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// class template regex -*- C++ -*-
// Copyright (C) 2013-2023 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library. This library is free
// software; you can redistribute it and/or modify it under the
// terms of the GNU General Public License as published by the
// Free Software Foundation; either version 3, or (at your option)
// any later version.
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// Under Section 7 of GPL version 3, you are granted additional
// permissions described in the GCC Runtime Library Exception, version
// 3.1, as published by the Free Software Foundation.
// You should have received a copy of the GNU General Public License and
// a copy of the GCC Runtime Library Exception along with this program;
// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
// <http://www.gnu.org/licenses/>.
/**
* @file bits/regex_executor.h
* This is an internal header file, included by other library headers.
* Do not attempt to use it directly. @headername{regex}
*/
// FIXME convert comments to doxygen format.
namespace std _GLIBCXX_VISIBILITY(default)
{
_GLIBCXX_BEGIN_NAMESPACE_VERSION
namespace __detail
{
/**
* @addtogroup regex-detail
* @{
*/
/**
* @brief Takes a regex and an input string and does the matching.
*
* The %_Executor class has two modes: DFS mode and BFS mode, controlled
* by the template parameter %__dfs_mode.
*/
template<typename _BiIter, typename _Alloc, typename _TraitsT,
bool __dfs_mode>
class _Executor
{
using __search_mode = integral_constant<bool, __dfs_mode>;
using __dfs = true_type;
using __bfs = false_type;
enum class _Match_mode : unsigned char { _Exact, _Prefix };
public:
typedef typename iterator_traits<_BiIter>::value_type _CharT;
typedef basic_regex<_CharT, _TraitsT> _RegexT;
typedef _GLIBCXX_STD_C::vector<sub_match<_BiIter>, _Alloc> _ResultsVec;
typedef regex_constants::match_flag_type _FlagT;
typedef typename _TraitsT::char_class_type _ClassT;
typedef _NFA<_TraitsT> _NFAT;
public:
_Executor(_BiIter __begin,
_BiIter __end,
_ResultsVec& __results,
const _RegexT& __re,
_FlagT __flags)
: _M_cur_results(__results.get_allocator()),
_M_begin(__begin),
_M_end(__end),
_M_re(__re),
_M_nfa(*__re._M_automaton),
_M_results(__results),
_M_rep_count(_M_nfa.size()),
_M_states(_M_nfa._M_start(), _M_nfa.size()),
_M_flags(__flags)
{
using namespace regex_constants;
if (__flags & match_prev_avail) // ignore not_bol and not_bow
_M_flags &= ~(match_not_bol | match_not_bow);
}
// Set matched when string exactly matches the pattern.
bool
_M_match()
{
_M_current = _M_begin;
return _M_main(_Match_mode::_Exact);
}
// Set matched when some prefix of the string matches the pattern.
bool
_M_search_from_first()
{
_M_current = _M_begin;
return _M_main(_Match_mode::_Prefix);
}
bool
_M_search();
private:
void
_M_rep_once_more(_Match_mode __match_mode, _StateIdT);
void
_M_handle_repeat(_Match_mode, _StateIdT);
void
_M_handle_subexpr_begin(_Match_mode, _StateIdT);
void
_M_handle_subexpr_end(_Match_mode, _StateIdT);
void
_M_handle_line_begin_assertion(_Match_mode, _StateIdT);
void
_M_handle_line_end_assertion(_Match_mode, _StateIdT);
void
_M_handle_word_boundary(_Match_mode, _StateIdT);
void
_M_handle_subexpr_lookahead(_Match_mode, _StateIdT);
void
_M_handle_match(_Match_mode, _StateIdT);
void
_M_handle_backref(_Match_mode, _StateIdT);
void
_M_handle_accept(_Match_mode, _StateIdT);
void
_M_handle_alternative(_Match_mode, _StateIdT);
void
_M_dfs(_Match_mode __match_mode, _StateIdT __start);
bool
_M_main(_Match_mode __match_mode)
{ return _M_main_dispatch(__match_mode, __search_mode{}); }
bool
_M_main_dispatch(_Match_mode __match_mode, __dfs);
bool
_M_main_dispatch(_Match_mode __match_mode, __bfs);
bool
_M_is_word(_CharT __ch) const
{
static const _CharT __s[2] = { 'w' };
return _M_re._M_automaton->_M_traits.isctype
(__ch, _M_re._M_automaton->_M_traits.lookup_classname(__s, __s+1));
}
bool
_M_at_begin() const
{
if (_M_current == _M_begin)
{
// match_not_bol means ^ does not match [_M_begin,_M_begin)
if (_M_flags & regex_constants::match_not_bol)
return false;
// match_prev_avail means _M_begin is not the start of the input.
