ladybird/Userland/Libraries/LibRegex/RegexParser.cpp

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/*
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
* Copyright (c) 2020, Emanuel Sprung <emanuel.sprung@gmail.com>
* Copyright (c) 2020-2021, the SerenityOS developers.
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
*
* SPDX-License-Identifier: BSD-2-Clause
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
*/
#include "RegexParser.h"
#include "RegexDebug.h"
#include <AK/CharacterTypes.h>
#include <AK/GenericLexer.h>
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
#include <AK/String.h>
#include <AK/StringBuilder.h>
#include <AK/StringUtils.h>
#include <AK/TemporaryChange.h>
#include <AK/Utf16View.h>
#include <LibUnicode/CharacterTypes.h>
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
namespace regex {
static constexpr size_t s_maximum_repetition_count = 1024 * 1024;
static constexpr u64 s_ecma262_maximum_repetition_count = (1ull << 53) - 1;
static constexpr auto s_alphabetic_characters = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"sv;
static constexpr auto s_decimal_characters = "0123456789"sv;
static constexpr StringView identity_escape_characters(bool unicode, bool browser_extended)
{
if (unicode)
return "^$\\.*+?()[]{}|/"sv;
if (browser_extended)
return "^$\\.*+?()[|"sv;
return "^$\\.*+?()[]{}|"sv;
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
ALWAYS_INLINE bool Parser::set_error(Error error)
{
if (m_parser_state.error == Error::NoError) {
m_parser_state.error = error;
m_parser_state.error_token = m_parser_state.current_token;
}
return false; // always return false, that eases the API usage (return set_error(...)) :^)
}
ALWAYS_INLINE bool Parser::done() const
{
return match(TokenType::Eof);
}
ALWAYS_INLINE bool Parser::match(TokenType type) const
{
return m_parser_state.current_token.type() == type;
}
ALWAYS_INLINE bool Parser::match(char ch) const
{
return m_parser_state.current_token.type() == TokenType::Char && m_parser_state.current_token.value().length() == 1 && m_parser_state.current_token.value()[0] == ch;
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
ALWAYS_INLINE Token Parser::consume()
{
auto old_token = m_parser_state.current_token;
m_parser_state.current_token = m_parser_state.lexer.next();
return old_token;
}
ALWAYS_INLINE Token Parser::consume(TokenType type, Error error)
{
if (m_parser_state.current_token.type() != type) {
set_error(error);
dbgln_if(REGEX_DEBUG, "[PARSER] Error: Unexpected token {}. Expected: {}", m_parser_state.current_token.name(), Token::name(type));
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}
return consume();
}
2021-07-23 15:55:14 +00:00
ALWAYS_INLINE bool Parser::consume(String const& str)
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
{
size_t potentially_go_back { 1 };
for (auto ch : str) {
if (match(TokenType::Char)) {
if (m_parser_state.current_token.value()[0] != ch) {
m_parser_state.lexer.back(potentially_go_back);
m_parser_state.current_token = m_parser_state.lexer.next();
return false;
}
} else {
m_parser_state.lexer.back(potentially_go_back);
m_parser_state.current_token = m_parser_state.lexer.next();
return false;
}
consume(TokenType::Char, Error::NoError);
++potentially_go_back;
}
return true;
}
ALWAYS_INLINE Optional<u32> Parser::consume_escaped_code_point(bool unicode)
{
if (match(TokenType::LeftCurly) && !unicode) {
// In non-Unicode mode, this should be parsed as a repetition symbol (repeating the 'u').
return static_cast<u32>('u');
}
m_parser_state.lexer.retreat(2 + !done()); // Go back to just before '\u' (+1 char, because we will have consumed an extra character)
if (auto code_point_or_error = m_parser_state.lexer.consume_escaped_code_point(unicode); !code_point_or_error.is_error()) {
m_parser_state.current_token = m_parser_state.lexer.next();
return code_point_or_error.value();
}
if (!unicode) {
// '\u' is allowed in non-unicode mode, just matches 'u'.
return static_cast<u32>('u');
}
set_error(Error::InvalidPattern);
return {};
}
ALWAYS_INLINE bool Parser::try_skip(StringView str)
{
if (str.starts_with(m_parser_state.current_token.value()))
str = str.substring_view(m_parser_state.current_token.value().length(), str.length() - m_parser_state.current_token.value().length());
else
return false;
size_t potentially_go_back { 0 };
for (auto ch : str) {
if (!m_parser_state.lexer.consume_specific(ch)) {
m_parser_state.lexer.back(potentially_go_back);
return false;
}
++potentially_go_back;
}
m_parser_state.current_token = m_parser_state.lexer.next();
return true;
}
ALWAYS_INLINE bool Parser::lookahead_any(StringView str)
{
for (auto ch : str) {
if (match(ch))
return true;
}
return false;
}
ALWAYS_INLINE unsigned char Parser::skip()
{
unsigned char ch;
if (m_parser_state.current_token.value().length() == 1) {
ch = m_parser_state.current_token.value()[0];
} else {
m_parser_state.lexer.back(m_parser_state.current_token.value().length());
ch = m_parser_state.lexer.consume();
}
m_parser_state.current_token = m_parser_state.lexer.next();
return ch;
}
ALWAYS_INLINE void Parser::back(size_t count)
{
m_parser_state.lexer.back(count);
m_parser_state.current_token = m_parser_state.lexer.next();
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
ALWAYS_INLINE void Parser::reset()
{
m_parser_state.bytecode.clear();
m_parser_state.lexer.reset();
m_parser_state.current_token = m_parser_state.lexer.next();
m_parser_state.error = Error::NoError;
m_parser_state.error_token = { TokenType::Eof, 0, StringView(nullptr) };
m_parser_state.capture_group_minimum_lengths.clear();
m_parser_state.capture_groups_count = 0;
m_parser_state.named_capture_groups_count = 0;
m_parser_state.named_capture_groups.clear();
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}
Parser::Result Parser::parse(Optional<AllOptions> regex_options)
{
reset();
if (regex_options.has_value())
m_parser_state.regex_options = regex_options.value();
if (parse_internal(m_parser_state.bytecode, m_parser_state.match_length_minimum))
consume(TokenType::Eof, Error::InvalidPattern);
else
set_error(Error::InvalidPattern);
dbgln_if(REGEX_DEBUG, "[PARSER] Produced bytecode with {} entries (opcodes + arguments)", m_parser_state.bytecode.size());
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
return {
move(m_parser_state.bytecode),
move(m_parser_state.capture_groups_count),
move(m_parser_state.named_capture_groups_count),
move(m_parser_state.match_length_minimum),
move(m_parser_state.error),
move(m_parser_state.error_token),
m_parser_state.named_capture_groups.keys()
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
};
}
ALWAYS_INLINE bool Parser::match_ordinary_characters()
{
// NOTE: This method must not be called during bracket and repetition parsing!
// FIXME: Add assertion for that?
auto type = m_parser_state.current_token.type();
return (type == TokenType::Char
|| type == TokenType::Comma
|| type == TokenType::Slash
|| type == TokenType::EqualSign
|| type == TokenType::HyphenMinus
|| type == TokenType::Colon);
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
// =============================
// Abstract Posix Parser
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
// =============================
ALWAYS_INLINE bool AbstractPosixParser::parse_bracket_expression(Vector<CompareTypeAndValuePair>& values, size_t& match_length_minimum)
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
{
for (; !done();) {
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
if (match(TokenType::HyphenMinus)) {
consume();
if (values.is_empty() || (values.size() == 1 && values.last().type == CharacterCompareType::Inverse)) {
// first in the bracket expression
values.append({ CharacterCompareType::Char, (ByteCodeValueType)'-' });
} else if (match(TokenType::RightBracket)) {
// Last in the bracket expression
values.append({ CharacterCompareType::Char, (ByteCodeValueType)'-' });
} else if (values.last().type == CharacterCompareType::Char) {
values.append({ CharacterCompareType::RangeExpressionDummy, 0 });
if (done())
return set_error(Error::MismatchingBracket);
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
if (match(TokenType::HyphenMinus)) {
consume();
// Valid range, add ordinary character
values.append({ CharacterCompareType::Char, (ByteCodeValueType)'-' });
}
} else {
return set_error(Error::InvalidRange);
}
} else if (match(TokenType::Circumflex)) {
auto t = consume();
if (values.is_empty())
values.append({ CharacterCompareType::Inverse, 0 });
else
values.append({ CharacterCompareType::Char, (ByteCodeValueType)*t.value().characters_without_null_termination() });
} else if (match(TokenType::LeftBracket)) {
consume();
if (match(TokenType::Period)) {
consume();
// FIXME: Parse collating element, this is needed when we have locale support
// This could have impact on length parameter, I guess.
2021-07-12 21:46:09 +00:00
set_error(Error::InvalidCollationElement);
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
consume(TokenType::Period, Error::InvalidCollationElement);
consume(TokenType::RightBracket, Error::MismatchingBracket);
} else if (match(TokenType::EqualSign)) {
consume();
// FIXME: Parse collating element, this is needed when we have locale support
// This could have impact on length parameter, I guess.
