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>;
#[derive(Clone, Debug, Eq, PartialEq)]
enum Primitive {
Literal(ast::Literal),
Assertion(ast::Assertion),
Dot(Span),
Perl(ast::ClassPerl),
Unicode(ast::ClassUnicode),
}
impl 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,
}
}
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)),
}
}
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)),
}
}
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)),
}
}
}
fn is_hex(c: char) -> bool {
('0' <= c && c <= '9') || ('a' <= c && c <= 'f') || ('A' <= c && c <= 'F')
}
fn is_capture_char(c: char, first: bool) -> bool {
c == '_' || (!first && c >= '0' && c <= '9')
|| (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')
}
#[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 {
pub fn new() -> ParserBuilder {
ParserBuilder {
ignore_whitespace: false,
nest_limit: 250,
octal: false,
}
}
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()),
}
}
pub fn nest_limit(&mut self, limit: u32) -> &mut ParserBuilder {
self.nest_limit = limit;
self
}
pub fn octal(&mut self, yes: bool) -> &mut ParserBuilder {
self.octal = yes;
self
}
pub fn ignore_whitespace(&mut self, yes: bool) -> &mut ParserBuilder {
self.ignore_whitespace = yes;
self
}
}
#[derive(Clone, Debug)]
pub struct Parser {
pos: Cell<Position>,
capture_index: Cell<u32>,
nest_limit: u32,
octal: bool,
initial_ignore_whitespace: bool,
ignore_whitespace: Cell<bool>,
comments: RefCell<Vec<ast::Comment>>,
stack_group: RefCell<Vec<GroupState>>,
stack_class: RefCell<Vec<ClassState>>,
capture_names: RefCell<Vec<ast::CaptureName>>,
scratch: RefCell<String>,
}
#[derive(Clone, Debug)]
struct ParserI<'s, P> {
parser: P,
pattern: &'s str,
}
#[derive(Clone, Debug)]
enum GroupState {
Group {
concat: ast::Concat,
group: ast::Group,
ignore_whitespace: bool,
},
Alternation(ast::Alternation),
}
#[derive(Clone, Debug)]
enum ClassState {
Open {
union: ast::ClassSetUnion,
set: ast::ClassBracketed,
},
Op {
kind: ast::ClassSetBinaryOpKind,
lhs: ast::ClassSet,
},
}
impl Parser {
pub fn new() -> Parser {
ParserBuilder::new().build()
}
pub fn parse(&mut self, pattern: &str) -> Result<Ast> {
ParserI::new(self, pattern).parse()
}
pub fn parse_with_comments(
&mut self,
pattern: &str,
) -> Result<ast::WithComments> {
ParserI::new(self, pattern).parse_with_comments()
}
fn reset(&self) {
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> {
fn new(parser: P, pattern: &'s str) -> ParserI<'s, P> {
ParserI { parser: parser, pattern: pattern }
}
fn parser(&self) -> &Parser {
self.parser.borrow()
}
fn pattern(&self) -> &str {
self.pattern.borrow()
}
fn error(&self, span: Span, kind: ast::ErrorKind) -> ast::Error {
ast::Error {
kind: kind,
pattern: self.pattern().to_string(),
span: span,
}
}
fn offset(&self) -> usize {
self.parser().pos.get().offset
}
fn line(&self) -> usize {
self.parser().pos.get().line
}
fn column(&self) -> usize {
self.parser().pos.get().column
}
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)
}
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,
}))
}
}
}
fn ignore_whitespace(&self) -> bool {
self.parser().ignore_whitespace.get()
}
fn char(&self) -> char {
self.char_at(self.offset())
}
fn char_at(&self, i: usize) -> char {
self.pattern()[i..].chars().next()
.unwrap_or_else(|| {
panic!("expected char at offset {}", i)
})
}
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()
}
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
}
}
fn is_lookaround_prefix(&self) -> bool {
self.bump_if("?=")
|| self.bump_if("?!")
|| self.bump_if("?<=")
|| self.bump_if("?<!")
