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// class template regex -*- C++ -*-
// Copyright (C) 2010-2014 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_compiler.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 __detail
{
_GLIBCXX_BEGIN_NAMESPACE_VERSION
/**
* @addtogroup regex-detail
* @{
*/
template<typename, bool, bool>
struct _BracketMatcher;
/// Builds an NFA from an input iterator interval.
template<typename _TraitsT>
class _Compiler
{
public:
typedef typename _TraitsT::char_type _CharT;
typedef const _CharT* _IterT;
typedef _NFA<_TraitsT> _RegexT;
typedef regex_constants::syntax_option_type _FlagT;
_Compiler(_IterT __b, _IterT __e,
const _TraitsT& __traits, _FlagT __flags);
std::shared_ptr<_RegexT>
_M_get_nfa()
{ return make_shared<_RegexT>(std::move(_M_nfa)); }
private:
typedef _Scanner<_CharT> _ScannerT;
typedef typename _TraitsT::string_type _StringT;
typedef typename _ScannerT::_TokenT _TokenT;
typedef _StateSeq<_TraitsT> _StateSeqT;
typedef std::stack<_StateSeqT> _StackT;
typedef std::ctype<_CharT> _CtypeT;
// accepts a specific token or returns false.
bool
_M_match_token(_TokenT __token);
void
_M_disjunction();
void
_M_alternative();
bool
_M_term();
bool
_M_assertion();
bool
_M_quantifier();
bool
_M_atom();
bool
_M_bracket_expression();
template<bool __icase, bool __collate>
void
_M_insert_any_matcher_ecma();
template<bool __icase, bool __collate>
void
_M_insert_any_matcher_posix();
template<bool __icase, bool __collate>
void
_M_insert_char_matcher();
template<bool __icase, bool __collate>
void
_M_insert_character_class_matcher();
template<bool __icase, bool __collate>
void
_M_insert_bracket_matcher(bool __neg);
template<bool __icase, bool __collate>
void
_M_expression_term(_BracketMatcher<_TraitsT, __icase, __collate>&
__matcher);
int
_M_cur_int_value(int __radix);
bool
_M_try_char();
_StateSeqT
_M_pop()
{
auto ret = _M_stack.top();
_M_stack.pop();
return ret;
}
_FlagT _M_flags;
const _TraitsT& _M_traits;
const _CtypeT& _M_ctype;
_ScannerT _M_scanner;
_RegexT _M_nfa;
_StringT _M_value;
_StackT _M_stack;
};
template<typename _TraitsT>
inline std::shared_ptr<_NFA<_TraitsT>>
__compile_nfa(const typename _TraitsT::char_type* __first,
const typename _TraitsT::char_type* __last,
const _TraitsT& __traits,
regex_constants::syntax_option_type __flags)
{
using _Cmplr = _Compiler<_TraitsT>;
return _Cmplr(__first, __last, __traits, __flags)._M_get_nfa();
}
// [28.13.14]
template<typename _TraitsT, bool __icase, bool __collate>
class _RegexTranslator
{
public:
typedef typename _TraitsT::char_type _CharT;
typedef typename _TraitsT::string_type _StringT;
typedef typename std::conditional<__collate,
_StringT,
_CharT>::type _StrTransT;
explicit
_RegexTranslator(const _TraitsT& __traits)
: _M_traits(__traits)
{ }
_CharT
_M_translate(_CharT __ch) const
{
if (__icase)
return _M_traits.translate_nocase(__ch);
else if (__collate)
return _M_traits.translate(__ch);
else
return __ch;
}
_StrTransT
_M_transform(_CharT __ch) const
{
return _M_transform_impl(__ch, typename integral_constant<bool,
__collate>::type());
}
private:
_StrTransT
_M_transform_impl(_CharT __ch, false_type) const
{ return __ch; }
_StrTransT
_M_transform_impl(_CharT __ch, true_type) const
{
_StrTransT __str = _StrTransT(1, _M_translate(__ch));
return _M_traits.transform(__str.begin(), __str.end());
}
const _TraitsT& _M_traits;
};
template<typename _TraitsT>
class _RegexTranslator<_TraitsT, false, false>
{
public:
typedef typename _TraitsT::char_type _CharT;
typedef _CharT _StrTransT;
explicit
_RegexTranslator(const _TraitsT& __traits)
{ }
_CharT
_M_translate(_CharT __ch) const
{ return __ch; }
_StrTransT
_M_transform(_CharT __ch) const
{ return __ch; }
};
template<typename _TraitsT, bool __is_ecma, bool __icase, bool __collate>
struct _AnyMatcher;
template<typename _TraitsT, bool __icase, bool __collate>
struct _AnyMatcher<_TraitsT, false, __icase, __collate>
{
typedef _RegexTranslator<_TraitsT, __icase, __collate> _TransT;
typedef typename _TransT::_CharT _CharT;
explicit
_AnyMatcher(const _TraitsT& __traits)
: _M_translator(__traits)
{ }
bool
operator()(_CharT __ch) const
{
static auto __nul = _M_translator._M_translate('\0');
return _M_translator._M_translate(__ch) != __nul;
}
_TransT _M_translator;
};
template<typename _TraitsT, bool __icase, bool __collate>
struct _AnyMatcher<_TraitsT, true, __icase, __collate>
{
typedef _RegexTranslator<_TraitsT, __icase, __collate> _TransT;