2021-07-12 21:46:09 +00:00
set_error(Error::InvalidCollationElement);
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
consume(TokenType::EqualSign, Error::InvalidCollationElement);
consume(TokenType::RightBracket, Error::MismatchingBracket);
} else if (match(TokenType::Colon)) {
consume();
CharClass ch_class;
// parse character class
if (match(TokenType::Char)) {
if (consume("alnum"))
ch_class = CharClass::Alnum;
else if (consume("alpha"))
ch_class = CharClass::Alpha;
else if (consume("blank"))
ch_class = CharClass::Blank;
else if (consume("cntrl"))
ch_class = CharClass::Cntrl;
else if (consume("digit"))
ch_class = CharClass::Digit;
else if (consume("graph"))
ch_class = CharClass::Graph;
else if (consume("lower"))
ch_class = CharClass::Lower;
else if (consume("print"))
ch_class = CharClass::Print;
else if (consume("punct"))
ch_class = CharClass::Punct;
else if (consume("space"))
ch_class = CharClass::Space;
else if (consume("upper"))
ch_class = CharClass::Upper;
else if (consume("xdigit"))
ch_class = CharClass::Xdigit;
else
return set_error(Error::InvalidCharacterClass);
values.append({ CharacterCompareType::CharClass, (ByteCodeValueType)ch_class });
} else
return set_error(Error::InvalidCharacterClass);
// FIXME: we do not support locale specific character classes until locales are implemented
consume(TokenType::Colon, Error::InvalidCharacterClass);
consume(TokenType::RightBracket, Error::MismatchingBracket);
} else {
return set_error(Error::MismatchingBracket);
}
} else if (match(TokenType::RightBracket)) {
if (values.is_empty() || (values.size() == 1 && values.last().type == CharacterCompareType::Inverse)) {
// handle bracket as ordinary character
values.append({ CharacterCompareType::Char, (ByteCodeValueType)*consume().value().characters_without_null_termination() });
} else {
// closing bracket expression
break;
}
} else {
values.append({ CharacterCompareType::Char, (ByteCodeValueType)skip() });
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
// check if range expression has to be completed...
if (values.size() >= 3 && values.at(values.size() - 2).type == CharacterCompareType::RangeExpressionDummy) {
if (values.last().type != CharacterCompareType::Char)
return set_error(Error::InvalidRange);
auto value2 = values.take_last();
values.take_last(); // RangeExpressionDummy
auto value1 = values.take_last();
values.append({ CharacterCompareType::CharRange, static_cast<ByteCodeValueType>(CharRange { (u32)value1.value, (u32)value2.value }) });
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}
}
if (!values.is_empty()) {
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
match_length_minimum = 1;
if (values.first().type == CharacterCompareType::Inverse)
match_length_minimum = 0;
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
return true;
}
// =============================
// PosixBasic Parser
// =============================
bool PosixBasicParser::parse_internal(ByteCode& stack, size_t& match_length_minimum)
{
return parse_root(stack, match_length_minimum);
}
bool PosixBasicParser::parse_root(ByteCode& bytecode, size_t& match_length_minimum)
{
// basic_reg_exp : L_ANCHOR? RE_expression R_ANCHOR?
if (match(TokenType::Circumflex)) {
consume();
bytecode.empend((ByteCodeValueType)OpCodeId::CheckBegin);
}
if (!parse_re_expression(bytecode, match_length_minimum))
return false;
if (match(TokenType::Dollar)) {
consume();
bytecode.empend((ByteCodeValueType)OpCodeId::CheckEnd);
}
return !has_error();
}
bool PosixBasicParser::parse_re_expression(ByteCode& bytecode, size_t& match_length_minimum)
{
// RE_expression : RE_expression? simple_RE
while (!done()) {
if (!parse_simple_re(bytecode, match_length_minimum))
break;
}
return !has_error();
}
bool PosixBasicParser::parse_simple_re(ByteCode& bytecode, size_t& match_length_minimum)
{
// simple_RE : nondupl_RE RE_dupl_symbol?
ByteCode simple_re_bytecode;
size_t re_match_length_minimum = 0;
if (!parse_nonduplicating_re(simple_re_bytecode, re_match_length_minimum))
return false;
// RE_dupl_symbol : '*' | Back_open_brace DUP_COUNT (',' DUP_COUNT?)? Back_close_brace
if (match(TokenType::Asterisk)) {
consume();
ByteCode::transform_bytecode_repetition_any(simple_re_bytecode, true);
} else if (try_skip("\\{")) {
auto read_number = [&]() -> Optional<size_t> {
if (!match(TokenType::Char))
return {};
size_t value = 0;
while (match(TokenType::Char)) {
auto c = m_parser_state.current_token.value().substring_view(0, 1);
auto c_value = c.to_uint();
if (!c_value.has_value())
break;
value *= 10;
value += *c_value;
consume();
}
return value;
};
size_t min_limit;
Optional<size_t> max_limit;
if (auto limit = read_number(); !limit.has_value())
return set_error(Error::InvalidRepetitionMarker);
else
min_limit = *limit;
if (match(TokenType::Comma)) {
consume();
max_limit = read_number();
}
if (!try_skip("\\}"))
return set_error(Error::MismatchingBrace);
if (max_limit.value_or(min_limit) < min_limit)
return set_error(Error::InvalidBraceContent);
if (min_limit > s_maximum_repetition_count || (max_limit.has_value() && *max_limit > s_maximum_repetition_count))
return set_error(Error::InvalidBraceContent);
auto min_repetition_mark_id = m_parser_state.repetition_mark_count++;
auto max_repetition_mark_id = m_parser_state.repetition_mark_count++;
ByteCode::transform_bytecode_repetition_min_max(simple_re_bytecode, min_limit, max_limit, min_repetition_mark_id, max_repetition_mark_id, true);
match_length_minimum += re_match_length_minimum * min_limit;
} else {
match_length_minimum += re_match_length_minimum;
}
bytecode.extend(move(simple_re_bytecode));
return true;
}
bool PosixBasicParser::parse_nonduplicating_re(ByteCode& bytecode, size_t& match_length_minimum)
{
// nondupl_RE : one_char_or_coll_elem_RE | Back_open_paren RE_expression Back_close_paren | BACKREF
if (try_skip("\\(")) {
TemporaryChange change { m_current_capture_group_depth, m_current_capture_group_depth + 1 };
// Max number of addressable capture groups is 10, let's just be lenient
// and accept 20; anything past that is probably a silly pattern anyway.
if (m_current_capture_group_depth > 20)
return set_error(Error::InvalidPattern);
ByteCode capture_bytecode;
size_t capture_length_minimum = 0;
auto capture_group_index = ++m_parser_state.capture_groups_count;
if (!parse_re_expression(capture_bytecode, capture_length_minimum))
return false;
if (!try_skip("\\)"))
return set_error(Error::MismatchingParen);
match_length_minimum += capture_length_minimum;
if (capture_group_index <= number_of_addressable_capture_groups) {
m_capture_group_minimum_lengths[capture_group_index - 1] = capture_length_minimum;
m_capture_group_seen[capture_group_index - 1] = true;
bytecode.insert_bytecode_group_capture_left(capture_group_index);
}
bytecode.extend(capture_bytecode);
if (capture_group_index <= number_of_addressable_capture_groups)
bytecode.insert_bytecode_group_capture_right(capture_group_index);
return true;
}
for (size_t i = 1; i < 10; ++i) {
char backref_name[2] { '\\', '0' };
backref_name[1] += i;
if (try_skip({ backref_name, 2 })) {
if (!m_capture_group_seen[i - 1])
return set_error(Error::InvalidNumber);
match_length_minimum += m_capture_group_minimum_lengths[i - 1];
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::Reference, (ByteCodeValueType)i } });
return true;
}
}
return parse_one_char_or_collation_element(bytecode, match_length_minimum);
}
bool PosixBasicParser::parse_one_char_or_collation_element(ByteCode& bytecode, size_t& match_length_minimum)
{
// one_char_or_coll_elem_RE : ORD_CHAR | QUOTED_CHAR | '.' | bracket_expression
if (match(TokenType::Period)) {
consume();
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::AnyChar, 0 } });
match_length_minimum += 1;
return true;
}
// Dollars are special if at the end of a pattern.
if (match(TokenType::Dollar)) {
consume();
// If we are at the end of a pattern, emit an end check instruction.
if (match(TokenType::Eof)) {
bytecode.empend((ByteCodeValueType)OpCodeId::CheckEnd);
return true;
}
// We are not at the end of the string, so we should roll back and continue as normal.
back(2);
}
// None of these are special in BRE.
