/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2015-2017 Chris Pavlina * Copyright (C) 2015-2022 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include bool EDA_PATTERN_MATCH_SUBSTR::SetPattern( const wxString& aPattern ) { m_pattern = aPattern; return true; } wxString const& EDA_PATTERN_MATCH_SUBSTR::GetPattern() const { return m_pattern; } EDA_PATTERN_MATCH::FIND_RESULT EDA_PATTERN_MATCH_SUBSTR::Find( const wxString& aCandidate ) const { int loc = aCandidate.Find( m_pattern ); if( loc == wxNOT_FOUND ) return {}; else return { loc, static_cast( m_pattern.size() ) }; } /** * Context class to set wx loglevel for a block, and always restore it at the end. */ class WX_LOGLEVEL_CONTEXT { wxLogLevel m_old_level; public: WX_LOGLEVEL_CONTEXT( wxLogLevel level ) { m_old_level = wxLog::GetLogLevel(); wxLog::SetLogLevel( level ); } ~WX_LOGLEVEL_CONTEXT() { wxLog::SetLogLevel( m_old_level ); } }; bool EDA_PATTERN_MATCH_REGEX::SetPattern( const wxString& aPattern ) { m_pattern = aPattern; // Evil and undocumented: wxRegEx::Compile calls wxLogError on error, even // though it promises to just return false. Silence the error. WX_LOGLEVEL_CONTEXT ctx( wxLOG_FatalError ); return m_regex.Compile( aPattern, wxRE_ADVANCED ); } bool EDA_PATTERN_MATCH_REGEX_EXPLICIT::SetPattern( const wxString& aPattern ) { wxString pattern( aPattern ); if( !pattern.StartsWith( wxT( "^" ) ) ) pattern = wxT( "^" ) + pattern; if( !pattern.EndsWith( wxT( "$" ) ) ) pattern += wxT( "$" ); return EDA_PATTERN_MATCH_REGEX::SetPattern( pattern ); } wxString const& EDA_PATTERN_MATCH_REGEX::GetPattern() const { return m_pattern; } EDA_PATTERN_MATCH::FIND_RESULT EDA_PATTERN_MATCH_REGEX::Find( const wxString& aCandidate ) const { if( m_regex.IsValid() ) { if( m_regex.Matches( aCandidate ) ) { size_t start, len; m_regex.GetMatch( &start, &len, 0 ); return { static_cast( std::min( start, static_cast( INT_MAX ) ) ), static_cast( std::min( len, static_cast( INT_MAX ) ) ) }; } else { return {}; } } else { int loc = aCandidate.Find( m_pattern ); if( loc == wxNOT_FOUND ) return {}; else return { loc, static_cast( m_pattern.size() ) }; } } bool EDA_PATTERN_MATCH_WILDCARD::SetPattern( const wxString& aPattern ) { m_wildcard_pattern = aPattern; // Compile the wildcard string to a regular expression wxString regex; regex.Alloc( 2 * aPattern.Length() ); // no need to keep resizing, we know the size roughly const wxString to_replace = wxT( ".*+?^${}()|[]/\\" ); for( wxString::const_iterator it = aPattern.begin(); it < aPattern.end(); ++it ) { wxUniChar c = *it; if( c == '?' ) { regex += wxT( "." ); } else if( c == '*' ) { regex += wxT( ".*" ); } else if( to_replace.Find( c ) != wxNOT_FOUND ) { regex += "\\"; regex += c; } else { regex += c; } } return EDA_PATTERN_MATCH_REGEX::SetPattern( regex ); } wxString const& EDA_PATTERN_MATCH_WILDCARD::GetPattern() const { return m_wildcard_pattern; } EDA_PATTERN_MATCH::FIND_RESULT EDA_PATTERN_MATCH_WILDCARD::Find( const wxString& aCandidate ) const { return EDA_PATTERN_MATCH_REGEX::Find( aCandidate ); } bool EDA_PATTERN_MATCH_WILDCARD_EXPLICIT::SetPattern( const wxString& aPattern ) { m_wildcard_pattern = aPattern; // Compile the wildcard string to a regular expression wxString regex; regex.Alloc( 2 * aPattern.Length() ); // no need to keep resizing, we know the size roughly const wxString to_replace = wxT( ".*+?^${}()|[]/\\" ); regex += wxT( "^" ); for( wxString::const_iterator it = aPattern.begin(); it < aPattern.end(); ++it ) { wxUniChar c = *it; if( c == '?' ) { regex += wxT( "." ); } else if( c == '*' ) { regex += wxT( ".*" ); } else if( to_replace.Find( c ) != wxNOT_FOUND ) { regex += "\\"; regex += c; } else { regex += c; } } regex += wxT( "$" ); return EDA_PATTERN_MATCH_REGEX::SetPattern( regex ); } bool EDA_PATTERN_MATCH_RELATIONAL::SetPattern( const wxString& aPattern ) { bool matches = m_regex_search.Matches( aPattern ); if( !matches || m_regex_search.GetMatchCount() < 5 ) return false; m_pattern = aPattern; wxString key = m_regex_search.GetMatch( aPattern, 1 ); wxString rel = m_regex_search.GetMatch( aPattern, 2 ); wxString val = m_regex_search.GetMatch( aPattern, 3 ); wxString unit = m_regex_search.GetMatch( aPattern, 4 ); m_key = key.Lower(); if( rel == "<" ) m_relation = LT; else