mirror of
https://github.com/LadybirdBrowser/ladybird.git
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cdb54fe504
This change aims to improve the speed of incremental builds.
322 lines
11 KiB
C++
322 lines
11 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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#pragma once
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#include "RegexByteCode.h"
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#include "RegexError.h"
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#include "RegexLexer.h"
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#include "RegexOptions.h"
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#include <AK/Forward.h>
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#include <AK/Types.h>
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#include <AK/Vector.h>
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#include <LibUnicode/Forward.h>
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namespace regex {
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class PosixExtendedParser;
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class PosixBasicParser;
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class ECMA262Parser;
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template<typename T>
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struct GenericParserTraits {
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using OptionsType = T;
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};
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template<typename T>
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struct ParserTraits : public GenericParserTraits<T> {
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};
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template<>
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struct ParserTraits<PosixExtendedParser> : public GenericParserTraits<PosixOptions> {
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};
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template<>
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struct ParserTraits<PosixBasicParser> : public GenericParserTraits<PosixOptions> {
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};
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template<>
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struct ParserTraits<ECMA262Parser> : public GenericParserTraits<ECMAScriptOptions> {
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};
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class Parser {
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public:
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struct Result {
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ByteCode bytecode;
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size_t capture_groups_count;
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size_t named_capture_groups_count;
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size_t match_length_minimum;
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Error error;
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Token error_token;
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Vector<DeprecatedFlyString> capture_groups;
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AllOptions options;
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struct {
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Optional<ByteString> pure_substring_search;
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bool only_start_of_line = false;
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} optimization_data {};
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};
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explicit Parser(Lexer& lexer)
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: m_parser_state(lexer)
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{
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}
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Parser(Lexer& lexer, AllOptions regex_options)
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: m_parser_state(lexer, regex_options)
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{
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}
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virtual ~Parser() = default;
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Result parse(Optional<AllOptions> regex_options = {});
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bool has_error() const { return m_parser_state.error != Error::NoError; }
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Error error() const { return m_parser_state.error; }
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AllOptions options() const { return m_parser_state.regex_options; }
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protected:
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virtual bool parse_internal(ByteCode&, size_t& match_length_minimum) = 0;
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ALWAYS_INLINE bool match(TokenType type) const;
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ALWAYS_INLINE bool match(char ch) const;
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ALWAYS_INLINE bool match_ordinary_characters();
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ALWAYS_INLINE Token consume();
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ALWAYS_INLINE Token consume(TokenType type, Error error);
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ALWAYS_INLINE bool consume(ByteString const&);
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ALWAYS_INLINE Optional<u32> consume_escaped_code_point(bool unicode);
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ALWAYS_INLINE bool try_skip(StringView);
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ALWAYS_INLINE bool lookahead_any(StringView);
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ALWAYS_INLINE unsigned char skip();
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ALWAYS_INLINE void back(size_t = 1);
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ALWAYS_INLINE void reset();
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ALWAYS_INLINE bool done() const;
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ALWAYS_INLINE bool set_error(Error error);
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size_t tell() const { return m_parser_state.current_token.position(); }
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struct NamedCaptureGroup {
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size_t group_index { 0 };
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size_t minimum_length { 0 };
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};
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struct ParserState {
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Lexer& lexer;
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Token current_token;
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Error error = Error::NoError;
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Token error_token { TokenType::Eof, 0, {} };
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ByteCode bytecode;
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size_t capture_groups_count { 0 };
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size_t named_capture_groups_count { 0 };
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size_t match_length_minimum { 0 };
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size_t repetition_mark_count { 0 };
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AllOptions regex_options;
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HashMap<int, size_t> capture_group_minimum_lengths;
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HashMap<DeprecatedFlyString, NamedCaptureGroup> named_capture_groups;
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explicit ParserState(Lexer& lexer)
