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// class template regex -*- C++ -*-
// Copyright (C) 2010, 2011 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_nfa.h
* This is an internal header file, included by other library headers.
* Do not attempt to use it directly. @headername{regex}
*/
namespace std _GLIBCXX_VISIBILITY(default)
{
namespace __regex
{
_GLIBCXX_BEGIN_NAMESPACE_VERSION
// Base class for, um, automata. Could be an NFA or a DFA. Your choice.
class _Automaton
{
public:
typedef unsigned int _SizeT;
public:
virtual
~_Automaton() { }
virtual _SizeT
_M_sub_count() const = 0;
#ifdef _GLIBCXX_DEBUG
virtual std::ostream&
_M_dot(std::ostream& __ostr) const = 0;
#endif
};
// Generic shared pointer to an automaton.
typedef std::shared_ptr<_Automaton> _AutomatonPtr;
// Operation codes that define the type of transitions within the base NFA
// that represents the regular expression.
enum _Opcode
{
_S_opcode_unknown = 0,
_S_opcode_alternative = 1,
_S_opcode_subexpr_begin = 4,
_S_opcode_subexpr_end = 5,
_S_opcode_match = 100,
_S_opcode_accept = 255
};
// Provides a generic facade for a templated match_results.
struct _Results
{
virtual void _M_set_pos(int __i, int __j, const _PatternCursor& __p) = 0;
virtual void _M_set_matched(int __i, bool __is_matched) = 0;
};
// Tags current state (for subexpr begin/end).
typedef std::function<void (const _PatternCursor&, _Results&)> _Tagger;
template<typename _FwdIterT, typename _TraitsT>
struct _StartTagger
{
explicit
_StartTagger(int __i)
: _M_index(__i)
{ }
void
operator()(const _PatternCursor& __pc, _Results& __r)
{ __r._M_set_pos(_M_index, 0, __pc); }
int _M_index;
};
template<typename _FwdIterT, typename _TraitsT>
struct _EndTagger
{
explicit
_EndTagger(int __i)
: _M_index(__i)
{ }
void
operator()(const _PatternCursor& __pc, _Results& __r)
{ __r._M_set_pos(_M_index, 1, __pc); }
int _M_index;
_FwdIterT _M_pos;
};
// Indicates if current state matches cursor current.
typedef std::function<bool (const _PatternCursor&)> _Matcher;
// Matches any character
inline bool
_AnyMatcher(const _PatternCursor&)
{ return true; }
// Matches a single character
template<typename _InIterT, typename _TraitsT>
struct _CharMatcher
{
typedef typename _TraitsT::char_type char_type;
explicit
_CharMatcher(char_type __c, const _TraitsT& __t = _TraitsT())
: _M_traits(__t), _M_c(_M_traits.translate(__c))
{ }
bool
operator()(const _PatternCursor& __pc) const
{
typedef const _SpecializedCursor<_InIterT>& _CursorT;
_CursorT __c = static_cast<_CursorT>(__pc);
return _M_traits.translate(__c._M_current()) == _M_c;
}
const _TraitsT& _M_traits;
char_type _M_c;
};
// Matches a character range (bracket expression)
template<typename _InIterT, typename _TraitsT>
struct _RangeMatcher
{
typedef typename _TraitsT::char_type _CharT;
typedef std::basic_string<_CharT> _StringT;
explicit
_RangeMatcher(bool __is_non_matching, const _TraitsT& __t = _TraitsT())
: _M_traits(__t), _M_is_non_matching(__is_non_matching)
{ }
bool
operator()(const _PatternCursor& __pc) const
{
typedef const _SpecializedCursor<_InIterT>& _CursorT;
_CursorT __c = static_cast<_CursorT>(__pc);
return true;
}
void
_M_add_char(_CharT __c)
{ }
void
_M_add_collating_element(const _StringT& __s)
{ }
void
_M_add_equivalence_class(const _StringT& __s)
{ }
void
_M_add_character_class(const _StringT& __s)
{ }
void
_M_make_range()
{ }
const _TraitsT& _M_traits;
bool _M_is_non_matching;
};
// Identifies a state in the NFA.
typedef int _StateIdT;
// The special case in which a state identifier is not an index.
static const _StateIdT _S_invalid_state_id = -1;
// An individual state in an NFA
//
// In this case a "state" is an entry in the NFA definition coupled with its
// outgoing transition(s). All states have a single outgoing transition,
// except for accepting states (which have no outgoing transitions) and alt
// states, which have two outgoing transitions.
