitions::Dense(ref dense) => {
-                    for b in AllBytesIter::new() {
-                        f(b, dense[b as usize]);
-                    }
-                }
-            }
-        } else {
-            // In this case, we only want to yield a single byte for each
-            // equivalence class.
-            match *self {
-                Transitions::Sparse(ref sparse) => {
-                    let mut last_class = None;
-                    sparse_iter(sparse, |b, next| {
-                        let class = classes.get(b);
-                        if last_class != Some(class) {
-                            last_class = Some(class);
-                            f(b, next);
-                        }
-                    })
-                }
-                Transitions::Dense(ref dense) => {
-                    for b in classes.representatives() {
-                        f(b, dense[b as usize]);
-                    }
-                }
-            }
-        }
-    }
-}
-
-/// Iterator over transitions in a state, skipping transitions to `fail_id()`.
-///
-/// This abstracts over the representation of NFA transitions, which may be
-/// either in a sparse or dense representation.
-///
-/// This somewhat idiosyncratically borrows the NFA mutably, so that when one
-/// is iterating over transitions, the caller can still mutate the NFA. This
-/// is useful when creating failure transitions.
-#[derive(Debug)]
-struct IterTransitionsMut<'a, S: StateID + 'a> {
-    nfa: &'a mut NFA<S>,
-    state_id: S,
-    cur: usize,
-}
-
-impl<'a, S: StateID> IterTransitionsMut<'a, S> {
-    fn new(nfa: &'a mut NFA<S>, state_id: S) -> IterTransitionsMut<'a, S> {
-        IterTransitionsMut { nfa, state_id, cur: 0 }
-    }
-
-    fn nfa(&mut self) -> &mut NFA<S> {
-        self.nfa
-    }
-}
-
-impl<'a, S: StateID> Iterator for IterTransitionsMut<'a, S> {
-    type Item = (u8, S);
-
-    fn next(&mut self) -> Option<(u8, S)> {
-        match self.nfa.states[self.state_id.to_usize()].trans {
-            Transitions::Sparse(ref sparse) => {
-                if self.cur >= sparse.len() {
-                    return None;
-                }
-                let i = self.cur;
-                self.cur += 1;
-                Some(sparse[i])
-            }
-            Transitions::Dense(ref dense) => {
-                while self.cur < dense.len() {
-                    // There are always exactly 255 transitions in dense repr.
-                    debug_assert!(self.cur < 256);
-
-                    let b = self.cur as u8;
-                    let id = dense[self.cur];
-                    self.cur += 1;
-                    if id != fail_id() {
-                        return Some((b, id));
-                    }
-                }
-                None
-            }
-        }
-    }
-}
-
-/// A simple builder for configuring the NFA construction of Aho-Corasick.
-#[derive(Clone, Debug)]
-pub struct Builder {
-    dense_depth: usize,
-    match_kind: MatchKind,
-    prefilter: bool,
-    ascii_case_insensitive: bool,
-}
-
-impl Default for Builder {
-    fn default() -> Builder {
-        Builder {
-            dense_depth: 2,
-            match_kind: MatchKind::default(),
-            prefilter: true,
-            ascii_case_insensitive: false,
-        }
-    }
-}
-
-impl Builder {
-    pub fn new() -> Builder {
-        Builder::default()
-    }
-
-    pub fn build<I, P, S: StateID>(
-        &self,
-        patterns: I,
-    ) -> Result<NFA<S>>
-    where I: IntoIterator<Item=P>,
-          P: AsRef<[u8]>
-    {
-        Compiler::new(self)?.compile(patterns)
-    }
-
-    pub fn match_kind(&mut self, kind: MatchKind) -> &mut Builder {
-        self.match_kind = kind;
-        self
-    }
-
-    pub fn dense_depth(&mut self, depth: usize) -> &mut Builder {
-        self.dense_depth = depth;
-        self
-    }
-
-    pub fn prefilter(&mut self, yes: bool) -> &mut Builder {
-        self.prefilter = yes;
-        self
-    }
-
-    pub fn ascii_case_insensitive(&mut self, yes: bool) -> &mut Builder {
-        self.ascii_case_insensitive = yes;
-        self
-    }
-}
-
-/// A compiler uses a builder configuration and builds up the NFA formulation
-/// of an Aho-Corasick automaton. This roughly corresponds to the standard
-/// formulation described in textbooks.
-#[derive(Debug)]
-struct Compiler<'a, S: StateID> {
-    builder: &'a Builder,
-    nfa: NFA<S>,
-    byte_classes: ByteClassBuilder,
-}
-
-impl<'a, S: StateID> Compiler<'a, S> {
-    fn new(builder: &'a Builder) -> Result<Compiler<'a, S>> {
-        Ok(Compiler {
-            builder: builder,
-            nfa: NFA {
-                match_kind: builder.match_kind,
-                start_id: usize_to_state_id(2)?,
-                max_pattern_len: 0,
-                pattern_count: 0,
-                heap_bytes: 0,
-                prefilter: None,
-                byte_classes: ByteClasses::singletons(),
-                states: vec![],
-            },
-            byte_classes: ByteClassBuilder::new(),
-        })
-    }
-
-    fn compile<I, P>(
-        mut self,
-        patterns: I,
-    ) -> Result<NFA<S>>
-    where I: IntoIterator<Item=P>,
-          P: AsRef<[u8]>
-    {
-        self.add_state(0)?; // the fail state, which is never entered
-        self.add_state(0)?; // the dead state, only used for leftmost
-        self.add_state(0)?; // the start state
-        self.build_trie(patterns)?;
-        self.add_start_state_loop();
-        self.add_dead_state_loop();
-        if self.match_kind().is_leftmost() {
-            self.fill_failure_transitions_leftmost();
-        } else {
-            self.fill_failure_transitions_standard();
-        }
-        self.close_start_state_loop();
-        self.nfa.byte_classes = self.byte_classes.build();
-        self.build_prefilters();
-        self.calculate_size();
-        Ok(self.nfa)
-    }
-
-    /// This sets up the initial prefix trie that makes up the Aho-Corasick
-    /// automaton. Effectively, it creates the basic structure of the
-    /// automaton, where every pattern given has a path from the start state to
-    /// the end of the pattern.
-    fn build_trie<I, P>(
-        &mut self,
-        patterns: I,
-    ) -> Result<()>
-    where I: IntoIterator<Item=P>,
-          P: AsRef<[u8]>
-    {
-    'PATTERNS:
-        for (pati, pat) in patterns.into_iter().enumerate() {
-            let pat = pat.as_ref();
-            self.nfa.max_pattern_len = cmp::max(
-                self.nfa.max_pattern_len, pat.len(),
-            );
-            self.nfa.pattern_count += 1;
-
-            let mut prev = self.nfa.start_id;
-            let mut saw_match = false;
-            for (depth, &b) in pat.iter().enumerate() {
-                // When leftmost-first match semantics are requested, we
-                // specifically stop adding patterns when a previously added
-                // pattern is a prefix of it. We avoid adding it because
-                // leftmost-first semantics imply that the pattern can never
-                // match. This is not just an optimization to save space! It
-                // is necessary for correctness. In fact, this is the only
-                // difference in the automaton between the implementations for
-                // leftmost-first and leftmost-longest.
-                saw_match = saw_match || self.nfa.state(prev).is_match();
-                if self.builder.match_kind.is_leftmost_first() && saw_match {
-                    // Skip to the next pattern immediately. This avoids
-                    // incorrectly adding a match after this loop terminates.
-                    continue 'PATTERNS;
-                }
-
-                // Add this byte to our equivalence classes. We don't use these
-                // for NFA construction. These are instead used only if we're
-                // building a DFA. They would technically be useful for the
-                // NFA, but it would require a second pass over the patterns.
-                self.byte_classes.set_range(b, b);
-
-                // If the transition from prev using the current byte already
-                // exists, then just move through it. Otherwise, add a new
-                // state. We track the depth here so that we can determine
-                // how to represent transitions. States near the start state
-                // use a dense representation that uses more memory but is
-                // faster. Other states use a sparse representation that uses
-                // less memory but is slower.
-                let next = self.nfa.state(prev).next_state(b);
-                if next != fail_id() {
-                    prev = next;
-                } else {
-                    let next = self.add_state(depth + 1)?;
-                    self.nfa.state_mut(prev).set_next_state(b, next);
-                    if self.builder.ascii_case_insensitive {
-                        if b'A' <= b && b <= b'Z' {
-                            let b = b.to_ascii_lowercase();
-                            self.nfa.state_mut(prev).set_next_state(b, next);
-                        } else if b'a' <= b && b <= b'z' {
-                            let b = b.to_ascii_uppercase();
-                            self.nfa.state_mut(prev).set_next_state(b, next);
-                        }
-                    }
-                    prev = next;
-                }
-            }
-            // Once the pattern has been added, log the match in the final
-            // state that it reached.
-            self.nfa.state_mut(prev).add_match(pati, pat.len());
-        }
-        Ok(())
-    }
-
-    /// This routine creates failure transitions according to the standard
-    /// textbook formulation of the Aho-Corasick algorithm.
-    ///
-    /// Building failure transitions is the most interesting part of building
-    /// the Aho-Corasick automaton, because they are what allow searches to
-    /// be performed in linear time. Specifically, a failure transition is
-    /// a single transition associated with each state that points back to
-    /// the longest proper suffix of the pattern being searched. The failure
-    /// transition is followed whenever there exists no transition on the
-    /// current state for the current input byte. If there is no other proper
-    /// suffix, then the failure transition points back to the starting state.
-    ///
-    /// For example, let's say we built an Aho-Corasick automaton with the
-    /// following patterns: 'abcd' and 'cef'. The trie looks like this:
-    ///
-    /// ```ignore
-    ///          a - S1 - b - S2 - c - S3 - d - S4*
-    ///         /
-    ///     S0 - c - S5 - e - S6 - f - S7*
-    /// ```
-    ///
-    /// At this point, it should be fairly straight-forward to see how this
-    /// trie can be used in a simplistic way. At any given position in the
-    /// text we're searching (called the "subject" string), all we need to do
-    /// is follow the transitions in the trie by consuming one transition for
-    /// each byte in the subject string. If we reach a match state, then we can
-    /// report that location as a match.
-    ///
-    /// The trick comes when searching a subject string like 'abcef'. We'll
-    /// initially follow the transition from S0 to S1 and wind up in S3 after
-    /// observng the 'c' byte. At this point, the next byte is 'e' but state
-    /// S3 has no transition for 'e', so the search fails. We then would need
-    /// to restart the search at the next position in 'abcef', which
-    /// corresponds to 'b'. The match would fail, but the next search starting
-    /// at 'c' would finally succeed. The problem with this approach is that
-    /// we wind up searching the subject string potentially many times. In
-    /// effect, this makes the algorithm have worst case `O(n * m)` complexity,
-    /// where `n ~ len(subject)` and `m ~ len(all patterns)`. We would instead
-    /// like to achieve a `O(n + m)` worst case complexity.
-    ///
-    /// This is where failure transitions come in. Instead of dying at S3 in
-    /// the first search, the automaton can instruct the search to move to
-    /// another part of the automaton that corresponds to a suffix of what
-    /// we've seen so far. Recall that we've seen 'abc' in the subject string,
-    /// and the automaton does indeed have a non-empty suffix, 'c', that could
-    /// potentially lead to another match. Thus, the actual Aho-Corasick
-    /// automaton for our patterns in this case looks like this:
-    ///
-    /// ```ignore
-    ///          a - S1 - b - S2 - c - S3 - d - S4*
-    ///         /                      /
-    ///        /       ----------------
-    ///       /       /
-    ///     S0 - c - S5 - e - S6 - f - S7*
-    /// ```
-    ///
-    /// That is, we have a failure transition from S3 to S5, which is followed
-    /// exactly in cases when we are in state S3 but see any byte other than
-    /// 'd' (that is, we've "failed" to find a match in this portion of our
-    /// trie). We know we can transition back to S5 because we've already seen
-    /// a 'c' byte, so we don't need to re-scan it. We can then pick back up
-    /// with the search starting at S5 and complete our match.
-    ///
-    /// Adding failure transitions to a trie is fairly simple, but subtle. The
-    /// key issue is that you might have multiple failure transition that you
-    /// need to follow. For example, look at the trie for the patterns
-    /// 'abcd', 'b', 'bcd' and 'cd':
-    ///
-    /// ```ignore
-    ///        - a - S1 - b - S2 - c - S3 - d - S4*
-    ///       /
-    ///     S0 - b - S5* - c - S6 - d - S7*
-    ///       \
-    ///        - c - S8 - d - S9*
-    /// ```
-    ///
-    /// The failure transitions for this trie are defined from S2 to S5,
-    /// S3 to S6 and S6 to S8. Moreover, state S2 needs to track that it
-    /// corresponds to a match, since its failure transition to S5 is itself
-    /// a match state.
-    ///
-    /// Perhaps simplest way to think about adding these failure transitions
-    /// is recursively. That is, if you know the failure transitions for every
-    /// possible previous state that could be visited (e.g., when computing the
-    /// failure transition for S3, you already know the failure transitions
-    /// for S0, S1 and S2), then you can simply follow the failure transition
-    /// of the previous state and check whether the incoming transition is
-    /// defined after following the failure transition.
-    ///
-    /// For example, when determining the failure state for S3, by our
-    /// assumptions, we already know that there is a failure transition from
-    /// S2 (the previous state) to S5. So we follow that transition and check
-    /// whether the transition connecting S2 to S3 is defined. Indeed, it is,
-    /// as there is a transition from S5 to S6 for the byte 'c'. If no such
-    /// transition existed, we could keep following the failure transitions
-    /// until we reach the start state, which is the failure transition for
-    /// every state that has no corresponding proper suffix.
-    ///
-    /// We don't actually use recursion to implement this, but instead, use a
-    /// breadth first search of the automaton. Our base case is the start
-    /// state, whose failure transition is just a transition to itself.
-    fn fill_failure_transitions_standard(&mut self) {
-        // Initialize the queue for breadth first search with all transitions
-        // out of the start state. We handle the start state specially because
-        // we only want to follow non-self transitions. If we followed self
-        // transitions, then this would never terminate.
-        let mut queue = VecDeque::new();
-        for b in AllBytesIter::new() {
-            let next = self.nfa.start().next_state(b);
-            if next != self.nfa.start_id {
-                queue.push_back(next);
-            }
-        }
-        while let Some(id) = queue.pop_front() {
-            let mut it = self.nfa.iter_transitions_mut(id);
-            while let Some((b, next)) = it.next() {
-                queue.push_back(next);
-
-                let mut fail = it.nfa().state(id).fail;
-                while it.nfa().state(fail).next_state(b) == fail_id() {
-                    fail = it.nfa().state(fail).fail;
-                }
-                fail = it.nfa().state(fail).next_state(b);
-                it.nfa().state_mut(next).fail = fail;
-                it.nfa().copy_matches(fail, next);
-            }
-            // If the start state is a match state, then this automaton can
-            // match the empty string. This implies all states are match states
-            // since every position matches the empty string, so copy the
-            // matches from the start state to every state. Strictly speaking,
-            // this is only necessary for overlapping matches since each
-            // non-empty non-start match state needs to report empty matches
-            // in addition to its own. For the non-overlapping case, such
-            // states only report the first match, which is never empty since
-            // it isn't a start state.
-            it.nfa().copy_empty_matches(id);
-        }
-    }
-
-    /// This routine is just like fill_failure_transitions_standard, except
-    /// it adds failure transitions in a way that preserves leftmost match
-    /// semantics (for both leftmost-first and leftmost-longest).
-    ///
-    /// The algorithms are so similar that it would be possible to write it
-    /// generically. But doing so without overhead would require a bit of
-    /// ceremony, so we just copy it and add in the extra leftmost logic.
-    /// Moreover, the standard algorithm above is so simple that it feels like
-    /// a crime to disturb it.
-    ///
-    /// In effect, this proceeds just like the standard approach, but we
-    /// specifically add only a subset of all failure transitions. Namely, we
-    /// only add failure transitions that either do not occur after a match
-    /// or failure transitions that do occur after a match but preserve the
-    /// match. The comments in the implementation below should help.
-    ///
-    /// N.B. The only differences in the automaton between leftmost-first and
-    /// leftmost-longest are in trie construction. Otherwise, both have exactly
-    /// the same set of failure transitions. leftmost-longest adds everything
-    /// to the trie, where as leftmost-first skips any patterns for which there
-    /// exists a prefix of it that was added earlier.
-    ///
-    /// N.B. I came up with this algorithm on my own, and after scouring all of
-    /// the other AC implementations I know of (Perl, Snort, many on GitHub).
-    /// I couldn't find any that implement leftmost semantics like this.
-    /// Perl of course needs leftmost-first semantics, but they implement it
-    /// with a seeming hack at *search* time instead of encoding it into the
-    /// automaton. There are also a couple Java libraries that support leftmost
-    /// longest semantics, but they do it by building a queue of matches at
-    /// search time, which is even worse than what Perl is doing. ---AG
-    fn fill_failure_transitions_leftmost(&mut self) {
-        /// Represents an item in our queue of states to process.
-        ///
-        /// Fundamentally, this queue serves the same purpose as the queue
-        /// for filling failure transitions using the standard formulation.
-        /// In the leftmost case, though, we need to track a bit more
-        /// information. See comments below.
-        #[derive(Clone, Copy, Debug)]
-        struct QueuedState<S> {
-            /// The id of the state to visit.
-            id: S,
-            /// The depth at which the first match was observed in the path
-            /// to this state. Note that this corresponds to the depth at
-            /// which the beginning of the match was detected. If no match
-            /// has been seen, then this is None.
-            match_at_depth: Option<usize>,
-        }
-
-        impl<S: StateID> QueuedState<S> {
-            /// Create a queued state corresponding to the given NFA's start
-            /// state.
-            fn start(nfa: &NFA<S>) -> QueuedState<S> {
-                let match_at_depth =
-                    if nfa.start().is_match() {
-                        Some(0)
-                    } else {
-                        None
-                    };
-                QueuedState { id: nfa.start_id, match_at_depth }
-            }
-
-            /// Return the next state to queue up. The given id must be a state
-            /// corresponding to a single transition from this queued state.
-            fn next_queued_state(
-                &self,
-                nfa: &NFA<S>,
-                id: S,
-            ) -> QueuedState<S> {
-                let match_at_depth = self.next_match_at_depth(nfa, id);
-                QueuedState { id, match_at_depth }
-            }
-
-            /// Return the earliest depth at which a match has occurred for
-            /// the given state. The given state must correspond to a single
-            /// transition from this queued state.
-            fn next_match_at_depth(
-                &self,
-                nfa: &NFA<S>,
-                next: S,
-            ) -> Option<usize> {
-                // This is a little tricky. If the previous state has already
-                // seen a match or if `next` isn't a match state, then nothing
-                // needs to change since a later state cannot find an earlier
-                // match.
-                match self.match_at_depth {
-                    Some(x) => return Some(x),
-                    None if nfa.state(next).is_match() => {}
-                    None => return None,
-                }
-                let depth =
-                    nfa.state(next).depth
-                    - nfa.state(next).get_longest_match_len().unwrap()
-                    + 1;
-                Some(depth)
-            }
-        }
-
-        // Initialize the queue for breadth first search with all transitions
-        // out of the start state. We handle the start state specially because
-        // we only want to follow non-self transitions. If we followed self
-        // transitions, then this would never terminate.
-        let mut queue: VecDeque<QueuedState<S>> = VecDeque::new();
-        let start = QueuedState::start(&self.nfa);
-        for b in AllBytesIter::new() {
-            let next_id = self.nfa.start().next_state(b);
-            if next_id != start.id {
-                let next = start.next_queued_state(&self.nfa, next_id);
-                queue.push_back(next);
-                // If a state immediately following the start state is a match
-                // state, then we never want to follow its failure transition
-                // since the failure transition necessarily leads back to the
-                // start state, which we never want to do for leftmost matching
-                // after a match has been found.
-                //
-                // N.B. This is a special case of the more general handling
-                // found below.
-                if self.nfa.state(next_id).is_match() {
-                    self.nfa.state_mut(next_id).fail = dead_id();
-                }
-            }
-        }
-        while let Some(item) = queue.pop_front() {
-            let mut any_trans = false;
-            let mut it = self.nfa.iter_transitions_mut(item.id);
-            while let Some((b, next_id)) = it.next() {
-                any_trans = true;
-
-                // Queue up the next state.
-                let next = item.next_queued_state(it.nfa(), next_id);
-                queue.push_back(next);
-
-                // Find the failure state for next. Same as standard.
-                let mut fail = it.nfa().state(item.id).fail;
-                while it.nfa().state(fail).next_state(b) == fail_id() {
-                    fail = it.nfa().state(fail).fail;
-                }
-                fail = it.nfa().state(fail).next_state(b);
-
-                // This is the key difference from the standard formulation.
-                // Namely, if we've seen a match, then we only want a failure
-                // transition if the failure transition preserves the match
-                // we've seen. In general, this is not true of all failure
-                // transitions since they can point back to any suffix of what
-                // we've seen so far. Instead, we only want to point back to
-                // suffixes that contain any match we've seen.
-                //
-                // We achieve this by comparing the depth of the failure
-                // transition with the number of states between this state
-                // and the beginning of the earliest match detected. If the
-                // depth of the failure state is smaller than this difference,
-                // then it cannot contain the match. If it's bigger or equal
-                // to the difference, then it necessarily includes the match
-                // we've seen since all failure transitions correspond to a
-                // suffix.
-                //
-                // If we've determined that we don't want the failure
-                // transition, then we set this state's failure transition to
-                // the dead state. In other words, when a search hits this
-                // state, it will not continue and correctly stop. (N.B. A
-                // dead state is different than a fail state. A dead state
-                // MUST be preceded by a match and acts as a sentinel to search
-                // routines to terminate.)
-                //
-                // Understanding this is tricky, and it took me several days
-                // to think through this and get it right. If you want to grok
-                // it, then I'd recommend: 1) switch the implementation to
-                // always use the standard algorithm for filling in failure
-                // transitions, 2) run the test suite and 3) examine the test
-                // failures. Write out the automatons for them and try to work
-                // backwards by figuring out which failure transitions should
-                // be removed. You should arrive at the same rule used below.
-                if let Some(match_depth) = next.match_at_depth {
-                    let fail_depth = it.nfa().state(fail).depth;
-                    let next_depth = it.nfa().state(next.id).depth;
-                    if next_depth - match_depth + 1 > fail_depth {
-                        it.nfa().state_mut(next.id).fail = dead_id();
-                        continue;
-                    }
-                    assert_ne!(
-                        start.id,
-                        it.nfa().state(next.id).fail,
-                        "states that are match states or follow match \
-                         states should never have a failure transition \
-                         back to the start state in leftmost searching",
-                    );
-                }
-                it.nfa().state_mut(next.id).fail = fail;
-                it.nfa().copy_matches(fail, next.id);
-            }
-            // If there are no transitions for this state and if it's a match
-            // state, then we must set its failure transition to the dead
-            // state since we never want it to restart the search.
-            if !any_trans && it.nfa().state(item.id).is_match() {
-                it.nfa().state_mut(item.id).fail = dead_id();
-            }
-            // We don't need to copy empty matches from the start state here
-            // because that's only necessary for overlapping matches and
-            // leftmost match kinds don't support overlapping matches.
-        }
-    }
-
-    /// Construct prefilters from the automaton, if applicable.
-    fn build_prefilters(&mut self) {
-        if !self.builder.prefilter {
-            return;
-        }
-
-        let mut builder = prefilter::StartBytesBuilder::new();
-        for b in AllBytesIter::new() {
-            if self.nfa.start().next_state(b) != self.nfa.start_id {
-                builder.add(b);
-            }
-        }
-        self.nfa.prefilter = builder.build();
-    }
-
-    /// Set the failure transitions on the start state to loop back to the
-    /// start state. This effectively permits the Aho-Corasick automaton to
-    /// match at any position. This is also required for finding the next
-    /// state to terminate, namely, finding the next state should never return
-    /// a fail_id.
-    ///
-    /// This must be done after building the initial trie, since trie
-    /// construction depends on transitions to `fail_id` to determine whether a
-    /// state already exists or not.
-    fn add_start_state_loop(&mut self) {
-        let start_id = self.nfa.start_id;
-        let start = self.nfa.start_mut();
-        for b in AllBytesIter::new() {
-            if start.next_state(b) == fail_id() {
-                start.set_next_state(b, start_id);
-            }
-        }
-    }
-
-    /// Remove the start state loop by rewriting any transitions on the start
-    /// state back to the start state with transitions to the dead state.
-    ///
-    /// The loop is only closed when two conditions are met: the start state
-    /// is a match state and the match kind is leftmost-first or
-    /// leftmost-longest.
-    ///
-    /// The reason for this is that under leftmost semantics, a start state
-    /// that is also a match implies that we should never restart the search
-    /// process. We allow normal transitions out of the start state, but if
-    /// none exist, we transition to the dead state, which signals that
-    /// searching should stop.
-    fn close_start_state_loop(&mut self) {
-        if self.match_kind().is_leftmost() && self.nfa.start().is_match() {
-            let start_id = self.nfa.start_id;
-            let start = self.nfa.start_mut();
-            for b in AllBytesIter::new() {
-                if start.next_state(b) == start_id {
-                    start.set_next_state(b, dead_id());
-                }
-            }
-        }
-    }
-
-    /// Sets all transitions on the dead state to point back to the dead state.
-    /// Normally, missing transitions map back to the failure state, but the
-    /// point of the dead state is to act as a sink that can never be escaped.
-    fn add_dead_state_loop(&mut self) {
-        let dead = self.nfa.state_mut(dead_id());
-        for b in AllBytesIter::new() {
-            dead.set_next_state(b, dead_id());
-        }
-    }
-
-    /// Computes the total amount of heap used by this NFA in bytes.
-    fn calculate_size(&mut self) {
-        let mut size = 0;
-        for state in &self.nfa.states {
-            size += state.heap_bytes();
-        }
-        self.nfa.heap_bytes = size;
-    }
-
-    /// Add a new state to the underlying NFA with the given depth. The depth
-    /// is used to determine how to represent the transitions.
-    ///
-    /// If adding the new state would overflow the chosen state ID
-    /// representation, then this returns an error.
-    fn add_state(&mut self, depth: usize) -> Result<S> {
-        if depth < self.builder.dense_depth {
-            self.nfa.add_dense_state(depth)
-        } else {
-            self.nfa.add_sparse_state(depth)
-        }
-    }
-
-    /// Returns the match kind configured on the underlying builder.
-    fn match_kind(&self) -> MatchKind {
-        self.builder.match_kind
-    }
-}
-
-/// An iterator over every byte value.
-///
-/// We use this instead of (0..256).map(|b| b as u8) because this optimizes
-/// better in debug builds.
-///
-/// We also use this instead of 0..=255 because we're targeting Rust 1.24 and
-/// inclusive range syntax was stabilized in Rust 1.26. We can get rid of this
-/// once our MSRV is Rust 1.26 or newer.
-#[derive(Debug)]
-struct AllBytesIter(u16);
-
-impl AllBytesIter {
-    fn new() -> AllBytesIter {
-        AllBytesIter(0)
-    }
-}
-
-impl Iterator for AllBytesIter {
-    type Item = u8;
-
-    fn next(&mut self) -> Option<Self::Item> {
-        if self.0 >= 256 {
-            None
-        } else {
-            let b = self.0 as u8;
-            self.0 += 1;
-            Some(b)
-        }
-    }
-}
-
-impl<S: StateID> fmt::Debug for NFA<S> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        writeln!(f, "NFA(")?;
-        writeln!(f, "match_kind: {:?}", self.match_kind)?;
-        writeln!(f, "{}", "-".repeat(79))?;
-        for (id, s) in self.states.iter().enumerate() {
-            let mut trans = vec![];
-            s.trans.iter(|byte, next| {
-                // The start state has a bunch of uninteresting transitions
-                // back into itself. It's questionable to hide them since they
-                // are critical to understanding the automaton, but they are
-                // very noisy without better formatting for contiugous ranges
-                // to the same state.
-                if id == self.start_id.to_usize() && next == self.start_id {
-                    return;
-                }
-                // Similarly, the dead state has a bunch of uninteresting
-                // transitions too.
-                if id == dead_id() {
-                    return;
-                }
-                trans.push(format!("{} => {}", escape(byte), next.to_usize()));
-            });
-            writeln!(f, "{:04}: {}", id, trans.join(", "))?;
-
-            let matches: Vec<String> = s.matches
-                .iter()
-                .map(|&(pattern_id, _)| pattern_id.to_string())
-                .collect();
-            writeln!(f, "  matches: {}", matches.join(", "))?;
-            writeln!(f, "     fail: {}", s.fail.to_usize())?;
-            writeln!(f, "    depth: {}", s.depth)?;
-        }
-        writeln!(f, "{}", "-".repeat(79))?;
-        writeln!(f, ")")?;
-        Ok(())
-    }
-}
-
-/// Iterate over all possible byte transitions given a sparse set.
-fn sparse_iter<S: StateID, F: FnMut(u8, S)>(trans: &[(u8, S)], mut f: F) {
-    let mut byte = 0u16;
-    for &(b, id) in trans {
-        while byte < (b as u16) {
-            f(byte as u8, fail_id());
-            byte += 1;
-        }
-        f(b, id);
-        byte += 1;
-    }
-    for b in byte..256 {
-        f(b as u8, fail_id());
-    }
-}
-
-/// Safely return two mutable borrows to two different locations in the given
-/// slice.
-///
-/// This panics if i == j.
-fn get_two_mut<T>(xs: &mut [T], i: usize, j: usize) -> (&mut T, &mut T) {
-    assert!(i != j, "{} must not be equal to {}", i, j);
-    if i < j {
-        let (before, after) = xs.split_at_mut(j);
-        (&mut before[i], &mut after[0])
-    } else {
-        let (before, after) = xs.split_at_mut(i);
-        (&mut after[0], &mut before[j])
-    }
-}
-
-/// Return the given byte as its escaped string form.
-fn escape(b: u8) -> String {
-    use std::ascii;
-
-    String::from_utf8(ascii::escape_default(b).collect::<Vec<_>>()).unwrap()
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    #[test]
-    fn scratch() {
-        let nfa: NFA<usize> = Builder::new()
-            .dense_depth(0)
-            // .match_kind(MatchKind::LeftmostShortest)
-            // .match_kind(MatchKind::LeftmostLongest)
-            .match_kind(MatchKind::LeftmostFirst)
-            // .build(&["abcd", "ce", "b"])
-            // .build(&["ab", "bc"])
-            // .build(&["b", "bcd", "ce"])
-            // .build(&["abc", "bx"])
-            // .build(&["abc", "bd", "ab"])
-            // .build(&["abcdefghi", "hz", "abcdefgh"])
-            // .build(&["abcd", "bce", "b"])
-            .build(&["abcdefg", "bcde", "bcdef"])
-            .unwrap();
-        println!("{:?}", nfa);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/aho_corasick/prefilter.rs.html b/target/doc/src/aho_corasick/prefilter.rs.html deleted file mode 100644 index 914a817..0000000 --- a/target/doc/src/aho_corasick/prefilter.rs.html +++ /dev/null @@ -1,505 +0,0 @@ -prefilter.rs.html -- source
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-
-use std::fmt;
-use std::panic::{RefUnwindSafe, UnwindSafe};
-
-use memchr::{memchr, memchr2, memchr3};
-
-/// A prefilter describes the behavior of fast literal scanners for quickly
-/// skipping past bytes in the haystack that we know cannot possibly
-/// participate in a match.
-pub trait Prefilter: Send + Sync + RefUnwindSafe + UnwindSafe + fmt::Debug {
-    /// Returns the next possible match candidate. This may yield false
-    /// positives, so callers must "confirm" a match starting at the position
-    /// returned. This, however, must never produce false negatives. That is,
-    /// this must, at minimum, return the starting position of the next match
-    /// in the given haystack after or at the given position.
-    fn next_candidate(&self, haystack: &[u8], at: usize) -> Option<usize>;
-
-    /// A method for cloning a prefilter, to work-around the fact that Clone
-    /// is not object-safe.
-    fn clone_prefilter(&self) -> Box<Prefilter>;
-}
-
-/// A convenience object for representing any type that implements Prefilter
-/// and is cloneable.
-#[derive(Debug)]
-pub struct PrefilterObj(Box<Prefilter>);
-
-impl Clone for PrefilterObj {
-    fn clone(&self) -> Self {
-        PrefilterObj(self.0.clone_prefilter())
-    }
-}
-
-impl PrefilterObj {
-    /// Create a new prefilter object.
-    pub fn new<T: Prefilter + 'static>(t: T) -> PrefilterObj {
-        PrefilterObj(Box::new(t))
-    }
-
-    /// Return the underlying prefilter trait object.
-    pub fn as_ref(&self) -> &Prefilter {
-        &*self.0
-    }
-}
-
-/// PrefilterState tracks state associated with the effectiveness of a
-/// prefilter. It is used to track how many bytes, on average, are skipped by
-/// the prefilter. If this average dips below a certain threshold over time,
-/// then the state renders the prefilter inert and stops using it.
-///
-/// A prefilter state should be created for each search. (Where creating an
-/// iterator via, e.g., `find_iter`, is treated as a single search.)
-#[derive(Clone, Debug)]
-pub struct PrefilterState {
-    /// The number of skips that has been executed.
-    skips: usize,
-    /// The total number of bytes that have been skipped.
-    skipped: usize,
-    /// The maximum length of a match. This is used to help determine how many
-    /// bytes on average should be skipped in order for a prefilter to be
-    /// effective.
-    max_match_len: usize,
-    /// Once this heuristic has been deemed ineffective, it will be inert
-    /// throughout the rest of its lifetime. This serves as a cheap way to
-    /// check inertness.
-    inert: bool,
-}
-
-impl PrefilterState {
-    /// The minimum number of skip attempts to try before considering whether
-    /// a prefilter is effective or not.
-    const MIN_SKIPS: usize = 40;
-
-    /// The minimum amount of bytes that skipping must average, expressed as
-    /// a factor of the multiple of the length of a possible match.
-    ///
-    /// That is, after MIN_SKIPS have occurred, if the average number of bytes
-    /// skipped ever falls below MIN_AVG_FACTOR, then this searcher is rendered
-    /// inert.
-    const MIN_AVG_FACTOR: usize = 2;
-
-    /// Create a fresh prefilter state.
-    pub fn new(max_match_len: usize) -> PrefilterState {
-        PrefilterState { skips: 0, skipped: 0, max_match_len, inert: false }
-    }
-
-    /// Update this state with the number of bytes skipped on the last
-    /// invocation of the prefilter.
-    #[inline]
-    pub fn update(&mut self, skipped: usize) {
-        self.skips += 1;
-        self.skipped += skipped;
-    }
-
-    /// Return true if and only if this state indicates that a prefilter is
-    /// still effective.
-    #[inline]
-    pub fn is_effective(&mut self) -> bool {
-        if self.inert {
-            return false;
-        }
-        if self.skips < PrefilterState::MIN_SKIPS {
-            return true;
-        }
-
-        let min_avg = PrefilterState::MIN_AVG_FACTOR * self.max_match_len;
-        if self.skipped >= min_avg * self.skips {
-            return true;
-        }
-
-        // We're inert.
-        self.inert = true;
-        false
-    }
-}
-
-/// A builder for construction a starting byte prefilter.
-///
-/// A starting byte prefilter is a simplistic prefilter that looks for possible
-/// matches by reporting all positions corresponding to a particular byte. This
-/// generally only takes affect when there are at most 3 distinct possible
-/// starting bytes. e.g., the patterns `foo`, `bar`, and `baz` have two
-/// distinct starting bytes (`f` and `b`), and this prefiler returns all
-/// occurrences of either `f` or `b`.
-///
-/// In some cases, a heuristic frequency analysis may determine that it would
-/// be better not to use this prefilter even when there are 3 or fewer distinct
-/// starting bytes.
-#[derive(Clone, Debug)]
-pub struct StartBytesBuilder {
-    byteset: Vec<bool>,
-}
-
-impl StartBytesBuilder {
-    /// Create a new builder for constructing a start byte prefilter.
-    pub fn new() -> StartBytesBuilder {
-        StartBytesBuilder { byteset: vec![false; 256] }
-    }
-
-    /// Build the starting bytes prefilter.
-    ///
-    /// If there are more than 3 distinct starting bytes, or if heuristics
-    /// otherwise determine that this prefilter should not be used, then `None`
-    /// is returned.
-    pub fn build(&self) -> Option<PrefilterObj> {
-        let (mut bytes, mut len) = ([0; 3], 0);
-        for b in 0..256 {
-            if !self.byteset[b] {
-                continue;
-            }
-            // We've exceeded our limit, so bail.
-            if len == 3 {
-                return None;
-            }
-            // We don't handle non-ASCII bytes for now. Getting non-ASCII
-            // bytes right is trickier, since we generally don't want to put
-            // a leading UTF-8 code unit into a prefilter that isn't ASCII,
-            // since they can frequently. Instead, it would be better to use a
-            // continuation byte, but this requires more sophisticated analysis
-            // of the automaton and a richer prefilter API.
-            if b > 0x7F {
-                return None;
-            }
-            bytes[len] = b as u8;
-            len += 1;
-        }
-        match len {
-            0 => None,
-            1 => {
-                Some(PrefilterObj::new(StartBytesOne {
-                    byte1: bytes[0],
-                }))
-            }
-            2 => {
-                Some(PrefilterObj::new(StartBytesTwo {
-                    byte1: bytes[0],
-                    byte2: bytes[1],
-                }))
-            }
-            3 => {
-                Some(PrefilterObj::new(StartBytesThree {
-                    byte1: bytes[0],
-                    byte2: bytes[1],
-                    byte3: bytes[2],
-                }))
-            }
-            _ => unreachable!(),
-        }
-    }
-
-    /// Add a starting byte to this builder.
-    ///
-    /// In general, all possible starting bytes for an automaton should be
-    /// added to this builder before attempting to construct the prefilter.
-    pub fn add(&mut self, byte: u8) {
-        self.byteset[byte as usize] = true;
-    }
-}
-
-/// A prefilter for scanning for a single starting byte.
-#[derive(Clone, Debug)]
-pub struct StartBytesOne {
-    byte1: u8,
-}
-
-impl Prefilter for StartBytesOne {
-    fn next_candidate(&self, haystack: &[u8], at: usize) -> Option<usize> {
-        memchr(self.byte1, &haystack[at..])
-            .map(|i| at + i)
-    }
-
-    fn clone_prefilter(&self) -> Box<Prefilter> {
-        Box::new(self.clone())
-    }
-}
-
-/// A prefilter for scanning for two starting bytes.
-#[derive(Clone, Debug)]
-pub struct StartBytesTwo {
-    byte1: u8,
-    byte2: u8,
-}
-
-impl Prefilter for StartBytesTwo {
-    fn next_candidate(&self, haystack: &[u8], at: usize) -> Option<usize> {
-        memchr2(self.byte1, self.byte2, &haystack[at..])
-            .map(|i| at + i)
-    }
-
-    fn clone_prefilter(&self) -> Box<Prefilter> {
-        Box::new(self.clone())
-    }
-}
-
-/// A prefilter for scanning for three starting bytes.
-#[derive(Clone, Debug)]
-pub struct StartBytesThree {
-    byte1: u8,
-    byte2: u8,
-    byte3: u8,
-}
-
-impl Prefilter for StartBytesThree {
-    fn next_candidate(&self, haystack: &[u8], at: usize) -> Option<usize> {
-        memchr3(self.byte1, self.byte2, self.byte3, &haystack[at..])
-            .map(|i| at + i)
-    }
-
-    fn clone_prefilter(&self) -> Box<Prefilter> {
-        Box::new(self.clone())
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/aho_corasick/state_id.rs.html b/target/doc/src/aho_corasick/state_id.rs.html deleted file mode 100644 index a8d861e..0000000 --- a/target/doc/src/aho_corasick/state_id.rs.html +++ /dev/null @@ -1,335 +0,0 @@ -state_id.rs.html -- source
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-
-use std::fmt::Debug;
-use std::hash::Hash;
-
-use error::{Error, Result};
-
-// NOTE: Most of this code was copied from regex-automata, but without the
-// (de)serialization specific stuff.
-
-/// Check that the premultiplication of the given state identifier can
-/// fit into the representation indicated by `S`. If it cannot, or if it
-/// overflows `usize` itself, then an error is returned.
-pub fn premultiply_overflow_error<S: StateID>(
-    last_state: S,
-    alphabet_len: usize,
-) -> Result<()> {
-    let requested = match last_state.to_usize().checked_mul(alphabet_len) {
-        Some(requested) => requested,
-        None => return Err(Error::premultiply_overflow(0, 0)),
-    };
-    if requested > S::max_id() {
-        return Err(Error::premultiply_overflow(S::max_id(), requested));
-    }
-    Ok(())
-}
-
-/// Convert the given `usize` to the chosen state identifier
-/// representation. If the given value cannot fit in the chosen
-/// representation, then an error is returned.
-pub fn usize_to_state_id<S: StateID>(value: usize) -> Result<S> {
-    if value > S::max_id() {
-        Err(Error::state_id_overflow(S::max_id()))
-    } else {
-        Ok(S::from_usize(value))
-    }
-}
-
-/// Return the unique identifier for an automaton's fail state in the chosen
-/// representation indicated by `S`.
-pub fn fail_id<S: StateID>() -> S {
-    S::from_usize(0)
-}
-
-/// Return the unique identifier for an automaton's fail state in the chosen
-/// representation indicated by `S`.
-pub fn dead_id<S: StateID>() -> S {
-    S::from_usize(1)
-}
-
-mod private {
-    /// Sealed stops crates other than aho-corasick from implementing any
-    /// traits that use it.
-    pub trait Sealed{}
-    impl Sealed for u8 {}
-    impl Sealed for u16 {}
-    impl Sealed for u32 {}
-    impl Sealed for u64 {}
-    impl Sealed for usize {}
-}
-
-/// A trait describing the representation of an automaton's state identifier.
-///
-/// The purpose of this trait is to safely express both the possible state
-/// identifier representations that can be used in an automaton and to convert
-/// between state identifier representations and types that can be used to
-/// efficiently index memory (such as `usize`).
-///
-/// In general, one should not need to implement this trait explicitly. Indeed,
-/// for now, this trait is sealed such that it cannot be implemented by any
-/// other type. In particular, this crate provides implementations for `u8`,
-/// `u16`, `u32`, `u64` and `usize`. (`u32` and `u64` are only provided for
-/// targets that can represent all corresponding values in a `usize`.)
-///
-/// # Safety
-///
-/// This trait is unsafe because the correctness of its implementations may be
-/// relied upon by other unsafe code. For example, one possible way to
-/// implement this trait incorrectly would be to return a maximum identifier
-/// in `max_id` that is greater than the real maximum identifier. This will
-/// likely result in wrap-on-overflow semantics in release mode, which can in
-/// turn produce incorrect state identifiers. Those state identifiers may then
-/// in turn access out-of-bounds memory in an automaton's search routine, where
-/// bounds checks are explicitly elided for performance reasons.
-pub unsafe trait StateID:
-    private::Sealed
-    + Clone + Copy + Debug + Eq + Hash + PartialEq + PartialOrd + Ord
-{
-    /// Convert from a `usize` to this implementation's representation.
-    ///
-    /// Implementors may assume that `n <= Self::max_id`. That is, implementors
-    /// do not need to check whether `n` can fit inside this implementation's
-    /// representation.
-    fn from_usize(n: usize) -> Self;
-
-    /// Convert this implementation's representation to a `usize`.
-    ///
-    /// Implementors must not return a `usize` value greater than
-    /// `Self::max_id` and must not permit overflow when converting between the
-    /// implementor's representation and `usize`. In general, the preferred
-    /// way for implementors to achieve this is to simply not provide
-    /// implementations of `StateID` that cannot fit into the target platform's
-    /// `usize`.
-    fn to_usize(self) -> usize;
-
-    /// Return the maximum state identifier supported by this representation.
-    ///
-    /// Implementors must return a correct bound. Doing otherwise may result
-    /// in memory unsafety.
-    fn max_id() -> usize;
-}
-
-unsafe impl StateID for usize {
-    #[inline]
-    fn from_usize(n: usize) -> usize { n }
-
-    #[inline]
-    fn to_usize(self) -> usize { self }
-
-    #[inline]
-    fn max_id() -> usize { ::std::usize::MAX }
-}
-
-unsafe impl StateID for u8 {
-    #[inline]
-    fn from_usize(n: usize) -> u8 { n as u8 }
-
-    #[inline]
-    fn to_usize(self) -> usize { self as usize }
-
-    #[inline]
-    fn max_id() -> usize { ::std::u8::MAX as usize }
-}
-
-unsafe impl StateID for u16 {
-    #[inline]
-    fn from_usize(n: usize) -> u16 { n as u16 }
-
-    #[inline]
-    fn to_usize(self) -> usize { self as usize }
-
-    #[inline]
-    fn max_id() -> usize { ::std::u16::MAX as usize }
-}
-
-#[cfg(any(target_pointer_width = "32", target_pointer_width = "64"))]
-unsafe impl StateID for u32 {
-    #[inline]
-    fn from_usize(n: usize) -> u32 { n as u32 }
-
-    #[inline]
-    fn to_usize(self) -> usize { self as usize }
-
-    #[inline]
-    fn max_id() -> usize { ::std::u32::MAX as usize }
-}
-
-#[cfg(target_pointer_width = "64")]
-unsafe impl StateID for u64 {
-    #[inline]
-    fn from_usize(n: usize) -> u64 { n as u64 }
-
-    #[inline]
-    fn to_usize(self) -> usize { self as usize }
-
-    #[inline]
-    fn max_id() -> usize { ::std::u64::MAX as usize }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/c2_chacha/guts.rs.html b/target/doc/src/c2_chacha/guts.rs.html deleted file mode 100644 index 2fb2ccb..0000000 --- a/target/doc/src/c2_chacha/guts.rs.html +++ /dev/null @@ -1,601 +0,0 @@ -guts.rs.html -- source
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-
-#[cfg(feature = "rustcrypto_api")]
-pub use stream_cipher::generic_array;
-
-pub use ppv_lite86::Machine;
-use ppv_lite86::{vec128_storage, ArithOps, BitOps32, LaneWords4, MultiLane, StoreBytes, Vec4};
-
-pub(crate) const BLOCK: usize = 64;
-pub(crate) const BLOCK64: u64 = BLOCK as u64;
-const LOG2_BUFBLOCKS: u64 = 2;
-const BUFBLOCKS: u64 = 1 << LOG2_BUFBLOCKS;
-pub(crate) const BUFSZ64: u64 = BLOCK64 * BUFBLOCKS;
-pub(crate) const BUFSZ: usize = BUFSZ64 as usize;
-
-#[derive(Clone)]
-pub struct ChaCha {
-    pub(crate) b: vec128_storage,
-    pub(crate) c: vec128_storage,
-    pub(crate) d: vec128_storage,
-}
-
-#[derive(Clone)]
-pub struct State<V> {
-    pub(crate) a: V,
-    pub(crate) b: V,
-    pub(crate) c: V,
-    pub(crate) d: V,
-}
-
-#[inline(always)]
-pub(crate) fn round<V: ArithOps + BitOps32>(mut x: State<V>) -> State<V> {
-    x.a += x.b;
-    x.d = (x.d ^ x.a).rotate_each_word_right16();
-    x.c += x.d;
-    x.b = (x.b ^ x.c).rotate_each_word_right20();
-    x.a += x.b;
-    x.d = (x.d ^ x.a).rotate_each_word_right24();
-    x.c += x.d;
-    x.b = (x.b ^ x.c).rotate_each_word_right25();
-    x
-}
-
-#[inline(always)]
-pub(crate) fn diagonalize<V: LaneWords4>(mut x: State<V>) -> State<V> {
-    x.b = x.b.shuffle_lane_words3012();
-    x.c = x.c.shuffle_lane_words2301();
-    x.d = x.d.shuffle_lane_words1230();
-    x
-}
-#[inline(always)]
-pub(crate) fn undiagonalize<V: LaneWords4>(mut x: State<V>) -> State<V> {
-    x.b = x.b.shuffle_lane_words1230();
-    x.c = x.c.shuffle_lane_words2301();
-    x.d = x.d.shuffle_lane_words3012();
-    x
-}
-
-impl ChaCha {
-    #[inline(always)]
-    pub fn new(key: &[u8; 32], nonce: &[u8]) -> Self {
-        init_chacha(key, nonce)
-    }
-
-    #[inline(always)]
-    fn pos64<M: Machine>(&self, m: M) -> u64 {
-        let d: M::u32x4 = m.unpack(self.d);
-        ((d.extract(1) as u64) << 32) | d.extract(0) as u64
-    }
-
-    /// Set 64-bit block count, affecting next refill.
-    #[inline(always)]
-    pub(crate) fn seek64<M: Machine>(&mut self, m: M, blockct: u64) {
-        let d: M::u32x4 = m.unpack(self.d);
-        self.d = d
-            .insert((blockct >> 32) as u32, 1)
-            .insert(blockct as u32, 0)
-            .into();
-    }
-
-    /// Set 32-bit block count, affecting next refill.
-    #[inline(always)]
-    pub(crate) fn seek32<M: Machine>(&mut self, m: M, blockct: u32) {
-        let d: M::u32x4 = m.unpack(self.d);
-        self.d = d.insert(blockct, 0).into();
-    }
-
-    /// Produce output from the current state.
-    #[inline(always)]
-    fn output_narrow<M: Machine>(&mut self, m: M, x: State<M::u32x4>, out: &mut [u8; BLOCK]) {
-        let k = m.vec([0x6170_7865, 0x3320_646e, 0x7962_2d32, 0x6b20_6574]);
-        (x.a + k).write_le(&mut out[0..16]);
-        (x.b + m.unpack(self.b)).write_le(&mut out[16..32]);
-        (x.c + m.unpack(self.c)).write_le(&mut out[32..48]);
-        (x.d + m.unpack(self.d)).write_le(&mut out[48..64]);
-    }
-
-    /// Add one to the block counter (no overflow check).
-    #[inline(always)]
-    fn inc_block_ct<M: Machine>(&mut self, m: M) {
-        let mut pos = self.pos64(m);
-        let d0: M::u32x4 = m.unpack(self.d);
-        pos += 1;
-        let d1 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-        self.d = d1.into();
-    }
-
-    /// Produce 4 blocks of output, advancing the state
-    #[inline(always)]
-    pub fn refill4(&mut self, drounds: u32, out: &mut [u8; BUFSZ]) {
-        refill_wide(self, drounds, out)
-    }
-
-    /// Produce a block of output, advancing the state
-    #[inline(always)]
-    pub fn refill(&mut self, drounds: u32, out: &mut [u8; BLOCK]) {
-        refill_narrow(self, drounds, out)
-    }
-
-    #[inline(always)]
-    pub(crate) fn refill_rounds(&mut self, drounds: u32) -> State<vec128_storage> {
-        refill_narrow_rounds(self, drounds)
-    }
-
-    #[inline(always)]
-    pub fn set_stream_param(&mut self, param: u32, value: u64) {
-        set_stream_param(self, param, value)
-    }
-
-    #[inline(always)]
-    pub fn get_stream_param(&self, param: u32) -> u64 {
-        get_stream_param(self, param)
-    }
-}
-
-#[inline(always)]
-fn refill_wide_impl<Mach: Machine>(
-    m: Mach,
-    state: &mut ChaCha,
-    drounds: u32,
-    out: &mut [u8; BUFSZ],
-) {
-    let k = m.vec([0x6170_7865, 0x3320_646e, 0x7962_2d32, 0x6b20_6574]);
-    let mut pos = state.pos64(m);
-    let d0: Mach::u32x4 = m.unpack(state.d);
-    pos += 1;
-    let d1 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-    pos += 1;
-    let d2 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-    pos += 1;
-    let d3 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-
-    let b = m.unpack(state.b);
-    let c = m.unpack(state.c);
-    let mut x = State {
-        a: Mach::u32x4x4::from_lanes([k, k, k, k]),
-        b: Mach::u32x4x4::from_lanes([b, b, b, b]),
-        c: Mach::u32x4x4::from_lanes([c, c, c, c]),
-        d: m.unpack(Mach::u32x4x4::from_lanes([d0, d1, d2, d3]).into()),
-    };
-    for _ in 0..drounds {
-        x = round(x);
-        x = undiagonalize(round(diagonalize(x)));
-    }
-    let mut pos = state.pos64(m);
-    let d0: Mach::u32x4 = m.unpack(state.d);
-    pos += 1;
-    let d1 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-    pos += 1;
-    let d2 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-    pos += 1;
-    let d3 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-    pos += 1;
-    let d4 = d0.insert((pos >> 32) as u32, 1).insert(pos as u32, 0);
-
-    let (a, b, c, d) = (
-        x.a.to_lanes(),
-        x.b.to_lanes(),
-        x.c.to_lanes(),
-        x.d.to_lanes(),
-    );
-    let sb = m.unpack(state.b);
-    let sc = m.unpack(state.c);
-    let sd = [m.unpack(state.d), d1, d2, d3];
-    state.d = d4.into();
-    let mut words = out.chunks_exact_mut(16);
-    for ((((&a, &b), &c), &d), &sd) in a.iter().zip(&b).zip(&c).zip(&d).zip(&sd) {
-        (a + k).write_le(words.next().unwrap());
-        (b + sb).write_le(words.next().unwrap());
-        (c + sc).write_le(words.next().unwrap());
-        (d + sd).write_le(words.next().unwrap());
-    }
-}
-
-dispatch!(m, Mach, {
-    fn refill_wide(state: &mut ChaCha, drounds: u32, out: &mut [u8; BUFSZ]) {
-        refill_wide_impl(m, state, drounds, out);
-    }
-});
-
-/// Refill the buffer from a single-block round, updating the block count.
-dispatch_light128!(m, Mach, {
-    fn refill_narrow(state: &mut ChaCha, drounds: u32, out: &mut [u8; BLOCK]) {
-        let x = refill_narrow_rounds(state, drounds);
-        let x = State {
-            a: m.unpack(x.a),
-            b: m.unpack(x.b),
-            c: m.unpack(x.c),
-            d: m.unpack(x.d),
-        };
-        state.output_narrow(m, x, out);
-        state.inc_block_ct(m);
-    }
-});
-
-/// Single-block, rounds-only; shared by try_apply_keystream for tails shorter than BUFSZ
-/// and XChaCha's setup step.
-dispatch!(m, Mach, {
-    fn refill_narrow_rounds(state: &mut ChaCha, drounds: u32) -> State<vec128_storage> {
-        let k: Mach::u32x4 = m.vec([0x6170_7865, 0x3320_646e, 0x7962_2d32, 0x6b20_6574]);
-        let mut x = State {
-            a: k,
-            b: m.unpack(state.b),
-            c: m.unpack(state.c),
-            d: m.unpack(state.d),
-        };
-        for _ in 0..drounds {
-            x = round(x);
-            x = undiagonalize(round(diagonalize(x)));
-        }
-        State {
-            a: x.a.into(),
-            b: x.b.into(),
-            c: x.c.into(),
-            d: x.d.into(),
-        }
-    }
-});
-
-dispatch_light128!(m, Mach, {
-    fn set_stream_param(state: &mut ChaCha, param: u32, value: u64) {
-        let d: Mach::u32x4 = m.unpack(state.d);
-        state.d = d
-            .insert((value >> 32) as u32, (param << 1) | 1)
-            .insert(value as u32, param << 1)
-            .into();
-    }
-});
-
-dispatch_light128!(m, Mach, {
-    fn get_stream_param(state: &ChaCha, param: u32) -> u64 {
-        let d: Mach::u32x4 = m.unpack(state.d);
-        ((d.extract((param << 1) | 1) as u64) << 32) | d.extract(param << 1) as u64
-    }
-});
-
-fn read_u32le(xs: &[u8]) -> u32 {
-    assert_eq!(xs.len(), 4);
-    u32::from(xs[0]) | (u32::from(xs[1]) << 8) | (u32::from(xs[2]) << 16) | (u32::from(xs[3]) << 24)
-}
-
-dispatch_light128!(m, Mach, {
-    fn init_chacha(key: &[u8; 32], nonce: &[u8]) -> ChaCha {
-        let ctr_nonce = [
-            0,
-            if nonce.len() == 12 {
-                read_u32le(&nonce[0..4])
-            } else {
-                0
-            },
-            read_u32le(&nonce[nonce.len() - 8..nonce.len() - 4]),
-            read_u32le(&nonce[nonce.len() - 4..]),
-        ];
-        let key0: Mach::u32x4 = m.read_le(&key[..16]);
-        let key1: Mach::u32x4 = m.read_le(&key[16..]);
-        ChaCha {
-            b: key0.into(),
-            c: key1.into(),
-            d: ctr_nonce.into(),
-        }
-    }
-});
-
-dispatch_light128!(m, Mach, {
-    fn init_chacha_x(key: &[u8; 32], nonce: &[u8; 24], rounds: u32) -> ChaCha {
-        let key0: Mach::u32x4 = m.read_le(&key[..16]);
-        let key1: Mach::u32x4 = m.read_le(&key[16..]);
-        let nonce0: Mach::u32x4 = m.read_le(&nonce[..16]);
-        let mut state = ChaCha {
-            b: key0.into(),
-            c: key1.into(),
-            d: nonce0.into(),
-        };
-        let x = refill_narrow_rounds(&mut state, rounds);
-        let ctr_nonce1 = [0, 0, read_u32le(&nonce[16..20]), read_u32le(&nonce[20..24])];
-        state.b = x.a;
-        state.c = x.d;
-        state.d = ctr_nonce1.into();
-        state
-    }
-});
-
-
\ No newline at end of file diff --git a/target/doc/src/c2_chacha/lib.rs.html b/target/doc/src/c2_chacha/lib.rs.html deleted file mode 100644 index b39346d..0000000 --- a/target/doc/src/c2_chacha/lib.rs.html +++ /dev/null @@ -1,101 +0,0 @@ -lib.rs.html -- source
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-// copyright 2019 Kaz Wesley
-
-//! Pure Rust ChaCha with SIMD optimizations.
-//!
-//! Stream-cipher usage:
-//! ```
-//! extern crate c2_chacha;
-//!
-//! use c2_chacha::stream_cipher::{NewStreamCipher, SyncStreamCipher, SyncStreamCipherSeek};
-//! use c2_chacha::{ChaCha20, ChaCha12};
-//!
-//! let key = b"very secret key-the most secret.";
-//! let iv = b"my nonce";
-//! let plaintext = b"The quick brown fox jumps over the lazy dog.";
-//!
-//! let mut buffer = plaintext.to_vec();
-//! // create cipher instance
-//! let mut cipher = ChaCha20::new_var(key, iv).unwrap();
-//! // apply keystream (encrypt)
-//! cipher.apply_keystream(&mut buffer);
-//! // and decrypt it back
-//! cipher.seek(0);
-//! cipher.apply_keystream(&mut buffer);
-//! // stream ciphers can be used with streaming messages
-//! let mut cipher = ChaCha12::new_var(key, iv).unwrap();
-//! for chunk in buffer.chunks_mut(3) {
-//!     cipher.apply_keystream(chunk);
-//! }
-//! ```
-
-#![cfg_attr(not(feature = "std"), no_std)]
-
-#[cfg(test)]
-#[macro_use]
-extern crate hex_literal;
-
-#[cfg(feature = "std")]
-#[macro_use]
-extern crate lazy_static;
-
-#[macro_use]
-extern crate ppv_lite86;
-
-pub mod guts;
-
-#[cfg(feature = "rustcrypto_api")]
-mod rustcrypto_impl;
-#[cfg(feature = "rustcrypto_api")]
-pub use self::rustcrypto_impl::{stream_cipher, ChaCha12, ChaCha20, ChaCha8, Ietf, XChaCha20};
-
-
\ No newline at end of file diff --git a/target/doc/src/cfg_if/lib.rs.html b/target/doc/src/cfg_if/lib.rs.html deleted file mode 100644 index 7a24deb..0000000 --- a/target/doc/src/cfg_if/lib.rs.html +++ /dev/null @@ -1,291 +0,0 @@ -lib.rs.html -- source
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-
-//! A macro for defining `#[cfg]` if-else statements.
-//!
-//! The macro provided by this crate, `cfg_if`, is similar to the `if/elif` C
-//! preprocessor macro by allowing definition of a cascade of `#[cfg]` cases,
-//! emitting the implementation which matches first.
-//!
-//! This allows you to conveniently provide a long list `#[cfg]`'d blocks of code
-//! without having to rewrite each clause multiple times.
-//!
-//! # Example
-//!
-//! ```
-//! #[macro_use]
-//! extern crate cfg_if;
-//!
-//! cfg_if! {
-//!     if #[cfg(unix)] {
-//!         fn foo() { /* unix specific functionality */ }
-//!     } else if #[cfg(target_pointer_width = "32")] {
-//!         fn foo() { /* non-unix, 32-bit functionality */ }
-//!     } else {
-//!         fn foo() { /* fallback implementation */ }
-//!     }
-//! }
-//!
-//! # fn main() {}
-//! ```
-
-#![no_std]
-
-#![doc(html_root_url = "https://docs.rs/cfg-if")]
-#![deny(missing_docs)]
-#![cfg_attr(test, deny(warnings))]
-
-/// The main macro provided by this crate. See crate documentation for more
-/// information.
-#[macro_export(local_inner_macros)]
-macro_rules! cfg_if {
-    // match if/else chains with a final `else`
-    ($(
-        if #[cfg($($meta:meta),*)] { $($it:item)* }
-    ) else * else {
-        $($it2:item)*
-    }) => {
-        cfg_if! {
-            @__items
-            () ;
-            $( ( ($($meta),*) ($($it)*) ), )*
-            ( () ($($it2)*) ),
-        }
-    };
-
-    // match if/else chains lacking a final `else`
-    (
-        if #[cfg($($i_met:meta),*)] { $($i_it:item)* }
-        $(
-            else if #[cfg($($e_met:meta),*)] { $($e_it:item)* }
-        )*
-    ) => {
-        cfg_if! {
-            @__items
-            () ;
-            ( ($($i_met),*) ($($i_it)*) ),
-            $( ( ($($e_met),*) ($($e_it)*) ), )*
-            ( () () ),
-        }
-    };
-
-    // Internal and recursive macro to emit all the items
-    //
-    // Collects all the negated cfgs in a list at the beginning and after the
-    // semicolon is all the remaining items
-    (@__items ($($not:meta,)*) ; ) => {};
-    (@__items ($($not:meta,)*) ; ( ($($m:meta),*) ($($it:item)*) ), $($rest:tt)*) => {
-        // Emit all items within one block, applying an approprate #[cfg]. The
-        // #[cfg] will require all `$m` matchers specified and must also negate
-        // all previous matchers.
-        cfg_if! { @__apply cfg(all($($m,)* not(any($($not),*)))), $($it)* }
-
-        // Recurse to emit all other items in `$rest`, and when we do so add all
-        // our `$m` matchers to the list of `$not` matchers as future emissions
-        // will have to negate everything we just matched as well.
-        cfg_if! { @__items ($($not,)* $($m,)*) ; $($rest)* }
-    };
-
-    // Internal macro to Apply a cfg attribute to a list of items
-    (@__apply $m:meta, $($it:item)*) => {
-        $(#[$m] $it)*
-    };
-}
-
-#[cfg(test)]
-mod tests {
-    cfg_if! {
-        if #[cfg(test)] {
-            use core::option::Option as Option2;
-            fn works1() -> Option2<u32> { Some(1) }
-        } else {
-            fn works1() -> Option<u32> { None }
-        }
-    }
-
-    cfg_if! {
-        if #[cfg(foo)] {
-            fn works2() -> bool { false }
-        } else if #[cfg(test)] {
-            fn works2() -> bool { true }
-        } else {
-            fn works2() -> bool { false }
-        }
-    }
-
-    cfg_if! {
-        if #[cfg(foo)] {
-            fn works3() -> bool { false }
-        } else {
-            fn works3() -> bool { true }
-        }
-    }
-
-    cfg_if! {
-        if #[cfg(test)] {
-            use core::option::Option as Option3;
-            fn works4() -> Option3<u32> { Some(1) }
-        }
-    }
-
-    cfg_if! {
-        if #[cfg(foo)] {
-            fn works5() -> bool { false }
-        } else if #[cfg(test)] {
-            fn works5() -> bool { true }
-        }
-    }
-
-    #[test]
-    fn it_works() {
-        assert!(works1().is_some());
-        assert!(works2());
-        assert!(works3());
-        assert!(works4().is_some());
-        assert!(works5());
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/getrandom/error.rs.html b/target/doc/src/getrandom/error.rs.html deleted file mode 100644 index 10b5abc..0000000 --- a/target/doc/src/getrandom/error.rs.html +++ /dev/null @@ -1,335 +0,0 @@ -error.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-use core::fmt;
-use core::num::NonZeroU32;
-
-/// A small and `no_std` compatible error type.
-///
-/// The [`Error::raw_os_error()`] will indicate if the error is from the OS, and
-/// if so, which error code the OS gave the application. If such an error is
-/// encountered, please consult with your system documentation.
-///
-/// Internally this type is a NonZeroU32, with certain values reserved for
-/// certain purposes, see [`Error::INTERNAL_START`] and [`Error::CUSTOM_START`].
-#[derive(Copy, Clone, Eq, PartialEq)]
-pub struct Error(NonZeroU32);
-
-impl Error {
-    #[deprecated(since = "0.1.7")]
-    pub const UNKNOWN: Error = UNSUPPORTED;
-    #[deprecated(since = "0.1.7")]
-    pub const UNAVAILABLE: Error = UNSUPPORTED;
-
-    /// Codes below this point represent OS Errors (i.e. positive i32 values).
-    /// Codes at or above this point, but below [`Error::CUSTOM_START`] are
-    /// reserved for use by the `rand` and `getrandom` crates.
-    pub const INTERNAL_START: u32 = 1 << 31;
-
-    /// Codes at or above this point can be used by users to define their own
-    /// custom errors.
-    pub const CUSTOM_START: u32 = (1 << 31) + (1 << 30);
-
-    /// Extract the raw OS error code (if this error came from the OS)
-    ///
-    /// This method is identical to `std::io::Error::raw_os_error()`, except
-    /// that it works in `no_std` contexts. If this method returns `None`, the
-    /// error value can still be formatted via the `Diplay` implementation.
-    #[inline]
-    pub fn raw_os_error(&self) -> Option<i32> {
-        if self.0.get() < Self::INTERNAL_START {
-            Some(self.0.get() as i32)
-        } else {
-            None
-        }
-    }
-
-    /// Extract the bare error code.
-    ///
-    /// This code can either come from the underlying OS, or be a custom error.
-    /// Use [`Error::raw_os_error()`] to disambiguate.
-    #[inline]
-    pub fn code(&self) -> NonZeroU32 {
-        self.0
-    }
-}
-
-#[cfg(any(unix, target_os = "redox"))]
-fn os_err_desc(errno: i32, buf: &mut [u8]) -> Option<&str> {
-    let buf_ptr = buf.as_mut_ptr() as *mut libc::c_char;
-    if unsafe { libc::strerror_r(errno, buf_ptr, buf.len()) } != 0 {
-        return None;
-    }
-
-    // Take up to trailing null byte
-    let idx = buf.iter().position(|&b| b == 0).unwrap_or(buf.len());
-    core::str::from_utf8(&buf[..idx]).ok()
-}
-
-#[cfg(not(any(unix, target_os = "redox")))]
-fn os_err_desc(_errno: i32, _buf: &mut [u8]) -> Option<&str> {
-    None
-}
-
-impl fmt::Debug for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let mut dbg = f.debug_struct("Error");
-        if let Some(errno) = self.raw_os_error() {
-            dbg.field("os_error", &errno);
-            let mut buf = [0u8; 128];
-            if let Some(desc) = os_err_desc(errno, &mut buf) {
-                dbg.field("description", &desc);
-            }
-        } else if let Some(desc) = internal_desc(*self) {
-            dbg.field("internal_code", &self.0.get());
-            dbg.field("description", &desc);
-        } else {
-            dbg.field("unknown_code", &self.0.get());
-        }
-        dbg.finish()
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        if let Some(errno) = self.raw_os_error() {
-            let mut buf = [0u8; 128];
-            match os_err_desc(errno, &mut buf) {
-                Some(desc) => f.write_str(desc),
-                None => write!(f, "OS Error: {}", errno),
-            }
-        } else if let Some(desc) = internal_desc(*self) {
-            f.write_str(desc)
-        } else {
-            write!(f, "Unknown Error: {}", self.0.get())
-        }
-    }
-}
-
-impl From<NonZeroU32> for Error {
-    fn from(code: NonZeroU32) -> Self {
-        Self(code)
-    }
-}
-
-// TODO: Convert to a function when min_version >= 1.33
-macro_rules! internal_error {
-    ($n:expr) => {
-        Error(unsafe { NonZeroU32::new_unchecked(Error::INTERNAL_START + $n as u16 as u32) })
-    };
-}
-
-/// Internal Error constants
-pub(crate) const UNSUPPORTED: Error = internal_error!(0);
-pub(crate) const ERRNO_NOT_POSITIVE: Error = internal_error!(1);
-pub(crate) const UNKNOWN_IO_ERROR: Error = internal_error!(2);
-pub(crate) const SEC_RANDOM_FAILED: Error = internal_error!(3);
-pub(crate) const RTL_GEN_RANDOM_FAILED: Error = internal_error!(4);
-pub(crate) const FAILED_RDRAND: Error = internal_error!(5);
-pub(crate) const NO_RDRAND: Error = internal_error!(6);
-pub(crate) const BINDGEN_CRYPTO_UNDEF: Error = internal_error!(7);
-pub(crate) const BINDGEN_GRV_UNDEF: Error = internal_error!(8);
-pub(crate) const STDWEB_NO_RNG: Error = internal_error!(9);
-pub(crate) const STDWEB_RNG_FAILED: Error = internal_error!(10);
-
-fn internal_desc(error: Error) -> Option<&'static str> {
-    match error {
-        UNSUPPORTED => Some("getrandom: this target is not supported"),
-        ERRNO_NOT_POSITIVE => Some("errno: did not return a positive value"),
-        UNKNOWN_IO_ERROR => Some("Unknown std::io::Error"),
-        SEC_RANDOM_FAILED => Some("SecRandomCopyBytes: call failed"),
-        RTL_GEN_RANDOM_FAILED => Some("RtlGenRandom: call failed"),
-        FAILED_RDRAND => Some("RDRAND: failed multiple times: CPU issue likely"),
-        NO_RDRAND => Some("RDRAND: instruction not supported"),
-        BINDGEN_CRYPTO_UNDEF => Some("wasm-bindgen: self.crypto is undefined"),
-        BINDGEN_GRV_UNDEF => Some("wasm-bindgen: crypto.getRandomValues is undefined"),
-        STDWEB_NO_RNG => Some("stdweb: no randomness source available"),
-        STDWEB_RNG_FAILED => Some("stdweb: failed to get randomness"),
-        _ => None,
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::Error;
-    use core::mem::size_of;
-
-    #[test]
-    fn test_size() {
-        assert_eq!(size_of::<Error>(), 4);
-        assert_eq!(size_of::<Result<(), Error>>(), 4);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/getrandom/error_impls.rs.html b/target/doc/src/getrandom/error_impls.rs.html deleted file mode 100644 index 4453564..0000000 --- a/target/doc/src/getrandom/error_impls.rs.html +++ /dev/null @@ -1,73 +0,0 @@ -error_impls.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-extern crate std;
-
-use crate::{error::UNKNOWN_IO_ERROR, Error};
-use core::convert::From;
-use core::num::NonZeroU32;
-use std::io;
-
-impl From<io::Error> for Error {
-    fn from(err: io::Error) -> Self {
-        if let Some(errno) = err.raw_os_error() {
-            if let Some(code) = NonZeroU32::new(errno as u32) {
-                return Error::from(code);
-            }
-        }
-        UNKNOWN_IO_ERROR
-    }
-}
-
-impl From<Error> for io::Error {
-    fn from(err: Error) -> Self {
-        match err.raw_os_error() {
-            Some(errno) => io::Error::from_raw_os_error(errno),
-            None => io::Error::new(io::ErrorKind::Other, err),
-        }
-    }
-}
-
-impl std::error::Error for Error {}
-
-
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-
-// Copyright 2019 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Interface to the random number generator of the operating system.
-//!
-//! # Platform sources
-//!
-//! | OS               | interface
-//! |------------------|---------------------------------------------------------
-//! | Linux, Android   | [`getrandom`][1] system call if available, otherwise [`/dev/urandom`][2] after reading from `/dev/random` once
-//! | Windows          | [`RtlGenRandom`][3]
-//! | macOS            | [`getentropy()`][19] if available, otherwise [`/dev/random`][20] (identical to `/dev/urandom`)
-//! | iOS              | [`SecRandomCopyBytes`][4]
-//! | FreeBSD          | [`getrandom()`][21] if available, otherwise [`kern.arandom`][5]
-//! | OpenBSD          | [`getentropy`][6]
-//! | NetBSD           | [`/dev/urandom`][7] after reading from `/dev/random` once
-//! | Dragonfly BSD    | [`/dev/random`][8]
-//! | Solaris, illumos | [`getrandom`][9] system call if available, otherwise [`/dev/random`][10]
-//! | Fuchsia OS       | [`cprng_draw`][11]
-//! | Redox            | [`rand:`][12]
-//! | CloudABI         | [`cloudabi_sys_random_get`][13]
-//! | Haiku            | `/dev/random` (identical to `/dev/urandom`)
-//! | L4RE, SGX, UEFI  | [RDRAND][18]
-//! | Hermit           | [RDRAND][18] as [`sys_rand`][22] is currently broken.
-//! | Web browsers     | [`Crypto.getRandomValues`][14] (see [Support for WebAssembly and ams.js][14])
-//! | Node.js          | [`crypto.randomBytes`][15] (see [Support for WebAssembly and ams.js][16])
-//! | WASI             | [`__wasi_random_get`][17]
-//!
-//! Getrandom doesn't have a blanket implementation for all Unix-like operating
-//! systems that reads from `/dev/urandom`. This ensures all supported operating
-//! systems are using the recommended interface and respect maximum buffer
-//! sizes.
-//!
-//! ## Support for WebAssembly and ams.js
-//!
-//! The three Emscripten targets `asmjs-unknown-emscripten`,
-//! `wasm32-unknown-emscripten` and `wasm32-experimental-emscripten` use
-//! Emscripten's emulation of `/dev/random` on web browsers and Node.js.
-//!
-//! The bare WASM target `wasm32-unknown-unknown` tries to call the javascript
-//! methods directly, using either `stdweb` or `wasm-bindgen` depending on what
-//! features are activated for this crate. Note that if both features are
-//! enabled `wasm-bindgen` will be used. If neither feature is enabled,
-//! `getrandom` will always fail.
-//!
-//! The WASI target `wasm32-wasi` uses the `__wasi_random_get` function defined
-//! by the WASI standard.
-//!
-//!
-//! ## Early boot
-//!
-//! It is possible that early in the boot process the OS hasn't had enough time
-//! yet to collect entropy to securely seed its RNG, especially on virtual
-//! machines.
-//!
-//! Some operating systems always block the thread until the RNG is securely
-//! seeded. This can take anywhere from a few seconds to more than a minute.
-//! Others make a best effort to use a seed from before the shutdown and don't
-//! document much.
-//!
-//! A few, Linux, NetBSD and Solaris, offer a choice between blocking and
-//! getting an error; in these cases we always choose to block.
-//!
-//! On Linux (when the `genrandom` system call is not available) and on NetBSD
-//! reading from `/dev/urandom` never blocks, even when the OS hasn't collected
-//! enough entropy yet. To avoid returning low-entropy bytes, we first read from
-//! `/dev/random` and only switch to `/dev/urandom` once this has succeeded.
-//!
-//! # Error handling
-//!
-//! We always choose failure over returning insecure "random" bytes. In general,
-//! on supported platforms, failure is highly unlikely, though not impossible.
-//! If an error does occur, then it is likely that it will occur on every call to
-//! `getrandom`, hence after the first successful call one can be reasonably
-//! confident that no errors will occur.
-//!
-//! On unsupported platforms, `getrandom` always fails. See the [`Error`] type
-//! for more information on what data is returned on failure.
-//!
-//! [1]: http://man7.org/linux/man-pages/man2/getrandom.2.html
-//! [2]: http://man7.org/linux/man-pages/man4/urandom.4.html
-//! [3]: https://docs.microsoft.com/en-us/windows/desktop/api/ntsecapi/nf-ntsecapi-rtlgenrandom
-//! [4]: https://developer.apple.com/documentation/security/1399291-secrandomcopybytes?language=objc
-//! [5]: https://www.freebsd.org/cgi/man.cgi?query=random&sektion=4
-//! [6]: https://man.openbsd.org/getentropy.2
-//! [7]: http://netbsd.gw.com/cgi-bin/man-cgi?random+4+NetBSD-current
-//! [8]: https://leaf.dragonflybsd.org/cgi/web-man?command=random&section=4
-//! [9]: https://docs.oracle.com/cd/E88353_01/html/E37841/getrandom-2.html
-//! [10]: https://docs.oracle.com/cd/E86824_01/html/E54777/random-7d.html
-//! [11]: https://fuchsia.googlesource.com/fuchsia/+/master/zircon/docs/syscalls/cprng_draw.md
-//! [12]: https://github.com/redox-os/randd/blob/master/src/main.rs
-//! [13]: https://github.com/nuxinl/cloudabi#random_get
-//! [14]: https://www.w3.org/TR/WebCryptoAPI/#Crypto-method-getRandomValues
-//! [15]: https://nodejs.org/api/crypto.html#crypto_crypto_randombytes_size_callback
-//! [16]: #support-for-webassembly-and-amsjs
-//! [17]: https://github.com/WebAssembly/WASI/blob/master/design/WASI-core.md#__wasi_random_get
-//! [18]: https://software.intel.com/en-us/articles/intel-digital-random-number-generator-drng-software-implementation-guide
-//! [19]: https://www.unix.com/man-page/mojave/2/getentropy/
-//! [20]: https://www.unix.com/man-page/mojave/4/random/
-//! [21]: https://www.freebsd.org/cgi/man.cgi?query=getrandom&manpath=FreeBSD+12.0-stable
-//! [22]: https://github.com/hermitcore/libhermit-rs/blob/09c38b0371cee6f56a541400ba453e319e43db53/src/syscalls/random.rs#L21
-
-#![doc(
-    html_logo_url = "https://www.rust-lang.org/logos/rust-logo-128x128-blk.png",
-    html_favicon_url = "https://www.rust-lang.org/favicon.ico",
-    html_root_url = "https://rust-random.github.io/rand/"
-)]
-#![no_std]
-#![cfg_attr(feature = "stdweb", recursion_limit = "128")]
-
-#[macro_use]
-extern crate cfg_if;
-
-cfg_if! {
-    if #[cfg(feature = "log")] {
-        #[allow(unused)]
-        #[macro_use]
-        extern crate log;
-    } else {
-        #[allow(unused)]
-        macro_rules! error {
-            ($($x:tt)*) => {};
-        }
-    }
-}
-
-mod error;
-pub use crate::error::Error;
-
-#[allow(dead_code)]
-mod util;
-// Unlike the other Unix, Fuchsia and iOS don't use the libc to make any calls.
-#[cfg(any(
-    target_os = "android",
-    target_os = "dragonfly",
-    target_os = "emscripten",
-    target_os = "freebsd",
-    target_os = "haiku",
-    target_os = "illumos",
-    target_os = "linux",
-    target_os = "macos",
-    target_os = "netbsd",
-    target_os = "openbsd",
-    target_os = "redox",
-    target_os = "solaris",
-))]
-#[allow(dead_code)]
-mod util_libc;
-
-// std-only trait definitions (also need for use_file)
-#[cfg(any(
-    feature = "std",
-    target_os = "android",
-    target_os = "dragonfly",
-    target_os = "emscripten",
-    target_os = "freebsd",
-    target_os = "haiku",
-    target_os = "illumos",
-    target_os = "linux",
-    target_os = "macos",
-    target_os = "netbsd",
-    target_os = "openbsd",
-    target_os = "redox",
-    target_os = "solaris",
-))]
-mod error_impls;
-
-// These targets read from a file as a fallback method.
-#[cfg(any(
-    target_os = "android",
-    target_os = "linux",
-    target_os = "macos",
-    target_os = "solaris",
-    target_os = "illumos",
-))]
-mod use_file;
-
-// System-specific implementations.
-//
-// These should all provide getrandom_inner with the same signature as getrandom.
-cfg_if! {
-    if #[cfg(target_os = "android")] {
-        #[path = "linux_android.rs"] mod imp;
-    } else if #[cfg(target_os = "cloudabi")] {
-        #[path = "cloudabi.rs"] mod imp;
-    } else if #[cfg(target_os = "dragonfly")] {
-        #[path = "use_file.rs"] mod imp;
-    } else if #[cfg(target_os = "emscripten")] {
-        #[path = "use_file.rs"] mod imp;
-    } else if #[cfg(target_os = "freebsd")] {
-        #[path = "freebsd.rs"] mod imp;
-    } else if #[cfg(target_os = "fuchsia")] {
-        #[path = "fuchsia.rs"] mod imp;
-    } else if #[cfg(target_os = "haiku")] {
-        #[path = "use_file.rs"] mod imp;
-    } else if #[cfg(target_os = "illumos")] {
-        #[path = "solaris_illumos.rs"] mod imp;
-    } else if #[cfg(target_os = "ios")] {
-        #[path = "ios.rs"] mod imp;
-    } else if #[cfg(target_os = "linux")] {
-        #[path = "linux_android.rs"] mod imp;
-    } else if #[cfg(target_os = "macos")] {
-        #[path = "macos.rs"] mod imp;
-    } else if #[cfg(target_os = "netbsd")] {
-        #[path = "use_file.rs"] mod imp;
-    } else if #[cfg(target_os = "openbsd")] {
-        #[path = "openbsd.rs"] mod imp;
-    } else if #[cfg(target_os = "redox")] {
-        #[path = "use_file.rs"] mod imp;
-    } else if #[cfg(target_os = "solaris")] {
-        #[path = "solaris_illumos.rs"] mod imp;
-    } else if #[cfg(target_os = "wasi")] {
-        #[path = "wasi.rs"] mod imp;
-    } else if #[cfg(windows)] {
-        #[path = "windows.rs"] mod imp;
-    } else if #[cfg(all(target_arch = "x86_64", any(
-                  target_os = "hermit",
-                  target_os = "l4re",
-                  target_os = "uefi",
-                  target_env = "sgx",
-              )))] {
-        #[path = "rdrand.rs"] mod imp;
-    } else if #[cfg(target_arch = "wasm32")] {
-        cfg_if! {
-            if #[cfg(feature = "wasm-bindgen")] {
-                #[path = "wasm32_bindgen.rs"] mod imp;
-            } else if #[cfg(feature = "stdweb")] {
-                #[path = "wasm32_stdweb.rs"] mod imp;
-            } else {
-                #[path = "dummy.rs"] mod imp;
-            }
-        }
-    } else {
-        #[path = "dummy.rs"] mod imp;
-    }
-}
-
-/// Fill `dest` with random bytes from the system's preferred random number
-/// source.
-///
-/// This function returns an error on any failure, including partial reads. We
-/// make no guarantees regarding the contents of `dest` on error.
-///
-/// Blocking is possible, at least during early boot; see module documentation.
-///
-/// In general, `getrandom` will be fast enough for interactive usage, though
-/// significantly slower than a user-space CSPRNG; for the latter consider
-/// [`rand::thread_rng`](https://docs.rs/rand/*/rand/fn.thread_rng.html).
-pub fn getrandom(dest: &mut [u8]) -> Result<(), error::Error> {
-    imp::getrandom_inner(dest)
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/getrandom/util.rs.html b/target/doc/src/getrandom/util.rs.html deleted file mode 100644 index 35e425d..0000000 --- a/target/doc/src/getrandom/util.rs.html +++ /dev/null @@ -1,195 +0,0 @@ -util.rs.html -- source
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-// Copyright 2019 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use core::sync::atomic::{AtomicUsize, Ordering::Relaxed};
-
-// This structure represents a laziliy initialized static usize value. Useful
-// when it is perferable to just rerun initialization instead of locking.
-// Both unsync_init and sync_init will invoke an init() function until it
-// succeeds, then return the cached value for future calls.
-//
-// Both methods support init() "failing". If the init() method returns UNINIT,
-// that value will be returned as normal, but will not be cached.
-//
-// Users should only depend on the _value_ returned by init() functions.
-// Specifically, for the following init() function:
-//      fn init() -> usize {
-//          a();
-//          let v = b();
-//          c();
-//          v
-//      }
-// the effects of c() or writes to shared memory will not necessarily be
-// observed and additional syncronization methods with be needed.
-pub struct LazyUsize(AtomicUsize);
-
-impl LazyUsize {
-    pub const fn new() -> Self {
-        Self(AtomicUsize::new(Self::UNINIT))
-    }
-
-    // The initialization is not completed.
-    pub const UNINIT: usize = usize::max_value();
-    // The initialization is currently running.
-    pub const ACTIVE: usize = usize::max_value() - 1;
-
-    // Runs the init() function at least once, returning the value of some run
-    // of init(). Multiple callers can run their init() functions in parallel.
-    // init() should always return the same value, if it succeeds.
-    pub fn unsync_init(&self, init: impl FnOnce() -> usize) -> usize {
-        // Relaxed ordering is fine, as we only have a single atomic variable.
-        let mut val = self.0.load(Relaxed);
-        if val == Self::UNINIT {
-            val = init();
-            self.0.store(val, Relaxed);
-        }
-        val
-    }
-
-    // Synchronously runs the init() function. Only one caller will have their
-    // init() function running at a time, and exactly one successful call will
-    // be run. init() returning UNINIT or ACTIVE will be considered a failure,
-    // and future calls to sync_init will rerun their init() function.
-    pub fn sync_init(&self, init: impl FnOnce() -> usize, mut wait: impl FnMut()) -> usize {
-        // Common and fast path with no contention. Don't wast time on CAS.
-        match self.0.load(Relaxed) {
-            Self::UNINIT | Self::ACTIVE => {}
-            val => return val,
-        }
-        // Relaxed ordering is fine, as we only have a single atomic variable.
-        loop {
-            match self.0.compare_and_swap(Self::UNINIT, Self::ACTIVE, Relaxed) {
-                Self::UNINIT => {
-                    let val = init();
-                    self.0.store(
-                        match val {
-                            Self::UNINIT | Self::ACTIVE => Self::UNINIT,
-                            val => val,
-                        },
-                        Relaxed,
-                    );
-                    return val;
-                }
-                Self::ACTIVE => wait(),
-                val => return val,
-            }
-        }
-    }
-}
-
-// Identical to LazyUsize except with bool instead of usize.
-pub struct LazyBool(LazyUsize);
-
-impl LazyBool {
-    pub const fn new() -> Self {
-        Self(LazyUsize::new())
-    }
-
-    pub fn unsync_init(&self, init: impl FnOnce() -> bool) -> bool {
-        self.0.unsync_init(|| init() as usize) != 0
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/getrandom/windows.rs.html b/target/doc/src/getrandom/windows.rs.html deleted file mode 100644 index 7c5f107..0000000 --- a/target/doc/src/getrandom/windows.rs.html +++ /dev/null @@ -1,55 +0,0 @@ -windows.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Implementation for Windows
-use crate::{error::RTL_GEN_RANDOM_FAILED, Error};
-
-extern "system" {
-    #[link_name = "SystemFunction036"]
-    fn RtlGenRandom(RandomBuffer: *mut u8, RandomBufferLength: u32) -> u8;
-}
-
-pub fn getrandom_inner(dest: &mut [u8]) -> Result<(), Error> {
-    // Prevent overflow of u32
-    for chunk in dest.chunks_mut(u32::max_value() as usize) {
-        let ret = unsafe { RtlGenRandom(chunk.as_mut_ptr(), chunk.len() as u32) };
-        if ret == 0 {
-            return Err(RTL_GEN_RANDOM_FAILED);
-        }
-    }
-    Ok(())
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/lazy_static/inline_lazy.rs.html b/target/doc/src/lazy_static/inline_lazy.rs.html deleted file mode 100644 index 55d13b9..0000000 --- a/target/doc/src/lazy_static/inline_lazy.rs.html +++ /dev/null @@ -1,133 +0,0 @@ -inline_lazy.rs.html -- source
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-// Copyright 2016 lazy-static.rs Developers
-//
-// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
-// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
-// http://opensource.org/licenses/MIT>, at your option. This file may not be
-// copied, modified, or distributed except according to those terms.
-
-extern crate core;
-extern crate std;
-
-use self::std::prelude::v1::*;
-use self::std::cell::Cell;
-use self::std::sync::Once;
-pub use self::std::sync::ONCE_INIT;
-
-// FIXME: Replace Option<T> with MaybeInitialized<T>
-pub struct Lazy<T: Sync>(Cell<Option<T>>, Once);
-
-impl<T: Sync> Lazy<T> {
-    pub const INIT: Self = Lazy(Cell::new(None), ONCE_INIT);
-
-    #[inline(always)]
-    pub fn get<F>(&'static self, f: F) -> &T
-    where
-        F: FnOnce() -> T,
-    {
-        self.1.call_once(|| {
-            self.0.set(Some(f()));
-        });
-
-        // `self.0` is guaranteed to be `Some` by this point
-        // The `Once` will catch and propegate panics
-        unsafe {
-            match *self.0.as_ptr() {
-                Some(ref x) => x,
-                None => {
-                    debug_assert!(false, "attempted to derefence an uninitialized lazy static. This is a bug");
-
-                    unreachable_unchecked()
-                },
-            }
-        }
-    }
-}
-
-unsafe impl<T: Sync> Sync for Lazy<T> {}
-
-#[macro_export]
-#[doc(hidden)]
-macro_rules! __lazy_static_create {
-    ($NAME:ident, $T:ty) => {
-        static $NAME: $crate::lazy::Lazy<$T> = $crate::lazy::Lazy::INIT;
-    };
-}
-
-/// Polyfill for std::hint::unreachable_unchecked. There currently exists a
-/// [crate](https://docs.rs/unreachable) for an equivalent to std::hint::unreachable_unchecked, but
-/// lazy_static currently doesn't include any runtime dependencies and we've chosen to include this
-/// short polyfill rather than include a new crate in every consumer's build.
-///
-/// This should be replaced by std's version when lazy_static starts to require at least Rust 1.27.
-unsafe fn unreachable_unchecked() -> ! {
-    enum Void {}
-    match std::mem::uninitialized::<Void>() {}
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/lazy_static/lib.rs.html b/target/doc/src/lazy_static/lib.rs.html deleted file mode 100644 index efe067f..0000000 --- a/target/doc/src/lazy_static/lib.rs.html +++ /dev/null @@ -1,425 +0,0 @@ -lib.rs.html -- source
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-// Copyright 2016 lazy-static.rs Developers
-//
-// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
-// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
-// http://opensource.org/licenses/MIT>, at your option. This file may not be
-// copied, modified, or distributed except according to those terms.
-
-/*!
-A macro for declaring lazily evaluated statics.
-
-Using this macro, it is possible to have `static`s that require code to be
-executed at runtime in order to be initialized.
-This includes anything requiring heap allocations, like vectors or hash maps,
-as well as anything that requires function calls to be computed.
-
-# Syntax
-
-```ignore
-lazy_static! {
-    [pub] static ref NAME_1: TYPE_1 = EXPR_1;
-    [pub] static ref NAME_2: TYPE_2 = EXPR_2;
-    ...
-    [pub] static ref NAME_N: TYPE_N = EXPR_N;
-}
-```
-
-Attributes (including doc comments) are supported as well:
-
-```rust
-# #[macro_use]
-# extern crate lazy_static;
-# fn main() {
-lazy_static! {
-    /// This is an example for using doc comment attributes
-    static ref EXAMPLE: u8 = 42;
-}
-# }
-```
-
-# Semantics
-
-For a given `static ref NAME: TYPE = EXPR;`, the macro generates a unique type that
-implements `Deref<TYPE>` and stores it in a static with name `NAME`. (Attributes end up
-attaching to this type.)
-
-On first deref, `EXPR` gets evaluated and stored internally, such that all further derefs
-can return a reference to the same object. Note that this can lead to deadlocks
-if you have multiple lazy statics that depend on each other in their initialization.
-
-Apart from the lazy initialization, the resulting "static ref" variables
-have generally the same properties as regular "static" variables:
-
-- Any type in them needs to fulfill the `Sync` trait.
-- If the type has a destructor, then it will not run when the process exits.
-
-# Example
-
-Using the macro:
-
-```rust
-#[macro_use]
-extern crate lazy_static;
-
-use std::collections::HashMap;
-
-lazy_static! {
-    static ref HASHMAP: HashMap<u32, &'static str> = {
-        let mut m = HashMap::new();
-        m.insert(0, "foo");
-        m.insert(1, "bar");
-        m.insert(2, "baz");
-        m
-    };
-    static ref COUNT: usize = HASHMAP.len();
-    static ref NUMBER: u32 = times_two(21);
-}
-
-fn times_two(n: u32) -> u32 { n * 2 }
-
-fn main() {
-    println!("The map has {} entries.", *COUNT);
-    println!("The entry for `0` is \"{}\".", HASHMAP.get(&0).unwrap());
-    println!("A expensive calculation on a static results in: {}.", *NUMBER);
-}
-```
-
-# Implementation details
-
-The `Deref` implementation uses a hidden static variable that is guarded by an atomic check on each access.
-
-# Cargo features
-
-This crate provides two cargo features:
-
-- `spin_no_std`: This allows using this crate in a no-std environment, by depending on the standalone `spin` crate.
-
-Both features depend on unstable language features, which means
-no guarantees can be made about them in regard to SemVer stability.
-
-*/
-
-#![doc(html_root_url = "https://docs.rs/lazy_static/1.3.0")]
-#![no_std]
-
-#[cfg(not(feature = "spin_no_std"))]
-#[path="inline_lazy.rs"]
-#[doc(hidden)]
-pub mod lazy;
-
-#[cfg(feature = "spin_no_std")]
-#[path="core_lazy.rs"]
-#[doc(hidden)]
-pub mod lazy;
-
-#[doc(hidden)]
-pub use core::ops::Deref as __Deref;
-
-#[macro_export(local_inner_macros)]
-#[doc(hidden)]
-macro_rules! __lazy_static_internal {
-    // optional visibility restrictions are wrapped in `()` to allow for
-    // explicitly passing otherwise implicit information about private items
-    ($(#[$attr:meta])* ($($vis:tt)*) static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => {
-        __lazy_static_internal!(@MAKE TY, $(#[$attr])*, ($($vis)*), $N);
-        __lazy_static_internal!(@TAIL, $N : $T = $e);
-        lazy_static!($($t)*);
-    };
-    (@TAIL, $N:ident : $T:ty = $e:expr) => {
-        impl $crate::__Deref for $N {
-            type Target = $T;
-            fn deref(&self) -> &$T {
-                #[inline(always)]
-                fn __static_ref_initialize() -> $T { $e }
-
-                #[inline(always)]
-                fn __stability() -> &'static $T {
-                    __lazy_static_create!(LAZY, $T);
-                    LAZY.get(__static_ref_initialize)
-                }
-                __stability()
-            }
-        }
-        impl $crate::LazyStatic for $N {
-            fn initialize(lazy: &Self) {
-                let _ = &**lazy;
-            }
-        }
-    };
-    // `vis` is wrapped in `()` to prevent parsing ambiguity
-    (@MAKE TY, $(#[$attr:meta])*, ($($vis:tt)*), $N:ident) => {
-        #[allow(missing_copy_implementations)]
-        #[allow(non_camel_case_types)]
-        #[allow(dead_code)]
-        $(#[$attr])*
-        $($vis)* struct $N {__private_field: ()}
-        #[doc(hidden)]
-        $($vis)* static $N: $N = $N {__private_field: ()};
-    };
-    () => ()
-}
-
-#[macro_export(local_inner_macros)]
-macro_rules! lazy_static {
-    ($(#[$attr:meta])* static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => {
-        // use `()` to explicitly forward the information about private items
-        __lazy_static_internal!($(#[$attr])* () static ref $N : $T = $e; $($t)*);
-    };
-    ($(#[$attr:meta])* pub static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => {
-        __lazy_static_internal!($(#[$attr])* (pub) static ref $N : $T = $e; $($t)*);
-    };
-    ($(#[$attr:meta])* pub ($($vis:tt)+) static ref $N:ident : $T:ty = $e:expr; $($t:tt)*) => {
-        __lazy_static_internal!($(#[$attr])* (pub ($($vis)+)) static ref $N : $T = $e; $($t)*);
-    };
-    () => ()
-}
-
-/// Support trait for enabling a few common operation on lazy static values.
-///
-/// This is implemented by each defined lazy static, and
-/// used by the free functions in this crate.
-pub trait LazyStatic {
-    #[doc(hidden)]
-    fn initialize(lazy: &Self);
-}
-
-/// Takes a shared reference to a lazy static and initializes
-/// it if it has not been already.
-///
-/// This can be used to control the initialization point of a lazy static.
-///
-/// Example:
-///
-/// ```rust
-/// #[macro_use]
-/// extern crate lazy_static;
-///
-/// lazy_static! {
-///     static ref BUFFER: Vec<u8> = (0..255).collect();
-/// }
-///
-/// fn main() {
-///     lazy_static::initialize(&BUFFER);
-///
-///     // ...
-///     work_with_initialized_data(&BUFFER);
-/// }
-/// # fn work_with_initialized_data(_: &[u8]) {}
-/// ```
-pub fn initialize<T: LazyStatic>(lazy: &T) {
-    LazyStatic::initialize(lazy);
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/memchr/fallback.rs.html b/target/doc/src/memchr/fallback.rs.html deleted file mode 100644 index 58a3d35..0000000 --- a/target/doc/src/memchr/fallback.rs.html +++ /dev/null @@ -1,695 +0,0 @@ -fallback.rs.html -- source
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-
-// This module defines pure Rust platform independent implementations of all
-// the memchr routines. We do our best to make them fast. Some of them may even
-// get auto-vectorized.
-
-use core::cmp;
-use core::ptr;
-use core::usize;
-
-#[cfg(target_pointer_width = "32")]
-const USIZE_BYTES: usize = 4;
-
-#[cfg(target_pointer_width = "64")]
-const USIZE_BYTES: usize = 8;
-
-// The number of bytes to loop at in one iteration of memchr/memrchr.
-const LOOP_SIZE: usize = 2 * USIZE_BYTES;
-
-/// Return `true` if `x` contains any zero byte.
-///
-/// From *Matters Computational*, J. Arndt
-///
-/// "The idea is to subtract one from each of the bytes and then look for
-/// bytes where the borrow propagated all the way to the most significant
-/// bit."
-#[inline(always)]
-fn contains_zero_byte(x: usize) -> bool {
-    const LO_U64: u64 = 0x0101010101010101;
-    const HI_U64: u64 = 0x8080808080808080;
-
-    const LO_USIZE: usize = LO_U64 as usize;
-    const HI_USIZE: usize = HI_U64 as usize;
-
-    x.wrapping_sub(LO_USIZE) & !x & HI_USIZE != 0
-}
-
-/// Repeat the given byte into a word size number. That is, every 8 bits
-/// is equivalent to the given byte. For example, if `b` is `\x4E` or
-/// `01001110` in binary, then the returned value on a 32-bit system would be:
-/// `01001110_01001110_01001110_01001110`.
-#[inline(always)]
-fn repeat_byte(b: u8) -> usize {
-    (b as usize) * (usize::MAX / 255)
-}
-
-pub fn memchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = repeat_byte(n1);
-    let confirm = |byte| byte == n1;
-    let loop_size = cmp::min(LOOP_SIZE, haystack.len());
-    let align = USIZE_BYTES - 1;
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    unsafe {
-        if haystack.len() < USIZE_BYTES {
-            return forward_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        let chunk = read_unaligned_usize(ptr);
-        if contains_zero_byte(chunk ^ vn1) {
-            return forward_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        ptr = ptr_add(ptr, USIZE_BYTES - (start_ptr as usize & align));
-        debug_assert!(ptr > start_ptr);
-        debug_assert!(ptr_sub(end_ptr, USIZE_BYTES) >= start_ptr);
-        while loop_size == LOOP_SIZE && ptr <= ptr_sub(end_ptr, loop_size) {
-            debug_assert_eq!(0, (ptr as usize) % USIZE_BYTES);
-
-            let a = *(ptr as *const usize);
-            let b = *(ptr_add(ptr, USIZE_BYTES) as *const usize);
-            let eqa = contains_zero_byte(a ^ vn1);
-            let eqb = contains_zero_byte(b ^ vn1);
-            if eqa || eqb {
-                break;
-            }
-            ptr = ptr_add(ptr, LOOP_SIZE);
-        }
-        forward_search(start_ptr, end_ptr, ptr, confirm)
-    }
-}
-
-/// Like `memchr`, but searches for two bytes instead of one.
-pub fn memchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = repeat_byte(n1);
-    let vn2 = repeat_byte(n2);
-    let confirm = |byte| byte == n1 || byte == n2;
-    let align = USIZE_BYTES - 1;
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    unsafe {
-        if haystack.len() < USIZE_BYTES {
-            return forward_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        let chunk = read_unaligned_usize(ptr);
-        let eq1 = contains_zero_byte(chunk ^ vn1);
-        let eq2 = contains_zero_byte(chunk ^ vn2);
-        if eq1 || eq2 {
-            return forward_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        ptr = ptr_add(ptr, USIZE_BYTES - (start_ptr as usize & align));
-        debug_assert!(ptr > start_ptr);
-        debug_assert!(ptr_sub(end_ptr, USIZE_BYTES) >= start_ptr);
-        while ptr <= ptr_sub(end_ptr, USIZE_BYTES) {
-            debug_assert_eq!(0, (ptr as usize) % USIZE_BYTES);
-
-            let chunk = *(ptr as *const usize);
-            let eq1 = contains_zero_byte(chunk ^ vn1);
-            let eq2 = contains_zero_byte(chunk ^ vn2);
-            if eq1 || eq2 {
-                break;
-            }
-            ptr = ptr_add(ptr, USIZE_BYTES);
-        }
-        forward_search(start_ptr, end_ptr, ptr, confirm)
-    }
-}
-
-/// Like `memchr`, but searches for three bytes instead of one.
-pub fn memchr3(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = repeat_byte(n1);
-    let vn2 = repeat_byte(n2);
-    let vn3 = repeat_byte(n3);
-    let confirm = |byte| byte == n1 || byte == n2 || byte == n3;
-    let align = USIZE_BYTES - 1;
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    unsafe {
-        if haystack.len() < USIZE_BYTES {
-            return forward_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        let chunk = read_unaligned_usize(ptr);
-        let eq1 = contains_zero_byte(chunk ^ vn1);
-        let eq2 = contains_zero_byte(chunk ^ vn2);
-        let eq3 = contains_zero_byte(chunk ^ vn3);
-        if eq1 || eq2 || eq3 {
-            return forward_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        ptr = ptr_add(ptr, USIZE_BYTES - (start_ptr as usize & align));
-        debug_assert!(ptr > start_ptr);
-        debug_assert!(ptr_sub(end_ptr, USIZE_BYTES) >= start_ptr);
-        while ptr <= ptr_sub(end_ptr, USIZE_BYTES) {
-            debug_assert_eq!(0, (ptr as usize) % USIZE_BYTES);
-
-            let chunk = *(ptr as *const usize);
-            let eq1 = contains_zero_byte(chunk ^ vn1);
-            let eq2 = contains_zero_byte(chunk ^ vn2);
-            let eq3 = contains_zero_byte(chunk ^ vn3);
-            if eq1 || eq2 || eq3 {
-                break;
-            }
-            ptr = ptr_add(ptr, USIZE_BYTES);
-        }
-        forward_search(start_ptr, end_ptr, ptr, confirm)
-    }
-}
-
-/// Return the last index matching the byte `x` in `text`.
-pub fn memrchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = repeat_byte(n1);
-    let confirm = |byte| byte == n1;
-    let loop_size = cmp::min(LOOP_SIZE, haystack.len());
-    let align = USIZE_BYTES - 1;
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    unsafe {
-        if haystack.len() < USIZE_BYTES {
-            return reverse_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        let chunk = read_unaligned_usize(ptr_sub(ptr, USIZE_BYTES));
-        if contains_zero_byte(chunk ^ vn1) {
-            return reverse_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        ptr = (end_ptr as usize & !align) as *const u8;
-        debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-        while loop_size == LOOP_SIZE && ptr >= ptr_add(start_ptr, loop_size) {
-            debug_assert_eq!(0, (ptr as usize) % USIZE_BYTES);
-
-            let a = *(ptr_sub(ptr, 2 * USIZE_BYTES) as *const usize);
-            let b = *(ptr_sub(ptr, 1 * USIZE_BYTES) as *const usize);
-            let eqa = contains_zero_byte(a ^ vn1);
-            let eqb = contains_zero_byte(b ^ vn1);
-            if eqa || eqb {
-                break;
-            }
-            ptr = ptr_sub(ptr, loop_size);
-        }
-        reverse_search(start_ptr, end_ptr, ptr, confirm)
-    }
-}
-
-/// Like `memrchr`, but searches for two bytes instead of one.
-pub fn memrchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = repeat_byte(n1);
-    let vn2 = repeat_byte(n2);
-    let confirm = |byte| byte == n1 || byte == n2;
-    let align = USIZE_BYTES - 1;
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    unsafe {
-        if haystack.len() < USIZE_BYTES {
-            return reverse_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        let chunk = read_unaligned_usize(ptr_sub(ptr, USIZE_BYTES));
-        let eq1 = contains_zero_byte(chunk ^ vn1);
-        let eq2 = contains_zero_byte(chunk ^ vn2);
-        if eq1 || eq2 {
-            return reverse_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        ptr = (end_ptr as usize & !align) as *const u8;
-        debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-        while ptr >= ptr_add(start_ptr, USIZE_BYTES) {
-            debug_assert_eq!(0, (ptr as usize) % USIZE_BYTES);
-
-            let chunk = *(ptr_sub(ptr, USIZE_BYTES) as *const usize);
-            let eq1 = contains_zero_byte(chunk ^ vn1);
-            let eq2 = contains_zero_byte(chunk ^ vn2);
-            if eq1 || eq2 {
-                break;
-            }
-            ptr = ptr_sub(ptr, USIZE_BYTES);
-        }
-        reverse_search(start_ptr, end_ptr, ptr, confirm)
-    }
-}
-
-/// Like `memrchr`, but searches for three bytes instead of one.
-pub fn memrchr3(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = repeat_byte(n1);
-    let vn2 = repeat_byte(n2);
-    let vn3 = repeat_byte(n3);
-    let confirm = |byte| byte == n1 || byte == n2 || byte == n3;
-    let align = USIZE_BYTES - 1;
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    unsafe {
-        if haystack.len() < USIZE_BYTES {
-            return reverse_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        let chunk = read_unaligned_usize(ptr_sub(ptr, USIZE_BYTES));
-        let eq1 = contains_zero_byte(chunk ^ vn1);
-        let eq2 = contains_zero_byte(chunk ^ vn2);
-        let eq3 = contains_zero_byte(chunk ^ vn3);
-        if eq1 || eq2 || eq3 {
-            return reverse_search(start_ptr, end_ptr, ptr, confirm);
-        }
-
-        ptr = (end_ptr as usize & !align) as *const u8;
-        debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-        while ptr >= ptr_add(start_ptr, USIZE_BYTES) {
-            debug_assert_eq!(0, (ptr as usize) % USIZE_BYTES);
-
-            let chunk = *(ptr_sub(ptr, USIZE_BYTES) as *const usize);
-            let eq1 = contains_zero_byte(chunk ^ vn1);
-            let eq2 = contains_zero_byte(chunk ^ vn2);
-            let eq3 = contains_zero_byte(chunk ^ vn3);
-            if eq1 || eq2 || eq3 {
-                break;
-            }
-            ptr = ptr_sub(ptr, USIZE_BYTES);
-        }
-        reverse_search(start_ptr, end_ptr, ptr, confirm)
-    }
-}
-
-#[inline(always)]
-unsafe fn forward_search<F: Fn(u8) -> bool>(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    mut ptr: *const u8,
-    confirm: F,
-) -> Option<usize> {
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr);
-
-    while ptr < end_ptr {
-        if confirm(*ptr) {
-            return Some(sub(ptr, start_ptr));
-        }
-        ptr = ptr.offset(1);
-    }
-    None
-}
-
-#[inline(always)]
-unsafe fn reverse_search<F: Fn(u8) -> bool>(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    mut ptr: *const u8,
-    confirm: F,
-) -> Option<usize> {
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr);
-
-    while ptr > start_ptr {
-        ptr = ptr.offset(-1);
-        if confirm(*ptr) {
-            return Some(sub(ptr, start_ptr));
-        }
-    }
-    None
-}
-
-/// Increment the given pointer by the given amount.
-unsafe fn ptr_add(ptr: *const u8, amt: usize) -> *const u8 {
-    debug_assert!(amt < ::core::isize::MAX as usize);
-    ptr.offset(amt as isize)
-}
-
-/// Decrement the given pointer by the given amount.
-unsafe fn ptr_sub(ptr: *const u8, amt: usize) -> *const u8 {
-    debug_assert!(amt < ::core::isize::MAX as usize);
-    ptr.offset((amt as isize).wrapping_neg())
-}
-
-unsafe fn read_unaligned_usize(ptr: *const u8) -> usize {
-    let mut n: usize = 0;
-    ptr::copy_nonoverlapping(ptr, &mut n as *mut _ as *mut u8, USIZE_BYTES);
-    n
-}
-
-/// Subtract `b` from `a` and return the difference. `a` should be greater than
-/// or equal to `b`.
-fn sub(a: *const u8, b: *const u8) -> usize {
-    debug_assert!(a >= b);
-    (a as usize) - (b as usize)
-}
-
-
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-
-use {memchr, memchr2, memchr3, memrchr, memrchr2, memrchr3};
-
-macro_rules! iter_next {
-    // Common code for the memchr iterators:
-    // update haystack and position and produce the index
-    //
-    // self: &mut Self where Self is the iterator
-    // search_result: Option<usize> which is the result of the corresponding
-    // memchr function.
-    //
-    // Returns Option<usize> (the next iterator element)
-    ($self_:expr, $search_result:expr) => {
-        $search_result.map(move |index| {
-            // split and take the remaining back half
-            $self_.haystack = $self_.haystack.split_at(index + 1).1;
-            let found_position = $self_.position + index;
-            $self_.position = found_position + 1;
-            found_position
-        })
-    }
-}
-
-macro_rules! iter_next_back {
-    ($self_:expr, $search_result:expr) => {
-        $search_result.map(move |index| {
-            // split and take the remaining front half
-            $self_.haystack = $self_.haystack.split_at(index).0;
-            $self_.position + index
-        })
-    }
-}
-
-/// An iterator for `memchr`.
-pub struct Memchr<'a> {
-    needle: u8,
-    // The haystack to iterate over
-    haystack: &'a [u8],
-    // The index
-    position: usize,
-}
-
-impl<'a> Memchr<'a> {
-    /// Creates a new iterator that yields all positions of needle in haystack.
-    #[inline]
-    pub fn new(needle: u8, haystack: &[u8]) -> Memchr {
-        Memchr {
-            needle: needle,
-            haystack: haystack,
-            position: 0,
-        }
-    }
-}
-
-impl<'a> Iterator for Memchr<'a> {
-    type Item = usize;
-
-    #[inline]
-    fn next(&mut self) -> Option<usize> {
-        iter_next!(self, memchr(self.needle, self.haystack))
-    }
-
-    #[inline]
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (0, Some(self.haystack.len()))
-    }
-}
-
-impl<'a> DoubleEndedIterator for Memchr<'a> {
-    #[inline]
-    fn next_back(&mut self) -> Option<Self::Item> {
-        iter_next_back!(self, memrchr(self.needle, self.haystack))
-    }
-}
-
-/// An iterator for `memchr2`.
-pub struct Memchr2<'a> {
-    needle1: u8,
-    needle2: u8,
-    // The haystack to iterate over
-    haystack: &'a [u8],
-    // The index
-    position: usize,
-}
-
-impl<'a> Memchr2<'a> {
-    /// Creates a new iterator that yields all positions of needle in haystack.
-    #[inline]
-    pub fn new(needle1: u8, needle2: u8, haystack: &[u8]) -> Memchr2 {
-        Memchr2 {
-            needle1: needle1,
-            needle2: needle2,
-            haystack: haystack,
-            position: 0,
-        }
-    }
-}
-
-impl<'a> Iterator for Memchr2<'a> {
-    type Item = usize;
-
-    #[inline]
-    fn next(&mut self) -> Option<usize> {
-        iter_next!(self, memchr2(self.needle1, self.needle2, self.haystack))
-    }
-
-    #[inline]
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (0, Some(self.haystack.len()))
-    }
-}
-
-impl<'a> DoubleEndedIterator for Memchr2<'a> {
-    #[inline]
-    fn next_back(&mut self) -> Option<Self::Item> {
-        iter_next_back!(
-            self,
-            memrchr2(self.needle1, self.needle2, self.haystack)
-        )
-    }
-}
-
-/// An iterator for `memchr3`.
-pub struct Memchr3<'a> {
-    needle1: u8,
-    needle2: u8,
-    needle3: u8,
-    // The haystack to iterate over
-    haystack: &'a [u8],
-    // The index
-    position: usize,
-}
-
-impl<'a> Memchr3<'a> {
-    /// Create a new `Memchr3` that's initialized to zero with a haystack
-    #[inline]
-    pub fn new(
-        needle1: u8,
-        needle2: u8,
-        needle3: u8,
-        haystack: &[u8],
-    ) -> Memchr3 {
-        Memchr3 {
-            needle1: needle1,
-            needle2: needle2,
-            needle3: needle3,
-            haystack: haystack,
-            position: 0,
-        }
-    }
-}
-
-impl<'a> Iterator for Memchr3<'a> {
-    type Item = usize;
-
-    #[inline]
-    fn next(&mut self) -> Option<usize> {
-        iter_next!(
-            self,
-            memchr3(self.needle1, self.needle2, self.needle3, self.haystack)
-        )
-    }
-
-    #[inline]
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (0, Some(self.haystack.len()))
-    }
-}
-
-impl<'a> DoubleEndedIterator for Memchr3<'a> {
-    #[inline]
-    fn next_back(&mut self) -> Option<Self::Item> {
-        iter_next_back!(
-            self,
-            memrchr3(self.needle1, self.needle2, self.needle3, self.haystack)
-        )
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/memchr/lib.rs.html b/target/doc/src/memchr/lib.rs.html deleted file mode 100644 index 8d236c0..0000000 --- a/target/doc/src/memchr/lib.rs.html +++ /dev/null @@ -1,627 +0,0 @@ -lib.rs.html -- source
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-
-/*!
-The `memchr` crate provides heavily optimized routines for searching bytes.
-
-The `memchr` function is traditionally provided by libc, however, the
-performance of `memchr` can vary significantly depending on the specific
-implementation of libc that is used. They can range from manually tuned
-Assembly implementations (like that found in GNU's libc) all the way to
-non-vectorized C implementations (like that found in MUSL).
-
-To smooth out the differences between implementations of libc, at least
-on `x86_64` for Rust 1.27+, this crate provides its own implementation of
-`memchr` that should perform competitively with the one found in GNU's libc.
-The implementation is in pure Rust and has no dependency on a C compiler or an
-Assembler.
-
-Additionally, GNU libc also provides an extension, `memrchr`. This crate
-provides its own implementation of `memrchr` as well, on top of `memchr2`,
-`memchr3`, `memrchr2` and `memrchr3`. The difference between `memchr` and
-`memchr2` is that that `memchr2` permits finding all occurrences of two bytes
-instead of one. Similarly for `memchr3`.
-*/
-
-#![cfg_attr(not(feature = "use_std"), no_std)]
-
-#![deny(missing_docs)]
-#![doc(html_root_url = "https://docs.rs/memchr/2.0.0")]
-
-// Supporting 16-bit would be fine. If you need it, please submit a bug report
-// at https://github.com/BurntSushi/rust-memchr
-#[cfg(not(any(target_pointer_width = "32", target_pointer_width = "64")))]
-compile_error!("memchr currently not supported on non-32 or non-64 bit");
-
-#[cfg(feature = "use_std")]
-extern crate core;
-
-#[cfg(test)]
-#[macro_use]
-extern crate quickcheck;
-
-use core::iter::Rev;
-
-pub use iter::{Memchr, Memchr2, Memchr3};
-
-// N.B. If you're looking for the cfg knobs for libc, see build.rs.
-#[cfg(memchr_libc)]
-mod c;
-#[allow(dead_code)]
-mod fallback;
-mod iter;
-mod naive;
-#[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-mod x86;
-#[cfg(test)]
-mod tests;
-
-/// An iterator over all occurrences of the needle in a haystack.
-#[inline]
-pub fn memchr_iter(needle: u8, haystack: &[u8]) -> Memchr {
-    Memchr::new(needle, haystack)
-}
-
-/// An iterator over all occurrences of the needles in a haystack.
-#[inline]
-pub fn memchr2_iter(
-    needle1: u8,
-    needle2: u8,
-    haystack: &[u8],
-) -> Memchr2 {
-    Memchr2::new(needle1, needle2, haystack)
-}
-
-/// An iterator over all occurrences of the needles in a haystack.
-#[inline]
-pub fn memchr3_iter(
-    needle1: u8,
-    needle2: u8,
-    needle3: u8,
-    haystack: &[u8],
-) -> Memchr3 {
-    Memchr3::new(needle1, needle2, needle3, haystack)
-}
-
-/// An iterator over all occurrences of the needle in a haystack, in reverse.
-#[inline]
-pub fn memrchr_iter(needle: u8, haystack: &[u8]) -> Rev<Memchr> {
-    Memchr::new(needle, haystack).rev()
-}
-
-/// An iterator over all occurrences of the needles in a haystack, in reverse.
-#[inline]
-pub fn memrchr2_iter(
-    needle1: u8,
-    needle2: u8,
-    haystack: &[u8],
-) -> Rev<Memchr2> {
-    Memchr2::new(needle1, needle2, haystack).rev()
-}
-
-/// An iterator over all occurrences of the needles in a haystack, in reverse.
-#[inline]
-pub fn memrchr3_iter(
-    needle1: u8,
-    needle2: u8,
-    needle3: u8,
-    haystack: &[u8],
-) -> Rev<Memchr3> {
-    Memchr3::new(needle1, needle2, needle3, haystack).rev()
-}
-
-/// Search for the first occurrence of a byte in a slice.
-///
-/// This returns the index corresponding to the first occurrence of `needle` in
-/// `haystack`, or `None` if one is not found.
-///
-/// While this is operationally the same as something like
-/// `haystack.iter().position(|&b| b == needle)`, `memchr` will use a highly
-/// optimized routine that can be up to an order of magnitude faster in some
-/// cases.
-///
-/// # Example
-///
-/// This shows how to find the first position of a byte in a byte string.
-///
-/// ```
-/// use memchr::memchr;
-///
-/// let haystack = b"the quick brown fox";
-/// assert_eq!(memchr(b'k', haystack), Some(8));
-/// ```
-#[inline]
-pub fn memchr(needle: u8, haystack: &[u8]) -> Option<usize> {
-    #[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-    #[inline(always)]
-    fn imp(n1: u8, haystack: &[u8]) -> Option<usize> {
-        x86::memchr(n1, haystack)
-    }
-
-    #[cfg(all(
-        memchr_libc,
-        not(all(target_arch = "x86_64", memchr_runtime_simd))
-    ))]
-    #[inline(always)]
-    fn imp(n1: u8, haystack: &[u8]) -> Option<usize> {
-        c::memchr(n1, haystack)
-    }
-
-    #[cfg(all(
-        not(memchr_libc),
-        not(all(target_arch = "x86_64", memchr_runtime_simd))
-    ))]
-    #[inline(always)]
-    fn imp(n1: u8, haystack: &[u8]) -> Option<usize> {
-        fallback::memchr(n1, haystack)
-    }
-
-    if haystack.is_empty() {
-        None
-    } else {
-        imp(needle, haystack)
-    }
-}
-
-/// Like `memchr`, but searches for two bytes instead of one.
-#[inline]
-pub fn memchr2(needle1: u8, needle2: u8, haystack: &[u8]) -> Option<usize> {
-    #[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-        x86::memchr2(n1, n2, haystack)
-    }
-
-    #[cfg(not(all(target_arch = "x86_64", memchr_runtime_simd)))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-        fallback::memchr2(n1, n2, haystack)
-    }
-
-    if haystack.is_empty() {
-        None
-    } else {
-        imp(needle1, needle2, haystack)
-    }
-}
-
-/// Like `memchr`, but searches for three bytes instead of one.
-#[inline]
-pub fn memchr3(
-    needle1: u8,
-    needle2: u8,
-    needle3: u8,
-    haystack: &[u8],
-) -> Option<usize> {
-    #[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-        x86::memchr3(n1, n2, n3, haystack)
-    }
-
-    #[cfg(not(all(target_arch = "x86_64", memchr_runtime_simd)))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-        fallback::memchr3(n1, n2, n3, haystack)
-    }
-
-    if haystack.is_empty() {
-        None
-    } else {
-        imp(needle1, needle2, needle3, haystack)
-    }
-}
-
-/// Search for the last occurrence of a byte in a slice.
-///
-/// This returns the index corresponding to the last occurrence of `needle` in
-/// `haystack`, or `None` if one is not found.
-///
-/// While this is operationally the same as something like
-/// `haystack.iter().rposition(|&b| b == needle)`, `memrchr` will use a highly
-/// optimized routine that can be up to an order of magnitude faster in some
-/// cases.
-///
-/// # Example
-///
-/// This shows how to find the last position of a byte in a byte string.
-///
-/// ```
-/// use memchr::memrchr;
-///
-/// let haystack = b"the quick brown fox";
-/// assert_eq!(memrchr(b'o', haystack), Some(17));
-/// ```
-#[inline]
-pub fn memrchr(needle: u8, haystack: &[u8]) -> Option<usize> {
-    #[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-    #[inline(always)]
-    fn imp(n1: u8, haystack: &[u8]) -> Option<usize> {
-        x86::memrchr(n1, haystack)
-    }
-
-    #[cfg(all(
-        all(memchr_libc, target_os = "linux"),
-        not(all(target_arch = "x86_64", memchr_runtime_simd))
-    ))]
-    #[inline(always)]
-    fn imp(n1: u8, haystack: &[u8]) -> Option<usize> {
-        c::memrchr(n1, haystack)
-    }
-
-    #[cfg(all(
-        not(all(memchr_libc, target_os = "linux")),
-        not(all(target_arch = "x86_64", memchr_runtime_simd))
-    ))]
-    #[inline(always)]
-    fn imp(n1: u8, haystack: &[u8]) -> Option<usize> {
-        fallback::memrchr(n1, haystack)
-    }
-
-    if haystack.is_empty() {
-        None
-    } else {
-        imp(needle, haystack)
-    }
-}
-
-/// Like `memrchr`, but searches for two bytes instead of one.
-#[inline]
-pub fn memrchr2(needle1: u8, needle2: u8, haystack: &[u8]) -> Option<usize> {
-    #[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-        x86::memrchr2(n1, n2, haystack)
-    }
-
-    #[cfg(not(all(target_arch = "x86_64", memchr_runtime_simd)))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-        fallback::memrchr2(n1, n2, haystack)
-    }
-
-    if haystack.is_empty() {
-        None
-    } else {
-        imp(needle1, needle2, haystack)
-    }
-}
-
-/// Like `memrchr`, but searches for three bytes instead of one.
-#[inline]
-pub fn memrchr3(
-    needle1: u8,
-    needle2: u8,
-    needle3: u8,
-    haystack: &[u8],
-) -> Option<usize> {
-    #[cfg(all(target_arch = "x86_64", memchr_runtime_simd))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-        x86::memrchr3(n1, n2, n3, haystack)
-    }
-
-    #[cfg(not(all(target_arch = "x86_64", memchr_runtime_simd)))]
-    #[inline(always)]
-    fn imp(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-        fallback::memrchr3(n1, n2, n3, haystack)
-    }
-
-    if haystack.is_empty() {
-        None
-    } else {
-        imp(needle1, needle2, needle3, haystack)
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/memchr/naive.rs.html b/target/doc/src/memchr/naive.rs.html deleted file mode 100644 index 46d6ece..0000000 --- a/target/doc/src/memchr/naive.rs.html +++ /dev/null @@ -1,77 +0,0 @@ -naive.rs.html -- source
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-
-#![allow(dead_code)]
-
-pub fn memchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    haystack
-        .iter()
-        .position(|&b| b == n1)
-}
-
-pub fn memchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    haystack
-        .iter()
-        .position(|&b| b == n1 || b == n2)
-}
-
-pub fn memchr3(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-    haystack
-        .iter()
-        .position(|&b| b == n1 || b == n2 || b == n3)
-}
-
-pub fn memrchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    haystack
-        .iter()
-        .rposition(|&b| b == n1)
-}
-
-pub fn memrchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    haystack
-        .iter()
-        .rposition(|&b| b == n1 || b == n2)
-}
-
-pub fn memrchr3(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-    haystack
-        .iter()
-        .rposition(|&b| b == n1 || b == n2 || b == n3)
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/memchr/x86/avx.rs.html b/target/doc/src/memchr/x86/avx.rs.html deleted file mode 100644 index 7ea1223..0000000 --- a/target/doc/src/memchr/x86/avx.rs.html +++ /dev/null @@ -1,1409 +0,0 @@ -avx.rs.html -- source
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-
-use core::arch::x86_64::*;
-use core::cmp;
-use core::mem::size_of;
-
-use x86::sse2;
-
-const VECTOR_SIZE: usize = size_of::<__m256i>();
-const VECTOR_ALIGN: usize = VECTOR_SIZE - 1;
-
-// The number of bytes to loop at in one iteration of memchr/memrchr.
-const LOOP_SIZE: usize = 4 * VECTOR_SIZE;
-
-// The number of bytes to loop at in one iteration of memchr2/memrchr2 and
-// memchr3/memrchr3. There was no observable difference between 128 and 64
-// bytes in benchmarks. memchr3 in particular only gets a very slight speed up
-// from the loop unrolling.
-const LOOP_SIZE2: usize = 2 * VECTOR_SIZE;
-
-#[target_feature(enable = "avx2")]
-pub unsafe fn memchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    // For a high level explanation for how this algorithm works, see the
-    // sse2 implementation. The avx implementation here is the same, but with
-    // 256-bit vectors instead of 128-bit vectors.
-
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        // For small haystacks, defer to the SSE2 implementation. Codegen
-        // suggests this completely avoids touching the AVX vectors.
-        return sse2::memchr(n1, haystack);
-    }
-
-    let vn1 = _mm256_set1_epi8(n1 as i8);
-    let loop_size = cmp::min(LOOP_SIZE, haystack.len());
-    if let Some(i) = forward_search1(start_ptr, end_ptr, ptr, vn1) {
-        return Some(i);
-    }
-
-    ptr = ptr.add(VECTOR_SIZE - (start_ptr as usize & VECTOR_ALIGN));
-    debug_assert!(ptr > start_ptr && end_ptr.sub(VECTOR_SIZE) >= start_ptr);
-    while loop_size == LOOP_SIZE && ptr <= end_ptr.sub(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        let a = _mm256_load_si256(ptr as *const __m256i);
-        let b = _mm256_load_si256(ptr.add(VECTOR_SIZE) as *const __m256i);
-        let c = _mm256_load_si256(ptr.add(2 * VECTOR_SIZE) as *const __m256i);
-        let d = _mm256_load_si256(ptr.add(3 * VECTOR_SIZE) as *const __m256i);
-        let eqa = _mm256_cmpeq_epi8(vn1, a);
-        let eqb = _mm256_cmpeq_epi8(vn1, b);
-        let eqc = _mm256_cmpeq_epi8(vn1, c);
-        let eqd = _mm256_cmpeq_epi8(vn1, d);
-        let or1 = _mm256_or_si256(eqa, eqb);
-        let or2 = _mm256_or_si256(eqc, eqd);
-        let or3 = _mm256_or_si256(or1, or2);
-        if _mm256_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr, start_ptr);
-            let mask = _mm256_movemask_epi8(eqa);
-            if mask != 0 {
-                return Some(at + forward_pos(mask));
-            }
-
-            at += VECTOR_SIZE;
-            let mask = _mm256_movemask_epi8(eqb);
-            if mask != 0 {
-                return Some(at + forward_pos(mask));
-            }
-
-            at += VECTOR_SIZE;
-            let mask = _mm256_movemask_epi8(eqc);
-            if mask != 0 {
-                return Some(at + forward_pos(mask));
-            }
-
-            at += VECTOR_SIZE;
-            let mask = _mm256_movemask_epi8(eqd);
-            debug_assert!(mask != 0);
-            return Some(at + forward_pos(mask));
-        }
-        ptr = ptr.add(loop_size);
-    }
-    while ptr <= end_ptr.sub(VECTOR_SIZE) {
-        debug_assert!(sub(end_ptr, ptr) >= VECTOR_SIZE);
-
-        if let Some(i) = forward_search1(start_ptr, end_ptr, ptr, vn1) {
-            return Some(i);
-        }
-        ptr = ptr.add(VECTOR_SIZE);
-    }
-    if ptr < end_ptr {
-        debug_assert!(sub(end_ptr, ptr) < VECTOR_SIZE);
-        ptr = ptr.sub(VECTOR_SIZE - sub(end_ptr, ptr));
-        debug_assert_eq!(sub(end_ptr, ptr), VECTOR_SIZE);
-
-        return forward_search1(start_ptr, end_ptr, ptr, vn1);
-    }
-    None
-}
-
-#[target_feature(enable = "avx2")]
-pub unsafe fn memchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = _mm256_set1_epi8(n1 as i8);
-    let vn2 = _mm256_set1_epi8(n2 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr < end_ptr {
-            if *ptr == n1 || *ptr == n2 {
-                return Some(sub(ptr, start_ptr));
-            }
-            ptr = ptr.offset(1);
-        }
-        return None;
-    }
-
-    if let Some(i) = forward_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-        return Some(i);
-    }
-
-    ptr = ptr.add(VECTOR_SIZE - (start_ptr as usize & VECTOR_ALIGN));
-    debug_assert!(ptr > start_ptr && end_ptr.sub(VECTOR_SIZE) >= start_ptr);
-    while loop_size == LOOP_SIZE2 && ptr <= end_ptr.sub(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        let a = _mm256_load_si256(ptr as *const __m256i);
-        let b = _mm256_load_si256(ptr.add(VECTOR_SIZE) as *const __m256i);
-        let eqa1 = _mm256_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm256_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm256_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm256_cmpeq_epi8(vn2, b);
-        let or1 = _mm256_or_si256(eqa1, eqb1);
-        let or2 = _mm256_or_si256(eqa2, eqb2);
-        let or3 = _mm256_or_si256(or1, or2);
-        if _mm256_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr, start_ptr);
-            let mask1 = _mm256_movemask_epi8(eqa1);
-            let mask2 = _mm256_movemask_epi8(eqa2);
-            if mask1 != 0 || mask2 != 0 {
-                return Some(at + forward_pos2(mask1, mask2));
-            }
-
-            at += VECTOR_SIZE;
-            let mask1 = _mm256_movemask_epi8(eqb1);
-            let mask2 = _mm256_movemask_epi8(eqb2);
-            return Some(at + forward_pos2(mask1, mask2));
-        }
-        ptr = ptr.add(loop_size);
-    }
-    while ptr <= end_ptr.sub(VECTOR_SIZE) {
-        if let Some(i) = forward_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-            return Some(i);
-        }
-        ptr = ptr.add(VECTOR_SIZE);
-    }
-    if ptr < end_ptr {
-        debug_assert!(sub(end_ptr, ptr) < VECTOR_SIZE);
-        ptr = ptr.sub(VECTOR_SIZE - sub(end_ptr, ptr));
-        debug_assert_eq!(sub(end_ptr, ptr), VECTOR_SIZE);
-
-        return forward_search2(start_ptr, end_ptr, ptr, vn1, vn2);
-    }
-    None
-}
-
-#[target_feature(enable = "avx2")]
-pub unsafe fn memchr3(
-    n1: u8, n2: u8, n3: u8,
-    haystack: &[u8]
-) -> Option<usize> {
-    let vn1 = _mm256_set1_epi8(n1 as i8);
-    let vn2 = _mm256_set1_epi8(n2 as i8);
-    let vn3 = _mm256_set1_epi8(n3 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr < end_ptr {
-            if *ptr == n1 || *ptr == n2 || *ptr == n3 {
-                return Some(sub(ptr, start_ptr));
-            }
-            ptr = ptr.offset(1);
-        }
-        return None;
-    }
-
-    if let Some(i) = forward_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-        return Some(i);
-    }
-
-    ptr = ptr.add(VECTOR_SIZE - (start_ptr as usize & VECTOR_ALIGN));
-    debug_assert!(ptr > start_ptr && end_ptr.sub(VECTOR_SIZE) >= start_ptr);
-    while loop_size == LOOP_SIZE2 && ptr <= end_ptr.sub(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        let a = _mm256_load_si256(ptr as *const __m256i);
-        let b = _mm256_load_si256(ptr.add(VECTOR_SIZE) as *const __m256i);
-        let eqa1 = _mm256_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm256_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm256_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm256_cmpeq_epi8(vn2, b);
-        let eqa3 = _mm256_cmpeq_epi8(vn3, a);
-        let eqb3 = _mm256_cmpeq_epi8(vn3, b);
-        let or1 = _mm256_or_si256(eqa1, eqb1);
-        let or2 = _mm256_or_si256(eqa2, eqb2);
-        let or3 = _mm256_or_si256(eqa3, eqb3);
-        let or4 = _mm256_or_si256(or1, or2);
-        let or5 = _mm256_or_si256(or3, or4);
-        if _mm256_movemask_epi8(or5) != 0 {
-            let mut at = sub(ptr, start_ptr);
-            let mask1 = _mm256_movemask_epi8(eqa1);
-            let mask2 = _mm256_movemask_epi8(eqa2);
-            let mask3 = _mm256_movemask_epi8(eqa3);
-            if mask1 != 0 || mask2 != 0 || mask3 != 0 {
-                return Some(at + forward_pos3(mask1, mask2, mask3));
-            }
-
-            at += VECTOR_SIZE;
-            let mask1 = _mm256_movemask_epi8(eqb1);
-            let mask2 = _mm256_movemask_epi8(eqb2);
-            let mask3 = _mm256_movemask_epi8(eqb3);
-            if mask1 != 0 || mask2 != 0 || mask3 != 0 {
-                return Some(at + forward_pos3(mask1, mask2, mask3));
-            }
-
-            at += VECTOR_SIZE;
-            let mask1 = _mm256_movemask_epi8(eqb1);
-            let mask2 = _mm256_movemask_epi8(eqb2);
-            let mask3 = _mm256_movemask_epi8(eqb3);
-            return Some(at + forward_pos3(mask1, mask2, mask3));
-        }
-        ptr = ptr.add(loop_size);
-    }
-    while ptr <= end_ptr.sub(VECTOR_SIZE) {
-        if let Some(i) = forward_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-            return Some(i);
-        }
-        ptr = ptr.add(VECTOR_SIZE);
-    }
-    if ptr < end_ptr {
-        debug_assert!(sub(end_ptr, ptr) < VECTOR_SIZE);
-        ptr = ptr.sub(VECTOR_SIZE - sub(end_ptr, ptr));
-        debug_assert_eq!(sub(end_ptr, ptr), VECTOR_SIZE);
-
-        return forward_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3);
-    }
-    None
-}
-
-#[target_feature(enable = "avx2")]
-pub unsafe fn memrchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = _mm256_set1_epi8(n1 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr > start_ptr {
-            ptr = ptr.offset(-1);
-            if *ptr == n1 {
-                return Some(sub(ptr, start_ptr));
-            }
-        }
-        return None;
-    }
-
-    ptr = ptr.sub(VECTOR_SIZE);
-    if let Some(i) = reverse_search1(start_ptr, end_ptr, ptr, vn1) {
-        return Some(i);
-    }
-
-    ptr = (end_ptr as usize & !VECTOR_ALIGN) as *const u8;
-    debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-    while loop_size == LOOP_SIZE && ptr >= start_ptr.add(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        ptr = ptr.sub(loop_size);
-        let a = _mm256_load_si256(ptr as *const __m256i);
-        let b = _mm256_load_si256(ptr.add(VECTOR_SIZE) as *const __m256i);
-        let c = _mm256_load_si256(ptr.add(2 * VECTOR_SIZE) as *const __m256i);
-        let d = _mm256_load_si256(ptr.add(3 * VECTOR_SIZE) as *const __m256i);
-        let eqa = _mm256_cmpeq_epi8(vn1, a);
-        let eqb = _mm256_cmpeq_epi8(vn1, b);
-        let eqc = _mm256_cmpeq_epi8(vn1, c);
-        let eqd = _mm256_cmpeq_epi8(vn1, d);
-        let or1 = _mm256_or_si256(eqa, eqb);
-        let or2 = _mm256_or_si256(eqc, eqd);
-        let or3 = _mm256_or_si256(or1, or2);
-        if _mm256_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr.add(3 * VECTOR_SIZE), start_ptr);
-            let mask = _mm256_movemask_epi8(eqd);
-            if mask != 0 {
-                return Some(at + reverse_pos(mask));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask = _mm256_movemask_epi8(eqc);
-            if mask != 0 {
-                return Some(at + reverse_pos(mask));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask = _mm256_movemask_epi8(eqb);
-            if mask != 0 {
-                return Some(at + reverse_pos(mask));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask = _mm256_movemask_epi8(eqa);
-            debug_assert!(mask != 0);
-            return Some(at + reverse_pos(mask));
-        }
-    }
-    while ptr >= start_ptr.add(VECTOR_SIZE) {
-        ptr = ptr.sub(VECTOR_SIZE);
-        if let Some(i) = reverse_search1(start_ptr, end_ptr, ptr, vn1) {
-            return Some(i);
-        }
-    }
-    if ptr > start_ptr {
-        debug_assert!(sub(ptr, start_ptr) < VECTOR_SIZE);
-        return reverse_search1(start_ptr, end_ptr, start_ptr, vn1);
-    }
-    None
-}
-
-#[target_feature(enable = "avx2")]
-pub unsafe fn memrchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = _mm256_set1_epi8(n1 as i8);
-    let vn2 = _mm256_set1_epi8(n2 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr > start_ptr {
-            ptr = ptr.offset(-1);
-            if *ptr == n1 || *ptr == n2 {
-                return Some(sub(ptr, start_ptr));
-            }
-        }
-        return None;
-    }
-
-    ptr = ptr.sub(VECTOR_SIZE);
-    if let Some(i) = reverse_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-        return Some(i);
-    }
-
-    ptr = (end_ptr as usize & !VECTOR_ALIGN) as *const u8;
-    debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-    while loop_size == LOOP_SIZE2 && ptr >= start_ptr.add(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        ptr = ptr.sub(loop_size);
-        let a = _mm256_load_si256(ptr as *const __m256i);
-        let b = _mm256_load_si256(ptr.add(VECTOR_SIZE) as *const __m256i);
-        let eqa1 = _mm256_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm256_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm256_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm256_cmpeq_epi8(vn2, b);
-        let or1 = _mm256_or_si256(eqa1, eqb1);
-        let or2 = _mm256_or_si256(eqa2, eqb2);
-        let or3 = _mm256_or_si256(or1, or2);
-        if _mm256_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr.add(VECTOR_SIZE), start_ptr);
-            let mask1 = _mm256_movemask_epi8(eqb1);
-            let mask2 = _mm256_movemask_epi8(eqb2);
-            if mask1 != 0 || mask2 != 0 {
-                return Some(at + reverse_pos2(mask1, mask2));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask1 = _mm256_movemask_epi8(eqa1);
-            let mask2 = _mm256_movemask_epi8(eqa2);
-            return Some(at + reverse_pos2(mask1, mask2));
-        }
-    }
-    while ptr >= start_ptr.add(VECTOR_SIZE) {
-        ptr = ptr.sub(VECTOR_SIZE);
-        if let Some(i) = reverse_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-            return Some(i);
-        }
-    }
-    if ptr > start_ptr {
-        debug_assert!(sub(ptr, start_ptr) < VECTOR_SIZE);
-        return reverse_search2(start_ptr, end_ptr, start_ptr, vn1, vn2);
-    }
-    None
-}
-
-#[target_feature(enable = "avx2")]
-pub unsafe fn memrchr3(
-    n1: u8, n2: u8, n3: u8,
-    haystack: &[u8],
-) -> Option<usize> {
-    let vn1 = _mm256_set1_epi8(n1 as i8);
-    let vn2 = _mm256_set1_epi8(n2 as i8);
-    let vn3 = _mm256_set1_epi8(n3 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr > start_ptr {
-            ptr = ptr.offset(-1);
-            if *ptr == n1 || *ptr == n2 || *ptr == n3 {
-                return Some(sub(ptr, start_ptr));
-            }
-        }
-        return None;
-    }
-
-    ptr = ptr.sub(VECTOR_SIZE);
-    if let Some(i) = reverse_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-        return Some(i);
-    }
-
-    ptr = (end_ptr as usize & !VECTOR_ALIGN) as *const u8;
-    debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-    while loop_size == LOOP_SIZE2 && ptr >= start_ptr.add(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        ptr = ptr.sub(loop_size);
-        let a = _mm256_load_si256(ptr as *const __m256i);
-        let b = _mm256_load_si256(ptr.add(VECTOR_SIZE) as *const __m256i);
-        let eqa1 = _mm256_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm256_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm256_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm256_cmpeq_epi8(vn2, b);
-        let eqa3 = _mm256_cmpeq_epi8(vn3, a);
-        let eqb3 = _mm256_cmpeq_epi8(vn3, b);
-        let or1 = _mm256_or_si256(eqa1, eqb1);
-        let or2 = _mm256_or_si256(eqa2, eqb2);
-        let or3 = _mm256_or_si256(eqa3, eqb3);
-        let or4 = _mm256_or_si256(or1, or2);
-        let or5 = _mm256_or_si256(or3, or4);
-        if _mm256_movemask_epi8(or5) != 0 {
-            let mut at = sub(ptr.add(VECTOR_SIZE), start_ptr);
-            let mask1 = _mm256_movemask_epi8(eqb1);
-            let mask2 = _mm256_movemask_epi8(eqb2);
-            let mask3 = _mm256_movemask_epi8(eqb3);
-            if mask1 != 0 || mask2 != 0 || mask3 != 0 {
-                return Some(at + reverse_pos3(mask1, mask2, mask3));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask1 = _mm256_movemask_epi8(eqa1);
-            let mask2 = _mm256_movemask_epi8(eqa2);
-            let mask3 = _mm256_movemask_epi8(eqa3);
-            return Some(at + reverse_pos3(mask1, mask2, mask3));
-        }
-    }
-    while ptr >= start_ptr.add(VECTOR_SIZE) {
-        ptr = ptr.sub(VECTOR_SIZE);
-        if let Some(i) = reverse_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-            return Some(i);
-        }
-    }
-    if ptr > start_ptr {
-        debug_assert!(sub(ptr, start_ptr) < VECTOR_SIZE);
-        return reverse_search3(start_ptr, end_ptr, start_ptr, vn1, vn2, vn3);
-    }
-    None
-}
-
-#[target_feature(enable = "avx2")]
-unsafe fn forward_search1(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m256i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm256_loadu_si256(ptr as *const __m256i);
-    let mask = _mm256_movemask_epi8(_mm256_cmpeq_epi8(chunk, vn1));
-    if mask != 0 {
-        Some(sub(ptr, start_ptr) + forward_pos(mask))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "avx2")]
-unsafe fn forward_search2(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m256i,
-    vn2: __m256i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm256_loadu_si256(ptr as *const __m256i);
-    let eq1 = _mm256_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm256_cmpeq_epi8(chunk, vn2);
-    if _mm256_movemask_epi8(_mm256_or_si256(eq1, eq2)) != 0 {
-        let mask1 = _mm256_movemask_epi8(eq1);
-        let mask2 = _mm256_movemask_epi8(eq2);
-        Some(sub(ptr, start_ptr) + forward_pos2(mask1, mask2))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "avx2")]
-unsafe fn forward_search3(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m256i,
-    vn2: __m256i,
-    vn3: __m256i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm256_loadu_si256(ptr as *const __m256i);
-    let eq1 = _mm256_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm256_cmpeq_epi8(chunk, vn2);
-    let eq3 = _mm256_cmpeq_epi8(chunk, vn3);
-    let or = _mm256_or_si256(eq1, eq2);
-    if _mm256_movemask_epi8(_mm256_or_si256(or, eq3)) != 0 {
-        let mask1 = _mm256_movemask_epi8(eq1);
-        let mask2 = _mm256_movemask_epi8(eq2);
-        let mask3 = _mm256_movemask_epi8(eq3);
-        Some(sub(ptr, start_ptr) + forward_pos3(mask1, mask2, mask3))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "avx2")]
-unsafe fn reverse_search1(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m256i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm256_loadu_si256(ptr as *const __m256i);
-    let mask = _mm256_movemask_epi8(_mm256_cmpeq_epi8(vn1, chunk));
-    if mask != 0 {
-        Some(sub(ptr, start_ptr) + reverse_pos(mask))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "avx2")]
-unsafe fn reverse_search2(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m256i,
-    vn2: __m256i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm256_loadu_si256(ptr as *const __m256i);
-    let eq1 = _mm256_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm256_cmpeq_epi8(chunk, vn2);
-    if _mm256_movemask_epi8(_mm256_or_si256(eq1, eq2)) != 0 {
-        let mask1 = _mm256_movemask_epi8(eq1);
-        let mask2 = _mm256_movemask_epi8(eq2);
-        Some(sub(ptr, start_ptr) + reverse_pos2(mask1, mask2))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "avx2")]
-unsafe fn reverse_search3(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m256i,
-    vn2: __m256i,
-    vn3: __m256i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm256_loadu_si256(ptr as *const __m256i);
-    let eq1 = _mm256_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm256_cmpeq_epi8(chunk, vn2);
-    let eq3 = _mm256_cmpeq_epi8(chunk, vn3);
-    let or = _mm256_or_si256(eq1, eq2);
-    if _mm256_movemask_epi8(_mm256_or_si256(or, eq3)) != 0 {
-        let mask1 = _mm256_movemask_epi8(eq1);
-        let mask2 = _mm256_movemask_epi8(eq2);
-        let mask3 = _mm256_movemask_epi8(eq3);
-        Some(sub(ptr, start_ptr) + reverse_pos3(mask1, mask2, mask3))
-    } else {
-        None
-    }
-}
-
-/// Compute the position of the first matching byte from the given mask. The
-/// position returned is always in the range [0, 31].
-///
-/// The mask given is expected to be the result of _mm256_movemask_epi8.
-fn forward_pos(mask: i32) -> usize {
-    // We are dealing with little endian here, where the most significant byte
-    // is at a higher address. That means the least significant bit that is set
-    // corresponds to the position of our first matching byte. That position
-    // corresponds to the number of zeros after the least significant bit.
-    mask.trailing_zeros() as usize
-}
-
-/// Compute the position of the first matching byte from the given masks. The
-/// position returned is always in the range [0, 31]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm256_movemask_epi8,
-/// where at least one of the masks is non-zero (i.e., indicates a match).
-fn forward_pos2(mask1: i32, mask2: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0);
-
-    forward_pos(mask1 | mask2)
-}
-
-/// Compute the position of the first matching byte from the given masks. The
-/// position returned is always in the range [0, 31]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm256_movemask_epi8,
-/// where at least one of the masks is non-zero (i.e., indicates a match).
-fn forward_pos3(mask1: i32, mask2: i32, mask3: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0 || mask3 != 0);
-
-    forward_pos(mask1 | mask2 | mask3)
-}
-
-/// Compute the position of the last matching byte from the given mask. The
-/// position returned is always in the range [0, 31].
-///
-/// The mask given is expected to be the result of _mm256_movemask_epi8.
-fn reverse_pos(mask: i32) -> usize {
-    // We are dealing with little endian here, where the most significant byte
-    // is at a higher address. That means the most significant bit that is set
-    // corresponds to the position of our last matching byte. The position from
-    // the end of the mask is therefore the number of leading zeros in a 32
-    // bit integer, and the position from the start of the mask is therefore
-    // 32 - (leading zeros) - 1.
-    VECTOR_SIZE - (mask as u32).leading_zeros() as usize - 1
-}
-
-/// Compute the position of the last matching byte from the given masks. The
-/// position returned is always in the range [0, 31]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm256_movemask_epi8,
-/// where at least one of the masks is non-zero (i.e., indicates a match).
-fn reverse_pos2(mask1: i32, mask2: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0);
-
-    reverse_pos(mask1 | mask2)
-}
-
-/// Compute the position of the last matching byte from the given masks. The
-/// position returned is always in the range [0, 31]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm256_movemask_epi8,
-/// where at least one of the masks is non-zero (i.e., indicates a match).
-fn reverse_pos3(mask1: i32, mask2: i32, mask3: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0 || mask3 != 0);
-
-    reverse_pos(mask1 | mask2 | mask3)
-}
-
-/// Subtract `b` from `a` and return the difference. `a` should be greater than
-/// or equal to `b`.
-fn sub(a: *const u8, b: *const u8) -> usize {
-    debug_assert!(a >= b);
-    (a as usize) - (b as usize)
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/memchr/x86/mod.rs.html b/target/doc/src/memchr/x86/mod.rs.html deleted file mode 100644 index 8c6de1d..0000000 --- a/target/doc/src/memchr/x86/mod.rs.html +++ /dev/null @@ -1,213 +0,0 @@ -mod.rs.html -- source
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-
-use fallback;
-
-// We only use AVX when we can detect at runtime whether it's available, which
-// requires std.
-#[cfg(feature = "use_std")]
-mod avx;
-mod sse2;
-
-// This macro employs a gcc-like "ifunc" trick where by upon first calling
-// `memchr` (for example), CPU feature detection will be performed at runtime
-// to determine the best implementation to use. After CPU feature detection
-// is done, we replace `memchr`'s function pointer with the selection. Upon
-// subsequent invocations, the CPU-specific routine is invoked directly, which
-// skips the CPU feature detection and subsequent branch that's required.
-//
-// While this typically doesn't matter for rare occurrences or when used on
-// larger haystacks, `memchr` can be called in tight loops where the overhead
-// of this branch can actually add up *and is measurable*. This trick was
-// necessary to bring this implementation up to glibc's speeds for the 'tiny'
-// benchmarks, for example.
-//
-// At some point, I expect the Rust ecosystem will get a nice macro for doing
-// exactly this, at which point, we can replace our hand-jammed version of it.
-//
-// N.B. The ifunc strategy does prevent function inlining of course, but on
-// modern CPUs, you'll probably end up with the AVX2 implementation, which
-// probably can't be inlined anyway---unless you've compiled your entire
-// program with AVX2 enabled. However, even then, the various memchr
-// implementations aren't exactly small, so inlining might not help anyway!
-#[cfg(feature = "use_std")]
-macro_rules! ifunc {
-    ($fnty:ty, $name:ident, $haystack:ident, $($needle:ident),+) => {{
-        use std::mem;
-        use std::sync::atomic::{AtomicPtr, Ordering};
-
-        type FnRaw = *mut ();
-
-        static FN: AtomicPtr<()> = AtomicPtr::new(detect as FnRaw);
-
-        fn detect($($needle: u8),+, haystack: &[u8]) -> Option<usize> {
-            let fun =
-                if cfg!(memchr_runtime_avx) && is_x86_feature_detected!("avx2") {
-                    avx::$name as FnRaw
-                } else if cfg!(memchr_runtime_sse2) {
-                    sse2::$name as FnRaw
-                } else {
-                    fallback::$name as FnRaw
-                };
-            FN.store(fun as FnRaw, Ordering::Relaxed);
-            unsafe {
-                mem::transmute::<FnRaw, $fnty>(fun)($($needle),+, haystack)
-            }
-        }
-
-        unsafe {
-            let fun = FN.load(Ordering::Relaxed);
-            mem::transmute::<FnRaw, $fnty>(fun)($($needle),+, $haystack)
-        }
-    }}
-}
-
-// When std isn't available to provide runtime CPU feature detection, or if
-// runtime CPU feature detection has been explicitly disabled, then just call
-// our optimized SSE2 routine directly. SSE2 is avalbale on all x86_64 targets,
-// so no CPU feature detection is necessary.
-#[cfg(not(feature = "use_std"))]
-macro_rules! ifunc {
-    ($fnty:ty, $name:ident, $haystack:ident, $($needle:ident),+) => {{
-        if cfg!(memchr_runtime_sse2) {
-            unsafe { sse2::$name($($needle),+, $haystack) }
-        } else {
-            fallback::$name($($needle),+, $haystack)
-        }
-    }}
-}
-
-#[inline(always)]
-pub fn memchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    ifunc!(fn(u8, &[u8]) -> Option<usize>, memchr, haystack, n1)
-}
-
-#[inline(always)]
-pub fn memchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    ifunc!(fn(u8, u8, &[u8]) -> Option<usize>, memchr2, haystack, n1, n2)
-}
-
-#[inline(always)]
-pub fn memchr3(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-    ifunc!(fn(u8, u8, u8, &[u8]) -> Option<usize>, memchr3, haystack, n1, n2, n3)
-}
-
-#[inline(always)]
-pub fn memrchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    ifunc!(fn(u8, &[u8]) -> Option<usize>, memrchr, haystack, n1)
-}
-
-#[inline(always)]
-pub fn memrchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    ifunc!(fn(u8, u8, &[u8]) -> Option<usize>, memrchr2, haystack, n1, n2)
-}
-
-#[inline(always)]
-pub fn memrchr3(n1: u8, n2: u8, n3: u8, haystack: &[u8]) -> Option<usize> {
-    ifunc!(fn(u8, u8, u8, &[u8]) -> Option<usize>, memrchr3, haystack, n1, n2, n3)
-}
-
-
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-
-use core::arch::x86_64::*;
-use core::cmp;
-use core::mem::size_of;
-
-const VECTOR_SIZE: usize = size_of::<__m128i>();
-const VECTOR_ALIGN: usize = VECTOR_SIZE - 1;
-
-// The number of bytes to loop at in one iteration of memchr/memrchr.
-const LOOP_SIZE: usize = 4 * VECTOR_SIZE;
-
-// The number of bytes to loop at in one iteration of memchr2/memrchr2 and
-// memchr3/memrchr3. There was no observable difference between 64 and 32 bytes
-// in benchmarks. memchr3 in particular only gets a very slight speed up from
-// the loop unrolling.
-const LOOP_SIZE2: usize = 2 * VECTOR_SIZE;
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn memchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    // What follows is a fast SSE2-only algorithm to detect the position of
-    // `n1` in `haystack` if it exists. From what I know, this is the "classic"
-    // algorithm. I believe it can be found in places like glibc and Go's
-    // standard library. It appears to be well known and is elaborated on in
-    // more detail here: https://gms.tf/stdfind-and-memchr-optimizations.html
-    //
-    // While this routine is very long, the basic idea is actually very simple
-    // and can be expressed straight-forwardly in pseudo code:
-    //
-    //     needle = (n1 << 15) | (n1 << 14) | ... | (n1 << 1) | n1
-    //     while i <= haystack.len() - 16:
-    //       // A 16 byte vector. Each byte in chunk corresponds to a byte in
-    //       // the haystack.
-    //       chunk = haystack[i:i+16]
-    //       // Compare bytes in needle with bytes in chunk. The result is a 16
-    //       // byte chunk where each byte is 0xFF if the corresponding bytes
-    //       // in needle and chunk were equal, or 0x00 otherwise.
-    //       eqs = cmpeq(needle, chunk)
-    //       // Return a 32 bit integer where the most significant 16 bits
-    //       // are always 0 and the lower 16 bits correspond to whether the
-    //       // most significant bit in the correspond byte in `eqs` is set.
-    //       // In other words, `mask as u16` has bit i set if and only if
-    //       // needle[i] == chunk[i].
-    //       mask = movemask(eqs)
-    //
-    //       // Mask is 0 if there is no match, and non-zero otherwise.
-    //       if mask != 0:
-    //         // trailing_zeros tells us the position of the least significant
-    //         // bit that is set.
-    //         return i + trailing_zeros(mask)
-    //
-    //     // haystack length may not be a multiple of 16, so search the rest.
-    //     while i < haystack.len():
-    //       if haystack[i] == n1:
-    //         return i
-    //
-    //     // No match found.
-    //     return NULL
-    //
-    // In fact, we could loosely translate the above code to Rust line-for-line
-    // and it would be a pretty fast algorithm. But, we pull out all the stops
-    // to go as fast as possible:
-    //
-    // 1. We use aligned loads. That is, we do some finagling to make sure our
-    //    primary loop not only proceeds in increments of 16 bytes, but that
-    //    the address of haystack's pointer that we dereference is aligned to
-    //    16 bytes. 16 is a magic number here because it is the size of SSE2
-    //    128-bit vector. (For the AVX2 algorithm, 32 is the magic number.)
-    //    Therefore, to get aligned loads, our pointer's address must be evenly
-    //    divisible by 16.
-    // 2. Our primary loop proceeds 64 bytes at a time instead of 16. It's
-    //    kind of like loop unrolling, but we combine the equality comparisons
-    //    using a vector OR such that we only need to extract a single mask to
-    //    determine whether a match exists or not. If so, then we do some
-    //    book-keeping to determine the precise location but otherwise mush on.
-    // 3. We use our "chunk" comparison routine in as many places as possible,
-    //    even if it means using unaligned loads. In particular, if haystack
-    //    starts with an unaligned address, then we do an unaligned load to
-    //    search the first 16 bytes. We then start our primary loop at the
-    //    smallest subsequent aligned address, which will actually overlap with
-    //    previously searched bytes. But we're OK with that. We do a similar
-    //    dance at the end of our primary loop. Finally, to avoid a
-    //    byte-at-a-time loop at the end, we do a final 16 byte unaligned load
-    //    that may overlap with a previous load. This is OK because it converts
-    //    a loop into a small number of very fast vector instructions.
-    //
-    // The primary downside of this algorithm is that it's effectively
-    // completely unsafe. Therefore, we have to be super careful to avoid
-    // undefined behavior:
-    //
-    // 1. We use raw pointers everywhere. Not only does dereferencing a pointer
-    //    require the pointer to be valid, but we actually can't even store the
-    //    address of an invalid pointer (unless it's 1 past the end of
-    //    haystack) without sacrificing performance.
-    // 2. _mm_loadu_si128 is used when you don't care about alignment, and
-    //    _mm_load_si128 is used when you do care. You cannot use the latter
-    //    on unaligned pointers.
-    // 3. We make liberal use of debug_assert! to check assumptions.
-    // 4. We make a concerted effort to stick with pointers instead of indices.
-    //    Indices are nicer because there's less to worry about with them (see
-    //    above about pointer offsets), but I could not get the compiler to
-    //    produce as good of code as what the below produces. In any case,
-    //    pointers are what we really care about here, and alignment is
-    //    expressed a bit more naturally with them.
-    //
-    // In general, most of the algorithms in this crate have a similar
-    // structure to what you see below, so this comment applies fairly well to
-    // all of them.
-
-    let vn1 = _mm_set1_epi8(n1 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr < end_ptr {
-            if *ptr == n1 {
-                return Some(sub(ptr, start_ptr));
-            }
-            ptr = ptr.offset(1);
-        }
-        return None;
-    }
-
-    if let Some(i) = forward_search1(start_ptr, end_ptr, ptr, vn1) {
-        return Some(i);
-    }
-
-    ptr = ptr.add(VECTOR_SIZE - (start_ptr as usize & VECTOR_ALIGN));
-    debug_assert!(ptr > start_ptr && end_ptr.sub(VECTOR_SIZE) >= start_ptr);
-    while loop_size == LOOP_SIZE && ptr <= end_ptr.sub(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        let a = _mm_load_si128(ptr as *const __m128i);
-        let b = _mm_load_si128(ptr.add(VECTOR_SIZE) as *const __m128i);
-        let c = _mm_load_si128(ptr.add(2 * VECTOR_SIZE) as *const __m128i);
-        let d = _mm_load_si128(ptr.add(3 * VECTOR_SIZE) as *const __m128i);
-        let eqa = _mm_cmpeq_epi8(vn1, a);
-        let eqb = _mm_cmpeq_epi8(vn1, b);
-        let eqc = _mm_cmpeq_epi8(vn1, c);
-        let eqd = _mm_cmpeq_epi8(vn1, d);
-        let or1 = _mm_or_si128(eqa, eqb);
-        let or2 = _mm_or_si128(eqc, eqd);
-        let or3 = _mm_or_si128(or1, or2);
-        if _mm_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr, start_ptr);
-            let mask = _mm_movemask_epi8(eqa);
-            if mask != 0 {
-                return Some(at + forward_pos(mask));
-            }
-
-            at += VECTOR_SIZE;
-            let mask = _mm_movemask_epi8(eqb);
-            if mask != 0 {
-                return Some(at + forward_pos(mask));
-            }
-
-            at += VECTOR_SIZE;
-            let mask = _mm_movemask_epi8(eqc);
-            if mask != 0 {
-                return Some(at + forward_pos(mask));
-            }
-
-            at += VECTOR_SIZE;
-            let mask = _mm_movemask_epi8(eqd);
-            debug_assert!(mask != 0);
-            return Some(at + forward_pos(mask));
-        }
-        ptr = ptr.add(loop_size);
-    }
-    while ptr <= end_ptr.sub(VECTOR_SIZE) {
-        debug_assert!(sub(end_ptr, ptr) >= VECTOR_SIZE);
-
-        if let Some(i) = forward_search1(start_ptr, end_ptr, ptr, vn1) {
-            return Some(i);
-        }
-        ptr = ptr.add(VECTOR_SIZE);
-    }
-    if ptr < end_ptr {
-        debug_assert!(sub(end_ptr, ptr) < VECTOR_SIZE);
-        ptr = ptr.sub(VECTOR_SIZE - sub(end_ptr, ptr));
-        debug_assert_eq!(sub(end_ptr, ptr), VECTOR_SIZE);
-
-        return forward_search1(start_ptr, end_ptr, ptr, vn1);
-    }
-    None
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn memchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = _mm_set1_epi8(n1 as i8);
-    let vn2 = _mm_set1_epi8(n2 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr < end_ptr {
-            if *ptr == n1 || *ptr == n2 {
-                return Some(sub(ptr, start_ptr));
-            }
-            ptr = ptr.offset(1);
-        }
-        return None;
-    }
-
-    if let Some(i) = forward_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-        return Some(i);
-    }
-
-    ptr = ptr.add(VECTOR_SIZE - (start_ptr as usize & VECTOR_ALIGN));
-    debug_assert!(ptr > start_ptr && end_ptr.sub(VECTOR_SIZE) >= start_ptr);
-    while loop_size == LOOP_SIZE2 && ptr <= end_ptr.sub(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        let a = _mm_load_si128(ptr as *const __m128i);
-        let b = _mm_load_si128(ptr.add(VECTOR_SIZE) as *const __m128i);
-        let eqa1 = _mm_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm_cmpeq_epi8(vn2, b);
-        let or1 = _mm_or_si128(eqa1, eqb1);
-        let or2 = _mm_or_si128(eqa2, eqb2);
-        let or3 = _mm_or_si128(or1, or2);
-        if _mm_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr, start_ptr);
-            let mask1 = _mm_movemask_epi8(eqa1);
-            let mask2 = _mm_movemask_epi8(eqa2);
-            if mask1 != 0 || mask2 != 0 {
-                return Some(at + forward_pos2(mask1, mask2));
-            }
-
-            at += VECTOR_SIZE;
-            let mask1 = _mm_movemask_epi8(eqb1);
-            let mask2 = _mm_movemask_epi8(eqb2);
-            return Some(at + forward_pos2(mask1, mask2));
-        }
-        ptr = ptr.add(loop_size);
-    }
-    while ptr <= end_ptr.sub(VECTOR_SIZE) {
-        if let Some(i) = forward_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-            return Some(i);
-        }
-        ptr = ptr.add(VECTOR_SIZE);
-    }
-    if ptr < end_ptr {
-        debug_assert!(sub(end_ptr, ptr) < VECTOR_SIZE);
-        ptr = ptr.sub(VECTOR_SIZE - sub(end_ptr, ptr));
-        debug_assert_eq!(sub(end_ptr, ptr), VECTOR_SIZE);
-
-        return forward_search2(start_ptr, end_ptr, ptr, vn1, vn2);
-    }
-    None
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn memchr3(
-    n1: u8, n2: u8, n3: u8,
-    haystack: &[u8]
-) -> Option<usize> {
-    let vn1 = _mm_set1_epi8(n1 as i8);
-    let vn2 = _mm_set1_epi8(n2 as i8);
-    let vn3 = _mm_set1_epi8(n3 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = start_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr < end_ptr {
-            if *ptr == n1 || *ptr == n2 || *ptr == n3 {
-                return Some(sub(ptr, start_ptr));
-            }
-            ptr = ptr.offset(1);
-        }
-        return None;
-    }
-
-    if let Some(i) = forward_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-        return Some(i);
-    }
-
-    ptr = ptr.add(VECTOR_SIZE - (start_ptr as usize & VECTOR_ALIGN));
-    debug_assert!(ptr > start_ptr && end_ptr.sub(VECTOR_SIZE) >= start_ptr);
-    while loop_size == LOOP_SIZE2 && ptr <= end_ptr.sub(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        let a = _mm_load_si128(ptr as *const __m128i);
-        let b = _mm_load_si128(ptr.add(VECTOR_SIZE) as *const __m128i);
-        let eqa1 = _mm_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm_cmpeq_epi8(vn2, b);
-        let eqa3 = _mm_cmpeq_epi8(vn3, a);
-        let eqb3 = _mm_cmpeq_epi8(vn3, b);
-        let or1 = _mm_or_si128(eqa1, eqb1);
-        let or2 = _mm_or_si128(eqa2, eqb2);
-        let or3 = _mm_or_si128(eqa3, eqb3);
-        let or4 = _mm_or_si128(or1, or2);
-        let or5 = _mm_or_si128(or3, or4);
-        if _mm_movemask_epi8(or5) != 0 {
-            let mut at = sub(ptr, start_ptr);
-            let mask1 = _mm_movemask_epi8(eqa1);
-            let mask2 = _mm_movemask_epi8(eqa2);
-            let mask3 = _mm_movemask_epi8(eqa3);
-            if mask1 != 0 || mask2 != 0 || mask3 != 0 {
-                return Some(at + forward_pos3(mask1, mask2, mask3));
-            }
-
-            at += VECTOR_SIZE;
-            let mask1 = _mm_movemask_epi8(eqb1);
-            let mask2 = _mm_movemask_epi8(eqb2);
-            let mask3 = _mm_movemask_epi8(eqb3);
-            if mask1 != 0 || mask2 != 0 || mask3 != 0 {
-                return Some(at + forward_pos3(mask1, mask2, mask3));
-            }
-
-            at += VECTOR_SIZE;
-            let mask1 = _mm_movemask_epi8(eqb1);
-            let mask2 = _mm_movemask_epi8(eqb2);
-            let mask3 = _mm_movemask_epi8(eqb3);
-            return Some(at + forward_pos3(mask1, mask2, mask3));
-        }
-        ptr = ptr.add(loop_size);
-    }
-    while ptr <= end_ptr.sub(VECTOR_SIZE) {
-        if let Some(i) = forward_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-            return Some(i);
-        }
-        ptr = ptr.add(VECTOR_SIZE);
-    }
-    if ptr < end_ptr {
-        debug_assert!(sub(end_ptr, ptr) < VECTOR_SIZE);
-        ptr = ptr.sub(VECTOR_SIZE - sub(end_ptr, ptr));
-        debug_assert_eq!(sub(end_ptr, ptr), VECTOR_SIZE);
-
-        return forward_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3);
-    }
-    None
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn memrchr(n1: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = _mm_set1_epi8(n1 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr > start_ptr {
-            ptr = ptr.offset(-1);
-            if *ptr == n1 {
-                return Some(sub(ptr, start_ptr));
-            }
-        }
-        return None;
-    }
-
-    ptr = ptr.sub(VECTOR_SIZE);
-    if let Some(i) = reverse_search1(start_ptr, end_ptr, ptr, vn1) {
-        return Some(i);
-    }
-
-    ptr = (end_ptr as usize & !VECTOR_ALIGN) as *const u8;
-    debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-    while loop_size == LOOP_SIZE && ptr >= start_ptr.add(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        ptr = ptr.sub(loop_size);
-        let a = _mm_load_si128(ptr as *const __m128i);
-        let b = _mm_load_si128(ptr.add(VECTOR_SIZE) as *const __m128i);
-        let c = _mm_load_si128(ptr.add(2 * VECTOR_SIZE) as *const __m128i);
-        let d = _mm_load_si128(ptr.add(3 * VECTOR_SIZE) as *const __m128i);
-        let eqa = _mm_cmpeq_epi8(vn1, a);
-        let eqb = _mm_cmpeq_epi8(vn1, b);
-        let eqc = _mm_cmpeq_epi8(vn1, c);
-        let eqd = _mm_cmpeq_epi8(vn1, d);
-        let or1 = _mm_or_si128(eqa, eqb);
-        let or2 = _mm_or_si128(eqc, eqd);
-        let or3 = _mm_or_si128(or1, or2);
-        if _mm_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr.add(3 * VECTOR_SIZE), start_ptr);
-            let mask = _mm_movemask_epi8(eqd);
-            if mask != 0 {
-                return Some(at + reverse_pos(mask));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask = _mm_movemask_epi8(eqc);
-            if mask != 0 {
-                return Some(at + reverse_pos(mask));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask = _mm_movemask_epi8(eqb);
-            if mask != 0 {
-                return Some(at + reverse_pos(mask));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask = _mm_movemask_epi8(eqa);
-            debug_assert!(mask != 0);
-            return Some(at + reverse_pos(mask));
-        }
-    }
-    while ptr >= start_ptr.add(VECTOR_SIZE) {
-        ptr = ptr.sub(VECTOR_SIZE);
-        if let Some(i) = reverse_search1(start_ptr, end_ptr, ptr, vn1) {
-            return Some(i);
-        }
-    }
-    if ptr > start_ptr {
-        debug_assert!(sub(ptr, start_ptr) < VECTOR_SIZE);
-        return reverse_search1(start_ptr, end_ptr, start_ptr, vn1);
-    }
-    None
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn memrchr2(n1: u8, n2: u8, haystack: &[u8]) -> Option<usize> {
-    let vn1 = _mm_set1_epi8(n1 as i8);
-    let vn2 = _mm_set1_epi8(n2 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr > start_ptr {
-            ptr = ptr.offset(-1);
-            if *ptr == n1 || *ptr == n2 {
-                return Some(sub(ptr, start_ptr));
-            }
-        }
-        return None;
-    }
-
-    ptr = ptr.sub(VECTOR_SIZE);
-    if let Some(i) = reverse_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-        return Some(i);
-    }
-
-    ptr = (end_ptr as usize & !VECTOR_ALIGN) as *const u8;
-    debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-    while loop_size == LOOP_SIZE2 && ptr >= start_ptr.add(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        ptr = ptr.sub(loop_size);
-        let a = _mm_load_si128(ptr as *const __m128i);
-        let b = _mm_load_si128(ptr.add(VECTOR_SIZE) as *const __m128i);
-        let eqa1 = _mm_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm_cmpeq_epi8(vn2, b);
-        let or1 = _mm_or_si128(eqa1, eqb1);
-        let or2 = _mm_or_si128(eqa2, eqb2);
-        let or3 = _mm_or_si128(or1, or2);
-        if _mm_movemask_epi8(or3) != 0 {
-            let mut at = sub(ptr.add(VECTOR_SIZE), start_ptr);
-            let mask1 = _mm_movemask_epi8(eqb1);
-            let mask2 = _mm_movemask_epi8(eqb2);
-            if mask1 != 0 || mask2 != 0 {
-                return Some(at + reverse_pos2(mask1, mask2));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask1 = _mm_movemask_epi8(eqa1);
-            let mask2 = _mm_movemask_epi8(eqa2);
-            return Some(at + reverse_pos2(mask1, mask2));
-        }
-    }
-    while ptr >= start_ptr.add(VECTOR_SIZE) {
-        ptr = ptr.sub(VECTOR_SIZE);
-        if let Some(i) = reverse_search2(start_ptr, end_ptr, ptr, vn1, vn2) {
-            return Some(i);
-        }
-    }
-    if ptr > start_ptr {
-        debug_assert!(sub(ptr, start_ptr) < VECTOR_SIZE);
-        return reverse_search2(start_ptr, end_ptr, start_ptr, vn1, vn2);
-    }
-    None
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn memrchr3(
-    n1: u8, n2: u8, n3: u8,
-    haystack: &[u8],
-) -> Option<usize> {
-    let vn1 = _mm_set1_epi8(n1 as i8);
-    let vn2 = _mm_set1_epi8(n2 as i8);
-    let vn3 = _mm_set1_epi8(n3 as i8);
-    let len = haystack.len();
-    let loop_size = cmp::min(LOOP_SIZE2, len);
-    let start_ptr = haystack.as_ptr();
-    let end_ptr = haystack[haystack.len()..].as_ptr();
-    let mut ptr = end_ptr;
-
-    if haystack.len() < VECTOR_SIZE {
-        while ptr > start_ptr {
-            ptr = ptr.offset(-1);
-            if *ptr == n1 || *ptr == n2 || *ptr == n3 {
-                return Some(sub(ptr, start_ptr));
-            }
-        }
-        return None;
-    }
-
-    ptr = ptr.sub(VECTOR_SIZE);
-    if let Some(i) = reverse_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-        return Some(i);
-    }
-
-    ptr = (end_ptr as usize & !VECTOR_ALIGN) as *const u8;
-    debug_assert!(start_ptr <= ptr && ptr <= end_ptr);
-    while loop_size == LOOP_SIZE2 && ptr >= start_ptr.add(loop_size) {
-        debug_assert_eq!(0, (ptr as usize) % VECTOR_SIZE);
-
-        ptr = ptr.sub(loop_size);
-        let a = _mm_load_si128(ptr as *const __m128i);
-        let b = _mm_load_si128(ptr.add(VECTOR_SIZE) as *const __m128i);
-        let eqa1 = _mm_cmpeq_epi8(vn1, a);
-        let eqb1 = _mm_cmpeq_epi8(vn1, b);
-        let eqa2 = _mm_cmpeq_epi8(vn2, a);
-        let eqb2 = _mm_cmpeq_epi8(vn2, b);
-        let eqa3 = _mm_cmpeq_epi8(vn3, a);
-        let eqb3 = _mm_cmpeq_epi8(vn3, b);
-        let or1 = _mm_or_si128(eqa1, eqb1);
-        let or2 = _mm_or_si128(eqa2, eqb2);
-        let or3 = _mm_or_si128(eqa3, eqb3);
-        let or4 = _mm_or_si128(or1, or2);
-        let or5 = _mm_or_si128(or3, or4);
-        if _mm_movemask_epi8(or5) != 0 {
-            let mut at = sub(ptr.add(VECTOR_SIZE), start_ptr);
-            let mask1 = _mm_movemask_epi8(eqb1);
-            let mask2 = _mm_movemask_epi8(eqb2);
-            let mask3 = _mm_movemask_epi8(eqb3);
-            if mask1 != 0 || mask2 != 0 || mask3 != 0 {
-                return Some(at + reverse_pos3(mask1, mask2, mask3));
-            }
-
-            at -= VECTOR_SIZE;
-            let mask1 = _mm_movemask_epi8(eqa1);
-            let mask2 = _mm_movemask_epi8(eqa2);
-            let mask3 = _mm_movemask_epi8(eqa3);
-            return Some(at + reverse_pos3(mask1, mask2, mask3));
-        }
-    }
-    while ptr >= start_ptr.add(VECTOR_SIZE) {
-        ptr = ptr.sub(VECTOR_SIZE);
-        if let Some(i) = reverse_search3(start_ptr, end_ptr, ptr, vn1, vn2, vn3) {
-            return Some(i);
-        }
-    }
-    if ptr > start_ptr {
-        debug_assert!(sub(ptr, start_ptr) < VECTOR_SIZE);
-        return reverse_search3(start_ptr, end_ptr, start_ptr, vn1, vn2, vn3);
-    }
-    None
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn forward_search1(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m128i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm_loadu_si128(ptr as *const __m128i);
-    let mask = _mm_movemask_epi8(_mm_cmpeq_epi8(chunk, vn1));
-    if mask != 0 {
-        Some(sub(ptr, start_ptr) + forward_pos(mask))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "sse2")]
-unsafe fn forward_search2(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m128i,
-    vn2: __m128i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm_loadu_si128(ptr as *const __m128i);
-    let eq1 = _mm_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm_cmpeq_epi8(chunk, vn2);
-    if _mm_movemask_epi8(_mm_or_si128(eq1, eq2)) != 0 {
-        let mask1 = _mm_movemask_epi8(eq1);
-        let mask2 = _mm_movemask_epi8(eq2);
-        Some(sub(ptr, start_ptr) + forward_pos2(mask1, mask2))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "sse2")]
-pub unsafe fn forward_search3(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m128i,
-    vn2: __m128i,
-    vn3: __m128i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm_loadu_si128(ptr as *const __m128i);
-    let eq1 = _mm_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm_cmpeq_epi8(chunk, vn2);
-    let eq3 = _mm_cmpeq_epi8(chunk, vn3);
-    let or = _mm_or_si128(eq1, eq2);
-    if _mm_movemask_epi8(_mm_or_si128(or, eq3)) != 0 {
-        let mask1 = _mm_movemask_epi8(eq1);
-        let mask2 = _mm_movemask_epi8(eq2);
-        let mask3 = _mm_movemask_epi8(eq3);
-        Some(sub(ptr, start_ptr) + forward_pos3(mask1, mask2, mask3))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "sse2")]
-unsafe fn reverse_search1(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m128i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm_loadu_si128(ptr as *const __m128i);
-    let mask = _mm_movemask_epi8(_mm_cmpeq_epi8(vn1, chunk));
-    if mask != 0 {
-        Some(sub(ptr, start_ptr) + reverse_pos(mask))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "sse2")]
-unsafe fn reverse_search2(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m128i,
-    vn2: __m128i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm_loadu_si128(ptr as *const __m128i);
-    let eq1 = _mm_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm_cmpeq_epi8(chunk, vn2);
-    if _mm_movemask_epi8(_mm_or_si128(eq1, eq2)) != 0 {
-        let mask1 = _mm_movemask_epi8(eq1);
-        let mask2 = _mm_movemask_epi8(eq2);
-        Some(sub(ptr, start_ptr) + reverse_pos2(mask1, mask2))
-    } else {
-        None
-    }
-}
-
-#[target_feature(enable = "sse2")]
-unsafe fn reverse_search3(
-    start_ptr: *const u8,
-    end_ptr: *const u8,
-    ptr: *const u8,
-    vn1: __m128i,
-    vn2: __m128i,
-    vn3: __m128i,
-) -> Option<usize> {
-    debug_assert!(sub(end_ptr, start_ptr) >= VECTOR_SIZE);
-    debug_assert!(start_ptr <= ptr);
-    debug_assert!(ptr <= end_ptr.sub(VECTOR_SIZE));
-
-    let chunk = _mm_loadu_si128(ptr as *const __m128i);
-    let eq1 = _mm_cmpeq_epi8(chunk, vn1);
-    let eq2 = _mm_cmpeq_epi8(chunk, vn2);
-    let eq3 = _mm_cmpeq_epi8(chunk, vn3);
-    let or = _mm_or_si128(eq1, eq2);
-    if _mm_movemask_epi8(_mm_or_si128(or, eq3)) != 0 {
-        let mask1 = _mm_movemask_epi8(eq1);
-        let mask2 = _mm_movemask_epi8(eq2);
-        let mask3 = _mm_movemask_epi8(eq3);
-        Some(sub(ptr, start_ptr) + reverse_pos3(mask1, mask2, mask3))
-    } else {
-        None
-    }
-}
-
-/// Compute the position of the first matching byte from the given mask. The
-/// position returned is always in the range [0, 15].
-///
-/// The mask given is expected to be the result of _mm_movemask_epi8.
-fn forward_pos(mask: i32) -> usize {
-    // We are dealing with little endian here, where the most significant byte
-    // is at a higher address. That means the least significant bit that is set
-    // corresponds to the position of our first matching byte. That position
-    // corresponds to the number of zeros after the least significant bit.
-    mask.trailing_zeros() as usize
-}
-
-/// Compute the position of the first matching byte from the given masks. The
-/// position returned is always in the range [0, 15]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm_movemask_epi8, where
-/// at least one of the masks is non-zero (i.e., indicates a match).
-fn forward_pos2(mask1: i32, mask2: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0);
-
-    forward_pos(mask1 | mask2)
-}
-
-/// Compute the position of the first matching byte from the given masks. The
-/// position returned is always in the range [0, 15]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm_movemask_epi8, where
-/// at least one of the masks is non-zero (i.e., indicates a match).
-fn forward_pos3(mask1: i32, mask2: i32, mask3: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0 || mask3 != 0);
-
-    forward_pos(mask1 | mask2 | mask3)
-}
-
-/// Compute the position of the last matching byte from the given mask. The
-/// position returned is always in the range [0, 15].
-///
-/// The mask given is expected to be the result of _mm_movemask_epi8.
-fn reverse_pos(mask: i32) -> usize {
-    // We are dealing with little endian here, where the most significant byte
-    // is at a higher address. That means the most significant bit that is set
-    // corresponds to the position of our last matching byte. The position from
-    // the end of the mask is therefore the number of leading zeros in a 16
-    // bit integer, and the position from the start of the mask is therefore
-    // 16 - (leading zeros) - 1.
-    VECTOR_SIZE - (mask as u16).leading_zeros() as usize - 1
-}
-
-/// Compute the position of the last matching byte from the given masks. The
-/// position returned is always in the range [0, 15]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm_movemask_epi8, where
-/// at least one of the masks is non-zero (i.e., indicates a match).
-fn reverse_pos2(mask1: i32, mask2: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0);
-
-    reverse_pos(mask1 | mask2)
-}
-
-/// Compute the position of the last matching byte from the given masks. The
-/// position returned is always in the range [0, 15]. Each mask corresponds to
-/// the equality comparison of a single byte.
-///
-/// The masks given are expected to be the result of _mm_movemask_epi8, where
-/// at least one of the masks is non-zero (i.e., indicates a match).
-fn reverse_pos3(mask1: i32, mask2: i32, mask3: i32) -> usize {
-    debug_assert!(mask1 != 0 || mask2 != 0 || mask3 != 0);
-
-    reverse_pos(mask1 | mask2 | mask3)
-}
-
-/// Subtract `b` from `a` and return the difference. `a` should be greater than
-/// or equal to `b`.
-fn sub(a: *const u8, b: *const u8) -> usize {
-    debug_assert!(a >= b);
-    (a as usize) - (b as usize)
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/owoify/lib.rs.html b/target/doc/src/owoify/lib.rs.html deleted file mode 100644 index 21c415c..0000000 --- a/target/doc/src/owoify/lib.rs.html +++ /dev/null @@ -1,119 +0,0 @@ -lib.rs.html -- source
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-
-use rand::prelude::*;
-use regex::Regex;
-use std::str::FromStr;
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    #[test]
-    fn owo() {
-        let text = String::from("malfunction me mom.. t-till i break~~");
-        let owoified = text.owoify();
-        println!("\t\t{}", owoified);
-    }
-    #[test]
-    fn all_match_owo() {
-        let text = String::from("r l R L na Na NA ove !!");
-        println!("\t\t{}", text.owoify());
-    }
-}
-
-pub trait OwOifiable {
-    /// The owoification method
-    fn owoify(&self) -> Self;
-}
-
-impl OwOifiable for String {
-    /// Owoifies a String
-    ///
-    /// # Examples
-    ///
-    /// ```
-    /// use use owoify::OwOifiable;
-    /// let owoified = String::from("Example text").owoify();
-    /// ```
-    fn owoify(&self) -> Self {
-        let mut rng = rand::thread_rng();
-        let faces = ["(・`ω´・)", "OwO", "owo", "oωo", "òωó", "°ω°", "UwU", ">w<", "^w^"];
-        let face = &format!(" {} ", faces[rng.gen_range(0, faces.len())]).to_owned();
-        let pats: Vec<(&str, &str)> = vec![
-            ("(?:r|l)", "w"),
-            ("(?:R|L)", "W"),
-            ("n([aeiou])", "ny$1"),
-            ("N([aeiou])", "Ny$1"),
-            ("N([AEIOU])", "Ny$1"),
-            ("ove", "uv"),
-            ("!+", face),
-        ];
-
-        let mut owoified = String::from_str(&self).unwrap();
-
-        for &(f, t) in &pats {
-            let re = Regex::new(f).unwrap();
-            owoified = re.replace_all(&owoified, t).to_string();
-        }
-
-        owoified
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/ppv_lite86/lib.rs.html b/target/doc/src/ppv_lite86/lib.rs.html deleted file mode 100644 index 011b9ec..0000000 --- a/target/doc/src/ppv_lite86/lib.rs.html +++ /dev/null @@ -1,47 +0,0 @@ -lib.rs.html -- source
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-#![no_std]
-
-// Design:
-// - safety: safe creation of any machine type is done only by instance methods of a
-//   Machine (which is a ZST + Copy type), which can only by created unsafely or safely
-//   through feature detection (e.g. fn AVX2::try_get() -> Option<Machine>).
-
-mod soft;
-mod types;
-pub use self::types::*;
-
-#[cfg(all(feature = "simd", target_arch = "x86_64", not(miri)))]
-pub mod x86_64;
-#[cfg(all(feature = "simd", target_arch = "x86_64", not(miri)))]
-use self::x86_64 as arch;
-
-#[cfg(any(miri, not(all(feature = "simd", any(target_arch = "x86_64")))))]
-pub mod generic;
-#[cfg(any(miri, not(all(feature = "simd", any(target_arch = "x86_64")))))]
-use self::generic as arch;
-
-pub use self::arch::{vec128_storage, vec256_storage, vec512_storage};
-
-
\ No newline at end of file diff --git a/target/doc/src/ppv_lite86/soft.rs.html b/target/doc/src/ppv_lite86/soft.rs.html deleted file mode 100644 index 5d68347..0000000 --- a/target/doc/src/ppv_lite86/soft.rs.html +++ /dev/null @@ -1,843 +0,0 @@ -soft.rs.html -- source
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-
-//! Implement 256- and 512- bit in terms of 128-bit, for machines without native wide SIMD.
-
-use core::marker::PhantomData;
-use core::ops::*;
-use crate::types::*;
-use crate::{vec128_storage, vec256_storage, vec512_storage};
-
-#[derive(Copy, Clone, Default)]
-#[allow(non_camel_case_types)]
-pub struct x2<W, G>(pub [W; 2], PhantomData<G>);
-impl<W, G> x2<W, G> {
-    #[inline(always)]
-    pub fn new(xs: [W; 2]) -> Self {
-        x2(xs, PhantomData)
-    }
-}
-macro_rules! fwd_binop_x2 {
-    ($trait:ident, $fn:ident) => {
-        impl<W: $trait + Copy, G> $trait for x2<W, G> {
-            type Output = x2<W::Output, G>;
-            #[inline(always)]
-            fn $fn(self, rhs: Self) -> Self::Output {
-                x2::new([self.0[0].$fn(rhs.0[0]), self.0[1].$fn(rhs.0[1])])
-            }
-        }
-    };
-}
-macro_rules! fwd_binop_assign_x2 {
-    ($trait:ident, $fn_assign:ident) => {
-        impl<W: $trait + Copy, G> $trait for x2<W, G> {
-            #[inline(always)]
-            fn $fn_assign(&mut self, rhs: Self) {
-                (self.0[0]).$fn_assign(rhs.0[0]);
-                (self.0[1]).$fn_assign(rhs.0[1]);
-            }
-        }
-    };
-}
-macro_rules! fwd_unop_x2 {
-    ($fn:ident) => {
-        #[inline(always)]
-        fn $fn(self) -> Self {
-            x2::new([self.0[0].$fn(), self.0[1].$fn()])
-        }
-    };
-}
-impl<W, G> RotateEachWord32 for x2<W, G>
-where
-    W: Copy + RotateEachWord32,
-{
-    fwd_unop_x2!(rotate_each_word_right7);
-    fwd_unop_x2!(rotate_each_word_right8);
-    fwd_unop_x2!(rotate_each_word_right11);
-    fwd_unop_x2!(rotate_each_word_right12);
-    fwd_unop_x2!(rotate_each_word_right16);
-    fwd_unop_x2!(rotate_each_word_right20);
-    fwd_unop_x2!(rotate_each_word_right24);
-    fwd_unop_x2!(rotate_each_word_right25);
-}
-impl<W, G> RotateEachWord64 for x2<W, G>
-where
-    W: Copy + RotateEachWord64,
-{
-    fwd_unop_x2!(rotate_each_word_right32);
-}
-impl<W, G> RotateEachWord128 for x2<W, G> where W: RotateEachWord128 {}
-impl<W, G> BitOps0 for x2<W, G>
-where
-    W: BitOps0,
-    G: Copy,
-{
-}
-impl<W, G> BitOps32 for x2<W, G>
-where
-    W: BitOps32 + BitOps0,
-    G: Copy,
-{
-}
-impl<W, G> BitOps64 for x2<W, G>
-where
-    W: BitOps64 + BitOps0,
-    G: Copy,
-{
-}
-impl<W, G> BitOps128 for x2<W, G>
-where
-    W: BitOps128 + BitOps0,
-    G: Copy,
-{
-}
-fwd_binop_x2!(BitAnd, bitand);
-fwd_binop_x2!(BitOr, bitor);
-fwd_binop_x2!(BitXor, bitxor);
-fwd_binop_x2!(AndNot, andnot);
-fwd_binop_assign_x2!(BitAndAssign, bitand_assign);
-fwd_binop_assign_x2!(BitOrAssign, bitor_assign);
-fwd_binop_assign_x2!(BitXorAssign, bitxor_assign);
-impl<W, G> ArithOps for x2<W, G>
-where
-    W: ArithOps,
-    G: Copy,
-{
-}
-fwd_binop_x2!(Add, add);
-fwd_binop_assign_x2!(AddAssign, add_assign);
-impl<W: Not + Copy, G> Not for x2<W, G> {
-    type Output = x2<W::Output, G>;
-    #[inline(always)]
-    fn not(self) -> Self::Output {
-        x2::new([self.0[0].not(), self.0[1].not()])
-    }
-}
-impl<W, G> UnsafeFrom<[W; 2]> for x2<W, G> {
-    #[inline(always)]
-    unsafe fn unsafe_from(xs: [W; 2]) -> Self {
-        x2::new(xs)
-    }
-}
-impl<W: Copy, G> Vec2<W> for x2<W, G> {
-    #[inline(always)]
-    fn extract(self, i: u32) -> W {
-        self.0[i as usize]
-    }
-    #[inline(always)]
-    fn insert(mut self, w: W, i: u32) -> Self {
-        self.0[i as usize] = w;
-        self
-    }
-}
-impl<W: Copy + Store<vec128_storage>, G> Store<vec256_storage> for x2<W, G> {
-    #[inline(always)]
-    unsafe fn unpack(p: vec256_storage) -> Self {
-        let p = p.split128();
-        x2::new([W::unpack(p[0]), W::unpack(p[1])])
-    }
-}
-impl<W, G> From<x2<W, G>> for vec256_storage
-where
-    W: Copy,
-    vec128_storage: From<W>,
-{
-    #[inline(always)]
-    fn from(x: x2<W, G>) -> Self {
-        vec256_storage::new128([x.0[0].into(), x.0[1].into()])
-    }
-}
-impl<W, G> Swap64 for x2<W, G>
-where
-    W: Swap64 + Copy,
-{
-    fwd_unop_x2!(swap1);
-    fwd_unop_x2!(swap2);
-    fwd_unop_x2!(swap4);
-    fwd_unop_x2!(swap8);
-    fwd_unop_x2!(swap16);
-    fwd_unop_x2!(swap32);
-    fwd_unop_x2!(swap64);
-}
-impl<W: Copy, G> MultiLane<[W; 2]> for x2<W, G> {
-    #[inline(always)]
-    fn to_lanes(self) -> [W; 2] {
-        self.0
-    }
-    #[inline(always)]
-    fn from_lanes(lanes: [W; 2]) -> Self {
-        x2::new(lanes)
-    }
-}
-impl<W: BSwap + Copy, G> BSwap for x2<W, G> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        x2::new([self.0[0].bswap(), self.0[1].bswap()])
-    }
-}
-impl<W: StoreBytes + BSwap + Copy, G> StoreBytes for x2<W, G> {
-    #[inline(always)]
-    unsafe fn unsafe_read_le(input: &[u8]) -> Self {
-        let input = input.split_at(16);
-        x2::new([W::unsafe_read_le(input.0), W::unsafe_read_le(input.1)])
-    }
-    #[inline(always)]
-    unsafe fn unsafe_read_be(input: &[u8]) -> Self {
-        x2::unsafe_read_le(input).bswap()
-    }
-    #[inline(always)]
-    fn write_le(self, out: &mut [u8]) {
-        let out = out.split_at_mut(16);
-        self.0[0].write_le(out.0);
-        self.0[1].write_le(out.1);
-    }
-    #[inline(always)]
-    fn write_be(self, out: &mut [u8]) {
-        let out = out.split_at_mut(16);
-        self.0[0].write_be(out.0);
-        self.0[1].write_be(out.1);
-    }
-}
-
-#[derive(Copy, Clone, Default)]
-#[allow(non_camel_case_types)]
-pub struct x4<W>(pub [W; 4]);
-impl<W> x4<W> {
-    #[inline(always)]
-    pub fn new(xs: [W; 4]) -> Self {
-        x4(xs)
-    }
-}
-macro_rules! fwd_binop_x4 {
-    ($trait:ident, $fn:ident) => {
-        impl<W: $trait + Copy> $trait for x4<W> {
-            type Output = x4<W::Output>;
-            #[inline(always)]
-            fn $fn(self, rhs: Self) -> Self::Output {
-                x4([
-                    self.0[0].$fn(rhs.0[0]),
-                    self.0[1].$fn(rhs.0[1]),
-                    self.0[2].$fn(rhs.0[2]),
-                    self.0[3].$fn(rhs.0[3]),
-                ])
-            }
-        }
-    };
-}
-macro_rules! fwd_binop_assign_x4 {
-    ($trait:ident, $fn_assign:ident) => {
-        impl<W: $trait + Copy> $trait for x4<W> {
-            #[inline(always)]
-            fn $fn_assign(&mut self, rhs: Self) {
-                self.0[0].$fn_assign(rhs.0[0]);
-                self.0[1].$fn_assign(rhs.0[1]);
-                self.0[2].$fn_assign(rhs.0[2]);
-                self.0[3].$fn_assign(rhs.0[3]);
-            }
-        }
-    };
-}
-macro_rules! fwd_unop_x4 {
-    ($fn:ident) => {
-        #[inline(always)]
-        fn $fn(self) -> Self {
-            x4([self.0[0].$fn(), self.0[1].$fn(), self.0[2].$fn(), self.0[3].$fn()])
-        }
-    };
-}
-impl<W> RotateEachWord32 for x4<W>
-where
-    W: Copy + RotateEachWord32,
-{
-    fwd_unop_x4!(rotate_each_word_right7);
-    fwd_unop_x4!(rotate_each_word_right8);
-    fwd_unop_x4!(rotate_each_word_right11);
-    fwd_unop_x4!(rotate_each_word_right12);
-    fwd_unop_x4!(rotate_each_word_right16);
-    fwd_unop_x4!(rotate_each_word_right20);
-    fwd_unop_x4!(rotate_each_word_right24);
-    fwd_unop_x4!(rotate_each_word_right25);
-}
-impl<W> RotateEachWord64 for x4<W>
-where
-    W: Copy + RotateEachWord64,
-{
-    fwd_unop_x4!(rotate_each_word_right32);
-}
-impl<W> RotateEachWord128 for x4<W> where W: RotateEachWord128 {}
-impl<W> BitOps0 for x4<W> where W: BitOps0 {}
-impl<W> BitOps32 for x4<W> where W: BitOps32 + BitOps0 {}
-impl<W> BitOps64 for x4<W> where W: BitOps64 + BitOps0 {}
-impl<W> BitOps128 for x4<W> where W: BitOps128 + BitOps0 {}
-fwd_binop_x4!(BitAnd, bitand);
-fwd_binop_x4!(BitOr, bitor);
-fwd_binop_x4!(BitXor, bitxor);
-fwd_binop_x4!(AndNot, andnot);
-fwd_binop_assign_x4!(BitAndAssign, bitand_assign);
-fwd_binop_assign_x4!(BitOrAssign, bitor_assign);
-fwd_binop_assign_x4!(BitXorAssign, bitxor_assign);
-impl<W> ArithOps for x4<W> where W: ArithOps {}
-fwd_binop_x4!(Add, add);
-fwd_binop_assign_x4!(AddAssign, add_assign);
-impl<W: Not + Copy> Not for x4<W> {
-    type Output = x4<W::Output>;
-    #[inline(always)]
-    fn not(self) -> Self::Output {
-        x4([
-            self.0[0].not(),
-            self.0[1].not(),
-            self.0[2].not(),
-            self.0[3].not(),
-        ])
-    }
-}
-impl<W> UnsafeFrom<[W; 4]> for x4<W> {
-    #[inline(always)]
-    unsafe fn unsafe_from(xs: [W; 4]) -> Self {
-        x4(xs)
-    }
-}
-impl<W: Copy> Vec4<W> for x4<W> {
-    #[inline(always)]
-    fn extract(self, i: u32) -> W {
-        self.0[i as usize]
-    }
-    #[inline(always)]
-    fn insert(mut self, w: W, i: u32) -> Self {
-        self.0[i as usize] = w;
-        self
-    }
-}
-impl<W: Copy + Store<vec128_storage>> Store<vec512_storage> for x4<W> {
-    #[inline(always)]
-    unsafe fn unpack(p: vec512_storage) -> Self {
-        let p = p.split128();
-        x4([
-            W::unpack(p[0]),
-            W::unpack(p[1]),
-            W::unpack(p[2]),
-            W::unpack(p[3]),
-        ])
-    }
-}
-impl<W> From<x4<W>> for vec512_storage
-where
-    W: Copy,
-    vec128_storage: From<W>,
-{
-    #[inline(always)]
-    fn from(x: x4<W>) -> Self {
-        vec512_storage::new128([x.0[0].into(), x.0[1].into(), x.0[2].into(), x.0[3].into()])
-    }
-}
-impl<W> Swap64 for x4<W>
-where
-    W: Swap64 + Copy,
-{
-    fwd_unop_x4!(swap1);
-    fwd_unop_x4!(swap2);
-    fwd_unop_x4!(swap4);
-    fwd_unop_x4!(swap8);
-    fwd_unop_x4!(swap16);
-    fwd_unop_x4!(swap32);
-    fwd_unop_x4!(swap64);
-}
-impl<W: Copy> MultiLane<[W; 4]> for x4<W> {
-    #[inline(always)]
-    fn to_lanes(self) -> [W; 4] {
-        self.0
-    }
-    #[inline(always)]
-    fn from_lanes(lanes: [W; 4]) -> Self {
-        x4(lanes)
-    }
-}
-impl<W: BSwap + Copy> BSwap for x4<W> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        x4([
-            self.0[0].bswap(),
-            self.0[1].bswap(),
-            self.0[2].bswap(),
-            self.0[3].bswap(),
-        ])
-    }
-}
-impl<W: StoreBytes + BSwap + Copy> StoreBytes for x4<W> {
-    #[inline(always)]
-    unsafe fn unsafe_read_le(input: &[u8]) -> Self {
-        x4([
-            W::unsafe_read_le(&input[0..16]),
-            W::unsafe_read_le(&input[16..32]),
-            W::unsafe_read_le(&input[32..48]),
-            W::unsafe_read_le(&input[48..64]),
-        ])
-    }
-    #[inline(always)]
-    unsafe fn unsafe_read_be(input: &[u8]) -> Self {
-        x4::unsafe_read_le(input).bswap()
-    }
-    #[inline(always)]
-    fn write_le(self, out: &mut [u8]) {
-        self.0[0].write_le(&mut out[0..16]);
-        self.0[1].write_le(&mut out[16..32]);
-        self.0[2].write_le(&mut out[32..48]);
-        self.0[3].write_le(&mut out[48..64]);
-    }
-    #[inline(always)]
-    fn write_be(self, out: &mut [u8]) {
-        self.0[0].write_be(&mut out[0..16]);
-        self.0[1].write_be(&mut out[16..32]);
-        self.0[2].write_be(&mut out[32..48]);
-        self.0[3].write_be(&mut out[48..64]);
-    }
-}
-impl<W: Copy + LaneWords4> LaneWords4 for x4<W> {
-    #[inline(always)]
-    fn shuffle_lane_words2301(self) -> Self {
-        x4([
-            self.0[0].shuffle_lane_words2301(),
-            self.0[1].shuffle_lane_words2301(),
-            self.0[2].shuffle_lane_words2301(),
-            self.0[3].shuffle_lane_words2301(),
-        ])
-    }
-    #[inline(always)]
-    fn shuffle_lane_words1230(self) -> Self {
-        x4([
-            self.0[0].shuffle_lane_words1230(),
-            self.0[1].shuffle_lane_words1230(),
-            self.0[2].shuffle_lane_words1230(),
-            self.0[3].shuffle_lane_words1230(),
-        ])
-    }
-    #[inline(always)]
-    fn shuffle_lane_words3012(self) -> Self {
-        x4([
-            self.0[0].shuffle_lane_words3012(),
-            self.0[1].shuffle_lane_words3012(),
-            self.0[2].shuffle_lane_words3012(),
-            self.0[3].shuffle_lane_words3012(),
-        ])
-    }
-}
-
-
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-
-use core::ops::{Add, AddAssign, BitAnd, BitOr, BitXor, BitXorAssign, Not};
-
-pub trait AndNot {
-    type Output;
-    fn andnot(self, rhs: Self) -> Self::Output;
-}
-pub trait BSwap {
-    fn bswap(self) -> Self;
-}
-/// Ops that depend on word size
-pub trait ArithOps: Add<Output = Self> + AddAssign + Sized + Copy + Clone + BSwap {}
-/// Ops that are independent of word size and endian
-pub trait BitOps0:
-    BitAnd<Output = Self>
-    + BitOr<Output = Self>
-    + BitXor<Output = Self>
-    + BitXorAssign
-    + Not<Output = Self>
-    + AndNot<Output = Self>
-    + Sized
-    + Copy
-    + Clone
-{
-}
-
-pub trait BitOps32: BitOps0 + RotateEachWord32 {}
-pub trait BitOps64: BitOps32 + RotateEachWord64 {}
-pub trait BitOps128: BitOps64 + RotateEachWord128 {}
-
-pub trait RotateEachWord32 {
-    fn rotate_each_word_right7(self) -> Self;
-    fn rotate_each_word_right8(self) -> Self;
-    fn rotate_each_word_right11(self) -> Self;
-    fn rotate_each_word_right12(self) -> Self;
-    fn rotate_each_word_right16(self) -> Self;
-    fn rotate_each_word_right20(self) -> Self;
-    fn rotate_each_word_right24(self) -> Self;
-    fn rotate_each_word_right25(self) -> Self;
-}
-
-pub trait RotateEachWord64 {
-    fn rotate_each_word_right32(self) -> Self;
-}
-
-pub trait RotateEachWord128 {}
-
-#[allow(non_camel_case_types)]
-mod types {
-    //! Vector type naming scheme:
-    //! uN[xP]xL
-    //! Unsigned; N-bit words * P bits per lane * L lanes
-    //!
-    //! A lane is always 128-bits, chosen because common SIMD architectures treat 128-bit units of
-    //! wide vectors specially (supporting e.g. intra-lane shuffles), and tend to have limited and
-    //! slow inter-lane operations.
-
-    use crate::arch::{vec128_storage, vec256_storage, vec512_storage};
-    use crate::{ArithOps, BitOps128, BitOps32, BitOps64, Machine, Store, StoreBytes};
-
-    pub trait UnsafeFrom<T> {
-        unsafe fn unsafe_from(t: T) -> Self;
-    }
-
-    /// A vector composed of two elements, which may be words or themselves vectors.
-    pub trait Vec2<W> {
-        fn extract(self, i: u32) -> W;
-        fn insert(self, w: W, i: u32) -> Self;
-    }
-
-    /// A vector composed of four elements, which may be words or themselves vectors.
-    pub trait Vec4<W> {
-        fn extract(self, i: u32) -> W;
-        fn insert(self, w: W, i: u32) -> Self;
-    }
-
-    // TODO: multiples of 4 should inherit this
-    /// A vector composed of four words; depending on their size, operations may cross lanes.
-    pub trait Words4 {
-        fn shuffle1230(self) -> Self;
-        fn shuffle2301(self) -> Self;
-        fn shuffle3012(self) -> Self;
-    }
-
-    /// A vector composed one or more lanes each composed of four words.
-    pub trait LaneWords4 {
-        fn shuffle_lane_words1230(self) -> Self;
-        fn shuffle_lane_words2301(self) -> Self;
-        fn shuffle_lane_words3012(self) -> Self;
-    }
-
-    // TODO: make this a part of BitOps
-    /// Exchange neigboring ranges of bits of the specified size
-    pub trait Swap64 {
-        fn swap1(self) -> Self;
-        fn swap2(self) -> Self;
-        fn swap4(self) -> Self;
-        fn swap8(self) -> Self;
-        fn swap16(self) -> Self;
-        fn swap32(self) -> Self;
-        fn swap64(self) -> Self;
-    }
-
-    pub trait u32x4<M: Machine>:
-        BitOps32
-        + Store<vec128_storage>
-        + ArithOps
-        + Vec4<u32>
-        + Words4
-        + LaneWords4
-        + StoreBytes
-        + MultiLane<[u32; 4]>
-        + Into<vec128_storage>
-    {
-}
-    pub trait u64x2<M: Machine>:
-        BitOps64
-        + Store<vec128_storage>
-        + ArithOps
-        + Vec2<u64>
-        + MultiLane<[u64; 2]>
-        + Into<vec128_storage>
-    {
-}
-    pub trait u128x1<M: Machine>:
-        BitOps128 + Store<vec128_storage> + Swap64 + MultiLane<[u128; 1]> + Into<vec128_storage>
-    {
-}
-
-    pub trait u32x4x2<M: Machine>:
-        BitOps32
-        + Store<vec256_storage>
-        + Vec2<M::u32x4>
-        + MultiLane<[M::u32x4; 2]>
-        + ArithOps
-        + Into<vec256_storage>
-    {
-}
-    pub trait u64x2x2<M: Machine>:
-        BitOps64
-        + Store<vec256_storage>
-        + Vec2<M::u64x2>
-        + MultiLane<[M::u64x2; 2]>
-        + ArithOps
-        + StoreBytes
-        + Into<vec256_storage>
-    {
-}
-    pub trait u64x4<M: Machine>:
-        BitOps64
-        + Store<vec256_storage>
-        + Vec4<u64>
-        + MultiLane<[u64; 4]>
-        + ArithOps
-        + Words4
-        + StoreBytes
-        + Into<vec256_storage>
-    {
-}
-    pub trait u128x2<M: Machine>:
-        BitOps128
-        + Store<vec256_storage>
-        + Vec2<M::u128x1>
-        + MultiLane<[M::u128x1; 2]>
-        + Swap64
-        + Into<vec256_storage>
-    {
-}
-
-    pub trait u32x4x4<M: Machine>:
-        BitOps32
-        + Store<vec512_storage>
-        + Vec4<M::u32x4>
-        + MultiLane<[M::u32x4; 4]>
-        + ArithOps
-        + LaneWords4
-        + Into<vec512_storage>
-    {
-}
-    pub trait u64x2x4<M: Machine>:
-        BitOps64
-        + Store<vec512_storage>
-        + Vec4<M::u64x2>
-        + MultiLane<[M::u64x2; 4]>
-        + ArithOps
-        + Into<vec512_storage>
-    {
-}
-    // TODO: Words4
-    pub trait u128x4<M: Machine>:
-        BitOps128
-        + Store<vec512_storage>
-        + Vec4<M::u128x1>
-        + MultiLane<[M::u128x1; 4]>
-        + Swap64
-        + Into<vec512_storage>
-    {
-}
-
-    /// A vector composed of multiple 128-bit lanes.
-    pub trait MultiLane<Lanes> {
-        /// Split a multi-lane vector into single-lane vectors.
-        fn to_lanes(self) -> Lanes;
-        /// Build a multi-lane vector from individual lanes.
-        fn from_lanes(lanes: Lanes) -> Self;
-    }
-
-    /// Combine single vectors into a multi-lane vector.
-    pub trait VZip<V> {
-        fn vzip(self) -> V;
-    }
-
-    impl<V, T> VZip<V> for T
-    where
-        V: MultiLane<T>,
-    {
-        #[inline(always)]
-        fn vzip(self) -> V {
-            V::from_lanes(self)
-        }
-    }
-}
-pub use self::types::*;
-
-pub trait Machine: Sized + Copy {
-    type u32x4: u32x4<Self>;
-    type u64x2: u64x2<Self>;
-    type u128x1: u128x1<Self>;
-
-    type u32x4x2: u32x4x2<Self>;
-    type u64x2x2: u64x2x2<Self>;
-    type u64x4: u64x4<Self>;
-    type u128x2: u128x2<Self>;
-
-    type u32x4x4: u32x4x4<Self>;
-    type u64x2x4: u64x2x4<Self>;
-    type u128x4: u128x4<Self>;
-
-    #[inline(always)]
-    fn unpack<S, V: Store<S>>(self, s: S) -> V {
-        unsafe { V::unpack(s) }
-    }
-
-    #[inline(always)]
-    fn vec<V, A>(self, a: A) -> V
-    where
-        V: MultiLane<A>,
-    {
-        V::from_lanes(a)
-    }
-
-    #[inline(always)]
-    fn read_le<V>(self, input: &[u8]) -> V
-    where
-        V: StoreBytes,
-    {
-        unsafe { V::unsafe_read_le(input) }
-    }
-
-    #[inline(always)]
-    fn read_be<V>(self, input: &[u8]) -> V
-    where
-        V: StoreBytes,
-    {
-        unsafe { V::unsafe_read_be(input) }
-    }
-
-    unsafe fn instance() -> Self;
-}
-
-pub trait Store<S> {
-    unsafe fn unpack(p: S) -> Self;
-}
-
-pub trait StoreBytes {
-    unsafe fn unsafe_read_le(input: &[u8]) -> Self;
-    unsafe fn unsafe_read_be(input: &[u8]) -> Self;
-    fn write_le(self, out: &mut [u8]);
-    fn write_be(self, out: &mut [u8]);
-}
-
-
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-
-// crate minimums: sse2, x86_64
-
-use crate::types::*;
-use core::arch::x86_64::{__m128i, __m256i};
-
-mod sse2;
-
-#[derive(Copy, Clone)]
-pub struct YesS3;
-#[derive(Copy, Clone)]
-pub struct NoS3;
-
-#[derive(Copy, Clone)]
-pub struct YesS4;
-#[derive(Copy, Clone)]
-pub struct NoS4;
-
-#[derive(Copy, Clone)]
-pub struct YesA1;
-#[derive(Copy, Clone)]
-pub struct NoA1;
-
-#[derive(Copy, Clone)]
-pub struct YesA2;
-#[derive(Copy, Clone)]
-pub struct NoA2;
-
-#[derive(Copy, Clone)]
-pub struct YesNI;
-#[derive(Copy, Clone)]
-pub struct NoNI;
-
-use core::marker::PhantomData;
-
-#[derive(Copy, Clone)]
-pub struct SseMachine<S3, S4, NI>(PhantomData<(S3, S4, NI)>);
-impl<S3: Copy, S4: Copy, NI: Copy> Machine for SseMachine<S3, S4, NI>
-where
-    sse2::u128x1_sse2<S3, S4, NI>: Swap64,
-    sse2::u64x2_sse2<S3, S4, NI>: BSwap + RotateEachWord32 + MultiLane<[u64; 2]> + Vec2<u64>,
-    sse2::u32x4_sse2<S3, S4, NI>: BSwap + RotateEachWord32 + MultiLane<[u32; 4]> + Vec4<u32>,
-    sse2::u64x4_sse2<S3, S4, NI>: BSwap + Words4,
-    sse2::u128x1_sse2<S3, S4, NI>: BSwap,
-    sse2::u128x2_sse2<S3, S4, NI>: Into<sse2::u64x2x2_sse2<S3, S4, NI>>,
-    sse2::u128x2_sse2<S3, S4, NI>: Into<sse2::u64x4_sse2<S3, S4, NI>>,
-    sse2::u128x2_sse2<S3, S4, NI>: Into<sse2::u32x4x2_sse2<S3, S4, NI>>,
-    sse2::u128x4_sse2<S3, S4, NI>: Into<sse2::u64x2x4_sse2<S3, S4, NI>>,
-    sse2::u128x4_sse2<S3, S4, NI>: Into<sse2::u32x4x4_sse2<S3, S4, NI>>,
-{
-    type u32x4 = sse2::u32x4_sse2<S3, S4, NI>;
-    type u64x2 = sse2::u64x2_sse2<S3, S4, NI>;
-    type u128x1 = sse2::u128x1_sse2<S3, S4, NI>;
-
-    type u32x4x2 = sse2::u32x4x2_sse2<S3, S4, NI>;
-    type u64x2x2 = sse2::u64x2x2_sse2<S3, S4, NI>;
-    type u64x4 = sse2::u64x4_sse2<S3, S4, NI>;
-    type u128x2 = sse2::u128x2_sse2<S3, S4, NI>;
-
-    type u32x4x4 = sse2::u32x4x4_sse2<S3, S4, NI>;
-    type u64x2x4 = sse2::u64x2x4_sse2<S3, S4, NI>;
-    type u128x4 = sse2::u128x4_sse2<S3, S4, NI>;
-
-    #[inline(always)]
-    unsafe fn instance() -> Self {
-        SseMachine(PhantomData)
-    }
-}
-
-#[derive(Copy, Clone)]
-pub struct Avx2Machine<NI>(PhantomData<NI>);
-impl<NI: Copy> Machine for Avx2Machine<NI>
-where
-    sse2::u128x1_sse2<YesS3, YesS4, NI>: BSwap + Swap64,
-    sse2::u64x2_sse2<YesS3, YesS4, NI>: BSwap + RotateEachWord32 + MultiLane<[u64; 2]> + Vec2<u64>,
-    sse2::u32x4_sse2<YesS3, YesS4, NI>: BSwap + RotateEachWord32 + MultiLane<[u32; 4]> + Vec4<u32>,
-    sse2::u64x4_sse2<YesS3, YesS4, NI>: BSwap + Words4,
-{
-    type u32x4 = sse2::u32x4_sse2<YesS3, YesS4, NI>;
-    type u64x2 = sse2::u64x2_sse2<YesS3, YesS4, NI>;
-    type u128x1 = sse2::u128x1_sse2<YesS3, YesS4, NI>;
-
-    type u32x4x2 = sse2::u32x4x2_sse2<YesS3, YesS4, NI>;
-    type u64x2x2 = sse2::u64x2x2_sse2<YesS3, YesS4, NI>;
-    type u64x4 = sse2::u64x4_sse2<YesS3, YesS4, NI>;
-    type u128x2 = sse2::u128x2_sse2<YesS3, YesS4, NI>;
-
-    type u32x4x4 = sse2::avx2::u32x4x4_avx2<NI>;
-    type u64x2x4 = sse2::u64x2x4_sse2<YesS3, YesS4, NI>;
-    type u128x4 = sse2::u128x4_sse2<YesS3, YesS4, NI>;
-
-    #[inline(always)]
-    unsafe fn instance() -> Self {
-        Avx2Machine(PhantomData)
-    }
-}
-
-pub type SSE2 = SseMachine<NoS3, NoS4, NoNI>;
-pub type SSSE3 = SseMachine<YesS3, NoS4, NoNI>;
-pub type SSE41 = SseMachine<YesS3, YesS4, NoNI>;
-/// AVX but not AVX2: only 128-bit integer operations, but use VEX versions of everything
-/// to avoid expensive SSE/VEX conflicts.
-pub type AVX = SseMachine<YesS3, YesS4, NoNI>;
-pub type AVX2 = Avx2Machine<NoNI>;
-
-/// Generic wrapper for unparameterized storage of any of the possible impls.
-/// Converting into and out of this type should be essentially free, although it may be more
-/// aligned than a particular impl requires.
-#[allow(non_camel_case_types)]
-#[derive(Copy, Clone)]
-pub union vec128_storage {
-    u32x4: [u32; 4],
-    u64x2: [u64; 2],
-    u128x1: [u128; 1],
-    sse2: __m128i,
-}
-impl Store<vec128_storage> for vec128_storage {
-    #[inline(always)]
-    unsafe fn unpack(p: vec128_storage) -> Self {
-        p
-    }
-}
-impl<'a> Into<&'a [u32; 4]> for &'a vec128_storage {
-    #[inline(always)]
-    fn into(self) -> &'a [u32; 4] {
-        unsafe { &self.u32x4 }
-    }
-}
-impl Into<vec128_storage> for [u32; 4] {
-    #[inline(always)]
-    fn into(self) -> vec128_storage {
-        vec128_storage { u32x4: self }
-    }
-}
-impl Default for vec128_storage {
-    #[inline(always)]
-    fn default() -> Self {
-        vec128_storage { u128x1: [0] }
-    }
-}
-
-#[allow(non_camel_case_types)]
-#[derive(Copy, Clone)]
-pub union vec256_storage {
-    u32x8: [u32; 8],
-    u64x4: [u64; 4],
-    u128x2: [u128; 2],
-    sse2: [vec128_storage; 2],
-    avx: __m256i,
-}
-impl Into<vec256_storage> for [u64; 4] {
-    #[inline(always)]
-    fn into(self) -> vec256_storage {
-        vec256_storage { u64x4: self }
-    }
-}
-impl Default for vec256_storage {
-    #[inline(always)]
-    fn default() -> Self {
-        vec256_storage { u128x2: [0, 0] }
-    }
-}
-impl vec256_storage {
-    pub fn new128(xs: [vec128_storage; 2]) -> Self {
-        Self { sse2: xs }
-    }
-    pub fn split128(self) -> [vec128_storage; 2] {
-        unsafe { self.sse2 }
-    }
-}
-
-#[allow(non_camel_case_types)]
-#[derive(Copy, Clone)]
-pub union vec512_storage {
-    u32x16: [u32; 16],
-    u64x8: [u64; 8],
-    u128x4: [u128; 4],
-    sse2: [vec128_storage; 4],
-    avx: [vec256_storage; 2],
-}
-impl Default for vec512_storage {
-    #[inline(always)]
-    fn default() -> Self {
-        vec512_storage {
-            u128x4: [0, 0, 0, 0],
-        }
-    }
-}
-impl vec512_storage {
-    pub fn new128(xs: [vec128_storage; 4]) -> Self {
-        Self { sse2: xs }
-    }
-    pub fn split128(self) -> [vec128_storage; 4] {
-        unsafe { self.sse2 }
-    }
-}
-
-macro_rules! impl_into {
-    ($storage:ident, $array:ty, $name:ident) => {
-        impl Into<$array> for $storage {
-            #[inline(always)]
-            fn into(self) -> $array {
-                unsafe { self.$name }
-            }
-        }
-    };
-}
-impl_into!(vec128_storage, [u32; 4], u32x4);
-impl_into!(vec128_storage, [u64; 2], u64x2);
-impl_into!(vec128_storage, [u128; 1], u128x1);
-impl_into!(vec256_storage, [u32; 8], u32x8);
-impl_into!(vec256_storage, [u64; 4], u64x4);
-impl_into!(vec256_storage, [u128; 2], u128x2);
-impl_into!(vec512_storage, [u32; 16], u32x16);
-impl_into!(vec512_storage, [u64; 8], u64x8);
-impl_into!(vec512_storage, [u128; 4], u128x4);
-
-/// Generate the full set of optimized implementations to take advantage of the most important
-/// hardware feature sets.
-///
-/// This dispatcher is suitable for maximizing throughput.
-#[macro_export]
-macro_rules! dispatch {
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) -> $ret:ty $body:block }) => {
-        #[cfg(feature = "std")]
-        #[inline(always)]
-        $($pub$(($krate))*)* fn $name($($arg: $argty),*) -> $ret {
-            #[inline(always)]
-            fn fn_impl<$MTy: $crate::Machine>($mach: $MTy, $($arg: $argty),*) -> $ret $body
-            type FnTy = unsafe fn($($arg: $argty),*) -> $ret;
-            lazy_static! {
-                static ref IMPL: FnTy = { dispatch_init() };
-            }
-            #[cold]
-            fn dispatch_init() -> FnTy {
-                use std::arch::x86_64::*;
-                if is_x86_feature_detected!("avx2") {
-                    #[target_feature(enable = "avx2")]
-                    unsafe fn impl_avx2($($arg: $argty),*) -> $ret {
-                        let ret = fn_impl($crate::x86_64::AVX2::instance(), $($arg),*);
-                        _mm256_zeroupper();
-                        ret
-                    }
-                    impl_avx2
-                } else if is_x86_feature_detected!("avx") {
-                    #[target_feature(enable = "avx")]
-                    #[target_feature(enable = "sse4.1")]
-                    #[target_feature(enable = "ssse3")]
-                    unsafe fn impl_avx($($arg: $argty),*) -> $ret {
-                        let ret = fn_impl($crate::x86_64::AVX::instance(), $($arg),*);
-                        _mm256_zeroupper();
-                        ret
-                    }
-                    impl_avx
-                } else if is_x86_feature_detected!("sse4.1") {
-                    #[target_feature(enable = "sse4.1")]
-                    #[target_feature(enable = "ssse3")]
-                    unsafe fn impl_sse41($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::SSE41::instance(), $($arg),*)
-                    }
-                    impl_sse41
-                } else if is_x86_feature_detected!("ssse3") {
-                    #[target_feature(enable = "ssse3")]
-                    unsafe fn impl_ssse3($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::SSSE3::instance(), $($arg),*)
-                    }
-                    impl_ssse3
-                } else if is_x86_feature_detected!("sse2") {
-                    #[target_feature(enable = "sse2")]
-                    unsafe fn impl_sse2($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::SSE2::instance(), $($arg),*)
-                    }
-                    impl_sse2
-                } else {
-                    unimplemented!()
-                }
-            }
-            unsafe { IMPL($($arg),*) }
-        }
-        #[cfg(not(feature = "std"))]
-        #[inline(always)]
-        $($pub$(($krate))*)* fn $name($($arg: $argty),*) -> $ret {
-            unsafe fn fn_impl<$MTy: $crate::Machine>($mach: $MTy, $($arg: $argty),*) -> $ret $body
-            unsafe {
-                if cfg!(target_feature = "avx2") {
-                    fn_impl($crate::x86_64::AVX2::instance(), $($arg),*)
-                } else if cfg!(target_feature = "avx") {
-                    fn_impl($crate::x86_64::AVX::instance(), $($arg),*)
-                } else if cfg!(target_feature = "sse4.1") {
-                    fn_impl($crate::x86_64::SSE41::instance(), $($arg),*)
-                } else if cfg!(target_feature = "ssse3") {
-                    fn_impl($crate::x86_64::SSSE3::instance(), $($arg),*)
-                } else {
-                    fn_impl($crate::x86_64::SSE2::instance(), $($arg),*)
-                }
-            }
-        }
-    };
-    ($mach:ident, $MTy:ident, { $([$pub:tt $(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) $body:block }) => {
-        dispatch!($mach, $MTy, {
-            $([$pub $(($krate))*])* fn $name($($arg: $argty),*) -> () $body
-        });
-    }
-}
-
-/// Generate only the basic implementations necessary to be able to operate efficiently on 128-bit
-/// vectors on this platfrom. For x86-64, that would mean SSE2 and AVX.
-///
-/// This dispatcher is suitable for vector operations that do not benefit from advanced hardware
-/// features (e.g. because they are done infrequently), so minimizing their contribution to code
-/// size is more important.
-#[macro_export]
-macro_rules! dispatch_light128 {
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) -> $ret:ty $body:block }) => {
-        #[cfg(feature = "std")]
-        #[inline(always)]
-        $($pub $(($krate))*)* fn $name($($arg: $argty),*) -> $ret {
-            #[inline(always)]
-            fn fn_impl<$MTy: $crate::Machine>($mach: $MTy, $($arg: $argty),*) -> $ret $body
-            type FnTy = unsafe fn($($arg: $argty),*) -> $ret;
-            lazy_static! {
-                static ref IMPL: FnTy = { dispatch_init() };
-            }
-            #[cold]
-            fn dispatch_init() -> FnTy {
-                use std::arch::x86_64::*;
-                if is_x86_feature_detected!("avx") {
-                    #[target_feature(enable = "avx")]
-                    unsafe fn impl_avx($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::AVX::instance(), $($arg),*)
-                    }
-                    impl_avx
-                } else if is_x86_feature_detected!("sse2") {
-                    #[target_feature(enable = "sse2")]
-                    unsafe fn impl_sse2($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::SSE2::instance(), $($arg),*)
-                    }
-                    impl_sse2
-                } else {
-                    unimplemented!()
-                }
-            }
-            unsafe { IMPL($($arg),*) }
-        }
-        #[cfg(not(feature = "std"))]
-        #[inline(always)]
-        $($pub$(($krate))*)* fn $name($($arg: $argty),*) -> $ret {
-            unsafe fn fn_impl<$MTy: $crate::Machine>($mach: $MTy, $($arg: $argty),*) -> $ret $body
-            unsafe {
-                if cfg!(target_feature = "avx2") {
-                    fn_impl($crate::x86_64::AVX2::instance(), $($arg),*)
-                } else if cfg!(target_feature = "avx") {
-                    fn_impl($crate::x86_64::AVX::instance(), $($arg),*)
-                } else if cfg!(target_feature = "sse4.1") {
-                    fn_impl($crate::x86_64::SSE41::instance(), $($arg),*)
-                } else if cfg!(target_feature = "ssse3") {
-                    fn_impl($crate::x86_64::SSSE3::instance(), $($arg),*)
-                } else {
-                    fn_impl($crate::x86_64::SSE2::instance(), $($arg),*)
-                }
-            }
-        }
-    };
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) $body:block }) => {
-        dispatch_light128!($mach, $MTy, {
-            $([$pub $(($krate))*])* fn $name($($arg: $argty),*) -> () $body
-        });
-    }
-}
-
-/// Generate only the basic implementations necessary to be able to operate efficiently on 256-bit
-/// vectors on this platfrom. For x86-64, that would mean SSE2, AVX, and AVX2.
-///
-/// This dispatcher is suitable for vector operations that do not benefit from advanced hardware
-/// features (e.g. because they are done infrequently), so minimizing their contribution to code
-/// size is more important.
-#[macro_export]
-macro_rules! dispatch_light256 {
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) -> $ret:ty $body:block }) => {
-        #[cfg(feature = "std")]
-        #[inline(always)]
-        $([$pub $(($krate))*])* fn $name($($arg: $argty),*) -> $ret {
-            #[inline(always)]
-            fn fn_impl<$MTy: $crate::Machine>($mach: $MTy, $($arg: $argty),*) -> $ret $body
-            type FnTy = unsafe fn($($arg: $argty),*) -> $ret;
-            lazy_static! {
-                static ref IMPL: FnTy = { dispatch_init() };
-            }
-            #[cold]
-            fn dispatch_init() -> FnTy {
-                use std::arch::x86_64::*;
-                if is_x86_feature_detected!("avx") {
-                    #[target_feature(enable = "avx")]
-                    unsafe fn impl_avx($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::AVX::instance(), $($arg),*)
-                    }
-                    impl_avx
-                } else if is_x86_feature_detected!("sse2") {
-                    #[target_feature(enable = "sse2")]
-                    unsafe fn impl_sse2($($arg: $argty),*) -> $ret {
-                        fn_impl($crate::x86_64::SSE2::instance(), $($arg),*)
-                    }
-                    impl_sse2
-                } else {
-                    unimplemented!()
-                }
-            }
-            unsafe { IMPL($($arg),*) }
-        }
-        #[cfg(not(feature = "std"))]
-        #[inline(always)]
-        $($pub$(($krate))*)* fn $name($($arg: $argty),*) -> $ret {
-            unsafe fn fn_impl<$MTy: $crate::Machine>($mach: $MTy, $($arg: $argty),*) -> $ret $body
-            unsafe {
-                if cfg!(target_feature = "avx2") {
-                    fn_impl($crate::x86_64::AVX2::instance(), $($arg),*)
-                } else if cfg!(target_feature = "avx") {
-                    fn_impl($crate::x86_64::AVX::instance(), $($arg),*)
-                } else if cfg!(target_feature = "sse4.1") {
-                    fn_impl($crate::x86_64::SSE41::instance(), $($arg),*)
-                } else if cfg!(target_feature = "ssse3") {
-                    fn_impl($crate::x86_64::SSSE3::instance(), $($arg),*)
-                } else {
-                    fn_impl($crate::x86_64::SSE2::instance(), $($arg),*)
-                }
-            }
-        }
-    };
-    ($mach:ident, $MTy:ident, { $([$pub:tt$(($krate:tt))*])* fn $name:ident($($arg:ident: $argty:ty),* $(,)*) $body:block }) => {
-        dispatch_light128!($mach, $MTy, {
-            $([$pub $(($krate))*])* fn $name($($arg: $argty),*) -> () $body
-        });
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/ppv_lite86/x86_64/sse2.rs.html b/target/doc/src/ppv_lite86/x86_64/sse2.rs.html deleted file mode 100644 index b6bbbe0..0000000 --- a/target/doc/src/ppv_lite86/x86_64/sse2.rs.html +++ /dev/null @@ -1,3269 +0,0 @@ -sse2.rs.html -- source
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-
-use crate::soft::{x2, x4};
-use crate::types::*;
-use crate::vec128_storage;
-use crate::x86_64::Avx2Machine;
-use crate::x86_64::SseMachine as Machine86;
-use crate::x86_64::{NoS3, NoS4, YesS3, YesS4};
-use core::arch::x86_64::*;
-use core::marker::PhantomData;
-use core::ops::{
-    Add, AddAssign, BitAnd, BitAndAssign, BitOr, BitOrAssign, BitXor, BitXorAssign, Not,
-};
-
-macro_rules! impl_binop {
-    ($vec:ident, $trait:ident, $fn:ident, $impl_fn:ident) => {
-        impl<S3, S4, NI> $trait for $vec<S3, S4, NI> {
-            type Output = Self;
-            #[inline(always)]
-            fn $fn(self, rhs: Self) -> Self::Output {
-                Self::new(unsafe { $impl_fn(self.x, rhs.x) })
-            }
-        }
-    };
-}
-
-macro_rules! impl_binop_assign {
-    ($vec:ident, $trait:ident, $fn_assign:ident, $fn:ident) => {
-        impl<S3, S4, NI> $trait for $vec<S3, S4, NI>
-        where
-            $vec<S3, S4, NI>: Copy,
-        {
-            #[inline(always)]
-            fn $fn_assign(&mut self, rhs: Self) {
-                *self = self.$fn(rhs);
-            }
-        }
-    };
-}
-
-macro_rules! def_vec {
-    ($vec:ident, $word:ident) => {
-        #[allow(non_camel_case_types)]
-        #[derive(Copy, Clone)]
-        pub struct $vec<S3, S4, NI> {
-            x: __m128i,
-            s3: PhantomData<S3>,
-            s4: PhantomData<S4>,
-            ni: PhantomData<NI>,
-        }
-
-        impl<S3, S4, NI> Store<vec128_storage> for $vec<S3, S4, NI> {
-            #[inline(always)]
-            unsafe fn unpack(x: vec128_storage) -> Self {
-                Self::new(x.sse2)
-            }
-        }
-        impl<S3, S4, NI> From<$vec<S3, S4, NI>> for vec128_storage {
-            #[inline(always)]
-            fn from(x: $vec<S3, S4, NI>) -> Self {
-                vec128_storage { sse2: x.x }
-            }
-        }
-        impl<S3, S4, NI> $vec<S3, S4, NI> {
-            #[inline(always)]
-            fn new(x: __m128i) -> Self {
-                $vec {
-                    x,
-                    s3: PhantomData,
-                    s4: PhantomData,
-                    ni: PhantomData,
-                }
-            }
-        }
-
-        impl<S3, S4, NI> StoreBytes for $vec<S3, S4, NI>
-        where
-            Self: BSwap,
-        {
-            #[inline(always)]
-            unsafe fn unsafe_read_le(input: &[u8]) -> Self {
-                assert_eq!(input.len(), 16);
-                Self::new(_mm_loadu_si128(input.as_ptr() as *const _))
-            }
-            #[inline(always)]
-            unsafe fn unsafe_read_be(input: &[u8]) -> Self {
-                assert_eq!(input.len(), 16);
-                Self::new(_mm_loadu_si128(input.as_ptr() as *const _)).bswap()
-            }
-            #[inline(always)]
-            fn write_le(self, out: &mut [u8]) {
-                assert_eq!(out.len(), 16);
-                unsafe { _mm_storeu_si128(out.as_mut_ptr() as *mut _, self.x) }
-            }
-            #[inline(always)]
-            fn write_be(self, out: &mut [u8]) {
-                assert_eq!(out.len(), 16);
-                let x = self.bswap().x;
-                unsafe {
-                    _mm_storeu_si128(out.as_mut_ptr() as *mut _, x);
-                }
-            }
-        }
-
-        impl<S3, S4, NI> Default for $vec<S3, S4, NI> {
-            #[inline(always)]
-            fn default() -> Self {
-                Self::new(unsafe { _mm_setzero_si128() })
-            }
-        }
-
-        impl<S3, S4, NI> Not for $vec<S3, S4, NI> {
-            type Output = Self;
-            #[inline(always)]
-            fn not(self) -> Self::Output {
-                unsafe {
-                    let ff = _mm_set1_epi64x(-1i64);
-                    self ^ Self::new(ff)
-                }
-            }
-        }
-
-        impl<S3: Copy, S4: Copy, NI: Copy> BitOps0 for $vec<S3, S4, NI> {}
-        impl_binop!($vec, BitAnd, bitand, _mm_and_si128);
-        impl_binop!($vec, BitOr, bitor, _mm_or_si128);
-        impl_binop!($vec, BitXor, bitxor, _mm_xor_si128);
-        impl_binop_assign!($vec, BitAndAssign, bitand_assign, bitand);
-        impl_binop_assign!($vec, BitOrAssign, bitor_assign, bitor);
-        impl_binop_assign!($vec, BitXorAssign, bitxor_assign, bitxor);
-        impl<S3: Copy, S4: Copy, NI: Copy> AndNot for $vec<S3, S4, NI> {
-            type Output = Self;
-            #[inline(always)]
-            fn andnot(self, rhs: Self) -> Self {
-                Self::new(unsafe { _mm_andnot_si128(self.x, rhs.x) })
-            }
-        }
-    };
-}
-
-macro_rules! impl_bitops32 {
-    ($vec:ident) => {
-        impl<S3: Copy, S4: Copy, NI: Copy> BitOps32 for $vec<S3, S4, NI> where
-            $vec<S3, S4, NI>: RotateEachWord32
-        {
-        }
-    };
-}
-
-macro_rules! impl_bitops64 {
-    ($vec:ident) => {
-        impl_bitops32!($vec);
-        impl<S3: Copy, S4: Copy, NI: Copy> BitOps64 for $vec<S3, S4, NI> where
-            $vec<S3, S4, NI>: RotateEachWord64 + RotateEachWord32
-        {
-        }
-    };
-}
-
-macro_rules! impl_bitops128 {
-    ($vec:ident) => {
-        impl_bitops64!($vec);
-        impl<S3: Copy, S4: Copy, NI: Copy> BitOps128 for $vec<S3, S4, NI> where
-            $vec<S3, S4, NI>: RotateEachWord128
-        {
-        }
-    };
-}
-
-macro_rules! rotr_32_s3 {
-    ($name:ident, $k0:expr, $k1:expr) => {
-    #[inline(always)]
-    fn $name(self) -> Self {
-        Self::new(unsafe {
-                _mm_shuffle_epi8(
-                    self.x,
-                    _mm_set_epi64x($k0, $k1),
-                )
-            })
-        }
-    };
-}
-macro_rules! rotr_32 {
-    ($name:ident, $i:expr) => {
-    #[inline(always)]
-    fn $name(self) -> Self {
-        Self::new(unsafe {
-            _mm_or_si128(
-                _mm_srli_epi32(self.x, $i as i32),
-                _mm_slli_epi32(self.x, 32 - $i as i32),
-            )
-        })
-    }
-    };
-}
-impl<S4: Copy, NI: Copy> RotateEachWord32 for u32x4_sse2<YesS3, S4, NI> {
-    rotr_32!(rotate_each_word_right7, 7);
-    rotr_32_s3!(
-        rotate_each_word_right8,
-        0x0c0f0e0d_080b0a09,
-        0x04070605_00030201
-    );
-    rotr_32!(rotate_each_word_right11, 11);
-    rotr_32!(rotate_each_word_right12, 12);
-    rotr_32_s3!(
-        rotate_each_word_right16,
-        0x0d0c0f0e_09080b0a,
-        0x05040706_01000302
-    );
-    rotr_32!(rotate_each_word_right20, 20);
-    rotr_32_s3!(
-        rotate_each_word_right24,
-        0x0e0d0c0f_0a09080b,
-        0x06050407_02010003
-    );
-    rotr_32!(rotate_each_word_right25, 25);
-}
-impl<S4: Copy, NI: Copy> RotateEachWord32 for u32x4_sse2<NoS3, S4, NI> {
-    rotr_32!(rotate_each_word_right7, 7);
-    rotr_32!(rotate_each_word_right8, 8);
-    rotr_32!(rotate_each_word_right11, 11);
-    rotr_32!(rotate_each_word_right12, 12);
-    #[inline(always)]
-    fn rotate_each_word_right16(self) -> Self {
-        Self::new(swap16_s2(self.x))
-    }
-    rotr_32!(rotate_each_word_right20, 20);
-    rotr_32!(rotate_each_word_right24, 24);
-    rotr_32!(rotate_each_word_right25, 25);
-}
-
-macro_rules! rotr_64_s3 {
-    ($name:ident, $k0:expr, $k1:expr) => {
-    #[inline(always)]
-    fn $name(self) -> Self {
-        Self::new(unsafe {
-                _mm_shuffle_epi8(
-                    self.x,
-                    _mm_set_epi64x($k0, $k1),
-                )
-            })
-        }
-    };
-}
-macro_rules! rotr_64 {
-    ($name:ident, $i:expr) => {
-    #[inline(always)]
-    fn $name(self) -> Self {
-        Self::new(unsafe {
-            _mm_or_si128(
-                _mm_srli_epi64(self.x, $i as i32),
-                _mm_slli_epi64(self.x, 64 - $i as i32),
-            )
-        })
-    }
-    };
-}
-impl<S4: Copy, NI: Copy> RotateEachWord32 for u64x2_sse2<YesS3, S4, NI> {
-    rotr_64!(rotate_each_word_right7, 7);
-    rotr_64_s3!(
-        rotate_each_word_right8,
-        0x080f_0e0d_0c0b_0a09,
-        0x0007_0605_0403_0201
-    );
-    rotr_64!(rotate_each_word_right11, 11);
-    rotr_64!(rotate_each_word_right12, 12);
-    rotr_64_s3!(
-        rotate_each_word_right16,
-        0x0908_0f0e_0d0c_0b0a,
-        0x0100_0706_0504_0302
-    );
-    rotr_64!(rotate_each_word_right20, 20);
-    rotr_64_s3!(
-        rotate_each_word_right24,
-        0x0a09_080f_0e0d_0c0b,
-        0x0201_0007_0605_0403
-    );
-    rotr_64!(rotate_each_word_right25, 25);
-}
-impl<S4: Copy, NI: Copy> RotateEachWord32 for u64x2_sse2<NoS3, S4, NI> {
-    rotr_64!(rotate_each_word_right7, 7);
-    rotr_64!(rotate_each_word_right8, 8);
-    rotr_64!(rotate_each_word_right11, 11);
-    rotr_64!(rotate_each_word_right12, 12);
-    #[inline(always)]
-    fn rotate_each_word_right16(self) -> Self {
-        Self::new(swap16_s2(self.x))
-    }
-    rotr_64!(rotate_each_word_right20, 20);
-    rotr_64!(rotate_each_word_right24, 24);
-    rotr_64!(rotate_each_word_right25, 25);
-}
-impl<S3: Copy, S4: Copy, NI: Copy> RotateEachWord64 for u64x2_sse2<S3, S4, NI> {
-    #[inline(always)]
-    fn rotate_each_word_right32(self) -> Self {
-        Self::new(unsafe { _mm_shuffle_epi32(self.x, 0b10110001) })
-    }
-}
-
-macro_rules! rotr_128 {
-    ($name:ident, $i:expr) => {
-    #[inline(always)]
-    fn $name(self) -> Self {
-        Self::new(unsafe {
-            _mm_or_si128(
-                _mm_srli_si128(self.x, $i as i32),
-                _mm_slli_si128(self.x, 128 - $i as i32),
-            )
-        })
-    }
-    };
-}
-// TODO: completely unoptimized
-impl<S3: Copy, S4: Copy, NI: Copy> RotateEachWord32 for u128x1_sse2<S3, S4, NI> {
-    rotr_128!(rotate_each_word_right7, 7);
-    rotr_128!(rotate_each_word_right8, 8);
-    rotr_128!(rotate_each_word_right11, 11);
-    rotr_128!(rotate_each_word_right12, 12);
-    rotr_128!(rotate_each_word_right16, 16);
-    rotr_128!(rotate_each_word_right20, 20);
-    rotr_128!(rotate_each_word_right24, 24);
-    rotr_128!(rotate_each_word_right25, 25);
-}
-// TODO: completely unoptimized
-impl<S3: Copy, S4: Copy, NI: Copy> RotateEachWord64 for u128x1_sse2<S3, S4, NI> {
-    rotr_128!(rotate_each_word_right32, 32);
-}
-impl<S3: Copy, S4: Copy, NI: Copy> RotateEachWord128 for u128x1_sse2<S3, S4, NI> {}
-
-def_vec!(u32x4_sse2, u32);
-def_vec!(u64x2_sse2, u64);
-def_vec!(u128x1_sse2, u128);
-
-impl<S3, NI> MultiLane<[u32; 4]> for u32x4_sse2<S3, YesS4, NI> {
-    #[inline(always)]
-    fn to_lanes(self) -> [u32; 4] {
-        unsafe {
-            let x = _mm_cvtsi128_si64(self.x) as u64;
-            let y = _mm_extract_epi64(self.x, 1) as u64;
-            [x as u32, (x >> 32) as u32, y as u32, (y >> 32) as u32]
-        }
-    }
-    #[inline(always)]
-    fn from_lanes(xs: [u32; 4]) -> Self {
-        unsafe {
-            let mut x = _mm_cvtsi64_si128((xs[0] as u64 | ((xs[1] as u64) << 32)) as i64);
-            x = _mm_insert_epi64(x, (xs[2] as u64 | ((xs[3] as u64) << 32)) as i64, 1);
-            Self::new(x)
-        }
-    }
-}
-impl<S3, NI> MultiLane<[u32; 4]> for u32x4_sse2<S3, NoS4, NI> {
-    #[inline(always)]
-    fn to_lanes(self) -> [u32; 4] {
-        unsafe {
-            let x = _mm_cvtsi128_si64(self.x) as u64;
-            let y = _mm_cvtsi128_si64(_mm_shuffle_epi32(self.x, 0b11101110)) as u64;
-            [x as u32, (x >> 32) as u32, y as u32, (y >> 32) as u32]
-        }
-    }
-    #[inline(always)]
-    fn from_lanes(xs: [u32; 4]) -> Self {
-        unsafe {
-            let x = (xs[0] as u64 | ((xs[1] as u64) << 32)) as i64;
-            let y = (xs[2] as u64 | ((xs[3] as u64) << 32)) as i64;
-            let x = _mm_cvtsi64_si128(x);
-            let y = _mm_slli_si128(_mm_cvtsi64_si128(y), 8);
-            Self::new(_mm_or_si128(x, y))
-        }
-    }
-}
-impl<S3, NI> MultiLane<[u64; 2]> for u64x2_sse2<S3, YesS4, NI> {
-    #[inline(always)]
-    fn to_lanes(self) -> [u64; 2] {
-        unsafe {
-            [
-                _mm_cvtsi128_si64(self.x) as u64,
-                _mm_extract_epi64(self.x, 1) as u64,
-            ]
-        }
-    }
-    #[inline(always)]
-    fn from_lanes(xs: [u64; 2]) -> Self {
-        unsafe {
-            let mut x = _mm_cvtsi64_si128(xs[0] as i64);
-            x = _mm_insert_epi64(x, xs[1] as i64, 1);
-            Self::new(x)
-        }
-    }
-}
-impl<S3, NI> MultiLane<[u64; 2]> for u64x2_sse2<S3, NoS4, NI> {
-    #[inline(always)]
-    fn to_lanes(self) -> [u64; 2] {
-        unsafe {
-            [
-                _mm_cvtsi128_si64(self.x) as u64,
-                _mm_cvtsi128_si64(_mm_srli_si128(self.x, 8)) as u64,
-            ]
-        }
-    }
-    #[inline(always)]
-    fn from_lanes(xs: [u64; 2]) -> Self {
-        unsafe {
-            let x = _mm_cvtsi64_si128(xs[0] as i64);
-            let y = _mm_slli_si128(_mm_cvtsi64_si128(xs[1] as i64), 8);
-            Self::new(_mm_or_si128(x, y))
-        }
-    }
-}
-impl<S3, S4, NI> MultiLane<[u128; 1]> for u128x1_sse2<S3, S4, NI> {
-    #[inline(always)]
-    fn to_lanes(self) -> [u128; 1] {
-        unimplemented!()
-    }
-    #[inline(always)]
-    fn from_lanes(xs: [u128; 1]) -> Self {
-        unimplemented!()
-    }
-}
-
-impl<S3, S4, NI> MultiLane<[u64; 4]> for u64x4_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>: MultiLane<[u64; 2]> + Copy,
-{
-    #[inline(always)]
-    fn to_lanes(self) -> [u64; 4] {
-        let (a, b) = (self.0[0].to_lanes(), self.0[1].to_lanes());
-        [a[0], a[1], b[0], b[1]]
-    }
-    #[inline(always)]
-    fn from_lanes(xs: [u64; 4]) -> Self {
-        let (a, b) = (
-            u64x2_sse2::from_lanes([xs[0], xs[1]]),
-            u64x2_sse2::from_lanes([xs[2], xs[3]]),
-        );
-        x2::new([a, b])
-    }
-}
-
-macro_rules! impl_into {
-    ($from:ident, $to:ident) => {
-        impl<S3, S4, NI> From<$from<S3, S4, NI>> for $to<S3, S4, NI> {
-            #[inline(always)]
-            fn from(x: $from<S3, S4, NI>) -> Self {
-                $to::new(x.x)
-            }
-        }
-    };
-}
-
-impl_into!(u128x1_sse2, u32x4_sse2);
-impl_into!(u128x1_sse2, u64x2_sse2);
-
-impl_bitops32!(u32x4_sse2);
-impl_bitops64!(u64x2_sse2);
-impl_bitops128!(u128x1_sse2);
-
-impl<S3: Copy, S4: Copy, NI: Copy> ArithOps for u32x4_sse2<S3, S4, NI> where
-    u32x4_sse2<S3, S4, NI>: BSwap
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> ArithOps for u64x2_sse2<S3, S4, NI> where
-    u64x2_sse2<S3, S4, NI>: BSwap
-{
-}
-impl_binop!(u32x4_sse2, Add, add, _mm_add_epi32);
-impl_binop!(u64x2_sse2, Add, add, _mm_add_epi64);
-impl_binop_assign!(u32x4_sse2, AddAssign, add_assign, add);
-impl_binop_assign!(u64x2_sse2, AddAssign, add_assign, add);
-
-impl<S3: Copy, S4: Copy, NI: Copy> u32x4<Machine86<S3, S4, NI>> for u32x4_sse2<S3, S4, NI>
-where
-    u32x4_sse2<S3, S4, NI>: RotateEachWord32 + BSwap + MultiLane<[u32; 4]> + Vec4<u32>,
-    Machine86<S3, S4, NI>: Machine,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u64x2<Machine86<S3, S4, NI>> for u64x2_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>:
-        RotateEachWord64 + RotateEachWord32 + BSwap + MultiLane<[u64; 2]> + Vec2<u64>,
-    Machine86<S3, S4, NI>: Machine,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u128x1<Machine86<S3, S4, NI>> for u128x1_sse2<S3, S4, NI>
-where
-    u128x1_sse2<S3, S4, NI>: Swap64 + RotateEachWord64 + RotateEachWord32 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u128x1_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u32x4>,
-    u128x1_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u64x2>,
-{
-}
-
-impl<NI: Copy> u32x4<Avx2Machine<NI>> for u32x4_sse2<YesS3, YesS4, NI>
-where
-    u32x4_sse2<YesS3, YesS4, NI>: RotateEachWord32 + BSwap + MultiLane<[u32; 4]> + Vec4<u32>,
-    Machine86<YesS3, YesS4, NI>: Machine,
-{
-}
-impl<NI: Copy> u64x2<Avx2Machine<NI>> for u64x2_sse2<YesS3, YesS4, NI>
-where
-    u64x2_sse2<YesS3, YesS4, NI>:
-        RotateEachWord64 + RotateEachWord32 + BSwap + MultiLane<[u64; 2]> + Vec2<u64>,
-    Machine86<YesS3, YesS4, NI>: Machine,
-{
-}
-impl<NI: Copy> u128x1<Avx2Machine<NI>> for u128x1_sse2<YesS3, YesS4, NI>
-where
-    u128x1_sse2<YesS3, YesS4, NI>: Swap64 + RotateEachWord64 + RotateEachWord32 + BSwap,
-    Machine86<YesS3, YesS4, NI>: Machine,
-    u128x1_sse2<YesS3, YesS4, NI>: Into<<Machine86<YesS3, YesS4, NI> as Machine>::u32x4>,
-    u128x1_sse2<YesS3, YesS4, NI>: Into<<Machine86<YesS3, YesS4, NI> as Machine>::u64x2>,
-{
-}
-
-impl<S3, S4, NI> UnsafeFrom<[u32; 4]> for u32x4_sse2<S3, S4, NI> {
-    #[inline(always)]
-    unsafe fn unsafe_from(xs: [u32; 4]) -> Self {
-        Self::new(_mm_set_epi32(
-            xs[3] as i32,
-            xs[2] as i32,
-            xs[1] as i32,
-            xs[0] as i32,
-        ))
-    }
-}
-
-impl<S3, NI> Vec4<u32> for u32x4_sse2<S3, YesS4, NI>
-where
-    Self: MultiLane<[u32; 4]>,
-{
-    #[inline(always)]
-    fn extract(self, i: u32) -> u32 {
-        self.to_lanes()[i as usize]
-    }
-    #[inline(always)]
-    fn insert(self, v: u32, i: u32) -> Self {
-        Self::new(unsafe {
-            match i {
-                0 => _mm_insert_epi32(self.x, v as i32, 0),
-                1 => _mm_insert_epi32(self.x, v as i32, 1),
-                2 => _mm_insert_epi32(self.x, v as i32, 2),
-                3 => _mm_insert_epi32(self.x, v as i32, 3),
-                _ => unreachable!(),
-            }
-        })
-    }
-}
-impl<S3, NI> Vec4<u32> for u32x4_sse2<S3, NoS4, NI>
-where
-    Self: MultiLane<[u32; 4]>,
-{
-    #[inline(always)]
-    fn extract(self, i: u32) -> u32 {
-        self.to_lanes()[i as usize]
-    }
-    #[inline(always)]
-    fn insert(self, v: u32, i: u32) -> Self {
-        Self::new(unsafe {
-            match i {
-                0 => {
-                    let x = _mm_andnot_si128(_mm_cvtsi32_si128(-1), self.x);
-                    _mm_or_si128(x, _mm_cvtsi32_si128(v as i32))
-                }
-                1 => {
-                    let mut x = _mm_shuffle_epi32(self.x, 0b0111_1000);
-                    x = _mm_slli_si128(x, 4);
-                    x = _mm_or_si128(x, _mm_cvtsi32_si128(v as i32));
-                    _mm_shuffle_epi32(x, 0b1110_0001)
-                }
-                2 => {
-                    let mut x = _mm_shuffle_epi32(self.x, 0b1011_0100);
-                    x = _mm_slli_si128(x, 4);
-                    x = _mm_or_si128(x, _mm_cvtsi32_si128(v as i32));
-                    _mm_shuffle_epi32(x, 0b1100_1001)
-                }
-                3 => {
-                    let mut x = _mm_slli_si128(self.x, 4);
-                    x = _mm_or_si128(x, _mm_cvtsi32_si128(v as i32));
-                    _mm_shuffle_epi32(x, 0b0011_1001)
-                }
-                _ => unreachable!(),
-            }
-        })
-    }
-}
-
-impl<S3, S4, NI> LaneWords4 for u32x4_sse2<S3, S4, NI> {
-    #[inline(always)]
-    fn shuffle_lane_words2301(self) -> Self {
-        self.shuffle2301()
-    }
-    #[inline(always)]
-    fn shuffle_lane_words1230(self) -> Self {
-        self.shuffle1230()
-    }
-    #[inline(always)]
-    fn shuffle_lane_words3012(self) -> Self {
-        self.shuffle3012()
-    }
-}
-
-impl<S3, S4, NI> Words4 for u32x4_sse2<S3, S4, NI> {
-    #[inline(always)]
-    fn shuffle2301(self) -> Self {
-        Self::new(unsafe { _mm_shuffle_epi32(self.x, 0b0100_1110) })
-    }
-    #[inline(always)]
-    fn shuffle1230(self) -> Self {
-        Self::new(unsafe { _mm_shuffle_epi32(self.x, 0b1001_0011) })
-    }
-    #[inline(always)]
-    fn shuffle3012(self) -> Self {
-        Self::new(unsafe { _mm_shuffle_epi32(self.x, 0b0011_1001) })
-    }
-}
-
-impl<S4, NI> Words4 for u64x4_sse2<YesS3, S4, NI> {
-    #[inline(always)]
-    fn shuffle2301(self) -> Self {
-        x2::new([u64x2_sse2::new(self.0[1].x), u64x2_sse2::new(self.0[0].x)])
-    }
-    #[inline(always)]
-    fn shuffle3012(self) -> Self {
-        unsafe {
-            x2::new([
-                u64x2_sse2::new(_mm_alignr_epi8(self.0[1].x, self.0[0].x, 8)),
-                u64x2_sse2::new(_mm_alignr_epi8(self.0[0].x, self.0[1].x, 8)),
-            ])
-        }
-    }
-    #[inline(always)]
-    fn shuffle1230(self) -> Self {
-        unsafe {
-            x2::new([
-                u64x2_sse2::new(_mm_alignr_epi8(self.0[0].x, self.0[1].x, 8)),
-                u64x2_sse2::new(_mm_alignr_epi8(self.0[1].x, self.0[0].x, 8)),
-            ])
-        }
-    }
-}
-impl<S4, NI> Words4 for u64x4_sse2<NoS3, S4, NI> {
-    #[inline(always)]
-    fn shuffle2301(self) -> Self {
-        x2::new([u64x2_sse2::new(self.0[1].x), u64x2_sse2::new(self.0[0].x)])
-    }
-    #[inline(always)]
-    fn shuffle3012(self) -> Self {
-        unsafe {
-            let a = _mm_srli_si128(self.0[0].x, 8);
-            let b = _mm_slli_si128(self.0[0].x, 8);
-            let c = _mm_srli_si128(self.0[1].x, 8);
-            let d = _mm_slli_si128(self.0[1].x, 8);
-            let da = _mm_or_si128(d, a);
-            let bc = _mm_or_si128(b, c);
-            x2::new([u64x2_sse2::new(da), u64x2_sse2::new(bc)])
-        }
-    }
-    #[inline(always)]
-    fn shuffle1230(self) -> Self {
-        unsafe {
-            let a = _mm_srli_si128(self.0[0].x, 8);
-            let b = _mm_slli_si128(self.0[0].x, 8);
-            let c = _mm_srli_si128(self.0[1].x, 8);
-            let d = _mm_slli_si128(self.0[1].x, 8);
-            let da = _mm_or_si128(d, a);
-            let bc = _mm_or_si128(b, c);
-            x2::new([u64x2_sse2::new(bc), u64x2_sse2::new(da)])
-        }
-    }
-}
-
-impl<S3, S4, NI> UnsafeFrom<[u64; 2]> for u64x2_sse2<S3, S4, NI> {
-    #[inline(always)]
-    unsafe fn unsafe_from(xs: [u64; 2]) -> Self {
-        Self::new(_mm_set_epi64x(xs[1] as i64, xs[0] as i64))
-    }
-}
-
-impl<S3, NI> Vec2<u64> for u64x2_sse2<S3, YesS4, NI> {
-    #[inline(always)]
-    fn extract(self, i: u32) -> u64 {
-        unsafe {
-            match i {
-                0 => _mm_cvtsi128_si64(self.x) as u64,
-                1 => _mm_extract_epi64(self.x, 1) as u64,
-                _ => unreachable!(),
-            }
-        }
-    }
-    #[inline(always)]
-    fn insert(self, x: u64, i: u32) -> Self {
-        Self::new(unsafe {
-            match i {
-                0 => _mm_insert_epi64(self.x, x as i64, 0),
-                1 => _mm_insert_epi64(self.x, x as i64, 1),
-                _ => unreachable!(),
-            }
-        })
-    }
-}
-impl<S3, NI> Vec2<u64> for u64x2_sse2<S3, NoS4, NI> {
-    #[inline(always)]
-    fn extract(self, i: u32) -> u64 {
-        unsafe {
-            match i {
-                0 => _mm_cvtsi128_si64(self.x) as u64,
-                1 => _mm_cvtsi128_si64(_mm_shuffle_epi32(self.x, 0b11101110)) as u64,
-                _ => unreachable!(),
-            }
-        }
-    }
-    #[inline(always)]
-    fn insert(self, x: u64, i: u32) -> Self {
-        Self::new(unsafe {
-            match i {
-                0 => _mm_or_si128(
-                    _mm_andnot_si128(_mm_cvtsi64_si128(-1), self.x),
-                    _mm_cvtsi64_si128(x as i64),
-                ),
-                1 => _mm_or_si128(
-                    _mm_move_epi64(self.x),
-                    _mm_slli_si128(_mm_cvtsi64_si128(x as i64), 8),
-                ),
-                _ => unreachable!(),
-            }
-        })
-    }
-}
-
-impl<S4, NI> BSwap for u32x4_sse2<YesS3, S4, NI> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        Self::new(unsafe {
-            let k = _mm_set_epi64x(0x0c0d_0e0f_0809_0a0b, 0x0405_0607_0001_0203);
-            _mm_shuffle_epi8(self.x, k)
-        })
-    }
-}
-#[inline(always)]
-fn bswap32_s2(x: __m128i) -> __m128i {
-    unsafe {
-        let mut y = _mm_unpacklo_epi8(x, _mm_setzero_si128());
-        y = _mm_shufflehi_epi16(y, 0b0001_1011);
-        y = _mm_shufflelo_epi16(y, 0b0001_1011);
-        let mut z = _mm_unpackhi_epi8(x, _mm_setzero_si128());
-        z = _mm_shufflehi_epi16(z, 0b0001_1011);
-        z = _mm_shufflelo_epi16(z, 0b0001_1011);
-        _mm_packus_epi16(y, z)
-    }
-}
-impl<S4, NI> BSwap for u32x4_sse2<NoS3, S4, NI> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        Self::new(bswap32_s2(self.x))
-    }
-}
-
-impl<S4, NI> BSwap for u64x2_sse2<YesS3, S4, NI> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        Self::new(unsafe {
-            let k = _mm_set_epi64x(0x0809_0a0b_0c0d_0e0f, 0x0001_0203_0405_0607);
-            _mm_shuffle_epi8(self.x, k)
-        })
-    }
-}
-impl<S4, NI> BSwap for u64x2_sse2<NoS3, S4, NI> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        Self::new(unsafe { bswap32_s2(_mm_shuffle_epi32(self.x, 0b1011_0001)) })
-    }
-}
-
-impl<S4, NI> BSwap for u128x1_sse2<YesS3, S4, NI> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        Self::new(unsafe {
-            let k = _mm_set_epi64x(0x0f0e_0d0c_0b0a_0908, 0x0706_0504_0302_0100);
-            _mm_shuffle_epi8(self.x, k)
-        })
-    }
-}
-impl<S4, NI> BSwap for u128x1_sse2<NoS3, S4, NI> {
-    #[inline(always)]
-    fn bswap(self) -> Self {
-        Self::new(unsafe { unimplemented!() })
-    }
-}
-
-macro_rules! swapi {
-    ($x:expr, $i:expr, $k:expr) => {
-        unsafe {
-            const K: u8 = $k;
-            let k = _mm_set1_epi8(K as i8);
-            u128x1_sse2::new(_mm_or_si128(
-                _mm_srli_epi16(_mm_and_si128($x.x, k), $i),
-                _mm_and_si128(_mm_slli_epi16($x.x, $i), k),
-            ))
-        }
-    };
-}
-#[inline(always)]
-fn swap16_s2(x: __m128i) -> __m128i {
-    unsafe { _mm_shufflehi_epi16(_mm_shufflelo_epi16(x, 0b1011_0001), 0b1011_0001) }
-}
-impl<S4, NI> Swap64 for u128x1_sse2<YesS3, S4, NI> {
-    #[inline(always)]
-    fn swap1(self) -> Self {
-        swapi!(self, 1, 0xaa)
-    }
-    #[inline(always)]
-    fn swap2(self) -> Self {
-        swapi!(self, 2, 0xcc)
-    }
-    #[inline(always)]
-    fn swap4(self) -> Self {
-        swapi!(self, 4, 0xf0)
-    }
-    #[inline(always)]
-    fn swap8(self) -> Self {
-        u128x1_sse2::new(unsafe {
-            let k = _mm_set_epi64x(0x0e0f_0c0d_0a0b_0809, 0x0607_0405_0203_0001);
-            _mm_shuffle_epi8(self.x, k)
-        })
-    }
-    #[inline(always)]
-    fn swap16(self) -> Self {
-        u128x1_sse2::new(unsafe {
-            let k = _mm_set_epi64x(0x0d0c_0f0e_0908_0b0a, 0x0504_0706_0100_0302);
-            _mm_shuffle_epi8(self.x, k)
-        })
-    }
-    #[inline(always)]
-    fn swap32(self) -> Self {
-        u128x1_sse2::new(unsafe { _mm_shuffle_epi32(self.x, 0b1011_0001) })
-    }
-    #[inline(always)]
-    fn swap64(self) -> Self {
-        u128x1_sse2::new(unsafe { _mm_shuffle_epi32(self.x, 0b0100_1110) })
-    }
-}
-impl<S4, NI> Swap64 for u128x1_sse2<NoS3, S4, NI> {
-    #[inline(always)]
-    fn swap1(self) -> Self {
-        swapi!(self, 1, 0xaa)
-    }
-    #[inline(always)]
-    fn swap2(self) -> Self {
-        swapi!(self, 2, 0xcc)
-    }
-    #[inline(always)]
-    fn swap4(self) -> Self {
-        swapi!(self, 4, 0xf0)
-    }
-    #[inline(always)]
-    fn swap8(self) -> Self {
-        u128x1_sse2::new(unsafe {
-            _mm_or_si128(_mm_slli_epi16(self.x, 8), _mm_srli_epi16(self.x, 8))
-        })
-    }
-    #[inline(always)]
-    fn swap16(self) -> Self {
-        u128x1_sse2::new(swap16_s2(self.x))
-    }
-    #[inline(always)]
-    fn swap32(self) -> Self {
-        u128x1_sse2::new(unsafe { _mm_shuffle_epi32(self.x, 0b1011_0001) })
-    }
-    #[inline(always)]
-    fn swap64(self) -> Self {
-        u128x1_sse2::new(unsafe { _mm_shuffle_epi32(self.x, 0b0100_1110) })
-    }
-}
-
-#[derive(Copy, Clone)]
-pub struct G0;
-#[derive(Copy, Clone)]
-pub struct G1;
-
-#[allow(non_camel_case_types)]
-pub type u32x4x2_sse2<S3, S4, NI> = x2<u32x4_sse2<S3, S4, NI>, G0>;
-#[allow(non_camel_case_types)]
-pub type u64x2x2_sse2<S3, S4, NI> = x2<u64x2_sse2<S3, S4, NI>, G0>;
-#[allow(non_camel_case_types)]
-pub type u64x4_sse2<S3, S4, NI> = x2<u64x2_sse2<S3, S4, NI>, G1>;
-#[allow(non_camel_case_types)]
-pub type u128x2_sse2<S3, S4, NI> = x2<u128x1_sse2<S3, S4, NI>, G0>;
-
-#[allow(non_camel_case_types)]
-pub type u32x4x4_sse2<S3, S4, NI> = x4<u32x4_sse2<S3, S4, NI>>;
-#[allow(non_camel_case_types)]
-pub type u64x2x4_sse2<S3, S4, NI> = x4<u64x2_sse2<S3, S4, NI>>;
-#[allow(non_camel_case_types)]
-pub type u128x4_sse2<S3, S4, NI> = x4<u128x1_sse2<S3, S4, NI>>;
-
-impl<S3: Copy, S4: Copy, NI: Copy> u32x4x2<Machine86<S3, S4, NI>> for u32x4x2_sse2<S3, S4, NI>
-where
-    u32x4_sse2<S3, S4, NI>: RotateEachWord32 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u32x4x2_sse2<S3, S4, NI>: MultiLane<[<Machine86<S3, S4, NI> as Machine>::u32x4; 2]>,
-    u32x4x2_sse2<S3, S4, NI>: Vec2<<Machine86<S3, S4, NI> as Machine>::u32x4>,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u64x2x2<Machine86<S3, S4, NI>> for u64x2x2_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>: RotateEachWord64 + RotateEachWord32 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u64x2x2_sse2<S3, S4, NI>: MultiLane<[<Machine86<S3, S4, NI> as Machine>::u64x2; 2]>,
-    u64x2x2_sse2<S3, S4, NI>: Vec2<<Machine86<S3, S4, NI> as Machine>::u64x2>,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u64x4<Machine86<S3, S4, NI>> for u64x4_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>: RotateEachWord64 + RotateEachWord32 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u64x4_sse2<S3, S4, NI>: MultiLane<[u64; 4]> + Vec4<u64> + Words4,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u128x2<Machine86<S3, S4, NI>> for u128x2_sse2<S3, S4, NI>
-where
-    u128x1_sse2<S3, S4, NI>: Swap64 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u128x2_sse2<S3, S4, NI>: MultiLane<[<Machine86<S3, S4, NI> as Machine>::u128x1; 2]>,
-    u128x2_sse2<S3, S4, NI>: Vec2<<Machine86<S3, S4, NI> as Machine>::u128x1>,
-    u128x2_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u32x4x2>,
-    u128x2_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u64x2x2>,
-    u128x2_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u64x4>,
-{
-}
-
-impl<NI: Copy> u32x4x2<Avx2Machine<NI>> for u32x4x2_sse2<YesS3, YesS4, NI>
-where
-    u32x4_sse2<YesS3, YesS4, NI>: RotateEachWord32 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u32x4x2_sse2<YesS3, YesS4, NI>: MultiLane<[<Avx2Machine<NI> as Machine>::u32x4; 2]>,
-    u32x4x2_sse2<YesS3, YesS4, NI>: Vec2<<Avx2Machine<NI> as Machine>::u32x4>,
-{
-}
-impl<NI: Copy> u64x2x2<Avx2Machine<NI>> for u64x2x2_sse2<YesS3, YesS4, NI>
-where
-    u64x2_sse2<YesS3, YesS4, NI>: RotateEachWord64 + RotateEachWord32 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u64x2x2_sse2<YesS3, YesS4, NI>: MultiLane<[<Avx2Machine<NI> as Machine>::u64x2; 2]>,
-    u64x2x2_sse2<YesS3, YesS4, NI>: Vec2<<Avx2Machine<NI> as Machine>::u64x2>,
-{
-}
-impl<NI: Copy> u64x4<Avx2Machine<NI>> for u64x4_sse2<YesS3, YesS4, NI>
-where
-    u64x2_sse2<YesS3, YesS4, NI>: RotateEachWord64 + RotateEachWord32 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u64x4_sse2<YesS3, YesS4, NI>: MultiLane<[u64; 4]> + Vec4<u64> + Words4,
-{
-}
-impl<NI: Copy> u128x2<Avx2Machine<NI>> for u128x2_sse2<YesS3, YesS4, NI>
-where
-    u128x1_sse2<YesS3, YesS4, NI>: Swap64 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u128x2_sse2<YesS3, YesS4, NI>: MultiLane<[<Avx2Machine<NI> as Machine>::u128x1; 2]>,
-    u128x2_sse2<YesS3, YesS4, NI>: Vec2<<Avx2Machine<NI> as Machine>::u128x1>,
-    u128x2_sse2<YesS3, YesS4, NI>: Into<<Avx2Machine<NI> as Machine>::u32x4x2>,
-    u128x2_sse2<YesS3, YesS4, NI>: Into<<Avx2Machine<NI> as Machine>::u64x2x2>,
-    u128x2_sse2<YesS3, YesS4, NI>: Into<<Avx2Machine<NI> as Machine>::u64x4>,
-{
-}
-
-impl<S3, S4, NI> Vec4<u64> for u64x4_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>: Copy + Vec2<u64>,
-{
-    #[inline(always)]
-    fn extract(self, i: u32) -> u64 {
-        match i {
-            0 => self.0[0].extract(0),
-            1 => self.0[0].extract(1),
-            2 => self.0[1].extract(0),
-            3 => self.0[1].extract(1),
-            _ => panic!(),
-        }
-    }
-    #[inline(always)]
-    fn insert(mut self, w: u64, i: u32) -> Self {
-        match i {
-            0 => self.0[0] = self.0[0].insert(w, 0),
-            1 => self.0[0] = self.0[0].insert(w, 1),
-            2 => self.0[1] = self.0[1].insert(w, 0),
-            3 => self.0[1] = self.0[1].insert(w, 1),
-            _ => panic!(),
-        };
-        self
-    }
-}
-
-impl<S3: Copy, S4: Copy, NI: Copy> u32x4x4<Machine86<S3, S4, NI>> for u32x4x4_sse2<S3, S4, NI>
-where
-    u32x4_sse2<S3, S4, NI>: RotateEachWord32 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u32x4x4_sse2<S3, S4, NI>: MultiLane<[<Machine86<S3, S4, NI> as Machine>::u32x4; 4]>,
-    u32x4x4_sse2<S3, S4, NI>: Vec4<<Machine86<S3, S4, NI> as Machine>::u32x4>,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u64x2x4<Machine86<S3, S4, NI>> for u64x2x4_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>: RotateEachWord64 + RotateEachWord32 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u64x2x4_sse2<S3, S4, NI>: MultiLane<[<Machine86<S3, S4, NI> as Machine>::u64x2; 4]>,
-    u64x2x4_sse2<S3, S4, NI>: Vec4<<Machine86<S3, S4, NI> as Machine>::u64x2>,
-{
-}
-impl<S3: Copy, S4: Copy, NI: Copy> u128x4<Machine86<S3, S4, NI>> for u128x4_sse2<S3, S4, NI>
-where
-    u128x1_sse2<S3, S4, NI>: Swap64 + BSwap,
-    Machine86<S3, S4, NI>: Machine,
-    u128x4_sse2<S3, S4, NI>: MultiLane<[<Machine86<S3, S4, NI> as Machine>::u128x1; 4]>,
-    u128x4_sse2<S3, S4, NI>: Vec4<<Machine86<S3, S4, NI> as Machine>::u128x1>,
-    u128x4_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u32x4x4>,
-    u128x4_sse2<S3, S4, NI>: Into<<Machine86<S3, S4, NI> as Machine>::u64x2x4>,
-{
-}
-
-impl<NI: Copy> u32x4x4<Avx2Machine<NI>> for u32x4x4_sse2<YesS3, YesS4, NI>
-where
-    u32x4_sse2<YesS3, YesS4, NI>: RotateEachWord32 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u32x4x4_sse2<YesS3, YesS4, NI>: MultiLane<[<Avx2Machine<NI> as Machine>::u32x4; 4]>,
-    u32x4x4_sse2<YesS3, YesS4, NI>: Vec4<<Avx2Machine<NI> as Machine>::u32x4>,
-{
-}
-impl<NI: Copy> u64x2x4<Avx2Machine<NI>> for u64x2x4_sse2<YesS3, YesS4, NI>
-where
-    u64x2_sse2<YesS3, YesS4, NI>: RotateEachWord64 + RotateEachWord32 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u64x2x4_sse2<YesS3, YesS4, NI>: MultiLane<[<Avx2Machine<NI> as Machine>::u64x2; 4]>,
-    u64x2x4_sse2<YesS3, YesS4, NI>: Vec4<<Avx2Machine<NI> as Machine>::u64x2>,
-{
-}
-impl<NI: Copy> u128x4<Avx2Machine<NI>> for u128x4_sse2<YesS3, YesS4, NI>
-where
-    u128x1_sse2<YesS3, YesS4, NI>: Swap64 + BSwap,
-    Avx2Machine<NI>: Machine,
-    u128x4_sse2<YesS3, YesS4, NI>: MultiLane<[<Avx2Machine<NI> as Machine>::u128x1; 4]>,
-    u128x4_sse2<YesS3, YesS4, NI>: Vec4<<Avx2Machine<NI> as Machine>::u128x1>,
-    u128x4_sse2<YesS3, YesS4, NI>: Into<<Avx2Machine<NI> as Machine>::u32x4x4>,
-    u128x4_sse2<YesS3, YesS4, NI>: Into<<Avx2Machine<NI> as Machine>::u64x2x4>,
-{
-}
-
-macro_rules! impl_into_x {
-    ($from:ident, $to:ident) => {
-        impl<S3: Copy, S4: Copy, NI: Copy, Gf, Gt> From<x2<$from<S3, S4, NI>, Gf>>
-            for x2<$to<S3, S4, NI>, Gt>
-        {
-            #[inline(always)]
-            fn from(x: x2<$from<S3, S4, NI>, Gf>) -> Self {
-                x2::new([$to::from(x.0[0]), $to::from(x.0[1])])
-            }
-        }
-        impl<S3: Copy, S4: Copy, NI: Copy> From<x4<$from<S3, S4, NI>>> for x4<$to<S3, S4, NI>> {
-            #[inline(always)]
-            fn from(x: x4<$from<S3, S4, NI>>) -> Self {
-                x4::new([
-                    $to::from(x.0[0]),
-                    $to::from(x.0[1]),
-                    $to::from(x.0[2]),
-                    $to::from(x.0[3]),
-                ])
-            }
-        }
-    };
-}
-impl_into_x!(u128x1_sse2, u64x2_sse2);
-impl_into_x!(u128x1_sse2, u32x4_sse2);
-
-///// Debugging
-
-use core::fmt::{Debug, Formatter, Result};
-
-impl<W: PartialEq, G> PartialEq for x2<W, G> {
-    #[inline(always)]
-    fn eq(&self, rhs: &Self) -> bool {
-        self.0[0] == rhs.0[0] && self.0[1] == rhs.0[1]
-    }
-}
-
-#[inline(always)]
-unsafe fn eq128_s4(x: __m128i, y: __m128i) -> bool {
-    let q = _mm_shuffle_epi32(_mm_cmpeq_epi64(x, y), 0b1100_0110);
-    _mm_cvtsi128_si64(q) == -1
-}
-
-#[inline(always)]
-unsafe fn eq128_s2(x: __m128i, y: __m128i) -> bool {
-    let q = _mm_cmpeq_epi32(x, y);
-    let p = _mm_cvtsi128_si64(_mm_srli_si128(q, 8));
-    let q = _mm_cvtsi128_si64(q);
-    (p & q) == -1
-}
-
-impl<S3, S4, NI> PartialEq for u32x4_sse2<S3, S4, NI> {
-    #[inline(always)]
-    fn eq(&self, rhs: &Self) -> bool {
-        unsafe { eq128_s2(self.x, rhs.x) }
-    }
-}
-impl<S3, S4, NI> Debug for u32x4_sse2<S3, S4, NI>
-where
-    Self: Copy + MultiLane<[u32; 4]>,
-{
-    #[cold]
-    fn fmt(&self, fmt: &mut Formatter) -> Result {
-        fmt.write_fmt(format_args!("{:08x?}", &self.to_lanes()))
-    }
-}
-
-impl<S3, S4, NI> PartialEq for u64x2_sse2<S3, S4, NI> {
-    #[inline(always)]
-    fn eq(&self, rhs: &Self) -> bool {
-        unsafe { eq128_s2(self.x, rhs.x) }
-    }
-}
-impl<S3, S4, NI> Debug for u64x2_sse2<S3, S4, NI>
-where
-    Self: Copy + MultiLane<[u64; 2]>,
-{
-    #[cold]
-    fn fmt(&self, fmt: &mut Formatter) -> Result {
-        fmt.write_fmt(format_args!("{:016x?}", &self.to_lanes()))
-    }
-}
-
-impl<S3, S4, NI> Debug for u64x4_sse2<S3, S4, NI>
-where
-    u64x2_sse2<S3, S4, NI>: Copy + MultiLane<[u64; 2]>,
-{
-    #[cold]
-    fn fmt(&self, fmt: &mut Formatter) -> Result {
-        let (a, b) = (self.0[0].to_lanes(), self.0[1].to_lanes());
-        fmt.write_fmt(format_args!("{:016x?}", &[a[0], a[1], b[0], b[1]]))
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use super::*;
-    use crate::x86_64::{SSE2, SSE41, SSSE3};
-    use crate::Machine;
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_bswap32_s2_vs_s3() {
-        let xs = [0x0f0e_0d0c, 0x0b0a_0908, 0x0706_0504, 0x0302_0100];
-        let ys = [0x0c0d_0e0f, 0x0809_0a0b, 0x0405_0607, 0x0001_0203];
-
-        let s2 = unsafe { SSE2::instance() };
-        let s3 = unsafe { SSSE3::instance() };
-
-        let x_s2 = {
-            let x_s2: <SSE2 as Machine>::u32x4 = s2.vec(xs);
-            x_s2.bswap()
-        };
-
-        let x_s3 = {
-            let x_s3: <SSSE3 as Machine>::u32x4 = s3.vec(xs);
-            x_s3.bswap()
-        };
-
-        assert_eq!(x_s2, unsafe { core::mem::transmute(x_s3) });
-        assert_eq!(x_s2, s2.vec(ys));
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_bswap64_s2_vs_s3() {
-        let xs = [0x0f0e_0d0c_0b0a_0908, 0x0706_0504_0302_0100];
-        let ys = [0x0809_0a0b_0c0d_0e0f, 0x0001_0203_0405_0607];
-
-        let s2 = unsafe { SSE2::instance() };
-        let s3 = unsafe { SSSE3::instance() };
-
-        let x_s2 = {
-            let x_s2: <SSE2 as Machine>::u64x2 = s2.vec(xs);
-            x_s2.bswap()
-        };
-
-        let x_s3 = {
-            let x_s3: <SSSE3 as Machine>::u64x2 = s3.vec(xs);
-            x_s3.bswap()
-        };
-
-        assert_eq!(x_s2, s2.vec(ys));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_shuffle32_s2_vs_s3() {
-        let xs = [0x0, 0x1, 0x2, 0x3];
-        let ys = [0x2, 0x3, 0x0, 0x1];
-        let zs = [0x1, 0x2, 0x3, 0x0];
-
-        let s2 = unsafe { SSE2::instance() };
-        let s3 = unsafe { SSSE3::instance() };
-
-        let x_s2 = {
-            let x_s2: <SSE2 as Machine>::u32x4 = s2.vec(xs);
-            x_s2.shuffle2301()
-        };
-        let x_s3 = {
-            let x_s3: <SSSE3 as Machine>::u32x4 = s3.vec(xs);
-            x_s3.shuffle2301()
-        };
-        assert_eq!(x_s2, s2.vec(ys));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-
-        let x_s2 = {
-            let x_s2: <SSE2 as Machine>::u32x4 = s2.vec(xs);
-            x_s2.shuffle3012()
-        };
-        let x_s3 = {
-            let x_s3: <SSSE3 as Machine>::u32x4 = s3.vec(xs);
-            x_s3.shuffle3012()
-        };
-        assert_eq!(x_s2, s2.vec(zs));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-
-        let x_s2 = x_s2.shuffle1230();
-        let x_s3 = x_s3.shuffle1230();
-        assert_eq!(x_s2, s2.vec(xs));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_shuffle64_s2_vs_s3() {
-        let xs = [0x0, 0x1, 0x2, 0x3];
-        let ys = [0x2, 0x3, 0x0, 0x1];
-        let zs = [0x1, 0x2, 0x3, 0x0];
-
-        let s2 = unsafe { SSE2::instance() };
-        let s3 = unsafe { SSSE3::instance() };
-
-        let x_s2 = {
-            let x_s2: <SSE2 as Machine>::u64x4 = s2.vec(xs);
-            x_s2.shuffle2301()
-        };
-        let x_s3 = {
-            let x_s3: <SSSE3 as Machine>::u64x4 = s3.vec(xs);
-            x_s3.shuffle2301()
-        };
-        assert_eq!(x_s2, s2.vec(ys));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-
-        let x_s2 = {
-            let x_s2: <SSE2 as Machine>::u64x4 = s2.vec(xs);
-            x_s2.shuffle3012()
-        };
-        let x_s3 = {
-            let x_s3: <SSSE3 as Machine>::u64x4 = s3.vec(xs);
-            x_s3.shuffle3012()
-        };
-        assert_eq!(x_s2, s2.vec(zs));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-
-        let x_s2 = x_s2.shuffle1230();
-        let x_s3 = x_s3.shuffle1230();
-        assert_eq!(x_s2, s2.vec(xs));
-        assert_eq!(x_s3, unsafe { core::mem::transmute(x_s3) });
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_lanes_u32x4() {
-        let xs = [0x1, 0x2, 0x3, 0x4];
-
-        let s2 = unsafe { SSE2::instance() };
-        let s3 = unsafe { SSSE3::instance() };
-        let s4 = unsafe { SSE41::instance() };
-
-        {
-            let x_s2: <SSE2 as Machine>::u32x4 = s2.vec(xs);
-            let y_s2 = <SSE2 as Machine>::u32x4::from_lanes(xs);
-            assert_eq!(x_s2, y_s2);
-            assert_eq!(xs, y_s2.to_lanes());
-        }
-
-        {
-            let x_s3: <SSSE3 as Machine>::u32x4 = s3.vec(xs);
-            let y_s3 = <SSSE3 as Machine>::u32x4::from_lanes(xs);
-            assert_eq!(x_s3, y_s3);
-            assert_eq!(xs, y_s3.to_lanes());
-        }
-
-        {
-            let x_s4: <SSE41 as Machine>::u32x4 = s4.vec(xs);
-            let y_s4 = <SSE41 as Machine>::u32x4::from_lanes(xs);
-            assert_eq!(x_s4, y_s4);
-            assert_eq!(xs, y_s4.to_lanes());
-        }
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_lanes_u64x2() {
-        let xs = [0x1, 0x2];
-
-        let s2 = unsafe { SSE2::instance() };
-        let s3 = unsafe { SSSE3::instance() };
-        let s4 = unsafe { SSE41::instance() };
-
-        {
-            let x_s2: <SSE2 as Machine>::u64x2 = s2.vec(xs);
-            let y_s2 = <SSE2 as Machine>::u64x2::from_lanes(xs);
-            assert_eq!(x_s2, y_s2);
-            assert_eq!(xs, y_s2.to_lanes());
-        }
-
-        {
-            let x_s3: <SSSE3 as Machine>::u64x2 = s3.vec(xs);
-            let y_s3 = <SSSE3 as Machine>::u64x2::from_lanes(xs);
-            assert_eq!(x_s3, y_s3);
-            assert_eq!(xs, y_s3.to_lanes());
-        }
-
-        {
-            let x_s4: <SSE41 as Machine>::u64x2 = s4.vec(xs);
-            let y_s4 = <SSE41 as Machine>::u64x2::from_lanes(xs);
-            assert_eq!(x_s4, y_s4);
-            assert_eq!(xs, y_s4.to_lanes());
-        }
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_vec4_u32x4_s2() {
-        let xs = [1, 2, 3, 4];
-        let s2 = unsafe { SSE2::instance() };
-        let x_s2: <SSE2 as Machine>::u32x4 = s2.vec(xs);
-        assert_eq!(x_s2.extract(0), 1);
-        assert_eq!(x_s2.extract(1), 2);
-        assert_eq!(x_s2.extract(2), 3);
-        assert_eq!(x_s2.extract(3), 4);
-        assert_eq!(x_s2.insert(0xf, 0), s2.vec([0xf, 2, 3, 4]));
-        assert_eq!(x_s2.insert(0xf, 1), s2.vec([1, 0xf, 3, 4]));
-        assert_eq!(x_s2.insert(0xf, 2), s2.vec([1, 2, 0xf, 4]));
-        assert_eq!(x_s2.insert(0xf, 3), s2.vec([1, 2, 3, 0xf]));
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_vec4_u32x4_s4() {
-        let xs = [1, 2, 3, 4];
-        let s4 = unsafe { SSE41::instance() };
-        let x_s4: <SSE41 as Machine>::u32x4 = s4.vec(xs);
-        assert_eq!(x_s4.extract(0), 1);
-        assert_eq!(x_s4.extract(1), 2);
-        assert_eq!(x_s4.extract(2), 3);
-        assert_eq!(x_s4.extract(3), 4);
-        assert_eq!(x_s4.insert(0xf, 0), s4.vec([0xf, 2, 3, 4]));
-        assert_eq!(x_s4.insert(0xf, 1), s4.vec([1, 0xf, 3, 4]));
-        assert_eq!(x_s4.insert(0xf, 2), s4.vec([1, 2, 0xf, 4]));
-        assert_eq!(x_s4.insert(0xf, 3), s4.vec([1, 2, 3, 0xf]));
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_vec2_u64x2_s2() {
-        let xs = [0x1, 0x2];
-        let s2 = unsafe { SSE2::instance() };
-        let x_s2: <SSE2 as Machine>::u64x2 = s2.vec(xs);
-        assert_eq!(x_s2.extract(0), 1);
-        assert_eq!(x_s2.extract(1), 2);
-        assert_eq!(x_s2.insert(0xf, 0), s2.vec([0xf, 2]));
-        assert_eq!(x_s2.insert(0xf, 1), s2.vec([1, 0xf]));
-    }
-
-    #[test]
-    #[cfg(target_arch = "x86_64")]
-    fn test_vec4_u64x2_s4() {
-        let xs = [0x1, 0x2];
-        let s4 = unsafe { SSE41::instance() };
-        let x_s4: <SSE41 as Machine>::u64x2 = s4.vec(xs);
-        assert_eq!(x_s4.extract(0), 1);
-        assert_eq!(x_s4.extract(1), 2);
-        assert_eq!(x_s4.insert(0xf, 0), s4.vec([0xf, 2]));
-        assert_eq!(x_s4.insert(0xf, 1), s4.vec([1, 0xf]));
-    }
-}
-
-pub mod avx2 {
-    #![allow(non_camel_case_types)]
-    use crate::soft::x4;
-    use crate::types::*;
-    use crate::x86_64::sse2::{u128x1_sse2, u32x4_sse2};
-    use crate::x86_64::{vec256_storage, vec512_storage, Avx2Machine, YesS3, YesS4};
-    use core::arch::x86_64::*;
-    use core::marker::PhantomData;
-    use core::ops::*;
-
-    #[derive(Copy, Clone)]
-    pub struct u32x4x4_avx2<NI> {
-        x: [__m256i; 2],
-        ni: PhantomData<NI>,
-    }
-
-    impl<NI> u32x4x4_avx2<NI> {
-        #[inline(always)]
-        fn new(x: [__m256i; 2]) -> Self {
-            Self { x, ni: PhantomData }
-        }
-    }
-
-    impl<NI> u32x4x4<Avx2Machine<NI>> for u32x4x4_avx2<NI> where NI: Copy {}
-    impl<NI> Store<vec512_storage> for u32x4x4_avx2<NI> {
-        #[inline(always)]
-        unsafe fn unpack(p: vec512_storage) -> Self {
-            Self::new([p.avx[0].avx, p.avx[1].avx])
-        }
-    }
-    impl<NI> MultiLane<[u32x4_sse2<YesS3, YesS4, NI>; 4]> for u32x4x4_avx2<NI> {
-        #[inline(always)]
-        fn to_lanes(self) -> [u32x4_sse2<YesS3, YesS4, NI>; 4] {
-            unsafe {
-                [
-                    u32x4_sse2::new(_mm256_extracti128_si256(self.x[0], 0)),
-                    u32x4_sse2::new(_mm256_extracti128_si256(self.x[0], 1)),
-                    u32x4_sse2::new(_mm256_extracti128_si256(self.x[1], 0)),
-                    u32x4_sse2::new(_mm256_extracti128_si256(self.x[1], 1)),
-                ]
-            }
-        }
-        #[inline(always)]
-        fn from_lanes(x: [u32x4_sse2<YesS3, YesS4, NI>; 4]) -> Self {
-            Self::new(unsafe {
-                [
-                    _mm256_setr_m128i(x[0].x, x[1].x),
-                    _mm256_setr_m128i(x[2].x, x[3].x),
-                ]
-            })
-        }
-    }
-    impl<NI> Vec4<u32x4_sse2<YesS3, YesS4, NI>> for u32x4x4_avx2<NI> {
-        #[inline(always)]
-        fn extract(self, i: u32) -> u32x4_sse2<YesS3, YesS4, NI> {
-            unsafe {
-                match i {
-                    0 => u32x4_sse2::new(_mm256_extracti128_si256(self.x[0], 0)),
-                    1 => u32x4_sse2::new(_mm256_extracti128_si256(self.x[0], 1)),
-                    2 => u32x4_sse2::new(_mm256_extracti128_si256(self.x[1], 0)),
-                    3 => u32x4_sse2::new(_mm256_extracti128_si256(self.x[1], 1)),
-                    _ => panic!(),
-                }
-            }
-        }
-        #[inline(always)]
-        fn insert(self, w: u32x4_sse2<YesS3, YesS4, NI>, i: u32) -> Self {
-            Self::new(unsafe {
-                match i {
-                    0 => [_mm256_inserti128_si256(self.x[0], w.x, 0), self.x[1]],
-                    1 => [_mm256_inserti128_si256(self.x[0], w.x, 1), self.x[1]],
-                    2 => [self.x[0], _mm256_inserti128_si256(self.x[1], w.x, 0)],
-                    3 => [self.x[0], _mm256_inserti128_si256(self.x[1], w.x, 1)],
-                    _ => panic!(),
-                }
-            })
-        }
-    }
-    impl<NI> LaneWords4 for u32x4x4_avx2<NI> {
-        #[inline(always)]
-        fn shuffle_lane_words1230(self) -> Self {
-            Self::new(unsafe {
-                [
-                    _mm256_shuffle_epi32(self.x[0], 0b1001_0011),
-                    _mm256_shuffle_epi32(self.x[1], 0b1001_0011),
-                ]
-            })
-        }
-        #[inline(always)]
-        fn shuffle_lane_words2301(self) -> Self {
-            Self::new(unsafe {
-                [
-                    _mm256_shuffle_epi32(self.x[0], 0b0100_1110),
-                    _mm256_shuffle_epi32(self.x[1], 0b0100_1110),
-                ]
-            })
-        }
-        #[inline(always)]
-        fn shuffle_lane_words3012(self) -> Self {
-            Self::new(unsafe {
-                [
-                    _mm256_shuffle_epi32(self.x[0], 0b0011_1001),
-                    _mm256_shuffle_epi32(self.x[1], 0b0011_1001),
-                ]
-            })
-        }
-    }
-    impl<NI> BitOps32 for u32x4x4_avx2<NI> where NI: Copy {}
-    impl<NI> ArithOps for u32x4x4_avx2<NI> where NI: Copy {}
-    macro_rules! shuf_lane_bytes {
-        ($name:ident, $k0:expr, $k1:expr) => {
-        #[inline(always)]
-        fn $name(self) -> Self {
-            Self::new(unsafe {
-                [
-                    _mm256_shuffle_epi8(
-                        self.x[0],
-                        _mm256_set_epi64x($k0, $k1, $k0, $k1),
-                    ),
-                    _mm256_shuffle_epi8(
-                        self.x[1],
-                        _mm256_set_epi64x($k0, $k1, $k0, $k1),
-                    )
-                ]
-                })
-            }
-        };
-    }
-    macro_rules! rotr_32 {
-        ($name:ident, $i:expr) => {
-            #[inline(always)]
-            fn $name(self) -> Self {
-                Self::new(unsafe {
-                    [
-                        _mm256_or_si256(
-                            _mm256_srli_epi32(self.x[0], $i as i32),
-                            _mm256_slli_epi32(self.x[0], 32 - $i as i32),
-                        ),
-                        _mm256_or_si256(
-                            _mm256_srli_epi32(self.x[1], $i as i32),
-                            _mm256_slli_epi32(self.x[1], 32 - $i as i32),
-                        )
-                    ]
-                })
-            }
-        };
-    }
-    impl<NI: Copy> RotateEachWord32 for u32x4x4_avx2<NI> {
-        rotr_32!(rotate_each_word_right7, 7);
-        shuf_lane_bytes!(
-            rotate_each_word_right8,
-            0x0c0f0e0d_080b0a09,
-            0x04070605_00030201
-        );
-        rotr_32!(rotate_each_word_right11, 11);
-        rotr_32!(rotate_each_word_right12, 12);
-        shuf_lane_bytes!(
-            rotate_each_word_right16,
-            0x0d0c0f0e_09080b0a,
-            0x05040706_01000302
-        );
-        rotr_32!(rotate_each_word_right20, 20);
-        shuf_lane_bytes!(
-            rotate_each_word_right24,
-            0x0e0d0c0f_0a09080b,
-            0x06050407_02010003
-        );
-        rotr_32!(rotate_each_word_right25, 25);
-    }
-    impl<NI> BitOps0 for u32x4x4_avx2<NI> where NI: Copy {}
-    impl<NI> From<u32x4x4_avx2<NI>> for vec512_storage {
-        #[inline(always)]
-        fn from(x: u32x4x4_avx2<NI>) -> Self {
-            Self {
-                avx: [
-                    vec256_storage { avx: x.x[0] },
-                    vec256_storage { avx: x.x[1] },
-                ],
-            }
-        }
-    }
-
-    macro_rules! impl_assign {
-        ($vec:ident, $Assign:ident, $assign_fn:ident, $bin_fn:ident) => {
-            impl<NI> $Assign for $vec<NI>
-            where
-                NI: Copy,
-            {
-                #[inline(always)]
-                fn $assign_fn(&mut self, rhs: Self) {
-                    *self = self.$bin_fn(rhs);
-                }
-            }
-        };
-    }
-    impl_assign!(u32x4x4_avx2, BitXorAssign, bitxor_assign, bitxor);
-    impl_assign!(u32x4x4_avx2, BitOrAssign, bitor_assign, bitor);
-    impl_assign!(u32x4x4_avx2, BitAndAssign, bitand_assign, bitand);
-    impl_assign!(u32x4x4_avx2, AddAssign, add_assign, add);
-
-    macro_rules! impl_bitop_x2 {
-        ($vec:ident, $Op:ident, $op_fn:ident, $impl_fn:ident) => {
-            impl<NI> $Op for $vec<NI> {
-                type Output = Self;
-                #[inline(always)]
-                fn $op_fn(self, rhs: Self) -> Self::Output {
-                    Self::new(unsafe {
-                        [$impl_fn(self.x[0], rhs.x[0]), $impl_fn(self.x[1], rhs.x[1])]
-                    })
-                }
-            }
-        };
-    }
-    impl_bitop_x2!(u32x4x4_avx2, BitXor, bitxor, _mm256_xor_si256);
-    impl_bitop_x2!(u32x4x4_avx2, BitOr, bitor, _mm256_or_si256);
-    impl_bitop_x2!(u32x4x4_avx2, BitAnd, bitand, _mm256_and_si256);
-    impl_bitop_x2!(u32x4x4_avx2, AndNot, andnot, _mm256_andnot_si256);
-    impl_bitop_x2!(u32x4x4_avx2, Add, add, _mm256_add_epi32);
-
-    impl<NI> Not for u32x4x4_avx2<NI> {
-        type Output = Self;
-        #[inline(always)]
-        fn not(self) -> Self::Output {
-            unsafe {
-                let f = _mm256_set1_epi8(-0x7f);
-                Self::new([f, f]) ^ self
-            }
-        }
-    }
-
-    impl<NI> BSwap for u32x4x4_avx2<NI> {
-        shuf_lane_bytes!(bswap, 0x0c0d_0e0f_0809_0a0b, 0x0405_0607_0001_0203);
-    }
-
-    impl<NI> From<x4<u128x1_sse2<YesS3, YesS4, NI>>> for u32x4x4_avx2<NI>
-    where
-        NI: Copy,
-    {
-        #[inline(always)]
-        fn from(x: x4<u128x1_sse2<YesS3, YesS4, NI>>) -> Self {
-            Self::new(unsafe {
-                [
-                    _mm256_setr_m128i(x.0[0].x, x.0[1].x),
-                    _mm256_setr_m128i(x.0[2].x, x.0[3].x),
-                ]
-            })
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/bernoulli.rs.html b/target/doc/src/rand/distributions/bernoulli.rs.html deleted file mode 100644 index 737bc29..0000000 --- a/target/doc/src/rand/distributions/bernoulli.rs.html +++ /dev/null @@ -1,335 +0,0 @@ -bernoulli.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The Bernoulli distribution.
-
-use crate::Rng;
-use crate::distributions::Distribution;
-
-/// The Bernoulli distribution.
-///
-/// This is a special case of the Binomial distribution where `n = 1`.
-///
-/// # Example
-///
-/// ```rust
-/// use rand::distributions::{Bernoulli, Distribution};
-///
-/// let d = Bernoulli::new(0.3).unwrap();
-/// let v = d.sample(&mut rand::thread_rng());
-/// println!("{} is from a Bernoulli distribution", v);
-/// ```
-///
-/// # Precision
-///
-/// This `Bernoulli` distribution uses 64 bits from the RNG (a `u64`),
-/// so only probabilities that are multiples of 2<sup>-64</sup> can be
-/// represented.
-#[derive(Clone, Copy, Debug)]
-pub struct Bernoulli {
-    /// Probability of success, relative to the maximal integer.
-    p_int: u64,
-}
-
-// To sample from the Bernoulli distribution we use a method that compares a
-// random `u64` value `v < (p * 2^64)`.
-//
-// If `p == 1.0`, the integer `v` to compare against can not represented as a
-// `u64`. We manually set it to `u64::MAX` instead (2^64 - 1 instead of 2^64).
-// Note that  value of `p < 1.0` can never result in `u64::MAX`, because an
-// `f64` only has 53 bits of precision, and the next largest value of `p` will
-// result in `2^64 - 2048`.
-//
-// Also there is a 100% theoretical concern: if someone consistenly wants to
-// generate `true` using the Bernoulli distribution (i.e. by using a probability
-// of `1.0`), just using `u64::MAX` is not enough. On average it would return
-// false once every 2^64 iterations. Some people apparently care about this
-// case.
-//
-// That is why we special-case `u64::MAX` to always return `true`, without using
-// the RNG, and pay the performance price for all uses that *are* reasonable.
-// Luckily, if `new()` and `sample` are close, the compiler can optimize out the
-// extra check.
-const ALWAYS_TRUE: u64 = ::core::u64::MAX;
-
-// This is just `2.0.powi(64)`, but written this way because it is not available
-// in `no_std` mode.
-const SCALE: f64 = 2.0 * (1u64 << 63) as f64;
-
-/// Error type returned from `Bernoulli::new`.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub enum BernoulliError {
-    /// `p < 0` or `p > 1`.
-    InvalidProbability,
-}
-
-impl Bernoulli {
-    /// Construct a new `Bernoulli` with the given probability of success `p`.
-    ///
-    /// # Precision
-    ///
-    /// For `p = 1.0`, the resulting distribution will always generate true.
-    /// For `p = 0.0`, the resulting distribution will always generate false.
-    ///
-    /// This method is accurate for any input `p` in the range `[0, 1]` which is
-    /// a multiple of 2<sup>-64</sup>. (Note that not all multiples of
-    /// 2<sup>-64</sup> in `[0, 1]` can be represented as a `f64`.)
-    #[inline]
-    pub fn new(p: f64) -> Result<Bernoulli, BernoulliError> {
-        if p < 0.0 || p >= 1.0 {
-            if p == 1.0 { return Ok(Bernoulli { p_int: ALWAYS_TRUE }) }
-            return Err(BernoulliError::InvalidProbability);
-        }
-        Ok(Bernoulli { p_int: (p * SCALE) as u64 })
-    }
-
-    /// Construct a new `Bernoulli` with the probability of success of
-    /// `numerator`-in-`denominator`. I.e. `new_ratio(2, 3)` will return
-    /// a `Bernoulli` with a 2-in-3 chance, or about 67%, of returning `true`.
-    ///
-    /// If `numerator == denominator` then the returned `Bernoulli` will always
-    /// return `true`. If `numerator == 0` it will always return `false`.
-    #[inline]
-    pub fn from_ratio(numerator: u32, denominator: u32) -> Result<Bernoulli, BernoulliError> {
-        if !(numerator <= denominator) {
-            return Err(BernoulliError::InvalidProbability);
-        }
-        if numerator == denominator {
-            return Ok(Bernoulli { p_int: ALWAYS_TRUE })
-        }
-        let p_int = ((numerator as f64 / denominator as f64) * SCALE) as u64;
-        Ok(Bernoulli { p_int })
-    }
-}
-
-impl Distribution<bool> for Bernoulli {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> bool {
-        // Make sure to always return true for p = 1.0.
-        if self.p_int == ALWAYS_TRUE { return true; }
-        let v: u64 = rng.gen();
-        v < self.p_int
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::Rng;
-    use crate::distributions::Distribution;
-    use super::Bernoulli;
-
-    #[test]
-    fn test_trivial() {
-        let mut r = crate::test::rng(1);
-        let always_false = Bernoulli::new(0.0).unwrap();
-        let always_true = Bernoulli::new(1.0).unwrap();
-        for _ in 0..5 {
-            assert_eq!(r.sample::<bool, _>(&always_false), false);
-            assert_eq!(r.sample::<bool, _>(&always_true), true);
-            assert_eq!(Distribution::<bool>::sample(&always_false, &mut r), false);
-            assert_eq!(Distribution::<bool>::sample(&always_true, &mut r), true);
-        }
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_average() {
-        const P: f64 = 0.3;
-        const NUM: u32 = 3;
-        const DENOM: u32 = 10;
-        let d1 = Bernoulli::new(P).unwrap();
-        let d2 = Bernoulli::from_ratio(NUM, DENOM).unwrap();
-        const N: u32 = 100_000;
-
-        let mut sum1: u32 = 0;
-        let mut sum2: u32 = 0;
-        let mut rng = crate::test::rng(2);
-        for _ in 0..N {
-            if d1.sample(&mut rng) {
-                sum1 += 1;
-            }
-            if d2.sample(&mut rng) {
-                sum2 += 1;
-            }
-        }
-        let avg1 = (sum1 as f64) / (N as f64);
-        assert!((avg1 - P).abs() < 5e-3);
-
-        let avg2 = (sum2 as f64) / (N as f64);
-        assert!((avg2 - (NUM as f64)/(DENOM as f64)).abs() < 5e-3);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/binomial.rs.html b/target/doc/src/rand/distributions/binomial.rs.html deleted file mode 100644 index e03a669..0000000 --- a/target/doc/src/rand/distributions/binomial.rs.html +++ /dev/null @@ -1,627 +0,0 @@ -binomial.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-// Copyright 2016-2017 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The binomial distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, Uniform};
-
-/// The binomial distribution `Binomial(n, p)`.
-///
-/// This distribution has density function:
-/// `f(k) = n!/(k! (n-k)!) p^k (1-p)^(n-k)` for `k >= 0`.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Binomial {
-    /// Number of trials.
-    n: u64,
-    /// Probability of success.
-    p: f64,
-}
-
-impl Binomial {
-    /// Construct a new `Binomial` with the given shape parameters `n` (number
-    /// of trials) and `p` (probability of success).
-    ///
-    /// Panics if `p < 0` or `p > 1`.
-    pub fn new(n: u64, p: f64) -> Binomial {
-        assert!(p >= 0.0, "Binomial::new called with p < 0");
-        assert!(p <= 1.0, "Binomial::new called with p > 1");
-        Binomial { n, p }
-    }
-}
-
-/// Convert a `f64` to an `i64`, panicing on overflow.
-// In the future (Rust 1.34), this might be replaced with `TryFrom`.
-fn f64_to_i64(x: f64) -> i64 {
-    assert!(x < (::std::i64::MAX as f64));
-    x as i64
-}
-
-impl Distribution<u64> for Binomial {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u64 {
-        // Handle these values directly.
-        if self.p == 0.0 {
-            return 0;
-        } else if self.p == 1.0 {
-            return self.n;
-        }
-
-        // The binomial distribution is symmetrical with respect to p -> 1-p,
-        // k -> n-k switch p so that it is less than 0.5 - this allows for lower
-        // expected values we will just invert the result at the end
-        let p = if self.p <= 0.5 {
-            self.p
-        } else {
-            1.0 - self.p
-        };
-
-        let result;
-        let q = 1. - p;
-
-        // For small n * min(p, 1 - p), the BINV algorithm based on the inverse
-        // transformation of the binomial distribution is efficient. Otherwise,
-        // the BTPE algorithm is used.
-        //
-        // Voratas Kachitvichyanukul and Bruce W. Schmeiser. 1988. Binomial
-        // random variate generation. Commun. ACM 31, 2 (February 1988),
-        // 216-222. http://dx.doi.org/10.1145/42372.42381
-
-        // Threshold for prefering the BINV algorithm. The paper suggests 10,
-        // Ranlib uses 30, and GSL uses 14.
-        const BINV_THRESHOLD: f64 = 10.;
-
-        if (self.n as f64) * p < BINV_THRESHOLD &&
-           self.n <= (::std::i32::MAX as u64) {
-            // Use the BINV algorithm.
-            let s = p / q;
-            let a = ((self.n + 1) as f64) * s;
-            let mut r = q.powi(self.n as i32);
-            let mut u: f64 = rng.gen();
-            let mut x = 0;
-            while u > r as f64 {
-                u -= r;
-                x += 1;
-                r *= a / (x as f64) - s;
-            }
-            result = x;
-        } else {
-            // Use the BTPE algorithm.
-
-            // Threshold for using the squeeze algorithm. This can be freely
-            // chosen based on performance. Ranlib and GSL use 20.
-            const SQUEEZE_THRESHOLD: i64 = 20;
-
-            // Step 0: Calculate constants as functions of `n` and `p`.
-            let n = self.n as f64;
-            let np = n * p;
-            let npq = np * q;
-            let f_m = np + p;
-            let m = f64_to_i64(f_m);
-            // radius of triangle region, since height=1 also area of region
-            let p1 = (2.195 * npq.sqrt() - 4.6 * q).floor() + 0.5;
-            // tip of triangle
-            let x_m = (m as f64) + 0.5;
-            // left edge of triangle
-            let x_l = x_m - p1;
-            // right edge of triangle
-            let x_r = x_m + p1;
-            let c = 0.134 + 20.5 / (15.3 + (m as f64));
-            // p1 + area of parallelogram region
-            let p2 = p1 * (1. + 2. * c);
-
-            fn lambda(a: f64) -> f64 {
-                a * (1. + 0.5 * a)
-            }
-
-            let lambda_l = lambda((f_m - x_l) / (f_m - x_l * p));
-            let lambda_r = lambda((x_r - f_m) / (x_r * q));
-            // p1 + area of left tail
-            let p3 = p2 + c / lambda_l;
-            // p1 + area of right tail
-            let p4 = p3 + c / lambda_r;
-
-            // return value
-            let mut y: i64;
-
-            let gen_u = Uniform::new(0., p4);
-            let gen_v = Uniform::new(0., 1.);
-
-            loop {
-                // Step 1: Generate `u` for selecting the region. If region 1 is
-                // selected, generate a triangularly distributed variate.
-                let u = gen_u.sample(rng);
-                let mut v = gen_v.sample(rng);
-                if !(u > p1) {
-                    y = f64_to_i64(x_m - p1 * v + u);
-                    break;
-                }
-
-                if !(u > p2) {
-                    // Step 2: Region 2, parallelograms. Check if region 2 is
-                    // used. If so, generate `y`.
-                    let x = x_l + (u - p1) / c;
-                    v = v * c + 1.0 - (x - x_m).abs() / p1;
-                    if v > 1. {
-                        continue;
-                    } else {
-                        y = f64_to_i64(x);
-                    }
-                } else if !(u > p3) {
-                    // Step 3: Region 3, left exponential tail.
-                    y = f64_to_i64(x_l + v.ln() / lambda_l);
-                    if y < 0 {
-                        continue;
-                    } else {
-                        v *= (u - p2) * lambda_l;
-                    }
-                } else {
-                    // Step 4: Region 4, right exponential tail.
-                    y = f64_to_i64(x_r - v.ln() / lambda_r);
-                    if y > 0 && (y as u64) > self.n {
-                        continue;
-                    } else {
-                        v *= (u - p3) * lambda_r;
-                    }
-                }
-
-                // Step 5: Acceptance/rejection comparison.
-
-                // Step 5.0: Test for appropriate method of evaluating f(y).
-                let k = (y - m).abs();
-                if !(k > SQUEEZE_THRESHOLD && (k as f64) < 0.5 * npq - 1.) {
-                    // Step 5.1: Evaluate f(y) via the recursive relationship. Start the
-                    // search from the mode.
-                    let s = p / q;
-                    let a = s * (n + 1.);
-                    let mut f = 1.0;
-                    if m < y {
-                        let mut i = m;
-                        loop {
-                            i += 1;
-                            f *= a / (i as f64) - s;
-                            if i == y {
-                                break;
-                            }
-                        }
-                    } else if m > y {
-                        let mut i = y;
-                        loop {
-                            i += 1;
-                            f /= a / (i as f64) - s;
-                            if i == m {
-                                break;
-                            }
-                        }
-                    }
-                    if v > f {
-                        continue;
-                    } else {
-                        break;
-                    }
-                }
-
-                // Step 5.2: Squeezing. Check the value of ln(v) againts upper and
-                // lower bound of ln(f(y)).
-                let k = k as f64;
-                let rho = (k / npq) * ((k * (k / 3. + 0.625) + 1./6.) / npq + 0.5);
-                let t = -0.5 * k*k / npq;
-                let alpha = v.ln();
-                if alpha < t - rho {
-                    break;
-                }
-                if alpha > t + rho {
-                    continue;
-                }
-
-                // Step 5.3: Final acceptance/rejection test.
-                let x1 = (y + 1) as f64;
-                let f1 = (m + 1) as f64;
-                let z = (f64_to_i64(n) + 1 - m) as f64;
-                let w = (f64_to_i64(n) - y + 1) as f64;
-
-                fn stirling(a: f64) -> f64 {
-                    let a2 = a * a;
-                    (13860. - (462. - (132. - (99. - 140. / a2) / a2) / a2) / a2) / a / 166320.
-                }
-
-                if alpha > x_m * (f1 / x1).ln()
-                    + (n - (m as f64) + 0.5) * (z / w).ln()
-                    + ((y - m) as f64) * (w * p / (x1 * q)).ln()
-                    // We use the signs from the GSL implementation, which are
-                    // different than the ones in the reference. According to
-                    // the GSL authors, the new signs were verified to be
-                    // correct by one of the original designers of the
-                    // algorithm.
-                    + stirling(f1) + stirling(z) - stirling(x1) - stirling(w)
-                {
-                    continue;
-                }
-
-                break;
-            }
-            assert!(y >= 0);
-            result = y as u64;
-        }
-
-        // Invert the result for p < 0.5.
-        if p != self.p {
-            self.n - result
-        } else {
-            result
-        }
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::Rng;
-    use crate::distributions::Distribution;
-    use super::Binomial;
-
-    fn test_binomial_mean_and_variance<R: Rng>(n: u64, p: f64, rng: &mut R) {
-        let binomial = Binomial::new(n, p);
-
-        let expected_mean = n as f64 * p;
-        let expected_variance = n as f64 * p * (1.0 - p);
-
-        let mut results = [0.0; 1000];
-        for i in results.iter_mut() { *i = binomial.sample(rng) as f64; }
-
-        let mean = results.iter().sum::<f64>() / results.len() as f64;
-        assert!((mean as f64 - expected_mean).abs() < expected_mean / 50.0,
-                "mean: {}, expected_mean: {}", mean, expected_mean);
-
-        let variance =
-            results.iter().map(|x| (x - mean) * (x - mean)).sum::<f64>()
-            / results.len() as f64;
-        assert!((variance - expected_variance).abs() < expected_variance / 10.0,
-                "variance: {}, expected_variance: {}", variance, expected_variance);
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_binomial() {
-        let mut rng = crate::test::rng(351);
-        test_binomial_mean_and_variance(150, 0.1, &mut rng);
-        test_binomial_mean_and_variance(70, 0.6, &mut rng);
-        test_binomial_mean_and_variance(40, 0.5, &mut rng);
-        test_binomial_mean_and_variance(20, 0.7, &mut rng);
-        test_binomial_mean_and_variance(20, 0.5, &mut rng);
-    }
-
-    #[test]
-    fn test_binomial_end_points() {
-        let mut rng = crate::test::rng(352);
-        assert_eq!(rng.sample(Binomial::new(20, 0.0)), 0);
-        assert_eq!(rng.sample(Binomial::new(20, 1.0)), 20);
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_binomial_invalid_lambda_neg() {
-        Binomial::new(20, -10.0);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/cauchy.rs.html b/target/doc/src/rand/distributions/cauchy.rs.html deleted file mode 100644 index 9b44c58..0000000 --- a/target/doc/src/rand/distributions/cauchy.rs.html +++ /dev/null @@ -1,207 +0,0 @@ -cauchy.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2016-2017 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The Cauchy distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::Distribution;
-use std::f64::consts::PI;
-
-/// The Cauchy distribution `Cauchy(median, scale)`.
-///
-/// This distribution has a density function:
-/// `f(x) = 1 / (pi * scale * (1 + ((x - median) / scale)^2))`
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Cauchy {
-    median: f64,
-    scale: f64
-}
-
-impl Cauchy {
-    /// Construct a new `Cauchy` with the given shape parameters
-    /// `median` the peak location and `scale` the scale factor.
-    /// Panics if `scale <= 0`.
-    pub fn new(median: f64, scale: f64) -> Cauchy {
-        assert!(scale > 0.0, "Cauchy::new called with scale factor <= 0");
-        Cauchy {
-            median,
-            scale
-        }
-    }
-}
-
-impl Distribution<f64> for Cauchy {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        // sample from [0, 1)
-        let x = rng.gen::<f64>();
-        // get standard cauchy random number
-        // note that π/2 is not exactly representable, even if x=0.5 the result is finite
-        let comp_dev = (PI * x).tan();
-        // shift and scale according to parameters
-        let result = self.median + self.scale * comp_dev;
-        result
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::distributions::Distribution;
-    use super::Cauchy;
-
-    fn median(mut numbers: &mut [f64]) -> f64 {
-        sort(&mut numbers);
-        let mid = numbers.len() / 2;
-        numbers[mid]
-    }
-
-    fn sort(numbers: &mut [f64]) {
-        numbers.sort_by(|a, b| a.partial_cmp(b).unwrap());
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri doesn't support transcendental functions
-    fn test_cauchy_averages() {
-        // NOTE: given that the variance and mean are undefined,
-        // this test does not have any rigorous statistical meaning.
-        let cauchy = Cauchy::new(10.0, 5.0);
-        let mut rng = crate::test::rng(123);
-        let mut numbers: [f64; 1000] = [0.0; 1000];
-        let mut sum = 0.0;
-        for i in 0..1000 {
-            numbers[i] = cauchy.sample(&mut rng);
-            sum += numbers[i];
-        }
-        let median = median(&mut numbers);
-        println!("Cauchy median: {}", median);
-        assert!((median - 10.0).abs() < 0.4); // not 100% certain, but probable enough
-        let mean = sum / 1000.0;
-        println!("Cauchy mean: {}", mean);
-        // for a Cauchy distribution the mean should not converge
-        assert!((mean - 10.0).abs() > 0.4); // not 100% certain, but probable enough
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_cauchy_invalid_scale_zero() {
-        Cauchy::new(0.0, 0.0);
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_cauchy_invalid_scale_neg() {
-        Cauchy::new(0.0, -10.0);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/dirichlet.rs.html b/target/doc/src/rand/distributions/dirichlet.rs.html deleted file mode 100644 index 7153619..0000000 --- a/target/doc/src/rand/distributions/dirichlet.rs.html +++ /dev/null @@ -1,257 +0,0 @@ -dirichlet.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The dirichlet distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::Distribution;
-use crate::distributions::gamma::Gamma;
-
-/// The dirichelet distribution `Dirichlet(alpha)`.
-///
-/// The Dirichlet distribution is a family of continuous multivariate
-/// probability distributions parameterized by a vector alpha of positive reals.
-/// It is a multivariate generalization of the beta distribution.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Debug)]
-pub struct Dirichlet {
-    /// Concentration parameters (alpha)
-    alpha: Vec<f64>,
-}
-
-impl Dirichlet {
-    /// Construct a new `Dirichlet` with the given alpha parameter `alpha`.
-    ///
-    /// # Panics
-    /// - if `alpha.len() < 2`
-    ///
-    #[inline]
-    pub fn new<V: Into<Vec<f64>>>(alpha: V) -> Dirichlet {
-        let a = alpha.into();
-        assert!(a.len() > 1);
-        for i in 0..a.len() {
-            assert!(a[i] > 0.0);
-        }
-
-        Dirichlet { alpha: a }
-    }
-
-    /// Construct a new `Dirichlet` with the given shape parameter `alpha` and `size`.
-    ///
-    /// # Panics
-    /// - if `alpha <= 0.0`
-    /// - if `size < 2`
-    ///
-    #[inline]
-    pub fn new_with_param(alpha: f64, size: usize) -> Dirichlet {
-        assert!(alpha > 0.0);
-        assert!(size > 1);
-        Dirichlet {
-            alpha: vec![alpha; size],
-        }
-    }
-}
-
-impl Distribution<Vec<f64>> for Dirichlet {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Vec<f64> {
-        let n = self.alpha.len();
-        let mut samples = vec![0.0f64; n];
-        let mut sum = 0.0f64;
-
-        for i in 0..n {
-            let g = Gamma::new(self.alpha[i], 1.0);
-            samples[i] = g.sample(rng);
-            sum += samples[i];
-        }
-        let invacc = 1.0 / sum;
-        for i in 0..n {
-            samples[i] *= invacc;
-        }
-        samples
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use super::Dirichlet;
-    use crate::distributions::Distribution;
-
-    #[test]
-    fn test_dirichlet() {
-        let d = Dirichlet::new(vec![1.0, 2.0, 3.0]);
-        let mut rng = crate::test::rng(221);
-        let samples = d.sample(&mut rng);
-        let _: Vec<f64> = samples
-            .into_iter()
-            .map(|x| {
-                assert!(x > 0.0);
-                x
-            })
-            .collect();
-    }
-
-    #[test]
-    fn test_dirichlet_with_param() {
-        let alpha = 0.5f64;
-        let size = 2;
-        let d = Dirichlet::new_with_param(alpha, size);
-        let mut rng = crate::test::rng(221);
-        let samples = d.sample(&mut rng);
-        let _: Vec<f64> = samples
-            .into_iter()
-            .map(|x| {
-                assert!(x > 0.0);
-                x
-            })
-            .collect();
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_dirichlet_invalid_length() {
-        Dirichlet::new_with_param(0.5f64, 1);
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_dirichlet_invalid_alpha() {
-        Dirichlet::new_with_param(0.0f64, 2);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/exponential.rs.html b/target/doc/src/rand/distributions/exponential.rs.html deleted file mode 100644 index 7043bab..0000000 --- a/target/doc/src/rand/distributions/exponential.rs.html +++ /dev/null @@ -1,219 +0,0 @@ -exponential.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The exponential distribution.
-#![allow(deprecated)]
-
-use crate::{Rng};
-use crate::distributions::{ziggurat_tables, Distribution};
-use crate::distributions::utils::ziggurat;
-
-/// Samples floating-point numbers according to the exponential distribution,
-/// with rate parameter `λ = 1`. This is equivalent to `Exp::new(1.0)` or
-/// sampling with `-rng.gen::<f64>().ln()`, but faster.
-///
-/// See `Exp` for the general exponential distribution.
-///
-/// Implemented via the ZIGNOR variant[^1] of the Ziggurat method. The exact
-/// description in the paper was adjusted to use tables for the exponential
-/// distribution rather than normal.
-///
-/// [^1]: Jurgen A. Doornik (2005). [*An Improved Ziggurat Method to
-///       Generate Normal Random Samples*](
-///       https://www.doornik.com/research/ziggurat.pdf).
-///       Nuffield College, Oxford
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Exp1;
-
-// This could be done via `-rng.gen::<f64>().ln()` but that is slower.
-impl Distribution<f64> for Exp1 {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        #[inline]
-        fn pdf(x: f64) -> f64 {
-            (-x).exp()
-        }
-        #[inline]
-        fn zero_case<R: Rng + ?Sized>(rng: &mut R, _u: f64) -> f64 {
-            ziggurat_tables::ZIG_EXP_R - rng.gen::<f64>().ln()
-        }
-
-        ziggurat(rng, false,
-                 &ziggurat_tables::ZIG_EXP_X,
-                 &ziggurat_tables::ZIG_EXP_F,
-                 pdf, zero_case)
-    }
-}
-
-/// The exponential distribution `Exp(lambda)`.
-///
-/// This distribution has density function: `f(x) = lambda * exp(-lambda * x)`
-/// for `x > 0`.
-/// 
-/// Note that [`Exp1`][crate::distributions::Exp1] is an optimised implementation for `lambda = 1`.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Exp {
-    /// `lambda` stored as `1/lambda`, since this is what we scale by.
-    lambda_inverse: f64
-}
-
-impl Exp {
-    /// Construct a new `Exp` with the given shape parameter
-    /// `lambda`. Panics if `lambda <= 0`.
-    #[inline]
-    pub fn new(lambda: f64) -> Exp {
-        assert!(lambda > 0.0, "Exp::new called with `lambda` <= 0");
-        Exp { lambda_inverse: 1.0 / lambda }
-    }
-}
-
-impl Distribution<f64> for Exp {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let n: f64 = rng.sample(Exp1);
-        n * self.lambda_inverse
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::distributions::Distribution;
-    use super::Exp;
-
-    #[test]
-    fn test_exp() {
-        let exp = Exp::new(10.0);
-        let mut rng = crate::test::rng(221);
-        for _ in 0..1000 {
-            assert!(exp.sample(&mut rng) >= 0.0);
-        }
-    }
-    #[test]
-    #[should_panic]
-    fn test_exp_invalid_lambda_zero() {
-        Exp::new(0.0);
-    }
-    #[test]
-    #[should_panic]
-    fn test_exp_invalid_lambda_neg() {
-        Exp::new(-10.0);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/float.rs.html b/target/doc/src/rand/distributions/float.rs.html deleted file mode 100644 index 0814b62..0000000 --- a/target/doc/src/rand/distributions/float.rs.html +++ /dev/null @@ -1,525 +0,0 @@ -float.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Basic floating-point number distributions
-
-use core::mem;
-use crate::Rng;
-use crate::distributions::{Distribution, Standard};
-use crate::distributions::utils::FloatSIMDUtils;
-#[cfg(feature="simd_support")]
-use packed_simd::*;
-
-/// A distribution to sample floating point numbers uniformly in the half-open
-/// interval `(0, 1]`, i.e. including 1 but not 0.
-///
-/// All values that can be generated are of the form `n * ε/2`. For `f32`
-/// the 23 most significant random bits of a `u32` are used and for `f64` the
-/// 53 most significant bits of a `u64` are used. The conversion uses the
-/// multiplicative method.
-///
-/// See also: [`Standard`] which samples from `[0, 1)`, [`Open01`]
-/// which samples from `(0, 1)` and [`Uniform`] which samples from arbitrary
-/// ranges.
-///
-/// # Example
-/// ```
-/// use rand::{thread_rng, Rng};
-/// use rand::distributions::OpenClosed01;
-///
-/// let val: f32 = thread_rng().sample(OpenClosed01);
-/// println!("f32 from (0, 1): {}", val);
-/// ```
-///
-/// [`Standard`]: crate::distributions::Standard
-/// [`Open01`]: crate::distributions::Open01
-/// [`Uniform`]: crate::distributions::uniform::Uniform
-#[derive(Clone, Copy, Debug)]
-pub struct OpenClosed01;
-
-/// A distribution to sample floating point numbers uniformly in the open
-/// interval `(0, 1)`, i.e. not including either endpoint.
-///
-/// All values that can be generated are of the form `n * ε + ε/2`. For `f32`
-/// the 22 most significant random bits of an `u32` are used, for `f64` 52 from
-/// an `u64`. The conversion uses a transmute-based method.
-///
-/// See also: [`Standard`] which samples from `[0, 1)`, [`OpenClosed01`]
-/// which samples from `(0, 1]` and [`Uniform`] which samples from arbitrary
-/// ranges.
-///
-/// # Example
-/// ```
-/// use rand::{thread_rng, Rng};
-/// use rand::distributions::Open01;
-///
-/// let val: f32 = thread_rng().sample(Open01);
-/// println!("f32 from (0, 1): {}", val);
-/// ```
-///
-/// [`Standard`]: crate::distributions::Standard
-/// [`OpenClosed01`]: crate::distributions::OpenClosed01
-/// [`Uniform`]: crate::distributions::uniform::Uniform
-#[derive(Clone, Copy, Debug)]
-pub struct Open01;
-
-
-// This trait is needed by both this lib and rand_distr hence is a hidden export
-#[doc(hidden)]
-pub trait IntoFloat {
-    type F;
-
-    /// Helper method to combine the fraction and a contant exponent into a
-    /// float.
-    ///
-    /// Only the least significant bits of `self` may be set, 23 for `f32` and
-    /// 52 for `f64`.
-    /// The resulting value will fall in a range that depends on the exponent.
-    /// As an example the range with exponent 0 will be
-    /// [2<sup>0</sup>..2<sup>1</sup>), which is [1..2).
-    fn into_float_with_exponent(self, exponent: i32) -> Self::F;
-}
-
-macro_rules! float_impls {
-    ($ty:ident, $uty:ident, $f_scalar:ident, $u_scalar:ty,
-     $fraction_bits:expr, $exponent_bias:expr) => {
-        impl IntoFloat for $uty {
-            type F = $ty;
-            #[inline(always)]
-            fn into_float_with_exponent(self, exponent: i32) -> $ty {
-                // The exponent is encoded using an offset-binary representation
-                let exponent_bits: $u_scalar =
-                    (($exponent_bias + exponent) as $u_scalar) << $fraction_bits;
-                // TODO: use from_bits when min compiler > 1.25 (see #545)
-                // $ty::from_bits(self | exponent_bits)
-                unsafe{ mem::transmute(self | exponent_bits) }
-            }
-        }
-
-        impl Distribution<$ty> for Standard {
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
-                // Multiply-based method; 24/53 random bits; [0, 1) interval.
-                // We use the most significant bits because for simple RNGs
-                // those are usually more random.
-                let float_size = mem::size_of::<$f_scalar>() as u32 * 8;
-                let precision = $fraction_bits + 1;
-                let scale = 1.0 / ((1 as $u_scalar << precision) as $f_scalar);
-
-                let value: $uty = rng.gen();
-                let value = value >> (float_size - precision);
-                scale * $ty::cast_from_int(value)
-            }
-        }
-
-        impl Distribution<$ty> for OpenClosed01 {
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
-                // Multiply-based method; 24/53 random bits; (0, 1] interval.
-                // We use the most significant bits because for simple RNGs
-                // those are usually more random.
-                let float_size = mem::size_of::<$f_scalar>() as u32 * 8;
-                let precision = $fraction_bits + 1;
-                let scale = 1.0 / ((1 as $u_scalar << precision) as $f_scalar);
-
-                let value: $uty = rng.gen();
-                let value = value >> (float_size - precision);
-                // Add 1 to shift up; will not overflow because of right-shift:
-                scale * $ty::cast_from_int(value + 1)
-            }
-        }
-
-        impl Distribution<$ty> for Open01 {
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
-                // Transmute-based method; 23/52 random bits; (0, 1) interval.
-                // We use the most significant bits because for simple RNGs
-                // those are usually more random.
-                use core::$f_scalar::EPSILON;
-                let float_size = mem::size_of::<$f_scalar>() as u32 * 8;
-
-                let value: $uty = rng.gen();
-                let fraction = value >> (float_size - $fraction_bits);
-                fraction.into_float_with_exponent(0) - (1.0 - EPSILON / 2.0)
-            }
-        }
-    }
-}
-
-float_impls! { f32, u32, f32, u32, 23, 127 }
-float_impls! { f64, u64, f64, u64, 52, 1023 }
-
-#[cfg(feature="simd_support")]
-float_impls! { f32x2, u32x2, f32, u32, 23, 127 }
-#[cfg(feature="simd_support")]
-float_impls! { f32x4, u32x4, f32, u32, 23, 127 }
-#[cfg(feature="simd_support")]
-float_impls! { f32x8, u32x8, f32, u32, 23, 127 }
-#[cfg(feature="simd_support")]
-float_impls! { f32x16, u32x16, f32, u32, 23, 127 }
-
-#[cfg(feature="simd_support")]
-float_impls! { f64x2, u64x2, f64, u64, 52, 1023 }
-#[cfg(feature="simd_support")]
-float_impls! { f64x4, u64x4, f64, u64, 52, 1023 }
-#[cfg(feature="simd_support")]
-float_impls! { f64x8, u64x8, f64, u64, 52, 1023 }
-
-
-#[cfg(test)]
-mod tests {
-    use crate::Rng;
-    use crate::distributions::{Open01, OpenClosed01};
-    use crate::rngs::mock::StepRng;
-    #[cfg(feature="simd_support")]
-    use packed_simd::*;
-
-    const EPSILON32: f32 = ::core::f32::EPSILON;
-    const EPSILON64: f64 = ::core::f64::EPSILON;
-
-    macro_rules! test_f32 {
-        ($fnn:ident, $ty:ident, $ZERO:expr, $EPSILON:expr) => {
-            #[test]
-            fn $fnn() {
-                // Standard
-                let mut zeros = StepRng::new(0, 0);
-                assert_eq!(zeros.gen::<$ty>(), $ZERO);
-                let mut one = StepRng::new(1 << 8 | 1 << (8 + 32), 0);
-                assert_eq!(one.gen::<$ty>(), $EPSILON / 2.0);
-                let mut max = StepRng::new(!0, 0);
-                assert_eq!(max.gen::<$ty>(), 1.0 - $EPSILON / 2.0);
-
-                // OpenClosed01
-                let mut zeros = StepRng::new(0, 0);
-                assert_eq!(zeros.sample::<$ty, _>(OpenClosed01),
-                           0.0 + $EPSILON / 2.0);
-                let mut one = StepRng::new(1 << 8 | 1 << (8 + 32), 0);
-                assert_eq!(one.sample::<$ty, _>(OpenClosed01), $EPSILON);
-                let mut max = StepRng::new(!0, 0);
-                assert_eq!(max.sample::<$ty, _>(OpenClosed01), $ZERO + 1.0);
-
-                // Open01
-                let mut zeros = StepRng::new(0, 0);
-                assert_eq!(zeros.sample::<$ty, _>(Open01), 0.0 + $EPSILON / 2.0);
-                let mut one = StepRng::new(1 << 9 | 1 << (9 + 32), 0);
-                assert_eq!(one.sample::<$ty, _>(Open01), $EPSILON / 2.0 * 3.0);
-                let mut max = StepRng::new(!0, 0);
-                assert_eq!(max.sample::<$ty, _>(Open01), 1.0 - $EPSILON / 2.0);
-            }
-        }
-    }
-    test_f32! { f32_edge_cases, f32, 0.0, EPSILON32 }
-    #[cfg(feature="simd_support")]
-    test_f32! { f32x2_edge_cases, f32x2, f32x2::splat(0.0), f32x2::splat(EPSILON32) }
-    #[cfg(feature="simd_support")]
-    test_f32! { f32x4_edge_cases, f32x4, f32x4::splat(0.0), f32x4::splat(EPSILON32) }
-    #[cfg(feature="simd_support")]
-    test_f32! { f32x8_edge_cases, f32x8, f32x8::splat(0.0), f32x8::splat(EPSILON32) }
-    #[cfg(feature="simd_support")]
-    test_f32! { f32x16_edge_cases, f32x16, f32x16::splat(0.0), f32x16::splat(EPSILON32) }
-
-    macro_rules! test_f64 {
-        ($fnn:ident, $ty:ident, $ZERO:expr, $EPSILON:expr) => {
-            #[test]
-            fn $fnn() {
-                // Standard
-                let mut zeros = StepRng::new(0, 0);
-                assert_eq!(zeros.gen::<$ty>(), $ZERO);
-                let mut one = StepRng::new(1 << 11, 0);
-                assert_eq!(one.gen::<$ty>(), $EPSILON / 2.0);
-                let mut max = StepRng::new(!0, 0);
-                assert_eq!(max.gen::<$ty>(), 1.0 - $EPSILON / 2.0);
-
-                // OpenClosed01
-                let mut zeros = StepRng::new(0, 0);
-                assert_eq!(zeros.sample::<$ty, _>(OpenClosed01),
-                           0.0 + $EPSILON / 2.0);
-                let mut one = StepRng::new(1 << 11, 0);
-                assert_eq!(one.sample::<$ty, _>(OpenClosed01), $EPSILON);
-                let mut max = StepRng::new(!0, 0);
-                assert_eq!(max.sample::<$ty, _>(OpenClosed01), $ZERO + 1.0);
-
-                // Open01
-                let mut zeros = StepRng::new(0, 0);
-                assert_eq!(zeros.sample::<$ty, _>(Open01), 0.0 + $EPSILON / 2.0);
-                let mut one = StepRng::new(1 << 12, 0);
-                assert_eq!(one.sample::<$ty, _>(Open01), $EPSILON / 2.0 * 3.0);
-                let mut max = StepRng::new(!0, 0);
-                assert_eq!(max.sample::<$ty, _>(Open01), 1.0 - $EPSILON / 2.0);
-            }
-        }
-    }
-    test_f64! { f64_edge_cases, f64, 0.0, EPSILON64 }
-    #[cfg(feature="simd_support")]
-    test_f64! { f64x2_edge_cases, f64x2, f64x2::splat(0.0), f64x2::splat(EPSILON64) }
-    #[cfg(feature="simd_support")]
-    test_f64! { f64x4_edge_cases, f64x4, f64x4::splat(0.0), f64x4::splat(EPSILON64) }
-    #[cfg(feature="simd_support")]
-    test_f64! { f64x8_edge_cases, f64x8, f64x8::splat(0.0), f64x8::splat(EPSILON64) }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The Gamma and derived distributions.
-#![allow(deprecated)]
-
-use self::GammaRepr::*;
-use self::ChiSquaredRepr::*;
-
-use crate::Rng;
-use crate::distributions::normal::StandardNormal;
-use crate::distributions::{Distribution, Exp, Open01};
-
-/// The Gamma distribution `Gamma(shape, scale)` distribution.
-///
-/// The density function of this distribution is
-///
-/// ```text
-/// f(x) =  x^(k - 1) * exp(-x / θ) / (Γ(k) * θ^k)
-/// ```
-///
-/// where `Γ` is the Gamma function, `k` is the shape and `θ` is the
-/// scale and both `k` and `θ` are strictly positive.
-///
-/// The algorithm used is that described by Marsaglia & Tsang 2000[^1],
-/// falling back to directly sampling from an Exponential for `shape
-/// == 1`, and using the boosting technique described in that paper for
-/// `shape < 1`.
-///
-/// [^1]: George Marsaglia and Wai Wan Tsang. 2000. "A Simple Method for
-///       Generating Gamma Variables" *ACM Trans. Math. Softw.* 26, 3
-///       (September 2000), 363-372.
-///       DOI:[10.1145/358407.358414](https://doi.acm.org/10.1145/358407.358414)
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Gamma {
-    repr: GammaRepr,
-}
-
-#[derive(Clone, Copy, Debug)]
-enum GammaRepr {
-    Large(GammaLargeShape),
-    One(Exp),
-    Small(GammaSmallShape)
-}
-
-// These two helpers could be made public, but saving the
-// match-on-Gamma-enum branch from using them directly (e.g. if one
-// knows that the shape is always > 1) doesn't appear to be much
-// faster.
-
-/// Gamma distribution where the shape parameter is less than 1.
-///
-/// Note, samples from this require a compulsory floating-point `pow`
-/// call, which makes it significantly slower than sampling from a
-/// gamma distribution where the shape parameter is greater than or
-/// equal to 1.
-///
-/// See `Gamma` for sampling from a Gamma distribution with general
-/// shape parameters.
-#[derive(Clone, Copy, Debug)]
-struct GammaSmallShape {
-    inv_shape: f64,
-    large_shape: GammaLargeShape
-}
-
-/// Gamma distribution where the shape parameter is larger than 1.
-///
-/// See `Gamma` for sampling from a Gamma distribution with general
-/// shape parameters.
-#[derive(Clone, Copy, Debug)]
-struct GammaLargeShape {
-    scale: f64,
-    c: f64,
-    d: f64
-}
-
-impl Gamma {
-    /// Construct an object representing the `Gamma(shape, scale)`
-    /// distribution.
-    ///
-    /// Panics if `shape <= 0` or `scale <= 0`.
-    #[inline]
-    pub fn new(shape: f64, scale: f64) -> Gamma {
-        assert!(shape > 0.0, "Gamma::new called with shape <= 0");
-        assert!(scale > 0.0, "Gamma::new called with scale <= 0");
-
-        let repr = if shape == 1.0 {
-            One(Exp::new(1.0 / scale))
-        } else if shape < 1.0 {
-            Small(GammaSmallShape::new_raw(shape, scale))
-        } else {
-            Large(GammaLargeShape::new_raw(shape, scale))
-        };
-        Gamma { repr }
-    }
-}
-
-impl GammaSmallShape {
-    fn new_raw(shape: f64, scale: f64) -> GammaSmallShape {
-        GammaSmallShape {
-            inv_shape: 1. / shape,
-            large_shape: GammaLargeShape::new_raw(shape + 1.0, scale)
-        }
-    }
-}
-
-impl GammaLargeShape {
-    fn new_raw(shape: f64, scale: f64) -> GammaLargeShape {
-        let d = shape - 1. / 3.;
-        GammaLargeShape {
-            scale,
-            c: 1. / (9. * d).sqrt(),
-            d
-        }
-    }
-}
-
-impl Distribution<f64> for Gamma {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        match self.repr {
-            Small(ref g) => g.sample(rng),
-            One(ref g) => g.sample(rng),
-            Large(ref g) => g.sample(rng),
-        }
-    }
-}
-impl Distribution<f64> for GammaSmallShape {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let u: f64 = rng.sample(Open01);
-
-        self.large_shape.sample(rng) * u.powf(self.inv_shape)
-    }
-}
-impl Distribution<f64> for GammaLargeShape {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        loop {
-            let x = rng.sample(StandardNormal);
-            let v_cbrt = 1.0 + self.c * x;
-            if v_cbrt <= 0.0 { // a^3 <= 0 iff a <= 0
-                continue
-            }
-
-            let v = v_cbrt * v_cbrt * v_cbrt;
-            let u: f64 = rng.sample(Open01);
-
-            let x_sqr = x * x;
-            if u < 1.0 - 0.0331 * x_sqr * x_sqr ||
-                u.ln() < 0.5 * x_sqr + self.d * (1.0 - v + v.ln()) {
-                return self.d * v * self.scale
-            }
-        }
-    }
-}
-
-/// The chi-squared distribution `χ²(k)`, where `k` is the degrees of
-/// freedom.
-///
-/// For `k > 0` integral, this distribution is the sum of the squares
-/// of `k` independent standard normal random variables. For other
-/// `k`, this uses the equivalent characterisation
-/// `χ²(k) = Gamma(k/2, 2)`.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct ChiSquared {
-    repr: ChiSquaredRepr,
-}
-
-#[derive(Clone, Copy, Debug)]
-enum ChiSquaredRepr {
-    // k == 1, Gamma(alpha, ..) is particularly slow for alpha < 1,
-    // e.g. when alpha = 1/2 as it would be for this case, so special-
-    // casing and using the definition of N(0,1)^2 is faster.
-    DoFExactlyOne,
-    DoFAnythingElse(Gamma),
-}
-
-impl ChiSquared {
-    /// Create a new chi-squared distribution with degrees-of-freedom
-    /// `k`. Panics if `k < 0`.
-    pub fn new(k: f64) -> ChiSquared {
-        let repr = if k == 1.0 {
-            DoFExactlyOne
-        } else {
-            assert!(k > 0.0, "ChiSquared::new called with `k` < 0");
-            DoFAnythingElse(Gamma::new(0.5 * k, 2.0))
-        };
-        ChiSquared { repr }
-    }
-}
-impl Distribution<f64> for ChiSquared {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        match self.repr {
-            DoFExactlyOne => {
-                // k == 1 => N(0,1)^2
-                let norm = rng.sample(StandardNormal);
-                norm * norm
-            }
-            DoFAnythingElse(ref g) => g.sample(rng)
-        }
-    }
-}
-
-/// The Fisher F distribution `F(m, n)`.
-///
-/// This distribution is equivalent to the ratio of two normalised
-/// chi-squared distributions, that is, `F(m,n) = (χ²(m)/m) /
-/// (χ²(n)/n)`.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct FisherF {
-    numer: ChiSquared,
-    denom: ChiSquared,
-    // denom_dof / numer_dof so that this can just be a straight
-    // multiplication, rather than a division.
-    dof_ratio: f64,
-}
-
-impl FisherF {
-    /// Create a new `FisherF` distribution, with the given
-    /// parameter. Panics if either `m` or `n` are not positive.
-    pub fn new(m: f64, n: f64) -> FisherF {
-        assert!(m > 0.0, "FisherF::new called with `m < 0`");
-        assert!(n > 0.0, "FisherF::new called with `n < 0`");
-
-        FisherF {
-            numer: ChiSquared::new(m),
-            denom: ChiSquared::new(n),
-            dof_ratio: n / m
-        }
-    }
-}
-impl Distribution<f64> for FisherF {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        self.numer.sample(rng) / self.denom.sample(rng) * self.dof_ratio
-    }
-}
-
-/// The Student t distribution, `t(nu)`, where `nu` is the degrees of
-/// freedom.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct StudentT {
-    chi: ChiSquared,
-    dof: f64
-}
-
-impl StudentT {
-    /// Create a new Student t distribution with `n` degrees of
-    /// freedom. Panics if `n <= 0`.
-    pub fn new(n: f64) -> StudentT {
-        assert!(n > 0.0, "StudentT::new called with `n <= 0`");
-        StudentT {
-            chi: ChiSquared::new(n),
-            dof: n
-        }
-    }
-}
-impl Distribution<f64> for StudentT {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let norm = rng.sample(StandardNormal);
-        norm * (self.dof / self.chi.sample(rng)).sqrt()
-    }
-}
-
-/// The Beta distribution with shape parameters `alpha` and `beta`.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Beta {
-    gamma_a: Gamma,
-    gamma_b: Gamma,
-}
-
-impl Beta {
-    /// Construct an object representing the `Beta(alpha, beta)`
-    /// distribution.
-    ///
-    /// Panics if `shape <= 0` or `scale <= 0`.
-    pub fn new(alpha: f64, beta: f64) -> Beta {
-        assert!((alpha > 0.) & (beta > 0.));
-        Beta {
-            gamma_a: Gamma::new(alpha, 1.),
-            gamma_b: Gamma::new(beta, 1.),
-        }
-    }
-}
-
-impl Distribution<f64> for Beta {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let x = self.gamma_a.sample(rng);
-        let y = self.gamma_b.sample(rng);
-        x / (x + y)
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::distributions::Distribution;
-    use super::{Beta, ChiSquared, StudentT, FisherF};
-
-    const N: u32 = 100;
-
-    #[test]
-    fn test_chi_squared_one() {
-        let chi = ChiSquared::new(1.0);
-        let mut rng = crate::test::rng(201);
-        for _ in 0..N {
-            chi.sample(&mut rng);
-        }
-    }
-    #[test]
-    fn test_chi_squared_small() {
-        let chi = ChiSquared::new(0.5);
-        let mut rng = crate::test::rng(202);
-        for _ in 0..N {
-            chi.sample(&mut rng);
-        }
-    }
-    #[test]
-    fn test_chi_squared_large() {
-        let chi = ChiSquared::new(30.0);
-        let mut rng = crate::test::rng(203);
-        for _ in 0..N {
-            chi.sample(&mut rng);
-        }
-    }
-    #[test]
-    #[should_panic]
-    fn test_chi_squared_invalid_dof() {
-        ChiSquared::new(-1.0);
-    }
-
-    #[test]
-    fn test_f() {
-        let f = FisherF::new(2.0, 32.0);
-        let mut rng = crate::test::rng(204);
-        for _ in 0..N {
-            f.sample(&mut rng);
-        }
-    }
-
-    #[test]
-    fn test_t() {
-        let t = StudentT::new(11.0);
-        let mut rng = crate::test::rng(205);
-        for _ in 0..N {
-            t.sample(&mut rng);
-        }
-    }
-
-    #[test]
-    fn test_beta() {
-        let beta = Beta::new(1.0, 2.0);
-        let mut rng = crate::test::rng(201);
-        for _ in 0..N {
-            beta.sample(&mut rng);
-        }
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_beta_invalid_dof() {
-        Beta::new(0., 0.);
-    }
-}
-
-
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The implementations of the `Standard` distribution for integer types.
-
-use crate::{Rng};
-use crate::distributions::{Distribution, Standard};
-use core::num::{NonZeroU8, NonZeroU16, NonZeroU32, NonZeroU64, NonZeroUsize};
-#[cfg(not(target_os = "emscripten"))] use core::num::NonZeroU128;
-#[cfg(feature="simd_support")]
-use packed_simd::*;
-#[cfg(all(target_arch = "x86", feature="nightly"))]
-use core::arch::x86::*;
-#[cfg(all(target_arch = "x86_64", feature="nightly"))]
-use core::arch::x86_64::*;
-
-impl Distribution<u8> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u8 {
-        rng.next_u32() as u8
-    }
-}
-
-impl Distribution<u16> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u16 {
-        rng.next_u32() as u16
-    }
-}
-
-impl Distribution<u32> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u32 {
-        rng.next_u32()
-    }
-}
-
-impl Distribution<u64> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u64 {
-        rng.next_u64()
-    }
-}
-
-#[cfg(not(target_os = "emscripten"))]
-impl Distribution<u128> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u128 {
-        // Use LE; we explicitly generate one value before the next.
-        let x = rng.next_u64() as u128;
-        let y = rng.next_u64() as u128;
-        (y << 64) | x
-    }
-}
-
-impl Distribution<usize> for Standard {
-    #[inline]
-    #[cfg(any(target_pointer_width = "32", target_pointer_width = "16"))]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> usize {
-        rng.next_u32() as usize
-    }
-
-    #[inline]
-    #[cfg(target_pointer_width = "64")]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> usize {
-        rng.next_u64() as usize
-    }
-}
-
-macro_rules! impl_int_from_uint {
-    ($ty:ty, $uty:ty) => {
-        impl Distribution<$ty> for Standard {
-            #[inline]
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
-                rng.gen::<$uty>() as $ty
-            }
-        }
-    }
-}
-
-impl_int_from_uint! { i8, u8 }
-impl_int_from_uint! { i16, u16 }
-impl_int_from_uint! { i32, u32 }
-impl_int_from_uint! { i64, u64 }
-#[cfg(not(target_os = "emscripten"))] impl_int_from_uint! { i128, u128 }
-impl_int_from_uint! { isize, usize }
-
-macro_rules! impl_nzint {
-    ($ty:ty, $new:path) => {
-        impl Distribution<$ty> for Standard {
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
-                loop {
-                    if let Some(nz) = $new(rng.gen()) {
-                        break nz;
-                    }
-                }
-            }
-        }
-    }
-}
-
-impl_nzint!(NonZeroU8, NonZeroU8::new);
-impl_nzint!(NonZeroU16, NonZeroU16::new);
-impl_nzint!(NonZeroU32, NonZeroU32::new);
-impl_nzint!(NonZeroU64, NonZeroU64::new);
-#[cfg(not(target_os = "emscripten"))] impl_nzint!(NonZeroU128, NonZeroU128::new);
-impl_nzint!(NonZeroUsize, NonZeroUsize::new);
-
-#[cfg(feature="simd_support")]
-macro_rules! simd_impl {
-    ($(($intrinsic:ident, $vec:ty),)+) => {$(
-        impl Distribution<$intrinsic> for Standard {
-            #[inline]
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $intrinsic {
-                $intrinsic::from_bits(rng.gen::<$vec>())
-            }
-        }
-    )+};
-
-    ($bits:expr,) => {};
-    ($bits:expr, $ty:ty, $($ty_more:ty,)*) => {
-        simd_impl!($bits, $($ty_more,)*);
-
-        impl Distribution<$ty> for Standard {
-            #[inline]
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
-                let mut vec: $ty = Default::default();
-                unsafe {
-                    let ptr = &mut vec;
-                    let b_ptr = &mut *(ptr as *mut $ty as *mut [u8; $bits/8]);
-                    rng.fill_bytes(b_ptr);
-                }
-                vec.to_le()
-            }
-        }
-    };
-}
-
-#[cfg(feature="simd_support")]
-simd_impl!(16, u8x2, i8x2,);
-#[cfg(feature="simd_support")]
-simd_impl!(32, u8x4, i8x4, u16x2, i16x2,);
-#[cfg(feature="simd_support")]
-simd_impl!(64, u8x8, i8x8, u16x4, i16x4, u32x2, i32x2,);
-#[cfg(feature="simd_support")]
-simd_impl!(128, u8x16, i8x16, u16x8, i16x8, u32x4, i32x4, u64x2, i64x2,);
-#[cfg(feature="simd_support")]
-simd_impl!(256, u8x32, i8x32, u16x16, i16x16, u32x8, i32x8, u64x4, i64x4,);
-#[cfg(feature="simd_support")]
-simd_impl!(512, u8x64, i8x64, u16x32, i16x32, u32x16, i32x16, u64x8, i64x8,);
-#[cfg(all(feature="simd_support", feature="nightly", any(target_arch="x86", target_arch="x86_64")))]
-simd_impl!((__m64, u8x8), (__m128i, u8x16), (__m256i, u8x32),);
-
-#[cfg(test)]
-mod tests {
-    use crate::Rng;
-    use crate::distributions::{Standard};
-    
-    #[test]
-    fn test_integers() {
-        let mut rng = crate::test::rng(806);
-        
-        rng.sample::<isize, _>(Standard);
-        rng.sample::<i8, _>(Standard);
-        rng.sample::<i16, _>(Standard);
-        rng.sample::<i32, _>(Standard);
-        rng.sample::<i64, _>(Standard);
-        #[cfg(not(target_os = "emscripten"))]
-        rng.sample::<i128, _>(Standard);
-        
-        rng.sample::<usize, _>(Standard);
-        rng.sample::<u8, _>(Standard);
-        rng.sample::<u16, _>(Standard);
-        rng.sample::<u32, _>(Standard);
-        rng.sample::<u64, _>(Standard);
-        #[cfg(not(target_os = "emscripten"))]
-        rng.sample::<u128, _>(Standard);
-    }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013-2017 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Generating random samples from probability distributions
-//!
-//! This module is the home of the [`Distribution`] trait and several of its
-//! implementations. It is the workhorse behind some of the convenient
-//! functionality of the [`Rng`] trait, e.g. [`Rng::gen`], [`Rng::gen_range`] and
-//! of course [`Rng::sample`].
-//!
-//! Abstractly, a [probability distribution] describes the probability of
-//! occurance of each value in its sample space.
-//!
-//! More concretely, an implementation of `Distribution<T>` for type `X` is an
-//! algorithm for choosing values from the sample space (a subset of `T`)
-//! according to the distribution `X` represents, using an external source of
-//! randomness (an RNG supplied to the `sample` function).
-//!
-//! A type `X` may implement `Distribution<T>` for multiple types `T`.
-//! Any type implementing [`Distribution`] is stateless (i.e. immutable),
-//! but it may have internal parameters set at construction time (for example,
-//! [`Uniform`] allows specification of its sample space as a range within `T`).
-//!
-//!
-//! # The `Standard` distribution
-//!
-//! The [`Standard`] distribution is important to mention. This is the
-//! distribution used by [`Rng::gen()`] and represents the "default" way to
-//! produce a random value for many different types, including most primitive
-//! types, tuples, arrays, and a few derived types. See the documentation of
-//! [`Standard`] for more details.
-//!
-//! Implementing `Distribution<T>` for [`Standard`] for user types `T` makes it
-//! possible to generate type `T` with [`Rng::gen()`], and by extension also
-//! with the [`random()`] function.
-//!
-//! ## Random characters
-//! 
-//! [`Alphanumeric`] is a simple distribution to sample random letters and
-//! numbers of the `char` type; in contrast [`Standard`] may sample any valid
-//! `char`.
-//!
-//!
-//! # Uniform numeric ranges
-//!
-//! The [`Uniform`] distribution is more flexible than [`Standard`], but also
-//! more specialised: it supports fewer target types, but allows the sample
-//! space to be specified as an arbitrary range within its target type `T`.
-//! Both [`Standard`] and [`Uniform`] are in some sense uniform distributions.
-//!
-//! Values may be sampled from this distribution using [`Rng::gen_range`] or
-//! by creating a distribution object with [`Uniform::new`],
-//! [`Uniform::new_inclusive`] or `From<Range>`. When the range limits are not
-//! known at compile time it is typically faster to reuse an existing
-//! distribution object than to call [`Rng::gen_range`].
-//!
-//! User types `T` may also implement `Distribution<T>` for [`Uniform`],
-//! although this is less straightforward than for [`Standard`] (see the
-//! documentation in the [`uniform`] module. Doing so enables generation of
-//! values of type `T` with  [`Rng::gen_range`].
-//!
-//! ## Open and half-open ranges
-//!
-//! There are surprisingly many ways to uniformly generate random floats. A
-//! range between 0 and 1 is standard, but the exact bounds (open vs closed)
-//! and accuracy differ. In addition to the [`Standard`] distribution Rand offers
-//! [`Open01`] and [`OpenClosed01`]. See "Floating point implementation" section of
-//! [`Standard`] documentation for more details.
-//!
-//! # Non-uniform sampling
-//!
-//! Sampling a simple true/false outcome with a given probability has a name:
-//! the [`Bernoulli`] distribution (this is used by [`Rng::gen_bool`]).
-//!
-//! For weighted sampling from a sequence of discrete values, use the
-//! [`weighted`] module.
-//!
-//! This crate no longer includes other non-uniform distributions; instead
-//! it is recommended that you use either [`rand_distr`] or [`statrs`].
-//!
-//!
-//! [probability distribution]: https://en.wikipedia.org/wiki/Probability_distribution
-//! [`rand_distr`]: https://crates.io/crates/rand_distr
-//! [`statrs`]: https://crates.io/crates/statrs
-
-//! [`Alphanumeric`]: distributions::Alphanumeric
-//! [`Bernoulli`]: distributions::Bernoulli
-//! [`Open01`]: distributions::Open01
-//! [`OpenClosed01`]: distributions::OpenClosed01
-//! [`Standard`]: distributions::Standard
-//! [`Uniform`]: distributions::Uniform
-//! [`Uniform::new`]: distributions::Uniform::new
-//! [`Uniform::new_inclusive`]: distributions::Uniform::new_inclusive
-//! [`weighted`]: distributions::weighted
-//! [`rand_distr`]: https://crates.io/crates/rand_distr
-//! [`statrs`]: https://crates.io/crates/statrs
-
-use core::iter;
-use crate::Rng;
-
-pub use self::other::Alphanumeric;
-#[doc(inline)] pub use self::uniform::Uniform;
-pub use self::float::{OpenClosed01, Open01};
-pub use self::bernoulli::{Bernoulli, BernoulliError};
-#[cfg(feature="alloc")] pub use self::weighted::{WeightedIndex, WeightedError};
-
-// The following are all deprecated after being moved to rand_distr
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::unit_sphere::UnitSphereSurface;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::unit_circle::UnitCircle;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::gamma::{Gamma, ChiSquared, FisherF,
-    StudentT, Beta};
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::normal::{Normal, LogNormal, StandardNormal};
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::exponential::{Exp, Exp1};
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::pareto::Pareto;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::poisson::Poisson;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::binomial::Binomial;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::cauchy::Cauchy;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::dirichlet::Dirichlet;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::triangular::Triangular;
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::weibull::Weibull;
-
-pub mod uniform;
-mod bernoulli;
-#[cfg(feature="alloc")] pub mod weighted;
-#[cfg(feature="std")] mod unit_sphere;
-#[cfg(feature="std")] mod unit_circle;
-#[cfg(feature="std")] mod gamma;
-#[cfg(feature="std")] mod normal;
