mirror of
https://github.com/LadybirdBrowser/ladybird.git
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588 lines
21 KiB
C++
588 lines
21 KiB
C++
/*
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* Copyright (c) 2020, Emanuel Sprung <emanuel.sprung@gmail.com>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/BumpAllocator.h>
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#include <AK/ByteString.h>
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#include <AK/Debug.h>
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#include <AK/StringBuilder.h>
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#include <LibRegex/RegexMatcher.h>
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#include <LibRegex/RegexParser.h>
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#if REGEX_DEBUG
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# include <LibRegex/RegexDebug.h>
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#endif
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namespace regex {
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#if REGEX_DEBUG
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static RegexDebug s_regex_dbg(stderr);
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#endif
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template<class Parser>
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regex::Parser::Result Regex<Parser>::parse_pattern(StringView pattern, typename ParserTraits<Parser>::OptionsType regex_options)
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{
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regex::Lexer lexer(pattern);
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Parser parser(lexer, regex_options);
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return parser.parse();
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}
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template<typename Parser>
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struct CacheKey {
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ByteString pattern;
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typename ParserTraits<Parser>::OptionsType options;
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bool operator==(CacheKey const& other) const
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{
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return pattern == other.pattern && options.value() == other.options.value();
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}
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};
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template<class Parser>
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static OrderedHashMap<CacheKey<Parser>, regex::Parser::Result> s_parser_cache;
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template<class Parser>
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static size_t s_cached_bytecode_size = 0;
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static constexpr auto MaxRegexCachedBytecodeSize = 1 * MiB;
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template<class Parser>
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Regex<Parser>::Regex(ByteString pattern, typename ParserTraits<Parser>::OptionsType regex_options)
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: pattern_value(move(pattern))
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{
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if (auto cache_entry = s_parser_cache<Parser>.get({ pattern_value, regex_options }); cache_entry.has_value()) {
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parser_result = cache_entry.value();
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} else {
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regex::Lexer lexer(pattern_value);
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Parser parser(lexer, regex_options);
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parser_result = parser.parse();
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run_optimization_passes();
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if (parser_result.error == regex::Error::NoError) {
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while (parser_result.bytecode.size() * sizeof(ByteCodeValueType) + s_cached_bytecode_size<Parser> > MaxRegexCachedBytecodeSize)
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s_cached_bytecode_size<Parser> -= s_parser_cache<Parser>.take_first().bytecode.size() * sizeof(ByteCodeValueType);
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s_parser_cache<Parser>.set({ pattern_value, regex_options }, parser_result);
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s_cached_bytecode_size<Parser> += parser_result.bytecode.size() * sizeof(ByteCodeValueType);
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}
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}
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if (parser_result.error == regex::Error::NoError)
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matcher = make<Matcher<Parser>>(this, static_cast<decltype(regex_options.value())>(parser_result.options.value()));
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}
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template<class Parser>
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Regex<Parser>::Regex(regex::Parser::Result parse_result, ByteString pattern, typename ParserTraits<Parser>::OptionsType regex_options)
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: pattern_value(move(pattern))
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, parser_result(move(parse_result))
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{
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run_optimization_passes();
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if (parser_result.error == regex::Error::NoError)
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matcher = make<Matcher<Parser>>(this, regex_options | static_cast<decltype(regex_options.value())>(parse_result.options.value()));
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}
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template<class Parser>
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Regex<Parser>::Regex(Regex&& regex)
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: pattern_value(move(regex.pattern_value))
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, parser_result(move(regex.parser_result))
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, matcher(move(regex.matcher))
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, start_offset(regex.start_offset)
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{
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if (matcher)
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matcher->reset_pattern({}, this);
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}
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template<class Parser>
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Regex<Parser>& Regex<Parser>::operator=(Regex&& regex)
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{
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pattern_value = move(regex.pattern_value);
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parser_result = move(regex.parser_result);
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matcher = move(regex.matcher);
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if (matcher)
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matcher->reset_pattern({}, this);
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start_offset = regex.start_offset;
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return *this;
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}
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template<class Parser>
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typename ParserTraits<Parser>::OptionsType Regex<Parser>::options() const
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{
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if (!matcher || parser_result.error != Error::NoError)
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return {};
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return matcher->options();
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}
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template<class Parser>
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ByteString Regex<Parser>::error_string(Optional<ByteString> message) const
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{
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StringBuilder eb;
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eb.append("Error during parsing of regular expression:\n"sv);
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eb.appendff(" {}\n ", pattern_value);
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for (size_t i = 0; i < parser_result.error_token.position(); ++i)
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eb.append(' ');
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eb.appendff("^---- {}", message.value_or(get_error_string(parser_result.error)));
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return eb.to_byte_string();
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}
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template<typename Parser>
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RegexResult Matcher<Parser>::match(RegexStringView view, Optional<typename ParserTraits<Parser>::OptionsType> regex_options) const
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{
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AllOptions options = m_regex_options | regex_options.value_or({}).value();
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if constexpr (!IsSame<Parser, ECMA262>) {
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if (options.has_flag_set(AllFlags::Multiline))
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return match(view.lines(), regex_options); // FIXME: how do we know, which line ending a line has (1char or 2char)? This is needed to get the correct match offsets from start of string...