if (match(TokenType::Char) || match(TokenType::Questionmark) || match(TokenType::RightParen) || match(TokenType::HyphenMinus)
|| match(TokenType::Circumflex) || match(TokenType::RightCurly) || match(TokenType::Comma) || match(TokenType::Colon)
|| match(TokenType::Dollar) || match(TokenType::EqualSign) || match(TokenType::LeftCurly) || match(TokenType::LeftParen)
|| match(TokenType::Pipe) || match(TokenType::Slash) || match(TokenType::RightBracket) || match(TokenType::RightParen)) {
auto ch = consume().value()[0];
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)ch } });
match_length_minimum += 1;
return true;
}
if (match(TokenType::EscapeSequence)) {
if (m_parser_state.current_token.value().is_one_of("\\)"sv, "\\}"sv, "\\("sv, "\\{"sv))
return false;
auto ch = consume().value()[1];
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)ch } });
match_length_minimum += 1;
return true;
}
Vector<CompareTypeAndValuePair> values;
size_t bracket_minimum_length = 0;
if (match(TokenType::LeftBracket)) {
consume();
if (!AbstractPosixParser::parse_bracket_expression(values, bracket_minimum_length))
return false;
consume(TokenType::RightBracket, Error::MismatchingBracket);
if (!has_error())
bytecode.insert_bytecode_compare_values(move(values));
match_length_minimum += bracket_minimum_length;
return !has_error();
}
return set_error(Error::InvalidPattern);
}
// =============================
// PosixExtended Parser
// =============================
bool PosixExtendedParser::parse_internal(ByteCode& stack, size_t& match_length_minimum)
{
return parse_root(stack, match_length_minimum);
}
ALWAYS_INLINE bool PosixExtendedParser::match_repetition_symbol()
{
auto type = m_parser_state.current_token.type();
return (type == TokenType::Asterisk
|| type == TokenType::Plus
|| type == TokenType::Questionmark
|| type == TokenType::LeftCurly);
}
ALWAYS_INLINE bool PosixExtendedParser::parse_repetition_symbol(ByteCode& bytecode_to_repeat, size_t& match_length_minimum)
{
if (match(TokenType::LeftCurly)) {
consume();
StringBuilder number_builder;
while (match(TokenType::Char)) {
number_builder.append(consume().value());
}
auto maybe_minimum = number_builder.build().to_uint();
if (!maybe_minimum.has_value())
return set_error(Error::InvalidBraceContent);
auto minimum = maybe_minimum.value();
match_length_minimum *= minimum;
if (minimum > s_maximum_repetition_count)
return set_error(Error::InvalidBraceContent);
if (match(TokenType::Comma)) {
consume();
} else {
auto repetition_mark_id = m_parser_state.repetition_mark_count++;
ByteCode bytecode;
bytecode.insert_bytecode_repetition_n(bytecode_to_repeat, minimum, repetition_mark_id);
bytecode_to_repeat = move(bytecode);
consume(TokenType::RightCurly, Error::MismatchingBrace);
return !has_error();
}
Optional<u32> maybe_maximum {};
number_builder.clear();
while (match(TokenType::Char)) {
number_builder.append(consume().value());
}
if (!number_builder.is_empty()) {
auto value = number_builder.build().to_uint();
if (!value.has_value() || minimum > value.value() || *value > s_maximum_repetition_count)
return set_error(Error::InvalidBraceContent);
maybe_maximum = value.value();
}
auto min_repetition_mark_id = m_parser_state.repetition_mark_count++;
auto max_repetition_mark_id = m_parser_state.repetition_mark_count++;
ByteCode::transform_bytecode_repetition_min_max(bytecode_to_repeat, minimum, maybe_maximum, min_repetition_mark_id, max_repetition_mark_id);
consume(TokenType::RightCurly, Error::MismatchingBrace);
return !has_error();
} else if (match(TokenType::Plus)) {
consume();
bool nongreedy = match(TokenType::Questionmark);
if (nongreedy)
consume();
// Note: don't touch match_length_minimum, it's already correct
ByteCode::transform_bytecode_repetition_min_one(bytecode_to_repeat, !nongreedy);
return !has_error();
} else if (match(TokenType::Asterisk)) {
consume();
match_length_minimum = 0;
bool nongreedy = match(TokenType::Questionmark);
if (nongreedy)
consume();
ByteCode::transform_bytecode_repetition_any(bytecode_to_repeat, !nongreedy);
return !has_error();
} else if (match(TokenType::Questionmark)) {
consume();
match_length_minimum = 0;
bool nongreedy = match(TokenType::Questionmark);
if (nongreedy)
consume();
ByteCode::transform_bytecode_repetition_zero_or_one(bytecode_to_repeat, !nongreedy);
return !has_error();
}
return false;
}
ALWAYS_INLINE bool PosixExtendedParser::parse_bracket_expression(ByteCode& stack, size_t& match_length_minimum)
{
Vector<CompareTypeAndValuePair> values;
if (!AbstractPosixParser::parse_bracket_expression(values, match_length_minimum))
return false;
if (!has_error())
stack.insert_bytecode_compare_values(move(values));
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
return !has_error();
}
ALWAYS_INLINE bool PosixExtendedParser::parse_sub_expression(ByteCode& stack, size_t& match_length_minimum)
{
ByteCode bytecode;
size_t length = 0;
bool should_parse_repetition_symbol { false };
for (;;) {
if (match_ordinary_characters()) {
Token start_token = m_parser_state.current_token;
Token last_token = m_parser_state.current_token;
for (;;) {
if (!match_ordinary_characters())
break;
++length;
last_token = consume();
}
if (length > 1) {
// last character is inserted into 'bytecode' for duplication symbol handling
auto new_length = length - ((match_repetition_symbol() && length > 1) ? 1 : 0);
stack.insert_bytecode_compare_string({ start_token.value().characters_without_null_termination(), new_length });
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}
if ((match_repetition_symbol() && length > 1) || length == 1) // Create own compare opcode for last character before duplication symbol
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)last_token.value().characters_without_null_termination()[0] } });
should_parse_repetition_symbol = true;
break;
}
if (match_repetition_symbol())
return set_error(Error::InvalidRepetitionMarker);
if (match(TokenType::Period)) {
length = 1;
consume();
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::AnyChar, 0 } });
should_parse_repetition_symbol = true;
break;
}
if (match(TokenType::EscapeSequence)) {
length = 1;
Token t = consume();
dbgln_if(REGEX_DEBUG, "[PARSER] EscapeSequence with substring {}", t.value());
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
bytecode.insert_bytecode_compare_values({ { CharacterCompareType::Char, (u32)t.value().characters_without_null_termination()[1] } });
should_parse_repetition_symbol = true;
break;
}
if (match(TokenType::LeftBracket)) {
consume();
ByteCode sub_ops;
if (!parse_bracket_expression(sub_ops, length) || !sub_ops.size())
return set_error(Error::InvalidBracketContent);
bytecode.extend(move(sub_ops));
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
consume(TokenType::RightBracket, Error::MismatchingBracket);
should_parse_repetition_symbol = true;
break;
}
if (match(TokenType::RightBracket)) {
return set_error(Error::MismatchingBracket);
}
if (match(TokenType::RightCurly)) {
return set_error(Error::MismatchingBrace);
}
if (match(TokenType::Circumflex)) {
consume();
bytecode.empend((ByteCodeValueType)OpCodeId::CheckBegin);
break;
}
if (match(TokenType::Dollar)) {
consume();
bytecode.empend((ByteCodeValueType)OpCodeId::CheckEnd);
break;
}
if (match(TokenType::RightParen))
return false;
if (match(TokenType::LeftParen)) {
2021-07-12 21:46:09 +00:00
enum GroupMode {
Normal,
Lookahead,
NegativeLookahead,
Lookbehind,
NegativeLookbehind,
} group_mode { Normal };
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
consume();
Optional<StringView> capture_group_name;
bool prevent_capture_group = false;
if (match(TokenType::Questionmark)) {
consume();
if (match(TokenType::Colon)) {
consume();
prevent_capture_group = true;
} else if (consume("<")) { // named capturing group
Token start_token = m_parser_state.current_token;
Token last_token = m_parser_state.current_token;
size_t capture_group_name_length = 0;
for (;;) {
if (!match_ordinary_characters())
return set_error(Error::InvalidNameForCaptureGroup);
if (match(TokenType::Char) && m_parser_state.current_token.value()[0] == '>') {
consume();
break;
}
++capture_group_name_length;
last_token = consume();
}
capture_group_name = StringView(start_token.value().characters_without_null_termination(), capture_group_name_length);
++m_parser_state.named_capture_groups_count;
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
} else if (match(TokenType::EqualSign)) { // positive lookahead
consume();
2021-07-12 21:46:09 +00:00
group_mode = Lookahead;
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
} else if (consume("!")) { // negative lookahead
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group_mode = NegativeLookahead;
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
} else if (consume("<")) {
if (match(TokenType::EqualSign)) { // positive lookbehind
consume();
2021-07-12 21:46:09 +00:00
group_mode = Lookbehind;
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}
if (consume("!")) // negative lookbehind
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group_mode = NegativeLookbehind;
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
} else {
return set_error(Error::InvalidRepetitionMarker);
}
}
auto current_capture_group = m_parser_state.capture_groups_count;
if (!(m_parser_state.regex_options & AllFlags::SkipSubExprResults || prevent_capture_group)) {
bytecode.insert_bytecode_group_capture_left(current_capture_group);
m_parser_state.capture_groups_count++;
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
ByteCode capture_group_bytecode;
if (!parse_root(capture_group_bytecode, length))
return set_error(Error::InvalidPattern);
2021-07-12 21:46:09 +00:00
switch (group_mode) {
case Normal:
bytecode.extend(move(capture_group_bytecode));
break;
case Lookahead:
bytecode.insert_bytecode_lookaround(move(capture_group_bytecode), ByteCode::LookAroundType::LookAhead, length);
break;
case NegativeLookahead:
bytecode.insert_bytecode_lookaround(move(capture_group_bytecode), ByteCode::LookAroundType::NegatedLookAhead, length);
break;
case Lookbehind:
bytecode.insert_bytecode_lookaround(move(capture_group_bytecode), ByteCode::LookAroundType::LookBehind, length);
break;
case NegativeLookbehind:
bytecode.insert_bytecode_lookaround(move(capture_group_bytecode), ByteCode::LookAroundType::NegatedLookBehind, length);
break;
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
consume(TokenType::RightParen, Error::MismatchingParen);
if (!(m_parser_state.regex_options & AllFlags::SkipSubExprResults || prevent_capture_group)) {
if (capture_group_name.has_value())
bytecode.insert_bytecode_group_capture_right(current_capture_group, capture_group_name.value());
else
bytecode.insert_bytecode_group_capture_right(current_capture_group);
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}
should_parse_repetition_symbol = true;
break;
}
return false;
}
if (match_repetition_symbol()) {
if (should_parse_repetition_symbol)
parse_repetition_symbol(bytecode, length);
else
return set_error(Error::InvalidRepetitionMarker);
}
stack.extend(move(bytecode));
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
match_length_minimum += length;
return true;
}
bool PosixExtendedParser::parse_root(ByteCode& stack, size_t& match_length_minimum)
{
ByteCode bytecode_left;
size_t match_length_minimum_left { 0 };
if (match_repetition_symbol())
return set_error(Error::InvalidRepetitionMarker);
for (;;) {
if (!parse_sub_expression(bytecode_left, match_length_minimum_left))
break;
if (match(TokenType::Pipe)) {
consume();
ByteCode bytecode_right;
size_t match_length_minimum_right { 0 };
if (!parse_root(bytecode_right, match_length_minimum_right) || bytecode_right.is_empty())
return set_error(Error::InvalidPattern);
ByteCode new_bytecode;
new_bytecode.insert_bytecode_alternation(move(bytecode_left), move(bytecode_right));
bytecode_left = move(new_bytecode);
match_length_minimum_left = min(match_length_minimum_right, match_length_minimum_left);
}
}
if (bytecode_left.is_empty())
set_error(Error::EmptySubExpression);
stack.extend(move(bytecode_left));
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
match_length_minimum = match_length_minimum_left;
return !has_error();
}
// =============================
// ECMA262 Parser
// =============================
bool ECMA262Parser::parse_internal(ByteCode& stack, size_t& match_length_minimum)
{
if (m_parser_state.regex_options.has_flag_set(AllFlags::Unicode)) {
return parse_pattern(stack, match_length_minimum, true, true);
} else {
ByteCode new_stack;
size_t new_match_length = 0;
auto res = parse_pattern(new_stack, new_match_length, false, false);
if (m_parser_state.named_capture_groups_count > 0) {
reset();
return parse_pattern(stack, match_length_minimum, false, true);
}
if (!res)
return false;
stack.extend(new_stack);
match_length_minimum = new_match_length;
return res;
}
}
bool ECMA262Parser::parse_pattern(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
return parse_disjunction(stack, match_length_minimum, unicode, named);
}
bool ECMA262Parser::parse_disjunction(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
ByteCode left_alternative_stack;
size_t left_alternative_min_length = 0;
auto alt_ok = parse_alternative(left_alternative_stack, left_alternative_min_length, unicode, named);
if (!alt_ok)
return false;
if (!match(TokenType::Pipe)) {
stack.extend(left_alternative_stack);
match_length_minimum = left_alternative_min_length;
return alt_ok;
}
consume();
ByteCode right_alternative_stack;
size_t right_alternative_min_length = 0;
auto continuation_ok = parse_disjunction(right_alternative_stack, right_alternative_min_length, unicode, named);
if (!continuation_ok)
return false;
stack.insert_bytecode_alternation(move(left_alternative_stack), move(right_alternative_stack));
match_length_minimum = min(left_alternative_min_length, right_alternative_min_length);
return continuation_ok;
}
bool ECMA262Parser::parse_alternative(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
for (;;) {
if (match(TokenType::Eof))
return true;
if (parse_term(stack, match_length_minimum, unicode, named))
continue;
return !has_error();
}
}
bool ECMA262Parser::parse_term(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
if (parse_assertion(stack, match_length_minimum, unicode, named))
return true;
ByteCode atom_stack;
size_t minimum_atom_length = 0;
auto parse_with_quantifier = [&] {
bool did_parse_one = false;
if (m_should_use_browser_extended_grammar)
did_parse_one = parse_extended_atom(atom_stack, minimum_atom_length, named);
if (!did_parse_one)
did_parse_one = parse_atom(atom_stack, minimum_atom_length, unicode, named);
if (!did_parse_one)
return false;
VERIFY(did_parse_one);
if (!parse_quantifier(atom_stack, minimum_atom_length, unicode, named))
return false;
return true;
};
if (!parse_with_quantifier())
return false;
stack.extend(move(atom_stack));
match_length_minimum += minimum_atom_length;
return true;
}
bool ECMA262Parser::parse_assertion(ByteCode& stack, [[maybe_unused]] size_t& match_length_minimum, bool unicode, bool named)
{
if (match(TokenType::Circumflex)) {
consume();
stack.empend((ByteCodeValueType)OpCodeId::CheckBegin);
return true;
}
if (match(TokenType::Dollar)) {
consume();
stack.empend((ByteCodeValueType)OpCodeId::CheckEnd);
return true;
}
if (try_skip("\\b")) {
stack.insert_bytecode_check_boundary(BoundaryCheckType::Word);
return true;
}
if (try_skip("\\B")) {
stack.insert_bytecode_check_boundary(BoundaryCheckType::NonWord);
return true;
}
if (match(TokenType::LeftParen)) {
if (!try_skip("(?"))
return false;
if (done()) {
set_error(Error::InvalidCaptureGroup);
return false;
}
ByteCode assertion_stack;
size_t length_dummy = 0;
bool should_parse_forward_assertion = m_should_use_browser_extended_grammar ? unicode : true;
if (should_parse_forward_assertion && try_skip("=")) {
if (!parse_inner_disjunction(assertion_stack, length_dummy, unicode, named))
return false;
stack.insert_bytecode_lookaround(move(assertion_stack), ByteCode::LookAroundType::LookAhead);
return true;
}
if (should_parse_forward_assertion && try_skip("!")) {
if (!parse_inner_disjunction(assertion_stack, length_dummy, unicode, named))
return false;
stack.insert_bytecode_lookaround(move(assertion_stack), ByteCode::LookAroundType::NegatedLookAhead);
return true;
}
if (m_should_use_browser_extended_grammar) {
if (!unicode) {
if (parse_quantifiable_assertion(assertion_stack, match_length_minimum, named)) {
stack.extend(move(assertion_stack));
return true;
}
}
}
if (try_skip("<=")) {
if (!parse_inner_disjunction(assertion_stack, length_dummy, unicode, named))
return false;
// FIXME: Somehow ensure that this assertion regexp has a fixed length.
stack.insert_bytecode_lookaround(move(assertion_stack), ByteCode::LookAroundType::LookBehind, length_dummy);
return true;
}
if (try_skip("<!")) {
if (!parse_inner_disjunction(assertion_stack, length_dummy, unicode, named))
return false;
stack.insert_bytecode_lookaround(move(assertion_stack), ByteCode::LookAroundType::NegatedLookBehind, length_dummy);
return true;
}
// If none of these matched, put the '(?' back.
m_parser_state.lexer.back(3);
m_parser_state.current_token = m_parser_state.lexer.next();
return false;
}
return false;
}
bool ECMA262Parser::parse_inner_disjunction(ByteCode& bytecode_stack, size_t& length, bool unicode, bool named)
{
auto disjunction_ok = parse_disjunction(bytecode_stack, length, unicode, named);
if (!disjunction_ok)
return false;
consume(TokenType::RightParen, Error::MismatchingParen);
return true;
}
bool ECMA262Parser::parse_quantifiable_assertion(ByteCode& stack, size_t&, bool named)
{
VERIFY(m_should_use_browser_extended_grammar);
ByteCode assertion_stack;
size_t match_length_minimum = 0;
if (try_skip("=")) {
if (!parse_inner_disjunction(assertion_stack, match_length_minimum, false, named))
return false;
stack.insert_bytecode_lookaround(move(assertion_stack), ByteCode::LookAroundType::LookAhead);
return true;
}
if (try_skip("!")) {
if (!parse_inner_disjunction(assertion_stack, match_length_minimum, false, named))
return false;
stack.insert_bytecode_lookaround(move(assertion_stack), ByteCode::LookAroundType::NegatedLookAhead);
return true;
}
return false;
}
StringView ECMA262Parser::read_digits_as_string(ReadDigitsInitialZeroState initial_zero, bool hex, int max_count, int min_count)
{
if (!match(TokenType::Char))
return {};
if (initial_zero == ReadDigitsInitialZeroState::Disallow && m_parser_state.current_token.value() == "0")
return {};
int count = 0;
size_t offset = 0;
auto start_token = m_parser_state.current_token;
while (match(TokenType::Char)) {
auto const c = m_parser_state.current_token.value();
if (max_count > 0 && count >= max_count)
break;
if (hex && !AK::StringUtils::convert_to_uint_from_hex(c).has_value())
break;
if (!hex && !c.to_uint().has_value())
break;
offset += consume().value().length();
++count;
}
if (count < min_count)
return {};
return StringView { start_token.value().characters_without_null_termination(), offset };
}
Optional<unsigned> ECMA262Parser::read_digits(ECMA262Parser::ReadDigitsInitialZeroState initial_zero, bool hex, int max_count, int min_count)
{
auto str = read_digits_as_string(initial_zero, hex, max_count, min_count);
if (str.is_empty())
return {};
if (hex)
return AK::StringUtils::convert_to_uint_from_hex(str);
return str.to_uint();
}
bool ECMA262Parser::parse_quantifier(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool)
{
enum class Repetition {
OneOrMore,
ZeroOrMore,
Optional,
Explicit,
None,
} repetition_mark { Repetition::None };
bool ungreedy = false;
Optional<u64> repeat_min, repeat_max;
if (match(TokenType::Asterisk)) {
consume();
repetition_mark = Repetition::ZeroOrMore;
} else if (match(TokenType::Plus)) {
consume();
repetition_mark = Repetition::OneOrMore;
} else if (match(TokenType::Questionmark)) {
consume();
repetition_mark = Repetition::Optional;
} else if (match(TokenType::LeftCurly)) {
repetition_mark = Repetition::Explicit;
if (!parse_interval_quantifier(repeat_min, repeat_max)) {
if (unicode) {
2021-10-01 00:03:41 +00:00
// Invalid interval quantifiers are disallowed in Unicode mod - they must be escaped with '\{'.