}
fn bump_and_bump_space(&self) -> bool {
if !self.bump() {
return false;
}
self.bump_space();
!self.is_eof()
}
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;
}
}
}
fn peek(&self) -> Option<char> {
if self.is_eof() {
return None;
}
self.pattern()[self.offset() + self.char().len_utf8()..].chars().next()
}
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()
}
fn is_eof(&self) -> bool {
self.offset() == self.pattern().len()
}
fn pos(&self) -> Position {
self.parser().pos.get()
}
fn span(&self) -> Span {
Span::splat(self.pos())
}
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)
}
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![],
})
}
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()],
}));
}
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![],
})
}
}
}
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)
}
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,
));
}
};
match stack.pop() {
None => ast,
Some(GroupState::Alternation(_)) => {
unreachable!()
}
Some(GroupState::Group { group, .. }) => {
Err(self.error(group.span, ast::ErrorKind::GroupUnclosed))
}
}
}
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)
}
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 => {
panic!("unexpected empty character class stack")
},
Some(ClassState::Op { .. }) => {
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))
}
}
}
}
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);
}
_ => {}
}
}
panic!("no open character class found")
}
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![] }
}
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> {
fn parse(&self) -> Result<Ast> {
self.parse_with_comments().map(|astc| astc.ast)
}
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![],
),
})
}
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)
}
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)
}
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 == ')' {
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())),
}))
}
}
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)
}
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)
}
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,
)),
}
}
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)
}
}
}
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();
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));
}
_ => {}
}
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)),
}
}
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();
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];
let codepoint =
u32::from_str_radix(octal, 8).expect("valid octal number");
let c = char::from_u32(codepoint).expect("Unicode scalar value");
ast::Literal {
span: Span::new(start, end),
kind: ast::LiteralKind::Octal,
c: c,
}
}
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)
}
}
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());
}
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,
}),
}
}
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,
}),
}
}
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)),
}
}
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 !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()?);
}
}
}
}
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 self.char() != '-'
|| self.peek_space() == Some(']')
|| self.peek_space() == Some('-')
{
return prim1.into_class_set_item(self);
}
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))
}
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)
}
}
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
};
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 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))
}
fn maybe_parse_ascii_class(&self) -> Option<ast::ClassAscii> {
assert_eq!(self.char(), '[');
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,
})
}
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,
})
}
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 }
}
}
#[derive(Debug)]
struct NestLimiter<'p, 's: 'p, P: 'p + 's> {
p: &'p ParserI<'s, P>,
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) {
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(_)) => {
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(_)) => {
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(_) => {
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(_) => {
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(())
}
}
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};
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)
}
}
}
});
}
#[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)
}
fn nspan(start: Position, end: Position) -> Span {
Span::new(start, end)
}
fn npos(offset: usize, line: usize, column: usize) -> Position {
Position::new(offset, line, column)
}
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)
}
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)
}
fn lit(c: char, start: usize) -> Ast {
lit_with(c, span(start..start + c.len_utf8()))
}
fn punct_lit(c: char, span: Span) -> Ast {
Ast::Literal(ast::Literal {
span: span,
kind: ast::LiteralKind::Punctuation,
c: c,
})
}
fn lit_with(c: char, span: Span) -> Ast {
Ast::Literal(ast::Literal {
span: span,
kind: ast::LiteralKind::Verbatim,
c: c,
})
}
fn concat(range: Range<usize>, asts: Vec<Ast>) -> Ast {
concat_with(span(range), asts)
}
fn concat_with(span: Span, asts: Vec<Ast>) -> Ast {
Ast::Concat(ast::Concat { span: span, asts: asts })
}
fn alt(range: Range<usize>, asts: Vec<Ast>) -> Ast {
Ast::Alternation(ast::Alternation { span: span(range), asts: asts })
}
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),
})
}
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() {
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)));
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)),
})),
})));
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)])));
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)])));
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() {
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))),
])));
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))),
])));
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)),
])));
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',
}),
])));
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: ' ',
}),
])));
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',
}),
],
})));
}
#[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());
}
#[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());
}
}