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}
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Vector<RegexStringView> views;
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views.append(view);
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return match(views, regex_options);
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}
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template<typename Parser>
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RegexResult Matcher<Parser>::match(Vector<RegexStringView> const& views, Optional<typename ParserTraits<Parser>::OptionsType> regex_options) const
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{
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// If the pattern *itself* isn't stateful, reset any changes to start_offset.
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if (!((AllFlags)m_regex_options.value() & AllFlags::Internal_Stateful))
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m_pattern->start_offset = 0;
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size_t match_count { 0 };
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MatchInput input;
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MatchState state;
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size_t operations = 0;
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input.regex_options = m_regex_options | regex_options.value_or({}).value();
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input.start_offset = m_pattern->start_offset;
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size_t lines_to_skip = 0;
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bool unicode = input.regex_options.has_flag_set(AllFlags::Unicode);
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for (auto const& view : views)
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const_cast<RegexStringView&>(view).set_unicode(unicode);
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if (input.regex_options.has_flag_set(AllFlags::Internal_Stateful)) {
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if (views.size() > 1 && input.start_offset > views.first().length()) {
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dbgln_if(REGEX_DEBUG, "Started with start={}, goff={}, skip={}", input.start_offset, input.global_offset, lines_to_skip);
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for (auto const& view : views) {
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if (input.start_offset < view.length() + 1)
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break;
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++lines_to_skip;
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input.start_offset -= view.length() + 1;
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input.global_offset += view.length() + 1;
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}
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dbgln_if(REGEX_DEBUG, "Ended with start={}, goff={}, skip={}", input.start_offset, input.global_offset, lines_to_skip);
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}
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}
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if (c_match_preallocation_count) {
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state.matches.ensure_capacity(c_match_preallocation_count);
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state.capture_group_matches.ensure_capacity(c_match_preallocation_count);
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auto& capture_groups_count = m_pattern->parser_result.capture_groups_count;
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for (size_t j = 0; j < c_match_preallocation_count; ++j) {
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state.matches.empend();
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state.capture_group_matches.empend();
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state.capture_group_matches.mutable_at(j).ensure_capacity(capture_groups_count);
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for (size_t k = 0; k < capture_groups_count; ++k)
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state.capture_group_matches.mutable_at(j).unchecked_append({});
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}
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}
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auto append_match = [](auto& input, auto& state, auto& start_position) {
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if (state.matches.size() == input.match_index)
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state.matches.empend();
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VERIFY(start_position + state.string_position - start_position <= input.view.length());
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if (input.regex_options.has_flag_set(AllFlags::StringCopyMatches)) {
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state.matches.mutable_at(input.match_index) = { input.view.substring_view(start_position, state.string_position - start_position).to_byte_string(), input.line, start_position, input.global_offset + start_position };
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} else { // let the view point to the original string ...