//
struct _State
{
typedef int _OpcodeT;
_OpcodeT _M_opcode; // type of outgoing transition
_StateIdT _M_next; // outgoing transition
_StateIdT _M_alt; // for _S_opcode_alternative
unsigned int _M_subexpr; // for _S_opcode_subexpr_*
_Tagger _M_tagger; // for _S_opcode_subexpr_*
_Matcher _M_matches; // for _S_opcode_match
explicit _State(_OpcodeT __opcode)
: _M_opcode(__opcode), _M_next(_S_invalid_state_id)
{ }
_State(const _Matcher& __m)
: _M_opcode(_S_opcode_match), _M_next(_S_invalid_state_id), _M_matches(__m)
{ }
_State(_OpcodeT __opcode, unsigned int __s, const _Tagger& __t)
: _M_opcode(__opcode), _M_next(_S_invalid_state_id), _M_subexpr(__s),
_M_tagger(__t)
{ }
_State(_StateIdT __next, _StateIdT __alt)
: _M_opcode(_S_opcode_alternative), _M_next(__next), _M_alt(__alt)
{ }
#ifdef _GLIBCXX_DEBUG
std::ostream&
_M_print(std::ostream& ostr) const;
// Prints graphviz dot commands for state.
std::ostream&
_M_dot(std::ostream& __ostr, _StateIdT __id) const;
#endif
};
// The Grep Matcher works on sets of states. Here are sets of states.
typedef std::set<_StateIdT> _StateSet;
// A collection of all states making up an NFA
//
// An NFA is a 4-tuple M = (K, S, s, F), where
// K is a finite set of states,
// S is the alphabet of the NFA,
// s is the initial state,
// F is a set of final (accepting) states.
//
// This NFA class is templated on S, a type that will hold values of the
// underlying alphabet (without regard to semantics of that alphabet). The
// other elements of the tuple are generated during construction of the NFA
// and are available through accessor member functions.
//
class _Nfa
: public _Automaton, public std::vector<_State>
{
public:
typedef _State _StateT;
typedef unsigned int _SizeT;
typedef regex_constants::syntax_option_type _FlagT;
public:
_Nfa(_FlagT __f)
: _M_flags(__f), _M_start_state(0), _M_subexpr_count(0)
{ }
~_Nfa()
{ }
_FlagT
_M_options() const
{ return _M_flags; }
_StateIdT
_M_start() const
{ return _M_start_state; }
const _StateSet&
_M_final_states() const
{ return _M_accepting_states; }
_SizeT
_M_sub_count() const
{ return _M_subexpr_count; }
_StateIdT
_M_insert_accept()
{
this->push_back(_StateT(_S_opcode_accept));
_M_accepting_states.insert(this->size()-1);
return this->size()-1;
}
_StateIdT
_M_insert_alt(_StateIdT __next, _StateIdT __alt)
{
this->push_back(_StateT(__next, __alt));
return this->size()-1;
}
_StateIdT
_M_insert_matcher(_Matcher __m)
{
this->push_back(_StateT(__m));
return this->size()-1;
}
_StateIdT
_M_insert_subexpr_begin(const _Tagger& __t)
{
this->push_back(_StateT(_S_opcode_subexpr_begin, _M_subexpr_count++, __t));
return this->size()-1;
}
_StateIdT
_M_insert_subexpr_end(unsigned int __i, const _Tagger& __t)
{
this->push_back(_StateT(_S_opcode_subexpr_end, __i, __t));
return this->size()-1;
}
#ifdef _GLIBCXX_DEBUG
std::ostream&
_M_dot(std::ostream& __ostr) const;
#endif
private:
_FlagT _M_flags;
_StateIdT _M_start_state;
_StateSet _M_accepting_states;
_SizeT _M_subexpr_count;
};
// Describes a sequence of one or more %_State, its current start and end(s).
//
// This structure contains fragments of an NFA during construction.
class _StateSeq
{
public:
// Constructs a single-node sequence
_StateSeq(_Nfa& __ss, _StateIdT __s, _StateIdT __e = _S_invalid_state_id)
: _M_nfa(__ss), _M_start(__s), _M_end1(__s), _M_end2(__e)
{ }
// Constructs a split sequence from two other sequencces
_StateSeq(const _StateSeq& __e1, const _StateSeq& __e2)
: _M_nfa(__e1._M_nfa),
_M_start(_M_nfa._M_insert_alt(__e1._M_start, __e2._M_start)),
_M_end1(__e1._M_end1), _M_end2(__e2._M_end1)
{ }
// Constructs a split sequence from a single sequence
_StateSeq(const _StateSeq& __e, _StateIdT __id)
: _M_nfa(__e._M_nfa),
_M_start(_M_nfa._M_insert_alt(__id, __e._M_start)),
_M_end1(__id), _M_end2(__e._M_end1)
{ }
// Constructs a copy of a %_StateSeq
_StateSeq(const _StateSeq& __rhs)
: _M_nfa(__rhs._M_nfa), _M_start(__rhs._M_start),
_M_end1(__rhs._M_end1), _M_end2(__rhs._M_end2)
{ }
_StateSeq& operator=(const _StateSeq& __rhs);
_StateIdT
_M_front() const
{ return _M_start; }
// Extends a sequence by one.
void
_M_push_back(_StateIdT __id);
// Extends and maybe joins a sequence.
void
_M_append(_StateIdT __id);
void
_M_append(_StateSeq& __rhs);
// Clones an entire sequence.
_StateIdT
_M_clone();
private:
_Nfa& _M_nfa;
_StateIdT _M_start;
_StateIdT _M_end1;
_StateIdT _M_end2;
};
_GLIBCXX_END_NAMESPACE_VERSION
} // namespace __regex
} // namespace std
#include <bits/regex_nfa.tcc>
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