-#[cfg(feature="std")] mod exponential;
-#[cfg(feature="std")] mod pareto;
-#[cfg(feature="std")] mod poisson;
-#[cfg(feature="std")] mod binomial;
-#[cfg(feature="std")] mod cauchy;
-#[cfg(feature="std")] mod dirichlet;
-#[cfg(feature="std")] mod triangular;
-#[cfg(feature="std")] mod weibull;
-
-mod float;
-#[doc(hidden)] pub mod hidden_export {
-    pub use super::float::IntoFloat;   // used by rand_distr
-}
-mod integer;
-mod other;
-mod utils;
-#[cfg(feature="std")] mod ziggurat_tables;
-
-/// Types (distributions) that can be used to create a random instance of `T`.
-///
-/// It is possible to sample from a distribution through both the
-/// `Distribution` and [`Rng`] traits, via `distr.sample(&mut rng)` and
-/// `rng.sample(distr)`. They also both offer the [`sample_iter`] method, which
-/// produces an iterator that samples from the distribution.
-///
-/// All implementations are expected to be immutable; this has the significant
-/// advantage of not needing to consider thread safety, and for most
-/// distributions efficient state-less sampling algorithms are available.
-///
-/// [`sample_iter`]: Distribution::method.sample_iter
-pub trait Distribution<T> {
-    /// Generate a random value of `T`, using `rng` as the source of randomness.
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> T;
-
-    /// Create an iterator that generates random values of `T`, using `rng` as
-    /// the source of randomness.
-    ///
-    /// Note that this function takes `self` by value. This works since
-    /// `Distribution<T>` is impl'd for `&D` where `D: Distribution<T>`,
-    /// however borrowing is not automatic hence `distr.sample_iter(...)` may
-    /// need to be replaced with `(&distr).sample_iter(...)` to borrow or
-    /// `(&*distr).sample_iter(...)` to reborrow an existing reference.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::thread_rng;
-    /// use rand::distributions::{Distribution, Alphanumeric, Uniform, Standard};
-    ///
-    /// let rng = thread_rng();
-    ///
-    /// // Vec of 16 x f32:
-    /// let v: Vec<f32> = Standard.sample_iter(rng).take(16).collect();
-    ///
-    /// // String:
-    /// let s: String = Alphanumeric.sample_iter(rng).take(7).collect();
-    ///
-    /// // Dice-rolling:
-    /// let die_range = Uniform::new_inclusive(1, 6);
-    /// let mut roll_die = die_range.sample_iter(rng);
-    /// while roll_die.next().unwrap() != 6 {
-    ///     println!("Not a 6; rolling again!");
-    /// }
-    /// ```
-    fn sample_iter<R>(self, rng: R) -> DistIter<Self, R, T>
-    where R: Rng, Self: Sized
-    {
-        DistIter {
-            distr: self,
-            rng: rng,
-            phantom: ::core::marker::PhantomData,
-        }
-    }
-}
-
-impl<'a, T, D: Distribution<T>> Distribution<T> for &'a D {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> T {
-        (*self).sample(rng)
-    }
-}
-
-
-/// An iterator that generates random values of `T` with distribution `D`,
-/// using `R` as the source of randomness.
-///
-/// This `struct` is created by the [`sample_iter`] method on [`Distribution`].
-/// See its documentation for more.
-///
-/// [`sample_iter`]: Distribution::sample_iter
-#[derive(Debug)]
-pub struct DistIter<D, R, T> {
-    distr: D,
-    rng: R,
-    phantom: ::core::marker::PhantomData<T>,
-}
-
-impl<D, R, T> Iterator for DistIter<D, R, T>
-    where D: Distribution<T>, R: Rng
-{
-    type Item = T;
-
-    #[inline(always)]
-    fn next(&mut self) -> Option<T> {
-        // Here, self.rng may be a reference, but we must take &mut anyway.
-        // Even if sample could take an R: Rng by value, we would need to do this
-        // since Rng is not copyable and we cannot enforce that this is "reborrowable".
-        Some(self.distr.sample(&mut self.rng))
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (usize::max_value(), None)
-    }
-}
-
-impl<D, R, T> iter::FusedIterator for DistIter<D, R, T>
-    where D: Distribution<T>, R: Rng {}
-
-#[cfg(features = "nightly")]
-impl<D, R, T> iter::TrustedLen for DistIter<D, R, T>
-    where D: Distribution<T>, R: Rng {}
-
-
-/// A generic random value distribution, implemented for many primitive types.
-/// Usually generates values with a numerically uniform distribution, and with a
-/// range appropriate to the type.
-///
-/// ## Provided implementations
-///
-/// Assuming the provided `Rng` is well-behaved, these implementations
-/// generate values with the following ranges and distributions:
-///
-/// * Integers (`i32`, `u32`, `isize`, `usize`, etc.): Uniformly distributed
-///   over all values of the type.
-/// * `char`: Uniformly distributed over all Unicode scalar values, i.e. all
-///   code points in the range `0...0x10_FFFF`, except for the range
-///   `0xD800...0xDFFF` (the surrogate code points). This includes
-///   unassigned/reserved code points.
-/// * `bool`: Generates `false` or `true`, each with probability 0.5.
-/// * Floating point types (`f32` and `f64`): Uniformly distributed in the
-///   half-open range `[0, 1)`. See notes below.
-/// * Wrapping integers (`Wrapping<T>`), besides the type identical to their
-///   normal integer variants.
-///
-/// The `Standard` distribution also supports generation of the following
-/// compound types where all component types are supported:
-///
-/// *   Tuples (up to 12 elements): each element is generated sequentially.
-/// *   Arrays (up to 32 elements): each element is generated sequentially;
-///     see also [`Rng::fill`] which supports arbitrary array length for integer
-///     types and tends to be faster for `u32` and smaller types.
-/// *   `Option<T>` first generates a `bool`, and if true generates and returns
-///     `Some(value)` where `value: T`, otherwise returning `None`.
-///
-/// ## Custom implementations
-///
-/// The [`Standard`] distribution may be implemented for user types as follows:
-///
-/// ```
-/// # #![allow(dead_code)]
-/// use rand::Rng;
-/// use rand::distributions::{Distribution, Standard};
-///
-/// struct MyF32 {
-///     x: f32,
-/// }
-///
-/// impl Distribution<MyF32> for Standard {
-///     fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> MyF32 {
-///         MyF32 { x: rng.gen() }
-///     }
-/// }
-/// ```
-///
-/// ## Example usage
-/// ```
-/// use rand::prelude::*;
-/// use rand::distributions::Standard;
-///
-/// let val: f32 = StdRng::from_entropy().sample(Standard);
-/// println!("f32 from [0, 1): {}", val);
-/// ```
-///
-/// # Floating point implementation
-/// The floating point implementations for `Standard` generate a random value in
-/// the half-open interval `[0, 1)`, i.e. including 0 but not 1.
-///
-/// All values that can be generated are of the form `n * ε/2`. For `f32`
-/// the 23 most significant random bits of a `u32` are used and for `f64` the
-/// 53 most significant bits of a `u64` are used. The conversion uses the
-/// multiplicative method: `(rng.gen::<$uty>() >> N) as $ty * (ε/2)`.
-///
-/// See also: [`Open01`] which samples from `(0, 1)`, [`OpenClosed01`] which
-/// samples from `(0, 1]` and `Rng::gen_range(0, 1)` which also samples from
-/// `[0, 1)`. Note that `Open01` and `gen_range` (which uses [`Uniform`]) use
-/// transmute-based methods which yield 1 bit less precision but may perform
-/// faster on some architectures (on modern Intel CPUs all methods have
-/// approximately equal performance).
-///
-/// [`Uniform`]: uniform::Uniform
-#[derive(Clone, Copy, Debug)]
-pub struct Standard;
-
-
-#[cfg(all(test, feature = "std"))]
-mod tests {
-    use crate::Rng;
-    use super::{Distribution, Uniform};
-
-    #[test]
-    fn test_distributions_iter() {
-        use crate::distributions::Open01;
-        let mut rng = crate::test::rng(210);
-        let distr = Open01;
-        let results: Vec<f32> = distr.sample_iter(&mut rng).take(100).collect();
-        println!("{:?}", results);
-    }
-    
-    #[test]
-    fn test_make_an_iter() {
-        fn ten_dice_rolls_other_than_five<'a, R: Rng>(rng: &'a mut R) -> impl Iterator<Item = i32> + 'a {
-            Uniform::new_inclusive(1, 6)
-                .sample_iter(rng)
-                .filter(|x| *x != 5)
-                .take(10)
-        }
-        
-        let mut rng = crate::test::rng(211);
-        let mut count = 0;
-        for val in ten_dice_rolls_other_than_five(&mut rng) {
-            assert!(val >= 1 && val <= 6 && val != 5);
-            count += 1;
-        }
-        assert_eq!(count, 10);
-    }
-}
-
-
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-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The normal and derived distributions.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{ziggurat_tables, Distribution, Open01};
-use crate::distributions::utils::ziggurat;
-
-/// Samples floating-point numbers according to the normal distribution
-/// `N(0, 1)` (a.k.a. a standard normal, or Gaussian). This is equivalent to
-/// `Normal::new(0.0, 1.0)` but faster.
-///
-/// See `Normal` for the general normal distribution.
-///
-/// Implemented via the ZIGNOR variant[^1] of the Ziggurat method.
-///
-/// [^1]: Jurgen A. Doornik (2005). [*An Improved Ziggurat Method to
-///       Generate Normal Random Samples*](
-///       https://www.doornik.com/research/ziggurat.pdf).
-///       Nuffield College, Oxford
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct StandardNormal;
-
-impl Distribution<f64> for StandardNormal {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        #[inline]
-        fn pdf(x: f64) -> f64 {
-            (-x*x/2.0).exp()
-        }
-        #[inline]
-        fn zero_case<R: Rng + ?Sized>(rng: &mut R, u: f64) -> f64 {
-            // compute a random number in the tail by hand
-
-            // strange initial conditions, because the loop is not
-            // do-while, so the condition should be true on the first
-            // run, they get overwritten anyway (0 < 1, so these are
-            // good).
-            let mut x = 1.0f64;
-            let mut y = 0.0f64;
-
-            while -2.0 * y < x * x {
-                let x_: f64 = rng.sample(Open01);
-                let y_: f64 = rng.sample(Open01);
-
-                x = x_.ln() / ziggurat_tables::ZIG_NORM_R;
-                y = y_.ln();
-            }
-
-            if u < 0.0 { x - ziggurat_tables::ZIG_NORM_R } else { ziggurat_tables::ZIG_NORM_R - x }
-        }
-
-        ziggurat(rng, true, // this is symmetric
-                 &ziggurat_tables::ZIG_NORM_X,
-                 &ziggurat_tables::ZIG_NORM_F,
-                 pdf, zero_case)
-    }
-}
-
-/// The normal distribution `N(mean, std_dev**2)`.
-///
-/// This uses the ZIGNOR variant of the Ziggurat method, see [`StandardNormal`]
-/// for more details.
-/// 
-/// Note that [`StandardNormal`] is an optimised implementation for mean 0, and
-/// standard deviation 1.
-///
-/// [`StandardNormal`]: crate::distributions::StandardNormal
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Normal {
-    mean: f64,
-    std_dev: f64,
-}
-
-impl Normal {
-    /// Construct a new `Normal` distribution with the given mean and
-    /// standard deviation.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `std_dev < 0`.
-    #[inline]
-    pub fn new(mean: f64, std_dev: f64) -> Normal {
-        assert!(std_dev >= 0.0, "Normal::new called with `std_dev` < 0");
-        Normal {
-            mean,
-            std_dev
-        }
-    }
-}
-impl Distribution<f64> for Normal {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let n = rng.sample(StandardNormal);
-        self.mean + self.std_dev * n
-    }
-}
-
-
-/// The log-normal distribution `ln N(mean, std_dev**2)`.
-///
-/// If `X` is log-normal distributed, then `ln(X)` is `N(mean, std_dev**2)`
-/// distributed.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct LogNormal {
-    norm: Normal
-}
-
-impl LogNormal {
-    /// Construct a new `LogNormal` distribution with the given mean
-    /// and standard deviation.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `std_dev < 0`.
-    #[inline]
-    pub fn new(mean: f64, std_dev: f64) -> LogNormal {
-        assert!(std_dev >= 0.0, "LogNormal::new called with `std_dev` < 0");
-        LogNormal { norm: Normal::new(mean, std_dev) }
-    }
-}
-impl Distribution<f64> for LogNormal {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        self.norm.sample(rng).exp()
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use crate::distributions::Distribution;
-    use super::{Normal, LogNormal};
-
-    #[test]
-    fn test_normal() {
-        let norm = Normal::new(10.0, 10.0);
-        let mut rng = crate::test::rng(210);
-        for _ in 0..1000 {
-            norm.sample(&mut rng);
-        }
-    }
-    #[test]
-    #[should_panic]
-    fn test_normal_invalid_sd() {
-        Normal::new(10.0, -1.0);
-    }
-
-
-    #[test]
-    fn test_log_normal() {
-        let lnorm = LogNormal::new(10.0, 10.0);
-        let mut rng = crate::test::rng(211);
-        for _ in 0..1000 {
-            lnorm.sample(&mut rng);
-        }
-    }
-    #[test]
-    #[should_panic]
-    fn test_log_normal_invalid_sd() {
-        LogNormal::new(10.0, -1.0);
-    }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The implementations of the `Standard` distribution for other built-in types.
-
-use core::char;
-use core::num::Wrapping;
-
-use crate::{Rng};
-use crate::distributions::{Distribution, Standard, Uniform};
-
-// ----- Sampling distributions -----
-
-/// Sample a `char`, uniformly distributed over ASCII letters and numbers:
-/// a-z, A-Z and 0-9.
-/// 
-/// # Example
-///
-/// ```
-/// use std::iter;
-/// use rand::{Rng, thread_rng};
-/// use rand::distributions::Alphanumeric;
-/// 
-/// let mut rng = thread_rng();
-/// let chars: String = iter::repeat(())
-///         .map(|()| rng.sample(Alphanumeric))
-///         .take(7)
-///         .collect();
-/// println!("Random chars: {}", chars);
-/// ```
-#[derive(Debug)]
-pub struct Alphanumeric;
-
-
-// ----- Implementations of distributions -----
-
-impl Distribution<char> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> char {
-        // A valid `char` is either in the interval `[0, 0xD800)` or
-        // `(0xDFFF, 0x11_0000)`. All `char`s must therefore be in
-        // `[0, 0x11_0000)` but not in the "gap" `[0xD800, 0xDFFF]` which is
-        // reserved for surrogates. This is the size of that gap.
-        const GAP_SIZE: u32 = 0xDFFF - 0xD800 + 1;
-
-        // Uniform::new(0, 0x11_0000 - GAP_SIZE) can also be used but it
-        // seemed slower.
-        let range = Uniform::new(GAP_SIZE, 0x11_0000);
-
-        let mut n = range.sample(rng);
-        if n <= 0xDFFF {
-            n -= GAP_SIZE;
-        }
-        unsafe { char::from_u32_unchecked(n) }
-    }
-}
-
-impl Distribution<char> for Alphanumeric {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> char {
-        const RANGE: u32 = 26 + 26 + 10;
-        const GEN_ASCII_STR_CHARSET: &[u8] =
-            b"ABCDEFGHIJKLMNOPQRSTUVWXYZ\
-                abcdefghijklmnopqrstuvwxyz\
-                0123456789";
-        // We can pick from 62 characters. This is so close to a power of 2, 64,
-        // that we can do better than `Uniform`. Use a simple bitshift and
-        // rejection sampling. We do not use a bitmask, because for small RNGs
-        // the most significant bits are usually of higher quality.
-        loop {
-            let var = rng.next_u32() >> (32 - 6);
-            if var < RANGE {
-                return GEN_ASCII_STR_CHARSET[var as usize] as char
-            }
-        }
-    }
-}
-
-impl Distribution<bool> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> bool {
-        // We can compare against an arbitrary bit of an u32 to get a bool.
-        // Because the least significant bits of a lower quality RNG can have
-        // simple patterns, we compare against the most significant bit. This is
-        // easiest done using a sign test.
-        (rng.next_u32() as i32) < 0
-    }
-}
-
-macro_rules! tuple_impl {
-    // use variables to indicate the arity of the tuple
-    ($($tyvar:ident),* ) => {
-        // the trailing commas are for the 1 tuple
-        impl< $( $tyvar ),* >
-            Distribution<( $( $tyvar ),* , )>
-            for Standard
-            where $( Standard: Distribution<$tyvar> ),*
-        {
-            #[inline]
-            fn sample<R: Rng + ?Sized>(&self, _rng: &mut R) -> ( $( $tyvar ),* , ) {
-                (
-                    // use the $tyvar's to get the appropriate number of
-                    // repeats (they're not actually needed)
-                    $(
-                        _rng.gen::<$tyvar>()
-                    ),*
-                    ,
-                )
-            }
-        }
-    }
-}
-
-impl Distribution<()> for Standard {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, _: &mut R) -> () { () }
-}
-tuple_impl!{A}
-tuple_impl!{A, B}
-tuple_impl!{A, B, C}
-tuple_impl!{A, B, C, D}
-tuple_impl!{A, B, C, D, E}
-tuple_impl!{A, B, C, D, E, F}
-tuple_impl!{A, B, C, D, E, F, G}
-tuple_impl!{A, B, C, D, E, F, G, H}
-tuple_impl!{A, B, C, D, E, F, G, H, I}
-tuple_impl!{A, B, C, D, E, F, G, H, I, J}
-tuple_impl!{A, B, C, D, E, F, G, H, I, J, K}
-tuple_impl!{A, B, C, D, E, F, G, H, I, J, K, L}
-
-macro_rules! array_impl {
-    // recursive, given at least one type parameter:
-    {$n:expr, $t:ident, $($ts:ident,)*} => {
-        array_impl!{($n - 1), $($ts,)*}
-
-        impl<T> Distribution<[T; $n]> for Standard where Standard: Distribution<T> {
-            #[inline]
-            fn sample<R: Rng + ?Sized>(&self, _rng: &mut R) -> [T; $n] {
-                [_rng.gen::<$t>(), $(_rng.gen::<$ts>()),*]
-            }
-        }
-    };
-    // empty case:
-    {$n:expr,} => {
-        impl<T> Distribution<[T; $n]> for Standard {
-            fn sample<R: Rng + ?Sized>(&self, _rng: &mut R) -> [T; $n] { [] }
-        }
-    };
-}
-
-array_impl!{32, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T, T,}
-
-impl<T> Distribution<Option<T>> for Standard where Standard: Distribution<T> {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Option<T> {
-        // UFCS is needed here: https://github.com/rust-lang/rust/issues/24066
-        if rng.gen::<bool>() {
-            Some(rng.gen())
-        } else {
-            None
-        }
-    }
-}
-
-impl<T> Distribution<Wrapping<T>> for Standard where Standard: Distribution<T> {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Wrapping<T> {
-        Wrapping(rng.gen())
-    }
-}
-
-
-#[cfg(test)]
-mod tests {
-    use crate::{Rng, RngCore, Standard};
-    use crate::distributions::Alphanumeric;
-    #[cfg(all(not(feature="std"), feature="alloc"))] use alloc::string::String;
-
-    #[test]
-    fn test_misc() {
-        let rng: &mut dyn RngCore = &mut crate::test::rng(820);
-        
-        rng.sample::<char, _>(Standard);
-        rng.sample::<bool, _>(Standard);
-    }
-    
-    #[cfg(feature="alloc")]
-    #[test]
-    fn test_chars() {
-        use core::iter;
-        let mut rng = crate::test::rng(805);
-
-        // Test by generating a relatively large number of chars, so we also
-        // take the rejection sampling path.
-        let word: String = iter::repeat(())
-                .map(|()| rng.gen::<char>()).take(1000).collect();
-        assert!(word.len() != 0);
-    }
-
-    #[test]
-    fn test_alphanumeric() {
-        let mut rng = crate::test::rng(806);
-
-        // Test by generating a relatively large number of chars, so we also
-        // take the rejection sampling path.
-        let mut incorrect = false;
-        for _ in 0..100 {
-            let c = rng.sample(Alphanumeric);
-            incorrect |= !((c >= '0' && c <= '9') ||
-                           (c >= 'A' && c <= 'Z') ||
-                           (c >= 'a' && c <= 'z') );
-        }
-        assert!(incorrect == false);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/pareto.rs.html b/target/doc/src/rand/distributions/pareto.rs.html deleted file mode 100644 index dba682b..0000000 --- a/target/doc/src/rand/distributions/pareto.rs.html +++ /dev/null @@ -1,137 +0,0 @@ -pareto.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The Pareto distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, OpenClosed01};
-
-/// Samples floating-point numbers according to the Pareto distribution
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Pareto {
-    scale: f64,
-    inv_neg_shape: f64,
-}
-
-impl Pareto {
-    /// Construct a new Pareto distribution with given `scale` and `shape`.
-    ///
-    /// In the literature, `scale` is commonly written as x<sub>m</sub> or k and
-    /// `shape` is often written as α.
-    ///
-    /// # Panics
-    ///
-    /// `scale` and `shape` have to be non-zero and positive.
-    pub fn new(scale: f64, shape: f64) -> Pareto {
-        assert!((scale > 0.) & (shape > 0.));
-        Pareto { scale, inv_neg_shape: -1.0 / shape }
-    }
-}
-
-impl Distribution<f64> for Pareto {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let u: f64 = rng.sample(OpenClosed01);
-        self.scale * u.powf(self.inv_neg_shape)
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use crate::distributions::Distribution;
-    use super::Pareto;
-
-    #[test]
-    #[should_panic]
-    fn invalid() {
-        Pareto::new(0., 0.);
-    }
-
-    #[test]
-    fn sample() {
-        let scale = 1.0;
-        let shape = 2.0;
-        let d = Pareto::new(scale, shape);
-        let mut rng = crate::test::rng(1);
-        for _ in 0..1000 {
-            let r = d.sample(&mut rng);
-            assert!(r >= scale);
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/poisson.rs.html b/target/doc/src/rand/distributions/poisson.rs.html deleted file mode 100644 index fba4ebf..0000000 --- a/target/doc/src/rand/distributions/poisson.rs.html +++ /dev/null @@ -1,305 +0,0 @@ -poisson.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-// Copyright 2016-2017 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The Poisson distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, Cauchy};
-use crate::distributions::utils::log_gamma;
-
-/// The Poisson distribution `Poisson(lambda)`.
-///
-/// This distribution has a density function:
-/// `f(k) = lambda^k * exp(-lambda) / k!` for `k >= 0`.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Poisson {
-    lambda: f64,
-    // precalculated values
-    exp_lambda: f64,
-    log_lambda: f64,
-    sqrt_2lambda: f64,
-    magic_val: f64,
-}
-
-impl Poisson {
-    /// Construct a new `Poisson` with the given shape parameter
-    /// `lambda`. Panics if `lambda <= 0`.
-    pub fn new(lambda: f64) -> Poisson {
-        assert!(lambda > 0.0, "Poisson::new called with lambda <= 0");
-        let log_lambda = lambda.ln();
-        Poisson {
-            lambda,
-            exp_lambda: (-lambda).exp(),
-            log_lambda,
-            sqrt_2lambda: (2.0 * lambda).sqrt(),
-            magic_val: lambda * log_lambda - log_gamma(1.0 + lambda),
-        }
-    }
-}
-
-impl Distribution<u64> for Poisson {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> u64 {
-        // using the algorithm from Numerical Recipes in C
-
-        // for low expected values use the Knuth method
-        if self.lambda < 12.0 {
-            let mut result = 0;
-            let mut p = 1.0;
-            while p > self.exp_lambda {
-                p *= rng.gen::<f64>();
-                result += 1;
-            }
-            result - 1
-        }
-        // high expected values - rejection method
-        else {
-            let mut int_result: u64;
-
-            // we use the Cauchy distribution as the comparison distribution
-            // f(x) ~ 1/(1+x^2)
-            let cauchy = Cauchy::new(0.0, 1.0);
-
-            loop {
-                let mut result;
-                let mut comp_dev;
-
-                loop {
-                    // draw from the Cauchy distribution
-                    comp_dev = rng.sample(cauchy);
-                    // shift the peak of the comparison ditribution
-                    result = self.sqrt_2lambda * comp_dev + self.lambda;
-                    // repeat the drawing until we are in the range of possible values
-                    if result >= 0.0 {
-                        break;
-                    }
-                }
-                // now the result is a random variable greater than 0 with Cauchy distribution
-                // the result should be an integer value
-                result = result.floor();
-                int_result = result as u64;
-
-                // this is the ratio of the Poisson distribution to the comparison distribution
-                // the magic value scales the distribution function to a range of approximately 0-1
-                // since it is not exact, we multiply the ratio by 0.9 to avoid ratios greater than 1
-                // this doesn't change the resulting distribution, only increases the rate of failed drawings
-                let check = 0.9 * (1.0 + comp_dev * comp_dev)
-                    * (result * self.log_lambda - log_gamma(1.0 + result) - self.magic_val).exp();
-
-                // check with uniform random value - if below the threshold, we are within the target distribution
-                if rng.gen::<f64>() <= check {
-                    break;
-                }
-            }
-            int_result
-        }
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::distributions::Distribution;
-    use super::Poisson;
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_poisson_10() {
-        let poisson = Poisson::new(10.0);
-        let mut rng = crate::test::rng(123);
-        let mut sum = 0;
-        for _ in 0..1000 {
-            sum += poisson.sample(&mut rng);
-        }
-        let avg = (sum as f64) / 1000.0;
-        println!("Poisson average: {}", avg);
-        assert!((avg - 10.0).abs() < 0.5); // not 100% certain, but probable enough
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri doesn't support transcendental functions
-    fn test_poisson_15() {
-        // Take the 'high expected values' path
-        let poisson = Poisson::new(15.0);
-        let mut rng = crate::test::rng(123);
-        let mut sum = 0;
-        for _ in 0..1000 {
-            sum += poisson.sample(&mut rng);
-        }
-        let avg = (sum as f64) / 1000.0;
-        println!("Poisson average: {}", avg);
-        assert!((avg - 15.0).abs() < 0.5); // not 100% certain, but probable enough
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_poisson_invalid_lambda_zero() {
-        Poisson::new(0.0);
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_poisson_invalid_lambda_neg() {
-        Poisson::new(-10.0);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/triangular.rs.html b/target/doc/src/rand/distributions/triangular.rs.html deleted file mode 100644 index efebd7f..0000000 --- a/target/doc/src/rand/distributions/triangular.rs.html +++ /dev/null @@ -1,161 +0,0 @@ -triangular.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The triangular distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, Standard};
-
-/// The triangular distribution.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Triangular {
-    min: f64,
-    max: f64,
-    mode: f64,
-}
-
-impl Triangular {
-    /// Construct a new `Triangular` with minimum `min`, maximum `max` and mode
-    /// `mode`.
-    ///
-    /// # Panics
-    ///
-    /// If `max < mode`, `mode < max` or `max == min`.
-    ///
-    #[inline]
-    pub fn new(min: f64, max: f64, mode: f64) -> Triangular {
-        assert!(max >= mode);
-        assert!(mode >= min);
-        assert!(max != min);
-        Triangular { min, max, mode }
-    }
-}
-
-impl Distribution<f64> for Triangular {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let f: f64 = rng.sample(Standard);
-        let diff_mode_min = self.mode - self.min;
-        let diff_max_min = self.max - self.min;
-        if f * diff_max_min < diff_mode_min {
-            self.min + (f * diff_max_min * diff_mode_min).sqrt()
-        } else {
-            self.max - ((1. - f) * diff_max_min * (self.max - self.mode)).sqrt()
-        }
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use crate::distributions::Distribution;
-    use super::Triangular;
-
-    #[test]
-    fn test_new() {
-        for &(min, max, mode) in &[
-            (-1., 1., 0.), (1., 2., 1.), (5., 25., 25.), (1e-5, 1e5, 1e-3),
-            (0., 1., 0.9), (-4., -0.5, -2.), (-13.039, 8.41, 1.17),
-        ] {
-            println!("{} {} {}", min, max, mode);
-            let _ = Triangular::new(min, max, mode);
-        }
-    }
-
-    #[test]
-    fn test_sample() {
-        let norm = Triangular::new(0., 1., 0.5);
-        let mut rng = crate::test::rng(1);
-        for _ in 0..1000 {
-            norm.sample(&mut rng);
-        }
-    }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2017 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! A distribution uniformly sampling numbers within a given range.
-//!
-//! [`Uniform`] is the standard distribution to sample uniformly from a range;
-//! e.g. `Uniform::new_inclusive(1, 6)` can sample integers from 1 to 6, like a
-//! standard die. [`Rng::gen_range`] supports any type supported by
-//! [`Uniform`].
-//!
-//! This distribution is provided with support for several primitive types
-//! (all integer and floating-point types) as well as [`std::time::Duration`],
-//! and supports extension to user-defined types via a type-specific *back-end*
-//! implementation.
-//!
-//! The types [`UniformInt`], [`UniformFloat`] and [`UniformDuration`] are the
-//! back-ends supporting sampling from primitive integer and floating-point
-//! ranges as well as from [`std::time::Duration`]; these types do not normally
-//! need to be used directly (unless implementing a derived back-end).
-//!
-//! # Example usage
-//!
-//! ```
-//! use rand::{Rng, thread_rng};
-//! use rand::distributions::Uniform;
-//!
-//! let mut rng = thread_rng();
-//! let side = Uniform::new(-10.0, 10.0);
-//!
-//! // sample between 1 and 10 points
-//! for _ in 0..rng.gen_range(1, 11) {
-//!     // sample a point from the square with sides -10 - 10 in two dimensions
-//!     let (x, y) = (rng.sample(side), rng.sample(side));
-//!     println!("Point: {}, {}", x, y);
-//! }
-//! ```
-//!
-//! # Extending `Uniform` to support a custom type
-//!
-//! To extend [`Uniform`] to support your own types, write a back-end which
-//! implements the [`UniformSampler`] trait, then implement the [`SampleUniform`]
-//! helper trait to "register" your back-end. See the `MyF32` example below.
-//!
-//! At a minimum, the back-end needs to store any parameters needed for sampling
-//! (e.g. the target range) and implement `new`, `new_inclusive` and `sample`.
-//! Those methods should include an assert to check the range is valid (i.e.
-//! `low < high`). The example below merely wraps another back-end.
-//!
-//! The `new`, `new_inclusive` and `sample_single` functions use arguments of
-//! type SampleBorrow<X> in order to support passing in values by reference or
-//! by value. In the implementation of these functions, you can choose to
-//! simply use the reference returned by [`SampleBorrow::borrow`], or you can choose
-//! to copy or clone the value, whatever is appropriate for your type.
-//!
-//! ```
-//! use rand::prelude::*;
-//! use rand::distributions::uniform::{Uniform, SampleUniform,
-//!         UniformSampler, UniformFloat, SampleBorrow};
-//!
-//! struct MyF32(f32);
-//!
-//! #[derive(Clone, Copy, Debug)]
-//! struct UniformMyF32 {
-//!     inner: UniformFloat<f32>,
-//! }
-//!
-//! impl UniformSampler for UniformMyF32 {
-//!     type X = MyF32;
-//!     fn new<B1, B2>(low: B1, high: B2) -> Self
-//!         where B1: SampleBorrow<Self::X> + Sized,
-//!               B2: SampleBorrow<Self::X> + Sized
-//!     {
-//!         UniformMyF32 {
-//!             inner: UniformFloat::<f32>::new(low.borrow().0, high.borrow().0),
-//!         }
-//!     }
-//!     fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
-//!         where B1: SampleBorrow<Self::X> + Sized,
-//!               B2: SampleBorrow<Self::X> + Sized
-//!     {
-//!         UniformSampler::new(low, high)
-//!     }
-//!     fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
-//!         MyF32(self.inner.sample(rng))
-//!     }
-//! }
-//!
-//! impl SampleUniform for MyF32 {
-//!     type Sampler = UniformMyF32;
-//! }
-//!
-//! let (low, high) = (MyF32(17.0f32), MyF32(22.0f32));
-//! let uniform = Uniform::new(low, high);
-//! let x = uniform.sample(&mut thread_rng());
-//! ```
-//!
-//! [`SampleUniform`]: crate::distributions::uniform::SampleUniform
-//! [`UniformSampler`]: crate::distributions::uniform::UniformSampler
-//! [`UniformInt`]: crate::distributions::uniform::UniformInt
-//! [`UniformFloat`]: crate::distributions::uniform::UniformFloat
-//! [`UniformDuration`]: crate::distributions::uniform::UniformDuration
-//! [`SampleBorrow::borrow`]: crate::distributions::uniform::SampleBorrow::borrow
-
-#[cfg(feature = "std")]
-use std::time::Duration;
-#[cfg(not(feature = "std"))]
-use core::time::Duration;
-
-use crate::Rng;
-use crate::distributions::Distribution;
-use crate::distributions::float::IntoFloat;
-use crate::distributions::utils::{WideningMultiply, FloatSIMDUtils, FloatAsSIMD, BoolAsSIMD};
-
-#[cfg(not(feature = "std"))]
-#[allow(unused_imports)] // rustc doesn't detect that this is actually used
-use crate::distributions::utils::Float;
-
-
-#[cfg(feature="simd_support")]
-use packed_simd::*;
-
-/// Sample values uniformly between two bounds.
-///
-/// [`Uniform::new`] and [`Uniform::new_inclusive`] construct a uniform
-/// distribution sampling from the given range; these functions may do extra
-/// work up front to make sampling of multiple values faster.
-///
-/// When sampling from a constant range, many calculations can happen at
-/// compile-time and all methods should be fast; for floating-point ranges and
-/// the full range of integer types this should have comparable performance to
-/// the `Standard` distribution.
-///
-/// Steps are taken to avoid bias which might be present in naive
-/// implementations; for example `rng.gen::<u8>() % 170` samples from the range
-/// `[0, 169]` but is twice as likely to select numbers less than 85 than other
-/// values. Further, the implementations here give more weight to the high-bits
-/// generated by the RNG than the low bits, since with some RNGs the low-bits
-/// are of lower quality than the high bits.
-///
-/// Implementations must sample in `[low, high)` range for
-/// `Uniform::new(low, high)`, i.e., excluding `high`. In particular care must
-/// be taken to ensure that rounding never results values `< low` or `>= high`.
-///
-/// # Example
-///
-/// ```
-/// use rand::distributions::{Distribution, Uniform};
-///
-/// fn main() {
-///     let between = Uniform::from(10..10000);
-///     let mut rng = rand::thread_rng();
-///     let mut sum = 0;
-///     for _ in 0..1000 {
-///         sum += between.sample(&mut rng);
-///     }
-///     println!("{}", sum);
-/// }
-/// ```
-///
-/// [`new`]: Uniform::new
-/// [`new_inclusive`]: Uniform::new_inclusive
-#[derive(Clone, Copy, Debug)]
-pub struct Uniform<X: SampleUniform> {
-    inner: X::Sampler,
-}
-
-impl<X: SampleUniform> Uniform<X> {
-    /// Create a new `Uniform` instance which samples uniformly from the half
-    /// open range `[low, high)` (excluding `high`). Panics if `low >= high`.
-    pub fn new<B1, B2>(low: B1, high: B2) -> Uniform<X>
-        where B1: SampleBorrow<X> + Sized,
-              B2: SampleBorrow<X> + Sized
-    {
-        Uniform { inner: X::Sampler::new(low, high) }
-    }
-
-    /// Create a new `Uniform` instance which samples uniformly from the closed
-    /// range `[low, high]` (inclusive). Panics if `low > high`.
-    pub fn new_inclusive<B1, B2>(low: B1, high: B2) -> Uniform<X>
-        where B1: SampleBorrow<X> + Sized,
-              B2: SampleBorrow<X> + Sized
-    {
-        Uniform { inner: X::Sampler::new_inclusive(low, high) }
-    }
-}
-
-impl<X: SampleUniform> Distribution<X> for Uniform<X> {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> X {
-        self.inner.sample(rng)
-    }
-}
-
-/// Helper trait for creating objects using the correct implementation of
-/// [`UniformSampler`] for the sampling type.
-///
-/// See the [module documentation] on how to implement [`Uniform`] range
-/// sampling for a custom type.
-///
-/// [module documentation]: crate::distributions::uniform
-pub trait SampleUniform: Sized {
-    /// The `UniformSampler` implementation supporting type `X`.
-    type Sampler: UniformSampler<X = Self>;
-}
-
-/// Helper trait handling actual uniform sampling.
-///
-/// See the [module documentation] on how to implement [`Uniform`] range
-/// sampling for a custom type.
-///
-/// Implementation of [`sample_single`] is optional, and is only useful when
-/// the implementation can be faster than `Self::new(low, high).sample(rng)`.
-///
-/// [module documentation]: crate::distributions::uniform
-/// [`sample_single`]: UniformSampler::sample_single
-pub trait UniformSampler: Sized {
-    /// The type sampled by this implementation.
-    type X;
-
-    /// Construct self, with inclusive lower bound and exclusive upper bound
-    /// `[low, high)`.
-    ///
-    /// Usually users should not call this directly but instead use
-    /// `Uniform::new`, which asserts that `low < high` before calling this.
-    fn new<B1, B2>(low: B1, high: B2) -> Self
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized;
-
-    /// Construct self, with inclusive bounds `[low, high]`.
-    ///
-    /// Usually users should not call this directly but instead use
-    /// `Uniform::new_inclusive`, which asserts that `low <= high` before
-    /// calling this.
-    fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized;
-
-    /// Sample a value.
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X;
-
-    /// Sample a single value uniformly from a range with inclusive lower bound
-    /// and exclusive upper bound `[low, high)`.
-    ///
-    /// By default this is implemented using
-    /// `UniformSampler::new(low, high).sample(rng)`. However, for some types
-    /// more optimal implementations for single usage may be provided via this
-    /// method (which is the case for integers and floats).
-    /// Results may not be identical.
-    fn sample_single<R: Rng + ?Sized, B1, B2>(low: B1, high: B2, rng: &mut R)
-        -> Self::X
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized
-    {
-        let uniform: Self = UniformSampler::new(low, high);
-        uniform.sample(rng)
-    }
-}
-
-impl<X: SampleUniform> From<::core::ops::Range<X>> for Uniform<X> {
-    fn from(r: ::core::ops::Range<X>) -> Uniform<X> {
-        Uniform::new(r.start, r.end)
-    }
-}
-
-impl<X: SampleUniform> From<::core::ops::RangeInclusive<X>> for Uniform<X> {
-    fn from(r: ::core::ops::RangeInclusive<X>) -> Uniform<X> {
-        Uniform::new_inclusive(r.start(), r.end())
-    }
-}
-
-/// Helper trait similar to [`Borrow`] but implemented
-/// only for SampleUniform and references to SampleUniform in
-/// order to resolve ambiguity issues.
-///
-/// [`Borrow`]: std::borrow::Borrow
-pub trait SampleBorrow<Borrowed> {
-    /// Immutably borrows from an owned value. See [`Borrow::borrow`]
-    ///
-    /// [`Borrow::borrow`]: std::borrow::Borrow::borrow
-    fn borrow(&self) -> &Borrowed;
-}
-impl<Borrowed> SampleBorrow<Borrowed> for Borrowed where Borrowed: SampleUniform {
-    #[inline(always)]
-    fn borrow(&self) -> &Borrowed { self }
-}
-impl<'a, Borrowed> SampleBorrow<Borrowed> for &'a Borrowed where Borrowed: SampleUniform {
-    #[inline(always)]
-   fn borrow(&self) -> &Borrowed { *self }
-}
-
-////////////////////////////////////////////////////////////////////////////////
-
-// What follows are all back-ends.
-
-
-/// The back-end implementing [`UniformSampler`] for integer types.
-///
-/// Unless you are implementing [`UniformSampler`] for your own type, this type
-/// should not be used directly, use [`Uniform`] instead.
-///
-/// # Implementation notes
-///
-/// For simplicity, we use the same generic struct `UniformInt<X>` for all
-/// integer types `X`. This gives us only one field type, `X`; to store unsigned
-/// values of this size, we take use the fact that these conversions are no-ops.
-///
-/// For a closed range, the number of possible numbers we should generate is
-/// `range = (high - low + 1)`. To avoid bias, we must ensure that the size of
-/// our sample space, `zone`, is a multiple of `range`; other values must be
-/// rejected (by replacing with a new random sample).
-///
-/// As a special case, we use `range = 0` to represent the full range of the
-/// result type (i.e. for `new_inclusive($ty::MIN, $ty::MAX)`).
-///
-/// The optimum `zone` is the largest product of `range` which fits in our
-/// (unsigned) target type. We calculate this by calculating how many numbers we
-/// must reject: `reject = (MAX + 1) % range = (MAX - range + 1) % range`. Any (large)
-/// product of `range` will suffice, thus in `sample_single` we multiply by a
-/// power of 2 via bit-shifting (faster but may cause more rejections).
-///
-/// The smallest integer PRNGs generate is `u32`. For 8- and 16-bit outputs we
-/// use `u32` for our `zone` and samples (because it's not slower and because
-/// it reduces the chance of having to reject a sample). In this case we cannot
-/// store `zone` in the target type since it is too large, however we know
-/// `ints_to_reject < range <= $unsigned::MAX`.
-///
-/// An alternative to using a modulus is widening multiply: After a widening
-/// multiply by `range`, the result is in the high word. Then comparing the low
-/// word against `zone` makes sure our distribution is uniform.
-#[derive(Clone, Copy, Debug)]
-pub struct UniformInt<X> {
-    low: X,
-    range: X,
-    z: X,   // either ints_to_reject or zone depending on implementation
-}
-
-macro_rules! uniform_int_impl {
-    ($ty:ty, $unsigned:ident, $u_large:ident) => {
-        impl SampleUniform for $ty {
-            type Sampler = UniformInt<$ty>;
-        }
-
-        impl UniformSampler for UniformInt<$ty> {
-            // We play free and fast with unsigned vs signed here
-            // (when $ty is signed), but that's fine, since the
-            // contract of this macro is for $ty and $unsigned to be
-            // "bit-equal", so casting between them is a no-op.
-
-            type X = $ty;
-
-            #[inline] // if the range is constant, this helps LLVM to do the
-                      // calculations at compile-time.
-            fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low < high, "Uniform::new called with `low >= high`");
-                UniformSampler::new_inclusive(low, high - 1)
-            }
-
-            #[inline] // if the range is constant, this helps LLVM to do the
-                      // calculations at compile-time.
-            fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low <= high,
-                        "Uniform::new_inclusive called with `low > high`");
-                let unsigned_max = ::core::$u_large::MAX;
-
-                let range = high.wrapping_sub(low).wrapping_add(1) as $unsigned;
-                let ints_to_reject =
-                    if range > 0 {
-                        let range = range as $u_large;
-                        (unsigned_max - range + 1) % range
-                    } else {
-                        0
-                    };
-
-                UniformInt {
-                    low: low,
-                    // These are really $unsigned values, but store as $ty:
-                    range: range as $ty,
-                    z: ints_to_reject as $unsigned as $ty
-                }
-            }
-
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
-                let range = self.range as $unsigned as $u_large;
-                if range > 0 {
-                    let unsigned_max = ::core::$u_large::MAX;
-                    let zone = unsigned_max - (self.z as $unsigned as $u_large);
-                    loop {
-                        let v: $u_large = rng.gen();
-                        let (hi, lo) = v.wmul(range);
-                        if lo <= zone {
-                            return self.low.wrapping_add(hi as $ty);
-                        }
-                    }
-                } else {
-                    // Sample from the entire integer range.
-                    rng.gen()
-                }
-            }
-
-            fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R)
-                -> Self::X
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low < high,
-                        "UniformSampler::sample_single: low >= high");
-                let range = high.wrapping_sub(low) as $unsigned as $u_large;
-                let zone =
-                    if ::core::$unsigned::MAX <= ::core::u16::MAX as $unsigned {
-                        // Using a modulus is faster than the approximation for
-                        // i8 and i16. I suppose we trade the cost of one
-                        // modulus for near-perfect branch prediction.
-                        let unsigned_max: $u_large = ::core::$u_large::MAX;
-                        let ints_to_reject = (unsigned_max - range + 1) % range;
-                        unsigned_max - ints_to_reject
-                    } else {
-                        // conservative but fast approximation. `- 1` is necessary to allow the
-                        // same comparison without bias.
-                        (range << range.leading_zeros()).wrapping_sub(1)
-                    };
-
-                loop {
-                    let v: $u_large = rng.gen();
-                    let (hi, lo) = v.wmul(range);
-                    if lo <= zone {
-                        return low.wrapping_add(hi as $ty);
-                    }
-                }
-            }
-        }
-    }
-}
-
-uniform_int_impl! { i8, u8, u32 }
-uniform_int_impl! { i16, u16, u32 }
-uniform_int_impl! { i32, u32, u32 }
-uniform_int_impl! { i64, u64, u64 }
-#[cfg(not(target_os = "emscripten"))]
-uniform_int_impl! { i128, u128, u128 }
-uniform_int_impl! { isize, usize, usize }
-uniform_int_impl! { u8, u8, u32 }
-uniform_int_impl! { u16, u16, u32 }
-uniform_int_impl! { u32, u32, u32 }
-uniform_int_impl! { u64, u64, u64 }
-uniform_int_impl! { usize, usize, usize }
-#[cfg(not(target_os = "emscripten"))]
-uniform_int_impl! { u128, u128, u128 }
-
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-macro_rules! uniform_simd_int_impl {
-    ($ty:ident, $unsigned:ident, $u_scalar:ident) => {
-        // The "pick the largest zone that can fit in an `u32`" optimization
-        // is less useful here. Multiple lanes complicate things, we don't
-        // know the PRNG's minimal output size, and casting to a larger vector
-        // is generally a bad idea for SIMD performance. The user can still
-        // implement it manually.
-
-        // TODO: look into `Uniform::<u32x4>::new(0u32, 100)` functionality
-        //       perhaps `impl SampleUniform for $u_scalar`?
-        impl SampleUniform for $ty {
-            type Sampler = UniformInt<$ty>;
-        }
-
-        impl UniformSampler for UniformInt<$ty> {
-            type X = $ty;
-
-            #[inline] // if the range is constant, this helps LLVM to do the
-                      // calculations at compile-time.
-            fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low.lt(high).all(), "Uniform::new called with `low >= high`");
-                UniformSampler::new_inclusive(low, high - 1)
-            }
-
-            #[inline] // if the range is constant, this helps LLVM to do the
-                      // calculations at compile-time.
-            fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low.le(high).all(),
-                        "Uniform::new_inclusive called with `low > high`");
-                let unsigned_max = ::core::$u_scalar::MAX;
-
-                // NOTE: these may need to be replaced with explicitly
-                // wrapping operations if `packed_simd` changes
-                let range: $unsigned = ((high - low) + 1).cast();
-                // `% 0` will panic at runtime.
-                let not_full_range = range.gt($unsigned::splat(0));
-                // replacing 0 with `unsigned_max` allows a faster `select`
-                // with bitwise OR
-                let modulo = not_full_range.select(range, $unsigned::splat(unsigned_max));
-                // wrapping addition
-                let ints_to_reject = (unsigned_max - range + 1) % modulo;
-                // When `range` is 0, `lo` of `v.wmul(range)` will always be
-                // zero which means only one sample is needed.
-                let zone = unsigned_max - ints_to_reject;
-
-                UniformInt {
-                    low: low,
-                    // These are really $unsigned values, but store as $ty:
-                    range: range.cast(),
-                    z: zone.cast(),
-                }
-            }
-
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
-                let range: $unsigned = self.range.cast();
-                let zone: $unsigned = self.z.cast();
-
-                // This might seem very slow, generating a whole new
-                // SIMD vector for every sample rejection. For most uses
-                // though, the chance of rejection is small and provides good
-                // general performance. With multiple lanes, that chance is
-                // multiplied. To mitigate this, we replace only the lanes of
-                // the vector which fail, iteratively reducing the chance of
-                // rejection. The replacement method does however add a little
-                // overhead. Benchmarking or calculating probabilities might
-                // reveal contexts where this replacement method is slower.
-                let mut v: $unsigned = rng.gen();
-                loop {
-                    let (hi, lo) = v.wmul(range);
-                    let mask = lo.le(zone);
-                    if mask.all() {
-                        let hi: $ty = hi.cast();
-                        // wrapping addition
-                        let result = self.low + hi;
-                        // `select` here compiles to a blend operation
-                        // When `range.eq(0).none()` the compare and blend
-                        // operations are avoided.
-                        let v: $ty = v.cast();
-                        return range.gt($unsigned::splat(0)).select(result, v);
-                    }
-                    // Replace only the failing lanes
-                    v = mask.select(v, rng.gen());
-                }
-            }
-        }
-    };
-
-    // bulk implementation
-    ($(($unsigned:ident, $signed:ident),)+ $u_scalar:ident) => {
-        $(
-            uniform_simd_int_impl!($unsigned, $unsigned, $u_scalar);
-            uniform_simd_int_impl!($signed, $unsigned, $u_scalar);
-        )+
-    };
-}
-
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-uniform_simd_int_impl! {
-    (u64x2, i64x2),
-    (u64x4, i64x4),
-    (u64x8, i64x8),
-    u64
-}
-
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-uniform_simd_int_impl! {
-    (u32x2, i32x2),
-    (u32x4, i32x4),
-    (u32x8, i32x8),
-    (u32x16, i32x16),
-    u32
-}
-
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-uniform_simd_int_impl! {
-    (u16x2, i16x2),
-    (u16x4, i16x4),
-    (u16x8, i16x8),
-    (u16x16, i16x16),
-    (u16x32, i16x32),
-    u16
-}
-
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-uniform_simd_int_impl! {
-    (u8x2, i8x2),
-    (u8x4, i8x4),
-    (u8x8, i8x8),
-    (u8x16, i8x16),
-    (u8x32, i8x32),
-    (u8x64, i8x64),
-    u8
-}
-
-
-/// The back-end implementing [`UniformSampler`] for floating-point types.
-///
-/// Unless you are implementing [`UniformSampler`] for your own type, this type
-/// should not be used directly, use [`Uniform`] instead.
-///
-/// # Implementation notes
-///
-/// Instead of generating a float in the `[0, 1)` range using [`Standard`], the
-/// `UniformFloat` implementation converts the output of an PRNG itself. This
-/// way one or two steps can be optimized out.
-///
-/// The floats are first converted to a value in the `[1, 2)` interval using a
-/// transmute-based method, and then mapped to the expected range with a
-/// multiply and addition. Values produced this way have what equals 22 bits of
-/// random digits for an `f32`, and 52 for an `f64`.
-///
-/// [`new`]: UniformSampler::new
-/// [`new_inclusive`]: UniformSampler::new_inclusive
-/// [`Standard`]: crate::distributions::Standard
-#[derive(Clone, Copy, Debug)]
-pub struct UniformFloat<X> {
-    low: X,
-    scale: X,
-}
-
-macro_rules! uniform_float_impl {
-    ($ty:ty, $uty:ident, $f_scalar:ident, $u_scalar:ident, $bits_to_discard:expr) => {
-        impl SampleUniform for $ty {
-            type Sampler = UniformFloat<$ty>;
-        }
-
-        impl UniformSampler for UniformFloat<$ty> {
-            type X = $ty;
-
-            fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low.all_lt(high),
-                        "Uniform::new called with `low >= high`");
-                assert!(low.all_finite() && high.all_finite(),
-                        "Uniform::new called with non-finite boundaries");
-                let max_rand = <$ty>::splat((::core::$u_scalar::MAX >> $bits_to_discard)
-                                            .into_float_with_exponent(0) - 1.0);
-
-                let mut scale = high - low;
-
-                loop {
-                    let mask = (scale * max_rand + low).ge_mask(high);
-                    if mask.none() {
-                        break;
-                    }
-                    scale = scale.decrease_masked(mask);
-                }
-
-                debug_assert!(<$ty>::splat(0.0).all_le(scale));
-
-                UniformFloat { low, scale }
-            }
-
-            fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low.all_le(high),
-                        "Uniform::new_inclusive called with `low > high`");
-                assert!(low.all_finite() && high.all_finite(),
-                        "Uniform::new_inclusive called with non-finite boundaries");
-                let max_rand = <$ty>::splat((::core::$u_scalar::MAX >> $bits_to_discard)
-                                            .into_float_with_exponent(0) - 1.0);
-
-                let mut scale = (high - low) / max_rand;
-
-                loop {
-                    let mask = (scale * max_rand + low).gt_mask(high);
-                    if mask.none() {
-                        break;
-                    }
-                    scale = scale.decrease_masked(mask);
-                }
-
-                debug_assert!(<$ty>::splat(0.0).all_le(scale));
-
-                UniformFloat { low, scale }
-            }
-
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
-                // Generate a value in the range [1, 2)
-                let value1_2 = (rng.gen::<$uty>() >> $bits_to_discard)
-                               .into_float_with_exponent(0);
-
-                // Get a value in the range [0, 1) in order to avoid
-                // overflowing into infinity when multiplying with scale
-                let value0_1 = value1_2 - 1.0;
-
-                // We don't use `f64::mul_add`, because it is not available with
-                // `no_std`. Furthermore, it is slower for some targets (but
-                // faster for others). However, the order of multiplication and
-                // addition is important, because on some platforms (e.g. ARM)
-                // it will be optimized to a single (non-FMA) instruction.
-                value0_1 * self.scale + self.low
-            }
-
-            #[inline]
-            fn sample_single<R: Rng + ?Sized, B1, B2>(low_b: B1, high_b: B2, rng: &mut R)
-                -> Self::X
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                let low = *low_b.borrow();
-                let high = *high_b.borrow();
-                assert!(low.all_lt(high),
-                        "UniformSampler::sample_single: low >= high");
-                let mut scale = high - low;
-
-                loop {
-                    // Generate a value in the range [1, 2)
-                    let value1_2 = (rng.gen::<$uty>() >> $bits_to_discard)
-                                   .into_float_with_exponent(0);
-
-                    // Get a value in the range [0, 1) in order to avoid
-                    // overflowing into infinity when multiplying with scale
-                    let value0_1 = value1_2 - 1.0;
-
-                    // Doing multiply before addition allows some architectures
-                    // to use a single instruction.
-                    let res = value0_1 * scale + low;
-
-                    debug_assert!(low.all_le(res) || !scale.all_finite());
-                    if res.all_lt(high) {
-                        return res;
-                    }
-
-                    // This handles a number of edge cases.
-                    // * `low` or `high` is NaN. In this case `scale` and
-                    //   `res` are going to end up as NaN.
-                    // * `low` is negative infinity and `high` is finite.
-                    //   `scale` is going to be infinite and `res` will be
-                    //   NaN.
-                    // * `high` is positive infinity and `low` is finite.
-                    //   `scale` is going to be infinite and `res` will
-                    //   be infinite or NaN (if value0_1 is 0).
-                    // * `low` is negative infinity and `high` is positive
-                    //   infinity. `scale` will be infinite and `res` will
-                    //   be NaN.
-                    // * `low` and `high` are finite, but `high - low`
-                    //   overflows to infinite. `scale` will be infinite
-                    //   and `res` will be infinite or NaN (if value0_1 is 0).
-                    // So if `high` or `low` are non-finite, we are guaranteed
-                    // to fail the `res < high` check above and end up here.
-                    //
-                    // While we technically should check for non-finite `low`
-                    // and `high` before entering the loop, by doing the checks
-                    // here instead, we allow the common case to avoid these
-                    // checks. But we are still guaranteed that if `low` or
-                    // `high` are non-finite we'll end up here and can do the
-                    // appropriate checks.
-                    //
-                    // Likewise `high - low` overflowing to infinity is also
-                    // rare, so handle it here after the common case.
-                    let mask = !scale.finite_mask();
-                    if mask.any() {
-                        assert!(low.all_finite() && high.all_finite(),
-                                "Uniform::sample_single: low and high must be finite");
-                        scale = scale.decrease_masked(mask);
-                    }
-                }
-            }
-        }
-    }
-}
-
-uniform_float_impl! { f32, u32, f32, u32, 32 - 23 }
-uniform_float_impl! { f64, u64, f64, u64, 64 - 52 }
-
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f32x2, u32x2, f32, u32, 32 - 23 }
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f32x4, u32x4, f32, u32, 32 - 23 }
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f32x8, u32x8, f32, u32, 32 - 23 }
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f32x16, u32x16, f32, u32, 32 - 23 }
-
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f64x2, u64x2, f64, u64, 64 - 52 }
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f64x4, u64x4, f64, u64, 64 - 52 }
-#[cfg(feature="simd_support")]
-uniform_float_impl! { f64x8, u64x8, f64, u64, 64 - 52 }
-
-
-
-/// The back-end implementing [`UniformSampler`] for `Duration`.
-///
-/// Unless you are implementing [`UniformSampler`] for your own types, this type
-/// should not be used directly, use [`Uniform`] instead.
-#[derive(Clone, Copy, Debug)]
-pub struct UniformDuration {
-    mode: UniformDurationMode,
-    offset: u32,
-}
-
-#[derive(Debug, Copy, Clone)]
-enum UniformDurationMode {
-    Small {
-        secs: u64,
-        nanos: Uniform<u32>,
-    },
-    Medium {
-        nanos: Uniform<u64>,
-    },
-    Large {
-        max_secs: u64,
-        max_nanos: u32,
-        secs: Uniform<u64>,
-    }
-}
-
-impl SampleUniform for Duration {
-    type Sampler = UniformDuration;
-}
-
-impl UniformSampler for UniformDuration {
-    type X = Duration;
-
-    #[inline]
-    fn new<B1, B2>(low_b: B1, high_b: B2) -> Self
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized
-    {
-        let low = *low_b.borrow();
-        let high = *high_b.borrow();
-        assert!(low < high, "Uniform::new called with `low >= high`");
-        UniformDuration::new_inclusive(low, high - Duration::new(0, 1))
-    }
-
-    #[inline]
-    fn new_inclusive<B1, B2>(low_b: B1, high_b: B2) -> Self
-        where B1: SampleBorrow<Self::X> + Sized,
-              B2: SampleBorrow<Self::X> + Sized
-    {
-        let low = *low_b.borrow();
-        let high = *high_b.borrow();
-        assert!(low <= high, "Uniform::new_inclusive called with `low > high`");
-
-        let low_s = low.as_secs();
-        let low_n = low.subsec_nanos();
-        let mut high_s = high.as_secs();
-        let mut high_n = high.subsec_nanos();
-
-        if high_n < low_n {
-            high_s = high_s - 1;
-            high_n = high_n + 1_000_000_000;
-        }
-
-        let mode = if low_s == high_s {
-            UniformDurationMode::Small {
-                secs: low_s,
-                nanos: Uniform::new_inclusive(low_n, high_n),
-            }
-        } else {
-            let max = high_s
-                .checked_mul(1_000_000_000)
-                .and_then(|n| n.checked_add(high_n as u64));
-
-            if let Some(higher_bound) = max {
-                let lower_bound = low_s * 1_000_000_000 + low_n as u64;
-                UniformDurationMode::Medium {
-                    nanos: Uniform::new_inclusive(lower_bound, higher_bound),
-                }
-            } else {
-                // An offset is applied to simplify generation of nanoseconds
-                let max_nanos = high_n - low_n;
-                UniformDurationMode::Large {
-                    max_secs: high_s,
-                    max_nanos,
-                    secs: Uniform::new_inclusive(low_s, high_s),
-                }
-            }
-        };
-        UniformDuration {
-            mode,
-            offset: low_n,
-        }
-    }
-
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Duration {
-        match self.mode {
-            UniformDurationMode::Small { secs, nanos } => {
-                let n = nanos.sample(rng);
-                Duration::new(secs, n)
-            }
-            UniformDurationMode::Medium { nanos } => {
-                let nanos = nanos.sample(rng);
-                Duration::new(nanos / 1_000_000_000, (nanos % 1_000_000_000) as u32)
-            }
-            UniformDurationMode::Large { max_secs, max_nanos, secs } => {
-                // constant folding means this is at least as fast as `gen_range`
-                let nano_range = Uniform::new(0, 1_000_000_000);
-                loop {
-                    let s = secs.sample(rng);
-                    let n = nano_range.sample(rng);
-                    if !(s == max_secs && n > max_nanos) {
-                        let sum = n + self.offset;
-                        break Duration::new(s, sum);
-                    }
-                }
-            }
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use crate::Rng;
-    use crate::rngs::mock::StepRng;
-    use crate::distributions::uniform::Uniform;
-    use crate::distributions::utils::FloatAsSIMD;
-    #[cfg(feature="simd_support")] use packed_simd::*;
-
-    #[should_panic]
-    #[test]
-    fn test_uniform_bad_limits_equal_int() {
-        Uniform::new(10, 10);
-    }
-
-    #[test]
-    fn test_uniform_good_limits_equal_int() {
-        let mut rng = crate::test::rng(804);
-        let dist = Uniform::new_inclusive(10, 10);
-        for _ in 0..20 {
-            assert_eq!(rng.sample(dist), 10);
-        }
-    }
-
-    #[should_panic]
-    #[test]
-    fn test_uniform_bad_limits_flipped_int() {
-        Uniform::new(10, 5);
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_integers() {
-        use core::{i8, i16, i32, i64, isize};
-        use core::{u8, u16, u32, u64, usize};
-        #[cfg(not(target_os = "emscripten"))]
-        use core::{i128, u128};
-
-        let mut rng = crate::test::rng(251);
-        macro_rules! t {
-            ($ty:ident, $v:expr, $le:expr, $lt:expr) => {{
-                for &(low, high) in $v.iter() {
-                    let my_uniform = Uniform::new(low, high);
-                    for _ in 0..1000 {
-                        let v: $ty = rng.sample(my_uniform);
-                        assert!($le(low, v) && $lt(v, high));
-                    }
-
-                    let my_uniform = Uniform::new_inclusive(low, high);
-                    for _ in 0..1000 {
-                        let v: $ty = rng.sample(my_uniform);
-                        assert!($le(low, v) && $le(v, high));
-                    }
-
-                    let my_uniform = Uniform::new(&low, high);
-                    for _ in 0..1000 {
-                        let v: $ty = rng.sample(my_uniform);
-                        assert!($le(low, v) && $lt(v, high));
-                    }
-
-                    let my_uniform = Uniform::new_inclusive(&low, &high);
-                    for _ in 0..1000 {
-                        let v: $ty = rng.sample(my_uniform);
-                        assert!($le(low, v) && $le(v, high));
-                    }
-
-                    for _ in 0..1000 {
-                        let v: $ty = rng.gen_range(low, high);
-                        assert!($le(low, v) && $lt(v, high));
-                    }
-                }
-            }};
-
-            // scalar bulk
-            ($($ty:ident),*) => {{
-                $(t!(
-                    $ty,
-                    [(0, 10), (10, 127), ($ty::MIN, $ty::MAX)],
-                    |x, y| x <= y,
-                    |x, y| x < y
-                );)*
-            }};
-
-            // simd bulk
-            ($($ty:ident),* => $scalar:ident) => {{
-                $(t!(
-                    $ty,
-                    [
-                        ($ty::splat(0), $ty::splat(10)),
-                        ($ty::splat(10), $ty::splat(127)),
-                        ($ty::splat($scalar::MIN), $ty::splat($scalar::MAX)),
-                    ],
-                    |x: $ty, y| x.le(y).all(),
-                    |x: $ty, y| x.lt(y).all()
-                );)*
-            }};
-        }
-        t!(i8, i16, i32, i64, isize,
-           u8, u16, u32, u64, usize);
-        #[cfg(not(target_os = "emscripten"))]
-        t!(i128, u128);
-
-        #[cfg(all(feature = "simd_support", feature = "nightly"))]
-        {
-            t!(u8x2, u8x4, u8x8, u8x16, u8x32, u8x64 => u8);
-            t!(i8x2, i8x4, i8x8, i8x16, i8x32, i8x64 => i8);
-            t!(u16x2, u16x4, u16x8, u16x16, u16x32 => u16);
-            t!(i16x2, i16x4, i16x8, i16x16, i16x32 => i16);
-            t!(u32x2, u32x4, u32x8, u32x16 => u32);
-            t!(i32x2, i32x4, i32x8, i32x16 => i32);
-            t!(u64x2, u64x4, u64x8 => u64);
-            t!(i64x2, i64x4, i64x8 => i64);
-        }
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_floats() {
-        let mut rng = crate::test::rng(252);
-        let mut zero_rng = StepRng::new(0, 0);
-        let mut max_rng = StepRng::new(0xffff_ffff_ffff_ffff, 0);
-        macro_rules! t {
-            ($ty:ty, $f_scalar:ident, $bits_shifted:expr) => {{
-                let v: &[($f_scalar, $f_scalar)]=
-                    &[(0.0, 100.0),
-                      (-1e35, -1e25),
-                      (1e-35, 1e-25),
-                      (-1e35, 1e35),
-                      (<$f_scalar>::from_bits(0), <$f_scalar>::from_bits(3)),
-                      (-<$f_scalar>::from_bits(10), -<$f_scalar>::from_bits(1)),
-                      (-<$f_scalar>::from_bits(5), 0.0),
-                      (-<$f_scalar>::from_bits(7), -0.0),
-                      (10.0, ::core::$f_scalar::MAX),
-                      (-100.0, ::core::$f_scalar::MAX),
-                      (-::core::$f_scalar::MAX / 5.0, ::core::$f_scalar::MAX),
-                      (-::core::$f_scalar::MAX, ::core::$f_scalar::MAX / 5.0),
-                      (-::core::$f_scalar::MAX * 0.8, ::core::$f_scalar::MAX * 0.7),
-                      (-::core::$f_scalar::MAX, ::core::$f_scalar::MAX),
-                     ];
-                for &(low_scalar, high_scalar) in v.iter() {
-                    for lane in 0..<$ty>::lanes() {
-                        let low = <$ty>::splat(0.0 as $f_scalar).replace(lane, low_scalar);
-                        let high = <$ty>::splat(1.0 as $f_scalar).replace(lane, high_scalar);
-                        let my_uniform = Uniform::new(low, high);
-                        let my_incl_uniform = Uniform::new_inclusive(low, high);
-                        for _ in 0..100 {
-                            let v = rng.sample(my_uniform).extract(lane);
-                            assert!(low_scalar <= v && v < high_scalar);
-                            let v = rng.sample(my_incl_uniform).extract(lane);
-                            assert!(low_scalar <= v && v <= high_scalar);
-                            let v = rng.gen_range(low, high).extract(lane);
-                            assert!(low_scalar <= v && v < high_scalar);
-                        }
-
-                        assert_eq!(rng.sample(Uniform::new_inclusive(low, low)).extract(lane), low_scalar);
-
-                        assert_eq!(zero_rng.sample(my_uniform).extract(lane), low_scalar);
-                        assert_eq!(zero_rng.sample(my_incl_uniform).extract(lane), low_scalar);
-                        assert_eq!(zero_rng.gen_range(low, high).extract(lane), low_scalar);
-                        assert!(max_rng.sample(my_uniform).extract(lane) < high_scalar);
-                        assert!(max_rng.sample(my_incl_uniform).extract(lane) <= high_scalar);
-
-                        // Don't run this test for really tiny differences between high and low
-                        // since for those rounding might result in selecting high for a very
-                        // long time.
-                        if (high_scalar - low_scalar) > 0.0001 {
-                            let mut lowering_max_rng =
-                                StepRng::new(0xffff_ffff_ffff_ffff,
-                                             (-1i64 << $bits_shifted) as u64);
-                            assert!(lowering_max_rng.gen_range(low, high).extract(lane) < high_scalar);
-                        }
-                    }
-                }
-
-                assert_eq!(rng.sample(Uniform::new_inclusive(::core::$f_scalar::MAX,
-                                                             ::core::$f_scalar::MAX)),
-                           ::core::$f_scalar::MAX);
-                assert_eq!(rng.sample(Uniform::new_inclusive(-::core::$f_scalar::MAX,
-                                                             -::core::$f_scalar::MAX)),
-                           -::core::$f_scalar::MAX);
-            }}
-        }
-
-        t!(f32, f32, 32 - 23);
-        t!(f64, f64, 64 - 52);
-        #[cfg(feature="simd_support")]
-        {
-            t!(f32x2, f32, 32 - 23);
-            t!(f32x4, f32, 32 - 23);
-            t!(f32x8, f32, 32 - 23);
-            t!(f32x16, f32, 32 - 23);
-            t!(f64x2, f64, 64 - 52);
-            t!(f64x4, f64, 64 - 52);
-            t!(f64x8, f64, 64 - 52);
-        }
-    }
-
-    #[test]
-    #[cfg(all(feature="std",
-              not(target_arch = "wasm32"),
-              not(target_arch = "asmjs")))]
-    #[cfg(not(miri))] // Miri does not support catching panics
-    fn test_float_assertions() {
-        use std::panic::catch_unwind;
-        use super::SampleUniform;
-        fn range<T: SampleUniform>(low: T, high: T) {
-            let mut rng = crate::test::rng(253);
-            rng.gen_range(low, high);
-        }
-
-        macro_rules! t {
-            ($ty:ident, $f_scalar:ident) => {{
-                let v: &[($f_scalar, $f_scalar)] =
-                    &[(::std::$f_scalar::NAN, 0.0),
-                      (1.0, ::std::$f_scalar::NAN),
-                      (::std::$f_scalar::NAN, ::std::$f_scalar::NAN),
-                      (1.0, 0.5),
-                      (::std::$f_scalar::MAX, -::std::$f_scalar::MAX),
-                      (::std::$f_scalar::INFINITY, ::std::$f_scalar::INFINITY),
-                      (::std::$f_scalar::NEG_INFINITY, ::std::$f_scalar::NEG_INFINITY),
-                      (::std::$f_scalar::NEG_INFINITY, 5.0),
-                      (5.0, ::std::$f_scalar::INFINITY),
-                      (::std::$f_scalar::NAN, ::std::$f_scalar::INFINITY),
-                      (::std::$f_scalar::NEG_INFINITY, ::std::$f_scalar::NAN),
-                      (::std::$f_scalar::NEG_INFINITY, ::std::$f_scalar::INFINITY),
-                     ];
-                for &(low_scalar, high_scalar) in v.iter() {
-                    for lane in 0..<$ty>::lanes() {
-                        let low = <$ty>::splat(0.0 as $f_scalar).replace(lane, low_scalar);
-                        let high = <$ty>::splat(1.0 as $f_scalar).replace(lane, high_scalar);
-                        assert!(catch_unwind(|| range(low, high)).is_err());
-                        assert!(catch_unwind(|| Uniform::new(low, high)).is_err());
-                        assert!(catch_unwind(|| Uniform::new_inclusive(low, high)).is_err());
-                        assert!(catch_unwind(|| range(low, low)).is_err());
-                        assert!(catch_unwind(|| Uniform::new(low, low)).is_err());
-                    }
-                }
-            }}
-        }
-
-        t!(f32, f32);
-        t!(f64, f64);
-        #[cfg(feature="simd_support")]
-        {
-            t!(f32x2, f32);
-            t!(f32x4, f32);
-            t!(f32x8, f32);
-            t!(f32x16, f32);
-            t!(f64x2, f64);
-            t!(f64x4, f64);
-            t!(f64x8, f64);
-        }
-    }
-
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_durations() {
-        #[cfg(feature = "std")]
-        use std::time::Duration;
-        #[cfg(not(feature = "std"))]
-        use core::time::Duration;
-
-        let mut rng = crate::test::rng(253);
-
-        let v = &[(Duration::new(10, 50000), Duration::new(100, 1234)),
-                  (Duration::new(0, 100), Duration::new(1, 50)),
-                  (Duration::new(0, 0), Duration::new(u64::max_value(), 999_999_999))];
-        for &(low, high) in v.iter() {
-            let my_uniform = Uniform::new(low, high);
-            for _ in 0..1000 {
-                let v = rng.sample(my_uniform);
-                assert!(low <= v && v < high);
-            }
-        }
-    }
-
-    #[test]
-    fn test_custom_uniform() {
-        use crate::distributions::uniform::{UniformSampler, UniformFloat, SampleUniform, SampleBorrow};
-        #[derive(Clone, Copy, PartialEq, PartialOrd)]
-        struct MyF32 {
-            x: f32,
-        }
-        #[derive(Clone, Copy, Debug)]
-        struct UniformMyF32 {
-            inner: UniformFloat<f32>,
-        }
-        impl UniformSampler for UniformMyF32 {
-            type X = MyF32;
-            fn new<B1, B2>(low: B1, high: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                UniformMyF32 {
-                    inner: UniformFloat::<f32>::new(low.borrow().x, high.borrow().x),
-                }
-            }
-            fn new_inclusive<B1, B2>(low: B1, high: B2) -> Self
-                where B1: SampleBorrow<Self::X> + Sized,
-                      B2: SampleBorrow<Self::X> + Sized
-            {
-                UniformSampler::new(low, high)
-            }
-            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> Self::X {
-                MyF32 { x: self.inner.sample(rng) }
-            }
-        }
-        impl SampleUniform for MyF32 {
-            type Sampler = UniformMyF32;
-        }
-
-        let (low, high) = (MyF32{ x: 17.0f32 }, MyF32{ x: 22.0f32 });
-        let uniform = Uniform::new(low, high);
-        let mut rng = crate::test::rng(804);
-        for _ in 0..100 {
-            let x: MyF32 = rng.sample(uniform);
-            assert!(low <= x && x < high);
-        }
-    }
-
-    #[test]
-    fn test_uniform_from_std_range() {
-        let r = Uniform::from(2u32..7);
-        assert_eq!(r.inner.low, 2);
-        assert_eq!(r.inner.range, 5);
-        let r = Uniform::from(2.0f64..7.0);
-        assert_eq!(r.inner.low, 2.0);
-        assert_eq!(r.inner.scale, 5.0);
-    }
-
-    #[test]
-    fn test_uniform_from_std_range_inclusive() {
-        let r = Uniform::from(2u32..=6);
-        assert_eq!(r.inner.low, 2);
-        assert_eq!(r.inner.range, 5);
-        let r = Uniform::from(2.0f64..=7.0);
-        assert_eq!(r.inner.low, 2.0);
-        assert!(r.inner.scale > 5.0);
-        assert!(r.inner.scale < 5.0 + 1e-14);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/unit_circle.rs.html b/target/doc/src/rand/distributions/unit_circle.rs.html deleted file mode 100644 index d06ba9a..0000000 --- a/target/doc/src/rand/distributions/unit_circle.rs.html +++ /dev/null @@ -1,203 +0,0 @@ -unit_circle.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, Uniform};
-
-/// Samples uniformly from the edge of the unit circle in two dimensions.
-///
-/// Implemented via a method by von Neumann[^1].
-///
-/// [^1]: von Neumann, J. (1951) [*Various Techniques Used in Connection with
-///       Random Digits.*](https://mcnp.lanl.gov/pdf_files/nbs_vonneumann.pdf)
-///       NBS Appl. Math. Ser., No. 12. Washington, DC: U.S. Government Printing
-///       Office, pp. 36-38.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct UnitCircle;
-
-impl UnitCircle {
-    /// Construct a new `UnitCircle` distribution.
-    #[inline]
-    pub fn new() -> UnitCircle {
-        UnitCircle
-    }
-}
-
-impl Distribution<[f64; 2]> for UnitCircle {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> [f64; 2] {
-        let uniform = Uniform::new(-1., 1.);
-        let mut x1;
-        let mut x2;
-        let mut sum;
-        loop {
-            x1 = uniform.sample(rng);
-            x2 = uniform.sample(rng);
-            sum = x1*x1 + x2*x2;
-            if sum < 1. {
-                break;
-            }
-        }
-        let diff = x1*x1 - x2*x2;
-        [diff / sum, 2.*x1*x2 / sum]
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use crate::distributions::Distribution;
-    use super::UnitCircle;
-
-    /// Assert that two numbers are almost equal to each other.
-    ///
-    /// On panic, this macro will print the values of the expressions with their
-    /// debug representations.
-    macro_rules! assert_almost_eq {
-        ($a:expr, $b:expr, $prec:expr) => (
-            let diff = ($a - $b).abs();
-            if diff > $prec {
-                panic!(format!(
-                    "assertion failed: `abs(left - right) = {:.1e} < {:e}`, \
-                     (left: `{}`, right: `{}`)",
-                    diff, $prec, $a, $b));
-            }
-        );
-    }
-
-    #[test]
-    fn norm() {
-        let mut rng = crate::test::rng(1);
-        let dist = UnitCircle::new();
-        for _ in 0..1000 {
-            let x = dist.sample(&mut rng);
-            assert_almost_eq!(x[0]*x[0] + x[1]*x[1], 1., 1e-15);
-        }
-    }
-
-    #[test]
-    fn value_stability() {
-        let mut rng = crate::test::rng(2);
-        let expected = [
-                [-0.9965658683520504, -0.08280380447614634],
-                [-0.9790853270389644, -0.20345004884984505],
-                [-0.8449189758898707, 0.5348943112253227],
-            ];
-        let samples = [
-                UnitCircle.sample(&mut rng),
-                UnitCircle.sample(&mut rng),
-                UnitCircle.sample(&mut rng),
-            ];
-        assert_eq!(samples, expected);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/unit_sphere.rs.html b/target/doc/src/rand/distributions/unit_sphere.rs.html deleted file mode 100644 index 81368de..0000000 --- a/target/doc/src/rand/distributions/unit_sphere.rs.html +++ /dev/null @@ -1,193 +0,0 @@ -unit_sphere.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, Uniform};
-
-/// Samples uniformly from the surface of the unit sphere in three dimensions.
-///
-/// Implemented via a method by Marsaglia[^1].
-///
-/// [^1]: Marsaglia, George (1972). [*Choosing a Point from the Surface of a
-///       Sphere.*](https://doi.org/10.1214/aoms/1177692644)
-///       Ann. Math. Statist. 43, no. 2, 645--646.
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct UnitSphereSurface;
-
-impl UnitSphereSurface {
-    /// Construct a new `UnitSphereSurface` distribution.
-    #[inline]
-    pub fn new() -> UnitSphereSurface {
-        UnitSphereSurface
-    }
-}
-
-impl Distribution<[f64; 3]> for UnitSphereSurface {
-    #[inline]
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> [f64; 3] {
-        let uniform = Uniform::new(-1., 1.);
-        loop {
-            let (x1, x2) = (uniform.sample(rng), uniform.sample(rng));
-            let sum = x1*x1 + x2*x2;
-            if sum >= 1. {
-                continue;
-            }
-            let factor = 2. * (1.0_f64 - sum).sqrt();
-            return [x1 * factor, x2 * factor, 1. - 2.*sum];
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use crate::distributions::Distribution;
-    use super::UnitSphereSurface;
-
-    /// Assert that two numbers are almost equal to each other.
-    ///
-    /// On panic, this macro will print the values of the expressions with their
-    /// debug representations.
-    macro_rules! assert_almost_eq {
-        ($a:expr, $b:expr, $prec:expr) => (
-            let diff = ($a - $b).abs();
-            if diff > $prec {
-                panic!(format!(
-                    "assertion failed: `abs(left - right) = {:.1e} < {:e}`, \
-                     (left: `{}`, right: `{}`)",
-                    diff, $prec, $a, $b));
-            }
-        );
-    }
-
-    #[test]
-    fn norm() {
-        let mut rng = crate::test::rng(1);
-        let dist = UnitSphereSurface::new();
-        for _ in 0..1000 {
-            let x = dist.sample(&mut rng);
-            assert_almost_eq!(x[0]*x[0] + x[1]*x[1] + x[2]*x[2], 1., 1e-15);
-        }
-    }
-
-    #[test]
-    fn value_stability() {
-        let mut rng = crate::test::rng(2);
-        let expected = [
-                [0.03247542860231647, -0.7830477442152738, 0.6211131755296027],
-                [-0.09978440840914075, 0.9706650829833128, -0.21875184231323952],
-                [0.2735582468624679, 0.9435374242279655, -0.1868234852870203],
-            ];
-        let samples = [
-                UnitSphereSurface.sample(&mut rng),
-                UnitSphereSurface.sample(&mut rng),
-                UnitSphereSurface.sample(&mut rng),
-            ];
-        assert_eq!(samples, expected);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/utils.rs.html b/target/doc/src/rand/distributions/utils.rs.html deleted file mode 100644 index 09ff3e5..0000000 --- a/target/doc/src/rand/distributions/utils.rs.html +++ /dev/null @@ -1,1013 +0,0 @@ -utils.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Math helper functions
-
-#[cfg(feature="simd_support")]
-use packed_simd::*;
-#[cfg(feature="std")]
-use crate::distributions::ziggurat_tables;
-#[cfg(feature="std")]
-use crate::Rng;
-
-
-pub trait WideningMultiply<RHS = Self> {
-    type Output;
-
-    fn wmul(self, x: RHS) -> Self::Output;
-}
-
-macro_rules! wmul_impl {
-    ($ty:ty, $wide:ty, $shift:expr) => {
-        impl WideningMultiply for $ty {
-            type Output = ($ty, $ty);
-
-            #[inline(always)]
-            fn wmul(self, x: $ty) -> Self::Output {
-                let tmp = (self as $wide) * (x as $wide);
-                ((tmp >> $shift) as $ty, tmp as $ty)
-            }
-        }
-    };
-
-    // simd bulk implementation
-    ($(($ty:ident, $wide:ident),)+, $shift:expr) => {
-        $(
-            impl WideningMultiply for $ty {
-                type Output = ($ty, $ty);
-
-                #[inline(always)]
-                fn wmul(self, x: $ty) -> Self::Output {
-                    // For supported vectors, this should compile to a couple
-                    // supported multiply & swizzle instructions (no actual
-                    // casting).
-                    // TODO: optimize
-                    let y: $wide = self.cast();
-                    let x: $wide = x.cast();
-                    let tmp = y * x;
-                    let hi: $ty = (tmp >> $shift).cast();
-                    let lo: $ty = tmp.cast();
-                    (hi, lo)
-                }
-            }
-        )+
-    };
-}
-wmul_impl! { u8, u16, 8 }
-wmul_impl! { u16, u32, 16 }
-wmul_impl! { u32, u64, 32 }
-#[cfg(not(target_os = "emscripten"))]
-wmul_impl! { u64, u128, 64 }
-
-// This code is a translation of the __mulddi3 function in LLVM's
-// compiler-rt. It is an optimised variant of the common method
-// `(a + b) * (c + d) = ac + ad + bc + bd`.
-//
-// For some reason LLVM can optimise the C version very well, but
-// keeps shuffling registers in this Rust translation.
-macro_rules! wmul_impl_large {
-    ($ty:ty, $half:expr) => {
-        impl WideningMultiply for $ty {
-            type Output = ($ty, $ty);
-
-            #[inline(always)]
-            fn wmul(self, b: $ty) -> Self::Output {
-                const LOWER_MASK: $ty = !0 >> $half;
-                let mut low = (self & LOWER_MASK).wrapping_mul(b & LOWER_MASK);
-                let mut t = low >> $half;
-                low &= LOWER_MASK;
-                t += (self >> $half).wrapping_mul(b & LOWER_MASK);
-                low += (t & LOWER_MASK) << $half;
-                let mut high = t >> $half;
-                t = low >> $half;
-                low &= LOWER_MASK;
-                t += (b >> $half).wrapping_mul(self & LOWER_MASK);
-                low += (t & LOWER_MASK) << $half;
-                high += t >> $half;
-                high += (self >> $half).wrapping_mul(b >> $half);
-
-                (high, low)
-            }
-        }
-    };
-
-    // simd bulk implementation
-    (($($ty:ty,)+) $scalar:ty, $half:expr) => {
-        $(
-            impl WideningMultiply for $ty {
-                type Output = ($ty, $ty);
-
-                #[inline(always)]
-                fn wmul(self, b: $ty) -> Self::Output {
-                    // needs wrapping multiplication
-                    const LOWER_MASK: $scalar = !0 >> $half;
-                    let mut low = (self & LOWER_MASK) * (b & LOWER_MASK);
-                    let mut t = low >> $half;
-                    low &= LOWER_MASK;
-                    t += (self >> $half) * (b & LOWER_MASK);
-                    low += (t & LOWER_MASK) << $half;
-                    let mut high = t >> $half;
-                    t = low >> $half;
-                    low &= LOWER_MASK;
-                    t += (b >> $half) * (self & LOWER_MASK);
-                    low += (t & LOWER_MASK) << $half;
-                    high += t >> $half;
-                    high += (self >> $half) * (b >> $half);
-
-                    (high, low)
-                }
-            }
-        )+
-    };
-}
-#[cfg(target_os = "emscripten")]
-wmul_impl_large! { u64, 32 }
-#[cfg(not(target_os = "emscripten"))]
-wmul_impl_large! { u128, 64 }
-
-macro_rules! wmul_impl_usize {
-    ($ty:ty) => {
-        impl WideningMultiply for usize {
-            type Output = (usize, usize);
-
-            #[inline(always)]
-            fn wmul(self, x: usize) -> Self::Output {
-                let (high, low) = (self as $ty).wmul(x as $ty);
-                (high as usize, low as usize)
-            }
-        }
-    }
-}
-#[cfg(target_pointer_width = "32")]
-wmul_impl_usize! { u32 }
-#[cfg(target_pointer_width = "64")]
-wmul_impl_usize! { u64 }
-
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-mod simd_wmul {
-    #[cfg(target_arch = "x86")]
-    use core::arch::x86::*;
-    #[cfg(target_arch = "x86_64")]
-    use core::arch::x86_64::*;
-    use super::*;
-
-    wmul_impl! {
-        (u8x2, u16x2),
-        (u8x4, u16x4),
-        (u8x8, u16x8),
-        (u8x16, u16x16),
-        (u8x32, u16x32),,
-        8
-    }
-
-    wmul_impl! { (u16x2, u32x2),, 16 }
-    #[cfg(not(target_feature = "sse2"))]
-    wmul_impl! { (u16x4, u32x4),, 16 }
-    #[cfg(not(target_feature = "sse4.2"))]
-    wmul_impl! { (u16x8, u32x8),, 16 }
-    #[cfg(not(target_feature = "avx2"))]
-    wmul_impl! { (u16x16, u32x16),, 16 }
-
-    // 16-bit lane widths allow use of the x86 `mulhi` instructions, which
-    // means `wmul` can be implemented with only two instructions.
-    #[allow(unused_macros)]
-    macro_rules! wmul_impl_16 {
-        ($ty:ident, $intrinsic:ident, $mulhi:ident, $mullo:ident) => {
-            impl WideningMultiply for $ty {
-                type Output = ($ty, $ty);
-
-                #[inline(always)]
-                fn wmul(self, x: $ty) -> Self::Output {
-                    let b = $intrinsic::from_bits(x);
-                    let a = $intrinsic::from_bits(self);
-                    let hi = $ty::from_bits(unsafe { $mulhi(a, b) });
-                    let lo = $ty::from_bits(unsafe { $mullo(a, b) });
-                    (hi, lo)
-                }
-            }
-        };
-    }
-
-    #[cfg(target_feature = "sse2")]
-    wmul_impl_16! { u16x4, __m64, _mm_mulhi_pu16, _mm_mullo_pi16 }
-    #[cfg(target_feature = "sse4.2")]
-    wmul_impl_16! { u16x8, __m128i, _mm_mulhi_epu16, _mm_mullo_epi16 }
-    #[cfg(target_feature = "avx2")]
-    wmul_impl_16! { u16x16, __m256i, _mm256_mulhi_epu16, _mm256_mullo_epi16 }
-    // FIXME: there are no `__m512i` types in stdsimd yet, so `wmul::<u16x32>`
-    // cannot use the same implementation.
-
-    wmul_impl! {
-        (u32x2, u64x2),
-        (u32x4, u64x4),
-        (u32x8, u64x8),,
-        32
-    }
-
-    // TODO: optimize, this seems to seriously slow things down
-    wmul_impl_large! { (u8x64,) u8, 4 }
-    wmul_impl_large! { (u16x32,) u16, 8 }
-    wmul_impl_large! { (u32x16,) u32, 16 }
-    wmul_impl_large! { (u64x2, u64x4, u64x8,) u64, 32 }
-}
-#[cfg(all(feature = "simd_support", feature = "nightly"))]
-pub use self::simd_wmul::*;
-
-
-/// Helper trait when dealing with scalar and SIMD floating point types.
-pub(crate) trait FloatSIMDUtils {
-    // `PartialOrd` for vectors compares lexicographically. We want to compare all
-    // the individual SIMD lanes instead, and get the combined result over all
-    // lanes. This is possible using something like `a.lt(b).all()`, but we
-    // implement it as a trait so we can write the same code for `f32` and `f64`.
-    // Only the comparison functions we need are implemented.
-    fn all_lt(self, other: Self) -> bool;
-    fn all_le(self, other: Self) -> bool;
-    fn all_finite(self) -> bool;
-
-    type Mask;
-    fn finite_mask(self) -> Self::Mask;
-    fn gt_mask(self, other: Self) -> Self::Mask;
-    fn ge_mask(self, other: Self) -> Self::Mask;
-
-    // Decrease all lanes where the mask is `true` to the next lower value
-    // representable by the floating-point type. At least one of the lanes
-    // must be set.
-    fn decrease_masked(self, mask: Self::Mask) -> Self;
-
-    // Convert from int value. Conversion is done while retaining the numerical
-    // value, not by retaining the binary representation.
-    type UInt;
-    fn cast_from_int(i: Self::UInt) -> Self;
-}
-
-/// Implement functions available in std builds but missing from core primitives
-#[cfg(not(std))]
-pub(crate) trait Float : Sized {
-    type Bits;
-
-    fn is_nan(self) -> bool;
-    fn is_infinite(self) -> bool;
-    fn is_finite(self) -> bool;
-    fn to_bits(self) -> Self::Bits;
-    fn from_bits(v: Self::Bits) -> Self;
-}
-
-/// Implement functions on f32/f64 to give them APIs similar to SIMD types
-pub(crate) trait FloatAsSIMD : Sized {
-    #[inline(always)]
-    fn lanes() -> usize { 1 }
-    #[inline(always)]
-    fn splat(scalar: Self) -> Self { scalar }
-    #[inline(always)]
-    fn extract(self, index: usize) -> Self { debug_assert_eq!(index, 0); self }
-    #[inline(always)]
-    fn replace(self, index: usize, new_value: Self) -> Self { debug_assert_eq!(index, 0); new_value }
-}
-
-pub(crate) trait BoolAsSIMD : Sized {
-    fn any(self) -> bool;
-    fn all(self) -> bool;
-    fn none(self) -> bool;
-}
-
-impl BoolAsSIMD for bool {
-    #[inline(always)]
-    fn any(self) -> bool { self }
-    #[inline(always)]
-    fn all(self) -> bool { self }
-    #[inline(always)]
-    fn none(self) -> bool { !self }
-}
-
-macro_rules! scalar_float_impl {
-    ($ty:ident, $uty:ident) => {
-        #[cfg(not(std))]
-        impl Float for $ty {
-            type Bits = $uty;
-
-            #[inline]
-            fn is_nan(self) -> bool {
-                self != self
-            }
-
-            #[inline]
-            fn is_infinite(self) -> bool {
-                self == ::core::$ty::INFINITY || self == ::core::$ty::NEG_INFINITY
-            }
-
-            #[inline]
-            fn is_finite(self) -> bool {
-                !(self.is_nan() || self.is_infinite())
-            }
-
-            #[inline]
-            fn to_bits(self) -> Self::Bits {
-                unsafe { ::core::mem::transmute(self) }
-            }
-
-            #[inline]
-            fn from_bits(v: Self::Bits) -> Self {
-                // It turns out the safety issues with sNaN were overblown! Hooray!
-                unsafe { ::core::mem::transmute(v) }
-            }
-        }
-
-        impl FloatSIMDUtils for $ty {
-            type Mask = bool;
-            #[inline(always)]
-            fn all_lt(self, other: Self) -> bool { self < other }
-            #[inline(always)]
-            fn all_le(self, other: Self) -> bool { self <= other }
-            #[inline(always)]
-            fn all_finite(self) -> bool { self.is_finite() }
-            #[inline(always)]
-            fn finite_mask(self) -> Self::Mask { self.is_finite() }
-            #[inline(always)]
-            fn gt_mask(self, other: Self) -> Self::Mask { self > other }
-            #[inline(always)]
-            fn ge_mask(self, other: Self) -> Self::Mask { self >= other }
-            #[inline(always)]
-            fn decrease_masked(self, mask: Self::Mask) -> Self {
-                debug_assert!(mask, "At least one lane must be set");
-                <$ty>::from_bits(self.to_bits() - 1)
-            }
-            type UInt = $uty;
-            fn cast_from_int(i: Self::UInt) -> Self { i as $ty }
-        }
-
-        impl FloatAsSIMD for $ty {}
-    }
-}
-
-scalar_float_impl!(f32, u32);
-scalar_float_impl!(f64, u64);
-
-
-#[cfg(feature="simd_support")]
-macro_rules! simd_impl {
-    ($ty:ident, $f_scalar:ident, $mty:ident, $uty:ident) => {
-        impl FloatSIMDUtils for $ty {
-            type Mask = $mty;
-            #[inline(always)]
-            fn all_lt(self, other: Self) -> bool { self.lt(other).all() }
-            #[inline(always)]
-            fn all_le(self, other: Self) -> bool { self.le(other).all() }
-            #[inline(always)]
-            fn all_finite(self) -> bool { self.finite_mask().all() }
-            #[inline(always)]
-            fn finite_mask(self) -> Self::Mask {
-                // This can possibly be done faster by checking bit patterns
-                let neg_inf = $ty::splat(::core::$f_scalar::NEG_INFINITY);
-                let pos_inf = $ty::splat(::core::$f_scalar::INFINITY);
-                self.gt(neg_inf) & self.lt(pos_inf)
-            }
-            #[inline(always)]
-            fn gt_mask(self, other: Self) -> Self::Mask { self.gt(other) }
-            #[inline(always)]
-            fn ge_mask(self, other: Self) -> Self::Mask { self.ge(other) }
-            #[inline(always)]
-            fn decrease_masked(self, mask: Self::Mask) -> Self {
-                // Casting a mask into ints will produce all bits set for
-                // true, and 0 for false. Adding that to the binary
-                // representation of a float means subtracting one from
-                // the binary representation, resulting in the next lower
-                // value representable by $ty. This works even when the
-                // current value is infinity.
-                debug_assert!(mask.any(), "At least one lane must be set");
-                <$ty>::from_bits(<$uty>::from_bits(self) + <$uty>::from_bits(mask))
-            }
-            type UInt = $uty;
-            #[inline]
-            fn cast_from_int(i: Self::UInt) -> Self { i.cast() }
-        }
-    }
-}
-
-#[cfg(feature="simd_support")] simd_impl! { f32x2, f32, m32x2, u32x2 }
-#[cfg(feature="simd_support")] simd_impl! { f32x4, f32, m32x4, u32x4 }
-#[cfg(feature="simd_support")] simd_impl! { f32x8, f32, m32x8, u32x8 }
-#[cfg(feature="simd_support")] simd_impl! { f32x16, f32, m32x16, u32x16 }
-#[cfg(feature="simd_support")] simd_impl! { f64x2, f64, m64x2, u64x2 }
-#[cfg(feature="simd_support")] simd_impl! { f64x4, f64, m64x4, u64x4 }
-#[cfg(feature="simd_support")] simd_impl! { f64x8, f64, m64x8, u64x8 }
-
-/// Calculates ln(gamma(x)) (natural logarithm of the gamma
-/// function) using the Lanczos approximation.
-///
-/// The approximation expresses the gamma function as:
-/// `gamma(z+1) = sqrt(2*pi)*(z+g+0.5)^(z+0.5)*exp(-z-g-0.5)*Ag(z)`
-/// `g` is an arbitrary constant; we use the approximation with `g=5`.
-///
-/// Noting that `gamma(z+1) = z*gamma(z)` and applying `ln` to both sides:
-/// `ln(gamma(z)) = (z+0.5)*ln(z+g+0.5)-(z+g+0.5) + ln(sqrt(2*pi)*Ag(z)/z)`
-///
-/// `Ag(z)` is an infinite series with coefficients that can be calculated
-/// ahead of time - we use just the first 6 terms, which is good enough
-/// for most purposes.
-#[cfg(feature="std")]
-pub fn log_gamma(x: f64) -> f64 {
-    // precalculated 6 coefficients for the first 6 terms of the series
-    let coefficients: [f64; 6] = [
-        76.18009172947146,
-        -86.50532032941677,
-        24.01409824083091,
-        -1.231739572450155,
-        0.1208650973866179e-2,
-        -0.5395239384953e-5,
-    ];
-
-    // (x+0.5)*ln(x+g+0.5)-(x+g+0.5)
-    let tmp = x + 5.5;
-    let log = (x + 0.5) * tmp.ln() - tmp;
-
-    // the first few terms of the series for Ag(x)
-    let mut a = 1.000000000190015;
-    let mut denom = x;
-    for coeff in &coefficients {
-        denom += 1.0;
-        a += coeff / denom;
-    }
-
-    // get everything together
-    // a is Ag(x)
-    // 2.5066... is sqrt(2pi)
-    log + (2.5066282746310005 * a / x).ln()
-}
-
-/// Sample a random number using the Ziggurat method (specifically the
-/// ZIGNOR variant from Doornik 2005). Most of the arguments are
-/// directly from the paper:
-///
-/// * `rng`: source of randomness
-/// * `symmetric`: whether this is a symmetric distribution, or one-sided with P(x < 0) = 0.
-/// * `X`: the $x_i$ abscissae.
-/// * `F`: precomputed values of the PDF at the $x_i$, (i.e. $f(x_i)$)
-/// * `F_DIFF`: precomputed values of $f(x_i) - f(x_{i+1})$
-/// * `pdf`: the probability density function
-/// * `zero_case`: manual sampling from the tail when we chose the
-///    bottom box (i.e. i == 0)
-
-// the perf improvement (25-50%) is definitely worth the extra code
-// size from force-inlining.
-#[cfg(feature="std")]
-#[inline(always)]
-pub fn ziggurat<R: Rng + ?Sized, P, Z>(
-            rng: &mut R,
-            symmetric: bool,
-            x_tab: ziggurat_tables::ZigTable,
-            f_tab: ziggurat_tables::ZigTable,
-            mut pdf: P,
-            mut zero_case: Z)
-            -> f64 where P: FnMut(f64) -> f64, Z: FnMut(&mut R, f64) -> f64 {
-    use crate::distributions::float::IntoFloat;
-    loop {
-        // As an optimisation we re-implement the conversion to a f64.
-        // From the remaining 12 most significant bits we use 8 to construct `i`.
-        // This saves us generating a whole extra random number, while the added
-        // precision of using 64 bits for f64 does not buy us much.
-        let bits = rng.next_u64();
-        let i = bits as usize & 0xff;
-
-        let u = if symmetric {
-            // Convert to a value in the range [2,4) and substract to get [-1,1)
-            // We can't convert to an open range directly, that would require
-            // substracting `3.0 - EPSILON`, which is not representable.
-            // It is possible with an extra step, but an open range does not
-            // seem neccesary for the ziggurat algorithm anyway.
-            (bits >> 12).into_float_with_exponent(1) - 3.0
-        } else {
-            // Convert to a value in the range [1,2) and substract to get (0,1)
-            (bits >> 12).into_float_with_exponent(0)
-            - (1.0 - ::core::f64::EPSILON / 2.0)
-        };
-        let x = u * x_tab[i];
-
-        let test_x = if symmetric { x.abs() } else {x};
-
-        // algebraically equivalent to |u| < x_tab[i+1]/x_tab[i] (or u < x_tab[i+1]/x_tab[i])
-        if test_x < x_tab[i + 1] {
-            return x;
-        }
-        if i == 0 {
-            return zero_case(rng, u);
-        }
-        // algebraically equivalent to f1 + DRanU()*(f0 - f1) < 1
-        if f_tab[i + 1] + (f_tab[i] - f_tab[i + 1]) * rng.gen::<f64>() < pdf(x) {
-            return x;
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/weibull.rs.html b/target/doc/src/rand/distributions/weibull.rs.html deleted file mode 100644 index b9573c4..0000000 --- a/target/doc/src/rand/distributions/weibull.rs.html +++ /dev/null @@ -1,131 +0,0 @@ -weibull.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The Weibull distribution.
-#![allow(deprecated)]
-
-use crate::Rng;
-use crate::distributions::{Distribution, OpenClosed01};
-
-/// Samples floating-point numbers according to the Weibull distribution
-#[deprecated(since="0.7.0", note="moved to rand_distr crate")]
-#[derive(Clone, Copy, Debug)]
-pub struct Weibull {
-    inv_shape: f64,
-    scale: f64,
-}
-
-impl Weibull {
-    /// Construct a new `Weibull` distribution with given `scale` and `shape`.
-    ///
-    /// # Panics
-    ///
-    /// `scale` and `shape` have to be non-zero and positive.
-    pub fn new(scale: f64, shape: f64) -> Weibull {
-        assert!((scale > 0.) & (shape > 0.));
-        Weibull { inv_shape: 1./shape, scale }
-    }
-}
-
-impl Distribution<f64> for Weibull {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> f64 {
-        let x: f64 = rng.sample(OpenClosed01);
-        self.scale * (-x.ln()).powf(self.inv_shape)
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use crate::distributions::Distribution;
-    use super::Weibull;
-
-    #[test]
-    #[should_panic]
-    fn invalid() {
-        Weibull::new(0., 0.);
-    }
-
-    #[test]
-    fn sample() {
-        let scale = 1.0;
-        let shape = 2.0;
-        let d = Weibull::new(scale, shape);
-        let mut rng = crate::test::rng(1);
-        for _ in 0..1000 {
-            let r = d.sample(&mut rng);
-            assert!(r >= 0.);
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/weighted/alias_method.rs.html b/target/doc/src/rand/distributions/weighted/alias_method.rs.html deleted file mode 100644 index 405d704..0000000 --- a/target/doc/src/rand/distributions/weighted/alias_method.rs.html +++ /dev/null @@ -1,1001 +0,0 @@ -alias_method.rs.html -- source
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-
-//! This module contains an implementation of alias method for sampling random
-//! indices with probabilities proportional to a collection of weights.
-
-use super::WeightedError;
-#[cfg(not(feature = "std"))]
-use crate::alloc::vec::Vec;
-#[cfg(not(feature = "std"))]
-use crate::alloc::vec;
-use core::fmt;
-use core::iter::Sum;
-use core::ops::{Add, AddAssign, Div, DivAssign, Mul, MulAssign, Sub, SubAssign};
-use crate::distributions::uniform::SampleUniform;
-use crate::distributions::Distribution;
-use crate::distributions::Uniform;
-use crate::Rng;
-
-/// A distribution using weighted sampling to pick a discretely selected item.
-///
-/// Sampling a [`WeightedIndex<W>`] distribution returns the index of a randomly
-/// selected element from the vector used to create the [`WeightedIndex<W>`].
-/// The chance of a given element being picked is proportional to the value of
-/// the element. The weights can have any type `W` for which a implementation of
-/// [`Weight`] exists.
-///
-/// # Performance
-///
-/// Given that `n` is the number of items in the vector used to create an
-/// [`WeightedIndex<W>`], [`WeightedIndex<W>`] will require `O(n)` amount of
-/// memory. More specifically it takes up some constant amount of memory plus
-/// the vector used to create it and a [`Vec<u32>`] with capacity `n`.
-///
-/// Time complexity for the creation of a [`WeightedIndex<W>`] is `O(n)`.
-/// Sampling is `O(1)`, it makes a call to [`Uniform<u32>::sample`] and a call
-/// to [`Uniform<W>::sample`].
-///
-/// # Example
-///
-/// ```
-/// use rand::distributions::weighted::alias_method::WeightedIndex;
-/// use rand::prelude::*;
-///
-/// let choices = vec!['a', 'b', 'c'];
-/// let weights = vec![2, 1, 1];
-/// let dist = WeightedIndex::new(weights).unwrap();
-/// let mut rng = thread_rng();
-/// for _ in 0..100 {
-///     // 50% chance to print 'a', 25% chance to print 'b', 25% chance to print 'c'
-///     println!("{}", choices[dist.sample(&mut rng)]);
-/// }
-///
-/// let items = [('a', 0), ('b', 3), ('c', 7)];
-/// let dist2 = WeightedIndex::new(items.iter().map(|item| item.1).collect()).unwrap();
-/// for _ in 0..100 {
-///     // 0% chance to print 'a', 30% chance to print 'b', 70% chance to print 'c'
-///     println!("{}", items[dist2.sample(&mut rng)].0);
-/// }
-/// ```
-///
-/// [`WeightedIndex<W>`]: crate::distributions::weighted::alias_method::WeightedIndex
-/// [`Weight`]: crate::distributions::weighted::alias_method::Weight
-/// [`Vec<u32>`]: Vec
-/// [`Uniform<u32>::sample`]: Distribution::sample
-/// [`Uniform<W>::sample`]: Distribution::sample
-pub struct WeightedIndex<W: Weight> {
-    aliases: Vec<u32>,
-    no_alias_odds: Vec<W>,
-    uniform_index: Uniform<u32>,
-    uniform_within_weight_sum: Uniform<W>,
-}
-
-impl<W: Weight> WeightedIndex<W> {
-    /// Creates a new [`WeightedIndex`].
-    ///
-    /// Returns an error if:
-    /// - The vector is empty.
-    /// - The vector is longer than `u32::MAX`.
-    /// - For any weight `w`: `w < 0` or `w > max` where `max = W::MAX /
-    ///   weights.len()`.
-    /// - The sum of weights is zero.
-    pub fn new(weights: Vec<W>) -> Result<Self, WeightedError> {
-        let n = weights.len();
-        if n == 0 {
-            return Err(WeightedError::NoItem);
-        } else if n > ::core::u32::MAX as usize {
-            return Err(WeightedError::TooMany);
-        }
-        let n = n as u32;
-
-        let max_weight_size = W::try_from_u32_lossy(n)
-            .map(|n| W::MAX / n)
-            .unwrap_or(W::ZERO);
-        if !weights
-            .iter()
-            .all(|&w| W::ZERO <= w && w <= max_weight_size)
-        {
-            return Err(WeightedError::InvalidWeight);
-        }
-
-        // The sum of weights will represent 100% of no alias odds.
-        let weight_sum = Weight::sum(weights.as_slice());
-        // Prevent floating point overflow due to rounding errors.
-        let weight_sum = if weight_sum > W::MAX {
-            W::MAX
-        } else {
-            weight_sum
-        };
-        if weight_sum == W::ZERO {
-            return Err(WeightedError::AllWeightsZero);
-        }
-
-        // `weight_sum` would have been zero if `try_from_lossy` causes an error here.
-        let n_converted = W::try_from_u32_lossy(n).unwrap();
-
-        let mut no_alias_odds = weights;
-        for odds in no_alias_odds.iter_mut() {
-            *odds *= n_converted;
-            // Prevent floating point overflow due to rounding errors.
-            *odds = if *odds > W::MAX { W::MAX } else { *odds };
-        }
-
-        /// This struct is designed to contain three data structures at once,
-        /// sharing the same memory. More precisely it contains two linked lists
-        /// and an alias map, which will be the output of this method. To keep
-        /// the three data structures from getting in each other's way, it must
-        /// be ensured that a single index is only ever in one of them at the
-        /// same time.
-        struct Aliases {
-            aliases: Vec<u32>,
-            smalls_head: u32,
-            bigs_head: u32,
-        }
-
-        impl Aliases {
-            fn new(size: u32) -> Self {
-                Aliases {
-                    aliases: vec![0; size as usize],
-                    smalls_head: ::core::u32::MAX,
-                    bigs_head: ::core::u32::MAX,
-                }
-            }
-
-            fn push_small(&mut self, idx: u32) {
-                self.aliases[idx as usize] = self.smalls_head;
-                self.smalls_head = idx;
-            }
-
-            fn push_big(&mut self, idx: u32) {
-                self.aliases[idx as usize] = self.bigs_head;
-                self.bigs_head = idx;
-            }
-
-            fn pop_small(&mut self) -> u32 {
-                let popped = self.smalls_head;
-                self.smalls_head = self.aliases[popped as usize];
-                popped
-            }
-
-            fn pop_big(&mut self) -> u32 {
-                let popped = self.bigs_head;
-                self.bigs_head = self.aliases[popped as usize];
-                popped
-            }
-
-            fn smalls_is_empty(&self) -> bool {
-                self.smalls_head == ::core::u32::MAX
-            }
-
-            fn bigs_is_empty(&self) -> bool {
-                self.bigs_head == ::core::u32::MAX
-            }
-
-            fn set_alias(&mut self, idx: u32, alias: u32) {
-                self.aliases[idx as usize] = alias;
-            }
-        }
-
-        let mut aliases = Aliases::new(n);
-
-        // Split indices into those with small weights and those with big weights.
-        for (index, &odds) in no_alias_odds.iter().enumerate() {
-            if odds < weight_sum {
-                aliases.push_small(index as u32);
-            } else {
-                aliases.push_big(index as u32);
-            }
-        }
-
-        // Build the alias map by finding an alias with big weight for each index with
-        // small weight.
-        while !aliases.smalls_is_empty() && !aliases.bigs_is_empty() {
-            let s = aliases.pop_small();
-            let b = aliases.pop_big();
-
-            aliases.set_alias(s, b);
-            no_alias_odds[b as usize] = no_alias_odds[b as usize]
-                    - weight_sum
-                    + no_alias_odds[s as usize];
-
-            if no_alias_odds[b as usize] < weight_sum {
-                aliases.push_small(b);
-            } else {
-                aliases.push_big(b);
-            }
-        }
-
-        // The remaining indices should have no alias odds of about 100%. This is due to
-        // numeric accuracy. Otherwise they would be exactly 100%.
-        while !aliases.smalls_is_empty() {
-            no_alias_odds[aliases.pop_small() as usize] = weight_sum;
-        }
-        while !aliases.bigs_is_empty() {
-            no_alias_odds[aliases.pop_big() as usize] = weight_sum;
-        }
-
-        // Prepare distributions for sampling. Creating them beforehand improves
-        // sampling performance.
-        let uniform_index = Uniform::new(0, n);
-        let uniform_within_weight_sum = Uniform::new(W::ZERO, weight_sum);
-
-        Ok(Self {
-            aliases: aliases.aliases,
-            no_alias_odds,
-            uniform_index,
-            uniform_within_weight_sum,
-        })
-    }
-}
-
-impl<W: Weight> Distribution<usize> for WeightedIndex<W> {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> usize {
-        let candidate = rng.sample(self.uniform_index);
-        if rng.sample(&self.uniform_within_weight_sum) < self.no_alias_odds[candidate as usize] {
-            candidate as usize
-        } else {
-            self.aliases[candidate as usize] as usize
-        }
-    }
-}
-
-impl<W: Weight> fmt::Debug for WeightedIndex<W>
-where
-    W: fmt::Debug,
-    Uniform<W>: fmt::Debug,
-{
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_struct("WeightedIndex")
-            .field("aliases", &self.aliases)
-            .field("no_alias_odds", &self.no_alias_odds)
-            .field("uniform_index", &self.uniform_index)
-            .field("uniform_within_weight_sum", &self.uniform_within_weight_sum)
-            .finish()
-    }
-}
-
-impl<W: Weight> Clone for WeightedIndex<W>
-where
-    Uniform<W>: Clone,
-{
-    fn clone(&self) -> Self {
-        Self {
-            aliases: self.aliases.clone(),
-            no_alias_odds: self.no_alias_odds.clone(),
-            uniform_index: self.uniform_index.clone(),
-            uniform_within_weight_sum: self.uniform_within_weight_sum.clone(),
-        }
-    }
-}
-
-/// Trait that must be implemented for weights, that are used with
-/// [`WeightedIndex`]. Currently no guarantees on the correctness of
-/// [`WeightedIndex`] are given for custom implementations of this trait.
-pub trait Weight:
-    Sized
-    + Copy
-    + SampleUniform
-    + PartialOrd
-    + Add<Output = Self>
-    + AddAssign
-    + Sub<Output = Self>
-    + SubAssign
-    + Mul<Output = Self>
-    + MulAssign
-    + Div<Output = Self>
-    + DivAssign
-    + Sum
-{
-    /// Maximum number representable by `Self`.
-    const MAX: Self;
-
-    /// Element of `Self` equivalent to 0.
-    const ZERO: Self;
-
-    /// Produce an instance of `Self` from a `u32` value, or return `None` if
-    /// out of range. Loss of precision (where `Self` is a floating point type)
-    /// is acceptable.
-    fn try_from_u32_lossy(n: u32) -> Option<Self>;
-
-    /// Sums all values in slice `values`.
-    fn sum(values: &[Self]) -> Self {
-        values.iter().map(|x| *x).sum()
-    }
-}
-
-macro_rules! impl_weight_for_float {
-    ($T: ident) => {
-        impl Weight for $T {
-            const MAX: Self = ::core::$T::MAX;
-            const ZERO: Self = 0.0;
-
-            fn try_from_u32_lossy(n: u32) -> Option<Self> {
-                Some(n as $T)
-            }
-
-            fn sum(values: &[Self]) -> Self {
-                pairwise_sum(values)
-            }
-        }
-    };
-}
-
-/// In comparison to naive accumulation, the pairwise sum algorithm reduces
-/// rounding errors when there are many floating point values.
-fn pairwise_sum<T: Weight>(values: &[T]) -> T {
-    if values.len() <= 32 {
-        values.iter().map(|x| *x).sum()
-    } else {
-        let mid = values.len() / 2;
-        let (a, b) = values.split_at(mid);
-        pairwise_sum(a) + pairwise_sum(b)
-    }
-}
-
-macro_rules! impl_weight_for_int {
-    ($T: ident) => {
-        impl Weight for $T {
-            const MAX: Self = ::core::$T::MAX;
-            const ZERO: Self = 0;
-
-            fn try_from_u32_lossy(n: u32) -> Option<Self> {
-                let n_converted = n as Self;
-                if n_converted >= Self::ZERO && n_converted as u32 == n {
-                    Some(n_converted)
-                } else {
-                    None
-                }
-            }
-        }
-    };
-}
-
-impl_weight_for_float!(f64);
-impl_weight_for_float!(f32);
-impl_weight_for_int!(usize);
-#[cfg(not(target_os = "emscripten"))]
-impl_weight_for_int!(u128);
-impl_weight_for_int!(u64);
-impl_weight_for_int!(u32);
-impl_weight_for_int!(u16);
-impl_weight_for_int!(u8);
-impl_weight_for_int!(isize);
-#[cfg(not(target_os = "emscripten"))]
-impl_weight_for_int!(i128);
-impl_weight_for_int!(i64);
-impl_weight_for_int!(i32);
-impl_weight_for_int!(i16);
-impl_weight_for_int!(i8);
-
-#[cfg(test)]
-mod test {
-    use super::*;
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weighted_index_f32() {
-        test_weighted_index(f32::into);
-
-        // Floating point special cases
-        assert_eq!(
-            WeightedIndex::new(vec![::core::f32::INFINITY]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![-0_f32]).unwrap_err(),
-            WeightedError::AllWeightsZero
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![-1_f32]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![-::core::f32::INFINITY]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![::core::f32::NAN]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-    }
-
-    #[cfg(not(target_os = "emscripten"))]
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weighted_index_u128() {
-        test_weighted_index(|x: u128| x as f64);
-    }
-
-    #[cfg(all(rustc_1_26, not(target_os = "emscripten")))]
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weighted_index_i128() {
-        test_weighted_index(|x: i128| x as f64);
-
-        // Signed integer special cases
-        assert_eq!(
-            WeightedIndex::new(vec![-1_i128]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![::core::i128::MIN]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weighted_index_u8() {
-        test_weighted_index(u8::into);
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weighted_index_i8() {
-        test_weighted_index(i8::into);
-
-        // Signed integer special cases
-        assert_eq!(
-            WeightedIndex::new(vec![-1_i8]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![::core::i8::MIN]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-    }
-
-    fn test_weighted_index<W: Weight, F: Fn(W) -> f64>(w_to_f64: F)
-    where
-        WeightedIndex<W>: fmt::Debug,
-    {
-        const NUM_WEIGHTS: u32 = 10;
-        const ZERO_WEIGHT_INDEX: u32 = 3;
-        const NUM_SAMPLES: u32 = 15000;
-        let mut rng = crate::test::rng(0x9c9fa0b0580a7031);
-
-        let weights = {
-            let mut weights = Vec::with_capacity(NUM_WEIGHTS as usize);
-            let random_weight_distribution = crate::distributions::Uniform::new_inclusive(
-                W::ZERO,
-                W::MAX / W::try_from_u32_lossy(NUM_WEIGHTS).unwrap(),
-            );
-            for _ in 0..NUM_WEIGHTS {
-                weights.push(rng.sample(&random_weight_distribution));
-            }
-            weights[ZERO_WEIGHT_INDEX as usize] = W::ZERO;
-            weights
-        };
-        let weight_sum = weights.iter().map(|w| *w).sum::<W>();
-        let expected_counts = weights
-            .iter()
-            .map(|&w| w_to_f64(w) / w_to_f64(weight_sum) * NUM_SAMPLES as f64)
-            .collect::<Vec<f64>>();
-        let weight_distribution = WeightedIndex::new(weights).unwrap();
-
-        let mut counts = vec![0; NUM_WEIGHTS as usize];
-        for _ in 0..NUM_SAMPLES {
-            counts[rng.sample(&weight_distribution)] += 1;
-        }
-
-        assert_eq!(counts[ZERO_WEIGHT_INDEX as usize], 0);
-        for (count, expected_count) in counts.into_iter().zip(expected_counts) {
-            let difference = (count as f64 - expected_count).abs();
-            let max_allowed_difference = NUM_SAMPLES as f64 / NUM_WEIGHTS as f64 * 0.1;
-            assert!(difference <= max_allowed_difference);
-        }
-
-        assert_eq!(
-            WeightedIndex::<W>::new(vec![]).unwrap_err(),
-            WeightedError::NoItem
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![W::ZERO]).unwrap_err(),
-            WeightedError::AllWeightsZero
-        );
-        assert_eq!(
-            WeightedIndex::new(vec![W::MAX, W::MAX]).unwrap_err(),
-            WeightedError::InvalidWeight
-        );
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/weighted/mod.rs.html b/target/doc/src/rand/distributions/weighted/mod.rs.html deleted file mode 100644 index 46d567b..0000000 --- a/target/doc/src/rand/distributions/weighted/mod.rs.html +++ /dev/null @@ -1,499 +0,0 @@ -mod.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Weighted index sampling
-//! 
-//! This module provides two implementations for sampling indices:
-//! 
-//! *   [`WeightedIndex`] allows `O(log N)` sampling
-//! *   [`alias_method::WeightedIndex`] allows `O(1)` sampling, but with
-//!      much greater set-up cost
-//!      
-//! [`alias_method::WeightedIndex`]: alias_method/struct.WeightedIndex.html
-
-pub mod alias_method;
-
-use crate::Rng;
-use crate::distributions::Distribution;
-use crate::distributions::uniform::{UniformSampler, SampleUniform, SampleBorrow};
-use core::cmp::PartialOrd;
-use core::fmt;
-
-// Note that this whole module is only imported if feature="alloc" is enabled.
-#[cfg(not(feature="std"))] use crate::alloc::vec::Vec;
-
-/// A distribution using weighted sampling to pick a discretely selected
-/// item.
-///
-/// Sampling a `WeightedIndex` distribution returns the index of a randomly
-/// selected element from the iterator used when the `WeightedIndex` was
-/// created. The chance of a given element being picked is proportional to the
-/// value of the element. The weights can use any type `X` for which an
-/// implementation of [`Uniform<X>`] exists.
-///
-/// # Performance
-///
-/// A `WeightedIndex<X>` contains a `Vec<X>` and a [`Uniform<X>`] and so its
-/// size is the sum of the size of those objects, possibly plus some alignment.
-///
-/// Creating a `WeightedIndex<X>` will allocate enough space to hold `N - 1`
-/// weights of type `X`, where `N` is the number of weights. However, since
-/// `Vec` doesn't guarantee a particular growth strategy, additional memory
-/// might be allocated but not used. Since the `WeightedIndex` object also
-/// contains, this might cause additional allocations, though for primitive
-/// types, ['Uniform<X>`] doesn't allocate any memory.
-///
-/// Time complexity of sampling from `WeightedIndex` is `O(log N)` where
-/// `N` is the number of weights.
-///
-/// Sampling from `WeightedIndex` will result in a single call to
-/// `Uniform<X>::sample` (method of the [`Distribution`] trait), which typically
-/// will request a single value from the underlying [`RngCore`], though the
-/// exact number depends on the implementaiton of `Uniform<X>::sample`.
-///
-/// # Example
-///
-/// ```
-/// use rand::prelude::*;
-/// use rand::distributions::WeightedIndex;
-///
-/// let choices = ['a', 'b', 'c'];
-/// let weights = [2,   1,   1];
-/// let dist = WeightedIndex::new(&weights).unwrap();
-/// let mut rng = thread_rng();
-/// for _ in 0..100 {
-///     // 50% chance to print 'a', 25% chance to print 'b', 25% chance to print 'c'
-///     println!("{}", choices[dist.sample(&mut rng)]);
-/// }
-///
-/// let items = [('a', 0), ('b', 3), ('c', 7)];
-/// let dist2 = WeightedIndex::new(items.iter().map(|item| item.1)).unwrap();
-/// for _ in 0..100 {
-///     // 0% chance to print 'a', 30% chance to print 'b', 70% chance to print 'c'
-///     println!("{}", items[dist2.sample(&mut rng)].0);
-/// }
-/// ```
-///
-/// [`Uniform<X>`]: crate::distributions::uniform::Uniform
-/// [`RngCore`]: crate::RngCore
-#[derive(Debug, Clone)]
-pub struct WeightedIndex<X: SampleUniform + PartialOrd> {
-    cumulative_weights: Vec<X>,
-    weight_distribution: X::Sampler,
-}
-
-impl<X: SampleUniform + PartialOrd> WeightedIndex<X> {
-    /// Creates a new a `WeightedIndex` [`Distribution`] using the values
-    /// in `weights`. The weights can use any type `X` for which an
-    /// implementation of [`Uniform<X>`] exists.
-    ///
-    /// Returns an error if the iterator is empty, if any weight is `< 0`, or
-    /// if its total value is 0.
-    ///
-    /// [`Uniform<X>`]: crate::distributions::uniform::Uniform
-    pub fn new<I>(weights: I) -> Result<WeightedIndex<X>, WeightedError>
-        where I: IntoIterator,
-              I::Item: SampleBorrow<X>,
-              X: for<'a> ::core::ops::AddAssign<&'a X> +
-                 Clone +
-                 Default {
-        let mut iter = weights.into_iter();
-        let mut total_weight: X = iter.next()
-                                      .ok_or(WeightedError::NoItem)?
-                                      .borrow()
-                                      .clone();
-
-        let zero = <X as Default>::default();
-        if total_weight < zero {
-            return Err(WeightedError::InvalidWeight);
-        }
-
-        let mut weights = Vec::<X>::with_capacity(iter.size_hint().0);
-        for w in iter {
-            if *w.borrow() < zero {
-                return Err(WeightedError::InvalidWeight);
-            }
-            weights.push(total_weight.clone());
-            total_weight += w.borrow();
-        }
-
-        if total_weight == zero {
-            return Err(WeightedError::AllWeightsZero);
-        }
-        let distr = X::Sampler::new(zero, total_weight);
-
-        Ok(WeightedIndex { cumulative_weights: weights, weight_distribution: distr })
-    }
-}
-
-impl<X> Distribution<usize> for WeightedIndex<X> where
-    X: SampleUniform + PartialOrd {
-    fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> usize {
-        use ::core::cmp::Ordering;
-        let chosen_weight = self.weight_distribution.sample(rng);
-        // Find the first item which has a weight *higher* than the chosen weight.
-        self.cumulative_weights.binary_search_by(
-            |w| if *w <= chosen_weight { Ordering::Less } else { Ordering::Greater }).unwrap_err()
-    }
-}
-
-#[cfg(test)]
-mod test {
-    use super::*;
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weightedindex() {
-        let mut r = crate::test::rng(700);
-        const N_REPS: u32 = 5000;
-        let weights = [1u32, 2, 3, 0, 5, 6, 7, 1, 2, 3, 4, 5, 6, 7];
-        let total_weight = weights.iter().sum::<u32>() as f32;
-
-        let verify = |result: [i32; 14]| {
-            for (i, count) in result.iter().enumerate() {
-                let exp = (weights[i] * N_REPS) as f32 / total_weight;
-                let mut err = (*count as f32 - exp).abs();
-                if err != 0.0 {
-                    err /= exp;
-                }
-                assert!(err <= 0.25);
-            }
-        };
-
-        // WeightedIndex from vec
-        let mut chosen = [0i32; 14];
-        let distr = WeightedIndex::new(weights.to_vec()).unwrap();
-        for _ in 0..N_REPS {
-            chosen[distr.sample(&mut r)] += 1;
-        }
-        verify(chosen);
-
-        // WeightedIndex from slice
-        chosen = [0i32; 14];
-        let distr = WeightedIndex::new(&weights[..]).unwrap();
-        for _ in 0..N_REPS {
-            chosen[distr.sample(&mut r)] += 1;
-        }
-        verify(chosen);
-
-        // WeightedIndex from iterator
-        chosen = [0i32; 14];
-        let distr = WeightedIndex::new(weights.iter()).unwrap();
-        for _ in 0..N_REPS {
-            chosen[distr.sample(&mut r)] += 1;
-        }
-        verify(chosen);
-
-        for _ in 0..5 {
-            assert_eq!(WeightedIndex::new(&[0, 1]).unwrap().sample(&mut r), 1);
-            assert_eq!(WeightedIndex::new(&[1, 0]).unwrap().sample(&mut r), 0);
-            assert_eq!(WeightedIndex::new(&[0, 0, 0, 0, 10, 0]).unwrap().sample(&mut r), 4);
-        }
-
-        assert_eq!(WeightedIndex::new(&[10][0..0]).unwrap_err(), WeightedError::NoItem);
-        assert_eq!(WeightedIndex::new(&[0]).unwrap_err(), WeightedError::AllWeightsZero);
-        assert_eq!(WeightedIndex::new(&[10, 20, -1, 30]).unwrap_err(), WeightedError::InvalidWeight);
-        assert_eq!(WeightedIndex::new(&[-10, 20, 1, 30]).unwrap_err(), WeightedError::InvalidWeight);
-        assert_eq!(WeightedIndex::new(&[-10]).unwrap_err(), WeightedError::InvalidWeight);
-    }
-}
-
-/// Error type returned from `WeightedIndex::new`.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum WeightedError {
-    /// The provided weight collection contains no items.
-    NoItem,
-
-    /// A weight is either less than zero, greater than the supported maximum or
-    /// otherwise invalid.
-    InvalidWeight,
-
-    /// All items in the provided weight collection are zero.
-    AllWeightsZero,
-    
-    /// Too many weights are provided (length greater than `u32::MAX`)
-    TooMany,
-}
-
-impl WeightedError {
-    fn msg(&self) -> &str {
-        match *self {
-            WeightedError::NoItem => "No weights provided.",
-            WeightedError::InvalidWeight => "A weight is invalid.",
-            WeightedError::AllWeightsZero => "All weights are zero.",
-            WeightedError::TooMany => "Too many weights (hit u32::MAX)",
-        }
-    }
-}
-
-#[cfg(feature="std")]
-impl ::std::error::Error for WeightedError {
-    fn description(&self) -> &str {
-        self.msg()
-    }
-    fn cause(&self) -> Option<&dyn (::std::error::Error)> {
-        None
-    }
-}
-
-impl fmt::Display for WeightedError {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "{}", self.msg())
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/distributions/ziggurat_tables.rs.html b/target/doc/src/rand/distributions/ziggurat_tables.rs.html deleted file mode 100644 index 2f13187..0000000 --- a/target/doc/src/rand/distributions/ziggurat_tables.rs.html +++ /dev/null @@ -1,561 +0,0 @@ -ziggurat_tables.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-// Tables for distributions which are sampled using the ziggurat
-// algorithm. Autogenerated by `ziggurat_tables.py`.
-
-pub type ZigTable = &'static [f64; 257];
-pub const ZIG_NORM_R: f64 = 3.654152885361008796;
-pub static ZIG_NORM_X: [f64; 257] =
-    [3.910757959537090045, 3.654152885361008796, 3.449278298560964462, 3.320244733839166074,
-     3.224575052047029100, 3.147889289517149969, 3.083526132001233044, 3.027837791768635434,
-     2.978603279880844834, 2.934366867207854224, 2.894121053612348060, 2.857138730872132548,
-     2.822877396825325125, 2.790921174000785765, 2.760944005278822555, 2.732685359042827056,
-     2.705933656121858100, 2.680514643284522158, 2.656283037575502437, 2.633116393630324570,
-     2.610910518487548515, 2.589575986706995181, 2.569035452680536569, 2.549221550323460761,
-     2.530075232158516929, 2.511544441625342294, 2.493583041269680667, 2.476149939669143318,
-     2.459208374333311298, 2.442725318198956774, 2.426670984935725972, 2.411018413899685520,
-     2.395743119780480601, 2.380822795170626005, 2.366237056715818632, 2.351967227377659952,
-     2.337996148795031370, 2.324308018869623016, 2.310888250599850036, 2.297723348901329565,
-     2.284800802722946056, 2.272108990226823888, 2.259637095172217780, 2.247375032945807760,
-     2.235313384928327984, 2.223443340090905718, 2.211756642882544366, 2.200245546609647995,
-     2.188902771624720689, 2.177721467738641614, 2.166695180352645966, 2.155817819875063268,
-     2.145083634046203613, 2.134487182844320152, 2.124023315687815661, 2.113687150684933957,
-     2.103474055713146829, 2.093379631137050279, 2.083399693996551783, 2.073530263516978778,
-     2.063767547809956415, 2.054107931648864849, 2.044547965215732788, 2.035084353727808715,
-     2.025713947862032960, 2.016433734904371722, 2.007240830558684852, 1.998132471356564244,
-     1.989106007615571325, 1.980158896898598364, 1.971288697931769640, 1.962493064942461896,
-     1.953769742382734043, 1.945116560006753925, 1.936531428273758904, 1.928012334050718257,
-     1.919557336591228847, 1.911164563769282232, 1.902832208548446369, 1.894558525668710081,
-     1.886341828534776388, 1.878180486290977669, 1.870072921069236838, 1.862017605397632281,
-     1.854013059758148119, 1.846057850283119750, 1.838150586580728607, 1.830289919680666566,
-     1.822474540091783224, 1.814703175964167636, 1.806974591348693426, 1.799287584547580199,
-     1.791640986550010028, 1.784033659547276329, 1.776464495522344977, 1.768932414909077933,
-     1.761436365316706665, 1.753975320315455111, 1.746548278279492994, 1.739154261283669012,
-     1.731792314050707216, 1.724461502945775715, 1.717160915015540690, 1.709889657069006086,
-     1.702646854797613907, 1.695431651932238548, 1.688243209434858727, 1.681080704722823338,
-     1.673943330923760353, 1.666830296159286684, 1.659740822855789499, 1.652674147080648526,
-     1.645629517902360339, 1.638606196773111146, 1.631603456932422036, 1.624620582830568427,
-     1.617656869570534228, 1.610711622367333673, 1.603784156023583041, 1.596873794420261339,
-     1.589979870021648534, 1.583101723393471438, 1.576238702733332886, 1.569390163412534456,
-     1.562555467528439657, 1.555733983466554893, 1.548925085471535512, 1.542128153226347553,
-     1.535342571438843118, 1.528567729435024614, 1.521803020758293101, 1.515047842773992404,
-     1.508301596278571965, 1.501563685112706548, 1.494833515777718391, 1.488110497054654369,
-     1.481394039625375747, 1.474683555695025516, 1.467978458615230908, 1.461278162507407830,
-     1.454582081885523293, 1.447889631277669675, 1.441200224845798017, 1.434513276002946425,
-     1.427828197027290358, 1.421144398672323117, 1.414461289772464658, 1.407778276843371534,
-     1.401094763676202559, 1.394410150925071257, 1.387723835686884621, 1.381035211072741964,
-     1.374343665770030531, 1.367648583594317957, 1.360949343030101844, 1.354245316759430606,
-     1.347535871177359290, 1.340820365893152122, 1.334098153216083604, 1.327368577624624679,
-     1.320630975217730096, 1.313884673146868964, 1.307128989027353860, 1.300363230327433728,
-     1.293586693733517645, 1.286798664489786415, 1.279998415710333237, 1.273185207661843732,
-     1.266358287014688333, 1.259516886060144225, 1.252660221891297887, 1.245787495544997903,
-     1.238897891102027415, 1.231990574742445110, 1.225064693752808020, 1.218119375481726552,
-     1.211153726239911244, 1.204166830140560140, 1.197157747875585931, 1.190125515422801650,
-     1.183069142678760732, 1.175987612011489825, 1.168879876726833800, 1.161744859441574240,
-     1.154581450355851802, 1.147388505416733873, 1.140164844363995789, 1.132909248648336975,
-     1.125620459211294389, 1.118297174115062909, 1.110938046009249502, 1.103541679420268151,
-     1.096106627847603487, 1.088631390649514197, 1.081114409698889389, 1.073554065787871714,
-     1.065948674757506653, 1.058296483326006454, 1.050595664586207123, 1.042844313139370538,
-     1.035040439828605274, 1.027181966030751292, 1.019266717460529215, 1.011292417434978441,
-     1.003256679539591412, 0.995156999629943084, 0.986990747093846266, 0.978755155288937750,
-     0.970447311058864615, 0.962064143217605250, 0.953602409875572654, 0.945058684462571130,
-     0.936429340280896860, 0.927710533396234771, 0.918898183643734989, 0.909987953490768997,
-     0.900975224455174528, 0.891855070726792376, 0.882622229578910122, 0.873271068082494550,
-     0.863795545546826915, 0.854189171001560554, 0.844444954902423661, 0.834555354079518752,
-     0.824512208745288633, 0.814306670128064347, 0.803929116982664893, 0.793369058833152785,
-     0.782615023299588763, 0.771654424216739354, 0.760473406422083165, 0.749056662009581653,
-     0.737387211425838629, 0.725446140901303549, 0.713212285182022732, 0.700661841097584448,
-     0.687767892786257717, 0.674499822827436479, 0.660822574234205984, 0.646695714884388928,
-     0.632072236375024632, 0.616896989996235545, 0.601104617743940417, 0.584616766093722262,
-     0.567338257040473026, 0.549151702313026790, 0.529909720646495108, 0.509423329585933393,
-     0.487443966121754335, 0.463634336771763245, 0.437518402186662658, 0.408389134588000746,
-     0.375121332850465727, 0.335737519180459465, 0.286174591747260509, 0.215241895913273806,
-     0.000000000000000000];
-pub static ZIG_NORM_F: [f64; 257] =
-    [0.000477467764586655, 0.001260285930498598, 0.002609072746106363, 0.004037972593371872,
-     0.005522403299264754, 0.007050875471392110, 0.008616582769422917, 0.010214971439731100,
-     0.011842757857943104, 0.013497450601780807, 0.015177088307982072, 0.016880083152595839,
-     0.018605121275783350, 0.020351096230109354, 0.022117062707379922, 0.023902203305873237,
-     0.025705804008632656, 0.027527235669693315, 0.029365939758230111, 0.031221417192023690,
-     0.033093219458688698, 0.034980941461833073, 0.036884215688691151, 0.038802707404656918,
-     0.040736110656078753, 0.042684144916619378, 0.044646552251446536, 0.046623094902089664,
-     0.048613553216035145, 0.050617723861121788, 0.052635418276973649, 0.054666461325077916,
-     0.056710690106399467, 0.058767952921137984, 0.060838108349751806, 0.062921024437977854,
-     0.065016577971470438, 0.067124653828023989, 0.069245144397250269, 0.071377949059141965,
-     0.073522973714240991, 0.075680130359194964, 0.077849336702372207, 0.080030515814947509,
-     0.082223595813495684, 0.084428509570654661, 0.086645194450867782, 0.088873592068594229,
-     0.091113648066700734, 0.093365311913026619, 0.095628536713353335, 0.097903279039215627,
-     0.100189498769172020, 0.102487158942306270, 0.104796225622867056, 0.107116667775072880,
-     0.109448457147210021, 0.111791568164245583, 0.114145977828255210, 0.116511665626037014,
-     0.118888613443345698, 0.121276805485235437, 0.123676228202051403, 0.126086870220650349,
-     0.128508722280473636, 0.130941777174128166, 0.133386029692162844, 0.135841476571757352,
-     0.138308116449064322, 0.140785949814968309, 0.143274978974047118, 0.145775208006537926,
-     0.148286642733128721, 0.150809290682410169, 0.153343161060837674, 0.155888264725064563,
-     0.158444614156520225, 0.161012223438117663, 0.163591108232982951, 0.166181285765110071,
-     0.168782774801850333, 0.171395595638155623, 0.174019770082499359, 0.176655321444406654,
-     0.179302274523530397, 0.181960655600216487, 0.184630492427504539, 0.187311814224516926,
-     0.190004651671193070, 0.192709036904328807, 0.195425003514885592, 0.198152586546538112,
-     0.200891822495431333, 0.203642749311121501, 0.206405406398679298, 0.209179834621935651,
-     0.211966076307852941, 0.214764175252008499, 0.217574176725178370, 0.220396127481011589,
-     0.223230075764789593, 0.226076071323264877, 0.228934165415577484, 0.231804410825248525,
-     0.234686861873252689, 0.237581574432173676, 0.240488605941449107, 0.243408015423711988,
-     0.246339863502238771, 0.249284212419516704, 0.252241126056943765, 0.255210669955677150,
-     0.258192911338648023, 0.261187919133763713, 0.264195763998317568, 0.267216518344631837,
-     0.270250256366959984, 0.273297054069675804, 0.276356989296781264, 0.279430141762765316,
-     0.282516593084849388, 0.285616426816658109, 0.288729728483353931, 0.291856585618280984,
-     0.294997087801162572, 0.298151326697901342, 0.301319396102034120, 0.304501391977896274,
-     0.307697412505553769, 0.310907558127563710, 0.314131931597630143, 0.317370638031222396,
-     0.320623784958230129, 0.323891482377732021, 0.327173842814958593, 0.330470981380537099,
-     0.333783015832108509, 0.337110066638412809, 0.340452257045945450, 0.343809713148291340,
-     0.347182563958251478, 0.350570941482881204, 0.353974980801569250, 0.357394820147290515,
-     0.360830600991175754, 0.364282468130549597, 0.367750569780596226, 0.371235057669821344,
-     0.374736087139491414, 0.378253817247238111, 0.381788410875031348, 0.385340034841733958,
-     0.388908860020464597, 0.392495061461010764, 0.396098818517547080, 0.399720314981931668,
-     0.403359739222868885, 0.407017284331247953, 0.410693148271983222, 0.414387534042706784,
-     0.418100649839684591, 0.421832709231353298, 0.425583931339900579, 0.429354541031341519,
-     0.433144769114574058, 0.436954852549929273, 0.440785034667769915, 0.444635565397727750,
-     0.448506701509214067, 0.452398706863882505, 0.456311852680773566, 0.460246417814923481,
-     0.464202689050278838, 0.468180961407822172, 0.472181538469883255, 0.476204732721683788,
-     0.480250865911249714, 0.484320269428911598, 0.488413284707712059, 0.492530263646148658,
-     0.496671569054796314, 0.500837575128482149, 0.505028667945828791, 0.509245245998136142,
-     0.513487720749743026, 0.517756517232200619, 0.522052074674794864, 0.526374847174186700,
-     0.530725304406193921, 0.535103932383019565, 0.539511234259544614, 0.543947731192649941,
-     0.548413963257921133, 0.552910490428519918, 0.557437893621486324, 0.561996775817277916,
-     0.566587763258951771, 0.571211506738074970, 0.575868682975210544, 0.580559996103683473,
-     0.585286179266300333, 0.590047996335791969, 0.594846243770991268, 0.599681752622167719,
-     0.604555390700549533, 0.609468064928895381, 0.614420723892076803, 0.619414360609039205,
-     0.624450015550274240, 0.629528779928128279, 0.634651799290960050, 0.639820277456438991,
-     0.645035480824251883, 0.650298743114294586, 0.655611470583224665, 0.660975147780241357,
-     0.666391343912380640, 0.671861719900766374, 0.677388036222513090, 0.682972161648791376,
-     0.688616083008527058, 0.694321916130032579, 0.700091918140490099, 0.705928501336797409,
-     0.711834248882358467, 0.717811932634901395, 0.723864533472881599, 0.729995264565802437,
-     0.736207598131266683, 0.742505296344636245, 0.748892447223726720, 0.755373506511754500,
-     0.761953346841546475, 0.768637315803334831, 0.775431304986138326, 0.782341832659861902,
-     0.789376143571198563, 0.796542330428254619, 0.803849483176389490, 0.811307874318219935,
-     0.818929191609414797, 0.826726833952094231, 0.834716292992930375, 0.842915653118441077,
-     0.851346258465123684, 0.860033621203008636, 0.869008688043793165, 0.878309655816146839,
-     0.887984660763399880, 0.898095921906304051, 0.908726440060562912, 0.919991505048360247,
-     0.932060075968990209, 0.945198953453078028, 0.959879091812415930, 0.977101701282731328,
-     1.000000000000000000];
-pub const ZIG_EXP_R: f64 = 7.697117470131050077;
-pub static ZIG_EXP_X: [f64; 257] =
-    [8.697117470131052741, 7.697117470131050077, 6.941033629377212577, 6.478378493832569696,
-     6.144164665772472667, 5.882144315795399869, 5.666410167454033697, 5.482890627526062488,
-     5.323090505754398016, 5.181487281301500047, 5.054288489981304089, 4.938777085901250530,
-     4.832939741025112035, 4.735242996601741083, 4.644491885420085175, 4.559737061707351380,
-     4.480211746528421912, 4.405287693473573185, 4.334443680317273007, 4.267242480277365857,
-     4.203313713735184365, 4.142340865664051464, 4.084051310408297830, 4.028208544647936762,
-     3.974606066673788796, 3.923062500135489739, 3.873417670399509127, 3.825529418522336744,
-     3.779270992411667862, 3.734528894039797375, 3.691201090237418825, 3.649195515760853770,
-     3.608428813128909507, 3.568825265648337020, 3.530315889129343354, 3.492837654774059608,
-     3.456332821132760191, 3.420748357251119920, 3.386035442460300970, 3.352149030900109405,
-     3.319047470970748037, 3.286692171599068679, 3.255047308570449882, 3.224079565286264160,
-     3.193757903212240290, 3.164053358025972873, 3.134938858084440394, 3.106389062339824481,
-     3.078380215254090224, 3.050890016615455114, 3.023897504455676621, 2.997382949516130601,
-     2.971327759921089662, 2.945714394895045718, 2.920526286512740821, 2.895747768600141825,
-     2.871364012015536371, 2.847360965635188812, 2.823725302450035279, 2.800444370250737780,
-     2.777506146439756574, 2.754899196562344610, 2.732612636194700073, 2.710636095867928752,
-     2.688959688741803689, 2.667573980773266573, 2.646469963151809157, 2.625639026797788489,
-     2.605072938740835564, 2.584763820214140750, 2.564704126316905253, 2.544886627111869970,
-     2.525304390037828028, 2.505950763528594027, 2.486819361740209455, 2.467904050297364815,
-     2.449198932978249754, 2.430698339264419694, 2.412396812688870629, 2.394289099921457886,
-     2.376370140536140596, 2.358635057409337321, 2.341079147703034380, 2.323697874390196372,
-     2.306486858283579799, 2.289441870532269441, 2.272558825553154804, 2.255833774367219213,
-     2.239262898312909034, 2.222842503111036816, 2.206569013257663858, 2.190438966723220027,
-     2.174449009937774679, 2.158595893043885994, 2.142876465399842001, 2.127287671317368289,
-     2.111826546019042183, 2.096490211801715020, 2.081275874393225145, 2.066180819490575526,
-     2.051202409468584786, 2.036338080248769611, 2.021585338318926173, 2.006941757894518563,
-     1.992404978213576650, 1.977972700957360441, 1.963642687789548313, 1.949412758007184943,
-     1.935280786297051359, 1.921244700591528076, 1.907302480018387536, 1.893452152939308242,
-     1.879691795072211180, 1.866019527692827973, 1.852433515911175554, 1.838931967018879954,
-     1.825513128903519799, 1.812175288526390649, 1.798916770460290859, 1.785735935484126014,
-     1.772631179231305643, 1.759600930889074766, 1.746643651946074405, 1.733757834985571566,
-     1.720942002521935299, 1.708194705878057773, 1.695514524101537912, 1.682900062917553896,
-     1.670349953716452118, 1.657862852574172763, 1.645437439303723659, 1.633072416535991334,
-     1.620766508828257901, 1.608518461798858379, 1.596327041286483395, 1.584191032532688892,
-     1.572109239386229707, 1.560080483527888084, 1.548103603714513499, 1.536177455041032092,
-     1.524300908219226258, 1.512472848872117082, 1.500692176842816750, 1.488957805516746058,
-     1.477268661156133867, 1.465623682245745352, 1.454021818848793446, 1.442462031972012504,
-     1.430943292938879674, 1.419464582769983219, 1.408024891569535697, 1.396623217917042137,
-     1.385258568263121992, 1.373929956328490576, 1.362636402505086775, 1.351376933258335189,
-     1.340150580529504643, 1.328956381137116560, 1.317793376176324749, 1.306660610415174117,
-     1.295557131686601027, 1.284481990275012642, 1.273434238296241139, 1.262412929069615330,
-     1.251417116480852521, 1.240445854334406572, 1.229498195693849105, 1.218573192208790124,
-     1.207669893426761121, 1.196787346088403092, 1.185924593404202199, 1.175080674310911677,
-     1.164254622705678921, 1.153445466655774743, 1.142652227581672841, 1.131873919411078511,
-     1.121109547701330200, 1.110358108727411031, 1.099618588532597308, 1.088889961938546813,
-     1.078171191511372307, 1.067461226479967662, 1.056759001602551429, 1.046063435977044209,
-     1.035373431790528542, 1.024687873002617211, 1.014005623957096480, 1.003325527915696735,
-     0.992646405507275897, 0.981967053085062602, 0.971286240983903260, 0.960602711668666509,
-     0.949915177764075969, 0.939222319955262286, 0.928522784747210395, 0.917815182070044311,
-     0.907098082715690257, 0.896370015589889935, 0.885629464761751528, 0.874874866291025066,
-     0.864104604811004484, 0.853317009842373353, 0.842510351810368485, 0.831682837734273206,
-     0.820832606554411814, 0.809957724057418282, 0.799056177355487174, 0.788125868869492430,
-     0.777164609759129710, 0.766170112735434672, 0.755139984181982249, 0.744071715500508102,
-     0.732962673584365398, 0.721810090308756203, 0.710611050909655040, 0.699362481103231959,
-     0.688061132773747808, 0.676703568029522584, 0.665286141392677943, 0.653804979847664947,
-     0.642255960424536365, 0.630634684933490286, 0.618936451394876075, 0.607156221620300030,
-     0.595288584291502887, 0.583327712748769489, 0.571267316532588332, 0.559100585511540626,
-     0.546820125163310577, 0.534417881237165604, 0.521885051592135052, 0.509211982443654398,
-     0.496388045518671162, 0.483401491653461857, 0.470239275082169006, 0.456886840931420235,
-     0.443327866073552401, 0.429543940225410703, 0.415514169600356364, 0.401214678896277765,
-     0.386617977941119573, 0.371692145329917234, 0.356399760258393816, 0.340696481064849122,
-     0.324529117016909452, 0.307832954674932158, 0.290527955491230394, 0.272513185478464703,
-     0.253658363385912022, 0.233790483059674731, 0.212671510630966620, 0.189958689622431842,
-     0.165127622564187282, 0.137304980940012589, 0.104838507565818778, 0.063852163815001570,
-     0.000000000000000000];
-pub static ZIG_EXP_F: [f64; 257] =
-    [0.000167066692307963, 0.000454134353841497, 0.000967269282327174, 0.001536299780301573,
-     0.002145967743718907, 0.002788798793574076, 0.003460264777836904, 0.004157295120833797,
-     0.004877655983542396, 0.005619642207205489, 0.006381905937319183, 0.007163353183634991,
-     0.007963077438017043, 0.008780314985808977, 0.009614413642502212, 0.010464810181029981,
-     0.011331013597834600, 0.012212592426255378, 0.013109164931254991, 0.014020391403181943,
-     0.014945968011691148, 0.015885621839973156, 0.016839106826039941, 0.017806200410911355,
-     0.018786700744696024, 0.019780424338009740, 0.020787204072578114, 0.021806887504283581,
-     0.022839335406385240, 0.023884420511558174, 0.024942026419731787, 0.026012046645134221,
-     0.027094383780955803, 0.028188948763978646, 0.029295660224637411, 0.030414443910466622,
-     0.031545232172893622, 0.032687963508959555, 0.033842582150874358, 0.035009037697397431,
-     0.036187284781931443, 0.037377282772959382, 0.038578995503074871, 0.039792391023374139,
-     0.041017441380414840, 0.042254122413316254, 0.043502413568888197, 0.044762297732943289,
-     0.046033761076175184, 0.047316792913181561, 0.048611385573379504, 0.049917534282706379,
-     0.051235237055126281, 0.052564494593071685, 0.053905310196046080, 0.055257689676697030,
-     0.056621641283742870, 0.057997175631200659, 0.059384305633420280, 0.060783046445479660,
-     0.062193415408541036, 0.063615431999807376, 0.065049117786753805, 0.066494496385339816,
-     0.067951593421936643, 0.069420436498728783, 0.070901055162371843, 0.072393480875708752,
-     0.073897746992364746, 0.075413888734058410, 0.076941943170480517, 0.078481949201606435,
-     0.080033947542319905, 0.081597980709237419, 0.083174093009632397, 0.084762330532368146,
-     0.086362741140756927, 0.087975374467270231, 0.089600281910032886, 0.091237516631040197,
-     0.092887133556043569, 0.094549189376055873, 0.096223742550432825, 0.097910853311492213,
-     0.099610583670637132, 0.101322997425953631, 0.103048160171257702, 0.104786139306570145,
-     0.106537004050001632, 0.108300825451033755, 0.110077676405185357, 0.111867631670056283,
-     0.113670767882744286, 0.115487163578633506, 0.117316899211555525, 0.119160057175327641,
-     0.121016721826674792, 0.122886979509545108, 0.124770918580830933, 0.126668629437510671,
-     0.128580204545228199, 0.130505738468330773, 0.132445327901387494, 0.134399071702213602,
-     0.136367070926428829, 0.138349428863580176, 0.140346251074862399, 0.142357645432472146,
-     0.144383722160634720, 0.146424593878344889, 0.148480375643866735, 0.150551185001039839,
-     0.152637142027442801, 0.154738369384468027, 0.156854992369365148, 0.158987138969314129,
-     0.161134939917591952, 0.163298528751901734, 0.165478041874935922, 0.167673618617250081,
-     0.169885401302527550, 0.172113535315319977, 0.174358169171353411, 0.176619454590494829,
-     0.178897546572478278, 0.181192603475496261, 0.183504787097767436, 0.185834262762197083,
-     0.188181199404254262, 0.190545769663195363, 0.192928149976771296, 0.195328520679563189,
-     0.197747066105098818, 0.200183974691911210, 0.202639439093708962, 0.205113656293837654,
-     0.207606827724221982, 0.210119159388988230, 0.212650861992978224, 0.215202151075378628,
-     0.217773247148700472, 0.220364375843359439, 0.222975768058120111, 0.225607660116683956,
-     0.228260293930716618, 0.230933917169627356, 0.233628783437433291, 0.236345152457059560,
-     0.239083290262449094, 0.241843469398877131, 0.244625969131892024, 0.247431075665327543,
-     0.250259082368862240, 0.253110290015629402, 0.255985007030415324, 0.258883549749016173,
-     0.261806242689362922, 0.264753418835062149, 0.267725419932044739, 0.270722596799059967,
-     0.273745309652802915, 0.276793928448517301, 0.279868833236972869, 0.282970414538780746,
-     0.286099073737076826, 0.289255223489677693, 0.292439288161892630, 0.295651704281261252,
-     0.298892921015581847, 0.302163400675693528, 0.305463619244590256, 0.308794066934560185,
-     0.312155248774179606, 0.315547685227128949, 0.318971912844957239, 0.322428484956089223,
-     0.325917972393556354, 0.329440964264136438, 0.332998068761809096, 0.336589914028677717,
-     0.340217149066780189, 0.343880444704502575, 0.347580494621637148, 0.351318016437483449,
-     0.355093752866787626, 0.358908472948750001, 0.362762973354817997, 0.366658079781514379,
-     0.370594648435146223, 0.374573567615902381, 0.378595759409581067, 0.382662181496010056,
-     0.386773829084137932, 0.390931736984797384, 0.395136981833290435, 0.399390684475231350,
-     0.403694012530530555, 0.408048183152032673, 0.412454465997161457, 0.416914186433003209,
-     0.421428728997616908, 0.425999541143034677, 0.430628137288459167, 0.435316103215636907,
-     0.440065100842354173, 0.444876873414548846, 0.449753251162755330, 0.454696157474615836,
-     0.459707615642138023, 0.464789756250426511, 0.469944825283960310, 0.475175193037377708,
-     0.480483363930454543, 0.485871987341885248, 0.491343869594032867, 0.496901987241549881,
-     0.502549501841348056, 0.508289776410643213, 0.514126393814748894, 0.520063177368233931,
-     0.526104213983620062, 0.532253880263043655, 0.538516872002862246, 0.544898237672440056,
-     0.551403416540641733, 0.558038282262587892, 0.564809192912400615, 0.571723048664826150,
-     0.578787358602845359, 0.586010318477268366, 0.593400901691733762, 0.600968966365232560,
-     0.608725382079622346, 0.616682180915207878, 0.624852738703666200, 0.633251994214366398,
-     0.641896716427266423, 0.650805833414571433, 0.660000841079000145, 0.669506316731925177,
-     0.679350572264765806, 0.689566496117078431, 0.700192655082788606, 0.711274760805076456,
-     0.722867659593572465, 0.735038092431424039, 0.747868621985195658, 0.761463388849896838,
-     0.775956852040116218, 0.791527636972496285, 0.808421651523009044, 0.826993296643051101,
-     0.847785500623990496, 0.871704332381204705, 0.900469929925747703, 0.938143680862176477,
-     1.000000000000000000];
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/lib.rs.html b/target/doc/src/rand/lib.rs.html deleted file mode 100644 index a5e4eb9..0000000 --- a/target/doc/src/rand/lib.rs.html +++ /dev/null @@ -1,1441 +0,0 @@ -lib.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013-2017 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Utilities for random number generation
-//!
-//! Rand provides utilities to generate random numbers, to convert them to
-//! useful types and distributions, and some randomness-related algorithms.
-//!
-//! # Quick Start
-//!
-//! To get you started quickly, the easiest and highest-level way to get
-//! a random value is to use [`random()`]; alternatively you can use
-//! [`thread_rng()`]. The [`Rng`] trait provides a useful API on all RNGs, while
-//! the [`distributions`] and [`seq`] modules provide further
-//! functionality on top of RNGs.
-//!
-//! ```
-//! use rand::prelude::*;
-//!
-//! if rand::random() { // generates a boolean
-//!     // Try printing a random unicode code point (probably a bad idea)!
-//!     println!("char: {}", rand::random::<char>());
-//! }
-//!
-//! let mut rng = rand::thread_rng();
-//! let y: f64 = rng.gen(); // generates a float between 0 and 1
-//!
-//! let mut nums: Vec<i32> = (1..100).collect();
-//! nums.shuffle(&mut rng);
-//! ```
-//!
-//! # The Book
-//!
-//! For the user guide and futher documentation, please read
-//! [The Rust Rand Book](https://rust-random.github.io/book).
-
-
-#![doc(html_logo_url = "https://www.rust-lang.org/logos/rust-logo-128x128-blk.png",
-       html_favicon_url = "https://www.rust-lang.org/favicon.ico",
-       html_root_url = "https://rust-random.github.io/rand/")]
-
-#![deny(missing_docs)]
-#![deny(missing_debug_implementations)]
-#![doc(test(attr(allow(unused_variables), deny(warnings))))]
-
-#![cfg_attr(not(feature="std"), no_std)]
-#![cfg_attr(all(feature="alloc", not(feature="std")), feature(alloc))]
-#![cfg_attr(all(feature="simd_support", feature="nightly"), feature(stdsimd))]
-
-#[cfg(all(feature="alloc", not(feature="std")))]
-extern crate alloc;
-
-#[cfg(feature = "getrandom")]
-use getrandom_package as getrandom;
-
-#[allow(unused)]
-macro_rules! trace { ($($x:tt)*) => (
-    #[cfg(feature = "log")] {
-        log::trace!($($x)*)
-    }
-) }
-#[allow(unused)]
-macro_rules! debug { ($($x:tt)*) => (
-    #[cfg(feature = "log")] {
-        log::debug!($($x)*)
-    }
-) }
-#[allow(unused)]
-macro_rules! info { ($($x:tt)*) => (
-    #[cfg(feature = "log")] {
-        log::info!($($x)*)
-    }
-) }
-#[allow(unused)]
-macro_rules! warn { ($($x:tt)*) => (
-    #[cfg(feature = "log")] {
-        log::warn!($($x)*)
-    }
-) }
-#[allow(unused)]
-macro_rules! error { ($($x:tt)*) => (
-    #[cfg(feature = "log")] {
-        log::error!($($x)*)
-    }
-) }
-
-// Re-exports from rand_core
-pub use rand_core::{RngCore, CryptoRng, SeedableRng, Error};
-
-// Public exports
-#[cfg(feature="std")] pub use crate::rngs::thread::thread_rng;
-
-// Public modules
-pub mod distributions;
-pub mod prelude;
-pub mod rngs;
-pub mod seq;
-
-
-use core::{mem, slice};
-use core::num::Wrapping;
-use crate::distributions::{Distribution, Standard};
-use crate::distributions::uniform::{SampleUniform, UniformSampler, SampleBorrow};
-
-/// An automatically-implemented extension trait on [`RngCore`] providing high-level
-/// generic methods for sampling values and other convenience methods.
-///
-/// This is the primary trait to use when generating random values.
-///
-/// # Generic usage
-///
-/// The basic pattern is `fn foo<R: Rng + ?Sized>(rng: &mut R)`. Some
-/// things are worth noting here:
-///
-/// - Since `Rng: RngCore` and every `RngCore` implements `Rng`, it makes no
-///   difference whether we use `R: Rng` or `R: RngCore`.
-/// - The `+ ?Sized` un-bounding allows functions to be called directly on
-///   type-erased references; i.e. `foo(r)` where `r: &mut RngCore`. Without
-///   this it would be necessary to write `foo(&mut r)`.
-///
-/// An alternative pattern is possible: `fn foo<R: Rng>(rng: R)`. This has some
-/// trade-offs. It allows the argument to be consumed directly without a `&mut`
-/// (which is how `from_rng(thread_rng())` works); also it still works directly
-/// on references (including type-erased references). Unfortunately within the
-/// function `foo` it is not known whether `rng` is a reference type or not,
-/// hence many uses of `rng` require an extra reference, either explicitly
-/// (`distr.sample(&mut rng)`) or implicitly (`rng.gen()`); one may hope the
-/// optimiser can remove redundant references later.
-///
-/// Example:
-///
-/// ```
-/// # use rand::thread_rng;
-/// use rand::Rng;
-///
-/// fn foo<R: Rng + ?Sized>(rng: &mut R) -> f32 {
-///     rng.gen()
-/// }
-///
-/// # let v = foo(&mut thread_rng());
-/// ```
-pub trait Rng: RngCore {
-    /// Return a random value supporting the [`Standard`] distribution.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// let mut rng = thread_rng();
-    /// let x: u32 = rng.gen();
-    /// println!("{}", x);
-    /// println!("{:?}", rng.gen::<(f64, bool)>());
-    /// ```
-    ///
-    /// # Arrays and tuples
-    ///
-    /// The `rng.gen()` method is able to generate arrays (up to 32 elements)
-    /// and tuples (up to 12 elements), so long as all element types can be
-    /// generated.
-    ///
-    /// For arrays of integers, especially for those with small element types
-    /// (< 64 bit), it will likely be faster to instead use [`Rng::fill`].
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// let mut rng = thread_rng();
-    /// let tuple: (u8, i32, char) = rng.gen(); // arbitrary tuple support
-    ///
-    /// let arr1: [f32; 32] = rng.gen();        // array construction
-    /// let mut arr2 = [0u8; 128];
-    /// rng.fill(&mut arr2);                    // array fill
-    /// ```
-    ///
-    /// [`Standard`]: distributions::Standard
-    #[inline]
-    fn gen<T>(&mut self) -> T
-    where Standard: Distribution<T> {
-        Standard.sample(self)
-    }
-
-    /// Generate a random value in the range [`low`, `high`), i.e. inclusive of
-    /// `low` and exclusive of `high`.
-    ///
-    /// This function is optimised for the case that only a single sample is
-    /// made from the given range. See also the [`Uniform`] distribution
-    /// type which may be faster if sampling from the same range repeatedly.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `low >= high`.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// let mut rng = thread_rng();
-    /// let n: u32 = rng.gen_range(0, 10);
-    /// println!("{}", n);
-    /// let m: f64 = rng.gen_range(-40.0f64, 1.3e5f64);
-    /// println!("{}", m);
-    /// ```
-    ///
-    /// [`Uniform`]: distributions::uniform::Uniform
-    fn gen_range<T: SampleUniform, B1, B2>(&mut self, low: B1, high: B2) -> T
-    where
-        B1: SampleBorrow<T> + Sized,
-        B2: SampleBorrow<T> + Sized,
-    {
-        T::Sampler::sample_single(low, high, self)
-    }
-
-    /// Sample a new value, using the given distribution.
-    ///
-    /// ### Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    /// use rand::distributions::Uniform;
-    ///
-    /// let mut rng = thread_rng();
-    /// let x = rng.sample(Uniform::new(10u32, 15));
-    /// // Type annotation requires two types, the type and distribution; the
-    /// // distribution can be inferred.
-    /// let y = rng.sample::<u16, _>(Uniform::new(10, 15));
-    /// ```
-    fn sample<T, D: Distribution<T>>(&mut self, distr: D) -> T {
-        distr.sample(self)
-    }
-
-    /// Create an iterator that generates values using the given distribution.
-    ///
-    /// Note that this function takes its arguments by value. This works since
-    /// `(&mut R): Rng where R: Rng` and
-    /// `(&D): Distribution where D: Distribution`,
-    /// however borrowing is not automatic hence `rng.sample_iter(...)` may
-    /// need to be replaced with `(&mut rng).sample_iter(...)`.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    /// use rand::distributions::{Alphanumeric, Uniform, Standard};
-    ///
-    /// let rng = thread_rng();
-    ///
-    /// // Vec of 16 x f32:
-    /// let v: Vec<f32> = rng.sample_iter(Standard).take(16).collect();
-    ///
-    /// // String:
-    /// let s: String = rng.sample_iter(Alphanumeric).take(7).collect();
-    ///
-    /// // Combined values
-    /// println!("{:?}", rng.sample_iter(Standard).take(5)
-    ///                              .collect::<Vec<(f64, bool)>>());
-    ///
-    /// // Dice-rolling:
-    /// let die_range = Uniform::new_inclusive(1, 6);
-    /// let mut roll_die = rng.sample_iter(die_range);
-    /// while roll_die.next().unwrap() != 6 {
-    ///     println!("Not a 6; rolling again!");
-    /// }
-    /// ```
-    fn sample_iter<T, D>(self, distr: D) -> distributions::DistIter<D, Self, T>
-    where D: Distribution<T>, Self: Sized {
-        distr.sample_iter(self)
-    }
-
-    /// Fill `dest` entirely with random bytes (uniform value distribution),
-    /// where `dest` is any type supporting [`AsByteSliceMut`], namely slices
-    /// and arrays over primitive integer types (`i8`, `i16`, `u32`, etc.).
-    ///
-    /// On big-endian platforms this performs byte-swapping to ensure
-    /// portability of results from reproducible generators.
-    ///
-    /// This uses [`fill_bytes`] internally which may handle some RNG errors
-    /// implicitly (e.g. waiting if the OS generator is not ready), but panics
-    /// on other errors. See also [`try_fill`] which returns errors.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// let mut arr = [0i8; 20];
-    /// thread_rng().fill(&mut arr[..]);
-    /// ```
-    ///
-    /// [`fill_bytes`]: RngCore::fill_bytes
-    /// [`try_fill`]: Rng::try_fill
-    fn fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T) {
-        self.fill_bytes(dest.as_byte_slice_mut());
-        dest.to_le();
-    }
-
-    /// Fill `dest` entirely with random bytes (uniform value distribution),
-    /// where `dest` is any type supporting [`AsByteSliceMut`], namely slices
-    /// and arrays over primitive integer types (`i8`, `i16`, `u32`, etc.).
-    ///
-    /// On big-endian platforms this performs byte-swapping to ensure
-    /// portability of results from reproducible generators.
-    ///
-    /// This is identical to [`fill`] except that it uses [`try_fill_bytes`]
-    /// internally and forwards RNG errors.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// # use rand::Error;
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// # fn try_inner() -> Result<(), Error> {
-    /// let mut arr = [0u64; 4];
-    /// thread_rng().try_fill(&mut arr[..])?;
-    /// # Ok(())
-    /// # }
-    ///
-    /// # try_inner().unwrap()
-    /// ```
-    ///
-    /// [`try_fill_bytes`]: RngCore::try_fill_bytes
-    /// [`fill`]: Rng::fill
-    fn try_fill<T: AsByteSliceMut + ?Sized>(&mut self, dest: &mut T) -> Result<(), Error> {
-        self.try_fill_bytes(dest.as_byte_slice_mut())?;
-        dest.to_le();
-        Ok(())
-    }
-
-    /// Return a bool with a probability `p` of being true.
-    ///
-    /// See also the [`Bernoulli`] distribution, which may be faster if
-    /// sampling from the same probability repeatedly.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// let mut rng = thread_rng();
-    /// println!("{}", rng.gen_bool(1.0 / 3.0));
-    /// ```
-    ///
-    /// # Panics
-    ///
-    /// If `p < 0` or `p > 1`.
-    ///
-    /// [`Bernoulli`]: distributions::bernoulli::Bernoulli
-    #[inline]
-    fn gen_bool(&mut self, p: f64) -> bool {
-        let d = distributions::Bernoulli::new(p).unwrap();
-        self.sample(d)
-    }
-
-    /// Return a bool with a probability of `numerator/denominator` of being
-    /// true. I.e. `gen_ratio(2, 3)` has chance of 2 in 3, or about 67%, of
-    /// returning true. If `numerator == denominator`, then the returned value
-    /// is guaranteed to be `true`. If `numerator == 0`, then the returned
-    /// value is guaranteed to be `false`.
-    ///
-    /// See also the [`Bernoulli`] distribution, which may be faster if
-    /// sampling from the same `numerator` and `denominator` repeatedly.
-    ///
-    /// # Panics
-    ///
-    /// If `denominator == 0` or `numerator > denominator`.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::{thread_rng, Rng};
-    ///
-    /// let mut rng = thread_rng();
-    /// println!("{}", rng.gen_ratio(2, 3));
-    /// ```
-    ///
-    /// [`Bernoulli`]: distributions::bernoulli::Bernoulli
-    #[inline]
-    fn gen_ratio(&mut self, numerator: u32, denominator: u32) -> bool {
-        let d = distributions::Bernoulli::from_ratio(numerator, denominator).unwrap();
-        self.sample(d)
-    }
-}
-
-impl<R: RngCore + ?Sized> Rng for R {}
-
-/// Trait for casting types to byte slices
-///
-/// This is used by the [`Rng::fill`] and [`Rng::try_fill`] methods.
-pub trait AsByteSliceMut {
-    /// Return a mutable reference to self as a byte slice
-    fn as_byte_slice_mut(&mut self) -> &mut [u8];
-
-    /// Call `to_le` on each element (i.e. byte-swap on Big Endian platforms).
-    fn to_le(&mut self);
-}
-
-impl AsByteSliceMut for [u8] {
-    fn as_byte_slice_mut(&mut self) -> &mut [u8] {
-        self
-    }
-
-    fn to_le(&mut self) {}
-}
-
-macro_rules! impl_as_byte_slice {
-    () => {};
-    ($t:ty) => {
-        impl AsByteSliceMut for [$t] {
-            fn as_byte_slice_mut(&mut self) -> &mut [u8] {
-                if self.len() == 0 {
-                    unsafe {
-                        // must not use null pointer
-                        slice::from_raw_parts_mut(0x1 as *mut u8, 0)
-                    }
-                } else {
-                    unsafe {
-                        slice::from_raw_parts_mut(self.as_mut_ptr()
-                            as *mut u8,
-                            self.len() * mem::size_of::<$t>()
-                        )
-                    }
-                }
-            }
-
-            fn to_le(&mut self) {
-                for x in self {
-                    *x = x.to_le();
-                }
-            }
-        }
-        
-        impl AsByteSliceMut for [Wrapping<$t>] {
-            fn as_byte_slice_mut(&mut self) -> &mut [u8] {
-                if self.len() == 0 {
-                    unsafe {
-                        // must not use null pointer
-                        slice::from_raw_parts_mut(0x1 as *mut u8, 0)
-                    }
-                } else {
-                    unsafe {
-                        slice::from_raw_parts_mut(self.as_mut_ptr()
-                            as *mut u8,
-                            self.len() * mem::size_of::<$t>()
-                        )
-                    }
-                }
-            }
-
-            fn to_le(&mut self) {
-                for x in self {
-                    *x = Wrapping(x.0.to_le());
-                }
-            }
-        }
-    };
-    ($t:ty, $($tt:ty,)*) => {
-        impl_as_byte_slice!($t);
-        // TODO: this could replace above impl once Rust #32463 is fixed
-        // impl_as_byte_slice!(Wrapping<$t>);
-        impl_as_byte_slice!($($tt,)*);
-    }
-}
-
-impl_as_byte_slice!(u16, u32, u64, usize,);
-#[cfg(not(target_os = "emscripten"))] impl_as_byte_slice!(u128);
-impl_as_byte_slice!(i8, i16, i32, i64, isize,);
-#[cfg(not(target_os = "emscripten"))] impl_as_byte_slice!(i128);
-
-macro_rules! impl_as_byte_slice_arrays {
-    ($n:expr,) => {};
-    ($n:expr, $N:ident) => {
-        impl<T> AsByteSliceMut for [T; $n] where [T]: AsByteSliceMut {
-            fn as_byte_slice_mut(&mut self) -> &mut [u8] {
-                self[..].as_byte_slice_mut()
-            }
-
-            fn to_le(&mut self) {
-                self[..].to_le()
-            }
-        }
-    };
-    ($n:expr, $N:ident, $($NN:ident,)*) => {
-        impl_as_byte_slice_arrays!($n, $N);
-        impl_as_byte_slice_arrays!($n - 1, $($NN,)*);
-    };
-    (!div $n:expr,) => {};
-    (!div $n:expr, $N:ident, $($NN:ident,)*) => {
-        impl_as_byte_slice_arrays!($n, $N);
-        impl_as_byte_slice_arrays!(!div $n / 2, $($NN,)*);
-    };
-}
-impl_as_byte_slice_arrays!(32, N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,N,);
-impl_as_byte_slice_arrays!(!div 4096, N,N,N,N,N,N,N,);
-
-/// Generates a random value using the thread-local random number generator.
-///
-/// This is simply a shortcut for `thread_rng().gen()`. See [`thread_rng`] for
-/// documentation of the entropy source and [`Standard`] for documentation of
-/// distributions and type-specific generation.
-///
-/// # Examples
-///
-/// ```
-/// let x = rand::random::<u8>();
-/// println!("{}", x);
-///
-/// let y = rand::random::<f64>();
-/// println!("{}", y);
-///
-/// if rand::random() { // generates a boolean
-///     println!("Better lucky than good!");
-/// }
-/// ```
-///
-/// If you're calling `random()` in a loop, caching the generator as in the
-/// following example can increase performance.
-///
-/// ```
-/// use rand::Rng;
-///
-/// let mut v = vec![1, 2, 3];
-///
-/// for x in v.iter_mut() {
-///     *x = rand::random()
-/// }
-///
-/// // can be made faster by caching thread_rng
-///
-/// let mut rng = rand::thread_rng();
-///
-/// for x in v.iter_mut() {
-///     *x = rng.gen();
-/// }
-/// ```
-///
-/// [`Standard`]: distributions::Standard
-#[cfg(feature="std")]
-#[inline]
-pub fn random<T>() -> T
-where Standard: Distribution<T> {
-    thread_rng().gen()
-}
-
-#[cfg(test)]
-mod test {
-    use crate::rngs::mock::StepRng;
-    use super::*;
-    #[cfg(all(not(feature="std"), feature="alloc"))] use alloc::boxed::Box;
-
-    /// Construct a deterministic RNG with the given seed
-    pub fn rng(seed: u64) -> impl RngCore {
-        // For tests, we want a statistically good, fast, reproducible RNG.
-        // PCG32 will do fine, and will be easy to embed if we ever need to.
-        const INC: u64 = 11634580027462260723;
-        rand_pcg::Pcg32::new(seed, INC)
-    }
-
-    #[test]
-    fn test_fill_bytes_default() {
-        let mut r = StepRng::new(0x11_22_33_44_55_66_77_88, 0);
-
-        // check every remainder mod 8, both in small and big vectors.
-        let lengths = [0, 1, 2, 3, 4, 5, 6, 7,
-                       80, 81, 82, 83, 84, 85, 86, 87];
-        for &n in lengths.iter() {
-            let mut buffer = [0u8; 87];
-            let v = &mut buffer[0..n];
-            r.fill_bytes(v);
-
-            // use this to get nicer error messages.
-            for (i, &byte) in v.iter().enumerate() {
-                if byte == 0 {
-                    panic!("byte {} of {} is zero", i, n)
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_fill() {
-        let x = 9041086907909331047;    // a random u64
-        let mut rng = StepRng::new(x, 0);
-
-        // Convert to byte sequence and back to u64; byte-swap twice if BE.
-        let mut array = [0u64; 2];
-        rng.fill(&mut array[..]);
-        assert_eq!(array, [x, x]);
-        assert_eq!(rng.next_u64(), x);
-
-        // Convert to bytes then u32 in LE order
-        let mut array = [0u32; 2];
-        rng.fill(&mut array[..]);
-        assert_eq!(array, [x as u32, (x >> 32) as u32]);
-        assert_eq!(rng.next_u32(), x as u32);
-        
-        // Check equivalence using wrapped arrays
-        let mut warray = [Wrapping(0u32); 2];
-        rng.fill(&mut warray[..]);
-        assert_eq!(array[0], warray[0].0);
-        assert_eq!(array[1], warray[1].0);
-    }
-
-    #[test]
-    fn test_fill_empty() {
-        let mut array = [0u32; 0];
-        let mut rng = StepRng::new(0, 1);
-        rng.fill(&mut array);
-        rng.fill(&mut array[..]);
-    }
-
-    #[test]
-    fn test_gen_range() {
-        let mut r = rng(101);
-        for _ in 0..1000 {
-            let a = r.gen_range(-4711, 17);
-            assert!(a >= -4711 && a < 17);
-            let a = r.gen_range(-3i8, 42);
-            assert!(a >= -3i8 && a < 42i8);
-            let a = r.gen_range(&10u16, 99);
-            assert!(a >= 10u16 && a < 99u16);
-            let a = r.gen_range(-100i32, &2000);
-            assert!(a >= -100i32 && a < 2000i32);
-            let a = r.gen_range(&12u32, &24u32);
-            assert!(a >= 12u32 && a < 24u32);
-
-            assert_eq!(r.gen_range(0u32, 1), 0u32);
-            assert_eq!(r.gen_range(-12i64, -11), -12i64);
-            assert_eq!(r.gen_range(3_000_000, 3_000_001), 3_000_000);
-        }
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_gen_range_panic_int() {
-        let mut r = rng(102);
-        r.gen_range(5, -2);
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_gen_range_panic_usize() {
-        let mut r = rng(103);
-        r.gen_range(5, 2);
-    }
-
-    #[test]
-    fn test_gen_bool() {
-        let mut r = rng(105);
-        for _ in 0..5 {
-            assert_eq!(r.gen_bool(0.0), false);
-            assert_eq!(r.gen_bool(1.0), true);
-        }
-    }
-
-    #[test]
-    fn test_rng_trait_object() {
-        use crate::distributions::{Distribution, Standard};
-        let mut rng = rng(109);
-        let mut r = &mut rng as &mut dyn RngCore;
-        r.next_u32();
-        r.gen::<i32>();
-        assert_eq!(r.gen_range(0, 1), 0);
-        let _c: u8 = Standard.sample(&mut r);
-    }
-
-    #[test]
-    #[cfg(feature="alloc")]
-    fn test_rng_boxed_trait() {
-        use crate::distributions::{Distribution, Standard};
-        let rng = rng(110);
-        let mut r = Box::new(rng) as Box<dyn RngCore>;
-        r.next_u32();
-        r.gen::<i32>();
-        assert_eq!(r.gen_range(0, 1), 0);
-        let _c: u8 = Standard.sample(&mut r);
-    }
-
-    #[test]
-    #[cfg(feature="std")]
-    fn test_random() {
-        // not sure how to test this aside from just getting some values
-        let _n : usize = random();
-        let _f : f32 = random();
-        let _o : Option<Option<i8>> = random();
-        let _many : ((),
-                     (usize,
-                      isize,
-                      Option<(u32, (bool,))>),
-                     (u8, i8, u16, i16, u32, i32, u64, i64),
-                     (f32, (f64, (f64,)))) = random();
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_gen_ratio_average() {
-        const NUM: u32 = 3;
-        const DENOM: u32 = 10;
-        const N: u32 = 100_000;
-
-        let mut sum: u32 = 0;
-        let mut rng = rng(111);
-        for _ in 0..N {
-            if rng.gen_ratio(NUM, DENOM) {
-                sum += 1;
-            }
-        }
-        // Have Binomial(N, NUM/DENOM) distribution
-        let expected = (NUM * N) / DENOM;   // exact integer
-        assert!(((sum - expected) as i32).abs() < 500);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/prelude.rs.html b/target/doc/src/rand/prelude.rs.html deleted file mode 100644 index 6a27bc2..0000000 --- a/target/doc/src/rand/prelude.rs.html +++ /dev/null @@ -1,59 +0,0 @@ -prelude.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Convenience re-export of common members
-//!
-//! Like the standard library's prelude, this module simplifies importing of
-//! common items. Unlike the standard prelude, the contents of this module must
-//! be imported manually:
-//!
-//! ```
-//! use rand::prelude::*;
-//! # let mut r = StdRng::from_rng(thread_rng()).unwrap();
-//! # let _: f32 = r.gen();
-//! ```
-
-#[doc(no_inline)] pub use crate::distributions::Distribution;
-#[doc(no_inline)] pub use crate::rngs::StdRng;
-#[cfg(feature="small_rng")]
-#[doc(no_inline)] pub use crate::rngs::SmallRng;
-#[doc(no_inline)] #[cfg(feature="std")] pub use crate::rngs::ThreadRng;
-#[doc(no_inline)] pub use crate::{Rng, RngCore, CryptoRng, SeedableRng};
-#[doc(no_inline)] #[cfg(feature="std")] pub use crate::{random, thread_rng};
-#[doc(no_inline)] pub use crate::seq::{SliceRandom, IteratorRandom};
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/rngs/adapter/mod.rs.html b/target/doc/src/rand/rngs/adapter/mod.rs.html deleted file mode 100644 index 2fbef42..0000000 --- a/target/doc/src/rand/rngs/adapter/mod.rs.html +++ /dev/null @@ -1,33 +0,0 @@ -mod.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Wrappers / adapters forming RNGs
-
-#[cfg(feature="std")] mod read;
-mod reseeding;
-
-#[cfg(feature="std")] pub use self::read::{ReadRng, ReadError};
-pub use self::reseeding::ReseedingRng;
-
-
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-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! A wrapper around any Read to treat it as an RNG.
-
-use std::io::Read;
-use std::fmt;
-
-use rand_core::{RngCore, Error, impls};
-
-
-/// An RNG that reads random bytes straight from any type supporting
-/// [`std::io::Read`], for example files.
-///
-/// This will work best with an infinite reader, but that is not required.
-///
-/// This can be used with `/dev/urandom` on Unix but it is recommended to use
-/// [`OsRng`] instead.
-///
-/// # Panics
-///
-/// `ReadRng` uses [`std::io::Read::read_exact`], which retries on interrupts.
-/// All other errors from the underlying reader, including when it does not
-/// have enough data, will only be reported through [`try_fill_bytes`].
-/// The other [`RngCore`] methods will panic in case of an error.
-///
-/// # Example
-///
-/// ```
-/// use rand::Rng;
-/// use rand::rngs::adapter::ReadRng;
-///
-/// let data = vec![1, 2, 3, 4, 5, 6, 7, 8];
-/// let mut rng = ReadRng::new(&data[..]);
-/// println!("{:x}", rng.gen::<u32>());
-/// ```
-///
-/// [`OsRng`]: crate::rngs::OsRng
-/// [`try_fill_bytes`]: RngCore::try_fill_bytes
-#[derive(Debug)]
-pub struct ReadRng<R> {
-    reader: R
-}
-
-impl<R: Read> ReadRng<R> {
-    /// Create a new `ReadRng` from a `Read`.
-    pub fn new(r: R) -> ReadRng<R> {
-        ReadRng {
-            reader: r
-        }
-    }
-}
-
-impl<R: Read> RngCore for ReadRng<R> {
-    fn next_u32(&mut self) -> u32 {
-        impls::next_u32_via_fill(self)
-    }
-
-    fn next_u64(&mut self) -> u64 {
-        impls::next_u64_via_fill(self)
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        self.try_fill_bytes(dest).unwrap_or_else(|err|
-                panic!("reading random bytes from Read implementation failed; error: {}", err));
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        if dest.len() == 0 { return Ok(()); }
-        // Use `std::io::read_exact`, which retries on `ErrorKind::Interrupted`.
-        self.reader.read_exact(dest).map_err(|e| Error::new(ReadError(e)))
-    }
-}
-
-/// `ReadRng` error type
-#[derive(Debug)]
-pub struct ReadError(std::io::Error);
-
-impl fmt::Display for ReadError {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "ReadError: {}", self.0)
-    }
-}
-
-impl std::error::Error for ReadError {
-    fn source(&self) -> Option<&(dyn std::error::Error + 'static)> {
-        Some(&self.0)
-    }
-}
-
-
-#[cfg(test)]
-mod test {
-    use super::ReadRng;
-    use crate::RngCore;
-
-    #[test]
-    fn test_reader_rng_u64() {
-        // transmute from the target to avoid endianness concerns.
-        let v = vec![0u8, 0, 0, 0, 0, 0, 0, 1,
-                     0  , 0, 0, 0, 0, 0, 0, 2,
-                     0,   0, 0, 0, 0, 0, 0, 3];
-        let mut rng = ReadRng::new(&v[..]);
-
-        assert_eq!(rng.next_u64(), 1_u64.to_be());
-        assert_eq!(rng.next_u64(), 2_u64.to_be());
-        assert_eq!(rng.next_u64(), 3_u64.to_be());
-    }
-
-    #[test]
-    fn test_reader_rng_u32() {
-        let v = vec![0u8, 0, 0, 1, 0, 0, 0, 2, 0, 0, 0, 3];
-        let mut rng = ReadRng::new(&v[..]);
-
-        assert_eq!(rng.next_u32(), 1_u32.to_be());
-        assert_eq!(rng.next_u32(), 2_u32.to_be());
-        assert_eq!(rng.next_u32(), 3_u32.to_be());
-    }
-
-    #[test]
-    fn test_reader_rng_fill_bytes() {
-        let v = [1u8, 2, 3, 4, 5, 6, 7, 8];
-        let mut w = [0u8; 8];
-
-        let mut rng = ReadRng::new(&v[..]);
-        rng.fill_bytes(&mut w);
-
-        assert!(v == w);
-    }
-
-    #[test]
-    fn test_reader_rng_insufficient_bytes() {
-        let v = [1u8, 2, 3, 4, 5, 6, 7, 8];
-        let mut w = [0u8; 9];
-
-        let mut rng = ReadRng::new(&v[..]);
-
-        let result = rng.try_fill_bytes(&mut w);
-        assert!(result.is_err());
-        println!("Error: {}", result.unwrap_err());
-    }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2013 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! A wrapper around another PRNG that reseeds it after it
-//! generates a certain number of random bytes.
-
-use core::mem::size_of;
-
-use rand_core::{RngCore, CryptoRng, SeedableRng, Error};
-use rand_core::block::{BlockRngCore, BlockRng};
-
-/// A wrapper around any PRNG that implements [`BlockRngCore`], that adds the
-/// ability to reseed it.
-///
-/// `ReseedingRng` reseeds the underlying PRNG in the following cases:
-///
-/// - On a manual call to [`reseed()`].
-/// - After `clone()`, the clone will be reseeded on first use.
-/// - After a process is forked, the RNG in the child process is reseeded within
-///   the next few generated values, depending on the block size of the
-///   underlying PRNG. For ChaCha and Hc128 this is a maximum of
-///   15 `u32` values before reseeding.
-/// - After the PRNG has generated a configurable number of random bytes.
-///
-/// # When should reseeding after a fixed number of generated bytes be used?
-///
-/// Reseeding after a fixed number of generated bytes is never strictly
-/// *necessary*. Cryptographic PRNGs don't have a limited number of bytes they
-/// can output, or at least not a limit reachable in any practical way. There is
-/// no such thing as 'running out of entropy'.
-///
-/// Occasionally reseeding can be seen as some form of 'security in depth'. Even
-/// if in the future a cryptographic weakness is found in the CSPRNG being used,
-/// or a flaw in the implementation, occasionally reseeding should make
-/// exploiting it much more difficult or even impossible.
-///
-/// Use [`ReseedingRng::new`] with a `threshold` of `0` to disable reseeding
-/// after a fixed number of generated bytes.
-///
-/// # Error handling
-///
-/// Although unlikely, reseeding the wrapped PRNG can fail. `ReseedingRng` will
-/// never panic but try to handle the error intelligently through some
-/// combination of retrying and delaying reseeding until later.
-/// If handling the source error fails `ReseedingRng` will continue generating
-/// data from the wrapped PRNG without reseeding.
-///
-/// Manually calling [`reseed()`] will not have this retry or delay logic, but
-/// reports the error.
-///
-/// # Example
-///
-/// ```
-/// use rand::prelude::*;
-/// use rand_chacha::ChaCha20Core; // Internal part of ChaChaRng that
-///                              // implements BlockRngCore
-/// use rand::rngs::OsRng;
-/// use rand::rngs::adapter::ReseedingRng;
-///
-/// let prng = ChaCha20Core::from_entropy();
-/// let mut reseeding_rng = ReseedingRng::new(prng, 0, OsRng);
-///
-/// println!("{}", reseeding_rng.gen::<u64>());
-///
-/// let mut cloned_rng = reseeding_rng.clone();
-/// assert!(reseeding_rng.gen::<u64>() != cloned_rng.gen::<u64>());
-/// ```
-///
-/// [`BlockRngCore`]: rand_core::block::BlockRngCore
-/// [`ReseedingRng::new`]: ReseedingRng::new
-/// [`reseed()`]: ReseedingRng::reseed
-#[derive(Debug)]
-pub struct ReseedingRng<R, Rsdr>(BlockRng<ReseedingCore<R, Rsdr>>)
-where R: BlockRngCore + SeedableRng,
-      Rsdr: RngCore;
-
-impl<R, Rsdr> ReseedingRng<R, Rsdr>
-where R: BlockRngCore + SeedableRng,
-      Rsdr: RngCore
-{
-    /// Create a new `ReseedingRng` from an existing PRNG, combined with a RNG
-    /// to use as reseeder.
-    ///
-    /// `threshold` sets the number of generated bytes after which to reseed the
-    /// PRNG. Set it to zero to never reseed based on the number of generated
-    /// values.
-    pub fn new(rng: R, threshold: u64, reseeder: Rsdr) -> Self {
-        ReseedingRng(BlockRng::new(ReseedingCore::new(rng, threshold, reseeder)))
-    }
-
-    /// Reseed the internal PRNG.
-    pub fn reseed(&mut self) -> Result<(), Error> {
-        self.0.core.reseed()
-    }
-}
-
-// TODO: this should be implemented for any type where the inner type
-// implements RngCore, but we can't specify that because ReseedingCore is private
-impl<R, Rsdr: RngCore> RngCore for ReseedingRng<R, Rsdr>
-where R: BlockRngCore<Item = u32> + SeedableRng,
-    <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>
-{
-    #[inline(always)]
-    fn next_u32(&mut self) -> u32 {
-        self.0.next_u32()
-    }
-
-    #[inline(always)]
-    fn next_u64(&mut self) -> u64 {
-        self.0.next_u64()
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        self.0.fill_bytes(dest)
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        self.0.try_fill_bytes(dest)
-    }
-}
-
-impl<R, Rsdr> Clone for ReseedingRng<R, Rsdr>
-where R: BlockRngCore + SeedableRng + Clone,
-      Rsdr: RngCore + Clone
-{
-    fn clone(&self) -> ReseedingRng<R, Rsdr> {
-        // Recreating `BlockRng` seems easier than cloning it and resetting
-        // the index.
-        ReseedingRng(BlockRng::new(self.0.core.clone()))
-    }
-}
-
-impl<R, Rsdr> CryptoRng for ReseedingRng<R, Rsdr>
-where R: BlockRngCore + SeedableRng + CryptoRng,
-      Rsdr: RngCore + CryptoRng {}
-
-#[derive(Debug)]
-struct ReseedingCore<R, Rsdr> {
-    inner: R,
-    reseeder: Rsdr,
-    threshold: i64,
-    bytes_until_reseed: i64,
-    fork_counter: usize,
-}
-
-impl<R, Rsdr> BlockRngCore for ReseedingCore<R, Rsdr>
-where R: BlockRngCore + SeedableRng,
-      Rsdr: RngCore
-{
-    type Item = <R as BlockRngCore>::Item;
-    type Results = <R as BlockRngCore>::Results;
-
-    fn generate(&mut self, results: &mut Self::Results) {
-        let global_fork_counter = fork::get_fork_counter();
-        if self.bytes_until_reseed <= 0 ||
-           self.is_forked(global_fork_counter) {
-            // We get better performance by not calling only `reseed` here
-            // and continuing with the rest of the function, but by directly
-            // returning from a non-inlined function.
-            return self.reseed_and_generate(results, global_fork_counter);
-        }
-        let num_bytes = results.as_ref().len() * size_of::<Self::Item>();
-        self.bytes_until_reseed -= num_bytes as i64;
-        self.inner.generate(results);
-    }
-}
-
-impl<R, Rsdr> ReseedingCore<R, Rsdr>
-where R: BlockRngCore + SeedableRng,
-      Rsdr: RngCore
-{
-    /// Create a new `ReseedingCore`.
-    fn new(rng: R, threshold: u64, reseeder: Rsdr) -> Self {
-        use ::core::i64::MAX;
-        fork::register_fork_handler();
-
-        // Because generating more values than `i64::MAX` takes centuries on
-        // current hardware, we just clamp to that value.
-        // Also we set a threshold of 0, which indicates no limit, to that
-        // value.
-        let threshold =
-            if threshold == 0 { MAX }
-            else if threshold <= MAX as u64 { threshold as i64 }
-            else { MAX };
-
-        ReseedingCore {
-            inner: rng,
-            reseeder,
-            threshold: threshold as i64,
-            bytes_until_reseed: threshold as i64,
-            fork_counter: 0,
-        }
-    }
-
-    /// Reseed the internal PRNG.
-    fn reseed(&mut self) -> Result<(), Error> {
-        R::from_rng(&mut self.reseeder).map(|result| {
-            self.bytes_until_reseed = self.threshold;
-            self.inner = result
-        })
-    }
-
-    fn is_forked(&self, global_fork_counter: usize) -> bool {
-        // In theory, on 32-bit platforms, it is possible for
-        // `global_fork_counter` to wrap around after ~4e9 forks.
-        //
-        // This check will detect a fork in the normal case where
-        // `fork_counter < global_fork_counter`, and also when the difference
-        // between both is greater than `isize::MAX` (wrapped around).
-        //
-        // It will still fail to detect a fork if there have been more than
-        // `isize::MAX` forks, without any reseed in between. Seems unlikely
-        // enough.
-        (self.fork_counter.wrapping_sub(global_fork_counter) as isize) < 0
-    }
-
-    #[inline(never)]
-    fn reseed_and_generate(&mut self,
-                           results: &mut <Self as BlockRngCore>::Results,
-                           global_fork_counter: usize)
-    {
-        if self.is_forked(global_fork_counter) {
-            info!("Fork detected, reseeding RNG");
-        } else {
-            trace!("Reseeding RNG (periodic reseed)");
-        }
-
-        let num_bytes =
-            results.as_ref().len() * size_of::<<R as BlockRngCore>::Item>();
-
-        if let Err(e) = self.reseed() {
-            warn!("Reseeding RNG failed: {}", e);
-            let _ = e;
-        }
-        self.fork_counter = global_fork_counter;
-
-        self.bytes_until_reseed = self.threshold - num_bytes as i64;
-        self.inner.generate(results);
-    }
-}
-
-impl<R, Rsdr> Clone for ReseedingCore<R, Rsdr>
-where R: BlockRngCore + SeedableRng + Clone,
-      Rsdr: RngCore + Clone
-{
-    fn clone(&self) -> ReseedingCore<R, Rsdr> {
-        ReseedingCore {
-            inner: self.inner.clone(),
-            reseeder: self.reseeder.clone(),
-            threshold: self.threshold,
-            bytes_until_reseed: 0, // reseed clone on first use
-            fork_counter: self.fork_counter,
-        }
-    }
-}
-
-impl<R, Rsdr> CryptoRng for ReseedingCore<R, Rsdr>
-where R: BlockRngCore + SeedableRng + CryptoRng,
-      Rsdr: RngCore + CryptoRng {}
-
-
-#[cfg(all(unix, not(target_os="emscripten")))]
-mod fork {
-    use core::sync::atomic::{AtomicUsize, AtomicBool, Ordering};
-    #[allow(deprecated)]  // Required for compatibility with Rust < 1.24.
-    use core::sync::atomic::{ATOMIC_USIZE_INIT, ATOMIC_BOOL_INIT};
-
-    // Fork protection
-    //
-    // We implement fork protection on Unix using `pthread_atfork`.
-    // When the process is forked, we increment `RESEEDING_RNG_FORK_COUNTER`.
-    // Every `ReseedingRng` stores the last known value of the static in
-    // `fork_counter`. If the cached `fork_counter` is less than
-    // `RESEEDING_RNG_FORK_COUNTER`, it is time to reseed this RNG.
-    //
-    // If reseeding fails, we don't deal with this by setting a delay, but just
-    // don't update `fork_counter`, so a reseed is attempted as soon as
-    // possible.
-
-    #[allow(deprecated)]
-    static RESEEDING_RNG_FORK_COUNTER: AtomicUsize = ATOMIC_USIZE_INIT;
-
-    pub fn get_fork_counter() -> usize {
-        RESEEDING_RNG_FORK_COUNTER.load(Ordering::Relaxed)
-    }
-
-    #[allow(deprecated)]
-    static FORK_HANDLER_REGISTERED: AtomicBool = ATOMIC_BOOL_INIT;
-
-    extern fn fork_handler() {
-        // Note: fetch_add is defined to wrap on overflow
-        // (which is what we want).
-        RESEEDING_RNG_FORK_COUNTER.fetch_add(1, Ordering::Relaxed);
-    }
-
-    pub fn register_fork_handler() {
-        if FORK_HANDLER_REGISTERED.load(Ordering::Relaxed) == false {
-            unsafe { libc::pthread_atfork(None, None, Some(fork_handler)) };
-            FORK_HANDLER_REGISTERED.store(true, Ordering::Relaxed);
-        }
-    }
-}
-
-#[cfg(not(all(unix, not(target_os="emscripten"))))]
-mod fork {
-    pub fn get_fork_counter() -> usize { 0 }
-    pub fn register_fork_handler() {}
-}
-
-
-#[cfg(test)]
-mod test {
-    use crate::{Rng, SeedableRng};
-    use crate::rngs::std::Core;
-    use crate::rngs::mock::StepRng;
-    use super::ReseedingRng;
-
-    #[test]
-    fn test_reseeding() {
-        let mut zero = StepRng::new(0, 0);
-        let rng = Core::from_rng(&mut zero).unwrap();
-        let thresh = 1; // reseed every time the buffer is exhausted
-        let mut reseeding = ReseedingRng::new(rng, thresh, zero);
-
-        // RNG buffer size is [u32; 64]
-        // Debug is only implemented up to length 32 so use two arrays
-        let mut buf = ([0u32; 32], [0u32; 32]);
-        reseeding.fill(&mut buf.0);
-        reseeding.fill(&mut buf.1);
-        let seq = buf;
-        for _ in 0..10 {
-            reseeding.fill(&mut buf.0);
-            reseeding.fill(&mut buf.1);
-            assert_eq!(buf, seq);
-        }
-    }
-
-    #[test]
-    fn test_clone_reseeding() {
-        let mut zero = StepRng::new(0, 0);
-        let rng = Core::from_rng(&mut zero).unwrap();
-        let mut rng1 = ReseedingRng::new(rng, 32*4, zero);
-
-        let first: u32 = rng1.gen();
-        for _ in 0..10 { let _ = rng1.gen::<u32>(); }
-
-        let mut rng2 = rng1.clone();
-        assert_eq!(first, rng2.gen::<u32>());
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/rngs/entropy.rs.html b/target/doc/src/rand/rngs/entropy.rs.html deleted file mode 100644 index 2128d77..0000000 --- a/target/doc/src/rand/rngs/entropy.rs.html +++ /dev/null @@ -1,157 +0,0 @@ -entropy.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Entropy generator, or wrapper around external generators
-
-#![allow(deprecated)]   // whole module is deprecated
-
-use rand_core::{RngCore, CryptoRng, Error};
-#[allow(unused)]
-use crate::rngs::OsRng;
-
-/// An interface returning random data from external source(s), provided
-/// specifically for securely seeding algorithmic generators (PRNGs).
-///
-/// This is deprecated. It is suggested you use [`rngs::OsRng`] instead.
-/// 
-/// [`rngs::OsRng`]: crate::rngs::OsRng
-#[derive(Debug)]
-#[deprecated(since="0.7.0", note="use rngs::OsRng instead")]
-pub struct EntropyRng {
-    source: OsRng,
-}
-
-impl EntropyRng {
-    /// Create a new `EntropyRng`.
-    ///
-    /// This method will do no system calls or other initialization routines,
-    /// those are done on first use. This is done to make `new` infallible,
-    /// and `try_fill_bytes` the only place to report errors.
-    pub fn new() -> Self {
-        EntropyRng { source: OsRng }
-    }
-}
-
-impl Default for EntropyRng {
-    fn default() -> Self {
-        EntropyRng::new()
-    }
-}
-
-impl RngCore for EntropyRng {
-    fn next_u32(&mut self) -> u32 {
-        self.source.next_u32()
-    }
-
-    fn next_u64(&mut self) -> u64 {
-        self.source.next_u64()
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        self.source.fill_bytes(dest)
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        self.source.try_fill_bytes(dest)
-    }
-}
-
-impl CryptoRng for EntropyRng {}
-
-
-#[cfg(test)]
-mod test {
-    use super::*;
-
-    #[test]
-    fn test_entropy() {
-        let mut rng = EntropyRng::new();
-        let n = (rng.next_u32() ^ rng.next_u32()).count_ones();
-        assert!(n >= 2);    // p(failure) approx 1e-7
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/rngs/mock.rs.html b/target/doc/src/rand/rngs/mock.rs.html deleted file mode 100644 index c50cd12..0000000 --- a/target/doc/src/rand/rngs/mock.rs.html +++ /dev/null @@ -1,129 +0,0 @@ -mock.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Mock random number generator
-
-use rand_core::{RngCore, Error, impls};
-
-/// A simple implementation of `RngCore` for testing purposes.
-/// 
-/// This generates an arithmetic sequence (i.e. adds a constant each step)
-/// over a `u64` number, using wrapping arithmetic. If the increment is 0
-/// the generator yields a constant.
-/// 
-/// ```
-/// use rand::Rng;
-/// use rand::rngs::mock::StepRng;
-/// 
-/// let mut my_rng = StepRng::new(2, 1);
-/// let sample: [u64; 3] = my_rng.gen();
-/// assert_eq!(sample, [2, 3, 4]);
-/// ```
-#[derive(Debug, Clone)]
-pub struct StepRng {
-    v: u64,
-    a: u64,
-}
-
-impl StepRng {
-    /// Create a `StepRng`, yielding an arithmetic sequence starting with
-    /// `initial` and incremented by `increment` each time.
-    pub fn new(initial: u64, increment: u64) -> Self {
-        StepRng { v: initial, a: increment }
-    }
-}
-
-impl RngCore for StepRng {
-    #[inline]
-    fn next_u32(&mut self) -> u32 {
-        self.next_u64() as u32
-    }
-
-    #[inline]
-    fn next_u64(&mut self) -> u64 {
-        let result = self.v;
-        self.v = self.v.wrapping_add(self.a);
-        result
-    }
-
-    #[inline]
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        impls::fill_bytes_via_next(self, dest);
-    }
-
-    #[inline]
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        Ok(self.fill_bytes(dest))
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/rngs/mod.rs.html b/target/doc/src/rand/rngs/mod.rs.html deleted file mode 100644 index b70ce76..0000000 --- a/target/doc/src/rand/rngs/mod.rs.html +++ /dev/null @@ -1,243 +0,0 @@ -mod.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Random number generators and adapters
-//!
-//! ## Background: Random number generators (RNGs)
-//!
-//! Computers cannot produce random numbers from nowhere. We classify
-//! random number generators as follows:
-//!
-//! -   "True" random number generators (TRNGs) use hard-to-predict data sources
-//!     (e.g. the high-resolution parts of event timings and sensor jitter) to
-//!     harvest random bit-sequences, apply algorithms to remove bias and
-//!     estimate available entropy, then combine these bits into a byte-sequence
-//!     or an entropy pool. This job is usually done by the operating system or
-//!     a hardware generator (HRNG).
-//! -   "Pseudo"-random number generators (PRNGs) use algorithms to transform a
-//!     seed into a sequence of pseudo-random numbers. These generators can be
-//!     fast and produce well-distributed unpredictable random numbers (or not).
-//!     They are usually deterministic: given algorithm and seed, the output
-//!     sequence can be reproduced. They have finite period and eventually loop;
-//!     with many algorithms this period is fixed and can be proven sufficiently
-//!     long, while others are chaotic and the period depends on the seed.
-//! -   "Cryptographically secure" pseudo-random number generators (CSPRNGs)
-//!     are the sub-set of PRNGs which are secure. Security of the generator
-//!     relies both on hiding the internal state and using a strong algorithm.
-//!
-//! ## Traits and functionality
-//!
-//! All RNGs implement the [`RngCore`] trait, as a consequence of which the
-//! [`Rng`] extension trait is automatically implemented. Secure RNGs may
-//! additionally implement the [`CryptoRng`] trait.
-//!
-//! All PRNGs require a seed to produce their random number sequence. The
-//! [`SeedableRng`] trait provides three ways of constructing PRNGs:
-//!
-//! -   `from_seed` accepts a type specific to the PRNG
-//! -   `from_rng` allows a PRNG to be seeded from any other RNG
-//! -   `seed_from_u64` allows any PRNG to be seeded from a `u64` insecurely
-//! -   `from_entropy` securely seeds a PRNG from fresh entropy
-//!
-//! Use the [`rand_core`] crate when implementing your own RNGs.
-//!
-//! ## Our generators
-//!
-//! This crate provides several random number generators:
-//!
-//! -   [`OsRng`] is an interface to the operating system's random number
-//!     source. Typically the operating system uses a CSPRNG with entropy
-//!     provided by a TRNG and some type of on-going re-seeding.
-//! -   [`ThreadRng`], provided by the [`thread_rng`] function, is a handle to a
-//!     thread-local CSPRNG with periodic seeding from [`OsRng`]. Because this
-//!     is local, it is typically much faster than [`OsRng`]. It should be
-//!     secure, though the paranoid may prefer [`OsRng`].
-//! -   [`StdRng`] is a CSPRNG chosen for good performance and trust of security
-//!     (based on reviews, maturity and usage). The current algorithm is ChaCha20,
-//!     which is well established and rigorously analysed.
-//!     [`StdRng`] provides the algorithm used by [`ThreadRng`] but without
-//!     periodic reseeding.
-//! -   [`SmallRng`] is an **insecure** PRNG designed to be fast, simple, require
-//!     little memory, and have good output quality.
-//!
-//! The algorithms selected for [`StdRng`] and [`SmallRng`] may change in any
-//! release and may be platform-dependent, therefore they should be considered
-//! **not reproducible**.
-//!
-//! ## Additional generators
-//!
-//! **TRNGs**: The [`rdrand`] crate provides an interface to the RDRAND and
-//! RDSEED instructions available in modern Intel and AMD CPUs.
-//! The [`rand_jitter`] crate provides a user-space implementation of
-//! entropy harvesting from CPU timer jitter, but is very slow and has
-//! [security issues](https://github.com/rust-random/rand/issues/699).
-//!
-//! **PRNGs**: Several companion crates are available, providing individual or
-//! families of PRNG algorithms. These provide the implementations behind
-//! [`StdRng`] and [`SmallRng`] but can also be used directly, indeed *should*
-//! be used directly when **reproducibility** matters.
-//! Some suggestions are: [`rand_chacha`], [`rand_pcg`], [`rand_xoshiro`].
-//! A full list can be found by searching for crates with the [`rng` tag].
-//!
-//! [`SmallRng`]: rngs::SmallRng
-//! [`StdRng`]: rngs::StdRng
-//! [`OsRng`]: rngs::OsRng
-//! [`ThreadRng`]: rngs::ThreadRng
-//! [`mock::StepRng`]: rngs::mock::StepRng
-//! [`adapter::ReadRng`]: rngs::adapter::ReadRng
-//! [`adapter::ReseedingRng`]: rngs::adapter::ReseedingRng
-//! [`rdrand`]: https://crates.io/crates/rdrand
-//! [`rand_jitter`]: https://crates.io/crates/rand_jitter
-//! [`rand_chacha`]: https://crates.io/crates/rand_chacha
-//! [`rand_pcg`]: https://crates.io/crates/rand_pcg
-//! [`rand_xoshiro`]: https://crates.io/crates/rand_xoshiro
-//! [`rng` tag]: https://crates.io/keywords/rng
-
-pub mod adapter;
-
-#[cfg(feature="std")] mod entropy;
-pub mod mock;   // Public so we don't export `StepRng` directly, making it a bit
-                // more clear it is intended for testing.
-#[cfg(feature="small_rng")]
-mod small;
-mod std;
-#[cfg(feature="std")] pub(crate) mod thread;
-
-#[allow(deprecated)]
-#[cfg(feature="std")] pub use self::entropy::EntropyRng;
-
-#[cfg(feature="small_rng")]
-pub use self::small::SmallRng;
-pub use self::std::StdRng;
-#[cfg(feature="std")] pub use self::thread::ThreadRng;
-
-#[cfg(feature="getrandom")] mod os;
-#[cfg(feature="getrandom")] pub use self::os::OsRng;
-
-
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-// Copyright 2019 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Interface to the random number generator of the operating system.
-// Note: keep this code in sync with the rand_os crate!
-
-use crate::getrandom::getrandom;
-use rand_core::{CryptoRng, RngCore, Error, impls};
-
-/// A random number generator that retrieves randomness from from the
-/// operating system.
-///
-/// This is a zero-sized struct. It can be freely constructed with `OsRng`.
-///
-/// The implementation is provided by the [getrandom] crate. Refer to
-/// [getrandom] documentation for details.
-///
-/// # Blocking and error handling
-///
-/// It is possible that when used during early boot the first call to `OsRng`
-/// will block until the system's RNG is initialised. It is also possible
-/// (though highly unlikely) for `OsRng` to fail on some platforms, most
-/// likely due to system mis-configuration.
-///
-/// After the first successful call, it is highly unlikely that failures or
-/// significant delays will occur (although performance should be expected to
-/// be much slower than a user-space PRNG).
-///
-/// # Usage example
-/// ```
-/// use rand::rngs::{StdRng, OsRng};
-/// use rand::{RngCore, SeedableRng};
-///
-/// let mut key = [0u8; 16];
-/// OsRng.fill_bytes(&mut key);
-/// let random_u64 = OsRng.next_u64();
-/// 
-/// // OsRng is especially useful for seeding other RNGs (see also from_entropy)
-/// let mut rng = StdRng::from_rng(OsRng).unwrap();
-/// let _ = rng.next_u32();
-/// ```
-///
-/// [getrandom]: https://crates.io/crates/getrandom
-#[derive(Clone, Copy, Debug, Default)]
-pub struct OsRng;
-
-impl OsRng {
-    /// Create a new `OsRng`.
-    #[deprecated(since="0.7.0", note="replace OsRng::new().unwrap() with just OsRng")]
-    pub fn new() -> Result<OsRng, Error> {
-        Ok(OsRng)
-    }
-}
-
-impl CryptoRng for OsRng {}
-
-impl RngCore for OsRng {
-    fn next_u32(&mut self) -> u32 {
-        impls::next_u32_via_fill(self)
-    }
-
-    fn next_u64(&mut self) -> u64 {
-        impls::next_u64_via_fill(self)
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        if let Err(e) = self.try_fill_bytes(dest) {
-            panic!("Error: {}", e);
-        }
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        getrandom(dest)?;
-        Ok(())
-    }
-}
-
-#[test]
-fn test_os_rng() {
-    let x = OsRng.next_u64();
-    let y = OsRng.next_u64();
-    assert!(x != 0);
-    assert!(x != y);
-}
-
-#[test]
-fn test_construction() {
-    let mut rng = OsRng::default();
-    assert!(rng.next_u64() != 0);
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The standard RNG
-
-use crate::{RngCore, CryptoRng, Error, SeedableRng};
-
-#[cfg(target_os = "emscripten")] pub(crate) use rand_hc::Hc128Core as Core;
-#[cfg(not(target_os = "emscripten"))] pub(crate) use rand_chacha::ChaCha20Core as Core;
-#[cfg(target_os = "emscripten")] use rand_hc::Hc128Rng as Rng;
-#[cfg(not(target_os = "emscripten"))] use rand_chacha::ChaCha20Rng as Rng;
-
-/// The standard RNG. The PRNG algorithm in `StdRng` is chosen to be efficient
-/// on the current platform, to be statistically strong and unpredictable
-/// (meaning a cryptographically secure PRNG).
-///
-/// The current algorithm used is the ChaCha block cipher with either 20 or 12
-/// rounds (see the `stdrng_*` feature flags, documented in the README).
-/// This may change as new evidence of cipher security and performance
-/// becomes available.
-///
-/// The algorithm is deterministic but should not be considered reproducible
-/// due to dependence on configuration and possible replacement in future
-/// library versions. For a secure reproducible generator, we recommend use of
-/// the [rand_chacha] crate directly.
-///
-/// [rand_chacha]: https://crates.io/crates/rand_chacha
-#[derive(Clone, Debug)]
-pub struct StdRng(Rng);
-
-impl RngCore for StdRng {
-    #[inline(always)]
-    fn next_u32(&mut self) -> u32 {
-        self.0.next_u32()
-    }
-
-    #[inline(always)]
-    fn next_u64(&mut self) -> u64 {
-        self.0.next_u64()
-    }
-
-    #[inline(always)]
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        self.0.fill_bytes(dest);
-    }
-
-    #[inline(always)]
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        self.0.try_fill_bytes(dest)
-    }
-}
-
-impl SeedableRng for StdRng {
-    type Seed = <Rng as SeedableRng>::Seed;
-
-    #[inline(always)]
-    fn from_seed(seed: Self::Seed) -> Self {
-        StdRng(Rng::from_seed(seed))
-    }
-
-    #[inline(always)]
-    fn from_rng<R: RngCore>(rng: R) -> Result<Self, Error> {
-        Rng::from_rng(rng).map(StdRng)
-    }
-}
-
-impl CryptoRng for StdRng {}
-
-
-#[cfg(test)]
-mod test {
-    use crate::{RngCore, SeedableRng};
-    use crate::rngs::StdRng;
-
-    #[test]
-    fn test_stdrng_construction() {
-        // Test value-stability of StdRng. This is expected to break any time
-        // the algorithm is changed.
-        let seed = [1,0,0,0, 23,0,0,0, 200,1,0,0, 210,30,0,0,
-                    0,0,0,0, 0,0,0,0, 0,0,0,0, 0,0,0,0];
-
-        #[cfg(any(feature="stdrng_strong", not(feature="stdrng_fast")))]
-        let target = [3950704604716924505, 5573172343717151650];
-        #[cfg(all(not(feature="stdrng_strong"), feature="stdrng_fast"))]
-        let target = [10719222850664546238, 14064965282130556830];
-        
-        let mut rng0 = StdRng::from_seed(seed);
-        let x0 = rng0.next_u64();
-
-        let mut rng1 = StdRng::from_rng(rng0).unwrap();
-        let x1 = rng1.next_u64();
-
-        assert_eq!([x0, x1], target);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand/rngs/thread.rs.html b/target/doc/src/rand/rngs/thread.rs.html deleted file mode 100644 index 631368d..0000000 --- a/target/doc/src/rand/rngs/thread.rs.html +++ /dev/null @@ -1,251 +0,0 @@ -thread.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Thread-local random number generator
-
-use std::cell::UnsafeCell;
-use std::ptr::NonNull;
-
-use crate::{RngCore, CryptoRng, SeedableRng, Error};
-use crate::rngs::adapter::ReseedingRng;
-use crate::rngs::OsRng;
-use super::std::Core;
-
-// Rationale for using `UnsafeCell` in `ThreadRng`:
-//
-// Previously we used a `RefCell`, with an overhead of ~15%. There will only
-// ever be one mutable reference to the interior of the `UnsafeCell`, because
-// we only have such a reference inside `next_u32`, `next_u64`, etc. Within a
-// single thread (which is the definition of `ThreadRng`), there will only ever
-// be one of these methods active at a time.
-//
-// A possible scenario where there could be multiple mutable references is if
-// `ThreadRng` is used inside `next_u32` and co. But the implementation is
-// completely under our control. We just have to ensure none of them use
-// `ThreadRng` internally, which is nonsensical anyway. We should also never run
-// `ThreadRng` in destructors of its implementation, which is also nonsensical.
-
-
-// Number of generated bytes after which to reseed `ThreadRng`.
-// According to benchmarks, reseeding has a noticable impact with thresholds
-// of 32 kB and less. We choose 64 kB to avoid significant overhead.
-const THREAD_RNG_RESEED_THRESHOLD: u64 = 1024 * 64;
-
-/// The type returned by [`thread_rng`], essentially just a reference to the
-/// PRNG in thread-local memory.
-///
-/// `ThreadRng` uses the same PRNG as [`StdRng`] for security and performance.
-/// As hinted by the name, the generator is thread-local. `ThreadRng` is a
-/// handle to this generator and thus supports `Copy`, but not `Send` or `Sync`.
-///
-/// Unlike `StdRng`, `ThreadRng` uses the  [`ReseedingRng`] wrapper to reseed
-/// the PRNG from fresh entropy every 64 kiB of random data.
-/// [`OsRng`] is used to provide seed data.
-///
-/// Note that the reseeding is done as an extra precaution against side-channel
-/// attacks and mis-use (e.g. if somehow weak entropy were supplied initially).
-/// The PRNG algorithms used are assumed to be secure.
-///
-/// [`ReseedingRng`]: crate::rngs::adapter::ReseedingRng
-/// [`StdRng`]: crate::rngs::StdRng
-#[derive(Copy, Clone, Debug)]
-pub struct ThreadRng {
-    // inner raw pointer implies type is neither Send nor Sync
-    rng: NonNull<ReseedingRng<Core, OsRng>>,
-}
-
-thread_local!(
-    static THREAD_RNG_KEY: UnsafeCell<ReseedingRng<Core, OsRng>> = {
-        let r = Core::from_rng(OsRng).unwrap_or_else(|err|
-                panic!("could not initialize thread_rng: {}", err));
-        let rng = ReseedingRng::new(r,
-                                    THREAD_RNG_RESEED_THRESHOLD,
-                                    OsRng);
-        UnsafeCell::new(rng)
-    }
-);
-
-/// Retrieve the lazily-initialized thread-local random number generator,
-/// seeded by the system. Intended to be used in method chaining style,
-/// e.g. `thread_rng().gen::<i32>()`, or cached locally, e.g.
-/// `let mut rng = thread_rng();`.  Invoked by the `Default` trait, making
-/// `ThreadRng::default()` equivalent.
-///
-/// For more information see [`ThreadRng`].
-pub fn thread_rng() -> ThreadRng {
-    let raw = THREAD_RNG_KEY.with(|t| t.get());
-    let nn = NonNull::new(raw).unwrap();
-    ThreadRng { rng: nn }
-}
-
-impl Default for ThreadRng {
-    fn default() -> ThreadRng {
-        crate::prelude::thread_rng()
-    }
-}
-
-impl RngCore for ThreadRng {
-    #[inline(always)]
-    fn next_u32(&mut self) -> u32 {
-        unsafe { self.rng.as_mut().next_u32() }
-    }
-
-    #[inline(always)]
-    fn next_u64(&mut self) -> u64 {
-        unsafe { self.rng.as_mut().next_u64() }
-    }
-
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        unsafe { self.rng.as_mut().fill_bytes(dest) }
-    }
-
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        unsafe { self.rng.as_mut().try_fill_bytes(dest) }
-    }
-}
-
-impl CryptoRng for ThreadRng {}
-
-
-#[cfg(test)]
-mod test {
-    #[test]
-    fn test_thread_rng() {
-        use crate::Rng;
-        let mut r = crate::thread_rng();
-        r.gen::<i32>();
-        assert_eq!(r.gen_range(0, 1), 0);
-    }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Low-level API for sampling indices
-
-#[cfg(feature="alloc")] use core::slice;
-
-#[cfg(feature="std")] use std::vec;
-#[cfg(all(feature="alloc", not(feature="std")))] use crate::alloc::vec::{self, Vec};
-// BTreeMap is not as fast in tests, but better than nothing.
-#[cfg(feature="std")] use std::collections::{HashSet};
-#[cfg(all(feature="alloc", not(feature="std")))] use crate::alloc::collections::BTreeSet;
-
-#[cfg(feature="alloc")] use crate::distributions::{Distribution, Uniform, uniform::SampleUniform};
-use crate::Rng;
-
-/// A vector of indices.
-///
-/// Multiple internal representations are possible.
-#[derive(Clone, Debug)]
-pub enum IndexVec {
-    #[doc(hidden)] U32(Vec<u32>),
-    #[doc(hidden)] USize(Vec<usize>),
-}
-
-impl IndexVec {
-    /// Returns the number of indices
-    pub fn len(&self) -> usize {
-        match self {
-            &IndexVec::U32(ref v) => v.len(),
-            &IndexVec::USize(ref v) => v.len(),
-        }
-    }
-
-    /// Return the value at the given `index`.
-    ///
-    /// (Note: we cannot implement [`std::ops::Index`] because of lifetime
-    /// restrictions.)
-    pub fn index(&self, index: usize) -> usize {
-        match self {
-            &IndexVec::U32(ref v) => v[index] as usize,
-            &IndexVec::USize(ref v) => v[index],
-        }
-    }
-
-    /// Return result as a `Vec<usize>`. Conversion may or may not be trivial.
-    pub fn into_vec(self) -> Vec<usize> {
-        match self {
-            IndexVec::U32(v) => v.into_iter().map(|i| i as usize).collect(),
-            IndexVec::USize(v) => v,
-        }
-    }
-
-    /// Iterate over the indices as a sequence of `usize` values
-    pub fn iter<'a>(&'a self) -> IndexVecIter<'a> {
-        match self {
-            &IndexVec::U32(ref v) => IndexVecIter::U32(v.iter()),
-            &IndexVec::USize(ref v) => IndexVecIter::USize(v.iter()),
-        }
-    }
-
-    /// Convert into an iterator over the indices as a sequence of `usize` values
-    pub fn into_iter(self) -> IndexVecIntoIter {
-        match self {
-            IndexVec::U32(v) => IndexVecIntoIter::U32(v.into_iter()),
-            IndexVec::USize(v) => IndexVecIntoIter::USize(v.into_iter()),
-        }
-    }
-}
-
-impl PartialEq for IndexVec {
-    fn eq(&self, other: &IndexVec) -> bool {
-        use self::IndexVec::*;
-        match (self, other) {
-            (&U32(ref v1), &U32(ref v2)) => v1 == v2,
-            (&USize(ref v1), &USize(ref v2)) => v1 == v2,
-            (&U32(ref v1), &USize(ref v2)) => (v1.len() == v2.len())
-                && (v1.iter().zip(v2.iter()).all(|(x, y)| *x as usize == *y)),
-            (&USize(ref v1), &U32(ref v2)) => (v1.len() == v2.len())
-                && (v1.iter().zip(v2.iter()).all(|(x, y)| *x == *y as usize)),
-        }
-    }
-}
-
-impl From<Vec<u32>> for IndexVec {
-    fn from(v: Vec<u32>) -> Self {
-        IndexVec::U32(v)
-    }
-}
-
-impl From<Vec<usize>> for IndexVec {
-    fn from(v: Vec<usize>) -> Self {
-        IndexVec::USize(v)
-    }
-}
-
-/// Return type of `IndexVec::iter`.
-#[derive(Debug)]
-pub enum IndexVecIter<'a> {
-    #[doc(hidden)] U32(slice::Iter<'a, u32>),
-    #[doc(hidden)] USize(slice::Iter<'a, usize>),
-}
-
-impl<'a> Iterator for IndexVecIter<'a> {
-    type Item = usize;
-    fn next(&mut self) -> Option<usize> {
-        use self::IndexVecIter::*;
-        match self {
-            &mut U32(ref mut iter) => iter.next().map(|i| *i as usize),
-            &mut USize(ref mut iter) => iter.next().cloned(),
-        }
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        match self {
-            &IndexVecIter::U32(ref v) => v.size_hint(),
-            &IndexVecIter::USize(ref v) => v.size_hint(),
-        }
-    }
-}
-
-impl<'a> ExactSizeIterator for IndexVecIter<'a> {}
-
-/// Return type of `IndexVec::into_iter`.
-#[derive(Clone, Debug)]
-pub enum IndexVecIntoIter {
-    #[doc(hidden)] U32(vec::IntoIter<u32>),
-    #[doc(hidden)] USize(vec::IntoIter<usize>),
-}
-
-impl Iterator for IndexVecIntoIter {
-    type Item = usize;
-
-    fn next(&mut self) -> Option<Self::Item> {
-        use self::IndexVecIntoIter::*;
-        match self {
-            &mut U32(ref mut v) => v.next().map(|i| i as usize),
-            &mut USize(ref mut v) => v.next(),
-        }
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        use self::IndexVecIntoIter::*;
-        match self {
-            &U32(ref v) => v.size_hint(),
-            &USize(ref v) => v.size_hint(),
-        }
-    }
-}
-
-impl ExactSizeIterator for IndexVecIntoIter {}
-
-
-/// Randomly sample exactly `amount` distinct indices from `0..length`, and
-/// return them in random order (fully shuffled).
-///
-/// This method is used internally by the slice sampling methods, but it can
-/// sometimes be useful to have the indices themselves so this is provided as
-/// an alternative.
-///
-/// The implementation used is not specified; we automatically select the
-/// fastest available algorithm for the `length` and `amount` parameters
-/// (based on detailed profiling on an Intel Haswell CPU). Roughly speaking,
-/// complexity is `O(amount)`, except that when `amount` is small, performance
-/// is closer to `O(amount^2)`, and when `length` is close to `amount` then
-/// `O(length)`.
-///
-/// Note that performance is significantly better over `u32` indices than over
-/// `u64` indices. Because of this we hide the underlying type behind an
-/// abstraction, `IndexVec`.
-///
-/// If an allocation-free `no_std` function is required, it is suggested
-/// to adapt the internal `sample_floyd` implementation.
-///
-/// Panics if `amount > length`.
-pub fn sample<R>(rng: &mut R, length: usize, amount: usize) -> IndexVec
-where R: Rng + ?Sized {
-    if amount > length {
-        panic!("`amount` of samples must be less than or equal to `length`");
-    }
-    if length > (::core::u32::MAX as usize) {
-        // We never want to use inplace here, but could use floyd's alg
-        // Lazy version: always use the cache alg.
-        return sample_rejection(rng, length, amount);
-    }
-    let amount = amount as u32;
-    let length = length as u32;
-
-    // Choice of algorithm here depends on both length and amount. See:
-    // https://github.com/rust-random/rand/pull/479
-    // We do some calculations with f32. Accuracy is not very important.
-
-    if amount < 163 {
-        const C: [[f32; 2]; 2] = [[1.6, 8.0/45.0], [10.0, 70.0/9.0]];
-        let j = if length < 500_000 { 0 } else { 1 };
-        let amount_fp = amount as f32;
-        let m4 = C[0][j] * amount_fp;
-        // Short-cut: when amount < 12, floyd's is always faster
-        if amount > 11 && (length as f32) < (C[1][j] + m4) * amount_fp {
-            sample_inplace(rng, length, amount)
-        } else {
-            sample_floyd(rng, length, amount)
-        }
-    } else {
-        const C: [f32; 2] = [270.0, 330.0/9.0];
-        let j = if length < 500_000 { 0 } else { 1 };
-        if (length as f32) < C[j] * (amount as f32) {
-            sample_inplace(rng, length, amount)
-        } else {
-            sample_rejection(rng, length, amount)
-        }
-    }
-}
-
-/// Randomly sample exactly `amount` indices from `0..length`, using Floyd's
-/// combination algorithm.
-///
-/// The output values are fully shuffled. (Overhead is under 50%.)
-///
-/// This implementation uses `O(amount)` memory and `O(amount^2)` time.
-fn sample_floyd<R>(rng: &mut R, length: u32, amount: u32) -> IndexVec
-where R: Rng + ?Sized {
-    // For small amount we use Floyd's fully-shuffled variant. For larger
-    // amounts this is slow due to Vec::insert performance, so we shuffle
-    // afterwards. Benchmarks show little overhead from extra logic.
-    let floyd_shuffle = amount < 50;
-
-    debug_assert!(amount <= length);
-    let mut indices = Vec::with_capacity(amount as usize);
-    for j in length - amount .. length {
-        let t = rng.gen_range(0, j + 1);
-        if floyd_shuffle {
-            if let Some(pos) = indices.iter().position(|&x| x == t) {
-                indices.insert(pos, j);
-                continue;
-            }
-        } else {
-            if indices.contains(&t) {
-                indices.push(j);
-                continue;
-            }
-        }
-        indices.push(t);
-    }
-    if !floyd_shuffle {
-        // Reimplement SliceRandom::shuffle with smaller indices
-        for i in (1..amount).rev() {
-            // invariant: elements with index > i have been locked in place.
-            indices.swap(i as usize, rng.gen_range(0, i + 1) as usize);
-        }
-    }
-    IndexVec::from(indices)
-}
-
-/// Randomly sample exactly `amount` indices from `0..length`, using an inplace
-/// partial Fisher-Yates method.
-/// Sample an amount of indices using an inplace partial fisher yates method.
-///
-/// This allocates the entire `length` of indices and randomizes only the first `amount`.
-/// It then truncates to `amount` and returns.
-///
-/// This method is not appropriate for large `length` and potentially uses a lot
-/// of memory; because of this we only implement for `u32` index (which improves
-/// performance in all cases).
-///
-/// Set-up is `O(length)` time and memory and shuffling is `O(amount)` time.
-fn sample_inplace<R>(rng: &mut R, length: u32, amount: u32) -> IndexVec
-where R: Rng + ?Sized {
-    debug_assert!(amount <= length);
-    let mut indices: Vec<u32> = Vec::with_capacity(length as usize);
-    indices.extend(0..length);
-    for i in 0..amount {
-        let j: u32 = rng.gen_range(i, length);
-        indices.swap(i as usize, j as usize);
-    }
-    indices.truncate(amount as usize);
-    debug_assert_eq!(indices.len(), amount as usize);
-    IndexVec::from(indices)
-}
-
-trait UInt: Copy + PartialOrd + Ord + PartialEq + Eq + SampleUniform + core::hash::Hash {
-    fn zero() -> Self;
-    fn as_usize(self) -> usize;
-}
-impl UInt for u32 {
-    #[inline] fn zero() -> Self { 0 }
-    #[inline] fn as_usize(self) -> usize { self as usize }
-}
-impl UInt for usize {
-    #[inline] fn zero() -> Self { 0 }
-    #[inline] fn as_usize(self) -> usize { self }
-}
-
-/// Randomly sample exactly `amount` indices from `0..length`, using rejection
-/// sampling.
-///
-/// Since `amount <<< length` there is a low chance of a random sample in
-/// `0..length` being a duplicate. We test for duplicates and resample where
-/// necessary. The algorithm is `O(amount)` time and memory.
-/// 
-/// This function  is generic over X primarily so that results are value-stable
-/// over 32-bit and 64-bit platforms.
-fn sample_rejection<X: UInt, R>(rng: &mut R, length: X, amount: X) -> IndexVec
-where R: Rng + ?Sized, IndexVec: From<Vec<X>> {
-    debug_assert!(amount < length);
-    #[cfg(feature="std")] let mut cache = HashSet::with_capacity(amount.as_usize());
-    #[cfg(not(feature="std"))] let mut cache = BTreeSet::new();
-    let distr = Uniform::new(X::zero(), length);
-    let mut indices = Vec::with_capacity(amount.as_usize());
-    for _ in 0..amount.as_usize() {
-        let mut pos = distr.sample(rng);
-        while !cache.insert(pos) {
-            pos = distr.sample(rng);
-        }
-        indices.push(pos);
-    }
-
-    debug_assert_eq!(indices.len(), amount.as_usize());
-    IndexVec::from(indices)
-}
-
-#[cfg(test)]
-mod test {
-    #[cfg(feature="std")] use std::vec;
-    #[cfg(all(feature="alloc", not(feature="std")))] use crate::alloc::vec;
-    use super::*;
-
-    #[test]
-    fn test_sample_boundaries() {
-        let mut r = crate::test::rng(404);
-
-        assert_eq!(sample_inplace(&mut r, 0, 0).len(), 0);
-        assert_eq!(sample_inplace(&mut r, 1, 0).len(), 0);
-        assert_eq!(sample_inplace(&mut r, 1, 1).into_vec(), vec![0]);
-
-        assert_eq!(sample_rejection(&mut r, 1u32, 0).len(), 0);
-
-        assert_eq!(sample_floyd(&mut r, 0, 0).len(), 0);
-        assert_eq!(sample_floyd(&mut r, 1, 0).len(), 0);
-        assert_eq!(sample_floyd(&mut r, 1, 1).into_vec(), vec![0]);
-
-        // These algorithms should be fast with big numbers. Test average.
-        let sum: usize = sample_rejection(&mut r, 1 << 25, 10u32)
-                .into_iter().sum();
-        assert!(1 << 25 < sum && sum < (1 << 25) * 25);
-
-        let sum: usize = sample_floyd(&mut r, 1 << 25, 10)
-                .into_iter().sum();
-        assert!(1 << 25 < sum && sum < (1 << 25) * 25);
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_sample_alg() {
-        let seed_rng = crate::test::rng;
-
-        // We can't test which algorithm is used directly, but Floyd's alg
-        // should produce different results from the others. (Also, `inplace`
-        // and `cached` currently use different sizes thus produce different results.)
-
-        // A small length and relatively large amount should use inplace
-        let (length, amount): (usize, usize) = (100, 50);
-        let v1 = sample(&mut seed_rng(420), length, amount);
-        let v2 = sample_inplace(&mut seed_rng(420), length as u32, amount as u32);
-        assert!(v1.iter().all(|e| e < length));
-        assert_eq!(v1, v2);
-
-        // Test Floyd's alg does produce different results
-        let v3 = sample_floyd(&mut seed_rng(420), length as u32, amount as u32);
-        assert!(v1 != v3);
-
-        // A large length and small amount should use Floyd
-        let (length, amount): (usize, usize) = (1<<20, 50);
-        let v1 = sample(&mut seed_rng(421), length, amount);
-        let v2 = sample_floyd(&mut seed_rng(421), length as u32, amount as u32);
-        assert!(v1.iter().all(|e| e < length));
-        assert_eq!(v1, v2);
-
-        // A large length and larger amount should use cache
-        let (length, amount): (usize, usize) = (1<<20, 600);
-        let v1 = sample(&mut seed_rng(422), length, amount);
-        let v2 = sample_rejection(&mut seed_rng(422), length as u32, amount as u32);
-        assert!(v1.iter().all(|e| e < length));
-        assert_eq!(v1, v2);
-    }
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Sequence-related functionality
-//! 
-//! This module provides:
-//! 
-//! *   [`seq::SliceRandom`] slice sampling and mutation
-//! *   [`seq::IteratorRandom`] iterator sampling
-//! *   [`seq::index::sample`] low-level API to choose multiple indices from
-//!     `0..length`
-//! 
-//! Also see:
-//! 
-//! *   [`distributions::weighted`] module which provides implementations of
-//!     weighted index sampling.
-//! 
-//! In order to make results reproducible across 32-64 bit architectures, all
-//! `usize` indices are sampled as a `u32` where possible (also providing a
-//! small performance boost in some cases).
-
-
-#[cfg(feature="alloc")] pub mod index;
-
-#[cfg(feature="alloc")] use core::ops::Index;
-
-#[cfg(all(feature="alloc", not(feature="std")))] use crate::alloc::vec::Vec;
-
-use crate::Rng;
-#[cfg(feature="alloc")] use crate::distributions::WeightedError;
-#[cfg(feature="alloc")] use crate::distributions::uniform::{SampleUniform, SampleBorrow};
-
-/// Extension trait on slices, providing random mutation and sampling methods.
-/// 
-/// This trait is implemented on all `[T]` slice types, providing several
-/// methods for choosing and shuffling elements. You must `use` this trait:
-/// 
-/// ```
-/// use rand::seq::SliceRandom;
-/// 
-/// fn main() {
-///     let mut rng = rand::thread_rng();
-///     let mut bytes = "Hello, random!".to_string().into_bytes();
-///     bytes.shuffle(&mut rng);
-///     let str = String::from_utf8(bytes).unwrap();
-///     println!("{}", str);
-/// }
-/// ```
-/// Example output (non-deterministic):
-/// ```none
-/// l,nmroHado !le
-/// ```
-pub trait SliceRandom {
-    /// The element type.
-    type Item;
-
-    /// Returns a reference to one random element of the slice, or `None` if the
-    /// slice is empty.
-    /// 
-    /// For slices, complexity is `O(1)`.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::thread_rng;
-    /// use rand::seq::SliceRandom;
-    ///
-    /// let choices = [1, 2, 4, 8, 16, 32];
-    /// let mut rng = thread_rng();
-    /// println!("{:?}", choices.choose(&mut rng));
-    /// assert_eq!(choices[..0].choose(&mut rng), None);
-    /// ```
-    fn choose<R>(&self, rng: &mut R) -> Option<&Self::Item>
-    where R: Rng + ?Sized;
-
-    /// Returns a mutable reference to one random element of the slice, or
-    /// `None` if the slice is empty.
-    ///
-    /// For slices, complexity is `O(1)`.
-    fn choose_mut<R>(&mut self, rng: &mut R) -> Option<&mut Self::Item>
-    where R: Rng + ?Sized;
-
-    /// Chooses `amount` elements from the slice at random, without repetition,
-    /// and in random order. The returned iterator is appropriate both for
-    /// collection into a `Vec` and filling an existing buffer (see example).
-    ///
-    /// In case this API is not sufficiently flexible, use [`index::sample`].
-    ///
-    /// For slices, complexity is the same as [`index::sample`].
-    ///
-    /// # Example
-    /// ```
-    /// use rand::seq::SliceRandom;
-    ///
-    /// let mut rng = &mut rand::thread_rng();
-    /// let sample = "Hello, audience!".as_bytes();
-    ///
-    /// // collect the results into a vector:
-    /// let v: Vec<u8> = sample.choose_multiple(&mut rng, 3).cloned().collect();
-    ///
-    /// // store in a buffer:
-    /// let mut buf = [0u8; 5];
-    /// for (b, slot) in sample.choose_multiple(&mut rng, buf.len()).zip(buf.iter_mut()) {
-    ///     *slot = *b;
-    /// }
-    /// ```
-    #[cfg(feature = "alloc")]
-    fn choose_multiple<R>(&self, rng: &mut R, amount: usize) -> SliceChooseIter<Self, Self::Item>
-    where R: Rng + ?Sized;
-
-    /// Similar to [`choose`], but where the likelihood of each outcome may be
-    /// specified.
-    /// 
-    /// The specified function `weight` maps each item `x` to a relative
-    /// likelihood `weight(x)`. The probability of each item being selected is
-    /// therefore `weight(x) / s`, where `s` is the sum of all `weight(x)`.
-    ///
-    /// For slices of length `n`, complexity is `O(n)`.
-    /// See also [`choose_weighted_mut`], [`distributions::weighted`].
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::prelude::*;
-    ///
-    /// let choices = [('a', 2), ('b', 1), ('c', 1)];
-    /// let mut rng = thread_rng();
-    /// // 50% chance to print 'a', 25% chance to print 'b', 25% chance to print 'c'
-    /// println!("{:?}", choices.choose_weighted(&mut rng, |item| item.1).unwrap().0);
-    /// ```
-    /// [`choose`]: SliceRandom::choose
-    /// [`choose_weighted_mut`]: SliceRandom::choose_weighted_mut
-    /// [`distributions::weighted`]: crate::distributions::weighted
-    #[cfg(feature = "alloc")]
-    fn choose_weighted<R, F, B, X>(
-        &self, rng: &mut R, weight: F,
-    ) -> Result<&Self::Item, WeightedError>
-    where
-        R: Rng + ?Sized,
-        F: Fn(&Self::Item) -> B,
-        B: SampleBorrow<X>,
-        X: SampleUniform
-            + for<'a> ::core::ops::AddAssign<&'a X>
-            + ::core::cmp::PartialOrd<X>
-            + Clone
-            + Default;
-
-    /// Similar to [`choose_mut`], but where the likelihood of each outcome may
-    /// be specified.
-    /// 
-    /// The specified function `weight` maps each item `x` to a relative
-    /// likelihood `weight(x)`. The probability of each item being selected is
-    /// therefore `weight(x) / s`, where `s` is the sum of all `weight(x)`.
-    ///
-    /// For slices of length `n`, complexity is `O(n)`.
-    /// See also [`choose_weighted`], [`distributions::weighted`].
-    ///
-    /// [`choose_mut`]: SliceRandom::choose_mut
-    /// [`choose_weighted`]: SliceRandom::choose_weighted
-    /// [`distributions::weighted`]: crate::distributions::weighted
-    #[cfg(feature = "alloc")]
-    fn choose_weighted_mut<R, F, B, X>(
-        &mut self, rng: &mut R, weight: F,
-    ) -> Result<&mut Self::Item, WeightedError>
-    where
-        R: Rng + ?Sized,
-        F: Fn(&Self::Item) -> B,
-        B: SampleBorrow<X>,
-        X: SampleUniform
-            + for<'a> ::core::ops::AddAssign<&'a X>
-            + ::core::cmp::PartialOrd<X>
-            + Clone
-            + Default;
-
-    /// Shuffle a mutable slice in place.
-    ///
-    /// For slices of length `n`, complexity is `O(n)`.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use rand::seq::SliceRandom;
-    /// use rand::thread_rng;
-    ///
-    /// let mut rng = thread_rng();
-    /// let mut y = [1, 2, 3, 4, 5];
-    /// println!("Unshuffled: {:?}", y);
-    /// y.shuffle(&mut rng);
-    /// println!("Shuffled:   {:?}", y);
-    /// ```
-    fn shuffle<R>(&mut self, rng: &mut R)
-    where R: Rng + ?Sized;
-
-    /// Shuffle a slice in place, but exit early.
-    ///
-    /// Returns two mutable slices from the source slice. The first contains
-    /// `amount` elements randomly permuted. The second has the remaining
-    /// elements that are not fully shuffled.
-    ///
-    /// This is an efficient method to select `amount` elements at random from
-    /// the slice, provided the slice may be mutated.
-    ///
-    /// If you only need to choose elements randomly and `amount > self.len()/2`
-    /// then you may improve performance by taking
-    /// `amount = values.len() - amount` and using only the second slice.
-    ///
-    /// If `amount` is greater than the number of elements in the slice, this
-    /// will perform a full shuffle.
-    ///
-    /// For slices, complexity is `O(m)` where `m = amount`.
-    fn partial_shuffle<R>(
-        &mut self, rng: &mut R, amount: usize,
-    ) -> (&mut [Self::Item], &mut [Self::Item])
-    where R: Rng + ?Sized;
-}
-
-/// Extension trait on iterators, providing random sampling methods.
-/// 
-/// This trait is implemented on all sized iterators, providing methods for
-/// choosing one or more elements. You must `use` this trait:
-/// 
-/// ```
-/// use rand::seq::IteratorRandom;
-/// 
-/// fn main() {
-///     let mut rng = rand::thread_rng();
-///     
-///     let faces = "😀😎😐😕😠😢";
-///     println!("I am {}!", faces.chars().choose(&mut rng).unwrap());
-/// }
-/// ```
-/// Example output (non-deterministic):
-/// ```none
-/// I am 😀!
-/// ```
-pub trait IteratorRandom: Iterator + Sized {
-    /// Choose one element at random from the iterator.
-    /// 
-    /// Returns `None` if and only if the iterator is empty.
-    ///
-    /// This method uses [`Iterator::size_hint`] for optimisation. With an
-    /// accurate hint and where [`Iterator::nth`] is a constant-time operation
-    /// this method can offer `O(1)` performance. Where no size hint is
-    /// available, complexity is `O(n)` where `n` is the iterator length.
-    /// Partial hints (where `lower > 0`) also improve performance.
-    /// 
-    /// For slices, prefer [`SliceRandom::choose`] which guarantees `O(1)`
-    /// performance.
-    fn choose<R>(mut self, rng: &mut R) -> Option<Self::Item>
-    where R: Rng + ?Sized {
-        let (mut lower, mut upper) = self.size_hint();
-        let mut consumed = 0;
-        let mut result = None;
-
-        if upper == Some(lower) {
-            return if lower == 0 { None } else { self.nth(gen_index(rng, lower)) };
-        }
-
-        // Continue until the iterator is exhausted
-        loop {
-            if lower > 1 {
-                let ix = gen_index(rng, lower + consumed);
-                let skip;
-                if ix < lower {
-                    result = self.nth(ix);
-                    skip = lower - (ix + 1);
-                } else {
-                    skip = lower;
-                }
-                if upper == Some(lower) {
-                    return result;
-                }
-                consumed += lower;
-                if skip > 0 {
-                    self.nth(skip - 1);
-                }
-            } else {
-                let elem = self.next();
-                if elem.is_none() {
-                    return result;
-                }
-                consumed += 1;
-                let denom = consumed as f64; // accurate to 2^53 elements
-                if rng.gen_bool(1.0 / denom) {
-                    result = elem;
-                }
-            }
-
-            let hint = self.size_hint();
-            lower = hint.0;
-            upper = hint.1;
-        }
-    }
-
-    /// Collects values at random from the iterator into a supplied buffer
-    /// until that buffer is filled.
-    ///
-    /// Although the elements are selected randomly, the order of elements in
-    /// the buffer is neither stable nor fully random. If random ordering is
-    /// desired, shuffle the result.
-    ///
-    /// Returns the number of elements added to the buffer. This equals the length
-    /// of the buffer unless the iterator contains insufficient elements, in which
-    /// case this equals the number of elements available.
-    ///
-    /// Complexity is `O(n)` where `n` is the length of the iterator.
-    /// For slices, prefer [`SliceRandom::choose_multiple`].
-    fn choose_multiple_fill<R>(mut self, rng: &mut R, buf: &mut [Self::Item]) -> usize
-    where R: Rng + ?Sized {
-        let amount = buf.len();
-        let mut len = 0;
-        while len < amount {
-            if let Some(elem) = self.next() {
-                buf[len] = elem;
-                len += 1;
-            } else {
-                // Iterator exhausted; stop early
-                return len;
-            }
-        }
-
-        // Continue, since the iterator was not exhausted
-        for (i, elem) in self.enumerate() {
-            let k = gen_index(rng, i + 1 + amount);
-            if let Some(slot) = buf.get_mut(k) {
-                *slot = elem;
-            }
-        }
-        len
-    }
-
-    /// Collects `amount` values at random from the iterator into a vector.
-    ///
-    /// This is equivalent to `choose_multiple_fill` except for the result type.
-    ///
-    /// Although the elements are selected randomly, the order of elements in
-    /// the buffer is neither stable nor fully random. If random ordering is
-    /// desired, shuffle the result.
-    ///
-    /// The length of the returned vector equals `amount` unless the iterator
-    /// contains insufficient elements, in which case it equals the number of
-    /// elements available.
-    ///
-    /// Complexity is `O(n)` where `n` is the length of the iterator.
-    /// For slices, prefer [`SliceRandom::choose_multiple`].
-    #[cfg(feature = "alloc")]
-    fn choose_multiple<R>(mut self, rng: &mut R, amount: usize) -> Vec<Self::Item>
-    where R: Rng + ?Sized {
-        let mut reservoir = Vec::with_capacity(amount);
-        reservoir.extend(self.by_ref().take(amount));
-
-        // Continue unless the iterator was exhausted
-        //
-        // note: this prevents iterators that "restart" from causing problems.
-        // If the iterator stops once, then so do we.
-        if reservoir.len() == amount {
-            for (i, elem) in self.enumerate() {
-                let k = gen_index(rng, i + 1 + amount);
-                if let Some(slot) = reservoir.get_mut(k) {
-                    *slot = elem;
-                }
-            }
-        } else {
-            // Don't hang onto extra memory. There is a corner case where
-            // `amount` was much less than `self.len()`.
-            reservoir.shrink_to_fit();
-        }
-        reservoir
-    }
-}
-
-
-impl<T> SliceRandom for [T] {
-    type Item = T;
-
-    fn choose<R>(&self, rng: &mut R) -> Option<&Self::Item>
-    where R: Rng + ?Sized {
-        if self.is_empty() {
-            None
-        } else {
-            Some(&self[gen_index(rng, self.len())])
-        }
-    }
-
-    fn choose_mut<R>(&mut self, rng: &mut R) -> Option<&mut Self::Item>
-    where R: Rng + ?Sized {
-        if self.is_empty() {
-            None
-        } else {
-            let len = self.len();
-            Some(&mut self[gen_index(rng, len)])
-        }
-    }
-
-    #[cfg(feature = "alloc")]
-    fn choose_multiple<R>(&self, rng: &mut R, amount: usize) -> SliceChooseIter<Self, Self::Item>
-    where R: Rng + ?Sized {
-        let amount = ::core::cmp::min(amount, self.len());
-        SliceChooseIter {
-            slice: self,
-            _phantom: Default::default(),
-            indices: index::sample(rng, self.len(), amount).into_iter(),
-        }
-    }
-
-    #[cfg(feature = "alloc")]
-    fn choose_weighted<R, F, B, X>(
-        &self, rng: &mut R, weight: F,
-    ) -> Result<&Self::Item, WeightedError>
-    where
-        R: Rng + ?Sized,
-        F: Fn(&Self::Item) -> B,
-        B: SampleBorrow<X>,
-        X: SampleUniform
-            + for<'a> ::core::ops::AddAssign<&'a X>
-            + ::core::cmp::PartialOrd<X>
-            + Clone
-            + Default,
-    {
-        use crate::distributions::{Distribution, WeightedIndex};
-        let distr = WeightedIndex::new(self.iter().map(weight))?;
-        Ok(&self[distr.sample(rng)])
-    }
-
-    #[cfg(feature = "alloc")]
-    fn choose_weighted_mut<R, F, B, X>(
-        &mut self, rng: &mut R, weight: F,
-    ) -> Result<&mut Self::Item, WeightedError>
-    where
-        R: Rng + ?Sized,
-        F: Fn(&Self::Item) -> B,
-        B: SampleBorrow<X>,
-        X: SampleUniform
-            + for<'a> ::core::ops::AddAssign<&'a X>
-            + ::core::cmp::PartialOrd<X>
-            + Clone
-            + Default,
-    {
-        use crate::distributions::{Distribution, WeightedIndex};
-        let distr = WeightedIndex::new(self.iter().map(weight))?;
-        Ok(&mut self[distr.sample(rng)])
-    }
-
-    fn shuffle<R>(&mut self, rng: &mut R)
-    where R: Rng + ?Sized {
-        for i in (1..self.len()).rev() {
-            // invariant: elements with index > i have been locked in place.
-            self.swap(i, gen_index(rng, i + 1));
-        }
-    }
-
-    fn partial_shuffle<R>(
-        &mut self, rng: &mut R, amount: usize,
-    ) -> (&mut [Self::Item], &mut [Self::Item])
-    where R: Rng + ?Sized {
-        // This applies Durstenfeld's algorithm for the
-        // [Fisher–Yates shuffle](https://en.wikipedia.org/wiki/Fisher%E2%80%93Yates_shuffle#The_modern_algorithm)
-        // for an unbiased permutation, but exits early after choosing `amount`
-        // elements.
-
-        let len = self.len();
-        let end = if amount >= len { 0 } else { len - amount };
-
-        for i in (end..len).rev() {
-            // invariant: elements with index > i have been locked in place.
-            self.swap(i, gen_index(rng, i + 1));
-        }
-        let r = self.split_at_mut(end);
-        (r.1, r.0)
-    }
-}
-
-impl<I> IteratorRandom for I where I: Iterator + Sized {}
-
-
-/// An iterator over multiple slice elements.
-/// 
-/// This struct is created by
-/// [`SliceRandom::choose_multiple`](trait.SliceRandom.html#tymethod.choose_multiple).
-#[cfg(feature = "alloc")]
-#[derive(Debug)]
-pub struct SliceChooseIter<'a, S: ?Sized + 'a, T: 'a> {
-    slice: &'a S,
-    _phantom: ::core::marker::PhantomData<T>,
-    indices: index::IndexVecIntoIter,
-}
-
-#[cfg(feature = "alloc")]
-impl<'a, S: Index<usize, Output = T> + ?Sized + 'a, T: 'a> Iterator for SliceChooseIter<'a, S, T> {
-    type Item = &'a T;
-
-    fn next(&mut self) -> Option<Self::Item> {
-        // TODO: investigate using SliceIndex::get_unchecked when stable
-        self.indices.next().map(|i| &self.slice[i as usize])
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (self.indices.len(), Some(self.indices.len()))
-    }
-}
-
-#[cfg(feature = "alloc")]
-impl<'a, S: Index<usize, Output = T> + ?Sized + 'a, T: 'a> ExactSizeIterator
-    for SliceChooseIter<'a, S, T>
-{
-    fn len(&self) -> usize {
-        self.indices.len()
-    }
-}
-
-
-// Sample a number uniformly between 0 and `ubound`. Uses 32-bit sampling where
-// possible, primarily in order to produce the same output on 32-bit and 64-bit
-// platforms.
-#[inline]
-fn gen_index<R: Rng + ?Sized>(rng: &mut R, ubound: usize) -> usize {
-    if ubound <= (core::u32::MAX as usize) {
-        rng.gen_range(0, ubound as u32) as usize
-    } else {
-        rng.gen_range(0, ubound)
-    }
-}
-
-
-#[cfg(test)]
-mod test {
-    use super::*;
-    #[cfg(feature = "alloc")] use crate::Rng;
-    #[cfg(all(feature="alloc", not(feature="std")))]
-    use alloc::vec::Vec;
-
-    #[test]
-    fn test_slice_choose() {
-        let mut r = crate::test::rng(107);
-        let chars = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n'];
-        let mut chosen = [0i32; 14];
-        // The below all use a binomial distribution with n=1000, p=1/14.
-        // binocdf(40, 1000, 1/14) ~= 2e-5; 1-binocdf(106, ..) ~= 2e-5
-        for _ in 0..1000 {
-            let picked = *chars.choose(&mut r).unwrap();
-            chosen[(picked as usize) - ('a' as usize)] += 1;
-        }
-        for count in chosen.iter() {
-            assert!(40 < *count && *count < 106);
-        }
-
-        chosen.iter_mut().for_each(|x| *x = 0);
-        for _ in 0..1000 {
-            *chosen.choose_mut(&mut r).unwrap() += 1;
-        }
-        for count in chosen.iter() {
-            assert!(40 < *count && *count < 106);
-        }
-
-        let mut v: [isize; 0] = [];
-        assert_eq!(v.choose(&mut r), None);
-        assert_eq!(v.choose_mut(&mut r), None);
-    }
-
-    #[derive(Clone)]
-    struct UnhintedIterator<I: Iterator + Clone> {
-        iter: I,
-    }
-    impl<I: Iterator + Clone> Iterator for UnhintedIterator<I> {
-        type Item = I::Item;
-        fn next(&mut self) -> Option<Self::Item> {
-            self.iter.next()
-        }
-    }
-
-    #[derive(Clone)]
-    struct ChunkHintedIterator<I: ExactSizeIterator + Iterator + Clone> {
-        iter: I,
-        chunk_remaining: usize,
-        chunk_size: usize,
-        hint_total_size: bool,
-    }
-    impl<I: ExactSizeIterator + Iterator + Clone> Iterator for ChunkHintedIterator<I> {
-        type Item = I::Item;
-        fn next(&mut self) -> Option<Self::Item> {
-            if self.chunk_remaining == 0 {
-                self.chunk_remaining = ::core::cmp::min(self.chunk_size,
-                                                        self.iter.len());
-            }
-            self.chunk_remaining = self.chunk_remaining.saturating_sub(1);
-
-            self.iter.next()
-        }
-        fn size_hint(&self) -> (usize, Option<usize>) {
-            (self.chunk_remaining,
-             if self.hint_total_size { Some(self.iter.len()) } else { None })
-        }
-    }
-
-    #[derive(Clone)]
-    struct WindowHintedIterator<I: ExactSizeIterator + Iterator + Clone> {
-        iter: I,
-        window_size: usize,
-        hint_total_size: bool,
-    }
-    impl<I: ExactSizeIterator + Iterator + Clone> Iterator for WindowHintedIterator<I> {
-        type Item = I::Item;
-        fn next(&mut self) -> Option<Self::Item> {
-            self.iter.next()
-        }
-        fn size_hint(&self) -> (usize, Option<usize>) {
-            (::core::cmp::min(self.iter.len(), self.window_size),
-             if self.hint_total_size { Some(self.iter.len()) } else { None })
-        }
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_iterator_choose() {
-        let r = &mut crate::test::rng(109);
-        fn test_iter<R: Rng + ?Sized, Iter: Iterator<Item=usize> + Clone>(r: &mut R, iter: Iter) {
-            let mut chosen = [0i32; 9];
-            for _ in 0..1000 {
-                let picked = iter.clone().choose(r).unwrap();
-                chosen[picked] += 1;
-            }
-            for count in chosen.iter() {
-                // Samples should follow Binomial(1000, 1/9)
-                // Octave: binopdf(x, 1000, 1/9) gives the prob of *count == x
-                // Note: have seen 153, which is unlikely but not impossible.
-                assert!(72 < *count && *count < 154, "count not close to 1000/9: {}", count);
-            }
-        }
-
-        test_iter(r, 0..9);
-        test_iter(r, [0, 1, 2, 3, 4, 5, 6, 7, 8].iter().cloned());
-        #[cfg(feature = "alloc")]
-        test_iter(r, (0..9).collect::<Vec<_>>().into_iter());
-        test_iter(r, UnhintedIterator { iter: 0..9 });
-        test_iter(r, ChunkHintedIterator { iter: 0..9, chunk_size: 4, chunk_remaining: 4, hint_total_size: false });
-        test_iter(r, ChunkHintedIterator { iter: 0..9, chunk_size: 4, chunk_remaining: 4, hint_total_size: true });
-        test_iter(r, WindowHintedIterator { iter: 0..9, window_size: 2, hint_total_size: false });
-        test_iter(r, WindowHintedIterator { iter: 0..9, window_size: 2, hint_total_size: true });
-
-        assert_eq!((0..0).choose(r), None);
-        assert_eq!(UnhintedIterator{ iter: 0..0 }.choose(r), None);
-    }
-
-    #[test]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_shuffle() {
-        let mut r = crate::test::rng(108);
-        let empty: &mut [isize] = &mut [];
-        empty.shuffle(&mut r);
-        let mut one = [1];
-        one.shuffle(&mut r);
-        let b: &[_] = &[1];
-        assert_eq!(one, b);
-
-        let mut two = [1, 2];
-        two.shuffle(&mut r);
-        assert!(two == [1, 2] || two == [2, 1]);
-
-        fn move_last(slice: &mut [usize], pos: usize) {
-            // use slice[pos..].rotate_left(1); once we can use that
-            let last_val = slice[pos];
-            for i in pos..slice.len() - 1 {
-                slice[i] = slice[i + 1];
-            }
-            *slice.last_mut().unwrap() = last_val;
-        }
-        let mut counts = [0i32; 24];
-        for _ in 0..10000 {
-            let mut arr: [usize; 4] = [0, 1, 2, 3];
-            arr.shuffle(&mut r);
-            let mut permutation = 0usize;
-            let mut pos_value = counts.len();
-            for i in 0..4 {
-                pos_value /= 4 - i;
-                let pos = arr.iter().position(|&x| x == i).unwrap();
-                assert!(pos < (4 - i));
-                permutation += pos * pos_value;
-                move_last(&mut arr, pos);
-                assert_eq!(arr[3], i);
-            }
-            for i in 0..4 {
-                assert_eq!(arr[i], i);
-            }
-            counts[permutation] += 1;
-        }
-        for count in counts.iter() {
-            // Binomial(10000, 1/24) with average 416.667
-            // Octave: binocdf(n, 10000, 1/24)
-            // 99.9% chance samples lie within this range:
-            assert!(352 <= *count && *count <= 483, "count: {}", count);
-        }
-    }
-    
-    #[test]
-    fn test_partial_shuffle() {
-        let mut r = crate::test::rng(118);
-        
-        let mut empty: [u32; 0] = [];
-        let res = empty.partial_shuffle(&mut r, 10);
-        assert_eq!((res.0.len(), res.1.len()), (0, 0));
-        
-        let mut v = [1, 2, 3, 4, 5];
-        let res = v.partial_shuffle(&mut r, 2);
-        assert_eq!((res.0.len(), res.1.len()), (2, 3));
-        assert!(res.0[0] != res.0[1]);
-        // First elements are only modified if selected, so at least one isn't modified:
-        assert!(res.1[0] == 1 || res.1[1] == 2 || res.1[2] == 3);
-    }
-
-    #[test]
-    #[cfg(feature = "alloc")]
-    fn test_sample_iter() {
-        let min_val = 1;
-        let max_val = 100;
-
-        let mut r = crate::test::rng(401);
-        let vals = (min_val..max_val).collect::<Vec<i32>>();
-        let small_sample = vals.iter().choose_multiple(&mut r, 5);
-        let large_sample = vals.iter().choose_multiple(&mut r, vals.len() + 5);
-
-        assert_eq!(small_sample.len(), 5);
-        assert_eq!(large_sample.len(), vals.len());
-        // no randomization happens when amount >= len
-        assert_eq!(large_sample, vals.iter().collect::<Vec<_>>());
-
-        assert!(small_sample.iter().all(|e| {
-            **e >= min_val && **e <= max_val
-        }));
-    }
-    
-    #[test]
-    #[cfg(feature = "alloc")]
-    #[cfg(not(miri))] // Miri is too slow
-    fn test_weighted() {
-        let mut r = crate::test::rng(406);
-        const N_REPS: u32 = 3000;
-        let weights = [1u32, 2, 3, 0, 5, 6, 7, 1, 2, 3, 4, 5, 6, 7];
-        let total_weight = weights.iter().sum::<u32>() as f32;
-
-        let verify = |result: [i32; 14]| {
-            for (i, count) in result.iter().enumerate() {
-                let exp = (weights[i] * N_REPS) as f32 / total_weight;
-                let mut err = (*count as f32 - exp).abs();
-                if err != 0.0 {
-                    err /= exp;
-                }
-                assert!(err <= 0.25);
-            }
-        };
-
-        // choose_weighted
-        fn get_weight<T>(item: &(u32, T)) -> u32 {
-            item.0
-        }
-        let mut chosen = [0i32; 14];
-        let mut items = [(0u32, 0usize); 14]; // (weight, index)
-        for (i, item) in items.iter_mut().enumerate() {
-            *item = (weights[i], i);
-        }
-        for _ in 0..N_REPS {
-            let item = items.choose_weighted(&mut r, get_weight).unwrap();
-            chosen[item.1] += 1;
-        }
-        verify(chosen);
-
-        // choose_weighted_mut
-        let mut items = [(0u32, 0i32); 14]; // (weight, count)
-        for (i, item) in items.iter_mut().enumerate() {
-            *item = (weights[i], 0);
-        }
-        for _ in 0..N_REPS {
-            items.choose_weighted_mut(&mut r, get_weight).unwrap().1 += 1;
-        }
-        for (ch, item) in chosen.iter_mut().zip(items.iter()) {
-            *ch = item.1;
-        }
-        verify(chosen);
-
-        // Check error cases
-        let empty_slice = &mut [10][0..0];
-        assert_eq!(empty_slice.choose_weighted(&mut r, |_| 1), Err(WeightedError::NoItem));
-        assert_eq!(empty_slice.choose_weighted_mut(&mut r, |_| 1), Err(WeightedError::NoItem));
-        assert_eq!(['x'].choose_weighted_mut(&mut r, |_| 0), Err(WeightedError::AllWeightsZero));
-        assert_eq!([0, -1].choose_weighted_mut(&mut r, |x| *x), Err(WeightedError::InvalidWeight));
-        assert_eq!([-1, 0].choose_weighted_mut(&mut r, |x| *x), Err(WeightedError::InvalidWeight));
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand_chacha/chacha.rs.html b/target/doc/src/rand_chacha/chacha.rs.html deleted file mode 100644 index b1277b6..0000000 --- a/target/doc/src/rand_chacha/chacha.rs.html +++ /dev/null @@ -1,907 +0,0 @@ -chacha.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The ChaCha random number generator.
-
-#[cfg(feature = "std")]
-use std as core;
-#[cfg(not(feature = "std"))]
-use core;
-
-use c2_chacha::guts::ChaCha;
-use self::core::fmt;
-use rand_core::block::{BlockRng, BlockRngCore};
-use rand_core::{CryptoRng, Error, RngCore, SeedableRng};
-
-const STREAM_PARAM_NONCE: u32 = 1;
-const STREAM_PARAM_BLOCK: u32 = 0;
-
-pub struct Array64<T>([T; 64]);
-impl<T> Default for Array64<T> where T: Default {
-    fn default() -> Self {
-        Self([T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(),
-              T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default(), T::default()])
-    }
-}
-impl<T> AsRef<[T]> for Array64<T> {
-    fn as_ref(&self) -> &[T] {
-        &self.0
-    }
-}
-impl<T> AsMut<[T]> for Array64<T> {
-    fn as_mut(&mut self) -> &mut [T] {
-        &mut self.0
-    }
-}
-impl<T> Clone for Array64<T> where T: Copy + Default {
-    fn clone(&self) -> Self {
-        let mut new = Self::default();
-        new.0.copy_from_slice(&self.0);
-        new
-    }
-}
-impl<T> fmt::Debug for Array64<T> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "Array64 {{}}")
-    }
-}
-
-macro_rules! chacha_impl {
-    ($ChaChaXCore:ident, $ChaChaXRng:ident, $rounds:expr, $doc:expr) => {
-        #[doc=$doc]
-        #[derive(Clone)]
-        pub struct $ChaChaXCore {
-            state: ChaCha,
-        }
-
-        // Custom Debug implementation that does not expose the internal state
-        impl fmt::Debug for $ChaChaXCore {
-            fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-                write!(f, "ChaChaXCore {{}}")
-            }
-        }
-
-        impl BlockRngCore for $ChaChaXCore {
-            type Item = u32;
-            type Results = Array64<u32>;
-            #[inline]
-            fn generate(&mut self, r: &mut Self::Results) {
-                // Fill slice of words by writing to equivalent slice of bytes, then fixing endianness.
-                self.state.refill4($rounds, unsafe {
-                    core::mem::transmute::<&mut Array64<u32>, &mut [u8; 256]>(&mut *r)
-                });
-                for x in r.as_mut() {
-                    *x = x.to_le();
-                }
-            }
-        }
-
-        impl SeedableRng for $ChaChaXCore {
-            type Seed = [u8; 32];
-            #[inline]
-            fn from_seed(seed: Self::Seed) -> Self {
-                $ChaChaXCore { state: ChaCha::new(&seed, &[0u8; 8]) }
-            }
-        }
-
-        /// A cryptographically secure random number generator that uses the ChaCha algorithm.
-        ///
-        /// ChaCha is a stream cipher designed by Daniel J. Bernstein[^1], that we use as an RNG. It is
-        /// an improved variant of the Salsa20 cipher family, which was selected as one of the "stream
-        /// ciphers suitable for widespread adoption" by eSTREAM[^2].
-        ///
-        /// ChaCha uses add-rotate-xor (ARX) operations as its basis. These are safe against timing
-        /// attacks, although that is mostly a concern for ciphers and not for RNGs. We provide a SIMD
-        /// implementation to support high throughput on a variety of common hardware platforms.
-        ///
-        /// With the ChaCha algorithm it is possible to choose the number of rounds the core algorithm
-        /// should run. The number of rounds is a tradeoff between performance and security, where 8
-        /// rounds is the minimum potentially secure configuration, and 20 rounds is widely used as a
-        /// conservative choice.
-        ///
-        /// We use a 64-bit counter and 64-bit stream identifier as in Bernstein's implementation[^1]
-        /// except that we use a stream identifier in place of a nonce. A 64-bit counter over 64-byte
-        /// (16 word) blocks allows 1 ZiB of output before cycling, and the stream identifier allows
-        /// 2<sup>64</sup> unique streams of output per seed. Both counter and stream are initialized
-        /// to zero but may be set via the `set_word_pos` and `set_stream` methods.
-        ///
-        /// The word layout is:
-        ///
-        /// ```text
-        /// constant  constant  constant  constant
-        /// seed      seed      seed      seed
-        /// seed      seed      seed      seed
-        /// counter   counter   stream_id stream_id
-        /// ```
-        ///
-        /// This implementation uses an output buffer of sixteen `u32` words, and uses
-        /// [`BlockRng`] to implement the [`RngCore`] methods.
-        ///
-        /// [^1]: D. J. Bernstein, [*ChaCha, a variant of Salsa20*](
-        ///       https://cr.yp.to/chacha.html)
-        ///
-        /// [^2]: [eSTREAM: the ECRYPT Stream Cipher Project](
-        ///       http://www.ecrypt.eu.org/stream/)
-        #[derive(Clone, Debug)]
-        pub struct $ChaChaXRng {
-            rng: BlockRng<$ChaChaXCore>,
-        }
-
-        impl SeedableRng for $ChaChaXRng {
-            type Seed = [u8; 32];
-            #[inline]
-            fn from_seed(seed: Self::Seed) -> Self {
-                let core = $ChaChaXCore::from_seed(seed);
-                Self {
-                    rng: BlockRng::new(core),
-                }
-            }
-        }
-
-        impl RngCore for $ChaChaXRng {
-            #[inline]
-            fn next_u32(&mut self) -> u32 {
-                self.rng.next_u32()
-            }
-            #[inline]
-            fn next_u64(&mut self) -> u64 {
-                self.rng.next_u64()
-            }
-            #[inline]
-            fn fill_bytes(&mut self, bytes: &mut [u8]) {
-                self.rng.fill_bytes(bytes)
-            }
-            #[inline]
-            fn try_fill_bytes(&mut self, bytes: &mut [u8]) -> Result<(), Error> {
-                self.rng.try_fill_bytes(bytes)
-            }
-        }
-
-        impl $ChaChaXRng {
-            // The buffer is a 4-block window, i.e. it is always at a block-aligned position in the
-            // stream but if the stream has been seeked it may not be self-aligned.
-
-            /// Get the offset from the start of the stream, in 32-bit words.
-            ///
-            /// Since the generated blocks are 16 words (2<sup>4</sup>) long and the
-            /// counter is 64-bits, the offset is a 68-bit number. Sub-word offsets are
-            /// not supported, hence the result can simply be multiplied by 4 to get a
-            /// byte-offset.
-            #[inline]
-            pub fn get_word_pos(&self) -> u128 {
-                let mut block = u128::from(self.rng.core.state.get_stream_param(STREAM_PARAM_BLOCK));
-                // counter is incremented *after* filling buffer
-                block -= 4;
-                (block << 4) + self.rng.index() as u128
-            }
-
-            /// Set the offset from the start of the stream, in 32-bit words.
-            ///
-            /// As with `get_word_pos`, we use a 68-bit number. Since the generator
-            /// simply cycles at the end of its period (1 ZiB), we ignore the upper
-            /// 60 bits.
-            #[inline]
-            pub fn set_word_pos(&mut self, word_offset: u128) {
-                let block = (word_offset >> 4) as u64;
-                self.rng
-                    .core
-                    .state
-                    .set_stream_param(STREAM_PARAM_BLOCK, block);
-                self.rng.generate_and_set((word_offset & 15) as usize);
-            }
-
-            /// Set the stream number.
-            ///
-            /// This is initialized to zero; 2<sup>64</sup> unique streams of output
-            /// are available per seed/key.
-            ///
-            /// Note that in order to reproduce ChaCha output with a specific 64-bit
-            /// nonce, one can convert that nonce to a `u64` in little-endian fashion
-            /// and pass to this function. In theory a 96-bit nonce can be used by
-            /// passing the last 64-bits to this function and using the first 32-bits as
-            /// the most significant half of the 64-bit counter (which may be set
-            /// indirectly via `set_word_pos`), but this is not directly supported.
-            #[inline]
-            pub fn set_stream(&mut self, stream: u64) {
-                self.rng
-                    .core
-                    .state
-                    .set_stream_param(STREAM_PARAM_NONCE, stream);
-                if self.rng.index() != 64 {
-                    let wp = self.get_word_pos();
-                    self.set_word_pos(wp);
-                }
-            }
-        }
-
-        impl CryptoRng for $ChaChaXRng {}
-
-        impl From<$ChaChaXCore> for $ChaChaXRng {
-            fn from(core: $ChaChaXCore) -> Self {
-                $ChaChaXRng {
-                    rng: BlockRng::new(core),
-                }
-            }
-        }
-    }
-}
-
-chacha_impl!(ChaCha20Core, ChaCha20Rng, 10, "ChaCha with 20 rounds");
-chacha_impl!(ChaCha12Core, ChaCha12Rng, 6, "ChaCha with 12 rounds");
-chacha_impl!(ChaCha8Core, ChaCha8Rng, 4, "ChaCha with 8 rounds");
-
-#[cfg(test)]
-mod test {
-    use rand_core::{RngCore, SeedableRng};
-
-    type ChaChaRng = super::ChaCha20Rng;
-
-    #[test]
-    fn test_chacha_construction() {
-        let seed = [
-            0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 3, 0, 0, 0, 0,
-            0, 0, 0,
-        ];
-        let mut rng1 = ChaChaRng::from_seed(seed);
-        assert_eq!(rng1.next_u32(), 137206642);
-
-        let mut rng2 = ChaChaRng::from_rng(rng1).unwrap();
-        assert_eq!(rng2.next_u32(), 1325750369);
-    }
-
-    #[test]
-    fn test_chacha_true_values_a() {
-        // Test vectors 1 and 2 from
-        // https://tools.ietf.org/html/draft-nir-cfrg-chacha20-poly1305-04
-        let seed = [0u8; 32];
-        let mut rng = ChaChaRng::from_seed(seed);
-
-        let mut results = [0u32; 16];
-        for i in results.iter_mut() {
-            *i = rng.next_u32();
-        }
-        let expected = [
-            0xade0b876, 0x903df1a0, 0xe56a5d40, 0x28bd8653, 0xb819d2bd, 0x1aed8da0, 0xccef36a8,
-            0xc70d778b, 0x7c5941da, 0x8d485751, 0x3fe02477, 0x374ad8b8, 0xf4b8436a, 0x1ca11815,
-            0x69b687c3, 0x8665eeb2,
-        ];
-        assert_eq!(results, expected);
-
-        for i in results.iter_mut() {
-            *i = rng.next_u32();
-        }
-        let expected = [
-            0xbee7079f, 0x7a385155, 0x7c97ba98, 0x0d082d73, 0xa0290fcb, 0x6965e348, 0x3e53c612,
-            0xed7aee32, 0x7621b729, 0x434ee69c, 0xb03371d5, 0xd539d874, 0x281fed31, 0x45fb0a51,
-            0x1f0ae1ac, 0x6f4d794b,
-        ];
-        assert_eq!(results, expected);
-    }
-
-    #[test]
-    fn test_chacha_true_values_b() {
-        // Test vector 3 from
-        // https://tools.ietf.org/html/draft-nir-cfrg-chacha20-poly1305-04
-        let seed = [
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 1,
-        ];
-        let mut rng = ChaChaRng::from_seed(seed);
-
-        // Skip block 0
-        for _ in 0..16 {
-            rng.next_u32();
-        }
-
-        let mut results = [0u32; 16];
-        for i in results.iter_mut() {
-            *i = rng.next_u32();
-        }
-        let expected = [
-            0x2452eb3a, 0x9249f8ec, 0x8d829d9b, 0xddd4ceb1, 0xe8252083, 0x60818b01, 0xf38422b8,
-            0x5aaa49c9, 0xbb00ca8e, 0xda3ba7b4, 0xc4b592d1, 0xfdf2732f, 0x4436274e, 0x2561b3c8,
-            0xebdd4aa6, 0xa0136c00,
-        ];
-        assert_eq!(results, expected);
-    }
-
-    #[test]
-    fn test_chacha_true_values_c() {
-        // Test vector 4 from
-        // https://tools.ietf.org/html/draft-nir-cfrg-chacha20-poly1305-04
-        let seed = [
-            0, 0xff, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0,
-        ];
-        let expected = [
-            0xfb4dd572, 0x4bc42ef1, 0xdf922636, 0x327f1394, 0xa78dea8f, 0x5e269039, 0xa1bebbc1,
-            0xcaf09aae, 0xa25ab213, 0x48a6b46c, 0x1b9d9bcb, 0x092c5be6, 0x546ca624, 0x1bec45d5,
-            0x87f47473, 0x96f0992e,
-        ];
-        let expected_end = 3 * 16;
-        let mut results = [0u32; 16];
-
-        // Test block 2 by skipping block 0 and 1
-        let mut rng1 = ChaChaRng::from_seed(seed);
-        for _ in 0..32 {
-            rng1.next_u32();
-        }
-        for i in results.iter_mut() {
-            *i = rng1.next_u32();
-        }
-        assert_eq!(results, expected);
-        assert_eq!(rng1.get_word_pos(), expected_end);
-
-        // Test block 2 by using `set_word_pos`
-        let mut rng2 = ChaChaRng::from_seed(seed);
-        rng2.set_word_pos(2 * 16);
-        for i in results.iter_mut() {
-            *i = rng2.next_u32();
-        }
-        assert_eq!(results, expected);
-        assert_eq!(rng2.get_word_pos(), expected_end);
-
-        // Test skipping behaviour with other types
-        let mut buf = [0u8; 32];
-        rng2.fill_bytes(&mut buf[..]);
-        assert_eq!(rng2.get_word_pos(), expected_end + 8);
-        rng2.fill_bytes(&mut buf[0..25]);
-        assert_eq!(rng2.get_word_pos(), expected_end + 15);
-        rng2.next_u64();
-        assert_eq!(rng2.get_word_pos(), expected_end + 17);
-        rng2.next_u32();
-        rng2.next_u64();
-        assert_eq!(rng2.get_word_pos(), expected_end + 20);
-        rng2.fill_bytes(&mut buf[0..1]);
-        assert_eq!(rng2.get_word_pos(), expected_end + 21);
-    }
-
-    #[test]
-    fn test_chacha_multiple_blocks() {
-        let seed = [
-            0, 0, 0, 0, 1, 0, 0, 0, 2, 0, 0, 0, 3, 0, 0, 0, 4, 0, 0, 0, 5, 0, 0, 0, 6, 0, 0, 0, 7,
-            0, 0, 0,
-        ];
-        let mut rng = ChaChaRng::from_seed(seed);
-
-        // Store the 17*i-th 32-bit word,
-        // i.e., the i-th word of the i-th 16-word block
-        let mut results = [0u32; 16];
-        for i in results.iter_mut() {
-            *i = rng.next_u32();
-            for _ in 0..16 {
-                rng.next_u32();
-            }
-        }
-        let expected = [
-            0xf225c81a, 0x6ab1be57, 0x04d42951, 0x70858036, 0x49884684, 0x64efec72, 0x4be2d186,
-            0x3615b384, 0x11cfa18e, 0xd3c50049, 0x75c775f6, 0x434c6530, 0x2c5bad8f, 0x898881dc,
-            0x5f1c86d9, 0xc1f8e7f4,
-        ];
-        assert_eq!(results, expected);
-    }
-
-    #[test]
-    fn test_chacha_true_bytes() {
-        let seed = [0u8; 32];
-        let mut rng = ChaChaRng::from_seed(seed);
-        let mut results = [0u8; 32];
-        rng.fill_bytes(&mut results);
-        let expected = [
-            118, 184, 224, 173, 160, 241, 61, 144, 64, 93, 106, 229, 83, 134, 189, 40, 189, 210,
-            25, 184, 160, 141, 237, 26, 168, 54, 239, 204, 139, 119, 13, 199,
-        ];
-        assert_eq!(results, expected);
-    }
-
-    #[test]
-    fn test_chacha_nonce() {
-        // Test vector 5 from
-        // https://tools.ietf.org/html/draft-nir-cfrg-chacha20-poly1305-04
-        // Although we do not support setting a nonce, we try it here anyway so
-        // we can use this test vector.
-        let seed = [0u8; 32];
-        let mut rng = ChaChaRng::from_seed(seed);
-        // 96-bit nonce in LE order is: 0,0,0,0, 0,0,0,0, 0,0,0,2
-        rng.set_stream(2u64 << (24 + 32));
-
-        let mut results = [0u32; 16];
-        for i in results.iter_mut() {
-            *i = rng.next_u32();
-        }
-        let expected = [
-            0x374dc6c2, 0x3736d58c, 0xb904e24a, 0xcd3f93ef, 0x88228b1a, 0x96a4dfb3, 0x5b76ab72,
-            0xc727ee54, 0x0e0e978a, 0xf3145c95, 0x1b748ea8, 0xf786c297, 0x99c28f5f, 0x628314e8,
-            0x398a19fa, 0x6ded1b53,
-        ];
-        assert_eq!(results, expected);
-    }
-
-    #[test]
-    fn test_chacha_clone_streams() {
-        let seed = [
-            0, 0, 0, 0, 1, 0, 0, 0, 2, 0, 0, 0, 3, 0, 0, 0, 4, 0, 0, 0, 5, 0, 0, 0, 6, 0, 0, 0, 7,
-            0, 0, 0,
-        ];
-        let mut rng = ChaChaRng::from_seed(seed);
-        let mut clone = rng.clone();
-        for _ in 0..16 {
-            assert_eq!(rng.next_u64(), clone.next_u64());
-        }
-
-        rng.set_stream(51);
-        for _ in 0..7 {
-            assert!(rng.next_u32() != clone.next_u32());
-        }
-        clone.set_stream(51); // switch part way through block
-        for _ in 7..16 {
-            assert_eq!(rng.next_u32(), clone.next_u32());
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand_chacha/lib.rs.html b/target/doc/src/rand_chacha/lib.rs.html deleted file mode 100644 index ca81707..0000000 --- a/target/doc/src/rand_chacha/lib.rs.html +++ /dev/null @@ -1,63 +0,0 @@ -lib.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The ChaCha random number generator.
-
-#![doc(html_logo_url = "https://www.rust-lang.org/logos/rust-logo-128x128-blk.png",
-       html_favicon_url = "https://www.rust-lang.org/favicon.ico",
-       html_root_url = "https://rust-random.github.io/rand/")]
-
-#![deny(missing_docs)]
-#![deny(missing_debug_implementations)]
-#![doc(test(attr(allow(unused_variables), deny(warnings))))]
-
-#![cfg_attr(not(feature = "std"), no_std)]
-
-pub use rand_core;
-
-mod chacha;
-
-pub use crate::chacha::{ChaCha12Core, ChaCha12Rng, ChaCha20Core, ChaCha20Rng, ChaCha8Core, ChaCha8Rng};
-
-/// ChaCha with 20 rounds
-pub type ChaChaRng = ChaCha20Rng;
-/// ChaCha with 20 rounds, low-level interface
-pub type ChaChaCore = ChaCha20Core;
-
-
\ No newline at end of file diff --git a/target/doc/src/rand_core/block.rs.html b/target/doc/src/rand_core/block.rs.html deleted file mode 100644 index ded2e3e..0000000 --- a/target/doc/src/rand_core/block.rs.html +++ /dev/null @@ -1,869 +0,0 @@ -block.rs.html -- source
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-
-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! The `BlockRngCore` trait and implementation helpers
-//!
-//! The [`BlockRngCore`] trait exists to assist in the implementation of RNGs
-//! which generate a block of data in a cache instead of returning generated
-//! values directly.
-//!
-//! Usage of this trait is optional, but provides two advantages:
-//! implementations only need to concern themselves with generation of the
-//! block, not the various [`RngCore`] methods (especially [`fill_bytes`], where
-//! the optimal implementations are not trivial), and this allows
-//! `ReseedingRng` (see [`rand`](https://docs.rs/rand) crate) perform periodic
-//! reseeding with very low overhead.
-//!
-//! # Example
-//!
-//! ```norun
-//! use rand_core::block::{BlockRngCore, BlockRng};
-//!
-//! struct MyRngCore;
-//!
-//! impl BlockRngCore for MyRngCore {
-//!     type Results = [u32; 16];
-//!
-//!     fn generate(&mut self, results: &mut Self::Results) {
-//!         unimplemented!()
-//!     }
-//! }
-//!
-//! impl SeedableRng for MyRngCore {
-//!     type Seed = unimplemented!();
-//!     fn from_seed(seed: Self::Seed) -> Self {
-//!         unimplemented!()
-//!     }
-//! }
-//!
-//! // optionally, also implement CryptoRng for MyRngCore
-//!
-//! // Final RNG.
-//! type MyRng = BlockRng<u32, MyRngCore>;
-//! ```
-//!
-//! [`BlockRngCore`]: crate::block::BlockRngCore
-//! [`fill_bytes`]: RngCore::fill_bytes
-
-use core::convert::AsRef;
-use core::{fmt, ptr};
-use {RngCore, CryptoRng, SeedableRng, Error};
-use impls::{fill_via_u32_chunks, fill_via_u64_chunks};
-
-/// A trait for RNGs which do not generate random numbers individually, but in
-/// blocks (typically `[u32; N]`). This technique is commonly used by
-/// cryptographic RNGs to improve performance.
-///
-/// See the [module][crate::block] documentation for details.
-pub trait BlockRngCore {
-    /// Results element type, e.g. `u32`.
-    type Item;
-
-    /// Results type. This is the 'block' an RNG implementing `BlockRngCore`
-    /// generates, which will usually be an array like `[u32; 16]`.
-    type Results: AsRef<[Self::Item]> + AsMut<[Self::Item]> + Default;
-
-    /// Generate a new block of results.
-    fn generate(&mut self, results: &mut Self::Results);
-}
-
-
-/// A wrapper type implementing [`RngCore`] for some type implementing
-/// [`BlockRngCore`] with `u32` array buffer; i.e. this can be used to implement
-/// a full RNG from just a `generate` function.
-///
-/// The `core` field may be accessed directly but the results buffer may not.
-/// PRNG implementations can simply use a type alias
-/// (`pub type MyRng = BlockRng<MyRngCore>;`) but might prefer to use a
-/// wrapper type (`pub struct MyRng(BlockRng<MyRngCore>);`); the latter must
-/// re-implement `RngCore` but hides the implementation details and allows
-/// extra functionality to be defined on the RNG
-/// (e.g. `impl MyRng { fn set_stream(...){...} }`).
-///
-/// `BlockRng` has heavily optimized implementations of the [`RngCore`] methods
-/// reading values from the results buffer, as well as
-/// calling [`BlockRngCore::generate`] directly on the output array when
-/// [`fill_bytes`] / [`try_fill_bytes`] is called on a large array. These methods
-/// also handle the bookkeeping of when to generate a new batch of values.
-///
-/// No whole generated `u32` values are thown away and all values are consumed
-/// in-order. [`next_u32`] simply takes the next available `u32` value.
-/// [`next_u64`] is implemented by combining two `u32` values, least
-/// significant first. [`fill_bytes`] and [`try_fill_bytes`] consume a whole
-/// number of `u32` values, converting each `u32` to a byte slice in
-/// little-endian order. If the requested byte length is not a multiple of 4,
-/// some bytes will be discarded.
-///
-/// See also [`BlockRng64`] which uses `u64` array buffers. Currently there is
-/// no direct support for other buffer types.
-///
-/// For easy initialization `BlockRng` also implements [`SeedableRng`].
-///
-/// [`next_u32`]: RngCore::next_u32
-/// [`next_u64`]: RngCore::next_u64
-/// [`fill_bytes`]: RngCore::fill_bytes
-/// [`try_fill_bytes`]: RngCore::try_fill_bytes
-#[derive(Clone)]
-#[cfg_attr(feature="serde1", derive(Serialize, Deserialize))]
-pub struct BlockRng<R: BlockRngCore + ?Sized> {
-    results: R::Results,
-    index: usize,
-    /// The *core* part of the RNG, implementing the `generate` function.
-    pub core: R,
-}
-
-// Custom Debug implementation that does not expose the contents of `results`.
-impl<R: BlockRngCore + fmt::Debug> fmt::Debug for BlockRng<R> {
-    fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
-        fmt.debug_struct("BlockRng")
-           .field("core", &self.core)
-           .field("result_len", &self.results.as_ref().len())
-           .field("index", &self.index)
-           .finish()
-    }
-}
-
-impl<R: BlockRngCore> BlockRng<R> {
-    /// Create a new `BlockRng` from an existing RNG implementing
-    /// `BlockRngCore`. Results will be generated on first use.
-    #[inline]
-    pub fn new(core: R) -> BlockRng<R>{
-        let results_empty = R::Results::default();
-        BlockRng {
-            core,
-            index: results_empty.as_ref().len(),
-            results: results_empty,
-        }
-    }
-
-    /// Get the index into the result buffer.
-    ///
-    /// If this is equal to or larger than the size of the result buffer then
-    /// the buffer is "empty" and `generate()` must be called to produce new
-    /// results.
-    #[inline(always)]
-    pub fn index(&self) -> usize {
-        self.index
-    }
-
-    /// Reset the number of available results.
-    /// This will force a new set of results to be generated on next use.
-    #[inline]
-    pub fn reset(&mut self) {
-        self.index = self.results.as_ref().len();
-    }
-
-    /// Generate a new set of results immediately, setting the index to the
-    /// given value.
-    #[inline]
-    pub fn generate_and_set(&mut self, index: usize) {
-        assert!(index < self.results.as_ref().len());
-        self.core.generate(&mut self.results);
-        self.index = index;
-    }
-}
-
-impl<R: BlockRngCore<Item=u32>> RngCore for BlockRng<R>
-where <R as BlockRngCore>::Results: AsRef<[u32]> + AsMut<[u32]>
-{
-    #[inline]
-    fn next_u32(&mut self) -> u32 {
-        if self.index >= self.results.as_ref().len() {
-            self.generate_and_set(0);
-        }
-
-        let value = self.results.as_ref()[self.index];
-        self.index += 1;
-        value
-    }
-
-    #[inline]
-    fn next_u64(&mut self) -> u64 {
-        let read_u64 = |results: &[u32], index| {
-            if cfg!(any(target_endian = "little")) {
-                // requires little-endian CPU
-                let ptr: *const u64 = results[index..=index+1].as_ptr() as *const u64;
-                unsafe { ptr::read_unaligned(ptr) }
-            } else {
-                let x = u64::from(results[index]);
-                let y = u64::from(results[index + 1]);
-                (y << 32) | x
-            }
-        };
-
-        let len = self.results.as_ref().len();
-
-        let index = self.index;
-        if index < len-1 {
-            self.index += 2;
-            // Read an u64 from the current index
-            read_u64(self.results.as_ref(), index)
-        } else if index >= len {
-            self.generate_and_set(2);
-            read_u64(self.results.as_ref(), 0)
-        } else {
-            let x = u64::from(self.results.as_ref()[len-1]);
-            self.generate_and_set(1);
-            let y = u64::from(self.results.as_ref()[0]);
-            (y << 32) | x
-        }
-    }
-
-    #[inline]
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        let mut read_len = 0;
-        while read_len < dest.len() {
-            if self.index >= self.results.as_ref().len() {
-                self.generate_and_set(0);
-            }
-            let (consumed_u32, filled_u8) =
-                fill_via_u32_chunks(&self.results.as_ref()[self.index..],
-                                    &mut dest[read_len..]);
-
-            self.index += consumed_u32;
-            read_len += filled_u8;
-        }
-    }
-
-    #[inline(always)]
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        Ok(self.fill_bytes(dest))
-    }
-}
-
-impl<R: BlockRngCore + SeedableRng> SeedableRng for BlockRng<R> {
-    type Seed = R::Seed;
-
-    #[inline(always)]
-    fn from_seed(seed: Self::Seed) -> Self {
-        Self::new(R::from_seed(seed))
-    }
-
-    #[inline(always)]
-    fn seed_from_u64(seed: u64) -> Self {
-        Self::new(R::seed_from_u64(seed))
-    }
-
-    #[inline(always)]
-    fn from_rng<S: RngCore>(rng: S) -> Result<Self, Error> {
-        Ok(Self::new(R::from_rng(rng)?))
-    }
-}
-
-
-
-/// A wrapper type implementing [`RngCore`] for some type implementing
-/// [`BlockRngCore`] with `u64` array buffer; i.e. this can be used to implement
-/// a full RNG from just a `generate` function.
-///
-/// This is similar to [`BlockRng`], but specialized for algorithms that operate
-/// on `u64` values.
-///
-/// No whole generated `u64` values are thrown away and all values are consumed
-/// in-order. [`next_u64`] simply takes the next available `u64` value.
-/// [`next_u32`] is however a bit special: half of a `u64` is consumed, leaving
-/// the other half in the buffer. If the next function called is [`next_u32`]
-/// then the other half is then consumed, however both [`next_u64`] and
-/// [`fill_bytes`] discard the rest of any half-consumed `u64`s when called.
-///
-/// [`fill_bytes`] and [`try_fill_bytes`] consume a whole number of `u64`
-/// values. If the requested length is not a multiple of 8, some bytes will be
-/// discarded.
-///
-/// [`next_u32`]: RngCore::next_u32
-/// [`next_u64`]: RngCore::next_u64
-/// [`fill_bytes`]: RngCore::fill_bytes
-/// [`try_fill_bytes`]: RngCore::try_fill_bytes
-#[derive(Clone)]
-#[cfg_attr(feature="serde1", derive(Serialize, Deserialize))]
-pub struct BlockRng64<R: BlockRngCore + ?Sized> {
-    results: R::Results,
-    index: usize,
-    half_used: bool, // true if only half of the previous result is used
-    /// The *core* part of the RNG, implementing the `generate` function.
-    pub core: R,
-}
-
-// Custom Debug implementation that does not expose the contents of `results`.
-impl<R: BlockRngCore + fmt::Debug> fmt::Debug for BlockRng64<R> {
-    fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
-        fmt.debug_struct("BlockRng64")
-           .field("core", &self.core)
-           .field("result_len", &self.results.as_ref().len())
-           .field("index", &self.index)
-           .field("half_used", &self.half_used)
-           .finish()
-    }
-}
-
-impl<R: BlockRngCore> BlockRng64<R> {
-    /// Create a new `BlockRng` from an existing RNG implementing
-    /// `BlockRngCore`. Results will be generated on first use.
-    #[inline]
-    pub fn new(core: R) -> BlockRng64<R>{
-        let results_empty = R::Results::default();
-        BlockRng64 {
-            core,
-            index: results_empty.as_ref().len(),
-            half_used: false,
-            results: results_empty,
-        }
-    }
-
-    /// Get the index into the result buffer.
-    ///
-    /// If this is equal to or larger than the size of the result buffer then
-    /// the buffer is "empty" and `generate()` must be called to produce new
-    /// results.
-    #[inline(always)]
-    pub fn index(&self) -> usize {
-        self.index
-    }
-
-    /// Reset the number of available results.
-    /// This will force a new set of results to be generated on next use.
-    #[inline]
-    pub fn reset(&mut self) {
-        self.index = self.results.as_ref().len();
-        self.half_used = false;
-    }
-
-    /// Generate a new set of results immediately, setting the index to the
-    /// given value.
-    #[inline]
-    pub fn generate_and_set(&mut self, index: usize) {
-        assert!(index < self.results.as_ref().len());
-        self.core.generate(&mut self.results);
-        self.index = index;
-        self.half_used = false;
-    }
-}
-
-impl<R: BlockRngCore<Item=u64>> RngCore for BlockRng64<R>
-where <R as BlockRngCore>::Results: AsRef<[u64]> + AsMut<[u64]>
-{
-    #[inline]
-    fn next_u32(&mut self) -> u32 {
-        let mut index = self.index * 2 - self.half_used as usize;
-        if index >= self.results.as_ref().len() * 2 {
-            self.core.generate(&mut self.results);
-            self.index = 0;
-            // `self.half_used` is by definition `false`
-            self.half_used = false;
-            index = 0;
-        }
-
-        self.half_used = !self.half_used;
-        self.index += self.half_used as usize;
-
-        // Index as if this is a u32 slice.
-        unsafe {
-            let results =
-                &*(self.results.as_ref() as *const [u64] as *const [u32]);
-            if cfg!(target_endian = "little") {
-                *results.get_unchecked(index)
-            } else {
-                *results.get_unchecked(index ^ 1)
-            }
-        }
-    }
-
-    #[inline]
-    fn next_u64(&mut self) -> u64 {
-        if self.index >= self.results.as_ref().len() {
-            self.core.generate(&mut self.results);
-            self.index = 0;
-        }
-
-        let value = self.results.as_ref()[self.index];
-        self.index += 1;
-        self.half_used = false;
-        value
-    }
-
-    #[inline]
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        let mut read_len = 0;
-        self.half_used = false;
-        while read_len < dest.len() {
-            if self.index as usize >= self.results.as_ref().len() {
-                self.core.generate(&mut self.results);
-                self.index = 0;
-            }
-
-            let (consumed_u64, filled_u8) =
-                fill_via_u64_chunks(&self.results.as_ref()[self.index as usize..],
-                                    &mut dest[read_len..]);
-
-            self.index += consumed_u64;
-            read_len += filled_u8;
-        }
-    }
-
-    #[inline(always)]
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        Ok(self.fill_bytes(dest))
-    }
-}
-
-impl<R: BlockRngCore + SeedableRng> SeedableRng for BlockRng64<R> {
-    type Seed = R::Seed;
-
-    #[inline(always)]
-    fn from_seed(seed: Self::Seed) -> Self {
-        Self::new(R::from_seed(seed))
-    }
-
-    #[inline(always)]
-    fn seed_from_u64(seed: u64) -> Self {
-        Self::new(R::seed_from_u64(seed))
-    }
-
-    #[inline(always)]
-    fn from_rng<S: RngCore>(rng: S) -> Result<Self, Error> {
-        Ok(Self::new(R::from_rng(rng)?))
-    }
-}
-
-impl<R: BlockRngCore + CryptoRng> CryptoRng for BlockRng<R> {}
-
-
\ No newline at end of file diff --git a/target/doc/src/rand_core/error.rs.html b/target/doc/src/rand_core/error.rs.html deleted file mode 100644 index 0db2bf1..0000000 --- a/target/doc/src/rand_core/error.rs.html +++ /dev/null @@ -1,271 +0,0 @@ -error.rs.html -- source
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Error types
-
-use core::fmt;
-use core::num::NonZeroU32;
-
-
-/// Error type of random number generators
-///
-/// In order to be compatible with `std` and `no_std`, this type has two
-/// possible implementations: with `std` a boxed `Error` trait object is stored,
-/// while with `no_std` we merely store an error code.
-#[derive(Debug)]
-pub struct Error {
-    #[cfg(feature="std")]
-    inner: Box<dyn std::error::Error + Send + Sync + 'static>,
-    #[cfg(not(feature="std"))]
-    code: NonZeroU32,
-}
-
-impl Error {
-    /// Construct from any type supporting `std::error::Error`
-    /// 
-    /// Available only when configured with `std`.
-    /// 
-    /// See also `From<NonZeroU32>`, which is available with and without `std`.
-    #[cfg(feature="std")]
-    pub fn new<E>(err: E) -> Self
-    where E: Into<Box<dyn std::error::Error + Send + Sync + 'static>>
-    {
-        Error { inner: err.into() }
-    }
-    
-    /// Reference the inner error (`std` only)
-    /// 
-    /// When configured with `std`, this is a trivial operation and never
-    /// panics. Without `std`, this method is simply unavailable.
-    #[cfg(feature="std")]
-    pub fn inner(&self) -> &(dyn std::error::Error + Send + Sync + 'static) {
-        &*self.inner
-    }
-    
-    /// Unwrap the inner error (`std` only)
-    /// 
-    /// When configured with `std`, this is a trivial operation and never
-    /// panics. Without `std`, this method is simply unavailable.
-    #[cfg(feature="std")]
-    pub fn take_inner(self) -> Box<dyn std::error::Error + Send + Sync + 'static> {
-        self.inner
-    }
-    
-    /// Retrieve the error code, if any.
-    /// 
-    /// If this `Error` was constructed via `From<NonZeroU32>`, then this method
-    /// will return this `NonZeroU32` code (for `no_std` this is always the
-    /// case). Otherwise, this method will return `None`.
-    pub fn code(&self) -> Option<NonZeroU32> {
-        #[cfg(feature="std")] {
-            self.inner.downcast_ref::<ErrorCode>().map(|c| c.0)
-        }
-        #[cfg(not(feature="std"))] {
-            Some(self.code)
-        }
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        #[cfg(feature="std")] {
-            write!(f, "{}", self.inner)
-        }
-        #[cfg(not(feature="std"))] {
-            write!(f, "error code {}", self.code)
-        }
-    }
-}
-
-impl From<NonZeroU32> for Error {
-    fn from(code: NonZeroU32) -> Self {
-        #[cfg(feature="std")] {
-            Error { inner: Box::new(ErrorCode(code)) }
-        }
-        #[cfg(not(feature="std"))] {
-            Error { code }
-        }
-    }
-}
-
-#[cfg(feature="getrandom")]
-impl From<getrandom::Error> for Error {
-    fn from(error: getrandom::Error) -> Self {
-        #[cfg(feature="std")] {
-            Error { inner: Box::new(error) }
-        }
-        #[cfg(not(feature="std"))] {
-            Error { code: error.code() }
-        }
-    }
-}
-
-#[cfg(feature="std")]
-impl std::error::Error for Error {
-    fn source(&self) -> Option<&(dyn std::error::Error + 'static)> {
-        self.inner.source()
-    }
-}
-
-#[cfg(feature="std")]
-impl From<Error> for std::io::Error {
-    fn from(error: Error) -> Self {
-        std::io::Error::new(std::io::ErrorKind::Other, error)
-    }
-}
-
-#[cfg(feature="std")]
-#[derive(Debug, Copy, Clone)]
-struct ErrorCode(NonZeroU32);
-
-#[cfg(feature="std")]
-impl fmt::Display for ErrorCode {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "error code {}", self.0)
-    }
-}
-
-#[cfg(feature="std")]
-impl std::error::Error for ErrorCode {}
-
-
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Helper functions for implementing `RngCore` functions.
-//!
-//! For cross-platform reproducibility, these functions all use Little Endian:
-//! least-significant part first. For example, `next_u64_via_u32` takes `u32`
-//! values `x, y`, then outputs `(y << 32) | x`. To implement `next_u32`
-//! from `next_u64` in little-endian order, one should use `next_u64() as u32`.
-//!
-//! Byte-swapping (like the std `to_le` functions) is only needed to convert
-//! to/from byte sequences, and since its purpose is reproducibility,
-//! non-reproducible sources (e.g. `OsRng`) need not bother with it.
-
-use core::intrinsics::transmute;
-use core::ptr::copy_nonoverlapping;
-use core::slice;
-use core::cmp::min;
-use core::mem::size_of;
-use RngCore;
-
-
-/// Implement `next_u64` via `next_u32`, little-endian order.
-pub fn next_u64_via_u32<R: RngCore + ?Sized>(rng: &mut R) -> u64 {
-    // Use LE; we explicitly generate one value before the next.
-    let x = u64::from(rng.next_u32());
-    let y = u64::from(rng.next_u32());
-    (y << 32) | x
-}
-
-/// Implement `fill_bytes` via `next_u64` and `next_u32`, little-endian order.
-///
-/// The fastest way to fill a slice is usually to work as long as possible with
-/// integers. That is why this method mostly uses `next_u64`, and only when
-/// there are 4 or less bytes remaining at the end of the slice it uses
-/// `next_u32` once.
-pub fn fill_bytes_via_next<R: RngCore + ?Sized>(rng: &mut R, dest: &mut [u8]) {
-    let mut left = dest;
-    while left.len() >= 8 {
-        let (l, r) = {left}.split_at_mut(8);
-        left = r;
-        let chunk: [u8; 8] = unsafe {
-            transmute(rng.next_u64().to_le())
-        };
-        l.copy_from_slice(&chunk);
-    }
-    let n = left.len();
-    if n > 4 {
-        let chunk: [u8; 8] = unsafe {
-            transmute(rng.next_u64().to_le())
-        };
-        left.copy_from_slice(&chunk[..n]);
-    } else if n > 0 {
-        let chunk: [u8; 4] = unsafe {
-            transmute(rng.next_u32().to_le())
-        };
-        left.copy_from_slice(&chunk[..n]);
-    }
-}
-
-macro_rules! impl_uint_from_fill {
-    ($rng:expr, $ty:ty, $N:expr) => ({
-        debug_assert!($N == size_of::<$ty>());
-
-        let mut int: $ty = 0;
-        unsafe {
-            let ptr = &mut int as *mut $ty as *mut u8;
-            let slice = slice::from_raw_parts_mut(ptr, $N);
-            $rng.fill_bytes(slice);
-        }
-        int
-    });
-}
-
-macro_rules! fill_via_chunks {
-    ($src:expr, $dst:expr, $ty:ty, $size:expr) => ({
-        let chunk_size_u8 = min($src.len() * $size, $dst.len());
-        let chunk_size = (chunk_size_u8 + $size - 1) / $size;
-        if cfg!(target_endian="little") {
-            unsafe {
-                copy_nonoverlapping(
-                    $src.as_ptr() as *const u8,
-                    $dst.as_mut_ptr(),
-                    chunk_size_u8);
-            }
-        } else {
-            for (&n, chunk) in $src.iter().zip($dst.chunks_mut($size)) {
-                let tmp = n.to_le();
-                let src_ptr = &tmp as *const $ty as *const u8;
-                unsafe {
-                    copy_nonoverlapping(src_ptr,
-                                        chunk.as_mut_ptr(),
-                                        chunk.len());
-                }
-            }
-        }
-
-        (chunk_size, chunk_size_u8)
-    });
-}
-
-/// Implement `fill_bytes` by reading chunks from the output buffer of a block
-/// based RNG.
-///
-/// The return values are `(consumed_u32, filled_u8)`.
-///
-/// `filled_u8` is the number of filled bytes in `dest`, which may be less than
-/// the length of `dest`.
-/// `consumed_u32` is the number of words consumed from `src`, which is the same
-/// as `filled_u8 / 4` rounded up.
-///
-/// # Example
-/// (from `IsaacRng`)
-///
-/// ```ignore
-/// fn fill_bytes(&mut self, dest: &mut [u8]) {
-///     let mut read_len = 0;
-///     while read_len < dest.len() {
-///         if self.index >= self.rsl.len() {
-///             self.isaac();
-///         }
-///
-///         let (consumed_u32, filled_u8) =
-///             impls::fill_via_u32_chunks(&mut self.rsl[self.index..],
-///                                        &mut dest[read_len..]);
-///
-///         self.index += consumed_u32;
-///         read_len += filled_u8;
-///     }
-/// }
-/// ```
-pub fn fill_via_u32_chunks(src: &[u32], dest: &mut [u8]) -> (usize, usize) {
-    fill_via_chunks!(src, dest, u32, 4)
-}
-
-/// Implement `fill_bytes` by reading chunks from the output buffer of a block
-/// based RNG.
-///
-/// The return values are `(consumed_u64, filled_u8)`.
-/// `filled_u8` is the number of filled bytes in `dest`, which may be less than
-/// the length of `dest`.
-/// `consumed_u64` is the number of words consumed from `src`, which is the same
-/// as `filled_u8 / 8` rounded up.
-///
-/// See `fill_via_u32_chunks` for an example.
-pub fn fill_via_u64_chunks(src: &[u64], dest: &mut [u8]) -> (usize, usize) {
-    fill_via_chunks!(src, dest, u64, 8)
-}
-
-/// Implement `next_u32` via `fill_bytes`, little-endian order.
-pub fn next_u32_via_fill<R: RngCore + ?Sized>(rng: &mut R) -> u32 {
-    impl_uint_from_fill!(rng, u32, 4)
-}
-
-/// Implement `next_u64` via `fill_bytes`, little-endian order.
-pub fn next_u64_via_fill<R: RngCore + ?Sized>(rng: &mut R) -> u64 {
-    impl_uint_from_fill!(rng, u64, 8)
-}
-
-// TODO: implement tests for the above
-
-
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-// Copyright 2018 Developers of the Rand project.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Little-Endian utilities
-//! 
-//! Little-Endian order has been chosen for internal usage; this makes some
-//! useful functions available.
-
-use core::ptr;
-
-macro_rules! read_slice {
-    ($src:expr, $dst:expr, $size:expr, $which:ident) => {{
-        assert_eq!($src.len(), $size * $dst.len());
-
-        unsafe {
-            ptr::copy_nonoverlapping(
-                $src.as_ptr(),
-                $dst.as_mut_ptr() as *mut u8,
-                $src.len());
-        }
-        for v in $dst.iter_mut() {
-            *v = v.$which();
-        }
-    }};
-}
-
-/// Reads unsigned 32 bit integers from `src` into `dst`.
-/// Borrowed from the `byteorder` crate.
-#[inline]
-pub fn read_u32_into(src: &[u8], dst: &mut [u32]) {
-    read_slice!(src, dst, 4, to_le);
-}
-
-/// Reads unsigned 64 bit integers from `src` into `dst`.
-/// Borrowed from the `byteorder` crate.
-#[inline]
-pub fn read_u64_into(src: &[u8], dst: &mut [u64]) {
-    read_slice!(src, dst, 8, to_le);
-}
-
-#[test]
-fn test_read() {
-    let bytes = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16];
-    
-    let mut buf = [0u32; 4];
-    read_u32_into(&bytes, &mut buf);
-    assert_eq!(buf[0], 0x04030201);
-    assert_eq!(buf[3], 0x100F0E0D);
-    
-    let mut buf = [0u32; 3];
-    read_u32_into(&bytes[1..13], &mut buf);  // unaligned
-    assert_eq!(buf[0], 0x05040302);
-    assert_eq!(buf[2], 0x0D0C0B0A);
-    
-    let mut buf = [0u64; 2];
-    read_u64_into(&bytes, &mut buf);
-    assert_eq!(buf[0], 0x0807060504030201);
-    assert_eq!(buf[1], 0x100F0E0D0C0B0A09);
-    
-    let mut buf = [0u64; 1];
-    read_u64_into(&bytes[7..15], &mut buf); // unaligned
-    assert_eq!(buf[0], 0x0F0E0D0C0B0A0908);
-}
-
-
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-
-// Copyright 2018 Developers of the Rand project.
-// Copyright 2017-2018 The Rust Project Developers.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! Random number generation traits
-//!
-//! This crate is mainly of interest to crates publishing implementations of
-//! [`RngCore`]. Other users are encouraged to use the [`rand`] crate instead
-//! which re-exports the main traits and error types.
-//!
-//! [`RngCore`] is the core trait implemented by algorithmic pseudo-random number
-//! generators and external random-number sources.
-//!
-//! [`SeedableRng`] is an extension trait for construction from fixed seeds and
-//! other random number generators.
-//!
-//! [`Error`] is provided for error-handling. It is safe to use in `no_std`
-//! environments.
-//!
-//! The [`impls`] and [`le`] sub-modules include a few small functions to assist
-//! implementation of [`RngCore`].
-//!
-//! [`rand`]: https://docs.rs/rand
-
-#![doc(html_logo_url = "https://www.rust-lang.org/logos/rust-logo-128x128-blk.png",
-       html_favicon_url = "https://www.rust-lang.org/favicon.ico",
-       html_root_url = "https://rust-random.github.io/rand/")]
-
-#![deny(missing_docs)]
-#![deny(missing_debug_implementations)]
-#![doc(test(attr(allow(unused_variables), deny(warnings))))]
-
-#![cfg_attr(not(feature="std"), no_std)]
-#![cfg_attr(all(feature="alloc", not(feature="std")), feature(alloc))]
-
-#[cfg(feature="std")] extern crate core;
-#[cfg(all(feature = "alloc", not(feature="std")))] extern crate alloc;
-#[cfg(feature="serde1")] extern crate serde;
-#[cfg(feature="serde1")] #[macro_use] extern crate serde_derive;
-
-
-use core::default::Default;
-use core::convert::AsMut;
-use core::ptr::copy_nonoverlapping;
-
-#[cfg(all(feature="alloc", not(feature="std")))] use alloc::boxed::Box;
-
-pub use error::Error;
-
-
-mod error;
-pub mod block;
-pub mod impls;
-pub mod le;
-
-
-/// The core of a random number generator.
-///
-/// This trait encapsulates the low-level functionality common to all
-/// generators, and is the "back end", to be implemented by generators.
-/// End users should normally use the `Rng` trait from the [`rand`] crate,
-/// which is automatically implemented for every type implementing `RngCore`.
-///
-/// Three different methods for generating random data are provided since the
-/// optimal implementation of each is dependent on the type of generator. There
-/// is no required relationship between the output of each; e.g. many
-/// implementations of [`fill_bytes`] consume a whole number of `u32` or `u64`
-/// values and drop any remaining unused bytes.
-///
-/// The [`try_fill_bytes`] method is a variant of [`fill_bytes`] allowing error
-/// handling; it is not deemed sufficiently useful to add equivalents for
-/// [`next_u32`] or [`next_u64`] since the latter methods are almost always used
-/// with algorithmic generators (PRNGs), which are normally infallible.
-///
-/// Algorithmic generators implementing [`SeedableRng`] should normally have
-/// *portable, reproducible* output, i.e. fix Endianness when converting values
-/// to avoid platform differences, and avoid making any changes which affect
-/// output (except by communicating that the release has breaking changes).
-///
-/// Typically implementators will implement only one of the methods available
-/// in this trait directly, then use the helper functions from the
-/// [`impls`] module to implement the other methods.
-///
-/// It is recommended that implementations also implement:
-///
-/// - `Debug` with a custom implementation which *does not* print any internal
-///   state (at least, [`CryptoRng`]s should not risk leaking state through
-///   `Debug`).
-/// - `Serialize` and `Deserialize` (from Serde), preferably making Serde
-///   support optional at the crate level in PRNG libs.
-/// - `Clone`, if possible.
-/// - *never* implement `Copy` (accidental copies may cause repeated values).
-/// - *do not* implement `Default` for pseudorandom generators, but instead
-///   implement [`SeedableRng`], to guide users towards proper seeding.
-///   External / hardware RNGs can choose to implement `Default`.
-/// - `Eq` and `PartialEq` could be implemented, but are probably not useful.
-///
-/// # Example
-///
-/// A simple example, obviously not generating very *random* output:
-///
-/// ```
-/// #![allow(dead_code)]
-/// use rand_core::{RngCore, Error, impls};
-///
-/// struct CountingRng(u64);
-///
-/// impl RngCore for CountingRng {
-///     fn next_u32(&mut self) -> u32 {
-///         self.next_u64() as u32
-///     }
-///
-///     fn next_u64(&mut self) -> u64 {
-///         self.0 += 1;
-///         self.0
-///     }
-///
-///     fn fill_bytes(&mut self, dest: &mut [u8]) {
-///         impls::fill_bytes_via_next(self, dest)
-///     }
-///
-///     fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-///         Ok(self.fill_bytes(dest))
-///     }
-/// }
-/// ```
-///
-/// [`rand`]: https://docs.rs/rand
-/// [`try_fill_bytes`]: RngCore::try_fill_bytes
-/// [`fill_bytes`]: RngCore::fill_bytes
-/// [`next_u32`]: RngCore::next_u32
-/// [`next_u64`]: RngCore::next_u64
-pub trait RngCore {
-    /// Return the next random `u32`.
-    ///
-    /// RNGs must implement at least one method from this trait directly. In
-    /// the case this method is not implemented directly, it can be implemented
-    /// using `self.next_u64() as u32` or via
-    /// [`fill_bytes`][impls::next_u32_via_fill].
-    fn next_u32(&mut self) -> u32;
-
-    /// Return the next random `u64`.
-    ///
-    /// RNGs must implement at least one method from this trait directly. In
-    /// the case this method is not implemented directly, it can be implemented
-    /// via [`next_u32`][impls::next_u64_via_u32] or via
-    /// [`fill_bytes`][impls::next_u64_via_fill].
-    fn next_u64(&mut self) -> u64;
-
-    /// Fill `dest` with random data.
-    ///
-    /// RNGs must implement at least one method from this trait directly. In
-    /// the case this method is not implemented directly, it can be implemented
-    /// via [`next_u*`][impls::fill_bytes_via_next] or
-    /// via [`try_fill_bytes`][RngCore::try_fill_bytes]; if this generator can
-    /// fail the implementation must choose how best to handle errors here
-    /// (e.g. panic with a descriptive message or log a warning and retry a few
-    /// times).
-    ///
-    /// This method should guarantee that `dest` is entirely filled
-    /// with new data, and may panic if this is impossible
-    /// (e.g. reading past the end of a file that is being used as the
-    /// source of randomness).
-    fn fill_bytes(&mut self, dest: &mut [u8]);
-
-    /// Fill `dest` entirely with random data.
-    ///
-    /// This is the only method which allows an RNG to report errors while
-    /// generating random data thus making this the primary method implemented
-    /// by external (true) RNGs (e.g. `OsRng`) which can fail. It may be used
-    /// directly to generate keys and to seed (infallible) PRNGs.
-    ///
-    /// Other than error handling, this method is identical to [`fill_bytes`];
-    /// thus this may be implemented using `Ok(self.fill_bytes(dest))` or
-    /// `fill_bytes` may be implemented with
-    /// `self.try_fill_bytes(dest).unwrap()` or more specific error handling.
-    ///
-    /// [`fill_bytes`]: RngCore::fill_bytes
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error>;
-}
-
-/// A marker trait used to indicate that an [`RngCore`] or [`BlockRngCore`]
-/// implementation is supposed to be cryptographically secure.
-///
-/// *Cryptographically secure generators*, also known as *CSPRNGs*, should
-/// satisfy an additional properties over other generators: given the first
-/// *k* bits of an algorithm's output
-/// sequence, it should not be possible using polynomial-time algorithms to
-/// predict the next bit with probability significantly greater than 50%.
-///
-/// Some generators may satisfy an additional property, however this is not
-/// required by this trait: if the CSPRNG's state is revealed, it should not be
-/// computationally-feasible to reconstruct output prior to this. Some other
-/// generators allow backwards-computation and are consided *reversible*.
-///
-/// Note that this trait is provided for guidance only and cannot guarantee
-/// suitability for cryptographic applications. In general it should only be
-/// implemented for well-reviewed code implementing well-regarded algorithms.
-///
-/// Note also that use of a `CryptoRng` does not protect against other
-/// weaknesses such as seeding from a weak entropy source or leaking state.
-///
-/// [`BlockRngCore`]: block::BlockRngCore
-pub trait CryptoRng {}
-
-/// A random number generator that can be explicitly seeded.
-///
-/// This trait encapsulates the low-level functionality common to all
-/// pseudo-random number generators (PRNGs, or algorithmic generators).
-///
-/// [`rand`]: https://docs.rs/rand
-pub trait SeedableRng: Sized {
-    /// Seed type, which is restricted to types mutably-dereferencable as `u8`
-    /// arrays (we recommend `[u8; N]` for some `N`).
-    ///
-    /// It is recommended to seed PRNGs with a seed of at least circa 100 bits,
-    /// which means an array of `[u8; 12]` or greater to avoid picking RNGs with
-    /// partially overlapping periods.
-    ///
-    /// For cryptographic RNG's a seed of 256 bits is recommended, `[u8; 32]`.
-    ///
-    ///
-    /// # Implementing `SeedableRng` for RNGs with large seeds
-    ///
-    /// Note that the required traits `core::default::Default` and
-    /// `core::convert::AsMut<u8>` are not implemented for large arrays
-    /// `[u8; N]` with `N` > 32. To be able to implement the traits required by
-    /// `SeedableRng` for RNGs with such large seeds, the newtype pattern can be
-    /// used:
-    ///
-    /// ```
-    /// use rand_core::SeedableRng;
-    ///
-    /// const N: usize = 64;
-    /// pub struct MyRngSeed(pub [u8; N]);
-    /// pub struct MyRng(MyRngSeed);
-    ///
-    /// impl Default for MyRngSeed {
-    ///     fn default() -> MyRngSeed {
-    ///         MyRngSeed([0; N])
-    ///     }
-    /// }
-    ///
-    /// impl AsMut<[u8]> for MyRngSeed {
-    ///     fn as_mut(&mut self) -> &mut [u8] {
-    ///         &mut self.0
-    ///     }
-    /// }
-    ///
-    /// impl SeedableRng for MyRng {
-    ///     type Seed = MyRngSeed;
-    ///
-    ///     fn from_seed(seed: MyRngSeed) -> MyRng {
-    ///         MyRng(seed)
-    ///     }
-    /// }
-    /// ```
-    type Seed: Sized + Default + AsMut<[u8]>;
-
-    /// Create a new PRNG using the given seed.
-    ///
-    /// PRNG implementations are allowed to assume that bits in the seed are
-    /// well distributed. That means usually that the number of one and zero
-    /// bits are roughly equal, and values like 0, 1 and (size - 1) are unlikely.
-    /// Note that many non-cryptographic PRNGs will show poor quality output
-    /// if this is not adhered to. If you wish to seed from simple numbers, use
-    /// `seed_from_u64` instead.
-    ///
-    /// All PRNG implementations should be reproducible unless otherwise noted:
-    /// given a fixed `seed`, the same sequence of output should be produced
-    /// on all runs, library versions and architectures (e.g. check endianness).
-    /// Any "value-breaking" changes to the generator should require bumping at
-    /// least the minor version and documentation of the change.
-    ///
-    /// It is not required that this function yield the same state as a
-    /// reference implementation of the PRNG given equivalent seed; if necessary
-    /// another constructor replicating behaviour from a reference
-    /// implementation can be added.
-    ///
-    /// PRNG implementations should make sure `from_seed` never panics. In the
-    /// case that some special values (like an all zero seed) are not viable
-    /// seeds it is preferable to map these to alternative constant value(s),
-    /// for example `0xBAD5EEDu32` or `0x0DDB1A5E5BAD5EEDu64` ("odd biases? bad
-    /// seed"). This is assuming only a small number of values must be rejected.
-    fn from_seed(seed: Self::Seed) -> Self;
-
-    /// Create a new PRNG using a `u64` seed.
-    ///
-    /// This is a convenience-wrapper around `from_seed` to allow construction
-    /// of any `SeedableRng` from a simple `u64` value. It is designed such that
-    /// low Hamming Weight numbers like 0 and 1 can be used and should still
-    /// result in good, independent seeds to the PRNG which is returned.
-    ///
-    /// This **is not suitable for cryptography**, as should be clear given that
-    /// the input size is only 64 bits.
-    ///
-    /// Implementations for PRNGs *may* provide their own implementations of
-    /// this function, but the default implementation should be good enough for
-    /// all purposes. *Changing* the implementation of this function should be
-    /// considered a value-breaking change.
-    fn seed_from_u64(mut state: u64) -> Self {
-        // We use PCG32 to generate a u32 sequence, and copy to the seed
-        const MUL: u64 = 6364136223846793005;
-        const INC: u64 = 11634580027462260723;
-
-        let mut seed = Self::Seed::default();
-        for chunk in seed.as_mut().chunks_mut(4) {
-            // We advance the state first (to get away from the input value,
-            // in case it has low Hamming Weight).
-            state = state.wrapping_mul(MUL).wrapping_add(INC);
-
-            // Use PCG output function with to_le to generate x:
-            let xorshifted = (((state >> 18) ^ state) >> 27) as u32;
-            let rot = (state >> 59) as u32;
-            let x = xorshifted.rotate_right(rot).to_le();
-
-            unsafe {
-                let p = &x as *const u32 as *const u8;
-                copy_nonoverlapping(p, chunk.as_mut_ptr(), chunk.len());
-            }
-        }
-
-        Self::from_seed(seed)
-    }
-
-    /// Create a new PRNG seeded from another `Rng`.
-    ///
-    /// This may be useful when needing to rapidly seed many PRNGs from a master
-    /// PRNG, and to allow forking of PRNGs. It may be considered deterministic.
-    ///
-    /// The master PRNG should be at least as high quality as the child PRNGs.
-    /// When seeding non-cryptographic child PRNGs, we recommend using a
-    /// different algorithm for the master PRNG (ideally a CSPRNG) to avoid
-    /// correlations between the child PRNGs. If this is not possible (e.g.
-    /// forking using small non-crypto PRNGs) ensure that your PRNG has a good
-    /// mixing function on the output or consider use of a hash function with
-    /// `from_seed`.
-    ///
-    /// Note that seeding `XorShiftRng` from another `XorShiftRng` provides an
-    /// extreme example of what can go wrong: the new PRNG will be a clone
-    /// of the parent.
-    ///
-    /// PRNG implementations are allowed to assume that a good RNG is provided
-    /// for seeding, and that it is cryptographically secure when appropriate.
-    /// As of `rand` 0.7 / `rand_core` 0.5, implementations overriding this
-    /// method should ensure the implementation satisfies reproducibility
-    /// (in prior versions this was not required).
-    ///
-    /// [`rand`]: https://docs.rs/rand
-    /// [`rand_os`]: https://docs.rs/rand_os
-    fn from_rng<R: RngCore>(mut rng: R) -> Result<Self, Error> {
-        let mut seed = Self::Seed::default();
-        rng.try_fill_bytes(seed.as_mut())?;
-        Ok(Self::from_seed(seed))
-    }
-
-    /// Creates a new instance of the RNG seeded via [`getrandom`].
-    ///
-    /// This method is the recommended way to construct non-deterministic PRNGs
-    /// since it is convenient and secure.
-    ///
-    /// In case the overhead of using [`getrandom`] to seed *many* PRNGs is an
-    /// issue, one may prefer to seed from a local PRNG, e.g.
-    /// `from_rng(thread_rng()).unwrap()`.
-    ///
-    /// # Panics
-    ///
-    /// If [`getrandom`] is unable to provide secure entropy this method will panic.
-    ///
-    /// [`getrandom`]: https://docs.rs/getrandom
-    #[cfg(feature="getrandom")]
-    fn from_entropy() -> Self {
-        let mut seed = Self::Seed::default();
-        if let Err(err) = getrandom::getrandom(seed.as_mut()) {
-            panic!("from_entropy failed: {}", err);
-        }
-        Self::from_seed(seed)
-    }
-}
-
-// Implement `RngCore` for references to an `RngCore`.
-// Force inlining all functions, so that it is up to the `RngCore`
-// implementation and the optimizer to decide on inlining.
-impl<'a, R: RngCore + ?Sized> RngCore for &'a mut R {
-    #[inline(always)]
-    fn next_u32(&mut self) -> u32 {
-        (**self).next_u32()
-    }
-
-    #[inline(always)]
-    fn next_u64(&mut self) -> u64 {
-        (**self).next_u64()
-    }
-
-    #[inline(always)]
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        (**self).fill_bytes(dest)
-    }
-
-    #[inline(always)]
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        (**self).try_fill_bytes(dest)
-    }
-}
-
-// Implement `RngCore` for boxed references to an `RngCore`.
-// Force inlining all functions, so that it is up to the `RngCore`
-// implementation and the optimizer to decide on inlining.
-#[cfg(feature="alloc")]
-impl<R: RngCore + ?Sized> RngCore for Box<R> {
-    #[inline(always)]
-    fn next_u32(&mut self) -> u32 {
-        (**self).next_u32()
-    }
-
-    #[inline(always)]
-    fn next_u64(&mut self) -> u64 {
-        (**self).next_u64()
-    }
-
-    #[inline(always)]
-    fn fill_bytes(&mut self, dest: &mut [u8]) {
-        (**self).fill_bytes(dest)
-    }
-
-    #[inline(always)]
-    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), Error> {
-        (**self).try_fill_bytes(dest)
-    }
-}
-
-#[cfg(feature="std")]
-impl std::io::Read for RngCore {
-    fn read(&mut self, buf: &mut [u8]) -> Result<usize, std::io::Error> {
-        self.try_fill_bytes(buf)?;
-        Ok(buf.len())
-    }
-}
-
-// Implement `CryptoRng` for references to an `CryptoRng`.
-impl<'a, R: CryptoRng + ?Sized> CryptoRng for &'a mut R {}
-
-// Implement `CryptoRng` for boxed references to an `CryptoRng`.
-#[cfg(feature="alloc")]
-impl<R: CryptoRng + ?Sized> CryptoRng for Box<R> {}
-
-#[cfg(test)]
-mod test {
-    use super::*;
-
-    #[test]
-    fn test_seed_from_u64() {
-        struct SeedableNum(u64);
-        impl SeedableRng for SeedableNum {
-            type Seed = [u8; 8];
-            fn from_seed(seed: Self::Seed) -> Self {
-                let mut x = [0u64; 1];
-                le::read_u64_into(&seed, &mut x);
-                SeedableNum(x[0])
-            }
-        }
-
-        const N: usize = 8;
-        const SEEDS: [u64; N] = [0u64, 1, 2, 3, 4, 8, 16, -1i64 as u64];
-        let mut results = [0u64; N];
-        for (i, seed) in SEEDS.iter().enumerate() {
-            let SeedableNum(x) = SeedableNum::seed_from_u64(*seed);
-            results[i] = x;
-        }
-
-        for (i1, r1) in results.iter().enumerate() {
-            let weight = r1.count_ones();
-            // This is the binomial distribution B(64, 0.5), so chance of
-            // weight < 20 is binocdf(19, 64, 0.5) = 7.8e-4, and same for
-            // weight > 44.
-            assert!(weight >= 20 && weight <= 44);
-
-            for (i2, r2) in results.iter().enumerate() {
-                if i1 == i2 { continue; }
-                let diff_weight = (r1 ^ r2).count_ones();
-                assert!(diff_weight >= 20);
-            }
-        }
-
-        // value-breakage test:
-        assert_eq!(results[0], 5029875928683246316);
-    }
-}
-
-
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-// This is the backtracking matching engine. It has the same exact capability
-// as the full NFA simulation, except it is artificially restricted to small
-// regexes on small inputs because of its memory requirements.
-//
-// In particular, this is a *bounded* backtracking engine. It retains worst
-// case linear time by keeping track of the states that it has visited (using a
-// bitmap). Namely, once a state is visited, it is never visited again. Since a
-// state is keyed by `(instruction index, input index)`, we have that its time
-// complexity is `O(mn)` (i.e., linear in the size of the search text).
-//
-// The backtracking engine can beat out the NFA simulation on small
-// regexes/inputs because it doesn't have to keep track of multiple copies of
-// the capture groups. In benchmarks, the backtracking engine is roughly twice
-// as fast as the full NFA simulation. Note though that its performance doesn't
-// scale, even if you're willing to live with the memory requirements. Namely,
-// the bitset has to be zeroed on each execution, which becomes quite expensive
-// on large bitsets.
-
-use exec::ProgramCache;
-use input::{Input, InputAt};
-use prog::{Program, InstPtr};
-use re_trait::Slot;
-
-type Bits = u32;
-
-const BIT_SIZE: usize = 32;
-const MAX_SIZE_BYTES: usize = 256 * (1 << 10); // 256 KB
-
-/// Returns true iff the given regex and input should be executed by this
-/// engine with reasonable memory usage.
-pub fn should_exec(num_insts: usize, text_len: usize) -> bool {
-    // Total memory usage in bytes is determined by:
-    //
-    //   ((len(insts) * (len(input) + 1) + bits - 1) / bits) * (size_of(u32))
-    //
-    // The actual limit picked is pretty much a heuristic.
-    // See: https://github.com/rust-lang/regex/issues/215
-    let size = ((num_insts * (text_len + 1) + BIT_SIZE - 1) / BIT_SIZE) * 4;
-    size <= MAX_SIZE_BYTES
-}
-
-/// A backtracking matching engine.
-#[derive(Debug)]
-pub struct Bounded<'a, 'm, 'r, 's, I> {
-    prog: &'r Program,
-    input: I,
-    matches: &'m mut [bool],
-    slots: &'s mut [Slot],
-    m: &'a mut Cache,
-}
-
-/// Shared cached state between multiple invocations of a backtracking engine
-/// in the same thread.
-#[derive(Clone, Debug)]
-pub struct Cache {
-    jobs: Vec<Job>,
-    visited: Vec<Bits>,
-}
-
-impl Cache {
-    /// Create new empty cache for the backtracking engine.
-    pub fn new(_prog: &Program) -> Self {
-        Cache { jobs: vec![], visited: vec![] }
-    }
-}
-
-/// A job is an explicit unit of stack space in the backtracking engine.
-///
-/// The "normal" representation is a single state transition, which corresponds
-/// to an NFA state and a character in the input. However, the backtracking
-/// engine must keep track of old capture group values. We use the explicit
-/// stack to do it.
-#[derive(Clone, Copy, Debug)]
-enum Job {
-    Inst { ip: InstPtr, at: InputAt },
-    SaveRestore { slot: usize, old_pos: Option<usize> },
-}
-
-impl<'a, 'm, 'r, 's, I: Input> Bounded<'a, 'm, 'r, 's, I> {
-    /// Execute the backtracking matching engine.
-    ///
-    /// If there's a match, `exec` returns `true` and populates the given
-    /// captures accordingly.
-    pub fn exec(
-        prog: &'r Program,
-        cache: &ProgramCache,
-        matches: &'m mut [bool],
-        slots: &'s mut [Slot],
-        input: I,
-        start: usize,
-        end: usize,
-    ) -> bool {
-        let mut cache = cache.borrow_mut();
-        let cache = &mut cache.backtrack;
-        let start = input.at(start);
-        let mut b = Bounded {
-            prog: prog,
-            input: input,
-            matches: matches,
-            slots: slots,
-            m: cache,
-        };
-        b.exec_(start, end)
-    }
-
-    /// Clears the cache such that the backtracking engine can be executed
-    /// on some input of fixed length.
-    fn clear(&mut self) {
-        // Reset the job memory so that we start fresh.
-        self.m.jobs.clear();
-
-        // Now we need to clear the bit state set.
-        // We do this by figuring out how much space we need to keep track
-        // of the states we've visited.
-        // Then we reset all existing allocated space to 0.
-        // Finally, we request more space if we need it.
-        //
-        // This is all a little circuitous, but doing this unsafely
-        // doesn't seem to have a measurable impact on performance.
-        // (Probably because backtracking is limited to such small
-        // inputs/regexes in the first place.)
-        let visited_len =
-            (self.prog.len() * (self.input.len() + 1) + BIT_SIZE - 1)
-            /
-            BIT_SIZE;
-        self.m.visited.truncate(visited_len);
-        for v in &mut self.m.visited {
-            *v = 0;
-        }
-        if visited_len > self.m.visited.len() {
-            let len = self.m.visited.len();
-            self.m.visited.reserve_exact(visited_len - len);
-            for _ in 0..(visited_len - len) {
-                self.m.visited.push(0);
-            }
-        }
-    }
-
-    /// Start backtracking at the given position in the input, but also look
-    /// for literal prefixes.
-    fn exec_(&mut self, mut at: InputAt, end: usize) -> bool {
-        self.clear();
-        // If this is an anchored regex at the beginning of the input, then
-        // we're either already done or we only need to try backtracking once.
-        if self.prog.is_anchored_start {
-            return if !at.is_start() {
-                false
-            } else {
-                self.backtrack(at)
-            };
-        }
-        let mut matched = false;
-        loop {
-            if !self.prog.prefixes.is_empty() {
-                at = match self.input.prefix_at(&self.prog.prefixes, at) {
-                    None => break,
-                    Some(at) => at,
-                };
-            }
-            matched = self.backtrack(at) || matched;
-            if matched && self.prog.matches.len() == 1 {
-                return true;
-            }
-            if at.pos() == end || at.is_end() {
-                break;
-            }
-            at = self.input.at(at.next_pos());
-        }
-        matched
-    }
-
-    /// The main backtracking loop starting at the given input position.
-    fn backtrack(&mut self, start: InputAt) -> bool {
-        // N.B. We use an explicit stack to avoid recursion.
-        // To avoid excessive pushing and popping, most transitions are handled
-        // in the `step` helper function, which only pushes to the stack when
-        // there's a capture or a branch.
-        let mut matched = false;
-        self.m.jobs.push(Job::Inst { ip: 0, at: start });
-        while let Some(job) = self.m.jobs.pop() {
-            match job {
-                Job::Inst { ip, at } => {
-                    if self.step(ip, at) {
-                        // Only quit if we're matching one regex.
-                        // If we're matching a regex set, then mush on and
-                        // try to find other matches (if we want them).
-                        if self.prog.matches.len() == 1 {
-                            return true;
-                        }
-                        matched = true;
-                    }
-                }
-                Job::SaveRestore { slot, old_pos } => {
-                    if slot < self.slots.len() {
-                        self.slots[slot] = old_pos;
-                    }
-                }
-            }
-        }
-        matched
-    }
-
-    fn step(&mut self, mut ip: InstPtr, mut at: InputAt) -> bool {
-        use prog::Inst::*;
-        loop {
-            // This loop is an optimization to avoid constantly pushing/popping
-            // from the stack. Namely, if we're pushing a job only to run it
-            // next, avoid the push and just mutate `ip` (and possibly `at`)
-            // in place.
-            if self.has_visited(ip, at) {
-                return false;
-            }
-            match self.prog[ip] {
-                Match(slot) => {
-                    if slot < self.matches.len() {
-                        self.matches[slot] = true;
-                    }
-                    return true;
-                }
-                Save(ref inst) => {
-                    if let Some(&old_pos) = self.slots.get(inst.slot) {
-                        // If this path doesn't work out, then we save the old
-                        // capture index (if one exists) in an alternate
-                        // job. If the next path fails, then the alternate
-                        // job is popped and the old capture index is restored.
-                        self.m.jobs.push(Job::SaveRestore {
-                            slot: inst.slot,
-                            old_pos: old_pos,
-                        });
-                        self.slots[inst.slot] = Some(at.pos());
-                    }
-                    ip = inst.goto;
-                }
-                Split(ref inst) => {
-                    self.m.jobs.push(Job::Inst { ip: inst.goto2, at: at });
-                    ip = inst.goto1;
-                }
-                EmptyLook(ref inst) => {
-                    if self.input.is_empty_match(at, inst) {
-                        ip = inst.goto;
-                    } else {
-                        return false;
-                    }
-                }
-                Char(ref inst) => {
-                    if inst.c == at.char() {
-                        ip = inst.goto;
-                        at = self.input.at(at.next_pos());
-                    } else {
-                        return false;
-                    }
-                }
-                Ranges(ref inst) => {
-                    if inst.matches(at.char()) {
-                        ip = inst.goto;
-                        at = self.input.at(at.next_pos());
-                    } else {
-                        return false;
-                    }
-                }
-                Bytes(ref inst) => {
-                    if let Some(b) = at.byte() {
-                        if inst.matches(b) {
-                            ip = inst.goto;
-                            at = self.input.at(at.next_pos());
-                            continue;
-                        }
-                    }
-                    return false;
-                }
-            }
-        }
-    }
-
-    fn has_visited(&mut self, ip: InstPtr, at: InputAt) -> bool {
-        let k = ip * (self.input.len() + 1) + at.pos();
-        let k1 = k / BIT_SIZE;
-        let k2 = usize_to_u32(1 << (k & (BIT_SIZE - 1)));
-        if self.m.visited[k1] & k2 == 0 {
-            self.m.visited[k1] |= k2;
-            false
-        } else {
-            true
-        }
-    }
-}
-
-fn usize_to_u32(n: usize) -> u32 {
-    if (n as u64) > (::std::u32::MAX as u64) {
-        panic!("BUG: {} is too big to fit into u32", n)
-    }
-    n as u32
-}
-
-
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-
-// Copyright 2014-2016 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::collections::HashMap;
-use std::iter;
-use std::result;
-use std::sync::Arc;
-
-use syntax::is_word_byte;
-use syntax::hir::{self, Hir};
-use utf8_ranges::{Utf8Range, Utf8Sequence, Utf8Sequences};
-
-use prog::{
-    Program, Inst, InstPtr, EmptyLook,
-    InstSave, InstSplit, InstEmptyLook, InstChar, InstRanges, InstBytes,
-};
-
-use Error;
-
-type Result = result::Result<Patch, Error>;
-
-#[derive(Debug)]
-struct Patch {
-    hole: Hole,
-    entry: InstPtr,
-}
-
-/// A compiler translates a regular expression AST to a sequence of
-/// instructions. The sequence of instructions represents an NFA.
-pub struct Compiler {
-    insts: Vec<MaybeInst>,
-    compiled: Program,
-    capture_name_idx: HashMap<String, usize>,
-    num_exprs: usize,
-    size_limit: usize,
-    suffix_cache: SuffixCache,
-    utf8_seqs: Option<Utf8Sequences>,
-    byte_classes: ByteClassSet,
-}
-
-impl Compiler {
-    /// Create a new regular expression compiler.
-    ///
-    /// Various options can be set before calling `compile` on an expression.
-    pub fn new() -> Self {
-        Compiler {
-            insts: vec![],
-            compiled: Program::new(),
-            capture_name_idx: HashMap::new(),
-            num_exprs: 0,
-            size_limit: 10 * (1 << 20),
-            suffix_cache: SuffixCache::new(1000),
-            utf8_seqs: Some(Utf8Sequences::new('\x00', '\x00')),
-            byte_classes: ByteClassSet::new(),
-        }
-    }
-
-    /// The size of the resulting program is limited by size_limit. If
-    /// the program approximately exceeds the given size (in bytes), then
-    /// compilation will stop and return an error.
-    pub fn size_limit(mut self, size_limit: usize) -> Self {
-        self.size_limit = size_limit;
-        self
-    }
-
-    /// If bytes is true, then the program is compiled as a byte based
-    /// automaton, which incorporates UTF-8 decoding into the machine. If it's
-    /// false, then the automaton is Unicode scalar value based, e.g., an
-    /// engine utilizing such an automaton is responsible for UTF-8 decoding.
-    ///
-    /// The specific invariant is that when returning a byte based machine,
-    /// the neither the `Char` nor `Ranges` instructions are produced.
-    /// Conversely, when producing a Unicode scalar value machine, the `Bytes`
-    /// instruction is never produced.
-    ///
-    /// Note that `dfa(true)` implies `bytes(true)`.
-    pub fn bytes(mut self, yes: bool) -> Self {
-        self.compiled.is_bytes = yes;
-        self
-    }
-
-    /// When disabled, the program compiled may match arbitrary bytes.
-    ///
-    /// When enabled (the default), all compiled programs exclusively match
-    /// valid UTF-8 bytes.
-    pub fn only_utf8(mut self, yes: bool) -> Self {
-        self.compiled.only_utf8 = yes;
-        self
-    }
-
-    /// When set, the machine returned is suitable for use in the DFA matching
-    /// engine.
-    ///
-    /// In particular, this ensures that if the regex is not anchored in the
-    /// beginning, then a preceding `.*?` is included in the program. (The NFA
-    /// based engines handle the preceding `.*?` explicitly, which is difficult
-    /// or impossible in the DFA engine.)
-    pub fn dfa(mut self, yes: bool) -> Self {
-        self.compiled.is_dfa = yes;
-        self
-    }
-
-    /// When set, the machine returned is suitable for matching text in