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state.matches.mutable_at(input.match_index) = { input.view.substring_view(start_position, state.string_position - start_position), input.line, start_position, input.global_offset + start_position };
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}
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};
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#if REGEX_DEBUG
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s_regex_dbg.print_header();
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#endif
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bool continue_search = input.regex_options.has_flag_set(AllFlags::Global) || input.regex_options.has_flag_set(AllFlags::Multiline);
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if (input.regex_options.has_flag_set(AllFlags::Sticky))
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continue_search = false;
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auto single_match_only = input.regex_options.has_flag_set(AllFlags::SingleMatch);
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auto only_start_of_line = m_pattern->parser_result.optimization_data.only_start_of_line && !input.regex_options.has_flag_set(AllFlags::Multiline);
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for (auto const& view : views) {
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if (lines_to_skip != 0) {
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++input.line;
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--lines_to_skip;
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continue;
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}
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input.view = view;
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dbgln_if(REGEX_DEBUG, "[match] Starting match with view ({}): _{}_", view.length(), view);
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auto view_length = view.length();
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size_t view_index = m_pattern->start_offset;
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state.string_position = view_index;
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state.string_position_in_code_units = view_index;
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bool succeeded = false;
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if (view_index == view_length && m_pattern->parser_result.match_length_minimum == 0) {
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// Run the code until it tries to consume something.
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// This allows non-consuming code to run on empty strings, for instance
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// e.g. "Exit"
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size_t temp_operations = operations;
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input.column = match_count;
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input.match_index = match_count;
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state.string_position = view_index;
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state.string_position_in_code_units = view_index;
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state.instruction_position = 0;
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state.repetition_marks.clear();
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auto success = execute(input, state, temp_operations);
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// This success is acceptable only if it doesn't read anything from the input (input length is 0).
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if (success && (state.string_position <= view_index)) {
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operations = temp_operations;
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if (!match_count) {
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// Nothing was *actually* matched, so append an empty match.
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append_match(input, state, view_index);
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++match_count;
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// This prevents a regex pattern like ".*" from matching the empty string
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// multiple times, once in this block and once in the following for loop.
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if (view_index == 0 && view_length == 0)
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++view_index;
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}
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}
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}
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for (; view_index <= view_length; ++view_index) {
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if (view_index == view_length && input.regex_options.has_flag_set(AllFlags::Multiline))
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break;
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auto& match_length_minimum = m_pattern->parser_result.match_length_minimum;
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// FIXME: More performant would be to know the remaining minimum string
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// length needed to match from the current position onwards within
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// the vm. Add new OpCode for MinMatchLengthFromSp with the value of
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// the remaining string length from the current path. The value though
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// has to be filled in reverse. That implies a second run over bytecode
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// after generation has finished.
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if (match_length_minimum && match_length_minimum > view_length - view_index)
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break;
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input.column = match_count;
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input.match_index = match_count;
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state.string_position = view_index;
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state.string_position_in_code_units = view_index;
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state.instruction_position = 0;
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state.repetition_marks.clear();
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auto success = execute(input, state, operations);
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if (success) {
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succeeded = true;
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if (input.regex_options.has_flag_set(AllFlags::MatchNotEndOfLine) && state.string_position == input.view.length()) {
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if (!continue_search)
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break;
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continue;
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}
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if (input.regex_options.has_flag_set(AllFlags::MatchNotBeginOfLine) && view_index == 0) {
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if (!continue_search)
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break;
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continue;
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}
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dbgln_if(REGEX_DEBUG, "state.string_position={}, view_index={}", state.string_position, view_index);
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dbgln_if(REGEX_DEBUG, "[match] Found a match (length={}): '{}'", state.string_position - view_index, input.view.substring_view(view_index, state.string_position - view_index));
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++match_count;
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if (continue_search) {
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append_match(input, state, view_index);
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bool has_zero_length = state.string_position == view_index;
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view_index = state.string_position - (has_zero_length ? 0 : 1);
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if (single_match_only)
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break;
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continue;
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}
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if (input.regex_options.has_flag_set(AllFlags::Internal_Stateful)) {
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append_match(input, state, view_index);
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break;
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}
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if (state.string_position < view_length) {
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return { false, 0, {}, {}, {}, operations };
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}
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append_match(input, state, view_index);
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break;
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}
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if (!continue_search || only_start_of_line)
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break;
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}
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++input.line;
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input.global_offset += view.length() + 1; // +1 includes the line break character
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if (input.regex_options.has_flag_set(AllFlags::Internal_Stateful))
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m_pattern->start_offset = state.string_position;
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if (succeeded && !continue_search)
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break;
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}
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RegexResult result {
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match_count != 0,
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match_count,
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move(state.matches).release(),
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move(state.capture_group_matches).release(),
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operations,
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m_pattern->parser_result.capture_groups_count,
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m_pattern->parser_result.named_capture_groups_count,
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};
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if (match_count) {
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// Make sure there are as many capture matches as there are actual matches.