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: lexer(lexer)
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, current_token(lexer.next())
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{
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}
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explicit ParserState(Lexer& lexer, AllOptions regex_options)
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: lexer(lexer)
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, current_token(lexer.next())
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, regex_options(regex_options)
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{
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}
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};
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ParserState m_parser_state;
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};
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class AbstractPosixParser : public Parser {
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protected:
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explicit AbstractPosixParser(Lexer& lexer)
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: Parser(lexer)
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{
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}
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AbstractPosixParser(Lexer& lexer, Optional<typename ParserTraits<PosixExtendedParser>::OptionsType> regex_options)
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: Parser(lexer, regex_options.value_or({}))
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{
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}
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ALWAYS_INLINE bool parse_bracket_expression(Vector<CompareTypeAndValuePair>&, size_t&);
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};
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class PosixBasicParser final : public AbstractPosixParser {
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public:
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explicit PosixBasicParser(Lexer& lexer)
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: AbstractPosixParser(lexer)
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{
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}
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PosixBasicParser(Lexer& lexer, Optional<typename ParserTraits<PosixBasicParser>::OptionsType> regex_options)
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: AbstractPosixParser(lexer, regex_options.value_or({}))
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{
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}
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~PosixBasicParser() = default;
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private:
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bool parse_internal(ByteCode&, size_t&) override;
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bool parse_root(ByteCode&, size_t&);
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bool parse_re_expression(ByteCode&, size_t&);
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bool parse_simple_re(ByteCode&, size_t&);
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bool parse_nonduplicating_re(ByteCode&, size_t&);
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bool parse_one_char_or_collation_element(ByteCode&, size_t&);
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constexpr static size_t number_of_addressable_capture_groups = 9;
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size_t m_capture_group_minimum_lengths[number_of_addressable_capture_groups] { 0 };
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bool m_capture_group_seen[number_of_addressable_capture_groups] { false };
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size_t m_current_capture_group_depth { 0 };
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};
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class PosixExtendedParser final : public AbstractPosixParser {
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constexpr static auto default_options = static_cast<PosixFlags>(AllFlags::SingleLine) | static_cast<PosixFlags>(AllFlags::Internal_ConsiderNewline);
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public:
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explicit PosixExtendedParser(Lexer& lexer)
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: AbstractPosixParser(lexer, default_options)
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{
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}
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PosixExtendedParser(Lexer& lexer, Optional<typename ParserTraits<PosixExtendedParser>::OptionsType> regex_options)
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: AbstractPosixParser(lexer, regex_options.value_or({}) | default_options.value())
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{
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}
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~PosixExtendedParser() = default;
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private:
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ALWAYS_INLINE bool match_repetition_symbol();
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bool parse_internal(ByteCode&, size_t&) override;
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bool parse_root(ByteCode&, size_t&);
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ALWAYS_INLINE bool parse_sub_expression(ByteCode&, size_t&);
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ALWAYS_INLINE bool parse_bracket_expression(ByteCode&, size_t&);
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ALWAYS_INLINE bool parse_repetition_symbol(ByteCode&, size_t&);
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};
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class ECMA262Parser final : public Parser {
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constexpr static ECMAScriptOptions default_options = static_cast<ECMAScriptFlags>(AllFlags::Internal_ConsiderNewline);
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public:
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explicit ECMA262Parser(Lexer& lexer)
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: Parser(lexer, default_options)
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{
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m_capture_groups_in_scope.empend();
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}
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ECMA262Parser(Lexer& lexer, Optional<typename ParserTraits<ECMA262Parser>::OptionsType> regex_options)
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: Parser(lexer, regex_options.value_or({}) | default_options.value())
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{
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m_should_use_browser_extended_grammar = regex_options.has_value() && regex_options->has_flag_set(ECMAScriptFlags::BrowserExtended);
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m_capture_groups_in_scope.empend();
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}
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~ECMA262Parser() = default;
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private:
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bool parse_internal(ByteCode&, size_t&) override;
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struct ParseFlags {
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bool unicode { false };
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bool named { false };
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bool unicode_sets { false };
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};
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enum class ReadDigitsInitialZeroState {