-    /// reverse. In particular, all concatenations are flipped.
-    pub fn reverse(mut self, yes: bool) -> Self {
-        self.compiled.is_reverse = yes;
-        self
-    }
-
-    /// Compile a regular expression given its AST.
-    ///
-    /// The compiler is guaranteed to succeed unless the program exceeds the
-    /// specified size limit. If the size limit is exceeded, then compilation
-    /// stops and returns an error.
-    pub fn compile(
-        mut self,
-        exprs: &[Hir],
-    ) -> result::Result<Program, Error> {
-        debug_assert!(exprs.len() >= 1);
-        self.num_exprs = exprs.len();
-        if exprs.len() == 1 {
-            self.compile_one(&exprs[0])
-        } else {
-            self.compile_many(exprs)
-        }
-    }
-
-    fn compile_one(mut self, expr: &Hir) -> result::Result<Program, Error> {
-        // If we're compiling a forward DFA and we aren't anchored, then
-        // add a `.*?` before the first capture group.
-        // Other matching engines handle this by baking the logic into the
-        // matching engine itself.
-        let mut dotstar_patch = Patch { hole: Hole::None, entry: 0 };
-        self.compiled.is_anchored_start = expr.is_anchored_start();
-        self.compiled.is_anchored_end = expr.is_anchored_end();
-        if self.compiled.needs_dotstar() {
-            dotstar_patch = self.c_dotstar()?;
-            self.compiled.start = dotstar_patch.entry;
-        }
-        self.compiled.captures = vec![None];
-        let patch = self.c_capture(0, expr)?;
-        if self.compiled.needs_dotstar() {
-            self.fill(dotstar_patch.hole, patch.entry);
-        } else {
-            self.compiled.start = patch.entry;
-        }
-        self.fill_to_next(patch.hole);
-        self.compiled.matches = vec![self.insts.len()];
-        self.push_compiled(Inst::Match(0));
-        self.compile_finish()
-    }
-
-    fn compile_many(
-        mut self,
-        exprs: &[Hir],
-    ) -> result::Result<Program, Error> {
-        debug_assert!(exprs.len() > 1);
-
-        self.compiled.is_anchored_start =
-            exprs.iter().all(|e| e.is_anchored_start());
-        self.compiled.is_anchored_end =
-            exprs.iter().all(|e| e.is_anchored_end());
-        let mut dotstar_patch = Patch { hole: Hole::None, entry: 0 };
-        if self.compiled.needs_dotstar() {
-            dotstar_patch = self.c_dotstar()?;
-            self.compiled.start = dotstar_patch.entry;
-        } else {
-            self.compiled.start = 0; // first instruction is always split
-        }
-        self.fill_to_next(dotstar_patch.hole);
-
-        let mut prev_hole = Hole::None;
-        for (i, expr) in exprs[0..exprs.len() - 1].iter().enumerate() {
-            self.fill_to_next(prev_hole);
-            let split = self.push_split_hole();
-            let Patch { hole, entry } = self.c_capture(0, expr)?;
-            self.fill_to_next(hole);
-            self.compiled.matches.push(self.insts.len());
-            self.push_compiled(Inst::Match(i));
-            prev_hole = self.fill_split(split, Some(entry), None);
-        }
-        let i = exprs.len() - 1;
-        let Patch { hole, entry } = self.c_capture(0, &exprs[i])?;
-        self.fill(prev_hole, entry);
-        self.fill_to_next(hole);
-        self.compiled.matches.push(self.insts.len());
-        self.push_compiled(Inst::Match(i));
-        self.compile_finish()
-    }
-
-    fn compile_finish(mut self) -> result::Result<Program, Error> {
-        self.compiled.insts =
-            self.insts.into_iter().map(|inst| inst.unwrap()).collect();
-        self.compiled.byte_classes = self.byte_classes.byte_classes();
-        self.compiled.capture_name_idx = Arc::new(self.capture_name_idx);
-        Ok(self.compiled)
-    }
-
-    /// Compile expr into self.insts, returning a patch on success,
-    /// or an error if we run out of memory.
-    ///
-    /// All of the c_* methods of the compiler share the contract outlined
-    /// here.
-    ///
-    /// The main thing that a c_* method does is mutate `self.insts`
-    /// to add a list of mostly compiled instructions required to execute
-    /// the given expression. `self.insts` contains MaybeInsts rather than
-    /// Insts because there is some backpatching required.
-    ///
-    /// The `Patch` value returned by each c_* method provides metadata
-    /// about the compiled instructions emitted to `self.insts`. The
-    /// `entry` member of the patch refers to the first instruction
-    /// (the entry point), while the `hole` member contains zero or
-    /// more offsets to partial instructions that need to be backpatched.
-    /// The c_* routine can't know where its list of instructions are going to
-    /// jump to after execution, so it is up to the caller to patch
-    /// these jumps to point to the right place. So compiling some
-    /// expression, e, we would end up with a situation that looked like:
-    ///
-    /// ```text
-    /// self.insts = [ ..., i1, i2, ..., iexit1, ..., iexitn, ...]
-    ///                     ^              ^             ^
-    ///                     |                \         /
-    ///                   entry                \     /
-    ///                                         hole
-    /// ```
-    ///
-    /// To compile two expressions, e1 and e2, concatinated together we
-    /// would do:
-    ///
-    /// ```ignore
-    /// let patch1 = self.c(e1);
-    /// let patch2 = self.c(e2);
-    /// ```
-    ///
-    /// while leaves us with a situation that looks like
-    ///
-    /// ```text
-    /// self.insts = [ ..., i1, ..., iexit1, ..., i2, ..., iexit2 ]
-    ///                     ^        ^            ^        ^
-    ///                     |        |            |        |
-    ///                entry1        hole1   entry2        hole2
-    /// ```
-    ///
-    /// Then to merge the two patches together into one we would backpatch
-    /// hole1 with entry2 and return a new patch that enters at entry1
-    /// and has hole2 for a hole. In fact, if you look at the c_concat
-    /// method you will see that it does exactly this, though it handles
-    /// a list of expressions rather than just the two that we use for
-    /// an example.
-    fn c(&mut self, expr: &Hir) -> Result {
-        use prog;
-        use syntax::hir::HirKind::*;
-
-        self.check_size()?;
-        match *expr.kind() {
-            Empty => Ok(Patch { hole: Hole::None, entry: self.insts.len() }),
-            Literal(hir::Literal::Unicode(c)) => {
-                self.c_char(c)
-            }
-            Literal(hir::Literal::Byte(b)) => {
-                assert!(self.compiled.uses_bytes());
-                self.c_byte(b)
-            }
-            Class(hir::Class::Unicode(ref cls)) => {
-                self.c_class(cls.ranges())
-            }
-            Class(hir::Class::Bytes(ref cls)) => {
-                if self.compiled.uses_bytes() {
-                    self.c_class_bytes(cls.ranges())
-                } else {
-                    assert!(cls.is_all_ascii());
-                    let mut char_ranges = vec![];
-                    for r in cls.iter() {
-                        let (s, e) = (r.start() as char, r.end() as char);
-                        char_ranges.push(hir::ClassUnicodeRange::new(s, e));
-                    }
-                    self.c_class(&char_ranges)
-                }
-            }
-            Anchor(hir::Anchor::StartLine) if self.compiled.is_reverse => {
-                self.byte_classes.set_range(b'\n', b'\n');
-                self.c_empty_look(prog::EmptyLook::EndLine)
-            }
-            Anchor(hir::Anchor::StartLine) => {
-                self.byte_classes.set_range(b'\n', b'\n');
-                self.c_empty_look(prog::EmptyLook::StartLine)
-            }
-            Anchor(hir::Anchor::EndLine) if self.compiled.is_reverse => {
-                self.byte_classes.set_range(b'\n', b'\n');
-                self.c_empty_look(prog::EmptyLook::StartLine)
-            }
-            Anchor(hir::Anchor::EndLine) => {
-                self.byte_classes.set_range(b'\n', b'\n');
-                self.c_empty_look(prog::EmptyLook::EndLine)
-            }
-            Anchor(hir::Anchor::StartText) if self.compiled.is_reverse => {
-                self.c_empty_look(prog::EmptyLook::EndText)
-            }
-            Anchor(hir::Anchor::StartText) => {
-                self.c_empty_look(prog::EmptyLook::StartText)
-            }
-            Anchor(hir::Anchor::EndText) if self.compiled.is_reverse => {
-                self.c_empty_look(prog::EmptyLook::StartText)
-            }
-            Anchor(hir::Anchor::EndText) => {
-                self.c_empty_look(prog::EmptyLook::EndText)
-            }
-            WordBoundary(hir::WordBoundary::Unicode) => {
-                self.compiled.has_unicode_word_boundary = true;
-                self.byte_classes.set_word_boundary();
-                self.c_empty_look(prog::EmptyLook::WordBoundary)
-            }
-            WordBoundary(hir::WordBoundary::UnicodeNegate) => {
-                self.compiled.has_unicode_word_boundary = true;
-                self.byte_classes.set_word_boundary();
-                self.c_empty_look(prog::EmptyLook::NotWordBoundary)
-            }
-            WordBoundary(hir::WordBoundary::Ascii) => {
-                self.byte_classes.set_word_boundary();
-                self.c_empty_look(prog::EmptyLook::WordBoundaryAscii)
-            }
-            WordBoundary(hir::WordBoundary::AsciiNegate) => {
-                self.byte_classes.set_word_boundary();
-                self.c_empty_look(prog::EmptyLook::NotWordBoundaryAscii)
-            }
-            Group(ref g) => {
-                match g.kind {
-                    hir::GroupKind::NonCapturing => self.c(&g.hir),
-                    hir::GroupKind::CaptureIndex(index) => {
-                        if index as usize >= self.compiled.captures.len() {
-                            self.compiled.captures.push(None);
-                        }
-                        self.c_capture(2 * index as usize, &g.hir)
-                    }
-                    hir::GroupKind::CaptureName { index, ref name } => {
-                        if index as usize >= self.compiled.captures.len() {
-                            let n = name.to_string();
-                            self.compiled.captures.push(Some(n.clone()));
-                            self.capture_name_idx.insert(n, index as usize);
-                        }
-                        self.c_capture(2 * index as usize, &g.hir)
-                    }
-                }
-            }
-            Concat(ref es) => {
-                if self.compiled.is_reverse {
-                    self.c_concat(es.iter().rev())
-                } else {
-                    self.c_concat(es)
-                }
-            }
-            Alternation(ref es) => self.c_alternate(&**es),
-            Repetition(ref rep) => self.c_repeat(rep),
-        }
-    }
-
-    fn c_capture(&mut self, first_slot: usize, expr: &Hir) -> Result {
-        if self.num_exprs > 1 || self.compiled.is_dfa {
-            // Don't ever compile Save instructions for regex sets because
-            // they are never used. They are also never used in DFA programs
-            // because DFAs can't handle captures.
-            self.c(expr)
-        } else {
-            let entry = self.insts.len();
-            let hole = self.push_hole(InstHole::Save { slot: first_slot });
-            let patch = self.c(expr)?;
-            self.fill(hole, patch.entry);
-            self.fill_to_next(patch.hole);
-            let hole = self.push_hole(InstHole::Save { slot: first_slot + 1 });
-            Ok(Patch { hole: hole, entry: entry })
-        }
-    }
-
-    fn c_dotstar(&mut self) -> Result {
-        Ok(if !self.compiled.only_utf8() {
-            self.c(&Hir::repetition(hir::Repetition {
-                kind: hir::RepetitionKind::ZeroOrMore,
-                greedy: false,
-                hir: Box::new(Hir::any(true)),
-            }))?
-        } else {
-            self.c(&Hir::repetition(hir::Repetition {
-                kind: hir::RepetitionKind::ZeroOrMore,
-                greedy: false,
-                hir: Box::new(Hir::any(false)),
-            }))?
-        })
-    }
-
-    fn c_char(&mut self, c: char) -> Result {
-        self.c_class(&[hir::ClassUnicodeRange::new(c, c)])
-    }
-
-    fn c_class(&mut self, ranges: &[hir::ClassUnicodeRange]) -> Result {
-        assert!(!ranges.is_empty());
-        if self.compiled.uses_bytes() {
-            CompileClass {
-                c: self,
-                ranges: ranges,
-            }.compile()
-        } else {
-            let ranges: Vec<(char, char)> =
-                ranges.iter().map(|r| (r.start(), r.end())).collect();
-            let hole = if ranges.len() == 1 && ranges[0].0 == ranges[0].1 {
-                self.push_hole(InstHole::Char { c: ranges[0].0 })
-            } else {
-                self.push_hole(InstHole::Ranges { ranges: ranges })
-            };
-            Ok(Patch { hole: hole, entry: self.insts.len() - 1 })
-        }
-    }
-
-    fn c_byte(&mut self, b: u8) -> Result {
-        self.c_class_bytes(&[hir::ClassBytesRange::new(b, b)])
-    }
-
-    fn c_class_bytes(&mut self, ranges: &[hir::ClassBytesRange]) -> Result {
-        debug_assert!(!ranges.is_empty());
-
-        let first_split_entry = self.insts.len();
-        let mut holes = vec![];
-        let mut prev_hole = Hole::None;
-        for r in &ranges[0..ranges.len() - 1] {
-            self.fill_to_next(prev_hole);
-            let split = self.push_split_hole();
-            let next = self.insts.len();
-            self.byte_classes.set_range(r.start(), r.end());
-            holes.push(self.push_hole(InstHole::Bytes {
-                start: r.start(), end: r.end(),
-            }));
-            prev_hole = self.fill_split(split, Some(next), None);
-        }
-        let next = self.insts.len();
-        let r = &ranges[ranges.len() - 1];
-        self.byte_classes.set_range(r.start(), r.end());
-        holes.push(self.push_hole(InstHole::Bytes {
-            start: r.start(), end: r.end(),
-        }));
-        self.fill(prev_hole, next);
-        Ok(Patch { hole: Hole::Many(holes), entry: first_split_entry })
-    }
-
-    fn c_empty_look(&mut self, look: EmptyLook) -> Result {
-        let hole = self.push_hole(InstHole::EmptyLook { look: look });
-        Ok(Patch { hole: hole, entry: self.insts.len() - 1 })
-    }
-
-    fn c_concat<'a, I>(&mut self, exprs: I) -> Result
-            where I: IntoIterator<Item=&'a Hir> {
-        let mut exprs = exprs.into_iter();
-        let first = match exprs.next() {
-            Some(expr) => expr,
-            None => {
-                return Ok(Patch { hole: Hole::None, entry: self.insts.len() })
-            }
-        };
-        let Patch { mut hole, entry } = self.c(first)?;
-        for e in exprs {
-            let p = self.c(e)?;
-            self.fill(hole, p.entry);
-            hole = p.hole;
-        }
-        Ok(Patch { hole: hole, entry: entry })
-    }
-
-    fn c_alternate(&mut self, exprs: &[Hir]) -> Result {
-        debug_assert!(
-            exprs.len() >= 2, "alternates must have at least 2 exprs");
-
-        // Initial entry point is always the first split.
-        let first_split_entry = self.insts.len();
-
-        // Save up all of the holes from each alternate. They will all get
-        // patched to point to the same location.
-        let mut holes = vec![];
-
-        let mut prev_hole = Hole::None;
-        for e in &exprs[0..exprs.len() - 1] {
-            self.fill_to_next(prev_hole);
-            let split = self.push_split_hole();
-            let prev_entry = self.insts.len();
-            let Patch { hole, entry } = self.c(e)?;
-            if prev_entry == self.insts.len() {
-                // TODO(burntsushi): It is kind of silly that we don't support
-                // empty-subexpressions in alternates, but it is supremely
-                // awkward to support them in the existing compiler
-                // infrastructure. This entire compiler needs to be thrown out
-                // anyway, so don't feel too bad.
-                return Err(Error::Syntax(
-                    "alternations cannot currently contain \
-                     empty sub-expressions".to_string()));
-            }
-            holes.push(hole);
-            prev_hole = self.fill_split(split, Some(entry), None);
-        }
-        let prev_entry = self.insts.len();
-        let Patch { hole, entry } = self.c(&exprs[exprs.len() - 1])?;
-        if prev_entry == self.insts.len() {
-            // TODO(burntsushi): See TODO above.
-            return Err(Error::Syntax(
-                "alternations cannot currently contain \
-                 empty sub-expressions".to_string()));
-        }
-        holes.push(hole);
-        self.fill(prev_hole, entry);
-        Ok(Patch { hole: Hole::Many(holes), entry: first_split_entry })
-    }
-
-    fn c_repeat(&mut self, rep: &hir::Repetition) -> Result {
-        use syntax::hir::RepetitionKind::*;
-        match rep.kind {
-            ZeroOrOne => self.c_repeat_zero_or_one(&rep.hir, rep.greedy),
-            ZeroOrMore => self.c_repeat_zero_or_more(&rep.hir, rep.greedy),
-            OneOrMore => self.c_repeat_one_or_more(&rep.hir, rep.greedy),
-            Range(hir::RepetitionRange::Exactly(min_max)) => {
-                self.c_repeat_range(&rep.hir, rep.greedy, min_max, min_max)
-            }
-            Range(hir::RepetitionRange::AtLeast(min)) => {
-                self.c_repeat_range_min_or_more(&rep.hir, rep.greedy, min)
-            }
-            Range(hir::RepetitionRange::Bounded(min, max)) => {
-                self.c_repeat_range(&rep.hir, rep.greedy, min, max)
-            }
-        }
-    }
-
-    fn c_repeat_zero_or_one(&mut self, expr: &Hir, greedy: bool) -> Result {
-        let split_entry = self.insts.len();
-        let split = self.push_split_hole();
-        let Patch { hole: hole_rep, entry: entry_rep } = self.c(expr)?;
-
-        let split_hole = if greedy {
-            self.fill_split(split, Some(entry_rep), None)
-        } else {
-            self.fill_split(split, None, Some(entry_rep))
-        };
-        let holes = vec![hole_rep, split_hole];
-        Ok(Patch { hole: Hole::Many(holes), entry: split_entry })
-    }
-
-    fn c_repeat_zero_or_more(&mut self, expr: &Hir, greedy: bool) -> Result {
-        let split_entry = self.insts.len();
-        let split = self.push_split_hole();
-        let Patch { hole: hole_rep, entry: entry_rep } = self.c(expr)?;
-
-        self.fill(hole_rep, split_entry);
-        let split_hole = if greedy {
-            self.fill_split(split, Some(entry_rep), None)
-        } else {
-            self.fill_split(split, None, Some(entry_rep))
-        };
-        Ok(Patch { hole: split_hole, entry: split_entry })
-    }
-
-    fn c_repeat_one_or_more(&mut self, expr: &Hir, greedy: bool) -> Result {
-        let Patch { hole: hole_rep, entry: entry_rep } = self.c(expr)?;
-        self.fill_to_next(hole_rep);
-        let split = self.push_split_hole();
-
-        let split_hole = if greedy {
-            self.fill_split(split, Some(entry_rep), None)
-        } else {
-            self.fill_split(split, None, Some(entry_rep))
-        };
-        Ok(Patch { hole: split_hole, entry: entry_rep })
-    }
-
-    fn c_repeat_range_min_or_more(
-        &mut self,
-        expr: &Hir,
-        greedy: bool,
-        min: u32,
-    ) -> Result {
-        let min = u32_to_usize(min);
-        let patch_concat = self.c_concat(iter::repeat(expr).take(min))?;
-        let patch_rep = self.c_repeat_zero_or_more(expr, greedy)?;
-        self.fill(patch_concat.hole, patch_rep.entry);
-        Ok(Patch { hole: patch_rep.hole, entry: patch_concat.entry })
-    }
-
-    fn c_repeat_range(
-        &mut self,
-        expr: &Hir,
-        greedy: bool,
-        min: u32,
-        max: u32,
-    ) -> Result {
-        let (min, max) = (u32_to_usize(min), u32_to_usize(max));
-        let patch_concat = self.c_concat(iter::repeat(expr).take(min))?;
-        let initial_entry = patch_concat.entry;
-        if min == max {
-            return Ok(patch_concat);
-        }
-        // It is much simpler to compile, e.g., `a{2,5}` as:
-        //
-        //     aaa?a?a?
-        //
-        // But you end up with a sequence of instructions like this:
-        //
-        //     0: 'a'
-        //     1: 'a',
-        //     2: split(3, 4)
-        //     3: 'a'
-        //     4: split(5, 6)
-        //     5: 'a'
-        //     6: split(7, 8)
-        //     7: 'a'
-        //     8: MATCH
-        //
-        // This is *incredibly* inefficient because the splits end
-        // up forming a chain, which has to be resolved everything a
-        // transition is followed.
-        let mut holes = vec![];
-        let mut prev_hole = patch_concat.hole;
-        for _ in min..max {
-            self.fill_to_next(prev_hole);
-            let split = self.push_split_hole();
-            let Patch { hole, entry } = self.c(expr)?;
-            prev_hole = hole;
-            if greedy {
-                holes.push(self.fill_split(split, Some(entry), None));
-            } else {
-                holes.push(self.fill_split(split, None, Some(entry)));
-            }
-        }
-        holes.push(prev_hole);
-        Ok(Patch { hole: Hole::Many(holes), entry: initial_entry })
-    }
-
-    fn fill(&mut self, hole: Hole, goto: InstPtr) {
-        match hole {
-            Hole::None => {}
-            Hole::One(pc) => {
-                self.insts[pc].fill(goto);
-            }
-            Hole::Many(holes) => {
-                for hole in holes {
-                    self.fill(hole, goto);
-                }
-            }
-        }
-    }
-
-    fn fill_to_next(&mut self, hole: Hole) {
-        let next = self.insts.len();
-        self.fill(hole, next);
-    }
-
-    fn fill_split(
-        &mut self,
-        hole: Hole,
-        goto1: Option<InstPtr>,
-        goto2: Option<InstPtr>,
-    ) -> Hole {
-        match hole {
-            Hole::None => Hole::None,
-            Hole::One(pc) => {
-                match (goto1, goto2) {
-                    (Some(goto1), Some(goto2)) => {
-                        self.insts[pc].fill_split(goto1, goto2);
-                        Hole::None
-                    }
-                    (Some(goto1), None) => {
-                        self.insts[pc].half_fill_split_goto1(goto1);
-                        Hole::One(pc)
-                    }
-                    (None, Some(goto2)) => {
-                        self.insts[pc].half_fill_split_goto2(goto2);
-                        Hole::One(pc)
-                    }
-                    (None, None) => unreachable!("at least one of the split \
-                                                  holes must be filled"),
-                }
-            }
-            Hole::Many(holes) => {
-                let mut new_holes = vec![];
-                for hole in holes {
-                    new_holes.push(self.fill_split(hole, goto1, goto2));
-                }
-                if new_holes.is_empty() {
-                    Hole::None
-                } else if new_holes.len() == 1 {
-                    new_holes.pop().unwrap()
-                } else {
-                    Hole::Many(new_holes)
-                }
-            }
-        }
-    }
-
-    fn push_compiled(&mut self, inst: Inst) {
-        self.insts.push(MaybeInst::Compiled(inst));
-    }
-
-    fn push_hole(&mut self, inst: InstHole) -> Hole {
-        let hole = self.insts.len();
-        self.insts.push(MaybeInst::Uncompiled(inst));
-        Hole::One(hole)
-    }
-
-    fn push_split_hole(&mut self) -> Hole {
-        let hole = self.insts.len();
-        self.insts.push(MaybeInst::Split);
-        Hole::One(hole)
-    }
-
-    fn check_size(&self) -> result::Result<(), Error> {
-        use std::mem::size_of;
-
-        if self.insts.len() * size_of::<Inst>() > self.size_limit {
-            Err(Error::CompiledTooBig(self.size_limit))
-        } else {
-            Ok(())
-        }
-    }
-}
-
-#[derive(Debug)]
-enum Hole {
-    None,
-    One(InstPtr),
-    Many(Vec<Hole>),
-}
-
-#[derive(Clone, Debug)]
-enum MaybeInst {
-    Compiled(Inst),
-    Uncompiled(InstHole),
-    Split,
-    Split1(InstPtr),
-    Split2(InstPtr),
-}
-
-impl MaybeInst {
-    fn fill(&mut self, goto: InstPtr) {
-        let filled = match *self {
-            MaybeInst::Uncompiled(ref inst) => inst.fill(goto),
-            MaybeInst::Split1(goto1) => {
-                Inst::Split(InstSplit { goto1: goto1, goto2: goto })
-            }
-            MaybeInst::Split2(goto2) => {
-                Inst::Split(InstSplit { goto1: goto, goto2: goto2 })
-            }
-            _ => unreachable!("not all instructions were compiled! \
-                               found uncompiled instruction: {:?}", self),
-        };
-        *self = MaybeInst::Compiled(filled);
-    }
-
-    fn fill_split(&mut self, goto1: InstPtr, goto2: InstPtr) {
-        let filled = match *self {
-            MaybeInst::Split => {
-                Inst::Split(InstSplit { goto1: goto1, goto2: goto2 })
-            }
-            _ => unreachable!("must be called on Split instruction, \
-                               instead it was called on: {:?}", self),
-        };
-        *self = MaybeInst::Compiled(filled);
-    }
-
-    fn half_fill_split_goto1(&mut self, goto1: InstPtr) {
-        let half_filled = match *self {
-            MaybeInst::Split => goto1,
-            _ => unreachable!("must be called on Split instruction, \
-                               instead it was called on: {:?}", self),
-        };
-        *self = MaybeInst::Split1(half_filled);
-    }
-
-    fn half_fill_split_goto2(&mut self, goto2: InstPtr) {
-        let half_filled = match *self {
-            MaybeInst::Split => goto2,
-            _ => unreachable!("must be called on Split instruction, \
-                               instead it was called on: {:?}", self),
-        };
-        *self = MaybeInst::Split2(half_filled);
-    }
-
-    fn unwrap(self) -> Inst {
-        match self {
-            MaybeInst::Compiled(inst) => inst,
-            _ => unreachable!("must be called on a compiled instruction, \
-                               instead it was called on: {:?}", self),
-        }
-    }
-}
-
-#[derive(Clone, Debug)]
-enum InstHole {
-    Save { slot: usize },
-    EmptyLook { look: EmptyLook },
-    Char { c: char },
-    Ranges { ranges: Vec<(char, char)> },
-    Bytes { start: u8, end: u8 },
-}
-
-impl InstHole {
-    fn fill(&self, goto: InstPtr) -> Inst {
-        match *self {
-            InstHole::Save { slot } => Inst::Save(InstSave {
-                goto: goto,
-                slot: slot,
-            }),
-            InstHole::EmptyLook { look } => Inst::EmptyLook(InstEmptyLook {
-                goto: goto,
-                look: look,
-            }),
-            InstHole::Char { c } => Inst::Char(InstChar {
-                goto: goto,
-                c: c,
-            }),
-            InstHole::Ranges { ref ranges } => Inst::Ranges(InstRanges {
-                goto: goto,
-                ranges: ranges.clone(),
-            }),
-            InstHole::Bytes { start, end } => Inst::Bytes(InstBytes {
-                goto: goto,
-                start: start,
-                end: end,
-            }),
-        }
-    }
-}
-
-struct CompileClass<'a, 'b> {
-    c: &'a mut Compiler,
-    ranges: &'b [hir::ClassUnicodeRange],
-}
-
-impl<'a, 'b> CompileClass<'a, 'b> {
-    fn compile(mut self) -> Result {
-        let mut holes = vec![];
-        let mut initial_entry = None;
-        let mut last_split = Hole::None;
-        let mut utf8_seqs = self.c.utf8_seqs.take().unwrap();
-        self.c.suffix_cache.clear();
-
-        for (i, range) in self.ranges.iter().enumerate() {
-            let is_last_range = i + 1 == self.ranges.len();
-            utf8_seqs.reset(range.start(), range.end());
-            let mut it = (&mut utf8_seqs).peekable();
-            loop {
-                let utf8_seq = match it.next() {
-                    None => break,
-                    Some(utf8_seq) => utf8_seq,
-                };
-                if is_last_range && it.peek().is_none() {
-                    let Patch { hole, entry } = self.c_utf8_seq(&utf8_seq)?;
-                    holes.push(hole);
-                    self.c.fill(last_split, entry);
-                    last_split = Hole::None;
-                    if initial_entry.is_none() {
-                        initial_entry = Some(entry);
-                    }
-                } else {
-                    if initial_entry.is_none() {
-                        initial_entry = Some(self.c.insts.len());
-                    }
-                    self.c.fill_to_next(last_split);
-                    last_split = self.c.push_split_hole();
-                    let Patch { hole, entry } = self.c_utf8_seq(&utf8_seq)?;
-                    holes.push(hole);
-                    last_split = self.c.fill_split(last_split, Some(entry), None);
-                }
-            }
-        }
-        self.c.utf8_seqs = Some(utf8_seqs);
-        Ok(Patch {
-            hole: Hole::Many(holes),
-            entry: initial_entry.unwrap(),
-        })
-    }
-
-    fn c_utf8_seq(&mut self, seq: &Utf8Sequence) -> Result {
-        if self.c.compiled.is_reverse {
-            self.c_utf8_seq_(seq)
-        } else {
-            self.c_utf8_seq_(seq.into_iter().rev())
-        }
-    }
-
-    fn c_utf8_seq_<'r, I>(&mut self, seq: I) -> Result
-            where I: IntoIterator<Item=&'r Utf8Range> {
-        // The initial instruction for each UTF-8 sequence should be the same.
-        let mut from_inst = ::std::usize::MAX;
-        let mut last_hole = Hole::None;
-        for byte_range in seq {
-            let key = SuffixCacheKey {
-                from_inst: from_inst,
-                start: byte_range.start,
-                end: byte_range.end,
-            };
-            {
-                let pc = self.c.insts.len();
-                if let Some(cached_pc) = self.c.suffix_cache.get(key, pc) {
-                    from_inst = cached_pc;
-                    continue;
-                }
-            }
-            self.c.byte_classes.set_range(byte_range.start, byte_range.end);
-            if from_inst == ::std::usize::MAX {
-                last_hole = self.c.push_hole(InstHole::Bytes {
-                    start: byte_range.start,
-                    end: byte_range.end,
-                });
-            } else {
-                self.c.push_compiled(Inst::Bytes(InstBytes {
-                    goto: from_inst,
-                    start: byte_range.start,
-                    end: byte_range.end,
-                }));
-            }
-            from_inst = self.c.insts.len().checked_sub(1).unwrap();
-            debug_assert!(from_inst < ::std::usize::MAX);
-        }
-        debug_assert!(from_inst < ::std::usize::MAX);
-        Ok(Patch { hole: last_hole, entry: from_inst })
-    }
-}
-
-/// `SuffixCache` is a simple bounded hash map for caching suffix entries in
-/// UTF-8 automata. For example, consider the Unicode range \u{0}-\u{FFFF}.
-/// The set of byte ranges looks like this:
-///
-/// [0-7F]
-/// [C2-DF][80-BF]
-/// [E0][A0-BF][80-BF]
-/// [E1-EC][80-BF][80-BF]
-/// [ED][80-9F][80-BF]
-/// [EE-EF][80-BF][80-BF]
-///
-/// Each line above translates to one alternate in the compiled regex program.
-/// However, all but one of the alternates end in the same suffix, which is
-/// a waste of an instruction. The suffix cache facilitates reusing them across
-/// alternates.
-///
-/// Note that a HashMap could be trivially used for this, but we don't need its
-/// overhead. Some small bounded space (LRU style) is more than enough.
-///
-/// This uses similar idea to [`SparseSet`](../sparse/struct.SparseSet.html),
-/// except it uses hashes as original indices and then compares full keys for
-/// validation against `dense` array.
-struct SuffixCache {
-    sparse: Box<[usize]>,
-    dense: Vec<SuffixCacheEntry>,
-}
-
-#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
-struct SuffixCacheEntry {
-    key: SuffixCacheKey,
-    pc: InstPtr,
-}
-
-#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
-struct SuffixCacheKey {
-    from_inst: InstPtr,
-    start: u8,
-    end: u8,
-}
-
-impl SuffixCache {
-    fn new(size: usize) -> Self {
-        SuffixCache {
-            sparse: vec![0usize; size].into(),
-            dense: Vec::with_capacity(size),
-        }
-    }
-
-    fn get(&mut self, key: SuffixCacheKey, pc: InstPtr) -> Option<InstPtr> {
-        let hash = self.hash(&key);
-        let pos = &mut self.sparse[hash];
-        if let Some(entry) = self.dense.get(*pos) {
-            if entry.key == key {
-                return Some(entry.pc);
-            }
-        }
-        *pos = self.dense.len();
-        self.dense.push(SuffixCacheEntry {
-            key: key,
-            pc: pc,
-        });
-        None
-    }
-
-    fn clear(&mut self) {
-        self.dense.clear();
-    }
-
-    fn hash(&self, suffix: &SuffixCacheKey) -> usize {
-        // Basic FNV-1a hash as described:
-        // https://en.wikipedia.org/wiki/Fowler%E2%80%93Noll%E2%80%93Vo_hash_function
-        const FNV_PRIME: u64 = 1099511628211;
-        let mut h = 14695981039346656037;
-        h = (h ^ (suffix.from_inst as u64)).wrapping_mul(FNV_PRIME);
-        h = (h ^ (suffix.start as u64)).wrapping_mul(FNV_PRIME);
-        h = (h ^ (suffix.end as u64)).wrapping_mul(FNV_PRIME);
-        (h as usize) % self.sparse.len()
-    }
-}
-
-struct ByteClassSet([bool; 256]);
-
-impl ByteClassSet {
-    fn new() -> Self {
-        ByteClassSet([false; 256])
-    }
-
-    fn set_range(&mut self, start: u8, end: u8) {
-        debug_assert!(start <= end);
-        if start > 0 {
-            self.0[start as usize - 1] = true;
-        }
-        self.0[end as usize] = true;
-    }
-
-    fn set_word_boundary(&mut self) {
-        // We need to mark all ranges of bytes whose pairs result in
-        // evaluating \b differently.
-        let iswb = is_word_byte;
-        let mut b1: u16 = 0;
-        let mut b2: u16;
-        while b1 <= 255 {
-            b2 = b1 + 1;
-            while b2 <= 255 && iswb(b1 as u8) == iswb(b2 as u8) {
-                b2 += 1;
-            }
-            self.set_range(b1 as u8, (b2 - 1) as u8);
-            b1 = b2;
-        }
-    }
-
-    fn byte_classes(&self) -> Vec<u8> {
-        // N.B. If you're debugging the DFA, it's useful to simply return
-        // `(0..256).collect()`, which effectively removes the byte classes
-        // and makes the transitions easier to read.
-        // (0usize..256).map(|x| x as u8).collect()
-        let mut byte_classes = vec![0; 256];
-        let mut class = 0u8;
-        let mut i = 0;
-        loop {
-            byte_classes[i] = class as u8;
-            if i >= 255 {
-                break;
-            }
-            if self.0[i] {
-                class = class.checked_add(1).unwrap();
-            }
-            i += 1;
-        }
-        byte_classes
-    }
-}
-
-fn u32_to_usize(n: u32) -> usize {
-    // In case usize is less than 32 bits, we need to guard against overflow.
-    // On most platforms this compiles to nothing.
-    // TODO Use `std::convert::TryFrom` once it's stable.
-    if (n as u64) > (::std::usize::MAX as u64) {
-        panic!("BUG: {} is too big to be pointer sized", n)
-    }
-    n as usize
-}
-
-#[cfg(test)]
-mod tests {
-    use super::ByteClassSet;
-
-    #[test]
-    fn byte_classes() {
-        let mut set = ByteClassSet::new();
-        set.set_range(b'a', b'z');
-        let classes = set.byte_classes();
-        assert_eq!(classes[0], 0);
-        assert_eq!(classes[1], 0);
-        assert_eq!(classes[2], 0);
-        assert_eq!(classes[b'a' as usize - 1], 0);
-        assert_eq!(classes[b'a' as usize], 1);
-        assert_eq!(classes[b'm' as usize], 1);
-        assert_eq!(classes[b'z' as usize], 1);
-        assert_eq!(classes[b'z' as usize + 1], 2);
-        assert_eq!(classes[254], 2);
-        assert_eq!(classes[255], 2);
-
-        let mut set = ByteClassSet::new();
-        set.set_range(0, 2);
-        set.set_range(4, 6);
-        let classes = set.byte_classes();
-        assert_eq!(classes[0], 0);
-        assert_eq!(classes[1], 0);
-        assert_eq!(classes[2], 0);
-        assert_eq!(classes[3], 1);
-        assert_eq!(classes[4], 2);
-        assert_eq!(classes[5], 2);
-        assert_eq!(classes[6], 2);
-        assert_eq!(classes[7], 3);
-        assert_eq!(classes[255], 3);
-    }
-
-    #[test]
-    fn full_byte_classes() {
-        let mut set = ByteClassSet::new();
-        for i in 0..256u16 {
-            set.set_range(i as u8, i as u8);
-        }
-        assert_eq!(set.byte_classes().len(), 256);
-    }
-}
-
-
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-
-// Copyright 2014-2016 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-The DFA matching engine.
-
-A DFA provides faster matching because the engine is in exactly one state at
-any point in time. In the NFA, there may be multiple active states, and
-considerable CPU cycles are spent shuffling them around. In finite automata
-speak, the DFA follows epsilon transitions in the regex far less than the NFA.
-
-A DFA is a classic trade off between time and space. The NFA is slower, but
-its memory requirements are typically small and predictable. The DFA is faster,
-but given the right regex and the right input, the number of states in the
-DFA can grow exponentially. To mitigate this space problem, we do two things:
-
-1. We implement an *online* DFA. That is, the DFA is constructed from the NFA
-   during a search. When a new state is computed, it is stored in a cache so
-   that it may be reused. An important consequence of this implementation
-   is that states that are never reached for a particular input are never
-   computed. (This is impossible in an "offline" DFA which needs to compute
-   all possible states up front.)
-2. If the cache gets too big, we wipe it and continue matching.
-
-In pathological cases, a new state can be created for every byte of input.
-(e.g., The regex `(a|b)*a(a|b){20}` on a long sequence of a's and b's.)
-In this case, performance regresses to slightly slower than the full NFA
-simulation, in large part because the cache becomes useless. If the cache
-is wiped too frequently, the DFA quits and control falls back to one of the
-NFA simulations.
-
-Because of the "lazy" nature of this DFA, the inner matching loop is
-considerably more complex than one might expect out of a DFA. A number of
-tricks are employed to make it fast. Tread carefully.
-
-N.B. While this implementation is heavily commented, Russ Cox's series of
-articles on regexes is strongly recommended: https://swtch.com/~rsc/regexp/
-(As is the DFA implementation in RE2, which heavily influenced this
-implementation.)
-*/
-
-use std::collections::HashMap;
-use std::fmt;
-use std::iter::repeat;
-use std::mem;
-use std::sync::Arc;
-
-use exec::ProgramCache;
-use prog::{Inst, Program};
-use sparse::SparseSet;
-
-/// Return true if and only if the given program can be executed by a DFA.
-///
-/// Generally, a DFA is always possible. A pathological case where it is not
-/// possible is if the number of NFA states exceeds `u32::MAX`, in which case,
-/// this function will return false.
-///
-/// This function will also return false if the given program has any Unicode
-/// instructions (Char or Ranges) since the DFA operates on bytes only.
-pub fn can_exec(insts: &Program) -> bool {
-    use prog::Inst::*;
-    // If for some reason we manage to allocate a regex program with more
-    // than i32::MAX instructions, then we can't execute the DFA because we
-    // use 32 bit instruction pointer deltas for memory savings.
-    // If i32::MAX is the largest positive delta,
-    // then -i32::MAX == i32::MIN + 1 is the largest negative delta,
-    // and we are OK to use 32 bits.
-    if insts.dfa_size_limit == 0 || insts.len() > ::std::i32::MAX as usize {
-        return false;
-    }
-    for inst in insts {
-        match *inst {
-            Char(_) | Ranges(_) => return false,
-            EmptyLook(_) | Match(_) | Save(_) | Split(_) | Bytes(_) => {}
-        }
-    }
-    true
-}
-
-/// A reusable cache of DFA states.
-///
-/// This cache is reused between multiple invocations of the same regex
-/// program. (It is not shared simultaneously between threads. If there is
-/// contention, then new caches are created.)
-#[derive(Debug)]
-pub struct Cache {
-    /// Group persistent DFA related cache state together. The sparse sets
-    /// listed below are used as scratch space while computing uncached states.
-    inner: CacheInner,
-    /// qcur and qnext are ordered sets with constant time
-    /// addition/membership/clearing-whole-set and linear time iteration. They
-    /// are used to manage the sets of NFA states in DFA states when computing
-    /// cached DFA states. In particular, the order of the NFA states matters
-    /// for leftmost-first style matching. Namely, when computing a cached
-    /// state, the set of NFA states stops growing as soon as the first Match
-    /// instruction is observed.
-    qcur: SparseSet,
-    qnext: SparseSet,
-}
-
-/// `CacheInner` is logically just a part of Cache, but groups together fields
-/// that aren't passed as function parameters throughout search. (This split
-/// is mostly an artifact of the borrow checker. It is happily paid.)
-#[derive(Debug)]
-struct CacheInner {
-    /// A cache of pre-compiled DFA states, keyed by the set of NFA states
-    /// and the set of empty-width flags set at the byte in the input when the
-    /// state was observed.
-    ///
-    /// A StatePtr is effectively a `*State`, but to avoid various inconvenient
-    /// things, we just pass indexes around manually. The performance impact of
-    /// this is probably an instruction or two in the inner loop. However, on
-    /// 64 bit, each StatePtr is half the size of a *State.
-    compiled: StateMap,
-    /// The transition table.
-    ///
-    /// The transition table is laid out in row-major order, where states are
-    /// rows and the transitions for each state are columns. At a high level,
-    /// given state `s` and byte `b`, the next state can be found at index
-    /// `s * 256 + b`.
-    ///
-    /// This is, of course, a lie. A StatePtr is actually a pointer to the
-    /// *start* of a row in this table. When indexing in the DFA's inner loop,
-    /// this removes the need to multiply the StatePtr by the stride. Yes, it
-    /// matters. This reduces the number of states we can store, but: the
-    /// stride is rarely 256 since we define transitions in terms of
-    /// *equivalence classes* of bytes. Each class corresponds to a set of
-    /// bytes that never discriminate a distinct path through the DFA from each
-    /// other.
-    trans: Transitions,
-    /// A set of cached start states, which are limited to the number of
-    /// permutations of flags set just before the initial byte of input. (The
-    /// index into this vec is a `EmptyFlags`.)
-    ///
-    /// N.B. A start state can be "dead" (i.e., no possible match), so we
-    /// represent it with a StatePtr.
-    start_states: Vec<StatePtr>,
-    /// Stack scratch space used to follow epsilon transitions in the NFA.
-    /// (This permits us to avoid recursion.)
-    ///
-    /// The maximum stack size is the number of NFA states.
-    stack: Vec<InstPtr>,
-    /// The total number of times this cache has been flushed by the DFA
-    /// because of space constraints.
-    flush_count: u64,
-    /// The total heap size of the DFA's cache. We use this to determine when
-    /// we should flush the cache.
-    size: usize,
-    /// Scratch space used when building instruction pointer lists for new
-    /// states. This helps amortize allocation.
-    insts_scratch_space: Vec<u8>,
-}
-
-/// The transition table.
-///
-/// It is laid out in row-major order, with states as rows and byte class
-/// transitions as columns.
-///
-/// The transition table is responsible for producing valid `StatePtrs`. A
-/// `StatePtr` points to the start of a particular row in this table. When
-/// indexing to find the next state this allows us to avoid a multiplication
-/// when computing an index into the table.
-#[derive(Clone)]
-struct Transitions {
-    /// The table.
-    table: Vec<StatePtr>,
-    /// The stride.
-    num_byte_classes: usize,
-}
-
-/// Fsm encapsulates the actual execution of the DFA.
-#[derive(Debug)]
-pub struct Fsm<'a> {
-    /// prog contains the NFA instruction opcodes. DFA execution uses either
-    /// the `dfa` instructions or the `dfa_reverse` instructions from
-    /// `exec::ExecReadOnly`. (It never uses `ExecReadOnly.nfa`, which may have
-    /// Unicode opcodes that cannot be executed by the DFA.)
-    prog: &'a Program,
-    /// The start state. We record it here because the pointer may change
-    /// when the cache is wiped.
-    start: StatePtr,
-    /// The current position in the input.
-    at: usize,
-    /// Should we quit after seeing the first match? e.g., When the caller
-    /// uses `is_match` or `shortest_match`.
-    quit_after_match: bool,
-    /// The last state that matched.
-    ///
-    /// When no match has occurred, this is set to STATE_UNKNOWN.
-    ///
-    /// This is only useful when matching regex sets. The last match state
-    /// is useful because it contains all of the match instructions seen,
-    /// thereby allowing us to enumerate which regexes in the set matched.
-    last_match_si: StatePtr,
-    /// The input position of the last cache flush. We use this to determine
-    /// if we're thrashing in the cache too often. If so, the DFA quits so
-    /// that we can fall back to the NFA algorithm.
-    last_cache_flush: usize,
-    /// All cached DFA information that is persisted between searches.
-    cache: &'a mut CacheInner,
-}
-
-/// The result of running the DFA.
-///
-/// Generally, the result is either a match or not a match, but sometimes the
-/// DFA runs too slowly because the cache size is too small. In that case, it
-/// gives up with the intent of falling back to the NFA algorithm.
-///
-/// The DFA can also give up if it runs out of room to create new states, or if
-/// it sees non-ASCII bytes in the presence of a Unicode word boundary.
-#[derive(Clone, Debug)]
-pub enum Result<T> {
-    Match(T),
-    NoMatch(usize),
-    Quit,
-}
-
-impl<T> Result<T> {
-    /// Returns true if this result corresponds to a match.
-    pub fn is_match(&self) -> bool {
-        match *self {
-            Result::Match(_) => true,
-            Result::NoMatch(_) | Result::Quit => false,
-        }
-    }
-
-    /// Maps the given function onto T and returns the result.
-    ///
-    /// If this isn't a match, then this is a no-op.
-    pub fn map<U, F: FnMut(T) -> U>(self, mut f: F) -> Result<U> {
-        match self {
-            Result::Match(t) => Result::Match(f(t)),
-            Result::NoMatch(x) => Result::NoMatch(x),
-            Result::Quit => Result::Quit,
-        }
-    }
-
-    /// Sets the non-match position.
-    ///
-    /// If this isn't a non-match, then this is a no-op.
-    fn set_non_match(self, at: usize) -> Result<T> {
-        match self {
-            Result::NoMatch(_) => Result::NoMatch(at),
-            r => r,
-        }
-    }
-}
-
-/// `State` is a DFA state. It contains an ordered set of NFA states (not
-/// necessarily complete) and a smattering of flags.
-///
-/// The flags are packed into the first byte of data.
-///
-/// States don't carry their transitions. Instead, transitions are stored in
-/// a single row-major table.
-///
-/// Delta encoding is used to store the instruction pointers.
-/// The first instruction pointer is stored directly starting
-/// at data[1], and each following pointer is stored as an offset
-/// to the previous one. If a delta is in the range -127..127,
-/// it is packed into a single byte; Otherwise the byte 128 (-128 as an i8)
-/// is coded as a flag, followed by 4 bytes encoding the delta.
-#[derive(Clone, Eq, Hash, PartialEq)]
-struct State {
-    data: Arc<[u8]>,
-}
-
-/// `InstPtr` is a 32 bit pointer into a sequence of opcodes (i.e., it indexes
-/// an NFA state).
-///
-/// Throughout this library, this is usually set to `usize`, but we force a
-/// `u32` here for the DFA to save on space.
-type InstPtr = u32;
-
-/// Adds ip to data using delta encoding with respect to prev.
-///
-/// After completion, `data` will contain `ip` and `prev` will be set to `ip`.
-fn push_inst_ptr(data: &mut Vec<u8>, prev: &mut InstPtr, ip: InstPtr) {
-    let delta = (ip as i32) - (*prev as i32);
-    write_vari32(data, delta);
-    *prev = ip;
-}
-
-struct InstPtrs<'a> {
-    base: usize,
-    data: &'a [u8],
-}
-
-impl <'a>Iterator for InstPtrs<'a> {
-    type Item = usize;
-
-    fn next(&mut self) -> Option<usize> {
-        if self.data.is_empty() {
-            return None;
-        }
-        let (delta, nread) = read_vari32(self.data);
-        let base = self.base as i32 + delta;
-        debug_assert!(base >= 0);
-        debug_assert!(nread > 0);
-        self.data = &self.data[nread..];
-        self.base = base as usize;
-        Some(self.base)
-    }
-}
-
-impl State {
-    fn flags(&self) -> StateFlags {
-        StateFlags(self.data[0])
-    }
-
-    fn inst_ptrs(&self) -> InstPtrs {
-        InstPtrs {
-            base: 0,
-            data: &self.data[1..],
-        }
-    }
-}
-
-/// `StatePtr` is a 32 bit pointer to the start of a row in the transition
-/// table.
-///
-/// It has many special values. There are two types of special values:
-/// sentinels and flags.
-///
-/// Sentinels corresponds to special states that carry some kind of
-/// significance. There are three such states: unknown, dead and quit states.
-///
-/// Unknown states are states that haven't been computed yet. They indicate
-/// that a transition should be filled in that points to either an existing
-/// cached state or a new state altogether. In general, an unknown state means
-/// "follow the NFA's epsilon transitions."
-///
-/// Dead states are states that can never lead to a match, no matter what
-/// subsequent input is observed. This means that the DFA should quit
-/// immediately and return the longest match it has found thus far.
-///
-/// Quit states are states that imply the DFA is not capable of matching the
-/// regex correctly. Currently, this is only used when a Unicode word boundary
-/// exists in the regex *and* a non-ASCII byte is observed.
-///
-/// The other type of state pointer is a state pointer with special flag bits.
-/// There are two flags: a start flag and a match flag. The lower bits of both
-/// kinds always contain a "valid" `StatePtr` (indicated by the `STATE_MAX`
-/// mask).
-///
-/// The start flag means that the state is a start state, and therefore may be
-/// subject to special prefix scanning optimizations.
-///
-/// The match flag means that the state is a match state, and therefore the
-/// current position in the input (while searching) should be recorded.
-///
-/// The above exists mostly in the service of making the inner loop fast.
-/// In particular, the inner *inner* loop looks something like this:
-///
-/// ```ignore
-/// while state <= STATE_MAX and i < len(text):
-///     state = state.next[i]
-/// ```
-///
-/// This is nice because it lets us execute a lazy DFA as if it were an
-/// entirely offline DFA (i.e., with very few instructions). The loop will
-/// quit only when we need to examine a case that needs special attention.
-type StatePtr = u32;
-
-/// An unknown state means that the state has not been computed yet, and that
-/// the only way to progress is to compute it.
-const STATE_UNKNOWN: StatePtr = 1<<31;
-
-/// A dead state means that the state has been computed and it is known that
-/// once it is entered, no future match can ever occur.
-const STATE_DEAD: StatePtr = STATE_UNKNOWN + 1;
-
-/// A quit state means that the DFA came across some input that it doesn't
-/// know how to process correctly. The DFA should quit and another matching
-/// engine should be run in its place.
-const STATE_QUIT: StatePtr = STATE_DEAD + 1;
-
-/// A start state is a state that the DFA can start in.
-///
-/// Note that start states have their lower bits set to a state pointer.
-const STATE_START: StatePtr = 1<<30;
-
-/// A match state means that the regex has successfully matched.
-///
-/// Note that match states have their lower bits set to a state pointer.
-const STATE_MATCH: StatePtr = 1<<29;
-
-/// The maximum state pointer. This is useful to mask out the "valid" state
-/// pointer from a state with the "start" or "match" bits set.
-///
-/// It doesn't make sense to use this with unknown, dead or quit state
-/// pointers, since those pointers are sentinels and never have their lower
-/// bits set to anything meaningful.
-const STATE_MAX: StatePtr = STATE_MATCH - 1;
-
-/// Byte is a u8 in spirit, but a u16 in practice so that we can represent the
-/// special EOF sentinel value.
-#[derive(Copy, Clone, Debug)]
-struct Byte(u16);
-
-/// A set of flags for zero-width assertions.
-#[derive(Clone, Copy, Eq, Debug, Default, Hash, PartialEq)]
-struct EmptyFlags {
-    start: bool,
-    end: bool,
-    start_line: bool,
-    end_line: bool,
-    word_boundary: bool,
-    not_word_boundary: bool,
-}
-
-/// A set of flags describing various configurations of a DFA state. This is
-/// represented by a `u8` so that it is compact.
-#[derive(Clone, Copy, Eq, Default, Hash, PartialEq)]
-struct StateFlags(u8);
-
-impl Cache {
-    /// Create new empty cache for the DFA engine.
-    pub fn new(prog: &Program) -> Self {
-        // We add 1 to account for the special EOF byte.
-        let num_byte_classes = (prog.byte_classes[255] as usize + 1) + 1;
-        let starts = vec![STATE_UNKNOWN; 256];
-        let mut cache = Cache {
-            inner: CacheInner {
-                compiled: StateMap::new(num_byte_classes),
-                trans: Transitions::new(num_byte_classes),
-                start_states: starts,
-                stack: vec![],
-                flush_count: 0,
-                size: 0,
-                insts_scratch_space: vec![],
-            },
-            qcur: SparseSet::new(prog.insts.len()),
-            qnext: SparseSet::new(prog.insts.len()),
-        };
-        cache.inner.reset_size();
-        cache
-    }
-}
-
-impl CacheInner {
-    /// Resets the cache size to account for fixed costs, such as the program
-    /// and stack sizes.
-    fn reset_size(&mut self) {
-        self.size =
-            (self.start_states.len() * mem::size_of::<StatePtr>())
-            + (self.stack.len() * mem::size_of::<InstPtr>());
-    }
-}
-
-impl<'a> Fsm<'a> {
-    #[inline(always)] // reduces constant overhead
-    pub fn forward(
-        prog: &'a Program,
-        cache: &ProgramCache,
-        quit_after_match: bool,
-        text: &[u8],
-        at: usize,
-    ) -> Result<usize> {
-        let mut cache = cache.borrow_mut();
-        let cache = &mut cache.dfa;
-        let mut dfa = Fsm {
-            prog: prog,
-            start: 0, // filled in below
-            at: at,
-            quit_after_match: quit_after_match,
-            last_match_si: STATE_UNKNOWN,
-            last_cache_flush: at,
-            cache: &mut cache.inner,
-        };
-        let (empty_flags, state_flags) = dfa.start_flags(text, at);
-        dfa.start = match dfa.start_state(
-            &mut cache.qcur,
-            empty_flags,
-            state_flags,
-        ) {
-            None => return Result::Quit,
-            Some(STATE_DEAD) => return Result::NoMatch(at),
-            Some(si) => si,
-        };
-        debug_assert!(dfa.start != STATE_UNKNOWN);
-        dfa.exec_at(&mut cache.qcur, &mut cache.qnext, text)
-    }
-
-    #[inline(always)] // reduces constant overhead
-    pub fn reverse(
-        prog: &'a Program,
-        cache: &ProgramCache,
-        quit_after_match: bool,
-        text: &[u8],
-        at: usize,
-    ) -> Result<usize> {
-        let mut cache = cache.borrow_mut();
-        let cache = &mut cache.dfa_reverse;
-        let mut dfa = Fsm {
-            prog: prog,
-            start: 0, // filled in below
-            at: at,
-            quit_after_match: quit_after_match,
-            last_match_si: STATE_UNKNOWN,
-            last_cache_flush: at,
-            cache: &mut cache.inner,
-        };
-        let (empty_flags, state_flags) = dfa.start_flags_reverse(text, at);
-        dfa.start = match dfa.start_state(
-            &mut cache.qcur,
-            empty_flags,
-            state_flags,
-        ) {
-            None => return Result::Quit,
-            Some(STATE_DEAD) => return Result::NoMatch(at),
-            Some(si) => si,
-        };
-        debug_assert!(dfa.start != STATE_UNKNOWN);
-        dfa.exec_at_reverse(&mut cache.qcur, &mut cache.qnext, text)
-    }
-
-    #[inline(always)] // reduces constant overhead
-    pub fn forward_many(
-        prog: &'a Program,
-        cache: &ProgramCache,
-        matches: &mut [bool],
-        text: &[u8],
-        at: usize,
-    ) -> Result<usize> {
-        debug_assert!(matches.len() == prog.matches.len());
-        let mut cache = cache.borrow_mut();
-        let cache = &mut cache.dfa;
-        let mut dfa = Fsm {
-            prog: prog,
-            start: 0, // filled in below
-            at: at,
-            quit_after_match: false,
-            last_match_si: STATE_UNKNOWN,
-            last_cache_flush: at,
-            cache: &mut cache.inner,
-        };
-        let (empty_flags, state_flags) = dfa.start_flags(text, at);
-        dfa.start = match dfa.start_state(
-            &mut cache.qcur,
-            empty_flags,
-            state_flags,
-        ) {
-            None => return Result::Quit,
-            Some(STATE_DEAD) => return Result::NoMatch(at),
-            Some(si) => si,
-        };
-        debug_assert!(dfa.start != STATE_UNKNOWN);
-        let result = dfa.exec_at(&mut cache.qcur, &mut cache.qnext, text);
-        if result.is_match() {
-            if matches.len() == 1 {
-                matches[0] = true;
-            } else {
-                debug_assert!(dfa.last_match_si != STATE_UNKNOWN);
-                debug_assert!(dfa.last_match_si != STATE_DEAD);
-                for ip in dfa.state(dfa.last_match_si).inst_ptrs() {
-                    if let Inst::Match(slot) = dfa.prog[ip] {
-                        matches[slot] = true;
-                    }
-                }
-            }
-        }
-        result
-    }
-
-    /// Executes the DFA on a forward NFA.
-    ///
-    /// {qcur,qnext} are scratch ordered sets which may be non-empty.
-    #[inline(always)] // reduces constant overhead
-    fn exec_at(
-        &mut self,
-        qcur: &mut SparseSet,
-        qnext: &mut SparseSet,
-        text: &[u8],
-    ) -> Result<usize> {
-        // For the most part, the DFA is basically:
-        //
-        //   last_match = null
-        //   while current_byte != EOF:
-        //     si = current_state.next[current_byte]
-        //     if si is match
-        //       last_match = si
-        //   return last_match
-        //
-        // However, we need to deal with a few things:
-        //
-        //   1. This is an *online* DFA, so the current state's next list
-        //      may not point to anywhere yet, so we must go out and compute
-        //      them. (They are then cached into the current state's next list
-        //      to avoid re-computation.)
-        //   2. If we come across a state that is known to be dead (i.e., never
-        //      leads to a match), then we can quit early.
-        //   3. If the caller just wants to know if a match occurs, then we
-        //      can quit as soon as we know we have a match. (Full leftmost
-        //      first semantics require continuing on.)
-        //   4. If we're in the start state, then we can use a pre-computed set
-        //      of prefix literals to skip quickly along the input.
-        //   5. After the input is exhausted, we run the DFA on one symbol
-        //      that stands for EOF. This is useful for handling empty width
-        //      assertions.
-        //   6. We can't actually do state.next[byte]. Instead, we have to do
-        //      state.next[byte_classes[byte]], which permits us to keep the
-        //      'next' list very small.
-        //
-        // Since there's a bunch of extra stuff we need to consider, we do some
-        // pretty hairy tricks to get the inner loop to run as fast as
-        // possible.
-        debug_assert!(!self.prog.is_reverse);
-
-        // The last match is the currently known ending match position. It is
-        // reported as an index to the most recent byte that resulted in a
-        // transition to a match state and is always stored in capture slot `1`
-        // when searching forwards. Its maximum value is `text.len()`.
-        let mut result = Result::NoMatch(self.at);
-        let (mut prev_si, mut next_si) = (self.start, self.start);
-        let mut at = self.at;
-        while at < text.len() {
-            // This is the real inner loop. We take advantage of special bits
-            // set in the state pointer to determine whether a state is in the
-            // "common" case or not. Specifically, the common case is a
-            // non-match non-start non-dead state that has already been
-            // computed. So long as we remain in the common case, this inner
-            // loop will chew through the input.
-            //
-            // We also unroll the loop 4 times to amortize the cost of checking
-            // whether we've consumed the entire input. We are also careful
-            // to make sure that `prev_si` always represents the previous state
-            // and `next_si` always represents the next state after the loop
-            // exits, even if it isn't always true inside the loop.
-            while next_si <= STATE_MAX && at < text.len() {
-                // Argument for safety is in the definition of next_si.
-                prev_si = unsafe { self.next_si(next_si, text, at) };
-                at += 1;
-                if prev_si > STATE_MAX || at + 2 >= text.len() {
-                    mem::swap(&mut prev_si, &mut next_si);
-                    break;
-                }
-                next_si = unsafe { self.next_si(prev_si, text, at) };
-                at += 1;
-                if next_si > STATE_MAX {
-                    break;
-                }
-                prev_si = unsafe { self.next_si(next_si, text, at) };
-                at += 1;
-                if prev_si > STATE_MAX {
-                    mem::swap(&mut prev_si, &mut next_si);
-                    break;
-                }
-                next_si = unsafe { self.next_si(prev_si, text, at) };
-                at += 1;
-            }
-            if next_si & STATE_MATCH > 0 {
-                // A match state is outside of the common case because it needs
-                // special case analysis. In particular, we need to record the
-                // last position as having matched and possibly quit the DFA if
-                // we don't need to keep matching.
-                next_si &= !STATE_MATCH;
-                result = Result::Match(at - 1);
-                if self.quit_after_match {
-                    return result;
-                }
-                self.last_match_si = next_si;
-                prev_si = next_si;
-
-                // This permits short-circuiting when matching a regex set.
-                // In particular, if this DFA state contains only match states,
-                // then it's impossible to extend the set of matches since
-                // match states are final. Therefore, we can quit.
-                if self.prog.matches.len() > 1 {
-                    let state = self.state(next_si);
-                    let just_matches = state.inst_ptrs()
-                         .all(|ip| self.prog[ip].is_match());
-                    if just_matches {
-                        return result;
-                    }
-                }
-
-                // Another inner loop! If the DFA stays in this particular
-                // match state, then we can rip through all of the input
-                // very quickly, and only recording the match location once
-                // we've left this particular state.
-                let cur = at;
-                while (next_si & !STATE_MATCH) == prev_si
-                    && at + 2 < text.len() {
-                    // Argument for safety is in the definition of next_si.
-                    next_si = unsafe {
-                        self.next_si(next_si & !STATE_MATCH, text, at)
-                    };
-                    at += 1;
-                }
-                if at > cur {
-                    result = Result::Match(at - 2);
-                }
-            } else if next_si & STATE_START > 0 {
-                // A start state isn't in the common case because we may
-                // what to do quick prefix scanning. If the program doesn't
-                // have a detected prefix, then start states are actually
-                // considered common and this case is never reached.
-                debug_assert!(self.has_prefix());
-                next_si &= !STATE_START;
-                prev_si = next_si;
-                at = match self.prefix_at(text, at) {
-                    None => return Result::NoMatch(text.len()),
-                    Some(i) => i,
-                };
-            } else if next_si >= STATE_UNKNOWN {
-                if next_si == STATE_QUIT {
-                    return Result::Quit;
-                }
-                // Finally, this corresponds to the case where the transition
-                // entered a state that can never lead to a match or a state
-                // that hasn't been computed yet. The latter being the "slow"
-                // path.
-                let byte = Byte::byte(text[at - 1]);
-                // We no longer care about the special bits in the state
-                // pointer.
-                prev_si &= STATE_MAX;
-                // Record where we are. This is used to track progress for
-                // determining whether we should quit if we've flushed the
-                // cache too much.
-                self.at = at;
-                next_si = match self.next_state(qcur, qnext, prev_si, byte) {
-                    None => return Result::Quit,
-                    Some(STATE_DEAD) => return result.set_non_match(at),
-                    Some(si) => si,
-                };
-                debug_assert!(next_si != STATE_UNKNOWN);
-                if next_si & STATE_MATCH > 0 {
-                    next_si &= !STATE_MATCH;
-                    result = Result::Match(at - 1);
-                    if self.quit_after_match {
-                        return result;
-                    }
-                    self.last_match_si = next_si;
-                }
-                prev_si = next_si;
-            } else {
-                prev_si = next_si;
-            }
-        }
-
-        // Run the DFA once more on the special EOF senitnel value.
-        // We don't care about the special bits in the state pointer any more,
-        // so get rid of them.
-        prev_si &= STATE_MAX;
-        prev_si = match self.next_state(qcur, qnext, prev_si, Byte::eof()) {
-            None => return Result::Quit,
-            Some(STATE_DEAD) => return result.set_non_match(text.len()),
-            Some(si) => si & !STATE_START,
-        };
-        debug_assert!(prev_si != STATE_UNKNOWN);
-        if prev_si & STATE_MATCH > 0 {
-            prev_si &= !STATE_MATCH;
-            self.last_match_si = prev_si;
-            result = Result::Match(text.len());
-        }
-        result
-    }
-
-    /// Executes the DFA on a reverse NFA.
-    #[inline(always)] // reduces constant overhead
-    fn exec_at_reverse(
-        &mut self,
-        qcur: &mut SparseSet,
-        qnext: &mut SparseSet,
-        text: &[u8],
-    ) -> Result<usize> {
-        // The comments in `exec_at` above mostly apply here too. The main
-        // difference is that we move backwards over the input and we look for
-        // the longest possible match instead of the leftmost-first match.
-        //
-        // N.B. The code duplication here is regrettable. Efforts to improve
-        // it without sacrificing performance are welcome. ---AG
-        debug_assert!(self.prog.is_reverse);
-        let mut result = Result::NoMatch(self.at);
-        let (mut prev_si, mut next_si) = (self.start, self.start);
-        let mut at = self.at;
-        while at > 0 {
-            while next_si <= STATE_MAX && at > 0 {
-                // Argument for safety is in the definition of next_si.
-                at -= 1;
-                prev_si = unsafe { self.next_si(next_si, text, at) };
-                if prev_si > STATE_MAX || at <= 4 {
-                    mem::swap(&mut prev_si, &mut next_si);
-                    break;
-                }
-                at -= 1;
-                next_si = unsafe { self.next_si(prev_si, text, at) };
-                if next_si > STATE_MAX {
-                    break;
-                }
-                at -= 1;
-                prev_si = unsafe { self.next_si(next_si, text, at) };
-                if prev_si > STATE_MAX {
-                    mem::swap(&mut prev_si, &mut next_si);
-                    break;
-                }
-                at -= 1;
-                next_si = unsafe { self.next_si(prev_si, text, at) };
-            }
-            if next_si & STATE_MATCH > 0 {
-                next_si &= !STATE_MATCH;
-                result = Result::Match(at + 1);
-                if self.quit_after_match {
-                    return result
-                }
-                self.last_match_si = next_si;
-                prev_si = next_si;
-                let cur = at;
-                while (next_si & !STATE_MATCH) == prev_si && at >= 2 {
-                    // Argument for safety is in the definition of next_si.
-                    at -= 1;
-                    next_si = unsafe {
-                        self.next_si(next_si & !STATE_MATCH, text, at)
-                    };
-                }
-                if at < cur {
-                    result = Result::Match(at + 2);
-                }
-            } else if next_si >= STATE_UNKNOWN {
-                if next_si == STATE_QUIT {
-                    return Result::Quit;
-                }
-                let byte = Byte::byte(text[at]);
-                prev_si &= STATE_MAX;
-                self.at = at;
-                next_si = match self.next_state(qcur, qnext, prev_si, byte) {
-                    None => return Result::Quit,
-                    Some(STATE_DEAD) => return result.set_non_match(at),
-                    Some(si) => si,
-                };
-                debug_assert!(next_si != STATE_UNKNOWN);
-                if next_si & STATE_MATCH > 0 {
-                    next_si &= !STATE_MATCH;
-                    result = Result::Match(at + 1);
-                    if self.quit_after_match {
-                        return result;
-                    }
-                    self.last_match_si = next_si;
-                }
-                prev_si = next_si;
-            } else {
-                prev_si = next_si;
-            }
-        }
-
-        // Run the DFA once more on the special EOF senitnel value.
-        prev_si = match self.next_state(qcur, qnext, prev_si, Byte::eof()) {
-            None => return Result::Quit,
-            Some(STATE_DEAD) => return result.set_non_match(0),
-            Some(si) => si,
-        };
-        debug_assert!(prev_si != STATE_UNKNOWN);
-        if prev_si & STATE_MATCH > 0 {
-            prev_si &= !STATE_MATCH;
-            self.last_match_si = prev_si;
-            result = Result::Match(0);
-        }
-        result
-    }
-
-    /// next_si transitions to the next state, where the transition input
-    /// corresponds to text[i].
-    ///
-    /// This elides bounds checks, and is therefore unsafe.
-    #[inline(always)]
-    unsafe fn next_si(&self, si: StatePtr, text: &[u8], i: usize) -> StatePtr {
-        // What is the argument for safety here?
-        // We have three unchecked accesses that could possibly violate safety:
-        //
-        //   1. The given byte of input (`text[i]`).
-        //   2. The class of the byte of input (`classes[text[i]]`).
-        //   3. The transition for the class (`trans[si + cls]`).
-        //
-        // (1) is only safe when calling next_si is guarded by
-        // `i < text.len()`.
-        //
-        // (2) is the easiest case to guarantee since `text[i]` is always a
-        // `u8` and `self.prog.byte_classes` always has length `u8::MAX`.
-        // (See `ByteClassSet.byte_classes` in `compile.rs`.)
-        //
-        // (3) is only safe if (1)+(2) are safe. Namely, the transitions
-        // of every state are defined to have length equal to the number of
-        // byte classes in the program. Therefore, a valid class leads to a
-        // valid transition. (All possible transitions are valid lookups, even
-        // if it points to a state that hasn't been computed yet.) (3) also
-        // relies on `si` being correct, but StatePtrs should only ever be
-        // retrieved from the transition table, which ensures they are correct.
-        debug_assert!(i < text.len());
-        let b = *text.get_unchecked(i);
-        debug_assert!((b as usize) < self.prog.byte_classes.len());
-        let cls = *self.prog.byte_classes.get_unchecked(b as usize);
-        self.cache.trans.next_unchecked(si, cls as usize)
-    }
-
-    /// Computes the next state given the current state and the current input
-    /// byte (which may be EOF).
-    ///
-    /// If STATE_DEAD is returned, then there is no valid state transition.
-    /// This implies that no permutation of future input can lead to a match
-    /// state.
-    ///
-    /// STATE_UNKNOWN can never be returned.
-    fn exec_byte(
-        &mut self,
-        qcur: &mut SparseSet,
-        qnext: &mut SparseSet,
-        mut si: StatePtr,
-        b: Byte,
-    ) -> Option<StatePtr> {
-        use prog::Inst::*;
-
-        // Initialize a queue with the current DFA state's NFA states.
-        qcur.clear();
-        for ip in self.state(si).inst_ptrs() {
-            qcur.insert(ip);
-        }
-
-        // Before inspecting the current byte, we may need to also inspect
-        // whether the position immediately preceding the current byte
-        // satisfies the empty assertions found in the current state.
-        //
-        // We only need to do this step if there are any empty assertions in
-        // the current state.
-        let is_word_last = self.state(si).flags().is_word();
-        let is_word = b.is_ascii_word();
-        if self.state(si).flags().has_empty() {
-            // Compute the flags immediately preceding the current byte.
-            // This means we only care about the "end" or "end line" flags.
-            // (The "start" flags are computed immediately proceding the
-            // current byte and is handled below.)
-            let mut flags = EmptyFlags::default();
-            if b.is_eof() {
-                flags.end = true;
-                flags.end_line = true;
-            } else if b.as_byte().map_or(false, |b| b == b'\n') {
-                flags.end_line = true;
-            }
-            if is_word_last == is_word {
-                flags.not_word_boundary = true;
-            } else {
-                flags.word_boundary = true;
-            }
-            // Now follow epsilon transitions from every NFA state, but make
-            // sure we only follow transitions that satisfy our flags.
-            qnext.clear();
-            for &ip in &*qcur {
-                self.follow_epsilons(usize_to_u32(ip), qnext, flags);
-            }
-            mem::swap(qcur, qnext);
-        }
-
-        // Now we set flags for immediately after the current byte. Since start
-        // states are processed separately, and are the only states that can
-        // have the StartText flag set, we therefore only need to worry about
-        // the StartLine flag here.
-        //
-        // We do also keep track of whether this DFA state contains a NFA state
-        // that is a matching state. This is precisely how we delay the DFA
-        // matching by one byte in order to process the special EOF sentinel
-        // byte. Namely, if this DFA state containing a matching NFA state,
-        // then it is the *next* DFA state that is marked as a match.
-        let mut empty_flags = EmptyFlags::default();
-        let mut state_flags = StateFlags::default();
-        empty_flags.start_line = b.as_byte().map_or(false, |b| b == b'\n');
-        if b.is_ascii_word() {
-            state_flags.set_word();
-        }
-        // Now follow all epsilon transitions again, but only after consuming
-        // the current byte.
-        qnext.clear();
-        for &ip in &*qcur {
-            match self.prog[ip as usize] {
-                // These states never happen in a byte-based program.
-                Char(_) | Ranges(_) => unreachable!(),
-                // These states are handled when following epsilon transitions.
-                Save(_) | Split(_) | EmptyLook(_) => {}
-                Match(_) => {
-                    state_flags.set_match();
-                    if !self.continue_past_first_match() {
-                        break;
-                    } else if self.prog.matches.len() > 1
-                            && !qnext.contains(ip as usize) {
-                        // If we are continuing on to find other matches,
-                        // then keep a record of the match states we've seen.
-                        qnext.insert(ip);
-                    }
-                }
-                Bytes(ref inst) => {
-                    if b.as_byte().map_or(false, |b| inst.matches(b)) {
-                        self.follow_epsilons(
-                            inst.goto as InstPtr, qnext, empty_flags);
-                    }
-                }
-            }
-        }
-
-        let cache =
-            if b.is_eof() && self.prog.matches.len() > 1 {
-                // If we're processing the last byte of the input and we're
-                // matching a regex set, then make the next state contain the
-                // previous states transitions. We do this so that the main
-                // matching loop can extract all of the match instructions.
-                mem::swap(qcur, qnext);
-                // And don't cache this state because it's totally bunk.
-                false
-            } else {
-                true
-            };
-
-        // We've now built up the set of NFA states that ought to comprise the
-        // next DFA state, so try to find it in the cache, and if it doesn't
-        // exist, cache it.
-        //
-        // N.B. We pass `&mut si` here because the cache may clear itself if
-        // it has gotten too full. When that happens, the location of the
-        // current state may change.
-        let mut next = match self.cached_state(
-            qnext,
-            state_flags,
-            Some(&mut si),
-        ) {
-            None => return None,
-            Some(next) => next,
-        };
-        if (self.start & !STATE_START) == next {
-            // Start states can never be match states since all matches are
-            // delayed by one byte.
-            debug_assert!(!self.state(next).flags().is_match());
-            next = self.start_ptr(next);
-        }
-        if next <= STATE_MAX && self.state(next).flags().is_match() {
-            next |= STATE_MATCH;
-        }
-        debug_assert!(next != STATE_UNKNOWN);
-        // And now store our state in the current state's next list.
-        if cache {
-            let cls = self.byte_class(b);
-            self.cache.trans.set_next(si, cls, next);
-        }
-        Some(next)
-    }
-
-    /// Follows the epsilon transitions starting at (and including) `ip`. The
-    /// resulting states are inserted into the ordered set `q`.
-    ///
-    /// Conditional epsilon transitions (i.e., empty width assertions) are only
-    /// followed if they are satisfied by the given flags, which should
-    /// represent the flags set at the current location in the input.
-    ///
-    /// If the current location corresponds to the empty string, then only the
-    /// end line and/or end text flags may be set. If the current location
-    /// corresponds to a real byte in the input, then only the start line
-    /// and/or start text flags may be set.
-    ///
-    /// As an exception to the above, when finding the initial state, any of
-    /// the above flags may be set:
-    ///
-    /// If matching starts at the beginning of the input, then start text and
-    /// start line should be set. If the input is empty, then end text and end
-    /// line should also be set.
-    ///
-    /// If matching starts after the beginning of the input, then only start
-    /// line should be set if the preceding byte is `\n`. End line should never
-    /// be set in this case. (Even if the proceding byte is a `\n`, it will
-    /// be handled in a subsequent DFA state.)
-    fn follow_epsilons(
-        &mut self,
-        ip: InstPtr,
-        q: &mut SparseSet,
-        flags: EmptyFlags,
-    ) {
-        use prog::Inst::*;
-        use prog::EmptyLook::*;
-
-        // We need to traverse the NFA to follow epsilon transitions, so avoid
-        // recursion with an explicit stack.
-        self.cache.stack.push(ip);
-        while let Some(mut ip) = self.cache.stack.pop() {
-            // Try to munch through as many states as possible without
-            // pushes/pops to the stack.
-            loop {
-                // Don't visit states we've already added.
-                if q.contains(ip as usize) {
-                    break;
-                }
-                q.insert(ip as usize);
-                match self.prog[ip as usize] {
-                    Char(_) | Ranges(_) => unreachable!(),
-                    Match(_) | Bytes(_) => {
-                        break;
-                    }
-                    EmptyLook(ref inst) => {
-                        // Only follow empty assertion states if our flags
-                        // satisfy the assertion.
-                        match inst.look {
-                            StartLine if flags.start_line => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            EndLine if flags.end_line => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            StartText if flags.start => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            EndText if flags.end => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            WordBoundaryAscii if flags.word_boundary => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            NotWordBoundaryAscii if flags.not_word_boundary => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            WordBoundary if flags.word_boundary => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            NotWordBoundary if flags.not_word_boundary => {
-                                ip = inst.goto as InstPtr;
-                            }
-                            StartLine | EndLine | StartText | EndText
-                            | WordBoundaryAscii | NotWordBoundaryAscii
-                            | WordBoundary | NotWordBoundary => {
-                                break;
-                            }
-                        }
-                    }
-                    Save(ref inst) => {
-                        ip = inst.goto as InstPtr;
-                    }
-                    Split(ref inst) => {
-                        self.cache.stack.push(inst.goto2 as InstPtr);
-                        ip = inst.goto1 as InstPtr;
-                    }
-                }
-            }
-        }
-    }
-
-    /// Find a previously computed state matching the given set of instructions
-    /// and is_match bool.
-    ///
-    /// The given set of instructions should represent a single state in the
-    /// NFA along with all states reachable without consuming any input.
-    ///
-    /// The is_match bool should be true if and only if the preceding DFA state
-    /// contains an NFA matching state. The cached state produced here will
-    /// then signify a match. (This enables us to delay a match by one byte,
-    /// in order to account for the EOF sentinel byte.)
-    ///
-    /// If the cache is full, then it is wiped before caching a new state.
-    ///
-    /// The current state should be specified if it exists, since it will need
-    /// to be preserved if the cache clears itself. (Start states are
-    /// always saved, so they should not be passed here.) It takes a mutable
-    /// pointer to the index because if the cache is cleared, the state's
-    /// location may change.
-    fn cached_state(
-        &mut self,
-        q: &SparseSet,
-        mut state_flags: StateFlags,
-        current_state: Option<&mut StatePtr>,
-    ) -> Option<StatePtr> {
-        // If we couldn't come up with a non-empty key to represent this state,
-        // then it is dead and can never lead to a match.
-        //
-        // Note that inst_flags represent the set of empty width assertions
-        // in q. We use this as an optimization in exec_byte to determine when
-        // we should follow epsilon transitions at the empty string preceding
-        // the current byte.
-        let key = match self.cached_state_key(q, &mut state_flags) {
-            None => return Some(STATE_DEAD),
-            Some(v) => v,
-        };
-        // In the cache? Cool. Done.
-        if let Some(si) = self
-            .cache
-            .compiled
-            .get_ptr(&key)
-        {
-            return Some(si);
-        }
-        // If the cache has gotten too big, wipe it.
-        if self.approximate_size() > self.prog.dfa_size_limit
-            && !self.clear_cache_and_save(current_state)
-            {
-                // Ooops. DFA is giving up.
-                return None;
-            }
-        // Allocate room for our state and add it.
-        self.add_state(key)
-    }
-
-    /// Produces a key suitable for describing a state in the DFA cache.
-    ///
-    /// The key invariant here is that equivalent keys are produced for any two
-    /// sets of ordered NFA states (and toggling of whether the previous NFA
-    /// states contain a match state) that do not discriminate a match for any
-    /// input.
-    ///
-    /// Specifically, q should be an ordered set of NFA states and is_match
-    /// should be true if and only if the previous NFA states contained a match
-    /// state.
-    fn cached_state_key(
-        &mut self,
-        q: &SparseSet,
-        state_flags: &mut StateFlags,
-    ) -> Option<State> {
-        use prog::Inst::*;
-
-        // We need to build up enough information to recognize pre-built states
-        // in the DFA. Generally speaking, this includes every instruction
-        // except for those which are purely epsilon transitions, e.g., the
-        // Save and Split instructions.
-        //
-        // Empty width assertions are also epsilon transitions, but since they
-        // are conditional, we need to make them part of a state's key in the
-        // cache.
-
-        let mut insts = mem::replace(
-            &mut self.cache.insts_scratch_space,
-            vec![],
-        );
-        insts.clear();
-        // Reserve 1 byte for flags.
-        insts.push(0);
-
-        let mut prev = 0;
-        for &ip in q {
-            let ip = usize_to_u32(ip);
-            match self.prog[ip as usize] {
-                Char(_) | Ranges(_) => unreachable!(),
-                Save(_) | Split(_) => {}
-                Bytes(_) => push_inst_ptr(&mut insts, &mut prev, ip),
-                EmptyLook(_) => {
-                    state_flags.set_empty();
-                    push_inst_ptr(&mut insts, &mut prev, ip)
-                }
-                Match(_) => {
-                    push_inst_ptr(&mut insts, &mut prev, ip);
-                    if !self.continue_past_first_match() {
-                        break;
-                    }
-                }
-            }
-        }
-        // If we couldn't transition to any other instructions and we didn't
-        // see a match when expanding NFA states previously, then this is a
-        // dead state and no amount of additional input can transition out
-        // of this state.
-        let opt_state =
-            if insts.len() == 1 && !state_flags.is_match() {
-                None
-            } else {
-                let StateFlags(f) = *state_flags;
-                insts[0] = f;
-                Some(State { data: Arc::from(&*insts) })
-            };
-        self.cache.insts_scratch_space = insts;
-        opt_state
-    }
-
-    /// Clears the cache, but saves and restores current_state if it is not
-    /// none.
-    ///
-    /// The current state must be provided here in case its location in the
-    /// cache changes.
-    ///
-    /// This returns false if the cache is not cleared and the DFA should
-    /// give up.
-    fn clear_cache_and_save(
-        &mut self,
-        current_state: Option<&mut StatePtr>,
-    ) -> bool {
-        if self.cache.compiled.is_empty() {
-            // Nothing to clear...
-            return true;
-        }
-        match current_state {
-            None => self.clear_cache(),
-            Some(si) => {
-                let cur = self.state(*si).clone();
-                if !self.clear_cache() {
-                    return false;
-                }
-                // The unwrap is OK because we just cleared the cache and
-                // therefore know that the next state pointer won't exceed
-                // STATE_MAX.
-                *si = self.restore_state(cur).unwrap();
-                true
-            }
-        }
-    }
-
-    /// Wipes the state cache, but saves and restores the current start state.
-    ///
-    /// This returns false if the cache is not cleared and the DFA should
-    /// give up.
-    fn clear_cache(&mut self) -> bool {
-        // Bail out of the DFA if we're moving too "slowly."
-        // A heuristic from RE2: assume the DFA is too slow if it is processing
-        // 10 or fewer bytes per state.
-        // Additionally, we permit the cache to be flushed a few times before
-        // caling it quits.
-        let nstates = self.cache.compiled.len();
-        if self.cache.flush_count >= 3
-            && self.at >= self.last_cache_flush
-            && (self.at - self.last_cache_flush) <= 10 * nstates {
-            return false;
-        }
-        // Update statistics tracking cache flushes.
-        self.last_cache_flush = self.at;
-        self.cache.flush_count += 1;
-
-        // OK, actually flush the cache.
-        let start = self.state(self.start & !STATE_START).clone();
-        let last_match = if self.last_match_si <= STATE_MAX {
-            Some(self.state(self.last_match_si).clone())
-        } else {
-            None
-        };
-        self.cache.reset_size();
-        self.cache.trans.clear();
-        self.cache.compiled.clear();
-        for s in &mut self.cache.start_states {
-            *s = STATE_UNKNOWN;
-        }
-        // The unwraps are OK because we just cleared the cache and therefore
-        // know that the next state pointer won't exceed STATE_MAX.
-        let start_ptr = self.restore_state(start).unwrap();
-        self.start = self.start_ptr(start_ptr);
-        if let Some(last_match) = last_match {
-            self.last_match_si = self.restore_state(last_match).unwrap();
-        }
-        true
-    }
-
-    /// Restores the given state back into the cache, and returns a pointer
-    /// to it.
-    fn restore_state(&mut self, state: State) -> Option<StatePtr> {
-        // If we've already stored this state, just return a pointer to it.
-        // None will be the wiser.
-        if let Some(si) = self.cache.compiled.get_ptr(&state) {
-            return Some(si);
-        }
-        self.add_state(state)
-    }
-
-    /// Returns the next state given the current state si and current byte
-    /// b. {qcur,qnext} are used as scratch space for storing ordered NFA
-    /// states.
-    ///
-    /// This tries to fetch the next state from the cache, but if that fails,
-    /// it computes the next state, caches it and returns a pointer to it.
-    ///
-    /// The pointer can be to a real state, or it can be STATE_DEAD.
-    /// STATE_UNKNOWN cannot be returned.
-    ///
-    /// None is returned if a new state could not be allocated (i.e., the DFA
-    /// ran out of space and thinks it's running too slowly).
-    fn next_state(
-        &mut self,
-        qcur: &mut SparseSet,
-        qnext: &mut SparseSet,
-        si: StatePtr,
-        b: Byte,
-    ) -> Option<StatePtr> {
-        if si == STATE_DEAD {
-            return Some(STATE_DEAD);
-        }
-        match self.cache.trans.next(si, self.byte_class(b)) {
-            STATE_UNKNOWN => self.exec_byte(qcur, qnext, si, b),
-            STATE_QUIT => None,
-            STATE_DEAD => Some(STATE_DEAD),
-            nsi => Some(nsi),
-        }
-    }
-
-    /// Computes and returns the start state, where searching begins at
-    /// position `at` in `text`. If the state has already been computed,
-    /// then it is pulled from the cache. If the state hasn't been cached,
-    /// then it is computed, cached and a pointer to it is returned.
-    ///
-    /// This may return STATE_DEAD but never STATE_UNKNOWN.
-    #[inline(always)] // reduces constant overhead
-    fn start_state(
-        &mut self,
-        q: &mut SparseSet,
-        empty_flags: EmptyFlags,
-        state_flags: StateFlags,
-    ) -> Option<StatePtr> {
-        // Compute an index into our cache of start states based on the set
-        // of empty/state flags set at the current position in the input. We
-        // don't use every flag since not all flags matter. For example, since
-        // matches are delayed by one byte, start states can never be match
-        // states.
-        let flagi = {
-            (((empty_flags.start as u8) << 0) |
-             ((empty_flags.end as u8) << 1) |
-             ((empty_flags.start_line as u8) << 2) |
-             ((empty_flags.end_line as u8) << 3) |
-             ((empty_flags.word_boundary as u8) << 4) |
-             ((empty_flags.not_word_boundary as u8) << 5) |
-             ((state_flags.is_word() as u8) << 6))
-            as usize
-        };
-        match self.cache.start_states[flagi] {
-            STATE_UNKNOWN => {}
-            STATE_DEAD => return Some(STATE_DEAD),
-            si => return Some(si),
-        }
-        q.clear();
-        let start = usize_to_u32(self.prog.start);
-        self.follow_epsilons(start, q, empty_flags);
-        // Start states can never be match states because we delay every match
-        // by one byte. Given an empty string and an empty match, the match
-        // won't actually occur until the DFA processes the special EOF
-        // sentinel byte.
-        let sp = match self.cached_state(q, state_flags, None) {
-            None => return None,
-            Some(sp) => self.start_ptr(sp),
-        };
-        self.cache.start_states[flagi] = sp;
-        Some(sp)
-    }
-
-    /// Computes the set of starting flags for the given position in text.
-    ///
-    /// This should only be used when executing the DFA forwards over the
-    /// input.
-    fn start_flags(&self, text: &[u8], at: usize) -> (EmptyFlags, StateFlags) {
-        let mut empty_flags = EmptyFlags::default();
-        let mut state_flags = StateFlags::default();
-        empty_flags.start = at == 0;
-        empty_flags.end = text.is_empty();
-        empty_flags.start_line = at == 0 || text[at - 1] == b'\n';
-        empty_flags.end_line = text.is_empty();
-
-        let is_word_last = at > 0 && Byte::byte(text[at - 1]).is_ascii_word();
-        let is_word = at < text.len() && Byte::byte(text[at]).is_ascii_word();
-        if is_word_last {
-            state_flags.set_word();
-        }
-        if is_word == is_word_last {
-            empty_flags.not_word_boundary = true;
-        } else {
-            empty_flags.word_boundary = true;
-        }
-        (empty_flags, state_flags)
-    }
-
-    /// Computes the set of starting flags for the given position in text.
-    ///
-    /// This should only be used when executing the DFA in reverse over the
-    /// input.
-    fn start_flags_reverse(
-        &self,
-        text: &[u8],
-        at: usize,
-    ) -> (EmptyFlags, StateFlags) {
-        let mut empty_flags = EmptyFlags::default();
-        let mut state_flags = StateFlags::default();
-        empty_flags.start = at == text.len();
-        empty_flags.end = text.is_empty();
-        empty_flags.start_line = at == text.len() || text[at] == b'\n';
-        empty_flags.end_line = text.is_empty();
-
-        let is_word_last =
-            at < text.len() && Byte::byte(text[at]).is_ascii_word();
-        let is_word = at > 0 && Byte::byte(text[at - 1]).is_ascii_word();
-        if is_word_last {
-            state_flags.set_word();
-        }
-        if is_word == is_word_last {
-            empty_flags.not_word_boundary = true;
-        } else {
-            empty_flags.word_boundary = true;
-        }
-        (empty_flags, state_flags)
-    }
-
-    /// Returns a reference to a State given a pointer to it.
-    fn state(&self, si: StatePtr) -> &State {
-        self.cache.compiled.get_state(si).unwrap()
-    }
-
-    /// Adds the given state to the DFA.
-    ///
-    /// This allocates room for transitions out of this state in
-    /// self.cache.trans. The transitions can be set with the returned
-    /// StatePtr.
-    ///
-    /// If None is returned, then the state limit was reached and the DFA
-    /// should quit.
-    fn add_state(&mut self, state: State) -> Option<StatePtr> {
-        // This will fail if the next state pointer exceeds STATE_PTR. In
-        // practice, the cache limit will prevent us from ever getting here,
-        // but maybe callers will set the cache size to something ridiculous...
-        let si = match self.cache.trans.add() {
-            None => return None,
-            Some(si) => si,
-        };
-        // If the program has a Unicode word boundary, then set any transitions
-        // for non-ASCII bytes to STATE_QUIT. If the DFA stumbles over such a
-        // transition, then it will quit and an alternative matching engine
-        // will take over.
-        if self.prog.has_unicode_word_boundary {
-            for b in 128..256 {
-                let cls = self.byte_class(Byte::byte(b as u8));
-                self.cache.trans.set_next(si, cls, STATE_QUIT);
-            }
-        }
-        // Finally, put our actual state on to our heap of states and index it
-        // so we can find it later.
-        self.cache.size +=
-            self.cache.trans.state_heap_size()
-            + state.data.len()
-            + (2 * mem::size_of::<State>())
-            + mem::size_of::<StatePtr>();
-        self.cache.compiled.insert(state, si);
-        // Transition table and set of states and map should all be in sync.
-        debug_assert!(self.cache.compiled.len()
-                      == self.cache.trans.num_states());
-        Some(si)
-    }
-
-    /// Quickly finds the next occurrence of any literal prefixes in the regex.
-    /// If there are no literal prefixes, then the current position is
-    /// returned. If there are literal prefixes and one could not be found,
-    /// then None is returned.
-    ///
-    /// This should only be called when the DFA is in a start state.
-    fn prefix_at(&self, text: &[u8], at: usize) -> Option<usize> {
-        self.prog.prefixes.find(&text[at..]).map(|(s, _)| at + s)
-    }
-
-    /// Returns the number of byte classes required to discriminate transitions
-    /// in each state.
-    ///
-    /// invariant: num_byte_classes() == len(State.next)
-    fn num_byte_classes(&self) -> usize {
-        // We add 1 to account for the special EOF byte.
-        (self.prog.byte_classes[255] as usize + 1) + 1
-    }
-
-    /// Given an input byte or the special EOF sentinel, return its
-    /// corresponding byte class.
-    #[inline(always)]
-    fn byte_class(&self, b: Byte) -> usize {
-        match b.as_byte() {
-            None => self.num_byte_classes() - 1,
-            Some(b) => self.u8_class(b),
-        }
-    }
-
-    /// Like byte_class, but explicitly for u8s.
-    #[inline(always)]
-    fn u8_class(&self, b: u8) -> usize {
-        self.prog.byte_classes[b as usize] as usize
-    }
-
-    /// Returns true if the DFA should continue searching past the first match.
-    ///
-    /// Leftmost first semantics in the DFA are preserved by not following NFA
-    /// transitions after the first match is seen.
-    ///
-    /// On occasion, we want to avoid leftmost first semantics to find either
-    /// the longest match (for reverse search) or all possible matches (for
-    /// regex sets).
-    fn continue_past_first_match(&self) -> bool {
-        self.prog.is_reverse || self.prog.matches.len() > 1
-    }
-
-    /// Returns true if there is a prefix we can quickly search for.
-    fn has_prefix(&self) -> bool {
-        !self.prog.is_reverse
-        && !self.prog.prefixes.is_empty()
-        && !self.prog.is_anchored_start
-    }
-
-    /// Sets the STATE_START bit in the given state pointer if and only if
-    /// we have a prefix to scan for.
-    ///
-    /// If there's no prefix, then it's a waste to treat the start state
-    /// specially.
-    fn start_ptr(&self, si: StatePtr) -> StatePtr {
-        if self.has_prefix() {
-            si | STATE_START
-        } else {
-            si
-        }
-    }
-
-    /// Approximate size returns the approximate heap space currently used by
-    /// the DFA. It is used to determine whether the DFA's state cache needs to
-    /// be wiped. Namely, it is possible that for certain regexes on certain
-    /// inputs, a new state could be created for every byte of input. (This is
-    /// bad for memory use, so we bound it with a cache.)
-    fn approximate_size(&self) -> usize {
-        self.cache.size + self.prog.approximate_size()
-    }
-}
-
-/// An abstraction for representing a map of states. The map supports two
-/// different ways of state lookup. One is fast constant time access via a
-/// state pointer. The other is a hashmap lookup based on the DFA's
-/// constituent NFA states.
-///
-/// A DFA state internally uses an Arc such that we only need to store the
-/// set of NFA states on the heap once, even though we support looking up
-/// states by two different means. A more natural way to express this might
-/// use raw pointers, but an Arc is safe and effectively achieves the same
-/// thing.
-#[derive(Debug)]
-struct StateMap {
-    /// The keys are not actually static but rely on always pointing to a
-    /// buffer in `states` which will never be moved except when clearing
-    /// the map or on drop, in which case the keys of this map will be
-    /// removed before
-    map: HashMap<State, StatePtr>,
-    /// Our set of states. Note that `StatePtr / num_byte_classes` indexes
-    /// this Vec rather than just a `StatePtr`.
-    states: Vec<State>,
-    /// The number of byte classes in the DFA. Used to index `states`.
-    num_byte_classes: usize,
-}
-
-impl StateMap {
-    fn new(num_byte_classes: usize) -> StateMap {
-        StateMap {
-            map: HashMap::new(),
-            states: vec![],
-            num_byte_classes: num_byte_classes,
-        }
-    }
-
-    fn len(&self) -> usize {
-        self.states.len()
-    }
-
-    fn is_empty(&self) -> bool {
-        self.states.is_empty()
-    }
-
-    fn get_ptr(&self, state: &State) -> Option<StatePtr> {
-        self.map.get(state).cloned()
-    }
-
-    fn get_state(&self, si: StatePtr) -> Option<&State> {
-        self.states.get(si as usize / self.num_byte_classes)
-    }
-
-    fn insert(&mut self, state: State, si: StatePtr) {
-        self.map.insert(state.clone(), si);
-        self.states.push(state);
-    }
-
-    fn clear(&mut self) {
-        self.map.clear();
-        self.states.clear();
-    }
-}
-
-impl Transitions {
-    /// Create a new transition table.
-    ///
-    /// The number of byte classes corresponds to the stride. Every state will
-    /// have `num_byte_classes` slots for transitions.
-    fn new(num_byte_classes: usize) -> Transitions {
-        Transitions {
-            table: vec![],
-            num_byte_classes: num_byte_classes,
-        }
-    }
-
-    /// Returns the total number of states currently in this table.
-    fn num_states(&self) -> usize {
-        self.table.len() / self.num_byte_classes
-    }
-
-    /// Allocates room for one additional state and returns a pointer to it.
-    ///
-    /// If there's no more room, None is returned.
-    fn add(&mut self) -> Option<StatePtr> {
-        let si = self.table.len();
-        if si > STATE_MAX as usize {
-            return None;
-        }
-        self.table.extend(repeat(STATE_UNKNOWN).take(self.num_byte_classes));
-        Some(usize_to_u32(si))
-    }
-
-    /// Clears the table of all states.
-    fn clear(&mut self) {
-        self.table.clear();
-    }
-
-    /// Sets the transition from (si, cls) to next.
-    fn set_next(&mut self, si: StatePtr, cls: usize, next: StatePtr) {
-        self.table[si as usize + cls] = next;
-    }
-
-    /// Returns the transition corresponding to (si, cls).
-    fn next(&self, si: StatePtr, cls: usize) -> StatePtr {
-        self.table[si as usize + cls]
-    }
-
-    /// The heap size, in bytes, of a single state in the transition table.
-    fn state_heap_size(&self) -> usize {
-        self.num_byte_classes * mem::size_of::<StatePtr>()
-    }
-
-    /// Like `next`, but uses unchecked access and is therefore unsafe.
-    unsafe fn next_unchecked(&self, si: StatePtr, cls: usize) -> StatePtr {
-        debug_assert!((si as usize) < self.table.len());
-        debug_assert!(cls < self.num_byte_classes);
-        *self.table.get_unchecked(si as usize + cls)
-    }
-}
-
-impl StateFlags {
-    fn is_match(&self) -> bool {
-        self.0 & 0b0000000_1 > 0
-    }
-
-    fn set_match(&mut self) {
-        self.0 |= 0b0000000_1;
-    }
-
-    fn is_word(&self) -> bool {
-        self.0 & 0b000000_1_0 > 0
-    }
-
-    fn set_word(&mut self) {
-        self.0 |= 0b000000_1_0;
-    }
-
-    fn has_empty(&self) -> bool {
-        self.0 & 0b00000_1_00 > 0
-    }
-
-    fn set_empty(&mut self) {
-        self.0 |= 0b00000_1_00;
-    }
-}
-
-impl Byte {
-    fn byte(b: u8) -> Self { Byte(b as u16) }
-    fn eof() -> Self { Byte(256) }
-    fn is_eof(&self) -> bool { self.0 == 256 }
-
-    fn is_ascii_word(&self) -> bool {
-        let b = match self.as_byte() {
-            None => return false,
-            Some(b) => b,
-        };
-        match b {
-            b'A'..=b'Z' | b'a'..=b'z' | b'0'..=b'9' | b'_' => true,
-            _ => false,
-        }
-    }
-
-    fn as_byte(&self) -> Option<u8> {
-        if self.is_eof() {
-            None
-        } else {
-            Some(self.0 as u8)
-        }
-    }
-}
-
-impl fmt::Debug for State {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let ips: Vec<usize> = self.inst_ptrs().collect();
-        f.debug_struct("State")
-         .field("flags", &self.flags())
-         .field("insts", &ips)
-         .finish()
-    }
-}
-
-impl fmt::Debug for Transitions {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let mut fmtd = f.debug_map();
-        for si in 0..self.num_states() {
-            let s = si * self.num_byte_classes;
-            let e = s + self.num_byte_classes;
-            fmtd.entry(&si.to_string(), &TransitionsRow(&self.table[s..e]));
-        }
-        fmtd.finish()
-    }
-}
-
-struct TransitionsRow<'a>(&'a [StatePtr]);
-
-impl<'a> fmt::Debug for TransitionsRow<'a> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let mut fmtd = f.debug_map();
-        for (b, si) in self.0.iter().enumerate() {
-            match *si {
-                STATE_UNKNOWN => {}
-                STATE_DEAD => {
-                    fmtd.entry(&vb(b as usize), &"DEAD");
-                }
-                si => {
-                    fmtd.entry(&vb(b as usize), &si.to_string());
-                }
-            }
-        }
-        fmtd.finish()
-    }
-}
-
-impl fmt::Debug for StateFlags {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_struct("StateFlags")
-         .field("is_match", &self.is_match())
-         .field("is_word", &self.is_word())
-         .field("has_empty", &self.has_empty())
-         .finish()
-    }
-}
-
-/// Helper function for formatting a byte as a nice-to-read escaped string.
-fn vb(b: usize) -> String {
-    use std::ascii::escape_default;
-
-    if b > ::std::u8::MAX as usize {
-        "EOF".to_owned()
-    } else {
-        let escaped = escape_default(b as u8).collect::<Vec<u8>>();
-        String::from_utf8_lossy(&escaped).into_owned()
-    }
-}
-
-fn usize_to_u32(n: usize) -> u32 {
-    if (n as u64) > (::std::u32::MAX as u64) {
-        panic!("BUG: {} is too big to fit into u32", n)
-    }
-    n as u32
-}
-
-#[allow(dead_code)] // useful for debugging
-fn show_state_ptr(si: StatePtr) -> String {
-    let mut s = format!("{:?}", si & STATE_MAX);
-    if si == STATE_UNKNOWN {
-        s = format!("{} (unknown)", s);
-    }
-    if si == STATE_DEAD {
-        s = format!("{} (dead)", s);
-    }
-    if si == STATE_QUIT {
-        s = format!("{} (quit)", s);
-    }
-    if si & STATE_START > 0 {
-        s = format!("{} (start)", s);
-    }
-    if si & STATE_MATCH > 0 {
-        s = format!("{} (match)", s);
-    }
-    s
-}
-
-/// https://developers.google.com/protocol-buffers/docs/encoding#varints
-fn write_vari32(data: &mut Vec<u8>, n: i32) {
-    let mut un = (n as u32) << 1;
-    if n < 0 {
-        un = !un;
-    }
-    write_varu32(data, un)
-}
-
-/// https://developers.google.com/protocol-buffers/docs/encoding#varints
-fn read_vari32(data: &[u8]) -> (i32, usize) {
-    let (un, i) = read_varu32(data);
-    let mut n = (un >> 1) as i32;
-    if un & 1 != 0 {
-        n = !n;
-    }
-    (n, i)
-}
-
-/// https://developers.google.com/protocol-buffers/docs/encoding#varints
-fn write_varu32(data: &mut Vec<u8>, mut n: u32) {
-    while n >= 0b1000_0000 {
-        data.push((n as u8) | 0b1000_0000);
-        n >>= 7;
-    }
-    data.push(n as u8);
-}
-
-/// https://developers.google.com/protocol-buffers/docs/encoding#varints
-fn read_varu32(data: &[u8]) -> (u32, usize) {
-    let mut n: u32 = 0;
-    let mut shift: u32 = 0;
-    for (i, &b) in data.iter().enumerate() {
-        if b < 0b1000_0000 {
-            return (n | ((b as u32) << shift), i + 1);
-        }
-        n |= ((b as u32) & 0b0111_1111) << shift;
-        shift += 7;
-    }
-    (0, 0)
-}
-
-#[cfg(test)]
-mod tests {
-    extern crate rand;
-
-    use std::sync::Arc;
-    use quickcheck::{QuickCheck, StdGen, quickcheck};
-    use super::{
-        StateFlags, State, push_inst_ptr,
-        write_varu32, read_varu32, write_vari32, read_vari32,
-    };
-
-    #[test]
-    fn prop_state_encode_decode() {
-        fn p(ips: Vec<u32>, flags: u8) -> bool {
-            let mut data = vec![flags];
-            let mut prev = 0;
-            for &ip in ips.iter() {
-                push_inst_ptr(&mut data, &mut prev, ip);
-            }
-            let state = State { data: Arc::from(&data[..]) };
-
-            let expected: Vec<usize> =
-                ips.into_iter().map(|ip| ip as usize).collect();
-            let got: Vec<usize> = state.inst_ptrs().collect();
-            expected == got && state.flags() == StateFlags(flags)
-        }
-        QuickCheck::new()
-            .gen(StdGen::new(self::rand::thread_rng(), 10_000))
-            .quickcheck(p as fn(Vec<u32>, u8) -> bool);
-    }
-
-    #[test]
-    fn prop_read_write_u32() {
-        fn p(n: u32) -> bool {
-            let mut buf = vec![];
-            write_varu32(&mut buf, n);
-            let (got, nread) = read_varu32(&buf);
-            nread == buf.len() && got == n
-        }
-        quickcheck(p as fn(u32) -> bool);
-    }
-
-    #[test]
-    fn prop_read_write_i32() {
-        fn p(n: i32) -> bool {
-            let mut buf = vec![];
-            write_vari32(&mut buf, n);
-            let (got, nread) = read_vari32(&buf);
-            nread == buf.len() && got == n
-        }
-        quickcheck(p as fn(i32) -> bool);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/error.rs.html b/target/doc/src/regex/error.rs.html deleted file mode 100644 index 432120f..0000000 --- a/target/doc/src/regex/error.rs.html +++ /dev/null @@ -1,163 +0,0 @@ -error.rs.html -- source
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-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::fmt;
-use std::iter::repeat;
-
-/// An error that occurred during parsing or compiling a regular expression.
-#[derive(Clone, PartialEq)]
-pub enum Error {
-    /// A syntax error.
-    Syntax(String),
-    /// The compiled program exceeded the set size limit.
-    /// The argument is the size limit imposed.
-    CompiledTooBig(usize),
-    /// Hints that destructuring should not be exhaustive.
-    ///
-    /// This enum may grow additional variants, so this makes sure clients
-    /// don't count on exhaustive matching. (Otherwise, adding a new variant
-    /// could break existing code.)
-    #[doc(hidden)]
-    __Nonexhaustive,
-}
-
-impl ::std::error::Error for Error {
-    fn description(&self) -> &str {
-        match *self {
-            Error::Syntax(ref err) => err,
-            Error::CompiledTooBig(_) => "compiled program too big",
-            Error::__Nonexhaustive => unreachable!(),
-        }
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        match *self {
-            Error::Syntax(ref err) => err.fmt(f),
-            Error::CompiledTooBig(limit) => {
-                write!(f, "Compiled regex exceeds size limit of {} bytes.",
-                       limit)
-            }
-            Error::__Nonexhaustive => unreachable!(),
-        }
-    }
-}
-
-// We implement our own Debug implementation so that we show nicer syntax
-// errors when people use `Regex::new(...).unwrap()`. It's a little weird,
-// but the `Syntax` variant is already storing a `String` anyway, so we might
-// as well format it nicely.
-impl fmt::Debug for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        match *self {
-            Error::Syntax(ref err) => {
-                let hr: String = repeat('~').take(79).collect();
-                writeln!(f, "Syntax(")?;
-                writeln!(f, "{}", hr)?;
-                writeln!(f, "{}", err)?;
-                writeln!(f, "{}", hr)?;
-                write!(f, ")")?;
-                Ok(())
-            }
-            Error::CompiledTooBig(limit) => {
-                f.debug_tuple("CompiledTooBig")
-                    .field(&limit)
-                    .finish()
-            }
-            Error::__Nonexhaustive => {
-                f.debug_tuple("__Nonexhaustive").finish()
-            }
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/exec.rs.html b/target/doc/src/regex/exec.rs.html deleted file mode 100644 index ac33d46..0000000 --- a/target/doc/src/regex/exec.rs.html +++ /dev/null @@ -1,2933 +0,0 @@ -exec.rs.html -- source
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::cell::RefCell;
-use std::collections::HashMap;
-use std::sync::Arc;
-
-use aho_corasick::{AhoCorasick, AhoCorasickBuilder, MatchKind};
-use thread_local::CachedThreadLocal;
-use syntax::ParserBuilder;
-use syntax::hir::Hir;
-use syntax::hir::literal::Literals;
-
-use backtrack;
-use compile::Compiler;
-use dfa;
-use error::Error;
-use input::{ByteInput, CharInput};
-use literal::LiteralSearcher;
-use pikevm;
-use prog::Program;
-use re_builder::RegexOptions;
-use re_bytes;
-use re_set;
-use re_trait::{RegularExpression, Slot, Locations};
-use re_unicode;
-use utf8::next_utf8;
-
-/// `Exec` manages the execution of a regular expression.
-///
-/// In particular, this manages the various compiled forms of a single regular
-/// expression and the choice of which matching engine to use to execute a
-/// regular expression.
-pub struct Exec {
-    /// All read only state.
-    ro: Arc<ExecReadOnly>,
-    /// Caches for the various matching engines.
-    cache: CachedThreadLocal<ProgramCache>,
-}
-
-/// `ExecNoSync` is like `Exec`, except it embeds a reference to a cache. This
-/// means it is no longer Sync, but we can now avoid the overhead of
-/// synchronization to fetch the cache.
-#[derive(Debug)]
-pub struct ExecNoSync<'c> {
-    /// All read only state.
-    ro: &'c Arc<ExecReadOnly>,
-    /// Caches for the various matching engines.
-    cache: &'c ProgramCache,
-}
-
-/// `ExecNoSyncStr` is like `ExecNoSync`, but matches on &str instead of &[u8].
-pub struct ExecNoSyncStr<'c>(ExecNoSync<'c>);
-
-/// `ExecReadOnly` comprises all read only state for a regex. Namely, all such
-/// state is determined at compile time and never changes during search.
-#[derive(Debug)]
-struct ExecReadOnly {
-    /// The original regular expressions given by the caller to compile.
-    res: Vec<String>,
-    /// A compiled program that is used in the NFA simulation and backtracking.
-    /// It can be byte-based or Unicode codepoint based.
-    ///
-    /// N.B. It is not possibly to make this byte-based from the public API.
-    /// It is only used for testing byte based programs in the NFA simulations.
-    nfa: Program,
-    /// A compiled byte based program for DFA execution. This is only used
-    /// if a DFA can be executed. (Currently, only word boundary assertions are
-    /// not supported.) Note that this program contains an embedded `.*?`
-    /// preceding the first capture group, unless the regex is anchored at the
-    /// beginning.
-    dfa: Program,
-    /// The same as above, except the program is reversed (and there is no
-    /// preceding `.*?`). This is used by the DFA to find the starting location
-    /// of matches.
-    dfa_reverse: Program,
-    /// A set of suffix literals extracted from the regex.
-    ///
-    /// Prefix literals are stored on the `Program`, since they are used inside
-    /// the matching engines.
-    suffixes: LiteralSearcher,
-    /// An Aho-Corasick automaton with leftmost-first match semantics.
-    ///
-    /// This is only set when the entire regex is a simple unanchored
-    /// alternation of literals. We could probably use it more circumstances,
-    /// but this is already hacky enough in this architecture.
-    ///
-    /// N.B. We use u32 as a state ID representation under the assumption that
-    /// if we were to exhaust the ID space, we probably would have long
-    /// surpassed the compilation size limit.
-    ac: Option<AhoCorasick<u32>>,
-    /// match_type encodes as much upfront knowledge about how we're going to
-    /// execute a search as possible.
-    match_type: MatchType,
-}
-
-/// Facilitates the construction of an executor by exposing various knobs
-/// to control how a regex is executed and what kinds of resources it's
-/// permitted to use.
-pub struct ExecBuilder {
-    options: RegexOptions,
-    match_type: Option<MatchType>,
-    bytes: bool,
-    only_utf8: bool,
-}
-
-/// Parsed represents a set of parsed regular expressions and their detected
-/// literals.
-struct Parsed {
-    exprs: Vec<Hir>,
-    prefixes: Literals,
-    suffixes: Literals,
-    bytes: bool,
-}
-
-impl ExecBuilder {
-    /// Create a regex execution builder.
-    ///
-    /// This uses default settings for everything except the regex itself,
-    /// which must be provided. Further knobs can be set by calling methods,
-    /// and then finally, `build` to actually create the executor.
-    pub fn new(re: &str) -> Self {
-        Self::new_many(&[re])
-    }
-
-    /// Like new, but compiles the union of the given regular expressions.
-    ///
-    /// Note that when compiling 2 or more regular expressions, capture groups
-    /// are completely unsupported. (This means both `find` and `captures`
-    /// wont work.)
-    pub fn new_many<I, S>(res: I) -> Self
-            where S: AsRef<str>, I: IntoIterator<Item=S> {
-        let mut opts = RegexOptions::default();
-        opts.pats = res.into_iter().map(|s| s.as_ref().to_owned()).collect();
-        Self::new_options(opts)
-    }
-
-    /// Create a regex execution builder.
-    pub fn new_options(opts: RegexOptions) -> Self {
-        ExecBuilder {
-            options: opts,
-            match_type: None,
-            bytes: false,
-            only_utf8: true,
-        }
-    }
-
-    /// Set the matching engine to be automatically determined.
-    ///
-    /// This is the default state and will apply whatever optimizations are
-    /// possible, such as running a DFA.
-    ///
-    /// This overrides whatever was previously set via the `nfa` or
-    /// `bounded_backtracking` methods.
-    pub fn automatic(mut self) -> Self {
-        self.match_type = None;
-        self
-    }
-
-    /// Sets the matching engine to use the NFA algorithm no matter what
-    /// optimizations are possible.
-    ///
-    /// This overrides whatever was previously set via the `automatic` or
-    /// `bounded_backtracking` methods.
-    pub fn nfa(mut self) -> Self {
-        self.match_type = Some(MatchType::Nfa(MatchNfaType::PikeVM));
-        self
-    }
-
-    /// Sets the matching engine to use a bounded backtracking engine no
-    /// matter what optimizations are possible.
-    ///
-    /// One must use this with care, since the bounded backtracking engine
-    /// uses memory proportion to `len(regex) * len(text)`.
-    ///
-    /// This overrides whatever was previously set via the `automatic` or
-    /// `nfa` methods.
-    pub fn bounded_backtracking(mut self) -> Self {
-        self.match_type = Some(MatchType::Nfa(MatchNfaType::Backtrack));
-        self
-    }
-
-    /// Compiles byte based programs for use with the NFA matching engines.
-    ///
-    /// By default, the NFA engines match on Unicode scalar values. They can
-    /// be made to use byte based programs instead. In general, the byte based
-    /// programs are slower because of a less efficient encoding of character
-    /// classes.
-    ///
-    /// Note that this does not impact DFA matching engines, which always
-    /// execute on bytes.
-    pub fn bytes(mut self, yes: bool) -> Self {
-        self.bytes = yes;
-        self
-    }
-
-    /// When disabled, the program compiled may match arbitrary bytes.
-    ///
-    /// When enabled (the default), all compiled programs exclusively match
-    /// valid UTF-8 bytes.
-    pub fn only_utf8(mut self, yes: bool) -> Self {
-        self.only_utf8 = yes;
-        self
-    }
-
-    /// Set the Unicode flag.
-    pub fn unicode(mut self, yes: bool) -> Self {
-        self.options.unicode = yes;
-        self
-    }
-
-    /// Parse the current set of patterns into their AST and extract literals.
-    fn parse(&self) -> Result<Parsed, Error> {
-        let mut exprs = Vec::with_capacity(self.options.pats.len());
-        let mut prefixes = Some(Literals::empty());
-        let mut suffixes = Some(Literals::empty());
-        let mut bytes = false;
-        let is_set = self.options.pats.len() > 1;
-        // If we're compiling a regex set and that set has any anchored
-        // expressions, then disable all literal optimizations.
-        for pat in &self.options.pats {
-            let mut parser =
-                ParserBuilder::new()
-                    .octal(self.options.octal)
-                    .case_insensitive(self.options.case_insensitive)
-                    .multi_line(self.options.multi_line)
-                    .dot_matches_new_line(self.options.dot_matches_new_line)
-                    .swap_greed(self.options.swap_greed)
-                    .ignore_whitespace(self.options.ignore_whitespace)
-                    .unicode(self.options.unicode)
-                    .allow_invalid_utf8(!self.only_utf8)
-                    .nest_limit(self.options.nest_limit)
-                    .build();
-            let expr = parser
-                .parse(pat)
-                .map_err(|e| Error::Syntax(e.to_string()))?;
-            bytes = bytes || !expr.is_always_utf8();
-
-            if !expr.is_anchored_start() && expr.is_any_anchored_start() {
-                // Partial anchors unfortunately make it hard to use prefixes,
-                // so disable them.
-                prefixes = None;
-            } else if is_set && expr.is_anchored_start() {
-                // Regex sets with anchors do not go well with literal
-                // optimizations.
-                prefixes = None;
-            }
-            prefixes = prefixes.and_then(|mut prefixes| {
-                if !prefixes.union_prefixes(&expr) {
-                    None
-                } else {
-                    Some(prefixes)
-                }
-            });
-
-            if !expr.is_anchored_end() && expr.is_any_anchored_end() {
-                // Partial anchors unfortunately make it hard to use suffixes,
-                // so disable them.
-                suffixes = None;
-            } else if is_set && expr.is_anchored_end() {
-                // Regex sets with anchors do not go well with literal
-                // optimizations.
-                suffixes = None;
-            }
-            suffixes = suffixes.and_then(|mut suffixes| {
-                if !suffixes.union_suffixes(&expr) {
-                    None
-                } else {
-                    Some(suffixes)
-                }
-            });
-            exprs.push(expr);
-        }
-        Ok(Parsed {
-            exprs: exprs,
-            prefixes: prefixes.unwrap_or_else(Literals::empty),
-            suffixes: suffixes.unwrap_or_else(Literals::empty),
-            bytes: bytes,
-        })
-    }
-
-    /// Build an executor that can run a regular expression.
-    pub fn build(self) -> Result<Exec, Error> {
-        // Special case when we have no patterns to compile.
-        // This can happen when compiling a regex set.
-        if self.options.pats.is_empty() {
-            let ro = Arc::new(ExecReadOnly {
-                res: vec![],
-                nfa: Program::new(),
-                dfa: Program::new(),
-                dfa_reverse: Program::new(),
-                suffixes: LiteralSearcher::empty(),
-                ac: None,
-                match_type: MatchType::Nothing,
-            });
-            return Ok(Exec { ro: ro, cache: CachedThreadLocal::new() });
-        }
-        let parsed = self.parse()?;
-        let mut nfa =
-            Compiler::new()
-                     .size_limit(self.options.size_limit)
-                     .bytes(self.bytes || parsed.bytes)
-                     .only_utf8(self.only_utf8)
-                     .compile(&parsed.exprs)?;
-        let mut dfa =
-            Compiler::new()
-                     .size_limit(self.options.size_limit)
-                     .dfa(true)
-                     .only_utf8(self.only_utf8)
-                     .compile(&parsed.exprs)?;
-        let mut dfa_reverse =
-            Compiler::new()
-                     .size_limit(self.options.size_limit)
-                     .dfa(true)
-                     .only_utf8(self.only_utf8)
-                     .reverse(true)
-                     .compile(&parsed.exprs)?;
-
-        nfa.prefixes = LiteralSearcher::prefixes(parsed.prefixes);
-        dfa.prefixes = nfa.prefixes.clone();
-        dfa.dfa_size_limit = self.options.dfa_size_limit;
-        dfa_reverse.dfa_size_limit = self.options.dfa_size_limit;
-
-        let mut ac = None;
-        if parsed.exprs.len() == 1 {
-            if let Some(lits) = alternation_literals(&parsed.exprs[0]) {
-                // If we have a small number of literals, then let Teddy
-                // handle things (see literal/mod.rs).
-                if lits.len() > 32 {
-                    let fsm = AhoCorasickBuilder::new()
-                        .match_kind(MatchKind::LeftmostFirst)
-                        .auto_configure(&lits)
-                        // We always want this to reduce size, regardless of
-                        // what auto-configure does.
-                        .byte_classes(true)
-                        .build_with_size::<u32, _, _>(&lits)
-                        .expect("AC automaton too big");
-                    ac = Some(fsm);
-                }
-            }
-        }
-
-        let mut ro = ExecReadOnly {
-            res: self.options.pats,
-            nfa: nfa,
-            dfa: dfa,
-            dfa_reverse: dfa_reverse,
-            suffixes: LiteralSearcher::suffixes(parsed.suffixes),
-            ac: ac,
-            match_type: MatchType::Nothing,
-        };
-        ro.match_type = ro.choose_match_type(self.match_type);
-
-        let ro = Arc::new(ro);
-        Ok(Exec { ro: ro, cache: CachedThreadLocal::new() })
-    }
-}
-
-impl<'c> RegularExpression for ExecNoSyncStr<'c> {
-    type Text = str;
-
-    fn slots_len(&self) -> usize { self.0.slots_len() }
-
-    fn next_after_empty(&self, text: &str, i: usize) -> usize {
-        next_utf8(text.as_bytes(), i)
-    }
-
-    #[inline(always)] // reduces constant overhead
-    fn shortest_match_at(&self, text: &str, start: usize) -> Option<usize> {
-        self.0.shortest_match_at(text.as_bytes(), start)
-    }
-
-    #[inline(always)] // reduces constant overhead
-    fn is_match_at(&self, text: &str, start: usize) -> bool {
-        self.0.is_match_at(text.as_bytes(), start)
-    }
-
-    #[inline(always)] // reduces constant overhead
-    fn find_at(&self, text: &str, start: usize) -> Option<(usize, usize)> {
-        self.0.find_at(text.as_bytes(), start)
-    }
-
-    #[inline(always)] // reduces constant overhead
-    fn captures_read_at(
-        &self,
-        locs: &mut Locations,
-        text: &str,
-        start: usize,
-    ) -> Option<(usize, usize)> {
-        self.0.captures_read_at(locs, text.as_bytes(), start)
-    }
-}
-
-impl<'c> RegularExpression for ExecNoSync<'c> {
-    type Text = [u8];
-
-    /// Returns the number of capture slots in the regular expression. (There
-    /// are two slots for every capture group, corresponding to possibly empty
-    /// start and end locations of the capture.)
-    fn slots_len(&self) -> usize {
-        self.ro.nfa.captures.len() * 2
-    }
-
-    fn next_after_empty(&self, _text: &[u8], i: usize) -> usize {
-        i + 1
-    }
-
-    /// Returns the end of a match location, possibly occurring before the
-    /// end location of the correct leftmost-first match.
-    #[inline(always)] // reduces constant overhead
-    fn shortest_match_at(&self, text: &[u8], start: usize) -> Option<usize> {
-        if !self.is_anchor_end_match(text) {
-            return None;
-        }
-        match self.ro.match_type {
-            MatchType::Literal(ty) => {
-                self.find_literals(ty, text, start).map(|(_, e)| e)
-            }
-            MatchType::Dfa | MatchType::DfaMany => {
-                match self.shortest_dfa(text, start) {
-                    dfa::Result::Match(end) => Some(end),
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => self.shortest_nfa(text, start),
-                }
-            }
-            MatchType::DfaAnchoredReverse => {
-                match dfa::Fsm::reverse(
-                    &self.ro.dfa_reverse,
-                    self.cache,
-                    true,
-                    &text[start..],
-                    text.len(),
-                ) {
-                    dfa::Result::Match(_) => Some(text.len()),
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => self.shortest_nfa(text, start),
-                }
-            }
-            MatchType::DfaSuffix => {
-                match self.shortest_dfa_reverse_suffix(text, start) {
-                    dfa::Result::Match(e) => Some(e),
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => self.shortest_nfa(text, start),
-                }
-            }
-            MatchType::Nfa(ty) => self.shortest_nfa_type(ty, text, start),
-            MatchType::Nothing => None,
-        }
-    }
-
-    /// Returns true if and only if the regex matches text.
-    ///
-    /// For single regular expressions, this is equivalent to calling
-    /// shortest_match(...).is_some().
-    #[inline(always)] // reduces constant overhead
-    fn is_match_at(&self, text: &[u8], start: usize) -> bool {
-        if !self.is_anchor_end_match(text) {
-            return false;
-        }
-        // We need to do this dance because shortest_match relies on the NFA
-        // filling in captures[1], but a RegexSet has no captures. In other
-        // words, a RegexSet can't (currently) use shortest_match. ---AG
-        match self.ro.match_type {
-            MatchType::Literal(ty) => {
-                self.find_literals(ty, text, start).is_some()
-            }
-            MatchType::Dfa | MatchType::DfaMany => {
-                match self.shortest_dfa(text, start) {
-                    dfa::Result::Match(_) => true,
-                    dfa::Result::NoMatch(_) => false,
-                    dfa::Result::Quit => self.match_nfa(text, start),
-                }
-            }
-            MatchType::DfaAnchoredReverse => {
-                match dfa::Fsm::reverse(
-                    &self.ro.dfa_reverse,
-                    self.cache,
-                    true,
-                    &text[start..],
-                    text.len(),
-                ) {
-                    dfa::Result::Match(_) => true,
-                    dfa::Result::NoMatch(_) => false,
-                    dfa::Result::Quit => self.match_nfa(text, start),
-                }
-            }
-            MatchType::DfaSuffix => {
-                match self.shortest_dfa_reverse_suffix(text, start) {
-                    dfa::Result::Match(_) => true,
-                    dfa::Result::NoMatch(_) => false,
-                    dfa::Result::Quit => self.match_nfa(text, start),
-                }
-            }
-            MatchType::Nfa(ty) => self.match_nfa_type(ty, text, start),
-            MatchType::Nothing => false,
-        }
-    }
-
-    /// Finds the start and end location of the leftmost-first match, starting
-    /// at the given location.
-    #[inline(always)] // reduces constant overhead
-    fn find_at(&self, text: &[u8], start: usize) -> Option<(usize, usize)> {
-        if !self.is_anchor_end_match(text) {
-            return None;
-        }
-        match self.ro.match_type {
-            MatchType::Literal(ty) => {
-                self.find_literals(ty, text, start)
-            }
-            MatchType::Dfa => {
-                match self.find_dfa_forward(text, start) {
-                    dfa::Result::Match((s, e)) => Some((s, e)),
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => {
-                        self.find_nfa(MatchNfaType::Auto, text, start)
-                    }
-                }
-            }
-            MatchType::DfaAnchoredReverse => {
-                match self.find_dfa_anchored_reverse(text, start) {
-                    dfa::Result::Match((s, e)) => Some((s, e)),
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => {
-                        self.find_nfa(MatchNfaType::Auto, text, start)
-                    }
-                }
-            }
-            MatchType::DfaSuffix => {
-                match self.find_dfa_reverse_suffix(text, start) {
-                    dfa::Result::Match((s, e)) => Some((s, e)),
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => {
-                        self.find_nfa(MatchNfaType::Auto, text, start)
-                    }
-                }
-            }
-            MatchType::Nfa(ty) => self.find_nfa(ty, text, start),
-            MatchType::Nothing => None,
-            MatchType::DfaMany => {
-                unreachable!("BUG: RegexSet cannot be used with find")
-            }
-        }
-    }
-
-    /// Finds the start and end location of the leftmost-first match and also
-    /// fills in all matching capture groups.
-    ///
-    /// The number of capture slots given should be equal to the total number
-    /// of capture slots in the compiled program.
-    ///
-    /// Note that the first two slots always correspond to the start and end
-    /// locations of the overall match.
-    fn captures_read_at(
-        &self,
-        locs: &mut Locations,
-        text: &[u8],
-        start: usize,
-    ) -> Option<(usize, usize)> {
-        let slots = locs.as_slots();
-        for slot in slots.iter_mut() {
-            *slot = None;
-        }
-        // If the caller unnecessarily uses this, then we try to save them
-        // from themselves.
-        match slots.len() {
-            0 => return self.find_at(text, start),
-            2 => {
-                return self.find_at(text, start).map(|(s, e)| {
-                    slots[0] = Some(s);
-                    slots[1] = Some(e);
-                    (s, e)
-                });
-            }
-            _ => {} // fallthrough
-        }
-        if !self.is_anchor_end_match(text) {
-            return None;
-        }
-        match self.ro.match_type {
-            MatchType::Literal(ty) => {
-                self.find_literals(ty, text, start).and_then(|(s, e)| {
-                    self.captures_nfa_type(
-                        MatchNfaType::Auto, slots, text, s, e)
-                })
-            }
-            MatchType::Dfa => {
-                if self.ro.nfa.is_anchored_start {
-                    self.captures_nfa(slots, text, start)
-                } else {
-                    match self.find_dfa_forward(text, start) {
-                        dfa::Result::Match((s, e)) => {
-                            self.captures_nfa_type(
-                                MatchNfaType::Auto, slots, text, s, e)
-                        }
-                        dfa::Result::NoMatch(_) => None,
-                        dfa::Result::Quit => {
-                            self.captures_nfa(slots, text, start)
-                        }
-                    }
-                }
-            }
-            MatchType::DfaAnchoredReverse => {
-                match self.find_dfa_anchored_reverse(text, start) {
-                    dfa::Result::Match((s, e)) => {
-                        self.captures_nfa_type(
-                            MatchNfaType::Auto, slots, text, s, e)
-                    }
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => self.captures_nfa(slots, text, start),
-                }
-            }
-            MatchType::DfaSuffix => {
-                match self.find_dfa_reverse_suffix(text, start) {
-                    dfa::Result::Match((s, e)) => {
-                        self.captures_nfa_type(
-                            MatchNfaType::Auto, slots, text, s, e)
-                    }
-                    dfa::Result::NoMatch(_) => None,
-                    dfa::Result::Quit => self.captures_nfa(slots, text, start),
-                }
-            }
-            MatchType::Nfa(ty) => {
-                self.captures_nfa_type(ty, slots, text, start, text.len())
-            }
-            MatchType::Nothing => None,
-            MatchType::DfaMany => {
-                unreachable!("BUG: RegexSet cannot be used with captures")
-            }
-        }
-    }
-}
-
-impl<'c> ExecNoSync<'c> {
-    /// Finds the leftmost-first match using only literal search.
-    #[inline(always)] // reduces constant overhead
-    fn find_literals(
-        &self,
-        ty: MatchLiteralType,
-        text: &[u8],
-        start: usize,
-    ) -> Option<(usize, usize)> {
-        use self::MatchLiteralType::*;
-        match ty {
-            Unanchored => {
-                let lits = &self.ro.nfa.prefixes;
-                lits.find(&text[start..])
-                    .map(|(s, e)| (start + s, start + e))
-            }
-            AnchoredStart => {
-                let lits = &self.ro.nfa.prefixes;
-                if !self.ro.nfa.is_anchored_start
-                    || (self.ro.nfa.is_anchored_start && start == 0) {
-                    lits.find_start(&text[start..])
-                        .map(|(s, e)| (start + s, start + e))
-                } else {
-                    None
-                }
-            }
-            AnchoredEnd => {
-                let lits = &self.ro.suffixes;
-                lits.find_end(&text[start..])
-                    .map(|(s, e)| (start + s, start + e))
-            }
-            AhoCorasick => {
-                self.ro.ac.as_ref().unwrap()
-                    .find(&text[start..])
-                    .map(|m| (start + m.start(), start + m.end()))
-            }
-        }
-    }
-
-    /// Finds the leftmost-first match (start and end) using only the DFA.
-    ///
-    /// If the result returned indicates that the DFA quit, then another
-    /// matching engine should be used.
-    #[inline(always)] // reduces constant overhead
-    fn find_dfa_forward(
-        &self,
-        text: &[u8],
-        start: usize,
-    ) -> dfa::Result<(usize, usize)> {
-        use dfa::Result::*;
-        let end = match dfa::Fsm::forward(
-            &self.ro.dfa,
-            self.cache,
-            false,
-            text,
-            start,
-        ) {
-            NoMatch(i) => return NoMatch(i),
-            Quit => return Quit,
-            Match(end) if start == end => return Match((start, start)),
-            Match(end) => end,
-        };
-        // Now run the DFA in reverse to find the start of the match.
-        match dfa::Fsm::reverse(
-            &self.ro.dfa_reverse,
-            self.cache,
-            false,
-            &text[start..],
-            end - start,
-        ) {
-            Match(s) => Match((start + s, end)),
-            NoMatch(i) => NoMatch(i),
-            Quit => Quit,
-        }
-    }
-
-    /// Finds the leftmost-first match (start and end) using only the DFA,
-    /// but assumes the regex is anchored at the end and therefore starts at
-    /// the end of the regex and matches in reverse.
-    ///
-    /// If the result returned indicates that the DFA quit, then another
-    /// matching engine should be used.
-    #[inline(always)] // reduces constant overhead
-    fn find_dfa_anchored_reverse(
-        &self,
-        text: &[u8],
-        start: usize,
-    ) -> dfa::Result<(usize, usize)> {
-        use dfa::Result::*;
-        match dfa::Fsm::reverse(
-            &self.ro.dfa_reverse,
-            self.cache,
-            false,
-            &text[start..],
-            text.len() - start,
-        ) {
-            Match(s) => Match((start + s, text.len())),
-            NoMatch(i) => NoMatch(i),
-            Quit => Quit,
-        }
-    }
-
-    /// Finds the end of the shortest match using only the DFA.
-    #[inline(always)] // reduces constant overhead
-    fn shortest_dfa(&self, text: &[u8], start: usize) -> dfa::Result<usize> {
-        dfa::Fsm::forward(&self.ro.dfa, self.cache, true, text, start)
-    }
-
-    /// Finds the end of the shortest match using only the DFA by scanning for
-    /// suffix literals.
-    ///
-    #[inline(always)] // reduces constant overhead
-    fn shortest_dfa_reverse_suffix(
-        &self,
-        text: &[u8],
-        start: usize,
-    ) -> dfa::Result<usize> {
-        match self.exec_dfa_reverse_suffix(text, start) {
-            None => self.shortest_dfa(text, start),
-            Some(r) => r.map(|(_, end)| end),
-        }
-    }
-
-    /// Finds the end of the shortest match using only the DFA by scanning for
-    /// suffix literals. It also reports the start of the match.
-    ///
-    /// Note that if None is returned, then the optimization gave up to avoid
-    /// worst case quadratic behavior. A forward scanning DFA should be tried
-    /// next.
-    ///
-    /// If a match is returned and the full leftmost-first match is desired,
-    /// then a forward scan starting from the beginning of the match must be
-    /// done.
-    ///
-    /// If the result returned indicates that the DFA quit, then another
-    /// matching engine should be used.
-    #[inline(always)] // reduces constant overhead
-    fn exec_dfa_reverse_suffix(
-        &self,
-        text: &[u8],
-        original_start: usize,
-    ) -> Option<dfa::Result<(usize, usize)>> {
-        use dfa::Result::*;
-
-        let lcs = self.ro.suffixes.lcs();
-        debug_assert!(lcs.len() >= 1);
-        let mut start = original_start;
-        let mut end = start;
-        let mut last_literal = start;
-        while end <= text.len() {
-            last_literal += match lcs.find(&text[last_literal..]) {
-                None => return Some(NoMatch(text.len())),
-                Some(i) => i,
-            };
-            end = last_literal + lcs.len();
-            match dfa::Fsm::reverse(
-                &self.ro.dfa_reverse,
-                self.cache,
-                false,
-                &text[start..end],
-                end - start,
-            ) {
-                Match(0) | NoMatch(0) => return None,
-                Match(i) => return Some(Match((start + i, end))),
-                NoMatch(i) => {
-                    start += i;
-                    last_literal += 1;
-                    continue;
-                }
-                Quit => return Some(Quit),
-            };
-        }
-        Some(NoMatch(text.len()))
-    }
-
-    /// Finds the leftmost-first match (start and end) using only the DFA
-    /// by scanning for suffix literals.
-    ///
-    /// If the result returned indicates that the DFA quit, then another
-    /// matching engine should be used.
-    #[inline(always)] // reduces constant overhead
-    fn find_dfa_reverse_suffix(
-        &self,
-        text: &[u8],
-        start: usize,
-    ) -> dfa::Result<(usize, usize)> {
-        use dfa::Result::*;
-
-        let match_start = match self.exec_dfa_reverse_suffix(text, start) {
-            None => return self.find_dfa_forward(text, start),
-            Some(Match((start, _))) => start,
-            Some(r) => return r,
-        };
-        // At this point, we've found a match. The only way to quit now
-        // without a match is if the DFA gives up (seems unlikely).
-        //
-        // Now run the DFA forwards to find the proper end of the match.
-        // (The suffix literal match can only indicate the earliest
-        // possible end location, which may appear before the end of the
-        // leftmost-first match.)
-        match dfa::Fsm::forward(
-            &self.ro.dfa,
-            self.cache,
-            false,
-            text,
-            match_start,
-        ) {
-            NoMatch(_) => panic!("BUG: reverse match implies forward match"),
-            Quit => Quit,
-            Match(e) => Match((match_start, e)),
-        }
-    }
-
-    /// Executes the NFA engine to return whether there is a match or not.
-    ///
-    /// Ideally, we could use shortest_nfa(...).is_some() and get the same
-    /// performance characteristics, but regex sets don't have captures, which
-    /// shortest_nfa depends on.
-    fn match_nfa(
-        &self,
-        text: &[u8],
-        start: usize,
-    ) -> bool {
-        self.match_nfa_type(MatchNfaType::Auto, text, start)
-    }
-
-    /// Like match_nfa, but allows specification of the type of NFA engine.
-    fn match_nfa_type(
-        &self,
-        ty: MatchNfaType,
-        text: &[u8],
-        start: usize,
-    ) -> bool {
-        self.exec_nfa(ty, &mut [false], &mut [], true, text, start, text.len())
-    }
-
-    /// Finds the shortest match using an NFA.
-    fn shortest_nfa(&self, text: &[u8], start: usize) -> Option<usize> {
-        self.shortest_nfa_type(MatchNfaType::Auto, text, start)
-    }
-
-    /// Like shortest_nfa, but allows specification of the type of NFA engine.
-    fn shortest_nfa_type(
-        &self,
-        ty: MatchNfaType,
-        text: &[u8],
-        start: usize,
-    ) -> Option<usize> {
-        let mut slots = [None, None];
-        if self.exec_nfa(
-            ty,
-            &mut [false],
-            &mut slots,
-            true,
-            text,
-            start,
-            text.len()
-        ) {
-            slots[1]
-        } else {
-            None
-        }
-    }
-
-    /// Like find, but executes an NFA engine.
-    fn find_nfa(
-        &self,
-        ty: MatchNfaType,
-        text: &[u8],
-        start: usize,
-    ) -> Option<(usize, usize)> {
-        let mut slots = [None, None];
-        if self.exec_nfa(
-            ty,
-            &mut [false],
-            &mut slots,
-            false,
-            text,
-            start,
-            text.len()
-        ) {
-            match (slots[0], slots[1]) {
-                (Some(s), Some(e)) => Some((s, e)),
-                _ => None,
-            }
-        } else {
-            None
-        }
-    }
-
-    /// Like find_nfa, but fills in captures.
-    ///
-    /// `slots` should have length equal to `2 * nfa.captures.len()`.
-    fn captures_nfa(
-        &self,
-        slots: &mut [Slot],
-        text: &[u8],
-        start: usize,
-    ) -> Option<(usize, usize)> {
-        self.captures_nfa_type(
-            MatchNfaType::Auto, slots, text, start, text.len())
-    }
-
-    /// Like captures_nfa, but allows specification of type of NFA engine.
-    fn captures_nfa_type(
-        &self,
-        ty: MatchNfaType,
-        slots: &mut [Slot],
-        text: &[u8],
-        start: usize,
-        end: usize,
-    ) -> Option<(usize, usize)> {
-        if self.exec_nfa(ty, &mut [false], slots, false, text, start, end) {
-            match (slots[0], slots[1]) {
-                (Some(s), Some(e)) => Some((s, e)),
-                _ => None,
-            }
-        } else {
-            None
-        }
-    }
-
-    fn exec_nfa(
-        &self,
-        mut ty: MatchNfaType,
-        matches: &mut [bool],
-        slots: &mut [Slot],
-        quit_after_match: bool,
-        text: &[u8],
-        start: usize,
-        end: usize,
-    ) -> bool {
-        use self::MatchNfaType::*;
-        if let Auto = ty {
-            if backtrack::should_exec(self.ro.nfa.len(), text.len()) {
-                ty = Backtrack;
-            } else {
-                ty = PikeVM;
-            }
-        }
-        match ty {
-            Auto => unreachable!(),
-            Backtrack => self.exec_backtrack(matches, slots, text, start, end),
-            PikeVM => {
-                self.exec_pikevm(
-                    matches, slots, quit_after_match, text, start, end)
-            }
-        }
-    }
-
-    /// Always run the NFA algorithm.
-    fn exec_pikevm(
-        &self,
-        matches: &mut [bool],
-        slots: &mut [Slot],
-        quit_after_match: bool,
-        text: &[u8],
-        start: usize,
-        end: usize,
-    ) -> bool {
-        if self.ro.nfa.uses_bytes() {
-            pikevm::Fsm::exec(
-                &self.ro.nfa,
-                self.cache,
-                matches,
-                slots,
-                quit_after_match,
-                ByteInput::new(text, self.ro.nfa.only_utf8),
-                start,
-                end)
-        } else {
-            pikevm::Fsm::exec(
-                &self.ro.nfa,
-                self.cache,
-                matches,
-                slots,
-                quit_after_match,
-                CharInput::new(text),
-                start,
-                end)
-        }
-    }
-
-    /// Always runs the NFA using bounded backtracking.
-    fn exec_backtrack(
-        &self,
-        matches: &mut [bool],
-        slots: &mut [Slot],
-        text: &[u8],
-        start: usize,
-        end: usize,
-    ) -> bool {
-        if self.ro.nfa.uses_bytes() {
-            backtrack::Bounded::exec(
-                &self.ro.nfa,
-                self.cache,
-                matches,
-                slots,
-                ByteInput::new(text, self.ro.nfa.only_utf8),
-                start,
-                end)
-        } else {
-            backtrack::Bounded::exec(
-                &self.ro.nfa,
-                self.cache,
-                matches,
-                slots,
-                CharInput::new(text),
-                start,
-                end)
-        }
-    }
-
-    /// Finds which regular expressions match the given text.
-    ///
-    /// `matches` should have length equal to the number of regexes being
-    /// searched.
-    ///
-    /// This is only useful when one wants to know which regexes in a set
-    /// match some text.
-    pub fn many_matches_at(
-        &self,
-        matches: &mut [bool],
-        text: &[u8],
-        start: usize,
-    ) -> bool {
-        use self::MatchType::*;
-        if !self.is_anchor_end_match(text) {
-            return false;
-        }
-        match self.ro.match_type {
-            Literal(ty) => {
-                debug_assert_eq!(matches.len(), 1);
-                matches[0] = self.find_literals(ty, text, start).is_some();
-                matches[0]
-            }
-            Dfa | DfaAnchoredReverse | DfaSuffix | DfaMany => {
-                match dfa::Fsm::forward_many(
-                    &self.ro.dfa,
-                    self.cache,
-                    matches,
-                    text,
-                    start,
-                ) {
-                    dfa::Result::Match(_) => true,
-                    dfa::Result::NoMatch(_) => false,
-                    dfa::Result::Quit => {
-                        self.exec_nfa(
-                            MatchNfaType::Auto,
-                            matches,
-                            &mut [],
-                            false,
-                            text,
-                            start,
-                            text.len())
-                    }
-                }
-            }
-            Nfa(ty) => {
-                self.exec_nfa(
-                    ty, matches, &mut [], false, text, start, text.len())
-            }
-            Nothing => false,
-        }
-    }
-
-    #[inline(always)] // reduces constant overhead
-    fn is_anchor_end_match(&self, text: &[u8]) -> bool {
-        // Only do this check if the haystack is big (>1MB).
-        if text.len() > (1<<20) && self.ro.nfa.is_anchored_end {
-            let lcs = self.ro.suffixes.lcs();
-            if lcs.len() >= 1 && !lcs.is_suffix(text) {
-                return false;
-            }
-        }
-        true
-    }
-
-    pub fn capture_name_idx(&self) -> &Arc<HashMap<String, usize>> {
-        &self.ro.nfa.capture_name_idx
-    }
-}
-
-impl<'c> ExecNoSyncStr<'c> {
-    pub fn capture_name_idx(&self) -> &Arc<HashMap<String, usize>> {
-        self.0.capture_name_idx()
-    }
-}
-
-impl Exec {
-    /// Get a searcher that isn't Sync.
-    #[inline(always)] // reduces constant overhead
-    pub fn searcher(&self) -> ExecNoSync {
-        let create = || {
-            Box::new(RefCell::new(ProgramCacheInner::new(&self.ro)))
-        };
-        ExecNoSync {
-            ro: &self.ro, // a clone is too expensive here! (and not needed)
-            cache: self.cache.get_or(create),
-        }
-    }
-
-    /// Get a searcher that isn't Sync and can match on &str.
-    #[inline(always)] // reduces constant overhead
-    pub fn searcher_str(&self) -> ExecNoSyncStr {
-        ExecNoSyncStr(self.searcher())
-    }
-
-    /// Build a Regex from this executor.
-    pub fn into_regex(self) -> re_unicode::Regex {
-        re_unicode::Regex::from(self)
-    }
-
-    /// Build a RegexSet from this executor.
-    pub fn into_regex_set(self) -> re_set::unicode::RegexSet {
-        re_set::unicode::RegexSet::from(self)
-    }
-
-    /// Build a Regex from this executor that can match arbitrary bytes.
-    pub fn into_byte_regex(self) -> re_bytes::Regex {
-        re_bytes::Regex::from(self)
-    }
-
-    /// Build a RegexSet from this executor that can match arbitrary bytes.
-    pub fn into_byte_regex_set(self) -> re_set::bytes::RegexSet {
-        re_set::bytes::RegexSet::from(self)
-    }
-
-    /// The original regular expressions given by the caller that were
-    /// compiled.
-    pub fn regex_strings(&self) -> &[String] {
-        &self.ro.res
-    }
-
-    /// Return a slice of capture names.
-    ///
-    /// Any capture that isn't named is None.
-    pub fn capture_names(&self) -> &[Option<String>] {
-        &self.ro.nfa.captures
-    }
-
-    /// Return a reference to named groups mapping (from group name to
-    /// group position).
-    pub fn capture_name_idx(&self) -> &Arc<HashMap<String, usize>> {
-        &self.ro.nfa.capture_name_idx
-    }
-}
-
-impl Clone for Exec {
-    fn clone(&self) -> Exec {
-        Exec {
-            ro: self.ro.clone(),
-            cache: CachedThreadLocal::new(),
-        }
-    }
-}
-
-impl ExecReadOnly {
-    fn choose_match_type(&self, hint: Option<MatchType>) -> MatchType {
-        use self::MatchType::*;
-        if let Some(Nfa(_)) = hint {
-            return hint.unwrap();
-        }
-        // If the NFA is empty, then we'll never match anything.
-        if self.nfa.insts.is_empty() {
-            return Nothing;
-        }
-        // If our set of prefixes is complete, then we can use it to find
-        // a match in lieu of a regex engine. This doesn't quite work well in
-        // the presence of multiple regexes, so only do it when there's one.
-        //
-        // TODO(burntsushi): Also, don't try to match literals if the regex is
-        // partially anchored. We could technically do it, but we'd need to
-        // create two sets of literals: all of them and then the subset that
-        // aren't anchored. We would then only search for all of them when at
-        // the beginning of the input and use the subset in all other cases.
-        if self.res.len() == 1 {
-            if self.ac.is_some() {
-                return Literal(MatchLiteralType::AhoCorasick);
-            }
-            if self.nfa.prefixes.complete() {
-                return if self.nfa.is_anchored_start {
-                    Literal(MatchLiteralType::AnchoredStart)
-                } else {
-                    Literal(MatchLiteralType::Unanchored)
-                };
-            }
-            if self.suffixes.complete() {
-                return if self.nfa.is_anchored_end {
-                    Literal(MatchLiteralType::AnchoredEnd)
-                } else {
-                    // This case shouldn't happen. When the regex isn't
-                    // anchored, then complete prefixes should imply complete
-                    // suffixes.
-                    Literal(MatchLiteralType::Unanchored)
-                };
-            }
-        }
-        // If we can execute the DFA, then we totally should.
-        if dfa::can_exec(&self.dfa) {
-            // Regex sets require a slightly specialized path.
-            if self.res.len() >= 2 {
-                return DfaMany;
-            }
-            // If the regex is anchored at the end but not the start, then
-            // just match in reverse from the end of the haystack.
-            if !self.nfa.is_anchored_start && self.nfa.is_anchored_end {
-                return DfaAnchoredReverse;
-            }
-            // If there's a longish suffix literal, then it might be faster
-            // to look for that first.
-            if self.should_suffix_scan() {
-                return DfaSuffix;
-            }
-            // Fall back to your garden variety forward searching lazy DFA.
-            return Dfa;
-        }
-        // We're so totally hosed.
-        Nfa(MatchNfaType::Auto)
-    }
-
-    /// Returns true if the program is amenable to suffix scanning.
-    ///
-    /// When this is true, as a heuristic, we assume it is OK to quickly scan
-    /// for suffix literals and then do a *reverse* DFA match from any matches
-    /// produced by the literal scan. (And then followed by a forward DFA
-    /// search, since the previously found suffix literal maybe not actually be
-    /// the end of a match.)
-    ///
-    /// This is a bit of a specialized optimization, but can result in pretty
-    /// big performance wins if 1) there are no prefix literals and 2) the
-    /// suffix literals are pretty rare in the text. (1) is obviously easy to
-    /// account for but (2) is harder. As a proxy, we assume that longer
-    /// strings are generally rarer, so we only enable this optimization when
-    /// we have a meaty suffix.
-    fn should_suffix_scan(&self) -> bool {
-        if self.suffixes.is_empty() {
-            return false;
-        }
-        let lcs_len = self.suffixes.lcs().char_len();
-        lcs_len >= 3 && lcs_len > self.dfa.prefixes.lcp().char_len()
-    }
-}
-
-#[derive(Clone, Copy, Debug)]
-enum MatchType {
-    /// A single or multiple literal search. This is only used when the regex
-    /// can be decomposed into a literal search.
-    Literal(MatchLiteralType),
-    /// A normal DFA search.
-    Dfa,
-    /// A reverse DFA search starting from the end of a haystack.
-    DfaAnchoredReverse,
-    /// A reverse DFA search with suffix literal scanning.
-    DfaSuffix,
-    /// Use the DFA on two or more regular expressions.
-    DfaMany,
-    /// An NFA variant.
-    Nfa(MatchNfaType),
-    /// No match is ever possible, so don't ever try to search.
-    Nothing,
-}
-
-#[derive(Clone, Copy, Debug)]
-enum MatchLiteralType {
-    /// Match literals anywhere in text.
-    Unanchored,
-    /// Match literals only at the start of text.
-    AnchoredStart,
-    /// Match literals only at the end of text.
-    AnchoredEnd,
-    /// Use an Aho-Corasick automaton. This requires `ac` to be Some on
-    /// ExecReadOnly.
-    AhoCorasick,
-}
-
-#[derive(Clone, Copy, Debug)]
-enum MatchNfaType {
-    /// Choose between Backtrack and PikeVM.
-    Auto,
-    /// NFA bounded backtracking.
-    ///
-    /// (This is only set by tests, since it never makes sense to always want
-    /// backtracking.)
-    Backtrack,
-    /// The Pike VM.
-    ///
-    /// (This is only set by tests, since it never makes sense to always want
-    /// the Pike VM.)
-    PikeVM,
-}
-
-/// `ProgramCache` maintains reusable allocations for each matching engine
-/// available to a particular program.
-pub type ProgramCache = RefCell<ProgramCacheInner>;
-
-#[derive(Debug)]
-pub struct ProgramCacheInner {
-    pub pikevm: pikevm::Cache,
-    pub backtrack: backtrack::Cache,
-    pub dfa: dfa::Cache,
-    pub dfa_reverse: dfa::Cache,
-}
-
-impl ProgramCacheInner {
-    fn new(ro: &ExecReadOnly) -> Self {
-        ProgramCacheInner {
-            pikevm: pikevm::Cache::new(&ro.nfa),
-            backtrack: backtrack::Cache::new(&ro.nfa),
-            dfa: dfa::Cache::new(&ro.dfa),
-            dfa_reverse: dfa::Cache::new(&ro.dfa_reverse),
-        }
-    }
-}
-
-/// Alternation literals checks if the given HIR is a simple alternation of
-/// literals, and if so, returns them. Otherwise, this returns None.
-fn alternation_literals(expr: &Hir) -> Option<Vec<Vec<u8>>> {
-    use syntax::hir::{HirKind, Literal};
-
-    // This is pretty hacky, but basically, if `is_alternation_literal` is
-    // true, then we can make several assumptions about the structure of our
-    // HIR. This is what justifies the `unreachable!` statements below.
-    //
-    // This code should be refactored once we overhaul this crate's
-    // optimization pipeline, because this is a terribly inflexible way to go
-    // about things.
-
-    if !expr.is_alternation_literal() {
-        return None;
-    }
-    let alts = match *expr.kind() {
-        HirKind::Alternation(ref alts) => alts,
-        _ => return None, // one literal isn't worth it
-    };
-
-    let extendlit = |lit: &Literal, dst: &mut Vec<u8>| {
-        match *lit {
-            Literal::Unicode(c) => {
-                let mut buf = [0; 4];
-                dst.extend_from_slice(c.encode_utf8(&mut buf).as_bytes());
-            }
-            Literal::Byte(b) => {
-                dst.push(b);
-            }
-        }
-    };
-
-    let mut lits = vec![];
-    for alt in alts {
-        let mut lit = vec![];
-        match *alt.kind() {
-            HirKind::Literal(ref x) => extendlit(x, &mut lit),
-            HirKind::Concat(ref exprs) => {
-                for e in exprs {
-                    match *e.kind() {
-                        HirKind::Literal(ref x) => extendlit(x, &mut lit),
-                        _ => unreachable!("expected literal, got {:?}", e),
-                    }
-                }
-            }
-            _ => unreachable!("expected literal or concat, got {:?}", alt),
-        }
-        lits.push(lit);
-    }
-    Some(lits)
-}
-
-#[cfg(test)]
-mod test {
-    #[test]
-    fn uppercut_s_backtracking_bytes_default_bytes_mismatch() {
-        use internal::ExecBuilder;
-
-        let backtrack_bytes_re = ExecBuilder::new("^S")
-            .bounded_backtracking()
-            .only_utf8(false)
-            .build()
-            .map(|exec| exec.into_byte_regex())
-            .map_err(|err| format!("{}", err))
-            .unwrap();
-
-        let default_bytes_re = ExecBuilder::new("^S")
-            .only_utf8(false)
-            .build()
-            .map(|exec| exec.into_byte_regex())
-            .map_err(|err| format!("{}", err))
-            .unwrap();
-
-        let input = vec![83, 83];
-
-        let s1 = backtrack_bytes_re.split(&input);
-        let s2 = default_bytes_re.split(&input);
-        for (chunk1, chunk2) in s1.zip(s2) {
-            assert_eq!(chunk1, chunk2);
-        }
-    }
-
-    #[test]
-    fn unicode_lit_star_backtracking_utf8bytes_default_utf8bytes_mismatch() {
-        use internal::ExecBuilder;
-
-        let backtrack_bytes_re = ExecBuilder::new(r"^(?u:\*)")
-            .bounded_backtracking()
-            .bytes(true)
-            .build()
-            .map(|exec| exec.into_regex())
-            .map_err(|err| format!("{}", err))
-            .unwrap();
-
-        let default_bytes_re = ExecBuilder::new(r"^(?u:\*)")
-            .bytes(true)
-            .build()
-            .map(|exec| exec.into_regex())
-            .map_err(|err| format!("{}", err))
-            .unwrap();
-
-        let input = "**";
-
-        let s1 = backtrack_bytes_re.split(input);
-        let s2 = default_bytes_re.split(input);
-        for (chunk1, chunk2) in s1.zip(s2) {
-            assert_eq!(chunk1, chunk2);
-        }
-    }
-}
-
-
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-
-use std::str;
-
-use memchr::memchr;
-
-use re_bytes;
-use re_unicode;
-
-pub fn expand_str(
-    caps: &re_unicode::Captures,
-    mut replacement: &str,
-    dst: &mut String,
-) {
-    while !replacement.is_empty() {
-        match memchr(b'$', replacement.as_bytes()) {
-            None => break,
-            Some(i) => {
-                dst.push_str(&replacement[..i]);
-                replacement = &replacement[i..];
-            }
-        }
-        if replacement.as_bytes().get(1).map_or(false, |&b| b == b'$') {
-            dst.push_str("$");
-            replacement = &replacement[2..];
-            continue;
-        }
-        debug_assert!(!replacement.is_empty());
-        let cap_ref = match find_cap_ref(replacement) {
-            Some(cap_ref) => cap_ref,
-            None => {
-                dst.push_str("$");
-                replacement = &replacement[1..];
-                continue;
-            }
-        };
-        replacement = &replacement[cap_ref.end..];
-        match cap_ref.cap {
-            Ref::Number(i) => {
-                dst.push_str(
-                    caps.get(i).map(|m| m.as_str()).unwrap_or(""));
-            }
-            Ref::Named(name) => {
-                dst.push_str(
-                    caps.name(name).map(|m| m.as_str()).unwrap_or(""));
-            }
-        }
-    }
-    dst.push_str(replacement);
-}
-
-pub fn expand_bytes(
-    caps: &re_bytes::Captures,
-    mut replacement: &[u8],
-    dst: &mut Vec<u8>,
-) {
-    while !replacement.is_empty() {
-        match memchr(b'$', replacement) {
-            None => break,
-            Some(i) => {
-                dst.extend(&replacement[..i]);
-                replacement = &replacement[i..];
-            }
-        }
-        if replacement.get(1).map_or(false, |&b| b == b'$') {
-            dst.push(b'$');
-            replacement = &replacement[2..];
-            continue;
-        }
-        debug_assert!(!replacement.is_empty());
-        let cap_ref = match find_cap_ref(replacement) {
-            Some(cap_ref) => cap_ref,
-            None => {
-                dst.push(b'$');
-                replacement = &replacement[1..];
-                continue;
-            }
-        };
-        replacement = &replacement[cap_ref.end..];
-        match cap_ref.cap {
-            Ref::Number(i) => {
-                dst.extend(
-                    caps.get(i).map(|m| m.as_bytes()).unwrap_or(b""));
-            }
-            Ref::Named(name) => {
-                dst.extend(
-                    caps.name(name).map(|m| m.as_bytes()).unwrap_or(b""));
-            }
-        }
-    }
-    dst.extend(replacement);
-}
-
-/// `CaptureRef` represents a reference to a capture group inside some text.
-/// The reference is either a capture group name or a number.
-///
-/// It is also tagged with the position in the text following the
-/// capture reference.
-#[derive(Clone, Copy, Debug, Eq, PartialEq)]
-struct CaptureRef<'a> {
-    cap: Ref<'a>,
-    end: usize,
-}
-
-/// A reference to a capture group in some text.
-///
-/// e.g., `$2`, `$foo`, `${foo}`.
-#[derive(Clone, Copy, Debug, Eq, PartialEq)]
-enum Ref<'a> {
-    Named(&'a str),
-    Number(usize),
-}
-
-impl<'a> From<&'a str> for Ref<'a> {
-    fn from(x: &'a str) -> Ref<'a> {
-        Ref::Named(x)
-    }
-}
-
-impl From<usize> for Ref<'static> {
-    fn from(x: usize) -> Ref<'static> {
-        Ref::Number(x)
-    }
-}
-
-/// Parses a possible reference to a capture group name in the given text,
-/// starting at the beginning of `replacement`.
-///
-/// If no such valid reference could be found, None is returned.
-fn find_cap_ref<T: ?Sized + AsRef<[u8]>>(
-    replacement: &T,
-) -> Option<CaptureRef> {
-    let mut i = 0;
-    let rep: &[u8] = replacement.as_ref();
-    if rep.len() <= 1 || rep[0] != b'$' {
-        return None;
-    }
-    let mut brace = false;
-    i += 1;
-    if rep[i] == b'{' {
-        brace = true;
-        i += 1;
-    }
-    let mut cap_end = i;
-    while rep.get(cap_end).map_or(false, is_valid_cap_letter) {
-        cap_end += 1;
-    }
-    if cap_end == i {
-        return None;
-    }
-    // We just verified that the range 0..cap_end is valid ASCII, so it must
-    // therefore be valid UTF-8. If we really cared, we could avoid this UTF-8
-    // check with either unsafe or by parsing the number straight from &[u8].
-    let cap = str::from_utf8(&rep[i..cap_end])
-                  .expect("valid UTF-8 capture name");
-    if brace {
-        if !rep.get(cap_end).map_or(false, |&b| b == b'}') {
-            return None;
-        }
-        cap_end += 1;
-    }
-    Some(CaptureRef {
-        cap: match cap.parse::<u32>() {
-            Ok(i) => Ref::Number(i as usize),
-            Err(_) => Ref::Named(cap),
-        },
-        end: cap_end,
-    })
-}
-
-/// Returns true if and only if the given byte is allowed in a capture name.
-fn is_valid_cap_letter(b: &u8) -> bool {
-    match *b {
-        b'0' ..= b'9' | b'a' ..= b'z' | b'A' ..= b'Z' | b'_' => true,
-        _ => false,
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::{CaptureRef, find_cap_ref};
-
-    macro_rules! find {
-        ($name:ident, $text:expr) => {
-            #[test]
-            fn $name() {
-                assert_eq!(None, find_cap_ref($text));
-            }
-        };
-        ($name:ident, $text:expr, $capref:expr) => {
-            #[test]
-            fn $name() {
-                assert_eq!(Some($capref), find_cap_ref($text));
-            }
-        };
-    }
-
-    macro_rules! c {
-        ($name_or_number:expr, $pos:expr) => {
-            CaptureRef { cap: $name_or_number.into(), end: $pos }
-        };
-    }
-
-    find!(find_cap_ref1, "$foo", c!("foo", 4));
-    find!(find_cap_ref2, "${foo}", c!("foo", 6));
-    find!(find_cap_ref3, "$0", c!(0, 2));
-    find!(find_cap_ref4, "$5", c!(5, 2));
-    find!(find_cap_ref5, "$10", c!(10, 3));
-    // see https://github.com/rust-lang/regex/pull/585 for more on characters following numbers
-    find!(find_cap_ref6, "$42a", c!("42a", 4));
-    find!(find_cap_ref7, "${42}a", c!(42, 5));
-    find!(find_cap_ref8, "${42");
-    find!(find_cap_ref9, "${42 ");
-    find!(find_cap_ref10, " $0 ");
-    find!(find_cap_ref11, "$");
-    find!(find_cap_ref12, " ");
-    find!(find_cap_ref13, "");
-    find!(find_cap_ref14, "$1-$2", c!(1,2));
-    find!(find_cap_ref15, "$1_$2", c!("1_",3));
-    find!(find_cap_ref16, "$x-$y", c!("x",2));
-    find!(find_cap_ref17, "$x_$y", c!("x_",3));
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/freqs.rs.html b/target/doc/src/regex/freqs.rs.html deleted file mode 100644 index 0fe449e..0000000 --- a/target/doc/src/regex/freqs.rs.html +++ /dev/null @@ -1,545 +0,0 @@ -freqs.rs.html -- source
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-
-// Copyright 2012-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-// NOTE: The following code was generated by "scripts/frequencies.py", do not
-// edit directly
-
-pub const BYTE_FREQUENCIES: [u8; 256] = [
-     55, // '\x00'
-     52, // '\x01'
-     51, // '\x02'
-     50, // '\x03'
-     49, // '\x04'
-     48, // '\x05'
-     47, // '\x06'
-     46, // '\x07'
-     45, // '\x08'
-    103, // '\t'
-    242, // '\n'
-     66, // '\x0b'
-     67, // '\x0c'
-    229, // '\r'
-     44, // '\x0e'
-     43, // '\x0f'
-     42, // '\x10'
-     41, // '\x11'
-     40, // '\x12'
-     39, // '\x13'
-     38, // '\x14'
-     37, // '\x15'
-     36, // '\x16'
-     35, // '\x17'
-     34, // '\x18'
-     33, // '\x19'
-     56, // '\x1a'
-     32, // '\x1b'
-     31, // '\x1c'
-     30, // '\x1d'
-     29, // '\x1e'
-     28, // '\x1f'
-    255, // ' '
-    148, // '!'
-    164, // '"'
-    149, // '#'
-    136, // '$'
-    160, // '%'
-    155, // '&'
-    173, // "'"
-    221, // '('
-    222, // ')'
-    134, // '*'
-    122, // '+'
-    232, // ','
-    202, // '-'
-    215, // '.'
-    224, // '/'
-    208, // '0'
-    220, // '1'
-    204, // '2'
-    187, // '3'
-    183, // '4'
-    179, // '5'
-    177, // '6'
-    168, // '7'
-    178, // '8'
-    200, // '9'
-    226, // ':'
-    195, // ';'
-    154, // '<'
-    184, // '='
-    174, // '>'
-    126, // '?'
-    120, // '@'
-    191, // 'A'
-    157, // 'B'
-    194, // 'C'
-    170, // 'D'
-    189, // 'E'
-    162, // 'F'
-    161, // 'G'
-    150, // 'H'
-    193, // 'I'
-    142, // 'J'
-    137, // 'K'
-    171, // 'L'
-    176, // 'M'
-    185, // 'N'
-    167, // 'O'
-    186, // 'P'
-    112, // 'Q'
-    175, // 'R'
-    192, // 'S'
-    188, // 'T'
-    156, // 'U'
-    140, // 'V'
-    143, // 'W'
-    123, // 'X'
-    133, // 'Y'
-    128, // 'Z'
-    147, // '['
-    138, // '\\'
-    146, // ']'
-    114, // '^'
-    223, // '_'
-    151, // '`'
-    249, // 'a'
-    216, // 'b'
-    238, // 'c'
-    236, // 'd'
-    253, // 'e'
-    227, // 'f'
-    218, // 'g'
-    230, // 'h'
-    247, // 'i'
-    135, // 'j'
-    180, // 'k'
-    241, // 'l'
-    233, // 'm'
-    246, // 'n'
-    244, // 'o'
-    231, // 'p'
-    139, // 'q'
-    245, // 'r'
-    243, // 's'
-    251, // 't'
-    235, // 'u'
-    201, // 'v'
-    196, // 'w'
-    240, // 'x'
-    214, // 'y'
-    152, // 'z'
-    182, // '{'
-    205, // '|'
-    181, // '}'
-    127, // '~'
-     27, // '\x7f'
-    212, // '\x80'
-    211, // '\x81'
-    210, // '\x82'
-    213, // '\x83'
-    228, // '\x84'
-    197, // '\x85'
-    169, // '\x86'
-    159, // '\x87'
-    131, // '\x88'
-    172, // '\x89'
-    105, // '\x8a'
-     80, // '\x8b'
-     98, // '\x8c'
-     96, // '\x8d'
-     97, // '\x8e'
-     81, // '\x8f'
-    207, // '\x90'
-    145, // '\x91'
-    116, // '\x92'
-    115, // '\x93'
-    144, // '\x94'
-    130, // '\x95'
-    153, // '\x96'
-    121, // '\x97'
-    107, // '\x98'
-    132, // '\x99'
-    109, // '\x9a'
-    110, // '\x9b'
-    124, // '\x9c'
-    111, // '\x9d'
-     82, // '\x9e'
-    108, // '\x9f'
-    118, // '\xa0'
-    141, // '¡'
-    113, // '¢'
-    129, // '£'
-    119, // '¤'
-    125, // '¥'
-    165, // '¦'
-    117, // '§'
-     92, // '¨'
-    106, // '©'
-     83, // 'ª'
-     72, // '«'
-     99, // '¬'
-     93, // '\xad'
-     65, // '®'
-     79, // '¯'
-    166, // '°'
-    237, // '±'
-    163, // '²'
-    199, // '³'
-    190, // '´'
-    225, // 'µ'
-    209, // '¶'
-    203, // '·'
-    198, // '¸'
-    217, // '¹'
-    219, // 'º'
-    206, // '»'
-    234, // '¼'
-    248, // '½'
-    158, // '¾'
-    239, // '¿'
-    255, // 'À'
-    255, // 'Á'
-    255, // 'Â'
-    255, // 'Ã'
-    255, // 'Ä'
-    255, // 'Å'
-    255, // 'Æ'
-    255, // 'Ç'
-    255, // 'È'
-    255, // 'É'
-    255, // 'Ê'
-    255, // 'Ë'
-    255, // 'Ì'
-    255, // 'Í'
-    255, // 'Î'
-    255, // 'Ï'
-    255, // 'Ð'
-    255, // 'Ñ'
-    255, // 'Ò'
-    255, // 'Ó'
-    255, // 'Ô'
-    255, // 'Õ'
-    255, // 'Ö'
-    255, // '×'
-    255, // 'Ø'
-    255, // 'Ù'
-    255, // 'Ú'
-    255, // 'Û'
-    255, // 'Ü'
-    255, // 'Ý'
-    255, // 'Þ'
-    255, // 'ß'
-    255, // 'à'
-    255, // 'á'
-    255, // 'â'
-    255, // 'ã'
-    255, // 'ä'
-    255, // 'å'
-    255, // 'æ'
-    255, // 'ç'
-    255, // 'è'
-    255, // 'é'
-    255, // 'ê'
-    255, // 'ë'
-    255, // 'ì'
-    255, // 'í'
-    255, // 'î'
-    255, // 'ï'
-    255, // 'ð'
-    255, // 'ñ'
-    255, // 'ò'
-    255, // 'ó'
-    255, // 'ô'
-    255, // 'õ'
-    255, // 'ö'
-    255, // '÷'
-    255, // 'ø'
-    255, // 'ù'
-    255, // 'ú'
-    255, // 'û'
-    255, // 'ü'
-    255, // 'ý'
-    255, // 'þ'
-    255, // 'ÿ'
-];
-
-
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::char;
-use std::cmp::Ordering;
-use std::fmt;
-use std::ops;
-use std::u32;
-
-use syntax;
-
-use literal::LiteralSearcher;
-use prog::InstEmptyLook;
-use utf8::{decode_utf8, decode_last_utf8};
-
-/// Represents a location in the input.
-#[derive(Clone, Copy, Debug)]
-pub struct InputAt {
-    pos: usize,
-    c: Char,
-    byte: Option<u8>,
-    len: usize,
-}
-
-impl InputAt {
-    /// Returns true iff this position is at the beginning of the input.
-    pub fn is_start(&self) -> bool {
-        self.pos == 0
-    }
-
-    /// Returns true iff this position is past the end of the input.
-    pub fn is_end(&self) -> bool {
-        self.c.is_none() && self.byte.is_none()
-    }
-
-    /// Returns the character at this position.
-    ///
-    /// If this position is just before or after the input, then an absent
-    /// character is returned.
-    pub fn char(&self) -> Char {
-        self.c
-    }
-
-    /// Returns the byte at this position.
-    pub fn byte(&self) -> Option<u8> {
-        self.byte
-    }
-
-    /// Returns the UTF-8 width of the character at this position.
-    pub fn len(&self) -> usize {
-        self.len
-    }
-
-    /// Returns whether the UTF-8 width of the character at this position
-    /// is zero.
-    pub fn is_empty(&self) -> bool {
-        self.len == 0
-    }
-
-    /// Returns the byte offset of this position.
-    pub fn pos(&self) -> usize {
-        self.pos
-    }
-
-    /// Returns the byte offset of the next position in the input.
-    pub fn next_pos(&self) -> usize {
-        self.pos + self.len
-    }
-}
-
-/// An abstraction over input used in the matching engines.
-pub trait Input {
-    /// Return an encoding of the position at byte offset `i`.
-    fn at(&self, i: usize) -> InputAt;
-
-    /// Return the Unicode character occurring next to `at`.
-    ///
-    /// If no such character could be decoded, then `Char` is absent.
-    fn next_char(&self, at: InputAt) -> Char;
-
-    /// Return the Unicode character occurring previous to `at`.
-    ///
-    /// If no such character could be decoded, then `Char` is absent.
-    fn previous_char(&self, at: InputAt) -> Char;
-
-    /// Return true if the given empty width instruction matches at the
-    /// input position given.
-    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool;
-
-    /// Scan the input for a matching prefix.
-    fn prefix_at(
-        &self,
-        prefixes: &LiteralSearcher,
-        at: InputAt,
-    ) -> Option<InputAt>;
-
-    /// The number of bytes in the input.
-    fn len(&self) -> usize;
-
-    /// Whether the input is empty.
-    fn is_empty(&self) -> bool { self.len() == 0 }
-
-    /// Return the given input as a sequence of bytes.
-    fn as_bytes(&self) -> &[u8];
-}
-
-impl<'a, T: Input> Input for &'a T {
-    fn at(&self, i: usize) -> InputAt { (**self).at(i) }
-
-    fn next_char(&self, at: InputAt) -> Char { (**self).next_char(at) }
-
-    fn previous_char(&self, at: InputAt) -> Char { (**self).previous_char(at) }
-
-    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool {
-        (**self).is_empty_match(at, empty)
-    }
-
-    fn prefix_at(
-        &self,
-        prefixes: &LiteralSearcher,
-        at: InputAt,
-    ) -> Option<InputAt> {
-        (**self).prefix_at(prefixes, at)
-    }
-
-    fn len(&self) -> usize { (**self).len() }
-
-    fn as_bytes(&self) -> &[u8] { (**self).as_bytes() }
-}
-
-/// An input reader over characters.
-#[derive(Clone, Copy, Debug)]
-pub struct CharInput<'t>(&'t [u8]);
-
-impl<'t> CharInput<'t> {
-    /// Return a new character input reader for the given string.
-    pub fn new(s: &'t [u8]) -> CharInput<'t> {
-        CharInput(s)
-    }
-}
-
-impl<'t> ops::Deref for CharInput<'t> {
-    type Target = [u8];
-
-    fn deref(&self) -> &[u8] {
-        self.0
-    }
-}
-
-impl<'t> Input for CharInput<'t> {
-    fn at(&self, i: usize) -> InputAt {
-        let c = decode_utf8(&self[i..]).map(|(c, _)| c).into();
-        InputAt {
-            pos: i,
-            c: c,
-            byte: None,
-            len: c.len_utf8(),
-        }
-    }
-
-    fn next_char(&self, at: InputAt) -> Char {
-        at.char()
-    }
-
-    fn previous_char(&self, at: InputAt) -> Char {
-        decode_last_utf8(&self[..at.pos()]).map(|(c, _)| c).into()
-    }
-
-    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool {
-        use prog::EmptyLook::*;
-        match empty.look {
-            StartLine => {
-                let c = self.previous_char(at);
-                at.pos() == 0 || c == '\n'
-            }
-            EndLine => {
-                let c = self.next_char(at);
-                at.pos() == self.len() || c == '\n'
-            }
-            StartText => at.pos() == 0,
-            EndText => at.pos() == self.len(),
-            WordBoundary => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                c1.is_word_char() != c2.is_word_char()
-            }
-            NotWordBoundary => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                c1.is_word_char() == c2.is_word_char()
-            }
-            WordBoundaryAscii => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                c1.is_word_byte() != c2.is_word_byte()
-            }
-            NotWordBoundaryAscii => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                c1.is_word_byte() == c2.is_word_byte()
-            }
-        }
-    }
-
-    fn prefix_at(
-        &self,
-        prefixes: &LiteralSearcher,
-        at: InputAt,
-    ) -> Option<InputAt> {
-        prefixes.find(&self[at.pos()..]).map(|(s, _)| self.at(at.pos() + s))
-    }
-
-    fn len(&self) -> usize {
-        self.0.len()
-    }
-
-    fn as_bytes(&self) -> &[u8] {
-        self.0
-    }
-}
-
-/// An input reader over bytes.
-#[derive(Clone, Copy, Debug)]
-pub struct ByteInput<'t> {
-    text: &'t [u8],
-    only_utf8: bool,
-}
-
-impl<'t> ByteInput<'t> {
-    /// Return a new byte-based input reader for the given string.
-    pub fn new(text: &'t [u8], only_utf8: bool) -> ByteInput<'t> {
-        ByteInput {
-            text: text,
-            only_utf8: only_utf8,
-        }
-    }
-}
-
-impl<'t> ops::Deref for ByteInput<'t> {
-    type Target = [u8];
-
-    fn deref(&self) -> &[u8] {
-        self.text
-    }
-}
-
-impl<'t> Input for ByteInput<'t> {
-    fn at(&self, i: usize) -> InputAt {
-        InputAt {
-            pos: i,
-            c: None.into(),
-            byte: self.get(i).cloned(),
-            len: 1,
-        }
-    }
-
-    fn next_char(&self, at: InputAt) -> Char {
-        decode_utf8(&self[at.pos()..]).map(|(c, _)| c).into()
-    }
-
-    fn previous_char(&self, at: InputAt) -> Char {
-        decode_last_utf8(&self[..at.pos()]).map(|(c, _)| c).into()
-    }
-
-    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool {
-        use prog::EmptyLook::*;
-        match empty.look {
-            StartLine => {
-                let c = self.previous_char(at);
-                at.pos() == 0 || c == '\n'
-            }
-            EndLine => {
-                let c = self.next_char(at);
-                at.pos() == self.len() || c == '\n'
-            }
-            StartText => at.pos() == 0,
-            EndText => at.pos() == self.len(),
-            WordBoundary => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                c1.is_word_char() != c2.is_word_char()
-            }
-            NotWordBoundary => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                c1.is_word_char() == c2.is_word_char()
-            }
-            WordBoundaryAscii => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                if self.only_utf8 {
-                    // If we must match UTF-8, then we can't match word
-                    // boundaries at invalid UTF-8.
-                    if c1.is_none() && !at.is_start() {
-                        return false;
-                    }
-                    if c2.is_none() && !at.is_end() {
-                        return false;
-                    }
-                }
-                c1.is_word_byte() != c2.is_word_byte()
-            }
-            NotWordBoundaryAscii => {
-                let (c1, c2) = (self.previous_char(at), self.next_char(at));
-                if self.only_utf8 {
-                    // If we must match UTF-8, then we can't match word
-                    // boundaries at invalid UTF-8.
-                    if c1.is_none() && !at.is_start() {
-                        return false;
-                    }
-                    if c2.is_none() && !at.is_end() {
-                        return false;
-                    }
-                }
-                c1.is_word_byte() == c2.is_word_byte()
-            }
-        }
-    }
-
-    fn prefix_at(
-        &self,
-        prefixes: &LiteralSearcher,
-        at: InputAt,
-    ) -> Option<InputAt> {
-        prefixes.find(&self[at.pos()..]).map(|(s, _)| self.at(at.pos() + s))
-    }
-
-    fn len(&self) -> usize {
-        self.text.len()
-    }
-
-    fn as_bytes(&self) -> &[u8] {
-        self.text
-    }
-}
-
-/// An inline representation of `Option<char>`.
-///
-/// This eliminates the need to do case analysis on `Option<char>` to determine
-/// ordinality with other characters.
-///
-/// (The `Option<char>` is not related to encoding. Instead, it is used in the
-/// matching engines to represent the beginning and ending boundaries of the
-/// search text.)
-#[derive(Clone, Copy, Hash, PartialEq, Eq, PartialOrd, Ord)]
-pub struct Char(u32);
-
-impl fmt::Debug for Char {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        match char::from_u32(self.0) {
-            None => write!(f, "Empty"),
-            Some(c) => write!(f, "{:?}", c),
-        }
-    }
-}
-
-impl Char {
-    /// Returns true iff the character is absent.
-    #[inline]
-    pub fn is_none(self) -> bool { self.0 == u32::MAX }
-
-    /// Returns the length of the character's UTF-8 encoding.
-    ///
-    /// If the character is absent, then `0` is returned.
-    #[inline]
-    pub fn len_utf8(self) -> usize {
-        char::from_u32(self.0).map_or(0, |c| c.len_utf8())
-    }
-
-    /// Returns true iff the character is a word character.
-    ///
-    /// If the character is absent, then false is returned.
-    pub fn is_word_char(self) -> bool {
-        char::from_u32(self.0).map_or(false, syntax::is_word_character)
-    }
-
-    /// Returns true iff the byte is a word byte.
-    ///
-    /// If the byte is absent, then false is returned.
-    pub fn is_word_byte(self) -> bool {
-        match char::from_u32(self.0) {
-            Some(c) if c <= '\u{7F}' => syntax::is_word_byte(c as u8),
-            None | Some(_) => false,
-        }
-    }
-}
-
-impl From<char> for Char {
-    fn from(c: char) -> Char { Char(c as u32) }
-}
-
-impl From<Option<char>> for Char {
-    fn from(c: Option<char>) -> Char {
-        c.map_or(Char(u32::MAX), |c| c.into())
-    }
-}
-
-impl PartialEq<char> for Char {
-    #[inline]
-    fn eq(&self, other: &char) -> bool { self.0 == *other as u32 }
-}
-
-impl PartialEq<Char> for char {
-    #[inline]
-    fn eq(&self, other: &Char) -> bool { *self as u32 == other.0 }
-}
-
-impl PartialOrd<char> for Char {
-    #[inline]
-    fn partial_cmp(&self, other: &char) -> Option<Ordering> {
-        self.0.partial_cmp(&(*other as u32))
-    }
-}
-
-impl PartialOrd<Char> for char {
-    #[inline]
-    fn partial_cmp(&self, other: &Char) -> Option<Ordering> {
-        (*self as u32).partial_cmp(&other.0)
-    }
-}
-
-
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-This crate provides a library for parsing, compiling, and executing regular
-expressions. Its syntax is similar to Perl-style regular expressions, but lacks
-a few features like look around and backreferences. In exchange, all searches
-execute in linear time with respect to the size of the regular expression and
-search text.
-
-This crate's documentation provides some simple examples, describes
-[Unicode support](#unicode) and exhaustively lists the
-[supported syntax](#syntax).
-
-For more specific details on the API for regular expressions, please see the
-documentation for the [`Regex`](struct.Regex.html) type.
-
-# Usage
-
-This crate is [on crates.io](https://crates.io/crates/regex) and can be
-used by adding `regex` to your dependencies in your project's `Cargo.toml`.
-
-```toml
-[dependencies]
-regex = "1"
-```
-
-and this to your crate root:
-
-```rust
-extern crate regex;
-```
-
-# Example: find a date
-
-General use of regular expressions in this package involves compiling an
-expression and then using it to search, split or replace text. For example,
-to confirm that some text resembles a date:
-
-```rust
-use regex::Regex;
-let re = Regex::new(r"^\d{4}-\d{2}-\d{2}$").unwrap();
-assert!(re.is_match("2014-01-01"));
-```
-
-Notice the use of the `^` and `$` anchors. In this crate, every expression
-is executed with an implicit `.*?` at the beginning and end, which allows
-it to match anywhere in the text. Anchors can be used to ensure that the
-full text matches an expression.
-
-This example also demonstrates the utility of
-[raw strings](https://doc.rust-lang.org/stable/reference/tokens.html#raw-string-literals)
-in Rust, which
-are just like regular strings except they are prefixed with an `r` and do
-not process any escape sequences. For example, `"\\d"` is the same
-expression as `r"\d"`.
-
-# Example: Avoid compiling the same regex in a loop
-
-It is an anti-pattern to compile the same regular expression in a loop
-since compilation is typically expensive. (It takes anywhere from a few
-microseconds to a few **milliseconds** depending on the size of the
-regex.) Not only is compilation itself expensive, but this also prevents
-optimizations that reuse allocations internally to the matching engines.
-
-In Rust, it can sometimes be a pain to pass regular expressions around if
-they're used from inside a helper function. Instead, we recommend using the
-[`lazy_static`](https://crates.io/crates/lazy_static) crate to ensure that
-regular expressions are compiled exactly once.
-
-For example:
-
-```rust
-#[macro_use] extern crate lazy_static;
-extern crate regex;
-
-use regex::Regex;
-
-fn some_helper_function(text: &str) -> bool {
-    lazy_static! {
-        static ref RE: Regex = Regex::new("...").unwrap();
-    }
-    RE.is_match(text)
-}
-
-fn main() {}
-```
-
-Specifically, in this example, the regex will be compiled when it is used for
-the first time. On subsequent uses, it will reuse the previous compilation.
-
-# Example: iterating over capture groups
-
-This crate provides convenient iterators for matching an expression
-repeatedly against a search string to find successive non-overlapping
-matches. For example, to find all dates in a string and be able to access
-them by their component pieces:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"(\d{4})-(\d{2})-(\d{2})").unwrap();
-let text = "2012-03-14, 2013-01-01 and 2014-07-05";
-for cap in re.captures_iter(text) {
-    println!("Month: {} Day: {} Year: {}", &cap[2], &cap[3], &cap[1]);
-}
-// Output:
-// Month: 03 Day: 14 Year: 2012
-// Month: 01 Day: 01 Year: 2013
-// Month: 07 Day: 05 Year: 2014
-# }
-```
-
-Notice that the year is in the capture group indexed at `1`. This is
-because the *entire match* is stored in the capture group at index `0`.
-
-# Example: replacement with named capture groups
-
-Building on the previous example, perhaps we'd like to rearrange the date
-formats. This can be done with text replacement. But to make the code
-clearer, we can *name*  our capture groups and use those names as variables
-in our replacement text:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"(?P<y>\d{4})-(?P<m>\d{2})-(?P<d>\d{2})").unwrap();
-let before = "2012-03-14, 2013-01-01 and 2014-07-05";
-let after = re.replace_all(before, "$m/$d/$y");
-assert_eq!(after, "03/14/2012, 01/01/2013 and 07/05/2014");
-# }
-```
-
-The `replace` methods are actually polymorphic in the replacement, which
-provides more flexibility than is seen here. (See the documentation for
-`Regex::replace` for more details.)
-
-Note that if your regex gets complicated, you can use the `x` flag to
-enable insignificant whitespace mode, which also lets you write comments:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"(?x)
-  (?P<y>\d{4}) # the year
-  -
-  (?P<m>\d{2}) # the month
-  -
-  (?P<d>\d{2}) # the day
-").unwrap();
-let before = "2012-03-14, 2013-01-01 and 2014-07-05";
-let after = re.replace_all(before, "$m/$d/$y");
-assert_eq!(after, "03/14/2012, 01/01/2013 and 07/05/2014");
-# }
-```
-
-If you wish to match against whitespace in this mode, you can still use `\s`,
-`\n`, `\t`, etc. For escaping a single space character, you can use its hex
-character code `\x20` or temporarily disable the `x` flag, e.g., `(?-x: )`.
-
-# Example: match multiple regular expressions simultaneously
-
-This demonstrates how to use a `RegexSet` to match multiple (possibly
-overlapping) regular expressions in a single scan of the search text:
-
-```rust
-use regex::RegexSet;
-
-let set = RegexSet::new(&[
-    r"\w+",
-    r"\d+",
-    r"\pL+",
-    r"foo",
-    r"bar",
-    r"barfoo",
-    r"foobar",
-]).unwrap();
-
-// Iterate over and collect all of the matches.
-let matches: Vec<_> = set.matches("foobar").into_iter().collect();
-assert_eq!(matches, vec![0, 2, 3, 4, 6]);
-
-// You can also test whether a particular regex matched:
-let matches = set.matches("foobar");
-assert!(!matches.matched(5));
-assert!(matches.matched(6));
-```
-
-# Pay for what you use
-
-With respect to searching text with a regular expression, there are three
-questions that can be asked:
-
-1. Does the text match this expression?
-2. If so, where does it match?
-3. Where did the capturing groups match?
-
-Generally speaking, this crate could provide a function to answer only #3,
-which would subsume #1 and #2 automatically. However, it can be significantly
-more expensive to compute the location of capturing group matches, so it's best
-not to do it if you don't need to.
-
-Therefore, only use what you need. For example, don't use `find` if you
-only need to test if an expression matches a string. (Use `is_match`
-instead.)
-
-# Unicode
-
-This implementation executes regular expressions **only** on valid UTF-8
-while exposing match locations as byte indices into the search string.
-
-Only simple case folding is supported. Namely, when matching
-case-insensitively, the characters are first mapped using the "simple" case
-folding rules defined by Unicode.
-
-Regular expressions themselves are **only** interpreted as a sequence of
-Unicode scalar values. This means you can use Unicode characters directly
-in your expression:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"(?i)Δ+").unwrap();
-let mat = re.find("ΔδΔ").unwrap();
-assert_eq!((mat.start(), mat.end()), (0, 6));
-# }
-```
-
-Most features of the regular expressions in this crate are Unicode aware. Here
-are some examples:
-
-* `.` will match any valid UTF-8 encoded Unicode scalar value except for `\n`.
-  (To also match `\n`, enable the `s` flag, e.g., `(?s:.)`.)
-* `\w`, `\d` and `\s` are Unicode aware. For example, `\s` will match all forms
-  of whitespace categorized by Unicode.
-* `\b` matches a Unicode word boundary.
-* Negated character classes like `[^a]` match all Unicode scalar values except
-  for `a`.
-* `^` and `$` are **not** Unicode aware in multi-line mode. Namely, they only
-  recognize `\n` and not any of the other forms of line terminators defined
-  by Unicode.
-
-Unicode general categories, scripts, script extensions, ages and a smattering
-of boolean properties are available as character classes. For example, you can
-match a sequence of numerals, Greek or Cherokee letters:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"[\pN\p{Greek}\p{Cherokee}]+").unwrap();
-let mat = re.find("abcΔᎠβⅠᏴγδⅡxyz").unwrap();
-assert_eq!((mat.start(), mat.end()), (3, 23));
-# }
-```
-
-For a more detailed breakdown of Unicode support with respect to
-[UTS#18](http://unicode.org/reports/tr18/),
-please see the
-[UNICODE](https://github.com/rust-lang/regex/blob/master/UNICODE.md)
-document in the root of the regex repository.
-
-# Opt out of Unicode support
-
-The `bytes` sub-module provides a `Regex` type that can be used to match
-on `&[u8]`. By default, text is interpreted as UTF-8 just like it is with
-the main `Regex` type. However, this behavior can be disabled by turning
-off the `u` flag, even if doing so could result in matching invalid UTF-8.
-For example, when the `u` flag is disabled, `.` will match any byte instead
-of any Unicode scalar value.
-
-Disabling the `u` flag is also possible with the standard `&str`-based `Regex`
-type, but it is only allowed where the UTF-8 invariant is maintained. For
-example, `(?-u:\w)` is an ASCII-only `\w` character class and is legal in an
-`&str`-based `Regex`, but `(?-u:\xFF)` will attempt to match the raw byte
-`\xFF`, which is invalid UTF-8 and therefore is illegal in `&str`-based
-regexes.
-
-# Syntax
-
-The syntax supported in this crate is documented below.
-
-Note that the regular expression parser and abstract syntax are exposed in
-a separate crate, [`regex-syntax`](https://docs.rs/regex-syntax).
-
-## Matching one character
-
-<pre class="rust">
-.             any character except new line (includes new line with s flag)
-\d            digit (\p{Nd})
-\D            not digit
-\pN           One-letter name Unicode character class
-\p{Greek}     Unicode character class (general category or script)
-\PN           Negated one-letter name Unicode character class
-\P{Greek}     negated Unicode character class (general category or script)
-</pre>
-
-### Character classes
-
-<pre class="rust">
-[xyz]         A character class matching either x, y or z (union).
-[^xyz]        A character class matching any character except x, y and z.
-[a-z]         A character class matching any character in range a-z.
-[[:alpha:]]   ASCII character class ([A-Za-z])
-[[:^alpha:]]  Negated ASCII character class ([^A-Za-z])
-[x[^xyz]]     Nested/grouping character class (matching any character except y and z)
-[a-y&&xyz]    Intersection (matching x or y)
-[0-9&&[^4]]   Subtraction using intersection and negation (matching 0-9 except 4)
-[0-9--4]      Direct subtraction (matching 0-9 except 4)
-[a-g~~b-h]    Symmetric difference (matching `a` and `h` only)
-[\[\]]        Escaping in character classes (matching [ or ])
-</pre>
-
-Any named character class may appear inside a bracketed `[...]` character
-class. For example, `[\p{Greek}[:digit:]]` matches any Greek or ASCII
-digit. `[\p{Greek}&&\pL]` matches Greek letters.
-
-Precedence in character classes, from most binding to least:
-
-1. Ranges: `a-cd` == `[a-c]d`
-2. Union: `ab&&bc` == `[ab]&&[bc]`
-3. Intersection: `^a-z&&b` == `^[a-z&&b]`
-4. Negation
-
-## Composites
-
-<pre class="rust">
-xy    concatenation (x followed by y)
-x|y   alternation (x or y, prefer x)
-</pre>
-
-## Repetitions
-
-<pre class="rust">
-x*        zero or more of x (greedy)
-x+        one or more of x (greedy)
-x?        zero or one of x (greedy)
-x*?       zero or more of x (ungreedy/lazy)
-x+?       one or more of x (ungreedy/lazy)
-x??       zero or one of x (ungreedy/lazy)
-x{n,m}    at least n x and at most m x (greedy)
-x{n,}     at least n x (greedy)
-x{n}      exactly n x
-x{n,m}?   at least n x and at most m x (ungreedy/lazy)
-x{n,}?    at least n x (ungreedy/lazy)
-x{n}?     exactly n x
-</pre>
-
-## Empty matches
-
-<pre class="rust">
-^     the beginning of text (or start-of-line with multi-line mode)
-$     the end of text (or end-of-line with multi-line mode)
-\A    only the beginning of text (even with multi-line mode enabled)
-\z    only the end of text (even with multi-line mode enabled)
-\b    a Unicode word boundary (\w on one side and \W, \A, or \z on other)
-\B    not a Unicode word boundary
-</pre>
-
-## Grouping and flags
-
-<pre class="rust">
-(exp)          numbered capture group (indexed by opening parenthesis)
-(?P&lt;name&gt;exp)  named (also numbered) capture group (allowed chars: [_0-9a-zA-Z])
-(?:exp)        non-capturing group
-(?flags)       set flags within current group
-(?flags:exp)   set flags for exp (non-capturing)
-</pre>
-
-Flags are each a single character. For example, `(?x)` sets the flag `x`
-and `(?-x)` clears the flag `x`. Multiple flags can be set or cleared at
-the same time: `(?xy)` sets both the `x` and `y` flags and `(?x-y)` sets
-the `x` flag and clears the `y` flag.
-
-All flags are by default disabled unless stated otherwise. They are:
-
-<pre class="rust">
-i     case-insensitive: letters match both upper and lower case
-m     multi-line mode: ^ and $ match begin/end of line
-s     allow . to match \n
-U     swap the meaning of x* and x*?
-u     Unicode support (enabled by default)
-x     ignore whitespace and allow line comments (starting with `#`)
-</pre>
-
-Flags can be toggled within a pattern. Here's an example that matches
-case-insensitively for the first part but case-sensitively for the second part:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"(?i)a+(?-i)b+").unwrap();
-let cap = re.captures("AaAaAbbBBBb").unwrap();
-assert_eq!(&cap[0], "AaAaAbb");
-# }
-```
-
-Notice that the `a+` matches either `a` or `A`, but the `b+` only matches
-`b`.
-
-Multi-line mode means `^` and `$` no longer match just at the beginning/end of
-the input, but at the beginning/end of lines:
-
-```
-# use regex::Regex;
-let re = Regex::new(r"(?m)^line \d+").unwrap();
-let m = re.find("line one\nline 2\n").unwrap();
-assert_eq!(m.as_str(), "line 2");
-```
-
-Note that `^` matches after new lines, even at the end of input:
-
-```
-# use regex::Regex;
-let re = Regex::new(r"(?m)^").unwrap();
-let m = re.find_iter("test\n").last().unwrap();
-assert_eq!((m.start(), m.end()), (5, 5));
-```
-
-Here is an example that uses an ASCII word boundary instead of a Unicode
-word boundary:
-
-```rust
-# extern crate regex; use regex::Regex;
-# fn main() {
-let re = Regex::new(r"(?-u:\b).+(?-u:\b)").unwrap();
-let cap = re.captures("$$abc$$").unwrap();
-assert_eq!(&cap[0], "abc");
-# }
-```
-
-## Escape sequences
-
-<pre class="rust">
-\*          literal *, works for any punctuation character: \.+*?()|[]{}^$
-\a          bell (\x07)
-\f          form feed (\x0C)
-\t          horizontal tab
-\n          new line
-\r          carriage return
-\v          vertical tab (\x0B)
-\123        octal character code (up to three digits) (when enabled)
-\x7F        hex character code (exactly two digits)
-\x{10FFFF}  any hex character code corresponding to a Unicode code point
-\u007F      hex character code (exactly four digits)
-\u{7F}      any hex character code corresponding to a Unicode code point
-\U0000007F  hex character code (exactly eight digits)
-\U{7F}      any hex character code corresponding to a Unicode code point
-</pre>
-
-## Perl character classes (Unicode friendly)
-
-These classes are based on the definitions provided in
-[UTS#18](http://www.unicode.org/reports/tr18/#Compatibility_Properties):
-
-<pre class="rust">
-\d     digit (\p{Nd})
-\D     not digit
-\s     whitespace (\p{White_Space})
-\S     not whitespace
-\w     word character (\p{Alphabetic} + \p{M} + \d + \p{Pc} + \p{Join_Control})
-\W     not word character
-</pre>
-
-## ASCII character classes
-
-<pre class="rust">
-[[:alnum:]]    alphanumeric ([0-9A-Za-z])
-[[:alpha:]]    alphabetic ([A-Za-z])
-[[:ascii:]]    ASCII ([\x00-\x7F])
-[[:blank:]]    blank ([\t ])
-[[:cntrl:]]    control ([\x00-\x1F\x7F])
-[[:digit:]]    digits ([0-9])
-[[:graph:]]    graphical ([!-~])
-[[:lower:]]    lower case ([a-z])
-[[:print:]]    printable ([ -~])
-[[:punct:]]    punctuation ([!-/:-@\[-`{-~])
-[[:space:]]    whitespace ([\t\n\v\f\r ])
-[[:upper:]]    upper case ([A-Z])
-[[:word:]]     word characters ([0-9A-Za-z_])
-[[:xdigit:]]   hex digit ([0-9A-Fa-f])
-</pre>
-
-# Untrusted input
-
-This crate can handle both untrusted regular expressions and untrusted
-search text.
-
-Untrusted regular expressions are handled by capping the size of a compiled
-regular expression.
-(See [`RegexBuilder::size_limit`](struct.RegexBuilder.html#method.size_limit).)
-Without this, it would be trivial for an attacker to exhaust your system's
-memory with expressions like `a{100}{100}{100}`.
-
-Untrusted search text is allowed because the matching engine(s) in this
-crate have time complexity `O(mn)` (with `m ~ regex` and `n ~ search
-text`), which means there's no way to cause exponential blow-up like with
-some other regular expression engines. (We pay for this by disallowing
-features like arbitrary look-ahead and backreferences.)
-
-When a DFA is used, pathological cases with exponential state blow-up are
-avoided by constructing the DFA lazily or in an "online" manner. Therefore,
-at most one new state can be created for each byte of input. This satisfies
-our time complexity guarantees, but can lead to memory growth
-proportional to the size of the input. As a stopgap, the DFA is only
-allowed to store a fixed number of states. When the limit is reached, its
-states are wiped and continues on, possibly duplicating previous work. If
-the limit is reached too frequently, it gives up and hands control off to
-another matching engine with fixed memory requirements.
-(The DFA size limit can also be tweaked. See
-[`RegexBuilder::dfa_size_limit`](struct.RegexBuilder.html#method.dfa_size_limit).)
-*/
-
-#![deny(missing_docs)]
-#![cfg_attr(test, deny(warnings))]
-#![cfg_attr(feature = "pattern", feature(pattern))]
-
-#[cfg(not(feature = "use_std"))]
-compile_error!("`use_std` feature is currently required to build this crate");
-
-extern crate aho_corasick;
-extern crate memchr;
-extern crate thread_local;
-#[cfg(test)]
-#[macro_use]
-extern crate quickcheck;
-extern crate regex_syntax as syntax;
-extern crate utf8_ranges;
-#[cfg(test)]
-extern crate doc_comment;
-
-#[cfg(test)]
-doc_comment::doctest!("../README.md");
-
-#[cfg(feature = "use_std")]
-pub use error::Error;
-#[cfg(feature = "use_std")]
-pub use re_builder::unicode::*;
-#[cfg(feature = "use_std")]
-pub use re_builder::set_unicode::*;
-#[cfg(feature = "use_std")]
-pub use re_set::unicode::*;
-#[cfg(feature = "use_std")]
-#[cfg(feature = "use_std")]
-pub use re_unicode::{
-    Regex, Match, Captures,
-    CaptureNames, Matches, CaptureMatches, SubCaptureMatches,
-    CaptureLocations, Locations,
-    Replacer, ReplacerRef, NoExpand, Split, SplitN,
-    escape,
-};
-
-/**
-Match regular expressions on arbitrary bytes.
-
-This module provides a nearly identical API to the one found in the
-top-level of this crate. There are two important differences:
-
-1. Matching is done on `&[u8]` instead of `&str`. Additionally, `Vec<u8>`
-is used where `String` would have been used.
-2. Unicode support can be disabled even when disabling it would result in
-matching invalid UTF-8 bytes.
-
-# Example: match null terminated string
-
-This shows how to find all null-terminated strings in a slice of bytes:
-
-```rust
-# use regex::bytes::Regex;
-let re = Regex::new(r"(?-u)(?P<cstr>[^\x00]+)\x00").unwrap();
-let text = b"foo\x00bar\x00baz\x00";
-
-// Extract all of the strings without the null terminator from each match.
-// The unwrap is OK here since a match requires the `cstr` capture to match.
-let cstrs: Vec<&[u8]> =
-    re.captures_iter(text)
-      .map(|c| c.name("cstr").unwrap().as_bytes())
-      .collect();
-assert_eq!(vec![&b"foo"[..], &b"bar"[..], &b"baz"[..]], cstrs);
-```
-
-# Example: selectively enable Unicode support
-
-This shows how to match an arbitrary byte pattern followed by a UTF-8 encoded
-string (e.g., to extract a title from a Matroska file):
-
-```rust
-# use std::str;
-# use regex::bytes::Regex;
-let re = Regex::new(
-    r"(?-u)\x7b\xa9(?:[\x80-\xfe]|[\x40-\xff].)(?u:(.*))"
-).unwrap();
-let text = b"\x12\xd0\x3b\x5f\x7b\xa9\x85\xe2\x98\x83\x80\x98\x54\x76\x68\x65";
-let caps = re.captures(text).unwrap();
-
-// Notice that despite the `.*` at the end, it will only match valid UTF-8
-// because Unicode mode was enabled with the `u` flag. Without the `u` flag,
-// the `.*` would match the rest of the bytes.
-let mat = caps.get(1).unwrap();
-assert_eq!((7, 10), (mat.start(), mat.end()));
-
-// If there was a match, Unicode mode guarantees that `title` is valid UTF-8.
-let title = str::from_utf8(&caps[1]).unwrap();
-assert_eq!("☃", title);
-```
-
-In general, if the Unicode flag is enabled in a capture group and that capture
-is part of the overall match, then the capture is *guaranteed* to be valid
-UTF-8.
-
-# Syntax
-
-The supported syntax is pretty much the same as the syntax for Unicode
-regular expressions with a few changes that make sense for matching arbitrary
-bytes:
-
-1. The `u` flag can be disabled even when disabling it might cause the regex to
-match invalid UTF-8. When the `u` flag is disabled, the regex is said to be in
-"ASCII compatible" mode.
-2. In ASCII compatible mode, neither Unicode scalar values nor Unicode
-character classes are allowed.
-3. In ASCII compatible mode, Perl character classes (`\w`, `\d` and `\s`)
-revert to their typical ASCII definition. `\w` maps to `[[:word:]]`, `\d` maps
-to `[[:digit:]]` and `\s` maps to `[[:space:]]`.
-4. In ASCII compatible mode, word boundaries use the ASCII compatible `\w` to
-determine whether a byte is a word byte or not.
-5. Hexadecimal notation can be used to specify arbitrary bytes instead of
-Unicode codepoints. For example, in ASCII compatible mode, `\xFF` matches the
-literal byte `\xFF`, while in Unicode mode, `\xFF` is a Unicode codepoint that
-matches its UTF-8 encoding of `\xC3\xBF`. Similarly for octal notation when
-enabled.
-6. `.` matches any *byte* except for `\n` instead of any Unicode scalar value.
-When the `s` flag is enabled, `.` matches any byte.
-
-# Performance
-
-In general, one should expect performance on `&[u8]` to be roughly similar to
-performance on `&str`.
-*/
-#[cfg(feature = "use_std")]
-pub mod bytes {
-    pub use re_builder::bytes::*;
-    pub use re_builder::set_bytes::*;
-    pub use re_bytes::*;
-    pub use re_set::bytes::*;
-}
-
-mod backtrack;
-mod utf8;
-mod compile;
-mod dfa;
-mod error;
-mod exec;
-mod expand;
-mod freqs;
-mod input;
-mod literal;
-#[cfg(feature = "pattern")]
-mod pattern;
-mod pikevm;
-mod prog;
-mod re_builder;
-mod re_bytes;
-mod re_set;
-mod re_trait;
-mod re_unicode;
-mod sparse;
-mod vector;
-
-/// The `internal` module exists to support suspicious activity, such as
-/// testing different matching engines and supporting the `regex-debug` CLI
-/// utility.
-#[doc(hidden)]
-#[cfg(feature = "use_std")]
-pub mod internal {
-    pub use compile::Compiler;
-    pub use exec::{Exec, ExecBuilder};
-    pub use input::{Char, Input, CharInput, InputAt};
-    pub use literal::LiteralSearcher;
-    pub use prog::{Program, Inst, EmptyLook, InstRanges};
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/literal/mod.rs.html b/target/doc/src/regex/literal/mod.rs.html deleted file mode 100644 index da8579d..0000000 --- a/target/doc/src/regex/literal/mod.rs.html +++ /dev/null @@ -1,2295 +0,0 @@ -mod.rs.html -- source
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::cmp;
-use std::mem;
-
-use aho_corasick::{self, AhoCorasick, AhoCorasickBuilder};
-use memchr::{memchr, memchr2, memchr3};
-use syntax::hir::literal::{Literal, Literals};
-
-use freqs::BYTE_FREQUENCIES;
-use self::teddy_avx2::{Teddy as TeddyAVX2};
-use self::teddy_ssse3::{Teddy as TeddySSSE3};
-
-mod teddy_avx2;
-mod teddy_ssse3;
-
-/// A prefix extracted from a compiled regular expression.
-///
-/// A regex prefix is a set of literal strings that *must* be matched at the
-/// beginning of a regex in order for the entire regex to match. Similarly
-/// for a regex suffix.
-#[derive(Clone, Debug)]
-pub struct LiteralSearcher {
-    complete: bool,
-    lcp: FreqyPacked,
-    lcs: FreqyPacked,
-    matcher: Matcher,
-}
-
-#[derive(Clone, Debug)]
-enum Matcher {
-    /// No literals. (Never advances through the input.)
-    Empty,
-    /// A set of four or more single byte literals.
-    Bytes(SingleByteSet),
-    /// A single substring, find using memchr and frequency analysis.
-    FreqyPacked(FreqyPacked),
-    /// A single substring, find using Boyer-Moore.
-    BoyerMoore(BoyerMooreSearch),
-    /// An Aho-Corasick automaton.
-    AC { ac: AhoCorasick<u32>, lits: Vec<Literal> },
-    /// A simd accelerated multiple string matcher. Used only for a small
-    /// number of small literals.
-    TeddySSSE3(TeddySSSE3),
-    /// A simd accelerated multiple string matcher. Used only for a small
-    /// number of small literals. This uses 256-bit vectors.
-    TeddyAVX2(TeddyAVX2),
-}
-
-impl LiteralSearcher {
-    /// Returns a matcher that never matches and never advances the input.
-    pub fn empty() -> Self {
-        Self::new(Literals::empty(), Matcher::Empty)
-    }
-
-    /// Returns a matcher for literal prefixes from the given set.
-    pub fn prefixes(lits: Literals) -> Self {
-        let matcher = Matcher::prefixes(&lits);
-        Self::new(lits, matcher)
-    }
-
-    /// Returns a matcher for literal suffixes from the given set.
-    pub fn suffixes(lits: Literals) -> Self {
-        let matcher = Matcher::suffixes(&lits);
-        Self::new(lits, matcher)
-    }
-
-    fn new(lits: Literals, matcher: Matcher) -> Self {
-        let complete = lits.all_complete();
-        LiteralSearcher {
-            complete: complete,
-            lcp: FreqyPacked::new(lits.longest_common_prefix().to_vec()),
-            lcs: FreqyPacked::new(lits.longest_common_suffix().to_vec()),
-            matcher: matcher,
-        }
-    }
-
-    /// Returns true if all matches comprise the entire regular expression.
-    ///
-    /// This does not necessarily mean that a literal match implies a match
-    /// of the regular expression. For example, the regular expresison `^a`
-    /// is comprised of a single complete literal `a`, but the regular
-    /// expression demands that it only match at the beginning of a string.
-    pub fn complete(&self) -> bool {
-        self.complete && !self.is_empty()
-    }
-
-    /// Find the position of a literal in `haystack` if it exists.
-    #[inline(always)] // reduces constant overhead
-    pub fn find(&self, haystack: &[u8]) -> Option<(usize, usize)> {
-        use self::Matcher::*;
-        match self.matcher {
-            Empty => Some((0, 0)),
-            Bytes(ref sset) => sset.find(haystack).map(|i| (i, i + 1)),
-            FreqyPacked(ref s) => s.find(haystack).map(|i| (i, i + s.len())),
-            BoyerMoore(ref s) => s.find(haystack).map(|i| (i, i + s.len())),
-            AC { ref ac, .. } => {
-                ac.find(haystack).map(|m| (m.start(), m.end()))
-            }
-            TeddySSSE3(ref t) => t.find(haystack).map(|m| (m.start, m.end)),
-            TeddyAVX2(ref t) => t.find(haystack).map(|m| (m.start, m.end)),
-        }
-    }
-
-    /// Like find, except matches must start at index `0`.
-    pub fn find_start(&self, haystack: &[u8]) -> Option<(usize, usize)> {
-        for lit in self.iter() {
-            if lit.len() > haystack.len() {
-                continue;
-            }
-            if lit == &haystack[0..lit.len()] {
-                return Some((0, lit.len()));
-            }
-        }
-        None
-    }
-
-    /// Like find, except matches must end at index `haystack.len()`.
-    pub fn find_end(&self, haystack: &[u8]) -> Option<(usize, usize)> {
-        for lit in self.iter() {
-            if lit.len() > haystack.len() {
-                continue;
-            }
-            if lit == &haystack[haystack.len() - lit.len()..] {
-                return Some((haystack.len() - lit.len(), haystack.len()));
-            }
-        }
-        None
-    }
-
-    /// Returns an iterator over all literals to be matched.
-    pub fn iter(&self) -> LiteralIter {
-        match self.matcher {
-            Matcher::Empty => LiteralIter::Empty,
-            Matcher::Bytes(ref sset) => LiteralIter::Bytes(&sset.dense),
-            Matcher::FreqyPacked(ref s) => LiteralIter::Single(&s.pat),
-            Matcher::BoyerMoore(ref s) => LiteralIter::Single(&s.pattern),
-            Matcher::AC { ref lits, .. } => LiteralIter::AC(lits),
-            Matcher::TeddySSSE3(ref ted) => {
-                LiteralIter::TeddySSSE3(ted.patterns())
-            }
-            Matcher::TeddyAVX2(ref ted) => {
-                LiteralIter::TeddyAVX2(ted.patterns())
-            }
-        }
-    }
-
-    /// Returns a matcher for the longest common prefix of this matcher.
-    pub fn lcp(&self) -> &FreqyPacked {
-        &self.lcp
-    }
-
-    /// Returns a matcher for the longest common suffix of this matcher.
-    pub fn lcs(&self) -> &FreqyPacked {
-        &self.lcs
-    }
-
-    /// Returns true iff this prefix is empty.
-    pub fn is_empty(&self) -> bool {
-        self.len() == 0
-    }
-
-    /// Returns the number of prefixes in this machine.
-    pub fn len(&self) -> usize {
-        use self::Matcher::*;
-        match self.matcher {
-            Empty => 0,
-            Bytes(ref sset) => sset.dense.len(),
-            FreqyPacked(_) => 1,
-            BoyerMoore(_) => 1,
-            AC { ref ac, .. } => ac.pattern_count(),
-            TeddySSSE3(ref ted) => ted.len(),
-            TeddyAVX2(ref ted) => ted.len(),
-        }
-    }
-
-    /// Return the approximate heap usage of literals in bytes.
-    pub fn approximate_size(&self) -> usize {
-        use self::Matcher::*;
-        match self.matcher {
-            Empty => 0,
-            Bytes(ref sset) => sset.approximate_size(),
-            FreqyPacked(ref single) => single.approximate_size(),
-            BoyerMoore(ref single) => single.approximate_size(),
-            AC { ref ac, .. } => ac.heap_bytes(),
-            TeddySSSE3(ref ted) => ted.approximate_size(),
-            TeddyAVX2(ref ted) => ted.approximate_size(),
-        }
-    }
-}
-
-impl Matcher {
-    fn prefixes(lits: &Literals) -> Self {
-        let sset = SingleByteSet::prefixes(lits);
-        Matcher::new(lits, sset)
-    }
-
-    fn suffixes(lits: &Literals) -> Self {
-        let sset = SingleByteSet::suffixes(lits);
-        Matcher::new(lits, sset)
-    }
-
-    fn new(lits: &Literals, sset: SingleByteSet) -> Self {
-        if lits.literals().is_empty() {
-            return Matcher::Empty;
-        }
-        if sset.dense.len() >= 26 {
-            // Avoid trying to match a large number of single bytes.
-            // This is *very* sensitive to a frequency analysis comparison
-            // between the bytes in sset and the composition of the haystack.
-            // No matter the size of sset, if its members all are rare in the
-            // haystack, then it'd be worth using it. How to tune this... IDK.
-            // ---AG
-            return Matcher::Empty;
-        }
-        if sset.complete {
-            return Matcher::Bytes(sset);
-        }
-        if lits.literals().len() == 1 {
-            let lit = lits.literals()[0].to_vec();
-            if BoyerMooreSearch::should_use(lit.as_slice()) {
-                return Matcher::BoyerMoore(BoyerMooreSearch::new(lit));
-            } else {
-                return Matcher::FreqyPacked(FreqyPacked::new(lit));
-            }
-        }
-        let is_aho_corasick_fast = sset.dense.len() == 1 && sset.all_ascii;
-        if TeddyAVX2::available() && !is_aho_corasick_fast {
-            const MAX_TEDDY_LITERALS: usize = 32;
-            if lits.literals().len() <= MAX_TEDDY_LITERALS {
-                if let Some(ted) = TeddyAVX2::new(lits) {
-                    return Matcher::TeddyAVX2(ted);
-                }
-            }
-        }
-        if TeddySSSE3::available() && !is_aho_corasick_fast {
-            // Only try Teddy if Aho-Corasick can't use memchr on an ASCII
-            // byte. Also, in its current form, Teddy doesn't scale well to
-            // lots of literals.
-            //
-            // We impose the ASCII restriction since an alternation of
-            // non-ASCII string literals in the same language is likely to all
-            // start with the same byte. Even worse, the corpus being searched
-            // probably has a similar composition, which ends up completely
-            // negating the benefit of memchr.
-            const MAX_TEDDY_LITERALS: usize = 32;
-            if lits.literals().len() <= MAX_TEDDY_LITERALS {
-                if let Some(ted) = TeddySSSE3::new(lits) {
-                    return Matcher::TeddySSSE3(ted);
-                }
-            }
-            // Fallthrough to ol' reliable Aho-Corasick...
-        }
-        let pats = lits.literals().to_owned();
-        let ac = AhoCorasickBuilder::new()
-            .match_kind(aho_corasick::MatchKind::LeftmostFirst)
-            .dfa(true)
-            .build_with_size::<u32, _, _>(&pats)
-            .unwrap();
-        Matcher::AC { ac, lits: pats }
-    }
-}
-
-pub enum LiteralIter<'a> {
-    Empty,
-    Bytes(&'a [u8]),
-    Single(&'a [u8]),
-    AC(&'a [Literal]),
-    TeddySSSE3(&'a [Vec<u8>]),
-    TeddyAVX2(&'a [Vec<u8>]),
-}
-
-impl<'a> Iterator for LiteralIter<'a> {
-    type Item = &'a [u8];
-
-    fn next(&mut self) -> Option<Self::Item> {
-        match *self {
-            LiteralIter::Empty => None,
-            LiteralIter::Bytes(ref mut many) => {
-                if many.is_empty() {
-                    None
-                } else {
-                    let next = &many[0..1];
-                    *many = &many[1..];
-                    Some(next)
-                }
-            }
-            LiteralIter::Single(ref mut one) => {
-                if one.is_empty() {
-                    None
-                } else {
-                    let next = &one[..];
-                    *one = &[];
-                    Some(next)
-                }
-            }
-            LiteralIter::AC(ref mut lits) => {
-                if lits.is_empty() {
-                    None
-                } else {
-                    let next = &lits[0];
-                    *lits = &lits[1..];
-                    Some(&**next)
-                }
-            }
-            LiteralIter::TeddySSSE3(ref mut lits) => {
-                if lits.is_empty() {
-                    None
-                } else {
-                    let next = &lits[0];
-                    *lits = &lits[1..];
-                    Some(&**next)
-                }
-            }
-            LiteralIter::TeddyAVX2(ref mut lits) => {
-                if lits.is_empty() {
-                    None
-                } else {
-                    let next = &lits[0];
-                    *lits = &lits[1..];
-                    Some(&**next)
-                }
-            }
-        }
-    }
-}
-
-#[derive(Clone, Debug)]
-struct SingleByteSet {
-    sparse: Vec<bool>,
-    dense: Vec<u8>,
-    complete: bool,
-    all_ascii: bool,
-}
-
-impl SingleByteSet {
-    fn new() -> SingleByteSet {
-        SingleByteSet {
-            sparse: vec![false; 256],
-            dense: vec![],
-            complete: true,
-            all_ascii: true,
-        }
-    }
-
-    fn prefixes(lits: &Literals) -> SingleByteSet {
-        let mut sset = SingleByteSet::new();
-        for lit in lits.literals() {
-            sset.complete = sset.complete && lit.len() == 1;
-            if let Some(&b) = lit.get(0) {
-                if !sset.sparse[b as usize] {
-                    if b > 0x7F {
-                        sset.all_ascii = false;
-                    }
-                    sset.dense.push(b);
-                    sset.sparse[b as usize] = true;
-                }
-            }
-        }
-        sset
-    }
-
-    fn suffixes(lits: &Literals) -> SingleByteSet {
-        let mut sset = SingleByteSet::new();
-        for lit in lits.literals() {
-            sset.complete = sset.complete && lit.len() == 1;
-            if let Some(&b) = lit.get(lit.len().checked_sub(1).unwrap()) {
-                if !sset.sparse[b as usize] {
-                    if b > 0x7F {
-                        sset.all_ascii = false;
-                    }
-                    sset.dense.push(b);
-                    sset.sparse[b as usize] = true;
-                }
-            }
-        }
-        sset
-    }
-
-    /// Faster find that special cases certain sizes to use memchr.
-    #[inline(always)] // reduces constant overhead
-    fn find(&self, text: &[u8]) -> Option<usize> {
-        match self.dense.len() {
-            0 => None,
-            1 => memchr(self.dense[0], text),
-            2 => memchr2(self.dense[0], self.dense[1], text),
-            3 => memchr3(self.dense[0], self.dense[1], self.dense[2], text),
-            _ => self._find(text),
-        }
-    }
-
-    /// Generic find that works on any sized set.
-    fn _find(&self, haystack: &[u8]) -> Option<usize> {
-        for (i, &b) in haystack.iter().enumerate() {
-            if self.sparse[b as usize] {
-                return Some(i);
-            }
-        }
-        None
-    }
-
-    fn approximate_size(&self) -> usize {
-        (self.dense.len() * mem::size_of::<u8>())
-        + (self.sparse.len() * mem::size_of::<bool>())
-    }
-}
-
-/// Provides an implementation of fast subtring search using frequency
-/// analysis.
-///
-/// memchr is so fast that we do everything we can to keep the loop in memchr
-/// for as long as possible. The easiest way to do this is to intelligently
-/// pick the byte to send to memchr. The best byte is the byte that occurs
-/// least frequently in the haystack. Since doing frequency analysis on the
-/// haystack is far too expensive, we compute a set of fixed frequencies up
-/// front and hard code them in src/freqs.rs. Frequency analysis is done via
-/// scripts/frequencies.py.
-#[derive(Clone, Debug)]
-pub struct FreqyPacked {
-    /// The pattern.
-    pat: Vec<u8>,
-    /// The number of Unicode characters in the pattern. This is useful for
-    /// determining the effective length of a pattern when deciding which
-    /// optimizations to perform. A trailing incomplete UTF-8 sequence counts
-    /// as one character.
-    char_len: usize,
-    /// The rarest byte in the pattern, according to pre-computed frequency
-    /// analysis.
-    rare1: u8,
-    /// The offset of the rarest byte in `pat`.
-    rare1i: usize,
-    /// The second rarest byte in the pattern, according to pre-computed
-    /// frequency analysis. (This may be equivalent to the rarest byte.)
-    ///
-    /// The second rarest byte is used as a type of guard for quickly detecting
-    /// a mismatch after memchr locates an instance of the rarest byte. This
-    /// is a hedge against pathological cases where the pre-computed frequency
-    /// analysis may be off. (But of course, does not prevent *all*
-    /// pathological cases.)
-    rare2: u8,
-    /// The offset of the second rarest byte in `pat`.
-    rare2i: usize,
-}
-
-impl FreqyPacked {
-    fn new(pat: Vec<u8>) -> FreqyPacked {
-        if pat.is_empty() {
-            return FreqyPacked::empty();
-        }
-
-        // Find the rarest two bytes. Try to make them distinct (but it's not
-        // required).
-        let mut rare1 = pat[0];
-        let mut rare2 = pat[0];
-        for b in pat[1..].iter().cloned() {
-            if freq_rank(b) < freq_rank(rare1) {
-                rare1 = b;
-            }
-        }
-        for &b in &pat {
-            if rare1 == rare2 {
-                rare2 = b
-            } else if b != rare1 && freq_rank(b) < freq_rank(rare2) {
-                rare2 = b;
-            }
-        }
-
-        // And find the offsets of their last occurrences.
-        let rare1i = pat.iter().rposition(|&b| b == rare1).unwrap();
-        let rare2i = pat.iter().rposition(|&b| b == rare2).unwrap();
-
-        let char_len = char_len_lossy(&pat);
-        FreqyPacked {
-            pat: pat,
-            char_len: char_len,
-            rare1: rare1,
-            rare1i: rare1i,
-            rare2: rare2,
-            rare2i: rare2i,
-        }
-    }
-
-    fn empty() -> FreqyPacked {
-        FreqyPacked {
-            pat: vec![],
-            char_len: 0,
-            rare1: 0,
-            rare1i: 0,
-            rare2: 0,
-            rare2i: 0,
-        }
-    }
-
-    #[inline(always)] // reduces constant overhead
-    pub fn find(&self, haystack: &[u8]) -> Option<usize> {
-        let pat = &*self.pat;
-        if haystack.len() < pat.len() || pat.is_empty() {
-            return None;
-        }
-        let mut i = self.rare1i;
-        while i < haystack.len() {
-            i += match memchr(self.rare1, &haystack[i..]) {
-                None => return None,
-                Some(i) => i,
-            };
-            let start = i - self.rare1i;
-            let end = start + pat.len();
-            if end > haystack.len() {
-                return None;
-            }
-            let aligned = &haystack[start..end];
-            if aligned[self.rare2i] == self.rare2 && aligned == &*self.pat {
-                return Some(start);
-            }
-            i += 1;
-        }
-        None
-    }
-
-    #[inline(always)] // reduces constant overhead
-    pub fn is_suffix(&self, text: &[u8]) -> bool {
-        if text.len() < self.len() {
-            return false;
-        }
-        text[text.len() - self.len()..] == *self.pat
-    }
-
-    pub fn len(&self) -> usize {
-        self.pat.len()
-    }
-
-    pub fn char_len(&self) -> usize {
-        self.char_len
-    }
-
-    fn approximate_size(&self) -> usize {
-        self.pat.len() * mem::size_of::<u8>()
-    }
-}
-
-fn char_len_lossy(bytes: &[u8]) -> usize {
-    String::from_utf8_lossy(bytes).chars().count()
-}
-
-/// An implementation of Tuned Boyer-Moore as laid out by
-/// Andrew Hume and Daniel Sunday in "Fast String Searching".
-/// O(n) in the size of the input.
-///
-/// Fast string searching algorithms come in many variations,
-/// but they can generally be described in terms of three main
-/// components.
-///
-/// The skip loop is where the string searcher wants to spend
-/// as much time as possible. Exactly which character in the
-/// pattern the skip loop examines varies from algorithm to
-/// algorithm, but in the simplest case this loop repeated
-/// looks at the last character in the pattern and jumps
-/// forward in the input if it is not in the pattern.
-/// Robert Boyer and J Moore called this the "fast" loop in
-/// their original paper.
-///
-/// The match loop is responsible for actually examining the
-/// whole potentially matching substring. In order to fail
-/// faster, the match loop sometimes has a guard test attached.
-/// The guard test uses frequency analysis of the different
-/// characters in the pattern to choose the least frequency
-/// occurring character and use it to find match failures
-/// as quickly as possible.
-///
-/// The shift rule governs how the algorithm will shuffle its
-/// test window in the event of a failure during the match loop.
-/// Certain shift rules allow the worst-case run time of the
-/// algorithm to be shown to be O(n) in the size of the input
-/// rather than O(nm) in the size of the input and the size
-/// of the pattern (as naive Boyer-Moore is).
-///
-/// "Fast String Searching", in addition to presenting a tuned
-/// algorithm, provides a comprehensive taxonomy of the many
-/// different flavors of string searchers. Under that taxonomy
-/// TBM, the algorithm implemented here, uses an unrolled fast
-/// skip loop with memchr fallback, a forward match loop with guard,
-/// and the mini Sunday's delta shift rule. To unpack that you'll have to
-/// read the paper.
-#[derive(Clone, Debug)]
-pub struct BoyerMooreSearch {
-    /// The pattern we are going to look for in the haystack.
-    pattern: Vec<u8>,
-
-    /// The skip table for the skip loop.
-    ///
-    /// Maps the character at the end of the input
-    /// to a shift.
-    skip_table: Vec<usize>,
-
-    /// The guard character (least frequently occurring char).
-    guard: u8,
-    /// The reverse-index of the guard character in the pattern.
-    guard_reverse_idx: usize,
-
-    /// Daniel Sunday's mini generalized delta2 shift table.
-    ///
-    /// We use a skip loop, so we only have to provide a shift
-    /// for the skip char (last char). This is why it is a mini
-    /// shift rule.
-    md2_shift: usize,
-}
-
-impl BoyerMooreSearch {
-    /// Create a new string searcher, performing whatever
-    /// compilation steps are required.
-    fn new(pattern: Vec<u8>) -> Self {
-        debug_assert!(pattern.len() > 0);
-
-        let (g, gi) = Self::select_guard(pattern.as_slice());
-        let skip_table = Self::compile_skip_table(pattern.as_slice());
-        let md2_shift = Self::compile_md2_shift(pattern.as_slice());
-        BoyerMooreSearch {
-            pattern: pattern,
-            skip_table: skip_table,
-            guard: g,
-            guard_reverse_idx: gi,
-            md2_shift: md2_shift,
-        }
-    }
-
-    /// Find the pattern in `haystack`, returning the offset
-    /// of the start of the first occurrence of the pattern
-    /// in `haystack`.
-    #[inline]
-    fn find(&self, haystack: &[u8]) -> Option<usize> {
-        if haystack.len() < self.pattern.len() {
-            return None;
-        }
-
-        let mut window_end = self.pattern.len() - 1;
-
-        // Inspired by the grep source. It is a way
-        // to do correct loop unrolling without having to place
-        // a crashpad of terminating charicters at the end in
-        // the way described in the Fast String Searching paper.
-        const NUM_UNROLL: usize = 10;
-        // 1 for the initial position, and 1 for the md2 shift
-        let short_circut = (NUM_UNROLL + 2) * self.pattern.len();
-
-        if haystack.len() > short_circut {
-            // just 1 for the md2 shift
-            let backstop = haystack.len() - ((NUM_UNROLL + 1) * self.pattern.len());
-            loop {
-                window_end = match self.skip_loop(haystack, window_end, backstop) {
-                    Some(i) => i,
-                    None => return None,
-                };
-                if window_end >= backstop {
-                    break;
-                }
-
-                if self.check_match(haystack, window_end) {
-                    return Some(window_end - (self.pattern.len() - 1));
-                } else {
-                    let skip = self.skip_table[haystack[window_end] as usize];
-                    window_end +=
-                        if skip == 0 { self.md2_shift } else { skip };
-                    continue;
-                }
-            }
-        }
-
-        // now process the input after the backstop
-        while window_end < haystack.len() {
-            let mut skip = self.skip_table[haystack[window_end] as usize];
-            if skip == 0 {
-                if self.check_match(haystack, window_end) {
-                    return Some(window_end - (self.pattern.len() - 1));
-                } else {
-                    skip = self.md2_shift;
-                }
-            }
-            window_end += skip;
-        }
-
-        None
-    }
-
-    fn len(&self) -> usize {
-        return self.pattern.len()
-    }
-
-    /// The key heuristic behind which the BoyerMooreSearch lives.
-    ///
-    /// See `rust-lang/regex/issues/408`.
-    ///
-    /// Tuned Boyer-Moore is actually pretty slow! It turns out a handrolled
-    /// platform-specific memchr routine with a bit of frequency
-    /// analysis sprinkled on top actually wins most of the time.
-    /// However, there are a few cases where Tuned Boyer-Moore still
-    /// wins.
-    ///
-    /// If the haystack is random, frequency analysis doesn't help us,
-    /// so Boyer-Moore will win for sufficiently large needles.
-    /// Unfortunately, there is no obvious way to determine this
-    /// ahead of time.
-    ///
-    /// If the pattern itself consists of very common characters,
-    /// frequency analysis won't get us anywhere. The most extreme
-    /// example of this is a pattern like `eeeeeeeeeeeeeeee`. Fortunately,
-    /// this case is wholly determined by the pattern, so we can actually
-    /// implement the heuristic.
-    ///
-    /// A third case is if the pattern is sufficiently long. The idea
-    /// here is that once the pattern gets long enough the Tuned
-    /// Boyer-Moore skip loop will start making strides long enough
-    /// to beat the asm deep magic that is memchr.
-    fn should_use(pattern: &[u8]) -> bool {
-        // The minimum pattern length required to use TBM.
-        const MIN_LEN: usize = 9;
-        // The minimum frequency rank (lower is rarer) that every byte in the
-        // pattern must have in order to use TBM. That is, if the pattern
-        // contains _any_ byte with a lower rank, then TBM won't be used.
-        const MIN_CUTOFF: usize = 150;
-        // The maximum frequency rank for any byte.
-        const MAX_CUTOFF: usize = 255;
-        // The scaling factor used to determine the actual cutoff frequency
-        // to use (keeping in mind that the minimum frequency rank is bounded
-        // by MIN_CUTOFF). This scaling factor is an attempt to make TBM more
-        // likely to be used as the pattern grows longer. That is, longer
-        // patterns permit somewhat less frequent bytes than shorter patterns,
-        // under the assumption that TBM gets better as the pattern gets
-        // longer.
-        const LEN_CUTOFF_PROPORTION: usize = 4;
-
-        let scaled_rank = pattern.len().wrapping_mul(LEN_CUTOFF_PROPORTION);
-        let cutoff = cmp::max(
-            MIN_CUTOFF,
-            MAX_CUTOFF - cmp::min(MAX_CUTOFF, scaled_rank),
-        );
-        // The pattern must be long enough to be worthwhile. e.g., memchr will
-        // be faster on `e` because it is short even though e is quite common.
-        pattern.len() > MIN_LEN
-            // all the bytes must be more common than the cutoff.
-            && pattern.iter().all(|c| freq_rank(*c) >= cutoff)
-    }
-
-    /// Check to see if there is a match at the given position
-    #[inline]
-    fn check_match(&self, haystack: &[u8], window_end: usize) -> bool {
-        // guard test
-        if haystack[window_end - self.guard_reverse_idx] != self.guard {
-            return false;
-        }
-
-        // match loop
-        let window_start = window_end - (self.pattern.len() - 1);
-        for i in 0..self.pattern.len() {
-            if self.pattern[i] != haystack[window_start + i] {
-                return false;
-            }
-        }
-
-        true
-    }
-
-    /// Skip forward according to the shift table.
-    ///
-    /// Returns the offset of the next occurrence
-    /// of the last char in the pattern, or the none
-    /// if it never reappears. If `skip_loop` hits the backstop
-    /// it will leave early.
-    #[inline]
-    fn skip_loop(&self,
-        haystack: &[u8],
-        mut window_end: usize,
-        backstop: usize,
-    ) -> Option<usize> {
-        let window_end_snapshot = window_end;
-        let skip_of = |we: usize| -> usize {
-            // Unsafe might make this faster, but the benchmarks
-            // were hard to interpret.
-            self.skip_table[haystack[we] as usize]
-        };
-
-        loop {
-            let mut skip = skip_of(window_end); window_end += skip;
-            skip = skip_of(window_end); window_end += skip;
-            if skip != 0 {
-                skip = skip_of(window_end); window_end += skip;
-                skip = skip_of(window_end); window_end += skip;
-                skip = skip_of(window_end); window_end += skip;
-                if skip != 0 {
-                    skip = skip_of(window_end); window_end += skip;
-                    skip = skip_of(window_end); window_end += skip;
-                    skip = skip_of(window_end); window_end += skip;
-                    if skip != 0 {
-                        skip = skip_of(window_end); window_end += skip;
-                        skip = skip_of(window_end); window_end += skip;
-
-                        // If ten iterations did not make at least 16 words
-                        // worth of progress, we just fall back on memchr.
-                        if window_end - window_end_snapshot >
-                             16 * mem::size_of::<usize>() {
-
-                            // Returning a window_end >= backstop will immediatly
-                            // break us out of the inner loop in `find`.
-                            if window_end >= backstop {
-                                return Some(window_end);
-                            }
-
-                            continue; // we made enough progress
-                        } else {
-                            // In case we are already there, and so that
-                            // we will catch the guard char.
-                            window_end = window_end
-                                .checked_sub(1 + self.guard_reverse_idx)
-                                .unwrap_or(0);
-
-                            match memchr(self.guard, &haystack[window_end..]) {
-                                None => return None,
-                                Some(g_idx) => {
-                                    return Some(window_end + g_idx + self.guard_reverse_idx);
-                                }
-                            }
-                        }
-                    }
-                }
-            }
-
-            return Some(window_end);
-        }
-    }
-
-    /// Compute the ufast skip table.
-    fn compile_skip_table(pattern: &[u8]) -> Vec<usize> {
-        let mut tab = vec![pattern.len(); 256];
-
-        // For every char in the pattern, we write a skip
-        // that will line us up with the rightmost occurrence.
-        //
-        // N.B. the sentinel (0) is written by the last
-        // loop iteration.
-        for (i, c) in pattern.iter().enumerate() {
-            tab[*c as usize] = (pattern.len() - 1) - i;
-        }
-
-        tab
-    }
-
-    /// Select the guard character based off of the precomputed
-    /// frequency table.
-    fn select_guard(pattern: &[u8]) -> (u8, usize) {
-        let mut rarest = pattern[0];
-        let mut rarest_rev_idx = pattern.len() - 1;
-        for (i, c) in pattern.iter().enumerate() {
-            if freq_rank(*c) < freq_rank(rarest) {
-                rarest = *c;
-                rarest_rev_idx = (pattern.len() - 1) - i;
-            }
-        }
-
-        (rarest, rarest_rev_idx)
-    }
-
-    /// If there is another occurrence of the skip
-    /// char, shift to it, otherwise just shift to
-    /// the next window.
-    fn compile_md2_shift(pattern: &[u8]) -> usize {
-        let shiftc = *pattern.last().unwrap();
-
-        // For a pattern of length 1 we will never apply the
-        // shift rule, so we use a poison value on the principle
-        // that failing fast is a good thing.
-        if pattern.len() == 1 {
-            return 0xDEADBEAF;
-        }
-
-        let mut i = pattern.len() - 2;
-        while i > 0 {
-            if pattern[i] == shiftc {
-                return (pattern.len() - 1) - i;
-            }
-            i -= 1;
-        }
-
-        // The skip char never re-occurs in the pattern, so
-        // we can just shift the whole window length.
-        pattern.len() - 1
-    }
-
-    fn approximate_size(&self) -> usize {
-        (self.pattern.len() * mem::size_of::<u8>())
-            + (256 * mem::size_of::<usize>()) // skip table
-    }
-}
-
-fn freq_rank(b: u8) -> usize {
-    BYTE_FREQUENCIES[b as usize] as usize
-}
-
-#[cfg(test)]
-mod tests {
-    use super::{BoyerMooreSearch, FreqyPacked};
-
-    //
-    // Unit Tests
-    //
-
-    // The "hello, world" of string searching
-    #[test]
-    fn bm_find_subs() {
-        let searcher = BoyerMooreSearch::new(Vec::from(&b"pattern"[..]));
-        let haystack = b"I keep seeing patterns in this text";
-        assert_eq!(14, searcher.find(haystack).unwrap());
-    }
-
-    #[test]
-    fn bm_find_no_subs() {
-        let searcher = BoyerMooreSearch::new(Vec::from(&b"pattern"[..]));
-        let haystack = b"I keep seeing needles in this text";
-        assert_eq!(None, searcher.find(haystack));
-    }
-
-    //
-    // Regression Tests
-    //
-
-    #[test]
-    fn bm_skip_reset_bug() {
-        let haystack = vec![0, 0, 0, 0, 0, 1, 1, 0];
-        let needle = vec![0, 1, 1, 0];
-
-        let searcher = BoyerMooreSearch::new(needle);
-        let offset = searcher.find(haystack.as_slice()).unwrap();
-        assert_eq!(4, offset);
-    }
-
-    #[test]
-    fn bm_backstop_underflow_bug() {
-        let haystack = vec![0, 0];
-        let needle = vec![0, 0];
-
-        let searcher = BoyerMooreSearch::new(needle);
-        let offset = searcher.find(haystack.as_slice()).unwrap();
-        assert_eq!(0, offset);
-    }
-
-    #[test]
-    fn bm_naive_off_by_one_bug() {
-        let haystack = vec![91];
-        let needle = vec![91];
-
-        let naive_offset = naive_find(&needle, &haystack).unwrap();
-        assert_eq!(0, naive_offset);
-    }
-
-    #[test]
-    fn bm_memchr_fallback_indexing_bug() {
-        let mut haystack = vec![
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 87, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-        let needle = vec![1, 1, 1, 1, 32, 32, 87];
-        let needle_start = haystack.len();
-        haystack.extend(needle.clone());
-
-        let searcher = BoyerMooreSearch::new(needle);
-        assert_eq!(needle_start, searcher.find(haystack.as_slice()).unwrap());
-    }
-
-    #[test]
-    fn bm_backstop_boundary() {
-        let haystack = b"\
-// aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
-e_data.clone_created(entity_id, entity_to_add.entity_id);
-aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
-aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
-".to_vec();
-        let needle = b"clone_created".to_vec();
-
-        let searcher = BoyerMooreSearch::new(needle);
-        let result = searcher.find(&haystack);
-        assert_eq!(Some(43), result);
-    }
-
-    #[test]
-    fn bm_win_gnu_indexing_bug() {
-        let haystack_raw = vec![
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
-            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-        let needle = vec![1, 1, 1, 1, 1, 1, 1];
-        let haystack = haystack_raw.as_slice();
-
-        BoyerMooreSearch::new(needle.clone()).find(haystack);
-    }
-
-    //
-    // QuickCheck Properties
-    //
-
-    use quickcheck::TestResult;
-
-    fn naive_find(needle: &[u8], haystack: &[u8]) -> Option<usize> {
-        assert!(needle.len() <= haystack.len());
-
-        for i in 0..(haystack.len() - (needle.len() - 1)) {
-            if haystack[i] == needle[0]
-                && &haystack[i..(i+needle.len())] == needle {
-                return Some(i)
-            }
-        }
-
-        None
-    }
-
-    quickcheck! {
-        fn qc_bm_equals_nieve_find(pile1: Vec<u8>, pile2: Vec<u8>) -> TestResult {
-            if pile1.len() == 0 || pile2.len() == 0 {
-                return TestResult::discard();
-            }
-
-            let (needle, haystack) = if pile1.len() < pile2.len() {
-                (pile1, pile2.as_slice())
-            } else {
-                (pile2, pile1.as_slice())
-            };
-
-            let searcher = BoyerMooreSearch::new(needle.clone());
-            TestResult::from_bool(
-                searcher.find(haystack) == naive_find(&needle, haystack))
-        }
-
-        fn qc_bm_equals_single(pile1: Vec<u8>, pile2: Vec<u8>) -> TestResult {
-            if pile1.len() == 0 || pile2.len() == 0 {
-                return TestResult::discard();
-            }
-
-            let (needle, haystack) = if pile1.len() < pile2.len() {
-                (pile1, pile2.as_slice())
-            } else {
-                (pile2, pile1.as_slice())
-            };
-
-            let bm_searcher = BoyerMooreSearch::new(needle.clone());
-            let freqy_memchr = FreqyPacked::new(needle);
-            TestResult::from_bool(
-                bm_searcher.find(haystack) == freqy_memchr.find(haystack))
-        }
-
-        fn qc_bm_finds_trailing_needle(
-            haystack_pre: Vec<u8>,
-            needle: Vec<u8>
-        ) -> TestResult {
-            if needle.len() == 0 {
-                return TestResult::discard();
-            }
-
-            let mut haystack = haystack_pre.clone();
-            let searcher = BoyerMooreSearch::new(needle.clone());
-
-            if haystack.len() >= needle.len() &&
-                searcher.find(haystack.as_slice()).is_some() {
-                return TestResult::discard();
-            }
-
-            haystack.extend(needle.clone());
-
-            // What if the the tail of the haystack can start the
-            // needle?
-            let start = haystack_pre.len()
-                .checked_sub(needle.len())
-                .unwrap_or(0);
-            for i in 0..(needle.len() - 1) {
-                if searcher.find(&haystack[(i + start)..]).is_some() {
-                    return TestResult::discard();
-                }
-            }
-
-            TestResult::from_bool(
-                searcher.find(haystack.as_slice())
-                        .map(|x| x == haystack_pre.len())
-                        .unwrap_or(false))
-        }
-
-        // qc_equals_* is only testing the negative case as @burntsushi
-        // pointed out in https://github.com/rust-lang/regex/issues/446.
-        // This quickcheck prop represents an effort to force testing of
-        // the positive case. qc_bm_finds_first and qc_bm_finds_trailing_needle
-        // already check some of the positive cases, but they don't cover
-        // cases where the needle is in the middle of haystack. This prop
-        // fills that hole.
-        fn qc_bm_finds_subslice(
-            haystack: Vec<u8>,
-            needle_start: usize,
-            needle_length: usize
-        ) -> TestResult {
-            if haystack.len() == 0 {
-                return TestResult::discard();
-            }
-
-            let needle_start = needle_start % haystack.len();
-            let needle_length = needle_length % (haystack.len() - needle_start);
-
-            if needle_length == 0 {
-                return TestResult::discard();
-            }
-
-            let needle = &haystack[needle_start..(needle_start + needle_length)];
-
-            let bm_searcher = BoyerMooreSearch::new(needle.to_vec());
-
-            let start = naive_find(&needle, &haystack);
-            match start {
-                None => TestResult::from_bool(false),
-                Some(nf_start) =>
-                    TestResult::from_bool(
-                        nf_start <= needle_start
-                            && bm_searcher.find(&haystack) == start
-                    )
-            }
-        }
-
-        fn qc_bm_finds_first(needle: Vec<u8>) -> TestResult {
-            if needle.len() == 0 {
-                return TestResult::discard();
-            }
-
-            let mut haystack = needle.clone();
-            let searcher = BoyerMooreSearch::new(needle.clone());
-            haystack.extend(needle);
-
-            TestResult::from_bool(
-                searcher.find(haystack.as_slice())
-                        .map(|x| x == 0)
-                        .unwrap_or(false))
-        }
-    }
-}
-
-
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-
-/*!
-This is the Teddy searcher, but ported to AVX2.
-
-See the module comments in the SSSE3 Teddy searcher for a more in depth
-explanation of how this algorithm works. For the most part, this port is
-basically the same as the SSSE3 version, but using 256-bit vectors instead of
-128-bit vectors, which increases throughput.
-*/
-
-use std::cmp;
-
-use aho_corasick::{self, AhoCorasick, AhoCorasickBuilder};
-use syntax::hir::literal::Literals;
-
-use vector::avx2::{AVX2VectorBuilder, u8x32};
-
-/// Corresponds to the number of bytes read at a time in the haystack.
-const BLOCK_SIZE: usize = 32;
-
-/// Match reports match information.
-#[derive(Debug, Clone)]
-pub struct Match {
-    /// The index of the pattern that matched. The index is in correspondence
-    /// with the order of the patterns given at construction.
-    pub pat: usize,
-    /// The start byte offset of the match.
-    pub start: usize,
-    /// The end byte offset of the match. This is always `start + pat.len()`.
-    pub end: usize,
-}
-
-/// A SIMD accelerated multi substring searcher.
-#[derive(Debug, Clone)]
-pub struct Teddy {
-    /// A builder for AVX2 empowered vectors.
-    vb: AVX2VectorBuilder,
-    /// A list of substrings to match.
-    pats: Vec<Vec<u8>>,
-    /// An Aho-Corasick automaton of the patterns. We use this when we need to
-    /// search pieces smaller than the Teddy block size.
-    ac: AhoCorasick,
-    /// A set of 8 buckets. Each bucket corresponds to a single member of a
-    /// bitset. A bucket contains zero or more substrings. This is useful
-    /// when the number of substrings exceeds 8, since our bitsets cannot have
-    /// more than 8 members.
-    buckets: Vec<Vec<usize>>,
-    /// Our set of masks. There's one mask for each byte in the fingerprint.
-    masks: Masks,
-}
-
-impl Teddy {
-    /// Returns true if and only if Teddy is supported on this platform.
-    ///
-    /// If this returns `false`, then `Teddy::new(...)` is guaranteed to
-    /// return `None`.
-    pub fn available() -> bool {
-        AVX2VectorBuilder::new().is_some()
-    }
-
-    /// Create a new `Teddy` multi substring matcher.
-    ///
-    /// If a `Teddy` matcher could not be created (e.g., `pats` is empty or has
-    /// an empty substring), then `None` is returned.
-    pub fn new(pats: &Literals) -> Option<Teddy> {
-        let vb = match AVX2VectorBuilder::new() {
-            None => return None,
-            Some(vb) => vb,
-        };
-        if !Teddy::available() {
-            return None;
-        }
-
-        let pats: Vec<_> = pats.literals().iter().map(|p|p.to_vec()).collect();
-        let min_len = pats.iter().map(|p| p.len()).min().unwrap_or(0);
-        // Don't allow any empty patterns and require that we have at
-        // least one pattern.
-        if min_len < 1 {
-            return None;
-        }
-        // Pick the largest mask possible, but no larger than 3.
-        let nmasks = cmp::min(3, min_len);
-        let mut masks = Masks::new(vb, nmasks);
-        let mut buckets = vec![vec![]; 8];
-        // Assign a substring to each bucket, and add the bucket's bitfield to
-        // the appropriate position in the mask.
-        for (pati, pat) in pats.iter().enumerate() {
-            let bucket = pati % 8;
-            buckets[bucket].push(pati);
-            masks.add(bucket as u8, pat);
-        }
-        let ac = AhoCorasickBuilder::new()
-            .match_kind(aho_corasick::MatchKind::LeftmostFirst)
-            .dfa(true)
-            .prefilter(false)
-            .build(&pats);
-        Some(Teddy {
-            vb: vb,
-            pats: pats.to_vec(),
-            ac: ac,
-            buckets: buckets,
-            masks: masks,
-        })
-    }
-
-    /// Returns all of the substrings matched by this `Teddy`.
-    pub fn patterns(&self) -> &[Vec<u8>] {
-        &self.pats
-    }
-
-    /// Returns the number of substrings in this matcher.
-    pub fn len(&self) -> usize {
-        self.pats.len()
-    }
-
-    /// Returns the approximate size on the heap used by this matcher.
-    pub fn approximate_size(&self) -> usize {
-        self.pats.iter().fold(0, |a, b| a + b.len())
-    }
-
-    /// Searches `haystack` for the substrings in this `Teddy`. If a match was
-    /// found, then it is returned. Otherwise, `None` is returned.
-    pub fn find(&self, haystack: &[u8]) -> Option<Match> {
-        // This is safe because the only way we can construct a Teddy type
-        // is if AVX2 is available.
-        unsafe { self.find_impl(haystack) }
-    }
-
-    #[allow(unused_attributes)]
-    #[target_feature(enable = "avx2")]
-    unsafe fn find_impl(&self, haystack: &[u8]) -> Option<Match> {
-        // If our haystack is smaller than the block size, then fall back to
-        // a naive brute force search.
-        if haystack.is_empty() || haystack.len() < (BLOCK_SIZE + 2) {
-            return self.slow(haystack, 0);
-        }
-        match self.masks.len() {
-            0 => None,
-            1 => self.find1(haystack),
-            2 => self.find2(haystack),
-            3 => self.find3(haystack),
-            _ => unreachable!(),
-        }
-    }
-
-    /// `find1` is used when there is only 1 mask. This is the easy case and is
-    /// pretty much as described in the module documentation.
-    #[inline(always)]
-    fn find1(&self, haystack: &[u8]) -> Option<Match> {
-        let mut pos = 0;
-        let zero = self.vb.u8x32_splat(0);
-        let len = haystack.len();
-        debug_assert!(len >= BLOCK_SIZE);
-        while pos <= len - BLOCK_SIZE {
-            let h = unsafe {
-                // I tried and failed to eliminate bounds checks in safe code.
-                // This is safe because of our loop invariant: pos is always
-                // <= len-32.
-                let p = haystack.get_unchecked(pos..);
-                self.vb.u8x32_load_unchecked_unaligned(p)
-            };
-            // N.B. `res0` is our `C` in the module documentation.
-            let res0 = self.masks.members1(h);
-            // Only do expensive verification if there are any non-zero bits.
-            let bitfield = res0.ne(zero).movemask();
-            if bitfield != 0 {
-                if let Some(m) = self.verify(haystack, pos, res0, bitfield) {
-                    return Some(m);
-                }
-            }
-            pos += BLOCK_SIZE;
-        }
-        self.slow(haystack, pos)
-    }
-
-    /// `find2` is used when there are 2 masks, e.g., the fingerprint is 2 bytes
-    /// long.
-    #[inline(always)]
-    fn find2(&self, haystack: &[u8]) -> Option<Match> {
-        // This is an exotic way to right shift a SIMD vector across lanes.
-        // See below at use for more details.
-        let zero = self.vb.u8x32_splat(0);
-        let len = haystack.len();
-        // The previous value of `C` (from the module documentation) for the
-        // *first* byte in the fingerprint. On subsequent iterations, we take
-        // the last bitset from the previous `C` and insert it into the first
-        // position of the current `C`, shifting all other bitsets to the right
-        // one lane. This causes `C` for the first byte to line up with `C` for
-        // the second byte, so that they can be `AND`'d together.
-        let mut prev0 = self.vb.u8x32_splat(0xFF);
-        let mut pos = 1;
-        debug_assert!(len >= BLOCK_SIZE);
-        while pos <= len - BLOCK_SIZE {
-            let h = unsafe {
-                // I tried and failed to eliminate bounds checks in safe code.
-                // This is safe because of our loop invariant: pos is always
-                // <= len-32.
-                let p = haystack.get_unchecked(pos..);
-                self.vb.u8x32_load_unchecked_unaligned(p)
-            };
-            let (res0, res1) = self.masks.members2(h);
-
-            // Do this:
-            //
-            //     (prev0 << 15) | (res0 >> 1)
-            //
-            // This lets us line up our C values for each byte.
-            let res0prev0 = res0.alignr_15(prev0);
-
-            // `AND`'s our `C` values together.
-            let res = res0prev0.and(res1);
-            prev0 = res0;
-
-            let bitfield = res.ne(zero).movemask();
-            if bitfield != 0 {
-                let pos = pos.checked_sub(1).unwrap();
-                if let Some(m) = self.verify(haystack, pos, res, bitfield) {
-                    return Some(m);
-                }
-            }
-            pos += BLOCK_SIZE;
-        }
-        // The windowing above doesn't check the last byte in the last
-        // window, so start the slow search at the last byte of the last
-        // window.
-        self.slow(haystack, pos.checked_sub(1).unwrap())
-    }
-
-    /// `find3` is used when there are 3 masks, e.g., the fingerprint is 3 bytes
-    /// long.
-    ///
-    /// N.B. This is a straight-forward extrapolation of `find2`. The only
-    /// difference is that we need to keep track of two previous values of `C`,
-    /// since we now need to align for three bytes.
-    #[inline(always)]
-    fn find3(&self, haystack: &[u8]) -> Option<Match> {
-        let zero = self.vb.u8x32_splat(0);
-        let len = haystack.len();
-        let mut prev0 = self.vb.u8x32_splat(0xFF);
-        let mut prev1 = self.vb.u8x32_splat(0xFF);
-        let mut pos = 2;
-
-        while pos <= len - BLOCK_SIZE {
-            let h = unsafe {
-                // I tried and failed to eliminate bounds checks in safe code.
-                // This is safe because of our loop invariant: pos is always
-                // <= len-32.
-                let p = haystack.get_unchecked(pos..);
-                self.vb.u8x32_load_unchecked_unaligned(p)
-            };
-            let (res0, res1, res2) = self.masks.members3(h);
-
-            let res0prev0 = res0.alignr_14(prev0);
-            let res1prev1 = res1.alignr_15(prev1);
-            let res = res0prev0.and(res1prev1).and(res2);
-
-            prev0 = res0;
-            prev1 = res1;
-
-            let bitfield = res.ne(zero).movemask();
-            if bitfield != 0 {
-                let pos = pos.checked_sub(2).unwrap();
-                if let Some(m) = self.verify(haystack, pos, res, bitfield) {
-                    return Some(m);
-                }
-            }
-            pos += BLOCK_SIZE;
-        }
-        // The windowing above doesn't check the last two bytes in the last
-        // window, so start the slow search at the penultimate byte of the
-        // last window.
-        // self.slow(haystack, pos.saturating_sub(2))
-        self.slow(haystack, pos.checked_sub(2).unwrap())
-    }
-
-    /// Runs the verification procedure on `res` (i.e., `C` from the module
-    /// documentation), where the haystack block starts at `pos` in
-    /// `haystack`. `bitfield` has ones in the bit positions that `res` has
-    /// non-zero bytes.
-    ///
-    /// If a match exists, it returns the first one.
-    #[inline(always)]
-    fn verify(
-        &self,
-        haystack: &[u8],
-        pos: usize,
-        res: u8x32,
-        mut bitfield: u32,
-    ) -> Option<Match> {
-        let patterns = res.bytes();
-        while bitfield != 0 {
-            // The next offset, relative to pos, where some fingerprint
-            // matched.
-            let byte_pos = bitfield.trailing_zeros() as usize;
-            bitfield &= !(1 << byte_pos);
-
-            // Offset relative to the beginning of the haystack.
-            let start = pos + byte_pos;
-
-            // The bitfield telling us which patterns had fingerprints that
-            // match at this starting position.
-            let mut patterns = patterns[byte_pos];
-            while patterns != 0 {
-                let bucket = patterns.trailing_zeros() as usize;
-                patterns &= !(1 << bucket);
-
-                // Actual substring search verification.
-                if let Some(m) = self.verify_bucket(haystack, bucket, start) {
-                    return Some(m);
-                }
-            }
-        }
-
-        None
-    }
-
-    /// Verifies whether any substring in the given bucket matches in haystack
-    /// at the given starting position.
-    #[inline(always)]
-    fn verify_bucket(
-        &self,
-        haystack: &[u8],
-        bucket: usize,
-        start: usize,
-    ) -> Option<Match> {
-        // This cycles through the patterns in the bucket in the order that
-        // the patterns were given. Therefore, we guarantee leftmost-first
-        // semantics.
-        for &pati in &self.buckets[bucket] {
-            let pat = &*self.pats[pati];
-            if start + pat.len() > haystack.len() {
-                continue;
-            }
-            if pat == &haystack[start..start + pat.len()] {
-                return Some(Match {
-                    pat: pati,
-                    start: start,
-                    end: start + pat.len(),
-                });
-            }
-        }
-        None
-    }
-
-    /// Slow substring search through all patterns in this matcher.
-    ///
-    /// This is used when we don't have enough bytes in the haystack for our
-    /// block based approach.
-    #[inline(never)]
-    fn slow(&self, haystack: &[u8], pos: usize) -> Option<Match> {
-        self.ac.find(&haystack[pos..]).map(|m| {
-            Match {
-                pat: m.pattern(),
-                start: pos + m.start(),
-                end: pos + m.end(),
-            }
-        })
-    }
-}
-
-/// A list of masks. This has length equal to the length of the fingerprint.
-/// The length of the fingerprint is always `min(3, len(smallest_substring))`.
-#[derive(Debug, Clone)]
-struct Masks {
-    vb: AVX2VectorBuilder,
-    masks: [Mask; 3],
-    size: usize,
-}
-
-impl Masks {
-    /// Create a new set of masks of size `n`, where `n` corresponds to the
-    /// number of bytes in a fingerprint.
-    fn new(vb: AVX2VectorBuilder, n: usize) -> Masks {
-        Masks {
-            vb: vb,
-            masks: [Mask::new(vb), Mask::new(vb), Mask::new(vb)],
-            size: n,
-        }
-    }
-
-    /// Returns the number of masks.
-    fn len(&self) -> usize {
-        self.size
-    }
-
-    /// Adds the given pattern to the given bucket. The bucket should be a
-    /// power of `2 <= 2^7`.
-    fn add(&mut self, bucket: u8, pat: &[u8]) {
-        for i in 0..self.len() {
-            self.masks[i].add(bucket, pat[i]);
-        }
-    }
-
-    /// Finds the fingerprints that are in the given haystack block. i.e., this
-    /// returns `C` as described in the module documentation.
-    ///
-    /// More specifically, `for i in 0..16` and `j in 0..8, C[i][j] == 1` if and
-    /// only if `haystack_block[i]` corresponds to a fingerprint that is part
-    /// of a pattern in bucket `j`.
-    #[inline(always)]
-    fn members1(&self, haystack_block: u8x32) -> u8x32 {
-        let masklo = self.vb.u8x32_splat(0xF);
-        let hlo = haystack_block.and(masklo);
-        let hhi = haystack_block.bit_shift_right_4().and(masklo);
-
-        self.masks[0].lo.shuffle(hlo).and(self.masks[0].hi.shuffle(hhi))
-    }
-
-    /// Like members1, but computes C for the first and second bytes in the
-    /// fingerprint.
-    #[inline(always)]
-    fn members2(&self, haystack_block: u8x32) -> (u8x32, u8x32) {
-        let masklo = self.vb.u8x32_splat(0xF);
-        let hlo = haystack_block.and(masklo);
-        let hhi = haystack_block.bit_shift_right_4().and(masklo);
-
-        let res0 =
-            self.masks[0].lo.shuffle(hlo).and(self.masks[0].hi.shuffle(hhi));
-        let res1 =
-            self.masks[1].lo.shuffle(hlo).and(self.masks[1].hi.shuffle(hhi));
-        (res0, res1)
-    }
-
-    /// Like `members1`, but computes `C` for the first, second and third bytes
-    /// in the fingerprint.
-    #[inline(always)]
-    fn members3(&self, haystack_block: u8x32) -> (u8x32, u8x32, u8x32) {
-        let masklo = self.vb.u8x32_splat(0xF);
-        let hlo = haystack_block.and(masklo);
-        let hhi = haystack_block.bit_shift_right_4().and(masklo);
-
-        let res0 =
-            self.masks[0].lo.shuffle(hlo).and(self.masks[0].hi.shuffle(hhi));
-        let res1 =
-            self.masks[1].lo.shuffle(hlo).and(self.masks[1].hi.shuffle(hhi));
-        let res2 =
-            self.masks[2].lo.shuffle(hlo).and(self.masks[2].hi.shuffle(hhi));
-        (res0, res1, res2)
-    }
-}
-
-/// A single mask.
-#[derive(Debug, Clone, Copy)]
-struct Mask {
-    /// Bitsets for the low nybbles in a fingerprint.
-    lo: u8x32,
-    /// Bitsets for the high nybbles in a fingerprint.
-    hi: u8x32,
-}
-
-impl Mask {
-    /// Create a new mask with no members.
-    fn new(vb: AVX2VectorBuilder) -> Mask {
-        Mask {
-            lo: vb.u8x32_splat(0),
-            hi: vb.u8x32_splat(0),
-        }
-    }
-
-    /// Adds the given byte to the given bucket.
-    fn add(&mut self, bucket: u8, byte: u8) {
-        // Split our byte into two nybbles, and add each nybble to our
-        // mask.
-        let byte_lo = (byte & 0xF) as usize;
-        let byte_hi = (byte >> 4) as usize;
-
-        {
-            let mut lo_bytes = self.lo.bytes();
-            let lo = lo_bytes[byte_lo] | ((1 << bucket) as u8);
-            lo_bytes[byte_lo] = lo;
-            lo_bytes[byte_lo + 16] = lo;
-            self.lo.replace_bytes(lo_bytes);
-        }
-
-        {
-            let mut hi_bytes = self.hi.bytes();
-            let hi = hi_bytes[byte_hi] | ((1 << bucket) as u8);
-            hi_bytes[byte_hi] = hi;
-            hi_bytes[byte_hi + 16] = hi;
-            self.hi.replace_bytes(hi_bytes);
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/literal/teddy_avx2/mod.rs.html b/target/doc/src/regex/literal/teddy_avx2/mod.rs.html deleted file mode 100644 index 107c749..0000000 --- a/target/doc/src/regex/literal/teddy_avx2/mod.rs.html +++ /dev/null @@ -1,19 +0,0 @@ -mod.rs.html -- source
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-pub use self::imp::*;
-
-#[cfg(target_arch = "x86_64")]
-mod imp;
-
-#[cfg(not(target_arch = "x86_64"))]
-#[path = "fallback.rs"]
-mod imp;
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/literal/teddy_ssse3/imp.rs.html b/target/doc/src/regex/literal/teddy_ssse3/imp.rs.html deleted file mode 100644 index 378f3e0..0000000 --- a/target/doc/src/regex/literal/teddy_ssse3/imp.rs.html +++ /dev/null @@ -1,1581 +0,0 @@ -imp.rs.html -- source
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-
-/*!
-Teddy is a simd accelerated multiple substring matching algorithm. The name
-and the core ideas in the algorithm were learned from the [Hyperscan][1_u]
-project.
-
-
-Background
-----------
-
-The key idea of Teddy is to do *packed* substring matching. In the literature,
-packed substring matching is the idea of examining multiple bytes in a haystack
-at a time to detect matches. Implementations of, for example, memchr (which
-detects matches of a single byte) have been doing this for years. Only
-recently, with the introduction of various SIMD instructions, has this been
-extended to substring matching. The PCMPESTRI instruction (and its relatives),
-for example, implements substring matching in hardware. It is, however, limited
-to substrings of length 16 bytes or fewer, but this restriction is fine in a
-regex engine, since we rarely care about the performance difference between
-searching for a 16 byte literal and a 16 + N literal; 16 is already long
-enough. The key downside of the PCMPESTRI instruction, on current (2016) CPUs
-at least, is its latency and throughput. As a result, it is often faster to do
-substring search with a Boyer-Moore variant and a well placed memchr to quickly
-skip through the haystack.
-
-There are fewer results from the literature on packed substring matching,
-and even fewer for packed multiple substring matching. Ben-Kiki et al. [2]
-describes use of PCMPESTRI for substring matching, but is mostly theoretical
-and hand-waves performance. There is other theoretical work done by Bille [3]
-as well.
-
-The rest of the work in the field, as far as I'm aware, is by Faro and Kulekci
-and is generally focused on multiple pattern search. Their first paper [4a]
-introduces the concept of a fingerprint, which is computed for every block of
-N bytes in every pattern. The haystack is then scanned N bytes at a time and
-a fingerprint is computed in the same way it was computed for blocks in the
-patterns. If the fingerprint corresponds to one that was found in a pattern,
-then a verification step follows to confirm that one of the substrings with the
-corresponding fingerprint actually matches at the current location. Various
-implementation tricks are employed to make sure the fingerprint lookup is fast;
-typically by truncating the fingerprint. (This may, of course, provoke more
-steps in the verification process, so a balance must be struck.)
-
-The main downside of [4a] is that the minimum substring length is 32 bytes,
-presumably because of how the algorithm uses certain SIMD instructions. This
-essentially makes it useless for general purpose regex matching, where a small
-number of short patterns is far more likely.
-
-Faro and Kulekci published another paper [4b] that is conceptually very similar
-to [4a]. The key difference is that it uses the CRC32 instruction (introduced
-as part of SSE 4.2) to compute fingerprint values. This also enables the
-algorithm to work effectively on substrings as short as 7 bytes with 4 byte
-windows. 7 bytes is unfortunately still too long. The window could be
-technically shrunk to 2 bytes, thereby reducing minimum length to 3, but the
-small window size ends up negating most performance benefits—and it's likely
-the common case in a general purpose regex engine.
-
-Faro and Kulekci also published [4c] that appears to be intended as a
-replacement to using PCMPESTRI. In particular, it is specifically motivated by
-the high throughput/latency time of PCMPESTRI and therefore chooses other SIMD
-instructions that are faster. While this approach works for short substrings,
-I personally couldn't see a way to generalize it to multiple substring search.
-
-Faro and Kulekci have another paper [4d] that I haven't been able to read
-because it is behind a paywall.
-
-
-Teddy
------
-
-Finally, we get to Teddy. If the above literature review is complete, then it
-appears that Teddy is a novel algorithm. More than that, in my experience, it
-completely blows away the competition for short substrings, which is exactly
-what we want in a general purpose regex engine. Again, the algorithm appears
-to be developed by the authors of [Hyperscan][1_u]. Hyperscan was open sourced
-late 2015, and no earlier history could be found. Therefore, tracking the exact
-provenance of the algorithm with respect to the published literature seems
-difficult.
-
-DISCLAIMER: My understanding of Teddy is limited to reading auto-generated C
-code, its disassembly and observing its runtime behavior.
-
-At a high level, Teddy works somewhat similarly to the fingerprint algorithms
-published by Faro and Kulekci, but Teddy does it in a way that scales a bit
-better. Namely:
-
-1. Teddy's core algorithm scans the haystack in 16 byte chunks. 16 is
-   significant because it corresponds to the number of bytes in a SIMD vector.
-   If one used AVX2 instructions, then we could scan the haystack in 32 byte
-   chunks. Similarly, if one used AVX512 instructions, we could scan the
-   haystack in 64 byte chunks. Hyperscan implements SSE + AVX2, we only
-   implement SSE for the moment.
-2. Bitwise operations are performed on each chunk to discover if any region of
-   it matches a set of precomputed fingerprints from the patterns. If there are
-   matches, then a verification step is performed. In this implementation, our
-   verification step is naive. This can be improved upon.
-
-The details to make this work are quite clever. First, we must choose how to
-pick our fingerprints. In Hyperscan's implementation, I *believe* they use the
-last N bytes of each substring, where N must be at least the minimum length of
-any substring in the set being searched. In this implementation, we use the
-first N bytes of each substring. (The tradeoffs between these choices aren't
-yet clear to me.) We then must figure out how to quickly test whether an
-occurrence of any fingerprint from the set of patterns appears in a 16 byte
-block from the haystack. To keep things simple, let's assume N = 1 and examine
-some examples to motivate the approach. Here are our patterns:
-
-```ignore
-foo
-bar
-baz
-```
-
-The corresponding fingerprints, for N = 1, are `f`, `b` and `b`. Now let's set
-our 16 byte block to:
-
-```ignore
-bat cat foo bump
-xxxxxxxxxxxxxxxx
-```
-
-To cut to the chase, Teddy works by using bitsets. In particular, Teddy creates
-a mask that allows us to quickly compute membership of a fingerprint in a 16
-byte block that also tells which pattern the fingerprint corresponds to. In
-this case, our fingerprint is a single byte, so an appropriate abstraction is
-a map from a single byte to a list of patterns that contain that fingerprint:
-
-```ignore
-f |--> foo
-b |--> bar, baz
-```
-
-Now, all we need to do is figure out how to represent this map in vector space
-and use normal SIMD operations to perform a lookup. The first simplification
-we can make is to represent our patterns as bit fields occupying a single
-byte. This is important, because a single SIMD vector can store 16 bytes.
-
-```ignore
-f |--> 00000001
-b |--> 00000010, 00000100
-```
-
-How do we perform lookup though? It turns out that SSSE3 introduced a very cool
-instruction called PSHUFB. The instruction takes two SIMD vectors, `A` and `B`,
-and returns a third vector `C`. All vectors are treated as 16 8-bit integers.
-`C` is formed by `C[i] = A[B[i]]`. (This is a bit of a simplification, but true
-for the purposes of this algorithm. For full details, see [Intel's Intrinsics
-Guide][5_u].) This essentially lets us use the values in `B` to lookup values
-in `A`.
-
-If we could somehow cause `B` to contain our 16 byte block from the haystack,
-and if `A` could contain our bitmasks, then we'd end up with something like
-this for `A`:
-
-```ignore
-    0x00 0x01 ... 0x62      ... 0x66      ... 0xFF
-A = 0    0        00000110      00000001      0
-```
-
-And if `B` contains our window from our haystack, we could use shuffle to take
-the values from `B` and use them to look up our bitsets in `A`. But of course,
-we can't do this because `A` in the above example contains 256 bytes, which
-is much larger than the size of a SIMD vector.
-
-Nybbles to the rescue! A nybble is 4 bits. Instead of one mask to hold all of
-our bitsets, we can use two masks, where one mask corresponds to the lower four
-bits of our fingerprint and the other mask corresponds to the upper four bits.
-So our map now looks like:
-
-```ignore
-'f' & 0xF = 0x6 |--> 00000001
-'f' >> 4  = 0x6 |--> 00000111
-'b' & 0xF = 0x2 |--> 00000110
-'b' >> 4  = 0x6 |--> 00000111
-```
-
-Notice that the bitsets for each nybble correspond to the union of all
-fingerprints that contain that nybble. For example, both `f` and `b` have the
-same upper 4 bits but differ on the lower 4 bits. Putting this together, we
-have `A0`, `A1` and `B`, where `A0` is our mask for the lower nybble, `A1` is
-our mask for the upper nybble and `B` is our 16 byte block from the haystack:
-
-```ignore
-      0x00 0x01 0x02      0x03 ... 0x06      ... 0xF
-A0 =  0    0    00000110  0        00000001      0
-A1 =  0    0    0         0        00000111      0
-B  =  b    a    t         _        t             p
-B  =  0x62 0x61 0x74      0x20     0x74          0x70
-```
-
-But of course, we can't use `B` with `PSHUFB` yet, since its values are 8 bits,
-and we need indexes that are at most 4 bits (corresponding to one of 16
-values). We can apply the same transformation to split `B` into lower and upper
-nybbles as we did `A`. As before, `B0` corresponds to the lower nybbles and
-`B1` corresponds to the upper nybbles:
-
-```ignore
-     b   a   t   _   c   a   t   _   f   o   o   _   b   u   m   p
-B0 = 0x2 0x1 0x4 0x0 0x3 0x1 0x4 0x0 0x6 0xF 0xF 0x0 0x2 0x5 0xD 0x0
-B1 = 0x6 0x6 0x7 0x2 0x6 0x6 0x7 0x2 0x6 0x6 0x6 0x2 0x6 0x7 0x6 0x7
-```
-
-And now we have a nice correspondence. `B0` can index `A0` and `B1` can index
-`A1`. Here's what we get when we apply `C0 = PSHUFB(A0, B0)`:
-
-```ignore
-     b         a        ... f         o         ... p
-     A0[0x2]   A0[0x1]      A0[0x6]   A0[0xF]       A0[0x0]
-C0 = 00000110  0            00000001  0             0
-```
-
-And `C1 = PSHUFB(A1, B1)`:
-
-```ignore
-     b         a        ... f         o        ... p
-     A1[0x6]   A1[0x6]      A1[0x6]   A1[0x6]      A1[0x7]
-C1 = 00000111  00000111     00000111  00000111     0
-```
-
-Notice how neither one of `C0` or `C1` is guaranteed to report fully correct
-results all on its own. For example, `C1` claims that `b` is a fingerprint for
-the pattern `foo` (since `A1[0x6] = 00000111`), and that `o` is a fingerprint
-for all of our patterns. But if we combined `C0` and `C1` with an `AND`
-operation:
-
-```ignore
-     b         a        ... f         o        ... p
-C  = 00000110  0            00000001  0            0
-```
-
-Then we now have that `C[i]` contains a bitset corresponding to the matching
-fingerprints in a haystack's 16 byte block, where `i` is the `ith` byte in that
-block.
-
-Once we have that, we can look for the position of the least significant bit
-in `C`. That position, modulo `8`, gives us the pattern that the fingerprint
-matches. That position, integer divided by `8`, also gives us the byte offset
-that the fingerprint occurs in inside the 16 byte haystack block. Using those
-two pieces of information, we can run a verification procedure that tries
-to match all substrings containing that fingerprint at that position in the
-haystack.
-
-
-Implementation notes
---------------------
-
-The problem with the algorithm as described above is that it uses a single byte
-for a fingerprint. This will work well if the fingerprints are rare in the
-haystack (e.g., capital letters or special characters in normal English text),
-but if the fingerprints are common, you'll wind up spending too much time in
-the verification step, which effectively negate the performance benefits of
-scanning 16 bytes at a time. Remember, the key to the performance of this
-algorithm is to do as little work as possible per 16 bytes.
-
-This algorithm can be extrapolated in a relatively straight-forward way to use
-larger fingerprints. That is, instead of a single byte prefix, we might use a
-three byte prefix. The implementation below implements N = {1, 2, 3} and always
-picks the largest N possible. The rationale is that the bigger the fingerprint,
-the fewer verification steps we'll do. Of course, if N is too large, then we'll
-end up doing too much on each step.
-
-The way to extend it is:
-
-1. Add a mask for each byte in the fingerprint. (Remember that each mask is
-   composed of two SIMD vectors.) This results in a value of `C` for each byte
-   in the fingerprint while searching.
-2. When testing each 16 byte block, each value of `C` must be shifted so that
-   they are aligned. Once aligned, they should all be `AND`'d together. This
-   will give you only the bitsets corresponding to the full match of the
-   fingerprint.
-
-The implementation below is commented to fill in the nitty gritty details.
-
-References
-----------
-
-- **[1]** [Hyperscan on GitHub](https://github.com/01org/hyperscan),
-    [webpage](https://01.org/hyperscan)
-- **[2a]** Ben-Kiki, O., Bille, P., Breslauer, D., Gasieniec, L., Grossi, R.,
-    & Weimann, O. (2011).
-    _Optimal packed string matching_.
-    In LIPIcs-Leibniz International Proceedings in Informatics (Vol. 13).
-    Schloss Dagstuhl-Leibniz-Zentrum fuer Informatik.
-    DOI: 10.4230/LIPIcs.FSTTCS.2011.423.
-    [PDF](http://drops.dagstuhl.de/opus/volltexte/2011/3355/pdf/37.pdf).
-- **[2b]** Ben-Kiki, O., Bille, P., Breslauer, D., Ga̧sieniec, L., Grossi, R.,
-    & Weimann, O. (2014).
-    _Towards optimal packed string matching_.
-    Theoretical Computer Science, 525, 111-129.
-    DOI: 10.1016/j.tcs.2013.06.013.
-    [PDF](http://www.cs.haifa.ac.il/~oren/Publications/bpsm.pdf).
-- **[3]** Bille, P. (2011).
-    _Fast searching in packed strings_.
-    Journal of Discrete Algorithms, 9(1), 49-56.
-    DOI: 10.1016/j.jda.2010.09.003.
-    [PDF](http://www.sciencedirect.com/science/article/pii/S1570866710000353).
-- **[4a]** Faro, S., & Külekci, M. O. (2012, October).
-    _Fast multiple string matching using streaming SIMD extensions technology_.
-    In String Processing and Information Retrieval (pp. 217-228).
-    Springer Berlin Heidelberg.
-    DOI: 10.1007/978-3-642-34109-0_23.
-    [PDF](http://www.dmi.unict.it/~faro/papers/conference/faro32.pdf).
-- **[4b]** Faro, S., & Külekci, M. O. (2013, September).
-    _Towards a Very Fast Multiple String Matching Algorithm for Short Patterns_.
-    In Stringology (pp. 78-91).
-    [PDF](http://www.dmi.unict.it/~faro/papers/conference/faro36.pdf).
-- **[4c]** Faro, S., & Külekci, M. O. (2013, January).
-    _Fast packed string matching for short patterns_.
-    In Proceedings of the Meeting on Algorithm Engineering & Expermiments
-    (pp. 113-121).
-    Society for Industrial and Applied Mathematics.
-    [PDF](http://arxiv.org/pdf/1209.6449.pdf).
-- **[4d]** Faro, S., & Külekci, M. O. (2014).
-    _Fast and flexible packed string matching_.
-    Journal of Discrete Algorithms, 28, 61-72.
-    DOI: 10.1016/j.jda.2014.07.003.
-
-[1_u]: https://github.com/01org/hyperscan
-[5_u]: https://software.intel.com/sites/landingpage/IntrinsicsGuide
-*/
-
-use std::cmp;
-
-use aho_corasick::{self, AhoCorasick, AhoCorasickBuilder};
-use syntax::hir::literal::Literals;
-
-use vector::ssse3::{SSSE3VectorBuilder, u8x16};
-
-/// Corresponds to the number of bytes read at a time in the haystack.
-const BLOCK_SIZE: usize = 16;
-
-/// Match reports match information.
-#[derive(Debug, Clone)]
-pub struct Match {
-    /// The index of the pattern that matched. The index is in correspondence
-    /// with the order of the patterns given at construction.
-    pub pat: usize,
-    /// The start byte offset of the match.
-    pub start: usize,
-    /// The end byte offset of the match. This is always `start + pat.len()`.
-    pub end: usize,
-}
-
-/// A SIMD accelerated multi substring searcher.
-#[derive(Debug, Clone)]
-pub struct Teddy {
-    /// A builder for SSSE3 empowered vectors.
-    vb: SSSE3VectorBuilder,
-    /// A list of substrings to match.
-    pats: Vec<Vec<u8>>,
-    /// An Aho-Corasick automaton of the patterns. We use this when we need to
-    /// search pieces smaller than the Teddy block size.
-    ac: AhoCorasick,
-    /// A set of 8 buckets. Each bucket corresponds to a single member of a
-    /// bitset. A bucket contains zero or more substrings. This is useful
-    /// when the number of substrings exceeds 8, since our bitsets cannot have
-    /// more than 8 members.
-    buckets: Vec<Vec<usize>>,
-    /// Our set of masks. There's one mask for each byte in the fingerprint.
-    masks: Masks,
-}
-
-impl Teddy {
-    /// Returns true if and only if Teddy is supported on this platform.
-    ///
-    /// If this returns `false`, then `Teddy::new(...)` is guaranteed to
-    /// return `None`.
-    pub fn available() -> bool {
-        SSSE3VectorBuilder::new().is_some()
-    }
-
-    /// Create a new `Teddy` multi substring matcher.
-    ///
-    /// If a `Teddy` matcher could not be created (e.g., `pats` is empty or has
-    /// an empty substring), then `None` is returned.
-    pub fn new(pats: &Literals) -> Option<Teddy> {
-        let vb = match SSSE3VectorBuilder::new() {
-            None => return None,
-            Some(vb) => vb,
-        };
-        if !Teddy::available() {
-            return None;
-        }
-
-        let pats: Vec<_> = pats.literals().iter().map(|p|p.to_vec()).collect();
-        let min_len = pats.iter().map(|p| p.len()).min().unwrap_or(0);
-        // Don't allow any empty patterns and require that we have at
-        // least one pattern.
-        if min_len < 1 {
-            return None;
-        }
-        // Pick the largest mask possible, but no larger than 3.
-        let nmasks = cmp::min(3, min_len);
-        let mut masks = Masks::new(vb, nmasks);
-        let mut buckets = vec![vec![]; 8];
-        // Assign a substring to each bucket, and add the bucket's bitfield to
-        // the appropriate position in the mask.
-        for (pati, pat) in pats.iter().enumerate() {
-            let bucket = pati % 8;
-            buckets[bucket].push(pati);
-            masks.add(bucket as u8, pat);
-        }
-        let ac = AhoCorasickBuilder::new()
-            .match_kind(aho_corasick::MatchKind::LeftmostFirst)
-            .dfa(true)
-            .prefilter(false)
-            .build(&pats);
-        Some(Teddy {
-            vb: vb,
-            pats: pats.to_vec(),
-            ac: ac,
-            buckets: buckets,
-            masks: masks,
-        })
-    }
-
-    /// Returns all of the substrings matched by this `Teddy`.
-    pub fn patterns(&self) -> &[Vec<u8>] {
-        &self.pats
-    }
-
-    /// Returns the number of substrings in this matcher.
-    pub fn len(&self) -> usize {
-        self.pats.len()
-    }
-
-    /// Returns the approximate size on the heap used by this matcher.
-    pub fn approximate_size(&self) -> usize {
-        self.pats.iter().fold(0, |a, b| a + b.len())
-    }
-
-    /// Searches `haystack` for the substrings in this `Teddy`. If a match was
-    /// found, then it is returned. Otherwise, `None` is returned.
-    pub fn find(&self, haystack: &[u8]) -> Option<Match> {
-        // This is safe because the only way we can construct a Teddy type
-        // is if SSSE3 is available.
-        unsafe { self.find_impl(haystack) }
-    }
-
-    #[allow(unused_attributes)]
-    #[target_feature(enable = "ssse3")]
-    unsafe fn find_impl(&self, haystack: &[u8]) -> Option<Match> {
-        // If our haystack is smaller than the block size, then fall back to
-        // a naive brute force search.
-        if haystack.is_empty() || haystack.len() < (BLOCK_SIZE + 2) {
-            return self.slow(haystack, 0);
-        }
-        match self.masks.len() {
-            0 => None,
-            1 => self.find1(haystack),
-            2 => self.find2(haystack),
-            3 => self.find3(haystack),
-            _ => unreachable!(),
-        }
-    }
-
-    /// `find1` is used when there is only 1 mask. This is the easy case and is
-    /// pretty much as described in the module documentation.
-    #[inline(always)]
-    fn find1(&self, haystack: &[u8]) -> Option<Match> {
-        let mut pos = 0;
-        let zero = self.vb.u8x16_splat(0);
-        let len = haystack.len();
-        debug_assert!(len >= BLOCK_SIZE);
-        while pos <= len - BLOCK_SIZE {
-            let h = unsafe {
-                // I tried and failed to eliminate bounds checks in safe code.
-                // This is safe because of our loop invariant: pos is always
-                // <= len-16.
-                let p = haystack.get_unchecked(pos..);
-                self.vb.u8x16_load_unchecked_unaligned(p)
-            };
-            // N.B. `res0` is our `C` in the module documentation.
-            let res0 = self.masks.members1(h);
-            // Only do expensive verification if there are any non-zero bits.
-            let bitfield = res0.ne(zero).movemask();
-            if bitfield != 0 {
-                if let Some(m) = self.verify(haystack, pos, res0, bitfield) {
-                    return Some(m);
-                }
-            }
-            pos += BLOCK_SIZE;
-        }
-        self.slow(haystack, pos)
-    }
-
-    /// `find2` is used when there are 2 masks, e.g., the fingerprint is 2 bytes
-    /// long.
-    #[inline(always)]
-    fn find2(&self, haystack: &[u8]) -> Option<Match> {
-        // This is an exotic way to right shift a SIMD vector across lanes.
-        // See below at use for more details.
-        let zero = self.vb.u8x16_splat(0);
-        let len = haystack.len();
-        // The previous value of `C` (from the module documentation) for the
-        // *first* byte in the fingerprint. On subsequent iterations, we take
-        // the last bitset from the previous `C` and insert it into the first
-        // position of the current `C`, shifting all other bitsets to the right
-        // one lane. This causes `C` for the first byte to line up with `C` for
-        // the second byte, so that they can be `AND`'d together.
-        let mut prev0 = self.vb.u8x16_splat(0xFF);
-        let mut pos = 1;
-        debug_assert!(len >= BLOCK_SIZE);
-        while pos <= len - BLOCK_SIZE {
-            let h = unsafe {
-                // I tried and failed to eliminate bounds checks in safe code.
-                // This is safe because of our loop invariant: pos is always
-                // <= len-16.
-                let p = haystack.get_unchecked(pos..);
-                self.vb.u8x16_load_unchecked_unaligned(p)
-            };
-            let (res0, res1) = self.masks.members2(h);
-
-            // Do this:
-            //
-            //     (prev0 << 15) | (res0 >> 1)
-            //
-            // This lets us line up our C values for each byte.
-            let res0prev0 = res0.alignr_15(prev0);
-
-            // `AND`'s our `C` values together.
-            let res = res0prev0.and(res1);
-            prev0 = res0;
-
-            let bitfield = res.ne(zero).movemask();
-            if bitfield != 0 {
-                let pos = pos.checked_sub(1).unwrap();
-                if let Some(m) = self.verify(haystack, pos, res, bitfield) {
-                    return Some(m);
-                }
-            }
-            pos += BLOCK_SIZE;
-        }
-        // The windowing above doesn't check the last byte in the last
-        // window, so start the slow search at the last byte of the last
-        // window.
-        self.slow(haystack, pos.checked_sub(1).unwrap())
-    }
-
-    /// `find3` is used when there are 3 masks, e.g., the fingerprint is 3 bytes
-    /// long.
-    ///
-    /// N.B. This is a straight-forward extrapolation of `find2`. The only
-    /// difference is that we need to keep track of two previous values of `C`,
-    /// since we now need to align for three bytes.
-    #[inline(always)]
-    fn find3(&self, haystack: &[u8]) -> Option<Match> {
-        let zero = self.vb.u8x16_splat(0);
-        let len = haystack.len();
-        let mut prev0 = self.vb.u8x16_splat(0xFF);
-        let mut prev1 = self.vb.u8x16_splat(0xFF);
-        let mut pos = 2;
-        while pos <= len - BLOCK_SIZE {
-            let h = unsafe {
-                // I tried and failed to eliminate bounds checks in safe code.
-                // This is safe because of our loop invariant: pos is always
-                // <= len-16.
-                let p = haystack.get_unchecked(pos..);
-                self.vb.u8x16_load_unchecked_unaligned(p)
-            };
-            let (res0, res1, res2) = self.masks.members3(h);
-
-            let res0prev0 = res0.alignr_14(prev0);
-            let res1prev1 = res1.alignr_15(prev1);
-            let res = res0prev0.and(res1prev1).and(res2);
-
-            prev0 = res0;
-            prev1 = res1;
-
-            let bitfield = res.ne(zero).movemask();
-            if bitfield != 0 {
-                let pos = pos.checked_sub(2).unwrap();
-                if let Some(m) = self.verify(haystack, pos, res, bitfield) {
-                    return Some(m);
-                }
-            }
-            pos += BLOCK_SIZE;
-        }
-        // The windowing above doesn't check the last two bytes in the last
-        // window, so start the slow search at the penultimate byte of the
-        // last window.
-        // self.slow(haystack, pos.saturating_sub(2))
-        self.slow(haystack, pos.checked_sub(2).unwrap())
-    }
-
-    /// Runs the verification procedure on `res` (i.e., `C` from the module
-    /// documentation), where the haystack block starts at `pos` in
-    /// `haystack`. `bitfield` has ones in the bit positions that `res` has
-    /// non-zero bytes.
-    ///
-    /// If a match exists, it returns the first one.
-    #[inline(always)]
-    fn verify(
-        &self,
-        haystack: &[u8],
-        pos: usize,
-        res: u8x16,
-        mut bitfield: u32,
-    ) -> Option<Match> {
-        let patterns = res.bytes();
-        while bitfield != 0 {
-            // The next offset, relative to pos, where some fingerprint
-            // matched.
-            let byte_pos = bitfield.trailing_zeros() as usize;
-            bitfield &= !(1 << byte_pos);
-
-            // Offset relative to the beginning of the haystack.
-            let start = pos + byte_pos;
-
-            // The bitfield telling us which patterns had fingerprints that
-            // match at this starting position.
-            let mut patterns = patterns[byte_pos];
-            while patterns != 0 {
-                let bucket = patterns.trailing_zeros() as usize;
-                patterns &= !(1 << bucket);
-
-                // Actual substring search verification.
-                if let Some(m) = self.verify_bucket(haystack, bucket, start) {
-                    return Some(m);
-                }
-            }
-        }
-
-        None
-    }
-
-    /// Verifies whether any substring in the given bucket matches in haystack
-    /// at the given starting position.
-    #[inline(always)]
-    fn verify_bucket(
-        &self,
-        haystack: &[u8],
-        bucket: usize,
-        start: usize,
-    ) -> Option<Match> {
-        // This cycles through the patterns in the bucket in the order that
-        // the patterns were given. Therefore, we guarantee leftmost-first
-        // semantics.
-        for &pati in &self.buckets[bucket] {
-            let pat = &*self.pats[pati];
-            if start + pat.len() > haystack.len() {
-                continue;
-            }
-            if pat == &haystack[start..start + pat.len()] {
-                return Some(Match {
-                    pat: pati,
-                    start: start,
-                    end: start + pat.len(),
-                });
-            }
-        }
-        None
-    }
-
-    /// Slow substring search through all patterns in this matcher.
-    ///
-    /// This is used when we don't have enough bytes in the haystack for our
-    /// block based approach.
-    #[inline(never)]
-    fn slow(&self, haystack: &[u8], pos: usize) -> Option<Match> {
-        self.ac.find(&haystack[pos..]).map(|m| {
-            Match {
-                pat: m.pattern(),
-                start: pos + m.start(),
-                end: pos + m.end(),
-            }
-        })
-    }
-}
-
-/// A list of masks. This has length equal to the length of the fingerprint.
-/// The length of the fingerprint is always `min(3, len(smallest_substring))`.
-#[derive(Debug, Clone)]
-struct Masks {
-    vb: SSSE3VectorBuilder,
-    masks: [Mask; 3],
-    size: usize,
-}
-
-impl Masks {
-    /// Create a new set of masks of size `n`, where `n` corresponds to the
-    /// number of bytes in a fingerprint.
-    fn new(vb: SSSE3VectorBuilder, n: usize) -> Masks {
-        Masks {
-            vb: vb,
-            masks: [Mask::new(vb), Mask::new(vb), Mask::new(vb)],
-            size: n,
-        }
-    }
-
-    /// Returns the number of masks.
-    fn len(&self) -> usize {
-        self.size
-    }
-
-    /// Adds the given pattern to the given bucket. The bucket should be a
-    /// power of `2 <= 2^7`.
-    fn add(&mut self, bucket: u8, pat: &[u8]) {
-        for i in 0..self.len() {
-            self.masks[i].add(bucket, pat[i]);
-        }
-    }
-
-    /// Finds the fingerprints that are in the given haystack block. i.e., this
-    /// returns `C` as described in the module documentation.
-    ///
-    /// More specifically, `for i in 0..16` and `j in 0..8, C[i][j] == 1` if and
-    /// only if `haystack_block[i]` corresponds to a fingerprint that is part
-    /// of a pattern in bucket `j`.
-    #[inline(always)]
-    fn members1(&self, haystack_block: u8x16) -> u8x16 {
-        let masklo = self.vb.u8x16_splat(0xF);
-        let hlo = haystack_block.and(masklo);
-        let hhi = haystack_block.bit_shift_right_4().and(masklo);
-
-        self.masks[0].lo.shuffle(hlo).and(self.masks[0].hi.shuffle(hhi))
-    }
-
-    /// Like members1, but computes C for the first and second bytes in the
-    /// fingerprint.
-    #[inline(always)]
-    fn members2(&self, haystack_block: u8x16) -> (u8x16, u8x16) {
-        let masklo = self.vb.u8x16_splat(0xF);
-        let hlo = haystack_block.and(masklo);
-        let hhi = haystack_block.bit_shift_right_4().and(masklo);
-
-        let res0 =
-            self.masks[0].lo.shuffle(hlo).and(self.masks[0].hi.shuffle(hhi));
-        let res1 =
-            self.masks[1].lo.shuffle(hlo).and(self.masks[1].hi.shuffle(hhi));
-        (res0, res1)
-    }
-
-    /// Like `members1`, but computes `C` for the first, second and third bytes
-    /// in the fingerprint.
-    #[inline(always)]
-    fn members3(&self, haystack_block: u8x16) -> (u8x16, u8x16, u8x16) {
-        let masklo = self.vb.u8x16_splat(0xF);
-        let hlo = haystack_block.and(masklo);
-        let hhi = haystack_block.bit_shift_right_4().and(masklo);
-
-        let res0 =
-            self.masks[0].lo.shuffle(hlo).and(self.masks[0].hi.shuffle(hhi));
-        let res1 =
-            self.masks[1].lo.shuffle(hlo).and(self.masks[1].hi.shuffle(hhi));
-        let res2 =
-            self.masks[2].lo.shuffle(hlo).and(self.masks[2].hi.shuffle(hhi));
-        (res0, res1, res2)
-    }
-}
-
-/// A single mask.
-#[derive(Debug, Clone, Copy)]
-struct Mask {
-    /// Bitsets for the low nybbles in a fingerprint.
-    lo: u8x16,
-    /// Bitsets for the high nybbles in a fingerprint.
-    hi: u8x16,
-}
-
-impl Mask {
-    /// Create a new mask with no members.
-    fn new(vb: SSSE3VectorBuilder) -> Mask {
-        Mask {
-            lo: vb.u8x16_splat(0),
-            hi: vb.u8x16_splat(0),
-        }
-    }
-
-    /// Adds the given byte to the given bucket.
-    fn add(&mut self, bucket: u8, byte: u8) {
-        // Split our byte into two nybbles, and add each nybble to our
-        // mask.
-        let byte_lo = (byte & 0xF) as usize;
-        let byte_hi = (byte >> 4) as usize;
-
-        {
-            let mut lo_bytes = self.lo.bytes();
-            let lo = lo_bytes[byte_lo];
-            lo_bytes[byte_lo] = ((1 << bucket) as u8) | lo;
-            self.lo.replace_bytes(lo_bytes);
-        }
-        {
-            let mut hi_bytes = self.hi.bytes();
-            let hi = hi_bytes[byte_hi];
-            hi_bytes[byte_hi] = ((1 << bucket) as u8) | hi;
-            self.hi.replace_bytes(hi_bytes);
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/literal/teddy_ssse3/mod.rs.html b/target/doc/src/regex/literal/teddy_ssse3/mod.rs.html deleted file mode 100644 index 2bdc44d..0000000 --- a/target/doc/src/regex/literal/teddy_ssse3/mod.rs.html +++ /dev/null @@ -1,19 +0,0 @@ -mod.rs.html -- source
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-pub use self::imp::*;
-
-#[cfg(target_arch = "x86_64")]
-mod imp;
-
-#[cfg(not(target_arch = "x86_64"))]
-#[path = "fallback.rs"]
-mod imp;
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/pikevm.rs.html b/target/doc/src/regex/pikevm.rs.html deleted file mode 100644 index 2fb3553..0000000 --- a/target/doc/src/regex/pikevm.rs.html +++ /dev/null @@ -1,763 +0,0 @@ -pikevm.rs.html -- source
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-// This module implements the Pike VM. That is, it guarantees linear time
-// search of a regex on any text with memory use proportional to the size of
-// the regex.
-//
-// It is equal in power to the backtracking engine in this crate, except the
-// backtracking engine is typically faster on small regexes/texts at the
-// expense of a bigger memory footprint.
-//
-// It can do more than the DFA can (specifically, record capture locations
-// and execute Unicode word boundary assertions), but at a slower speed.
-// Specifically, the Pike VM exectues a DFA implicitly by repeatedly expanding
-// epsilon transitions. That is, the Pike VM engine can be in multiple states
-// at once where as the DFA is only ever in one state at a time.
-//
-// Therefore, the Pike VM is generally treated as the fallback when the other
-// matching engines either aren't feasible to run or are insufficient.
-
-use std::mem;
-
-use exec::ProgramCache;
-use input::{Input, InputAt};
-use prog::{Program, InstPtr};
-use re_trait::Slot;
-use sparse::SparseSet;
-
-/// An NFA simulation matching engine.
-#[derive(Debug)]
-pub struct Fsm<'r, I> {
-    /// The sequence of opcodes (among other things) that is actually executed.
-    ///
-    /// The program may be byte oriented or Unicode codepoint oriented.
-    prog: &'r Program,
-    /// An explicit stack used for following epsilon transitions. (This is
-    /// borrowed from the cache.)
-    stack: &'r mut Vec<FollowEpsilon>,
-    /// The input to search.
-    input: I,
-}
-
-/// A cached allocation that can be reused on each execution.
-#[derive(Clone, Debug)]
-pub struct Cache {
-    /// A pair of ordered sets for tracking NFA states.
-    clist: Threads,
-    nlist: Threads,
-    /// An explicit stack used for following epsilon transitions.
-    stack: Vec<FollowEpsilon>,
-}
-
-/// An ordered set of NFA states and their captures.
-#[derive(Clone, Debug)]
-struct Threads {
-    /// An ordered set of opcodes (each opcode is an NFA state).
-    set: SparseSet,
-    /// Captures for every NFA state.
-    ///
-    /// It is stored in row-major order, where the columns are the capture
-    /// slots and the rows are the states.
-    caps: Vec<Slot>,
-    /// The number of capture slots stored per thread. (Every capture has
-    /// two slots.)
-    slots_per_thread: usize,
-}
-
-/// A representation of an explicit stack frame when following epsilon
-/// transitions. This is used to avoid recursion.
-#[derive(Clone, Debug)]
-enum FollowEpsilon {
-    /// Follow transitions at the given instruction pointer.
-    IP(InstPtr),
-    /// Restore the capture slot with the given position in the input.
-    Capture { slot: usize, pos: Slot },
-}
-
-impl Cache {
-    /// Create a new allocation used by the NFA machine to record execution
-    /// and captures.
-    pub fn new(_prog: &Program) -> Self {
-        Cache {
-            clist: Threads::new(),
-            nlist: Threads::new(),
-            stack: vec![],
-        }
-    }
-}
-
-impl<'r, I: Input> Fsm<'r, I> {
-    /// Execute the NFA matching engine.
-    ///
-    /// If there's a match, `exec` returns `true` and populates the given
-    /// captures accordingly.
-    pub fn exec(
-        prog: &'r Program,
-        cache: &ProgramCache,
-        matches: &mut [bool],
-        slots: &mut [Slot],
-        quit_after_match: bool,
-        input: I,
-        start: usize,
-        end: usize,
-    ) -> bool {
-        let mut cache = cache.borrow_mut();
-        let cache = &mut cache.pikevm;
-        cache.clist.resize(prog.len(), prog.captures.len());
-        cache.nlist.resize(prog.len(), prog.captures.len());
-        let at = input.at(start);
-        Fsm {
-            prog: prog,
-            stack: &mut cache.stack,
-            input: input,
-        }.exec_(
-            &mut cache.clist,
-            &mut cache.nlist,
-            matches,
-            slots,
-            quit_after_match,
-            at,
-            end,
-        )
-    }
-
-    fn exec_(
-        &mut self,
-        mut clist: &mut Threads,
-        mut nlist: &mut Threads,
-        matches: &mut [bool],
-        slots: &mut [Slot],
-        quit_after_match: bool,
-        mut at: InputAt,
-        end: usize,
-    ) -> bool {
-        let mut matched = false;
-        let mut all_matched = false;
-        clist.set.clear();
-        nlist.set.clear();
-'LOOP:  loop {
-            if clist.set.is_empty() {
-                // Three ways to bail out when our current set of threads is
-                // empty.
-                //
-                // 1. We have a match---so we're done exploring any possible
-                //    alternatives. Time to quit. (We can't do this if we're
-                //    looking for matches for multiple regexes, unless we know
-                //    they all matched.)
-                //
-                // 2. If the expression starts with a '^' we can terminate as
-                //    soon as the last thread dies.
-                if (matched && matches.len() <= 1)
-                    || all_matched
-                    || (!at.is_start() && self.prog.is_anchored_start) {
-                    break;
-                }
-
-                // 3. If there's a literal prefix for the program, try to
-                //    jump ahead quickly. If it can't be found, then we can
-                //    bail out early.
-                if !self.prog.prefixes.is_empty() {
-                    at = match self.input.prefix_at(&self.prog.prefixes, at) {
-                        None => break,
-                        Some(at) => at,
-                    };
-                }
-            }
-
-            // This simulates a preceding '.*?' for every regex by adding
-            // a state starting at the current position in the input for the
-            // beginning of the program only if we don't already have a match.
-            if clist.set.is_empty()
-                || (!self.prog.is_anchored_start && !all_matched) {
-                self.add(&mut clist, slots, 0, at);
-            }
-            // The previous call to "add" actually inspects the position just
-            // before the current character. For stepping through the machine,
-            // we can to look at the current character, so we advance the
-            // input.
-            let at_next = self.input.at(at.next_pos());
-            for i in 0..clist.set.len() {
-                let ip = clist.set[i];
-                if self.step(
-                    &mut nlist,
-                    matches,
-                    slots,
-                    clist.caps(ip),
-                    ip,
-                    at,
-                    at_next,
-                ) {
-                    matched = true;
-                    all_matched = all_matched || matches.iter().all(|&b| b);
-                    if quit_after_match {
-                        // If we only care if a match occurs (not its
-                        // position), then we can quit right now.
-                        break 'LOOP;
-                    }
-                    if self.prog.matches.len() == 1 {
-                        // We don't need to check the rest of the threads
-                        // in this set because we've matched something
-                        // ("leftmost-first"). However, we still need to check
-                        // threads in the next set to support things like
-                        // greedy matching.
-                        //
-                        // This is only true on normal regexes. For regex sets,
-                        // we need to mush on to observe other matches.
-                        break;
-                    }
-                }
-            }
-            if at.pos() == end || at.is_end() {
-                break;
-            }
-            at = at_next;
-            mem::swap(clist, nlist);
-            nlist.set.clear();
-        }
-        matched
-    }
-
-    /// Step through the input, one token (byte or codepoint) at a time.
-    ///
-    /// nlist is the set of states that will be processed on the next token
-    /// in the input.
-    ///
-    /// caps is the set of captures passed by the caller of the NFA. They are
-    /// written to only when a match state is visited.
-    ///
-    /// thread_caps is the set of captures set for the current NFA state, ip.
-    ///
-    /// at and at_next are the current and next positions in the input. at or
-    /// at_next may be EOF.
-    fn step(
-        &mut self,
-        nlist: &mut Threads,
-        matches: &mut [bool],
-        slots: &mut [Slot],
-        thread_caps: &mut [Option<usize>],
-        ip: usize,
-        at: InputAt,
-        at_next: InputAt,
-    ) -> bool {
-        use prog::Inst::*;
-        match self.prog[ip] {
-            Match(match_slot) => {
-                if match_slot < matches.len() {
-                    matches[match_slot] = true;
-                }
-                for (slot, val) in slots.iter_mut().zip(thread_caps.iter()) {
-                    *slot = *val;
-                }
-                true
-            }
-            Char(ref inst) => {
-                if inst.c == at.char() {
-                    self.add(nlist, thread_caps, inst.goto, at_next);
-                }
-                false
-            }
-            Ranges(ref inst) => {
-                if inst.matches(at.char()) {
-                    self.add(nlist, thread_caps, inst.goto, at_next);
-                }
-                false
-            }
-            Bytes(ref inst) => {
-                if let Some(b) = at.byte() {
-                    if inst.matches(b) {
-                        self.add(nlist, thread_caps, inst.goto, at_next);
-                    }
-                }
-                false
-            }
-            EmptyLook(_) | Save(_) | Split(_) => false,
-        }
-    }
-
-    /// Follows epsilon transitions and adds them for processing to nlist,
-    /// starting at and including ip.
-    fn add(
-        &mut self,
-        nlist: &mut Threads,
-        thread_caps: &mut [Option<usize>],
-        ip: usize,
-        at: InputAt,
-    ) {
-        self.stack.push(FollowEpsilon::IP(ip));
-        while let Some(frame) = self.stack.pop() {
-            match frame {
-                FollowEpsilon::IP(ip) => {
-                    self.add_step(nlist, thread_caps, ip, at);
-                }
-                FollowEpsilon::Capture { slot, pos } => {
-                    thread_caps[slot] = pos;
-                }
-            }
-        }
-    }
-
-    /// A helper function for add that avoids excessive pushing to the stack.
-    fn add_step(
-        &mut self,
-        nlist: &mut Threads,
-        thread_caps: &mut [Option<usize>],
-        mut ip: usize,
-        at: InputAt,
-    ) {
-        // Instead of pushing and popping to the stack, we mutate ip as we
-        // traverse the set of states. We only push to the stack when we
-        // absolutely need recursion (restoring captures or following a
-        // branch).
-        use prog::Inst::*;
-        loop {
-            // Don't visit states we've already added.
-            if nlist.set.contains(ip) {
-                return;
-            }
-            nlist.set.insert(ip);
-            match self.prog[ip] {
-                EmptyLook(ref inst) => {
-                    if self.input.is_empty_match(at, inst) {
-                        ip = inst.goto;
-                    }
-                }
-                Save(ref inst) => {
-                    if inst.slot < thread_caps.len() {
-                        self.stack.push(FollowEpsilon::Capture {
-                            slot: inst.slot,
-                            pos: thread_caps[inst.slot],
-                        });
-                        thread_caps[inst.slot] = Some(at.pos());
-                    }
-                    ip = inst.goto;
-                }
-                Split(ref inst) => {
-                    self.stack.push(FollowEpsilon::IP(inst.goto2));
-                    ip = inst.goto1;
-                }
-                Match(_) | Char(_) | Ranges(_) | Bytes(_) => {
-                    let t = &mut nlist.caps(ip);
-                    for (slot, val) in t.iter_mut().zip(thread_caps.iter()) {
-                        *slot = *val;
-                    }
-                    return;
-                }
-            }
-        }
-    }
-}
-
-impl Threads {
-    fn new() -> Self {
-        Threads {
-            set: SparseSet::new(0),
-            caps: vec![],
-            slots_per_thread: 0,
-        }
-    }
-
-    fn resize(&mut self, num_insts: usize, ncaps: usize) {
-        if num_insts == self.set.capacity() {
-            return;
-        }
-        self.slots_per_thread = ncaps * 2;
-        self.set = SparseSet::new(num_insts);
-        self.caps = vec![None; self.slots_per_thread * num_insts];
-    }
-
-    fn caps(&mut self, pc: usize) -> &mut [Option<usize>] {
-        let i = pc * self.slots_per_thread;
-        &mut self.caps[i..i + self.slots_per_thread]
-    }
-}
-
-
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-
-use std::collections::HashMap;
-use std::cmp::Ordering;
-use std::fmt;
-use std::ops::Deref;
-use std::mem;
-use std::slice;
-use std::sync::Arc;
-
-use input::Char;
-use literal::LiteralSearcher;
-
-/// `InstPtr` represents the index of an instruction in a regex program.
-pub type InstPtr = usize;
-
-/// Program is a sequence of instructions and various facts about thos
-/// instructions.
-#[derive(Clone)]
-pub struct Program {
-    /// A sequence of instructions that represents an NFA.
-    pub insts: Vec<Inst>,
-    /// Pointers to each Match instruction in the sequence.
-    ///
-    /// This is always length 1 unless this program represents a regex set.
-    pub matches: Vec<InstPtr>,
-    /// The ordered sequence of all capture groups extracted from the AST.
-    /// Unnamed groups are `None`.
-    pub captures: Vec<Option<String>>,
-    /// Pointers to all named capture groups into `captures`.
-    pub capture_name_idx: Arc<HashMap<String, usize>>,
-    /// A pointer to the start instruction. This can vary depending on how
-    /// the program was compiled. For example, programs for use with the DFA
-    /// engine have a `.*?` inserted at the beginning of unanchored regular
-    /// expressions. The actual starting point of the program is after the
-    /// `.*?`.
-    pub start: InstPtr,
-    /// A set of equivalence classes for discriminating bytes in the compiled
-    /// program.
-    pub byte_classes: Vec<u8>,
-    /// When true, this program can only match valid UTF-8.
-    pub only_utf8: bool,
-    /// When true, this program uses byte range instructions instead of Unicode
-    /// range instructions.
-    pub is_bytes: bool,
-    /// When true, the program is compiled for DFA matching. For example, this
-    /// implies `is_bytes` and also inserts a preceding `.*?` for unanchored
-    /// regexes.
-    pub is_dfa: bool,
-    /// When true, the program matches text in reverse (for use only in the
-    /// DFA).
-    pub is_reverse: bool,
-    /// Whether the regex must match from the start of the input.
-    pub is_anchored_start: bool,
-    /// Whether the regex must match at the end of the input.
-    pub is_anchored_end: bool,
-    /// Whether this program contains a Unicode word boundary instruction.
-    pub has_unicode_word_boundary: bool,
-    /// A possibly empty machine for very quickly matching prefix literals.
-    pub prefixes: LiteralSearcher,
-    /// A limit on the size of the cache that the DFA is allowed to use while
-    /// matching.
-    ///
-    /// The cache limit specifies approximately how much space we're willing to
-    /// give to the state cache. Once the state cache exceeds the size, it is
-    /// wiped and all states must be re-computed.
-    ///
-    /// Note that this value does not impact correctness. It can be set to 0
-    /// and the DFA will run just fine. (It will only ever store exactly one
-    /// state in the cache, and will likely run very slowly, but it will work.)
-    ///
-    /// Also note that this limit is *per thread of execution*. That is,
-    /// if the same regex is used to search text across multiple threads
-    /// simultaneously, then the DFA cache is not shared. Instead, copies are
-    /// made.
-    pub dfa_size_limit: usize,
-}
-
-impl Program {
-    /// Creates an empty instruction sequence. Fields are given default
-    /// values.
-    pub fn new() -> Self {
-        Program {
-            insts: vec![],
-            matches: vec![],
-            captures: vec![],
-            capture_name_idx: Arc::new(HashMap::new()),
-            start: 0,
-            byte_classes: vec![0; 256],
-            only_utf8: true,
-            is_bytes: false,
-            is_dfa: false,
-            is_reverse: false,
-            is_anchored_start: false,
-            is_anchored_end: false,
-            has_unicode_word_boundary: false,
-            prefixes: LiteralSearcher::empty(),
-            dfa_size_limit: 2 * (1<<20),
-        }
-    }
-
-    /// If pc is an index to a no-op instruction (like Save), then return the
-    /// next pc that is not a no-op instruction.
-    pub fn skip(&self, mut pc: usize) -> usize {
-        loop {
-            match self[pc] {
-                Inst::Save(ref i) => pc = i.goto,
-                _ => return pc,
-            }
-        }
-    }
-
-    /// Return true if and only if an execution engine at instruction `pc` will
-    /// always lead to a match.
-    pub fn leads_to_match(&self, pc: usize) -> bool {
-        if self.matches.len() > 1 {
-            // If we have a regex set, then we have more than one ending
-            // state, so leading to one of those states is generally
-            // meaningless.
-            return false;
-        }
-        match self[self.skip(pc)] {
-            Inst::Match(_) => true,
-            _ => false,
-        }
-    }
-
-    /// Returns true if the current configuration demands that an implicit
-    /// `.*?` be prepended to the instruction sequence.
-    pub fn needs_dotstar(&self) -> bool {
-        self.is_dfa && !self.is_reverse && !self.is_anchored_start
-    }
-
-    /// Returns true if this program uses Byte instructions instead of
-    /// Char/Range instructions.
-    pub fn uses_bytes(&self) -> bool {
-        self.is_bytes || self.is_dfa
-    }
-
-    /// Returns true if this program exclusively matches valid UTF-8 bytes.
-    ///
-    /// That is, if an invalid UTF-8 byte is seen, then no match is possible.
-    pub fn only_utf8(&self) -> bool {
-        self.only_utf8
-    }
-
-    /// Return the approximate heap usage of this instruction sequence in
-    /// bytes.
-    pub fn approximate_size(&self) -> usize {
-        // The only instruction that uses heap space is Ranges (for
-        // Unicode codepoint programs) to store non-overlapping codepoint
-        // ranges. To keep this operation constant time, we ignore them.
-        (self.len() * mem::size_of::<Inst>())
-        + (self.matches.len() * mem::size_of::<InstPtr>())
-        + (self.captures.len() * mem::size_of::<Option<String>>())
-        + (self.capture_name_idx.len() *
-           (mem::size_of::<String>() + mem::size_of::<usize>()))
-        + (self.byte_classes.len() * mem::size_of::<u8>())
-        + self.prefixes.approximate_size()
-    }
-}
-
-impl Deref for Program {
-    type Target = [Inst];
-
-    #[inline(always)]
-    fn deref(&self) -> &Self::Target {
-        &*self.insts
-    }
-}
-
-impl fmt::Debug for Program {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        use self::Inst::*;
-
-        fn with_goto(cur: usize, goto: usize, fmtd: String) -> String {
-            if goto == cur + 1 {
-                fmtd
-            } else {
-                format!("{} (goto: {})", fmtd, goto)
-            }
-        }
-
-        fn visible_byte(b: u8) -> String {
-            use std::ascii::escape_default;
-            let escaped = escape_default(b).collect::<Vec<u8>>();
-            String::from_utf8_lossy(&escaped).into_owned()
-        }
-
-        for (pc, inst) in self.iter().enumerate() {
-            match *inst {
-                Match(slot) => {
-                    write!(f, "{:04} Match({:?})", pc, slot)?
-                }
-                Save(ref inst) => {
-                    let s = format!("{:04} Save({})", pc, inst.slot);
-                    write!(f, "{}", with_goto(pc, inst.goto, s))?;
-                }
-                Split(ref inst) => {
-                    write!(
-                        f, "{:04} Split({}, {})", pc, inst.goto1, inst.goto2)?;
-                }
-                EmptyLook(ref inst) => {
-                    let s = format!("{:?}", inst.look);
-                    write!(f, "{:04} {}", pc, with_goto(pc, inst.goto, s))?;
-                }
-                Char(ref inst) => {
-                    let s = format!("{:?}", inst.c);
-                    write!(f, "{:04} {}", pc, with_goto(pc, inst.goto, s))?;
-                }
-                Ranges(ref inst) => {
-                    let ranges = inst.ranges
-                        .iter()
-                        .map(|r| format!("{:?}-{:?}", r.0, r.1))
-                        .collect::<Vec<String>>()
-                        .join(", ");
-                    write!(
-                        f, "{:04} {}", pc, with_goto(pc, inst.goto, ranges))?;
-                }
-                Bytes(ref inst) => {
-                    let s = format!(
-                        "Bytes({}, {})",
-                        visible_byte(inst.start),
-                        visible_byte(inst.end));
-                    write!(f, "{:04} {}", pc, with_goto(pc, inst.goto, s))?;
-                }
-            }
-            if pc == self.start {
-                write!(f, " (start)")?;
-            }
-            write!(f, "\n")?;
-        }
-        Ok(())
-    }
-}
-
-impl<'a> IntoIterator for &'a Program {
-    type Item = &'a Inst;
-    type IntoIter = slice::Iter<'a, Inst>;
-    fn into_iter(self) -> Self::IntoIter { self.iter() }
-}
-
-/// Inst is an instruction code in a Regex program.
-///
-/// Regrettably, a regex program either contains Unicode codepoint
-/// instructions (Char and Ranges) or it contains byte instructions (Bytes).
-/// A regex program can never contain both.
-///
-/// It would be worth investigating splitting this into two distinct types and
-/// then figuring out how to make the matching engines polymorphic over those
-/// types without sacrificing performance.
-///
-/// Other than the benefit of moving invariants into the type system, another
-/// benefit is the decreased size. If we remove the `Char` and `Ranges`
-/// instructions from the `Inst` enum, then its size shrinks from 40 bytes to
-/// 24 bytes. (This is because of the removal of a `Vec` in the `Ranges`
-/// variant.) Given that byte based machines are typically much bigger than
-/// their Unicode analogues (because they can decode UTF-8 directly), this ends
-/// up being a pretty significant savings.
-#[derive(Clone, Debug)]
-pub enum Inst {
-    /// Match indicates that the program has reached a match state.
-    ///
-    /// The number in the match corresponds to the Nth logical regular
-    /// expression in this program. This index is always 0 for normal regex
-    /// programs. Values greater than 0 appear when compiling regex sets, and
-    /// each match instruction gets its own unique value. The value corresponds
-    /// to the Nth regex in the set.
-    Match(usize),
-    /// Save causes the program to save the current location of the input in
-    /// the slot indicated by InstSave.
-    Save(InstSave),
-    /// Split causes the program to diverge to one of two paths in the
-    /// program, preferring goto1 in InstSplit.
-    Split(InstSplit),
-    /// EmptyLook represents a zero-width assertion in a regex program. A
-    /// zero-width assertion does not consume any of the input text.
-    EmptyLook(InstEmptyLook),
-    /// Char requires the regex program to match the character in InstChar at
-    /// the current position in the input.
-    Char(InstChar),
-    /// Ranges requires the regex program to match the character at the current
-    /// position in the input with one of the ranges specified in InstRanges.
-    Ranges(InstRanges),
-    /// Bytes is like Ranges, except it expresses a single byte range. It is
-    /// used in conjunction with Split instructions to implement multi-byte
-    /// character classes.
-    Bytes(InstBytes),
-}
-
-impl Inst {
-    /// Returns true if and only if this is a match instruction.
-    pub fn is_match(&self) -> bool {
-        match *self {
-            Inst::Match(_) => true,
-            _ => false,
-        }
-    }
-}
-
-/// Representation of the Save instruction.
-#[derive(Clone, Debug)]
-pub struct InstSave {
-    /// The next location to execute in the program.
-    pub goto: InstPtr,
-    /// The capture slot (there are two slots for every capture in a regex,
-    /// including the zeroth capture for the entire match).
-    pub slot: usize,
-}
-
-/// Representation of the Split instruction.
-#[derive(Clone, Debug)]
-pub struct InstSplit {
-    /// The first instruction to try. A match resulting from following goto1
-    /// has precedence over a match resulting from following goto2.
-    pub goto1: InstPtr,
-    /// The second instruction to try. A match resulting from following goto1
-    /// has precedence over a match resulting from following goto2.
-    pub goto2: InstPtr,
-}
-
-/// Representation of the `EmptyLook` instruction.
-#[derive(Clone, Debug)]
-pub struct InstEmptyLook {
-    /// The next location to execute in the program if this instruction
-    /// succeeds.
-    pub goto: InstPtr,
-    /// The type of zero-width assertion to check.
-    pub look: EmptyLook,
-}
-
-/// The set of zero-width match instructions.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub enum EmptyLook {
-    /// Start of line or input.
-    StartLine,
-    /// End of line or input.
-    EndLine,
-    /// Start of input.
-    StartText,
-    /// End of input.
-    EndText,
-    /// Word character on one side and non-word character on other.
-    WordBoundary,
-    /// Word character on both sides or non-word character on both sides.
-    NotWordBoundary,
-    /// ASCII word boundary.
-    WordBoundaryAscii,
-    /// Not ASCII word boundary.
-    NotWordBoundaryAscii,
-}
-
-/// Representation of the Char instruction.
-#[derive(Clone, Debug)]
-pub struct InstChar {
-    /// The next location to execute in the program if this instruction
-    /// succeeds.
-    pub goto: InstPtr,
-    /// The character to test.
-    pub c: char,
-}
-
-/// Representation of the Ranges instruction.
-#[derive(Clone, Debug)]
-pub struct InstRanges {
-    /// The next location to execute in the program if this instruction
-    /// succeeds.
-    pub goto: InstPtr,
-    /// The set of Unicode scalar value ranges to test.
-    pub ranges: Vec<(char, char)>,
-}
-
-impl InstRanges {
-    /// Tests whether the given input character matches this instruction.
-    pub fn matches(&self, c: Char) -> bool {
-        // This speeds up the `match_class_unicode` benchmark by checking
-        // some common cases quickly without binary search. e.g., Matching
-        // a Unicode class on predominantly ASCII text.
-        for r in self.ranges.iter().take(4) {
-            if c < r.0 {
-                return false;
-            }
-            if c <= r.1 {
-                return true;
-            }
-        }
-        self.ranges.binary_search_by(|r| {
-            if r.1 < c {
-                Ordering::Less
-            } else if r.0 > c {
-                Ordering::Greater
-            } else {
-                Ordering::Equal