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if (result.capture_group_matches.size() < match_count)
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result.capture_group_matches.resize(match_count);
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for (auto& matches : result.capture_group_matches)
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matches.resize(m_pattern->parser_result.capture_groups_count + 1);
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if (!input.regex_options.has_flag_set(AllFlags::SkipTrimEmptyMatches)) {
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for (auto& matches : result.capture_group_matches)
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matches.remove_all_matching([](auto& match) { return match.view.is_null(); });
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}
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} else {
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result.capture_group_matches.clear_with_capacity();
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}
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return result;
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}
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template<typename T>
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class BumpAllocatedLinkedList {
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public:
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BumpAllocatedLinkedList() = default;
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ALWAYS_INLINE void append(T value)
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{
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auto node_ptr = m_allocator.allocate(move(value));
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VERIFY(node_ptr);
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if (!m_first) {
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m_first = node_ptr;
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m_last = node_ptr;
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return;
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}
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node_ptr->previous = m_last;
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m_last->next = node_ptr;
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m_last = node_ptr;
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}
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ALWAYS_INLINE T take_last()
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{
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VERIFY(m_last);
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T value = move(m_last->value);
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if (m_last == m_first) {
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m_last = nullptr;
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m_first = nullptr;
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} else {
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m_last = m_last->previous;
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m_last->next = nullptr;
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}
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return value;
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}
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ALWAYS_INLINE T& last()
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{
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return m_last->value;
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}
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ALWAYS_INLINE bool is_empty() const
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{
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return m_first == nullptr;
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}
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auto reverse_begin() { return ReverseIterator(m_last); }
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auto reverse_end() { return ReverseIterator(); }
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private:
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struct Node {
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T value;
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Node* next { nullptr };
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Node* previous { nullptr };
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};
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struct ReverseIterator {
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ReverseIterator() = default;
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explicit ReverseIterator(Node* node)
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: m_node(node)
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{
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}
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T* operator->() { return &m_node->value; }
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T& operator*() { return m_node->value; }
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bool operator==(ReverseIterator const& it) const { return m_node == it.m_node; }
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ReverseIterator& operator++()
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{
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if (m_node)
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m_node = m_node->previous;
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return *this;
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}
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private:
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Node* m_node;
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};
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UniformBumpAllocator<Node, true, 2 * MiB> m_allocator;
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Node* m_first { nullptr };
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Node* m_last { nullptr };
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};
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template<class Parser>
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bool Matcher<Parser>::execute(MatchInput const& input, MatchState& state, size_t& operations) const
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{
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if (m_pattern->parser_result.optimization_data.pure_substring_search.has_value() && input.view.is_string_view()) {
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// Yay, we can do a simple substring search!