set_error(Error::InvalidPattern);
}
return !has_error();
}
} else {
return true;
}
if (match(TokenType::Questionmark)) {
consume();
ungreedy = true;
}
switch (repetition_mark) {
case Repetition::OneOrMore:
ByteCode::transform_bytecode_repetition_min_one(stack, !ungreedy);
break;
case Repetition::ZeroOrMore:
ByteCode::transform_bytecode_repetition_any(stack, !ungreedy);
match_length_minimum = 0;
break;
case Repetition::Optional:
ByteCode::transform_bytecode_repetition_zero_or_one(stack, !ungreedy);
match_length_minimum = 0;
break;
case Repetition::Explicit: {
auto min_repetition_mark_id = m_parser_state.repetition_mark_count++;
auto max_repetition_mark_id = m_parser_state.repetition_mark_count++;
ByteCode::transform_bytecode_repetition_min_max(stack, repeat_min.value(), repeat_max, min_repetition_mark_id, max_repetition_mark_id, !ungreedy);
match_length_minimum *= repeat_min.value();
break;
}
case Repetition::None:
VERIFY_NOT_REACHED();
}
return true;
}
bool ECMA262Parser::parse_interval_quantifier(Optional<u64>& repeat_min, Optional<u64>& repeat_max)
{
VERIFY(match(TokenType::LeftCurly));
consume();
auto chars_consumed = 1;
auto low_bound_string = read_digits_as_string();
chars_consumed += low_bound_string.length();
auto low_bound = low_bound_string.to_uint<u64>();
if (!low_bound.has_value()) {
if (!m_should_use_browser_extended_grammar && done())
return set_error(Error::MismatchingBrace);
back(chars_consumed + !done());
return false;
}
repeat_min = low_bound.value();
if (match(TokenType::Comma)) {
consume();
++chars_consumed;
auto high_bound_string = read_digits_as_string();
auto high_bound = high_bound_string.to_uint<u64>();
if (high_bound.has_value()) {
repeat_max = high_bound.value();
chars_consumed += high_bound_string.length();
}
} else {
repeat_max = repeat_min;
}
if (!match(TokenType::RightCurly)) {
if (!m_should_use_browser_extended_grammar && done())
return set_error(Error::MismatchingBrace);
back(chars_consumed + !done());
return false;
}
consume();
++chars_consumed;
if (repeat_max.has_value()) {
if (repeat_min.value() > repeat_max.value())
set_error(Error::InvalidBraceContent);
}
if ((*repeat_min > s_ecma262_maximum_repetition_count) || (repeat_max.has_value() && (*repeat_max > s_ecma262_maximum_repetition_count)))
return set_error(Error::InvalidBraceContent);
return true;
}
bool ECMA262Parser::parse_atom(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
if (match(TokenType::EscapeSequence)) {
// Also part of AtomEscape.
auto token = consume();
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (u8)token.value()[1] } });
return true;
}
if (try_skip("\\")) {
// AtomEscape.
return parse_atom_escape(stack, match_length_minimum, unicode, named);
}
if (match(TokenType::LeftBracket)) {
// Character class.
return parse_character_class(stack, match_length_minimum, unicode, named);
}
if (match(TokenType::LeftParen)) {
// Non-capturing group, or a capture group.
return parse_capture_group(stack, match_length_minimum, unicode, named);
}
if (match(TokenType::Period)) {
consume();
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::AnyChar, 0 } });
return true;
}
if (match(TokenType::Circumflex) || match(TokenType::Dollar) || match(TokenType::RightParen)
|| match(TokenType::Pipe) || match(TokenType::Plus) || match(TokenType::Asterisk)
|| match(TokenType::Questionmark)) {
return false;
}
if (match(TokenType::RightBracket) || match(TokenType::RightCurly) || match(TokenType::LeftCurly)) {
if (unicode)
return set_error(Error::InvalidPattern);
if (m_should_use_browser_extended_grammar) {
auto token = consume();
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (u8)token.value()[0] } });
return true;
} else {
return false;
}
}
if (match_ordinary_characters()) {
auto token = consume().value();
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (u8)token[0] } });
return true;
}
set_error(Error::InvalidPattern);
return false;
}
bool ECMA262Parser::parse_extended_atom(ByteCode&, size_t&, bool)
{
// Note: This includes only rules *not* present in parse_atom()
VERIFY(m_should_use_browser_extended_grammar);
if (parse_invalid_braced_quantifier())
return true; // FAIL FAIL FAIL
return false;
}
bool ECMA262Parser::parse_invalid_braced_quantifier()
{
if (!match(TokenType::LeftCurly))
return false;
consume();
size_t chars_consumed = 1;
auto low_bound = read_digits_as_string();
StringView high_bound;
if (low_bound.is_empty()) {
back(chars_consumed + !done());
return false;
}
chars_consumed += low_bound.length();
if (match(TokenType::Comma)) {
consume();
++chars_consumed;
high_bound = read_digits_as_string();
chars_consumed += high_bound.length();
}
if (!match(TokenType::RightCurly)) {
back(chars_consumed + !done());
return false;
}
consume();
set_error(Error::InvalidPattern);
return true;
}
bool ECMA262Parser::parse_atom_escape(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
if (auto escape_str = read_digits_as_string(ReadDigitsInitialZeroState::Disallow); !escape_str.is_empty()) {
if (auto escape = escape_str.to_uint(); escape.has_value()) {
// See if this is a "back"-reference (we've already parsed the group it refers to)
auto maybe_length = m_parser_state.capture_group_minimum_lengths.get(escape.value());
if (maybe_length.has_value()) {
match_length_minimum += maybe_length.value();
stack.insert_bytecode_compare_values({ { CharacterCompareType::Reference, (ByteCodeValueType)escape.value() } });
return true;
}
// It's not a pattern seen before, so we have to see if it's a valid reference to a future group.
if (escape.value() <= ensure_total_number_of_capturing_parenthesis()) {
// This refers to a future group, and it will _always_ be matching an empty string
// So just match nothing and move on.
return true;
}
if (!m_should_use_browser_extended_grammar) {
set_error(Error::InvalidNumber);
return false;
}
}
// If not, put the characters back.
back(escape_str.length());
}
// CharacterEscape > ControlEscape
if (try_skip("f")) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'\f' } });
return true;
}
if (try_skip("n")) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'\n' } });
return true;
}
if (try_skip("r")) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'\r' } });
return true;
}
if (try_skip("t")) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'\t' } });
return true;
}
if (try_skip("v")) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'\v' } });
return true;
}
// CharacterEscape > ControlLetter
if (try_skip("c")) {
for (auto c : s_alphabetic_characters) {
if (try_skip({ &c, 1 })) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)(c % 32) } });
return true;
}
}
if (unicode) {
set_error(Error::InvalidPattern);
return false;
}
if (m_should_use_browser_extended_grammar) {
back(1 + !done());
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'\\' } });
match_length_minimum += 1;
return true;
}
// Allow '\c' in non-unicode mode, just matches 'c'.
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'c' } });
return true;
}
// '\0'
if (try_skip("0")) {
if (!lookahead_any(s_decimal_characters)) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)0 } });
return true;
}
back();
}
// LegacyOctalEscapeSequence
if (m_should_use_browser_extended_grammar) {
if (!unicode) {
if (auto escape = parse_legacy_octal_escape(); escape.has_value()) {
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)escape.value() } });
match_length_minimum += 1;
return true;
}
}
}
// HexEscape
if (try_skip("x")) {
if (auto hex_escape = read_digits(ReadDigitsInitialZeroState::Allow, true, 2, 2); hex_escape.has_value()) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)hex_escape.value() } });
return true;
} else if (!unicode) {
// '\x' is allowed in non-unicode mode, just matches 'x'.