-            }
-        }).is_ok()
-    }
-
-    /// Return the number of distinct characters represented by all of the
-    /// ranges.
-    pub fn num_chars(&self) -> usize {
-        self.ranges.iter()
-            .map(|&(s, e)| 1 + (e as u32) - (s as u32))
-            .fold(0, |acc, len| acc + len)
-            as usize
-    }
-}
-
-/// Representation of the Bytes instruction.
-#[derive(Clone, Debug)]
-pub struct InstBytes {
-    /// The next location to execute in the program if this instruction
-    /// succeeds.
-    pub goto: InstPtr,
-    /// The start (inclusive) of this byte range.
-    pub start: u8,
-    /// The end (inclusive) of this byte range.
-    pub end: u8,
-}
-
-impl InstBytes {
-    /// Returns true if and only if the given byte is in this range.
-    pub fn matches(&self, byte: u8) -> bool {
-        self.start <= byte && byte <= self.end
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/re_builder.rs.html b/target/doc/src/regex/re_builder.rs.html deleted file mode 100644 index a455f43..0000000 --- a/target/doc/src/regex/re_builder.rs.html +++ /dev/null @@ -1,779 +0,0 @@ -re_builder.rs.html -- source
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/// The set of user configurable options for compiling zero or more regexes.
-#[derive(Clone, Debug)]
-#[allow(missing_docs)]
-pub struct RegexOptions {
-    pub pats: Vec<String>,
-    pub size_limit: usize,
-    pub dfa_size_limit: usize,
-    pub nest_limit: u32,
-    pub case_insensitive: bool,
-    pub multi_line: bool,
-    pub dot_matches_new_line: bool,
-    pub swap_greed: bool,
-    pub ignore_whitespace: bool,
-    pub unicode: bool,
-    pub octal: bool,
-}
-
-impl Default for RegexOptions {
-    fn default() -> Self {
-        RegexOptions {
-            pats: vec![],
-            size_limit: 10 * (1<<20),
-            dfa_size_limit: 2 * (1<<20),
-            nest_limit: 250,
-            case_insensitive: false,
-            multi_line: false,
-            dot_matches_new_line: false,
-            swap_greed: false,
-            ignore_whitespace: false,
-            unicode: true,
-            octal: false,
-        }
-    }
-}
-
-macro_rules! define_builder {
-    ($name:ident, $regex_mod:ident, $only_utf8:expr) => {
-        pub mod $name {
-            use error::Error;
-            use exec::ExecBuilder;
-            use super::RegexOptions;
-
-            use $regex_mod::Regex;
-
-/// A configurable builder for a regular expression.
-///
-/// A builder can be used to configure how the regex is built, for example, by
-/// setting the default flags (which can be overridden in the expression
-/// itself) or setting various limits.
-pub struct RegexBuilder(RegexOptions);
-
-impl RegexBuilder {
-    /// Create a new regular expression builder with the given pattern.
-    ///
-    /// If the pattern is invalid, then an error will be returned when
-    /// `build` is called.
-    pub fn new(pattern: &str) -> RegexBuilder {
-        let mut builder = RegexBuilder(RegexOptions::default());
-        builder.0.pats.push(pattern.to_owned());
-        builder
-    }
-
-    /// Consume the builder and compile the regular expression.
-    ///
-    /// Note that calling `as_str` on the resulting `Regex` will produce the
-    /// pattern given to `new` verbatim. Notably, it will not incorporate any
-    /// of the flags set on this builder.
-    pub fn build(&self) -> Result<Regex, Error> {
-        ExecBuilder::new_options(self.0.clone())
-            .only_utf8($only_utf8)
-            .build()
-            .map(Regex::from)
-    }
-
-    /// Set the value for the case insensitive (`i`) flag.
-    ///
-    /// When enabled, letters in the pattern will match both upper case and
-    /// lower case variants.
-    pub fn case_insensitive(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.case_insensitive = yes;
-        self
-    }
-
-    /// Set the value for the multi-line matching (`m`) flag.
-    ///
-    /// When enabled, `^` matches the beginning of lines and `$` matches the
-    /// end of lines.
-    ///
-    /// By default, they match beginning/end of the input.
-    pub fn multi_line(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.multi_line = yes;
-        self
-    }
-
-    /// Set the value for the any character (`s`) flag, where in `.` matches
-    /// anything when `s` is set and matches anything except for new line when
-    /// it is not set (the default).
-    ///
-    /// N.B. "matches anything" means "any byte" when Unicode is disabled and
-    /// means "any valid UTF-8 encoding of any Unicode scalar value" when
-    /// Unicode is enabled.
-    pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.dot_matches_new_line = yes;
-        self
-    }
-
-    /// Set the value for the greedy swap (`U`) flag.
-    ///
-    /// When enabled, a pattern like `a*` is lazy (tries to find shortest
-    /// match) and `a*?` is greedy (tries to find longest match).
-    ///
-    /// By default, `a*` is greedy and `a*?` is lazy.
-    pub fn swap_greed(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.swap_greed = yes;
-        self
-    }
-
-    /// Set the value for the ignore whitespace (`x`) flag.
-    ///
-    /// When enabled, whitespace such as new lines and spaces will be ignored
-    /// between expressions of the pattern, and `#` can be used to start a
-    /// comment until the next new line.
-    pub fn ignore_whitespace(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.ignore_whitespace = yes;
-        self
-    }
-
-    /// Set the value for the Unicode (`u`) flag.
-    ///
-    /// Enabled by default. When disabled, character classes such as `\w` only
-    /// match ASCII word characters instead of all Unicode word characters.
-    pub fn unicode(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.unicode = yes;
-        self
-    }
-
-    /// Whether to support octal syntax or not.
-    ///
-    /// Octal syntax is a little-known way of uttering Unicode codepoints in
-    /// a regular expression. For example, `a`, `\x61`, `\u0061` and
-    /// `\141` are all equivalent regular expressions, where the last example
-    /// shows octal syntax.
-    ///
-    /// While supporting octal syntax isn't in and of itself a problem, it does
-    /// make good error messages harder. That is, in PCRE based regex engines,
-    /// syntax like `\0` invokes a backreference, which is explicitly
-    /// unsupported in Rust's regex engine. However, many users expect it to
-    /// be supported. Therefore, when octal support is disabled, the error
-    /// message will explicitly mention that backreferences aren't supported.
-    ///
-    /// Octal syntax is disabled by default.
-    pub fn octal(&mut self, yes: bool) -> &mut RegexBuilder {
-        self.0.octal = yes;
-        self
-    }
-
-    /// Set the approximate size limit of the compiled regular expression.
-    ///
-    /// This roughly corresponds to the number of bytes occupied by a single
-    /// compiled program. If the program exceeds this number, then a
-    /// compilation error is returned.
-    pub fn size_limit(&mut self, limit: usize) -> &mut RegexBuilder {
-        self.0.size_limit = limit;
-        self
-    }
-
-    /// Set the approximate size of the cache used by the DFA.
-    ///
-    /// This roughly corresponds to the number of bytes that the DFA will
-    /// use while searching.
-    ///
-    /// Note that this is a *per thread* limit. There is no way to set a global
-    /// limit. In particular, if a regex is used from multiple threads
-    /// simultaneously, then each thread may use up to the number of bytes
-    /// specified here.
-    pub fn dfa_size_limit(&mut self, limit: usize) -> &mut RegexBuilder {
-        self.0.dfa_size_limit = limit;
-        self
-    }
-
-    /// Set the nesting limit for this parser.
-    ///
-    /// The nesting limit controls how deep the abstract syntax tree is allowed
-    /// to be. If the AST exceeds the given limit (e.g., with too many nested
-    /// groups), then an error is returned by the parser.
-    ///
-    /// The purpose of this limit is to act as a heuristic to prevent stack
-    /// overflow for consumers that do structural induction on an `Ast` using
-    /// explicit recursion. While this crate never does this (instead using
-    /// constant stack space and moving the call stack to the heap), other
-    /// crates may.
-    ///
-    /// This limit is not checked until the entire Ast is parsed. Therefore,
-    /// if callers want to put a limit on the amount of heap space used, then
-    /// they should impose a limit on the length, in bytes, of the concrete
-    /// pattern string. In particular, this is viable since this parser
-    /// implementation will limit itself to heap space proportional to the
-    /// length of the pattern string.
-    ///
-    /// Note that a nest limit of `0` will return a nest limit error for most
-    /// patterns but not all. For example, a nest limit of `0` permits `a` but
-    /// not `ab`, since `ab` requires a concatenation, which results in a nest
-    /// depth of `1`. In general, a nest limit is not something that manifests
-    /// in an obvious way in the concrete syntax, therefore, it should not be
-    /// used in a granular way.
-    pub fn nest_limit(&mut self, limit: u32) -> &mut RegexBuilder {
-        self.0.nest_limit = limit;
-        self
-    }
-}
-        }
-    }
-}
-
-define_builder!(bytes, re_bytes, false);
-define_builder!(unicode, re_unicode, true);
-
-macro_rules! define_set_builder {
-    ($name:ident, $regex_mod:ident, $only_utf8:expr) => {
-        pub mod $name {
-            use error::Error;
-            use exec::ExecBuilder;
-            use super::RegexOptions;
-
-            use re_set::$regex_mod::RegexSet;
-
-/// A configurable builder for a set of regular expressions.
-///
-/// A builder can be used to configure how the regexes are built, for example,
-/// by setting the default flags (which can be overridden in the expression
-/// itself) or setting various limits.
-pub struct RegexSetBuilder(RegexOptions);
-
-impl RegexSetBuilder {
-    /// Create a new regular expression builder with the given pattern.
-    ///
-    /// If the pattern is invalid, then an error will be returned when
-    /// `build` is called.
-    pub fn new<I, S>(patterns: I) -> RegexSetBuilder
-            where S: AsRef<str>, I: IntoIterator<Item=S> {
-        let mut builder = RegexSetBuilder(RegexOptions::default());
-        for pat in patterns {
-            builder.0.pats.push(pat.as_ref().to_owned());
-        }
-        builder
-    }
-
-    /// Consume the builder and compile the regular expressions into a set.
-    pub fn build(&self) -> Result<RegexSet, Error> {
-        ExecBuilder::new_options(self.0.clone())
-            .only_utf8($only_utf8)
-            .build()
-            .map(RegexSet::from)
-    }
-
-    /// Set the value for the case insensitive (`i`) flag.
-    pub fn case_insensitive(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.case_insensitive = yes;
-        self
-    }
-
-    /// Set the value for the multi-line matching (`m`) flag.
-    pub fn multi_line(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.multi_line = yes;
-        self
-    }
-
-    /// Set the value for the any character (`s`) flag, where in `.` matches
-    /// anything when `s` is set and matches anything except for new line when
-    /// it is not set (the default).
-    ///
-    /// N.B. "matches anything" means "any byte" for `regex::bytes::RegexSet`
-    /// expressions and means "any Unicode scalar value" for `regex::RegexSet`
-    /// expressions.
-    pub fn dot_matches_new_line(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.dot_matches_new_line = yes;
-        self
-    }
-
-    /// Set the value for the greedy swap (`U`) flag.
-    pub fn swap_greed(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.swap_greed = yes;
-        self
-    }
-
-    /// Set the value for the ignore whitespace (`x`) flag.
-    pub fn ignore_whitespace(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.ignore_whitespace = yes;
-        self
-    }
-
-    /// Set the value for the Unicode (`u`) flag.
-    pub fn unicode(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.unicode = yes;
-        self
-    }
-
-    /// Whether to support octal syntax or not.
-    ///
-    /// Octal syntax is a little-known way of uttering Unicode codepoints in
-    /// a regular expression. For example, `a`, `\x61`, `\u0061` and
-    /// `\141` are all equivalent regular expressions, where the last example
-    /// shows octal syntax.
-    ///
-    /// While supporting octal syntax isn't in and of itself a problem, it does
-    /// make good error messages harder. That is, in PCRE based regex engines,
-    /// syntax like `\0` invokes a backreference, which is explicitly
-    /// unsupported in Rust's regex engine. However, many users expect it to
-    /// be supported. Therefore, when octal support is disabled, the error
-    /// message will explicitly mention that backreferences aren't supported.
-    ///
-    /// Octal syntax is disabled by default.
-    pub fn octal(&mut self, yes: bool) -> &mut RegexSetBuilder {
-        self.0.octal = yes;
-        self
-    }
-
-    /// Set the approximate size limit of the compiled regular expression.
-    ///
-    /// This roughly corresponds to the number of bytes occupied by a single
-    /// compiled program. If the program exceeds this number, then a
-    /// compilation error is returned.
-    pub fn size_limit(&mut self, limit: usize) -> &mut RegexSetBuilder {
-        self.0.size_limit = limit;
-        self
-    }
-
-    /// Set the approximate size of the cache used by the DFA.
-    ///
-    /// This roughly corresponds to the number of bytes that the DFA will
-    /// use while searching.
-    ///
-    /// Note that this is a *per thread* limit. There is no way to set a global
-    /// limit. In particular, if a regex is used from multiple threads
-    /// simultaneously, then each thread may use up to the number of bytes
-    /// specified here.
-    pub fn dfa_size_limit(&mut self, limit: usize) -> &mut RegexSetBuilder {
-        self.0.dfa_size_limit = limit;
-        self
-    }
-
-    /// Set the nesting limit for this parser.
-    ///
-    /// The nesting limit controls how deep the abstract syntax tree is allowed
-    /// to be. If the AST exceeds the given limit (e.g., with too many nested
-    /// groups), then an error is returned by the parser.
-    ///
-    /// The purpose of this limit is to act as a heuristic to prevent stack
-    /// overflow for consumers that do structural induction on an `Ast` using
-    /// explicit recursion. While this crate never does this (instead using
-    /// constant stack space and moving the call stack to the heap), other
-    /// crates may.
-    ///
-    /// This limit is not checked until the entire Ast is parsed. Therefore,
-    /// if callers want to put a limit on the amount of heap space used, then
-    /// they should impose a limit on the length, in bytes, of the concrete
-    /// pattern string. In particular, this is viable since this parser
-    /// implementation will limit itself to heap space proportional to the
-    /// length of the pattern string.
-    ///
-    /// Note that a nest limit of `0` will return a nest limit error for most
-    /// patterns but not all. For example, a nest limit of `0` permits `a` but
-    /// not `ab`, since `ab` requires a concatenation, which results in a nest
-    /// depth of `1`. In general, a nest limit is not something that manifests
-    /// in an obvious way in the concrete syntax, therefore, it should not be
-    /// used in a granular way.
-    pub fn nest_limit(&mut self, limit: u32) -> &mut RegexSetBuilder {
-        self.0.nest_limit = limit;
-        self
-    }
-
-}
-        }
-    }
-}
-
-define_set_builder!(set_bytes, bytes, false);
-define_set_builder!(set_unicode, unicode, true);
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/re_bytes.rs.html b/target/doc/src/regex/re_bytes.rs.html deleted file mode 100644 index d6852df..0000000 --- a/target/doc/src/regex/re_bytes.rs.html +++ /dev/null @@ -1,2341 +0,0 @@ -re_bytes.rs.html -- source
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::borrow::Cow;
-use std::collections::HashMap;
-use std::fmt;
-use std::ops::Index;
-use std::str::FromStr;
-use std::sync::Arc;
-
-use memchr::memchr;
-
-use exec::{Exec, ExecNoSync};
-use expand::expand_bytes;
-use error::Error;
-use re_builder::bytes::RegexBuilder;
-use re_trait::{self, RegularExpression, SubCapturesPosIter};
-
-/// Match represents a single match of a regex in a haystack.
-///
-/// The lifetime parameter `'t` refers to the lifetime of the matched text.
-#[derive(Copy, Clone, Debug, Eq, PartialEq)]
-pub struct Match<'t> {
-    text: &'t [u8],
-    start: usize,
-    end: usize,
-}
-
-impl<'t> Match<'t> {
-    /// Returns the starting byte offset of the match in the haystack.
-    #[inline]
-    pub fn start(&self) -> usize {
-        self.start
-    }
-
-    /// Returns the ending byte offset of the match in the haystack.
-    #[inline]
-    pub fn end(&self) -> usize {
-        self.end
-    }
-
-    /// Returns the matched text.
-    #[inline]
-    pub fn as_bytes(&self) -> &'t [u8] {
-        &self.text[self.start..self.end]
-    }
-
-    /// Creates a new match from the given haystack and byte offsets.
-    #[inline]
-    fn new(haystack: &'t [u8], start: usize, end: usize) -> Match<'t> {
-        Match {
-            text: haystack,
-            start: start,
-            end: end,
-        }
-    }
-}
-
-/// A compiled regular expression for matching arbitrary bytes.
-///
-/// It can be used to search, split or replace text. All searching is done with
-/// an implicit `.*?` at the beginning and end of an expression. To force an
-/// expression to match the whole string (or a prefix or a suffix), you must
-/// use an anchor like `^` or `$` (or `\A` and `\z`).
-///
-/// Like the `Regex` type in the parent module, matches with this regex return
-/// byte offsets into the search text. **Unlike** the parent `Regex` type,
-/// these byte offsets may not correspond to UTF-8 sequence boundaries since
-/// the regexes in this module can match arbitrary bytes.
-#[derive(Clone)]
-pub struct Regex(Exec);
-
-impl fmt::Display for Regex {
-    /// Shows the original regular expression.
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "{}", self.as_str())
-    }
-}
-
-impl fmt::Debug for Regex {
-    /// Shows the original regular expression.
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        fmt::Display::fmt(self, f)
-    }
-}
-
-/// A constructor for Regex from an Exec.
-///
-/// This is hidden because Exec isn't actually part of the public API.
-#[doc(hidden)]
-impl From<Exec> for Regex {
-    fn from(exec: Exec) -> Regex {
-        Regex(exec)
-    }
-}
-
-impl FromStr for Regex {
-    type Err = Error;
-
-    /// Attempts to parse a string into a regular expression
-    fn from_str(s: &str) -> Result<Regex, Error> {
-        Regex::new(s)
-    }
-}
-
-/// Core regular expression methods.
-impl Regex {
-    /// Compiles a regular expression. Once compiled, it can be used repeatedly
-    /// to search, split or replace text in a string.
-    ///
-    /// If an invalid expression is given, then an error is returned.
-    pub fn new(re: &str) -> Result<Regex, Error> {
-        RegexBuilder::new(re).build()
-    }
-
-    /// Returns true if and only if the regex matches the string given.
-    ///
-    /// It is recommended to use this method if all you need to do is test
-    /// a match, since the underlying matching engine may be able to do less
-    /// work.
-    ///
-    /// # Example
-    ///
-    /// Test if some text contains at least one word with exactly 13 ASCII word
-    /// bytes:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let text = b"I categorically deny having triskaidekaphobia.";
-    /// assert!(Regex::new(r"\b\w{13}\b").unwrap().is_match(text));
-    /// # }
-    /// ```
-    pub fn is_match(&self, text: &[u8]) -> bool {
-        self.is_match_at(text, 0)
-    }
-
-    /// Returns the start and end byte range of the leftmost-first match in
-    /// `text`. If no match exists, then `None` is returned.
-    ///
-    /// Note that this should only be used if you want to discover the position
-    /// of the match. Testing the existence of a match is faster if you use
-    /// `is_match`.
-    ///
-    /// # Example
-    ///
-    /// Find the start and end location of the first word with exactly 13
-    /// ASCII word bytes:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let text = b"I categorically deny having triskaidekaphobia.";
-    /// let mat = Regex::new(r"\b\w{13}\b").unwrap().find(text).unwrap();
-    /// assert_eq!((mat.start(), mat.end()), (2, 15));
-    /// # }
-    /// ```
-    pub fn find<'t>(&self, text: &'t [u8]) -> Option<Match<'t>> {
-        self.find_at(text, 0)
-    }
-
-    /// Returns an iterator for each successive non-overlapping match in
-    /// `text`, returning the start and end byte indices with respect to
-    /// `text`.
-    ///
-    /// # Example
-    ///
-    /// Find the start and end location of every word with exactly 13 ASCII
-    /// word bytes:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let text = b"Retroactively relinquishing remunerations is reprehensible.";
-    /// for mat in Regex::new(r"\b\w{13}\b").unwrap().find_iter(text) {
-    ///     println!("{:?}", mat);
-    /// }
-    /// # }
-    /// ```
-    pub fn find_iter<'r, 't>(&'r self, text: &'t [u8]) -> Matches<'r, 't> {
-        Matches(self.0.searcher().find_iter(text))
-    }
-
-    /// Returns the capture groups corresponding to the leftmost-first
-    /// match in `text`. Capture group `0` always corresponds to the entire
-    /// match. If no match is found, then `None` is returned.
-    ///
-    /// You should only use `captures` if you need access to the location of
-    /// capturing group matches. Otherwise, `find` is faster for discovering
-    /// the location of the overall match.
-    ///
-    /// # Examples
-    ///
-    /// Say you have some text with movie names and their release years,
-    /// like "'Citizen Kane' (1941)". It'd be nice if we could search for text
-    /// looking like that, while also extracting the movie name and its release
-    /// year separately.
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"'([^']+)'\s+\((\d{4})\)").unwrap();
-    /// let text = b"Not my favorite movie: 'Citizen Kane' (1941).";
-    /// let caps = re.captures(text).unwrap();
-    /// assert_eq!(caps.get(1).unwrap().as_bytes(), &b"Citizen Kane"[..]);
-    /// assert_eq!(caps.get(2).unwrap().as_bytes(), &b"1941"[..]);
-    /// assert_eq!(caps.get(0).unwrap().as_bytes(), &b"'Citizen Kane' (1941)"[..]);
-    /// // You can also access the groups by index using the Index notation.
-    /// // Note that this will panic on an invalid index.
-    /// assert_eq!(&caps[1], b"Citizen Kane");
-    /// assert_eq!(&caps[2], b"1941");
-    /// assert_eq!(&caps[0], b"'Citizen Kane' (1941)");
-    /// # }
-    /// ```
-    ///
-    /// Note that the full match is at capture group `0`. Each subsequent
-    /// capture group is indexed by the order of its opening `(`.
-    ///
-    /// We can make this example a bit clearer by using *named* capture groups:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-    ///                .unwrap();
-    /// let text = b"Not my favorite movie: 'Citizen Kane' (1941).";
-    /// let caps = re.captures(text).unwrap();
-    /// assert_eq!(caps.name("title").unwrap().as_bytes(), b"Citizen Kane");
-    /// assert_eq!(caps.name("year").unwrap().as_bytes(), b"1941");
-    /// assert_eq!(caps.get(0).unwrap().as_bytes(), &b"'Citizen Kane' (1941)"[..]);
-    /// // You can also access the groups by name using the Index notation.
-    /// // Note that this will panic on an invalid group name.
-    /// assert_eq!(&caps["title"], b"Citizen Kane");
-    /// assert_eq!(&caps["year"], b"1941");
-    /// assert_eq!(&caps[0], b"'Citizen Kane' (1941)");
-    ///
-    /// # }
-    /// ```
-    ///
-    /// Here we name the capture groups, which we can access with the `name`
-    /// method or the `Index` notation with a `&str`. Note that the named
-    /// capture groups are still accessible with `get` or the `Index` notation
-    /// with a `usize`.
-    ///
-    /// The `0`th capture group is always unnamed, so it must always be
-    /// accessed with `get(0)` or `[0]`.
-    pub fn captures<'t>(&self, text: &'t [u8]) -> Option<Captures<'t>> {
-        let mut locs = self.capture_locations();
-        self.captures_read_at(&mut locs, text, 0).map(move |_| Captures {
-            text: text,
-            locs: locs.0,
-            named_groups: self.0.capture_name_idx().clone(),
-        })
-    }
-
-    /// Returns an iterator over all the non-overlapping capture groups matched
-    /// in `text`. This is operationally the same as `find_iter`, except it
-    /// yields information about capturing group matches.
-    ///
-    /// # Example
-    ///
-    /// We can use this to find all movie titles and their release years in
-    /// some text, where the movie is formatted like "'Title' (xxxx)":
-    ///
-    /// ```rust
-    /// # extern crate regex; use std::str; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-    ///                .unwrap();
-    /// let text = b"'Citizen Kane' (1941), 'The Wizard of Oz' (1939), 'M' (1931).";
-    /// for caps in re.captures_iter(text) {
-    ///     let title = str::from_utf8(&caps["title"]).unwrap();
-    ///     let year = str::from_utf8(&caps["year"]).unwrap();
-    ///     println!("Movie: {:?}, Released: {:?}", title, year);
-    /// }
-    /// // Output:
-    /// // Movie: Citizen Kane, Released: 1941
-    /// // Movie: The Wizard of Oz, Released: 1939
-    /// // Movie: M, Released: 1931
-    /// # }
-    /// ```
-    pub fn captures_iter<'r, 't>(
-        &'r self,
-        text: &'t [u8],
-    ) -> CaptureMatches<'r, 't> {
-        CaptureMatches(self.0.searcher().captures_iter(text))
-    }
-
-    /// Returns an iterator of substrings of `text` delimited by a match of the
-    /// regular expression. Namely, each element of the iterator corresponds to
-    /// text that *isn't* matched by the regular expression.
-    ///
-    /// This method will *not* copy the text given.
-    ///
-    /// # Example
-    ///
-    /// To split a string delimited by arbitrary amounts of spaces or tabs:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"[ \t]+").unwrap();
-    /// let fields: Vec<&[u8]> = re.split(b"a b \t  c\td    e").collect();
-    /// assert_eq!(fields, vec![
-    ///     &b"a"[..], &b"b"[..], &b"c"[..], &b"d"[..], &b"e"[..],
-    /// ]);
-    /// # }
-    /// ```
-    pub fn split<'r, 't>(&'r self, text: &'t [u8]) -> Split<'r, 't> {
-        Split {
-            finder: self.find_iter(text),
-            last: 0,
-        }
-    }
-
-    /// Returns an iterator of at most `limit` substrings of `text` delimited
-    /// by a match of the regular expression. (A `limit` of `0` will return no
-    /// substrings.) Namely, each element of the iterator corresponds to text
-    /// that *isn't* matched by the regular expression. The remainder of the
-    /// string that is not split will be the last element in the iterator.
-    ///
-    /// This method will *not* copy the text given.
-    ///
-    /// # Example
-    ///
-    /// Get the first two words in some text:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"\W+").unwrap();
-    /// let fields: Vec<&[u8]> = re.splitn(b"Hey! How are you?", 3).collect();
-    /// assert_eq!(fields, vec![&b"Hey"[..], &b"How"[..], &b"are you?"[..]]);
-    /// # }
-    /// ```
-    pub fn splitn<'r, 't>(
-        &'r self,
-        text: &'t [u8],
-        limit: usize,
-    ) -> SplitN<'r, 't> {
-        SplitN {
-            splits: self.split(text),
-            n: limit,
-        }
-    }
-
-    /// Replaces the leftmost-first match with the replacement provided. The
-    /// replacement can be a regular byte string (where `$N` and `$name` are
-    /// expanded to match capture groups) or a function that takes the matches'
-    /// `Captures` and returns the replaced byte string.
-    ///
-    /// If no match is found, then a copy of the byte string is returned
-    /// unchanged.
-    ///
-    /// # Replacement string syntax
-    ///
-    /// All instances of `$name` in the replacement text is replaced with the
-    /// corresponding capture group `name`.
-    ///
-    /// `name` may be an integer corresponding to the index of the
-    /// capture group (counted by order of opening parenthesis where `0` is the
-    /// entire match) or it can be a name (consisting of letters, digits or
-    /// underscores) corresponding to a named capture group.
-    ///
-    /// If `name` isn't a valid capture group (whether the name doesn't exist
-    /// or isn't a valid index), then it is replaced with the empty string.
-    ///
-    /// The longest possible name is used. e.g., `$1a` looks up the capture
-    /// group named `1a` and not the capture group at index `1`. To exert more
-    /// precise control over the name, use braces, e.g., `${1}a`.
-    ///
-    /// To write a literal `$` use `$$`.
-    ///
-    /// # Examples
-    ///
-    /// Note that this function is polymorphic with respect to the replacement.
-    /// In typical usage, this can just be a normal byte string:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new("[^01]+").unwrap();
-    /// assert_eq!(re.replace(b"1078910", &b""[..]), &b"1010"[..]);
-    /// # }
-    /// ```
-    ///
-    /// But anything satisfying the `Replacer` trait will work. For example, a
-    /// closure of type `|&Captures| -> Vec<u8>` provides direct access to the
-    /// captures corresponding to a match. This allows one to access capturing
-    /// group matches easily:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # use regex::bytes::Captures; fn main() {
-    /// let re = Regex::new(r"([^,\s]+),\s+(\S+)").unwrap();
-    /// let result = re.replace(b"Springsteen, Bruce", |caps: &Captures| {
-    ///     let mut replacement = caps[2].to_owned();
-    ///     replacement.push(b' ');
-    ///     replacement.extend(&caps[1]);
-    ///     replacement
-    /// });
-    /// assert_eq!(result, &b"Bruce Springsteen"[..]);
-    /// # }
-    /// ```
-    ///
-    /// But this is a bit cumbersome to use all the time. Instead, a simple
-    /// syntax is supported that expands `$name` into the corresponding capture
-    /// group. Here's the last example, but using this expansion technique
-    /// with named capture groups:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(?P<first>\S+)").unwrap();
-    /// let result = re.replace(b"Springsteen, Bruce", &b"$first $last"[..]);
-    /// assert_eq!(result, &b"Bruce Springsteen"[..]);
-    /// # }
-    /// ```
-    ///
-    /// Note that using `$2` instead of `$first` or `$1` instead of `$last`
-    /// would produce the same result. To write a literal `$` use `$$`.
-    ///
-    /// Sometimes the replacement string requires use of curly braces to
-    /// delineate a capture group replacement and surrounding literal text.
-    /// For example, if we wanted to join two words together with an
-    /// underscore:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"(?P<first>\w+)\s+(?P<second>\w+)").unwrap();
-    /// let result = re.replace(b"deep fried", &b"${first}_$second"[..]);
-    /// assert_eq!(result, &b"deep_fried"[..]);
-    /// # }
-    /// ```
-    ///
-    /// Without the curly braces, the capture group name `first_` would be
-    /// used, and since it doesn't exist, it would be replaced with the empty
-    /// string.
-    ///
-    /// Finally, sometimes you just want to replace a literal string with no
-    /// regard for capturing group expansion. This can be done by wrapping a
-    /// byte string with `NoExpand`:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// use regex::bytes::NoExpand;
-    ///
-    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(\S+)").unwrap();
-    /// let result = re.replace(b"Springsteen, Bruce", NoExpand(b"$2 $last"));
-    /// assert_eq!(result, &b"$2 $last"[..]);
-    /// # }
-    /// ```
-    pub fn replace<'t, R: Replacer>(
-        &self,
-        text: &'t [u8],
-        rep: R,
-    ) -> Cow<'t, [u8]> {
-        self.replacen(text, 1, rep)
-    }
-
-    /// Replaces all non-overlapping matches in `text` with the replacement
-    /// provided. This is the same as calling `replacen` with `limit` set to
-    /// `0`.
-    ///
-    /// See the documentation for `replace` for details on how to access
-    /// capturing group matches in the replacement text.
-    pub fn replace_all<'t, R: Replacer>(
-        &self,
-        text: &'t [u8],
-        rep: R,
-    ) -> Cow<'t, [u8]> {
-        self.replacen(text, 0, rep)
-    }
-
-    /// Replaces at most `limit` non-overlapping matches in `text` with the
-    /// replacement provided. If `limit` is 0, then all non-overlapping matches
-    /// are replaced.
-    ///
-    /// See the documentation for `replace` for details on how to access
-    /// capturing group matches in the replacement text.
-    pub fn replacen<'t, R: Replacer>(
-        &self,
-        text: &'t [u8],
-        limit: usize,
-        mut rep: R,
-    ) -> Cow<'t, [u8]> {
-        if let Some(rep) = rep.no_expansion() {
-            let mut it = self.find_iter(text).enumerate().peekable();
-            if it.peek().is_none() {
-                return Cow::Borrowed(text);
-            }
-            let mut new = Vec::with_capacity(text.len());
-            let mut last_match = 0;
-            for (i, m) in it {
-                if limit > 0 && i >= limit {
-                    break
-                }
-                new.extend_from_slice(&text[last_match..m.start()]);
-                new.extend_from_slice(&rep);
-                last_match = m.end();
-            }
-            new.extend_from_slice(&text[last_match..]);
-            return Cow::Owned(new);
-        }
-
-        // The slower path, which we use if the replacement needs access to
-        // capture groups.
-        let mut it = self.captures_iter(text).enumerate().peekable();
-        if it.peek().is_none() {
-            return Cow::Borrowed(text);
-        }
-        let mut new = Vec::with_capacity(text.len());
-        let mut last_match = 0;
-        for (i, cap) in it {
-            if limit > 0 && i >= limit {
-                break
-            }
-            // unwrap on 0 is OK because captures only reports matches
-            let m = cap.get(0).unwrap();
-            new.extend_from_slice(&text[last_match..m.start()]);
-            rep.replace_append(&cap, &mut new);
-            last_match = m.end();
-        }
-        new.extend_from_slice(&text[last_match..]);
-        Cow::Owned(new)
-    }
-}
-
-/// Advanced or "lower level" search methods.
-impl Regex {
-    /// Returns the end location of a match in the text given.
-    ///
-    /// This method may have the same performance characteristics as
-    /// `is_match`, except it provides an end location for a match. In
-    /// particular, the location returned *may be shorter* than the proper end
-    /// of the leftmost-first match.
-    ///
-    /// # Example
-    ///
-    /// Typically, `a+` would match the entire first sequence of `a` in some
-    /// text, but `shortest_match` can give up as soon as it sees the first
-    /// `a`.
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::bytes::Regex;
-    /// # fn main() {
-    /// let text = b"aaaaa";
-    /// let pos = Regex::new(r"a+").unwrap().shortest_match(text);
-    /// assert_eq!(pos, Some(1));
-    /// # }
-    /// ```
-    pub fn shortest_match(&self, text: &[u8]) -> Option<usize> {
-        self.shortest_match_at(text, 0)
-    }
-
-    /// Returns the same as shortest_match, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn shortest_match_at(
-        &self,
-        text: &[u8],
-        start: usize,
-    ) -> Option<usize> {
-        self.0.searcher().shortest_match_at(text, start)
-    }
-
-    /// Returns the same as is_match, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn is_match_at(&self, text: &[u8], start: usize) -> bool {
-        self.shortest_match_at(text, start).is_some()
-    }
-
-    /// Returns the same as find, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn find_at<'t>(
-        &self,
-        text: &'t [u8],
-        start: usize,
-    ) -> Option<Match<'t>> {
-        self.0.searcher().find_at(text, start)
-            .map(|(s, e)| Match::new(text, s, e))
-    }
-
-    /// This is like `captures`, but uses
-    /// [`CaptureLocations`](struct.CaptureLocations.html)
-    /// instead of
-    /// [`Captures`](struct.Captures.html) in order to amortize allocations.
-    ///
-    /// To create a `CaptureLocations` value, use the
-    /// `Regex::capture_locations` method.
-    ///
-    /// This returns the overall match if this was successful, which is always
-    /// equivalence to the `0`th capture group.
-    pub fn captures_read<'t>(
-        &self,
-        locs: &mut CaptureLocations,
-        text: &'t [u8],
-    ) -> Option<Match<'t>> {
-        self.captures_read_at(locs, text, 0)
-    }
-
-    /// Returns the same as `captures_read`, but starts the search at the given
-    /// offset and populates the capture locations given.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn captures_read_at<'t>(
-        &self,
-        locs: &mut CaptureLocations,
-        text: &'t [u8],
-        start: usize,
-    ) -> Option<Match<'t>> {
-        self.0
-            .searcher()
-            .captures_read_at(&mut locs.0, text, start)
-            .map(|(s, e)| Match::new(text, s, e))
-    }
-
-    /// An undocumented alias for `captures_read_at`.
-    ///
-    /// The `regex-capi` crate previously used this routine, so to avoid
-    /// breaking that crate, we continue to provide the name as an undocumented
-    /// alias.
-    #[doc(hidden)]
-    pub fn read_captures_at<'t>(
-        &self,
-        locs: &mut CaptureLocations,
-        text: &'t [u8],
-        start: usize,
-    ) -> Option<Match<'t>> {
-        self.captures_read_at(locs, text, start)
-    }
-}
-
-/// Auxiliary methods.
-impl Regex {
-    /// Returns the original string of this regex.
-    pub fn as_str(&self) -> &str {
-        &self.0.regex_strings()[0]
-    }
-
-    /// Returns an iterator over the capture names.
-    pub fn capture_names(&self) -> CaptureNames {
-        CaptureNames(self.0.capture_names().iter())
-    }
-
-    /// Returns the number of captures.
-    pub fn captures_len(&self) -> usize {
-        self.0.capture_names().len()
-    }
-
-    /// Returns an empty set of capture locations that can be reused in
-    /// multiple calls to `captures_read` or `captures_read_at`.
-    pub fn capture_locations(&self) -> CaptureLocations {
-        CaptureLocations(self.0.searcher().locations())
-    }
-
-    /// An alias for `capture_locations` to preserve backward compatibility.
-    ///
-    /// The `regex-capi` crate uses this method, so to avoid breaking that
-    /// crate, we continue to export it as an undocumented API.
-    #[doc(hidden)]
-    pub fn locations(&self) -> CaptureLocations {
-        CaptureLocations(self.0.searcher().locations())
-    }
-}
-
-/// An iterator over all non-overlapping matches for a particular string.
-///
-/// The iterator yields a tuple of integers corresponding to the start and end
-/// of the match. The indices are byte offsets. The iterator stops when no more
-/// matches can be found.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the matched byte string.
-pub struct Matches<'r, 't>(re_trait::Matches<'t, ExecNoSync<'r>>);
-
-impl<'r, 't> Iterator for Matches<'r, 't> {
-    type Item = Match<'t>;
-
-    fn next(&mut self) -> Option<Match<'t>> {
-        let text = self.0.text();
-        self.0.next().map(|(s, e)| Match::new(text, s, e))
-    }
-}
-
-/// An iterator that yields all non-overlapping capture groups matching a
-/// particular regular expression.
-///
-/// The iterator stops when no more matches can be found.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the matched byte string.
-pub struct CaptureMatches<'r, 't>(re_trait::CaptureMatches<'t, ExecNoSync<'r>>);
-
-impl<'r, 't> Iterator for CaptureMatches<'r, 't> {
-    type Item = Captures<'t>;
-
-    fn next(&mut self) -> Option<Captures<'t>> {
-        self.0.next().map(|locs| Captures {
-            text: self.0.text(),
-            locs: locs,
-            named_groups: self.0.regex().capture_name_idx().clone(),
-        })
-    }
-}
-
-/// Yields all substrings delimited by a regular expression match.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the byte string being split.
-pub struct Split<'r, 't> {
-    finder: Matches<'r, 't>,
-    last: usize,
-}
-
-impl<'r, 't> Iterator for Split<'r, 't> {
-    type Item = &'t [u8];
-
-    fn next(&mut self) -> Option<&'t [u8]> {
-        let text = self.finder.0.text();
-        match self.finder.next() {
-            None => {
-                if self.last >= text.len() {
-                    None
-                } else {
-                    let s = &text[self.last..];
-                    self.last = text.len();
-                    Some(s)
-                }
-            }
-            Some(m) => {
-                let matched = &text[self.last..m.start()];
-                self.last = m.end();
-                Some(matched)
-            }
-        }
-    }
-}
-
-/// Yields at most `N` substrings delimited by a regular expression match.
-///
-/// The last substring will be whatever remains after splitting.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the byte string being split.
-pub struct SplitN<'r, 't> {
-    splits: Split<'r, 't>,
-    n: usize,
-}
-
-impl<'r, 't> Iterator for SplitN<'r, 't> {
-    type Item = &'t [u8];
-
-    fn next(&mut self) -> Option<&'t [u8]> {
-        if self.n == 0 {
-            return None
-        }
-        self.n -= 1;
-        if self.n == 0 {
-            let text = self.splits.finder.0.text();
-            Some(&text[self.splits.last..])
-        } else {
-            self.splits.next()
-        }
-    }
-}
-
-/// An iterator over the names of all possible captures.
-///
-/// `None` indicates an unnamed capture; the first element (capture 0, the
-/// whole matched region) is always unnamed.
-///
-/// `'r` is the lifetime of the compiled regular expression.
-pub struct CaptureNames<'r>(::std::slice::Iter<'r, Option<String>>);
-
-impl<'r> Iterator for CaptureNames<'r> {
-    type Item = Option<&'r str>;
-
-    fn next(&mut self) -> Option<Option<&'r str>> {
-        self.0.next().as_ref()
-            .map(|slot| slot.as_ref().map(|name| name.as_ref()))
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        self.0.size_hint()
-    }
-}
-
-/// CaptureLocations is a low level representation of the raw offsets of each
-/// submatch.
-///
-/// You can think of this as a lower level
-/// [`Captures`](struct.Captures.html), where this type does not support
-/// named capturing groups directly and it does not borrow the text that these
-/// offsets were matched on.
-///
-/// Primarily, this type is useful when using the lower level `Regex` APIs
-/// such as `read_captures`, which permits amortizing the allocation in which
-/// capture match locations are stored.
-///
-/// In order to build a value of this type, you'll need to call the
-/// `capture_locations` method on the `Regex` being used to execute the search.
-/// The value returned can then be reused in subsequent searches.
-#[derive(Clone, Debug)]
-pub struct CaptureLocations(re_trait::Locations);
-
-/// A type alias for `CaptureLocations` for backwards compatibility.
-///
-/// Previously, we exported `CaptureLocations` as `Locations` in an
-/// undocumented API. To prevent breaking that code (e.g., in `regex-capi`),
-/// we continue re-exporting the same undocumented API.
-#[doc(hidden)]
-pub type Locations = CaptureLocations;
-
-impl CaptureLocations {
-    /// Returns the start and end positions of the Nth capture group. Returns
-    /// `None` if `i` is not a valid capture group or if the capture group did
-    /// not match anything. The positions returned are *always* byte indices
-    /// with respect to the original string matched.
-    #[inline]
-    pub fn get(&self, i: usize) -> Option<(usize, usize)> {
-        self.0.pos(i)
-    }
-
-    /// Returns the total number of capturing groups.
-    ///
-    /// This is always at least `1` since every regex has at least `1`
-    /// capturing group that corresponds to the entire match.
-    #[inline]
-    pub fn len(&self) -> usize {
-        self.0.len()
-    }
-
-    /// An alias for the `get` method for backwards compatibility.
-    ///
-    /// Previously, we exported `get` as `pos` in an undocumented API. To
-    /// prevent breaking that code (e.g., in `regex-capi`), we continue
-    /// re-exporting the same undocumented API.
-    #[doc(hidden)]
-    #[inline]
-    pub fn pos(&self, i: usize) -> Option<(usize, usize)> {
-        self.get(i)
-    }
-}
-
-/// Captures represents a group of captured byte strings for a single match.
-///
-/// The 0th capture always corresponds to the entire match. Each subsequent
-/// index corresponds to the next capture group in the regex. If a capture
-/// group is named, then the matched byte string is *also* available via the
-/// `name` method. (Note that the 0th capture is always unnamed and so must be
-/// accessed with the `get` method.)
-///
-/// Positions returned from a capture group are always byte indices.
-///
-/// `'t` is the lifetime of the matched text.
-pub struct Captures<'t> {
-    text: &'t [u8],
-    locs: re_trait::Locations,
-    named_groups: Arc<HashMap<String, usize>>,
-}
-
-impl<'t> Captures<'t> {
-    /// Returns the match associated with the capture group at index `i`. If
-    /// `i` does not correspond to a capture group, or if the capture group
-    /// did not participate in the match, then `None` is returned.
-    ///
-    /// # Examples
-    ///
-    /// Get the text of the match with a default of an empty string if this
-    /// group didn't participate in the match:
-    ///
-    /// ```rust
-    /// # use regex::bytes::Regex;
-    /// let re = Regex::new(r"[a-z]+(?:([0-9]+)|([A-Z]+))").unwrap();
-    /// let caps = re.captures(b"abc123").unwrap();
-    ///
-    /// let text1 = caps.get(1).map_or(&b""[..], |m| m.as_bytes());
-    /// let text2 = caps.get(2).map_or(&b""[..], |m| m.as_bytes());
-    /// assert_eq!(text1, &b"123"[..]);
-    /// assert_eq!(text2, &b""[..]);
-    /// ```
-    pub fn get(&self, i: usize) -> Option<Match<'t>> {
-        self.locs.pos(i).map(|(s, e)| Match::new(self.text, s, e))
-    }
-
-    /// Returns the match for the capture group named `name`. If `name` isn't a
-    /// valid capture group or didn't match anything, then `None` is returned.
-    pub fn name(&self, name: &str) -> Option<Match<'t>> {
-        self.named_groups.get(name).and_then(|&i| self.get(i))
-    }
-
-    /// An iterator that yields all capturing matches in the order in which
-    /// they appear in the regex. If a particular capture group didn't
-    /// participate in the match, then `None` is yielded for that capture.
-    ///
-    /// The first match always corresponds to the overall match of the regex.
-    pub fn iter<'c>(&'c self) -> SubCaptureMatches<'c, 't> {
-        SubCaptureMatches {
-            caps: self,
-            it: self.locs.iter(),
-        }
-    }
-
-    /// Expands all instances of `$name` in `replacement` to the corresponding
-    /// capture group `name`, and writes them to the `dst` buffer given.
-    ///
-    /// `name` may be an integer corresponding to the index of the
-    /// capture group (counted by order of opening parenthesis where `0` is the
-    /// entire match) or it can be a name (consisting of letters, digits or
-    /// underscores) corresponding to a named capture group.
-    ///
-    /// If `name` isn't a valid capture group (whether the name doesn't exist
-    /// or isn't a valid index), then it is replaced with the empty string.
-    ///
-    /// The longest possible name is used. e.g., `$1a` looks up the capture
-    /// group named `1a` and not the capture group at index `1`. To exert more
-    /// precise control over the name, use braces, e.g., `${1}a`.
-    ///
-    /// To write a literal `$` use `$$`.
-    pub fn expand(&self, replacement: &[u8], dst: &mut Vec<u8>) {
-        expand_bytes(self, replacement, dst)
-    }
-
-    /// Returns the number of captured groups.
-    ///
-    /// This is always at least `1`, since every regex has at least one capture
-    /// group that corresponds to the full match.
-    #[inline]
-    pub fn len(&self) -> usize {
-        self.locs.len()
-    }
-}
-
-impl<'t> fmt::Debug for Captures<'t> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_tuple("Captures").field(&CapturesDebug(self)).finish()
-    }
-}
-
-struct CapturesDebug<'c, 't: 'c>(&'c Captures<'t>);
-
-impl<'c, 't> fmt::Debug for CapturesDebug<'c, 't> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        fn escape_bytes(bytes: &[u8]) -> String {
-            let mut s = String::new();
-            for &b in bytes {
-                s.push_str(&escape_byte(b));
-            }
-            s
-        }
-
-        fn escape_byte(byte: u8) -> String {
-            use std::ascii::escape_default;
-
-            let escaped: Vec<u8> = escape_default(byte).collect();
-            String::from_utf8_lossy(&escaped).into_owned()
-        }
-
-        // We'd like to show something nice here, even if it means an
-        // allocation to build a reverse index.
-        let slot_to_name: HashMap<&usize, &String> =
-            self.0.named_groups.iter().map(|(a, b)| (b, a)).collect();
-        let mut map = f.debug_map();
-        for (slot, m) in self.0.locs.iter().enumerate() {
-            let m = m.map(|(s, e)| escape_bytes(&self.0.text[s..e]));
-            if let Some(name) = slot_to_name.get(&slot) {
-                map.entry(&name, &m);
-            } else {
-                map.entry(&slot, &m);
-            }
-        }
-        map.finish()
-    }
-}
-
-/// Get a group by index.
-///
-/// `'t` is the lifetime of the matched text.
-///
-/// The text can't outlive the `Captures` object if this method is
-/// used, because of how `Index` is defined (normally `a[i]` is part
-/// of `a` and can't outlive it); to do that, use `get()` instead.
-///
-/// # Panics
-///
-/// If there is no group at the given index.
-impl<'t> Index<usize> for Captures<'t> {
-    type Output = [u8];
-
-    fn index(&self, i: usize) -> &[u8] {
-        self.get(i).map(|m| m.as_bytes())
-            .unwrap_or_else(|| panic!("no group at index '{}'", i))
-    }
-}
-
-/// Get a group by name.
-///
-/// `'t` is the lifetime of the matched text and `'i` is the lifetime
-/// of the group name (the index).
-///
-/// The text can't outlive the `Captures` object if this method is
-/// used, because of how `Index` is defined (normally `a[i]` is part
-/// of `a` and can't outlive it); to do that, use `name` instead.
-///
-/// # Panics
-///
-/// If there is no group named by the given value.
-impl<'t, 'i> Index<&'i str> for Captures<'t> {
-    type Output = [u8];
-
-    fn index<'a>(&'a self, name: &'i str) -> &'a [u8] {
-        self.name(name).map(|m| m.as_bytes())
-            .unwrap_or_else(|| panic!("no group named '{}'", name))
-    }
-}
-
-/// An iterator that yields all capturing matches in the order in which they
-/// appear in the regex.
-///
-/// If a particular capture group didn't participate in the match, then `None`
-/// is yielded for that capture. The first match always corresponds to the
-/// overall match of the regex.
-///
-/// The lifetime `'c` corresponds to the lifetime of the `Captures` value, and
-/// the lifetime `'t` corresponds to the originally matched text.
-pub struct SubCaptureMatches<'c, 't: 'c> {
-    caps: &'c Captures<'t>,
-    it: SubCapturesPosIter<'c>,
-}
-
-impl<'c, 't> Iterator for SubCaptureMatches<'c, 't> {
-    type Item = Option<Match<'t>>;
-
-    fn next(&mut self) -> Option<Option<Match<'t>>> {
-        self.it.next()
-            .map(|cap| cap.map(|(s, e)| Match::new(self.caps.text, s, e)))
-    }
-}
-
-/// Replacer describes types that can be used to replace matches in a byte
-/// string.
-///
-/// In general, users of this crate shouldn't need to implement this trait,
-/// since implementations are already provided for `&[u8]` and
-/// `FnMut(&Captures) -> Vec<u8>` (or any `FnMut(&Captures) -> T`
-/// where `T: AsRef<[u8]>`), which covers most use cases.
-pub trait Replacer {
-    /// Appends text to `dst` to replace the current match.
-    ///
-    /// The current match is represented by `caps`, which is guaranteed to
-    /// have a match at capture group `0`.
-    ///
-    /// For example, a no-op replacement would be
-    /// `dst.extend(&caps[0])`.
-    fn replace_append(&mut self, caps: &Captures, dst: &mut Vec<u8>);
-
-    /// Return a fixed unchanging replacement byte string.
-    ///
-    /// When doing replacements, if access to `Captures` is not needed (e.g.,
-    /// the replacement byte string does not need `$` expansion), then it can
-    /// be beneficial to avoid finding sub-captures.
-    ///
-    /// In general, this is called once for every call to `replacen`.
-    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>> {
-        None
-    }
-
-    /// Return a `Replacer` that borrows and wraps this `Replacer`.
-    ///
-    /// This is useful when you want to take a generic `Replacer` (which might
-    /// not be cloneable) and use it without consuming it, so it can be used
-    /// more than once.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use regex::bytes::{Regex, Replacer};
-    ///
-    /// fn replace_all_twice<R: Replacer>(
-    ///     re: Regex,
-    ///     src: &[u8],
-    ///     mut rep: R,
-    /// ) -> Vec<u8> {
-    ///     let dst = re.replace_all(src, rep.by_ref());
-    ///     let dst = re.replace_all(&dst, rep.by_ref());
-    ///     dst.into_owned()
-    /// }
-    /// ```
-    fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self> {
-        ReplacerRef(self)
-    }
-}
-
-/// By-reference adaptor for a `Replacer`
-///
-/// Returned by [`Replacer::by_ref`](trait.Replacer.html#method.by_ref).
-#[derive(Debug)]
-pub struct ReplacerRef<'a, R: ?Sized + 'a>(&'a mut R);
-
-impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R> {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut Vec<u8>) {
-        self.0.replace_append(caps, dst)
-    }
-    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>> {
-        self.0.no_expansion()
-    }
-}
-
-impl<'a> Replacer for &'a [u8] {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut Vec<u8>) {
-        caps.expand(*self, dst);
-    }
-
-    fn no_expansion(&mut self) -> Option<Cow<[u8]>> {
-        match memchr(b'$', *self) {
-            Some(_) => None,
-            None => Some(Cow::Borrowed(*self)),
-        }
-    }
-}
-
-impl<F, T> Replacer for F where F: FnMut(&Captures) -> T, T: AsRef<[u8]> {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut Vec<u8>) {
-        dst.extend_from_slice((*self)(caps).as_ref());
-    }
-}
-
-/// `NoExpand` indicates literal byte string replacement.
-///
-/// It can be used with `replace` and `replace_all` to do a literal byte string
-/// replacement without expanding `$name` to their corresponding capture
-/// groups. This can be both convenient (to avoid escaping `$`, for example)
-/// and performant (since capture groups don't need to be found).
-///
-/// `'t` is the lifetime of the literal text.
-pub struct NoExpand<'t>(pub &'t [u8]);
-
-impl<'t> Replacer for NoExpand<'t> {
-    fn replace_append(&mut self, _: &Captures, dst: &mut Vec<u8>) {
-        dst.extend_from_slice(self.0);
-    }
-
-    fn no_expansion(&mut self) -> Option<Cow<[u8]>> {
-        Some(Cow::Borrowed(self.0))
-    }
-}
-
-
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-macro_rules! define_set {
-    ($name:ident, $builder_mod:ident, $text_ty:ty, $as_bytes:expr,
-     $(#[$doc_regexset_example:meta])* ) => {
-        pub mod $name {
-            use std::fmt;
-            use std::iter;
-            use std::slice;
-            use std::vec;
-
-            use error::Error;
-            use exec::Exec;
-            use re_builder::$builder_mod::RegexSetBuilder;
-            use re_trait::RegularExpression;
-
-/// Match multiple (possibly overlapping) regular expressions in a single scan.
-///
-/// A regex set corresponds to the union of two or more regular expressions.
-/// That is, a regex set will match text where at least one of its
-/// constituent regular expressions matches. A regex set as its formulated here
-/// provides a touch more power: it will also report *which* regular
-/// expressions in the set match. Indeed, this is the key difference between
-/// regex sets and a single `Regex` with many alternates, since only one
-/// alternate can match at a time.
-///
-/// For example, consider regular expressions to match email addresses and
-/// domains: `[a-z]+@[a-z]+\.(com|org|net)` and `[a-z]+\.(com|org|net)`. If a
-/// regex set is constructed from those regexes, then searching the text
-/// `foo@example.com` will report both regexes as matching. Of course, one
-/// could accomplish this by compiling each regex on its own and doing two
-/// searches over the text. The key advantage of using a regex set is that it
-/// will report the matching regexes using a *single pass through the text*.
-/// If one has hundreds or thousands of regexes to match repeatedly (like a URL
-/// router for a complex web application or a user agent matcher), then a regex
-/// set can realize huge performance gains.
-///
-/// # Example
-///
-/// This shows how the above two regexes (for matching email addresses and
-/// domains) might work:
-///
-$(#[$doc_regexset_example])*
-///
-/// Note that it would be possible to adapt the above example to using `Regex`
-/// with an expression like:
-///
-/// ```ignore
-/// (?P<email>[a-z]+@(?P<email_domain>[a-z]+[.](com|org|net)))|(?P<domain>[a-z]+[.](com|org|net))
-/// ```
-///
-/// After a match, one could then inspect the capture groups to figure out
-/// which alternates matched. The problem is that it is hard to make this
-/// approach scale when there are many regexes since the overlap between each
-/// alternate isn't always obvious to reason about.
-///
-/// # Limitations
-///
-/// Regex sets are limited to answering the following two questions:
-///
-/// 1. Does any regex in the set match?
-/// 2. If so, which regexes in the set match?
-///
-/// As with the main `Regex` type, it is cheaper to ask (1) instead of (2)
-/// since the matching engines can stop after the first match is found.
-///
-/// Other features like finding the location of successive matches or their
-/// sub-captures aren't supported. If you need this functionality, the
-/// recommended approach is to compile each regex in the set independently and
-/// selectively match them based on which regexes in the set matched.
-///
-/// # Performance
-///
-/// A `RegexSet` has the same performance characteristics as `Regex`. Namely,
-/// search takes `O(mn)` time, where `m` is proportional to the size of the
-/// regex set and `n` is proportional to the length of the search text.
-#[derive(Clone)]
-pub struct RegexSet(Exec);
-
-impl RegexSet {
-    /// Create a new regex set with the given regular expressions.
-    ///
-    /// This takes an iterator of `S`, where `S` is something that can produce
-    /// a `&str`. If any of the strings in the iterator are not valid regular
-    /// expressions, then an error is returned.
-    ///
-    /// # Example
-    ///
-    /// Create a new regex set from an iterator of strings:
-    ///
-    /// ```rust
-    /// # use regex::RegexSet;
-    /// let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
-    /// assert!(set.is_match("foo"));
-    /// ```
-    pub fn new<I, S>(exprs: I) -> Result<RegexSet, Error>
-            where S: AsRef<str>, I: IntoIterator<Item=S> {
-        RegexSetBuilder::new(exprs).build()
-    }
-
-    /// Returns true if and only if one of the regexes in this set matches
-    /// the text given.
-    ///
-    /// This method should be preferred if you only need to test whether any
-    /// of the regexes in the set should match, but don't care about *which*
-    /// regexes matched. This is because the underlying matching engine will
-    /// quit immediately after seeing the first match instead of continuing to
-    /// find all matches.
-    ///
-    /// Note that as with searches using `Regex`, the expression is unanchored
-    /// by default. That is, if the regex does not start with `^` or `\A`, or
-    /// end with `$` or `\z`, then it is permitted to match anywhere in the
-    /// text.
-    ///
-    /// # Example
-    ///
-    /// Tests whether a set matches some text:
-    ///
-    /// ```rust
-    /// # use regex::RegexSet;
-    /// let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
-    /// assert!(set.is_match("foo"));
-    /// assert!(!set.is_match("☃"));
-    /// ```
-    pub fn is_match(&self, text: $text_ty) -> bool {
-        self.is_match_at(text, 0)
-    }
-
-    /// Returns the same as is_match, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    #[doc(hidden)]
-    pub fn is_match_at(&self, text: $text_ty, start: usize) -> bool {
-        self.0.searcher().is_match_at($as_bytes(text), start)
-    }
-
-    /// Returns the set of regular expressions that match in the given text.
-    ///
-    /// The set returned contains the index of each regular expression that
-    /// matches in the given text. The index is in correspondence with the
-    /// order of regular expressions given to `RegexSet`'s constructor.
-    ///
-    /// The set can also be used to iterate over the matched indices.
-    ///
-    /// Note that as with searches using `Regex`, the expression is unanchored
-    /// by default. That is, if the regex does not start with `^` or `\A`, or
-    /// end with `$` or `\z`, then it is permitted to match anywhere in the
-    /// text.
-    ///
-    /// # Example
-    ///
-    /// Tests which regular expressions match the given text:
-    ///
-    /// ```rust
-    /// # use regex::RegexSet;
-    /// let set = RegexSet::new(&[
-    ///     r"\w+",
-    ///     r"\d+",
-    ///     r"\pL+",
-    ///     r"foo",
-    ///     r"bar",
-    ///     r"barfoo",
-    ///     r"foobar",
-    /// ]).unwrap();
-    /// let matches: Vec<_> = set.matches("foobar").into_iter().collect();
-    /// assert_eq!(matches, vec![0, 2, 3, 4, 6]);
-    ///
-    /// // You can also test whether a particular regex matched:
-    /// let matches = set.matches("foobar");
-    /// assert!(!matches.matched(5));
-    /// assert!(matches.matched(6));
-    /// ```
-    pub fn matches(&self, text: $text_ty) -> SetMatches {
-        let mut matches = vec![false; self.0.regex_strings().len()];
-        let any = self.read_matches_at(&mut matches, text, 0);
-        SetMatches {
-            matched_any: any,
-            matches: matches,
-        }
-    }
-
-    /// Returns the same as matches, but starts the search at the given
-    /// offset and stores the matches into the slice given.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    ///
-    /// `matches` must have a length that is at least the number of regexes
-    /// in this set.
-    ///
-    /// This method returns true if and only if at least one member of
-    /// `matches` is true after executing the set against `text`.
-    #[doc(hidden)]
-    pub fn read_matches_at(
-        &self,
-        matches: &mut [bool],
-        text: $text_ty,
-        start: usize,
-    ) -> bool {
-        self.0.searcher().many_matches_at(matches, $as_bytes(text), start)
-    }
-
-    /// Returns the total number of regular expressions in this set.
-    pub fn len(&self) -> usize {
-        self.0.regex_strings().len()
-    }
-
-    /// Returns the patterns that this set will match on.
-    ///
-    /// This function can be used to determine the pattern for a match. The 
-    /// slice returned has exactly as many patterns givens to this regex set, 
-    /// and the order of the slice is the same as the order of the patterns 
-    /// provided to the set.
-    ///
-    /// # Example
-    ///
-    /// ```rust
-    /// # use regex::RegexSet;
-    /// let set = RegexSet::new(&[
-    ///     r"\w+",
-    ///     r"\d+",
-    ///     r"\pL+",
-    ///     r"foo",
-    ///     r"bar",
-    ///     r"barfoo",
-    ///     r"foobar",
-    /// ]).unwrap();
-    /// let matches: Vec<_> = set
-    ///     .matches("foobar")
-    ///     .into_iter()
-    ///     .map(|match_idx| &set.patterns()[match_idx])
-    ///     .collect();
-    /// assert_eq!(matches, vec![r"\w+", r"\pL+", r"foo", r"bar", r"foobar"]);
-    /// ```
-    pub fn patterns(&self) -> &[String] {
-        self.0.regex_strings()
-    }
-}
-
-/// A set of matches returned by a regex set.
-#[derive(Clone, Debug)]
-pub struct SetMatches {
-    matched_any: bool,
-    matches: Vec<bool>,
-}
-
-impl SetMatches {
-    /// Whether this set contains any matches.
-    pub fn matched_any(&self) -> bool {
-        self.matched_any
-    }
-
-    /// Whether the regex at the given index matched.
-    ///
-    /// The index for a regex is determined by its insertion order upon the
-    /// initial construction of a `RegexSet`, starting at `0`.
-    ///
-    /// # Panics
-    ///
-    /// If `regex_index` is greater than or equal to `self.len()`.
-    pub fn matched(&self, regex_index: usize) -> bool {
-        self.matches[regex_index]
-    }
-
-    /// The total number of regexes in the set that created these matches.
-    pub fn len(&self) -> usize {
-        self.matches.len()
-    }
-
-    /// Returns an iterator over indexes in the regex that matched.
-    ///
-    /// This will always produces matches in ascending order of index, where
-    /// the index corresponds to the index of the regex that matched with
-    /// respect to its position when initially building the set.
-    pub fn iter(&self) -> SetMatchesIter {
-        SetMatchesIter((&*self.matches).into_iter().enumerate())
-    }
-}
-
-impl IntoIterator for SetMatches {
-    type IntoIter = SetMatchesIntoIter;
-    type Item = usize;
-
-    fn into_iter(self) -> Self::IntoIter {
-        SetMatchesIntoIter(self.matches.into_iter().enumerate())
-    }
-}
-
-impl<'a> IntoIterator for &'a SetMatches {
-    type IntoIter = SetMatchesIter<'a>;
-    type Item = usize;
-
-    fn into_iter(self) -> Self::IntoIter {
-        self.iter()
-    }
-}
-
-/// An owned iterator over the set of matches from a regex set.
-///
-/// This will always produces matches in ascending order of index, where the
-/// index corresponds to the index of the regex that matched with respect to
-/// its position when initially building the set.
-pub struct SetMatchesIntoIter(iter::Enumerate<vec::IntoIter<bool>>);
-
-impl Iterator for SetMatchesIntoIter {
-    type Item = usize;
-
-    fn next(&mut self) -> Option<usize> {
-        loop {
-            match self.0.next() {
-                None => return None,
-                Some((_, false)) => {}
-                Some((i, true)) => return Some(i),
-            }
-        }
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        self.0.size_hint() 
-    }
-}
-
-impl DoubleEndedIterator for SetMatchesIntoIter {
-    fn next_back(&mut self) -> Option<usize> {
-        loop {
-            match self.0.next_back() {
-                None => return None,
-                Some((_, false)) => {}
-                Some((i, true)) => return Some(i),
-            }
-        }
-    }
-}
-
-/// A borrowed iterator over the set of matches from a regex set.
-///
-/// The lifetime `'a` refers to the lifetime of a `SetMatches` value.
-///
-/// This will always produces matches in ascending order of index, where the
-/// index corresponds to the index of the regex that matched with respect to
-/// its position when initially building the set.
-#[derive(Clone)]
-pub struct SetMatchesIter<'a>(iter::Enumerate<slice::Iter<'a, bool>>);
-
-impl<'a> Iterator for SetMatchesIter<'a> {
-    type Item = usize;
-
-    fn next(&mut self) -> Option<usize> {
-        loop {
-            match self.0.next() {
-                None => return None,
-                Some((_, &false)) => {}
-                Some((i, &true)) => return Some(i),
-            }
-        }
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        self.0.size_hint() 
-    }
-}
-
-impl<'a> DoubleEndedIterator for SetMatchesIter<'a> {
-    fn next_back(&mut self) -> Option<usize> {
-        loop {
-            match self.0.next_back() {
-                None => return None,
-                Some((_, &false)) => {}
-                Some((i, &true)) => return Some(i),
-            }
-        }
-    }
-}
-
-#[doc(hidden)]
-impl From<Exec> for RegexSet {
-    fn from(exec: Exec) -> Self {
-        RegexSet(exec)
-    }
-}
-
-impl fmt::Debug for RegexSet {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "RegexSet({:?})", self.0.regex_strings())
-    }
-}
-
-#[allow(dead_code)] fn as_bytes_str(text: &str) -> &[u8] { text.as_bytes() }
-#[allow(dead_code)] fn as_bytes_bytes(text: &[u8]) -> &[u8] { text }
-        }
-    }
-}
-
-define_set! {
-    unicode,
-    set_unicode,
-    &str,
-    as_bytes_str,
-/// ```rust
-/// # use regex::RegexSet;
-/// let set = RegexSet::new(&[
-///     r"[a-z]+@[a-z]+\.(com|org|net)",
-///     r"[a-z]+\.(com|org|net)",
-/// ]).unwrap();
-///
-/// // Ask whether any regexes in the set match.
-/// assert!(set.is_match("foo@example.com"));
-///
-/// // Identify which regexes in the set match.
-/// let matches: Vec<_> = set.matches("foo@example.com").into_iter().collect();
-/// assert_eq!(vec![0, 1], matches);
-///
-/// // Try again, but with text that only matches one of the regexes.
-/// let matches: Vec<_> = set.matches("example.com").into_iter().collect();
-/// assert_eq!(vec![1], matches);
-///
-/// // Try again, but with text that doesn't match any regex in the set.
-/// let matches: Vec<_> = set.matches("example").into_iter().collect();
-/// assert!(matches.is_empty());
-/// ```
-}
-
-define_set! {
-    bytes,
-    set_bytes,
-    &[u8],
-    as_bytes_bytes,
-/// ```rust
-/// # use regex::bytes::RegexSet;
-/// let set = RegexSet::new(&[
-///     r"[a-z]+@[a-z]+\.(com|org|net)",
-///     r"[a-z]+\.(com|org|net)",
-/// ]).unwrap();
-///
-/// // Ask whether any regexes in the set match.
-/// assert!(set.is_match(b"foo@example.com"));
-///
-/// // Identify which regexes in the set match.
-/// let matches: Vec<_> = set.matches(b"foo@example.com").into_iter().collect();
-/// assert_eq!(vec![0, 1], matches);
-///
-/// // Try again, but with text that only matches one of the regexes.
-/// let matches: Vec<_> = set.matches(b"example.com").into_iter().collect();
-/// assert_eq!(vec![1], matches);
-///
-/// // Try again, but with text that doesn't match any regex in the set.
-/// let matches: Vec<_> = set.matches(b"example").into_iter().collect();
-/// assert!(matches.is_empty());
-/// ```
-}
-
-
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/// Slot is a single saved capture location. Note that there are two slots for
-/// every capture in a regular expression (one slot each for the start and end
-/// of the capture).
-pub type Slot = Option<usize>;
-
-/// Locations represents the offsets of each capturing group in a regex for
-/// a single match.
-///
-/// Unlike `Captures`, a `Locations` value only stores offsets.
-#[doc(hidden)]
-#[derive(Clone, Debug)]
-pub struct Locations(Vec<Slot>);
-
-impl Locations {
-    /// Returns the start and end positions of the Nth capture group. Returns
-    /// `None` if `i` is not a valid capture group or if the capture group did
-    /// not match anything. The positions returned are *always* byte indices
-    /// with respect to the original string matched.
-    pub fn pos(&self, i: usize) -> Option<(usize, usize)> {
-        let (s, e) = (i * 2, i * 2 + 1);
-        match (self.0.get(s), self.0.get(e)) {
-            (Some(&Some(s)), Some(&Some(e))) => Some((s, e)),
-            _ => None,
-        }
-    }
-
-    /// Creates an iterator of all the capture group positions in order of
-    /// appearance in the regular expression. Positions are byte indices
-    /// in terms of the original string matched.
-    pub fn iter(&self) -> SubCapturesPosIter {
-        SubCapturesPosIter { idx: 0, locs: self }
-    }
-
-    /// Returns the total number of capturing groups.
-    ///
-    /// This is always at least `1` since every regex has at least `1`
-    /// capturing group that corresponds to the entire match.
-    pub fn len(&self) -> usize {
-        self.0.len() / 2
-    }
-
-    /// Return the individual slots as a slice.
-    pub(crate) fn as_slots(&mut self) -> &mut [Slot] {
-        &mut self.0
-    }
-}
-
-/// An iterator over capture group positions for a particular match of a
-/// regular expression.
-///
-/// Positions are byte indices in terms of the original string matched.
-///
-/// `'c` is the lifetime of the captures.
-pub struct SubCapturesPosIter<'c> {
-    idx: usize,
-    locs: &'c Locations,
-}
-
-impl<'c> Iterator for SubCapturesPosIter<'c> {
-    type Item = Option<(usize, usize)>;
-
-    fn next(&mut self) -> Option<Option<(usize, usize)>> {
-        if self.idx >= self.locs.len() {
-            return None;
-        }
-        let x = match self.locs.pos(self.idx) {
-            None => Some(None),
-            Some((s, e)) => {
-                Some(Some((s, e)))
-            }
-        };
-        self.idx += 1;
-        x
-    }
-}
-
-/// `RegularExpression` describes types that can implement regex searching.
-///
-/// This trait is my attempt at reducing code duplication and to standardize
-/// the internal API. Specific duplication that is avoided are the `find`
-/// and `capture` iterators, which are slightly tricky.
-///
-/// It's not clear whether this trait is worth it, and it also isn't
-/// clear whether it's useful as a public trait or not. Methods like
-/// `next_after_empty` reak of bad design, but the rest of the methods seem
-/// somewhat reasonable. One particular thing this trait would expose would be
-/// the ability to start the search of a regex anywhere in a haystack, which
-/// isn't possible in the current public API.
-pub trait RegularExpression: Sized {
-    /// The type of the haystack.
-    type Text: ?Sized;
-
-    /// The number of capture slots in the compiled regular expression. This is
-    /// always two times the number of capture groups (two slots per group).
-    fn slots_len(&self) -> usize;
-
-    /// Allocates fresh space for all capturing groups in this regex.
-    fn locations(&self) -> Locations {
-        Locations(vec![None; self.slots_len()])
-    }
-
-    /// Returns the position of the next character after `i`.
-    ///
-    /// For example, a haystack with type `&[u8]` probably returns `i+1`,
-    /// whereas a haystack with type `&str` probably returns `i` plus the
-    /// length of the next UTF-8 sequence.
-    fn next_after_empty(&self, text: &Self::Text, i: usize) -> usize;
-
-    /// Returns the location of the shortest match.
-    fn shortest_match_at(
-        &self,
-        text: &Self::Text,
-        start: usize,
-    ) -> Option<usize>;
-
-    /// Returns whether the regex matches the text given.
-    fn is_match_at(
-        &self,
-        text: &Self::Text,
-        start: usize,
-    ) -> bool;
-
-    /// Returns the leftmost-first match location if one exists.
-    fn find_at(
-        &self,
-        text: &Self::Text,
-        start: usize,
-    ) -> Option<(usize, usize)>;
-
-    /// Returns the leftmost-first match location if one exists, and also
-    /// fills in any matching capture slot locations.
-    fn captures_read_at(
-        &self,
-        locs: &mut Locations,
-        text: &Self::Text,
-        start: usize,
-    ) -> Option<(usize, usize)>;
-
-    /// Returns an iterator over all non-overlapping successive leftmost-first
-    /// matches.
-    fn find_iter (
-        self,
-        text: &Self::Text,
-    ) -> Matches<Self> {
-        Matches {
-            re: self,
-            text: text,
-            last_end: 0,
-            last_match: None,
-        }
-    }
-
-    /// Returns an iterator over all non-overlapping successive leftmost-first
-    /// matches with captures.
-    fn captures_iter(
-        self,
-        text: &Self::Text,
-    ) -> CaptureMatches<Self> {
-        CaptureMatches(self.find_iter(text))
-    }
-}
-
-/// An iterator over all non-overlapping successive leftmost-first matches.
-pub struct Matches<'t, R> where R: RegularExpression, R::Text: 't {
-    re: R,
-    text: &'t R::Text,
-    last_end: usize,
-    last_match: Option<usize>,
-}
-
-impl<'t, R> Matches<'t, R> where R: RegularExpression, R::Text: 't {
-    /// Return the text being searched.
-    pub fn text(&self) -> &'t R::Text {
-        self.text
-    }
-
-    /// Return the underlying regex.
-    pub fn regex(&self) -> &R {
-        &self.re
-    }
-}
-
-impl<'t, R> Iterator for Matches<'t, R>
-        where R: RegularExpression, R::Text: 't + AsRef<[u8]> {
-    type Item = (usize, usize);
-
-    fn next(&mut self) -> Option<(usize, usize)> {
-        if self.last_end > self.text.as_ref().len() {
-            return None;
-        }
-        let (s, e) = match self.re.find_at(self.text, self.last_end) {
-            None => return None,
-            Some((s, e)) => (s, e),
-        };
-        if s == e {
-            // This is an empty match. To ensure we make progress, start
-            // the next search at the smallest possible starting position
-            // of the next match following this one.
-            self.last_end = self.re.next_after_empty(self.text, e);
-            // Don't accept empty matches immediately following a match.
-            // Just move on to the next match.
-            if Some(e) == self.last_match {
-                return self.next();
-            }
-        } else {
-            self.last_end = e;
-        }
-        self.last_match = Some(e);
-        Some((s, e))
-    }
-}
-
-/// An iterator over all non-overlapping successive leftmost-first matches with
-/// captures.
-pub struct CaptureMatches<'t, R>(Matches<'t, R>)
-    where R: RegularExpression, R::Text: 't;
-
-impl<'t, R> CaptureMatches<'t, R> where R: RegularExpression, R::Text: 't {
-    /// Return the text being searched.
-    pub fn text(&self) -> &'t R::Text {
-        self.0.text()
-    }
-
-    /// Return the underlying regex.
-    pub fn regex(&self) -> &R {
-        self.0.regex()
-    }
-}
-
-impl<'t, R> Iterator for CaptureMatches<'t, R>
-        where R: RegularExpression, R::Text: 't + AsRef<[u8]> {
-    type Item = Locations;
-
-    fn next(&mut self) -> Option<Locations> {
-        if self.0.last_end > self.0.text.as_ref().len() {
-            return None
-        }
-        let mut locs = self.0.re.locations();
-        let (s, e) = match self.0.re.captures_read_at(
-            &mut locs,
-            self.0.text,
-            self.0.last_end,
-        ) {
-            None => return None,
-            Some((s, e)) => (s, e),
-        };
-        if s == e {
-            self.0.last_end = self.0.re.next_after_empty(self.0.text, e);
-            if Some(e) == self.0.last_match {
-                return self.next();
-            }
-        } else {
-            self.0.last_end = e;
-        }
-        self.0.last_match = Some(e);
-        Some(locs)
-    }
-}
-
-
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-
-// Copyright 2014-2015 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::borrow::Cow;
-use std::collections::HashMap;
-use std::fmt;
-use std::ops::Index;
-use std::str::FromStr;
-use std::sync::Arc;
-
-use memchr::memchr;
-use syntax;
-
-use error::Error;
-use exec::{Exec, ExecNoSyncStr};
-use expand::expand_str;
-use re_builder::unicode::RegexBuilder;
-use re_trait::{self, RegularExpression, SubCapturesPosIter};
-
-/// Escapes all regular expression meta characters in `text`.
-///
-/// The string returned may be safely used as a literal in a regular
-/// expression.
-pub fn escape(text: &str) -> String {
-    syntax::escape(text)
-}
-
-/// Match represents a single match of a regex in a haystack.
-///
-/// The lifetime parameter `'t` refers to the lifetime of the matched text.
-#[derive(Copy, Clone, Debug, Eq, PartialEq)]
-pub struct Match<'t> {
-    text: &'t str,
-    start: usize,
-    end: usize,
-}
-
-impl<'t> Match<'t> {
-    /// Returns the starting byte offset of the match in the haystack.
-    #[inline]
-    pub fn start(&self) -> usize {
-        self.start
-    }
-
-    /// Returns the ending byte offset of the match in the haystack.
-    #[inline]
-    pub fn end(&self) -> usize {
-        self.end
-    }
-
-    /// Returns the matched text.
-    #[inline]
-    pub fn as_str(&self) -> &'t str {
-        &self.text[self.start..self.end]
-    }
-
-    /// Creates a new match from the given haystack and byte offsets.
-    #[inline]
-    fn new(haystack: &'t str, start: usize, end: usize) -> Match<'t> {
-        Match {
-            text: haystack,
-            start: start,
-            end: end,
-        }
-    }
-}
-
-impl<'t> From<Match<'t>> for &'t str {
-    fn from(m: Match<'t>) -> &'t str {
-        m.as_str()
-    }
-}
-
-/// A compiled regular expression for matching Unicode strings.
-///
-/// It is represented as either a sequence of bytecode instructions (dynamic)
-/// or as a specialized Rust function (native). It can be used to search, split
-/// or replace text. All searching is done with an implicit `.*?` at the
-/// beginning and end of an expression. To force an expression to match the
-/// whole string (or a prefix or a suffix), you must use an anchor like `^` or
-/// `$` (or `\A` and `\z`).
-///
-/// While this crate will handle Unicode strings (whether in the regular
-/// expression or in the search text), all positions returned are **byte
-/// indices**. Every byte index is guaranteed to be at a Unicode code point
-/// boundary.
-///
-/// The lifetimes `'r` and `'t` in this crate correspond to the lifetime of a
-/// compiled regular expression and text to search, respectively.
-///
-/// The only methods that allocate new strings are the string replacement
-/// methods. All other methods (searching and splitting) return borrowed
-/// pointers into the string given.
-///
-/// # Examples
-///
-/// Find the location of a US phone number:
-///
-/// ```rust
-/// # use regex::Regex;
-/// let re = Regex::new("[0-9]{3}-[0-9]{3}-[0-9]{4}").unwrap();
-/// let mat = re.find("phone: 111-222-3333").unwrap();
-/// assert_eq!((mat.start(), mat.end()), (7, 19));
-/// ```
-///
-/// # Using the `std::str::pattern` methods with `Regex`
-///
-/// > **Note**: This section requires that this crate is compiled with the
-/// > `pattern` Cargo feature enabled, which **requires nightly Rust**.
-///
-/// Since `Regex` implements `Pattern`, you can use regexes with methods
-/// defined on `&str`. For example, `is_match`, `find`, `find_iter`
-/// and `split` can be replaced with `str::contains`, `str::find`,
-/// `str::match_indices` and `str::split`.
-///
-/// Here are some examples:
-///
-/// ```rust,ignore
-/// # use regex::Regex;
-/// let re = Regex::new(r"\d+").unwrap();
-/// let haystack = "a111b222c";
-///
-/// assert!(haystack.contains(&re));
-/// assert_eq!(haystack.find(&re), Some(1));
-/// assert_eq!(haystack.match_indices(&re).collect::<Vec<_>>(),
-///            vec![(1, 4), (5, 8)]);
-/// assert_eq!(haystack.split(&re).collect::<Vec<_>>(), vec!["a", "b", "c"]);
-/// ```
-#[derive(Clone)]
-pub struct Regex(Exec);
-
-impl fmt::Display for Regex {
-    /// Shows the original regular expression.
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "{}", self.as_str())
-    }
-}
-
-impl fmt::Debug for Regex {
-    /// Shows the original regular expression.
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        fmt::Display::fmt(self, f)
-    }
-}
-
-#[doc(hidden)]
-impl From<Exec> for Regex {
-    fn from(exec: Exec) -> Regex {
-        Regex(exec)
-    }
-}
-
-impl FromStr for Regex {
-    type Err = Error;
-
-    /// Attempts to parse a string into a regular expression
-    fn from_str(s: &str) -> Result<Regex, Error> {
-        Regex::new(s)
-    }
-}
-
-/// Core regular expression methods.
-impl Regex {
-    /// Compiles a regular expression. Once compiled, it can be used repeatedly
-    /// to search, split or replace text in a string.
-    ///
-    /// If an invalid expression is given, then an error is returned.
-    pub fn new(re: &str) -> Result<Regex, Error> {
-        RegexBuilder::new(re).build()
-    }
-
-    /// Returns true if and only if the regex matches the string given.
-    ///
-    /// It is recommended to use this method if all you need to do is test
-    /// a match, since the underlying matching engine may be able to do less
-    /// work.
-    ///
-    /// # Example
-    ///
-    /// Test if some text contains at least one word with exactly 13
-    /// Unicode word characters:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let text = "I categorically deny having triskaidekaphobia.";
-    /// assert!(Regex::new(r"\b\w{13}\b").unwrap().is_match(text));
-    /// # }
-    /// ```
-    pub fn is_match(&self, text: &str) -> bool {
-        self.is_match_at(text, 0)
-    }
-
-    /// Returns the start and end byte range of the leftmost-first match in
-    /// `text`. If no match exists, then `None` is returned.
-    ///
-    /// Note that this should only be used if you want to discover the position
-    /// of the match. Testing the existence of a match is faster if you use
-    /// `is_match`.
-    ///
-    /// # Example
-    ///
-    /// Find the start and end location of the first word with exactly 13
-    /// Unicode word characters:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let text = "I categorically deny having triskaidekaphobia.";
-    /// let mat = Regex::new(r"\b\w{13}\b").unwrap().find(text).unwrap();
-    /// assert_eq!(mat.start(), 2);
-    /// assert_eq!(mat.end(), 15);
-    /// # }
-    /// ```
-    pub fn find<'t>(&self, text: &'t str) -> Option<Match<'t>> {
-        self.find_at(text, 0)
-    }
-
-    /// Returns an iterator for each successive non-overlapping match in
-    /// `text`, returning the start and end byte indices with respect to
-    /// `text`.
-    ///
-    /// # Example
-    ///
-    /// Find the start and end location of every word with exactly 13 Unicode
-    /// word characters:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let text = "Retroactively relinquishing remunerations is reprehensible.";
-    /// for mat in Regex::new(r"\b\w{13}\b").unwrap().find_iter(text) {
-    ///     println!("{:?}", mat);
-    /// }
-    /// # }
-    /// ```
-    pub fn find_iter<'r, 't>(&'r self, text: &'t str) -> Matches<'r, 't> {
-        Matches(self.0.searcher_str().find_iter(text))
-    }
-
-    /// Returns the capture groups corresponding to the leftmost-first
-    /// match in `text`. Capture group `0` always corresponds to the entire
-    /// match. If no match is found, then `None` is returned.
-    ///
-    /// You should only use `captures` if you need access to the location of
-    /// capturing group matches. Otherwise, `find` is faster for discovering
-    /// the location of the overall match.
-    ///
-    /// # Examples
-    ///
-    /// Say you have some text with movie names and their release years,
-    /// like "'Citizen Kane' (1941)". It'd be nice if we could search for text
-    /// looking like that, while also extracting the movie name and its release
-    /// year separately.
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"'([^']+)'\s+\((\d{4})\)").unwrap();
-    /// let text = "Not my favorite movie: 'Citizen Kane' (1941).";
-    /// let caps = re.captures(text).unwrap();
-    /// assert_eq!(caps.get(1).unwrap().as_str(), "Citizen Kane");
-    /// assert_eq!(caps.get(2).unwrap().as_str(), "1941");
-    /// assert_eq!(caps.get(0).unwrap().as_str(), "'Citizen Kane' (1941)");
-    /// // You can also access the groups by index using the Index notation.
-    /// // Note that this will panic on an invalid index.
-    /// assert_eq!(&caps[1], "Citizen Kane");
-    /// assert_eq!(&caps[2], "1941");
-    /// assert_eq!(&caps[0], "'Citizen Kane' (1941)");
-    /// # }
-    /// ```
-    ///
-    /// Note that the full match is at capture group `0`. Each subsequent
-    /// capture group is indexed by the order of its opening `(`.
-    ///
-    /// We can make this example a bit clearer by using *named* capture groups:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-    ///                .unwrap();
-    /// let text = "Not my favorite movie: 'Citizen Kane' (1941).";
-    /// let caps = re.captures(text).unwrap();
-    /// assert_eq!(caps.name("title").unwrap().as_str(), "Citizen Kane");
-    /// assert_eq!(caps.name("year").unwrap().as_str(), "1941");
-    /// assert_eq!(caps.get(0).unwrap().as_str(), "'Citizen Kane' (1941)");
-    /// // You can also access the groups by name using the Index notation.
-    /// // Note that this will panic on an invalid group name.
-    /// assert_eq!(&caps["title"], "Citizen Kane");
-    /// assert_eq!(&caps["year"], "1941");
-    /// assert_eq!(&caps[0], "'Citizen Kane' (1941)");
-    ///
-    /// # }
-    /// ```
-    ///
-    /// Here we name the capture groups, which we can access with the `name`
-    /// method or the `Index` notation with a `&str`. Note that the named
-    /// capture groups are still accessible with `get` or the `Index` notation
-    /// with a `usize`.
-    ///
-    /// The `0`th capture group is always unnamed, so it must always be
-    /// accessed with `get(0)` or `[0]`.
-    pub fn captures<'t>(&self, text: &'t str) -> Option<Captures<'t>> {
-        let mut locs = self.capture_locations();
-        self.captures_read_at(&mut locs, text, 0).map(move |_| Captures {
-            text: text,
-            locs: locs.0,
-            named_groups: self.0.capture_name_idx().clone(),
-        })
-    }
-
-    /// Returns an iterator over all the non-overlapping capture groups matched
-    /// in `text`. This is operationally the same as `find_iter`, except it
-    /// yields information about capturing group matches.
-    ///
-    /// # Example
-    ///
-    /// We can use this to find all movie titles and their release years in
-    /// some text, where the movie is formatted like "'Title' (xxxx)":
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
-    ///                .unwrap();
-    /// let text = "'Citizen Kane' (1941), 'The Wizard of Oz' (1939), 'M' (1931).";
-    /// for caps in re.captures_iter(text) {
-    ///     println!("Movie: {:?}, Released: {:?}",
-    ///              &caps["title"], &caps["year"]);
-    /// }
-    /// // Output:
-    /// // Movie: Citizen Kane, Released: 1941
-    /// // Movie: The Wizard of Oz, Released: 1939
-    /// // Movie: M, Released: 1931
-    /// # }
-    /// ```
-    pub fn captures_iter<'r, 't>(
-        &'r self,
-        text: &'t str,
-    ) -> CaptureMatches<'r, 't> {
-        CaptureMatches(self.0.searcher_str().captures_iter(text))
-    }
-
-    /// Returns an iterator of substrings of `text` delimited by a match of the
-    /// regular expression. Namely, each element of the iterator corresponds to
-    /// text that *isn't* matched by the regular expression.
-    ///
-    /// This method will *not* copy the text given.
-    ///
-    /// # Example
-    ///
-    /// To split a string delimited by arbitrary amounts of spaces or tabs:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"[ \t]+").unwrap();
-    /// let fields: Vec<&str> = re.split("a b \t  c\td    e").collect();
-    /// assert_eq!(fields, vec!["a", "b", "c", "d", "e"]);
-    /// # }
-    /// ```
-    pub fn split<'r, 't>(&'r self, text: &'t str) -> Split<'r, 't> {
-        Split {
-            finder: self.find_iter(text),
-            last: 0,
-        }
-    }
-
-    /// Returns an iterator of at most `limit` substrings of `text` delimited
-    /// by a match of the regular expression. (A `limit` of `0` will return no
-    /// substrings.) Namely, each element of the iterator corresponds to text
-    /// that *isn't* matched by the regular expression. The remainder of the
-    /// string that is not split will be the last element in the iterator.
-    ///
-    /// This method will *not* copy the text given.
-    ///
-    /// # Example
-    ///
-    /// Get the first two words in some text:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"\W+").unwrap();
-    /// let fields: Vec<&str> = re.splitn("Hey! How are you?", 3).collect();
-    /// assert_eq!(fields, vec!("Hey", "How", "are you?"));
-    /// # }
-    /// ```
-    pub fn splitn<'r, 't>(&'r self, text: &'t str, limit: usize)
-                         -> SplitN<'r, 't> {
-        SplitN {
-            splits: self.split(text),
-            n: limit,
-        }
-    }
-
-    /// Replaces the leftmost-first match with the replacement provided.
-    /// The replacement can be a regular string (where `$N` and `$name` are
-    /// expanded to match capture groups) or a function that takes the matches'
-    /// `Captures` and returns the replaced string.
-    ///
-    /// If no match is found, then a copy of the string is returned unchanged.
-    ///
-    /// # Replacement string syntax
-    ///
-    /// All instances of `$name` in the replacement text is replaced with the
-    /// corresponding capture group `name`.
-    ///
-    /// `name` may be an integer corresponding to the index of the
-    /// capture group (counted by order of opening parenthesis where `0` is the
-    /// entire match) or it can be a name (consisting of letters, digits or
-    /// underscores) corresponding to a named capture group.
-    ///
-    /// If `name` isn't a valid capture group (whether the name doesn't exist
-    /// or isn't a valid index), then it is replaced with the empty string.
-    ///
-    /// The longest possible name is used. e.g., `$1a` looks up the capture
-    /// group named `1a` and not the capture group at index `1`. To exert more
-    /// precise control over the name, use braces, e.g., `${1}a`.
-    ///
-    /// To write a literal `$` use `$$`.
-    ///
-    /// # Examples
-    ///
-    /// Note that this function is polymorphic with respect to the replacement.
-    /// In typical usage, this can just be a normal string:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new("[^01]+").unwrap();
-    /// assert_eq!(re.replace("1078910", ""), "1010");
-    /// # }
-    /// ```
-    ///
-    /// But anything satisfying the `Replacer` trait will work. For example,
-    /// a closure of type `|&Captures| -> String` provides direct access to the
-    /// captures corresponding to a match. This allows one to access
-    /// capturing group matches easily:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # use regex::Captures; fn main() {
-    /// let re = Regex::new(r"([^,\s]+),\s+(\S+)").unwrap();
-    /// let result = re.replace("Springsteen, Bruce", |caps: &Captures| {
-    ///     format!("{} {}", &caps[2], &caps[1])
-    /// });
-    /// assert_eq!(result, "Bruce Springsteen");
-    /// # }
-    /// ```
-    ///
-    /// But this is a bit cumbersome to use all the time. Instead, a simple
-    /// syntax is supported that expands `$name` into the corresponding capture
-    /// group. Here's the last example, but using this expansion technique
-    /// with named capture groups:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(?P<first>\S+)").unwrap();
-    /// let result = re.replace("Springsteen, Bruce", "$first $last");
-    /// assert_eq!(result, "Bruce Springsteen");
-    /// # }
-    /// ```
-    ///
-    /// Note that using `$2` instead of `$first` or `$1` instead of `$last`
-    /// would produce the same result. To write a literal `$` use `$$`.
-    ///
-    /// Sometimes the replacement string requires use of curly braces to
-    /// delineate a capture group replacement and surrounding literal text.
-    /// For example, if we wanted to join two words together with an
-    /// underscore:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let re = Regex::new(r"(?P<first>\w+)\s+(?P<second>\w+)").unwrap();
-    /// let result = re.replace("deep fried", "${first}_$second");
-    /// assert_eq!(result, "deep_fried");
-    /// # }
-    /// ```
-    ///
-    /// Without the curly braces, the capture group name `first_` would be
-    /// used, and since it doesn't exist, it would be replaced with the empty
-    /// string.
-    ///
-    /// Finally, sometimes you just want to replace a literal string with no
-    /// regard for capturing group expansion. This can be done by wrapping a
-    /// byte string with `NoExpand`:
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// use regex::NoExpand;
-    ///
-    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(\S+)").unwrap();
-    /// let result = re.replace("Springsteen, Bruce", NoExpand("$2 $last"));
-    /// assert_eq!(result, "$2 $last");
-    /// # }
-    /// ```
-    pub fn replace<'t, R: Replacer>(
-        &self,
-        text: &'t str,
-        rep: R,
-    ) -> Cow<'t, str> {
-        self.replacen(text, 1, rep)
-    }
-
-    /// Replaces all non-overlapping matches in `text` with the replacement
-    /// provided. This is the same as calling `replacen` with `limit` set to
-    /// `0`.
-    ///
-    /// See the documentation for `replace` for details on how to access
-    /// capturing group matches in the replacement string.
-    pub fn replace_all<'t, R: Replacer>(
-        &self,
-        text: &'t str,
-        rep: R,
-    ) -> Cow<'t, str> {
-        self.replacen(text, 0, rep)
-    }
-
-    /// Replaces at most `limit` non-overlapping matches in `text` with the
-    /// replacement provided. If `limit` is 0, then all non-overlapping matches
-    /// are replaced.
-    ///
-    /// See the documentation for `replace` for details on how to access
-    /// capturing group matches in the replacement string.
-    pub fn replacen<'t, R: Replacer>(
-        &self,
-        text: &'t str,
-        limit: usize,
-        mut rep: R,
-    ) -> Cow<'t, str> {
-        // If we know that the replacement doesn't have any capture expansions,
-        // then we can fast path. The fast path can make a tremendous
-        // difference:
-        //
-        //   1) We use `find_iter` instead of `captures_iter`. Not asking for
-        //      captures generally makes the regex engines faster.
-        //   2) We don't need to look up all of the capture groups and do
-        //      replacements inside the replacement string. We just push it
-        //      at each match and be done with it.
-        if let Some(rep) = rep.no_expansion() {
-            let mut it = self.find_iter(text).enumerate().peekable();
-            if it.peek().is_none() {
-                return Cow::Borrowed(text);
-            }
-            let mut new = String::with_capacity(text.len());
-            let mut last_match = 0;
-            for (i, m) in it {
-                if limit > 0 && i >= limit {
-                    break
-                }
-                new.push_str(&text[last_match..m.start()]);
-                new.push_str(&rep);
-                last_match = m.end();
-            }
-            new.push_str(&text[last_match..]);
-            return Cow::Owned(new);
-        }
-
-        // The slower path, which we use if the replacement needs access to
-        // capture groups.
-        let mut it = self.captures_iter(text).enumerate().peekable();
-        if it.peek().is_none() {
-            return Cow::Borrowed(text);
-        }
-        let mut new = String::with_capacity(text.len());
-        let mut last_match = 0;
-        for (i, cap) in it {
-            if limit > 0 && i >= limit {
-                break
-            }
-            // unwrap on 0 is OK because captures only reports matches
-            let m = cap.get(0).unwrap();
-            new.push_str(&text[last_match..m.start()]);
-            rep.replace_append(&cap, &mut new);
-            last_match = m.end();
-        }
-        new.push_str(&text[last_match..]);
-        Cow::Owned(new)
-    }
-}
-
-/// Advanced or "lower level" search methods.
-impl Regex {
-    /// Returns the end location of a match in the text given.
-    ///
-    /// This method may have the same performance characteristics as
-    /// `is_match`, except it provides an end location for a match. In
-    /// particular, the location returned *may be shorter* than the proper end
-    /// of the leftmost-first match.
-    ///
-    /// # Example
-    ///
-    /// Typically, `a+` would match the entire first sequence of `a` in some
-    /// text, but `shortest_match` can give up as soon as it sees the first
-    /// `a`.
-    ///
-    /// ```rust
-    /// # extern crate regex; use regex::Regex;
-    /// # fn main() {
-    /// let text = "aaaaa";
-    /// let pos = Regex::new(r"a+").unwrap().shortest_match(text);
-    /// assert_eq!(pos, Some(1));
-    /// # }
-    /// ```
-    pub fn shortest_match(&self, text: &str) -> Option<usize> {
-        self.shortest_match_at(text, 0)
-    }
-
-    /// Returns the same as shortest_match, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn shortest_match_at(
-        &self,
-        text: &str,
-        start: usize,
-    ) -> Option<usize> {
-        self.0.searcher_str().shortest_match_at(text, start)
-    }
-
-    /// Returns the same as is_match, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn is_match_at(&self, text: &str, start: usize) -> bool {
-        self.shortest_match_at(text, start).is_some()
-    }
-
-    /// Returns the same as find, but starts the search at the given
-    /// offset.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn find_at<'t>(
-        &self,
-        text: &'t str,
-        start: usize,
-    ) -> Option<Match<'t>> {
-        self.0.searcher_str().find_at(text, start).map(|(s, e)| {
-            Match::new(text, s, e)
-        })
-    }
-
-    /// This is like `captures`, but uses
-    /// [`CaptureLocations`](struct.CaptureLocations.html)
-    /// instead of
-    /// [`Captures`](struct.Captures.html) in order to amortize allocations.
-    ///
-    /// To create a `CaptureLocations` value, use the
-    /// `Regex::capture_locations` method.
-    ///
-    /// This returns the overall match if this was successful, which is always
-    /// equivalence to the `0`th capture group.
-    pub fn captures_read<'t>(
-        &self,
-        locs: &mut CaptureLocations,
-        text: &'t str,
-    ) -> Option<Match<'t>> {
-        self.captures_read_at(locs, text, 0)
-    }
-
-    /// Returns the same as captures, but starts the search at the given
-    /// offset and populates the capture locations given.
-    ///
-    /// The significance of the starting point is that it takes the surrounding
-    /// context into consideration. For example, the `\A` anchor can only
-    /// match when `start == 0`.
-    pub fn captures_read_at<'t>(
-        &self,
-        locs: &mut CaptureLocations,
-        text: &'t str,
-        start: usize,
-    ) -> Option<Match<'t>> {
-        self.0
-            .searcher_str()
-            .captures_read_at(&mut locs.0, text, start)
-            .map(|(s, e)| Match::new(text, s, e))
-    }
-
-    /// An undocumented alias for `captures_read_at`.
-    ///
-    /// The `regex-capi` crate previously used this routine, so to avoid
-    /// breaking that crate, we continue to provide the name as an undocumented
-    /// alias.
-    #[doc(hidden)]
-    pub fn read_captures_at<'t>(
-        &self,
-        locs: &mut CaptureLocations,
-        text: &'t str,
-        start: usize,
-    ) -> Option<Match<'t>> {
-        self.captures_read_at(locs, text, start)
-    }
-}
-
-/// Auxiliary methods.
-impl Regex {
-    /// Returns the original string of this regex.
-    pub fn as_str(&self) -> &str {
-        &self.0.regex_strings()[0]
-    }
-
-    /// Returns an iterator over the capture names.
-    pub fn capture_names(&self) -> CaptureNames {
-        CaptureNames(self.0.capture_names().iter())
-    }
-
-    /// Returns the number of captures.
-    pub fn captures_len(&self) -> usize {
-        self.0.capture_names().len()
-    }
-
-    /// Returns an empty set of capture locations that can be reused in
-    /// multiple calls to `captures_read` or `captures_read_at`.
-    pub fn capture_locations(&self) -> CaptureLocations {
-        CaptureLocations(self.0.searcher_str().locations())
-    }
-
-    /// An alias for `capture_locations` to preserve backward compatibility.
-    ///
-    /// The `regex-capi` crate uses this method, so to avoid breaking that
-    /// crate, we continue to export it as an undocumented API.
-    #[doc(hidden)]
-    pub fn locations(&self) -> CaptureLocations {
-        CaptureLocations(self.0.searcher_str().locations())
-    }
-}
-
-/// An iterator over the names of all possible captures.
-///
-/// `None` indicates an unnamed capture; the first element (capture 0, the
-/// whole matched region) is always unnamed.
-///
-/// `'r` is the lifetime of the compiled regular expression.
-pub struct CaptureNames<'r>(::std::slice::Iter<'r, Option<String>>);
-
-impl<'r> Iterator for CaptureNames<'r> {
-    type Item = Option<&'r str>;
-
-    fn next(&mut self) -> Option<Option<&'r str>> {
-        self.0
-            .next()
-            .as_ref()
-            .map(|slot| slot.as_ref().map(|name| name.as_ref()))
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        self.0.size_hint()
-    }
-}
-
-/// Yields all substrings delimited by a regular expression match.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the string being split.
-pub struct Split<'r, 't> {
-    finder: Matches<'r, 't>,
-    last: usize,
-}
-
-impl<'r, 't> Iterator for Split<'r, 't> {
-    type Item = &'t str;
-
-    fn next(&mut self) -> Option<&'t str> {
-        let text = self.finder.0.text();
-        match self.finder.next() {
-            None => {
-                if self.last >= text.len() {
-                    None
-                } else {
-                    let s = &text[self.last..];
-                    self.last = text.len();
-                    Some(s)
-                }
-            }
-            Some(m) => {
-                let matched = &text[self.last..m.start()];
-                self.last = m.end();
-                Some(matched)
-            }
-        }
-    }
-}
-
-/// Yields at most `N` substrings delimited by a regular expression match.
-///
-/// The last substring will be whatever remains after splitting.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the string being split.
-pub struct SplitN<'r, 't> {
-    splits: Split<'r, 't>,
-    n: usize,
-}
-
-impl<'r, 't> Iterator for SplitN<'r, 't> {
-    type Item = &'t str;
-
-    fn next(&mut self) -> Option<&'t str> {
-        if self.n == 0 {
-            return None
-        }
-        self.n -= 1;
-        if self.n == 0 {
-            let text = self.splits.finder.0.text();
-            Some(&text[self.splits.last..])
-        } else {
-            self.splits.next()
-        }
-    }
-}
-
-/// CaptureLocations is a low level representation of the raw offsets of each
-/// submatch.
-///
-/// You can think of this as a lower level
-/// [`Captures`](struct.Captures.html), where this type does not support
-/// named capturing groups directly and it does not borrow the text that these
-/// offsets were matched on.
-///
-/// Primarily, this type is useful when using the lower level `Regex` APIs
-/// such as `read_captures`, which permits amortizing the allocation in which
-/// capture match locations are stored.
-///
-/// In order to build a value of this type, you'll need to call the
-/// `capture_locations` method on the `Regex` being used to execute the search.
-/// The value returned can then be reused in subsequent searches.
-#[derive(Clone, Debug)]
-pub struct CaptureLocations(re_trait::Locations);
-
-/// A type alias for `CaptureLocations` for backwards compatibility.
-///
-/// Previously, we exported `CaptureLocations` as `Locations` in an
-/// undocumented API. To prevent breaking that code (e.g., in `regex-capi`),
-/// we continue re-exporting the same undocumented API.
-#[doc(hidden)]
-pub type Locations = CaptureLocations;
-
-impl CaptureLocations {
-    /// Returns the start and end positions of the Nth capture group. Returns
-    /// `None` if `i` is not a valid capture group or if the capture group did
-    /// not match anything. The positions returned are *always* byte indices
-    /// with respect to the original string matched.
-    #[inline]
-    pub fn get(&self, i: usize) -> Option<(usize, usize)> {
-        self.0.pos(i)
-    }
-
-    /// Returns the total number of capturing groups.
-    ///
-    /// This is always at least `1` since every regex has at least `1`
-    /// capturing group that corresponds to the entire match.
-    #[inline]
-    pub fn len(&self) -> usize {
-        self.0.len()
-    }
-
-    /// An alias for the `get` method for backwards compatibility.
-    ///
-    /// Previously, we exported `get` as `pos` in an undocumented API. To
-    /// prevent breaking that code (e.g., in `regex-capi`), we continue
-    /// re-exporting the same undocumented API.
-    #[doc(hidden)]
-    #[inline]
-    pub fn pos(&self, i: usize) -> Option<(usize, usize)> {
-        self.get(i)
-    }
-}
-
-/// Captures represents a group of captured strings for a single match.
-///
-/// The 0th capture always corresponds to the entire match. Each subsequent
-/// index corresponds to the next capture group in the regex. If a capture
-/// group is named, then the matched string is *also* available via the `name`
-/// method. (Note that the 0th capture is always unnamed and so must be
-/// accessed with the `get` method.)
-///
-/// Positions returned from a capture group are always byte indices.
-///
-/// `'t` is the lifetime of the matched text.
-pub struct Captures<'t> {
-    text: &'t str,
-    locs: re_trait::Locations,
-    named_groups: Arc<HashMap<String, usize>>,
-}
-
-impl<'t> Captures<'t> {
-    /// Returns the match associated with the capture group at index `i`. If
-    /// `i` does not correspond to a capture group, or if the capture group
-    /// did not participate in the match, then `None` is returned.
-    ///
-    /// # Examples
-    ///
-    /// Get the text of the match with a default of an empty string if this
-    /// group didn't participate in the match:
-    ///
-    /// ```rust
-    /// # use regex::Regex;
-    /// let re = Regex::new(r"[a-z]+(?:([0-9]+)|([A-Z]+))").unwrap();
-    /// let caps = re.captures("abc123").unwrap();
-    ///
-    /// let text1 = caps.get(1).map_or("", |m| m.as_str());
-    /// let text2 = caps.get(2).map_or("", |m| m.as_str());
-    /// assert_eq!(text1, "123");
-    /// assert_eq!(text2, "");
-    /// ```
-    pub fn get(&self, i: usize) -> Option<Match<'t>> {
-        self.locs.pos(i).map(|(s, e)| Match::new(self.text, s, e))
-    }
-
-    /// Returns the match for the capture group named `name`. If `name` isn't a
-    /// valid capture group or didn't match anything, then `None` is returned.
-    pub fn name(&self, name: &str) -> Option<Match<'t>> {
-        self.named_groups.get(name).and_then(|&i| self.get(i))
-    }
-
-    /// An iterator that yields all capturing matches in the order in which
-    /// they appear in the regex. If a particular capture group didn't
-    /// participate in the match, then `None` is yielded for that capture.
-    ///
-    /// The first match always corresponds to the overall match of the regex.
-    pub fn iter<'c>(&'c self) -> SubCaptureMatches<'c, 't> {
-        SubCaptureMatches {
-            caps: self,
-            it: self.locs.iter(),
-        }
-    }
-
-    /// Expands all instances of `$name` in `replacement` to the corresponding
-    /// capture group `name`, and writes them to the `dst` buffer given.
-    ///
-    /// `name` may be an integer corresponding to the index of the
-    /// capture group (counted by order of opening parenthesis where `0` is the
-    /// entire match) or it can be a name (consisting of letters, digits or
-    /// underscores) corresponding to a named capture group.
-    ///
-    /// If `name` isn't a valid capture group (whether the name doesn't exist
-    /// or isn't a valid index), then it is replaced with the empty string.
-    ///
-    /// The longest possible name is used. e.g., `$1a` looks up the capture
-    /// group named `1a` and not the capture group at index `1`. To exert more
-    /// precise control over the name, use braces, e.g., `${1}a`.
-    ///
-    /// To write a literal `$` use `$$`.
-    pub fn expand(&self, replacement: &str, dst: &mut String) {
-        expand_str(self, replacement, dst)
-    }
-
-    /// Returns the number of captured groups.
-    ///
-    /// This is always at least `1`, since every regex has at least one capture
-    /// group that corresponds to the full match.
-    #[inline]
-    pub fn len(&self) -> usize {
-        self.locs.len()
-    }
-}
-
-impl<'t> fmt::Debug for Captures<'t> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_tuple("Captures").field(&CapturesDebug(self)).finish()
-    }
-}
-
-struct CapturesDebug<'c, 't: 'c>(&'c Captures<'t>);
-
-impl<'c, 't> fmt::Debug for CapturesDebug<'c, 't> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        // We'd like to show something nice here, even if it means an
-        // allocation to build a reverse index.
-        let slot_to_name: HashMap<&usize, &String> =
-            self.0.named_groups.iter().map(|(a, b)| (b, a)).collect();
-        let mut map = f.debug_map();
-        for (slot, m) in self.0.locs.iter().enumerate() {
-            let m = m.map(|(s, e)| &self.0.text[s..e]);
-            if let Some(name) = slot_to_name.get(&slot) {
-                map.entry(&name, &m);
-            } else {
-                map.entry(&slot, &m);
-            }
-        }
-        map.finish()
-    }
-}
-
-/// Get a group by index.
-///
-/// `'t` is the lifetime of the matched text.
-///
-/// The text can't outlive the `Captures` object if this method is
-/// used, because of how `Index` is defined (normally `a[i]` is part
-/// of `a` and can't outlive it); to do that, use `get()` instead.
-///
-/// # Panics
-///
-/// If there is no group at the given index.
-impl<'t> Index<usize> for Captures<'t> {
-    type Output = str;
-
-    fn index(&self, i: usize) -> &str {
-        self.get(i).map(|m| m.as_str())
-            .unwrap_or_else(|| panic!("no group at index '{}'", i))
-    }
-}
-
-/// Get a group by name.
-///
-/// `'t` is the lifetime of the matched text and `'i` is the lifetime
-/// of the group name (the index).
-///
-/// The text can't outlive the `Captures` object if this method is
-/// used, because of how `Index` is defined (normally `a[i]` is part
-/// of `a` and can't outlive it); to do that, use `name` instead.
-///
-/// # Panics
-///
-/// If there is no group named by the given value.
-impl<'t, 'i> Index<&'i str> for Captures<'t> {
-    type Output = str;
-
-    fn index<'a>(&'a self, name: &'i str) -> &'a str {
-        self.name(name).map(|m| m.as_str())
-            .unwrap_or_else(|| panic!("no group named '{}'", name))
-    }
-}
-
-/// An iterator that yields all capturing matches in the order in which they
-/// appear in the regex.
-///
-/// If a particular capture group didn't participate in the match, then `None`
-/// is yielded for that capture. The first match always corresponds to the
-/// overall match of the regex.
-///
-/// The lifetime `'c` corresponds to the lifetime of the `Captures` value, and
-/// the lifetime `'t` corresponds to the originally matched text.
-pub struct SubCaptureMatches<'c, 't: 'c> {
-    caps: &'c Captures<'t>,
-    it: SubCapturesPosIter<'c>,
-}
-
-impl<'c, 't> Iterator for SubCaptureMatches<'c, 't> {
-    type Item = Option<Match<'t>>;
-
-    fn next(&mut self) -> Option<Option<Match<'t>>> {
-        self.it.next()
-            .map(|cap| cap.map(|(s, e)| Match::new(self.caps.text, s, e)))
-    }
-}
-
-/// An iterator that yields all non-overlapping capture groups matching a
-/// particular regular expression.
-///
-/// The iterator stops when no more matches can be found.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the matched string.
-pub struct CaptureMatches<'r, 't>(re_trait::CaptureMatches<'t, ExecNoSyncStr<'r>>);
-
-impl<'r, 't> Iterator for CaptureMatches<'r, 't> {
-    type Item = Captures<'t>;
-
-    fn next(&mut self) -> Option<Captures<'t>> {
-        self.0.next().map(|locs| Captures {
-            text: self.0.text(),
-            locs: locs,
-            named_groups: self.0.regex().capture_name_idx().clone(),
-        })
-    }
-}
-
-/// An iterator over all non-overlapping matches for a particular string.
-///
-/// The iterator yields a `Match` value. The iterator stops when no more
-/// matches can be found.
-///
-/// `'r` is the lifetime of the compiled regular expression and `'t` is the
-/// lifetime of the matched string.
-pub struct Matches<'r, 't>(re_trait::Matches<'t, ExecNoSyncStr<'r>>);
-
-impl<'r, 't> Iterator for Matches<'r, 't> {
-    type Item = Match<'t>;
-
-    fn next(&mut self) -> Option<Match<'t>> {
-        let text = self.0.text();
-        self.0.next().map(|(s, e)| Match::new(text, s, e))
-    }
-}
-
-/// Replacer describes types that can be used to replace matches in a string.
-///
-/// In general, users of this crate shouldn't need to implement this trait,
-/// since implementations are already provided for `&str` and
-/// `FnMut(&Captures) -> String` (or any `FnMut(&Captures) -> T`
-/// where `T: AsRef<str>`), which covers most use cases.
-pub trait Replacer {
-    /// Appends text to `dst` to replace the current match.
-    ///
-    /// The current match is represented by `caps`, which is guaranteed to
-    /// have a match at capture group `0`.
-    ///
-    /// For example, a no-op replacement would be
-    /// `dst.extend(caps.get(0).unwrap().as_str())`.
-    fn replace_append(&mut self, caps: &Captures, dst: &mut String);
-
-    /// Return a fixed unchanging replacement string.
-    ///
-    /// When doing replacements, if access to `Captures` is not needed (e.g.,
-    /// the replacement byte string does not need `$` expansion), then it can
-    /// be beneficial to avoid finding sub-captures.
-    ///
-    /// In general, this is called once for every call to `replacen`.
-    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, str>> {
-        None
-    }
-
-    /// Return a `Replacer` that borrows and wraps this `Replacer`.
-    ///
-    /// This is useful when you want to take a generic `Replacer` (which might
-    /// not be cloneable) and use it without consuming it, so it can be used
-    /// more than once.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// use regex::{Regex, Replacer};
-    ///
-    /// fn replace_all_twice<R: Replacer>(
-    ///     re: Regex,
-    ///     src: &str,
-    ///     mut rep: R,
-    /// ) -> String {
-    ///     let dst = re.replace_all(src, rep.by_ref());
-    ///     let dst = re.replace_all(&dst, rep.by_ref());
-    ///     dst.into_owned()
-    /// }
-    /// ```
-    fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self> {
-        ReplacerRef(self)
-    }
-}
-
-/// By-reference adaptor for a `Replacer`
-///
-/// Returned by [`Replacer::by_ref`](trait.Replacer.html#method.by_ref).
-#[derive(Debug)]
-pub struct ReplacerRef<'a, R: ?Sized + 'a>(&'a mut R);
-
-impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R> {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut String) {
-        self.0.replace_append(caps, dst)
-    }
-    fn no_expansion(&mut self) -> Option<Cow<str>> {
-        self.0.no_expansion()
-    }
-}
-
-impl<'a> Replacer for &'a str {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut String) {
-        caps.expand(*self, dst);
-    }
-
-    fn no_expansion(&mut self) -> Option<Cow<str>> {
-        match memchr(b'$', self.as_bytes()) {
-            Some(_) => None,
-            None => Some(Cow::Borrowed(*self)),
-        }
-    }
-}
-
-impl<F, T> Replacer for F where F: FnMut(&Captures) -> T, T: AsRef<str> {
-    fn replace_append(&mut self, caps: &Captures, dst: &mut String) {
-        dst.push_str((*self)(caps).as_ref());
-    }
-}
-
-/// `NoExpand` indicates literal string replacement.
-///
-/// It can be used with `replace` and `replace_all` to do a literal string
-/// replacement without expanding `$name` to their corresponding capture
-/// groups. This can be both convenient (to avoid escaping `$`, for example)
-/// and performant (since capture groups don't need to be found).
-///
-/// `'t` is the lifetime of the literal text.
-pub struct NoExpand<'t>(pub &'t str);
-
-impl<'t> Replacer for NoExpand<'t> {
-    fn replace_append(&mut self, _: &Captures, dst: &mut String) {
-        dst.push_str(self.0);
-    }
-
-    fn no_expansion(&mut self) -> Option<Cow<str>> {
-        Some(Cow::Borrowed(self.0))
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/sparse.rs.html b/target/doc/src/regex/sparse.rs.html deleted file mode 100644 index 2b91eb4..0000000 --- a/target/doc/src/regex/sparse.rs.html +++ /dev/null @@ -1,153 +0,0 @@ -sparse.rs.html -- source
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-use std::ops::Deref;
-use std::slice;
-
-/// A sparse set used for representing ordered NFA states.
-///
-/// This supports constant time addition and membership testing. Clearing an
-/// entire set can also be done in constant time. Iteration yields elements
-/// in the order in which they were inserted.
-///
-/// The data structure is based on: http://research.swtch.com/sparse
-/// Note though that we don't actually use uninitialized memory. We generally
-/// reuse allocations, so the initial allocation cost is bareable. However,
-/// its other properties listed above are extremely useful.
-#[derive(Clone, Debug)]
-pub struct SparseSet {
-    /// Dense contains the instruction pointers in the order in which they
-    /// were inserted.
-    dense: Vec<usize>,
-    /// Sparse maps instruction pointers to their location in dense.
-    ///
-    /// An instruction pointer is in the set if and only if
-    /// sparse[ip] < dense.len() && ip == dense[sparse[ip]].
-    sparse: Box<[usize]>,
-}
-
-impl SparseSet {
-    pub fn new(size: usize) -> SparseSet {
-        SparseSet {
-            dense: Vec::with_capacity(size),
-            sparse: vec![0; size].into_boxed_slice(),
-        }
-    }
-
-    pub fn len(&self) -> usize {
-        self.dense.len()
-    }
-
-    pub fn is_empty(&self) -> bool {
-        self.dense.is_empty()
-    }
-
-    pub fn capacity(&self) -> usize {
-        self.dense.capacity()
-    }
-
-    pub fn insert(&mut self, value: usize) {
-        let i = self.len();
-        assert!(i < self.capacity());
-        self.dense.push(value);
-        self.sparse[value] = i;
-    }
-
-    pub fn contains(&self, value: usize) -> bool {
-        let i = self.sparse[value];
-        self.dense.get(i) == Some(&value)
-    }
-
-    pub fn clear(&mut self) {
-        self.dense.clear();
-    }
-}
-
-impl Deref for SparseSet {
-    type Target = [usize];
-
-    fn deref(&self) -> &Self::Target {
-        &self.dense
-    }
-}
-
-impl<'a> IntoIterator for &'a SparseSet {
-    type Item = &'a usize;
-    type IntoIter = slice::Iter<'a, usize>;
-    fn into_iter(self) -> Self::IntoIter { self.iter() }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/utf8.rs.html b/target/doc/src/regex/utf8.rs.html deleted file mode 100644 index 70e75c3..0000000 --- a/target/doc/src/regex/utf8.rs.html +++ /dev/null @@ -1,521 +0,0 @@ -utf8.rs.html -- source
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-/// A few elementary UTF-8 encoding and decoding functions used by the matching
-/// engines.
-///
-/// In an ideal world, the matching engines operate on `&str` and we can just
-/// lean on the standard library for all our UTF-8 needs. However, to support
-/// byte based regexes (that can match on arbitrary bytes which may contain
-/// UTF-8), we need to be capable of searching and decoding UTF-8 on a `&[u8]`.
-/// The standard library doesn't really recognize this use case, so we have
-/// to build it out ourselves.
-///
-/// Should this be factored out into a separate crate? It seems independently
-/// useful. There are other crates that already exist (e.g., `utf-8`) that have
-/// overlapping use cases. Not sure what to do.
-
-use std::char;
-
-const TAG_CONT: u8 = 0b1000_0000;
-const TAG_TWO: u8 = 0b1100_0000;
-const TAG_THREE: u8 = 0b1110_0000;
-const TAG_FOUR: u8 = 0b1111_0000;
-
-/// Returns the smallest possible index of the next valid UTF-8 sequence
-/// starting after `i`.
-pub fn next_utf8(text: &[u8], i: usize) -> usize {
-    let b = match text.get(i) {
-        None => return i + 1,
-        Some(&b) => b,
-    };
-    let inc = if b <= 0x7F {
-        1
-    } else if b <= 0b110_11111 {
-        2
-    } else if b <= 0b1110_1111 {
-        3
-    } else {
-        4
-    };
-    i + inc
-}
-
-/// Decode a single UTF-8 sequence into a single Unicode codepoint from `src`.
-///
-/// If no valid UTF-8 sequence could be found, then `None` is returned.
-/// Otherwise, the decoded codepoint and the number of bytes read is returned.
-/// The number of bytes read (for a valid UTF-8 sequence) is guaranteed to be
-/// 1, 2, 3 or 4.
-///
-/// Note that a UTF-8 sequence is invalid if it is incorrect UTF-8, encodes a
-/// codepoint that is out of range (surrogate codepoints are out of range) or
-/// is not the shortest possible UTF-8 sequence for that codepoint.
-#[inline]
-pub fn decode_utf8(src: &[u8]) -> Option<(char, usize)> {
-    let b0 = match src.get(0) {
-        None => return None,
-        Some(&b) if b <= 0x7F => return Some((b as char, 1)),
-        Some(&b) => b,
-    };
-    match b0 {
-        0b110_00000 ..= 0b110_11111 => {
-            if src.len() < 2 {
-                return None;
-            }
-            let b1 = src[1];
-            if 0b11_000000 & b1 != TAG_CONT {
-                return None;
-            }
-            let cp = ((b0 & !TAG_TWO) as u32) << 6
-                     | ((b1 & !TAG_CONT) as u32);
-            match cp {
-                0x80 ..= 0x7FF => char::from_u32(cp).map(|cp| (cp, 2)),
-                _ => None,
-            }
-        }
-        0b1110_0000 ..= 0b1110_1111 => {
-            if src.len() < 3 {
-                return None;
-            }
-            let (b1, b2) = (src[1], src[2]);
-            if 0b11_000000 & b1 != TAG_CONT {
-                return None;
-            }
-            if 0b11_000000 & b2 != TAG_CONT {
-                return None;
-            }
-            let cp = ((b0 & !TAG_THREE) as u32) << 12
-                     | ((b1 & !TAG_CONT) as u32) << 6
-                     | ((b2 & !TAG_CONT) as u32);
-            match cp {
-                // char::from_u32 will disallow surrogate codepoints.
-                0x800 ..= 0xFFFF => char::from_u32(cp).map(|cp| (cp, 3)),
-                _ => None,
-            }
-        }
-        0b11110_000 ..= 0b11110_111 => {
-            if src.len() < 4 {
-                return None;
-            }
-            let (b1, b2, b3) = (src[1], src[2], src[3]);
-            if 0b11_000000 & b1 != TAG_CONT {
-                return None;
-            }
-            if 0b11_000000 & b2 != TAG_CONT {
-                return None;
-            }
-            if 0b11_000000 & b3 != TAG_CONT {
-                return None;
-            }
-            let cp = ((b0 & !TAG_FOUR) as u32) << 18
-                     | ((b1 & !TAG_CONT) as u32) << 12
-                     | ((b2 & !TAG_CONT) as u32) << 6
-                     | ((b3 & !TAG_CONT) as u32);
-            match cp {
-                0x10000 ..= 0x10FFFF => char::from_u32(cp).map(|cp| (cp, 4)),
-                _ => None,
-            }
-        }
-        _ => None,
-    }
-}
-
-/// Like `decode_utf8`, but decodes the last UTF-8 sequence in `src` instead
-/// of the first.
-pub fn decode_last_utf8(src: &[u8]) -> Option<(char, usize)> {
-    if src.is_empty() {
-        return None;
-    }
-    let mut start = src.len() - 1;
-    if src[start] <= 0x7F {
-        return Some((src[start] as char, 1));
-    }
-    while start > src.len().saturating_sub(4) {
-        start -= 1;
-        if is_start_byte(src[start]) {
-            break;
-        }
-    }
-    match decode_utf8(&src[start..]) {
-        None => None,
-        Some((_, n)) if n < src.len() - start => None,
-        Some((cp, n)) => Some((cp, n)),
-    }
-}
-
-fn is_start_byte(b: u8) -> bool {
-    b & 0b11_000000 != 0b1_0000000
-}
-
-#[cfg(test)]
-mod tests {
-    use std::str;
-
-    use quickcheck::quickcheck;
-
-    use super::{
-        TAG_CONT, TAG_TWO, TAG_THREE, TAG_FOUR,
-        decode_utf8, decode_last_utf8,
-    };
-
-    #[test]
-    fn prop_roundtrip() {
-        fn p(given_cp: char) -> bool {
-            let mut tmp = [0; 4];
-            let encoded_len = given_cp.encode_utf8(&mut tmp).len();
-            let (got_cp, got_len) = decode_utf8(&tmp[..encoded_len]).unwrap();
-            encoded_len == got_len && given_cp == got_cp
-        }
-        quickcheck(p as fn(char) -> bool)
-    }
-
-    #[test]
-    fn prop_roundtrip_last() {
-        fn p(given_cp: char) -> bool {
-            let mut tmp = [0; 4];
-            let encoded_len = given_cp.encode_utf8(&mut tmp).len();
-            let (got_cp, got_len) =
-                decode_last_utf8(&tmp[..encoded_len]).unwrap();
-            encoded_len == got_len && given_cp == got_cp
-        }
-        quickcheck(p as fn(char) -> bool)
-    }
-
-    #[test]
-    fn prop_encode_matches_std() {
-        fn p(cp: char) -> bool {
-            let mut got = [0; 4];
-            let n = cp.encode_utf8(&mut got).len();
-            let expected = cp.to_string();
-            &got[..n] == expected.as_bytes()
-        }
-        quickcheck(p as fn(char) -> bool)
-    }
-
-    #[test]
-    fn prop_decode_matches_std() {
-        fn p(given_cp: char) -> bool {
-            let mut tmp = [0; 4];
-            let n = given_cp.encode_utf8(&mut tmp).len();
-            let (got_cp, _) = decode_utf8(&tmp[..n]).unwrap();
-            let expected_cp =
-                str::from_utf8(&tmp[..n]).unwrap().chars().next().unwrap();
-            got_cp == expected_cp
-        }
-        quickcheck(p as fn(char) -> bool)
-    }
-
-    #[test]
-    fn prop_decode_last_matches_std() {
-        fn p(given_cp: char) -> bool {
-            let mut tmp = [0; 4];
-            let n = given_cp.encode_utf8(&mut tmp).len();
-            let (got_cp, _) = decode_last_utf8(&tmp[..n]).unwrap();
-            let expected_cp =
-                str::from_utf8(&tmp[..n]).unwrap()
-                    .chars().rev().next().unwrap();
-            got_cp == expected_cp
-        }
-        quickcheck(p as fn(char) -> bool)
-    }
-
-    #[test]
-    fn reject_invalid() {
-        // Invalid start byte
-        assert_eq!(decode_utf8(&[0xFF]), None);
-        // Surrogate pair
-        assert_eq!(decode_utf8(&[0xED, 0xA0, 0x81]), None);
-        // Invalid continuation byte.
-        assert_eq!(decode_utf8(&[0xD4, 0xC2]), None);
-        // Bad lengths
-        assert_eq!(decode_utf8(&[0xC3]), None); // 2 bytes
-        assert_eq!(decode_utf8(&[0xEF, 0xBF]), None); // 3 bytes
-        assert_eq!(decode_utf8(&[0xF4, 0x8F, 0xBF]), None); // 4 bytes
-        // Not a minimal UTF-8 sequence
-        assert_eq!(decode_utf8(&[TAG_TWO, TAG_CONT | b'a']), None);
-        assert_eq!(decode_utf8(&[TAG_THREE, TAG_CONT, TAG_CONT | b'a']), None);
-        assert_eq!(decode_utf8(&[
-            TAG_FOUR, TAG_CONT, TAG_CONT, TAG_CONT | b'a',
-        ]), None);
-    }
-
-    #[test]
-    fn reject_invalid_last() {
-        // Invalid start byte
-        assert_eq!(decode_last_utf8(&[0xFF]), None);
-        // Surrogate pair
-        assert_eq!(decode_last_utf8(&[0xED, 0xA0, 0x81]), None);
-        // Bad lengths
-        assert_eq!(decode_last_utf8(&[0xC3]), None); // 2 bytes
-        assert_eq!(decode_last_utf8(&[0xEF, 0xBF]), None); // 3 bytes
-        assert_eq!(decode_last_utf8(&[0xF4, 0x8F, 0xBF]), None); // 4 bytes
-        // Not a minimal UTF-8 sequence
-        assert_eq!(decode_last_utf8(&[TAG_TWO, TAG_CONT | b'a']), None);
-        assert_eq!(decode_last_utf8(&[
-            TAG_THREE, TAG_CONT, TAG_CONT | b'a',
-        ]), None);
-        assert_eq!(decode_last_utf8(&[
-            TAG_FOUR, TAG_CONT, TAG_CONT, TAG_CONT | b'a',
-        ]), None);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/vector/avx2.rs.html b/target/doc/src/regex/vector/avx2.rs.html deleted file mode 100644 index 73356a8..0000000 --- a/target/doc/src/regex/vector/avx2.rs.html +++ /dev/null @@ -1,377 +0,0 @@ -avx2.rs.html -- source
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-#![allow(dead_code)]
-
-use std::arch::x86_64::*;
-use std::fmt;
-use std::mem;
-
-#[derive(Clone, Copy, Debug)]
-pub struct AVX2VectorBuilder(());
-
-impl AVX2VectorBuilder {
-    pub fn new() -> Option<AVX2VectorBuilder> {
-        if is_x86_feature_detected!("avx2") {
-            Some(AVX2VectorBuilder(()))
-        } else {
-            None
-        }
-    }
-
-    /// Create a new u8x32 AVX2 vector where all of the bytes are set to
-    /// the given value.
-    #[inline]
-    pub fn u8x32_splat(self, n: u8) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe { u8x32::splat(n) }
-    }
-
-    /// Load 32 bytes from the given slice, with bounds checks.
-    #[inline]
-    pub fn u8x32_load_unaligned(self, slice: &[u8]) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe { u8x32::load_unaligned(slice) }
-    }
-
-    /// Load 32 bytes from the given slice, without bounds checks.
-    #[inline]
-    pub unsafe fn u8x32_load_unchecked_unaligned(self, slice: &[u8]) -> u8x32 {
-        // Safe because we know AVX2 is enabled, but still unsafe
-        // because we aren't doing bounds checks.
-        u8x32::load_unchecked_unaligned(slice)
-    }
-
-    /// Load 32 bytes from the given slice, with bound and alignment checks.
-    #[inline]
-    pub fn u8x32_load(self, slice: &[u8]) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe { u8x32::load(slice) }
-    }
-
-    /// Load 32 bytes from the given slice, without bound or alignment checks.
-    #[inline]
-    pub unsafe fn u8x32_load_unchecked(self, slice: &[u8]) -> u8x32 {
-        // Safe because we know AVX2 is enabled, but still unsafe
-        // because we aren't doing bounds checks.
-        u8x32::load_unchecked(slice)
-    }
-}
-
-#[derive(Clone, Copy)]
-#[allow(non_camel_case_types)]
-#[repr(transparent)]
-pub struct u8x32 {
-    vector: __m256i
-}
-
-impl u8x32 {
-    #[inline]
-    unsafe fn splat(n: u8) -> u8x32 {
-        u8x32 { vector: _mm256_set1_epi8(n as i8) }
-    }
-
-    #[inline]
-    unsafe fn load_unaligned(slice: &[u8]) -> u8x32 {
-        assert!(slice.len() >= 32);
-        u8x32::load_unchecked_unaligned(slice)
-    }
-
-    #[inline]
-    unsafe fn load_unchecked_unaligned(slice: &[u8]) -> u8x32 {
-        let p = slice.as_ptr() as *const u8 as *const __m256i;
-        u8x32 { vector: _mm256_loadu_si256(p) }
-    }
-
-    #[inline]
-    unsafe fn load(slice: &[u8]) -> u8x32 {
-        assert!(slice.len() >= 32);
-        assert!(slice.as_ptr() as usize % 32 == 0);
-        u8x32::load_unchecked(slice)
-    }
-
-    #[inline]
-    unsafe fn load_unchecked(slice: &[u8]) -> u8x32 {
-        let p = slice.as_ptr() as *const u8 as *const __m256i;
-        u8x32 { vector: _mm256_load_si256(p) }
-    }
-
-    #[inline]
-    pub fn shuffle(self, indices: u8x32) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            u8x32 { vector: _mm256_shuffle_epi8(self.vector, indices.vector) }
-        }
-    }
-
-    #[inline]
-    pub fn ne(self, other: u8x32) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            let boolv = _mm256_cmpeq_epi8(self.vector, other.vector);
-            let ones = _mm256_set1_epi8(0xFF as u8 as i8);
-            u8x32 { vector: _mm256_andnot_si256(boolv, ones) }
-        }
-    }
-
-    #[inline]
-    pub fn and(self, other: u8x32) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            u8x32 { vector: _mm256_and_si256(self.vector, other.vector) }
-        }
-    }
-
-    #[inline]
-    pub fn movemask(self) -> u32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            _mm256_movemask_epi8(self.vector) as u32
-        }
-    }
-
-    #[inline]
-    pub fn alignr_14(self, other: u8x32) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            // Credit goes to jneem for figuring this out:
-            // https://github.com/jneem/teddy/blob/9ab5e899ad6ef6911aecd3cf1033f1abe6e1f66c/src/x86/teddy_simd.rs#L145-L184
-            //
-            // TL;DR avx2's PALIGNR instruction is actually just two 128-bit
-            // PALIGNR instructions, which is not what we want, so we need to
-            // do some extra shuffling.
-            let v = _mm256_permute2x128_si256(other.vector, self.vector, 0x21);
-            let v = _mm256_alignr_epi8(self.vector, v, 14);
-            u8x32 { vector: v }
-        }
-    }
-
-    #[inline]
-    pub fn alignr_15(self, other: u8x32) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            // Credit goes to jneem for figuring this out:
-            // https://github.com/jneem/teddy/blob/9ab5e899ad6ef6911aecd3cf1033f1abe6e1f66c/src/x86/teddy_simd.rs#L145-L184
-            //
-            // TL;DR avx2's PALIGNR instruction is actually just two 128-bit
-            // PALIGNR instructions, which is not what we want, so we need to
-            // do some extra shuffling.
-            let v = _mm256_permute2x128_si256(other.vector, self.vector, 0x21);
-            let v = _mm256_alignr_epi8(self.vector, v, 15);
-            u8x32 { vector: v }
-        }
-    }
-
-    #[inline]
-    pub fn bit_shift_right_4(self) -> u8x32 {
-        // Safe because we know AVX2 is enabled.
-        unsafe {
-            u8x32 { vector: _mm256_srli_epi16(self.vector, 4) }
-        }
-    }
-
-    #[inline]
-    pub fn bytes(self) -> [u8; 32] {
-        // Safe because __m256i and [u8; 32] are layout compatible
-        unsafe { mem::transmute(self) }
-    }
-
-    #[inline]
-    pub fn replace_bytes(&mut self, value: [u8; 32]) {
-        // Safe because __m256i and [u8; 32] are layout compatible
-        self.vector = unsafe { mem::transmute(value) };
-    }
-}
-
-impl fmt::Debug for u8x32 {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        self.bytes().fmt(f)
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/vector/mod.rs.html b/target/doc/src/regex/vector/mod.rs.html deleted file mode 100644 index 474fa29..0000000 --- a/target/doc/src/regex/vector/mod.rs.html +++ /dev/null @@ -1,11 +0,0 @@ -mod.rs.html -- source
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-#[cfg(target_arch = "x86_64")]
-pub mod avx2;
-#[cfg(target_arch = "x86_64")]
-pub mod ssse3;
-
-
\ No newline at end of file diff --git a/target/doc/src/regex/vector/ssse3.rs.html b/target/doc/src/regex/vector/ssse3.rs.html deleted file mode 100644 index 7447a9d..0000000 --- a/target/doc/src/regex/vector/ssse3.rs.html +++ /dev/null @@ -1,387 +0,0 @@ -ssse3.rs.html -- source
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-#![allow(dead_code)]
-
-use std::arch::x86_64::*;
-use std::fmt;
-use std::mem;
-
-/// A builder for SSSE3 empowered vectors.
-///
-/// This builder represents a receipt that the SSSE3 target feature is enabled
-/// on the currently running CPU. Namely, the only way to get a value of this
-/// type is if the SSSE3 feature is enabled.
-///
-/// This type can then be used to build vector types that use SSSE3 features
-/// safely.
-#[derive(Clone, Copy, Debug)]
-pub struct SSSE3VectorBuilder(());
-
-impl SSSE3VectorBuilder {
-    /// Create a new SSSE3 vector builder.
-    ///
-    /// If the SSSE3 feature is not enabled for the current target, then
-    /// return `None`.
-    pub fn new() -> Option<SSSE3VectorBuilder> {
-        if is_x86_feature_detected!("ssse3") {
-            Some(SSSE3VectorBuilder(()))
-        } else {
-            None
-        }
-    }
-
-    /// Create a new u8x16 SSSE3 vector where all of the bytes are set to
-    /// the given value.
-    #[inline]
-    pub fn u8x16_splat(self, n: u8) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe { u8x16::splat(n) }
-    }
-
-    /// Load 16 bytes from the given slice, with bounds checks.
-    #[inline]
-    pub fn u8x16_load_unaligned(self, slice: &[u8]) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe { u8x16::load_unaligned(slice) }
-    }
-
-    /// Load 16 bytes from the given slice, without bounds checks.
-    #[inline]
-    pub unsafe fn u8x16_load_unchecked_unaligned(self, slice: &[u8]) -> u8x16 {
-        // Safe because we know SSSE3 is enabled, but still unsafe
-        // because we aren't doing bounds checks.
-        u8x16::load_unchecked_unaligned(slice)
-    }
-
-    /// Load 16 bytes from the given slice, with bound and alignment checks.
-    #[inline]
-    pub fn u8x16_load(self, slice: &[u8]) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe { u8x16::load(slice) }
-    }
-
-    /// Load 16 bytes from the given slice, without bound or alignment checks.
-    #[inline]
-    pub unsafe fn u8x16_load_unchecked(self, slice: &[u8]) -> u8x16 {
-        // Safe because we know SSSE3 is enabled, but still unsafe
-        // because we aren't doing bounds checks.
-        u8x16::load_unchecked(slice)
-    }
-}
-
-/// A u8x16 is a 128-bit vector with 16 single-byte lanes.
-///
-/// It provides a safe API that uses only SSE2 or SSSE3 instructions.
-/// The only way for callers to construct a value of this type is
-/// through the SSSE3VectorBuilder type, and the only way to get a
-/// SSSE3VectorBuilder is if the `ssse3` target feature is enabled.
-///
-/// Note that generally speaking, all uses of this type should get
-/// inlined, otherwise you probably have a performance bug.
-#[derive(Clone, Copy)]
-#[allow(non_camel_case_types)]
-#[repr(transparent)]
-pub struct u8x16 {
-    vector: __m128i
-}
-
-impl u8x16 {
-    #[inline]
-    unsafe fn splat(n: u8) -> u8x16 {
-        u8x16 { vector: _mm_set1_epi8(n as i8) }
-    }
-
-    #[inline]
-    unsafe fn load_unaligned(slice: &[u8]) -> u8x16 {
-        assert!(slice.len() >= 16);
-        u8x16::load_unchecked(slice)
-    }
-
-    #[inline]
-    unsafe fn load_unchecked_unaligned(slice: &[u8]) -> u8x16 {
-        let v = _mm_loadu_si128(slice.as_ptr() as *const u8 as *const __m128i);
-        u8x16 { vector: v }
-    }
-
-    #[inline]
-    unsafe fn load(slice: &[u8]) -> u8x16 {
-        assert!(slice.len() >= 16);
-        assert!(slice.as_ptr() as usize % 16 == 0);
-        u8x16::load_unchecked(slice)
-    }
-
-    #[inline]
-    unsafe fn load_unchecked(slice: &[u8]) -> u8x16 {
-        let v = _mm_load_si128(slice.as_ptr() as *const u8 as *const __m128i);
-        u8x16 { vector: v }
-    }
-
-    #[inline]
-    pub fn shuffle(self, indices: u8x16) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            u8x16 { vector: _mm_shuffle_epi8(self.vector, indices.vector) }
-        }
-    }
-
-    #[inline]
-    pub fn ne(self, other: u8x16) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            let boolv = _mm_cmpeq_epi8(self.vector, other.vector);
-            let ones = _mm_set1_epi8(0xFF as u8 as i8);
-            u8x16 { vector: _mm_andnot_si128(boolv, ones) }
-        }
-    }
-
-    #[inline]
-    pub fn and(self, other: u8x16) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            u8x16 { vector: _mm_and_si128(self.vector, other.vector) }
-        }
-    }
-
-    #[inline]
-    pub fn movemask(self) -> u32 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            _mm_movemask_epi8(self.vector) as u32
-        }
-    }
-
-    #[inline]
-    pub fn alignr_14(self, other: u8x16) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            u8x16 { vector: _mm_alignr_epi8(self.vector, other.vector, 14) }
-        }
-    }
-
-    #[inline]
-    pub fn alignr_15(self, other: u8x16) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            u8x16 { vector: _mm_alignr_epi8(self.vector, other.vector, 15) }
-        }
-    }
-
-    #[inline]
-    pub fn bit_shift_right_4(self) -> u8x16 {
-        // Safe because we know SSSE3 is enabled.
-        unsafe {
-            u8x16 { vector: _mm_srli_epi16(self.vector, 4) }
-        }
-    }
-
-    #[inline]
-    pub fn bytes(self) -> [u8; 16] {
-        // Safe because __m128i and [u8; 16] are layout compatible
-        unsafe { mem::transmute(self) }
-    }
-
-    #[inline]
-    pub fn replace_bytes(&mut self, value: [u8; 16]) {
-        // Safe because __m128i and [u8; 16] are layout compatible
-        self.vector = unsafe { mem::transmute(value) };
-    }
-}
-
-impl fmt::Debug for u8x16 {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        self.bytes().fmt(f)
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/ast/mod.rs.html b/target/doc/src/regex_syntax/ast/mod.rs.html deleted file mode 100644 index 2bfadc9..0000000 --- a/target/doc/src/regex_syntax/ast/mod.rs.html +++ /dev/null @@ -1,3051 +0,0 @@ -mod.rs.html -- source
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-
-// Copyright 2017 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-Defines an abstract syntax for regular expressions.
-*/
-
-use std::cmp::Ordering;
-use std::error;
-use std::fmt;
-
-pub use ast::visitor::{Visitor, visit};
-
-pub mod parse;
-pub mod print;
-mod visitor;
-
-/// An error that occurred while parsing a regular expression into an abstract
-/// syntax tree.
-///
-/// Note that note all ASTs represents a valid regular expression. For example,
-/// an AST is constructed without error for `\p{Quux}`, but `Quux` is not a
-/// valid Unicode property name. That particular error is reported when
-/// translating an AST to the high-level intermediate representation (`HIR`).
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Error {
-    /// The kind of error.
-    kind: ErrorKind,
-    /// The original pattern that the parser generated the error from. Every
-    /// span in an error is a valid range into this string.
-    pattern: String,
-    /// The span of this error.
-    span: Span,
-}
-
-impl Error {
-    /// Return the type of this error.
-    pub fn kind(&self) -> &ErrorKind {
-        &self.kind
-    }
-
-    /// The original pattern string in which this error occurred.
-    ///
-    /// Every span reported by this error is reported in terms of this string.
-    pub fn pattern(&self) -> &str {
-        &self.pattern
-    }
-
-    /// Return the span at which this error occurred.
-    pub fn span(&self) -> &Span {
-        &self.span
-    }
-
-    /// Return an auxiliary span. This span exists only for some errors that
-    /// benefit from being able to point to two locations in the original
-    /// regular expression. For example, "duplicate" errors will have the
-    /// main error position set to the duplicate occurrence while its
-    /// auxiliary span will be set to the initial occurrence.
-    pub fn auxiliary_span(&self) -> Option<&Span> {
-        use self::ErrorKind::*;
-        match self.kind {
-            FlagDuplicate { ref original } => Some(original),
-            FlagRepeatedNegation { ref original, .. } => Some(original),
-            GroupNameDuplicate { ref original, .. } => Some(original),
-            _ => None,
-        }
-    }
-}
-
-/// The type of an error that occurred while building an AST.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ErrorKind {
-    /// The capturing group limit was exceeded.
-    ///
-    /// Note that this represents a limit on the total number of capturing
-    /// groups in a regex and not necessarily the number of nested capturing
-    /// groups. That is, the nest limit can be low and it is still possible for
-    /// this error to occur.
-    CaptureLimitExceeded,
-    /// An invalid escape sequence was found in a character class set.
-    ClassEscapeInvalid,
-    /// An invalid character class range was found. An invalid range is any
-    /// range where the start is greater than the end.
-    ClassRangeInvalid,
-    /// An invalid range boundary was found in a character class. Range
-    /// boundaries must be a single literal codepoint, but this error indicates
-    /// that something else was found, such as a nested class.
-    ClassRangeLiteral,
-    /// An opening `[` was found with no corresponding closing `]`.
-    ClassUnclosed,
-    /// Note that this error variant is no longer used. Namely, a decimal
-    /// number can only appear as a repetition quantifier. When the number
-    /// in a repetition quantifier is empty, then it gets its own specialized
-    /// error, `RepetitionCountDecimalEmpty`.
-    DecimalEmpty,
-    /// An invalid decimal number was given where one was expected.
-    DecimalInvalid,
-    /// A bracketed hex literal was empty.
-    EscapeHexEmpty,
-    /// A bracketed hex literal did not correspond to a Unicode scalar value.
-    EscapeHexInvalid,
-    /// An invalid hexadecimal digit was found.
-    EscapeHexInvalidDigit,
-    /// EOF was found before an escape sequence was completed.
-    EscapeUnexpectedEof,
-    /// An unrecognized escape sequence.
-    EscapeUnrecognized,
-    /// A dangling negation was used when setting flags, e.g., `i-`.
-    FlagDanglingNegation,
-    /// A flag was used twice, e.g., `i-i`.
-    FlagDuplicate {
-        /// The position of the original flag. The error position
-        /// points to the duplicate flag.
-        original: Span,
-    },
-    /// The negation operator was used twice, e.g., `-i-s`.
-    FlagRepeatedNegation {
-        /// The position of the original negation operator. The error position
-        /// points to the duplicate negation operator.
-        original: Span,
-    },
-    /// Expected a flag but got EOF, e.g., `(?`.
-    FlagUnexpectedEof,
-    /// Unrecognized flag, e.g., `a`.
-    FlagUnrecognized,
-    /// A duplicate capture name was found.
-    GroupNameDuplicate {
-        /// The position of the initial occurrence of the capture name. The
-        /// error position itself points to the duplicate occurrence.
-        original: Span,
-    },
-    /// A capture group name is empty, e.g., `(?P<>abc)`.
-    GroupNameEmpty,
-    /// An invalid character was seen for a capture group name. This includes
-    /// errors where the first character is a digit (even though subsequent
-    /// characters are allowed to be digits).
-    GroupNameInvalid,
-    /// A closing `>` could not be found for a capture group name.
-    GroupNameUnexpectedEof,
-    /// An unclosed group, e.g., `(ab`.
-    ///
-    /// The span of this error corresponds to the unclosed parenthesis.
-    GroupUnclosed,
-    /// An unopened group, e.g., `ab)`.
-    GroupUnopened,
-    /// The nest limit was exceeded. The limit stored here is the limit
-    /// configured in the parser.
-    NestLimitExceeded(u32),
-    /// The range provided in a counted repetition operator is invalid. The
-    /// range is invalid if the start is greater than the end.
-    RepetitionCountInvalid,
-    /// An opening `{` was not followed by a valid decimal value.
-    /// For example, `x{}` or `x{]}` would fail.
-    RepetitionCountDecimalEmpty,
-    /// An opening `{` was found with no corresponding closing `}`.
-    RepetitionCountUnclosed,
-    /// A repetition operator was applied to a missing sub-expression. This
-    /// occurs, for example, in the regex consisting of just a `*` or even
-    /// `(?i)*`. It is, however, possible to create a repetition operating on
-    /// an empty sub-expression. For example, `()*` is still considered valid.
-    RepetitionMissing,
-    /// When octal support is disabled, this error is produced when an octal
-    /// escape is used. The octal escape is assumed to be an invocation of
-    /// a backreference, which is the common case.
-    UnsupportedBackreference,
-    /// When syntax similar to PCRE's look-around is used, this error is
-    /// returned. Some example syntaxes that are rejected include, but are
-    /// not necessarily limited to, `(?=re)`, `(?!re)`, `(?<=re)` and
-    /// `(?<!re)`. Note that all of these syntaxes are otherwise invalid; this
-    /// error is used to improve the user experience.
-    UnsupportedLookAround,
-    /// Hints that destructuring should not be exhaustive.
-    ///
-    /// This enum may grow additional variants, so this makes sure clients
-    /// don't count on exhaustive matching. (Otherwise, adding a new variant
-    /// could break existing code.)
-    #[doc(hidden)]
-    __Nonexhaustive,
-}
-
-impl error::Error for Error {
-    fn description(&self) -> &str {
-        use self::ErrorKind::*;
-        match self.kind {
-            CaptureLimitExceeded => "capture group limit exceeded",
-            ClassEscapeInvalid => "invalid escape sequence in character class",
-            ClassRangeInvalid => "invalid character class range",
-            ClassRangeLiteral => "invalid range boundary, must be a literal",
-            ClassUnclosed => "unclosed character class",
-            DecimalEmpty => "empty decimal literal",
-            DecimalInvalid => "invalid decimal literal",
-            EscapeHexEmpty => "empty hexadecimal literal",
-            EscapeHexInvalid => "invalid hexadecimal literal",
-            EscapeHexInvalidDigit => "invalid hexadecimal digit",
-            EscapeUnexpectedEof => "unexpected eof (escape sequence)",
-            EscapeUnrecognized => "unrecognized escape sequence",
-            FlagDanglingNegation => "dangling flag negation operator",
-            FlagDuplicate{..} => "duplicate flag",
-            FlagRepeatedNegation{..} => "repeated negation",
-            FlagUnexpectedEof => "unexpected eof (flag)",
-            FlagUnrecognized => "unrecognized flag",
-            GroupNameDuplicate{..} => "duplicate capture group name",
-            GroupNameEmpty => "empty capture group name",
-            GroupNameInvalid => "invalid capture group name",
-            GroupNameUnexpectedEof => "unclosed capture group name",
-            GroupUnclosed => "unclosed group",
-            GroupUnopened => "unopened group",
-            NestLimitExceeded(_) => "nest limit exceeded",
-            RepetitionCountInvalid => "invalid repetition count range",
-            RepetitionCountUnclosed => "unclosed counted repetition",
-            RepetitionMissing => "repetition operator missing expression",
-            UnsupportedBackreference => "backreferences are not supported",
-            UnsupportedLookAround => "look-around is not supported",
-            _ => unreachable!(),
-        }
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        ::error::Formatter::from(self).fmt(f)
-    }
-}
-
-impl fmt::Display for ErrorKind {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        use self::ErrorKind::*;
-        match *self {
-            CaptureLimitExceeded => {
-                write!(f, "exceeded the maximum number of \
-                           capturing groups ({})", ::std::u32::MAX)
-            }
-            ClassEscapeInvalid => {
-                write!(f, "invalid escape sequence found in character class")
-            }
-            ClassRangeInvalid => {
-                write!(f, "invalid character class range, \
-                           the start must be <= the end")
-            }
-            ClassRangeLiteral => {
-                write!(f, "invalid range boundary, must be a literal")
-            }
-            ClassUnclosed => {
-                write!(f, "unclosed character class")
-            }
-            DecimalEmpty => {
-                write!(f, "decimal literal empty")
-            }
-            DecimalInvalid => {
-                write!(f, "decimal literal invalid")
-            }
-            EscapeHexEmpty => {
-                write!(f, "hexadecimal literal empty")
-            }
-            EscapeHexInvalid => {
-                write!(f, "hexadecimal literal is not a Unicode scalar value")
-            }
-            EscapeHexInvalidDigit => {
-                write!(f, "invalid hexadecimal digit")
-            }
-            EscapeUnexpectedEof => {
-                write!(f, "incomplete escape sequence, \
-                           reached end of pattern prematurely")
-            }
-            EscapeUnrecognized => {
-                write!(f, "unrecognized escape sequence")
-            }
-            FlagDanglingNegation => {
-                write!(f, "dangling flag negation operator")
-            }
-            FlagDuplicate{..} => {
-                write!(f, "duplicate flag")
-            }
-            FlagRepeatedNegation{..} => {
-                write!(f, "flag negation operator repeated")
-            }
-            FlagUnexpectedEof => {
-                write!(f, "expected flag but got end of regex")
-            }
-            FlagUnrecognized => {
-                write!(f, "unrecognized flag")
-            }
-            GroupNameDuplicate{..} => {
-                write!(f, "duplicate capture group name")
-            }
-            GroupNameEmpty => {
-                write!(f, "empty capture group name")
-            }
-            GroupNameInvalid => {
-                write!(f, "invalid capture group character")
-            }
-            GroupNameUnexpectedEof => {
-                write!(f, "unclosed capture group name")
-            }
-            GroupUnclosed => {
-                write!(f, "unclosed group")
-            }
-            GroupUnopened => {
-                write!(f, "unopened group")
-            }
-            NestLimitExceeded(limit) => {
-                write!(f, "exceed the maximum number of \
-                           nested parentheses/brackets ({})", limit)
-            }
-            RepetitionCountInvalid => {
-                write!(f, "invalid repetition count range, \
-                           the start must be <= the end")
-            }
-            RepetitionCountDecimalEmpty => {
-                write!(f, "repetition quantifier expects a valid decimal")
-            }
-            RepetitionCountUnclosed => {
-                write!(f, "unclosed counted repetition")
-            }
-            RepetitionMissing => {
-                write!(f, "repetition operator missing expression")
-            }
-            UnsupportedBackreference => {
-                write!(f, "backreferences are not supported")
-            }
-            UnsupportedLookAround => {
-                write!(f, "look-around, including look-ahead and look-behind, \
-                           is not supported")
-            }
-            _ => unreachable!(),
-        }
-    }
-}
-
-/// Span represents the position information of a single AST item.
-///
-/// All span positions are absolute byte offsets that can be used on the
-/// original regular expression that was parsed.
-#[derive(Clone, Copy, Eq, PartialEq)]
-pub struct Span {
-    /// The start byte offset.
-    pub start: Position,
-    /// The end byte offset.
-    pub end: Position,
-}
-
-impl fmt::Debug for Span {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "Span({:?}, {:?})", self.start, self.end)
-    }
-}
-
-impl Ord for Span {
-    fn cmp(&self, other: &Span) -> Ordering {
-        (&self.start, &self.end).cmp(&(&other.start, &other.end))
-    }
-}
-
-impl PartialOrd for Span {
-    fn partial_cmp(&self, other: &Span) -> Option<Ordering> {
-        Some(self.cmp(other))
-    }
-}
-
-/// A single position in a regular expression.
-///
-/// A position encodes one half of a span, and include the byte offset, line
-/// number and column number.
-#[derive(Clone, Copy, Eq, PartialEq)]
-pub struct Position {
-    /// The absolute offset of this position, starting at `0` from the
-    /// beginning of the regular expression pattern string.
-    pub offset: usize,
-    /// The line number, starting at `1`.
-    pub line: usize,
-    /// The approximate column number, starting at `1`.
-    pub column: usize,
-}
-
-impl fmt::Debug for Position {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(
-            f,
-            "Position(o: {:?}, l: {:?}, c: {:?})",
-            self.offset, self.line, self.column)
-    }
-}
-
-impl Ord for Position {
-    fn cmp(&self, other: &Position) -> Ordering {
-        self.offset.cmp(&other.offset)
-    }
-}
-
-impl PartialOrd for Position {
-    fn partial_cmp(&self, other: &Position) -> Option<Ordering> {
-        Some(self.cmp(other))
-    }
-}
-
-impl Span {
-    /// Create a new span with the given positions.
-    pub fn new(start: Position, end: Position) -> Span {
-        Span { start: start, end: end }
-    }
-
-    /// Create a new span using the given position as the start and end.
-    pub fn splat(pos: Position) -> Span {
-        Span::new(pos, pos)
-    }
-
-    /// Create a new span by replacing the starting the position with the one
-    /// given.
-    pub fn with_start(self, pos: Position) -> Span {
-        Span { start: pos, ..self }
-    }
-
-    /// Create a new span by replacing the ending the position with the one
-    /// given.
-    pub fn with_end(self, pos: Position) -> Span {
-        Span { end: pos, ..self }
-    }
-
-    /// Returns true if and only if this span occurs on a single line.
-    pub fn is_one_line(&self) -> bool {
-        self.start.line == self.end.line
-    }
-
-    /// Returns true if and only if this span is empty. That is, it points to
-    /// a single position in the concrete syntax of a regular expression.
-    pub fn is_empty(&self) -> bool {
-        self.start.offset == self.end.offset
-    }
-}
-
-impl Position {
-    /// Create a new position with the given information.
-    ///
-    /// `offset` is the absolute offset of the position, starting at `0` from
-    /// the beginning of the regular expression pattern string.
-    ///
-    /// `line` is the line number, starting at `1`.
-    ///
-    /// `column` is the approximate column number, starting at `1`.
-    pub fn new(offset: usize, line: usize, column: usize) -> Position {
-        Position { offset: offset, line: line, column: column }
-    }
-}
-
-/// An abstract syntax tree for a singular expression along with comments
-/// found.
-///
-/// Comments are not stored in the tree itself to avoid complexity. Each
-/// comment contains a span of precisely where it occurred in the original
-/// regular expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct WithComments {
-    /// The actual ast.
-    pub ast: Ast,
-    /// All comments found in the original regular expression.
-    pub comments: Vec<Comment>,
-}
-
-/// A comment from a regular expression with an associated span.
-///
-/// A regular expression can only contain comments when the `x` flag is
-/// enabled.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Comment {
-    /// The span of this comment, including the beginning `#` and ending `\n`.
-    pub span: Span,
-    /// The comment text, starting with the first character following the `#`
-    /// and ending with the last character preceding the `\n`.
-    pub comment: String,
-}
-
-/// An abstract syntax tree for a single regular expression.
-///
-/// An `Ast`'s `fmt::Display` implementation uses constant stack space and heap
-/// space proportional to the size of the `Ast`.
-///
-/// This type defines its own destructor that uses constant stack space and
-/// heap space proportional to the size of the `Ast`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Ast {
-    /// An empty regex that matches everything.
-    Empty(Span),
-    /// A set of flags, e.g., `(?is)`.
-    Flags(SetFlags),
-    /// A single character literal, which includes escape sequences.
-    Literal(Literal),
-    /// The "any character" class.
-    Dot(Span),
-    /// A single zero-width assertion.
-    Assertion(Assertion),
-    /// A single character class. This includes all forms of character classes
-    /// except for `.`. e.g., `\d`, `\pN`, `[a-z]` and `[[:alpha:]]`.
-    Class(Class),
-    /// A repetition operator applied to an arbitrary regular expression.
-    Repetition(Repetition),
-    /// A grouped regular expression.
-    Group(Group),
-    /// An alternation of regular expressions.
-    Alternation(Alternation),
-    /// A concatenation of regular expressions.
-    Concat(Concat),
-}
-
-impl Ast {
-    /// Return the span of this abstract syntax tree.
-    pub fn span(&self) -> &Span {
-        match *self {
-            Ast::Empty(ref span) => span,
-            Ast::Flags(ref x) => &x.span,
-            Ast::Literal(ref x) => &x.span,
-            Ast::Dot(ref span) => span,
-            Ast::Assertion(ref x) => &x.span,
-            Ast::Class(ref x) => x.span(),
-            Ast::Repetition(ref x) => &x.span,
-            Ast::Group(ref x) => &x.span,
-            Ast::Alternation(ref x) => &x.span,
-            Ast::Concat(ref x) => &x.span,
-        }
-    }
-
-    /// Return true if and only if this Ast is empty.
-    pub fn is_empty(&self) -> bool {
-        match *self {
-            Ast::Empty(_) => true,
-            _ => false,
-        }
-    }
-
-    /// Returns true if and only if this AST has any (including possibly empty)
-    /// subexpressions.
-    fn has_subexprs(&self) -> bool {
-        match *self {
-            Ast::Empty(_)
-            | Ast::Flags(_)
-            | Ast::Literal(_)
-            | Ast::Dot(_)
-            | Ast::Assertion(_) => false,
-            Ast::Class(_)
-            | Ast::Repetition(_)
-            | Ast::Group(_)
-            | Ast::Alternation(_)
-            | Ast::Concat(_) => true,
-        }
-    }
-}
-
-/// Print a display representation of this Ast.
-///
-/// This does not preserve any of the original whitespace formatting that may
-/// have originally been present in the concrete syntax from which this Ast
-/// was generated.
-///
-/// This implementation uses constant stack space and heap space proportional
-/// to the size of the `Ast`.
-impl fmt::Display for Ast {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        use ast::print::Printer;
-        Printer::new().print(self, f)
-    }
-}
-
-/// An alternation of regular expressions.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Alternation {
-    /// The span of this alternation.
-    pub span: Span,
-    /// The alternate regular expressions.
-    pub asts: Vec<Ast>,
-}
-
-impl Alternation {
-    /// Return this alternation as an AST.
-    ///
-    /// If this alternation contains zero ASTs, then Ast::Empty is
-    /// returned. If this alternation contains exactly 1 AST, then the
-    /// corresponding AST is returned. Otherwise, Ast::Alternation is returned.
-    pub fn into_ast(mut self) -> Ast {
-        match self.asts.len() {
-            0 => Ast::Empty(self.span),
-            1 => self.asts.pop().unwrap(),
-            _ => Ast::Alternation(self),
-        }
-    }
-}
-
-/// A concatenation of regular expressions.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Concat {
-    /// The span of this concatenation.
-    pub span: Span,
-    /// The concatenation regular expressions.
-    pub asts: Vec<Ast>,
-}
-
-impl Concat {
-    /// Return this concatenation as an AST.
-    ///
-    /// If this concatenation contains zero ASTs, then Ast::Empty is
-    /// returned. If this concatenation contains exactly 1 AST, then the
-    /// corresponding AST is returned. Otherwise, Ast::Concat is returned.
-    pub fn into_ast(mut self) -> Ast {
-        match self.asts.len() {
-            0 => Ast::Empty(self.span),
-            1 => self.asts.pop().unwrap(),
-            _ => Ast::Concat(self),
-        }
-    }
-}
-
-/// A single literal expression.
-///
-/// A literal corresponds to a single Unicode scalar value. Literals may be
-/// represented in their literal form, e.g., `a` or in their escaped form,
-/// e.g., `\x61`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Literal {
-    /// The span of this literal.
-    pub span: Span,
-    /// The kind of this literal.
-    pub kind: LiteralKind,
-    /// The Unicode scalar value corresponding to this literal.
-    pub c: char,
-}
-
-impl Literal {
-    /// If this literal was written as a `\x` hex escape, then this returns
-    /// the corresponding byte value. Otherwise, this returns `None`.
-    pub fn byte(&self) -> Option<u8> {
-        let short_hex = LiteralKind::HexFixed(HexLiteralKind::X);
-        if self.c as u32 <= 255 && self.kind == short_hex {
-            Some(self.c as u8)
-        } else {
-            None
-        }
-    }
-}
-
-/// The kind of a single literal expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum LiteralKind {
-    /// The literal is written verbatim, e.g., `a` or `☃`.
-    Verbatim,
-    /// The literal is written as an escape because it is punctuation, e.g.,
-    /// `\*` or `\[`.
-    Punctuation,
-    /// The literal is written as an octal escape, e.g., `\141`.
-    Octal,
-    /// The literal is written as a hex code with a fixed number of digits
-    /// depending on the type of the escape, e.g., `\x61` or or `\u0061` or
-    /// `\U00000061`.
-    HexFixed(HexLiteralKind),
-    /// The literal is written as a hex code with a bracketed number of
-    /// digits. The only restriction is that the bracketed hex code must refer
-    /// to a valid Unicode scalar value.
-    HexBrace(HexLiteralKind),
-    /// The literal is written as a specially recognized escape, e.g., `\f`
-    /// or `\n`.
-    Special(SpecialLiteralKind),
-}
-
-/// The type of a special literal.
-///
-/// A special literal is a special escape sequence recognized by the regex
-/// parser, e.g., `\f` or `\n`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum SpecialLiteralKind {
-    /// Bell, spelled `\a` (`\x07`).
-    Bell,
-    /// Form feed, spelled `\f` (`\x0C`).
-    FormFeed,
-    /// Tab, spelled `\t` (`\x09`).
-    Tab,
-    /// Line feed, spelled `\n` (`\x0A`).
-    LineFeed,
-    /// Carriage return, spelled `\r` (`\x0D`).
-    CarriageReturn,
-    /// Vertical tab, spelled `\v` (`\x0B`).
-    VerticalTab,
-    /// Space, spelled `\ ` (`\x20`). Note that this can only appear when
-    /// parsing in verbose mode.
-    Space,
-}
-
-/// The type of a Unicode hex literal.
-///
-/// Note that all variants behave the same when used with brackets. They only
-/// differ when used without brackets in the number of hex digits that must
-/// follow.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum HexLiteralKind {
-    /// A `\x` prefix. When used without brackets, this form is limited to
-    /// two digits.
-    X,
-    /// A `\u` prefix. When used without brackets, this form is limited to
-    /// four digits.
-    UnicodeShort,
-    /// A `\U` prefix. When used without brackets, this form is limited to
-    /// eight digits.
-    UnicodeLong,
-}
-
-impl HexLiteralKind {
-    /// The number of digits that must be used with this literal form when
-    /// used without brackets. When used with brackets, there is no
-    /// restriction on the number of digits.
-    pub fn digits(&self) -> u32 {
-        match *self {
-            HexLiteralKind::X => 2,
-            HexLiteralKind::UnicodeShort => 4,
-            HexLiteralKind::UnicodeLong => 8,
-        }
-    }
-}
-
-/// A single character class expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Class {
-    /// A Unicode character class, e.g., `\pL` or `\p{Greek}`.
-    Unicode(ClassUnicode),
-    /// A perl character class, e.g., `\d` or `\W`.
-    Perl(ClassPerl),
-    /// A bracketed character class set, which may contain zero or more
-    /// character ranges and/or zero or more nested classes. e.g.,
-    /// `[a-zA-Z\pL]`.
-    Bracketed(ClassBracketed),
-}
-
-impl Class {
-    /// Return the span of this character class.
-    pub fn span(&self) -> &Span {
-        match *self {
-            Class::Perl(ref x) => &x.span,
-            Class::Unicode(ref x) => &x.span,
-            Class::Bracketed(ref x) => &x.span,
-        }
-    }
-}
-
-/// A Perl character class.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassPerl {
-    /// The span of this class.
-    pub span: Span,
-    /// The kind of Perl class.
-    pub kind: ClassPerlKind,
-    /// Whether the class is negated or not. e.g., `\d` is not negated but
-    /// `\D` is.
-    pub negated: bool,
-}
-
-/// The available Perl character classes.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ClassPerlKind {
-    /// Decimal numbers.
-    Digit,
-    /// Whitespace.
-    Space,
-    /// Word characters.
-    Word,
-}
-
-/// An ASCII character class.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassAscii {
-    /// The span of this class.
-    pub span: Span,
-    /// The kind of ASCII class.
-    pub kind: ClassAsciiKind,
-    /// Whether the class is negated or not. e.g., `[[:alpha:]]` is not negated
-    /// but `[[:^alpha:]]` is.
-    pub negated: bool,
-}
-
-/// The available ASCII character classes.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ClassAsciiKind {
-    /// `[0-9A-Za-z]`
-    Alnum,
-    /// `[A-Za-z]`
-    Alpha,
-    /// `[\x00-\x7F]`
-    Ascii,
-    /// `[ \t]`
-    Blank,
-    /// `[\x00-\x1F\x7F]`
-    Cntrl,
-    /// `[0-9]`
-    Digit,
-    /// `[!-~]`
-    Graph,
-    /// `[a-z]`
-    Lower,
-    /// `[ -~]`
-    Print,
-    /// `[!-/:-@\[-`{-~]`
-    Punct,
-    /// `[\t\n\v\f\r ]`
-    Space,
-    /// `[A-Z]`
-    Upper,
-    /// `[0-9A-Za-z_]`
-    Word,
-    /// `[0-9A-Fa-f]`
-    Xdigit,
-}
-
-impl ClassAsciiKind {
-    /// Return the corresponding ClassAsciiKind variant for the given name.
-    ///
-    /// The name given should correspond to the lowercase version of the
-    /// variant name. e.g., `cntrl` is the name for `ClassAsciiKind::Cntrl`.
-    ///
-    /// If no variant with the corresponding name exists, then `None` is
-    /// returned.
-    pub fn from_name(name: &str) -> Option<ClassAsciiKind> {
-        use self::ClassAsciiKind::*;
-        match name {
-            "alnum" => Some(Alnum),
-            "alpha" => Some(Alpha),
-            "ascii" => Some(Ascii),
-            "blank" => Some(Blank),
-            "cntrl" => Some(Cntrl),
-            "digit" => Some(Digit),
-            "graph" => Some(Graph),
-            "lower" => Some(Lower),
-            "print" => Some(Print),
-            "punct" => Some(Punct),
-            "space" => Some(Space),
-            "upper" => Some(Upper),
-            "word" => Some(Word),
-            "xdigit" => Some(Xdigit),
-            _ => None,
-        }
-    }
-}
-
-/// A Unicode character class.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassUnicode {
-    /// The span of this class.
-    pub span: Span,
-    /// Whether this class is negated or not.
-    ///
-    /// Note: be careful when using this attribute. This specifically refers
-    /// to whether the class is written as `\p` or `\P`, where the latter
-    /// is `negated = true`. However, it also possible to write something like
-    /// `\P{scx!=Katakana}` which is actually equivalent to
-    /// `\p{scx=Katakana}` and is therefore not actually negated even though
-    /// `negated = true` here. To test whether this class is truly negated
-    /// or not, use the `is_negated` method.
-    pub negated: bool,
-    /// The kind of Unicode class.
-    pub kind: ClassUnicodeKind,
-}
-
-impl ClassUnicode {
-    /// Returns true if this class has been negated.
-    ///
-    /// Note that this takes the Unicode op into account, if it's present.
-    /// e.g., `is_negated` for `\P{scx!=Katakana}` will return `false`.
-    pub fn is_negated(&self) -> bool {
-        match self.kind {
-            ClassUnicodeKind::NamedValue {
-                op: ClassUnicodeOpKind::NotEqual, ..
-            } => !self.negated,
-            _ => self.negated,
-        }
-    }
-}
-
-/// The available forms of Unicode character classes.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ClassUnicodeKind {
-    /// A one letter abbreviated class, e.g., `\pN`.
-    OneLetter(char),
-    /// A binary property, general category or script. The string may be
-    /// empty.
-    Named(String),
-    /// A property name and an associated value.
-    NamedValue {
-        /// The type of Unicode op used to associate `name` with `value`.
-        op: ClassUnicodeOpKind,
-        /// The property name (which may be empty).
-        name: String,
-        /// The property value (which may be empty).
-        value: String,
-    },
-}
-
-/// The type of op used in a Unicode character class.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ClassUnicodeOpKind {
-    /// A property set to a specific value, e.g., `\p{scx=Katakana}`.
-    Equal,
-    /// A property set to a specific value using a colon, e.g.,
-    /// `\p{scx:Katakana}`.
-    Colon,
-    /// A property that isn't a particular value, e.g., `\p{scx!=Katakana}`.
-    NotEqual,
-}
-
-impl ClassUnicodeOpKind {
-    /// Whether the op is an equality op or not.
-    pub fn is_equal(&self) -> bool {
-        match *self {
-            ClassUnicodeOpKind::Equal|ClassUnicodeOpKind::Colon => true,
-            _ => false,
-        }
-    }
-}
-
-/// A bracketed character class, e.g., `[a-z0-9]`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassBracketed {
-    /// The span of this class.
-    pub span: Span,
-    /// Whether this class is negated or not. e.g., `[a]` is not negated but
-    /// `[^a]` is.
-    pub negated: bool,
-    /// The type of this set. A set is either a normal union of things, e.g.,
-    /// `[abc]` or a result of applying set operations, e.g., `[\pL--c]`.
-    pub kind: ClassSet,
-}
-
-/// A character class set.
-///
-/// This type corresponds to the internal structure of a bracketed character
-/// class. That is, every bracketed character is one of two types: a union of
-/// items (literals, ranges, other bracketed classes) or a tree of binary set
-/// operations.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ClassSet {
-    /// An item, which can be a single literal, range, nested character class
-    /// or a union of items.
-    Item(ClassSetItem),
-    /// A single binary operation (i.e., &&, -- or ~~).
-    BinaryOp(ClassSetBinaryOp),
-}
-
-impl ClassSet {
-    /// Build a set from a union.
-    pub fn union(ast: ClassSetUnion) -> ClassSet {
-        ClassSet::Item(ClassSetItem::Union(ast))
-    }
-
-    /// Return the span of this character class set.
-    pub fn span(&self) -> &Span {
-        match *self {
-            ClassSet::Item(ref x) => x.span(),
-            ClassSet::BinaryOp(ref x) => &x.span,
-        }
-    }
-
-    /// Return true if and only if this class set is empty.
-    fn is_empty(&self) -> bool {
-        match *self {
-            ClassSet::Item(ClassSetItem::Empty(_)) => true,
-            _ => false,
-        }
-    }
-}
-
-/// A single component of a character class set.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ClassSetItem {
-    /// An empty item.
-    ///
-    /// Note that a bracketed character class cannot contain a single empty
-    /// item. Empty items can appear when using one of the binary operators.
-    /// For example, `[&&]` is the intersection of two empty classes.
-    Empty(Span),
-    /// A single literal.
-    Literal(Literal),
-    /// A range between two literals.
-    Range(ClassSetRange),
-    /// An ASCII character class, e.g., `[:alnum:]` or `[:punct:]`.
-    Ascii(ClassAscii),
-    /// A Unicode character class, e.g., `\pL` or `\p{Greek}`.
-    Unicode(ClassUnicode),
-    /// A perl character class, e.g., `\d` or `\W`.
-    Perl(ClassPerl),
-    /// A bracketed character class set, which may contain zero or more
-    /// character ranges and/or zero or more nested classes. e.g.,
-    /// `[a-zA-Z\pL]`.
-    Bracketed(Box<ClassBracketed>),
-    /// A union of items.
-    Union(ClassSetUnion),
-}
-
-impl ClassSetItem {
-    /// Return the span of this character class set item.
-    pub fn span(&self) -> &Span {
-        match *self {
-            ClassSetItem::Empty(ref span) => span,
-            ClassSetItem::Literal(ref x) => &x.span,
-            ClassSetItem::Range(ref x) => &x.span,
-            ClassSetItem::Ascii(ref x) => &x.span,
-            ClassSetItem::Perl(ref x) => &x.span,
-            ClassSetItem::Unicode(ref x) => &x.span,
-            ClassSetItem::Bracketed(ref x) => &x.span,
-            ClassSetItem::Union(ref x) => &x.span,
-        }
-    }
-}
-
-/// A single character class range in a set.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassSetRange {
-    /// The span of this range.
-    pub span: Span,
-    /// The start of this range.
-    pub start: Literal,
-    /// The end of this range.
-    pub end: Literal,
-}
-
-impl ClassSetRange {
-    /// Returns true if and only if this character class range is valid.
-    ///
-    /// The only case where a range is invalid is if its start is greater than
-    /// its end.
-    pub fn is_valid(&self) -> bool {
-        self.start.c <= self.end.c
-    }
-}
-
-/// A union of items inside a character class set.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassSetUnion {
-    /// The span of the items in this operation. e.g., the `a-z0-9` in
-    /// `[^a-z0-9]`
-    pub span: Span,
-    /// The sequence of items that make up this union.
-    pub items: Vec<ClassSetItem>,
-}
-
-impl ClassSetUnion {
-    /// Push a new item in this union.
-    ///
-    /// The ending position of this union's span is updated to the ending
-    /// position of the span of the item given. If the union is empty, then
-    /// the starting position of this union is set to the starting position
-    /// of this item.
-    ///
-    /// In other words, if you only use this method to add items to a union
-    /// and you set the spans on each item correctly, then you should never
-    /// need to adjust the span of the union directly.
-    pub fn push(&mut self, item: ClassSetItem) {
-        if self.items.is_empty() {
-            self.span.start = item.span().start;
-        }
-        self.span.end = item.span().end;
-        self.items.push(item);
-    }
-
-    /// Return this union as a character class set item.
-    ///
-    /// If this union contains zero items, then an empty union is
-    /// returned. If this concatenation contains exactly 1 item, then the
-    /// corresponding item is returned. Otherwise, ClassSetItem::Union is
-    /// returned.
-    pub fn into_item(mut self) -> ClassSetItem {
-        match self.items.len() {
-            0 => ClassSetItem::Empty(self.span),
-            1 => self.items.pop().unwrap(),
-            _ => ClassSetItem::Union(self),
-        }
-    }
-}
-
-/// A Unicode character class set operation.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassSetBinaryOp {
-    /// The span of this operation. e.g., the `a-z--[h-p]` in `[a-z--h-p]`.
-    pub span: Span,
-    /// The type of this set operation.
-    pub kind: ClassSetBinaryOpKind,
-    /// The left hand side of the operation.
-    pub lhs: Box<ClassSet>,
-    /// The right hand side of the operation.
-    pub rhs: Box<ClassSet>,
-}
-
-/// The type of a Unicode character class set operation.
-///
-/// Note that this doesn't explicitly represent union since there is no
-/// explicit union operator. Concatenation inside a character class corresponds
-/// to the union operation.
-#[derive(Clone, Copy, Debug, Eq, PartialEq)]
-pub enum ClassSetBinaryOpKind {
-    /// The intersection of two sets, e.g., `\pN&&[a-z]`.
-    Intersection,
-    /// The difference of two sets, e.g., `\pN--[0-9]`.
-    Difference,
-    /// The symmetric difference of two sets. The symmetric difference is the
-    /// set of elements belonging to one but not both sets.
-    /// e.g., `[\pL~~[:ascii:]]`.
-    SymmetricDifference,
-}
-
-/// A single zero-width assertion.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Assertion {
-    /// The span of this assertion.
-    pub span: Span,
-    /// The assertion kind, e.g., `\b` or `^`.
-    pub kind: AssertionKind,
-}
-
-/// An assertion kind.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum AssertionKind {
-    /// `^`
-    StartLine,
-    /// `$`
-    EndLine,
-    /// `\A`
-    StartText,
-    /// `\z`
-    EndText,
-    /// `\b`
-    WordBoundary,
-    /// `\B`
-    NotWordBoundary,
-}
-
-/// A repetition operation applied to a regular expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Repetition {
-    /// The span of this operation.
-    pub span: Span,
-    /// The actual operation.
-    pub op: RepetitionOp,
-    /// Whether this operation was applied greedily or not.
-    pub greedy: bool,
-    /// The regular expression under repetition.
-    pub ast: Box<Ast>,
-}
-
-/// The repetition operator itself.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct RepetitionOp {
-    /// The span of this operator. This includes things like `+`, `*?` and
-    /// `{m,n}`.
-    pub span: Span,
-    /// The type of operation.
-    pub kind: RepetitionKind,
-}
-
-/// The kind of a repetition operator.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum RepetitionKind {
-    /// `?`
-    ZeroOrOne,
-    /// `*`
-    ZeroOrMore,
-    /// `+`
-    OneOrMore,
-    /// `{m,n}`
-    Range(RepetitionRange),
-}
-
-/// A range repetition operator.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum RepetitionRange {
-    /// `{m}`
-    Exactly(u32),
-    /// `{m,}`
-    AtLeast(u32),
-    /// `{m,n}`
-    Bounded(u32, u32),
-}
-
-impl RepetitionRange {
-    /// Returns true if and only if this repetition range is valid.
-    ///
-    /// The only case where a repetition range is invalid is if it is bounded
-    /// and its start is greater than its end.
-    pub fn is_valid(&self) -> bool {
-        match *self {
-            RepetitionRange::Bounded(s, e) if s > e => false,
-            _ => true,
-        }
-    }
-}
-
-/// A grouped regular expression.
-///
-/// This includes both capturing and non-capturing groups. This does **not**
-/// include flag-only groups like `(?is)`, but does contain any group that
-/// contains a sub-expression, e.g., `(a)`, `(?P<name>a)`, `(?:a)` and
-/// `(?is:a)`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Group {
-    /// The span of this group.
-    pub span: Span,
-    /// The kind of this group.
-    pub kind: GroupKind,
-    /// The regular expression in this group.
-    pub ast: Box<Ast>,
-}
-
-impl Group {
-    /// If this group is non-capturing, then this returns the (possibly empty)
-    /// set of flags. Otherwise, `None` is returned.
-    pub fn flags(&self) -> Option<&Flags> {
-        match self.kind {
-            GroupKind::NonCapturing(ref flags) => Some(flags),
-            _ => None,
-        }
-    }
-
-    /// Returns true if and only if this group is capturing.
-    pub fn is_capturing(&self) -> bool {
-        match self.kind {
-            GroupKind::CaptureIndex(_) | GroupKind::CaptureName(_) => true,
-            GroupKind::NonCapturing(_) => false,
-        }
-    }
-
-    /// Returns the capture index of this group, if this is a capturing group.
-    ///
-    /// This returns a capture index precisely when `is_capturing` is `true`.
-    pub fn capture_index(&self) -> Option<u32> {
-        match self.kind {
-            GroupKind::CaptureIndex(i) => Some(i),
-            GroupKind::CaptureName(ref x) => Some(x.index),
-            GroupKind::NonCapturing(_) => None,
-        }
-    }
-}
-
-/// The kind of a group.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum GroupKind {
-    /// `(a)`
-    CaptureIndex(u32),
-    /// `(?P<name>a)`
-    CaptureName(CaptureName),
-    /// `(?:a)` and `(?i:a)`
-    NonCapturing(Flags),
-}
-
-/// A capture name.
-///
-/// This corresponds to the name itself between the angle brackets in, e.g.,
-/// `(?P<foo>expr)`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct CaptureName {
-    /// The span of this capture name.
-    pub span: Span,
-    /// The capture name.
-    pub name: String,
-    /// The capture index.
-    pub index: u32,
-}
-
-/// A group of flags that is not applied to a particular regular expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct SetFlags {
-    /// The span of these flags, including the grouping parentheses.
-    pub span: Span,
-    /// The actual sequence of flags.
-    pub flags: Flags,
-}
-
-/// A group of flags.
-///
-/// This corresponds only to the sequence of flags themselves, e.g., `is-u`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Flags {
-    /// The span of this group of flags.
-    pub span: Span,
-    /// A sequence of flag items. Each item is either a flag or a negation
-    /// operator.
-    pub items: Vec<FlagsItem>,
-}
-
-impl Flags {
-    /// Add the given item to this sequence of flags.
-    ///
-    /// If the item was added successfully, then `None` is returned. If the
-    /// given item is a duplicate, then `Some(i)` is returned, where
-    /// `items[i].kind == item.kind`.
-    pub fn add_item(&mut self, item: FlagsItem) -> Option<usize> {
-        for (i, x) in self.items.iter().enumerate() {
-            if x.kind == item.kind {
-                return Some(i);
-            }
-        }
-        self.items.push(item);
-        None
-    }
-
-    /// Returns the state of the given flag in this set.
-    ///
-    /// If the given flag is in the set but is negated, then `Some(false)` is
-    /// returned.
-    ///
-    /// If the given flag is in the set and is not negated, then `Some(true)`
-    /// is returned.
-    ///
-    /// Otherwise, `None` is returned.
-    pub fn flag_state(&self, flag: Flag) -> Option<bool> {
-        let mut negated = false;
-        for x in &self.items {
-            match x.kind {
-                FlagsItemKind::Negation => {
-                    negated = true;
-                }
-                FlagsItemKind::Flag(ref xflag) if xflag == &flag => {
-                    return Some(!negated);
-                }
-                _ => {}
-            }
-        }
-        None
-    }
-}
-
-/// A single item in a group of flags.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct FlagsItem {
-    /// The span of this item.
-    pub span: Span,
-    /// The kind of this item.
-    pub kind: FlagsItemKind,
-}
-
-/// The kind of an item in a group of flags.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum FlagsItemKind {
-    /// A negation operator applied to all subsequent flags in the enclosing
-    /// group.
-    Negation,
-    /// A single flag in a group.
-    Flag(Flag),
-}
-
-impl FlagsItemKind {
-    /// Returns true if and only if this item is a negation operator.
-    pub fn is_negation(&self) -> bool {
-        match *self {
-            FlagsItemKind::Negation => true,
-            _ => false,
-        }
-    }
-}
-
-/// A single flag.
-#[derive(Clone, Copy, Debug, Eq, PartialEq)]
-pub enum Flag {
-    /// `i`
-    CaseInsensitive,
-    /// `m`
-    MultiLine,
-    /// `s`
-    DotMatchesNewLine,
-    /// `U`
-    SwapGreed,
-    /// `u`
-    Unicode,
-    /// `x`
-    IgnoreWhitespace,
-}
-
-/// A custom `Drop` impl is used for `Ast` such that it uses constant stack
-/// space but heap space proportional to the depth of the `Ast`.
-impl Drop for Ast {
-    fn drop(&mut self) {
-        use std::mem;
-
-        match *self {
-            Ast::Empty(_)
-            | Ast::Flags(_)
-            | Ast::Literal(_)
-            | Ast::Dot(_)
-            | Ast::Assertion(_)
-            // Classes are recursive, so they get their own Drop impl.
-            | Ast::Class(_) => return,
-            Ast::Repetition(ref x) if !x.ast.has_subexprs() => return,
-            Ast::Group(ref x) if !x.ast.has_subexprs() => return,
-            Ast::Alternation(ref x) if x.asts.is_empty() => return,
-            Ast::Concat(ref x) if x.asts.is_empty() => return,
-            _ => {}
-        }
-
-        let empty_span = || Span::splat(Position::new(0, 0, 0));
-        let empty_ast = || Ast::Empty(empty_span());
-        let mut stack = vec![mem::replace(self, empty_ast())];
-        while let Some(mut ast) = stack.pop() {
-            match ast {
-                Ast::Empty(_)
-                | Ast::Flags(_)
-                | Ast::Literal(_)
-                | Ast::Dot(_)
-                | Ast::Assertion(_)
-                // Classes are recursive, so they get their own Drop impl.
-                | Ast::Class(_) => {}
-                Ast::Repetition(ref mut x) => {
-                    stack.push(mem::replace(&mut x.ast, empty_ast()));
-                }
-                Ast::Group(ref mut x) => {
-                    stack.push(mem::replace(&mut x.ast, empty_ast()));
-                }
-                Ast::Alternation(ref mut x) => {
-                    stack.extend(x.asts.drain(..));
-                }
-                Ast::Concat(ref mut x) => {
-                    stack.extend(x.asts.drain(..));
-                }
-            }
-        }
-    }
-}
-
-/// A custom `Drop` impl is used for `ClassSet` such that it uses constant
-/// stack space but heap space proportional to the depth of the `ClassSet`.
-impl Drop for ClassSet {
-    fn drop(&mut self) {
-        use std::mem;
-
-        match *self {
-            ClassSet::Item(ref item) => {
-                match *item {
-                    ClassSetItem::Empty(_)
-                    | ClassSetItem::Literal(_)
-                    | ClassSetItem::Range(_)
-                    | ClassSetItem::Ascii(_)
-                    | ClassSetItem::Unicode(_)
-                    | ClassSetItem::Perl(_) => return,
-                    ClassSetItem::Bracketed(ref x) => {
-                        if x.kind.is_empty() {
-                            return;
-                        }
-                    }
-                    ClassSetItem::Union(ref x) => {
-                        if x.items.is_empty() {
-                            return;
-                        }
-                    }
-                }
-            }
-            ClassSet::BinaryOp(ref op) => {
-                if op.lhs.is_empty() && op.rhs.is_empty() {
-                    return;
-                }
-            }
-        }
-
-        let empty_span = || Span::splat(Position::new(0, 0, 0));
-        let empty_set = || ClassSet::Item(ClassSetItem::Empty(empty_span()));
-        let mut stack = vec![mem::replace(self, empty_set())];
-        while let Some(mut set) = stack.pop() {
-            match set {
-                ClassSet::Item(ref mut item) => {
-                    match *item {
-                        ClassSetItem::Empty(_)
-                        | ClassSetItem::Literal(_)
-                        | ClassSetItem::Range(_)
-                        | ClassSetItem::Ascii(_)
-                        | ClassSetItem::Unicode(_)
-                        | ClassSetItem::Perl(_) => {}
-                        ClassSetItem::Bracketed(ref mut x) => {
-                            stack.push(mem::replace(&mut x.kind, empty_set()));
-                        }
-                        ClassSetItem::Union(ref mut x) => {
-                            stack.extend(
-                                x.items.drain(..).map(ClassSet::Item));
-                        }
-                    }
-                }
-                ClassSet::BinaryOp(ref mut op) => {
-                    stack.push(mem::replace(&mut op.lhs, empty_set()));
-                    stack.push(mem::replace(&mut op.rhs, empty_set()));
-                }
-            }
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    // We use a thread with an explicit stack size to test that our destructor
-    // for Ast can handle arbitrarily sized expressions in constant stack
-    // space. In case we run on a platform without threads (WASM?), we limit
-    // this test to Windows/Unix.
-    #[test]
-    #[cfg(any(unix, windows))]
-    fn no_stack_overflow_on_drop() {
-        use std::thread;
-
-        let run = || {
-            let span = || Span::splat(Position::new(0, 0, 0));
-            let mut ast = Ast::Empty(span());
-            for i in 0..200 {
-                ast = Ast::Group(Group {
-                    span: span(),
-                    kind: GroupKind::CaptureIndex(i),
-                    ast: Box::new(ast),
-                });
-            }
-            assert!(!ast.is_empty());
-        };
-
-        // We run our test on a thread with a small stack size so we can
-        // force the issue more easily.
-        thread::Builder::new()
-            .stack_size(1<<10)
-            .spawn(run)
-            .unwrap()
-            .join()
-            .unwrap();
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/ast/parse.rs.html b/target/doc/src/regex_syntax/ast/parse.rs.html deleted file mode 100644 index 8ff7938..0000000 --- a/target/doc/src/regex_syntax/ast/parse.rs.html +++ /dev/null @@ -1,10857 +0,0 @@ -parse.rs.html -- source
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-This module provides a regular expression parser.
-*/
-
-use std::borrow::Borrow;
-use std::cell::{Cell, RefCell};
-use std::mem;
-use std::result;
-
-use ast::{self, Ast, Position, Span};
-use either::Either;
-
-use is_meta_character;
-
-type Result<T> = result::Result<T, ast::Error>;
-
-/// A primitive is an expression with no sub-expressions. This includes
-/// literals, assertions and non-set character classes. This representation
-/// is used as intermediate state in the parser.
-///
-/// This does not include ASCII character classes, since they can only appear
-/// within a set character class.
-#[derive(Clone, Debug, Eq, PartialEq)]
-enum Primitive {
-    Literal(ast::Literal),
-    Assertion(ast::Assertion),
-    Dot(Span),
-    Perl(ast::ClassPerl),
-    Unicode(ast::ClassUnicode),
-}
-
-impl Primitive {
-    /// Return the span of this primitive.
-    fn span(&self) -> &Span {
-        match *self {
-            Primitive::Literal(ref x) => &x.span,
-            Primitive::Assertion(ref x) => &x.span,
-            Primitive::Dot(ref span) => span,
-            Primitive::Perl(ref x) => &x.span,
-            Primitive::Unicode(ref x) => &x.span,
-        }
-    }
-
-    /// Convert this primitive into a proper AST.
-    fn into_ast(self) -> Ast {
-        match self {
-            Primitive::Literal(lit) => Ast::Literal(lit),
-            Primitive::Assertion(assert) => Ast::Assertion(assert),
-            Primitive::Dot(span) => Ast::Dot(span),
-            Primitive::Perl(cls) => Ast::Class(ast::Class::Perl(cls)),
-            Primitive::Unicode(cls) => Ast::Class(ast::Class::Unicode(cls)),
-        }
-    }
-
-    /// Convert this primitive into an item in a character class.
-    ///
-    /// If this primitive is not a legal item (i.e., an assertion or a dot),
-    /// then return an error.
-    fn into_class_set_item<P: Borrow<Parser>>(
-        self,
-        p: &ParserI<P>,
-    ) -> Result<ast::ClassSetItem> {
-        use ast::ClassSetItem;
-        use self::Primitive::*;
-
-        match self {
-            Literal(lit) => Ok(ClassSetItem::Literal(lit)),
-            Perl(cls) => Ok(ClassSetItem::Perl(cls)),
-            Unicode(cls) => Ok(ClassSetItem::Unicode(cls)),
-            x => Err(p.error(*x.span(), ast::ErrorKind::ClassEscapeInvalid)),
-        }
-    }
-
-    /// Convert this primitive into a literal in a character class. In
-    /// particular, literals are the only valid items that can appear in
-    /// ranges.
-    ///
-    /// If this primitive is not a legal item (i.e., a class, assertion or a
-    /// dot), then return an error.
-    fn into_class_literal<P: Borrow<Parser>>(
-        self,
-        p: &ParserI<P>,
-    ) -> Result<ast::Literal> {
-        use self::Primitive::*;
-
-        match self {
-            Literal(lit) => Ok(lit),
-            x => Err(p.error(*x.span(), ast::ErrorKind::ClassRangeLiteral)),
-        }
-    }
-}
-
-/// Returns true if the given character is a hexadecimal digit.
-fn is_hex(c: char) -> bool {
-    ('0' <= c && c <= '9') || ('a' <= c && c <= 'f') || ('A' <= c && c <= 'F')
-}
-
-/// Returns true if the given character is a valid in a capture group name.
-///
-/// If `first` is true, then `c` is treated as the first character in the
-/// group name (which is not allowed to be a digit).
-fn is_capture_char(c: char, first: bool) -> bool {
-    c == '_' || (!first && c >= '0' && c <= '9')
-    || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')
-}
-
-/// A builder for a regular expression parser.
-///
-/// This builder permits modifying configuration options for the parser.
-#[derive(Clone, Debug)]
-pub struct ParserBuilder {
-    ignore_whitespace: bool,
-    nest_limit: u32,
-    octal: bool,
-}
-
-impl Default for ParserBuilder {
-    fn default() -> ParserBuilder {
-        ParserBuilder::new()
-    }
-}
-
-impl ParserBuilder {
-    /// Create a new parser builder with a default configuration.
-    pub fn new() -> ParserBuilder {
-        ParserBuilder {
-            ignore_whitespace: false,
-            nest_limit: 250,
-            octal: false,
-        }
-    }
-
-    /// Build a parser from this configuration with the given pattern.
-    pub fn build(&self) -> Parser {
-        Parser {
-            pos: Cell::new(Position { offset: 0, line: 1, column: 1 }),
-            capture_index: Cell::new(0),
-            nest_limit: self.nest_limit,
-            octal: self.octal,
-            initial_ignore_whitespace: self.ignore_whitespace,
-            ignore_whitespace: Cell::new(self.ignore_whitespace),
-            comments: RefCell::new(vec![]),
-            stack_group: RefCell::new(vec![]),
-            stack_class: RefCell::new(vec![]),
-            capture_names: RefCell::new(vec![]),
-            scratch: RefCell::new(String::new()),
-        }
-    }
-
-    /// Set the nesting limit for this parser.
-    ///
-    /// The nesting limit controls how deep the abstract syntax tree is allowed
-    /// to be. If the AST exceeds the given limit (e.g., with too many nested
-    /// groups), then an error is returned by the parser.
-    ///
-    /// The purpose of this limit is to act as a heuristic to prevent stack
-    /// overflow for consumers that do structural induction on an `Ast` using
-    /// explicit recursion. While this crate never does this (instead using
-    /// constant stack space and moving the call stack to the heap), other
-    /// crates may.
-    ///
-    /// This limit is not checked until the entire Ast is parsed. Therefore,
-    /// if callers want to put a limit on the amount of heap space used, then
-    /// they should impose a limit on the length, in bytes, of the concrete
-    /// pattern string. In particular, this is viable since this parser
-    /// implementation will limit itself to heap space proportional to the
-    /// lenth of the pattern string.
-    ///
-    /// Note that a nest limit of `0` will return a nest limit error for most
-    /// patterns but not all. For example, a nest limit of `0` permits `a` but
-    /// not `ab`, since `ab` requires a concatenation, which results in a nest
-    /// depth of `1`. In general, a nest limit is not something that manifests
-    /// in an obvious way in the concrete syntax, therefore, it should not be
-    /// used in a granular way.
-    pub fn nest_limit(&mut self, limit: u32) -> &mut ParserBuilder {
-        self.nest_limit = limit;
-        self
-    }
-
-    /// Whether to support octal syntax or not.
-    ///
-    /// Octal syntax is a little-known way of uttering Unicode codepoints in
-    /// a regular expression. For example, `a`, `\x61`, `\u0061` and
-    /// `\141` are all equivalent regular expressions, where the last example
-    /// shows octal syntax.
-    ///
-    /// While supporting octal syntax isn't in and of itself a problem, it does
-    /// make good error messages harder. That is, in PCRE based regex engines,
-    /// syntax like `\0` invokes a backreference, which is explicitly
-    /// unsupported in Rust's regex engine. However, many users expect it to
-    /// be supported. Therefore, when octal support is disabled, the error
-    /// message will explicitly mention that backreferences aren't supported.
-    ///
-    /// Octal syntax is disabled by default.
-    pub fn octal(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.octal = yes;
-        self
-    }
-
-    /// Enable verbose mode in the regular expression.
-    ///
-    /// When enabled, verbose mode permits insigificant whitespace in many
-    /// places in the regular expression, as well as comments. Comments are
-    /// started using `#` and continue until the end of the line.
-    ///
-    /// By default, this is disabled. It may be selectively enabled in the
-    /// regular expression by using the `x` flag regardless of this setting.
-    pub fn ignore_whitespace(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.ignore_whitespace = yes;
-        self
-    }
-}
-
-/// A regular expression parser.
-///
-/// This parses a string representation of a regular expression into an
-/// abstract syntax tree. The size of the tree is proportional to the length
-/// of the regular expression pattern.
-///
-/// A `Parser` can be configured in more detail via a
-/// [`ParserBuilder`](struct.ParserBuilder.html).
-#[derive(Clone, Debug)]
-pub struct Parser {
-    /// The current position of the parser.
-    pos: Cell<Position>,
-    /// The current capture index.
-    capture_index: Cell<u32>,
-    /// The maximum number of open parens/brackets allowed. If the parser
-    /// exceeds this number, then an error is returned.
-    nest_limit: u32,
-    /// Whether to support octal syntax or not. When `false`, the parser will
-    /// return an error helpfully pointing out that backreferences are not
-    /// supported.
-    octal: bool,
-    /// The initial setting for `ignore_whitespace` as provided by
-    /// Th`ParserBuilder`. is is used when reseting the parser's state.
-    initial_ignore_whitespace: bool,
-    /// Whether whitespace should be ignored. When enabled, comments are
-    /// also permitted.
-    ignore_whitespace: Cell<bool>,
-    /// A list of comments, in order of appearance.
-    comments: RefCell<Vec<ast::Comment>>,
-    /// A stack of grouped sub-expressions, including alternations.
-    stack_group: RefCell<Vec<GroupState>>,
-    /// A stack of nested character classes. This is only non-empty when
-    /// parsing a class.
-    stack_class: RefCell<Vec<ClassState>>,
-    /// A sorted sequence of capture names. This is used to detect duplicate
-    /// capture names and report an error if one is detected.
-    capture_names: RefCell<Vec<ast::CaptureName>>,
-    /// A scratch buffer used in various places. Mostly this is used to
-    /// accumulate relevant characters from parts of a pattern.
-    scratch: RefCell<String>,
-}
-
-/// ParserI is the internal parser implementation.
-///
-/// We use this separate type so that we can carry the provided pattern string
-/// along with us. In particular, a `Parser` internal state is not tied to any
-/// one pattern, but `ParserI` is.
-///
-/// This type also lets us use `ParserI<&Parser>` in production code while
-/// retaining the convenience of `ParserI<Parser>` for tests, which sometimes
-/// work against the internal interface of the parser.
-#[derive(Clone, Debug)]
-struct ParserI<'s, P> {
-    /// The parser state/configuration.
-    parser: P,
-    /// The full regular expression provided by the user.
-    pattern: &'s str,
-}
-
-/// GroupState represents a single stack frame while parsing nested groups
-/// and alternations. Each frame records the state up to an opening parenthesis
-/// or a alternating bracket `|`.
-#[derive(Clone, Debug)]
-enum GroupState {
-    /// This state is pushed whenever an opening group is found.
-    Group {
-        /// The concatenation immediately preceding the opening group.
-        concat: ast::Concat,
-        /// The group that has been opened. Its sub-AST is always empty.
-        group: ast::Group,
-        /// Whether this group has the `x` flag enabled or not.
-        ignore_whitespace: bool,
-    },
-    /// This state is pushed whenever a new alternation branch is found. If
-    /// an alternation branch is found and this state is at the top of the
-    /// stack, then this state should be modified to include the new
-    /// alternation.
-    Alternation(ast::Alternation),
-}
-
-/// ClassState represents a single stack frame while parsing character classes.
-/// Each frame records the state up to an intersection, difference, symmetric
-/// difference or nested class.
-///
-/// Note that a parser's character class stack is only non-empty when parsing
-/// a character class. In all other cases, it is empty.
-#[derive(Clone, Debug)]
-enum ClassState {
-    /// This state is pushed whenever an opening bracket is found.
-    Open {
-        /// The union of class items immediately preceding this class.
-        union: ast::ClassSetUnion,
-        /// The class that has been opened. Typically this just corresponds
-        /// to the `[`, but it can also include `[^` since `^` indicates
-        /// negation of the class.
-        set: ast::ClassBracketed,
-    },
-    /// This state is pushed when a operator is seen. When popped, the stored
-    /// set becomes the left hand side of the operator.
-    Op {
-        /// The type of the operation, i.e., &&, -- or ~~.
-        kind: ast::ClassSetBinaryOpKind,
-        /// The left-hand side of the operator.
-        lhs: ast::ClassSet,
-    },
-}
-
-impl Parser {
-    /// Create a new parser with a default configuration.
-    ///
-    /// The parser can be run with either the `parse` or `parse_with_comments`
-    /// methods. The parse methods return an abstract syntax tree.
-    ///
-    /// To set configuration options on the parser, use
-    /// [`ParserBuilder`](struct.ParserBuilder.html).
-    pub fn new() -> Parser {
-        ParserBuilder::new().build()
-    }
-
-    /// Parse the regular expression into an abstract syntax tree.
-    pub fn parse(&mut self, pattern: &str) -> Result<Ast> {
-        ParserI::new(self, pattern).parse()
-    }
-
-    /// Parse the regular expression and return an abstract syntax tree with
-    /// all of the comments found in the pattern.
-    pub fn parse_with_comments(
-        &mut self,
-        pattern: &str,
-    ) -> Result<ast::WithComments> {
-        ParserI::new(self, pattern).parse_with_comments()
-    }
-
-    /// Reset the internal state of a parser.
-    ///
-    /// This is called at the beginning of every parse. This prevents the
-    /// parser from running with inconsistent state (say, if a previous
-    /// invocation returned an error and the parser is reused).
-    fn reset(&self) {
-        // These settings should be in line with the construction
-        // in `ParserBuilder::build`.
-        self.pos.set(Position { offset: 0, line: 1, column: 1});
-        self.ignore_whitespace.set(self.initial_ignore_whitespace);
-        self.comments.borrow_mut().clear();
-        self.stack_group.borrow_mut().clear();
-        self.stack_class.borrow_mut().clear();
-    }
-}
-
-impl<'s, P: Borrow<Parser>> ParserI<'s, P> {
-    /// Build an internal parser from a parser configuration and a pattern.
-    fn new(parser: P, pattern: &'s str) -> ParserI<'s, P> {
-        ParserI { parser: parser, pattern: pattern }
-    }
-
-    /// Return a reference to the parser state.
-    fn parser(&self) -> &Parser {
-        self.parser.borrow()
-    }
-
-    /// Return a reference to the pattern being parsed.
-    fn pattern(&self) -> &str {
-        self.pattern.borrow()
-    }
-
-    /// Create a new error with the given span and error type.
-    fn error(&self, span: Span, kind: ast::ErrorKind) -> ast::Error {
-        ast::Error {
-            kind: kind,
-            pattern: self.pattern().to_string(),
-            span: span,
-        }
-    }
-
-    /// Return the current offset of the parser.
-    ///
-    /// The offset starts at `0` from the beginning of the regular expression
-    /// pattern string.
-    fn offset(&self) -> usize {
-        self.parser().pos.get().offset
-    }
-
-    /// Return the current line number of the parser.
-    ///
-    /// The line number starts at `1`.
-    fn line(&self) -> usize {
-        self.parser().pos.get().line
-    }
-
-    /// Return the current column of the parser.
-    ///
-    /// The column number starts at `1` and is reset whenever a `\n` is seen.
-    fn column(&self) -> usize {
-        self.parser().pos.get().column
-    }
-
-    /// Return the next capturing index. Each subsequent call increments the
-    /// internal index.
-    ///
-    /// The span given should correspond to the location of the opening
-    /// parenthesis.
-    ///
-    /// If the capture limit is exceeded, then an error is returned.
-    fn next_capture_index(&self, span: Span) -> Result<u32> {
-        let current = self.parser().capture_index.get();
-        let i = current.checked_add(1).ok_or_else(|| {
-            self.error(span, ast::ErrorKind::CaptureLimitExceeded)
-        })?;
-        self.parser().capture_index.set(i);
-        Ok(i)
-    }
-
-    /// Adds the given capture name to this parser. If this capture name has
-    /// already been used, then an error is returned.
-    fn add_capture_name(&self, cap: &ast::CaptureName) -> Result<()> {
-        let mut names = self.parser().capture_names.borrow_mut();
-        match names.binary_search_by_key(
-            &cap.name.as_str(),
-            |c| c.name.as_str(),
-        ) {
-            Err(i) => {
-                names.insert(i, cap.clone());
-                Ok(())
-            }
-            Ok(i) => {
-                Err(self.error(cap.span, ast::ErrorKind::GroupNameDuplicate {
-                    original: names[i].span,
-                }))
-            }
-        }
-    }
-
-    /// Return whether the parser should ignore whitespace or not.
-    fn ignore_whitespace(&self) -> bool {
-        self.parser().ignore_whitespace.get()
-    }
-
-    /// Return the character at the current position of the parser.
-    ///
-    /// This panics if the current position does not point to a valid char.
-    fn char(&self) -> char {
-        self.char_at(self.offset())
-    }
-
-    /// Return the character at the given position.
-    ///
-    /// This panics if the given position does not point to a valid char.
-    fn char_at(&self, i: usize) -> char {
-        self.pattern()[i..].chars().next()
-            .unwrap_or_else(|| {
-                panic!("expected char at offset {}", i)
-            })
-    }
-
-    /// Bump the parser to the next Unicode scalar value.
-    ///
-    /// If the end of the input has been reached, then `false` is returned.
-    fn bump(&self) -> bool {
-        if self.is_eof() {
-            return false;
-        }
-        let Position { mut offset, mut line, mut column } = self.pos();
-        if self.char() == '\n' {
-            line = line.checked_add(1).unwrap();
-            column = 1;
-        } else {
-            column = column.checked_add(1).unwrap();
-        }
-        offset += self.char().len_utf8();
-        self.parser().pos.set(Position {
-            offset: offset,
-            line: line,
-            column: column,
-        });
-        self.pattern()[self.offset()..].chars().next().is_some()
-    }
-
-    /// If the substring starting at the current position of the parser has
-    /// the given prefix, then bump the parser to the character immediately
-    /// following the prefix and return true. Otherwise, don't bump the parser
-    /// and return false.
-    fn bump_if(&self, prefix: &str) -> bool {
-        if self.pattern()[self.offset()..].starts_with(prefix) {
-            for _ in 0..prefix.chars().count() {
-                self.bump();
-            }
-            true
-        } else {
-            false
-        }
-    }
-
-    /// Returns true if and only if the parser is positioned at a look-around
-    /// prefix. The conditions under which this returns true must always
-    /// correspond to a regular expression that would otherwise be consider
-    /// invalid.
-    ///
-    /// This should only be called immediately after parsing the opening of
-    /// a group or a set of flags.
-    fn is_lookaround_prefix(&self) -> bool {
-        self.bump_if("?=")
-        || self.bump_if("?!")
-        || self.bump_if("?<=")
-        || self.bump_if("?<!")
-    }
-
-    /// Bump the parser, and if the `x` flag is enabled, bump through any
-    /// subsequent spaces. Return true if and only if the parser is not at
-    /// EOF.
-    fn bump_and_bump_space(&self) -> bool {
-        if !self.bump() {
-            return false;
-        }
-        self.bump_space();
-        !self.is_eof()
-    }
-
-    /// If the `x` flag is enabled (i.e., whitespace insensitivity with
-    /// comments), then this will advance the parser through all whitespace
-    /// and comments to the next non-whitespace non-comment byte.
-    ///
-    /// If the `x` flag is disabled, then this is a no-op.
-    ///
-    /// This should be used selectively throughout the parser where
-    /// arbitrary whitespace is permitted when the `x` flag is enabled. For
-    /// example, `{   5  , 6}` is equivalent to `{5,6}`.
-    fn bump_space(&self) {
-        if !self.ignore_whitespace() {
-            return;
-        }
-        while !self.is_eof() {
-            if self.char().is_whitespace() {
-                self.bump();
-            } else if self.char() == '#' {
-                let start = self.pos();
-                let mut comment_text = String::new();
-                self.bump();
-                while !self.is_eof() {
-                    let c = self.char();
-                    self.bump();
-                    if c == '\n' {
-                        break;
-                    }
-                    comment_text.push(c);
-                }
-                let comment = ast::Comment {
-                    span: Span::new(start, self.pos()),
-                    comment: comment_text,
-                };
-                self.parser().comments.borrow_mut().push(comment);
-            } else {
-                break;
-            }
-        }
-    }
-
-    /// Peek at the next character in the input without advancing the parser.
-    ///
-    /// If the input has been exhausted, then this returns `None`.
-    fn peek(&self) -> Option<char> {
-        if self.is_eof() {
-            return None;
-        }
-        self.pattern()[self.offset() + self.char().len_utf8()..].chars().next()
-    }
-
-    /// Like peek, but will ignore spaces when the parser is in whitespace
-    /// insensitive mode.
-    fn peek_space(&self) -> Option<char> {
-        if !self.ignore_whitespace() {
-            return self.peek();
-        }
-        if self.is_eof() {
-            return None;
-        }
-        let mut start = self.offset() + self.char().len_utf8();
-        let mut in_comment = false;
-        for (i, c) in self.pattern()[start..].char_indices() {
-            if c.is_whitespace() {
-                continue;
-            } else if !in_comment && c == '#' {
-                in_comment = true;
-            } else if in_comment && c == '\n' {
-                in_comment = false;
-            } else {
-                start += i;
-                break;
-            }
-        }
-        self.pattern()[start..].chars().next()
-    }
-
-    /// Returns true if the next call to `bump` would return false.
-    fn is_eof(&self) -> bool {
-        self.offset() == self.pattern().len()
-    }
-
-    /// Return the current position of the parser, which includes the offset,
-    /// line and column.
-    fn pos(&self) -> Position {
-        self.parser().pos.get()
-    }
-
-    /// Create a span at the current position of the parser. Both the start
-    /// and end of the span are set.
-    fn span(&self) -> Span {
-        Span::splat(self.pos())
-    }
-
-    /// Create a span that covers the current character.
-    fn span_char(&self) -> Span {
-        let mut next = Position {
-            offset: self.offset().checked_add(self.char().len_utf8()).unwrap(),
-            line: self.line(),
-            column: self.column().checked_add(1).unwrap(),
-        };
-        if self.char() == '\n' {
-            next.line += 1;
-            next.column = 1;
-        }
-        Span::new(self.pos(), next)
-    }
-
-    /// Parse and push a single alternation on to the parser's internal stack.
-    /// If the top of the stack already has an alternation, then add to that
-    /// instead of pushing a new one.
-    ///
-    /// The concatenation given corresponds to a single alternation branch.
-    /// The concatenation returned starts the next branch and is empty.
-    ///
-    /// This assumes the parser is currently positioned at `|` and will advance
-    /// the parser to the character following `|`.
-    fn push_alternate(&self, mut concat: ast::Concat) -> Result<ast::Concat> {
-        assert_eq!(self.char(), '|');
-        concat.span.end = self.pos();
-        self.push_or_add_alternation(concat);
-        self.bump();
-        Ok(ast::Concat {
-            span: self.span(),
-            asts: vec![],
-        })
-    }
-
-    /// Pushes or adds the given branch of an alternation to the parser's
-    /// internal stack of state.
-    fn push_or_add_alternation(&self, concat: ast::Concat) {
-        use self::GroupState::*;
-
-        let mut stack = self.parser().stack_group.borrow_mut();
-        if let Some(&mut Alternation(ref mut alts)) = stack.last_mut() {
-            alts.asts.push(concat.into_ast());
-            return;
-        }
-        stack.push(Alternation(ast::Alternation {
-            span: Span::new(concat.span.start, self.pos()),
-            asts: vec![concat.into_ast()],
-        }));
-    }
-
-    /// Parse and push a group AST (and its parent concatenation) on to the
-    /// parser's internal stack. Return a fresh concatenation corresponding
-    /// to the group's sub-AST.
-    ///
-    /// If a set of flags was found (with no group), then the concatenation
-    /// is returned with that set of flags added.
-    ///
-    /// This assumes that the parser is currently positioned on the opening
-    /// parenthesis. It advances the parser to the character at the start
-    /// of the sub-expression (or adjoining expression).
-    ///
-    /// If there was a problem parsing the start of the group, then an error
-    /// is returned.
-    fn push_group(&self, mut concat: ast::Concat) -> Result<ast::Concat> {
-        assert_eq!(self.char(), '(');
-        match self.parse_group()? {
-            Either::Left(set) => {
-                let ignore = set.flags.flag_state(ast::Flag::IgnoreWhitespace);
-                if let Some(v) = ignore {
-                    self.parser().ignore_whitespace.set(v);
-                }
-
-                concat.asts.push(Ast::Flags(set));
-                Ok(concat)
-            }
-            Either::Right(group) => {
-                let old_ignore_whitespace = self.ignore_whitespace();
-                let new_ignore_whitespace = group
-                    .flags()
-                    .and_then(|f| f.flag_state(ast::Flag::IgnoreWhitespace))
-                    .unwrap_or(old_ignore_whitespace);
-                self.parser().stack_group.borrow_mut().push(GroupState::Group {
-                    concat: concat,
-                    group: group,
-                    ignore_whitespace: old_ignore_whitespace,
-                });
-                self.parser().ignore_whitespace.set(new_ignore_whitespace);
-                Ok(ast::Concat {
-                    span: self.span(),
-                    asts: vec![],
-                })
-            }
-        }
-    }
-
-    /// Pop a group AST from the parser's internal stack and set the group's
-    /// AST to the given concatenation. Return the concatenation containing
-    /// the group.
-    ///
-    /// This assumes that the parser is currently positioned on the closing
-    /// parenthesis and advances the parser to the character following the `)`.
-    ///
-    /// If no such group could be popped, then an unopened group error is
-    /// returned.
-    fn pop_group(&self, mut group_concat: ast::Concat) -> Result<ast::Concat> {
-        use self::GroupState::*;
-
-        assert_eq!(self.char(), ')');
-        let mut stack = self.parser().stack_group.borrow_mut();
-        let (mut prior_concat, mut group, ignore_whitespace, alt) =
-            match stack.pop() {
-                Some(Group { concat, group, ignore_whitespace }) => {
-                    (concat, group, ignore_whitespace, None)
-                }
-                Some(Alternation(alt)) => {
-                    match stack.pop() {
-                        Some(Group { concat, group, ignore_whitespace }) => {
-                            (concat, group, ignore_whitespace, Some(alt))
-                        }
-                        None | Some(Alternation(_)) => {
-                            return Err(self.error(
-                                self.span_char(),
-                                ast::ErrorKind::GroupUnopened,
-                            ));
-                        }
-                    }
-                }
-                None => {
-                    return Err(self.error(
-                        self.span_char(),
-                        ast::ErrorKind::GroupUnopened,
-                    ));
-                }
-            };
-        self.parser().ignore_whitespace.set(ignore_whitespace);
-        group_concat.span.end = self.pos();
-        self.bump();
-        group.span.end = self.pos();
-        match alt {
-            Some(mut alt) => {
-                alt.span.end = group_concat.span.end;
-                alt.asts.push(group_concat.into_ast());
-                group.ast = Box::new(alt.into_ast());
-            }
-            None => {
-                group.ast = Box::new(group_concat.into_ast());
-            }
-        }
-        prior_concat.asts.push(Ast::Group(group));
-        Ok(prior_concat)
-    }
-
-    /// Pop the last state from the parser's internal stack, if it exists, and
-    /// add the given concatenation to it. There either must be no state or a
-    /// single alternation item on the stack. Any other scenario produces an
-    /// error.
-    ///
-    /// This assumes that the parser has advanced to the end.
-    fn pop_group_end(&self, mut concat: ast::Concat) -> Result<Ast> {
-        concat.span.end = self.pos();
-        let mut stack = self.parser().stack_group.borrow_mut();
-        let ast = match stack.pop() {
-            None => Ok(concat.into_ast()),
-            Some(GroupState::Alternation(mut alt)) => {
-                alt.span.end = self.pos();
-                alt.asts.push(concat.into_ast());
-                Ok(Ast::Alternation(alt))
-            }
-            Some(GroupState::Group { group, .. }) => {
-                return Err(self.error(
-                    group.span,
-                    ast::ErrorKind::GroupUnclosed,
-                ));
-            }
-        };
-        // If we try to pop again, there should be nothing.
-        match stack.pop() {
-            None => ast,
-            Some(GroupState::Alternation(_)) => {
-                // This unreachable is unfortunate. This case can't happen
-                // because the only way we can be here is if there were two
-                // `GroupState::Alternation`s adjacent in the parser's stack,
-                // which we guarantee to never happen because we never push a
-                // `GroupState::Alternation` if one is already at the top of
-                // the stack.
-                unreachable!()
-            }
-            Some(GroupState::Group { group, .. }) => {
-                Err(self.error(group.span, ast::ErrorKind::GroupUnclosed))
-            }
-        }
-    }
-
-    /// Parse the opening of a character class and push the current class
-    /// parsing context onto the parser's stack. This assumes that the parser
-    /// is positioned at an opening `[`. The given union should correspond to
-    /// the union of set items built up before seeing the `[`.
-    ///
-    /// If there was a problem parsing the opening of the class, then an error
-    /// is returned. Otherwise, a new union of set items for the class is
-    /// returned (which may be populated with either a `]` or a `-`).
-    fn push_class_open(
-        &self,
-        parent_union: ast::ClassSetUnion,
-    ) -> Result<ast::ClassSetUnion> {
-        assert_eq!(self.char(), '[');
-
-        let (nested_set, nested_union) = self.parse_set_class_open()?;
-        self.parser().stack_class.borrow_mut().push(ClassState::Open {
-            union: parent_union,
-            set: nested_set,
-        });
-        Ok(nested_union)
-    }
-
-    /// Parse the end of a character class set and pop the character class
-    /// parser stack. The union given corresponds to the last union built
-    /// before seeing the closing `]`. The union returned corresponds to the
-    /// parent character class set with the nested class added to it.
-    ///
-    /// This assumes that the parser is positioned at a `]` and will advance
-    /// the parser to the byte immediately following the `]`.
-    ///
-    /// If the stack is empty after popping, then this returns the final
-    /// "top-level" character class AST (where a "top-level" character class
-    /// is one that is not nested inside any other character class).
-    ///
-    /// If there is no corresponding opening bracket on the parser's stack,
-    /// then an error is returned.
-    fn pop_class(
-        &self,
-        nested_union: ast::ClassSetUnion,
-    ) -> Result<Either<ast::ClassSetUnion, ast::Class>> {
-        assert_eq!(self.char(), ']');
-
-        let item = ast::ClassSet::Item(nested_union.into_item());
-        let prevset = self.pop_class_op(item);
-        let mut stack = self.parser().stack_class.borrow_mut();
-        match stack.pop() {
-            None => {
-                // We can never observe an empty stack:
-                //
-                // 1) We are guaranteed to start with a non-empty stack since
-                //    the character class parser is only initiated when it sees
-                //    a `[`.
-                // 2) If we ever observe an empty stack while popping after
-                //    seeing a `]`, then we signal the character class parser
-                //    to terminate.
-                panic!("unexpected empty character class stack")
-            },
-            Some(ClassState::Op { .. }) => {
-                // This panic is unfortunate, but this case is impossible
-                // since we already popped the Op state if one exists above.
-                // Namely, every push to the class parser stack is guarded by
-                // whether an existing Op is already on the top of the stack.
-                // If it is, the existing Op is modified. That is, the stack
-                // can never have consecutive Op states.
-                panic!("unexpected ClassState::Op")
-            }
-            Some(ClassState::Open { mut union, mut set }) => {
-                self.bump();
-                set.span.end = self.pos();
-                set.kind = prevset;
-                if stack.is_empty() {
-                    Ok(Either::Right(ast::Class::Bracketed(set)))
-                } else {
-                    union.push(ast::ClassSetItem::Bracketed(Box::new(set)));
-                    Ok(Either::Left(union))
-                }
-            }
-        }
-    }
-
-    /// Return an "unclosed class" error whose span points to the most
-    /// recently opened class.
-    ///
-    /// This should only be called while parsing a character class.
-    fn unclosed_class_error(&self) -> ast::Error {
-        for state in self.parser().stack_class.borrow().iter().rev() {
-            match *state {
-                ClassState::Open { ref set, .. } => {
-                    return self.error(set.span, ast::ErrorKind::ClassUnclosed);
-                }
-                _ => {}
-            }
-        }
-        // We are guaranteed to have a non-empty stack with at least
-        // one open bracket, so we should never get here.
-        panic!("no open character class found")
-    }
-
-    /// Push the current set of class items on to the class parser's stack as
-    /// the left hand side of the given operator.
-    ///
-    /// A fresh set union is returned, which should be used to build the right
-    /// hand side of this operator.
-    fn push_class_op(
-        &self,
-        next_kind: ast::ClassSetBinaryOpKind,
-        next_union: ast::ClassSetUnion,
-    ) -> ast::ClassSetUnion {
-
-        let item = ast::ClassSet::Item(next_union.into_item());
-        let new_lhs = self.pop_class_op(item);
-        self.parser().stack_class.borrow_mut().push(ClassState::Op {
-            kind: next_kind,
-            lhs: new_lhs,
-        });
-        ast::ClassSetUnion { span: self.span(), items: vec![] }
-    }
-
-    /// Pop a character class set from the character class parser stack. If the
-    /// top of the stack is just an item (not an operation), then return the
-    /// given set unchanged. If the top of the stack is an operation, then the
-    /// given set will be used as the rhs of the operation on the top of the
-    /// stack. In that case, the binary operation is returned as a set.
-    fn pop_class_op(&self, rhs: ast::ClassSet) -> ast::ClassSet {
-        let mut stack = self.parser().stack_class.borrow_mut();
-        let (kind, lhs) = match stack.pop() {
-            Some(ClassState::Op { kind, lhs }) => (kind, lhs),
-            Some(state @ ClassState::Open { .. }) => {
-                stack.push(state);
-                return rhs;
-            }
-            None => unreachable!(),
-        };
-        let span = Span::new(lhs.span().start, rhs.span().end);
-        ast::ClassSet::BinaryOp(ast::ClassSetBinaryOp {
-            span: span,
-            kind: kind,
-            lhs: Box::new(lhs),
-            rhs: Box::new(rhs),
-        })
-    }
-}
-
-impl<'s, P: Borrow<Parser>> ParserI<'s, P> {
-    /// Parse the regular expression into an abstract syntax tree.
-    fn parse(&self) -> Result<Ast> {
-        self.parse_with_comments().map(|astc| astc.ast)
-    }
-
-    /// Parse the regular expression and return an abstract syntax tree with
-    /// all of the comments found in the pattern.
-    fn parse_with_comments(&self) -> Result<ast::WithComments> {
-        assert_eq!(self.offset(), 0, "parser can only be used once");
-        self.parser().reset();
-        let mut concat = ast::Concat {
-            span: self.span(),
-            asts: vec![],
-        };
-        loop {
-            self.bump_space();
-            if self.is_eof() {
-                break;
-            }
-            match self.char() {
-                '(' => concat = self.push_group(concat)?,
-                ')' => concat = self.pop_group(concat)?,
-                '|' => concat = self.push_alternate(concat)?,
-                '[' => {
-                    let class = self.parse_set_class()?;
-                    concat.asts.push(Ast::Class(class));
-                }
-                '?' => {
-                    concat = self.parse_uncounted_repetition(
-                        concat, ast::RepetitionKind::ZeroOrOne)?;
-                }
-                '*' => {
-                    concat = self.parse_uncounted_repetition(
-                        concat, ast::RepetitionKind::ZeroOrMore)?;
-                }
-                '+' => {
-                    concat = self.parse_uncounted_repetition(
-                        concat, ast::RepetitionKind::OneOrMore)?;
-                }
-                '{' => {
-                    concat = self.parse_counted_repetition(concat)?;
-                }
-                _ => concat.asts.push(self.parse_primitive()?.into_ast()),
-            }
-        }
-        let ast = self.pop_group_end(concat)?;
-        NestLimiter::new(self).check(&ast)?;
-        Ok(ast::WithComments {
-            ast: ast,
-            comments: mem::replace(
-                &mut *self.parser().comments.borrow_mut(),
-                vec![],
-            ),
-        })
-    }
-
-    /// Parses an uncounted repetition operation. An uncounted repetition
-    /// operator includes ?, * and +, but does not include the {m,n} syntax.
-    /// The given `kind` should correspond to the operator observed by the
-    /// caller.
-    ///
-    /// This assumes that the paser is currently positioned at the repetition
-    /// operator and advances the parser to the first character after the
-    /// operator. (Note that the operator may include a single additional `?`,
-    /// which makes the operator ungreedy.)
-    ///
-    /// The caller should include the concatenation that is being built. The
-    /// concatenation returned includes the repetition operator applied to the
-    /// last expression in the given concatenation.
-    fn parse_uncounted_repetition(
-        &self,
-        mut concat: ast::Concat,
-        kind: ast::RepetitionKind,
-    ) -> Result<ast::Concat> {
-        assert!(
-            self.char() == '?' || self.char() == '*' || self.char() == '+');
-        let op_start = self.pos();
-        let ast = match concat.asts.pop() {
-            Some(ast) => ast,
-            None => return Err(self.error(
-                self.span(),
-                ast::ErrorKind::RepetitionMissing,
-            )),
-        };
-        match ast {
-            Ast::Empty(_) | Ast::Flags(_) => return Err(self.error(
-                self.span(),
-                ast::ErrorKind::RepetitionMissing,
-            )),
-            _ => {}
-        }
-        let mut greedy = true;
-        if self.bump() && self.char() == '?' {
-            greedy = false;
-            self.bump();
-        }
-        concat.asts.push(Ast::Repetition(ast::Repetition {
-            span: ast.span().with_end(self.pos()),
-            op: ast::RepetitionOp {
-                span: Span::new(op_start, self.pos()),
-                kind: kind,
-            },
-            greedy: greedy,
-            ast: Box::new(ast),
-        }));
-        Ok(concat)
-    }
-
-    /// Parses a counted repetition operation. A counted repetition operator
-    /// corresponds to the {m,n} syntax, and does not include the ?, * or +
-    /// operators.
-    ///
-    /// This assumes that the paser is currently positioned at the opening `{`
-    /// and advances the parser to the first character after the operator.
-    /// (Note that the operator may include a single additional `?`, which
-    /// makes the operator ungreedy.)
-    ///
-    /// The caller should include the concatenation that is being built. The
-    /// concatenation returned includes the repetition operator applied to the
-    /// last expression in the given concatenation.
-    fn parse_counted_repetition(
-        &self,
-        mut concat: ast::Concat,
-    ) -> Result<ast::Concat> {
-        assert!(self.char() == '{');
-        let start = self.pos();
-        let ast = match concat.asts.pop() {
-            Some(ast) => ast,
-            None => return Err(self.error(
-                self.span(),
-                ast::ErrorKind::RepetitionMissing,
-            )),
-        };
-        match ast {
-            Ast::Empty(_) | Ast::Flags(_) => return Err(self.error(
-                self.span(),
-                ast::ErrorKind::RepetitionMissing,
-            )),
-            _ => {}
-        }
-        if !self.bump_and_bump_space() {
-            return Err(self.error(
-                Span::new(start, self.pos()),
-                ast::ErrorKind::RepetitionCountUnclosed,
-            ));
-        }
-        let count_start = specialize_err(
-            self.parse_decimal(),
-            ast::ErrorKind::DecimalEmpty,
-            ast::ErrorKind::RepetitionCountDecimalEmpty,
-        )?;
-        let mut range = ast::RepetitionRange::Exactly(count_start);
-        if self.is_eof() {
-            return Err(self.error(
-                Span::new(start, self.pos()),
-                ast::ErrorKind::RepetitionCountUnclosed,
-            ));
-        }
-        if self.char() == ',' {
-            if !self.bump_and_bump_space() {
-                return Err(self.error(
-                    Span::new(start, self.pos()),
-                    ast::ErrorKind::RepetitionCountUnclosed,
-                ));
-            }
-            if self.char() != '}' {
-                let count_end = specialize_err(
-                    self.parse_decimal(),
-                    ast::ErrorKind::DecimalEmpty,
-                    ast::ErrorKind::RepetitionCountDecimalEmpty,
-                )?;
-                range = ast::RepetitionRange::Bounded(count_start, count_end);
-            } else {
-                range = ast::RepetitionRange::AtLeast(count_start);
-            }
-        }
-        if self.is_eof() || self.char() != '}' {
-            return Err(self.error(
-                Span::new(start, self.pos()),
-                ast::ErrorKind::RepetitionCountUnclosed,
-            ));
-        }
-
-        let mut greedy = true;
-        if self.bump_and_bump_space() && self.char() == '?' {
-            greedy = false;
-            self.bump();
-        }
-
-        let op_span = Span::new(start, self.pos());
-        if !range.is_valid() {
-            return Err(self.error(
-                op_span,
-                ast::ErrorKind::RepetitionCountInvalid,
-            ));
-        }
-        concat.asts.push(Ast::Repetition(ast::Repetition {
-            span: ast.span().with_end(self.pos()),
-            op: ast::RepetitionOp {
-                span: op_span,
-                kind: ast::RepetitionKind::Range(range),
-            },
-            greedy: greedy,
-            ast: Box::new(ast),
-        }));
-        Ok(concat)
-    }
-
-    /// Parse a group (which contains a sub-expression) or a set of flags.
-    ///
-    /// If a group was found, then it is returned with an empty AST. If a set
-    /// of flags is found, then that set is returned.
-    ///
-    /// The parser should be positioned at the opening parenthesis.
-    ///
-    /// This advances the parser to the character before the start of the
-    /// sub-expression (in the case of a group) or to the closing parenthesis
-    /// immediately following the set of flags.
-    ///
-    /// # Errors
-    ///
-    /// If flags are given and incorrectly specified, then a corresponding
-    /// error is returned.
-    ///
-    /// If a capture name is given and it is incorrectly specified, then a
-    /// corresponding error is returned.
-    fn parse_group(&self) -> Result<Either<ast::SetFlags, ast::Group>> {
-        assert_eq!(self.char(), '(');
-        let open_span = self.span_char();
-        self.bump();
-        self.bump_space();
-        if self.is_lookaround_prefix() {
-            return Err(self.error(
-                Span::new(open_span.start, self.span().end),
-                ast::ErrorKind::UnsupportedLookAround,
-            ));
-        }
-        let inner_span = self.span();
-        if self.bump_if("?P<") {
-            let capture_index = self.next_capture_index(open_span)?;
-            let cap = self.parse_capture_name(capture_index)?;
-            Ok(Either::Right(ast::Group {
-                span: open_span,
-                kind: ast::GroupKind::CaptureName(cap),
-                ast: Box::new(Ast::Empty(self.span())),
-            }))
-        } else if self.bump_if("?") {
-            if self.is_eof() {
-                return Err(self.error(
-                    open_span,
-                    ast::ErrorKind::GroupUnclosed,
-                ));
-            }
-            let flags = self.parse_flags()?;
-            let char_end = self.char();
-            self.bump();
-            if char_end == ')' {
-                // We don't allow empty flags, e.g., `(?)`. We instead
-                // interpret it as a repetition operator missing its argument.
-                if flags.items.is_empty() {
-                    return Err(self.error(
-                        inner_span,
-                        ast::ErrorKind::RepetitionMissing,
-                    ));
-                }
-                Ok(Either::Left(ast::SetFlags {
-                    span: Span { end: self.pos(), ..open_span },
-                    flags: flags,
-                }))
-            } else {
-                assert_eq!(char_end, ':');
-                Ok(Either::Right(ast::Group {
-                    span: open_span,
-                    kind: ast::GroupKind::NonCapturing(flags),
-                    ast: Box::new(Ast::Empty(self.span())),
-                }))
-            }
-        } else {
-            let capture_index = self.next_capture_index(open_span)?;
-            Ok(Either::Right(ast::Group {
-                span: open_span,
-                kind: ast::GroupKind::CaptureIndex(capture_index),
-                ast: Box::new(Ast::Empty(self.span())),
-            }))
-        }
-    }
-
-    /// Parses a capture group name. Assumes that the parser is positioned at
-    /// the first character in the name following the opening `<` (and may
-    /// possibly be EOF). This advances the parser to the first character
-    /// following the closing `>`.
-    ///
-    /// The caller must provide the capture index of the group for this name.
-    fn parse_capture_name(
-        &self,
-        capture_index: u32,
-    ) -> Result<ast::CaptureName> {
-        if self.is_eof() {
-            return Err(self.error(
-                self.span(),
-                ast::ErrorKind::GroupNameUnexpectedEof,
-            ));
-        }
-        let start = self.pos();
-        loop {
-            if self.char() == '>' {
-                break;
-            }
-            if !is_capture_char(self.char(), self.pos() == start) {
-                return Err(self.error(
-                    self.span_char(),
-                    ast::ErrorKind::GroupNameInvalid,
-                ));
-            }
-            if !self.bump() {
-                break;
-            }
-        }
-        let end = self.pos();
-        if self.is_eof() {
-            return Err(self.error(
-                self.span(),
-                ast::ErrorKind::GroupNameUnexpectedEof,
-            ));
-        }
-        assert_eq!(self.char(), '>');
-        self.bump();
-        let name = &self.pattern()[start.offset..end.offset];
-        if name.is_empty() {
-            return Err(self.error(
-                Span::new(start, start),
-                ast::ErrorKind::GroupNameEmpty,
-            ));
-        }
-        let capname = ast::CaptureName {
-            span: Span::new(start, end),
-            name: name.to_string(),
-            index: capture_index,
-        };
-        self.add_capture_name(&capname)?;
-        Ok(capname)
-    }
-
-    /// Parse a sequence of flags starting at the current character.
-    ///
-    /// This advances the parser to the character immediately following the
-    /// flags, which is guaranteed to be either `:` or `)`.
-    ///
-    /// # Errors
-    ///
-    /// If any flags are duplicated, then an error is returned.
-    ///
-    /// If the negation operator is used more than once, then an error is
-    /// returned.
-    ///
-    /// If no flags could be found or if the negation operation is not followed
-    /// by any flags, then an error is returned.
-    fn parse_flags(&self) -> Result<ast::Flags> {
-        let mut flags = ast::Flags {
-            span: self.span(),
-            items: vec![],
-        };
-        let mut last_was_negation = None;
-        while self.char() != ':' && self.char() != ')' {
-            if self.char() == '-' {
-                last_was_negation = Some(self.span_char());
-                let item = ast::FlagsItem {
-                    span: self.span_char(),
-                    kind: ast::FlagsItemKind::Negation,
-                };
-                if let Some(i) = flags.add_item(item) {
-                    return Err(self.error(
-                        self.span_char(),
-                        ast::ErrorKind::FlagRepeatedNegation {
-                            original: flags.items[i].span,
-                        },
-                    ));
-                }
-            } else {
-                last_was_negation = None;
-                let item = ast::FlagsItem {
-                    span: self.span_char(),
-                    kind: ast::FlagsItemKind::Flag(self.parse_flag()?),
-                };
-                if let Some(i) = flags.add_item(item) {
-                    return Err(self.error(
-                        self.span_char(),
-                        ast::ErrorKind::FlagDuplicate {
-                            original: flags.items[i].span,
-                        },
-                    ));
-                }
-            }
-            if !self.bump() {
-                return Err(self.error(
-                    self.span(),
-                    ast::ErrorKind::FlagUnexpectedEof,
-                ));
-            }
-        }
-        if let Some(span) = last_was_negation {
-            return Err(self.error(span, ast::ErrorKind::FlagDanglingNegation));
-        }
-        flags.span.end = self.pos();
-        Ok(flags)
-    }
-
-    /// Parse the current character as a flag. Do not advance the parser.
-    ///
-    /// # Errors
-    ///
-    /// If the flag is not recognized, then an error is returned.
-    fn parse_flag(&self) -> Result<ast::Flag> {
-        match self.char() {
-            'i' => Ok(ast::Flag::CaseInsensitive),
-            'm' => Ok(ast::Flag::MultiLine),
-            's' => Ok(ast::Flag::DotMatchesNewLine),
-            'U' => Ok(ast::Flag::SwapGreed),
-            'u' => Ok(ast::Flag::Unicode),
-            'x' => Ok(ast::Flag::IgnoreWhitespace),
-            _ => Err(self.error(
-                self.span_char(),
-                ast::ErrorKind::FlagUnrecognized,
-            )),
-        }
-    }
-
-    /// Parse a primitive AST. e.g., A literal, non-set character class or
-    /// assertion.
-    ///
-    /// This assumes that the parser expects a primitive at the current
-    /// location. i.e., All other non-primitive cases have been handled.
-    /// For example, if the parser's position is at `|`, then `|` will be
-    /// treated as a literal (e.g., inside a character class).
-    ///
-    /// This advances the parser to the first character immediately following
-    /// the primitive.
-    fn parse_primitive(&self) -> Result<Primitive> {
-        match self.char() {
-            '\\' => self.parse_escape(),
-            '.' => {
-                let ast = Primitive::Dot(self.span_char());
-                self.bump();
-                Ok(ast)
-            }
-            '^' => {
-                let ast = Primitive::Assertion(ast::Assertion {
-                    span: self.span_char(),
-                    kind: ast::AssertionKind::StartLine,
-                });
-                self.bump();
-                Ok(ast)
-            }
-            '$' => {
-                let ast = Primitive::Assertion(ast::Assertion {
-                    span: self.span_char(),
-                    kind: ast::AssertionKind::EndLine,
-                });
-                self.bump();
-                Ok(ast)
-            }
-            c => {
-                let ast = Primitive::Literal(ast::Literal {
-                    span: self.span_char(),
-                    kind: ast::LiteralKind::Verbatim,
-                    c: c,
-                });
-                self.bump();
-                Ok(ast)
-            }
-        }
-    }
-
-    /// Parse an escape sequence as a primitive AST.
-    ///
-    /// This assumes the parser is positioned at the start of the escape
-    /// sequence, i.e., `\`. It advances the parser to the first position
-    /// immediately following the escape sequence.
-    fn parse_escape(&self) -> Result<Primitive> {
-        assert_eq!(self.char(), '\\');
-        let start = self.pos();
-        if !self.bump() {
-            return Err(self.error(
-                Span::new(start, self.pos()),
-                ast::ErrorKind::EscapeUnexpectedEof,
-            ));
-        }
-        let c = self.char();
-        // Put some of the more complicated routines into helpers.
-        match c {
-            '0'..='7' => {
-                if !self.parser().octal {
-                    return Err(self.error(
-                        Span::new(start, self.span_char().end),
-                        ast::ErrorKind::UnsupportedBackreference,
-                    ));
-                }
-                let mut lit = self.parse_octal();
-                lit.span.start = start;
-                return Ok(Primitive::Literal(lit));
-            }
-            '8'..='9' if !self.parser().octal => {
-                return Err(self.error(
-                    Span::new(start, self.span_char().end),
-                    ast::ErrorKind::UnsupportedBackreference,
-                ));
-            }
-            'x' | 'u' | 'U' => {
-                let mut lit = self.parse_hex()?;
-                lit.span.start = start;
-                return Ok(Primitive::Literal(lit));
-            }
-            'p' | 'P' => {
-                let mut cls = self.parse_unicode_class()?;
-                cls.span.start = start;
-                return Ok(Primitive::Unicode(cls));
-            }
-            'd' | 's' | 'w' | 'D' | 'S' | 'W' => {
-                let mut cls = self.parse_perl_class();
-                cls.span.start = start;
-                return Ok(Primitive::Perl(cls));
-            }
-            _ => {}
-        }
-
-        // Handle all of the one letter sequences inline.
-        self.bump();
-        let span = Span::new(start, self.pos());
-        if is_meta_character(c) {
-            return Ok(Primitive::Literal(ast::Literal {
-                span: span,
-                kind: ast::LiteralKind::Punctuation,
-                c: c,
-            }));
-        }
-        let special = |kind, c| Ok(Primitive::Literal(ast::Literal {
-            span: span,
-            kind: ast::LiteralKind::Special(kind),
-            c: c,
-        }));
-        match c {
-            'a' => special(ast::SpecialLiteralKind::Bell, '\x07'),
-            'f' => special(ast::SpecialLiteralKind::FormFeed, '\x0C'),
-            't' => special(ast::SpecialLiteralKind::Tab, '\t'),
-            'n' => special(ast::SpecialLiteralKind::LineFeed, '\n'),
-            'r' => special(ast::SpecialLiteralKind::CarriageReturn, '\r'),
-            'v' => special(ast::SpecialLiteralKind::VerticalTab, '\x0B'),
-            ' ' if self.ignore_whitespace() => {
-                special(ast::SpecialLiteralKind::Space, ' ')
-            }
-            'A' => Ok(Primitive::Assertion(ast::Assertion {
-                span: span,
-                kind: ast::AssertionKind::StartText,
-            })),
-            'z' => Ok(Primitive::Assertion(ast::Assertion {
-                span: span,
-                kind: ast::AssertionKind::EndText,
-            })),
-            'b' => Ok(Primitive::Assertion(ast::Assertion {
-                span: span,
-                kind: ast::AssertionKind::WordBoundary,
-            })),
-            'B' => Ok(Primitive::Assertion(ast::Assertion {
-                span: span,
-                kind: ast::AssertionKind::NotWordBoundary,
-            })),
-            _ => Err(self.error(span, ast::ErrorKind::EscapeUnrecognized)),
-        }
-    }
-
-    /// Parse an octal representation of a Unicode codepoint up to 3 digits
-    /// long. This expects the parser to be positioned at the first octal
-    /// digit and advances the parser to the first character immediately
-    /// following the octal number. This also assumes that parsing octal
-    /// escapes is enabled.
-    ///
-    /// Assuming the preconditions are met, this routine can never fail.
-    fn parse_octal(&self) -> ast::Literal {
-        use std::char;
-        use std::u32;
-
-        assert!(self.parser().octal);
-        assert!('0' <= self.char() && self.char() <= '7');
-        let start = self.pos();
-        // Parse up to two more digits.
-        while
-            self.bump() &&
-            '0' <= self.char() && self.char() <= '7' &&
-            self.pos().offset - start.offset <= 2
-        {}
-        let end = self.pos();
-        let octal = &self.pattern()[start.offset..end.offset];
-        // Parsing the octal should never fail since the above guarantees a
-        // valid number.
-        let codepoint =
-            u32::from_str_radix(octal, 8).expect("valid octal number");
-        // The max value for 3 digit octal is 0777 = 511 and [0, 511] has no
-        // invalid Unicode scalar values.
-        let c = char::from_u32(codepoint).expect("Unicode scalar value");
-        ast::Literal {
-            span: Span::new(start, end),
-            kind: ast::LiteralKind::Octal,
-            c: c,
-        }
-    }
-
-    /// Parse a hex representation of a Unicode codepoint. This handles both
-    /// hex notations, i.e., `\xFF` and `\x{FFFF}`. This expects the parser to
-    /// be positioned at the `x`, `u` or `U` prefix. The parser is advanced to
-    /// the first character immediately following the hexadecimal literal.
-    fn parse_hex(&self) -> Result<ast::Literal> {
-        assert!(self.char() == 'x'
-                || self.char() == 'u'
-                || self.char() == 'U');
-
-        let hex_kind = match self.char() {
-            'x' => ast::HexLiteralKind::X,
-            'u' => ast::HexLiteralKind::UnicodeShort,
-            _ => ast::HexLiteralKind::UnicodeLong,
-        };
-        if !self.bump_and_bump_space() {
-            return Err(self.error(
-                self.span(),
-                ast::ErrorKind::EscapeUnexpectedEof,
-            ));
-        }
-        if self.char() == '{' {
-            self.parse_hex_brace(hex_kind)
-        } else {
-            self.parse_hex_digits(hex_kind)
-        }
-    }
-
-    /// Parse an N-digit hex representation of a Unicode codepoint. This
-    /// expects the parser to be positioned at the first digit and will advance
-    /// the parser to the first character immediately following the escape
-    /// sequence.
-    ///
-    /// The number of digits given must be 2 (for `\xNN`), 4 (for `\uNNNN`)
-    /// or 8 (for `\UNNNNNNNN`).
-    fn parse_hex_digits(
-        &self,
-        kind: ast::HexLiteralKind,
-    ) -> Result<ast::Literal> {
-        use std::char;
-        use std::u32;
-
-        let mut scratch = self.parser().scratch.borrow_mut();
-        scratch.clear();
-
-        let start = self.pos();
-        for i in 0..kind.digits() {
-            if i > 0 && !self.bump_and_bump_space() {
-                return Err(self.error(
-                    self.span(),
-                    ast::ErrorKind::EscapeUnexpectedEof,
-                ));
-            }
-            if !is_hex(self.char()) {
-                return Err(self.error(
-                    self.span_char(),
-                    ast::ErrorKind::EscapeHexInvalidDigit,
-                ));
-            }
-            scratch.push(self.char());
-        }
-        // The final bump just moves the parser past the literal, which may
-        // be EOF.
-        self.bump_and_bump_space();
-        let end = self.pos();
-        let hex = scratch.as_str();
-        match u32::from_str_radix(hex, 16).ok().and_then(char::from_u32) {
-            None => Err(self.error(
-                Span::new(start, end),
-                ast::ErrorKind::EscapeHexInvalid,
-            )),
-            Some(c) => Ok(ast::Literal {
-                span: Span::new(start, end),
-                kind: ast::LiteralKind::HexFixed(kind),
-                c: c,
-            }),
-        }
-    }
-
-    /// Parse a hex representation of any Unicode scalar value. This expects
-    /// the parser to be positioned at the opening brace `{` and will advance
-    /// the parser to the first character following the closing brace `}`.
-    fn parse_hex_brace(
-        &self,
-        kind: ast::HexLiteralKind,
-    ) -> Result<ast::Literal> {
-        use std::char;
-        use std::u32;
-
-        let mut scratch = self.parser().scratch.borrow_mut();
-        scratch.clear();
-
-        let brace_pos = self.pos();
-        let start = self.span_char().end;
-        while self.bump_and_bump_space() && self.char() != '}' {
-            if !is_hex(self.char()) {
-                return Err(self.error(
-                    self.span_char(),
-                    ast::ErrorKind::EscapeHexInvalidDigit,
-                ));
-            }
-            scratch.push(self.char());
-        }
-        if self.is_eof() {
-            return Err(self.error(
-                Span::new(brace_pos, self.pos()),
-                ast::ErrorKind::EscapeUnexpectedEof,
-            ));
-        }
-        let end = self.pos();
-        let hex = scratch.as_str();
-        assert_eq!(self.char(), '}');
-        self.bump_and_bump_space();
-
-        if hex.is_empty() {
-            return Err(self.error(
-                Span::new(brace_pos, self.pos()),
-                ast::ErrorKind::EscapeHexEmpty,
-            ));
-        }
-        match u32::from_str_radix(hex, 16).ok().and_then(char::from_u32) {
-            None => Err(self.error(
-                Span::new(start, end),
-                ast::ErrorKind::EscapeHexInvalid,
-            )),
-            Some(c) => Ok(ast::Literal {
-                span: Span::new(start, self.pos()),
-                kind: ast::LiteralKind::HexBrace(kind),
-                c: c,
-            }),
-        }
-    }
-
-    /// Parse a decimal number into a u32 while trimming leading and trailing
-    /// whitespace.
-    ///
-    /// This expects the parser to be positioned at the first position where
-    /// a decimal digit could occur. This will advance the parser to the byte
-    /// immediately following the last contiguous decimal digit.
-    ///
-    /// If no decimal digit could be found or if there was a problem parsing
-    /// the complete set of digits into a u32, then an error is returned.
-    fn parse_decimal(&self) -> Result<u32> {
-        let mut scratch = self.parser().scratch.borrow_mut();
-        scratch.clear();
-
-        while !self.is_eof() && self.char().is_whitespace() {
-            self.bump();
-        }
-        let start = self.pos();
-        while !self.is_eof() && '0' <= self.char() && self.char() <= '9' {
-            scratch.push(self.char());
-            self.bump_and_bump_space();
-        }
-        let span = Span::new(start, self.pos());
-        while !self.is_eof() && self.char().is_whitespace() {
-            self.bump_and_bump_space();
-        }
-        let digits = scratch.as_str();
-        if digits.is_empty() {
-            return Err(self.error(span, ast::ErrorKind::DecimalEmpty));
-        }
-        match u32::from_str_radix(digits, 10).ok() {
-            Some(n) => Ok(n),
-            None => Err(self.error(span, ast::ErrorKind::DecimalInvalid)),
-        }
-    }
-
-    /// Parse a standard character class consisting primarily of characters or
-    /// character ranges, but can also contain nested character classes of
-    /// any type (sans `.`).
-    ///
-    /// This assumes the parser is positioned at the opening `[`. If parsing
-    /// is successful, then the parser is advanced to the position immediately
-    /// following the closing `]`.
-    fn parse_set_class(&self) -> Result<ast::Class> {
-        assert_eq!(self.char(), '[');
-
-        let mut union = ast::ClassSetUnion {
-            span: self.span(),
-            items: vec![],
-        };
-        loop {
-            self.bump_space();
-            if self.is_eof() {
-                return Err(self.unclosed_class_error());
-            }
-            match self.char() {
-                '[' => {
-                    // If we've already parsed the opening bracket, then
-                    // attempt to treat this as the beginning of an ASCII
-                    // class. If ASCII class parsing fails, then the parser
-                    // backs up to `[`.
-                    if !self.parser().stack_class.borrow().is_empty() {
-                        if let Some(cls) = self.maybe_parse_ascii_class() {
-                            union.push(ast::ClassSetItem::Ascii(cls));
-                            continue;
-                        }
-                    }
-                    union = self.push_class_open(union)?;
-                }
-                ']' => {
-                    match self.pop_class(union)? {
-                        Either::Left(nested_union) => { union = nested_union; }
-                        Either::Right(class) => return Ok(class),
-                    }
-                }
-                '&' if self.peek() == Some('&') => {
-                    assert!(self.bump_if("&&"));
-                    union = self.push_class_op(
-                        ast::ClassSetBinaryOpKind::Intersection, union);
-                }
-                '-' if self.peek() == Some('-') => {
-                    assert!(self.bump_if("--"));
-                    union = self.push_class_op(
-                        ast::ClassSetBinaryOpKind::Difference, union);
-                }
-                '~' if self.peek() == Some('~') => {
-                    assert!(self.bump_if("~~"));
-                    union = self.push_class_op(
-                        ast::ClassSetBinaryOpKind::SymmetricDifference, union);
-                }
-                _ => {
-                    union.push(self.parse_set_class_range()?);
-                }
-            }
-        }
-    }
-
-    /// Parse a single primitive item in a character class set. The item to
-    /// be parsed can either be one of a simple literal character, a range
-    /// between two simple literal characters or a "primitive" character
-    /// class like \w or \p{Greek}.
-    ///
-    /// If an invalid escape is found, or if a character class is found where
-    /// a simple literal is expected (e.g., in a range), then an error is
-    /// returned.
-    fn parse_set_class_range(&self) -> Result<ast::ClassSetItem> {
-        let prim1 = self.parse_set_class_item()?;
-        self.bump_space();
-        if self.is_eof() {
-            return Err(self.unclosed_class_error());
-        }
-        // If the next char isn't a `-`, then we don't have a range.
-        // There are two exceptions. If the char after a `-` is a `]`, then
-        // `-` is interpreted as a literal `-`. Alternatively, if the char
-        // after a `-` is a `-`, then `--` corresponds to a "difference"
-        // operation.
-        if self.char() != '-'
-            || self.peek_space() == Some(']')
-            || self.peek_space() == Some('-')
-        {
-            return prim1.into_class_set_item(self);
-        }
-        // OK, now we're parsing a range, so bump past the `-` and parse the
-        // second half of the range.
-        if !self.bump_and_bump_space() {
-            return Err(self.unclosed_class_error());
-        }
-        let prim2 = self.parse_set_class_item()?;
-        let range = ast::ClassSetRange {
-            span: Span::new(prim1.span().start, prim2.span().end),
-            start: prim1.into_class_literal(self)?,
-            end: prim2.into_class_literal(self)?,
-        };
-        if !range.is_valid() {
-            return Err(self.error(
-                range.span,
-                ast::ErrorKind::ClassRangeInvalid,
-            ));
-        }
-        Ok(ast::ClassSetItem::Range(range))
-    }
-
-    /// Parse a single item in a character class as a primitive, where the
-    /// primitive either consists of a verbatim literal or a single escape
-    /// sequence.
-    ///
-    /// This assumes the parser is positioned at the beginning of a primitive,
-    /// and advances the parser to the first position after the primitive if
-    /// successful.
-    ///
-    /// Note that it is the caller's responsibility to report an error if an
-    /// illegal primitive was parsed.
-    fn parse_set_class_item(&self) -> Result<Primitive> {
-        if self.char() == '\\' {
-            self.parse_escape()
-        } else {
-            let x = Primitive::Literal(ast::Literal {
-                span: self.span_char(),
-                kind: ast::LiteralKind::Verbatim,
-                c: self.char(),
-            });
-            self.bump();
-            Ok(x)
-        }
-    }
-
-    /// Parses the opening of a character class set. This includes the opening
-    /// bracket along with `^` if present to indicate negation. This also
-    /// starts parsing the opening set of unioned items if applicable, since
-    /// there are special rules applied to certain characters in the opening
-    /// of a character class. For example, `[^]]` is the class of all
-    /// characters not equal to `]`. (`]` would need to be escaped in any other
-    /// position.) Similarly for `-`.
-    ///
-    /// In all cases, the op inside the returned `ast::ClassBracketed` is an
-    /// empty union. This empty union should be replaced with the actual item
-    /// when it is popped from the parser's stack.
-    ///
-    /// This assumes the parser is positioned at the opening `[` and advances
-    /// the parser to the first non-special byte of the character class.
-    ///
-    /// An error is returned if EOF is found.
-    fn parse_set_class_open(
-        &self,
-    ) -> Result<(ast::ClassBracketed, ast::ClassSetUnion)> {
-        assert_eq!(self.char(), '[');
-        let start = self.pos();
-        if !self.bump_and_bump_space() {
-            return Err(self.error(
-                Span::new(start, self.pos()),
-                ast::ErrorKind::ClassUnclosed,
-            ));
-        }
-
-        let negated =
-            if self.char() != '^' {
-                false
-            } else {
-                if !self.bump_and_bump_space() {
-                    return Err(self.error(
-                        Span::new(start, self.pos()),
-                        ast::ErrorKind::ClassUnclosed,
-                    ));
-                }
-                true
-            };
-        // Accept any number of `-` as literal `-`.
-        let mut union = ast::ClassSetUnion {
-            span: self.span(),
-            items: vec![],
-        };
-        while self.char() == '-' {
-            union.push(ast::ClassSetItem::Literal(ast::Literal {
-                span: self.span_char(),
-                kind: ast::LiteralKind::Verbatim,
-                c: '-',
-            }));
-            if !self.bump_and_bump_space() {
-                return Err(self.error(
-                    Span::new(start, self.pos()),
-                    ast::ErrorKind::ClassUnclosed,
-                ));
-            }
-        }
-        // If `]` is the *first* char in a set, then interpret it as a literal
-        // `]`. That is, an empty class is impossible to write.
-        if union.items.is_empty() && self.char() == ']' {
-            union.push(ast::ClassSetItem::Literal(ast::Literal {
-                span: self.span_char(),
-                kind: ast::LiteralKind::Verbatim,
-                c: ']',
-            }));
-            if !self.bump_and_bump_space() {
-                return Err(self.error(
-                    Span::new(start, self.pos()),
-                    ast::ErrorKind::ClassUnclosed,
-                ));
-            }
-        }
-        let set = ast::ClassBracketed {
-            span: Span::new(start, self.pos()),
-            negated: negated,
-            kind: ast::ClassSet::union(ast::ClassSetUnion {
-                span: Span::new(union.span.start, union.span.start),
-                items: vec![],
-            }),
-        };
-        Ok((set, union))
-    }
-
-    /// Attempt to parse an ASCII character class, e.g., `[:alnum:]`.
-    ///
-    /// This assumes the parser is positioned at the opening `[`.
-    ///
-    /// If no valid ASCII character class could be found, then this does not
-    /// advance the parser and `None` is returned. Otherwise, the parser is
-    /// advanced to the first byte following the closing `]` and the
-    /// corresponding ASCII class is returned.
-    fn maybe_parse_ascii_class(&self) -> Option<ast::ClassAscii> {
-        // ASCII character classes are interesting from a parsing perspective
-        // because parsing cannot fail with any interesting error. For example,
-        // in order to use an ASCII character class, it must be enclosed in
-        // double brackets, e.g., `[[:alnum:]]`. Alternatively, you might think
-        // of it as "ASCII character characters have the syntax `[:NAME:]`
-        // which can only appear within character brackets." This means that
-        // things like `[[:lower:]A]` are legal constructs.
-        //
-        // However, if one types an incorrect ASCII character class, e.g.,
-        // `[[:loower:]]`, then we treat that as a normal nested character
-        // class containing the characters `:elorw`. One might argue that we
-        // should return an error instead since the repeated colons give away
-        // the intent to write an ASCII class. But what if the user typed
-        // `[[:lower]]` instead? How can we tell that was intended to be an
-        // ASCII class and not just a normal nested class?
-        //
-        // Reasonable people can probably disagree over this, but for better
-        // or worse, we implement semantics that never fails at the expense
-        // of better failure modes.
-        assert_eq!(self.char(), '[');
-        // If parsing fails, then we back up the parser to this starting point.
-        let start = self.pos();
-        let mut negated = false;
-        if !self.bump() || self.char() != ':' {
-            self.parser().pos.set(start);
-            return None;
-        }
-        if !self.bump() {
-            self.parser().pos.set(start);
-            return None;
-        }
-        if self.char() == '^' {
-            negated = true;
-            if !self.bump() {
-                self.parser().pos.set(start);
-                return None;
-            }
-        }
-        let name_start = self.offset();
-        while self.char() != ':' && self.bump() {}
-        if self.is_eof() {
-            self.parser().pos.set(start);
-            return None;
-        }
-        let name = &self.pattern()[name_start..self.offset()];
-        if !self.bump_if(":]") {
-            self.parser().pos.set(start);
-            return None;
-        }
-        let kind = match ast::ClassAsciiKind::from_name(name) {
-            Some(kind) => kind,
-            None => {
-                self.parser().pos.set(start);
-                return None;
-            }
-        };
-        Some(ast::ClassAscii {
-            span: Span::new(start, self.pos()),
-            kind: kind,
-            negated: negated,
-        })
-    }
-
-    /// Parse a Unicode class in either the single character notation, `\pN`
-    /// or the multi-character bracketed notation, `\p{Greek}`. This assumes
-    /// the parser is positioned at the `p` (or `P` for negation) and will
-    /// advance the parser to the character immediately following the class.
-    ///
-    /// Note that this does not check whether the class name is valid or not.
-    fn parse_unicode_class(&self) -> Result<ast::ClassUnicode> {
-        assert!(self.char() == 'p' || self.char() == 'P');
-
-        let mut scratch = self.parser().scratch.borrow_mut();
-        scratch.clear();
-
-        let negated = self.char() == 'P';
-        if !self.bump_and_bump_space() {
-            return Err(self.error(
-                self.span(),
-                ast::ErrorKind::EscapeUnexpectedEof,
-            ));
-        }
-        let (start, kind) =
-            if self.char() == '{' {
-                let start = self.span_char().end;
-                while self.bump_and_bump_space() && self.char() != '}' {
-                    scratch.push(self.char());
-                }
-                if self.is_eof() {
-                    return Err(self.error(
-                        self.span(),
-                        ast::ErrorKind::EscapeUnexpectedEof,
-                    ));
-                }
-                assert_eq!(self.char(), '}');
-                self.bump();
-
-                let name = scratch.as_str();
-                if let Some(i) = name.find("!=") {
-                    (start, ast::ClassUnicodeKind::NamedValue {
-                        op: ast::ClassUnicodeOpKind::NotEqual,
-                        name: name[..i].to_string(),
-                        value: name[i+2..].to_string(),
-                    })
-                } else if let Some(i) = name.find(':') {
-                    (start, ast::ClassUnicodeKind::NamedValue {
-                        op: ast::ClassUnicodeOpKind::Colon,
-                        name: name[..i].to_string(),
-                        value: name[i+1..].to_string(),
-                    })
-                } else if let Some(i) = name.find('=') {
-                    (start, ast::ClassUnicodeKind::NamedValue {
-                        op: ast::ClassUnicodeOpKind::Equal,
-                        name: name[..i].to_string(),
-                        value: name[i+1..].to_string(),
-                    })
-                } else {
-                    (start, ast::ClassUnicodeKind::Named(name.to_string()))
-                }
-            } else {
-                let start = self.pos();
-                let c = self.char();
-                self.bump_and_bump_space();
-                let kind = ast::ClassUnicodeKind::OneLetter(c);
-                (start, kind)
-            };
-        Ok(ast::ClassUnicode {
-            span: Span::new(start, self.pos()),
-            negated: negated,
-            kind: kind,
-        })
-    }
-
-    /// Parse a Perl character class, e.g., `\d` or `\W`. This assumes the
-    /// parser is currently at a valid character class name and will be
-    /// advanced to the character immediately following the class.
-    fn parse_perl_class(&self) -> ast::ClassPerl {
-        let c = self.char();
-        let span = self.span_char();
-        self.bump();
-        let (negated, kind) = match c {
-            'd' => (false, ast::ClassPerlKind::Digit),
-            'D' => (true, ast::ClassPerlKind::Digit),
-            's' => (false, ast::ClassPerlKind::Space),
-            'S' => (true, ast::ClassPerlKind::Space),
-            'w' => (false, ast::ClassPerlKind::Word),
-            'W' => (true, ast::ClassPerlKind::Word),
-            c => panic!("expected valid Perl class but got '{}'", c),
-        };
-        ast::ClassPerl { span: span, kind: kind, negated: negated }
-    }
-}
-
-/// A type that traverses a fully parsed Ast and checks whether its depth
-/// exceeds the specified nesting limit. If it does, then an error is returned.
-#[derive(Debug)]
-struct NestLimiter<'p, 's: 'p, P: 'p + 's> {
-    /// The parser that is checking the nest limit.
-    p: &'p ParserI<'s, P>,
-    /// The current depth while walking an Ast.
-    depth: u32,
-}
-
-impl<'p, 's, P: Borrow<Parser>> NestLimiter<'p, 's, P> {
-    fn new(p: &'p ParserI<'s, P>) -> NestLimiter<'p, 's, P> {
-        NestLimiter { p: p, depth: 0 }
-    }
-
-    fn check(self, ast: &Ast) -> Result<()> {
-        ast::visit(ast, self)
-    }
-
-    fn increment_depth(&mut self, span: &Span) -> Result<()> {
-        let new = self.depth.checked_add(1).ok_or_else(|| self.p.error(
-            span.clone(),
-            ast::ErrorKind::NestLimitExceeded(::std::u32::MAX),
-        ))?;
-        let limit = self.p.parser().nest_limit;
-        if new > limit {
-            return Err(self.p.error(
-                span.clone(),
-                ast::ErrorKind::NestLimitExceeded(limit),
-            ));
-        }
-        self.depth = new;
-        Ok(())
-    }
-
-    fn decrement_depth(&mut self) {
-        // Assuming the correctness of the visitor, this should never drop
-        // below 0.
-        self.depth = self.depth.checked_sub(1).unwrap();
-    }
-}
-
-impl<'p, 's, P: Borrow<Parser>> ast::Visitor for NestLimiter<'p, 's, P> {
-    type Output = ();
-    type Err = ast::Error;
-
-    fn finish(self) -> Result<()> {
-        Ok(())
-    }
-
-    fn visit_pre(&mut self, ast: &Ast) -> Result<()> {
-        let span = match *ast {
-            Ast::Empty(_)
-            | Ast::Flags(_)
-            | Ast::Literal(_)
-            | Ast::Dot(_)
-            | Ast::Assertion(_)
-            | Ast::Class(ast::Class::Unicode(_))
-            | Ast::Class(ast::Class::Perl(_)) => {
-                // These are all base cases, so we don't increment depth.
-                return Ok(());
-            }
-            Ast::Class(ast::Class::Bracketed(ref x)) => &x.span,
-            Ast::Repetition(ref x) => &x.span,
-            Ast::Group(ref x) => &x.span,
-            Ast::Alternation(ref x) => &x.span,
-            Ast::Concat(ref x) => &x.span,
-        };
-        self.increment_depth(span)
-    }
-
-    fn visit_post(&mut self, ast: &Ast) -> Result<()> {
-        match *ast {
-            Ast::Empty(_)
-            | Ast::Flags(_)
-            | Ast::Literal(_)
-            | Ast::Dot(_)
-            | Ast::Assertion(_)
-            | Ast::Class(ast::Class::Unicode(_))
-            | Ast::Class(ast::Class::Perl(_)) => {
-                // These are all base cases, so we don't decrement depth.
-                Ok(())
-            }
-            Ast::Class(ast::Class::Bracketed(_))
-            | Ast::Repetition(_)
-            | Ast::Group(_)
-            | Ast::Alternation(_)
-            | Ast::Concat(_) => {
-                self.decrement_depth();
-                Ok(())
-            }
-        }
-    }
-
-    fn visit_class_set_item_pre(
-        &mut self,
-        ast: &ast::ClassSetItem,
-    ) -> Result<()> {
-        let span = match *ast {
-            ast::ClassSetItem::Empty(_)
-            | ast::ClassSetItem::Literal(_)
-            | ast::ClassSetItem::Range(_)
-            | ast::ClassSetItem::Ascii(_)
-            | ast::ClassSetItem::Unicode(_)
-            | ast::ClassSetItem::Perl(_) => {
-                // These are all base cases, so we don't increment depth.
-                return Ok(());
-            }
-            ast::ClassSetItem::Bracketed(ref x) => &x.span,
-            ast::ClassSetItem::Union(ref x) => &x.span,
-        };
-        self.increment_depth(span)
-    }
-
-    fn visit_class_set_item_post(
-        &mut self,
-        ast: &ast::ClassSetItem,
-    ) -> Result<()> {
-        match *ast {
-            ast::ClassSetItem::Empty(_)
-            | ast::ClassSetItem::Literal(_)
-            | ast::ClassSetItem::Range(_)
-            | ast::ClassSetItem::Ascii(_)
-            | ast::ClassSetItem::Unicode(_)
-            | ast::ClassSetItem::Perl(_) => {
-                // These are all base cases, so we don't decrement depth.
-                Ok(())
-            }
-            ast::ClassSetItem::Bracketed(_)
-            | ast::ClassSetItem::Union(_) => {
-                self.decrement_depth();
-                Ok(())
-            }
-        }
-    }
-
-    fn visit_class_set_binary_op_pre(
-        &mut self,
-        ast: &ast::ClassSetBinaryOp,
-    ) -> Result<()> {
-        self.increment_depth(&ast.span)
-    }
-
-    fn visit_class_set_binary_op_post(
-        &mut self,
-        _ast: &ast::ClassSetBinaryOp,
-    ) -> Result<()> {
-        self.decrement_depth();
-        Ok(())
-    }
-}
-
-/// When the result is an error, transforms the ast::ErrorKind from the source
-/// Result into another one. This function is used to return clearer error
-/// messages when possible.
-fn specialize_err<T>(
-    result: Result<T>,
-    from: ast::ErrorKind,
-    to: ast::ErrorKind,
-) -> Result<T> {
-    if let Err(e) = result {
-        if e.kind == from {
-            Err(ast::Error {
-                kind: to,
-                pattern: e.pattern,
-                span: e.span,
-            })
-        } else {
-            Err(e)
-        }
-    } else {
-        result
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use std::ops::Range;
-
-    use ast::{self, Ast, Position, Span};
-    use super::{Parser, ParserI, ParserBuilder, Primitive};
-
-    // Our own assert_eq, which has slightly better formatting (but honestly
-    // still kind of crappy).
-    macro_rules! assert_eq {
-        ($left:expr, $right:expr) => ({
-            match (&$left, &$right) {
-                (left_val, right_val) => {
-                    if !(*left_val == *right_val) {
-                        panic!("assertion failed: `(left == right)`\n\n\
-                               left:  `{:?}`\nright: `{:?}`\n\n",
-                               left_val, right_val)
-                    }
-                }
-            }
-        });
-    }
-
-    // We create these errors to compare with real ast::Errors in the tests.
-    // We define equality between TestError and ast::Error to disregard the
-    // pattern string in ast::Error, which is annoying to provide in tests.
-    #[derive(Clone, Debug)]
-    struct TestError {
-        span: Span,
-        kind: ast::ErrorKind,
-    }
-
-    impl PartialEq<ast::Error> for TestError {
-        fn eq(&self, other: &ast::Error) -> bool {
-            self.span == other.span && self.kind == other.kind
-        }
-    }
-
-    impl PartialEq<TestError> for ast::Error {
-        fn eq(&self, other: &TestError) -> bool {
-            self.span == other.span && self.kind == other.kind
-        }
-    }
-
-    fn s(str: &str) -> String {
-        str.to_string()
-    }
-
-    fn parser(pattern: &str) -> ParserI<Parser> {
-        ParserI::new(Parser::new(), pattern)
-    }
-
-    fn parser_octal(pattern: &str) -> ParserI<Parser> {
-        let parser = ParserBuilder::new().octal(true).build();
-        ParserI::new(parser, pattern)
-    }
-
-    fn parser_nest_limit(pattern: &str, nest_limit: u32) -> ParserI<Parser> {
-        let p = ParserBuilder::new().nest_limit(nest_limit).build();
-        ParserI::new(p, pattern)
-    }
-
-    fn parser_ignore_whitespace(pattern: &str) -> ParserI<Parser> {
-        let p = ParserBuilder::new().ignore_whitespace(true).build();
-        ParserI::new(p, pattern)
-    }
-
-    /// Short alias for creating a new span.
-    fn nspan(start: Position, end: Position) -> Span {
-        Span::new(start, end)
-    }
-
-    /// Short alias for creating a new position.
-    fn npos(offset: usize, line: usize, column: usize) -> Position {
-        Position::new(offset, line, column)
-    }
-
-    /// Create a new span from the given offset range. This assumes a single
-    /// line and sets the columns based on the offsets. i.e., This only works
-    /// out of the box for ASCII, which is fine for most tests.
-    fn span(range: Range<usize>) -> Span {
-        let start = Position::new(range.start, 1, range.start + 1);
-        let end = Position::new(range.end, 1, range.end + 1);
-        Span::new(start, end)
-    }
-
-    /// Create a new span for the corresponding byte range in the given string.
-    fn span_range(subject: &str, range: Range<usize>) -> Span {
-        let start = Position {
-            offset: range.start,
-            line: 1 + subject[..range.start].matches('\n').count(),
-            column: 1 + subject[..range.start]
-                .chars()
-                .rev()
-                .position(|c| c == '\n')
-                .unwrap_or(subject[..range.start].chars().count()),
-        };
-        let end = Position {
-            offset: range.end,
-            line: 1 + subject[..range.end].matches('\n').count(),
-            column: 1 + subject[..range.end]
-                .chars()
-                .rev()
-                .position(|c| c == '\n')
-                .unwrap_or(subject[..range.end].chars().count()),
-        };
-        Span::new(start, end)
-    }
-
-    /// Create a verbatim literal starting at the given position.
-    fn lit(c: char, start: usize) -> Ast {
-        lit_with(c, span(start..start + c.len_utf8()))
-    }
-
-    /// Create a punctuation literal starting at the given position.
-    fn punct_lit(c: char, span: Span) -> Ast {
-        Ast::Literal(ast::Literal {
-            span: span,
-            kind: ast::LiteralKind::Punctuation,
-            c: c,
-        })
-    }
-
-    /// Create a verbatim literal with the given span.
-    fn lit_with(c: char, span: Span) -> Ast {
-        Ast::Literal(ast::Literal {
-            span: span,
-            kind: ast::LiteralKind::Verbatim,
-            c: c,
-        })
-    }
-
-    /// Create a concatenation with the given range.
-    fn concat(range: Range<usize>, asts: Vec<Ast>) -> Ast {
-        concat_with(span(range), asts)
-    }
-
-    /// Create a concatenation with the given span.
-    fn concat_with(span: Span, asts: Vec<Ast>) -> Ast {
-        Ast::Concat(ast::Concat { span: span, asts: asts })
-    }
-
-    /// Create an alternation with the given span.
-    fn alt(range: Range<usize>, asts: Vec<Ast>) -> Ast {
-        Ast::Alternation(ast::Alternation { span: span(range), asts: asts })
-    }
-
-    /// Create a capturing group with the given span.
-    fn group(range: Range<usize>, index: u32, ast: Ast) -> Ast {
-        Ast::Group(ast::Group {
-            span: span(range),
-            kind: ast::GroupKind::CaptureIndex(index),
-            ast: Box::new(ast),
-        })
-    }
-
-    /// Create an ast::SetFlags.
-    ///
-    /// The given pattern should be the full pattern string. The range given
-    /// should correspond to the byte offsets where the flag set occurs.
-    ///
-    /// If negated is true, then the set is interpreted as beginning with a
-    /// negation.
-    fn flag_set(
-        pat: &str,
-        range: Range<usize>,
-        flag: ast::Flag,
-        negated: bool,
-    ) -> Ast {
-        let mut items = vec![
-            ast::FlagsItem {
-                span: span_range(pat, (range.end - 2)..(range.end - 1)),
-                kind: ast::FlagsItemKind::Flag(flag),
-            },
-        ];
-        if negated {
-            items.insert(0, ast::FlagsItem {
-                span: span_range(pat, (range.start + 2)..(range.end - 2)),
-                kind: ast::FlagsItemKind::Negation,
-            });
-        }
-        Ast::Flags(ast::SetFlags {
-            span: span_range(pat, range.clone()),
-            flags: ast::Flags {
-                span: span_range(pat, (range.start + 2)..(range.end - 1)),
-                items: items,
-            },
-        })
-    }
-
-    #[test]
-    fn parse_nest_limit() {
-        // A nest limit of 0 still allows some types of regexes.
-        assert_eq!(
-            parser_nest_limit("", 0).parse(),
-            Ok(Ast::Empty(span(0..0))));
-        assert_eq!(
-            parser_nest_limit("a", 0).parse(),
-            Ok(lit('a', 0)));
-
-        // Test repetition operations, which require one level of nesting.
-        assert_eq!(
-            parser_nest_limit("a+", 0).parse().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::NestLimitExceeded(0),
-            });
-        assert_eq!(
-            parser_nest_limit("a+", 1).parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..2),
-                op: ast::RepetitionOp {
-                    span: span(1..2),
-                    kind: ast::RepetitionKind::OneOrMore,
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser_nest_limit("(a)+", 1).parse().unwrap_err(),
-            TestError {
-                span: span(0..3),
-                kind: ast::ErrorKind::NestLimitExceeded(1),
-            });
-        assert_eq!(
-            parser_nest_limit("a+*", 1).parse().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::NestLimitExceeded(1),
-            });
-        assert_eq!(
-            parser_nest_limit("a+*", 2).parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..3),
-                op: ast::RepetitionOp {
-                    span: span(2..3),
-                    kind: ast::RepetitionKind::ZeroOrMore,
-                },
-                greedy: true,
-                ast: Box::new(Ast::Repetition(ast::Repetition {
-                    span: span(0..2),
-                    op: ast::RepetitionOp {
-                        span: span(1..2),
-                        kind: ast::RepetitionKind::OneOrMore,
-                    },
-                    greedy: true,
-                    ast: Box::new(lit('a', 0)),
-                })),
-            })));
-
-        // Test concatenations. A concatenation requires one level of nesting.
-        assert_eq!(
-            parser_nest_limit("ab", 0).parse().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::NestLimitExceeded(0),
-            });
-        assert_eq!(
-            parser_nest_limit("ab", 1).parse(),
-            Ok(concat(0..2, vec![lit('a', 0), lit('b', 1)])));
-        assert_eq!(
-            parser_nest_limit("abc", 1).parse(),
-            Ok(concat(0..3, vec![lit('a', 0), lit('b', 1), lit('c', 2)])));
-
-        // Test alternations. An alternation requires one level of nesting.
-        assert_eq!(
-            parser_nest_limit("a|b", 0).parse().unwrap_err(),
-            TestError {
-                span: span(0..3),
-                kind: ast::ErrorKind::NestLimitExceeded(0),
-            });
-        assert_eq!(
-            parser_nest_limit("a|b", 1).parse(),
-            Ok(alt(0..3, vec![lit('a', 0), lit('b', 2)])));
-        assert_eq!(
-            parser_nest_limit("a|b|c", 1).parse(),
-            Ok(alt(0..5, vec![lit('a', 0), lit('b', 2), lit('c', 4)])));
-
-        // Test character classes. Classes form their own mini-recursive
-        // syntax!
-        assert_eq!(
-            parser_nest_limit("[a]", 0).parse().unwrap_err(),
-            TestError {
-                span: span(0..3),
-                kind: ast::ErrorKind::NestLimitExceeded(0),
-            });
-        assert_eq!(
-            parser_nest_limit("[a]", 1).parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..3),
-                negated: false,
-                kind: ast::ClassSet::Item(
-                    ast::ClassSetItem::Literal(ast::Literal {
-                        span: span(1..2),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: 'a',
-                    })
-                ),
-            }))));
-        assert_eq!(
-            parser_nest_limit("[ab]", 1).parse().unwrap_err(),
-            TestError {
-                span: span(1..3),
-                kind: ast::ErrorKind::NestLimitExceeded(1),
-            });
-        assert_eq!(
-            parser_nest_limit("[ab[cd]]", 2).parse().unwrap_err(),
-            TestError {
-                span: span(3..7),
-                kind: ast::ErrorKind::NestLimitExceeded(2),
-            });
-        assert_eq!(
-            parser_nest_limit("[ab[cd]]", 3).parse().unwrap_err(),
-            TestError {
-                span: span(4..6),
-                kind: ast::ErrorKind::NestLimitExceeded(3),
-            });
-        assert_eq!(
-            parser_nest_limit("[a--b]", 1).parse().unwrap_err(),
-            TestError {
-                span: span(1..5),
-                kind: ast::ErrorKind::NestLimitExceeded(1),
-            });
-        assert_eq!(
-            parser_nest_limit("[a--bc]", 2).parse().unwrap_err(),
-            TestError {
-                span: span(4..6),
-                kind: ast::ErrorKind::NestLimitExceeded(2),
-            });
-    }
-
-    #[test]
-    fn parse_comments() {
-        let pat = "(?x)
-# This is comment 1.
-foo # This is comment 2.
-  # This is comment 3.
-bar
-# This is comment 4.";
-        let astc = parser(pat).parse_with_comments().unwrap();
-        assert_eq!(
-            astc.ast,
-            concat_with(span_range(pat, 0..pat.len()), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                lit_with('f', span_range(pat, 26..27)),
-                lit_with('o', span_range(pat, 27..28)),
-                lit_with('o', span_range(pat, 28..29)),
-                lit_with('b', span_range(pat, 74..75)),
-                lit_with('a', span_range(pat, 75..76)),
-                lit_with('r', span_range(pat, 76..77)),
-            ]));
-        assert_eq!(astc.comments, vec![
-            ast::Comment {
-                span: span_range(pat, 5..26),
-                comment: s(" This is comment 1."),
-            },
-            ast::Comment {
-                span: span_range(pat, 30..51),
-                comment: s(" This is comment 2."),
-            },
-            ast::Comment {
-                span: span_range(pat, 53..74),
-                comment: s(" This is comment 3."),
-            },
-            ast::Comment {
-                span: span_range(pat, 78..98),
-                comment: s(" This is comment 4."),
-            },
-        ]);
-    }
-
-    #[test]
-    fn parse_holistic() {
-        assert_eq!(
-            parser("]").parse(),
-            Ok(lit(']', 0)));
-        assert_eq!(
-            parser(r"\\\.\+\*\?\(\)\|\[\]\{\}\^\$\#\&\-\~").parse(),
-            Ok(concat(0..36, vec![
-                punct_lit('\\', span(0..2)),
-                punct_lit('.', span(2..4)),
-                punct_lit('+', span(4..6)),
-                punct_lit('*', span(6..8)),
-                punct_lit('?', span(8..10)),
-                punct_lit('(', span(10..12)),
-                punct_lit(')', span(12..14)),
-                punct_lit('|', span(14..16)),
-                punct_lit('[', span(16..18)),
-                punct_lit(']', span(18..20)),
-                punct_lit('{', span(20..22)),
-                punct_lit('}', span(22..24)),
-                punct_lit('^', span(24..26)),
-                punct_lit('$', span(26..28)),
-                punct_lit('#', span(28..30)),
-                punct_lit('&', span(30..32)),
-                punct_lit('-', span(32..34)),
-                punct_lit('~', span(34..36)),
-            ])));
-    }
-
-    #[test]
-    fn parse_ignore_whitespace() {
-        // Test that basic whitespace insensitivity works.
-        let pat = "(?x)a b";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(nspan(npos(0, 1, 1), npos(7, 1, 8)), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                lit_with('a', nspan(npos(4, 1, 5), npos(5, 1, 6))),
-                lit_with('b', nspan(npos(6, 1, 7), npos(7, 1, 8))),
-            ])));
-
-        // Test that we can toggle whitespace insensitivity.
-        let pat = "(?x)a b(?-x)a b";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(nspan(npos(0, 1, 1), npos(15, 1, 16)), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                lit_with('a', nspan(npos(4, 1, 5), npos(5, 1, 6))),
-                lit_with('b', nspan(npos(6, 1, 7), npos(7, 1, 8))),
-                flag_set(pat, 7..12, ast::Flag::IgnoreWhitespace, true),
-                lit_with('a', nspan(npos(12, 1, 13), npos(13, 1, 14))),
-                lit_with(' ', nspan(npos(13, 1, 14), npos(14, 1, 15))),
-                lit_with('b', nspan(npos(14, 1, 15), npos(15, 1, 16))),
-            ])));
-
-        // Test that nesting whitespace insensitive flags works.
-        let pat = "a (?x:a )a ";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..11), vec![
-                lit_with('a', span_range(pat, 0..1)),
-                lit_with(' ', span_range(pat, 1..2)),
-                Ast::Group(ast::Group {
-                    span: span_range(pat, 2..9),
-                    kind: ast::GroupKind::NonCapturing(ast::Flags {
-                        span: span_range(pat, 4..5),
-                        items: vec![
-                            ast::FlagsItem {
-                                span: span_range(pat, 4..5),
-                                kind: ast::FlagsItemKind::Flag(
-                                    ast::Flag::IgnoreWhitespace),
-                            },
-                        ],
-                    }),
-                    ast: Box::new(lit_with('a', span_range(pat, 6..7))),
-                }),
-                lit_with('a', span_range(pat, 9..10)),
-                lit_with(' ', span_range(pat, 10..11)),
-            ])));
-
-        // Test that whitespace after an opening paren is insignificant.
-        let pat = "(?x)( ?P<foo> a )";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..pat.len()), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                Ast::Group(ast::Group {
-                    span: span_range(pat, 4..pat.len()),
-                    kind: ast::GroupKind::CaptureName(ast::CaptureName {
-                        span: span_range(pat, 9..12),
-                        name: s("foo"),
-                        index: 1,
-                    }),
-                    ast: Box::new(lit_with('a', span_range(pat, 14..15))),
-                }),
-            ])));
-        let pat = "(?x)(  a )";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..pat.len()), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                Ast::Group(ast::Group {
-                    span: span_range(pat, 4..pat.len()),
-                    kind: ast::GroupKind::CaptureIndex(1),
-                    ast: Box::new(lit_with('a', span_range(pat, 7..8))),
-                }),
-            ])));
-        let pat = "(?x)(  ?:  a )";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..pat.len()), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                Ast::Group(ast::Group {
-                    span: span_range(pat, 4..pat.len()),
-                    kind: ast::GroupKind::NonCapturing(ast::Flags {
-                        span: span_range(pat, 8..8),
-                        items: vec![],
-                    }),
-                    ast: Box::new(lit_with('a', span_range(pat, 11..12))),
-                }),
-            ])));
-        let pat = r"(?x)\x { 53 }";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..pat.len()), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                Ast::Literal(ast::Literal {
-                    span: span(4..13),
-                    kind: ast::LiteralKind::HexBrace(ast::HexLiteralKind::X),
-                    c: 'S',
-                }),
-            ])));
-
-        // Test that whitespace after an escape is OK.
-        let pat = r"(?x)\ ";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..pat.len()), vec![
-                flag_set(pat, 0..4, ast::Flag::IgnoreWhitespace, false),
-                Ast::Literal(ast::Literal {
-                    span: span_range(pat, 4..6),
-                    kind: ast::LiteralKind::Special(
-                        ast::SpecialLiteralKind::Space),
-                    c: ' ',
-                }),
-            ])));
-        // ... but only when `x` mode is enabled.
-        let pat = r"\ ";
-        assert_eq!(
-            parser(pat).parse().unwrap_err(),
-            TestError {
-                span: span_range(pat, 0..2),
-                kind: ast::ErrorKind::EscapeUnrecognized,
-            });
-    }
-
-    #[test]
-    fn parse_newlines() {
-        let pat = ".\n.";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..3), vec![
-                Ast::Dot(span_range(pat, 0..1)),
-                lit_with('\n', span_range(pat, 1..2)),
-                Ast::Dot(span_range(pat, 2..3)),
-            ])));
-
-        let pat = "foobar\nbaz\nquux\n";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(concat_with(span_range(pat, 0..pat.len()), vec![
-                lit_with('f', nspan(npos(0, 1, 1), npos(1, 1, 2))),
-                lit_with('o', nspan(npos(1, 1, 2), npos(2, 1, 3))),
-                lit_with('o', nspan(npos(2, 1, 3), npos(3, 1, 4))),
-                lit_with('b', nspan(npos(3, 1, 4), npos(4, 1, 5))),
-                lit_with('a', nspan(npos(4, 1, 5), npos(5, 1, 6))),
-                lit_with('r', nspan(npos(5, 1, 6), npos(6, 1, 7))),
-                lit_with('\n', nspan(npos(6, 1, 7), npos(7, 2, 1))),
-                lit_with('b', nspan(npos(7, 2, 1), npos(8, 2, 2))),
-                lit_with('a', nspan(npos(8, 2, 2), npos(9, 2, 3))),
-                lit_with('z', nspan(npos(9, 2, 3), npos(10, 2, 4))),
-                lit_with('\n', nspan(npos(10, 2, 4), npos(11, 3, 1))),
-                lit_with('q', nspan(npos(11, 3, 1), npos(12, 3, 2))),
-                lit_with('u', nspan(npos(12, 3, 2), npos(13, 3, 3))),
-                lit_with('u', nspan(npos(13, 3, 3), npos(14, 3, 4))),
-                lit_with('x', nspan(npos(14, 3, 4), npos(15, 3, 5))),
-                lit_with('\n', nspan(npos(15, 3, 5), npos(16, 4, 1))),
-            ])));
-    }
-
-    #[test]
-    fn parse_uncounted_repetition() {
-        assert_eq!(
-            parser(r"a*").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..2),
-                op: ast::RepetitionOp {
-                    span: span(1..2),
-                    kind: ast::RepetitionKind::ZeroOrMore,
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a+").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..2),
-                op: ast::RepetitionOp {
-                    span: span(1..2),
-                    kind: ast::RepetitionKind::OneOrMore,
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-
-        assert_eq!(
-            parser(r"a?").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..2),
-                op: ast::RepetitionOp {
-                    span: span(1..2),
-                    kind: ast::RepetitionKind::ZeroOrOne,
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a??").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..3),
-                op: ast::RepetitionOp {
-                    span: span(1..3),
-                    kind: ast::RepetitionKind::ZeroOrOne,
-                },
-                greedy: false,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a?").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..2),
-                op: ast::RepetitionOp {
-                    span: span(1..2),
-                    kind: ast::RepetitionKind::ZeroOrOne,
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a?b").parse(),
-            Ok(concat(0..3, vec![
-                Ast::Repetition(ast::Repetition {
-                    span: span(0..2),
-                    op: ast::RepetitionOp {
-                        span: span(1..2),
-                        kind: ast::RepetitionKind::ZeroOrOne,
-                    },
-                    greedy: true,
-                    ast: Box::new(lit('a', 0)),
-                }),
-                lit('b', 2),
-            ])));
-        assert_eq!(
-            parser(r"a??b").parse(),
-            Ok(concat(0..4, vec![
-                Ast::Repetition(ast::Repetition {
-                    span: span(0..3),
-                    op: ast::RepetitionOp {
-                        span: span(1..3),
-                        kind: ast::RepetitionKind::ZeroOrOne,
-                    },
-                    greedy: false,
-                    ast: Box::new(lit('a', 0)),
-                }),
-                lit('b', 3),
-            ])));
-        assert_eq!(
-            parser(r"ab?").parse(),
-            Ok(concat(0..3, vec![
-                lit('a', 0),
-                Ast::Repetition(ast::Repetition {
-                    span: span(1..3),
-                    op: ast::RepetitionOp {
-                        span: span(2..3),
-                        kind: ast::RepetitionKind::ZeroOrOne,
-                    },
-                    greedy: true,
-                    ast: Box::new(lit('b', 1)),
-                }),
-            ])));
-        assert_eq!(
-            parser(r"(ab)?").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..5),
-                op: ast::RepetitionOp {
-                    span: span(4..5),
-                    kind: ast::RepetitionKind::ZeroOrOne,
-                },
-                greedy: true,
-                ast: Box::new(group(0..4, 1, concat(1..3, vec![
-                    lit('a', 1),
-                    lit('b', 2),
-                ]))),
-            })));
-        assert_eq!(
-            parser(r"|a?").parse(),
-            Ok(alt(0..3, vec![
-                Ast::Empty(span(0..0)),
-                Ast::Repetition(ast::Repetition {
-                    span: span(1..3),
-                    op: ast::RepetitionOp {
-                        span: span(2..3),
-                        kind: ast::RepetitionKind::ZeroOrOne,
-                    },
-                    greedy: true,
-                    ast: Box::new(lit('a', 1)),
-                }),
-            ])));
-
-        assert_eq!(
-            parser(r"*").parse().unwrap_err(),
-            TestError {
-                span: span(0..0),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"(?i)*").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"(*)").parse().unwrap_err(),
-            TestError {
-                span: span(1..1),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"(?:?)").parse().unwrap_err(),
-            TestError {
-                span: span(3..3),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"+").parse().unwrap_err(),
-            TestError {
-                span: span(0..0),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"?").parse().unwrap_err(),
-            TestError {
-                span: span(0..0),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"(?)").parse().unwrap_err(),
-            TestError {
-                span: span(1..1),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"|*").parse().unwrap_err(),
-            TestError {
-                span: span(1..1),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"|+").parse().unwrap_err(),
-            TestError {
-                span: span(1..1),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"|?").parse().unwrap_err(),
-            TestError {
-                span: span(1..1),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-    }
-
-    #[test]
-    fn parse_counted_repetition() {
-        assert_eq!(
-            parser(r"a{5}").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..4),
-                op: ast::RepetitionOp {
-                    span: span(1..4),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::Exactly(5)),
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a{5,}").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..5),
-                op: ast::RepetitionOp {
-                    span: span(1..5),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::AtLeast(5)),
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a{5,9}").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..6),
-                op: ast::RepetitionOp {
-                    span: span(1..6),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::Bounded(5, 9)),
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a{5}?").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..5),
-                op: ast::RepetitionOp {
-                    span: span(1..5),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::Exactly(5)),
-                },
-                greedy: false,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"ab{5}").parse(),
-            Ok(concat(0..5, vec![
-                lit('a', 0),
-                Ast::Repetition(ast::Repetition {
-                    span: span(1..5),
-                    op: ast::RepetitionOp {
-                        span: span(2..5),
-                        kind: ast::RepetitionKind::Range(
-                            ast::RepetitionRange::Exactly(5)),
-                    },
-                    greedy: true,
-                    ast: Box::new(lit('b', 1)),
-                }),
-            ])));
-        assert_eq!(
-            parser(r"ab{5}c").parse(),
-            Ok(concat(0..6, vec![
-                lit('a', 0),
-                Ast::Repetition(ast::Repetition {
-                    span: span(1..5),
-                    op: ast::RepetitionOp {
-                        span: span(2..5),
-                        kind: ast::RepetitionKind::Range(
-                            ast::RepetitionRange::Exactly(5)),
-                    },
-                    greedy: true,
-                    ast: Box::new(lit('b', 1)),
-                }),
-                lit('c', 5),
-            ])));
-
-        assert_eq!(
-            parser(r"a{ 5 }").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..6),
-                op: ast::RepetitionOp {
-                    span: span(1..6),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::Exactly(5)),
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser(r"a{ 5 , 9 }").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..10),
-                op: ast::RepetitionOp {
-                    span: span(1..10),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::Bounded(5, 9)),
-                },
-                greedy: true,
-                ast: Box::new(lit('a', 0)),
-            })));
-        assert_eq!(
-            parser_ignore_whitespace(r"a{5,9} ?").parse(),
-            Ok(Ast::Repetition(ast::Repetition {
-                span: span(0..8),
-                op: ast::RepetitionOp {
-                    span: span(1..8),
-                    kind: ast::RepetitionKind::Range(
-                        ast::RepetitionRange::Bounded(5, 9)),
-                },
-                greedy: false,
-                ast: Box::new(lit('a', 0)),
-            })));
-
-        assert_eq!(
-            parser(r"(?i){0}").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"(?m){1,1}").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"a{]}").parse().unwrap_err(),
-            TestError {
-                span: span(2..2),
-                kind: ast::ErrorKind::RepetitionCountDecimalEmpty,
-            });
-        assert_eq!(
-            parser(r"a{1,]}").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::RepetitionCountDecimalEmpty,
-            });
-        assert_eq!(
-            parser(r"a{").parse().unwrap_err(),
-            TestError {
-                span: span(1..2),
-                kind: ast::ErrorKind::RepetitionCountUnclosed,
-            });
-        assert_eq!(
-            parser(r"a{}").parse().unwrap_err(),
-            TestError {
-                span: span(2..2),
-                kind: ast::ErrorKind::RepetitionCountDecimalEmpty,
-            });
-        assert_eq!(
-            parser(r"a{a").parse().unwrap_err(),
-            TestError {
-                span: span(2..2),
-                kind: ast::ErrorKind::RepetitionCountDecimalEmpty,
-            });
-        assert_eq!(
-            parser(r"a{9999999999}").parse().unwrap_err(),
-            TestError {
-                span: span(2..12),
-                kind: ast::ErrorKind::DecimalInvalid,
-            });
-        assert_eq!(
-            parser(r"a{9").parse().unwrap_err(),
-            TestError {
-                span: span(1..3),
-                kind: ast::ErrorKind::RepetitionCountUnclosed,
-            });
-        assert_eq!(
-            parser(r"a{9,a").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::RepetitionCountDecimalEmpty,
-            });
-        assert_eq!(
-            parser(r"a{9,9999999999}").parse().unwrap_err(),
-            TestError {
-                span: span(4..14),
-                kind: ast::ErrorKind::DecimalInvalid,
-            });
-        assert_eq!(
-            parser(r"a{9,").parse().unwrap_err(),
-            TestError {
-                span: span(1..4),
-                kind: ast::ErrorKind::RepetitionCountUnclosed,
-            });
-        assert_eq!(
-            parser(r"a{9,11").parse().unwrap_err(),
-            TestError {
-                span: span(1..6),
-                kind: ast::ErrorKind::RepetitionCountUnclosed,
-            });
-        assert_eq!(
-            parser(r"a{2,1}").parse().unwrap_err(),
-            TestError {
-                span: span(1..6),
-                kind: ast::ErrorKind::RepetitionCountInvalid,
-            });
-        assert_eq!(
-            parser(r"{5}").parse().unwrap_err(),
-            TestError {
-                span: span(0..0),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-        assert_eq!(
-            parser(r"|{5}").parse().unwrap_err(),
-            TestError {
-                span: span(1..1),
-                kind: ast::ErrorKind::RepetitionMissing,
-            });
-    }
-
-    #[test]
-    fn parse_alternate() {
-        assert_eq!(
-            parser(r"a|b").parse(),
-            Ok(Ast::Alternation(ast::Alternation {
-                span: span(0..3),
-                asts: vec![lit('a', 0), lit('b', 2)],
-            })));
-        assert_eq!(
-            parser(r"(a|b)").parse(),
-            Ok(group(0..5, 1, Ast::Alternation(ast::Alternation {
-                span: span(1..4),
-                asts: vec![lit('a', 1), lit('b', 3)],
-            }))));
-
-        assert_eq!(
-            parser(r"a|b|c").parse(),
-            Ok(Ast::Alternation(ast::Alternation {
-                span: span(0..5),
-                asts: vec![lit('a', 0), lit('b', 2), lit('c', 4)],
-            })));
-        assert_eq!(
-            parser(r"ax|by|cz").parse(),
-            Ok(Ast::Alternation(ast::Alternation {
-                span: span(0..8),
-                asts: vec![
-                    concat(0..2, vec![lit('a', 0), lit('x', 1)]),
-                    concat(3..5, vec![lit('b', 3), lit('y', 4)]),
-                    concat(6..8, vec![lit('c', 6), lit('z', 7)]),
-                ],
-            })));
-        assert_eq!(
-            parser(r"(ax|by|cz)").parse(),
-            Ok(group(0..10, 1, Ast::Alternation(ast::Alternation {
-                span: span(1..9),
-                asts: vec![
-                    concat(1..3, vec![lit('a', 1), lit('x', 2)]),
-                    concat(4..6, vec![lit('b', 4), lit('y', 5)]),
-                    concat(7..9, vec![lit('c', 7), lit('z', 8)]),
-                ],
-            }))));
-        assert_eq!(
-            parser(r"(ax|(by|(cz)))").parse(),
-            Ok(group(0..14, 1, alt(1..13, vec![
-                concat(1..3, vec![lit('a', 1), lit('x', 2)]),
-                group(4..13, 2, alt(5..12, vec![
-                    concat(5..7, vec![lit('b', 5), lit('y', 6)]),
-                    group(8..12, 3, concat(9..11, vec![
-                        lit('c', 9),
-                        lit('z', 10),
-                    ])),
-                ])),
-            ]))));
-
-        assert_eq!(
-            parser(r"|").parse(), Ok(alt(0..1, vec![
-                Ast::Empty(span(0..0)), Ast::Empty(span(1..1)),
-            ])));
-        assert_eq!(
-            parser(r"||").parse(), Ok(alt(0..2, vec![
-                Ast::Empty(span(0..0)),
-                Ast::Empty(span(1..1)),
-                Ast::Empty(span(2..2)),
-            ])));
-        assert_eq!(
-            parser(r"a|").parse(), Ok(alt(0..2, vec![
-                lit('a', 0), Ast::Empty(span(2..2)),
-            ])));
-        assert_eq!(
-            parser(r"|a").parse(), Ok(alt(0..2, vec![
-                Ast::Empty(span(0..0)), lit('a', 1),
-            ])));
-
-        assert_eq!(
-            parser(r"(|)").parse(), Ok(group(0..3, 1, alt(1..2, vec![
-                Ast::Empty(span(1..1)), Ast::Empty(span(2..2)),
-            ]))));
-        assert_eq!(
-            parser(r"(a|)").parse(), Ok(group(0..4, 1, alt(1..3, vec![
-                lit('a', 1), Ast::Empty(span(3..3)),
-            ]))));
-        assert_eq!(
-            parser(r"(|a)").parse(), Ok(group(0..4, 1, alt(1..3, vec![
-                Ast::Empty(span(1..1)), lit('a', 2),
-            ]))));
-
-        assert_eq!(
-            parser(r"a|b)").parse().unwrap_err(),
-            TestError {
-                span: span(3..4),
-                kind: ast::ErrorKind::GroupUnopened,
-            });
-        assert_eq!(
-            parser(r"(a|b").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::GroupUnclosed,
-            });
-    }
-
-    #[test]
-    fn parse_unsupported_lookaround() {
-        assert_eq!(
-            parser(r"(?=a)").parse().unwrap_err(),
-            TestError {
-                span: span(0..3),
-                kind: ast::ErrorKind::UnsupportedLookAround,
-            });
-        assert_eq!(
-            parser(r"(?!a)").parse().unwrap_err(),
-            TestError {
-                span: span(0..3),
-                kind: ast::ErrorKind::UnsupportedLookAround,
-            });
-        assert_eq!(
-            parser(r"(?<=a)").parse().unwrap_err(),
-            TestError {
-                span: span(0..4),
-                kind: ast::ErrorKind::UnsupportedLookAround,
-            });
-        assert_eq!(
-            parser(r"(?<!a)").parse().unwrap_err(),
-            TestError {
-                span: span(0..4),
-                kind: ast::ErrorKind::UnsupportedLookAround,
-            });
-    }
-
-    #[test]
-    fn parse_group() {
-        assert_eq!(parser("(?i)").parse(), Ok(Ast::Flags(ast::SetFlags {
-            span: span(0..4),
-            flags: ast::Flags {
-                span: span(2..3),
-                items: vec![ast::FlagsItem {
-                    span: span(2..3),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive),
-                }],
-            },
-        })));
-        assert_eq!(parser("(?iU)").parse(), Ok(Ast::Flags(ast::SetFlags {
-            span: span(0..5),
-            flags: ast::Flags {
-                span: span(2..4),
-                items: vec![
-                    ast::FlagsItem {
-                        span: span(2..3),
-                        kind: ast::FlagsItemKind::Flag(
-                            ast::Flag::CaseInsensitive),
-                    },
-                    ast::FlagsItem {
-                        span: span(3..4),
-                        kind: ast::FlagsItemKind::Flag(ast::Flag::SwapGreed),
-                    },
-                ],
-            },
-        })));
-        assert_eq!(parser("(?i-U)").parse(), Ok(Ast::Flags(ast::SetFlags {
-            span: span(0..6),
-            flags: ast::Flags {
-                span: span(2..5),
-                items: vec![
-                    ast::FlagsItem {
-                        span: span(2..3),
-                        kind: ast::FlagsItemKind::Flag(
-                            ast::Flag::CaseInsensitive),
-                    },
-                    ast::FlagsItem {
-                        span: span(3..4),
-                        kind: ast::FlagsItemKind::Negation,
-                    },
-                    ast::FlagsItem {
-                        span: span(4..5),
-                        kind: ast::FlagsItemKind::Flag(ast::Flag::SwapGreed),
-                    },
-                ],
-            },
-        })));
-
-        assert_eq!(parser("()").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..2),
-            kind: ast::GroupKind::CaptureIndex(1),
-            ast: Box::new(Ast::Empty(span(1..1))),
-        })));
-        assert_eq!(parser("(a)").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..3),
-            kind: ast::GroupKind::CaptureIndex(1),
-            ast: Box::new(lit('a', 1)),
-        })));
-        assert_eq!(parser("(())").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..4),
-            kind: ast::GroupKind::CaptureIndex(1),
-            ast: Box::new(Ast::Group(ast::Group {
-                span: span(1..3),
-                kind: ast::GroupKind::CaptureIndex(2),
-                ast: Box::new(Ast::Empty(span(2..2))),
-            })),
-        })));
-
-        assert_eq!(parser("(?:a)").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..5),
-            kind: ast::GroupKind::NonCapturing(ast::Flags {
-                span: span(2..2),
-                items: vec![],
-            }),
-            ast: Box::new(lit('a', 3)),
-        })));
-
-        assert_eq!(parser("(?i:a)").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..6),
-            kind: ast::GroupKind::NonCapturing(ast::Flags {
-                span: span(2..3),
-                items: vec![
-                    ast::FlagsItem {
-                        span: span(2..3),
-                        kind: ast::FlagsItemKind::Flag(
-                            ast::Flag::CaseInsensitive),
-                    },
-                ],
-            }),
-            ast: Box::new(lit('a', 4)),
-        })));
-        assert_eq!(parser("(?i-U:a)").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..8),
-            kind: ast::GroupKind::NonCapturing(ast::Flags {
-                span: span(2..5),
-                items: vec![
-                    ast::FlagsItem {
-                        span: span(2..3),
-                        kind: ast::FlagsItemKind::Flag(
-                            ast::Flag::CaseInsensitive),
-                    },
-                    ast::FlagsItem {
-                        span: span(3..4),
-                        kind: ast::FlagsItemKind::Negation,
-                    },
-                    ast::FlagsItem {
-                        span: span(4..5),
-                        kind: ast::FlagsItemKind::Flag(ast::Flag::SwapGreed),
-                    },
-                ],
-            }),
-            ast: Box::new(lit('a', 6)),
-        })));
-
-        assert_eq!(
-            parser("(").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::GroupUnclosed,
-            });
-        assert_eq!(
-            parser("(?").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::GroupUnclosed,
-            });
-        assert_eq!(
-            parser("(?P").parse().unwrap_err(),
-            TestError {
-                span: span(2..3),
-                kind: ast::ErrorKind::FlagUnrecognized,
-            });
-        assert_eq!(
-            parser("(?P<").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::GroupNameUnexpectedEof,
-            });
-        assert_eq!(
-            parser("(a").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::GroupUnclosed,
-            });
-        assert_eq!(
-            parser("(()").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::GroupUnclosed,
-            });
-        assert_eq!(
-            parser(")").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::GroupUnopened,
-            });
-        assert_eq!(
-            parser("a)").parse().unwrap_err(),
-            TestError {
-                span: span(1..2),
-                kind: ast::ErrorKind::GroupUnopened,
-            });
-    }
-
-    #[test]
-    fn parse_capture_name() {
-        assert_eq!(parser("(?P<a>z)").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..8),
-            kind: ast::GroupKind::CaptureName(ast::CaptureName {
-                span: span(4..5),
-                name: s("a"),
-                index: 1,
-            }),
-            ast: Box::new(lit('z', 6)),
-        })));
-        assert_eq!(parser("(?P<abc>z)").parse(), Ok(Ast::Group(ast::Group {
-            span: span(0..10),
-            kind: ast::GroupKind::CaptureName(ast::CaptureName {
-                span: span(4..7),
-                name: s("abc"),
-                index: 1,
-            }),
-            ast: Box::new(lit('z', 8)),
-        })));
-
-        assert_eq!(
-            parser("(?P<").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::GroupNameUnexpectedEof,
-            });
-        assert_eq!(
-            parser("(?P<>z)").parse().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::GroupNameEmpty,
-            });
-        assert_eq!(
-            parser("(?P<a").parse().unwrap_err(),
-            TestError {
-                span: span(5..5),
-                kind: ast::ErrorKind::GroupNameUnexpectedEof,
-            });
-        assert_eq!(
-            parser("(?P<ab").parse().unwrap_err(),
-            TestError {
-                span: span(6..6),
-                kind: ast::ErrorKind::GroupNameUnexpectedEof,
-            });
-        assert_eq!(
-            parser("(?P<0a").parse().unwrap_err(),
-            TestError {
-                span: span(4..5),
-                kind: ast::ErrorKind::GroupNameInvalid,
-            });
-        assert_eq!(
-            parser("(?P<~").parse().unwrap_err(),
-            TestError {
-                span: span(4..5),
-                kind: ast::ErrorKind::GroupNameInvalid,
-            });
-        assert_eq!(
-            parser("(?P<abc~").parse().unwrap_err(),
-            TestError {
-                span: span(7..8),
-                kind: ast::ErrorKind::GroupNameInvalid,
-            });
-        assert_eq!(
-            parser("(?P<a>y)(?P<a>z)").parse().unwrap_err(),
-            TestError {
-                span: span(12..13),
-                kind: ast::ErrorKind::GroupNameDuplicate {
-                    original: span(4..5),
-                },
-            });
-    }
-
-    #[test]
-    fn parse_flags() {
-        assert_eq!(parser("i:").parse_flags(), Ok(ast::Flags {
-            span: span(0..1),
-            items: vec![ast::FlagsItem {
-                span: span(0..1),
-                kind: ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive),
-            }],
-        }));
-        assert_eq!(parser("i)").parse_flags(), Ok(ast::Flags {
-            span: span(0..1),
-            items: vec![ast::FlagsItem {
-                span: span(0..1),
-                kind: ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive),
-            }],
-        }));
-
-        assert_eq!(parser("isU:").parse_flags(), Ok(ast::Flags {
-            span: span(0..3),
-            items: vec![
-                ast::FlagsItem {
-                    span: span(0..1),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive),
-                },
-                ast::FlagsItem {
-                    span: span(1..2),
-                    kind: ast::FlagsItemKind::Flag(
-                        ast::Flag::DotMatchesNewLine),
-                },
-                ast::FlagsItem {
-                    span: span(2..3),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::SwapGreed),
-                },
-            ],
-        }));
-
-        assert_eq!(parser("-isU:").parse_flags(), Ok(ast::Flags {
-            span: span(0..4),
-            items: vec![
-                ast::FlagsItem {
-                    span: span(0..1),
-                    kind: ast::FlagsItemKind::Negation,
-                },
-                ast::FlagsItem {
-                    span: span(1..2),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive),
-                },
-                ast::FlagsItem {
-                    span: span(2..3),
-                    kind: ast::FlagsItemKind::Flag(
-                        ast::Flag::DotMatchesNewLine),
-                },
-                ast::FlagsItem {
-                    span: span(3..4),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::SwapGreed),
-                },
-            ],
-        }));
-        assert_eq!(parser("i-sU:").parse_flags(), Ok(ast::Flags {
-            span: span(0..4),
-            items: vec![
-                ast::FlagsItem {
-                    span: span(0..1),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive),
-                },
-                ast::FlagsItem {
-                    span: span(1..2),
-                    kind: ast::FlagsItemKind::Negation,
-                },
-                ast::FlagsItem {
-                    span: span(2..3),
-                    kind: ast::FlagsItemKind::Flag(
-                        ast::Flag::DotMatchesNewLine),
-                },
-                ast::FlagsItem {
-                    span: span(3..4),
-                    kind: ast::FlagsItemKind::Flag(ast::Flag::SwapGreed),
-                },
-            ],
-        }));
-
-        assert_eq!(
-            parser("isU").parse_flags().unwrap_err(),
-            TestError {
-                span: span(3..3),
-                kind: ast::ErrorKind::FlagUnexpectedEof,
-            });
-        assert_eq!(
-            parser("isUa:").parse_flags().unwrap_err(),
-            TestError {
-                span: span(3..4),
-                kind: ast::ErrorKind::FlagUnrecognized,
-            });
-        assert_eq!(
-            parser("isUi:").parse_flags().unwrap_err(),
-            TestError {
-                span: span(3..4),
-                kind: ast::ErrorKind::FlagDuplicate {
-                    original: span(0..1),
-                },
-            });
-        assert_eq!(
-            parser("i-sU-i:").parse_flags().unwrap_err(),
-            TestError {
-                span: span(4..5),
-                kind: ast::ErrorKind::FlagRepeatedNegation {
-                    original: span(1..2),
-                },
-            });
-        assert_eq!(
-            parser("-)").parse_flags().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::FlagDanglingNegation,
-            });
-        assert_eq!(
-            parser("i-)").parse_flags().unwrap_err(),
-            TestError {
-                span: span(1..2),
-                kind: ast::ErrorKind::FlagDanglingNegation,
-            });
-        assert_eq!(
-            parser("iU-)").parse_flags().unwrap_err(),
-            TestError {
-                span: span(2..3),
-                kind: ast::ErrorKind::FlagDanglingNegation,
-            });
-    }
-
-    #[test]
-    fn parse_flag() {
-        assert_eq!(parser("i").parse_flag(), Ok(ast::Flag::CaseInsensitive));
-        assert_eq!(parser("m").parse_flag(), Ok(ast::Flag::MultiLine));
-        assert_eq!(parser("s").parse_flag(), Ok(ast::Flag::DotMatchesNewLine));
-        assert_eq!(parser("U").parse_flag(), Ok(ast::Flag::SwapGreed));
-        assert_eq!(parser("u").parse_flag(), Ok(ast::Flag::Unicode));
-        assert_eq!(parser("x").parse_flag(), Ok(ast::Flag::IgnoreWhitespace));
-
-        assert_eq!(