typedef typename _TransT::_CharT _CharT;
explicit
_AnyMatcher(const _TraitsT& __traits)
: _M_translator(__traits)
{ }
bool
operator()(_CharT __ch) const
{ return _M_apply(__ch, typename is_same<_CharT, char>::type()); }
bool
_M_apply(_CharT __ch, true_type) const
{
auto __c = _M_translator._M_translate(__ch);
auto __n = _M_translator._M_translate('\n');
auto __r = _M_translator._M_translate('\r');
return __c != __n && __c != __r;
}
bool
_M_apply(_CharT __ch, false_type) const
{
auto __c = _M_translator._M_translate(__ch);
auto __n = _M_translator._M_translate('\n');
auto __r = _M_translator._M_translate('\r');
auto __u2028 = _M_translator._M_translate(u'\u2028');
auto __u2029 = _M_translator._M_translate(u'\u2029');
return __c != __n && __c != __r && __c != __u2028 && __c != __u2029;
}
_TransT _M_translator;
};
template<typename _TraitsT, bool __icase, bool __collate>
struct _CharMatcher
{
typedef _RegexTranslator<_TraitsT, __icase, __collate> _TransT;
typedef typename _TransT::_CharT _CharT;
_CharMatcher(_CharT __ch, const _TraitsT& __traits)
: _M_translator(__traits), _M_ch(_M_translator._M_translate(__ch))
{ }
bool
operator()(_CharT __ch) const
{ return _M_ch == _M_translator._M_translate(__ch); }
_TransT _M_translator;
_CharT _M_ch;
};
/// Matches a character range (bracket expression)
template<typename _TraitsT, bool __icase, bool __collate>
struct _BracketMatcher
{
public:
typedef _RegexTranslator<_TraitsT, __icase, __collate> _TransT;
typedef typename _TransT::_CharT _CharT;
typedef typename _TransT::_StrTransT _StrTransT;
typedef typename _TraitsT::string_type _StringT;
typedef typename _TraitsT::char_class_type _CharClassT;
public:
_BracketMatcher(bool __is_non_matching,
const _TraitsT& __traits)
: _M_class_set(0), _M_translator(__traits), _M_traits(__traits),
_M_is_non_matching(__is_non_matching)
#ifdef _GLIBCXX_DEBUG
, _M_is_ready(false)
#endif
{ }
bool
operator()(_CharT __ch) const
{
_GLIBCXX_DEBUG_ASSERT(_M_is_ready);
return _M_apply(__ch, _IsChar());
}
void
_M_add_char(_CharT __c)
{
_M_char_set.push_back(_M_translator._M_translate(__c));
#ifdef _GLIBCXX_DEBUG
_M_is_ready = false;
#endif
}
void
_M_add_collating_element(const _StringT& __s)
{
auto __st = _M_traits.lookup_collatename(__s.data(),
__s.data() + __s.size());
if (__st.empty())
__throw_regex_error(regex_constants::error_collate);
_M_char_set.push_back(_M_translator._M_translate(__st[0]));
#ifdef _GLIBCXX_DEBUG
_M_is_ready = false;
#endif
}
void
_M_add_equivalence_class(const _StringT& __s)
{
auto __st = _M_traits.lookup_collatename(__s.data(),
__s.data() + __s.size());
if (__st.empty())
__throw_regex_error(regex_constants::error_collate);
__st = _M_traits.transform_primary(__st.data(),
__st.data() + __st.size());
_M_equiv_set.push_back(__st);
#ifdef _GLIBCXX_DEBUG
_M_is_ready = false;
#endif
}
void
_M_add_character_class(const _StringT& __s)
{
auto __mask = _M_traits.lookup_classname(__s.data(),
__s.data() + __s.size(),
__icase);
if (__mask == 0)
__throw_regex_error(regex_constants::error_ctype);
_M_class_set |= __mask;
#ifdef _GLIBCXX_DEBUG
_M_is_ready = false;
#endif
}
void
_M_make_range(_CharT __l, _CharT __r)
{
_M_range_set.push_back(make_pair(_M_translator._M_transform(__l),
_M_translator._M_transform(__r)));
#ifdef _GLIBCXX_DEBUG
_M_is_ready = false;
#endif
}
void
_M_ready()
{
_M_make_cache(_IsChar());
#ifdef _GLIBCXX_DEBUG
_M_is_ready = true;
#endif
}
private:
typedef typename is_same<_CharT, char>::type _IsChar;
struct _Dummy { };
typedef typename conditional<_IsChar::value,
std::bitset<1 << (8 * sizeof(_CharT))>,
_Dummy>::type _CacheT;
typedef typename make_unsigned<_CharT>::type _UnsignedCharT;
private:
bool
_M_apply(_CharT __ch, false_type) const;
bool
_M_apply(_CharT __ch, true_type) const
{ return _M_cache[static_cast<_UnsignedCharT>(__ch)]; }
void
_M_make_cache(true_type)
{
for (int __i = 0; __i < _M_cache.size(); __i++)
_M_cache[static_cast<_UnsignedCharT>(__i)] =
_M_apply(__i, false_type());
}
void
_M_make_cache(false_type)
{ }
private:
_CacheT _M_cache;
std::vector<_CharT> _M_char_set;
std::vector<_StringT> _M_equiv_set;
std::vector<pair<_StrTransT, _StrTransT>> _M_range_set;
_CharClassT _M_class_set;
_TransT _M_translator;
const _TraitsT& _M_traits;
bool _M_is_non_matching;
#ifdef _GLIBCXX_DEBUG
bool _M_is_ready;
#endif
};
//@} regex-detail
_GLIBCXX_END_NAMESPACE_VERSION
} // namespace __detail
} // namespace std
#include <bits/regex_compiler.tcc>
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