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'x' } });
return true;
} else {
set_error(Error::InvalidPattern);
return false;
}
}
if (try_skip("u")) {
if (auto code_point = consume_escaped_code_point(unicode); code_point.has_value()) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)code_point.value() } });
return true;
}
return false;
}
// IdentityEscape
for (auto ch : identity_escape_characters(unicode, m_should_use_browser_extended_grammar)) {
if (try_skip({ &ch, 1 })) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)ch } });
return true;
}
}
if (unicode) {
if (try_skip("/")) {
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (ByteCodeValueType)'/' } });
return true;
}
}
if (named && try_skip("k")) {
auto name = read_capture_group_specifier(true);
if (name.is_empty()) {
set_error(Error::InvalidNameForCaptureGroup);
return false;
}
auto maybe_capture_group = m_parser_state.named_capture_groups.get(name);
if (!maybe_capture_group.has_value()) {
set_error(Error::InvalidNameForCaptureGroup);
return false;
}
match_length_minimum += maybe_capture_group->minimum_length;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Reference, (ByteCodeValueType)maybe_capture_group->group_index } });
return true;
}
if (unicode) {
PropertyEscape property {};
bool negated = false;
if (parse_unicode_property_escape(property, negated)) {
Vector<CompareTypeAndValuePair> compares;
if (negated)
compares.empend(CompareTypeAndValuePair { CharacterCompareType::Inverse, 0 });
property.visit(
[&](Unicode::Property property) {
compares.empend(CompareTypeAndValuePair { CharacterCompareType::Property, (ByteCodeValueType)property });
},
[&](Unicode::GeneralCategory general_category) {
compares.empend(CompareTypeAndValuePair { CharacterCompareType::GeneralCategory, (ByteCodeValueType)general_category });
},
[&](Script script) {
if (script.is_extension)
compares.empend(CompareTypeAndValuePair { CharacterCompareType::ScriptExtension, (ByteCodeValueType)script.script });
else
compares.empend(CompareTypeAndValuePair { CharacterCompareType::Script, (ByteCodeValueType)script.script });
},
[](Empty&) { VERIFY_NOT_REACHED(); });
stack.insert_bytecode_compare_values(move(compares));
match_length_minimum += 1;
return true;
}
}
if (done())
return set_error(Error::InvalidTrailingEscape);
bool negate = false;
auto ch = parse_character_class_escape(negate);
if (!ch.has_value()) {
if (!unicode) {
// Allow all SourceCharacter's as escapes here.
auto token = consume();
match_length_minimum += 1;
stack.insert_bytecode_compare_values({ { CharacterCompareType::Char, (u8)token.value()[0] } });
return true;
}
set_error(Error::InvalidCharacterClass);
return false;
}
Vector<CompareTypeAndValuePair> compares;
if (negate)
2020-11-28 17:47:12 +00:00
compares.empend(CompareTypeAndValuePair { CharacterCompareType::Inverse, 0 });
compares.empend(CompareTypeAndValuePair { CharacterCompareType::CharClass, (ByteCodeValueType)ch.value() });
match_length_minimum += 1;
stack.insert_bytecode_compare_values(move(compares));
return true;
}
Optional<u8> ECMA262Parser::parse_legacy_octal_escape()
{
constexpr auto all_octal_digits = "01234567";
auto read_octal_digit = [&](auto start, auto end, bool should_ensure_no_following_octal_digit) -> Optional<u8> {
for (char c = '0' + start; c <= '0' + end; ++c) {
if (try_skip({ &c, 1 })) {
if (!should_ensure_no_following_octal_digit || !lookahead_any(all_octal_digits))
return c - '0';
back(2);
return {};
}
}
return {};
};
// OctalDigit(1)
if (auto digit = read_octal_digit(0, 7, true); digit.has_value()) {
return digit.value();
}
// OctalDigit(2)
if (auto left_digit = read_octal_digit(0, 3, false); left_digit.has_value()) {
if (auto right_digit = read_octal_digit(0, 7, true); right_digit.has_value()) {
return left_digit.value() * 8 + right_digit.value();
}
back(2);
}
// OctalDigit(2)
if (auto left_digit = read_octal_digit(4, 7, false); left_digit.has_value()) {
if (auto right_digit = read_octal_digit(0, 7, false); right_digit.has_value()) {
return left_digit.value() * 8 + right_digit.value();
}
back(2);
}
// OctalDigit(3)
if (auto left_digit = read_octal_digit(0, 3, false); left_digit.has_value()) {
size_t chars_consumed = 1;
if (auto mid_digit = read_octal_digit(0, 7, false); mid_digit.has_value()) {
++chars_consumed;
if (auto right_digit = read_octal_digit(0, 7, false); right_digit.has_value()) {
return left_digit.value() * 64 + mid_digit.value() * 8 + right_digit.value();
}
}
back(chars_consumed);
}
return {};
}
Optional<CharClass> ECMA262Parser::parse_character_class_escape(bool& negate, bool expect_backslash)
{
if (expect_backslash && !try_skip("\\"))
return {};
// CharacterClassEscape
CharClass ch_class;
if (try_skip("d")) {
ch_class = CharClass::Digit;
} else if (try_skip("D")) {
ch_class = CharClass::Digit;
negate = true;
} else if (try_skip("s")) {
ch_class = CharClass::Space;
} else if (try_skip("S")) {
ch_class = CharClass::Space;
negate = true;
} else if (try_skip("w")) {
ch_class = CharClass::Word;
} else if (try_skip("W")) {
ch_class = CharClass::Word;
negate = true;
} else {
return {};
}
return ch_class;
}
bool ECMA262Parser::parse_character_class(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool)
{
consume(TokenType::LeftBracket, Error::InvalidPattern);
Vector<CompareTypeAndValuePair> compares;
if (match(TokenType::Circumflex)) {
// Negated charclass
consume();
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compares.empend(CompareTypeAndValuePair { CharacterCompareType::Inverse, 0 });
}
if (match(TokenType::RightBracket)) {
consume();
// Should only have at most an 'Inverse'
VERIFY(compares.size() <= 1);
stack.insert_bytecode_compare_values(move(compares));
return true;
}
if (!parse_nonempty_class_ranges(compares, unicode))
return false;
match_length_minimum += 1;
stack.insert_bytecode_compare_values(move(compares));
return true;
}
struct CharClassRangeElement {
union {
CharClass character_class;
u32 code_point { 0 };
Unicode::Property property;
Unicode::GeneralCategory general_category;
Unicode::Script script;
};
bool is_negated { false };
bool is_character_class { false };
bool is_property { false };
bool is_general_category { false };
bool is_script { false };
bool is_script_extension { false };
};
bool ECMA262Parser::parse_nonempty_class_ranges(Vector<CompareTypeAndValuePair>& ranges, bool unicode)
{
auto read_class_atom_no_dash = [&]() -> Optional<CharClassRangeElement> {
if (match(TokenType::EscapeSequence)) {
auto token = consume().value();
return { CharClassRangeElement { .code_point = (u32)token[1], .is_character_class = false } };
}
if (try_skip("\\")) {
if (done()) {
set_error(Error::InvalidTrailingEscape);
return {};
}
if (try_skip("f"))
return { CharClassRangeElement { .code_point = '\f', .is_character_class = false } };
if (try_skip("n"))
return { CharClassRangeElement { .code_point = '\n', .is_character_class = false } };
if (try_skip("r"))
return { CharClassRangeElement { .code_point = '\r', .is_character_class = false } };
if (try_skip("t"))
return { CharClassRangeElement { .code_point = '\t', .is_character_class = false } };
if (try_skip("v"))
return { CharClassRangeElement { .code_point = '\v', .is_character_class = false } };
if (try_skip("b"))
return { CharClassRangeElement { .code_point = '\b', .is_character_class = false } };
if (try_skip("/"))
return { CharClassRangeElement { .code_point = '/', .is_character_class = false } };
// CharacterEscape > ControlLetter
if (try_skip("c")) {
for (auto c : s_alphabetic_characters) {
if (try_skip({ &c, 1 })) {
return { CharClassRangeElement { .code_point = (u32)(c % 32), .is_character_class = false } };
}
}
if (unicode) {
set_error(Error::InvalidPattern);
return {};
}
if (m_should_use_browser_extended_grammar) {
for (auto c = '0'; c <= '9'; ++c) {
if (try_skip({ &c, 1 }))
return { CharClassRangeElement { .code_point = (u32)(c % 32), .is_character_class = false } };
}
if (try_skip("_"))
return { CharClassRangeElement { .code_point = (u32)('_' % 32), .is_character_class = false } };
back(1 + !done());
return { CharClassRangeElement { .code_point = '\\', .is_character_class = false } };
}
}
// '\0'
if (try_skip("0")) {
if (!lookahead_any(s_decimal_characters))
return { CharClassRangeElement { .code_point = 0, .is_character_class = false } };
back();
}
// LegacyOctalEscapeSequence
if (m_should_use_browser_extended_grammar && !unicode) {
if (auto escape = parse_legacy_octal_escape(); escape.has_value())
return { CharClassRangeElement { .code_point = escape.value(), .is_character_class = false } };
}
// HexEscape
if (try_skip("x")) {
if (auto hex_escape = read_digits(ReadDigitsInitialZeroState::Allow, true, 2, 2); hex_escape.has_value()) {
return { CharClassRangeElement { .code_point = hex_escape.value(), .is_character_class = false } };
} else if (!unicode) {
// '\x' is allowed in non-unicode mode, just matches 'x'.