-            parser("a").parse_flag().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::FlagUnrecognized,
-            });
-        assert_eq!(
-            parser("☃").parse_flag().unwrap_err(),
-            TestError {
-                span: span_range("☃", 0..3),
-                kind: ast::ErrorKind::FlagUnrecognized,
-            });
-    }
-
-    #[test]
-    fn parse_primitive_non_escape() {
-        assert_eq!(
-            parser(r".").parse_primitive(),
-            Ok(Primitive::Dot(span(0..1))));
-        assert_eq!(
-            parser(r"^").parse_primitive(),
-            Ok(Primitive::Assertion(ast::Assertion {
-                span: span(0..1),
-                kind: ast::AssertionKind::StartLine,
-            })));
-        assert_eq!(
-            parser(r"$").parse_primitive(),
-            Ok(Primitive::Assertion(ast::Assertion {
-                span: span(0..1),
-                kind: ast::AssertionKind::EndLine,
-            })));
-
-        assert_eq!(
-            parser(r"a").parse_primitive(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..1),
-                kind: ast::LiteralKind::Verbatim,
-                c: 'a',
-            })));
-        assert_eq!(
-            parser(r"|").parse_primitive(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..1),
-                kind: ast::LiteralKind::Verbatim,
-                c: '|',
-            })));
-        assert_eq!(
-            parser(r"☃").parse_primitive(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span_range("☃", 0..3),
-                kind: ast::LiteralKind::Verbatim,
-                c: '☃',
-            })));
-    }
-
-    #[test]
-    fn parse_escape() {
-        assert_eq!(
-            parser(r"\|").parse_primitive(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..2),
-                kind: ast::LiteralKind::Punctuation,
-                c: '|',
-            })));
-        let specials = &[
-            (r"\a", '\x07', ast::SpecialLiteralKind::Bell),
-            (r"\f", '\x0C', ast::SpecialLiteralKind::FormFeed),
-            (r"\t", '\t', ast::SpecialLiteralKind::Tab),
-            (r"\n", '\n', ast::SpecialLiteralKind::LineFeed),
-            (r"\r", '\r', ast::SpecialLiteralKind::CarriageReturn),
-            (r"\v", '\x0B', ast::SpecialLiteralKind::VerticalTab),
-        ];
-        for &(pat, c, ref kind) in specials {
-            assert_eq!(
-                parser(pat).parse_primitive(),
-                Ok(Primitive::Literal(ast::Literal {
-                    span: span(0..2),
-                    kind: ast::LiteralKind::Special(kind.clone()),
-                    c: c,
-                })));
-        }
-        assert_eq!(
-            parser(r"\A").parse_primitive(),
-            Ok(Primitive::Assertion(ast::Assertion {
-                span: span(0..2),
-                kind: ast::AssertionKind::StartText,
-            })));
-        assert_eq!(
-            parser(r"\z").parse_primitive(),
-            Ok(Primitive::Assertion(ast::Assertion {
-                span: span(0..2),
-                kind: ast::AssertionKind::EndText,
-            })));
-        assert_eq!(
-            parser(r"\b").parse_primitive(),
-            Ok(Primitive::Assertion(ast::Assertion {
-                span: span(0..2),
-                kind: ast::AssertionKind::WordBoundary,
-            })));
-        assert_eq!(
-            parser(r"\B").parse_primitive(),
-            Ok(Primitive::Assertion(ast::Assertion {
-                span: span(0..2),
-                kind: ast::AssertionKind::NotWordBoundary,
-            })));
-
-        assert_eq!(
-            parser(r"\").parse_escape().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\y").parse_escape().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::EscapeUnrecognized,
-            });
-    }
-
-    #[test]
-    fn parse_unsupported_backreference() {
-        assert_eq!(
-            parser(r"\0").parse_escape().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::UnsupportedBackreference,
-            });
-        assert_eq!(
-            parser(r"\9").parse_escape().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::UnsupportedBackreference,
-            });
-    }
-
-    #[test]
-    fn parse_octal() {
-        for i in 0..511 {
-            let pat = format!(r"\{:o}", i);
-            assert_eq!(
-                parser_octal(&pat).parse_escape(),
-                Ok(Primitive::Literal(ast::Literal {
-                    span: span(0..pat.len()),
-                    kind: ast::LiteralKind::Octal,
-                    c: ::std::char::from_u32(i).unwrap(),
-                })));
-        }
-        assert_eq!(
-            parser_octal(r"\778").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..3),
-                kind: ast::LiteralKind::Octal,
-                c: '?',
-            })));
-        assert_eq!(
-            parser_octal(r"\7777").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..4),
-                kind: ast::LiteralKind::Octal,
-                c: '\u{01FF}',
-            })));
-        assert_eq!(
-            parser_octal(r"\778").parse(),
-            Ok(Ast::Concat(ast::Concat {
-                span: span(0..4),
-                asts: vec![
-                    Ast::Literal(ast::Literal {
-                        span: span(0..3),
-                        kind: ast::LiteralKind::Octal,
-                        c: '?',
-                    }),
-                    Ast::Literal(ast::Literal {
-                        span: span(3..4),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: '8',
-                    }),
-                ],
-            })));
-        assert_eq!(
-            parser_octal(r"\7777").parse(),
-            Ok(Ast::Concat(ast::Concat {
-                span: span(0..5),
-                asts: vec![
-                    Ast::Literal(ast::Literal {
-                        span: span(0..4),
-                        kind: ast::LiteralKind::Octal,
-                        c: '\u{01FF}',
-                    }),
-                    Ast::Literal(ast::Literal {
-                        span: span(4..5),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: '7',
-                    }),
-                ],
-            })));
-
-        assert_eq!(
-            parser_octal(r"\8").parse_escape().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::EscapeUnrecognized,
-            });
-    }
-
-    #[test]
-    fn parse_hex_two() {
-        for i in 0..256 {
-            let pat = format!(r"\x{:02x}", i);
-            assert_eq!(
-                parser(&pat).parse_escape(),
-                Ok(Primitive::Literal(ast::Literal {
-                    span: span(0..pat.len()),
-                    kind: ast::LiteralKind::HexFixed(ast::HexLiteralKind::X),
-                    c: ::std::char::from_u32(i).unwrap(),
-                })));
-        }
-
-        assert_eq!(
-            parser(r"\xF").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..3),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\xG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..3),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\xFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..4),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-    }
-
-    #[test]
-    fn parse_hex_four() {
-        for i in 0..65536 {
-            let c = match ::std::char::from_u32(i) {
-                None => continue,
-                Some(c) => c,
-            };
-            let pat = format!(r"\u{:04x}", i);
-            assert_eq!(
-                parser(&pat).parse_escape(),
-                Ok(Primitive::Literal(ast::Literal {
-                    span: span(0..pat.len()),
-                    kind: ast::LiteralKind::HexFixed(
-                        ast::HexLiteralKind::UnicodeShort),
-                    c: c,
-                })));
-        }
-
-        assert_eq!(
-            parser(r"\uF").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..3),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\uG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..3),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\uFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..4),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\uFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(4..5),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\uFFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(5..6),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\uD800").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..6),
-                kind: ast::ErrorKind::EscapeHexInvalid,
-            });
-    }
-
-    #[test]
-    fn parse_hex_eight() {
-        for i in 0..65536 {
-            let c = match ::std::char::from_u32(i) {
-                None => continue,
-                Some(c) => c,
-            };
-            let pat = format!(r"\U{:08x}", i);
-            assert_eq!(
-                parser(&pat).parse_escape(),
-                Ok(Primitive::Literal(ast::Literal {
-                    span: span(0..pat.len()),
-                    kind: ast::LiteralKind::HexFixed(
-                        ast::HexLiteralKind::UnicodeLong),
-                    c: c,
-                })));
-        }
-
-        assert_eq!(
-            parser(r"\UF").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..3),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\UG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..3),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..4),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(4..5),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(5..6),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFFFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(6..7),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFFFFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(7..8),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFFFFFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(8..9),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\UFFFFFFFG").parse_escape().unwrap_err(),
-            TestError {
-                span: span(9..10),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-    }
-
-    #[test]
-    fn parse_hex_brace() {
-        assert_eq!(
-            parser(r"\u{26c4}").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..8),
-                kind: ast::LiteralKind::HexBrace(
-                    ast::HexLiteralKind::UnicodeShort),
-                c: '⛄',
-            })));
-        assert_eq!(
-            parser(r"\U{26c4}").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..8),
-                kind: ast::LiteralKind::HexBrace(
-                    ast::HexLiteralKind::UnicodeLong),
-                c: '⛄',
-            })));
-        assert_eq!(
-            parser(r"\x{26c4}").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..8),
-                kind: ast::LiteralKind::HexBrace(ast::HexLiteralKind::X),
-                c: '⛄',
-            })));
-        assert_eq!(
-            parser(r"\x{26C4}").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..8),
-                kind: ast::LiteralKind::HexBrace(ast::HexLiteralKind::X),
-                c: '⛄',
-            })));
-        assert_eq!(
-            parser(r"\x{10fFfF}").parse_escape(),
-            Ok(Primitive::Literal(ast::Literal {
-                span: span(0..10),
-                kind: ast::LiteralKind::HexBrace(ast::HexLiteralKind::X),
-                c: '\u{10FFFF}',
-            })));
-
-        assert_eq!(
-            parser(r"\x").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..2),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\x{").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..3),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\x{FF").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..5),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\x{}").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..4),
-                kind: ast::ErrorKind::EscapeHexEmpty,
-            });
-        assert_eq!(
-            parser(r"\x{FGF}").parse_escape().unwrap_err(),
-            TestError {
-                span: span(4..5),
-                kind: ast::ErrorKind::EscapeHexInvalidDigit,
-            });
-        assert_eq!(
-            parser(r"\x{FFFFFF}").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..9),
-                kind: ast::ErrorKind::EscapeHexInvalid,
-            });
-        assert_eq!(
-            parser(r"\x{D800}").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..7),
-                kind: ast::ErrorKind::EscapeHexInvalid,
-            });
-        assert_eq!(
-            parser(r"\x{FFFFFFFFF}").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..12),
-                kind: ast::ErrorKind::EscapeHexInvalid,
-            });
-    }
-
-    #[test]
-    fn parse_decimal() {
-        assert_eq!(parser("123").parse_decimal(), Ok(123));
-        assert_eq!(parser("0").parse_decimal(), Ok(0));
-        assert_eq!(parser("01").parse_decimal(), Ok(1));
-
-        assert_eq!(
-            parser("-1").parse_decimal().unwrap_err(),
-            TestError {
-                span: span(0..0),
-                kind: ast::ErrorKind::DecimalEmpty,
-            });
-        assert_eq!(
-            parser("").parse_decimal().unwrap_err(),
-            TestError {
-                span: span(0..0),
-                kind: ast::ErrorKind::DecimalEmpty,
-            });
-        assert_eq!(
-            parser("9999999999").parse_decimal().unwrap_err(),
-            TestError {
-                span: span(0..10),
-                kind: ast::ErrorKind::DecimalInvalid,
-            });
-    }
-
-    #[test]
-    fn parse_set_class() {
-        fn union(span: Span, items: Vec<ast::ClassSetItem>) -> ast::ClassSet {
-            ast::ClassSet::union(ast::ClassSetUnion {
-                span: span,
-                items: items,
-            })
-        }
-
-        fn intersection(
-            span: Span,
-            lhs: ast::ClassSet,
-            rhs: ast::ClassSet,
-        ) -> ast::ClassSet {
-            ast::ClassSet::BinaryOp(ast::ClassSetBinaryOp {
-                span: span,
-                kind: ast::ClassSetBinaryOpKind::Intersection,
-                lhs: Box::new(lhs),
-                rhs: Box::new(rhs),
-            })
-        }
-
-        fn difference(
-            span: Span,
-            lhs: ast::ClassSet,
-            rhs: ast::ClassSet,
-        ) -> ast::ClassSet {
-            ast::ClassSet::BinaryOp(ast::ClassSetBinaryOp {
-                span: span,
-                kind: ast::ClassSetBinaryOpKind::Difference,
-                lhs: Box::new(lhs),
-                rhs: Box::new(rhs),
-            })
-        }
-
-        fn symdifference(
-            span: Span,
-            lhs: ast::ClassSet,
-            rhs: ast::ClassSet,
-        ) -> ast::ClassSet {
-            ast::ClassSet::BinaryOp(ast::ClassSetBinaryOp {
-                span: span,
-                kind: ast::ClassSetBinaryOpKind::SymmetricDifference,
-                lhs: Box::new(lhs),
-                rhs: Box::new(rhs),
-            })
-        }
-
-        fn itemset(item: ast::ClassSetItem) -> ast::ClassSet {
-            ast::ClassSet::Item(item)
-        }
-
-        fn item_ascii(cls: ast::ClassAscii) -> ast::ClassSetItem {
-            ast::ClassSetItem::Ascii(cls)
-        }
-
-        fn item_unicode(cls: ast::ClassUnicode) -> ast::ClassSetItem {
-            ast::ClassSetItem::Unicode(cls)
-        }
-
-        fn item_perl(cls: ast::ClassPerl) -> ast::ClassSetItem {
-            ast::ClassSetItem::Perl(cls)
-        }
-
-        fn item_bracket(cls: ast::ClassBracketed) -> ast::ClassSetItem {
-            ast::ClassSetItem::Bracketed(Box::new(cls))
-        }
-
-        fn lit(span: Span, c: char) -> ast::ClassSetItem {
-            ast::ClassSetItem::Literal(ast::Literal {
-                span: span,
-                kind: ast::LiteralKind::Verbatim,
-                c: c,
-            })
-        }
-
-        fn empty(span: Span) -> ast::ClassSetItem {
-            ast::ClassSetItem::Empty(span)
-        }
-
-        fn range(span: Span, start: char, end: char) -> ast::ClassSetItem {
-            let pos1 = Position {
-                offset: span.start.offset + start.len_utf8(),
-                column: span.start.column + 1,
-                ..span.start
-            };
-            let pos2 = Position {
-                offset: span.end.offset - end.len_utf8(),
-                column: span.end.column - 1,
-                ..span.end
-            };
-            ast::ClassSetItem::Range(ast::ClassSetRange {
-                span: span,
-                start: ast::Literal {
-                    span: Span { end: pos1, ..span },
-                    kind: ast::LiteralKind::Verbatim,
-                    c: start,
-                },
-                end: ast::Literal {
-                    span: Span { start: pos2, ..span },
-                    kind: ast::LiteralKind::Verbatim,
-                    c: end,
-                },
-            })
-        }
-
-        fn alnum(span: Span, negated: bool) -> ast::ClassAscii {
-            ast::ClassAscii {
-                span: span,
-                kind: ast::ClassAsciiKind::Alnum,
-                negated: negated,
-            }
-        }
-
-        fn lower(span: Span, negated: bool) -> ast::ClassAscii {
-            ast::ClassAscii {
-                span: span,
-                kind: ast::ClassAsciiKind::Lower,
-                negated: negated,
-            }
-        }
-
-        assert_eq!(
-            parser("[[:alnum:]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..11),
-                negated: false,
-                kind: itemset(item_ascii(alnum(span(1..10), false))),
-            }))));
-        assert_eq!(
-            parser("[[[:alnum:]]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..13),
-                negated: false,
-                kind: itemset(item_bracket(ast::ClassBracketed {
-                    span: span(1..12),
-                    negated: false,
-                    kind: itemset(item_ascii(alnum(span(2..11), false))),
-                })),
-            }))));
-        assert_eq!(
-            parser("[[:alnum:]&&[:lower:]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..22),
-                negated: false,
-                kind: intersection(
-                    span(1..21),
-                    itemset(item_ascii(alnum(span(1..10), false))),
-                    itemset(item_ascii(lower(span(12..21), false))),
-                ),
-            }))));
-        assert_eq!(
-            parser("[[:alnum:]--[:lower:]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..22),
-                negated: false,
-                kind: difference(
-                    span(1..21),
-                    itemset(item_ascii(alnum(span(1..10), false))),
-                    itemset(item_ascii(lower(span(12..21), false))),
-                ),
-            }))));
-        assert_eq!(
-            parser("[[:alnum:]~~[:lower:]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..22),
-                negated: false,
-                kind: symdifference(
-                    span(1..21),
-                    itemset(item_ascii(alnum(span(1..10), false))),
-                    itemset(item_ascii(lower(span(12..21), false))),
-                ),
-            }))));
-
-        assert_eq!(
-            parser("[a]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..3),
-                negated: false,
-                kind: itemset(lit(span(1..2), 'a')),
-            }))));
-        assert_eq!(
-            parser(r"[a\]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..5),
-                negated: false,
-                kind: union(span(1..4), vec![
-                    lit(span(1..2), 'a'),
-                    ast::ClassSetItem::Literal(ast::Literal {
-                        span: span(2..4),
-                        kind: ast::LiteralKind::Punctuation,
-                        c: ']',
-                    }),
-                ]),
-            }))));
-        assert_eq!(
-            parser(r"[a\-z]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..6),
-                negated: false,
-                kind: union(span(1..5), vec![
-                    lit(span(1..2), 'a'),
-                    ast::ClassSetItem::Literal(ast::Literal {
-                        span: span(2..4),
-                        kind: ast::LiteralKind::Punctuation,
-                        c: '-',
-                    }),
-                    lit(span(4..5), 'z'),
-                ]),
-            }))));
-        assert_eq!(
-            parser("[ab]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..4),
-                negated: false,
-                kind: union(span(1..3), vec![
-                    lit(span(1..2), 'a'),
-                    lit(span(2..3), 'b'),
-                ]),
-            }))));
-        assert_eq!(
-            parser("[a-]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..4),
-                negated: false,
-                kind: union(span(1..3), vec![
-                    lit(span(1..2), 'a'),
-                    lit(span(2..3), '-'),
-                ]),
-            }))));
-        assert_eq!(
-            parser("[-a]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..4),
-                negated: false,
-                kind: union(span(1..3), vec![
-                    lit(span(1..2), '-'),
-                    lit(span(2..3), 'a'),
-                ]),
-            }))));
-        assert_eq!(
-            parser(r"[\pL]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..5),
-                negated: false,
-                kind: itemset(item_unicode(ast::ClassUnicode {
-                    span: span(1..4),
-                    negated: false,
-                    kind: ast::ClassUnicodeKind::OneLetter('L'),
-                })),
-            }))));
-        assert_eq!(
-            parser(r"[\w]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..4),
-                negated: false,
-                kind: itemset(item_perl(ast::ClassPerl {
-                    span: span(1..3),
-                    kind: ast::ClassPerlKind::Word,
-                    negated: false,
-                })),
-            }))));
-        assert_eq!(
-            parser(r"[a\wz]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..6),
-                negated: false,
-                kind: union(span(1..5), vec![
-                    lit(span(1..2), 'a'),
-                    item_perl(ast::ClassPerl {
-                        span: span(2..4),
-                        kind: ast::ClassPerlKind::Word,
-                        negated: false,
-                    }),
-                    lit(span(4..5), 'z'),
-                ]),
-            }))));
-
-        assert_eq!(
-            parser("[a-z]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..5),
-                negated: false,
-                kind: itemset(range(span(1..4), 'a', 'z')),
-            }))));
-        assert_eq!(
-            parser("[a-cx-z]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..8),
-                negated: false,
-                kind: union(span(1..7), vec![
-                    range(span(1..4), 'a', 'c'),
-                    range(span(4..7), 'x', 'z'),
-                ]),
-            }))));
-        assert_eq!(
-            parser(r"[\w&&a-cx-z]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..12),
-                negated: false,
-                kind: intersection(
-                    span(1..11),
-                    itemset(item_perl(ast::ClassPerl {
-                        span: span(1..3),
-                        kind: ast::ClassPerlKind::Word,
-                        negated: false,
-                    })),
-                    union(span(5..11), vec![
-                        range(span(5..8), 'a', 'c'),
-                        range(span(8..11), 'x', 'z'),
-                    ]),
-                ),
-            }))));
-        assert_eq!(
-            parser(r"[a-cx-z&&\w]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..12),
-                negated: false,
-                kind: intersection(
-                    span(1..11),
-                    union(span(1..7), vec![
-                        range(span(1..4), 'a', 'c'),
-                        range(span(4..7), 'x', 'z'),
-                    ]),
-                    itemset(item_perl(ast::ClassPerl {
-                        span: span(9..11),
-                        kind: ast::ClassPerlKind::Word,
-                        negated: false,
-                    })),
-                ),
-            }))));
-        assert_eq!(
-            parser(r"[a--b--c]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..9),
-                negated: false,
-                kind: difference(
-                    span(1..8),
-                    difference(
-                        span(1..5),
-                        itemset(lit(span(1..2), 'a')),
-                        itemset(lit(span(4..5), 'b')),
-                    ),
-                    itemset(lit(span(7..8), 'c')),
-                ),
-            }))));
-        assert_eq!(
-            parser(r"[a~~b~~c]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..9),
-                negated: false,
-                kind: symdifference(
-                    span(1..8),
-                    symdifference(
-                        span(1..5),
-                        itemset(lit(span(1..2), 'a')),
-                        itemset(lit(span(4..5), 'b')),
-                    ),
-                    itemset(lit(span(7..8), 'c')),
-                ),
-            }))));
-        assert_eq!(
-            parser(r"[\^&&^]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..7),
-                negated: false,
-                kind: intersection(
-                    span(1..6),
-                    itemset(ast::ClassSetItem::Literal(ast::Literal {
-                        span: span(1..3),
-                        kind: ast::LiteralKind::Punctuation,
-                        c: '^',
-                    })),
-                    itemset(lit(span(5..6), '^')),
-                ),
-            }))));
-        assert_eq!(
-            parser(r"[\&&&&]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..7),
-                negated: false,
-                kind: intersection(
-                    span(1..6),
-                    itemset(ast::ClassSetItem::Literal(ast::Literal {
-                        span: span(1..3),
-                        kind: ast::LiteralKind::Punctuation,
-                        c: '&',
-                    })),
-                    itemset(lit(span(5..6), '&')),
-                ),
-            }))));
-        assert_eq!(
-            parser(r"[&&&&]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..6),
-                negated: false,
-                kind: intersection(
-                    span(1..5),
-                    intersection(
-                        span(1..3),
-                        itemset(empty(span(1..1))),
-                        itemset(empty(span(3..3))),
-                    ),
-                    itemset(empty(span(5..5))),
-                ),
-            }))));
-
-        let pat = "[☃-⛄]";
-        assert_eq!(
-            parser(pat).parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span_range(pat, 0..9),
-                negated: false,
-                kind: itemset(ast::ClassSetItem::Range(ast::ClassSetRange {
-                    span: span_range(pat, 1..8),
-                    start: ast::Literal {
-                        span: span_range(pat, 1..4),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: '☃',
-                    },
-                    end: ast::Literal {
-                        span: span_range(pat, 5..8),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: '⛄',
-                    },
-                })),
-            }))));
-
-        assert_eq!(
-            parser(r"[]]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..3),
-                negated: false,
-                kind: itemset(lit(span(1..2), ']')),
-            }))));
-        assert_eq!(
-            parser(r"[]\[]").parse(),
-            Ok(Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                span: span(0..5),
-                negated: false,
-                kind: union(span(1..4), vec![
-                    lit(span(1..2), ']'),
-                    ast::ClassSetItem::Literal(ast::Literal  {
-                        span: span(2..4),
-                        kind: ast::LiteralKind::Punctuation,
-                        c: '[',
-                    }),
-                ]),
-            }))));
-        assert_eq!(
-            parser(r"[\[]]").parse(),
-            Ok(concat(0..5, vec![
-                Ast::Class(ast::Class::Bracketed(ast::ClassBracketed {
-                    span: span(0..4),
-                    negated: false,
-                    kind: itemset(ast::ClassSetItem::Literal(ast::Literal  {
-                        span: span(1..3),
-                        kind: ast::LiteralKind::Punctuation,
-                        c: '[',
-                    })),
-                })),
-                Ast::Literal(ast::Literal {
-                    span: span(4..5),
-                    kind: ast::LiteralKind::Verbatim,
-                    c: ']',
-                }),
-            ])));
-
-        assert_eq!(
-            parser("[").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[[").parse().unwrap_err(),
-            TestError {
-                span: span(1..2),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[[-]").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[[[:alnum:]").parse().unwrap_err(),
-            TestError {
-                span: span(1..2),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser(r"[\b]").parse().unwrap_err(),
-            TestError {
-                span: span(1..3),
-                kind: ast::ErrorKind::ClassEscapeInvalid,
-            });
-        assert_eq!(
-            parser(r"[\w-a]").parse().unwrap_err(),
-            TestError {
-                span: span(1..3),
-                kind: ast::ErrorKind::ClassRangeLiteral,
-            });
-        assert_eq!(
-            parser(r"[a-\w]").parse().unwrap_err(),
-            TestError {
-                span: span(3..5),
-                kind: ast::ErrorKind::ClassRangeLiteral,
-            });
-        assert_eq!(
-            parser(r"[z-a]").parse().unwrap_err(),
-            TestError {
-                span: span(1..4),
-                kind: ast::ErrorKind::ClassRangeInvalid,
-            });
-
-        assert_eq!(
-            parser_ignore_whitespace("[a ").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser_ignore_whitespace("[a- ").parse().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-    }
-
-    #[test]
-    fn parse_set_class_open() {
-        assert_eq!(
-            parser("[a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..1),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(1..1),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(1..1),
-                    items: vec![],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser_ignore_whitespace("[   a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..4),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(4..4),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(4..4),
-                    items: vec![],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[^a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..2),
-                    negated: true,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(2..2),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(2..2),
-                    items: vec![],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser_ignore_whitespace("[ ^ a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..4),
-                    negated: true,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(4..4),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(4..4),
-                    items: vec![],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[-a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..2),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(1..1),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(1..2),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(1..2),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: '-',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser_ignore_whitespace("[ - a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..4),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(2..2),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(2..3),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(2..3),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: '-',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[^-a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..3),
-                    negated: true,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(2..2),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(2..3),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(2..3),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: '-',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[--a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..3),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(1..1),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(1..3),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(1..2),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: '-',
-                        }),
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(2..3),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: '-',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[]a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..2),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(1..1),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(1..2),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(1..2),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: ']',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser_ignore_whitespace("[ ] a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..4),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(2..2),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(2..3),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(2..3),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: ']',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[^]a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..3),
-                    negated: true,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(2..2),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(2..3),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(2..3),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: ']',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-        assert_eq!(
-            parser("[-]a]").parse_set_class_open(), {
-                let set = ast::ClassBracketed {
-                    span: span(0..2),
-                    negated: false,
-                    kind: ast::ClassSet::union(ast::ClassSetUnion {
-                        span: span(1..1),
-                        items: vec![],
-                    }),
-                };
-                let union = ast::ClassSetUnion {
-                    span: span(1..2),
-                    items: vec![
-                        ast::ClassSetItem::Literal(ast::Literal {
-                            span: span(1..2),
-                            kind: ast::LiteralKind::Verbatim,
-                            c: '-',
-                        }),
-                    ],
-                };
-                Ok((set, union))
-            });
-
-        assert_eq!(
-            parser("[").parse_set_class_open().unwrap_err(),
-            TestError {
-                span: span(0..1),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser_ignore_whitespace("[    ")
-            .parse_set_class_open()
-            .unwrap_err(),
-            TestError {
-                span: span(0..5),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[^").parse_set_class_open().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[]").parse_set_class_open().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[-").parse_set_class_open().unwrap_err(),
-            TestError {
-                span: span(0..2),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-        assert_eq!(
-            parser("[--").parse_set_class_open().unwrap_err(),
-            TestError {
-                span: span(0..3),
-                kind: ast::ErrorKind::ClassUnclosed,
-            });
-    }
-
-    #[test]
-    fn maybe_parse_ascii_class() {
-        assert_eq!(
-            parser(r"[:alnum:]").maybe_parse_ascii_class(),
-            Some(ast::ClassAscii {
-                span: span(0..9),
-                kind: ast::ClassAsciiKind::Alnum,
-                negated: false,
-            }));
-        assert_eq!(
-            parser(r"[:alnum:]A").maybe_parse_ascii_class(),
-            Some(ast::ClassAscii {
-                span: span(0..9),
-                kind: ast::ClassAsciiKind::Alnum,
-                negated: false,
-            }));
-        assert_eq!(
-            parser(r"[:^alnum:]").maybe_parse_ascii_class(),
-            Some(ast::ClassAscii {
-                span: span(0..10),
-                kind: ast::ClassAsciiKind::Alnum,
-                negated: true,
-            }));
-
-        let p = parser(r"[:");
-        assert_eq!(p.maybe_parse_ascii_class(), None);
-        assert_eq!(p.offset(), 0);
-
-        let p = parser(r"[:^");
-        assert_eq!(p.maybe_parse_ascii_class(), None);
-        assert_eq!(p.offset(), 0);
-
-        let p = parser(r"[^:alnum:]");
-        assert_eq!(p.maybe_parse_ascii_class(), None);
-        assert_eq!(p.offset(), 0);
-
-        let p = parser(r"[:alnnum:]");
-        assert_eq!(p.maybe_parse_ascii_class(), None);
-        assert_eq!(p.offset(), 0);
-
-        let p = parser(r"[:alnum]");
-        assert_eq!(p.maybe_parse_ascii_class(), None);
-        assert_eq!(p.offset(), 0);
-
-        let p = parser(r"[:alnum:");
-        assert_eq!(p.maybe_parse_ascii_class(), None);
-        assert_eq!(p.offset(), 0);
-    }
-
-    #[test]
-    fn parse_unicode_class() {
-        assert_eq!(
-            parser(r"\pN").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..3),
-                negated: false,
-                kind: ast::ClassUnicodeKind::OneLetter('N'),
-            })));
-        assert_eq!(
-            parser(r"\PN").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..3),
-                negated: true,
-                kind: ast::ClassUnicodeKind::OneLetter('N'),
-            })));
-        assert_eq!(
-            parser(r"\p{N}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..5),
-                negated: false,
-                kind: ast::ClassUnicodeKind::Named(s("N")),
-            })));
-        assert_eq!(
-            parser(r"\P{N}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..5),
-                negated: true,
-                kind: ast::ClassUnicodeKind::Named(s("N")),
-            })));
-        assert_eq!(
-            parser(r"\p{Greek}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..9),
-                negated: false,
-                kind: ast::ClassUnicodeKind::Named(s("Greek")),
-            })));
-
-        assert_eq!(
-            parser(r"\p{scx:Katakana}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..16),
-                negated: false,
-                kind: ast::ClassUnicodeKind::NamedValue {
-                    op: ast::ClassUnicodeOpKind::Colon,
-                    name: s("scx"),
-                    value: s("Katakana"),
-                },
-            })));
-        assert_eq!(
-            parser(r"\p{scx=Katakana}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..16),
-                negated: false,
-                kind: ast::ClassUnicodeKind::NamedValue {
-                    op: ast::ClassUnicodeOpKind::Equal,
-                    name: s("scx"),
-                    value: s("Katakana"),
-                },
-            })));
-        assert_eq!(
-            parser(r"\p{scx!=Katakana}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..17),
-                negated: false,
-                kind: ast::ClassUnicodeKind::NamedValue {
-                    op: ast::ClassUnicodeOpKind::NotEqual,
-                    name: s("scx"),
-                    value: s("Katakana"),
-                },
-            })));
-
-        assert_eq!(
-            parser(r"\p{:}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..5),
-                negated: false,
-                kind: ast::ClassUnicodeKind::NamedValue {
-                    op: ast::ClassUnicodeOpKind::Colon,
-                    name: s(""),
-                    value: s(""),
-                },
-            })));
-        assert_eq!(
-            parser(r"\p{=}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..5),
-                negated: false,
-                kind: ast::ClassUnicodeKind::NamedValue {
-                    op: ast::ClassUnicodeOpKind::Equal,
-                    name: s(""),
-                    value: s(""),
-                },
-            })));
-        assert_eq!(
-            parser(r"\p{!=}").parse_escape(),
-            Ok(Primitive::Unicode(ast::ClassUnicode {
-                span: span(0..6),
-                negated: false,
-                kind: ast::ClassUnicodeKind::NamedValue {
-                    op: ast::ClassUnicodeOpKind::NotEqual,
-                    name: s(""),
-                    value: s(""),
-                },
-            })));
-
-        assert_eq!(
-            parser(r"\p").parse_escape().unwrap_err(),
-            TestError {
-                span: span(2..2),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\p{").parse_escape().unwrap_err(),
-            TestError {
-                span: span(3..3),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\p{N").parse_escape().unwrap_err(),
-            TestError {
-                span: span(4..4),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-        assert_eq!(
-            parser(r"\p{Greek").parse_escape().unwrap_err(),
-            TestError {
-                span: span(8..8),
-                kind: ast::ErrorKind::EscapeUnexpectedEof,
-            });
-
-        assert_eq!(
-            parser(r"\pNz").parse(),
-            Ok(Ast::Concat(ast::Concat {
-                span: span(0..4),
-                asts: vec![
-                    Ast::Class(ast::Class::Unicode(ast::ClassUnicode {
-                        span: span(0..3),
-                        negated: false,
-                        kind: ast::ClassUnicodeKind::OneLetter('N'),
-                    })),
-                    Ast::Literal(ast::Literal {
-                        span: span(3..4),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: 'z',
-                    }),
-                ],
-            })));
-        assert_eq!(
-            parser(r"\p{Greek}z").parse(),
-            Ok(Ast::Concat(ast::Concat {
-                span: span(0..10),
-                asts: vec![
-                    Ast::Class(ast::Class::Unicode(ast::ClassUnicode {
-                        span: span(0..9),
-                        negated: false,
-                        kind: ast::ClassUnicodeKind::Named(s("Greek")),
-                    })),
-                    Ast::Literal(ast::Literal {
-                        span: span(9..10),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: 'z',
-                    }),
-                ],
-            })));
-    }
-
-    #[test]
-    fn parse_perl_class() {
-        assert_eq!(
-            parser(r"\d").parse_escape(),
-            Ok(Primitive::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Digit,
-                negated: false,
-            })));
-        assert_eq!(
-            parser(r"\D").parse_escape(),
-            Ok(Primitive::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Digit,
-                negated: true,
-            })));
-        assert_eq!(
-            parser(r"\s").parse_escape(),
-            Ok(Primitive::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Space,
-                negated: false,
-            })));
-        assert_eq!(
-            parser(r"\S").parse_escape(),
-            Ok(Primitive::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Space,
-                negated: true,
-            })));
-        assert_eq!(
-            parser(r"\w").parse_escape(),
-            Ok(Primitive::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Word,
-                negated: false,
-            })));
-        assert_eq!(
-            parser(r"\W").parse_escape(),
-            Ok(Primitive::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Word,
-                negated: true,
-            })));
-
-        assert_eq!(
-            parser(r"\d").parse(),
-            Ok(Ast::Class(ast::Class::Perl(ast::ClassPerl {
-                span: span(0..2),
-                kind: ast::ClassPerlKind::Digit,
-                negated: false,
-            }))));
-        assert_eq!(
-            parser(r"\dz").parse(),
-            Ok(Ast::Concat(ast::Concat {
-                span: span(0..3),
-                asts: vec![
-                    Ast::Class(ast::Class::Perl(ast::ClassPerl {
-                        span: span(0..2),
-                        kind: ast::ClassPerlKind::Digit,
-                        negated: false,
-                    })),
-                    Ast::Literal(ast::Literal {
-                        span: span(2..3),
-                        kind: ast::LiteralKind::Verbatim,
-                        c: 'z',
-                    }),
-                ],
-            })));
-    }
-
-    // This tests a bug fix where the nest limit checker wasn't decrementing
-    // its depth during post-traversal, which causes long regexes to trip
-    // the default limit too aggressively.
-    #[test]
-    fn regression_454_nest_too_big() {
-        let pattern = r#"
-        2(?:
-          [45]\d{3}|
-          7(?:
-            1[0-267]|
-            2[0-289]|
-            3[0-29]|
-            4[01]|
-            5[1-3]|
-            6[013]|
-            7[0178]|
-            91
-          )|
-          8(?:
-            0[125]|
-            [139][1-6]|
-            2[0157-9]|
-            41|
-            6[1-35]|
-            7[1-5]|
-            8[1-8]|
-            90
-          )|
-          9(?:
-            0[0-2]|
-            1[0-4]|
-            2[568]|
-            3[3-6]|
-            5[5-7]|
-            6[0167]|
-            7[15]|
-            8[0146-9]
-          )
-        )\d{4}
-        "#;
-        assert!(parser_nest_limit(pattern, 50).parse().is_ok());
-    }
-
-    // This tests that we treat a trailing `-` in a character class as a
-    // literal `-` even when whitespace mode is enabled and there is whitespace
-    // after the trailing `-`.
-    #[test]
-    fn regression_455_trailing_dash_ignore_whitespace() {
-        assert!(parser("(?x)[ / - ]").parse().is_ok());
-        assert!(parser("(?x)[ a - ]").parse().is_ok());
-        assert!(parser("(?x)[
-            a
-            - ]
-        ").parse().is_ok());
-        assert!(parser("(?x)[
-            a # wat
-            - ]
-        ").parse().is_ok());
-
-        assert!(parser("(?x)[ / -").parse().is_err());
-        assert!(parser("(?x)[ / - ").parse().is_err());
-        assert!(parser("(?x)[
-            / -
-        ").parse().is_err());
-        assert!(parser("(?x)[
-            / - # wat
-        ").parse().is_err());
-    }
-}
-
-
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-This module provides a regular expression printer for `Ast`.
-*/
-
-use std::fmt;
-
-use ast::{self, Ast};
-use ast::visitor::{self, Visitor};
-
-/// A builder for constructing a printer.
-///
-/// Note that since a printer doesn't have any configuration knobs, this type
-/// remains unexported.
-#[derive(Clone, Debug)]
-struct PrinterBuilder {
-    _priv: (),
-}
-
-impl Default for PrinterBuilder {
-    fn default() -> PrinterBuilder {
-        PrinterBuilder::new()
-    }
-}
-
-impl PrinterBuilder {
-    fn new() -> PrinterBuilder {
-        PrinterBuilder {
-            _priv: (),
-        }
-    }
-
-    fn build(&self) -> Printer {
-        Printer {
-            _priv: (),
-        }
-    }
-}
-
-/// A printer for a regular expression abstract syntax tree.
-///
-/// A printer converts an abstract syntax tree (AST) to a regular expression
-/// pattern string. This particular printer uses constant stack space and heap
-/// space proportional to the size of the AST.
-///
-/// This printer will not necessarily preserve the original formatting of the
-/// regular expression pattern string. For example, all whitespace and comments
-/// are ignored.
-#[derive(Debug)]
-pub struct Printer {
-    _priv: (),
-}
-
-impl Printer {
-    /// Create a new printer.
-    pub fn new() -> Printer {
-        PrinterBuilder::new().build()
-    }
-
-    /// Print the given `Ast` to the given writer. The writer must implement
-    /// `fmt::Write`. Typical implementations of `fmt::Write` that can be used
-    /// here are a `fmt::Formatter` (which is available in `fmt::Display`
-    /// implementations) or a `&mut String`.
-    pub fn print<W: fmt::Write>(&mut self, ast: &Ast, wtr: W) -> fmt::Result {
-        visitor::visit(ast, Writer { printer: self, wtr: wtr })
-    }
-}
-
-#[derive(Debug)]
-struct Writer<'p, W> {
-    printer: &'p mut Printer,
-    wtr: W,
-}
-
-impl<'p, W: fmt::Write> Visitor for Writer<'p, W> {
-    type Output = ();
-    type Err = fmt::Error;
-
-    fn finish(self) -> fmt::Result {
-        Ok(())
-    }
-
-    fn visit_pre(&mut self, ast: &Ast) -> fmt::Result {
-        match *ast {
-            Ast::Group(ref x) => self.fmt_group_pre(x),
-            Ast::Class(ast::Class::Bracketed(ref x)) => {
-                self.fmt_class_bracketed_pre(x)
-            }
-            _ => Ok(())
-        }
-    }
-
-    fn visit_post(&mut self, ast: &Ast) -> fmt::Result {
-        use ast::Class;
-
-        match *ast {
-            Ast::Empty(_) => Ok(()),
-            Ast::Flags(ref x) => self.fmt_set_flags(x),
-            Ast::Literal(ref x) => self.fmt_literal(x),
-            Ast::Dot(_) => self.wtr.write_str("."),
-            Ast::Assertion(ref x) => self.fmt_assertion(x),
-            Ast::Class(Class::Perl(ref x)) => self.fmt_class_perl(x),
-            Ast::Class(Class::Unicode(ref x)) => self.fmt_class_unicode(x),
-            Ast::Class(Class::Bracketed(ref x)) => {
-                self.fmt_class_bracketed_post(x)
-            }
-            Ast::Repetition(ref x) => self.fmt_repetition(x),
-            Ast::Group(ref x) => self.fmt_group_post(x),
-            Ast::Alternation(_) => Ok(()),
-            Ast::Concat(_) => Ok(()),
-        }
-    }
-
-    fn visit_alternation_in(&mut self) -> fmt::Result {
-        self.wtr.write_str("|")
-    }
-
-    fn visit_class_set_item_pre(
-        &mut self,
-        ast: &ast::ClassSetItem,
-    ) -> Result<(), Self::Err> {
-        match *ast {
-            ast::ClassSetItem::Bracketed(ref x) => {
-                self.fmt_class_bracketed_pre(x)
-            }
-            _ => Ok(()),
-        }
-    }
-
-    fn visit_class_set_item_post(
-        &mut self,
-        ast: &ast::ClassSetItem,
-    ) -> Result<(), Self::Err> {
-        use ast::ClassSetItem::*;
-
-        match *ast {
-            Empty(_) => Ok(()),
-            Literal(ref x) => self.fmt_literal(x),
-            Range(ref x) => {
-                self.fmt_literal(&x.start)?;
-                self.wtr.write_str("-")?;
-                self.fmt_literal(&x.end)?;
-                Ok(())
-            }
-            Ascii(ref x) => self.fmt_class_ascii(x),
-            Unicode(ref x) => self.fmt_class_unicode(x),
-            Perl(ref x) => self.fmt_class_perl(x),
-            Bracketed(ref x) => self.fmt_class_bracketed_post(x),
-            Union(_) => Ok(()),
-        }
-    }
-
-    fn visit_class_set_binary_op_in(
-        &mut self,
-        ast: &ast::ClassSetBinaryOp,
-    ) -> Result<(), Self::Err> {
-        self.fmt_class_set_binary_op_kind(&ast.kind)
-    }
-}
-
-impl<'p, W: fmt::Write> Writer<'p, W> {
-    fn fmt_group_pre(&mut self, ast: &ast::Group) -> fmt::Result {
-        use ast::GroupKind::*;
-        match ast.kind {
-            CaptureIndex(_) => self.wtr.write_str("("),
-            CaptureName(ref x) => {
-                self.wtr.write_str("(?P<")?;
-                self.wtr.write_str(&x.name)?;
-                self.wtr.write_str(">")?;
-                Ok(())
-            }
-            NonCapturing(ref flags) => {
-                self.wtr.write_str("(?")?;
-                self.fmt_flags(flags)?;
-                self.wtr.write_str(":")?;
-                Ok(())
-            }
-        }
-    }
-
-    fn fmt_group_post(&mut self, _ast: &ast::Group) -> fmt::Result {
-        self.wtr.write_str(")")
-    }
-
-    fn fmt_repetition(&mut self, ast: &ast::Repetition) -> fmt::Result {
-        use ast::RepetitionKind::*;
-        match ast.op.kind {
-            ZeroOrOne if ast.greedy => self.wtr.write_str("?"),
-            ZeroOrOne => self.wtr.write_str("??"),
-            ZeroOrMore if ast.greedy => self.wtr.write_str("*"),
-            ZeroOrMore => self.wtr.write_str("*?"),
-            OneOrMore if ast.greedy => self.wtr.write_str("+"),
-            OneOrMore => self.wtr.write_str("+?"),
-            Range(ref x) => {
-                self.fmt_repetition_range(x)?;
-                if !ast.greedy {
-                    self.wtr.write_str("?")?;
-                }
-                Ok(())
-            }
-        }
-    }
-
-    fn fmt_repetition_range(
-        &mut self,
-        ast: &ast::RepetitionRange,
-    ) -> fmt::Result {
-        use ast::RepetitionRange::*;
-        match *ast {
-            Exactly(x) => write!(self.wtr, "{{{}}}", x),
-            AtLeast(x) => write!(self.wtr, "{{{},}}", x),
-            Bounded(x, y) => write!(self.wtr, "{{{},{}}}", x, y),
-        }
-    }
-
-    fn fmt_literal(&mut self, ast: &ast::Literal) -> fmt::Result {
-        use ast::LiteralKind::*;
-
-        match ast.kind {
-            Verbatim => self.wtr.write_char(ast.c),
-            Punctuation => write!(self.wtr, r"\{}", ast.c),
-            Octal => write!(self.wtr, r"\{:o}", ast.c as u32),
-            HexFixed(ast::HexLiteralKind::X) => {
-                write!(self.wtr, r"\x{:02X}", ast.c as u32)
-            }
-            HexFixed(ast::HexLiteralKind::UnicodeShort) => {
-                write!(self.wtr, r"\u{:04X}", ast.c as u32)
-            }
-            HexFixed(ast::HexLiteralKind::UnicodeLong) => {
-                write!(self.wtr, r"\U{:08X}", ast.c as u32)
-            }
-            HexBrace(ast::HexLiteralKind::X) => {
-                write!(self.wtr, r"\x{{{:X}}}", ast.c as u32)
-            }
-            HexBrace(ast::HexLiteralKind::UnicodeShort) => {
-                write!(self.wtr, r"\u{{{:X}}}", ast.c as u32)
-            }
-            HexBrace(ast::HexLiteralKind::UnicodeLong) => {
-                write!(self.wtr, r"\U{{{:X}}}", ast.c as u32)
-            }
-            Special(ast::SpecialLiteralKind::Bell) => {
-                self.wtr.write_str(r"\a")
-            }
-            Special(ast::SpecialLiteralKind::FormFeed) => {
-                self.wtr.write_str(r"\f")
-            }
-            Special(ast::SpecialLiteralKind::Tab) => {
-                self.wtr.write_str(r"\t")
-            }
-            Special(ast::SpecialLiteralKind::LineFeed) => {
-                self.wtr.write_str(r"\n")
-            }
-            Special(ast::SpecialLiteralKind::CarriageReturn) => {
-                self.wtr.write_str(r"\r")
-            }
-            Special(ast::SpecialLiteralKind::VerticalTab) => {
-                self.wtr.write_str(r"\v")
-            }
-            Special(ast::SpecialLiteralKind::Space) => {
-                self.wtr.write_str(r"\ ")
-            }
-        }
-    }
-
-    fn fmt_assertion(&mut self, ast: &ast::Assertion) -> fmt::Result {
-        use ast::AssertionKind::*;
-        match ast.kind {
-            StartLine => self.wtr.write_str("^"),
-            EndLine => self.wtr.write_str("$"),
-            StartText => self.wtr.write_str(r"\A"),
-            EndText => self.wtr.write_str(r"\z"),
-            WordBoundary => self.wtr.write_str(r"\b"),
-            NotWordBoundary => self.wtr.write_str(r"\B"),
-        }
-    }
-
-    fn fmt_set_flags(&mut self, ast: &ast::SetFlags) -> fmt::Result {
-        self.wtr.write_str("(?")?;
-        self.fmt_flags(&ast.flags)?;
-        self.wtr.write_str(")")?;
-        Ok(())
-    }
-
-    fn fmt_flags(&mut self, ast: &ast::Flags) -> fmt::Result {
-        use ast::{Flag, FlagsItemKind};
-
-        for item in &ast.items {
-            match item.kind {
-                FlagsItemKind::Negation => self.wtr.write_str("-"),
-                FlagsItemKind::Flag(ref flag) => {
-                    match *flag {
-                        Flag::CaseInsensitive => self.wtr.write_str("i"),
-                        Flag::MultiLine => self.wtr.write_str("m"),
-                        Flag::DotMatchesNewLine => self.wtr.write_str("s"),
-                        Flag::SwapGreed => self.wtr.write_str("U"),
-                        Flag::Unicode => self.wtr.write_str("u"),
-                        Flag::IgnoreWhitespace => self.wtr.write_str("x"),
-                    }
-                }
-            }?;
-        }
-        Ok(())
-    }
-
-    fn fmt_class_bracketed_pre(
-        &mut self,
-        ast: &ast::ClassBracketed,
-    ) -> fmt::Result {
-        if ast.negated {
-            self.wtr.write_str("[^")
-        } else {
-            self.wtr.write_str("[")
-        }
-    }
-
-    fn fmt_class_bracketed_post(
-        &mut self,
-        _ast: &ast::ClassBracketed,
-    ) -> fmt::Result {
-        self.wtr.write_str("]")
-    }
-
-    fn fmt_class_set_binary_op_kind(
-        &mut self,
-        ast: &ast::ClassSetBinaryOpKind,
-    ) -> fmt::Result {
-        use ast::ClassSetBinaryOpKind::*;
-        match *ast {
-            Intersection => self.wtr.write_str("&&"),
-            Difference => self.wtr.write_str("--"),
-            SymmetricDifference => self.wtr.write_str("~~"),
-        }
-    }
-
-    fn fmt_class_perl(&mut self, ast: &ast::ClassPerl) -> fmt::Result {
-        use ast::ClassPerlKind::*;
-        match ast.kind {
-            Digit if ast.negated => self.wtr.write_str(r"\D"),
-            Digit => self.wtr.write_str(r"\d"),
-            Space if ast.negated => self.wtr.write_str(r"\S"),
-            Space => self.wtr.write_str(r"\s"),
-            Word if ast.negated => self.wtr.write_str(r"\W"),
-            Word => self.wtr.write_str(r"\w"),
-        }
-    }
-
-    fn fmt_class_ascii(&mut self, ast: &ast::ClassAscii) -> fmt::Result {
-        use ast::ClassAsciiKind::*;
-        match ast.kind {
-            Alnum if ast.negated => self.wtr.write_str("[:^alnum:]"),
-            Alnum => self.wtr.write_str("[:alnum:]"),
-            Alpha if ast.negated => self.wtr.write_str("[:^alpha:]"),
-            Alpha => self.wtr.write_str("[:alpha:]"),
-            Ascii if ast.negated => self.wtr.write_str("[:^ascii:]"),
-            Ascii => self.wtr.write_str("[:ascii:]"),
-            Blank if ast.negated => self.wtr.write_str("[:^blank:]"),
-            Blank => self.wtr.write_str("[:blank:]"),
-            Cntrl if ast.negated => self.wtr.write_str("[:^cntrl:]"),
-            Cntrl => self.wtr.write_str("[:cntrl:]"),
-            Digit if ast.negated => self.wtr.write_str("[:^digit:]"),
-            Digit => self.wtr.write_str("[:digit:]"),
-            Graph if ast.negated => self.wtr.write_str("[:^graph:]"),
-            Graph => self.wtr.write_str("[:graph:]"),
-            Lower if ast.negated => self.wtr.write_str("[:^lower:]"),
-            Lower => self.wtr.write_str("[:lower:]"),
-            Print if ast.negated => self.wtr.write_str("[:^print:]"),
-            Print => self.wtr.write_str("[:print:]"),
-            Punct if ast.negated => self.wtr.write_str("[:^punct:]"),
-            Punct => self.wtr.write_str("[:punct:]"),
-            Space if ast.negated => self.wtr.write_str("[:^space:]"),
-            Space => self.wtr.write_str("[:space:]"),
-            Upper if ast.negated => self.wtr.write_str("[:^upper:]"),
-            Upper => self.wtr.write_str("[:upper:]"),
-            Word if ast.negated => self.wtr.write_str("[:^word:]"),
-            Word => self.wtr.write_str("[:word:]"),
-            Xdigit if ast.negated => self.wtr.write_str("[:^xdigit:]"),
-            Xdigit => self.wtr.write_str("[:xdigit:]"),
-        }
-    }
-
-    fn fmt_class_unicode(&mut self, ast: &ast::ClassUnicode) -> fmt::Result {
-        use ast::ClassUnicodeKind::*;
-        use ast::ClassUnicodeOpKind::*;
-
-        if ast.negated {
-            self.wtr.write_str(r"\P")?;
-        } else {
-            self.wtr.write_str(r"\p")?;
-        }
-        match ast.kind {
-            OneLetter(c) => self.wtr.write_char(c),
-            Named(ref x) => write!(self.wtr, "{{{}}}", x),
-            NamedValue { op: Equal, ref name, ref value } => {
-                write!(self.wtr, "{{{}={}}}", name, value)
-            }
-            NamedValue { op: Colon, ref name, ref value } => {
-                write!(self.wtr, "{{{}:{}}}", name, value)
-            }
-            NamedValue { op: NotEqual, ref name, ref value } => {
-                write!(self.wtr, "{{{}!={}}}", name, value)
-            }
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use ast::parse::ParserBuilder;
-    use super::Printer;
-
-    fn roundtrip(given: &str) {
-        roundtrip_with(|b| b, given);
-    }
-
-    fn roundtrip_with<F>(mut f: F, given: &str)
-    where F: FnMut(&mut ParserBuilder) -> &mut ParserBuilder
-    {
-        let mut builder = ParserBuilder::new();
-        f(&mut builder);
-        let ast = builder.build().parse(given).unwrap();
-
-        let mut printer = Printer::new();
-        let mut dst = String::new();
-        printer.print(&ast, &mut dst).unwrap();
-        assert_eq!(given, dst);
-    }
-
-    #[test]
-    fn print_literal() {
-        roundtrip("a");
-        roundtrip(r"\[");
-        roundtrip_with(|b| b.octal(true), r"\141");
-        roundtrip(r"\x61");
-        roundtrip(r"\x7F");
-        roundtrip(r"\u0061");
-        roundtrip(r"\U00000061");
-        roundtrip(r"\x{61}");
-        roundtrip(r"\x{7F}");
-        roundtrip(r"\u{61}");
-        roundtrip(r"\U{61}");
-
-        roundtrip(r"\a");
-        roundtrip(r"\f");
-        roundtrip(r"\t");
-        roundtrip(r"\n");
-        roundtrip(r"\r");
-        roundtrip(r"\v");
-        roundtrip(r"(?x)\ ");
-    }
-
-    #[test]
-    fn print_dot() {
-        roundtrip(".");
-    }
-
-    #[test]
-    fn print_concat() {
-        roundtrip("ab");
-        roundtrip("abcde");
-        roundtrip("a(bcd)ef");
-    }
-
-    #[test]
-    fn print_alternation() {
-        roundtrip("a|b");
-        roundtrip("a|b|c|d|e");
-        roundtrip("|a|b|c|d|e");
-        roundtrip("|a|b|c|d|e|");
-        roundtrip("a(b|c|d)|e|f");
-    }
-
-    #[test]
-    fn print_assertion() {
-        roundtrip(r"^");
-        roundtrip(r"$");
-        roundtrip(r"\A");
-        roundtrip(r"\z");
-        roundtrip(r"\b");
-        roundtrip(r"\B");
-    }
-
-    #[test]
-    fn print_repetition() {
-        roundtrip("a?");
-        roundtrip("a??");
-        roundtrip("a*");
-        roundtrip("a*?");
-        roundtrip("a+");
-        roundtrip("a+?");
-        roundtrip("a{5}");
-        roundtrip("a{5}?");
-        roundtrip("a{5,}");
-        roundtrip("a{5,}?");
-        roundtrip("a{5,10}");
-        roundtrip("a{5,10}?");
-    }
-
-    #[test]
-    fn print_flags() {
-        roundtrip("(?i)");
-        roundtrip("(?-i)");
-        roundtrip("(?s-i)");
-        roundtrip("(?-si)");
-        roundtrip("(?siUmux)");
-    }
-
-    #[test]
-    fn print_group() {
-        roundtrip("(?i:a)");
-        roundtrip("(?P<foo>a)");
-        roundtrip("(a)");
-    }
-
-    #[test]
-    fn print_class() {
-        roundtrip(r"[abc]");
-        roundtrip(r"[a-z]");
-        roundtrip(r"[^a-z]");
-        roundtrip(r"[a-z0-9]");
-        roundtrip(r"[-a-z0-9]");
-        roundtrip(r"[-a-z0-9]");
-        roundtrip(r"[a-z0-9---]");
-        roundtrip(r"[a-z&&m-n]");
-        roundtrip(r"[[a-z&&m-n]]");
-        roundtrip(r"[a-z--m-n]");
-        roundtrip(r"[a-z~~m-n]");
-        roundtrip(r"[a-z[0-9]]");
-        roundtrip(r"[a-z[^0-9]]");
-
-        roundtrip(r"\d");
-        roundtrip(r"\D");
-        roundtrip(r"\s");
-        roundtrip(r"\S");
-        roundtrip(r"\w");
-        roundtrip(r"\W");
-
-        roundtrip(r"[[:alnum:]]");
-        roundtrip(r"[[:^alnum:]]");
-        roundtrip(r"[[:alpha:]]");
-        roundtrip(r"[[:^alpha:]]");
-        roundtrip(r"[[:ascii:]]");
-        roundtrip(r"[[:^ascii:]]");
-        roundtrip(r"[[:blank:]]");
-        roundtrip(r"[[:^blank:]]");
-        roundtrip(r"[[:cntrl:]]");
-        roundtrip(r"[[:^cntrl:]]");
-        roundtrip(r"[[:digit:]]");
-        roundtrip(r"[[:^digit:]]");
-        roundtrip(r"[[:graph:]]");
-        roundtrip(r"[[:^graph:]]");
-        roundtrip(r"[[:lower:]]");
-        roundtrip(r"[[:^lower:]]");
-        roundtrip(r"[[:print:]]");
-        roundtrip(r"[[:^print:]]");
-        roundtrip(r"[[:punct:]]");
-        roundtrip(r"[[:^punct:]]");
-        roundtrip(r"[[:space:]]");
-        roundtrip(r"[[:^space:]]");
-        roundtrip(r"[[:upper:]]");
-        roundtrip(r"[[:^upper:]]");
-        roundtrip(r"[[:word:]]");
-        roundtrip(r"[[:^word:]]");
-        roundtrip(r"[[:xdigit:]]");
-        roundtrip(r"[[:^xdigit:]]");
-
-        roundtrip(r"\pL");
-        roundtrip(r"\PL");
-        roundtrip(r"\p{L}");
-        roundtrip(r"\P{L}");
-        roundtrip(r"\p{X=Y}");
-        roundtrip(r"\P{X=Y}");
-        roundtrip(r"\p{X:Y}");
-        roundtrip(r"\P{X:Y}");
-        roundtrip(r"\p{X!=Y}");
-        roundtrip(r"\P{X!=Y}");
-    }
-}
-
-
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use std::fmt;
-
-use ast::{self, Ast};
-
-/// A trait for visiting an abstract syntax tree (AST) in depth first order.
-///
-/// The principle aim of this trait is to enable callers to perform case
-/// analysis on an abstract syntax tree without necessarily using recursion.
-/// In particular, this permits callers to do case analysis with constant stack
-/// usage, which can be important since the size of an abstract syntax tree
-/// may be proportional to end user input.
-///
-/// Typical usage of this trait involves providing an implementation and then
-/// running it using the [`visit`](fn.visit.html) function.
-///
-/// Note that the abstract syntax tree for a regular expression is quite
-/// complex. Unless you specifically need it, you might be able to use the
-/// much simpler
-/// [high-level intermediate representation](../hir/struct.Hir.html)
-/// and its
-/// [corresponding `Visitor` trait](../hir/trait.Visitor.html)
-/// instead.
-pub trait Visitor {
-    /// The result of visiting an AST.
-    type Output;
-    /// An error that visiting an AST might return.
-    type Err;
-
-    /// All implementors of `Visitor` must provide a `finish` method, which
-    /// yields the result of visiting the AST or an error.
-    fn finish(self) -> Result<Self::Output, Self::Err>;
-
-    /// This method is called before beginning traversal of the AST.
-    fn start(&mut self) {}
-
-    /// This method is called on an `Ast` before descending into child `Ast`
-    /// nodes.
-    fn visit_pre(&mut self, _ast: &Ast) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called on an `Ast` after descending all of its child
-    /// `Ast` nodes.
-    fn visit_post(&mut self, _ast: &Ast) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called between child nodes of an
-    /// [`Alternation`](struct.Alternation.html).
-    fn visit_alternation_in(&mut self) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called on every
-    /// [`ClassSetItem`](enum.ClassSetItem.html)
-    /// before descending into child nodes.
-    fn visit_class_set_item_pre(
-        &mut self,
-        _ast: &ast::ClassSetItem,
-    ) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called on every
-    /// [`ClassSetItem`](enum.ClassSetItem.html)
-    /// after descending into child nodes.
-    fn visit_class_set_item_post(
-        &mut self,
-        _ast: &ast::ClassSetItem,
-    ) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called on every
-    /// [`ClassSetBinaryOp`](struct.ClassSetBinaryOp.html)
-    /// before descending into child nodes.
-    fn visit_class_set_binary_op_pre(
-        &mut self,
-        _ast: &ast::ClassSetBinaryOp,
-    ) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called on every
-    /// [`ClassSetBinaryOp`](struct.ClassSetBinaryOp.html)
-    /// after descending into child nodes.
-    fn visit_class_set_binary_op_post(
-        &mut self,
-        _ast: &ast::ClassSetBinaryOp,
-    ) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called between the left hand and right hand child nodes
-    /// of a [`ClassSetBinaryOp`](struct.ClassSetBinaryOp.html).
-    fn visit_class_set_binary_op_in(
-        &mut self,
-        _ast: &ast::ClassSetBinaryOp,
-    ) -> Result<(), Self::Err> {
-        Ok(())
-    }
-}
-
-/// Executes an implementation of `Visitor` in constant stack space.
-///
-/// This function will visit every node in the given `Ast` while calling the
-/// appropriate methods provided by the
-/// [`Visitor`](trait.Visitor.html) trait.
-///
-/// The primary use case for this method is when one wants to perform case
-/// analysis over an `Ast` without using a stack size proportional to the depth
-/// of the `Ast`. Namely, this method will instead use constant stack size, but
-/// will use heap space proportional to the size of the `Ast`. This may be
-/// desirable in cases where the size of `Ast` is proportional to end user
-/// input.
-///
-/// If the visitor returns an error at any point, then visiting is stopped and
-/// the error is returned.
-pub fn visit<V: Visitor>(ast: &Ast, visitor: V) -> Result<V::Output, V::Err> {
-    HeapVisitor::new().visit(ast, visitor)
-}
-
-/// HeapVisitor visits every item in an `Ast` recursively using constant stack
-/// size and a heap size proportional to the size of the `Ast`.
-struct HeapVisitor<'a> {
-    /// A stack of `Ast` nodes. This is roughly analogous to the call stack
-    /// used in a typical recursive visitor.
-    stack: Vec<(&'a Ast, Frame<'a>)>,
-    /// Similar to the `Ast` stack above, but is used only for character
-    /// classes. In particular, character classes embed their own mini
-    /// recursive syntax.
-    stack_class: Vec<(ClassInduct<'a>, ClassFrame<'a>)>,
-}
-
-/// Represents a single stack frame while performing structural induction over
-/// an `Ast`.
-enum Frame<'a> {
-    /// A stack frame allocated just before descending into a repetition
-    /// operator's child node.
-    Repetition(&'a ast::Repetition),
-    /// A stack frame allocated just before descending into a group's child
-    /// node.
-    Group(&'a ast::Group),
-    /// The stack frame used while visiting every child node of a concatenation
-    /// of expressions.
-    Concat {
-        /// The child node we are currently visiting.
-        head: &'a Ast,
-        /// The remaining child nodes to visit (which may be empty).
-        tail: &'a [Ast],
-    },
-    /// The stack frame used while visiting every child node of an alternation
-    /// of expressions.
-    Alternation {
-        /// The child node we are currently visiting.
-        head: &'a Ast,
-        /// The remaining child nodes to visit (which may be empty).
-        tail: &'a [Ast],
-    },
-}
-
-/// Represents a single stack frame while performing structural induction over
-/// a character class.
-enum ClassFrame<'a> {
-    /// The stack frame used while visiting every child node of a union of
-    /// character class items.
-    Union {
-        /// The child node we are currently visiting.
-        head: &'a ast::ClassSetItem,
-        /// The remaining child nodes to visit (which may be empty).
-        tail: &'a [ast::ClassSetItem],
-    },
-    /// The stack frame used while a binary class operation.
-    Binary {
-        op: &'a ast::ClassSetBinaryOp,
-    },
-    /// A stack frame allocated just before descending into a binary operator's
-    /// left hand child node.
-    BinaryLHS {
-        op: &'a ast::ClassSetBinaryOp,
-        lhs: &'a ast::ClassSet,
-        rhs: &'a ast::ClassSet,
-    },
-    /// A stack frame allocated just before descending into a binary operator's
-    /// right hand child node.
-    BinaryRHS {
-        op: &'a ast::ClassSetBinaryOp,
-        rhs: &'a ast::ClassSet,
-    },
-}
-
-/// A representation of the inductive step when performing structural induction
-/// over a character class.
-///
-/// Note that there is no analogous explicit type for the inductive step for
-/// `Ast` nodes because the inductive step is just an `Ast`. For character
-/// classes, the inductive step can produce one of two possible child nodes:
-/// an item or a binary operation. (An item cannot be a binary operation
-/// because that would imply binary operations can be unioned in the concrete
-/// syntax, which is not possible.)
-enum ClassInduct<'a> {
-    Item(&'a ast::ClassSetItem),
-    BinaryOp(&'a ast::ClassSetBinaryOp),
-}
-
-impl<'a> HeapVisitor<'a> {
-    fn new() -> HeapVisitor<'a> {
-        HeapVisitor { stack: vec![], stack_class: vec![] }
-    }
-
-    fn visit<V: Visitor>(
-        &mut self,
-        mut ast: &'a Ast,
-        mut visitor: V,
-    ) -> Result<V::Output, V::Err> {
-        self.stack.clear();
-        self.stack_class.clear();
-
-        visitor.start();
-        loop {
-            visitor.visit_pre(ast)?;
-            if let Some(x) = self.induct(ast, &mut visitor)? {
-                let child = x.child();
-                self.stack.push((ast, x));
-                ast = child;
-                continue;
-            }
-            // No induction means we have a base case, so we can post visit
-            // it now.
-            visitor.visit_post(ast)?;
-
-            // At this point, we now try to pop our call stack until it is
-            // either empty or we hit another inductive case.
-            loop {
-                let (post_ast, frame) = match self.stack.pop() {
-                    None => return visitor.finish(),
-                    Some((post_ast, frame)) => (post_ast, frame),
-                };
-                // If this is a concat/alternate, then we might have additional
-                // inductive steps to process.
-                if let Some(x) = self.pop(frame) {
-                    if let Frame::Alternation {..} = x {
-                        visitor.visit_alternation_in()?;
-                    }
-                    ast = x.child();
-                    self.stack.push((post_ast, x));
-                    break;
-                }
-                // Otherwise, we've finished visiting all the child nodes for
-                // this AST, so we can post visit it now.
-                visitor.visit_post(post_ast)?;
-            }
-        }
-    }
-
-    /// Build a stack frame for the given AST if one is needed (which occurs if
-    /// and only if there are child nodes in the AST). Otherwise, return None.
-    ///
-    /// If this visits a class, then the underlying visitor implementation may
-    /// return an error which will be passed on here.
-    fn induct<V: Visitor>(
-        &mut self,
-        ast: &'a Ast,
-        visitor: &mut V,
-    ) -> Result<Option<Frame<'a>>, V::Err> {
-        Ok(match *ast {
-            Ast::Class(ast::Class::Bracketed(ref x)) => {
-                self.visit_class(x, visitor)?;
-                None
-            }
-            Ast::Repetition(ref x) => Some(Frame::Repetition(x)),
-            Ast::Group(ref x) => Some(Frame::Group(x)),
-            Ast::Concat(ref x) if x.asts.is_empty() => None,
-            Ast::Concat(ref x) => {
-                Some(Frame::Concat {
-                    head: &x.asts[0],
-                    tail: &x.asts[1..],
-                })
-            }
-            Ast::Alternation(ref x) if x.asts.is_empty() => None,
-            Ast::Alternation(ref x) => {
-                Some(Frame::Alternation {
-                    head: &x.asts[0],
-                    tail: &x.asts[1..],
-                })
-            }
-            _ => None,
-        })
-    }
-
-    /// Pops the given frame. If the frame has an additional inductive step,
-    /// then return it, otherwise return `None`.
-    fn pop(&self, induct: Frame<'a>) -> Option<Frame<'a>> {
-        match induct {
-            Frame::Repetition(_) => None,
-            Frame::Group(_) => None,
-            Frame::Concat { tail, .. } => {
-                if tail.is_empty() {
-                    None
-                } else {
-                    Some(Frame::Concat {
-                        head: &tail[0],
-                        tail: &tail[1..],
-                    })
-                }
-            }
-            Frame::Alternation { tail, .. } => {
-                if tail.is_empty() {
-                    None
-                } else {
-                    Some(Frame::Alternation {
-                        head: &tail[0],
-                        tail: &tail[1..],
-                    })
-                }
-            }
-        }
-    }
-
-    fn visit_class<V: Visitor>(
-        &mut self,
-        ast: &'a ast::ClassBracketed,
-        visitor: &mut V,
-    ) -> Result<(), V::Err> {
-        let mut ast = ClassInduct::from_bracketed(ast);
-        loop {
-            self.visit_class_pre(&ast, visitor)?;
-            if let Some(x) = self.induct_class(&ast) {
-                let child = x.child();
-                self.stack_class.push((ast, x));
-                ast = child;
-                continue;
-            }
-            self.visit_class_post(&ast, visitor)?;
-
-            // At this point, we now try to pop our call stack until it is
-            // either empty or we hit another inductive case.
-            loop {
-                let (post_ast, frame) = match self.stack_class.pop() {
-                    None => return Ok(()),
-                    Some((post_ast, frame)) => (post_ast, frame),
-                };
-                // If this is a union or a binary op, then we might have
-                // additional inductive steps to process.
-                if let Some(x) = self.pop_class(frame) {
-                    if let ClassFrame::BinaryRHS { ref op, .. } = x {
-                        visitor.visit_class_set_binary_op_in(op)?;
-                    }
-                    ast = x.child();
-                    self.stack_class.push((post_ast, x));
-                    break;
-                }
-                // Otherwise, we've finished visiting all the child nodes for
-                // this class node, so we can post visit it now.
-                self.visit_class_post(&post_ast, visitor)?;
-            }
-        }
-    }
-
-    /// Call the appropriate `Visitor` methods given an inductive step.
-    fn visit_class_pre<V: Visitor>(
-        &self,
-        ast: &ClassInduct<'a>,
-        visitor: &mut V,
-    ) -> Result<(), V::Err> {
-        match *ast {
-            ClassInduct::Item(item) => {
-                visitor.visit_class_set_item_pre(item)?;
-            }
-            ClassInduct::BinaryOp(op) => {
-                visitor.visit_class_set_binary_op_pre(op)?;
-            }
-        }
-        Ok(())
-    }
-
-    /// Call the appropriate `Visitor` methods given an inductive step.
-    fn visit_class_post<V: Visitor>(
-        &self,
-        ast: &ClassInduct<'a>,
-        visitor: &mut V,
-    ) -> Result<(), V::Err> {
-        match *ast {
-            ClassInduct::Item(item) => {
-                visitor.visit_class_set_item_post(item)?;
-            }
-            ClassInduct::BinaryOp(op) => {
-                visitor.visit_class_set_binary_op_post(op)?;
-            }
-        }
-        Ok(())
-    }
-
-    /// Build a stack frame for the given class node if one is needed (which
-    /// occurs if and only if there are child nodes). Otherwise, return None.
-    fn induct_class(
-        &self,
-        ast: &ClassInduct<'a>,
-    ) -> Option<ClassFrame<'a>> {
-        match *ast {
-            ClassInduct::Item(&ast::ClassSetItem::Bracketed(ref x)) => {
-                match x.kind {
-                    ast::ClassSet::Item(ref item) => {
-                        Some(ClassFrame::Union {
-                            head: item,
-                            tail: &[],
-                        })
-                    }
-                    ast::ClassSet::BinaryOp(ref op) => {
-                        Some(ClassFrame::Binary { op: op })
-                    }
-                }
-            }
-            ClassInduct::Item(&ast::ClassSetItem::Union(ref x)) => {
-                if x.items.is_empty() {
-                    None
-                } else {
-                    Some(ClassFrame::Union {
-                        head: &x.items[0],
-                        tail: &x.items[1..],
-                    })
-                }
-            }
-            ClassInduct::BinaryOp(op) => {
-                Some(ClassFrame::BinaryLHS {
-                    op: op,
-                    lhs: &op.lhs,
-                    rhs: &op.rhs,
-                })
-            }
-            _ => None,
-        }
-    }
-
-    /// Pops the given frame. If the frame has an additional inductive step,
-    /// then return it, otherwise return `None`.
-    fn pop_class(&self, induct: ClassFrame<'a>) -> Option<ClassFrame<'a>> {
-        match induct {
-            ClassFrame::Union { tail, .. } => {
-                if tail.is_empty() {
-                    None
-                } else {
-                    Some(ClassFrame::Union {
-                        head: &tail[0],
-                        tail: &tail[1..],
-                    })
-                }
-            }
-            ClassFrame::Binary {..} => None,
-            ClassFrame::BinaryLHS { op, rhs, .. } => {
-                Some(ClassFrame::BinaryRHS {
-                    op: op,
-                    rhs: rhs,
-                })
-            }
-            ClassFrame::BinaryRHS {..} => None,
-        }
-    }
-}
-
-impl<'a> Frame<'a> {
-    /// Perform the next inductive step on this frame and return the next
-    /// child AST node to visit.
-    fn child(&self) -> &'a Ast {
-        match *self {
-            Frame::Repetition(rep) => &rep.ast,
-            Frame::Group(group) => &group.ast,
-            Frame::Concat { head, .. } => head,
-            Frame::Alternation { head, .. } => head,
-        }
-    }
-}
-
-impl<'a> ClassFrame<'a> {
-    /// Perform the next inductive step on this frame and return the next
-    /// child class node to visit.
-    fn child(&self) -> ClassInduct<'a> {
-        match *self {
-            ClassFrame::Union { head, .. } => ClassInduct::Item(head),
-            ClassFrame::Binary { op, .. } => ClassInduct::BinaryOp(op),
-            ClassFrame::BinaryLHS { ref lhs, .. } => {
-                ClassInduct::from_set(lhs)
-            }
-            ClassFrame::BinaryRHS { ref rhs, .. } => {
-                ClassInduct::from_set(rhs)
-            }
-        }
-    }
-}
-
-impl<'a> ClassInduct<'a> {
-    fn from_bracketed(ast: &'a ast::ClassBracketed) -> ClassInduct<'a> {
-        ClassInduct::from_set(&ast.kind)
-    }
-
-    fn from_set(ast: &'a ast::ClassSet) -> ClassInduct<'a> {
-        match *ast {
-            ast::ClassSet::Item(ref item) => ClassInduct::Item(item),
-            ast::ClassSet::BinaryOp(ref op) => ClassInduct::BinaryOp(op),
-        }
-    }
-}
-
-impl<'a> fmt::Debug for ClassFrame<'a> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let x = match *self {
-            ClassFrame::Union{..} => "Union",
-            ClassFrame::Binary{..} => "Binary",
-            ClassFrame::BinaryLHS{..} => "BinaryLHS",
-            ClassFrame::BinaryRHS{..} => "BinaryRHS",
-        };
-        write!(f, "{}", x)
-    }
-}
-
-impl<'a> fmt::Debug for ClassInduct<'a> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let x = match *self {
-            ClassInduct::Item(it) => {
-                match *it {
-                    ast::ClassSetItem::Empty(_) => "Item(Empty)",
-                    ast::ClassSetItem::Literal(_) => "Item(Literal)",
-                    ast::ClassSetItem::Range(_) => "Item(Range)",
-                    ast::ClassSetItem::Ascii(_) => "Item(Ascii)",
-                    ast::ClassSetItem::Perl(_) => "Item(Perl)",
-                    ast::ClassSetItem::Unicode(_) => "Item(Unicode)",
-                    ast::ClassSetItem::Bracketed(_) => "Item(Bracketed)",
-                    ast::ClassSetItem::Union(_) => "Item(Union)",
-                }
-            }
-            ClassInduct::BinaryOp(it) => {
-                match it.kind {
-                    ast::ClassSetBinaryOpKind::Intersection => {
-                        "BinaryOp(Intersection)"
-                    }
-                    ast::ClassSetBinaryOpKind::Difference => {
-                        "BinaryOp(Difference)"
-                    }
-                    ast::ClassSetBinaryOpKind::SymmetricDifference => {
-                        "BinaryOp(SymmetricDifference)"
-                    }
-                }
-            }
-        };
-        write!(f, "{}", x)
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/either.rs.html b/target/doc/src/regex_syntax/either.rs.html deleted file mode 100644 index 580d3ec..0000000 --- a/target/doc/src/regex_syntax/either.rs.html +++ /dev/null @@ -1,19 +0,0 @@ -either.rs.html -- source
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-
-/// A simple binary sum type.
-///
-/// This is occasionally useful in an ad hoc fashion.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Either<Left, Right> {
-    Left(Left),
-    Right(Right),
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/error.rs.html b/target/doc/src/regex_syntax/error.rs.html deleted file mode 100644 index ebf67f1..0000000 --- a/target/doc/src/regex_syntax/error.rs.html +++ /dev/null @@ -1,643 +0,0 @@ -error.rs.html -- source
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-
-use std::cmp;
-use std::error;
-use std::fmt;
-use std::result;
-
-use ast;
-use hir;
-
-/// A type alias for dealing with errors returned by this crate.
-pub type Result<T> = result::Result<T, Error>;
-
-/// This error type encompasses any error that can be returned by this crate.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Error {
-    /// An error that occurred while translating concrete syntax into abstract
-    /// syntax (AST).
-    Parse(ast::Error),
-    /// An error that occurred while translating abstract syntax into a high
-    /// level intermediate representation (HIR).
-    Translate(hir::Error),
-    /// Hints that destructuring should not be exhaustive.
-    ///
-    /// This enum may grow additional variants, so this makes sure clients
-    /// don't count on exhaustive matching. (Otherwise, adding a new variant
-    /// could break existing code.)
-    #[doc(hidden)]
-    __Nonexhaustive,
-}
-
-impl From<ast::Error> for Error {
-    fn from(err: ast::Error) -> Error {
-        Error::Parse(err)
-    }
-}
-
-impl From<hir::Error> for Error {
-    fn from(err: hir::Error) -> Error {
-        Error::Translate(err)
-    }
-}
-
-impl error::Error for Error {
-    fn description(&self) -> &str {
-        match *self {
-            Error::Parse(ref x) => x.description(),
-            Error::Translate(ref x) => x.description(),
-            _ => unreachable!(),
-        }
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        match *self {
-            Error::Parse(ref x) => x.fmt(f),
-            Error::Translate(ref x) => x.fmt(f),
-            _ => unreachable!(),
-        }
-    }
-}
-
-/// A helper type for formatting nice error messages.
-///
-/// This type is responsible for reporting regex parse errors in a nice human
-/// readable format. Most of its complexity is from interspersing notational
-/// markers pointing out the position where an error occurred.
-#[derive(Debug)]
-pub struct Formatter<'e, E: 'e> {
-    /// The original regex pattern in which the error occurred.
-    pattern: &'e str,
-    /// The error kind. It must impl fmt::Display.
-    err: &'e E,
-    /// The primary span of the error.
-    span: &'e ast::Span,
-    /// An auxiliary and optional span, in case the error needs to point to
-    /// two locations (e.g., when reporting a duplicate capture group name).
-    aux_span: Option<&'e ast::Span>,
-}
-
-impl<'e> From<&'e ast::Error> for Formatter<'e, ast::ErrorKind> {
-    fn from(err: &'e ast::Error) -> Self {
-        Formatter {
-            pattern: err.pattern(),
-            err: err.kind(),
-            span: err.span(),
-            aux_span: err.auxiliary_span(),
-        }
-    }
-}
-
-impl<'e> From<&'e hir::Error> for Formatter<'e, hir::ErrorKind> {
-    fn from(err: &'e hir::Error) -> Self {
-        Formatter {
-            pattern: err.pattern(),
-            err: err.kind(),
-            span: err.span(),
-            aux_span: None,
-        }
-    }
-}
-
-impl<'e, E: fmt::Display> fmt::Display for Formatter<'e, E> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let spans = Spans::from_formatter(self);
-        if self.pattern.contains('\n') {
-            let divider = repeat_char('~', 79);
-
-            writeln!(f, "regex parse error:")?;
-            writeln!(f, "{}", divider)?;
-            let notated = spans.notate();
-            write!(f, "{}", notated)?;
-            writeln!(f, "{}", divider)?;
-            // If we have error spans that cover multiple lines, then we just
-            // note the line numbers.
-            if !spans.multi_line.is_empty() {
-                let mut notes = vec![];
-                for span in &spans.multi_line {
-                    notes.push(format!(
-                        "on line {} (column {}) through line {} (column {})",
-                        span.start.line, span.start.column,
-                        span.end.line, span.end.column - 1));
-                }
-                writeln!(f, "{}", notes.join("\n"))?;
-            }
-            write!(f, "error: {}", self.err)?;
-        } else {
-            writeln!(f, "regex parse error:")?;
-            let notated = Spans::from_formatter(self).notate();
-            write!(f, "{}", notated)?;
-            write!(f, "error: {}", self.err)?;
-        }
-        Ok(())
-    }
-}
-
-/// This type represents an arbitrary number of error spans in a way that makes
-/// it convenient to notate the regex pattern. ("Notate" means "point out
-/// exactly where the error occurred in the regex pattern.")
-///
-/// Technically, we can only ever have two spans given our current error
-/// structure. However, after toiling with a specific algorithm for handling
-/// two spans, it became obvious that an algorithm to handle an arbitrary
-/// number of spans was actually much simpler.
-struct Spans<'p> {
-    /// The original regex pattern string.
-    pattern: &'p str,
-    /// The total width that should be used for line numbers. The width is
-    /// used for left padding the line numbers for alignment.
-    ///
-    /// A value of `0` means line numbers should not be displayed. That is,
-    /// the pattern is itself only one line.
-    line_number_width: usize,
-    /// All error spans that occur on a single line. This sequence always has
-    /// length equivalent to the number of lines in `pattern`, where the index
-    /// of the sequence represents a line number, starting at `0`. The spans
-    /// in each line are sorted in ascending order.
-    by_line: Vec<Vec<ast::Span>>,
-    /// All error spans that occur over one or more lines. That is, the start
-    /// and end position of the span have different line numbers. The spans are
-    /// sorted in ascending order.
-    multi_line: Vec<ast::Span>,
-}
-
-impl<'p> Spans<'p> {
-    /// Build a sequence of spans from a formatter.
-    fn from_formatter<'e, E: fmt::Display>(
-        fmter: &'p Formatter<'e, E>,
-    ) -> Spans<'p> {
-        let mut line_count = fmter.pattern.lines().count();
-        // If the pattern ends with a `\n` literal, then our line count is
-        // off by one, since a span can occur immediately after the last `\n`,
-        // which is consider to be an additional line.
-        if fmter.pattern.ends_with('\n') {
-            line_count += 1;
-        }
-        let line_number_width =
-            if line_count <= 1 {
-                0
-            } else {
-                line_count.to_string().len()
-            };
-        let mut spans = Spans {
-            pattern: &fmter.pattern,
-            line_number_width: line_number_width,
-            by_line: vec![vec![]; line_count],
-            multi_line: vec![],
-        };
-        spans.add(fmter.span.clone());
-        if let Some(span) = fmter.aux_span {
-            spans.add(span.clone());
-        }
-        spans
-    }
-
-    /// Add the given span to this sequence, putting it in the right place.
-    fn add(&mut self, span: ast::Span) {
-        // This is grossly inefficient since we sort after each add, but right
-        // now, we only ever add two spans at most.
-        if span.is_one_line() {
-            let i = span.start.line - 1; // because lines are 1-indexed
-            self.by_line[i].push(span);
-            self.by_line[i].sort();
-        } else {
-            self.multi_line.push(span);
-            self.multi_line.sort();
-        }
-    }
-
-    /// Notate the pattern string with carents (`^`) pointing at each span
-    /// location. This only applies to spans that occur within a single line.
-    fn notate(&self) -> String {
-        let mut notated = String::new();
-        for (i, line) in self.pattern.lines().enumerate() {
-            if self.line_number_width > 0 {
-                notated.push_str(&self.left_pad_line_number(i + 1));
-                notated.push_str(": ");
-            } else {
-                notated.push_str("    ");
-            }
-            notated.push_str(line);
-            notated.push('\n');
-            if let Some(notes) = self.notate_line(i) {
-                notated.push_str(&notes);
-                notated.push('\n');
-            }
-        }
-        notated
-    }
-
-    /// Return notes for the line indexed at `i` (zero-based). If there are no
-    /// spans for the given line, then `None` is returned. Otherwise, an
-    /// appropriately space padded string with correctly positioned `^` is
-    /// returned, accounting for line numbers.
-    fn notate_line(&self, i: usize) -> Option<String> {
-        let spans = &self.by_line[i];
-        if spans.is_empty() {
-            return None;
-        }
-        let mut notes = String::new();
-        for _ in 0..self.line_number_padding() {
-            notes.push(' ');
-        }
-        let mut pos = 0;
-        for span in spans {
-            for _ in pos..(span.start.column - 1) {
-                notes.push(' ');
-                pos += 1;
-            }
-            let note_len = span.end.column.saturating_sub(span.start.column);
-            for _ in 0..cmp::max(1, note_len) {
-                notes.push('^');
-                pos += 1;
-            }
-        }
-        Some(notes)
-    }
-
-    /// Left pad the given line number with spaces such that it is aligned with
-    /// other line numbers.
-    fn left_pad_line_number(&self, n: usize) -> String {
-        let n = n.to_string();
-        let pad = self.line_number_width.checked_sub(n.len()).unwrap();
-        let mut result = repeat_char(' ', pad);
-        result.push_str(&n);
-        result
-    }
-
-    /// Return the line number padding beginning at the start of each line of
-    /// the pattern.
-    ///
-    /// If the pattern is only one line, then this returns a fixed padding
-    /// for visual indentation.
-    fn line_number_padding(&self) -> usize {
-        if self.line_number_width == 0 {
-            4
-        } else {
-            2 + self.line_number_width
-        }
-    }
-}
-
-fn repeat_char(c: char, count: usize) -> String {
-    ::std::iter::repeat(c).take(count).collect()
-}
-
-#[cfg(test)]
-mod tests {
-    use ast::parse::Parser;
-
-    fn assert_panic_message(pattern: &str, expected_msg: &str) -> () {
-        let result = Parser::new().parse(pattern);
-        match result {
-            Ok(_) => {
-                panic!("regex should not have parsed");
-            }
-            Err(err) => {
-                assert_eq!(err.to_string(), expected_msg.trim());
-            }
-        }
-    }
-
-    // See: https://github.com/rust-lang/regex/issues/464
-    #[test]
-    fn regression_464() {
-        let err = Parser::new().parse("a{\n").unwrap_err();
-        // This test checks that the error formatter doesn't panic.
-        assert!(!err.to_string().is_empty());
-    }
-
-    // See: https://github.com/rust-lang/regex/issues/545
-    #[test]
-    fn repetition_quantifier_expects_a_valid_decimal() {
-        assert_panic_message(r"\\u{[^}]*}", r#"
-regex parse error:
-    \\u{[^}]*}
-        ^
-error: repetition quantifier expects a valid decimal
-"#);
-    }
-}
-
-
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-
-use std::char;
-use std::cmp;
-use std::fmt::Debug;
-use std::slice;
-use std::u8;
-
-// This module contains an *internal* implementation of interval sets.
-//
-// The primary invariant that interval sets guards is canonical ordering. That
-// is, every interval set contains an ordered sequence of intervals where
-// no two intervals are overlapping or adjacent. While this invariant is
-// occasionally broken within the implementation, it should be impossible for
-// callers to observe it.
-//
-// Since case folding (as implemented below) breaks that invariant, we roll
-// that into this API even though it is a little out of place in an otherwise
-// generic interval set.
-//
-// Some of the implementation complexity here is a result of me wanting to
-// preserve the sequential representation without using additional memory.
-// In many cases, we do use linear extra memory, but it is at most 2x and it
-// is amortized. If we relaxed the memory requirements, this implementation
-// could become much simpler. The extra memory is honestly probably OK, but
-// character classes (especially of the Unicode variety) can become quite
-// large, and it would be nice to keep regex compilation snappy even in debug
-// builds. (In the past, I have been careless with this area of code and it has
-// caused slow regex compilations in debug mode, so this isn't entirely
-// unwarranted.)
-//
-// Tests on this are relegated to the public API of HIR in src/hir.rs.
-
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct IntervalSet<I> {
-    ranges: Vec<I>,
-}
-
-impl<I: Interval> IntervalSet<I> {
-    /// Create a new set from a sequence of intervals. Each interval is
-    /// specified as a pair of bounds, where both bounds are inclusive.
-    ///
-    /// The given ranges do not need to be in any specific order, and ranges
-    /// may overlap.
-    pub fn new<T: IntoIterator<Item=I>>(intervals: T) -> IntervalSet<I> {
-        let mut set = IntervalSet { ranges: intervals.into_iter().collect() };
-        set.canonicalize();
-        set
-    }
-
-    /// Add a new interval to this set.
-    pub fn push(&mut self, interval: I) {
-        // TODO: This could be faster. e.g., Push the interval such that
-        // it preserves canonicalization.
-        self.ranges.push(interval);
-        self.canonicalize();
-    }
-
-    /// Return an iterator over all intervals in this set.
-    ///
-    /// The iterator yields intervals in ascending order.
-    pub fn iter(&self) -> IntervalSetIter<I> {
-        IntervalSetIter(self.ranges.iter())
-    }
-
-    /// Return an immutable slice of intervals in this set.
-    ///
-    /// The sequence returned is in canonical ordering.
-    pub fn intervals(&self) -> &[I] {
-        &self.ranges
-    }
-
-    /// Expand this interval set such that it contains all case folded
-    /// characters. For example, if this class consists of the range `a-z`,
-    /// then applying case folding will result in the class containing both the
-    /// ranges `a-z` and `A-Z`.
-    pub fn case_fold_simple(&mut self) {
-        let len = self.ranges.len();
-        for i in 0..len {
-            let range = self.ranges[i];
-            range.case_fold_simple(&mut self.ranges);
-        }
-        self.canonicalize();
-    }
-
-    /// Union this set with the given set, in place.
-    pub fn union(&mut self, other: &IntervalSet<I>) {
-        // This could almost certainly be done more efficiently.
-        self.ranges.extend(&other.ranges);
-        self.canonicalize();
-    }
-
-    /// Intersect this set with the given set, in place.
-    pub fn intersect(&mut self, other: &IntervalSet<I>) {
-        if self.ranges.is_empty() {
-            return;
-        }
-        if other.ranges.is_empty() {
-            self.ranges.clear();
-            return;
-        }
-
-        // There should be a way to do this in-place with constant memory,
-        // but I couldn't figure out a simple way to do it. So just append
-        // the intersection to the end of this range, and then drain it before
-        // we're done.
-        let drain_end = self.ranges.len();
-
-        let mut ita = (0..drain_end).into_iter();
-        let mut itb = (0..other.ranges.len()).into_iter();
-        let mut a = ita.next().unwrap();
-        let mut b = itb.next().unwrap();
-        loop {
-            if let Some(ab) = self.ranges[a].intersect(&other.ranges[b]) {
-                self.ranges.push(ab);
-            }
-            let (it, aorb) =
-                if self.ranges[a].upper() < other.ranges[b].upper() {
-                    (&mut ita, &mut a)
-                } else {
-                    (&mut itb, &mut b)
-                };
-            match it.next() {
-                Some(v) => *aorb = v,
-                None => break,
-            }
-        }
-        self.ranges.drain(..drain_end);
-    }
-
-    /// Subtract the given set from this set, in place.
-    pub fn difference(&mut self, other: &IntervalSet<I>) {
-        if self.ranges.is_empty() || other.ranges.is_empty() {
-            return;
-        }
-
-        // This algorithm is (to me) surprisingly complex. A search of the
-        // interwebs indicate that this is a potentially interesting problem.
-        // Folks seem to suggest interval or segment trees, but I'd like to
-        // avoid the overhead (both runtime and conceptual) of that.
-        //
-        // The following is basically my Shitty First Draft. Therefore, in
-        // order to grok it, you probably need to read each line carefully.
-        // Simplifications are most welcome!
-        //
-        // Remember, we can assume the canonical format invariant here, which
-        // says that all ranges are sorted, not overlapping and not adjacent in
-        // each class.
-        let drain_end = self.ranges.len();
-        let (mut a, mut b) = (0, 0);
-    'LOOP:
-        while a < drain_end && b < other.ranges.len() {
-            // Basically, the easy cases are when neither range overlaps with
-            // each other. If the `b` range is less than our current `a`
-            // range, then we can skip it and move on.
-            if other.ranges[b].upper() < self.ranges[a].lower() {
-                b += 1;
-                continue;
-            }
-            // ... similarly for the `a` range. If it's less than the smallest
-            // `b` range, then we can add it as-is.
-            if self.ranges[a].upper() < other.ranges[b].lower() {
-                let range = self.ranges[a];
-                self.ranges.push(range);
-                a += 1;
-                continue;
-            }
-            // Otherwise, we have overlapping ranges.
-            assert!(!self.ranges[a].is_intersection_empty(&other.ranges[b]));
-
-            // This part is tricky and was non-obvious to me without looking
-            // at explicit examples (see the tests). The trickiness stems from
-            // two things: 1) subtracting a range from another range could
-            // yield two ranges and 2) after subtracting a range, it's possible
-            // that future ranges can have an impact. The loop below advances
-            // the `b` ranges until they can't possible impact the current
-            // range.
-            //
-            // For example, if our `a` range is `a-t` and our next three `b`
-            // ranges are `a-c`, `g-i`, `r-t` and `x-z`, then we need to apply
-            // subtraction three times before moving on to the next `a` range.
-            let mut range = self.ranges[a];
-            while b < other.ranges.len()
-                && !range.is_intersection_empty(&other.ranges[b])
-            {
-                let old_range = range;
-                range = match range.difference(&other.ranges[b]) {
-                    (None, None) => {
-                        // We lost the entire range, so move on to the next
-                        // without adding this one.
-                        a += 1;
-                        continue 'LOOP;
-                    }
-                    (Some(range1), None) | (None, Some(range1)) => range1,
-                    (Some(range1), Some(range2)) => {
-                        self.ranges.push(range1);
-                        range2
-                    }
-                };
-                // It's possible that the `b` range has more to contribute
-                // here. In particular, if it is greater than the original
-                // range, then it might impact the next `a` range *and* it
-                // has impacted the current `a` range as much as possible,
-                // so we can quit. We don't bump `b` so that the next `a`
-                // range can apply it.
-                if other.ranges[b].upper() > old_range.upper() {
-                    break;
-                }
-                // Otherwise, the next `b` range might apply to the current
-                // `a` range.
-                b += 1;
-            }
-            self.ranges.push(range);
-            a += 1;
-        }
-        while a < drain_end {
-            let range = self.ranges[a];
-            self.ranges.push(range);
-            a += 1;
-        }
-        self.ranges.drain(..drain_end);
-    }
-
-    /// Compute the symmetric difference of the two sets, in place.
-    ///
-    /// This computes the symmetric difference of two interval sets. This
-    /// removes all elements in this set that are also in the given set,
-    /// but also adds all elements from the given set that aren't in this
-    /// set. That is, the set will contain all elements in either set,
-    /// but will not contain any elements that are in both sets.
-    pub fn symmetric_difference(&mut self, other: &IntervalSet<I>) {
-        // TODO(burntsushi): Fix this so that it amortizes allocation.
-        let mut intersection = self.clone();
-        intersection.intersect(other);
-        self.union(other);
-        self.difference(&intersection);
-    }
-
-    /// Negate this interval set.
-    ///
-    /// For all `x` where `x` is any element, if `x` was in this set, then it
-    /// will not be in this set after negation.
-    pub fn negate(&mut self) {
-        if self.ranges.is_empty() {
-            let (min, max) = (I::Bound::min_value(), I::Bound::max_value());
-            self.ranges.push(I::create(min, max));
-            return;
-        }
-
-        // There should be a way to do this in-place with constant memory,
-        // but I couldn't figure out a simple way to do it. So just append
-        // the negation to the end of this range, and then drain it before
-        // we're done.
-        let drain_end = self.ranges.len();
-
-        // We do checked arithmetic below because of the canonical ordering
-        // invariant.
-        if self.ranges[0].lower() > I::Bound::min_value() {
-            let upper = self.ranges[0].lower().decrement();
-            self.ranges.push(I::create(I::Bound::min_value(), upper));
-        }
-        for i in 1..drain_end {
-            let lower = self.ranges[i - 1].upper().increment();
-            let upper = self.ranges[i].lower().decrement();
-            self.ranges.push(I::create(lower, upper));
-        }
-        if self.ranges[drain_end - 1].upper() < I::Bound::max_value() {
-            let lower = self.ranges[drain_end - 1].upper().increment();
-            self.ranges.push(I::create(lower, I::Bound::max_value()));
-        }
-        self.ranges.drain(..drain_end);
-    }
-
-    /// Converts this set into a canonical ordering.
-    fn canonicalize(&mut self) {
-        if self.is_canonical() {
-            return;
-        }
-        self.ranges.sort();
-        assert!(!self.ranges.is_empty());
-
-        // Is there a way to do this in-place with constant memory? I couldn't
-        // figure out a way to do it. So just append the canonicalization to
-        // the end of this range, and then drain it before we're done.
-        let drain_end = self.ranges.len();
-        for oldi in 0..drain_end {
-            // If we've added at least one new range, then check if we can
-            // merge this range in the previously added range.
-            if self.ranges.len() > drain_end {
-                let (last, rest) = self.ranges.split_last_mut().unwrap();
-                if let Some(union) = last.union(&rest[oldi]) {
-                    *last = union;
-                    continue;
-                }
-            }
-            let range = self.ranges[oldi];
-            self.ranges.push(range);
-        }
-        self.ranges.drain(..drain_end);
-    }
-
-    /// Returns true if and only if this class is in a canonical ordering.
-    fn is_canonical(&self) -> bool {
-        for pair in self.ranges.windows(2) {
-            if pair[0] >= pair[1] {
-                return false;
-            }
-            if pair[0].is_contiguous(&pair[1]) {
-                return false;
-            }
-        }
-        true
-    }
-}
-
-/// An iterator over intervals.
-#[derive(Debug)]
-pub struct IntervalSetIter<'a, I: 'a>(slice::Iter<'a, I>);
-
-impl<'a, I> Iterator for IntervalSetIter<'a, I> {
-    type Item = &'a I;
-
-    fn next(&mut self) -> Option<&'a I> {
-        self.0.next()
-    }
-}
-
-pub trait Interval:
-    Clone + Copy + Debug + Default + Eq + PartialEq + PartialOrd + Ord
-{
-    type Bound: Bound;
-
-    fn lower(&self) -> Self::Bound;
-    fn upper(&self) -> Self::Bound;
-    fn set_lower(&mut self, bound: Self::Bound);
-    fn set_upper(&mut self, bound: Self::Bound);
-    fn case_fold_simple(&self, intervals: &mut Vec<Self>);
-
-    /// Create a new interval.
-    fn create(lower: Self::Bound, upper: Self::Bound) -> Self {
-        let mut int = Self::default();
-        if lower <= upper {
-            int.set_lower(lower);
-            int.set_upper(upper);
-        } else {
-            int.set_lower(upper);
-            int.set_upper(lower);
-        }
-        int
-    }
-
-    /// Union the given overlapping range into this range.
-    ///
-    /// If the two ranges aren't contiguous, then this returns `None`.
-    fn union(&self, other: &Self) -> Option<Self> {
-        if !self.is_contiguous(other) {
-            return None;
-        }
-        let lower = cmp::min(self.lower(), other.lower());
-        let upper = cmp::max(self.upper(), other.upper());
-        Some(Self::create(lower, upper))
-    }
-
-    /// Intersect this range with the given range and return the result.
-    ///
-    /// If the intersection is empty, then this returns `None`.
-    fn intersect(&self, other: &Self) -> Option<Self> {
-        let lower = cmp::max(self.lower(), other.lower());
-        let upper = cmp::min(self.upper(), other.upper());
-        if lower <= upper {
-            Some(Self::create(lower, upper))
-        } else {
-            None
-        }
-    }
-
-    /// Subtract the given range from this range and return the resulting
-    /// ranges.
-    ///
-    /// If subtraction would result in an empty range, then no ranges are
-    /// returned.
-    fn difference(&self, other: &Self) -> (Option<Self>, Option<Self>) {
-        if self.is_subset(other) {
-            return (None, None);
-        }
-        if self.is_intersection_empty(other) {
-            return (Some(self.clone()), None);
-        }
-        let add_lower = other.lower() > self.lower();
-        let add_upper = other.upper() < self.upper();
-        // We know this because !self.is_subset(other) and the ranges have
-        // a non-empty intersection.
-        assert!(add_lower || add_upper);
-        let mut ret = (None, None);
-        if add_lower {
-            let upper = other.lower().decrement();
-            ret.0 = Some(Self::create(self.lower(), upper));
-        }
-        if add_upper {
-            let lower = other.upper().increment();
-            let range = Self::create(lower, self.upper());
-            if ret.0.is_none() {
-                ret.0 = Some(range);
-            } else {
-                ret.1 = Some(range);
-            }
-        }
-        ret
-    }
-
-    /// Compute the symmetric difference the given range from this range. This
-    /// returns the union of the two ranges minus its intersection.
-    fn symmetric_difference(
-        &self,
-        other: &Self,
-    ) -> (Option<Self>, Option<Self>) {
-        let union = match self.union(other) {
-            None => return (Some(self.clone()), Some(other.clone())),
-            Some(union) => union,
-        };
-        let intersection = match self.intersect(other) {
-            None => return (Some(self.clone()), Some(other.clone())),
-            Some(intersection) => intersection,
-        };
-        union.difference(&intersection)
-    }
-
-    /// Returns true if and only if the two ranges are contiguous. Two ranges
-    /// are contiguous if and only if the ranges are either overlapping or
-    /// adjacent.
-    fn is_contiguous(&self, other: &Self) -> bool {
-        let lower1 = self.lower().as_u32();
-        let upper1 = self.upper().as_u32();
-        let lower2 = other.lower().as_u32();
-        let upper2 = other.upper().as_u32();
-        cmp::max(lower1, lower2) <= cmp::min(upper1, upper2).saturating_add(1)
-    }
-
-    /// Returns true if and only if the intersection of this range and the
-    /// other range is empty.
-    fn is_intersection_empty(&self, other: &Self) -> bool {
-        let (lower1, upper1) = (self.lower(), self.upper());
-        let (lower2, upper2) = (other.lower(), other.upper());
-        cmp::max(lower1, lower2) > cmp::min(upper1, upper2)
-    }
-
-    /// Returns true if and only if this range is a subset of the other range.
-    fn is_subset(&self, other: &Self) -> bool {
-        let (lower1, upper1) = (self.lower(), self.upper());
-        let (lower2, upper2) = (other.lower(), other.upper());
-        (lower2 <= lower1 && lower1 <= upper2)
-        && (lower2 <= upper1 && upper1 <= upper2)
-    }
-}
-
-pub trait Bound: Copy + Clone + Debug + Eq + PartialEq + PartialOrd + Ord {
-    fn min_value() -> Self;
-    fn max_value() -> Self;
-    fn as_u32(self) -> u32;
-    fn increment(self) -> Self;
-    fn decrement(self) -> Self;
-}
-
-impl Bound for u8 {
-    fn min_value() -> Self { u8::MIN }
-    fn max_value() -> Self { u8::MAX }
-    fn as_u32(self) -> u32 { self as u32 }
-    fn increment(self) -> Self { self.checked_add(1).unwrap() }
-    fn decrement(self) -> Self { self.checked_sub(1).unwrap() }
-}
-
-impl Bound for char {
-    fn min_value() -> Self { '\x00' }
-    fn max_value() -> Self { '\u{10FFFF}' }
-    fn as_u32(self) -> u32 { self as u32 }
-
-    fn increment(self) -> Self {
-        match self {
-            '\u{D7FF}' => '\u{E000}',
-            c => char::from_u32((c as u32).checked_add(1).unwrap()).unwrap(),
-        }
-    }
-
-    fn decrement(self) -> Self {
-        match self {
-            '\u{E000}' => '\u{D7FF}',
-            c => char::from_u32((c as u32).checked_sub(1).unwrap()).unwrap(),
-        }
-    }
-}
-
-// Tests for interval sets are written in src/hir.rs against the public API.
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/hir/literal/mod.rs.html b/target/doc/src/regex_syntax/hir/literal/mod.rs.html deleted file mode 100644 index a5bc7f5..0000000 --- a/target/doc/src/regex_syntax/hir/literal/mod.rs.html +++ /dev/null @@ -1,3105 +0,0 @@ -mod.rs.html -- source
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-Provides routines for extracting literal prefixes and suffixes from an `Hir`.
-*/
-
-use std::cmp;
-use std::fmt;
-use std::iter;
-use std::mem;
-use std::ops;
-
-use hir::{self, Hir, HirKind};
-
-/// A set of literal byte strings extracted from a regular expression.
-///
-/// Every member of the set is a `Literal`, which is represented by a
-/// `Vec<u8>`. (Notably, it may contain invalid UTF-8.) Every member is
-/// said to be either *complete* or *cut*. A complete literal means that
-/// it extends until the beginning (or end) of the regular expression. In
-/// some circumstances, this can be used to indicate a match in the regular
-/// expression.
-///
-/// A key aspect of literal extraction is knowing when to stop. It is not
-/// feasible to blindly extract all literals from a regular expression, even if
-/// there are finitely many. For example, the regular expression `[0-9]{10}`
-/// has `10^10` distinct literals. For this reason, literal extraction is
-/// bounded to some low number by default using heuristics, but the limits can
-/// be tweaked.
-///
-/// **WARNING**: Literal extraction uses stack space proportional to the size
-/// of the `Hir` expression. At some point, this drawback will be eliminated.
-/// To protect yourself, set a reasonable
-/// [`nest_limit` on your `Parser`](../../struct.ParserBuilder.html#method.nest_limit).
-/// This is done for you by default.
-#[derive(Clone, Eq, PartialEq)]
-pub struct Literals {
-    lits: Vec<Literal>,
-    limit_size: usize,
-    limit_class: usize,
-}
-
-/// A single member of a set of literals extracted from a regular expression.
-///
-/// This type has `Deref` and `DerefMut` impls to `Vec<u8>` so that all slice
-/// and `Vec` operations are available.
-#[derive(Clone, Eq, Ord)]
-pub struct Literal {
-    v: Vec<u8>,
-    cut: bool,
-}
-
-impl Literals {
-    /// Returns a new empty set of literals using default limits.
-    pub fn empty() -> Literals {
-        Literals {
-            lits: vec![],
-            limit_size: 250,
-            limit_class: 10,
-        }
-    }
-
-    /// Returns a set of literal prefixes extracted from the given `Hir`.
-    pub fn prefixes(expr: &Hir) -> Literals {
-        let mut lits = Literals::empty();
-        lits.union_prefixes(expr);
-        lits
-    }
-
-    /// Returns a set of literal suffixes extracted from the given `Hir`.
-    pub fn suffixes(expr: &Hir) -> Literals {
-        let mut lits = Literals::empty();
-        lits.union_suffixes(expr);
-        lits
-    }
-
-    /// Get the approximate size limit (in bytes) of this set.
-    pub fn limit_size(&self) -> usize {
-        self.limit_size
-    }
-
-    /// Set the approximate size limit (in bytes) of this set.
-    ///
-    /// If extracting a literal would put the set over this limit, then
-    /// extraction stops.
-    ///
-    /// The new limits will only apply to additions to this set. Existing
-    /// members remain unchanged, even if the set exceeds the new limit.
-    pub fn set_limit_size(&mut self, size: usize) -> &mut Literals {
-        self.limit_size = size;
-        self
-    }
-
-    /// Get the character class size limit for this set.
-    pub fn limit_class(&self) -> usize {
-        self.limit_class
-    }
-
-    /// Limits the size of character(or byte) classes considered.
-    ///
-    /// A value of `0` prevents all character classes from being considered.
-    ///
-    /// This limit also applies to case insensitive literals, since each
-    /// character in the case insensitive literal is converted to a class, and
-    /// then case folded.
-    ///
-    /// The new limits will only apply to additions to this set. Existing
-    /// members remain unchanged, even if the set exceeds the new limit.
-    pub fn set_limit_class(&mut self, size: usize) -> &mut Literals {
-        self.limit_class = size;
-        self
-    }
-
-    /// Returns the set of literals as a slice. Its order is unspecified.
-    pub fn literals(&self) -> &[Literal] {
-        &self.lits
-    }
-
-    /// Returns the length of the smallest literal.
-    ///
-    /// Returns None is there are no literals in the set.
-    pub fn min_len(&self) -> Option<usize> {
-        let mut min = None;
-        for lit in &self.lits {
-            match min {
-                None => min = Some(lit.len()),
-                Some(m) if lit.len() < m => min = Some(lit.len()),
-                _ => {}
-            }
-        }
-        min
-    }
-
-    /// Returns true if all members in this set are complete.
-    pub fn all_complete(&self) -> bool {
-        !self.lits.is_empty() && self.lits.iter().all(|l| !l.is_cut())
-    }
-
-    /// Returns true if any member in this set is complete.
-    pub fn any_complete(&self) -> bool {
-        self.lits.iter().any(|lit| !lit.is_cut())
-    }
-
-    /// Returns true if this set contains an empty literal.
-    pub fn contains_empty(&self) -> bool {
-        self.lits.iter().any(|lit| lit.is_empty())
-    }
-
-    /// Returns true if this set is empty or if all of its members is empty.
-    pub fn is_empty(&self) -> bool {
-        self.lits.is_empty() || self.lits.iter().all(|lit| lit.is_empty())
-    }
-
-    /// Returns a new empty set of literals using this set's limits.
-    pub fn to_empty(&self) -> Literals {
-        let mut lits = Literals::empty();
-        lits.set_limit_size(self.limit_size)
-            .set_limit_class(self.limit_class);
-        lits
-    }
-
-    /// Returns the longest common prefix of all members in this set.
-    pub fn longest_common_prefix(&self) -> &[u8] {
-        if self.is_empty() {
-            return &[];
-        }
-        let lit0 = &*self.lits[0];
-        let mut len = lit0.len();
-        for lit in &self.lits[1..] {
-            len = cmp::min(
-                len,
-                lit.iter()
-                   .zip(lit0)
-                   .take_while(|&(a, b)| a == b)
-                   .count());
-        }
-        &self.lits[0][..len]
-    }
-
-    /// Returns the longest common suffix of all members in this set.
-    pub fn longest_common_suffix(&self) -> &[u8] {
-        if self.is_empty() {
-            return &[];
-        }
-        let lit0 = &*self.lits[0];
-        let mut len = lit0.len();
-        for lit in &self.lits[1..] {
-            len = cmp::min(
-                len,
-                lit.iter()
-                   .rev()
-                   .zip(lit0.iter().rev())
-                   .take_while(|&(a, b)| a == b)
-                   .count());
-        }
-        &self.lits[0][self.lits[0].len() - len..]
-    }
-
-    /// Returns a new set of literals with the given number of bytes trimmed
-    /// from the suffix of each literal.
-    ///
-    /// If any literal would be cut out completely by trimming, then None is
-    /// returned.
-    ///
-    /// Any duplicates that are created as a result of this transformation are
-    /// removed.
-    pub fn trim_suffix(&self, num_bytes: usize) -> Option<Literals> {
-        if self.min_len().map(|len| len <= num_bytes).unwrap_or(true) {
-            return None;
-        }
-        let mut new = self.to_empty();
-        for mut lit in self.lits.iter().cloned() {
-            let new_len = lit.len() - num_bytes;
-            lit.truncate(new_len);
-            lit.cut();
-            new.lits.push(lit);
-        }
-        new.lits.sort();
-        new.lits.dedup();
-        Some(new)
-    }
-
-    /// Returns a new set of prefixes of this set of literals that are
-    /// guaranteed to be unambiguous.
-    ///
-    /// Any substring match with a member of the set is returned is guaranteed
-    /// to never overlap with a substring match of another member of the set
-    /// at the same starting position.
-    ///
-    /// Given any two members of the returned set, neither is a substring of
-    /// the other.
-    pub fn unambiguous_prefixes(&self) -> Literals {
-        if self.lits.is_empty() {
-            return self.to_empty();
-        }
-        let mut old: Vec<Literal> = self.lits.iter().cloned().collect();
-        let mut new = self.to_empty();
-    'OUTER:
-        while let Some(mut candidate) = old.pop() {
-            if candidate.is_empty() {
-                continue;
-            }
-            if new.lits.is_empty() {
-                new.lits.push(candidate);
-                continue;
-            }
-            for lit2 in &mut new.lits {
-                if lit2.is_empty() {
-                    continue;
-                }
-                if &candidate == lit2 {
-                    // If the literal is already in the set, then we can
-                    // just drop it. But make sure that cut literals are
-                    // infectious!
-                    candidate.cut = candidate.cut || lit2.cut;
-                    lit2.cut = candidate.cut;
-                    continue 'OUTER;
-                }
-                if candidate.len() < lit2.len() {
-                    if let Some(i) = position(&candidate, &lit2) {
-                        candidate.cut();
-                        let mut lit3 = lit2.clone();
-                        lit3.truncate(i);
-                        lit3.cut();
-                        old.push(lit3);
-                        lit2.clear();
-                    }
-                } else {
-                    if let Some(i) = position(&lit2, &candidate) {
-                        lit2.cut();
-                        let mut new_candidate = candidate.clone();
-                        new_candidate.truncate(i);
-                        new_candidate.cut();
-                        old.push(new_candidate);
-                        candidate.clear();
-                    }
-                }
-                // Oops, the candidate is already represented in the set.
-                if candidate.is_empty() {
-                    continue 'OUTER;
-                }
-            }
-            new.lits.push(candidate);
-        }
-        new.lits.retain(|lit| !lit.is_empty());
-        new.lits.sort();
-        new.lits.dedup();
-        new
-    }
-
-    /// Returns a new set of suffixes of this set of literals that are
-    /// guaranteed to be unambiguous.
-    ///
-    /// Any substring match with a member of the set is returned is guaranteed
-    /// to never overlap with a substring match of another member of the set
-    /// at the same ending position.
-    ///
-    /// Given any two members of the returned set, neither is a substring of
-    /// the other.
-    pub fn unambiguous_suffixes(&self) -> Literals {
-        // This is a touch wasteful...
-        let mut lits = self.clone();
-        lits.reverse();
-        let mut unamb = lits.unambiguous_prefixes();
-        unamb.reverse();
-        unamb
-    }
-
-    /// Unions the prefixes from the given expression to this set.
-    ///
-    /// If prefixes could not be added (for example, this set would exceed its
-    /// size limits or the set of prefixes from `expr` includes the empty
-    /// string), then false is returned.
-    ///
-    /// Note that prefix literals extracted from `expr` are said to be complete
-    /// if and only if the literal extends from the beginning of `expr` to the
-    /// end of `expr`.
-    pub fn union_prefixes(&mut self, expr: &Hir) -> bool {
-        let mut lits = self.to_empty();
-        prefixes(expr, &mut lits);
-        !lits.is_empty() && !lits.contains_empty() && self.union(lits)
-    }
-
-    /// Unions the suffixes from the given expression to this set.
-    ///
-    /// If suffixes could not be added (for example, this set would exceed its
-    /// size limits or the set of suffixes from `expr` includes the empty
-    /// string), then false is returned.
-    ///
-    /// Note that prefix literals extracted from `expr` are said to be complete
-    /// if and only if the literal extends from the end of `expr` to the
-    /// beginning of `expr`.
-    pub fn union_suffixes(&mut self, expr: &Hir) -> bool {
-        let mut lits = self.to_empty();
-        suffixes(expr, &mut lits);
-        lits.reverse();
-        !lits.is_empty() && !lits.contains_empty() && self.union(lits)
-    }
-
-    /// Unions this set with another set.
-    ///
-    /// If the union would cause the set to exceed its limits, then the union
-    /// is skipped and it returns false. Otherwise, if the union succeeds, it
-    /// returns true.
-    pub fn union(&mut self, lits: Literals) -> bool {
-        if self.num_bytes() + lits.num_bytes() > self.limit_size {
-            return false;
-        }
-        if lits.is_empty() {
-            self.lits.push(Literal::empty());
-        } else {
-            self.lits.extend(lits.lits);
-        }
-        true
-    }
-
-    /// Extends this set with another set.
-    ///
-    /// The set of literals is extended via a cross product.
-    ///
-    /// If a cross product would cause this set to exceed its limits, then the
-    /// cross product is skipped and it returns false. Otherwise, if the cross
-    /// product succeeds, it returns true.
-    pub fn cross_product(&mut self, lits: &Literals) -> bool {
-        if lits.is_empty() {
-            return true;
-        }
-        // Check that we make sure we stay in our limits.
-        let mut size_after;
-        if self.is_empty() || !self.any_complete() {
-            size_after = self.num_bytes();
-            for lits_lit in lits.literals() {
-                size_after += lits_lit.len();
-            }
-        } else {
-            size_after = self.lits.iter().fold(0, |accum, lit| {
-                accum + if lit.is_cut() { lit.len() } else { 0 }
-            });
-            for lits_lit in lits.literals() {
-                for self_lit in self.literals() {
-                    if !self_lit.is_cut() {
-                        size_after += self_lit.len() + lits_lit.len();
-                    }
-                }
-            }
-        }
-        if size_after > self.limit_size {
-            return false;
-        }
-
-        let mut base = self.remove_complete();
-        if base.is_empty() {
-            base = vec![Literal::empty()];
-        }
-        for lits_lit in lits.literals() {
-            for mut self_lit in base.clone() {
-                self_lit.extend(&**lits_lit);
-                self_lit.cut = lits_lit.cut;
-                self.lits.push(self_lit);
-            }
-        }
-        true
-    }
-
-    /// Extends each literal in this set with the bytes given.
-    ///
-    /// If the set is empty, then the given literal is added to the set.
-    ///
-    /// If adding any number of bytes to all members of this set causes a limit
-    /// to be exceeded, then no bytes are added and false is returned. If a
-    /// prefix of `bytes` can be fit into this set, then it is used and all
-    /// resulting literals are cut.
-    pub fn cross_add(&mut self, bytes: &[u8]) -> bool {
-        // N.B. This could be implemented by simply calling cross_product with
-        // a literal set containing just `bytes`, but we can be smarter about
-        // taking shorter prefixes of `bytes` if they'll fit.
-        if bytes.is_empty() {
-            return true;
-        }
-        if self.lits.is_empty() {
-            let i = cmp::min(self.limit_size, bytes.len());
-            self.lits.push(Literal::new(bytes[..i].to_owned()));
-            self.lits[0].cut = i < bytes.len();
-            return !self.lits[0].is_cut();
-        }
-        let size = self.num_bytes();
-        if size + self.lits.len() >= self.limit_size {
-            return false;
-        }
-        let mut i = 1;
-        while size + (i * self.lits.len()) <= self.limit_size
-            && i < bytes.len() {
-            i += 1;
-        }
-        for lit in &mut self.lits {
-            if !lit.is_cut() {
-                lit.extend(&bytes[..i]);
-                if i < bytes.len() {
-                    lit.cut();
-                }
-            }
-        }
-        true
-    }
-
-    /// Adds the given literal to this set.
-    ///
-    /// Returns false if adding this literal would cause the class to be too
-    /// big.
-    pub fn add(&mut self, lit: Literal) -> bool {
-        if self.num_bytes() + lit.len() > self.limit_size {
-            return false;
-        }
-        self.lits.push(lit);
-        true
-    }
-
-    /// Extends each literal in this set with the character class given.
-    ///
-    /// Returns false if the character class was too big to add.
-    pub fn add_char_class(&mut self, cls: &hir::ClassUnicode) -> bool {
-        self._add_char_class(cls, false)
-    }
-
-    /// Extends each literal in this set with the character class given,
-    /// writing the bytes of each character in reverse.
-    ///
-    /// Returns false if the character class was too big to add.
-    fn add_char_class_reverse(&mut self, cls: &hir::ClassUnicode) -> bool {
-        self._add_char_class(cls, true)
-    }
-
-    fn _add_char_class(
-        &mut self,
-        cls: &hir::ClassUnicode,
-        reverse: bool,
-    ) -> bool {
-        use std::char;
-
-        if self.class_exceeds_limits(cls_char_count(cls)) {
-            return false;
-        }
-        let mut base = self.remove_complete();
-        if base.is_empty() {
-            base = vec![Literal::empty()];
-        }
-        for r in cls.iter() {
-            let (s, e) = (r.start as u32, r.end as u32 + 1);
-            for c in (s..e).filter_map(char::from_u32) {
-                for mut lit in base.clone() {
-                    let mut bytes = c.to_string().into_bytes();
-                    if reverse {
-                        bytes.reverse();
-                    }
-                    lit.extend(&bytes);
-                    self.lits.push(lit);
-                }
-            }
-        }
-        true
-    }
-
-    /// Extends each literal in this set with the byte class given.
-    ///
-    /// Returns false if the byte class was too big to add.
-    pub fn add_byte_class(&mut self, cls: &hir::ClassBytes) -> bool {
-        if self.class_exceeds_limits(cls_byte_count(cls)) {
-            return false;
-        }
-        let mut base = self.remove_complete();
-        if base.is_empty() {
-            base = vec![Literal::empty()];
-        }
-        for r in cls.iter() {
-            let (s, e) = (r.start as u32, r.end as u32 + 1);
-            for b in (s..e).map(|b| b as u8) {
-                for mut lit in base.clone() {
-                    lit.push(b);
-                    self.lits.push(lit);
-                }
-            }
-        }
-        true
-    }
-
-    /// Cuts every member of this set. When a member is cut, it can never
-    /// be extended.
-    pub fn cut(&mut self) {
-        for lit in &mut self.lits {
-            lit.cut();
-        }
-    }
-
-    /// Reverses all members in place.
-    pub fn reverse(&mut self) {
-        for lit in &mut self.lits {
-            lit.reverse();
-        }
-    }
-
-    /// Clears this set of all members.
-    pub fn clear(&mut self) {
-        self.lits.clear();
-    }
-
-    /// Pops all complete literals out of this set.
-    fn remove_complete(&mut self) -> Vec<Literal> {
-        let mut base = vec![];
-        for lit in mem::replace(&mut self.lits, vec![]) {
-            if lit.is_cut() {
-                self.lits.push(lit);
-            } else {
-                base.push(lit);
-            }
-        }
-        base
-    }
-
-    /// Returns the total number of bytes in this set.
-    fn num_bytes(&self) -> usize {
-        self.lits.iter().fold(0, |accum, lit| accum + lit.len())
-    }
-
-    /// Returns true if a character class with the given size would cause this
-    /// set to exceed its limits.
-    ///
-    /// The size given should correspond to the number of items in the class.
-    fn class_exceeds_limits(&self, size: usize) -> bool {
-        if size > self.limit_class {
-            return true;
-        }
-        // This is an approximation since codepoints in a char class can encode
-        // to 1-4 bytes.
-        let new_byte_count =
-            if self.lits.is_empty() {
-                size
-            } else {
-                self.lits
-                    .iter()
-                    .fold(0, |accum, lit| {
-                        accum + if lit.is_cut() {
-                            // If the literal is cut, then we'll never add
-                            // anything to it, so don't count it.
-                            0
-                        } else {
-                            (lit.len() + 1) * size
-                        }
-                    })
-            };
-        new_byte_count > self.limit_size
-    }
-}
-
-fn prefixes(expr: &Hir, lits: &mut Literals) {
-    match *expr.kind() {
-        HirKind::Literal(hir::Literal::Unicode(c)) => {
-            let mut buf = [0; 4];
-            lits.cross_add(c.encode_utf8(&mut buf).as_bytes());
-        }
-        HirKind::Literal(hir::Literal::Byte(b)) => {
-            lits.cross_add(&[b]);
-        }
-        HirKind::Class(hir::Class::Unicode(ref cls)) => {
-            if !lits.add_char_class(cls) {
-                lits.cut();
-            }
-        }
-        HirKind::Class(hir::Class::Bytes(ref cls)) => {
-            if !lits.add_byte_class(cls) {
-                lits.cut();
-            }
-        }
-        HirKind::Group(hir::Group { ref hir, .. }) => {
-            prefixes(&**hir, lits);
-        }
-        HirKind::Repetition(ref x) => {
-            match x.kind {
-                hir::RepetitionKind::ZeroOrOne => {
-                    repeat_zero_or_one_literals(&x.hir, lits, prefixes);
-                }
-                hir::RepetitionKind::ZeroOrMore => {
-                    repeat_zero_or_more_literals(&x.hir, lits, prefixes);
-                }
-                hir::RepetitionKind::OneOrMore => {
-                    repeat_one_or_more_literals(&x.hir, lits, prefixes);
-                }
-                hir::RepetitionKind::Range(ref rng) => {
-                    let (min, max) = match *rng {
-                        hir::RepetitionRange::Exactly(m) => {
-                            (m, Some(m))
-                        }
-                        hir::RepetitionRange::AtLeast(m) => {
-                            (m, None)
-                        }
-                        hir::RepetitionRange::Bounded(m, n) => {
-                            (m, Some(n))
-                        }
-                    };
-                    repeat_range_literals(
-                        &x.hir, min, max, x.greedy, lits, prefixes)
-                }
-            }
-        }
-        HirKind::Concat(ref es) if es.is_empty() => {}
-        HirKind::Concat(ref es) if es.len() == 1 => prefixes(&es[0], lits),
-        HirKind::Concat(ref es) => {
-            for e in es {
-                if let HirKind::Anchor(hir::Anchor::StartText) = *e.kind() {
-                    if !lits.is_empty() {
-                        lits.cut();
-                        break;
-                    }
-                    lits.add(Literal::empty());
-                    continue;
-                }
-                let mut lits2 = lits.to_empty();
-                prefixes(e, &mut lits2);
-                if !lits.cross_product(&lits2) || !lits2.any_complete() {
-                    // If this expression couldn't yield any literal that
-                    // could be extended, then we need to quit. Since we're
-                    // short-circuiting, we also need to freeze every member.
-                    lits.cut();
-                    break;
-                }
-            }
-        }
-        HirKind::Alternation(ref es) => {
-            alternate_literals(es, lits, prefixes);
-        }
-        _ => lits.cut(),
-    }
-}
-
-fn suffixes(expr: &Hir, lits: &mut Literals) {
-    match *expr.kind() {
-        HirKind::Literal(hir::Literal::Unicode(c)) => {
-            let mut buf = [0u8; 4];
-            let i = c.encode_utf8(&mut buf).len();
-            let buf = &mut buf[..i];
-            buf.reverse();
-            lits.cross_add(buf);
-        }
-        HirKind::Literal(hir::Literal::Byte(b)) => {
-            lits.cross_add(&[b]);
-        }
-        HirKind::Class(hir::Class::Unicode(ref cls)) => {
-            if !lits.add_char_class_reverse(cls) {
-                lits.cut();
-            }
-        }
-        HirKind::Class(hir::Class::Bytes(ref cls)) => {
-            if !lits.add_byte_class(cls) {
-                lits.cut();
-            }
-        }
-        HirKind::Group(hir::Group { ref hir, .. }) => {
-            suffixes(&**hir, lits);
-        }
-        HirKind::Repetition(ref x) => {
-            match x.kind {
-                hir::RepetitionKind::ZeroOrOne => {
-                    repeat_zero_or_one_literals(&x.hir, lits, suffixes);
-                }
-                hir::RepetitionKind::ZeroOrMore => {
-                    repeat_zero_or_more_literals(&x.hir, lits, suffixes);
-                }
-                hir::RepetitionKind::OneOrMore => {
-                    repeat_one_or_more_literals(&x.hir, lits, suffixes);
-                }
-                hir::RepetitionKind::Range(ref rng) => {
-                    let (min, max) = match *rng {
-                        hir::RepetitionRange::Exactly(m) => {
-                            (m, Some(m))
-                        }
-                        hir::RepetitionRange::AtLeast(m) => {
-                            (m, None)
-                        }
-                        hir::RepetitionRange::Bounded(m, n) => {
-                            (m, Some(n))
-                        }
-                    };
-                    repeat_range_literals(
-                        &x.hir, min, max, x.greedy, lits, suffixes)
-                }
-            }
-        }
-        HirKind::Concat(ref es) if es.is_empty() => {}
-        HirKind::Concat(ref es) if es.len() == 1 => suffixes(&es[0], lits),
-        HirKind::Concat(ref es) => {
-            for e in es.iter().rev() {
-                if let HirKind::Anchor(hir::Anchor::EndText) = *e.kind() {
-                    if !lits.is_empty() {
-                        lits.cut();
-                        break;
-                    }
-                    lits.add(Literal::empty());
-                    continue;
-                }
-                let mut lits2 = lits.to_empty();
-                suffixes(e, &mut lits2);
-                if !lits.cross_product(&lits2) || !lits2.any_complete() {
-                    // If this expression couldn't yield any literal that
-                    // could be extended, then we need to quit. Since we're
-                    // short-circuiting, we also need to freeze every member.
-                    lits.cut();
-                    break;
-                }
-            }
-        }
-        HirKind::Alternation(ref es) => {
-            alternate_literals(es, lits, suffixes);
-        }
-        _ => lits.cut(),
-    }
-}
-
-fn repeat_zero_or_one_literals<F: FnMut(&Hir, &mut Literals)>(
-    e: &Hir,
-    lits: &mut Literals,
-    mut f: F,
-) {
-    let (mut lits2, mut lits3) = (lits.clone(), lits.to_empty());
-    lits3.set_limit_size(lits.limit_size() / 2);
-    f(e, &mut lits3);
-
-    if lits3.is_empty() || !lits2.cross_product(&lits3) {
-        lits.cut();
-        return;
-    }
-    lits2.add(Literal::empty());
-    if !lits.union(lits2) {
-        lits.cut();
-    }
-}
-
-fn repeat_zero_or_more_literals<F: FnMut(&Hir, &mut Literals)>(
-    e: &Hir,
-    lits: &mut Literals,
-    mut f: F,
-) {
-    let (mut lits2, mut lits3) = (lits.clone(), lits.to_empty());
-    lits3.set_limit_size(lits.limit_size() / 2);
-    f(e, &mut lits3);
-
-    if lits3.is_empty() || !lits2.cross_product(&lits3) {
-        lits.cut();
-        return;
-    }
-    lits2.cut();
-    lits2.add(Literal::empty());
-    if !lits.union(lits2) {
-        lits.cut();
-    }
-}
-
-fn repeat_one_or_more_literals<F: FnMut(&Hir, &mut Literals)>(
-    e: &Hir,
-    lits: &mut Literals,
-    mut f: F,
-) {
-    f(e, lits);
-    lits.cut();
-}
-
-fn repeat_range_literals<F: FnMut(&Hir, &mut Literals)>(
-    e: &Hir,
-    min: u32,
-    max: Option<u32>,
-    greedy: bool,
-    lits: &mut Literals,
-    mut f: F,
-) {
-    if min == 0 {
-        // This is a bit conservative. If `max` is set, then we could
-        // treat this as a finite set of alternations. For now, we
-        // just treat it as `e*`.
-        f(&Hir::repetition(hir::Repetition {
-            kind: hir::RepetitionKind::ZeroOrMore,
-            greedy: greedy,
-            hir: Box::new(e.clone()),
-        }), lits);
-    } else {
-        if min > 0 {
-            let n = cmp::min(lits.limit_size, min as usize);
-            let es = iter::repeat(e.clone()).take(n).collect();
-            f(&Hir::concat(es), lits);
-            if n < min as usize || lits.contains_empty() {
-                lits.cut();
-            }
-        }
-        if max.map_or(true, |max| min < max) {
-            lits.cut();
-        }
-    }
-}
-
-fn alternate_literals<F: FnMut(&Hir, &mut Literals)>(
-    es: &[Hir],
-    lits: &mut Literals,
-    mut f: F,
-) {
-    let mut lits2 = lits.to_empty();
-    for e in es {
-        let mut lits3 = lits.to_empty();
-        lits3.set_limit_size(lits.limit_size() / 5);
-        f(e, &mut lits3);
-        if lits3.is_empty() || !lits2.union(lits3) {
-            // If we couldn't find suffixes for *any* of the
-            // alternates, then the entire alternation has to be thrown
-            // away and any existing members must be frozen. Similarly,
-            // if the union couldn't complete, stop and freeze.
-            lits.cut();
-            return;
-        }
-    }
-    if !lits.cross_product(&lits2) {
-        lits.cut();
-    }
-}
-
-impl fmt::Debug for Literals {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_struct("Literals")
-         .field("lits", &self.lits)
-         .field("limit_size", &self.limit_size)
-         .field("limit_class", &self.limit_class)
-         .finish()
-    }
-}
-
-impl Literal {
-    /// Returns a new complete literal with the bytes given.
-    pub fn new(bytes: Vec<u8>) -> Literal {
-        Literal { v: bytes, cut: false }
-    }
-
-    /// Returns a new complete empty literal.
-    pub fn empty() -> Literal {
-        Literal { v: vec![], cut: false }
-    }
-
-    /// Returns true if this literal was "cut."
-    pub fn is_cut(&self) -> bool {
-        self.cut
-    }
-
-    /// Cuts this literal.
-    pub fn cut(&mut self) {
-        self.cut = true;
-    }
-}
-
-impl PartialEq for Literal {
-    fn eq(&self, other: &Literal) -> bool {
-        self.v == other.v
-    }
-}
-
-impl PartialOrd for Literal {
-    fn partial_cmp(&self, other: &Literal) -> Option<cmp::Ordering> {
-        self.v.partial_cmp(&other.v)
-    }
-}
-
-impl fmt::Debug for Literal {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        if self.is_cut() {
-            write!(f, "Cut({})", escape_unicode(&self.v))
-        } else {
-            write!(f, "Complete({})", escape_unicode(&self.v))
-        }
-    }
-}
-
-impl AsRef<[u8]> for Literal {
-    fn as_ref(&self) -> &[u8] { &self.v }
-}
-
-impl ops::Deref for Literal {
-    type Target = Vec<u8>;
-    fn deref(&self) -> &Vec<u8> { &self.v }
-}
-
-impl ops::DerefMut for Literal {
-    fn deref_mut(&mut self) -> &mut Vec<u8> { &mut self.v }
-}
-
-fn position(needle: &[u8], mut haystack: &[u8]) -> Option<usize> {
-    let mut i = 0;
-    while haystack.len() >= needle.len() {
-        if needle == &haystack[..needle.len()] {
-            return Some(i);
-        }
-        i += 1;
-        haystack = &haystack[1..];
-    }
-    None
-}
-
-fn escape_unicode(bytes: &[u8]) -> String {
-    let show = match ::std::str::from_utf8(bytes) {
-        Ok(v) => v.to_string(),
-        Err(_) => escape_bytes(bytes),
-    };
-    let mut space_escaped = String::new();
-    for c in show.chars() {
-        if c.is_whitespace() {
-            let escaped = if c as u32 <= 0x7F {
-                escape_byte(c as u8)
-            } else {
-                if c as u32 <= 0xFFFF {
-                    format!(r"\u{{{:04x}}}", c as u32)
-                } else {
-                    format!(r"\U{{{:08x}}}", c as u32)
-                }
-            };
-            space_escaped.push_str(&escaped);
-        } else {
-            space_escaped.push(c);
-        }
-    }
-    space_escaped
-}
-
-fn escape_bytes(bytes: &[u8]) -> String {
-    let mut s = String::new();
-    for &b in bytes {
-        s.push_str(&escape_byte(b));
-    }
-    s
-}
-
-fn escape_byte(byte: u8) -> String {
-    use std::ascii::escape_default;
-
-    let escaped: Vec<u8> = escape_default(byte).collect();
-    String::from_utf8_lossy(&escaped).into_owned()
-}
-
-fn cls_char_count(cls: &hir::ClassUnicode) -> usize {
-    cls.iter()
-        .map(|&r| 1 + (r.end as u32) - (r.start as u32))
-        .sum::<u32>() as usize
-}
-
-fn cls_byte_count(cls: &hir::ClassBytes) -> usize {
-    cls.iter()
-        .map(|&r| 1 + (r.end as u32) - (r.start as u32))
-        .sum::<u32>() as usize
-}
-
-#[cfg(test)]
-mod tests {
-    use std::fmt;
-
-    use ParserBuilder;
-    use hir::Hir;
-    use super::{Literals, Literal, escape_bytes};
-
-    // To make test failures easier to read.
-    #[derive(Debug, Eq, PartialEq)]
-    struct Bytes(Vec<ULiteral>);
-    #[derive(Debug, Eq, PartialEq)]
-    struct Unicode(Vec<ULiteral>);
-
-    fn escape_lits(blits: &[Literal]) -> Vec<ULiteral> {
-        let mut ulits = vec![];
-        for blit in blits {
-            ulits.push(ULiteral {
-                v: escape_bytes(&blit),
-                cut: blit.is_cut(),
-            });
-        }
-        ulits
-    }
-
-    fn create_lits<I: IntoIterator<Item=Literal>>(it: I) -> Literals {
-        Literals {
-            lits: it.into_iter().collect(),
-            limit_size: 0,
-            limit_class: 0,
-        }
-    }
-
-    // Needs to be pub for 1.3?
-    #[derive(Clone, Eq, PartialEq)]
-    pub struct ULiteral {
-        v: String,
-        cut: bool,
-    }
-
-    impl ULiteral {
-        fn is_cut(&self) -> bool { self.cut }
-    }
-
-    impl fmt::Debug for ULiteral {
-        fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-            if self.is_cut() {
-                write!(f, "Cut({})", self.v)
-            } else {
-                write!(f, "Complete({})", self.v)
-            }
-        }
-    }
-
-    impl PartialEq<Literal> for ULiteral {
-        fn eq(&self, other: &Literal) -> bool {
-            self.v.as_bytes() == &*other.v && self.is_cut() == other.is_cut()
-        }
-    }
-
-    impl PartialEq<ULiteral> for Literal {
-        fn eq(&self, other: &ULiteral) -> bool {
-            &*self.v == other.v.as_bytes() && self.is_cut() == other.is_cut()
-        }
-    }
-
-    #[allow(non_snake_case)]
-    fn C(s: &'static str) -> ULiteral {
-        ULiteral { v: s.to_owned(), cut: true }
-    }
-    #[allow(non_snake_case)]
-    fn M(s: &'static str) -> ULiteral {
-        ULiteral { v: s.to_owned(), cut: false }
-    }
-
-    fn prefixes(lits: &mut Literals, expr: &Hir) {
-        lits.union_prefixes(expr);
-    }
-
-    fn suffixes(lits: &mut Literals, expr: &Hir) {
-        lits.union_suffixes(expr);
-    }
-
-    macro_rules! assert_lit_eq {
-        ($which:ident, $got_lits:expr, $($expected_lit:expr),*) => {{
-            let expected: Vec<ULiteral> = vec![$($expected_lit),*];
-            let lits = $got_lits;
-            assert_eq!(
-                $which(expected.clone()),
-                $which(escape_lits(lits.literals())));
-            assert_eq!(
-                !expected.is_empty() && expected.iter().all(|l| !l.is_cut()),
-                lits.all_complete());
-            assert_eq!(
-                expected.iter().any(|l| !l.is_cut()),
-                lits.any_complete());
-        }};
-    }
-
-    macro_rules! test_lit {
-        ($name:ident, $which:ident, $re:expr) => {
-            test_lit!($name, $which, $re,);
-        };
-        ($name:ident, $which:ident, $re:expr, $($lit:expr),*) => {
-            #[test]
-            fn $name() {
-                let expr = ParserBuilder::new()
-                    .build()
-                    .parse($re)
-                    .unwrap();
-                let lits = Literals::$which(&expr);
-                assert_lit_eq!(Unicode, lits, $($lit),*);
-
-                let expr = ParserBuilder::new()
-                    .allow_invalid_utf8(true)
-                    .unicode(false)
-                    .build()
-                    .parse($re)
-                    .unwrap();
-                let lits = Literals::$which(&expr);
-                assert_lit_eq!(Bytes, lits, $($lit),*);
-            }
-        };
-    }
-
-    // ************************************************************************
-    // Tests for prefix literal extraction.
-    // ************************************************************************
-
-    // Elementary tests.
-    test_lit!(pfx_one_lit1, prefixes, "a", M("a"));
-    test_lit!(pfx_one_lit2, prefixes, "abc", M("abc"));
-    test_lit!(pfx_one_lit3, prefixes, "(?u)☃", M("\\xe2\\x98\\x83"));
-    test_lit!(pfx_one_lit4, prefixes, "(?ui)☃", M("\\xe2\\x98\\x83"));
-    test_lit!(pfx_class1, prefixes, "[1-4]",
-              M("1"), M("2"), M("3"), M("4"));
-    test_lit!(pfx_class2, prefixes, "(?u)[☃Ⅰ]",
-              M("\\xe2\\x85\\xa0"), M("\\xe2\\x98\\x83"));
-    test_lit!(pfx_class3, prefixes, "(?ui)[☃Ⅰ]",
-              M("\\xe2\\x85\\xa0"), M("\\xe2\\x85\\xb0"),
-              M("\\xe2\\x98\\x83"));
-    test_lit!(pfx_one_lit_casei1, prefixes, "(?i)a",
-              M("A"), M("a"));
-    test_lit!(pfx_one_lit_casei2, prefixes, "(?i)abc",
-              M("ABC"), M("aBC"), M("AbC"), M("abC"),
-              M("ABc"), M("aBc"), M("Abc"), M("abc"));
-    test_lit!(pfx_group1, prefixes, "(a)", M("a"));
-    test_lit!(pfx_rep_zero_or_one1, prefixes, "a?");
-    test_lit!(pfx_rep_zero_or_one2, prefixes, "(?:abc)?");
-    test_lit!(pfx_rep_zero_or_more1, prefixes, "a*");
-    test_lit!(pfx_rep_zero_or_more2, prefixes, "(?:abc)*");
-    test_lit!(pfx_rep_one_or_more1, prefixes, "a+", C("a"));
-    test_lit!(pfx_rep_one_or_more2, prefixes, "(?:abc)+", C("abc"));
-    test_lit!(pfx_rep_nested_one_or_more, prefixes, "(?:a+)+", C("a"));
-    test_lit!(pfx_rep_range1, prefixes, "a{0}");
-    test_lit!(pfx_rep_range2, prefixes, "a{0,}");
-    test_lit!(pfx_rep_range3, prefixes, "a{0,1}");
-    test_lit!(pfx_rep_range4, prefixes, "a{1}", M("a"));
-    test_lit!(pfx_rep_range5, prefixes, "a{2}", M("aa"));
-    test_lit!(pfx_rep_range6, prefixes, "a{1,2}", C("a"));
-    test_lit!(pfx_rep_range7, prefixes, "a{2,3}", C("aa"));
-
-    // Test regexes with concatenations.
-    test_lit!(pfx_cat1, prefixes, "(?:a)(?:b)", M("ab"));
-    test_lit!(pfx_cat2, prefixes, "[ab]z", M("az"), M("bz"));
-    test_lit!(pfx_cat3, prefixes, "(?i)[ab]z",
-              M("AZ"), M("BZ"), M("aZ"), M("bZ"),
-              M("Az"), M("Bz"), M("az"), M("bz"));
-    test_lit!(pfx_cat4, prefixes, "[ab][yz]",
-              M("ay"), M("by"), M("az"), M("bz"));
-    test_lit!(pfx_cat5, prefixes, "a*b", C("a"), M("b"));
-    test_lit!(pfx_cat6, prefixes, "a*b*c", C("a"), C("b"), M("c"));
-    test_lit!(pfx_cat7, prefixes, "a*b*c+", C("a"), C("b"), C("c"));
-    test_lit!(pfx_cat8, prefixes, "a*b+c", C("a"), C("b"));
-    test_lit!(pfx_cat9, prefixes, "a*b+c*", C("a"), C("b"));
-    test_lit!(pfx_cat10, prefixes, "ab*", C("ab"), M("a"));
-    test_lit!(pfx_cat11, prefixes, "ab*c", C("ab"), M("ac"));
-    test_lit!(pfx_cat12, prefixes, "ab+", C("ab"));
-    test_lit!(pfx_cat13, prefixes, "ab+c", C("ab"));
-    test_lit!(pfx_cat14, prefixes, "a^", C("a"));
-    test_lit!(pfx_cat15, prefixes, "$a");
-    test_lit!(pfx_cat16, prefixes, r"ab*c", C("ab"), M("ac"));
-    test_lit!(pfx_cat17, prefixes, r"ab+c", C("ab"));
-    test_lit!(pfx_cat18, prefixes, r"z*azb", C("z"), M("azb"));
-    test_lit!(pfx_cat19, prefixes, "a.z", C("a"));
-
-    // Test regexes with alternations.
-    test_lit!(pfx_alt1, prefixes, "a|b", M("a"), M("b"));
-    test_lit!(pfx_alt2, prefixes, "[1-3]|b", M("1"), M("2"), M("3"), M("b"));
-    test_lit!(pfx_alt3, prefixes, "y(?:a|b)z", M("yaz"), M("ybz"));
-    test_lit!(pfx_alt4, prefixes, "a|b*");
-    test_lit!(pfx_alt5, prefixes, "a|b+", M("a"), C("b"));
-    test_lit!(pfx_alt6, prefixes, "a|(?:b|c*)");
-    test_lit!(pfx_alt7, prefixes, "(a|b)*c|(a|ab)*c",
-              C("a"), C("b"), M("c"), C("a"), C("ab"), M("c"));
-    test_lit!(pfx_alt8, prefixes, "a*b|c", C("a"), M("b"), M("c"));
-
-    // Test regexes with empty assertions.
-    test_lit!(pfx_empty1, prefixes, "^a", M("a"));
-    test_lit!(pfx_empty2, prefixes, "a${2}", C("a"));
-    test_lit!(pfx_empty3, prefixes, "^abc", M("abc"));
-    test_lit!(pfx_empty4, prefixes, "(?:^abc)|(?:^z)", M("abc"), M("z"));
-
-    // Make sure some curious regexes have no prefixes.
-    test_lit!(pfx_nothing1, prefixes, ".");
-    test_lit!(pfx_nothing2, prefixes, "(?s).");
-    test_lit!(pfx_nothing3, prefixes, "^");
-    test_lit!(pfx_nothing4, prefixes, "$");
-    test_lit!(pfx_nothing6, prefixes, "(?m)$");
-    test_lit!(pfx_nothing7, prefixes, r"\b");
-    test_lit!(pfx_nothing8, prefixes, r"\B");
-
-    // Test a few regexes that defeat any prefix literal detection.
-    test_lit!(pfx_defeated1, prefixes, ".a");
-    test_lit!(pfx_defeated2, prefixes, "(?s).a");
-    test_lit!(pfx_defeated3, prefixes, "a*b*c*");
-    test_lit!(pfx_defeated4, prefixes, "a|.");
-    test_lit!(pfx_defeated5, prefixes, ".|a");
-    test_lit!(pfx_defeated6, prefixes, "a|^");
-    test_lit!(pfx_defeated7, prefixes, ".(?:a(?:b)(?:c))");
-    test_lit!(pfx_defeated8, prefixes, "$a");
-    test_lit!(pfx_defeated9, prefixes, "(?m)$a");
-    test_lit!(pfx_defeated10, prefixes, r"\ba");
-    test_lit!(pfx_defeated11, prefixes, r"\Ba");
-    test_lit!(pfx_defeated12, prefixes, "^*a");
-    test_lit!(pfx_defeated13, prefixes, "^+a");
-
-    test_lit!(
-        pfx_crazy1,
-        prefixes,
-        r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
-        C("Mo\\'am"), C("Mu\\'am"), C("Moam"), C("Muam"));
-
-    // ************************************************************************
-    // Tests for quiting prefix literal search.
-    // ************************************************************************
-
-    macro_rules! test_exhausted {
-        ($name:ident, $which:ident, $re:expr) => {
-            test_exhausted!($name, $which, $re,);
-        };
-        ($name:ident, $which:ident, $re:expr, $($lit:expr),*) => {
-            #[test]
-            fn $name() {
-                let expr = ParserBuilder::new()
-                    .build()
-                    .parse($re)
-                    .unwrap();
-                let mut lits = Literals::empty();
-                lits.set_limit_size(20).set_limit_class(10);
-                $which(&mut lits, &expr);
-                assert_lit_eq!(Unicode, lits, $($lit),*);
-
-                let expr = ParserBuilder::new()
-                    .allow_invalid_utf8(true)
-                    .unicode(false)
-                    .build()
-                    .parse($re)
-                    .unwrap();
-                let mut lits = Literals::empty();
-                lits.set_limit_size(20).set_limit_class(10);
-                $which(&mut lits, &expr);
-                assert_lit_eq!(Bytes, lits, $($lit),*);
-            }
-        };
-    }
-
-    // These test use a much lower limit than the default so that we can
-    // write test cases of reasonable size.
-    test_exhausted!(pfx_exhausted1, prefixes, "[a-z]");
-    test_exhausted!(pfx_exhausted2, prefixes, "[a-z]*A");
-    test_exhausted!(pfx_exhausted3, prefixes, "A[a-z]Z", C("A"));
-    test_exhausted!(pfx_exhausted4, prefixes, "(?i)foobar",
-                    C("FO"), C("fO"), C("Fo"), C("fo"));
-    test_exhausted!(pfx_exhausted5, prefixes, "(?:ab){100}",
-                    C("abababababababababab"));
-    test_exhausted!(pfx_exhausted6, prefixes, "(?:(?:ab){100})*cd",
-                    C("ababababab"), M("cd"));
-    test_exhausted!(pfx_exhausted7, prefixes, "z(?:(?:ab){100})*cd",
-                    C("zababababab"), M("zcd"));
-    test_exhausted!(pfx_exhausted8, prefixes, "aaaaaaaaaaaaaaaaaaaaz",
-                    C("aaaaaaaaaaaaaaaaaaaa"));
-
-    // ************************************************************************
-    // Tests for suffix literal extraction.
-    // ************************************************************************
-
-    // Elementary tests.
-    test_lit!(sfx_one_lit1, suffixes, "a", M("a"));
-    test_lit!(sfx_one_lit2, suffixes, "abc", M("abc"));
-    test_lit!(sfx_one_lit3, suffixes, "(?u)☃", M("\\xe2\\x98\\x83"));
-    test_lit!(sfx_one_lit4, suffixes, "(?ui)☃", M("\\xe2\\x98\\x83"));
-    test_lit!(sfx_class1, suffixes, "[1-4]",
-              M("1"), M("2"), M("3"), M("4"));
-    test_lit!(sfx_class2, suffixes, "(?u)[☃Ⅰ]",
-              M("\\xe2\\x85\\xa0"), M("\\xe2\\x98\\x83"));
-    test_lit!(sfx_class3, suffixes, "(?ui)[☃Ⅰ]",
-              M("\\xe2\\x85\\xa0"), M("\\xe2\\x85\\xb0"),
-              M("\\xe2\\x98\\x83"));
-    test_lit!(sfx_one_lit_casei1, suffixes, "(?i)a",
-              M("A"), M("a"));
-    test_lit!(sfx_one_lit_casei2, suffixes, "(?i)abc",
-              M("ABC"), M("ABc"), M("AbC"), M("Abc"),
-              M("aBC"), M("aBc"), M("abC"), M("abc"));
-    test_lit!(sfx_group1, suffixes, "(a)", M("a"));
-    test_lit!(sfx_rep_zero_or_one1, suffixes, "a?");
-    test_lit!(sfx_rep_zero_or_one2, suffixes, "(?:abc)?");
-    test_lit!(sfx_rep_zero_or_more1, suffixes, "a*");
-    test_lit!(sfx_rep_zero_or_more2, suffixes, "(?:abc)*");
-    test_lit!(sfx_rep_one_or_more1, suffixes, "a+", C("a"));
-    test_lit!(sfx_rep_one_or_more2, suffixes, "(?:abc)+", C("abc"));
-    test_lit!(sfx_rep_nested_one_or_more, suffixes, "(?:a+)+", C("a"));
-    test_lit!(sfx_rep_range1, suffixes, "a{0}");
-    test_lit!(sfx_rep_range2, suffixes, "a{0,}");
-    test_lit!(sfx_rep_range3, suffixes, "a{0,1}");
-    test_lit!(sfx_rep_range4, suffixes, "a{1}", M("a"));
-    test_lit!(sfx_rep_range5, suffixes, "a{2}", M("aa"));
-    test_lit!(sfx_rep_range6, suffixes, "a{1,2}", C("a"));
-    test_lit!(sfx_rep_range7, suffixes, "a{2,3}", C("aa"));
-
-    // Test regexes with concatenations.
-    test_lit!(sfx_cat1, suffixes, "(?:a)(?:b)", M("ab"));
-    test_lit!(sfx_cat2, suffixes, "[ab]z", M("az"), M("bz"));
-    test_lit!(sfx_cat3, suffixes, "(?i)[ab]z",
-              M("AZ"), M("Az"), M("BZ"), M("Bz"),
-              M("aZ"), M("az"), M("bZ"), M("bz"));
-    test_lit!(sfx_cat4, suffixes, "[ab][yz]",
-              M("ay"), M("az"), M("by"), M("bz"));
-    test_lit!(sfx_cat5, suffixes, "a*b", C("ab"), M("b"));
-    test_lit!(sfx_cat6, suffixes, "a*b*c", C("bc"), C("ac"), M("c"));
-    test_lit!(sfx_cat7, suffixes, "a*b*c+", C("c"));
-    test_lit!(sfx_cat8, suffixes, "a*b+c", C("bc"));
-    test_lit!(sfx_cat9, suffixes, "a*b+c*", C("c"), C("b"));
-    test_lit!(sfx_cat10, suffixes, "ab*", C("b"), M("a"));
-    test_lit!(sfx_cat11, suffixes, "ab*c", C("bc"), M("ac"));
-    test_lit!(sfx_cat12, suffixes, "ab+", C("b"));
-    test_lit!(sfx_cat13, suffixes, "ab+c", C("bc"));
-    test_lit!(sfx_cat14, suffixes, "a^");
-    test_lit!(sfx_cat15, suffixes, "$a", C("a"));
-    test_lit!(sfx_cat16, suffixes, r"ab*c", C("bc"), M("ac"));
-    test_lit!(sfx_cat17, suffixes, r"ab+c", C("bc"));
-    test_lit!(sfx_cat18, suffixes, r"z*azb", C("zazb"), M("azb"));
-    test_lit!(sfx_cat19, suffixes, "a.z", C("z"));
-
-    // Test regexes with alternations.
-    test_lit!(sfx_alt1, suffixes, "a|b", M("a"), M("b"));
-    test_lit!(sfx_alt2, suffixes, "[1-3]|b", M("1"), M("2"), M("3"), M("b"));
-    test_lit!(sfx_alt3, suffixes, "y(?:a|b)z", M("yaz"), M("ybz"));
-    test_lit!(sfx_alt4, suffixes, "a|b*");
-    test_lit!(sfx_alt5, suffixes, "a|b+", M("a"), C("b"));
-    test_lit!(sfx_alt6, suffixes, "a|(?:b|c*)");
-    test_lit!(sfx_alt7, suffixes, "(a|b)*c|(a|ab)*c",
-              C("ac"), C("bc"), M("c"), C("ac"), C("abc"), M("c"));
-    test_lit!(sfx_alt8, suffixes, "a*b|c", C("ab"), M("b"), M("c"));
-
-    // Test regexes with empty assertions.
-    test_lit!(sfx_empty1, suffixes, "a$", M("a"));
-    test_lit!(sfx_empty2, suffixes, "${2}a", C("a"));
-
-    // Make sure some curious regexes have no suffixes.
-    test_lit!(sfx_nothing1, suffixes, ".");
-    test_lit!(sfx_nothing2, suffixes, "(?s).");
-    test_lit!(sfx_nothing3, suffixes, "^");
-    test_lit!(sfx_nothing4, suffixes, "$");
-    test_lit!(sfx_nothing6, suffixes, "(?m)$");
-    test_lit!(sfx_nothing7, suffixes, r"\b");
-    test_lit!(sfx_nothing8, suffixes, r"\B");
-
-    // Test a few regexes that defeat any suffix literal detection.
-    test_lit!(sfx_defeated1, suffixes, "a.");
-    test_lit!(sfx_defeated2, suffixes, "(?s)a.");
-    test_lit!(sfx_defeated3, suffixes, "a*b*c*");
-    test_lit!(sfx_defeated4, suffixes, "a|.");
-    test_lit!(sfx_defeated5, suffixes, ".|a");
-    test_lit!(sfx_defeated6, suffixes, "a|^");
-    test_lit!(sfx_defeated7, suffixes, "(?:a(?:b)(?:c)).");
-    test_lit!(sfx_defeated8, suffixes, "a^");
-    test_lit!(sfx_defeated9, suffixes, "(?m)a$");
-    test_lit!(sfx_defeated10, suffixes, r"a\b");
-    test_lit!(sfx_defeated11, suffixes, r"a\B");
-    test_lit!(sfx_defeated12, suffixes, "a^*");
-    test_lit!(sfx_defeated13, suffixes, "a^+");
-
-    // These test use a much lower limit than the default so that we can
-    // write test cases of reasonable size.
-    test_exhausted!(sfx_exhausted1, suffixes, "[a-z]");
-    test_exhausted!(sfx_exhausted2, suffixes, "A[a-z]*");
-    test_exhausted!(sfx_exhausted3, suffixes, "A[a-z]Z", C("Z"));
-    test_exhausted!(sfx_exhausted4, suffixes, "(?i)foobar",
-                    C("AR"), C("Ar"), C("aR"), C("ar"));
-    test_exhausted!(sfx_exhausted5, suffixes, "(?:ab){100}",
-                    C("abababababababababab"));
-    test_exhausted!(sfx_exhausted6, suffixes, "cd(?:(?:ab){100})*",
-                    C("ababababab"), M("cd"));
-    test_exhausted!(sfx_exhausted7, suffixes, "cd(?:(?:ab){100})*z",
-                    C("abababababz"), M("cdz"));
-    test_exhausted!(sfx_exhausted8, suffixes, "zaaaaaaaaaaaaaaaaaaaa",
-                    C("aaaaaaaaaaaaaaaaaaaa"));
-
-    // ************************************************************************
-    // Tests for generating unambiguous literal sets.
-    // ************************************************************************
-
-    macro_rules! test_unamb {
-        ($name:ident, $given:expr, $expected:expr) => {
-            #[test]
-            fn $name() {
-                let given: Vec<Literal> =
-                    $given
-                    .into_iter()
-                    .map(|ul| {
-                        let cut = ul.is_cut();
-                        Literal { v: ul.v.into_bytes(), cut: cut }
-                    })
-                    .collect();
-                let lits = create_lits(given);
-                let got = lits.unambiguous_prefixes();
-                assert_eq!($expected, escape_lits(got.literals()));
-            }
-        };
-    }
-
-    test_unamb!(unambiguous1, vec![M("z"), M("azb")], vec![C("a"), C("z")]);
-    test_unamb!(unambiguous2,
-                vec![M("zaaaaaa"), M("aa")], vec![C("aa"), C("z")]);
-    test_unamb!(unambiguous3,
-                vec![M("Sherlock"), M("Watson")],
-                vec![M("Sherlock"), M("Watson")]);
-    test_unamb!(unambiguous4, vec![M("abc"), M("bc")], vec![C("a"), C("bc")]);
-    test_unamb!(unambiguous5, vec![M("bc"), M("abc")], vec![C("a"), C("bc")]);
-    test_unamb!(unambiguous6, vec![M("a"), M("aa")], vec![C("a")]);
-    test_unamb!(unambiguous7, vec![M("aa"), M("a")], vec![C("a")]);
-    test_unamb!(unambiguous8, vec![M("ab"), M("a")], vec![C("a")]);
-    test_unamb!(unambiguous9,
-                vec![M("ac"), M("bc"), M("c"), M("ac"), M("abc"), M("c")],
-                vec![C("a"), C("b"), C("c")]);
-    test_unamb!(unambiguous10,
-                vec![M("Mo'"), M("Mu'"), M("Mo"), M("Mu")],
-                vec![C("Mo"), C("Mu")]);
-    test_unamb!(unambiguous11,
-                vec![M("zazb"), M("azb")], vec![C("a"), C("z")]);
-    test_unamb!(unambiguous12, vec![M("foo"), C("foo")], vec![C("foo")]);
-    test_unamb!(unambiguous13,
-                vec![M("ABCX"), M("CDAX"), M("BCX")],
-                vec![C("A"), C("BCX"), C("CD")]);
-    test_unamb!(unambiguous14,
-                vec![M("IMGX"), M("MVIX"), M("MGX"), M("DSX")],
-                vec![M("DSX"), C("I"), C("MGX"), C("MV")]);
-    test_unamb!(unambiguous15,
-                vec![M("IMG_"), M("MG_"), M("CIMG")],
-                vec![C("C"), C("I"), C("MG_")]);
-
-
-    // ************************************************************************
-    // Tests for suffix trimming.
-    // ************************************************************************
-    macro_rules! test_trim {
-        ($name:ident, $trim:expr, $given:expr, $expected:expr) => {
-            #[test]
-            fn $name() {
-                let given: Vec<Literal> =
-                    $given
-                    .into_iter()
-                    .map(|ul| {
-                        let cut = ul.is_cut();
-                        Literal { v: ul.v.into_bytes(), cut: cut }
-                    })
-                    .collect();
-                let lits = create_lits(given);
-                let got = lits.trim_suffix($trim).unwrap();
-                assert_eq!($expected, escape_lits(got.literals()));
-            }
-        }
-    }
-
-    test_trim!(trim1, 1, vec![M("ab"), M("yz")], vec![C("a"), C("y")]);
-    test_trim!(trim2, 1, vec![M("abc"), M("abd")], vec![C("ab")]);
-    test_trim!(trim3, 2, vec![M("abc"), M("abd")], vec![C("a")]);
-    test_trim!(trim4, 2, vec![M("abc"), M("ghij")], vec![C("a"), C("gh")]);
-
-    // ************************************************************************
-    // Tests for longest common prefix.
-    // ************************************************************************
-
-    macro_rules! test_lcp {
-        ($name:ident, $given:expr, $expected:expr) => {
-            #[test]
-            fn $name() {
-                let given: Vec<Literal> =
-                    $given
-                    .into_iter()
-                    .map(|s: &str| Literal {
-                        v: s.to_owned().into_bytes(),
-                        cut: false,
-                    })
-                    .collect();
-                let lits = create_lits(given);
-                let got = lits.longest_common_prefix();
-                assert_eq!($expected, escape_bytes(got));
-            }
-        };
-    }
-
-    test_lcp!(lcp1, vec!["a"], "a");
-    test_lcp!(lcp2, vec![], "");
-    test_lcp!(lcp3, vec!["a", "b"], "");
-    test_lcp!(lcp4, vec!["ab", "ab"], "ab");
-    test_lcp!(lcp5, vec!["ab", "a"], "a");
-    test_lcp!(lcp6, vec!["a", "ab"], "a");
-    test_lcp!(lcp7, vec!["ab", "b"], "");
-    test_lcp!(lcp8, vec!["b", "ab"], "");
-    test_lcp!(lcp9, vec!["foobar", "foobaz"], "fooba");
-    test_lcp!(lcp10, vec!["foobar", "foobaz", "a"], "");
-    test_lcp!(lcp11, vec!["a", "foobar", "foobaz"], "");
-    test_lcp!(lcp12, vec!["foo", "flub", "flab", "floo"], "f");
-
-    // ************************************************************************
-    // Tests for longest common suffix.
-    // ************************************************************************
-
-    macro_rules! test_lcs {
-        ($name:ident, $given:expr, $expected:expr) => {
-            #[test]
-            fn $name() {
-                let given: Vec<Literal> =
-                    $given
-                    .into_iter()
-                    .map(|s: &str| Literal {
-                        v: s.to_owned().into_bytes(),
-                        cut: false,
-                    })
-                    .collect();
-                let lits = create_lits(given);
-                let got = lits.longest_common_suffix();
-                assert_eq!($expected, escape_bytes(got));
-            }
-        };
-    }
-
-    test_lcs!(lcs1, vec!["a"], "a");
-    test_lcs!(lcs2, vec![], "");
-    test_lcs!(lcs3, vec!["a", "b"], "");
-    test_lcs!(lcs4, vec!["ab", "ab"], "ab");
-    test_lcs!(lcs5, vec!["ab", "a"], "");
-    test_lcs!(lcs6, vec!["a", "ab"], "");
-    test_lcs!(lcs7, vec!["ab", "b"], "b");
-    test_lcs!(lcs8, vec!["b", "ab"], "b");
-    test_lcs!(lcs9, vec!["barfoo", "bazfoo"], "foo");
-    test_lcs!(lcs10, vec!["barfoo", "bazfoo", "a"], "");
-    test_lcs!(lcs11, vec!["a", "barfoo", "bazfoo"], "");
-    test_lcs!(lcs12, vec!["flub", "bub", "boob", "dub"], "b");
-}
-
-
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-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-Defines a high-level intermediate representation for regular expressions.
-*/
-use std::char;
-use std::cmp;
-use std::error;
-use std::fmt;
-use std::u8;
-
-use ast::Span;
-use hir::interval::{Interval, IntervalSet, IntervalSetIter};
-use unicode;
-
-pub use hir::visitor::{Visitor, visit};
-
-mod interval;
-pub mod literal;
-pub mod print;
-pub mod translate;
-mod visitor;
-
-/// An error that can occur while translating an `Ast` to a `Hir`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Error {
-    /// The kind of error.
-    kind: ErrorKind,
-    /// The original pattern that the translator's Ast was parsed from. Every
-    /// span in an error is a valid range into this string.
-    pattern: String,
-    /// The span of this error, derived from the Ast given to the translator.
-    span: Span,
-}
-
-impl Error {
-    /// Return the type of this error.
-    pub fn kind(&self) -> &ErrorKind {
-        &self.kind
-    }
-
-    /// The original pattern string in which this error occurred.
-    ///
-    /// Every span reported by this error is reported in terms of this string.
-    pub fn pattern(&self) -> &str {
-        &self.pattern
-    }
-
-    /// Return the span at which this error occurred.
-    pub fn span(&self) -> &Span {
-        &self.span
-    }
-}
-
-/// The type of an error that occurred while building an `Hir`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum ErrorKind {
-    /// This error occurs when a Unicode feature is used when Unicode
-    /// support is disabled. For example `(?-u:\pL)` would trigger this error.
-    UnicodeNotAllowed,
-    /// This error occurs when translating a pattern that could match a byte
-    /// sequence that isn't UTF-8 and `allow_invalid_utf8` was disabled.
-    InvalidUtf8,
-    /// This occurs when an unrecognized Unicode property name could not
-    /// be found.
-    UnicodePropertyNotFound,
-    /// This occurs when an unrecognized Unicode property value could not
-    /// be found.
-    UnicodePropertyValueNotFound,
-    /// This occurs when the translator attempts to construct a character class
-    /// that is empty.
-    ///
-    /// Note that this restriction in the translator may be removed in the
-    /// future.
-    EmptyClassNotAllowed,
-    /// Hints that destructuring should not be exhaustive.
-    ///
-    /// This enum may grow additional variants, so this makes sure clients
-    /// don't count on exhaustive matching. (Otherwise, adding a new variant
-    /// could break existing code.)
-    #[doc(hidden)]
-    __Nonexhaustive,
-}
-
-impl ErrorKind {
-    fn description(&self) -> &str {
-        use self::ErrorKind::*;
-        match *self {
-            UnicodeNotAllowed => "Unicode not allowed here",
-            InvalidUtf8 => "pattern can match invalid UTF-8",
-            UnicodePropertyNotFound => "Unicode property not found",
-            UnicodePropertyValueNotFound => "Unicode property value not found",
-            EmptyClassNotAllowed => "empty character classes are not allowed",
-            _ => unreachable!(),
-        }
-    }
-}
-
-impl error::Error for Error {
-    fn description(&self) -> &str {
-        self.kind.description()
-    }
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        ::error::Formatter::from(self).fmt(f)
-    }
-}
-
-impl fmt::Display for ErrorKind {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.write_str(self.description())
-    }
-}
-
-/// A high-level intermediate representation (HIR) for a regular expression.
-///
-/// The HIR of a regular expression represents an intermediate step between its
-/// abstract syntax (a structured description of the concrete syntax) and
-/// compiled byte codes. The purpose of HIR is to make regular expressions
-/// easier to analyze. In particular, the AST is much more complex than the
-/// HIR. For example, while an AST supports arbitrarily nested character
-/// classes, the HIR will flatten all nested classes into a single set. The HIR
-/// will also "compile away" every flag present in the concrete syntax. For
-/// example, users of HIR expressions never need to worry about case folding;
-/// it is handled automatically by the translator (e.g., by translating `(?i)A`
-/// to `[aA]`).
-///
-/// If the HIR was produced by a translator that disallows invalid UTF-8, then
-/// the HIR is guaranteed to match UTF-8 exclusively.
-///
-/// This type defines its own destructor that uses constant stack space and
-/// heap space proportional to the size of the HIR.
-///
-/// The specific type of an HIR expression can be accessed via its `kind`
-/// or `into_kind` methods. This extra level of indirection exists for two
-/// reasons:
-///
-/// 1. Construction of an HIR expression *must* use the constructor methods
-///    on this `Hir` type instead of building the `HirKind` values directly.
-///    This permits construction to enforce invariants like "concatenations
-///    always consist of two or more sub-expressions."
-/// 2. Every HIR expression contains attributes that are defined inductively,
-///    and can be computed cheaply during the construction process. For
-///    example, one such attribute is whether the expression must match at the
-///    beginning of the text.
-///
-/// Also, an `Hir`'s `fmt::Display` implementation prints an HIR as a regular
-/// expression pattern string, and uses constant stack space and heap space
-/// proportional to the size of the `Hir`.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Hir {
-    /// The underlying HIR kind.
-    kind: HirKind,
-    /// Analysis info about this HIR, computed during construction.
-    info: HirInfo,
-}
-
-/// The kind of an arbitrary `Hir` expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum HirKind {
-    /// The empty regular expression, which matches everything, including the
-    /// empty string.
-    Empty,
-    /// A single literal character that matches exactly this character.
-    Literal(Literal),
-    /// A single character class that matches any of the characters in the
-    /// class. A class can either consist of Unicode scalar values as
-    /// characters, or it can use bytes.
-    Class(Class),
-    /// An anchor assertion. An anchor assertion match always has zero length.
-    Anchor(Anchor),
-    /// A word boundary assertion, which may or may not be Unicode aware. A
-    /// word boundary assertion match always has zero length.
-    WordBoundary(WordBoundary),
-    /// A repetition operation applied to a child expression.
-    Repetition(Repetition),
-    /// A possibly capturing group, which contains a child expression.
-    Group(Group),
-    /// A concatenation of expressions. A concatenation always has at least two
-    /// child expressions.
-    ///
-    /// A concatenation matches only if each of its child expression matches
-    /// one after the other.
-    Concat(Vec<Hir>),
-    /// An alternation of expressions. An alternation always has at least two
-    /// child expressions.
-    ///
-    /// An alternation matches only if at least one of its child expression
-    /// matches. If multiple expressions match, then the leftmost is preferred.
-    Alternation(Vec<Hir>),
-}
-
-impl Hir {
-    /// Returns a reference to the underlying HIR kind.
-    pub fn kind(&self) -> &HirKind {
-        &self.kind
-    }
-
-    /// Consumes ownership of this HIR expression and returns its underlying
-    /// `HirKind`.
-    pub fn into_kind(mut self) -> HirKind {
-        use std::mem;
-        mem::replace(&mut self.kind, HirKind::Empty)
-    }
-
-    /// Returns an empty HIR expression.
-    ///
-    /// An empty HIR expression always matches, including the empty string.
-    pub fn empty() -> Hir {
-        let mut info = HirInfo::new();
-        info.set_always_utf8(true);
-        info.set_all_assertions(true);
-        info.set_anchored_start(false);
-        info.set_anchored_end(false);
-        info.set_line_anchored_start(false);
-        info.set_line_anchored_end(false);
-        info.set_any_anchored_start(false);
-        info.set_any_anchored_end(false);
-        info.set_match_empty(true);
-        info.set_literal(true);
-        info.set_alternation_literal(true);
-        Hir {
-            kind: HirKind::Empty,
-            info: info,
-        }
-    }
-
-    /// Creates a literal HIR expression.
-    ///
-    /// If the given literal has a `Byte` variant with an ASCII byte, then this
-    /// method panics. This enforces the invariant that `Byte` variants are
-    /// only used to express matching of invalid UTF-8.
-    pub fn literal(lit: Literal) -> Hir {
-        if let Literal::Byte(b) = lit {
-            assert!(b > 0x7F);
-        }
-
-        let mut info = HirInfo::new();
-        info.set_always_utf8(lit.is_unicode());
-        info.set_all_assertions(false);
-        info.set_anchored_start(false);
-        info.set_anchored_end(false);
-        info.set_line_anchored_start(false);
-        info.set_line_anchored_end(false);
-        info.set_any_anchored_start(false);
-        info.set_any_anchored_end(false);
-        info.set_match_empty(false);
-        info.set_literal(true);
-        info.set_alternation_literal(true);
-        Hir {
-            kind: HirKind::Literal(lit),
-            info: info,
-        }
-    }
-
-    /// Creates a class HIR expression.
-    pub fn class(class: Class) -> Hir {
-        let mut info = HirInfo::new();
-        info.set_always_utf8(class.is_always_utf8());
-        info.set_all_assertions(false);
-        info.set_anchored_start(false);
-        info.set_anchored_end(false);
-        info.set_line_anchored_start(false);
-        info.set_line_anchored_end(false);
-        info.set_any_anchored_start(false);
-        info.set_any_anchored_end(false);
-        info.set_match_empty(false);
-        info.set_literal(false);
-        info.set_alternation_literal(false);
-        Hir {
-            kind: HirKind::Class(class),
-            info: info,
-        }
-    }
-
-    /// Creates an anchor assertion HIR expression.
-    pub fn anchor(anchor: Anchor) -> Hir {
-        let mut info = HirInfo::new();
-        info.set_always_utf8(true);
-        info.set_all_assertions(true);
-        info.set_anchored_start(false);
-        info.set_anchored_end(false);
-        info.set_line_anchored_start(false);
-        info.set_line_anchored_end(false);
-        info.set_any_anchored_start(false);
-        info.set_any_anchored_end(false);
-        info.set_match_empty(true);
-        info.set_literal(false);
-        info.set_alternation_literal(false);
-        if let Anchor::StartText = anchor {
-            info.set_anchored_start(true);
-            info.set_line_anchored_start(true);
-            info.set_any_anchored_start(true);
-        }
-        if let Anchor::EndText = anchor {
-            info.set_anchored_end(true);
-            info.set_line_anchored_end(true);
-            info.set_any_anchored_end(true);
-        }
-        if let Anchor::StartLine = anchor {
-            info.set_line_anchored_start(true);
-        }
-        if let Anchor::EndLine = anchor {
-            info.set_line_anchored_end(true);
-        }
-        Hir {
-            kind: HirKind::Anchor(anchor),
-            info: info,
-        }
-    }
-
-    /// Creates a word boundary assertion HIR expression.
-    pub fn word_boundary(word_boundary: WordBoundary) -> Hir {
-        let mut info = HirInfo::new();
-        info.set_always_utf8(true);
-        info.set_all_assertions(true);
-        info.set_anchored_start(false);
-        info.set_anchored_end(false);
-        info.set_line_anchored_start(false);
-        info.set_line_anchored_end(false);
-        info.set_any_anchored_start(false);
-        info.set_any_anchored_end(false);
-        info.set_literal(false);
-        info.set_alternation_literal(false);
-        // A negated word boundary matches the empty string, but a normal
-        // word boundary does not!
-        info.set_match_empty(word_boundary.is_negated());
-        // Negated ASCII word boundaries can match invalid UTF-8.
-        if let WordBoundary::AsciiNegate = word_boundary {
-            info.set_always_utf8(false);
-        }
-        Hir {
-            kind: HirKind::WordBoundary(word_boundary),
-            info: info,
-        }
-    }
-
-    /// Creates a repetition HIR expression.
-    pub fn repetition(rep: Repetition) -> Hir {
-        let mut info = HirInfo::new();
-        info.set_always_utf8(rep.hir.is_always_utf8());
-        info.set_all_assertions(rep.hir.is_all_assertions());
-        // If this operator can match the empty string, then it can never
-        // be anchored.
-        info.set_anchored_start(
-            !rep.is_match_empty() && rep.hir.is_anchored_start()
-        );
-        info.set_anchored_end(
-            !rep.is_match_empty() && rep.hir.is_anchored_end()
-        );
-        info.set_line_anchored_start(
-            !rep.is_match_empty() && rep.hir.is_anchored_start()
-        );
-        info.set_line_anchored_end(
-            !rep.is_match_empty() && rep.hir.is_anchored_end()
-        );
-        info.set_any_anchored_start(rep.hir.is_any_anchored_start());
-        info.set_any_anchored_end(rep.hir.is_any_anchored_end());
-        info.set_match_empty(rep.is_match_empty() || rep.hir.is_match_empty());
-        info.set_literal(false);
-        info.set_alternation_literal(false);
-        Hir {
-            kind: HirKind::Repetition(rep),
-            info: info,
-        }
-    }
-
-    /// Creates a group HIR expression.
-    pub fn group(group: Group) -> Hir {
-        let mut info = HirInfo::new();
-        info.set_always_utf8(group.hir.is_always_utf8());
-        info.set_all_assertions(group.hir.is_all_assertions());
-        info.set_anchored_start(group.hir.is_anchored_start());
-        info.set_anchored_end(group.hir.is_anchored_end());
-        info.set_line_anchored_start(group.hir.is_line_anchored_start());
-        info.set_line_anchored_end(group.hir.is_line_anchored_end());
-        info.set_any_anchored_start(group.hir.is_any_anchored_start());
-        info.set_any_anchored_end(group.hir.is_any_anchored_end());
-        info.set_match_empty(group.hir.is_match_empty());
-        info.set_literal(false);
-        info.set_alternation_literal(false);
-        Hir {
-            kind: HirKind::Group(group),
-            info: info,
-        }
-    }
-
-    /// Returns the concatenation of the given expressions.
-    ///
-    /// This flattens the concatenation as appropriate.
-    pub fn concat(mut exprs: Vec<Hir>) -> Hir {
-        match exprs.len() {
-            0 => Hir::empty(),
-            1 => { exprs.pop().unwrap() }
-            _ => {
-                let mut info = HirInfo::new();
-                info.set_always_utf8(true);
-                info.set_all_assertions(true);
-                info.set_any_anchored_start(false);
-                info.set_any_anchored_end(false);
-                info.set_match_empty(true);
-                info.set_literal(true);
-                info.set_alternation_literal(true);
-
-                // Some attributes require analyzing all sub-expressions.
-                for e in &exprs {
-                    let x = info.is_always_utf8() && e.is_always_utf8();
-                    info.set_always_utf8(x);
-
-                    let x = info.is_all_assertions() && e.is_all_assertions();
-                    info.set_all_assertions(x);
-
-                    let x =
-                        info.is_any_anchored_start()
-                        || e.is_any_anchored_start();
-                    info.set_any_anchored_start(x);
-
-                    let x =
-                        info.is_any_anchored_end()
-                        || e.is_any_anchored_end();
-                    info.set_any_anchored_end(x);
-
-                    let x = info.is_match_empty() && e.is_match_empty();
-                    info.set_match_empty(x);
-
-                    let x = info.is_literal() && e.is_literal();
-                    info.set_literal(x);
-
-                    let x =
-                        info.is_alternation_literal()
-                        && e.is_alternation_literal();
-                    info.set_alternation_literal(x);
-                }
-                // Anchored attributes require something slightly more
-                // sophisticated. Normally, WLOG, to determine whether an
-                // expression is anchored to the start, we'd only need to check
-                // the first expression of a concatenation. However,
-                // expressions like `$\b^` are still anchored to the start,
-                // but the first expression in the concatenation *isn't*
-                // anchored to the start. So the "first" expression to look at
-                // is actually one that is either not an assertion or is
-                // specifically the StartText assertion.
-                info.set_anchored_start(
-                    exprs.iter()
-                        .take_while(|e| {
-                            e.is_anchored_start() || e.is_all_assertions()
-                        })
-                        .any(|e| {
-                            e.is_anchored_start()
-                        }));
-                // Similarly for the end anchor, but in reverse.
-                info.set_anchored_end(
-                    exprs.iter()
-                        .rev()
-                        .take_while(|e| {
-                            e.is_anchored_end() || e.is_all_assertions()
-                        })
-                        .any(|e| {
-                            e.is_anchored_end()
-                        }));
-                // Repeat the process for line anchors.
-                info.set_line_anchored_start(
-                    exprs.iter()
-                        .take_while(|e| {
-                            e.is_line_anchored_start() || e.is_all_assertions()
-                        })
-                        .any(|e| {
-                            e.is_line_anchored_start()
-                        }));
-                info.set_line_anchored_end(
-                    exprs.iter()
-                        .rev()
-                        .take_while(|e| {
-                            e.is_line_anchored_end() || e.is_all_assertions()
-                        })
-                        .any(|e| {
-                            e.is_line_anchored_end()
-                        }));
-                Hir {
-                    kind: HirKind::Concat(exprs),
-                    info: info,
-                }
-            }
-        }
-    }
-
-    /// Returns the alternation of the given expressions.
-    ///
-    /// This flattens the alternation as appropriate.
-    pub fn alternation(mut exprs: Vec<Hir>) -> Hir {
-        match exprs.len() {
-            0 => Hir::empty(),
-            1 => exprs.pop().unwrap(),
-            _ => {
-                let mut info = HirInfo::new();
-                info.set_always_utf8(true);
-                info.set_all_assertions(true);
-                info.set_anchored_start(true);
-                info.set_anchored_end(true);
-                info.set_line_anchored_start(true);
-                info.set_line_anchored_end(true);
-                info.set_any_anchored_start(false);
-                info.set_any_anchored_end(false);
-                info.set_match_empty(false);
-                info.set_literal(false);
-                info.set_alternation_literal(true);
-
-                // Some attributes require analyzing all sub-expressions.
-                for e in &exprs {
-                    let x = info.is_always_utf8() && e.is_always_utf8();
-                    info.set_always_utf8(x);
-
-                    let x = info.is_all_assertions() && e.is_all_assertions();
-                    info.set_all_assertions(x);
-
-                    let x = info.is_anchored_start() && e.is_anchored_start();
-                    info.set_anchored_start(x);
-
-                    let x = info.is_anchored_end() && e.is_anchored_end();
-                    info.set_anchored_end(x);
-
-                    let x = info.is_line_anchored_start()
-                        && e.is_line_anchored_start();
-                    info.set_line_anchored_start(x);
-
-                    let x = info.is_line_anchored_end()
-                        && e.is_line_anchored_end();
-                    info.set_line_anchored_end(x);
-
-                    let x =
-                        info.is_any_anchored_start()
-                        || e.is_any_anchored_start();
-                    info.set_any_anchored_start(x);
-
-                    let x =
-                        info.is_any_anchored_end()
-                        || e.is_any_anchored_end();
-                    info.set_any_anchored_end(x);
-
-                    let x = info.is_match_empty() || e.is_match_empty();
-                    info.set_match_empty(x);
-
-                    let x =
-                        info.is_alternation_literal()
-                        && e.is_literal();
-                    info.set_alternation_literal(x);
-                }
-                Hir {
-                    kind: HirKind::Alternation(exprs),
-                    info: info,
-                }
-            }
-        }
-    }
-
-    /// Build an HIR expression for `.`.
-    ///
-    /// A `.` expression matches any character except for `\n`. To build an
-    /// expression that matches any character, including `\n`, use the `any`
-    /// method.
-    ///
-    /// If `bytes` is `true`, then this assumes characters are limited to a
-    /// single byte.
-    pub fn dot(bytes: bool) -> Hir {
-        if bytes {
-            let mut cls = ClassBytes::empty();
-            cls.push(ClassBytesRange::new(b'\0', b'\x09'));
-            cls.push(ClassBytesRange::new(b'\x0B', b'\xFF'));
-            Hir::class(Class::Bytes(cls))
-        } else {
-            let mut cls = ClassUnicode::empty();
-            cls.push(ClassUnicodeRange::new('\0', '\x09'));
-            cls.push(ClassUnicodeRange::new('\x0B', '\u{10FFFF}'));
-            Hir::class(Class::Unicode(cls))
-        }
-    }
-
-    /// Build an HIR expression for `(?s).`.
-    ///
-    /// A `(?s).` expression matches any character, including `\n`. To build an
-    /// expression that matches any character except for `\n`, then use the
-    /// `dot` method.
-    ///
-    /// If `bytes` is `true`, then this assumes characters are limited to a
-    /// single byte.
-    pub fn any(bytes: bool) -> Hir {
-        if bytes {
-            let mut cls = ClassBytes::empty();
-            cls.push(ClassBytesRange::new(b'\0', b'\xFF'));
-            Hir::class(Class::Bytes(cls))
-        } else {
-            let mut cls = ClassUnicode::empty();
-            cls.push(ClassUnicodeRange::new('\0', '\u{10FFFF}'));
-            Hir::class(Class::Unicode(cls))
-        }
-    }
-
-    /// Return true if and only if this HIR will always match valid UTF-8.
-    ///
-    /// When this returns false, then it is possible for this HIR expression
-    /// to match invalid UTF-8.
-    pub fn is_always_utf8(&self) -> bool {
-        self.info.is_always_utf8()
-    }
-
-    /// Returns true if and only if this entire HIR expression is made up of
-    /// zero-width assertions.
-    ///
-    /// This includes expressions like `^$\b\A\z` and even `((\b)+())*^`, but
-    /// not `^a`.
-    pub fn is_all_assertions(&self) -> bool {
-        self.info.is_all_assertions()
-    }
-
-    /// Return true if and only if this HIR is required to match from the
-    /// beginning of text. This includes expressions like `^foo`, `^(foo|bar)`,
-    /// `^foo|^bar` but not `^foo|bar`.
-    pub fn is_anchored_start(&self) -> bool {
-        self.info.is_anchored_start()
-    }
-
-    /// Return true if and only if this HIR is required to match at the end
-    /// of text. This includes expressions like `foo$`, `(foo|bar)$`,
-    /// `foo$|bar$` but not `foo$|bar`.
-    pub fn is_anchored_end(&self) -> bool {
-        self.info.is_anchored_end()
-    }
-
-    /// Return true if and only if this HIR is required to match from the
-    /// beginning of text or the beginning of a line. This includes expressions
-    /// like `^foo`, `(?m)^foo`, `^(foo|bar)`, `^(foo|bar)`, `(?m)^foo|^bar`
-    /// but not `^foo|bar` or `(?m)^foo|bar`.
-    ///
-    /// Note that if `is_anchored_start` is `true`, then
-    /// `is_line_anchored_start` will also be `true`. The reverse implication
-    /// is not true. For example, `(?m)^foo` is line anchored, but not
-    /// `is_anchored_start`.
-    pub fn is_line_anchored_start(&self) -> bool {
-        self.info.is_line_anchored_start()
-    }
-
-    /// Return true if and only if this HIR is required to match at the
-    /// end of text or the end of a line. This includes expressions like
-    /// `foo$`, `(?m)foo$`, `(foo|bar)$`, `(?m)(foo|bar)$`, `foo$|bar$`,
-    /// `(?m)(foo|bar)$`, but not `foo$|bar` or `(?m)foo$|bar`.
-    ///
-    /// Note that if `is_anchored_end` is `true`, then
-    /// `is_line_anchored_end` will also be `true`. The reverse implication
-    /// is not true. For example, `(?m)foo$` is line anchored, but not
-    /// `is_anchored_end`.
-    pub fn is_line_anchored_end(&self) -> bool {
-        self.info.is_line_anchored_end()
-    }
-
-    /// Return true if and only if this HIR contains any sub-expression that
-    /// is required to match at the beginning of text. Specifically, this
-    /// returns true if the `^` symbol (when multiline mode is disabled) or the
-    /// `\A` escape appear anywhere in the regex.
-    pub fn is_any_anchored_start(&self) -> bool {
-        self.info.is_any_anchored_start()
-    }
-
-    /// Return true if and only if this HIR contains any sub-expression that is
-    /// required to match at the end of text. Specifically, this returns true
-    /// if the `$` symbol (when multiline mode is disabled) or the `\z` escape
-    /// appear anywhere in the regex.
-    pub fn is_any_anchored_end(&self) -> bool {
-        self.info.is_any_anchored_end()
-    }
-
-    /// Return true if and only if the empty string is part of the language
-    /// matched by this regular expression.
-    ///
-    /// This includes `a*`, `a?b*`, `a{0}`, `()`, `()+`, `^$`, `a|b?`, `\B`,
-    /// but not `a`, `a+` or `\b`.
-    pub fn is_match_empty(&self) -> bool {
-        self.info.is_match_empty()
-    }
-
-    /// Return true if and only if this HIR is a simple literal. This is only
-    /// true when this HIR expression is either itself a `Literal` or a
-    /// concatenation of only `Literal`s.
-    ///
-    /// For example, `f` and `foo` are literals, but `f+`, `(foo)`, `foo()`
-    /// are not (even though that contain sub-expressions that are literals).
-    pub fn is_literal(&self) -> bool {
-        self.info.is_literal()
-    }
-
-    /// Return true if and only if this HIR is either a simple literal or an
-    /// alternation of simple literals. This is only
-    /// true when this HIR expression is either itself a `Literal` or a
-    /// concatenation of only `Literal`s or an alternation of only `Literal`s.
-    ///
-    /// For example, `f`, `foo`, `a|b|c`, and `foo|bar|baz` are alternaiton
-    /// literals, but `f+`, `(foo)`, `foo()`
-    /// are not (even though that contain sub-expressions that are literals).
-    pub fn is_alternation_literal(&self) -> bool {
-        self.info.is_alternation_literal()
-    }
-}
-
-impl HirKind {
-    /// Return true if and only if this HIR is the empty regular expression.
-    ///
-    /// Note that this is not defined inductively. That is, it only tests if
-    /// this kind is the `Empty` variant. To get the inductive definition,
-    /// use the `is_match_empty` method on [`Hir`](struct.Hir.html).
-    pub fn is_empty(&self) -> bool {
-        match *self {
-            HirKind::Empty => true,
-            _ => false,
-        }
-    }
-
-    /// Returns true if and only if this kind has any (including possibly
-    /// empty) subexpressions.
-    pub fn has_subexprs(&self) -> bool {
-        match *self {
-            HirKind::Empty
-            | HirKind::Literal(_)
-            | HirKind::Class(_)
-            | HirKind::Anchor(_)
-            | HirKind::WordBoundary(_) => false,
-            HirKind::Group(_)
-            | HirKind::Repetition(_)
-            | HirKind::Concat(_)
-            | HirKind::Alternation(_) => true,
-        }
-    }
-}
-
-/// Print a display representation of this Hir.
-///
-/// The result of this is a valid regular expression pattern string.
-///
-/// This implementation uses constant stack space and heap space proportional
-/// to the size of the `Hir`.
-impl fmt::Display for Hir {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        use hir::print::Printer;
-        Printer::new().print(self, f)
-    }
-}
-
-/// The high-level intermediate representation of a literal.
-///
-/// A literal corresponds to a single character, where a character is either
-/// defined by a Unicode scalar value or an arbitrary byte. Unicode characters
-/// are preferred whenever possible. In particular, a `Byte` variant is only
-/// ever produced when it could match invalid UTF-8.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Literal {
-    /// A single character represented by a Unicode scalar value.
-    Unicode(char),
-    /// A single character represented by an arbitrary byte.
-    Byte(u8),
-}
-
-impl Literal {
-    /// Returns true if and only if this literal corresponds to a Unicode
-    /// scalar value.
-    pub fn is_unicode(&self) -> bool {
-        match *self {
-            Literal::Unicode(_) => true,
-            Literal::Byte(b) if b <= 0x7F => true,
-            Literal::Byte(_) => false,
-        }
-    }
-}
-
-/// The high-level intermediate representation of a character class.
-///
-/// A character class corresponds to a set of characters. A character is either
-/// defined by a Unicode scalar value or a byte. Unicode characters are used
-/// by default, while bytes are used when Unicode mode (via the `u` flag) is
-/// disabled.
-///
-/// A character class, regardless of its character type, is represented by a
-/// sequence of non-overlapping non-adjacent ranges of characters.
-///
-/// Note that unlike [`Literal`](enum.Literal.html), a `Bytes` variant may
-/// be produced even when it exclusively matches valid UTF-8. This is because
-/// a `Bytes` variant represents an intention by the author of the regular
-/// expression to disable Unicode mode, which in turn impacts the semantics of
-/// case insensitive matching. For example, `(?i)k` and `(?i-u)k` will not
-/// match the same set of strings.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Class {
-    /// A set of characters represented by Unicode scalar values.
-    Unicode(ClassUnicode),
-    /// A set of characters represented by arbitrary bytes (one byte per
-    /// character).
-    Bytes(ClassBytes),
-}
-
-impl Class {
-    /// Apply Unicode simple case folding to this character class, in place.
-    /// The character class will be expanded to include all simple case folded
-    /// character variants.
-    ///
-    /// If this is a byte oriented character class, then this will be limited
-    /// to the ASCII ranges `A-Z` and `a-z`.
-    pub fn case_fold_simple(&mut self) {
-        match *self {
-            Class::Unicode(ref mut x) => x.case_fold_simple(),
-            Class::Bytes(ref mut x) => x.case_fold_simple(),
-        }
-    }
-
-    /// Negate this character class in place.
-    ///
-    /// After completion, this character class will contain precisely the
-    /// characters that weren't previously in the class.
-    pub fn negate(&mut self) {
-        match *self {
-            Class::Unicode(ref mut x) => x.negate(),
-            Class::Bytes(ref mut x) => x.negate(),
-        }
-    }
-
-    /// Returns true if and only if this character class will only ever match
-    /// valid UTF-8.
-    ///
-    /// A character class can match invalid UTF-8 only when the following
-    /// conditions are met:
-    ///
-    /// 1. The translator was configured to permit generating an expression
-    ///    that can match invalid UTF-8. (By default, this is disabled.)
-    /// 2. Unicode mode (via the `u` flag) was disabled either in the concrete
-    ///    syntax or in the parser builder. By default, Unicode mode is
-    ///    enabled.
-    pub fn is_always_utf8(&self) -> bool {
-        match *self {
-            Class::Unicode(_) => true,
-            Class::Bytes(ref x) => x.is_all_ascii(),
-        }
-    }
-}
-
-/// A set of characters represented by Unicode scalar values.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassUnicode {
-    set: IntervalSet<ClassUnicodeRange>,
-}
-
-impl ClassUnicode {
-    /// Create a new class from a sequence of ranges.
-    ///
-    /// The given ranges do not need to be in any specific order, and ranges
-    /// may overlap.
-    pub fn new<I>(ranges: I) -> ClassUnicode
-    where I: IntoIterator<Item=ClassUnicodeRange>
-    {
-        ClassUnicode { set: IntervalSet::new(ranges) }
-    }
-
-    /// Create a new class with no ranges.
-    pub fn empty() -> ClassUnicode {
-        ClassUnicode::new(vec![])
-    }
-
-    /// Add a new range to this set.
-    pub fn push(&mut self, range: ClassUnicodeRange) {
-        self.set.push(range);
-    }
-
-    /// Return an iterator over all ranges in this class.
-    ///
-    /// The iterator yields ranges in ascending order.
-    pub fn iter(&self) -> ClassUnicodeIter {
-        ClassUnicodeIter(self.set.iter())
-    }
-
-    /// Return the underlying ranges as a slice.
-    pub fn ranges(&self) -> &[ClassUnicodeRange] {
-        self.set.intervals()
-    }
-
-    /// Expand this character class such that it contains all case folded
-    /// characters, according to Unicode's "simple" mapping. For example, if
-    /// this class consists of the range `a-z`, then applying case folding will
-    /// result in the class containing both the ranges `a-z` and `A-Z`.
-    pub fn case_fold_simple(&mut self) {
-        self.set.case_fold_simple();
-    }
-
-    /// Negate this character class.
-    ///
-    /// For all `c` where `c` is a Unicode scalar value, if `c` was in this
-    /// set, then it will not be in this set after negation.
-    pub fn negate(&mut self) {
-        self.set.negate();
-    }
-
-    /// Union this character class with the given character class, in place.
-    pub fn union(&mut self, other: &ClassUnicode) {
-        self.set.union(&other.set);
-    }
-
-    /// Intersect this character class with the given character class, in
-    /// place.
-    pub fn intersect(&mut self, other: &ClassUnicode) {
-        self.set.intersect(&other.set);
-    }
-
-    /// Subtract the given character class from this character class, in place.
-    pub fn difference(&mut self, other: &ClassUnicode) {
-        self.set.difference(&other.set);
-    }
-
-    /// Compute the symmetric difference of the given character classes, in
-    /// place.
-    ///
-    /// This computes the symmetric difference of two character classes. This
-    /// removes all elements in this class that are also in the given class,
-    /// but all adds all elements from the given class that aren't in this
-    /// class. That is, the class will contain all elements in either class,
-    /// but will not contain any elements that are in both classes.
-    pub fn symmetric_difference(&mut self, other: &ClassUnicode) {
-        self.set.symmetric_difference(&other.set);
-    }
-}
-
-/// An iterator over all ranges in a Unicode character class.
-///
-/// The lifetime `'a` refers to the lifetime of the underlying class.
-#[derive(Debug)]
-pub struct ClassUnicodeIter<'a>(IntervalSetIter<'a, ClassUnicodeRange>);
-
-impl<'a> Iterator for ClassUnicodeIter<'a> {
-    type Item = &'a ClassUnicodeRange;
-
-    fn next(&mut self) -> Option<&'a ClassUnicodeRange> {
-        self.0.next()
-    }
-}
-
-/// A single range of characters represented by Unicode scalar values.
-///
-/// The range is closed. That is, the start and end of the range are included
-/// in the range.
-#[derive(Clone, Copy, Default, Eq, PartialEq, PartialOrd, Ord)]
-pub struct ClassUnicodeRange {
-    start: char,
-    end: char,
-}
-
-impl fmt::Debug for ClassUnicodeRange {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let start =
-            if !self.start.is_whitespace() && !self.start.is_control() {
-                self.start.to_string()
-            } else {
-                format!("0x{:X}", self.start as u32)
-            };
-        let end =
-            if !self.end.is_whitespace() && !self.end.is_control() {
-                self.end.to_string()
-            } else {
-                format!("0x{:X}", self.end as u32)
-            };
-        f.debug_struct("ClassUnicodeRange")
-         .field("start", &start)
-         .field("end", &end)
-         .finish()
-    }
-}
-
-impl Interval for ClassUnicodeRange {
-    type Bound = char;
-
-    #[inline] fn lower(&self) -> char { self.start }
-    #[inline] fn upper(&self) -> char { self.end }
-    #[inline] fn set_lower(&mut self, bound: char) { self.start = bound; }
-    #[inline] fn set_upper(&mut self, bound: char) { self.end = bound; }
-
-    /// Apply simple case folding to this Unicode scalar value range.
-    ///
-    /// Additional ranges are appended to the given vector. Canonical ordering
-    /// is *not* maintained in the given vector.
-    fn case_fold_simple(&self, ranges: &mut Vec<ClassUnicodeRange>) {
-        if !unicode::contains_simple_case_mapping(self.start, self.end) {
-            return;
-        }
-        let start = self.start as u32;
-        let end = (self.end as u32).saturating_add(1);
-        let mut next_simple_cp = None;
-        for cp in (start..end).filter_map(char::from_u32) {
-            if next_simple_cp.map_or(false, |next| cp < next) {
-                continue;
-            }
-            let it = match unicode::simple_fold(cp) {
-                Ok(it) => it,
-                Err(next) => {
-                    next_simple_cp = next;
-                    continue;
-                }
-            };
-            for cp_folded in it {
-                ranges.push(ClassUnicodeRange::new(cp_folded, cp_folded));
-            }
-        }
-    }
-}
-
-impl ClassUnicodeRange {
-    /// Create a new Unicode scalar value range for a character class.
-    ///
-    /// The returned range is always in a canonical form. That is, the range
-    /// returned always satisfies the invariant that `start <= end`.
-    pub fn new(start: char, end: char) -> ClassUnicodeRange {
-        ClassUnicodeRange::create(start, end)
-    }
-
-    /// Return the start of this range.
-    ///
-    /// The start of a range is always less than or equal to the end of the
-    /// range.
-    pub fn start(&self) -> char {
-        self.start
-    }
-
-    /// Return the end of this range.
-    ///
-    /// The end of a range is always greater than or equal to the start of the
-    /// range.
-    pub fn end(&self) -> char {
-        self.end
-    }
-}
-
-/// A set of characters represented by arbitrary bytes (where one byte
-/// corresponds to one character).
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct ClassBytes {
-    set: IntervalSet<ClassBytesRange>,
-}
-
-impl ClassBytes {
-    /// Create a new class from a sequence of ranges.
-    ///
-    /// The given ranges do not need to be in any specific order, and ranges
-    /// may overlap.
-    pub fn new<I>(ranges: I) -> ClassBytes
-    where I: IntoIterator<Item=ClassBytesRange>
-    {
-        ClassBytes { set: IntervalSet::new(ranges) }
-    }
-
-    /// Create a new class with no ranges.
-    pub fn empty() -> ClassBytes {
-        ClassBytes::new(vec![])
-    }
-
-    /// Add a new range to this set.
-    pub fn push(&mut self, range: ClassBytesRange) {
-        self.set.push(range);
-    }
-
-    /// Return an iterator over all ranges in this class.
-    ///
-    /// The iterator yields ranges in ascending order.
-    pub fn iter(&self) -> ClassBytesIter {
-        ClassBytesIter(self.set.iter())
-    }
-
-    /// Return the underlying ranges as a slice.
-    pub fn ranges(&self) -> &[ClassBytesRange] {
-        self.set.intervals()
-    }
-
-    /// Expand this character class such that it contains all case folded
-    /// characters. For example, if this class consists of the range `a-z`,
-    /// then applying case folding will result in the class containing both the
-    /// ranges `a-z` and `A-Z`.
-    ///
-    /// Note that this only applies ASCII case folding, which is limited to the
-    /// characters `a-z` and `A-Z`.
-    pub fn case_fold_simple(&mut self) {
-        self.set.case_fold_simple();
-    }
-
-    /// Negate this byte class.
-    ///
-    /// For all `b` where `b` is a any byte, if `b` was in this set, then it
-    /// will not be in this set after negation.
-    pub fn negate(&mut self) {
-        self.set.negate();
-    }
-
-    /// Union this byte class with the given byte class, in place.
-    pub fn union(&mut self, other: &ClassBytes) {
-        self.set.union(&other.set);
-    }
-
-    /// Intersect this byte class with the given byte class, in place.
-    pub fn intersect(&mut self, other: &ClassBytes) {
-        self.set.intersect(&other.set);
-    }
-
-    /// Subtract the given byte class from this byte class, in place.
-    pub fn difference(&mut self, other: &ClassBytes) {
-        self.set.difference(&other.set);
-    }
-
-    /// Compute the symmetric difference of the given byte classes, in place.
-    ///
-    /// This computes the symmetric difference of two byte classes. This
-    /// removes all elements in this class that are also in the given class,
-    /// but all adds all elements from the given class that aren't in this
-    /// class. That is, the class will contain all elements in either class,
-    /// but will not contain any elements that are in both classes.
-    pub fn symmetric_difference(&mut self, other: &ClassBytes) {
-        self.set.symmetric_difference(&other.set);
-    }
-
-    /// Returns true if and only if this character class will either match
-    /// nothing or only ASCII bytes. Stated differently, this returns false
-    /// if and only if this class contains a non-ASCII byte.
-    pub fn is_all_ascii(&self) -> bool {
-        self.set.intervals().last().map_or(true, |r| r.end <= 0x7F)
-    }
-}
-
-/// An iterator over all ranges in a byte character class.
-///
-/// The lifetime `'a` refers to the lifetime of the underlying class.
-#[derive(Debug)]
-pub struct ClassBytesIter<'a>(IntervalSetIter<'a, ClassBytesRange>);
-
-impl<'a> Iterator for ClassBytesIter<'a> {
-    type Item = &'a ClassBytesRange;
-
-    fn next(&mut self) -> Option<&'a ClassBytesRange> {
-        self.0.next()
-    }
-}
-
-/// A single range of characters represented by arbitrary bytes.
-///
-/// The range is closed. That is, the start and end of the range are included
-/// in the range.
-#[derive(Clone, Copy, Default, Eq, PartialEq, PartialOrd, Ord)]
-pub struct ClassBytesRange {
-    start: u8,
-    end: u8,
-}
-
-impl Interval for ClassBytesRange {
-    type Bound = u8;
-
-    #[inline] fn lower(&self) -> u8 { self.start }
-    #[inline] fn upper(&self) -> u8 { self.end }
-    #[inline] fn set_lower(&mut self, bound: u8) { self.start = bound; }
-    #[inline] fn set_upper(&mut self, bound: u8) { self.end = bound; }
-
-    /// Apply simple case folding to this byte range. Only ASCII case mappings
-    /// (for a-z) are applied.
-    ///
-    /// Additional ranges are appended to the given vector. Canonical ordering
-    /// is *not* maintained in the given vector.
-    fn case_fold_simple(&self, ranges: &mut Vec<ClassBytesRange>) {
-        if !ClassBytesRange::new(b'a', b'z').is_intersection_empty(self) {
-            let lower = cmp::max(self.start, b'a');
-            let upper = cmp::min(self.end, b'z');
-            ranges.push(ClassBytesRange::new(lower - 32, upper - 32));
-        }
-        if !ClassBytesRange::new(b'A', b'Z').is_intersection_empty(self) {
-            let lower = cmp::max(self.start, b'A');
-            let upper = cmp::min(self.end, b'Z');
-            ranges.push(ClassBytesRange::new(lower + 32, upper + 32));
-        }
-    }
-}
-
-impl ClassBytesRange {
-    /// Create a new byte range for a character class.
-    ///
-    /// The returned range is always in a canonical form. That is, the range
-    /// returned always satisfies the invariant that `start <= end`.
-    pub fn new(start: u8, end: u8) -> ClassBytesRange {
-        ClassBytesRange::create(start, end)
-    }
-
-    /// Return the start of this range.
-    ///
-    /// The start of a range is always less than or equal to the end of the
-    /// range.
-    pub fn start(&self) -> u8 {
-        self.start
-    }
-
-    /// Return the end of this range.
-    ///
-    /// The end of a range is always greater than or equal to the start of the
-    /// range.
-    pub fn end(&self) -> u8 {
-        self.end
-    }
-}
-
-impl fmt::Debug for ClassBytesRange {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        let mut debug = f.debug_struct("ClassBytesRange");
-        if self.start <= 0x7F {
-            debug.field("start", &(self.start as char));
-        } else {
-            debug.field("start", &self.start);
-        }
-        if self.end <= 0x7F {
-            debug.field("end", &(self.end as char));
-        } else {
-            debug.field("end", &self.end);
-        }
-        debug.finish()
-    }
-}
-
-/// The high-level intermediate representation for an anchor assertion.
-///
-/// A matching anchor assertion is always zero-length.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum Anchor {
-    /// Match the beginning of a line or the beginning of text. Specifically,
-    /// this matches at the starting position of the input, or at the position
-    /// immediately following a `\n` character.
-    StartLine,
-    /// Match the end of a line or the end of text. Specifically,
-    /// this matches at the end position of the input, or at the position
-    /// immediately preceding a `\n` character.
-    EndLine,
-    /// Match the beginning of text. Specifically, this matches at the starting
-    /// position of the input.
-    StartText,
-    /// Match the end of text. Specifically, this matches at the ending
-    /// position of the input.
-    EndText,
-}
-
-/// The high-level intermediate representation for a word-boundary assertion.
-///
-/// A matching word boundary assertion is always zero-length.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum WordBoundary {
-    /// Match a Unicode-aware word boundary. That is, this matches a position
-    /// where the left adjacent character and right adjacent character
-    /// correspond to a word and non-word or a non-word and word character.
-    Unicode,
-    /// Match a Unicode-aware negation of a word boundary.
-    UnicodeNegate,
-    /// Match an ASCII-only word boundary. That is, this matches a position
-    /// where the left adjacent character and right adjacent character
-    /// correspond to a word and non-word or a non-word and word character.
-    Ascii,
-    /// Match an ASCII-only negation of a word boundary.
-    AsciiNegate,
-}
-
-impl WordBoundary {
-    /// Returns true if and only if this word boundary assertion is negated.
-    pub fn is_negated(&self) -> bool {
-        match *self {
-            WordBoundary::Unicode |  WordBoundary::Ascii => false,
-            WordBoundary::UnicodeNegate |  WordBoundary::AsciiNegate => true,
-        }
-    }
-}
-
-/// The high-level intermediate representation for a group.
-///
-/// This represents one of three possible group types:
-///
-/// 1. A non-capturing group (e.g., `(?:expr)`).
-/// 2. A capturing group (e.g., `(expr)`).
-/// 3. A named capturing group (e.g., `(?P<name>expr)`).
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Group {
-    /// The kind of this group. If it is a capturing group, then the kind
-    /// contains the capture group index (and the name, if it is a named
-    /// group).
-    pub kind: GroupKind,
-    /// The expression inside the capturing group, which may be empty.
-    pub hir: Box<Hir>,
-}
-
-/// The kind of group.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum GroupKind {
-    /// A normal unnamed capturing group.
-    ///
-    /// The value is the capture index of the group.
-    CaptureIndex(u32),
-    /// A named capturing group.
-    CaptureName {
-        /// The name of the group.
-        name: String,
-        /// The capture index of the group.
-        index: u32,
-    },
-    /// A non-capturing group.
-    NonCapturing,
-}
-
-/// The high-level intermediate representation of a repetition operator.
-///
-/// A repetition operator permits the repetition of an arbitrary
-/// sub-expression.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct Repetition {
-    /// The kind of this repetition operator.
-    pub kind: RepetitionKind,
-    /// Whether this repetition operator is greedy or not. A greedy operator
-    /// will match as much as it can. A non-greedy operator will match as
-    /// little as it can.
-    ///
-    /// Typically, operators are greedy by default and are only non-greedy when
-    /// a `?` suffix is used, e.g., `(expr)*` is greedy while `(expr)*?` is
-    /// not. However, this can be inverted via the `U` "ungreedy" flag.
-    pub greedy: bool,
-    /// The expression being repeated.
-    pub hir: Box<Hir>,
-}
-
-impl Repetition {
-    /// Returns true if and only if this repetition operator makes it possible
-    /// to match the empty string.
-    ///
-    /// Note that this is not defined inductively. For example, while `a*`
-    /// will report `true`, `()+` will not, even though `()` matches the empty
-    /// string and one or more occurrences of something that matches the empty
-    /// string will always match the empty string. In order to get the
-    /// inductive definition, see the corresponding method on
-    /// [`Hir`](struct.Hir.html).
-    pub fn is_match_empty(&self) -> bool {
-        match self.kind {
-            RepetitionKind::ZeroOrOne => true,
-            RepetitionKind::ZeroOrMore => true,
-            RepetitionKind::OneOrMore => false,
-            RepetitionKind::Range(RepetitionRange::Exactly(m)) => m == 0,
-            RepetitionKind::Range(RepetitionRange::AtLeast(m)) => m == 0,
-            RepetitionKind::Range(RepetitionRange::Bounded(m, _)) => m == 0,
-        }
-    }
-}
-
-/// The kind of a repetition operator.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum RepetitionKind {
-    /// Matches a sub-expression zero or one times.
-    ZeroOrOne,
-    /// Matches a sub-expression zero or more times.
-    ZeroOrMore,
-    /// Matches a sub-expression one or more times.
-    OneOrMore,
-    /// Matches a sub-expression within a bounded range of times.
-    Range(RepetitionRange),
-}
-
-/// The kind of a counted repetition operator.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub enum RepetitionRange {
-    /// Matches a sub-expression exactly this many times.
-    Exactly(u32),
-    /// Matches a sub-expression at least this many times.
-    AtLeast(u32),
-    /// Matches a sub-expression at least `m` times and at most `n` times.
-    Bounded(u32, u32),
-}
-
-/// A custom `Drop` impl is used for `HirKind` such that it uses constant stack
-/// space but heap space proportional to the depth of the total `Hir`.
-impl Drop for Hir {
-    fn drop(&mut self) {
-        use std::mem;
-
-        match *self.kind() {
-            HirKind::Empty
-            | HirKind::Literal(_)
-            | HirKind::Class(_)
-            | HirKind::Anchor(_)
-            | HirKind::WordBoundary(_) => return,
-            HirKind::Group(ref x) if !x.hir.kind.has_subexprs() => return,
-            HirKind::Repetition(ref x) if !x.hir.kind.has_subexprs() => return,
-            HirKind::Concat(ref x) if x.is_empty() => return,
-            HirKind::Alternation(ref x) if x.is_empty() => return,
-            _ => {}
-        }
-
-        let mut stack = vec![mem::replace(self, Hir::empty())];
-        while let Some(mut expr) = stack.pop() {
-            match expr.kind {
-                HirKind::Empty
-                | HirKind::Literal(_)
-                | HirKind::Class(_)
-                | HirKind::Anchor(_)
-                | HirKind::WordBoundary(_) => {}
-                HirKind::Group(ref mut x) => {
-                    stack.push(mem::replace(&mut x.hir, Hir::empty()));
-                }
-                HirKind::Repetition(ref mut x) => {
-                    stack.push(mem::replace(&mut x.hir, Hir::empty()));
-                }
-                HirKind::Concat(ref mut x) => {
-                    stack.extend(x.drain(..));
-                }
-                HirKind::Alternation(ref mut x) => {
-                    stack.extend(x.drain(..));
-                }
-            }
-        }
-    }
-}
-
-/// A type that documents various attributes of an HIR expression.
-///
-/// These attributes are typically defined inductively on the HIR.
-#[derive(Clone, Debug, Eq, PartialEq)]
-struct HirInfo {
-    /// Represent yes/no questions by a bitfield to conserve space, since
-    /// this is included in every HIR expression.
-    ///
-    /// If more attributes need to be added, it is OK to increase the size of
-    /// this as appropriate.
-    bools: u16,
-}
-
-// A simple macro for defining bitfield accessors/mutators.
-macro_rules! define_bool {
-    ($bit:expr, $is_fn_name:ident, $set_fn_name:ident) => {
-        fn $is_fn_name(&self) -> bool {
-            self.bools & (0b1 << $bit) > 0
-        }
-
-        fn $set_fn_name(&mut self, yes: bool) {
-            if yes {
-                self.bools |= 1 << $bit;
-            } else {
-                self.bools &= !(1 << $bit);
-            }
-        }
-    }
-}
-
-impl HirInfo {
-    fn new() -> HirInfo {
-        HirInfo {
-            bools: 0,
-        }
-    }
-
-    define_bool!(0, is_always_utf8, set_always_utf8);
-    define_bool!(1, is_all_assertions, set_all_assertions);
-    define_bool!(2, is_anchored_start, set_anchored_start);
-    define_bool!(3, is_anchored_end, set_anchored_end);
-    define_bool!(4, is_line_anchored_start, set_line_anchored_start);
-    define_bool!(5, is_line_anchored_end, set_line_anchored_end);
-    define_bool!(6, is_any_anchored_start, set_any_anchored_start);
-    define_bool!(7, is_any_anchored_end, set_any_anchored_end);
-    define_bool!(8, is_match_empty, set_match_empty);
-    define_bool!(9, is_literal, set_literal);
-    define_bool!(10, is_alternation_literal, set_alternation_literal);
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    fn uclass(ranges: &[(char, char)]) -> ClassUnicode {
-        let ranges: Vec<ClassUnicodeRange> = ranges
-            .iter()
-            .map(|&(s, e)| ClassUnicodeRange::new(s, e))
-            .collect();
-        ClassUnicode::new(ranges)
-    }
-
-    fn bclass(ranges: &[(u8, u8)]) -> ClassBytes {
-        let ranges: Vec<ClassBytesRange> = ranges
-            .iter()
-            .map(|&(s, e)| ClassBytesRange::new(s, e))
-            .collect();
-        ClassBytes::new(ranges)
-    }
-
-    fn uranges(cls: &ClassUnicode) -> Vec<(char, char)> {
-        cls.iter().map(|x| (x.start(), x.end())).collect()
-    }
-
-    fn ucasefold(cls: &ClassUnicode) -> ClassUnicode {
-        let mut cls_ = cls.clone();
-        cls_.case_fold_simple();
-        cls_
-    }
-
-    fn uunion(cls1: &ClassUnicode, cls2: &ClassUnicode) -> ClassUnicode {
-        let mut cls_ = cls1.clone();
-        cls_.union(cls2);
-        cls_
-    }
-
-    fn uintersect(cls1: &ClassUnicode, cls2: &ClassUnicode) -> ClassUnicode {
-        let mut cls_ = cls1.clone();
-        cls_.intersect(cls2);
-        cls_
-    }
-
-    fn udifference(cls1: &ClassUnicode, cls2: &ClassUnicode) -> ClassUnicode {
-        let mut cls_ = cls1.clone();
-        cls_.difference(cls2);
-        cls_
-    }
-
-    fn usymdifference(cls1: &ClassUnicode, cls2: &ClassUnicode) -> ClassUnicode {
-        let mut cls_ = cls1.clone();
-        cls_.symmetric_difference(cls2);
-        cls_
-    }
-
-    fn unegate(cls: &ClassUnicode) -> ClassUnicode {
-        let mut cls_ = cls.clone();
-        cls_.negate();
-        cls_
-    }
-
-    fn branges(cls: &ClassBytes) -> Vec<(u8, u8)> {
-        cls.iter().map(|x| (x.start(), x.end())).collect()
-    }
-
-    fn bcasefold(cls: &ClassBytes) -> ClassBytes {
-        let mut cls_ = cls.clone();
-        cls_.case_fold_simple();
-        cls_
-    }
-
-    fn bunion(cls1: &ClassBytes, cls2: &ClassBytes) -> ClassBytes {
-        let mut cls_ = cls1.clone();
-        cls_.union(cls2);
-        cls_
-    }
-
-    fn bintersect(cls1: &ClassBytes, cls2: &ClassBytes) -> ClassBytes {
-        let mut cls_ = cls1.clone();
-        cls_.intersect(cls2);
-        cls_
-    }
-
-    fn bdifference(cls1: &ClassBytes, cls2: &ClassBytes) -> ClassBytes {
-        let mut cls_ = cls1.clone();
-        cls_.difference(cls2);
-        cls_
-    }
-
-    fn bsymdifference(cls1: &ClassBytes, cls2: &ClassBytes) -> ClassBytes {
-        let mut cls_ = cls1.clone();
-        cls_.symmetric_difference(cls2);
-        cls_
-    }
-
-    fn bnegate(cls: &ClassBytes) -> ClassBytes {
-        let mut cls_ = cls.clone();
-        cls_.negate();
-        cls_
-    }
-
-    #[test]
-    fn class_range_canonical_unicode() {
-        let range = ClassUnicodeRange::new('\u{00FF}', '\0');
-        assert_eq!('\0', range.start());
-        assert_eq!('\u{00FF}', range.end());
-    }
-
-    #[test]
-    fn class_range_canonical_bytes() {
-        let range = ClassBytesRange::new(b'\xFF', b'\0');
-        assert_eq!(b'\0', range.start());
-        assert_eq!(b'\xFF', range.end());
-    }
-
-    #[test]
-    fn class_canonicalize_unicode() {
-        let cls = uclass(&[('a', 'c'), ('x', 'z')]);
-        let expected = vec![('a', 'c'), ('x', 'z')];
-        assert_eq!(expected, uranges(&cls));
-
-        let cls = uclass(&[('x', 'z'), ('a', 'c')]);
-        let expected = vec![('a', 'c'), ('x', 'z')];
-        assert_eq!(expected, uranges(&cls));
-
-        let cls = uclass(&[('x', 'z'), ('w', 'y')]);
-        let expected = vec![('w', 'z')];
-        assert_eq!(expected, uranges(&cls));
-
-        let cls = uclass(&[
-            ('c', 'f'), ('a', 'g'), ('d', 'j'), ('a', 'c'),
-            ('m', 'p'), ('l', 's'),
-        ]);
-        let expected = vec![('a', 'j'), ('l', 's')];
-        assert_eq!(expected, uranges(&cls));
-
-        let cls = uclass(&[('x', 'z'), ('u', 'w')]);
-        let expected = vec![('u', 'z')];
-        assert_eq!(expected, uranges(&cls));
-
-        let cls = uclass(&[('\x00', '\u{10FFFF}'), ('\x00', '\u{10FFFF}')]);
-        let expected = vec![('\x00', '\u{10FFFF}')];
-        assert_eq!(expected, uranges(&cls));
-
-
-        let cls = uclass(&[('a', 'a'), ('b', 'b')]);
-        let expected = vec![('a', 'b')];
-        assert_eq!(expected, uranges(&cls));
-    }
-
-    #[test]
-    fn class_canonicalize_bytes() {
-        let cls = bclass(&[(b'a', b'c'), (b'x', b'z')]);
-        let expected = vec![(b'a', b'c'), (b'x', b'z')];
-        assert_eq!(expected, branges(&cls));
-
-        let cls = bclass(&[(b'x', b'z'), (b'a', b'c')]);
-        let expected = vec![(b'a', b'c'), (b'x', b'z')];
-        assert_eq!(expected, branges(&cls));
-
-        let cls = bclass(&[(b'x', b'z'), (b'w', b'y')]);
-        let expected = vec![(b'w', b'z')];
-        assert_eq!(expected, branges(&cls));
-
-        let cls = bclass(&[
-            (b'c', b'f'), (b'a', b'g'), (b'd', b'j'), (b'a', b'c'),
-            (b'm', b'p'), (b'l', b's'),
-        ]);
-        let expected = vec![(b'a', b'j'), (b'l', b's')];
-        assert_eq!(expected, branges(&cls));
-
-        let cls = bclass(&[(b'x', b'z'), (b'u', b'w')]);
-        let expected = vec![(b'u', b'z')];
-        assert_eq!(expected, branges(&cls));
-
-        let cls = bclass(&[(b'\x00', b'\xFF'), (b'\x00', b'\xFF')]);
-        let expected = vec![(b'\x00', b'\xFF')];
-        assert_eq!(expected, branges(&cls));
-
-        let cls = bclass(&[(b'a', b'a'), (b'b', b'b')]);
-        let expected = vec![(b'a', b'b')];
-        assert_eq!(expected, branges(&cls));
-    }
-
-    #[test]
-    fn class_case_fold_unicode() {
-        let cls = uclass(&[
-            ('C', 'F'), ('A', 'G'), ('D', 'J'), ('A', 'C'),
-            ('M', 'P'), ('L', 'S'), ('c', 'f'),
-        ]);
-        let expected = uclass(&[
-            ('A', 'J'), ('L', 'S'),
-            ('a', 'j'), ('l', 's'),
-            ('\u{17F}', '\u{17F}'),
-        ]);
-        assert_eq!(expected, ucasefold(&cls));
-
-        let cls = uclass(&[('A', 'Z')]);
-        let expected = uclass(&[
-            ('A', 'Z'), ('a', 'z'),
-            ('\u{17F}', '\u{17F}'),
-            ('\u{212A}', '\u{212A}'),
-        ]);
-        assert_eq!(expected, ucasefold(&cls));
-
-        let cls = uclass(&[('a', 'z')]);
-        let expected = uclass(&[
-            ('A', 'Z'), ('a', 'z'),
-            ('\u{17F}', '\u{17F}'),
-            ('\u{212A}', '\u{212A}'),
-        ]);
-        assert_eq!(expected, ucasefold(&cls));
-
-        let cls = uclass(&[('A', 'A'), ('_', '_')]);
-        let expected = uclass(&[('A', 'A'), ('_', '_'), ('a', 'a')]);
-        assert_eq!(expected, ucasefold(&cls));
-
-        let cls = uclass(&[('A', 'A'), ('=', '=')]);
-        let expected = uclass(&[('=', '='), ('A', 'A'), ('a', 'a')]);
-        assert_eq!(expected, ucasefold(&cls));
-
-        let cls = uclass(&[('\x00', '\x10')]);
-        assert_eq!(cls, ucasefold(&cls));
-
-        let cls = uclass(&[('k', 'k')]);
-        let expected = uclass(&[
-            ('K', 'K'), ('k', 'k'), ('\u{212A}', '\u{212A}'),
-        ]);
-        assert_eq!(expected, ucasefold(&cls));
-
-        let cls = uclass(&[('@', '@')]);
-        assert_eq!(cls, ucasefold(&cls));
-    }
-
-    #[test]
-    fn class_case_fold_bytes() {
-        let cls = bclass(&[
-            (b'C', b'F'), (b'A', b'G'), (b'D', b'J'), (b'A', b'C'),
-            (b'M', b'P'), (b'L', b'S'), (b'c', b'f'),
-        ]);
-        let expected = bclass(&[
-            (b'A', b'J'), (b'L', b'S'),
-            (b'a', b'j'), (b'l', b's'),
-        ]);
-        assert_eq!(expected, bcasefold(&cls));
-
-        let cls = bclass(&[(b'A', b'Z')]);
-        let expected = bclass(&[(b'A', b'Z'), (b'a', b'z')]);
-        assert_eq!(expected, bcasefold(&cls));
-
-        let cls = bclass(&[(b'a', b'z')]);
-        let expected = bclass(&[(b'A', b'Z'), (b'a', b'z')]);
-        assert_eq!(expected, bcasefold(&cls));
-
-        let cls = bclass(&[(b'A', b'A'), (b'_', b'_')]);
-        let expected = bclass(&[(b'A', b'A'), (b'_', b'_'), (b'a', b'a')]);
-        assert_eq!(expected, bcasefold(&cls));
-
-        let cls = bclass(&[(b'A', b'A'), (b'=', b'=')]);
-        let expected = bclass(&[(b'=', b'='), (b'A', b'A'), (b'a', b'a')]);
-        assert_eq!(expected, bcasefold(&cls));
-
-        let cls = bclass(&[(b'\x00', b'\x10')]);
-        assert_eq!(cls, bcasefold(&cls));
-
-        let cls = bclass(&[(b'k', b'k')]);
-        let expected = bclass(&[(b'K', b'K'), (b'k', b'k')]);
-        assert_eq!(expected, bcasefold(&cls));
-
-        let cls = bclass(&[(b'@', b'@')]);
-        assert_eq!(cls, bcasefold(&cls));
-    }
-
-    #[test]
-    fn class_negate_unicode() {
-        let cls = uclass(&[('a', 'a')]);
-        let expected = uclass(&[('\x00', '\x60'), ('\x62', '\u{10FFFF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('a', 'a'), ('b', 'b')]);
-        let expected = uclass(&[('\x00', '\x60'), ('\x63', '\u{10FFFF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('a', 'c'), ('x', 'z')]);
-        let expected = uclass(&[
-            ('\x00', '\x60'), ('\x64', '\x77'), ('\x7B', '\u{10FFFF}'),
-        ]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('\x00', 'a')]);
-        let expected = uclass(&[('\x62', '\u{10FFFF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('a', '\u{10FFFF}')]);
-        let expected = uclass(&[('\x00', '\x60')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('\x00', '\u{10FFFF}')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[]);
-        let expected = uclass(&[('\x00', '\u{10FFFF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[
-            ('\x00', '\u{10FFFD}'), ('\u{10FFFF}', '\u{10FFFF}'),
-        ]);
-        let expected = uclass(&[('\u{10FFFE}', '\u{10FFFE}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('\x00', '\u{D7FF}')]);
-        let expected = uclass(&[('\u{E000}', '\u{10FFFF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('\x00', '\u{D7FE}')]);
-        let expected = uclass(&[('\u{D7FF}', '\u{10FFFF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('\u{E000}', '\u{10FFFF}')]);
-        let expected = uclass(&[('\x00', '\u{D7FF}')]);
-        assert_eq!(expected, unegate(&cls));
-
-        let cls = uclass(&[('\u{E001}', '\u{10FFFF}')]);
-        let expected = uclass(&[('\x00', '\u{E000}')]);
-        assert_eq!(expected, unegate(&cls));
-    }
-
-    #[test]
-    fn class_negate_bytes() {
-        let cls = bclass(&[(b'a', b'a')]);
-        let expected = bclass(&[(b'\x00', b'\x60'), (b'\x62', b'\xFF')]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[(b'a', b'a'), (b'b', b'b')]);
-        let expected = bclass(&[(b'\x00', b'\x60'), (b'\x63', b'\xFF')]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[(b'a', b'c'), (b'x', b'z')]);
-        let expected = bclass(&[
-            (b'\x00', b'\x60'), (b'\x64', b'\x77'), (b'\x7B', b'\xFF'),
-        ]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[(b'\x00', b'a')]);
-        let expected = bclass(&[(b'\x62', b'\xFF')]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[(b'a', b'\xFF')]);
-        let expected = bclass(&[(b'\x00', b'\x60')]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[(b'\x00', b'\xFF')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[]);
-        let expected = bclass(&[(b'\x00', b'\xFF')]);
-        assert_eq!(expected, bnegate(&cls));
-
-        let cls = bclass(&[(b'\x00', b'\xFD'), (b'\xFF', b'\xFF')]);
-        let expected = bclass(&[(b'\xFE', b'\xFE')]);
-        assert_eq!(expected, bnegate(&cls));
-    }
-
-    #[test]
-    fn class_union_unicode() {
-        let cls1 = uclass(&[('a', 'g'), ('m', 't'), ('A', 'C')]);
-        let cls2 = uclass(&[('a', 'z')]);
-        let expected = uclass(&[('a', 'z'), ('A', 'C')]);
-        assert_eq!(expected, uunion(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_union_bytes() {
-        let cls1 = bclass(&[(b'a', b'g'), (b'm', b't'), (b'A', b'C')]);
-        let cls2 = bclass(&[(b'a', b'z')]);
-        let expected = bclass(&[(b'a', b'z'), (b'A', b'C')]);
-        assert_eq!(expected, bunion(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_intersect_unicode() {
-        let cls1 = uclass(&[]);
-        let cls2 = uclass(&[('a', 'a')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'a')]);
-        let cls2 = uclass(&[('a', 'a')]);
-        let expected = uclass(&[('a', 'a')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'a')]);
-        let cls2 = uclass(&[('b', 'b')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'a')]);
-        let cls2 = uclass(&[('a', 'c')]);
-        let expected = uclass(&[('a', 'a')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b')]);
-        let cls2 = uclass(&[('a', 'c')]);
-        let expected = uclass(&[('a', 'b')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b')]);
-        let cls2 = uclass(&[('b', 'c')]);
-        let expected = uclass(&[('b', 'b')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b')]);
-        let cls2 = uclass(&[('c', 'd')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('b', 'c')]);
-        let cls2 = uclass(&[('a', 'd')]);
-        let expected = uclass(&[('b', 'c')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b'), ('d', 'e'), ('g', 'h')]);
-        let cls2 = uclass(&[('a', 'h')]);
-        let expected = uclass(&[('a', 'b'), ('d', 'e'), ('g', 'h')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b'), ('d', 'e'), ('g', 'h')]);
-        let cls2 = uclass(&[('a', 'b'), ('d', 'e'), ('g', 'h')]);
-        let expected = uclass(&[('a', 'b'), ('d', 'e'), ('g', 'h')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b'), ('g', 'h')]);
-        let cls2 = uclass(&[('d', 'e'), ('k', 'l')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b'), ('d', 'e'), ('g', 'h')]);
-        let cls2 = uclass(&[('h', 'h')]);
-        let expected = uclass(&[('h', 'h')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b'), ('e', 'f'), ('i', 'j')]);
-        let cls2 = uclass(&[('c', 'd'), ('g', 'h'), ('k', 'l')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'b'), ('c', 'd'), ('e', 'f')]);
-        let cls2 = uclass(&[('b', 'c'), ('d', 'e'), ('f', 'g')]);
-        let expected = uclass(&[('b', 'f')]);
-        assert_eq!(expected, uintersect(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_intersect_bytes() {
-        let cls1 = bclass(&[]);
-        let cls2 = bclass(&[(b'a', b'a')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'a')]);
-        let cls2 = bclass(&[(b'a', b'a')]);
-        let expected = bclass(&[(b'a', b'a')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'a')]);
-        let cls2 = bclass(&[(b'b', b'b')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'a')]);
-        let cls2 = bclass(&[(b'a', b'c')]);
-        let expected = bclass(&[(b'a', b'a')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b')]);
-        let cls2 = bclass(&[(b'a', b'c')]);
-        let expected = bclass(&[(b'a', b'b')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b')]);
-        let cls2 = bclass(&[(b'b', b'c')]);
-        let expected = bclass(&[(b'b', b'b')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b')]);
-        let cls2 = bclass(&[(b'c', b'd')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'b', b'c')]);
-        let cls2 = bclass(&[(b'a', b'd')]);
-        let expected = bclass(&[(b'b', b'c')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b'), (b'd', b'e'), (b'g', b'h')]);
-        let cls2 = bclass(&[(b'a', b'h')]);
-        let expected = bclass(&[(b'a', b'b'), (b'd', b'e'), (b'g', b'h')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b'), (b'd', b'e'), (b'g', b'h')]);
-        let cls2 = bclass(&[(b'a', b'b'), (b'd', b'e'), (b'g', b'h')]);
-        let expected = bclass(&[(b'a', b'b'), (b'd', b'e'), (b'g', b'h')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b'), (b'g', b'h')]);
-        let cls2 = bclass(&[(b'd', b'e'), (b'k', b'l')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b'), (b'd', b'e'), (b'g', b'h')]);
-        let cls2 = bclass(&[(b'h', b'h')]);
-        let expected = bclass(&[(b'h', b'h')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b'), (b'e', b'f'), (b'i', b'j')]);
-        let cls2 = bclass(&[(b'c', b'd'), (b'g', b'h'), (b'k', b'l')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'b'), (b'c', b'd'), (b'e', b'f')]);
-        let cls2 = bclass(&[(b'b', b'c'), (b'd', b'e'), (b'f', b'g')]);
-        let expected = bclass(&[(b'b', b'f')]);
-        assert_eq!(expected, bintersect(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_difference_unicode() {
-        let cls1 = uclass(&[('a', 'a')]);
-        let cls2 = uclass(&[('a', 'a')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'a')]);
-        let cls2 = uclass(&[]);
-        let expected = uclass(&[('a', 'a')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[]);
-        let cls2 = uclass(&[('a', 'a')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'z')]);
-        let cls2 = uclass(&[('a', 'a')]);
-        let expected = uclass(&[('b', 'z')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'z')]);
-        let cls2 = uclass(&[('z', 'z')]);
-        let expected = uclass(&[('a', 'y')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'z')]);
-        let cls2 = uclass(&[('m', 'm')]);
-        let expected = uclass(&[('a', 'l'), ('n', 'z')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'c'), ('g', 'i'), ('r', 't')]);
-        let cls2 = uclass(&[('a', 'z')]);
-        let expected = uclass(&[]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'c'), ('g', 'i'), ('r', 't')]);
-        let cls2 = uclass(&[('d', 'v')]);
-        let expected = uclass(&[('a', 'c')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'c'), ('g', 'i'), ('r', 't')]);
-        let cls2 = uclass(&[('b', 'g'), ('s', 'u')]);
-        let expected = uclass(&[('a', 'a'), ('h', 'i'), ('r', 'r')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'c'), ('g', 'i'), ('r', 't')]);
-        let cls2 = uclass(&[('b', 'd'), ('e', 'g'), ('s', 'u')]);
-        let expected = uclass(&[('a', 'a'), ('h', 'i'), ('r', 'r')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('x', 'z')]);
-        let cls2 = uclass(&[('a', 'c'), ('e', 'g'), ('s', 'u')]);
-        let expected = uclass(&[('x', 'z')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-
-        let cls1 = uclass(&[('a', 'z')]);
-        let cls2 = uclass(&[('a', 'c'), ('e', 'g'), ('s', 'u')]);
-        let expected = uclass(&[('d', 'd'), ('h', 'r'), ('v', 'z')]);
-        assert_eq!(expected, udifference(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_difference_bytes() {
-        let cls1 = bclass(&[(b'a', b'a')]);
-        let cls2 = bclass(&[(b'a', b'a')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'a')]);
-        let cls2 = bclass(&[]);
-        let expected = bclass(&[(b'a', b'a')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[]);
-        let cls2 = bclass(&[(b'a', b'a')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'z')]);
-        let cls2 = bclass(&[(b'a', b'a')]);
-        let expected = bclass(&[(b'b', b'z')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'z')]);
-        let cls2 = bclass(&[(b'z', b'z')]);
-        let expected = bclass(&[(b'a', b'y')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'z')]);
-        let cls2 = bclass(&[(b'm', b'm')]);
-        let expected = bclass(&[(b'a', b'l'), (b'n', b'z')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'c'), (b'g', b'i'), (b'r', b't')]);
-        let cls2 = bclass(&[(b'a', b'z')]);
-        let expected = bclass(&[]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'c'), (b'g', b'i'), (b'r', b't')]);
-        let cls2 = bclass(&[(b'd', b'v')]);
-        let expected = bclass(&[(b'a', b'c')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'c'), (b'g', b'i'), (b'r', b't')]);
-        let cls2 = bclass(&[(b'b', b'g'), (b's', b'u')]);
-        let expected = bclass(&[(b'a', b'a'), (b'h', b'i'), (b'r', b'r')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'c'), (b'g', b'i'), (b'r', b't')]);
-        let cls2 = bclass(&[(b'b', b'd'), (b'e', b'g'), (b's', b'u')]);
-        let expected = bclass(&[(b'a', b'a'), (b'h', b'i'), (b'r', b'r')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'x', b'z')]);
-        let cls2 = bclass(&[(b'a', b'c'), (b'e', b'g'), (b's', b'u')]);
-        let expected = bclass(&[(b'x', b'z')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-
-        let cls1 = bclass(&[(b'a', b'z')]);
-        let cls2 = bclass(&[(b'a', b'c'), (b'e', b'g'), (b's', b'u')]);
-        let expected = bclass(&[(b'd', b'd'), (b'h', b'r'), (b'v', b'z')]);
-        assert_eq!(expected, bdifference(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_symmetric_difference_unicode() {
-        let cls1 = uclass(&[('a', 'm')]);
-        let cls2 = uclass(&[('g', 't')]);
-        let expected = uclass(&[('a', 'f'), ('n', 't')]);
-        assert_eq!(expected, usymdifference(&cls1, &cls2));
-    }
-
-    #[test]
-    fn class_symmetric_difference_bytes() {
-        let cls1 = bclass(&[(b'a', b'm')]);
-        let cls2 = bclass(&[(b'g', b't')]);
-        let expected = bclass(&[(b'a', b'f'), (b'n', b't')]);
-        assert_eq!(expected, bsymdifference(&cls1, &cls2));
-    }
-
-    #[test]
-    #[should_panic]
-    fn hir_byte_literal_non_ascii() {
-        Hir::literal(Literal::Byte(b'a'));
-    }
-
-    // We use a thread with an explicit stack size to test that our destructor
-    // for Hir can handle arbitrarily sized expressions in constant stack
-    // space. In case we run on a platform without threads (WASM?), we limit
-    // this test to Windows/Unix.
-    #[test]
-    #[cfg(any(unix, windows))]
-    fn no_stack_overflow_on_drop() {
-        use std::thread;
-
-        let run = || {
-            let mut expr = Hir::empty();
-            for _ in 0..100 {
-                expr = Hir::group(Group {
-                    kind: GroupKind::NonCapturing,
-                    hir: Box::new(expr),
-                });
-                expr = Hir::repetition(Repetition {
-                    kind: RepetitionKind::ZeroOrOne,
-                    greedy: true,
-                    hir: Box::new(expr),
-                });
-
-                expr = Hir {
-                    kind: HirKind::Concat(vec![expr]),
-                    info: HirInfo::new(),
-                };
-                expr = Hir {
-                    kind: HirKind::Alternation(vec![expr]),
-                    info: HirInfo::new(),
-                };
-            }
-            assert!(!expr.kind.is_empty());
-        };
-
-        // We run our test on a thread with a small stack size so we can
-        // force the issue more easily.
-        thread::Builder::new()
-            .stack_size(1<<10)
-            .spawn(run)
-            .unwrap()
-            .join()
-            .unwrap();
-    }
-}
-
-
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-
-/*!
-This module provides a regular expression printer for `Hir`.
-*/
-
-use std::fmt;
-
-use hir::{self, Hir, HirKind};
-use hir::visitor::{self, Visitor};
-use is_meta_character;
-
-/// A builder for constructing a printer.
-///
-/// Note that since a printer doesn't have any configuration knobs, this type
-/// remains unexported.
-#[derive(Clone, Debug)]
-struct PrinterBuilder {
-    _priv: (),
-}
-
-impl Default for PrinterBuilder {
-    fn default() -> PrinterBuilder {
-        PrinterBuilder::new()
-    }
-}
-
-impl PrinterBuilder {
-    fn new() -> PrinterBuilder {
-        PrinterBuilder {
-            _priv: (),
-        }
-    }
-
-    fn build(&self) -> Printer {
-        Printer {
-            _priv: (),
-        }
-    }
-}
-
-/// A printer for a regular expression's high-level intermediate
-/// representation.
-///
-/// A printer converts a high-level intermediate representation (HIR) to a
-/// regular expression pattern string. This particular printer uses constant
-/// stack space and heap space proportional to the size of the HIR.
-///
-/// Since this printer is only using the HIR, the pattern it prints will likely
-/// not resemble the original pattern at all. For example, a pattern like
-/// `\pL` will have its entire class written out.
-///
-/// The purpose of this printer is to provide a means to mutate an HIR and then
-/// build a regular expression from the result of that mutation. (A regex
-/// library could provide a constructor from this HIR explicitly, but that
-/// creates an unnecessary public coupling between the regex library and this
-/// specific HIR representation.)
-#[derive(Debug)]
-pub struct Printer {
-    _priv: (),
-}
-
-impl Printer {
-    /// Create a new printer.
-    pub fn new() -> Printer {
-        PrinterBuilder::new().build()
-    }
-
-    /// Print the given `Ast` to the given writer. The writer must implement
-    /// `fmt::Write`. Typical implementations of `fmt::Write` that can be used
-    /// here are a `fmt::Formatter` (which is available in `fmt::Display`
-    /// implementations) or a `&mut String`.
-    pub fn print<W: fmt::Write>(&mut self, hir: &Hir, wtr: W) -> fmt::Result {
-        visitor::visit(hir, Writer { printer: self, wtr: wtr })
-    }
-}
-
-#[derive(Debug)]
-struct Writer<'p, W> {
-    printer: &'p mut Printer,
-    wtr: W,
-}
-
-impl<'p, W: fmt::Write> Visitor for Writer<'p, W> {
-    type Output = ();
-    type Err = fmt::Error;
-
-    fn finish(self) -> fmt::Result {
-        Ok(())
-    }
-
-    fn visit_pre(&mut self, hir: &Hir) -> fmt::Result {
-        match *hir.kind() {
-            HirKind::Empty
-            | HirKind::Repetition(_)
-            | HirKind::Concat(_)
-            | HirKind::Alternation(_) => {}
-            HirKind::Literal(hir::Literal::Unicode(c)) => {
-                self.write_literal_char(c)?;
-            }
-            HirKind::Literal(hir::Literal::Byte(b)) => {
-                self.write_literal_byte(b)?;
-            }
-            HirKind::Class(hir::Class::Unicode(ref cls)) => {
-                self.wtr.write_str("[")?;
-                for range in cls.iter() {
-                    if range.start() == range.end() {
-                        self.write_literal_char(range.start())?;
-                    } else {
-                        self.write_literal_char(range.start())?;
-                        self.wtr.write_str("-")?;
-                        self.write_literal_char(range.end())?;
-                    }
-                }
-                self.wtr.write_str("]")?;
-            }
-            HirKind::Class(hir::Class::Bytes(ref cls)) => {
-                self.wtr.write_str("(?-u:[")?;
-                for range in cls.iter() {
-                    if range.start() == range.end() {
-                        self.write_literal_class_byte(range.start())?;
-                    } else {
-                        self.write_literal_class_byte(range.start())?;
-                        self.wtr.write_str("-")?;
-                        self.write_literal_class_byte(range.end())?;
-                    }
-                }
-                self.wtr.write_str("])")?;
-            }
-            HirKind::Anchor(hir::Anchor::StartLine) => {
-                self.wtr.write_str("(?m:^)")?;
-            }
-            HirKind::Anchor(hir::Anchor::EndLine) => {
-                self.wtr.write_str("(?m:$)")?;
-            }
-            HirKind::Anchor(hir::Anchor::StartText) => {
-                self.wtr.write_str(r"\A")?;
-            }
-            HirKind::Anchor(hir::Anchor::EndText) => {
-                self.wtr.write_str(r"\z")?;
-            }
-            HirKind::WordBoundary(hir::WordBoundary::Unicode) => {
-                self.wtr.write_str(r"\b")?;
-            }
-            HirKind::WordBoundary(hir::WordBoundary::UnicodeNegate) => {
-                self.wtr.write_str(r"\B")?;
-            }
-            HirKind::WordBoundary(hir::WordBoundary::Ascii) => {
-                self.wtr.write_str(r"(?-u:\b)")?;
-            }
-            HirKind::WordBoundary(hir::WordBoundary::AsciiNegate) => {
-                self.wtr.write_str(r"(?-u:\B)")?;
-            }
-            HirKind::Group(ref x) => {
-                match x.kind {
-                    hir::GroupKind::CaptureIndex(_) => {
-                        self.wtr.write_str("(")?;
-                    }
-                    hir::GroupKind::CaptureName { ref name, .. } => {
-                        write!(self.wtr, "(?P<{}>", name)?;
-                    }
-                    hir::GroupKind::NonCapturing => {
-                        self.wtr.write_str("(?:")?;
-                    }
-                }
-            }
-        }
-        Ok(())
-    }
-
-    fn visit_post(&mut self, hir: &Hir) -> fmt::Result {
-        match *hir.kind() {
-            // Handled during visit_pre
-            HirKind::Empty
-            | HirKind::Literal(_)
-            | HirKind::Class(_)
-            | HirKind::Anchor(_)
-            | HirKind::WordBoundary(_)
-            | HirKind::Concat(_)
-            | HirKind::Alternation(_) => {}
-            HirKind::Repetition(ref x) => {
-                match x.kind {
-                    hir::RepetitionKind::ZeroOrOne => {
-                        self.wtr.write_str("?")?;
-                    }
-                    hir::RepetitionKind::ZeroOrMore => {
-                        self.wtr.write_str("*")?;
-                    }
-                    hir::RepetitionKind::OneOrMore => {
-                        self.wtr.write_str("+")?;
-                    }
-                    hir::RepetitionKind::Range(ref x) => {
-                        match *x {
-                            hir::RepetitionRange::Exactly(m) => {
-                                write!(self.wtr, "{{{}}}", m)?;
-                            }
-                            hir::RepetitionRange::AtLeast(m) => {
-                                write!(self.wtr, "{{{},}}", m)?;
-                            }
-                            hir::RepetitionRange::Bounded(m, n) => {
-                                write!(self.wtr, "{{{},{}}}", m, n)?;
-                            }
-                        }
-                    }
-                }
-                if !x.greedy {
-                    self.wtr.write_str("?")?;
-                }
-            }
-            HirKind::Group(_) => {
-                self.wtr.write_str(")")?;
-            }
-        }
-        Ok(())
-    }
-
-    fn visit_alternation_in(&mut self) -> fmt::Result {
-        self.wtr.write_str("|")
-    }
-}
-
-impl<'p, W: fmt::Write> Writer<'p, W> {
-    fn write_literal_char(&mut self, c: char) -> fmt::Result {
-        if is_meta_character(c) {
-            self.wtr.write_str("\\")?;
-        }
-        self.wtr.write_char(c)
-    }
-
-    fn write_literal_byte(&mut self, b: u8) -> fmt::Result {
-        let c = b as char;
-        if c <= 0x7F as char && !c.is_control() && !c.is_whitespace() {
-            self.write_literal_char(c)
-        } else {
-            write!(self.wtr, "(?-u:\\x{:02X})", b)
-        }
-    }
-
-    fn write_literal_class_byte(&mut self, b: u8) -> fmt::Result {
-        let c = b as char;
-        if c <= 0x7F as char && !c.is_control() && !c.is_whitespace() {
-            self.write_literal_char(c)
-        } else {
-            write!(self.wtr, "\\x{:02X}", b)
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use ParserBuilder;
-    use super::Printer;
-
-    fn roundtrip(given: &str, expected: &str) {
-        roundtrip_with(|b| b, given, expected);
-    }
-
-    fn roundtrip_bytes(given: &str, expected: &str) {
-        roundtrip_with(|b| b.allow_invalid_utf8(true), given, expected);
-    }
-
-    fn roundtrip_with<F>(mut f: F, given: &str, expected: &str)
-    where F: FnMut(&mut ParserBuilder) -> &mut ParserBuilder
-    {
-        let mut builder = ParserBuilder::new();
-        f(&mut builder);
-        let hir = builder.build().parse(given).unwrap();
-
-        let mut printer = Printer::new();
-        let mut dst = String::new();
-        printer.print(&hir, &mut dst).unwrap();
-
-        // Check that the result is actually valid.
-        builder.build().parse(&dst).unwrap();
-
-        assert_eq!(expected, dst);
-    }
-
-    #[test]
-    fn print_literal() {
-        roundtrip("a", "a");
-        roundtrip(r"\xff", "\u{FF}");
-        roundtrip_bytes(r"\xff", "\u{FF}");
-        roundtrip_bytes(r"(?-u)\xff", r"(?-u:\xFF)");
-        roundtrip("☃", "☃");
-    }
-
-    #[test]
-    fn print_class() {
-        roundtrip(r"[a]", r"[a]");
-        roundtrip(r"[a-z]", r"[a-z]");
-        roundtrip(r"[a-z--b-c--x-y]", r"[ad-wz]");
-        roundtrip(r"[^\x01-\u{10FFFF}]", "[\u{0}]");
-        roundtrip(r"[-]", r"[\-]");
-        roundtrip(r"[☃-⛄]", r"[☃-⛄]");
-
-        roundtrip(r"(?-u)[a]", r"(?-u:[a])");
-        roundtrip(r"(?-u)[a-z]", r"(?-u:[a-z])");
-        roundtrip_bytes(r"(?-u)[a-\xFF]", r"(?-u:[a-\xFF])");
-
-        // The following test that the printer escapes meta characters
-        // in character classes.
-        roundtrip(r"[\[]", r"[\[]");
-        roundtrip(r"[Z-_]", r"[Z-_]");
-        roundtrip(r"[Z-_--Z]", r"[\[-_]");
-
-        // The following test that the printer escapes meta characters
-        // in byte oriented character classes.
-        roundtrip_bytes(r"(?-u)[\[]", r"(?-u:[\[])");
-        roundtrip_bytes(r"(?-u)[Z-_]", r"(?-u:[Z-_])");
-        roundtrip_bytes(r"(?-u)[Z-_--Z]", r"(?-u:[\[-_])");
-    }
-
-    #[test]
-    fn print_anchor() {
-        roundtrip(r"^", r"\A");
-        roundtrip(r"$", r"\z");
-        roundtrip(r"(?m)^", r"(?m:^)");
-        roundtrip(r"(?m)$", r"(?m:$)");
-    }
-
-    #[test]
-    fn print_word_boundary() {
-        roundtrip(r"\b", r"\b");
-        roundtrip(r"\B", r"\B");
-        roundtrip(r"(?-u)\b", r"(?-u:\b)");
-        roundtrip_bytes(r"(?-u)\B", r"(?-u:\B)");
-    }
-
-    #[test]
-    fn print_repetition() {
-        roundtrip("a?", "a?");
-        roundtrip("a??", "a??");
-        roundtrip("(?U)a?", "a??");
-
-        roundtrip("a*", "a*");
-        roundtrip("a*?", "a*?");
-        roundtrip("(?U)a*", "a*?");
-
-        roundtrip("a+", "a+");
-        roundtrip("a+?", "a+?");
-        roundtrip("(?U)a+", "a+?");
-
-        roundtrip("a{1}", "a{1}");
-        roundtrip("a{1,}", "a{1,}");
-        roundtrip("a{1,5}", "a{1,5}");
-        roundtrip("a{1}?", "a{1}?");
-        roundtrip("a{1,}?", "a{1,}?");
-        roundtrip("a{1,5}?", "a{1,5}?");
-        roundtrip("(?U)a{1}", "a{1}?");
-        roundtrip("(?U)a{1,}", "a{1,}?");
-        roundtrip("(?U)a{1,5}", "a{1,5}?");
-    }
-
-    #[test]
-    fn print_group() {
-        roundtrip("()", "()");
-        roundtrip("(?P<foo>)", "(?P<foo>)");
-        roundtrip("(?:)", "(?:)");
-
-        roundtrip("(a)", "(a)");
-        roundtrip("(?P<foo>a)", "(?P<foo>a)");
-        roundtrip("(?:a)", "(?:a)");
-
-        roundtrip("((((a))))", "((((a))))");
-    }
-
-    #[test]
-    fn print_alternation() {
-        roundtrip("|", "|");
-        roundtrip("||", "||");
-
-        roundtrip("a|b", "a|b");
-        roundtrip("a|b|c", "a|b|c");
-        roundtrip("foo|bar|quux", "foo|bar|quux");
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/hir/translate.rs.html b/target/doc/src/regex_syntax/hir/translate.rs.html deleted file mode 100644 index a0916aa..0000000 --- a/target/doc/src/regex_syntax/hir/translate.rs.html +++ /dev/null @@ -1,5295 +0,0 @@ -translate.rs.html -- source
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-Defines a translator that converts an `Ast` to an `Hir`.
-*/
-
-use std::cell::{Cell, RefCell};
-use std::result;
-
-use ast::{self, Ast, Span, Visitor};
-use hir::{self, Error, ErrorKind, Hir};
-use unicode::{self, ClassQuery};
-
-type Result<T> = result::Result<T, Error>;
-
-/// A builder for constructing an AST->HIR translator.
-#[derive(Clone, Debug)]
-pub struct TranslatorBuilder {
-    allow_invalid_utf8: bool,
-    flags: Flags,
-}
-
-impl Default for TranslatorBuilder {
-    fn default() -> TranslatorBuilder {
-        TranslatorBuilder::new()
-    }
-}
-
-impl TranslatorBuilder {
-    /// Create a new translator builder with a default c onfiguration.
-    pub fn new() -> TranslatorBuilder {
-        TranslatorBuilder {
-            allow_invalid_utf8: false,
-            flags: Flags::default(),
-        }
-    }
-
-    /// Build a translator using the current configuration.
-    pub fn build(&self) -> Translator {
-        Translator {
-            stack: RefCell::new(vec![]),
-            flags: Cell::new(self.flags),
-            allow_invalid_utf8: self.allow_invalid_utf8,
-        }
-    }
-
-    /// When enabled, translation will permit the construction of a regular
-    /// expression that may match invalid UTF-8.
-    ///
-    /// When disabled (the default), the translator is guaranteed to produce
-    /// an expression that will only ever match valid UTF-8 (otherwise, the
-    /// translator will return an error).
-    ///
-    /// Perhaps surprisingly, when invalid UTF-8 isn't allowed, a negated ASCII
-    /// word boundary (uttered as `(?-u:\B)` in the concrete syntax) will cause
-    /// the parser to return an error. Namely, a negated ASCII word boundary
-    /// can result in matching positions that aren't valid UTF-8 boundaries.
-    pub fn allow_invalid_utf8(
-        &mut self,
-        yes: bool,
-    ) -> &mut TranslatorBuilder {
-        self.allow_invalid_utf8 = yes;
-        self
-    }
-
-    /// Enable or disable the case insensitive flag (`i`) by default.
-    pub fn case_insensitive(&mut self, yes: bool) -> &mut TranslatorBuilder {
-        self.flags.case_insensitive = if yes { Some(true) } else { None };
-        self
-    }
-
-    /// Enable or disable the multi-line matching flag (`m`) by default.
-    pub fn multi_line(&mut self, yes: bool) -> &mut TranslatorBuilder {
-        self.flags.multi_line = if yes { Some(true) } else { None };
-        self
-    }
-
-    /// Enable or disable the "dot matches any character" flag (`s`) by
-    /// default.
-    pub fn dot_matches_new_line(
-        &mut self,
-        yes: bool,
-    ) -> &mut TranslatorBuilder {
-        self.flags.dot_matches_new_line = if yes { Some(true) } else { None };
-        self
-    }
-
-    /// Enable or disable the "swap greed" flag (`U`) by default.
-    pub fn swap_greed(&mut self, yes: bool) -> &mut TranslatorBuilder {
-        self.flags.swap_greed = if yes { Some(true) } else { None };
-        self
-    }
-
-    /// Enable or disable the Unicode flag (`u`) by default.
-    pub fn unicode(&mut self, yes: bool) -> &mut TranslatorBuilder {
-        self.flags.unicode = if yes { None } else { Some(false) };
-        self
-    }
-}
-
-/// A translator maps abstract syntax to a high level intermediate
-/// representation.
-///
-/// A translator may be benefit from reuse. That is, a translator can translate
-/// many abstract syntax trees.
-///
-/// A `Translator` can be configured in more detail via a
-/// [`TranslatorBuilder`](struct.TranslatorBuilder.html).
-#[derive(Clone, Debug)]
-pub struct Translator {
-    /// Our call stack, but on the heap.
-    stack: RefCell<Vec<HirFrame>>,
-    /// The current flag settings.
-    flags: Cell<Flags>,
-    /// Whether we're allowed to produce HIR that can match arbitrary bytes.
-    allow_invalid_utf8: bool,
-}
-
-impl Translator {
-    /// Create a new translator using the default configuration.
-    pub fn new() -> Translator {
-        TranslatorBuilder::new().build()
-    }
-
-    /// Translate the given abstract syntax tree (AST) into a high level
-    /// intermediate representation (HIR).
-    ///
-    /// If there was a problem doing the translation, then an HIR-specific
-    /// error is returned.
-    ///
-    /// The original pattern string used to produce the `Ast` *must* also be
-    /// provided. The translator does not use the pattern string during any
-    /// correct translation, but is used for error reporting.
-    pub fn translate(&mut self, pattern: &str, ast: &Ast) -> Result<Hir> {
-        ast::visit(ast, TranslatorI::new(self, pattern))
-    }
-}
-
-/// An HirFrame is a single stack frame, represented explicitly, which is
-/// created for each item in the Ast that we traverse.
-///
-/// Note that technically, this type doesn't represent our entire stack
-/// frame. In particular, the Ast visitor represents any state associated with
-/// traversing the Ast itself.
-#[derive(Clone, Debug)]
-enum HirFrame {
-    /// An arbitrary HIR expression. These get pushed whenever we hit a base
-    /// case in the Ast. They get popped after an inductive (i.e., recursive)
-    /// step is complete.
-    Expr(Hir),
-    /// A Unicode character class. This frame is mutated as we descend into
-    /// the Ast of a character class (which is itself its own mini recursive
-    /// structure).
-    ClassUnicode(hir::ClassUnicode),
-    /// A byte-oriented character class. This frame is mutated as we descend
-    /// into the Ast of a character class (which is itself its own mini
-    /// recursive structure).
-    ///
-    /// Byte character classes are created when Unicode mode (`u`) is disabled.
-    /// If `allow_invalid_utf8` is disabled (the default), then a byte
-    /// character is only permitted to match ASCII text.
-    ClassBytes(hir::ClassBytes),
-    /// This is pushed on to the stack upon first seeing any kind of group,
-    /// indicated by parentheses (including non-capturing groups). It is popped
-    /// upon leaving a group.
-    Group {
-        /// The old active flags, if any, when this group was opened.
-        ///
-        /// If this group sets flags, then the new active flags are set to the
-        /// result of merging the old flags with the flags introduced by this
-        /// group.
-        ///
-        /// When this group is popped, the active flags should be restored to
-        /// the flags set here.
-        ///
-        /// The "active" flags correspond to whatever flags are set in the
-        /// Translator.
-        old_flags: Option<Flags>,
-    },
-    /// This is pushed whenever a concatenation is observed. After visiting
-    /// every sub-expression in the concatenation, the translator's stack is
-    /// popped until it sees a Concat frame.
-    Concat,
-    /// This is pushed whenever an alternation is observed. After visiting
-    /// every sub-expression in the alternation, the translator's stack is
-    /// popped until it sees an Alternation frame.
-    Alternation,
-}
-
-impl HirFrame {
-    /// Assert that the current stack frame is an Hir expression and return it.
-    fn unwrap_expr(self) -> Hir {
-        match self {
-            HirFrame::Expr(expr) => expr,
-            _ => panic!("tried to unwrap expr from HirFrame, got: {:?}", self)
-        }
-    }
-
-    /// Assert that the current stack frame is a Unicode class expression and
-    /// return it.
-    fn unwrap_class_unicode(self) -> hir::ClassUnicode {
-        match self {
-            HirFrame::ClassUnicode(cls) => cls,
-            _ => panic!("tried to unwrap Unicode class \
-                         from HirFrame, got: {:?}", self)
-        }
-    }
-
-    /// Assert that the current stack frame is a byte class expression and
-    /// return it.
-    fn unwrap_class_bytes(self) -> hir::ClassBytes {
-        match self {
-            HirFrame::ClassBytes(cls) => cls,
-            _ => panic!("tried to unwrap byte class \
-                         from HirFrame, got: {:?}", self)
-        }
-    }
-
-    /// Assert that the current stack frame is a group indicator and return
-    /// its corresponding flags (the flags that were active at the time the
-    /// group was entered) if they exist.
-    fn unwrap_group(self) -> Option<Flags> {
-        match self {
-            HirFrame::Group { old_flags } => old_flags,
-            _ => panic!("tried to unwrap group from HirFrame, got: {:?}", self)
-        }
-    }
-}
-
-impl<'t, 'p> Visitor for TranslatorI<'t, 'p> {
-    type Output = Hir;
-    type Err = Error;
-
-    fn finish(self) -> Result<Hir> {
-        // ... otherwise, we should have exactly one HIR on the stack.
-        assert_eq!(self.trans().stack.borrow().len(), 1);
-        Ok(self.pop().unwrap().unwrap_expr())
-    }
-
-    fn visit_pre(&mut self, ast: &Ast) -> Result<()> {
-        match *ast {
-            Ast::Class(ast::Class::Bracketed(_)) => {
-                if self.flags().unicode() {
-                    let cls = hir::ClassUnicode::empty();
-                    self.push(HirFrame::ClassUnicode(cls));
-                } else {
-                    let cls = hir::ClassBytes::empty();
-                    self.push(HirFrame::ClassBytes(cls));
-                }
-            }
-            Ast::Group(ref x) => {
-                let old_flags = x.flags().map(|ast| self.set_flags(ast));
-                self.push(HirFrame::Group {
-                    old_flags: old_flags,
-                });
-            }
-            Ast::Concat(ref x) if x.asts.is_empty() => {}
-            Ast::Concat(_) => {
-                self.push(HirFrame::Concat);
-            }
-            Ast::Alternation(ref x) if x.asts.is_empty() => {}
-            Ast::Alternation(_) => {
-                self.push(HirFrame::Alternation);
-            }
-            _ => {}
-        }
-        Ok(())
-    }
-
-    fn visit_post(&mut self, ast: &Ast) -> Result<()> {
-        match *ast {
-            Ast::Empty(_) => {
-                self.push(HirFrame::Expr(Hir::empty()));
-            }
-            Ast::Flags(ref x) => {
-                self.set_flags(&x.flags);
-                // Flags in the AST are generally considered directives and
-                // not actual sub-expressions. However, they can be used in
-                // the concrete syntax like `((?i))`, and we need some kind of
-                // indication of an expression there, and Empty is the correct
-                // choice.
-                //
-                // There can also be things like `(?i)+`, but we rule those out
-                // in the parser. In the future, we might allow them for
-                // consistency sake.
-                self.push(HirFrame::Expr(Hir::empty()));
-            }
-            Ast::Literal(ref x) => {
-                self.push(HirFrame::Expr(self.hir_literal(x)?));
-            }
-            Ast::Dot(span) => {
-                self.push(HirFrame::Expr(self.hir_dot(span)?));
-            }
-            Ast::Assertion(ref x) => {
-                self.push(HirFrame::Expr(self.hir_assertion(x)?));
-            }
-            Ast::Class(ast::Class::Perl(ref x)) => {
-                if self.flags().unicode() {
-                    let cls = self.hir_perl_unicode_class(x);
-                    let hcls = hir::Class::Unicode(cls);
-                    self.push(HirFrame::Expr(Hir::class(hcls)));
-                } else {
-                    let cls = self.hir_perl_byte_class(x);
-                    let hcls = hir::Class::Bytes(cls);
-                    self.push(HirFrame::Expr(Hir::class(hcls)));
-                }
-            }
-            Ast::Class(ast::Class::Unicode(ref x)) => {
-                let cls = hir::Class::Unicode(self.hir_unicode_class(x)?);
-                self.push(HirFrame::Expr(Hir::class(cls)));
-            }
-            Ast::Class(ast::Class::Bracketed(ref ast)) => {
-                if self.flags().unicode() {
-                    let mut cls = self.pop().unwrap().unwrap_class_unicode();
-                    self.unicode_fold_and_negate(ast.negated, &mut cls);
-                    if cls.iter().next().is_none() {
-                        return Err(self.error(
-                            ast.span, ErrorKind::EmptyClassNotAllowed));
-                    }
-                    let expr = Hir::class(hir::Class::Unicode(cls));
-                    self.push(HirFrame::Expr(expr));
-                } else {
-                    let mut cls = self.pop().unwrap().unwrap_class_bytes();
-                    self.bytes_fold_and_negate(
-                        &ast.span, ast.negated, &mut cls)?;
-                    if cls.iter().next().is_none() {
-                        return Err(self.error(
-                            ast.span, ErrorKind::EmptyClassNotAllowed));
-                    }
-
-                    let expr = Hir::class(hir::Class::Bytes(cls));
-                    self.push(HirFrame::Expr(expr));
-                }
-            }
-            Ast::Repetition(ref x) => {
-                let expr = self.pop().unwrap().unwrap_expr();
-                self.push(HirFrame::Expr(self.hir_repetition(x, expr)));
-            }
-            Ast::Group(ref x) => {
-                let expr = self.pop().unwrap().unwrap_expr();
-                if let Some(flags) = self.pop().unwrap().unwrap_group() {
-                    self.trans().flags.set(flags);
-                }
-                self.push(HirFrame::Expr(self.hir_group(x, expr)));
-            }
-            Ast::Concat(_) => {
-                let mut exprs = vec![];
-                while let Some(HirFrame::Expr(expr)) = self.pop() {
-                    if !expr.kind().is_empty() {
-                        exprs.push(expr);
-                    }
-                }
-                exprs.reverse();
-                self.push(HirFrame::Expr(Hir::concat(exprs)));
-            }
-            Ast::Alternation(_) => {
-                let mut exprs = vec![];
-                while let Some(HirFrame::Expr(expr)) = self.pop() {
-                    exprs.push(expr);
-                }
-                exprs.reverse();
-                self.push(HirFrame::Expr(Hir::alternation(exprs)));
-            }
-        }
-        Ok(())
-    }
-
-    fn visit_class_set_item_pre(
-        &mut self,
-        ast: &ast::ClassSetItem,
-    ) -> Result<()> {
-        match *ast {
-            ast::ClassSetItem::Bracketed(_) => {
-                if self.flags().unicode() {
-                    let cls = hir::ClassUnicode::empty();
-                    self.push(HirFrame::ClassUnicode(cls));
-                } else {
-                    let cls = hir::ClassBytes::empty();
-                    self.push(HirFrame::ClassBytes(cls));
-                }
-            }
-            // We needn't handle the Union case here since the visitor will
-            // do it for us.
-            _ => {}
-        }
-        Ok(())
-    }
-
-    fn visit_class_set_item_post(
-        &mut self,
-        ast: &ast::ClassSetItem,
-    ) -> Result<()> {
-        match *ast {
-            ast::ClassSetItem::Empty(_) => {}
-            ast::ClassSetItem::Literal(ref x) => {
-                if self.flags().unicode() {
-                    let mut cls = self.pop().unwrap().unwrap_class_unicode();
-                    cls.push(hir::ClassUnicodeRange::new(x.c, x.c));
-                    self.push(HirFrame::ClassUnicode(cls));
-                } else {
-                    let mut cls = self.pop().unwrap().unwrap_class_bytes();
-                    let byte = self.class_literal_byte(x)?;
-                    cls.push(hir::ClassBytesRange::new(byte, byte));
-                    self.push(HirFrame::ClassBytes(cls));
-                }
-            }
-            ast::ClassSetItem::Range(ref x) => {
-                if self.flags().unicode() {
-                    let mut cls = self.pop().unwrap().unwrap_class_unicode();
-                    cls.push(hir::ClassUnicodeRange::new(x.start.c, x.end.c));
-                    self.push(HirFrame::ClassUnicode(cls));
-                } else {
-                    let mut cls = self.pop().unwrap().unwrap_class_bytes();
-                    let start = self.class_literal_byte(&x.start)?;
-                    let end = self.class_literal_byte(&x.end)?;
-                    cls.push(hir::ClassBytesRange::new(start, end));
-                    self.push(HirFrame::ClassBytes(cls));
-                }
-            }
-            ast::ClassSetItem::Ascii(ref x) => {
-                if self.flags().unicode() {
-                    let mut cls = self.pop().unwrap().unwrap_class_unicode();
-                    for &(s, e) in ascii_class(&x.kind) {
-                        cls.push(hir::ClassUnicodeRange::new(s, e));
-                    }
-                    self.unicode_fold_and_negate(x.negated, &mut cls);
-                    self.push(HirFrame::ClassUnicode(cls));
-                } else {
-                    let mut cls = self.pop().unwrap().unwrap_class_bytes();
-                    for &(s, e) in ascii_class(&x.kind) {
-                        cls.push(hir::ClassBytesRange::new(s as u8, e as u8));
-                    }
-                    self.bytes_fold_and_negate(
-                        &x.span, x.negated, &mut cls)?;
-                    self.push(HirFrame::ClassBytes(cls));
-                }
-            }
-            ast::ClassSetItem::Unicode(ref x) => {
-                let xcls = self.hir_unicode_class(x)?;
-                let mut cls = self.pop().unwrap().unwrap_class_unicode();
-                cls.union(&xcls);
-                self.push(HirFrame::ClassUnicode(cls));
-            }
-            ast::ClassSetItem::Perl(ref x) => {
-                if self.flags().unicode() {
-                    let xcls = self.hir_perl_unicode_class(x);
-                    let mut cls = self.pop().unwrap().unwrap_class_unicode();
-                    cls.union(&xcls);
-                    self.push(HirFrame::ClassUnicode(cls));
-                } else {
-                    let xcls = self.hir_perl_byte_class(x);
-                    let mut cls = self.pop().unwrap().unwrap_class_bytes();
-                    cls.union(&xcls);
-                    self.push(HirFrame::ClassBytes(cls));
-                }
-            }
-            ast::ClassSetItem::Bracketed(ref ast) => {
-                if self.flags().unicode() {
-                    let mut cls1 = self.pop().unwrap().unwrap_class_unicode();
-                    self.unicode_fold_and_negate(ast.negated, &mut cls1);
-
-                    let mut cls2 = self.pop().unwrap().unwrap_class_unicode();
-                    cls2.union(&cls1);
-                    self.push(HirFrame::ClassUnicode(cls2));
-                } else {
-                    let mut cls1 = self.pop().unwrap().unwrap_class_bytes();
-                    self.bytes_fold_and_negate(
-                        &ast.span, ast.negated, &mut cls1)?;
-
-                    let mut cls2 = self.pop().unwrap().unwrap_class_bytes();
-                    cls2.union(&cls1);
-                    self.push(HirFrame::ClassBytes(cls2));
-                }
-            }
-            // This is handled automatically by the visitor.
-            ast::ClassSetItem::Union(_) => {}
-        }
-        Ok(())
-    }
-
-    fn visit_class_set_binary_op_pre(
-        &mut self,
-        _op: &ast::ClassSetBinaryOp,
-    ) -> Result<()> {
-        if self.flags().unicode() {
-            let cls = hir::ClassUnicode::empty();
-            self.push(HirFrame::ClassUnicode(cls));
-        } else {
-            let cls = hir::ClassBytes::empty();
-            self.push(HirFrame::ClassBytes(cls));
-        }
-        Ok(())
-    }
-
-    fn visit_class_set_binary_op_in(
-        &mut self,
-        _op: &ast::ClassSetBinaryOp,
-    ) -> Result<()> {
-        if self.flags().unicode() {
-            let cls = hir::ClassUnicode::empty();
-            self.push(HirFrame::ClassUnicode(cls));
-        } else {
-            let cls = hir::ClassBytes::empty();
-            self.push(HirFrame::ClassBytes(cls));
-        }
-        Ok(())
-    }
-
-    fn visit_class_set_binary_op_post(
-        &mut self,
-        op: &ast::ClassSetBinaryOp,
-    ) -> Result<()> {
-        use ast::ClassSetBinaryOpKind::*;
-
-        if self.flags().unicode() {
-            let mut rhs = self.pop().unwrap().unwrap_class_unicode();
-            let mut lhs = self.pop().unwrap().unwrap_class_unicode();
-            let mut cls = self.pop().unwrap().unwrap_class_unicode();
-            if self.flags().case_insensitive() {
-                rhs.case_fold_simple();
-                lhs.case_fold_simple();
-            }
-            match op.kind {
-                Intersection => lhs.intersect(&rhs),
-                Difference => lhs.difference(&rhs),
-                SymmetricDifference => lhs.symmetric_difference(&rhs),
-            }
-            cls.union(&lhs);
-            self.push(HirFrame::ClassUnicode(cls));
-        } else {
-            let mut rhs = self.pop().unwrap().unwrap_class_bytes();
-            let mut lhs = self.pop().unwrap().unwrap_class_bytes();
-            let mut cls = self.pop().unwrap().unwrap_class_bytes();
-            if self.flags().case_insensitive() {
-                rhs.case_fold_simple();
-                lhs.case_fold_simple();
-            }
-            match op.kind {
-                Intersection => lhs.intersect(&rhs),
-                Difference => lhs.difference(&rhs),
-                SymmetricDifference => lhs.symmetric_difference(&rhs),
-            }
-            cls.union(&lhs);
-            self.push(HirFrame::ClassBytes(cls));
-        }
-        Ok(())
-    }
-}
-
-/// The internal implementation of a translator.
-///
-/// This type is responsible for carrying around the original pattern string,
-/// which is not tied to the internal state of a translator.
-///
-/// A TranslatorI exists for the time it takes to translate a single Ast.
-#[derive(Clone, Debug)]
-struct TranslatorI<'t, 'p> {
-    trans: &'t Translator,
-    pattern: &'p str,
-}
-
-impl<'t, 'p> TranslatorI<'t, 'p> {
-    /// Build a new internal translator.
-    fn new(trans: &'t Translator, pattern: &'p str) -> TranslatorI<'t, 'p> {
-        TranslatorI { trans: trans, pattern: pattern }
-    }
-
-    /// Return a reference to the underlying translator.
-    fn trans(&self) -> &Translator {
-        &self.trans
-    }
-
-    /// Push the given frame on to the call stack.
-    fn push(&self, frame: HirFrame) {
-        self.trans().stack.borrow_mut().push(frame);
-    }
-
-    /// Pop the top of the call stack. If the call stack is empty, return None.
-    fn pop(&self) -> Option<HirFrame> {
-        self.trans().stack.borrow_mut().pop()
-    }
-
-    /// Create a new error with the given span and error type.
-    fn error(&self, span: Span, kind: ErrorKind) -> Error {
-        Error { kind: kind, pattern: self.pattern.to_string(), span: span }
-    }
-
-    /// Return a copy of the active flags.
-    fn flags(&self) -> Flags {
-        self.trans().flags.get()
-    }
-
-    /// Set the flags of this translator from the flags set in the given AST.
-    /// Then, return the old flags.
-    fn set_flags(&self, ast_flags: &ast::Flags) -> Flags {
-        let old_flags = self.flags();
-        let mut new_flags = Flags::from_ast(ast_flags);
-        new_flags.merge(&old_flags);
-        self.trans().flags.set(new_flags);
-        old_flags
-    }
-
-    fn hir_literal(&self, lit: &ast::Literal) -> Result<Hir> {
-        let ch = match self.literal_to_char(lit)? {
-            byte @ hir::Literal::Byte(_) => return Ok(Hir::literal(byte)),
-            hir::Literal::Unicode(ch) => ch,
-        };
-        if self.flags().case_insensitive() {
-            self.hir_from_char_case_insensitive(lit.span, ch)
-        } else {
-            self.hir_from_char(lit.span, ch)
-        }
-    }
-
-    /// Convert an Ast literal to its scalar representation.
-    ///
-    /// When Unicode mode is enabled, then this always succeeds and returns a
-    /// `char` (Unicode scalar value).
-    ///
-    /// When Unicode mode is disabled, then a raw byte is returned. If that
-    /// byte is not ASCII and invalid UTF-8 is not allowed, then this returns
-    /// an error.
-    fn literal_to_char(&self, lit: &ast::Literal) -> Result<hir::Literal> {
-        if self.flags().unicode() {
-            return Ok(hir::Literal::Unicode(lit.c));
-        }
-        let byte = match lit.byte() {
-            None => return Ok(hir::Literal::Unicode(lit.c)),
-            Some(byte) => byte,
-        };
-        if byte <= 0x7F {
-            return Ok(hir::Literal::Unicode(byte as char));
-        }
-        if !self.trans().allow_invalid_utf8 {
-            return Err(self.error(lit.span, ErrorKind::InvalidUtf8));
-        }
-        Ok(hir::Literal::Byte(byte))
-    }
-
-    fn hir_from_char(&self, span: Span, c: char) -> Result<Hir> {
-        if !self.flags().unicode() && c.len_utf8() > 1 {
-            return Err(self.error(span, ErrorKind::UnicodeNotAllowed));
-        }
-        Ok(Hir::literal(hir::Literal::Unicode(c)))
-    }
-
-    fn hir_from_char_case_insensitive(
-        &self,
-        span: Span,
-        c: char,
-    ) -> Result<Hir> {
-        // If case folding won't do anything, then don't bother trying.
-        if !unicode::contains_simple_case_mapping(c, c) {
-            return self.hir_from_char(span, c);
-        }
-        if self.flags().unicode() {
-            let mut cls = hir::ClassUnicode::new(vec![
-                hir::ClassUnicodeRange::new(c, c),
-            ]);
-            cls.case_fold_simple();
-            Ok(Hir::class(hir::Class::Unicode(cls)))
-        } else {
-            if c.len_utf8() > 1 {
-                return Err(self.error(span, ErrorKind::UnicodeNotAllowed));
-            }
-            let mut cls = hir::ClassBytes::new(vec![
-                hir::ClassBytesRange::new(c as u8, c as u8),
-            ]);
-            cls.case_fold_simple();
-            Ok(Hir::class(hir::Class::Bytes(cls)))
-        }
-    }
-
-    fn hir_dot(&self, span: Span) -> Result<Hir> {
-        let unicode = self.flags().unicode();
-        if !unicode && !self.trans().allow_invalid_utf8 {
-            return Err(self.error(span, ErrorKind::InvalidUtf8));
-        }
-        Ok(if self.flags().dot_matches_new_line() {
-            Hir::any(!unicode)
-        } else {
-            Hir::dot(!unicode)
-        })
-    }
-
-    fn hir_assertion(&self, asst: &ast::Assertion) -> Result<Hir> {
-        let unicode = self.flags().unicode();
-        let multi_line = self.flags().multi_line();
-        Ok(match asst.kind {
-            ast::AssertionKind::StartLine => {
-                Hir::anchor(if multi_line {
-                    hir::Anchor::StartLine
-                } else {
-                    hir::Anchor::StartText
-                })
-            }
-            ast::AssertionKind::EndLine => {
-                Hir::anchor(if multi_line {
-                    hir::Anchor::EndLine
-                } else {
-                    hir::Anchor::EndText
-                })
-            }
-            ast::AssertionKind::StartText => {
-                Hir::anchor(hir::Anchor::StartText)
-            }
-            ast::AssertionKind::EndText => {
-                Hir::anchor(hir::Anchor::EndText)
-            }
-            ast::AssertionKind::WordBoundary => {
-                Hir::word_boundary(if unicode {
-                    hir::WordBoundary::Unicode
-                } else {
-                    hir::WordBoundary::Ascii
-                })
-            }
-            ast::AssertionKind::NotWordBoundary => {
-                Hir::word_boundary(if unicode {
-                    hir::WordBoundary::UnicodeNegate
-                } else {
-                    // It is possible for negated ASCII word boundaries to
-                    // match at invalid UTF-8 boundaries, even when searching
-                    // valid UTF-8.
-                    if !self.trans().allow_invalid_utf8 {
-                        return Err(self.error(
-                            asst.span, ErrorKind::InvalidUtf8));
-                    }
-                    hir::WordBoundary::AsciiNegate
-                })
-            }
-        })
-    }
-
-    fn hir_group(&self, group: &ast::Group, expr: Hir) -> Hir {
-        let kind = match group.kind {
-            ast::GroupKind::CaptureIndex(idx) => {
-                hir::GroupKind::CaptureIndex(idx)
-            }
-            ast::GroupKind::CaptureName(ref capname) => {
-                hir::GroupKind::CaptureName {
-                    name: capname.name.clone(),
-                    index: capname.index,
-                }
-            }
-            ast::GroupKind::NonCapturing(_) => hir::GroupKind::NonCapturing,
-        };
-        Hir::group(hir::Group {
-            kind: kind,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_repetition(&self, rep: &ast::Repetition, expr: Hir) -> Hir {
-        let kind = match rep.op.kind {
-            ast::RepetitionKind::ZeroOrOne => hir::RepetitionKind::ZeroOrOne,
-            ast::RepetitionKind::ZeroOrMore => hir::RepetitionKind::ZeroOrMore,
-            ast::RepetitionKind::OneOrMore => hir::RepetitionKind::OneOrMore,
-            ast::RepetitionKind::Range(ast::RepetitionRange::Exactly(m)) => {
-                hir::RepetitionKind::Range(hir::RepetitionRange::Exactly(m))
-            }
-            ast::RepetitionKind::Range(ast::RepetitionRange::AtLeast(m)) => {
-                hir::RepetitionKind::Range(hir::RepetitionRange::AtLeast(m))
-            }
-            ast::RepetitionKind::Range(ast::RepetitionRange::Bounded(m,n)) => {
-                hir::RepetitionKind::Range(hir::RepetitionRange::Bounded(m, n))
-            }
-        };
-        let greedy =
-            if self.flags().swap_greed() {
-                !rep.greedy
-            } else {
-                rep.greedy
-            };
-        Hir::repetition(hir::Repetition {
-            kind: kind,
-            greedy: greedy,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_unicode_class(
-        &self,
-        ast_class: &ast::ClassUnicode,
-    ) -> Result<hir::ClassUnicode> {
-        use ast::ClassUnicodeKind::*;
-
-        if !self.flags().unicode() {
-            return Err(self.error(
-                ast_class.span,
-                ErrorKind::UnicodeNotAllowed,
-            ));
-        }
-        let query = match ast_class.kind {
-            OneLetter(name) => ClassQuery::OneLetter(name),
-            Named(ref name) => ClassQuery::Binary(name),
-            NamedValue { ref name, ref value, .. } => {
-                ClassQuery::ByValue {
-                    property_name: name,
-                    property_value: value,
-                }
-            }
-        };
-        match unicode::class(query) {
-            Ok(mut class) => {
-                self.unicode_fold_and_negate(ast_class.negated, &mut class);
-                Ok(class)
-            }
-            Err(unicode::Error::PropertyNotFound) => {
-                Err(self.error(
-                    ast_class.span,
-                    ErrorKind::UnicodePropertyNotFound,
-                ))
-            }
-            Err(unicode::Error::PropertyValueNotFound) => {
-                Err(self.error(
-                    ast_class.span,
-                    ErrorKind::UnicodePropertyValueNotFound,
-                ))
-            }
-        }
-    }
-
-    fn hir_perl_unicode_class(
-        &self,
-        ast_class: &ast::ClassPerl,
-    ) -> hir::ClassUnicode {
-        use ast::ClassPerlKind::*;
-        use unicode_tables::perl_word::PERL_WORD;
-
-        assert!(self.flags().unicode());
-        let mut class = match ast_class.kind {
-            Digit => {
-                let query = ClassQuery::Binary("Decimal_Number");
-                unicode::class(query).unwrap()
-            }
-            Space => {
-                let query = ClassQuery::Binary("Whitespace");
-                unicode::class(query).unwrap()
-            }
-            Word => unicode::hir_class(PERL_WORD),
-        };
-        // We needn't apply case folding here because the Perl Unicode classes
-        // are already closed under Unicode simple case folding.
-        if ast_class.negated {
-            class.negate();
-        }
-        class
-    }
-
-    fn hir_perl_byte_class(
-        &self,
-        ast_class: &ast::ClassPerl,
-    ) -> hir::ClassBytes {
-        use ast::ClassPerlKind::*;
-
-        assert!(!self.flags().unicode());
-        let mut class = match ast_class.kind {
-            Digit => hir_ascii_class_bytes(&ast::ClassAsciiKind::Digit),
-            Space => hir_ascii_class_bytes(&ast::ClassAsciiKind::Space),
-            Word => hir_ascii_class_bytes(&ast::ClassAsciiKind::Word),
-        };
-        // We needn't apply case folding here because the Perl ASCII classes
-        // are already closed (under ASCII case folding).
-        if ast_class.negated {
-            class.negate();
-        }
-        class
-    }
-
-    fn unicode_fold_and_negate(
-        &self,
-        negated: bool,
-        class: &mut hir::ClassUnicode,
-    ) {
-        // Note that we must apply case folding before negation!
-        // Consider `(?i)[^x]`. If we applied negation field, then
-        // the result would be the character class that matched any
-        // Unicode scalar value.
-        if self.flags().case_insensitive() {
-            class.case_fold_simple();
-        }
-        if negated {
-            class.negate();
-        }
-    }
-
-    fn bytes_fold_and_negate(
-        &self,
-        span: &Span,
-        negated: bool,
-        class: &mut hir::ClassBytes,
-    ) -> Result<()> {
-        // Note that we must apply case folding before negation!
-        // Consider `(?i)[^x]`. If we applied negation field, then
-        // the result would be the character class that matched any
-        // Unicode scalar value.
-        if self.flags().case_insensitive() {
-            class.case_fold_simple();
-        }
-        if negated {
-            class.negate();
-        }
-        if !self.trans().allow_invalid_utf8 && !class.is_all_ascii() {
-            return Err(self.error(span.clone(), ErrorKind::InvalidUtf8));
-        }
-        Ok(())
-    }
-
-    /// Return a scalar byte value suitable for use as a literal in a byte
-    /// character class.
-    fn class_literal_byte(&self, ast: &ast::Literal) -> Result<u8> {
-        match self.literal_to_char(ast)? {
-            hir::Literal::Byte(byte) => Ok(byte),
-            hir::Literal::Unicode(ch) => {
-                if ch <= 0x7F as char {
-                    Ok(ch as u8)
-                } else {
-                    // We can't feasibly support Unicode in
-                    // byte oriented classes. Byte classes don't
-                    // do Unicode case folding.
-                    Err(self.error(ast.span, ErrorKind::UnicodeNotAllowed))
-                }
-            }
-        }
-    }
-}
-
-/// A translator's representation of a regular expression's flags at any given
-/// moment in time.
-///
-/// Each flag can be in one of three states: absent, present but disabled or
-/// present but enabled.
-#[derive(Clone, Copy, Debug, Default)]
-struct Flags {
-    case_insensitive: Option<bool>,
-    multi_line: Option<bool>,
-    dot_matches_new_line: Option<bool>,
-    swap_greed: Option<bool>,
-    unicode: Option<bool>,
-    // Note that `ignore_whitespace` is omitted here because it is handled
-    // entirely in the parser.
-}
-
-impl Flags {
-    fn from_ast(ast: &ast::Flags) -> Flags {
-        let mut flags = Flags::default();
-        let mut enable = true;
-        for item in &ast.items {
-            match item.kind {
-                ast::FlagsItemKind::Negation => {
-                    enable = false;
-                }
-                ast::FlagsItemKind::Flag(ast::Flag::CaseInsensitive) => {
-                    flags.case_insensitive = Some(enable);
-                }
-                ast::FlagsItemKind::Flag(ast::Flag::MultiLine) => {
-                    flags.multi_line = Some(enable);
-                }
-                ast::FlagsItemKind::Flag(ast::Flag::DotMatchesNewLine) => {
-                    flags.dot_matches_new_line = Some(enable);
-                }
-                ast::FlagsItemKind::Flag(ast::Flag::SwapGreed) => {
-                    flags.swap_greed = Some(enable);
-                }
-                ast::FlagsItemKind::Flag(ast::Flag::Unicode) => {
-                    flags.unicode = Some(enable);
-                }
-                ast::FlagsItemKind::Flag(ast::Flag::IgnoreWhitespace) => {}
-            }
-        }
-        flags
-    }
-
-    fn merge(&mut self, previous: &Flags) {
-        if self.case_insensitive.is_none() {
-            self.case_insensitive = previous.case_insensitive;
-        }
-        if self.multi_line.is_none() {
-            self.multi_line = previous.multi_line;
-        }
-        if self.dot_matches_new_line.is_none() {
-            self.dot_matches_new_line = previous.dot_matches_new_line;
-        }
-        if self.swap_greed.is_none() {
-            self.swap_greed = previous.swap_greed;
-        }
-        if self.unicode.is_none() {
-            self.unicode = previous.unicode;
-        }
-    }
-
-    fn case_insensitive(&self) -> bool {
-        self.case_insensitive.unwrap_or(false)
-    }
-
-    fn multi_line(&self) -> bool {
-        self.multi_line.unwrap_or(false)
-    }
-
-    fn dot_matches_new_line(&self) -> bool {
-        self.dot_matches_new_line.unwrap_or(false)
-    }
-
-    fn swap_greed(&self) -> bool {
-        self.swap_greed.unwrap_or(false)
-    }
-
-    fn unicode(&self) -> bool {
-        self.unicode.unwrap_or(true)
-    }
-}
-
-fn hir_ascii_class_bytes(kind: &ast::ClassAsciiKind) -> hir::ClassBytes {
-    let ranges: Vec<_> = ascii_class(kind).iter().cloned().map(|(s, e)| {
-        hir::ClassBytesRange::new(s as u8, e as u8)
-    }).collect();
-    hir::ClassBytes::new(ranges)
-}
-
-fn ascii_class(kind: &ast::ClassAsciiKind) -> &'static [(char, char)] {
-    use ast::ClassAsciiKind::*;
-
-    // The contortions below with `const` appear necessary for older versions
-    // of Rust.
-    type T = &'static [(char, char)];
-    match *kind {
-        Alnum => {
-            const X: T = &[('0', '9'), ('A', 'Z'), ('a', 'z')];
-            X
-        }
-        Alpha => {
-            const X: T = &[('A', 'Z'), ('a', 'z')];
-            X
-        }
-        Ascii => {
-            const X: T = &[('\x00', '\x7F')];
-            X
-        }
-        Blank => {
-            const X: T = &[('\t', '\t'), (' ', ' ')];
-            X
-        }
-        Cntrl => {
-            const X: T = &[('\x00', '\x1F'), ('\x7F', '\x7F')];
-            X
-        }
-        Digit => {
-            const X: T = &[('0', '9')];
-            X
-        }
-        Graph => {
-            const X: T = &[('!', '~')];
-            X
-        }
-        Lower => {
-            const X: T = &[('a', 'z')];
-            X
-        }
-        Print => {
-            const X: T = &[(' ', '~')];
-            X
-        }
-        Punct => {
-            const X: T = &[('!', '/'), (':', '@'), ('[', '`'), ('{', '~')];
-            X
-        }
-        Space => {
-            const X: T = &[
-                ('\t', '\t'), ('\n', '\n'), ('\x0B', '\x0B'), ('\x0C', '\x0C'),
-                ('\r', '\r'), (' ', ' '),
-            ];
-            X
-        }
-        Upper => {
-            const X: T = &[('A', 'Z')];
-            X
-        }
-        Word => {
-            const X: T = &[('0', '9'), ('A', 'Z'), ('_', '_'), ('a', 'z')];
-            X
-        }
-        Xdigit => {
-            const X: T = &[('0', '9'), ('A', 'F'), ('a', 'f')];
-            X
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use ast::{self, Ast, Position, Span};
-    use ast::parse::ParserBuilder;
-    use hir::{self, Hir, HirKind};
-    use unicode::{self, ClassQuery};
-
-    use super::{TranslatorBuilder, ascii_class};
-
-    // We create these errors to compare with real hir::Errors in the tests.
-    // We define equality between TestError and hir::Error to disregard the
-    // pattern string in hir::Error, which is annoying to provide in tests.
-    #[derive(Clone, Debug)]
-    struct TestError {
-        span: Span,
-        kind: hir::ErrorKind,
-    }
-
-    impl PartialEq<hir::Error> for TestError {
-        fn eq(&self, other: &hir::Error) -> bool {
-            self.span == other.span && self.kind == other.kind
-        }
-    }
-
-    impl PartialEq<TestError> for hir::Error {
-        fn eq(&self, other: &TestError) -> bool {
-            self.span == other.span && self.kind == other.kind
-        }
-    }
-
-    fn parse(pattern: &str) -> Ast {
-        ParserBuilder::new().octal(true).build().parse(pattern).unwrap()
-    }
-
-    fn t(pattern: &str) -> Hir {
-        TranslatorBuilder::new()
-            .allow_invalid_utf8(false)
-            .build()
-            .translate(pattern, &parse(pattern))
-            .unwrap()
-    }
-
-    fn t_err(pattern: &str) -> hir::Error {
-        TranslatorBuilder::new()
-            .allow_invalid_utf8(false)
-            .build()
-            .translate(pattern, &parse(pattern))
-            .unwrap_err()
-    }
-
-    fn t_bytes(pattern: &str) -> Hir {
-        TranslatorBuilder::new()
-            .allow_invalid_utf8(true)
-            .build()
-            .translate(pattern, &parse(pattern))
-            .unwrap()
-    }
-
-    fn hir_lit(s: &str) -> Hir {
-        match s.len() {
-            0 => Hir::empty(),
-            _ => {
-                let lits = s
-                    .chars()
-                    .map(hir::Literal::Unicode)
-                    .map(Hir::literal)
-                    .collect();
-                Hir::concat(lits)
-            }
-        }
-    }
-
-    fn hir_blit(s: &[u8]) -> Hir {
-        match s.len() {
-            0 => Hir::empty(),
-            1 => Hir::literal(hir::Literal::Byte(s[0])),
-            _ => {
-                let lits = s
-                    .iter()
-                    .cloned()
-                    .map(hir::Literal::Byte)
-                    .map(Hir::literal)
-                    .collect();
-                Hir::concat(lits)
-            }
-        }
-    }
-
-    fn hir_group(i: u32, expr: Hir)  -> Hir {
-        Hir::group(hir::Group {
-            kind: hir::GroupKind::CaptureIndex(i),
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_group_name(i: u32, name: &str, expr: Hir)  -> Hir {
-        Hir::group(hir::Group {
-            kind: hir::GroupKind::CaptureName {
-                name: name.to_string(),
-                index: i,
-            },
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_group_nocap(expr: Hir)  -> Hir {
-        Hir::group(hir::Group {
-            kind: hir::GroupKind::NonCapturing,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_quest(greedy: bool, expr: Hir) -> Hir {
-        Hir::repetition(hir::Repetition {
-            kind: hir::RepetitionKind::ZeroOrOne,
-            greedy: greedy,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_star(greedy: bool, expr: Hir) -> Hir {
-        Hir::repetition(hir::Repetition {
-            kind: hir::RepetitionKind::ZeroOrMore,
-            greedy: greedy,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_plus(greedy: bool, expr: Hir) -> Hir {
-        Hir::repetition(hir::Repetition {
-            kind: hir::RepetitionKind::OneOrMore,
-            greedy: greedy,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_range(greedy: bool, range: hir::RepetitionRange, expr: Hir) -> Hir {
-        Hir::repetition(hir::Repetition {
-            kind: hir::RepetitionKind::Range(range),
-            greedy: greedy,
-            hir: Box::new(expr),
-        })
-    }
-
-    fn hir_alt(alts: Vec<Hir>) -> Hir {
-        Hir::alternation(alts)
-    }
-
-    fn hir_cat(exprs: Vec<Hir>) -> Hir {
-        Hir::concat(exprs)
-    }
-
-    fn hir_uclass_query(query: ClassQuery) -> Hir {
-        Hir::class(hir::Class::Unicode(unicode::class(query).unwrap()))
-    }
-
-    fn hir_uclass_perl_word() -> Hir {
-        use unicode_tables::perl_word::PERL_WORD;
-        Hir::class(hir::Class::Unicode(unicode::hir_class(PERL_WORD)))
-    }
-
-    fn hir_uclass(ranges: &[(char, char)]) -> Hir {
-        let ranges: Vec<hir::ClassUnicodeRange> = ranges
-            .iter()
-            .map(|&(s, e)| hir::ClassUnicodeRange::new(s, e))
-            .collect();
-        Hir::class(hir::Class::Unicode(hir::ClassUnicode::new(ranges)))
-    }
-
-    fn hir_bclass(ranges: &[(u8, u8)]) -> Hir {
-        let ranges: Vec<hir::ClassBytesRange> = ranges
-            .iter()
-            .map(|&(s, e)| hir::ClassBytesRange::new(s, e))
-            .collect();
-        Hir::class(hir::Class::Bytes(hir::ClassBytes::new(ranges)))
-    }
-
-    fn hir_bclass_from_char(ranges: &[(char, char)]) -> Hir {
-        let ranges: Vec<hir::ClassBytesRange> = ranges
-            .iter()
-            .map(|&(s, e)| {
-                assert!(s as u32 <= 0x7F);
-                assert!(e as u32 <= 0x7F);
-                hir::ClassBytesRange::new(s as u8, e as u8)
-            })
-            .collect();
-        Hir::class(hir::Class::Bytes(hir::ClassBytes::new(ranges)))
-    }
-
-    fn hir_case_fold(expr: Hir) -> Hir {
-        match expr.into_kind() {
-            HirKind::Class(mut cls) => {
-                cls.case_fold_simple();
-                Hir::class(cls)
-            }
-            _ => panic!("cannot case fold non-class Hir expr"),
-        }
-    }
-
-    fn hir_negate(expr: Hir) -> Hir {
-        match expr.into_kind() {
-            HirKind::Class(mut cls) => {
-                cls.negate();
-                Hir::class(cls)
-            }
-            _ => panic!("cannot negate non-class Hir expr"),
-        }
-    }
-
-    fn hir_union(expr1: Hir, expr2: Hir) -> Hir {
-        use hir::Class::{Bytes, Unicode};
-
-        match (expr1.into_kind(), expr2.into_kind()) {
-            (
-                HirKind::Class(Unicode(mut c1)),
-                HirKind::Class(Unicode(c2)),
-            ) => {
-                c1.union(&c2);
-                Hir::class(hir::Class::Unicode(c1))
-            }
-            (
-                HirKind::Class(Bytes(mut c1)),
-                HirKind::Class(Bytes(c2)),
-            ) => {
-                c1.union(&c2);
-                Hir::class(hir::Class::Bytes(c1))
-            }
-            _ => panic!("cannot union non-class Hir exprs"),
-        }
-    }
-
-    fn hir_difference(expr1: Hir, expr2: Hir) -> Hir {
-        use hir::Class::{Bytes, Unicode};
-
-        match (expr1.into_kind(), expr2.into_kind()) {
-            (
-                HirKind::Class(Unicode(mut c1)),
-                HirKind::Class(Unicode(c2)),
-            ) => {
-                c1.difference(&c2);
-                Hir::class(hir::Class::Unicode(c1))
-            }
-            (
-                HirKind::Class(Bytes(mut c1)),
-                HirKind::Class(Bytes(c2)),
-            ) => {
-                c1.difference(&c2);
-                Hir::class(hir::Class::Bytes(c1))
-            }
-            _ => panic!("cannot difference non-class Hir exprs"),
-        }
-    }
-
-    fn hir_anchor(anchor: hir::Anchor) -> Hir {
-        Hir::anchor(anchor)
-    }
-
-    fn hir_word(wb: hir::WordBoundary) -> Hir {
-        Hir::word_boundary(wb)
-    }
-
-    #[test]
-    fn empty() {
-        assert_eq!(t(""), Hir::empty());
-        assert_eq!(t("(?i)"), Hir::empty());
-        assert_eq!(t("()"), hir_group(1, Hir::empty()));
-        assert_eq!(t("(?:)"), hir_group_nocap(Hir::empty()));
-        assert_eq!(t("(?P<wat>)"), hir_group_name(1, "wat", Hir::empty()));
-        assert_eq!(t("|"), hir_alt(vec![Hir::empty(), Hir::empty()]));
-        assert_eq!(t("()|()"), hir_alt(vec![
-            hir_group(1, Hir::empty()),
-            hir_group(2, Hir::empty()),
-        ]));
-        assert_eq!(t("(|b)"), hir_group(1, hir_alt(vec![
-            Hir::empty(),
-            hir_lit("b"),
-        ])));
-        assert_eq!(t("(a|)"), hir_group(1, hir_alt(vec![
-            hir_lit("a"),
-            Hir::empty(),
-        ])));
-        assert_eq!(t("(a||c)"), hir_group(1, hir_alt(vec![
-            hir_lit("a"),
-            Hir::empty(),
-            hir_lit("c"),
-        ])));
-        assert_eq!(t("(||)"), hir_group(1, hir_alt(vec![
-            Hir::empty(),
-            Hir::empty(),
-            Hir::empty(),
-        ])));
-    }
-
-    #[test]
-    fn literal() {
-        assert_eq!(t("a"), hir_lit("a"));
-        assert_eq!(t("(?-u)a"), hir_lit("a"));
-        assert_eq!(t("☃"), hir_lit("☃"));
-        assert_eq!(t("abcd"), hir_lit("abcd"));
-
-        assert_eq!(t_bytes("(?-u)a"), hir_lit("a"));
-        assert_eq!(t_bytes("(?-u)\x61"), hir_lit("a"));
-        assert_eq!(t_bytes(r"(?-u)\x61"), hir_lit("a"));
-        assert_eq!(t_bytes(r"(?-u)\xFF"), hir_blit(b"\xFF"));
-
-        assert_eq!(t_err("(?-u)☃"), TestError {
-            kind: hir::ErrorKind::UnicodeNotAllowed,
-            span: Span::new(Position::new(5, 1, 6), Position::new(8, 1, 7)),
-        });
-        assert_eq!(t_err(r"(?-u)\xFF"), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(5, 1, 6), Position::new(9, 1, 10)),
-        });
-    }
-
-    #[test]
-    fn literal_case_insensitive() {
-        assert_eq!(t("(?i)a"), hir_uclass(&[
-            ('A', 'A'), ('a', 'a'),
-        ]));
-        assert_eq!(t("(?i:a)"), hir_group_nocap(hir_uclass(&[
-            ('A', 'A'), ('a', 'a')],
-        )));
-        assert_eq!(t("a(?i)a(?-i)a"), hir_cat(vec![
-            hir_lit("a"),
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-            hir_lit("a"),
-        ]));
-        assert_eq!(t("(?i)ab@c"), hir_cat(vec![
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-            hir_uclass(&[('B', 'B'), ('b', 'b')]),
-            hir_lit("@"),
-            hir_uclass(&[('C', 'C'), ('c', 'c')]),
-        ]));
-        assert_eq!(t("(?i)β"), hir_uclass(&[
-            ('Β', 'Β'), ('β', 'β'), ('ϐ', 'ϐ'),
-        ]));
-
-        assert_eq!(t("(?i-u)a"), hir_bclass(&[
-            (b'A', b'A'), (b'a', b'a'),
-        ]));
-        assert_eq!(t("(?-u)a(?i)a(?-i)a"), hir_cat(vec![
-            hir_lit("a"),
-            hir_bclass(&[(b'A', b'A'), (b'a', b'a')]),
-            hir_lit("a"),
-        ]));
-        assert_eq!(t("(?i-u)ab@c"), hir_cat(vec![
-            hir_bclass(&[(b'A', b'A'), (b'a', b'a')]),
-            hir_bclass(&[(b'B', b'B'), (b'b', b'b')]),
-            hir_lit("@"),
-            hir_bclass(&[(b'C', b'C'), (b'c', b'c')]),
-        ]));
-
-        assert_eq!(t_bytes("(?i-u)a"), hir_bclass(&[
-            (b'A', b'A'), (b'a', b'a'),
-        ]));
-        assert_eq!(t_bytes("(?i-u)\x61"), hir_bclass(&[
-            (b'A', b'A'), (b'a', b'a'),
-        ]));
-        assert_eq!(t_bytes(r"(?i-u)\x61"), hir_bclass(&[
-            (b'A', b'A'), (b'a', b'a'),
-        ]));
-        assert_eq!(t_bytes(r"(?i-u)\xFF"), hir_blit(b"\xFF"));
-
-        assert_eq!(t_err("(?i-u)β"), TestError {
-            kind: hir::ErrorKind::UnicodeNotAllowed,
-            span: Span::new(
-                Position::new(6, 1, 7),
-                Position::new(8, 1, 8),
-            ),
-        });
-    }
-
-    #[test]
-    fn dot() {
-        assert_eq!(t("."), hir_uclass(&[
-            ('\0', '\t'),
-            ('\x0B', '\u{10FFFF}'),
-        ]));
-        assert_eq!(t("(?s)."), hir_uclass(&[
-            ('\0', '\u{10FFFF}'),
-        ]));
-        assert_eq!(t_bytes("(?-u)."), hir_bclass(&[
-            (b'\0', b'\t'),
-            (b'\x0B', b'\xFF'),
-        ]));
-        assert_eq!(t_bytes("(?s-u)."), hir_bclass(&[
-            (b'\0', b'\xFF'),
-        ]));
-
-        // If invalid UTF-8 isn't allowed, then non-Unicode `.` isn't allowed.
-        assert_eq!(t_err("(?-u)."), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(5, 1, 6), Position::new(6, 1, 7)),
-        });
-        assert_eq!(t_err("(?s-u)."), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(6, 1, 7), Position::new(7, 1, 8)),
-        });
-    }
-
-    #[test]
-    fn assertions() {
-        assert_eq!(t("^"), hir_anchor(hir::Anchor::StartText));
-        assert_eq!(t("$"), hir_anchor(hir::Anchor::EndText));
-        assert_eq!(t(r"\A"), hir_anchor(hir::Anchor::StartText));
-        assert_eq!(t(r"\z"), hir_anchor(hir::Anchor::EndText));
-        assert_eq!(t("(?m)^"), hir_anchor(hir::Anchor::StartLine));
-        assert_eq!(t("(?m)$"), hir_anchor(hir::Anchor::EndLine));
-        assert_eq!(t(r"(?m)\A"), hir_anchor(hir::Anchor::StartText));
-        assert_eq!(t(r"(?m)\z"), hir_anchor(hir::Anchor::EndText));
-
-        assert_eq!(t(r"\b"), hir_word(hir::WordBoundary::Unicode));
-        assert_eq!(t(r"\B"), hir_word(hir::WordBoundary::UnicodeNegate));
-        assert_eq!(t(r"(?-u)\b"), hir_word(hir::WordBoundary::Ascii));
-        assert_eq!(
-            t_bytes(r"(?-u)\B"),
-            hir_word(hir::WordBoundary::AsciiNegate));
-
-        assert_eq!(t_err(r"(?-u)\B"), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(5, 1, 6), Position::new(7, 1, 8)),
-        });
-    }
-
-    #[test]
-    fn group() {
-        assert_eq!(t("(a)"), hir_group(1, hir_lit("a")));
-        assert_eq!(t("(a)(b)"), hir_cat(vec![
-            hir_group(1, hir_lit("a")),
-            hir_group(2, hir_lit("b")),
-        ]));
-        assert_eq!(t("(a)|(b)"), hir_alt(vec![
-            hir_group(1, hir_lit("a")),
-            hir_group(2, hir_lit("b")),
-        ]));
-        assert_eq!(t("(?P<foo>)"), hir_group_name(1, "foo", Hir::empty()));
-        assert_eq!(t("(?P<foo>a)"), hir_group_name(1, "foo", hir_lit("a")));
-        assert_eq!(t("(?P<foo>a)(?P<bar>b)"), hir_cat(vec![
-            hir_group_name(1, "foo", hir_lit("a")),
-            hir_group_name(2, "bar", hir_lit("b")),
-        ]));
-        assert_eq!(t("(?:)"), hir_group_nocap(Hir::empty()));
-        assert_eq!(t("(?:a)"), hir_group_nocap(hir_lit("a")));
-        assert_eq!(t("(?:a)(b)"), hir_cat(vec![
-            hir_group_nocap(hir_lit("a")),
-            hir_group(1, hir_lit("b")),
-        ]));
-        assert_eq!(t("(a)(?:b)(c)"), hir_cat(vec![
-            hir_group(1, hir_lit("a")),
-            hir_group_nocap(hir_lit("b")),
-            hir_group(2, hir_lit("c")),
-        ]));
-        assert_eq!(t("(a)(?P<foo>b)(c)"), hir_cat(vec![
-            hir_group(1, hir_lit("a")),
-            hir_group_name(2, "foo", hir_lit("b")),
-            hir_group(3, hir_lit("c")),
-        ]));
-        assert_eq!(t("()"), hir_group(1, Hir::empty()));
-        assert_eq!(t("((?i))"), hir_group(1, Hir::empty()));
-        assert_eq!(t("((?x))"), hir_group(1, Hir::empty()));
-        assert_eq!(t("(((?x)))"), hir_group(1, hir_group(2, Hir::empty())));
-    }
-
-    #[test]
-    fn flags() {
-        assert_eq!(t("(?i:a)a"), hir_cat(vec![
-            hir_group_nocap(hir_uclass(&[('A', 'A'), ('a', 'a')])),
-            hir_lit("a"),
-        ]));
-        assert_eq!(t("(?i-u:a)β"), hir_cat(vec![
-            hir_group_nocap(hir_bclass(&[(b'A', b'A'), (b'a', b'a')])),
-            hir_lit("β"),
-        ]));
-        assert_eq!(t("(?i)(?-i:a)a"), hir_cat(vec![
-            hir_group_nocap(hir_lit("a")),
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-        ]));
-        assert_eq!(t("(?im)a^"), hir_cat(vec![
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-            hir_anchor(hir::Anchor::StartLine),
-        ]));
-        assert_eq!(t("(?im)a^(?i-m)a^"), hir_cat(vec![
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-            hir_anchor(hir::Anchor::StartLine),
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-            hir_anchor(hir::Anchor::StartText),
-        ]));
-        assert_eq!(t("(?U)a*a*?(?-U)a*a*?"), hir_cat(vec![
-            hir_star(false, hir_lit("a")),
-            hir_star(true, hir_lit("a")),
-            hir_star(true, hir_lit("a")),
-            hir_star(false, hir_lit("a")),
-        ]));
-        assert_eq!(t("(?:a(?i)a)a"), hir_cat(vec![
-            hir_group_nocap(hir_cat(vec![
-                hir_lit("a"),
-                hir_uclass(&[('A', 'A'), ('a', 'a')]),
-            ])),
-            hir_lit("a"),
-        ]));
-        assert_eq!(t("(?i)(?:a(?-i)a)a"), hir_cat(vec![
-            hir_group_nocap(hir_cat(vec![
-                hir_uclass(&[('A', 'A'), ('a', 'a')]),
-                hir_lit("a"),
-            ])),
-            hir_uclass(&[('A', 'A'), ('a', 'a')]),
-        ]));
-    }
-
-    #[test]
-    fn escape() {
-        assert_eq!(
-            t(r"\\\.\+\*\?\(\)\|\[\]\{\}\^\$\#"),
-            hir_lit(r"\.+*?()|[]{}^$#"));
-    }
-
-    #[test]
-    fn repetition() {
-        assert_eq!(t("a?"), hir_quest(true, hir_lit("a")));
-        assert_eq!(t("a*"), hir_star(true, hir_lit("a")));
-        assert_eq!(t("a+"), hir_plus(true, hir_lit("a")));
-        assert_eq!(t("a??"), hir_quest(false, hir_lit("a")));
-        assert_eq!(t("a*?"), hir_star(false, hir_lit("a")));
-        assert_eq!(t("a+?"), hir_plus(false, hir_lit("a")));
-
-        assert_eq!(
-            t("a{1}"),
-            hir_range(
-                true,
-                hir::RepetitionRange::Exactly(1),
-                hir_lit("a"),
-            ));
-        assert_eq!(
-            t("a{1,}"),
-            hir_range(
-                true,
-                hir::RepetitionRange::AtLeast(1),
-                hir_lit("a"),
-            ));
-        assert_eq!(
-            t("a{1,2}"),
-            hir_range(
-                true,
-                hir::RepetitionRange::Bounded(1, 2),
-                hir_lit("a"),
-            ));
-        assert_eq!(
-            t("a{1}?"),
-            hir_range(
-                false,
-                hir::RepetitionRange::Exactly(1),
-                hir_lit("a"),
-            ));
-        assert_eq!(
-            t("a{1,}?"),
-            hir_range(
-                false,
-                hir::RepetitionRange::AtLeast(1),
-                hir_lit("a"),
-            ));
-        assert_eq!(
-            t("a{1,2}?"),
-            hir_range(
-                false,
-                hir::RepetitionRange::Bounded(1, 2),
-                hir_lit("a"),
-            ));
-
-        assert_eq!(t("ab?"), hir_cat(vec![
-            hir_lit("a"),
-            hir_quest(true, hir_lit("b")),
-        ]));
-        assert_eq!(t("(ab)?"), hir_quest(true, hir_group(1, hir_cat(vec![
-            hir_lit("a"),
-            hir_lit("b"),
-        ]))));
-        assert_eq!(t("a|b?"), hir_alt(vec![
-            hir_lit("a"),
-            hir_quest(true, hir_lit("b")),
-        ]));
-    }
-
-    #[test]
-    fn cat_alt() {
-        assert_eq!(t("(ab)"), hir_group(1, hir_cat(vec![
-            hir_lit("a"),
-            hir_lit("b"),
-        ])));
-        assert_eq!(t("a|b"), hir_alt(vec![
-            hir_lit("a"),
-            hir_lit("b"),
-        ]));
-        assert_eq!(t("a|b|c"), hir_alt(vec![
-            hir_lit("a"),
-            hir_lit("b"),
-            hir_lit("c"),
-        ]));
-        assert_eq!(t("ab|bc|cd"), hir_alt(vec![
-            hir_lit("ab"),
-            hir_lit("bc"),
-            hir_lit("cd"),
-        ]));
-        assert_eq!(t("(a|b)"), hir_group(1, hir_alt(vec![
-            hir_lit("a"),
-            hir_lit("b"),
-        ])));
-        assert_eq!(t("(a|b|c)"), hir_group(1, hir_alt(vec![
-            hir_lit("a"),
-            hir_lit("b"),
-            hir_lit("c"),
-        ])));
-        assert_eq!(t("(ab|bc|cd)"), hir_group(1, hir_alt(vec![
-            hir_lit("ab"),
-            hir_lit("bc"),
-            hir_lit("cd"),
-        ])));
-        assert_eq!(t("(ab|(bc|(cd)))"), hir_group(1, hir_alt(vec![
-            hir_lit("ab"),
-            hir_group(2, hir_alt(vec![
-                hir_lit("bc"),
-                hir_group(3, hir_lit("cd")),
-            ])),
-        ])));
-    }
-
-    #[test]
-    fn class_ascii() {
-        assert_eq!(
-            t("[[:alnum:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Alnum)));
-        assert_eq!(
-            t("[[:alpha:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Alpha)));
-        assert_eq!(
-            t("[[:ascii:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Ascii)));
-        assert_eq!(
-            t("[[:blank:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Blank)));
-        assert_eq!(
-            t("[[:cntrl:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Cntrl)));
-        assert_eq!(
-            t("[[:digit:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Digit)));
-        assert_eq!(
-            t("[[:graph:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Graph)));
-        assert_eq!(
-            t("[[:lower:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Lower)));
-        assert_eq!(
-            t("[[:print:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Print)));
-        assert_eq!(
-            t("[[:punct:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Punct)));
-        assert_eq!(
-            t("[[:space:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Space)));
-        assert_eq!(
-            t("[[:upper:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Upper)));
-        assert_eq!(
-            t("[[:word:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Word)));
-        assert_eq!(
-            t("[[:xdigit:]]"),
-            hir_uclass(ascii_class(&ast::ClassAsciiKind::Xdigit)));
-
-        assert_eq!(
-            t("[[:^lower:]]"),
-            hir_negate(hir_uclass(ascii_class(&ast::ClassAsciiKind::Lower))));
-        assert_eq!(
-            t("(?i)[[:lower:]]"),
-            hir_uclass(&[
-                ('A', 'Z'), ('a', 'z'),
-                ('\u{17F}', '\u{17F}'),
-                ('\u{212A}', '\u{212A}'),
-            ]));
-
-        assert_eq!(
-            t("(?-u)[[:lower:]]"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Lower)));
-        assert_eq!(
-            t("(?i-u)[[:lower:]]"),
-            hir_case_fold(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Lower))));
-
-        assert_eq!(t_err("(?-u)[[:^lower:]]"), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(6, 1, 7), Position::new(16, 1, 17)),
-        });
-        assert_eq!(t_err("(?i-u)[[:^lower:]]"), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(7, 1, 8), Position::new(17, 1, 18)),
-        });
-    }
-
-    #[test]
-    fn class_perl() {
-        // Unicode
-        assert_eq!(
-            t(r"\d"),
-            hir_uclass_query(ClassQuery::Binary("digit")));
-        assert_eq!(
-            t(r"\s"),
-            hir_uclass_query(ClassQuery::Binary("space")));
-        assert_eq!(
-            t(r"\w"),
-            hir_uclass_perl_word());
-        assert_eq!(
-            t(r"(?i)\d"),
-            hir_uclass_query(ClassQuery::Binary("digit")));
-        assert_eq!(
-            t(r"(?i)\s"),
-            hir_uclass_query(ClassQuery::Binary("space")));
-        assert_eq!(
-            t(r"(?i)\w"),
-            hir_uclass_perl_word());
-
-        // Unicode, negated
-        assert_eq!(
-            t(r"\D"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("digit"))));
-        assert_eq!(
-            t(r"\S"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("space"))));
-        assert_eq!(
-            t(r"\W"),
-            hir_negate(hir_uclass_perl_word()));
-        assert_eq!(
-            t(r"(?i)\D"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("digit"))));
-        assert_eq!(
-            t(r"(?i)\S"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("space"))));
-        assert_eq!(
-            t(r"(?i)\W"),
-            hir_negate(hir_uclass_perl_word()));
-
-        // ASCII only
-        assert_eq!(
-            t(r"(?-u)\d"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Digit)));
-        assert_eq!(
-            t(r"(?-u)\s"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Space)));
-        assert_eq!(
-            t(r"(?-u)\w"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Word)));
-        assert_eq!(
-            t(r"(?i-u)\d"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Digit)));
-        assert_eq!(
-            t(r"(?i-u)\s"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Space)));
-        assert_eq!(
-            t(r"(?i-u)\w"),
-            hir_bclass_from_char(ascii_class(&ast::ClassAsciiKind::Word)));
-
-        // ASCII only, negated
-        assert_eq!(
-            t(r"(?-u)\D"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Digit))));
-        assert_eq!(
-            t(r"(?-u)\S"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Space))));
-        assert_eq!(
-            t(r"(?-u)\W"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Word))));
-        assert_eq!(
-            t(r"(?i-u)\D"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Digit))));
-        assert_eq!(
-            t(r"(?i-u)\S"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Space))));
-        assert_eq!(
-            t(r"(?i-u)\W"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Word))));
-    }
-
-    #[test]
-    fn class_unicode() {
-        assert_eq!(
-            t(r"\pZ"),
-            hir_uclass_query(ClassQuery::Binary("Z")));
-        assert_eq!(
-            t(r"\pz"),
-            hir_uclass_query(ClassQuery::Binary("Z")));
-        assert_eq!(
-            t(r"\p{Separator}"),
-            hir_uclass_query(ClassQuery::Binary("Z")));
-        assert_eq!(
-            t(r"\p{se      PaRa ToR}"),
-            hir_uclass_query(ClassQuery::Binary("Z")));
-        assert_eq!(
-            t(r"\p{gc:Separator}"),
-            hir_uclass_query(ClassQuery::Binary("Z")));
-        assert_eq!(
-            t(r"\p{gc=Separator}"),
-            hir_uclass_query(ClassQuery::Binary("Z")));
-        assert_eq!(
-            t(r"\p{Other}"),
-            hir_uclass_query(ClassQuery::Binary("Other")));
-        assert_eq!(
-            t(r"\pC"),
-            hir_uclass_query(ClassQuery::Binary("Other")));
-
-        assert_eq!(
-            t(r"\PZ"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("Z"))));
-        assert_eq!(
-            t(r"\P{separator}"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("Z"))));
-        assert_eq!(
-            t(r"\P{gc!=separator}"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("Z"))));
-
-        assert_eq!(
-            t(r"\p{Greek}"),
-            hir_uclass_query(ClassQuery::Binary("Greek")));
-        assert_eq!(
-            t(r"(?i)\p{Greek}"),
-            hir_case_fold(hir_uclass_query(ClassQuery::Binary("Greek"))));
-        assert_eq!(
-            t(r"(?i)\P{Greek}"),
-            hir_negate(hir_case_fold(hir_uclass_query(
-                ClassQuery::Binary("Greek")))));
-
-        assert_eq!(
-            t(r"\p{any}"),
-            hir_uclass_query(ClassQuery::Binary("Any")));
-        assert_eq!(
-            t(r"\p{assigned}"),
-            hir_uclass_query(ClassQuery::Binary("Assigned")));
-        assert_eq!(
-            t(r"\p{ascii}"),
-            hir_uclass_query(ClassQuery::Binary("ASCII")));
-        assert_eq!(
-            t(r"\p{gc:any}"),
-            hir_uclass_query(ClassQuery::Binary("Any")));
-        assert_eq!(
-            t(r"\p{gc:assigned}"),
-            hir_uclass_query(ClassQuery::Binary("Assigned")));
-        assert_eq!(
-            t(r"\p{gc:ascii}"),
-            hir_uclass_query(ClassQuery::Binary("ASCII")));
-
-        assert_eq!(t_err(r"(?-u)\pZ"), TestError {
-            kind: hir::ErrorKind::UnicodeNotAllowed,
-            span: Span::new(Position::new(5, 1, 6), Position::new(8, 1, 9)),
-        });
-        assert_eq!(t_err(r"(?-u)\p{Separator}"), TestError {
-            kind: hir::ErrorKind::UnicodeNotAllowed,
-            span: Span::new(Position::new(5, 1, 6), Position::new(18, 1, 19)),
-        });
-        assert_eq!(t_err(r"\pE"), TestError {
-            kind: hir::ErrorKind::UnicodePropertyNotFound,
-            span: Span::new(Position::new(0, 1, 1), Position::new(3, 1, 4)),
-        });
-        assert_eq!(t_err(r"\p{Foo}"), TestError {
-            kind: hir::ErrorKind::UnicodePropertyNotFound,
-            span: Span::new(Position::new(0, 1, 1), Position::new(7, 1, 8)),
-        });
-        assert_eq!(t_err(r"\p{gc:Foo}"), TestError {
-            kind: hir::ErrorKind::UnicodePropertyValueNotFound,
-            span: Span::new(Position::new(0, 1, 1), Position::new(10, 1, 11)),
-        });
-        assert_eq!(t_err(r"\p{sc:Foo}"), TestError {
-            kind: hir::ErrorKind::UnicodePropertyValueNotFound,
-            span: Span::new(Position::new(0, 1, 1), Position::new(10, 1, 11)),
-        });
-        assert_eq!(t_err(r"\p{scx:Foo}"), TestError {
-            kind: hir::ErrorKind::UnicodePropertyValueNotFound,
-            span: Span::new(Position::new(0, 1, 1), Position::new(11, 1, 12)),
-        });
-        assert_eq!(t_err(r"\p{age:Foo}"), TestError {
-            kind: hir::ErrorKind::UnicodePropertyValueNotFound,
-            span: Span::new(Position::new(0, 1, 1), Position::new(11, 1, 12)),
-        });
-    }
-
-    #[test]
-    fn class_bracketed() {
-        assert_eq!(t("[a]"), hir_uclass(&[('a', 'a')]));
-        assert_eq!(t("[^[a]]"), hir_negate(hir_uclass(&[('a', 'a')])));
-        assert_eq!(t("[a-z]"), hir_uclass(&[('a', 'z')]));
-        assert_eq!(t("[a-fd-h]"), hir_uclass(&[('a', 'h')]));
-        assert_eq!(t("[a-fg-m]"), hir_uclass(&[('a', 'm')]));
-        assert_eq!(t(r"[\x00]"), hir_uclass(&[('\0', '\0')]));
-        assert_eq!(t(r"[\n]"), hir_uclass(&[('\n', '\n')]));
-        assert_eq!(t("[\n]"), hir_uclass(&[('\n', '\n')]));
-        assert_eq!(
-            t(r"[\d]"),