if( rel == "<=" ) m_relation = LE; else if( rel == "=" ) m_relation = EQ; else if( rel == ">=" ) m_relation = GE; else if( rel == ">" ) m_relation = GT; else return false; if( val == "" ) { // Matching on empty values keeps the match list from going empty when the user // types the relational operator character, which helps prevent confusion. m_relation = ANY; } else if( !val.ToCDouble( &m_value ) ) { return false; } auto unit_it = m_units.find( unit.Lower() ); if( unit_it != m_units.end() ) m_value *= unit_it->second; else return false; m_pattern = aPattern; return true; } wxString const& EDA_PATTERN_MATCH_RELATIONAL::GetPattern() const { return m_pattern; } EDA_PATTERN_MATCH::FIND_RESULT EDA_PATTERN_MATCH_RELATIONAL::Find( const wxString& aCandidate ) const { wxStringTokenizer tokenizer( aCandidate ); size_t lastpos = 0; while( tokenizer.HasMoreTokens() ) { const wxString token = tokenizer.GetNextToken(); int found_delta = FindOne( token ); if( found_delta != EDA_PATTERN_NOT_FOUND ) { size_t found = (size_t) found_delta + lastpos; return { static_cast( std::min( found, static_cast( INT_MAX ) ) ), 0 }; } lastpos = tokenizer.GetPosition(); } return {}; } int EDA_PATTERN_MATCH_RELATIONAL::FindOne( const wxString& aCandidate ) const { bool matches = m_regex_description.Matches( aCandidate ); if( !matches ) return EDA_PATTERN_NOT_FOUND; size_t start, len; m_regex_description.GetMatch( &start, &len, 0 ); wxString key = m_regex_description.GetMatch( aCandidate, 1 ); wxString val = m_regex_description.GetMatch( aCandidate, 2 ); wxString unit = m_regex_description.GetMatch( aCandidate, 3 ); int istart = ( start > INT_MAX ) ? INT_MAX : start; if( key.Lower() != m_key ) return EDA_PATTERN_NOT_FOUND; double val_parsed; if( !val.ToCDouble( &val_parsed ) ) return EDA_PATTERN_NOT_FOUND; auto unit_it = m_units.find( unit.Lower() ); if( unit_it != m_units.end() ) val_parsed *= unit_it->second; switch( m_relation ) { case LT: return val_parsed < m_value ? istart : EDA_PATTERN_NOT_FOUND; case LE: return val_parsed <= m_value ? istart : EDA_PATTERN_NOT_FOUND; case EQ: return val_parsed == m_value ? istart : EDA_PATTERN_NOT_FOUND; case GE: return val_parsed >= m_value ? istart : EDA_PATTERN_NOT_FOUND; case GT: return val_parsed > m_value ? istart : EDA_PATTERN_NOT_FOUND; case ANY: return istart; default: return EDA_PATTERN_NOT_FOUND; } } wxRegEx EDA_PATTERN_MATCH_RELATIONAL::m_regex_description( R"((\w+)[=:]([-+]?[\d.]+)(\w*))", wxRE_ADVANCED ); wxRegEx EDA_PATTERN_MATCH_RELATIONAL::m_regex_search( R"(^(\w+)(<|<=|=|>=|>)([-+]?[\d.]*)(\w*)$)", wxRE_ADVANCED ); const std::map EDA_PATTERN_MATCH_RELATIONAL::m_units = { { "p", 1e-12 }, { "n", 1e-9 }, { "u", 1e-6 }, { "m", 1e-3 }, { "", 1. }, { "k", 1e3 }, { "meg",1e6 }, { "g", 1e9 }, { "t", 1e12 }, { "ki", 1024. }, { "mi", 1048576. }, { "gi", 1073741824. }, { "ti", 1099511627776. } }; EDA_COMBINED_MATCHER::EDA_COMBINED_MATCHER( const wxString& aPattern, COMBINED_MATCHER_CONTEXT aContext ) : m_pattern( aPattern ) { switch( aContext ) { case CTX_LIBITEM: // Whatever syntax users prefer, it shall be matched. AddMatcher( aPattern, std::make_unique() ); AddMatcher( aPattern, std::make_unique() ); AddMatcher( aPattern, std::make_unique() ); // If any of the above matchers couldn't be created because the pattern // syntax does not match, the substring will try its best. AddMatcher( aPattern, std::make_unique() ); break; case CTX_NETCLASS: AddMatcher( aPattern, std::make_unique() ); AddMatcher( aPattern, std::make_unique() ); break; } } bool EDA_COMBINED_MATCHER::Find( const wxString& aTerm, int& aMatchersTriggered, int& aPosition ) { aPosition = EDA_PATTERN_NOT_FOUND; aMatchersTriggered = 0; for( auto const& matcher : m_matchers ) { EDA_PATTERN_MATCH::FIND_RESULT local_find = matcher->Find( aTerm ); if( local_find ) { aMatchersTriggered += 1; if( local_find.start < aPosition || aPosition == EDA_PATTERN_NOT_FOUND ) { aPosition = local_find.start; } } } return aPosition != EDA_PATTERN_NOT_FOUND; } wxString const& EDA_COMBINED_MATCHER::GetPattern() const { return m_pattern; } void EDA_COMBINED_MATCHER::AddMatcher( const wxString &aPattern, std::unique_ptr aMatcher ) { if ( aMatcher->SetPattern( aPattern ) ) { m_matchers.push_back( std::move( aMatcher ) ); } }