if (_M_flags & regex_constants::match_prev_avail)
{
// For ECMAScript multiline matches, check if the previous
// character is a line terminator.
if (_M_match_multiline())
return _M_is_line_terminator(*std::prev(_M_current));
else
return false;
}
else // ^ matches at _M_begin
return true;
}
else if (_M_match_multiline())
return _M_is_line_terminator(*std::prev(_M_current));
else
return false;
}
bool
_M_at_end() const
{
if (_M_current == _M_end)
return !(_M_flags & regex_constants::match_not_eol);
else if (_M_match_multiline())
return _M_is_line_terminator(*_M_current);
else
return false;
}
bool
_M_word_boundary() const;
bool
_M_lookahead(_StateIdT __next);
bool
_M_is_line_terminator(_CharT __c) const
{
const auto& __traits = _M_re._M_automaton->_M_traits;
const auto& __ct = use_facet<ctype<_CharT>>(__traits.getloc());
const char __n{ __ct.narrow(__c, ' ') };
if (__n == '\n')
return true;
if (_M_re._M_automaton->_M_options() & regex_constants::ECMAScript)
{
if (__n == '\r')
return true;
// FIXME: U+2028 (line separator) and U+2029 (paragraph separator)
}
return false;
}
bool
_M_match_multiline() const noexcept
{
constexpr auto __m
= regex_constants::ECMAScript | regex_constants::__multiline;
return (_M_re._M_automaton->_M_options() & __m) == __m;
}
// Holds additional information used in BFS-mode.
template<typename _SearchMode, typename _ResultsVec>
struct _State_info;
template<typename _ResultsVec>
struct _State_info<__bfs, _ResultsVec>
{
explicit
_State_info(_StateIdT __start, size_t __n)
: _M_visited_states(new bool[__n]()), _M_start(__start)
{ }
~_State_info() { delete[] _M_visited_states; }
_State_info(const _State_info&) = delete;
_State_info& operator=(const _State_info&) = delete;
bool _M_visited(_StateIdT __i)
{
if (_M_visited_states[__i])
return true;
_M_visited_states[__i] = true;
return false;
}
void _M_queue(_StateIdT __i, const _ResultsVec& __res)
{ _M_match_queue.emplace_back(__i, __res); }
// Dummy implementations for BFS mode.
_BiIter* _M_get_sol_pos() { return nullptr; }
// Saves states that need to be considered for the next character.
_GLIBCXX_STD_C::vector<pair<_StateIdT, _ResultsVec>> _M_match_queue;
// Indicates which states are already visited.
bool* _M_visited_states;
// To record current solution.
_StateIdT _M_start;
};
template<typename _ResultsVec>
struct _State_info<__dfs, _ResultsVec>
{
explicit
_State_info(_StateIdT __start, size_t) : _M_start(__start)
{ }
// Dummy implementations for DFS mode.
bool _M_visited(_StateIdT) const { return false; }
void _M_queue(_StateIdT, const _ResultsVec&) { }
_BiIter* _M_get_sol_pos() { return &_M_sol_pos; }
// To record current solution.
_StateIdT _M_start;
_BiIter _M_sol_pos;
};
public:
_ResultsVec _M_cur_results;
_BiIter _M_current;
_BiIter _M_begin;
const _BiIter _M_end;
const _RegexT& _M_re;
const _NFAT& _M_nfa;
_ResultsVec& _M_results;
_GLIBCXX_STD_C::vector<pair<_BiIter, int>> _M_rep_count;
_State_info<__search_mode, _ResultsVec> _M_states;
_FlagT _M_flags;
// Do we have a solution so far?
bool _M_has_sol;
};
///@} regex-detail
} // namespace __detail
_GLIBCXX_END_NAMESPACE_VERSION
} // namespace std
#include <bits/regex_executor.tcc>
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