-            hir_uclass_query(ClassQuery::Binary("digit")));
-        assert_eq!(
-            t(r"[\pZ]"),
-            hir_uclass_query(ClassQuery::Binary("separator")));
-        assert_eq!(
-            t(r"[\p{separator}]"),
-            hir_uclass_query(ClassQuery::Binary("separator")));
-        assert_eq!(
-            t(r"[^\D]"),
-            hir_uclass_query(ClassQuery::Binary("digit")));
-        assert_eq!(
-            t(r"[^\PZ]"),
-            hir_uclass_query(ClassQuery::Binary("separator")));
-        assert_eq!(
-            t(r"[^\P{separator}]"),
-            hir_uclass_query(ClassQuery::Binary("separator")));
-        assert_eq!(
-            t(r"(?i)[^\D]"),
-            hir_uclass_query(ClassQuery::Binary("digit")));
-        assert_eq!(
-            t(r"(?i)[^\P{greek}]"),
-            hir_case_fold(hir_uclass_query(ClassQuery::Binary("greek"))));
-
-        assert_eq!(t("(?-u)[a]"), hir_bclass(&[(b'a', b'a')]));
-        assert_eq!(t(r"(?-u)[\x00]"), hir_bclass(&[(b'\0', b'\0')]));
-        assert_eq!(t_bytes(r"(?-u)[\xFF]"), hir_bclass(&[(b'\xFF', b'\xFF')]));
-
-        assert_eq!(t("(?i)[a]"), hir_uclass(&[('A', 'A'), ('a', 'a')]));
-        assert_eq!(t("(?i)[k]"), hir_uclass(&[
-            ('K', 'K'), ('k', 'k'), ('\u{212A}', '\u{212A}'),
-        ]));
-        assert_eq!(t("(?i)[β]"), hir_uclass(&[
-            ('Β', 'Β'), ('β', 'β'), ('ϐ', 'ϐ'),
-        ]));
-        assert_eq!(t("(?i-u)[k]"), hir_bclass(&[
-            (b'K', b'K'), (b'k', b'k'),
-        ]));
-
-        assert_eq!(t("[^a]"), hir_negate(hir_uclass(&[('a', 'a')])));
-        assert_eq!(t(r"[^\x00]"), hir_negate(hir_uclass(&[('\0', '\0')])));
-        assert_eq!(
-            t_bytes("(?-u)[^a]"),
-            hir_negate(hir_bclass(&[(b'a', b'a')])));
-        assert_eq!(
-            t(r"[^\d]"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("digit"))));
-        assert_eq!(
-            t(r"[^\pZ]"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("separator"))));
-        assert_eq!(
-            t(r"[^\p{separator}]"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("separator"))));
-        assert_eq!(
-            t(r"(?i)[^\p{greek}]"),
-            hir_negate(hir_case_fold(hir_uclass_query(
-                ClassQuery::Binary("greek")))));
-        assert_eq!(
-            t(r"(?i)[\P{greek}]"),
-            hir_negate(hir_case_fold(hir_uclass_query(
-                ClassQuery::Binary("greek")))));
-
-        // Test some weird cases.
-        assert_eq!(t(r"[\[]"), hir_uclass(&[('[', '[')]));
-
-        assert_eq!(t(r"[&]"), hir_uclass(&[('&', '&')]));
-        assert_eq!(t(r"[\&]"), hir_uclass(&[('&', '&')]));
-        assert_eq!(t(r"[\&\&]"), hir_uclass(&[('&', '&')]));
-        assert_eq!(t(r"[\x00-&]"), hir_uclass(&[('\0', '&')]));
-        assert_eq!(t(r"[&-\xFF]"), hir_uclass(&[('&', '\u{FF}')]));
-
-        assert_eq!(t(r"[~]"), hir_uclass(&[('~', '~')]));
-        assert_eq!(t(r"[\~]"), hir_uclass(&[('~', '~')]));
-        assert_eq!(t(r"[\~\~]"), hir_uclass(&[('~', '~')]));
-        assert_eq!(t(r"[\x00-~]"), hir_uclass(&[('\0', '~')]));
-        assert_eq!(t(r"[~-\xFF]"), hir_uclass(&[('~', '\u{FF}')]));
-
-        assert_eq!(t(r"[-]"), hir_uclass(&[('-', '-')]));
-        assert_eq!(t(r"[\-]"), hir_uclass(&[('-', '-')]));
-        assert_eq!(t(r"[\-\-]"), hir_uclass(&[('-', '-')]));
-        assert_eq!(t(r"[\x00-\-]"), hir_uclass(&[('\0', '-')]));
-        assert_eq!(t(r"[\--\xFF]"), hir_uclass(&[('-', '\u{FF}')]));
-
-        assert_eq!(t_err("(?-u)[^a]"), TestError {
-            kind: hir::ErrorKind::InvalidUtf8,
-            span: Span::new(Position::new(5, 1, 6), Position::new(9, 1, 10)),
-        });
-        assert_eq!(t_err(r"[^\s\S]"), TestError {
-            kind: hir::ErrorKind::EmptyClassNotAllowed,
-            span: Span::new(Position::new(0, 1, 1), Position::new(7, 1, 8)),
-        });
-        assert_eq!(t_err(r"(?-u)[^\s\S]"), TestError {
-            kind: hir::ErrorKind::EmptyClassNotAllowed,
-            span: Span::new(Position::new(5, 1, 6), Position::new(12, 1, 13)),
-        });
-    }
-
-    #[test]
-    fn class_bracketed_union() {
-        assert_eq!(
-            t("[a-zA-Z]"),
-            hir_uclass(&[('A', 'Z'), ('a', 'z')]));
-        assert_eq!(
-            t(r"[a\pZb]"),
-            hir_union(
-                hir_uclass(&[('a', 'b')]),
-                hir_uclass_query(ClassQuery::Binary("separator"))));
-        assert_eq!(
-            t(r"[\pZ\p{Greek}]"),
-            hir_union(
-                hir_uclass_query(ClassQuery::Binary("greek")),
-                hir_uclass_query(ClassQuery::Binary("separator"))));
-        assert_eq!(
-            t(r"[\p{age:3.0}\pZ\p{Greek}]"),
-            hir_union(
-                hir_uclass_query(ClassQuery::ByValue {
-                    property_name: "age",
-                    property_value: "3.0",
-                }),
-                hir_union(
-                    hir_uclass_query(ClassQuery::Binary("greek")),
-                    hir_uclass_query(ClassQuery::Binary("separator")))));
-        assert_eq!(
-            t(r"[[[\p{age:3.0}\pZ]\p{Greek}][\p{Cyrillic}]]"),
-            hir_union(
-                hir_uclass_query(ClassQuery::ByValue {
-                    property_name: "age",
-                    property_value: "3.0",
-                }),
-                hir_union(
-                    hir_uclass_query(ClassQuery::Binary("cyrillic")),
-                    hir_union(
-                        hir_uclass_query(ClassQuery::Binary("greek")),
-                        hir_uclass_query(ClassQuery::Binary("separator"))))));
-
-        assert_eq!(
-            t(r"(?i)[\p{age:3.0}\pZ\p{Greek}]"),
-            hir_case_fold(hir_union(
-                hir_uclass_query(ClassQuery::ByValue {
-                    property_name: "age",
-                    property_value: "3.0",
-                }),
-                hir_union(
-                    hir_uclass_query(ClassQuery::Binary("greek")),
-                    hir_uclass_query(ClassQuery::Binary("separator"))))));
-        assert_eq!(
-            t(r"[^\p{age:3.0}\pZ\p{Greek}]"),
-            hir_negate(hir_union(
-                hir_uclass_query(ClassQuery::ByValue {
-                    property_name: "age",
-                    property_value: "3.0",
-                }),
-                hir_union(
-                    hir_uclass_query(ClassQuery::Binary("greek")),
-                    hir_uclass_query(ClassQuery::Binary("separator"))))));
-        assert_eq!(
-            t(r"(?i)[^\p{age:3.0}\pZ\p{Greek}]"),
-            hir_negate(hir_case_fold(hir_union(
-                hir_uclass_query(ClassQuery::ByValue {
-                    property_name: "age",
-                    property_value: "3.0",
-                }),
-                hir_union(
-                    hir_uclass_query(ClassQuery::Binary("greek")),
-                    hir_uclass_query(ClassQuery::Binary("separator")))))));
-    }
-
-    #[test]
-    fn class_bracketed_nested() {
-        assert_eq!(
-            t(r"[a[^c]]"),
-            hir_negate(hir_uclass(&[('c', 'c')])));
-        assert_eq!(
-            t(r"[a-b[^c]]"),
-            hir_negate(hir_uclass(&[('c', 'c')])));
-        assert_eq!(
-            t(r"[a-c[^c]]"),
-            hir_negate(hir_uclass(&[])));
-
-        assert_eq!(
-            t(r"[^a[^c]]"),
-            hir_uclass(&[('c', 'c')]));
-        assert_eq!(
-            t(r"[^a-b[^c]]"),
-            hir_uclass(&[('c', 'c')]));
-
-        assert_eq!(
-            t(r"(?i)[a[^c]]"),
-            hir_negate(hir_case_fold(hir_uclass(&[('c', 'c')]))));
-        assert_eq!(
-            t(r"(?i)[a-b[^c]]"),
-            hir_negate(hir_case_fold(hir_uclass(&[('c', 'c')]))));
-
-        assert_eq!(
-            t(r"(?i)[^a[^c]]"),
-            hir_uclass(&[('C', 'C'), ('c', 'c')]));
-        assert_eq!(
-            t(r"(?i)[^a-b[^c]]"),
-            hir_uclass(&[('C', 'C'), ('c', 'c')]));
-
-        assert_eq!(t_err(r"[^a-c[^c]]"), TestError {
-            kind: hir::ErrorKind::EmptyClassNotAllowed,
-            span: Span::new(Position::new(0, 1, 1), Position::new(10, 1, 11)),
-        });
-        assert_eq!(t_err(r"(?i)[^a-c[^c]]"), TestError {
-            kind: hir::ErrorKind::EmptyClassNotAllowed,
-            span: Span::new(Position::new(4, 1, 5), Position::new(14, 1, 15)),
-        });
-    }
-
-    #[test]
-    fn class_bracketed_intersect() {
-        assert_eq!(t("[abc&&b-c]"), hir_uclass(&[('b', 'c')]));
-        assert_eq!(t("[abc&&[b-c]]"), hir_uclass(&[('b', 'c')]));
-        assert_eq!(t("[[abc]&&[b-c]]"), hir_uclass(&[('b', 'c')]));
-        assert_eq!(t("[a-z&&b-y&&c-x]"), hir_uclass(&[('c', 'x')]));
-        assert_eq!(t("[c-da-b&&a-d]"), hir_uclass(&[('a', 'd')]));
-        assert_eq!(t("[a-d&&c-da-b]"), hir_uclass(&[('a', 'd')]));
-        assert_eq!(t(r"[a-z&&a-c]"), hir_uclass(&[('a', 'c')]));
-        assert_eq!(t(r"[[a-z&&a-c]]"), hir_uclass(&[('a', 'c')]));
-        assert_eq!(t(r"[^[a-z&&a-c]]"), hir_negate(hir_uclass(&[('a', 'c')])));
-
-        assert_eq!(t("(?-u)[abc&&b-c]"), hir_bclass(&[(b'b', b'c')]));
-        assert_eq!(t("(?-u)[abc&&[b-c]]"), hir_bclass(&[(b'b', b'c')]));
-        assert_eq!(t("(?-u)[[abc]&&[b-c]]"), hir_bclass(&[(b'b', b'c')]));
-        assert_eq!(t("(?-u)[a-z&&b-y&&c-x]"), hir_bclass(&[(b'c', b'x')]));
-        assert_eq!(t("(?-u)[c-da-b&&a-d]"), hir_bclass(&[(b'a', b'd')]));
-        assert_eq!(t("(?-u)[a-d&&c-da-b]"), hir_bclass(&[(b'a', b'd')]));
-
-        assert_eq!(
-            t("(?i)[abc&&b-c]"),
-            hir_case_fold(hir_uclass(&[('b', 'c')])));
-        assert_eq!(
-            t("(?i)[abc&&[b-c]]"),
-            hir_case_fold(hir_uclass(&[('b', 'c')])));
-        assert_eq!(
-            t("(?i)[[abc]&&[b-c]]"),
-            hir_case_fold(hir_uclass(&[('b', 'c')])));
-        assert_eq!(
-            t("(?i)[a-z&&b-y&&c-x]"),
-            hir_case_fold(hir_uclass(&[('c', 'x')])));
-        assert_eq!(
-            t("(?i)[c-da-b&&a-d]"),
-            hir_case_fold(hir_uclass(&[('a', 'd')])));
-        assert_eq!(
-            t("(?i)[a-d&&c-da-b]"),
-            hir_case_fold(hir_uclass(&[('a', 'd')])));
-
-        assert_eq!(
-            t("(?i-u)[abc&&b-c]"),
-            hir_case_fold(hir_bclass(&[(b'b', b'c')])));
-        assert_eq!(
-            t("(?i-u)[abc&&[b-c]]"),
-            hir_case_fold(hir_bclass(&[(b'b', b'c')])));
-        assert_eq!(
-            t("(?i-u)[[abc]&&[b-c]]"),
-            hir_case_fold(hir_bclass(&[(b'b', b'c')])));
-        assert_eq!(
-            t("(?i-u)[a-z&&b-y&&c-x]"),
-            hir_case_fold(hir_bclass(&[(b'c', b'x')])));
-        assert_eq!(
-            t("(?i-u)[c-da-b&&a-d]"),
-            hir_case_fold(hir_bclass(&[(b'a', b'd')])));
-        assert_eq!(
-            t("(?i-u)[a-d&&c-da-b]"),
-            hir_case_fold(hir_bclass(&[(b'a', b'd')])));
-
-        // In `[a^]`, `^` does not need to be escaped, so it makes sense that
-        // `^` is also allowed to be unescaped after `&&`.
-        assert_eq!(t(r"[\^&&^]"), hir_uclass(&[('^', '^')]));
-        // `]` needs to be escaped after `&&` since it's not at start of class.
-        assert_eq!(t(r"[]&&\]]"), hir_uclass(&[(']', ']')]));
-        assert_eq!(t(r"[-&&-]"), hir_uclass(&[('-', '-')]));
-        assert_eq!(t(r"[\&&&&]"), hir_uclass(&[('&', '&')]));
-        assert_eq!(t(r"[\&&&\&]"), hir_uclass(&[('&', '&')]));
-        // Test precedence.
-        assert_eq!(
-            t(r"[a-w&&[^c-g]z]"),
-            hir_uclass(&[('a', 'b'), ('h', 'w')]));
-    }
-
-    #[test]
-    fn class_bracketed_intersect_negate() {
-        assert_eq!(
-            t(r"[^\w&&\d]"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("digit"))));
-        assert_eq!(
-            t(r"[^[a-z&&a-c]]"),
-            hir_negate(hir_uclass(&[('a', 'c')])));
-        assert_eq!(
-            t(r"[^[\w&&\d]]"),
-            hir_negate(hir_uclass_query(ClassQuery::Binary("digit"))));
-        assert_eq!(
-            t(r"[^[^\w&&\d]]"),
-            hir_uclass_query(ClassQuery::Binary("digit")));
-        assert_eq!(
-            t(r"[[[^\w]&&[^\d]]]"),
-            hir_negate(hir_uclass_perl_word()));
-
-        assert_eq!(
-            t_bytes(r"(?-u)[^\w&&\d]"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Digit))));
-        assert_eq!(
-            t_bytes(r"(?-u)[^[a-z&&a-c]]"),
-            hir_negate(hir_bclass(&[(b'a', b'c')])));
-        assert_eq!(
-            t_bytes(r"(?-u)[^[\w&&\d]]"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Digit))));
-        assert_eq!(
-            t_bytes(r"(?-u)[^[^\w&&\d]]"),
-            hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Digit)));
-        assert_eq!(
-            t_bytes(r"(?-u)[[[^\w]&&[^\d]]]"),
-            hir_negate(hir_bclass_from_char(ascii_class(
-                &ast::ClassAsciiKind::Word))));
-    }
-
-    #[test]
-    fn class_bracketed_difference() {
-        assert_eq!(
-            t(r"[\pL--[:ascii:]]"),
-            hir_difference(
-                hir_uclass_query(ClassQuery::Binary("letter")),
-                hir_uclass(&[('\0', '\x7F')])));
-
-        assert_eq!(
-            t(r"(?-u)[[:alpha:]--[:lower:]]"),
-            hir_bclass(&[(b'A', b'Z')]));
-    }
-
-    #[test]
-    fn class_bracketed_symmetric_difference() {
-        assert_eq!(
-            t(r"[\p{sc:Greek}~~\p{scx:Greek}]"),
-            hir_uclass(&[
-                ('\u{0342}', '\u{0342}'),
-                ('\u{0345}', '\u{0345}'),
-                ('\u{1DC0}', '\u{1DC1}'),
-            ]));
-        assert_eq!(
-            t(r"[a-g~~c-j]"),
-            hir_uclass(&[('a', 'b'), ('h', 'j')]));
-
-        assert_eq!(
-            t(r"(?-u)[a-g~~c-j]"),
-            hir_bclass(&[(b'a', b'b'), (b'h', b'j')]));
-    }
-
-    #[test]
-    fn ignore_whitespace() {
-        assert_eq!(t(r"(?x)\12 3"), hir_lit("\n3"));
-        assert_eq!(t(r"(?x)\x { 53 }"), hir_lit("S"));
-        assert_eq!(t(r"(?x)\x # comment
-{ # comment
-    53 # comment
-} #comment"), hir_lit("S"));
-
-        assert_eq!(t(r"(?x)\x 53"), hir_lit("S"));
-        assert_eq!(t(r"(?x)\x # comment
-        53 # comment"), hir_lit("S"));
-        assert_eq!(t(r"(?x)\x5 3"), hir_lit("S"));
-
-        assert_eq!(t(r"(?x)\p # comment
-{ # comment
-    Separator # comment
-} # comment"), hir_uclass_query(ClassQuery::Binary("separator")));
-
-        assert_eq!(t(r"(?x)a # comment
-{ # comment
-    5 # comment
-    , # comment
-    10 # comment
-} # comment"),
-            hir_range(
-                true, hir::RepetitionRange::Bounded(5, 10), hir_lit("a")));
-
-        assert_eq!(t(r"(?x)a\  # hi there"), hir_lit("a "));
-    }
-
-    #[test]
-    fn analysis_is_always_utf8() {
-        // Positive examples.
-        assert!(t_bytes(r"a").is_always_utf8());
-        assert!(t_bytes(r"ab").is_always_utf8());
-        assert!(t_bytes(r"(?-u)a").is_always_utf8());
-        assert!(t_bytes(r"(?-u)ab").is_always_utf8());
-        assert!(t_bytes(r"\xFF").is_always_utf8());
-        assert!(t_bytes(r"\xFF\xFF").is_always_utf8());
-        assert!(t_bytes(r"[^a]").is_always_utf8());
-        assert!(t_bytes(r"[^a][^a]").is_always_utf8());
-        assert!(t_bytes(r"\b").is_always_utf8());
-        assert!(t_bytes(r"\B").is_always_utf8());
-        assert!(t_bytes(r"(?-u)\b").is_always_utf8());
-
-        // Negative examples.
-        assert!(!t_bytes(r"(?-u)\xFF").is_always_utf8());
-        assert!(!t_bytes(r"(?-u)\xFF\xFF").is_always_utf8());
-        assert!(!t_bytes(r"(?-u)[^a]").is_always_utf8());
-        assert!(!t_bytes(r"(?-u)[^a][^a]").is_always_utf8());
-        assert!(!t_bytes(r"(?-u)\B").is_always_utf8());
-    }
-
-    #[test]
-    fn analysis_is_all_assertions() {
-        // Positive examples.
-        assert!(t(r"\b").is_all_assertions());
-        assert!(t(r"\B").is_all_assertions());
-        assert!(t(r"^").is_all_assertions());
-        assert!(t(r"$").is_all_assertions());
-        assert!(t(r"\A").is_all_assertions());
-        assert!(t(r"\z").is_all_assertions());
-        assert!(t(r"$^\z\A\b\B").is_all_assertions());
-        assert!(t(r"$|^|\z|\A|\b|\B").is_all_assertions());
-        assert!(t(r"^$|$^").is_all_assertions());
-        assert!(t(r"((\b)+())*^").is_all_assertions());
-
-        // Negative examples.
-        assert!(!t(r"^a").is_all_assertions());
-    }
-
-    #[test]
-    fn analysis_is_anchored() {
-        // Positive examples.
-        assert!(t(r"^").is_anchored_start());
-        assert!(t(r"$").is_anchored_end());
-        assert!(t(r"^").is_line_anchored_start());
-        assert!(t(r"$").is_line_anchored_end());
-
-        assert!(t(r"^^").is_anchored_start());
-        assert!(t(r"$$").is_anchored_end());
-        assert!(t(r"^^").is_line_anchored_start());
-        assert!(t(r"$$").is_line_anchored_end());
-
-        assert!(t(r"^$").is_anchored_start());
-        assert!(t(r"^$").is_anchored_end());
-        assert!(t(r"^$").is_line_anchored_start());
-        assert!(t(r"^$").is_line_anchored_end());
-
-        assert!(t(r"^foo").is_anchored_start());
-        assert!(t(r"foo$").is_anchored_end());
-        assert!(t(r"^foo").is_line_anchored_start());
-        assert!(t(r"foo$").is_line_anchored_end());
-
-        assert!(t(r"^foo|^bar").is_anchored_start());
-        assert!(t(r"foo$|bar$").is_anchored_end());
-        assert!(t(r"^foo|^bar").is_line_anchored_start());
-        assert!(t(r"foo$|bar$").is_line_anchored_end());
-
-        assert!(t(r"^(foo|bar)").is_anchored_start());
-        assert!(t(r"(foo|bar)$").is_anchored_end());
-        assert!(t(r"^(foo|bar)").is_line_anchored_start());
-        assert!(t(r"(foo|bar)$").is_line_anchored_end());
-
-        assert!(t(r"^+").is_anchored_start());
-        assert!(t(r"$+").is_anchored_end());
-        assert!(t(r"^+").is_line_anchored_start());
-        assert!(t(r"$+").is_line_anchored_end());
-        assert!(t(r"^++").is_anchored_start());
-        assert!(t(r"$++").is_anchored_end());
-        assert!(t(r"^++").is_line_anchored_start());
-        assert!(t(r"$++").is_line_anchored_end());
-        assert!(t(r"(^)+").is_anchored_start());
-        assert!(t(r"($)+").is_anchored_end());
-        assert!(t(r"(^)+").is_line_anchored_start());
-        assert!(t(r"($)+").is_line_anchored_end());
-
-        assert!(t(r"$^").is_anchored_start());
-        assert!(t(r"$^").is_anchored_start());
-        assert!(t(r"$^").is_line_anchored_end());
-        assert!(t(r"$^").is_line_anchored_end());
-        assert!(t(r"$^|^$").is_anchored_start());
-        assert!(t(r"$^|^$").is_anchored_end());
-        assert!(t(r"$^|^$").is_line_anchored_start());
-        assert!(t(r"$^|^$").is_line_anchored_end());
-
-        assert!(t(r"\b^").is_anchored_start());
-        assert!(t(r"$\b").is_anchored_end());
-        assert!(t(r"\b^").is_line_anchored_start());
-        assert!(t(r"$\b").is_line_anchored_end());
-        assert!(t(r"^(?m:^)").is_anchored_start());
-        assert!(t(r"(?m:$)$").is_anchored_end());
-        assert!(t(r"^(?m:^)").is_line_anchored_start());
-        assert!(t(r"(?m:$)$").is_line_anchored_end());
-        assert!(t(r"(?m:^)^").is_anchored_start());
-        assert!(t(r"$(?m:$)").is_anchored_end());
-        assert!(t(r"(?m:^)^").is_line_anchored_start());
-        assert!(t(r"$(?m:$)").is_line_anchored_end());
-
-        // Negative examples.
-        assert!(!t(r"(?m)^").is_anchored_start());
-        assert!(!t(r"(?m)$").is_anchored_end());
-        assert!(!t(r"(?m:^$)|$^").is_anchored_start());
-        assert!(!t(r"(?m:^$)|$^").is_anchored_end());
-        assert!(!t(r"$^|(?m:^$)").is_anchored_start());
-        assert!(!t(r"$^|(?m:^$)").is_anchored_end());
-
-        assert!(!t(r"a^").is_anchored_start());
-        assert!(!t(r"$a").is_anchored_start());
-        assert!(!t(r"a^").is_line_anchored_start());
-        assert!(!t(r"$a").is_line_anchored_start());
-
-        assert!(!t(r"a^").is_anchored_end());
-        assert!(!t(r"$a").is_anchored_end());
-        assert!(!t(r"a^").is_line_anchored_end());
-        assert!(!t(r"$a").is_line_anchored_end());
-
-        assert!(!t(r"^foo|bar").is_anchored_start());
-        assert!(!t(r"foo|bar$").is_anchored_end());
-        assert!(!t(r"^foo|bar").is_line_anchored_start());
-        assert!(!t(r"foo|bar$").is_line_anchored_end());
-
-        assert!(!t(r"^*").is_anchored_start());
-        assert!(!t(r"$*").is_anchored_end());
-        assert!(!t(r"^*").is_line_anchored_start());
-        assert!(!t(r"$*").is_line_anchored_end());
-        assert!(!t(r"^*+").is_anchored_start());
-        assert!(!t(r"$*+").is_anchored_end());
-        assert!(!t(r"^*+").is_line_anchored_start());
-        assert!(!t(r"$*+").is_line_anchored_end());
-        assert!(!t(r"^+*").is_anchored_start());
-        assert!(!t(r"$+*").is_anchored_end());
-        assert!(!t(r"^+*").is_line_anchored_start());
-        assert!(!t(r"$+*").is_line_anchored_end());
-        assert!(!t(r"(^)*").is_anchored_start());
-        assert!(!t(r"($)*").is_anchored_end());
-        assert!(!t(r"(^)*").is_line_anchored_start());
-        assert!(!t(r"($)*").is_line_anchored_end());
-    }
-
-    #[test]
-    fn analysis_is_line_anchored() {
-        assert!(t(r"(?m)^(foo|bar)").is_line_anchored_start());
-        assert!(t(r"(?m)(foo|bar)$").is_line_anchored_end());
-
-        assert!(t(r"(?m)^foo|^bar").is_line_anchored_start());
-        assert!(t(r"(?m)foo$|bar$").is_line_anchored_end());
-
-        assert!(t(r"(?m)^").is_line_anchored_start());
-        assert!(t(r"(?m)$").is_line_anchored_end());
-
-        assert!(t(r"(?m:^$)|$^").is_line_anchored_start());
-        assert!(t(r"(?m:^$)|$^").is_line_anchored_end());
-
-        assert!(t(r"$^|(?m:^$)").is_line_anchored_start());
-        assert!(t(r"$^|(?m:^$)").is_line_anchored_end());
-    }
-
-    #[test]
-    fn analysis_is_any_anchored() {
-        // Positive examples.
-        assert!(t(r"^").is_any_anchored_start());
-        assert!(t(r"$").is_any_anchored_end());
-        assert!(t(r"\A").is_any_anchored_start());
-        assert!(t(r"\z").is_any_anchored_end());
-
-        // Negative examples.
-        assert!(!t(r"(?m)^").is_any_anchored_start());
-        assert!(!t(r"(?m)$").is_any_anchored_end());
-        assert!(!t(r"$").is_any_anchored_start());
-        assert!(!t(r"^").is_any_anchored_end());
-    }
-
-    #[test]
-    fn analysis_is_match_empty() {
-        // Positive examples.
-        assert!(t(r"").is_match_empty());
-        assert!(t(r"()").is_match_empty());
-        assert!(t(r"()*").is_match_empty());
-        assert!(t(r"()+").is_match_empty());
-        assert!(t(r"()?").is_match_empty());
-        assert!(t(r"a*").is_match_empty());
-        assert!(t(r"a?").is_match_empty());
-        assert!(t(r"a{0}").is_match_empty());
-        assert!(t(r"a{0,}").is_match_empty());
-        assert!(t(r"a{0,1}").is_match_empty());
-        assert!(t(r"a{0,10}").is_match_empty());
-        assert!(t(r"\pL*").is_match_empty());
-        assert!(t(r"a*|b").is_match_empty());
-        assert!(t(r"b|a*").is_match_empty());
-        assert!(t(r"a*a?(abcd)*").is_match_empty());
-        assert!(t(r"^").is_match_empty());
-        assert!(t(r"$").is_match_empty());
-        assert!(t(r"(?m)^").is_match_empty());
-        assert!(t(r"(?m)$").is_match_empty());
-        assert!(t(r"\A").is_match_empty());
-        assert!(t(r"\z").is_match_empty());
-        assert!(t(r"\B").is_match_empty());
-        assert!(t_bytes(r"(?-u)\B").is_match_empty());
-
-        // Negative examples.
-        assert!(!t(r"a+").is_match_empty());
-        assert!(!t(r"a{1}").is_match_empty());
-        assert!(!t(r"a{1,}").is_match_empty());
-        assert!(!t(r"a{1,2}").is_match_empty());
-        assert!(!t(r"a{1,10}").is_match_empty());
-        assert!(!t(r"b|a").is_match_empty());
-        assert!(!t(r"a*a+(abcd)*").is_match_empty());
-        assert!(!t(r"\b").is_match_empty());
-        assert!(!t(r"(?-u)\b").is_match_empty());
-    }
-
-    #[test]
-    fn analysis_is_literal() {
-        // Positive examples.
-        assert!(t(r"").is_literal());
-        assert!(t(r"a").is_literal());
-        assert!(t(r"ab").is_literal());
-        assert!(t(r"abc").is_literal());
-        assert!(t(r"(?m)abc").is_literal());
-
-        // Negative examples.
-        assert!(!t(r"^").is_literal());
-        assert!(!t(r"a|b").is_literal());
-        assert!(!t(r"(a)").is_literal());
-        assert!(!t(r"a+").is_literal());
-        assert!(!t(r"foo(a)").is_literal());
-        assert!(!t(r"(a)foo").is_literal());
-        assert!(!t(r"[a]").is_literal());
-    }
-
-    #[test]
-    fn analysis_is_alternation_literal() {
-        // Positive examples.
-        assert!(t(r"").is_alternation_literal());
-        assert!(t(r"a").is_alternation_literal());
-        assert!(t(r"ab").is_alternation_literal());
-        assert!(t(r"abc").is_alternation_literal());
-        assert!(t(r"(?m)abc").is_alternation_literal());
-        assert!(t(r"a|b").is_alternation_literal());
-        assert!(t(r"a|b|c").is_alternation_literal());
-        assert!(t(r"foo|bar").is_alternation_literal());
-        assert!(t(r"foo|bar|baz").is_alternation_literal());
-
-        // Negative examples.
-        assert!(!t(r"^").is_alternation_literal());
-        assert!(!t(r"(a)").is_alternation_literal());
-        assert!(!t(r"a+").is_alternation_literal());
-        assert!(!t(r"foo(a)").is_alternation_literal());
-        assert!(!t(r"(a)foo").is_alternation_literal());
-        assert!(!t(r"[a]").is_alternation_literal());
-        assert!(!t(r"[a]|b").is_alternation_literal());
-        assert!(!t(r"a|[b]").is_alternation_literal());
-        assert!(!t(r"(a)|b").is_alternation_literal());
-        assert!(!t(r"a|(b)").is_alternation_literal());
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/hir/visitor.rs.html b/target/doc/src/regex_syntax/hir/visitor.rs.html deleted file mode 100644 index 16102d9..0000000 --- a/target/doc/src/regex_syntax/hir/visitor.rs.html +++ /dev/null @@ -1,447 +0,0 @@ -visitor.rs.html -- source
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-use hir::{self, Hir, HirKind};
-
-/// A trait for visiting the high-level IR (HIR) in depth first order.
-///
-/// The principle aim of this trait is to enable callers to perform case
-/// analysis on a high-level intermediate representation of a regular
-/// expression without necessarily using recursion. In particular, this permits
-/// callers to do case analysis with constant stack usage, which can be
-/// important since the size of an HIR may be proportional to end user input.
-///
-/// Typical usage of this trait involves providing an implementation and then
-/// running it using the [`visit`](fn.visit.html) function.
-pub trait Visitor {
-    /// The result of visiting an HIR.
-    type Output;
-    /// An error that visiting an HIR might return.
-    type Err;
-
-    /// All implementors of `Visitor` must provide a `finish` method, which
-    /// yields the result of visiting the HIR or an error.
-    fn finish(self) -> Result<Self::Output, Self::Err>;
-
-    /// This method is called before beginning traversal of the HIR.
-    fn start(&mut self) {}
-
-    /// This method is called on an `Hir` before descending into child `Hir`
-    /// nodes.
-    fn visit_pre(&mut self, _hir: &Hir) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called on an `Hir` after descending all of its child
-    /// `Hir` nodes.
-    fn visit_post(&mut self, _hir: &Hir) -> Result<(), Self::Err> {
-        Ok(())
-    }
-
-    /// This method is called between child nodes of an alternation.
-    fn visit_alternation_in(&mut self) -> Result<(), Self::Err> {
-        Ok(())
-    }
-}
-
-/// Executes an implementation of `Visitor` in constant stack space.
-///
-/// This function will visit every node in the given `Hir` while calling
-/// appropriate methods provided by the
-/// [`Visitor`](trait.Visitor.html) trait.
-///
-/// The primary use case for this method is when one wants to perform case
-/// analysis over an `Hir` without using a stack size proportional to the depth
-/// of the `Hir`. Namely, this method will instead use constant stack space,
-/// but will use heap space proportional to the size of the `Hir`. This may be
-/// desirable in cases where the size of `Hir` is proportional to end user
-/// input.
-///
-/// If the visitor returns an error at any point, then visiting is stopped and
-/// the error is returned.
-pub fn visit<V: Visitor>(hir: &Hir, visitor: V) -> Result<V::Output, V::Err> {
-    HeapVisitor::new().visit(hir, visitor)
-}
-
-/// HeapVisitor visits every item in an `Hir` recursively using constant stack
-/// size and a heap size proportional to the size of the `Hir`.
-struct HeapVisitor<'a> {
-    /// A stack of `Hir` nodes. This is roughly analogous to the call stack
-    /// used in a typical recursive visitor.
-    stack: Vec<(&'a Hir, Frame<'a>)>,
-}
-
-/// Represents a single stack frame while performing structural induction over
-/// an `Hir`.
-enum Frame<'a> {
-    /// A stack frame allocated just before descending into a repetition
-    /// operator's child node.
-    Repetition(&'a hir::Repetition),
-    /// A stack frame allocated just before descending into a group's child
-    /// node.
-    Group(&'a hir::Group),
-    /// The stack frame used while visiting every child node of a concatenation
-    /// of expressions.
-    Concat {
-        /// The child node we are currently visiting.
-        head: &'a Hir,
-        /// The remaining child nodes to visit (which may be empty).
-        tail: &'a [Hir],
-    },
-    /// The stack frame used while visiting every child node of an alternation
-    /// of expressions.
-    Alternation {
-        /// The child node we are currently visiting.
-        head: &'a Hir,
-        /// The remaining child nodes to visit (which may be empty).
-        tail: &'a [Hir],
-    },
-}
-
-impl<'a> HeapVisitor<'a> {
-    fn new() -> HeapVisitor<'a> {
-        HeapVisitor { stack: vec![] }
-    }
-
-    fn visit<V: Visitor>(
-        &mut self,
-        mut hir: &'a Hir,
-        mut visitor: V,
-    ) -> Result<V::Output, V::Err> {
-        self.stack.clear();
-
-        visitor.start();
-        loop {
-            visitor.visit_pre(hir)?;
-            if let Some(x) = self.induct(hir) {
-                let child = x.child();
-                self.stack.push((hir, x));
-                hir = child;
-                continue;
-            }
-            // No induction means we have a base case, so we can post visit
-            // it now.
-            visitor.visit_post(hir)?;
-
-            // At this point, we now try to pop our call stack until it is
-            // either empty or we hit another inductive case.
-            loop {
-                let (post_hir, frame) = match self.stack.pop() {
-                    None => return visitor.finish(),
-                    Some((post_hir, frame)) => (post_hir, frame),
-                };
-                // If this is a concat/alternate, then we might have additional
-                // inductive steps to process.
-                if let Some(x) = self.pop(frame) {
-                    if let Frame::Alternation {..} = x {
-                        visitor.visit_alternation_in()?;
-                    }
-                    hir = x.child();
-                    self.stack.push((post_hir, x));
-                    break;
-                }
-                // Otherwise, we've finished visiting all the child nodes for
-                // this HIR, so we can post visit it now.
-                visitor.visit_post(post_hir)?;
-            }
-        }
-    }
-
-    /// Build a stack frame for the given HIR if one is needed (which occurs if
-    /// and only if there are child nodes in the HIR). Otherwise, return None.
-    fn induct(&mut self, hir: &'a Hir) -> Option<Frame<'a>> {
-        match *hir.kind() {
-            HirKind::Repetition(ref x) => Some(Frame::Repetition(x)),
-            HirKind::Group(ref x) => Some(Frame::Group(x)),
-            HirKind::Concat(ref x) if x.is_empty() => None,
-            HirKind::Concat(ref x) => {
-                Some(Frame::Concat {
-                    head: &x[0],
-                    tail: &x[1..],
-                })
-            }
-            HirKind::Alternation(ref x) if x.is_empty() => None,
-            HirKind::Alternation(ref x) => {
-                Some(Frame::Alternation {
-                    head: &x[0],
-                    tail: &x[1..],
-                })
-            }
-            _ => None,
-        }
-    }
-
-    /// Pops the given frame. If the frame has an additional inductive step,
-    /// then return it, otherwise return `None`.
-    fn pop(&self, induct: Frame<'a>) -> Option<Frame<'a>> {
-        match induct {
-            Frame::Repetition(_) => None,
-            Frame::Group(_) => None,
-            Frame::Concat { tail, .. } => {
-                if tail.is_empty() {
-                    None
-                } else {
-                    Some(Frame::Concat {
-                        head: &tail[0],
-                        tail: &tail[1..],
-                    })
-                }
-            }
-            Frame::Alternation { tail, .. } => {
-                if tail.is_empty() {
-                    None
-                } else {
-                    Some(Frame::Alternation {
-                        head: &tail[0],
-                        tail: &tail[1..],
-                    })
-                }
-            }
-        }
-    }
-}
-
-impl<'a> Frame<'a> {
-    /// Perform the next inductive step on this frame and return the next
-    /// child HIR node to visit.
-    fn child(&self) -> &'a Hir {
-        match *self {
-            Frame::Repetition(rep) => &rep.hir,
-            Frame::Group(group) => &group.hir,
-            Frame::Concat { head, .. } => head,
-            Frame::Alternation { head, .. } => head,
-        }
-    }
-}
-
-
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-
-// Copyright 2018 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-/*!
-This crate provides a robust regular expression parser.
-
-This crate defines two primary types:
-
-* [`Ast`](ast/enum.Ast.html) is the abstract syntax of a regular expression.
-  An abstract syntax corresponds to a *structured representation* of the
-  concrete syntax of a regular expression, where the concrete syntax is the
-  pattern string itself (e.g., `foo(bar)+`). Given some abstract syntax, it
-  can be converted back to the original concrete syntax (modulo some details,
-  like whitespace). To a first approximation, the abstract syntax is complex
-  and difficult to analyze.
-* [`Hir`](hir/struct.Hir.html) is the high-level intermediate representation
-  ("HIR" or "high-level IR" for short) of regular expression. It corresponds to
-  an intermediate state of a regular expression that sits between the abstract
-  syntax and the low level compiled opcodes that are eventually responsible for
-  executing a regular expression search. Given some high-level IR, it is not
-  possible to produce the original concrete syntax (although it is possible to
-  produce an equivalent concrete syntax, but it will likely scarcely resemble
-  the original pattern). To a first approximation, the high-level IR is simple
-  and easy to analyze.
-
-These two types come with conversion routines:
-
-* An [`ast::parse::Parser`](ast/parse/struct.Parser.html) converts concrete
-  syntax (a `&str`) to an [`Ast`](ast/enum.Ast.html).
-* A [`hir::translate::Translator`](hir/translate/struct.Translator.html)
-  converts an [`Ast`](ast/enum.Ast.html) to a [`Hir`](hir/struct.Hir.html).
-
-As a convenience, the above two conversion routines are combined into one via
-the top-level [`Parser`](struct.Parser.html) type. This `Parser` will first
-convert your pattern to an `Ast` and then convert the `Ast` to an `Hir`.
-
-
-# Example
-
-This example shows how to parse a pattern string into its HIR:
-
-```
-use regex_syntax::Parser;
-use regex_syntax::hir::{self, Hir};
-
-let hir = Parser::new().parse("a|b").unwrap();
-assert_eq!(hir, Hir::alternation(vec![
-    Hir::literal(hir::Literal::Unicode('a')),
-    Hir::literal(hir::Literal::Unicode('b')),
-]));
-```
-
-
-# Concrete syntax supported
-
-The concrete syntax is documented as part of the public API of the
-[`regex` crate](https://docs.rs/regex/%2A/regex/#syntax).
-
-
-# Input safety
-
-A key feature of this library is that it is safe to use with end user facing
-input. This plays a significant role in the internal implementation. In
-particular:
-
-1. Parsers provide a `nest_limit` option that permits callers to control how
-   deeply nested a regular expression is allowed to be. This makes it possible
-   to do case analysis over an `Ast` or an `Hir` using recursion without
-   worrying about stack overflow.
-2. Since relying on a particular stack size is brittle, this crate goes to
-   great lengths to ensure that all interactions with both the `Ast` and the
-   `Hir` do not use recursion. Namely, they use constant stack space and heap
-   space proportional to the size of the original pattern string (in bytes).
-   This includes the type's corresponding destructors. (One exception to this
-   is literal extraction, but this will eventually get fixed.)
-
-
-# Error reporting
-
-The `Display` implementations on all `Error` types exposed in this library
-provide nice human readable errors that are suitable for showing to end users
-in a monospace font.
-
-
-# Literal extraction
-
-This crate provides limited support for
-[literal extraction from `Hir` values](hir/literal/struct.Literals.html).
-Be warned that literal extraction currently uses recursion, and therefore,
-stack size proportional to the size of the `Hir`.
-
-The purpose of literal extraction is to speed up searches. That is, if you
-know a regular expression must match a prefix or suffix literal, then it is
-often quicker to search for instances of that literal, and then confirm or deny
-the match using the full regular expression engine. These optimizations are
-done automatically in the `regex` crate.
-*/
-
-#![deny(missing_docs)]
-
-extern crate ucd_util;
-
-pub use error::{Error, Result};
-pub use parser::{Parser, ParserBuilder};
-
-pub mod ast;
-mod either;
-mod error;
-pub mod hir;
-mod parser;
-mod unicode;
-mod unicode_tables;
-
-/// Escapes all regular expression meta characters in `text`.
-///
-/// The string returned may be safely used as a literal in a regular
-/// expression.
-pub fn escape(text: &str) -> String {
-    let mut quoted = String::with_capacity(text.len());
-    escape_into(text, &mut quoted);
-    quoted
-}
-
-/// Escapes all meta characters in `text` and writes the result into `buf`.
-///
-/// This will append escape characters into the given buffer. The characters
-/// that are appended are safe to use as a literal in a regular expression.
-pub fn escape_into(text: &str, buf: &mut String) {
-    for c in text.chars() {
-        if is_meta_character(c) {
-            buf.push('\\');
-        }
-        buf.push(c);
-    }
-}
-
-/// Returns true if the give character has significance in a regex.
-///
-/// These are the only characters that are allowed to be escaped, with one
-/// exception: an ASCII space character may be escaped when extended mode (with
-/// the `x` flag) is enabld. In particular, `is_meta_character(' ')` returns
-/// `false`.
-///
-/// Note that the set of characters for which this function returns `true` or
-/// `false` is fixed and won't change in a semver compatible release.
-pub fn is_meta_character(c: char) -> bool {
-    match c {
-        '\\' | '.' | '+' | '*' | '?' | '(' | ')' | '|' |
-        '[' | ']' | '{' | '}' | '^' | '$' | '#' | '&' | '-' | '~' => true,
-        _ => false,
-    }
-}
-
-/// Returns true if and only if the given character is a Unicode word
-/// character.
-///
-/// A Unicode word character is defined by
-/// [UTS#18 Annex C](http://unicode.org/reports/tr18/#Compatibility_Properties).
-/// In particular, a character
-/// is considered a word character if it is in either of the `Alphabetic` or
-/// `Join_Control` properties, or is in one of the `Decimal_Number`, `Mark`
-/// or `Connector_Punctuation` general categories.
-pub fn is_word_character(c: char) -> bool {
-    use std::cmp::Ordering;
-    use unicode_tables::perl_word::PERL_WORD;
-
-    if c <= 0x7F as char && is_word_byte(c as u8) {
-        return true;
-    }
-    PERL_WORD
-        .binary_search_by(|&(start, end)| {
-            if start <= c && c <= end {
-                Ordering::Equal
-            } else if start > c {
-                Ordering::Greater
-            } else {
-                Ordering::Less
-            }
-        }).is_ok()
-}
-
-/// Returns true if and only if the given character is an ASCII word character.
-///
-/// An ASCII word character is defined by the following character class:
-/// `[_0-9a-zA-Z]'.
-pub fn is_word_byte(c: u8) -> bool {
-    match c {
-        b'_' | b'0' ..= b'9' | b'a' ..= b'z' | b'A' ..= b'Z'  => true,
-        _ => false,
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    #[test]
-    fn escape_meta() {
-        assert_eq!(
-            escape(r"\.+*?()|[]{}^$#&-~"),
-            r"\\\.\+\*\?\(\)\|\[\]\{\}\^\$\#\&\-\~".to_string());
-    }
-
-    #[test]
-    fn word() {
-        assert!(is_word_byte(b'a'));
-        assert!(!is_word_byte(b'-'));
-
-        assert!(is_word_character('a'), "ASCII");
-        assert!(is_word_character('à'), "Latin-1");
-        assert!(is_word_character('β'), "Greek");
-        assert!(is_word_character('\u{11011}'), "Brahmi (Unicode 6.0)");
-        assert!(is_word_character('\u{11611}'), "Modi (Unicode 7.0)");
-        assert!(is_word_character('\u{11711}'), "Ahom (Unicode 8.0)");
-        assert!(is_word_character('\u{17828}'), "Tangut (Unicode 9.0)");
-        assert!(is_word_character('\u{1B1B1}'), "Nushu (Unicode 10.0)");
-        assert!(is_word_character('\u{16E40}'), "Medefaidrin (Unicode 11.0)");
-        assert!(!is_word_character('-'));
-        assert!(!is_word_character('☃'));
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/parser.rs.html b/target/doc/src/regex_syntax/parser.rs.html deleted file mode 100644 index 46712b8..0000000 --- a/target/doc/src/regex_syntax/parser.rs.html +++ /dev/null @@ -1,415 +0,0 @@ -parser.rs.html -- source
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-
-use ast;
-use hir;
-
-use Result;
-
-/// A builder for a regular expression parser.
-///
-/// This builder permits modifying configuration options for the parser.
-///
-/// This type combines the builder options for both the
-/// [AST `ParserBuilder`](ast/parse/struct.ParserBuilder.html)
-/// and the
-/// [HIR `TranslatorBuilder`](hir/translate/struct.TranslatorBuilder.html).
-#[derive(Clone, Debug, Default)]
-pub struct ParserBuilder {
-    ast: ast::parse::ParserBuilder,
-    hir: hir::translate::TranslatorBuilder,
-}
-
-impl ParserBuilder {
-    /// Create a new parser builder with a default configuration.
-    pub fn new() -> ParserBuilder {
-        ParserBuilder::default()
-    }
-
-    /// Build a parser from this configuration with the given pattern.
-    pub fn build(&self) -> Parser {
-        Parser {
-            ast: self.ast.build(),
-            hir: self.hir.build(),
-        }
-    }
-
-    /// Set the nesting limit for this parser.
-    ///
-    /// The nesting limit controls how deep the abstract syntax tree is allowed
-    /// to be. If the AST exceeds the given limit (e.g., with too many nested
-    /// groups), then an error is returned by the parser.
-    ///
-    /// The purpose of this limit is to act as a heuristic to prevent stack
-    /// overflow for consumers that do structural induction on an `Ast` using
-    /// explicit recursion. While this crate never does this (instead using
-    /// constant stack space and moving the call stack to the heap), other
-    /// crates may.
-    ///
-    /// This limit is not checked until the entire Ast is parsed. Therefore,
-    /// if callers want to put a limit on the amount of heap space used, then
-    /// they should impose a limit on the length, in bytes, of the concrete
-    /// pattern string. In particular, this is viable since this parser
-    /// implementation will limit itself to heap space proportional to the
-    /// lenth of the pattern string.
-    ///
-    /// Note that a nest limit of `0` will return a nest limit error for most
-    /// patterns but not all. For example, a nest limit of `0` permits `a` but
-    /// not `ab`, since `ab` requires a concatenation, which results in a nest
-    /// depth of `1`. In general, a nest limit is not something that manifests
-    /// in an obvious way in the concrete syntax, therefore, it should not be
-    /// used in a granular way.
-    pub fn nest_limit(&mut self, limit: u32) -> &mut ParserBuilder {
-        self.ast.nest_limit(limit);
-        self
-    }
-
-    /// Whether to support octal syntax or not.
-    ///
-    /// Octal syntax is a little-known way of uttering Unicode codepoints in
-    /// a regular expression. For example, `a`, `\x61`, `\u0061` and
-    /// `\141` are all equivalent regular expressions, where the last example
-    /// shows octal syntax.
-    ///
-    /// While supporting octal syntax isn't in and of itself a problem, it does
-    /// make good error messages harder. That is, in PCRE based regex engines,
-    /// syntax like `\0` invokes a backreference, which is explicitly
-    /// unsupported in Rust's regex engine. However, many users expect it to
-    /// be supported. Therefore, when octal support is disabled, the error
-    /// message will explicitly mention that backreferences aren't supported.
-    ///
-    /// Octal syntax is disabled by default.
-    pub fn octal(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.ast.octal(yes);
-        self
-    }
-
-    /// When enabled, the parser will permit the construction of a regular
-    /// expression that may match invalid UTF-8.
-    ///
-    /// When disabled (the default), the parser is guaranteed to produce
-    /// an expression that will only ever match valid UTF-8 (otherwise, the
-    /// parser will return an error).
-    ///
-    /// Perhaps surprisingly, when invalid UTF-8 isn't allowed, a negated ASCII
-    /// word boundary (uttered as `(?-u:\B)` in the concrete syntax) will cause
-    /// the parser to return an error. Namely, a negated ASCII word boundary
-    /// can result in matching positions that aren't valid UTF-8 boundaries.
-    pub fn allow_invalid_utf8(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.hir.allow_invalid_utf8(yes);
-        self
-    }
-
-    /// Enable verbose mode in the regular expression.
-    ///
-    /// When enabled, verbose mode permits insigificant whitespace in many
-    /// places in the regular expression, as well as comments. Comments are
-    /// started using `#` and continue until the end of the line.
-    ///
-    /// By default, this is disabled. It may be selectively enabled in the
-    /// regular expression by using the `x` flag regardless of this setting.
-    pub fn ignore_whitespace(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.ast.ignore_whitespace(yes);
-        self
-    }
-
-    /// Enable or disable the case insensitive flag by default.
-    ///
-    /// By default this is disabled. It may alternatively be selectively
-    /// enabled in the regular expression itself via the `i` flag.
-    pub fn case_insensitive(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.hir.case_insensitive(yes);
-        self
-    }
-
-    /// Enable or disable the multi-line matching flag by default.
-    ///
-    /// By default this is disabled. It may alternatively be selectively
-    /// enabled in the regular expression itself via the `m` flag.
-    pub fn multi_line(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.hir.multi_line(yes);
-        self
-    }
-
-    /// Enable or disable the "dot matches any character" flag by default.
-    ///
-    /// By default this is disabled. It may alternatively be selectively
-    /// enabled in the regular expression itself via the `s` flag.
-    pub fn dot_matches_new_line(
-        &mut self,
-        yes: bool,
-    ) -> &mut ParserBuilder {
-        self.hir.dot_matches_new_line(yes);
-        self
-    }
-
-    /// Enable or disable the "swap greed" flag by default.
-    ///
-    /// By default this is disabled. It may alternatively be selectively
-    /// enabled in the regular expression itself via the `U` flag.
-    pub fn swap_greed(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.hir.swap_greed(yes);
-        self
-    }
-
-    /// Enable or disable the Unicode flag (`u`) by default.
-    ///
-    /// By default this is **enabled**. It may alternatively be selectively
-    /// disabled in the regular expression itself via the `u` flag.
-    ///
-    /// Note that unless `allow_invalid_utf8` is enabled (it's disabled by
-    /// default), a regular expression will fail to parse if Unicode mode is
-    /// disabled and a sub-expression could possibly match invalid UTF-8.
-    pub fn unicode(&mut self, yes: bool) -> &mut ParserBuilder {
-        self.hir.unicode(yes);
-        self
-    }
-}
-
-/// A convenience parser for regular expressions.
-///
-/// This parser takes as input a regular expression pattern string (the
-/// "concrete syntax") and returns a high-level intermediate representation
-/// (the HIR) suitable for most types of analysis. In particular, this parser
-/// hides the intermediate state of producing an AST (the "abstract syntax").
-/// The AST is itself far more complex than the HIR, so this parser serves as a
-/// convenience for never having to deal with it at all.
-///
-/// If callers have more fine grained use cases that need an AST, then please
-/// see the [`ast::parse`](ast/parse/index.html) module.
-///
-/// A `Parser` can be configured in more detail via a
-/// [`ParserBuilder`](struct.ParserBuilder.html).
-#[derive(Clone, Debug)]
-pub struct Parser {
-    ast: ast::parse::Parser,
-    hir: hir::translate::Translator,
-}
-
-impl Parser {
-    /// Create a new parser with a default configuration.
-    ///
-    /// The parser can be run with `parse` method. The parse method returns
-    /// a high level intermediate representation of the given regular
-    /// expression.
-    ///
-    /// To set configuration options on the parser, use
-    /// [`ParserBuilder`](struct.ParserBuilder.html).
-    pub fn new() -> Parser {
-        ParserBuilder::new().build()
-    }
-
-    /// Parse the regular expression into a high level intermediate
-    /// representation.
-    pub fn parse(&mut self, pattern: &str) -> Result<hir::Hir> {
-        let ast = self.ast.parse(pattern)?;
-        let hir = self.hir.translate(pattern, &ast)?;
-        Ok(hir)
-    }
-}
-
-
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-
-use std::cmp::Ordering;
-use std::result;
-
-use ucd_util::{self, PropertyValues};
-
-use hir;
-use unicode_tables::age;
-use unicode_tables::case_folding_simple::CASE_FOLDING_SIMPLE;
-use unicode_tables::general_category;
-use unicode_tables::grapheme_cluster_break;
-use unicode_tables::property_bool;
-use unicode_tables::property_names::PROPERTY_NAMES;
-use unicode_tables::property_values::PROPERTY_VALUES;
-use unicode_tables::script;
-use unicode_tables::script_extension;
-use unicode_tables::sentence_break;
-use unicode_tables::word_break;
-
-type Result<T> = result::Result<T, Error>;
-
-/// An error that occurs when dealing with Unicode.
-///
-/// We don't impl the Error trait here because these always get converted
-/// into other public errors. (This error type isn't exported.)
-#[derive(Debug)]
-pub enum Error {
-    PropertyNotFound,
-    PropertyValueNotFound,
-}
-
-/// An iterator over a codepoint's simple case equivalence class.
-#[derive(Debug)]
-pub struct SimpleFoldIter(::std::slice::Iter<'static, char>);
-
-impl Iterator for SimpleFoldIter {
-    type Item = char;
-
-    fn next(&mut self) -> Option<char> {
-        self.0.next().map(|c| *c)
-    }
-}
-
-/// Return an iterator over the equivalence class of simple case mappings
-/// for the given codepoint. The equivalence class does not include the
-/// given codepoint.
-///
-/// If the equivalence class is empty, then this returns the next scalar
-/// value that has a non-empty equivalence class, if it exists. If no such
-/// scalar value exists, then `None` is returned. The point of this behavior
-/// is to permit callers to avoid calling `simple_fold` more than they need
-/// to, since there is some cost to fetching the equivalence class.
-pub fn simple_fold(c: char) -> result::Result<SimpleFoldIter, Option<char>> {
-    CASE_FOLDING_SIMPLE
-        .binary_search_by_key(&c, |&(c1, _)| c1)
-        .map(|i| SimpleFoldIter(CASE_FOLDING_SIMPLE[i].1.iter()))
-        .map_err(|i| {
-            if i >= CASE_FOLDING_SIMPLE.len() {
-                None
-            } else {
-                Some(CASE_FOLDING_SIMPLE[i].0)
-            }
-        })
-}
-
-/// Returns true if and only if the given (inclusive) range contains at least
-/// one Unicode scalar value that has a non-empty non-trivial simple case
-/// mapping.
-///
-/// This function panics if `end < start`.
-pub fn contains_simple_case_mapping(start: char, end: char) -> bool {
-    assert!(start <= end);
-    CASE_FOLDING_SIMPLE
-        .binary_search_by(|&(c, _)| {
-            if start <= c && c <= end {
-                Ordering::Equal
-            } else if c > end {
-                Ordering::Greater
-            } else {
-                Ordering::Less
-            }
-        }).is_ok()
-}
-
-/// A query for finding a character class defined by Unicode. This supports
-/// either use of a property name directly, or lookup by property value. The
-/// former generally refers to Binary properties (see UTS#44, Table 8), but
-/// as a special exception (see UTS#18, Section 1.2) both general categories
-/// (an enumeration) and scripts (a catalog) are supported as if each of their
-/// possible values were a binary property.
-///
-/// In all circumstances, property names and values are normalized and
-/// canonicalized. That is, `GC == gc == GeneralCategory == general_category`.
-///
-/// The lifetime `'a` refers to the shorter of the lifetimes of property name
-/// and property value.
-#[derive(Debug)]
-pub enum ClassQuery<'a> {
-    /// Return a class corresponding to a Unicode binary property, named by
-    /// a single letter.
-    OneLetter(char),
-    /// Return a class corresponding to a Unicode binary property.
-    ///
-    /// Note that, by special exception (see UTS#18, Section 1.2), both
-    /// general category values and script values are permitted here as if
-    /// they were a binary property.
-    Binary(&'a str),
-    /// Return a class corresponding to all codepoints whose property
-    /// (identified by `property_name`) corresponds to the given value
-    /// (identified by `property_value`).
-    ByValue {
-        /// A property name.
-        property_name: &'a str,
-        /// A property value.
-        property_value: &'a str,
-    },
-}
-
-impl<'a> ClassQuery<'a> {
-    fn canonicalize(&self) -> Result<CanonicalClassQuery> {
-        match *self {
-            ClassQuery::OneLetter(c) => self.canonical_binary(&c.to_string()),
-            ClassQuery::Binary(name) => self.canonical_binary(name),
-            ClassQuery::ByValue { property_name, property_value } => {
-                let property_name = normalize(property_name);
-                let property_value = normalize(property_value);
-
-                let canon_name = match canonical_prop(&property_name) {
-                    None => return Err(Error::PropertyNotFound),
-                    Some(canon_name) => canon_name,
-                };
-                Ok(match canon_name {
-                    "General_Category" => {
-                        let canon = match canonical_gencat(&property_value) {
-                            None => return Err(Error::PropertyValueNotFound),
-                            Some(canon) => canon,
-                        };
-                        CanonicalClassQuery::GeneralCategory(canon)
-                    }
-                    "Script" => {
-                        let canon = match canonical_script(&property_value) {
-                            None => return Err(Error::PropertyValueNotFound),
-                            Some(canon) => canon,
-                        };
-                        CanonicalClassQuery::Script(canon)
-                    }
-                    _ => {
-                        let vals = match property_values(canon_name) {
-                            None => return Err(Error::PropertyValueNotFound),
-                            Some(vals) => vals,
-                        };
-                        let canon_val = match canonical_value(
-                            vals,
-                            &property_value,
-                        ) {
-                            None => return Err(Error::PropertyValueNotFound),
-                            Some(canon_val) => canon_val,
-                        };
-                        CanonicalClassQuery::ByValue {
-                            property_name: canon_name,
-                            property_value: canon_val,
-                        }
-                    }
-                })
-            }
-        }
-    }
-
-    fn canonical_binary(&self, name: &str) -> Result<CanonicalClassQuery> {
-        let norm = normalize(name);
-
-        if let Some(canon) = canonical_prop(&norm) {
-            return Ok(CanonicalClassQuery::Binary(canon));
-        }
-        if let Some(canon) = canonical_gencat(&norm) {
-            return Ok(CanonicalClassQuery::GeneralCategory(canon));
-        }
-        if let Some(canon) = canonical_script(&norm) {
-            return Ok(CanonicalClassQuery::Script(canon));
-        }
-        Err(Error::PropertyNotFound)
-    }
-}
-
-/// Like ClassQuery, but its parameters have been canonicalized. This also
-/// differentiates binary properties from flattened general categories and
-/// scripts.
-#[derive(Debug, Eq, PartialEq)]
-enum CanonicalClassQuery {
-    /// The canonical binary property name.
-    Binary(&'static str),
-    /// The canonical general category name.
-    GeneralCategory(&'static str),
-    /// The canonical script name.
-    Script(&'static str),
-    /// An arbitrary association between property and value, both of which
-    /// have been canonicalized.
-    ///
-    /// Note that by construction, the property name of ByValue will never
-    /// be General_Category or Script. Those two cases are subsumed by the
-    /// eponymous variants.
-    ByValue {
-        /// The canonical property name.
-        property_name: &'static str,
-        /// The canonical property value.
-        property_value: &'static str,
-    },
-}
-
-/// Looks up a Unicode class given a query. If one doesn't exist, then
-/// `None` is returned.
-pub fn class<'a>(query: ClassQuery<'a>) -> Result<hir::ClassUnicode> {
-    use self::CanonicalClassQuery::*;
-
-    match query.canonicalize()? {
-        Binary(name) => {
-            property_set(property_bool::BY_NAME, name)
-                .map(hir_class)
-                .ok_or(Error::PropertyNotFound)
-        }
-        GeneralCategory("Any") => {
-            Ok(hir_class(&[('\0', '\u{10FFFF}')]))
-        }
-        GeneralCategory("Assigned") => {
-            let mut cls =
-                property_set(general_category::BY_NAME, "Unassigned")
-                    .map(hir_class)
-                    .ok_or(Error::PropertyNotFound)?;
-            cls.negate();
-            Ok(cls)
-        }
-        GeneralCategory("ASCII") => {
-            Ok(hir_class(&[('\0', '\x7F')]))
-        }
-        GeneralCategory(name) => {
-            property_set(general_category::BY_NAME, name)
-                .map(hir_class)
-                .ok_or(Error::PropertyValueNotFound)
-        }
-        Script(name) => {
-            property_set(script::BY_NAME, name)
-                .map(hir_class)
-                .ok_or(Error::PropertyValueNotFound)
-        }
-        ByValue { property_name: "Age", property_value } => {
-            let mut class = hir::ClassUnicode::empty();
-            for set in ages(property_value)? {
-                class.union(&hir_class(set));
-            }
-            Ok(class)
-        }
-        ByValue { property_name: "Script_Extensions", property_value } => {
-            property_set(script_extension::BY_NAME, property_value)
-                .map(hir_class)
-                .ok_or(Error::PropertyValueNotFound)
-        }
-        ByValue { property_name: "Grapheme_Cluster_Break", property_value } => {
-            property_set(grapheme_cluster_break::BY_NAME, property_value)
-                .map(hir_class)
-                .ok_or(Error::PropertyValueNotFound)
-        }
-        ByValue { property_name: "Sentence_Break", property_value } => {
-            property_set(sentence_break::BY_NAME, property_value)
-                .map(hir_class)
-                .ok_or(Error::PropertyValueNotFound)
-        }
-        ByValue { property_name: "Word_Break", property_value } => {
-            property_set(word_break::BY_NAME, property_value)
-                .map(hir_class)
-                .ok_or(Error::PropertyValueNotFound)
-        }
-        _ => {
-            // What else should we support?
-            Err(Error::PropertyNotFound)
-        }
-    }
-}
-
-/// Build a Unicode HIR class from a sequence of Unicode scalar value ranges.
-pub fn hir_class(ranges: &[(char, char)]) -> hir::ClassUnicode {
-    let hir_ranges: Vec<hir::ClassUnicodeRange> = ranges
-        .iter()
-        .map(|&(s, e)| hir::ClassUnicodeRange::new(s, e))
-        .collect();
-    hir::ClassUnicode::new(hir_ranges)
-}
-
-fn canonical_prop(normalized_name: &str) -> Option<&'static str> {
-    ucd_util::canonical_property_name(PROPERTY_NAMES, normalized_name)
-}
-
-fn canonical_gencat(normalized_value: &str) -> Option<&'static str> {
-    match normalized_value {
-        "any" => Some("Any"),
-        "assigned" => Some("Assigned"),
-        "ascii" => Some("ASCII"),
-        _ => {
-            let gencats = property_values("General_Category").unwrap();
-            canonical_value(gencats, normalized_value)
-        }
-    }
-}
-
-fn canonical_script(normalized_value: &str) -> Option<&'static str> {
-    let scripts = property_values("Script").unwrap();
-    canonical_value(scripts, normalized_value)
-}
-
-fn canonical_value(
-    vals: PropertyValues,
-    normalized_value: &str,
-) -> Option<&'static str> {
-    ucd_util::canonical_property_value(vals, normalized_value)
-}
-
-fn normalize(x: &str) -> String {
-    let mut x = x.to_string();
-    ucd_util::symbolic_name_normalize(&mut x);
-    x
-}
-
-fn property_values(
-    canonical_property_name: &'static str,
-) -> Option<PropertyValues>
-{
-    ucd_util::property_values(PROPERTY_VALUES, canonical_property_name)
-}
-
-fn property_set(
-    name_map: &'static [(&'static str, &'static [(char, char)])],
-    canonical: &'static str,
-) -> Option<&'static [(char, char)]> {
-    name_map
-        .binary_search_by_key(&canonical, |x| x.0)
-        .ok()
-        .map(|i| name_map[i].1)
-}
-
-/// An iterator over Unicode Age sets. Each item corresponds to a set of
-/// codepoints that were added in a particular revision of Unicode. The
-/// iterator yields items in chronological order.
-#[derive(Debug)]
-struct AgeIter {
-    ages: &'static [(&'static str, &'static [(char, char)])],
-}
-
-fn ages(canonical_age: &str) -> Result<AgeIter> {
-    const AGES: &'static [(&'static str, &'static [(char, char)])] = &[
-        ("V1_1", age::V1_1),
-        ("V2_0", age::V2_0),
-        ("V2_1", age::V2_1),
-        ("V3_0", age::V3_0),
-        ("V3_1", age::V3_1),
-        ("V3_2", age::V3_2),
-        ("V4_0", age::V4_0),
-        ("V4_1", age::V4_1),
-        ("V5_0", age::V5_0),
-        ("V5_1", age::V5_1),
-        ("V5_2", age::V5_2),
-        ("V6_0", age::V6_0),
-        ("V6_1", age::V6_1),
-        ("V6_2", age::V6_2),
-        ("V6_3", age::V6_3),
-        ("V7_0", age::V7_0),
-        ("V8_0", age::V8_0),
-        ("V9_0", age::V9_0),
-        ("V10_0", age::V10_0),
-        ("V11_0", age::V11_0),
-        ("V12_0", age::V12_0),
-        ("V12_1", age::V12_1),
-    ];
-    assert_eq!(AGES.len(), age::BY_NAME.len(), "ages are out of sync");
-
-    let pos = AGES.iter().position(|&(age, _)| canonical_age == age);
-    match pos {
-        None => Err(Error::PropertyValueNotFound),
-        Some(i) => Ok(AgeIter { ages: &AGES[..i+1] }),
-    }
-}
-
-impl Iterator for AgeIter {
-    type Item = &'static [(char, char)];
-
-    fn next(&mut self) -> Option<&'static [(char, char)]> {
-        if self.ages.is_empty() {
-            None
-        } else {
-            let set = self.ages[0];
-            self.ages = &self.ages[1..];
-            Some(set.1)
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::{contains_simple_case_mapping, simple_fold};
-
-    #[test]
-    fn simple_fold_k() {
-        let xs: Vec<char> = simple_fold('k').unwrap().collect();
-        assert_eq!(xs, vec!['K', 'K']);
-
-        let xs: Vec<char> = simple_fold('K').unwrap().collect();
-        assert_eq!(xs, vec!['k', 'K']);
-
-        let xs: Vec<char> = simple_fold('K').unwrap().collect();
-        assert_eq!(xs, vec!['K', 'k']);
-    }
-
-    #[test]
-    fn simple_fold_a() {
-        let xs: Vec<char> = simple_fold('a').unwrap().collect();
-        assert_eq!(xs, vec!['A']);
-
-        let xs: Vec<char> = simple_fold('A').unwrap().collect();
-        assert_eq!(xs, vec!['a']);
-    }
-
-    #[test]
-    fn simple_fold_empty() {
-        assert_eq!(Some('A'), simple_fold('?').unwrap_err());
-        assert_eq!(Some('A'), simple_fold('@').unwrap_err());
-        assert_eq!(Some('a'), simple_fold('[').unwrap_err());
-        assert_eq!(Some('Ⰰ'), simple_fold('☃').unwrap_err());
-    }
-
-    #[test]
-    fn simple_fold_max() {
-        assert_eq!(None, simple_fold('\u{10FFFE}').unwrap_err());
-        assert_eq!(None, simple_fold('\u{10FFFF}').unwrap_err());
-    }
-
-    #[test]
-    fn range_contains() {
-        assert!(contains_simple_case_mapping('A', 'A'));
-        assert!(contains_simple_case_mapping('Z', 'Z'));
-        assert!(contains_simple_case_mapping('A', 'Z'));
-        assert!(contains_simple_case_mapping('@', 'A'));
-        assert!(contains_simple_case_mapping('Z', '['));
-        assert!(contains_simple_case_mapping('☃', 'Ⰰ'));
-
-        assert!(!contains_simple_case_mapping('[', '['));
-        assert!(!contains_simple_case_mapping('[', '`'));
-
-        assert!(!contains_simple_case_mapping('☃', '☃'));
-    }
-
-    #[test]
-    fn regression_466() {
-        use super::{CanonicalClassQuery, ClassQuery};
-
-        let q = ClassQuery::OneLetter('C');
-        assert_eq!(
-            q.canonicalize().unwrap(),
-            CanonicalClassQuery::GeneralCategory("Other"));
-    }
-}
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate age /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("V10_0", V10_0), ("V11_0", V11_0), ("V12_0", V12_0), ("V12_1", V12_1),
-  ("V1_1", V1_1), ("V2_0", V2_0), ("V2_1", V2_1), ("V3_0", V3_0),
-  ("V3_1", V3_1), ("V3_2", V3_2), ("V4_0", V4_0), ("V4_1", V4_1),
-  ("V5_0", V5_0), ("V5_1", V5_1), ("V5_2", V5_2), ("V6_0", V6_0),
-  ("V6_1", V6_1), ("V6_2", V6_2), ("V6_3", V6_3), ("V7_0", V7_0),
-  ("V8_0", V8_0), ("V9_0", V9_0),
-];
-
-pub const V10_0: &'static [(char, char)] = &[
-  ('ࡠ', 'ࡪ'), ('ৼ', '৽'), ('\u{afa}', '\u{aff}'),
-  ('\u{d00}', '\u{d00}'), ('\u{d3b}', '\u{d3c}'), ('᳷', '᳷'),
-  ('\u{1df6}', '\u{1df9}'), ('₿', '₿'), ('⏿', '⏿'), ('⯒', '⯒'),
-  ('⹅', '⹉'), ('ㄮ', 'ㄮ'), ('鿖', '鿪'), ('𐌭', '𐌯'),
-  ('𑨀', '\u{11a47}'), ('𑩐', '𑪃'), ('𑪆', '𑪜'), ('𑪞', '𑪢'),
-  ('𑴀', '𑴆'), ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d47}'), ('𑵐', '𑵙'), ('𖿡', '𖿡'),
-  ('𛀂', '𛄞'), ('𛅰', '𛋻'), ('🉠', '🉥'), ('🛓', '🛔'),
-  ('🛷', '🛸'), ('🤀', '🤋'), ('🤟', '🤟'), ('🤨', '🤯'),
-  ('🤱', '🤲'), ('🥌', '🥌'), ('🥟', '🥫'), ('🦒', '🦗'),
-  ('🧐', '🧦'), ('𬺰', '𮯠'),
-];
-
-pub const V11_0: &'static [(char, char)] = &[
-  ('ՠ', 'ՠ'), ('ֈ', 'ֈ'), ('ׯ', 'ׯ'), ('\u{7fd}', '߿'),
-  ('\u{8d3}', '\u{8d3}'), ('\u{9fe}', '\u{9fe}'), ('੶', '੶'),
-  ('\u{c04}', '\u{c04}'), ('಄', '಄'), ('ᡸ', 'ᡸ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('⮺', '⮼'), ('⯓', '⯫'), ('⯰', '⯾'),
-  ('⹊', '⹎'), ('ㄯ', 'ㄯ'), ('鿫', '鿯'), ('ꞯ', 'ꞯ'),
-  ('Ꞹ', 'ꞹ'), ('ꣾ', '\u{a8ff}'), ('𐨴', '𐨵'), ('𐩈', '𐩈'),
-  ('𐴀', '\u{10d27}'), ('𐴰', '𐴹'), ('𐼀', '𐼧'), ('𐼰', '𐽙'),
-  ('\u{110cd}', '\u{110cd}'), ('𑅄', '𑅆'), ('\u{1133b}', '\u{1133b}'),
-  ('\u{1145e}', '\u{1145e}'), ('𑜚', '𑜚'), ('𑠀', '𑠻'),
-  ('𑪝', '𑪝'), ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶘'), ('𑶠', '𑶩'),
-  ('𑻠', '𑻸'), ('𖹀', '𖺚'), ('𘟭', '𘟱'), ('𝋠', '𝋳'),
-  ('𝍲', '𝍸'), ('𞱱', '𞲴'), ('🄯', '🄯'), ('🛹', '🛹'),
-  ('🟕', '🟘'), ('🥍', '🥏'), ('🥬', '🥰'), ('🥳', '🥶'),
-  ('🥺', '🥺'), ('🥼', '🥿'), ('🦘', '🦢'), ('🦰', '🦹'),
-  ('🧁', '🧂'), ('🧧', '🧿'), ('🩠', '🩭'),
-];
-
-pub const V12_0: &'static [(char, char)] = &[
-  ('\u{c77}', '\u{c77}'), ('\u{e86}', '\u{e86}'), ('\u{e89}', '\u{e89}'),
-  ('\u{e8c}', '\u{e8c}'), ('\u{e8e}', '\u{e93}'), ('\u{e98}', '\u{e98}'),
-  ('\u{ea0}', '\u{ea0}'), ('\u{ea8}', '\u{ea9}'), ('\u{eac}', '\u{eac}'),
-  ('\u{eba}', '\u{eba}'), ('\u{1cfa}', '\u{1cfa}'), ('\u{2bc9}', '\u{2bc9}'),
-  ('\u{2bff}', '\u{2bff}'), ('\u{2e4f}', '\u{2e4f}'),
-  ('\u{a7ba}', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'),
-  ('\u{ab66}', '\u{ab67}'), ('\u{10fe0}', '\u{10ff6}'),
-  ('\u{1145f}', '\u{1145f}'), ('\u{116b8}', '\u{116b8}'),
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d7}'),
-  ('\u{119da}', '\u{119e4}'), ('\u{11a84}', '\u{11a85}'),
-  ('\u{11fc0}', '\u{11ff1}'), ('\u{11fff}', '\u{11fff}'),
-  ('\u{13430}', '\u{13438}'), ('\u{16f45}', '\u{16f4a}'),
-  ('\u{16f4f}', '\u{16f4f}'), ('\u{16f7f}', '\u{16f87}'),
-  ('\u{16fe2}', '\u{16fe3}'), ('\u{187f2}', '\u{187f7}'),
-  ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e130}', '\u{1e13d}'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e14e}', '\u{1e14f}'),
-  ('\u{1e2c0}', '\u{1e2f9}'), ('\u{1e2ff}', '\u{1e2ff}'),
-  ('\u{1e94b}', '\u{1e94b}'), ('\u{1ed01}', '\u{1ed3d}'),
-  ('\u{1f16c}', '\u{1f16c}'), ('\u{1f6d5}', '\u{1f6d5}'),
-  ('\u{1f6fa}', '\u{1f6fa}'), ('\u{1f7e0}', '\u{1f7eb}'),
-  ('\u{1f90d}', '\u{1f90f}'), ('\u{1f93f}', '\u{1f93f}'),
-  ('\u{1f971}', '\u{1f971}'), ('\u{1f97b}', '\u{1f97b}'),
-  ('\u{1f9a5}', '\u{1f9aa}'), ('\u{1f9ae}', '\u{1f9af}'),
-  ('\u{1f9ba}', '\u{1f9bf}'), ('\u{1f9c3}', '\u{1f9ca}'),
-  ('\u{1f9cd}', '\u{1f9cf}'), ('\u{1fa00}', '\u{1fa53}'),
-  ('\u{1fa70}', '\u{1fa73}'), ('\u{1fa78}', '\u{1fa7a}'),
-  ('\u{1fa80}', '\u{1fa82}'), ('\u{1fa90}', '\u{1fa95}'),
-];
-
-pub const V12_1: &'static [(char, char)] = &[
-  ('\u{32ff}', '\u{32ff}'),
-];
-
-pub const V1_1: &'static [(char, char)] = &[
-  ('\u{0}', 'ǵ'), ('Ǻ', 'ȗ'), ('ɐ', 'ʨ'), ('ʰ', '˞'), ('ˠ', '˩'),
-  ('\u{300}', '\u{345}'), ('\u{360}', '\u{361}'), ('ʹ', '͵'), ('ͺ', 'ͺ'),
-  (';', ';'), ('΄', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ώ'),
-  ('ϐ', 'ϖ'), ('Ϛ', 'Ϛ'), ('Ϝ', 'Ϝ'), ('Ϟ', 'Ϟ'), ('Ϡ', 'Ϡ'),
-  ('Ϣ', 'ϳ'), ('Ё', 'Ќ'), ('Ў', 'я'), ('ё', 'ќ'), ('ў', '\u{486}'),
-  ('Ґ', 'ӄ'), ('Ӈ', 'ӈ'), ('Ӌ', 'ӌ'), ('Ӑ', 'ӫ'), ('Ӯ', 'ӵ'),
-  ('Ӹ', 'ӹ'), ('Ա', 'Ֆ'), ('ՙ', '՟'), ('ա', 'և'), ('։', '։'),
-  ('\u{5b0}', '\u{5b9}'), ('\u{5bb}', '׃'), ('א', 'ת'), ('װ', '״'),
-  ('،', '،'), ('؛', '؛'), ('؟', '؟'), ('ء', 'غ'), ('ـ', '\u{652}'),
-  ('٠', '٭'), ('\u{670}', 'ڷ'), ('ں', 'ھ'), ('ۀ', 'ێ'),
-  ('ې', '\u{6ed}'), ('۰', '۹'), ('\u{901}', 'ः'), ('अ', 'ह'),
-  ('\u{93c}', '\u{94d}'), ('ॐ', '\u{954}'), ('क़', '॰'),
-  ('\u{981}', 'ঃ'), ('অ', 'ঌ'), ('এ', 'ঐ'), ('ও', 'ন'),
-  ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'), ('\u{9bc}', '\u{9bc}'),
-  ('\u{9be}', '\u{9c4}'), ('ে', 'ৈ'), ('ো', '\u{9cd}'),
-  ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'), ('য়', '\u{9e3}'), ('০', '৺'),
-  ('\u{a02}', '\u{a02}'), ('ਅ', 'ਊ'), ('ਏ', 'ਐ'), ('ਓ', 'ਨ'),
-  ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'),
-  ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4d}'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('੦', 'ੴ'),
-  ('\u{a81}', 'ઃ'), ('અ', 'ઋ'), ('ઍ', 'ઍ'), ('એ', 'ઑ'),
-  ('ઓ', 'ન'), ('પ', 'ર'), ('લ', 'ળ'), ('વ', 'હ'),
-  ('\u{abc}', '\u{ac5}'), ('\u{ac7}', 'ૉ'), ('ો', '\u{acd}'),
-  ('ૐ', 'ૐ'), ('ૠ', 'ૠ'), ('૦', '૯'), ('\u{b01}', 'ଃ'),
-  ('ଅ', 'ଌ'), ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'),
-  ('ଲ', 'ଳ'), ('ଶ', 'ହ'), ('\u{b3c}', '\u{b43}'), ('େ', 'ୈ'),
-  ('ୋ', '\u{b4d}'), ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'),
-  ('୦', '୰'), ('\u{b82}', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'வ'), ('ஷ', 'ஹ'),
-  ('\u{bbe}', 'ூ'), ('ெ', 'ை'), ('ொ', '\u{bcd}'),
-  ('\u{bd7}', '\u{bd7}'), ('௧', '௲'), ('ఁ', 'ః'), ('అ', 'ఌ'),
-  ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'ళ'), ('వ', 'హ'),
-  ('\u{c3e}', 'ౄ'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('ౠ', 'ౡ'), ('౦', '౯'), ('ಂ', 'ಃ'),
-  ('ಅ', 'ಌ'), ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'),
-  ('ವ', 'ಹ'), ('ಾ', 'ೄ'), ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccd}'),
-  ('\u{cd5}', '\u{cd6}'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'), ('೦', '೯'),
-  ('ം', 'ഃ'), ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ന'),
-  ('പ', 'ഹ'), ('\u{d3e}', '\u{d43}'), ('െ', 'ൈ'), ('ൊ', '\u{d4d}'),
-  ('\u{d57}', '\u{d57}'), ('ൠ', 'ൡ'), ('൦', '൯'), ('ก', '\u{e3a}'),
-  ('฿', '๛'), ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('ງ', 'ຈ'),
-  ('ຊ', 'ຊ'), ('ຍ', 'ຍ'), ('ດ', 'ທ'), ('ນ', 'ຟ'),
-  ('ມ', 'ຣ'), ('ລ', 'ລ'), ('ວ', 'ວ'), ('ສ', 'ຫ'),
-  ('ອ', '\u{eb9}'), ('\u{ebb}', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'),
-  ('\u{ec8}', '\u{ecd}'), ('໐', '໙'), ('ໜ', 'ໝ'), ('Ⴀ', 'Ⴥ'),
-  ('ა', 'ჶ'), ('჻', '჻'), ('ᄀ', 'ᅙ'), ('ᅟ', 'ᆢ'),
-  ('ᆨ', 'ᇹ'), ('Ḁ', 'ẚ'), ('Ạ', 'ỹ'), ('ἀ', 'ἕ'),
-  ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'),
-  ('ᾀ', 'ᾴ'), ('ᾶ', 'ῄ'), ('ῆ', 'ΐ'), ('ῖ', 'Ί'),
-  ('῝', '`'), ('ῲ', 'ῴ'), ('ῶ', '῾'), ('\u{2000}', '\u{202e}'),
-  ('‰', '⁆'), ('\u{206a}', '⁰'), ('⁴', '₎'), ('₠', '₪'),
-  ('\u{20d0}', '\u{20e1}'), ('℀', 'ℸ'), ('⅓', 'ↂ'), ('←', '⇪'),
-  ('∀', '⋱'), ('⌀', '⌀'), ('⌂', '⍺'), ('␀', '␤'),
-  ('⑀', '⑊'), ('①', '⓪'), ('─', '▕'), ('■', '◯'),
-  ('☀', '☓'), ('☚', '♯'), ('✁', '✄'), ('✆', '✉'),
-  ('✌', '✧'), ('✩', '❋'), ('❍', '❍'), ('❏', '❒'),
-  ('❖', '❖'), ('❘', '❞'), ('❡', '❧'), ('❶', '➔'),
-  ('➘', '➯'), ('➱', '➾'), ('\u{3000}', '〷'), ('〿', '〿'),
-  ('ぁ', 'ゔ'), ('\u{3099}', 'ゞ'), ('ァ', 'ヾ'), ('ㄅ', 'ㄬ'),
-  ('ㄱ', 'ㆎ'), ('㆐', '㆟'), ('㈀', '㈜'), ('㈠', '㉃'),
-  ('㉠', '㉻'), ('㉿', '㊰'), ('㋀', '㋋'), ('㋐', '㋾'),
-  ('㌀', '㍶'), ('㍻', '㏝'), ('㏠', '㏾'), ('一', '龥'),
-  ('\u{e000}', '鶴'), ('ff', 'st'), ('ﬓ', 'ﬗ'), ('\u{fb1e}', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﮱ'), ('ﯓ', '﴿'), ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'),
-  ('ﷰ', 'ﷻ'), ('\u{fe20}', '\u{fe23}'), ('︰', '﹄'), ('﹉', '﹒'),
-  ('﹔', '﹦'), ('﹨', '﹫'), ('ﹰ', 'ﹲ'), ('ﹴ', 'ﹴ'),
-  ('ﹶ', 'ﻼ'), ('\u{feff}', '\u{feff}'), ('!', '~'), ('。', 'ᄒ'),
-  ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'),
-  ('¢', '₩'), ('│', '○'), ('�', '\u{ffff}'),
-];
-
-pub const V2_0: &'static [(char, char)] = &[
-  ('\u{591}', '\u{5a1}'), ('\u{5a3}', '\u{5af}'), ('\u{5c4}', '\u{5c4}'),
-  ('ༀ', 'ཇ'), ('ཉ', 'ཀྵ'), ('\u{f71}', 'ྋ'), ('\u{f90}', '\u{f95}'),
-  ('\u{f97}', '\u{f97}'), ('\u{f99}', '\u{fad}'), ('\u{fb1}', '\u{fb7}'),
-  ('\u{fb9}', '\u{fb9}'), ('ẛ', 'ẛ'), ('₫', '₫'), ('가', '힣'),
-  ('\u{1fffe}', '\u{1ffff}'), ('\u{2fffe}', '\u{2ffff}'),
-  ('\u{3fffe}', '\u{3ffff}'), ('\u{4fffe}', '\u{4ffff}'),
-  ('\u{5fffe}', '\u{5ffff}'), ('\u{6fffe}', '\u{6ffff}'),
-  ('\u{7fffe}', '\u{7ffff}'), ('\u{8fffe}', '\u{8ffff}'),
-  ('\u{9fffe}', '\u{9ffff}'), ('\u{afffe}', '\u{affff}'),
-  ('\u{bfffe}', '\u{bffff}'), ('\u{cfffe}', '\u{cffff}'),
-  ('\u{dfffe}', '\u{dffff}'), ('\u{efffe}', '\u{10ffff}'),
-];
-
-pub const V2_1: &'static [(char, char)] = &[
-  ('€', '€'), ('', ''),
-];
-
-pub const V3_0: &'static [(char, char)] = &[
-  ('Ƕ', 'ǹ'), ('Ș', 'ȟ'), ('Ȣ', 'ȳ'), ('ʩ', 'ʭ'), ('˟', '˟'),
-  ('˪', 'ˮ'), ('\u{346}', '\u{34e}'), ('\u{362}', '\u{362}'), ('ϗ', 'ϗ'),
-  ('ϛ', 'ϛ'), ('ϝ', 'ϝ'), ('ϟ', 'ϟ'), ('ϡ', 'ϡ'), ('Ѐ', 'Ѐ'),
-  ('Ѝ', 'Ѝ'), ('ѐ', 'ѐ'), ('ѝ', 'ѝ'), ('\u{488}', '\u{489}'),
-  ('Ҍ', 'ҏ'), ('Ӭ', 'ӭ'), ('֊', '֊'), ('\u{653}', '\u{655}'),
-  ('ڸ', 'ڹ'), ('ڿ', 'ڿ'), ('ۏ', 'ۏ'), ('ۺ', '۾'), ('܀', '܍'),
-  ('\u{70f}', 'ܬ'), ('\u{730}', '\u{74a}'), ('ހ', '\u{7b0}'),
-  ('ං', 'ඃ'), ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'),
-  ('ල', 'ල'), ('ව', 'ෆ'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('ෲ', '෴'), ('ཪ', 'ཪ'), ('\u{f96}', '\u{f96}'),
-  ('\u{fae}', '\u{fb0}'), ('\u{fb8}', '\u{fb8}'), ('\u{fba}', '\u{fbc}'),
-  ('྾', '࿌'), ('࿏', '࿏'), ('က', 'အ'), ('ဣ', 'ဧ'),
-  ('ဩ', 'ဪ'), ('ာ', '\u{1032}'), ('\u{1036}', '\u{1039}'),
-  ('၀', '\u{1059}'), ('ሀ', 'ሆ'), ('ለ', 'ቆ'), ('ቈ', 'ቈ'),
-  ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'),
-  ('በ', 'ኆ'), ('ኈ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኮ'),
-  ('ኰ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'),
-  ('ዂ', 'ዅ'), ('ወ', 'ዎ'), ('ዐ', 'ዖ'), ('ዘ', 'ዮ'),
-  ('ደ', 'ጎ'), ('ጐ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ጞ'),
-  ('ጠ', 'ፆ'), ('ፈ', 'ፚ'), ('፡', '፼'), ('Ꭰ', 'Ᏼ'),
-  ('ᐁ', 'ᙶ'), ('\u{1680}', '᚜'), ('ᚠ', 'ᛰ'), ('ក', 'ៜ'),
-  ('០', '៩'), ('᠀', '\u{180e}'), ('᠐', '᠙'), ('ᠠ', 'ᡷ'),
-  ('ᢀ', '\u{18a9}'), ('\u{202f}', '\u{202f}'), ('⁈', '⁍'),
-  ('₭', '₯'), ('\u{20e2}', '\u{20e3}'), ('ℹ', '℺'), ('Ↄ', 'Ↄ'),
-  ('⇫', '⇳'), ('⌁', '⌁'), ('⍻', '⍻'), ('⍽', '⎚'),
-  ('␥', '␦'), ('◰', '◷'), ('☙', '☙'), ('♰', '♱'),
-  ('⠀', '⣿'), ('⺀', '⺙'), ('⺛', '⻳'), ('⼀', '⿕'),
-  ('⿰', '⿻'), ('〸', '〺'), ('〾', '〾'), ('ㆠ', 'ㆷ'),
-  ('㐀', '䶵'), ('ꀀ', 'ꒌ'), ('꒐', '꒡'), ('꒤', '꒳'),
-  ('꒵', '꓀'), ('꓂', '꓄'), ('꓆', '꓆'), ('יִ', 'יִ'),
-  ('\u{fff9}', '\u{fffb}'),
-];
-
-pub const V3_1: &'static [(char, char)] = &[
-  ('ϴ', 'ϵ'), ('\u{fdd0}', '\u{fdef}'), ('𐌀', '𐌞'), ('𐌠', '𐌣'),
-  ('𐌰', '𐍊'), ('𐐀', '𐐥'), ('𐐨', '𐑍'), ('𝀀', '𝃵'),
-  ('𝄀', '𝄦'), ('𝄪', '𝇝'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓀'), ('𝓂', '𝓃'),
-  ('𝓅', '𝔅'), ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'),
-  ('𝔞', '𝔹'), ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'),
-  ('𝕊', '𝕐'), ('𝕒', '𝚣'), ('𝚨', '𝟉'), ('𝟎', '𝟿'),
-  ('𠀀', '𪛖'), ('丽', '𪘀'), ('\u{e0001}', '\u{e0001}'),
-  ('\u{e0020}', '\u{e007f}'),
-];
-
-pub const V3_2: &'static [(char, char)] = &[
-  ('Ƞ', 'Ƞ'), ('\u{34f}', '\u{34f}'), ('\u{363}', '\u{36f}'), ('Ϙ', 'ϙ'),
-  ('϶', '϶'), ('Ҋ', 'ҋ'), ('Ӆ', 'ӆ'), ('Ӊ', 'ӊ'), ('Ӎ', 'ӎ'),
-  ('Ԁ', 'ԏ'), ('ٮ', 'ٯ'), ('ޱ', 'ޱ'), ('ჷ', 'ჸ'), ('ᜀ', 'ᜌ'),
-  ('ᜎ', '\u{1714}'), ('ᜠ', '᜶'), ('ᝀ', '\u{1753}'), ('ᝠ', 'ᝬ'),
-  ('ᝮ', 'ᝰ'), ('\u{1772}', '\u{1773}'), ('⁇', '⁇'), ('⁎', '⁒'),
-  ('⁗', '⁗'), ('\u{205f}', '\u{2063}'), ('ⁱ', 'ⁱ'), ('₰', '₱'),
-  ('\u{20e4}', '\u{20ea}'), ('ℽ', '⅋'), ('⇴', '⇿'), ('⋲', '⋿'),
-  ('⍼', '⍼'), ('⎛', '⏎'), ('⓫', '⓾'), ('▖', '▟'),
-  ('◸', '◿'), ('☖', '☗'), ('♲', '♽'), ('⚀', '⚉'),
-  ('❨', '❵'), ('⟐', '⟫'), ('⟰', '⟿'), ('⤀', '⫿'),
-  ('〻', '〽'), ('ゕ', 'ゖ'), ('ゟ', '゠'), ('ヿ', 'ヿ'),
-  ('ㇰ', 'ㇿ'), ('㉑', '㉟'), ('㊱', '㊿'), ('꒢', '꒣'),
-  ('꒴', '꒴'), ('꓁', '꓁'), ('꓅', '꓅'), ('侮', '頻'),
-  ('﷼', '﷼'), ('\u{fe00}', '\u{fe0f}'), ('﹅', '﹆'), ('ﹳ', 'ﹳ'),
-  ('⦅', '⦆'),
-];
-
-pub const V4_0: &'static [(char, char)] = &[
-  ('ȡ', 'ȡ'), ('ȴ', 'ȶ'), ('ʮ', 'ʯ'), ('˯', '˿'),
-  ('\u{350}', '\u{357}'), ('\u{35d}', '\u{35f}'), ('Ϸ', 'ϻ'),
-  ('\u{600}', '\u{603}'), ('؍', '\u{615}'), ('\u{656}', '\u{658}'),
-  ('ۮ', 'ۯ'), ('ۿ', 'ۿ'), ('ܭ', 'ܯ'), ('ݍ', 'ݏ'), ('ऄ', 'ऄ'),
-  ('ঽ', 'ঽ'), ('\u{a01}', '\u{a01}'), ('ਃ', 'ਃ'), ('ઌ', 'ઌ'),
-  ('ૡ', '\u{ae3}'), ('૱', '૱'), ('ଵ', 'ଵ'), ('ୱ', 'ୱ'),
-  ('௳', '௺'), ('\u{cbc}', 'ಽ'), ('\u{17dd}', '\u{17dd}'),
-  ('៰', '៹'), ('ᤀ', 'ᤜ'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'),
-  ('᥀', '᥀'), ('᥄', 'ᥭ'), ('ᥰ', 'ᥴ'), ('᧠', '᧿'),
-  ('ᴀ', 'ᵫ'), ('⁓', '⁔'), ('℻', '℻'), ('⏏', '⏐'),
-  ('⓿', '⓿'), ('☔', '☕'), ('⚊', '⚑'), ('⚠', '⚡'),
-  ('⬀', '⬍'), ('㈝', '㈞'), ('㉐', '㉐'), ('㉼', '㉽'),
-  ('㋌', '㋏'), ('㍷', '㍺'), ('㏞', '㏟'), ('㏿', '㏿'),
-  ('䷀', '䷿'), ('﷽', '﷽'), ('﹇', '﹈'), ('𐀀', '𐀋'),
-  ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'),
-  ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐄀', '𐄂'), ('𐄇', '𐄳'),
-  ('𐄷', '𐄿'), ('𐎀', '𐎝'), ('𐎟', '𐎟'), ('𐐦', '𐐧'),
-  ('𐑎', '𐒝'), ('𐒠', '𐒩'), ('𐠀', '𐠅'), ('𐠈', '𐠈'),
-  ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐠿'),
-  ('𝌀', '𝍖'), ('𝓁', '𝓁'), ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const V4_1: &'static [(char, char)] = &[
-  ('ȷ', 'Ɂ'), ('\u{358}', '\u{35c}'), ('ϼ', 'Ͽ'), ('Ӷ', 'ӷ'),
-  ('\u{5a2}', '\u{5a2}'), ('\u{5c5}', '\u{5c7}'), ('؋', '؋'), ('؞', '؞'),
-  ('\u{659}', '\u{65e}'), ('ݐ', 'ݭ'), ('ॽ', 'ॽ'), ('ৎ', 'ৎ'),
-  ('ஶ', 'ஶ'), ('௦', '௦'), ('࿐', '࿑'), ('ჹ', 'ჺ'),
-  ('ჼ', 'ჼ'), ('ሇ', 'ሇ'), ('ቇ', 'ቇ'), ('ኇ', 'ኇ'),
-  ('ኯ', 'ኯ'), ('ዏ', 'ዏ'), ('ዯ', 'ዯ'), ('ጏ', 'ጏ'),
-  ('ጟ', 'ጟ'), ('ፇ', 'ፇ'), ('\u{135f}', '፠'), ('ᎀ', '᎙'),
-  ('ᦀ', 'ᦩ'), ('ᦰ', 'ᧉ'), ('᧐', '᧙'), ('᧞', '᧟'),
-  ('ᨀ', '\u{1a1b}'), ('᨞', '᨟'), ('ᵬ', '\u{1dc3}'), ('⁕', '⁖'),
-  ('⁘', '⁞'), ('ₐ', 'ₔ'), ('₲', '₵'), ('\u{20eb}', '\u{20eb}'),
-  ('ℼ', 'ℼ'), ('⅌', '⅌'), ('⏑', '⏛'), ('☘', '☘'),
-  ('♾', '♿'), ('⚒', '⚜'), ('⚢', '⚱'), ('⟀', '⟆'),
-  ('⬎', '⬓'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'), ('Ⲁ', '⳪'),
-  ('⳹', 'ⴥ'), ('ⴰ', 'ⵥ'), ('ⵯ', 'ⵯ'), ('ⶀ', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('⸀', '⸗'), ('⸜', '⸝'), ('㇀', '㇏'), ('㉾', '㉾'),
-  ('龦', '龻'), ('꜀', '꜖'), ('ꠀ', '꠫'), ('並', '龎'),
-  ('︐', '︙'), ('𐅀', '𐆊'), ('𐎠', '𐏃'), ('𐏈', '𐏕'),
-  ('𐨀', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨳'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '𐩇'), ('𐩐', '𐩘'), ('𝈀', '𝉅'), ('𝚤', '𝚥'),
-];
-
-pub const V5_0: &'static [(char, char)] = &[
-  ('ɂ', 'ɏ'), ('ͻ', 'ͽ'), ('ӏ', 'ӏ'), ('Ӻ', 'ӿ'), ('Ԑ', 'ԓ'),
-  ('\u{5ba}', '\u{5ba}'), ('߀', 'ߺ'), ('ॻ', 'ॼ'), ('ॾ', 'ॿ'),
-  ('\u{ce2}', '\u{ce3}'), ('ೱ', 'ೲ'), ('\u{1b00}', 'ᭋ'), ('᭐', '᭼'),
-  ('\u{1dc4}', '\u{1dca}'), ('\u{1dfe}', '\u{1dff}'),
-  ('\u{20ec}', '\u{20ef}'), ('⅍', 'ⅎ'), ('ↄ', 'ↄ'), ('⏜', '⏧'),
-  ('⚲', '⚲'), ('⟇', '⟊'), ('⬔', '⬚'), ('⬠', '⬣'),
-  ('Ⱡ', 'ⱬ'), ('ⱴ', 'ⱷ'), ('ꜗ', 'ꜚ'), ('꜠', '꜡'),
-  ('ꡀ', '꡷'), ('𐤀', '𐤙'), ('𐤟', '𐤟'), ('𒀀', '𒍮'),
-  ('𒐀', '𒑢'), ('𒑰', '𒑳'), ('𝍠', '𝍱'), ('𝟊', '𝟋'),
-];
-
-pub const V5_1: &'static [(char, char)] = &[
-  ('Ͱ', 'ͳ'), ('Ͷ', 'ͷ'), ('Ϗ', 'Ϗ'), ('\u{487}', '\u{487}'),
-  ('Ԕ', 'ԣ'), ('؆', '؊'), ('\u{616}', '\u{61a}'), ('ػ', 'ؿ'),
-  ('ݮ', 'ݿ'), ('ॱ', 'ॲ'), ('\u{a51}', '\u{a51}'),
-  ('\u{a75}', '\u{a75}'), ('\u{b44}', '\u{b44}'), ('\u{b62}', '\u{b63}'),
-  ('ௐ', 'ௐ'), ('ఽ', 'ఽ'), ('ౘ', 'ౙ'), ('\u{c62}', '\u{c63}'),
-  ('౸', '౿'), ('ഽ', 'ഽ'), ('\u{d44}', '\u{d44}'),
-  ('\u{d62}', '\u{d63}'), ('൰', '൵'), ('൹', 'ൿ'), ('ཫ', 'ཬ'),
-  ('࿎', '࿎'), ('࿒', '࿔'), ('ဢ', 'ဢ'), ('ဨ', 'ဨ'),
-  ('ါ', 'ါ'), ('\u{1033}', '\u{1035}'), ('\u{103a}', 'ဿ'),
-  ('ၚ', '႙'), ('႞', '႟'), ('ᢪ', 'ᢪ'), ('\u{1b80}', '᮪'),
-  ('ᮮ', '᮹'), ('ᰀ', '\u{1c37}'), ('᰻', '᱉'), ('ᱍ', '᱿'),
-  ('\u{1dcb}', '\u{1de6}'), ('ẜ', 'ẟ'), ('Ỻ', 'ỿ'),
-  ('\u{2064}', '\u{2064}'), ('\u{20f0}', '\u{20f0}'), ('⅏', '⅏'),
-  ('ↅ', 'ↈ'), ('⚝', '⚝'), ('⚳', '⚼'), ('⛀', '⛃'),
-  ('⟌', '⟌'), ('⟬', '⟯'), ('⬛', '⬟'), ('⬤', '⭌'),
-  ('⭐', '⭔'), ('Ɑ', 'Ɐ'), ('ⱱ', 'ⱳ'), ('ⱸ', 'ⱽ'),
-  ('\u{2de0}', '\u{2dff}'), ('⸘', '⸛'), ('⸞', '⸰'), ('ㄭ', 'ㄭ'),
-  ('㇐', '㇣'), ('龼', '鿃'), ('ꔀ', 'ꘫ'), ('Ꙁ', 'ꙟ'),
-  ('Ꙣ', '꙳'), ('\u{a67c}', 'ꚗ'), ('ꜛ', 'ꜟ'), ('Ꜣ', 'ꞌ'),
-  ('ꟻ', 'ꟿ'), ('ꢀ', '\u{a8c4}'), ('꣎', '꣙'), ('꤀', '꥓'),
-  ('꥟', '꥟'), ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'), ('꩐', '꩙'),
-  ('꩜', '꩟'), ('\u{fe24}', '\u{fe26}'), ('𐆐', '𐆛'),
-  ('𐇐', '\u{101fd}'), ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('𐤠', '𐤹'),
-  ('𐤿', '𐤿'), ('𝄩', '𝄩'), ('🀀', '🀫'), ('🀰', '🂓'),
-];
-
-pub const V5_2: &'static [(char, char)] = &[
-  ('Ԥ', 'ԥ'), ('ࠀ', '\u{82d}'), ('࠰', '࠾'), ('\u{900}', '\u{900}'),
-  ('ॎ', 'ॎ'), ('\u{955}', '\u{955}'), ('ॹ', 'ॺ'), ('৻', '৻'),
-  ('࿕', '࿘'), ('ႚ', '\u{109d}'), ('ᅚ', 'ᅞ'), ('ᆣ', 'ᆧ'),
-  ('ᇺ', 'ᇿ'), ('᐀', '᐀'), ('ᙷ', 'ᙿ'), ('ᢰ', 'ᣵ'),
-  ('ᦪ', 'ᦫ'), ('᧚', '᧚'), ('ᨠ', '\u{1a5e}'),
-  ('\u{1a60}', '\u{1a7c}'), ('\u{1a7f}', '᪉'), ('᪐', '᪙'),
-  ('᪠', '᪭'), ('\u{1cd0}', 'ᳲ'), ('\u{1dfd}', '\u{1dfd}'),
-  ('₶', '₸'), ('⅐', '⅒'), ('↉', '↉'), ('⏨', '⏨'),
-  ('⚞', '⚟'), ('⚽', '⚿'), ('⛄', '⛍'), ('⛏', '⛡'),
-  ('⛣', '⛣'), ('⛨', '⛿'), ('❗', '❗'), ('⭕', '⭙'),
-  ('Ɒ', 'Ɒ'), ('Ȿ', 'Ɀ'), ('Ⳬ', '\u{2cf1}'), ('⸱', '⸱'),
-  ('㉄', '㉏'), ('鿄', '鿋'), ('ꓐ', '꓿'), ('ꚠ', '꛷'),
-  ('꠰', '꠹'), ('\u{a8e0}', 'ꣻ'), ('ꥠ', 'ꥼ'), ('\u{a980}', '꧍'),
-  ('ꧏ', '꧙'), ('꧞', '꧟'), ('ꩠ', 'ꩻ'), ('ꪀ', 'ꫂ'),
-  ('ꫛ', '꫟'), ('ꯀ', '\u{abed}'), ('꯰', '꯹'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('恵', '舘'), ('𐡀', '𐡕'), ('𐡗', '𐡟'),
-  ('𐤚', '𐤛'), ('𐩠', '𐩿'), ('𐬀', '𐬵'), ('𐬹', '𐭕'),
-  ('𐭘', '𐭲'), ('𐭸', '𐭿'), ('𐰀', '𐱈'), ('𐹠', '𐹾'),
-  ('\u{11080}', '𑃁'), ('𓀀', '𓐮'), ('🄀', '🄊'), ('🄐', '🄮'),
-  ('🄱', '🄱'), ('🄽', '🄽'), ('🄿', '🄿'), ('🅂', '🅂'),
-  ('🅆', '🅆'), ('🅊', '🅎'), ('🅗', '🅗'), ('🅟', '🅟'),
-  ('🅹', '🅹'), ('🅻', '🅼'), ('🅿', '🅿'), ('🆊', '🆍'),
-  ('🆐', '🆐'), ('🈀', '🈀'), ('🈐', '🈱'), ('🉀', '🉈'),
-  ('𪜀', '𫜴'),
-];
-
-pub const V6_0: &'static [(char, char)] = &[
-  ('Ԧ', 'ԧ'), ('ؠ', 'ؠ'), ('\u{65f}', '\u{65f}'), ('ࡀ', '\u{85b}'),
-  ('࡞', '࡞'), ('\u{93a}', 'ऻ'), ('ॏ', 'ॏ'), ('\u{956}', '\u{957}'),
-  ('ॳ', 'ॷ'), ('୲', '୷'), ('ഩ', 'ഩ'), ('ഺ', 'ഺ'),
-  ('ൎ', 'ൎ'), ('ྌ', '\u{f8f}'), ('࿙', '࿚'),
-  ('\u{135d}', '\u{135e}'), ('ᯀ', '᯳'), ('᯼', '᯿'),
-  ('\u{1dfc}', '\u{1dfc}'), ('ₕ', 'ₜ'), ('₹', '₹'), ('⏩', '⏳'),
-  ('⛎', '⛎'), ('⛢', '⛢'), ('⛤', '⛧'), ('✅', '✅'),
-  ('✊', '✋'), ('✨', '✨'), ('❌', '❌'), ('❎', '❎'),
-  ('❓', '❕'), ('❟', '❠'), ('➕', '➗'), ('➰', '➰'),
-  ('➿', '➿'), ('⟎', '⟏'), ('⵰', '⵰'), ('\u{2d7f}', '\u{2d7f}'),
-  ('ㆸ', 'ㆺ'), ('Ꙡ', 'ꙡ'), ('Ɥ', 'ꞎ'), ('Ꞑ', 'ꞑ'),
-  ('Ꞡ', 'ꞩ'), ('ꟺ', 'ꟺ'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('﮲', '﯁'),
-  ('𑀀', '𑁍'), ('𑁒', '𑁯'), ('𖠀', '𖨸'), ('𛀀', '𛀁'),
-  ('🂠', '🂮'), ('🂱', '🂾'), ('🃁', '🃏'), ('🃑', '🃟'),
-  ('🄰', '🄰'), ('🄲', '🄼'), ('🄾', '🄾'), ('🅀', '🅁'),
-  ('🅃', '🅅'), ('🅇', '🅉'), ('🅏', '🅖'), ('🅘', '🅞'),
-  ('🅠', '🅩'), ('🅰', '🅸'), ('🅺', '🅺'), ('🅽', '🅾'),
-  ('🆀', '🆉'), ('🆎', '🆏'), ('🆑', '🆚'), ('🇦', '🇿'),
-  ('🈁', '🈂'), ('🈲', '🈺'), ('🉐', '🉑'), ('🌀', '🌠'),
-  ('🌰', '🌵'), ('🌷', '🍼'), ('🎀', '🎓'), ('🎠', '🏄'),
-  ('🏆', '🏊'), ('🏠', '🏰'), ('🐀', '🐾'), ('👀', '👀'),
-  ('👂', '📷'), ('📹', '📼'), ('🔀', '🔽'), ('🕐', '🕧'),
-  ('🗻', '🗿'), ('😁', '😐'), ('😒', '😔'), ('😖', '😖'),
-  ('😘', '😘'), ('😚', '😚'), ('😜', '😞'), ('😠', '😥'),
-  ('😨', '😫'), ('😭', '😭'), ('😰', '😳'), ('😵', '🙀'),
-  ('🙅', '🙏'), ('🚀', '🛅'), ('🜀', '🝳'), ('𫝀', '𫠝'),
-];
-
-pub const V6_1: &'static [(char, char)] = &[
-  ('֏', '֏'), ('\u{604}', '\u{604}'), ('ࢠ', 'ࢠ'), ('ࢢ', 'ࢬ'),
-  ('\u{8e4}', '\u{8fe}'), ('૰', '૰'), ('ໞ', 'ໟ'), ('Ⴧ', 'Ⴧ'),
-  ('Ⴭ', 'Ⴭ'), ('ჽ', 'ჿ'), ('\u{1bab}', '\u{1bad}'), ('ᮺ', 'ᮿ'),
-  ('᳀', '᳇'), ('ᳳ', 'ᳶ'), ('⟋', '⟋'), ('⟍', '⟍'),
-  ('Ⳳ', 'ⳳ'), ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ⵦ', 'ⵧ'),
-  ('⸲', '⸻'), ('鿌', '鿌'), ('\u{a674}', '\u{a67b}'),
-  ('\u{a69f}', '\u{a69f}'), ('Ꞓ', 'ꞓ'), ('Ɦ', 'Ɦ'), ('ꟸ', 'ꟹ'),
-  ('ꫠ', '\u{aaf6}'), ('郞', '隷'), ('𐦀', '𐦷'), ('𐦾', '𐦿'),
-  ('𑃐', '𑃨'), ('𑃰', '𑃹'), ('\u{11100}', '\u{11134}'),
-  ('𑄶', '𑅃'), ('\u{11180}', '𑇈'), ('𑇐', '𑇙'),
-  ('𑚀', '\u{116b7}'), ('𑛀', '𑛉'), ('𖼀', '𖽄'), ('𖽐', '𖽾'),
-  ('\u{16f8f}', '𖾟'), ('𞸀', '𞸃'), ('𞸅', '𞸟'), ('𞸡', '𞸢'),
-  ('𞸤', '𞸤'), ('𞸧', '𞸧'), ('𞸩', '𞸲'), ('𞸴', '𞸷'),
-  ('𞸹', '𞸹'), ('𞸻', '𞸻'), ('𞹂', '𞹂'), ('𞹇', '𞹇'),
-  ('𞹉', '𞹉'), ('𞹋', '𞹋'), ('𞹍', '𞹏'), ('𞹑', '𞹒'),
-  ('𞹔', '𞹔'), ('𞹗', '𞹗'), ('𞹙', '𞹙'), ('𞹛', '𞹛'),
-  ('𞹝', '𞹝'), ('𞹟', '𞹟'), ('𞹡', '𞹢'), ('𞹤', '𞹤'),
-  ('𞹧', '𞹪'), ('𞹬', '𞹲'), ('𞹴', '𞹷'), ('𞹹', '𞹼'),
-  ('𞹾', '𞹾'), ('𞺀', '𞺉'), ('𞺋', '𞺛'), ('𞺡', '𞺣'),
-  ('𞺥', '𞺩'), ('𞺫', '𞺻'), ('𞻰', '𞻱'), ('🅪', '🅫'),
-  ('🕀', '🕃'), ('😀', '😀'), ('😑', '😑'), ('😕', '😕'),
-  ('😗', '😗'), ('😙', '😙'), ('😛', '😛'), ('😟', '😟'),
-  ('😦', '😧'), ('😬', '😬'), ('😮', '😯'), ('😴', '😴'),
-];
-
-pub const V6_2: &'static [(char, char)] = &[
-  ('₺', '₺'),
-];
-
-pub const V6_3: &'static [(char, char)] = &[
-  ('\u{61c}', '\u{61c}'), ('\u{2066}', '\u{2069}'),
-];
-
-pub const V7_0: &'static [(char, char)] = &[
-  ('Ϳ', 'Ϳ'), ('Ԩ', 'ԯ'), ('֍', '֎'), ('\u{605}', '\u{605}'),
-  ('ࢡ', 'ࢡ'), ('ࢭ', 'ࢲ'), ('\u{8ff}', '\u{8ff}'), ('ॸ', 'ॸ'),
-  ('ঀ', 'ঀ'), ('\u{c00}', '\u{c00}'), ('ఴ', 'ఴ'),
-  ('\u{c81}', '\u{c81}'), ('\u{d01}', '\u{d01}'), ('෦', '෯'),
-  ('ᛱ', 'ᛸ'), ('ᤝ', 'ᤞ'), ('\u{1ab0}', '\u{1abe}'),
-  ('\u{1cf8}', '\u{1cf9}'), ('\u{1de7}', '\u{1df5}'), ('₻', '₽'),
-  ('⏴', '⏺'), ('✀', '✀'), ('⭍', '⭏'), ('⭚', '⭳'),
-  ('⭶', '⮕'), ('⮘', '⮹'), ('⮽', '⯈'), ('⯊', '⯑'),
-  ('⸼', '⹂'), ('Ꚙ', 'ꚝ'), ('ꞔ', 'ꞟ'), ('Ɜ', 'Ɬ'),
-  ('Ʞ', 'Ʇ'), ('ꟷ', 'ꟷ'), ('ꧠ', 'ꧾ'), ('\u{aa7c}', 'ꩿ'),
-  ('ꬰ', 'ꭟ'), ('ꭤ', 'ꭥ'), ('\u{fe27}', '\u{fe2d}'), ('𐆋', '𐆌'),
-  ('𐆠', '𐆠'), ('\u{102e0}', '𐋻'), ('𐌟', '𐌟'),
-  ('𐍐', '\u{1037a}'), ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐕯', '𐕯'),
-  ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐡠', '𐢞'),
-  ('𐢧', '𐢯'), ('𐪀', '𐪟'), ('𐫀', '\u{10ae6}'), ('𐫫', '𐫶'),
-  ('𐮀', '𐮑'), ('𐮙', '𐮜'), ('𐮩', '𐮯'),
-  ('\u{1107f}', '\u{1107f}'), ('𑅐', '𑅶'), ('𑇍', '𑇍'),
-  ('𑇚', '𑇚'), ('𑇡', '𑇴'), ('𑈀', '𑈑'), ('𑈓', '𑈽'),
-  ('𑊰', '\u{112ea}'), ('𑋰', '𑋹'), ('\u{11301}', '𑌃'),
-  ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'), ('𑌪', '𑌰'),
-  ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('\u{1133c}', '𑍄'), ('𑍇', '𑍈'),
-  ('𑍋', '𑍍'), ('\u{11357}', '\u{11357}'), ('𑍝', '𑍣'),
-  ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'), ('𑒀', '𑓇'),
-  ('𑓐', '𑓙'), ('𑖀', '\u{115b5}'), ('𑖸', '𑗉'), ('𑘀', '𑙄'),
-  ('𑙐', '𑙙'), ('𑢠', '𑣲'), ('𑣿', '𑣿'), ('𑫀', '𑫸'),
-  ('𒍯', '𒎘'), ('𒑣', '𒑮'), ('𒑴', '𒑴'), ('𖩀', '𖩞'),
-  ('𖩠', '𖩩'), ('𖩮', '𖩯'), ('𖫐', '𖫭'), ('\u{16af0}', '𖫵'),
-  ('𖬀', '𖭅'), ('𖭐', '𖭙'), ('𖭛', '𖭡'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('𛲜', '\u{1bca3}'), ('𞠀', '𞣄'),
-  ('𞣇', '\u{1e8d6}'), ('🂿', '🂿'), ('🃠', '🃵'), ('🄋', '🄌'),
-  ('🌡', '🌬'), ('🌶', '🌶'), ('🍽', '🍽'), ('🎔', '🎟'),
-  ('🏅', '🏅'), ('🏋', '🏎'), ('🏔', '🏟'), ('🏱', '🏷'),
-  ('🐿', '🐿'), ('👁', '👁'), ('📸', '📸'), ('📽', '📾'),
-  ('🔾', '🔿'), ('🕄', '🕊'), ('🕨', '🕹'), ('🕻', '🖣'),
-  ('🖥', '🗺'), ('🙁', '🙂'), ('🙐', '🙿'), ('🛆', '🛏'),
-  ('🛠', '🛬'), ('🛰', '🛳'), ('🞀', '🟔'), ('🠀', '🠋'),
-  ('🠐', '🡇'), ('🡐', '🡙'), ('🡠', '🢇'), ('🢐', '🢭'),
-];
-
-pub const V8_0: &'static [(char, char)] = &[
-  ('ࢳ', 'ࢴ'), ('\u{8e3}', '\u{8e3}'), ('ૹ', 'ૹ'), ('ౚ', 'ౚ'),
-  ('ൟ', 'ൟ'), ('Ᏽ', 'Ᏽ'), ('ᏸ', 'ᏽ'), ('₾', '₾'),
-  ('↊', '↋'), ('⯬', '⯯'), ('鿍', '鿕'), ('\u{a69e}', '\u{a69e}'),
-  ('ꞏ', 'ꞏ'), ('Ʝ', 'ꞷ'), ('꣼', 'ꣽ'), ('ꭠ', 'ꭣ'),
-  ('ꭰ', 'ꮿ'), ('\u{fe2e}', '\u{fe2f}'), ('𐣠', '𐣲'),
-  ('𐣴', '𐣵'), ('𐣻', '𐣿'), ('𐦼', '𐦽'), ('𐧀', '𐧏'),
-  ('𐧒', '𐧿'), ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𐳺', '𐳿'),
-  ('\u{111c9}', '\u{111cc}'), ('𑇛', '𑇟'), ('𑊀', '𑊆'),
-  ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊩'),
-  ('\u{11300}', '\u{11300}'), ('𑍐', '𑍐'), ('𑗊', '\u{115dd}'),
-  ('𑜀', '𑜙'), ('\u{1171d}', '\u{1172b}'), ('𑜰', '𑜿'),
-  ('𒎙', '𒎙'), ('𒒀', '𒕃'), ('𔐀', '𔙆'), ('𝇞', '𝇨'),
-  ('𝠀', '𝪋'), ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-  ('🌭', '🌯'), ('🍾', '🍿'), ('🏏', '🏓'), ('🏸', '🏿'),
-  ('📿', '📿'), ('🕋', '🕏'), ('🙃', '🙄'), ('🛐', '🛐'),
-  ('🤐', '🤘'), ('🦀', '🦄'), ('🧀', '🧀'), ('𫠠', '𬺡'),
-];
-
-pub const V9_0: &'static [(char, char)] = &[
-  ('ࢶ', 'ࢽ'), ('\u{8d4}', '\u{8e2}'), ('ಀ', 'ಀ'), ('൏', '൏'),
-  ('ൔ', 'ൖ'), ('൘', '൞'), ('൶', '൸'), ('ᲀ', 'ᲈ'),
-  ('\u{1dfb}', '\u{1dfb}'), ('⏻', '⏾'), ('⹃', '⹄'), ('Ɪ', 'Ɪ'),
-  ('\u{a8c5}', '\u{a8c5}'), ('𐆍', '𐆎'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('\u{1123e}', '\u{1123e}'), ('𑐀', '𑑙'),
-  ('𑑛', '𑑛'), ('𑑝', '𑑝'), ('𑙠', '𑙬'), ('𑰀', '𑰈'),
-  ('𑰊', '\u{11c36}'), ('\u{11c38}', '𑱅'), ('𑱐', '𑱬'),
-  ('𑱰', '𑲏'), ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-  ('𖿠', '𖿠'), ('𗀀', '𘟬'), ('𘠀', '𘫲'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('𞤀', '\u{1e94a}'), ('𞥐', '𞥙'),
-  ('𞥞', '𞥟'), ('🆛', '🆬'), ('🈻', '🈻'), ('🕺', '🕺'),
-  ('🖤', '🖤'), ('🛑', '🛒'), ('🛴', '🛶'), ('🤙', '🤞'),
-  ('🤠', '🤧'), ('🤰', '🤰'), ('🤳', '🤾'), ('🥀', '🥋'),
-  ('🥐', '🥞'), ('🦅', '🦑'),
-];
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate case-folding-simple /tmp/ucd-12.1.0/ --chars --all-pairs
-//
-// ucd-generate is available on crates.io.
-
-pub const CASE_FOLDING_SIMPLE: &'static [(char, &'static [char])] = &[
-  ('A', &['a']), ('B', &['b']), ('C', &['c']), ('D', &['d']), ('E', &['e']),
-  ('F', &['f']), ('G', &['g']), ('H', &['h']), ('I', &['i']), ('J', &['j']),
-  ('K', &['k', 'K', ]), ('L', &['l']), ('M', &['m']), ('N', &['n']), ('O', &[
-  'o']), ('P', &['p']), ('Q', &['q']), ('R', &['r']), ('S', &['s', 'ſ', ]),
-  ('T', &['t']), ('U', &['u']), ('V', &['v']), ('W', &['w']), ('X', &['x']),
-  ('Y', &['y']), ('Z', &['z']), ('a', &['A']), ('b', &['B']), ('c', &['C']),
-  ('d', &['D']), ('e', &['E']), ('f', &['F']), ('g', &['G']), ('h', &['H']),
-  ('i', &['I']), ('j', &['J']), ('k', &['K', 'K', ]), ('l', &['L']), ('m', &[
-  'M']), ('n', &['N']), ('o', &['O']), ('p', &['P']), ('q', &['Q']), ('r', &[
-  'R']), ('s', &['S', 'ſ', ]), ('t', &['T']), ('u', &['U']), ('v', &['V']),
-  ('w', &['W']), ('x', &['X']), ('y', &['Y']), ('z', &['Z']), ('µ', &['Μ',
-  'μ', ]), ('À', &['à']), ('Á', &['á']), ('Â', &['â']), ('Ã', &['ã'
-  ]), ('Ä', &['ä']), ('Å', &['å', 'Å', ]), ('Æ', &['æ']), ('Ç', &['ç'
-  ]), ('È', &['è']), ('É', &['é']), ('Ê', &['ê']), ('Ë', &['ë']),
-  ('Ì', &['ì']), ('Í', &['í']), ('Î', &['î']), ('Ï', &['ï']), ('Ð', &[
-  'ð']), ('Ñ', &['ñ']), ('Ò', &['ò']), ('Ó', &['ó']), ('Ô', &['ô']),
-  ('Õ', &['õ']), ('Ö', &['ö']), ('Ø', &['ø']), ('Ù', &['ù']), ('Ú', &[
-  'ú']), ('Û', &['û']), ('Ü', &['ü']), ('Ý', &['ý']), ('Þ', &['þ']),
-  ('ß', &['ẞ']), ('à', &['À']), ('á', &['Á']), ('â', &['Â']),
-  ('ã', &['Ã']), ('ä', &['Ä']), ('å', &['Å', 'Å', ]), ('æ', &['Æ']),
-  ('ç', &['Ç']), ('è', &['È']), ('é', &['É']), ('ê', &['Ê']), ('ë', &[
-  'Ë']), ('ì', &['Ì']), ('í', &['Í']), ('î', &['Î']), ('ï', &['Ï']),
-  ('ð', &['Ð']), ('ñ', &['Ñ']), ('ò', &['Ò']), ('ó', &['Ó']), ('ô', &[
-  'Ô']), ('õ', &['Õ']), ('ö', &['Ö']), ('ø', &['Ø']), ('ù', &['Ù']),
-  ('ú', &['Ú']), ('û', &['Û']), ('ü', &['Ü']), ('ý', &['Ý']), ('þ', &[
-  'Þ']), ('ÿ', &['Ÿ']), ('Ā', &['ā']), ('ā', &['Ā']), ('Ă', &['ă']),
-  ('ă', &['Ă']), ('Ą', &['ą']), ('ą', &['Ą']), ('Ć', &['ć']), ('ć', &[
-  'Ć']), ('Ĉ', &['ĉ']), ('ĉ', &['Ĉ']), ('Ċ', &['ċ']), ('ċ', &['Ċ']),
-  ('Č', &['č']), ('č', &['Č']), ('Ď', &['ď']), ('ď', &['Ď']), ('Đ', &[
-  'đ']), ('đ', &['Đ']), ('Ē', &['ē']), ('ē', &['Ē']), ('Ĕ', &['ĕ']),
-  ('ĕ', &['Ĕ']), ('Ė', &['ė']), ('ė', &['Ė']), ('Ę', &['ę']), ('ę', &[
-  'Ę']), ('Ě', &['ě']), ('ě', &['Ě']), ('Ĝ', &['ĝ']), ('ĝ', &['Ĝ']),
-  ('Ğ', &['ğ']), ('ğ', &['Ğ']), ('Ġ', &['ġ']), ('ġ', &['Ġ']), ('Ģ', &[
-  'ģ']), ('ģ', &['Ģ']), ('Ĥ', &['ĥ']), ('ĥ', &['Ĥ']), ('Ħ', &['ħ']),
-  ('ħ', &['Ħ']), ('Ĩ', &['ĩ']), ('ĩ', &['Ĩ']), ('Ī', &['ī']), ('ī', &[
-  'Ī']), ('Ĭ', &['ĭ']), ('ĭ', &['Ĭ']), ('Į', &['į']), ('į', &['Į']),
-  ('IJ', &['ij']), ('ij', &['IJ']), ('Ĵ', &['ĵ']), ('ĵ', &['Ĵ']), ('Ķ', &[
-  'ķ']), ('ķ', &['Ķ']), ('Ĺ', &['ĺ']), ('ĺ', &['Ĺ']), ('Ļ', &['ļ']),
-  ('ļ', &['Ļ']), ('Ľ', &['ľ']), ('ľ', &['Ľ']), ('Ŀ', &['ŀ']), ('ŀ', &[
-  'Ŀ']), ('Ł', &['ł']), ('ł', &['Ł']), ('Ń', &['ń']), ('ń', &['Ń']),
-  ('Ņ', &['ņ']), ('ņ', &['Ņ']), ('Ň', &['ň']), ('ň', &['Ň']), ('Ŋ', &[
-  'ŋ']), ('ŋ', &['Ŋ']), ('Ō', &['ō']), ('ō', &['Ō']), ('Ŏ', &['ŏ']),
-  ('ŏ', &['Ŏ']), ('Ő', &['ő']), ('ő', &['Ő']), ('Œ', &['œ']), ('œ', &[
-  'Œ']), ('Ŕ', &['ŕ']), ('ŕ', &['Ŕ']), ('Ŗ', &['ŗ']), ('ŗ', &['Ŗ']),
-  ('Ř', &['ř']), ('ř', &['Ř']), ('Ś', &['ś']), ('ś', &['Ś']), ('Ŝ', &[
-  'ŝ']), ('ŝ', &['Ŝ']), ('Ş', &['ş']), ('ş', &['Ş']), ('Š', &['š']),
-  ('š', &['Š']), ('Ţ', &['ţ']), ('ţ', &['Ţ']), ('Ť', &['ť']), ('ť', &[
-  'Ť']), ('Ŧ', &['ŧ']), ('ŧ', &['Ŧ']), ('Ũ', &['ũ']), ('ũ', &['Ũ']),
-  ('Ū', &['ū']), ('ū', &['Ū']), ('Ŭ', &['ŭ']), ('ŭ', &['Ŭ']), ('Ů', &[
-  'ů']), ('ů', &['Ů']), ('Ű', &['ű']), ('ű', &['Ű']), ('Ų', &['ų']),
-  ('ų', &['Ų']), ('Ŵ', &['ŵ']), ('ŵ', &['Ŵ']), ('Ŷ', &['ŷ']), ('ŷ', &[
-  'Ŷ']), ('Ÿ', &['ÿ']), ('Ź', &['ź']), ('ź', &['Ź']), ('Ż', &['ż']),
-  ('ż', &['Ż']), ('Ž', &['ž']), ('ž', &['Ž']), ('ſ', &['S', 's', ]),
-  ('ƀ', &['Ƀ']), ('Ɓ', &['ɓ']), ('Ƃ', &['ƃ']), ('ƃ', &['Ƃ']), ('Ƅ', &[
-  'ƅ']), ('ƅ', &['Ƅ']), ('Ɔ', &['ɔ']), ('Ƈ', &['ƈ']), ('ƈ', &['Ƈ']),
-  ('Ɖ', &['ɖ']), ('Ɗ', &['ɗ']), ('Ƌ', &['ƌ']), ('ƌ', &['Ƌ']), ('Ǝ', &[
-  'ǝ']), ('Ə', &['ə']), ('Ɛ', &['ɛ']), ('Ƒ', &['ƒ']), ('ƒ', &['Ƒ']),
-  ('Ɠ', &['ɠ']), ('Ɣ', &['ɣ']), ('ƕ', &['Ƕ']), ('Ɩ', &['ɩ']), ('Ɨ', &[
-  'ɨ']), ('Ƙ', &['ƙ']), ('ƙ', &['Ƙ']), ('ƚ', &['Ƚ']), ('Ɯ', &['ɯ']),
-  ('Ɲ', &['ɲ']), ('ƞ', &['Ƞ']), ('Ɵ', &['ɵ']), ('Ơ', &['ơ']), ('ơ', &[
-  'Ơ']), ('Ƣ', &['ƣ']), ('ƣ', &['Ƣ']), ('Ƥ', &['ƥ']), ('ƥ', &['Ƥ']),
-  ('Ʀ', &['ʀ']), ('Ƨ', &['ƨ']), ('ƨ', &['Ƨ']), ('Ʃ', &['ʃ']), ('Ƭ', &[
-  'ƭ']), ('ƭ', &['Ƭ']), ('Ʈ', &['ʈ']), ('Ư', &['ư']), ('ư', &['Ư']),
-  ('Ʊ', &['ʊ']), ('Ʋ', &['ʋ']), ('Ƴ', &['ƴ']), ('ƴ', &['Ƴ']), ('Ƶ', &[
-  'ƶ']), ('ƶ', &['Ƶ']), ('Ʒ', &['ʒ']), ('Ƹ', &['ƹ']), ('ƹ', &['Ƹ']),
-  ('Ƽ', &['ƽ']), ('ƽ', &['Ƽ']), ('ƿ', &['Ƿ']), ('DŽ', &['Dž', 'dž', ]),
-  ('Dž', &['DŽ', 'dž', ]), ('dž', &['DŽ', 'Dž', ]), ('LJ', &['Lj', 'lj', ]),
-  ('Lj', &['LJ', 'lj', ]), ('lj', &['LJ', 'Lj', ]), ('NJ', &['Nj', 'nj', ]),
-  ('Nj', &['NJ', 'nj', ]), ('nj', &['NJ', 'Nj', ]), ('Ǎ', &['ǎ']), ('ǎ', &[
-  'Ǎ']), ('Ǐ', &['ǐ']), ('ǐ', &['Ǐ']), ('Ǒ', &['ǒ']), ('ǒ', &['Ǒ']),
-  ('Ǔ', &['ǔ']), ('ǔ', &['Ǔ']), ('Ǖ', &['ǖ']), ('ǖ', &['Ǖ']), ('Ǘ', &[
-  'ǘ']), ('ǘ', &['Ǘ']), ('Ǚ', &['ǚ']), ('ǚ', &['Ǚ']), ('Ǜ', &['ǜ']),
-  ('ǜ', &['Ǜ']), ('ǝ', &['Ǝ']), ('Ǟ', &['ǟ']), ('ǟ', &['Ǟ']), ('Ǡ', &[
-  'ǡ']), ('ǡ', &['Ǡ']), ('Ǣ', &['ǣ']), ('ǣ', &['Ǣ']), ('Ǥ', &['ǥ']),
-  ('ǥ', &['Ǥ']), ('Ǧ', &['ǧ']), ('ǧ', &['Ǧ']), ('Ǩ', &['ǩ']), ('ǩ', &[
-  'Ǩ']), ('Ǫ', &['ǫ']), ('ǫ', &['Ǫ']), ('Ǭ', &['ǭ']), ('ǭ', &['Ǭ']),
-  ('Ǯ', &['ǯ']), ('ǯ', &['Ǯ']), ('DZ', &['Dz', 'dz', ]), ('Dz', &['DZ',
-  'dz', ]), ('dz', &['DZ', 'Dz', ]), ('Ǵ', &['ǵ']), ('ǵ', &['Ǵ']),
-  ('Ƕ', &['ƕ']), ('Ƿ', &['ƿ']), ('Ǹ', &['ǹ']), ('ǹ', &['Ǹ']), ('Ǻ', &[
-  'ǻ']), ('ǻ', &['Ǻ']), ('Ǽ', &['ǽ']), ('ǽ', &['Ǽ']), ('Ǿ', &['ǿ']),
-  ('ǿ', &['Ǿ']), ('Ȁ', &['ȁ']), ('ȁ', &['Ȁ']), ('Ȃ', &['ȃ']), ('ȃ', &[
-  'Ȃ']), ('Ȅ', &['ȅ']), ('ȅ', &['Ȅ']), ('Ȇ', &['ȇ']), ('ȇ', &['Ȇ']),
-  ('Ȉ', &['ȉ']), ('ȉ', &['Ȉ']), ('Ȋ', &['ȋ']), ('ȋ', &['Ȋ']), ('Ȍ', &[
-  'ȍ']), ('ȍ', &['Ȍ']), ('Ȏ', &['ȏ']), ('ȏ', &['Ȏ']), ('Ȑ', &['ȑ']),
-  ('ȑ', &['Ȑ']), ('Ȓ', &['ȓ']), ('ȓ', &['Ȓ']), ('Ȕ', &['ȕ']), ('ȕ', &[
-  'Ȕ']), ('Ȗ', &['ȗ']), ('ȗ', &['Ȗ']), ('Ș', &['ș']), ('ș', &['Ș']),
-  ('Ț', &['ț']), ('ț', &['Ț']), ('Ȝ', &['ȝ']), ('ȝ', &['Ȝ']), ('Ȟ', &[
-  'ȟ']), ('ȟ', &['Ȟ']), ('Ƞ', &['ƞ']), ('Ȣ', &['ȣ']), ('ȣ', &['Ȣ']),
-  ('Ȥ', &['ȥ']), ('ȥ', &['Ȥ']), ('Ȧ', &['ȧ']), ('ȧ', &['Ȧ']), ('Ȩ', &[
-  'ȩ']), ('ȩ', &['Ȩ']), ('Ȫ', &['ȫ']), ('ȫ', &['Ȫ']), ('Ȭ', &['ȭ']),
-  ('ȭ', &['Ȭ']), ('Ȯ', &['ȯ']), ('ȯ', &['Ȯ']), ('Ȱ', &['ȱ']), ('ȱ', &[
-  'Ȱ']), ('Ȳ', &['ȳ']), ('ȳ', &['Ȳ']), ('Ⱥ', &['ⱥ']), ('Ȼ', &['ȼ']),
-  ('ȼ', &['Ȼ']), ('Ƚ', &['ƚ']), ('Ⱦ', &['ⱦ']), ('ȿ', &['Ȿ']),
-  ('ɀ', &['Ɀ']), ('Ɂ', &['ɂ']), ('ɂ', &['Ɂ']), ('Ƀ', &['ƀ']),
-  ('Ʉ', &['ʉ']), ('Ʌ', &['ʌ']), ('Ɇ', &['ɇ']), ('ɇ', &['Ɇ']), ('Ɉ', &[
-  'ɉ']), ('ɉ', &['Ɉ']), ('Ɋ', &['ɋ']), ('ɋ', &['Ɋ']), ('Ɍ', &['ɍ']),
-  ('ɍ', &['Ɍ']), ('Ɏ', &['ɏ']), ('ɏ', &['Ɏ']), ('ɐ', &['Ɐ']),
-  ('ɑ', &['Ɑ']), ('ɒ', &['Ɒ']), ('ɓ', &['Ɓ']), ('ɔ', &['Ɔ']),
-  ('ɖ', &['Ɖ']), ('ɗ', &['Ɗ']), ('ə', &['Ə']), ('ɛ', &['Ɛ']), ('ɜ', &[
-  'Ɜ']), ('ɠ', &['Ɠ']), ('ɡ', &['Ɡ']), ('ɣ', &['Ɣ']), ('ɥ', &['Ɥ'
-  ]), ('ɦ', &['Ɦ']), ('ɨ', &['Ɨ']), ('ɩ', &['Ɩ']), ('ɪ', &['Ɪ']),
-  ('ɫ', &['Ɫ']), ('ɬ', &['Ɬ']), ('ɯ', &['Ɯ']), ('ɱ', &['Ɱ']),
-  ('ɲ', &['Ɲ']), ('ɵ', &['Ɵ']), ('ɽ', &['Ɽ']), ('ʀ', &['Ʀ']),
-  ('ʂ', &['\u{a7c5}']), ('ʃ', &['Ʃ']), ('ʇ', &['Ʇ']), ('ʈ', &['Ʈ']),
-  ('ʉ', &['Ʉ']), ('ʊ', &['Ʊ']), ('ʋ', &['Ʋ']), ('ʌ', &['Ʌ']), ('ʒ', &[
-  'Ʒ']), ('ʝ', &['Ʝ']), ('ʞ', &['Ʞ']), ('\u{345}', &['Ι', 'ι', 'ι',
-  ]), ('Ͱ', &['ͱ']), ('ͱ', &['Ͱ']), ('Ͳ', &['ͳ']), ('ͳ', &['Ͳ']),
-  ('Ͷ', &['ͷ']), ('ͷ', &['Ͷ']), ('ͻ', &['Ͻ']), ('ͼ', &['Ͼ']), ('ͽ', &[
-  'Ͽ']), ('Ϳ', &['ϳ']), ('Ά', &['ά']), ('Έ', &['έ']), ('Ή', &['ή']),
-  ('Ί', &['ί']), ('Ό', &['ό']), ('Ύ', &['ύ']), ('Ώ', &['ώ']), ('Α', &[
-  'α']), ('Β', &['β', 'ϐ', ]), ('Γ', &['γ']), ('Δ', &['δ']), ('Ε', &[
-  'ε', 'ϵ', ]), ('Ζ', &['ζ']), ('Η', &['η']), ('Θ', &['θ', 'ϑ', 'ϴ',
-  ]), ('Ι', &['\u{345}', 'ι', 'ι', ]), ('Κ', &['κ', 'ϰ', ]), ('Λ', &[
-  'λ']), ('Μ', &['µ', 'μ', ]), ('Ν', &['ν']), ('Ξ', &['ξ']), ('Ο', &[
-  'ο']), ('Π', &['π', 'ϖ', ]), ('Ρ', &['ρ', 'ϱ', ]), ('Σ', &['ς',
-  'σ', ]), ('Τ', &['τ']), ('Υ', &['υ']), ('Φ', &['φ', 'ϕ', ]),
-  ('Χ', &['χ']), ('Ψ', &['ψ']), ('Ω', &['ω', 'Ω', ]), ('Ϊ', &['ϊ']),
-  ('Ϋ', &['ϋ']), ('ά', &['Ά']), ('έ', &['Έ']), ('ή', &['Ή']), ('ί', &[
-  'Ί']), ('α', &['Α']), ('β', &['Β', 'ϐ', ]), ('γ', &['Γ']), ('δ', &[
-  'Δ']), ('ε', &['Ε', 'ϵ', ]), ('ζ', &['Ζ']), ('η', &['Η']), ('θ', &[
-  'Θ', 'ϑ', 'ϴ', ]), ('ι', &['\u{345}', 'Ι', 'ι', ]), ('κ', &['Κ',
-  'ϰ', ]), ('λ', &['Λ']), ('μ', &['µ', 'Μ', ]), ('ν', &['Ν']),
-  ('ξ', &['Ξ']), ('ο', &['Ο']), ('π', &['Π', 'ϖ', ]), ('ρ', &['Ρ',
-  'ϱ', ]), ('ς', &['Σ', 'σ', ]), ('σ', &['Σ', 'ς', ]), ('τ', &['Τ']),
-  ('υ', &['Υ']), ('φ', &['Φ', 'ϕ', ]), ('χ', &['Χ']), ('ψ', &['Ψ']),
-  ('ω', &['Ω', 'Ω', ]), ('ϊ', &['Ϊ']), ('ϋ', &['Ϋ']), ('ό', &['Ό']),
-  ('ύ', &['Ύ']), ('ώ', &['Ώ']), ('Ϗ', &['ϗ']), ('ϐ', &['Β', 'β', ]),
-  ('ϑ', &['Θ', 'θ', 'ϴ', ]), ('ϕ', &['Φ', 'φ', ]), ('ϖ', &['Π', 'π',
-  ]), ('ϗ', &['Ϗ']), ('Ϙ', &['ϙ']), ('ϙ', &['Ϙ']), ('Ϛ', &['ϛ']),
-  ('ϛ', &['Ϛ']), ('Ϝ', &['ϝ']), ('ϝ', &['Ϝ']), ('Ϟ', &['ϟ']), ('ϟ', &[
-  'Ϟ']), ('Ϡ', &['ϡ']), ('ϡ', &['Ϡ']), ('Ϣ', &['ϣ']), ('ϣ', &['Ϣ']),
-  ('Ϥ', &['ϥ']), ('ϥ', &['Ϥ']), ('Ϧ', &['ϧ']), ('ϧ', &['Ϧ']), ('Ϩ', &[
-  'ϩ']), ('ϩ', &['Ϩ']), ('Ϫ', &['ϫ']), ('ϫ', &['Ϫ']), ('Ϭ', &['ϭ']),
-  ('ϭ', &['Ϭ']), ('Ϯ', &['ϯ']), ('ϯ', &['Ϯ']), ('ϰ', &['Κ', 'κ', ]),
-  ('ϱ', &['Ρ', 'ρ', ]), ('ϲ', &['Ϲ']), ('ϳ', &['Ϳ']), ('ϴ', &['Θ',
-  'θ', 'ϑ', ]), ('ϵ', &['Ε', 'ε', ]), ('Ϸ', &['ϸ']), ('ϸ', &['Ϸ']),
-  ('Ϲ', &['ϲ']), ('Ϻ', &['ϻ']), ('ϻ', &['Ϻ']), ('Ͻ', &['ͻ']), ('Ͼ', &[
-  'ͼ']), ('Ͽ', &['ͽ']), ('Ѐ', &['ѐ']), ('Ё', &['ё']), ('Ђ', &['ђ']),
-  ('Ѓ', &['ѓ']), ('Є', &['є']), ('Ѕ', &['ѕ']), ('І', &['і']), ('Ї', &[
-  'ї']), ('Ј', &['ј']), ('Љ', &['љ']), ('Њ', &['њ']), ('Ћ', &['ћ']),
-  ('Ќ', &['ќ']), ('Ѝ', &['ѝ']), ('Ў', &['ў']), ('Џ', &['џ']), ('А', &[
-  'а']), ('Б', &['б']), ('В', &['в', 'ᲀ', ]), ('Г', &['г']), ('Д', &[
-  'д', 'ᲁ', ]), ('Е', &['е']), ('Ж', &['ж']), ('З', &['з']), ('И', &[
-  'и']), ('Й', &['й']), ('К', &['к']), ('Л', &['л']), ('М', &['м']),
-  ('Н', &['н']), ('О', &['о', 'ᲂ', ]), ('П', &['п']), ('Р', &['р']),
-  ('С', &['с', 'ᲃ', ]), ('Т', &['т', 'ᲄ', 'ᲅ', ]), ('У', &['у']),
-  ('Ф', &['ф']), ('Х', &['х']), ('Ц', &['ц']), ('Ч', &['ч']), ('Ш', &[
-  'ш']), ('Щ', &['щ']), ('Ъ', &['ъ', 'ᲆ', ]), ('Ы', &['ы']), ('Ь', &[
-  'ь']), ('Э', &['э']), ('Ю', &['ю']), ('Я', &['я']), ('а', &['А']),
-  ('б', &['Б']), ('в', &['В', 'ᲀ', ]), ('г', &['Г']), ('д', &['Д',
-  'ᲁ', ]), ('е', &['Е']), ('ж', &['Ж']), ('з', &['З']), ('и', &['И'
-  ]), ('й', &['Й']), ('к', &['К']), ('л', &['Л']), ('м', &['М']),
-  ('н', &['Н']), ('о', &['О', 'ᲂ', ]), ('п', &['П']), ('р', &['Р']),
-  ('с', &['С', 'ᲃ', ]), ('т', &['Т', 'ᲄ', 'ᲅ', ]), ('у', &['У']),
-  ('ф', &['Ф']), ('х', &['Х']), ('ц', &['Ц']), ('ч', &['Ч']), ('ш', &[
-  'Ш']), ('щ', &['Щ']), ('ъ', &['Ъ', 'ᲆ', ]), ('ы', &['Ы']), ('ь', &[
-  'Ь']), ('э', &['Э']), ('ю', &['Ю']), ('я', &['Я']), ('ѐ', &['Ѐ']),
-  ('ё', &['Ё']), ('ђ', &['Ђ']), ('ѓ', &['Ѓ']), ('є', &['Є']), ('ѕ', &[
-  'Ѕ']), ('і', &['І']), ('ї', &['Ї']), ('ј', &['Ј']), ('љ', &['Љ']),
-  ('њ', &['Њ']), ('ћ', &['Ћ']), ('ќ', &['Ќ']), ('ѝ', &['Ѝ']), ('ў', &[
-  'Ў']), ('џ', &['Џ']), ('Ѡ', &['ѡ']), ('ѡ', &['Ѡ']), ('Ѣ', &['ѣ',
-  'ᲇ', ]), ('ѣ', &['Ѣ', 'ᲇ', ]), ('Ѥ', &['ѥ']), ('ѥ', &['Ѥ']),
-  ('Ѧ', &['ѧ']), ('ѧ', &['Ѧ']), ('Ѩ', &['ѩ']), ('ѩ', &['Ѩ']), ('Ѫ', &[
-  'ѫ']), ('ѫ', &['Ѫ']), ('Ѭ', &['ѭ']), ('ѭ', &['Ѭ']), ('Ѯ', &['ѯ']),
-  ('ѯ', &['Ѯ']), ('Ѱ', &['ѱ']), ('ѱ', &['Ѱ']), ('Ѳ', &['ѳ']), ('ѳ', &[
-  'Ѳ']), ('Ѵ', &['ѵ']), ('ѵ', &['Ѵ']), ('Ѷ', &['ѷ']), ('ѷ', &['Ѷ']),
-  ('Ѹ', &['ѹ']), ('ѹ', &['Ѹ']), ('Ѻ', &['ѻ']), ('ѻ', &['Ѻ']), ('Ѽ', &[
-  'ѽ']), ('ѽ', &['Ѽ']), ('Ѿ', &['ѿ']), ('ѿ', &['Ѿ']), ('Ҁ', &['ҁ']),
-  ('ҁ', &['Ҁ']), ('Ҋ', &['ҋ']), ('ҋ', &['Ҋ']), ('Ҍ', &['ҍ']), ('ҍ', &[
-  'Ҍ']), ('Ҏ', &['ҏ']), ('ҏ', &['Ҏ']), ('Ґ', &['ґ']), ('ґ', &['Ґ']),
-  ('Ғ', &['ғ']), ('ғ', &['Ғ']), ('Ҕ', &['ҕ']), ('ҕ', &['Ҕ']), ('Җ', &[
-  'җ']), ('җ', &['Җ']), ('Ҙ', &['ҙ']), ('ҙ', &['Ҙ']), ('Қ', &['қ']),
-  ('қ', &['Қ']), ('Ҝ', &['ҝ']), ('ҝ', &['Ҝ']), ('Ҟ', &['ҟ']), ('ҟ', &[
-  'Ҟ']), ('Ҡ', &['ҡ']), ('ҡ', &['Ҡ']), ('Ң', &['ң']), ('ң', &['Ң']),
-  ('Ҥ', &['ҥ']), ('ҥ', &['Ҥ']), ('Ҧ', &['ҧ']), ('ҧ', &['Ҧ']), ('Ҩ', &[
-  'ҩ']), ('ҩ', &['Ҩ']), ('Ҫ', &['ҫ']), ('ҫ', &['Ҫ']), ('Ҭ', &['ҭ']),
-  ('ҭ', &['Ҭ']), ('Ү', &['ү']), ('ү', &['Ү']), ('Ұ', &['ұ']), ('ұ', &[
-  'Ұ']), ('Ҳ', &['ҳ']), ('ҳ', &['Ҳ']), ('Ҵ', &['ҵ']), ('ҵ', &['Ҵ']),
-  ('Ҷ', &['ҷ']), ('ҷ', &['Ҷ']), ('Ҹ', &['ҹ']), ('ҹ', &['Ҹ']), ('Һ', &[
-  'һ']), ('һ', &['Һ']), ('Ҽ', &['ҽ']), ('ҽ', &['Ҽ']), ('Ҿ', &['ҿ']),
-  ('ҿ', &['Ҿ']), ('Ӏ', &['ӏ']), ('Ӂ', &['ӂ']), ('ӂ', &['Ӂ']), ('Ӄ', &[
-  'ӄ']), ('ӄ', &['Ӄ']), ('Ӆ', &['ӆ']), ('ӆ', &['Ӆ']), ('Ӈ', &['ӈ']),
-  ('ӈ', &['Ӈ']), ('Ӊ', &['ӊ']), ('ӊ', &['Ӊ']), ('Ӌ', &['ӌ']), ('ӌ', &[
-  'Ӌ']), ('Ӎ', &['ӎ']), ('ӎ', &['Ӎ']), ('ӏ', &['Ӏ']), ('Ӑ', &['ӑ']),
-  ('ӑ', &['Ӑ']), ('Ӓ', &['ӓ']), ('ӓ', &['Ӓ']), ('Ӕ', &['ӕ']), ('ӕ', &[
-  'Ӕ']), ('Ӗ', &['ӗ']), ('ӗ', &['Ӗ']), ('Ә', &['ә']), ('ә', &['Ә']),
-  ('Ӛ', &['ӛ']), ('ӛ', &['Ӛ']), ('Ӝ', &['ӝ']), ('ӝ', &['Ӝ']), ('Ӟ', &[
-  'ӟ']), ('ӟ', &['Ӟ']), ('Ӡ', &['ӡ']), ('ӡ', &['Ӡ']), ('Ӣ', &['ӣ']),
-  ('ӣ', &['Ӣ']), ('Ӥ', &['ӥ']), ('ӥ', &['Ӥ']), ('Ӧ', &['ӧ']), ('ӧ', &[
-  'Ӧ']), ('Ө', &['ө']), ('ө', &['Ө']), ('Ӫ', &['ӫ']), ('ӫ', &['Ӫ']),
-  ('Ӭ', &['ӭ']), ('ӭ', &['Ӭ']), ('Ӯ', &['ӯ']), ('ӯ', &['Ӯ']), ('Ӱ', &[
-  'ӱ']), ('ӱ', &['Ӱ']), ('Ӳ', &['ӳ']), ('ӳ', &['Ӳ']), ('Ӵ', &['ӵ']),
-  ('ӵ', &['Ӵ']), ('Ӷ', &['ӷ']), ('ӷ', &['Ӷ']), ('Ӹ', &['ӹ']), ('ӹ', &[
-  'Ӹ']), ('Ӻ', &['ӻ']), ('ӻ', &['Ӻ']), ('Ӽ', &['ӽ']), ('ӽ', &['Ӽ']),
-  ('Ӿ', &['ӿ']), ('ӿ', &['Ӿ']), ('Ԁ', &['ԁ']), ('ԁ', &['Ԁ']), ('Ԃ', &[
-  'ԃ']), ('ԃ', &['Ԃ']), ('Ԅ', &['ԅ']), ('ԅ', &['Ԅ']), ('Ԇ', &['ԇ']),
-  ('ԇ', &['Ԇ']), ('Ԉ', &['ԉ']), ('ԉ', &['Ԉ']), ('Ԋ', &['ԋ']), ('ԋ', &[
-  'Ԋ']), ('Ԍ', &['ԍ']), ('ԍ', &['Ԍ']), ('Ԏ', &['ԏ']), ('ԏ', &['Ԏ']),
-  ('Ԑ', &['ԑ']), ('ԑ', &['Ԑ']), ('Ԓ', &['ԓ']), ('ԓ', &['Ԓ']), ('Ԕ', &[
-  'ԕ']), ('ԕ', &['Ԕ']), ('Ԗ', &['ԗ']), ('ԗ', &['Ԗ']), ('Ԙ', &['ԙ']),
-  ('ԙ', &['Ԙ']), ('Ԛ', &['ԛ']), ('ԛ', &['Ԛ']), ('Ԝ', &['ԝ']), ('ԝ', &[
-  'Ԝ']), ('Ԟ', &['ԟ']), ('ԟ', &['Ԟ']), ('Ԡ', &['ԡ']), ('ԡ', &['Ԡ']),
-  ('Ԣ', &['ԣ']), ('ԣ', &['Ԣ']), ('Ԥ', &['ԥ']), ('ԥ', &['Ԥ']), ('Ԧ', &[
-  'ԧ']), ('ԧ', &['Ԧ']), ('Ԩ', &['ԩ']), ('ԩ', &['Ԩ']), ('Ԫ', &['ԫ']),
-  ('ԫ', &['Ԫ']), ('Ԭ', &['ԭ']), ('ԭ', &['Ԭ']), ('Ԯ', &['ԯ']), ('ԯ', &[
-  'Ԯ']), ('Ա', &['ա']), ('Բ', &['բ']), ('Գ', &['գ']), ('Դ', &['դ']),
-  ('Ե', &['ե']), ('Զ', &['զ']), ('Է', &['է']), ('Ը', &['ը']), ('Թ', &[
-  'թ']), ('Ժ', &['ժ']), ('Ի', &['ի']), ('Լ', &['լ']), ('Խ', &['խ']),
-  ('Ծ', &['ծ']), ('Կ', &['կ']), ('Հ', &['հ']), ('Ձ', &['ձ']), ('Ղ', &[
-  'ղ']), ('Ճ', &['ճ']), ('Մ', &['մ']), ('Յ', &['յ']), ('Ն', &['ն']),
-  ('Շ', &['շ']), ('Ո', &['ո']), ('Չ', &['չ']), ('Պ', &['պ']), ('Ջ', &[
-  'ջ']), ('Ռ', &['ռ']), ('Ս', &['ս']), ('Վ', &['վ']), ('Տ', &['տ']),
-  ('Ր', &['ր']), ('Ց', &['ց']), ('Ւ', &['ւ']), ('Փ', &['փ']), ('Ք', &[
-  'ք']), ('Օ', &['օ']), ('Ֆ', &['ֆ']), ('ա', &['Ա']), ('բ', &['Բ']),
-  ('գ', &['Գ']), ('դ', &['Դ']), ('ե', &['Ե']), ('զ', &['Զ']), ('է', &[
-  'Է']), ('ը', &['Ը']), ('թ', &['Թ']), ('ժ', &['Ժ']), ('ի', &['Ի']),
-  ('լ', &['Լ']), ('խ', &['Խ']), ('ծ', &['Ծ']), ('կ', &['Կ']), ('հ', &[
-  'Հ']), ('ձ', &['Ձ']), ('ղ', &['Ղ']), ('ճ', &['Ճ']), ('մ', &['Մ']),
-  ('յ', &['Յ']), ('ն', &['Ն']), ('շ', &['Շ']), ('ո', &['Ո']), ('չ', &[
-  'Չ']), ('պ', &['Պ']), ('ջ', &['Ջ']), ('ռ', &['Ռ']), ('ս', &['Ս']),
-  ('վ', &['Վ']), ('տ', &['Տ']), ('ր', &['Ր']), ('ց', &['Ց']), ('ւ', &[
-  'Ւ']), ('փ', &['Փ']), ('ք', &['Ք']), ('օ', &['Օ']), ('ֆ', &['Ֆ']),
-  ('Ⴀ', &['ⴀ']), ('Ⴁ', &['ⴁ']), ('Ⴂ', &['ⴂ']), ('Ⴃ', &['ⴃ']),
-  ('Ⴄ', &['ⴄ']), ('Ⴅ', &['ⴅ']), ('Ⴆ', &['ⴆ']), ('Ⴇ', &['ⴇ']),
-  ('Ⴈ', &['ⴈ']), ('Ⴉ', &['ⴉ']), ('Ⴊ', &['ⴊ']), ('Ⴋ', &['ⴋ']),
-  ('Ⴌ', &['ⴌ']), ('Ⴍ', &['ⴍ']), ('Ⴎ', &['ⴎ']), ('Ⴏ', &['ⴏ']),
-  ('Ⴐ', &['ⴐ']), ('Ⴑ', &['ⴑ']), ('Ⴒ', &['ⴒ']), ('Ⴓ', &['ⴓ']),
-  ('Ⴔ', &['ⴔ']), ('Ⴕ', &['ⴕ']), ('Ⴖ', &['ⴖ']), ('Ⴗ', &['ⴗ']),
-  ('Ⴘ', &['ⴘ']), ('Ⴙ', &['ⴙ']), ('Ⴚ', &['ⴚ']), ('Ⴛ', &['ⴛ']),
-  ('Ⴜ', &['ⴜ']), ('Ⴝ', &['ⴝ']), ('Ⴞ', &['ⴞ']), ('Ⴟ', &['ⴟ']),
-  ('Ⴠ', &['ⴠ']), ('Ⴡ', &['ⴡ']), ('Ⴢ', &['ⴢ']), ('Ⴣ', &['ⴣ']),
-  ('Ⴤ', &['ⴤ']), ('Ⴥ', &['ⴥ']), ('Ⴧ', &['ⴧ']), ('Ⴭ', &['ⴭ']),
-  ('ა', &['Ა']), ('ბ', &['Ბ']), ('გ', &['Გ']), ('დ', &['Დ']),
-  ('ე', &['Ე']), ('ვ', &['Ვ']), ('ზ', &['Ზ']), ('თ', &['Თ']),
-  ('ი', &['Ი']), ('კ', &['Კ']), ('ლ', &['Ლ']), ('მ', &['Მ']),
-  ('ნ', &['Ნ']), ('ო', &['Ო']), ('პ', &['Პ']), ('ჟ', &['Ჟ']),
-  ('რ', &['Რ']), ('ს', &['Ს']), ('ტ', &['Ტ']), ('უ', &['Უ']),
-  ('ფ', &['Ფ']), ('ქ', &['Ქ']), ('ღ', &['Ღ']), ('ყ', &['Ყ']),
-  ('შ', &['Შ']), ('ჩ', &['Ჩ']), ('ც', &['Ც']), ('ძ', &['Ძ']),
-  ('წ', &['Წ']), ('ჭ', &['Ჭ']), ('ხ', &['Ხ']), ('ჯ', &['Ჯ']),
-  ('ჰ', &['Ჰ']), ('ჱ', &['Ჱ']), ('ჲ', &['Ჲ']), ('ჳ', &['Ჳ']),
-  ('ჴ', &['Ჴ']), ('ჵ', &['Ჵ']), ('ჶ', &['Ჶ']), ('ჷ', &['Ჷ']),
-  ('ჸ', &['Ჸ']), ('ჹ', &['Ჹ']), ('ჺ', &['Ჺ']), ('ჽ', &['Ჽ']),
-  ('ჾ', &['Ჾ']), ('ჿ', &['Ჿ']), ('Ꭰ', &['ꭰ']), ('Ꭱ', &['ꭱ']),
-  ('Ꭲ', &['ꭲ']), ('Ꭳ', &['ꭳ']), ('Ꭴ', &['ꭴ']), ('Ꭵ', &['ꭵ']),
-  ('Ꭶ', &['ꭶ']), ('Ꭷ', &['ꭷ']), ('Ꭸ', &['ꭸ']), ('Ꭹ', &['ꭹ']),
-  ('Ꭺ', &['ꭺ']), ('Ꭻ', &['ꭻ']), ('Ꭼ', &['ꭼ']), ('Ꭽ', &['ꭽ']),
-  ('Ꭾ', &['ꭾ']), ('Ꭿ', &['ꭿ']), ('Ꮀ', &['ꮀ']), ('Ꮁ', &['ꮁ']),
-  ('Ꮂ', &['ꮂ']), ('Ꮃ', &['ꮃ']), ('Ꮄ', &['ꮄ']), ('Ꮅ', &['ꮅ']),
-  ('Ꮆ', &['ꮆ']), ('Ꮇ', &['ꮇ']), ('Ꮈ', &['ꮈ']), ('Ꮉ', &['ꮉ']),
-  ('Ꮊ', &['ꮊ']), ('Ꮋ', &['ꮋ']), ('Ꮌ', &['ꮌ']), ('Ꮍ', &['ꮍ']),
-  ('Ꮎ', &['ꮎ']), ('Ꮏ', &['ꮏ']), ('Ꮐ', &['ꮐ']), ('Ꮑ', &['ꮑ']),
-  ('Ꮒ', &['ꮒ']), ('Ꮓ', &['ꮓ']), ('Ꮔ', &['ꮔ']), ('Ꮕ', &['ꮕ']),
-  ('Ꮖ', &['ꮖ']), ('Ꮗ', &['ꮗ']), ('Ꮘ', &['ꮘ']), ('Ꮙ', &['ꮙ']),
-  ('Ꮚ', &['ꮚ']), ('Ꮛ', &['ꮛ']), ('Ꮜ', &['ꮜ']), ('Ꮝ', &['ꮝ']),
-  ('Ꮞ', &['ꮞ']), ('Ꮟ', &['ꮟ']), ('Ꮠ', &['ꮠ']), ('Ꮡ', &['ꮡ']),
-  ('Ꮢ', &['ꮢ']), ('Ꮣ', &['ꮣ']), ('Ꮤ', &['ꮤ']), ('Ꮥ', &['ꮥ']),
-  ('Ꮦ', &['ꮦ']), ('Ꮧ', &['ꮧ']), ('Ꮨ', &['ꮨ']), ('Ꮩ', &['ꮩ']),
-  ('Ꮪ', &['ꮪ']), ('Ꮫ', &['ꮫ']), ('Ꮬ', &['ꮬ']), ('Ꮭ', &['ꮭ']),
-  ('Ꮮ', &['ꮮ']), ('Ꮯ', &['ꮯ']), ('Ꮰ', &['ꮰ']), ('Ꮱ', &['ꮱ']),
-  ('Ꮲ', &['ꮲ']), ('Ꮳ', &['ꮳ']), ('Ꮴ', &['ꮴ']), ('Ꮵ', &['ꮵ']),
-  ('Ꮶ', &['ꮶ']), ('Ꮷ', &['ꮷ']), ('Ꮸ', &['ꮸ']), ('Ꮹ', &['ꮹ']),
-  ('Ꮺ', &['ꮺ']), ('Ꮻ', &['ꮻ']), ('Ꮼ', &['ꮼ']), ('Ꮽ', &['ꮽ']),
-  ('Ꮾ', &['ꮾ']), ('Ꮿ', &['ꮿ']), ('Ᏸ', &['ᏸ']), ('Ᏹ', &['ᏹ']),
-  ('Ᏺ', &['ᏺ']), ('Ᏻ', &['ᏻ']), ('Ᏼ', &['ᏼ']), ('Ᏽ', &['ᏽ']),
-  ('ᏸ', &['Ᏸ']), ('ᏹ', &['Ᏹ']), ('ᏺ', &['Ᏺ']), ('ᏻ', &['Ᏻ']),
-  ('ᏼ', &['Ᏼ']), ('ᏽ', &['Ᏽ']), ('ᲀ', &['В', 'в', ]), ('ᲁ', &[
-  'Д', 'д', ]), ('ᲂ', &['О', 'о', ]), ('ᲃ', &['С', 'с', ]),
-  ('ᲄ', &['Т', 'т', 'ᲅ', ]), ('ᲅ', &['Т', 'т', 'ᲄ', ]), ('ᲆ', &[
-  'Ъ', 'ъ', ]), ('ᲇ', &['Ѣ', 'ѣ', ]), ('ᲈ', &['Ꙋ', 'ꙋ', ]),
-  ('Ა', &['ა']), ('Ბ', &['ბ']), ('Გ', &['გ']), ('Დ', &['დ']),
-  ('Ე', &['ე']), ('Ვ', &['ვ']), ('Ზ', &['ზ']), ('Თ', &['თ']),
-  ('Ი', &['ი']), ('Კ', &['კ']), ('Ლ', &['ლ']), ('Მ', &['მ']),
-  ('Ნ', &['ნ']), ('Ო', &['ო']), ('Პ', &['პ']), ('Ჟ', &['ჟ']),
-  ('Რ', &['რ']), ('Ს', &['ს']), ('Ტ', &['ტ']), ('Უ', &['უ']),
-  ('Ფ', &['ფ']), ('Ქ', &['ქ']), ('Ღ', &['ღ']), ('Ყ', &['ყ']),
-  ('Შ', &['შ']), ('Ჩ', &['ჩ']), ('Ც', &['ც']), ('Ძ', &['ძ']),
-  ('Წ', &['წ']), ('Ჭ', &['ჭ']), ('Ხ', &['ხ']), ('Ჯ', &['ჯ']),
-  ('Ჰ', &['ჰ']), ('Ჱ', &['ჱ']), ('Ჲ', &['ჲ']), ('Ჳ', &['ჳ']),
-  ('Ჴ', &['ჴ']), ('Ჵ', &['ჵ']), ('Ჶ', &['ჶ']), ('Ჷ', &['ჷ']),
-  ('Ჸ', &['ჸ']), ('Ჹ', &['ჹ']), ('Ჺ', &['ჺ']), ('Ჽ', &['ჽ']),
-  ('Ჾ', &['ჾ']), ('Ჿ', &['ჿ']), ('ᵹ', &['Ᵹ']), ('ᵽ', &['Ᵽ']),
-  ('ᶎ', &['\u{a7c6}']), ('Ḁ', &['ḁ']), ('ḁ', &['Ḁ']), ('Ḃ', &['ḃ'
-  ]), ('ḃ', &['Ḃ']), ('Ḅ', &['ḅ']), ('ḅ', &['Ḅ']), ('Ḇ', &['ḇ'
-  ]), ('ḇ', &['Ḇ']), ('Ḉ', &['ḉ']), ('ḉ', &['Ḉ']), ('Ḋ', &['ḋ'
-  ]), ('ḋ', &['Ḋ']), ('Ḍ', &['ḍ']), ('ḍ', &['Ḍ']), ('Ḏ', &['ḏ'
-  ]), ('ḏ', &['Ḏ']), ('Ḑ', &['ḑ']), ('ḑ', &['Ḑ']), ('Ḓ', &['ḓ'
-  ]), ('ḓ', &['Ḓ']), ('Ḕ', &['ḕ']), ('ḕ', &['Ḕ']), ('Ḗ', &['ḗ'
-  ]), ('ḗ', &['Ḗ']), ('Ḙ', &['ḙ']), ('ḙ', &['Ḙ']), ('Ḛ', &['ḛ'
-  ]), ('ḛ', &['Ḛ']), ('Ḝ', &['ḝ']), ('ḝ', &['Ḝ']), ('Ḟ', &['ḟ'
-  ]), ('ḟ', &['Ḟ']), ('Ḡ', &['ḡ']), ('ḡ', &['Ḡ']), ('Ḣ', &['ḣ'
-  ]), ('ḣ', &['Ḣ']), ('Ḥ', &['ḥ']), ('ḥ', &['Ḥ']), ('Ḧ', &['ḧ'
-  ]), ('ḧ', &['Ḧ']), ('Ḩ', &['ḩ']), ('ḩ', &['Ḩ']), ('Ḫ', &['ḫ'
-  ]), ('ḫ', &['Ḫ']), ('Ḭ', &['ḭ']), ('ḭ', &['Ḭ']), ('Ḯ', &['ḯ'
-  ]), ('ḯ', &['Ḯ']), ('Ḱ', &['ḱ']), ('ḱ', &['Ḱ']), ('Ḳ', &['ḳ'
-  ]), ('ḳ', &['Ḳ']), ('Ḵ', &['ḵ']), ('ḵ', &['Ḵ']), ('Ḷ', &['ḷ'
-  ]), ('ḷ', &['Ḷ']), ('Ḹ', &['ḹ']), ('ḹ', &['Ḹ']), ('Ḻ', &['ḻ'
-  ]), ('ḻ', &['Ḻ']), ('Ḽ', &['ḽ']), ('ḽ', &['Ḽ']), ('Ḿ', &['ḿ'
-  ]), ('ḿ', &['Ḿ']), ('Ṁ', &['ṁ']), ('ṁ', &['Ṁ']), ('Ṃ', &['ṃ'
-  ]), ('ṃ', &['Ṃ']), ('Ṅ', &['ṅ']), ('ṅ', &['Ṅ']), ('Ṇ', &['ṇ'
-  ]), ('ṇ', &['Ṇ']), ('Ṉ', &['ṉ']), ('ṉ', &['Ṉ']), ('Ṋ', &['ṋ'
-  ]), ('ṋ', &['Ṋ']), ('Ṍ', &['ṍ']), ('ṍ', &['Ṍ']), ('Ṏ', &['ṏ'
-  ]), ('ṏ', &['Ṏ']), ('Ṑ', &['ṑ']), ('ṑ', &['Ṑ']), ('Ṓ', &['ṓ'
-  ]), ('ṓ', &['Ṓ']), ('Ṕ', &['ṕ']), ('ṕ', &['Ṕ']), ('Ṗ', &['ṗ'
-  ]), ('ṗ', &['Ṗ']), ('Ṙ', &['ṙ']), ('ṙ', &['Ṙ']), ('Ṛ', &['ṛ'
-  ]), ('ṛ', &['Ṛ']), ('Ṝ', &['ṝ']), ('ṝ', &['Ṝ']), ('Ṟ', &['ṟ'
-  ]), ('ṟ', &['Ṟ']), ('Ṡ', &['ṡ', 'ẛ', ]), ('ṡ', &['Ṡ', 'ẛ',
-  ]), ('Ṣ', &['ṣ']), ('ṣ', &['Ṣ']), ('Ṥ', &['ṥ']), ('ṥ', &['Ṥ'
-  ]), ('Ṧ', &['ṧ']), ('ṧ', &['Ṧ']), ('Ṩ', &['ṩ']), ('ṩ', &['Ṩ'
-  ]), ('Ṫ', &['ṫ']), ('ṫ', &['Ṫ']), ('Ṭ', &['ṭ']), ('ṭ', &['Ṭ'
-  ]), ('Ṯ', &['ṯ']), ('ṯ', &['Ṯ']), ('Ṱ', &['ṱ']), ('ṱ', &['Ṱ'
-  ]), ('Ṳ', &['ṳ']), ('ṳ', &['Ṳ']), ('Ṵ', &['ṵ']), ('ṵ', &['Ṵ'
-  ]), ('Ṷ', &['ṷ']), ('ṷ', &['Ṷ']), ('Ṹ', &['ṹ']), ('ṹ', &['Ṹ'
-  ]), ('Ṻ', &['ṻ']), ('ṻ', &['Ṻ']), ('Ṽ', &['ṽ']), ('ṽ', &['Ṽ'
-  ]), ('Ṿ', &['ṿ']), ('ṿ', &['Ṿ']), ('Ẁ', &['ẁ']), ('ẁ', &['Ẁ'
-  ]), ('Ẃ', &['ẃ']), ('ẃ', &['Ẃ']), ('Ẅ', &['ẅ']), ('ẅ', &['Ẅ'
-  ]), ('Ẇ', &['ẇ']), ('ẇ', &['Ẇ']), ('Ẉ', &['ẉ']), ('ẉ', &['Ẉ'
-  ]), ('Ẋ', &['ẋ']), ('ẋ', &['Ẋ']), ('Ẍ', &['ẍ']), ('ẍ', &['Ẍ'
-  ]), ('Ẏ', &['ẏ']), ('ẏ', &['Ẏ']), ('Ẑ', &['ẑ']), ('ẑ', &['Ẑ'
-  ]), ('Ẓ', &['ẓ']), ('ẓ', &['Ẓ']), ('Ẕ', &['ẕ']), ('ẕ', &['Ẕ'
-  ]), ('ẛ', &['Ṡ', 'ṡ', ]), ('ẞ', &['ß']), ('Ạ', &['ạ']),
-  ('ạ', &['Ạ']), ('Ả', &['ả']), ('ả', &['Ả']), ('Ấ', &['ấ']),
-  ('ấ', &['Ấ']), ('Ầ', &['ầ']), ('ầ', &['Ầ']), ('Ẩ', &['ẩ']),
-  ('ẩ', &['Ẩ']), ('Ẫ', &['ẫ']), ('ẫ', &['Ẫ']), ('Ậ', &['ậ']),
-  ('ậ', &['Ậ']), ('Ắ', &['ắ']), ('ắ', &['Ắ']), ('Ằ', &['ằ']),
-  ('ằ', &['Ằ']), ('Ẳ', &['ẳ']), ('ẳ', &['Ẳ']), ('Ẵ', &['ẵ']),
-  ('ẵ', &['Ẵ']), ('Ặ', &['ặ']), ('ặ', &['Ặ']), ('Ẹ', &['ẹ']),
-  ('ẹ', &['Ẹ']), ('Ẻ', &['ẻ']), ('ẻ', &['Ẻ']), ('Ẽ', &['ẽ']),
-  ('ẽ', &['Ẽ']), ('Ế', &['ế']), ('ế', &['Ế']), ('Ề', &['ề']),
-  ('ề', &['Ề']), ('Ể', &['ể']), ('ể', &['Ể']), ('Ễ', &['ễ']),
-  ('ễ', &['Ễ']), ('Ệ', &['ệ']), ('ệ', &['Ệ']), ('Ỉ', &['ỉ']),
-  ('ỉ', &['Ỉ']), ('Ị', &['ị']), ('ị', &['Ị']), ('Ọ', &['ọ']),
-  ('ọ', &['Ọ']), ('Ỏ', &['ỏ']), ('ỏ', &['Ỏ']), ('Ố', &['ố']),
-  ('ố', &['Ố']), ('Ồ', &['ồ']), ('ồ', &['Ồ']), ('Ổ', &['ổ']),
-  ('ổ', &['Ổ']), ('Ỗ', &['ỗ']), ('ỗ', &['Ỗ']), ('Ộ', &['ộ']),
-  ('ộ', &['Ộ']), ('Ớ', &['ớ']), ('ớ', &['Ớ']), ('Ờ', &['ờ']),
-  ('ờ', &['Ờ']), ('Ở', &['ở']), ('ở', &['Ở']), ('Ỡ', &['ỡ']),
-  ('ỡ', &['Ỡ']), ('Ợ', &['ợ']), ('ợ', &['Ợ']), ('Ụ', &['ụ']),
-  ('ụ', &['Ụ']), ('Ủ', &['ủ']), ('ủ', &['Ủ']), ('Ứ', &['ứ']),
-  ('ứ', &['Ứ']), ('Ừ', &['ừ']), ('ừ', &['Ừ']), ('Ử', &['ử']),
-  ('ử', &['Ử']), ('Ữ', &['ữ']), ('ữ', &['Ữ']), ('Ự', &['ự']),
-  ('ự', &['Ự']), ('Ỳ', &['ỳ']), ('ỳ', &['Ỳ']), ('Ỵ', &['ỵ']),
-  ('ỵ', &['Ỵ']), ('Ỷ', &['ỷ']), ('ỷ', &['Ỷ']), ('Ỹ', &['ỹ']),
-  ('ỹ', &['Ỹ']), ('Ỻ', &['ỻ']), ('ỻ', &['Ỻ']), ('Ỽ', &['ỽ']),
-  ('ỽ', &['Ỽ']), ('Ỿ', &['ỿ']), ('ỿ', &['Ỿ']), ('ἀ', &['Ἀ']),
-  ('ἁ', &['Ἁ']), ('ἂ', &['Ἂ']), ('ἃ', &['Ἃ']), ('ἄ', &['Ἄ']),
-  ('ἅ', &['Ἅ']), ('ἆ', &['Ἆ']), ('ἇ', &['Ἇ']), ('Ἀ', &['ἀ']),
-  ('Ἁ', &['ἁ']), ('Ἂ', &['ἂ']), ('Ἃ', &['ἃ']), ('Ἄ', &['ἄ']),
-  ('Ἅ', &['ἅ']), ('Ἆ', &['ἆ']), ('Ἇ', &['ἇ']), ('ἐ', &['Ἐ']),
-  ('ἑ', &['Ἑ']), ('ἒ', &['Ἒ']), ('ἓ', &['Ἓ']), ('ἔ', &['Ἔ']),
-  ('ἕ', &['Ἕ']), ('Ἐ', &['ἐ']), ('Ἑ', &['ἑ']), ('Ἒ', &['ἒ']),
-  ('Ἓ', &['ἓ']), ('Ἔ', &['ἔ']), ('Ἕ', &['ἕ']), ('ἠ', &['Ἠ']),
-  ('ἡ', &['Ἡ']), ('ἢ', &['Ἢ']), ('ἣ', &['Ἣ']), ('ἤ', &['Ἤ']),
-  ('ἥ', &['Ἥ']), ('ἦ', &['Ἦ']), ('ἧ', &['Ἧ']), ('Ἠ', &['ἠ']),
-  ('Ἡ', &['ἡ']), ('Ἢ', &['ἢ']), ('Ἣ', &['ἣ']), ('Ἤ', &['ἤ']),
-  ('Ἥ', &['ἥ']), ('Ἦ', &['ἦ']), ('Ἧ', &['ἧ']), ('ἰ', &['Ἰ']),
-  ('ἱ', &['Ἱ']), ('ἲ', &['Ἲ']), ('ἳ', &['Ἳ']), ('ἴ', &['Ἴ']),
-  ('ἵ', &['Ἵ']), ('ἶ', &['Ἶ']), ('ἷ', &['Ἷ']), ('Ἰ', &['ἰ']),
-  ('Ἱ', &['ἱ']), ('Ἲ', &['ἲ']), ('Ἳ', &['ἳ']), ('Ἴ', &['ἴ']),
-  ('Ἵ', &['ἵ']), ('Ἶ', &['ἶ']), ('Ἷ', &['ἷ']), ('ὀ', &['Ὀ']),
-  ('ὁ', &['Ὁ']), ('ὂ', &['Ὂ']), ('ὃ', &['Ὃ']), ('ὄ', &['Ὄ']),
-  ('ὅ', &['Ὅ']), ('Ὀ', &['ὀ']), ('Ὁ', &['ὁ']), ('Ὂ', &['ὂ']),
-  ('Ὃ', &['ὃ']), ('Ὄ', &['ὄ']), ('Ὅ', &['ὅ']), ('ὑ', &['Ὑ']),
-  ('ὓ', &['Ὓ']), ('ὕ', &['Ὕ']), ('ὗ', &['Ὗ']), ('Ὑ', &['ὑ']),
-  ('Ὓ', &['ὓ']), ('Ὕ', &['ὕ']), ('Ὗ', &['ὗ']), ('ὠ', &['Ὠ']),
-  ('ὡ', &['Ὡ']), ('ὢ', &['Ὢ']), ('ὣ', &['Ὣ']), ('ὤ', &['Ὤ']),
-  ('ὥ', &['Ὥ']), ('ὦ', &['Ὦ']), ('ὧ', &['Ὧ']), ('Ὠ', &['ὠ']),
-  ('Ὡ', &['ὡ']), ('Ὢ', &['ὢ']), ('Ὣ', &['ὣ']), ('Ὤ', &['ὤ']),
-  ('Ὥ', &['ὥ']), ('Ὦ', &['ὦ']), ('Ὧ', &['ὧ']), ('ὰ', &['Ὰ']),
-  ('ά', &['Ά']), ('ὲ', &['Ὲ']), ('έ', &['Έ']), ('ὴ', &['Ὴ']),
-  ('ή', &['Ή']), ('ὶ', &['Ὶ']), ('ί', &['Ί']), ('ὸ', &['Ὸ']),
-  ('ό', &['Ό']), ('ὺ', &['Ὺ']), ('ύ', &['Ύ']), ('ὼ', &['Ὼ']),
-  ('ώ', &['Ώ']), ('ᾀ', &['ᾈ']), ('ᾁ', &['ᾉ']), ('ᾂ', &['ᾊ']),
-  ('ᾃ', &['ᾋ']), ('ᾄ', &['ᾌ']), ('ᾅ', &['ᾍ']), ('ᾆ', &['ᾎ']),
-  ('ᾇ', &['ᾏ']), ('ᾈ', &['ᾀ']), ('ᾉ', &['ᾁ']), ('ᾊ', &['ᾂ']),
-  ('ᾋ', &['ᾃ']), ('ᾌ', &['ᾄ']), ('ᾍ', &['ᾅ']), ('ᾎ', &['ᾆ']),
-  ('ᾏ', &['ᾇ']), ('ᾐ', &['ᾘ']), ('ᾑ', &['ᾙ']), ('ᾒ', &['ᾚ']),
-  ('ᾓ', &['ᾛ']), ('ᾔ', &['ᾜ']), ('ᾕ', &['ᾝ']), ('ᾖ', &['ᾞ']),
-  ('ᾗ', &['ᾟ']), ('ᾘ', &['ᾐ']), ('ᾙ', &['ᾑ']), ('ᾚ', &['ᾒ']),
-  ('ᾛ', &['ᾓ']), ('ᾜ', &['ᾔ']), ('ᾝ', &['ᾕ']), ('ᾞ', &['ᾖ']),
-  ('ᾟ', &['ᾗ']), ('ᾠ', &['ᾨ']), ('ᾡ', &['ᾩ']), ('ᾢ', &['ᾪ']),
-  ('ᾣ', &['ᾫ']), ('ᾤ', &['ᾬ']), ('ᾥ', &['ᾭ']), ('ᾦ', &['ᾮ']),
-  ('ᾧ', &['ᾯ']), ('ᾨ', &['ᾠ']), ('ᾩ', &['ᾡ']), ('ᾪ', &['ᾢ']),
-  ('ᾫ', &['ᾣ']), ('ᾬ', &['ᾤ']), ('ᾭ', &['ᾥ']), ('ᾮ', &['ᾦ']),
-  ('ᾯ', &['ᾧ']), ('ᾰ', &['Ᾰ']), ('ᾱ', &['Ᾱ']), ('ᾳ', &['ᾼ']),
-  ('Ᾰ', &['ᾰ']), ('Ᾱ', &['ᾱ']), ('Ὰ', &['ὰ']), ('Ά', &['ά']),
-  ('ᾼ', &['ᾳ']), ('ι', &['\u{345}', 'Ι', 'ι', ]), ('ῃ', &['ῌ']),
-  ('Ὲ', &['ὲ']), ('Έ', &['έ']), ('Ὴ', &['ὴ']), ('Ή', &['ή']),
-  ('ῌ', &['ῃ']), ('ῐ', &['Ῐ']), ('ῑ', &['Ῑ']), ('Ῐ', &['ῐ']),
-  ('Ῑ', &['ῑ']), ('Ὶ', &['ὶ']), ('Ί', &['ί']), ('ῠ', &['Ῠ']),
-  ('ῡ', &['Ῡ']), ('ῥ', &['Ῥ']), ('Ῠ', &['ῠ']), ('Ῡ', &['ῡ']),
-  ('Ὺ', &['ὺ']), ('Ύ', &['ύ']), ('Ῥ', &['ῥ']), ('ῳ', &['ῼ']),
-  ('Ὸ', &['ὸ']), ('Ό', &['ό']), ('Ὼ', &['ὼ']), ('Ώ', &['ώ']),
-  ('ῼ', &['ῳ']), ('Ω', &['Ω', 'ω', ]), ('K', &['K', 'k', ]),
-  ('Å', &['Å', 'å', ]), ('Ⅎ', &['ⅎ']), ('ⅎ', &['Ⅎ']), ('Ⅰ', &[
-  'ⅰ']), ('Ⅱ', &['ⅱ']), ('Ⅲ', &['ⅲ']), ('Ⅳ', &['ⅳ']), ('Ⅴ', &[
-  'ⅴ']), ('Ⅵ', &['ⅵ']), ('Ⅶ', &['ⅶ']), ('Ⅷ', &['ⅷ']), ('Ⅸ', &[
-  'ⅸ']), ('Ⅹ', &['ⅹ']), ('Ⅺ', &['ⅺ']), ('Ⅻ', &['ⅻ']), ('Ⅼ', &[
-  'ⅼ']), ('Ⅽ', &['ⅽ']), ('Ⅾ', &['ⅾ']), ('Ⅿ', &['ⅿ']), ('ⅰ', &[
-  'Ⅰ']), ('ⅱ', &['Ⅱ']), ('ⅲ', &['Ⅲ']), ('ⅳ', &['Ⅳ']), ('ⅴ', &[
-  'Ⅴ']), ('ⅵ', &['Ⅵ']), ('ⅶ', &['Ⅶ']), ('ⅷ', &['Ⅷ']), ('ⅸ', &[
-  'Ⅸ']), ('ⅹ', &['Ⅹ']), ('ⅺ', &['Ⅺ']), ('ⅻ', &['Ⅻ']), ('ⅼ', &[
-  'Ⅼ']), ('ⅽ', &['Ⅽ']), ('ⅾ', &['Ⅾ']), ('ⅿ', &['Ⅿ']), ('Ↄ', &[
-  'ↄ']), ('ↄ', &['Ↄ']), ('Ⓐ', &['ⓐ']), ('Ⓑ', &['ⓑ']), ('Ⓒ', &[
-  'ⓒ']), ('Ⓓ', &['ⓓ']), ('Ⓔ', &['ⓔ']), ('Ⓕ', &['ⓕ']), ('Ⓖ', &[
-  'ⓖ']), ('Ⓗ', &['ⓗ']), ('Ⓘ', &['ⓘ']), ('Ⓙ', &['ⓙ']), ('Ⓚ', &[
-  'ⓚ']), ('Ⓛ', &['ⓛ']), ('Ⓜ', &['ⓜ']), ('Ⓝ', &['ⓝ']), ('Ⓞ', &[
-  'ⓞ']), ('Ⓟ', &['ⓟ']), ('Ⓠ', &['ⓠ']), ('Ⓡ', &['ⓡ']), ('Ⓢ', &[
-  'ⓢ']), ('Ⓣ', &['ⓣ']), ('Ⓤ', &['ⓤ']), ('Ⓥ', &['ⓥ']), ('Ⓦ', &[
-  'ⓦ']), ('Ⓧ', &['ⓧ']), ('Ⓨ', &['ⓨ']), ('Ⓩ', &['ⓩ']), ('ⓐ', &[
-  'Ⓐ']), ('ⓑ', &['Ⓑ']), ('ⓒ', &['Ⓒ']), ('ⓓ', &['Ⓓ']), ('ⓔ', &[
-  'Ⓔ']), ('ⓕ', &['Ⓕ']), ('ⓖ', &['Ⓖ']), ('ⓗ', &['Ⓗ']), ('ⓘ', &[
-  'Ⓘ']), ('ⓙ', &['Ⓙ']), ('ⓚ', &['Ⓚ']), ('ⓛ', &['Ⓛ']), ('ⓜ', &[
-  'Ⓜ']), ('ⓝ', &['Ⓝ']), ('ⓞ', &['Ⓞ']), ('ⓟ', &['Ⓟ']), ('ⓠ', &[
-  'Ⓠ']), ('ⓡ', &['Ⓡ']), ('ⓢ', &['Ⓢ']), ('ⓣ', &['Ⓣ']), ('ⓤ', &[
-  'Ⓤ']), ('ⓥ', &['Ⓥ']), ('ⓦ', &['Ⓦ']), ('ⓧ', &['Ⓧ']), ('ⓨ', &[
-  'Ⓨ']), ('ⓩ', &['Ⓩ']), ('Ⰰ', &['ⰰ']), ('Ⰱ', &['ⰱ']), ('Ⰲ', &[
-  'ⰲ']), ('Ⰳ', &['ⰳ']), ('Ⰴ', &['ⰴ']), ('Ⰵ', &['ⰵ']), ('Ⰶ', &[
-  'ⰶ']), ('Ⰷ', &['ⰷ']), ('Ⰸ', &['ⰸ']), ('Ⰹ', &['ⰹ']), ('Ⰺ', &[
-  'ⰺ']), ('Ⰻ', &['ⰻ']), ('Ⰼ', &['ⰼ']), ('Ⰽ', &['ⰽ']), ('Ⰾ', &[
-  'ⰾ']), ('Ⰿ', &['ⰿ']), ('Ⱀ', &['ⱀ']), ('Ⱁ', &['ⱁ']), ('Ⱂ', &[
-  'ⱂ']), ('Ⱃ', &['ⱃ']), ('Ⱄ', &['ⱄ']), ('Ⱅ', &['ⱅ']), ('Ⱆ', &[
-  'ⱆ']), ('Ⱇ', &['ⱇ']), ('Ⱈ', &['ⱈ']), ('Ⱉ', &['ⱉ']), ('Ⱊ', &[
-  'ⱊ']), ('Ⱋ', &['ⱋ']), ('Ⱌ', &['ⱌ']), ('Ⱍ', &['ⱍ']), ('Ⱎ', &[
-  'ⱎ']), ('Ⱏ', &['ⱏ']), ('Ⱐ', &['ⱐ']), ('Ⱑ', &['ⱑ']), ('Ⱒ', &[
-  'ⱒ']), ('Ⱓ', &['ⱓ']), ('Ⱔ', &['ⱔ']), ('Ⱕ', &['ⱕ']), ('Ⱖ', &[
-  'ⱖ']), ('Ⱗ', &['ⱗ']), ('Ⱘ', &['ⱘ']), ('Ⱙ', &['ⱙ']), ('Ⱚ', &[
-  'ⱚ']), ('Ⱛ', &['ⱛ']), ('Ⱜ', &['ⱜ']), ('Ⱝ', &['ⱝ']), ('Ⱞ', &[
-  'ⱞ']), ('ⰰ', &['Ⰰ']), ('ⰱ', &['Ⰱ']), ('ⰲ', &['Ⰲ']), ('ⰳ', &[
-  'Ⰳ']), ('ⰴ', &['Ⰴ']), ('ⰵ', &['Ⰵ']), ('ⰶ', &['Ⰶ']), ('ⰷ', &[
-  'Ⰷ']), ('ⰸ', &['Ⰸ']), ('ⰹ', &['Ⰹ']), ('ⰺ', &['Ⰺ']), ('ⰻ', &[
-  'Ⰻ']), ('ⰼ', &['Ⰼ']), ('ⰽ', &['Ⰽ']), ('ⰾ', &['Ⰾ']), ('ⰿ', &[
-  'Ⰿ']), ('ⱀ', &['Ⱀ']), ('ⱁ', &['Ⱁ']), ('ⱂ', &['Ⱂ']), ('ⱃ', &[
-  'Ⱃ']), ('ⱄ', &['Ⱄ']), ('ⱅ', &['Ⱅ']), ('ⱆ', &['Ⱆ']), ('ⱇ', &[
-  'Ⱇ']), ('ⱈ', &['Ⱈ']), ('ⱉ', &['Ⱉ']), ('ⱊ', &['Ⱊ']), ('ⱋ', &[
-  'Ⱋ']), ('ⱌ', &['Ⱌ']), ('ⱍ', &['Ⱍ']), ('ⱎ', &['Ⱎ']), ('ⱏ', &[
-  'Ⱏ']), ('ⱐ', &['Ⱐ']), ('ⱑ', &['Ⱑ']), ('ⱒ', &['Ⱒ']), ('ⱓ', &[
-  'Ⱓ']), ('ⱔ', &['Ⱔ']), ('ⱕ', &['Ⱕ']), ('ⱖ', &['Ⱖ']), ('ⱗ', &[
-  'Ⱗ']), ('ⱘ', &['Ⱘ']), ('ⱙ', &['Ⱙ']), ('ⱚ', &['Ⱚ']), ('ⱛ', &[
-  'Ⱛ']), ('ⱜ', &['Ⱜ']), ('ⱝ', &['Ⱝ']), ('ⱞ', &['Ⱞ']), ('Ⱡ', &[
-  'ⱡ']), ('ⱡ', &['Ⱡ']), ('Ɫ', &['ɫ']), ('Ᵽ', &['ᵽ']), ('Ɽ', &[
-  'ɽ']), ('ⱥ', &['Ⱥ']), ('ⱦ', &['Ⱦ']), ('Ⱨ', &['ⱨ']), ('ⱨ', &[
-  'Ⱨ']), ('Ⱪ', &['ⱪ']), ('ⱪ', &['Ⱪ']), ('Ⱬ', &['ⱬ']), ('ⱬ', &[
-  'Ⱬ']), ('Ɑ', &['ɑ']), ('Ɱ', &['ɱ']), ('Ɐ', &['ɐ']), ('Ɒ', &['ɒ'
-  ]), ('Ⱳ', &['ⱳ']), ('ⱳ', &['Ⱳ']), ('Ⱶ', &['ⱶ']), ('ⱶ', &['Ⱶ'
-  ]), ('Ȿ', &['ȿ']), ('Ɀ', &['ɀ']), ('Ⲁ', &['ⲁ']), ('ⲁ', &['Ⲁ'
-  ]), ('Ⲃ', &['ⲃ']), ('ⲃ', &['Ⲃ']), ('Ⲅ', &['ⲅ']), ('ⲅ', &['Ⲅ'
-  ]), ('Ⲇ', &['ⲇ']), ('ⲇ', &['Ⲇ']), ('Ⲉ', &['ⲉ']), ('ⲉ', &['Ⲉ'
-  ]), ('Ⲋ', &['ⲋ']), ('ⲋ', &['Ⲋ']), ('Ⲍ', &['ⲍ']), ('ⲍ', &['Ⲍ'
-  ]), ('Ⲏ', &['ⲏ']), ('ⲏ', &['Ⲏ']), ('Ⲑ', &['ⲑ']), ('ⲑ', &['Ⲑ'
-  ]), ('Ⲓ', &['ⲓ']), ('ⲓ', &['Ⲓ']), ('Ⲕ', &['ⲕ']), ('ⲕ', &['Ⲕ'
-  ]), ('Ⲗ', &['ⲗ']), ('ⲗ', &['Ⲗ']), ('Ⲙ', &['ⲙ']), ('ⲙ', &['Ⲙ'
-  ]), ('Ⲛ', &['ⲛ']), ('ⲛ', &['Ⲛ']), ('Ⲝ', &['ⲝ']), ('ⲝ', &['Ⲝ'
-  ]), ('Ⲟ', &['ⲟ']), ('ⲟ', &['Ⲟ']), ('Ⲡ', &['ⲡ']), ('ⲡ', &['Ⲡ'
-  ]), ('Ⲣ', &['ⲣ']), ('ⲣ', &['Ⲣ']), ('Ⲥ', &['ⲥ']), ('ⲥ', &['Ⲥ'
-  ]), ('Ⲧ', &['ⲧ']), ('ⲧ', &['Ⲧ']), ('Ⲩ', &['ⲩ']), ('ⲩ', &['Ⲩ'
-  ]), ('Ⲫ', &['ⲫ']), ('ⲫ', &['Ⲫ']), ('Ⲭ', &['ⲭ']), ('ⲭ', &['Ⲭ'
-  ]), ('Ⲯ', &['ⲯ']), ('ⲯ', &['Ⲯ']), ('Ⲱ', &['ⲱ']), ('ⲱ', &['Ⲱ'
-  ]), ('Ⲳ', &['ⲳ']), ('ⲳ', &['Ⲳ']), ('Ⲵ', &['ⲵ']), ('ⲵ', &['Ⲵ'
-  ]), ('Ⲷ', &['ⲷ']), ('ⲷ', &['Ⲷ']), ('Ⲹ', &['ⲹ']), ('ⲹ', &['Ⲹ'
-  ]), ('Ⲻ', &['ⲻ']), ('ⲻ', &['Ⲻ']), ('Ⲽ', &['ⲽ']), ('ⲽ', &['Ⲽ'
-  ]), ('Ⲿ', &['ⲿ']), ('ⲿ', &['Ⲿ']), ('Ⳁ', &['ⳁ']), ('ⳁ', &['Ⳁ'
-  ]), ('Ⳃ', &['ⳃ']), ('ⳃ', &['Ⳃ']), ('Ⳅ', &['ⳅ']), ('ⳅ', &['Ⳅ'
-  ]), ('Ⳇ', &['ⳇ']), ('ⳇ', &['Ⳇ']), ('Ⳉ', &['ⳉ']), ('ⳉ', &['Ⳉ'
-  ]), ('Ⳋ', &['ⳋ']), ('ⳋ', &['Ⳋ']), ('Ⳍ', &['ⳍ']), ('ⳍ', &['Ⳍ'
-  ]), ('Ⳏ', &['ⳏ']), ('ⳏ', &['Ⳏ']), ('Ⳑ', &['ⳑ']), ('ⳑ', &['Ⳑ'
-  ]), ('Ⳓ', &['ⳓ']), ('ⳓ', &['Ⳓ']), ('Ⳕ', &['ⳕ']), ('ⳕ', &['Ⳕ'
-  ]), ('Ⳗ', &['ⳗ']), ('ⳗ', &['Ⳗ']), ('Ⳙ', &['ⳙ']), ('ⳙ', &['Ⳙ'
-  ]), ('Ⳛ', &['ⳛ']), ('ⳛ', &['Ⳛ']), ('Ⳝ', &['ⳝ']), ('ⳝ', &['Ⳝ'
-  ]), ('Ⳟ', &['ⳟ']), ('ⳟ', &['Ⳟ']), ('Ⳡ', &['ⳡ']), ('ⳡ', &['Ⳡ'
-  ]), ('Ⳣ', &['ⳣ']), ('ⳣ', &['Ⳣ']), ('Ⳬ', &['ⳬ']), ('ⳬ', &['Ⳬ'
-  ]), ('Ⳮ', &['ⳮ']), ('ⳮ', &['Ⳮ']), ('Ⳳ', &['ⳳ']), ('ⳳ', &['Ⳳ'
-  ]), ('ⴀ', &['Ⴀ']), ('ⴁ', &['Ⴁ']), ('ⴂ', &['Ⴂ']), ('ⴃ', &['Ⴃ'
-  ]), ('ⴄ', &['Ⴄ']), ('ⴅ', &['Ⴅ']), ('ⴆ', &['Ⴆ']), ('ⴇ', &['Ⴇ'
-  ]), ('ⴈ', &['Ⴈ']), ('ⴉ', &['Ⴉ']), ('ⴊ', &['Ⴊ']), ('ⴋ', &['Ⴋ'
-  ]), ('ⴌ', &['Ⴌ']), ('ⴍ', &['Ⴍ']), ('ⴎ', &['Ⴎ']), ('ⴏ', &['Ⴏ'
-  ]), ('ⴐ', &['Ⴐ']), ('ⴑ', &['Ⴑ']), ('ⴒ', &['Ⴒ']), ('ⴓ', &['Ⴓ'
-  ]), ('ⴔ', &['Ⴔ']), ('ⴕ', &['Ⴕ']), ('ⴖ', &['Ⴖ']), ('ⴗ', &['Ⴗ'
-  ]), ('ⴘ', &['Ⴘ']), ('ⴙ', &['Ⴙ']), ('ⴚ', &['Ⴚ']), ('ⴛ', &['Ⴛ'
-  ]), ('ⴜ', &['Ⴜ']), ('ⴝ', &['Ⴝ']), ('ⴞ', &['Ⴞ']), ('ⴟ', &['Ⴟ'
-  ]), ('ⴠ', &['Ⴠ']), ('ⴡ', &['Ⴡ']), ('ⴢ', &['Ⴢ']), ('ⴣ', &['Ⴣ'
-  ]), ('ⴤ', &['Ⴤ']), ('ⴥ', &['Ⴥ']), ('ⴧ', &['Ⴧ']), ('ⴭ', &['Ⴭ'
-  ]), ('Ꙁ', &['ꙁ']), ('ꙁ', &['Ꙁ']), ('Ꙃ', &['ꙃ']), ('ꙃ', &['Ꙃ'
-  ]), ('Ꙅ', &['ꙅ']), ('ꙅ', &['Ꙅ']), ('Ꙇ', &['ꙇ']), ('ꙇ', &['Ꙇ'
-  ]), ('Ꙉ', &['ꙉ']), ('ꙉ', &['Ꙉ']), ('Ꙋ', &['ᲈ', 'ꙋ', ]),
-  ('ꙋ', &['ᲈ', 'Ꙋ', ]), ('Ꙍ', &['ꙍ']), ('ꙍ', &['Ꙍ']), ('Ꙏ', &[
-  'ꙏ']), ('ꙏ', &['Ꙏ']), ('Ꙑ', &['ꙑ']), ('ꙑ', &['Ꙑ']), ('Ꙓ', &[
-  'ꙓ']), ('ꙓ', &['Ꙓ']), ('Ꙕ', &['ꙕ']), ('ꙕ', &['Ꙕ']), ('Ꙗ', &[
-  'ꙗ']), ('ꙗ', &['Ꙗ']), ('Ꙙ', &['ꙙ']), ('ꙙ', &['Ꙙ']), ('Ꙛ', &[
-  'ꙛ']), ('ꙛ', &['Ꙛ']), ('Ꙝ', &['ꙝ']), ('ꙝ', &['Ꙝ']), ('Ꙟ', &[
-  'ꙟ']), ('ꙟ', &['Ꙟ']), ('Ꙡ', &['ꙡ']), ('ꙡ', &['Ꙡ']), ('Ꙣ', &[
-  'ꙣ']), ('ꙣ', &['Ꙣ']), ('Ꙥ', &['ꙥ']), ('ꙥ', &['Ꙥ']), ('Ꙧ', &[
-  'ꙧ']), ('ꙧ', &['Ꙧ']), ('Ꙩ', &['ꙩ']), ('ꙩ', &['Ꙩ']), ('Ꙫ', &[
-  'ꙫ']), ('ꙫ', &['Ꙫ']), ('Ꙭ', &['ꙭ']), ('ꙭ', &['Ꙭ']), ('Ꚁ', &[
-  'ꚁ']), ('ꚁ', &['Ꚁ']), ('Ꚃ', &['ꚃ']), ('ꚃ', &['Ꚃ']), ('Ꚅ', &[
-  'ꚅ']), ('ꚅ', &['Ꚅ']), ('Ꚇ', &['ꚇ']), ('ꚇ', &['Ꚇ']), ('Ꚉ', &[
-  'ꚉ']), ('ꚉ', &['Ꚉ']), ('Ꚋ', &['ꚋ']), ('ꚋ', &['Ꚋ']), ('Ꚍ', &[
-  'ꚍ']), ('ꚍ', &['Ꚍ']), ('Ꚏ', &['ꚏ']), ('ꚏ', &['Ꚏ']), ('Ꚑ', &[
-  'ꚑ']), ('ꚑ', &['Ꚑ']), ('Ꚓ', &['ꚓ']), ('ꚓ', &['Ꚓ']), ('Ꚕ', &[
-  'ꚕ']), ('ꚕ', &['Ꚕ']), ('Ꚗ', &['ꚗ']), ('ꚗ', &['Ꚗ']), ('Ꚙ', &[
-  'ꚙ']), ('ꚙ', &['Ꚙ']), ('Ꚛ', &['ꚛ']), ('ꚛ', &['Ꚛ']), ('Ꜣ', &[
-  'ꜣ']), ('ꜣ', &['Ꜣ']), ('Ꜥ', &['ꜥ']), ('ꜥ', &['Ꜥ']), ('Ꜧ', &[
-  'ꜧ']), ('ꜧ', &['Ꜧ']), ('Ꜩ', &['ꜩ']), ('ꜩ', &['Ꜩ']), ('Ꜫ', &[
-  'ꜫ']), ('ꜫ', &['Ꜫ']), ('Ꜭ', &['ꜭ']), ('ꜭ', &['Ꜭ']), ('Ꜯ', &[
-  'ꜯ']), ('ꜯ', &['Ꜯ']), ('Ꜳ', &['ꜳ']), ('ꜳ', &['Ꜳ']), ('Ꜵ', &[
-  'ꜵ']), ('ꜵ', &['Ꜵ']), ('Ꜷ', &['ꜷ']), ('ꜷ', &['Ꜷ']), ('Ꜹ', &[
-  'ꜹ']), ('ꜹ', &['Ꜹ']), ('Ꜻ', &['ꜻ']), ('ꜻ', &['Ꜻ']), ('Ꜽ', &[
-  'ꜽ']), ('ꜽ', &['Ꜽ']), ('Ꜿ', &['ꜿ']), ('ꜿ', &['Ꜿ']), ('Ꝁ', &[
-  'ꝁ']), ('ꝁ', &['Ꝁ']), ('Ꝃ', &['ꝃ']), ('ꝃ', &['Ꝃ']), ('Ꝅ', &[
-  'ꝅ']), ('ꝅ', &['Ꝅ']), ('Ꝇ', &['ꝇ']), ('ꝇ', &['Ꝇ']), ('Ꝉ', &[
-  'ꝉ']), ('ꝉ', &['Ꝉ']), ('Ꝋ', &['ꝋ']), ('ꝋ', &['Ꝋ']), ('Ꝍ', &[
-  'ꝍ']), ('ꝍ', &['Ꝍ']), ('Ꝏ', &['ꝏ']), ('ꝏ', &['Ꝏ']), ('Ꝑ', &[
-  'ꝑ']), ('ꝑ', &['Ꝑ']), ('Ꝓ', &['ꝓ']), ('ꝓ', &['Ꝓ']), ('Ꝕ', &[
-  'ꝕ']), ('ꝕ', &['Ꝕ']), ('Ꝗ', &['ꝗ']), ('ꝗ', &['Ꝗ']), ('Ꝙ', &[
-  'ꝙ']), ('ꝙ', &['Ꝙ']), ('Ꝛ', &['ꝛ']), ('ꝛ', &['Ꝛ']), ('Ꝝ', &[
-  'ꝝ']), ('ꝝ', &['Ꝝ']), ('Ꝟ', &['ꝟ']), ('ꝟ', &['Ꝟ']), ('Ꝡ', &[
-  'ꝡ']), ('ꝡ', &['Ꝡ']), ('Ꝣ', &['ꝣ']), ('ꝣ', &['Ꝣ']), ('Ꝥ', &[
-  'ꝥ']), ('ꝥ', &['Ꝥ']), ('Ꝧ', &['ꝧ']), ('ꝧ', &['Ꝧ']), ('Ꝩ', &[
-  'ꝩ']), ('ꝩ', &['Ꝩ']), ('Ꝫ', &['ꝫ']), ('ꝫ', &['Ꝫ']), ('Ꝭ', &[
-  'ꝭ']), ('ꝭ', &['Ꝭ']), ('Ꝯ', &['ꝯ']), ('ꝯ', &['Ꝯ']), ('Ꝺ', &[
-  'ꝺ']), ('ꝺ', &['Ꝺ']), ('Ꝼ', &['ꝼ']), ('ꝼ', &['Ꝼ']), ('Ᵹ', &[
-  'ᵹ']), ('Ꝿ', &['ꝿ']), ('ꝿ', &['Ꝿ']), ('Ꞁ', &['ꞁ']), ('ꞁ', &[
-  'Ꞁ']), ('Ꞃ', &['ꞃ']), ('ꞃ', &['Ꞃ']), ('Ꞅ', &['ꞅ']), ('ꞅ', &[
-  'Ꞅ']), ('Ꞇ', &['ꞇ']), ('ꞇ', &['Ꞇ']), ('Ꞌ', &['ꞌ']), ('ꞌ', &[
-  'Ꞌ']), ('Ɥ', &['ɥ']), ('Ꞑ', &['ꞑ']), ('ꞑ', &['Ꞑ']), ('Ꞓ', &[
-  'ꞓ']), ('ꞓ', &['Ꞓ']), ('ꞔ', &['\u{a7c4}']), ('Ꞗ', &['ꞗ']),
-  ('ꞗ', &['Ꞗ']), ('Ꞙ', &['ꞙ']), ('ꞙ', &['Ꞙ']), ('Ꞛ', &['ꞛ']),
-  ('ꞛ', &['Ꞛ']), ('Ꞝ', &['ꞝ']), ('ꞝ', &['Ꞝ']), ('Ꞟ', &['ꞟ']),
-  ('ꞟ', &['Ꞟ']), ('Ꞡ', &['ꞡ']), ('ꞡ', &['Ꞡ']), ('Ꞣ', &['ꞣ']),
-  ('ꞣ', &['Ꞣ']), ('Ꞥ', &['ꞥ']), ('ꞥ', &['Ꞥ']), ('Ꞧ', &['ꞧ']),
-  ('ꞧ', &['Ꞧ']), ('Ꞩ', &['ꞩ']), ('ꞩ', &['Ꞩ']), ('Ɦ', &['ɦ']),
-  ('Ɜ', &['ɜ']), ('Ɡ', &['ɡ']), ('Ɬ', &['ɬ']), ('Ɪ', &['ɪ']),
-  ('Ʞ', &['ʞ']), ('Ʇ', &['ʇ']), ('Ʝ', &['ʝ']), ('Ꭓ', &['ꭓ']),
-  ('Ꞵ', &['ꞵ']), ('ꞵ', &['Ꞵ']), ('Ꞷ', &['ꞷ']), ('ꞷ', &['Ꞷ']),
-  ('Ꞹ', &['ꞹ']), ('ꞹ', &['Ꞹ']), ('\u{a7ba}', &['\u{a7bb}']),
-  ('\u{a7bb}', &['\u{a7ba}']), ('\u{a7bc}', &['\u{a7bd}']), ('\u{a7bd}', &[
-  '\u{a7bc}']), ('\u{a7be}', &['\u{a7bf}']), ('\u{a7bf}', &['\u{a7be}']),
-  ('\u{a7c2}', &['\u{a7c3}']), ('\u{a7c3}', &['\u{a7c2}']), ('\u{a7c4}', &[
-  'ꞔ']), ('\u{a7c5}', &['ʂ']), ('\u{a7c6}', &['ᶎ']), ('ꭓ', &['Ꭓ']),
-  ('ꭰ', &['Ꭰ']), ('ꭱ', &['Ꭱ']), ('ꭲ', &['Ꭲ']), ('ꭳ', &['Ꭳ']),
-  ('ꭴ', &['Ꭴ']), ('ꭵ', &['Ꭵ']), ('ꭶ', &['Ꭶ']), ('ꭷ', &['Ꭷ']),
-  ('ꭸ', &['Ꭸ']), ('ꭹ', &['Ꭹ']), ('ꭺ', &['Ꭺ']), ('ꭻ', &['Ꭻ']),
-  ('ꭼ', &['Ꭼ']), ('ꭽ', &['Ꭽ']), ('ꭾ', &['Ꭾ']), ('ꭿ', &['Ꭿ']),
-  ('ꮀ', &['Ꮀ']), ('ꮁ', &['Ꮁ']), ('ꮂ', &['Ꮂ']), ('ꮃ', &['Ꮃ']),
-  ('ꮄ', &['Ꮄ']), ('ꮅ', &['Ꮅ']), ('ꮆ', &['Ꮆ']), ('ꮇ', &['Ꮇ']),
-  ('ꮈ', &['Ꮈ']), ('ꮉ', &['Ꮉ']), ('ꮊ', &['Ꮊ']), ('ꮋ', &['Ꮋ']),
-  ('ꮌ', &['Ꮌ']), ('ꮍ', &['Ꮍ']), ('ꮎ', &['Ꮎ']), ('ꮏ', &['Ꮏ']),
-  ('ꮐ', &['Ꮐ']), ('ꮑ', &['Ꮑ']), ('ꮒ', &['Ꮒ']), ('ꮓ', &['Ꮓ']),
-  ('ꮔ', &['Ꮔ']), ('ꮕ', &['Ꮕ']), ('ꮖ', &['Ꮖ']), ('ꮗ', &['Ꮗ']),
-  ('ꮘ', &['Ꮘ']), ('ꮙ', &['Ꮙ']), ('ꮚ', &['Ꮚ']), ('ꮛ', &['Ꮛ']),
-  ('ꮜ', &['Ꮜ']), ('ꮝ', &['Ꮝ']), ('ꮞ', &['Ꮞ']), ('ꮟ', &['Ꮟ']),
-  ('ꮠ', &['Ꮠ']), ('ꮡ', &['Ꮡ']), ('ꮢ', &['Ꮢ']), ('ꮣ', &['Ꮣ']),
-  ('ꮤ', &['Ꮤ']), ('ꮥ', &['Ꮥ']), ('ꮦ', &['Ꮦ']), ('ꮧ', &['Ꮧ']),
-  ('ꮨ', &['Ꮨ']), ('ꮩ', &['Ꮩ']), ('ꮪ', &['Ꮪ']), ('ꮫ', &['Ꮫ']),
-  ('ꮬ', &['Ꮬ']), ('ꮭ', &['Ꮭ']), ('ꮮ', &['Ꮮ']), ('ꮯ', &['Ꮯ']),
-  ('ꮰ', &['Ꮰ']), ('ꮱ', &['Ꮱ']), ('ꮲ', &['Ꮲ']), ('ꮳ', &['Ꮳ']),
-  ('ꮴ', &['Ꮴ']), ('ꮵ', &['Ꮵ']), ('ꮶ', &['Ꮶ']), ('ꮷ', &['Ꮷ']),
-  ('ꮸ', &['Ꮸ']), ('ꮹ', &['Ꮹ']), ('ꮺ', &['Ꮺ']), ('ꮻ', &['Ꮻ']),
-  ('ꮼ', &['Ꮼ']), ('ꮽ', &['Ꮽ']), ('ꮾ', &['Ꮾ']), ('ꮿ', &['Ꮿ']),
-  ('A', &['a']), ('B', &['b']), ('C', &['c']), ('D', &['d']),
-  ('E', &['e']), ('F', &['f']), ('G', &['g']), ('H', &['h']),
-  ('I', &['i']), ('J', &['j']), ('K', &['k']), ('L', &['l']),
-  ('M', &['m']), ('N', &['n']), ('O', &['o']), ('P', &['p']),
-  ('Q', &['q']), ('R', &['r']), ('S', &['s']), ('T', &['t']),
-  ('U', &['u']), ('V', &['v']), ('W', &['w']), ('X', &['x']),
-  ('Y', &['y']), ('Z', &['z']), ('a', &['A']), ('b', &['B']),
-  ('c', &['C']), ('d', &['D']), ('e', &['E']), ('f', &['F']),
-  ('g', &['G']), ('h', &['H']), ('i', &['I']), ('j', &['J']),
-  ('k', &['K']), ('l', &['L']), ('m', &['M']), ('n', &['N']),
-  ('o', &['O']), ('p', &['P']), ('q', &['Q']), ('r', &['R']),
-  ('s', &['S']), ('t', &['T']), ('u', &['U']), ('v', &['V']),
-  ('w', &['W']), ('x', &['X']), ('y', &['Y']), ('z', &['Z']),
-  ('𐐀', &['𐐨']), ('𐐁', &['𐐩']), ('𐐂', &['𐐪']), ('𐐃', &[
-  '𐐫']), ('𐐄', &['𐐬']), ('𐐅', &['𐐭']), ('𐐆', &['𐐮']),
-  ('𐐇', &['𐐯']), ('𐐈', &['𐐰']), ('𐐉', &['𐐱']), ('𐐊', &[
-  '𐐲']), ('𐐋', &['𐐳']), ('𐐌', &['𐐴']), ('𐐍', &['𐐵']),
-  ('𐐎', &['𐐶']), ('𐐏', &['𐐷']), ('𐐐', &['𐐸']), ('𐐑', &[
-  '𐐹']), ('𐐒', &['𐐺']), ('𐐓', &['𐐻']), ('𐐔', &['𐐼']),
-  ('𐐕', &['𐐽']), ('𐐖', &['𐐾']), ('𐐗', &['𐐿']), ('𐐘', &[
-  '𐑀']), ('𐐙', &['𐑁']), ('𐐚', &['𐑂']), ('𐐛', &['𐑃']),
-  ('𐐜', &['𐑄']), ('𐐝', &['𐑅']), ('𐐞', &['𐑆']), ('𐐟', &[
-  '𐑇']), ('𐐠', &['𐑈']), ('𐐡', &['𐑉']), ('𐐢', &['𐑊']),
-  ('𐐣', &['𐑋']), ('𐐤', &['𐑌']), ('𐐥', &['𐑍']), ('𐐦', &[
-  '𐑎']), ('𐐧', &['𐑏']), ('𐐨', &['𐐀']), ('𐐩', &['𐐁']),
-  ('𐐪', &['𐐂']), ('𐐫', &['𐐃']), ('𐐬', &['𐐄']), ('𐐭', &[
-  '𐐅']), ('𐐮', &['𐐆']), ('𐐯', &['𐐇']), ('𐐰', &['𐐈']),
-  ('𐐱', &['𐐉']), ('𐐲', &['𐐊']), ('𐐳', &['𐐋']), ('𐐴', &[
-  '𐐌']), ('𐐵', &['𐐍']), ('𐐶', &['𐐎']), ('𐐷', &['𐐏']),
-  ('𐐸', &['𐐐']), ('𐐹', &['𐐑']), ('𐐺', &['𐐒']), ('𐐻', &[
-  '𐐓']), ('𐐼', &['𐐔']), ('𐐽', &['𐐕']), ('𐐾', &['𐐖']),
-  ('𐐿', &['𐐗']), ('𐑀', &['𐐘']), ('𐑁', &['𐐙']), ('𐑂', &[
-  '𐐚']), ('𐑃', &['𐐛']), ('𐑄', &['𐐜']), ('𐑅', &['𐐝']),
-  ('𐑆', &['𐐞']), ('𐑇', &['𐐟']), ('𐑈', &['𐐠']), ('𐑉', &[
-  '𐐡']), ('𐑊', &['𐐢']), ('𐑋', &['𐐣']), ('𐑌', &['𐐤']),
-  ('𐑍', &['𐐥']), ('𐑎', &['𐐦']), ('𐑏', &['𐐧']), ('𐒰', &[
-  '𐓘']), ('𐒱', &['𐓙']), ('𐒲', &['𐓚']), ('𐒳', &['𐓛']),
-  ('𐒴', &['𐓜']), ('𐒵', &['𐓝']), ('𐒶', &['𐓞']), ('𐒷', &[
-  '𐓟']), ('𐒸', &['𐓠']), ('𐒹', &['𐓡']), ('𐒺', &['𐓢']),
-  ('𐒻', &['𐓣']), ('𐒼', &['𐓤']), ('𐒽', &['𐓥']), ('𐒾', &[
-  '𐓦']), ('𐒿', &['𐓧']), ('𐓀', &['𐓨']), ('𐓁', &['𐓩']),
-  ('𐓂', &['𐓪']), ('𐓃', &['𐓫']), ('𐓄', &['𐓬']), ('𐓅', &[
-  '𐓭']), ('𐓆', &['𐓮']), ('𐓇', &['𐓯']), ('𐓈', &['𐓰']),
-  ('𐓉', &['𐓱']), ('𐓊', &['𐓲']), ('𐓋', &['𐓳']), ('𐓌', &[
-  '𐓴']), ('𐓍', &['𐓵']), ('𐓎', &['𐓶']), ('𐓏', &['𐓷']),
-  ('𐓐', &['𐓸']), ('𐓑', &['𐓹']), ('𐓒', &['𐓺']), ('𐓓', &[
-  '𐓻']), ('𐓘', &['𐒰']), ('𐓙', &['𐒱']), ('𐓚', &['𐒲']),
-  ('𐓛', &['𐒳']), ('𐓜', &['𐒴']), ('𐓝', &['𐒵']), ('𐓞', &[
-  '𐒶']), ('𐓟', &['𐒷']), ('𐓠', &['𐒸']), ('𐓡', &['𐒹']),
-  ('𐓢', &['𐒺']), ('𐓣', &['𐒻']), ('𐓤', &['𐒼']), ('𐓥', &[
-  '𐒽']), ('𐓦', &['𐒾']), ('𐓧', &['𐒿']), ('𐓨', &['𐓀']),
-  ('𐓩', &['𐓁']), ('𐓪', &['𐓂']), ('𐓫', &['𐓃']), ('𐓬', &[
-  '𐓄']), ('𐓭', &['𐓅']), ('𐓮', &['𐓆']), ('𐓯', &['𐓇']),
-  ('𐓰', &['𐓈']), ('𐓱', &['𐓉']), ('𐓲', &['𐓊']), ('𐓳', &[
-  '𐓋']), ('𐓴', &['𐓌']), ('𐓵', &['𐓍']), ('𐓶', &['𐓎']),
-  ('𐓷', &['𐓏']), ('𐓸', &['𐓐']), ('𐓹', &['𐓑']), ('𐓺', &[
-  '𐓒']), ('𐓻', &['𐓓']), ('𐲀', &['𐳀']), ('𐲁', &['𐳁']),
-  ('𐲂', &['𐳂']), ('𐲃', &['𐳃']), ('𐲄', &['𐳄']), ('𐲅', &[
-  '𐳅']), ('𐲆', &['𐳆']), ('𐲇', &['𐳇']), ('𐲈', &['𐳈']),
-  ('𐲉', &['𐳉']), ('𐲊', &['𐳊']), ('𐲋', &['𐳋']), ('𐲌', &[
-  '𐳌']), ('𐲍', &['𐳍']), ('𐲎', &['𐳎']), ('𐲏', &['𐳏']),
-  ('𐲐', &['𐳐']), ('𐲑', &['𐳑']), ('𐲒', &['𐳒']), ('𐲓', &[
-  '𐳓']), ('𐲔', &['𐳔']), ('𐲕', &['𐳕']), ('𐲖', &['𐳖']),
-  ('𐲗', &['𐳗']), ('𐲘', &['𐳘']), ('𐲙', &['𐳙']), ('𐲚', &[
-  '𐳚']), ('𐲛', &['𐳛']), ('𐲜', &['𐳜']), ('𐲝', &['𐳝']),
-  ('𐲞', &['𐳞']), ('𐲟', &['𐳟']), ('𐲠', &['𐳠']), ('𐲡', &[
-  '𐳡']), ('𐲢', &['𐳢']), ('𐲣', &['𐳣']), ('𐲤', &['𐳤']),
-  ('𐲥', &['𐳥']), ('𐲦', &['𐳦']), ('𐲧', &['𐳧']), ('𐲨', &[
-  '𐳨']), ('𐲩', &['𐳩']), ('𐲪', &['𐳪']), ('𐲫', &['𐳫']),
-  ('𐲬', &['𐳬']), ('𐲭', &['𐳭']), ('𐲮', &['𐳮']), ('𐲯', &[
-  '𐳯']), ('𐲰', &['𐳰']), ('𐲱', &['𐳱']), ('𐲲', &['𐳲']),
-  ('𐳀', &['𐲀']), ('𐳁', &['𐲁']), ('𐳂', &['𐲂']), ('𐳃', &[
-  '𐲃']), ('𐳄', &['𐲄']), ('𐳅', &['𐲅']), ('𐳆', &['𐲆']),
-  ('𐳇', &['𐲇']), ('𐳈', &['𐲈']), ('𐳉', &['𐲉']), ('𐳊', &[
-  '𐲊']), ('𐳋', &['𐲋']), ('𐳌', &['𐲌']), ('𐳍', &['𐲍']),
-  ('𐳎', &['𐲎']), ('𐳏', &['𐲏']), ('𐳐', &['𐲐']), ('𐳑', &[
-  '𐲑']), ('𐳒', &['𐲒']), ('𐳓', &['𐲓']), ('𐳔', &['𐲔']),
-  ('𐳕', &['𐲕']), ('𐳖', &['𐲖']), ('𐳗', &['𐲗']), ('𐳘', &[
-  '𐲘']), ('𐳙', &['𐲙']), ('𐳚', &['𐲚']), ('𐳛', &['𐲛']),
-  ('𐳜', &['𐲜']), ('𐳝', &['𐲝']), ('𐳞', &['𐲞']), ('𐳟', &[
-  '𐲟']), ('𐳠', &['𐲠']), ('𐳡', &['𐲡']), ('𐳢', &['𐲢']),
-  ('𐳣', &['𐲣']), ('𐳤', &['𐲤']), ('𐳥', &['𐲥']), ('𐳦', &[
-  '𐲦']), ('𐳧', &['𐲧']), ('𐳨', &['𐲨']), ('𐳩', &['𐲩']),
-  ('𐳪', &['𐲪']), ('𐳫', &['𐲫']), ('𐳬', &['𐲬']), ('𐳭', &[
-  '𐲭']), ('𐳮', &['𐲮']), ('𐳯', &['𐲯']), ('𐳰', &['𐲰']),
-  ('𐳱', &['𐲱']), ('𐳲', &['𐲲']), ('𑢠', &['𑣀']), ('𑢡', &[
-  '𑣁']), ('𑢢', &['𑣂']), ('𑢣', &['𑣃']), ('𑢤', &['𑣄']),
-  ('𑢥', &['𑣅']), ('𑢦', &['𑣆']), ('𑢧', &['𑣇']), ('𑢨', &[
-  '𑣈']), ('𑢩', &['𑣉']), ('𑢪', &['𑣊']), ('𑢫', &['𑣋']),
-  ('𑢬', &['𑣌']), ('𑢭', &['𑣍']), ('𑢮', &['𑣎']), ('𑢯', &[
-  '𑣏']), ('𑢰', &['𑣐']), ('𑢱', &['𑣑']), ('𑢲', &['𑣒']),
-  ('𑢳', &['𑣓']), ('𑢴', &['𑣔']), ('𑢵', &['𑣕']), ('𑢶', &[
-  '𑣖']), ('𑢷', &['𑣗']), ('𑢸', &['𑣘']), ('𑢹', &['𑣙']),
-  ('𑢺', &['𑣚']), ('𑢻', &['𑣛']), ('𑢼', &['𑣜']), ('𑢽', &[
-  '𑣝']), ('𑢾', &['𑣞']), ('𑢿', &['𑣟']), ('𑣀', &['𑢠']),
-  ('𑣁', &['𑢡']), ('𑣂', &['𑢢']), ('𑣃', &['𑢣']), ('𑣄', &[
-  '𑢤']), ('𑣅', &['𑢥']), ('𑣆', &['𑢦']), ('𑣇', &['𑢧']),
-  ('𑣈', &['𑢨']), ('𑣉', &['𑢩']), ('𑣊', &['𑢪']), ('𑣋', &[
-  '𑢫']), ('𑣌', &['𑢬']), ('𑣍', &['𑢭']), ('𑣎', &['𑢮']),
-  ('𑣏', &['𑢯']), ('𑣐', &['𑢰']), ('𑣑', &['𑢱']), ('𑣒', &[
-  '𑢲']), ('𑣓', &['𑢳']), ('𑣔', &['𑢴']), ('𑣕', &['𑢵']),
-  ('𑣖', &['𑢶']), ('𑣗', &['𑢷']), ('𑣘', &['𑢸']), ('𑣙', &[
-  '𑢹']), ('𑣚', &['𑢺']), ('𑣛', &['𑢻']), ('𑣜', &['𑢼']),
-  ('𑣝', &['𑢽']), ('𑣞', &['𑢾']), ('𑣟', &['𑢿']), ('𖹀', &[
-  '𖹠']), ('𖹁', &['𖹡']), ('𖹂', &['𖹢']), ('𖹃', &['𖹣']),
-  ('𖹄', &['𖹤']), ('𖹅', &['𖹥']), ('𖹆', &['𖹦']), ('𖹇', &[
-  '𖹧']), ('𖹈', &['𖹨']), ('𖹉', &['𖹩']), ('𖹊', &['𖹪']),
-  ('𖹋', &['𖹫']), ('𖹌', &['𖹬']), ('𖹍', &['𖹭']), ('𖹎', &[
-  '𖹮']), ('𖹏', &['𖹯']), ('𖹐', &['𖹰']), ('𖹑', &['𖹱']),
-  ('𖹒', &['𖹲']), ('𖹓', &['𖹳']), ('𖹔', &['𖹴']), ('𖹕', &[
-  '𖹵']), ('𖹖', &['𖹶']), ('𖹗', &['𖹷']), ('𖹘', &['𖹸']),
-  ('𖹙', &['𖹹']), ('𖹚', &['𖹺']), ('𖹛', &['𖹻']), ('𖹜', &[
-  '𖹼']), ('𖹝', &['𖹽']), ('𖹞', &['𖹾']), ('𖹟', &['𖹿']),
-  ('𖹠', &['𖹀']), ('𖹡', &['𖹁']), ('𖹢', &['𖹂']), ('𖹣', &[
-  '𖹃']), ('𖹤', &['𖹄']), ('𖹥', &['𖹅']), ('𖹦', &['𖹆']),
-  ('𖹧', &['𖹇']), ('𖹨', &['𖹈']), ('𖹩', &['𖹉']), ('𖹪', &[
-  '𖹊']), ('𖹫', &['𖹋']), ('𖹬', &['𖹌']), ('𖹭', &['𖹍']),
-  ('𖹮', &['𖹎']), ('𖹯', &['𖹏']), ('𖹰', &['𖹐']), ('𖹱', &[
-  '𖹑']), ('𖹲', &['𖹒']), ('𖹳', &['𖹓']), ('𖹴', &['𖹔']),
-  ('𖹵', &['𖹕']), ('𖹶', &['𖹖']), ('𖹷', &['𖹗']), ('𖹸', &[
-  '𖹘']), ('𖹹', &['𖹙']), ('𖹺', &['𖹚']), ('𖹻', &['𖹛']),
-  ('𖹼', &['𖹜']), ('𖹽', &['𖹝']), ('𖹾', &['𖹞']), ('𖹿', &[
-  '𖹟']), ('𞤀', &['𞤢']), ('𞤁', &['𞤣']), ('𞤂', &['𞤤']),
-  ('𞤃', &['𞤥']), ('𞤄', &['𞤦']), ('𞤅', &['𞤧']), ('𞤆', &[
-  '𞤨']), ('𞤇', &['𞤩']), ('𞤈', &['𞤪']), ('𞤉', &['𞤫']),
-  ('𞤊', &['𞤬']), ('𞤋', &['𞤭']), ('𞤌', &['𞤮']), ('𞤍', &[
-  '𞤯']), ('𞤎', &['𞤰']), ('𞤏', &['𞤱']), ('𞤐', &['𞤲']),
-  ('𞤑', &['𞤳']), ('𞤒', &['𞤴']), ('𞤓', &['𞤵']), ('𞤔', &[
-  '𞤶']), ('𞤕', &['𞤷']), ('𞤖', &['𞤸']), ('𞤗', &['𞤹']),
-  ('𞤘', &['𞤺']), ('𞤙', &['𞤻']), ('𞤚', &['𞤼']), ('𞤛', &[
-  '𞤽']), ('𞤜', &['𞤾']), ('𞤝', &['𞤿']), ('𞤞', &['𞥀']),
-  ('𞤟', &['𞥁']), ('𞤠', &['𞥂']), ('𞤡', &['𞥃']), ('𞤢', &[
-  '𞤀']), ('𞤣', &['𞤁']), ('𞤤', &['𞤂']), ('𞤥', &['𞤃']),
-  ('𞤦', &['𞤄']), ('𞤧', &['𞤅']), ('𞤨', &['𞤆']), ('𞤩', &[
-  '𞤇']), ('𞤪', &['𞤈']), ('𞤫', &['𞤉']), ('𞤬', &['𞤊']),
-  ('𞤭', &['𞤋']), ('𞤮', &['𞤌']), ('𞤯', &['𞤍']), ('𞤰', &[
-  '𞤎']), ('𞤱', &['𞤏']), ('𞤲', &['𞤐']), ('𞤳', &['𞤑']),
-  ('𞤴', &['𞤒']), ('𞤵', &['𞤓']), ('𞤶', &['𞤔']), ('𞤷', &[
-  '𞤕']), ('𞤸', &['𞤖']), ('𞤹', &['𞤗']), ('𞤺', &['𞤘']),
-  ('𞤻', &['𞤙']), ('𞤼', &['𞤚']), ('𞤽', &['𞤛']), ('𞤾', &[
-  '𞤜']), ('𞤿', &['𞤝']), ('𞥀', &['𞤞']), ('𞥁', &['𞤟']),
-  ('𞥂', &['𞤠']), ('𞥃', &['𞤡']),
-];
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/unicode_tables/general_category.rs.html b/target/doc/src/regex_syntax/unicode_tables/general_category.rs.html deleted file mode 100644 index 5657300..0000000 --- a/target/doc/src/regex_syntax/unicode_tables/general_category.rs.html +++ /dev/null @@ -1,4071 +0,0 @@ -general_category.rs.html -- source
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate general-category /tmp/ucd-12.1.0/ --chars --exclude surrogate
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("Cased_Letter", CASED_LETTER), ("Close_Punctuation", CLOSE_PUNCTUATION),
-  ("Connector_Punctuation", CONNECTOR_PUNCTUATION), ("Control", CONTROL),
-  ("Currency_Symbol", CURRENCY_SYMBOL),
-  ("Dash_Punctuation", DASH_PUNCTUATION), ("Decimal_Number", DECIMAL_NUMBER),
-  ("Enclosing_Mark", ENCLOSING_MARK),
-  ("Final_Punctuation", FINAL_PUNCTUATION), ("Format", FORMAT),
-  ("Initial_Punctuation", INITIAL_PUNCTUATION), ("Letter", LETTER),
-  ("Letter_Number", LETTER_NUMBER), ("Line_Separator", LINE_SEPARATOR),
-  ("Lowercase_Letter", LOWERCASE_LETTER), ("Mark", MARK),
-  ("Math_Symbol", MATH_SYMBOL), ("Modifier_Letter", MODIFIER_LETTER),
-  ("Modifier_Symbol", MODIFIER_SYMBOL), ("Nonspacing_Mark", NONSPACING_MARK),
-  ("Number", NUMBER), ("Open_Punctuation", OPEN_PUNCTUATION),
-  ("Other", OTHER), ("Other_Letter", OTHER_LETTER),
-  ("Other_Number", OTHER_NUMBER), ("Other_Punctuation", OTHER_PUNCTUATION),
-  ("Other_Symbol", OTHER_SYMBOL),
-  ("Paragraph_Separator", PARAGRAPH_SEPARATOR), ("Private_Use", PRIVATE_USE),
-  ("Punctuation", PUNCTUATION), ("Separator", SEPARATOR),
-  ("Space_Separator", SPACE_SEPARATOR), ("Spacing_Mark", SPACING_MARK),
-  ("Symbol", SYMBOL), ("Titlecase_Letter", TITLECASE_LETTER),
-  ("Unassigned", UNASSIGNED), ("Uppercase_Letter", UPPERCASE_LETTER),
-];
-
-pub const CASED_LETTER: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('µ', 'µ'), ('À', 'Ö'), ('Ø', 'ö'),
-  ('ø', 'ƺ'), ('Ƽ', 'ƿ'), ('DŽ', 'ʓ'), ('ʕ', 'ʯ'), ('Ͱ', 'ͳ'),
-  ('Ͷ', 'ͷ'), ('ͻ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('Ҋ', 'ԯ'),
-  ('Ա', 'Ֆ'), ('ՠ', 'ֈ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('ა', 'ჺ'), ('ჽ', 'ჿ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('ᴀ', 'ᴫ'),
-  ('ᵫ', 'ᵷ'), ('ᵹ', 'ᶚ'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'),
-  ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'),
-  ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'),
-  ('ᾶ', 'ᾼ'), ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'),
-  ('ῐ', 'ΐ'), ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'),
-  ('ῶ', 'ῼ'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'),
-  ('ℕ', 'ℕ'), ('ℙ', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'),
-  ('ℨ', 'ℨ'), ('K', 'ℭ'), ('ℯ', 'ℴ'), ('ℹ', 'ℹ'),
-  ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'), ('ⅎ', 'ⅎ'), ('Ↄ', 'ↄ'),
-  ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'), ('Ⱡ', 'ⱻ'), ('Ȿ', 'ⳤ'),
-  ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('Ꙁ', 'ꙭ'), ('Ꚁ', 'ꚛ'), ('Ꜣ', 'ꝯ'),
-  ('ꝱ', 'ꞇ'), ('Ꞌ', 'ꞎ'), ('Ꞑ', '\u{a7bf}'),
-  ('\u{a7c2}', '\u{a7c6}'), ('ꟺ', 'ꟺ'), ('ꬰ', 'ꭚ'),
-  ('ꭠ', '\u{ab67}'), ('ꭰ', 'ꮿ'), ('ff', 'st'), ('ﬓ', 'ﬗ'),
-  ('A', 'Z'), ('a', 'z'), ('𐐀', '𐑏'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𑢠', '𑣟'),
-  ('𖹀', '𖹿'), ('𝐀', '𝑔'), ('𝑖', '𝒜'), ('𝒞', '𝒟'),
-  ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'), ('𝒮', '𝒹'),
-  ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'), ('𝔇', '𝔊'),
-  ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'), ('𝔻', '𝔾'),
-  ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕒', '𝚥'),
-  ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'), ('𝛼', '𝜔'),
-  ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'), ('𝝰', '𝞈'),
-  ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'), ('𞤀', '𞥃'),
-];
-
-pub const CLOSE_PUNCTUATION: &'static [(char, char)] = &[
-  (')', ')'), (']', ']'), ('}', '}'), ('༻', '༻'), ('༽', '༽'),
-  ('᚜', '᚜'), ('⁆', '⁆'), ('⁾', '⁾'), ('₎', '₎'),
-  ('⌉', '⌉'), ('⌋', '⌋'), ('〉', '〉'), ('❩', '❩'),
-  ('❫', '❫'), ('❭', '❭'), ('❯', '❯'), ('❱', '❱'),
-  ('❳', '❳'), ('❵', '❵'), ('⟆', '⟆'), ('⟧', '⟧'),
-  ('⟩', '⟩'), ('⟫', '⟫'), ('⟭', '⟭'), ('⟯', '⟯'),
-  ('⦄', '⦄'), ('⦆', '⦆'), ('⦈', '⦈'), ('⦊', '⦊'),
-  ('⦌', '⦌'), ('⦎', '⦎'), ('⦐', '⦐'), ('⦒', '⦒'),
-  ('⦔', '⦔'), ('⦖', '⦖'), ('⦘', '⦘'), ('⧙', '⧙'),
-  ('⧛', '⧛'), ('⧽', '⧽'), ('⸣', '⸣'), ('⸥', '⸥'),
-  ('⸧', '⸧'), ('⸩', '⸩'), ('〉', '〉'), ('》', '》'),
-  ('」', '」'), ('』', '』'), ('】', '】'), ('〕', '〕'),
-  ('〗', '〗'), ('〙', '〙'), ('〛', '〛'), ('〞', '〟'),
-  ('﴾', '﴾'), ('︘', '︘'), ('︶', '︶'), ('︸', '︸'),
-  ('︺', '︺'), ('︼', '︼'), ('︾', '︾'), ('﹀', '﹀'),
-  ('﹂', '﹂'), ('﹄', '﹄'), ('﹈', '﹈'), ('﹚', '﹚'),
-  ('﹜', '﹜'), ('﹞', '﹞'), (')', ')'), (']', ']'),
-  ('}', '}'), ('⦆', '⦆'), ('」', '」'),
-];
-
-pub const CONNECTOR_PUNCTUATION: &'static [(char, char)] = &[
-  ('_', '_'), ('‿', '⁀'), ('⁔', '⁔'), ('︳', '︴'), ('﹍', '﹏'),
-  ('_', '_'),
-];
-
-pub const CONTROL: &'static [(char, char)] = &[
-  ('\u{0}', '\u{1f}'), ('\u{7f}', '\u{9f}'),
-];
-
-pub const CURRENCY_SYMBOL: &'static [(char, char)] = &[
-  ('$', '$'), ('¢', '¥'), ('֏', '֏'), ('؋', '؋'), ('߾', '߿'),
-  ('৲', '৳'), ('৻', '৻'), ('૱', '૱'), ('௹', '௹'),
-  ('฿', '฿'), ('៛', '៛'), ('₠', '₿'), ('꠸', '꠸'),
-  ('﷼', '﷼'), ('﹩', '﹩'), ('$', '$'), ('¢', '£'),
-  ('¥', '₩'), ('\u{11fdd}', '\u{11fe0}'), ('\u{1e2ff}', '\u{1e2ff}'),
-  ('𞲰', '𞲰'),
-];
-
-pub const DASH_PUNCTUATION: &'static [(char, char)] = &[
-  ('-', '-'), ('֊', '֊'), ('־', '־'), ('᐀', '᐀'), ('᠆', '᠆'),
-  ('‐', '―'), ('⸗', '⸗'), ('⸚', '⸚'), ('⸺', '⸻'),
-  ('⹀', '⹀'), ('〜', '〜'), ('〰', '〰'), ('゠', '゠'),
-  ('︱', '︲'), ('﹘', '﹘'), ('﹣', '﹣'), ('-', '-'),
-];
-
-pub const DECIMAL_NUMBER: &'static [(char, char)] = &[
-  ('0', '9'), ('٠', '٩'), ('۰', '۹'), ('߀', '߉'), ('०', '९'),
-  ('০', '৯'), ('੦', '੯'), ('૦', '૯'), ('୦', '୯'),
-  ('௦', '௯'), ('౦', '౯'), ('೦', '೯'), ('൦', '൯'),
-  ('෦', '෯'), ('๐', '๙'), ('໐', '໙'), ('༠', '༩'),
-  ('၀', '၉'), ('႐', '႙'), ('០', '៩'), ('᠐', '᠙'),
-  ('᥆', '᥏'), ('᧐', '᧙'), ('᪀', '᪉'), ('᪐', '᪙'),
-  ('᭐', '᭙'), ('᮰', '᮹'), ('᱀', '᱉'), ('᱐', '᱙'),
-  ('꘠', '꘩'), ('꣐', '꣙'), ('꤀', '꤉'), ('꧐', '꧙'),
-  ('꧰', '꧹'), ('꩐', '꩙'), ('꯰', '꯹'), ('0', '9'),
-  ('𐒠', '𐒩'), ('𐴰', '𐴹'), ('𑁦', '𑁯'), ('𑃰', '𑃹'),
-  ('𑄶', '𑄿'), ('𑇐', '𑇙'), ('𑋰', '𑋹'), ('𑑐', '𑑙'),
-  ('𑓐', '𑓙'), ('𑙐', '𑙙'), ('𑛀', '𑛉'), ('𑜰', '𑜹'),
-  ('𑣠', '𑣩'), ('𑱐', '𑱙'), ('𑵐', '𑵙'), ('𑶠', '𑶩'),
-  ('𖩠', '𖩩'), ('𖭐', '𖭙'), ('𝟎', '𝟿'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e2f0}', '\u{1e2f9}'), ('𞥐', '𞥙'),
-];
-
-pub const ENCLOSING_MARK: &'static [(char, char)] = &[
-  ('\u{488}', '\u{489}'), ('\u{1abe}', '\u{1abe}'), ('\u{20dd}', '\u{20e0}'),
-  ('\u{20e2}', '\u{20e4}'), ('\u{a670}', '\u{a672}'),
-];
-
-pub const FINAL_PUNCTUATION: &'static [(char, char)] = &[
-  ('»', '»'), ('’', '’'), ('”', '”'), ('›', '›'),
-  ('⸃', '⸃'), ('⸅', '⸅'), ('⸊', '⸊'), ('⸍', '⸍'),
-  ('⸝', '⸝'), ('⸡', '⸡'),
-];
-
-pub const FORMAT: &'static [(char, char)] = &[
-  ('\u{ad}', '\u{ad}'), ('\u{600}', '\u{605}'), ('\u{61c}', '\u{61c}'),
-  ('\u{6dd}', '\u{6dd}'), ('\u{70f}', '\u{70f}'), ('\u{8e2}', '\u{8e2}'),
-  ('\u{180e}', '\u{180e}'), ('\u{200b}', '\u{200f}'),
-  ('\u{202a}', '\u{202e}'), ('\u{2060}', '\u{2064}'),
-  ('\u{2066}', '\u{206f}'), ('\u{feff}', '\u{feff}'),
-  ('\u{fff9}', '\u{fffb}'), ('\u{110bd}', '\u{110bd}'),
-  ('\u{110cd}', '\u{110cd}'), ('\u{13430}', '\u{13438}'),
-  ('\u{1bca0}', '\u{1bca3}'), ('\u{1d173}', '\u{1d17a}'),
-  ('\u{e0001}', '\u{e0001}'), ('\u{e0020}', '\u{e007f}'),
-];
-
-pub const INITIAL_PUNCTUATION: &'static [(char, char)] = &[
-  ('«', '«'), ('‘', '‘'), ('‛', '“'), ('‟', '‟'),
-  ('‹', '‹'), ('⸂', '⸂'), ('⸄', '⸄'), ('⸉', '⸉'),
-  ('⸌', '⸌'), ('⸜', '⸜'), ('⸠', '⸠'),
-];
-
-pub const LETTER: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'),
-  ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'), ('ˆ', 'ˑ'), ('ˠ', 'ˤ'),
-  ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('Ͱ', 'ʹ'), ('Ͷ', 'ͷ'), ('ͺ', 'ͽ'),
-  ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'),
-  ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՙ', 'ՙ'),
-  ('ՠ', 'ֈ'), ('א', 'ת'), ('ׯ', 'ײ'), ('ؠ', 'ي'), ('ٮ', 'ٯ'),
-  ('ٱ', 'ۓ'), ('ە', 'ە'), ('ۥ', 'ۦ'), ('ۮ', 'ۯ'), ('ۺ', 'ۼ'),
-  ('ۿ', 'ۿ'), ('ܐ', 'ܐ'), ('ܒ', 'ܯ'), ('ݍ', 'ޥ'), ('ޱ', 'ޱ'),
-  ('ߊ', 'ߪ'), ('ߴ', 'ߵ'), ('ߺ', 'ߺ'), ('ࠀ', 'ࠕ'), ('ࠚ', 'ࠚ'),
-  ('ࠤ', 'ࠤ'), ('ࠨ', 'ࠨ'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'),
-  ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('ऄ', 'ह'), ('ऽ', 'ऽ'),
-  ('ॐ', 'ॐ'), ('क़', 'ॡ'), ('ॱ', 'ঀ'), ('অ', 'ঌ'),
-  ('এ', 'ঐ'), ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'),
-  ('শ', 'হ'), ('ঽ', 'ঽ'), ('ৎ', 'ৎ'), ('ড়', 'ঢ়'),
-  ('য়', 'ৡ'), ('ৰ', 'ৱ'), ('ৼ', 'ৼ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'),
-  ('ੲ', 'ੴ'), ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'),
-  ('પ', 'ર'), ('લ', 'ળ'), ('વ', 'હ'), ('ઽ', 'ઽ'),
-  ('ૐ', 'ૐ'), ('ૠ', 'ૡ'), ('ૹ', 'ૹ'), ('ଅ', 'ଌ'),
-  ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'),
-  ('ଵ', 'ହ'), ('ଽ', 'ଽ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'),
-  ('ୱ', 'ୱ'), ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('ௐ', 'ௐ'),
-  ('అ', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'),
-  ('ఽ', 'ఽ'), ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('ಀ', 'ಀ'),
-  ('ಅ', 'ಌ'), ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'),
-  ('ವ', 'ಹ'), ('ಽ', 'ಽ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'),
-  ('ೱ', 'ೲ'), ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'),
-  ('ഽ', 'ഽ'), ('ൎ', 'ൎ'), ('ൔ', 'ൖ'), ('ൟ', 'ൡ'),
-  ('ൺ', 'ൿ'), ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'),
-  ('ල', 'ල'), ('ව', 'ෆ'), ('ก', 'ะ'), ('า', 'ำ'),
-  ('เ', 'ๆ'), ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'),
-  ('\u{e8c}', 'ຣ'), ('ລ', 'ລ'), ('ວ', 'ະ'), ('າ', 'ຳ'),
-  ('ຽ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('ໜ', 'ໟ'),
-  ('ༀ', 'ༀ'), ('ཀ', 'ཇ'), ('ཉ', 'ཬ'), ('ྈ', 'ྌ'),
-  ('က', 'ဪ'), ('ဿ', 'ဿ'), ('ၐ', 'ၕ'), ('ၚ', 'ၝ'),
-  ('ၡ', 'ၡ'), ('ၥ', 'ၦ'), ('ၮ', 'ၰ'), ('ၵ', 'ႁ'),
-  ('ႎ', 'ႎ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('ა', 'ჺ'), ('ჼ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'),
-  ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'),
-  ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'),
-  ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'),
-  ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛱ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'),
-  ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('ក', 'ឳ'),
-  ('ៗ', 'ៗ'), ('ៜ', 'ៜ'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢄ'),
-  ('ᢇ', 'ᢨ'), ('ᢪ', 'ᢪ'), ('ᢰ', 'ᣵ'), ('ᤀ', 'ᤞ'),
-  ('ᥐ', 'ᥭ'), ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'),
-  ('ᨀ', 'ᨖ'), ('ᨠ', 'ᩔ'), ('ᪧ', 'ᪧ'), ('ᬅ', 'ᬳ'),
-  ('ᭅ', 'ᭋ'), ('ᮃ', 'ᮠ'), ('ᮮ', 'ᮯ'), ('ᮺ', 'ᯥ'),
-  ('ᰀ', 'ᰣ'), ('ᱍ', 'ᱏ'), ('ᱚ', 'ᱽ'), ('ᲀ', 'ᲈ'),
-  ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'),
-  ('ᳵ', 'ᳶ'), ('\u{1cfa}', '\u{1cfa}'), ('ᴀ', 'ᶿ'), ('Ḁ', 'ἕ'),
-  ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'),
-  ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'), ('ι', 'ι'), ('ῂ', 'ῄ'),
-  ('ῆ', 'ῌ'), ('ῐ', 'ΐ'), ('ῖ', 'Ί'), ('ῠ', 'Ῥ'),
-  ('ῲ', 'ῴ'), ('ῶ', 'ῼ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'),
-  ('ₐ', 'ₜ'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'),
-  ('ℕ', 'ℕ'), ('ℙ', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'),
-  ('ℨ', 'ℨ'), ('K', 'ℭ'), ('ℯ', 'ℹ'), ('ℼ', 'ℿ'),
-  ('ⅅ', 'ⅉ'), ('ⅎ', 'ⅎ'), ('Ↄ', 'ↄ'), ('Ⰰ', 'Ⱞ'),
-  ('ⰰ', 'ⱞ'), ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'),
-  ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'),
-  ('ⵯ', 'ⵯ'), ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'),
-  ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'),
-  ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'), ('ⸯ', 'ⸯ'), ('々', '〆'),
-  ('〱', '〵'), ('〻', '〼'), ('ぁ', 'ゖ'), ('ゝ', 'ゟ'),
-  ('ァ', 'ヺ'), ('ー', 'ヿ'), ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'),
-  ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'), ('㐀', '䶵'), ('一', '鿯'),
-  ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'), ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘟ'),
-  ('ꘪ', 'ꘫ'), ('Ꙁ', 'ꙮ'), ('ꙿ', 'ꚝ'), ('ꚠ', 'ꛥ'),
-  ('ꜗ', 'ꜟ'), ('Ꜣ', 'ꞈ'), ('Ꞌ', '\u{a7bf}'),
-  ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠁ'), ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'),
-  ('ꠌ', 'ꠢ'), ('ꡀ', 'ꡳ'), ('ꢂ', 'ꢳ'), ('ꣲ', 'ꣷ'),
-  ('ꣻ', 'ꣻ'), ('ꣽ', 'ꣾ'), ('ꤊ', 'ꤥ'), ('ꤰ', 'ꥆ'),
-  ('ꥠ', 'ꥼ'), ('ꦄ', 'ꦲ'), ('ꧏ', 'ꧏ'), ('ꧠ', 'ꧤ'),
-  ('ꧦ', 'ꧯ'), ('ꧺ', 'ꧾ'), ('ꨀ', 'ꨨ'), ('ꩀ', 'ꩂ'),
-  ('ꩄ', 'ꩋ'), ('ꩠ', 'ꩶ'), ('ꩺ', 'ꩺ'), ('ꩾ', 'ꪯ'),
-  ('ꪱ', 'ꪱ'), ('ꪵ', 'ꪶ'), ('ꪹ', 'ꪽ'), ('ꫀ', 'ꫀ'),
-  ('ꫂ', 'ꫂ'), ('ꫛ', 'ꫝ'), ('ꫠ', 'ꫪ'), ('ꫲ', 'ꫴ'),
-  ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'), ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'),
-  ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'), ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯢ'),
-  ('가', '힣'), ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'), ('豈', '舘'),
-  ('並', '龎'), ('ff', 'st'), ('ﬓ', 'ﬗ'), ('יִ', 'יִ'),
-  ('ײַ', 'ﬨ'), ('שׁ', 'זּ'), ('טּ', 'לּ'), ('מּ', 'מּ'),
-  ('נּ', 'סּ'), ('ףּ', 'פּ'), ('צּ', 'ﮱ'), ('ﯓ', 'ﴽ'),
-  ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷻ'), ('ﹰ', 'ﹴ'),
-  ('ﹶ', 'ﻼ'), ('A', 'Z'), ('a', 'z'), ('ヲ', 'ᄒ'),
-  ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'),
-  ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'),
-  ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐊀', '𐊜'),
-  ('𐊠', '𐋐'), ('𐌀', '𐌟'), ('𐌭', '𐍀'), ('𐍂', '𐍉'),
-  ('𐍐', '𐍵'), ('𐎀', '𐎝'), ('𐎠', '𐏃'), ('𐏈', '𐏏'),
-  ('𐐀', '𐒝'), ('𐒰', '𐓓'), ('𐓘', '𐓻'), ('𐔀', '𐔧'),
-  ('𐔰', '𐕣'), ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'),
-  ('𐠀', '𐠅'), ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'),
-  ('𐠼', '𐠼'), ('𐠿', '𐡕'), ('𐡠', '𐡶'), ('𐢀', '𐢞'),
-  ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐤀', '𐤕'), ('𐤠', '𐤹'),
-  ('𐦀', '𐦷'), ('𐦾', '𐦿'), ('𐨀', '𐨀'), ('𐨐', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('𐩠', '𐩼'), ('𐪀', '𐪜'),
-  ('𐫀', '𐫇'), ('𐫉', '𐫤'), ('𐬀', '𐬵'), ('𐭀', '𐭕'),
-  ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'), ('𐲀', '𐲲'),
-  ('𐳀', '𐳲'), ('𐴀', '𐴣'), ('𐼀', '𐼜'), ('𐼧', '𐼧'),
-  ('𐼰', '𐽅'), ('\u{10fe0}', '\u{10ff6}'), ('𑀃', '𑀷'),
-  ('𑂃', '𑂯'), ('𑃐', '𑃨'), ('𑄃', '𑄦'), ('𑅄', '𑅄'),
-  ('𑅐', '𑅲'), ('𑅶', '𑅶'), ('𑆃', '𑆲'), ('𑇁', '𑇄'),
-  ('𑇚', '𑇚'), ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '𑈫'),
-  ('𑊀', '𑊆'), ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'),
-  ('𑊟', '𑊨'), ('𑊰', '𑋞'), ('𑌅', '𑌌'), ('𑌏', '𑌐'),
-  ('𑌓', '𑌨'), ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'),
-  ('𑌽', '𑌽'), ('𑍐', '𑍐'), ('𑍝', '𑍡'), ('𑐀', '𑐴'),
-  ('𑑇', '𑑊'), ('\u{1145f}', '\u{1145f}'), ('𑒀', '𑒯'),
-  ('𑓄', '𑓅'), ('𑓇', '𑓇'), ('𑖀', '𑖮'), ('𑗘', '𑗛'),
-  ('𑘀', '𑘯'), ('𑙄', '𑙄'), ('𑚀', '𑚪'),
-  ('\u{116b8}', '\u{116b8}'), ('𑜀', '𑜚'), ('𑠀', '𑠫'),
-  ('𑢠', '𑣟'), ('𑣿', '𑣿'), ('\u{119a0}', '\u{119a7}'),
-  ('\u{119aa}', '\u{119d0}'), ('\u{119e1}', '\u{119e1}'),
-  ('\u{119e3}', '\u{119e3}'), ('𑨀', '𑨀'), ('𑨋', '𑨲'),
-  ('𑨺', '𑨺'), ('𑩐', '𑩐'), ('𑩜', '𑪉'), ('𑪝', '𑪝'),
-  ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '𑰮'), ('𑱀', '𑱀'),
-  ('𑱲', '𑲏'), ('𑴀', '𑴆'), ('𑴈', '𑴉'), ('𑴋', '𑴰'),
-  ('𑵆', '𑵆'), ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶉'),
-  ('𑶘', '𑶘'), ('𑻠', '𑻲'), ('𒀀', '𒎙'), ('𒒀', '𒕃'),
-  ('𓀀', '𓐮'), ('𔐀', '𔙆'), ('𖠀', '𖨸'), ('𖩀', '𖩞'),
-  ('𖫐', '𖫭'), ('𖬀', '𖬯'), ('𖭀', '𖭃'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𖹀', '𖹿'), ('𖼀', '\u{16f4a}'), ('𖽐', '𖽐'),
-  ('𖾓', '𖾟'), ('𖿠', '𖿡'), ('\u{16fe3}', '\u{16fe3}'),
-  ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'), ('𛀀', '𛄞'),
-  ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'), ('𛅰', '𛋻'),
-  ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'), ('𛲐', '𛲙'),
-  ('𝐀', '𝑔'), ('𝑖', '𝒜'), ('𝒞', '𝒟'), ('𝒢', '𝒢'),
-  ('𝒥', '𝒦'), ('𝒩', '𝒬'), ('𝒮', '𝒹'), ('𝒻', '𝒻'),
-  ('𝒽', '𝓃'), ('𝓅', '𝔅'), ('𝔇', '𝔊'), ('𝔍', '𝔔'),
-  ('𝔖', '𝔜'), ('𝔞', '𝔹'), ('𝔻', '𝔾'), ('𝕀', '𝕄'),
-  ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕒', '𝚥'), ('𝚨', '𝛀'),
-  ('𝛂', '𝛚'), ('𝛜', '𝛺'), ('𝛼', '𝜔'), ('𝜖', '𝜴'),
-  ('𝜶', '𝝎'), ('𝝐', '𝝮'), ('𝝰', '𝞈'), ('𝞊', '𝞨'),
-  ('𝞪', '𝟂'), ('𝟄', '𝟋'), ('\u{1e100}', '\u{1e12c}'),
-  ('\u{1e137}', '\u{1e13d}'), ('\u{1e14e}', '\u{1e14e}'),
-  ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'), ('𞤀', '𞥃'),
-  ('\u{1e94b}', '\u{1e94b}'), ('𞸀', '𞸃'), ('𞸅', '𞸟'),
-  ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'), ('𞸩', '𞸲'),
-  ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'), ('𞹂', '𞹂'),
-  ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'), ('𞹍', '𞹏'),
-  ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'), ('𞹙', '𞹙'),
-  ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'), ('𞹡', '𞹢'),
-  ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'), ('𞹴', '𞹷'),
-  ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'), ('𞺋', '𞺛'),
-  ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'), ('𠀀', '𪛖'),
-  ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-  ('丽', '𪘀'),
-];
-
-pub const LETTER_NUMBER: &'static [(char, char)] = &[
-  ('ᛮ', 'ᛰ'), ('Ⅰ', 'ↂ'), ('ↅ', 'ↈ'), ('〇', '〇'),
-  ('〡', '〩'), ('〸', '〺'), ('ꛦ', 'ꛯ'), ('𐅀', '𐅴'),
-  ('𐍁', '𐍁'), ('𐍊', '𐍊'), ('𐏑', '𐏕'), ('𒐀', '𒑮'),
-];
-
-pub const LINE_SEPARATOR: &'static [(char, char)] = &[
-  ('\u{2028}', '\u{2028}'),
-];
-
-pub const LOWERCASE_LETTER: &'static [(char, char)] = &[
-  ('a', 'z'), ('µ', 'µ'), ('ß', 'ö'), ('ø', 'ÿ'), ('ā', 'ā'),
-  ('ă', 'ă'), ('ą', 'ą'), ('ć', 'ć'), ('ĉ', 'ĉ'), ('ċ', 'ċ'),
-  ('č', 'č'), ('ď', 'ď'), ('đ', 'đ'), ('ē', 'ē'), ('ĕ', 'ĕ'),
-  ('ė', 'ė'), ('ę', 'ę'), ('ě', 'ě'), ('ĝ', 'ĝ'), ('ğ', 'ğ'),
-  ('ġ', 'ġ'), ('ģ', 'ģ'), ('ĥ', 'ĥ'), ('ħ', 'ħ'), ('ĩ', 'ĩ'),
-  ('ī', 'ī'), ('ĭ', 'ĭ'), ('į', 'į'), ('ı', 'ı'), ('ij', 'ij'),
-  ('ĵ', 'ĵ'), ('ķ', 'ĸ'), ('ĺ', 'ĺ'), ('ļ', 'ļ'), ('ľ', 'ľ'),
-  ('ŀ', 'ŀ'), ('ł', 'ł'), ('ń', 'ń'), ('ņ', 'ņ'), ('ň', 'ʼn'),
-  ('ŋ', 'ŋ'), ('ō', 'ō'), ('ŏ', 'ŏ'), ('ő', 'ő'), ('œ', 'œ'),
-  ('ŕ', 'ŕ'), ('ŗ', 'ŗ'), ('ř', 'ř'), ('ś', 'ś'), ('ŝ', 'ŝ'),
-  ('ş', 'ş'), ('š', 'š'), ('ţ', 'ţ'), ('ť', 'ť'), ('ŧ', 'ŧ'),
-  ('ũ', 'ũ'), ('ū', 'ū'), ('ŭ', 'ŭ'), ('ů', 'ů'), ('ű', 'ű'),
-  ('ų', 'ų'), ('ŵ', 'ŵ'), ('ŷ', 'ŷ'), ('ź', 'ź'), ('ż', 'ż'),
-  ('ž', 'ƀ'), ('ƃ', 'ƃ'), ('ƅ', 'ƅ'), ('ƈ', 'ƈ'), ('ƌ', 'ƍ'),
-  ('ƒ', 'ƒ'), ('ƕ', 'ƕ'), ('ƙ', 'ƛ'), ('ƞ', 'ƞ'), ('ơ', 'ơ'),
-  ('ƣ', 'ƣ'), ('ƥ', 'ƥ'), ('ƨ', 'ƨ'), ('ƪ', 'ƫ'), ('ƭ', 'ƭ'),
-  ('ư', 'ư'), ('ƴ', 'ƴ'), ('ƶ', 'ƶ'), ('ƹ', 'ƺ'), ('ƽ', 'ƿ'),
-  ('dž', 'dž'), ('lj', 'lj'), ('nj', 'nj'), ('ǎ', 'ǎ'), ('ǐ', 'ǐ'),
-  ('ǒ', 'ǒ'), ('ǔ', 'ǔ'), ('ǖ', 'ǖ'), ('ǘ', 'ǘ'), ('ǚ', 'ǚ'),
-  ('ǜ', 'ǝ'), ('ǟ', 'ǟ'), ('ǡ', 'ǡ'), ('ǣ', 'ǣ'), ('ǥ', 'ǥ'),
-  ('ǧ', 'ǧ'), ('ǩ', 'ǩ'), ('ǫ', 'ǫ'), ('ǭ', 'ǭ'), ('ǯ', 'ǰ'),
-  ('dz', 'dz'), ('ǵ', 'ǵ'), ('ǹ', 'ǹ'), ('ǻ', 'ǻ'), ('ǽ', 'ǽ'),
-  ('ǿ', 'ǿ'), ('ȁ', 'ȁ'), ('ȃ', 'ȃ'), ('ȅ', 'ȅ'), ('ȇ', 'ȇ'),
-  ('ȉ', 'ȉ'), ('ȋ', 'ȋ'), ('ȍ', 'ȍ'), ('ȏ', 'ȏ'), ('ȑ', 'ȑ'),
-  ('ȓ', 'ȓ'), ('ȕ', 'ȕ'), ('ȗ', 'ȗ'), ('ș', 'ș'), ('ț', 'ț'),
-  ('ȝ', 'ȝ'), ('ȟ', 'ȟ'), ('ȡ', 'ȡ'), ('ȣ', 'ȣ'), ('ȥ', 'ȥ'),
-  ('ȧ', 'ȧ'), ('ȩ', 'ȩ'), ('ȫ', 'ȫ'), ('ȭ', 'ȭ'), ('ȯ', 'ȯ'),
-  ('ȱ', 'ȱ'), ('ȳ', 'ȹ'), ('ȼ', 'ȼ'), ('ȿ', 'ɀ'), ('ɂ', 'ɂ'),
-  ('ɇ', 'ɇ'), ('ɉ', 'ɉ'), ('ɋ', 'ɋ'), ('ɍ', 'ɍ'), ('ɏ', 'ʓ'),
-  ('ʕ', 'ʯ'), ('ͱ', 'ͱ'), ('ͳ', 'ͳ'), ('ͷ', 'ͷ'), ('ͻ', 'ͽ'),
-  ('ΐ', 'ΐ'), ('ά', 'ώ'), ('ϐ', 'ϑ'), ('ϕ', 'ϗ'), ('ϙ', 'ϙ'),
-  ('ϛ', 'ϛ'), ('ϝ', 'ϝ'), ('ϟ', 'ϟ'), ('ϡ', 'ϡ'), ('ϣ', 'ϣ'),
-  ('ϥ', 'ϥ'), ('ϧ', 'ϧ'), ('ϩ', 'ϩ'), ('ϫ', 'ϫ'), ('ϭ', 'ϭ'),
-  ('ϯ', 'ϳ'), ('ϵ', 'ϵ'), ('ϸ', 'ϸ'), ('ϻ', 'ϼ'), ('а', 'џ'),
-  ('ѡ', 'ѡ'), ('ѣ', 'ѣ'), ('ѥ', 'ѥ'), ('ѧ', 'ѧ'), ('ѩ', 'ѩ'),
-  ('ѫ', 'ѫ'), ('ѭ', 'ѭ'), ('ѯ', 'ѯ'), ('ѱ', 'ѱ'), ('ѳ', 'ѳ'),
-  ('ѵ', 'ѵ'), ('ѷ', 'ѷ'), ('ѹ', 'ѹ'), ('ѻ', 'ѻ'), ('ѽ', 'ѽ'),
-  ('ѿ', 'ѿ'), ('ҁ', 'ҁ'), ('ҋ', 'ҋ'), ('ҍ', 'ҍ'), ('ҏ', 'ҏ'),
-  ('ґ', 'ґ'), ('ғ', 'ғ'), ('ҕ', 'ҕ'), ('җ', 'җ'), ('ҙ', 'ҙ'),
-  ('қ', 'қ'), ('ҝ', 'ҝ'), ('ҟ', 'ҟ'), ('ҡ', 'ҡ'), ('ң', 'ң'),
-  ('ҥ', 'ҥ'), ('ҧ', 'ҧ'), ('ҩ', 'ҩ'), ('ҫ', 'ҫ'), ('ҭ', 'ҭ'),
-  ('ү', 'ү'), ('ұ', 'ұ'), ('ҳ', 'ҳ'), ('ҵ', 'ҵ'), ('ҷ', 'ҷ'),
-  ('ҹ', 'ҹ'), ('һ', 'һ'), ('ҽ', 'ҽ'), ('ҿ', 'ҿ'), ('ӂ', 'ӂ'),
-  ('ӄ', 'ӄ'), ('ӆ', 'ӆ'), ('ӈ', 'ӈ'), ('ӊ', 'ӊ'), ('ӌ', 'ӌ'),
-  ('ӎ', 'ӏ'), ('ӑ', 'ӑ'), ('ӓ', 'ӓ'), ('ӕ', 'ӕ'), ('ӗ', 'ӗ'),
-  ('ә', 'ә'), ('ӛ', 'ӛ'), ('ӝ', 'ӝ'), ('ӟ', 'ӟ'), ('ӡ', 'ӡ'),
-  ('ӣ', 'ӣ'), ('ӥ', 'ӥ'), ('ӧ', 'ӧ'), ('ө', 'ө'), ('ӫ', 'ӫ'),
-  ('ӭ', 'ӭ'), ('ӯ', 'ӯ'), ('ӱ', 'ӱ'), ('ӳ', 'ӳ'), ('ӵ', 'ӵ'),
-  ('ӷ', 'ӷ'), ('ӹ', 'ӹ'), ('ӻ', 'ӻ'), ('ӽ', 'ӽ'), ('ӿ', 'ӿ'),
-  ('ԁ', 'ԁ'), ('ԃ', 'ԃ'), ('ԅ', 'ԅ'), ('ԇ', 'ԇ'), ('ԉ', 'ԉ'),
-  ('ԋ', 'ԋ'), ('ԍ', 'ԍ'), ('ԏ', 'ԏ'), ('ԑ', 'ԑ'), ('ԓ', 'ԓ'),
-  ('ԕ', 'ԕ'), ('ԗ', 'ԗ'), ('ԙ', 'ԙ'), ('ԛ', 'ԛ'), ('ԝ', 'ԝ'),
-  ('ԟ', 'ԟ'), ('ԡ', 'ԡ'), ('ԣ', 'ԣ'), ('ԥ', 'ԥ'), ('ԧ', 'ԧ'),
-  ('ԩ', 'ԩ'), ('ԫ', 'ԫ'), ('ԭ', 'ԭ'), ('ԯ', 'ԯ'), ('ՠ', 'ֈ'),
-  ('ა', 'ჺ'), ('ჽ', 'ჿ'), ('ᏸ', 'ᏽ'), ('ᲀ', 'ᲈ'),
-  ('ᴀ', 'ᴫ'), ('ᵫ', 'ᵷ'), ('ᵹ', 'ᶚ'), ('ḁ', 'ḁ'),
-  ('ḃ', 'ḃ'), ('ḅ', 'ḅ'), ('ḇ', 'ḇ'), ('ḉ', 'ḉ'),
-  ('ḋ', 'ḋ'), ('ḍ', 'ḍ'), ('ḏ', 'ḏ'), ('ḑ', 'ḑ'),
-  ('ḓ', 'ḓ'), ('ḕ', 'ḕ'), ('ḗ', 'ḗ'), ('ḙ', 'ḙ'),
-  ('ḛ', 'ḛ'), ('ḝ', 'ḝ'), ('ḟ', 'ḟ'), ('ḡ', 'ḡ'),
-  ('ḣ', 'ḣ'), ('ḥ', 'ḥ'), ('ḧ', 'ḧ'), ('ḩ', 'ḩ'),
-  ('ḫ', 'ḫ'), ('ḭ', 'ḭ'), ('ḯ', 'ḯ'), ('ḱ', 'ḱ'),
-  ('ḳ', 'ḳ'), ('ḵ', 'ḵ'), ('ḷ', 'ḷ'), ('ḹ', 'ḹ'),
-  ('ḻ', 'ḻ'), ('ḽ', 'ḽ'), ('ḿ', 'ḿ'), ('ṁ', 'ṁ'),
-  ('ṃ', 'ṃ'), ('ṅ', 'ṅ'), ('ṇ', 'ṇ'), ('ṉ', 'ṉ'),
-  ('ṋ', 'ṋ'), ('ṍ', 'ṍ'), ('ṏ', 'ṏ'), ('ṑ', 'ṑ'),
-  ('ṓ', 'ṓ'), ('ṕ', 'ṕ'), ('ṗ', 'ṗ'), ('ṙ', 'ṙ'),
-  ('ṛ', 'ṛ'), ('ṝ', 'ṝ'), ('ṟ', 'ṟ'), ('ṡ', 'ṡ'),
-  ('ṣ', 'ṣ'), ('ṥ', 'ṥ'), ('ṧ', 'ṧ'), ('ṩ', 'ṩ'),
-  ('ṫ', 'ṫ'), ('ṭ', 'ṭ'), ('ṯ', 'ṯ'), ('ṱ', 'ṱ'),
-  ('ṳ', 'ṳ'), ('ṵ', 'ṵ'), ('ṷ', 'ṷ'), ('ṹ', 'ṹ'),
-  ('ṻ', 'ṻ'), ('ṽ', 'ṽ'), ('ṿ', 'ṿ'), ('ẁ', 'ẁ'),
-  ('ẃ', 'ẃ'), ('ẅ', 'ẅ'), ('ẇ', 'ẇ'), ('ẉ', 'ẉ'),
-  ('ẋ', 'ẋ'), ('ẍ', 'ẍ'), ('ẏ', 'ẏ'), ('ẑ', 'ẑ'),
-  ('ẓ', 'ẓ'), ('ẕ', 'ẝ'), ('ẟ', 'ẟ'), ('ạ', 'ạ'),
-  ('ả', 'ả'), ('ấ', 'ấ'), ('ầ', 'ầ'), ('ẩ', 'ẩ'),
-  ('ẫ', 'ẫ'), ('ậ', 'ậ'), ('ắ', 'ắ'), ('ằ', 'ằ'),
-  ('ẳ', 'ẳ'), ('ẵ', 'ẵ'), ('ặ', 'ặ'), ('ẹ', 'ẹ'),
-  ('ẻ', 'ẻ'), ('ẽ', 'ẽ'), ('ế', 'ế'), ('ề', 'ề'),
-  ('ể', 'ể'), ('ễ', 'ễ'), ('ệ', 'ệ'), ('ỉ', 'ỉ'),
-  ('ị', 'ị'), ('ọ', 'ọ'), ('ỏ', 'ỏ'), ('ố', 'ố'),
-  ('ồ', 'ồ'), ('ổ', 'ổ'), ('ỗ', 'ỗ'), ('ộ', 'ộ'),
-  ('ớ', 'ớ'), ('ờ', 'ờ'), ('ở', 'ở'), ('ỡ', 'ỡ'),
-  ('ợ', 'ợ'), ('ụ', 'ụ'), ('ủ', 'ủ'), ('ứ', 'ứ'),
-  ('ừ', 'ừ'), ('ử', 'ử'), ('ữ', 'ữ'), ('ự', 'ự'),
-  ('ỳ', 'ỳ'), ('ỵ', 'ỵ'), ('ỷ', 'ỷ'), ('ỹ', 'ỹ'),
-  ('ỻ', 'ỻ'), ('ỽ', 'ỽ'), ('ỿ', 'ἇ'), ('ἐ', 'ἕ'),
-  ('ἠ', 'ἧ'), ('ἰ', 'ἷ'), ('ὀ', 'ὅ'), ('ὐ', 'ὗ'),
-  ('ὠ', 'ὧ'), ('ὰ', 'ώ'), ('ᾀ', 'ᾇ'), ('ᾐ', 'ᾗ'),
-  ('ᾠ', 'ᾧ'), ('ᾰ', 'ᾴ'), ('ᾶ', 'ᾷ'), ('ι', 'ι'),
-  ('ῂ', 'ῄ'), ('ῆ', 'ῇ'), ('ῐ', 'ΐ'), ('ῖ', 'ῗ'),
-  ('ῠ', 'ῧ'), ('ῲ', 'ῴ'), ('ῶ', 'ῷ'), ('ℊ', 'ℊ'),
-  ('ℎ', 'ℏ'), ('ℓ', 'ℓ'), ('ℯ', 'ℯ'), ('ℴ', 'ℴ'),
-  ('ℹ', 'ℹ'), ('ℼ', 'ℽ'), ('ⅆ', 'ⅉ'), ('ⅎ', 'ⅎ'),
-  ('ↄ', 'ↄ'), ('ⰰ', 'ⱞ'), ('ⱡ', 'ⱡ'), ('ⱥ', 'ⱦ'),
-  ('ⱨ', 'ⱨ'), ('ⱪ', 'ⱪ'), ('ⱬ', 'ⱬ'), ('ⱱ', 'ⱱ'),
-  ('ⱳ', 'ⱴ'), ('ⱶ', 'ⱻ'), ('ⲁ', 'ⲁ'), ('ⲃ', 'ⲃ'),
-  ('ⲅ', 'ⲅ'), ('ⲇ', 'ⲇ'), ('ⲉ', 'ⲉ'), ('ⲋ', 'ⲋ'),
-  ('ⲍ', 'ⲍ'), ('ⲏ', 'ⲏ'), ('ⲑ', 'ⲑ'), ('ⲓ', 'ⲓ'),
-  ('ⲕ', 'ⲕ'), ('ⲗ', 'ⲗ'), ('ⲙ', 'ⲙ'), ('ⲛ', 'ⲛ'),
-  ('ⲝ', 'ⲝ'), ('ⲟ', 'ⲟ'), ('ⲡ', 'ⲡ'), ('ⲣ', 'ⲣ'),
-  ('ⲥ', 'ⲥ'), ('ⲧ', 'ⲧ'), ('ⲩ', 'ⲩ'), ('ⲫ', 'ⲫ'),
-  ('ⲭ', 'ⲭ'), ('ⲯ', 'ⲯ'), ('ⲱ', 'ⲱ'), ('ⲳ', 'ⲳ'),
-  ('ⲵ', 'ⲵ'), ('ⲷ', 'ⲷ'), ('ⲹ', 'ⲹ'), ('ⲻ', 'ⲻ'),
-  ('ⲽ', 'ⲽ'), ('ⲿ', 'ⲿ'), ('ⳁ', 'ⳁ'), ('ⳃ', 'ⳃ'),
-  ('ⳅ', 'ⳅ'), ('ⳇ', 'ⳇ'), ('ⳉ', 'ⳉ'), ('ⳋ', 'ⳋ'),
-  ('ⳍ', 'ⳍ'), ('ⳏ', 'ⳏ'), ('ⳑ', 'ⳑ'), ('ⳓ', 'ⳓ'),
-  ('ⳕ', 'ⳕ'), ('ⳗ', 'ⳗ'), ('ⳙ', 'ⳙ'), ('ⳛ', 'ⳛ'),
-  ('ⳝ', 'ⳝ'), ('ⳟ', 'ⳟ'), ('ⳡ', 'ⳡ'), ('ⳣ', 'ⳤ'),
-  ('ⳬ', 'ⳬ'), ('ⳮ', 'ⳮ'), ('ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ꙁ', 'ꙁ'), ('ꙃ', 'ꙃ'),
-  ('ꙅ', 'ꙅ'), ('ꙇ', 'ꙇ'), ('ꙉ', 'ꙉ'), ('ꙋ', 'ꙋ'),
-  ('ꙍ', 'ꙍ'), ('ꙏ', 'ꙏ'), ('ꙑ', 'ꙑ'), ('ꙓ', 'ꙓ'),
-  ('ꙕ', 'ꙕ'), ('ꙗ', 'ꙗ'), ('ꙙ', 'ꙙ'), ('ꙛ', 'ꙛ'),
-  ('ꙝ', 'ꙝ'), ('ꙟ', 'ꙟ'), ('ꙡ', 'ꙡ'), ('ꙣ', 'ꙣ'),
-  ('ꙥ', 'ꙥ'), ('ꙧ', 'ꙧ'), ('ꙩ', 'ꙩ'), ('ꙫ', 'ꙫ'),
-  ('ꙭ', 'ꙭ'), ('ꚁ', 'ꚁ'), ('ꚃ', 'ꚃ'), ('ꚅ', 'ꚅ'),
-  ('ꚇ', 'ꚇ'), ('ꚉ', 'ꚉ'), ('ꚋ', 'ꚋ'), ('ꚍ', 'ꚍ'),
-  ('ꚏ', 'ꚏ'), ('ꚑ', 'ꚑ'), ('ꚓ', 'ꚓ'), ('ꚕ', 'ꚕ'),
-  ('ꚗ', 'ꚗ'), ('ꚙ', 'ꚙ'), ('ꚛ', 'ꚛ'), ('ꜣ', 'ꜣ'),
-  ('ꜥ', 'ꜥ'), ('ꜧ', 'ꜧ'), ('ꜩ', 'ꜩ'), ('ꜫ', 'ꜫ'),
-  ('ꜭ', 'ꜭ'), ('ꜯ', 'ꜱ'), ('ꜳ', 'ꜳ'), ('ꜵ', 'ꜵ'),
-  ('ꜷ', 'ꜷ'), ('ꜹ', 'ꜹ'), ('ꜻ', 'ꜻ'), ('ꜽ', 'ꜽ'),
-  ('ꜿ', 'ꜿ'), ('ꝁ', 'ꝁ'), ('ꝃ', 'ꝃ'), ('ꝅ', 'ꝅ'),
-  ('ꝇ', 'ꝇ'), ('ꝉ', 'ꝉ'), ('ꝋ', 'ꝋ'), ('ꝍ', 'ꝍ'),
-  ('ꝏ', 'ꝏ'), ('ꝑ', 'ꝑ'), ('ꝓ', 'ꝓ'), ('ꝕ', 'ꝕ'),
-  ('ꝗ', 'ꝗ'), ('ꝙ', 'ꝙ'), ('ꝛ', 'ꝛ'), ('ꝝ', 'ꝝ'),
-  ('ꝟ', 'ꝟ'), ('ꝡ', 'ꝡ'), ('ꝣ', 'ꝣ'), ('ꝥ', 'ꝥ'),
-  ('ꝧ', 'ꝧ'), ('ꝩ', 'ꝩ'), ('ꝫ', 'ꝫ'), ('ꝭ', 'ꝭ'),
-  ('ꝯ', 'ꝯ'), ('ꝱ', 'ꝸ'), ('ꝺ', 'ꝺ'), ('ꝼ', 'ꝼ'),
-  ('ꝿ', 'ꝿ'), ('ꞁ', 'ꞁ'), ('ꞃ', 'ꞃ'), ('ꞅ', 'ꞅ'),
-  ('ꞇ', 'ꞇ'), ('ꞌ', 'ꞌ'), ('ꞎ', 'ꞎ'), ('ꞑ', 'ꞑ'),
-  ('ꞓ', 'ꞕ'), ('ꞗ', 'ꞗ'), ('ꞙ', 'ꞙ'), ('ꞛ', 'ꞛ'),
-  ('ꞝ', 'ꞝ'), ('ꞟ', 'ꞟ'), ('ꞡ', 'ꞡ'), ('ꞣ', 'ꞣ'),
-  ('ꞥ', 'ꞥ'), ('ꞧ', 'ꞧ'), ('ꞩ', 'ꞩ'), ('ꞯ', 'ꞯ'),
-  ('ꞵ', 'ꞵ'), ('ꞷ', 'ꞷ'), ('ꞹ', 'ꞹ'), ('\u{a7bb}', '\u{a7bb}'),
-  ('\u{a7bd}', '\u{a7bd}'), ('\u{a7bf}', '\u{a7bf}'),
-  ('\u{a7c3}', '\u{a7c3}'), ('ꟺ', 'ꟺ'), ('ꬰ', 'ꭚ'),
-  ('ꭠ', '\u{ab67}'), ('ꭰ', 'ꮿ'), ('ff', 'st'), ('ﬓ', 'ﬗ'),
-  ('a', 'z'), ('𐐨', '𐑏'), ('𐓘', '𐓻'), ('𐳀', '𐳲'),
-  ('𑣀', '𑣟'), ('𖹠', '𖹿'), ('𝐚', '𝐳'), ('𝑎', '𝑔'),
-  ('𝑖', '𝑧'), ('𝒂', '𝒛'), ('𝒶', '𝒹'), ('𝒻', '𝒻'),
-  ('𝒽', '𝓃'), ('𝓅', '𝓏'), ('𝓪', '𝔃'), ('𝔞', '𝔷'),
-  ('𝕒', '𝕫'), ('𝖆', '𝖟'), ('𝖺', '𝗓'), ('𝗮', '𝘇'),
-  ('𝘢', '𝘻'), ('𝙖', '𝙯'), ('𝚊', '𝚥'), ('𝛂', '𝛚'),
-  ('𝛜', '𝛡'), ('𝛼', '𝜔'), ('𝜖', '𝜛'), ('𝜶', '𝝎'),
-  ('𝝐', '𝝕'), ('𝝰', '𝞈'), ('𝞊', '𝞏'), ('𝞪', '𝟂'),
-  ('𝟄', '𝟉'), ('𝟋', '𝟋'), ('𞤢', '𞥃'),
-];
-
-pub const MARK: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{483}', '\u{489}'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6df}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', '\u{7f3}'),
-  ('\u{7fd}', '\u{7fd}'), ('\u{816}', '\u{819}'), ('\u{81b}', '\u{823}'),
-  ('\u{825}', '\u{827}'), ('\u{829}', '\u{82d}'), ('\u{859}', '\u{85b}'),
-  ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', 'ः'), ('\u{93a}', '\u{93c}'),
-  ('ा', 'ॏ'), ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'),
-  ('\u{981}', 'ঃ'), ('\u{9bc}', '\u{9bc}'), ('\u{9be}', '\u{9c4}'),
-  ('ে', 'ৈ'), ('ো', '\u{9cd}'), ('\u{9d7}', '\u{9d7}'),
-  ('\u{9e2}', '\u{9e3}'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', 'ਃ'),
-  ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'),
-  ('\u{a75}', '\u{a75}'), ('\u{a81}', 'ઃ'), ('\u{abc}', '\u{abc}'),
-  ('ા', '\u{ac5}'), ('\u{ac7}', 'ૉ'), ('ો', '\u{acd}'),
-  ('\u{ae2}', '\u{ae3}'), ('\u{afa}', '\u{aff}'), ('\u{b01}', 'ଃ'),
-  ('\u{b3c}', '\u{b3c}'), ('\u{b3e}', '\u{b44}'), ('େ', 'ୈ'),
-  ('ୋ', '\u{b4d}'), ('\u{b56}', '\u{b57}'), ('\u{b62}', '\u{b63}'),
-  ('\u{b82}', '\u{b82}'), ('\u{bbe}', 'ூ'), ('ெ', 'ை'),
-  ('ொ', '\u{bcd}'), ('\u{bd7}', '\u{bd7}'), ('\u{c00}', '\u{c04}'),
-  ('\u{c3e}', 'ౄ'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'), ('\u{c81}', 'ಃ'),
-  ('\u{cbc}', '\u{cbc}'), ('ಾ', 'ೄ'), ('\u{cc6}', 'ೈ'),
-  ('ೊ', '\u{ccd}'), ('\u{cd5}', '\u{cd6}'), ('\u{ce2}', '\u{ce3}'),
-  ('\u{d00}', 'ഃ'), ('\u{d3b}', '\u{d3c}'), ('\u{d3e}', '\u{d44}'),
-  ('െ', 'ൈ'), ('ൊ', '\u{d4d}'), ('\u{d57}', '\u{d57}'),
-  ('\u{d62}', '\u{d63}'), ('ං', 'ඃ'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('ෲ', 'ෳ'), ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'),
-  ('\u{e47}', '\u{e4e}'), ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{ebc}'),
-  ('\u{ec8}', '\u{ecd}'), ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'),
-  ('\u{f37}', '\u{f37}'), ('\u{f39}', '\u{f39}'), ('༾', '༿'),
-  ('\u{f71}', '\u{f84}'), ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('\u{fc6}', '\u{fc6}'), ('ါ', '\u{103e}'),
-  ('ၖ', '\u{1059}'), ('\u{105e}', '\u{1060}'), ('ၢ', 'ၤ'),
-  ('ၧ', 'ၭ'), ('\u{1071}', '\u{1074}'), ('\u{1082}', '\u{108d}'),
-  ('ႏ', 'ႏ'), ('ႚ', '\u{109d}'), ('\u{135d}', '\u{135f}'),
-  ('\u{1712}', '\u{1714}'), ('\u{1732}', '\u{1734}'),
-  ('\u{1752}', '\u{1753}'), ('\u{1772}', '\u{1773}'),
-  ('\u{17b4}', '\u{17d3}'), ('\u{17dd}', '\u{17dd}'),
-  ('\u{180b}', '\u{180d}'), ('\u{1885}', '\u{1886}'),
-  ('\u{18a9}', '\u{18a9}'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'),
-  ('\u{1a17}', '\u{1a1b}'), ('ᩕ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'),
-  ('\u{1a7f}', '\u{1a7f}'), ('\u{1ab0}', '\u{1abe}'), ('\u{1b00}', 'ᬄ'),
-  ('\u{1b34}', '᭄'), ('\u{1b6b}', '\u{1b73}'), ('\u{1b80}', 'ᮂ'),
-  ('ᮡ', '\u{1bad}'), ('\u{1be6}', '᯳'), ('ᰤ', '\u{1c37}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce8}'),
-  ('\u{1ced}', '\u{1ced}'), ('\u{1cf4}', '\u{1cf4}'), ('᳷', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{20d0}', '\u{20f0}'), ('\u{2cef}', '\u{2cf1}'),
-  ('\u{2d7f}', '\u{2d7f}'), ('\u{2de0}', '\u{2dff}'),
-  ('\u{302a}', '\u{302f}'), ('\u{3099}', '\u{309a}'),
-  ('\u{a66f}', '\u{a672}'), ('\u{a674}', '\u{a67d}'),
-  ('\u{a69e}', '\u{a69f}'), ('\u{a6f0}', '\u{a6f1}'),
-  ('\u{a802}', '\u{a802}'), ('\u{a806}', '\u{a806}'),
-  ('\u{a80b}', '\u{a80b}'), ('ꠣ', 'ꠧ'), ('ꢀ', 'ꢁ'),
-  ('ꢴ', '\u{a8c5}'), ('\u{a8e0}', '\u{a8f1}'), ('\u{a8ff}', '\u{a8ff}'),
-  ('\u{a926}', '\u{a92d}'), ('\u{a947}', '꥓'), ('\u{a980}', 'ꦃ'),
-  ('\u{a9b3}', '꧀'), ('\u{a9e5}', '\u{a9e5}'), ('\u{aa29}', '\u{aa36}'),
-  ('\u{aa43}', '\u{aa43}'), ('\u{aa4c}', 'ꩍ'), ('ꩻ', 'ꩽ'),
-  ('\u{aab0}', '\u{aab0}'), ('\u{aab2}', '\u{aab4}'),
-  ('\u{aab7}', '\u{aab8}'), ('\u{aabe}', '\u{aabf}'),
-  ('\u{aac1}', '\u{aac1}'), ('ꫫ', 'ꫯ'), ('ꫵ', '\u{aaf6}'),
-  ('ꯣ', 'ꯪ'), ('꯬', '\u{abed}'), ('\u{fb1e}', '\u{fb1e}'),
-  ('\u{fe00}', '\u{fe0f}'), ('\u{fe20}', '\u{fe2f}'),
-  ('\u{101fd}', '\u{101fd}'), ('\u{102e0}', '\u{102e0}'),
-  ('\u{10376}', '\u{1037a}'), ('\u{10a01}', '\u{10a03}'),
-  ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '\u{10a0f}'),
-  ('\u{10a38}', '\u{10a3a}'), ('\u{10a3f}', '\u{10a3f}'),
-  ('\u{10ae5}', '\u{10ae6}'), ('\u{10d24}', '\u{10d27}'),
-  ('\u{10f46}', '\u{10f50}'), ('𑀀', '𑀂'), ('\u{11038}', '\u{11046}'),
-  ('\u{1107f}', '𑂂'), ('𑂰', '\u{110ba}'), ('\u{11100}', '\u{11102}'),
-  ('\u{11127}', '\u{11134}'), ('𑅅', '𑅆'), ('\u{11173}', '\u{11173}'),
-  ('\u{11180}', '𑆂'), ('𑆳', '𑇀'), ('\u{111c9}', '\u{111cc}'),
-  ('𑈬', '\u{11237}'), ('\u{1123e}', '\u{1123e}'),
-  ('\u{112df}', '\u{112ea}'), ('\u{11300}', '𑌃'),
-  ('\u{1133b}', '\u{1133c}'), ('\u{1133e}', '𑍄'), ('𑍇', '𑍈'),
-  ('𑍋', '𑍍'), ('\u{11357}', '\u{11357}'), ('𑍢', '𑍣'),
-  ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('𑐵', '\u{11446}'), ('\u{1145e}', '\u{1145e}'),
-  ('\u{114b0}', '\u{114c3}'), ('\u{115af}', '\u{115b5}'),
-  ('𑖸', '\u{115c0}'), ('\u{115dc}', '\u{115dd}'), ('𑘰', '\u{11640}'),
-  ('\u{116ab}', '\u{116b7}'), ('\u{1171d}', '\u{1172b}'),
-  ('𑠬', '\u{1183a}'), ('\u{119d1}', '\u{119d7}'),
-  ('\u{119da}', '\u{119e0}'), ('\u{119e4}', '\u{119e4}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a33}', '𑨹'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a51}', '\u{11a5b}'), ('\u{11a8a}', '\u{11a99}'),
-  ('𑰯', '\u{11c36}'), ('\u{11c38}', '\u{11c3f}'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-  ('\u{11d31}', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d45}'),
-  ('\u{11d47}', '\u{11d47}'), ('𑶊', '𑶎'), ('\u{11d90}', '\u{11d91}'),
-  ('𑶓', '\u{11d97}'), ('\u{11ef3}', '𑻶'), ('\u{16af0}', '\u{16af4}'),
-  ('\u{16b30}', '\u{16b36}'), ('\u{16f4f}', '\u{16f4f}'),
-  ('𖽑', '\u{16f87}'), ('\u{16f8f}', '\u{16f92}'),
-  ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d169}'),
-  ('𝅭', '\u{1d172}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('\u{1da00}', '\u{1da36}'),
-  ('\u{1da3b}', '\u{1da6c}'), ('\u{1da75}', '\u{1da75}'),
-  ('\u{1da84}', '\u{1da84}'), ('\u{1da9b}', '\u{1da9f}'),
-  ('\u{1daa1}', '\u{1daaf}'), ('\u{1e000}', '\u{1e006}'),
-  ('\u{1e008}', '\u{1e018}'), ('\u{1e01b}', '\u{1e021}'),
-  ('\u{1e023}', '\u{1e024}'), ('\u{1e026}', '\u{1e02a}'),
-  ('\u{1e130}', '\u{1e136}'), ('\u{1e2ec}', '\u{1e2ef}'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('\u{1e944}', '\u{1e94a}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const MATH_SYMBOL: &'static [(char, char)] = &[
-  ('+', '+'), ('<', '>'), ('|', '|'), ('~', '~'), ('¬', '¬'), ('±', '±'),
-  ('×', '×'), ('÷', '÷'), ('϶', '϶'), ('؆', '؈'), ('⁄', '⁄'),
-  ('⁒', '⁒'), ('⁺', '⁼'), ('₊', '₌'), ('℘', '℘'),
-  ('⅀', '⅄'), ('⅋', '⅋'), ('←', '↔'), ('↚', '↛'),
-  ('↠', '↠'), ('↣', '↣'), ('↦', '↦'), ('↮', '↮'),
-  ('⇎', '⇏'), ('⇒', '⇒'), ('⇔', '⇔'), ('⇴', '⋿'),
-  ('⌠', '⌡'), ('⍼', '⍼'), ('⎛', '⎳'), ('⏜', '⏡'),
-  ('▷', '▷'), ('◁', '◁'), ('◸', '◿'), ('♯', '♯'),
-  ('⟀', '⟄'), ('⟇', '⟥'), ('⟰', '⟿'), ('⤀', '⦂'),
-  ('⦙', '⧗'), ('⧜', '⧻'), ('⧾', '⫿'), ('⬰', '⭄'),
-  ('⭇', '⭌'), ('﬩', '﬩'), ('﹢', '﹢'), ('﹤', '﹦'),
-  ('+', '+'), ('<', '>'), ('|', '|'), ('~', '~'),
-  ('¬', '¬'), ('←', '↓'), ('𝛁', '𝛁'), ('𝛛', '𝛛'),
-  ('𝛻', '𝛻'), ('𝜕', '𝜕'), ('𝜵', '𝜵'), ('𝝏', '𝝏'),
-  ('𝝯', '𝝯'), ('𝞉', '𝞉'), ('𝞩', '𝞩'), ('𝟃', '𝟃'),
-  ('𞻰', '𞻱'),
-];
-
-pub const MODIFIER_LETTER: &'static [(char, char)] = &[
-  ('ʰ', 'ˁ'), ('ˆ', 'ˑ'), ('ˠ', 'ˤ'), ('ˬ', 'ˬ'), ('ˮ', 'ˮ'),
-  ('ʹ', 'ʹ'), ('ͺ', 'ͺ'), ('ՙ', 'ՙ'), ('ـ', 'ـ'), ('ۥ', 'ۦ'),
-  ('ߴ', 'ߵ'), ('ߺ', 'ߺ'), ('ࠚ', 'ࠚ'), ('ࠤ', 'ࠤ'), ('ࠨ', 'ࠨ'),
-  ('ॱ', 'ॱ'), ('ๆ', 'ๆ'), ('ໆ', 'ໆ'), ('ჼ', 'ჼ'),
-  ('ៗ', 'ៗ'), ('ᡃ', 'ᡃ'), ('ᪧ', 'ᪧ'), ('ᱸ', 'ᱽ'),
-  ('ᴬ', 'ᵪ'), ('ᵸ', 'ᵸ'), ('ᶛ', 'ᶿ'), ('ⁱ', 'ⁱ'),
-  ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('ⱼ', 'ⱽ'), ('ⵯ', 'ⵯ'),
-  ('ⸯ', 'ⸯ'), ('々', '々'), ('〱', '〵'), ('〻', '〻'),
-  ('ゝ', 'ゞ'), ('ー', 'ヾ'), ('ꀕ', 'ꀕ'), ('ꓸ', 'ꓽ'),
-  ('ꘌ', 'ꘌ'), ('ꙿ', 'ꙿ'), ('ꚜ', 'ꚝ'), ('ꜗ', 'ꜟ'),
-  ('ꝰ', 'ꝰ'), ('ꞈ', 'ꞈ'), ('ꟸ', 'ꟹ'), ('ꧏ', 'ꧏ'),
-  ('ꧦ', 'ꧦ'), ('ꩰ', 'ꩰ'), ('ꫝ', 'ꫝ'), ('ꫳ', 'ꫴ'),
-  ('ꭜ', 'ꭟ'), ('ー', 'ー'), ('\u{ff9e}', '\u{ff9f}'), ('𖭀', '𖭃'),
-  ('𖾓', '𖾟'), ('𖿠', '𖿡'), ('\u{16fe3}', '\u{16fe3}'),
-  ('\u{1e137}', '\u{1e13d}'), ('\u{1e94b}', '\u{1e94b}'),
-];
-
-pub const MODIFIER_SYMBOL: &'static [(char, char)] = &[
-  ('^', '^'), ('`', '`'), ('¨', '¨'), ('¯', '¯'), ('´', '´'),
-  ('¸', '¸'), ('˂', '˅'), ('˒', '˟'), ('˥', '˫'), ('˭', '˭'),
-  ('˯', '˿'), ('͵', '͵'), ('΄', '΅'), ('᾽', '᾽'), ('᾿', '῁'),
-  ('῍', '῏'), ('῝', '῟'), ('῭', '`'), ('´', '῾'),
-  ('゛', '゜'), ('꜀', '꜖'), ('꜠', '꜡'), ('꞉', '꞊'),
-  ('꭛', '꭛'), ('﮲', '﯁'), ('^', '^'), ('`', '`'),
-  (' ̄', ' ̄'), ('🏻', '🏿'),
-];
-
-pub const NONSPACING_MARK: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{483}', '\u{487}'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6df}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', '\u{7f3}'),
-  ('\u{7fd}', '\u{7fd}'), ('\u{816}', '\u{819}'), ('\u{81b}', '\u{823}'),
-  ('\u{825}', '\u{827}'), ('\u{829}', '\u{82d}'), ('\u{859}', '\u{85b}'),
-  ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', '\u{902}'), ('\u{93a}', '\u{93a}'),
-  ('\u{93c}', '\u{93c}'), ('\u{941}', '\u{948}'), ('\u{94d}', '\u{94d}'),
-  ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'), ('\u{981}', '\u{981}'),
-  ('\u{9bc}', '\u{9bc}'), ('\u{9c1}', '\u{9c4}'), ('\u{9cd}', '\u{9cd}'),
-  ('\u{9e2}', '\u{9e3}'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', '\u{a02}'),
-  ('\u{a3c}', '\u{a3c}'), ('\u{a41}', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'),
-  ('\u{a75}', '\u{a75}'), ('\u{a81}', '\u{a82}'), ('\u{abc}', '\u{abc}'),
-  ('\u{ac1}', '\u{ac5}'), ('\u{ac7}', '\u{ac8}'), ('\u{acd}', '\u{acd}'),
-  ('\u{ae2}', '\u{ae3}'), ('\u{afa}', '\u{aff}'), ('\u{b01}', '\u{b01}'),
-  ('\u{b3c}', '\u{b3c}'), ('\u{b3f}', '\u{b3f}'), ('\u{b41}', '\u{b44}'),
-  ('\u{b4d}', '\u{b4d}'), ('\u{b56}', '\u{b56}'), ('\u{b62}', '\u{b63}'),
-  ('\u{b82}', '\u{b82}'), ('\u{bc0}', '\u{bc0}'), ('\u{bcd}', '\u{bcd}'),
-  ('\u{c00}', '\u{c00}'), ('\u{c04}', '\u{c04}'), ('\u{c3e}', '\u{c40}'),
-  ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'), ('\u{c55}', '\u{c56}'),
-  ('\u{c62}', '\u{c63}'), ('\u{c81}', '\u{c81}'), ('\u{cbc}', '\u{cbc}'),
-  ('\u{cbf}', '\u{cbf}'), ('\u{cc6}', '\u{cc6}'), ('\u{ccc}', '\u{ccd}'),
-  ('\u{ce2}', '\u{ce3}'), ('\u{d00}', '\u{d01}'), ('\u{d3b}', '\u{d3c}'),
-  ('\u{d41}', '\u{d44}'), ('\u{d4d}', '\u{d4d}'), ('\u{d62}', '\u{d63}'),
-  ('\u{dca}', '\u{dca}'), ('\u{dd2}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'),
-  ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'), ('\u{e47}', '\u{e4e}'),
-  ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{ebc}'), ('\u{ec8}', '\u{ecd}'),
-  ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'), ('\u{f37}', '\u{f37}'),
-  ('\u{f39}', '\u{f39}'), ('\u{f71}', '\u{f7e}'), ('\u{f80}', '\u{f84}'),
-  ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'), ('\u{f99}', '\u{fbc}'),
-  ('\u{fc6}', '\u{fc6}'), ('\u{102d}', '\u{1030}'), ('\u{1032}', '\u{1037}'),
-  ('\u{1039}', '\u{103a}'), ('\u{103d}', '\u{103e}'),
-  ('\u{1058}', '\u{1059}'), ('\u{105e}', '\u{1060}'),
-  ('\u{1071}', '\u{1074}'), ('\u{1082}', '\u{1082}'),
-  ('\u{1085}', '\u{1086}'), ('\u{108d}', '\u{108d}'),
-  ('\u{109d}', '\u{109d}'), ('\u{135d}', '\u{135f}'),
-  ('\u{1712}', '\u{1714}'), ('\u{1732}', '\u{1734}'),
-  ('\u{1752}', '\u{1753}'), ('\u{1772}', '\u{1773}'),
-  ('\u{17b4}', '\u{17b5}'), ('\u{17b7}', '\u{17bd}'),
-  ('\u{17c6}', '\u{17c6}'), ('\u{17c9}', '\u{17d3}'),
-  ('\u{17dd}', '\u{17dd}'), ('\u{180b}', '\u{180d}'),
-  ('\u{1885}', '\u{1886}'), ('\u{18a9}', '\u{18a9}'),
-  ('\u{1920}', '\u{1922}'), ('\u{1927}', '\u{1928}'),
-  ('\u{1932}', '\u{1932}'), ('\u{1939}', '\u{193b}'),
-  ('\u{1a17}', '\u{1a18}'), ('\u{1a1b}', '\u{1a1b}'),
-  ('\u{1a56}', '\u{1a56}'), ('\u{1a58}', '\u{1a5e}'),
-  ('\u{1a60}', '\u{1a60}'), ('\u{1a62}', '\u{1a62}'),
-  ('\u{1a65}', '\u{1a6c}'), ('\u{1a73}', '\u{1a7c}'),
-  ('\u{1a7f}', '\u{1a7f}'), ('\u{1ab0}', '\u{1abd}'),
-  ('\u{1b00}', '\u{1b03}'), ('\u{1b34}', '\u{1b34}'),
-  ('\u{1b36}', '\u{1b3a}'), ('\u{1b3c}', '\u{1b3c}'),
-  ('\u{1b42}', '\u{1b42}'), ('\u{1b6b}', '\u{1b73}'),
-  ('\u{1b80}', '\u{1b81}'), ('\u{1ba2}', '\u{1ba5}'),
-  ('\u{1ba8}', '\u{1ba9}'), ('\u{1bab}', '\u{1bad}'),
-  ('\u{1be6}', '\u{1be6}'), ('\u{1be8}', '\u{1be9}'),
-  ('\u{1bed}', '\u{1bed}'), ('\u{1bef}', '\u{1bf1}'),
-  ('\u{1c2c}', '\u{1c33}'), ('\u{1c36}', '\u{1c37}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce0}'),
-  ('\u{1ce2}', '\u{1ce8}'), ('\u{1ced}', '\u{1ced}'),
-  ('\u{1cf4}', '\u{1cf4}'), ('\u{1cf8}', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{20d0}', '\u{20dc}'), ('\u{20e1}', '\u{20e1}'),
-  ('\u{20e5}', '\u{20f0}'), ('\u{2cef}', '\u{2cf1}'),
-  ('\u{2d7f}', '\u{2d7f}'), ('\u{2de0}', '\u{2dff}'),
-  ('\u{302a}', '\u{302d}'), ('\u{3099}', '\u{309a}'),
-  ('\u{a66f}', '\u{a66f}'), ('\u{a674}', '\u{a67d}'),
-  ('\u{a69e}', '\u{a69f}'), ('\u{a6f0}', '\u{a6f1}'),
-  ('\u{a802}', '\u{a802}'), ('\u{a806}', '\u{a806}'),
-  ('\u{a80b}', '\u{a80b}'), ('\u{a825}', '\u{a826}'),
-  ('\u{a8c4}', '\u{a8c5}'), ('\u{a8e0}', '\u{a8f1}'),
-  ('\u{a8ff}', '\u{a8ff}'), ('\u{a926}', '\u{a92d}'),
-  ('\u{a947}', '\u{a951}'), ('\u{a980}', '\u{a982}'),
-  ('\u{a9b3}', '\u{a9b3}'), ('\u{a9b6}', '\u{a9b9}'), ('\u{a9bc}', 'ꦽ'),
-  ('\u{a9e5}', '\u{a9e5}'), ('\u{aa29}', '\u{aa2e}'),
-  ('\u{aa31}', '\u{aa32}'), ('\u{aa35}', '\u{aa36}'),
-  ('\u{aa43}', '\u{aa43}'), ('\u{aa4c}', '\u{aa4c}'),
-  ('\u{aa7c}', '\u{aa7c}'), ('\u{aab0}', '\u{aab0}'),
-  ('\u{aab2}', '\u{aab4}'), ('\u{aab7}', '\u{aab8}'),
-  ('\u{aabe}', '\u{aabf}'), ('\u{aac1}', '\u{aac1}'),
-  ('\u{aaec}', '\u{aaed}'), ('\u{aaf6}', '\u{aaf6}'),
-  ('\u{abe5}', '\u{abe5}'), ('\u{abe8}', '\u{abe8}'),
-  ('\u{abed}', '\u{abed}'), ('\u{fb1e}', '\u{fb1e}'),
-  ('\u{fe00}', '\u{fe0f}'), ('\u{fe20}', '\u{fe2f}'),
-  ('\u{101fd}', '\u{101fd}'), ('\u{102e0}', '\u{102e0}'),
-  ('\u{10376}', '\u{1037a}'), ('\u{10a01}', '\u{10a03}'),
-  ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '\u{10a0f}'),
-  ('\u{10a38}', '\u{10a3a}'), ('\u{10a3f}', '\u{10a3f}'),
-  ('\u{10ae5}', '\u{10ae6}'), ('\u{10d24}', '\u{10d27}'),
-  ('\u{10f46}', '\u{10f50}'), ('\u{11001}', '\u{11001}'),
-  ('\u{11038}', '\u{11046}'), ('\u{1107f}', '\u{11081}'),
-  ('\u{110b3}', '\u{110b6}'), ('\u{110b9}', '\u{110ba}'),
-  ('\u{11100}', '\u{11102}'), ('\u{11127}', '\u{1112b}'),
-  ('\u{1112d}', '\u{11134}'), ('\u{11173}', '\u{11173}'),
-  ('\u{11180}', '\u{11181}'), ('\u{111b6}', '\u{111be}'),
-  ('\u{111c9}', '\u{111cc}'), ('\u{1122f}', '\u{11231}'),
-  ('\u{11234}', '\u{11234}'), ('\u{11236}', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('\u{112df}', '\u{112df}'),
-  ('\u{112e3}', '\u{112ea}'), ('\u{11300}', '\u{11301}'),
-  ('\u{1133b}', '\u{1133c}'), ('\u{11340}', '\u{11340}'),
-  ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('\u{11438}', '\u{1143f}'), ('\u{11442}', '\u{11444}'),
-  ('\u{11446}', '\u{11446}'), ('\u{1145e}', '\u{1145e}'),
-  ('\u{114b3}', '\u{114b8}'), ('\u{114ba}', '\u{114ba}'),
-  ('\u{114bf}', '\u{114c0}'), ('\u{114c2}', '\u{114c3}'),
-  ('\u{115b2}', '\u{115b5}'), ('\u{115bc}', '\u{115bd}'),
-  ('\u{115bf}', '\u{115c0}'), ('\u{115dc}', '\u{115dd}'),
-  ('\u{11633}', '\u{1163a}'), ('\u{1163d}', '\u{1163d}'),
-  ('\u{1163f}', '\u{11640}'), ('\u{116ab}', '\u{116ab}'),
-  ('\u{116ad}', '\u{116ad}'), ('\u{116b0}', '\u{116b5}'),
-  ('\u{116b7}', '\u{116b7}'), ('\u{1171d}', '\u{1171f}'),
-  ('\u{11722}', '\u{11725}'), ('\u{11727}', '\u{1172b}'),
-  ('\u{1182f}', '\u{11837}'), ('\u{11839}', '\u{1183a}'),
-  ('\u{119d4}', '\u{119d7}'), ('\u{119da}', '\u{119db}'),
-  ('\u{119e0}', '\u{119e0}'), ('\u{11a01}', '\u{11a0a}'),
-  ('\u{11a33}', '\u{11a38}'), ('\u{11a3b}', '\u{11a3e}'),
-  ('\u{11a47}', '\u{11a47}'), ('\u{11a51}', '\u{11a56}'),
-  ('\u{11a59}', '\u{11a5b}'), ('\u{11a8a}', '\u{11a96}'),
-  ('\u{11a98}', '\u{11a99}'), ('\u{11c30}', '\u{11c36}'),
-  ('\u{11c38}', '\u{11c3d}'), ('\u{11c3f}', '\u{11c3f}'),
-  ('\u{11c92}', '\u{11ca7}'), ('\u{11caa}', '\u{11cb0}'),
-  ('\u{11cb2}', '\u{11cb3}'), ('\u{11cb5}', '\u{11cb6}'),
-  ('\u{11d31}', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d45}'),
-  ('\u{11d47}', '\u{11d47}'), ('\u{11d90}', '\u{11d91}'),
-  ('\u{11d95}', '\u{11d95}'), ('\u{11d97}', '\u{11d97}'),
-  ('\u{11ef3}', '\u{11ef4}'), ('\u{16af0}', '\u{16af4}'),
-  ('\u{16b30}', '\u{16b36}'), ('\u{16f4f}', '\u{16f4f}'),
-  ('\u{16f8f}', '\u{16f92}'), ('\u{1bc9d}', '\u{1bc9e}'),
-  ('\u{1d167}', '\u{1d169}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('\u{1da00}', '\u{1da36}'),
-  ('\u{1da3b}', '\u{1da6c}'), ('\u{1da75}', '\u{1da75}'),
-  ('\u{1da84}', '\u{1da84}'), ('\u{1da9b}', '\u{1da9f}'),
-  ('\u{1daa1}', '\u{1daaf}'), ('\u{1e000}', '\u{1e006}'),
-  ('\u{1e008}', '\u{1e018}'), ('\u{1e01b}', '\u{1e021}'),
-  ('\u{1e023}', '\u{1e024}'), ('\u{1e026}', '\u{1e02a}'),
-  ('\u{1e130}', '\u{1e136}'), ('\u{1e2ec}', '\u{1e2ef}'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('\u{1e944}', '\u{1e94a}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const NUMBER: &'static [(char, char)] = &[
-  ('0', '9'), ('²', '³'), ('¹', '¹'), ('¼', '¾'), ('٠', '٩'),
-  ('۰', '۹'), ('߀', '߉'), ('०', '९'), ('০', '৯'), ('৴', '৹'),
-  ('੦', '੯'), ('૦', '૯'), ('୦', '୯'), ('୲', '୷'),
-  ('௦', '௲'), ('౦', '౯'), ('౸', '౾'), ('೦', '೯'),
-  ('൘', '൞'), ('൦', '൸'), ('෦', '෯'), ('๐', '๙'),
-  ('໐', '໙'), ('༠', '༳'), ('၀', '၉'), ('႐', '႙'),
-  ('፩', '፼'), ('ᛮ', 'ᛰ'), ('០', '៩'), ('៰', '៹'),
-  ('᠐', '᠙'), ('᥆', '᥏'), ('᧐', '᧚'), ('᪀', '᪉'),
-  ('᪐', '᪙'), ('᭐', '᭙'), ('᮰', '᮹'), ('᱀', '᱉'),
-  ('᱐', '᱙'), ('⁰', '⁰'), ('⁴', '⁹'), ('₀', '₉'),
-  ('⅐', 'ↂ'), ('ↅ', '↉'), ('①', '⒛'), ('⓪', '⓿'),
-  ('❶', '➓'), ('⳽', '⳽'), ('〇', '〇'), ('〡', '〩'),
-  ('〸', '〺'), ('㆒', '㆕'), ('㈠', '㈩'), ('㉈', '㉏'),
-  ('㉑', '㉟'), ('㊀', '㊉'), ('㊱', '㊿'), ('꘠', '꘩'),
-  ('ꛦ', 'ꛯ'), ('꠰', '꠵'), ('꣐', '꣙'), ('꤀', '꤉'),
-  ('꧐', '꧙'), ('꧰', '꧹'), ('꩐', '꩙'), ('꯰', '꯹'),
-  ('0', '9'), ('𐄇', '𐄳'), ('𐅀', '𐅸'), ('𐆊', '𐆋'),
-  ('𐋡', '𐋻'), ('𐌠', '𐌣'), ('𐍁', '𐍁'), ('𐍊', '𐍊'),
-  ('𐏑', '𐏕'), ('𐒠', '𐒩'), ('𐡘', '𐡟'), ('𐡹', '𐡿'),
-  ('𐢧', '𐢯'), ('𐣻', '𐣿'), ('𐤖', '𐤛'), ('𐦼', '𐦽'),
-  ('𐧀', '𐧏'), ('𐧒', '𐧿'), ('𐩀', '𐩈'), ('𐩽', '𐩾'),
-  ('𐪝', '𐪟'), ('𐫫', '𐫯'), ('𐭘', '𐭟'), ('𐭸', '𐭿'),
-  ('𐮩', '𐮯'), ('𐳺', '𐳿'), ('𐴰', '𐴹'), ('𐹠', '𐹾'),
-  ('𐼝', '𐼦'), ('𐽑', '𐽔'), ('𑁒', '𑁯'), ('𑃰', '𑃹'),
-  ('𑄶', '𑄿'), ('𑇐', '𑇙'), ('𑇡', '𑇴'), ('𑋰', '𑋹'),
-  ('𑑐', '𑑙'), ('𑓐', '𑓙'), ('𑙐', '𑙙'), ('𑛀', '𑛉'),
-  ('𑜰', '𑜻'), ('𑣠', '𑣲'), ('𑱐', '𑱬'), ('𑵐', '𑵙'),
-  ('𑶠', '𑶩'), ('\u{11fc0}', '\u{11fd4}'), ('𒐀', '𒑮'),
-  ('𖩠', '𖩩'), ('𖭐', '𖭙'), ('𖭛', '𖭡'), ('𖺀', '𖺖'),
-  ('𝋠', '𝋳'), ('𝍠', '𝍸'), ('𝟎', '𝟿'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e2f0}', '\u{1e2f9}'), ('𞣇', '𞣏'),
-  ('𞥐', '𞥙'), ('𞱱', '𞲫'), ('𞲭', '𞲯'), ('𞲱', '𞲴'),
-  ('\u{1ed01}', '\u{1ed2d}'), ('\u{1ed2f}', '\u{1ed3d}'), ('🄀', '🄌'),
-];
-
-pub const OPEN_PUNCTUATION: &'static [(char, char)] = &[
-  ('(', '('), ('[', '['), ('{', '{'), ('༺', '༺'), ('༼', '༼'),
-  ('᚛', '᚛'), ('‚', '‚'), ('„', '„'), ('⁅', '⁅'),
-  ('⁽', '⁽'), ('₍', '₍'), ('⌈', '⌈'), ('⌊', '⌊'),
-  ('〈', '〈'), ('❨', '❨'), ('❪', '❪'), ('❬', '❬'),
-  ('❮', '❮'), ('❰', '❰'), ('❲', '❲'), ('❴', '❴'),
-  ('⟅', '⟅'), ('⟦', '⟦'), ('⟨', '⟨'), ('⟪', '⟪'),
-  ('⟬', '⟬'), ('⟮', '⟮'), ('⦃', '⦃'), ('⦅', '⦅'),
-  ('⦇', '⦇'), ('⦉', '⦉'), ('⦋', '⦋'), ('⦍', '⦍'),
-  ('⦏', '⦏'), ('⦑', '⦑'), ('⦓', '⦓'), ('⦕', '⦕'),
-  ('⦗', '⦗'), ('⧘', '⧘'), ('⧚', '⧚'), ('⧼', '⧼'),
-  ('⸢', '⸢'), ('⸤', '⸤'), ('⸦', '⸦'), ('⸨', '⸨'),
-  ('⹂', '⹂'), ('〈', '〈'), ('《', '《'), ('「', '「'),
-  ('『', '『'), ('【', '【'), ('〔', '〔'), ('〖', '〖'),
-  ('〘', '〘'), ('〚', '〚'), ('〝', '〝'), ('﴿', '﴿'),
-  ('︗', '︗'), ('︵', '︵'), ('︷', '︷'), ('︹', '︹'),
-  ('︻', '︻'), ('︽', '︽'), ('︿', '︿'), ('﹁', '﹁'),
-  ('﹃', '﹃'), ('﹇', '﹇'), ('﹙', '﹙'), ('﹛', '﹛'),
-  ('﹝', '﹝'), ('(', '('), ('[', '['), ('{', '{'),
-  ('⦅', '⦅'), ('「', '「'),
-];
-
-pub const OTHER: &'static [(char, char)] = &[
-  ('\u{0}', '\u{1f}'), ('\u{7f}', '\u{9f}'), ('\u{ad}', '\u{ad}'),
-  ('\u{378}', '\u{379}'), ('\u{380}', '\u{383}'), ('\u{38b}', '\u{38b}'),
-  ('\u{38d}', '\u{38d}'), ('\u{3a2}', '\u{3a2}'), ('\u{530}', '\u{530}'),
-  ('\u{557}', '\u{558}'), ('\u{58b}', '\u{58c}'), ('\u{590}', '\u{590}'),
-  ('\u{5c8}', '\u{5cf}'), ('\u{5eb}', '\u{5ee}'), ('\u{5f5}', '\u{605}'),
-  ('\u{61c}', '\u{61d}'), ('\u{6dd}', '\u{6dd}'), ('\u{70e}', '\u{70f}'),
-  ('\u{74b}', '\u{74c}'), ('\u{7b2}', '\u{7bf}'), ('\u{7fb}', '\u{7fc}'),
-  ('\u{82e}', '\u{82f}'), ('\u{83f}', '\u{83f}'), ('\u{85c}', '\u{85d}'),
-  ('\u{85f}', '\u{85f}'), ('\u{86b}', '\u{89f}'), ('\u{8b5}', '\u{8b5}'),
-  ('\u{8be}', '\u{8d2}'), ('\u{8e2}', '\u{8e2}'), ('\u{984}', '\u{984}'),
-  ('\u{98d}', '\u{98e}'), ('\u{991}', '\u{992}'), ('\u{9a9}', '\u{9a9}'),
-  ('\u{9b1}', '\u{9b1}'), ('\u{9b3}', '\u{9b5}'), ('\u{9ba}', '\u{9bb}'),
-  ('\u{9c5}', '\u{9c6}'), ('\u{9c9}', '\u{9ca}'), ('\u{9cf}', '\u{9d6}'),
-  ('\u{9d8}', '\u{9db}'), ('\u{9de}', '\u{9de}'), ('\u{9e4}', '\u{9e5}'),
-  ('\u{9ff}', '\u{a00}'), ('\u{a04}', '\u{a04}'), ('\u{a0b}', '\u{a0e}'),
-  ('\u{a11}', '\u{a12}'), ('\u{a29}', '\u{a29}'), ('\u{a31}', '\u{a31}'),
-  ('\u{a34}', '\u{a34}'), ('\u{a37}', '\u{a37}'), ('\u{a3a}', '\u{a3b}'),
-  ('\u{a3d}', '\u{a3d}'), ('\u{a43}', '\u{a46}'), ('\u{a49}', '\u{a4a}'),
-  ('\u{a4e}', '\u{a50}'), ('\u{a52}', '\u{a58}'), ('\u{a5d}', '\u{a5d}'),
-  ('\u{a5f}', '\u{a65}'), ('\u{a77}', '\u{a80}'), ('\u{a84}', '\u{a84}'),
-  ('\u{a8e}', '\u{a8e}'), ('\u{a92}', '\u{a92}'), ('\u{aa9}', '\u{aa9}'),
-  ('\u{ab1}', '\u{ab1}'), ('\u{ab4}', '\u{ab4}'), ('\u{aba}', '\u{abb}'),
-  ('\u{ac6}', '\u{ac6}'), ('\u{aca}', '\u{aca}'), ('\u{ace}', '\u{acf}'),
-  ('\u{ad1}', '\u{adf}'), ('\u{ae4}', '\u{ae5}'), ('\u{af2}', '\u{af8}'),
-  ('\u{b00}', '\u{b00}'), ('\u{b04}', '\u{b04}'), ('\u{b0d}', '\u{b0e}'),
-  ('\u{b11}', '\u{b12}'), ('\u{b29}', '\u{b29}'), ('\u{b31}', '\u{b31}'),
-  ('\u{b34}', '\u{b34}'), ('\u{b3a}', '\u{b3b}'), ('\u{b45}', '\u{b46}'),
-  ('\u{b49}', '\u{b4a}'), ('\u{b4e}', '\u{b55}'), ('\u{b58}', '\u{b5b}'),
-  ('\u{b5e}', '\u{b5e}'), ('\u{b64}', '\u{b65}'), ('\u{b78}', '\u{b81}'),
-  ('\u{b84}', '\u{b84}'), ('\u{b8b}', '\u{b8d}'), ('\u{b91}', '\u{b91}'),
-  ('\u{b96}', '\u{b98}'), ('\u{b9b}', '\u{b9b}'), ('\u{b9d}', '\u{b9d}'),
-  ('\u{ba0}', '\u{ba2}'), ('\u{ba5}', '\u{ba7}'), ('\u{bab}', '\u{bad}'),
-  ('\u{bba}', '\u{bbd}'), ('\u{bc3}', '\u{bc5}'), ('\u{bc9}', '\u{bc9}'),
-  ('\u{bce}', '\u{bcf}'), ('\u{bd1}', '\u{bd6}'), ('\u{bd8}', '\u{be5}'),
-  ('\u{bfb}', '\u{bff}'), ('\u{c0d}', '\u{c0d}'), ('\u{c11}', '\u{c11}'),
-  ('\u{c29}', '\u{c29}'), ('\u{c3a}', '\u{c3c}'), ('\u{c45}', '\u{c45}'),
-  ('\u{c49}', '\u{c49}'), ('\u{c4e}', '\u{c54}'), ('\u{c57}', '\u{c57}'),
-  ('\u{c5b}', '\u{c5f}'), ('\u{c64}', '\u{c65}'), ('\u{c70}', '\u{c76}'),
-  ('\u{c8d}', '\u{c8d}'), ('\u{c91}', '\u{c91}'), ('\u{ca9}', '\u{ca9}'),
-  ('\u{cb4}', '\u{cb4}'), ('\u{cba}', '\u{cbb}'), ('\u{cc5}', '\u{cc5}'),
-  ('\u{cc9}', '\u{cc9}'), ('\u{cce}', '\u{cd4}'), ('\u{cd7}', '\u{cdd}'),
-  ('\u{cdf}', '\u{cdf}'), ('\u{ce4}', '\u{ce5}'), ('\u{cf0}', '\u{cf0}'),
-  ('\u{cf3}', '\u{cff}'), ('\u{d04}', '\u{d04}'), ('\u{d0d}', '\u{d0d}'),
-  ('\u{d11}', '\u{d11}'), ('\u{d45}', '\u{d45}'), ('\u{d49}', '\u{d49}'),
-  ('\u{d50}', '\u{d53}'), ('\u{d64}', '\u{d65}'), ('\u{d80}', '\u{d81}'),
-  ('\u{d84}', '\u{d84}'), ('\u{d97}', '\u{d99}'), ('\u{db2}', '\u{db2}'),
-  ('\u{dbc}', '\u{dbc}'), ('\u{dbe}', '\u{dbf}'), ('\u{dc7}', '\u{dc9}'),
-  ('\u{dcb}', '\u{dce}'), ('\u{dd5}', '\u{dd5}'), ('\u{dd7}', '\u{dd7}'),
-  ('\u{de0}', '\u{de5}'), ('\u{df0}', '\u{df1}'), ('\u{df5}', '\u{e00}'),
-  ('\u{e3b}', '\u{e3e}'), ('\u{e5c}', '\u{e80}'), ('\u{e83}', '\u{e83}'),
-  ('\u{e85}', '\u{e85}'), ('\u{e8b}', '\u{e8b}'), ('\u{ea4}', '\u{ea4}'),
-  ('\u{ea6}', '\u{ea6}'), ('\u{ebe}', '\u{ebf}'), ('\u{ec5}', '\u{ec5}'),
-  ('\u{ec7}', '\u{ec7}'), ('\u{ece}', '\u{ecf}'), ('\u{eda}', '\u{edb}'),
-  ('\u{ee0}', '\u{eff}'), ('\u{f48}', '\u{f48}'), ('\u{f6d}', '\u{f70}'),
-  ('\u{f98}', '\u{f98}'), ('\u{fbd}', '\u{fbd}'), ('\u{fcd}', '\u{fcd}'),
-  ('\u{fdb}', '\u{fff}'), ('\u{10c6}', '\u{10c6}'), ('\u{10c8}', '\u{10cc}'),
-  ('\u{10ce}', '\u{10cf}'), ('\u{1249}', '\u{1249}'),
-  ('\u{124e}', '\u{124f}'), ('\u{1257}', '\u{1257}'),
-  ('\u{1259}', '\u{1259}'), ('\u{125e}', '\u{125f}'),
-  ('\u{1289}', '\u{1289}'), ('\u{128e}', '\u{128f}'),
-  ('\u{12b1}', '\u{12b1}'), ('\u{12b6}', '\u{12b7}'),
-  ('\u{12bf}', '\u{12bf}'), ('\u{12c1}', '\u{12c1}'),
-  ('\u{12c6}', '\u{12c7}'), ('\u{12d7}', '\u{12d7}'),
-  ('\u{1311}', '\u{1311}'), ('\u{1316}', '\u{1317}'),
-  ('\u{135b}', '\u{135c}'), ('\u{137d}', '\u{137f}'),
-  ('\u{139a}', '\u{139f}'), ('\u{13f6}', '\u{13f7}'),
-  ('\u{13fe}', '\u{13ff}'), ('\u{169d}', '\u{169f}'),
-  ('\u{16f9}', '\u{16ff}'), ('\u{170d}', '\u{170d}'),
-  ('\u{1715}', '\u{171f}'), ('\u{1737}', '\u{173f}'),
-  ('\u{1754}', '\u{175f}'), ('\u{176d}', '\u{176d}'),
-  ('\u{1771}', '\u{1771}'), ('\u{1774}', '\u{177f}'),
-  ('\u{17de}', '\u{17df}'), ('\u{17ea}', '\u{17ef}'),
-  ('\u{17fa}', '\u{17ff}'), ('\u{180e}', '\u{180f}'),
-  ('\u{181a}', '\u{181f}'), ('\u{1879}', '\u{187f}'),
-  ('\u{18ab}', '\u{18af}'), ('\u{18f6}', '\u{18ff}'),
-  ('\u{191f}', '\u{191f}'), ('\u{192c}', '\u{192f}'),
-  ('\u{193c}', '\u{193f}'), ('\u{1941}', '\u{1943}'),
-  ('\u{196e}', '\u{196f}'), ('\u{1975}', '\u{197f}'),
-  ('\u{19ac}', '\u{19af}'), ('\u{19ca}', '\u{19cf}'),
-  ('\u{19db}', '\u{19dd}'), ('\u{1a1c}', '\u{1a1d}'),
-  ('\u{1a5f}', '\u{1a5f}'), ('\u{1a7d}', '\u{1a7e}'),
-  ('\u{1a8a}', '\u{1a8f}'), ('\u{1a9a}', '\u{1a9f}'),
-  ('\u{1aae}', '\u{1aaf}'), ('\u{1abf}', '\u{1aff}'),
-  ('\u{1b4c}', '\u{1b4f}'), ('\u{1b7d}', '\u{1b7f}'),
-  ('\u{1bf4}', '\u{1bfb}'), ('\u{1c38}', '\u{1c3a}'),
-  ('\u{1c4a}', '\u{1c4c}'), ('\u{1c89}', '\u{1c8f}'),
-  ('\u{1cbb}', '\u{1cbc}'), ('\u{1cc8}', '\u{1ccf}'),
-  ('\u{1cfb}', '\u{1cff}'), ('\u{1dfa}', '\u{1dfa}'),
-  ('\u{1f16}', '\u{1f17}'), ('\u{1f1e}', '\u{1f1f}'),
-  ('\u{1f46}', '\u{1f47}'), ('\u{1f4e}', '\u{1f4f}'),
-  ('\u{1f58}', '\u{1f58}'), ('\u{1f5a}', '\u{1f5a}'),
-  ('\u{1f5c}', '\u{1f5c}'), ('\u{1f5e}', '\u{1f5e}'),
-  ('\u{1f7e}', '\u{1f7f}'), ('\u{1fb5}', '\u{1fb5}'),
-  ('\u{1fc5}', '\u{1fc5}'), ('\u{1fd4}', '\u{1fd5}'),
-  ('\u{1fdc}', '\u{1fdc}'), ('\u{1ff0}', '\u{1ff1}'),
-  ('\u{1ff5}', '\u{1ff5}'), ('\u{1fff}', '\u{1fff}'),
-  ('\u{200b}', '\u{200f}'), ('\u{202a}', '\u{202e}'),
-  ('\u{2060}', '\u{206f}'), ('\u{2072}', '\u{2073}'),
-  ('\u{208f}', '\u{208f}'), ('\u{209d}', '\u{209f}'),
-  ('\u{20c0}', '\u{20cf}'), ('\u{20f1}', '\u{20ff}'),
-  ('\u{218c}', '\u{218f}'), ('\u{2427}', '\u{243f}'),
-  ('\u{244b}', '\u{245f}'), ('\u{2b74}', '\u{2b75}'),
-  ('\u{2b96}', '\u{2b97}'), ('\u{2c2f}', '\u{2c2f}'),
-  ('\u{2c5f}', '\u{2c5f}'), ('\u{2cf4}', '\u{2cf8}'),
-  ('\u{2d26}', '\u{2d26}'), ('\u{2d28}', '\u{2d2c}'),
-  ('\u{2d2e}', '\u{2d2f}'), ('\u{2d68}', '\u{2d6e}'),
-  ('\u{2d71}', '\u{2d7e}'), ('\u{2d97}', '\u{2d9f}'),
-  ('\u{2da7}', '\u{2da7}'), ('\u{2daf}', '\u{2daf}'),
-  ('\u{2db7}', '\u{2db7}'), ('\u{2dbf}', '\u{2dbf}'),
-  ('\u{2dc7}', '\u{2dc7}'), ('\u{2dcf}', '\u{2dcf}'),
-  ('\u{2dd7}', '\u{2dd7}'), ('\u{2ddf}', '\u{2ddf}'),
-  ('\u{2e50}', '\u{2e7f}'), ('\u{2e9a}', '\u{2e9a}'),
-  ('\u{2ef4}', '\u{2eff}'), ('\u{2fd6}', '\u{2fef}'),
-  ('\u{2ffc}', '\u{2fff}'), ('\u{3040}', '\u{3040}'),
-  ('\u{3097}', '\u{3098}'), ('\u{3100}', '\u{3104}'),
-  ('\u{3130}', '\u{3130}'), ('\u{318f}', '\u{318f}'),
-  ('\u{31bb}', '\u{31bf}'), ('\u{31e4}', '\u{31ef}'),
-  ('\u{321f}', '\u{321f}'), ('\u{4db6}', '\u{4dbf}'),
-  ('\u{9ff0}', '\u{9fff}'), ('\u{a48d}', '\u{a48f}'),
-  ('\u{a4c7}', '\u{a4cf}'), ('\u{a62c}', '\u{a63f}'),
-  ('\u{a6f8}', '\u{a6ff}'), ('\u{a7c0}', '\u{a7c1}'),
-  ('\u{a7c7}', '\u{a7f6}'), ('\u{a82c}', '\u{a82f}'),
-  ('\u{a83a}', '\u{a83f}'), ('\u{a878}', '\u{a87f}'),
-  ('\u{a8c6}', '\u{a8cd}'), ('\u{a8da}', '\u{a8df}'),
-  ('\u{a954}', '\u{a95e}'), ('\u{a97d}', '\u{a97f}'),
-  ('\u{a9ce}', '\u{a9ce}'), ('\u{a9da}', '\u{a9dd}'),
-  ('\u{a9ff}', '\u{a9ff}'), ('\u{aa37}', '\u{aa3f}'),
-  ('\u{aa4e}', '\u{aa4f}'), ('\u{aa5a}', '\u{aa5b}'),
-  ('\u{aac3}', '\u{aada}'), ('\u{aaf7}', '\u{ab00}'),
-  ('\u{ab07}', '\u{ab08}'), ('\u{ab0f}', '\u{ab10}'),
-  ('\u{ab17}', '\u{ab1f}'), ('\u{ab27}', '\u{ab27}'),
-  ('\u{ab2f}', '\u{ab2f}'), ('\u{ab68}', '\u{ab6f}'),
-  ('\u{abee}', '\u{abef}'), ('\u{abfa}', '\u{abff}'),
-  ('\u{d7a4}', '\u{d7af}'), ('\u{d7c7}', '\u{d7ca}'),
-  ('\u{d7fc}', '\u{f8ff}'), ('\u{fa6e}', '\u{fa6f}'),
-  ('\u{fada}', '\u{faff}'), ('\u{fb07}', '\u{fb12}'),
-  ('\u{fb18}', '\u{fb1c}'), ('\u{fb37}', '\u{fb37}'),
-  ('\u{fb3d}', '\u{fb3d}'), ('\u{fb3f}', '\u{fb3f}'),
-  ('\u{fb42}', '\u{fb42}'), ('\u{fb45}', '\u{fb45}'),
-  ('\u{fbc2}', '\u{fbd2}'), ('\u{fd40}', '\u{fd4f}'),
-  ('\u{fd90}', '\u{fd91}'), ('\u{fdc8}', '\u{fdef}'),
-  ('\u{fdfe}', '\u{fdff}'), ('\u{fe1a}', '\u{fe1f}'),
-  ('\u{fe53}', '\u{fe53}'), ('\u{fe67}', '\u{fe67}'),
-  ('\u{fe6c}', '\u{fe6f}'), ('\u{fe75}', '\u{fe75}'),
-  ('\u{fefd}', '\u{ff00}'), ('\u{ffbf}', '\u{ffc1}'),
-  ('\u{ffc8}', '\u{ffc9}'), ('\u{ffd0}', '\u{ffd1}'),
-  ('\u{ffd8}', '\u{ffd9}'), ('\u{ffdd}', '\u{ffdf}'),
-  ('\u{ffe7}', '\u{ffe7}'), ('\u{ffef}', '\u{fffb}'),
-  ('\u{fffe}', '\u{ffff}'), ('\u{1000c}', '\u{1000c}'),
-  ('\u{10027}', '\u{10027}'), ('\u{1003b}', '\u{1003b}'),
-  ('\u{1003e}', '\u{1003e}'), ('\u{1004e}', '\u{1004f}'),
-  ('\u{1005e}', '\u{1007f}'), ('\u{100fb}', '\u{100ff}'),
-  ('\u{10103}', '\u{10106}'), ('\u{10134}', '\u{10136}'),
-  ('\u{1018f}', '\u{1018f}'), ('\u{1019c}', '\u{1019f}'),
-  ('\u{101a1}', '\u{101cf}'), ('\u{101fe}', '\u{1027f}'),
-  ('\u{1029d}', '\u{1029f}'), ('\u{102d1}', '\u{102df}'),
-  ('\u{102fc}', '\u{102ff}'), ('\u{10324}', '\u{1032c}'),
-  ('\u{1034b}', '\u{1034f}'), ('\u{1037b}', '\u{1037f}'),
-  ('\u{1039e}', '\u{1039e}'), ('\u{103c4}', '\u{103c7}'),
-  ('\u{103d6}', '\u{103ff}'), ('\u{1049e}', '\u{1049f}'),
-  ('\u{104aa}', '\u{104af}'), ('\u{104d4}', '\u{104d7}'),
-  ('\u{104fc}', '\u{104ff}'), ('\u{10528}', '\u{1052f}'),
-  ('\u{10564}', '\u{1056e}'), ('\u{10570}', '\u{105ff}'),
-  ('\u{10737}', '\u{1073f}'), ('\u{10756}', '\u{1075f}'),
-  ('\u{10768}', '\u{107ff}'), ('\u{10806}', '\u{10807}'),
-  ('\u{10809}', '\u{10809}'), ('\u{10836}', '\u{10836}'),
-  ('\u{10839}', '\u{1083b}'), ('\u{1083d}', '\u{1083e}'),
-  ('\u{10856}', '\u{10856}'), ('\u{1089f}', '\u{108a6}'),
-  ('\u{108b0}', '\u{108df}'), ('\u{108f3}', '\u{108f3}'),
-  ('\u{108f6}', '\u{108fa}'), ('\u{1091c}', '\u{1091e}'),
-  ('\u{1093a}', '\u{1093e}'), ('\u{10940}', '\u{1097f}'),
-  ('\u{109b8}', '\u{109bb}'), ('\u{109d0}', '\u{109d1}'),
-  ('\u{10a04}', '\u{10a04}'), ('\u{10a07}', '\u{10a0b}'),
-  ('\u{10a14}', '\u{10a14}'), ('\u{10a18}', '\u{10a18}'),
-  ('\u{10a36}', '\u{10a37}'), ('\u{10a3b}', '\u{10a3e}'),
-  ('\u{10a49}', '\u{10a4f}'), ('\u{10a59}', '\u{10a5f}'),
-  ('\u{10aa0}', '\u{10abf}'), ('\u{10ae7}', '\u{10aea}'),
-  ('\u{10af7}', '\u{10aff}'), ('\u{10b36}', '\u{10b38}'),
-  ('\u{10b56}', '\u{10b57}'), ('\u{10b73}', '\u{10b77}'),
-  ('\u{10b92}', '\u{10b98}'), ('\u{10b9d}', '\u{10ba8}'),
-  ('\u{10bb0}', '\u{10bff}'), ('\u{10c49}', '\u{10c7f}'),
-  ('\u{10cb3}', '\u{10cbf}'), ('\u{10cf3}', '\u{10cf9}'),
-  ('\u{10d28}', '\u{10d2f}'), ('\u{10d3a}', '\u{10e5f}'),
-  ('\u{10e7f}', '\u{10eff}'), ('\u{10f28}', '\u{10f2f}'),
-  ('\u{10f5a}', '\u{10fdf}'), ('\u{10ff7}', '\u{10fff}'),
-  ('\u{1104e}', '\u{11051}'), ('\u{11070}', '\u{1107e}'),
-  ('\u{110bd}', '\u{110bd}'), ('\u{110c2}', '\u{110cf}'),
-  ('\u{110e9}', '\u{110ef}'), ('\u{110fa}', '\u{110ff}'),
-  ('\u{11135}', '\u{11135}'), ('\u{11147}', '\u{1114f}'),
-  ('\u{11177}', '\u{1117f}'), ('\u{111ce}', '\u{111cf}'),
-  ('\u{111e0}', '\u{111e0}'), ('\u{111f5}', '\u{111ff}'),
-  ('\u{11212}', '\u{11212}'), ('\u{1123f}', '\u{1127f}'),
-  ('\u{11287}', '\u{11287}'), ('\u{11289}', '\u{11289}'),
-  ('\u{1128e}', '\u{1128e}'), ('\u{1129e}', '\u{1129e}'),
-  ('\u{112aa}', '\u{112af}'), ('\u{112eb}', '\u{112ef}'),
-  ('\u{112fa}', '\u{112ff}'), ('\u{11304}', '\u{11304}'),
-  ('\u{1130d}', '\u{1130e}'), ('\u{11311}', '\u{11312}'),
-  ('\u{11329}', '\u{11329}'), ('\u{11331}', '\u{11331}'),
-  ('\u{11334}', '\u{11334}'), ('\u{1133a}', '\u{1133a}'),
-  ('\u{11345}', '\u{11346}'), ('\u{11349}', '\u{1134a}'),
-  ('\u{1134e}', '\u{1134f}'), ('\u{11351}', '\u{11356}'),
-  ('\u{11358}', '\u{1135c}'), ('\u{11364}', '\u{11365}'),
-  ('\u{1136d}', '\u{1136f}'), ('\u{11375}', '\u{113ff}'),
-  ('\u{1145a}', '\u{1145a}'), ('\u{1145c}', '\u{1145c}'),
-  ('\u{11460}', '\u{1147f}'), ('\u{114c8}', '\u{114cf}'),
-  ('\u{114da}', '\u{1157f}'), ('\u{115b6}', '\u{115b7}'),
-  ('\u{115de}', '\u{115ff}'), ('\u{11645}', '\u{1164f}'),
-  ('\u{1165a}', '\u{1165f}'), ('\u{1166d}', '\u{1167f}'),
-  ('\u{116b9}', '\u{116bf}'), ('\u{116ca}', '\u{116ff}'),
-  ('\u{1171b}', '\u{1171c}'), ('\u{1172c}', '\u{1172f}'),
-  ('\u{11740}', '\u{117ff}'), ('\u{1183c}', '\u{1189f}'),
-  ('\u{118f3}', '\u{118fe}'), ('\u{11900}', '\u{1199f}'),
-  ('\u{119a8}', '\u{119a9}'), ('\u{119d8}', '\u{119d9}'),
-  ('\u{119e5}', '\u{119ff}'), ('\u{11a48}', '\u{11a4f}'),
-  ('\u{11aa3}', '\u{11abf}'), ('\u{11af9}', '\u{11bff}'),
-  ('\u{11c09}', '\u{11c09}'), ('\u{11c37}', '\u{11c37}'),
-  ('\u{11c46}', '\u{11c4f}'), ('\u{11c6d}', '\u{11c6f}'),
-  ('\u{11c90}', '\u{11c91}'), ('\u{11ca8}', '\u{11ca8}'),
-  ('\u{11cb7}', '\u{11cff}'), ('\u{11d07}', '\u{11d07}'),
-  ('\u{11d0a}', '\u{11d0a}'), ('\u{11d37}', '\u{11d39}'),
-  ('\u{11d3b}', '\u{11d3b}'), ('\u{11d3e}', '\u{11d3e}'),
-  ('\u{11d48}', '\u{11d4f}'), ('\u{11d5a}', '\u{11d5f}'),
-  ('\u{11d66}', '\u{11d66}'), ('\u{11d69}', '\u{11d69}'),
-  ('\u{11d8f}', '\u{11d8f}'), ('\u{11d92}', '\u{11d92}'),
-  ('\u{11d99}', '\u{11d9f}'), ('\u{11daa}', '\u{11edf}'),
-  ('\u{11ef9}', '\u{11fbf}'), ('\u{11ff2}', '\u{11ffe}'),
-  ('\u{1239a}', '\u{123ff}'), ('\u{1246f}', '\u{1246f}'),
-  ('\u{12475}', '\u{1247f}'), ('\u{12544}', '\u{12fff}'),
-  ('\u{1342f}', '\u{143ff}'), ('\u{14647}', '\u{167ff}'),
-  ('\u{16a39}', '\u{16a3f}'), ('\u{16a5f}', '\u{16a5f}'),
-  ('\u{16a6a}', '\u{16a6d}'), ('\u{16a70}', '\u{16acf}'),
-  ('\u{16aee}', '\u{16aef}'), ('\u{16af6}', '\u{16aff}'),
-  ('\u{16b46}', '\u{16b4f}'), ('\u{16b5a}', '\u{16b5a}'),
-  ('\u{16b62}', '\u{16b62}'), ('\u{16b78}', '\u{16b7c}'),
-  ('\u{16b90}', '\u{16e3f}'), ('\u{16e9b}', '\u{16eff}'),
-  ('\u{16f4b}', '\u{16f4e}'), ('\u{16f88}', '\u{16f8e}'),
-  ('\u{16fa0}', '\u{16fdf}'), ('\u{16fe4}', '\u{16fff}'),
-  ('\u{187f8}', '\u{187ff}'), ('\u{18af3}', '\u{1afff}'),
-  ('\u{1b11f}', '\u{1b14f}'), ('\u{1b153}', '\u{1b163}'),
-  ('\u{1b168}', '\u{1b16f}'), ('\u{1b2fc}', '\u{1bbff}'),
-  ('\u{1bc6b}', '\u{1bc6f}'), ('\u{1bc7d}', '\u{1bc7f}'),
-  ('\u{1bc89}', '\u{1bc8f}'), ('\u{1bc9a}', '\u{1bc9b}'),
-  ('\u{1bca0}', '\u{1cfff}'), ('\u{1d0f6}', '\u{1d0ff}'),
-  ('\u{1d127}', '\u{1d128}'), ('\u{1d173}', '\u{1d17a}'),
-  ('\u{1d1e9}', '\u{1d1ff}'), ('\u{1d246}', '\u{1d2df}'),
-  ('\u{1d2f4}', '\u{1d2ff}'), ('\u{1d357}', '\u{1d35f}'),
-  ('\u{1d379}', '\u{1d3ff}'), ('\u{1d455}', '\u{1d455}'),
-  ('\u{1d49d}', '\u{1d49d}'), ('\u{1d4a0}', '\u{1d4a1}'),
-  ('\u{1d4a3}', '\u{1d4a4}'), ('\u{1d4a7}', '\u{1d4a8}'),
-  ('\u{1d4ad}', '\u{1d4ad}'), ('\u{1d4ba}', '\u{1d4ba}'),
-  ('\u{1d4bc}', '\u{1d4bc}'), ('\u{1d4c4}', '\u{1d4c4}'),
-  ('\u{1d506}', '\u{1d506}'), ('\u{1d50b}', '\u{1d50c}'),
-  ('\u{1d515}', '\u{1d515}'), ('\u{1d51d}', '\u{1d51d}'),
-  ('\u{1d53a}', '\u{1d53a}'), ('\u{1d53f}', '\u{1d53f}'),
-  ('\u{1d545}', '\u{1d545}'), ('\u{1d547}', '\u{1d549}'),
-  ('\u{1d551}', '\u{1d551}'), ('\u{1d6a6}', '\u{1d6a7}'),
-  ('\u{1d7cc}', '\u{1d7cd}'), ('\u{1da8c}', '\u{1da9a}'),
-  ('\u{1daa0}', '\u{1daa0}'), ('\u{1dab0}', '\u{1dfff}'),
-  ('\u{1e007}', '\u{1e007}'), ('\u{1e019}', '\u{1e01a}'),
-  ('\u{1e022}', '\u{1e022}'), ('\u{1e025}', '\u{1e025}'),
-  ('\u{1e02b}', '\u{1e0ff}'), ('\u{1e12d}', '\u{1e12f}'),
-  ('\u{1e13e}', '\u{1e13f}'), ('\u{1e14a}', '\u{1e14d}'),
-  ('\u{1e150}', '\u{1e2bf}'), ('\u{1e2fa}', '\u{1e2fe}'),
-  ('\u{1e300}', '\u{1e7ff}'), ('\u{1e8c5}', '\u{1e8c6}'),
-  ('\u{1e8d7}', '\u{1e8ff}'), ('\u{1e94c}', '\u{1e94f}'),
-  ('\u{1e95a}', '\u{1e95d}'), ('\u{1e960}', '\u{1ec70}'),
-  ('\u{1ecb5}', '\u{1ed00}'), ('\u{1ed3e}', '\u{1edff}'),
-  ('\u{1ee04}', '\u{1ee04}'), ('\u{1ee20}', '\u{1ee20}'),
-  ('\u{1ee23}', '\u{1ee23}'), ('\u{1ee25}', '\u{1ee26}'),
-  ('\u{1ee28}', '\u{1ee28}'), ('\u{1ee33}', '\u{1ee33}'),
-  ('\u{1ee38}', '\u{1ee38}'), ('\u{1ee3a}', '\u{1ee3a}'),
-  ('\u{1ee3c}', '\u{1ee41}'), ('\u{1ee43}', '\u{1ee46}'),
-  ('\u{1ee48}', '\u{1ee48}'), ('\u{1ee4a}', '\u{1ee4a}'),
-  ('\u{1ee4c}', '\u{1ee4c}'), ('\u{1ee50}', '\u{1ee50}'),
-  ('\u{1ee53}', '\u{1ee53}'), ('\u{1ee55}', '\u{1ee56}'),
-  ('\u{1ee58}', '\u{1ee58}'), ('\u{1ee5a}', '\u{1ee5a}'),
-  ('\u{1ee5c}', '\u{1ee5c}'), ('\u{1ee5e}', '\u{1ee5e}'),
-  ('\u{1ee60}', '\u{1ee60}'), ('\u{1ee63}', '\u{1ee63}'),
-  ('\u{1ee65}', '\u{1ee66}'), ('\u{1ee6b}', '\u{1ee6b}'),
-  ('\u{1ee73}', '\u{1ee73}'), ('\u{1ee78}', '\u{1ee78}'),
-  ('\u{1ee7d}', '\u{1ee7d}'), ('\u{1ee7f}', '\u{1ee7f}'),
-  ('\u{1ee8a}', '\u{1ee8a}'), ('\u{1ee9c}', '\u{1eea0}'),
-  ('\u{1eea4}', '\u{1eea4}'), ('\u{1eeaa}', '\u{1eeaa}'),
-  ('\u{1eebc}', '\u{1eeef}'), ('\u{1eef2}', '\u{1efff}'),
-  ('\u{1f02c}', '\u{1f02f}'), ('\u{1f094}', '\u{1f09f}'),
-  ('\u{1f0af}', '\u{1f0b0}'), ('\u{1f0c0}', '\u{1f0c0}'),
-  ('\u{1f0d0}', '\u{1f0d0}'), ('\u{1f0f6}', '\u{1f0ff}'),
-  ('\u{1f10d}', '\u{1f10f}'), ('\u{1f16d}', '\u{1f16f}'),
-  ('\u{1f1ad}', '\u{1f1e5}'), ('\u{1f203}', '\u{1f20f}'),
-  ('\u{1f23c}', '\u{1f23f}'), ('\u{1f249}', '\u{1f24f}'),
-  ('\u{1f252}', '\u{1f25f}'), ('\u{1f266}', '\u{1f2ff}'),
-  ('\u{1f6d6}', '\u{1f6df}'), ('\u{1f6ed}', '\u{1f6ef}'),
-  ('\u{1f6fb}', '\u{1f6ff}'), ('\u{1f774}', '\u{1f77f}'),
-  ('\u{1f7d9}', '\u{1f7df}'), ('\u{1f7ec}', '\u{1f7ff}'),
-  ('\u{1f80c}', '\u{1f80f}'), ('\u{1f848}', '\u{1f84f}'),
-  ('\u{1f85a}', '\u{1f85f}'), ('\u{1f888}', '\u{1f88f}'),
-  ('\u{1f8ae}', '\u{1f8ff}'), ('\u{1f90c}', '\u{1f90c}'),
-  ('\u{1f972}', '\u{1f972}'), ('\u{1f977}', '\u{1f979}'),
-  ('\u{1f9a3}', '\u{1f9a4}'), ('\u{1f9ab}', '\u{1f9ad}'),
-  ('\u{1f9cb}', '\u{1f9cc}'), ('\u{1fa54}', '\u{1fa5f}'),
-  ('\u{1fa6e}', '\u{1fa6f}'), ('\u{1fa74}', '\u{1fa77}'),
-  ('\u{1fa7b}', '\u{1fa7f}'), ('\u{1fa83}', '\u{1fa8f}'),
-  ('\u{1fa96}', '\u{1ffff}'), ('\u{2a6d7}', '\u{2a6ff}'),
-  ('\u{2b735}', '\u{2b73f}'), ('\u{2b81e}', '\u{2b81f}'),
-  ('\u{2cea2}', '\u{2ceaf}'), ('\u{2ebe1}', '\u{2f7ff}'),
-  ('\u{2fa1e}', '\u{e00ff}'), ('\u{e01f0}', '\u{10ffff}'),
-];
-
-pub const OTHER_LETTER: &'static [(char, char)] = &[
-  ('ª', 'ª'), ('º', 'º'), ('ƻ', 'ƻ'), ('ǀ', 'ǃ'), ('ʔ', 'ʔ'),
-  ('א', 'ת'), ('ׯ', 'ײ'), ('ؠ', 'ؿ'), ('ف', 'ي'), ('ٮ', 'ٯ'),
-  ('ٱ', 'ۓ'), ('ە', 'ە'), ('ۮ', 'ۯ'), ('ۺ', 'ۼ'), ('ۿ', 'ۿ'),
-  ('ܐ', 'ܐ'), ('ܒ', 'ܯ'), ('ݍ', 'ޥ'), ('ޱ', 'ޱ'), ('ߊ', 'ߪ'),
-  ('ࠀ', 'ࠕ'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'),
-  ('ࢶ', 'ࢽ'), ('ऄ', 'ह'), ('ऽ', 'ऽ'), ('ॐ', 'ॐ'),
-  ('क़', 'ॡ'), ('ॲ', 'ঀ'), ('অ', 'ঌ'), ('এ', 'ঐ'),
-  ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'),
-  ('ঽ', 'ঽ'), ('ৎ', 'ৎ'), ('ড়', 'ঢ়'), ('য়', 'ৡ'),
-  ('ৰ', 'ৱ'), ('ৼ', 'ৼ'), ('ਅ', 'ਊ'), ('ਏ', 'ਐ'),
-  ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'),
-  ('ਸ', 'ਹ'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('ੲ', 'ੴ'),
-  ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'),
-  ('લ', 'ળ'), ('વ', 'હ'), ('ઽ', 'ઽ'), ('ૐ', 'ૐ'),
-  ('ૠ', 'ૡ'), ('ૹ', 'ૹ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'),
-  ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'),
-  ('ଽ', 'ଽ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'), ('ୱ', 'ୱ'),
-  ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'), ('ஒ', 'க'),
-  ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'), ('ண', 'த'),
-  ('ந', 'ப'), ('ம', 'ஹ'), ('ௐ', 'ௐ'), ('అ', 'ఌ'),
-  ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'), ('ఽ', 'ఽ'),
-  ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('ಀ', 'ಀ'), ('ಅ', 'ಌ'),
-  ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'),
-  ('ಽ', 'ಽ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'), ('ೱ', 'ೲ'),
-  ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'), ('ഽ', 'ഽ'),
-  ('ൎ', 'ൎ'), ('ൔ', 'ൖ'), ('ൟ', 'ൡ'), ('ൺ', 'ൿ'),
-  ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'),
-  ('ව', 'ෆ'), ('ก', 'ะ'), ('า', 'ำ'), ('เ', 'ๅ'),
-  ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'),
-  ('ລ', 'ລ'), ('ວ', 'ະ'), ('າ', 'ຳ'), ('ຽ', 'ຽ'),
-  ('ເ', 'ໄ'), ('ໜ', 'ໟ'), ('ༀ', 'ༀ'), ('ཀ', 'ཇ'),
-  ('ཉ', 'ཬ'), ('ྈ', 'ྌ'), ('က', 'ဪ'), ('ဿ', 'ဿ'),
-  ('ၐ', 'ၕ'), ('ၚ', 'ၝ'), ('ၡ', 'ၡ'), ('ၥ', 'ၦ'),
-  ('ၮ', 'ၰ'), ('ၵ', 'ႁ'), ('ႎ', 'ႎ'), ('ᄀ', 'ቈ'),
-  ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'),
-  ('በ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኰ'), ('ኲ', 'ኵ'),
-  ('ኸ', 'ኾ'), ('ዀ', 'ዀ'), ('ዂ', 'ዅ'), ('ወ', 'ዖ'),
-  ('ዘ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛱ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'),
-  ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('ក', 'ឳ'),
-  ('ៜ', 'ៜ'), ('ᠠ', 'ᡂ'), ('ᡄ', 'ᡸ'), ('ᢀ', 'ᢄ'),
-  ('ᢇ', 'ᢨ'), ('ᢪ', 'ᢪ'), ('ᢰ', 'ᣵ'), ('ᤀ', 'ᤞ'),
-  ('ᥐ', 'ᥭ'), ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'),
-  ('ᨀ', 'ᨖ'), ('ᨠ', 'ᩔ'), ('ᬅ', 'ᬳ'), ('ᭅ', 'ᭋ'),
-  ('ᮃ', 'ᮠ'), ('ᮮ', 'ᮯ'), ('ᮺ', 'ᯥ'), ('ᰀ', 'ᰣ'),
-  ('ᱍ', 'ᱏ'), ('ᱚ', 'ᱷ'), ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'),
-  ('ᳵ', 'ᳶ'), ('\u{1cfa}', '\u{1cfa}'), ('ℵ', 'ℸ'), ('ⴰ', 'ⵧ'),
-  ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'),
-  ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'),
-  ('ⷘ', 'ⷞ'), ('〆', '〆'), ('〼', '〼'), ('ぁ', 'ゖ'),
-  ('ゟ', 'ゟ'), ('ァ', 'ヺ'), ('ヿ', 'ヿ'), ('ㄅ', 'ㄯ'),
-  ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'), ('㐀', '䶵'),
-  ('一', '鿯'), ('ꀀ', 'ꀔ'), ('ꀖ', 'ꒌ'), ('ꓐ', 'ꓷ'),
-  ('ꔀ', 'ꘋ'), ('ꘐ', 'ꘟ'), ('ꘪ', 'ꘫ'), ('ꙮ', 'ꙮ'),
-  ('ꚠ', 'ꛥ'), ('ꞏ', 'ꞏ'), ('ꟷ', 'ꟷ'), ('ꟻ', 'ꠁ'),
-  ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'), ('ꠌ', 'ꠢ'), ('ꡀ', 'ꡳ'),
-  ('ꢂ', 'ꢳ'), ('ꣲ', 'ꣷ'), ('ꣻ', 'ꣻ'), ('ꣽ', 'ꣾ'),
-  ('ꤊ', 'ꤥ'), ('ꤰ', 'ꥆ'), ('ꥠ', 'ꥼ'), ('ꦄ', 'ꦲ'),
-  ('ꧠ', 'ꧤ'), ('ꧧ', 'ꧯ'), ('ꧺ', 'ꧾ'), ('ꨀ', 'ꨨ'),
-  ('ꩀ', 'ꩂ'), ('ꩄ', 'ꩋ'), ('ꩠ', 'ꩯ'), ('ꩱ', 'ꩶ'),
-  ('ꩺ', 'ꩺ'), ('ꩾ', 'ꪯ'), ('ꪱ', 'ꪱ'), ('ꪵ', 'ꪶ'),
-  ('ꪹ', 'ꪽ'), ('ꫀ', 'ꫀ'), ('ꫂ', 'ꫂ'), ('ꫛ', 'ꫜ'),
-  ('ꫠ', 'ꫪ'), ('ꫲ', 'ꫲ'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꯀ', 'ꯢ'),
-  ('가', '힣'), ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'), ('豈', '舘'),
-  ('並', '龎'), ('יִ', 'יִ'), ('ײַ', 'ﬨ'), ('שׁ', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﮱ'), ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'),
-  ('ﷰ', 'ﷻ'), ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'), ('ヲ', 'ッ'),
-  ('ア', 'ン'), ('ᅠ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'),
-  ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'), ('𐀍', '𐀦'),
-  ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'), ('𐁐', '𐁝'),
-  ('𐂀', '𐃺'), ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('𐌀', '𐌟'),
-  ('𐌭', '𐍀'), ('𐍂', '𐍉'), ('𐍐', '𐍵'), ('𐎀', '𐎝'),
-  ('𐎠', '𐏃'), ('𐏈', '𐏏'), ('𐑐', '𐒝'), ('𐔀', '𐔧'),
-  ('𐔰', '𐕣'), ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'),
-  ('𐠀', '𐠅'), ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'),
-  ('𐠼', '𐠼'), ('𐠿', '𐡕'), ('𐡠', '𐡶'), ('𐢀', '𐢞'),
-  ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐤀', '𐤕'), ('𐤠', '𐤹'),
-  ('𐦀', '𐦷'), ('𐦾', '𐦿'), ('𐨀', '𐨀'), ('𐨐', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('𐩠', '𐩼'), ('𐪀', '𐪜'),
-  ('𐫀', '𐫇'), ('𐫉', '𐫤'), ('𐬀', '𐬵'), ('𐭀', '𐭕'),
-  ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'), ('𐴀', '𐴣'),
-  ('𐼀', '𐼜'), ('𐼧', '𐼧'), ('𐼰', '𐽅'),
-  ('\u{10fe0}', '\u{10ff6}'), ('𑀃', '𑀷'), ('𑂃', '𑂯'),
-  ('𑃐', '𑃨'), ('𑄃', '𑄦'), ('𑅄', '𑅄'), ('𑅐', '𑅲'),
-  ('𑅶', '𑅶'), ('𑆃', '𑆲'), ('𑇁', '𑇄'), ('𑇚', '𑇚'),
-  ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '𑈫'), ('𑊀', '𑊆'),
-  ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'),
-  ('𑊰', '𑋞'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('𑌽', '𑌽'),
-  ('𑍐', '𑍐'), ('𑍝', '𑍡'), ('𑐀', '𑐴'), ('𑑇', '𑑊'),
-  ('\u{1145f}', '\u{1145f}'), ('𑒀', '𑒯'), ('𑓄', '𑓅'),
-  ('𑓇', '𑓇'), ('𑖀', '𑖮'), ('𑗘', '𑗛'), ('𑘀', '𑘯'),
-  ('𑙄', '𑙄'), ('𑚀', '𑚪'), ('\u{116b8}', '\u{116b8}'),
-  ('𑜀', '𑜚'), ('𑠀', '𑠫'), ('𑣿', '𑣿'),
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d0}'),
-  ('\u{119e1}', '\u{119e1}'), ('\u{119e3}', '\u{119e3}'), ('𑨀', '𑨀'),
-  ('𑨋', '𑨲'), ('𑨺', '𑨺'), ('𑩐', '𑩐'), ('𑩜', '𑪉'),
-  ('𑪝', '𑪝'), ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '𑰮'),
-  ('𑱀', '𑱀'), ('𑱲', '𑲏'), ('𑴀', '𑴆'), ('𑴈', '𑴉'),
-  ('𑴋', '𑴰'), ('𑵆', '𑵆'), ('𑵠', '𑵥'), ('𑵧', '𑵨'),
-  ('𑵪', '𑶉'), ('𑶘', '𑶘'), ('𑻠', '𑻲'), ('𒀀', '𒎙'),
-  ('𒒀', '𒕃'), ('𓀀', '𓐮'), ('𔐀', '𔙆'), ('𖠀', '𖨸'),
-  ('𖩀', '𖩞'), ('𖫐', '𖫭'), ('𖬀', '𖬯'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𖼀', '\u{16f4a}'), ('𖽐', '𖽐'),
-  ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'), ('𛀀', '𛄞'),
-  ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'), ('𛅰', '𛋻'),
-  ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'), ('𛲐', '𛲙'),
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e14e}', '\u{1e14e}'),
-  ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-  ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'),
-  ('𬺰', '𮯠'), ('丽', '𪘀'),
-];
-
-pub const OTHER_NUMBER: &'static [(char, char)] = &[
-  ('²', '³'), ('¹', '¹'), ('¼', '¾'), ('৴', '৹'), ('୲', '୷'),
-  ('௰', '௲'), ('౸', '౾'), ('൘', '൞'), ('൰', '൸'),
-  ('༪', '༳'), ('፩', '፼'), ('៰', '៹'), ('᧚', '᧚'),
-  ('⁰', '⁰'), ('⁴', '⁹'), ('₀', '₉'), ('⅐', '⅟'),
-  ('↉', '↉'), ('①', '⒛'), ('⓪', '⓿'), ('❶', '➓'),
-  ('⳽', '⳽'), ('㆒', '㆕'), ('㈠', '㈩'), ('㉈', '㉏'),
-  ('㉑', '㉟'), ('㊀', '㊉'), ('㊱', '㊿'), ('꠰', '꠵'),
-  ('𐄇', '𐄳'), ('𐅵', '𐅸'), ('𐆊', '𐆋'), ('𐋡', '𐋻'),
-  ('𐌠', '𐌣'), ('𐡘', '𐡟'), ('𐡹', '𐡿'), ('𐢧', '𐢯'),
-  ('𐣻', '𐣿'), ('𐤖', '𐤛'), ('𐦼', '𐦽'), ('𐧀', '𐧏'),
-  ('𐧒', '𐧿'), ('𐩀', '𐩈'), ('𐩽', '𐩾'), ('𐪝', '𐪟'),
-  ('𐫫', '𐫯'), ('𐭘', '𐭟'), ('𐭸', '𐭿'), ('𐮩', '𐮯'),
-  ('𐳺', '𐳿'), ('𐹠', '𐹾'), ('𐼝', '𐼦'), ('𐽑', '𐽔'),
-  ('𑁒', '𑁥'), ('𑇡', '𑇴'), ('𑜺', '𑜻'), ('𑣪', '𑣲'),
-  ('𑱚', '𑱬'), ('\u{11fc0}', '\u{11fd4}'), ('𖭛', '𖭡'),
-  ('𖺀', '𖺖'), ('𝋠', '𝋳'), ('𝍠', '𝍸'), ('𞣇', '𞣏'),
-  ('𞱱', '𞲫'), ('𞲭', '𞲯'), ('𞲱', '𞲴'),
-  ('\u{1ed01}', '\u{1ed2d}'), ('\u{1ed2f}', '\u{1ed3d}'), ('🄀', '🄌'),
-];
-
-pub const OTHER_PUNCTUATION: &'static [(char, char)] = &[
-  ('!', '#'), ('%', '\''), ('*', '*'), (',', ','), ('.', '/'), (':', ';'),
-  ('?', '@'), ('\\', '\\'), ('¡', '¡'), ('§', '§'), ('¶', '·'),
-  ('¿', '¿'), (';', ';'), ('·', '·'), ('՚', '՟'), ('։', '։'),
-  ('׀', '׀'), ('׃', '׃'), ('׆', '׆'), ('׳', '״'), ('؉', '؊'),
-  ('،', '؍'), ('؛', '؛'), ('؞', '؟'), ('٪', '٭'), ('۔', '۔'),
-  ('܀', '܍'), ('߷', '߹'), ('࠰', '࠾'), ('࡞', '࡞'), ('।', '॥'),
-  ('॰', '॰'), ('৽', '৽'), ('੶', '੶'), ('૰', '૰'),
-  ('\u{c77}', '\u{c77}'), ('಄', '಄'), ('෴', '෴'), ('๏', '๏'),
-  ('๚', '๛'), ('༄', '༒'), ('༔', '༔'), ('྅', '྅'),
-  ('࿐', '࿔'), ('࿙', '࿚'), ('၊', '၏'), ('჻', '჻'),
-  ('፠', '፨'), ('᙮', '᙮'), ('᛫', '᛭'), ('᜵', '᜶'),
-  ('។', '៖'), ('៘', '៚'), ('᠀', '᠅'), ('᠇', '᠊'),
-  ('᥄', '᥅'), ('᨞', '᨟'), ('᪠', '᪦'), ('᪨', '᪭'),
-  ('᭚', '᭠'), ('᯼', '᯿'), ('᰻', '᰿'), ('᱾', '᱿'),
-  ('᳀', '᳇'), ('᳓', '᳓'), ('‖', '‗'), ('†', '‧'),
-  ('‰', '‸'), ('※', '‾'), ('⁁', '⁃'), ('⁇', '⁑'),
-  ('⁓', '⁓'), ('⁕', '⁞'), ('⳹', '⳼'), ('⳾', '⳿'),
-  ('⵰', '⵰'), ('⸀', '⸁'), ('⸆', '⸈'), ('⸋', '⸋'),
-  ('⸎', '⸖'), ('⸘', '⸙'), ('⸛', '⸛'), ('⸞', '⸟'),
-  ('⸪', '⸮'), ('⸰', '⸹'), ('⸼', '⸿'), ('⹁', '⹁'),
-  ('⹃', '\u{2e4f}'), ('、', '〃'), ('〽', '〽'), ('・', '・'),
-  ('꓾', '꓿'), ('꘍', '꘏'), ('꙳', '꙳'), ('꙾', '꙾'),
-  ('꛲', '꛷'), ('꡴', '꡷'), ('꣎', '꣏'), ('꣸', '꣺'),
-  ('꣼', '꣼'), ('꤮', '꤯'), ('꥟', '꥟'), ('꧁', '꧍'),
-  ('꧞', '꧟'), ('꩜', '꩟'), ('꫞', '꫟'), ('꫰', '꫱'),
-  ('꯫', '꯫'), ('︐', '︖'), ('︙', '︙'), ('︰', '︰'),
-  ('﹅', '﹆'), ('﹉', '﹌'), ('﹐', '﹒'), ('﹔', '﹗'),
-  ('﹟', '﹡'), ('﹨', '﹨'), ('﹪', '﹫'), ('!', '#'),
-  ('%', '''), ('*', '*'), (',', ','), ('.', '/'),
-  (':', ';'), ('?', '@'), ('\', '\'), ('。', '。'),
-  ('、', '・'), ('𐄀', '𐄂'), ('𐎟', '𐎟'), ('𐏐', '𐏐'),
-  ('𐕯', '𐕯'), ('𐡗', '𐡗'), ('𐤟', '𐤟'), ('𐤿', '𐤿'),
-  ('𐩐', '𐩘'), ('𐩿', '𐩿'), ('𐫰', '𐫶'), ('𐬹', '𐬿'),
-  ('𐮙', '𐮜'), ('𐽕', '𐽙'), ('𑁇', '𑁍'), ('𑂻', '𑂼'),
-  ('𑂾', '𑃁'), ('𑅀', '𑅃'), ('𑅴', '𑅵'), ('𑇅', '𑇈'),
-  ('𑇍', '𑇍'), ('𑇛', '𑇛'), ('𑇝', '𑇟'), ('𑈸', '𑈽'),
-  ('𑊩', '𑊩'), ('𑑋', '𑑏'), ('𑑛', '𑑛'), ('𑑝', '𑑝'),
-  ('𑓆', '𑓆'), ('𑗁', '𑗗'), ('𑙁', '𑙃'), ('𑙠', '𑙬'),
-  ('𑜼', '𑜾'), ('𑠻', '𑠻'), ('\u{119e2}', '\u{119e2}'),
-  ('𑨿', '𑩆'), ('𑪚', '𑪜'), ('𑪞', '𑪢'), ('𑱁', '𑱅'),
-  ('𑱰', '𑱱'), ('𑻷', '𑻸'), ('\u{11fff}', '\u{11fff}'),
-  ('𒑰', '𒑴'), ('𖩮', '𖩯'), ('𖫵', '𖫵'), ('𖬷', '𖬻'),
-  ('𖭄', '𖭄'), ('𖺗', '𖺚'), ('\u{16fe2}', '\u{16fe2}'),
-  ('𛲟', '𛲟'), ('𝪇', '𝪋'), ('𞥞', '𞥟'),
-];
-
-pub const OTHER_SYMBOL: &'static [(char, char)] = &[
-  ('¦', '¦'), ('©', '©'), ('®', '®'), ('°', '°'), ('҂', '҂'),
-  ('֍', '֎'), ('؎', '؏'), ('۞', '۞'), ('۩', '۩'), ('۽', '۾'),
-  ('߶', '߶'), ('৺', '৺'), ('୰', '୰'), ('௳', '௸'),
-  ('௺', '௺'), ('౿', '౿'), ('൏', '൏'), ('൹', '൹'),
-  ('༁', '༃'), ('༓', '༓'), ('༕', '༗'), ('༚', '༟'),
-  ('༴', '༴'), ('༶', '༶'), ('༸', '༸'), ('྾', '࿅'),
-  ('࿇', '࿌'), ('࿎', '࿏'), ('࿕', '࿘'), ('႞', '႟'),
-  ('᎐', '᎙'), ('᙭', '᙭'), ('᥀', '᥀'), ('᧞', '᧿'),
-  ('᭡', '᭪'), ('᭴', '᭼'), ('℀', '℁'), ('℃', '℆'),
-  ('℈', '℉'), ('℔', '℔'), ('№', '℗'), ('℞', '℣'),
-  ('℥', '℥'), ('℧', '℧'), ('℩', '℩'), ('℮', '℮'),
-  ('℺', '℻'), ('⅊', '⅊'), ('⅌', '⅍'), ('⅏', '⅏'),
-  ('↊', '↋'), ('↕', '↙'), ('↜', '↟'), ('↡', '↢'),
-  ('↤', '↥'), ('↧', '↭'), ('↯', '⇍'), ('⇐', '⇑'),
-  ('⇓', '⇓'), ('⇕', '⇳'), ('⌀', '⌇'), ('⌌', '⌟'),
-  ('⌢', '⌨'), ('⌫', '⍻'), ('⍽', '⎚'), ('⎴', '⏛'),
-  ('⏢', '␦'), ('⑀', '⑊'), ('⒜', 'ⓩ'), ('─', '▶'),
-  ('▸', '◀'), ('◂', '◷'), ('☀', '♮'), ('♰', '❧'),
-  ('➔', '➿'), ('⠀', '⣿'), ('⬀', '⬯'), ('⭅', '⭆'),
-  ('⭍', '⭳'), ('⭶', '⮕'), ('⮘', '\u{2bff}'), ('⳥', '⳪'),
-  ('⺀', '⺙'), ('⺛', '⻳'), ('⼀', '⿕'), ('⿰', '⿻'),
-  ('〄', '〄'), ('〒', '〓'), ('〠', '〠'), ('〶', '〷'),
-  ('〾', '〿'), ('㆐', '㆑'), ('㆖', '㆟'), ('㇀', '㇣'),
-  ('㈀', '㈞'), ('㈪', '㉇'), ('㉐', '㉐'), ('㉠', '㉿'),
-  ('㊊', '㊰'), ('㋀', '㏿'), ('䷀', '䷿'), ('꒐', '꓆'),
-  ('꠨', '꠫'), ('꠶', '꠷'), ('꠹', '꠹'), ('꩷', '꩹'),
-  ('﷽', '﷽'), ('¦', '¦'), ('│', '│'), ('■', '○'),
-  ('', '�'), ('𐄷', '𐄿'), ('𐅹', '𐆉'), ('𐆌', '𐆎'),
-  ('𐆐', '𐆛'), ('𐆠', '𐆠'), ('𐇐', '𐇼'), ('𐡷', '𐡸'),
-  ('𐫈', '𐫈'), ('𑜿', '𑜿'), ('\u{11fd5}', '\u{11fdc}'),
-  ('\u{11fe1}', '\u{11ff1}'), ('𖬼', '𖬿'), ('𖭅', '𖭅'),
-  ('𛲜', '𛲜'), ('𝀀', '𝃵'), ('𝄀', '𝄦'), ('𝄩', '𝅘𝅥𝅲'),
-  ('𝅪', '𝅬'), ('𝆃', '𝆄'), ('𝆌', '𝆩'), ('𝆮', '𝇨'),
-  ('𝈀', '𝉁'), ('𝉅', '𝉅'), ('𝌀', '𝍖'), ('𝠀', '𝧿'),
-  ('𝨷', '𝨺'), ('𝩭', '𝩴'), ('𝩶', '𝪃'), ('𝪅', '𝪆'),
-  ('\u{1e14f}', '\u{1e14f}'), ('𞲬', '𞲬'), ('\u{1ed2e}', '\u{1ed2e}'),
-  ('🀀', '🀫'), ('🀰', '🂓'), ('🂠', '🂮'), ('🂱', '🂿'),
-  ('🃁', '🃏'), ('🃑', '🃵'), ('🄐', '\u{1f16c}'), ('🅰', '🆬'),
-  ('🇦', '🈂'), ('🈐', '🈻'), ('🉀', '🉈'), ('🉐', '🉑'),
-  ('🉠', '🉥'), ('🌀', '🏺'), ('🐀', '\u{1f6d5}'), ('🛠', '🛬'),
-  ('🛰', '\u{1f6fa}'), ('🜀', '🝳'), ('🞀', '🟘'),
-  ('\u{1f7e0}', '\u{1f7eb}'), ('🠀', '🠋'), ('🠐', '🡇'),
-  ('🡐', '🡙'), ('🡠', '🢇'), ('🢐', '🢭'), ('🤀', '🤋'),
-  ('\u{1f90d}', '\u{1f971}'), ('🥳', '🥶'), ('🥺', '🦢'),
-  ('\u{1f9a5}', '\u{1f9aa}'), ('\u{1f9ae}', '\u{1f9ca}'),
-  ('\u{1f9cd}', '\u{1fa53}'), ('🩠', '🩭'), ('\u{1fa70}', '\u{1fa73}'),
-  ('\u{1fa78}', '\u{1fa7a}'), ('\u{1fa80}', '\u{1fa82}'),
-  ('\u{1fa90}', '\u{1fa95}'),
-];
-
-pub const PARAGRAPH_SEPARATOR: &'static [(char, char)] = &[
-  ('\u{2029}', '\u{2029}'),
-];
-
-pub const PRIVATE_USE: &'static [(char, char)] = &[
-  ('\u{e000}', '\u{f8ff}'), ('\u{f0000}', '\u{ffffd}'),
-  ('\u{100000}', '\u{10fffd}'),
-];
-
-pub const PUNCTUATION: &'static [(char, char)] = &[
-  ('!', '#'), ('%', '*'), (',', '/'), (':', ';'), ('?', '@'), ('[', ']'),
-  ('_', '_'), ('{', '{'), ('}', '}'), ('¡', '¡'), ('§', '§'),
-  ('«', '«'), ('¶', '·'), ('»', '»'), ('¿', '¿'), (';', ';'),
-  ('·', '·'), ('՚', '՟'), ('։', '֊'), ('־', '־'), ('׀', '׀'),
-  ('׃', '׃'), ('׆', '׆'), ('׳', '״'), ('؉', '؊'), ('،', '؍'),
-  ('؛', '؛'), ('؞', '؟'), ('٪', '٭'), ('۔', '۔'), ('܀', '܍'),
-  ('߷', '߹'), ('࠰', '࠾'), ('࡞', '࡞'), ('।', '॥'),
-  ('॰', '॰'), ('৽', '৽'), ('੶', '੶'), ('૰', '૰'),
-  ('\u{c77}', '\u{c77}'), ('಄', '಄'), ('෴', '෴'), ('๏', '๏'),
-  ('๚', '๛'), ('༄', '༒'), ('༔', '༔'), ('༺', '༽'),
-  ('྅', '྅'), ('࿐', '࿔'), ('࿙', '࿚'), ('၊', '၏'),
-  ('჻', '჻'), ('፠', '፨'), ('᐀', '᐀'), ('᙮', '᙮'),
-  ('᚛', '᚜'), ('᛫', '᛭'), ('᜵', '᜶'), ('។', '៖'),
-  ('៘', '៚'), ('᠀', '᠊'), ('᥄', '᥅'), ('᨞', '᨟'),
-  ('᪠', '᪦'), ('᪨', '᪭'), ('᭚', '᭠'), ('᯼', '᯿'),
-  ('᰻', '᰿'), ('᱾', '᱿'), ('᳀', '᳇'), ('᳓', '᳓'),
-  ('‐', '‧'), ('‰', '⁃'), ('⁅', '⁑'), ('⁓', '⁞'),
-  ('⁽', '⁾'), ('₍', '₎'), ('⌈', '⌋'), ('〈', '〉'),
-  ('❨', '❵'), ('⟅', '⟆'), ('⟦', '⟯'), ('⦃', '⦘'),
-  ('⧘', '⧛'), ('⧼', '⧽'), ('⳹', '⳼'), ('⳾', '⳿'),
-  ('⵰', '⵰'), ('⸀', '⸮'), ('⸰', '\u{2e4f}'), ('、', '〃'),
-  ('〈', '】'), ('〔', '〟'), ('〰', '〰'), ('〽', '〽'),
-  ('゠', '゠'), ('・', '・'), ('꓾', '꓿'), ('꘍', '꘏'),
-  ('꙳', '꙳'), ('꙾', '꙾'), ('꛲', '꛷'), ('꡴', '꡷'),
-  ('꣎', '꣏'), ('꣸', '꣺'), ('꣼', '꣼'), ('꤮', '꤯'),
-  ('꥟', '꥟'), ('꧁', '꧍'), ('꧞', '꧟'), ('꩜', '꩟'),
-  ('꫞', '꫟'), ('꫰', '꫱'), ('꯫', '꯫'), ('﴾', '﴿'),
-  ('︐', '︙'), ('︰', '﹒'), ('﹔', '﹡'), ('﹣', '﹣'),
-  ('﹨', '﹨'), ('﹪', '﹫'), ('!', '#'), ('%', '*'),
-  (',', '/'), (':', ';'), ('?', '@'), ('[', ']'),
-  ('_', '_'), ('{', '{'), ('}', '}'), ('⦅', '・'),
-  ('𐄀', '𐄂'), ('𐎟', '𐎟'), ('𐏐', '𐏐'), ('𐕯', '𐕯'),
-  ('𐡗', '𐡗'), ('𐤟', '𐤟'), ('𐤿', '𐤿'), ('𐩐', '𐩘'),
-  ('𐩿', '𐩿'), ('𐫰', '𐫶'), ('𐬹', '𐬿'), ('𐮙', '𐮜'),
-  ('𐽕', '𐽙'), ('𑁇', '𑁍'), ('𑂻', '𑂼'), ('𑂾', '𑃁'),
-  ('𑅀', '𑅃'), ('𑅴', '𑅵'), ('𑇅', '𑇈'), ('𑇍', '𑇍'),
-  ('𑇛', '𑇛'), ('𑇝', '𑇟'), ('𑈸', '𑈽'), ('𑊩', '𑊩'),
-  ('𑑋', '𑑏'), ('𑑛', '𑑛'), ('𑑝', '𑑝'), ('𑓆', '𑓆'),
-  ('𑗁', '𑗗'), ('𑙁', '𑙃'), ('𑙠', '𑙬'), ('𑜼', '𑜾'),
-  ('𑠻', '𑠻'), ('\u{119e2}', '\u{119e2}'), ('𑨿', '𑩆'),
-  ('𑪚', '𑪜'), ('𑪞', '𑪢'), ('𑱁', '𑱅'), ('𑱰', '𑱱'),
-  ('𑻷', '𑻸'), ('\u{11fff}', '\u{11fff}'), ('𒑰', '𒑴'),
-  ('𖩮', '𖩯'), ('𖫵', '𖫵'), ('𖬷', '𖬻'), ('𖭄', '𖭄'),
-  ('𖺗', '𖺚'), ('\u{16fe2}', '\u{16fe2}'), ('𛲟', '𛲟'),
-  ('𝪇', '𝪋'), ('𞥞', '𞥟'),
-];
-
-pub const SEPARATOR: &'static [(char, char)] = &[
-  (' ', ' '), ('\u{a0}', '\u{a0}'), ('\u{1680}', '\u{1680}'),
-  ('\u{2000}', '\u{200a}'), ('\u{2028}', '\u{2029}'),
-  ('\u{202f}', '\u{202f}'), ('\u{205f}', '\u{205f}'),
-  ('\u{3000}', '\u{3000}'),
-];
-
-pub const SPACE_SEPARATOR: &'static [(char, char)] = &[
-  (' ', ' '), ('\u{a0}', '\u{a0}'), ('\u{1680}', '\u{1680}'),
-  ('\u{2000}', '\u{200a}'), ('\u{202f}', '\u{202f}'),
-  ('\u{205f}', '\u{205f}'), ('\u{3000}', '\u{3000}'),
-];
-
-pub const SPACING_MARK: &'static [(char, char)] = &[
-  ('ः', 'ः'), ('ऻ', 'ऻ'), ('ा', 'ी'), ('ॉ', 'ौ'),
-  ('ॎ', 'ॏ'), ('ং', 'ঃ'), ('\u{9be}', 'ী'), ('ে', 'ৈ'),
-  ('ো', 'ৌ'), ('\u{9d7}', '\u{9d7}'), ('ਃ', 'ਃ'), ('ਾ', 'ੀ'),
-  ('ઃ', 'ઃ'), ('ા', 'ી'), ('ૉ', 'ૉ'), ('ો', 'ૌ'),
-  ('ଂ', 'ଃ'), ('\u{b3e}', '\u{b3e}'), ('ୀ', 'ୀ'), ('େ', 'ୈ'),
-  ('ୋ', 'ୌ'), ('\u{b57}', '\u{b57}'), ('\u{bbe}', 'ி'), ('ு', 'ூ'),
-  ('ெ', 'ை'), ('ொ', 'ௌ'), ('\u{bd7}', '\u{bd7}'), ('ఁ', 'ః'),
-  ('ు', 'ౄ'), ('ಂ', 'ಃ'), ('ಾ', 'ಾ'), ('ೀ', 'ೄ'),
-  ('ೇ', 'ೈ'), ('ೊ', 'ೋ'), ('\u{cd5}', '\u{cd6}'), ('ം', 'ഃ'),
-  ('\u{d3e}', 'ീ'), ('െ', 'ൈ'), ('ൊ', 'ൌ'), ('\u{d57}', '\u{d57}'),
-  ('ං', 'ඃ'), ('\u{dcf}', 'ෑ'), ('ෘ', '\u{ddf}'), ('ෲ', 'ෳ'),
-  ('༾', '༿'), ('ཿ', 'ཿ'), ('ါ', 'ာ'), ('ေ', 'ေ'),
-  ('း', 'း'), ('ျ', 'ြ'), ('ၖ', 'ၗ'), ('ၢ', 'ၤ'),
-  ('ၧ', 'ၭ'), ('ႃ', 'ႄ'), ('ႇ', 'ႌ'), ('ႏ', 'ႏ'),
-  ('ႚ', 'ႜ'), ('ា', 'ា'), ('ើ', 'ៅ'), ('ះ', 'ៈ'),
-  ('ᤣ', 'ᤦ'), ('ᤩ', 'ᤫ'), ('ᤰ', 'ᤱ'), ('ᤳ', 'ᤸ'),
-  ('ᨙ', 'ᨚ'), ('ᩕ', 'ᩕ'), ('ᩗ', 'ᩗ'), ('ᩡ', 'ᩡ'),
-  ('ᩣ', 'ᩤ'), ('ᩭ', 'ᩲ'), ('ᬄ', 'ᬄ'), ('ᬵ', 'ᬵ'),
-  ('ᬻ', 'ᬻ'), ('ᬽ', 'ᭁ'), ('ᭃ', '᭄'), ('ᮂ', 'ᮂ'),
-  ('ᮡ', 'ᮡ'), ('ᮦ', 'ᮧ'), ('᮪', '᮪'), ('ᯧ', 'ᯧ'),
-  ('ᯪ', 'ᯬ'), ('ᯮ', 'ᯮ'), ('᯲', '᯳'), ('ᰤ', 'ᰫ'),
-  ('ᰴ', 'ᰵ'), ('᳡', '᳡'), ('᳷', '᳷'), ('\u{302e}', '\u{302f}'),
-  ('ꠣ', 'ꠤ'), ('ꠧ', 'ꠧ'), ('ꢀ', 'ꢁ'), ('ꢴ', 'ꣃ'),
-  ('ꥒ', '꥓'), ('ꦃ', 'ꦃ'), ('ꦴ', 'ꦵ'), ('ꦺ', 'ꦻ'),
-  ('ꦾ', '꧀'), ('ꨯ', 'ꨰ'), ('ꨳ', 'ꨴ'), ('ꩍ', 'ꩍ'),
-  ('ꩻ', 'ꩻ'), ('ꩽ', 'ꩽ'), ('ꫫ', 'ꫫ'), ('ꫮ', 'ꫯ'),
-  ('ꫵ', 'ꫵ'), ('ꯣ', 'ꯤ'), ('ꯦ', 'ꯧ'), ('ꯩ', 'ꯪ'),
-  ('꯬', '꯬'), ('𑀀', '𑀀'), ('𑀂', '𑀂'), ('𑂂', '𑂂'),
-  ('𑂰', '𑂲'), ('𑂷', '𑂸'), ('𑄬', '𑄬'), ('𑅅', '𑅆'),
-  ('𑆂', '𑆂'), ('𑆳', '𑆵'), ('𑆿', '𑇀'), ('𑈬', '𑈮'),
-  ('𑈲', '𑈳'), ('𑈵', '𑈵'), ('𑋠', '𑋢'), ('𑌂', '𑌃'),
-  ('\u{1133e}', '𑌿'), ('𑍁', '𑍄'), ('𑍇', '𑍈'), ('𑍋', '𑍍'),
-  ('\u{11357}', '\u{11357}'), ('𑍢', '𑍣'), ('𑐵', '𑐷'),
-  ('𑑀', '𑑁'), ('𑑅', '𑑅'), ('\u{114b0}', '𑒲'), ('𑒹', '𑒹'),
-  ('𑒻', '𑒾'), ('𑓁', '𑓁'), ('\u{115af}', '𑖱'), ('𑖸', '𑖻'),
-  ('𑖾', '𑖾'), ('𑘰', '𑘲'), ('𑘻', '𑘼'), ('𑘾', '𑘾'),
-  ('𑚬', '𑚬'), ('𑚮', '𑚯'), ('𑚶', '𑚶'), ('𑜠', '𑜡'),
-  ('𑜦', '𑜦'), ('𑠬', '𑠮'), ('𑠸', '𑠸'),
-  ('\u{119d1}', '\u{119d3}'), ('\u{119dc}', '\u{119df}'),
-  ('\u{119e4}', '\u{119e4}'), ('𑨹', '𑨹'), ('𑩗', '𑩘'),
-  ('𑪗', '𑪗'), ('𑰯', '𑰯'), ('𑰾', '𑰾'), ('𑲩', '𑲩'),
-  ('𑲱', '𑲱'), ('𑲴', '𑲴'), ('𑶊', '𑶎'), ('𑶓', '𑶔'),
-  ('𑶖', '𑶖'), ('𑻵', '𑻶'), ('𖽑', '\u{16f87}'),
-  ('\u{1d165}', '𝅦'), ('𝅭', '\u{1d172}'),
-];
-
-pub const SYMBOL: &'static [(char, char)] = &[
-  ('$', '$'), ('+', '+'), ('<', '>'), ('^', '^'), ('`', '`'), ('|', '|'),
-  ('~', '~'), ('¢', '¦'), ('¨', '©'), ('¬', '¬'), ('®', '±'),
-  ('´', '´'), ('¸', '¸'), ('×', '×'), ('÷', '÷'), ('˂', '˅'),
-  ('˒', '˟'), ('˥', '˫'), ('˭', '˭'), ('˯', '˿'), ('͵', '͵'),
-  ('΄', '΅'), ('϶', '϶'), ('҂', '҂'), ('֍', '֏'), ('؆', '؈'),
-  ('؋', '؋'), ('؎', '؏'), ('۞', '۞'), ('۩', '۩'), ('۽', '۾'),
-  ('߶', '߶'), ('߾', '߿'), ('৲', '৳'), ('৺', '৻'), ('૱', '૱'),
-  ('୰', '୰'), ('௳', '௺'), ('౿', '౿'), ('൏', '൏'),
-  ('൹', '൹'), ('฿', '฿'), ('༁', '༃'), ('༓', '༓'),
-  ('༕', '༗'), ('༚', '༟'), ('༴', '༴'), ('༶', '༶'),
-  ('༸', '༸'), ('྾', '࿅'), ('࿇', '࿌'), ('࿎', '࿏'),
-  ('࿕', '࿘'), ('႞', '႟'), ('᎐', '᎙'), ('᙭', '᙭'),
-  ('៛', '៛'), ('᥀', '᥀'), ('᧞', '᧿'), ('᭡', '᭪'),
-  ('᭴', '᭼'), ('᾽', '᾽'), ('᾿', '῁'), ('῍', '῏'),
-  ('῝', '῟'), ('῭', '`'), ('´', '῾'), ('⁄', '⁄'),
-  ('⁒', '⁒'), ('⁺', '⁼'), ('₊', '₌'), ('₠', '₿'),
-  ('℀', '℁'), ('℃', '℆'), ('℈', '℉'), ('℔', '℔'),
-  ('№', '℘'), ('℞', '℣'), ('℥', '℥'), ('℧', '℧'),
-  ('℩', '℩'), ('℮', '℮'), ('℺', '℻'), ('⅀', '⅄'),
-  ('⅊', '⅍'), ('⅏', '⅏'), ('↊', '↋'), ('←', '⌇'),
-  ('⌌', '⌨'), ('⌫', '␦'), ('⑀', '⑊'), ('⒜', 'ⓩ'),
-  ('─', '❧'), ('➔', '⟄'), ('⟇', '⟥'), ('⟰', '⦂'),
-  ('⦙', '⧗'), ('⧜', '⧻'), ('⧾', '⭳'), ('⭶', '⮕'),
-  ('⮘', '\u{2bff}'), ('⳥', '⳪'), ('⺀', '⺙'), ('⺛', '⻳'),
-  ('⼀', '⿕'), ('⿰', '⿻'), ('〄', '〄'), ('〒', '〓'),
-  ('〠', '〠'), ('〶', '〷'), ('〾', '〿'), ('゛', '゜'),
-  ('㆐', '㆑'), ('㆖', '㆟'), ('㇀', '㇣'), ('㈀', '㈞'),
-  ('㈪', '㉇'), ('㉐', '㉐'), ('㉠', '㉿'), ('㊊', '㊰'),
-  ('㋀', '㏿'), ('䷀', '䷿'), ('꒐', '꓆'), ('꜀', '꜖'),
-  ('꜠', '꜡'), ('꞉', '꞊'), ('꠨', '꠫'), ('꠶', '꠹'),
-  ('꩷', '꩹'), ('꭛', '꭛'), ('﬩', '﬩'), ('﮲', '﯁'),
-  ('﷼', '﷽'), ('﹢', '﹢'), ('﹤', '﹦'), ('﹩', '﹩'),
-  ('$', '$'), ('+', '+'), ('<', '>'), ('^', '^'),
-  ('`', '`'), ('|', '|'), ('~', '~'), ('¢', '₩'),
-  ('│', '○'), ('', '�'), ('𐄷', '𐄿'), ('𐅹', '𐆉'),
-  ('𐆌', '𐆎'), ('𐆐', '𐆛'), ('𐆠', '𐆠'), ('𐇐', '𐇼'),
-  ('𐡷', '𐡸'), ('𐫈', '𐫈'), ('𑜿', '𑜿'),
-  ('\u{11fd5}', '\u{11ff1}'), ('𖬼', '𖬿'), ('𖭅', '𖭅'),
-  ('𛲜', '𛲜'), ('𝀀', '𝃵'), ('𝄀', '𝄦'), ('𝄩', '𝅘𝅥𝅲'),
-  ('𝅪', '𝅬'), ('𝆃', '𝆄'), ('𝆌', '𝆩'), ('𝆮', '𝇨'),
-  ('𝈀', '𝉁'), ('𝉅', '𝉅'), ('𝌀', '𝍖'), ('𝛁', '𝛁'),
-  ('𝛛', '𝛛'), ('𝛻', '𝛻'), ('𝜕', '𝜕'), ('𝜵', '𝜵'),
-  ('𝝏', '𝝏'), ('𝝯', '𝝯'), ('𝞉', '𝞉'), ('𝞩', '𝞩'),
-  ('𝟃', '𝟃'), ('𝠀', '𝧿'), ('𝨷', '𝨺'), ('𝩭', '𝩴'),
-  ('𝩶', '𝪃'), ('𝪅', '𝪆'), ('\u{1e14f}', '\u{1e14f}'),
-  ('\u{1e2ff}', '\u{1e2ff}'), ('𞲬', '𞲬'), ('𞲰', '𞲰'),
-  ('\u{1ed2e}', '\u{1ed2e}'), ('𞻰', '𞻱'), ('🀀', '🀫'),
-  ('🀰', '🂓'), ('🂠', '🂮'), ('🂱', '🂿'), ('🃁', '🃏'),
-  ('🃑', '🃵'), ('🄐', '\u{1f16c}'), ('🅰', '🆬'), ('🇦', '🈂'),
-  ('🈐', '🈻'), ('🉀', '🉈'), ('🉐', '🉑'), ('🉠', '🉥'),
-  ('🌀', '\u{1f6d5}'), ('🛠', '🛬'), ('🛰', '\u{1f6fa}'),
-  ('🜀', '🝳'), ('🞀', '🟘'), ('\u{1f7e0}', '\u{1f7eb}'),
-  ('🠀', '🠋'), ('🠐', '🡇'), ('🡐', '🡙'), ('🡠', '🢇'),
-  ('🢐', '🢭'), ('🤀', '🤋'), ('\u{1f90d}', '\u{1f971}'),
-  ('🥳', '🥶'), ('🥺', '🦢'), ('\u{1f9a5}', '\u{1f9aa}'),
-  ('\u{1f9ae}', '\u{1f9ca}'), ('\u{1f9cd}', '\u{1fa53}'), ('🩠', '🩭'),
-  ('\u{1fa70}', '\u{1fa73}'), ('\u{1fa78}', '\u{1fa7a}'),
-  ('\u{1fa80}', '\u{1fa82}'), ('\u{1fa90}', '\u{1fa95}'),
-];
-
-pub const TITLECASE_LETTER: &'static [(char, char)] = &[
-  ('Dž', 'Dž'), ('Lj', 'Lj'), ('Nj', 'Nj'), ('Dz', 'Dz'), ('ᾈ', 'ᾏ'),
-  ('ᾘ', 'ᾟ'), ('ᾨ', 'ᾯ'), ('ᾼ', 'ᾼ'), ('ῌ', 'ῌ'),
-  ('ῼ', 'ῼ'),
-];
-
-pub const UNASSIGNED: &'static [(char, char)] = &[
-  ('\u{378}', '\u{379}'), ('\u{380}', '\u{383}'), ('\u{38b}', '\u{38b}'),
-  ('\u{38d}', '\u{38d}'), ('\u{3a2}', '\u{3a2}'), ('\u{530}', '\u{530}'),
-  ('\u{557}', '\u{558}'), ('\u{58b}', '\u{58c}'), ('\u{590}', '\u{590}'),
-  ('\u{5c8}', '\u{5cf}'), ('\u{5eb}', '\u{5ee}'), ('\u{5f5}', '\u{5ff}'),
-  ('\u{61d}', '\u{61d}'), ('\u{70e}', '\u{70e}'), ('\u{74b}', '\u{74c}'),
-  ('\u{7b2}', '\u{7bf}'), ('\u{7fb}', '\u{7fc}'), ('\u{82e}', '\u{82f}'),
-  ('\u{83f}', '\u{83f}'), ('\u{85c}', '\u{85d}'), ('\u{85f}', '\u{85f}'),
-  ('\u{86b}', '\u{89f}'), ('\u{8b5}', '\u{8b5}'), ('\u{8be}', '\u{8d2}'),
-  ('\u{984}', '\u{984}'), ('\u{98d}', '\u{98e}'), ('\u{991}', '\u{992}'),
-  ('\u{9a9}', '\u{9a9}'), ('\u{9b1}', '\u{9b1}'), ('\u{9b3}', '\u{9b5}'),
-  ('\u{9ba}', '\u{9bb}'), ('\u{9c5}', '\u{9c6}'), ('\u{9c9}', '\u{9ca}'),
-  ('\u{9cf}', '\u{9d6}'), ('\u{9d8}', '\u{9db}'), ('\u{9de}', '\u{9de}'),
-  ('\u{9e4}', '\u{9e5}'), ('\u{9ff}', '\u{a00}'), ('\u{a04}', '\u{a04}'),
-  ('\u{a0b}', '\u{a0e}'), ('\u{a11}', '\u{a12}'), ('\u{a29}', '\u{a29}'),
-  ('\u{a31}', '\u{a31}'), ('\u{a34}', '\u{a34}'), ('\u{a37}', '\u{a37}'),
-  ('\u{a3a}', '\u{a3b}'), ('\u{a3d}', '\u{a3d}'), ('\u{a43}', '\u{a46}'),
-  ('\u{a49}', '\u{a4a}'), ('\u{a4e}', '\u{a50}'), ('\u{a52}', '\u{a58}'),
-  ('\u{a5d}', '\u{a5d}'), ('\u{a5f}', '\u{a65}'), ('\u{a77}', '\u{a80}'),
-  ('\u{a84}', '\u{a84}'), ('\u{a8e}', '\u{a8e}'), ('\u{a92}', '\u{a92}'),
-  ('\u{aa9}', '\u{aa9}'), ('\u{ab1}', '\u{ab1}'), ('\u{ab4}', '\u{ab4}'),
-  ('\u{aba}', '\u{abb}'), ('\u{ac6}', '\u{ac6}'), ('\u{aca}', '\u{aca}'),
-  ('\u{ace}', '\u{acf}'), ('\u{ad1}', '\u{adf}'), ('\u{ae4}', '\u{ae5}'),
-  ('\u{af2}', '\u{af8}'), ('\u{b00}', '\u{b00}'), ('\u{b04}', '\u{b04}'),
-  ('\u{b0d}', '\u{b0e}'), ('\u{b11}', '\u{b12}'), ('\u{b29}', '\u{b29}'),
-  ('\u{b31}', '\u{b31}'), ('\u{b34}', '\u{b34}'), ('\u{b3a}', '\u{b3b}'),
-  ('\u{b45}', '\u{b46}'), ('\u{b49}', '\u{b4a}'), ('\u{b4e}', '\u{b55}'),
-  ('\u{b58}', '\u{b5b}'), ('\u{b5e}', '\u{b5e}'), ('\u{b64}', '\u{b65}'),
-  ('\u{b78}', '\u{b81}'), ('\u{b84}', '\u{b84}'), ('\u{b8b}', '\u{b8d}'),
-  ('\u{b91}', '\u{b91}'), ('\u{b96}', '\u{b98}'), ('\u{b9b}', '\u{b9b}'),
-  ('\u{b9d}', '\u{b9d}'), ('\u{ba0}', '\u{ba2}'), ('\u{ba5}', '\u{ba7}'),
-  ('\u{bab}', '\u{bad}'), ('\u{bba}', '\u{bbd}'), ('\u{bc3}', '\u{bc5}'),
-  ('\u{bc9}', '\u{bc9}'), ('\u{bce}', '\u{bcf}'), ('\u{bd1}', '\u{bd6}'),
-  ('\u{bd8}', '\u{be5}'), ('\u{bfb}', '\u{bff}'), ('\u{c0d}', '\u{c0d}'),
-  ('\u{c11}', '\u{c11}'), ('\u{c29}', '\u{c29}'), ('\u{c3a}', '\u{c3c}'),
-  ('\u{c45}', '\u{c45}'), ('\u{c49}', '\u{c49}'), ('\u{c4e}', '\u{c54}'),
-  ('\u{c57}', '\u{c57}'), ('\u{c5b}', '\u{c5f}'), ('\u{c64}', '\u{c65}'),
-  ('\u{c70}', '\u{c76}'), ('\u{c8d}', '\u{c8d}'), ('\u{c91}', '\u{c91}'),
-  ('\u{ca9}', '\u{ca9}'), ('\u{cb4}', '\u{cb4}'), ('\u{cba}', '\u{cbb}'),
-  ('\u{cc5}', '\u{cc5}'), ('\u{cc9}', '\u{cc9}'), ('\u{cce}', '\u{cd4}'),
-  ('\u{cd7}', '\u{cdd}'), ('\u{cdf}', '\u{cdf}'), ('\u{ce4}', '\u{ce5}'),
-  ('\u{cf0}', '\u{cf0}'), ('\u{cf3}', '\u{cff}'), ('\u{d04}', '\u{d04}'),
-  ('\u{d0d}', '\u{d0d}'), ('\u{d11}', '\u{d11}'), ('\u{d45}', '\u{d45}'),
-  ('\u{d49}', '\u{d49}'), ('\u{d50}', '\u{d53}'), ('\u{d64}', '\u{d65}'),
-  ('\u{d80}', '\u{d81}'), ('\u{d84}', '\u{d84}'), ('\u{d97}', '\u{d99}'),
-  ('\u{db2}', '\u{db2}'), ('\u{dbc}', '\u{dbc}'), ('\u{dbe}', '\u{dbf}'),
-  ('\u{dc7}', '\u{dc9}'), ('\u{dcb}', '\u{dce}'), ('\u{dd5}', '\u{dd5}'),
-  ('\u{dd7}', '\u{dd7}'), ('\u{de0}', '\u{de5}'), ('\u{df0}', '\u{df1}'),
-  ('\u{df5}', '\u{e00}'), ('\u{e3b}', '\u{e3e}'), ('\u{e5c}', '\u{e80}'),
-  ('\u{e83}', '\u{e83}'), ('\u{e85}', '\u{e85}'), ('\u{e8b}', '\u{e8b}'),
-  ('\u{ea4}', '\u{ea4}'), ('\u{ea6}', '\u{ea6}'), ('\u{ebe}', '\u{ebf}'),
-  ('\u{ec5}', '\u{ec5}'), ('\u{ec7}', '\u{ec7}'), ('\u{ece}', '\u{ecf}'),
-  ('\u{eda}', '\u{edb}'), ('\u{ee0}', '\u{eff}'), ('\u{f48}', '\u{f48}'),
-  ('\u{f6d}', '\u{f70}'), ('\u{f98}', '\u{f98}'), ('\u{fbd}', '\u{fbd}'),
-  ('\u{fcd}', '\u{fcd}'), ('\u{fdb}', '\u{fff}'), ('\u{10c6}', '\u{10c6}'),
-  ('\u{10c8}', '\u{10cc}'), ('\u{10ce}', '\u{10cf}'),
-  ('\u{1249}', '\u{1249}'), ('\u{124e}', '\u{124f}'),
-  ('\u{1257}', '\u{1257}'), ('\u{1259}', '\u{1259}'),
-  ('\u{125e}', '\u{125f}'), ('\u{1289}', '\u{1289}'),
-  ('\u{128e}', '\u{128f}'), ('\u{12b1}', '\u{12b1}'),
-  ('\u{12b6}', '\u{12b7}'), ('\u{12bf}', '\u{12bf}'),
-  ('\u{12c1}', '\u{12c1}'), ('\u{12c6}', '\u{12c7}'),
-  ('\u{12d7}', '\u{12d7}'), ('\u{1311}', '\u{1311}'),
-  ('\u{1316}', '\u{1317}'), ('\u{135b}', '\u{135c}'),
-  ('\u{137d}', '\u{137f}'), ('\u{139a}', '\u{139f}'),
-  ('\u{13f6}', '\u{13f7}'), ('\u{13fe}', '\u{13ff}'),
-  ('\u{169d}', '\u{169f}'), ('\u{16f9}', '\u{16ff}'),
-  ('\u{170d}', '\u{170d}'), ('\u{1715}', '\u{171f}'),
-  ('\u{1737}', '\u{173f}'), ('\u{1754}', '\u{175f}'),
-  ('\u{176d}', '\u{176d}'), ('\u{1771}', '\u{1771}'),
-  ('\u{1774}', '\u{177f}'), ('\u{17de}', '\u{17df}'),
-  ('\u{17ea}', '\u{17ef}'), ('\u{17fa}', '\u{17ff}'),
-  ('\u{180f}', '\u{180f}'), ('\u{181a}', '\u{181f}'),
-  ('\u{1879}', '\u{187f}'), ('\u{18ab}', '\u{18af}'),
-  ('\u{18f6}', '\u{18ff}'), ('\u{191f}', '\u{191f}'),
-  ('\u{192c}', '\u{192f}'), ('\u{193c}', '\u{193f}'),
-  ('\u{1941}', '\u{1943}'), ('\u{196e}', '\u{196f}'),
-  ('\u{1975}', '\u{197f}'), ('\u{19ac}', '\u{19af}'),
-  ('\u{19ca}', '\u{19cf}'), ('\u{19db}', '\u{19dd}'),
-  ('\u{1a1c}', '\u{1a1d}'), ('\u{1a5f}', '\u{1a5f}'),
-  ('\u{1a7d}', '\u{1a7e}'), ('\u{1a8a}', '\u{1a8f}'),
-  ('\u{1a9a}', '\u{1a9f}'), ('\u{1aae}', '\u{1aaf}'),
-  ('\u{1abf}', '\u{1aff}'), ('\u{1b4c}', '\u{1b4f}'),
-  ('\u{1b7d}', '\u{1b7f}'), ('\u{1bf4}', '\u{1bfb}'),
-  ('\u{1c38}', '\u{1c3a}'), ('\u{1c4a}', '\u{1c4c}'),
-  ('\u{1c89}', '\u{1c8f}'), ('\u{1cbb}', '\u{1cbc}'),
-  ('\u{1cc8}', '\u{1ccf}'), ('\u{1cfb}', '\u{1cff}'),
-  ('\u{1dfa}', '\u{1dfa}'), ('\u{1f16}', '\u{1f17}'),
-  ('\u{1f1e}', '\u{1f1f}'), ('\u{1f46}', '\u{1f47}'),
-  ('\u{1f4e}', '\u{1f4f}'), ('\u{1f58}', '\u{1f58}'),
-  ('\u{1f5a}', '\u{1f5a}'), ('\u{1f5c}', '\u{1f5c}'),
-  ('\u{1f5e}', '\u{1f5e}'), ('\u{1f7e}', '\u{1f7f}'),
-  ('\u{1fb5}', '\u{1fb5}'), ('\u{1fc5}', '\u{1fc5}'),
-  ('\u{1fd4}', '\u{1fd5}'), ('\u{1fdc}', '\u{1fdc}'),
-  ('\u{1ff0}', '\u{1ff1}'), ('\u{1ff5}', '\u{1ff5}'),
-  ('\u{1fff}', '\u{1fff}'), ('\u{2065}', '\u{2065}'),
-  ('\u{2072}', '\u{2073}'), ('\u{208f}', '\u{208f}'),
-  ('\u{209d}', '\u{209f}'), ('\u{20c0}', '\u{20cf}'),
-  ('\u{20f1}', '\u{20ff}'), ('\u{218c}', '\u{218f}'),
-  ('\u{2427}', '\u{243f}'), ('\u{244b}', '\u{245f}'),
-  ('\u{2b74}', '\u{2b75}'), ('\u{2b96}', '\u{2b97}'),
-  ('\u{2c2f}', '\u{2c2f}'), ('\u{2c5f}', '\u{2c5f}'),
-  ('\u{2cf4}', '\u{2cf8}'), ('\u{2d26}', '\u{2d26}'),
-  ('\u{2d28}', '\u{2d2c}'), ('\u{2d2e}', '\u{2d2f}'),
-  ('\u{2d68}', '\u{2d6e}'), ('\u{2d71}', '\u{2d7e}'),
-  ('\u{2d97}', '\u{2d9f}'), ('\u{2da7}', '\u{2da7}'),
-  ('\u{2daf}', '\u{2daf}'), ('\u{2db7}', '\u{2db7}'),
-  ('\u{2dbf}', '\u{2dbf}'), ('\u{2dc7}', '\u{2dc7}'),
-  ('\u{2dcf}', '\u{2dcf}'), ('\u{2dd7}', '\u{2dd7}'),
-  ('\u{2ddf}', '\u{2ddf}'), ('\u{2e50}', '\u{2e7f}'),
-  ('\u{2e9a}', '\u{2e9a}'), ('\u{2ef4}', '\u{2eff}'),
-  ('\u{2fd6}', '\u{2fef}'), ('\u{2ffc}', '\u{2fff}'),
-  ('\u{3040}', '\u{3040}'), ('\u{3097}', '\u{3098}'),
-  ('\u{3100}', '\u{3104}'), ('\u{3130}', '\u{3130}'),
-  ('\u{318f}', '\u{318f}'), ('\u{31bb}', '\u{31bf}'),
-  ('\u{31e4}', '\u{31ef}'), ('\u{321f}', '\u{321f}'),
-  ('\u{4db6}', '\u{4dbf}'), ('\u{9ff0}', '\u{9fff}'),
-  ('\u{a48d}', '\u{a48f}'), ('\u{a4c7}', '\u{a4cf}'),
-  ('\u{a62c}', '\u{a63f}'), ('\u{a6f8}', '\u{a6ff}'),
-  ('\u{a7c0}', '\u{a7c1}'), ('\u{a7c7}', '\u{a7f6}'),
-  ('\u{a82c}', '\u{a82f}'), ('\u{a83a}', '\u{a83f}'),
-  ('\u{a878}', '\u{a87f}'), ('\u{a8c6}', '\u{a8cd}'),
-  ('\u{a8da}', '\u{a8df}'), ('\u{a954}', '\u{a95e}'),
-  ('\u{a97d}', '\u{a97f}'), ('\u{a9ce}', '\u{a9ce}'),
-  ('\u{a9da}', '\u{a9dd}'), ('\u{a9ff}', '\u{a9ff}'),
-  ('\u{aa37}', '\u{aa3f}'), ('\u{aa4e}', '\u{aa4f}'),
-  ('\u{aa5a}', '\u{aa5b}'), ('\u{aac3}', '\u{aada}'),
-  ('\u{aaf7}', '\u{ab00}'), ('\u{ab07}', '\u{ab08}'),
-  ('\u{ab0f}', '\u{ab10}'), ('\u{ab17}', '\u{ab1f}'),
-  ('\u{ab27}', '\u{ab27}'), ('\u{ab2f}', '\u{ab2f}'),
-  ('\u{ab68}', '\u{ab6f}'), ('\u{abee}', '\u{abef}'),
-  ('\u{abfa}', '\u{abff}'), ('\u{d7a4}', '\u{d7af}'),
-  ('\u{d7c7}', '\u{d7ca}'), ('\u{d7fc}', '\u{d7ff}'),
-  ('\u{fa6e}', '\u{fa6f}'), ('\u{fada}', '\u{faff}'),
-  ('\u{fb07}', '\u{fb12}'), ('\u{fb18}', '\u{fb1c}'),
-  ('\u{fb37}', '\u{fb37}'), ('\u{fb3d}', '\u{fb3d}'),
-  ('\u{fb3f}', '\u{fb3f}'), ('\u{fb42}', '\u{fb42}'),
-  ('\u{fb45}', '\u{fb45}'), ('\u{fbc2}', '\u{fbd2}'),
-  ('\u{fd40}', '\u{fd4f}'), ('\u{fd90}', '\u{fd91}'),
-  ('\u{fdc8}', '\u{fdef}'), ('\u{fdfe}', '\u{fdff}'),
-  ('\u{fe1a}', '\u{fe1f}'), ('\u{fe53}', '\u{fe53}'),
-  ('\u{fe67}', '\u{fe67}'), ('\u{fe6c}', '\u{fe6f}'),
-  ('\u{fe75}', '\u{fe75}'), ('\u{fefd}', '\u{fefe}'),
-  ('\u{ff00}', '\u{ff00}'), ('\u{ffbf}', '\u{ffc1}'),
-  ('\u{ffc8}', '\u{ffc9}'), ('\u{ffd0}', '\u{ffd1}'),
-  ('\u{ffd8}', '\u{ffd9}'), ('\u{ffdd}', '\u{ffdf}'),
-  ('\u{ffe7}', '\u{ffe7}'), ('\u{ffef}', '\u{fff8}'),
-  ('\u{fffe}', '\u{ffff}'), ('\u{1000c}', '\u{1000c}'),
-  ('\u{10027}', '\u{10027}'), ('\u{1003b}', '\u{1003b}'),
-  ('\u{1003e}', '\u{1003e}'), ('\u{1004e}', '\u{1004f}'),
-  ('\u{1005e}', '\u{1007f}'), ('\u{100fb}', '\u{100ff}'),
-  ('\u{10103}', '\u{10106}'), ('\u{10134}', '\u{10136}'),
-  ('\u{1018f}', '\u{1018f}'), ('\u{1019c}', '\u{1019f}'),
-  ('\u{101a1}', '\u{101cf}'), ('\u{101fe}', '\u{1027f}'),
-  ('\u{1029d}', '\u{1029f}'), ('\u{102d1}', '\u{102df}'),
-  ('\u{102fc}', '\u{102ff}'), ('\u{10324}', '\u{1032c}'),
-  ('\u{1034b}', '\u{1034f}'), ('\u{1037b}', '\u{1037f}'),
-  ('\u{1039e}', '\u{1039e}'), ('\u{103c4}', '\u{103c7}'),
-  ('\u{103d6}', '\u{103ff}'), ('\u{1049e}', '\u{1049f}'),
-  ('\u{104aa}', '\u{104af}'), ('\u{104d4}', '\u{104d7}'),
-  ('\u{104fc}', '\u{104ff}'), ('\u{10528}', '\u{1052f}'),
-  ('\u{10564}', '\u{1056e}'), ('\u{10570}', '\u{105ff}'),
-  ('\u{10737}', '\u{1073f}'), ('\u{10756}', '\u{1075f}'),
-  ('\u{10768}', '\u{107ff}'), ('\u{10806}', '\u{10807}'),
-  ('\u{10809}', '\u{10809}'), ('\u{10836}', '\u{10836}'),
-  ('\u{10839}', '\u{1083b}'), ('\u{1083d}', '\u{1083e}'),
-  ('\u{10856}', '\u{10856}'), ('\u{1089f}', '\u{108a6}'),
-  ('\u{108b0}', '\u{108df}'), ('\u{108f3}', '\u{108f3}'),
-  ('\u{108f6}', '\u{108fa}'), ('\u{1091c}', '\u{1091e}'),
-  ('\u{1093a}', '\u{1093e}'), ('\u{10940}', '\u{1097f}'),
-  ('\u{109b8}', '\u{109bb}'), ('\u{109d0}', '\u{109d1}'),
-  ('\u{10a04}', '\u{10a04}'), ('\u{10a07}', '\u{10a0b}'),
-  ('\u{10a14}', '\u{10a14}'), ('\u{10a18}', '\u{10a18}'),
-  ('\u{10a36}', '\u{10a37}'), ('\u{10a3b}', '\u{10a3e}'),
-  ('\u{10a49}', '\u{10a4f}'), ('\u{10a59}', '\u{10a5f}'),
-  ('\u{10aa0}', '\u{10abf}'), ('\u{10ae7}', '\u{10aea}'),
-  ('\u{10af7}', '\u{10aff}'), ('\u{10b36}', '\u{10b38}'),
-  ('\u{10b56}', '\u{10b57}'), ('\u{10b73}', '\u{10b77}'),
-  ('\u{10b92}', '\u{10b98}'), ('\u{10b9d}', '\u{10ba8}'),
-  ('\u{10bb0}', '\u{10bff}'), ('\u{10c49}', '\u{10c7f}'),
-  ('\u{10cb3}', '\u{10cbf}'), ('\u{10cf3}', '\u{10cf9}'),
-  ('\u{10d28}', '\u{10d2f}'), ('\u{10d3a}', '\u{10e5f}'),
-  ('\u{10e7f}', '\u{10eff}'), ('\u{10f28}', '\u{10f2f}'),
-  ('\u{10f5a}', '\u{10fdf}'), ('\u{10ff7}', '\u{10fff}'),
-  ('\u{1104e}', '\u{11051}'), ('\u{11070}', '\u{1107e}'),
-  ('\u{110c2}', '\u{110cc}'), ('\u{110ce}', '\u{110cf}'),
-  ('\u{110e9}', '\u{110ef}'), ('\u{110fa}', '\u{110ff}'),
-  ('\u{11135}', '\u{11135}'), ('\u{11147}', '\u{1114f}'),
-  ('\u{11177}', '\u{1117f}'), ('\u{111ce}', '\u{111cf}'),
-  ('\u{111e0}', '\u{111e0}'), ('\u{111f5}', '\u{111ff}'),
-  ('\u{11212}', '\u{11212}'), ('\u{1123f}', '\u{1127f}'),
-  ('\u{11287}', '\u{11287}'), ('\u{11289}', '\u{11289}'),
-  ('\u{1128e}', '\u{1128e}'), ('\u{1129e}', '\u{1129e}'),
-  ('\u{112aa}', '\u{112af}'), ('\u{112eb}', '\u{112ef}'),
-  ('\u{112fa}', '\u{112ff}'), ('\u{11304}', '\u{11304}'),
-  ('\u{1130d}', '\u{1130e}'), ('\u{11311}', '\u{11312}'),
-  ('\u{11329}', '\u{11329}'), ('\u{11331}', '\u{11331}'),
-  ('\u{11334}', '\u{11334}'), ('\u{1133a}', '\u{1133a}'),
-  ('\u{11345}', '\u{11346}'), ('\u{11349}', '\u{1134a}'),
-  ('\u{1134e}', '\u{1134f}'), ('\u{11351}', '\u{11356}'),
-  ('\u{11358}', '\u{1135c}'), ('\u{11364}', '\u{11365}'),
-  ('\u{1136d}', '\u{1136f}'), ('\u{11375}', '\u{113ff}'),
-  ('\u{1145a}', '\u{1145a}'), ('\u{1145c}', '\u{1145c}'),
-  ('\u{11460}', '\u{1147f}'), ('\u{114c8}', '\u{114cf}'),
-  ('\u{114da}', '\u{1157f}'), ('\u{115b6}', '\u{115b7}'),
-  ('\u{115de}', '\u{115ff}'), ('\u{11645}', '\u{1164f}'),
-  ('\u{1165a}', '\u{1165f}'), ('\u{1166d}', '\u{1167f}'),
-  ('\u{116b9}', '\u{116bf}'), ('\u{116ca}', '\u{116ff}'),
-  ('\u{1171b}', '\u{1171c}'), ('\u{1172c}', '\u{1172f}'),
-  ('\u{11740}', '\u{117ff}'), ('\u{1183c}', '\u{1189f}'),
-  ('\u{118f3}', '\u{118fe}'), ('\u{11900}', '\u{1199f}'),
-  ('\u{119a8}', '\u{119a9}'), ('\u{119d8}', '\u{119d9}'),
-  ('\u{119e5}', '\u{119ff}'), ('\u{11a48}', '\u{11a4f}'),
-  ('\u{11aa3}', '\u{11abf}'), ('\u{11af9}', '\u{11bff}'),
-  ('\u{11c09}', '\u{11c09}'), ('\u{11c37}', '\u{11c37}'),
-  ('\u{11c46}', '\u{11c4f}'), ('\u{11c6d}', '\u{11c6f}'),
-  ('\u{11c90}', '\u{11c91}'), ('\u{11ca8}', '\u{11ca8}'),
-  ('\u{11cb7}', '\u{11cff}'), ('\u{11d07}', '\u{11d07}'),
-  ('\u{11d0a}', '\u{11d0a}'), ('\u{11d37}', '\u{11d39}'),
-  ('\u{11d3b}', '\u{11d3b}'), ('\u{11d3e}', '\u{11d3e}'),
-  ('\u{11d48}', '\u{11d4f}'), ('\u{11d5a}', '\u{11d5f}'),
-  ('\u{11d66}', '\u{11d66}'), ('\u{11d69}', '\u{11d69}'),
-  ('\u{11d8f}', '\u{11d8f}'), ('\u{11d92}', '\u{11d92}'),
-  ('\u{11d99}', '\u{11d9f}'), ('\u{11daa}', '\u{11edf}'),
-  ('\u{11ef9}', '\u{11fbf}'), ('\u{11ff2}', '\u{11ffe}'),
-  ('\u{1239a}', '\u{123ff}'), ('\u{1246f}', '\u{1246f}'),
-  ('\u{12475}', '\u{1247f}'), ('\u{12544}', '\u{12fff}'),
-  ('\u{1342f}', '\u{1342f}'), ('\u{13439}', '\u{143ff}'),
-  ('\u{14647}', '\u{167ff}'), ('\u{16a39}', '\u{16a3f}'),
-  ('\u{16a5f}', '\u{16a5f}'), ('\u{16a6a}', '\u{16a6d}'),
-  ('\u{16a70}', '\u{16acf}'), ('\u{16aee}', '\u{16aef}'),
-  ('\u{16af6}', '\u{16aff}'), ('\u{16b46}', '\u{16b4f}'),
-  ('\u{16b5a}', '\u{16b5a}'), ('\u{16b62}', '\u{16b62}'),
-  ('\u{16b78}', '\u{16b7c}'), ('\u{16b90}', '\u{16e3f}'),
-  ('\u{16e9b}', '\u{16eff}'), ('\u{16f4b}', '\u{16f4e}'),
-  ('\u{16f88}', '\u{16f8e}'), ('\u{16fa0}', '\u{16fdf}'),
-  ('\u{16fe4}', '\u{16fff}'), ('\u{187f8}', '\u{187ff}'),
-  ('\u{18af3}', '\u{1afff}'), ('\u{1b11f}', '\u{1b14f}'),
-  ('\u{1b153}', '\u{1b163}'), ('\u{1b168}', '\u{1b16f}'),
-  ('\u{1b2fc}', '\u{1bbff}'), ('\u{1bc6b}', '\u{1bc6f}'),
-  ('\u{1bc7d}', '\u{1bc7f}'), ('\u{1bc89}', '\u{1bc8f}'),
-  ('\u{1bc9a}', '\u{1bc9b}'), ('\u{1bca4}', '\u{1cfff}'),
-  ('\u{1d0f6}', '\u{1d0ff}'), ('\u{1d127}', '\u{1d128}'),
-  ('\u{1d1e9}', '\u{1d1ff}'), ('\u{1d246}', '\u{1d2df}'),
-  ('\u{1d2f4}', '\u{1d2ff}'), ('\u{1d357}', '\u{1d35f}'),
-  ('\u{1d379}', '\u{1d3ff}'), ('\u{1d455}', '\u{1d455}'),
-  ('\u{1d49d}', '\u{1d49d}'), ('\u{1d4a0}', '\u{1d4a1}'),
-  ('\u{1d4a3}', '\u{1d4a4}'), ('\u{1d4a7}', '\u{1d4a8}'),
-  ('\u{1d4ad}', '\u{1d4ad}'), ('\u{1d4ba}', '\u{1d4ba}'),
-  ('\u{1d4bc}', '\u{1d4bc}'), ('\u{1d4c4}', '\u{1d4c4}'),
-  ('\u{1d506}', '\u{1d506}'), ('\u{1d50b}', '\u{1d50c}'),
-  ('\u{1d515}', '\u{1d515}'), ('\u{1d51d}', '\u{1d51d}'),
-  ('\u{1d53a}', '\u{1d53a}'), ('\u{1d53f}', '\u{1d53f}'),
-  ('\u{1d545}', '\u{1d545}'), ('\u{1d547}', '\u{1d549}'),
-  ('\u{1d551}', '\u{1d551}'), ('\u{1d6a6}', '\u{1d6a7}'),
-  ('\u{1d7cc}', '\u{1d7cd}'), ('\u{1da8c}', '\u{1da9a}'),
-  ('\u{1daa0}', '\u{1daa0}'), ('\u{1dab0}', '\u{1dfff}'),
-  ('\u{1e007}', '\u{1e007}'), ('\u{1e019}', '\u{1e01a}'),
-  ('\u{1e022}', '\u{1e022}'), ('\u{1e025}', '\u{1e025}'),
-  ('\u{1e02b}', '\u{1e0ff}'), ('\u{1e12d}', '\u{1e12f}'),
-  ('\u{1e13e}', '\u{1e13f}'), ('\u{1e14a}', '\u{1e14d}'),
-  ('\u{1e150}', '\u{1e2bf}'), ('\u{1e2fa}', '\u{1e2fe}'),
-  ('\u{1e300}', '\u{1e7ff}'), ('\u{1e8c5}', '\u{1e8c6}'),
-  ('\u{1e8d7}', '\u{1e8ff}'), ('\u{1e94c}', '\u{1e94f}'),
-  ('\u{1e95a}', '\u{1e95d}'), ('\u{1e960}', '\u{1ec70}'),
-  ('\u{1ecb5}', '\u{1ed00}'), ('\u{1ed3e}', '\u{1edff}'),
-  ('\u{1ee04}', '\u{1ee04}'), ('\u{1ee20}', '\u{1ee20}'),
-  ('\u{1ee23}', '\u{1ee23}'), ('\u{1ee25}', '\u{1ee26}'),
-  ('\u{1ee28}', '\u{1ee28}'), ('\u{1ee33}', '\u{1ee33}'),
-  ('\u{1ee38}', '\u{1ee38}'), ('\u{1ee3a}', '\u{1ee3a}'),
-  ('\u{1ee3c}', '\u{1ee41}'), ('\u{1ee43}', '\u{1ee46}'),
-  ('\u{1ee48}', '\u{1ee48}'), ('\u{1ee4a}', '\u{1ee4a}'),
-  ('\u{1ee4c}', '\u{1ee4c}'), ('\u{1ee50}', '\u{1ee50}'),
-  ('\u{1ee53}', '\u{1ee53}'), ('\u{1ee55}', '\u{1ee56}'),
-  ('\u{1ee58}', '\u{1ee58}'), ('\u{1ee5a}', '\u{1ee5a}'),
-  ('\u{1ee5c}', '\u{1ee5c}'), ('\u{1ee5e}', '\u{1ee5e}'),
-  ('\u{1ee60}', '\u{1ee60}'), ('\u{1ee63}', '\u{1ee63}'),
-  ('\u{1ee65}', '\u{1ee66}'), ('\u{1ee6b}', '\u{1ee6b}'),
-  ('\u{1ee73}', '\u{1ee73}'), ('\u{1ee78}', '\u{1ee78}'),
-  ('\u{1ee7d}', '\u{1ee7d}'), ('\u{1ee7f}', '\u{1ee7f}'),
-  ('\u{1ee8a}', '\u{1ee8a}'), ('\u{1ee9c}', '\u{1eea0}'),
-  ('\u{1eea4}', '\u{1eea4}'), ('\u{1eeaa}', '\u{1eeaa}'),
-  ('\u{1eebc}', '\u{1eeef}'), ('\u{1eef2}', '\u{1efff}'),
-  ('\u{1f02c}', '\u{1f02f}'), ('\u{1f094}', '\u{1f09f}'),
-  ('\u{1f0af}', '\u{1f0b0}'), ('\u{1f0c0}', '\u{1f0c0}'),
-  ('\u{1f0d0}', '\u{1f0d0}'), ('\u{1f0f6}', '\u{1f0ff}'),
-  ('\u{1f10d}', '\u{1f10f}'), ('\u{1f16d}', '\u{1f16f}'),
-  ('\u{1f1ad}', '\u{1f1e5}'), ('\u{1f203}', '\u{1f20f}'),
-  ('\u{1f23c}', '\u{1f23f}'), ('\u{1f249}', '\u{1f24f}'),
-  ('\u{1f252}', '\u{1f25f}'), ('\u{1f266}', '\u{1f2ff}'),
-  ('\u{1f6d6}', '\u{1f6df}'), ('\u{1f6ed}', '\u{1f6ef}'),
-  ('\u{1f6fb}', '\u{1f6ff}'), ('\u{1f774}', '\u{1f77f}'),
-  ('\u{1f7d9}', '\u{1f7df}'), ('\u{1f7ec}', '\u{1f7ff}'),
-  ('\u{1f80c}', '\u{1f80f}'), ('\u{1f848}', '\u{1f84f}'),
-  ('\u{1f85a}', '\u{1f85f}'), ('\u{1f888}', '\u{1f88f}'),
-  ('\u{1f8ae}', '\u{1f8ff}'), ('\u{1f90c}', '\u{1f90c}'),
-  ('\u{1f972}', '\u{1f972}'), ('\u{1f977}', '\u{1f979}'),
-  ('\u{1f9a3}', '\u{1f9a4}'), ('\u{1f9ab}', '\u{1f9ad}'),
-  ('\u{1f9cb}', '\u{1f9cc}'), ('\u{1fa54}', '\u{1fa5f}'),
-  ('\u{1fa6e}', '\u{1fa6f}'), ('\u{1fa74}', '\u{1fa77}'),
-  ('\u{1fa7b}', '\u{1fa7f}'), ('\u{1fa83}', '\u{1fa8f}'),
-  ('\u{1fa96}', '\u{1ffff}'), ('\u{2a6d7}', '\u{2a6ff}'),
-  ('\u{2b735}', '\u{2b73f}'), ('\u{2b81e}', '\u{2b81f}'),
-  ('\u{2cea2}', '\u{2ceaf}'), ('\u{2ebe1}', '\u{2f7ff}'),
-  ('\u{2fa1e}', '\u{e0000}'), ('\u{e0002}', '\u{e001f}'),
-  ('\u{e0080}', '\u{e00ff}'), ('\u{e01f0}', '\u{effff}'),
-  ('\u{ffffe}', '\u{fffff}'), ('\u{10fffe}', '\u{10ffff}'),
-];
-
-pub const UPPERCASE_LETTER: &'static [(char, char)] = &[
-  ('A', 'Z'), ('À', 'Ö'), ('Ø', 'Þ'), ('Ā', 'Ā'), ('Ă', 'Ă'),
-  ('Ą', 'Ą'), ('Ć', 'Ć'), ('Ĉ', 'Ĉ'), ('Ċ', 'Ċ'), ('Č', 'Č'),
-  ('Ď', 'Ď'), ('Đ', 'Đ'), ('Ē', 'Ē'), ('Ĕ', 'Ĕ'), ('Ė', 'Ė'),
-  ('Ę', 'Ę'), ('Ě', 'Ě'), ('Ĝ', 'Ĝ'), ('Ğ', 'Ğ'), ('Ġ', 'Ġ'),
-  ('Ģ', 'Ģ'), ('Ĥ', 'Ĥ'), ('Ħ', 'Ħ'), ('Ĩ', 'Ĩ'), ('Ī', 'Ī'),
-  ('Ĭ', 'Ĭ'), ('Į', 'Į'), ('İ', 'İ'), ('IJ', 'IJ'), ('Ĵ', 'Ĵ'),
-  ('Ķ', 'Ķ'), ('Ĺ', 'Ĺ'), ('Ļ', 'Ļ'), ('Ľ', 'Ľ'), ('Ŀ', 'Ŀ'),
-  ('Ł', 'Ł'), ('Ń', 'Ń'), ('Ņ', 'Ņ'), ('Ň', 'Ň'), ('Ŋ', 'Ŋ'),
-  ('Ō', 'Ō'), ('Ŏ', 'Ŏ'), ('Ő', 'Ő'), ('Œ', 'Œ'), ('Ŕ', 'Ŕ'),
-  ('Ŗ', 'Ŗ'), ('Ř', 'Ř'), ('Ś', 'Ś'), ('Ŝ', 'Ŝ'), ('Ş', 'Ş'),
-  ('Š', 'Š'), ('Ţ', 'Ţ'), ('Ť', 'Ť'), ('Ŧ', 'Ŧ'), ('Ũ', 'Ũ'),
-  ('Ū', 'Ū'), ('Ŭ', 'Ŭ'), ('Ů', 'Ů'), ('Ű', 'Ű'), ('Ų', 'Ų'),
-  ('Ŵ', 'Ŵ'), ('Ŷ', 'Ŷ'), ('Ÿ', 'Ź'), ('Ż', 'Ż'), ('Ž', 'Ž'),
-  ('Ɓ', 'Ƃ'), ('Ƅ', 'Ƅ'), ('Ɔ', 'Ƈ'), ('Ɖ', 'Ƌ'), ('Ǝ', 'Ƒ'),
-  ('Ɠ', 'Ɣ'), ('Ɩ', 'Ƙ'), ('Ɯ', 'Ɲ'), ('Ɵ', 'Ơ'), ('Ƣ', 'Ƣ'),
-  ('Ƥ', 'Ƥ'), ('Ʀ', 'Ƨ'), ('Ʃ', 'Ʃ'), ('Ƭ', 'Ƭ'), ('Ʈ', 'Ư'),
-  ('Ʊ', 'Ƴ'), ('Ƶ', 'Ƶ'), ('Ʒ', 'Ƹ'), ('Ƽ', 'Ƽ'), ('DŽ', 'DŽ'),
-  ('LJ', 'LJ'), ('NJ', 'NJ'), ('Ǎ', 'Ǎ'), ('Ǐ', 'Ǐ'), ('Ǒ', 'Ǒ'),
-  ('Ǔ', 'Ǔ'), ('Ǖ', 'Ǖ'), ('Ǘ', 'Ǘ'), ('Ǚ', 'Ǚ'), ('Ǜ', 'Ǜ'),
-  ('Ǟ', 'Ǟ'), ('Ǡ', 'Ǡ'), ('Ǣ', 'Ǣ'), ('Ǥ', 'Ǥ'), ('Ǧ', 'Ǧ'),
-  ('Ǩ', 'Ǩ'), ('Ǫ', 'Ǫ'), ('Ǭ', 'Ǭ'), ('Ǯ', 'Ǯ'), ('DZ', 'DZ'),
-  ('Ǵ', 'Ǵ'), ('Ƕ', 'Ǹ'), ('Ǻ', 'Ǻ'), ('Ǽ', 'Ǽ'), ('Ǿ', 'Ǿ'),
-  ('Ȁ', 'Ȁ'), ('Ȃ', 'Ȃ'), ('Ȅ', 'Ȅ'), ('Ȇ', 'Ȇ'), ('Ȉ', 'Ȉ'),
-  ('Ȋ', 'Ȋ'), ('Ȍ', 'Ȍ'), ('Ȏ', 'Ȏ'), ('Ȑ', 'Ȑ'), ('Ȓ', 'Ȓ'),
-  ('Ȕ', 'Ȕ'), ('Ȗ', 'Ȗ'), ('Ș', 'Ș'), ('Ț', 'Ț'), ('Ȝ', 'Ȝ'),
-  ('Ȟ', 'Ȟ'), ('Ƞ', 'Ƞ'), ('Ȣ', 'Ȣ'), ('Ȥ', 'Ȥ'), ('Ȧ', 'Ȧ'),
-  ('Ȩ', 'Ȩ'), ('Ȫ', 'Ȫ'), ('Ȭ', 'Ȭ'), ('Ȯ', 'Ȯ'), ('Ȱ', 'Ȱ'),
-  ('Ȳ', 'Ȳ'), ('Ⱥ', 'Ȼ'), ('Ƚ', 'Ⱦ'), ('Ɂ', 'Ɂ'), ('Ƀ', 'Ɇ'),
-  ('Ɉ', 'Ɉ'), ('Ɋ', 'Ɋ'), ('Ɍ', 'Ɍ'), ('Ɏ', 'Ɏ'), ('Ͱ', 'Ͱ'),
-  ('Ͳ', 'Ͳ'), ('Ͷ', 'Ͷ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ώ'), ('Α', 'Ρ'), ('Σ', 'Ϋ'), ('Ϗ', 'Ϗ'),
-  ('ϒ', 'ϔ'), ('Ϙ', 'Ϙ'), ('Ϛ', 'Ϛ'), ('Ϝ', 'Ϝ'), ('Ϟ', 'Ϟ'),
-  ('Ϡ', 'Ϡ'), ('Ϣ', 'Ϣ'), ('Ϥ', 'Ϥ'), ('Ϧ', 'Ϧ'), ('Ϩ', 'Ϩ'),
-  ('Ϫ', 'Ϫ'), ('Ϭ', 'Ϭ'), ('Ϯ', 'Ϯ'), ('ϴ', 'ϴ'), ('Ϸ', 'Ϸ'),
-  ('Ϲ', 'Ϻ'), ('Ͻ', 'Я'), ('Ѡ', 'Ѡ'), ('Ѣ', 'Ѣ'), ('Ѥ', 'Ѥ'),
-  ('Ѧ', 'Ѧ'), ('Ѩ', 'Ѩ'), ('Ѫ', 'Ѫ'), ('Ѭ', 'Ѭ'), ('Ѯ', 'Ѯ'),
-  ('Ѱ', 'Ѱ'), ('Ѳ', 'Ѳ'), ('Ѵ', 'Ѵ'), ('Ѷ', 'Ѷ'), ('Ѹ', 'Ѹ'),
-  ('Ѻ', 'Ѻ'), ('Ѽ', 'Ѽ'), ('Ѿ', 'Ѿ'), ('Ҁ', 'Ҁ'), ('Ҋ', 'Ҋ'),
-  ('Ҍ', 'Ҍ'), ('Ҏ', 'Ҏ'), ('Ґ', 'Ґ'), ('Ғ', 'Ғ'), ('Ҕ', 'Ҕ'),
-  ('Җ', 'Җ'), ('Ҙ', 'Ҙ'), ('Қ', 'Қ'), ('Ҝ', 'Ҝ'), ('Ҟ', 'Ҟ'),
-  ('Ҡ', 'Ҡ'), ('Ң', 'Ң'), ('Ҥ', 'Ҥ'), ('Ҧ', 'Ҧ'), ('Ҩ', 'Ҩ'),
-  ('Ҫ', 'Ҫ'), ('Ҭ', 'Ҭ'), ('Ү', 'Ү'), ('Ұ', 'Ұ'), ('Ҳ', 'Ҳ'),
-  ('Ҵ', 'Ҵ'), ('Ҷ', 'Ҷ'), ('Ҹ', 'Ҹ'), ('Һ', 'Һ'), ('Ҽ', 'Ҽ'),
-  ('Ҿ', 'Ҿ'), ('Ӏ', 'Ӂ'), ('Ӄ', 'Ӄ'), ('Ӆ', 'Ӆ'), ('Ӈ', 'Ӈ'),
-  ('Ӊ', 'Ӊ'), ('Ӌ', 'Ӌ'), ('Ӎ', 'Ӎ'), ('Ӑ', 'Ӑ'), ('Ӓ', 'Ӓ'),
-  ('Ӕ', 'Ӕ'), ('Ӗ', 'Ӗ'), ('Ә', 'Ә'), ('Ӛ', 'Ӛ'), ('Ӝ', 'Ӝ'),
-  ('Ӟ', 'Ӟ'), ('Ӡ', 'Ӡ'), ('Ӣ', 'Ӣ'), ('Ӥ', 'Ӥ'), ('Ӧ', 'Ӧ'),
-  ('Ө', 'Ө'), ('Ӫ', 'Ӫ'), ('Ӭ', 'Ӭ'), ('Ӯ', 'Ӯ'), ('Ӱ', 'Ӱ'),
-  ('Ӳ', 'Ӳ'), ('Ӵ', 'Ӵ'), ('Ӷ', 'Ӷ'), ('Ӹ', 'Ӹ'), ('Ӻ', 'Ӻ'),
-  ('Ӽ', 'Ӽ'), ('Ӿ', 'Ӿ'), ('Ԁ', 'Ԁ'), ('Ԃ', 'Ԃ'), ('Ԅ', 'Ԅ'),
-  ('Ԇ', 'Ԇ'), ('Ԉ', 'Ԉ'), ('Ԋ', 'Ԋ'), ('Ԍ', 'Ԍ'), ('Ԏ', 'Ԏ'),
-  ('Ԑ', 'Ԑ'), ('Ԓ', 'Ԓ'), ('Ԕ', 'Ԕ'), ('Ԗ', 'Ԗ'), ('Ԙ', 'Ԙ'),
-  ('Ԛ', 'Ԛ'), ('Ԝ', 'Ԝ'), ('Ԟ', 'Ԟ'), ('Ԡ', 'Ԡ'), ('Ԣ', 'Ԣ'),
-  ('Ԥ', 'Ԥ'), ('Ԧ', 'Ԧ'), ('Ԩ', 'Ԩ'), ('Ԫ', 'Ԫ'), ('Ԭ', 'Ԭ'),
-  ('Ԯ', 'Ԯ'), ('Ա', 'Ֆ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('Ꭰ', 'Ᏽ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('Ḁ', 'Ḁ'),
-  ('Ḃ', 'Ḃ'), ('Ḅ', 'Ḅ'), ('Ḇ', 'Ḇ'), ('Ḉ', 'Ḉ'),
-  ('Ḋ', 'Ḋ'), ('Ḍ', 'Ḍ'), ('Ḏ', 'Ḏ'), ('Ḑ', 'Ḑ'),
-  ('Ḓ', 'Ḓ'), ('Ḕ', 'Ḕ'), ('Ḗ', 'Ḗ'), ('Ḙ', 'Ḙ'),
-  ('Ḛ', 'Ḛ'), ('Ḝ', 'Ḝ'), ('Ḟ', 'Ḟ'), ('Ḡ', 'Ḡ'),
-  ('Ḣ', 'Ḣ'), ('Ḥ', 'Ḥ'), ('Ḧ', 'Ḧ'), ('Ḩ', 'Ḩ'),
-  ('Ḫ', 'Ḫ'), ('Ḭ', 'Ḭ'), ('Ḯ', 'Ḯ'), ('Ḱ', 'Ḱ'),
-  ('Ḳ', 'Ḳ'), ('Ḵ', 'Ḵ'), ('Ḷ', 'Ḷ'), ('Ḹ', 'Ḹ'),
-  ('Ḻ', 'Ḻ'), ('Ḽ', 'Ḽ'), ('Ḿ', 'Ḿ'), ('Ṁ', 'Ṁ'),
-  ('Ṃ', 'Ṃ'), ('Ṅ', 'Ṅ'), ('Ṇ', 'Ṇ'), ('Ṉ', 'Ṉ'),
-  ('Ṋ', 'Ṋ'), ('Ṍ', 'Ṍ'), ('Ṏ', 'Ṏ'), ('Ṑ', 'Ṑ'),
-  ('Ṓ', 'Ṓ'), ('Ṕ', 'Ṕ'), ('Ṗ', 'Ṗ'), ('Ṙ', 'Ṙ'),
-  ('Ṛ', 'Ṛ'), ('Ṝ', 'Ṝ'), ('Ṟ', 'Ṟ'), ('Ṡ', 'Ṡ'),
-  ('Ṣ', 'Ṣ'), ('Ṥ', 'Ṥ'), ('Ṧ', 'Ṧ'), ('Ṩ', 'Ṩ'),
-  ('Ṫ', 'Ṫ'), ('Ṭ', 'Ṭ'), ('Ṯ', 'Ṯ'), ('Ṱ', 'Ṱ'),
-  ('Ṳ', 'Ṳ'), ('Ṵ', 'Ṵ'), ('Ṷ', 'Ṷ'), ('Ṹ', 'Ṹ'),
-  ('Ṻ', 'Ṻ'), ('Ṽ', 'Ṽ'), ('Ṿ', 'Ṿ'), ('Ẁ', 'Ẁ'),
-  ('Ẃ', 'Ẃ'), ('Ẅ', 'Ẅ'), ('Ẇ', 'Ẇ'), ('Ẉ', 'Ẉ'),
-  ('Ẋ', 'Ẋ'), ('Ẍ', 'Ẍ'), ('Ẏ', 'Ẏ'), ('Ẑ', 'Ẑ'),
-  ('Ẓ', 'Ẓ'), ('Ẕ', 'Ẕ'), ('ẞ', 'ẞ'), ('Ạ', 'Ạ'),
-  ('Ả', 'Ả'), ('Ấ', 'Ấ'), ('Ầ', 'Ầ'), ('Ẩ', 'Ẩ'),
-  ('Ẫ', 'Ẫ'), ('Ậ', 'Ậ'), ('Ắ', 'Ắ'), ('Ằ', 'Ằ'),
-  ('Ẳ', 'Ẳ'), ('Ẵ', 'Ẵ'), ('Ặ', 'Ặ'), ('Ẹ', 'Ẹ'),
-  ('Ẻ', 'Ẻ'), ('Ẽ', 'Ẽ'), ('Ế', 'Ế'), ('Ề', 'Ề'),
-  ('Ể', 'Ể'), ('Ễ', 'Ễ'), ('Ệ', 'Ệ'), ('Ỉ', 'Ỉ'),
-  ('Ị', 'Ị'), ('Ọ', 'Ọ'), ('Ỏ', 'Ỏ'), ('Ố', 'Ố'),
-  ('Ồ', 'Ồ'), ('Ổ', 'Ổ'), ('Ỗ', 'Ỗ'), ('Ộ', 'Ộ'),
-  ('Ớ', 'Ớ'), ('Ờ', 'Ờ'), ('Ở', 'Ở'), ('Ỡ', 'Ỡ'),
-  ('Ợ', 'Ợ'), ('Ụ', 'Ụ'), ('Ủ', 'Ủ'), ('Ứ', 'Ứ'),
-  ('Ừ', 'Ừ'), ('Ử', 'Ử'), ('Ữ', 'Ữ'), ('Ự', 'Ự'),
-  ('Ỳ', 'Ỳ'), ('Ỵ', 'Ỵ'), ('Ỷ', 'Ỷ'), ('Ỹ', 'Ỹ'),
-  ('Ỻ', 'Ỻ'), ('Ỽ', 'Ỽ'), ('Ỿ', 'Ỿ'), ('Ἀ', 'Ἇ'),
-  ('Ἐ', 'Ἕ'), ('Ἠ', 'Ἧ'), ('Ἰ', 'Ἷ'), ('Ὀ', 'Ὅ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'Ὗ'),
-  ('Ὠ', 'Ὧ'), ('Ᾰ', 'Ά'), ('Ὲ', 'Ή'), ('Ῐ', 'Ί'),
-  ('Ῠ', 'Ῥ'), ('Ὸ', 'Ώ'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'),
-  ('ℋ', 'ℍ'), ('ℐ', 'ℒ'), ('ℕ', 'ℕ'), ('ℙ', 'ℝ'),
-  ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'), ('K', 'ℭ'),
-  ('ℰ', 'ℳ'), ('ℾ', 'ℿ'), ('ⅅ', 'ⅅ'), ('Ↄ', 'Ↄ'),
-  ('Ⰰ', 'Ⱞ'), ('Ⱡ', 'Ⱡ'), ('Ɫ', 'Ɽ'), ('Ⱨ', 'Ⱨ'),
-  ('Ⱪ', 'Ⱪ'), ('Ⱬ', 'Ⱬ'), ('Ɑ', 'Ɒ'), ('Ⱳ', 'Ⱳ'),
-  ('Ⱶ', 'Ⱶ'), ('Ȿ', 'Ⲁ'), ('Ⲃ', 'Ⲃ'), ('Ⲅ', 'Ⲅ'),
-  ('Ⲇ', 'Ⲇ'), ('Ⲉ', 'Ⲉ'), ('Ⲋ', 'Ⲋ'), ('Ⲍ', 'Ⲍ'),
-  ('Ⲏ', 'Ⲏ'), ('Ⲑ', 'Ⲑ'), ('Ⲓ', 'Ⲓ'), ('Ⲕ', 'Ⲕ'),
-  ('Ⲗ', 'Ⲗ'), ('Ⲙ', 'Ⲙ'), ('Ⲛ', 'Ⲛ'), ('Ⲝ', 'Ⲝ'),
-  ('Ⲟ', 'Ⲟ'), ('Ⲡ', 'Ⲡ'), ('Ⲣ', 'Ⲣ'), ('Ⲥ', 'Ⲥ'),
-  ('Ⲧ', 'Ⲧ'), ('Ⲩ', 'Ⲩ'), ('Ⲫ', 'Ⲫ'), ('Ⲭ', 'Ⲭ'),
-  ('Ⲯ', 'Ⲯ'), ('Ⲱ', 'Ⲱ'), ('Ⲳ', 'Ⲳ'), ('Ⲵ', 'Ⲵ'),
-  ('Ⲷ', 'Ⲷ'), ('Ⲹ', 'Ⲹ'), ('Ⲻ', 'Ⲻ'), ('Ⲽ', 'Ⲽ'),
-  ('Ⲿ', 'Ⲿ'), ('Ⳁ', 'Ⳁ'), ('Ⳃ', 'Ⳃ'), ('Ⳅ', 'Ⳅ'),
-  ('Ⳇ', 'Ⳇ'), ('Ⳉ', 'Ⳉ'), ('Ⳋ', 'Ⳋ'), ('Ⳍ', 'Ⳍ'),
-  ('Ⳏ', 'Ⳏ'), ('Ⳑ', 'Ⳑ'), ('Ⳓ', 'Ⳓ'), ('Ⳕ', 'Ⳕ'),
-  ('Ⳗ', 'Ⳗ'), ('Ⳙ', 'Ⳙ'), ('Ⳛ', 'Ⳛ'), ('Ⳝ', 'Ⳝ'),
-  ('Ⳟ', 'Ⳟ'), ('Ⳡ', 'Ⳡ'), ('Ⳣ', 'Ⳣ'), ('Ⳬ', 'Ⳬ'),
-  ('Ⳮ', 'Ⳮ'), ('Ⳳ', 'Ⳳ'), ('Ꙁ', 'Ꙁ'), ('Ꙃ', 'Ꙃ'),
-  ('Ꙅ', 'Ꙅ'), ('Ꙇ', 'Ꙇ'), ('Ꙉ', 'Ꙉ'), ('Ꙋ', 'Ꙋ'),
-  ('Ꙍ', 'Ꙍ'), ('Ꙏ', 'Ꙏ'), ('Ꙑ', 'Ꙑ'), ('Ꙓ', 'Ꙓ'),
-  ('Ꙕ', 'Ꙕ'), ('Ꙗ', 'Ꙗ'), ('Ꙙ', 'Ꙙ'), ('Ꙛ', 'Ꙛ'),
-  ('Ꙝ', 'Ꙝ'), ('Ꙟ', 'Ꙟ'), ('Ꙡ', 'Ꙡ'), ('Ꙣ', 'Ꙣ'),
-  ('Ꙥ', 'Ꙥ'), ('Ꙧ', 'Ꙧ'), ('Ꙩ', 'Ꙩ'), ('Ꙫ', 'Ꙫ'),
-  ('Ꙭ', 'Ꙭ'), ('Ꚁ', 'Ꚁ'), ('Ꚃ', 'Ꚃ'), ('Ꚅ', 'Ꚅ'),
-  ('Ꚇ', 'Ꚇ'), ('Ꚉ', 'Ꚉ'), ('Ꚋ', 'Ꚋ'), ('Ꚍ', 'Ꚍ'),
-  ('Ꚏ', 'Ꚏ'), ('Ꚑ', 'Ꚑ'), ('Ꚓ', 'Ꚓ'), ('Ꚕ', 'Ꚕ'),
-  ('Ꚗ', 'Ꚗ'), ('Ꚙ', 'Ꚙ'), ('Ꚛ', 'Ꚛ'), ('Ꜣ', 'Ꜣ'),
-  ('Ꜥ', 'Ꜥ'), ('Ꜧ', 'Ꜧ'), ('Ꜩ', 'Ꜩ'), ('Ꜫ', 'Ꜫ'),
-  ('Ꜭ', 'Ꜭ'), ('Ꜯ', 'Ꜯ'), ('Ꜳ', 'Ꜳ'), ('Ꜵ', 'Ꜵ'),
-  ('Ꜷ', 'Ꜷ'), ('Ꜹ', 'Ꜹ'), ('Ꜻ', 'Ꜻ'), ('Ꜽ', 'Ꜽ'),
-  ('Ꜿ', 'Ꜿ'), ('Ꝁ', 'Ꝁ'), ('Ꝃ', 'Ꝃ'), ('Ꝅ', 'Ꝅ'),
-  ('Ꝇ', 'Ꝇ'), ('Ꝉ', 'Ꝉ'), ('Ꝋ', 'Ꝋ'), ('Ꝍ', 'Ꝍ'),
-  ('Ꝏ', 'Ꝏ'), ('Ꝑ', 'Ꝑ'), ('Ꝓ', 'Ꝓ'), ('Ꝕ', 'Ꝕ'),
-  ('Ꝗ', 'Ꝗ'), ('Ꝙ', 'Ꝙ'), ('Ꝛ', 'Ꝛ'), ('Ꝝ', 'Ꝝ'),
-  ('Ꝟ', 'Ꝟ'), ('Ꝡ', 'Ꝡ'), ('Ꝣ', 'Ꝣ'), ('Ꝥ', 'Ꝥ'),
-  ('Ꝧ', 'Ꝧ'), ('Ꝩ', 'Ꝩ'), ('Ꝫ', 'Ꝫ'), ('Ꝭ', 'Ꝭ'),
-  ('Ꝯ', 'Ꝯ'), ('Ꝺ', 'Ꝺ'), ('Ꝼ', 'Ꝼ'), ('Ᵹ', 'Ꝿ'),
-  ('Ꞁ', 'Ꞁ'), ('Ꞃ', 'Ꞃ'), ('Ꞅ', 'Ꞅ'), ('Ꞇ', 'Ꞇ'),
-  ('Ꞌ', 'Ꞌ'), ('Ɥ', 'Ɥ'), ('Ꞑ', 'Ꞑ'), ('Ꞓ', 'Ꞓ'),
-  ('Ꞗ', 'Ꞗ'), ('Ꞙ', 'Ꞙ'), ('Ꞛ', 'Ꞛ'), ('Ꞝ', 'Ꞝ'),
-  ('Ꞟ', 'Ꞟ'), ('Ꞡ', 'Ꞡ'), ('Ꞣ', 'Ꞣ'), ('Ꞥ', 'Ꞥ'),
-  ('Ꞧ', 'Ꞧ'), ('Ꞩ', 'Ꞩ'), ('Ɦ', 'Ɪ'), ('Ʞ', 'Ꞵ'),
-  ('Ꞷ', 'Ꞷ'), ('Ꞹ', 'Ꞹ'), ('\u{a7ba}', '\u{a7ba}'),
-  ('\u{a7bc}', '\u{a7bc}'), ('\u{a7be}', '\u{a7be}'),
-  ('\u{a7c2}', '\u{a7c2}'), ('\u{a7c4}', '\u{a7c6}'), ('A', 'Z'),
-  ('𐐀', '𐐧'), ('𐒰', '𐓓'), ('𐲀', '𐲲'), ('𑢠', '𑢿'),
-  ('𖹀', '𖹟'), ('𝐀', '𝐙'), ('𝐴', '𝑍'), ('𝑨', '𝒁'),
-  ('𝒜', '𝒜'), ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'),
-  ('𝒩', '𝒬'), ('𝒮', '𝒵'), ('𝓐', '𝓩'), ('𝔄', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔸', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕬', '𝖅'), ('𝖠', '𝖹'), ('𝗔', '𝗭'), ('𝘈', '𝘡'),
-  ('𝘼', '𝙕'), ('𝙰', '𝚉'), ('𝚨', '𝛀'), ('𝛢', '𝛺'),
-  ('𝜜', '𝜴'), ('𝝖', '𝝮'), ('𝞐', '𝞨'), ('𝟊', '𝟊'),
-  ('𞤀', '𞤡'),
-];
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/unicode_tables/grapheme_cluster_break.rs.html b/target/doc/src/regex_syntax/unicode_tables/grapheme_cluster_break.rs.html deleted file mode 100644 index fe86796..0000000 --- a/target/doc/src/regex_syntax/unicode_tables/grapheme_cluster_break.rs.html +++ /dev/null @@ -1,921 +0,0 @@ -grapheme_cluster_break.rs.html -- source
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate grapheme-cluster-break /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("CR", CR), ("Control", CONTROL), ("Extend", EXTEND), ("L", L), ("LF", LF),
-  ("LV", LV), ("LVT", LVT), ("Prepend", PREPEND),
-  ("Regional_Indicator", REGIONAL_INDICATOR), ("SpacingMark", SPACINGMARK),
-  ("T", T), ("V", V), ("ZWJ", ZWJ),
-];
-
-pub const CR: &'static [(char, char)] = &[
-  ('\r', '\r'),
-];
-
-pub const CONTROL: &'static [(char, char)] = &[
-  ('\u{0}', '\t'), ('\u{b}', '\u{c}'), ('\u{e}', '\u{1f}'),
-  ('\u{7f}', '\u{9f}'), ('\u{ad}', '\u{ad}'), ('\u{61c}', '\u{61c}'),
-  ('\u{180e}', '\u{180e}'), ('\u{200b}', '\u{200b}'),
-  ('\u{200e}', '\u{200f}'), ('\u{2028}', '\u{202e}'),
-  ('\u{2060}', '\u{206f}'), ('\u{feff}', '\u{feff}'),
-  ('\u{fff0}', '\u{fffb}'), ('\u{13430}', '\u{13438}'),
-  ('\u{1bca0}', '\u{1bca3}'), ('\u{1d173}', '\u{1d17a}'),
-  ('\u{e0000}', '\u{e001f}'), ('\u{e0080}', '\u{e00ff}'),
-  ('\u{e01f0}', '\u{e0fff}'),
-];
-
-pub const EXTEND: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{483}', '\u{489}'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6df}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', '\u{7f3}'),
-  ('\u{7fd}', '\u{7fd}'), ('\u{816}', '\u{819}'), ('\u{81b}', '\u{823}'),
-  ('\u{825}', '\u{827}'), ('\u{829}', '\u{82d}'), ('\u{859}', '\u{85b}'),
-  ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', '\u{902}'), ('\u{93a}', '\u{93a}'),
-  ('\u{93c}', '\u{93c}'), ('\u{941}', '\u{948}'), ('\u{94d}', '\u{94d}'),
-  ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'), ('\u{981}', '\u{981}'),
-  ('\u{9bc}', '\u{9bc}'), ('\u{9be}', '\u{9be}'), ('\u{9c1}', '\u{9c4}'),
-  ('\u{9cd}', '\u{9cd}'), ('\u{9d7}', '\u{9d7}'), ('\u{9e2}', '\u{9e3}'),
-  ('\u{9fe}', '\u{9fe}'), ('\u{a01}', '\u{a02}'), ('\u{a3c}', '\u{a3c}'),
-  ('\u{a41}', '\u{a42}'), ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'),
-  ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'), ('\u{a75}', '\u{a75}'),
-  ('\u{a81}', '\u{a82}'), ('\u{abc}', '\u{abc}'), ('\u{ac1}', '\u{ac5}'),
-  ('\u{ac7}', '\u{ac8}'), ('\u{acd}', '\u{acd}'), ('\u{ae2}', '\u{ae3}'),
-  ('\u{afa}', '\u{aff}'), ('\u{b01}', '\u{b01}'), ('\u{b3c}', '\u{b3c}'),
-  ('\u{b3e}', '\u{b3f}'), ('\u{b41}', '\u{b44}'), ('\u{b4d}', '\u{b4d}'),
-  ('\u{b56}', '\u{b57}'), ('\u{b62}', '\u{b63}'), ('\u{b82}', '\u{b82}'),
-  ('\u{bbe}', '\u{bbe}'), ('\u{bc0}', '\u{bc0}'), ('\u{bcd}', '\u{bcd}'),
-  ('\u{bd7}', '\u{bd7}'), ('\u{c00}', '\u{c00}'), ('\u{c04}', '\u{c04}'),
-  ('\u{c3e}', '\u{c40}'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'), ('\u{c81}', '\u{c81}'),
-  ('\u{cbc}', '\u{cbc}'), ('\u{cbf}', '\u{cbf}'), ('\u{cc2}', '\u{cc2}'),
-  ('\u{cc6}', '\u{cc6}'), ('\u{ccc}', '\u{ccd}'), ('\u{cd5}', '\u{cd6}'),
-  ('\u{ce2}', '\u{ce3}'), ('\u{d00}', '\u{d01}'), ('\u{d3b}', '\u{d3c}'),
-  ('\u{d3e}', '\u{d3e}'), ('\u{d41}', '\u{d44}'), ('\u{d4d}', '\u{d4d}'),
-  ('\u{d57}', '\u{d57}'), ('\u{d62}', '\u{d63}'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dcf}'), ('\u{dd2}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'),
-  ('\u{ddf}', '\u{ddf}'), ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'),
-  ('\u{e47}', '\u{e4e}'), ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{ebc}'),
-  ('\u{ec8}', '\u{ecd}'), ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'),
-  ('\u{f37}', '\u{f37}'), ('\u{f39}', '\u{f39}'), ('\u{f71}', '\u{f7e}'),
-  ('\u{f80}', '\u{f84}'), ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('\u{fc6}', '\u{fc6}'), ('\u{102d}', '\u{1030}'),
-  ('\u{1032}', '\u{1037}'), ('\u{1039}', '\u{103a}'),
-  ('\u{103d}', '\u{103e}'), ('\u{1058}', '\u{1059}'),
-  ('\u{105e}', '\u{1060}'), ('\u{1071}', '\u{1074}'),
-  ('\u{1082}', '\u{1082}'), ('\u{1085}', '\u{1086}'),
-  ('\u{108d}', '\u{108d}'), ('\u{109d}', '\u{109d}'),
-  ('\u{135d}', '\u{135f}'), ('\u{1712}', '\u{1714}'),
-  ('\u{1732}', '\u{1734}'), ('\u{1752}', '\u{1753}'),
-  ('\u{1772}', '\u{1773}'), ('\u{17b4}', '\u{17b5}'),
-  ('\u{17b7}', '\u{17bd}'), ('\u{17c6}', '\u{17c6}'),
-  ('\u{17c9}', '\u{17d3}'), ('\u{17dd}', '\u{17dd}'),
-  ('\u{180b}', '\u{180d}'), ('\u{1885}', '\u{1886}'),
-  ('\u{18a9}', '\u{18a9}'), ('\u{1920}', '\u{1922}'),
-  ('\u{1927}', '\u{1928}'), ('\u{1932}', '\u{1932}'),
-  ('\u{1939}', '\u{193b}'), ('\u{1a17}', '\u{1a18}'),
-  ('\u{1a1b}', '\u{1a1b}'), ('\u{1a56}', '\u{1a56}'),
-  ('\u{1a58}', '\u{1a5e}'), ('\u{1a60}', '\u{1a60}'),
-  ('\u{1a62}', '\u{1a62}'), ('\u{1a65}', '\u{1a6c}'),
-  ('\u{1a73}', '\u{1a7c}'), ('\u{1a7f}', '\u{1a7f}'),
-  ('\u{1ab0}', '\u{1abe}'), ('\u{1b00}', '\u{1b03}'),
-  ('\u{1b34}', '\u{1b3a}'), ('\u{1b3c}', '\u{1b3c}'),
-  ('\u{1b42}', '\u{1b42}'), ('\u{1b6b}', '\u{1b73}'),
-  ('\u{1b80}', '\u{1b81}'), ('\u{1ba2}', '\u{1ba5}'),
-  ('\u{1ba8}', '\u{1ba9}'), ('\u{1bab}', '\u{1bad}'),
-  ('\u{1be6}', '\u{1be6}'), ('\u{1be8}', '\u{1be9}'),
-  ('\u{1bed}', '\u{1bed}'), ('\u{1bef}', '\u{1bf1}'),
-  ('\u{1c2c}', '\u{1c33}'), ('\u{1c36}', '\u{1c37}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce0}'),
-  ('\u{1ce2}', '\u{1ce8}'), ('\u{1ced}', '\u{1ced}'),
-  ('\u{1cf4}', '\u{1cf4}'), ('\u{1cf8}', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{200c}', '\u{200c}'), ('\u{20d0}', '\u{20f0}'),
-  ('\u{2cef}', '\u{2cf1}'), ('\u{2d7f}', '\u{2d7f}'),
-  ('\u{2de0}', '\u{2dff}'), ('\u{302a}', '\u{302f}'),
-  ('\u{3099}', '\u{309a}'), ('\u{a66f}', '\u{a672}'),
-  ('\u{a674}', '\u{a67d}'), ('\u{a69e}', '\u{a69f}'),
-  ('\u{a6f0}', '\u{a6f1}'), ('\u{a802}', '\u{a802}'),
-  ('\u{a806}', '\u{a806}'), ('\u{a80b}', '\u{a80b}'),
-  ('\u{a825}', '\u{a826}'), ('\u{a8c4}', '\u{a8c5}'),
-  ('\u{a8e0}', '\u{a8f1}'), ('\u{a8ff}', '\u{a8ff}'),
-  ('\u{a926}', '\u{a92d}'), ('\u{a947}', '\u{a951}'),
-  ('\u{a980}', '\u{a982}'), ('\u{a9b3}', '\u{a9b3}'),
-  ('\u{a9b6}', '\u{a9b9}'), ('\u{a9bc}', 'ꦽ'), ('\u{a9e5}', '\u{a9e5}'),
-  ('\u{aa29}', '\u{aa2e}'), ('\u{aa31}', '\u{aa32}'),
-  ('\u{aa35}', '\u{aa36}'), ('\u{aa43}', '\u{aa43}'),
-  ('\u{aa4c}', '\u{aa4c}'), ('\u{aa7c}', '\u{aa7c}'),
-  ('\u{aab0}', '\u{aab0}'), ('\u{aab2}', '\u{aab4}'),
-  ('\u{aab7}', '\u{aab8}'), ('\u{aabe}', '\u{aabf}'),
-  ('\u{aac1}', '\u{aac1}'), ('\u{aaec}', '\u{aaed}'),
-  ('\u{aaf6}', '\u{aaf6}'), ('\u{abe5}', '\u{abe5}'),
-  ('\u{abe8}', '\u{abe8}'), ('\u{abed}', '\u{abed}'),
-  ('\u{fb1e}', '\u{fb1e}'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{fe20}', '\u{fe2f}'), ('\u{ff9e}', '\u{ff9f}'),
-  ('\u{101fd}', '\u{101fd}'), ('\u{102e0}', '\u{102e0}'),
-  ('\u{10376}', '\u{1037a}'), ('\u{10a01}', '\u{10a03}'),
-  ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '\u{10a0f}'),
-  ('\u{10a38}', '\u{10a3a}'), ('\u{10a3f}', '\u{10a3f}'),
-  ('\u{10ae5}', '\u{10ae6}'), ('\u{10d24}', '\u{10d27}'),
-  ('\u{10f46}', '\u{10f50}'), ('\u{11001}', '\u{11001}'),
-  ('\u{11038}', '\u{11046}'), ('\u{1107f}', '\u{11081}'),
-  ('\u{110b3}', '\u{110b6}'), ('\u{110b9}', '\u{110ba}'),
-  ('\u{11100}', '\u{11102}'), ('\u{11127}', '\u{1112b}'),
-  ('\u{1112d}', '\u{11134}'), ('\u{11173}', '\u{11173}'),
-  ('\u{11180}', '\u{11181}'), ('\u{111b6}', '\u{111be}'),
-  ('\u{111c9}', '\u{111cc}'), ('\u{1122f}', '\u{11231}'),
-  ('\u{11234}', '\u{11234}'), ('\u{11236}', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('\u{112df}', '\u{112df}'),
-  ('\u{112e3}', '\u{112ea}'), ('\u{11300}', '\u{11301}'),
-  ('\u{1133b}', '\u{1133c}'), ('\u{1133e}', '\u{1133e}'),
-  ('\u{11340}', '\u{11340}'), ('\u{11357}', '\u{11357}'),
-  ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('\u{11438}', '\u{1143f}'), ('\u{11442}', '\u{11444}'),
-  ('\u{11446}', '\u{11446}'), ('\u{1145e}', '\u{1145e}'),
-  ('\u{114b0}', '\u{114b0}'), ('\u{114b3}', '\u{114b8}'),
-  ('\u{114ba}', '\u{114ba}'), ('\u{114bd}', '\u{114bd}'),
-  ('\u{114bf}', '\u{114c0}'), ('\u{114c2}', '\u{114c3}'),
-  ('\u{115af}', '\u{115af}'), ('\u{115b2}', '\u{115b5}'),
-  ('\u{115bc}', '\u{115bd}'), ('\u{115bf}', '\u{115c0}'),
-  ('\u{115dc}', '\u{115dd}'), ('\u{11633}', '\u{1163a}'),
-  ('\u{1163d}', '\u{1163d}'), ('\u{1163f}', '\u{11640}'),
-  ('\u{116ab}', '\u{116ab}'), ('\u{116ad}', '\u{116ad}'),
-  ('\u{116b0}', '\u{116b5}'), ('\u{116b7}', '\u{116b7}'),
-  ('\u{1171d}', '\u{1171f}'), ('\u{11722}', '\u{11725}'),
-  ('\u{11727}', '\u{1172b}'), ('\u{1182f}', '\u{11837}'),
-  ('\u{11839}', '\u{1183a}'), ('\u{119d4}', '\u{119d7}'),
-  ('\u{119da}', '\u{119db}'), ('\u{119e0}', '\u{119e0}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a33}', '\u{11a38}'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a51}', '\u{11a56}'), ('\u{11a59}', '\u{11a5b}'),
-  ('\u{11a8a}', '\u{11a96}'), ('\u{11a98}', '\u{11a99}'),
-  ('\u{11c30}', '\u{11c36}'), ('\u{11c38}', '\u{11c3d}'),
-  ('\u{11c3f}', '\u{11c3f}'), ('\u{11c92}', '\u{11ca7}'),
-  ('\u{11caa}', '\u{11cb0}'), ('\u{11cb2}', '\u{11cb3}'),
-  ('\u{11cb5}', '\u{11cb6}'), ('\u{11d31}', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d45}'), ('\u{11d47}', '\u{11d47}'),
-  ('\u{11d90}', '\u{11d91}'), ('\u{11d95}', '\u{11d95}'),
-  ('\u{11d97}', '\u{11d97}'), ('\u{11ef3}', '\u{11ef4}'),
-  ('\u{16af0}', '\u{16af4}'), ('\u{16b30}', '\u{16b36}'),
-  ('\u{16f4f}', '\u{16f4f}'), ('\u{16f8f}', '\u{16f92}'),
-  ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d165}'),
-  ('\u{1d167}', '\u{1d169}'), ('\u{1d16e}', '\u{1d172}'),
-  ('\u{1d17b}', '\u{1d182}'), ('\u{1d185}', '\u{1d18b}'),
-  ('\u{1d1aa}', '\u{1d1ad}'), ('\u{1d242}', '\u{1d244}'),
-  ('\u{1da00}', '\u{1da36}'), ('\u{1da3b}', '\u{1da6c}'),
-  ('\u{1da75}', '\u{1da75}'), ('\u{1da84}', '\u{1da84}'),
-  ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e130}', '\u{1e136}'),
-  ('\u{1e2ec}', '\u{1e2ef}'), ('\u{1e8d0}', '\u{1e8d6}'),
-  ('\u{1e944}', '\u{1e94a}'), ('🏻', '🏿'), ('\u{e0020}', '\u{e007f}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const L: &'static [(char, char)] = &[
-  ('ᄀ', 'ᅟ'), ('ꥠ', 'ꥼ'),
-];
-
-pub const LF: &'static [(char, char)] = &[
-  ('\n', '\n'),
-];
-
-pub const LV: &'static [(char, char)] = &[
-  ('가', '가'), ('개', '개'), ('갸', '갸'), ('걔', '걔'),
-  ('거', '거'), ('게', '게'), ('겨', '겨'), ('계', '계'),
-  ('고', '고'), ('과', '과'), ('괘', '괘'), ('괴', '괴'),
-  ('교', '교'), ('구', '구'), ('궈', '궈'), ('궤', '궤'),
-  ('귀', '귀'), ('규', '규'), ('그', '그'), ('긔', '긔'),
-  ('기', '기'), ('까', '까'), ('깨', '깨'), ('꺄', '꺄'),
-  ('꺠', '꺠'), ('꺼', '꺼'), ('께', '께'), ('껴', '껴'),
-  ('꼐', '꼐'), ('꼬', '꼬'), ('꽈', '꽈'), ('꽤', '꽤'),
-  ('꾀', '꾀'), ('꾜', '꾜'), ('꾸', '꾸'), ('꿔', '꿔'),
-  ('꿰', '꿰'), ('뀌', '뀌'), ('뀨', '뀨'), ('끄', '끄'),
-  ('끠', '끠'), ('끼', '끼'), ('나', '나'), ('내', '내'),
-  ('냐', '냐'), ('냬', '냬'), ('너', '너'), ('네', '네'),
-  ('녀', '녀'), ('녜', '녜'), ('노', '노'), ('놔', '놔'),
-  ('놰', '놰'), ('뇌', '뇌'), ('뇨', '뇨'), ('누', '누'),
-  ('눠', '눠'), ('눼', '눼'), ('뉘', '뉘'), ('뉴', '뉴'),
-  ('느', '느'), ('늬', '늬'), ('니', '니'), ('다', '다'),
-  ('대', '대'), ('댜', '댜'), ('댸', '댸'), ('더', '더'),
-  ('데', '데'), ('뎌', '뎌'), ('뎨', '뎨'), ('도', '도'),
-  ('돠', '돠'), ('돼', '돼'), ('되', '되'), ('됴', '됴'),
-  ('두', '두'), ('둬', '둬'), ('뒈', '뒈'), ('뒤', '뒤'),
-  ('듀', '듀'), ('드', '드'), ('듸', '듸'), ('디', '디'),
-  ('따', '따'), ('때', '때'), ('땨', '땨'), ('떄', '떄'),
-  ('떠', '떠'), ('떼', '떼'), ('뗘', '뗘'), ('뗴', '뗴'),
-  ('또', '또'), ('똬', '똬'), ('뙈', '뙈'), ('뙤', '뙤'),
-  ('뚀', '뚀'), ('뚜', '뚜'), ('뚸', '뚸'), ('뛔', '뛔'),
-  ('뛰', '뛰'), ('뜌', '뜌'), ('뜨', '뜨'), ('띄', '띄'),
-  ('띠', '띠'), ('라', '라'), ('래', '래'), ('랴', '랴'),
-  ('럐', '럐'), ('러', '러'), ('레', '레'), ('려', '려'),
-  ('례', '례'), ('로', '로'), ('롸', '롸'), ('뢔', '뢔'),
-  ('뢰', '뢰'), ('료', '료'), ('루', '루'), ('뤄', '뤄'),
-  ('뤠', '뤠'), ('뤼', '뤼'), ('류', '류'), ('르', '르'),
-  ('릐', '릐'), ('리', '리'), ('마', '마'), ('매', '매'),
-  ('먀', '먀'), ('먜', '먜'), ('머', '머'), ('메', '메'),
-  ('며', '며'), ('몌', '몌'), ('모', '모'), ('뫄', '뫄'),
-  ('뫠', '뫠'), ('뫼', '뫼'), ('묘', '묘'), ('무', '무'),
-  ('뭐', '뭐'), ('뭬', '뭬'), ('뮈', '뮈'), ('뮤', '뮤'),
-  ('므', '므'), ('믜', '믜'), ('미', '미'), ('바', '바'),
-  ('배', '배'), ('뱌', '뱌'), ('뱨', '뱨'), ('버', '버'),
-  ('베', '베'), ('벼', '벼'), ('볘', '볘'), ('보', '보'),
-  ('봐', '봐'), ('봬', '봬'), ('뵈', '뵈'), ('뵤', '뵤'),
-  ('부', '부'), ('붜', '붜'), ('붸', '붸'), ('뷔', '뷔'),
-  ('뷰', '뷰'), ('브', '브'), ('븨', '븨'), ('비', '비'),
-  ('빠', '빠'), ('빼', '빼'), ('뺘', '뺘'), ('뺴', '뺴'),
-  ('뻐', '뻐'), ('뻬', '뻬'), ('뼈', '뼈'), ('뼤', '뼤'),
-  ('뽀', '뽀'), ('뽜', '뽜'), ('뽸', '뽸'), ('뾔', '뾔'),
-  ('뾰', '뾰'), ('뿌', '뿌'), ('뿨', '뿨'), ('쀄', '쀄'),
-  ('쀠', '쀠'), ('쀼', '쀼'), ('쁘', '쁘'), ('쁴', '쁴'),
-  ('삐', '삐'), ('사', '사'), ('새', '새'), ('샤', '샤'),
-  ('섀', '섀'), ('서', '서'), ('세', '세'), ('셔', '셔'),
-  ('셰', '셰'), ('소', '소'), ('솨', '솨'), ('쇄', '쇄'),
-  ('쇠', '쇠'), ('쇼', '쇼'), ('수', '수'), ('숴', '숴'),
-  ('쉐', '쉐'), ('쉬', '쉬'), ('슈', '슈'), ('스', '스'),
-  ('싀', '싀'), ('시', '시'), ('싸', '싸'), ('쌔', '쌔'),
-  ('쌰', '쌰'), ('썌', '썌'), ('써', '써'), ('쎄', '쎄'),
-  ('쎠', '쎠'), ('쎼', '쎼'), ('쏘', '쏘'), ('쏴', '쏴'),
-  ('쐐', '쐐'), ('쐬', '쐬'), ('쑈', '쑈'), ('쑤', '쑤'),
-  ('쒀', '쒀'), ('쒜', '쒜'), ('쒸', '쒸'), ('쓔', '쓔'),
-  ('쓰', '쓰'), ('씌', '씌'), ('씨', '씨'), ('아', '아'),
-  ('애', '애'), ('야', '야'), ('얘', '얘'), ('어', '어'),
-  ('에', '에'), ('여', '여'), ('예', '예'), ('오', '오'),
-  ('와', '와'), ('왜', '왜'), ('외', '외'), ('요', '요'),
-  ('우', '우'), ('워', '워'), ('웨', '웨'), ('위', '위'),
-  ('유', '유'), ('으', '으'), ('의', '의'), ('이', '이'),
-  ('자', '자'), ('재', '재'), ('쟈', '쟈'), ('쟤', '쟤'),
-  ('저', '저'), ('제', '제'), ('져', '져'), ('졔', '졔'),
-  ('조', '조'), ('좌', '좌'), ('좨', '좨'), ('죄', '죄'),
-  ('죠', '죠'), ('주', '주'), ('줘', '줘'), ('줴', '줴'),
-  ('쥐', '쥐'), ('쥬', '쥬'), ('즈', '즈'), ('즤', '즤'),
-  ('지', '지'), ('짜', '짜'), ('째', '째'), ('쨔', '쨔'),
-  ('쨰', '쨰'), ('쩌', '쩌'), ('쩨', '쩨'), ('쪄', '쪄'),
-  ('쪠', '쪠'), ('쪼', '쪼'), ('쫘', '쫘'), ('쫴', '쫴'),
-  ('쬐', '쬐'), ('쬬', '쬬'), ('쭈', '쭈'), ('쭤', '쭤'),
-  ('쮀', '쮀'), ('쮜', '쮜'), ('쮸', '쮸'), ('쯔', '쯔'),
-  ('쯰', '쯰'), ('찌', '찌'), ('차', '차'), ('채', '채'),
-  ('챠', '챠'), ('챼', '챼'), ('처', '처'), ('체', '체'),
-  ('쳐', '쳐'), ('쳬', '쳬'), ('초', '초'), ('촤', '촤'),
-  ('쵀', '쵀'), ('최', '최'), ('쵸', '쵸'), ('추', '추'),
-  ('춰', '춰'), ('췌', '췌'), ('취', '취'), ('츄', '츄'),
-  ('츠', '츠'), ('츼', '츼'), ('치', '치'), ('카', '카'),
-  ('캐', '캐'), ('캬', '캬'), ('컈', '컈'), ('커', '커'),
-  ('케', '케'), ('켜', '켜'), ('켸', '켸'), ('코', '코'),
-  ('콰', '콰'), ('쾌', '쾌'), ('쾨', '쾨'), ('쿄', '쿄'),
-  ('쿠', '쿠'), ('쿼', '쿼'), ('퀘', '퀘'), ('퀴', '퀴'),
-  ('큐', '큐'), ('크', '크'), ('킈', '킈'), ('키', '키'),
-  ('타', '타'), ('태', '태'), ('탸', '탸'), ('턔', '턔'),
-  ('터', '터'), ('테', '테'), ('텨', '텨'), ('톄', '톄'),
-  ('토', '토'), ('톼', '톼'), ('퇘', '퇘'), ('퇴', '퇴'),
-  ('툐', '툐'), ('투', '투'), ('퉈', '퉈'), ('퉤', '퉤'),
-  ('튀', '튀'), ('튜', '튜'), ('트', '트'), ('틔', '틔'),
-  ('티', '티'), ('파', '파'), ('패', '패'), ('퍄', '퍄'),
-  ('퍠', '퍠'), ('퍼', '퍼'), ('페', '페'), ('펴', '펴'),
-  ('폐', '폐'), ('포', '포'), ('퐈', '퐈'), ('퐤', '퐤'),
-  ('푀', '푀'), ('표', '표'), ('푸', '푸'), ('풔', '풔'),
-  ('풰', '풰'), ('퓌', '퓌'), ('퓨', '퓨'), ('프', '프'),
-  ('픠', '픠'), ('피', '피'), ('하', '하'), ('해', '해'),
-  ('햐', '햐'), ('햬', '햬'), ('허', '허'), ('헤', '헤'),
-  ('혀', '혀'), ('혜', '혜'), ('호', '호'), ('화', '화'),
-  ('홰', '홰'), ('회', '회'), ('효', '효'), ('후', '후'),
-  ('훠', '훠'), ('훼', '훼'), ('휘', '휘'), ('휴', '휴'),
-  ('흐', '흐'), ('희', '희'), ('히', '히'),
-];
-
-pub const LVT: &'static [(char, char)] = &[
-  ('각', '갛'), ('객', '갷'), ('갹', '걓'), ('걕', '걯'),
-  ('걱', '겋'), ('겍', '겧'), ('격', '곃'), ('곅', '곟'),
-  ('곡', '곻'), ('곽', '괗'), ('괙', '괳'), ('괵', '굏'),
-  ('굑', '굫'), ('국', '궇'), ('궉', '궣'), ('궥', '궿'),
-  ('귁', '귛'), ('귝', '귷'), ('극', '긓'), ('긕', '긯'),
-  ('긱', '깋'), ('깍', '깧'), ('깩', '꺃'), ('꺅', '꺟'),
-  ('꺡', '꺻'), ('꺽', '껗'), ('껙', '껳'), ('껵', '꼏'),
-  ('꼑', '꼫'), ('꼭', '꽇'), ('꽉', '꽣'), ('꽥', '꽿'),
-  ('꾁', '꾛'), ('꾝', '꾷'), ('꾹', '꿓'), ('꿕', '꿯'),
-  ('꿱', '뀋'), ('뀍', '뀧'), ('뀩', '끃'), ('끅', '끟'),
-  ('끡', '끻'), ('끽', '낗'), ('낙', '낳'), ('낵', '냏'),
-  ('냑', '냫'), ('냭', '넇'), ('넉', '넣'), ('넥', '넿'),
-  ('녁', '녛'), ('녝', '녷'), ('녹', '놓'), ('놕', '놯'),
-  ('놱', '뇋'), ('뇍', '뇧'), ('뇩', '눃'), ('눅', '눟'),
-  ('눡', '눻'), ('눽', '뉗'), ('뉙', '뉳'), ('뉵', '늏'),
-  ('늑', '늫'), ('늭', '닇'), ('닉', '닣'), ('닥', '닿'),
-  ('댁', '댛'), ('댝', '댷'), ('댹', '덓'), ('덕', '덯'),
-  ('덱', '뎋'), ('뎍', '뎧'), ('뎩', '돃'), ('독', '돟'),
-  ('돡', '돻'), ('돽', '됗'), ('됙', '됳'), ('됵', '둏'),
-  ('둑', '둫'), ('둭', '뒇'), ('뒉', '뒣'), ('뒥', '뒿'),
-  ('듁', '듛'), ('득', '듷'), ('듹', '딓'), ('딕', '딯'),
-  ('딱', '땋'), ('땍', '땧'), ('땩', '떃'), ('떅', '떟'),
-  ('떡', '떻'), ('떽', '뗗'), ('뗙', '뗳'), ('뗵', '똏'),
-  ('똑', '똫'), ('똭', '뙇'), ('뙉', '뙣'), ('뙥', '뙿'),
-  ('뚁', '뚛'), ('뚝', '뚷'), ('뚹', '뛓'), ('뛕', '뛯'),
-  ('뛱', '뜋'), ('뜍', '뜧'), ('뜩', '띃'), ('띅', '띟'),
-  ('띡', '띻'), ('락', '랗'), ('랙', '랳'), ('략', '럏'),
-  ('럑', '럫'), ('럭', '렇'), ('렉', '렣'), ('력', '렿'),
-  ('롁', '롛'), ('록', '롷'), ('롹', '뢓'), ('뢕', '뢯'),
-  ('뢱', '룋'), ('룍', '룧'), ('룩', '뤃'), ('뤅', '뤟'),
-  ('뤡', '뤻'), ('뤽', '륗'), ('륙', '륳'), ('륵', '릏'),
-  ('릑', '릫'), ('릭', '맇'), ('막', '맣'), ('맥', '맿'),
-  ('먁', '먛'), ('먝', '먷'), ('먹', '멓'), ('멕', '멯'),
-  ('멱', '몋'), ('몍', '몧'), ('목', '뫃'), ('뫅', '뫟'),
-  ('뫡', '뫻'), ('뫽', '묗'), ('묙', '묳'), ('묵', '뭏'),
-  ('뭑', '뭫'), ('뭭', '뮇'), ('뮉', '뮣'), ('뮥', '뮿'),
-  ('믁', '믛'), ('믝', '믷'), ('믹', '밓'), ('박', '밯'),
-  ('백', '뱋'), ('뱍', '뱧'), ('뱩', '벃'), ('벅', '벟'),
-  ('벡', '벻'), ('벽', '볗'), ('볙', '볳'), ('복', '봏'),
-  ('봑', '봫'), ('봭', '뵇'), ('뵉', '뵣'), ('뵥', '뵿'),
-  ('북', '붛'), ('붝', '붷'), ('붹', '뷓'), ('뷕', '뷯'),
-  ('뷱', '븋'), ('븍', '븧'), ('븩', '빃'), ('빅', '빟'),
-  ('빡', '빻'), ('빽', '뺗'), ('뺙', '뺳'), ('뺵', '뻏'),
-  ('뻑', '뻫'), ('뻭', '뼇'), ('뼉', '뼣'), ('뼥', '뼿'),
-  ('뽁', '뽛'), ('뽝', '뽷'), ('뽹', '뾓'), ('뾕', '뾯'),
-  ('뾱', '뿋'), ('뿍', '뿧'), ('뿩', '쀃'), ('쀅', '쀟'),
-  ('쀡', '쀻'), ('쀽', '쁗'), ('쁙', '쁳'), ('쁵', '삏'),
-  ('삑', '삫'), ('삭', '샇'), ('색', '샣'), ('샥', '샿'),
-  ('섁', '섛'), ('석', '섷'), ('섹', '셓'), ('셕', '셯'),
-  ('셱', '솋'), ('속', '솧'), ('솩', '쇃'), ('쇅', '쇟'),
-  ('쇡', '쇻'), ('쇽', '숗'), ('숙', '숳'), ('숵', '쉏'),
-  ('쉑', '쉫'), ('쉭', '슇'), ('슉', '슣'), ('슥', '슿'),
-  ('싁', '싛'), ('식', '싷'), ('싹', '쌓'), ('쌕', '쌯'),
-  ('쌱', '썋'), ('썍', '썧'), ('썩', '쎃'), ('쎅', '쎟'),
-  ('쎡', '쎻'), ('쎽', '쏗'), ('쏙', '쏳'), ('쏵', '쐏'),
-  ('쐑', '쐫'), ('쐭', '쑇'), ('쑉', '쑣'), ('쑥', '쑿'),
-  ('쒁', '쒛'), ('쒝', '쒷'), ('쒹', '쓓'), ('쓕', '쓯'),
-  ('쓱', '씋'), ('씍', '씧'), ('씩', '앃'), ('악', '앟'),
-  ('액', '앻'), ('약', '얗'), ('얙', '얳'), ('억', '엏'),
-  ('엑', '엫'), ('역', '옇'), ('옉', '옣'), ('옥', '옿'),
-  ('왁', '왛'), ('왝', '왷'), ('왹', '욓'), ('욕', '욯'),
-  ('욱', '웋'), ('웍', '웧'), ('웩', '윃'), ('윅', '윟'),
-  ('육', '윻'), ('윽', '읗'), ('읙', '읳'), ('익', '잏'),
-  ('작', '잫'), ('잭', '쟇'), ('쟉', '쟣'), ('쟥', '쟿'),
-  ('적', '젛'), ('젝', '젷'), ('젹', '졓'), ('졕', '졯'),
-  ('족', '좋'), ('좍', '좧'), ('좩', '죃'), ('죅', '죟'),
-  ('죡', '죻'), ('죽', '줗'), ('줙', '줳'), ('줵', '쥏'),
-  ('쥑', '쥫'), ('쥭', '즇'), ('즉', '즣'), ('즥', '즿'),
-  ('직', '짛'), ('짝', '짷'), ('짹', '쨓'), ('쨕', '쨯'),
-  ('쨱', '쩋'), ('쩍', '쩧'), ('쩩', '쪃'), ('쪅', '쪟'),
-  ('쪡', '쪻'), ('쪽', '쫗'), ('쫙', '쫳'), ('쫵', '쬏'),
-  ('쬑', '쬫'), ('쬭', '쭇'), ('쭉', '쭣'), ('쭥', '쭿'),
-  ('쮁', '쮛'), ('쮝', '쮷'), ('쮹', '쯓'), ('쯕', '쯯'),
-  ('쯱', '찋'), ('찍', '찧'), ('착', '챃'), ('책', '챟'),
-  ('챡', '챻'), ('챽', '첗'), ('척', '첳'), ('첵', '쳏'),
-  ('쳑', '쳫'), ('쳭', '촇'), ('촉', '촣'), ('촥', '촿'),
-  ('쵁', '쵛'), ('쵝', '쵷'), ('쵹', '춓'), ('축', '춯'),
-  ('춱', '췋'), ('췍', '췧'), ('췩', '츃'), ('츅', '츟'),
-  ('측', '츻'), ('츽', '칗'), ('칙', '칳'), ('칵', '캏'),
-  ('캑', '캫'), ('캭', '컇'), ('컉', '컣'), ('컥', '컿'),
-  ('켁', '켛'), ('켝', '켷'), ('켹', '콓'), ('콕', '콯'),
-  ('콱', '쾋'), ('쾍', '쾧'), ('쾩', '쿃'), ('쿅', '쿟'),
-  ('쿡', '쿻'), ('쿽', '퀗'), ('퀙', '퀳'), ('퀵', '큏'),
-  ('큑', '큫'), ('큭', '킇'), ('킉', '킣'), ('킥', '킿'),
-  ('탁', '탛'), ('택', '탷'), ('탹', '턓'), ('턕', '턯'),
-  ('턱', '텋'), ('텍', '텧'), ('텩', '톃'), ('톅', '톟'),
-  ('톡', '톻'), ('톽', '퇗'), ('퇙', '퇳'), ('퇵', '툏'),
-  ('툑', '툫'), ('툭', '퉇'), ('퉉', '퉣'), ('퉥', '퉿'),
-  ('튁', '튛'), ('튝', '튷'), ('특', '틓'), ('틕', '틯'),
-  ('틱', '팋'), ('팍', '팧'), ('팩', '퍃'), ('퍅', '퍟'),
-  ('퍡', '퍻'), ('퍽', '펗'), ('펙', '펳'), ('펵', '폏'),
-  ('폑', '폫'), ('폭', '퐇'), ('퐉', '퐣'), ('퐥', '퐿'),
-  ('푁', '푛'), ('푝', '푷'), ('푹', '풓'), ('풕', '풯'),
-  ('풱', '퓋'), ('퓍', '퓧'), ('퓩', '픃'), ('픅', '픟'),
-  ('픡', '픻'), ('픽', '핗'), ('학', '핳'), ('핵', '햏'),
-  ('햑', '햫'), ('햭', '헇'), ('헉', '헣'), ('헥', '헿'),
-  ('혁', '혛'), ('혝', '혷'), ('혹', '홓'), ('확', '홯'),
-  ('홱', '횋'), ('획', '횧'), ('횩', '훃'), ('훅', '훟'),
-  ('훡', '훻'), ('훽', '휗'), ('휙', '휳'), ('휵', '흏'),
-  ('흑', '흫'), ('흭', '힇'), ('힉', '힣'),
-];
-
-pub const PREPEND: &'static [(char, char)] = &[
-  ('\u{600}', '\u{605}'), ('\u{6dd}', '\u{6dd}'), ('\u{70f}', '\u{70f}'),
-  ('\u{8e2}', '\u{8e2}'), ('ൎ', 'ൎ'), ('\u{110bd}', '\u{110bd}'),
-  ('\u{110cd}', '\u{110cd}'), ('𑇂', '𑇃'), ('𑨺', '𑨺'),
-  ('\u{11a84}', '𑪉'), ('𑵆', '𑵆'),
-];
-
-pub const REGIONAL_INDICATOR: &'static [(char, char)] = &[
-  ('🇦', '🇿'),
-];
-
-pub const SPACINGMARK: &'static [(char, char)] = &[
-  ('ः', 'ः'), ('ऻ', 'ऻ'), ('ा', 'ी'), ('ॉ', 'ौ'),
-  ('ॎ', 'ॏ'), ('ং', 'ঃ'), ('ি', 'ী'), ('ে', 'ৈ'),
-  ('ো', 'ৌ'), ('ਃ', 'ਃ'), ('ਾ', 'ੀ'), ('ઃ', 'ઃ'),
-  ('ા', 'ી'), ('ૉ', 'ૉ'), ('ો', 'ૌ'), ('ଂ', 'ଃ'),
-  ('ୀ', 'ୀ'), ('େ', 'ୈ'), ('ୋ', 'ୌ'), ('ி', 'ி'),
-  ('ு', 'ூ'), ('ெ', 'ை'), ('ொ', 'ௌ'), ('ఁ', 'ః'),
-  ('ు', 'ౄ'), ('ಂ', 'ಃ'), ('ಾ', 'ಾ'), ('ೀ', 'ು'),
-  ('ೃ', 'ೄ'), ('ೇ', 'ೈ'), ('ೊ', 'ೋ'), ('ം', 'ഃ'),
-  ('ി', 'ീ'), ('െ', 'ൈ'), ('ൊ', 'ൌ'), ('ං', 'ඃ'),
-  ('ැ', 'ෑ'), ('ෘ', 'ෞ'), ('ෲ', 'ෳ'), ('ำ', 'ำ'),
-  ('ຳ', 'ຳ'), ('༾', '༿'), ('ཿ', 'ཿ'), ('ေ', 'ေ'),
-  ('ျ', 'ြ'), ('ၖ', 'ၗ'), ('ႄ', 'ႄ'), ('ា', 'ា'),
-  ('ើ', 'ៅ'), ('ះ', 'ៈ'), ('ᤣ', 'ᤦ'), ('ᤩ', 'ᤫ'),
-  ('ᤰ', 'ᤱ'), ('ᤳ', 'ᤸ'), ('ᨙ', 'ᨚ'), ('ᩕ', 'ᩕ'),
-  ('ᩗ', 'ᩗ'), ('ᩭ', 'ᩲ'), ('ᬄ', 'ᬄ'), ('ᬻ', 'ᬻ'),
-  ('ᬽ', 'ᭁ'), ('ᭃ', '᭄'), ('ᮂ', 'ᮂ'), ('ᮡ', 'ᮡ'),
-  ('ᮦ', 'ᮧ'), ('᮪', '᮪'), ('ᯧ', 'ᯧ'), ('ᯪ', 'ᯬ'),
-  ('ᯮ', 'ᯮ'), ('᯲', '᯳'), ('ᰤ', 'ᰫ'), ('ᰴ', 'ᰵ'),
-  ('᳡', '᳡'), ('᳷', '᳷'), ('ꠣ', 'ꠤ'), ('ꠧ', 'ꠧ'),
-  ('ꢀ', 'ꢁ'), ('ꢴ', 'ꣃ'), ('ꥒ', '꥓'), ('ꦃ', 'ꦃ'),
-  ('ꦴ', 'ꦵ'), ('ꦺ', 'ꦻ'), ('ꦾ', '꧀'), ('ꨯ', 'ꨰ'),
-  ('ꨳ', 'ꨴ'), ('ꩍ', 'ꩍ'), ('ꫫ', 'ꫫ'), ('ꫮ', 'ꫯ'),
-  ('ꫵ', 'ꫵ'), ('ꯣ', 'ꯤ'), ('ꯦ', 'ꯧ'), ('ꯩ', 'ꯪ'),
-  ('꯬', '꯬'), ('𑀀', '𑀀'), ('𑀂', '𑀂'), ('𑂂', '𑂂'),
-  ('𑂰', '𑂲'), ('𑂷', '𑂸'), ('𑄬', '𑄬'), ('𑅅', '𑅆'),
-  ('𑆂', '𑆂'), ('𑆳', '𑆵'), ('𑆿', '𑇀'), ('𑈬', '𑈮'),
-  ('𑈲', '𑈳'), ('𑈵', '𑈵'), ('𑋠', '𑋢'), ('𑌂', '𑌃'),
-  ('𑌿', '𑌿'), ('𑍁', '𑍄'), ('𑍇', '𑍈'), ('𑍋', '𑍍'),
-  ('𑍢', '𑍣'), ('𑐵', '𑐷'), ('𑑀', '𑑁'), ('𑑅', '𑑅'),
-  ('𑒱', '𑒲'), ('𑒹', '𑒹'), ('𑒻', '𑒼'), ('𑒾', '𑒾'),
-  ('𑓁', '𑓁'), ('𑖰', '𑖱'), ('𑖸', '𑖻'), ('𑖾', '𑖾'),
-  ('𑘰', '𑘲'), ('𑘻', '𑘼'), ('𑘾', '𑘾'), ('𑚬', '𑚬'),
-  ('𑚮', '𑚯'), ('𑚶', '𑚶'), ('𑜠', '𑜡'), ('𑜦', '𑜦'),
-  ('𑠬', '𑠮'), ('𑠸', '𑠸'), ('\u{119d1}', '\u{119d3}'),
-  ('\u{119dc}', '\u{119df}'), ('\u{119e4}', '\u{119e4}'), ('𑨹', '𑨹'),
-  ('𑩗', '𑩘'), ('𑪗', '𑪗'), ('𑰯', '𑰯'), ('𑰾', '𑰾'),
-  ('𑲩', '𑲩'), ('𑲱', '𑲱'), ('𑲴', '𑲴'), ('𑶊', '𑶎'),
-  ('𑶓', '𑶔'), ('𑶖', '𑶖'), ('𑻵', '𑻶'), ('𖽑', '\u{16f87}'),
-  ('𝅦', '𝅦'), ('𝅭', '𝅭'),
-];
-
-pub const T: &'static [(char, char)] = &[
-  ('ᆨ', 'ᇿ'), ('ퟋ', 'ퟻ'),
-];
-
-pub const V: &'static [(char, char)] = &[
-  ('ᅠ', 'ᆧ'), ('ힰ', 'ퟆ'),
-];
-
-pub const ZWJ: &'static [(char, char)] = &[
-  ('\u{200d}', '\u{200d}'),
-];
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/unicode_tables/mod.rs.html b/target/doc/src/regex_syntax/unicode_tables/mod.rs.html deleted file mode 100644 index c40c806..0000000 --- a/target/doc/src/regex_syntax/unicode_tables/mod.rs.html +++ /dev/null @@ -1,27 +0,0 @@ -mod.rs.html -- source
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-pub mod age;
-pub mod case_folding_simple;
-pub mod general_category;
-pub mod grapheme_cluster_break;
-pub mod perl_word;
-pub mod property_bool;
-pub mod property_names;
-pub mod property_values;
-pub mod script_extension;
-pub mod script;
-pub mod sentence_break;
-pub mod word_break;
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/unicode_tables/perl_word.rs.html b/target/doc/src/regex_syntax/unicode_tables/perl_word.rs.html deleted file mode 100644 index c5bd322..0000000 --- a/target/doc/src/regex_syntax/unicode_tables/perl_word.rs.html +++ /dev/null @@ -1,415 +0,0 @@ -perl_word.rs.html -- source
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate perl-word /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const PERL_WORD: &'static [(char, char)] = &[
-  ('0', '9'), ('A', 'Z'), ('_', '_'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'),
-  ('º', 'º'), ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'), ('ˆ', 'ˑ'),
-  ('ˠ', 'ˤ'), ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('\u{300}', 'ʹ'), ('Ͷ', 'ͷ'),
-  ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'),
-  ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('\u{483}', 'ԯ'), ('Ա', 'Ֆ'),
-  ('ՙ', 'ՙ'), ('ՠ', 'ֈ'), ('\u{591}', '\u{5bd}'), ('\u{5bf}', '\u{5bf}'),
-  ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'), ('\u{5c7}', '\u{5c7}'),
-  ('א', 'ת'), ('ׯ', 'ײ'), ('\u{610}', '\u{61a}'), ('ؠ', '٩'),
-  ('ٮ', 'ۓ'), ('ە', '\u{6dc}'), ('\u{6df}', '\u{6e8}'), ('\u{6ea}', 'ۼ'),
-  ('ۿ', 'ۿ'), ('ܐ', '\u{74a}'), ('ݍ', 'ޱ'), ('߀', 'ߵ'), ('ߺ', 'ߺ'),
-  ('\u{7fd}', '\u{7fd}'), ('ࠀ', '\u{82d}'), ('ࡀ', '\u{85b}'),
-  ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('\u{8d3}', '\u{8e1}'),
-  ('\u{8e3}', '\u{963}'), ('०', '९'), ('ॱ', 'ঃ'), ('অ', 'ঌ'),
-  ('এ', 'ঐ'), ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'),
-  ('শ', 'হ'), ('\u{9bc}', '\u{9c4}'), ('ে', 'ৈ'), ('ো', 'ৎ'),
-  ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'), ('য়', '\u{9e3}'), ('০', 'ৱ'),
-  ('ৼ', 'ৼ'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', 'ਃ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'),
-  ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'),
-  ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('੦', '\u{a75}'), ('\u{a81}', 'ઃ'),
-  ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'),
-  ('લ', 'ળ'), ('વ', 'હ'), ('\u{abc}', '\u{ac5}'), ('\u{ac7}', 'ૉ'),
-  ('ો', '\u{acd}'), ('ૐ', 'ૐ'), ('ૠ', '\u{ae3}'), ('૦', '૯'),
-  ('ૹ', '\u{aff}'), ('\u{b01}', 'ଃ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'),
-  ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'),
-  ('\u{b3c}', '\u{b44}'), ('େ', 'ୈ'), ('ୋ', '\u{b4d}'),
-  ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'), ('ୟ', '\u{b63}'), ('୦', '୯'),
-  ('ୱ', 'ୱ'), ('\u{b82}', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('\u{bbe}', 'ூ'),
-  ('ெ', 'ை'), ('ொ', '\u{bcd}'), ('ௐ', 'ௐ'), ('\u{bd7}', '\u{bd7}'),
-  ('௦', '௯'), ('\u{c00}', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'),
-  ('ప', 'హ'), ('ఽ', 'ౄ'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4d}'), ('\u{c55}', '\u{c56}'), ('ౘ', 'ౚ'),
-  ('ౠ', '\u{c63}'), ('౦', '౯'), ('ಀ', 'ಃ'), ('ಅ', 'ಌ'),
-  ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'),
-  ('\u{cbc}', 'ೄ'), ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccd}'),
-  ('\u{cd5}', '\u{cd6}'), ('ೞ', 'ೞ'), ('ೠ', '\u{ce3}'), ('೦', '೯'),
-  ('ೱ', 'ೲ'), ('\u{d00}', 'ഃ'), ('അ', 'ഌ'), ('എ', 'ഐ'),
-  ('ഒ', '\u{d44}'), ('െ', 'ൈ'), ('ൊ', 'ൎ'), ('ൔ', '\u{d57}'),
-  ('ൟ', '\u{d63}'), ('൦', '൯'), ('ൺ', 'ൿ'), ('ං', 'ඃ'),
-  ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'),
-  ('ව', 'ෆ'), ('\u{dca}', '\u{dca}'), ('\u{dcf}', '\u{dd4}'),
-  ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'), ('෦', '෯'), ('ෲ', 'ෳ'),
-  ('ก', '\u{e3a}'), ('เ', '\u{e4e}'), ('๐', '๙'), ('ກ', 'ຂ'),
-  ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'), ('ລ', 'ລ'),
-  ('ວ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('\u{ec8}', '\u{ecd}'),
-  ('໐', '໙'), ('ໜ', 'ໟ'), ('ༀ', 'ༀ'), ('\u{f18}', '\u{f19}'),
-  ('༠', '༩'), ('\u{f35}', '\u{f35}'), ('\u{f37}', '\u{f37}'),
-  ('\u{f39}', '\u{f39}'), ('༾', 'ཇ'), ('ཉ', 'ཬ'),
-  ('\u{f71}', '\u{f84}'), ('\u{f86}', '\u{f97}'), ('\u{f99}', '\u{fbc}'),
-  ('\u{fc6}', '\u{fc6}'), ('က', '၉'), ('ၐ', '\u{109d}'), ('Ⴀ', 'Ⴥ'),
-  ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'), ('ჼ', 'ቈ'),
-  ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'),
-  ('በ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኰ'), ('ኲ', 'ኵ'),
-  ('ኸ', 'ኾ'), ('ዀ', 'ዀ'), ('ዂ', 'ዅ'), ('ወ', 'ዖ'),
-  ('ዘ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ፚ'), ('\u{135d}', '\u{135f}'),
-  ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'), ('ᐁ', 'ᙬ'),
-  ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'), ('ᛮ', 'ᛸ'),
-  ('ᜀ', 'ᜌ'), ('ᜎ', '\u{1714}'), ('ᜠ', '\u{1734}'),
-  ('ᝀ', '\u{1753}'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'),
-  ('\u{1772}', '\u{1773}'), ('ក', '\u{17d3}'), ('ៗ', 'ៗ'),
-  ('ៜ', '\u{17dd}'), ('០', '៩'), ('\u{180b}', '\u{180d}'),
-  ('᠐', '᠙'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢪ'), ('ᢰ', 'ᣵ'),
-  ('ᤀ', 'ᤞ'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'), ('᥆', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('᧐', '᧙'),
-  ('ᨀ', '\u{1a1b}'), ('ᨠ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'),
-  ('\u{1a7f}', '᪉'), ('᪐', '᪙'), ('ᪧ', 'ᪧ'),
-  ('\u{1ab0}', '\u{1abe}'), ('\u{1b00}', 'ᭋ'), ('᭐', '᭙'),
-  ('\u{1b6b}', '\u{1b73}'), ('\u{1b80}', '᯳'), ('ᰀ', '\u{1c37}'),
-  ('᱀', '᱉'), ('ᱍ', 'ᱽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1cfa}'),
-  ('ᴀ', '\u{1df9}'), ('\u{1dfb}', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'),
-  ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'), ('ῐ', 'ΐ'),
-  ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'), ('ῶ', 'ῼ'),
-  ('\u{200c}', '\u{200d}'), ('‿', '⁀'), ('⁔', '⁔'), ('ⁱ', 'ⁱ'),
-  ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('\u{20d0}', '\u{20f0}'), ('ℂ', 'ℂ'),
-  ('ℇ', 'ℇ'), ('ℊ', 'ℓ'), ('ℕ', 'ℕ'), ('ℙ', 'ℝ'),
-  ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'), ('K', 'ℭ'),
-  ('ℯ', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'), ('ⅎ', 'ⅎ'),
-  ('Ⅰ', 'ↈ'), ('Ⓐ', 'ⓩ'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'),
-  ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'), ('\u{2d7f}', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('\u{2de0}', '\u{2dff}'), ('ⸯ', 'ⸯ'), ('々', '〇'),
-  ('〡', '\u{302f}'), ('〱', '〵'), ('〸', '〼'), ('ぁ', 'ゖ'),
-  ('\u{3099}', '\u{309a}'), ('ゝ', 'ゟ'), ('ァ', 'ヺ'), ('ー', 'ヿ'),
-  ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'),
-  ('㐀', '䶵'), ('一', '鿯'), ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'),
-  ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘫ'), ('Ꙁ', '\u{a672}'),
-  ('\u{a674}', '\u{a67d}'), ('ꙿ', '\u{a6f1}'), ('ꜗ', 'ꜟ'),
-  ('Ꜣ', 'ꞈ'), ('Ꞌ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'),
-  ('ꟷ', 'ꠧ'), ('ꡀ', 'ꡳ'), ('ꢀ', '\u{a8c5}'), ('꣐', '꣙'),
-  ('\u{a8e0}', 'ꣷ'), ('ꣻ', 'ꣻ'), ('ꣽ', '\u{a92d}'), ('ꤰ', '꥓'),
-  ('ꥠ', 'ꥼ'), ('\u{a980}', '꧀'), ('ꧏ', '꧙'), ('ꧠ', 'ꧾ'),
-  ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'), ('꩐', '꩙'), ('ꩠ', 'ꩶ'),
-  ('ꩺ', 'ꫂ'), ('ꫛ', 'ꫝ'), ('ꫠ', 'ꫯ'), ('ꫲ', '\u{aaf6}'),
-  ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'), ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'),
-  ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'), ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯪ'),
-  ('꯬', '\u{abed}'), ('꯰', '꯹'), ('가', '힣'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('豈', '舘'), ('並', '龎'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('יִ', 'ﬨ'), ('שׁ', 'זּ'), ('טּ', 'לּ'),
-  ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'), ('צּ', 'ﮱ'),
-  ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷻ'),
-  ('\u{fe00}', '\u{fe0f}'), ('\u{fe20}', '\u{fe2f}'), ('︳', '︴'),
-  ('﹍', '﹏'), ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'), ('0', '9'),
-  ('A', 'Z'), ('_', '_'), ('a', 'z'), ('ヲ', 'ᄒ'),
-  ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'),
-  ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'),
-  ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐅀', '𐅴'),
-  ('\u{101fd}', '\u{101fd}'), ('𐊀', '𐊜'), ('𐊠', '𐋐'),
-  ('\u{102e0}', '\u{102e0}'), ('𐌀', '𐌟'), ('𐌭', '𐍊'),
-  ('𐍐', '\u{1037a}'), ('𐎀', '𐎝'), ('𐎠', '𐏃'), ('𐏈', '𐏏'),
-  ('𐏑', '𐏕'), ('𐐀', '𐒝'), ('𐒠', '𐒩'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐘀', '𐜶'),
-  ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐠀', '𐠅'), ('𐠈', '𐠈'),
-  ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐡕'),
-  ('𐡠', '𐡶'), ('𐢀', '𐢞'), ('𐣠', '𐣲'), ('𐣴', '𐣵'),
-  ('𐤀', '𐤕'), ('𐤠', '𐤹'), ('𐦀', '𐦷'), ('𐦾', '𐦿'),
-  ('𐨀', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '\u{10a3f}'), ('𐩠', '𐩼'), ('𐪀', '𐪜'),
-  ('𐫀', '𐫇'), ('𐫉', '\u{10ae6}'), ('𐬀', '𐬵'), ('𐭀', '𐭕'),
-  ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'), ('𐲀', '𐲲'),
-  ('𐳀', '𐳲'), ('𐴀', '\u{10d27}'), ('𐴰', '𐴹'), ('𐼀', '𐼜'),
-  ('𐼧', '𐼧'), ('𐼰', '\u{10f50}'), ('\u{10fe0}', '\u{10ff6}'),
-  ('𑀀', '\u{11046}'), ('𑁦', '𑁯'), ('\u{1107f}', '\u{110ba}'),
-  ('𑃐', '𑃨'), ('𑃰', '𑃹'), ('\u{11100}', '\u{11134}'),
-  ('𑄶', '𑄿'), ('𑅄', '𑅆'), ('𑅐', '\u{11173}'), ('𑅶', '𑅶'),
-  ('\u{11180}', '𑇄'), ('\u{111c9}', '\u{111cc}'), ('𑇐', '𑇚'),
-  ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('𑊀', '𑊆'), ('𑊈', '𑊈'),
-  ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'), ('𑊰', '\u{112ea}'),
-  ('𑋰', '𑋹'), ('\u{11300}', '𑌃'), ('𑌅', '𑌌'), ('𑌏', '𑌐'),
-  ('𑌓', '𑌨'), ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'),
-  ('\u{1133b}', '𑍄'), ('𑍇', '𑍈'), ('𑍋', '𑍍'), ('𑍐', '𑍐'),
-  ('\u{11357}', '\u{11357}'), ('𑍝', '𑍣'), ('\u{11366}', '\u{1136c}'),
-  ('\u{11370}', '\u{11374}'), ('𑐀', '𑑊'), ('𑑐', '𑑙'),
-  ('\u{1145e}', '\u{1145f}'), ('𑒀', '𑓅'), ('𑓇', '𑓇'),
-  ('𑓐', '𑓙'), ('𑖀', '\u{115b5}'), ('𑖸', '\u{115c0}'),
-  ('𑗘', '\u{115dd}'), ('𑘀', '\u{11640}'), ('𑙄', '𑙄'),
-  ('𑙐', '𑙙'), ('𑚀', '\u{116b8}'), ('𑛀', '𑛉'), ('𑜀', '𑜚'),
-  ('\u{1171d}', '\u{1172b}'), ('𑜰', '𑜹'), ('𑠀', '\u{1183a}'),
-  ('𑢠', '𑣩'), ('𑣿', '𑣿'), ('\u{119a0}', '\u{119a7}'),
-  ('\u{119aa}', '\u{119d7}'), ('\u{119da}', '\u{119e1}'),
-  ('\u{119e3}', '\u{119e4}'), ('𑨀', '\u{11a3e}'),
-  ('\u{11a47}', '\u{11a47}'), ('𑩐', '\u{11a99}'), ('𑪝', '𑪝'),
-  ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '\u{11c36}'),
-  ('\u{11c38}', '𑱀'), ('𑱐', '𑱙'), ('𑱲', '𑲏'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'), ('𑴀', '𑴆'),
-  ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d47}'), ('𑵐', '𑵙'),
-  ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶘'), ('𑶠', '𑶩'),
-  ('𑻠', '𑻶'), ('𒀀', '𒎙'), ('𒐀', '𒑮'), ('𒒀', '𒕃'),
-  ('𓀀', '𓐮'), ('𔐀', '𔙆'), ('𖠀', '𖨸'), ('𖩀', '𖩞'),
-  ('𖩠', '𖩩'), ('𖫐', '𖫭'), ('\u{16af0}', '\u{16af4}'),
-  ('𖬀', '\u{16b36}'), ('𖭀', '𖭃'), ('𖭐', '𖭙'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𖹀', '𖹿'), ('𖼀', '\u{16f4a}'),
-  ('\u{16f4f}', '\u{16f87}'), ('\u{16f8f}', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d169}'),
-  ('𝅭', '\u{1d172}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'),
-  ('𝛼', '𝜔'), ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'),
-  ('𝝰', '𝞈'), ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('𝟎', '𝟿'), ('\u{1da00}', '\u{1da36}'), ('\u{1da3b}', '\u{1da6c}'),
-  ('\u{1da75}', '\u{1da75}'), ('\u{1da84}', '\u{1da84}'),
-  ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e100}', '\u{1e12c}'),
-  ('\u{1e130}', '\u{1e13d}'), ('\u{1e140}', '\u{1e149}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2f9}'), ('𞠀', '𞣄'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('𞤀', '\u{1e94b}'), ('𞥐', '𞥙'),
-  ('𞸀', '𞸃'), ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'),
-  ('𞸧', '𞸧'), ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'),
-  ('𞸻', '𞸻'), ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'),
-  ('𞹋', '𞹋'), ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'),
-  ('𞹗', '𞹗'), ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'),
-  ('𞹟', '𞹟'), ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'),
-  ('𞹬', '𞹲'), ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'),
-  ('𞺀', '𞺉'), ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'),
-  ('𞺫', '𞺻'), ('🄰', '🅉'), ('🅐', '🅩'), ('🅰', '🆉'),
-  ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'),
-  ('𬺰', '𮯠'), ('丽', '𪘀'), ('\u{e0100}', '\u{e01ef}'),
-];
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate property-bool /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("ASCII_Hex_Digit", ASCII_HEX_DIGIT), ("Alphabetic", ALPHABETIC),
-  ("Bidi_Control", BIDI_CONTROL), ("Case_Ignorable", CASE_IGNORABLE),
-  ("Cased", CASED), ("Changes_When_Casefolded", CHANGES_WHEN_CASEFOLDED),
-  ("Changes_When_Casemapped", CHANGES_WHEN_CASEMAPPED),
-  ("Changes_When_Lowercased", CHANGES_WHEN_LOWERCASED),
-  ("Changes_When_Titlecased", CHANGES_WHEN_TITLECASED),
-  ("Changes_When_Uppercased", CHANGES_WHEN_UPPERCASED), ("Dash", DASH),
-  ("Default_Ignorable_Code_Point", DEFAULT_IGNORABLE_CODE_POINT),
-  ("Deprecated", DEPRECATED), ("Diacritic", DIACRITIC), ("Emoji", EMOJI),
-  ("Emoji_Component", EMOJI_COMPONENT), ("Emoji_Modifier", EMOJI_MODIFIER),
-  ("Emoji_Modifier_Base", EMOJI_MODIFIER_BASE),
-  ("Emoji_Presentation", EMOJI_PRESENTATION),
-  ("Extended_Pictographic", EXTENDED_PICTOGRAPHIC), ("Extender", EXTENDER),
-  ("Grapheme_Base", GRAPHEME_BASE), ("Grapheme_Extend", GRAPHEME_EXTEND),
-  ("Grapheme_Link", GRAPHEME_LINK), ("Hex_Digit", HEX_DIGIT),
-  ("Hyphen", HYPHEN), ("IDS_Binary_Operator", IDS_BINARY_OPERATOR),
-  ("IDS_Trinary_Operator", IDS_TRINARY_OPERATOR),
-  ("ID_Continue", ID_CONTINUE), ("ID_Start", ID_START),
-  ("Ideographic", IDEOGRAPHIC), ("Join_Control", JOIN_CONTROL),
-  ("Logical_Order_Exception", LOGICAL_ORDER_EXCEPTION),
-  ("Lowercase", LOWERCASE), ("Math", MATH),
-  ("Noncharacter_Code_Point", NONCHARACTER_CODE_POINT),
-  ("Other_Alphabetic", OTHER_ALPHABETIC),
-  ("Other_Default_Ignorable_Code_Point", OTHER_DEFAULT_IGNORABLE_CODE_POINT),
-  ("Other_Grapheme_Extend", OTHER_GRAPHEME_EXTEND),
-  ("Other_ID_Continue", OTHER_ID_CONTINUE),
-  ("Other_ID_Start", OTHER_ID_START), ("Other_Lowercase", OTHER_LOWERCASE),
-  ("Other_Math", OTHER_MATH), ("Other_Uppercase", OTHER_UPPERCASE),
-  ("Pattern_Syntax", PATTERN_SYNTAX),
-  ("Pattern_White_Space", PATTERN_WHITE_SPACE),
-  ("Prepended_Concatenation_Mark", PREPENDED_CONCATENATION_MARK),
-  ("Quotation_Mark", QUOTATION_MARK), ("Radical", RADICAL),
-  ("Regional_Indicator", REGIONAL_INDICATOR),
-  ("Sentence_Terminal", SENTENCE_TERMINAL), ("Soft_Dotted", SOFT_DOTTED),
-  ("Terminal_Punctuation", TERMINAL_PUNCTUATION),
-  ("Unified_Ideograph", UNIFIED_IDEOGRAPH), ("Uppercase", UPPERCASE),
-  ("Variation_Selector", VARIATION_SELECTOR), ("White_Space", WHITE_SPACE),
-  ("XID_Continue", XID_CONTINUE), ("XID_Start", XID_START),
-];
-
-pub const ASCII_HEX_DIGIT: &'static [(char, char)] = &[
-  ('0', '9'), ('A', 'F'), ('a', 'f'),
-];
-
-pub const ALPHABETIC: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'),
-  ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'), ('ˆ', 'ˑ'), ('ˠ', 'ˤ'),
-  ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('\u{345}', '\u{345}'), ('Ͱ', 'ʹ'),
-  ('Ͷ', 'ͷ'), ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('Ҋ', 'ԯ'),
-  ('Ա', 'Ֆ'), ('ՙ', 'ՙ'), ('ՠ', 'ֈ'), ('\u{5b0}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('א', 'ת'), ('ׯ', 'ײ'), ('\u{610}', '\u{61a}'),
-  ('ؠ', '\u{657}'), ('\u{659}', '\u{65f}'), ('ٮ', 'ۓ'), ('ە', '\u{6dc}'),
-  ('\u{6e1}', '\u{6e8}'), ('\u{6ed}', 'ۯ'), ('ۺ', 'ۼ'), ('ۿ', 'ۿ'),
-  ('ܐ', '\u{73f}'), ('ݍ', 'ޱ'), ('ߊ', 'ߪ'), ('ߴ', 'ߵ'), ('ߺ', 'ߺ'),
-  ('ࠀ', '\u{817}'), ('ࠚ', '\u{82c}'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'),
-  ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('\u{8d4}', '\u{8df}'),
-  ('\u{8e3}', '\u{8e9}'), ('\u{8f0}', 'ऻ'), ('ऽ', 'ौ'), ('ॎ', 'ॐ'),
-  ('\u{955}', '\u{963}'), ('ॱ', 'ঃ'), ('অ', 'ঌ'), ('এ', 'ঐ'),
-  ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'),
-  ('ঽ', '\u{9c4}'), ('ে', 'ৈ'), ('ো', 'ৌ'), ('ৎ', 'ৎ'),
-  ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'), ('য়', '\u{9e3}'), ('ৰ', 'ৱ'),
-  ('ৼ', 'ৼ'), ('\u{a01}', 'ਃ'), ('ਅ', 'ਊ'), ('ਏ', 'ਐ'),
-  ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'),
-  ('ਸ', 'ਹ'), ('ਾ', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4c}'), ('\u{a51}', '\u{a51}'), ('ਖ਼', 'ੜ'),
-  ('ਫ਼', 'ਫ਼'), ('\u{a70}', '\u{a75}'), ('\u{a81}', 'ઃ'), ('અ', 'ઍ'),
-  ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'), ('લ', 'ળ'),
-  ('વ', 'હ'), ('ઽ', '\u{ac5}'), ('\u{ac7}', 'ૉ'), ('ો', 'ૌ'),
-  ('ૐ', 'ૐ'), ('ૠ', '\u{ae3}'), ('ૹ', '\u{afc}'), ('\u{b01}', 'ଃ'),
-  ('ଅ', 'ଌ'), ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'),
-  ('ଲ', 'ଳ'), ('ଵ', 'ହ'), ('ଽ', '\u{b44}'), ('େ', 'ୈ'),
-  ('ୋ', 'ୌ'), ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'), ('ୟ', '\u{b63}'),
-  ('ୱ', 'ୱ'), ('\u{b82}', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('\u{bbe}', 'ூ'),
-  ('ெ', 'ை'), ('ொ', 'ௌ'), ('ௐ', 'ௐ'), ('\u{bd7}', '\u{bd7}'),
-  ('\u{c00}', 'ః'), ('అ', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'),
-  ('ప', 'హ'), ('ఽ', 'ౄ'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4c}'), ('\u{c55}', '\u{c56}'), ('ౘ', 'ౚ'),
-  ('ౠ', '\u{c63}'), ('ಀ', 'ಃ'), ('ಅ', 'ಌ'), ('ಎ', 'ಐ'),
-  ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'), ('ಽ', 'ೄ'),
-  ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccc}'), ('\u{cd5}', '\u{cd6}'),
-  ('ೞ', 'ೞ'), ('ೠ', '\u{ce3}'), ('ೱ', 'ೲ'), ('\u{d00}', 'ഃ'),
-  ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'), ('ഽ', '\u{d44}'),
-  ('െ', 'ൈ'), ('ൊ', 'ൌ'), ('ൎ', 'ൎ'), ('ൔ', '\u{d57}'),
-  ('ൟ', '\u{d63}'), ('ൺ', 'ൿ'), ('ං', 'ඃ'), ('අ', 'ඖ'),
-  ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'), ('ව', 'ෆ'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('ෲ', 'ෳ'), ('ก', '\u{e3a}'), ('เ', 'ๆ'), ('\u{e4d}', '\u{e4d}'),
-  ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'),
-  ('ລ', 'ລ'), ('ວ', '\u{eb9}'), ('\u{ebb}', 'ຽ'), ('ເ', 'ໄ'),
-  ('ໆ', 'ໆ'), ('\u{ecd}', '\u{ecd}'), ('ໜ', 'ໟ'), ('ༀ', 'ༀ'),
-  ('ཀ', 'ཇ'), ('ཉ', 'ཬ'), ('\u{f71}', '\u{f81}'), ('ྈ', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('က', '\u{1036}'), ('း', 'း'), ('ျ', 'ဿ'),
-  ('ၐ', 'ႏ'), ('ႚ', '\u{109d}'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'),
-  ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'), ('ჼ', 'ቈ'), ('ቊ', 'ቍ'),
-  ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'),
-  ('ኊ', 'ኍ'), ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'),
-  ('ዀ', 'ዀ'), ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'),
-  ('ጒ', 'ጕ'), ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'),
-  ('ᏸ', 'ᏽ'), ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'),
-  ('ᚠ', 'ᛪ'), ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', '\u{1713}'),
-  ('ᜠ', '\u{1733}'), ('ᝀ', '\u{1753}'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'),
-  ('\u{1772}', '\u{1773}'), ('ក', 'ឳ'), ('ា', 'ៈ'), ('ៗ', 'ៗ'),
-  ('ៜ', 'ៜ'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢪ'), ('ᢰ', 'ᣵ'),
-  ('ᤀ', 'ᤞ'), ('\u{1920}', 'ᤫ'), ('ᤰ', 'ᤸ'), ('ᥐ', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('ᨀ', '\u{1a1b}'),
-  ('ᨠ', '\u{1a5e}'), ('ᩡ', '\u{1a74}'), ('ᪧ', 'ᪧ'),
-  ('\u{1b00}', 'ᬳ'), ('ᬵ', 'ᭃ'), ('ᭅ', 'ᭋ'),
-  ('\u{1b80}', '\u{1ba9}'), ('\u{1bac}', 'ᮯ'), ('ᮺ', 'ᯥ'),
-  ('ᯧ', '\u{1bf1}'), ('ᰀ', '\u{1c36}'), ('ᱍ', 'ᱏ'), ('ᱚ', 'ᱽ'),
-  ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('ᳩ', 'ᳬ'),
-  ('ᳮ', 'ᳳ'), ('ᳵ', 'ᳶ'), ('\u{1cfa}', '\u{1cfa}'), ('ᴀ', 'ᶿ'),
-  ('\u{1de7}', '\u{1df4}'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'),
-  ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'), ('ῐ', 'ΐ'),
-  ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'), ('ῶ', 'ῼ'),
-  ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('ℂ', 'ℂ'),
-  ('ℇ', 'ℇ'), ('ℊ', 'ℓ'), ('ℕ', 'ℕ'), ('ℙ', 'ℝ'),
-  ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'), ('K', 'ℭ'),
-  ('ℯ', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'), ('ⅎ', 'ⅎ'),
-  ('Ⅰ', 'ↈ'), ('Ⓐ', 'ⓩ'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'),
-  ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'),
-  ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'),
-  ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'),
-  ('ⷘ', 'ⷞ'), ('\u{2de0}', '\u{2dff}'), ('ⸯ', 'ⸯ'), ('々', '〇'),
-  ('〡', '〩'), ('〱', '〵'), ('〸', '〼'), ('ぁ', 'ゖ'),
-  ('ゝ', 'ゟ'), ('ァ', 'ヺ'), ('ー', 'ヿ'), ('ㄅ', 'ㄯ'),
-  ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'), ('㐀', '䶵'),
-  ('一', '鿯'), ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'), ('ꔀ', 'ꘌ'),
-  ('ꘐ', 'ꘟ'), ('ꘪ', 'ꘫ'), ('Ꙁ', 'ꙮ'), ('\u{a674}', '\u{a67b}'),
-  ('ꙿ', 'ꛯ'), ('ꜗ', 'ꜟ'), ('Ꜣ', 'ꞈ'), ('Ꞌ', '\u{a7bf}'),
-  ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠅ'), ('ꠇ', 'ꠧ'), ('ꡀ', 'ꡳ'),
-  ('ꢀ', 'ꣃ'), ('\u{a8c5}', '\u{a8c5}'), ('ꣲ', 'ꣷ'), ('ꣻ', 'ꣻ'),
-  ('ꣽ', '\u{a8ff}'), ('ꤊ', '\u{a92a}'), ('ꤰ', 'ꥒ'), ('ꥠ', 'ꥼ'),
-  ('\u{a980}', 'ꦲ'), ('ꦴ', 'ꦿ'), ('ꧏ', 'ꧏ'), ('ꧠ', 'ꧯ'),
-  ('ꧺ', 'ꧾ'), ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'), ('ꩠ', 'ꩶ'),
-  ('ꩺ', '\u{aabe}'), ('ꫀ', 'ꫀ'), ('ꫂ', 'ꫂ'), ('ꫛ', 'ꫝ'),
-  ('ꫠ', 'ꫯ'), ('ꫲ', 'ꫵ'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯪ'), ('가', '힣'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('豈', '舘'), ('並', '龎'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('יִ', 'ﬨ'), ('שׁ', 'זּ'), ('טּ', 'לּ'),
-  ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'), ('צּ', 'ﮱ'),
-  ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷻ'),
-  ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'), ('A', 'Z'), ('a', 'z'),
-  ('ヲ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'),
-  ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'),
-  ('𐀼', '𐀽'), ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'),
-  ('𐅀', '𐅴'), ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('𐌀', '𐌟'),
-  ('𐌭', '𐍊'), ('𐍐', '\u{1037a}'), ('𐎀', '𐎝'), ('𐎠', '𐏃'),
-  ('𐏈', '𐏏'), ('𐏑', '𐏕'), ('𐐀', '𐒝'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐘀', '𐜶'),
-  ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐠀', '𐠅'), ('𐠈', '𐠈'),
-  ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐡕'),
-  ('𐡠', '𐡶'), ('𐢀', '𐢞'), ('𐣠', '𐣲'), ('𐣴', '𐣵'),
-  ('𐤀', '𐤕'), ('𐤠', '𐤹'), ('𐦀', '𐦷'), ('𐦾', '𐦿'),
-  ('𐨀', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('𐩠', '𐩼'), ('𐪀', '𐪜'),
-  ('𐫀', '𐫇'), ('𐫉', '𐫤'), ('𐬀', '𐬵'), ('𐭀', '𐭕'),
-  ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'), ('𐲀', '𐲲'),
-  ('𐳀', '𐳲'), ('𐴀', '\u{10d27}'), ('𐼀', '𐼜'), ('𐼧', '𐼧'),
-  ('𐼰', '𐽅'), ('\u{10fe0}', '\u{10ff6}'), ('𑀀', '\u{11045}'),
-  ('𑂂', '𑂸'), ('𑃐', '𑃨'), ('\u{11100}', '\u{11132}'),
-  ('𑅄', '𑅆'), ('𑅐', '𑅲'), ('𑅶', '𑅶'), ('\u{11180}', '𑆿'),
-  ('𑇁', '𑇄'), ('𑇚', '𑇚'), ('𑇜', '𑇜'), ('𑈀', '𑈑'),
-  ('𑈓', '\u{11234}'), ('\u{11237}', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('𑊀', '𑊆'), ('𑊈', '𑊈'),
-  ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'), ('𑊰', '\u{112e8}'),
-  ('\u{11300}', '𑌃'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('𑌽', '𑍄'),
-  ('𑍇', '𑍈'), ('𑍋', '𑍌'), ('𑍐', '𑍐'),
-  ('\u{11357}', '\u{11357}'), ('𑍝', '𑍣'), ('𑐀', '𑑁'),
-  ('\u{11443}', '𑑅'), ('𑑇', '𑑊'), ('\u{1145f}', '\u{1145f}'),
-  ('𑒀', '𑓁'), ('𑓄', '𑓅'), ('𑓇', '𑓇'), ('𑖀', '\u{115b5}'),
-  ('𑖸', '𑖾'), ('𑗘', '\u{115dd}'), ('𑘀', '𑘾'),
-  ('\u{11640}', '\u{11640}'), ('𑙄', '𑙄'), ('𑚀', '\u{116b5}'),
-  ('\u{116b8}', '\u{116b8}'), ('𑜀', '𑜚'), ('\u{1171d}', '\u{1172a}'),
-  ('𑠀', '𑠸'), ('𑢠', '𑣟'), ('𑣿', '𑣿'),
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d7}'),
-  ('\u{119da}', '\u{119df}'), ('\u{119e1}', '\u{119e1}'),
-  ('\u{119e3}', '\u{119e4}'), ('𑨀', '𑨲'), ('\u{11a35}', '\u{11a3e}'),
-  ('𑩐', '𑪗'), ('𑪝', '𑪝'), ('𑫀', '𑫸'), ('𑰀', '𑰈'),
-  ('𑰊', '\u{11c36}'), ('\u{11c38}', '𑰾'), ('𑱀', '𑱀'),
-  ('𑱲', '𑲏'), ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-  ('𑴀', '𑴆'), ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d41}'), ('\u{11d43}', '\u{11d43}'),
-  ('𑵆', '\u{11d47}'), ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶖'), ('𑶘', '𑶘'),
-  ('𑻠', '𑻶'), ('𒀀', '𒎙'), ('𒐀', '𒑮'), ('𒒀', '𒕃'),
-  ('𓀀', '𓐮'), ('𔐀', '𔙆'), ('𖠀', '𖨸'), ('𖩀', '𖩞'),
-  ('𖫐', '𖫭'), ('𖬀', '𖬯'), ('𖭀', '𖭃'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𖹀', '𖹿'), ('𖼀', '\u{16f4a}'),
-  ('\u{16f4f}', '\u{16f87}'), ('\u{16f8f}', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('\u{1bc9e}', '\u{1bc9e}'), ('𝐀', '𝑔'),
-  ('𝑖', '𝒜'), ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'),
-  ('𝒩', '𝒬'), ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'),
-  ('𝓅', '𝔅'), ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'),
-  ('𝔞', '𝔹'), ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'),
-  ('𝕊', '𝕐'), ('𝕒', '𝚥'), ('𝚨', '𝛀'), ('𝛂', '𝛚'),
-  ('𝛜', '𝛺'), ('𝛼', '𝜔'), ('𝜖', '𝜴'), ('𝜶', '𝝎'),
-  ('𝝐', '𝝮'), ('𝝰', '𝞈'), ('𝞊', '𝞨'), ('𝞪', '𝟂'),
-  ('𝟄', '𝟋'), ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e100}', '\u{1e12c}'),
-  ('\u{1e137}', '\u{1e13d}'), ('\u{1e14e}', '\u{1e14e}'),
-  ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'), ('𞤀', '𞥃'),
-  ('\u{1e947}', '\u{1e947}'), ('\u{1e94b}', '\u{1e94b}'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-  ('🄰', '🅉'), ('🅐', '🅩'), ('🅰', '🆉'), ('𠀀', '𪛖'),
-  ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-  ('丽', '𪘀'),
-];
-
-pub const BIDI_CONTROL: &'static [(char, char)] = &[
-  ('\u{61c}', '\u{61c}'), ('\u{200e}', '\u{200f}'), ('\u{202a}', '\u{202e}'),
-  ('\u{2066}', '\u{2069}'),
-];
-
-pub const CASE_IGNORABLE: &'static [(char, char)] = &[
-  ('\'', '\''), ('.', '.'), (':', ':'), ('^', '^'), ('`', '`'), ('¨', '¨'),
-  ('\u{ad}', '\u{ad}'), ('¯', '¯'), ('´', '´'), ('·', '¸'),
-  ('ʰ', '\u{36f}'), ('ʹ', '͵'), ('ͺ', 'ͺ'), ('΄', '΅'), ('·', '·'),
-  ('\u{483}', '\u{489}'), ('ՙ', 'ՙ'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('״', '״'), ('\u{600}', '\u{605}'),
-  ('\u{610}', '\u{61a}'), ('\u{61c}', '\u{61c}'), ('ـ', 'ـ'),
-  ('\u{64b}', '\u{65f}'), ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dd}'),
-  ('\u{6df}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{70f}', '\u{70f}'),
-  ('\u{711}', '\u{711}'), ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'),
-  ('\u{7eb}', 'ߵ'), ('ߺ', 'ߺ'), ('\u{7fd}', '\u{7fd}'),
-  ('\u{816}', '\u{82d}'), ('\u{859}', '\u{85b}'), ('\u{8d3}', '\u{902}'),
-  ('\u{93a}', '\u{93a}'), ('\u{93c}', '\u{93c}'), ('\u{941}', '\u{948}'),
-  ('\u{94d}', '\u{94d}'), ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'),
-  ('ॱ', 'ॱ'), ('\u{981}', '\u{981}'), ('\u{9bc}', '\u{9bc}'),
-  ('\u{9c1}', '\u{9c4}'), ('\u{9cd}', '\u{9cd}'), ('\u{9e2}', '\u{9e3}'),
-  ('\u{9fe}', '\u{9fe}'), ('\u{a01}', '\u{a02}'), ('\u{a3c}', '\u{a3c}'),
-  ('\u{a41}', '\u{a42}'), ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'),
-  ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'), ('\u{a75}', '\u{a75}'),
-  ('\u{a81}', '\u{a82}'), ('\u{abc}', '\u{abc}'), ('\u{ac1}', '\u{ac5}'),
-  ('\u{ac7}', '\u{ac8}'), ('\u{acd}', '\u{acd}'), ('\u{ae2}', '\u{ae3}'),
-  ('\u{afa}', '\u{aff}'), ('\u{b01}', '\u{b01}'), ('\u{b3c}', '\u{b3c}'),
-  ('\u{b3f}', '\u{b3f}'), ('\u{b41}', '\u{b44}'), ('\u{b4d}', '\u{b4d}'),
-  ('\u{b56}', '\u{b56}'), ('\u{b62}', '\u{b63}'), ('\u{b82}', '\u{b82}'),
-  ('\u{bc0}', '\u{bc0}'), ('\u{bcd}', '\u{bcd}'), ('\u{c00}', '\u{c00}'),
-  ('\u{c04}', '\u{c04}'), ('\u{c3e}', '\u{c40}'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4d}'), ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'),
-  ('\u{c81}', '\u{c81}'), ('\u{cbc}', '\u{cbc}'), ('\u{cbf}', '\u{cbf}'),
-  ('\u{cc6}', '\u{cc6}'), ('\u{ccc}', '\u{ccd}'), ('\u{ce2}', '\u{ce3}'),
-  ('\u{d00}', '\u{d01}'), ('\u{d3b}', '\u{d3c}'), ('\u{d41}', '\u{d44}'),
-  ('\u{d4d}', '\u{d4d}'), ('\u{d62}', '\u{d63}'), ('\u{dca}', '\u{dca}'),
-  ('\u{dd2}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('\u{e31}', '\u{e31}'),
-  ('\u{e34}', '\u{e3a}'), ('ๆ', '\u{e4e}'), ('\u{eb1}', '\u{eb1}'),
-  ('\u{eb4}', '\u{ebc}'), ('ໆ', 'ໆ'), ('\u{ec8}', '\u{ecd}'),
-  ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'), ('\u{f37}', '\u{f37}'),
-  ('\u{f39}', '\u{f39}'), ('\u{f71}', '\u{f7e}'), ('\u{f80}', '\u{f84}'),
-  ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'), ('\u{f99}', '\u{fbc}'),
-  ('\u{fc6}', '\u{fc6}'), ('\u{102d}', '\u{1030}'), ('\u{1032}', '\u{1037}'),
-  ('\u{1039}', '\u{103a}'), ('\u{103d}', '\u{103e}'),
-  ('\u{1058}', '\u{1059}'), ('\u{105e}', '\u{1060}'),
-  ('\u{1071}', '\u{1074}'), ('\u{1082}', '\u{1082}'),
-  ('\u{1085}', '\u{1086}'), ('\u{108d}', '\u{108d}'),
-  ('\u{109d}', '\u{109d}'), ('ჼ', 'ჼ'), ('\u{135d}', '\u{135f}'),
-  ('\u{1712}', '\u{1714}'), ('\u{1732}', '\u{1734}'),
-  ('\u{1752}', '\u{1753}'), ('\u{1772}', '\u{1773}'),
-  ('\u{17b4}', '\u{17b5}'), ('\u{17b7}', '\u{17bd}'),
-  ('\u{17c6}', '\u{17c6}'), ('\u{17c9}', '\u{17d3}'), ('ៗ', 'ៗ'),
-  ('\u{17dd}', '\u{17dd}'), ('\u{180b}', '\u{180e}'), ('ᡃ', 'ᡃ'),
-  ('\u{1885}', '\u{1886}'), ('\u{18a9}', '\u{18a9}'),
-  ('\u{1920}', '\u{1922}'), ('\u{1927}', '\u{1928}'),
-  ('\u{1932}', '\u{1932}'), ('\u{1939}', '\u{193b}'),
-  ('\u{1a17}', '\u{1a18}'), ('\u{1a1b}', '\u{1a1b}'),
-  ('\u{1a56}', '\u{1a56}'), ('\u{1a58}', '\u{1a5e}'),
-  ('\u{1a60}', '\u{1a60}'), ('\u{1a62}', '\u{1a62}'),
-  ('\u{1a65}', '\u{1a6c}'), ('\u{1a73}', '\u{1a7c}'),
-  ('\u{1a7f}', '\u{1a7f}'), ('ᪧ', 'ᪧ'), ('\u{1ab0}', '\u{1abe}'),
-  ('\u{1b00}', '\u{1b03}'), ('\u{1b34}', '\u{1b34}'),
-  ('\u{1b36}', '\u{1b3a}'), ('\u{1b3c}', '\u{1b3c}'),
-  ('\u{1b42}', '\u{1b42}'), ('\u{1b6b}', '\u{1b73}'),
-  ('\u{1b80}', '\u{1b81}'), ('\u{1ba2}', '\u{1ba5}'),
-  ('\u{1ba8}', '\u{1ba9}'), ('\u{1bab}', '\u{1bad}'),
-  ('\u{1be6}', '\u{1be6}'), ('\u{1be8}', '\u{1be9}'),
-  ('\u{1bed}', '\u{1bed}'), ('\u{1bef}', '\u{1bf1}'),
-  ('\u{1c2c}', '\u{1c33}'), ('\u{1c36}', '\u{1c37}'), ('ᱸ', 'ᱽ'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce0}'),
-  ('\u{1ce2}', '\u{1ce8}'), ('\u{1ced}', '\u{1ced}'),
-  ('\u{1cf4}', '\u{1cf4}'), ('\u{1cf8}', '\u{1cf9}'), ('ᴬ', 'ᵪ'),
-  ('ᵸ', 'ᵸ'), ('ᶛ', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('᾽', '᾽'), ('᾿', '῁'), ('῍', '῏'), ('῝', '῟'),
-  ('῭', '`'), ('´', '῾'), ('\u{200b}', '\u{200f}'), ('‘', '’'),
-  ('․', '․'), ('‧', '‧'), ('\u{202a}', '\u{202e}'),
-  ('\u{2060}', '\u{2064}'), ('\u{2066}', '\u{206f}'), ('ⁱ', 'ⁱ'),
-  ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('\u{20d0}', '\u{20f0}'), ('ⱼ', 'ⱽ'),
-  ('\u{2cef}', '\u{2cf1}'), ('ⵯ', 'ⵯ'), ('\u{2d7f}', '\u{2d7f}'),
-  ('\u{2de0}', '\u{2dff}'), ('ⸯ', 'ⸯ'), ('々', '々'),
-  ('\u{302a}', '\u{302d}'), ('〱', '〵'), ('〻', '〻'),
-  ('\u{3099}', 'ゞ'), ('ー', 'ヾ'), ('ꀕ', 'ꀕ'), ('ꓸ', 'ꓽ'),
-  ('ꘌ', 'ꘌ'), ('\u{a66f}', '\u{a672}'), ('\u{a674}', '\u{a67d}'),
-  ('ꙿ', 'ꙿ'), ('ꚜ', '\u{a69f}'), ('\u{a6f0}', '\u{a6f1}'),
-  ('꜀', '꜡'), ('ꝰ', 'ꝰ'), ('ꞈ', '꞊'), ('ꟸ', 'ꟹ'),
-  ('\u{a802}', '\u{a802}'), ('\u{a806}', '\u{a806}'),
-  ('\u{a80b}', '\u{a80b}'), ('\u{a825}', '\u{a826}'),
-  ('\u{a8c4}', '\u{a8c5}'), ('\u{a8e0}', '\u{a8f1}'),
-  ('\u{a8ff}', '\u{a8ff}'), ('\u{a926}', '\u{a92d}'),
-  ('\u{a947}', '\u{a951}'), ('\u{a980}', '\u{a982}'),
-  ('\u{a9b3}', '\u{a9b3}'), ('\u{a9b6}', '\u{a9b9}'), ('\u{a9bc}', 'ꦽ'),
-  ('ꧏ', 'ꧏ'), ('\u{a9e5}', 'ꧦ'), ('\u{aa29}', '\u{aa2e}'),
-  ('\u{aa31}', '\u{aa32}'), ('\u{aa35}', '\u{aa36}'),
-  ('\u{aa43}', '\u{aa43}'), ('\u{aa4c}', '\u{aa4c}'), ('ꩰ', 'ꩰ'),
-  ('\u{aa7c}', '\u{aa7c}'), ('\u{aab0}', '\u{aab0}'),
-  ('\u{aab2}', '\u{aab4}'), ('\u{aab7}', '\u{aab8}'),
-  ('\u{aabe}', '\u{aabf}'), ('\u{aac1}', '\u{aac1}'), ('ꫝ', 'ꫝ'),
-  ('\u{aaec}', '\u{aaed}'), ('ꫳ', 'ꫴ'), ('\u{aaf6}', '\u{aaf6}'),
-  ('꭛', 'ꭟ'), ('\u{abe5}', '\u{abe5}'), ('\u{abe8}', '\u{abe8}'),
-  ('\u{abed}', '\u{abed}'), ('\u{fb1e}', '\u{fb1e}'), ('﮲', '﯁'),
-  ('\u{fe00}', '\u{fe0f}'), ('︓', '︓'), ('\u{fe20}', '\u{fe2f}'),
-  ('﹒', '﹒'), ('﹕', '﹕'), ('\u{feff}', '\u{feff}'), (''', '''),
-  ('.', '.'), (':', ':'), ('^', '^'), ('`', '`'),
-  ('ー', 'ー'), ('\u{ff9e}', '\u{ff9f}'), (' ̄', ' ̄'),
-  ('\u{fff9}', '\u{fffb}'), ('\u{101fd}', '\u{101fd}'),
-  ('\u{102e0}', '\u{102e0}'), ('\u{10376}', '\u{1037a}'),
-  ('\u{10a01}', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'),
-  ('\u{10a0c}', '\u{10a0f}'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '\u{10a3f}'), ('\u{10ae5}', '\u{10ae6}'),
-  ('\u{10d24}', '\u{10d27}'), ('\u{10f46}', '\u{10f50}'),
-  ('\u{11001}', '\u{11001}'), ('\u{11038}', '\u{11046}'),
-  ('\u{1107f}', '\u{11081}'), ('\u{110b3}', '\u{110b6}'),
-  ('\u{110b9}', '\u{110ba}'), ('\u{110bd}', '\u{110bd}'),
-  ('\u{110cd}', '\u{110cd}'), ('\u{11100}', '\u{11102}'),
-  ('\u{11127}', '\u{1112b}'), ('\u{1112d}', '\u{11134}'),
-  ('\u{11173}', '\u{11173}'), ('\u{11180}', '\u{11181}'),
-  ('\u{111b6}', '\u{111be}'), ('\u{111c9}', '\u{111cc}'),
-  ('\u{1122f}', '\u{11231}'), ('\u{11234}', '\u{11234}'),
-  ('\u{11236}', '\u{11237}'), ('\u{1123e}', '\u{1123e}'),
-  ('\u{112df}', '\u{112df}'), ('\u{112e3}', '\u{112ea}'),
-  ('\u{11300}', '\u{11301}'), ('\u{1133b}', '\u{1133c}'),
-  ('\u{11340}', '\u{11340}'), ('\u{11366}', '\u{1136c}'),
-  ('\u{11370}', '\u{11374}'), ('\u{11438}', '\u{1143f}'),
-  ('\u{11442}', '\u{11444}'), ('\u{11446}', '\u{11446}'),
-  ('\u{1145e}', '\u{1145e}'), ('\u{114b3}', '\u{114b8}'),
-  ('\u{114ba}', '\u{114ba}'), ('\u{114bf}', '\u{114c0}'),
-  ('\u{114c2}', '\u{114c3}'), ('\u{115b2}', '\u{115b5}'),
-  ('\u{115bc}', '\u{115bd}'), ('\u{115bf}', '\u{115c0}'),
-  ('\u{115dc}', '\u{115dd}'), ('\u{11633}', '\u{1163a}'),
-  ('\u{1163d}', '\u{1163d}'), ('\u{1163f}', '\u{11640}'),
-  ('\u{116ab}', '\u{116ab}'), ('\u{116ad}', '\u{116ad}'),
-  ('\u{116b0}', '\u{116b5}'), ('\u{116b7}', '\u{116b7}'),
-  ('\u{1171d}', '\u{1171f}'), ('\u{11722}', '\u{11725}'),
-  ('\u{11727}', '\u{1172b}'), ('\u{1182f}', '\u{11837}'),
-  ('\u{11839}', '\u{1183a}'), ('\u{119d4}', '\u{119d7}'),
-  ('\u{119da}', '\u{119db}'), ('\u{119e0}', '\u{119e0}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a33}', '\u{11a38}'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a51}', '\u{11a56}'), ('\u{11a59}', '\u{11a5b}'),
-  ('\u{11a8a}', '\u{11a96}'), ('\u{11a98}', '\u{11a99}'),
-  ('\u{11c30}', '\u{11c36}'), ('\u{11c38}', '\u{11c3d}'),
-  ('\u{11c3f}', '\u{11c3f}'), ('\u{11c92}', '\u{11ca7}'),
-  ('\u{11caa}', '\u{11cb0}'), ('\u{11cb2}', '\u{11cb3}'),
-  ('\u{11cb5}', '\u{11cb6}'), ('\u{11d31}', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d45}'), ('\u{11d47}', '\u{11d47}'),
-  ('\u{11d90}', '\u{11d91}'), ('\u{11d95}', '\u{11d95}'),
-  ('\u{11d97}', '\u{11d97}'), ('\u{11ef3}', '\u{11ef4}'),
-  ('\u{13430}', '\u{13438}'), ('\u{16af0}', '\u{16af4}'),
-  ('\u{16b30}', '\u{16b36}'), ('𖭀', '𖭃'), ('\u{16f4f}', '\u{16f4f}'),
-  ('\u{16f8f}', '𖾟'), ('𖿠', '𖿡'), ('\u{16fe3}', '\u{16fe3}'),
-  ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1bca0}', '\u{1bca3}'),
-  ('\u{1d167}', '\u{1d169}'), ('\u{1d173}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('\u{1da00}', '\u{1da36}'),
-  ('\u{1da3b}', '\u{1da6c}'), ('\u{1da75}', '\u{1da75}'),
-  ('\u{1da84}', '\u{1da84}'), ('\u{1da9b}', '\u{1da9f}'),
-  ('\u{1daa1}', '\u{1daaf}'), ('\u{1e000}', '\u{1e006}'),
-  ('\u{1e008}', '\u{1e018}'), ('\u{1e01b}', '\u{1e021}'),
-  ('\u{1e023}', '\u{1e024}'), ('\u{1e026}', '\u{1e02a}'),
-  ('\u{1e130}', '\u{1e13d}'), ('\u{1e2ec}', '\u{1e2ef}'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('\u{1e944}', '\u{1e94b}'), ('🏻', '🏿'),
-  ('\u{e0001}', '\u{e0001}'), ('\u{e0020}', '\u{e007f}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const CASED: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'),
-  ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ƺ'), ('Ƽ', 'ƿ'), ('DŽ', 'ʓ'),
-  ('ʕ', 'ʸ'), ('ˀ', 'ˁ'), ('ˠ', 'ˤ'), ('\u{345}', '\u{345}'),
-  ('Ͱ', 'ͳ'), ('Ͷ', 'ͷ'), ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'),
-  ('Έ', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'),
-  ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՠ', 'ֈ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'),
-  ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'), ('ჽ', 'ჿ'), ('Ꭰ', 'Ᏽ'),
-  ('ᏸ', 'ᏽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'),
-  ('ᴀ', 'ᶿ'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'),
-  ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'), ('ῐ', 'ΐ'),
-  ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'), ('ῶ', 'ῼ'),
-  ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('ℂ', 'ℂ'),
-  ('ℇ', 'ℇ'), ('ℊ', 'ℓ'), ('ℕ', 'ℕ'), ('ℙ', 'ℝ'),
-  ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'), ('K', 'ℭ'),
-  ('ℯ', 'ℴ'), ('ℹ', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'),
-  ('ⅎ', 'ⅎ'), ('Ⅰ', 'ⅿ'), ('Ↄ', 'ↄ'), ('Ⓐ', 'ⓩ'),
-  ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'), ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳮ'),
-  ('Ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'),
-  ('Ꙁ', 'ꙭ'), ('Ꚁ', 'ꚝ'), ('Ꜣ', 'ꞇ'), ('Ꞌ', 'ꞎ'),
-  ('Ꞑ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'), ('ꟸ', 'ꟺ'),
-  ('ꬰ', 'ꭚ'), ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꮿ'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('A', 'Z'), ('a', 'z'), ('𐐀', '𐑏'),
-  ('𐒰', '𐓓'), ('𐓘', '𐓻'), ('𐲀', '𐲲'), ('𐳀', '𐳲'),
-  ('𑢠', '𑣟'), ('𖹀', '𖹿'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'),
-  ('𝛼', '𝜔'), ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'),
-  ('𝝰', '𝞈'), ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('𞤀', '𞥃'), ('🄰', '🅉'), ('🅐', '🅩'), ('🅰', '🆉'),
-];
-
-pub const CHANGES_WHEN_CASEFOLDED: &'static [(char, char)] = &[
-  ('A', 'Z'), ('µ', 'µ'), ('À', 'Ö'), ('Ø', 'ß'), ('Ā', 'Ā'),
-  ('Ă', 'Ă'), ('Ą', 'Ą'), ('Ć', 'Ć'), ('Ĉ', 'Ĉ'), ('Ċ', 'Ċ'),
-  ('Č', 'Č'), ('Ď', 'Ď'), ('Đ', 'Đ'), ('Ē', 'Ē'), ('Ĕ', 'Ĕ'),
-  ('Ė', 'Ė'), ('Ę', 'Ę'), ('Ě', 'Ě'), ('Ĝ', 'Ĝ'), ('Ğ', 'Ğ'),
-  ('Ġ', 'Ġ'), ('Ģ', 'Ģ'), ('Ĥ', 'Ĥ'), ('Ħ', 'Ħ'), ('Ĩ', 'Ĩ'),
-  ('Ī', 'Ī'), ('Ĭ', 'Ĭ'), ('Į', 'Į'), ('İ', 'İ'), ('IJ', 'IJ'),
-  ('Ĵ', 'Ĵ'), ('Ķ', 'Ķ'), ('Ĺ', 'Ĺ'), ('Ļ', 'Ļ'), ('Ľ', 'Ľ'),
-  ('Ŀ', 'Ŀ'), ('Ł', 'Ł'), ('Ń', 'Ń'), ('Ņ', 'Ņ'), ('Ň', 'Ň'),
-  ('ʼn', 'Ŋ'), ('Ō', 'Ō'), ('Ŏ', 'Ŏ'), ('Ő', 'Ő'), ('Œ', 'Œ'),
-  ('Ŕ', 'Ŕ'), ('Ŗ', 'Ŗ'), ('Ř', 'Ř'), ('Ś', 'Ś'), ('Ŝ', 'Ŝ'),
-  ('Ş', 'Ş'), ('Š', 'Š'), ('Ţ', 'Ţ'), ('Ť', 'Ť'), ('Ŧ', 'Ŧ'),
-  ('Ũ', 'Ũ'), ('Ū', 'Ū'), ('Ŭ', 'Ŭ'), ('Ů', 'Ů'), ('Ű', 'Ű'),
-  ('Ų', 'Ų'), ('Ŵ', 'Ŵ'), ('Ŷ', 'Ŷ'), ('Ÿ', 'Ź'), ('Ż', 'Ż'),
-  ('Ž', 'Ž'), ('ſ', 'ſ'), ('Ɓ', 'Ƃ'), ('Ƅ', 'Ƅ'), ('Ɔ', 'Ƈ'),
-  ('Ɖ', 'Ƌ'), ('Ǝ', 'Ƒ'), ('Ɠ', 'Ɣ'), ('Ɩ', 'Ƙ'), ('Ɯ', 'Ɲ'),
-  ('Ɵ', 'Ơ'), ('Ƣ', 'Ƣ'), ('Ƥ', 'Ƥ'), ('Ʀ', 'Ƨ'), ('Ʃ', 'Ʃ'),
-  ('Ƭ', 'Ƭ'), ('Ʈ', 'Ư'), ('Ʊ', 'Ƴ'), ('Ƶ', 'Ƶ'), ('Ʒ', 'Ƹ'),
-  ('Ƽ', 'Ƽ'), ('DŽ', 'Dž'), ('LJ', 'Lj'), ('NJ', 'Nj'), ('Ǎ', 'Ǎ'),
-  ('Ǐ', 'Ǐ'), ('Ǒ', 'Ǒ'), ('Ǔ', 'Ǔ'), ('Ǖ', 'Ǖ'), ('Ǘ', 'Ǘ'),
-  ('Ǚ', 'Ǚ'), ('Ǜ', 'Ǜ'), ('Ǟ', 'Ǟ'), ('Ǡ', 'Ǡ'), ('Ǣ', 'Ǣ'),
-  ('Ǥ', 'Ǥ'), ('Ǧ', 'Ǧ'), ('Ǩ', 'Ǩ'), ('Ǫ', 'Ǫ'), ('Ǭ', 'Ǭ'),
-  ('Ǯ', 'Ǯ'), ('DZ', 'Dz'), ('Ǵ', 'Ǵ'), ('Ƕ', 'Ǹ'), ('Ǻ', 'Ǻ'),
-  ('Ǽ', 'Ǽ'), ('Ǿ', 'Ǿ'), ('Ȁ', 'Ȁ'), ('Ȃ', 'Ȃ'), ('Ȅ', 'Ȅ'),
-  ('Ȇ', 'Ȇ'), ('Ȉ', 'Ȉ'), ('Ȋ', 'Ȋ'), ('Ȍ', 'Ȍ'), ('Ȏ', 'Ȏ'),
-  ('Ȑ', 'Ȑ'), ('Ȓ', 'Ȓ'), ('Ȕ', 'Ȕ'), ('Ȗ', 'Ȗ'), ('Ș', 'Ș'),
-  ('Ț', 'Ț'), ('Ȝ', 'Ȝ'), ('Ȟ', 'Ȟ'), ('Ƞ', 'Ƞ'), ('Ȣ', 'Ȣ'),
-  ('Ȥ', 'Ȥ'), ('Ȧ', 'Ȧ'), ('Ȩ', 'Ȩ'), ('Ȫ', 'Ȫ'), ('Ȭ', 'Ȭ'),
-  ('Ȯ', 'Ȯ'), ('Ȱ', 'Ȱ'), ('Ȳ', 'Ȳ'), ('Ⱥ', 'Ȼ'), ('Ƚ', 'Ⱦ'),
-  ('Ɂ', 'Ɂ'), ('Ƀ', 'Ɇ'), ('Ɉ', 'Ɉ'), ('Ɋ', 'Ɋ'), ('Ɍ', 'Ɍ'),
-  ('Ɏ', 'Ɏ'), ('\u{345}', '\u{345}'), ('Ͱ', 'Ͱ'), ('Ͳ', 'Ͳ'),
-  ('Ͷ', 'Ͷ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'),
-  ('Ύ', 'Ώ'), ('Α', 'Ρ'), ('Σ', 'Ϋ'), ('ς', 'ς'), ('Ϗ', 'ϑ'),
-  ('ϕ', 'ϖ'), ('Ϙ', 'Ϙ'), ('Ϛ', 'Ϛ'), ('Ϝ', 'Ϝ'), ('Ϟ', 'Ϟ'),
-  ('Ϡ', 'Ϡ'), ('Ϣ', 'Ϣ'), ('Ϥ', 'Ϥ'), ('Ϧ', 'Ϧ'), ('Ϩ', 'Ϩ'),
-  ('Ϫ', 'Ϫ'), ('Ϭ', 'Ϭ'), ('Ϯ', 'Ϯ'), ('ϰ', 'ϱ'), ('ϴ', 'ϵ'),
-  ('Ϸ', 'Ϸ'), ('Ϲ', 'Ϻ'), ('Ͻ', 'Я'), ('Ѡ', 'Ѡ'), ('Ѣ', 'Ѣ'),
-  ('Ѥ', 'Ѥ'), ('Ѧ', 'Ѧ'), ('Ѩ', 'Ѩ'), ('Ѫ', 'Ѫ'), ('Ѭ', 'Ѭ'),
-  ('Ѯ', 'Ѯ'), ('Ѱ', 'Ѱ'), ('Ѳ', 'Ѳ'), ('Ѵ', 'Ѵ'), ('Ѷ', 'Ѷ'),
-  ('Ѹ', 'Ѹ'), ('Ѻ', 'Ѻ'), ('Ѽ', 'Ѽ'), ('Ѿ', 'Ѿ'), ('Ҁ', 'Ҁ'),
-  ('Ҋ', 'Ҋ'), ('Ҍ', 'Ҍ'), ('Ҏ', 'Ҏ'), ('Ґ', 'Ґ'), ('Ғ', 'Ғ'),
-  ('Ҕ', 'Ҕ'), ('Җ', 'Җ'), ('Ҙ', 'Ҙ'), ('Қ', 'Қ'), ('Ҝ', 'Ҝ'),
-  ('Ҟ', 'Ҟ'), ('Ҡ', 'Ҡ'), ('Ң', 'Ң'), ('Ҥ', 'Ҥ'), ('Ҧ', 'Ҧ'),
-  ('Ҩ', 'Ҩ'), ('Ҫ', 'Ҫ'), ('Ҭ', 'Ҭ'), ('Ү', 'Ү'), ('Ұ', 'Ұ'),
-  ('Ҳ', 'Ҳ'), ('Ҵ', 'Ҵ'), ('Ҷ', 'Ҷ'), ('Ҹ', 'Ҹ'), ('Һ', 'Һ'),
-  ('Ҽ', 'Ҽ'), ('Ҿ', 'Ҿ'), ('Ӏ', 'Ӂ'), ('Ӄ', 'Ӄ'), ('Ӆ', 'Ӆ'),
-  ('Ӈ', 'Ӈ'), ('Ӊ', 'Ӊ'), ('Ӌ', 'Ӌ'), ('Ӎ', 'Ӎ'), ('Ӑ', 'Ӑ'),
-  ('Ӓ', 'Ӓ'), ('Ӕ', 'Ӕ'), ('Ӗ', 'Ӗ'), ('Ә', 'Ә'), ('Ӛ', 'Ӛ'),
-  ('Ӝ', 'Ӝ'), ('Ӟ', 'Ӟ'), ('Ӡ', 'Ӡ'), ('Ӣ', 'Ӣ'), ('Ӥ', 'Ӥ'),
-  ('Ӧ', 'Ӧ'), ('Ө', 'Ө'), ('Ӫ', 'Ӫ'), ('Ӭ', 'Ӭ'), ('Ӯ', 'Ӯ'),
-  ('Ӱ', 'Ӱ'), ('Ӳ', 'Ӳ'), ('Ӵ', 'Ӵ'), ('Ӷ', 'Ӷ'), ('Ӹ', 'Ӹ'),
-  ('Ӻ', 'Ӻ'), ('Ӽ', 'Ӽ'), ('Ӿ', 'Ӿ'), ('Ԁ', 'Ԁ'), ('Ԃ', 'Ԃ'),
-  ('Ԅ', 'Ԅ'), ('Ԇ', 'Ԇ'), ('Ԉ', 'Ԉ'), ('Ԋ', 'Ԋ'), ('Ԍ', 'Ԍ'),
-  ('Ԏ', 'Ԏ'), ('Ԑ', 'Ԑ'), ('Ԓ', 'Ԓ'), ('Ԕ', 'Ԕ'), ('Ԗ', 'Ԗ'),
-  ('Ԙ', 'Ԙ'), ('Ԛ', 'Ԛ'), ('Ԝ', 'Ԝ'), ('Ԟ', 'Ԟ'), ('Ԡ', 'Ԡ'),
-  ('Ԣ', 'Ԣ'), ('Ԥ', 'Ԥ'), ('Ԧ', 'Ԧ'), ('Ԩ', 'Ԩ'), ('Ԫ', 'Ԫ'),
-  ('Ԭ', 'Ԭ'), ('Ԯ', 'Ԯ'), ('Ա', 'Ֆ'), ('և', 'և'), ('Ⴀ', 'Ⴥ'),
-  ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'), ('ᏸ', 'ᏽ'), ('ᲀ', 'ᲈ'),
-  ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('Ḁ', 'Ḁ'), ('Ḃ', 'Ḃ'),
-  ('Ḅ', 'Ḅ'), ('Ḇ', 'Ḇ'), ('Ḉ', 'Ḉ'), ('Ḋ', 'Ḋ'),
-  ('Ḍ', 'Ḍ'), ('Ḏ', 'Ḏ'), ('Ḑ', 'Ḑ'), ('Ḓ', 'Ḓ'),
-  ('Ḕ', 'Ḕ'), ('Ḗ', 'Ḗ'), ('Ḙ', 'Ḙ'), ('Ḛ', 'Ḛ'),
-  ('Ḝ', 'Ḝ'), ('Ḟ', 'Ḟ'), ('Ḡ', 'Ḡ'), ('Ḣ', 'Ḣ'),
-  ('Ḥ', 'Ḥ'), ('Ḧ', 'Ḧ'), ('Ḩ', 'Ḩ'), ('Ḫ', 'Ḫ'),
-  ('Ḭ', 'Ḭ'), ('Ḯ', 'Ḯ'), ('Ḱ', 'Ḱ'), ('Ḳ', 'Ḳ'),
-  ('Ḵ', 'Ḵ'), ('Ḷ', 'Ḷ'), ('Ḹ', 'Ḹ'), ('Ḻ', 'Ḻ'),
-  ('Ḽ', 'Ḽ'), ('Ḿ', 'Ḿ'), ('Ṁ', 'Ṁ'), ('Ṃ', 'Ṃ'),
-  ('Ṅ', 'Ṅ'), ('Ṇ', 'Ṇ'), ('Ṉ', 'Ṉ'), ('Ṋ', 'Ṋ'),
-  ('Ṍ', 'Ṍ'), ('Ṏ', 'Ṏ'), ('Ṑ', 'Ṑ'), ('Ṓ', 'Ṓ'),
-  ('Ṕ', 'Ṕ'), ('Ṗ', 'Ṗ'), ('Ṙ', 'Ṙ'), ('Ṛ', 'Ṛ'),
-  ('Ṝ', 'Ṝ'), ('Ṟ', 'Ṟ'), ('Ṡ', 'Ṡ'), ('Ṣ', 'Ṣ'),
-  ('Ṥ', 'Ṥ'), ('Ṧ', 'Ṧ'), ('Ṩ', 'Ṩ'), ('Ṫ', 'Ṫ'),
-  ('Ṭ', 'Ṭ'), ('Ṯ', 'Ṯ'), ('Ṱ', 'Ṱ'), ('Ṳ', 'Ṳ'),
-  ('Ṵ', 'Ṵ'), ('Ṷ', 'Ṷ'), ('Ṹ', 'Ṹ'), ('Ṻ', 'Ṻ'),
-  ('Ṽ', 'Ṽ'), ('Ṿ', 'Ṿ'), ('Ẁ', 'Ẁ'), ('Ẃ', 'Ẃ'),
-  ('Ẅ', 'Ẅ'), ('Ẇ', 'Ẇ'), ('Ẉ', 'Ẉ'), ('Ẋ', 'Ẋ'),
-  ('Ẍ', 'Ẍ'), ('Ẏ', 'Ẏ'), ('Ẑ', 'Ẑ'), ('Ẓ', 'Ẓ'),
-  ('Ẕ', 'Ẕ'), ('ẚ', 'ẛ'), ('ẞ', 'ẞ'), ('Ạ', 'Ạ'),
-  ('Ả', 'Ả'), ('Ấ', 'Ấ'), ('Ầ', 'Ầ'), ('Ẩ', 'Ẩ'),
-  ('Ẫ', 'Ẫ'), ('Ậ', 'Ậ'), ('Ắ', 'Ắ'), ('Ằ', 'Ằ'),
-  ('Ẳ', 'Ẳ'), ('Ẵ', 'Ẵ'), ('Ặ', 'Ặ'), ('Ẹ', 'Ẹ'),
-  ('Ẻ', 'Ẻ'), ('Ẽ', 'Ẽ'), ('Ế', 'Ế'), ('Ề', 'Ề'),
-  ('Ể', 'Ể'), ('Ễ', 'Ễ'), ('Ệ', 'Ệ'), ('Ỉ', 'Ỉ'),
-  ('Ị', 'Ị'), ('Ọ', 'Ọ'), ('Ỏ', 'Ỏ'), ('Ố', 'Ố'),
-  ('Ồ', 'Ồ'), ('Ổ', 'Ổ'), ('Ỗ', 'Ỗ'), ('Ộ', 'Ộ'),
-  ('Ớ', 'Ớ'), ('Ờ', 'Ờ'), ('Ở', 'Ở'), ('Ỡ', 'Ỡ'),
-  ('Ợ', 'Ợ'), ('Ụ', 'Ụ'), ('Ủ', 'Ủ'), ('Ứ', 'Ứ'),
-  ('Ừ', 'Ừ'), ('Ử', 'Ử'), ('Ữ', 'Ữ'), ('Ự', 'Ự'),
-  ('Ỳ', 'Ỳ'), ('Ỵ', 'Ỵ'), ('Ỷ', 'Ỷ'), ('Ỹ', 'Ỹ'),
-  ('Ỻ', 'Ỻ'), ('Ỽ', 'Ỽ'), ('Ỿ', 'Ỿ'), ('Ἀ', 'Ἇ'),
-  ('Ἐ', 'Ἕ'), ('Ἠ', 'Ἧ'), ('Ἰ', 'Ἷ'), ('Ὀ', 'Ὅ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'Ὗ'),
-  ('Ὠ', 'Ὧ'), ('ᾀ', 'ᾯ'), ('ᾲ', 'ᾴ'), ('ᾷ', 'ᾼ'),
-  ('ῂ', 'ῄ'), ('ῇ', 'ῌ'), ('Ῐ', 'Ί'), ('Ῠ', 'Ῥ'),
-  ('ῲ', 'ῴ'), ('ῷ', 'ῼ'), ('Ω', 'Ω'), ('K', 'Å'),
-  ('Ⅎ', 'Ⅎ'), ('Ⅰ', 'Ⅿ'), ('Ↄ', 'Ↄ'), ('Ⓐ', 'Ⓩ'),
-  ('Ⰰ', 'Ⱞ'), ('Ⱡ', 'Ⱡ'), ('Ɫ', 'Ɽ'), ('Ⱨ', 'Ⱨ'),
-  ('Ⱪ', 'Ⱪ'), ('Ⱬ', 'Ⱬ'), ('Ɑ', 'Ɒ'), ('Ⱳ', 'Ⱳ'),
-  ('Ⱶ', 'Ⱶ'), ('Ȿ', 'Ⲁ'), ('Ⲃ', 'Ⲃ'), ('Ⲅ', 'Ⲅ'),
-  ('Ⲇ', 'Ⲇ'), ('Ⲉ', 'Ⲉ'), ('Ⲋ', 'Ⲋ'), ('Ⲍ', 'Ⲍ'),
-  ('Ⲏ', 'Ⲏ'), ('Ⲑ', 'Ⲑ'), ('Ⲓ', 'Ⲓ'), ('Ⲕ', 'Ⲕ'),
-  ('Ⲗ', 'Ⲗ'), ('Ⲙ', 'Ⲙ'), ('Ⲛ', 'Ⲛ'), ('Ⲝ', 'Ⲝ'),
-  ('Ⲟ', 'Ⲟ'), ('Ⲡ', 'Ⲡ'), ('Ⲣ', 'Ⲣ'), ('Ⲥ', 'Ⲥ'),
-  ('Ⲧ', 'Ⲧ'), ('Ⲩ', 'Ⲩ'), ('Ⲫ', 'Ⲫ'), ('Ⲭ', 'Ⲭ'),
-  ('Ⲯ', 'Ⲯ'), ('Ⲱ', 'Ⲱ'), ('Ⲳ', 'Ⲳ'), ('Ⲵ', 'Ⲵ'),
-  ('Ⲷ', 'Ⲷ'), ('Ⲹ', 'Ⲹ'), ('Ⲻ', 'Ⲻ'), ('Ⲽ', 'Ⲽ'),
-  ('Ⲿ', 'Ⲿ'), ('Ⳁ', 'Ⳁ'), ('Ⳃ', 'Ⳃ'), ('Ⳅ', 'Ⳅ'),
-  ('Ⳇ', 'Ⳇ'), ('Ⳉ', 'Ⳉ'), ('Ⳋ', 'Ⳋ'), ('Ⳍ', 'Ⳍ'),
-  ('Ⳏ', 'Ⳏ'), ('Ⳑ', 'Ⳑ'), ('Ⳓ', 'Ⳓ'), ('Ⳕ', 'Ⳕ'),
-  ('Ⳗ', 'Ⳗ'), ('Ⳙ', 'Ⳙ'), ('Ⳛ', 'Ⳛ'), ('Ⳝ', 'Ⳝ'),
-  ('Ⳟ', 'Ⳟ'), ('Ⳡ', 'Ⳡ'), ('Ⳣ', 'Ⳣ'), ('Ⳬ', 'Ⳬ'),
-  ('Ⳮ', 'Ⳮ'), ('Ⳳ', 'Ⳳ'), ('Ꙁ', 'Ꙁ'), ('Ꙃ', 'Ꙃ'),
-  ('Ꙅ', 'Ꙅ'), ('Ꙇ', 'Ꙇ'), ('Ꙉ', 'Ꙉ'), ('Ꙋ', 'Ꙋ'),
-  ('Ꙍ', 'Ꙍ'), ('Ꙏ', 'Ꙏ'), ('Ꙑ', 'Ꙑ'), ('Ꙓ', 'Ꙓ'),
-  ('Ꙕ', 'Ꙕ'), ('Ꙗ', 'Ꙗ'), ('Ꙙ', 'Ꙙ'), ('Ꙛ', 'Ꙛ'),
-  ('Ꙝ', 'Ꙝ'), ('Ꙟ', 'Ꙟ'), ('Ꙡ', 'Ꙡ'), ('Ꙣ', 'Ꙣ'),
-  ('Ꙥ', 'Ꙥ'), ('Ꙧ', 'Ꙧ'), ('Ꙩ', 'Ꙩ'), ('Ꙫ', 'Ꙫ'),
-  ('Ꙭ', 'Ꙭ'), ('Ꚁ', 'Ꚁ'), ('Ꚃ', 'Ꚃ'), ('Ꚅ', 'Ꚅ'),
-  ('Ꚇ', 'Ꚇ'), ('Ꚉ', 'Ꚉ'), ('Ꚋ', 'Ꚋ'), ('Ꚍ', 'Ꚍ'),
-  ('Ꚏ', 'Ꚏ'), ('Ꚑ', 'Ꚑ'), ('Ꚓ', 'Ꚓ'), ('Ꚕ', 'Ꚕ'),
-  ('Ꚗ', 'Ꚗ'), ('Ꚙ', 'Ꚙ'), ('Ꚛ', 'Ꚛ'), ('Ꜣ', 'Ꜣ'),
-  ('Ꜥ', 'Ꜥ'), ('Ꜧ', 'Ꜧ'), ('Ꜩ', 'Ꜩ'), ('Ꜫ', 'Ꜫ'),
-  ('Ꜭ', 'Ꜭ'), ('Ꜯ', 'Ꜯ'), ('Ꜳ', 'Ꜳ'), ('Ꜵ', 'Ꜵ'),
-  ('Ꜷ', 'Ꜷ'), ('Ꜹ', 'Ꜹ'), ('Ꜻ', 'Ꜻ'), ('Ꜽ', 'Ꜽ'),
-  ('Ꜿ', 'Ꜿ'), ('Ꝁ', 'Ꝁ'), ('Ꝃ', 'Ꝃ'), ('Ꝅ', 'Ꝅ'),
-  ('Ꝇ', 'Ꝇ'), ('Ꝉ', 'Ꝉ'), ('Ꝋ', 'Ꝋ'), ('Ꝍ', 'Ꝍ'),
-  ('Ꝏ', 'Ꝏ'), ('Ꝑ', 'Ꝑ'), ('Ꝓ', 'Ꝓ'), ('Ꝕ', 'Ꝕ'),
-  ('Ꝗ', 'Ꝗ'), ('Ꝙ', 'Ꝙ'), ('Ꝛ', 'Ꝛ'), ('Ꝝ', 'Ꝝ'),
-  ('Ꝟ', 'Ꝟ'), ('Ꝡ', 'Ꝡ'), ('Ꝣ', 'Ꝣ'), ('Ꝥ', 'Ꝥ'),
-  ('Ꝧ', 'Ꝧ'), ('Ꝩ', 'Ꝩ'), ('Ꝫ', 'Ꝫ'), ('Ꝭ', 'Ꝭ'),
-  ('Ꝯ', 'Ꝯ'), ('Ꝺ', 'Ꝺ'), ('Ꝼ', 'Ꝼ'), ('Ᵹ', 'Ꝿ'),
-  ('Ꞁ', 'Ꞁ'), ('Ꞃ', 'Ꞃ'), ('Ꞅ', 'Ꞅ'), ('Ꞇ', 'Ꞇ'),
-  ('Ꞌ', 'Ꞌ'), ('Ɥ', 'Ɥ'), ('Ꞑ', 'Ꞑ'), ('Ꞓ', 'Ꞓ'),
-  ('Ꞗ', 'Ꞗ'), ('Ꞙ', 'Ꞙ'), ('Ꞛ', 'Ꞛ'), ('Ꞝ', 'Ꞝ'),
-  ('Ꞟ', 'Ꞟ'), ('Ꞡ', 'Ꞡ'), ('Ꞣ', 'Ꞣ'), ('Ꞥ', 'Ꞥ'),
-  ('Ꞧ', 'Ꞧ'), ('Ꞩ', 'Ꞩ'), ('Ɦ', 'Ɪ'), ('Ʞ', 'Ꞵ'),
-  ('Ꞷ', 'Ꞷ'), ('Ꞹ', 'Ꞹ'), ('\u{a7ba}', '\u{a7ba}'),
-  ('\u{a7bc}', '\u{a7bc}'), ('\u{a7be}', '\u{a7be}'),
-  ('\u{a7c2}', '\u{a7c2}'), ('\u{a7c4}', '\u{a7c6}'), ('ꭰ', 'ꮿ'),
-  ('ff', 'st'), ('ﬓ', 'ﬗ'), ('A', 'Z'), ('𐐀', '𐐧'),
-  ('𐒰', '𐓓'), ('𐲀', '𐲲'), ('𑢠', '𑢿'), ('𖹀', '𖹟'),
-  ('𞤀', '𞤡'),
-];
-
-pub const CHANGES_WHEN_CASEMAPPED: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('µ', 'µ'), ('À', 'Ö'), ('Ø', 'ö'),
-  ('ø', 'ķ'), ('Ĺ', 'ƌ'), ('Ǝ', 'ƚ'), ('Ɯ', 'Ʃ'), ('Ƭ', 'ƹ'),
-  ('Ƽ', 'ƽ'), ('ƿ', 'ƿ'), ('DŽ', 'Ƞ'), ('Ȣ', 'ȳ'), ('Ⱥ', 'ɔ'),
-  ('ɖ', 'ɗ'), ('ə', 'ə'), ('ɛ', 'ɜ'), ('ɠ', 'ɡ'), ('ɣ', 'ɣ'),
-  ('ɥ', 'ɦ'), ('ɨ', 'ɬ'), ('ɯ', 'ɯ'), ('ɱ', 'ɲ'), ('ɵ', 'ɵ'),
-  ('ɽ', 'ɽ'), ('ʀ', 'ʀ'), ('ʂ', 'ʃ'), ('ʇ', 'ʌ'), ('ʒ', 'ʒ'),
-  ('ʝ', 'ʞ'), ('\u{345}', '\u{345}'), ('Ͱ', 'ͳ'), ('Ͷ', 'ͷ'),
-  ('ͻ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'),
-  ('Ύ', 'Ρ'), ('Σ', 'ϑ'), ('ϕ', 'ϵ'), ('Ϸ', 'ϻ'), ('Ͻ', 'ҁ'),
-  ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ա', 'և'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'),
-  ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'), ('ჽ', 'ჿ'), ('Ꭰ', 'Ᏽ'),
-  ('ᏸ', 'ᏽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'),
-  ('ᵹ', 'ᵹ'), ('ᵽ', 'ᵽ'), ('ᶎ', 'ᶎ'), ('Ḁ', 'ẛ'),
-  ('ẞ', 'ẞ'), ('Ạ', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'),
-  ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'), ('ῐ', 'ΐ'),
-  ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'), ('ῶ', 'ῼ'),
-  ('Ω', 'Ω'), ('K', 'Å'), ('Ⅎ', 'Ⅎ'), ('ⅎ', 'ⅎ'),
-  ('Ⅰ', 'ⅿ'), ('Ↄ', 'ↄ'), ('Ⓐ', 'ⓩ'), ('Ⰰ', 'Ⱞ'),
-  ('ⰰ', 'ⱞ'), ('Ⱡ', 'Ɒ'), ('Ⱳ', 'ⱳ'), ('Ⱶ', 'ⱶ'),
-  ('Ȿ', 'ⳣ'), ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('Ꙁ', 'ꙭ'), ('Ꚁ', 'ꚛ'),
-  ('Ꜣ', 'ꜯ'), ('Ꜳ', 'ꝯ'), ('Ꝺ', 'ꞇ'), ('Ꞌ', 'Ɥ'),
-  ('Ꞑ', 'ꞔ'), ('Ꞗ', 'Ɪ'), ('Ʞ', '\u{a7bf}'),
-  ('\u{a7c2}', '\u{a7c6}'), ('ꭓ', 'ꭓ'), ('ꭰ', 'ꮿ'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('A', 'Z'), ('a', 'z'), ('𐐀', '𐑏'),
-  ('𐒰', '𐓓'), ('𐓘', '𐓻'), ('𐲀', '𐲲'), ('𐳀', '𐳲'),
-  ('𑢠', '𑣟'), ('𖹀', '𖹿'), ('𞤀', '𞥃'),
-];
-
-pub const CHANGES_WHEN_LOWERCASED: &'static [(char, char)] = &[
-  ('A', 'Z'), ('À', 'Ö'), ('Ø', 'Þ'), ('Ā', 'Ā'), ('Ă', 'Ă'),
-  ('Ą', 'Ą'), ('Ć', 'Ć'), ('Ĉ', 'Ĉ'), ('Ċ', 'Ċ'), ('Č', 'Č'),
-  ('Ď', 'Ď'), ('Đ', 'Đ'), ('Ē', 'Ē'), ('Ĕ', 'Ĕ'), ('Ė', 'Ė'),
-  ('Ę', 'Ę'), ('Ě', 'Ě'), ('Ĝ', 'Ĝ'), ('Ğ', 'Ğ'), ('Ġ', 'Ġ'),
-  ('Ģ', 'Ģ'), ('Ĥ', 'Ĥ'), ('Ħ', 'Ħ'), ('Ĩ', 'Ĩ'), ('Ī', 'Ī'),
-  ('Ĭ', 'Ĭ'), ('Į', 'Į'), ('İ', 'İ'), ('IJ', 'IJ'), ('Ĵ', 'Ĵ'),
-  ('Ķ', 'Ķ'), ('Ĺ', 'Ĺ'), ('Ļ', 'Ļ'), ('Ľ', 'Ľ'), ('Ŀ', 'Ŀ'),
-  ('Ł', 'Ł'), ('Ń', 'Ń'), ('Ņ', 'Ņ'), ('Ň', 'Ň'), ('Ŋ', 'Ŋ'),
-  ('Ō', 'Ō'), ('Ŏ', 'Ŏ'), ('Ő', 'Ő'), ('Œ', 'Œ'), ('Ŕ', 'Ŕ'),
-  ('Ŗ', 'Ŗ'), ('Ř', 'Ř'), ('Ś', 'Ś'), ('Ŝ', 'Ŝ'), ('Ş', 'Ş'),
-  ('Š', 'Š'), ('Ţ', 'Ţ'), ('Ť', 'Ť'), ('Ŧ', 'Ŧ'), ('Ũ', 'Ũ'),
-  ('Ū', 'Ū'), ('Ŭ', 'Ŭ'), ('Ů', 'Ů'), ('Ű', 'Ű'), ('Ų', 'Ų'),
-  ('Ŵ', 'Ŵ'), ('Ŷ', 'Ŷ'), ('Ÿ', 'Ź'), ('Ż', 'Ż'), ('Ž', 'Ž'),
-  ('Ɓ', 'Ƃ'), ('Ƅ', 'Ƅ'), ('Ɔ', 'Ƈ'), ('Ɖ', 'Ƌ'), ('Ǝ', 'Ƒ'),
-  ('Ɠ', 'Ɣ'), ('Ɩ', 'Ƙ'), ('Ɯ', 'Ɲ'), ('Ɵ', 'Ơ'), ('Ƣ', 'Ƣ'),
-  ('Ƥ', 'Ƥ'), ('Ʀ', 'Ƨ'), ('Ʃ', 'Ʃ'), ('Ƭ', 'Ƭ'), ('Ʈ', 'Ư'),
-  ('Ʊ', 'Ƴ'), ('Ƶ', 'Ƶ'), ('Ʒ', 'Ƹ'), ('Ƽ', 'Ƽ'), ('DŽ', 'Dž'),
-  ('LJ', 'Lj'), ('NJ', 'Nj'), ('Ǎ', 'Ǎ'), ('Ǐ', 'Ǐ'), ('Ǒ', 'Ǒ'),
-  ('Ǔ', 'Ǔ'), ('Ǖ', 'Ǖ'), ('Ǘ', 'Ǘ'), ('Ǚ', 'Ǚ'), ('Ǜ', 'Ǜ'),
-  ('Ǟ', 'Ǟ'), ('Ǡ', 'Ǡ'), ('Ǣ', 'Ǣ'), ('Ǥ', 'Ǥ'), ('Ǧ', 'Ǧ'),
-  ('Ǩ', 'Ǩ'), ('Ǫ', 'Ǫ'), ('Ǭ', 'Ǭ'), ('Ǯ', 'Ǯ'), ('DZ', 'Dz'),
-  ('Ǵ', 'Ǵ'), ('Ƕ', 'Ǹ'), ('Ǻ', 'Ǻ'), ('Ǽ', 'Ǽ'), ('Ǿ', 'Ǿ'),
-  ('Ȁ', 'Ȁ'), ('Ȃ', 'Ȃ'), ('Ȅ', 'Ȅ'), ('Ȇ', 'Ȇ'), ('Ȉ', 'Ȉ'),
-  ('Ȋ', 'Ȋ'), ('Ȍ', 'Ȍ'), ('Ȏ', 'Ȏ'), ('Ȑ', 'Ȑ'), ('Ȓ', 'Ȓ'),
-  ('Ȕ', 'Ȕ'), ('Ȗ', 'Ȗ'), ('Ș', 'Ș'), ('Ț', 'Ț'), ('Ȝ', 'Ȝ'),
-  ('Ȟ', 'Ȟ'), ('Ƞ', 'Ƞ'), ('Ȣ', 'Ȣ'), ('Ȥ', 'Ȥ'), ('Ȧ', 'Ȧ'),
-  ('Ȩ', 'Ȩ'), ('Ȫ', 'Ȫ'), ('Ȭ', 'Ȭ'), ('Ȯ', 'Ȯ'), ('Ȱ', 'Ȱ'),
-  ('Ȳ', 'Ȳ'), ('Ⱥ', 'Ȼ'), ('Ƚ', 'Ⱦ'), ('Ɂ', 'Ɂ'), ('Ƀ', 'Ɇ'),
-  ('Ɉ', 'Ɉ'), ('Ɋ', 'Ɋ'), ('Ɍ', 'Ɍ'), ('Ɏ', 'Ɏ'), ('Ͱ', 'Ͱ'),
-  ('Ͳ', 'Ͳ'), ('Ͷ', 'Ͷ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ώ'), ('Α', 'Ρ'), ('Σ', 'Ϋ'), ('Ϗ', 'Ϗ'),
-  ('Ϙ', 'Ϙ'), ('Ϛ', 'Ϛ'), ('Ϝ', 'Ϝ'), ('Ϟ', 'Ϟ'), ('Ϡ', 'Ϡ'),
-  ('Ϣ', 'Ϣ'), ('Ϥ', 'Ϥ'), ('Ϧ', 'Ϧ'), ('Ϩ', 'Ϩ'), ('Ϫ', 'Ϫ'),
-  ('Ϭ', 'Ϭ'), ('Ϯ', 'Ϯ'), ('ϴ', 'ϴ'), ('Ϸ', 'Ϸ'), ('Ϲ', 'Ϻ'),
-  ('Ͻ', 'Я'), ('Ѡ', 'Ѡ'), ('Ѣ', 'Ѣ'), ('Ѥ', 'Ѥ'), ('Ѧ', 'Ѧ'),
-  ('Ѩ', 'Ѩ'), ('Ѫ', 'Ѫ'), ('Ѭ', 'Ѭ'), ('Ѯ', 'Ѯ'), ('Ѱ', 'Ѱ'),
-  ('Ѳ', 'Ѳ'), ('Ѵ', 'Ѵ'), ('Ѷ', 'Ѷ'), ('Ѹ', 'Ѹ'), ('Ѻ', 'Ѻ'),
-  ('Ѽ', 'Ѽ'), ('Ѿ', 'Ѿ'), ('Ҁ', 'Ҁ'), ('Ҋ', 'Ҋ'), ('Ҍ', 'Ҍ'),
-  ('Ҏ', 'Ҏ'), ('Ґ', 'Ґ'), ('Ғ', 'Ғ'), ('Ҕ', 'Ҕ'), ('Җ', 'Җ'),
-  ('Ҙ', 'Ҙ'), ('Қ', 'Қ'), ('Ҝ', 'Ҝ'), ('Ҟ', 'Ҟ'), ('Ҡ', 'Ҡ'),
-  ('Ң', 'Ң'), ('Ҥ', 'Ҥ'), ('Ҧ', 'Ҧ'), ('Ҩ', 'Ҩ'), ('Ҫ', 'Ҫ'),
-  ('Ҭ', 'Ҭ'), ('Ү', 'Ү'), ('Ұ', 'Ұ'), ('Ҳ', 'Ҳ'), ('Ҵ', 'Ҵ'),
-  ('Ҷ', 'Ҷ'), ('Ҹ', 'Ҹ'), ('Һ', 'Һ'), ('Ҽ', 'Ҽ'), ('Ҿ', 'Ҿ'),
-  ('Ӏ', 'Ӂ'), ('Ӄ', 'Ӄ'), ('Ӆ', 'Ӆ'), ('Ӈ', 'Ӈ'), ('Ӊ', 'Ӊ'),
-  ('Ӌ', 'Ӌ'), ('Ӎ', 'Ӎ'), ('Ӑ', 'Ӑ'), ('Ӓ', 'Ӓ'), ('Ӕ', 'Ӕ'),
-  ('Ӗ', 'Ӗ'), ('Ә', 'Ә'), ('Ӛ', 'Ӛ'), ('Ӝ', 'Ӝ'), ('Ӟ', 'Ӟ'),
-  ('Ӡ', 'Ӡ'), ('Ӣ', 'Ӣ'), ('Ӥ', 'Ӥ'), ('Ӧ', 'Ӧ'), ('Ө', 'Ө'),
-  ('Ӫ', 'Ӫ'), ('Ӭ', 'Ӭ'), ('Ӯ', 'Ӯ'), ('Ӱ', 'Ӱ'), ('Ӳ', 'Ӳ'),
-  ('Ӵ', 'Ӵ'), ('Ӷ', 'Ӷ'), ('Ӹ', 'Ӹ'), ('Ӻ', 'Ӻ'), ('Ӽ', 'Ӽ'),
-  ('Ӿ', 'Ӿ'), ('Ԁ', 'Ԁ'), ('Ԃ', 'Ԃ'), ('Ԅ', 'Ԅ'), ('Ԇ', 'Ԇ'),
-  ('Ԉ', 'Ԉ'), ('Ԋ', 'Ԋ'), ('Ԍ', 'Ԍ'), ('Ԏ', 'Ԏ'), ('Ԑ', 'Ԑ'),
-  ('Ԓ', 'Ԓ'), ('Ԕ', 'Ԕ'), ('Ԗ', 'Ԗ'), ('Ԙ', 'Ԙ'), ('Ԛ', 'Ԛ'),
-  ('Ԝ', 'Ԝ'), ('Ԟ', 'Ԟ'), ('Ԡ', 'Ԡ'), ('Ԣ', 'Ԣ'), ('Ԥ', 'Ԥ'),
-  ('Ԧ', 'Ԧ'), ('Ԩ', 'Ԩ'), ('Ԫ', 'Ԫ'), ('Ԭ', 'Ԭ'), ('Ԯ', 'Ԯ'),
-  ('Ա', 'Ֆ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('Ꭰ', 'Ᏽ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('Ḁ', 'Ḁ'),
-  ('Ḃ', 'Ḃ'), ('Ḅ', 'Ḅ'), ('Ḇ', 'Ḇ'), ('Ḉ', 'Ḉ'),
-  ('Ḋ', 'Ḋ'), ('Ḍ', 'Ḍ'), ('Ḏ', 'Ḏ'), ('Ḑ', 'Ḑ'),
-  ('Ḓ', 'Ḓ'), ('Ḕ', 'Ḕ'), ('Ḗ', 'Ḗ'), ('Ḙ', 'Ḙ'),
-  ('Ḛ', 'Ḛ'), ('Ḝ', 'Ḝ'), ('Ḟ', 'Ḟ'), ('Ḡ', 'Ḡ'),
-  ('Ḣ', 'Ḣ'), ('Ḥ', 'Ḥ'), ('Ḧ', 'Ḧ'), ('Ḩ', 'Ḩ'),
-  ('Ḫ', 'Ḫ'), ('Ḭ', 'Ḭ'), ('Ḯ', 'Ḯ'), ('Ḱ', 'Ḱ'),
-  ('Ḳ', 'Ḳ'), ('Ḵ', 'Ḵ'), ('Ḷ', 'Ḷ'), ('Ḹ', 'Ḹ'),
-  ('Ḻ', 'Ḻ'), ('Ḽ', 'Ḽ'), ('Ḿ', 'Ḿ'), ('Ṁ', 'Ṁ'),
-  ('Ṃ', 'Ṃ'), ('Ṅ', 'Ṅ'), ('Ṇ', 'Ṇ'), ('Ṉ', 'Ṉ'),
-  ('Ṋ', 'Ṋ'), ('Ṍ', 'Ṍ'), ('Ṏ', 'Ṏ'), ('Ṑ', 'Ṑ'),
-  ('Ṓ', 'Ṓ'), ('Ṕ', 'Ṕ'), ('Ṗ', 'Ṗ'), ('Ṙ', 'Ṙ'),
-  ('Ṛ', 'Ṛ'), ('Ṝ', 'Ṝ'), ('Ṟ', 'Ṟ'), ('Ṡ', 'Ṡ'),
-  ('Ṣ', 'Ṣ'), ('Ṥ', 'Ṥ'), ('Ṧ', 'Ṧ'), ('Ṩ', 'Ṩ'),
-  ('Ṫ', 'Ṫ'), ('Ṭ', 'Ṭ'), ('Ṯ', 'Ṯ'), ('Ṱ', 'Ṱ'),
-  ('Ṳ', 'Ṳ'), ('Ṵ', 'Ṵ'), ('Ṷ', 'Ṷ'), ('Ṹ', 'Ṹ'),
-  ('Ṻ', 'Ṻ'), ('Ṽ', 'Ṽ'), ('Ṿ', 'Ṿ'), ('Ẁ', 'Ẁ'),
-  ('Ẃ', 'Ẃ'), ('Ẅ', 'Ẅ'), ('Ẇ', 'Ẇ'), ('Ẉ', 'Ẉ'),
-  ('Ẋ', 'Ẋ'), ('Ẍ', 'Ẍ'), ('Ẏ', 'Ẏ'), ('Ẑ', 'Ẑ'),
-  ('Ẓ', 'Ẓ'), ('Ẕ', 'Ẕ'), ('ẞ', 'ẞ'), ('Ạ', 'Ạ'),
-  ('Ả', 'Ả'), ('Ấ', 'Ấ'), ('Ầ', 'Ầ'), ('Ẩ', 'Ẩ'),
-  ('Ẫ', 'Ẫ'), ('Ậ', 'Ậ'), ('Ắ', 'Ắ'), ('Ằ', 'Ằ'),
-  ('Ẳ', 'Ẳ'), ('Ẵ', 'Ẵ'), ('Ặ', 'Ặ'), ('Ẹ', 'Ẹ'),
-  ('Ẻ', 'Ẻ'), ('Ẽ', 'Ẽ'), ('Ế', 'Ế'), ('Ề', 'Ề'),
-  ('Ể', 'Ể'), ('Ễ', 'Ễ'), ('Ệ', 'Ệ'), ('Ỉ', 'Ỉ'),
-  ('Ị', 'Ị'), ('Ọ', 'Ọ'), ('Ỏ', 'Ỏ'), ('Ố', 'Ố'),
-  ('Ồ', 'Ồ'), ('Ổ', 'Ổ'), ('Ỗ', 'Ỗ'), ('Ộ', 'Ộ'),
-  ('Ớ', 'Ớ'), ('Ờ', 'Ờ'), ('Ở', 'Ở'), ('Ỡ', 'Ỡ'),
-  ('Ợ', 'Ợ'), ('Ụ', 'Ụ'), ('Ủ', 'Ủ'), ('Ứ', 'Ứ'),
-  ('Ừ', 'Ừ'), ('Ử', 'Ử'), ('Ữ', 'Ữ'), ('Ự', 'Ự'),
-  ('Ỳ', 'Ỳ'), ('Ỵ', 'Ỵ'), ('Ỷ', 'Ỷ'), ('Ỹ', 'Ỹ'),
-  ('Ỻ', 'Ỻ'), ('Ỽ', 'Ỽ'), ('Ỿ', 'Ỿ'), ('Ἀ', 'Ἇ'),
-  ('Ἐ', 'Ἕ'), ('Ἠ', 'Ἧ'), ('Ἰ', 'Ἷ'), ('Ὀ', 'Ὅ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'Ὗ'),
-  ('Ὠ', 'Ὧ'), ('ᾈ', 'ᾏ'), ('ᾘ', 'ᾟ'), ('ᾨ', 'ᾯ'),
-  ('Ᾰ', 'ᾼ'), ('Ὲ', 'ῌ'), ('Ῐ', 'Ί'), ('Ῠ', 'Ῥ'),
-  ('Ὸ', 'ῼ'), ('Ω', 'Ω'), ('K', 'Å'), ('Ⅎ', 'Ⅎ'),
-  ('Ⅰ', 'Ⅿ'), ('Ↄ', 'Ↄ'), ('Ⓐ', 'Ⓩ'), ('Ⰰ', 'Ⱞ'),
-  ('Ⱡ', 'Ⱡ'), ('Ɫ', 'Ɽ'), ('Ⱨ', 'Ⱨ'), ('Ⱪ', 'Ⱪ'),
-  ('Ⱬ', 'Ⱬ'), ('Ɑ', 'Ɒ'), ('Ⱳ', 'Ⱳ'), ('Ⱶ', 'Ⱶ'),
-  ('Ȿ', 'Ⲁ'), ('Ⲃ', 'Ⲃ'), ('Ⲅ', 'Ⲅ'), ('Ⲇ', 'Ⲇ'),
-  ('Ⲉ', 'Ⲉ'), ('Ⲋ', 'Ⲋ'), ('Ⲍ', 'Ⲍ'), ('Ⲏ', 'Ⲏ'),
-  ('Ⲑ', 'Ⲑ'), ('Ⲓ', 'Ⲓ'), ('Ⲕ', 'Ⲕ'), ('Ⲗ', 'Ⲗ'),
-  ('Ⲙ', 'Ⲙ'), ('Ⲛ', 'Ⲛ'), ('Ⲝ', 'Ⲝ'), ('Ⲟ', 'Ⲟ'),
-  ('Ⲡ', 'Ⲡ'), ('Ⲣ', 'Ⲣ'), ('Ⲥ', 'Ⲥ'), ('Ⲧ', 'Ⲧ'),
-  ('Ⲩ', 'Ⲩ'), ('Ⲫ', 'Ⲫ'), ('Ⲭ', 'Ⲭ'), ('Ⲯ', 'Ⲯ'),
-  ('Ⲱ', 'Ⲱ'), ('Ⲳ', 'Ⲳ'), ('Ⲵ', 'Ⲵ'), ('Ⲷ', 'Ⲷ'),
-  ('Ⲹ', 'Ⲹ'), ('Ⲻ', 'Ⲻ'), ('Ⲽ', 'Ⲽ'), ('Ⲿ', 'Ⲿ'),
-  ('Ⳁ', 'Ⳁ'), ('Ⳃ', 'Ⳃ'), ('Ⳅ', 'Ⳅ'), ('Ⳇ', 'Ⳇ'),
-  ('Ⳉ', 'Ⳉ'), ('Ⳋ', 'Ⳋ'), ('Ⳍ', 'Ⳍ'), ('Ⳏ', 'Ⳏ'),
-  ('Ⳑ', 'Ⳑ'), ('Ⳓ', 'Ⳓ'), ('Ⳕ', 'Ⳕ'), ('Ⳗ', 'Ⳗ'),
-  ('Ⳙ', 'Ⳙ'), ('Ⳛ', 'Ⳛ'), ('Ⳝ', 'Ⳝ'), ('Ⳟ', 'Ⳟ'),
-  ('Ⳡ', 'Ⳡ'), ('Ⳣ', 'Ⳣ'), ('Ⳬ', 'Ⳬ'), ('Ⳮ', 'Ⳮ'),
-  ('Ⳳ', 'Ⳳ'), ('Ꙁ', 'Ꙁ'), ('Ꙃ', 'Ꙃ'), ('Ꙅ', 'Ꙅ'),
-  ('Ꙇ', 'Ꙇ'), ('Ꙉ', 'Ꙉ'), ('Ꙋ', 'Ꙋ'), ('Ꙍ', 'Ꙍ'),
-  ('Ꙏ', 'Ꙏ'), ('Ꙑ', 'Ꙑ'), ('Ꙓ', 'Ꙓ'), ('Ꙕ', 'Ꙕ'),
-  ('Ꙗ', 'Ꙗ'), ('Ꙙ', 'Ꙙ'), ('Ꙛ', 'Ꙛ'), ('Ꙝ', 'Ꙝ'),
-  ('Ꙟ', 'Ꙟ'), ('Ꙡ', 'Ꙡ'), ('Ꙣ', 'Ꙣ'), ('Ꙥ', 'Ꙥ'),
-  ('Ꙧ', 'Ꙧ'), ('Ꙩ', 'Ꙩ'), ('Ꙫ', 'Ꙫ'), ('Ꙭ', 'Ꙭ'),
-  ('Ꚁ', 'Ꚁ'), ('Ꚃ', 'Ꚃ'), ('Ꚅ', 'Ꚅ'), ('Ꚇ', 'Ꚇ'),
-  ('Ꚉ', 'Ꚉ'), ('Ꚋ', 'Ꚋ'), ('Ꚍ', 'Ꚍ'), ('Ꚏ', 'Ꚏ'),
-  ('Ꚑ', 'Ꚑ'), ('Ꚓ', 'Ꚓ'), ('Ꚕ', 'Ꚕ'), ('Ꚗ', 'Ꚗ'),
-  ('Ꚙ', 'Ꚙ'), ('Ꚛ', 'Ꚛ'), ('Ꜣ', 'Ꜣ'), ('Ꜥ', 'Ꜥ'),
-  ('Ꜧ', 'Ꜧ'), ('Ꜩ', 'Ꜩ'), ('Ꜫ', 'Ꜫ'), ('Ꜭ', 'Ꜭ'),
-  ('Ꜯ', 'Ꜯ'), ('Ꜳ', 'Ꜳ'), ('Ꜵ', 'Ꜵ'), ('Ꜷ', 'Ꜷ'),
-  ('Ꜹ', 'Ꜹ'), ('Ꜻ', 'Ꜻ'), ('Ꜽ', 'Ꜽ'), ('Ꜿ', 'Ꜿ'),
-  ('Ꝁ', 'Ꝁ'), ('Ꝃ', 'Ꝃ'), ('Ꝅ', 'Ꝅ'), ('Ꝇ', 'Ꝇ'),
-  ('Ꝉ', 'Ꝉ'), ('Ꝋ', 'Ꝋ'), ('Ꝍ', 'Ꝍ'), ('Ꝏ', 'Ꝏ'),
-  ('Ꝑ', 'Ꝑ'), ('Ꝓ', 'Ꝓ'), ('Ꝕ', 'Ꝕ'), ('Ꝗ', 'Ꝗ'),
-  ('Ꝙ', 'Ꝙ'), ('Ꝛ', 'Ꝛ'), ('Ꝝ', 'Ꝝ'), ('Ꝟ', 'Ꝟ'),
-  ('Ꝡ', 'Ꝡ'), ('Ꝣ', 'Ꝣ'), ('Ꝥ', 'Ꝥ'), ('Ꝧ', 'Ꝧ'),
-  ('Ꝩ', 'Ꝩ'), ('Ꝫ', 'Ꝫ'), ('Ꝭ', 'Ꝭ'), ('Ꝯ', 'Ꝯ'),
-  ('Ꝺ', 'Ꝺ'), ('Ꝼ', 'Ꝼ'), ('Ᵹ', 'Ꝿ'), ('Ꞁ', 'Ꞁ'),
-  ('Ꞃ', 'Ꞃ'), ('Ꞅ', 'Ꞅ'), ('Ꞇ', 'Ꞇ'), ('Ꞌ', 'Ꞌ'),
-  ('Ɥ', 'Ɥ'), ('Ꞑ', 'Ꞑ'), ('Ꞓ', 'Ꞓ'), ('Ꞗ', 'Ꞗ'),
-  ('Ꞙ', 'Ꞙ'), ('Ꞛ', 'Ꞛ'), ('Ꞝ', 'Ꞝ'), ('Ꞟ', 'Ꞟ'),
-  ('Ꞡ', 'Ꞡ'), ('Ꞣ', 'Ꞣ'), ('Ꞥ', 'Ꞥ'), ('Ꞧ', 'Ꞧ'),
-  ('Ꞩ', 'Ꞩ'), ('Ɦ', 'Ɪ'), ('Ʞ', 'Ꞵ'), ('Ꞷ', 'Ꞷ'),
-  ('Ꞹ', 'Ꞹ'), ('\u{a7ba}', '\u{a7ba}'), ('\u{a7bc}', '\u{a7bc}'),
-  ('\u{a7be}', '\u{a7be}'), ('\u{a7c2}', '\u{a7c2}'),
-  ('\u{a7c4}', '\u{a7c6}'), ('A', 'Z'), ('𐐀', '𐐧'),
-  ('𐒰', '𐓓'), ('𐲀', '𐲲'), ('𑢠', '𑢿'), ('𖹀', '𖹟'),
-  ('𞤀', '𞤡'),
-];
-
-pub const CHANGES_WHEN_TITLECASED: &'static [(char, char)] = &[
-  ('a', 'z'), ('µ', 'µ'), ('ß', 'ö'), ('ø', 'ÿ'), ('ā', 'ā'),
-  ('ă', 'ă'), ('ą', 'ą'), ('ć', 'ć'), ('ĉ', 'ĉ'), ('ċ', 'ċ'),
-  ('č', 'č'), ('ď', 'ď'), ('đ', 'đ'), ('ē', 'ē'), ('ĕ', 'ĕ'),
-  ('ė', 'ė'), ('ę', 'ę'), ('ě', 'ě'), ('ĝ', 'ĝ'), ('ğ', 'ğ'),
-  ('ġ', 'ġ'), ('ģ', 'ģ'), ('ĥ', 'ĥ'), ('ħ', 'ħ'), ('ĩ', 'ĩ'),
-  ('ī', 'ī'), ('ĭ', 'ĭ'), ('į', 'į'), ('ı', 'ı'), ('ij', 'ij'),
-  ('ĵ', 'ĵ'), ('ķ', 'ķ'), ('ĺ', 'ĺ'), ('ļ', 'ļ'), ('ľ', 'ľ'),
-  ('ŀ', 'ŀ'), ('ł', 'ł'), ('ń', 'ń'), ('ņ', 'ņ'), ('ň', 'ʼn'),
-  ('ŋ', 'ŋ'), ('ō', 'ō'), ('ŏ', 'ŏ'), ('ő', 'ő'), ('œ', 'œ'),
-  ('ŕ', 'ŕ'), ('ŗ', 'ŗ'), ('ř', 'ř'), ('ś', 'ś'), ('ŝ', 'ŝ'),
-  ('ş', 'ş'), ('š', 'š'), ('ţ', 'ţ'), ('ť', 'ť'), ('ŧ', 'ŧ'),
-  ('ũ', 'ũ'), ('ū', 'ū'), ('ŭ', 'ŭ'), ('ů', 'ů'), ('ű', 'ű'),
-  ('ų', 'ų'), ('ŵ', 'ŵ'), ('ŷ', 'ŷ'), ('ź', 'ź'), ('ż', 'ż'),
-  ('ž', 'ƀ'), ('ƃ', 'ƃ'), ('ƅ', 'ƅ'), ('ƈ', 'ƈ'), ('ƌ', 'ƌ'),
-  ('ƒ', 'ƒ'), ('ƕ', 'ƕ'), ('ƙ', 'ƚ'), ('ƞ', 'ƞ'), ('ơ', 'ơ'),
-  ('ƣ', 'ƣ'), ('ƥ', 'ƥ'), ('ƨ', 'ƨ'), ('ƭ', 'ƭ'), ('ư', 'ư'),
-  ('ƴ', 'ƴ'), ('ƶ', 'ƶ'), ('ƹ', 'ƹ'), ('ƽ', 'ƽ'), ('ƿ', 'ƿ'),
-  ('DŽ', 'DŽ'), ('dž', 'LJ'), ('lj', 'NJ'), ('nj', 'nj'), ('ǎ', 'ǎ'),
-  ('ǐ', 'ǐ'), ('ǒ', 'ǒ'), ('ǔ', 'ǔ'), ('ǖ', 'ǖ'), ('ǘ', 'ǘ'),
-  ('ǚ', 'ǚ'), ('ǜ', 'ǝ'), ('ǟ', 'ǟ'), ('ǡ', 'ǡ'), ('ǣ', 'ǣ'),
-  ('ǥ', 'ǥ'), ('ǧ', 'ǧ'), ('ǩ', 'ǩ'), ('ǫ', 'ǫ'), ('ǭ', 'ǭ'),
-  ('ǯ', 'DZ'), ('dz', 'dz'), ('ǵ', 'ǵ'), ('ǹ', 'ǹ'), ('ǻ', 'ǻ'),
-  ('ǽ', 'ǽ'), ('ǿ', 'ǿ'), ('ȁ', 'ȁ'), ('ȃ', 'ȃ'), ('ȅ', 'ȅ'),
-  ('ȇ', 'ȇ'), ('ȉ', 'ȉ'), ('ȋ', 'ȋ'), ('ȍ', 'ȍ'), ('ȏ', 'ȏ'),
-  ('ȑ', 'ȑ'), ('ȓ', 'ȓ'), ('ȕ', 'ȕ'), ('ȗ', 'ȗ'), ('ș', 'ș'),
-  ('ț', 'ț'), ('ȝ', 'ȝ'), ('ȟ', 'ȟ'), ('ȣ', 'ȣ'), ('ȥ', 'ȥ'),
-  ('ȧ', 'ȧ'), ('ȩ', 'ȩ'), ('ȫ', 'ȫ'), ('ȭ', 'ȭ'), ('ȯ', 'ȯ'),
-  ('ȱ', 'ȱ'), ('ȳ', 'ȳ'), ('ȼ', 'ȼ'), ('ȿ', 'ɀ'), ('ɂ', 'ɂ'),
-  ('ɇ', 'ɇ'), ('ɉ', 'ɉ'), ('ɋ', 'ɋ'), ('ɍ', 'ɍ'), ('ɏ', 'ɔ'),
-  ('ɖ', 'ɗ'), ('ə', 'ə'), ('ɛ', 'ɜ'), ('ɠ', 'ɡ'), ('ɣ', 'ɣ'),
-  ('ɥ', 'ɦ'), ('ɨ', 'ɬ'), ('ɯ', 'ɯ'), ('ɱ', 'ɲ'), ('ɵ', 'ɵ'),
-  ('ɽ', 'ɽ'), ('ʀ', 'ʀ'), ('ʂ', 'ʃ'), ('ʇ', 'ʌ'), ('ʒ', 'ʒ'),
-  ('ʝ', 'ʞ'), ('\u{345}', '\u{345}'), ('ͱ', 'ͱ'), ('ͳ', 'ͳ'),
-  ('ͷ', 'ͷ'), ('ͻ', 'ͽ'), ('ΐ', 'ΐ'), ('ά', 'ώ'), ('ϐ', 'ϑ'),
-  ('ϕ', 'ϗ'), ('ϙ', 'ϙ'), ('ϛ', 'ϛ'), ('ϝ', 'ϝ'), ('ϟ', 'ϟ'),
-  ('ϡ', 'ϡ'), ('ϣ', 'ϣ'), ('ϥ', 'ϥ'), ('ϧ', 'ϧ'), ('ϩ', 'ϩ'),
-  ('ϫ', 'ϫ'), ('ϭ', 'ϭ'), ('ϯ', 'ϳ'), ('ϵ', 'ϵ'), ('ϸ', 'ϸ'),
-  ('ϻ', 'ϻ'), ('а', 'џ'), ('ѡ', 'ѡ'), ('ѣ', 'ѣ'), ('ѥ', 'ѥ'),
-  ('ѧ', 'ѧ'), ('ѩ', 'ѩ'), ('ѫ', 'ѫ'), ('ѭ', 'ѭ'), ('ѯ', 'ѯ'),
-  ('ѱ', 'ѱ'), ('ѳ', 'ѳ'), ('ѵ', 'ѵ'), ('ѷ', 'ѷ'), ('ѹ', 'ѹ'),
-  ('ѻ', 'ѻ'), ('ѽ', 'ѽ'), ('ѿ', 'ѿ'), ('ҁ', 'ҁ'), ('ҋ', 'ҋ'),
-  ('ҍ', 'ҍ'), ('ҏ', 'ҏ'), ('ґ', 'ґ'), ('ғ', 'ғ'), ('ҕ', 'ҕ'),
-  ('җ', 'җ'), ('ҙ', 'ҙ'), ('қ', 'қ'), ('ҝ', 'ҝ'), ('ҟ', 'ҟ'),
-  ('ҡ', 'ҡ'), ('ң', 'ң'), ('ҥ', 'ҥ'), ('ҧ', 'ҧ'), ('ҩ', 'ҩ'),
-  ('ҫ', 'ҫ'), ('ҭ', 'ҭ'), ('ү', 'ү'), ('ұ', 'ұ'), ('ҳ', 'ҳ'),
-  ('ҵ', 'ҵ'), ('ҷ', 'ҷ'), ('ҹ', 'ҹ'), ('һ', 'һ'), ('ҽ', 'ҽ'),
-  ('ҿ', 'ҿ'), ('ӂ', 'ӂ'), ('ӄ', 'ӄ'), ('ӆ', 'ӆ'), ('ӈ', 'ӈ'),
-  ('ӊ', 'ӊ'), ('ӌ', 'ӌ'), ('ӎ', 'ӏ'), ('ӑ', 'ӑ'), ('ӓ', 'ӓ'),
-  ('ӕ', 'ӕ'), ('ӗ', 'ӗ'), ('ә', 'ә'), ('ӛ', 'ӛ'), ('ӝ', 'ӝ'),
-  ('ӟ', 'ӟ'), ('ӡ', 'ӡ'), ('ӣ', 'ӣ'), ('ӥ', 'ӥ'), ('ӧ', 'ӧ'),
-  ('ө', 'ө'), ('ӫ', 'ӫ'), ('ӭ', 'ӭ'), ('ӯ', 'ӯ'), ('ӱ', 'ӱ'),
-  ('ӳ', 'ӳ'), ('ӵ', 'ӵ'), ('ӷ', 'ӷ'), ('ӹ', 'ӹ'), ('ӻ', 'ӻ'),
-  ('ӽ', 'ӽ'), ('ӿ', 'ӿ'), ('ԁ', 'ԁ'), ('ԃ', 'ԃ'), ('ԅ', 'ԅ'),
-  ('ԇ', 'ԇ'), ('ԉ', 'ԉ'), ('ԋ', 'ԋ'), ('ԍ', 'ԍ'), ('ԏ', 'ԏ'),
-  ('ԑ', 'ԑ'), ('ԓ', 'ԓ'), ('ԕ', 'ԕ'), ('ԗ', 'ԗ'), ('ԙ', 'ԙ'),
-  ('ԛ', 'ԛ'), ('ԝ', 'ԝ'), ('ԟ', 'ԟ'), ('ԡ', 'ԡ'), ('ԣ', 'ԣ'),
-  ('ԥ', 'ԥ'), ('ԧ', 'ԧ'), ('ԩ', 'ԩ'), ('ԫ', 'ԫ'), ('ԭ', 'ԭ'),
-  ('ԯ', 'ԯ'), ('ա', 'և'), ('ᏸ', 'ᏽ'), ('ᲀ', 'ᲈ'), ('ᵹ', 'ᵹ'),
-  ('ᵽ', 'ᵽ'), ('ᶎ', 'ᶎ'), ('ḁ', 'ḁ'), ('ḃ', 'ḃ'),
-  ('ḅ', 'ḅ'), ('ḇ', 'ḇ'), ('ḉ', 'ḉ'), ('ḋ', 'ḋ'),
-  ('ḍ', 'ḍ'), ('ḏ', 'ḏ'), ('ḑ', 'ḑ'), ('ḓ', 'ḓ'),
-  ('ḕ', 'ḕ'), ('ḗ', 'ḗ'), ('ḙ', 'ḙ'), ('ḛ', 'ḛ'),
-  ('ḝ', 'ḝ'), ('ḟ', 'ḟ'), ('ḡ', 'ḡ'), ('ḣ', 'ḣ'),
-  ('ḥ', 'ḥ'), ('ḧ', 'ḧ'), ('ḩ', 'ḩ'), ('ḫ', 'ḫ'),
-  ('ḭ', 'ḭ'), ('ḯ', 'ḯ'), ('ḱ', 'ḱ'), ('ḳ', 'ḳ'),
-  ('ḵ', 'ḵ'), ('ḷ', 'ḷ'), ('ḹ', 'ḹ'), ('ḻ', 'ḻ'),
-  ('ḽ', 'ḽ'), ('ḿ', 'ḿ'), ('ṁ', 'ṁ'), ('ṃ', 'ṃ'),
-  ('ṅ', 'ṅ'), ('ṇ', 'ṇ'), ('ṉ', 'ṉ'), ('ṋ', 'ṋ'),
-  ('ṍ', 'ṍ'), ('ṏ', 'ṏ'), ('ṑ', 'ṑ'), ('ṓ', 'ṓ'),
-  ('ṕ', 'ṕ'), ('ṗ', 'ṗ'), ('ṙ', 'ṙ'), ('ṛ', 'ṛ'),
-  ('ṝ', 'ṝ'), ('ṟ', 'ṟ'), ('ṡ', 'ṡ'), ('ṣ', 'ṣ'),
-  ('ṥ', 'ṥ'), ('ṧ', 'ṧ'), ('ṩ', 'ṩ'), ('ṫ', 'ṫ'),
-  ('ṭ', 'ṭ'), ('ṯ', 'ṯ'), ('ṱ', 'ṱ'), ('ṳ', 'ṳ'),
-  ('ṵ', 'ṵ'), ('ṷ', 'ṷ'), ('ṹ', 'ṹ'), ('ṻ', 'ṻ'),
-  ('ṽ', 'ṽ'), ('ṿ', 'ṿ'), ('ẁ', 'ẁ'), ('ẃ', 'ẃ'),
-  ('ẅ', 'ẅ'), ('ẇ', 'ẇ'), ('ẉ', 'ẉ'), ('ẋ', 'ẋ'),
-  ('ẍ', 'ẍ'), ('ẏ', 'ẏ'), ('ẑ', 'ẑ'), ('ẓ', 'ẓ'),
-  ('ẕ', 'ẛ'), ('ạ', 'ạ'), ('ả', 'ả'), ('ấ', 'ấ'),
-  ('ầ', 'ầ'), ('ẩ', 'ẩ'), ('ẫ', 'ẫ'), ('ậ', 'ậ'),
-  ('ắ', 'ắ'), ('ằ', 'ằ'), ('ẳ', 'ẳ'), ('ẵ', 'ẵ'),
-  ('ặ', 'ặ'), ('ẹ', 'ẹ'), ('ẻ', 'ẻ'), ('ẽ', 'ẽ'),
-  ('ế', 'ế'), ('ề', 'ề'), ('ể', 'ể'), ('ễ', 'ễ'),
-  ('ệ', 'ệ'), ('ỉ', 'ỉ'), ('ị', 'ị'), ('ọ', 'ọ'),
-  ('ỏ', 'ỏ'), ('ố', 'ố'), ('ồ', 'ồ'), ('ổ', 'ổ'),
-  ('ỗ', 'ỗ'), ('ộ', 'ộ'), ('ớ', 'ớ'), ('ờ', 'ờ'),
-  ('ở', 'ở'), ('ỡ', 'ỡ'), ('ợ', 'ợ'), ('ụ', 'ụ'),
-  ('ủ', 'ủ'), ('ứ', 'ứ'), ('ừ', 'ừ'), ('ử', 'ử'),
-  ('ữ', 'ữ'), ('ự', 'ự'), ('ỳ', 'ỳ'), ('ỵ', 'ỵ'),
-  ('ỷ', 'ỷ'), ('ỹ', 'ỹ'), ('ỻ', 'ỻ'), ('ỽ', 'ỽ'),
-  ('ỿ', 'ἇ'), ('ἐ', 'ἕ'), ('ἠ', 'ἧ'), ('ἰ', 'ἷ'),
-  ('ὀ', 'ὅ'), ('ὐ', 'ὗ'), ('ὠ', 'ὧ'), ('ὰ', 'ώ'),
-  ('ᾀ', 'ᾇ'), ('ᾐ', 'ᾗ'), ('ᾠ', 'ᾧ'), ('ᾰ', 'ᾴ'),
-  ('ᾶ', 'ᾷ'), ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῇ'),
-  ('ῐ', 'ΐ'), ('ῖ', 'ῗ'), ('ῠ', 'ῧ'), ('ῲ', 'ῴ'),
-  ('ῶ', 'ῷ'), ('ⅎ', 'ⅎ'), ('ⅰ', 'ⅿ'), ('ↄ', 'ↄ'),
-  ('ⓐ', 'ⓩ'), ('ⰰ', 'ⱞ'), ('ⱡ', 'ⱡ'), ('ⱥ', 'ⱦ'),
-  ('ⱨ', 'ⱨ'), ('ⱪ', 'ⱪ'), ('ⱬ', 'ⱬ'), ('ⱳ', 'ⱳ'),
-  ('ⱶ', 'ⱶ'), ('ⲁ', 'ⲁ'), ('ⲃ', 'ⲃ'), ('ⲅ', 'ⲅ'),