return { CharClassRangeElement { .code_point = 'x', .is_character_class = false } };
} else {
set_error(Error::InvalidPattern);
return {};
}
}
if (try_skip("u")) {
if (auto code_point = consume_escaped_code_point(unicode); code_point.has_value()) {
2021-06-01 08:01:11 +00:00
// FIXME: While code point ranges are supported, code point matches as "Char" are not!
return { CharClassRangeElement { .code_point = code_point.value(), .is_character_class = false } };
}
return {};
}
// IdentityEscape
for (auto ch : identity_escape_characters(unicode, m_should_use_browser_extended_grammar)) {
if (try_skip({ &ch, 1 }))
return { CharClassRangeElement { .code_point = (u32)ch, .is_character_class = false } };
}
if (unicode) {
if (try_skip("-"))
return { CharClassRangeElement { .code_point = '-', .is_character_class = false } };
PropertyEscape property {};
bool negated = false;
if (parse_unicode_property_escape(property, negated)) {
return property.visit(
[&](Unicode::Property property) {
return CharClassRangeElement { .property = property, .is_negated = negated, .is_character_class = true, .is_property = true };
},
[&](Unicode::GeneralCategory general_category) {
return CharClassRangeElement { .general_category = general_category, .is_negated = negated, .is_character_class = true, .is_general_category = true };
},
[&](Script script) {
if (script.is_extension)
return CharClassRangeElement { .script = script.script, .is_negated = negated, .is_character_class = true, .is_script_extension = true };
else
return CharClassRangeElement { .script = script.script, .is_negated = negated, .is_character_class = true, .is_script = true };
},
[](Empty&) -> CharClassRangeElement { VERIFY_NOT_REACHED(); });
}
}
if (try_skip("d"))
return { CharClassRangeElement { .character_class = CharClass::Digit, .is_character_class = true } };
if (try_skip("s"))
return { CharClassRangeElement { .character_class = CharClass::Space, .is_character_class = true } };
if (try_skip("w"))
return { CharClassRangeElement { .character_class = CharClass::Word, .is_character_class = true } };
if (try_skip("D"))
return { CharClassRangeElement { .character_class = CharClass::Digit, .is_negated = true, .is_character_class = true } };
if (try_skip("S"))
return { CharClassRangeElement { .character_class = CharClass::Space, .is_negated = true, .is_character_class = true } };
if (try_skip("W"))
return { CharClassRangeElement { .character_class = CharClass::Word, .is_negated = true, .is_character_class = true } };
if (!unicode) {
// Any unrecognised escape is allowed in non-unicode mode.
return { CharClassRangeElement { .code_point = (u32)skip(), .is_character_class = false } };
}
set_error(Error::InvalidPattern);
return {};
}
if (match(TokenType::RightBracket) || match(TokenType::HyphenMinus))
return {};
// Allow any (other) SourceCharacter.
return { CharClassRangeElement { .code_point = (u32)skip(), .is_character_class = false } };
};
auto read_class_atom = [&]() -> Optional<CharClassRangeElement> {
if (match(TokenType::HyphenMinus)) {
consume();
return { CharClassRangeElement { .code_point = '-', .is_character_class = false } };
}
return read_class_atom_no_dash();
};
auto empend_atom = [&](auto& atom) {
if (atom.is_character_class) {
if (atom.is_negated)
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::TemporaryInverse, 0 });
if (atom.is_property)
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::Property, (ByteCodeValueType)(atom.property) });
else if (atom.is_general_category)
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::GeneralCategory, (ByteCodeValueType)(atom.general_category) });
else if (atom.is_script)
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::Script, (ByteCodeValueType)(atom.script) });
else if (atom.is_script_extension)
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::ScriptExtension, (ByteCodeValueType)(atom.script) });
else
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::CharClass, (ByteCodeValueType)atom.character_class });
} else {
VERIFY(!atom.is_negated);
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::Char, atom.code_point });
}
};
while (!match(TokenType::RightBracket)) {
if (match(TokenType::Eof)) {
set_error(Error::MismatchingBracket);
return false;
}
auto first_atom = read_class_atom();
if (!first_atom.has_value())
return false;
if (match(TokenType::HyphenMinus)) {
consume();
if (match(TokenType::RightBracket)) {
// Allow '-' as the last element in a charclass, even after an atom.
m_parser_state.lexer.back(2); // -]
m_parser_state.current_token = m_parser_state.lexer.next();
goto read_as_single_atom;
}
auto second_atom = read_class_atom();
if (!second_atom.has_value())
return false;
if (first_atom.value().is_character_class || second_atom.value().is_character_class) {
if (m_should_use_browser_extended_grammar) {
if (unicode) {
set_error(Error::InvalidRange);
return false;
}
// CharacterRangeOrUnion > !Unicode > CharClass
empend_atom(*first_atom);
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::Char, (ByteCodeValueType)'-' });
empend_atom(*second_atom);
continue;
} else {
set_error(Error::InvalidRange);
return false;
}
}
if (first_atom.value().code_point > second_atom.value().code_point) {
set_error(Error::InvalidRange);
return false;
}
VERIFY(!first_atom.value().is_negated);
VERIFY(!second_atom.value().is_negated);
2020-11-28 17:47:12 +00:00
ranges.empend(CompareTypeAndValuePair { CharacterCompareType::CharRange, CharRange { first_atom.value().code_point, second_atom.value().code_point } });
continue;
}
read_as_single_atom:;
auto atom = first_atom.value();
empend_atom(atom);
}
consume(TokenType::RightBracket, Error::MismatchingBracket);
return true;
}
bool ECMA262Parser::parse_unicode_property_escape(PropertyEscape& property, bool& negated)
{
negated = false;
if (try_skip("p"))
negated = false;
else if (try_skip("P"))
negated = true;
else
return false;
auto parsed_property = read_unicode_property_escape();
if (!parsed_property.has_value()) {
set_error(Error::InvalidNameForProperty);
return false;
}
property = move(*parsed_property);
return property.visit(
[this](Unicode::Property property) {
if (!Unicode::is_ecma262_property(property)) {
set_error(Error::InvalidNameForProperty);
return false;
}
return true;
},
[](Unicode::GeneralCategory) { return true; },
[](Script) { return true; },
[](Empty&) -> bool { VERIFY_NOT_REACHED(); });
}
FlyString ECMA262Parser::read_capture_group_specifier(bool take_starting_angle_bracket)
{
static auto id_start_category = Unicode::property_from_string("ID_Start"sv);
static auto id_continue_category = Unicode::property_from_string("ID_Continue"sv);
static constexpr const u32 REPLACEMENT_CHARACTER = 0xFFFD;
constexpr const u32 ZERO_WIDTH_NON_JOINER { 0x200C };
constexpr const u32 ZERO_WIDTH_JOINER { 0x200D };
if (take_starting_angle_bracket && !consume("<"))
return {};
StringBuilder builder;
auto consume_code_point = [&] {
Utf8View utf_8_view { m_parser_state.lexer.source().substring_view(m_parser_state.lexer.tell() - 1) };
if (utf_8_view.is_empty())
return REPLACEMENT_CHARACTER;
u32 code_point = *utf_8_view.begin();
auto characters = utf_8_view.byte_offset_of(1);
while (characters-- > 0)
consume();
return code_point;
};
{
// The first character is limited to: https://tc39.es/ecma262/#prod-RegExpIdentifierStart
// RegExpIdentifierStart[UnicodeMode] ::
// IdentifierStartChar
// \ RegExpUnicodeEscapeSequence[+UnicodeMode]
// [~UnicodeMode] UnicodeLeadSurrogate UnicodeTrailSurrogate
auto code_point = consume_code_point();
if (code_point == '\\' && match('u')) {
consume();
if (auto maybe_code_point = consume_escaped_code_point(true); maybe_code_point.has_value()) {
code_point = *maybe_code_point;
} else {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
}
if (is_ascii(code_point)) {
// The only valid ID_Start unicode characters in ascii are the letters.
if (!is_ascii_alpha(code_point) && code_point != '$' && code_point != '_') {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
} else if (id_start_category.has_value() && !Unicode::code_point_has_property(code_point, *id_start_category)) {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
builder.append_code_point(code_point);
}
bool hit_end = false;
// Any following characters are limited to:
// RegExpIdentifierPart[UnicodeMode] ::
// IdentifierPartChar
// \ RegExpUnicodeEscapeSequence[+UnicodeMode]
// [~UnicodeMode] UnicodeLeadSurrogate UnicodeTrailSurrogate
while (match(TokenType::Char) || match(TokenType::Dollar) || match(TokenType::LeftCurly) || match(TokenType::RightCurly)) {
auto code_point = consume_code_point();
if (code_point == '>') {
hit_end = true;
break;
}
if (code_point == '\\') {
if (!try_skip("u")) {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
if (auto maybe_code_point = consume_escaped_code_point(true); maybe_code_point.has_value()) {
code_point = *maybe_code_point;
} else {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
}
if (is_ascii(code_point)) {
// The only valid ID_Continue unicode characters in ascii are the letters and numbers.
if (!is_ascii_alphanumeric(code_point) && code_point != '$' && code_point != '_') {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
} else if (code_point != ZERO_WIDTH_JOINER && code_point != ZERO_WIDTH_NON_JOINER) {
if (id_continue_category.has_value() && !Unicode::code_point_has_property(code_point, *id_continue_category)) {
set_error(Error::InvalidNameForCaptureGroup);
return {};
}
}
builder.append_code_point(code_point);
}
FlyString name = builder.build();
if (!hit_end || name.is_empty())
set_error(Error::InvalidNameForCaptureGroup);
return name;
}
Optional<ECMA262Parser::PropertyEscape> ECMA262Parser::read_unicode_property_escape()
{
consume(TokenType::LeftCurly, Error::InvalidPattern);
// Note: clang-format is disabled here because it doesn't handle templated lambdas yet.