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Allow,
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Disallow,
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};
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StringView read_digits_as_string(ReadDigitsInitialZeroState initial_zero = ReadDigitsInitialZeroState::Allow, bool hex = false, int max_count = -1, int min_count = -1);
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Optional<unsigned> read_digits(ReadDigitsInitialZeroState initial_zero = ReadDigitsInitialZeroState::Allow, bool hex = false, int max_count = -1, int min_count = -1);
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DeprecatedFlyString read_capture_group_specifier(bool take_starting_angle_bracket = false);
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struct Script {
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Unicode::Script script {};
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bool is_extension { false };
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};
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using PropertyEscape = Variant<Unicode::Property, Unicode::GeneralCategory, Script, Empty>;
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Optional<PropertyEscape> read_unicode_property_escape();
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bool parse_pattern(ByteCode&, size_t&, ParseFlags);
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bool parse_disjunction(ByteCode&, size_t&, ParseFlags);
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bool parse_alternative(ByteCode&, size_t&, ParseFlags);
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bool parse_term(ByteCode&, size_t&, ParseFlags);
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bool parse_assertion(ByteCode&, size_t&, ParseFlags);
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bool parse_atom(ByteCode&, size_t&, ParseFlags);
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bool parse_quantifier(ByteCode&, size_t&, ParseFlags);
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bool parse_interval_quantifier(Optional<u64>& repeat_min, Optional<u64>& repeat_max);
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bool parse_atom_escape(ByteCode&, size_t&, ParseFlags);
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bool parse_character_class(ByteCode&, size_t&, ParseFlags);
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bool parse_capture_group(ByteCode&, size_t&, ParseFlags);
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Optional<CharClass> parse_character_class_escape(bool& out_inverse, bool expect_backslash = false);
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bool parse_nonempty_class_ranges(Vector<CompareTypeAndValuePair>&, ParseFlags);
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bool parse_unicode_property_escape(PropertyEscape& property, bool& negated);
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bool parse_character_escape(Vector<CompareTypeAndValuePair>&, size_t&, ParseFlags);
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bool parse_class_set_expression(Vector<CompareTypeAndValuePair>&);
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bool parse_class_union(Vector<CompareTypeAndValuePair>&);
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bool parse_class_intersection(Vector<CompareTypeAndValuePair>&);
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bool parse_class_subtraction(Vector<CompareTypeAndValuePair>&);
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bool parse_class_set_range(Vector<CompareTypeAndValuePair>&);
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bool parse_class_set_operand(Vector<CompareTypeAndValuePair>&);
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bool parse_nested_class(Vector<CompareTypeAndValuePair>&);
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Optional<u32> parse_class_set_character();
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// Used only by B.1.4, Regular Expression Patterns (Extended for use in browsers)
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bool parse_quantifiable_assertion(ByteCode&, size_t&, ParseFlags);
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bool parse_extended_atom(ByteCode&, size_t&, ParseFlags);
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bool parse_inner_disjunction(ByteCode& bytecode_stack, size_t& length, ParseFlags);
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bool parse_invalid_braced_quantifier(); // Note: This function either parses and *fails*, or doesn't parse anything and returns false.
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Optional<u8> parse_legacy_octal_escape();
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size_t ensure_total_number_of_capturing_parenthesis();
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void enter_capture_group_scope() { m_capture_groups_in_scope.empend(); }
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void exit_capture_group_scope()
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{
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auto last = m_capture_groups_in_scope.take_last();
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m_capture_groups_in_scope.last().extend(move(last));
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}
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void clear_all_capture_groups_in_scope(ByteCode& stack)
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{
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for (auto& index : m_capture_groups_in_scope.last())
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stack.insert_bytecode_clear_capture_group(index);
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}
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// ECMA-262's flavour of regex is a bit weird in that it allows backrefs to reference "future" captures, and such backrefs
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// always match the empty string. So we have to know how many capturing parenthesis there are, but we don't want to always
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// parse it twice, so we'll just do so when it's actually needed.
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// Most patterns should have no need to ever populate this field.
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Optional<size_t> m_total_number_of_capturing_parenthesis;
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// Keep the Annex B. behavior behind a flag, the users can enable it by passing the `ECMAScriptFlags::BrowserExtended` flag.
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bool m_should_use_browser_extended_grammar { false };
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// ECMA-262 basically requires that we clear the inner captures of a capture group before trying to match it,
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// by requiring that (...)+ only contain the matches for the last iteration.
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// To do that, we have to keep track of which capture groups are "in scope", so we can clear them as needed.
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Vector<Vector<size_t>> m_capture_groups_in_scope;
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};
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using PosixExtended = PosixExtendedParser;
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using PosixBasic = PosixBasicParser;
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using ECMA262 = ECMA262Parser;
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}
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using regex::ECMA262;
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using regex::PosixBasic;
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using regex::PosixExtended;
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