-  ('ⲇ', 'ⲇ'), ('ⲉ', 'ⲉ'), ('ⲋ', 'ⲋ'), ('ⲍ', 'ⲍ'),
-  ('ⲏ', 'ⲏ'), ('ⲑ', 'ⲑ'), ('ⲓ', 'ⲓ'), ('ⲕ', 'ⲕ'),
-  ('ⲗ', 'ⲗ'), ('ⲙ', 'ⲙ'), ('ⲛ', 'ⲛ'), ('ⲝ', 'ⲝ'),
-  ('ⲟ', 'ⲟ'), ('ⲡ', 'ⲡ'), ('ⲣ', 'ⲣ'), ('ⲥ', 'ⲥ'),
-  ('ⲧ', 'ⲧ'), ('ⲩ', 'ⲩ'), ('ⲫ', 'ⲫ'), ('ⲭ', 'ⲭ'),
-  ('ⲯ', 'ⲯ'), ('ⲱ', 'ⲱ'), ('ⲳ', 'ⲳ'), ('ⲵ', 'ⲵ'),
-  ('ⲷ', 'ⲷ'), ('ⲹ', 'ⲹ'), ('ⲻ', 'ⲻ'), ('ⲽ', 'ⲽ'),
-  ('ⲿ', 'ⲿ'), ('ⳁ', 'ⳁ'), ('ⳃ', 'ⳃ'), ('ⳅ', 'ⳅ'),
-  ('ⳇ', 'ⳇ'), ('ⳉ', 'ⳉ'), ('ⳋ', 'ⳋ'), ('ⳍ', 'ⳍ'),
-  ('ⳏ', 'ⳏ'), ('ⳑ', 'ⳑ'), ('ⳓ', 'ⳓ'), ('ⳕ', 'ⳕ'),
-  ('ⳗ', 'ⳗ'), ('ⳙ', 'ⳙ'), ('ⳛ', 'ⳛ'), ('ⳝ', 'ⳝ'),
-  ('ⳟ', 'ⳟ'), ('ⳡ', 'ⳡ'), ('ⳣ', 'ⳣ'), ('ⳬ', 'ⳬ'),
-  ('ⳮ', 'ⳮ'), ('ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ꙁ', 'ꙁ'), ('ꙃ', 'ꙃ'), ('ꙅ', 'ꙅ'),
-  ('ꙇ', 'ꙇ'), ('ꙉ', 'ꙉ'), ('ꙋ', 'ꙋ'), ('ꙍ', 'ꙍ'),
-  ('ꙏ', 'ꙏ'), ('ꙑ', 'ꙑ'), ('ꙓ', 'ꙓ'), ('ꙕ', 'ꙕ'),
-  ('ꙗ', 'ꙗ'), ('ꙙ', 'ꙙ'), ('ꙛ', 'ꙛ'), ('ꙝ', 'ꙝ'),
-  ('ꙟ', 'ꙟ'), ('ꙡ', 'ꙡ'), ('ꙣ', 'ꙣ'), ('ꙥ', 'ꙥ'),
-  ('ꙧ', 'ꙧ'), ('ꙩ', 'ꙩ'), ('ꙫ', 'ꙫ'), ('ꙭ', 'ꙭ'),
-  ('ꚁ', 'ꚁ'), ('ꚃ', 'ꚃ'), ('ꚅ', 'ꚅ'), ('ꚇ', 'ꚇ'),
-  ('ꚉ', 'ꚉ'), ('ꚋ', 'ꚋ'), ('ꚍ', 'ꚍ'), ('ꚏ', 'ꚏ'),
-  ('ꚑ', 'ꚑ'), ('ꚓ', 'ꚓ'), ('ꚕ', 'ꚕ'), ('ꚗ', 'ꚗ'),
-  ('ꚙ', 'ꚙ'), ('ꚛ', 'ꚛ'), ('ꜣ', 'ꜣ'), ('ꜥ', 'ꜥ'),
-  ('ꜧ', 'ꜧ'), ('ꜩ', 'ꜩ'), ('ꜫ', 'ꜫ'), ('ꜭ', 'ꜭ'),
-  ('ꜯ', 'ꜯ'), ('ꜳ', 'ꜳ'), ('ꜵ', 'ꜵ'), ('ꜷ', 'ꜷ'),
-  ('ꜹ', 'ꜹ'), ('ꜻ', 'ꜻ'), ('ꜽ', 'ꜽ'), ('ꜿ', 'ꜿ'),
-  ('ꝁ', 'ꝁ'), ('ꝃ', 'ꝃ'), ('ꝅ', 'ꝅ'), ('ꝇ', 'ꝇ'),
-  ('ꝉ', 'ꝉ'), ('ꝋ', 'ꝋ'), ('ꝍ', 'ꝍ'), ('ꝏ', 'ꝏ'),
-  ('ꝑ', 'ꝑ'), ('ꝓ', 'ꝓ'), ('ꝕ', 'ꝕ'), ('ꝗ', 'ꝗ'),
-  ('ꝙ', 'ꝙ'), ('ꝛ', 'ꝛ'), ('ꝝ', 'ꝝ'), ('ꝟ', 'ꝟ'),
-  ('ꝡ', 'ꝡ'), ('ꝣ', 'ꝣ'), ('ꝥ', 'ꝥ'), ('ꝧ', 'ꝧ'),
-  ('ꝩ', 'ꝩ'), ('ꝫ', 'ꝫ'), ('ꝭ', 'ꝭ'), ('ꝯ', 'ꝯ'),
-  ('ꝺ', 'ꝺ'), ('ꝼ', 'ꝼ'), ('ꝿ', 'ꝿ'), ('ꞁ', 'ꞁ'),
-  ('ꞃ', 'ꞃ'), ('ꞅ', 'ꞅ'), ('ꞇ', 'ꞇ'), ('ꞌ', 'ꞌ'),
-  ('ꞑ', 'ꞑ'), ('ꞓ', 'ꞔ'), ('ꞗ', 'ꞗ'), ('ꞙ', 'ꞙ'),
-  ('ꞛ', 'ꞛ'), ('ꞝ', 'ꞝ'), ('ꞟ', 'ꞟ'), ('ꞡ', 'ꞡ'),
-  ('ꞣ', 'ꞣ'), ('ꞥ', 'ꞥ'), ('ꞧ', 'ꞧ'), ('ꞩ', 'ꞩ'),
-  ('ꞵ', 'ꞵ'), ('ꞷ', 'ꞷ'), ('ꞹ', 'ꞹ'), ('\u{a7bb}', '\u{a7bb}'),
-  ('\u{a7bd}', '\u{a7bd}'), ('\u{a7bf}', '\u{a7bf}'),
-  ('\u{a7c3}', '\u{a7c3}'), ('ꭓ', 'ꭓ'), ('ꭰ', 'ꮿ'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('a', 'z'), ('𐐨', '𐑏'), ('𐓘', '𐓻'),
-  ('𐳀', '𐳲'), ('𑣀', '𑣟'), ('𖹠', '𖹿'), ('𞤢', '𞥃'),
-];
-
-pub const CHANGES_WHEN_UPPERCASED: &'static [(char, char)] = &[
-  ('a', 'z'), ('µ', 'µ'), ('ß', 'ö'), ('ø', 'ÿ'), ('ā', 'ā'),
-  ('ă', 'ă'), ('ą', 'ą'), ('ć', 'ć'), ('ĉ', 'ĉ'), ('ċ', 'ċ'),
-  ('č', 'č'), ('ď', 'ď'), ('đ', 'đ'), ('ē', 'ē'), ('ĕ', 'ĕ'),
-  ('ė', 'ė'), ('ę', 'ę'), ('ě', 'ě'), ('ĝ', 'ĝ'), ('ğ', 'ğ'),
-  ('ġ', 'ġ'), ('ģ', 'ģ'), ('ĥ', 'ĥ'), ('ħ', 'ħ'), ('ĩ', 'ĩ'),
-  ('ī', 'ī'), ('ĭ', 'ĭ'), ('į', 'į'), ('ı', 'ı'), ('ij', 'ij'),
-  ('ĵ', 'ĵ'), ('ķ', 'ķ'), ('ĺ', 'ĺ'), ('ļ', 'ļ'), ('ľ', 'ľ'),
-  ('ŀ', 'ŀ'), ('ł', 'ł'), ('ń', 'ń'), ('ņ', 'ņ'), ('ň', 'ʼn'),
-  ('ŋ', 'ŋ'), ('ō', 'ō'), ('ŏ', 'ŏ'), ('ő', 'ő'), ('œ', 'œ'),
-  ('ŕ', 'ŕ'), ('ŗ', 'ŗ'), ('ř', 'ř'), ('ś', 'ś'), ('ŝ', 'ŝ'),
-  ('ş', 'ş'), ('š', 'š'), ('ţ', 'ţ'), ('ť', 'ť'), ('ŧ', 'ŧ'),
-  ('ũ', 'ũ'), ('ū', 'ū'), ('ŭ', 'ŭ'), ('ů', 'ů'), ('ű', 'ű'),
-  ('ų', 'ų'), ('ŵ', 'ŵ'), ('ŷ', 'ŷ'), ('ź', 'ź'), ('ż', 'ż'),
-  ('ž', 'ƀ'), ('ƃ', 'ƃ'), ('ƅ', 'ƅ'), ('ƈ', 'ƈ'), ('ƌ', 'ƌ'),
-  ('ƒ', 'ƒ'), ('ƕ', 'ƕ'), ('ƙ', 'ƚ'), ('ƞ', 'ƞ'), ('ơ', 'ơ'),
-  ('ƣ', 'ƣ'), ('ƥ', 'ƥ'), ('ƨ', 'ƨ'), ('ƭ', 'ƭ'), ('ư', 'ư'),
-  ('ƴ', 'ƴ'), ('ƶ', 'ƶ'), ('ƹ', 'ƹ'), ('ƽ', 'ƽ'), ('ƿ', 'ƿ'),
-  ('Dž', 'dž'), ('Lj', 'lj'), ('Nj', 'nj'), ('ǎ', 'ǎ'), ('ǐ', 'ǐ'),
-  ('ǒ', 'ǒ'), ('ǔ', 'ǔ'), ('ǖ', 'ǖ'), ('ǘ', 'ǘ'), ('ǚ', 'ǚ'),
-  ('ǜ', 'ǝ'), ('ǟ', 'ǟ'), ('ǡ', 'ǡ'), ('ǣ', 'ǣ'), ('ǥ', 'ǥ'),
-  ('ǧ', 'ǧ'), ('ǩ', 'ǩ'), ('ǫ', 'ǫ'), ('ǭ', 'ǭ'), ('ǯ', 'ǰ'),
-  ('Dz', 'dz'), ('ǵ', 'ǵ'), ('ǹ', 'ǹ'), ('ǻ', 'ǻ'), ('ǽ', 'ǽ'),
-  ('ǿ', 'ǿ'), ('ȁ', 'ȁ'), ('ȃ', 'ȃ'), ('ȅ', 'ȅ'), ('ȇ', 'ȇ'),
-  ('ȉ', 'ȉ'), ('ȋ', 'ȋ'), ('ȍ', 'ȍ'), ('ȏ', 'ȏ'), ('ȑ', 'ȑ'),
-  ('ȓ', 'ȓ'), ('ȕ', 'ȕ'), ('ȗ', 'ȗ'), ('ș', 'ș'), ('ț', 'ț'),
-  ('ȝ', 'ȝ'), ('ȟ', 'ȟ'), ('ȣ', 'ȣ'), ('ȥ', 'ȥ'), ('ȧ', 'ȧ'),
-  ('ȩ', 'ȩ'), ('ȫ', 'ȫ'), ('ȭ', 'ȭ'), ('ȯ', 'ȯ'), ('ȱ', 'ȱ'),
-  ('ȳ', 'ȳ'), ('ȼ', 'ȼ'), ('ȿ', 'ɀ'), ('ɂ', 'ɂ'), ('ɇ', 'ɇ'),
-  ('ɉ', 'ɉ'), ('ɋ', 'ɋ'), ('ɍ', 'ɍ'), ('ɏ', 'ɔ'), ('ɖ', 'ɗ'),
-  ('ə', 'ə'), ('ɛ', 'ɜ'), ('ɠ', 'ɡ'), ('ɣ', 'ɣ'), ('ɥ', 'ɦ'),
-  ('ɨ', 'ɬ'), ('ɯ', 'ɯ'), ('ɱ', 'ɲ'), ('ɵ', 'ɵ'), ('ɽ', 'ɽ'),
-  ('ʀ', 'ʀ'), ('ʂ', 'ʃ'), ('ʇ', 'ʌ'), ('ʒ', 'ʒ'), ('ʝ', 'ʞ'),
-  ('\u{345}', '\u{345}'), ('ͱ', 'ͱ'), ('ͳ', 'ͳ'), ('ͷ', 'ͷ'),
-  ('ͻ', 'ͽ'), ('ΐ', 'ΐ'), ('ά', 'ώ'), ('ϐ', 'ϑ'), ('ϕ', 'ϗ'),
-  ('ϙ', 'ϙ'), ('ϛ', 'ϛ'), ('ϝ', 'ϝ'), ('ϟ', 'ϟ'), ('ϡ', 'ϡ'),
-  ('ϣ', 'ϣ'), ('ϥ', 'ϥ'), ('ϧ', 'ϧ'), ('ϩ', 'ϩ'), ('ϫ', 'ϫ'),
-  ('ϭ', 'ϭ'), ('ϯ', 'ϳ'), ('ϵ', 'ϵ'), ('ϸ', 'ϸ'), ('ϻ', 'ϻ'),
-  ('а', 'џ'), ('ѡ', 'ѡ'), ('ѣ', 'ѣ'), ('ѥ', 'ѥ'), ('ѧ', 'ѧ'),
-  ('ѩ', 'ѩ'), ('ѫ', 'ѫ'), ('ѭ', 'ѭ'), ('ѯ', 'ѯ'), ('ѱ', 'ѱ'),
-  ('ѳ', 'ѳ'), ('ѵ', 'ѵ'), ('ѷ', 'ѷ'), ('ѹ', 'ѹ'), ('ѻ', 'ѻ'),
-  ('ѽ', 'ѽ'), ('ѿ', 'ѿ'), ('ҁ', 'ҁ'), ('ҋ', 'ҋ'), ('ҍ', 'ҍ'),
-  ('ҏ', 'ҏ'), ('ґ', 'ґ'), ('ғ', 'ғ'), ('ҕ', 'ҕ'), ('җ', 'җ'),
-  ('ҙ', 'ҙ'), ('қ', 'қ'), ('ҝ', 'ҝ'), ('ҟ', 'ҟ'), ('ҡ', 'ҡ'),
-  ('ң', 'ң'), ('ҥ', 'ҥ'), ('ҧ', 'ҧ'), ('ҩ', 'ҩ'), ('ҫ', 'ҫ'),
-  ('ҭ', 'ҭ'), ('ү', 'ү'), ('ұ', 'ұ'), ('ҳ', 'ҳ'), ('ҵ', 'ҵ'),
-  ('ҷ', 'ҷ'), ('ҹ', 'ҹ'), ('һ', 'һ'), ('ҽ', 'ҽ'), ('ҿ', 'ҿ'),
-  ('ӂ', 'ӂ'), ('ӄ', 'ӄ'), ('ӆ', 'ӆ'), ('ӈ', 'ӈ'), ('ӊ', 'ӊ'),
-  ('ӌ', 'ӌ'), ('ӎ', 'ӏ'), ('ӑ', 'ӑ'), ('ӓ', 'ӓ'), ('ӕ', 'ӕ'),
-  ('ӗ', 'ӗ'), ('ә', 'ә'), ('ӛ', 'ӛ'), ('ӝ', 'ӝ'), ('ӟ', 'ӟ'),
-  ('ӡ', 'ӡ'), ('ӣ', 'ӣ'), ('ӥ', 'ӥ'), ('ӧ', 'ӧ'), ('ө', 'ө'),
-  ('ӫ', 'ӫ'), ('ӭ', 'ӭ'), ('ӯ', 'ӯ'), ('ӱ', 'ӱ'), ('ӳ', 'ӳ'),
-  ('ӵ', 'ӵ'), ('ӷ', 'ӷ'), ('ӹ', 'ӹ'), ('ӻ', 'ӻ'), ('ӽ', 'ӽ'),
-  ('ӿ', 'ӿ'), ('ԁ', 'ԁ'), ('ԃ', 'ԃ'), ('ԅ', 'ԅ'), ('ԇ', 'ԇ'),
-  ('ԉ', 'ԉ'), ('ԋ', 'ԋ'), ('ԍ', 'ԍ'), ('ԏ', 'ԏ'), ('ԑ', 'ԑ'),
-  ('ԓ', 'ԓ'), ('ԕ', 'ԕ'), ('ԗ', 'ԗ'), ('ԙ', 'ԙ'), ('ԛ', 'ԛ'),
-  ('ԝ', 'ԝ'), ('ԟ', 'ԟ'), ('ԡ', 'ԡ'), ('ԣ', 'ԣ'), ('ԥ', 'ԥ'),
-  ('ԧ', 'ԧ'), ('ԩ', 'ԩ'), ('ԫ', 'ԫ'), ('ԭ', 'ԭ'), ('ԯ', 'ԯ'),
-  ('ա', 'և'), ('ა', 'ჺ'), ('ჽ', 'ჿ'), ('ᏸ', 'ᏽ'),
-  ('ᲀ', 'ᲈ'), ('ᵹ', 'ᵹ'), ('ᵽ', 'ᵽ'), ('ᶎ', 'ᶎ'),
-  ('ḁ', 'ḁ'), ('ḃ', 'ḃ'), ('ḅ', 'ḅ'), ('ḇ', 'ḇ'),
-  ('ḉ', 'ḉ'), ('ḋ', 'ḋ'), ('ḍ', 'ḍ'), ('ḏ', 'ḏ'),
-  ('ḑ', 'ḑ'), ('ḓ', 'ḓ'), ('ḕ', 'ḕ'), ('ḗ', 'ḗ'),
-  ('ḙ', 'ḙ'), ('ḛ', 'ḛ'), ('ḝ', 'ḝ'), ('ḟ', 'ḟ'),
-  ('ḡ', 'ḡ'), ('ḣ', 'ḣ'), ('ḥ', 'ḥ'), ('ḧ', 'ḧ'),
-  ('ḩ', 'ḩ'), ('ḫ', 'ḫ'), ('ḭ', 'ḭ'), ('ḯ', 'ḯ'),
-  ('ḱ', 'ḱ'), ('ḳ', 'ḳ'), ('ḵ', 'ḵ'), ('ḷ', 'ḷ'),
-  ('ḹ', 'ḹ'), ('ḻ', 'ḻ'), ('ḽ', 'ḽ'), ('ḿ', 'ḿ'),
-  ('ṁ', 'ṁ'), ('ṃ', 'ṃ'), ('ṅ', 'ṅ'), ('ṇ', 'ṇ'),
-  ('ṉ', 'ṉ'), ('ṋ', 'ṋ'), ('ṍ', 'ṍ'), ('ṏ', 'ṏ'),
-  ('ṑ', 'ṑ'), ('ṓ', 'ṓ'), ('ṕ', 'ṕ'), ('ṗ', 'ṗ'),
-  ('ṙ', 'ṙ'), ('ṛ', 'ṛ'), ('ṝ', 'ṝ'), ('ṟ', 'ṟ'),
-  ('ṡ', 'ṡ'), ('ṣ', 'ṣ'), ('ṥ', 'ṥ'), ('ṧ', 'ṧ'),
-  ('ṩ', 'ṩ'), ('ṫ', 'ṫ'), ('ṭ', 'ṭ'), ('ṯ', 'ṯ'),
-  ('ṱ', 'ṱ'), ('ṳ', 'ṳ'), ('ṵ', 'ṵ'), ('ṷ', 'ṷ'),
-  ('ṹ', 'ṹ'), ('ṻ', 'ṻ'), ('ṽ', 'ṽ'), ('ṿ', 'ṿ'),
-  ('ẁ', 'ẁ'), ('ẃ', 'ẃ'), ('ẅ', 'ẅ'), ('ẇ', 'ẇ'),
-  ('ẉ', 'ẉ'), ('ẋ', 'ẋ'), ('ẍ', 'ẍ'), ('ẏ', 'ẏ'),
-  ('ẑ', 'ẑ'), ('ẓ', 'ẓ'), ('ẕ', 'ẛ'), ('ạ', 'ạ'),
-  ('ả', 'ả'), ('ấ', 'ấ'), ('ầ', 'ầ'), ('ẩ', 'ẩ'),
-  ('ẫ', 'ẫ'), ('ậ', 'ậ'), ('ắ', 'ắ'), ('ằ', 'ằ'),
-  ('ẳ', 'ẳ'), ('ẵ', 'ẵ'), ('ặ', 'ặ'), ('ẹ', 'ẹ'),
-  ('ẻ', 'ẻ'), ('ẽ', 'ẽ'), ('ế', 'ế'), ('ề', 'ề'),
-  ('ể', 'ể'), ('ễ', 'ễ'), ('ệ', 'ệ'), ('ỉ', 'ỉ'),
-  ('ị', 'ị'), ('ọ', 'ọ'), ('ỏ', 'ỏ'), ('ố', 'ố'),
-  ('ồ', 'ồ'), ('ổ', 'ổ'), ('ỗ', 'ỗ'), ('ộ', 'ộ'),
-  ('ớ', 'ớ'), ('ờ', 'ờ'), ('ở', 'ở'), ('ỡ', 'ỡ'),
-  ('ợ', 'ợ'), ('ụ', 'ụ'), ('ủ', 'ủ'), ('ứ', 'ứ'),
-  ('ừ', 'ừ'), ('ử', 'ử'), ('ữ', 'ữ'), ('ự', 'ự'),
-  ('ỳ', 'ỳ'), ('ỵ', 'ỵ'), ('ỷ', 'ỷ'), ('ỹ', 'ỹ'),
-  ('ỻ', 'ỻ'), ('ỽ', 'ỽ'), ('ỿ', 'ἇ'), ('ἐ', 'ἕ'),
-  ('ἠ', 'ἧ'), ('ἰ', 'ἷ'), ('ὀ', 'ὅ'), ('ὐ', 'ὗ'),
-  ('ὠ', 'ὧ'), ('ὰ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾷ'),
-  ('ᾼ', 'ᾼ'), ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῇ'),
-  ('ῌ', 'ῌ'), ('ῐ', 'ΐ'), ('ῖ', 'ῗ'), ('ῠ', 'ῧ'),
-  ('ῲ', 'ῴ'), ('ῶ', 'ῷ'), ('ῼ', 'ῼ'), ('ⅎ', 'ⅎ'),
-  ('ⅰ', 'ⅿ'), ('ↄ', 'ↄ'), ('ⓐ', 'ⓩ'), ('ⰰ', 'ⱞ'),
-  ('ⱡ', 'ⱡ'), ('ⱥ', 'ⱦ'), ('ⱨ', 'ⱨ'), ('ⱪ', 'ⱪ'),
-  ('ⱬ', 'ⱬ'), ('ⱳ', 'ⱳ'), ('ⱶ', 'ⱶ'), ('ⲁ', 'ⲁ'),
-  ('ⲃ', 'ⲃ'), ('ⲅ', 'ⲅ'), ('ⲇ', 'ⲇ'), ('ⲉ', 'ⲉ'),
-  ('ⲋ', 'ⲋ'), ('ⲍ', 'ⲍ'), ('ⲏ', 'ⲏ'), ('ⲑ', 'ⲑ'),
-  ('ⲓ', 'ⲓ'), ('ⲕ', 'ⲕ'), ('ⲗ', 'ⲗ'), ('ⲙ', 'ⲙ'),
-  ('ⲛ', 'ⲛ'), ('ⲝ', 'ⲝ'), ('ⲟ', 'ⲟ'), ('ⲡ', 'ⲡ'),
-  ('ⲣ', 'ⲣ'), ('ⲥ', 'ⲥ'), ('ⲧ', 'ⲧ'), ('ⲩ', 'ⲩ'),
-  ('ⲫ', 'ⲫ'), ('ⲭ', 'ⲭ'), ('ⲯ', 'ⲯ'), ('ⲱ', 'ⲱ'),
-  ('ⲳ', 'ⲳ'), ('ⲵ', 'ⲵ'), ('ⲷ', 'ⲷ'), ('ⲹ', 'ⲹ'),
-  ('ⲻ', 'ⲻ'), ('ⲽ', 'ⲽ'), ('ⲿ', 'ⲿ'), ('ⳁ', 'ⳁ'),
-  ('ⳃ', 'ⳃ'), ('ⳅ', 'ⳅ'), ('ⳇ', 'ⳇ'), ('ⳉ', 'ⳉ'),
-  ('ⳋ', 'ⳋ'), ('ⳍ', 'ⳍ'), ('ⳏ', 'ⳏ'), ('ⳑ', 'ⳑ'),
-  ('ⳓ', 'ⳓ'), ('ⳕ', 'ⳕ'), ('ⳗ', 'ⳗ'), ('ⳙ', 'ⳙ'),
-  ('ⳛ', 'ⳛ'), ('ⳝ', 'ⳝ'), ('ⳟ', 'ⳟ'), ('ⳡ', 'ⳡ'),
-  ('ⳣ', 'ⳣ'), ('ⳬ', 'ⳬ'), ('ⳮ', 'ⳮ'), ('ⳳ', 'ⳳ'),
-  ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ꙁ', 'ꙁ'),
-  ('ꙃ', 'ꙃ'), ('ꙅ', 'ꙅ'), ('ꙇ', 'ꙇ'), ('ꙉ', 'ꙉ'),
-  ('ꙋ', 'ꙋ'), ('ꙍ', 'ꙍ'), ('ꙏ', 'ꙏ'), ('ꙑ', 'ꙑ'),
-  ('ꙓ', 'ꙓ'), ('ꙕ', 'ꙕ'), ('ꙗ', 'ꙗ'), ('ꙙ', 'ꙙ'),
-  ('ꙛ', 'ꙛ'), ('ꙝ', 'ꙝ'), ('ꙟ', 'ꙟ'), ('ꙡ', 'ꙡ'),
-  ('ꙣ', 'ꙣ'), ('ꙥ', 'ꙥ'), ('ꙧ', 'ꙧ'), ('ꙩ', 'ꙩ'),
-  ('ꙫ', 'ꙫ'), ('ꙭ', 'ꙭ'), ('ꚁ', 'ꚁ'), ('ꚃ', 'ꚃ'),
-  ('ꚅ', 'ꚅ'), ('ꚇ', 'ꚇ'), ('ꚉ', 'ꚉ'), ('ꚋ', 'ꚋ'),
-  ('ꚍ', 'ꚍ'), ('ꚏ', 'ꚏ'), ('ꚑ', 'ꚑ'), ('ꚓ', 'ꚓ'),
-  ('ꚕ', 'ꚕ'), ('ꚗ', 'ꚗ'), ('ꚙ', 'ꚙ'), ('ꚛ', 'ꚛ'),
-  ('ꜣ', 'ꜣ'), ('ꜥ', 'ꜥ'), ('ꜧ', 'ꜧ'), ('ꜩ', 'ꜩ'),
-  ('ꜫ', 'ꜫ'), ('ꜭ', 'ꜭ'), ('ꜯ', 'ꜯ'), ('ꜳ', 'ꜳ'),
-  ('ꜵ', 'ꜵ'), ('ꜷ', 'ꜷ'), ('ꜹ', 'ꜹ'), ('ꜻ', 'ꜻ'),
-  ('ꜽ', 'ꜽ'), ('ꜿ', 'ꜿ'), ('ꝁ', 'ꝁ'), ('ꝃ', 'ꝃ'),
-  ('ꝅ', 'ꝅ'), ('ꝇ', 'ꝇ'), ('ꝉ', 'ꝉ'), ('ꝋ', 'ꝋ'),
-  ('ꝍ', 'ꝍ'), ('ꝏ', 'ꝏ'), ('ꝑ', 'ꝑ'), ('ꝓ', 'ꝓ'),
-  ('ꝕ', 'ꝕ'), ('ꝗ', 'ꝗ'), ('ꝙ', 'ꝙ'), ('ꝛ', 'ꝛ'),
-  ('ꝝ', 'ꝝ'), ('ꝟ', 'ꝟ'), ('ꝡ', 'ꝡ'), ('ꝣ', 'ꝣ'),
-  ('ꝥ', 'ꝥ'), ('ꝧ', 'ꝧ'), ('ꝩ', 'ꝩ'), ('ꝫ', 'ꝫ'),
-  ('ꝭ', 'ꝭ'), ('ꝯ', 'ꝯ'), ('ꝺ', 'ꝺ'), ('ꝼ', 'ꝼ'),
-  ('ꝿ', 'ꝿ'), ('ꞁ', 'ꞁ'), ('ꞃ', 'ꞃ'), ('ꞅ', 'ꞅ'),
-  ('ꞇ', 'ꞇ'), ('ꞌ', 'ꞌ'), ('ꞑ', 'ꞑ'), ('ꞓ', 'ꞔ'),
-  ('ꞗ', 'ꞗ'), ('ꞙ', 'ꞙ'), ('ꞛ', 'ꞛ'), ('ꞝ', 'ꞝ'),
-  ('ꞟ', 'ꞟ'), ('ꞡ', 'ꞡ'), ('ꞣ', 'ꞣ'), ('ꞥ', 'ꞥ'),
-  ('ꞧ', 'ꞧ'), ('ꞩ', 'ꞩ'), ('ꞵ', 'ꞵ'), ('ꞷ', 'ꞷ'),
-  ('ꞹ', 'ꞹ'), ('\u{a7bb}', '\u{a7bb}'), ('\u{a7bd}', '\u{a7bd}'),
-  ('\u{a7bf}', '\u{a7bf}'), ('\u{a7c3}', '\u{a7c3}'), ('ꭓ', 'ꭓ'),
-  ('ꭰ', 'ꮿ'), ('ff', 'st'), ('ﬓ', 'ﬗ'), ('a', 'z'),
-  ('𐐨', '𐑏'), ('𐓘', '𐓻'), ('𐳀', '𐳲'), ('𑣀', '𑣟'),
-  ('𖹠', '𖹿'), ('𞤢', '𞥃'),
-];
-
-pub const DASH: &'static [(char, char)] = &[
-  ('-', '-'), ('֊', '֊'), ('־', '־'), ('᐀', '᐀'), ('᠆', '᠆'),
-  ('‐', '―'), ('⁓', '⁓'), ('⁻', '⁻'), ('₋', '₋'),
-  ('−', '−'), ('⸗', '⸗'), ('⸚', '⸚'), ('⸺', '⸻'),
-  ('⹀', '⹀'), ('〜', '〜'), ('〰', '〰'), ('゠', '゠'),
-  ('︱', '︲'), ('﹘', '﹘'), ('﹣', '﹣'), ('-', '-'),
-];
-
-pub const DEFAULT_IGNORABLE_CODE_POINT: &'static [(char, char)] = &[
-  ('\u{ad}', '\u{ad}'), ('\u{34f}', '\u{34f}'), ('\u{61c}', '\u{61c}'),
-  ('ᅟ', 'ᅠ'), ('\u{17b4}', '\u{17b5}'), ('\u{180b}', '\u{180e}'),
-  ('\u{200b}', '\u{200f}'), ('\u{202a}', '\u{202e}'),
-  ('\u{2060}', '\u{206f}'), ('ㅤ', 'ㅤ'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{feff}', '\u{feff}'), ('ᅠ', 'ᅠ'), ('\u{fff0}', '\u{fff8}'),
-  ('\u{1bca0}', '\u{1bca3}'), ('\u{1d173}', '\u{1d17a}'),
-  ('\u{e0000}', '\u{e0fff}'),
-];
-
-pub const DEPRECATED: &'static [(char, char)] = &[
-  ('ʼn', 'ʼn'), ('ٳ', 'ٳ'), ('\u{f77}', '\u{f77}'), ('\u{f79}', '\u{f79}'),
-  ('ឣ', 'ឤ'), ('\u{206a}', '\u{206f}'), ('〈', '〉'),
-  ('\u{e0001}', '\u{e0001}'),
-];
-
-pub const DIACRITIC: &'static [(char, char)] = &[
-  ('^', '^'), ('`', '`'), ('¨', '¨'), ('¯', '¯'), ('´', '´'),
-  ('·', '¸'), ('ʰ', '\u{34e}'), ('\u{350}', '\u{357}'),
-  ('\u{35d}', '\u{362}'), ('ʹ', '͵'), ('ͺ', 'ͺ'), ('΄', '΅'),
-  ('\u{483}', '\u{487}'), ('ՙ', 'ՙ'), ('\u{591}', '\u{5a1}'),
-  ('\u{5a3}', '\u{5bd}'), ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'),
-  ('\u{5c4}', '\u{5c4}'), ('\u{64b}', '\u{652}'), ('\u{657}', '\u{658}'),
-  ('\u{6df}', '\u{6e0}'), ('ۥ', 'ۦ'), ('\u{6ea}', '\u{6ec}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', 'ߵ'),
-  ('\u{818}', '\u{819}'), ('\u{8e3}', '\u{8fe}'), ('\u{93c}', '\u{93c}'),
-  ('\u{94d}', '\u{94d}'), ('\u{951}', '\u{954}'), ('ॱ', 'ॱ'),
-  ('\u{9bc}', '\u{9bc}'), ('\u{9cd}', '\u{9cd}'), ('\u{a3c}', '\u{a3c}'),
-  ('\u{a4d}', '\u{a4d}'), ('\u{abc}', '\u{abc}'), ('\u{acd}', '\u{acd}'),
-  ('\u{afd}', '\u{aff}'), ('\u{b3c}', '\u{b3c}'), ('\u{b4d}', '\u{b4d}'),
-  ('\u{bcd}', '\u{bcd}'), ('\u{c4d}', '\u{c4d}'), ('\u{cbc}', '\u{cbc}'),
-  ('\u{ccd}', '\u{ccd}'), ('\u{d3b}', '\u{d3c}'), ('\u{d4d}', '\u{d4d}'),
-  ('\u{dca}', '\u{dca}'), ('\u{e47}', '\u{e4c}'), ('\u{e4e}', '\u{e4e}'),
-  ('\u{eba}', '\u{eba}'), ('\u{ec8}', '\u{ecc}'), ('\u{f18}', '\u{f19}'),
-  ('\u{f35}', '\u{f35}'), ('\u{f37}', '\u{f37}'), ('\u{f39}', '\u{f39}'),
-  ('༾', '༿'), ('\u{f82}', '\u{f84}'), ('\u{f86}', '\u{f87}'),
-  ('\u{fc6}', '\u{fc6}'), ('\u{1037}', '\u{1037}'), ('\u{1039}', '\u{103a}'),
-  ('ၣ', 'ၤ'), ('ၩ', 'ၭ'), ('ႇ', '\u{108d}'), ('ႏ', 'ႏ'),
-  ('ႚ', 'ႛ'), ('\u{135d}', '\u{135f}'), ('\u{17c9}', '\u{17d3}'),
-  ('\u{17dd}', '\u{17dd}'), ('\u{1939}', '\u{193b}'),
-  ('\u{1a75}', '\u{1a7c}'), ('\u{1a7f}', '\u{1a7f}'),
-  ('\u{1ab0}', '\u{1abd}'), ('\u{1b34}', '\u{1b34}'), ('᭄', '᭄'),
-  ('\u{1b6b}', '\u{1b73}'), ('᮪', '\u{1bab}'), ('\u{1c36}', '\u{1c37}'),
-  ('ᱸ', 'ᱽ'), ('\u{1cd0}', '\u{1ce8}'), ('\u{1ced}', '\u{1ced}'),
-  ('\u{1cf4}', '\u{1cf4}'), ('᳷', '\u{1cf9}'), ('ᴬ', 'ᵪ'),
-  ('\u{1dc4}', '\u{1dcf}'), ('\u{1df5}', '\u{1df9}'),
-  ('\u{1dfd}', '\u{1dff}'), ('᾽', '᾽'), ('᾿', '῁'), ('῍', '῏'),
-  ('῝', '῟'), ('῭', '`'), ('´', '῾'), ('\u{2cef}', '\u{2cf1}'),
-  ('ⸯ', 'ⸯ'), ('\u{302a}', '\u{302f}'), ('\u{3099}', '゜'),
-  ('ー', 'ー'), ('\u{a66f}', '\u{a66f}'), ('\u{a67c}', '\u{a67d}'),
-  ('ꙿ', 'ꙿ'), ('ꚜ', 'ꚝ'), ('\u{a6f0}', '\u{a6f1}'), ('꜀', '꜡'),
-  ('ꞈ', '꞊'), ('ꟸ', 'ꟹ'), ('\u{a8c4}', '\u{a8c4}'),
-  ('\u{a8e0}', '\u{a8f1}'), ('\u{a92b}', '꤮'), ('꥓', '꥓'),
-  ('\u{a9b3}', '\u{a9b3}'), ('꧀', '꧀'), ('\u{a9e5}', '\u{a9e5}'),
-  ('ꩻ', 'ꩽ'), ('\u{aabf}', 'ꫂ'), ('\u{aaf6}', '\u{aaf6}'),
-  ('꭛', 'ꭟ'), ('꯬', '\u{abed}'), ('\u{fb1e}', '\u{fb1e}'),
-  ('\u{fe20}', '\u{fe2f}'), ('^', '^'), ('`', '`'), ('ー', 'ー'),
-  ('\u{ff9e}', '\u{ff9f}'), (' ̄', ' ̄'), ('\u{102e0}', '\u{102e0}'),
-  ('\u{10ae5}', '\u{10ae6}'), ('𐴢', '\u{10d27}'),
-  ('\u{10f46}', '\u{10f50}'), ('\u{110b9}', '\u{110ba}'),
-  ('\u{11133}', '\u{11134}'), ('\u{11173}', '\u{11173}'), ('𑇀', '𑇀'),
-  ('\u{111ca}', '\u{111cc}'), ('𑈵', '\u{11236}'),
-  ('\u{112e9}', '\u{112ea}'), ('\u{1133c}', '\u{1133c}'), ('𑍍', '𑍍'),
-  ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('\u{11442}', '\u{11442}'), ('\u{11446}', '\u{11446}'),
-  ('\u{114c2}', '\u{114c3}'), ('\u{115bf}', '\u{115c0}'),
-  ('\u{1163f}', '\u{1163f}'), ('𑚶', '\u{116b7}'),
-  ('\u{1172b}', '\u{1172b}'), ('\u{11839}', '\u{1183a}'),
-  ('\u{119e0}', '\u{119e0}'), ('\u{11a34}', '\u{11a34}'),
-  ('\u{11a47}', '\u{11a47}'), ('\u{11a99}', '\u{11a99}'),
-  ('\u{11c3f}', '\u{11c3f}'), ('\u{11d42}', '\u{11d42}'),
-  ('\u{11d44}', '\u{11d45}'), ('\u{11d97}', '\u{11d97}'),
-  ('\u{16af0}', '\u{16af4}'), ('\u{16b30}', '\u{16b36}'),
-  ('\u{16f8f}', '𖾟'), ('\u{1d167}', '\u{1d169}'), ('𝅭', '\u{1d172}'),
-  ('\u{1d17b}', '\u{1d182}'), ('\u{1d185}', '\u{1d18b}'),
-  ('\u{1d1aa}', '\u{1d1ad}'), ('\u{1e130}', '\u{1e136}'),
-  ('\u{1e2ec}', '\u{1e2ef}'), ('\u{1e8d0}', '\u{1e8d6}'),
-  ('\u{1e944}', '\u{1e946}'), ('\u{1e948}', '\u{1e94a}'),
-];
-
-pub const EMOJI: &'static [(char, char)] = &[
-  ('#', '#'), ('*', '*'), ('0', '9'), ('©', '©'), ('®', '®'),
-  ('‼', '‼'), ('⁉', '⁉'), ('™', '™'), ('ℹ', 'ℹ'),
-  ('↔', '↙'), ('↩', '↪'), ('⌚', '⌛'), ('⌨', '⌨'),
-  ('⏏', '⏏'), ('⏩', '⏳'), ('⏸', '⏺'), ('Ⓜ', 'Ⓜ'),
-  ('▪', '▫'), ('▶', '▶'), ('◀', '◀'), ('◻', '◾'),
-  ('☀', '☄'), ('☎', '☎'), ('☑', '☑'), ('☔', '☕'),
-  ('☘', '☘'), ('☝', '☝'), ('☠', '☠'), ('☢', '☣'),
-  ('☦', '☦'), ('☪', '☪'), ('☮', '☯'), ('☸', '☺'),
-  ('♀', '♀'), ('♂', '♂'), ('♈', '♓'), ('♟', '♠'),
-  ('♣', '♣'), ('♥', '♦'), ('♨', '♨'), ('♻', '♻'),
-  ('♾', '♿'), ('⚒', '⚗'), ('⚙', '⚙'), ('⚛', '⚜'),
-  ('⚠', '⚡'), ('⚪', '⚫'), ('⚰', '⚱'), ('⚽', '⚾'),
-  ('⛄', '⛅'), ('⛈', '⛈'), ('⛎', '⛏'), ('⛑', '⛑'),
-  ('⛓', '⛔'), ('⛩', '⛪'), ('⛰', '⛵'), ('⛷', '⛺'),
-  ('⛽', '⛽'), ('✂', '✂'), ('✅', '✅'), ('✈', '✍'),
-  ('✏', '✏'), ('✒', '✒'), ('✔', '✔'), ('✖', '✖'),
-  ('✝', '✝'), ('✡', '✡'), ('✨', '✨'), ('✳', '✴'),
-  ('❄', '❄'), ('❇', '❇'), ('❌', '❌'), ('❎', '❎'),
-  ('❓', '❕'), ('❗', '❗'), ('❣', '❤'), ('➕', '➗'),
-  ('➡', '➡'), ('➰', '➰'), ('➿', '➿'), ('⤴', '⤵'),
-  ('⬅', '⬇'), ('⬛', '⬜'), ('⭐', '⭐'), ('⭕', '⭕'),
-  ('〰', '〰'), ('〽', '〽'), ('㊗', '㊗'), ('㊙', '㊙'),
-  ('🀄', '🀄'), ('🃏', '🃏'), ('🅰', '🅱'), ('🅾', '🅿'),
-  ('🆎', '🆎'), ('🆑', '🆚'), ('🇦', '🇿'), ('🈁', '🈂'),
-  ('🈚', '🈚'), ('🈯', '🈯'), ('🈲', '🈺'), ('🉐', '🉑'),
-  ('🌀', '🌡'), ('🌤', '🎓'), ('🎖', '🎗'), ('🎙', '🎛'),
-  ('🎞', '🏰'), ('🏳', '🏵'), ('🏷', '📽'), ('📿', '🔽'),
-  ('🕉', '🕎'), ('🕐', '🕧'), ('🕯', '🕰'), ('🕳', '🕺'),
-  ('🖇', '🖇'), ('🖊', '🖍'), ('🖐', '🖐'), ('🖕', '🖖'),
-  ('🖤', '🖥'), ('🖨', '🖨'), ('🖱', '🖲'), ('🖼', '🖼'),
-  ('🗂', '🗄'), ('🗑', '🗓'), ('🗜', '🗞'), ('🗡', '🗡'),
-  ('🗣', '🗣'), ('🗨', '🗨'), ('🗯', '🗯'), ('🗳', '🗳'),
-  ('🗺', '🙏'), ('🚀', '🛅'), ('🛋', '🛒'),
-  ('\u{1f6d5}', '\u{1f6d5}'), ('🛠', '🛥'), ('🛩', '🛩'),
-  ('🛫', '🛬'), ('🛰', '🛰'), ('🛳', '\u{1f6fa}'),
-  ('\u{1f7e0}', '\u{1f7eb}'), ('\u{1f90d}', '🤺'), ('🤼', '🥅'),
-  ('🥇', '\u{1f971}'), ('🥳', '🥶'), ('🥺', '🦢'),
-  ('\u{1f9a5}', '\u{1f9aa}'), ('\u{1f9ae}', '\u{1f9ca}'),
-  ('\u{1f9cd}', '🧿'), ('\u{1fa70}', '\u{1fa73}'),
-  ('\u{1fa78}', '\u{1fa7a}'), ('\u{1fa80}', '\u{1fa82}'),
-  ('\u{1fa90}', '\u{1fa95}'),
-];
-
-pub const EMOJI_COMPONENT: &'static [(char, char)] = &[
-  ('#', '#'), ('*', '*'), ('0', '9'), ('\u{200d}', '\u{200d}'),
-  ('\u{20e3}', '\u{20e3}'), ('\u{fe0f}', '\u{fe0f}'), ('🇦', '🇿'),
-  ('🏻', '🏿'), ('🦰', '🦳'), ('\u{e0020}', '\u{e007f}'),
-];
-
-pub const EMOJI_MODIFIER: &'static [(char, char)] = &[
-  ('🏻', '🏿'),
-];
-
-pub const EMOJI_MODIFIER_BASE: &'static [(char, char)] = &[
-  ('☝', '☝'), ('⛹', '⛹'), ('✊', '✍'), ('🎅', '🎅'),
-  ('🏂', '🏄'), ('🏇', '🏇'), ('🏊', '🏌'), ('👂', '👃'),
-  ('👆', '👐'), ('👦', '👸'), ('👼', '👼'), ('💁', '💃'),
-  ('💅', '💇'), ('💏', '💏'), ('💑', '💑'), ('💪', '💪'),
-  ('🕴', '🕵'), ('🕺', '🕺'), ('🖐', '🖐'), ('🖕', '🖖'),
-  ('🙅', '🙇'), ('🙋', '🙏'), ('🚣', '🚣'), ('🚴', '🚶'),
-  ('🛀', '🛀'), ('🛌', '🛌'), ('\u{1f90f}', '\u{1f90f}'),
-  ('🤘', '🤟'), ('🤦', '🤦'), ('🤰', '🤹'), ('🤼', '🤾'),
-  ('🦵', '🦶'), ('🦸', '🦹'), ('\u{1f9bb}', '\u{1f9bb}'),
-  ('\u{1f9cd}', '\u{1f9cf}'), ('🧑', '🧝'),
-];
-
-pub const EMOJI_PRESENTATION: &'static [(char, char)] = &[
-  ('⌚', '⌛'), ('⏩', '⏬'), ('⏰', '⏰'), ('⏳', '⏳'),
-  ('◽', '◾'), ('☔', '☕'), ('♈', '♓'), ('♿', '♿'),
-  ('⚓', '⚓'), ('⚡', '⚡'), ('⚪', '⚫'), ('⚽', '⚾'),
-  ('⛄', '⛅'), ('⛎', '⛎'), ('⛔', '⛔'), ('⛪', '⛪'),
-  ('⛲', '⛳'), ('⛵', '⛵'), ('⛺', '⛺'), ('⛽', '⛽'),
-  ('✅', '✅'), ('✊', '✋'), ('✨', '✨'), ('❌', '❌'),
-  ('❎', '❎'), ('❓', '❕'), ('❗', '❗'), ('➕', '➗'),
-  ('➰', '➰'), ('➿', '➿'), ('⬛', '⬜'), ('⭐', '⭐'),
-  ('⭕', '⭕'), ('🀄', '🀄'), ('🃏', '🃏'), ('🆎', '🆎'),
-  ('🆑', '🆚'), ('🇦', '🇿'), ('🈁', '🈁'), ('🈚', '🈚'),
-  ('🈯', '🈯'), ('🈲', '🈶'), ('🈸', '🈺'), ('🉐', '🉑'),
-  ('🌀', '🌠'), ('🌭', '🌵'), ('🌷', '🍼'), ('🍾', '🎓'),
-  ('🎠', '🏊'), ('🏏', '🏓'), ('🏠', '🏰'), ('🏴', '🏴'),
-  ('🏸', '🐾'), ('👀', '👀'), ('👂', '📼'), ('📿', '🔽'),
-  ('🕋', '🕎'), ('🕐', '🕧'), ('🕺', '🕺'), ('🖕', '🖖'),
-  ('🖤', '🖤'), ('🗻', '🙏'), ('🚀', '🛅'), ('🛌', '🛌'),
-  ('🛐', '🛒'), ('\u{1f6d5}', '\u{1f6d5}'), ('🛫', '🛬'),
-  ('🛴', '\u{1f6fa}'), ('\u{1f7e0}', '\u{1f7eb}'), ('\u{1f90d}', '🤺'),
-  ('🤼', '🥅'), ('🥇', '\u{1f971}'), ('🥳', '🥶'), ('🥺', '🦢'),
-  ('\u{1f9a5}', '\u{1f9aa}'), ('\u{1f9ae}', '\u{1f9ca}'),
-  ('\u{1f9cd}', '🧿'), ('\u{1fa70}', '\u{1fa73}'),
-  ('\u{1fa78}', '\u{1fa7a}'), ('\u{1fa80}', '\u{1fa82}'),
-  ('\u{1fa90}', '\u{1fa95}'),
-];
-
-pub const EXTENDED_PICTOGRAPHIC: &'static [(char, char)] = &[
-  ('©', '©'), ('®', '®'), ('‼', '‼'), ('⁉', '⁉'), ('™', '™'),
-  ('ℹ', 'ℹ'), ('↔', '↙'), ('↩', '↪'), ('⌚', '⌛'),
-  ('⌨', '⌨'), ('⎈', '⎈'), ('⏏', '⏏'), ('⏩', '⏳'),
-  ('⏸', '⏺'), ('Ⓜ', 'Ⓜ'), ('▪', '▫'), ('▶', '▶'),
-  ('◀', '◀'), ('◻', '◾'), ('☀', '★'), ('☇', '☒'),
-  ('☔', '⚅'), ('⚐', '✅'), ('✈', '✒'), ('✔', '✔'),
-  ('✖', '✖'), ('✝', '✝'), ('✡', '✡'), ('✨', '✨'),
-  ('✳', '✴'), ('❄', '❄'), ('❇', '❇'), ('❌', '❌'),
-  ('❎', '❎'), ('❓', '❕'), ('❗', '❗'), ('❣', '❧'),
-  ('➕', '➗'), ('➡', '➡'), ('➰', '➰'), ('➿', '➿'),
-  ('⤴', '⤵'), ('⬅', '⬇'), ('⬛', '⬜'), ('⭐', '⭐'),
-  ('⭕', '⭕'), ('〰', '〰'), ('〽', '〽'), ('㊗', '㊗'),
-  ('㊙', '㊙'), ('🀀', '\u{1f0ff}'), ('\u{1f10d}', '\u{1f10f}'),
-  ('🄯', '🄯'), ('\u{1f16c}', '🅱'), ('🅾', '🅿'), ('🆎', '🆎'),
-  ('🆑', '🆚'), ('\u{1f1ad}', '\u{1f1e5}'), ('🈁', '\u{1f20f}'),
-  ('🈚', '🈚'), ('🈯', '🈯'), ('🈲', '🈺'),
-  ('\u{1f23c}', '\u{1f23f}'), ('\u{1f249}', '🏺'), ('🐀', '🔽'),
-  ('🕆', '🙏'), ('🚀', '\u{1f6ff}'), ('\u{1f774}', '\u{1f77f}'),
-  ('🟕', '\u{1f7ff}'), ('\u{1f80c}', '\u{1f80f}'),
-  ('\u{1f848}', '\u{1f84f}'), ('\u{1f85a}', '\u{1f85f}'),
-  ('\u{1f888}', '\u{1f88f}'), ('\u{1f8ae}', '\u{1f8ff}'),
-  ('\u{1f90c}', '🤺'), ('🤼', '🥅'), ('🥇', '\u{1fffd}'),
-];
-
-pub const EXTENDER: &'static [(char, char)] = &[
-  ('·', '·'), ('ː', 'ˑ'), ('ـ', 'ـ'), ('ߺ', 'ߺ'), ('ๆ', 'ๆ'),
-  ('ໆ', 'ໆ'), ('᠊', '᠊'), ('ᡃ', 'ᡃ'), ('ᪧ', 'ᪧ'),
-  ('\u{1c36}', '\u{1c36}'), ('ᱻ', 'ᱻ'), ('々', '々'), ('〱', '〵'),
-  ('ゝ', 'ゞ'), ('ー', 'ヾ'), ('ꀕ', 'ꀕ'), ('ꘌ', 'ꘌ'),
-  ('ꧏ', 'ꧏ'), ('ꧦ', 'ꧦ'), ('ꩰ', 'ꩰ'), ('ꫝ', 'ꫝ'),
-  ('ꫳ', 'ꫴ'), ('ー', 'ー'), ('𑍝', '𑍝'), ('𑗆', '𑗈'),
-  ('\u{11a98}', '\u{11a98}'), ('𖭂', '𖭃'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('\u{1e13c}', '\u{1e13d}'),
-  ('\u{1e944}', '\u{1e946}'),
-];
-
-pub const GRAPHEME_BASE: &'static [(char, char)] = &[
-  (' ', '~'), ('\u{a0}', '¬'), ('®', '˿'), ('Ͱ', 'ͷ'), ('ͺ', 'Ϳ'),
-  ('΄', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', '҂'), ('Ҋ', 'ԯ'),
-  ('Ա', 'Ֆ'), ('ՙ', '֊'), ('֍', '֏'), ('־', '־'), ('׀', '׀'),
-  ('׃', '׃'), ('׆', '׆'), ('א', 'ת'), ('ׯ', '״'), ('؆', '؏'),
-  ('؛', '؛'), ('؞', 'ي'), ('٠', 'ٯ'), ('ٱ', 'ە'), ('۞', '۞'),
-  ('ۥ', 'ۦ'), ('۩', '۩'), ('ۮ', '܍'), ('ܐ', 'ܐ'), ('ܒ', 'ܯ'),
-  ('ݍ', 'ޥ'), ('ޱ', 'ޱ'), ('߀', 'ߪ'), ('ߴ', 'ߺ'), ('߾', 'ࠕ'),
-  ('ࠚ', 'ࠚ'), ('ࠤ', 'ࠤ'), ('ࠨ', 'ࠨ'), ('࠰', '࠾'),
-  ('ࡀ', 'ࡘ'), ('࡞', '࡞'), ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'),
-  ('ࢶ', 'ࢽ'), ('ः', 'ह'), ('ऻ', 'ऻ'), ('ऽ', 'ी'),
-  ('ॉ', 'ौ'), ('ॎ', 'ॐ'), ('क़', 'ॡ'), ('।', 'ঀ'),
-  ('ং', 'ঃ'), ('অ', 'ঌ'), ('এ', 'ঐ'), ('ও', 'ন'),
-  ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'), ('ঽ', 'ঽ'),
-  ('ি', 'ী'), ('ে', 'ৈ'), ('ো', 'ৌ'), ('ৎ', 'ৎ'),
-  ('ড়', 'ঢ়'), ('য়', 'ৡ'), ('০', '৽'), ('ਃ', 'ਃ'),
-  ('ਅ', 'ਊ'), ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'),
-  ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('ਾ', 'ੀ'),
-  ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('੦', '੯'), ('ੲ', 'ੴ'),
-  ('੶', '੶'), ('ઃ', 'ઃ'), ('અ', 'ઍ'), ('એ', 'ઑ'),
-  ('ઓ', 'ન'), ('પ', 'ર'), ('લ', 'ળ'), ('વ', 'હ'),
-  ('ઽ', 'ી'), ('ૉ', 'ૉ'), ('ો', 'ૌ'), ('ૐ', 'ૐ'),
-  ('ૠ', 'ૡ'), ('૦', '૱'), ('ૹ', 'ૹ'), ('ଂ', 'ଃ'),
-  ('ଅ', 'ଌ'), ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'),
-  ('ଲ', 'ଳ'), ('ଵ', 'ହ'), ('ଽ', 'ଽ'), ('ୀ', 'ୀ'),
-  ('େ', 'ୈ'), ('ୋ', 'ୌ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'),
-  ('୦', '୷'), ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('ி', 'ி'),
-  ('ு', 'ூ'), ('ெ', 'ை'), ('ொ', 'ௌ'), ('ௐ', 'ௐ'),
-  ('௦', '௺'), ('ఁ', 'ః'), ('అ', 'ఌ'), ('ఎ', 'ఐ'),
-  ('ఒ', 'న'), ('ప', 'హ'), ('ఽ', 'ఽ'), ('ు', 'ౄ'),
-  ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('౦', '౯'), ('\u{c77}', 'ಀ'),
-  ('ಂ', 'ಌ'), ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'),
-  ('ವ', 'ಹ'), ('ಽ', 'ಾ'), ('ೀ', 'ು'), ('ೃ', 'ೄ'),
-  ('ೇ', 'ೈ'), ('ೊ', 'ೋ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'),
-  ('೦', '೯'), ('ೱ', 'ೲ'), ('ം', 'ഃ'), ('അ', 'ഌ'),
-  ('എ', 'ഐ'), ('ഒ', 'ഺ'), ('ഽ', 'ഽ'), ('ി', 'ീ'),
-  ('െ', 'ൈ'), ('ൊ', 'ൌ'), ('ൎ', '൏'), ('ൔ', 'ൖ'),
-  ('൘', 'ൡ'), ('൦', 'ൿ'), ('ං', 'ඃ'), ('අ', 'ඖ'),
-  ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'), ('ව', 'ෆ'),
-  ('ැ', 'ෑ'), ('ෘ', 'ෞ'), ('෦', '෯'), ('ෲ', '෴'),
-  ('ก', 'ะ'), ('า', 'ำ'), ('฿', 'ๆ'), ('๏', '๛'),
-  ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'),
-  ('ລ', 'ລ'), ('ວ', 'ະ'), ('າ', 'ຳ'), ('ຽ', 'ຽ'),
-  ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('໐', '໙'), ('ໜ', 'ໟ'),
-  ('ༀ', '༗'), ('༚', '༴'), ('༶', '༶'), ('༸', '༸'),
-  ('༺', 'ཇ'), ('ཉ', 'ཬ'), ('ཿ', 'ཿ'), ('྅', '྅'),
-  ('ྈ', 'ྌ'), ('྾', '࿅'), ('࿇', '࿌'), ('࿎', '࿚'),
-  ('က', 'ာ'), ('ေ', 'ေ'), ('း', 'း'), ('ျ', 'ြ'),
-  ('ဿ', 'ၗ'), ('ၚ', 'ၝ'), ('ၡ', 'ၰ'), ('ၵ', 'ႁ'),
-  ('ႃ', 'ႄ'), ('ႇ', 'ႌ'), ('ႎ', 'ႜ'), ('႞', 'Ⴥ'),
-  ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'), ('ა', 'ቈ'), ('ቊ', 'ቍ'),
-  ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'),
-  ('ኊ', 'ኍ'), ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'),
-  ('ዀ', 'ዀ'), ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'),
-  ('ጒ', 'ጕ'), ('ጘ', 'ፚ'), ('፠', '፼'), ('ᎀ', '᎙'),
-  ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'), ('᐀', '᚜'), ('ᚠ', 'ᛸ'),
-  ('ᜀ', 'ᜌ'), ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'), ('᜵', '᜶'),
-  ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('ក', 'ឳ'),
-  ('ា', 'ា'), ('ើ', 'ៅ'), ('ះ', 'ៈ'), ('។', 'ៜ'),
-  ('០', '៩'), ('៰', '៹'), ('᠀', '᠊'), ('᠐', '᠙'),
-  ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢄ'), ('ᢇ', 'ᢨ'), ('ᢪ', 'ᢪ'),
-  ('ᢰ', 'ᣵ'), ('ᤀ', 'ᤞ'), ('ᤣ', 'ᤦ'), ('ᤩ', 'ᤫ'),
-  ('ᤰ', 'ᤱ'), ('ᤳ', 'ᤸ'), ('᥀', '᥀'), ('᥄', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('᧐', '᧚'),
-  ('᧞', 'ᨖ'), ('ᨙ', 'ᨚ'), ('᨞', 'ᩕ'), ('ᩗ', 'ᩗ'),
-  ('ᩡ', 'ᩡ'), ('ᩣ', 'ᩤ'), ('ᩭ', 'ᩲ'), ('᪀', '᪉'),
-  ('᪐', '᪙'), ('᪠', '᪭'), ('ᬄ', 'ᬳ'), ('ᬻ', 'ᬻ'),
-  ('ᬽ', 'ᭁ'), ('ᭃ', 'ᭋ'), ('᭐', '᭪'), ('᭴', '᭼'),
-  ('ᮂ', 'ᮡ'), ('ᮦ', 'ᮧ'), ('᮪', '᮪'), ('ᮮ', 'ᯥ'),
-  ('ᯧ', 'ᯧ'), ('ᯪ', 'ᯬ'), ('ᯮ', 'ᯮ'), ('᯲', '᯳'),
-  ('᯼', 'ᰫ'), ('ᰴ', 'ᰵ'), ('᰻', '᱉'), ('ᱍ', 'ᲈ'),
-  ('Ა', 'Ჺ'), ('Ჽ', '᳇'), ('᳓', '᳓'), ('᳡', '᳡'),
-  ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'), ('ᳵ', '᳷'), ('\u{1cfa}', '\u{1cfa}'),
-  ('ᴀ', 'ᶿ'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ῄ'),
-  ('ῆ', 'ΐ'), ('ῖ', 'Ί'), ('῝', '`'), ('ῲ', 'ῴ'),
-  ('ῶ', '῾'), ('\u{2000}', '\u{200a}'), ('‐', '‧'),
-  ('\u{202f}', '\u{205f}'), ('⁰', 'ⁱ'), ('⁴', '₎'), ('ₐ', 'ₜ'),
-  ('₠', '₿'), ('℀', '↋'), ('←', '␦'), ('⑀', '⑊'),
-  ('①', '⭳'), ('⭶', '⮕'), ('⮘', 'Ⱞ'), ('ⰰ', 'ⱞ'),
-  ('Ⱡ', 'ⳮ'), ('Ⳳ', 'ⳳ'), ('⳹', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', '⵰'), ('ⶀ', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('⸀', '\u{2e4f}'), ('⺀', '⺙'), ('⺛', '⻳'), ('⼀', '⿕'),
-  ('⿰', '⿻'), ('\u{3000}', '〩'), ('〰', '〿'), ('ぁ', 'ゖ'),
-  ('゛', 'ヿ'), ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'), ('㆐', 'ㆺ'),
-  ('㇀', '㇣'), ('ㇰ', '㈞'), ('㈠', '䶵'), ('䷀', '鿯'),
-  ('ꀀ', 'ꒌ'), ('꒐', '꓆'), ('ꓐ', 'ꘫ'), ('Ꙁ', 'ꙮ'),
-  ('꙳', '꙳'), ('꙾', 'ꚝ'), ('ꚠ', 'ꛯ'), ('꛲', '꛷'),
-  ('꜀', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠁ'),
-  ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'), ('ꠌ', 'ꠤ'), ('ꠧ', '꠫'),
-  ('꠰', '꠹'), ('ꡀ', '꡷'), ('ꢀ', 'ꣃ'), ('꣎', '꣙'),
-  ('ꣲ', 'ꣾ'), ('꤀', 'ꤥ'), ('꤮', 'ꥆ'), ('ꥒ', '꥓'),
-  ('꥟', 'ꥼ'), ('ꦃ', 'ꦲ'), ('ꦴ', 'ꦵ'), ('ꦺ', 'ꦻ'),
-  ('ꦾ', '꧍'), ('ꧏ', '꧙'), ('꧞', 'ꧤ'), ('ꧦ', 'ꧾ'),
-  ('ꨀ', 'ꨨ'), ('ꨯ', 'ꨰ'), ('ꨳ', 'ꨴ'), ('ꩀ', 'ꩂ'),
-  ('ꩄ', 'ꩋ'), ('ꩍ', 'ꩍ'), ('꩐', '꩙'), ('꩜', 'ꩻ'),
-  ('ꩽ', 'ꪯ'), ('ꪱ', 'ꪱ'), ('ꪵ', 'ꪶ'), ('ꪹ', 'ꪽ'),
-  ('ꫀ', 'ꫀ'), ('ꫂ', 'ꫂ'), ('ꫛ', 'ꫫ'), ('ꫮ', 'ꫵ'),
-  ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'), ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'),
-  ('ꬨ', 'ꬮ'), ('ꬰ', '\u{ab67}'), ('ꭰ', 'ꯤ'), ('ꯦ', 'ꯧ'),
-  ('ꯩ', '꯬'), ('꯰', '꯹'), ('가', '힣'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('豈', '舘'), ('並', '龎'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('יִ', 'יִ'), ('ײַ', 'זּ'), ('טּ', 'לּ'),
-  ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'), ('צּ', '﯁'),
-  ('ﯓ', '﴿'), ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'), ('ﷰ', '﷽'),
-  ('︐', '︙'), ('︰', '﹒'), ('﹔', '﹦'), ('﹨', '﹫'),
-  ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'), ('!', 'ン'), ('ᅠ', 'ᄒ'),
-  ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'),
-  ('¢', '₩'), ('│', '○'), ('', '�'), ('𐀀', '𐀋'),
-  ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'),
-  ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐄀', '𐄂'), ('𐄇', '𐄳'),
-  ('𐄷', '𐆎'), ('𐆐', '𐆛'), ('𐆠', '𐆠'), ('𐇐', '𐇼'),
-  ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('𐋡', '𐋻'), ('𐌀', '𐌣'),
-  ('𐌭', '𐍊'), ('𐍐', '𐍵'), ('𐎀', '𐎝'), ('𐎟', '𐏃'),
-  ('𐏈', '𐏕'), ('𐐀', '𐒝'), ('𐒠', '𐒩'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐕯', '𐕯'),
-  ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐠀', '𐠅'),
-  ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'),
-  ('𐠿', '𐡕'), ('𐡗', '𐢞'), ('𐢧', '𐢯'), ('𐣠', '𐣲'),
-  ('𐣴', '𐣵'), ('𐣻', '𐤛'), ('𐤟', '𐤹'), ('𐤿', '𐤿'),
-  ('𐦀', '𐦷'), ('𐦼', '𐧏'), ('𐧒', '𐨀'), ('𐨐', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('𐩀', '𐩈'), ('𐩐', '𐩘'),
-  ('𐩠', '𐪟'), ('𐫀', '𐫤'), ('𐫫', '𐫶'), ('𐬀', '𐬵'),
-  ('𐬹', '𐭕'), ('𐭘', '𐭲'), ('𐭸', '𐮑'), ('𐮙', '𐮜'),
-  ('𐮩', '𐮯'), ('𐰀', '𐱈'), ('𐲀', '𐲲'), ('𐳀', '𐳲'),
-  ('𐳺', '𐴣'), ('𐴰', '𐴹'), ('𐹠', '𐹾'), ('𐼀', '𐼧'),
-  ('𐼰', '𐽅'), ('𐽑', '𐽙'), ('\u{10fe0}', '\u{10ff6}'),
-  ('𑀀', '𑀀'), ('𑀂', '𑀷'), ('𑁇', '𑁍'), ('𑁒', '𑁯'),
-  ('𑂂', '𑂲'), ('𑂷', '𑂸'), ('𑂻', '𑂼'), ('𑂾', '𑃁'),
-  ('𑃐', '𑃨'), ('𑃰', '𑃹'), ('𑄃', '𑄦'), ('𑄬', '𑄬'),
-  ('𑄶', '𑅆'), ('𑅐', '𑅲'), ('𑅴', '𑅶'), ('𑆂', '𑆵'),
-  ('𑆿', '𑇈'), ('𑇍', '𑇍'), ('𑇐', '𑇟'), ('𑇡', '𑇴'),
-  ('𑈀', '𑈑'), ('𑈓', '𑈮'), ('𑈲', '𑈳'), ('𑈵', '𑈵'),
-  ('𑈸', '𑈽'), ('𑊀', '𑊆'), ('𑊈', '𑊈'), ('𑊊', '𑊍'),
-  ('𑊏', '𑊝'), ('𑊟', '𑊩'), ('𑊰', '𑋞'), ('𑋠', '𑋢'),
-  ('𑋰', '𑋹'), ('𑌂', '𑌃'), ('𑌅', '𑌌'), ('𑌏', '𑌐'),
-  ('𑌓', '𑌨'), ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'),
-  ('𑌽', '𑌽'), ('𑌿', '𑌿'), ('𑍁', '𑍄'), ('𑍇', '𑍈'),
-  ('𑍋', '𑍍'), ('𑍐', '𑍐'), ('𑍝', '𑍣'), ('𑐀', '𑐷'),
-  ('𑑀', '𑑁'), ('𑑅', '𑑅'), ('𑑇', '𑑙'), ('𑑛', '𑑛'),
-  ('𑑝', '𑑝'), ('\u{1145f}', '\u{1145f}'), ('𑒀', '𑒯'),
-  ('𑒱', '𑒲'), ('𑒹', '𑒹'), ('𑒻', '𑒼'), ('𑒾', '𑒾'),
-  ('𑓁', '𑓁'), ('𑓄', '𑓇'), ('𑓐', '𑓙'), ('𑖀', '𑖮'),
-  ('𑖰', '𑖱'), ('𑖸', '𑖻'), ('𑖾', '𑖾'), ('𑗁', '𑗛'),
-  ('𑘀', '𑘲'), ('𑘻', '𑘼'), ('𑘾', '𑘾'), ('𑙁', '𑙄'),
-  ('𑙐', '𑙙'), ('𑙠', '𑙬'), ('𑚀', '𑚪'), ('𑚬', '𑚬'),
-  ('𑚮', '𑚯'), ('𑚶', '𑚶'), ('\u{116b8}', '\u{116b8}'),
-  ('𑛀', '𑛉'), ('𑜀', '𑜚'), ('𑜠', '𑜡'), ('𑜦', '𑜦'),
-  ('𑜰', '𑜿'), ('𑠀', '𑠮'), ('𑠸', '𑠸'), ('𑠻', '𑠻'),
-  ('𑢠', '𑣲'), ('𑣿', '𑣿'), ('\u{119a0}', '\u{119a7}'),
-  ('\u{119aa}', '\u{119d3}'), ('\u{119dc}', '\u{119df}'),
-  ('\u{119e1}', '\u{119e4}'), ('𑨀', '𑨀'), ('𑨋', '𑨲'),
-  ('𑨹', '𑨺'), ('𑨿', '𑩆'), ('𑩐', '𑩐'), ('𑩗', '𑩘'),
-  ('𑩜', '𑪉'), ('𑪗', '𑪗'), ('𑪚', '𑪢'), ('𑫀', '𑫸'),
-  ('𑰀', '𑰈'), ('𑰊', '𑰯'), ('𑰾', '𑰾'), ('𑱀', '𑱅'),
-  ('𑱐', '𑱬'), ('𑱰', '𑲏'), ('𑲩', '𑲩'), ('𑲱', '𑲱'),
-  ('𑲴', '𑲴'), ('𑴀', '𑴆'), ('𑴈', '𑴉'), ('𑴋', '𑴰'),
-  ('𑵆', '𑵆'), ('𑵐', '𑵙'), ('𑵠', '𑵥'), ('𑵧', '𑵨'),
-  ('𑵪', '𑶎'), ('𑶓', '𑶔'), ('𑶖', '𑶖'), ('𑶘', '𑶘'),
-  ('𑶠', '𑶩'), ('𑻠', '𑻲'), ('𑻵', '𑻸'),
-  ('\u{11fc0}', '\u{11ff1}'), ('\u{11fff}', '𒎙'), ('𒐀', '𒑮'),
-  ('𒑰', '𒑴'), ('𒒀', '𒕃'), ('𓀀', '𓐮'), ('𔐀', '𔙆'),
-  ('𖠀', '𖨸'), ('𖩀', '𖩞'), ('𖩠', '𖩩'), ('𖩮', '𖩯'),
-  ('𖫐', '𖫭'), ('𖫵', '𖫵'), ('𖬀', '𖬯'), ('𖬷', '𖭅'),
-  ('𖭐', '𖭙'), ('𖭛', '𖭡'), ('𖭣', '𖭷'), ('𖭽', '𖮏'),
-  ('𖹀', '𖺚'), ('𖼀', '\u{16f4a}'), ('𖽐', '\u{16f87}'),
-  ('𖾓', '𖾟'), ('𖿠', '\u{16fe3}'), ('𗀀', '\u{187f7}'),
-  ('𘠀', '𘫲'), ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'),
-  ('\u{1b164}', '\u{1b167}'), ('𛅰', '𛋻'), ('𛰀', '𛱪'),
-  ('𛱰', '𛱼'), ('𛲀', '𛲈'), ('𛲐', '𛲙'), ('𛲜', '𛲜'),
-  ('𛲟', '𛲟'), ('𝀀', '𝃵'), ('𝄀', '𝄦'), ('𝄩', '𝅘𝅥𝅲'),
-  ('𝅦', '𝅦'), ('𝅪', '𝅭'), ('𝆃', '𝆄'), ('𝆌', '𝆩'),
-  ('𝆮', '𝇨'), ('𝈀', '𝉁'), ('𝉅', '𝉅'), ('𝋠', '𝋳'),
-  ('𝌀', '𝍖'), ('𝍠', '𝍸'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝟋'), ('𝟎', '𝧿'), ('𝨷', '𝨺'),
-  ('𝩭', '𝩴'), ('𝩶', '𝪃'), ('𝪅', '𝪋'),
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e137}', '\u{1e13d}'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e14e}', '\u{1e14f}'),
-  ('\u{1e2c0}', '\u{1e2eb}'), ('\u{1e2f0}', '\u{1e2f9}'),
-  ('\u{1e2ff}', '\u{1e2ff}'), ('𞠀', '𞣄'), ('𞣇', '𞣏'),
-  ('𞤀', '𞥃'), ('\u{1e94b}', '\u{1e94b}'), ('𞥐', '𞥙'),
-  ('𞥞', '𞥟'), ('𞱱', '𞲴'), ('\u{1ed01}', '\u{1ed3d}'),
-  ('𞸀', '𞸃'), ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'),
-  ('𞸧', '𞸧'), ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'),
-  ('𞸻', '𞸻'), ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'),
-  ('𞹋', '𞹋'), ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'),
-  ('𞹗', '𞹗'), ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'),
-  ('𞹟', '𞹟'), ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'),
-  ('𞹬', '𞹲'), ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'),
-  ('𞺀', '𞺉'), ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'),
-  ('𞺫', '𞺻'), ('𞻰', '𞻱'), ('🀀', '🀫'), ('🀰', '🂓'),
-  ('🂠', '🂮'), ('🂱', '🂿'), ('🃁', '🃏'), ('🃑', '🃵'),
-  ('🄀', '🄌'), ('🄐', '\u{1f16c}'), ('🅰', '🆬'), ('🇦', '🈂'),
-  ('🈐', '🈻'), ('🉀', '🉈'), ('🉐', '🉑'), ('🉠', '🉥'),
-  ('🌀', '\u{1f6d5}'), ('🛠', '🛬'), ('🛰', '\u{1f6fa}'),
-  ('🜀', '🝳'), ('🞀', '🟘'), ('\u{1f7e0}', '\u{1f7eb}'),
-  ('🠀', '🠋'), ('🠐', '🡇'), ('🡐', '🡙'), ('🡠', '🢇'),
-  ('🢐', '🢭'), ('🤀', '🤋'), ('\u{1f90d}', '\u{1f971}'),
-  ('🥳', '🥶'), ('🥺', '🦢'), ('\u{1f9a5}', '\u{1f9aa}'),
-  ('\u{1f9ae}', '\u{1f9ca}'), ('\u{1f9cd}', '\u{1fa53}'), ('🩠', '🩭'),
-  ('\u{1fa70}', '\u{1fa73}'), ('\u{1fa78}', '\u{1fa7a}'),
-  ('\u{1fa80}', '\u{1fa82}'), ('\u{1fa90}', '\u{1fa95}'), ('𠀀', '𪛖'),
-  ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-  ('丽', '𪘀'),
-];
-
-pub const GRAPHEME_EXTEND: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{483}', '\u{489}'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6df}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', '\u{7f3}'),
-  ('\u{7fd}', '\u{7fd}'), ('\u{816}', '\u{819}'), ('\u{81b}', '\u{823}'),
-  ('\u{825}', '\u{827}'), ('\u{829}', '\u{82d}'), ('\u{859}', '\u{85b}'),
-  ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', '\u{902}'), ('\u{93a}', '\u{93a}'),
-  ('\u{93c}', '\u{93c}'), ('\u{941}', '\u{948}'), ('\u{94d}', '\u{94d}'),
-  ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'), ('\u{981}', '\u{981}'),
-  ('\u{9bc}', '\u{9bc}'), ('\u{9be}', '\u{9be}'), ('\u{9c1}', '\u{9c4}'),
-  ('\u{9cd}', '\u{9cd}'), ('\u{9d7}', '\u{9d7}'), ('\u{9e2}', '\u{9e3}'),
-  ('\u{9fe}', '\u{9fe}'), ('\u{a01}', '\u{a02}'), ('\u{a3c}', '\u{a3c}'),
-  ('\u{a41}', '\u{a42}'), ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'),
-  ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'), ('\u{a75}', '\u{a75}'),
-  ('\u{a81}', '\u{a82}'), ('\u{abc}', '\u{abc}'), ('\u{ac1}', '\u{ac5}'),
-  ('\u{ac7}', '\u{ac8}'), ('\u{acd}', '\u{acd}'), ('\u{ae2}', '\u{ae3}'),
-  ('\u{afa}', '\u{aff}'), ('\u{b01}', '\u{b01}'), ('\u{b3c}', '\u{b3c}'),
-  ('\u{b3e}', '\u{b3f}'), ('\u{b41}', '\u{b44}'), ('\u{b4d}', '\u{b4d}'),
-  ('\u{b56}', '\u{b57}'), ('\u{b62}', '\u{b63}'), ('\u{b82}', '\u{b82}'),
-  ('\u{bbe}', '\u{bbe}'), ('\u{bc0}', '\u{bc0}'), ('\u{bcd}', '\u{bcd}'),
-  ('\u{bd7}', '\u{bd7}'), ('\u{c00}', '\u{c00}'), ('\u{c04}', '\u{c04}'),
-  ('\u{c3e}', '\u{c40}'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'), ('\u{c81}', '\u{c81}'),
-  ('\u{cbc}', '\u{cbc}'), ('\u{cbf}', '\u{cbf}'), ('\u{cc2}', '\u{cc2}'),
-  ('\u{cc6}', '\u{cc6}'), ('\u{ccc}', '\u{ccd}'), ('\u{cd5}', '\u{cd6}'),
-  ('\u{ce2}', '\u{ce3}'), ('\u{d00}', '\u{d01}'), ('\u{d3b}', '\u{d3c}'),
-  ('\u{d3e}', '\u{d3e}'), ('\u{d41}', '\u{d44}'), ('\u{d4d}', '\u{d4d}'),
-  ('\u{d57}', '\u{d57}'), ('\u{d62}', '\u{d63}'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dcf}'), ('\u{dd2}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'),
-  ('\u{ddf}', '\u{ddf}'), ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'),
-  ('\u{e47}', '\u{e4e}'), ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{ebc}'),
-  ('\u{ec8}', '\u{ecd}'), ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'),
-  ('\u{f37}', '\u{f37}'), ('\u{f39}', '\u{f39}'), ('\u{f71}', '\u{f7e}'),
-  ('\u{f80}', '\u{f84}'), ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('\u{fc6}', '\u{fc6}'), ('\u{102d}', '\u{1030}'),
-  ('\u{1032}', '\u{1037}'), ('\u{1039}', '\u{103a}'),
-  ('\u{103d}', '\u{103e}'), ('\u{1058}', '\u{1059}'),
-  ('\u{105e}', '\u{1060}'), ('\u{1071}', '\u{1074}'),
-  ('\u{1082}', '\u{1082}'), ('\u{1085}', '\u{1086}'),
-  ('\u{108d}', '\u{108d}'), ('\u{109d}', '\u{109d}'),
-  ('\u{135d}', '\u{135f}'), ('\u{1712}', '\u{1714}'),
-  ('\u{1732}', '\u{1734}'), ('\u{1752}', '\u{1753}'),
-  ('\u{1772}', '\u{1773}'), ('\u{17b4}', '\u{17b5}'),
-  ('\u{17b7}', '\u{17bd}'), ('\u{17c6}', '\u{17c6}'),
-  ('\u{17c9}', '\u{17d3}'), ('\u{17dd}', '\u{17dd}'),
-  ('\u{180b}', '\u{180d}'), ('\u{1885}', '\u{1886}'),
-  ('\u{18a9}', '\u{18a9}'), ('\u{1920}', '\u{1922}'),
-  ('\u{1927}', '\u{1928}'), ('\u{1932}', '\u{1932}'),
-  ('\u{1939}', '\u{193b}'), ('\u{1a17}', '\u{1a18}'),
-  ('\u{1a1b}', '\u{1a1b}'), ('\u{1a56}', '\u{1a56}'),
-  ('\u{1a58}', '\u{1a5e}'), ('\u{1a60}', '\u{1a60}'),
-  ('\u{1a62}', '\u{1a62}'), ('\u{1a65}', '\u{1a6c}'),
-  ('\u{1a73}', '\u{1a7c}'), ('\u{1a7f}', '\u{1a7f}'),
-  ('\u{1ab0}', '\u{1abe}'), ('\u{1b00}', '\u{1b03}'),
-  ('\u{1b34}', '\u{1b3a}'), ('\u{1b3c}', '\u{1b3c}'),
-  ('\u{1b42}', '\u{1b42}'), ('\u{1b6b}', '\u{1b73}'),
-  ('\u{1b80}', '\u{1b81}'), ('\u{1ba2}', '\u{1ba5}'),
-  ('\u{1ba8}', '\u{1ba9}'), ('\u{1bab}', '\u{1bad}'),
-  ('\u{1be6}', '\u{1be6}'), ('\u{1be8}', '\u{1be9}'),
-  ('\u{1bed}', '\u{1bed}'), ('\u{1bef}', '\u{1bf1}'),
-  ('\u{1c2c}', '\u{1c33}'), ('\u{1c36}', '\u{1c37}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce0}'),
-  ('\u{1ce2}', '\u{1ce8}'), ('\u{1ced}', '\u{1ced}'),
-  ('\u{1cf4}', '\u{1cf4}'), ('\u{1cf8}', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{200c}', '\u{200c}'), ('\u{20d0}', '\u{20f0}'),
-  ('\u{2cef}', '\u{2cf1}'), ('\u{2d7f}', '\u{2d7f}'),
-  ('\u{2de0}', '\u{2dff}'), ('\u{302a}', '\u{302f}'),
-  ('\u{3099}', '\u{309a}'), ('\u{a66f}', '\u{a672}'),
-  ('\u{a674}', '\u{a67d}'), ('\u{a69e}', '\u{a69f}'),
-  ('\u{a6f0}', '\u{a6f1}'), ('\u{a802}', '\u{a802}'),
-  ('\u{a806}', '\u{a806}'), ('\u{a80b}', '\u{a80b}'),
-  ('\u{a825}', '\u{a826}'), ('\u{a8c4}', '\u{a8c5}'),
-  ('\u{a8e0}', '\u{a8f1}'), ('\u{a8ff}', '\u{a8ff}'),
-  ('\u{a926}', '\u{a92d}'), ('\u{a947}', '\u{a951}'),
-  ('\u{a980}', '\u{a982}'), ('\u{a9b3}', '\u{a9b3}'),
-  ('\u{a9b6}', '\u{a9b9}'), ('\u{a9bc}', 'ꦽ'), ('\u{a9e5}', '\u{a9e5}'),
-  ('\u{aa29}', '\u{aa2e}'), ('\u{aa31}', '\u{aa32}'),
-  ('\u{aa35}', '\u{aa36}'), ('\u{aa43}', '\u{aa43}'),
-  ('\u{aa4c}', '\u{aa4c}'), ('\u{aa7c}', '\u{aa7c}'),
-  ('\u{aab0}', '\u{aab0}'), ('\u{aab2}', '\u{aab4}'),
-  ('\u{aab7}', '\u{aab8}'), ('\u{aabe}', '\u{aabf}'),
-  ('\u{aac1}', '\u{aac1}'), ('\u{aaec}', '\u{aaed}'),
-  ('\u{aaf6}', '\u{aaf6}'), ('\u{abe5}', '\u{abe5}'),
-  ('\u{abe8}', '\u{abe8}'), ('\u{abed}', '\u{abed}'),
-  ('\u{fb1e}', '\u{fb1e}'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{fe20}', '\u{fe2f}'), ('\u{ff9e}', '\u{ff9f}'),
-  ('\u{101fd}', '\u{101fd}'), ('\u{102e0}', '\u{102e0}'),
-  ('\u{10376}', '\u{1037a}'), ('\u{10a01}', '\u{10a03}'),
-  ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '\u{10a0f}'),
-  ('\u{10a38}', '\u{10a3a}'), ('\u{10a3f}', '\u{10a3f}'),
-  ('\u{10ae5}', '\u{10ae6}'), ('\u{10d24}', '\u{10d27}'),
-  ('\u{10f46}', '\u{10f50}'), ('\u{11001}', '\u{11001}'),
-  ('\u{11038}', '\u{11046}'), ('\u{1107f}', '\u{11081}'),
-  ('\u{110b3}', '\u{110b6}'), ('\u{110b9}', '\u{110ba}'),
-  ('\u{11100}', '\u{11102}'), ('\u{11127}', '\u{1112b}'),
-  ('\u{1112d}', '\u{11134}'), ('\u{11173}', '\u{11173}'),
-  ('\u{11180}', '\u{11181}'), ('\u{111b6}', '\u{111be}'),
-  ('\u{111c9}', '\u{111cc}'), ('\u{1122f}', '\u{11231}'),
-  ('\u{11234}', '\u{11234}'), ('\u{11236}', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('\u{112df}', '\u{112df}'),
-  ('\u{112e3}', '\u{112ea}'), ('\u{11300}', '\u{11301}'),
-  ('\u{1133b}', '\u{1133c}'), ('\u{1133e}', '\u{1133e}'),
-  ('\u{11340}', '\u{11340}'), ('\u{11357}', '\u{11357}'),
-  ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('\u{11438}', '\u{1143f}'), ('\u{11442}', '\u{11444}'),
-  ('\u{11446}', '\u{11446}'), ('\u{1145e}', '\u{1145e}'),
-  ('\u{114b0}', '\u{114b0}'), ('\u{114b3}', '\u{114b8}'),
-  ('\u{114ba}', '\u{114ba}'), ('\u{114bd}', '\u{114bd}'),
-  ('\u{114bf}', '\u{114c0}'), ('\u{114c2}', '\u{114c3}'),
-  ('\u{115af}', '\u{115af}'), ('\u{115b2}', '\u{115b5}'),
-  ('\u{115bc}', '\u{115bd}'), ('\u{115bf}', '\u{115c0}'),
-  ('\u{115dc}', '\u{115dd}'), ('\u{11633}', '\u{1163a}'),
-  ('\u{1163d}', '\u{1163d}'), ('\u{1163f}', '\u{11640}'),
-  ('\u{116ab}', '\u{116ab}'), ('\u{116ad}', '\u{116ad}'),
-  ('\u{116b0}', '\u{116b5}'), ('\u{116b7}', '\u{116b7}'),
-  ('\u{1171d}', '\u{1171f}'), ('\u{11722}', '\u{11725}'),
-  ('\u{11727}', '\u{1172b}'), ('\u{1182f}', '\u{11837}'),
-  ('\u{11839}', '\u{1183a}'), ('\u{119d4}', '\u{119d7}'),
-  ('\u{119da}', '\u{119db}'), ('\u{119e0}', '\u{119e0}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a33}', '\u{11a38}'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a51}', '\u{11a56}'), ('\u{11a59}', '\u{11a5b}'),
-  ('\u{11a8a}', '\u{11a96}'), ('\u{11a98}', '\u{11a99}'),
-  ('\u{11c30}', '\u{11c36}'), ('\u{11c38}', '\u{11c3d}'),
-  ('\u{11c3f}', '\u{11c3f}'), ('\u{11c92}', '\u{11ca7}'),
-  ('\u{11caa}', '\u{11cb0}'), ('\u{11cb2}', '\u{11cb3}'),
-  ('\u{11cb5}', '\u{11cb6}'), ('\u{11d31}', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d45}'), ('\u{11d47}', '\u{11d47}'),
-  ('\u{11d90}', '\u{11d91}'), ('\u{11d95}', '\u{11d95}'),
-  ('\u{11d97}', '\u{11d97}'), ('\u{11ef3}', '\u{11ef4}'),
-  ('\u{16af0}', '\u{16af4}'), ('\u{16b30}', '\u{16b36}'),
-  ('\u{16f4f}', '\u{16f4f}'), ('\u{16f8f}', '\u{16f92}'),
-  ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d165}'),
-  ('\u{1d167}', '\u{1d169}'), ('\u{1d16e}', '\u{1d172}'),
-  ('\u{1d17b}', '\u{1d182}'), ('\u{1d185}', '\u{1d18b}'),
-  ('\u{1d1aa}', '\u{1d1ad}'), ('\u{1d242}', '\u{1d244}'),
-  ('\u{1da00}', '\u{1da36}'), ('\u{1da3b}', '\u{1da6c}'),
-  ('\u{1da75}', '\u{1da75}'), ('\u{1da84}', '\u{1da84}'),
-  ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e130}', '\u{1e136}'),
-  ('\u{1e2ec}', '\u{1e2ef}'), ('\u{1e8d0}', '\u{1e8d6}'),
-  ('\u{1e944}', '\u{1e94a}'), ('\u{e0020}', '\u{e007f}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const GRAPHEME_LINK: &'static [(char, char)] = &[
-  ('\u{94d}', '\u{94d}'), ('\u{9cd}', '\u{9cd}'), ('\u{a4d}', '\u{a4d}'),
-  ('\u{acd}', '\u{acd}'), ('\u{b4d}', '\u{b4d}'), ('\u{bcd}', '\u{bcd}'),
-  ('\u{c4d}', '\u{c4d}'), ('\u{ccd}', '\u{ccd}'), ('\u{d3b}', '\u{d3c}'),
-  ('\u{d4d}', '\u{d4d}'), ('\u{dca}', '\u{dca}'), ('\u{e3a}', '\u{e3a}'),
-  ('\u{eba}', '\u{eba}'), ('\u{f84}', '\u{f84}'), ('\u{1039}', '\u{103a}'),
-  ('\u{1714}', '\u{1714}'), ('\u{1734}', '\u{1734}'),
-  ('\u{17d2}', '\u{17d2}'), ('\u{1a60}', '\u{1a60}'), ('᭄', '᭄'),
-  ('᮪', '\u{1bab}'), ('᯲', '᯳'), ('\u{2d7f}', '\u{2d7f}'),
-  ('\u{a806}', '\u{a806}'), ('\u{a8c4}', '\u{a8c4}'), ('꥓', '꥓'),
-  ('꧀', '꧀'), ('\u{aaf6}', '\u{aaf6}'), ('\u{abed}', '\u{abed}'),
-  ('\u{10a3f}', '\u{10a3f}'), ('\u{11046}', '\u{11046}'),
-  ('\u{1107f}', '\u{1107f}'), ('\u{110b9}', '\u{110b9}'),
-  ('\u{11133}', '\u{11134}'), ('𑇀', '𑇀'), ('𑈵', '𑈵'),
-  ('\u{112ea}', '\u{112ea}'), ('𑍍', '𑍍'), ('\u{11442}', '\u{11442}'),
-  ('\u{114c2}', '\u{114c2}'), ('\u{115bf}', '\u{115bf}'),
-  ('\u{1163f}', '\u{1163f}'), ('𑚶', '𑚶'), ('\u{1172b}', '\u{1172b}'),
-  ('\u{11839}', '\u{11839}'), ('\u{119e0}', '\u{119e0}'),
-  ('\u{11a34}', '\u{11a34}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a99}', '\u{11a99}'), ('\u{11c3f}', '\u{11c3f}'),
-  ('\u{11d44}', '\u{11d45}'), ('\u{11d97}', '\u{11d97}'),
-];
-
-pub const HEX_DIGIT: &'static [(char, char)] = &[
-  ('0', '9'), ('A', 'F'), ('a', 'f'), ('0', '9'), ('A', 'F'),
-  ('a', 'f'),
-];
-
-pub const HYPHEN: &'static [(char, char)] = &[
-  ('-', '-'), ('\u{ad}', '\u{ad}'), ('֊', '֊'), ('᠆', '᠆'),
-  ('‐', '‑'), ('⸗', '⸗'), ('・', '・'), ('﹣', '﹣'),
-  ('-', '-'), ('・', '・'),
-];
-
-pub const IDS_BINARY_OPERATOR: &'static [(char, char)] = &[
-  ('⿰', '⿱'), ('⿴', '⿻'),
-];
-
-pub const IDS_TRINARY_OPERATOR: &'static [(char, char)] = &[
-  ('⿲', '⿳'),
-];
-
-pub const ID_CONTINUE: &'static [(char, char)] = &[
-  ('0', '9'), ('A', 'Z'), ('_', '_'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'),
-  ('·', '·'), ('º', 'º'), ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'),
-  ('ˆ', 'ˑ'), ('ˠ', 'ˤ'), ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('\u{300}', 'ʹ'),
-  ('Ͷ', 'ͷ'), ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ί'), ('Ό', 'Ό'),
-  ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('\u{483}', '\u{487}'),
-  ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՙ', 'ՙ'), ('ՠ', 'ֈ'),
-  ('\u{591}', '\u{5bd}'), ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'),
-  ('\u{5c4}', '\u{5c5}'), ('\u{5c7}', '\u{5c7}'), ('א', 'ת'), ('ׯ', 'ײ'),
-  ('\u{610}', '\u{61a}'), ('ؠ', '٩'), ('ٮ', 'ۓ'), ('ە', '\u{6dc}'),
-  ('\u{6df}', '\u{6e8}'), ('\u{6ea}', 'ۼ'), ('ۿ', 'ۿ'), ('ܐ', '\u{74a}'),
-  ('ݍ', 'ޱ'), ('߀', 'ߵ'), ('ߺ', 'ߺ'), ('\u{7fd}', '\u{7fd}'),
-  ('ࠀ', '\u{82d}'), ('ࡀ', '\u{85b}'), ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'),
-  ('ࢶ', 'ࢽ'), ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', '\u{963}'),
-  ('०', '९'), ('ॱ', 'ঃ'), ('অ', 'ঌ'), ('এ', 'ঐ'),
-  ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'),
-  ('\u{9bc}', '\u{9c4}'), ('ে', 'ৈ'), ('ো', 'ৎ'),
-  ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'), ('য়', '\u{9e3}'), ('০', 'ৱ'),
-  ('ৼ', 'ৼ'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', 'ਃ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'),
-  ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'),
-  ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('੦', '\u{a75}'), ('\u{a81}', 'ઃ'),
-  ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'),
-  ('લ', 'ળ'), ('વ', 'હ'), ('\u{abc}', '\u{ac5}'), ('\u{ac7}', 'ૉ'),
-  ('ો', '\u{acd}'), ('ૐ', 'ૐ'), ('ૠ', '\u{ae3}'), ('૦', '૯'),
-  ('ૹ', '\u{aff}'), ('\u{b01}', 'ଃ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'),
-  ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'),
-  ('\u{b3c}', '\u{b44}'), ('େ', 'ୈ'), ('ୋ', '\u{b4d}'),
-  ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'), ('ୟ', '\u{b63}'), ('୦', '୯'),
-  ('ୱ', 'ୱ'), ('\u{b82}', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('\u{bbe}', 'ூ'),
-  ('ெ', 'ை'), ('ொ', '\u{bcd}'), ('ௐ', 'ௐ'), ('\u{bd7}', '\u{bd7}'),
-  ('௦', '௯'), ('\u{c00}', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'),
-  ('ప', 'హ'), ('ఽ', 'ౄ'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4d}'), ('\u{c55}', '\u{c56}'), ('ౘ', 'ౚ'),
-  ('ౠ', '\u{c63}'), ('౦', '౯'), ('ಀ', 'ಃ'), ('ಅ', 'ಌ'),
-  ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'),
-  ('\u{cbc}', 'ೄ'), ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccd}'),
-  ('\u{cd5}', '\u{cd6}'), ('ೞ', 'ೞ'), ('ೠ', '\u{ce3}'), ('೦', '೯'),
-  ('ೱ', 'ೲ'), ('\u{d00}', 'ഃ'), ('അ', 'ഌ'), ('എ', 'ഐ'),
-  ('ഒ', '\u{d44}'), ('െ', 'ൈ'), ('ൊ', 'ൎ'), ('ൔ', '\u{d57}'),
-  ('ൟ', '\u{d63}'), ('൦', '൯'), ('ൺ', 'ൿ'), ('ං', 'ඃ'),
-  ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'),
-  ('ව', 'ෆ'), ('\u{dca}', '\u{dca}'), ('\u{dcf}', '\u{dd4}'),
-  ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'), ('෦', '෯'), ('ෲ', 'ෳ'),
-  ('ก', '\u{e3a}'), ('เ', '\u{e4e}'), ('๐', '๙'), ('ກ', 'ຂ'),
-  ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'), ('ລ', 'ລ'),
-  ('ວ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('\u{ec8}', '\u{ecd}'),
-  ('໐', '໙'), ('ໜ', 'ໟ'), ('ༀ', 'ༀ'), ('\u{f18}', '\u{f19}'),
-  ('༠', '༩'), ('\u{f35}', '\u{f35}'), ('\u{f37}', '\u{f37}'),
-  ('\u{f39}', '\u{f39}'), ('༾', 'ཇ'), ('ཉ', 'ཬ'),
-  ('\u{f71}', '\u{f84}'), ('\u{f86}', '\u{f97}'), ('\u{f99}', '\u{fbc}'),
-  ('\u{fc6}', '\u{fc6}'), ('က', '၉'), ('ၐ', '\u{109d}'), ('Ⴀ', 'Ⴥ'),
-  ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'), ('ჼ', 'ቈ'),
-  ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'),
-  ('በ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኰ'), ('ኲ', 'ኵ'),
-  ('ኸ', 'ኾ'), ('ዀ', 'ዀ'), ('ዂ', 'ዅ'), ('ወ', 'ዖ'),
-  ('ዘ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ፚ'), ('\u{135d}', '\u{135f}'),
-  ('፩', '፱'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', '\u{1714}'), ('ᜠ', '\u{1734}'),
-  ('ᝀ', '\u{1753}'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'),
-  ('\u{1772}', '\u{1773}'), ('ក', '\u{17d3}'), ('ៗ', 'ៗ'),
-  ('ៜ', '\u{17dd}'), ('០', '៩'), ('\u{180b}', '\u{180d}'),
-  ('᠐', '᠙'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢪ'), ('ᢰ', 'ᣵ'),
-  ('ᤀ', 'ᤞ'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'), ('᥆', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('᧐', '᧚'),
-  ('ᨀ', '\u{1a1b}'), ('ᨠ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'),
-  ('\u{1a7f}', '᪉'), ('᪐', '᪙'), ('ᪧ', 'ᪧ'),
-  ('\u{1ab0}', '\u{1abd}'), ('\u{1b00}', 'ᭋ'), ('᭐', '᭙'),
-  ('\u{1b6b}', '\u{1b73}'), ('\u{1b80}', '᯳'), ('ᰀ', '\u{1c37}'),
-  ('᱀', '᱉'), ('ᱍ', 'ᱽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1cfa}'),
-  ('ᴀ', '\u{1df9}'), ('\u{1dfb}', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'),
-  ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'), ('ῐ', 'ΐ'),
-  ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'), ('ῶ', 'ῼ'),
-  ('‿', '⁀'), ('⁔', '⁔'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'),
-  ('ₐ', 'ₜ'), ('\u{20d0}', '\u{20dc}'), ('\u{20e1}', '\u{20e1}'),
-  ('\u{20e5}', '\u{20f0}'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'),
-  ('ℕ', 'ℕ'), ('℘', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'),
-  ('ℨ', 'ℨ'), ('K', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'),
-  ('ⅎ', 'ⅎ'), ('Ⅰ', 'ↈ'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'),
-  ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'), ('\u{2d7f}', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('\u{2de0}', '\u{2dff}'), ('々', '〇'), ('〡', '\u{302f}'),
-  ('〱', '〵'), ('〸', '〼'), ('ぁ', 'ゖ'), ('\u{3099}', 'ゟ'),
-  ('ァ', 'ヺ'), ('ー', 'ヿ'), ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'),
-  ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'), ('㐀', '䶵'), ('一', '鿯'),
-  ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'), ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘫ'),
-  ('Ꙁ', '\u{a66f}'), ('\u{a674}', '\u{a67d}'), ('ꙿ', '\u{a6f1}'),
-  ('ꜗ', 'ꜟ'), ('Ꜣ', 'ꞈ'), ('Ꞌ', '\u{a7bf}'),
-  ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠧ'), ('ꡀ', 'ꡳ'),
-  ('ꢀ', '\u{a8c5}'), ('꣐', '꣙'), ('\u{a8e0}', 'ꣷ'), ('ꣻ', 'ꣻ'),
-  ('ꣽ', '\u{a92d}'), ('ꤰ', '꥓'), ('ꥠ', 'ꥼ'), ('\u{a980}', '꧀'),
-  ('ꧏ', '꧙'), ('ꧠ', 'ꧾ'), ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'),
-  ('꩐', '꩙'), ('ꩠ', 'ꩶ'), ('ꩺ', 'ꫂ'), ('ꫛ', 'ꫝ'),
-  ('ꫠ', 'ꫯ'), ('ꫲ', '\u{aaf6}'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯪ'), ('꯬', '\u{abed}'), ('꯰', '꯹'),
-  ('가', '힣'), ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'), ('豈', '舘'),
-  ('並', '龎'), ('ff', 'st'), ('ﬓ', 'ﬗ'), ('יִ', 'ﬨ'),
-  ('שׁ', 'זּ'), ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'),
-  ('ףּ', 'פּ'), ('צּ', 'ﮱ'), ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'),
-  ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷻ'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{fe20}', '\u{fe2f}'), ('︳', '︴'), ('﹍', '﹏'), ('ﹰ', 'ﹴ'),
-  ('ﹶ', 'ﻼ'), ('0', '9'), ('A', 'Z'), ('_', '_'),
-  ('a', 'z'), ('ヲ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'),
-  ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'), ('𐀍', '𐀦'),
-  ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'), ('𐁐', '𐁝'),
-  ('𐂀', '𐃺'), ('𐅀', '𐅴'), ('\u{101fd}', '\u{101fd}'),
-  ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('\u{102e0}', '\u{102e0}'),
-  ('𐌀', '𐌟'), ('𐌭', '𐍊'), ('𐍐', '\u{1037a}'), ('𐎀', '𐎝'),
-  ('𐎠', '𐏃'), ('𐏈', '𐏏'), ('𐏑', '𐏕'), ('𐐀', '𐒝'),
-  ('𐒠', '𐒩'), ('𐒰', '𐓓'), ('𐓘', '𐓻'), ('𐔀', '𐔧'),
-  ('𐔰', '𐕣'), ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'),
-  ('𐠀', '𐠅'), ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'),
-  ('𐠼', '𐠼'), ('𐠿', '𐡕'), ('𐡠', '𐡶'), ('𐢀', '𐢞'),
-  ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐤀', '𐤕'), ('𐤠', '𐤹'),
-  ('𐦀', '𐦷'), ('𐦾', '𐦿'), ('𐨀', '\u{10a03}'),
-  ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'), ('𐨕', '𐨗'),
-  ('𐨙', '𐨵'), ('\u{10a38}', '\u{10a3a}'), ('\u{10a3f}', '\u{10a3f}'),
-  ('𐩠', '𐩼'), ('𐪀', '𐪜'), ('𐫀', '𐫇'), ('𐫉', '\u{10ae6}'),
-  ('𐬀', '𐬵'), ('𐭀', '𐭕'), ('𐭠', '𐭲'), ('𐮀', '𐮑'),
-  ('𐰀', '𐱈'), ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𐴀', '\u{10d27}'),
-  ('𐴰', '𐴹'), ('𐼀', '𐼜'), ('𐼧', '𐼧'), ('𐼰', '\u{10f50}'),
-  ('\u{10fe0}', '\u{10ff6}'), ('𑀀', '\u{11046}'), ('𑁦', '𑁯'),
-  ('\u{1107f}', '\u{110ba}'), ('𑃐', '𑃨'), ('𑃰', '𑃹'),
-  ('\u{11100}', '\u{11134}'), ('𑄶', '𑄿'), ('𑅄', '𑅆'),
-  ('𑅐', '\u{11173}'), ('𑅶', '𑅶'), ('\u{11180}', '𑇄'),
-  ('\u{111c9}', '\u{111cc}'), ('𑇐', '𑇚'), ('𑇜', '𑇜'),
-  ('𑈀', '𑈑'), ('𑈓', '\u{11237}'), ('\u{1123e}', '\u{1123e}'),
-  ('𑊀', '𑊆'), ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'),
-  ('𑊟', '𑊨'), ('𑊰', '\u{112ea}'), ('𑋰', '𑋹'),
-  ('\u{11300}', '𑌃'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('\u{1133b}', '𑍄'),
-  ('𑍇', '𑍈'), ('𑍋', '𑍍'), ('𑍐', '𑍐'),
-  ('\u{11357}', '\u{11357}'), ('𑍝', '𑍣'), ('\u{11366}', '\u{1136c}'),
-  ('\u{11370}', '\u{11374}'), ('𑐀', '𑑊'), ('𑑐', '𑑙'),
-  ('\u{1145e}', '\u{1145f}'), ('𑒀', '𑓅'), ('𑓇', '𑓇'),
-  ('𑓐', '𑓙'), ('𑖀', '\u{115b5}'), ('𑖸', '\u{115c0}'),
-  ('𑗘', '\u{115dd}'), ('𑘀', '\u{11640}'), ('𑙄', '𑙄'),
-  ('𑙐', '𑙙'), ('𑚀', '\u{116b8}'), ('𑛀', '𑛉'), ('𑜀', '𑜚'),
-  ('\u{1171d}', '\u{1172b}'), ('𑜰', '𑜹'), ('𑠀', '\u{1183a}'),
-  ('𑢠', '𑣩'), ('𑣿', '𑣿'), ('\u{119a0}', '\u{119a7}'),
-  ('\u{119aa}', '\u{119d7}'), ('\u{119da}', '\u{119e1}'),
-  ('\u{119e3}', '\u{119e4}'), ('𑨀', '\u{11a3e}'),
-  ('\u{11a47}', '\u{11a47}'), ('𑩐', '\u{11a99}'), ('𑪝', '𑪝'),
-  ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '\u{11c36}'),
-  ('\u{11c38}', '𑱀'), ('𑱐', '𑱙'), ('𑱲', '𑲏'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'), ('𑴀', '𑴆'),
-  ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d47}'), ('𑵐', '𑵙'),
-  ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶘'), ('𑶠', '𑶩'),
-  ('𑻠', '𑻶'), ('𒀀', '𒎙'), ('𒐀', '𒑮'), ('𒒀', '𒕃'),
-  ('𓀀', '𓐮'), ('𔐀', '𔙆'), ('𖠀', '𖨸'), ('𖩀', '𖩞'),
-  ('𖩠', '𖩩'), ('𖫐', '𖫭'), ('\u{16af0}', '\u{16af4}'),
-  ('𖬀', '\u{16b36}'), ('𖭀', '𖭃'), ('𖭐', '𖭙'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𖹀', '𖹿'), ('𖼀', '\u{16f4a}'),
-  ('\u{16f4f}', '\u{16f87}'), ('\u{16f8f}', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d169}'),
-  ('𝅭', '\u{1d172}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'),
-  ('𝛼', '𝜔'), ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'),
-  ('𝝰', '𝞈'), ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('𝟎', '𝟿'), ('\u{1da00}', '\u{1da36}'), ('\u{1da3b}', '\u{1da6c}'),
-  ('\u{1da75}', '\u{1da75}'), ('\u{1da84}', '\u{1da84}'),
-  ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e100}', '\u{1e12c}'),
-  ('\u{1e130}', '\u{1e13d}'), ('\u{1e140}', '\u{1e149}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2f9}'), ('𞠀', '𞣄'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('𞤀', '\u{1e94b}'), ('𞥐', '𞥙'),
-  ('𞸀', '𞸃'), ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'),
-  ('𞸧', '𞸧'), ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'),
-  ('𞸻', '𞸻'), ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'),
-  ('𞹋', '𞹋'), ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'),
-  ('𞹗', '𞹗'), ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'),
-  ('𞹟', '𞹟'), ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'),
-  ('𞹬', '𞹲'), ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'),
-  ('𞺀', '𞺉'), ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'),
-  ('𞺫', '𞺻'), ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'),
-  ('𫠠', '𬺡'), ('𬺰', '𮯠'), ('丽', '𪘀'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const ID_START: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'),
-  ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'), ('ˆ', 'ˑ'), ('ˠ', 'ˤ'),
-  ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('Ͱ', 'ʹ'), ('Ͷ', 'ͷ'), ('ͺ', 'ͽ'),
-  ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'),
-  ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՙ', 'ՙ'),
-  ('ՠ', 'ֈ'), ('א', 'ת'), ('ׯ', 'ײ'), ('ؠ', 'ي'), ('ٮ', 'ٯ'),
-  ('ٱ', 'ۓ'), ('ە', 'ە'), ('ۥ', 'ۦ'), ('ۮ', 'ۯ'), ('ۺ', 'ۼ'),
-  ('ۿ', 'ۿ'), ('ܐ', 'ܐ'), ('ܒ', 'ܯ'), ('ݍ', 'ޥ'), ('ޱ', 'ޱ'),
-  ('ߊ', 'ߪ'), ('ߴ', 'ߵ'), ('ߺ', 'ߺ'), ('ࠀ', 'ࠕ'), ('ࠚ', 'ࠚ'),
-  ('ࠤ', 'ࠤ'), ('ࠨ', 'ࠨ'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'),
-  ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('ऄ', 'ह'), ('ऽ', 'ऽ'),
-  ('ॐ', 'ॐ'), ('क़', 'ॡ'), ('ॱ', 'ঀ'), ('অ', 'ঌ'),
-  ('এ', 'ঐ'), ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'),
-  ('শ', 'হ'), ('ঽ', 'ঽ'), ('ৎ', 'ৎ'), ('ড়', 'ঢ়'),
-  ('য়', 'ৡ'), ('ৰ', 'ৱ'), ('ৼ', 'ৼ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'),
-  ('ੲ', 'ੴ'), ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'),
-  ('પ', 'ર'), ('લ', 'ળ'), ('વ', 'હ'), ('ઽ', 'ઽ'),
-  ('ૐ', 'ૐ'), ('ૠ', 'ૡ'), ('ૹ', 'ૹ'), ('ଅ', 'ଌ'),
-  ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'),
-  ('ଵ', 'ହ'), ('ଽ', 'ଽ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'),
-  ('ୱ', 'ୱ'), ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('ௐ', 'ௐ'),
-  ('అ', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'),
-  ('ఽ', 'ఽ'), ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('ಀ', 'ಀ'),
-  ('ಅ', 'ಌ'), ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'),
-  ('ವ', 'ಹ'), ('ಽ', 'ಽ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'),
-  ('ೱ', 'ೲ'), ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'),
-  ('ഽ', 'ഽ'), ('ൎ', 'ൎ'), ('ൔ', 'ൖ'), ('ൟ', 'ൡ'),
-  ('ൺ', 'ൿ'), ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'),
-  ('ල', 'ල'), ('ව', 'ෆ'), ('ก', 'ะ'), ('า', 'ำ'),
-  ('เ', 'ๆ'), ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'),
-  ('\u{e8c}', 'ຣ'), ('ລ', 'ລ'), ('ວ', 'ະ'), ('າ', 'ຳ'),
-  ('ຽ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('ໜ', 'ໟ'),
-  ('ༀ', 'ༀ'), ('ཀ', 'ཇ'), ('ཉ', 'ཬ'), ('ྈ', 'ྌ'),
-  ('က', 'ဪ'), ('ဿ', 'ဿ'), ('ၐ', 'ၕ'), ('ၚ', 'ၝ'),
-  ('ၡ', 'ၡ'), ('ၥ', 'ၦ'), ('ၮ', 'ၰ'), ('ၵ', 'ႁ'),
-  ('ႎ', 'ႎ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('ა', 'ჺ'), ('ჼ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'),
-  ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'),
-  ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'),
-  ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'),
-  ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'),
-  ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('ក', 'ឳ'),
-  ('ៗ', 'ៗ'), ('ៜ', 'ៜ'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢨ'),
-  ('ᢪ', 'ᢪ'), ('ᢰ', 'ᣵ'), ('ᤀ', 'ᤞ'), ('ᥐ', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('ᨀ', 'ᨖ'),
-  ('ᨠ', 'ᩔ'), ('ᪧ', 'ᪧ'), ('ᬅ', 'ᬳ'), ('ᭅ', 'ᭋ'),
-  ('ᮃ', 'ᮠ'), ('ᮮ', 'ᮯ'), ('ᮺ', 'ᯥ'), ('ᰀ', 'ᰣ'),
-  ('ᱍ', 'ᱏ'), ('ᱚ', 'ᱽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'), ('ᳵ', 'ᳶ'),
-  ('\u{1cfa}', '\u{1cfa}'), ('ᴀ', 'ᶿ'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'),
-  ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'),
-  ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'),
-  ('ᾶ', 'ᾼ'), ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'),
-  ('ῐ', 'ΐ'), ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'),
-  ('ῶ', 'ῼ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'),
-  ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'), ('ℕ', 'ℕ'),
-  ('℘', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'),
-  ('K', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'), ('ⅎ', 'ⅎ'),
-  ('Ⅰ', 'ↈ'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'), ('Ⱡ', 'ⳤ'),
-  ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'), ('ⶀ', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('々', '〇'), ('〡', '〩'), ('〱', '〵'), ('〸', '〼'),
-  ('ぁ', 'ゖ'), ('゛', 'ゟ'), ('ァ', 'ヺ'), ('ー', 'ヿ'),
-  ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'),
-  ('㐀', '䶵'), ('一', '鿯'), ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'),
-  ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘟ'), ('ꘪ', 'ꘫ'), ('Ꙁ', 'ꙮ'),
-  ('ꙿ', 'ꚝ'), ('ꚠ', 'ꛯ'), ('ꜗ', 'ꜟ'), ('Ꜣ', 'ꞈ'),
-  ('Ꞌ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠁ'),
-  ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'), ('ꠌ', 'ꠢ'), ('ꡀ', 'ꡳ'),
-  ('ꢂ', 'ꢳ'), ('ꣲ', 'ꣷ'), ('ꣻ', 'ꣻ'), ('ꣽ', 'ꣾ'),
-  ('ꤊ', 'ꤥ'), ('ꤰ', 'ꥆ'), ('ꥠ', 'ꥼ'), ('ꦄ', 'ꦲ'),
-  ('ꧏ', 'ꧏ'), ('ꧠ', 'ꧤ'), ('ꧦ', 'ꧯ'), ('ꧺ', 'ꧾ'),
-  ('ꨀ', 'ꨨ'), ('ꩀ', 'ꩂ'), ('ꩄ', 'ꩋ'), ('ꩠ', 'ꩶ'),
-  ('ꩺ', 'ꩺ'), ('ꩾ', 'ꪯ'), ('ꪱ', 'ꪱ'), ('ꪵ', 'ꪶ'),
-  ('ꪹ', 'ꪽ'), ('ꫀ', 'ꫀ'), ('ꫂ', 'ꫂ'), ('ꫛ', 'ꫝ'),
-  ('ꫠ', 'ꫪ'), ('ꫲ', 'ꫴ'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯢ'), ('가', '힣'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('豈', '舘'), ('並', '龎'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('יִ', 'יִ'), ('ײַ', 'ﬨ'), ('שׁ', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﮱ'), ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'),
-  ('ﷰ', 'ﷻ'), ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'), ('A', 'Z'),
-  ('a', 'z'), ('ヲ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'),
-  ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'), ('𐀍', '𐀦'),
-  ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'), ('𐁐', '𐁝'),
-  ('𐂀', '𐃺'), ('𐅀', '𐅴'), ('𐊀', '𐊜'), ('𐊠', '𐋐'),
-  ('𐌀', '𐌟'), ('𐌭', '𐍊'), ('𐍐', '𐍵'), ('𐎀', '𐎝'),
-  ('𐎠', '𐏃'), ('𐏈', '𐏏'), ('𐏑', '𐏕'), ('𐐀', '𐒝'),
-  ('𐒰', '𐓓'), ('𐓘', '𐓻'), ('𐔀', '𐔧'), ('𐔰', '𐕣'),
-  ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐠀', '𐠅'),
-  ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'),
-  ('𐠿', '𐡕'), ('𐡠', '𐡶'), ('𐢀', '𐢞'), ('𐣠', '𐣲'),
-  ('𐣴', '𐣵'), ('𐤀', '𐤕'), ('𐤠', '𐤹'), ('𐦀', '𐦷'),
-  ('𐦾', '𐦿'), ('𐨀', '𐨀'), ('𐨐', '𐨓'), ('𐨕', '𐨗'),
-  ('𐨙', '𐨵'), ('𐩠', '𐩼'), ('𐪀', '𐪜'), ('𐫀', '𐫇'),
-  ('𐫉', '𐫤'), ('𐬀', '𐬵'), ('𐭀', '𐭕'), ('𐭠', '𐭲'),
-  ('𐮀', '𐮑'), ('𐰀', '𐱈'), ('𐲀', '𐲲'), ('𐳀', '𐳲'),
-  ('𐴀', '𐴣'), ('𐼀', '𐼜'), ('𐼧', '𐼧'), ('𐼰', '𐽅'),
-  ('\u{10fe0}', '\u{10ff6}'), ('𑀃', '𑀷'), ('𑂃', '𑂯'),
-  ('𑃐', '𑃨'), ('𑄃', '𑄦'), ('𑅄', '𑅄'), ('𑅐', '𑅲'),
-  ('𑅶', '𑅶'), ('𑆃', '𑆲'), ('𑇁', '𑇄'), ('𑇚', '𑇚'),
-  ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '𑈫'), ('𑊀', '𑊆'),
-  ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'),
-  ('𑊰', '𑋞'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('𑌽', '𑌽'),
-  ('𑍐', '𑍐'), ('𑍝', '𑍡'), ('𑐀', '𑐴'), ('𑑇', '𑑊'),
-  ('\u{1145f}', '\u{1145f}'), ('𑒀', '𑒯'), ('𑓄', '𑓅'),
-  ('𑓇', '𑓇'), ('𑖀', '𑖮'), ('𑗘', '𑗛'), ('𑘀', '𑘯'),
-  ('𑙄', '𑙄'), ('𑚀', '𑚪'), ('\u{116b8}', '\u{116b8}'),
-  ('𑜀', '𑜚'), ('𑠀', '𑠫'), ('𑢠', '𑣟'), ('𑣿', '𑣿'),
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d0}'),
-  ('\u{119e1}', '\u{119e1}'), ('\u{119e3}', '\u{119e3}'), ('𑨀', '𑨀'),
-  ('𑨋', '𑨲'), ('𑨺', '𑨺'), ('𑩐', '𑩐'), ('𑩜', '𑪉'),
-  ('𑪝', '𑪝'), ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '𑰮'),
-  ('𑱀', '𑱀'), ('𑱲', '𑲏'), ('𑴀', '𑴆'), ('𑴈', '𑴉'),
-  ('𑴋', '𑴰'), ('𑵆', '𑵆'), ('𑵠', '𑵥'), ('𑵧', '𑵨'),
-  ('𑵪', '𑶉'), ('𑶘', '𑶘'), ('𑻠', '𑻲'), ('𒀀', '𒎙'),
-  ('𒐀', '𒑮'), ('𒒀', '𒕃'), ('𓀀', '𓐮'), ('𔐀', '𔙆'),
-  ('𖠀', '𖨸'), ('𖩀', '𖩞'), ('𖫐', '𖫭'), ('𖬀', '𖬯'),
-  ('𖭀', '𖭃'), ('𖭣', '𖭷'), ('𖭽', '𖮏'), ('𖹀', '𖹿'),
-  ('𖼀', '\u{16f4a}'), ('𖽐', '𖽐'), ('𖾓', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('𝐀', '𝑔'), ('𝑖', '𝒜'), ('𝒞', '𝒟'),
-  ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'), ('𝒮', '𝒹'),
-  ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'), ('𝔇', '𝔊'),
-  ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'), ('𝔻', '𝔾'),
-  ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕒', '𝚥'),
-  ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'), ('𝛼', '𝜔'),
-  ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'), ('𝝰', '𝞈'),
-  ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e137}', '\u{1e13d}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'),
-  ('𞤀', '𞥃'), ('\u{1e94b}', '\u{1e94b}'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-  ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'),
-  ('𬺰', '𮯠'), ('丽', '𪘀'),
-];
-
-pub const IDEOGRAPHIC: &'static [(char, char)] = &[
-  ('〆', '〇'), ('〡', '〩'), ('〸', '〺'), ('㐀', '䶵'),
-  ('一', '鿯'), ('豈', '舘'), ('並', '龎'), ('𗀀', '\u{187f7}'),
-  ('𘠀', '𘫲'), ('𛅰', '𛋻'), ('𠀀', '𪛖'), ('𪜀', '𫜴'),
-  ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'), ('丽', '𪘀'),
-];
-
-pub const JOIN_CONTROL: &'static [(char, char)] = &[
-  ('\u{200c}', '\u{200d}'),
-];
-
-pub const LOGICAL_ORDER_EXCEPTION: &'static [(char, char)] = &[
-  ('เ', 'ไ'), ('ເ', 'ໄ'), ('ᦵ', 'ᦷ'), ('ᦺ', 'ᦺ'),
-  ('ꪵ', 'ꪶ'), ('ꪹ', 'ꪹ'), ('ꪻ', 'ꪼ'),
-];
-
-pub const LOWERCASE: &'static [(char, char)] = &[
-  ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'), ('ß', 'ö'),
-  ('ø', 'ÿ'), ('ā', 'ā'), ('ă', 'ă'), ('ą', 'ą'), ('ć', 'ć'),
-  ('ĉ', 'ĉ'), ('ċ', 'ċ'), ('č', 'č'), ('ď', 'ď'), ('đ', 'đ'),
-  ('ē', 'ē'), ('ĕ', 'ĕ'), ('ė', 'ė'), ('ę', 'ę'), ('ě', 'ě'),
-  ('ĝ', 'ĝ'), ('ğ', 'ğ'), ('ġ', 'ġ'), ('ģ', 'ģ'), ('ĥ', 'ĥ'),
-  ('ħ', 'ħ'), ('ĩ', 'ĩ'), ('ī', 'ī'), ('ĭ', 'ĭ'), ('į', 'į'),
-  ('ı', 'ı'), ('ij', 'ij'), ('ĵ', 'ĵ'), ('ķ', 'ĸ'), ('ĺ', 'ĺ'),
-  ('ļ', 'ļ'), ('ľ', 'ľ'), ('ŀ', 'ŀ'), ('ł', 'ł'), ('ń', 'ń'),
-  ('ņ', 'ņ'), ('ň', 'ʼn'), ('ŋ', 'ŋ'), ('ō', 'ō'), ('ŏ', 'ŏ'),
-  ('ő', 'ő'), ('œ', 'œ'), ('ŕ', 'ŕ'), ('ŗ', 'ŗ'), ('ř', 'ř'),
-  ('ś', 'ś'), ('ŝ', 'ŝ'), ('ş', 'ş'), ('š', 'š'), ('ţ', 'ţ'),
-  ('ť', 'ť'), ('ŧ', 'ŧ'), ('ũ', 'ũ'), ('ū', 'ū'), ('ŭ', 'ŭ'),
-  ('ů', 'ů'), ('ű', 'ű'), ('ų', 'ų'), ('ŵ', 'ŵ'), ('ŷ', 'ŷ'),
-  ('ź', 'ź'), ('ż', 'ż'), ('ž', 'ƀ'), ('ƃ', 'ƃ'), ('ƅ', 'ƅ'),
-  ('ƈ', 'ƈ'), ('ƌ', 'ƍ'), ('ƒ', 'ƒ'), ('ƕ', 'ƕ'), ('ƙ', 'ƛ'),
-  ('ƞ', 'ƞ'), ('ơ', 'ơ'), ('ƣ', 'ƣ'), ('ƥ', 'ƥ'), ('ƨ', 'ƨ'),
-  ('ƪ', 'ƫ'), ('ƭ', 'ƭ'), ('ư', 'ư'), ('ƴ', 'ƴ'), ('ƶ', 'ƶ'),
-  ('ƹ', 'ƺ'), ('ƽ', 'ƿ'), ('dž', 'dž'), ('lj', 'lj'), ('nj', 'nj'),
-  ('ǎ', 'ǎ'), ('ǐ', 'ǐ'), ('ǒ', 'ǒ'), ('ǔ', 'ǔ'), ('ǖ', 'ǖ'),
-  ('ǘ', 'ǘ'), ('ǚ', 'ǚ'), ('ǜ', 'ǝ'), ('ǟ', 'ǟ'), ('ǡ', 'ǡ'),
-  ('ǣ', 'ǣ'), ('ǥ', 'ǥ'), ('ǧ', 'ǧ'), ('ǩ', 'ǩ'), ('ǫ', 'ǫ'),
-  ('ǭ', 'ǭ'), ('ǯ', 'ǰ'), ('dz', 'dz'), ('ǵ', 'ǵ'), ('ǹ', 'ǹ'),
-  ('ǻ', 'ǻ'), ('ǽ', 'ǽ'), ('ǿ', 'ǿ'), ('ȁ', 'ȁ'), ('ȃ', 'ȃ'),
-  ('ȅ', 'ȅ'), ('ȇ', 'ȇ'), ('ȉ', 'ȉ'), ('ȋ', 'ȋ'), ('ȍ', 'ȍ'),
-  ('ȏ', 'ȏ'), ('ȑ', 'ȑ'), ('ȓ', 'ȓ'), ('ȕ', 'ȕ'), ('ȗ', 'ȗ'),
-  ('ș', 'ș'), ('ț', 'ț'), ('ȝ', 'ȝ'), ('ȟ', 'ȟ'), ('ȡ', 'ȡ'),
-  ('ȣ', 'ȣ'), ('ȥ', 'ȥ'), ('ȧ', 'ȧ'), ('ȩ', 'ȩ'), ('ȫ', 'ȫ'),
-  ('ȭ', 'ȭ'), ('ȯ', 'ȯ'), ('ȱ', 'ȱ'), ('ȳ', 'ȹ'), ('ȼ', 'ȼ'),
-  ('ȿ', 'ɀ'), ('ɂ', 'ɂ'), ('ɇ', 'ɇ'), ('ɉ', 'ɉ'), ('ɋ', 'ɋ'),
-  ('ɍ', 'ɍ'), ('ɏ', 'ʓ'), ('ʕ', 'ʸ'), ('ˀ', 'ˁ'), ('ˠ', 'ˤ'),
-  ('\u{345}', '\u{345}'), ('ͱ', 'ͱ'), ('ͳ', 'ͳ'), ('ͷ', 'ͷ'),
-  ('ͺ', 'ͽ'), ('ΐ', 'ΐ'), ('ά', 'ώ'), ('ϐ', 'ϑ'), ('ϕ', 'ϗ'),
-  ('ϙ', 'ϙ'), ('ϛ', 'ϛ'), ('ϝ', 'ϝ'), ('ϟ', 'ϟ'), ('ϡ', 'ϡ'),
-  ('ϣ', 'ϣ'), ('ϥ', 'ϥ'), ('ϧ', 'ϧ'), ('ϩ', 'ϩ'), ('ϫ', 'ϫ'),
-  ('ϭ', 'ϭ'), ('ϯ', 'ϳ'), ('ϵ', 'ϵ'), ('ϸ', 'ϸ'), ('ϻ', 'ϼ'),
-  ('а', 'џ'), ('ѡ', 'ѡ'), ('ѣ', 'ѣ'), ('ѥ', 'ѥ'), ('ѧ', 'ѧ'),
-  ('ѩ', 'ѩ'), ('ѫ', 'ѫ'), ('ѭ', 'ѭ'), ('ѯ', 'ѯ'), ('ѱ', 'ѱ'),
-  ('ѳ', 'ѳ'), ('ѵ', 'ѵ'), ('ѷ', 'ѷ'), ('ѹ', 'ѹ'), ('ѻ', 'ѻ'),
-  ('ѽ', 'ѽ'), ('ѿ', 'ѿ'), ('ҁ', 'ҁ'), ('ҋ', 'ҋ'), ('ҍ', 'ҍ'),
-  ('ҏ', 'ҏ'), ('ґ', 'ґ'), ('ғ', 'ғ'), ('ҕ', 'ҕ'), ('җ', 'җ'),
-  ('ҙ', 'ҙ'), ('қ', 'қ'), ('ҝ', 'ҝ'), ('ҟ', 'ҟ'), ('ҡ', 'ҡ'),
-  ('ң', 'ң'), ('ҥ', 'ҥ'), ('ҧ', 'ҧ'), ('ҩ', 'ҩ'), ('ҫ', 'ҫ'),
-  ('ҭ', 'ҭ'), ('ү', 'ү'), ('ұ', 'ұ'), ('ҳ', 'ҳ'), ('ҵ', 'ҵ'),
-  ('ҷ', 'ҷ'), ('ҹ', 'ҹ'), ('һ', 'һ'), ('ҽ', 'ҽ'), ('ҿ', 'ҿ'),
-  ('ӂ', 'ӂ'), ('ӄ', 'ӄ'), ('ӆ', 'ӆ'), ('ӈ', 'ӈ'), ('ӊ', 'ӊ'),
-  ('ӌ', 'ӌ'), ('ӎ', 'ӏ'), ('ӑ', 'ӑ'), ('ӓ', 'ӓ'), ('ӕ', 'ӕ'),
-  ('ӗ', 'ӗ'), ('ә', 'ә'), ('ӛ', 'ӛ'), ('ӝ', 'ӝ'), ('ӟ', 'ӟ'),
-  ('ӡ', 'ӡ'), ('ӣ', 'ӣ'), ('ӥ', 'ӥ'), ('ӧ', 'ӧ'), ('ө', 'ө'),
-  ('ӫ', 'ӫ'), ('ӭ', 'ӭ'), ('ӯ', 'ӯ'), ('ӱ', 'ӱ'), ('ӳ', 'ӳ'),
-  ('ӵ', 'ӵ'), ('ӷ', 'ӷ'), ('ӹ', 'ӹ'), ('ӻ', 'ӻ'), ('ӽ', 'ӽ'),
-  ('ӿ', 'ӿ'), ('ԁ', 'ԁ'), ('ԃ', 'ԃ'), ('ԅ', 'ԅ'), ('ԇ', 'ԇ'),
-  ('ԉ', 'ԉ'), ('ԋ', 'ԋ'), ('ԍ', 'ԍ'), ('ԏ', 'ԏ'), ('ԑ', 'ԑ'),
-  ('ԓ', 'ԓ'), ('ԕ', 'ԕ'), ('ԗ', 'ԗ'), ('ԙ', 'ԙ'), ('ԛ', 'ԛ'),
-  ('ԝ', 'ԝ'), ('ԟ', 'ԟ'), ('ԡ', 'ԡ'), ('ԣ', 'ԣ'), ('ԥ', 'ԥ'),
-  ('ԧ', 'ԧ'), ('ԩ', 'ԩ'), ('ԫ', 'ԫ'), ('ԭ', 'ԭ'), ('ԯ', 'ԯ'),
-  ('ՠ', 'ֈ'), ('ა', 'ჺ'), ('ჽ', 'ჿ'), ('ᏸ', 'ᏽ'),
-  ('ᲀ', 'ᲈ'), ('ᴀ', 'ᶿ'), ('ḁ', 'ḁ'), ('ḃ', 'ḃ'),
-  ('ḅ', 'ḅ'), ('ḇ', 'ḇ'), ('ḉ', 'ḉ'), ('ḋ', 'ḋ'),
-  ('ḍ', 'ḍ'), ('ḏ', 'ḏ'), ('ḑ', 'ḑ'), ('ḓ', 'ḓ'),
-  ('ḕ', 'ḕ'), ('ḗ', 'ḗ'), ('ḙ', 'ḙ'), ('ḛ', 'ḛ'),
-  ('ḝ', 'ḝ'), ('ḟ', 'ḟ'), ('ḡ', 'ḡ'), ('ḣ', 'ḣ'),
-  ('ḥ', 'ḥ'), ('ḧ', 'ḧ'), ('ḩ', 'ḩ'), ('ḫ', 'ḫ'),
-  ('ḭ', 'ḭ'), ('ḯ', 'ḯ'), ('ḱ', 'ḱ'), ('ḳ', 'ḳ'),
-  ('ḵ', 'ḵ'), ('ḷ', 'ḷ'), ('ḹ', 'ḹ'), ('ḻ', 'ḻ'),
-  ('ḽ', 'ḽ'), ('ḿ', 'ḿ'), ('ṁ', 'ṁ'), ('ṃ', 'ṃ'),
-  ('ṅ', 'ṅ'), ('ṇ', 'ṇ'), ('ṉ', 'ṉ'), ('ṋ', 'ṋ'),
-  ('ṍ', 'ṍ'), ('ṏ', 'ṏ'), ('ṑ', 'ṑ'), ('ṓ', 'ṓ'),
-  ('ṕ', 'ṕ'), ('ṗ', 'ṗ'), ('ṙ', 'ṙ'), ('ṛ', 'ṛ'),
-  ('ṝ', 'ṝ'), ('ṟ', 'ṟ'), ('ṡ', 'ṡ'), ('ṣ', 'ṣ'),
-  ('ṥ', 'ṥ'), ('ṧ', 'ṧ'), ('ṩ', 'ṩ'), ('ṫ', 'ṫ'),
-  ('ṭ', 'ṭ'), ('ṯ', 'ṯ'), ('ṱ', 'ṱ'), ('ṳ', 'ṳ'),
-  ('ṵ', 'ṵ'), ('ṷ', 'ṷ'), ('ṹ', 'ṹ'), ('ṻ', 'ṻ'),
-  ('ṽ', 'ṽ'), ('ṿ', 'ṿ'), ('ẁ', 'ẁ'), ('ẃ', 'ẃ'),
-  ('ẅ', 'ẅ'), ('ẇ', 'ẇ'), ('ẉ', 'ẉ'), ('ẋ', 'ẋ'),
-  ('ẍ', 'ẍ'), ('ẏ', 'ẏ'), ('ẑ', 'ẑ'), ('ẓ', 'ẓ'),
-  ('ẕ', 'ẝ'), ('ẟ', 'ẟ'), ('ạ', 'ạ'), ('ả', 'ả'),
-  ('ấ', 'ấ'), ('ầ', 'ầ'), ('ẩ', 'ẩ'), ('ẫ', 'ẫ'),
-  ('ậ', 'ậ'), ('ắ', 'ắ'), ('ằ', 'ằ'), ('ẳ', 'ẳ'),
-  ('ẵ', 'ẵ'), ('ặ', 'ặ'), ('ẹ', 'ẹ'), ('ẻ', 'ẻ'),
-  ('ẽ', 'ẽ'), ('ế', 'ế'), ('ề', 'ề'), ('ể', 'ể'),
-  ('ễ', 'ễ'), ('ệ', 'ệ'), ('ỉ', 'ỉ'), ('ị', 'ị'),
-  ('ọ', 'ọ'), ('ỏ', 'ỏ'), ('ố', 'ố'), ('ồ', 'ồ'),
-  ('ổ', 'ổ'), ('ỗ', 'ỗ'), ('ộ', 'ộ'), ('ớ', 'ớ'),
-  ('ờ', 'ờ'), ('ở', 'ở'), ('ỡ', 'ỡ'), ('ợ', 'ợ'),
-  ('ụ', 'ụ'), ('ủ', 'ủ'), ('ứ', 'ứ'), ('ừ', 'ừ'),
-  ('ử', 'ử'), ('ữ', 'ữ'), ('ự', 'ự'), ('ỳ', 'ỳ'),
-  ('ỵ', 'ỵ'), ('ỷ', 'ỷ'), ('ỹ', 'ỹ'), ('ỻ', 'ỻ'),
-  ('ỽ', 'ỽ'), ('ỿ', 'ἇ'), ('ἐ', 'ἕ'), ('ἠ', 'ἧ'),
-  ('ἰ', 'ἷ'), ('ὀ', 'ὅ'), ('ὐ', 'ὗ'), ('ὠ', 'ὧ'),
-  ('ὰ', 'ώ'), ('ᾀ', 'ᾇ'), ('ᾐ', 'ᾗ'), ('ᾠ', 'ᾧ'),
-  ('ᾰ', 'ᾴ'), ('ᾶ', 'ᾷ'), ('ι', 'ι'), ('ῂ', 'ῄ'),
-  ('ῆ', 'ῇ'), ('ῐ', 'ΐ'), ('ῖ', 'ῗ'), ('ῠ', 'ῧ'),
-  ('ῲ', 'ῴ'), ('ῶ', 'ῷ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'),
-  ('ₐ', 'ₜ'), ('ℊ', 'ℊ'), ('ℎ', 'ℏ'), ('ℓ', 'ℓ'),
-  ('ℯ', 'ℯ'), ('ℴ', 'ℴ'), ('ℹ', 'ℹ'), ('ℼ', 'ℽ'),
-  ('ⅆ', 'ⅉ'), ('ⅎ', 'ⅎ'), ('ⅰ', 'ⅿ'), ('ↄ', 'ↄ'),
-  ('ⓐ', 'ⓩ'), ('ⰰ', 'ⱞ'), ('ⱡ', 'ⱡ'), ('ⱥ', 'ⱦ'),
-  ('ⱨ', 'ⱨ'), ('ⱪ', 'ⱪ'), ('ⱬ', 'ⱬ'), ('ⱱ', 'ⱱ'),
-  ('ⱳ', 'ⱴ'), ('ⱶ', 'ⱽ'), ('ⲁ', 'ⲁ'), ('ⲃ', 'ⲃ'),
-  ('ⲅ', 'ⲅ'), ('ⲇ', 'ⲇ'), ('ⲉ', 'ⲉ'), ('ⲋ', 'ⲋ'),
-  ('ⲍ', 'ⲍ'), ('ⲏ', 'ⲏ'), ('ⲑ', 'ⲑ'), ('ⲓ', 'ⲓ'),
-  ('ⲕ', 'ⲕ'), ('ⲗ', 'ⲗ'), ('ⲙ', 'ⲙ'), ('ⲛ', 'ⲛ'),
-  ('ⲝ', 'ⲝ'), ('ⲟ', 'ⲟ'), ('ⲡ', 'ⲡ'), ('ⲣ', 'ⲣ'),
-  ('ⲥ', 'ⲥ'), ('ⲧ', 'ⲧ'), ('ⲩ', 'ⲩ'), ('ⲫ', 'ⲫ'),
-  ('ⲭ', 'ⲭ'), ('ⲯ', 'ⲯ'), ('ⲱ', 'ⲱ'), ('ⲳ', 'ⲳ'),
-  ('ⲵ', 'ⲵ'), ('ⲷ', 'ⲷ'), ('ⲹ', 'ⲹ'), ('ⲻ', 'ⲻ'),
-  ('ⲽ', 'ⲽ'), ('ⲿ', 'ⲿ'), ('ⳁ', 'ⳁ'), ('ⳃ', 'ⳃ'),
-  ('ⳅ', 'ⳅ'), ('ⳇ', 'ⳇ'), ('ⳉ', 'ⳉ'), ('ⳋ', 'ⳋ'),
-  ('ⳍ', 'ⳍ'), ('ⳏ', 'ⳏ'), ('ⳑ', 'ⳑ'), ('ⳓ', 'ⳓ'),
-  ('ⳕ', 'ⳕ'), ('ⳗ', 'ⳗ'), ('ⳙ', 'ⳙ'), ('ⳛ', 'ⳛ'),
-  ('ⳝ', 'ⳝ'), ('ⳟ', 'ⳟ'), ('ⳡ', 'ⳡ'), ('ⳣ', 'ⳤ'),
-  ('ⳬ', 'ⳬ'), ('ⳮ', 'ⳮ'), ('ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ꙁ', 'ꙁ'), ('ꙃ', 'ꙃ'),
-  ('ꙅ', 'ꙅ'), ('ꙇ', 'ꙇ'), ('ꙉ', 'ꙉ'), ('ꙋ', 'ꙋ'),
-  ('ꙍ', 'ꙍ'), ('ꙏ', 'ꙏ'), ('ꙑ', 'ꙑ'), ('ꙓ', 'ꙓ'),
-  ('ꙕ', 'ꙕ'), ('ꙗ', 'ꙗ'), ('ꙙ', 'ꙙ'), ('ꙛ', 'ꙛ'),
-  ('ꙝ', 'ꙝ'), ('ꙟ', 'ꙟ'), ('ꙡ', 'ꙡ'), ('ꙣ', 'ꙣ'),
-  ('ꙥ', 'ꙥ'), ('ꙧ', 'ꙧ'), ('ꙩ', 'ꙩ'), ('ꙫ', 'ꙫ'),
-  ('ꙭ', 'ꙭ'), ('ꚁ', 'ꚁ'), ('ꚃ', 'ꚃ'), ('ꚅ', 'ꚅ'),
-  ('ꚇ', 'ꚇ'), ('ꚉ', 'ꚉ'), ('ꚋ', 'ꚋ'), ('ꚍ', 'ꚍ'),
-  ('ꚏ', 'ꚏ'), ('ꚑ', 'ꚑ'), ('ꚓ', 'ꚓ'), ('ꚕ', 'ꚕ'),
-  ('ꚗ', 'ꚗ'), ('ꚙ', 'ꚙ'), ('ꚛ', 'ꚝ'), ('ꜣ', 'ꜣ'),
-  ('ꜥ', 'ꜥ'), ('ꜧ', 'ꜧ'), ('ꜩ', 'ꜩ'), ('ꜫ', 'ꜫ'),
-  ('ꜭ', 'ꜭ'), ('ꜯ', 'ꜱ'), ('ꜳ', 'ꜳ'), ('ꜵ', 'ꜵ'),
-  ('ꜷ', 'ꜷ'), ('ꜹ', 'ꜹ'), ('ꜻ', 'ꜻ'), ('ꜽ', 'ꜽ'),
-  ('ꜿ', 'ꜿ'), ('ꝁ', 'ꝁ'), ('ꝃ', 'ꝃ'), ('ꝅ', 'ꝅ'),
-  ('ꝇ', 'ꝇ'), ('ꝉ', 'ꝉ'), ('ꝋ', 'ꝋ'), ('ꝍ', 'ꝍ'),
-  ('ꝏ', 'ꝏ'), ('ꝑ', 'ꝑ'), ('ꝓ', 'ꝓ'), ('ꝕ', 'ꝕ'),
-  ('ꝗ', 'ꝗ'), ('ꝙ', 'ꝙ'), ('ꝛ', 'ꝛ'), ('ꝝ', 'ꝝ'),
-  ('ꝟ', 'ꝟ'), ('ꝡ', 'ꝡ'), ('ꝣ', 'ꝣ'), ('ꝥ', 'ꝥ'),
-  ('ꝧ', 'ꝧ'), ('ꝩ', 'ꝩ'), ('ꝫ', 'ꝫ'), ('ꝭ', 'ꝭ'),
-  ('ꝯ', 'ꝸ'), ('ꝺ', 'ꝺ'), ('ꝼ', 'ꝼ'), ('ꝿ', 'ꝿ'),
-  ('ꞁ', 'ꞁ'), ('ꞃ', 'ꞃ'), ('ꞅ', 'ꞅ'), ('ꞇ', 'ꞇ'),
-  ('ꞌ', 'ꞌ'), ('ꞎ', 'ꞎ'), ('ꞑ', 'ꞑ'), ('ꞓ', 'ꞕ'),
-  ('ꞗ', 'ꞗ'), ('ꞙ', 'ꞙ'), ('ꞛ', 'ꞛ'), ('ꞝ', 'ꞝ'),
-  ('ꞟ', 'ꞟ'), ('ꞡ', 'ꞡ'), ('ꞣ', 'ꞣ'), ('ꞥ', 'ꞥ'),
-  ('ꞧ', 'ꞧ'), ('ꞩ', 'ꞩ'), ('ꞯ', 'ꞯ'), ('ꞵ', 'ꞵ'),
-  ('ꞷ', 'ꞷ'), ('ꞹ', 'ꞹ'), ('\u{a7bb}', '\u{a7bb}'),
-  ('\u{a7bd}', '\u{a7bd}'), ('\u{a7bf}', '\u{a7bf}'),
-  ('\u{a7c3}', '\u{a7c3}'), ('ꟸ', 'ꟺ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꮿ'), ('ff', 'st'), ('ﬓ', 'ﬗ'),
-  ('a', 'z'), ('𐐨', '𐑏'), ('𐓘', '𐓻'), ('𐳀', '𐳲'),
-  ('𑣀', '𑣟'), ('𖹠', '𖹿'), ('𝐚', '𝐳'), ('𝑎', '𝑔'),
-  ('𝑖', '𝑧'), ('𝒂', '𝒛'), ('𝒶', '𝒹'), ('𝒻', '𝒻'),
-  ('𝒽', '𝓃'), ('𝓅', '𝓏'), ('𝓪', '𝔃'), ('𝔞', '𝔷'),
-  ('𝕒', '𝕫'), ('𝖆', '𝖟'), ('𝖺', '𝗓'), ('𝗮', '𝘇'),
-  ('𝘢', '𝘻'), ('𝙖', '𝙯'), ('𝚊', '𝚥'), ('𝛂', '𝛚'),
-  ('𝛜', '𝛡'), ('𝛼', '𝜔'), ('𝜖', '𝜛'), ('𝜶', '𝝎'),
-  ('𝝐', '𝝕'), ('𝝰', '𝞈'), ('𝞊', '𝞏'), ('𝞪', '𝟂'),
-  ('𝟄', '𝟉'), ('𝟋', '𝟋'), ('𞤢', '𞥃'),
-];
-
-pub const MATH: &'static [(char, char)] = &[
-  ('+', '+'), ('<', '>'), ('^', '^'), ('|', '|'), ('~', '~'), ('¬', '¬'),
-  ('±', '±'), ('×', '×'), ('÷', '÷'), ('ϐ', 'ϒ'), ('ϕ', 'ϕ'),
-  ('ϰ', 'ϱ'), ('ϴ', '϶'), ('؆', '؈'), ('‖', '‖'), ('′', '‴'),
-  ('⁀', '⁀'), ('⁄', '⁄'), ('⁒', '⁒'), ('\u{2061}', '\u{2064}'),
-  ('⁺', '⁾'), ('₊', '₎'), ('\u{20d0}', '\u{20dc}'),
-  ('\u{20e1}', '\u{20e1}'), ('\u{20e5}', '\u{20e6}'),
-  ('\u{20eb}', '\u{20ef}'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'),
-  ('ℕ', 'ℕ'), ('℘', 'ℝ'), ('ℤ', 'ℤ'), ('ℨ', '℩'),
-  ('ℬ', 'ℭ'), ('ℯ', 'ℱ'), ('ℳ', 'ℸ'), ('ℼ', 'ⅉ'),
-  ('⅋', '⅋'), ('←', '↧'), ('↩', '↮'), ('↰', '↱'),
-  ('↶', '↷'), ('↼', '⇛'), ('⇝', '⇝'), ('⇤', '⇥'),
-  ('⇴', '⋿'), ('⌈', '⌋'), ('⌠', '⌡'), ('⍼', '⍼'),
-  ('⎛', '⎵'), ('⎷', '⎷'), ('⏐', '⏐'), ('⏜', '⏢'),
-  ('■', '□'), ('▮', '▷'), ('▼', '◁'), ('◆', '◇'),
-  ('◊', '○'), ('●', '◓'), ('◢', '◢'), ('◤', '◤'),
-  ('◧', '◬'), ('◸', '◿'), ('★', '☆'), ('♀', '♀'),
-  ('♂', '♂'), ('♠', '♣'), ('♭', '♯'), ('⟀', '⟿'),
-  ('⤀', '⫿'), ('⬰', '⭄'), ('⭇', '⭌'), ('﬩', '﬩'),
-  ('﹡', '﹦'), ('﹨', '﹨'), ('+', '+'), ('<', '>'),
-  ('\', '\'), ('^', '^'), ('|', '|'), ('~', '~'),
-  ('¬', '¬'), ('←', '↓'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝟋'), ('𝟎', '𝟿'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-  ('𞻰', '𞻱'),
-];
-
-pub const NONCHARACTER_CODE_POINT: &'static [(char, char)] = &[
-  ('\u{fdd0}', '\u{fdef}'), ('\u{fffe}', '\u{ffff}'),
-  ('\u{1fffe}', '\u{1ffff}'), ('\u{2fffe}', '\u{2ffff}'),
-  ('\u{3fffe}', '\u{3ffff}'), ('\u{4fffe}', '\u{4ffff}'),
-  ('\u{5fffe}', '\u{5ffff}'), ('\u{6fffe}', '\u{6ffff}'),
-  ('\u{7fffe}', '\u{7ffff}'), ('\u{8fffe}', '\u{8ffff}'),
-  ('\u{9fffe}', '\u{9ffff}'), ('\u{afffe}', '\u{affff}'),
-  ('\u{bfffe}', '\u{bffff}'), ('\u{cfffe}', '\u{cffff}'),
-  ('\u{dfffe}', '\u{dffff}'), ('\u{efffe}', '\u{effff}'),
-  ('\u{ffffe}', '\u{fffff}'), ('\u{10fffe}', '\u{10ffff}'),
-];
-
-pub const OTHER_ALPHABETIC: &'static [(char, char)] = &[
-  ('\u{345}', '\u{345}'), ('\u{5b0}', '\u{5bd}'), ('\u{5bf}', '\u{5bf}'),
-  ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'), ('\u{5c7}', '\u{5c7}'),
-  ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{657}'), ('\u{659}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6e1}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ed}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{73f}'), ('\u{7a6}', '\u{7b0}'), ('\u{816}', '\u{817}'),
-  ('\u{81b}', '\u{823}'), ('\u{825}', '\u{827}'), ('\u{829}', '\u{82c}'),
-  ('\u{8d4}', '\u{8df}'), ('\u{8e3}', '\u{8e9}'), ('\u{8f0}', 'ः'),
-  ('\u{93a}', 'ऻ'), ('ा', 'ौ'), ('ॎ', 'ॏ'), ('\u{955}', '\u{957}'),
-  ('\u{962}', '\u{963}'), ('\u{981}', 'ঃ'), ('\u{9be}', '\u{9c4}'),
-  ('ে', 'ৈ'), ('ো', 'ৌ'), ('\u{9d7}', '\u{9d7}'),
-  ('\u{9e2}', '\u{9e3}'), ('\u{a01}', 'ਃ'), ('ਾ', '\u{a42}'),
-  ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4c}'), ('\u{a51}', '\u{a51}'),
-  ('\u{a70}', '\u{a71}'), ('\u{a75}', '\u{a75}'), ('\u{a81}', 'ઃ'),
-  ('ા', '\u{ac5}'), ('\u{ac7}', 'ૉ'), ('ો', 'ૌ'),
-  ('\u{ae2}', '\u{ae3}'), ('\u{afa}', '\u{afc}'), ('\u{b01}', 'ଃ'),
-  ('\u{b3e}', '\u{b44}'), ('େ', 'ୈ'), ('ୋ', 'ୌ'),
-  ('\u{b56}', '\u{b57}'), ('\u{b62}', '\u{b63}'), ('\u{b82}', '\u{b82}'),
-  ('\u{bbe}', 'ூ'), ('ெ', 'ை'), ('ொ', 'ௌ'), ('\u{bd7}', '\u{bd7}'),
-  ('\u{c00}', 'ః'), ('\u{c3e}', 'ౄ'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4c}'), ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'),
-  ('\u{c81}', 'ಃ'), ('ಾ', 'ೄ'), ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccc}'),
-  ('\u{cd5}', '\u{cd6}'), ('\u{ce2}', '\u{ce3}'), ('\u{d00}', 'ഃ'),
-  ('\u{d3e}', '\u{d44}'), ('െ', 'ൈ'), ('ൊ', 'ൌ'),
-  ('\u{d57}', '\u{d57}'), ('\u{d62}', '\u{d63}'), ('ං', 'ඃ'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('ෲ', 'ෳ'), ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'),
-  ('\u{e4d}', '\u{e4d}'), ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{eb9}'),
-  ('\u{ebb}', '\u{ebc}'), ('\u{ecd}', '\u{ecd}'), ('\u{f71}', '\u{f81}'),
-  ('\u{f8d}', '\u{f97}'), ('\u{f99}', '\u{fbc}'), ('ါ', '\u{1036}'),
-  ('း', 'း'), ('ျ', '\u{103e}'), ('ၖ', '\u{1059}'),
-  ('\u{105e}', '\u{1060}'), ('ၢ', 'ၤ'), ('ၧ', 'ၭ'),
-  ('\u{1071}', '\u{1074}'), ('\u{1082}', '\u{108d}'), ('ႏ', 'ႏ'),
-  ('ႚ', '\u{109d}'), ('\u{1712}', '\u{1713}'), ('\u{1732}', '\u{1733}'),
-  ('\u{1752}', '\u{1753}'), ('\u{1772}', '\u{1773}'), ('ា', 'ៈ'),
-  ('\u{1885}', '\u{1886}'), ('\u{18a9}', '\u{18a9}'), ('\u{1920}', 'ᤫ'),
-  ('ᤰ', 'ᤸ'), ('\u{1a17}', '\u{1a1b}'), ('ᩕ', '\u{1a5e}'),
-  ('ᩡ', '\u{1a74}'), ('\u{1b00}', 'ᬄ'), ('ᬵ', 'ᭃ'),
-  ('\u{1b80}', 'ᮂ'), ('ᮡ', '\u{1ba9}'), ('\u{1bac}', '\u{1bad}'),
-  ('ᯧ', '\u{1bf1}'), ('ᰤ', '\u{1c36}'), ('\u{1de7}', '\u{1df4}'),
-  ('Ⓐ', 'ⓩ'), ('\u{2de0}', '\u{2dff}'), ('\u{a674}', '\u{a67b}'),
-  ('\u{a69e}', '\u{a69f}'), ('\u{a802}', '\u{a802}'),
-  ('\u{a80b}', '\u{a80b}'), ('ꠣ', 'ꠧ'), ('ꢀ', 'ꢁ'), ('ꢴ', 'ꣃ'),
-  ('\u{a8c5}', '\u{a8c5}'), ('\u{a8ff}', '\u{a8ff}'),
-  ('\u{a926}', '\u{a92a}'), ('\u{a947}', 'ꥒ'), ('\u{a980}', 'ꦃ'),
-  ('ꦴ', 'ꦿ'), ('\u{a9e5}', '\u{a9e5}'), ('\u{aa29}', '\u{aa36}'),
-  ('\u{aa43}', '\u{aa43}'), ('\u{aa4c}', 'ꩍ'), ('ꩻ', 'ꩽ'),
-  ('\u{aab0}', '\u{aab0}'), ('\u{aab2}', '\u{aab4}'),
-  ('\u{aab7}', '\u{aab8}'), ('\u{aabe}', '\u{aabe}'), ('ꫫ', 'ꫯ'),
-  ('ꫵ', 'ꫵ'), ('ꯣ', 'ꯪ'), ('\u{fb1e}', '\u{fb1e}'),
-  ('\u{10376}', '\u{1037a}'), ('\u{10a01}', '\u{10a03}'),
-  ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '\u{10a0f}'),
-  ('\u{10d24}', '\u{10d27}'), ('𑀀', '𑀂'), ('\u{11038}', '\u{11045}'),
-  ('𑂂', '𑂂'), ('𑂰', '𑂸'), ('\u{11100}', '\u{11102}'),
-  ('\u{11127}', '\u{11132}'), ('𑅅', '𑅆'), ('\u{11180}', '𑆂'),
-  ('𑆳', '𑆿'), ('𑈬', '\u{11234}'), ('\u{11237}', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('\u{112df}', '\u{112e8}'),
-  ('\u{11300}', '𑌃'), ('\u{1133e}', '𑍄'), ('𑍇', '𑍈'),
-  ('𑍋', '𑍌'), ('\u{11357}', '\u{11357}'), ('𑍢', '𑍣'),
-  ('𑐵', '𑑁'), ('\u{11443}', '𑑅'), ('\u{114b0}', '𑓁'),
-  ('\u{115af}', '\u{115b5}'), ('𑖸', '𑖾'), ('\u{115dc}', '\u{115dd}'),
-  ('𑘰', '𑘾'), ('\u{11640}', '\u{11640}'), ('\u{116ab}', '\u{116b5}'),
-  ('\u{1171d}', '\u{1172a}'), ('𑠬', '𑠸'), ('\u{119d1}', '\u{119d7}'),
-  ('\u{119da}', '\u{119df}'), ('\u{119e4}', '\u{119e4}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a35}', '𑨹'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a51}', '\u{11a5b}'),
-  ('\u{11a8a}', '𑪗'), ('𑰯', '\u{11c36}'), ('\u{11c38}', '𑰾'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-  ('\u{11d31}', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d41}'),
-  ('\u{11d43}', '\u{11d43}'), ('\u{11d47}', '\u{11d47}'), ('𑶊', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶖'), ('\u{11ef3}', '𑻶'),
-  ('\u{16f4f}', '\u{16f4f}'), ('𖽑', '\u{16f87}'),
-  ('\u{16f8f}', '\u{16f92}'), ('\u{1bc9e}', '\u{1bc9e}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e947}', '\u{1e947}'), ('🄰', '🅉'),
-  ('🅐', '🅩'), ('🅰', '🆉'),
-];
-
-pub const OTHER_DEFAULT_IGNORABLE_CODE_POINT: &'static [(char, char)] = &[
-  ('\u{34f}', '\u{34f}'), ('ᅟ', 'ᅠ'), ('\u{17b4}', '\u{17b5}'),
-  ('\u{2065}', '\u{2065}'), ('ㅤ', 'ㅤ'), ('ᅠ', 'ᅠ'),
-  ('\u{fff0}', '\u{fff8}'), ('\u{e0000}', '\u{e0000}'),
-  ('\u{e0002}', '\u{e001f}'), ('\u{e0080}', '\u{e00ff}'),
-  ('\u{e01f0}', '\u{e0fff}'),
-];
-
-pub const OTHER_GRAPHEME_EXTEND: &'static [(char, char)] = &[
-  ('\u{9be}', '\u{9be}'), ('\u{9d7}', '\u{9d7}'), ('\u{b3e}', '\u{b3e}'),
-  ('\u{b57}', '\u{b57}'), ('\u{bbe}', '\u{bbe}'), ('\u{bd7}', '\u{bd7}'),
-  ('\u{cc2}', '\u{cc2}'), ('\u{cd5}', '\u{cd6}'), ('\u{d3e}', '\u{d3e}'),
-  ('\u{d57}', '\u{d57}'), ('\u{dcf}', '\u{dcf}'), ('\u{ddf}', '\u{ddf}'),
-  ('ᬵ', 'ᬵ'), ('\u{200c}', '\u{200c}'), ('\u{302e}', '\u{302f}'),
-  ('\u{ff9e}', '\u{ff9f}'), ('\u{1133e}', '\u{1133e}'),
-  ('\u{11357}', '\u{11357}'), ('\u{114b0}', '\u{114b0}'),
-  ('\u{114bd}', '\u{114bd}'), ('\u{115af}', '\u{115af}'),
-  ('\u{1d165}', '\u{1d165}'), ('\u{1d16e}', '\u{1d172}'),
-  ('\u{e0020}', '\u{e007f}'),
-];
-
-pub const OTHER_ID_CONTINUE: &'static [(char, char)] = &[
-  ('·', '·'), ('·', '·'), ('፩', '፱'), ('᧚', '᧚'),
-];
-
-pub const OTHER_ID_START: &'static [(char, char)] = &[
-  ('\u{1885}', '\u{1886}'), ('℘', '℘'), ('℮', '℮'), ('゛', '゜'),
-];
-
-pub const OTHER_LOWERCASE: &'static [(char, char)] = &[
-  ('ª', 'ª'), ('º', 'º'), ('ʰ', 'ʸ'), ('ˀ', 'ˁ'), ('ˠ', 'ˤ'),
-  ('\u{345}', '\u{345}'), ('ͺ', 'ͺ'), ('ᴬ', 'ᵪ'), ('ᵸ', 'ᵸ'),
-  ('ᶛ', 'ᶿ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'),
-  ('ⅰ', 'ⅿ'), ('ⓐ', 'ⓩ'), ('ⱼ', 'ⱽ'), ('ꚜ', 'ꚝ'),
-  ('ꝰ', 'ꝰ'), ('ꟸ', 'ꟹ'), ('ꭜ', 'ꭟ'),
-];
-
-pub const OTHER_MATH: &'static [(char, char)] = &[
-  ('^', '^'), ('ϐ', 'ϒ'), ('ϕ', 'ϕ'), ('ϰ', 'ϱ'), ('ϴ', 'ϵ'),
-  ('‖', '‖'), ('′', '‴'), ('⁀', '⁀'), ('\u{2061}', '\u{2064}'),
-  ('⁽', '⁾'), ('₍', '₎'), ('\u{20d0}', '\u{20dc}'),
-  ('\u{20e1}', '\u{20e1}'), ('\u{20e5}', '\u{20e6}'),
-  ('\u{20eb}', '\u{20ef}'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'),
-  ('ℕ', 'ℕ'), ('ℙ', 'ℝ'), ('ℤ', 'ℤ'), ('ℨ', '℩'),
-  ('ℬ', 'ℭ'), ('ℯ', 'ℱ'), ('ℳ', 'ℸ'), ('ℼ', 'ℿ'),
-  ('ⅅ', 'ⅉ'), ('↕', '↙'), ('↜', '↟'), ('↡', '↢'),
-  ('↤', '↥'), ('↧', '↧'), ('↩', '↭'), ('↰', '↱'),
-  ('↶', '↷'), ('↼', '⇍'), ('⇐', '⇑'), ('⇓', '⇓'),
-  ('⇕', '⇛'), ('⇝', '⇝'), ('⇤', '⇥'), ('⌈', '⌋'),
-  ('⎴', '⎵'), ('⎷', '⎷'), ('⏐', '⏐'), ('⏢', '⏢'),
-  ('■', '□'), ('▮', '▶'), ('▼', '◀'), ('◆', '◇'),
-  ('◊', '○'), ('●', '◓'), ('◢', '◢'), ('◤', '◤'),
-  ('◧', '◬'), ('★', '☆'), ('♀', '♀'), ('♂', '♂'),
-  ('♠', '♣'), ('♭', '♮'), ('⟅', '⟆'), ('⟦', '⟯'),
-  ('⦃', '⦘'), ('⧘', '⧛'), ('⧼', '⧽'), ('﹡', '﹡'),
-  ('﹣', '﹣'), ('﹨', '﹨'), ('\', '\'), ('^', '^'),
-  ('𝐀', '𝑔'), ('𝑖', '𝒜'), ('𝒞', '𝒟'), ('𝒢', '𝒢'),
-  ('𝒥', '𝒦'), ('𝒩', '𝒬'), ('𝒮', '𝒹'), ('𝒻', '𝒻'),
-  ('𝒽', '𝓃'), ('𝓅', '𝔅'), ('𝔇', '𝔊'), ('𝔍', '𝔔'),
-  ('𝔖', '𝔜'), ('𝔞', '𝔹'), ('𝔻', '𝔾'), ('𝕀', '𝕄'),
-  ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕒', '𝚥'), ('𝚨', '𝛀'),
-  ('𝛂', '𝛚'), ('𝛜', '𝛺'), ('𝛼', '𝜔'), ('𝜖', '𝜴'),
-  ('𝜶', '𝝎'), ('𝝐', '𝝮'), ('𝝰', '𝞈'), ('𝞊', '𝞨'),
-  ('𝞪', '𝟂'), ('𝟄', '𝟋'), ('𝟎', '𝟿'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-];
-
-pub const OTHER_UPPERCASE: &'static [(char, char)] = &[
-  ('Ⅰ', 'Ⅿ'), ('Ⓐ', 'Ⓩ'), ('🄰', '🅉'), ('🅐', '🅩'),
-  ('🅰', '🆉'),
-];
-
-pub const PATTERN_SYNTAX: &'static [(char, char)] = &[
-  ('!', '/'), (':', '@'), ('[', '^'), ('`', '`'), ('{', '~'), ('¡', '§'),
-  ('©', '©'), ('«', '¬'), ('®', '®'), ('°', '±'), ('¶', '¶'),
-  ('»', '»'), ('¿', '¿'), ('×', '×'), ('÷', '÷'), ('‐', '‧'),
-  ('‰', '‾'), ('⁁', '⁓'), ('⁕', '⁞'), ('←', '\u{245f}'),
-  ('─', '❵'), ('➔', '\u{2bff}'), ('⸀', '\u{2e7f}'), ('、', '〃'),
-  ('〈', '〠'), ('〰', '〰'), ('﴾', '﴿'), ('﹅', '﹆'),
-];
-
-pub const PATTERN_WHITE_SPACE: &'static [(char, char)] = &[
-  ('\t', '\r'), (' ', ' '), ('\u{85}', '\u{85}'), ('\u{200e}', '\u{200f}'),
-  ('\u{2028}', '\u{2029}'),
-];
-
-pub const PREPENDED_CONCATENATION_MARK: &'static [(char, char)] = &[
-  ('\u{600}', '\u{605}'), ('\u{6dd}', '\u{6dd}'), ('\u{70f}', '\u{70f}'),
-  ('\u{8e2}', '\u{8e2}'), ('\u{110bd}', '\u{110bd}'),
-  ('\u{110cd}', '\u{110cd}'),
-];
-
-pub const QUOTATION_MARK: &'static [(char, char)] = &[
-  ('\"', '\"'), ('\'', '\''), ('«', '«'), ('»', '»'), ('‘', '‟'),
-  ('‹', '›'), ('⹂', '⹂'), ('「', '』'), ('〝', '〟'),
-  ('﹁', '﹄'), ('"', '"'), (''', '''), ('「', '」'),
-];
-
-pub const RADICAL: &'static [(char, char)] = &[
-  ('⺀', '⺙'), ('⺛', '⻳'), ('⼀', '⿕'),
-];
-
-pub const REGIONAL_INDICATOR: &'static [(char, char)] = &[
-  ('🇦', '🇿'),
-];
-
-pub const SENTENCE_TERMINAL: &'static [(char, char)] = &[
-  ('!', '!'), ('.', '.'), ('?', '?'), ('։', '։'), ('؞', '؟'),
-  ('۔', '۔'), ('܀', '܂'), ('߹', '߹'), ('࠷', '࠷'), ('࠹', '࠹'),
-  ('࠽', '࠾'), ('।', '॥'), ('၊', '။'), ('።', '።'),
-  ('፧', '፨'), ('᙮', '᙮'), ('᜵', '᜶'), ('᠃', '᠃'),
-  ('᠉', '᠉'), ('᥄', '᥅'), ('᪨', '᪫'), ('᭚', '᭛'),
-  ('᭞', '᭟'), ('᰻', '᰼'), ('᱾', '᱿'), ('‼', '‽'),
-  ('⁇', '⁉'), ('⸮', '⸮'), ('⸼', '⸼'), ('。', '。'),
-  ('꓿', '꓿'), ('꘎', '꘏'), ('꛳', '꛳'), ('꛷', '꛷'),
-  ('꡶', '꡷'), ('꣎', '꣏'), ('꤯', '꤯'), ('꧈', '꧉'),
-  ('꩝', '꩟'), ('꫰', '꫱'), ('꯫', '꯫'), ('﹒', '﹒'),
-  ('﹖', '﹗'), ('!', '!'), ('.', '.'), ('?', '?'),
-  ('。', '。'), ('𐩖', '𐩗'), ('𐽕', '𐽙'), ('𑁇', '𑁈'),
-  ('𑂾', '𑃁'), ('𑅁', '𑅃'), ('𑇅', '𑇆'), ('𑇍', '𑇍'),
-  ('𑇞', '𑇟'), ('𑈸', '𑈹'), ('𑈻', '𑈼'), ('𑊩', '𑊩'),
-  ('𑑋', '𑑌'), ('𑗂', '𑗃'), ('𑗉', '𑗗'), ('𑙁', '𑙂'),
-  ('𑜼', '𑜾'), ('𑩂', '𑩃'), ('𑪛', '𑪜'), ('𑱁', '𑱂'),
-  ('𑻷', '𑻸'), ('𖩮', '𖩯'), ('𖫵', '𖫵'), ('𖬷', '𖬸'),
-  ('𖭄', '𖭄'), ('𖺘', '𖺘'), ('𛲟', '𛲟'), ('𝪈', '𝪈'),
-];
-
-pub const SOFT_DOTTED: &'static [(char, char)] = &[
-  ('i', 'j'), ('į', 'į'), ('ɉ', 'ɉ'), ('ɨ', 'ɨ'), ('ʝ', 'ʝ'),
-  ('ʲ', 'ʲ'), ('ϳ', 'ϳ'), ('і', 'і'), ('ј', 'ј'), ('ᵢ', 'ᵢ'),
-  ('ᶖ', 'ᶖ'), ('ᶤ', 'ᶤ'), ('ᶨ', 'ᶨ'), ('ḭ', 'ḭ'),
-  ('ị', 'ị'), ('ⁱ', 'ⁱ'), ('ⅈ', 'ⅉ'), ('ⱼ', 'ⱼ'),
-  ('𝐢', '𝐣'), ('𝑖', '𝑗'), ('𝒊', '𝒋'), ('𝒾', '𝒿'),
-  ('𝓲', '𝓳'), ('𝔦', '𝔧'), ('𝕚', '𝕛'), ('𝖎', '𝖏'),
-  ('𝗂', '𝗃'), ('𝗶', '𝗷'), ('𝘪', '𝘫'), ('𝙞', '𝙟'),
-  ('𝚒', '𝚓'),
-];
-
-pub const TERMINAL_PUNCTUATION: &'static [(char, char)] = &[
-  ('!', '!'), (',', ','), ('.', '.'), (':', ';'), ('?', '?'), (';', ';'),
-  ('·', '·'), ('։', '։'), ('׃', '׃'), ('،', '،'), ('؛', '؛'),
-  ('؞', '؟'), ('۔', '۔'), ('܀', '܊'), ('܌', '܌'), ('߸', '߹'),
-  ('࠰', '࠾'), ('࡞', '࡞'), ('।', '॥'), ('๚', '๛'),
-  ('༈', '༈'), ('།', '༒'), ('၊', '။'), ('፡', '፨'),
-  ('᙮', '᙮'), ('᛫', '᛭'), ('᜵', '᜶'), ('។', '៖'),
-  ('៚', '៚'), ('᠂', '᠅'), ('᠈', '᠉'), ('᥄', '᥅'),
-  ('᪨', '᪫'), ('᭚', '᭛'), ('᭝', '᭟'), ('᰻', '᰿'),
-  ('᱾', '᱿'), ('‼', '‽'), ('⁇', '⁉'), ('⸮', '⸮'),
-  ('⸼', '⸼'), ('⹁', '⹁'), ('⹌', '⹌'), ('⹎', '\u{2e4f}'),
-  ('、', '。'), ('꓾', '꓿'), ('꘍', '꘏'), ('꛳', '꛷'),
-  ('꡶', '꡷'), ('꣎', '꣏'), ('꤯', '꤯'), ('꧇', '꧉'),
-  ('꩝', '꩟'), ('꫟', '꫟'), ('꫰', '꫱'), ('꯫', '꯫'),
-  ('﹐', '﹒'), ('﹔', '﹗'), ('!', '!'), (',', ','),
-  ('.', '.'), (':', ';'), ('?', '?'), ('。', '。'),
-  ('、', '、'), ('𐎟', '𐎟'), ('𐏐', '𐏐'), ('𐡗', '𐡗'),
-  ('𐤟', '𐤟'), ('𐩖', '𐩗'), ('𐫰', '𐫵'), ('𐬺', '𐬿'),
-  ('𐮙', '𐮜'), ('𐽕', '𐽙'), ('𑁇', '𑁍'), ('𑂾', '𑃁'),
-  ('𑅁', '𑅃'), ('𑇅', '𑇆'), ('𑇍', '𑇍'), ('𑇞', '𑇟'),
-  ('𑈸', '𑈼'), ('𑊩', '𑊩'), ('𑑋', '𑑍'), ('𑑛', '𑑛'),
-  ('𑗂', '𑗅'), ('𑗉', '𑗗'), ('𑙁', '𑙂'), ('𑜼', '𑜾'),
-  ('𑩂', '𑩃'), ('𑪛', '𑪜'), ('𑪡', '𑪢'), ('𑱁', '𑱃'),
-  ('𑱱', '𑱱'), ('𑻷', '𑻸'), ('𒑰', '𒑴'), ('𖩮', '𖩯'),
-  ('𖫵', '𖫵'), ('𖬷', '𖬹'), ('𖭄', '𖭄'), ('𖺗', '𖺘'),
-  ('𛲟', '𛲟'), ('𝪇', '𝪊'),
-];
-
-pub const UNIFIED_IDEOGRAPH: &'static [(char, char)] = &[
-  ('㐀', '䶵'), ('一', '鿯'), ('﨎', '﨏'), ('﨑', '﨑'),
-  ('﨓', '﨔'), ('﨟', '﨟'), ('﨡', '﨡'), ('﨣', '﨤'),
-  ('﨧', '﨩'), ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'),
-  ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-];
-
-pub const UPPERCASE: &'static [(char, char)] = &[
-  ('A', 'Z'), ('À', 'Ö'), ('Ø', 'Þ'), ('Ā', 'Ā'), ('Ă', 'Ă'),
-  ('Ą', 'Ą'), ('Ć', 'Ć'), ('Ĉ', 'Ĉ'), ('Ċ', 'Ċ'), ('Č', 'Č'),
-  ('Ď', 'Ď'), ('Đ', 'Đ'), ('Ē', 'Ē'), ('Ĕ', 'Ĕ'), ('Ė', 'Ė'),
-  ('Ę', 'Ę'), ('Ě', 'Ě'), ('Ĝ', 'Ĝ'), ('Ğ', 'Ğ'), ('Ġ', 'Ġ'),
-  ('Ģ', 'Ģ'), ('Ĥ', 'Ĥ'), ('Ħ', 'Ħ'), ('Ĩ', 'Ĩ'), ('Ī', 'Ī'),
-  ('Ĭ', 'Ĭ'), ('Į', 'Į'), ('İ', 'İ'), ('IJ', 'IJ'), ('Ĵ', 'Ĵ'),
-  ('Ķ', 'Ķ'), ('Ĺ', 'Ĺ'), ('Ļ', 'Ļ'), ('Ľ', 'Ľ'), ('Ŀ', 'Ŀ'),
-  ('Ł', 'Ł'), ('Ń', 'Ń'), ('Ņ', 'Ņ'), ('Ň', 'Ň'), ('Ŋ', 'Ŋ'),
-  ('Ō', 'Ō'), ('Ŏ', 'Ŏ'), ('Ő', 'Ő'), ('Œ', 'Œ'), ('Ŕ', 'Ŕ'),
-  ('Ŗ', 'Ŗ'), ('Ř', 'Ř'), ('Ś', 'Ś'), ('Ŝ', 'Ŝ'), ('Ş', 'Ş'),
-  ('Š', 'Š'), ('Ţ', 'Ţ'), ('Ť', 'Ť'), ('Ŧ', 'Ŧ'), ('Ũ', 'Ũ'),
-  ('Ū', 'Ū'), ('Ŭ', 'Ŭ'), ('Ů', 'Ů'), ('Ű', 'Ű'), ('Ų', 'Ų'),
-  ('Ŵ', 'Ŵ'), ('Ŷ', 'Ŷ'), ('Ÿ', 'Ź'), ('Ż', 'Ż'), ('Ž', 'Ž'),
-  ('Ɓ', 'Ƃ'), ('Ƅ', 'Ƅ'), ('Ɔ', 'Ƈ'), ('Ɖ', 'Ƌ'), ('Ǝ', 'Ƒ'),
-  ('Ɠ', 'Ɣ'), ('Ɩ', 'Ƙ'), ('Ɯ', 'Ɲ'), ('Ɵ', 'Ơ'), ('Ƣ', 'Ƣ'),
-  ('Ƥ', 'Ƥ'), ('Ʀ', 'Ƨ'), ('Ʃ', 'Ʃ'), ('Ƭ', 'Ƭ'), ('Ʈ', 'Ư'),
-  ('Ʊ', 'Ƴ'), ('Ƶ', 'Ƶ'), ('Ʒ', 'Ƹ'), ('Ƽ', 'Ƽ'), ('DŽ', 'DŽ'),
-  ('LJ', 'LJ'), ('NJ', 'NJ'), ('Ǎ', 'Ǎ'), ('Ǐ', 'Ǐ'), ('Ǒ', 'Ǒ'),
-  ('Ǔ', 'Ǔ'), ('Ǖ', 'Ǖ'), ('Ǘ', 'Ǘ'), ('Ǚ', 'Ǚ'), ('Ǜ', 'Ǜ'),
-  ('Ǟ', 'Ǟ'), ('Ǡ', 'Ǡ'), ('Ǣ', 'Ǣ'), ('Ǥ', 'Ǥ'), ('Ǧ', 'Ǧ'),
-  ('Ǩ', 'Ǩ'), ('Ǫ', 'Ǫ'), ('Ǭ', 'Ǭ'), ('Ǯ', 'Ǯ'), ('DZ', 'DZ'),
-  ('Ǵ', 'Ǵ'), ('Ƕ', 'Ǹ'), ('Ǻ', 'Ǻ'), ('Ǽ', 'Ǽ'), ('Ǿ', 'Ǿ'),
-  ('Ȁ', 'Ȁ'), ('Ȃ', 'Ȃ'), ('Ȅ', 'Ȅ'), ('Ȇ', 'Ȇ'), ('Ȉ', 'Ȉ'),
-  ('Ȋ', 'Ȋ'), ('Ȍ', 'Ȍ'), ('Ȏ', 'Ȏ'), ('Ȑ', 'Ȑ'), ('Ȓ', 'Ȓ'),
-  ('Ȕ', 'Ȕ'), ('Ȗ', 'Ȗ'), ('Ș', 'Ș'), ('Ț', 'Ț'), ('Ȝ', 'Ȝ'),
-  ('Ȟ', 'Ȟ'), ('Ƞ', 'Ƞ'), ('Ȣ', 'Ȣ'), ('Ȥ', 'Ȥ'), ('Ȧ', 'Ȧ'),
-  ('Ȩ', 'Ȩ'), ('Ȫ', 'Ȫ'), ('Ȭ', 'Ȭ'), ('Ȯ', 'Ȯ'), ('Ȱ', 'Ȱ'),
-  ('Ȳ', 'Ȳ'), ('Ⱥ', 'Ȼ'), ('Ƚ', 'Ⱦ'), ('Ɂ', 'Ɂ'), ('Ƀ', 'Ɇ'),
-  ('Ɉ', 'Ɉ'), ('Ɋ', 'Ɋ'), ('Ɍ', 'Ɍ'), ('Ɏ', 'Ɏ'), ('Ͱ', 'Ͱ'),
-  ('Ͳ', 'Ͳ'), ('Ͷ', 'Ͷ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ώ'), ('Α', 'Ρ'), ('Σ', 'Ϋ'), ('Ϗ', 'Ϗ'),
-  ('ϒ', 'ϔ'), ('Ϙ', 'Ϙ'), ('Ϛ', 'Ϛ'), ('Ϝ', 'Ϝ'), ('Ϟ', 'Ϟ'),
-  ('Ϡ', 'Ϡ'), ('Ϣ', 'Ϣ'), ('Ϥ', 'Ϥ'), ('Ϧ', 'Ϧ'), ('Ϩ', 'Ϩ'),
-  ('Ϫ', 'Ϫ'), ('Ϭ', 'Ϭ'), ('Ϯ', 'Ϯ'), ('ϴ', 'ϴ'), ('Ϸ', 'Ϸ'),
-  ('Ϲ', 'Ϻ'), ('Ͻ', 'Я'), ('Ѡ', 'Ѡ'), ('Ѣ', 'Ѣ'), ('Ѥ', 'Ѥ'),
-  ('Ѧ', 'Ѧ'), ('Ѩ', 'Ѩ'), ('Ѫ', 'Ѫ'), ('Ѭ', 'Ѭ'), ('Ѯ', 'Ѯ'),
-  ('Ѱ', 'Ѱ'), ('Ѳ', 'Ѳ'), ('Ѵ', 'Ѵ'), ('Ѷ', 'Ѷ'), ('Ѹ', 'Ѹ'),
-  ('Ѻ', 'Ѻ'), ('Ѽ', 'Ѽ'), ('Ѿ', 'Ѿ'), ('Ҁ', 'Ҁ'), ('Ҋ', 'Ҋ'),
-  ('Ҍ', 'Ҍ'), ('Ҏ', 'Ҏ'), ('Ґ', 'Ґ'), ('Ғ', 'Ғ'), ('Ҕ', 'Ҕ'),
-  ('Җ', 'Җ'), ('Ҙ', 'Ҙ'), ('Қ', 'Қ'), ('Ҝ', 'Ҝ'), ('Ҟ', 'Ҟ'),
-  ('Ҡ', 'Ҡ'), ('Ң', 'Ң'), ('Ҥ', 'Ҥ'), ('Ҧ', 'Ҧ'), ('Ҩ', 'Ҩ'),
-  ('Ҫ', 'Ҫ'), ('Ҭ', 'Ҭ'), ('Ү', 'Ү'), ('Ұ', 'Ұ'), ('Ҳ', 'Ҳ'),
-  ('Ҵ', 'Ҵ'), ('Ҷ', 'Ҷ'), ('Ҹ', 'Ҹ'), ('Һ', 'Һ'), ('Ҽ', 'Ҽ'),
-  ('Ҿ', 'Ҿ'), ('Ӏ', 'Ӂ'), ('Ӄ', 'Ӄ'), ('Ӆ', 'Ӆ'), ('Ӈ', 'Ӈ'),
-  ('Ӊ', 'Ӊ'), ('Ӌ', 'Ӌ'), ('Ӎ', 'Ӎ'), ('Ӑ', 'Ӑ'), ('Ӓ', 'Ӓ'),
-  ('Ӕ', 'Ӕ'), ('Ӗ', 'Ӗ'), ('Ә', 'Ә'), ('Ӛ', 'Ӛ'), ('Ӝ', 'Ӝ'),
-  ('Ӟ', 'Ӟ'), ('Ӡ', 'Ӡ'), ('Ӣ', 'Ӣ'), ('Ӥ', 'Ӥ'), ('Ӧ', 'Ӧ'),
-  ('Ө', 'Ө'), ('Ӫ', 'Ӫ'), ('Ӭ', 'Ӭ'), ('Ӯ', 'Ӯ'), ('Ӱ', 'Ӱ'),
-  ('Ӳ', 'Ӳ'), ('Ӵ', 'Ӵ'), ('Ӷ', 'Ӷ'), ('Ӹ', 'Ӹ'), ('Ӻ', 'Ӻ'),
-  ('Ӽ', 'Ӽ'), ('Ӿ', 'Ӿ'), ('Ԁ', 'Ԁ'), ('Ԃ', 'Ԃ'), ('Ԅ', 'Ԅ'),
-  ('Ԇ', 'Ԇ'), ('Ԉ', 'Ԉ'), ('Ԋ', 'Ԋ'), ('Ԍ', 'Ԍ'), ('Ԏ', 'Ԏ'),
-  ('Ԑ', 'Ԑ'), ('Ԓ', 'Ԓ'), ('Ԕ', 'Ԕ'), ('Ԗ', 'Ԗ'), ('Ԙ', 'Ԙ'),
-  ('Ԛ', 'Ԛ'), ('Ԝ', 'Ԝ'), ('Ԟ', 'Ԟ'), ('Ԡ', 'Ԡ'), ('Ԣ', 'Ԣ'),
-  ('Ԥ', 'Ԥ'), ('Ԧ', 'Ԧ'), ('Ԩ', 'Ԩ'), ('Ԫ', 'Ԫ'), ('Ԭ', 'Ԭ'),
-  ('Ԯ', 'Ԯ'), ('Ա', 'Ֆ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('Ꭰ', 'Ᏽ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('Ḁ', 'Ḁ'),
-  ('Ḃ', 'Ḃ'), ('Ḅ', 'Ḅ'), ('Ḇ', 'Ḇ'), ('Ḉ', 'Ḉ'),
-  ('Ḋ', 'Ḋ'), ('Ḍ', 'Ḍ'), ('Ḏ', 'Ḏ'), ('Ḑ', 'Ḑ'),
-  ('Ḓ', 'Ḓ'), ('Ḕ', 'Ḕ'), ('Ḗ', 'Ḗ'), ('Ḙ', 'Ḙ'),
-  ('Ḛ', 'Ḛ'), ('Ḝ', 'Ḝ'), ('Ḟ', 'Ḟ'), ('Ḡ', 'Ḡ'),
-  ('Ḣ', 'Ḣ'), ('Ḥ', 'Ḥ'), ('Ḧ', 'Ḧ'), ('Ḩ', 'Ḩ'),
-  ('Ḫ', 'Ḫ'), ('Ḭ', 'Ḭ'), ('Ḯ', 'Ḯ'), ('Ḱ', 'Ḱ'),
-  ('Ḳ', 'Ḳ'), ('Ḵ', 'Ḵ'), ('Ḷ', 'Ḷ'), ('Ḹ', 'Ḹ'),
-  ('Ḻ', 'Ḻ'), ('Ḽ', 'Ḽ'), ('Ḿ', 'Ḿ'), ('Ṁ', 'Ṁ'),
-  ('Ṃ', 'Ṃ'), ('Ṅ', 'Ṅ'), ('Ṇ', 'Ṇ'), ('Ṉ', 'Ṉ'),
-  ('Ṋ', 'Ṋ'), ('Ṍ', 'Ṍ'), ('Ṏ', 'Ṏ'), ('Ṑ', 'Ṑ'),
-  ('Ṓ', 'Ṓ'), ('Ṕ', 'Ṕ'), ('Ṗ', 'Ṗ'), ('Ṙ', 'Ṙ'),
-  ('Ṛ', 'Ṛ'), ('Ṝ', 'Ṝ'), ('Ṟ', 'Ṟ'), ('Ṡ', 'Ṡ'),
-  ('Ṣ', 'Ṣ'), ('Ṥ', 'Ṥ'), ('Ṧ', 'Ṧ'), ('Ṩ', 'Ṩ'),
-  ('Ṫ', 'Ṫ'), ('Ṭ', 'Ṭ'), ('Ṯ', 'Ṯ'), ('Ṱ', 'Ṱ'),
-  ('Ṳ', 'Ṳ'), ('Ṵ', 'Ṵ'), ('Ṷ', 'Ṷ'), ('Ṹ', 'Ṹ'),
-  ('Ṻ', 'Ṻ'), ('Ṽ', 'Ṽ'), ('Ṿ', 'Ṿ'), ('Ẁ', 'Ẁ'),
-  ('Ẃ', 'Ẃ'), ('Ẅ', 'Ẅ'), ('Ẇ', 'Ẇ'), ('Ẉ', 'Ẉ'),
-  ('Ẋ', 'Ẋ'), ('Ẍ', 'Ẍ'), ('Ẏ', 'Ẏ'), ('Ẑ', 'Ẑ'),
-  ('Ẓ', 'Ẓ'), ('Ẕ', 'Ẕ'), ('ẞ', 'ẞ'), ('Ạ', 'Ạ'),
-  ('Ả', 'Ả'), ('Ấ', 'Ấ'), ('Ầ', 'Ầ'), ('Ẩ', 'Ẩ'),
-  ('Ẫ', 'Ẫ'), ('Ậ', 'Ậ'), ('Ắ', 'Ắ'), ('Ằ', 'Ằ'),
-  ('Ẳ', 'Ẳ'), ('Ẵ', 'Ẵ'), ('Ặ', 'Ặ'), ('Ẹ', 'Ẹ'),
-  ('Ẻ', 'Ẻ'), ('Ẽ', 'Ẽ'), ('Ế', 'Ế'), ('Ề', 'Ề'),
-  ('Ể', 'Ể'), ('Ễ', 'Ễ'), ('Ệ', 'Ệ'), ('Ỉ', 'Ỉ'),
-  ('Ị', 'Ị'), ('Ọ', 'Ọ'), ('Ỏ', 'Ỏ'), ('Ố', 'Ố'),
-  ('Ồ', 'Ồ'), ('Ổ', 'Ổ'), ('Ỗ', 'Ỗ'), ('Ộ', 'Ộ'),
-  ('Ớ', 'Ớ'), ('Ờ', 'Ờ'), ('Ở', 'Ở'), ('Ỡ', 'Ỡ'),
-  ('Ợ', 'Ợ'), ('Ụ', 'Ụ'), ('Ủ', 'Ủ'), ('Ứ', 'Ứ'),
-  ('Ừ', 'Ừ'), ('Ử', 'Ử'), ('Ữ', 'Ữ'), ('Ự', 'Ự'),
-  ('Ỳ', 'Ỳ'), ('Ỵ', 'Ỵ'), ('Ỷ', 'Ỷ'), ('Ỹ', 'Ỹ'),
-  ('Ỻ', 'Ỻ'), ('Ỽ', 'Ỽ'), ('Ỿ', 'Ỿ'), ('Ἀ', 'Ἇ'),
-  ('Ἐ', 'Ἕ'), ('Ἠ', 'Ἧ'), ('Ἰ', 'Ἷ'), ('Ὀ', 'Ὅ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'Ὗ'),
-  ('Ὠ', 'Ὧ'), ('Ᾰ', 'Ά'), ('Ὲ', 'Ή'), ('Ῐ', 'Ί'),
-  ('Ῠ', 'Ῥ'), ('Ὸ', 'Ώ'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'),
-  ('ℋ', 'ℍ'), ('ℐ', 'ℒ'), ('ℕ', 'ℕ'), ('ℙ', 'ℝ'),
-  ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'), ('K', 'ℭ'),
-  ('ℰ', 'ℳ'), ('ℾ', 'ℿ'), ('ⅅ', 'ⅅ'), ('Ⅰ', 'Ⅿ'),
-  ('Ↄ', 'Ↄ'), ('Ⓐ', 'Ⓩ'), ('Ⰰ', 'Ⱞ'), ('Ⱡ', 'Ⱡ'),
-  ('Ɫ', 'Ɽ'), ('Ⱨ', 'Ⱨ'), ('Ⱪ', 'Ⱪ'), ('Ⱬ', 'Ⱬ'),
-  ('Ɑ', 'Ɒ'), ('Ⱳ', 'Ⱳ'), ('Ⱶ', 'Ⱶ'), ('Ȿ', 'Ⲁ'),
-  ('Ⲃ', 'Ⲃ'), ('Ⲅ', 'Ⲅ'), ('Ⲇ', 'Ⲇ'), ('Ⲉ', 'Ⲉ'),
-  ('Ⲋ', 'Ⲋ'), ('Ⲍ', 'Ⲍ'), ('Ⲏ', 'Ⲏ'), ('Ⲑ', 'Ⲑ'),
-  ('Ⲓ', 'Ⲓ'), ('Ⲕ', 'Ⲕ'), ('Ⲗ', 'Ⲗ'), ('Ⲙ', 'Ⲙ'),
-  ('Ⲛ', 'Ⲛ'), ('Ⲝ', 'Ⲝ'), ('Ⲟ', 'Ⲟ'), ('Ⲡ', 'Ⲡ'),
-  ('Ⲣ', 'Ⲣ'), ('Ⲥ', 'Ⲥ'), ('Ⲧ', 'Ⲧ'), ('Ⲩ', 'Ⲩ'),
-  ('Ⲫ', 'Ⲫ'), ('Ⲭ', 'Ⲭ'), ('Ⲯ', 'Ⲯ'), ('Ⲱ', 'Ⲱ'),
-  ('Ⲳ', 'Ⲳ'), ('Ⲵ', 'Ⲵ'), ('Ⲷ', 'Ⲷ'), ('Ⲹ', 'Ⲹ'),
-  ('Ⲻ', 'Ⲻ'), ('Ⲽ', 'Ⲽ'), ('Ⲿ', 'Ⲿ'), ('Ⳁ', 'Ⳁ'),
-  ('Ⳃ', 'Ⳃ'), ('Ⳅ', 'Ⳅ'), ('Ⳇ', 'Ⳇ'), ('Ⳉ', 'Ⳉ'),
-  ('Ⳋ', 'Ⳋ'), ('Ⳍ', 'Ⳍ'), ('Ⳏ', 'Ⳏ'), ('Ⳑ', 'Ⳑ'),
-  ('Ⳓ', 'Ⳓ'), ('Ⳕ', 'Ⳕ'), ('Ⳗ', 'Ⳗ'), ('Ⳙ', 'Ⳙ'),
-  ('Ⳛ', 'Ⳛ'), ('Ⳝ', 'Ⳝ'), ('Ⳟ', 'Ⳟ'), ('Ⳡ', 'Ⳡ'),
-  ('Ⳣ', 'Ⳣ'), ('Ⳬ', 'Ⳬ'), ('Ⳮ', 'Ⳮ'), ('Ⳳ', 'Ⳳ'),
-  ('Ꙁ', 'Ꙁ'), ('Ꙃ', 'Ꙃ'), ('Ꙅ', 'Ꙅ'), ('Ꙇ', 'Ꙇ'),
-  ('Ꙉ', 'Ꙉ'), ('Ꙋ', 'Ꙋ'), ('Ꙍ', 'Ꙍ'), ('Ꙏ', 'Ꙏ'),
-  ('Ꙑ', 'Ꙑ'), ('Ꙓ', 'Ꙓ'), ('Ꙕ', 'Ꙕ'), ('Ꙗ', 'Ꙗ'),
-  ('Ꙙ', 'Ꙙ'), ('Ꙛ', 'Ꙛ'), ('Ꙝ', 'Ꙝ'), ('Ꙟ', 'Ꙟ'),
-  ('Ꙡ', 'Ꙡ'), ('Ꙣ', 'Ꙣ'), ('Ꙥ', 'Ꙥ'), ('Ꙧ', 'Ꙧ'),
-  ('Ꙩ', 'Ꙩ'), ('Ꙫ', 'Ꙫ'), ('Ꙭ', 'Ꙭ'), ('Ꚁ', 'Ꚁ'),
-  ('Ꚃ', 'Ꚃ'), ('Ꚅ', 'Ꚅ'), ('Ꚇ', 'Ꚇ'), ('Ꚉ', 'Ꚉ'),
-  ('Ꚋ', 'Ꚋ'), ('Ꚍ', 'Ꚍ'), ('Ꚏ', 'Ꚏ'), ('Ꚑ', 'Ꚑ'),
-  ('Ꚓ', 'Ꚓ'), ('Ꚕ', 'Ꚕ'), ('Ꚗ', 'Ꚗ'), ('Ꚙ', 'Ꚙ'),
-  ('Ꚛ', 'Ꚛ'), ('Ꜣ', 'Ꜣ'), ('Ꜥ', 'Ꜥ'), ('Ꜧ', 'Ꜧ'),
-  ('Ꜩ', 'Ꜩ'), ('Ꜫ', 'Ꜫ'), ('Ꜭ', 'Ꜭ'), ('Ꜯ', 'Ꜯ'),
-  ('Ꜳ', 'Ꜳ'), ('Ꜵ', 'Ꜵ'), ('Ꜷ', 'Ꜷ'), ('Ꜹ', 'Ꜹ'),
-  ('Ꜻ', 'Ꜻ'), ('Ꜽ', 'Ꜽ'), ('Ꜿ', 'Ꜿ'), ('Ꝁ', 'Ꝁ'),
-  ('Ꝃ', 'Ꝃ'), ('Ꝅ', 'Ꝅ'), ('Ꝇ', 'Ꝇ'), ('Ꝉ', 'Ꝉ'),
-  ('Ꝋ', 'Ꝋ'), ('Ꝍ', 'Ꝍ'), ('Ꝏ', 'Ꝏ'), ('Ꝑ', 'Ꝑ'),
-  ('Ꝓ', 'Ꝓ'), ('Ꝕ', 'Ꝕ'), ('Ꝗ', 'Ꝗ'), ('Ꝙ', 'Ꝙ'),
-  ('Ꝛ', 'Ꝛ'), ('Ꝝ', 'Ꝝ'), ('Ꝟ', 'Ꝟ'), ('Ꝡ', 'Ꝡ'),
-  ('Ꝣ', 'Ꝣ'), ('Ꝥ', 'Ꝥ'), ('Ꝧ', 'Ꝧ'), ('Ꝩ', 'Ꝩ'),
-  ('Ꝫ', 'Ꝫ'), ('Ꝭ', 'Ꝭ'), ('Ꝯ', 'Ꝯ'), ('Ꝺ', 'Ꝺ'),
-  ('Ꝼ', 'Ꝼ'), ('Ᵹ', 'Ꝿ'), ('Ꞁ', 'Ꞁ'), ('Ꞃ', 'Ꞃ'),
-  ('Ꞅ', 'Ꞅ'), ('Ꞇ', 'Ꞇ'), ('Ꞌ', 'Ꞌ'), ('Ɥ', 'Ɥ'),
-  ('Ꞑ', 'Ꞑ'), ('Ꞓ', 'Ꞓ'), ('Ꞗ', 'Ꞗ'), ('Ꞙ', 'Ꞙ'),
-  ('Ꞛ', 'Ꞛ'), ('Ꞝ', 'Ꞝ'), ('Ꞟ', 'Ꞟ'), ('Ꞡ', 'Ꞡ'),
-  ('Ꞣ', 'Ꞣ'), ('Ꞥ', 'Ꞥ'), ('Ꞧ', 'Ꞧ'), ('Ꞩ', 'Ꞩ'),
-  ('Ɦ', 'Ɪ'), ('Ʞ', 'Ꞵ'), ('Ꞷ', 'Ꞷ'), ('Ꞹ', 'Ꞹ'),
-  ('\u{a7ba}', '\u{a7ba}'), ('\u{a7bc}', '\u{a7bc}'),
-  ('\u{a7be}', '\u{a7be}'), ('\u{a7c2}', '\u{a7c2}'),
-  ('\u{a7c4}', '\u{a7c6}'), ('A', 'Z'), ('𐐀', '𐐧'),
-  ('𐒰', '𐓓'), ('𐲀', '𐲲'), ('𑢠', '𑢿'), ('𖹀', '𖹟'),
-  ('𝐀', '𝐙'), ('𝐴', '𝑍'), ('𝑨', '𝒁'), ('𝒜', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒵'), ('𝓐', '𝓩'), ('𝔄', '𝔅'), ('𝔇', '𝔊'),
-  ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔸', '𝔹'), ('𝔻', '𝔾'),
-  ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕬', '𝖅'),
-  ('𝖠', '𝖹'), ('𝗔', '𝗭'), ('𝘈', '𝘡'), ('𝘼', '𝙕'),
-  ('𝙰', '𝚉'), ('𝚨', '𝛀'), ('𝛢', '𝛺'), ('𝜜', '𝜴'),
-  ('𝝖', '𝝮'), ('𝞐', '𝞨'), ('𝟊', '𝟊'), ('𞤀', '𞤡'),
-  ('🄰', '🅉'), ('🅐', '🅩'), ('🅰', '🆉'),
-];
-
-pub const VARIATION_SELECTOR: &'static [(char, char)] = &[
-  ('\u{180b}', '\u{180d}'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const WHITE_SPACE: &'static [(char, char)] = &[
-  ('\t', '\r'), (' ', ' '), ('\u{85}', '\u{85}'), ('\u{a0}', '\u{a0}'),
-  ('\u{1680}', '\u{1680}'), ('\u{2000}', '\u{200a}'),
-  ('\u{2028}', '\u{2029}'), ('\u{202f}', '\u{202f}'),
-  ('\u{205f}', '\u{205f}'), ('\u{3000}', '\u{3000}'),
-];
-
-pub const XID_CONTINUE: &'static [(char, char)] = &[
-  ('0', '9'), ('A', 'Z'), ('_', '_'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'),
-  ('·', '·'), ('º', 'º'), ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'),
-  ('ˆ', 'ˑ'), ('ˠ', 'ˤ'), ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('\u{300}', 'ʹ'),
-  ('Ͷ', 'ͷ'), ('ͻ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ί'), ('Ό', 'Ό'),
-  ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('\u{483}', '\u{487}'),
-  ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՙ', 'ՙ'), ('ՠ', 'ֈ'),
-  ('\u{591}', '\u{5bd}'), ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'),
-  ('\u{5c4}', '\u{5c5}'), ('\u{5c7}', '\u{5c7}'), ('א', 'ת'), ('ׯ', 'ײ'),
-  ('\u{610}', '\u{61a}'), ('ؠ', '٩'), ('ٮ', 'ۓ'), ('ە', '\u{6dc}'),
-  ('\u{6df}', '\u{6e8}'), ('\u{6ea}', 'ۼ'), ('ۿ', 'ۿ'), ('ܐ', '\u{74a}'),
-  ('ݍ', 'ޱ'), ('߀', 'ߵ'), ('ߺ', 'ߺ'), ('\u{7fd}', '\u{7fd}'),
-  ('ࠀ', '\u{82d}'), ('ࡀ', '\u{85b}'), ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'),
-  ('ࢶ', 'ࢽ'), ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', '\u{963}'),
-  ('०', '९'), ('ॱ', 'ঃ'), ('অ', 'ঌ'), ('এ', 'ঐ'),
-  ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'),
-  ('\u{9bc}', '\u{9c4}'), ('ে', 'ৈ'), ('ো', 'ৎ'),
-  ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'), ('য়', '\u{9e3}'), ('০', 'ৱ'),
-  ('ৼ', 'ৼ'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', 'ਃ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'),
-  ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'),
-  ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('੦', '\u{a75}'), ('\u{a81}', 'ઃ'),
-  ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'),
-  ('લ', 'ળ'), ('વ', 'હ'), ('\u{abc}', '\u{ac5}'), ('\u{ac7}', 'ૉ'),
-  ('ો', '\u{acd}'), ('ૐ', 'ૐ'), ('ૠ', '\u{ae3}'), ('૦', '૯'),
-  ('ૹ', '\u{aff}'), ('\u{b01}', 'ଃ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'),
-  ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'),
-  ('\u{b3c}', '\u{b44}'), ('େ', 'ୈ'), ('ୋ', '\u{b4d}'),
-  ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'), ('ୟ', '\u{b63}'), ('୦', '୯'),
-  ('ୱ', 'ୱ'), ('\u{b82}', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('\u{bbe}', 'ூ'),
-  ('ெ', 'ை'), ('ொ', '\u{bcd}'), ('ௐ', 'ௐ'), ('\u{bd7}', '\u{bd7}'),
-  ('௦', '௯'), ('\u{c00}', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'),
-  ('ప', 'హ'), ('ఽ', 'ౄ'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4d}'), ('\u{c55}', '\u{c56}'), ('ౘ', 'ౚ'),
-  ('ౠ', '\u{c63}'), ('౦', '౯'), ('ಀ', 'ಃ'), ('ಅ', 'ಌ'),
-  ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'),
-  ('\u{cbc}', 'ೄ'), ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccd}'),
-  ('\u{cd5}', '\u{cd6}'), ('ೞ', 'ೞ'), ('ೠ', '\u{ce3}'), ('೦', '೯'),
-  ('ೱ', 'ೲ'), ('\u{d00}', 'ഃ'), ('അ', 'ഌ'), ('എ', 'ഐ'),
-  ('ഒ', '\u{d44}'), ('െ', 'ൈ'), ('ൊ', 'ൎ'), ('ൔ', '\u{d57}'),
-  ('ൟ', '\u{d63}'), ('൦', '൯'), ('ൺ', 'ൿ'), ('ං', 'ඃ'),
-  ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'),
-  ('ව', 'ෆ'), ('\u{dca}', '\u{dca}'), ('\u{dcf}', '\u{dd4}'),
-  ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'), ('෦', '෯'), ('ෲ', 'ෳ'),
-  ('ก', '\u{e3a}'), ('เ', '\u{e4e}'), ('๐', '๙'), ('ກ', 'ຂ'),
-  ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'), ('ລ', 'ລ'),
-  ('ວ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('\u{ec8}', '\u{ecd}'),
-  ('໐', '໙'), ('ໜ', 'ໟ'), ('ༀ', 'ༀ'), ('\u{f18}', '\u{f19}'),
-  ('༠', '༩'), ('\u{f35}', '\u{f35}'), ('\u{f37}', '\u{f37}'),
-  ('\u{f39}', '\u{f39}'), ('༾', 'ཇ'), ('ཉ', 'ཬ'),
-  ('\u{f71}', '\u{f84}'), ('\u{f86}', '\u{f97}'), ('\u{f99}', '\u{fbc}'),
-  ('\u{fc6}', '\u{fc6}'), ('က', '၉'), ('ၐ', '\u{109d}'), ('Ⴀ', 'Ⴥ'),
-  ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'), ('ჼ', 'ቈ'),
-  ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'), ('ቚ', 'ቝ'),
-  ('በ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኰ'), ('ኲ', 'ኵ'),
-  ('ኸ', 'ኾ'), ('ዀ', 'ዀ'), ('ዂ', 'ዅ'), ('ወ', 'ዖ'),
-  ('ዘ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ፚ'), ('\u{135d}', '\u{135f}'),
-  ('፩', '፱'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', '\u{1714}'), ('ᜠ', '\u{1734}'),
-  ('ᝀ', '\u{1753}'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'),
-  ('\u{1772}', '\u{1773}'), ('ក', '\u{17d3}'), ('ៗ', 'ៗ'),
-  ('ៜ', '\u{17dd}'), ('០', '៩'), ('\u{180b}', '\u{180d}'),
-  ('᠐', '᠙'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢪ'), ('ᢰ', 'ᣵ'),
-  ('ᤀ', 'ᤞ'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'), ('᥆', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('᧐', '᧚'),
-  ('ᨀ', '\u{1a1b}'), ('ᨠ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'),
-  ('\u{1a7f}', '᪉'), ('᪐', '᪙'), ('ᪧ', 'ᪧ'),
-  ('\u{1ab0}', '\u{1abd}'), ('\u{1b00}', 'ᭋ'), ('᭐', '᭙'),
-  ('\u{1b6b}', '\u{1b73}'), ('\u{1b80}', '᯳'), ('ᰀ', '\u{1c37}'),
-  ('᱀', '᱉'), ('ᱍ', 'ᱽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1cfa}'),
-  ('ᴀ', '\u{1df9}'), ('\u{1dfb}', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ᾼ'),
-  ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'), ('ῐ', 'ΐ'),
-  ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'), ('ῶ', 'ῼ'),
-  ('‿', '⁀'), ('⁔', '⁔'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'),
-  ('ₐ', 'ₜ'), ('\u{20d0}', '\u{20dc}'), ('\u{20e1}', '\u{20e1}'),
-  ('\u{20e5}', '\u{20f0}'), ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'),
-  ('ℕ', 'ℕ'), ('℘', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'),
-  ('ℨ', 'ℨ'), ('K', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'),
-  ('ⅎ', 'ⅎ'), ('Ⅰ', 'ↈ'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'),
-  ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'), ('\u{2d7f}', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('\u{2de0}', '\u{2dff}'), ('々', '〇'), ('〡', '\u{302f}'),
-  ('〱', '〵'), ('〸', '〼'), ('ぁ', 'ゖ'), ('\u{3099}', '\u{309a}'),
-  ('ゝ', 'ゟ'), ('ァ', 'ヺ'), ('ー', 'ヿ'), ('ㄅ', 'ㄯ'),
-  ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'), ('㐀', '䶵'),
-  ('一', '鿯'), ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'), ('ꔀ', 'ꘌ'),
-  ('ꘐ', 'ꘫ'), ('Ꙁ', '\u{a66f}'), ('\u{a674}', '\u{a67d}'),
-  ('ꙿ', '\u{a6f1}'), ('ꜗ', 'ꜟ'), ('Ꜣ', 'ꞈ'), ('Ꞌ', '\u{a7bf}'),
-  ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠧ'), ('ꡀ', 'ꡳ'),
-  ('ꢀ', '\u{a8c5}'), ('꣐', '꣙'), ('\u{a8e0}', 'ꣷ'), ('ꣻ', 'ꣻ'),
-  ('ꣽ', '\u{a92d}'), ('ꤰ', '꥓'), ('ꥠ', 'ꥼ'), ('\u{a980}', '꧀'),
-  ('ꧏ', '꧙'), ('ꧠ', 'ꧾ'), ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'),
-  ('꩐', '꩙'), ('ꩠ', 'ꩶ'), ('ꩺ', 'ꫂ'), ('ꫛ', 'ꫝ'),
-  ('ꫠ', 'ꫯ'), ('ꫲ', '\u{aaf6}'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯪ'), ('꯬', '\u{abed}'), ('꯰', '꯹'),
-  ('가', '힣'), ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'), ('豈', '舘'),
-  ('並', '龎'), ('ff', 'st'), ('ﬓ', 'ﬗ'), ('יִ', 'ﬨ'),
-  ('שׁ', 'זּ'), ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'),
-  ('ףּ', 'פּ'), ('צּ', 'ﮱ'), ('ﯓ', 'ﱝ'), ('ﱤ', 'ﴽ'),
-  ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷹ'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{fe20}', '\u{fe2f}'), ('︳', '︴'), ('﹍', '﹏'), ('ﹱ', 'ﹱ'),
-  ('ﹳ', 'ﹳ'), ('ﹷ', 'ﹷ'), ('ﹹ', 'ﹹ'), ('ﹻ', 'ﹻ'),
-  ('ﹽ', 'ﹽ'), ('ﹿ', 'ﻼ'), ('0', '9'), ('A', 'Z'),
-  ('_', '_'), ('a', 'z'), ('ヲ', 'ᄒ'), ('ᅡ', 'ᅦ'),
-  ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'),
-  ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'),
-  ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐅀', '𐅴'),
-  ('\u{101fd}', '\u{101fd}'), ('𐊀', '𐊜'), ('𐊠', '𐋐'),
-  ('\u{102e0}', '\u{102e0}'), ('𐌀', '𐌟'), ('𐌭', '𐍊'),
-  ('𐍐', '\u{1037a}'), ('𐎀', '𐎝'), ('𐎠', '𐏃'), ('𐏈', '𐏏'),
-  ('𐏑', '𐏕'), ('𐐀', '𐒝'), ('𐒠', '𐒩'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐘀', '𐜶'),
-  ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐠀', '𐠅'), ('𐠈', '𐠈'),
-  ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐡕'),
-  ('𐡠', '𐡶'), ('𐢀', '𐢞'), ('𐣠', '𐣲'), ('𐣴', '𐣵'),
-  ('𐤀', '𐤕'), ('𐤠', '𐤹'), ('𐦀', '𐦷'), ('𐦾', '𐦿'),
-  ('𐨀', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '\u{10a3f}'), ('𐩠', '𐩼'), ('𐪀', '𐪜'),
-  ('𐫀', '𐫇'), ('𐫉', '\u{10ae6}'), ('𐬀', '𐬵'), ('𐭀', '𐭕'),
-  ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'), ('𐲀', '𐲲'),
-  ('𐳀', '𐳲'), ('𐴀', '\u{10d27}'), ('𐴰', '𐴹'), ('𐼀', '𐼜'),
-  ('𐼧', '𐼧'), ('𐼰', '\u{10f50}'), ('\u{10fe0}', '\u{10ff6}'),
-  ('𑀀', '\u{11046}'), ('𑁦', '𑁯'), ('\u{1107f}', '\u{110ba}'),
-  ('𑃐', '𑃨'), ('𑃰', '𑃹'), ('\u{11100}', '\u{11134}'),
-  ('𑄶', '𑄿'), ('𑅄', '𑅆'), ('𑅐', '\u{11173}'), ('𑅶', '𑅶'),
-  ('\u{11180}', '𑇄'), ('\u{111c9}', '\u{111cc}'), ('𑇐', '𑇚'),
-  ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('𑊀', '𑊆'), ('𑊈', '𑊈'),
-  ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'), ('𑊰', '\u{112ea}'),
-  ('𑋰', '𑋹'), ('\u{11300}', '𑌃'), ('𑌅', '𑌌'), ('𑌏', '𑌐'),
-  ('𑌓', '𑌨'), ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'),
-  ('\u{1133b}', '𑍄'), ('𑍇', '𑍈'), ('𑍋', '𑍍'), ('𑍐', '𑍐'),
-  ('\u{11357}', '\u{11357}'), ('𑍝', '𑍣'), ('\u{11366}', '\u{1136c}'),
-  ('\u{11370}', '\u{11374}'), ('𑐀', '𑑊'), ('𑑐', '𑑙'),
-  ('\u{1145e}', '\u{1145f}'), ('𑒀', '𑓅'), ('𑓇', '𑓇'),
-  ('𑓐', '𑓙'), ('𑖀', '\u{115b5}'), ('𑖸', '\u{115c0}'),
-  ('𑗘', '\u{115dd}'), ('𑘀', '\u{11640}'), ('𑙄', '𑙄'),
-  ('𑙐', '𑙙'), ('𑚀', '\u{116b8}'), ('𑛀', '𑛉'), ('𑜀', '𑜚'),
-  ('\u{1171d}', '\u{1172b}'), ('𑜰', '𑜹'), ('𑠀', '\u{1183a}'),
-  ('𑢠', '𑣩'), ('𑣿', '𑣿'), ('\u{119a0}', '\u{119a7}'),
-  ('\u{119aa}', '\u{119d7}'), ('\u{119da}', '\u{119e1}'),
-  ('\u{119e3}', '\u{119e4}'), ('𑨀', '\u{11a3e}'),
-  ('\u{11a47}', '\u{11a47}'), ('𑩐', '\u{11a99}'), ('𑪝', '𑪝'),
-  ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '\u{11c36}'),
-  ('\u{11c38}', '𑱀'), ('𑱐', '𑱙'), ('𑱲', '𑲏'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'), ('𑴀', '𑴆'),
-  ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d47}'), ('𑵐', '𑵙'),
-  ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶘'), ('𑶠', '𑶩'),
-  ('𑻠', '𑻶'), ('𒀀', '𒎙'), ('𒐀', '𒑮'), ('𒒀', '𒕃'),
-  ('𓀀', '𓐮'), ('𔐀', '𔙆'), ('𖠀', '𖨸'), ('𖩀', '𖩞'),
-  ('𖩠', '𖩩'), ('𖫐', '𖫭'), ('\u{16af0}', '\u{16af4}'),
-  ('𖬀', '\u{16b36}'), ('𖭀', '𖭃'), ('𖭐', '𖭙'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'), ('𖹀', '𖹿'), ('𖼀', '\u{16f4a}'),
-  ('\u{16f4f}', '\u{16f87}'), ('\u{16f8f}', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d169}'),
-  ('𝅭', '\u{1d172}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'),
-  ('𝛼', '𝜔'), ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'),
-  ('𝝰', '𝞈'), ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('𝟎', '𝟿'), ('\u{1da00}', '\u{1da36}'), ('\u{1da3b}', '\u{1da6c}'),
-  ('\u{1da75}', '\u{1da75}'), ('\u{1da84}', '\u{1da84}'),
-  ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'), ('\u{1e100}', '\u{1e12c}'),
-  ('\u{1e130}', '\u{1e13d}'), ('\u{1e140}', '\u{1e149}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2f9}'), ('𞠀', '𞣄'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('𞤀', '\u{1e94b}'), ('𞥐', '𞥙'),
-  ('𞸀', '𞸃'), ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'),
-  ('𞸧', '𞸧'), ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'),
-  ('𞸻', '𞸻'), ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'),
-  ('𞹋', '𞹋'), ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'),
-  ('𞹗', '𞹗'), ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'),
-  ('𞹟', '𞹟'), ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'),
-  ('𞹬', '𞹲'), ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'),
-  ('𞺀', '𞺉'), ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'),
-  ('𞺫', '𞺻'), ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'),
-  ('𫠠', '𬺡'), ('𬺰', '𮯠'), ('丽', '𪘀'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const XID_START: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'),
-  ('À', 'Ö'), ('Ø', 'ö'), ('ø', 'ˁ'), ('ˆ', 'ˑ'), ('ˠ', 'ˤ'),
-  ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('Ͱ', 'ʹ'), ('Ͷ', 'ͷ'), ('ͻ', 'ͽ'),
-  ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'),
-  ('Σ', 'ϵ'), ('Ϸ', 'ҁ'), ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՙ', 'ՙ'),
-  ('ՠ', 'ֈ'), ('א', 'ת'), ('ׯ', 'ײ'), ('ؠ', 'ي'), ('ٮ', 'ٯ'),
-  ('ٱ', 'ۓ'), ('ە', 'ە'), ('ۥ', 'ۦ'), ('ۮ', 'ۯ'), ('ۺ', 'ۼ'),
-  ('ۿ', 'ۿ'), ('ܐ', 'ܐ'), ('ܒ', 'ܯ'), ('ݍ', 'ޥ'), ('ޱ', 'ޱ'),
-  ('ߊ', 'ߪ'), ('ߴ', 'ߵ'), ('ߺ', 'ߺ'), ('ࠀ', 'ࠕ'), ('ࠚ', 'ࠚ'),
-  ('ࠤ', 'ࠤ'), ('ࠨ', 'ࠨ'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'),
-  ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('ऄ', 'ह'), ('ऽ', 'ऽ'),
-  ('ॐ', 'ॐ'), ('क़', 'ॡ'), ('ॱ', 'ঀ'), ('অ', 'ঌ'),
-  ('এ', 'ঐ'), ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'),
-  ('শ', 'হ'), ('ঽ', 'ঽ'), ('ৎ', 'ৎ'), ('ড়', 'ঢ়'),
-  ('য়', 'ৡ'), ('ৰ', 'ৱ'), ('ৼ', 'ৼ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'),
-  ('ੲ', 'ੴ'), ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'),
-  ('પ', 'ર'), ('લ', 'ળ'), ('વ', 'હ'), ('ઽ', 'ઽ'),
-  ('ૐ', 'ૐ'), ('ૠ', 'ૡ'), ('ૹ', 'ૹ'), ('ଅ', 'ଌ'),
-  ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'),
-  ('ଵ', 'ହ'), ('ଽ', 'ଽ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'),
-  ('ୱ', 'ୱ'), ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'),
-  ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'),
-  ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'), ('ௐ', 'ௐ'),
-  ('అ', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'),
-  ('ఽ', 'ఽ'), ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('ಀ', 'ಀ'),
-  ('ಅ', 'ಌ'), ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'),
-  ('ವ', 'ಹ'), ('ಽ', 'ಽ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'),
-  ('ೱ', 'ೲ'), ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'),
-  ('ഽ', 'ഽ'), ('ൎ', 'ൎ'), ('ൔ', 'ൖ'), ('ൟ', 'ൡ'),
-  ('ൺ', 'ൿ'), ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'),
-  ('ල', 'ල'), ('ව', 'ෆ'), ('ก', 'ะ'), ('า', 'า'),
-  ('เ', 'ๆ'), ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'),
-  ('\u{e8c}', 'ຣ'), ('ລ', 'ລ'), ('ວ', 'ະ'), ('າ', 'າ'),
-  ('ຽ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('ໜ', 'ໟ'),
-  ('ༀ', 'ༀ'), ('ཀ', 'ཇ'), ('ཉ', 'ཬ'), ('ྈ', 'ྌ'),
-  ('က', 'ဪ'), ('ဿ', 'ဿ'), ('ၐ', 'ၕ'), ('ၚ', 'ၝ'),
-  ('ၡ', 'ၡ'), ('ၥ', 'ၦ'), ('ၮ', 'ၰ'), ('ၵ', 'ႁ'),
-  ('ႎ', 'ႎ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('ა', 'ჺ'), ('ჼ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'),
-  ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'),
-  ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'),
-  ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'),
-  ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'),
-  ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('ក', 'ឳ'),
-  ('ៗ', 'ៗ'), ('ៜ', 'ៜ'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢨ'),
-  ('ᢪ', 'ᢪ'), ('ᢰ', 'ᣵ'), ('ᤀ', 'ᤞ'), ('ᥐ', 'ᥭ'),
-  ('ᥰ', 'ᥴ'), ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('ᨀ', 'ᨖ'),
-  ('ᨠ', 'ᩔ'), ('ᪧ', 'ᪧ'), ('ᬅ', 'ᬳ'), ('ᭅ', 'ᭋ'),
-  ('ᮃ', 'ᮠ'), ('ᮮ', 'ᮯ'), ('ᮺ', 'ᯥ'), ('ᰀ', 'ᰣ'),
-  ('ᱍ', 'ᱏ'), ('ᱚ', 'ᱽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'), ('ᳵ', 'ᳶ'),
-  ('\u{1cfa}', '\u{1cfa}'), ('ᴀ', 'ᶿ'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'),
-  ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'),
-  ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'),
-  ('ᾶ', 'ᾼ'), ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'),
-  ('ῐ', 'ΐ'), ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'),
-  ('ῶ', 'ῼ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'),
-  ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'), ('ℕ', 'ℕ'),
-  ('℘', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'),
-  ('K', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'), ('ⅎ', 'ⅎ'),
-  ('Ⅰ', 'ↈ'), ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'), ('Ⱡ', 'ⳤ'),
-  ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'),
-  ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'), ('ⶀ', 'ⶖ'),
-  ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'),
-  ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'),
-  ('々', '〇'), ('〡', '〩'), ('〱', '〵'), ('〸', '〼'),
-  ('ぁ', 'ゖ'), ('ゝ', 'ゟ'), ('ァ', 'ヺ'), ('ー', 'ヿ'),
-  ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'),
-  ('㐀', '䶵'), ('一', '鿯'), ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'),
-  ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘟ'), ('ꘪ', 'ꘫ'), ('Ꙁ', 'ꙮ'),
-  ('ꙿ', 'ꚝ'), ('ꚠ', 'ꛯ'), ('ꜗ', 'ꜟ'), ('Ꜣ', 'ꞈ'),
-  ('Ꞌ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠁ'),
-  ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'), ('ꠌ', 'ꠢ'), ('ꡀ', 'ꡳ'),
-  ('ꢂ', 'ꢳ'), ('ꣲ', 'ꣷ'), ('ꣻ', 'ꣻ'), ('ꣽ', 'ꣾ'),
-  ('ꤊ', 'ꤥ'), ('ꤰ', 'ꥆ'), ('ꥠ', 'ꥼ'), ('ꦄ', 'ꦲ'),
-  ('ꧏ', 'ꧏ'), ('ꧠ', 'ꧤ'), ('ꧦ', 'ꧯ'), ('ꧺ', 'ꧾ'),
-  ('ꨀ', 'ꨨ'), ('ꩀ', 'ꩂ'), ('ꩄ', 'ꩋ'), ('ꩠ', 'ꩶ'),
-  ('ꩺ', 'ꩺ'), ('ꩾ', 'ꪯ'), ('ꪱ', 'ꪱ'), ('ꪵ', 'ꪶ'),
-  ('ꪹ', 'ꪽ'), ('ꫀ', 'ꫀ'), ('ꫂ', 'ꫂ'), ('ꫛ', 'ꫝ'),
-  ('ꫠ', 'ꫪ'), ('ꫲ', 'ꫴ'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꯢ'), ('가', '힣'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('豈', '舘'), ('並', '龎'), ('ff', 'st'),
-  ('ﬓ', 'ﬗ'), ('יִ', 'יִ'), ('ײַ', 'ﬨ'), ('שׁ', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﮱ'), ('ﯓ', 'ﱝ'), ('ﱤ', 'ﴽ'), ('ﵐ', 'ﶏ'),
-  ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷹ'), ('ﹱ', 'ﹱ'), ('ﹳ', 'ﹳ'),
-  ('ﹷ', 'ﹷ'), ('ﹹ', 'ﹹ'), ('ﹻ', 'ﹻ'), ('ﹽ', 'ﹽ'),
-  ('ﹿ', 'ﻼ'), ('A', 'Z'), ('a', 'z'), ('ヲ', 'ン'),
-  ('ᅠ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'),
-  ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'),
-  ('𐀼', '𐀽'), ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'),
-  ('𐅀', '𐅴'), ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('𐌀', '𐌟'),
-  ('𐌭', '𐍊'), ('𐍐', '𐍵'), ('𐎀', '𐎝'), ('𐎠', '𐏃'),
-  ('𐏈', '𐏏'), ('𐏑', '𐏕'), ('𐐀', '𐒝'), ('𐒰', '𐓓'),
-  ('𐓘', '𐓻'), ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐘀', '𐜶'),
-  ('𐝀', '𐝕'), ('𐝠', '𐝧'), ('𐠀', '𐠅'), ('𐠈', '𐠈'),
-  ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐡕'),
-  ('𐡠', '𐡶'), ('𐢀', '𐢞'), ('𐣠', '𐣲'), ('𐣴', '𐣵'),
-  ('𐤀', '𐤕'), ('𐤠', '𐤹'), ('𐦀', '𐦷'), ('𐦾', '𐦿'),
-  ('𐨀', '𐨀'), ('𐨐', '𐨓'), ('𐨕', '𐨗'), ('𐨙', '𐨵'),
-  ('𐩠', '𐩼'), ('𐪀', '𐪜'), ('𐫀', '𐫇'), ('𐫉', '𐫤'),
-  ('𐬀', '𐬵'), ('𐭀', '𐭕'), ('𐭠', '𐭲'), ('𐮀', '𐮑'),
-  ('𐰀', '𐱈'), ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𐴀', '𐴣'),
-  ('𐼀', '𐼜'), ('𐼧', '𐼧'), ('𐼰', '𐽅'),
-  ('\u{10fe0}', '\u{10ff6}'), ('𑀃', '𑀷'), ('𑂃', '𑂯'),
-  ('𑃐', '𑃨'), ('𑄃', '𑄦'), ('𑅄', '𑅄'), ('𑅐', '𑅲'),
-  ('𑅶', '𑅶'), ('𑆃', '𑆲'), ('𑇁', '𑇄'), ('𑇚', '𑇚'),
-  ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '𑈫'), ('𑊀', '𑊆'),
-  ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'),
-  ('𑊰', '𑋞'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('𑌽', '𑌽'),
-  ('𑍐', '𑍐'), ('𑍝', '𑍡'), ('𑐀', '𑐴'), ('𑑇', '𑑊'),
-  ('\u{1145f}', '\u{1145f}'), ('𑒀', '𑒯'), ('𑓄', '𑓅'),
-  ('𑓇', '𑓇'), ('𑖀', '𑖮'), ('𑗘', '𑗛'), ('𑘀', '𑘯'),
-  ('𑙄', '𑙄'), ('𑚀', '𑚪'), ('\u{116b8}', '\u{116b8}'),
-  ('𑜀', '𑜚'), ('𑠀', '𑠫'), ('𑢠', '𑣟'), ('𑣿', '𑣿'),
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d0}'),
-  ('\u{119e1}', '\u{119e1}'), ('\u{119e3}', '\u{119e3}'), ('𑨀', '𑨀'),
-  ('𑨋', '𑨲'), ('𑨺', '𑨺'), ('𑩐', '𑩐'), ('𑩜', '𑪉'),
-  ('𑪝', '𑪝'), ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '𑰮'),
-  ('𑱀', '𑱀'), ('𑱲', '𑲏'), ('𑴀', '𑴆'), ('𑴈', '𑴉'),
-  ('𑴋', '𑴰'), ('𑵆', '𑵆'), ('𑵠', '𑵥'), ('𑵧', '𑵨'),
-  ('𑵪', '𑶉'), ('𑶘', '𑶘'), ('𑻠', '𑻲'), ('𒀀', '𒎙'),
-  ('𒐀', '𒑮'), ('𒒀', '𒕃'), ('𓀀', '𓐮'), ('𔐀', '𔙆'),
-  ('𖠀', '𖨸'), ('𖩀', '𖩞'), ('𖫐', '𖫭'), ('𖬀', '𖬯'),
-  ('𖭀', '𖭃'), ('𖭣', '𖭷'), ('𖭽', '𖮏'), ('𖹀', '𖹿'),
-  ('𖼀', '\u{16f4a}'), ('𖽐', '𖽐'), ('𖾓', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('𝐀', '𝑔'), ('𝑖', '𝒜'), ('𝒞', '𝒟'),
-  ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'), ('𝒮', '𝒹'),
-  ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'), ('𝔇', '𝔊'),
-  ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'), ('𝔻', '𝔾'),
-  ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕒', '𝚥'),
-  ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'), ('𝛼', '𝜔'),
-  ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'), ('𝝰', '𝞈'),
-  ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e137}', '\u{1e13d}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'),
-  ('𞤀', '𞥃'), ('\u{1e94b}', '\u{1e94b}'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-  ('𠀀', '𪛖'), ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'),
-  ('𬺰', '𮯠'), ('丽', '𪘀'),
-];
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate property-names /tmp/ucd-12.1.0/
-//
-// ucd-generate is available on crates.io.
-
-pub const PROPERTY_NAMES: &'static [(&'static str, &'static str)] = &[
-  ("age", "Age"), ("ahex", "ASCII_Hex_Digit"), ("alpha", "Alphabetic"),
-  ("alphabetic", "Alphabetic"), ("asciihexdigit", "ASCII_Hex_Digit"),
-  ("bc", "Bidi_Class"), ("bidic", "Bidi_Control"),
-  ("bidiclass", "Bidi_Class"), ("bidicontrol", "Bidi_Control"),
-  ("bidim", "Bidi_Mirrored"), ("bidimirrored", "Bidi_Mirrored"),
-  ("bidimirroringglyph", "Bidi_Mirroring_Glyph"),
-  ("bidipairedbracket", "Bidi_Paired_Bracket"),
-  ("bidipairedbrackettype", "Bidi_Paired_Bracket_Type"), ("blk", "Block"),
-  ("block", "Block"), ("bmg", "Bidi_Mirroring_Glyph"),
-  ("bpb", "Bidi_Paired_Bracket"), ("bpt", "Bidi_Paired_Bracket_Type"),
-  ("canonicalcombiningclass", "Canonical_Combining_Class"),
-  ("cased", "Cased"), ("casefolding", "Case_Folding"),
-  ("caseignorable", "Case_Ignorable"), ("ccc", "Canonical_Combining_Class"),
-  ("ce", "Composition_Exclusion"), ("cf", "Case_Folding"),
-  ("changeswhencasefolded", "Changes_When_Casefolded"),
-  ("changeswhencasemapped", "Changes_When_Casemapped"),
-  ("changeswhenlowercased", "Changes_When_Lowercased"),
-  ("changeswhennfkccasefolded", "Changes_When_NFKC_Casefolded"),
-  ("changeswhentitlecased", "Changes_When_Titlecased"),
-  ("changeswhenuppercased", "Changes_When_Uppercased"),
-  ("ci", "Case_Ignorable"), ("cjkaccountingnumeric", "kAccountingNumeric"),
-  ("cjkcompatibilityvariant", "kCompatibilityVariant"),
-  ("cjkiicore", "kIICore"), ("cjkirggsource", "kIRG_GSource"),
-  ("cjkirghsource", "kIRG_HSource"), ("cjkirgjsource", "kIRG_JSource"),
-  ("cjkirgkpsource", "kIRG_KPSource"), ("cjkirgksource", "kIRG_KSource"),
-  ("cjkirgmsource", "kIRG_MSource"), ("cjkirgtsource", "kIRG_TSource"),
-  ("cjkirgusource", "kIRG_USource"), ("cjkirgvsource", "kIRG_VSource"),
-  ("cjkothernumeric", "kOtherNumeric"),
-  ("cjkprimarynumeric", "kPrimaryNumeric"), ("cjkrsunicode", "kRSUnicode"),
-  ("compex", "Full_Composition_Exclusion"),
-  ("compositionexclusion", "Composition_Exclusion"),
-  ("cwcf", "Changes_When_Casefolded"), ("cwcm", "Changes_When_Casemapped"),
-  ("cwkcf", "Changes_When_NFKC_Casefolded"),
-  ("cwl", "Changes_When_Lowercased"), ("cwt", "Changes_When_Titlecased"),
-  ("cwu", "Changes_When_Uppercased"), ("dash", "Dash"),
-  ("decompositionmapping", "Decomposition_Mapping"),
-  ("decompositiontype", "Decomposition_Type"),
-  ("defaultignorablecodepoint", "Default_Ignorable_Code_Point"),
-  ("dep", "Deprecated"), ("deprecated", "Deprecated"),
-  ("di", "Default_Ignorable_Code_Point"), ("dia", "Diacritic"),
-  ("diacritic", "Diacritic"), ("dm", "Decomposition_Mapping"),
-  ("dt", "Decomposition_Type"), ("ea", "East_Asian_Width"),
-  ("eastasianwidth", "East_Asian_Width"), ("emoji", "Emoji"),
-  ("emojicomponent", "Emoji_Component"), ("emojimodifier", "Emoji_Modifier"),
-  ("emojimodifierbase", "Emoji_Modifier_Base"),
-  ("emojipresentation", "Emoji_Presentation"),
-  ("equideo", "Equivalent_Unified_Ideograph"),
-  ("equivalentunifiedideograph", "Equivalent_Unified_Ideograph"),
-  ("expandsonnfc", "Expands_On_NFC"), ("expandsonnfd", "Expands_On_NFD"),
-  ("expandsonnfkc", "Expands_On_NFKC"), ("expandsonnfkd", "Expands_On_NFKD"),
-  ("ext", "Extender"), ("extendedpictographic", "Extended_Pictographic"),
-  ("extender", "Extender"), ("fcnfkc", "FC_NFKC_Closure"),
-  ("fcnfkcclosure", "FC_NFKC_Closure"),
-  ("fullcompositionexclusion", "Full_Composition_Exclusion"),
-  ("gc", "General_Category"), ("gcb", "Grapheme_Cluster_Break"),
-  ("generalcategory", "General_Category"), ("graphemebase", "Grapheme_Base"),
-  ("graphemeclusterbreak", "Grapheme_Cluster_Break"),
-  ("graphemeextend", "Grapheme_Extend"), ("graphemelink", "Grapheme_Link"),
-  ("grbase", "Grapheme_Base"), ("grext", "Grapheme_Extend"),
-  ("grlink", "Grapheme_Link"), ("hangulsyllabletype", "Hangul_Syllable_Type"),
-  ("hex", "Hex_Digit"), ("hexdigit", "Hex_Digit"),
-  ("hst", "Hangul_Syllable_Type"), ("hyphen", "Hyphen"),
-  ("idc", "ID_Continue"), ("idcontinue", "ID_Continue"),
-  ("ideo", "Ideographic"), ("ideographic", "Ideographic"),
-  ("ids", "ID_Start"), ("idsb", "IDS_Binary_Operator"),
-  ("idsbinaryoperator", "IDS_Binary_Operator"),
-  ("idst", "IDS_Trinary_Operator"), ("idstart", "ID_Start"),
-  ("idstrinaryoperator", "IDS_Trinary_Operator"),
-  ("indicpositionalcategory", "Indic_Positional_Category"),
-  ("indicsyllabiccategory", "Indic_Syllabic_Category"),
-  ("inpc", "Indic_Positional_Category"), ("insc", "Indic_Syllabic_Category"),
-  ("isc", "ISO_Comment"), ("jamoshortname", "Jamo_Short_Name"),
-  ("jg", "Joining_Group"), ("joinc", "Join_Control"),
-  ("joincontrol", "Join_Control"), ("joininggroup", "Joining_Group"),
-  ("joiningtype", "Joining_Type"), ("jsn", "Jamo_Short_Name"),
-  ("jt", "Joining_Type"), ("kaccountingnumeric", "kAccountingNumeric"),
-  ("kcompatibilityvariant", "kCompatibilityVariant"), ("kiicore", "kIICore"),
-  ("kirggsource", "kIRG_GSource"), ("kirghsource", "kIRG_HSource"),
-  ("kirgjsource", "kIRG_JSource"), ("kirgkpsource", "kIRG_KPSource"),
-  ("kirgksource", "kIRG_KSource"), ("kirgmsource", "kIRG_MSource"),
-  ("kirgtsource", "kIRG_TSource"), ("kirgusource", "kIRG_USource"),
-  ("kirgvsource", "kIRG_VSource"), ("kothernumeric", "kOtherNumeric"),
-  ("kprimarynumeric", "kPrimaryNumeric"), ("krsunicode", "kRSUnicode"),
-  ("lb", "Line_Break"), ("lc", "Lowercase_Mapping"),
-  ("linebreak", "Line_Break"), ("loe", "Logical_Order_Exception"),
-  ("logicalorderexception", "Logical_Order_Exception"),
-  ("lower", "Lowercase"), ("lowercase", "Lowercase"),
-  ("lowercasemapping", "Lowercase_Mapping"), ("math", "Math"), ("na", "Name"),
-  ("na1", "Unicode_1_Name"), ("name", "Name"), ("namealias", "Name_Alias"),
-  ("nchar", "Noncharacter_Code_Point"), ("nfcqc", "NFC_Quick_Check"),
-  ("nfcquickcheck", "NFC_Quick_Check"), ("nfdqc", "NFD_Quick_Check"),
-  ("nfdquickcheck", "NFD_Quick_Check"), ("nfkccasefold", "NFKC_Casefold"),
-  ("nfkccf", "NFKC_Casefold"), ("nfkcqc", "NFKC_Quick_Check"),
-  ("nfkcquickcheck", "NFKC_Quick_Check"), ("nfkdqc", "NFKD_Quick_Check"),
-  ("nfkdquickcheck", "NFKD_Quick_Check"),
-  ("noncharactercodepoint", "Noncharacter_Code_Point"),
-  ("nt", "Numeric_Type"), ("numerictype", "Numeric_Type"),
-  ("numericvalue", "Numeric_Value"), ("nv", "Numeric_Value"),
-  ("oalpha", "Other_Alphabetic"), ("ocomment", "ISO_Comment"),
-  ("odi", "Other_Default_Ignorable_Code_Point"),
-  ("ogrext", "Other_Grapheme_Extend"), ("oidc", "Other_ID_Continue"),
-  ("oids", "Other_ID_Start"), ("olower", "Other_Lowercase"),
-  ("omath", "Other_Math"), ("otheralphabetic", "Other_Alphabetic"),
-  ("otherdefaultignorablecodepoint", "Other_Default_Ignorable_Code_Point"),
-  ("othergraphemeextend", "Other_Grapheme_Extend"),
-  ("otheridcontinue", "Other_ID_Continue"),
-  ("otheridstart", "Other_ID_Start"), ("otherlowercase", "Other_Lowercase"),
-  ("othermath", "Other_Math"), ("otheruppercase", "Other_Uppercase"),
-  ("oupper", "Other_Uppercase"), ("patsyn", "Pattern_Syntax"),
-  ("patternsyntax", "Pattern_Syntax"),
-  ("patternwhitespace", "Pattern_White_Space"),
-  ("patws", "Pattern_White_Space"), ("pcm", "Prepended_Concatenation_Mark"),
-  ("prependedconcatenationmark", "Prepended_Concatenation_Mark"),
-  ("qmark", "Quotation_Mark"), ("quotationmark", "Quotation_Mark"),
-  ("radical", "Radical"), ("regionalindicator", "Regional_Indicator"),
-  ("ri", "Regional_Indicator"), ("sb", "Sentence_Break"), ("sc", "Script"),
-  ("scf", "Simple_Case_Folding"), ("script", "Script"),
-  ("scriptextensions", "Script_Extensions"), ("scx", "Script_Extensions"),
-  ("sd", "Soft_Dotted"), ("sentencebreak", "Sentence_Break"),
-  ("sentenceterminal", "Sentence_Terminal"), ("sfc", "Simple_Case_Folding"),
-  ("simplecasefolding", "Simple_Case_Folding"),
-  ("simplelowercasemapping", "Simple_Lowercase_Mapping"),
-  ("simpletitlecasemapping", "Simple_Titlecase_Mapping"),
-  ("simpleuppercasemapping", "Simple_Uppercase_Mapping"),
-  ("slc", "Simple_Lowercase_Mapping"), ("softdotted", "Soft_Dotted"),
-  ("space", "White_Space"), ("stc", "Simple_Titlecase_Mapping"),
-  ("sterm", "Sentence_Terminal"), ("suc", "Simple_Uppercase_Mapping"),
-  ("tc", "Titlecase_Mapping"), ("term", "Terminal_Punctuation"),
-  ("terminalpunctuation", "Terminal_Punctuation"),
-  ("titlecasemapping", "Titlecase_Mapping"), ("uc", "Uppercase_Mapping"),
-  ("uideo", "Unified_Ideograph"), ("unicode1name", "Unicode_1_Name"),
-  ("unicoderadicalstroke", "kRSUnicode"),
-  ("unifiedideograph", "Unified_Ideograph"), ("upper", "Uppercase"),
-  ("uppercase", "Uppercase"), ("uppercasemapping", "Uppercase_Mapping"),
-  ("urs", "kRSUnicode"), ("variationselector", "Variation_Selector"),
-  ("verticalorientation", "Vertical_Orientation"),
-  ("vo", "Vertical_Orientation"), ("vs", "Variation_Selector"),
-  ("wb", "Word_Break"), ("whitespace", "White_Space"),
-  ("wordbreak", "Word_Break"), ("wspace", "White_Space"),
-  ("xidc", "XID_Continue"), ("xidcontinue", "XID_Continue"),
-  ("xids", "XID_Start"), ("xidstart", "XID_Start"),
-  ("xonfc", "Expands_On_NFC"), ("xonfd", "Expands_On_NFD"),
-  ("xonfkc", "Expands_On_NFKC"), ("xonfkd", "Expands_On_NFKD"),
-];
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate property-values /tmp/ucd-12.1.0/ --include gc,script,scx,age,gcb,wb,sb
-//
-// ucd-generate is available on crates.io.
-
-pub const PROPERTY_VALUES: &'static [(&'static str, &'static [(&'static str, &'static str)])] = &[
-  ("Age", &[("1.1", "V1_1"), ("10.0", "V10_0"), ("11.0", "V11_0"),
-  ("12.0", "V12_0"), ("12.1", "V12_1"), ("2.0", "V2_0"), ("2.1", "V2_1"),
-  ("3.0", "V3_0"), ("3.1", "V3_1"), ("3.2", "V3_2"), ("4.0", "V4_0"),
-  ("4.1", "V4_1"), ("5.0", "V5_0"), ("5.1", "V5_1"), ("5.2", "V5_2"),
-  ("6.0", "V6_0"), ("6.1", "V6_1"), ("6.2", "V6_2"), ("6.3", "V6_3"),
-  ("7.0", "V7_0"), ("8.0", "V8_0"), ("9.0", "V9_0"), ("na", "Unassigned"),
-  ("unassigned", "Unassigned"), ("v100", "V10_0"), ("v11", "V1_1"),
-  ("v110", "V11_0"), ("v120", "V12_0"), ("v121", "V12_1"), ("v20", "V2_0"),
-  ("v21", "V2_1"), ("v30", "V3_0"), ("v31", "V3_1"), ("v32", "V3_2"),
-  ("v40", "V4_0"), ("v41", "V4_1"), ("v50", "V5_0"), ("v51", "V5_1"),
-  ("v52", "V5_2"), ("v60", "V6_0"), ("v61", "V6_1"), ("v62", "V6_2"),
-  ("v63", "V6_3"), ("v70", "V7_0"), ("v80", "V8_0"), ("v90", "V9_0"), ]),
-
-  ("General_Category", &[("c", "Other"), ("casedletter", "Cased_Letter"),
-  ("cc", "Control"), ("cf", "Format"),
-  ("closepunctuation", "Close_Punctuation"), ("cn", "Unassigned"),
-  ("cntrl", "Control"), ("co", "Private_Use"), ("combiningmark", "Mark"),
-  ("connectorpunctuation", "Connector_Punctuation"), ("control", "Control"),
-  ("cs", "Surrogate"), ("currencysymbol", "Currency_Symbol"),
-  ("dashpunctuation", "Dash_Punctuation"),
-  ("decimalnumber", "Decimal_Number"), ("digit", "Decimal_Number"),
-  ("enclosingmark", "Enclosing_Mark"),
-  ("finalpunctuation", "Final_Punctuation"), ("format", "Format"),
-  ("initialpunctuation", "Initial_Punctuation"), ("l", "Letter"),
-  ("lc", "Cased_Letter"), ("letter", "Letter"),
-  ("letternumber", "Letter_Number"), ("lineseparator", "Line_Separator"),
-  ("ll", "Lowercase_Letter"), ("lm", "Modifier_Letter"),
-  ("lo", "Other_Letter"), ("lowercaseletter", "Lowercase_Letter"),
-  ("lt", "Titlecase_Letter"), ("lu", "Uppercase_Letter"), ("m", "Mark"),
-  ("mark", "Mark"), ("mathsymbol", "Math_Symbol"), ("mc", "Spacing_Mark"),
-  ("me", "Enclosing_Mark"), ("mn", "Nonspacing_Mark"),
-  ("modifierletter", "Modifier_Letter"),
-  ("modifiersymbol", "Modifier_Symbol"), ("n", "Number"),
-  ("nd", "Decimal_Number"), ("nl", "Letter_Number"), ("no", "Other_Number"),
-  ("nonspacingmark", "Nonspacing_Mark"), ("number", "Number"),
-  ("openpunctuation", "Open_Punctuation"), ("other", "Other"),
-  ("otherletter", "Other_Letter"), ("othernumber", "Other_Number"),
-  ("otherpunctuation", "Other_Punctuation"), ("othersymbol", "Other_Symbol"),
-  ("p", "Punctuation"), ("paragraphseparator", "Paragraph_Separator"),
-  ("pc", "Connector_Punctuation"), ("pd", "Dash_Punctuation"),
-  ("pe", "Close_Punctuation"), ("pf", "Final_Punctuation"),
-  ("pi", "Initial_Punctuation"), ("po", "Other_Punctuation"),
-  ("privateuse", "Private_Use"), ("ps", "Open_Punctuation"),
-  ("punct", "Punctuation"), ("punctuation", "Punctuation"), ("s", "Symbol"),
-  ("sc", "Currency_Symbol"), ("separator", "Separator"),
-  ("sk", "Modifier_Symbol"), ("sm", "Math_Symbol"), ("so", "Other_Symbol"),
-  ("spaceseparator", "Space_Separator"), ("spacingmark", "Spacing_Mark"),
-  ("surrogate", "Surrogate"), ("symbol", "Symbol"),
-  ("titlecaseletter", "Titlecase_Letter"), ("unassigned", "Unassigned"),
-  ("uppercaseletter", "Uppercase_Letter"), ("z", "Separator"),
-  ("zl", "Line_Separator"), ("zp", "Paragraph_Separator"),
-  ("zs", "Space_Separator"), ]),
-
-  ("Grapheme_Cluster_Break", &[("cn", "Control"), ("control", "Control"),
-  ("cr", "CR"), ("eb", "E_Base"), ("ebase", "E_Base"),
-  ("ebasegaz", "E_Base_GAZ"), ("ebg", "E_Base_GAZ"), ("em", "E_Modifier"),
-  ("emodifier", "E_Modifier"), ("ex", "Extend"), ("extend", "Extend"),
-  ("gaz", "Glue_After_Zwj"), ("glueafterzwj", "Glue_After_Zwj"), ("l", "L"),
-  ("lf", "LF"), ("lv", "LV"), ("lvt", "LVT"), ("other", "Other"),
-  ("pp", "Prepend"), ("prepend", "Prepend"),
-  ("regionalindicator", "Regional_Indicator"), ("ri", "Regional_Indicator"),
-  ("sm", "SpacingMark"), ("spacingmark", "SpacingMark"), ("t", "T"),
-  ("v", "V"), ("xx", "Other"), ("zwj", "ZWJ"), ]),
-
-  ("Script", &[("adlam", "Adlam"), ("adlm", "Adlam"),
-  ("aghb", "Caucasian_Albanian"), ("ahom", "Ahom"),
-  ("anatolianhieroglyphs", "Anatolian_Hieroglyphs"), ("arab", "Arabic"),
-  ("arabic", "Arabic"), ("armenian", "Armenian"),
-  ("armi", "Imperial_Aramaic"), ("armn", "Armenian"), ("avestan", "Avestan"),
-  ("avst", "Avestan"), ("bali", "Balinese"), ("balinese", "Balinese"),
-  ("bamu", "Bamum"), ("bamum", "Bamum"), ("bass", "Bassa_Vah"),
-  ("bassavah", "Bassa_Vah"), ("batak", "Batak"), ("batk", "Batak"),
-  ("beng", "Bengali"), ("bengali", "Bengali"), ("bhaiksuki", "Bhaiksuki"),
-  ("bhks", "Bhaiksuki"), ("bopo", "Bopomofo"), ("bopomofo", "Bopomofo"),
-  ("brah", "Brahmi"), ("brahmi", "Brahmi"), ("brai", "Braille"),
-  ("braille", "Braille"), ("bugi", "Buginese"), ("buginese", "Buginese"),
-  ("buhd", "Buhid"), ("buhid", "Buhid"), ("cakm", "Chakma"),
-  ("canadianaboriginal", "Canadian_Aboriginal"),
-  ("cans", "Canadian_Aboriginal"), ("cari", "Carian"), ("carian", "Carian"),
-  ("caucasianalbanian", "Caucasian_Albanian"), ("chakma", "Chakma"),
-  ("cham", "Cham"), ("cher", "Cherokee"), ("cherokee", "Cherokee"),
-  ("common", "Common"), ("copt", "Coptic"), ("coptic", "Coptic"),
-  ("cprt", "Cypriot"), ("cuneiform", "Cuneiform"), ("cypriot", "Cypriot"),
-  ("cyrillic", "Cyrillic"), ("cyrl", "Cyrillic"), ("deseret", "Deseret"),
-  ("deva", "Devanagari"), ("devanagari", "Devanagari"), ("dogr", "Dogra"),
-  ("dogra", "Dogra"), ("dsrt", "Deseret"), ("dupl", "Duployan"),
-  ("duployan", "Duployan"), ("egyp", "Egyptian_Hieroglyphs"),
-  ("egyptianhieroglyphs", "Egyptian_Hieroglyphs"), ("elba", "Elbasan"),
-  ("elbasan", "Elbasan"), ("elym", "Elymaic"), ("elymaic", "Elymaic"),
-  ("ethi", "Ethiopic"), ("ethiopic", "Ethiopic"), ("geor", "Georgian"),
-  ("georgian", "Georgian"), ("glag", "Glagolitic"),
-  ("glagolitic", "Glagolitic"), ("gong", "Gunjala_Gondi"),
-  ("gonm", "Masaram_Gondi"), ("goth", "Gothic"), ("gothic", "Gothic"),
-  ("gran", "Grantha"), ("grantha", "Grantha"), ("greek", "Greek"),
-  ("grek", "Greek"), ("gujarati", "Gujarati"), ("gujr", "Gujarati"),
-  ("gunjalagondi", "Gunjala_Gondi"), ("gurmukhi", "Gurmukhi"),
-  ("guru", "Gurmukhi"), ("han", "Han"), ("hang", "Hangul"),
-  ("hangul", "Hangul"), ("hani", "Han"),
-  ("hanifirohingya", "Hanifi_Rohingya"), ("hano", "Hanunoo"),
-  ("hanunoo", "Hanunoo"), ("hatr", "Hatran"), ("hatran", "Hatran"),
-  ("hebr", "Hebrew"), ("hebrew", "Hebrew"), ("hira", "Hiragana"),
-  ("hiragana", "Hiragana"), ("hluw", "Anatolian_Hieroglyphs"),
-  ("hmng", "Pahawh_Hmong"), ("hmnp", "Nyiakeng_Puachue_Hmong"),
-  ("hrkt", "Katakana_Or_Hiragana"), ("hung", "Old_Hungarian"),
-  ("imperialaramaic", "Imperial_Aramaic"), ("inherited", "Inherited"),
-  ("inscriptionalpahlavi", "Inscriptional_Pahlavi"),
-  ("inscriptionalparthian", "Inscriptional_Parthian"), ("ital", "Old_Italic"),
-  ("java", "Javanese"), ("javanese", "Javanese"), ("kaithi", "Kaithi"),
-  ("kali", "Kayah_Li"), ("kana", "Katakana"), ("kannada", "Kannada"),
-  ("katakana", "Katakana"), ("katakanaorhiragana", "Katakana_Or_Hiragana"),
-  ("kayahli", "Kayah_Li"), ("khar", "Kharoshthi"),
-  ("kharoshthi", "Kharoshthi"), ("khmer", "Khmer"), ("khmr", "Khmer"),
-  ("khoj", "Khojki"), ("khojki", "Khojki"), ("khudawadi", "Khudawadi"),
-  ("knda", "Kannada"), ("kthi", "Kaithi"), ("lana", "Tai_Tham"),
-  ("lao", "Lao"), ("laoo", "Lao"), ("latin", "Latin"), ("latn", "Latin"),
-  ("lepc", "Lepcha"), ("lepcha", "Lepcha"), ("limb", "Limbu"),
-  ("limbu", "Limbu"), ("lina", "Linear_A"), ("linb", "Linear_B"),
-  ("lineara", "Linear_A"), ("linearb", "Linear_B"), ("lisu", "Lisu"),
-  ("lyci", "Lycian"), ("lycian", "Lycian"), ("lydi", "Lydian"),
-  ("lydian", "Lydian"), ("mahajani", "Mahajani"), ("mahj", "Mahajani"),
-  ("maka", "Makasar"), ("makasar", "Makasar"), ("malayalam", "Malayalam"),
-  ("mand", "Mandaic"), ("mandaic", "Mandaic"), ("mani", "Manichaean"),
-  ("manichaean", "Manichaean"), ("marc", "Marchen"), ("marchen", "Marchen"),
-  ("masaramgondi", "Masaram_Gondi"), ("medefaidrin", "Medefaidrin"),
-  ("medf", "Medefaidrin"), ("meeteimayek", "Meetei_Mayek"),
-  ("mend", "Mende_Kikakui"), ("mendekikakui", "Mende_Kikakui"),
-  ("merc", "Meroitic_Cursive"), ("mero", "Meroitic_Hieroglyphs"),
-  ("meroiticcursive", "Meroitic_Cursive"),
-  ("meroitichieroglyphs", "Meroitic_Hieroglyphs"), ("miao", "Miao"),
-  ("mlym", "Malayalam"), ("modi", "Modi"), ("mong", "Mongolian"),
-  ("mongolian", "Mongolian"), ("mro", "Mro"), ("mroo", "Mro"),
-  ("mtei", "Meetei_Mayek"), ("mult", "Multani"), ("multani", "Multani"),
-  ("myanmar", "Myanmar"), ("mymr", "Myanmar"), ("nabataean", "Nabataean"),
-  ("nand", "Nandinagari"), ("nandinagari", "Nandinagari"),
-  ("narb", "Old_North_Arabian"), ("nbat", "Nabataean"), ("newa", "Newa"),
-  ("newtailue", "New_Tai_Lue"), ("nko", "Nko"), ("nkoo", "Nko"),
-  ("nshu", "Nushu"), ("nushu", "Nushu"),
-  ("nyiakengpuachuehmong", "Nyiakeng_Puachue_Hmong"), ("ogam", "Ogham"),
-  ("ogham", "Ogham"), ("olchiki", "Ol_Chiki"), ("olck", "Ol_Chiki"),
-  ("oldhungarian", "Old_Hungarian"), ("olditalic", "Old_Italic"),
-  ("oldnortharabian", "Old_North_Arabian"), ("oldpermic", "Old_Permic"),
-  ("oldpersian", "Old_Persian"), ("oldsogdian", "Old_Sogdian"),
-  ("oldsoutharabian", "Old_South_Arabian"), ("oldturkic", "Old_Turkic"),
-  ("oriya", "Oriya"), ("orkh", "Old_Turkic"), ("orya", "Oriya"),
-  ("osage", "Osage"), ("osge", "Osage"), ("osma", "Osmanya"),
-  ("osmanya", "Osmanya"), ("pahawhhmong", "Pahawh_Hmong"),
-  ("palm", "Palmyrene"), ("palmyrene", "Palmyrene"), ("pauc", "Pau_Cin_Hau"),
-  ("paucinhau", "Pau_Cin_Hau"), ("perm", "Old_Permic"), ("phag", "Phags_Pa"),
-  ("phagspa", "Phags_Pa"), ("phli", "Inscriptional_Pahlavi"),
-  ("phlp", "Psalter_Pahlavi"), ("phnx", "Phoenician"),
-  ("phoenician", "Phoenician"), ("plrd", "Miao"),
-  ("prti", "Inscriptional_Parthian"), ("psalterpahlavi", "Psalter_Pahlavi"),
-  ("qaac", "Coptic"), ("qaai", "Inherited"), ("rejang", "Rejang"),
-  ("rjng", "Rejang"), ("rohg", "Hanifi_Rohingya"), ("runic", "Runic"),
-  ("runr", "Runic"), ("samaritan", "Samaritan"), ("samr", "Samaritan"),
-  ("sarb", "Old_South_Arabian"), ("saur", "Saurashtra"),
-  ("saurashtra", "Saurashtra"), ("sgnw", "SignWriting"),
-  ("sharada", "Sharada"), ("shavian", "Shavian"), ("shaw", "Shavian"),
-  ("shrd", "Sharada"), ("sidd", "Siddham"), ("siddham", "Siddham"),
-  ("signwriting", "SignWriting"), ("sind", "Khudawadi"), ("sinh", "Sinhala"),
-  ("sinhala", "Sinhala"), ("sogd", "Sogdian"), ("sogdian", "Sogdian"),
-  ("sogo", "Old_Sogdian"), ("sora", "Sora_Sompeng"),
-  ("sorasompeng", "Sora_Sompeng"), ("soyo", "Soyombo"),
-  ("soyombo", "Soyombo"), ("sund", "Sundanese"), ("sundanese", "Sundanese"),
-  ("sylo", "Syloti_Nagri"), ("sylotinagri", "Syloti_Nagri"),
-  ("syrc", "Syriac"), ("syriac", "Syriac"), ("tagalog", "Tagalog"),
-  ("tagb", "Tagbanwa"), ("tagbanwa", "Tagbanwa"), ("taile", "Tai_Le"),
-  ("taitham", "Tai_Tham"), ("taiviet", "Tai_Viet"), ("takr", "Takri"),
-  ("takri", "Takri"), ("tale", "Tai_Le"), ("talu", "New_Tai_Lue"),
-  ("tamil", "Tamil"), ("taml", "Tamil"), ("tang", "Tangut"),
-  ("tangut", "Tangut"), ("tavt", "Tai_Viet"), ("telu", "Telugu"),
-  ("telugu", "Telugu"), ("tfng", "Tifinagh"), ("tglg", "Tagalog"),
-  ("thaa", "Thaana"), ("thaana", "Thaana"), ("thai", "Thai"),
-  ("tibetan", "Tibetan"), ("tibt", "Tibetan"), ("tifinagh", "Tifinagh"),
-  ("tirh", "Tirhuta"), ("tirhuta", "Tirhuta"), ("ugar", "Ugaritic"),
-  ("ugaritic", "Ugaritic"), ("unknown", "Unknown"), ("vai", "Vai"),
-  ("vaii", "Vai"), ("wancho", "Wancho"), ("wara", "Warang_Citi"),
-  ("warangciti", "Warang_Citi"), ("wcho", "Wancho"), ("xpeo", "Old_Persian"),
-  ("xsux", "Cuneiform"), ("yi", "Yi"), ("yiii", "Yi"),
-  ("zanabazarsquare", "Zanabazar_Square"), ("zanb", "Zanabazar_Square"),
-  ("zinh", "Inherited"), ("zyyy", "Common"), ("zzzz", "Unknown"), ]),
-
-  ("Script_Extensions", &[("adlam", "Adlam"), ("adlm", "Adlam"),
-  ("aghb", "Caucasian_Albanian"), ("ahom", "Ahom"),
-  ("anatolianhieroglyphs", "Anatolian_Hieroglyphs"), ("arab", "Arabic"),
-  ("arabic", "Arabic"), ("armenian", "Armenian"),
-  ("armi", "Imperial_Aramaic"), ("armn", "Armenian"), ("avestan", "Avestan"),
-  ("avst", "Avestan"), ("bali", "Balinese"), ("balinese", "Balinese"),
-  ("bamu", "Bamum"), ("bamum", "Bamum"), ("bass", "Bassa_Vah"),
-  ("bassavah", "Bassa_Vah"), ("batak", "Batak"), ("batk", "Batak"),
-  ("beng", "Bengali"), ("bengali", "Bengali"), ("bhaiksuki", "Bhaiksuki"),
-  ("bhks", "Bhaiksuki"), ("bopo", "Bopomofo"), ("bopomofo", "Bopomofo"),
-  ("brah", "Brahmi"), ("brahmi", "Brahmi"), ("brai", "Braille"),
-  ("braille", "Braille"), ("bugi", "Buginese"), ("buginese", "Buginese"),
-  ("buhd", "Buhid"), ("buhid", "Buhid"), ("cakm", "Chakma"),
-  ("canadianaboriginal", "Canadian_Aboriginal"),
-  ("cans", "Canadian_Aboriginal"), ("cari", "Carian"), ("carian", "Carian"),
-  ("caucasianalbanian", "Caucasian_Albanian"), ("chakma", "Chakma"),
-  ("cham", "Cham"), ("cher", "Cherokee"), ("cherokee", "Cherokee"),
-  ("common", "Common"), ("copt", "Coptic"), ("coptic", "Coptic"),
-  ("cprt", "Cypriot"), ("cuneiform", "Cuneiform"), ("cypriot", "Cypriot"),
-  ("cyrillic", "Cyrillic"), ("cyrl", "Cyrillic"), ("deseret", "Deseret"),
-  ("deva", "Devanagari"), ("devanagari", "Devanagari"), ("dogr", "Dogra"),
-  ("dogra", "Dogra"), ("dsrt", "Deseret"), ("dupl", "Duployan"),
-  ("duployan", "Duployan"), ("egyp", "Egyptian_Hieroglyphs"),
-  ("egyptianhieroglyphs", "Egyptian_Hieroglyphs"), ("elba", "Elbasan"),
-  ("elbasan", "Elbasan"), ("elym", "Elymaic"), ("elymaic", "Elymaic"),
-  ("ethi", "Ethiopic"), ("ethiopic", "Ethiopic"), ("geor", "Georgian"),
-  ("georgian", "Georgian"), ("glag", "Glagolitic"),
-  ("glagolitic", "Glagolitic"), ("gong", "Gunjala_Gondi"),
-  ("gonm", "Masaram_Gondi"), ("goth", "Gothic"), ("gothic", "Gothic"),
-  ("gran", "Grantha"), ("grantha", "Grantha"), ("greek", "Greek"),
-  ("grek", "Greek"), ("gujarati", "Gujarati"), ("gujr", "Gujarati"),
-  ("gunjalagondi", "Gunjala_Gondi"), ("gurmukhi", "Gurmukhi"),
-  ("guru", "Gurmukhi"), ("han", "Han"), ("hang", "Hangul"),
-  ("hangul", "Hangul"), ("hani", "Han"),
-  ("hanifirohingya", "Hanifi_Rohingya"), ("hano", "Hanunoo"),
-  ("hanunoo", "Hanunoo"), ("hatr", "Hatran"), ("hatran", "Hatran"),
-  ("hebr", "Hebrew"), ("hebrew", "Hebrew"), ("hira", "Hiragana"),
-  ("hiragana", "Hiragana"), ("hluw", "Anatolian_Hieroglyphs"),
-  ("hmng", "Pahawh_Hmong"), ("hmnp", "Nyiakeng_Puachue_Hmong"),
-  ("hrkt", "Katakana_Or_Hiragana"), ("hung", "Old_Hungarian"),
-  ("imperialaramaic", "Imperial_Aramaic"), ("inherited", "Inherited"),
-  ("inscriptionalpahlavi", "Inscriptional_Pahlavi"),
-  ("inscriptionalparthian", "Inscriptional_Parthian"), ("ital", "Old_Italic"),
-  ("java", "Javanese"), ("javanese", "Javanese"), ("kaithi", "Kaithi"),
-  ("kali", "Kayah_Li"), ("kana", "Katakana"), ("kannada", "Kannada"),
-  ("katakana", "Katakana"), ("katakanaorhiragana", "Katakana_Or_Hiragana"),
-  ("kayahli", "Kayah_Li"), ("khar", "Kharoshthi"),
-  ("kharoshthi", "Kharoshthi"), ("khmer", "Khmer"), ("khmr", "Khmer"),
-  ("khoj", "Khojki"), ("khojki", "Khojki"), ("khudawadi", "Khudawadi"),
-  ("knda", "Kannada"), ("kthi", "Kaithi"), ("lana", "Tai_Tham"),
-  ("lao", "Lao"), ("laoo", "Lao"), ("latin", "Latin"), ("latn", "Latin"),
-  ("lepc", "Lepcha"), ("lepcha", "Lepcha"), ("limb", "Limbu"),
-  ("limbu", "Limbu"), ("lina", "Linear_A"), ("linb", "Linear_B"),
-  ("lineara", "Linear_A"), ("linearb", "Linear_B"), ("lisu", "Lisu"),
-  ("lyci", "Lycian"), ("lycian", "Lycian"), ("lydi", "Lydian"),
-  ("lydian", "Lydian"), ("mahajani", "Mahajani"), ("mahj", "Mahajani"),
-  ("maka", "Makasar"), ("makasar", "Makasar"), ("malayalam", "Malayalam"),
-  ("mand", "Mandaic"), ("mandaic", "Mandaic"), ("mani", "Manichaean"),
-  ("manichaean", "Manichaean"), ("marc", "Marchen"), ("marchen", "Marchen"),
-  ("masaramgondi", "Masaram_Gondi"), ("medefaidrin", "Medefaidrin"),
-  ("medf", "Medefaidrin"), ("meeteimayek", "Meetei_Mayek"),
-  ("mend", "Mende_Kikakui"), ("mendekikakui", "Mende_Kikakui"),
-  ("merc", "Meroitic_Cursive"), ("mero", "Meroitic_Hieroglyphs"),
-  ("meroiticcursive", "Meroitic_Cursive"),
-  ("meroitichieroglyphs", "Meroitic_Hieroglyphs"), ("miao", "Miao"),
-  ("mlym", "Malayalam"), ("modi", "Modi"), ("mong", "Mongolian"),
-  ("mongolian", "Mongolian"), ("mro", "Mro"), ("mroo", "Mro"),
-  ("mtei", "Meetei_Mayek"), ("mult", "Multani"), ("multani", "Multani"),
-  ("myanmar", "Myanmar"), ("mymr", "Myanmar"), ("nabataean", "Nabataean"),
-  ("nand", "Nandinagari"), ("nandinagari", "Nandinagari"),
-  ("narb", "Old_North_Arabian"), ("nbat", "Nabataean"), ("newa", "Newa"),
-  ("newtailue", "New_Tai_Lue"), ("nko", "Nko"), ("nkoo", "Nko"),
-  ("nshu", "Nushu"), ("nushu", "Nushu"),
-  ("nyiakengpuachuehmong", "Nyiakeng_Puachue_Hmong"), ("ogam", "Ogham"),
-  ("ogham", "Ogham"), ("olchiki", "Ol_Chiki"), ("olck", "Ol_Chiki"),
-  ("oldhungarian", "Old_Hungarian"), ("olditalic", "Old_Italic"),
-  ("oldnortharabian", "Old_North_Arabian"), ("oldpermic", "Old_Permic"),
-  ("oldpersian", "Old_Persian"), ("oldsogdian", "Old_Sogdian"),
-  ("oldsoutharabian", "Old_South_Arabian"), ("oldturkic", "Old_Turkic"),
-  ("oriya", "Oriya"), ("orkh", "Old_Turkic"), ("orya", "Oriya"),
-  ("osage", "Osage"), ("osge", "Osage"), ("osma", "Osmanya"),
-  ("osmanya", "Osmanya"), ("pahawhhmong", "Pahawh_Hmong"),
-  ("palm", "Palmyrene"), ("palmyrene", "Palmyrene"), ("pauc", "Pau_Cin_Hau"),
-  ("paucinhau", "Pau_Cin_Hau"), ("perm", "Old_Permic"), ("phag", "Phags_Pa"),
-  ("phagspa", "Phags_Pa"), ("phli", "Inscriptional_Pahlavi"),
-  ("phlp", "Psalter_Pahlavi"), ("phnx", "Phoenician"),
-  ("phoenician", "Phoenician"), ("plrd", "Miao"),
-  ("prti", "Inscriptional_Parthian"), ("psalterpahlavi", "Psalter_Pahlavi"),
-  ("qaac", "Coptic"), ("qaai", "Inherited"), ("rejang", "Rejang"),
-  ("rjng", "Rejang"), ("rohg", "Hanifi_Rohingya"), ("runic", "Runic"),
-  ("runr", "Runic"), ("samaritan", "Samaritan"), ("samr", "Samaritan"),
-  ("sarb", "Old_South_Arabian"), ("saur", "Saurashtra"),
-  ("saurashtra", "Saurashtra"), ("sgnw", "SignWriting"),
-  ("sharada", "Sharada"), ("shavian", "Shavian"), ("shaw", "Shavian"),
-  ("shrd", "Sharada"), ("sidd", "Siddham"), ("siddham", "Siddham"),
-  ("signwriting", "SignWriting"), ("sind", "Khudawadi"), ("sinh", "Sinhala"),
-  ("sinhala", "Sinhala"), ("sogd", "Sogdian"), ("sogdian", "Sogdian"),
-  ("sogo", "Old_Sogdian"), ("sora", "Sora_Sompeng"),
-  ("sorasompeng", "Sora_Sompeng"), ("soyo", "Soyombo"),
-  ("soyombo", "Soyombo"), ("sund", "Sundanese"), ("sundanese", "Sundanese"),
-  ("sylo", "Syloti_Nagri"), ("sylotinagri", "Syloti_Nagri"),
-  ("syrc", "Syriac"), ("syriac", "Syriac"), ("tagalog", "Tagalog"),
-  ("tagb", "Tagbanwa"), ("tagbanwa", "Tagbanwa"), ("taile", "Tai_Le"),
-  ("taitham", "Tai_Tham"), ("taiviet", "Tai_Viet"), ("takr", "Takri"),
-  ("takri", "Takri"), ("tale", "Tai_Le"), ("talu", "New_Tai_Lue"),
-  ("tamil", "Tamil"), ("taml", "Tamil"), ("tang", "Tangut"),
-  ("tangut", "Tangut"), ("tavt", "Tai_Viet"), ("telu", "Telugu"),
-  ("telugu", "Telugu"), ("tfng", "Tifinagh"), ("tglg", "Tagalog"),
-  ("thaa", "Thaana"), ("thaana", "Thaana"), ("thai", "Thai"),
-  ("tibetan", "Tibetan"), ("tibt", "Tibetan"), ("tifinagh", "Tifinagh"),
-  ("tirh", "Tirhuta"), ("tirhuta", "Tirhuta"), ("ugar", "Ugaritic"),
-  ("ugaritic", "Ugaritic"), ("unknown", "Unknown"), ("vai", "Vai"),
-  ("vaii", "Vai"), ("wancho", "Wancho"), ("wara", "Warang_Citi"),
-  ("warangciti", "Warang_Citi"), ("wcho", "Wancho"), ("xpeo", "Old_Persian"),
-  ("xsux", "Cuneiform"), ("yi", "Yi"), ("yiii", "Yi"),
-  ("zanabazarsquare", "Zanabazar_Square"), ("zanb", "Zanabazar_Square"),
-  ("zinh", "Inherited"), ("zyyy", "Common"), ("zzzz", "Unknown"), ]),
-
-  ("Sentence_Break", &[("at", "ATerm"), ("aterm", "ATerm"), ("cl", "Close"),
-  ("close", "Close"), ("cr", "CR"), ("ex", "Extend"), ("extend", "Extend"),
-  ("fo", "Format"), ("format", "Format"), ("le", "OLetter"), ("lf", "LF"),
-  ("lo", "Lower"), ("lower", "Lower"), ("nu", "Numeric"),
-  ("numeric", "Numeric"), ("oletter", "OLetter"), ("other", "Other"),
-  ("sc", "SContinue"), ("scontinue", "SContinue"), ("se", "Sep"),
-  ("sep", "Sep"), ("sp", "Sp"), ("st", "STerm"), ("sterm", "STerm"),
-  ("up", "Upper"), ("upper", "Upper"), ("xx", "Other"), ]),
-
-  ("Word_Break", &[("aletter", "ALetter"), ("cr", "CR"),
-  ("doublequote", "Double_Quote"), ("dq", "Double_Quote"), ("eb", "E_Base"),
-  ("ebase", "E_Base"), ("ebasegaz", "E_Base_GAZ"), ("ebg", "E_Base_GAZ"),
-  ("em", "E_Modifier"), ("emodifier", "E_Modifier"), ("ex", "ExtendNumLet"),
-  ("extend", "Extend"), ("extendnumlet", "ExtendNumLet"), ("fo", "Format"),
-  ("format", "Format"), ("gaz", "Glue_After_Zwj"),
-  ("glueafterzwj", "Glue_After_Zwj"), ("hebrewletter", "Hebrew_Letter"),
-  ("hl", "Hebrew_Letter"), ("ka", "Katakana"), ("katakana", "Katakana"),
-  ("le", "ALetter"), ("lf", "LF"), ("mb", "MidNumLet"),
-  ("midletter", "MidLetter"), ("midnum", "MidNum"),
-  ("midnumlet", "MidNumLet"), ("ml", "MidLetter"), ("mn", "MidNum"),
-  ("newline", "Newline"), ("nl", "Newline"), ("nu", "Numeric"),
-  ("numeric", "Numeric"), ("other", "Other"),
-  ("regionalindicator", "Regional_Indicator"), ("ri", "Regional_Indicator"),
-  ("singlequote", "Single_Quote"), ("sq", "Single_Quote"),
-  ("wsegspace", "WSegSpace"), ("xx", "Other"), ("zwj", "ZWJ"), ]),
-];
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate script /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("Adlam", ADLAM), ("Ahom", AHOM),
-  ("Anatolian_Hieroglyphs", ANATOLIAN_HIEROGLYPHS), ("Arabic", ARABIC),
-  ("Armenian", ARMENIAN), ("Avestan", AVESTAN), ("Balinese", BALINESE),
-  ("Bamum", BAMUM), ("Bassa_Vah", BASSA_VAH), ("Batak", BATAK),
-  ("Bengali", BENGALI), ("Bhaiksuki", BHAIKSUKI), ("Bopomofo", BOPOMOFO),
-  ("Brahmi", BRAHMI), ("Braille", BRAILLE), ("Buginese", BUGINESE),
-  ("Buhid", BUHID), ("Canadian_Aboriginal", CANADIAN_ABORIGINAL),
-  ("Carian", CARIAN), ("Caucasian_Albanian", CAUCASIAN_ALBANIAN),
-  ("Chakma", CHAKMA), ("Cham", CHAM), ("Cherokee", CHEROKEE),
-  ("Common", COMMON), ("Coptic", COPTIC), ("Cuneiform", CUNEIFORM),
-  ("Cypriot", CYPRIOT), ("Cyrillic", CYRILLIC), ("Deseret", DESERET),
-  ("Devanagari", DEVANAGARI), ("Dogra", DOGRA), ("Duployan", DUPLOYAN),
-  ("Egyptian_Hieroglyphs", EGYPTIAN_HIEROGLYPHS), ("Elbasan", ELBASAN),
-  ("Elymaic", ELYMAIC), ("Ethiopic", ETHIOPIC), ("Georgian", GEORGIAN),
-  ("Glagolitic", GLAGOLITIC), ("Gothic", GOTHIC), ("Grantha", GRANTHA),
-  ("Greek", GREEK), ("Gujarati", GUJARATI), ("Gunjala_Gondi", GUNJALA_GONDI),
-  ("Gurmukhi", GURMUKHI), ("Han", HAN), ("Hangul", HANGUL),
-  ("Hanifi_Rohingya", HANIFI_ROHINGYA), ("Hanunoo", HANUNOO),
-  ("Hatran", HATRAN), ("Hebrew", HEBREW), ("Hiragana", HIRAGANA),
-  ("Imperial_Aramaic", IMPERIAL_ARAMAIC), ("Inherited", INHERITED),
-  ("Inscriptional_Pahlavi", INSCRIPTIONAL_PAHLAVI),
-  ("Inscriptional_Parthian", INSCRIPTIONAL_PARTHIAN), ("Javanese", JAVANESE),
-  ("Kaithi", KAITHI), ("Kannada", KANNADA), ("Katakana", KATAKANA),
-  ("Kayah_Li", KAYAH_LI), ("Kharoshthi", KHAROSHTHI), ("Khmer", KHMER),
-  ("Khojki", KHOJKI), ("Khudawadi", KHUDAWADI), ("Lao", LAO),
-  ("Latin", LATIN), ("Lepcha", LEPCHA), ("Limbu", LIMBU),
-  ("Linear_A", LINEAR_A), ("Linear_B", LINEAR_B), ("Lisu", LISU),
-  ("Lycian", LYCIAN), ("Lydian", LYDIAN), ("Mahajani", MAHAJANI),
-  ("Makasar", MAKASAR), ("Malayalam", MALAYALAM), ("Mandaic", MANDAIC),
-  ("Manichaean", MANICHAEAN), ("Marchen", MARCHEN),
-  ("Masaram_Gondi", MASARAM_GONDI), ("Medefaidrin", MEDEFAIDRIN),
-  ("Meetei_Mayek", MEETEI_MAYEK), ("Mende_Kikakui", MENDE_KIKAKUI),
-  ("Meroitic_Cursive", MEROITIC_CURSIVE),
-  ("Meroitic_Hieroglyphs", MEROITIC_HIEROGLYPHS), ("Miao", MIAO),
-  ("Modi", MODI), ("Mongolian", MONGOLIAN), ("Mro", MRO),
-  ("Multani", MULTANI), ("Myanmar", MYANMAR), ("Nabataean", NABATAEAN),
-  ("Nandinagari", NANDINAGARI), ("New_Tai_Lue", NEW_TAI_LUE), ("Newa", NEWA),
-  ("Nko", NKO), ("Nushu", NUSHU),
-  ("Nyiakeng_Puachue_Hmong", NYIAKENG_PUACHUE_HMONG), ("Ogham", OGHAM),
-  ("Ol_Chiki", OL_CHIKI), ("Old_Hungarian", OLD_HUNGARIAN),
-  ("Old_Italic", OLD_ITALIC), ("Old_North_Arabian", OLD_NORTH_ARABIAN),
-  ("Old_Permic", OLD_PERMIC), ("Old_Persian", OLD_PERSIAN),
-  ("Old_Sogdian", OLD_SOGDIAN), ("Old_South_Arabian", OLD_SOUTH_ARABIAN),
-  ("Old_Turkic", OLD_TURKIC), ("Oriya", ORIYA), ("Osage", OSAGE),
-  ("Osmanya", OSMANYA), ("Pahawh_Hmong", PAHAWH_HMONG),
-  ("Palmyrene", PALMYRENE), ("Pau_Cin_Hau", PAU_CIN_HAU),
-  ("Phags_Pa", PHAGS_PA), ("Phoenician", PHOENICIAN),
-  ("Psalter_Pahlavi", PSALTER_PAHLAVI), ("Rejang", REJANG), ("Runic", RUNIC),
-  ("Samaritan", SAMARITAN), ("Saurashtra", SAURASHTRA), ("Sharada", SHARADA),
-  ("Shavian", SHAVIAN), ("Siddham", SIDDHAM), ("SignWriting", SIGNWRITING),
-  ("Sinhala", SINHALA), ("Sogdian", SOGDIAN), ("Sora_Sompeng", SORA_SOMPENG),
-  ("Soyombo", SOYOMBO), ("Sundanese", SUNDANESE),
-  ("Syloti_Nagri", SYLOTI_NAGRI), ("Syriac", SYRIAC), ("Tagalog", TAGALOG),
-  ("Tagbanwa", TAGBANWA), ("Tai_Le", TAI_LE), ("Tai_Tham", TAI_THAM),
-  ("Tai_Viet", TAI_VIET), ("Takri", TAKRI), ("Tamil", TAMIL),
-  ("Tangut", TANGUT), ("Telugu", TELUGU), ("Thaana", THAANA), ("Thai", THAI),
-  ("Tibetan", TIBETAN), ("Tifinagh", TIFINAGH), ("Tirhuta", TIRHUTA),
-  ("Ugaritic", UGARITIC), ("Vai", VAI), ("Wancho", WANCHO),
-  ("Warang_Citi", WARANG_CITI), ("Yi", YI),
-  ("Zanabazar_Square", ZANABAZAR_SQUARE),
-];
-
-pub const ADLAM: &'static [(char, char)] = &[
-  ('𞤀', '\u{1e94b}'), ('𞥐', '𞥙'), ('𞥞', '𞥟'),
-];
-
-pub const AHOM: &'static [(char, char)] = &[
-  ('𑜀', '𑜚'), ('\u{1171d}', '\u{1172b}'), ('𑜰', '𑜿'),
-];
-
-pub const ANATOLIAN_HIEROGLYPHS: &'static [(char, char)] = &[
-  ('𔐀', '𔙆'),
-];
-
-pub const ARABIC: &'static [(char, char)] = &[
-  ('\u{600}', '\u{604}'), ('؆', '؋'), ('؍', '\u{61a}'),
-  ('\u{61c}', '\u{61c}'), ('؞', '؞'), ('ؠ', 'ؿ'), ('ف', 'ي'),
-  ('\u{656}', 'ٯ'), ('ٱ', '\u{6dc}'), ('۞', 'ۿ'), ('ݐ', 'ݿ'),
-  ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('\u{8d3}', '\u{8e1}'),
-  ('\u{8e3}', '\u{8ff}'), ('ﭐ', '﯁'), ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'),
-  ('ﶒ', 'ﷇ'), ('ﷰ', '﷽'), ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'),
-  ('𐹠', '𐹾'), ('𞸀', '𞸃'), ('𞸅', '𞸟'), ('𞸡', '𞸢'),
-  ('𞸤', '𞸤'), ('𞸧', '𞸧'), ('𞸩', '𞸲'), ('𞸴', '𞸷'),
-  ('𞸹', '𞸹'), ('𞸻', '𞸻'), ('𞹂', '𞹂'), ('𞹇', '𞹇'),
-  ('𞹉', '𞹉'), ('𞹋', '𞹋'), ('𞹍', '𞹏'), ('𞹑', '𞹒'),
-  ('𞹔', '𞹔'), ('𞹗', '𞹗'), ('𞹙', '𞹙'), ('𞹛', '𞹛'),
-  ('𞹝', '𞹝'), ('𞹟', '𞹟'), ('𞹡', '𞹢'), ('𞹤', '𞹤'),
-  ('𞹧', '𞹪'), ('𞹬', '𞹲'), ('𞹴', '𞹷'), ('𞹹', '𞹼'),
-  ('𞹾', '𞹾'), ('𞺀', '𞺉'), ('𞺋', '𞺛'), ('𞺡', '𞺣'),
-  ('𞺥', '𞺩'), ('𞺫', '𞺻'), ('𞻰', '𞻱'),
-];
-
-pub const ARMENIAN: &'static [(char, char)] = &[
-  ('Ա', 'Ֆ'), ('ՙ', 'ֈ'), ('֊', '֊'), ('֍', '֏'), ('ﬓ', 'ﬗ'),
-];
-
-pub const AVESTAN: &'static [(char, char)] = &[
-  ('𐬀', '𐬵'), ('𐬹', '𐬿'),
-];
-
-pub const BALINESE: &'static [(char, char)] = &[
-  ('\u{1b00}', 'ᭋ'), ('᭐', '᭼'),
-];
-
-pub const BAMUM: &'static [(char, char)] = &[
-  ('ꚠ', '꛷'), ('𖠀', '𖨸'),
-];
-
-pub const BASSA_VAH: &'static [(char, char)] = &[
-  ('𖫐', '𖫭'), ('\u{16af0}', '𖫵'),
-];
-
-pub const BATAK: &'static [(char, char)] = &[
-  ('ᯀ', '᯳'), ('᯼', '᯿'),
-];
-
-pub const BENGALI: &'static [(char, char)] = &[
-  ('ঀ', 'ঃ'), ('অ', 'ঌ'), ('এ', 'ঐ'), ('ও', 'ন'),
-  ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'), ('\u{9bc}', '\u{9c4}'),
-  ('ে', 'ৈ'), ('ো', 'ৎ'), ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'),
-  ('য়', '\u{9e3}'), ('০', '\u{9fe}'),
-];
-
-pub const BHAIKSUKI: &'static [(char, char)] = &[
-  ('𑰀', '𑰈'), ('𑰊', '\u{11c36}'), ('\u{11c38}', '𑱅'),
-  ('𑱐', '𑱬'),
-];
-
-pub const BOPOMOFO: &'static [(char, char)] = &[
-  ('˪', '˫'), ('ㄅ', 'ㄯ'), ('ㆠ', 'ㆺ'),
-];
-
-pub const BRAHMI: &'static [(char, char)] = &[
-  ('𑀀', '𑁍'), ('𑁒', '𑁯'), ('\u{1107f}', '\u{1107f}'),
-];
-
-pub const BRAILLE: &'static [(char, char)] = &[
-  ('⠀', '⣿'),
-];
-
-pub const BUGINESE: &'static [(char, char)] = &[
-  ('ᨀ', '\u{1a1b}'), ('᨞', '᨟'),
-];
-
-pub const BUHID: &'static [(char, char)] = &[
-  ('ᝀ', '\u{1753}'),
-];
-
-pub const CANADIAN_ABORIGINAL: &'static [(char, char)] = &[
-  ('᐀', 'ᙿ'), ('ᢰ', 'ᣵ'),
-];
-
-pub const CARIAN: &'static [(char, char)] = &[
-  ('𐊠', '𐋐'),
-];
-
-pub const CAUCASIAN_ALBANIAN: &'static [(char, char)] = &[
-  ('𐔰', '𐕣'), ('𐕯', '𐕯'),
-];
-
-pub const CHAKMA: &'static [(char, char)] = &[
-  ('\u{11100}', '\u{11134}'), ('𑄶', '𑅆'),
-];
-
-pub const CHAM: &'static [(char, char)] = &[
-  ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'), ('꩐', '꩙'), ('꩜', '꩟'),
-];
-
-pub const CHEROKEE: &'static [(char, char)] = &[
-  ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'), ('ꭰ', 'ꮿ'),
-];
-
-pub const COMMON: &'static [(char, char)] = &[
-  ('\u{0}', '@'), ('[', '`'), ('{', '©'), ('«', '¹'), ('»', '¿'),
-  ('×', '×'), ('÷', '÷'), ('ʹ', '˟'), ('˥', '˩'), ('ˬ', '˿'),
-  ('ʹ', 'ʹ'), (';', ';'), ('΅', '΅'), ('·', '·'), ('։', '։'),
-  ('\u{605}', '\u{605}'), ('،', '،'), ('؛', '؛'), ('؟', '؟'),
-  ('ـ', 'ـ'), ('\u{6dd}', '\u{6dd}'), ('\u{8e2}', '\u{8e2}'),
-  ('।', '॥'), ('฿', '฿'), ('࿕', '࿘'), ('჻', '჻'),
-  ('᛫', '᛭'), ('᜵', '᜶'), ('᠂', '᠃'), ('᠅', '᠅'),
-  ('᳓', '᳓'), ('᳡', '᳡'), ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'),
-  ('ᳵ', '᳷'), ('\u{1cfa}', '\u{1cfa}'), ('\u{2000}', '\u{200b}'),
-  ('\u{200e}', '\u{2064}'), ('\u{2066}', '⁰'), ('⁴', '⁾'),
-  ('₀', '₎'), ('₠', '₿'), ('℀', '℥'), ('℧', '℩'),
-  ('ℬ', 'ℱ'), ('ℳ', '⅍'), ('⅏', '⅟'), ('↉', '↋'),
-  ('←', '␦'), ('⑀', '⑊'), ('①', '⟿'), ('⤀', '⭳'),
-  ('⭶', '⮕'), ('⮘', '\u{2bff}'), ('⸀', '\u{2e4f}'), ('⿰', '⿻'),
-  ('\u{3000}', '〄'), ('〆', '〆'), ('〈', '〠'), ('〰', '〷'),
-  ('〼', '〿'), ('゛', '゜'), ('゠', '゠'), ('・', 'ー'),
-  ('㆐', '㆟'), ('㇀', '㇣'), ('㈠', '㉟'), ('㉿', '㋏'),
-  ('\u{32ff}', '\u{32ff}'), ('㍘', '㏿'), ('䷀', '䷿'), ('꜀', '꜡'),
-  ('ꞈ', '꞊'), ('꠰', '꠹'), ('꤮', '꤮'), ('ꧏ', 'ꧏ'),
-  ('꭛', '꭛'), ('﴾', '﴿'), ('︐', '︙'), ('︰', '﹒'),
-  ('﹔', '﹦'), ('﹨', '﹫'), ('\u{feff}', '\u{feff}'), ('!', '@'),
-  ('[', '`'), ('{', '・'), ('ー', 'ー'), ('\u{ff9e}', '\u{ff9f}'),
-  ('¢', '₩'), ('│', '○'), ('\u{fff9}', '�'), ('𐄀', '𐄂'),
-  ('𐄇', '𐄳'), ('𐄷', '𐄿'), ('𐆐', '𐆛'), ('𐇐', '𐇼'),
-  ('𐋡', '𐋻'), ('\u{16fe2}', '\u{16fe3}'), ('\u{1bca0}', '\u{1bca3}'),
-  ('𝀀', '𝃵'), ('𝄀', '𝄦'), ('𝄩', '𝅦'), ('𝅪', '\u{1d17a}'),
-  ('𝆃', '𝆄'), ('𝆌', '𝆩'), ('𝆮', '𝇨'), ('𝋠', '𝋳'),
-  ('𝌀', '𝍖'), ('𝍠', '𝍸'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝟋'), ('𝟎', '𝟿'), ('𞱱', '𞲴'),
-  ('\u{1ed01}', '\u{1ed3d}'), ('🀀', '🀫'), ('🀰', '🂓'),
-  ('🂠', '🂮'), ('🂱', '🂿'), ('🃁', '🃏'), ('🃑', '🃵'),
-  ('🄀', '🄌'), ('🄐', '\u{1f16c}'), ('🅰', '🆬'), ('🇦', '🇿'),
-  ('🈁', '🈂'), ('🈐', '🈻'), ('🉀', '🉈'), ('🉐', '🉑'),
-  ('🉠', '🉥'), ('🌀', '\u{1f6d5}'), ('🛠', '🛬'),
-  ('🛰', '\u{1f6fa}'), ('🜀', '🝳'), ('🞀', '🟘'),
-  ('\u{1f7e0}', '\u{1f7eb}'), ('🠀', '🠋'), ('🠐', '🡇'),
-  ('🡐', '🡙'), ('🡠', '🢇'), ('🢐', '🢭'), ('🤀', '🤋'),
-  ('\u{1f90d}', '\u{1f971}'), ('🥳', '🥶'), ('🥺', '🦢'),
-  ('\u{1f9a5}', '\u{1f9aa}'), ('\u{1f9ae}', '\u{1f9ca}'),
-  ('\u{1f9cd}', '\u{1fa53}'), ('🩠', '🩭'), ('\u{1fa70}', '\u{1fa73}'),
-  ('\u{1fa78}', '\u{1fa7a}'), ('\u{1fa80}', '\u{1fa82}'),
-  ('\u{1fa90}', '\u{1fa95}'), ('\u{e0001}', '\u{e0001}'),
-  ('\u{e0020}', '\u{e007f}'),
-];
-
-pub const COPTIC: &'static [(char, char)] = &[
-  ('Ϣ', 'ϯ'), ('Ⲁ', 'ⳳ'), ('⳹', '⳿'),
-];
-
-pub const CUNEIFORM: &'static [(char, char)] = &[
-  ('𒀀', '𒎙'), ('𒐀', '𒑮'), ('𒑰', '𒑴'), ('𒒀', '𒕃'),
-];
-
-pub const CYPRIOT: &'static [(char, char)] = &[
-  ('𐠀', '𐠅'), ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'),
-  ('𐠼', '𐠼'), ('𐠿', '𐠿'),
-];
-
-pub const CYRILLIC: &'static [(char, char)] = &[
-  ('Ѐ', '\u{484}'), ('\u{487}', 'ԯ'), ('ᲀ', 'ᲈ'), ('ᴫ', 'ᴫ'),
-  ('ᵸ', 'ᵸ'), ('\u{2de0}', '\u{2dff}'), ('Ꙁ', '\u{a69f}'),
-  ('\u{fe2e}', '\u{fe2f}'),
-];
-
-pub const DESERET: &'static [(char, char)] = &[
-  ('𐐀', '𐑏'),
-];
-
-pub const DEVANAGARI: &'static [(char, char)] = &[
-  ('\u{900}', 'ॐ'), ('\u{955}', '\u{963}'), ('०', 'ॿ'),
-  ('\u{a8e0}', '\u{a8ff}'),
-];
-
-pub const DOGRA: &'static [(char, char)] = &[
-  ('𑠀', '𑠻'),
-];
-
-pub const DUPLOYAN: &'static [(char, char)] = &[
-  ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'), ('𛲐', '𛲙'),
-  ('𛲜', '𛲟'),
-];
-
-pub const EGYPTIAN_HIEROGLYPHS: &'static [(char, char)] = &[
-  ('𓀀', '𓐮'), ('\u{13430}', '\u{13438}'),
-];
-
-pub const ELBASAN: &'static [(char, char)] = &[
-  ('𐔀', '𐔧'),
-];
-
-pub const ELYMAIC: &'static [(char, char)] = &[
-  ('\u{10fe0}', '\u{10ff6}'),
-];
-
-pub const ETHIOPIC: &'static [(char, char)] = &[
-  ('ሀ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'),
-  ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኰ'),
-  ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'), ('ዂ', 'ዅ'),
-  ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ፚ'),
-  ('\u{135d}', '፼'), ('ᎀ', '᎙'), ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'),
-  ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'),
-  ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'), ('ꬁ', 'ꬆ'),
-  ('ꬉ', 'ꬎ'), ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'),
-];
-
-pub const GEORGIAN: &'static [(char, char)] = &[
-  ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'), ('ა', 'ჺ'),
-  ('ჼ', 'ჿ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'),
-];
-
-pub const GLAGOLITIC: &'static [(char, char)] = &[
-  ('Ⰰ', 'Ⱞ'), ('ⰰ', 'ⱞ'), ('\u{1e000}', '\u{1e006}'),
-  ('\u{1e008}', '\u{1e018}'), ('\u{1e01b}', '\u{1e021}'),
-  ('\u{1e023}', '\u{1e024}'), ('\u{1e026}', '\u{1e02a}'),
-];
-
-pub const GOTHIC: &'static [(char, char)] = &[
-  ('𐌰', '𐍊'),
-];
-
-pub const GRANTHA: &'static [(char, char)] = &[
-  ('\u{11300}', '𑌃'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('\u{1133c}', '𑍄'),
-  ('𑍇', '𑍈'), ('𑍋', '𑍍'), ('𑍐', '𑍐'),
-  ('\u{11357}', '\u{11357}'), ('𑍝', '𑍣'), ('\u{11366}', '\u{1136c}'),
-  ('\u{11370}', '\u{11374}'),
-];
-
-pub const GREEK: &'static [(char, char)] = &[
-  ('Ͱ', 'ͳ'), ('͵', 'ͷ'), ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('΄', '΄'),
-  ('Ά', 'Ά'), ('Έ', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ϡ'),
-  ('ϰ', 'Ͽ'), ('ᴦ', 'ᴪ'), ('ᵝ', 'ᵡ'), ('ᵦ', 'ᵪ'),
-  ('ᶿ', 'ᶿ'), ('ἀ', 'ἕ'), ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'),
-  ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'), ('ᾶ', 'ῄ'),
-  ('ῆ', 'ΐ'), ('ῖ', 'Ί'), ('῝', '`'), ('ῲ', 'ῴ'),
-  ('ῶ', '῾'), ('Ω', 'Ω'), ('ꭥ', 'ꭥ'), ('𐅀', '𐆎'),
-  ('𐆠', '𐆠'), ('𝈀', '𝉅'),
-];
-
-pub const GUJARATI: &'static [(char, char)] = &[
-  ('\u{a81}', 'ઃ'), ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'),
-  ('પ', 'ર'), ('લ', 'ળ'), ('વ', 'હ'), ('\u{abc}', '\u{ac5}'),
-  ('\u{ac7}', 'ૉ'), ('ો', '\u{acd}'), ('ૐ', 'ૐ'), ('ૠ', '\u{ae3}'),
-  ('૦', '૱'), ('ૹ', '\u{aff}'),
-];
-
-pub const GUNJALA_GONDI: &'static [(char, char)] = &[
-  ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶘'), ('𑶠', '𑶩'),
-];
-
-pub const GURMUKHI: &'static [(char, char)] = &[
-  ('\u{a01}', 'ਃ'), ('ਅ', 'ਊ'), ('ਏ', 'ਐ'), ('ਓ', 'ਨ'),
-  ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'),
-  ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'), ('ਖ਼', 'ੜ'),
-  ('ਫ਼', 'ਫ਼'), ('੦', '੶'),
-];
-
-pub const HAN: &'static [(char, char)] = &[
-  ('⺀', '⺙'), ('⺛', '⻳'), ('⼀', '⿕'), ('々', '々'),
-  ('〇', '〇'), ('〡', '〩'), ('〸', '〻'), ('㐀', '䶵'),
-  ('一', '鿯'), ('豈', '舘'), ('並', '龎'), ('𠀀', '𪛖'),
-  ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-  ('丽', '𪘀'),
-];
-
-pub const HANGUL: &'static [(char, char)] = &[
-  ('ᄀ', 'ᇿ'), ('\u{302e}', '\u{302f}'), ('ㄱ', 'ㆎ'), ('㈀', '㈞'),
-  ('㉠', '㉾'), ('ꥠ', 'ꥼ'), ('가', '힣'), ('ힰ', 'ퟆ'),
-  ('ퟋ', 'ퟻ'), ('ᅠ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'),
-  ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'),
-];
-
-pub const HANIFI_ROHINGYA: &'static [(char, char)] = &[
-  ('𐴀', '\u{10d27}'), ('𐴰', '𐴹'),
-];
-
-pub const HANUNOO: &'static [(char, char)] = &[
-  ('ᜠ', '\u{1734}'),
-];
-
-pub const HATRAN: &'static [(char, char)] = &[
-  ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐣻', '𐣿'),
-];
-
-pub const HEBREW: &'static [(char, char)] = &[
-  ('\u{591}', '\u{5c7}'), ('א', 'ת'), ('ׯ', '״'), ('יִ', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﭏ'),
-];
-
-pub const HIRAGANA: &'static [(char, char)] = &[
-  ('ぁ', 'ゖ'), ('ゝ', 'ゟ'), ('𛀁', '𛄞'),
-  ('\u{1b150}', '\u{1b152}'), ('🈀', '🈀'),
-];
-
-pub const IMPERIAL_ARAMAIC: &'static [(char, char)] = &[
-  ('𐡀', '𐡕'), ('𐡗', '𐡟'),
-];
-
-pub const INHERITED: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{485}', '\u{486}'), ('\u{64b}', '\u{655}'),
-  ('\u{670}', '\u{670}'), ('\u{951}', '\u{954}'), ('\u{1ab0}', '\u{1abe}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce0}'),
-  ('\u{1ce2}', '\u{1ce8}'), ('\u{1ced}', '\u{1ced}'),
-  ('\u{1cf4}', '\u{1cf4}'), ('\u{1cf8}', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{200c}', '\u{200d}'), ('\u{20d0}', '\u{20f0}'),
-  ('\u{302a}', '\u{302d}'), ('\u{3099}', '\u{309a}'),
-  ('\u{fe00}', '\u{fe0f}'), ('\u{fe20}', '\u{fe2d}'),
-  ('\u{101fd}', '\u{101fd}'), ('\u{102e0}', '\u{102e0}'),
-  ('\u{1133b}', '\u{1133b}'), ('\u{1d167}', '\u{1d169}'),
-  ('\u{1d17b}', '\u{1d182}'), ('\u{1d185}', '\u{1d18b}'),
-  ('\u{1d1aa}', '\u{1d1ad}'), ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const INSCRIPTIONAL_PAHLAVI: &'static [(char, char)] = &[
-  ('𐭠', '𐭲'), ('𐭸', '𐭿'),
-];
-
-pub const INSCRIPTIONAL_PARTHIAN: &'static [(char, char)] = &[
-  ('𐭀', '𐭕'), ('𐭘', '𐭟'),
-];
-
-pub const JAVANESE: &'static [(char, char)] = &[
-  ('\u{a980}', '꧍'), ('꧐', '꧙'), ('꧞', '꧟'),
-];
-
-pub const KAITHI: &'static [(char, char)] = &[
-  ('\u{11080}', '𑃁'), ('\u{110cd}', '\u{110cd}'),
-];
-
-pub const KANNADA: &'static [(char, char)] = &[
-  ('ಀ', 'ಌ'), ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'),
-  ('ವ', 'ಹ'), ('\u{cbc}', 'ೄ'), ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccd}'),
-  ('\u{cd5}', '\u{cd6}'), ('ೞ', 'ೞ'), ('ೠ', '\u{ce3}'), ('೦', '೯'),
-  ('ೱ', 'ೲ'),
-];
-
-pub const KATAKANA: &'static [(char, char)] = &[
-  ('ァ', 'ヺ'), ('ヽ', 'ヿ'), ('ㇰ', 'ㇿ'), ('㋐', '㋾'),
-  ('㌀', '㍗'), ('ヲ', 'ッ'), ('ア', 'ン'), ('𛀀', '𛀀'),
-  ('\u{1b164}', '\u{1b167}'),
-];
-
-pub const KAYAH_LI: &'static [(char, char)] = &[
-  ('꤀', '\u{a92d}'), ('꤯', '꤯'),
-];
-
-pub const KHAROSHTHI: &'static [(char, char)] = &[
-  ('𐨀', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '𐩈'), ('𐩐', '𐩘'),
-];
-
-pub const KHMER: &'static [(char, char)] = &[
-  ('ក', '\u{17dd}'), ('០', '៩'), ('៰', '៹'), ('᧠', '᧿'),
-];
-
-pub const KHOJKI: &'static [(char, char)] = &[
-  ('𑈀', '𑈑'), ('𑈓', '\u{1123e}'),
-];
-
-pub const KHUDAWADI: &'static [(char, char)] = &[
-  ('𑊰', '\u{112ea}'), ('𑋰', '𑋹'),
-];
-
-pub const LAO: &'static [(char, char)] = &[
-  ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'),
-  ('ລ', 'ລ'), ('ວ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'),
-  ('\u{ec8}', '\u{ecd}'), ('໐', '໙'), ('ໜ', 'ໟ'),
-];
-
-pub const LATIN: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('º', 'º'), ('À', 'Ö'),
-  ('Ø', 'ö'), ('ø', 'ʸ'), ('ˠ', 'ˤ'), ('ᴀ', 'ᴥ'), ('ᴬ', 'ᵜ'),
-  ('ᵢ', 'ᵥ'), ('ᵫ', 'ᵷ'), ('ᵹ', 'ᶾ'), ('Ḁ', 'ỿ'),
-  ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('K', 'Å'),
-  ('Ⅎ', 'Ⅎ'), ('ⅎ', 'ⅎ'), ('Ⅰ', 'ↈ'), ('Ⱡ', 'Ɀ'),
-  ('Ꜣ', 'ꞇ'), ('Ꞌ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'),
-  ('ꟷ', 'ꟿ'), ('ꬰ', 'ꭚ'), ('ꭜ', 'ꭤ'), ('\u{ab66}', '\u{ab67}'),
-  ('ff', 'st'), ('A', 'Z'), ('a', 'z'),
-];
-
-pub const LEPCHA: &'static [(char, char)] = &[
-  ('ᰀ', '\u{1c37}'), ('᰻', '᱉'), ('ᱍ', 'ᱏ'),
-];
-
-pub const LIMBU: &'static [(char, char)] = &[
-  ('ᤀ', 'ᤞ'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'), ('᥀', '᥀'),
-  ('᥄', '᥏'),
-];
-
-pub const LINEAR_A: &'static [(char, char)] = &[
-  ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'),
-];
-
-pub const LINEAR_B: &'static [(char, char)] = &[
-  ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'),
-  ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'),
-];
-
-pub const LISU: &'static [(char, char)] = &[
-  ('ꓐ', '꓿'),
-];
-
-pub const LYCIAN: &'static [(char, char)] = &[
-  ('𐊀', '𐊜'),
-];
-
-pub const LYDIAN: &'static [(char, char)] = &[
-  ('𐤠', '𐤹'), ('𐤿', '𐤿'),
-];
-
-pub const MAHAJANI: &'static [(char, char)] = &[
-  ('𑅐', '𑅶'),
-];
-
-pub const MAKASAR: &'static [(char, char)] = &[
-  ('𑻠', '𑻸'),
-];
-
-pub const MALAYALAM: &'static [(char, char)] = &[
-  ('\u{d00}', 'ഃ'), ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', '\u{d44}'),
-  ('െ', 'ൈ'), ('ൊ', '൏'), ('ൔ', '\u{d63}'), ('൦', 'ൿ'),
-];
-
-pub const MANDAIC: &'static [(char, char)] = &[
-  ('ࡀ', '\u{85b}'), ('࡞', '࡞'),
-];
-
-pub const MANICHAEAN: &'static [(char, char)] = &[
-  ('𐫀', '\u{10ae6}'), ('𐫫', '𐫶'),
-];
-
-pub const MARCHEN: &'static [(char, char)] = &[
-  ('𑱰', '𑲏'), ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-];
-
-pub const MASARAM_GONDI: &'static [(char, char)] = &[
-  ('𑴀', '𑴆'), ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d47}'), ('𑵐', '𑵙'),
-];
-
-pub const MEDEFAIDRIN: &'static [(char, char)] = &[
-  ('𖹀', '𖺚'),
-];
-
-pub const MEETEI_MAYEK: &'static [(char, char)] = &[
-  ('ꫠ', '\u{aaf6}'), ('ꯀ', '\u{abed}'), ('꯰', '꯹'),
-];
-
-pub const MENDE_KIKAKUI: &'static [(char, char)] = &[
-  ('𞠀', '𞣄'), ('𞣇', '\u{1e8d6}'),
-];
-
-pub const MEROITIC_CURSIVE: &'static [(char, char)] = &[
-  ('𐦠', '𐦷'), ('𐦼', '𐧏'), ('𐧒', '𐧿'),
-];
-
-pub const MEROITIC_HIEROGLYPHS: &'static [(char, char)] = &[
-  ('𐦀', '𐦟'),
-];
-
-pub const MIAO: &'static [(char, char)] = &[
-  ('𖼀', '\u{16f4a}'), ('\u{16f4f}', '\u{16f87}'), ('\u{16f8f}', '𖾟'),
-];
-
-pub const MODI: &'static [(char, char)] = &[
-  ('𑘀', '𑙄'), ('𑙐', '𑙙'),
-];
-
-pub const MONGOLIAN: &'static [(char, char)] = &[
-  ('᠀', '᠁'), ('᠄', '᠄'), ('᠆', '\u{180e}'), ('᠐', '᠙'),
-  ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢪ'), ('𑙠', '𑙬'),
-];
-
-pub const MRO: &'static [(char, char)] = &[
-  ('𖩀', '𖩞'), ('𖩠', '𖩩'), ('𖩮', '𖩯'),
-];
-
-pub const MULTANI: &'static [(char, char)] = &[
-  ('𑊀', '𑊆'), ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'),
-  ('𑊟', '𑊩'),
-];
-
-pub const MYANMAR: &'static [(char, char)] = &[
-  ('က', '႟'), ('ꧠ', 'ꧾ'), ('ꩠ', 'ꩿ'),
-];
-
-pub const NABATAEAN: &'static [(char, char)] = &[
-  ('𐢀', '𐢞'), ('𐢧', '𐢯'),
-];
-
-pub const NANDINAGARI: &'static [(char, char)] = &[
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d7}'),
-  ('\u{119da}', '\u{119e4}'),
-];
-
-pub const NEW_TAI_LUE: &'static [(char, char)] = &[
-  ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('᧐', '᧚'), ('᧞', '᧟'),
-];
-
-pub const NEWA: &'static [(char, char)] = &[
-  ('𑐀', '𑑙'), ('𑑛', '𑑛'), ('𑑝', '\u{1145f}'),
-];
-
-pub const NKO: &'static [(char, char)] = &[
-  ('߀', 'ߺ'), ('\u{7fd}', '߿'),
-];
-
-pub const NUSHU: &'static [(char, char)] = &[
-  ('𖿡', '𖿡'), ('𛅰', '𛋻'),
-];
-
-pub const NYIAKENG_PUACHUE_HMONG: &'static [(char, char)] = &[
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e130}', '\u{1e13d}'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e14e}', '\u{1e14f}'),
-];
-
-pub const OGHAM: &'static [(char, char)] = &[
-  ('\u{1680}', '᚜'),
-];
-
-pub const OL_CHIKI: &'static [(char, char)] = &[
-  ('᱐', '᱿'),
-];
-
-pub const OLD_HUNGARIAN: &'static [(char, char)] = &[
-  ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𐳺', '𐳿'),
-];
-
-pub const OLD_ITALIC: &'static [(char, char)] = &[
-  ('𐌀', '𐌣'), ('𐌭', '𐌯'),
-];
-
-pub const OLD_NORTH_ARABIAN: &'static [(char, char)] = &[
-  ('𐪀', '𐪟'),
-];
-
-pub const OLD_PERMIC: &'static [(char, char)] = &[
-  ('𐍐', '\u{1037a}'),
-];
-
-pub const OLD_PERSIAN: &'static [(char, char)] = &[
-  ('𐎠', '𐏃'), ('𐏈', '𐏕'),
-];
-
-pub const OLD_SOGDIAN: &'static [(char, char)] = &[
-  ('𐼀', '𐼧'),
-];
-
-pub const OLD_SOUTH_ARABIAN: &'static [(char, char)] = &[
-  ('𐩠', '𐩿'),
-];
-
-pub const OLD_TURKIC: &'static [(char, char)] = &[
-  ('𐰀', '𐱈'),
-];
-
-pub const ORIYA: &'static [(char, char)] = &[
-  ('\u{b01}', 'ଃ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'), ('ଓ', 'ନ'),
-  ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'), ('\u{b3c}', '\u{b44}'),
-  ('େ', 'ୈ'), ('ୋ', '\u{b4d}'), ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'),
-  ('ୟ', '\u{b63}'), ('୦', '୷'),
-];
-
-pub const OSAGE: &'static [(char, char)] = &[
-  ('𐒰', '𐓓'), ('𐓘', '𐓻'),
-];
-
-pub const OSMANYA: &'static [(char, char)] = &[
-  ('𐒀', '𐒝'), ('𐒠', '𐒩'),
-];
-
-pub const PAHAWH_HMONG: &'static [(char, char)] = &[
-  ('𖬀', '𖭅'), ('𖭐', '𖭙'), ('𖭛', '𖭡'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'),
-];
-
-pub const PALMYRENE: &'static [(char, char)] = &[
-  ('𐡠', '𐡿'),
-];
-
-pub const PAU_CIN_HAU: &'static [(char, char)] = &[
-  ('𑫀', '𑫸'),
-];
-
-pub const PHAGS_PA: &'static [(char, char)] = &[
-  ('ꡀ', '꡷'),
-];
-
-pub const PHOENICIAN: &'static [(char, char)] = &[
-  ('𐤀', '𐤛'), ('𐤟', '𐤟'),
-];
-
-pub const PSALTER_PAHLAVI: &'static [(char, char)] = &[
-  ('𐮀', '𐮑'), ('𐮙', '𐮜'), ('𐮩', '𐮯'),
-];
-
-pub const REJANG: &'static [(char, char)] = &[
-  ('ꤰ', '꥓'), ('꥟', '꥟'),
-];
-
-pub const RUNIC: &'static [(char, char)] = &[
-  ('ᚠ', 'ᛪ'), ('ᛮ', 'ᛸ'),
-];
-
-pub const SAMARITAN: &'static [(char, char)] = &[
-  ('ࠀ', '\u{82d}'), ('࠰', '࠾'),
-];
-
-pub const SAURASHTRA: &'static [(char, char)] = &[
-  ('ꢀ', '\u{a8c5}'), ('꣎', '꣙'),
-];
-
-pub const SHARADA: &'static [(char, char)] = &[
-  ('\u{11180}', '𑇍'), ('𑇐', '𑇟'),
-];
-
-pub const SHAVIAN: &'static [(char, char)] = &[
-  ('𐑐', '𐑿'),
-];
-
-pub const SIDDHAM: &'static [(char, char)] = &[
-  ('𑖀', '\u{115b5}'), ('𑖸', '\u{115dd}'),
-];
-
-pub const SIGNWRITING: &'static [(char, char)] = &[
-  ('𝠀', '𝪋'), ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-];
-
-pub const SINHALA: &'static [(char, char)] = &[
-  ('ං', 'ඃ'), ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'),
-  ('ල', 'ල'), ('ව', 'ෆ'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('෦', '෯'), ('ෲ', '෴'), ('𑇡', '𑇴'),
-];
-
-pub const SOGDIAN: &'static [(char, char)] = &[
-  ('𐼰', '𐽙'),
-];
-
-pub const SORA_SOMPENG: &'static [(char, char)] = &[
-  ('𑃐', '𑃨'), ('𑃰', '𑃹'),
-];
-
-pub const SOYOMBO: &'static [(char, char)] = &[
-  ('𑩐', '𑪢'),
-];
-
-pub const SUNDANESE: &'static [(char, char)] = &[
-  ('\u{1b80}', 'ᮿ'), ('᳀', '᳇'),
-];
-
-pub const SYLOTI_NAGRI: &'static [(char, char)] = &[
-  ('ꠀ', '꠫'),
-];
-
-pub const SYRIAC: &'static [(char, char)] = &[
-  ('܀', '܍'), ('\u{70f}', '\u{74a}'), ('ݍ', 'ݏ'), ('ࡠ', 'ࡪ'),
-];
-
-pub const TAGALOG: &'static [(char, char)] = &[
-  ('ᜀ', 'ᜌ'), ('ᜎ', '\u{1714}'),
-];
-
-pub const TAGBANWA: &'static [(char, char)] = &[
-  ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('\u{1772}', '\u{1773}'),
-];
-
-pub const TAI_LE: &'static [(char, char)] = &[
-  ('ᥐ', 'ᥭ'), ('ᥰ', 'ᥴ'),
-];
-
-pub const TAI_THAM: &'static [(char, char)] = &[
-  ('ᨠ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'), ('\u{1a7f}', '᪉'),
-  ('᪐', '᪙'), ('᪠', '᪭'),
-];
-
-pub const TAI_VIET: &'static [(char, char)] = &[
-  ('ꪀ', 'ꫂ'), ('ꫛ', '꫟'),
-];
-
-pub const TAKRI: &'static [(char, char)] = &[
-  ('𑚀', '\u{116b8}'), ('𑛀', '𑛉'),
-];
-
-pub const TAMIL: &'static [(char, char)] = &[
-  ('\u{b82}', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'), ('ஒ', 'க'),
-  ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'), ('ண', 'த'),
-  ('ந', 'ப'), ('ம', 'ஹ'), ('\u{bbe}', 'ூ'), ('ெ', 'ை'),
-  ('ொ', '\u{bcd}'), ('ௐ', 'ௐ'), ('\u{bd7}', '\u{bd7}'), ('௦', '௺'),
-  ('\u{11fc0}', '\u{11ff1}'), ('\u{11fff}', '\u{11fff}'),
-];
-
-pub const TANGUT: &'static [(char, char)] = &[
-  ('𖿠', '𖿠'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-];
-
-pub const TELUGU: &'static [(char, char)] = &[
-  ('\u{c00}', 'ఌ'), ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'),
-  ('ఽ', 'ౄ'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('ౘ', 'ౚ'), ('ౠ', '\u{c63}'), ('౦', '౯'),
-  ('\u{c77}', '౿'),
-];
-
-pub const THAANA: &'static [(char, char)] = &[
-  ('ހ', 'ޱ'),
-];
-
-pub const THAI: &'static [(char, char)] = &[
-  ('ก', '\u{e3a}'), ('เ', '๛'),
-];
-
-pub const TIBETAN: &'static [(char, char)] = &[
-  ('ༀ', 'ཇ'), ('ཉ', 'ཬ'), ('\u{f71}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('྾', '࿌'), ('࿎', '࿔'), ('࿙', '࿚'),
-];
-
-pub const TIFINAGH: &'static [(char, char)] = &[
-  ('ⴰ', 'ⵧ'), ('ⵯ', '⵰'), ('\u{2d7f}', '\u{2d7f}'),
-];
-
-pub const TIRHUTA: &'static [(char, char)] = &[
-  ('𑒀', '𑓇'), ('𑓐', '𑓙'),
-];
-
-pub const UGARITIC: &'static [(char, char)] = &[
-  ('𐎀', '𐎝'), ('𐎟', '𐎟'),
-];
-
-pub const VAI: &'static [(char, char)] = &[
-  ('ꔀ', 'ꘫ'),
-];
-
-pub const WANCHO: &'static [(char, char)] = &[
-  ('\u{1e2c0}', '\u{1e2f9}'), ('\u{1e2ff}', '\u{1e2ff}'),
-];
-
-pub const WARANG_CITI: &'static [(char, char)] = &[
-  ('𑢠', '𑣲'), ('𑣿', '𑣿'),
-];
-
-pub const YI: &'static [(char, char)] = &[
-  ('ꀀ', 'ꒌ'), ('꒐', '꓆'),
-];
-
-pub const ZANABAZAR_SQUARE: &'static [(char, char)] = &[
-  ('𑨀', '\u{11a47}'),
-];
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/unicode_tables/script_extension.rs.html b/target/doc/src/regex_syntax/unicode_tables/script_extension.rs.html deleted file mode 100644 index e5bf178..0000000 --- a/target/doc/src/regex_syntax/unicode_tables/script_extension.rs.html +++ /dev/null @@ -1,1749 +0,0 @@ -script_extension.rs.html -- source
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate script-extension /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("Adlam", ADLAM), ("Ahom", AHOM),
-  ("Anatolian_Hieroglyphs", ANATOLIAN_HIEROGLYPHS), ("Arabic", ARABIC),
-  ("Armenian", ARMENIAN), ("Avestan", AVESTAN), ("Balinese", BALINESE),
-  ("Bamum", BAMUM), ("Bassa_Vah", BASSA_VAH), ("Batak", BATAK),
-  ("Bengali", BENGALI), ("Bhaiksuki", BHAIKSUKI), ("Bopomofo", BOPOMOFO),
-  ("Brahmi", BRAHMI), ("Braille", BRAILLE), ("Buginese", BUGINESE),
-  ("Buhid", BUHID), ("Canadian_Aboriginal", CANADIAN_ABORIGINAL),
-  ("Carian", CARIAN), ("Caucasian_Albanian", CAUCASIAN_ALBANIAN),
-  ("Chakma", CHAKMA), ("Cham", CHAM), ("Cherokee", CHEROKEE),
-  ("Common", COMMON), ("Coptic", COPTIC), ("Cuneiform", CUNEIFORM),
-  ("Cypriot", CYPRIOT), ("Cyrillic", CYRILLIC), ("Deseret", DESERET),
-  ("Devanagari", DEVANAGARI), ("Dogra", DOGRA), ("Duployan", DUPLOYAN),
-  ("Egyptian_Hieroglyphs", EGYPTIAN_HIEROGLYPHS), ("Elbasan", ELBASAN),
-  ("Elymaic", ELYMAIC), ("Ethiopic", ETHIOPIC), ("Georgian", GEORGIAN),
-  ("Glagolitic", GLAGOLITIC), ("Gothic", GOTHIC), ("Grantha", GRANTHA),
-  ("Greek", GREEK), ("Gujarati", GUJARATI), ("Gunjala_Gondi", GUNJALA_GONDI),
-  ("Gurmukhi", GURMUKHI), ("Han", HAN), ("Hangul", HANGUL),
-  ("Hanifi_Rohingya", HANIFI_ROHINGYA), ("Hanunoo", HANUNOO),
-  ("Hatran", HATRAN), ("Hebrew", HEBREW), ("Hiragana", HIRAGANA),
-  ("Imperial_Aramaic", IMPERIAL_ARAMAIC), ("Inherited", INHERITED),
-  ("Inscriptional_Pahlavi", INSCRIPTIONAL_PAHLAVI),
-  ("Inscriptional_Parthian", INSCRIPTIONAL_PARTHIAN), ("Javanese", JAVANESE),
-  ("Kaithi", KAITHI), ("Kannada", KANNADA), ("Katakana", KATAKANA),
-  ("Kayah_Li", KAYAH_LI), ("Kharoshthi", KHAROSHTHI), ("Khmer", KHMER),
-  ("Khojki", KHOJKI), ("Khudawadi", KHUDAWADI), ("Lao", LAO),
-  ("Latin", LATIN), ("Lepcha", LEPCHA), ("Limbu", LIMBU),
-  ("Linear_A", LINEAR_A), ("Linear_B", LINEAR_B), ("Lisu", LISU),
-  ("Lycian", LYCIAN), ("Lydian", LYDIAN), ("Mahajani", MAHAJANI),
-  ("Makasar", MAKASAR), ("Malayalam", MALAYALAM), ("Mandaic", MANDAIC),
-  ("Manichaean", MANICHAEAN), ("Marchen", MARCHEN),
-  ("Masaram_Gondi", MASARAM_GONDI), ("Medefaidrin", MEDEFAIDRIN),
-  ("Meetei_Mayek", MEETEI_MAYEK), ("Mende_Kikakui", MENDE_KIKAKUI),
-  ("Meroitic_Cursive", MEROITIC_CURSIVE),
-  ("Meroitic_Hieroglyphs", MEROITIC_HIEROGLYPHS), ("Miao", MIAO),
-  ("Modi", MODI), ("Mongolian", MONGOLIAN), ("Mro", MRO),
-  ("Multani", MULTANI), ("Myanmar", MYANMAR), ("Nabataean", NABATAEAN),
-  ("Nandinagari", NANDINAGARI), ("New_Tai_Lue", NEW_TAI_LUE), ("Newa", NEWA),
-  ("Nko", NKO), ("Nushu", NUSHU),
-  ("Nyiakeng_Puachue_Hmong", NYIAKENG_PUACHUE_HMONG), ("Ogham", OGHAM),
-  ("Ol_Chiki", OL_CHIKI), ("Old_Hungarian", OLD_HUNGARIAN),
-  ("Old_Italic", OLD_ITALIC), ("Old_North_Arabian", OLD_NORTH_ARABIAN),
-  ("Old_Permic", OLD_PERMIC), ("Old_Persian", OLD_PERSIAN),
-  ("Old_Sogdian", OLD_SOGDIAN), ("Old_South_Arabian", OLD_SOUTH_ARABIAN),
-  ("Old_Turkic", OLD_TURKIC), ("Oriya", ORIYA), ("Osage", OSAGE),
-  ("Osmanya", OSMANYA), ("Pahawh_Hmong", PAHAWH_HMONG),
-  ("Palmyrene", PALMYRENE), ("Pau_Cin_Hau", PAU_CIN_HAU),
-  ("Phags_Pa", PHAGS_PA), ("Phoenician", PHOENICIAN),
-  ("Psalter_Pahlavi", PSALTER_PAHLAVI), ("Rejang", REJANG), ("Runic", RUNIC),
-  ("Samaritan", SAMARITAN), ("Saurashtra", SAURASHTRA), ("Sharada", SHARADA),
-  ("Shavian", SHAVIAN), ("Siddham", SIDDHAM), ("SignWriting", SIGNWRITING),
-  ("Sinhala", SINHALA), ("Sogdian", SOGDIAN), ("Sora_Sompeng", SORA_SOMPENG),
-  ("Soyombo", SOYOMBO), ("Sundanese", SUNDANESE),
-  ("Syloti_Nagri", SYLOTI_NAGRI), ("Syriac", SYRIAC), ("Tagalog", TAGALOG),
-  ("Tagbanwa", TAGBANWA), ("Tai_Le", TAI_LE), ("Tai_Tham", TAI_THAM),
-  ("Tai_Viet", TAI_VIET), ("Takri", TAKRI), ("Tamil", TAMIL),
-  ("Tangut", TANGUT), ("Telugu", TELUGU), ("Thaana", THAANA), ("Thai", THAI),
-  ("Tibetan", TIBETAN), ("Tifinagh", TIFINAGH), ("Tirhuta", TIRHUTA),
-  ("Ugaritic", UGARITIC), ("Vai", VAI), ("Wancho", WANCHO),
-  ("Warang_Citi", WARANG_CITI), ("Yi", YI),
-  ("Zanabazar_Square", ZANABAZAR_SQUARE),
-];
-
-pub const ADLAM: &'static [(char, char)] = &[
-  ('ـ', 'ـ'), ('𞤀', '\u{1e94b}'), ('𞥐', '𞥙'), ('𞥞', '𞥟'),
-];
-
-pub const AHOM: &'static [(char, char)] = &[
-  ('𑜀', '𑜚'), ('\u{1171d}', '\u{1172b}'), ('𑜰', '𑜿'),
-];
-
-pub const ANATOLIAN_HIEROGLYPHS: &'static [(char, char)] = &[
-  ('𔐀', '𔙆'),
-];
-
-pub const ARABIC: &'static [(char, char)] = &[
-  ('\u{600}', '\u{604}'), ('؆', '\u{61c}'), ('؞', '\u{6dc}'), ('۞', 'ۿ'),
-  ('ݐ', 'ݿ'), ('ࢠ', 'ࢴ'), ('ࢶ', 'ࢽ'), ('\u{8d3}', '\u{8e1}'),
-  ('\u{8e3}', '\u{8ff}'), ('ﭐ', '﯁'), ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'),
-  ('ﶒ', 'ﷇ'), ('ﷰ', '﷽'), ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'),
-  ('\u{102e0}', '𐋻'), ('𐹠', '𐹾'), ('𞸀', '𞸃'), ('𞸅', '𞸟'),
-  ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'), ('𞸩', '𞸲'),
-  ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'), ('𞹂', '𞹂'),
-  ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'), ('𞹍', '𞹏'),
-  ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'), ('𞹙', '𞹙'),
-  ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'), ('𞹡', '𞹢'),
-  ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'), ('𞹴', '𞹷'),
-  ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'), ('𞺋', '𞺛'),
-  ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'), ('𞻰', '𞻱'),
-];
-
-pub const ARMENIAN: &'static [(char, char)] = &[
-  ('Ա', 'Ֆ'), ('ՙ', '֊'), ('֍', '֏'), ('ﬓ', 'ﬗ'),
-];
-
-pub const AVESTAN: &'static [(char, char)] = &[
-  ('𐬀', '𐬵'), ('𐬹', '𐬿'),
-];
-
-pub const BALINESE: &'static [(char, char)] = &[
-  ('\u{1b00}', 'ᭋ'), ('᭐', '᭼'),
-];
-
-pub const BAMUM: &'static [(char, char)] = &[
-  ('ꚠ', '꛷'), ('𖠀', '𖨸'),
-];
-
-pub const BASSA_VAH: &'static [(char, char)] = &[
-  ('𖫐', '𖫭'), ('\u{16af0}', '𖫵'),
-];
-
-pub const BATAK: &'static [(char, char)] = &[
-  ('ᯀ', '᯳'), ('᯼', '᯿'),
-];
-
-pub const BENGALI: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('ঀ', 'ঃ'), ('অ', 'ঌ'),
-  ('এ', 'ঐ'), ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'),
-  ('শ', 'হ'), ('\u{9bc}', '\u{9c4}'), ('ে', 'ৈ'), ('ো', 'ৎ'),
-  ('\u{9d7}', '\u{9d7}'), ('ড়', 'ঢ়'), ('য়', '\u{9e3}'),
-  ('০', '\u{9fe}'), ('\u{1cd0}', '\u{1cd0}'), ('\u{1cd2}', '\u{1cd2}'),
-  ('\u{1cd5}', '\u{1cd6}'), ('\u{1cd8}', '\u{1cd8}'), ('᳡', '᳡'),
-  ('ᳪ', 'ᳪ'), ('\u{1ced}', '\u{1ced}'), ('ᳲ', 'ᳲ'), ('ᳵ', '᳷'),
-  ('\u{a8f1}', '\u{a8f1}'),
-];
-
-pub const BHAIKSUKI: &'static [(char, char)] = &[
-  ('𑰀', '𑰈'), ('𑰊', '\u{11c36}'), ('\u{11c38}', '𑱅'),
-  ('𑱐', '𑱬'),
-];
-
-pub const BOPOMOFO: &'static [(char, char)] = &[
-  ('˪', '˫'), ('、', '〃'), ('〈', '】'), ('〓', '〟'),
-  ('\u{302a}', '\u{302d}'), ('〰', '〰'), ('〷', '〷'), ('・', '・'),
-  ('ㄅ', 'ㄯ'), ('ㆠ', 'ㆺ'), ('﹅', '﹆'), ('。', '・'),
-];
-
-pub const BRAHMI: &'static [(char, char)] = &[
-  ('𑀀', '𑁍'), ('𑁒', '𑁯'), ('\u{1107f}', '\u{1107f}'),
-];
-
-pub const BRAILLE: &'static [(char, char)] = &[
-  ('⠀', '⣿'),
-];
-
-pub const BUGINESE: &'static [(char, char)] = &[
-  ('ᨀ', '\u{1a1b}'), ('᨞', '᨟'), ('ꧏ', 'ꧏ'),
-];
-
-pub const BUHID: &'static [(char, char)] = &[
-  ('᜵', '᜶'), ('ᝀ', '\u{1753}'),
-];
-
-pub const CANADIAN_ABORIGINAL: &'static [(char, char)] = &[
-  ('᐀', 'ᙿ'), ('ᢰ', 'ᣵ'),
-];
-
-pub const CARIAN: &'static [(char, char)] = &[
-  ('𐊠', '𐋐'),
-];
-
-pub const CAUCASIAN_ALBANIAN: &'static [(char, char)] = &[
-  ('𐔰', '𐕣'), ('𐕯', '𐕯'),
-];
-
-pub const CHAKMA: &'static [(char, char)] = &[
-  ('০', '৯'), ('၀', '၉'), ('\u{11100}', '\u{11134}'),
-  ('𑄶', '𑅆'),
-];
-
-pub const CHAM: &'static [(char, char)] = &[
-  ('ꨀ', '\u{aa36}'), ('ꩀ', 'ꩍ'), ('꩐', '꩙'), ('꩜', '꩟'),
-];
-
-pub const CHEROKEE: &'static [(char, char)] = &[
-  ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'), ('ꭰ', 'ꮿ'),
-];
-
-pub const COMMON: &'static [(char, char)] = &[
-  ('\u{0}', '@'), ('[', '`'), ('{', '©'), ('«', '¹'), ('»', '¿'),
-  ('×', '×'), ('÷', '÷'), ('ʹ', '˟'), ('˥', '˩'), ('ˬ', '˿'),
-  ('ʹ', 'ʹ'), (';', ';'), ('΅', '΅'), ('·', '·'),
-  ('\u{605}', '\u{605}'), ('\u{6dd}', '\u{6dd}'), ('\u{8e2}', '\u{8e2}'),
-  ('฿', '฿'), ('࿕', '࿘'), ('᛫', '᛭'), ('\u{2000}', '\u{200b}'),
-  ('\u{200e}', '\u{202e}'), ('‰', '\u{2064}'), ('\u{2066}', '⁰'),
-  ('⁴', '⁾'), ('₀', '₎'), ('₠', '₿'), ('℀', '℥'),
-  ('℧', '℩'), ('ℬ', 'ℱ'), ('ℳ', '⅍'), ('⅏', '⅟'),
-  ('↉', '↋'), ('←', '␦'), ('⑀', '⑊'), ('①', '⟿'),
-  ('⤀', '⭳'), ('⭶', '⮕'), ('⮘', '\u{2bff}'), ('⸀', '⹂'),
-  ('⹄', '\u{2e4f}'), ('⿰', '⿻'), ('\u{3000}', '\u{3000}'),
-  ('〄', '〄'), ('〒', '〒'), ('〠', '〠'), ('〶', '〶'),
-  ('㉈', '㉟'), ('㉿', '㉿'), ('㊱', '㊿'), ('㋌', '㋏'),
-  ('㍱', '㍺'), ('㎀', '㏟'), ('㏿', '㏿'), ('䷀', '䷿'),
-  ('꜀', '꜡'), ('ꞈ', '꞊'), ('꭛', '꭛'), ('﴾', '﴿'),
-  ('︐', '︙'), ('︰', '﹄'), ('﹇', '﹒'), ('﹔', '﹦'),
-  ('﹨', '﹫'), ('\u{feff}', '\u{feff}'), ('!', '@'), ('[', '`'),
-  ('{', '⦆'), ('¢', '₩'), ('│', '○'), ('\u{fff9}', '�'),
-  ('𐆐', '𐆛'), ('𐇐', '𐇼'), ('\u{16fe2}', '\u{16fe3}'),
-  ('𝀀', '𝃵'), ('𝄀', '𝄦'), ('𝄩', '𝅦'), ('𝅪', '\u{1d17a}'),
-  ('𝆃', '𝆄'), ('𝆌', '𝆩'), ('𝆮', '𝇨'), ('𝋠', '𝋳'),
-  ('𝌀', '𝍖'), ('𝍲', '𝍸'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝟋'), ('𝟎', '𝟿'), ('𞱱', '𞲴'),
-  ('\u{1ed01}', '\u{1ed3d}'), ('🀀', '🀫'), ('🀰', '🂓'),
-  ('🂠', '🂮'), ('🂱', '🂿'), ('🃁', '🃏'), ('🃑', '🃵'),
-  ('🄀', '🄌'), ('🄐', '\u{1f16c}'), ('🅰', '🆬'), ('🇦', '🇿'),
-  ('🈁', '🈂'), ('🈐', '🈻'), ('🉀', '🉈'), ('🉠', '🉥'),
-  ('🌀', '\u{1f6d5}'), ('🛠', '🛬'), ('🛰', '\u{1f6fa}'),
-  ('🜀', '🝳'), ('🞀', '🟘'), ('\u{1f7e0}', '\u{1f7eb}'),
-  ('🠀', '🠋'), ('🠐', '🡇'), ('🡐', '🡙'), ('🡠', '🢇'),
-  ('🢐', '🢭'), ('🤀', '🤋'), ('\u{1f90d}', '\u{1f971}'),
-  ('🥳', '🥶'), ('🥺', '🦢'), ('\u{1f9a5}', '\u{1f9aa}'),
-  ('\u{1f9ae}', '\u{1f9ca}'), ('\u{1f9cd}', '\u{1fa53}'), ('🩠', '🩭'),
-  ('\u{1fa70}', '\u{1fa73}'), ('\u{1fa78}', '\u{1fa7a}'),
-  ('\u{1fa80}', '\u{1fa82}'), ('\u{1fa90}', '\u{1fa95}'),
-  ('\u{e0001}', '\u{e0001}'), ('\u{e0020}', '\u{e007f}'),
-];
-
-pub const COPTIC: &'static [(char, char)] = &[
-  ('Ϣ', 'ϯ'), ('Ⲁ', 'ⳳ'), ('⳹', '⳿'), ('\u{102e0}', '𐋻'),
-];
-
-pub const CUNEIFORM: &'static [(char, char)] = &[
-  ('𒀀', '𒎙'), ('𒐀', '𒑮'), ('𒑰', '𒑴'), ('𒒀', '𒕃'),
-];
-
-pub const CYPRIOT: &'static [(char, char)] = &[
-  ('𐄀', '𐄂'), ('𐄇', '𐄳'), ('𐄷', '𐄿'), ('𐠀', '𐠅'),
-  ('𐠈', '𐠈'), ('𐠊', '𐠵'), ('𐠷', '𐠸'), ('𐠼', '𐠼'),
-  ('𐠿', '𐠿'),
-];
-
-pub const CYRILLIC: &'static [(char, char)] = &[
-  ('Ѐ', 'ԯ'), ('ᲀ', 'ᲈ'), ('ᴫ', 'ᴫ'), ('ᵸ', 'ᵸ'),
-  ('\u{2de0}', '\u{2dff}'), ('⹃', '⹃'), ('Ꙁ', '\u{a69f}'),
-  ('\u{fe2e}', '\u{fe2f}'),
-];
-
-pub const DESERET: &'static [(char, char)] = &[
-  ('𐐀', '𐑏'),
-];
-
-pub const DEVANAGARI: &'static [(char, char)] = &[
-  ('\u{900}', '\u{952}'), ('\u{955}', 'ॿ'), ('\u{1cd0}', 'ᳶ'),
-  ('\u{1cf8}', '\u{1cf9}'), ('\u{20f0}', '\u{20f0}'), ('꠰', '꠹'),
-  ('\u{a8e0}', '\u{a8ff}'),
-];
-
-pub const DOGRA: &'static [(char, char)] = &[
-  ('।', '९'), ('꠰', '꠹'), ('𑠀', '𑠻'),
-];
-
-pub const DUPLOYAN: &'static [(char, char)] = &[
-  ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'), ('𛲐', '𛲙'),
-  ('𛲜', '\u{1bca3}'),
-];
-
-pub const EGYPTIAN_HIEROGLYPHS: &'static [(char, char)] = &[
-  ('𓀀', '𓐮'), ('\u{13430}', '\u{13438}'),
-];
-
-pub const ELBASAN: &'static [(char, char)] = &[
-  ('𐔀', '𐔧'),
-];
-
-pub const ELYMAIC: &'static [(char, char)] = &[
-  ('\u{10fe0}', '\u{10ff6}'),
-];
-
-pub const ETHIOPIC: &'static [(char, char)] = &[
-  ('ሀ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'), ('ቘ', 'ቘ'),
-  ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'), ('ነ', 'ኰ'),
-  ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'), ('ዂ', 'ዅ'),
-  ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'), ('ጘ', 'ፚ'),
-  ('\u{135d}', '፼'), ('ᎀ', '᎙'), ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'),
-  ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'),
-  ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'), ('ꬁ', 'ꬆ'),
-  ('ꬉ', 'ꬎ'), ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'),
-];
-
-pub const GEORGIAN: &'static [(char, char)] = &[
-  ('։', '։'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('ა', 'ჿ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'),
-];
-
-pub const GLAGOLITIC: &'static [(char, char)] = &[
-  ('\u{484}', '\u{484}'), ('\u{487}', '\u{487}'), ('Ⰰ', 'Ⱞ'),
-  ('ⰰ', 'ⱞ'), ('⹃', '⹃'), ('\u{a66f}', '\u{a66f}'),
-  ('\u{1e000}', '\u{1e006}'), ('\u{1e008}', '\u{1e018}'),
-  ('\u{1e01b}', '\u{1e021}'), ('\u{1e023}', '\u{1e024}'),
-  ('\u{1e026}', '\u{1e02a}'),
-];
-
-pub const GOTHIC: &'static [(char, char)] = &[
-  ('𐌰', '𐍊'),
-];
-
-pub const GRANTHA: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('௦', '௳'),
-  ('\u{1cd0}', '\u{1cd0}'), ('\u{1cd2}', '᳓'), ('ᳲ', '\u{1cf4}'),
-  ('\u{1cf8}', '\u{1cf9}'), ('\u{20f0}', '\u{20f0}'), ('\u{11300}', '𑌃'),
-  ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'), ('𑌪', '𑌰'),
-  ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('\u{1133b}', '𑍄'), ('𑍇', '𑍈'),
-  ('𑍋', '𑍍'), ('𑍐', '𑍐'), ('\u{11357}', '\u{11357}'),
-  ('𑍝', '𑍣'), ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('\u{11fd0}', '\u{11fd1}'), ('\u{11fd3}', '\u{11fd3}'),
-];
-
-pub const GREEK: &'static [(char, char)] = &[
-  ('\u{342}', '\u{342}'), ('\u{345}', '\u{345}'), ('Ͱ', 'ͳ'), ('͵', 'ͷ'),
-  ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('΄', '΄'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ϡ'), ('ϰ', 'Ͽ'), ('ᴦ', 'ᴪ'),
-  ('ᵝ', 'ᵡ'), ('ᵦ', 'ᵪ'), ('ᶿ', '\u{1dc1}'), ('ἀ', 'ἕ'),
-  ('Ἐ', 'Ἕ'), ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'),
-  ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'),
-  ('ᾀ', 'ᾴ'), ('ᾶ', 'ῄ'), ('ῆ', 'ΐ'), ('ῖ', 'Ί'),
-  ('῝', '`'), ('ῲ', 'ῴ'), ('ῶ', '῾'), ('Ω', 'Ω'),
-  ('ꭥ', 'ꭥ'), ('𐅀', '𐆎'), ('𐆠', '𐆠'), ('𝈀', '𝉅'),
-];
-
-pub const GUJARATI: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('\u{a81}', 'ઃ'), ('અ', 'ઍ'),
-  ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'), ('લ', 'ળ'),
-  ('વ', 'હ'), ('\u{abc}', '\u{ac5}'), ('\u{ac7}', 'ૉ'),
-  ('ો', '\u{acd}'), ('ૐ', 'ૐ'), ('ૠ', '\u{ae3}'), ('૦', '૱'),
-  ('ૹ', '\u{aff}'), ('꠰', '꠹'),
-];
-
-pub const GUNJALA_GONDI: &'static [(char, char)] = &[
-  ('।', '॥'), ('𑵠', '𑵥'), ('𑵧', '𑵨'), ('𑵪', '𑶎'),
-  ('\u{11d90}', '\u{11d91}'), ('𑶓', '𑶘'), ('𑶠', '𑶩'),
-];
-
-pub const GURMUKHI: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('\u{a01}', 'ਃ'), ('ਅ', 'ਊ'),
-  ('ਏ', 'ਐ'), ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'),
-  ('ਵ', 'ਸ਼'), ('ਸ', 'ਹ'), ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'),
-  ('\u{a47}', '\u{a48}'), ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'),
-  ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('੦', '੶'), ('꠰', '꠹'),
-];
-
-pub const HAN: &'static [(char, char)] = &[
-  ('⺀', '⺙'), ('⺛', '⻳'), ('⼀', '⿕'), ('、', '〃'),
-  ('々', '】'), ('〓', '〟'), ('〡', '\u{302d}'), ('〰', '〰'),
-  ('〷', '〿'), ('・', '・'), ('㆐', '㆟'), ('㇀', '㇣'),
-  ('㈠', '㉇'), ('㊀', '㊰'), ('㋀', '㋋'), ('\u{32ff}', '\u{32ff}'),
-  ('㍘', '㍰'), ('㍻', '㍿'), ('㏠', '㏾'), ('㐀', '䶵'),
-  ('一', '鿯'), ('豈', '舘'), ('並', '龎'), ('﹅', '﹆'),
-  ('。', '・'), ('𝍠', '𝍱'), ('🉐', '🉑'), ('𠀀', '𪛖'),
-  ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-  ('丽', '𪘀'),
-];
-
-pub const HANGUL: &'static [(char, char)] = &[
-  ('ᄀ', 'ᇿ'), ('、', '〃'), ('〈', '】'), ('〓', '〟'),
-  ('\u{302e}', '〰'), ('〷', '〷'), ('・', '・'), ('ㄱ', 'ㆎ'),
-  ('㈀', '㈞'), ('㉠', '㉾'), ('ꥠ', 'ꥼ'), ('가', '힣'),
-  ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'), ('﹅', '﹆'), ('。', '・'),
-  ('ᅠ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'),
-  ('ᅳ', 'ᅵ'),
-];
-
-pub const HANIFI_ROHINGYA: &'static [(char, char)] = &[
-  ('،', '،'), ('؛', '؛'), ('؟', '؟'), ('ـ', 'ـ'), ('۔', '۔'),
-  ('𐴀', '\u{10d27}'), ('𐴰', '𐴹'),
-];
-
-pub const HANUNOO: &'static [(char, char)] = &[
-  ('ᜠ', '᜶'),
-];
-
-pub const HATRAN: &'static [(char, char)] = &[
-  ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐣻', '𐣿'),
-];
-
-pub const HEBREW: &'static [(char, char)] = &[
-  ('\u{591}', '\u{5c7}'), ('א', 'ת'), ('ׯ', '״'), ('יִ', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﭏ'),
-];
-
-pub const HIRAGANA: &'static [(char, char)] = &[
-  ('、', '〃'), ('〈', '】'), ('〓', '〟'), ('〰', '〵'),
-  ('〷', '〷'), ('〼', '〽'), ('ぁ', 'ゖ'), ('\u{3099}', '゠'),
-  ('・', 'ー'), ('﹅', '﹆'), ('。', '・'), ('ー', 'ー'),
-  ('\u{ff9e}', '\u{ff9f}'), ('𛀁', '𛄞'), ('\u{1b150}', '\u{1b152}'),
-  ('🈀', '🈀'),
-];
-
-pub const IMPERIAL_ARAMAIC: &'static [(char, char)] = &[
-  ('𐡀', '𐡕'), ('𐡗', '𐡟'),
-];
-
-pub const INHERITED: &'static [(char, char)] = &[
-  ('\u{300}', '\u{341}'), ('\u{343}', '\u{344}'), ('\u{346}', '\u{362}'),
-  ('\u{953}', '\u{954}'), ('\u{1ab0}', '\u{1abe}'), ('\u{1dc2}', '\u{1df9}'),
-  ('\u{1dfb}', '\u{1dff}'), ('\u{200c}', '\u{200d}'),
-  ('\u{20d0}', '\u{20ef}'), ('\u{fe00}', '\u{fe0f}'),
-  ('\u{fe20}', '\u{fe2d}'), ('\u{101fd}', '\u{101fd}'),
-  ('\u{1d167}', '\u{1d169}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const INSCRIPTIONAL_PAHLAVI: &'static [(char, char)] = &[
-  ('𐭠', '𐭲'), ('𐭸', '𐭿'),
-];
-
-pub const INSCRIPTIONAL_PARTHIAN: &'static [(char, char)] = &[
-  ('𐭀', '𐭕'), ('𐭘', '𐭟'),
-];
-
-pub const JAVANESE: &'static [(char, char)] = &[
-  ('\u{a980}', '꧍'), ('ꧏ', '꧙'), ('꧞', '꧟'),
-];
-
-pub const KAITHI: &'static [(char, char)] = &[
-  ('०', '९'), ('꠰', '꠹'), ('\u{11080}', '𑃁'),
-  ('\u{110cd}', '\u{110cd}'),
-];
-
-pub const KANNADA: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('ಀ', 'ಌ'), ('ಎ', 'ಐ'),
-  ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'), ('\u{cbc}', 'ೄ'),
-  ('\u{cc6}', 'ೈ'), ('ೊ', '\u{ccd}'), ('\u{cd5}', '\u{cd6}'),
-  ('ೞ', 'ೞ'), ('ೠ', '\u{ce3}'), ('೦', '೯'), ('ೱ', 'ೲ'),
-  ('\u{1cd0}', '\u{1cd0}'), ('\u{1cd2}', '\u{1cd2}'),
-  ('\u{1cda}', '\u{1cda}'), ('ᳲ', 'ᳲ'), ('\u{1cf4}', '\u{1cf4}'),
-  ('꠰', '꠵'),
-];
-
-pub const KATAKANA: &'static [(char, char)] = &[
-  ('、', '〃'), ('〈', '】'), ('〓', '〟'), ('〰', '〵'),
-  ('〷', '〷'), ('〼', '〽'), ('\u{3099}', '゜'), ('゠', 'ヿ'),
-  ('ㇰ', 'ㇿ'), ('㋐', '㋾'), ('㌀', '㍗'), ('﹅', '﹆'),
-  ('。', '\u{ff9f}'), ('𛀀', '𛀀'), ('\u{1b164}', '\u{1b167}'),
-];
-
-pub const KAYAH_LI: &'static [(char, char)] = &[
-  ('꤀', '꤯'),
-];
-
-pub const KHAROSHTHI: &'static [(char, char)] = &[
-  ('𐨀', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'), ('\u{10a0c}', '𐨓'),
-  ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '𐩈'), ('𐩐', '𐩘'),
-];
-
-pub const KHMER: &'static [(char, char)] = &[
-  ('ក', '\u{17dd}'), ('០', '៩'), ('៰', '៹'), ('᧠', '᧿'),
-];
-
-pub const KHOJKI: &'static [(char, char)] = &[
-  ('૦', '૯'), ('꠰', '꠹'), ('𑈀', '𑈑'), ('𑈓', '\u{1123e}'),
-];
-
-pub const KHUDAWADI: &'static [(char, char)] = &[
-  ('।', '॥'), ('꠰', '꠹'), ('𑊰', '\u{112ea}'), ('𑋰', '𑋹'),
-];
-
-pub const LAO: &'static [(char, char)] = &[
-  ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'),
-  ('ລ', 'ລ'), ('ວ', 'ຽ'), ('ເ', 'ໄ'), ('ໆ', 'ໆ'),
-  ('\u{ec8}', '\u{ecd}'), ('໐', '໙'), ('ໜ', 'ໟ'),
-];
-
-pub const LATIN: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('º', 'º'), ('À', 'Ö'),
-  ('Ø', 'ö'), ('ø', 'ʸ'), ('ˠ', 'ˤ'), ('\u{363}', '\u{36f}'),
-  ('\u{485}', '\u{486}'), ('\u{951}', '\u{952}'), ('჻', '჻'),
-  ('ᴀ', 'ᴥ'), ('ᴬ', 'ᵜ'), ('ᵢ', 'ᵥ'), ('ᵫ', 'ᵷ'),
-  ('ᵹ', 'ᶾ'), ('Ḁ', 'ỿ'), ('\u{202f}', '\u{202f}'), ('ⁱ', 'ⁱ'),
-  ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'), ('\u{20f0}', '\u{20f0}'), ('K', 'Å'),
-  ('Ⅎ', 'Ⅎ'), ('ⅎ', 'ⅎ'), ('Ⅰ', 'ↈ'), ('Ⱡ', 'Ɀ'),
-  ('Ꜣ', 'ꞇ'), ('Ꞌ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'),
-  ('ꟷ', 'ꟿ'), ('꤮', '꤮'), ('ꬰ', 'ꭚ'), ('ꭜ', 'ꭤ'),
-  ('\u{ab66}', '\u{ab67}'), ('ff', 'st'), ('A', 'Z'), ('a', 'z'),
-];
-
-pub const LEPCHA: &'static [(char, char)] = &[
-  ('ᰀ', '\u{1c37}'), ('᰻', '᱉'), ('ᱍ', 'ᱏ'),
-];
-
-pub const LIMBU: &'static [(char, char)] = &[
-  ('॥', '॥'), ('ᤀ', 'ᤞ'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'),
-  ('᥀', '᥀'), ('᥄', '᥏'),
-];
-
-pub const LINEAR_A: &'static [(char, char)] = &[
-  ('𐄇', '𐄳'), ('𐘀', '𐜶'), ('𐝀', '𐝕'), ('𐝠', '𐝧'),
-];
-
-pub const LINEAR_B: &'static [(char, char)] = &[
-  ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'),
-  ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐄀', '𐄂'),
-  ('𐄇', '𐄳'), ('𐄷', '𐄿'),
-];
-
-pub const LISU: &'static [(char, char)] = &[
-  ('ꓐ', '꓿'),
-];
-
-pub const LYCIAN: &'static [(char, char)] = &[
-  ('𐊀', '𐊜'),
-];
-
-pub const LYDIAN: &'static [(char, char)] = &[
-  ('𐤠', '𐤹'), ('𐤿', '𐤿'),
-];
-
-pub const MAHAJANI: &'static [(char, char)] = &[
-  ('।', '९'), ('꠰', '꠹'), ('𑅐', '𑅶'),
-];
-
-pub const MAKASAR: &'static [(char, char)] = &[
-  ('𑻠', '𑻸'),
-];
-
-pub const MALAYALAM: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('\u{d00}', 'ഃ'), ('അ', 'ഌ'),
-  ('എ', 'ഐ'), ('ഒ', '\u{d44}'), ('െ', 'ൈ'), ('ൊ', '൏'),
-  ('ൔ', '\u{d63}'), ('൦', 'ൿ'), ('\u{1cda}', '\u{1cda}'),
-  ('꠰', '꠲'),
-];
-
-pub const MANDAIC: &'static [(char, char)] = &[
-  ('ـ', 'ـ'), ('ࡀ', '\u{85b}'), ('࡞', '࡞'),
-];
-
-pub const MANICHAEAN: &'static [(char, char)] = &[
-  ('ـ', 'ـ'), ('𐫀', '\u{10ae6}'), ('𐫫', '𐫶'),
-];
-
-pub const MARCHEN: &'static [(char, char)] = &[
-  ('𑱰', '𑲏'), ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-];
-
-pub const MASARAM_GONDI: &'static [(char, char)] = &[
-  ('।', '॥'), ('𑴀', '𑴆'), ('𑴈', '𑴉'), ('𑴋', '\u{11d36}'),
-  ('\u{11d3a}', '\u{11d3a}'), ('\u{11d3c}', '\u{11d3d}'),
-  ('\u{11d3f}', '\u{11d47}'), ('𑵐', '𑵙'),
-];
-
-pub const MEDEFAIDRIN: &'static [(char, char)] = &[
-  ('𖹀', '𖺚'),
-];
-
-pub const MEETEI_MAYEK: &'static [(char, char)] = &[
-  ('ꫠ', '\u{aaf6}'), ('ꯀ', '\u{abed}'), ('꯰', '꯹'),
-];
-
-pub const MENDE_KIKAKUI: &'static [(char, char)] = &[
-  ('𞠀', '𞣄'), ('𞣇', '\u{1e8d6}'),
-];
-
-pub const MEROITIC_CURSIVE: &'static [(char, char)] = &[
-  ('𐦠', '𐦷'), ('𐦼', '𐧏'), ('𐧒', '𐧿'),
-];
-
-pub const MEROITIC_HIEROGLYPHS: &'static [(char, char)] = &[
-  ('𐦀', '𐦟'),
-];
-
-pub const MIAO: &'static [(char, char)] = &[
-  ('𖼀', '\u{16f4a}'), ('\u{16f4f}', '\u{16f87}'), ('\u{16f8f}', '𖾟'),
-];
-
-pub const MODI: &'static [(char, char)] = &[
-  ('꠰', '꠹'), ('𑘀', '𑙄'), ('𑙐', '𑙙'),
-];
-
-pub const MONGOLIAN: &'static [(char, char)] = &[
-  ('᠀', '\u{180e}'), ('᠐', '᠙'), ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢪ'),
-  ('\u{202f}', '\u{202f}'), ('𑙠', '𑙬'),
-];
-
-pub const MRO: &'static [(char, char)] = &[
-  ('𖩀', '𖩞'), ('𖩠', '𖩩'), ('𖩮', '𖩯'),
-];
-
-pub const MULTANI: &'static [(char, char)] = &[
-  ('੦', '੯'), ('𑊀', '𑊆'), ('𑊈', '𑊈'), ('𑊊', '𑊍'),
-  ('𑊏', '𑊝'), ('𑊟', '𑊩'),
-];
-
-pub const MYANMAR: &'static [(char, char)] = &[
-  ('က', '႟'), ('꤮', '꤮'), ('ꧠ', 'ꧾ'), ('ꩠ', 'ꩿ'),
-];
-
-pub const NABATAEAN: &'static [(char, char)] = &[
-  ('𐢀', '𐢞'), ('𐢧', '𐢯'),
-];
-
-pub const NANDINAGARI: &'static [(char, char)] = &[
-  ('।', '॥'), ('೦', '೯'), ('ᳩ', 'ᳩ'), ('ᳲ', 'ᳲ'),
-  ('\u{1cfa}', '\u{1cfa}'), ('꠰', '꠵'), ('\u{119a0}', '\u{119a7}'),
-  ('\u{119aa}', '\u{119d7}'), ('\u{119da}', '\u{119e4}'),
-];
-
-pub const NEW_TAI_LUE: &'static [(char, char)] = &[
-  ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('᧐', '᧚'), ('᧞', '᧟'),
-];
-
-pub const NEWA: &'static [(char, char)] = &[
-  ('𑐀', '𑑙'), ('𑑛', '𑑛'), ('𑑝', '\u{1145f}'),
-];
-
-pub const NKO: &'static [(char, char)] = &[
-  ('߀', 'ߺ'), ('\u{7fd}', '߿'),
-];
-
-pub const NUSHU: &'static [(char, char)] = &[
-  ('𖿡', '𖿡'), ('𛅰', '𛋻'),
-];
-
-pub const NYIAKENG_PUACHUE_HMONG: &'static [(char, char)] = &[
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e130}', '\u{1e13d}'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e14e}', '\u{1e14f}'),
-];
-
-pub const OGHAM: &'static [(char, char)] = &[
-  ('\u{1680}', '᚜'),
-];
-
-pub const OL_CHIKI: &'static [(char, char)] = &[
-  ('᱐', '᱿'),
-];
-
-pub const OLD_HUNGARIAN: &'static [(char, char)] = &[
-  ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𐳺', '𐳿'),
-];
-
-pub const OLD_ITALIC: &'static [(char, char)] = &[
-  ('𐌀', '𐌣'), ('𐌭', '𐌯'),
-];
-
-pub const OLD_NORTH_ARABIAN: &'static [(char, char)] = &[
-  ('𐪀', '𐪟'),
-];
-
-pub const OLD_PERMIC: &'static [(char, char)] = &[
-  ('\u{483}', '\u{483}'), ('𐍐', '\u{1037a}'),
-];
-
-pub const OLD_PERSIAN: &'static [(char, char)] = &[
-  ('𐎠', '𐏃'), ('𐏈', '𐏕'),
-];
-
-pub const OLD_SOGDIAN: &'static [(char, char)] = &[
-  ('𐼀', '𐼧'),
-];
-
-pub const OLD_SOUTH_ARABIAN: &'static [(char, char)] = &[
-  ('𐩠', '𐩿'),
-];
-
-pub const OLD_TURKIC: &'static [(char, char)] = &[
-  ('𐰀', '𐱈'),
-];
-
-pub const ORIYA: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('\u{b01}', 'ଃ'), ('ଅ', 'ଌ'),
-  ('ଏ', 'ଐ'), ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'),
-  ('ଵ', 'ହ'), ('\u{b3c}', '\u{b44}'), ('େ', 'ୈ'), ('ୋ', '\u{b4d}'),
-  ('\u{b56}', '\u{b57}'), ('ଡ଼', 'ଢ଼'), ('ୟ', '\u{b63}'), ('୦', '୷'),
-  ('\u{1cda}', '\u{1cda}'), ('ᳲ', 'ᳲ'),
-];
-
-pub const OSAGE: &'static [(char, char)] = &[
-  ('𐒰', '𐓓'), ('𐓘', '𐓻'),
-];
-
-pub const OSMANYA: &'static [(char, char)] = &[
-  ('𐒀', '𐒝'), ('𐒠', '𐒩'),
-];
-
-pub const PAHAWH_HMONG: &'static [(char, char)] = &[
-  ('𖬀', '𖭅'), ('𖭐', '𖭙'), ('𖭛', '𖭡'), ('𖭣', '𖭷'),
-  ('𖭽', '𖮏'),
-];
-
-pub const PALMYRENE: &'static [(char, char)] = &[
-  ('𐡠', '𐡿'),
-];
-
-pub const PAU_CIN_HAU: &'static [(char, char)] = &[
-  ('𑫀', '𑫸'),
-];
-
-pub const PHAGS_PA: &'static [(char, char)] = &[
-  ('᠂', '᠃'), ('᠅', '᠅'), ('ꡀ', '꡷'),
-];
-
-pub const PHOENICIAN: &'static [(char, char)] = &[
-  ('𐤀', '𐤛'), ('𐤟', '𐤟'),
-];
-
-pub const PSALTER_PAHLAVI: &'static [(char, char)] = &[
-  ('ـ', 'ـ'), ('𐮀', '𐮑'), ('𐮙', '𐮜'), ('𐮩', '𐮯'),
-];
-
-pub const REJANG: &'static [(char, char)] = &[
-  ('ꤰ', '꥓'), ('꥟', '꥟'),
-];
-
-pub const RUNIC: &'static [(char, char)] = &[
-  ('ᚠ', 'ᛪ'), ('ᛮ', 'ᛸ'),
-];
-
-pub const SAMARITAN: &'static [(char, char)] = &[
-  ('ࠀ', '\u{82d}'), ('࠰', '࠾'),
-];
-
-pub const SAURASHTRA: &'static [(char, char)] = &[
-  ('ꢀ', '\u{a8c5}'), ('꣎', '꣙'),
-];
-
-pub const SHARADA: &'static [(char, char)] = &[
-  ('\u{951}', '\u{951}'), ('\u{1cd7}', '\u{1cd7}'), ('\u{1cd9}', '\u{1cd9}'),
-  ('\u{1cdc}', '\u{1cdd}'), ('\u{1ce0}', '\u{1ce0}'), ('\u{11180}', '𑇍'),
-  ('𑇐', '𑇟'),
-];
-
-pub const SHAVIAN: &'static [(char, char)] = &[
-  ('𐑐', '𐑿'),
-];
-
-pub const SIDDHAM: &'static [(char, char)] = &[
-  ('𑖀', '\u{115b5}'), ('𑖸', '\u{115dd}'),
-];
-
-pub const SIGNWRITING: &'static [(char, char)] = &[
-  ('𝠀', '𝪋'), ('\u{1da9b}', '\u{1da9f}'), ('\u{1daa1}', '\u{1daaf}'),
-];
-
-pub const SINHALA: &'static [(char, char)] = &[
-  ('।', '॥'), ('ං', 'ඃ'), ('අ', 'ඖ'), ('ක', 'න'),
-  ('ඳ', 'ර'), ('ල', 'ල'), ('ව', 'ෆ'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('෦', '෯'), ('ෲ', '෴'), ('𑇡', '𑇴'),
-];
-
-pub const SOGDIAN: &'static [(char, char)] = &[
-  ('ـ', 'ـ'), ('𐼰', '𐽙'),
-];
-
-pub const SORA_SOMPENG: &'static [(char, char)] = &[
-  ('𑃐', '𑃨'), ('𑃰', '𑃹'),
-];
-
-pub const SOYOMBO: &'static [(char, char)] = &[
-  ('𑩐', '𑪢'),
-];
-
-pub const SUNDANESE: &'static [(char, char)] = &[
-  ('\u{1b80}', 'ᮿ'), ('᳀', '᳇'),
-];
-
-pub const SYLOTI_NAGRI: &'static [(char, char)] = &[
-  ('।', '॥'), ('০', '৯'), ('ꠀ', '꠫'),
-];
-
-pub const SYRIAC: &'static [(char, char)] = &[
-  ('،', '،'), ('؛', '\u{61c}'), ('؟', '؟'), ('ـ', 'ـ'),
-  ('\u{64b}', '\u{655}'), ('\u{670}', '\u{670}'), ('܀', '܍'),
-  ('\u{70f}', '\u{74a}'), ('ݍ', 'ݏ'), ('ࡠ', 'ࡪ'),
-];
-
-pub const TAGALOG: &'static [(char, char)] = &[
-  ('ᜀ', 'ᜌ'), ('ᜎ', '\u{1714}'), ('᜵', '᜶'),
-];
-
-pub const TAGBANWA: &'static [(char, char)] = &[
-  ('᜵', '᜶'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('\u{1772}', '\u{1773}'),
-];
-
-pub const TAI_LE: &'static [(char, char)] = &[
-  ('၀', '၉'), ('ᥐ', 'ᥭ'), ('ᥰ', 'ᥴ'),
-];
-
-pub const TAI_THAM: &'static [(char, char)] = &[
-  ('ᨠ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'), ('\u{1a7f}', '᪉'),
-  ('᪐', '᪙'), ('᪠', '᪭'),
-];
-
-pub const TAI_VIET: &'static [(char, char)] = &[
-  ('ꪀ', 'ꫂ'), ('ꫛ', '꫟'),
-];
-
-pub const TAKRI: &'static [(char, char)] = &[
-  ('।', '॥'), ('꠰', '꠹'), ('𑚀', '\u{116b8}'), ('𑛀', '𑛉'),
-];
-
-pub const TAMIL: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('\u{b82}', 'ஃ'), ('அ', 'ஊ'),
-  ('எ', 'ஐ'), ('ஒ', 'க'), ('ங', 'ச'), ('ஜ', 'ஜ'),
-  ('ஞ', 'ட'), ('ண', 'த'), ('ந', 'ப'), ('ம', 'ஹ'),
-  ('\u{bbe}', 'ூ'), ('ெ', 'ை'), ('ொ', '\u{bcd}'), ('ௐ', 'ௐ'),
-  ('\u{bd7}', '\u{bd7}'), ('௦', '௺'), ('\u{1cda}', '\u{1cda}'),
-  ('ꣳ', 'ꣳ'), ('\u{11301}', '\u{11301}'), ('𑌃', '𑌃'),
-  ('\u{1133b}', '\u{1133c}'), ('\u{11fc0}', '\u{11ff1}'),
-  ('\u{11fff}', '\u{11fff}'),
-];
-
-pub const TANGUT: &'static [(char, char)] = &[
-  ('𖿠', '𖿠'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-];
-
-pub const TELUGU: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('\u{c00}', 'ఌ'), ('ఎ', 'ఐ'),
-  ('ఒ', 'న'), ('ప', 'హ'), ('ఽ', 'ౄ'), ('\u{c46}', '\u{c48}'),
-  ('\u{c4a}', '\u{c4d}'), ('\u{c55}', '\u{c56}'), ('ౘ', 'ౚ'),
-  ('ౠ', '\u{c63}'), ('౦', '౯'), ('\u{c77}', '౿'),
-  ('\u{1cda}', '\u{1cda}'), ('ᳲ', 'ᳲ'),
-];
-
-pub const THAANA: &'static [(char, char)] = &[
-  ('،', '،'), ('؛', '\u{61c}'), ('؟', '؟'), ('٠', '٩'), ('ހ', 'ޱ'),
-  ('ﷲ', 'ﷲ'), ('﷽', '﷽'),
-];
-
-pub const THAI: &'static [(char, char)] = &[
-  ('ก', '\u{e3a}'), ('เ', '๛'),
-];
-
-pub const TIBETAN: &'static [(char, char)] = &[
-  ('ༀ', 'ཇ'), ('ཉ', 'ཬ'), ('\u{f71}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('྾', '࿌'), ('࿎', '࿔'), ('࿙', '࿚'),
-];
-
-pub const TIFINAGH: &'static [(char, char)] = &[
-  ('ⴰ', 'ⵧ'), ('ⵯ', '⵰'), ('\u{2d7f}', '\u{2d7f}'),
-];
-
-pub const TIRHUTA: &'static [(char, char)] = &[
-  ('\u{951}', '\u{952}'), ('।', '॥'), ('ᳲ', 'ᳲ'), ('꠰', '꠹'),
-  ('𑒀', '𑓇'), ('𑓐', '𑓙'),
-];
-
-pub const UGARITIC: &'static [(char, char)] = &[
-  ('𐎀', '𐎝'), ('𐎟', '𐎟'),
-];
-
-pub const VAI: &'static [(char, char)] = &[
-  ('ꔀ', 'ꘫ'),
-];
-
-pub const WANCHO: &'static [(char, char)] = &[
-  ('\u{1e2c0}', '\u{1e2f9}'), ('\u{1e2ff}', '\u{1e2ff}'),
-];
-
-pub const WARANG_CITI: &'static [(char, char)] = &[
-  ('𑢠', '𑣲'), ('𑣿', '𑣿'),
-];
-
-pub const YI: &'static [(char, char)] = &[
-  ('、', '。'), ('〈', '】'), ('〔', '〛'), ('・', '・'),
-  ('ꀀ', 'ꒌ'), ('꒐', '꓆'), ('。', '・'),
-];
-
-pub const ZANABAZAR_SQUARE: &'static [(char, char)] = &[
-  ('𑨀', '\u{11a47}'),
-];
-
-
\ No newline at end of file diff --git a/target/doc/src/regex_syntax/unicode_tables/sentence_break.rs.html b/target/doc/src/regex_syntax/unicode_tables/sentence_break.rs.html deleted file mode 100644 index 7f2a6bf..0000000 --- a/target/doc/src/regex_syntax/unicode_tables/sentence_break.rs.html +++ /dev/null @@ -1,1315 +0,0 @@ -sentence_break.rs.html -- source
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate sentence-break /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("ATerm", ATERM), ("CR", CR), ("Close", CLOSE), ("Extend", EXTEND),
-  ("Format", FORMAT), ("LF", LF), ("Lower", LOWER), ("Numeric", NUMERIC),
-  ("OLetter", OLETTER), ("SContinue", SCONTINUE), ("STerm", STERM),
-  ("Sep", SEP), ("Sp", SP), ("Upper", UPPER),
-];
-
-pub const ATERM: &'static [(char, char)] = &[
-  ('.', '.'), ('․', '․'), ('﹒', '﹒'), ('.', '.'),
-];
-
-pub const CR: &'static [(char, char)] = &[
-  ('\r', '\r'),
-];
-
-pub const CLOSE: &'static [(char, char)] = &[
-  ('\"', '\"'), ('\'', ')'), ('[', '['), (']', ']'), ('{', '{'), ('}', '}'),
-  ('«', '«'), ('»', '»'), ('༺', '༽'), ('᚛', '᚜'), ('‘', '‟'),
-  ('‹', '›'), ('⁅', '⁆'), ('⁽', '⁾'), ('₍', '₎'),
-  ('⌈', '⌋'), ('〈', '〉'), ('❛', '❠'), ('❨', '❵'),
-  ('⟅', '⟆'), ('⟦', '⟯'), ('⦃', '⦘'), ('⧘', '⧛'),
-  ('⧼', '⧽'), ('⸀', '⸍'), ('⸜', '⸝'), ('⸠', '⸩'),
-  ('⹂', '⹂'), ('〈', '】'), ('〔', '〛'), ('〝', '〟'),
-  ('﴾', '﴿'), ('︗', '︘'), ('︵', '﹄'), ('﹇', '﹈'),
-  ('﹙', '﹞'), ('(', ')'), ('[', '['), (']', ']'),
-  ('{', '{'), ('}', '}'), ('⦅', '⦆'), ('「', '」'),
-  ('🙶', '🙸'),
-];
-
-pub const EXTEND: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{483}', '\u{489}'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6df}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', '\u{7f3}'),
-  ('\u{7fd}', '\u{7fd}'), ('\u{816}', '\u{819}'), ('\u{81b}', '\u{823}'),
-  ('\u{825}', '\u{827}'), ('\u{829}', '\u{82d}'), ('\u{859}', '\u{85b}'),
-  ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', 'ः'), ('\u{93a}', '\u{93c}'),
-  ('ा', 'ॏ'), ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'),
-  ('\u{981}', 'ঃ'), ('\u{9bc}', '\u{9bc}'), ('\u{9be}', '\u{9c4}'),
-  ('ে', 'ৈ'), ('ো', '\u{9cd}'), ('\u{9d7}', '\u{9d7}'),
-  ('\u{9e2}', '\u{9e3}'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', 'ਃ'),
-  ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'),
-  ('\u{a75}', '\u{a75}'), ('\u{a81}', 'ઃ'), ('\u{abc}', '\u{abc}'),
-  ('ા', '\u{ac5}'), ('\u{ac7}', 'ૉ'), ('ો', '\u{acd}'),
-  ('\u{ae2}', '\u{ae3}'), ('\u{afa}', '\u{aff}'), ('\u{b01}', 'ଃ'),
-  ('\u{b3c}', '\u{b3c}'), ('\u{b3e}', '\u{b44}'), ('େ', 'ୈ'),
-  ('ୋ', '\u{b4d}'), ('\u{b56}', '\u{b57}'), ('\u{b62}', '\u{b63}'),
-  ('\u{b82}', '\u{b82}'), ('\u{bbe}', 'ூ'), ('ெ', 'ை'),
-  ('ொ', '\u{bcd}'), ('\u{bd7}', '\u{bd7}'), ('\u{c00}', '\u{c04}'),
-  ('\u{c3e}', 'ౄ'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'), ('\u{c81}', 'ಃ'),
-  ('\u{cbc}', '\u{cbc}'), ('ಾ', 'ೄ'), ('\u{cc6}', 'ೈ'),
-  ('ೊ', '\u{ccd}'), ('\u{cd5}', '\u{cd6}'), ('\u{ce2}', '\u{ce3}'),
-  ('\u{d00}', 'ഃ'), ('\u{d3b}', '\u{d3c}'), ('\u{d3e}', '\u{d44}'),
-  ('െ', 'ൈ'), ('ൊ', '\u{d4d}'), ('\u{d57}', '\u{d57}'),
-  ('\u{d62}', '\u{d63}'), ('ං', 'ඃ'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('ෲ', 'ෳ'), ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'),
-  ('\u{e47}', '\u{e4e}'), ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{ebc}'),
-  ('\u{ec8}', '\u{ecd}'), ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'),
-  ('\u{f37}', '\u{f37}'), ('\u{f39}', '\u{f39}'), ('༾', '༿'),
-  ('\u{f71}', '\u{f84}'), ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('\u{fc6}', '\u{fc6}'), ('ါ', '\u{103e}'),
-  ('ၖ', '\u{1059}'), ('\u{105e}', '\u{1060}'), ('ၢ', 'ၤ'),
-  ('ၧ', 'ၭ'), ('\u{1071}', '\u{1074}'), ('\u{1082}', '\u{108d}'),
-  ('ႏ', 'ႏ'), ('ႚ', '\u{109d}'), ('\u{135d}', '\u{135f}'),
-  ('\u{1712}', '\u{1714}'), ('\u{1732}', '\u{1734}'),
-  ('\u{1752}', '\u{1753}'), ('\u{1772}', '\u{1773}'),
-  ('\u{17b4}', '\u{17d3}'), ('\u{17dd}', '\u{17dd}'),
-  ('\u{180b}', '\u{180d}'), ('\u{1885}', '\u{1886}'),
-  ('\u{18a9}', '\u{18a9}'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'),
-  ('\u{1a17}', '\u{1a1b}'), ('ᩕ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'),
-  ('\u{1a7f}', '\u{1a7f}'), ('\u{1ab0}', '\u{1abe}'), ('\u{1b00}', 'ᬄ'),
-  ('\u{1b34}', '᭄'), ('\u{1b6b}', '\u{1b73}'), ('\u{1b80}', 'ᮂ'),
-  ('ᮡ', '\u{1bad}'), ('\u{1be6}', '᯳'), ('ᰤ', '\u{1c37}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce8}'),
-  ('\u{1ced}', '\u{1ced}'), ('\u{1cf4}', '\u{1cf4}'), ('᳷', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{200c}', '\u{200d}'), ('\u{20d0}', '\u{20f0}'),
-  ('\u{2cef}', '\u{2cf1}'), ('\u{2d7f}', '\u{2d7f}'),
-  ('\u{2de0}', '\u{2dff}'), ('\u{302a}', '\u{302f}'),
-  ('\u{3099}', '\u{309a}'), ('\u{a66f}', '\u{a672}'),
-  ('\u{a674}', '\u{a67d}'), ('\u{a69e}', '\u{a69f}'),
-  ('\u{a6f0}', '\u{a6f1}'), ('\u{a802}', '\u{a802}'),
-  ('\u{a806}', '\u{a806}'), ('\u{a80b}', '\u{a80b}'), ('ꠣ', 'ꠧ'),
-  ('ꢀ', 'ꢁ'), ('ꢴ', '\u{a8c5}'), ('\u{a8e0}', '\u{a8f1}'),
-  ('\u{a8ff}', '\u{a8ff}'), ('\u{a926}', '\u{a92d}'), ('\u{a947}', '꥓'),
-  ('\u{a980}', 'ꦃ'), ('\u{a9b3}', '꧀'), ('\u{a9e5}', '\u{a9e5}'),
-  ('\u{aa29}', '\u{aa36}'), ('\u{aa43}', '\u{aa43}'), ('\u{aa4c}', 'ꩍ'),
-  ('ꩻ', 'ꩽ'), ('\u{aab0}', '\u{aab0}'), ('\u{aab2}', '\u{aab4}'),
-  ('\u{aab7}', '\u{aab8}'), ('\u{aabe}', '\u{aabf}'),
-  ('\u{aac1}', '\u{aac1}'), ('ꫫ', 'ꫯ'), ('ꫵ', '\u{aaf6}'),
-  ('ꯣ', 'ꯪ'), ('꯬', '\u{abed}'), ('\u{fb1e}', '\u{fb1e}'),
-  ('\u{fe00}', '\u{fe0f}'), ('\u{fe20}', '\u{fe2f}'),
-  ('\u{ff9e}', '\u{ff9f}'), ('\u{101fd}', '\u{101fd}'),
-  ('\u{102e0}', '\u{102e0}'), ('\u{10376}', '\u{1037a}'),
-  ('\u{10a01}', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'),
-  ('\u{10a0c}', '\u{10a0f}'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '\u{10a3f}'), ('\u{10ae5}', '\u{10ae6}'),
-  ('\u{10d24}', '\u{10d27}'), ('\u{10f46}', '\u{10f50}'), ('𑀀', '𑀂'),
-  ('\u{11038}', '\u{11046}'), ('\u{1107f}', '𑂂'), ('𑂰', '\u{110ba}'),
-  ('\u{11100}', '\u{11102}'), ('\u{11127}', '\u{11134}'), ('𑅅', '𑅆'),
-  ('\u{11173}', '\u{11173}'), ('\u{11180}', '𑆂'), ('𑆳', '𑇀'),
-  ('\u{111c9}', '\u{111cc}'), ('𑈬', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('\u{112df}', '\u{112ea}'),
-  ('\u{11300}', '𑌃'), ('\u{1133b}', '\u{1133c}'), ('\u{1133e}', '𑍄'),
-  ('𑍇', '𑍈'), ('𑍋', '𑍍'), ('\u{11357}', '\u{11357}'),
-  ('𑍢', '𑍣'), ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('𑐵', '\u{11446}'), ('\u{1145e}', '\u{1145e}'),
-  ('\u{114b0}', '\u{114c3}'), ('\u{115af}', '\u{115b5}'),
-  ('𑖸', '\u{115c0}'), ('\u{115dc}', '\u{115dd}'), ('𑘰', '\u{11640}'),
-  ('\u{116ab}', '\u{116b7}'), ('\u{1171d}', '\u{1172b}'),
-  ('𑠬', '\u{1183a}'), ('\u{119d1}', '\u{119d7}'),
-  ('\u{119da}', '\u{119e0}'), ('\u{119e4}', '\u{119e4}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a33}', '𑨹'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a51}', '\u{11a5b}'), ('\u{11a8a}', '\u{11a99}'),
-  ('𑰯', '\u{11c36}'), ('\u{11c38}', '\u{11c3f}'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-  ('\u{11d31}', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d45}'),
-  ('\u{11d47}', '\u{11d47}'), ('𑶊', '𑶎'), ('\u{11d90}', '\u{11d91}'),
-  ('𑶓', '\u{11d97}'), ('\u{11ef3}', '𑻶'), ('\u{16af0}', '\u{16af4}'),
-  ('\u{16b30}', '\u{16b36}'), ('\u{16f4f}', '\u{16f4f}'),
-  ('𖽑', '\u{16f87}'), ('\u{16f8f}', '\u{16f92}'),
-  ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d169}'),
-  ('𝅭', '\u{1d172}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('\u{1da00}', '\u{1da36}'),
-  ('\u{1da3b}', '\u{1da6c}'), ('\u{1da75}', '\u{1da75}'),
-  ('\u{1da84}', '\u{1da84}'), ('\u{1da9b}', '\u{1da9f}'),
-  ('\u{1daa1}', '\u{1daaf}'), ('\u{1e000}', '\u{1e006}'),
-  ('\u{1e008}', '\u{1e018}'), ('\u{1e01b}', '\u{1e021}'),
-  ('\u{1e023}', '\u{1e024}'), ('\u{1e026}', '\u{1e02a}'),
-  ('\u{1e130}', '\u{1e136}'), ('\u{1e2ec}', '\u{1e2ef}'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('\u{1e944}', '\u{1e94a}'),
-  ('\u{e0020}', '\u{e007f}'), ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const FORMAT: &'static [(char, char)] = &[
-  ('\u{ad}', '\u{ad}'), ('\u{600}', '\u{605}'), ('\u{61c}', '\u{61c}'),
-  ('\u{6dd}', '\u{6dd}'), ('\u{70f}', '\u{70f}'), ('\u{8e2}', '\u{8e2}'),
-  ('\u{180e}', '\u{180e}'), ('\u{200b}', '\u{200b}'),
-  ('\u{200e}', '\u{200f}'), ('\u{202a}', '\u{202e}'),
-  ('\u{2060}', '\u{2064}'), ('\u{2066}', '\u{206f}'),
-  ('\u{feff}', '\u{feff}'), ('\u{fff9}', '\u{fffb}'),
-  ('\u{110bd}', '\u{110bd}'), ('\u{110cd}', '\u{110cd}'),
-  ('\u{13430}', '\u{13438}'), ('\u{1bca0}', '\u{1bca3}'),
-  ('\u{1d173}', '\u{1d17a}'), ('\u{e0001}', '\u{e0001}'),
-];
-
-pub const LF: &'static [(char, char)] = &[
-  ('\n', '\n'),
-];
-
-pub const LOWER: &'static [(char, char)] = &[
-  ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'), ('ß', 'ö'),
-  ('ø', 'ÿ'), ('ā', 'ā'), ('ă', 'ă'), ('ą', 'ą'), ('ć', 'ć'),
-  ('ĉ', 'ĉ'), ('ċ', 'ċ'), ('č', 'č'), ('ď', 'ď'), ('đ', 'đ'),
-  ('ē', 'ē'), ('ĕ', 'ĕ'), ('ė', 'ė'), ('ę', 'ę'), ('ě', 'ě'),
-  ('ĝ', 'ĝ'), ('ğ', 'ğ'), ('ġ', 'ġ'), ('ģ', 'ģ'), ('ĥ', 'ĥ'),
-  ('ħ', 'ħ'), ('ĩ', 'ĩ'), ('ī', 'ī'), ('ĭ', 'ĭ'), ('į', 'į'),
-  ('ı', 'ı'), ('ij', 'ij'), ('ĵ', 'ĵ'), ('ķ', 'ĸ'), ('ĺ', 'ĺ'),
-  ('ļ', 'ļ'), ('ľ', 'ľ'), ('ŀ', 'ŀ'), ('ł', 'ł'), ('ń', 'ń'),
-  ('ņ', 'ņ'), ('ň', 'ʼn'), ('ŋ', 'ŋ'), ('ō', 'ō'), ('ŏ', 'ŏ'),
-  ('ő', 'ő'), ('œ', 'œ'), ('ŕ', 'ŕ'), ('ŗ', 'ŗ'), ('ř', 'ř'),
-  ('ś', 'ś'), ('ŝ', 'ŝ'), ('ş', 'ş'), ('š', 'š'), ('ţ', 'ţ'),
-  ('ť', 'ť'), ('ŧ', 'ŧ'), ('ũ', 'ũ'), ('ū', 'ū'), ('ŭ', 'ŭ'),
-  ('ů', 'ů'), ('ű', 'ű'), ('ų', 'ų'), ('ŵ', 'ŵ'), ('ŷ', 'ŷ'),
-  ('ź', 'ź'), ('ż', 'ż'), ('ž', 'ƀ'), ('ƃ', 'ƃ'), ('ƅ', 'ƅ'),
-  ('ƈ', 'ƈ'), ('ƌ', 'ƍ'), ('ƒ', 'ƒ'), ('ƕ', 'ƕ'), ('ƙ', 'ƛ'),
-  ('ƞ', 'ƞ'), ('ơ', 'ơ'), ('ƣ', 'ƣ'), ('ƥ', 'ƥ'), ('ƨ', 'ƨ'),
-  ('ƪ', 'ƫ'), ('ƭ', 'ƭ'), ('ư', 'ư'), ('ƴ', 'ƴ'), ('ƶ', 'ƶ'),
-  ('ƹ', 'ƺ'), ('ƽ', 'ƿ'), ('dž', 'dž'), ('lj', 'lj'), ('nj', 'nj'),
-  ('ǎ', 'ǎ'), ('ǐ', 'ǐ'), ('ǒ', 'ǒ'), ('ǔ', 'ǔ'), ('ǖ', 'ǖ'),
-  ('ǘ', 'ǘ'), ('ǚ', 'ǚ'), ('ǜ', 'ǝ'), ('ǟ', 'ǟ'), ('ǡ', 'ǡ'),
-  ('ǣ', 'ǣ'), ('ǥ', 'ǥ'), ('ǧ', 'ǧ'), ('ǩ', 'ǩ'), ('ǫ', 'ǫ'),
-  ('ǭ', 'ǭ'), ('ǯ', 'ǰ'), ('dz', 'dz'), ('ǵ', 'ǵ'), ('ǹ', 'ǹ'),
-  ('ǻ', 'ǻ'), ('ǽ', 'ǽ'), ('ǿ', 'ǿ'), ('ȁ', 'ȁ'), ('ȃ', 'ȃ'),
-  ('ȅ', 'ȅ'), ('ȇ', 'ȇ'), ('ȉ', 'ȉ'), ('ȋ', 'ȋ'), ('ȍ', 'ȍ'),
-  ('ȏ', 'ȏ'), ('ȑ', 'ȑ'), ('ȓ', 'ȓ'), ('ȕ', 'ȕ'), ('ȗ', 'ȗ'),
-  ('ș', 'ș'), ('ț', 'ț'), ('ȝ', 'ȝ'), ('ȟ', 'ȟ'), ('ȡ', 'ȡ'),
-  ('ȣ', 'ȣ'), ('ȥ', 'ȥ'), ('ȧ', 'ȧ'), ('ȩ', 'ȩ'), ('ȫ', 'ȫ'),
-  ('ȭ', 'ȭ'), ('ȯ', 'ȯ'), ('ȱ', 'ȱ'), ('ȳ', 'ȹ'), ('ȼ', 'ȼ'),
-  ('ȿ', 'ɀ'), ('ɂ', 'ɂ'), ('ɇ', 'ɇ'), ('ɉ', 'ɉ'), ('ɋ', 'ɋ'),
-  ('ɍ', 'ɍ'), ('ɏ', 'ʓ'), ('ʕ', 'ʸ'), ('ˀ', 'ˁ'), ('ˠ', 'ˤ'),
-  ('ͱ', 'ͱ'), ('ͳ', 'ͳ'), ('ͷ', 'ͷ'), ('ͺ', 'ͽ'), ('ΐ', 'ΐ'),
-  ('ά', 'ώ'), ('ϐ', 'ϑ'), ('ϕ', 'ϗ'), ('ϙ', 'ϙ'), ('ϛ', 'ϛ'),
-  ('ϝ', 'ϝ'), ('ϟ', 'ϟ'), ('ϡ', 'ϡ'), ('ϣ', 'ϣ'), ('ϥ', 'ϥ'),
-  ('ϧ', 'ϧ'), ('ϩ', 'ϩ'), ('ϫ', 'ϫ'), ('ϭ', 'ϭ'), ('ϯ', 'ϳ'),
-  ('ϵ', 'ϵ'), ('ϸ', 'ϸ'), ('ϻ', 'ϼ'), ('а', 'џ'), ('ѡ', 'ѡ'),
-  ('ѣ', 'ѣ'), ('ѥ', 'ѥ'), ('ѧ', 'ѧ'), ('ѩ', 'ѩ'), ('ѫ', 'ѫ'),
-  ('ѭ', 'ѭ'), ('ѯ', 'ѯ'), ('ѱ', 'ѱ'), ('ѳ', 'ѳ'), ('ѵ', 'ѵ'),
-  ('ѷ', 'ѷ'), ('ѹ', 'ѹ'), ('ѻ', 'ѻ'), ('ѽ', 'ѽ'), ('ѿ', 'ѿ'),
-  ('ҁ', 'ҁ'), ('ҋ', 'ҋ'), ('ҍ', 'ҍ'), ('ҏ', 'ҏ'), ('ґ', 'ґ'),
-  ('ғ', 'ғ'), ('ҕ', 'ҕ'), ('җ', 'җ'), ('ҙ', 'ҙ'), ('қ', 'қ'),
-  ('ҝ', 'ҝ'), ('ҟ', 'ҟ'), ('ҡ', 'ҡ'), ('ң', 'ң'), ('ҥ', 'ҥ'),
-  ('ҧ', 'ҧ'), ('ҩ', 'ҩ'), ('ҫ', 'ҫ'), ('ҭ', 'ҭ'), ('ү', 'ү'),
-  ('ұ', 'ұ'), ('ҳ', 'ҳ'), ('ҵ', 'ҵ'), ('ҷ', 'ҷ'), ('ҹ', 'ҹ'),
-  ('һ', 'һ'), ('ҽ', 'ҽ'), ('ҿ', 'ҿ'), ('ӂ', 'ӂ'), ('ӄ', 'ӄ'),
-  ('ӆ', 'ӆ'), ('ӈ', 'ӈ'), ('ӊ', 'ӊ'), ('ӌ', 'ӌ'), ('ӎ', 'ӏ'),
-  ('ӑ', 'ӑ'), ('ӓ', 'ӓ'), ('ӕ', 'ӕ'), ('ӗ', 'ӗ'), ('ә', 'ә'),
-  ('ӛ', 'ӛ'), ('ӝ', 'ӝ'), ('ӟ', 'ӟ'), ('ӡ', 'ӡ'), ('ӣ', 'ӣ'),
-  ('ӥ', 'ӥ'), ('ӧ', 'ӧ'), ('ө', 'ө'), ('ӫ', 'ӫ'), ('ӭ', 'ӭ'),
-  ('ӯ', 'ӯ'), ('ӱ', 'ӱ'), ('ӳ', 'ӳ'), ('ӵ', 'ӵ'), ('ӷ', 'ӷ'),
-  ('ӹ', 'ӹ'), ('ӻ', 'ӻ'), ('ӽ', 'ӽ'), ('ӿ', 'ӿ'), ('ԁ', 'ԁ'),
-  ('ԃ', 'ԃ'), ('ԅ', 'ԅ'), ('ԇ', 'ԇ'), ('ԉ', 'ԉ'), ('ԋ', 'ԋ'),
-  ('ԍ', 'ԍ'), ('ԏ', 'ԏ'), ('ԑ', 'ԑ'), ('ԓ', 'ԓ'), ('ԕ', 'ԕ'),
-  ('ԗ', 'ԗ'), ('ԙ', 'ԙ'), ('ԛ', 'ԛ'), ('ԝ', 'ԝ'), ('ԟ', 'ԟ'),
-  ('ԡ', 'ԡ'), ('ԣ', 'ԣ'), ('ԥ', 'ԥ'), ('ԧ', 'ԧ'), ('ԩ', 'ԩ'),
-  ('ԫ', 'ԫ'), ('ԭ', 'ԭ'), ('ԯ', 'ԯ'), ('ՠ', 'ֈ'), ('ᏸ', 'ᏽ'),
-  ('ᲀ', 'ᲈ'), ('ᴀ', 'ᶿ'), ('ḁ', 'ḁ'), ('ḃ', 'ḃ'),
-  ('ḅ', 'ḅ'), ('ḇ', 'ḇ'), ('ḉ', 'ḉ'), ('ḋ', 'ḋ'),
-  ('ḍ', 'ḍ'), ('ḏ', 'ḏ'), ('ḑ', 'ḑ'), ('ḓ', 'ḓ'),
-  ('ḕ', 'ḕ'), ('ḗ', 'ḗ'), ('ḙ', 'ḙ'), ('ḛ', 'ḛ'),
-  ('ḝ', 'ḝ'), ('ḟ', 'ḟ'), ('ḡ', 'ḡ'), ('ḣ', 'ḣ'),
-  ('ḥ', 'ḥ'), ('ḧ', 'ḧ'), ('ḩ', 'ḩ'), ('ḫ', 'ḫ'),
-  ('ḭ', 'ḭ'), ('ḯ', 'ḯ'), ('ḱ', 'ḱ'), ('ḳ', 'ḳ'),
-  ('ḵ', 'ḵ'), ('ḷ', 'ḷ'), ('ḹ', 'ḹ'), ('ḻ', 'ḻ'),
-  ('ḽ', 'ḽ'), ('ḿ', 'ḿ'), ('ṁ', 'ṁ'), ('ṃ', 'ṃ'),
-  ('ṅ', 'ṅ'), ('ṇ', 'ṇ'), ('ṉ', 'ṉ'), ('ṋ', 'ṋ'),
-  ('ṍ', 'ṍ'), ('ṏ', 'ṏ'), ('ṑ', 'ṑ'), ('ṓ', 'ṓ'),
-  ('ṕ', 'ṕ'), ('ṗ', 'ṗ'), ('ṙ', 'ṙ'), ('ṛ', 'ṛ'),
-  ('ṝ', 'ṝ'), ('ṟ', 'ṟ'), ('ṡ', 'ṡ'), ('ṣ', 'ṣ'),
-  ('ṥ', 'ṥ'), ('ṧ', 'ṧ'), ('ṩ', 'ṩ'), ('ṫ', 'ṫ'),
-  ('ṭ', 'ṭ'), ('ṯ', 'ṯ'), ('ṱ', 'ṱ'), ('ṳ', 'ṳ'),
-  ('ṵ', 'ṵ'), ('ṷ', 'ṷ'), ('ṹ', 'ṹ'), ('ṻ', 'ṻ'),
-  ('ṽ', 'ṽ'), ('ṿ', 'ṿ'), ('ẁ', 'ẁ'), ('ẃ', 'ẃ'),
-  ('ẅ', 'ẅ'), ('ẇ', 'ẇ'), ('ẉ', 'ẉ'), ('ẋ', 'ẋ'),
-  ('ẍ', 'ẍ'), ('ẏ', 'ẏ'), ('ẑ', 'ẑ'), ('ẓ', 'ẓ'),
-  ('ẕ', 'ẝ'), ('ẟ', 'ẟ'), ('ạ', 'ạ'), ('ả', 'ả'),
-  ('ấ', 'ấ'), ('ầ', 'ầ'), ('ẩ', 'ẩ'), ('ẫ', 'ẫ'),
-  ('ậ', 'ậ'), ('ắ', 'ắ'), ('ằ', 'ằ'), ('ẳ', 'ẳ'),
-  ('ẵ', 'ẵ'), ('ặ', 'ặ'), ('ẹ', 'ẹ'), ('ẻ', 'ẻ'),
-  ('ẽ', 'ẽ'), ('ế', 'ế'), ('ề', 'ề'), ('ể', 'ể'),
-  ('ễ', 'ễ'), ('ệ', 'ệ'), ('ỉ', 'ỉ'), ('ị', 'ị'),
-  ('ọ', 'ọ'), ('ỏ', 'ỏ'), ('ố', 'ố'), ('ồ', 'ồ'),
-  ('ổ', 'ổ'), ('ỗ', 'ỗ'), ('ộ', 'ộ'), ('ớ', 'ớ'),
-  ('ờ', 'ờ'), ('ở', 'ở'), ('ỡ', 'ỡ'), ('ợ', 'ợ'),
-  ('ụ', 'ụ'), ('ủ', 'ủ'), ('ứ', 'ứ'), ('ừ', 'ừ'),
-  ('ử', 'ử'), ('ữ', 'ữ'), ('ự', 'ự'), ('ỳ', 'ỳ'),
-  ('ỵ', 'ỵ'), ('ỷ', 'ỷ'), ('ỹ', 'ỹ'), ('ỻ', 'ỻ'),
-  ('ỽ', 'ỽ'), ('ỿ', 'ἇ'), ('ἐ', 'ἕ'), ('ἠ', 'ἧ'),
-  ('ἰ', 'ἷ'), ('ὀ', 'ὅ'), ('ὐ', 'ὗ'), ('ὠ', 'ὧ'),
-  ('ὰ', 'ώ'), ('ᾀ', 'ᾇ'), ('ᾐ', 'ᾗ'), ('ᾠ', 'ᾧ'),
-  ('ᾰ', 'ᾴ'), ('ᾶ', 'ᾷ'), ('ι', 'ι'), ('ῂ', 'ῄ'),
-  ('ῆ', 'ῇ'), ('ῐ', 'ΐ'), ('ῖ', 'ῗ'), ('ῠ', 'ῧ'),
-  ('ῲ', 'ῴ'), ('ῶ', 'ῷ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'),
-  ('ₐ', 'ₜ'), ('ℊ', 'ℊ'), ('ℎ', 'ℏ'), ('ℓ', 'ℓ'),
-  ('ℯ', 'ℯ'), ('ℴ', 'ℴ'), ('ℹ', 'ℹ'), ('ℼ', 'ℽ'),
-  ('ⅆ', 'ⅉ'), ('ⅎ', 'ⅎ'), ('ⅰ', 'ⅿ'), ('ↄ', 'ↄ'),
-  ('ⓐ', 'ⓩ'), ('ⰰ', 'ⱞ'), ('ⱡ', 'ⱡ'), ('ⱥ', 'ⱦ'),
-  ('ⱨ', 'ⱨ'), ('ⱪ', 'ⱪ'), ('ⱬ', 'ⱬ'), ('ⱱ', 'ⱱ'),
-  ('ⱳ', 'ⱴ'), ('ⱶ', 'ⱽ'), ('ⲁ', 'ⲁ'), ('ⲃ', 'ⲃ'),
-  ('ⲅ', 'ⲅ'), ('ⲇ', 'ⲇ'), ('ⲉ', 'ⲉ'), ('ⲋ', 'ⲋ'),
-  ('ⲍ', 'ⲍ'), ('ⲏ', 'ⲏ'), ('ⲑ', 'ⲑ'), ('ⲓ', 'ⲓ'),
-  ('ⲕ', 'ⲕ'), ('ⲗ', 'ⲗ'), ('ⲙ', 'ⲙ'), ('ⲛ', 'ⲛ'),
-  ('ⲝ', 'ⲝ'), ('ⲟ', 'ⲟ'), ('ⲡ', 'ⲡ'), ('ⲣ', 'ⲣ'),
-  ('ⲥ', 'ⲥ'), ('ⲧ', 'ⲧ'), ('ⲩ', 'ⲩ'), ('ⲫ', 'ⲫ'),
-  ('ⲭ', 'ⲭ'), ('ⲯ', 'ⲯ'), ('ⲱ', 'ⲱ'), ('ⲳ', 'ⲳ'),
-  ('ⲵ', 'ⲵ'), ('ⲷ', 'ⲷ'), ('ⲹ', 'ⲹ'), ('ⲻ', 'ⲻ'),
-  ('ⲽ', 'ⲽ'), ('ⲿ', 'ⲿ'), ('ⳁ', 'ⳁ'), ('ⳃ', 'ⳃ'),
-  ('ⳅ', 'ⳅ'), ('ⳇ', 'ⳇ'), ('ⳉ', 'ⳉ'), ('ⳋ', 'ⳋ'),
-  ('ⳍ', 'ⳍ'), ('ⳏ', 'ⳏ'), ('ⳑ', 'ⳑ'), ('ⳓ', 'ⳓ'),
-  ('ⳕ', 'ⳕ'), ('ⳗ', 'ⳗ'), ('ⳙ', 'ⳙ'), ('ⳛ', 'ⳛ'),
-  ('ⳝ', 'ⳝ'), ('ⳟ', 'ⳟ'), ('ⳡ', 'ⳡ'), ('ⳣ', 'ⳤ'),
-  ('ⳬ', 'ⳬ'), ('ⳮ', 'ⳮ'), ('ⳳ', 'ⳳ'), ('ⴀ', 'ⴥ'),
-  ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ꙁ', 'ꙁ'), ('ꙃ', 'ꙃ'),
-  ('ꙅ', 'ꙅ'), ('ꙇ', 'ꙇ'), ('ꙉ', 'ꙉ'), ('ꙋ', 'ꙋ'),
-  ('ꙍ', 'ꙍ'), ('ꙏ', 'ꙏ'), ('ꙑ', 'ꙑ'), ('ꙓ', 'ꙓ'),
-  ('ꙕ', 'ꙕ'), ('ꙗ', 'ꙗ'), ('ꙙ', 'ꙙ'), ('ꙛ', 'ꙛ'),
-  ('ꙝ', 'ꙝ'), ('ꙟ', 'ꙟ'), ('ꙡ', 'ꙡ'), ('ꙣ', 'ꙣ'),
-  ('ꙥ', 'ꙥ'), ('ꙧ', 'ꙧ'), ('ꙩ', 'ꙩ'), ('ꙫ', 'ꙫ'),
-  ('ꙭ', 'ꙭ'), ('ꚁ', 'ꚁ'), ('ꚃ', 'ꚃ'), ('ꚅ', 'ꚅ'),
-  ('ꚇ', 'ꚇ'), ('ꚉ', 'ꚉ'), ('ꚋ', 'ꚋ'), ('ꚍ', 'ꚍ'),
-  ('ꚏ', 'ꚏ'), ('ꚑ', 'ꚑ'), ('ꚓ', 'ꚓ'), ('ꚕ', 'ꚕ'),
-  ('ꚗ', 'ꚗ'), ('ꚙ', 'ꚙ'), ('ꚛ', 'ꚝ'), ('ꜣ', 'ꜣ'),
-  ('ꜥ', 'ꜥ'), ('ꜧ', 'ꜧ'), ('ꜩ', 'ꜩ'), ('ꜫ', 'ꜫ'),
-  ('ꜭ', 'ꜭ'), ('ꜯ', 'ꜱ'), ('ꜳ', 'ꜳ'), ('ꜵ', 'ꜵ'),
-  ('ꜷ', 'ꜷ'), ('ꜹ', 'ꜹ'), ('ꜻ', 'ꜻ'), ('ꜽ', 'ꜽ'),
-  ('ꜿ', 'ꜿ'), ('ꝁ', 'ꝁ'), ('ꝃ', 'ꝃ'), ('ꝅ', 'ꝅ'),
-  ('ꝇ', 'ꝇ'), ('ꝉ', 'ꝉ'), ('ꝋ', 'ꝋ'), ('ꝍ', 'ꝍ'),
-  ('ꝏ', 'ꝏ'), ('ꝑ', 'ꝑ'), ('ꝓ', 'ꝓ'), ('ꝕ', 'ꝕ'),
-  ('ꝗ', 'ꝗ'), ('ꝙ', 'ꝙ'), ('ꝛ', 'ꝛ'), ('ꝝ', 'ꝝ'),
-  ('ꝟ', 'ꝟ'), ('ꝡ', 'ꝡ'), ('ꝣ', 'ꝣ'), ('ꝥ', 'ꝥ'),
-  ('ꝧ', 'ꝧ'), ('ꝩ', 'ꝩ'), ('ꝫ', 'ꝫ'), ('ꝭ', 'ꝭ'),
-  ('ꝯ', 'ꝸ'), ('ꝺ', 'ꝺ'), ('ꝼ', 'ꝼ'), ('ꝿ', 'ꝿ'),
-  ('ꞁ', 'ꞁ'), ('ꞃ', 'ꞃ'), ('ꞅ', 'ꞅ'), ('ꞇ', 'ꞇ'),
-  ('ꞌ', 'ꞌ'), ('ꞎ', 'ꞎ'), ('ꞑ', 'ꞑ'), ('ꞓ', 'ꞕ'),
-  ('ꞗ', 'ꞗ'), ('ꞙ', 'ꞙ'), ('ꞛ', 'ꞛ'), ('ꞝ', 'ꞝ'),
-  ('ꞟ', 'ꞟ'), ('ꞡ', 'ꞡ'), ('ꞣ', 'ꞣ'), ('ꞥ', 'ꞥ'),
-  ('ꞧ', 'ꞧ'), ('ꞩ', 'ꞩ'), ('ꞯ', 'ꞯ'), ('ꞵ', 'ꞵ'),
-  ('ꞷ', 'ꞷ'), ('ꞹ', 'ꞹ'), ('\u{a7bb}', '\u{a7bb}'),
-  ('\u{a7bd}', '\u{a7bd}'), ('\u{a7bf}', '\u{a7bf}'),
-  ('\u{a7c3}', '\u{a7c3}'), ('ꟸ', 'ꟺ'), ('ꬰ', 'ꭚ'),
-  ('ꭜ', '\u{ab67}'), ('ꭰ', 'ꮿ'), ('ff', 'st'), ('ﬓ', 'ﬗ'),
-  ('a', 'z'), ('𐐨', '𐑏'), ('𐓘', '𐓻'), ('𐳀', '𐳲'),
-  ('𑣀', '𑣟'), ('𖹠', '𖹿'), ('𝐚', '𝐳'), ('𝑎', '𝑔'),
-  ('𝑖', '𝑧'), ('𝒂', '𝒛'), ('𝒶', '𝒹'), ('𝒻', '𝒻'),
-  ('𝒽', '𝓃'), ('𝓅', '𝓏'), ('𝓪', '𝔃'), ('𝔞', '𝔷'),
-  ('𝕒', '𝕫'), ('𝖆', '𝖟'), ('𝖺', '𝗓'), ('𝗮', '𝘇'),
-  ('𝘢', '𝘻'), ('𝙖', '𝙯'), ('𝚊', '𝚥'), ('𝛂', '𝛚'),
-  ('𝛜', '𝛡'), ('𝛼', '𝜔'), ('𝜖', '𝜛'), ('𝜶', '𝝎'),
-  ('𝝐', '𝝕'), ('𝝰', '𝞈'), ('𝞊', '𝞏'), ('𝞪', '𝟂'),
-  ('𝟄', '𝟉'), ('𝟋', '𝟋'), ('𞤢', '𞥃'),
-];
-
-pub const NUMERIC: &'static [(char, char)] = &[
-  ('0', '9'), ('٠', '٩'), ('٫', '٬'), ('۰', '۹'), ('߀', '߉'),
-  ('०', '९'), ('০', '৯'), ('੦', '੯'), ('૦', '૯'),
-  ('୦', '୯'), ('௦', '௯'), ('౦', '౯'), ('೦', '೯'),
-  ('൦', '൯'), ('෦', '෯'), ('๐', '๙'), ('໐', '໙'),
-  ('༠', '༩'), ('၀', '၉'), ('႐', '႙'), ('០', '៩'),
-  ('᠐', '᠙'), ('᥆', '᥏'), ('᧐', '᧙'), ('᪀', '᪉'),
-  ('᪐', '᪙'), ('᭐', '᭙'), ('᮰', '᮹'), ('᱀', '᱉'),
-  ('᱐', '᱙'), ('꘠', '꘩'), ('꣐', '꣙'), ('꤀', '꤉'),
-  ('꧐', '꧙'), ('꧰', '꧹'), ('꩐', '꩙'), ('꯰', '꯹'),
-  ('0', '9'), ('𐒠', '𐒩'), ('𐴰', '𐴹'), ('𑁦', '𑁯'),
-  ('𑃰', '𑃹'), ('𑄶', '𑄿'), ('𑇐', '𑇙'), ('𑋰', '𑋹'),
-  ('𑑐', '𑑙'), ('𑓐', '𑓙'), ('𑙐', '𑙙'), ('𑛀', '𑛉'),
-  ('𑜰', '𑜹'), ('𑣠', '𑣩'), ('𑱐', '𑱙'), ('𑵐', '𑵙'),
-  ('𑶠', '𑶩'), ('𖩠', '𖩩'), ('𖭐', '𖭙'), ('𝟎', '𝟿'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e2f0}', '\u{1e2f9}'), ('𞥐', '𞥙'),
-];
-
-pub const OLETTER: &'static [(char, char)] = &[
-  ('ƻ', 'ƻ'), ('ǀ', 'ǃ'), ('ʔ', 'ʔ'), ('ʹ', 'ʿ'), ('ˆ', 'ˑ'),
-  ('ˬ', 'ˬ'), ('ˮ', 'ˮ'), ('ʹ', 'ʹ'), ('ՙ', 'ՙ'), ('א', 'ת'),
-  ('ׯ', '׳'), ('ؠ', 'ي'), ('ٮ', 'ٯ'), ('ٱ', 'ۓ'), ('ە', 'ە'),
-  ('ۥ', 'ۦ'), ('ۮ', 'ۯ'), ('ۺ', 'ۼ'), ('ۿ', 'ۿ'), ('ܐ', 'ܐ'),
-  ('ܒ', 'ܯ'), ('ݍ', 'ޥ'), ('ޱ', 'ޱ'), ('ߊ', 'ߪ'), ('ߴ', 'ߵ'),
-  ('ߺ', 'ߺ'), ('ࠀ', 'ࠕ'), ('ࠚ', 'ࠚ'), ('ࠤ', 'ࠤ'),
-  ('ࠨ', 'ࠨ'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'),
-  ('ࢶ', 'ࢽ'), ('ऄ', 'ह'), ('ऽ', 'ऽ'), ('ॐ', 'ॐ'),
-  ('क़', 'ॡ'), ('ॱ', 'ঀ'), ('অ', 'ঌ'), ('এ', 'ঐ'),
-  ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'),
-  ('ঽ', 'ঽ'), ('ৎ', 'ৎ'), ('ড়', 'ঢ়'), ('য়', 'ৡ'),
-  ('ৰ', 'ৱ'), ('ৼ', 'ৼ'), ('ਅ', 'ਊ'), ('ਏ', 'ਐ'),
-  ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'),
-  ('ਸ', 'ਹ'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('ੲ', 'ੴ'),
-  ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'),
-  ('લ', 'ળ'), ('વ', 'હ'), ('ઽ', 'ઽ'), ('ૐ', 'ૐ'),
-  ('ૠ', 'ૡ'), ('ૹ', 'ૹ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'),
-  ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'),
-  ('ଽ', 'ଽ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'), ('ୱ', 'ୱ'),
-  ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'), ('ஒ', 'க'),
-  ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'), ('ண', 'த'),
-  ('ந', 'ப'), ('ம', 'ஹ'), ('ௐ', 'ௐ'), ('అ', 'ఌ'),
-  ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'), ('ఽ', 'ఽ'),
-  ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('ಀ', 'ಀ'), ('ಅ', 'ಌ'),
-  ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'),
-  ('ಽ', 'ಽ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'), ('ೱ', 'ೲ'),
-  ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'), ('ഽ', 'ഽ'),
-  ('ൎ', 'ൎ'), ('ൔ', 'ൖ'), ('ൟ', 'ൡ'), ('ൺ', 'ൿ'),
-  ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'),
-  ('ව', 'ෆ'), ('ก', 'ะ'), ('า', 'ำ'), ('เ', 'ๆ'),
-  ('ກ', 'ຂ'), ('ຄ', 'ຄ'), ('\u{e86}', 'ຊ'), ('\u{e8c}', 'ຣ'),
-  ('ລ', 'ລ'), ('ວ', 'ະ'), ('າ', 'ຳ'), ('ຽ', 'ຽ'),
-  ('ເ', 'ໄ'), ('ໆ', 'ໆ'), ('ໜ', 'ໟ'), ('ༀ', 'ༀ'),
-  ('ཀ', 'ཇ'), ('ཉ', 'ཬ'), ('ྈ', 'ྌ'), ('က', 'ဪ'),
-  ('ဿ', 'ဿ'), ('ၐ', 'ၕ'), ('ၚ', 'ၝ'), ('ၡ', 'ၡ'),
-  ('ၥ', 'ၦ'), ('ၮ', 'ၰ'), ('ၵ', 'ႁ'), ('ႎ', 'ႎ'),
-  ('ა', 'ჺ'), ('ჼ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'),
-  ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'),
-  ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'),
-  ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'),
-  ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'), ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'),
-  ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'), ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'),
-  ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'), ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'),
-  ('ᝮ', 'ᝰ'), ('ក', 'ឳ'), ('ៗ', 'ៗ'), ('ៜ', 'ៜ'),
-  ('ᠠ', 'ᡸ'), ('ᢀ', 'ᢄ'), ('ᢇ', 'ᢨ'), ('ᢪ', 'ᢪ'),
-  ('ᢰ', 'ᣵ'), ('ᤀ', 'ᤞ'), ('ᥐ', 'ᥭ'), ('ᥰ', 'ᥴ'),
-  ('ᦀ', 'ᦫ'), ('ᦰ', 'ᧉ'), ('ᨀ', 'ᨖ'), ('ᨠ', 'ᩔ'),
-  ('ᪧ', 'ᪧ'), ('ᬅ', 'ᬳ'), ('ᭅ', 'ᭋ'), ('ᮃ', 'ᮠ'),
-  ('ᮮ', 'ᮯ'), ('ᮺ', 'ᯥ'), ('ᰀ', 'ᰣ'), ('ᱍ', 'ᱏ'),
-  ('ᱚ', 'ᱽ'), ('Ა', 'Ჺ'), ('Ჽ', 'Ჿ'), ('ᳩ', 'ᳬ'),
-  ('ᳮ', 'ᳳ'), ('ᳵ', 'ᳶ'), ('\u{1cfa}', '\u{1cfa}'), ('ℵ', 'ℸ'),
-  ('ↀ', 'ↂ'), ('ↅ', 'ↈ'), ('ⴰ', 'ⵧ'), ('ⵯ', 'ⵯ'),
-  ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'), ('ⶰ', 'ⶶ'),
-  ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'), ('ⷐ', 'ⷖ'),
-  ('ⷘ', 'ⷞ'), ('ⸯ', 'ⸯ'), ('々', '〇'), ('〡', '〩'),
-  ('〱', '〵'), ('〸', '〼'), ('ぁ', 'ゖ'), ('ゝ', 'ゟ'),
-  ('ァ', 'ヺ'), ('ー', 'ヿ'), ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'),
-  ('ㆠ', 'ㆺ'), ('ㇰ', 'ㇿ'), ('㐀', '䶵'), ('一', '鿯'),
-  ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'), ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘟ'),
-  ('ꘪ', 'ꘫ'), ('ꙮ', 'ꙮ'), ('ꙿ', 'ꙿ'), ('ꚠ', 'ꛯ'),
-  ('ꜗ', 'ꜟ'), ('ꞈ', 'ꞈ'), ('ꞏ', 'ꞏ'), ('ꟷ', 'ꟷ'),
-  ('ꟻ', 'ꠁ'), ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'), ('ꠌ', 'ꠢ'),
-  ('ꡀ', 'ꡳ'), ('ꢂ', 'ꢳ'), ('ꣲ', 'ꣷ'), ('ꣻ', 'ꣻ'),
-  ('ꣽ', 'ꣾ'), ('ꤊ', 'ꤥ'), ('ꤰ', 'ꥆ'), ('ꥠ', 'ꥼ'),
-  ('ꦄ', 'ꦲ'), ('ꧏ', 'ꧏ'), ('ꧠ', 'ꧤ'), ('ꧦ', 'ꧯ'),
-  ('ꧺ', 'ꧾ'), ('ꨀ', 'ꨨ'), ('ꩀ', 'ꩂ'), ('ꩄ', 'ꩋ'),
-  ('ꩠ', 'ꩶ'), ('ꩺ', 'ꩺ'), ('ꩾ', 'ꪯ'), ('ꪱ', 'ꪱ'),
-  ('ꪵ', 'ꪶ'), ('ꪹ', 'ꪽ'), ('ꫀ', 'ꫀ'), ('ꫂ', 'ꫂ'),
-  ('ꫛ', 'ꫝ'), ('ꫠ', 'ꫪ'), ('ꫲ', 'ꫴ'), ('ꬁ', 'ꬆ'),
-  ('ꬉ', 'ꬎ'), ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'),
-  ('ꯀ', 'ꯢ'), ('가', '힣'), ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'),
-  ('豈', '舘'), ('並', '龎'), ('יִ', 'יִ'), ('ײַ', 'ﬨ'),
-  ('שׁ', 'זּ'), ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'),
-  ('ףּ', 'פּ'), ('צּ', 'ﮱ'), ('ﯓ', 'ﴽ'), ('ﵐ', 'ﶏ'),
-  ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷻ'), ('ﹰ', 'ﹴ'), ('ﹶ', 'ﻼ'),
-  ('ヲ', 'ン'), ('ᅠ', 'ᄒ'), ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'),
-  ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'), ('𐀀', '𐀋'), ('𐀍', '𐀦'),
-  ('𐀨', '𐀺'), ('𐀼', '𐀽'), ('𐀿', '𐁍'), ('𐁐', '𐁝'),
-  ('𐂀', '𐃺'), ('𐅀', '𐅴'), ('𐊀', '𐊜'), ('𐊠', '𐋐'),
-  ('𐌀', '𐌟'), ('𐌭', '𐍊'), ('𐍐', '𐍵'), ('𐎀', '𐎝'),
-  ('𐎠', '𐏃'), ('𐏈', '𐏏'), ('𐏑', '𐏕'), ('𐑐', '𐒝'),
-  ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐘀', '𐜶'), ('𐝀', '𐝕'),
-  ('𐝠', '𐝧'), ('𐠀', '𐠅'), ('𐠈', '𐠈'), ('𐠊', '𐠵'),
-  ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐡕'), ('𐡠', '𐡶'),
-  ('𐢀', '𐢞'), ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐤀', '𐤕'),
-  ('𐤠', '𐤹'), ('𐦀', '𐦷'), ('𐦾', '𐦿'), ('𐨀', '𐨀'),
-  ('𐨐', '𐨓'), ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('𐩠', '𐩼'),
-  ('𐪀', '𐪜'), ('𐫀', '𐫇'), ('𐫉', '𐫤'), ('𐬀', '𐬵'),
-  ('𐭀', '𐭕'), ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'),
-  ('𐴀', '𐴣'), ('𐼀', '𐼜'), ('𐼧', '𐼧'), ('𐼰', '𐽅'),
-  ('\u{10fe0}', '\u{10ff6}'), ('𑀃', '𑀷'), ('𑂃', '𑂯'),
-  ('𑃐', '𑃨'), ('𑄃', '𑄦'), ('𑅄', '𑅄'), ('𑅐', '𑅲'),
-  ('𑅶', '𑅶'), ('𑆃', '𑆲'), ('𑇁', '𑇄'), ('𑇚', '𑇚'),
-  ('𑇜', '𑇜'), ('𑈀', '𑈑'), ('𑈓', '𑈫'), ('𑊀', '𑊆'),
-  ('𑊈', '𑊈'), ('𑊊', '𑊍'), ('𑊏', '𑊝'), ('𑊟', '𑊨'),
-  ('𑊰', '𑋞'), ('𑌅', '𑌌'), ('𑌏', '𑌐'), ('𑌓', '𑌨'),
-  ('𑌪', '𑌰'), ('𑌲', '𑌳'), ('𑌵', '𑌹'), ('𑌽', '𑌽'),
-  ('𑍐', '𑍐'), ('𑍝', '𑍡'), ('𑐀', '𑐴'), ('𑑇', '𑑊'),
-  ('\u{1145f}', '\u{1145f}'), ('𑒀', '𑒯'), ('𑓄', '𑓅'),
-  ('𑓇', '𑓇'), ('𑖀', '𑖮'), ('𑗘', '𑗛'), ('𑘀', '𑘯'),
-  ('𑙄', '𑙄'), ('𑚀', '𑚪'), ('\u{116b8}', '\u{116b8}'),
-  ('𑜀', '𑜚'), ('𑠀', '𑠫'), ('𑣿', '𑣿'),
-  ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d0}'),
-  ('\u{119e1}', '\u{119e1}'), ('\u{119e3}', '\u{119e3}'), ('𑨀', '𑨀'),
-  ('𑨋', '𑨲'), ('𑨺', '𑨺'), ('𑩐', '𑩐'), ('𑩜', '𑪉'),
-  ('𑪝', '𑪝'), ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '𑰮'),
-  ('𑱀', '𑱀'), ('𑱲', '𑲏'), ('𑴀', '𑴆'), ('𑴈', '𑴉'),
-  ('𑴋', '𑴰'), ('𑵆', '𑵆'), ('𑵠', '𑵥'), ('𑵧', '𑵨'),
-  ('𑵪', '𑶉'), ('𑶘', '𑶘'), ('𑻠', '𑻲'), ('𒀀', '𒎙'),
-  ('𒐀', '𒑮'), ('𒒀', '𒕃'), ('𓀀', '𓐮'), ('𔐀', '𔙆'),
-  ('𖠀', '𖨸'), ('𖩀', '𖩞'), ('𖫐', '𖫭'), ('𖬀', '𖬯'),
-  ('𖭀', '𖭃'), ('𖭣', '𖭷'), ('𖭽', '𖮏'), ('𖼀', '\u{16f4a}'),
-  ('𖽐', '𖽐'), ('𖾓', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𗀀', '\u{187f7}'), ('𘠀', '𘫲'),
-  ('𛀀', '𛄞'), ('\u{1b150}', '\u{1b152}'), ('\u{1b164}', '\u{1b167}'),
-  ('𛅰', '𛋻'), ('𛰀', '𛱪'), ('𛱰', '𛱼'), ('𛲀', '𛲈'),
-  ('𛲐', '𛲙'), ('\u{1e100}', '\u{1e12c}'), ('\u{1e137}', '\u{1e13d}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'),
-  ('\u{1e94b}', '\u{1e94b}'), ('𞸀', '𞸃'), ('𞸅', '𞸟'),
-  ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'), ('𞸩', '𞸲'),
-  ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'), ('𞹂', '𞹂'),
-  ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'), ('𞹍', '𞹏'),
-  ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'), ('𞹙', '𞹙'),
-  ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'), ('𞹡', '𞹢'),
-  ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'), ('𞹴', '𞹷'),
-  ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'), ('𞺋', '𞺛'),
-  ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'), ('𠀀', '𪛖'),
-  ('𪜀', '𫜴'), ('𫝀', '𫠝'), ('𫠠', '𬺡'), ('𬺰', '𮯠'),
-  ('丽', '𪘀'),
-];
-
-pub const SCONTINUE: &'static [(char, char)] = &[
-  (',', '-'), (':', ':'), ('՝', '՝'), ('،', '؍'), ('߸', '߸'),
-  ('᠂', '᠂'), ('᠈', '᠈'), ('–', '—'), ('、', '、'),
-  ('︐', '︑'), ('︓', '︓'), ('︱', '︲'), ('﹐', '﹑'),
-  ('﹕', '﹕'), ('﹘', '﹘'), ('﹣', '﹣'), (',', '-'),
-  (':', ':'), ('、', '、'),
-];
-
-pub const STERM: &'static [(char, char)] = &[
-  ('!', '!'), ('?', '?'), ('։', '։'), ('؞', '؟'), ('۔', '۔'),
-  ('܀', '܂'), ('߹', '߹'), ('࠷', '࠷'), ('࠹', '࠹'), ('࠽', '࠾'),
-  ('।', '॥'), ('၊', '။'), ('።', '።'), ('፧', '፨'),
-  ('᙮', '᙮'), ('᜵', '᜶'), ('᠃', '᠃'), ('᠉', '᠉'),
-  ('᥄', '᥅'), ('᪨', '᪫'), ('᭚', '᭛'), ('᭞', '᭟'),
-  ('᰻', '᰼'), ('᱾', '᱿'), ('‼', '‽'), ('⁇', '⁉'),
-  ('⸮', '⸮'), ('⸼', '⸼'), ('。', '。'), ('꓿', '꓿'),
-  ('꘎', '꘏'), ('꛳', '꛳'), ('꛷', '꛷'), ('꡶', '꡷'),
-  ('꣎', '꣏'), ('꤯', '꤯'), ('꧈', '꧉'), ('꩝', '꩟'),
-  ('꫰', '꫱'), ('꯫', '꯫'), ('﹖', '﹗'), ('!', '!'),
-  ('?', '?'), ('。', '。'), ('𐩖', '𐩗'), ('𐽕', '𐽙'),
-  ('𑁇', '𑁈'), ('𑂾', '𑃁'), ('𑅁', '𑅃'), ('𑇅', '𑇆'),
-  ('𑇍', '𑇍'), ('𑇞', '𑇟'), ('𑈸', '𑈹'), ('𑈻', '𑈼'),
-  ('𑊩', '𑊩'), ('𑑋', '𑑌'), ('𑗂', '𑗃'), ('𑗉', '𑗗'),
-  ('𑙁', '𑙂'), ('𑜼', '𑜾'), ('𑩂', '𑩃'), ('𑪛', '𑪜'),
-  ('𑱁', '𑱂'), ('𑻷', '𑻸'), ('𖩮', '𖩯'), ('𖫵', '𖫵'),
-  ('𖬷', '𖬸'), ('𖭄', '𖭄'), ('𖺘', '𖺘'), ('𛲟', '𛲟'),
-  ('𝪈', '𝪈'),
-];
-
-pub const SEP: &'static [(char, char)] = &[
-  ('\u{85}', '\u{85}'), ('\u{2028}', '\u{2029}'),
-];
-
-pub const SP: &'static [(char, char)] = &[
-  ('\t', '\t'), ('\u{b}', '\u{c}'), (' ', ' '), ('\u{a0}', '\u{a0}'),
-  ('\u{1680}', '\u{1680}'), ('\u{2000}', '\u{200a}'),
-  ('\u{202f}', '\u{202f}'), ('\u{205f}', '\u{205f}'),
-  ('\u{3000}', '\u{3000}'),
-];
-
-pub const UPPER: &'static [(char, char)] = &[
-  ('A', 'Z'), ('À', 'Ö'), ('Ø', 'Þ'), ('Ā', 'Ā'), ('Ă', 'Ă'),
-  ('Ą', 'Ą'), ('Ć', 'Ć'), ('Ĉ', 'Ĉ'), ('Ċ', 'Ċ'), ('Č', 'Č'),
-  ('Ď', 'Ď'), ('Đ', 'Đ'), ('Ē', 'Ē'), ('Ĕ', 'Ĕ'), ('Ė', 'Ė'),
-  ('Ę', 'Ę'), ('Ě', 'Ě'), ('Ĝ', 'Ĝ'), ('Ğ', 'Ğ'), ('Ġ', 'Ġ'),
-  ('Ģ', 'Ģ'), ('Ĥ', 'Ĥ'), ('Ħ', 'Ħ'), ('Ĩ', 'Ĩ'), ('Ī', 'Ī'),
-  ('Ĭ', 'Ĭ'), ('Į', 'Į'), ('İ', 'İ'), ('IJ', 'IJ'), ('Ĵ', 'Ĵ'),
-  ('Ķ', 'Ķ'), ('Ĺ', 'Ĺ'), ('Ļ', 'Ļ'), ('Ľ', 'Ľ'), ('Ŀ', 'Ŀ'),
-  ('Ł', 'Ł'), ('Ń', 'Ń'), ('Ņ', 'Ņ'), ('Ň', 'Ň'), ('Ŋ', 'Ŋ'),
-  ('Ō', 'Ō'), ('Ŏ', 'Ŏ'), ('Ő', 'Ő'), ('Œ', 'Œ'), ('Ŕ', 'Ŕ'),
-  ('Ŗ', 'Ŗ'), ('Ř', 'Ř'), ('Ś', 'Ś'), ('Ŝ', 'Ŝ'), ('Ş', 'Ş'),
-  ('Š', 'Š'), ('Ţ', 'Ţ'), ('Ť', 'Ť'), ('Ŧ', 'Ŧ'), ('Ũ', 'Ũ'),
-  ('Ū', 'Ū'), ('Ŭ', 'Ŭ'), ('Ů', 'Ů'), ('Ű', 'Ű'), ('Ų', 'Ų'),
-  ('Ŵ', 'Ŵ'), ('Ŷ', 'Ŷ'), ('Ÿ', 'Ź'), ('Ż', 'Ż'), ('Ž', 'Ž'),
-  ('Ɓ', 'Ƃ'), ('Ƅ', 'Ƅ'), ('Ɔ', 'Ƈ'), ('Ɖ', 'Ƌ'), ('Ǝ', 'Ƒ'),
-  ('Ɠ', 'Ɣ'), ('Ɩ', 'Ƙ'), ('Ɯ', 'Ɲ'), ('Ɵ', 'Ơ'), ('Ƣ', 'Ƣ'),
-  ('Ƥ', 'Ƥ'), ('Ʀ', 'Ƨ'), ('Ʃ', 'Ʃ'), ('Ƭ', 'Ƭ'), ('Ʈ', 'Ư'),
-  ('Ʊ', 'Ƴ'), ('Ƶ', 'Ƶ'), ('Ʒ', 'Ƹ'), ('Ƽ', 'Ƽ'), ('DŽ', 'Dž'),
-  ('LJ', 'Lj'), ('NJ', 'Nj'), ('Ǎ', 'Ǎ'), ('Ǐ', 'Ǐ'), ('Ǒ', 'Ǒ'),
-  ('Ǔ', 'Ǔ'), ('Ǖ', 'Ǖ'), ('Ǘ', 'Ǘ'), ('Ǚ', 'Ǚ'), ('Ǜ', 'Ǜ'),
-  ('Ǟ', 'Ǟ'), ('Ǡ', 'Ǡ'), ('Ǣ', 'Ǣ'), ('Ǥ', 'Ǥ'), ('Ǧ', 'Ǧ'),
-  ('Ǩ', 'Ǩ'), ('Ǫ', 'Ǫ'), ('Ǭ', 'Ǭ'), ('Ǯ', 'Ǯ'), ('DZ', 'Dz'),
-  ('Ǵ', 'Ǵ'), ('Ƕ', 'Ǹ'), ('Ǻ', 'Ǻ'), ('Ǽ', 'Ǽ'), ('Ǿ', 'Ǿ'),
-  ('Ȁ', 'Ȁ'), ('Ȃ', 'Ȃ'), ('Ȅ', 'Ȅ'), ('Ȇ', 'Ȇ'), ('Ȉ', 'Ȉ'),
-  ('Ȋ', 'Ȋ'), ('Ȍ', 'Ȍ'), ('Ȏ', 'Ȏ'), ('Ȑ', 'Ȑ'), ('Ȓ', 'Ȓ'),
-  ('Ȕ', 'Ȕ'), ('Ȗ', 'Ȗ'), ('Ș', 'Ș'), ('Ț', 'Ț'), ('Ȝ', 'Ȝ'),
-  ('Ȟ', 'Ȟ'), ('Ƞ', 'Ƞ'), ('Ȣ', 'Ȣ'), ('Ȥ', 'Ȥ'), ('Ȧ', 'Ȧ'),
-  ('Ȩ', 'Ȩ'), ('Ȫ', 'Ȫ'), ('Ȭ', 'Ȭ'), ('Ȯ', 'Ȯ'), ('Ȱ', 'Ȱ'),
-  ('Ȳ', 'Ȳ'), ('Ⱥ', 'Ȼ'), ('Ƚ', 'Ⱦ'), ('Ɂ', 'Ɂ'), ('Ƀ', 'Ɇ'),
-  ('Ɉ', 'Ɉ'), ('Ɋ', 'Ɋ'), ('Ɍ', 'Ɍ'), ('Ɏ', 'Ɏ'), ('Ͱ', 'Ͱ'),
-  ('Ͳ', 'Ͳ'), ('Ͷ', 'Ͷ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'), ('Έ', 'Ί'),
-  ('Ό', 'Ό'), ('Ύ', 'Ώ'), ('Α', 'Ρ'), ('Σ', 'Ϋ'), ('Ϗ', 'Ϗ'),
-  ('ϒ', 'ϔ'), ('Ϙ', 'Ϙ'), ('Ϛ', 'Ϛ'), ('Ϝ', 'Ϝ'), ('Ϟ', 'Ϟ'),
-  ('Ϡ', 'Ϡ'), ('Ϣ', 'Ϣ'), ('Ϥ', 'Ϥ'), ('Ϧ', 'Ϧ'), ('Ϩ', 'Ϩ'),
-  ('Ϫ', 'Ϫ'), ('Ϭ', 'Ϭ'), ('Ϯ', 'Ϯ'), ('ϴ', 'ϴ'), ('Ϸ', 'Ϸ'),
-  ('Ϲ', 'Ϻ'), ('Ͻ', 'Я'), ('Ѡ', 'Ѡ'), ('Ѣ', 'Ѣ'), ('Ѥ', 'Ѥ'),
-  ('Ѧ', 'Ѧ'), ('Ѩ', 'Ѩ'), ('Ѫ', 'Ѫ'), ('Ѭ', 'Ѭ'), ('Ѯ', 'Ѯ'),
-  ('Ѱ', 'Ѱ'), ('Ѳ', 'Ѳ'), ('Ѵ', 'Ѵ'), ('Ѷ', 'Ѷ'), ('Ѹ', 'Ѹ'),
-  ('Ѻ', 'Ѻ'), ('Ѽ', 'Ѽ'), ('Ѿ', 'Ѿ'), ('Ҁ', 'Ҁ'), ('Ҋ', 'Ҋ'),
-  ('Ҍ', 'Ҍ'), ('Ҏ', 'Ҏ'), ('Ґ', 'Ґ'), ('Ғ', 'Ғ'), ('Ҕ', 'Ҕ'),
-  ('Җ', 'Җ'), ('Ҙ', 'Ҙ'), ('Қ', 'Қ'), ('Ҝ', 'Ҝ'), ('Ҟ', 'Ҟ'),
-  ('Ҡ', 'Ҡ'), ('Ң', 'Ң'), ('Ҥ', 'Ҥ'), ('Ҧ', 'Ҧ'), ('Ҩ', 'Ҩ'),
-  ('Ҫ', 'Ҫ'), ('Ҭ', 'Ҭ'), ('Ү', 'Ү'), ('Ұ', 'Ұ'), ('Ҳ', 'Ҳ'),
-  ('Ҵ', 'Ҵ'), ('Ҷ', 'Ҷ'), ('Ҹ', 'Ҹ'), ('Һ', 'Һ'), ('Ҽ', 'Ҽ'),
-  ('Ҿ', 'Ҿ'), ('Ӏ', 'Ӂ'), ('Ӄ', 'Ӄ'), ('Ӆ', 'Ӆ'), ('Ӈ', 'Ӈ'),
-  ('Ӊ', 'Ӊ'), ('Ӌ', 'Ӌ'), ('Ӎ', 'Ӎ'), ('Ӑ', 'Ӑ'), ('Ӓ', 'Ӓ'),
-  ('Ӕ', 'Ӕ'), ('Ӗ', 'Ӗ'), ('Ә', 'Ә'), ('Ӛ', 'Ӛ'), ('Ӝ', 'Ӝ'),
-  ('Ӟ', 'Ӟ'), ('Ӡ', 'Ӡ'), ('Ӣ', 'Ӣ'), ('Ӥ', 'Ӥ'), ('Ӧ', 'Ӧ'),
-  ('Ө', 'Ө'), ('Ӫ', 'Ӫ'), ('Ӭ', 'Ӭ'), ('Ӯ', 'Ӯ'), ('Ӱ', 'Ӱ'),
-  ('Ӳ', 'Ӳ'), ('Ӵ', 'Ӵ'), ('Ӷ', 'Ӷ'), ('Ӹ', 'Ӹ'), ('Ӻ', 'Ӻ'),
-  ('Ӽ', 'Ӽ'), ('Ӿ', 'Ӿ'), ('Ԁ', 'Ԁ'), ('Ԃ', 'Ԃ'), ('Ԅ', 'Ԅ'),
-  ('Ԇ', 'Ԇ'), ('Ԉ', 'Ԉ'), ('Ԋ', 'Ԋ'), ('Ԍ', 'Ԍ'), ('Ԏ', 'Ԏ'),
-  ('Ԑ', 'Ԑ'), ('Ԓ', 'Ԓ'), ('Ԕ', 'Ԕ'), ('Ԗ', 'Ԗ'), ('Ԙ', 'Ԙ'),
-  ('Ԛ', 'Ԛ'), ('Ԝ', 'Ԝ'), ('Ԟ', 'Ԟ'), ('Ԡ', 'Ԡ'), ('Ԣ', 'Ԣ'),
-  ('Ԥ', 'Ԥ'), ('Ԧ', 'Ԧ'), ('Ԩ', 'Ԩ'), ('Ԫ', 'Ԫ'), ('Ԭ', 'Ԭ'),
-  ('Ԯ', 'Ԯ'), ('Ա', 'Ֆ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('Ꭰ', 'Ᏽ'), ('Ḁ', 'Ḁ'), ('Ḃ', 'Ḃ'), ('Ḅ', 'Ḅ'),
-  ('Ḇ', 'Ḇ'), ('Ḉ', 'Ḉ'), ('Ḋ', 'Ḋ'), ('Ḍ', 'Ḍ'),
-  ('Ḏ', 'Ḏ'), ('Ḑ', 'Ḑ'), ('Ḓ', 'Ḓ'), ('Ḕ', 'Ḕ'),
-  ('Ḗ', 'Ḗ'), ('Ḙ', 'Ḙ'), ('Ḛ', 'Ḛ'), ('Ḝ', 'Ḝ'),
-  ('Ḟ', 'Ḟ'), ('Ḡ', 'Ḡ'), ('Ḣ', 'Ḣ'), ('Ḥ', 'Ḥ'),
-  ('Ḧ', 'Ḧ'), ('Ḩ', 'Ḩ'), ('Ḫ', 'Ḫ'), ('Ḭ', 'Ḭ'),
-  ('Ḯ', 'Ḯ'), ('Ḱ', 'Ḱ'), ('Ḳ', 'Ḳ'), ('Ḵ', 'Ḵ'),
-  ('Ḷ', 'Ḷ'), ('Ḹ', 'Ḹ'), ('Ḻ', 'Ḻ'), ('Ḽ', 'Ḽ'),
-  ('Ḿ', 'Ḿ'), ('Ṁ', 'Ṁ'), ('Ṃ', 'Ṃ'), ('Ṅ', 'Ṅ'),
-  ('Ṇ', 'Ṇ'), ('Ṉ', 'Ṉ'), ('Ṋ', 'Ṋ'), ('Ṍ', 'Ṍ'),
-  ('Ṏ', 'Ṏ'), ('Ṑ', 'Ṑ'), ('Ṓ', 'Ṓ'), ('Ṕ', 'Ṕ'),
-  ('Ṗ', 'Ṗ'), ('Ṙ', 'Ṙ'), ('Ṛ', 'Ṛ'), ('Ṝ', 'Ṝ'),
-  ('Ṟ', 'Ṟ'), ('Ṡ', 'Ṡ'), ('Ṣ', 'Ṣ'), ('Ṥ', 'Ṥ'),
-  ('Ṧ', 'Ṧ'), ('Ṩ', 'Ṩ'), ('Ṫ', 'Ṫ'), ('Ṭ', 'Ṭ'),
-  ('Ṯ', 'Ṯ'), ('Ṱ', 'Ṱ'), ('Ṳ', 'Ṳ'), ('Ṵ', 'Ṵ'),
-  ('Ṷ', 'Ṷ'), ('Ṹ', 'Ṹ'), ('Ṻ', 'Ṻ'), ('Ṽ', 'Ṽ'),
-  ('Ṿ', 'Ṿ'), ('Ẁ', 'Ẁ'), ('Ẃ', 'Ẃ'), ('Ẅ', 'Ẅ'),
-  ('Ẇ', 'Ẇ'), ('Ẉ', 'Ẉ'), ('Ẋ', 'Ẋ'), ('Ẍ', 'Ẍ'),
-  ('Ẏ', 'Ẏ'), ('Ẑ', 'Ẑ'), ('Ẓ', 'Ẓ'), ('Ẕ', 'Ẕ'),
-  ('ẞ', 'ẞ'), ('Ạ', 'Ạ'), ('Ả', 'Ả'), ('Ấ', 'Ấ'),
-  ('Ầ', 'Ầ'), ('Ẩ', 'Ẩ'), ('Ẫ', 'Ẫ'), ('Ậ', 'Ậ'),
-  ('Ắ', 'Ắ'), ('Ằ', 'Ằ'), ('Ẳ', 'Ẳ'), ('Ẵ', 'Ẵ'),
-  ('Ặ', 'Ặ'), ('Ẹ', 'Ẹ'), ('Ẻ', 'Ẻ'), ('Ẽ', 'Ẽ'),
-  ('Ế', 'Ế'), ('Ề', 'Ề'), ('Ể', 'Ể'), ('Ễ', 'Ễ'),
-  ('Ệ', 'Ệ'), ('Ỉ', 'Ỉ'), ('Ị', 'Ị'), ('Ọ', 'Ọ'),
-  ('Ỏ', 'Ỏ'), ('Ố', 'Ố'), ('Ồ', 'Ồ'), ('Ổ', 'Ổ'),
-  ('Ỗ', 'Ỗ'), ('Ộ', 'Ộ'), ('Ớ', 'Ớ'), ('Ờ', 'Ờ'),
-  ('Ở', 'Ở'), ('Ỡ', 'Ỡ'), ('Ợ', 'Ợ'), ('Ụ', 'Ụ'),
-  ('Ủ', 'Ủ'), ('Ứ', 'Ứ'), ('Ừ', 'Ừ'), ('Ử', 'Ử'),
-  ('Ữ', 'Ữ'), ('Ự', 'Ự'), ('Ỳ', 'Ỳ'), ('Ỵ', 'Ỵ'),
-  ('Ỷ', 'Ỷ'), ('Ỹ', 'Ỹ'), ('Ỻ', 'Ỻ'), ('Ỽ', 'Ỽ'),
-  ('Ỿ', 'Ỿ'), ('Ἀ', 'Ἇ'), ('Ἐ', 'Ἕ'), ('Ἠ', 'Ἧ'),
-  ('Ἰ', 'Ἷ'), ('Ὀ', 'Ὅ'), ('Ὑ', 'Ὑ'), ('Ὓ', 'Ὓ'),
-  ('Ὕ', 'Ὕ'), ('Ὗ', 'Ὗ'), ('Ὠ', 'Ὧ'), ('ᾈ', 'ᾏ'),
-  ('ᾘ', 'ᾟ'), ('ᾨ', 'ᾯ'), ('Ᾰ', 'ᾼ'), ('Ὲ', 'ῌ'),
-  ('Ῐ', 'Ί'), ('Ῠ', 'Ῥ'), ('Ὸ', 'ῼ'), ('ℂ', 'ℂ'),
-  ('ℇ', 'ℇ'), ('ℋ', 'ℍ'), ('ℐ', 'ℒ'), ('ℕ', 'ℕ'),
-  ('ℙ', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'),
-  ('K', 'ℭ'), ('ℰ', 'ℳ'), ('ℾ', 'ℿ'), ('ⅅ', 'ⅅ'),
-  ('Ⅰ', 'Ⅿ'), ('Ↄ', 'Ↄ'), ('Ⓐ', 'Ⓩ'), ('Ⰰ', 'Ⱞ'),
-  ('Ⱡ', 'Ⱡ'), ('Ɫ', 'Ɽ'), ('Ⱨ', 'Ⱨ'), ('Ⱪ', 'Ⱪ'),
-  ('Ⱬ', 'Ⱬ'), ('Ɑ', 'Ɒ'), ('Ⱳ', 'Ⱳ'), ('Ⱶ', 'Ⱶ'),
-  ('Ȿ', 'Ⲁ'), ('Ⲃ', 'Ⲃ'), ('Ⲅ', 'Ⲅ'), ('Ⲇ', 'Ⲇ'),
-  ('Ⲉ', 'Ⲉ'), ('Ⲋ', 'Ⲋ'), ('Ⲍ', 'Ⲍ'), ('Ⲏ', 'Ⲏ'),
-  ('Ⲑ', 'Ⲑ'), ('Ⲓ', 'Ⲓ'), ('Ⲕ', 'Ⲕ'), ('Ⲗ', 'Ⲗ'),
-  ('Ⲙ', 'Ⲙ'), ('Ⲛ', 'Ⲛ'), ('Ⲝ', 'Ⲝ'), ('Ⲟ', 'Ⲟ'),
-  ('Ⲡ', 'Ⲡ'), ('Ⲣ', 'Ⲣ'), ('Ⲥ', 'Ⲥ'), ('Ⲧ', 'Ⲧ'),
-  ('Ⲩ', 'Ⲩ'), ('Ⲫ', 'Ⲫ'), ('Ⲭ', 'Ⲭ'), ('Ⲯ', 'Ⲯ'),
-  ('Ⲱ', 'Ⲱ'), ('Ⲳ', 'Ⲳ'), ('Ⲵ', 'Ⲵ'), ('Ⲷ', 'Ⲷ'),
-  ('Ⲹ', 'Ⲹ'), ('Ⲻ', 'Ⲻ'), ('Ⲽ', 'Ⲽ'), ('Ⲿ', 'Ⲿ'),
-  ('Ⳁ', 'Ⳁ'), ('Ⳃ', 'Ⳃ'), ('Ⳅ', 'Ⳅ'), ('Ⳇ', 'Ⳇ'),
-  ('Ⳉ', 'Ⳉ'), ('Ⳋ', 'Ⳋ'), ('Ⳍ', 'Ⳍ'), ('Ⳏ', 'Ⳏ'),
-  ('Ⳑ', 'Ⳑ'), ('Ⳓ', 'Ⳓ'), ('Ⳕ', 'Ⳕ'), ('Ⳗ', 'Ⳗ'),
-  ('Ⳙ', 'Ⳙ'), ('Ⳛ', 'Ⳛ'), ('Ⳝ', 'Ⳝ'), ('Ⳟ', 'Ⳟ'),
-  ('Ⳡ', 'Ⳡ'), ('Ⳣ', 'Ⳣ'), ('Ⳬ', 'Ⳬ'), ('Ⳮ', 'Ⳮ'),
-  ('Ⳳ', 'Ⳳ'), ('Ꙁ', 'Ꙁ'), ('Ꙃ', 'Ꙃ'), ('Ꙅ', 'Ꙅ'),
-  ('Ꙇ', 'Ꙇ'), ('Ꙉ', 'Ꙉ'), ('Ꙋ', 'Ꙋ'), ('Ꙍ', 'Ꙍ'),
-  ('Ꙏ', 'Ꙏ'), ('Ꙑ', 'Ꙑ'), ('Ꙓ', 'Ꙓ'), ('Ꙕ', 'Ꙕ'),
-  ('Ꙗ', 'Ꙗ'), ('Ꙙ', 'Ꙙ'), ('Ꙛ', 'Ꙛ'), ('Ꙝ', 'Ꙝ'),
-  ('Ꙟ', 'Ꙟ'), ('Ꙡ', 'Ꙡ'), ('Ꙣ', 'Ꙣ'), ('Ꙥ', 'Ꙥ'),
-  ('Ꙧ', 'Ꙧ'), ('Ꙩ', 'Ꙩ'), ('Ꙫ', 'Ꙫ'), ('Ꙭ', 'Ꙭ'),
-  ('Ꚁ', 'Ꚁ'), ('Ꚃ', 'Ꚃ'), ('Ꚅ', 'Ꚅ'), ('Ꚇ', 'Ꚇ'),
-  ('Ꚉ', 'Ꚉ'), ('Ꚋ', 'Ꚋ'), ('Ꚍ', 'Ꚍ'), ('Ꚏ', 'Ꚏ'),
-  ('Ꚑ', 'Ꚑ'), ('Ꚓ', 'Ꚓ'), ('Ꚕ', 'Ꚕ'), ('Ꚗ', 'Ꚗ'),
-  ('Ꚙ', 'Ꚙ'), ('Ꚛ', 'Ꚛ'), ('Ꜣ', 'Ꜣ'), ('Ꜥ', 'Ꜥ'),
-  ('Ꜧ', 'Ꜧ'), ('Ꜩ', 'Ꜩ'), ('Ꜫ', 'Ꜫ'), ('Ꜭ', 'Ꜭ'),
-  ('Ꜯ', 'Ꜯ'), ('Ꜳ', 'Ꜳ'), ('Ꜵ', 'Ꜵ'), ('Ꜷ', 'Ꜷ'),
-  ('Ꜹ', 'Ꜹ'), ('Ꜻ', 'Ꜻ'), ('Ꜽ', 'Ꜽ'), ('Ꜿ', 'Ꜿ'),
-  ('Ꝁ', 'Ꝁ'), ('Ꝃ', 'Ꝃ'), ('Ꝅ', 'Ꝅ'), ('Ꝇ', 'Ꝇ'),
-  ('Ꝉ', 'Ꝉ'), ('Ꝋ', 'Ꝋ'), ('Ꝍ', 'Ꝍ'), ('Ꝏ', 'Ꝏ'),
-  ('Ꝑ', 'Ꝑ'), ('Ꝓ', 'Ꝓ'), ('Ꝕ', 'Ꝕ'), ('Ꝗ', 'Ꝗ'),
-  ('Ꝙ', 'Ꝙ'), ('Ꝛ', 'Ꝛ'), ('Ꝝ', 'Ꝝ'), ('Ꝟ', 'Ꝟ'),
-  ('Ꝡ', 'Ꝡ'), ('Ꝣ', 'Ꝣ'), ('Ꝥ', 'Ꝥ'), ('Ꝧ', 'Ꝧ'),
-  ('Ꝩ', 'Ꝩ'), ('Ꝫ', 'Ꝫ'), ('Ꝭ', 'Ꝭ'), ('Ꝯ', 'Ꝯ'),
-  ('Ꝺ', 'Ꝺ'), ('Ꝼ', 'Ꝼ'), ('Ᵹ', 'Ꝿ'), ('Ꞁ', 'Ꞁ'),
-  ('Ꞃ', 'Ꞃ'), ('Ꞅ', 'Ꞅ'), ('Ꞇ', 'Ꞇ'), ('Ꞌ', 'Ꞌ'),
-  ('Ɥ', 'Ɥ'), ('Ꞑ', 'Ꞑ'), ('Ꞓ', 'Ꞓ'), ('Ꞗ', 'Ꞗ'),
-  ('Ꞙ', 'Ꞙ'), ('Ꞛ', 'Ꞛ'), ('Ꞝ', 'Ꞝ'), ('Ꞟ', 'Ꞟ'),
-  ('Ꞡ', 'Ꞡ'), ('Ꞣ', 'Ꞣ'), ('Ꞥ', 'Ꞥ'), ('Ꞧ', 'Ꞧ'),
-  ('Ꞩ', 'Ꞩ'), ('Ɦ', 'Ɪ'), ('Ʞ', 'Ꞵ'), ('Ꞷ', 'Ꞷ'),
-  ('Ꞹ', 'Ꞹ'), ('\u{a7ba}', '\u{a7ba}'), ('\u{a7bc}', '\u{a7bc}'),
-  ('\u{a7be}', '\u{a7be}'), ('\u{a7c2}', '\u{a7c2}'),
-  ('\u{a7c4}', '\u{a7c6}'), ('A', 'Z'), ('𐐀', '𐐧'),
-  ('𐒰', '𐓓'), ('𐲀', '𐲲'), ('𑢠', '𑢿'), ('𖹀', '𖹟'),
-  ('𝐀', '𝐙'), ('𝐴', '𝑍'), ('𝑨', '𝒁'), ('𝒜', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒵'), ('𝓐', '𝓩'), ('𝔄', '𝔅'), ('𝔇', '𝔊'),
-  ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔸', '𝔹'), ('𝔻', '𝔾'),
-  ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'), ('𝕬', '𝖅'),
-  ('𝖠', '𝖹'), ('𝗔', '𝗭'), ('𝘈', '𝘡'), ('𝘼', '𝙕'),
-  ('𝙰', '𝚉'), ('𝚨', '𝛀'), ('𝛢', '𝛺'), ('𝜜', '𝜴'),
-  ('𝝖', '𝝮'), ('𝞐', '𝞨'), ('𝟊', '𝟊'), ('𞤀', '𞤡'),
-  ('🄰', '🅉'), ('🅐', '🅩'), ('🅰', '🆉'),
-];
-
-
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate word-break /tmp/ucd-12.1.0/ --chars
-//
-// ucd-generate is available on crates.io.
-
-pub const BY_NAME: &'static [(&'static str, &'static [(char, char)])] = &[
-  ("ALetter", ALETTER), ("CR", CR), ("Double_Quote", DOUBLE_QUOTE),
-  ("Extend", EXTEND), ("ExtendNumLet", EXTENDNUMLET), ("Format", FORMAT),
-  ("Hebrew_Letter", HEBREW_LETTER), ("Katakana", KATAKANA), ("LF", LF),
-  ("MidLetter", MIDLETTER), ("MidNum", MIDNUM), ("MidNumLet", MIDNUMLET),
-  ("Newline", NEWLINE), ("Numeric", NUMERIC),
-  ("Regional_Indicator", REGIONAL_INDICATOR), ("Single_Quote", SINGLE_QUOTE),
-  ("WSegSpace", WSEGSPACE), ("ZWJ", ZWJ),
-];
-
-pub const ALETTER: &'static [(char, char)] = &[
-  ('A', 'Z'), ('a', 'z'), ('ª', 'ª'), ('µ', 'µ'), ('º', 'º'),
-  ('À', 'Ö'), ('Ø', 'ö'), ('ø', '˗'), ('˞', 'ˤ'), ('ˬ', '˿'),
-  ('Ͱ', 'ʹ'), ('Ͷ', 'ͷ'), ('ͺ', 'ͽ'), ('Ϳ', 'Ϳ'), ('Ά', 'Ά'),
-  ('Έ', 'Ί'), ('Ό', 'Ό'), ('Ύ', 'Ρ'), ('Σ', 'ϵ'), ('Ϸ', 'ҁ'),
-  ('Ҋ', 'ԯ'), ('Ա', 'Ֆ'), ('ՙ', 'ՙ'), ('՛', '՜'), ('՞', '՞'),
-  ('ՠ', 'ֈ'), ('׳', '׳'), ('ؠ', 'ي'), ('ٮ', 'ٯ'), ('ٱ', 'ۓ'),
-  ('ە', 'ە'), ('ۥ', 'ۦ'), ('ۮ', 'ۯ'), ('ۺ', 'ۼ'), ('ۿ', 'ۿ'),
-  ('ܐ', 'ܐ'), ('ܒ', 'ܯ'), ('ݍ', 'ޥ'), ('ޱ', 'ޱ'), ('ߊ', 'ߪ'),
-  ('ߴ', 'ߵ'), ('ߺ', 'ߺ'), ('ࠀ', 'ࠕ'), ('ࠚ', 'ࠚ'), ('ࠤ', 'ࠤ'),
-  ('ࠨ', 'ࠨ'), ('ࡀ', 'ࡘ'), ('ࡠ', 'ࡪ'), ('ࢠ', 'ࢴ'),
-  ('ࢶ', 'ࢽ'), ('ऄ', 'ह'), ('ऽ', 'ऽ'), ('ॐ', 'ॐ'),
-  ('क़', 'ॡ'), ('ॱ', 'ঀ'), ('অ', 'ঌ'), ('এ', 'ঐ'),
-  ('ও', 'ন'), ('প', 'র'), ('ল', 'ল'), ('শ', 'হ'),
-  ('ঽ', 'ঽ'), ('ৎ', 'ৎ'), ('ড়', 'ঢ়'), ('য়', 'ৡ'),
-  ('ৰ', 'ৱ'), ('ৼ', 'ৼ'), ('ਅ', 'ਊ'), ('ਏ', 'ਐ'),
-  ('ਓ', 'ਨ'), ('ਪ', 'ਰ'), ('ਲ', 'ਲ਼'), ('ਵ', 'ਸ਼'),
-  ('ਸ', 'ਹ'), ('ਖ਼', 'ੜ'), ('ਫ਼', 'ਫ਼'), ('ੲ', 'ੴ'),
-  ('અ', 'ઍ'), ('એ', 'ઑ'), ('ઓ', 'ન'), ('પ', 'ર'),
-  ('લ', 'ળ'), ('વ', 'હ'), ('ઽ', 'ઽ'), ('ૐ', 'ૐ'),
-  ('ૠ', 'ૡ'), ('ૹ', 'ૹ'), ('ଅ', 'ଌ'), ('ଏ', 'ଐ'),
-  ('ଓ', 'ନ'), ('ପ', 'ର'), ('ଲ', 'ଳ'), ('ଵ', 'ହ'),
-  ('ଽ', 'ଽ'), ('ଡ଼', 'ଢ଼'), ('ୟ', 'ୡ'), ('ୱ', 'ୱ'),
-  ('ஃ', 'ஃ'), ('அ', 'ஊ'), ('எ', 'ஐ'), ('ஒ', 'க'),
-  ('ங', 'ச'), ('ஜ', 'ஜ'), ('ஞ', 'ட'), ('ண', 'த'),
-  ('ந', 'ப'), ('ம', 'ஹ'), ('ௐ', 'ௐ'), ('అ', 'ఌ'),
-  ('ఎ', 'ఐ'), ('ఒ', 'న'), ('ప', 'హ'), ('ఽ', 'ఽ'),
-  ('ౘ', 'ౚ'), ('ౠ', 'ౡ'), ('ಀ', 'ಀ'), ('ಅ', 'ಌ'),
-  ('ಎ', 'ಐ'), ('ಒ', 'ನ'), ('ಪ', 'ಳ'), ('ವ', 'ಹ'),
-  ('ಽ', 'ಽ'), ('ೞ', 'ೞ'), ('ೠ', 'ೡ'), ('ೱ', 'ೲ'),
-  ('അ', 'ഌ'), ('എ', 'ഐ'), ('ഒ', 'ഺ'), ('ഽ', 'ഽ'),
-  ('ൎ', 'ൎ'), ('ൔ', 'ൖ'), ('ൟ', 'ൡ'), ('ൺ', 'ൿ'),
-  ('අ', 'ඖ'), ('ක', 'න'), ('ඳ', 'ර'), ('ල', 'ල'),
-  ('ව', 'ෆ'), ('ༀ', 'ༀ'), ('ཀ', 'ཇ'), ('ཉ', 'ཬ'),
-  ('ྈ', 'ྌ'), ('Ⴀ', 'Ⴥ'), ('Ⴧ', 'Ⴧ'), ('Ⴭ', 'Ⴭ'),
-  ('ა', 'ჺ'), ('ჼ', 'ቈ'), ('ቊ', 'ቍ'), ('ቐ', 'ቖ'),
-  ('ቘ', 'ቘ'), ('ቚ', 'ቝ'), ('በ', 'ኈ'), ('ኊ', 'ኍ'),
-  ('ነ', 'ኰ'), ('ኲ', 'ኵ'), ('ኸ', 'ኾ'), ('ዀ', 'ዀ'),
-  ('ዂ', 'ዅ'), ('ወ', 'ዖ'), ('ዘ', 'ጐ'), ('ጒ', 'ጕ'),
-  ('ጘ', 'ፚ'), ('ᎀ', 'ᎏ'), ('Ꭰ', 'Ᏽ'), ('ᏸ', 'ᏽ'),
-  ('ᐁ', 'ᙬ'), ('ᙯ', 'ᙿ'), ('ᚁ', 'ᚚ'), ('ᚠ', 'ᛪ'),
-  ('ᛮ', 'ᛸ'), ('ᜀ', 'ᜌ'), ('ᜎ', 'ᜑ'), ('ᜠ', 'ᜱ'),
-  ('ᝀ', 'ᝑ'), ('ᝠ', 'ᝬ'), ('ᝮ', 'ᝰ'), ('ᠠ', 'ᡸ'),
-  ('ᢀ', 'ᢄ'), ('ᢇ', 'ᢨ'), ('ᢪ', 'ᢪ'), ('ᢰ', 'ᣵ'),
-  ('ᤀ', 'ᤞ'), ('ᨀ', 'ᨖ'), ('ᬅ', 'ᬳ'), ('ᭅ', 'ᭋ'),
-  ('ᮃ', 'ᮠ'), ('ᮮ', 'ᮯ'), ('ᮺ', 'ᯥ'), ('ᰀ', 'ᰣ'),
-  ('ᱍ', 'ᱏ'), ('ᱚ', 'ᱽ'), ('ᲀ', 'ᲈ'), ('Ა', 'Ჺ'),
-  ('Ჽ', 'Ჿ'), ('ᳩ', 'ᳬ'), ('ᳮ', 'ᳳ'), ('ᳵ', 'ᳶ'),
-  ('\u{1cfa}', '\u{1cfa}'), ('ᴀ', 'ᶿ'), ('Ḁ', 'ἕ'), ('Ἐ', 'Ἕ'),
-  ('ἠ', 'ὅ'), ('Ὀ', 'Ὅ'), ('ὐ', 'ὗ'), ('Ὑ', 'Ὑ'),
-  ('Ὓ', 'Ὓ'), ('Ὕ', 'Ὕ'), ('Ὗ', 'ώ'), ('ᾀ', 'ᾴ'),
-  ('ᾶ', 'ᾼ'), ('ι', 'ι'), ('ῂ', 'ῄ'), ('ῆ', 'ῌ'),
-  ('ῐ', 'ΐ'), ('ῖ', 'Ί'), ('ῠ', 'Ῥ'), ('ῲ', 'ῴ'),
-  ('ῶ', 'ῼ'), ('ⁱ', 'ⁱ'), ('ⁿ', 'ⁿ'), ('ₐ', 'ₜ'),
-  ('ℂ', 'ℂ'), ('ℇ', 'ℇ'), ('ℊ', 'ℓ'), ('ℕ', 'ℕ'),
-  ('ℙ', 'ℝ'), ('ℤ', 'ℤ'), ('Ω', 'Ω'), ('ℨ', 'ℨ'),
-  ('K', 'ℭ'), ('ℯ', 'ℹ'), ('ℼ', 'ℿ'), ('ⅅ', 'ⅉ'),
-  ('ⅎ', 'ⅎ'), ('Ⅰ', 'ↈ'), ('Ⓐ', 'ⓩ'), ('Ⰰ', 'Ⱞ'),
-  ('ⰰ', 'ⱞ'), ('Ⱡ', 'ⳤ'), ('Ⳬ', 'ⳮ'), ('Ⳳ', 'ⳳ'),
-  ('ⴀ', 'ⴥ'), ('ⴧ', 'ⴧ'), ('ⴭ', 'ⴭ'), ('ⴰ', 'ⵧ'),
-  ('ⵯ', 'ⵯ'), ('ⶀ', 'ⶖ'), ('ⶠ', 'ⶦ'), ('ⶨ', 'ⶮ'),
-  ('ⶰ', 'ⶶ'), ('ⶸ', 'ⶾ'), ('ⷀ', 'ⷆ'), ('ⷈ', 'ⷎ'),
-  ('ⷐ', 'ⷖ'), ('ⷘ', 'ⷞ'), ('ⸯ', 'ⸯ'), ('々', '々'),
-  ('〻', '〼'), ('ㄅ', 'ㄯ'), ('ㄱ', 'ㆎ'), ('ㆠ', 'ㆺ'),
-  ('ꀀ', 'ꒌ'), ('ꓐ', 'ꓽ'), ('ꔀ', 'ꘌ'), ('ꘐ', 'ꘟ'),
-  ('ꘪ', 'ꘫ'), ('Ꙁ', 'ꙮ'), ('ꙿ', 'ꚝ'), ('ꚠ', 'ꛯ'),
-  ('ꜗ', '\u{a7bf}'), ('\u{a7c2}', '\u{a7c6}'), ('ꟷ', 'ꠁ'),
-  ('ꠃ', 'ꠅ'), ('ꠇ', 'ꠊ'), ('ꠌ', 'ꠢ'), ('ꡀ', 'ꡳ'),
-  ('ꢂ', 'ꢳ'), ('ꣲ', 'ꣷ'), ('ꣻ', 'ꣻ'), ('ꣽ', 'ꣾ'),
-  ('ꤊ', 'ꤥ'), ('ꤰ', 'ꥆ'), ('ꥠ', 'ꥼ'), ('ꦄ', 'ꦲ'),
-  ('ꧏ', 'ꧏ'), ('ꨀ', 'ꨨ'), ('ꩀ', 'ꩂ'), ('ꩄ', 'ꩋ'),
-  ('ꫠ', 'ꫪ'), ('ꫲ', 'ꫴ'), ('ꬁ', 'ꬆ'), ('ꬉ', 'ꬎ'),
-  ('ꬑ', 'ꬖ'), ('ꬠ', 'ꬦ'), ('ꬨ', 'ꬮ'), ('ꬰ', '\u{ab67}'),
-  ('ꭰ', 'ꯢ'), ('가', '힣'), ('ힰ', 'ퟆ'), ('ퟋ', 'ퟻ'),
-  ('ff', 'st'), ('ﬓ', 'ﬗ'), ('ﭐ', 'ﮱ'), ('ﯓ', 'ﴽ'),
-  ('ﵐ', 'ﶏ'), ('ﶒ', 'ﷇ'), ('ﷰ', 'ﷻ'), ('ﹰ', 'ﹴ'),
-  ('ﹶ', 'ﻼ'), ('A', 'Z'), ('a', 'z'), ('ᅠ', 'ᄒ'),
-  ('ᅡ', 'ᅦ'), ('ᅧ', 'ᅬ'), ('ᅭ', 'ᅲ'), ('ᅳ', 'ᅵ'),
-  ('𐀀', '𐀋'), ('𐀍', '𐀦'), ('𐀨', '𐀺'), ('𐀼', '𐀽'),
-  ('𐀿', '𐁍'), ('𐁐', '𐁝'), ('𐂀', '𐃺'), ('𐅀', '𐅴'),
-  ('𐊀', '𐊜'), ('𐊠', '𐋐'), ('𐌀', '𐌟'), ('𐌭', '𐍊'),
-  ('𐍐', '𐍵'), ('𐎀', '𐎝'), ('𐎠', '𐏃'), ('𐏈', '𐏏'),
-  ('𐏑', '𐏕'), ('𐐀', '𐒝'), ('𐒰', '𐓓'), ('𐓘', '𐓻'),
-  ('𐔀', '𐔧'), ('𐔰', '𐕣'), ('𐘀', '𐜶'), ('𐝀', '𐝕'),
-  ('𐝠', '𐝧'), ('𐠀', '𐠅'), ('𐠈', '𐠈'), ('𐠊', '𐠵'),
-  ('𐠷', '𐠸'), ('𐠼', '𐠼'), ('𐠿', '𐡕'), ('𐡠', '𐡶'),
-  ('𐢀', '𐢞'), ('𐣠', '𐣲'), ('𐣴', '𐣵'), ('𐤀', '𐤕'),
-  ('𐤠', '𐤹'), ('𐦀', '𐦷'), ('𐦾', '𐦿'), ('𐨀', '𐨀'),
-  ('𐨐', '𐨓'), ('𐨕', '𐨗'), ('𐨙', '𐨵'), ('𐩠', '𐩼'),
-  ('𐪀', '𐪜'), ('𐫀', '𐫇'), ('𐫉', '𐫤'), ('𐬀', '𐬵'),
-  ('𐭀', '𐭕'), ('𐭠', '𐭲'), ('𐮀', '𐮑'), ('𐰀', '𐱈'),
-  ('𐲀', '𐲲'), ('𐳀', '𐳲'), ('𐴀', '𐴣'), ('𐼀', '𐼜'),
-  ('𐼧', '𐼧'), ('𐼰', '𐽅'), ('\u{10fe0}', '\u{10ff6}'),
-  ('𑀃', '𑀷'), ('𑂃', '𑂯'), ('𑃐', '𑃨'), ('𑄃', '𑄦'),
-  ('𑅄', '𑅄'), ('𑅐', '𑅲'), ('𑅶', '𑅶'), ('𑆃', '𑆲'),
-  ('𑇁', '𑇄'), ('𑇚', '𑇚'), ('𑇜', '𑇜'), ('𑈀', '𑈑'),
-  ('𑈓', '𑈫'), ('𑊀', '𑊆'), ('𑊈', '𑊈'), ('𑊊', '𑊍'),
-  ('𑊏', '𑊝'), ('𑊟', '𑊨'), ('𑊰', '𑋞'), ('𑌅', '𑌌'),
-  ('𑌏', '𑌐'), ('𑌓', '𑌨'), ('𑌪', '𑌰'), ('𑌲', '𑌳'),
-  ('𑌵', '𑌹'), ('𑌽', '𑌽'), ('𑍐', '𑍐'), ('𑍝', '𑍡'),
-  ('𑐀', '𑐴'), ('𑑇', '𑑊'), ('\u{1145f}', '\u{1145f}'),
-  ('𑒀', '𑒯'), ('𑓄', '𑓅'), ('𑓇', '𑓇'), ('𑖀', '𑖮'),
-  ('𑗘', '𑗛'), ('𑘀', '𑘯'), ('𑙄', '𑙄'), ('𑚀', '𑚪'),
-  ('\u{116b8}', '\u{116b8}'), ('𑠀', '𑠫'), ('𑢠', '𑣟'),
-  ('𑣿', '𑣿'), ('\u{119a0}', '\u{119a7}'), ('\u{119aa}', '\u{119d0}'),
-  ('\u{119e1}', '\u{119e1}'), ('\u{119e3}', '\u{119e3}'), ('𑨀', '𑨀'),
-  ('𑨋', '𑨲'), ('𑨺', '𑨺'), ('𑩐', '𑩐'), ('𑩜', '𑪉'),
-  ('𑪝', '𑪝'), ('𑫀', '𑫸'), ('𑰀', '𑰈'), ('𑰊', '𑰮'),
-  ('𑱀', '𑱀'), ('𑱲', '𑲏'), ('𑴀', '𑴆'), ('𑴈', '𑴉'),
-  ('𑴋', '𑴰'), ('𑵆', '𑵆'), ('𑵠', '𑵥'), ('𑵧', '𑵨'),
-  ('𑵪', '𑶉'), ('𑶘', '𑶘'), ('𑻠', '𑻲'), ('𒀀', '𒎙'),
-  ('𒐀', '𒑮'), ('𒒀', '𒕃'), ('𓀀', '𓐮'), ('𔐀', '𔙆'),
-  ('𖠀', '𖨸'), ('𖩀', '𖩞'), ('𖫐', '𖫭'), ('𖬀', '𖬯'),
-  ('𖭀', '𖭃'), ('𖭣', '𖭷'), ('𖭽', '𖮏'), ('𖹀', '𖹿'),
-  ('𖼀', '\u{16f4a}'), ('𖽐', '𖽐'), ('𖾓', '𖾟'), ('𖿠', '𖿡'),
-  ('\u{16fe3}', '\u{16fe3}'), ('𛰀', '𛱪'), ('𛱰', '𛱼'),
-  ('𛲀', '𛲈'), ('𛲐', '𛲙'), ('𝐀', '𝑔'), ('𝑖', '𝒜'),
-  ('𝒞', '𝒟'), ('𝒢', '𝒢'), ('𝒥', '𝒦'), ('𝒩', '𝒬'),
-  ('𝒮', '𝒹'), ('𝒻', '𝒻'), ('𝒽', '𝓃'), ('𝓅', '𝔅'),
-  ('𝔇', '𝔊'), ('𝔍', '𝔔'), ('𝔖', '𝔜'), ('𝔞', '𝔹'),
-  ('𝔻', '𝔾'), ('𝕀', '𝕄'), ('𝕆', '𝕆'), ('𝕊', '𝕐'),
-  ('𝕒', '𝚥'), ('𝚨', '𝛀'), ('𝛂', '𝛚'), ('𝛜', '𝛺'),
-  ('𝛼', '𝜔'), ('𝜖', '𝜴'), ('𝜶', '𝝎'), ('𝝐', '𝝮'),
-  ('𝝰', '𝞈'), ('𝞊', '𝞨'), ('𝞪', '𝟂'), ('𝟄', '𝟋'),
-  ('\u{1e100}', '\u{1e12c}'), ('\u{1e137}', '\u{1e13d}'),
-  ('\u{1e14e}', '\u{1e14e}'), ('\u{1e2c0}', '\u{1e2eb}'), ('𞠀', '𞣄'),
-  ('𞤀', '𞥃'), ('\u{1e94b}', '\u{1e94b}'), ('𞸀', '𞸃'),
-  ('𞸅', '𞸟'), ('𞸡', '𞸢'), ('𞸤', '𞸤'), ('𞸧', '𞸧'),
-  ('𞸩', '𞸲'), ('𞸴', '𞸷'), ('𞸹', '𞸹'), ('𞸻', '𞸻'),
-  ('𞹂', '𞹂'), ('𞹇', '𞹇'), ('𞹉', '𞹉'), ('𞹋', '𞹋'),
-  ('𞹍', '𞹏'), ('𞹑', '𞹒'), ('𞹔', '𞹔'), ('𞹗', '𞹗'),
-  ('𞹙', '𞹙'), ('𞹛', '𞹛'), ('𞹝', '𞹝'), ('𞹟', '𞹟'),
-  ('𞹡', '𞹢'), ('𞹤', '𞹤'), ('𞹧', '𞹪'), ('𞹬', '𞹲'),
-  ('𞹴', '𞹷'), ('𞹹', '𞹼'), ('𞹾', '𞹾'), ('𞺀', '𞺉'),
-  ('𞺋', '𞺛'), ('𞺡', '𞺣'), ('𞺥', '𞺩'), ('𞺫', '𞺻'),
-  ('🄰', '🅉'), ('🅐', '🅩'), ('🅰', '🆉'),
-];
-
-pub const CR: &'static [(char, char)] = &[
-  ('\r', '\r'),
-];
-
-pub const DOUBLE_QUOTE: &'static [(char, char)] = &[
-  ('\"', '\"'),
-];
-
-pub const EXTEND: &'static [(char, char)] = &[
-  ('\u{300}', '\u{36f}'), ('\u{483}', '\u{489}'), ('\u{591}', '\u{5bd}'),
-  ('\u{5bf}', '\u{5bf}'), ('\u{5c1}', '\u{5c2}'), ('\u{5c4}', '\u{5c5}'),
-  ('\u{5c7}', '\u{5c7}'), ('\u{610}', '\u{61a}'), ('\u{64b}', '\u{65f}'),
-  ('\u{670}', '\u{670}'), ('\u{6d6}', '\u{6dc}'), ('\u{6df}', '\u{6e4}'),
-  ('\u{6e7}', '\u{6e8}'), ('\u{6ea}', '\u{6ed}'), ('\u{711}', '\u{711}'),
-  ('\u{730}', '\u{74a}'), ('\u{7a6}', '\u{7b0}'), ('\u{7eb}', '\u{7f3}'),
-  ('\u{7fd}', '\u{7fd}'), ('\u{816}', '\u{819}'), ('\u{81b}', '\u{823}'),
-  ('\u{825}', '\u{827}'), ('\u{829}', '\u{82d}'), ('\u{859}', '\u{85b}'),
-  ('\u{8d3}', '\u{8e1}'), ('\u{8e3}', 'ः'), ('\u{93a}', '\u{93c}'),
-  ('ा', 'ॏ'), ('\u{951}', '\u{957}'), ('\u{962}', '\u{963}'),
-  ('\u{981}', 'ঃ'), ('\u{9bc}', '\u{9bc}'), ('\u{9be}', '\u{9c4}'),
-  ('ে', 'ৈ'), ('ো', '\u{9cd}'), ('\u{9d7}', '\u{9d7}'),
-  ('\u{9e2}', '\u{9e3}'), ('\u{9fe}', '\u{9fe}'), ('\u{a01}', 'ਃ'),
-  ('\u{a3c}', '\u{a3c}'), ('ਾ', '\u{a42}'), ('\u{a47}', '\u{a48}'),
-  ('\u{a4b}', '\u{a4d}'), ('\u{a51}', '\u{a51}'), ('\u{a70}', '\u{a71}'),
-  ('\u{a75}', '\u{a75}'), ('\u{a81}', 'ઃ'), ('\u{abc}', '\u{abc}'),
-  ('ા', '\u{ac5}'), ('\u{ac7}', 'ૉ'), ('ો', '\u{acd}'),
-  ('\u{ae2}', '\u{ae3}'), ('\u{afa}', '\u{aff}'), ('\u{b01}', 'ଃ'),
-  ('\u{b3c}', '\u{b3c}'), ('\u{b3e}', '\u{b44}'), ('େ', 'ୈ'),
-  ('ୋ', '\u{b4d}'), ('\u{b56}', '\u{b57}'), ('\u{b62}', '\u{b63}'),
-  ('\u{b82}', '\u{b82}'), ('\u{bbe}', 'ூ'), ('ெ', 'ை'),
-  ('ொ', '\u{bcd}'), ('\u{bd7}', '\u{bd7}'), ('\u{c00}', '\u{c04}'),
-  ('\u{c3e}', 'ౄ'), ('\u{c46}', '\u{c48}'), ('\u{c4a}', '\u{c4d}'),
-  ('\u{c55}', '\u{c56}'), ('\u{c62}', '\u{c63}'), ('\u{c81}', 'ಃ'),
-  ('\u{cbc}', '\u{cbc}'), ('ಾ', 'ೄ'), ('\u{cc6}', 'ೈ'),
-  ('ೊ', '\u{ccd}'), ('\u{cd5}', '\u{cd6}'), ('\u{ce2}', '\u{ce3}'),
-  ('\u{d00}', 'ഃ'), ('\u{d3b}', '\u{d3c}'), ('\u{d3e}', '\u{d44}'),
-  ('െ', 'ൈ'), ('ൊ', '\u{d4d}'), ('\u{d57}', '\u{d57}'),
-  ('\u{d62}', '\u{d63}'), ('ං', 'ඃ'), ('\u{dca}', '\u{dca}'),
-  ('\u{dcf}', '\u{dd4}'), ('\u{dd6}', '\u{dd6}'), ('ෘ', '\u{ddf}'),
-  ('ෲ', 'ෳ'), ('\u{e31}', '\u{e31}'), ('\u{e34}', '\u{e3a}'),
-  ('\u{e47}', '\u{e4e}'), ('\u{eb1}', '\u{eb1}'), ('\u{eb4}', '\u{ebc}'),
-  ('\u{ec8}', '\u{ecd}'), ('\u{f18}', '\u{f19}'), ('\u{f35}', '\u{f35}'),
-  ('\u{f37}', '\u{f37}'), ('\u{f39}', '\u{f39}'), ('༾', '༿'),
-  ('\u{f71}', '\u{f84}'), ('\u{f86}', '\u{f87}'), ('\u{f8d}', '\u{f97}'),
-  ('\u{f99}', '\u{fbc}'), ('\u{fc6}', '\u{fc6}'), ('ါ', '\u{103e}'),
-  ('ၖ', '\u{1059}'), ('\u{105e}', '\u{1060}'), ('ၢ', 'ၤ'),
-  ('ၧ', 'ၭ'), ('\u{1071}', '\u{1074}'), ('\u{1082}', '\u{108d}'),
-  ('ႏ', 'ႏ'), ('ႚ', '\u{109d}'), ('\u{135d}', '\u{135f}'),
-  ('\u{1712}', '\u{1714}'), ('\u{1732}', '\u{1734}'),
-  ('\u{1752}', '\u{1753}'), ('\u{1772}', '\u{1773}'),
-  ('\u{17b4}', '\u{17d3}'), ('\u{17dd}', '\u{17dd}'),
-  ('\u{180b}', '\u{180d}'), ('\u{1885}', '\u{1886}'),
-  ('\u{18a9}', '\u{18a9}'), ('\u{1920}', 'ᤫ'), ('ᤰ', '\u{193b}'),
-  ('\u{1a17}', '\u{1a1b}'), ('ᩕ', '\u{1a5e}'), ('\u{1a60}', '\u{1a7c}'),
-  ('\u{1a7f}', '\u{1a7f}'), ('\u{1ab0}', '\u{1abe}'), ('\u{1b00}', 'ᬄ'),
-  ('\u{1b34}', '᭄'), ('\u{1b6b}', '\u{1b73}'), ('\u{1b80}', 'ᮂ'),
-  ('ᮡ', '\u{1bad}'), ('\u{1be6}', '᯳'), ('ᰤ', '\u{1c37}'),
-  ('\u{1cd0}', '\u{1cd2}'), ('\u{1cd4}', '\u{1ce8}'),
-  ('\u{1ced}', '\u{1ced}'), ('\u{1cf4}', '\u{1cf4}'), ('᳷', '\u{1cf9}'),
-  ('\u{1dc0}', '\u{1df9}'), ('\u{1dfb}', '\u{1dff}'),
-  ('\u{200c}', '\u{200c}'), ('\u{20d0}', '\u{20f0}'),
-  ('\u{2cef}', '\u{2cf1}'), ('\u{2d7f}', '\u{2d7f}'),
-  ('\u{2de0}', '\u{2dff}'), ('\u{302a}', '\u{302f}'),
-  ('\u{3099}', '\u{309a}'), ('\u{a66f}', '\u{a672}'),
-  ('\u{a674}', '\u{a67d}'), ('\u{a69e}', '\u{a69f}'),
-  ('\u{a6f0}', '\u{a6f1}'), ('\u{a802}', '\u{a802}'),
-  ('\u{a806}', '\u{a806}'), ('\u{a80b}', '\u{a80b}'), ('ꠣ', 'ꠧ'),
-  ('ꢀ', 'ꢁ'), ('ꢴ', '\u{a8c5}'), ('\u{a8e0}', '\u{a8f1}'),
-  ('\u{a8ff}', '\u{a8ff}'), ('\u{a926}', '\u{a92d}'), ('\u{a947}', '꥓'),
-  ('\u{a980}', 'ꦃ'), ('\u{a9b3}', '꧀'), ('\u{a9e5}', '\u{a9e5}'),
-  ('\u{aa29}', '\u{aa36}'), ('\u{aa43}', '\u{aa43}'), ('\u{aa4c}', 'ꩍ'),
-  ('ꩻ', 'ꩽ'), ('\u{aab0}', '\u{aab0}'), ('\u{aab2}', '\u{aab4}'),
-  ('\u{aab7}', '\u{aab8}'), ('\u{aabe}', '\u{aabf}'),
-  ('\u{aac1}', '\u{aac1}'), ('ꫫ', 'ꫯ'), ('ꫵ', '\u{aaf6}'),
-  ('ꯣ', 'ꯪ'), ('꯬', '\u{abed}'), ('\u{fb1e}', '\u{fb1e}'),
-  ('\u{fe00}', '\u{fe0f}'), ('\u{fe20}', '\u{fe2f}'),
-  ('\u{ff9e}', '\u{ff9f}'), ('\u{101fd}', '\u{101fd}'),
-  ('\u{102e0}', '\u{102e0}'), ('\u{10376}', '\u{1037a}'),
-  ('\u{10a01}', '\u{10a03}'), ('\u{10a05}', '\u{10a06}'),
-  ('\u{10a0c}', '\u{10a0f}'), ('\u{10a38}', '\u{10a3a}'),
-  ('\u{10a3f}', '\u{10a3f}'), ('\u{10ae5}', '\u{10ae6}'),
-  ('\u{10d24}', '\u{10d27}'), ('\u{10f46}', '\u{10f50}'), ('𑀀', '𑀂'),
-  ('\u{11038}', '\u{11046}'), ('\u{1107f}', '𑂂'), ('𑂰', '\u{110ba}'),
-  ('\u{11100}', '\u{11102}'), ('\u{11127}', '\u{11134}'), ('𑅅', '𑅆'),
-  ('\u{11173}', '\u{11173}'), ('\u{11180}', '𑆂'), ('𑆳', '𑇀'),
-  ('\u{111c9}', '\u{111cc}'), ('𑈬', '\u{11237}'),
-  ('\u{1123e}', '\u{1123e}'), ('\u{112df}', '\u{112ea}'),
-  ('\u{11300}', '𑌃'), ('\u{1133b}', '\u{1133c}'), ('\u{1133e}', '𑍄'),
-  ('𑍇', '𑍈'), ('𑍋', '𑍍'), ('\u{11357}', '\u{11357}'),
-  ('𑍢', '𑍣'), ('\u{11366}', '\u{1136c}'), ('\u{11370}', '\u{11374}'),
-  ('𑐵', '\u{11446}'), ('\u{1145e}', '\u{1145e}'),
-  ('\u{114b0}', '\u{114c3}'), ('\u{115af}', '\u{115b5}'),
-  ('𑖸', '\u{115c0}'), ('\u{115dc}', '\u{115dd}'), ('𑘰', '\u{11640}'),
-  ('\u{116ab}', '\u{116b7}'), ('\u{1171d}', '\u{1172b}'),
-  ('𑠬', '\u{1183a}'), ('\u{119d1}', '\u{119d7}'),
-  ('\u{119da}', '\u{119e0}'), ('\u{119e4}', '\u{119e4}'),
-  ('\u{11a01}', '\u{11a0a}'), ('\u{11a33}', '𑨹'),
-  ('\u{11a3b}', '\u{11a3e}'), ('\u{11a47}', '\u{11a47}'),
-  ('\u{11a51}', '\u{11a5b}'), ('\u{11a8a}', '\u{11a99}'),
-  ('𑰯', '\u{11c36}'), ('\u{11c38}', '\u{11c3f}'),
-  ('\u{11c92}', '\u{11ca7}'), ('𑲩', '\u{11cb6}'),
-  ('\u{11d31}', '\u{11d36}'), ('\u{11d3a}', '\u{11d3a}'),
-  ('\u{11d3c}', '\u{11d3d}'), ('\u{11d3f}', '\u{11d45}'),
-  ('\u{11d47}', '\u{11d47}'), ('𑶊', '𑶎'), ('\u{11d90}', '\u{11d91}'),
-  ('𑶓', '\u{11d97}'), ('\u{11ef3}', '𑻶'), ('\u{16af0}', '\u{16af4}'),
-  ('\u{16b30}', '\u{16b36}'), ('\u{16f4f}', '\u{16f4f}'),
-  ('𖽑', '\u{16f87}'), ('\u{16f8f}', '\u{16f92}'),
-  ('\u{1bc9d}', '\u{1bc9e}'), ('\u{1d165}', '\u{1d169}'),
-  ('𝅭', '\u{1d172}'), ('\u{1d17b}', '\u{1d182}'),
-  ('\u{1d185}', '\u{1d18b}'), ('\u{1d1aa}', '\u{1d1ad}'),
-  ('\u{1d242}', '\u{1d244}'), ('\u{1da00}', '\u{1da36}'),
-  ('\u{1da3b}', '\u{1da6c}'), ('\u{1da75}', '\u{1da75}'),
-  ('\u{1da84}', '\u{1da84}'), ('\u{1da9b}', '\u{1da9f}'),
-  ('\u{1daa1}', '\u{1daaf}'), ('\u{1e000}', '\u{1e006}'),
-  ('\u{1e008}', '\u{1e018}'), ('\u{1e01b}', '\u{1e021}'),
-  ('\u{1e023}', '\u{1e024}'), ('\u{1e026}', '\u{1e02a}'),
-  ('\u{1e130}', '\u{1e136}'), ('\u{1e2ec}', '\u{1e2ef}'),
-  ('\u{1e8d0}', '\u{1e8d6}'), ('\u{1e944}', '\u{1e94a}'), ('🏻', '🏿'),
-  ('\u{e0020}', '\u{e007f}'), ('\u{e0100}', '\u{e01ef}'),
-];
-
-pub const EXTENDNUMLET: &'static [(char, char)] = &[
-  ('_', '_'), ('\u{202f}', '\u{202f}'), ('‿', '⁀'), ('⁔', '⁔'),
-  ('︳', '︴'), ('﹍', '﹏'), ('_', '_'),
-];
-
-pub const FORMAT: &'static [(char, char)] = &[
-  ('\u{ad}', '\u{ad}'), ('\u{600}', '\u{605}'), ('\u{61c}', '\u{61c}'),
-  ('\u{6dd}', '\u{6dd}'), ('\u{70f}', '\u{70f}'), ('\u{8e2}', '\u{8e2}'),
-  ('\u{180e}', '\u{180e}'), ('\u{200e}', '\u{200f}'),
-  ('\u{202a}', '\u{202e}'), ('\u{2060}', '\u{2064}'),
-  ('\u{2066}', '\u{206f}'), ('\u{feff}', '\u{feff}'),
-  ('\u{fff9}', '\u{fffb}'), ('\u{110bd}', '\u{110bd}'),
-  ('\u{110cd}', '\u{110cd}'), ('\u{13430}', '\u{13438}'),
-  ('\u{1bca0}', '\u{1bca3}'), ('\u{1d173}', '\u{1d17a}'),
-  ('\u{e0001}', '\u{e0001}'),
-];
-
-pub const HEBREW_LETTER: &'static [(char, char)] = &[
-  ('א', 'ת'), ('ׯ', 'ײ'), ('יִ', 'יִ'), ('ײַ', 'ﬨ'), ('שׁ', 'זּ'),
-  ('טּ', 'לּ'), ('מּ', 'מּ'), ('נּ', 'סּ'), ('ףּ', 'פּ'),
-  ('צּ', 'ﭏ'),
-];
-
-pub const KATAKANA: &'static [(char, char)] = &[
-  ('〱', '〵'), ('゛', '゜'), ('゠', 'ヺ'), ('ー', 'ヿ'),
-  ('ㇰ', 'ㇿ'), ('㋐', '㋾'), ('㌀', '㍗'), ('ヲ', 'ン'),
-  ('𛀀', '𛀀'), ('\u{1b164}', '\u{1b167}'),
-];
-
-pub const LF: &'static [(char, char)] = &[
-  ('\n', '\n'),
-];
-
-pub const MIDLETTER: &'static [(char, char)] = &[
-  (':', ':'), ('·', '·'), ('·', '·'), ('״', '״'), ('‧', '‧'),
-  ('︓', '︓'), ('﹕', '﹕'), (':', ':'),
-];
-
-pub const MIDNUM: &'static [(char, char)] = &[
-  (',', ','), (';', ';'), (';', ';'), ('։', '։'), ('،', '؍'),
-  ('٬', '٬'), ('߸', '߸'), ('⁄', '⁄'), ('︐', '︐'), ('︔', '︔'),
-  ('﹐', '﹐'), ('﹔', '﹔'), (',', ','), (';', ';'),
-];
-
-pub const MIDNUMLET: &'static [(char, char)] = &[
-  ('.', '.'), ('‘', '’'), ('․', '․'), ('﹒', '﹒'), (''', '''),
-  ('.', '.'),
-];
-
-pub const NEWLINE: &'static [(char, char)] = &[
-  ('\u{b}', '\u{c}'), ('\u{85}', '\u{85}'), ('\u{2028}', '\u{2029}'),
-];
-
-pub const NUMERIC: &'static [(char, char)] = &[
-  ('0', '9'), ('٠', '٩'), ('٫', '٫'), ('۰', '۹'), ('߀', '߉'),
-  ('०', '९'), ('০', '৯'), ('੦', '੯'), ('૦', '૯'),
-  ('୦', '୯'), ('௦', '௯'), ('౦', '౯'), ('೦', '೯'),
-  ('൦', '൯'), ('෦', '෯'), ('๐', '๙'), ('໐', '໙'),
-  ('༠', '༩'), ('၀', '၉'), ('႐', '႙'), ('០', '៩'),
-  ('᠐', '᠙'), ('᥆', '᥏'), ('᧐', '᧙'), ('᪀', '᪉'),
-  ('᪐', '᪙'), ('᭐', '᭙'), ('᮰', '᮹'), ('᱀', '᱉'),
-  ('᱐', '᱙'), ('꘠', '꘩'), ('꣐', '꣙'), ('꤀', '꤉'),
-  ('꧐', '꧙'), ('꧰', '꧹'), ('꩐', '꩙'), ('꯰', '꯹'),
-  ('0', '9'), ('𐒠', '𐒩'), ('𐴰', '𐴹'), ('𑁦', '𑁯'),
-  ('𑃰', '𑃹'), ('𑄶', '𑄿'), ('𑇐', '𑇙'), ('𑋰', '𑋹'),
-  ('𑑐', '𑑙'), ('𑓐', '𑓙'), ('𑙐', '𑙙'), ('𑛀', '𑛉'),
-  ('𑜰', '𑜹'), ('𑣠', '𑣩'), ('𑱐', '𑱙'), ('𑵐', '𑵙'),
-  ('𑶠', '𑶩'), ('𖩠', '𖩩'), ('𖭐', '𖭙'), ('𝟎', '𝟿'),
-  ('\u{1e140}', '\u{1e149}'), ('\u{1e2f0}', '\u{1e2f9}'), ('𞥐', '𞥙'),
-];
-
-pub const REGIONAL_INDICATOR: &'static [(char, char)] = &[
-  ('🇦', '🇿'),
-];
-
-pub const SINGLE_QUOTE: &'static [(char, char)] = &[
-  ('\'', '\''),
-];
-
-pub const WSEGSPACE: &'static [(char, char)] = &[
-  (' ', ' '), ('\u{1680}', '\u{1680}'), ('\u{2000}', '\u{2006}'),
-  ('\u{2008}', '\u{200a}'), ('\u{205f}', '\u{205f}'),
-  ('\u{3000}', '\u{3000}'),
-];
-
-pub const ZWJ: &'static [(char, char)] = &[
-  ('\u{200d}', '\u{200d}'),
-];
-
-
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-
-// Copyright 2017 Amanieu d'Antras
-//
-// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
-// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
-// http://opensource.org/licenses/MIT>, at your option. This file may not be
-// copied, modified, or distributed except according to those terms.
-
-//! Per-object thread-local storage
-//!
-//! This library provides the `ThreadLocal` type which allows a separate copy of
-//! an object to be used for each thread. This allows for per-object
-//! thread-local storage, unlike the standard library's `thread_local!` macro
-//! which only allows static thread-local storage.
-//!
-//! Per-thread objects are not destroyed when a thread exits. Instead, objects
-//! are only destroyed when the `ThreadLocal` containing them is destroyed.
-//!
-//! You can also iterate over the thread-local values of all thread in a
-//! `ThreadLocal` object using the `iter_mut` and `into_iter` methods. This can
-//! only be done if you have mutable access to the `ThreadLocal` object, which
-//! guarantees that you are the only thread currently accessing it.
-//!
-//! A `CachedThreadLocal` type is also provided which wraps a `ThreadLocal` but
-//! also uses a special fast path for the first thread that writes into it. The
-//! fast path has very low overhead (<1ns per access) while keeping the same
-//! performance as `ThreadLocal` for other threads.
-//!
-//! Note that since thread IDs are recycled when a thread exits, it is possible
-//! for one thread to retrieve the object of another thread. Since this can only
-//! occur after a thread has exited this does not lead to any race conditions.
-//!
-//! # Examples
-//!
-//! Basic usage of `ThreadLocal`:
-//!
-//! ```rust
-//! use thread_local::ThreadLocal;
-//! let tls: ThreadLocal<u32> = ThreadLocal::new();
-//! assert_eq!(tls.get(), None);
-//! assert_eq!(tls.get_or(|| Box::new(5)), &5);
-//! assert_eq!(tls.get(), Some(&5));
-//! ```
-//!
-//! Combining thread-local values into a single result:
-//!
-//! ```rust
-//! use thread_local::ThreadLocal;
-//! use std::sync::Arc;
-//! use std::cell::Cell;
-//! use std::thread;
-//!
-//! let tls = Arc::new(ThreadLocal::new());
-//!
-//! // Create a bunch of threads to do stuff
-//! for _ in 0..5 {
-//!     let tls2 = tls.clone();
-//!     thread::spawn(move || {
-//!         // Increment a counter to count some event...
-//!         let cell = tls2.get_or(|| Box::new(Cell::new(0)));
-//!         cell.set(cell.get() + 1);
-//!     }).join().unwrap();
-//! }
-//!
-//! // Once all threads are done, collect the counter values and return the
-//! // sum of all thread-local counter values.
-//! let tls = Arc::try_unwrap(tls).unwrap();
-//! let total = tls.into_iter().fold(0, |x, y| x + y.get());
-//! assert_eq!(total, 5);
-//! ```
-
-#![warn(missing_docs)]
-
-#[macro_use]
-extern crate lazy_static;
-
-mod thread_id;
-mod unreachable;
-
-use std::sync::atomic::{AtomicPtr, AtomicUsize, Ordering};
-use std::sync::Mutex;
-use std::marker::PhantomData;
-use std::cell::UnsafeCell;
-use std::fmt;
-use std::iter::Chain;
-use std::option::IntoIter as OptionIter;
-use std::panic::UnwindSafe;
-use unreachable::{UncheckedOptionExt, UncheckedResultExt};
-
-/// Thread-local variable wrapper
-///
-/// See the [module-level documentation](index.html) for more.
-pub struct ThreadLocal<T: ?Sized + Send> {
-    // Pointer to the current top-level hash table
-    table: AtomicPtr<Table<T>>,
-
-    // Lock used to guard against concurrent modifications. This is only taken
-    // while writing to the table, not when reading from it. This also guards
-    // the counter for the total number of values in the hash table.
-    lock: Mutex<usize>,
-
-    // PhantomData to indicate that we logically own T
-    marker: PhantomData<T>,
-}
-
-struct Table<T: ?Sized + Send> {
-    // Hash entries for the table
-    entries: Box<[TableEntry<T>]>,
-
-    // Number of bits used for the hash function
-    hash_bits: usize,
-
-    // Previous table, half the size of the current one
-    prev: Option<Box<Table<T>>>,
-}
-
-struct TableEntry<T: ?Sized + Send> {
-    // Current owner of this entry, or 0 if this is an empty entry
-    owner: AtomicUsize,
-
-    // The object associated with this entry. This is only ever accessed by the
-    // owner of the entry.
-    data: UnsafeCell<Option<Box<T>>>,
-}
-
-// ThreadLocal is always Sync, even if T isn't
-unsafe impl<T: ?Sized + Send> Sync for ThreadLocal<T> {}
-
-impl<T: ?Sized + Send> Default for ThreadLocal<T> {
-    fn default() -> ThreadLocal<T> {
-        ThreadLocal::new()
-    }
-}
-
-impl<T: ?Sized + Send> Drop for ThreadLocal<T> {
-    fn drop(&mut self) {
-        unsafe {
-            Box::from_raw(self.table.load(Ordering::Relaxed));
-        }
-    }
-}
-
-// Implementation of Clone for TableEntry, needed to make vec![] work
-impl<T: ?Sized + Send> Clone for TableEntry<T> {
-    fn clone(&self) -> TableEntry<T> {
-        TableEntry {
-            owner: AtomicUsize::new(0),
-            data: UnsafeCell::new(None),
-        }
-    }
-}
-
-// Hash function for the thread id
-#[cfg(target_pointer_width = "32")]
-#[inline]
-fn hash(id: usize, bits: usize) -> usize {
-    id.wrapping_mul(0x9E3779B9) >> (32 - bits)
-}
-#[cfg(target_pointer_width = "64")]
-#[inline]
-fn hash(id: usize, bits: usize) -> usize {
-    id.wrapping_mul(0x9E37_79B9_7F4A_7C15) >> (64 - bits)
-}
-
-impl<T: ?Sized + Send> ThreadLocal<T> {
-    /// Creates a new empty `ThreadLocal`.
-    pub fn new() -> ThreadLocal<T> {
-        let entry = TableEntry {
-            owner: AtomicUsize::new(0),
-            data: UnsafeCell::new(None),
-        };
-        let table = Table {
-            entries: vec![entry; 2].into_boxed_slice(),
-            hash_bits: 1,
-            prev: None,
-        };
-        ThreadLocal {
-            table: AtomicPtr::new(Box::into_raw(Box::new(table))),
-            lock: Mutex::new(0),
-            marker: PhantomData,
-        }
-    }
-
-    /// Returns the element for the current thread, if it exists.
-    pub fn get(&self) -> Option<&T> {
-        let id = thread_id::get();
-        self.get_fast(id)
-    }
-
-    /// Returns the element for the current thread, or creates it if it doesn't
-    /// exist.
-    pub fn get_or<F>(&self, create: F) -> &T
-    where
-        F: FnOnce() -> Box<T>,
-    {
-        unsafe {
-            self.get_or_try(|| Ok::<Box<T>, ()>(create()))
-                .unchecked_unwrap_ok()
-        }
-    }
-
-    /// Returns the element for the current thread, or creates it if it doesn't
-    /// exist. If `create` fails, that error is returned and no element is
-    /// added.
-    pub fn get_or_try<F, E>(&self, create: F) -> Result<&T, E>
-    where
-        F: FnOnce() -> Result<Box<T>, E>,
-    {
-        let id = thread_id::get();
-        match self.get_fast(id) {
-            Some(x) => Ok(x),
-            None => Ok(self.insert(id, try!(create()), true)),
-        }
-    }
-
-    // Simple hash table lookup function
-    fn lookup(id: usize, table: &Table<T>) -> Option<&UnsafeCell<Option<Box<T>>>> {
-        // Because we use a Mutex to prevent concurrent modifications (but not
-        // reads) of the hash table, we can avoid any memory barriers here. No
-        // elements between our hash bucket and our value can have been modified
-        // since we inserted our thread-local value into the table.
-        for entry in table.entries.iter().cycle().skip(hash(id, table.hash_bits)) {
-            let owner = entry.owner.load(Ordering::Relaxed);
-            if owner == id {
-                return Some(&entry.data);
-            }
-            if owner == 0 {
-                return None;
-            }
-        }
-        unreachable!();
-    }
-
-    // Fast path: try to find our thread in the top-level hash table
-    fn get_fast(&self, id: usize) -> Option<&T> {
-        let table = unsafe { &*self.table.load(Ordering::Relaxed) };
-        match Self::lookup(id, table) {
-            Some(x) => unsafe { Some((*x.get()).as_ref().unchecked_unwrap()) },
-            None => self.get_slow(id, table),
-        }
-    }
-
-    // Slow path: try to find our thread in the other hash tables, and then
-    // move it to the top-level hash table.
-    #[cold]
-    fn get_slow(&self, id: usize, table_top: &Table<T>) -> Option<&T> {
-        let mut current = &table_top.prev;
-        while let Some(ref table) = *current {
-            if let Some(x) = Self::lookup(id, table) {
-                let data = unsafe { (*x.get()).take().unchecked_unwrap() };
-                return Some(self.insert(id, data, false));
-            }
-            current = &table.prev;
-        }
-        None
-    }
-
-    #[cold]
-    fn insert(&self, id: usize, data: Box<T>, new: bool) -> &T {
-        // Lock the Mutex to ensure only a single thread is modify the hash
-        // table at once.
-        let mut count = self.lock.lock().unwrap();
-        if new {
-            *count += 1;
-        }
-        let table_raw = self.table.load(Ordering::Relaxed);
-        let table = unsafe { &*table_raw };
-
-        // If the current top-level hash table is more than 75% full, add a new
-        // level with 2x the capacity. Elements will be moved up to the new top
-        // level table as they are accessed.
-        let table = if *count > table.entries.len() * 3 / 4 {
-            let entry = TableEntry {
-                owner: AtomicUsize::new(0),
-                data: UnsafeCell::new(None),
-            };
-            let new_table = Box::into_raw(Box::new(Table {
-                entries: vec![entry; table.entries.len() * 2].into_boxed_slice(),
-                hash_bits: table.hash_bits + 1,
-                prev: unsafe { Some(Box::from_raw(table_raw)) },
-            }));
-            self.table.store(new_table, Ordering::Release);
-            unsafe { &*new_table }
-        } else {
-            table
-        };
-
-        // Insert the new element into the top-level hash table
-        for entry in table.entries.iter().cycle().skip(hash(id, table.hash_bits)) {
-            let owner = entry.owner.load(Ordering::Relaxed);
-            if owner == 0 {
-                unsafe {
-                    entry.owner.store(id, Ordering::Relaxed);
-                    *entry.data.get() = Some(data);
-                    return (*entry.data.get()).as_ref().unchecked_unwrap();
-                }
-            }
-            if owner == id {
-                // This can happen if create() inserted a value into this
-                // ThreadLocal between our calls to get_fast() and insert(). We
-                // just return the existing value and drop the newly-allocated
-                // Box.
-                unsafe {
-                    return (*entry.data.get()).as_ref().unchecked_unwrap();
-                }
-            }
-        }
-        unreachable!();
-    }
-
-    /// Returns a mutable iterator over the local values of all threads.
-    ///
-    /// Since this call borrows the `ThreadLocal` mutably, this operation can
-    /// be done safely---the mutable borrow statically guarantees no other
-    /// threads are currently accessing their associated values.
-    pub fn iter_mut(&mut self) -> IterMut<T> {
-        let raw = RawIter {
-            remaining: *self.lock.lock().unwrap(),
-            index: 0,
-            table: self.table.load(Ordering::Relaxed),
-        };
-        IterMut {
-            raw: raw,
-            marker: PhantomData,
-        }
-    }
-
-    /// Removes all thread-specific values from the `ThreadLocal`, effectively
-    /// reseting it to its original state.
-    ///
-    /// Since this call borrows the `ThreadLocal` mutably, this operation can
-    /// be done safely---the mutable borrow statically guarantees no other
-    /// threads are currently accessing their associated values.
-    pub fn clear(&mut self) {
-        *self = ThreadLocal::new();
-    }
-}
-
-impl<T: ?Sized + Send> IntoIterator for ThreadLocal<T> {
-    type Item = Box<T>;
-    type IntoIter = IntoIter<T>;
-
-    fn into_iter(self) -> IntoIter<T> {
-        let raw = RawIter {
-            remaining: *self.lock.lock().unwrap(),
-            index: 0,
-            table: self.table.load(Ordering::Relaxed),
-        };
-        IntoIter {
-            raw: raw,
-            _thread_local: self,
-        }
-    }
-}
-
-impl<'a, T: ?Sized + Send + 'a> IntoIterator for &'a mut ThreadLocal<T> {
-    type Item = &'a mut Box<T>;
-    type IntoIter = IterMut<'a, T>;
-
-    fn into_iter(self) -> IterMut<'a, T> {
-        self.iter_mut()
-    }
-}
-
-impl<T: Send + Default> ThreadLocal<T> {
-    /// Returns the element for the current thread, or creates a default one if
-    /// it doesn't exist.
-    pub fn get_default(&self) -> &T {
-        self.get_or(|| Box::new(T::default()))
-    }
-}
-
-impl<T: ?Sized + Send + fmt::Debug> fmt::Debug for ThreadLocal<T> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "ThreadLocal {{ local_data: {:?} }}", self.get())
-    }
-}
-
-impl<T: ?Sized + Send + UnwindSafe> UnwindSafe for ThreadLocal<T> {}
-
-struct RawIter<T: ?Sized + Send> {
-    remaining: usize,
-    index: usize,
-    table: *const Table<T>,
-}
-
-impl<T: ?Sized + Send> RawIter<T> {
-    fn next(&mut self) -> Option<*mut Option<Box<T>>> {
-        if self.remaining == 0 {
-            return None;
-        }
-
-        loop {
-            let entries = unsafe { &(*self.table).entries[..] };
-            while self.index < entries.len() {
-                let val = entries[self.index].data.get();
-                self.index += 1;
-                if unsafe { (*val).is_some() } {
-                    self.remaining -= 1;
-                    return Some(val);
-                }
-            }
-            self.index = 0;
-            self.table = unsafe { &**(*self.table).prev.as_ref().unchecked_unwrap() };
-        }
-    }
-}
-
-/// Mutable iterator over the contents of a `ThreadLocal`.
-pub struct IterMut<'a, T: ?Sized + Send + 'a> {
-    raw: RawIter<T>,
-    marker: PhantomData<&'a mut ThreadLocal<T>>,
-}
-
-impl<'a, T: ?Sized + Send + 'a> Iterator for IterMut<'a, T> {
-    type Item = &'a mut Box<T>;
-
-    fn next(&mut self) -> Option<&'a mut Box<T>> {
-        self.raw.next().map(|x| unsafe {
-            (*x).as_mut().unchecked_unwrap()
-        })
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (self.raw.remaining, Some(self.raw.remaining))
-    }
-}
-
-impl<'a, T: ?Sized + Send + 'a> ExactSizeIterator for IterMut<'a, T> {}
-
-/// An iterator that moves out of a `ThreadLocal`.
-pub struct IntoIter<T: ?Sized + Send> {
-    raw: RawIter<T>,
-    _thread_local: ThreadLocal<T>,
-}
-
-impl<T: ?Sized + Send> Iterator for IntoIter<T> {
-    type Item = Box<T>;
-
-    fn next(&mut self) -> Option<Box<T>> {
-        self.raw.next().map(
-            |x| unsafe { (*x).take().unchecked_unwrap() },
-        )
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        (self.raw.remaining, Some(self.raw.remaining))
-    }
-}
-
-impl<T: ?Sized + Send> ExactSizeIterator for IntoIter<T> {}
-
-/// Wrapper around `ThreadLocal` which adds a fast path for a single thread.
-///
-/// This has the same API as `ThreadLocal`, but will register the first thread
-/// that sets a value as its owner. All accesses by the owner will go through
-/// a special fast path which is much faster than the normal `ThreadLocal` path.
-pub struct CachedThreadLocal<T: ?Sized + Send> {
-    owner: AtomicUsize,
-    local: UnsafeCell<Option<Box<T>>>,
-    global: ThreadLocal<T>,
-}
-
-// CachedThreadLocal is always Sync, even if T isn't
-unsafe impl<T: ?Sized + Send> Sync for CachedThreadLocal<T> {}
-
-impl<T: ?Sized + Send> Default for CachedThreadLocal<T> {
-    fn default() -> CachedThreadLocal<T> {
-        CachedThreadLocal::new()
-    }
-}
-
-impl<T: ?Sized + Send> CachedThreadLocal<T> {
-    /// Creates a new empty `CachedThreadLocal`.
-    pub fn new() -> CachedThreadLocal<T> {
-        CachedThreadLocal {
-            owner: AtomicUsize::new(0),
-            local: UnsafeCell::new(None),
-            global: ThreadLocal::new(),
-        }
-    }
-
-    /// Returns the element for the current thread, if it exists.
-    pub fn get(&self) -> Option<&T> {
-        let id = thread_id::get();
-        let owner = self.owner.load(Ordering::Relaxed);
-        if owner == id {
-            return unsafe { Some((*self.local.get()).as_ref().unchecked_unwrap()) };
-        }
-        if owner == 0 {
-            return None;
-        }
-        self.global.get_fast(id)
-    }
-
-    /// Returns the element for the current thread, or creates it if it doesn't
-    /// exist.
-    #[inline(always)]
-    pub fn get_or<F>(&self, create: F) -> &T
-    where
-        F: FnOnce() -> Box<T>,
-    {
-        unsafe {
-            self.get_or_try(|| Ok::<Box<T>, ()>(create()))
-                .unchecked_unwrap_ok()
-        }
-    }
-
-    /// Returns the element for the current thread, or creates it if it doesn't
-    /// exist. If `create` fails, that error is returned and no element is
-    /// added.
-    pub fn get_or_try<F, E>(&self, create: F) -> Result<&T, E>
-    where
-        F: FnOnce() -> Result<Box<T>, E>,
-    {
-        let id = thread_id::get();
-        let owner = self.owner.load(Ordering::Relaxed);
-        if owner == id {
-            return Ok(unsafe { (*self.local.get()).as_ref().unchecked_unwrap() });
-        }
-        self.get_or_try_slow(id, owner, create)
-    }
-
-    #[cold]
-    #[inline(never)]
-    fn get_or_try_slow<F, E>(&self, id: usize, owner: usize, create: F) -> Result<&T, E>
-    where
-        F: FnOnce() -> Result<Box<T>, E>,
-    {
-        if owner == 0 && self.owner.compare_and_swap(0, id, Ordering::Relaxed) == 0 {
-            unsafe {
-                (*self.local.get()) = Some(try!(create()));
-                return Ok((*self.local.get()).as_ref().unchecked_unwrap());
-            }
-        }
-        match self.global.get_fast(id) {
-            Some(x) => Ok(x),
-            None => Ok(self.global.insert(id, try!(create()), true)),
-        }
-    }
-
-    /// Returns a mutable iterator over the local values of all threads.
-    ///
-    /// Since this call borrows the `ThreadLocal` mutably, this operation can
-    /// be done safely---the mutable borrow statically guarantees no other
-    /// threads are currently accessing their associated values.
-    pub fn iter_mut(&mut self) -> CachedIterMut<T> {
-        unsafe {
-            (*self.local.get()).as_mut().into_iter().chain(
-                self.global
-                    .iter_mut(),
-            )
-        }
-    }
-
-    /// Removes all thread-specific values from the `ThreadLocal`, effectively
-    /// reseting it to its original state.
-    ///
-    /// Since this call borrows the `ThreadLocal` mutably, this operation can
-    /// be done safely---the mutable borrow statically guarantees no other
-    /// threads are currently accessing their associated values.
-    pub fn clear(&mut self) {
-        *self = CachedThreadLocal::new();
-    }
-}
-
-impl<T: ?Sized + Send> IntoIterator for CachedThreadLocal<T> {
-    type Item = Box<T>;
-    type IntoIter = CachedIntoIter<T>;
-
-    fn into_iter(self) -> CachedIntoIter<T> {
-        unsafe {
-            (*self.local.get()).take().into_iter().chain(
-                self.global
-                    .into_iter(),
-            )
-        }
-    }
-}
-
-impl<'a, T: ?Sized + Send + 'a> IntoIterator for &'a mut CachedThreadLocal<T> {
-    type Item = &'a mut Box<T>;
-    type IntoIter = CachedIterMut<'a, T>;
-
-    fn into_iter(self) -> CachedIterMut<'a, T> {
-        self.iter_mut()
-    }
-}
-
-impl<T: Send + Default> CachedThreadLocal<T> {
-    /// Returns the element for the current thread, or creates a default one if
-    /// it doesn't exist.
-    pub fn get_default(&self) -> &T {
-        self.get_or(|| Box::new(T::default()))
-    }
-}
-
-impl<T: ?Sized + Send + fmt::Debug> fmt::Debug for CachedThreadLocal<T> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "ThreadLocal {{ local_data: {:?} }}", self.get())
-    }
-}
-
-/// Mutable iterator over the contents of a `CachedThreadLocal`.
-pub type CachedIterMut<'a, T> = Chain<OptionIter<&'a mut Box<T>>, IterMut<'a, T>>;
-
-/// An iterator that moves out of a `CachedThreadLocal`.
-pub type CachedIntoIter<T> = Chain<OptionIter<Box<T>>, IntoIter<T>>;
-
-impl<T: ?Sized + Send + UnwindSafe> UnwindSafe for CachedThreadLocal<T> {}
-
-#[cfg(test)]
-mod tests {
-    use std::cell::RefCell;
-    use std::sync::Arc;
-    use std::sync::atomic::AtomicUsize;
-    use std::sync::atomic::Ordering::Relaxed;
-    use std::thread;
-    use super::{ThreadLocal, CachedThreadLocal};
-
-    fn make_create() -> Arc<Fn() -> Box<usize> + Send + Sync> {
-        let count = AtomicUsize::new(0);
-        Arc::new(move || Box::new(count.fetch_add(1, Relaxed)))
-    }
-
-    #[test]
-    fn same_thread() {
-        let create = make_create();
-        let mut tls = ThreadLocal::new();
-        assert_eq!(None, tls.get());
-        assert_eq!("ThreadLocal { local_data: None }", format!("{:?}", &tls));
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!("ThreadLocal { local_data: Some(0) }", format!("{:?}", &tls));
-        tls.clear();
-        assert_eq!(None, tls.get());
-    }
-
-    #[test]
-    fn same_thread_cached() {
-        let create = make_create();
-        let mut tls = CachedThreadLocal::new();
-        assert_eq!(None, tls.get());
-        assert_eq!("ThreadLocal { local_data: None }", format!("{:?}", &tls));
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!("ThreadLocal { local_data: Some(0) }", format!("{:?}", &tls));
-        tls.clear();
-        assert_eq!(None, tls.get());
-    }
-
-    #[test]
-    fn different_thread() {
-        let create = make_create();
-        let tls = Arc::new(ThreadLocal::new());
-        assert_eq!(None, tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-
-        let tls2 = tls.clone();
-        let create2 = create.clone();
-        thread::spawn(move || {
-            assert_eq!(None, tls2.get());
-            assert_eq!(1, *tls2.get_or(|| create2()));
-            assert_eq!(Some(&1), tls2.get());
-        }).join()
-            .unwrap();
-
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-    }
-
-    #[test]
-    fn different_thread_cached() {
-        let create = make_create();
-        let tls = Arc::new(CachedThreadLocal::new());
-        assert_eq!(None, tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-        assert_eq!(Some(&0), tls.get());
-
-        let tls2 = tls.clone();
-        let create2 = create.clone();
-        thread::spawn(move || {
-            assert_eq!(None, tls2.get());
-            assert_eq!(1, *tls2.get_or(|| create2()));
-            assert_eq!(Some(&1), tls2.get());
-        }).join()
-            .unwrap();
-
-        assert_eq!(Some(&0), tls.get());
-        assert_eq!(0, *tls.get_or(|| create()));
-    }
-
-    #[test]
-    fn iter() {
-        let tls = Arc::new(ThreadLocal::new());
-        tls.get_or(|| Box::new(1));
-
-        let tls2 = tls.clone();
-        thread::spawn(move || {
-            tls2.get_or(|| Box::new(2));
-            let tls3 = tls2.clone();
-            thread::spawn(move || { tls3.get_or(|| Box::new(3)); })
-                .join()
-                .unwrap();
-        }).join()
-            .unwrap();
-
-        let mut tls = Arc::try_unwrap(tls).unwrap();
-        let mut v = tls.iter_mut().map(|x| **x).collect::<Vec<i32>>();
-        v.sort();
-        assert_eq!(vec![1, 2, 3], v);
-        let mut v = tls.into_iter().map(|x| *x).collect::<Vec<i32>>();
-        v.sort();
-        assert_eq!(vec![1, 2, 3], v);
-    }
-
-    #[test]
-    fn iter_cached() {
-        let tls = Arc::new(CachedThreadLocal::new());
-        tls.get_or(|| Box::new(1));
-
-        let tls2 = tls.clone();
-        thread::spawn(move || {
-            tls2.get_or(|| Box::new(2));
-            let tls3 = tls2.clone();
-            thread::spawn(move || { tls3.get_or(|| Box::new(3)); })
-                .join()
-                .unwrap();
-        }).join()
-            .unwrap();
-
-        let mut tls = Arc::try_unwrap(tls).unwrap();
-        let mut v = tls.iter_mut().map(|x| **x).collect::<Vec<i32>>();
-        v.sort();
-        assert_eq!(vec![1, 2, 3], v);
-        let mut v = tls.into_iter().map(|x| *x).collect::<Vec<i32>>();
-        v.sort();
-        assert_eq!(vec![1, 2, 3], v);
-    }
-
-    #[test]
-    fn is_sync() {
-        fn foo<T: Sync>() {}
-        foo::<ThreadLocal<String>>();
-        foo::<ThreadLocal<RefCell<String>>>();
-        foo::<CachedThreadLocal<String>>();
-        foo::<CachedThreadLocal<RefCell<String>>>();
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/thread_local/thread_id.rs.html b/target/doc/src/thread_local/thread_id.rs.html deleted file mode 100644 index 1330154..0000000 --- a/target/doc/src/thread_local/thread_id.rs.html +++ /dev/null @@ -1,125 +0,0 @@ -thread_id.rs.html -- source
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-// Copyright 2017 Amanieu d'Antras
-//
-// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
-// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
-// http://opensource.org/licenses/MIT>, at your option. This file may not be
-// copied, modified, or distributed except according to those terms.
-
-use std::collections::BinaryHeap;
-use std::sync::Mutex;
-use std::usize;
-
-// Thread ID manager which allocates thread IDs. It attempts to aggressively
-// reuse thread IDs where possible to avoid cases where a ThreadLocal grows
-// indefinitely when it is used by many short-lived threads.
-struct ThreadIdManager {
-    limit: usize,
-    free_list: BinaryHeap<usize>,
-}
-impl ThreadIdManager {
-    fn new() -> ThreadIdManager {
-        ThreadIdManager {
-            limit: usize::MAX,
-            free_list: BinaryHeap::new(),
-        }
-    }
-    fn alloc(&mut self) -> usize {
-        if let Some(id) = self.free_list.pop() {
-            id
-        } else {
-            let id = self.limit;
-            self.limit = self.limit.checked_sub(1).expect("Ran out of thread IDs");
-            id
-        }
-    }
-    fn free(&mut self, id: usize) {
-        self.free_list.push(id);
-    }
-}
-lazy_static! {
-    static ref THREAD_ID_MANAGER: Mutex<ThreadIdManager> = Mutex::new(ThreadIdManager::new());
-}
-
-// Non-zero integer which is unique to the current thread while it is running.
-// A thread ID may be reused after a thread exits.
-struct ThreadId(usize);
-impl ThreadId {
-    fn new() -> ThreadId {
-        ThreadId(THREAD_ID_MANAGER.lock().unwrap().alloc())
-    }
-}
-impl Drop for ThreadId {
-    fn drop(&mut self) {
-        THREAD_ID_MANAGER.lock().unwrap().free(self.0);
-    }
-}
-thread_local!(static THREAD_ID: ThreadId = ThreadId::new());
-
-/// Returns a non-zero ID for the current thread
-pub fn get() -> usize {
-    THREAD_ID.with(|x| x.0)
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/thread_local/unreachable.rs.html b/target/doc/src/thread_local/unreachable.rs.html deleted file mode 100644 index 4ba4c42..0000000 --- a/target/doc/src/thread_local/unreachable.rs.html +++ /dev/null @@ -1,150 +0,0 @@ -unreachable.rs.html -- source
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-// Copyright 2017 Amanieu d'Antras
-//
-// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
-// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
-// http://opensource.org/licenses/MIT>, at your option. This file may not be
-// copied, modified, or distributed except according to those terms.
-
-//! # unreachable
-//! inlined from https://github.com/reem/rust-unreachable/
-//!
-//! An unreachable code optimization hint in stable rust, and some useful
-//! extension traits for `Option` and `Result`.
-//!
-
-/// Hint to the optimizer that any code path which calls this function is
-/// statically unreachable and can be removed.
-///
-/// Calling this function in reachable code invokes undefined behavior. Be
-/// very, very sure this is what you want; often, a simple `panic!` is more
-/// suitable.
-#[inline]
-pub unsafe fn unreachable() -> ! {
-    /// The empty type for cases which can't occur.
-    enum Void { }
-    let x: &Void = ::std::mem::transmute(1usize);
-    match *x {}
-}
-
-/// An extension trait for `Option<T>` providing unchecked unwrapping methods.
-pub trait UncheckedOptionExt<T> {
-    /// Get the value out of this Option without checking for None.
-    unsafe fn unchecked_unwrap(self) -> T;
-
-    /// Assert that this Option is a None to the optimizer.
-    unsafe fn unchecked_unwrap_none(self);
-}
-
-/// An extension trait for `Result<T, E>` providing unchecked unwrapping methods.
-pub trait UncheckedResultExt<T, E> {
-    /// Get the value out of this Result without checking for Err.
-    unsafe fn unchecked_unwrap_ok(self) -> T;
-
-    /// Get the error out of this Result without checking for Ok.
-    unsafe fn unchecked_unwrap_err(self) -> E;
-}
-
-impl<T> UncheckedOptionExt<T> for Option<T> {
-    unsafe fn unchecked_unwrap(self) -> T {
-        match self {
-            Some(x) => x,
-            None => unreachable()
-        }
-    }
-
-    unsafe fn unchecked_unwrap_none(self) {
-        if self.is_some() { unreachable() }
-    }
-}
-
-impl<T, E> UncheckedResultExt<T, E> for Result<T, E> {
-    unsafe fn unchecked_unwrap_ok(self) -> T {
-        match self {
-            Ok(x) => x,
-            Err(_) => unreachable()
-        }
-    }
-
-    unsafe fn unchecked_unwrap_err(self) -> E {
-        match self {
-            Ok(_) => unreachable(),
-            Err(e) => e
-        }
-    }
-}
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/hangul.rs.html b/target/doc/src/ucd_util/hangul.rs.html deleted file mode 100644 index 686ce57..0000000 --- a/target/doc/src/ucd_util/hangul.rs.html +++ /dev/null @@ -1,213 +0,0 @@ -hangul.rs.html -- source
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-use unicode_tables::jamo_short_name::JAMO_SHORT_NAME;
-
-// This implementation should correspond to the algorithms described in
-// Unicode 3.12.
-
-/// A set of ranges that corresponds to the set of all Hangul syllable
-/// codepoints.
-///
-/// These ranges are defined in Unicode 4.8 Table 4-13.
-pub const RANGE_HANGUL_SYLLABLE: &'static [(u32, u32)] = &[
-    (0xAC00, 0xD7A3),
-];
-
-const S_BASE: u32 = 0xAC00;
-const L_BASE: u32 = 0x1100;
-const V_BASE: u32 = 0x1161;
-const T_BASE: u32 = 0x11A7;
-const T_COUNT: u32 = 28;
-const N_COUNT: u32 = 588;
-
-/// Return the character name of the given precomposed Hangul codepoint.
-///
-/// If the given codepoint does not correspond to a precomposed Hangul
-/// codepoint in the inclusive range `AC00..D7A3`, then this returns `None`.
-///
-/// This implements the algorithms described in Unicode 3.12 and Unicode 4.8.
-pub fn hangul_name(cp: u32) -> Option<String> {
-    let mut name = "HANGUL SYLLABLE ".to_string();
-    let (lpart, vpart, tpart) = match hangul_full_canonical_decomposition(cp) {
-        None => return None,
-        Some(triple) => triple,
-    };
-
-    name.push_str(jamo_short_name(lpart));
-    name.push_str(jamo_short_name(vpart));
-    name.push_str(tpart.map_or("", jamo_short_name));
-    Some(name)
-}
-
-/// Return the full canonical decomposition of the given precomposed Hangul
-/// codepoint.
-///
-/// If the decomposition does not have any trailing consonant, then the third
-/// part of the tuple returned is `None`.
-///
-/// If the given codepoint does not correspond to a precomposed Hangul
-/// codepoint in the inclusive range `AC00..D7A3`, then this returns `None`.
-///
-/// This implements the algorithms described in Unicode 3.12 and Unicode 4.8.
-pub fn hangul_full_canonical_decomposition(
-    cp: u32,
-) -> Option<(u32, u32, Option<u32>)> {
-    if !(0xAC00 <= cp && cp <= 0xD7A3) {
-        return None;
-    }
-
-    let s_index = cp - S_BASE;
-    let l_index = s_index / N_COUNT;
-    let v_index = (s_index % N_COUNT) / T_COUNT;
-    let t_index = s_index % T_COUNT;
-
-    let l_part = L_BASE + l_index;
-    let v_part = V_BASE + v_index;
-    let t_part =
-        if t_index == 0 {
-            None
-        } else {
-            Some(T_BASE + t_index)
-        };
-    Some((l_part, v_part, t_part))
-}
-
-fn jamo_short_name(cp: u32) -> &'static str {
-    let i = JAMO_SHORT_NAME.binary_search_by_key(&cp, |p| p.0).unwrap();
-    JAMO_SHORT_NAME[i].1
-}
-
-#[cfg(test)]
-mod tests {
-    use super::{hangul_name, hangul_full_canonical_decomposition};
-
-    #[test]
-    fn canon_decomp() {
-        assert_eq!(
-            hangul_full_canonical_decomposition(0xD4DB),
-            Some((0x1111, 0x1171, Some(0x11B6))));
-    }
-
-    #[test]
-    fn name() {
-        assert_eq!(hangul_name(0xD4DB).unwrap(), "HANGUL SYLLABLE PWILH");
-    }
-
-    #[test]
-    fn all() {
-        for cp in 0xAC00..(0xD7A3 + 1) {
-            hangul_name(cp).unwrap();
-        }
-    }
-
-    #[test]
-    fn invalid() {
-        assert!(hangul_name(0).is_none());
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/ideograph.rs.html b/target/doc/src/ucd_util/ideograph.rs.html deleted file mode 100644 index 4811fb8..0000000 --- a/target/doc/src/ucd_util/ideograph.rs.html +++ /dev/null @@ -1,169 +0,0 @@ -ideograph.rs.html -- source
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-/// A set of ranges that corresponds to the set of all ideograph codepoints.
-///
-/// These ranges are defined in Unicode 4.8 Table 4-13.
-pub const RANGE_IDEOGRAPH: &'static [(u32, u32)] = &[
-    (0x3400, 0x4DB5),
-    (0x4E00, 0x9FD5),
-    (0x4E00, 0x9FD5),
-    (0x20000, 0x2A6D6),
-    (0x2A700, 0x2B734),
-    (0x2B740, 0x2B81D),
-    (0x2B820, 0x2CEA1),
-    (0x17000, 0x187EC),
-    (0xF900, 0xFA6D),
-    (0xFA70, 0xFAD9),
-    (0x2F800, 0x2FA1D),
-];
-
-/// Return the character name of the given ideograph codepoint.
-///
-/// This operation is only defined on ideographic codepoints. This includes
-/// precisely the following inclusive ranges:
-///
-/// * `3400..4DB5`
-/// * `4E00..9FD5`
-/// * `20000..2A6D6`
-/// * `2A700..2B734`
-/// * `2B740..2B81D`
-/// * `2B820..2CEA1`
-/// * `17000..187EC`
-/// * `F900..FA6D`
-/// * `FA70..FAD9`
-/// * `2F800..2FA1D`
-///
-/// If the given codepoint is not in any of the above ranges, then `None` is
-/// returned.
-///
-/// This implements the algorithm described in Unicode 4.8.
-pub fn ideograph_name(cp: u32) -> Option<String> {
-    // This match should be in sync with the `RANGE_IDEOGRAPH` constant.
-    match cp {
-        0x3400...0x4DB5
-        | 0x4E00...0x9FD5
-        | 0x20000...0x2A6D6
-        | 0x2A700...0x2B734
-        | 0x2B740...0x2B81D
-        | 0x2B820...0x2CEA1 => {
-            Some(format!("CJK UNIFIED IDEOGRAPH-{:04X}", cp))
-        }
-        0x17000...0x187EC => {
-            Some(format!("TANGUT IDEOGRAPH-{:04X}", cp))
-        }
-        0xF900...0xFA6D | 0xFA70...0xFAD9 | 0x2F800...0x2FA1D => {
-            Some(format!("CJK COMPATIBILITY IDEOGRAPH-{:04X}", cp))
-        }
-        _ => None,
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::ideograph_name;
-
-    #[test]
-    fn name() {
-        assert_eq!(
-            ideograph_name(0x4E00).unwrap(),
-            "CJK UNIFIED IDEOGRAPH-4E00");
-        assert_eq!(
-            ideograph_name(0x9FD5).unwrap(),
-            "CJK UNIFIED IDEOGRAPH-9FD5");
-        assert_eq!(
-            ideograph_name(0x17000).unwrap(),
-            "TANGUT IDEOGRAPH-17000");
-        assert_eq!(
-            ideograph_name(0xF900).unwrap(),
-            "CJK COMPATIBILITY IDEOGRAPH-F900");
-    }
-
-    #[test]
-    fn invalid() {
-        assert!(ideograph_name(0).is_none());
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/lib.rs.html b/target/doc/src/ucd_util/lib.rs.html deleted file mode 100644 index 326edf0..0000000 --- a/target/doc/src/ucd_util/lib.rs.html +++ /dev/null @@ -1,63 +0,0 @@ -lib.rs.html -- source
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-/*!
-The `ucd-util` crate contains a smattering of utility functions that implement
-various algorithms specified by Unicode. There is no specific goal for
-exhaustiveness. Instead, implementations should be added on an as-needed basis.
-
-A *current* design constraint of this crate is that it should not bring in any
-large Unicode tables. For example, to use the various property name and value
-canonicalization functions, you'll need to supply your own table, which can
-be generated using `ucd-generate`.
-*/
-
-#![deny(missing_docs)]
-#![allow(unknown_lints)]
-#![allow(ellipsis_inclusive_range_patterns)]
-
-mod hangul;
-mod ideograph;
-mod name;
-mod property;
-mod unicode_tables;
-
-pub use hangul::{
-    RANGE_HANGUL_SYLLABLE, hangul_name, hangul_full_canonical_decomposition,
-};
-pub use ideograph::{RANGE_IDEOGRAPH, ideograph_name};
-pub use name::{character_name_normalize, symbolic_name_normalize};
-pub use property::{
-    PropertyTable, PropertyValueTable, PropertyValues,
-    canonical_property_name, property_values, canonical_property_value,
-};
-
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/name.rs.html b/target/doc/src/ucd_util/name.rs.html deleted file mode 100644 index 64cb42e..0000000 --- a/target/doc/src/ucd_util/name.rs.html +++ /dev/null @@ -1,411 +0,0 @@ -name.rs.html -- source
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-
-/// Normalize the given character name in place according to UAX44-LM2.
-///
-/// See: http://unicode.org/reports/tr44/#UAX44-LM2
-pub fn character_name_normalize(string: &mut String) {
-    let bytes = unsafe {
-        // SAFETY: `character_name_normalize_bytes` guarantees that
-        // `bytes[..len]` is valid UTF-8.
-        string.as_mut_vec()
-    };
-    let len = character_name_normalize_bytes(bytes).len();
-    bytes.truncate(len);
-}
-
-/// Normalize the given character name in place according to UAX44-LM2.
-///
-/// The slice returned is guaranteed to be valid UTF-8 for all possible values
-/// of `slice`.
-///
-/// See: http://unicode.org/reports/tr44/#UAX44-LM2
-fn character_name_normalize_bytes(slice: &mut [u8]) -> &mut [u8] {
-    // According to Unicode 4.8, character names consist only of Latin
-    // capital letters A to Z, ASCII digits, ASCII space or ASCII hypen.
-    // Therefore, we can do very simplistic case folding and operate on the
-    // raw bytes, since everything is ASCII. Note that we don't actually know
-    // whether `slice` is all ASCII or not, so we drop all non-ASCII bytes.
-    let mut next_write = 0;
-    let mut prev_letter = false;
-    // let mut prev_space = true;
-    for i in 0..slice.len() {
-        // SAFETY ARGUMENT: To guarantee that the resulting slice is valid
-        // UTF-8, we ensure that the slice contains only ASCII bytes. In
-        // particular, we drop every non-ASCII byte from the normalized string.
-        let b = slice[i];
-        if b == b' ' {
-            // Drop spaces.
-        } else if b == b'_' {
-            // Drop the underscore.
-        } else if b == b'-' {
-            let medial = prev_letter
-                && slice.get(i+1).map_or(false, |b| b.is_ascii_alphabetic());
-            let mut keep_hyphen = !medial;
-            // We want to keep the hypen only if it isn't medial. However,
-            // there is one exception. We need to keep the hypen in the
-            // character (U+1180) named `HANGUL JUNGSEONG O-E`. So we check for
-            // that here.
-            let next_e = slice
-                .get(i+1)
-                .map_or(false, |&b| b == b'E' || b == b'e');
-            // More characters after the final E are fine, as long as they are
-            // underscores and spaces.
-            let rest_empty = i+2 >= slice.len()
-                || slice[i+2..].iter().all(|&b| b == b' ' || b == b'_');
-            if !keep_hyphen && next_e && rest_empty {
-                keep_hyphen = slice[..next_write] == b"hanguljungseongo"[..];
-            }
-            if keep_hyphen {
-                slice[next_write] = b;
-                next_write += 1;
-            }
-        } else if b'A' <= b && b <= b'Z' {
-            slice[next_write] = b + (b'a' - b'A');
-            next_write += 1;
-        } else if b <= 0x7F {
-            slice[next_write] = b;
-            next_write += 1;
-        }
-        // prev_space = false;
-        prev_letter = b.is_ascii_alphabetic();
-    }
-    &mut slice[..next_write]
-}
-
-/// Normalize the given symbolic name in place according to UAX44-LM3.
-///
-/// A "symbolic name" typically corresponds to property names and property
-/// value aliases. Note, though, that it should not be applied to property
-/// string values.
-///
-/// See: http://unicode.org/reports/tr44/#UAX44-LM2
-pub fn symbolic_name_normalize(string: &mut String) {
-    let bytes = unsafe {
-        // SAFETY: `symbolic_name_normalize_bytes` guarantees that
-        // `bytes[..len]` is valid UTF-8.
-        string.as_mut_vec()
-    };
-    let len = symbolic_name_normalize_bytes(bytes).len();
-    bytes.truncate(len);
-}
-
-/// Normalize the given symbolic name in place according to UAX44-LM3.
-///
-/// A "symbolic name" typically corresponds to property names and property
-/// value aliases. Note, though, that it should not be applied to property
-/// string values.
-///
-/// The slice returned is guaranteed to be valid UTF-8 for all possible values
-/// of `slice`.
-///
-/// See: http://unicode.org/reports/tr44/#UAX44-LM3
-fn symbolic_name_normalize_bytes(slice: &mut [u8]) -> &mut [u8] {
-    // I couldn't find a place in the standard that specified that property
-    // names/aliases had a particular structure (unlike character names), but
-    // we assume that it's ASCII only and drop anything that isn't ASCII.
-    let mut start = 0;
-    let mut starts_with_is = false;
-    if slice.len() >= 2 {
-        // Ignore any "is" prefix.
-        starts_with_is =
-            slice[0..2] == b"is"[..]
-            || slice[0..2] == b"IS"[..]
-            || slice[0..2] == b"iS"[..]
-            || slice[0..2] == b"Is"[..];
-        if starts_with_is {
-            start = 2;
-        }
-    }
-    let mut next_write = 0;
-    for i in start..slice.len() {
-        // SAFETY ARGUMENT: To guarantee that the resulting slice is valid
-        // UTF-8, we ensure that the slice contains only ASCII bytes. In
-        // particular, we drop every non-ASCII byte from the normalized string.
-        let b = slice[i];
-        if b == b' ' || b == b'_' || b == b'-' {
-            continue;
-        } else if b'A' <= b && b <= b'Z' {
-            slice[next_write] = b + (b'a' - b'A');
-            next_write += 1;
-        } else if b <= 0x7F {
-            slice[next_write] = b;
-            next_write += 1;
-        }
-    }
-    // Special case: ISO_Comment has a 'isc' abbreviation. Since we generally
-    // ignore 'is' prefixes, the 'isc' abbreviation gets caught in the cross
-    // fire and ends up creating an alias for 'c' to 'ISO_Comment', but it
-    // is actually an alias for the 'Other' general category.
-    if starts_with_is && next_write == 1 && slice[0] == b'c' {
-        slice[0] = b'i';
-        slice[1] = b's';
-        slice[2] = b'c';
-        next_write = 3;
-    }
-    &mut slice[..next_write]
-}
-
-#[cfg(test)]
-mod tests {
-    use super::{
-        character_name_normalize, character_name_normalize_bytes,
-        symbolic_name_normalize, symbolic_name_normalize_bytes,
-    };
-
-    fn char_norm(s: &str) -> String {
-        let mut s = s.to_string();
-        character_name_normalize(&mut s);
-        s
-    }
-
-    fn sym_norm(s: &str) -> String {
-        let mut s = s.to_string();
-        symbolic_name_normalize(&mut s);
-        s
-    }
-
-    #[test]
-    fn char_normalize() {
-        assert_eq!(char_norm("HANGUL JUNGSEONG O-E"), "hanguljungseongo-e");
-        assert_eq!(char_norm("HANGUL JUNGSEONG O-E _"), "hanguljungseongo-e");
-        assert_eq!(char_norm("zero-width space"), "zerowidthspace");
-        assert_eq!(char_norm("zerowidthspace"), "zerowidthspace");
-        assert_eq!(char_norm("ZERO WIDTH SPACE"), "zerowidthspace");
-        assert_eq!(char_norm("TIBETAN MARK TSA -PHRU"), "tibetanmarktsa-phru");
-        assert_eq!(char_norm("tibetan_letter_-a"), "tibetanletter-a");
-    }
-
-    #[test]
-    fn sym_normalize() {
-        assert_eq!(sym_norm("Line_Break"), "linebreak");
-        assert_eq!(sym_norm("Line-break"), "linebreak");
-        assert_eq!(sym_norm("linebreak"), "linebreak");
-        assert_eq!(sym_norm("BA"), "ba");
-        assert_eq!(sym_norm("ba"), "ba");
-        assert_eq!(sym_norm("Greek"), "greek");
-        assert_eq!(sym_norm("isGreek"), "greek");
-        assert_eq!(sym_norm("IS_Greek"), "greek");
-        assert_eq!(sym_norm("isc"), "isc");
-        assert_eq!(sym_norm("is c"), "isc");
-        assert_eq!(sym_norm("is_c"), "isc");
-    }
-
-    #[test]
-    fn valid_utf8_character() {
-        let mut x = b"abc\xFFxyz".to_vec();
-        let y = character_name_normalize_bytes(&mut x);
-        assert_eq!(y, b"abcxyz");
-    }
-
-    #[test]
-    fn valid_utf8_symbolic() {
-        let mut x = b"abc\xFFxyz".to_vec();
-        let y = symbolic_name_normalize_bytes(&mut x);
-        assert_eq!(y, b"abcxyz");
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/property.rs.html b/target/doc/src/ucd_util/property.rs.html deleted file mode 100644 index f60094c..0000000 --- a/target/doc/src/ucd_util/property.rs.html +++ /dev/null @@ -1,251 +0,0 @@ -property.rs.html -- source
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-
-/// The type of a property name table.
-///
-/// A property name table is a sequence of sorted tuples, where the first
-/// value in each tuple is a normalized property name and the second value of
-/// each tuple is the corresponding canonical property name.
-pub type PropertyTable = &'static [(&'static str, &'static str)];
-
-/// Find the canonical property name for the given normalized property name.
-///
-/// If no such property exists, then `None` is returned.
-///
-/// The normalized property name must have been normalized according to
-/// UAX44 LM3, which can be done using `symbolic_name_normalize`.
-pub fn canonical_property_name(
-    property_table: PropertyTable,
-    normalized_property_name: &str,
-) -> Option<&'static str> {
-    property_table
-        .binary_search_by_key(&normalized_property_name, |&(n, _)| n)
-        .ok()
-        .map(|i| property_table[i].1)
-}
-
-/// Type of a property value table.
-///
-/// A property value table maps property names to a mapping of property values,
-/// where the mapping of property values is represented by a sequence of
-/// tuples. The first element of each tuple is a normalized property value
-/// while the second element of each tuple is the corresponding canonical
-/// property value.
-///
-/// Note that a property value table only includes values for properties that
-/// are catalogs, enumerations or binary properties. Properties that have
-/// string values (such as case or decomposition mappings), numeric values
-/// or are miscellaneous are not represented in this table.
-pub type PropertyValueTable = &'static [(&'static str, PropertyValues)];
-
-/// A mapping of property values for a specific property.
-///
-/// The first element of each tuple is a normalized property value while the
-/// second element of each tuple is the corresponding canonical property
-/// value.
-pub type PropertyValues = &'static [(&'static str, &'static str)];
-
-/// Find the set of possible property values for a given property.
-///
-/// The set returned is a mapping expressed as a sorted list of tuples.
-/// The first element of each tuple is a normalized property value while the
-/// second element of each tuple is the corresponding canonical property
-/// value.
-///
-/// If no such property exists, then `None` is returned.
-///
-/// The given property name must be in its canonical form, which can be
-/// found using `canonical_property_name`.
-pub fn property_values(
-    property_value_table: PropertyValueTable,
-    canonical_property_name: &str,
-) -> Option<PropertyValues> {
-    property_value_table
-        .binary_search_by_key(&canonical_property_name, |&(n, _)| n)
-        .ok()
-        .map(|i| property_value_table[i].1)
-}
-
-/// Find the canonical property value for the given normalized property
-/// value.
-///
-/// The given property values should correspond to the values for the property
-/// under question, which can be found using `property_values`.
-///
-/// If no such property value exists, then `None` is returned.
-///
-/// The normalized property value must have been normalized according to
-/// UAX44 LM3, which can be done using `symbolic_name_normalize`.
-pub fn canonical_property_value(
-    property_values: PropertyValues,
-    normalized_property_value: &str,
-) -> Option<&'static str> {
-    // This is cute. The types line up, so why not?
-    canonical_property_name(property_values, normalized_property_value)
-}
-
-
-#[cfg(test)]
-mod tests {
-    use unicode_tables::property_names::PROPERTY_NAMES;
-    use unicode_tables::property_values::PROPERTY_VALUES;
-
-    use super::{
-        canonical_property_name, property_values, canonical_property_value,
-    };
-
-    #[test]
-    fn canonical_property_name_1() {
-        assert_eq!(
-            canonical_property_name(PROPERTY_NAMES, "gc"),
-            Some("General_Category"));
-        assert_eq!(
-            canonical_property_name(PROPERTY_NAMES, "generalcategory"),
-            Some("General_Category"));
-        assert_eq!(
-            canonical_property_name(PROPERTY_NAMES, "g c"),
-            None);
-    }
-
-    #[test]
-    fn property_values_1() {
-        assert_eq!(
-            property_values(PROPERTY_VALUES, "White_Space"),
-            Some(&[
-                ("f", "No"), ("false", "No"), ("n", "No"), ("no", "No"),
-                ("t", "Yes"), ("true", "Yes"), ("y", "Yes"), ("yes", "Yes"),
-            ][..]));
-    }
-
-    #[test]
-    fn canonical_property_value_1() {
-        let values = property_values(PROPERTY_VALUES, "White_Space").unwrap();
-        assert_eq!(canonical_property_value(values, "false"), Some("No"));
-        assert_eq!(canonical_property_value(values, "t"), Some("Yes"));
-        assert_eq!(canonical_property_value(values, "F"), None);
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/unicode_tables/jamo_short_name.rs.html b/target/doc/src/ucd_util/unicode_tables/jamo_short_name.rs.html deleted file mode 100644 index 369dbb3..0000000 --- a/target/doc/src/ucd_util/unicode_tables/jamo_short_name.rs.html +++ /dev/null @@ -1,47 +0,0 @@ -jamo_short_name.rs.html -- source
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-
-// DO NOT EDIT THIS FILE. IT WAS AUTOMATICALLY GENERATED BY:
-//
-//  ucd-generate jamo-short-name /home/andrew/tmp/ucd/12.1.0/
-//
-// ucd-generate is available on crates.io.
-
-pub const JAMO_SHORT_NAME: &'static [(u32, &'static str)] = &[
-  (4352, "G"), (4353, "GG"), (4354, "N"), (4355, "D"), (4356, "DD"),
-  (4357, "R"), (4358, "M"), (4359, "B"), (4360, "BB"), (4361, "S"),
-  (4362, "SS"), (4363, ""), (4364, "J"), (4365, "JJ"), (4366, "C"),
-  (4367, "K"), (4368, "T"), (4369, "P"), (4370, "H"), (4449, "A"),
-  (4450, "AE"), (4451, "YA"), (4452, "YAE"), (4453, "EO"), (4454, "E"),
-  (4455, "YEO"), (4456, "YE"), (4457, "O"), (4458, "WA"), (4459, "WAE"),
-  (4460, "OE"), (4461, "YO"), (4462, "U"), (4463, "WEO"), (4464, "WE"),
-  (4465, "WI"), (4466, "YU"), (4467, "EU"), (4468, "YI"), (4469, "I"),
-  (4520, "G"), (4521, "GG"), (4522, "GS"), (4523, "N"), (4524, "NJ"),
-  (4525, "NH"), (4526, "D"), (4527, "L"), (4528, "LG"), (4529, "LM"),
-  (4530, "LB"), (4531, "LS"), (4532, "LT"), (4533, "LP"), (4534, "LH"),
-  (4535, "M"), (4536, "B"), (4537, "BS"), (4538, "S"), (4539, "SS"),
-  (4540, "NG"), (4541, "J"), (4542, "C"), (4543, "K"), (4544, "T"),
-  (4545, "P"), (4546, "H"),
-];
-
-
\ No newline at end of file diff --git a/target/doc/src/ucd_util/unicode_tables/mod.rs.html b/target/doc/src/ucd_util/unicode_tables/mod.rs.html deleted file mode 100644 index 73758d4..0000000 --- a/target/doc/src/ucd_util/unicode_tables/mod.rs.html +++ /dev/null @@ -1,13 +0,0 @@ -mod.rs.html -- source
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-pub mod jamo_short_name;
-#[cfg(test)]
-pub mod property_names;
-#[cfg(test)]
-pub mod property_values;
-
-
\ No newline at end of file diff --git a/target/doc/src/utf8_ranges/char_utf8.rs.html b/target/doc/src/utf8_ranges/char_utf8.rs.html deleted file mode 100644 index 147b1fe..0000000 --- a/target/doc/src/utf8_ranges/char_utf8.rs.html +++ /dev/null @@ -1,75 +0,0 @@ -char_utf8.rs.html -- source
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-
-// Pulled from std::char until encode_utf8 stabilizes. ---AG
-
-// UTF-8 ranges and tags for encoding characters
-const TAG_CONT: u8    = 0b1000_0000;
-const TAG_TWO_B: u8   = 0b1100_0000;
-const TAG_THREE_B: u8 = 0b1110_0000;
-const TAG_FOUR_B: u8  = 0b1111_0000;
-const MAX_ONE_B: u32   =     0x80;
-const MAX_TWO_B: u32   =    0x800;
-const MAX_THREE_B: u32 =  0x10000;
-
-#[inline]
-pub fn encode_utf8(character: char, dst: &mut [u8]) -> Option<usize> {
-    let code = character as u32;
-    if code < MAX_ONE_B && !dst.is_empty() {
-        dst[0] = code as u8;
-        Some(1)
-    } else if code < MAX_TWO_B && dst.len() >= 2 {
-        dst[0] = (code >> 6 & 0x1F) as u8 | TAG_TWO_B;
-        dst[1] = (code & 0x3F) as u8 | TAG_CONT;
-        Some(2)
-    } else if code < MAX_THREE_B && dst.len() >= 3  {
-        dst[0] = (code >> 12 & 0x0F) as u8 | TAG_THREE_B;
-        dst[1] = (code >>  6 & 0x3F) as u8 | TAG_CONT;
-        dst[2] = (code & 0x3F) as u8 | TAG_CONT;
-        Some(3)
-    } else if dst.len() >= 4 {
-        dst[0] = (code >> 18 & 0x07) as u8 | TAG_FOUR_B;
-        dst[1] = (code >> 12 & 0x3F) as u8 | TAG_CONT;
-        dst[2] = (code >>  6 & 0x3F) as u8 | TAG_CONT;
-        dst[3] = (code & 0x3F) as u8 | TAG_CONT;
-        Some(4)
-    } else {
-        None
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/src/utf8_ranges/lib.rs.html b/target/doc/src/utf8_ranges/lib.rs.html deleted file mode 100644 index a1f789f..0000000 --- a/target/doc/src/utf8_ranges/lib.rs.html +++ /dev/null @@ -1,1071 +0,0 @@ -lib.rs.html -- source
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-
-/*!
-Crate `utf8-ranges` converts ranges of Unicode scalar values to equivalent
-ranges of UTF-8 bytes. This is useful for constructing byte based automatons
-that need to embed UTF-8 decoding.
-
-See the documentation on the `Utf8Sequences` iterator for more details and
-an example.
-
-# Wait, what is this?
-
-This is simplest to explain with an example. Let's say you wanted to test
-whether a particular byte sequence was a Cyrillic character. One possible
-scalar value range is `[0400-04FF]`. The set of allowed bytes for this
-range can be expressed as a sequence of byte ranges:
-
-```ignore
-[D0-D3][80-BF]
-```
-
-This is simple enough: simply encode the boundaries, `0400` encodes to
-`D0 80` and `04FF` encodes to `D3 BF`, and create ranges from each
-corresponding pair of bytes: `D0` to `D3` and `80` to `BF`.
-
-However, what if you wanted to add the Cyrillic Supplementary characters to
-your range? Your range might then become `[0400-052F]`. The same procedure
-as above doesn't quite work because `052F` encodes to `D4 AF`. The byte ranges
-you'd get from the previous transformation would be `[D0-D4][80-AF]`. However,
-this isn't quite correct because this range doesn't capture many characters,
-for example, `04FF` (because its last byte, `BF` isn't in the range `80-AF`).
-
-Instead, you need multiple sequences of byte ranges:
-
-```ignore
-[D0-D3][80-BF]  # matches codepoints 0400-04FF
-[D4][80-AF]     # matches codepoints 0500-052F
-```
-
-This gets even more complicated if you want bigger ranges, particularly if
-they naively contain surrogate codepoints. For example, the sequence of byte
-ranges for the basic multilingual plane (`[0000-FFFF]`) look like this:
-
-```ignore
-[0-7F]
-[C2-DF][80-BF]
-[E0][A0-BF][80-BF]
-[E1-EC][80-BF][80-BF]
-[ED][80-9F][80-BF]
-[EE-EF][80-BF][80-BF]
-```
-
-Note that the byte ranges above will *not* match any erroneous encoding of
-UTF-8, including encodings of surrogate codepoints.
-
-And, of course, for all of Unicode (`[000000-10FFFF]`):
-
-```ignore
-[0-7F]
-[C2-DF][80-BF]
-[E0][A0-BF][80-BF]
-[E1-EC][80-BF][80-BF]
-[ED][80-9F][80-BF]
-[EE-EF][80-BF][80-BF]
-[F0][90-BF][80-BF][80-BF]
-[F1-F3][80-BF][80-BF][80-BF]
-[F4][80-8F][80-BF][80-BF]
-```
-
-This crate automates the process of creating these byte ranges from ranges of
-Unicode scalar values.
-
-# Why would I ever use this?
-
-You probably won't ever need this. In 99% of cases, you just decode the byte
-sequence into a Unicode scalar value and compare scalar values directly.
-However, this explicit decoding step isn't always possible. For example, the
-construction of some finite state machines may benefit from converting ranges
-of scalar values into UTF-8 decoder automata (e.g., for character classes in
-regular expressions).
-
-# Lineage
-
-I got the idea and general implementation strategy from Russ Cox in his
-[article on regexps](https://web.archive.org/web/20160404141123/https://swtch.com/~rsc/regexp/regexp3.html) and RE2.
-Russ Cox got it from Ken Thompson's `grep` (no source, folk lore?).
-I also got the idea from
-[Lucene](https://github.com/apache/lucene-solr/blob/ae93f4e7ac6a3908046391de35d4f50a0d3c59ca/lucene/core/src/java/org/apache/lucene/util/automaton/UTF32ToUTF8.java),
-which uses it for executing automata on their term index.
-*/
-
-#![deny(missing_docs)]
-
-#[cfg(test)]
-extern crate quickcheck;
-#[cfg(test)]
-#[macro_use]
-extern crate doc_comment;
-
-#[cfg(test)]
-doctest!("../README.md");
-
-use std::char;
-use std::fmt;
-use std::slice;
-
-use char_utf8::encode_utf8;
-
-const MAX_UTF8_BYTES: usize = 4;
-
-mod char_utf8;
-
-/// Utf8Sequence represents a sequence of byte ranges.
-///
-/// To match a Utf8Sequence, a candidate byte sequence must match each
-/// successive range.
-///
-/// For example, if there are two ranges, `[C2-DF][80-BF]`, then the byte
-/// sequence `\xDD\x61` would not match because `0x61 < 0x80`.
-#[derive(Copy, Clone, Eq, PartialEq)]
-pub enum Utf8Sequence {
-    /// One byte range.
-    One(Utf8Range),
-    /// Two successive byte ranges.
-    Two([Utf8Range; 2]),
-    /// Three successive byte ranges.
-    Three([Utf8Range; 3]),
-    /// Four successive byte ranges.
-    Four([Utf8Range; 4]),
-}
-
-impl Utf8Sequence {
-    /// Creates a new UTF-8 sequence from the encoded bytes of a scalar value
-    /// range.
-    ///
-    /// This assumes that `start` and `end` have the same length.
-    fn from_encoded_range(start: &[u8], end: &[u8]) -> Self {
-        assert_eq!(start.len(), end.len());
-        match start.len() {
-            2 => Utf8Sequence::Two([
-                Utf8Range::new(start[0], end[0]),
-                Utf8Range::new(start[1], end[1]),
-            ]),
-            3 => Utf8Sequence::Three([
-                Utf8Range::new(start[0], end[0]),
-                Utf8Range::new(start[1], end[1]),
-                Utf8Range::new(start[2], end[2]),
-            ]),
-            4 => Utf8Sequence::Four([
-                Utf8Range::new(start[0], end[0]),
-                Utf8Range::new(start[1], end[1]),
-                Utf8Range::new(start[2], end[2]),
-                Utf8Range::new(start[3], end[3]),
-            ]),
-            n => unreachable!("invalid encoded length: {}", n),
-        }
-    }
-
-    /// Returns the underlying sequence of byte ranges as a slice.
-    pub fn as_slice(&self) -> &[Utf8Range] {
-        use self::Utf8Sequence::*;
-        match *self {
-            One(ref r) => unsafe { slice::from_raw_parts(r, 1) },
-            Two(ref r) => &r[..],
-            Three(ref r) => &r[..],
-            Four(ref r) => &r[..],
-        }
-    }
-
-    /// Returns the number of byte ranges in this sequence.
-    ///
-    /// The length is guaranteed to be in the closed interval `[1, 4]`.
-    pub fn len(&self) -> usize {
-        self.as_slice().len()
-    }
-
-    /// Returns true if and only if a prefix of `bytes` matches this sequence
-    /// of byte ranges.
-    pub fn matches(&self, bytes: &[u8]) -> bool {
-        if bytes.len() < self.len() {
-            return false;
-        }
-        for (&b, r) in bytes.iter().zip(self) {
-            if !r.matches(b) {
-                return false;
-            }
-        }
-        true
-    }
-}
-
-impl<'a> IntoIterator for &'a Utf8Sequence {
-    type IntoIter = slice::Iter<'a, Utf8Range>;
-    type Item = &'a Utf8Range;
-
-    fn into_iter(self) -> Self::IntoIter {
-        self.as_slice().into_iter()
-    }
-}
-
-impl fmt::Debug for Utf8Sequence {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        use self::Utf8Sequence::*;
-        match *self {
-            One(ref r) => write!(f, "{:?}", r),
-            Two(ref r) => write!(f, "{:?}{:?}", r[0], r[1]),
-            Three(ref r) => write!(f, "{:?}{:?}{:?}", r[0], r[1], r[2]),
-            Four(ref r) => write!(f, "{:?}{:?}{:?}{:?}",
-                                  r[0], r[1], r[2], r[3]),
-        }
-    }
-}
-
-/// A single inclusive range of UTF-8 bytes.
-#[derive(Clone, Copy, PartialEq, Eq)]
-pub struct Utf8Range {
-    /// Start of byte range (inclusive).
-    pub start: u8,
-    /// End of byte range (inclusive).
-    pub end: u8,
-}
-
-impl Utf8Range {
-    fn new(start: u8, end: u8) -> Self {
-        Utf8Range { start: start, end: end }
-    }
-
-    /// Returns true if and only if the given byte is in this range.
-    pub fn matches(&self, b: u8) -> bool {
-        self.start <= b && b <= self.end
-    }
-}
-
-impl fmt::Debug for Utf8Range {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        if self.start == self.end {
-            write!(f, "[{:X}]", self.start)
-        } else {
-            write!(f, "[{:X}-{:X}]", self.start, self.end)
-        }
-    }
-}
-
-/// An iterator over ranges of matching UTF-8 byte sequences.
-///
-/// The iteration represents an alternation of comprehensive byte sequences
-/// that match precisely the set of UTF-8 encoded scalar values.
-///
-/// A byte sequence corresponds to one of the scalar values in the range given
-/// if and only if it completely matches exactly one of the sequences of byte
-/// ranges produced by this iterator.
-///
-/// Each sequence of byte ranges matches a unique set of bytes. That is, no two
-/// sequences will match the same bytes.
-///
-/// # Example
-///
-/// This shows how to match an arbitrary byte sequence against a range of
-/// scalar values.
-///
-/// ```rust
-/// use utf8_ranges::{Utf8Sequences, Utf8Sequence};
-///
-/// fn matches(seqs: &[Utf8Sequence], bytes: &[u8]) -> bool {
-///     for range in seqs {
-///         if range.matches(bytes) {
-///             return true;
-///         }
-///     }
-///     false
-/// }
-///
-/// // Test the basic multilingual plane.
-/// let seqs: Vec<_> = Utf8Sequences::new('\u{0}', '\u{FFFF}').collect();
-///
-/// // UTF-8 encoding of 'a'.
-/// assert!(matches(&seqs, &[0x61]));
-/// // UTF-8 encoding of '☃' (`\u{2603}`).
-/// assert!(matches(&seqs, &[0xE2, 0x98, 0x83]));
-/// // UTF-8 encoding of `\u{10348}` (outside the BMP).
-/// assert!(!matches(&seqs, &[0xF0, 0x90, 0x8D, 0x88]));
-/// // Tries to match against a UTF-8 encoding of a surrogate codepoint,
-/// // which is invalid UTF-8, and therefore fails, despite the fact that
-/// // the corresponding codepoint (0xD800) falls in the range given.
-/// assert!(!matches(&seqs, &[0xED, 0xA0, 0x80]));
-/// // And fails against plain old invalid UTF-8.
-/// assert!(!matches(&seqs, &[0xFF, 0xFF]));
-/// ```
-///
-/// If this example seems circuitous, that's because it is! It's meant to be
-/// illustrative. In practice, you could just try to decode your byte sequence
-/// and compare it with the scalar value range directly. However, this is not
-/// always possible (for example, in a byte based automaton).
-pub struct Utf8Sequences {
-    range_stack: Vec<ScalarRange>,
-}
-
-impl Utf8Sequences {
-    /// Create a new iterator over UTF-8 byte ranges for the scalar value range
-    /// given.
-    pub fn new(start: char, end: char) -> Self {
-        let mut it = Utf8Sequences { range_stack: vec![] };
-        it.push(start as u32, end as u32);
-        it
-    }
-
-    /// reset resets the scalar value range.
-    /// Any existing state is cleared, but resources may be reused.
-    ///
-    /// N.B. Benchmarks say that this method is dubious.
-    #[doc(hidden)]
-    pub fn reset(&mut self, start: char, end: char) {
-        self.range_stack.clear();
-        self.push(start as u32, end as u32);
-    }
-
-    fn push(&mut self, start: u32, end: u32) {
-        self.range_stack.push(ScalarRange { start: start, end: end });
-    }
-}
-
-struct ScalarRange {
-    start: u32,
-    end: u32,
-}
-
-impl fmt::Debug for ScalarRange {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        write!(f, "ScalarRange({:X}, {:X})", self.start, self.end)
-    }
-}
-
-impl Iterator for Utf8Sequences {
-    type Item = Utf8Sequence;
-
-    fn next(&mut self) -> Option<Self::Item> {
-    'TOP:
-        while let Some(mut r) = self.range_stack.pop() {
-        'INNER:
-            loop {
-                if let Some((r1, r2)) = r.split() {
-                    self.push(r2.start, r2.end);
-                    r.start = r1.start;
-                    r.end = r1.end;
-                    continue 'INNER;
-                }
-                if !r.is_valid() {
-                    continue 'TOP;
-                }
-                for i in 1..MAX_UTF8_BYTES {
-                    let max = max_scalar_value(i);
-                    if r.start <= max && max < r.end {
-                        self.push(max + 1, r.end);
-                        r.end = max;
-                        continue 'INNER;
-                    }
-                }
-                if let Some(ascii_range) = r.as_ascii() {
-                    return Some(Utf8Sequence::One(ascii_range));
-                }
-                for i in 1..MAX_UTF8_BYTES {
-                    let m = (1 << (6 * i)) - 1;
-                    if (r.start & !m) != (r.end & !m) {
-                        if (r.start & m) != 0 {
-                            self.push((r.start | m) + 1, r.end);
-                            r.end = r.start | m;
-                            continue 'INNER;
-                        }
-                        if (r.end & m) != m {
-                            self.push(r.end & !m, r.end);
-                            r.end = (r.end & !m) - 1;
-                            continue 'INNER;
-                        }
-                    }
-                }
-                let mut start = [0; MAX_UTF8_BYTES];
-                let mut end = [0; MAX_UTF8_BYTES];
-                let n = r.encode(&mut start, &mut end);
-                return Some(Utf8Sequence::from_encoded_range(
-                    &start[0..n], &end[0..n]));
-            }
-        }
-        None
-    }
-}
-
-impl ScalarRange {
-    /// split splits this range if it overlaps with a surrogate codepoint.
-    ///
-    /// Either or both ranges may be invalid.
-    fn split(&self) -> Option<(ScalarRange, ScalarRange)> {
-        if self.start < 0xE000 && self.end > 0xD7FF {
-            Some((ScalarRange {
-                start: self.start,
-                end: 0xD7FF,
-            }, ScalarRange {
-                start: 0xE000,
-                end: self.end,
-            }))
-        } else {
-            None
-        }
-    }
-
-    /// is_valid returns true if and only if start <= end.
-    fn is_valid(&self) -> bool {
-        self.start <= self.end
-    }
-
-    /// as_ascii returns this range as a Utf8Range if and only if all scalar
-    /// values in this range can be encoded as a single byte.
-    fn as_ascii(&self) -> Option<Utf8Range> {
-        if self.is_ascii() {
-            Some(Utf8Range::new(self.start as u8, self.end as u8))
-        } else {
-            None
-        }
-    }
-
-    /// is_ascii returns true if the range is ASCII only (i.e., takes a single
-    /// byte to encode any scalar value).
-    fn is_ascii(&self) -> bool {
-        self.is_valid() && self.end <= 0x7f
-    }
-
-    /// encode writes the UTF-8 encoding of the start and end of this range
-    /// to the corresponding destination slices.
-    ///
-    /// The slices should have room for at least `MAX_UTF8_BYTES`.
-    fn encode(&self, start: &mut [u8], end: &mut [u8]) -> usize {
-        let cs = char::from_u32(self.start).unwrap();
-        let ce = char::from_u32(self.end).unwrap();
-        let n = encode_utf8(cs, start).unwrap();
-        let m = encode_utf8(ce, end).unwrap();
-        assert_eq!(n, m);
-        n
-    }
-}
-
-fn max_scalar_value(nbytes: usize) -> u32 {
-    match nbytes {
-        1 => 0x007F,
-        2 => 0x07FF,
-        3 => 0xFFFF,
-        4 => 0x10FFFF,
-        _ => unreachable!("invalid UTF-8 byte sequence size"),
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use std::char;
-
-    use quickcheck::{TestResult, quickcheck};
-
-    use char_utf8::encode_utf8;
-    use {MAX_UTF8_BYTES, Utf8Range, Utf8Sequences};
-
-    fn rutf8(s: u8, e: u8) -> Utf8Range {
-        Utf8Range::new(s, e)
-    }
-
-    fn never_accepts_surrogate_codepoints(start: char, end: char) {
-        let mut buf = [0; MAX_UTF8_BYTES];
-        for cp in 0xD800..0xE000 {
-            let c = unsafe { ::std::mem::transmute(cp) };
-            let n = encode_utf8(c, &mut buf).unwrap();
-            for r in Utf8Sequences::new(start, end) {
-                if r.matches(&buf[0..n]) {
-                    panic!("Sequence ({:X}, {:X}) contains range {:?}, \
-                            which matches surrogate code point {:X} \
-                            with encoded bytes {:?}",
-                           start as u32, end as u32, r, cp, &buf[0..n]);
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn codepoints_no_surrogates() {
-        never_accepts_surrogate_codepoints('\u{0}', '\u{FFFF}');
-        never_accepts_surrogate_codepoints('\u{0}', '\u{10FFFF}');
-        never_accepts_surrogate_codepoints('\u{0}', '\u{10FFFE}');
-        never_accepts_surrogate_codepoints('\u{80}', '\u{10FFFF}');
-        never_accepts_surrogate_codepoints('\u{D7FF}', '\u{E000}');
-    }
-
-    #[test]
-    fn single_codepoint_one_sequence() {
-        // Tests that every range of scalar values that contains a single
-        // scalar value is recognized by one sequence of byte ranges.
-        for i in 0x0..(0x10FFFF + 1) {
-            let c = match char::from_u32(i) {
-                None => continue,
-                Some(c) => c,
-            };
-            let seqs: Vec<_> = Utf8Sequences::new(c, c).collect();
-            assert_eq!(seqs.len(), 1);
-        }
-    }
-
-    #[test]
-    fn qc_codepoints_no_surrogate() {
-        fn p(s: char, e: char) -> TestResult {
-            if s > e {
-                return TestResult::discard();
-            }
-            never_accepts_surrogate_codepoints(s, e);
-            TestResult::passed()
-        }
-        quickcheck(p as fn(char, char) -> TestResult);
-    }
-
-    #[test]
-    fn bmp() {
-        use Utf8Sequence::*;
-
-        let seqs = Utf8Sequences::new('\u{0}', '\u{FFFF}')
-                                 .collect::<Vec<_>>();
-        assert_eq!(seqs, vec![
-            One(rutf8(0x0, 0x7F)),
-            Two([rutf8(0xC2, 0xDF), rutf8(0x80, 0xBF)]),
-            Three([rutf8(0xE0, 0xE0), rutf8(0xA0, 0xBF), rutf8(0x80, 0xBF)]),
-            Three([rutf8(0xE1, 0xEC), rutf8(0x80, 0xBF), rutf8(0x80, 0xBF)]),
-            Three([rutf8(0xED, 0xED), rutf8(0x80, 0x9F), rutf8(0x80, 0xBF)]),
-            Three([rutf8(0xEE, 0xEF), rutf8(0x80, 0xBF), rutf8(0x80, 0xBF)]),
-        ]);
-    }
-
-    #[test]
-    fn scratch() {
-        for range in Utf8Sequences::new('\u{0}', '\u{FFFF}') {
-            println!("{:?}", range);
-        }
-    }
-}
-
-
\ No newline at end of file diff --git a/target/doc/storage.js b/target/doc/storage.js deleted file mode 100644 index 33632ba..0000000 --- a/target/doc/storage.js +++ /dev/null @@ -1 +0,0 @@ -var resourcesSuffix="";var currentTheme=document.getElementById("themeStyle");var mainTheme=document.getElementById("mainThemeStyle");var savedHref=[];function hasClass(elem,className){return elem&&elem.classList&&elem.classList.contains(className);}function addClass(elem,className){if(!elem||!elem.classList){return;}elem.classList.add(className);}function removeClass(elem,className){if(!elem||!elem.classList){return;}elem.classList.remove(className);}function isHidden(elem){return elem.offsetParent===null;}function onEach(arr,func,reversed){if(arr&&arr.length>0&&func){var length=arr.length;if(reversed!==true){for(var i=0;i=0;--i){if(func(arr[i])===true){return true;}}}}return false;}function onEachLazy(lazyArray,func,reversed){return onEach(Array.prototype.slice.call(lazyArray),func,reversed);}function usableLocalStorage(){if(typeof(Storage)==="undefined"){return false;}try{window.localStorage;}catch(err){return false;}return true;}function updateLocalStorage(name,value){if(usableLocalStorage()){localStorage[name]=value;}else{}}function getCurrentValue(name){if(usableLocalStorage()&&localStorage[name]!==undefined){return localStorage[name];}return null;}function switchTheme(styleElem,mainStyleElem,newTheme){var fullBasicCss="rustdoc"+resourcesSuffix+".css";var fullNewTheme=newTheme+resourcesSuffix+".css";var newHref=mainStyleElem.href.replace(fullBasicCss,fullNewTheme);if(styleElem.href===newHref){return;}var found=false;if(savedHref.length===0){onEachLazy(document.getElementsByTagName("link"),function(el){savedHref.push(el.href);});}onEach(savedHref,function(el){if(el===newHref){found=true;return true;}});if(found===true){styleElem.href=newHref;updateLocalStorage("rustdoc-theme",newTheme);}}switchTheme(currentTheme,mainTheme,getCurrentValue("rustdoc-theme")||"light"); \ No newline at end of file diff --git a/target/doc/theme.js b/target/doc/theme.js deleted file mode 100644 index f3a6a82..0000000 --- a/target/doc/theme.js +++ /dev/null @@ -1,39 +0,0 @@ -var themes = document.getElementById("theme-choices"); -var themePicker = document.getElementById("theme-picker"); - -function switchThemeButtonState() { - if (themes.style.display === "block") { - themes.style.display = "none"; - themePicker.style.borderBottomRightRadius = "3px"; - themePicker.style.borderBottomLeftRadius = "3px"; - } else { - themes.style.display = "block"; - themePicker.style.borderBottomRightRadius = "0"; - themePicker.style.borderBottomLeftRadius = "0"; - } -}; - -function handleThemeButtonsBlur(e) { - var active = document.activeElement; - var related = e.relatedTarget; - - if (active.id !== "themePicker" && - (!active.parentNode || active.parentNode.id !== "theme-choices") && - (!related || - (related.id !== "themePicker" && - (!related.parentNode || related.parentNode.id !== "theme-choices")))) { - switchThemeButtonState(); - } -} - -themePicker.onclick = switchThemeButtonState; -themePicker.onblur = handleThemeButtonsBlur; -["dark","light"].forEach(function(item) { - var but = document.createElement('button'); - but.innerHTML = item; - but.onclick = function(el) { - switchTheme(currentTheme, mainTheme, item); - }; - but.onblur = handleThemeButtonsBlur; - themes.appendChild(but); -}); \ No newline at end of file diff --git a/target/doc/thread_local/all.html b/target/doc/thread_local/all.html deleted file mode 100644 index 9f6a59d..0000000 --- a/target/doc/thread_local/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Typedefs