// clang-format off
auto read_until = [&]<typename... Ts>(Ts&&... terminators) {
auto start_token = m_parser_state.current_token;
size_t offset = 0;
while (match(TokenType::Char)) {
if (m_parser_state.current_token.value().is_one_of(forward<Ts>(terminators)...))
break;
offset += consume().value().length();
}
return StringView { start_token.value().characters_without_null_termination(), offset };
};
// clang-format on
StringView property_type;
StringView property_name = read_until("="sv, "}"sv);
if (try_skip("="sv)) {
if (property_name.is_empty())
return {};
property_type = property_name;
property_name = read_until("}"sv);
}
consume(TokenType::RightCurly, Error::InvalidPattern);
if (property_type.is_empty()) {
if (auto property = Unicode::property_from_string(property_name); property.has_value())
return { *property };
if (auto general_category = Unicode::general_category_from_string(property_name); general_category.has_value())
return { *general_category };
} else if ((property_type == "General_Category"sv) || (property_type == "gc"sv)) {
if (auto general_category = Unicode::general_category_from_string(property_name); general_category.has_value())
return { *general_category };
} else if ((property_type == "Script"sv) || (property_type == "sc"sv)) {
if (auto script = Unicode::script_from_string(property_name); script.has_value())
return Script { *script, false };
} else if ((property_type == "Script_Extensions"sv) || (property_type == "scx"sv)) {
if (auto script = Unicode::script_from_string(property_name); script.has_value())
return Script { *script, true };
}
return {};
}
bool ECMA262Parser::parse_capture_group(ByteCode& stack, size_t& match_length_minimum, bool unicode, bool named)
{
consume(TokenType::LeftParen, Error::InvalidPattern);
auto enter_capture_group_scope = [&] {
m_capture_groups_in_scope.empend();
};
auto exit_capture_group_scope = [&] {
auto last = m_capture_groups_in_scope.take_last();
m_capture_groups_in_scope.last().extend(move(last));
};
auto register_capture_group_in_current_scope = [&](auto identifier) {
m_capture_groups_in_scope.last().empend(identifier);
};
auto clear_all_capture_groups_in_scope = [&] {
for (auto& index : m_capture_groups_in_scope.last())
stack.insert_bytecode_clear_capture_group(index);
};
if (match(TokenType::Questionmark)) {
// Non-capturing group or group with specifier.
consume();
if (match(TokenType::Colon)) {
consume();
ByteCode noncapture_group_bytecode;
size_t length = 0;
enter_capture_group_scope();
if (!parse_disjunction(noncapture_group_bytecode, length, unicode, named))
return set_error(Error::InvalidPattern);
clear_all_capture_groups_in_scope();
exit_capture_group_scope();
consume(TokenType::RightParen, Error::MismatchingParen);
stack.extend(move(noncapture_group_bytecode));
match_length_minimum += length;
return true;
}
if (consume("<")) {
++m_parser_state.named_capture_groups_count;
auto group_index = ++m_parser_state.capture_groups_count; // Named capture groups count as normal capture groups too.
auto name = read_capture_group_specifier();
if (name.is_empty()) {
set_error(Error::InvalidNameForCaptureGroup);
return false;
}
if (m_parser_state.named_capture_groups.contains(name)) {
set_error(Error::DuplicateNamedCapture);
return false;
}
ByteCode capture_group_bytecode;
size_t length = 0;
enter_capture_group_scope();
if (!parse_disjunction(capture_group_bytecode, length, unicode, named))
return set_error(Error::InvalidPattern);
clear_all_capture_groups_in_scope();
exit_capture_group_scope();
register_capture_group_in_current_scope(group_index);
consume(TokenType::RightParen, Error::MismatchingParen);
stack.insert_bytecode_group_capture_left(group_index);
stack.extend(move(capture_group_bytecode));
stack.insert_bytecode_group_capture_right(group_index, name.view());
match_length_minimum += length;
m_parser_state.capture_group_minimum_lengths.set(group_index, length);
m_parser_state.named_capture_groups.set(name, { group_index, length });
return true;
}
set_error(Error::InvalidCaptureGroup);
return false;
}
auto group_index = ++m_parser_state.capture_groups_count;
enter_capture_group_scope();
ByteCode capture_group_bytecode;
size_t length = 0;
if (!parse_disjunction(capture_group_bytecode, length, unicode, named))
return set_error(Error::InvalidPattern);
clear_all_capture_groups_in_scope();
exit_capture_group_scope();
register_capture_group_in_current_scope(group_index);
stack.insert_bytecode_group_capture_left(group_index);
stack.extend(move(capture_group_bytecode));
m_parser_state.capture_group_minimum_lengths.set(group_index, length);
consume(TokenType::RightParen, Error::MismatchingParen);
stack.insert_bytecode_group_capture_right(group_index);
match_length_minimum += length;
return true;
}
size_t ECMA262Parser::ensure_total_number_of_capturing_parenthesis()
{
if (m_total_number_of_capturing_parenthesis.has_value())
return m_total_number_of_capturing_parenthesis.value();
GenericLexer lexer { m_parser_state.lexer.source() };
size_t count = 0;
while (!lexer.is_eof()) {
switch (lexer.peek()) {
case '\\':
lexer.consume(2);
continue;
case '[':
while (!lexer.is_eof()) {
if (lexer.consume_specific('\\'))
lexer.consume();
else if (lexer.consume_specific(']'))
break;
lexer.consume();
}
break;
case '(':
lexer.consume();
if (lexer.consume_specific('?')) {
// non-capturing group '(?:', lookaround '(?<='/'(?<!', or named capture '(?<'
if (!lexer.consume_specific('<'))
break;
if (lexer.next_is(is_any_of("=!")))
break;
++count;
} else {
++count;
}
break;
default:
lexer.consume();
break;
}
}
m_total_number_of_capturing_parenthesis = count;
return count;
}
LibRegex: Add a regular expression library This commit is a mix of several commits, squashed into one because the commits before 'Move regex to own Library and fix all the broken stuff' were not fixable in any elegant way. The commits are listed below for "historical" purposes: - AK: Add options/flags and Errors for regular expressions Flags can be provided for any possible flavour by adding a new scoped enum. Handling of flags is done by templated Options class and the overloaded '|' and '&' operators. - AK: Add Lexer for regular expressions The lexer parses the input and extracts tokens needed to parse a regular expression. - AK: Add regex Parser and PosixExtendedParser This patchset adds a abstract parser class that can be derived to implement different parsers. A parser produces bytecode to be executed within the regex matcher. - AK: Add regex matcher This patchset adds an regex matcher based on the principles of the T-REX VM. The bytecode pruduced by the respective Parser is put into the matcher and the VM will recursively execute the bytecode according to the available OpCodes. Possible improvement: the recursion could be replaced by multi threading capabilities. To match a Regular expression, e.g. for the Posix standard regular expression matcher use the following API: ``` Pattern<PosixExtendedParser> pattern("^.*$"); auto result = pattern.match("Well, hello friends!\nHello World!"); // Match whole needle EXPECT(result.count == 1); EXPECT(result.matches.at(0).view.starts_with("Well")); EXPECT(result.matches.at(0).view.end() == "!"); result = pattern.match("Well, hello friends!\nHello World!", PosixFlags::Multiline); // Match line by line EXPECT(result.count == 2); EXPECT(result.matches.at(0).view == "Well, hello friends!"); EXPECT(result.matches.at(1).view == "Hello World!"); EXPECT(pattern.has_match("Well,....")); // Just check if match without a result, which saves some resources. ``` - AK: Rework regex to work with opcodes objects This patchsets reworks the matcher to work on a more structured base. For that an abstract OpCode class and derived classes for the specific OpCodes have been added. The respective opcode logic is contained in each respective execute() method. - AK: Add benchmark for regex - AK: Some optimization in regex for runtime and memory - LibRegex: Move regex to own Library and fix all the broken stuff Now regex works again and grep utility is also in place for testing. This commit also fixes the use of regex.h in C by making `regex_t` an opaque (-ish) type, which makes its behaviour consistent between C and C++ compilers. Previously, <regex.h> would've blown C compilers up, and even if it didn't, would've caused a leak in C code, and not in C++ code (due to the existence of `OwnPtr` inside the struct). To make this whole ordeal easier to deal with (for now), this pulls the definitions of `reg*()` into LibRegex. pros: - The circular dependency between LibC and LibRegex is broken - Eaiser to test (without accidentally pulling in the host's libc!) cons: - Using any of the regex.h functions will require the user to link -lregex - The symbols will be missing from libc, which will be a big surprise down the line (especially with shared libs). Co-Authored-By: Ali Mohammad Pur <ali.mpfard@gmail.com>
2020-04-26 12:45:10 +00:00
}