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auto& needle = m_pattern->parser_result.optimization_data.pure_substring_search.value();
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if (needle.length() + state.string_position > input.view.length())
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return false;
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auto haystack = input.view.string_view().substring_view(state.string_position);
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if (input.regex_options.has_flag_set(AllFlags::Insensitive)) {
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if (!haystack.substring_view(0, needle.length()).equals_ignoring_ascii_case(needle))
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return false;
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} else {
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if (!haystack.starts_with(needle))
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return false;
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}
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state.string_position += needle.length();
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state.string_position_in_code_units += needle.length();
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return true;
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}
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BumpAllocatedLinkedList<MatchState> states_to_try_next;
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#if REGEX_DEBUG
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size_t recursion_level = 0;
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#endif
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auto& bytecode = m_pattern->parser_result.bytecode;
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for (;;) {
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auto& opcode = bytecode.get_opcode(state);
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++operations;
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#if REGEX_DEBUG
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s_regex_dbg.print_opcode("VM", opcode, state, recursion_level, false);
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#endif
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ExecutionResult result;
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if (input.fail_counter > 0) {
|
|
--input.fail_counter;
|
|
result = ExecutionResult::Failed_ExecuteLowPrioForks;
|
|
} else {
|
|
result = opcode.execute(input, state);
|
|
}
|
|
|
|
#if REGEX_DEBUG
|
|
s_regex_dbg.print_result(opcode, bytecode, input, state, result);
|
|
#endif
|
|
|
|
state.instruction_position += opcode.size();
|
|
|
|
switch (result) {
|
|
case ExecutionResult::Fork_PrioLow: {
|
|
bool found = false;
|
|
if (input.fork_to_replace.has_value()) {
|
|
for (auto it = states_to_try_next.reverse_begin(); it != states_to_try_next.reverse_end(); ++it) {
|
|
if (it->initiating_fork == input.fork_to_replace.value()) {
|
|
(*it) = state;
|
|
it->instruction_position = state.fork_at_position;
|
|
it->initiating_fork = *input.fork_to_replace;
|
|
found = true;
|
|
break;
|
|
}
|
|
}
|
|
input.fork_to_replace.clear();
|
|
}
|
|
if (!found) {
|
|
states_to_try_next.append(state);
|
|
states_to_try_next.last().initiating_fork = state.instruction_position - opcode.size();
|
|
states_to_try_next.last().instruction_position = state.fork_at_position;
|
|
}
|
|
continue;
|
|
}
|
|
case ExecutionResult::Fork_PrioHigh: {
|
|
bool found = false;
|
|
if (input.fork_to_replace.has_value()) {
|
|
for (auto it = states_to_try_next.reverse_begin(); it != states_to_try_next.reverse_end(); ++it) {
|
|
if (it->initiating_fork == input.fork_to_replace.value()) {
|
|
(*it) = state;
|
|
it->initiating_fork = *input.fork_to_replace;
|
|
found = true;
|
|
break;
|
|
}
|
|
}
|
|
input.fork_to_replace.clear();
|
|
}
|
|
if (!found) {
|
|
states_to_try_next.append(state);
|
|
states_to_try_next.last().initiating_fork = state.instruction_position - opcode.size();
|
|
}
|
|
state.instruction_position = state.fork_at_position;
|
|
#if REGEX_DEBUG
|
|
++recursion_level;
|
|
#endif
|
|
continue;
|
|
}
|
|
case ExecutionResult::Continue:
|
|
continue;
|
|
case ExecutionResult::Succeeded:
|
|
return true;
|
|
case ExecutionResult::Failed:
|
|
if (!states_to_try_next.is_empty()) {
|
|
state = states_to_try_next.take_last();
|
|
continue;
|
|
}
|
|
return false;
|
|
case ExecutionResult::Failed_ExecuteLowPrioForks: {
|
|
if (states_to_try_next.is_empty()) {
|
|
return false;
|
|
}
|
|
state = states_to_try_next.take_last();
|
|
#if REGEX_DEBUG
|
|
++recursion_level;
|
|
#endif
|
|
continue;
|
|
}
|
|
}
|
|
}
|
|
|
|
VERIFY_NOT_REACHED();
|
|
}
|
|
|
|
template class Matcher<PosixBasicParser>;
|
|
template class Regex<PosixBasicParser>;
|
|
|
|
template class Matcher<PosixExtendedParser>;
|
|
template class Regex<PosixExtendedParser>;
|
|
|
|
template class Matcher<ECMA262Parser>;
|
|
template class Regex<ECMA262Parser>;
|
|
}
|
|
|
|
template<typename Parser>
|
|
struct AK::Traits<regex::CacheKey<Parser>> : public AK::DefaultTraits<regex::CacheKey<Parser>> {
|
|
static unsigned hash(regex::CacheKey<Parser> const& key)
|
|
{
|
|
return pair_int_hash(key.pattern.hash(), int_hash(to_underlying(key.options.value())));
|
|
}
|
|
};
|