\ No newline at end of file diff --git a/target/doc/thread_local/index.html b/target/doc/thread_local/index.html deleted file mode 100644 index 5ed7aaa..0000000 --- a/target/doc/thread_local/index.html +++ /dev/null @@ -1,61 +0,0 @@ -thread_local - Rust

[][src]Crate thread_local

Per-object thread-local storage

-

This library provides the ThreadLocal type which allows a separate copy of -an object to be used for each thread. This allows for per-object -thread-local storage, unlike the standard library's thread_local! macro -which only allows static thread-local storage.

-

Per-thread objects are not destroyed when a thread exits. Instead, objects -are only destroyed when the ThreadLocal containing them is destroyed.

-

You can also iterate over the thread-local values of all thread in a -ThreadLocal object using the iter_mut and into_iter methods. This can -only be done if you have mutable access to the ThreadLocal object, which -guarantees that you are the only thread currently accessing it.

-

A CachedThreadLocal type is also provided which wraps a ThreadLocal but -also uses a special fast path for the first thread that writes into it. The -fast path has very low overhead (<1ns per access) while keeping the same -performance as ThreadLocal for other threads.

-

Note that since thread IDs are recycled when a thread exits, it is possible -for one thread to retrieve the object of another thread. Since this can only -occur after a thread has exited this does not lead to any race conditions.

-

Examples

-

Basic usage of ThreadLocal:

- -
-use thread_local::ThreadLocal;
-let tls: ThreadLocal<u32> = ThreadLocal::new();
-assert_eq!(tls.get(), None);
-assert_eq!(tls.get_or(|| Box::new(5)), &5);
-assert_eq!(tls.get(), Some(&5));
-

Combining thread-local values into a single result:

- -
-use thread_local::ThreadLocal;
-use std::sync::Arc;
-use std::cell::Cell;
-use std::thread;
-
-let tls = Arc::new(ThreadLocal::new());
-
-// Create a bunch of threads to do stuff
-for _ in 0..5 {
-    let tls2 = tls.clone();
-    thread::spawn(move || {
-        // Increment a counter to count some event...
-        let cell = tls2.get_or(|| Box::new(Cell::new(0)));
-        cell.set(cell.get() + 1);
-    }).join().unwrap();
-}
-
-// Once all threads are done, collect the counter values and return the
-// sum of all thread-local counter values.
-let tls = Arc::try_unwrap(tls).unwrap();
-let total = tls.into_iter().fold(0, |x, y| x + y.get());
-assert_eq!(total, 5);
-

Structs

-
CachedThreadLocal

Wrapper around ThreadLocal which adds a fast path for a single thread.

-
IntoIter

An iterator that moves out of a ThreadLocal.

-
IterMut

Mutable iterator over the contents of a ThreadLocal.

-
ThreadLocal

Thread-local variable wrapper

-

Type Definitions

-
CachedIntoIter

An iterator that moves out of a CachedThreadLocal.

-
CachedIterMut

Mutable iterator over the contents of a CachedThreadLocal.

-
\ No newline at end of file diff --git a/target/doc/thread_local/sidebar-items.js b/target/doc/thread_local/sidebar-items.js deleted file mode 100644 index 4eb2ae2..0000000 --- a/target/doc/thread_local/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"struct":[["CachedThreadLocal","Wrapper around `ThreadLocal` which adds a fast path for a single thread."],["IntoIter","An iterator that moves out of a `ThreadLocal`."],["IterMut","Mutable iterator over the contents of a `ThreadLocal`."],["ThreadLocal","Thread-local variable wrapper"]],"type":[["CachedIntoIter","An iterator that moves out of a `CachedThreadLocal`."],["CachedIterMut","Mutable iterator over the contents of a `CachedThreadLocal`."]]}); \ No newline at end of file diff --git a/target/doc/thread_local/struct.CachedThreadLocal.html b/target/doc/thread_local/struct.CachedThreadLocal.html deleted file mode 100644 index 3758bc9..0000000 --- a/target/doc/thread_local/struct.CachedThreadLocal.html +++ /dev/null @@ -1,43 +0,0 @@ -thread_local::CachedThreadLocal - Rust

[][src]Struct thread_local::CachedThreadLocal

pub struct CachedThreadLocal<T: ?Sized + Send> { /* fields omitted */ }

Wrapper around ThreadLocal which adds a fast path for a single thread.

-

This has the same API as ThreadLocal, but will register the first thread -that sets a value as its owner. All accesses by the owner will go through -a special fast path which is much faster than the normal ThreadLocal path.

-

Methods

impl<T: ?Sized + Send> CachedThreadLocal<T>[src]

pub fn new() -> CachedThreadLocal<T>[src]

Creates a new empty CachedThreadLocal.

-

pub fn get(&self) -> Option<&T>[src]

Returns the element for the current thread, if it exists.

-

pub fn get_or<F>(&self, create: F) -> &T where
    F: FnOnce() -> Box<T>, 
[src]

Returns the element for the current thread, or creates it if it doesn't -exist.

-

pub fn get_or_try<F, E>(&self, create: F) -> Result<&T, E> where
    F: FnOnce() -> Result<Box<T>, E>, 
[src]

Returns the element for the current thread, or creates it if it doesn't -exist. If create fails, that error is returned and no element is -added.

-

pub fn iter_mut(&mut self) -> CachedIterMut<T>[src]

Returns a mutable iterator over the local values of all threads.

-

Since this call borrows the ThreadLocal mutably, this operation can -be done safely---the mutable borrow statically guarantees no other -threads are currently accessing their associated values.

-

pub fn clear(&mut self)[src]

Removes all thread-specific values from the ThreadLocal, effectively -reseting it to its original state.

-

Since this call borrows the ThreadLocal mutably, this operation can -be done safely---the mutable borrow statically guarantees no other -threads are currently accessing their associated values.

-

impl<T: Send + Default> CachedThreadLocal<T>[src]

pub fn get_default(&self) -> &T[src]

Returns the element for the current thread, or creates a default one if -it doesn't exist.

-

Trait Implementations

impl<T: ?Sized + Send> Sync for CachedThreadLocal<T>[src]

impl<T: ?Sized + Send> Default for CachedThreadLocal<T>[src]

impl<T: ?Sized + Send> IntoIterator for CachedThreadLocal<T>[src]

type Item = Box<T>

The type of the elements being iterated over.

-

type IntoIter = CachedIntoIter<T>

Which kind of iterator are we turning this into?

-

impl<'a, T: ?Sized + Send + 'a> IntoIterator for &'a mut CachedThreadLocal<T>[src]

type Item = &'a mut Box<T>

The type of the elements being iterated over.

-

type IntoIter = CachedIterMut<'a, T>

Which kind of iterator are we turning this into?

-

impl<T: ?Sized + Send + Debug> Debug for CachedThreadLocal<T>[src]

impl<T: ?Sized + Send + UnwindSafe> UnwindSafe for CachedThreadLocal<T>[src]

Auto Trait Implementations

impl<T: ?Sized> Send for CachedThreadLocal<T>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/thread_local/struct.IntoIter.html b/target/doc/thread_local/struct.IntoIter.html deleted file mode 100644 index 1857407..0000000 --- a/target/doc/thread_local/struct.IntoIter.html +++ /dev/null @@ -1,80 +0,0 @@ -thread_local::IntoIter - Rust

[][src]Struct thread_local::IntoIter

pub struct IntoIter<T: ?Sized + Send> { /* fields omitted */ }

An iterator that moves out of a ThreadLocal.

-

Trait Implementations

impl<T: ?Sized + Send> Iterator for IntoIter<T>[src]

type Item = Box<T>

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<T: ?Sized + Send> ExactSizeIterator for IntoIter<T>[src]

fn len(&self) -> usize1.0.0[src]

Returns the exact number of times the iterator will iterate. Read more

-

fn is_empty(&self) -> bool[src]

🔬 This is a nightly-only experimental API. (exact_size_is_empty)

Returns true if the iterator is empty. Read more

-

Auto Trait Implementations

impl<T> !Send for IntoIter<T>

impl<T> !Sync for IntoIter<T>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/thread_local/struct.IterMut.html b/target/doc/thread_local/struct.IterMut.html deleted file mode 100644 index 300d6dd..0000000 --- a/target/doc/thread_local/struct.IterMut.html +++ /dev/null @@ -1,80 +0,0 @@ -thread_local::IterMut - Rust

[][src]Struct thread_local::IterMut

pub struct IterMut<'a, T: ?Sized + Send + 'a> { /* fields omitted */ }

Mutable iterator over the contents of a ThreadLocal.

-

Trait Implementations

impl<'a, T: ?Sized + Send + 'a> Iterator for IterMut<'a, T>[src]

type Item = &'a mut Box<T>

The type of the elements being iterated over.

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

impl<'a, T: ?Sized + Send + 'a> ExactSizeIterator for IterMut<'a, T>[src]

fn len(&self) -> usize1.0.0[src]

Returns the exact number of times the iterator will iterate. Read more

-

fn is_empty(&self) -> bool[src]

🔬 This is a nightly-only experimental API. (exact_size_is_empty)

Returns true if the iterator is empty. Read more

-

Auto Trait Implementations

impl<'a, T> !Send for IterMut<'a, T>

impl<'a, T> !Sync for IterMut<'a, T>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/thread_local/struct.ThreadLocal.html b/target/doc/thread_local/struct.ThreadLocal.html deleted file mode 100644 index ca98d06..0000000 --- a/target/doc/thread_local/struct.ThreadLocal.html +++ /dev/null @@ -1,42 +0,0 @@ -thread_local::ThreadLocal - Rust

[][src]Struct thread_local::ThreadLocal

pub struct ThreadLocal<T: ?Sized + Send> { /* fields omitted */ }

Thread-local variable wrapper

-

See the module-level documentation for more.

-

Methods

impl<T: ?Sized + Send> ThreadLocal<T>[src]

pub fn new() -> ThreadLocal<T>[src]

Creates a new empty ThreadLocal.

-

pub fn get(&self) -> Option<&T>[src]

Returns the element for the current thread, if it exists.

-

pub fn get_or<F>(&self, create: F) -> &T where
    F: FnOnce() -> Box<T>, 
[src]

Returns the element for the current thread, or creates it if it doesn't -exist.

-

pub fn get_or_try<F, E>(&self, create: F) -> Result<&T, E> where
    F: FnOnce() -> Result<Box<T>, E>, 
[src]

Returns the element for the current thread, or creates it if it doesn't -exist. If create fails, that error is returned and no element is -added.

-

Important traits for IterMut<'a, T>
pub fn iter_mut(&mut self) -> IterMut<T>[src]

Returns a mutable iterator over the local values of all threads.

-

Since this call borrows the ThreadLocal mutably, this operation can -be done safely---the mutable borrow statically guarantees no other -threads are currently accessing their associated values.

-

pub fn clear(&mut self)[src]

Removes all thread-specific values from the ThreadLocal, effectively -reseting it to its original state.

-

Since this call borrows the ThreadLocal mutably, this operation can -be done safely---the mutable borrow statically guarantees no other -threads are currently accessing their associated values.

-

impl<T: Send + Default> ThreadLocal<T>[src]

pub fn get_default(&self) -> &T[src]

Returns the element for the current thread, or creates a default one if -it doesn't exist.

-

Trait Implementations

impl<T: ?Sized + Send> Sync for ThreadLocal<T>[src]

impl<T: ?Sized + Send> Default for ThreadLocal<T>[src]

impl<T: ?Sized + Send> IntoIterator for ThreadLocal<T>[src]

type Item = Box<T>

The type of the elements being iterated over.

-

type IntoIter = IntoIter<T>

Which kind of iterator are we turning this into?

-

impl<'a, T: ?Sized + Send + 'a> IntoIterator for &'a mut ThreadLocal<T>[src]

type Item = &'a mut Box<T>

The type of the elements being iterated over.

-

type IntoIter = IterMut<'a, T>

Which kind of iterator are we turning this into?

-

impl<T: ?Sized + Send> Drop for ThreadLocal<T>[src]

impl<T: ?Sized + Send + Debug> Debug for ThreadLocal<T>[src]

impl<T: ?Sized + Send + UnwindSafe> UnwindSafe for ThreadLocal<T>[src]

Auto Trait Implementations

impl<T: ?Sized> Send for ThreadLocal<T>

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/thread_local/type.CachedIntoIter.html b/target/doc/thread_local/type.CachedIntoIter.html deleted file mode 100644 index 7611049..0000000 --- a/target/doc/thread_local/type.CachedIntoIter.html +++ /dev/null @@ -1,2 +0,0 @@ -thread_local::CachedIntoIter - Rust

[][src]Type Definition thread_local::CachedIntoIter

type CachedIntoIter<T> = Chain<OptionIter<Box<T>>, IntoIter<T>>;

An iterator that moves out of a CachedThreadLocal.

-
\ No newline at end of file diff --git a/target/doc/thread_local/type.CachedIterMut.html b/target/doc/thread_local/type.CachedIterMut.html deleted file mode 100644 index c75497c..0000000 --- a/target/doc/thread_local/type.CachedIterMut.html +++ /dev/null @@ -1,2 +0,0 @@ -thread_local::CachedIterMut - Rust

[][src]Type Definition thread_local::CachedIterMut

type CachedIterMut<'a, T> = Chain<OptionIter<&'a mut Box<T>>, IterMut<'a, T>>;

Mutable iterator over the contents of a CachedThreadLocal.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/all.html b/target/doc/ucd_util/all.html deleted file mode 100644 index 9f5dd61..0000000 --- a/target/doc/ucd_util/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Functions

Typedefs

Constants

\ No newline at end of file diff --git a/target/doc/ucd_util/constant.RANGE_HANGUL_SYLLABLE.html b/target/doc/ucd_util/constant.RANGE_HANGUL_SYLLABLE.html deleted file mode 100644 index 2b7bb63..0000000 --- a/target/doc/ucd_util/constant.RANGE_HANGUL_SYLLABLE.html +++ /dev/null @@ -1,4 +0,0 @@ -ucd_util::RANGE_HANGUL_SYLLABLE - Rust

[][src]Constant ucd_util::RANGE_HANGUL_SYLLABLE

pub const RANGE_HANGUL_SYLLABLE: &'static [(u32, u32)]

A set of ranges that corresponds to the set of all Hangul syllable -codepoints.

-

These ranges are defined in Unicode 4.8 Table 4-13.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/constant.RANGE_IDEOGRAPH.html b/target/doc/ucd_util/constant.RANGE_IDEOGRAPH.html deleted file mode 100644 index 3948224..0000000 --- a/target/doc/ucd_util/constant.RANGE_IDEOGRAPH.html +++ /dev/null @@ -1,3 +0,0 @@ -ucd_util::RANGE_IDEOGRAPH - Rust

[][src]Constant ucd_util::RANGE_IDEOGRAPH

pub const RANGE_IDEOGRAPH: &'static [(u32, u32)]

A set of ranges that corresponds to the set of all ideograph codepoints.

-

These ranges are defined in Unicode 4.8 Table 4-13.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.canonical_property_name.html b/target/doc/ucd_util/fn.canonical_property_name.html deleted file mode 100644 index 4bc38a7..0000000 --- a/target/doc/ucd_util/fn.canonical_property_name.html +++ /dev/null @@ -1,5 +0,0 @@ -ucd_util::canonical_property_name - Rust

[][src]Function ucd_util::canonical_property_name

pub fn canonical_property_name(
    property_table: PropertyTable,
    normalized_property_name: &str
) -> Option<&'static str>

Find the canonical property name for the given normalized property name.

-

If no such property exists, then None is returned.

-

The normalized property name must have been normalized according to -UAX44 LM3, which can be done using symbolic_name_normalize.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.canonical_property_value.html b/target/doc/ucd_util/fn.canonical_property_value.html deleted file mode 100644 index d19ba98..0000000 --- a/target/doc/ucd_util/fn.canonical_property_value.html +++ /dev/null @@ -1,8 +0,0 @@ -ucd_util::canonical_property_value - Rust

[][src]Function ucd_util::canonical_property_value

pub fn canonical_property_value(
    property_values: PropertyValues,
    normalized_property_value: &str
) -> Option<&'static str>

Find the canonical property value for the given normalized property -value.

-

The given property values should correspond to the values for the property -under question, which can be found using property_values.

-

If no such property value exists, then None is returned.

-

The normalized property value must have been normalized according to -UAX44 LM3, which can be done using symbolic_name_normalize.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.character_name_normalize.html b/target/doc/ucd_util/fn.character_name_normalize.html deleted file mode 100644 index dd0ec6a..0000000 --- a/target/doc/ucd_util/fn.character_name_normalize.html +++ /dev/null @@ -1,3 +0,0 @@ -ucd_util::character_name_normalize - Rust

[][src]Function ucd_util::character_name_normalize

pub fn character_name_normalize(string: &mut String)

Normalize the given character name in place according to UAX44-LM2.

-

See: http://unicode.org/reports/tr44/#UAX44-LM2

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.hangul_full_canonical_decomposition.html b/target/doc/ucd_util/fn.hangul_full_canonical_decomposition.html deleted file mode 100644 index 295bea6..0000000 --- a/target/doc/ucd_util/fn.hangul_full_canonical_decomposition.html +++ /dev/null @@ -1,8 +0,0 @@ -ucd_util::hangul_full_canonical_decomposition - Rust

[][src]Function ucd_util::hangul_full_canonical_decomposition

pub fn hangul_full_canonical_decomposition(
    cp: u32
) -> Option<(u32, u32, Option<u32>)>

Return the full canonical decomposition of the given precomposed Hangul -codepoint.

-

If the decomposition does not have any trailing consonant, then the third -part of the tuple returned is None.

-

If the given codepoint does not correspond to a precomposed Hangul -codepoint in the inclusive range AC00..D7A3, then this returns None.

-

This implements the algorithms described in Unicode 3.12 and Unicode 4.8.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.hangul_name.html b/target/doc/ucd_util/fn.hangul_name.html deleted file mode 100644 index f34d612..0000000 --- a/target/doc/ucd_util/fn.hangul_name.html +++ /dev/null @@ -1,5 +0,0 @@ -ucd_util::hangul_name - Rust

[][src]Function ucd_util::hangul_name

pub fn hangul_name(cp: u32) -> Option<String>

Return the character name of the given precomposed Hangul codepoint.

-

If the given codepoint does not correspond to a precomposed Hangul -codepoint in the inclusive range AC00..D7A3, then this returns None.

-

This implements the algorithms described in Unicode 3.12 and Unicode 4.8.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.ideograph_name.html b/target/doc/ucd_util/fn.ideograph_name.html deleted file mode 100644 index 81b493b..0000000 --- a/target/doc/ucd_util/fn.ideograph_name.html +++ /dev/null @@ -1,19 +0,0 @@ -ucd_util::ideograph_name - Rust

[][src]Function ucd_util::ideograph_name

pub fn ideograph_name(cp: u32) -> Option<String>

Return the character name of the given ideograph codepoint.

-

This operation is only defined on ideographic codepoints. This includes -precisely the following inclusive ranges:

-
    -
  • 3400..4DB5
  • -
  • 4E00..9FD5
  • -
  • 20000..2A6D6
  • -
  • 2A700..2B734
  • -
  • 2B740..2B81D
  • -
  • 2B820..2CEA1
  • -
  • 17000..187EC
  • -
  • F900..FA6D
  • -
  • FA70..FAD9
  • -
  • 2F800..2FA1D
  • -
-

If the given codepoint is not in any of the above ranges, then None is -returned.

-

This implements the algorithm described in Unicode 4.8.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.property_values.html b/target/doc/ucd_util/fn.property_values.html deleted file mode 100644 index d8e22a6..0000000 --- a/target/doc/ucd_util/fn.property_values.html +++ /dev/null @@ -1,9 +0,0 @@ -ucd_util::property_values - Rust

[][src]Function ucd_util::property_values

pub fn property_values(
    property_value_table: PropertyValueTable,
    canonical_property_name: &str
) -> Option<PropertyValues>

Find the set of possible property values for a given property.

-

The set returned is a mapping expressed as a sorted list of tuples. -The first element of each tuple is a normalized property value while the -second element of each tuple is the corresponding canonical property -value.

-

If no such property exists, then None is returned.

-

The given property name must be in its canonical form, which can be -found using canonical_property_name.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/fn.symbolic_name_normalize.html b/target/doc/ucd_util/fn.symbolic_name_normalize.html deleted file mode 100644 index 1030d12..0000000 --- a/target/doc/ucd_util/fn.symbolic_name_normalize.html +++ /dev/null @@ -1,6 +0,0 @@ -ucd_util::symbolic_name_normalize - Rust

[][src]Function ucd_util::symbolic_name_normalize

pub fn symbolic_name_normalize(string: &mut String)

Normalize the given symbolic name in place according to UAX44-LM3.

-

A "symbolic name" typically corresponds to property names and property -value aliases. Note, though, that it should not be applied to property -string values.

-

See: http://unicode.org/reports/tr44/#UAX44-LM2

-
\ No newline at end of file diff --git a/target/doc/ucd_util/hangul/constant.RANGE_HANGUL_SYLLABLE.html b/target/doc/ucd_util/hangul/constant.RANGE_HANGUL_SYLLABLE.html deleted file mode 100644 index eb24d42..0000000 --- a/target/doc/ucd_util/hangul/constant.RANGE_HANGUL_SYLLABLE.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/constant.RANGE_HANGUL_SYLLABLE.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/hangul/fn.hangul_full_canonical_decomposition.html b/target/doc/ucd_util/hangul/fn.hangul_full_canonical_decomposition.html deleted file mode 100644 index b218761..0000000 --- a/target/doc/ucd_util/hangul/fn.hangul_full_canonical_decomposition.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.hangul_full_canonical_decomposition.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/hangul/fn.hangul_name.html b/target/doc/ucd_util/hangul/fn.hangul_name.html deleted file mode 100644 index fdca137..0000000 --- a/target/doc/ucd_util/hangul/fn.hangul_name.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.hangul_name.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/ideograph/constant.RANGE_IDEOGRAPH.html b/target/doc/ucd_util/ideograph/constant.RANGE_IDEOGRAPH.html deleted file mode 100644 index e4b14cf..0000000 --- a/target/doc/ucd_util/ideograph/constant.RANGE_IDEOGRAPH.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/constant.RANGE_IDEOGRAPH.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/ideograph/fn.ideograph_name.html b/target/doc/ucd_util/ideograph/fn.ideograph_name.html deleted file mode 100644 index 70542fb..0000000 --- a/target/doc/ucd_util/ideograph/fn.ideograph_name.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.ideograph_name.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/index.html b/target/doc/ucd_util/index.html deleted file mode 100644 index 509423f..0000000 --- a/target/doc/ucd_util/index.html +++ /dev/null @@ -1,27 +0,0 @@ -ucd_util - Rust

[][src]Crate ucd_util

The ucd-util crate contains a smattering of utility functions that implement -various algorithms specified by Unicode. There is no specific goal for -exhaustiveness. Instead, implementations should be added on an as-needed basis.

-

A current design constraint of this crate is that it should not bring in any -large Unicode tables. For example, to use the various property name and value -canonicalization functions, you'll need to supply your own table, which can -be generated using ucd-generate.

-

Constants

-
RANGE_HANGUL_SYLLABLE

A set of ranges that corresponds to the set of all Hangul syllable -codepoints.

-
RANGE_IDEOGRAPH

A set of ranges that corresponds to the set of all ideograph codepoints.

-

Functions

-
canonical_property_name

Find the canonical property name for the given normalized property name.

-
canonical_property_value

Find the canonical property value for the given normalized property -value.

-
character_name_normalize

Normalize the given character name in place according to UAX44-LM2.

-
hangul_full_canonical_decomposition

Return the full canonical decomposition of the given precomposed Hangul -codepoint.

-
hangul_name

Return the character name of the given precomposed Hangul codepoint.

-
ideograph_name

Return the character name of the given ideograph codepoint.

-
property_values

Find the set of possible property values for a given property.

-
symbolic_name_normalize

Normalize the given symbolic name in place according to UAX44-LM3.

-

Type Definitions

-
PropertyTable

The type of a property name table.

-
PropertyValueTable

Type of a property value table.

-
PropertyValues

A mapping of property values for a specific property.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/name/fn.character_name_normalize.html b/target/doc/ucd_util/name/fn.character_name_normalize.html deleted file mode 100644 index b676228..0000000 --- a/target/doc/ucd_util/name/fn.character_name_normalize.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.character_name_normalize.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/name/fn.symbolic_name_normalize.html b/target/doc/ucd_util/name/fn.symbolic_name_normalize.html deleted file mode 100644 index 8af5710..0000000 --- a/target/doc/ucd_util/name/fn.symbolic_name_normalize.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.symbolic_name_normalize.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/property/fn.canonical_property_name.html b/target/doc/ucd_util/property/fn.canonical_property_name.html deleted file mode 100644 index 4f4843e..0000000 --- a/target/doc/ucd_util/property/fn.canonical_property_name.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.canonical_property_name.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/property/fn.canonical_property_value.html b/target/doc/ucd_util/property/fn.canonical_property_value.html deleted file mode 100644 index d59e8dd..0000000 --- a/target/doc/ucd_util/property/fn.canonical_property_value.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.canonical_property_value.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/property/fn.property_values.html b/target/doc/ucd_util/property/fn.property_values.html deleted file mode 100644 index 1bc10dd..0000000 --- a/target/doc/ucd_util/property/fn.property_values.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/fn.property_values.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/property/type.PropertyTable.html b/target/doc/ucd_util/property/type.PropertyTable.html deleted file mode 100644 index 3b108ba..0000000 --- a/target/doc/ucd_util/property/type.PropertyTable.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/type.PropertyTable.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/property/type.PropertyValueTable.html b/target/doc/ucd_util/property/type.PropertyValueTable.html deleted file mode 100644 index ad0258f..0000000 --- a/target/doc/ucd_util/property/type.PropertyValueTable.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/type.PropertyValueTable.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/property/type.PropertyValues.html b/target/doc/ucd_util/property/type.PropertyValues.html deleted file mode 100644 index 2803ed2..0000000 --- a/target/doc/ucd_util/property/type.PropertyValues.html +++ /dev/null @@ -1,10 +0,0 @@ - - - - - - -

Redirecting to ../../ucd_util/type.PropertyValues.html...

- - - \ No newline at end of file diff --git a/target/doc/ucd_util/sidebar-items.js b/target/doc/ucd_util/sidebar-items.js deleted file mode 100644 index e8a583b..0000000 --- a/target/doc/ucd_util/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"constant":[["RANGE_HANGUL_SYLLABLE","A set of ranges that corresponds to the set of all Hangul syllable codepoints."],["RANGE_IDEOGRAPH","A set of ranges that corresponds to the set of all ideograph codepoints."]],"fn":[["canonical_property_name","Find the canonical property name for the given normalized property name."],["canonical_property_value","Find the canonical property value for the given normalized property value."],["character_name_normalize","Normalize the given character name in place according to UAX44-LM2."],["hangul_full_canonical_decomposition","Return the full canonical decomposition of the given precomposed Hangul codepoint."],["hangul_name","Return the character name of the given precomposed Hangul codepoint."],["ideograph_name","Return the character name of the given ideograph codepoint."],["property_values","Find the set of possible property values for a given property."],["symbolic_name_normalize","Normalize the given symbolic name in place according to UAX44-LM3."]],"type":[["PropertyTable","The type of a property name table."],["PropertyValueTable","Type of a property value table."],["PropertyValues","A mapping of property values for a specific property."]]}); \ No newline at end of file diff --git a/target/doc/ucd_util/type.PropertyTable.html b/target/doc/ucd_util/type.PropertyTable.html deleted file mode 100644 index 1a37539..0000000 --- a/target/doc/ucd_util/type.PropertyTable.html +++ /dev/null @@ -1,5 +0,0 @@ -ucd_util::PropertyTable - Rust

[][src]Type Definition ucd_util::PropertyTable

type PropertyTable = &'static [(&'static str, &'static str)];

The type of a property name table.

-

A property name table is a sequence of sorted tuples, where the first -value in each tuple is a normalized property name and the second value of -each tuple is the corresponding canonical property name.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/type.PropertyValueTable.html b/target/doc/ucd_util/type.PropertyValueTable.html deleted file mode 100644 index ba38a27..0000000 --- a/target/doc/ucd_util/type.PropertyValueTable.html +++ /dev/null @@ -1,11 +0,0 @@ -ucd_util::PropertyValueTable - Rust

[][src]Type Definition ucd_util::PropertyValueTable

type PropertyValueTable = &'static [(&'static str, PropertyValues)];

Type of a property value table.

-

A property value table maps property names to a mapping of property values, -where the mapping of property values is represented by a sequence of -tuples. The first element of each tuple is a normalized property value -while the second element of each tuple is the corresponding canonical -property value.

-

Note that a property value table only includes values for properties that -are catalogs, enumerations or binary properties. Properties that have -string values (such as case or decomposition mappings), numeric values -or are miscellaneous are not represented in this table.

-
\ No newline at end of file diff --git a/target/doc/ucd_util/type.PropertyValues.html b/target/doc/ucd_util/type.PropertyValues.html deleted file mode 100644 index ec61a33..0000000 --- a/target/doc/ucd_util/type.PropertyValues.html +++ /dev/null @@ -1,5 +0,0 @@ -ucd_util::PropertyValues - Rust

[][src]Type Definition ucd_util::PropertyValues

type PropertyValues = &'static [(&'static str, &'static str)];

A mapping of property values for a specific property.

-

The first element of each tuple is a normalized property value while the -second element of each tuple is the corresponding canonical property -value.

-
\ No newline at end of file diff --git a/target/doc/utf8_ranges/all.html b/target/doc/utf8_ranges/all.html deleted file mode 100644 index 1d9ace3..0000000 --- a/target/doc/utf8_ranges/all.html +++ /dev/null @@ -1,3 +0,0 @@ -List of all items in this crate

[] - - List of all items

Structs

Enums

\ No newline at end of file diff --git a/target/doc/utf8_ranges/enum.Utf8Sequence.html b/target/doc/utf8_ranges/enum.Utf8Sequence.html deleted file mode 100644 index 8c714c3..0000000 --- a/target/doc/utf8_ranges/enum.Utf8Sequence.html +++ /dev/null @@ -1,43 +0,0 @@ -utf8_ranges::Utf8Sequence - Rust

[][src]Enum utf8_ranges::Utf8Sequence

pub enum Utf8Sequence {
-    One(Utf8Range),
-    Two([Utf8Range; 2]),
-    Three([Utf8Range; 3]),
-    Four([Utf8Range; 4]),
-}

Utf8Sequence represents a sequence of byte ranges.

-

To match a Utf8Sequence, a candidate byte sequence must match each -successive range.

-

For example, if there are two ranges, [C2-DF][80-BF], then the byte -sequence \xDD\x61 would not match because 0x61 < 0x80.

-

- Variants

-One(Utf8Range)

One byte range.

-
Two([Utf8Range; 2])

Two successive byte ranges.

-
Three([Utf8Range; 3])

Three successive byte ranges.

-
Four([Utf8Range; 4])

Four successive byte ranges.

-

Methods

impl Utf8Sequence[src]

pub fn as_slice(&self) -> &[Utf8Range][src]

Returns the underlying sequence of byte ranges as a slice.

-

pub fn len(&self) -> usize[src]

Returns the number of byte ranges in this sequence.

-

The length is guaranteed to be in the closed interval [1, 4].

-

pub fn matches(&self, bytes: &[u8]) -> bool[src]

Returns true if and only if a prefix of bytes matches this sequence -of byte ranges.

-

Trait Implementations

impl PartialEq<Utf8Sequence> for Utf8Sequence[src]

impl Clone for Utf8Sequence[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl<'a> IntoIterator for &'a Utf8Sequence[src]

type IntoIter = Iter<'a, Utf8Range>

Which kind of iterator are we turning this into?

-

type Item = &'a Utf8Range

The type of the elements being iterated over.

-

impl Eq for Utf8Sequence[src]

impl Copy for Utf8Sequence[src]

impl Debug for Utf8Sequence[src]

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/utf8_ranges/index.html b/target/doc/utf8_ranges/index.html deleted file mode 100644 index 9a82218..0000000 --- a/target/doc/utf8_ranges/index.html +++ /dev/null @@ -1,74 +0,0 @@ -utf8_ranges - Rust

[][src]Crate utf8_ranges

Crate utf8-ranges converts ranges of Unicode scalar values to equivalent -ranges of UTF-8 bytes. This is useful for constructing byte based automatons -that need to embed UTF-8 decoding.

-

See the documentation on the Utf8Sequences iterator for more details and -an example.

-

Wait, what is this?

-

This is simplest to explain with an example. Let's say you wanted to test -whether a particular byte sequence was a Cyrillic character. One possible -scalar value range is [0400-04FF]. The set of allowed bytes for this -range can be expressed as a sequence of byte ranges:

- -
This example is not tested
-[D0-D3][80-BF]
-

This is simple enough: simply encode the boundaries, 0400 encodes to -D0 80 and 04FF encodes to D3 BF, and create ranges from each -corresponding pair of bytes: D0 to D3 and 80 to BF.

-

However, what if you wanted to add the Cyrillic Supplementary characters to -your range? Your range might then become [0400-052F]. The same procedure -as above doesn't quite work because 052F encodes to D4 AF. The byte ranges -you'd get from the previous transformation would be [D0-D4][80-AF]. However, -this isn't quite correct because this range doesn't capture many characters, -for example, 04FF (because its last byte, BF isn't in the range 80-AF).

-

Instead, you need multiple sequences of byte ranges:

- -
This example is not tested
-[D0-D3][80-BF]  # matches codepoints 0400-04FF
-[D4][80-AF]     # matches codepoints 0500-052F
-

This gets even more complicated if you want bigger ranges, particularly if -they naively contain surrogate codepoints. For example, the sequence of byte -ranges for the basic multilingual plane ([0000-FFFF]) look like this:

- -
This example is not tested
-[0-7F]
-[C2-DF][80-BF]
-[E0][A0-BF][80-BF]
-[E1-EC][80-BF][80-BF]
-[ED][80-9F][80-BF]
-[EE-EF][80-BF][80-BF]
-

Note that the byte ranges above will not match any erroneous encoding of -UTF-8, including encodings of surrogate codepoints.

-

And, of course, for all of Unicode ([000000-10FFFF]):

- -
This example is not tested
-[0-7F]
-[C2-DF][80-BF]
-[E0][A0-BF][80-BF]
-[E1-EC][80-BF][80-BF]
-[ED][80-9F][80-BF]
-[EE-EF][80-BF][80-BF]
-[F0][90-BF][80-BF][80-BF]
-[F1-F3][80-BF][80-BF][80-BF]
-[F4][80-8F][80-BF][80-BF]
-

This crate automates the process of creating these byte ranges from ranges of -Unicode scalar values.

-

Why would I ever use this?

-

You probably won't ever need this. In 99% of cases, you just decode the byte -sequence into a Unicode scalar value and compare scalar values directly. -However, this explicit decoding step isn't always possible. For example, the -construction of some finite state machines may benefit from converting ranges -of scalar values into UTF-8 decoder automata (e.g., for character classes in -regular expressions).

-

Lineage

-

I got the idea and general implementation strategy from Russ Cox in his -article on regexps and RE2. -Russ Cox got it from Ken Thompson's grep (no source, folk lore?). -I also got the idea from -Lucene, -which uses it for executing automata on their term index.

-

Structs

-
Utf8Range

A single inclusive range of UTF-8 bytes.

-
Utf8Sequences

An iterator over ranges of matching UTF-8 byte sequences.

-

Enums

-
Utf8Sequence

Utf8Sequence represents a sequence of byte ranges.

-
\ No newline at end of file diff --git a/target/doc/utf8_ranges/sidebar-items.js b/target/doc/utf8_ranges/sidebar-items.js deleted file mode 100644 index e3c4fa4..0000000 --- a/target/doc/utf8_ranges/sidebar-items.js +++ /dev/null @@ -1 +0,0 @@ -initSidebarItems({"enum":[["Utf8Sequence","Utf8Sequence represents a sequence of byte ranges."]],"struct":[["Utf8Range","A single inclusive range of UTF-8 bytes."],["Utf8Sequences","An iterator over ranges of matching UTF-8 byte sequences."]]}); \ No newline at end of file diff --git a/target/doc/utf8_ranges/struct.Utf8Range.html b/target/doc/utf8_ranges/struct.Utf8Range.html deleted file mode 100644 index e0f95f4..0000000 --- a/target/doc/utf8_ranges/struct.Utf8Range.html +++ /dev/null @@ -1,27 +0,0 @@ -utf8_ranges::Utf8Range - Rust

[][src]Struct utf8_ranges::Utf8Range

pub struct Utf8Range {
-    pub start: u8,
-    pub end: u8,
-}

A single inclusive range of UTF-8 bytes.

-

- Fields

start: u8

Start of byte range (inclusive).

-
end: u8

End of byte range (inclusive).

-

Methods

impl Utf8Range[src]

pub fn matches(&self, b: u8) -> bool[src]

Returns true if and only if the given byte is in this range.

-

Trait Implementations

impl PartialEq<Utf8Range> for Utf8Range[src]

impl Clone for Utf8Range[src]

fn clone_from(&mut self, source: &Self)1.0.0[src]

Performs copy-assignment from source. Read more

-

impl Eq for Utf8Range[src]

impl Copy for Utf8Range[src]

impl Debug for Utf8Range[src]

Auto Trait Implementations

impl Send for Utf8Range

impl Sync for Utf8Range

Blanket Implementations

impl<T> From<T> for T[src]

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

\ No newline at end of file diff --git a/target/doc/utf8_ranges/struct.Utf8Sequences.html b/target/doc/utf8_ranges/struct.Utf8Sequences.html deleted file mode 100644 index 2cc6bda..0000000 --- a/target/doc/utf8_ranges/struct.Utf8Sequences.html +++ /dev/null @@ -1,122 +0,0 @@ -utf8_ranges::Utf8Sequences - Rust

[][src]Struct utf8_ranges::Utf8Sequences

pub struct Utf8Sequences { /* fields omitted */ }

An iterator over ranges of matching UTF-8 byte sequences.

-

The iteration represents an alternation of comprehensive byte sequences -that match precisely the set of UTF-8 encoded scalar values.

-

A byte sequence corresponds to one of the scalar values in the range given -if and only if it completely matches exactly one of the sequences of byte -ranges produced by this iterator.

-

Each sequence of byte ranges matches a unique set of bytes. That is, no two -sequences will match the same bytes.

-

Example

-

This shows how to match an arbitrary byte sequence against a range of -scalar values.

- -
-use utf8_ranges::{Utf8Sequences, Utf8Sequence};
-
-fn matches(seqs: &[Utf8Sequence], bytes: &[u8]) -> bool {
-    for range in seqs {
-        if range.matches(bytes) {
-            return true;
-        }
-    }
-    false
-}
-
-// Test the basic multilingual plane.
-let seqs: Vec<_> = Utf8Sequences::new('\u{0}', '\u{FFFF}').collect();
-
-// UTF-8 encoding of 'a'.
-assert!(matches(&seqs, &[0x61]));
-// UTF-8 encoding of '☃' (`\u{2603}`).
-assert!(matches(&seqs, &[0xE2, 0x98, 0x83]));
-// UTF-8 encoding of `\u{10348}` (outside the BMP).
-assert!(!matches(&seqs, &[0xF0, 0x90, 0x8D, 0x88]));
-// Tries to match against a UTF-8 encoding of a surrogate codepoint,
-// which is invalid UTF-8, and therefore fails, despite the fact that
-// the corresponding codepoint (0xD800) falls in the range given.
-assert!(!matches(&seqs, &[0xED, 0xA0, 0x80]));
-// And fails against plain old invalid UTF-8.
-assert!(!matches(&seqs, &[0xFF, 0xFF]));
-

If this example seems circuitous, that's because it is! It's meant to be -illustrative. In practice, you could just try to decode your byte sequence -and compare it with the scalar value range directly. However, this is not -always possible (for example, in a byte based automaton).

-

Methods

impl Utf8Sequences[src]

pub fn new(start: char, end: char) -> Self[src]

Create a new iterator over UTF-8 byte ranges for the scalar value range -given.

-

Trait Implementations

impl Iterator for Utf8Sequences[src]

type Item = Utf8Sequence

The type of the elements being iterated over.

-

fn size_hint(&self) -> (usize, Option<usize>)1.0.0[src]

Returns the bounds on the remaining length of the iterator. Read more

-

fn count(self) -> usize1.0.0[src]

Consumes the iterator, counting the number of iterations and returning it. Read more

-

fn last(self) -> Option<Self::Item>1.0.0[src]

Consumes the iterator, returning the last element. Read more

-

fn nth(&mut self, n: usize) -> Option<Self::Item>1.0.0[src]

Returns the nth element of the iterator. Read more

-

fn step_by(self, step: usize) -> StepBy<Self>1.28.0[src]

Creates an iterator starting at the same point, but stepping by the given amount at each iteration. Read more

-

fn chain<U>(self, other: U) -> Chain<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator<Item = Self::Item>, 
1.0.0[src]

Takes two iterators and creates a new iterator over both in sequence. Read more

-

fn zip<U>(self, other: U) -> Zip<Self, <U as IntoIterator>::IntoIter> where
    U: IntoIterator
1.0.0[src]

'Zips up' two iterators into a single iterator of pairs. Read more

-

fn map<B, F>(self, f: F) -> Map<Self, F> where
    F: FnMut(Self::Item) -> B, 
1.0.0[src]

Takes a closure and creates an iterator which calls that closure on each element. Read more

-

fn for_each<F>(self, f: F) where
    F: FnMut(Self::Item), 
1.21.0[src]

Calls a closure on each element of an iterator. Read more

-

fn filter<P>(self, predicate: P) -> Filter<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator which uses a closure to determine if an element should be yielded. Read more

-

fn filter_map<B, F>(self, f: F) -> FilterMap<Self, F> where
    F: FnMut(Self::Item) -> Option<B>, 
1.0.0[src]

Creates an iterator that both filters and maps. Read more

-

fn enumerate(self) -> Enumerate<Self>1.0.0[src]

Creates an iterator which gives the current iteration count as well as the next value. Read more

-

fn peekable(self) -> Peekable<Self>1.0.0[src]

Creates an iterator which can use peek to look at the next element of the iterator without consuming it. Read more

-

fn skip_while<P>(self, predicate: P) -> SkipWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that [skip]s elements based on a predicate. Read more

-

fn take_while<P>(self, predicate: P) -> TakeWhile<Self, P> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Creates an iterator that yields elements based on a predicate. Read more

-

fn skip(self, n: usize) -> Skip<Self>1.0.0[src]

Creates an iterator that skips the first n elements. Read more

-

fn take(self, n: usize) -> Take<Self>1.0.0[src]

Creates an iterator that yields its first n elements. Read more

-

fn scan<St, B, F>(self, initial_state: St, f: F) -> Scan<Self, St, F> where
    F: FnMut(&mut St, Self::Item) -> Option<B>, 
1.0.0[src]

An iterator adaptor similar to [fold] that holds internal state and produces a new iterator. Read more

-

fn flat_map<U, F>(self, f: F) -> FlatMap<Self, U, F> where
    F: FnMut(Self::Item) -> U,
    U: IntoIterator
1.0.0[src]

Creates an iterator that works like map, but flattens nested structure. Read more

-

fn flatten(self) -> Flatten<Self> where
    Self::Item: IntoIterator
1.29.0[src]

Creates an iterator that flattens nested structure. Read more

-

fn fuse(self) -> Fuse<Self>1.0.0[src]

Creates an iterator which ends after the first [None]. Read more

-

fn inspect<F>(self, f: F) -> Inspect<Self, F> where
    F: FnMut(&Self::Item), 
1.0.0[src]

Do something with each element of an iterator, passing the value on. Read more

-

fn by_ref(&mut self) -> &mut Self1.0.0[src]

Borrows an iterator, rather than consuming it. Read more

-

#[must_use = "if you really need to exhaust the iterator, consider `.for_each(drop)` instead"] -
fn collect<B>(self) -> B where
    B: FromIterator<Self::Item>, 
1.0.0[src]

Transforms an iterator into a collection. Read more

-

fn partition<B, F>(self, f: F) -> (B, B) where
    B: Default + Extend<Self::Item>,
    F: FnMut(&Self::Item) -> bool
1.0.0[src]

Consumes an iterator, creating two collections from it. Read more

-

fn try_fold<B, F, R>(&mut self, init: B, f: F) -> R where
    F: FnMut(B, Self::Item) -> R,
    R: Try<Ok = B>, 
1.27.0[src]

An iterator method that applies a function as long as it returns successfully, producing a single, final value. Read more

-

fn try_for_each<F, R>(&mut self, f: F) -> R where
    F: FnMut(Self::Item) -> R,
    R: Try<Ok = ()>, 
1.27.0[src]

An iterator method that applies a fallible function to each item in the iterator, stopping at the first error and returning that error. Read more

-

fn fold<B, F>(self, init: B, f: F) -> B where
    F: FnMut(B, Self::Item) -> B, 
1.0.0[src]

An iterator method that applies a function, producing a single, final value. Read more

-

fn all<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if every element of the iterator matches a predicate. Read more

-

fn any<F>(&mut self, f: F) -> bool where
    F: FnMut(Self::Item) -> bool
1.0.0[src]

Tests if any element of the iterator matches a predicate. Read more

-

fn find<P>(&mut self, predicate: P) -> Option<Self::Item> where
    P: FnMut(&Self::Item) -> bool
1.0.0[src]

Searches for an element of an iterator that satisfies a predicate. Read more

-

fn find_map<B, F>(&mut self, f: F) -> Option<B> where
    F: FnMut(Self::Item) -> Option<B>, 
1.30.0[src]

Applies function to the elements of iterator and returns the first non-none result. Read more

-

fn position<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool
1.0.0[src]

Searches for an element in an iterator, returning its index. Read more

-

fn rposition<P>(&mut self, predicate: P) -> Option<usize> where
    P: FnMut(Self::Item) -> bool,
    Self: ExactSizeIterator + DoubleEndedIterator
1.0.0[src]

Searches for an element in an iterator from the right, returning its index. Read more

-

fn max(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the maximum element of an iterator. Read more

-

fn min(self) -> Option<Self::Item> where
    Self::Item: Ord
1.0.0[src]

Returns the minimum element of an iterator. Read more

-

fn max_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the maximum value from the specified function. Read more

-

fn max_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the maximum value with respect to the specified comparison function. Read more

-

fn min_by_key<B, F>(self, f: F) -> Option<Self::Item> where
    B: Ord,
    F: FnMut(&Self::Item) -> B, 
1.6.0[src]

Returns the element that gives the minimum value from the specified function. Read more

-

fn min_by<F>(self, compare: F) -> Option<Self::Item> where
    F: FnMut(&Self::Item, &Self::Item) -> Ordering
1.15.0[src]

Returns the element that gives the minimum value with respect to the specified comparison function. Read more

-

fn rev(self) -> Rev<Self> where
    Self: DoubleEndedIterator
1.0.0[src]

Reverses an iterator's direction. Read more

-

fn unzip<A, B, FromA, FromB>(self) -> (FromA, FromB) where
    FromA: Default + Extend<A>,
    FromB: Default + Extend<B>,
    Self: Iterator<Item = (A, B)>, 
1.0.0[src]

Converts an iterator of pairs into a pair of containers. Read more

-

fn copied<'a, T>(self) -> Copied<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Copy
1.36.0[src]

Creates an iterator which copies all of its elements. Read more

-

fn cloned<'a, T>(self) -> Cloned<Self> where
    Self: Iterator<Item = &'a T>,
    T: 'a + Clone
1.0.0[src]

Creates an iterator which [clone]s all of its elements. Read more

-

fn cycle(self) -> Cycle<Self> where
    Self: Clone
1.0.0[src]

Repeats an iterator endlessly. Read more

-

fn sum<S>(self) -> S where
    S: Sum<Self::Item>, 
1.11.0[src]

Sums the elements of an iterator. Read more

-

fn product<P>(self) -> P where
    P: Product<Self::Item>, 
1.11.0[src]

Iterates over the entire iterator, multiplying all the elements Read more

-

fn cmp<I>(self, other: I) -> Ordering where
    I: IntoIterator<Item = Self::Item>,
    Self::Item: Ord
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn partial_cmp<I>(self, other: I) -> Option<Ordering> where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Lexicographically compares the elements of this Iterator with those of another. Read more

-

fn eq<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are equal to those of another. Read more

-

fn ne<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialEq<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are unequal to those of another. Read more

-

fn lt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less than those of another. Read more

-

fn le<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically less or equal to those of another. Read more

-

fn gt<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than those of another. Read more

-

fn ge<I>(self, other: I) -> bool where
    I: IntoIterator,
    Self::Item: PartialOrd<<I as IntoIterator>::Item>, 
1.5.0[src]

Determines if the elements of this Iterator are lexicographically greater than or equal to those of another. Read more

-

fn is_sorted(self) -> bool where
    Self::Item: PartialOrd<Self::Item>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted. Read more

-

fn is_sorted_by<F>(self, compare: F) -> bool where
    F: FnMut(&Self::Item, &Self::Item) -> Option<Ordering>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given comparator function. Read more

-

fn is_sorted_by_key<F, K>(self, f: F) -> bool where
    F: FnMut(&Self::Item) -> K,
    K: PartialOrd<K>, 
[src]

🔬 This is a nightly-only experimental API. (is_sorted)

new API

-

Checks if the elements of this iterator are sorted using the given key extraction function. Read more

-

Auto Trait Implementations

Blanket Implementations

impl<T> From<T> for T[src]

impl<I> IntoIterator for I where
    I: Iterator
[src]

type Item = <I as Iterator>::Item

The type of the elements being iterated over.

-

type IntoIter = I

Which kind of iterator are we turning this into?

-

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

-

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

-

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]

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