boost/regex/v3/instances.hpp
/* * * Copyright (c) 1998-2002 * Dr John Maddock * * Use, modification and distribution are subject to the * Boost Software License, Version 1.0. (See accompanying file * LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) * */ /* * LOCATION: see http://www.boost.org for most recent version. * FILE instances.cpp * VERSION see <boost/version.hpp> * DESCRIPTION: Defines those template instances that are placed in the * library rather than in the users object files. */ // // note no include guard, we may include this multiple times: // #ifndef BOOST_REGEX_NO_EXTERNAL_TEMPLATES namespace boost{ // // this header can be included multiple times, each time with // a different character type, BOOST_REGEX_CHAR_T must be defined // first: // #ifndef BOOST_REGEX_CHAR_T # error "BOOST_REGEX_CHAR_T not defined" #endif // // what follows is compiler specific: // #ifdef __BORLANDC__ #pragma option push -a8 -b -Vx -Ve -pc # ifndef BOOST_REGEX_INSTANTIATE # pragma option push -Jgx # endif template class BOOST_REGEX_DECL reg_expression< BOOST_REGEX_CHAR_T >; template class BOOST_REGEX_DECL re_detail::match_results_base<BOOST_REGEX_CHAR_T const*>; template class BOOST_REGEX_DECL re_detail::match_results_base<std::basic_string<BOOST_REGEX_CHAR_T>::const_iterator>; template class BOOST_REGEX_DECL match_results<BOOST_REGEX_CHAR_T const*>; template class BOOST_REGEX_DECL match_results<std::basic_string<BOOST_REGEX_CHAR_T>::const_iterator>; # ifndef BOOST_REGEX_INSTANTIATE # pragma option pop # endif #pragma option pop #elif defined(BOOST_MSVC) # ifndef BOOST_REGEX_INSTANTIATE # define template extern template # endif #pragma warning(push) #pragma warning(disable : 4251 4231 4660) //template class BOOST_REGEX_DECL regex_traits< BOOST_REGEX_CHAR_T >; template class BOOST_REGEX_DECL reg_expression< BOOST_REGEX_CHAR_T >; template class BOOST_REGEX_DECL re_detail::match_results_base<BOOST_REGEX_CHAR_T const*, BOOST_DEFAULT_ALLOCATOR(re_detail::def_alloc_param_traits<BOOST_REGEX_CHAR_T const*>::type) >; template class BOOST_REGEX_DECL re_detail::match_results_base<std::basic_string<BOOST_REGEX_CHAR_T>::const_iterator, BOOST_DEFAULT_ALLOCATOR(re_detail::def_alloc_param_traits<std::basic_string<BOOST_REGEX_CHAR_T>::const_iterator>::type) >; template class BOOST_REGEX_DECL match_results<BOOST_REGEX_CHAR_T const*, BOOST_DEFAULT_ALLOCATOR(re_detail::def_alloc_param_traits<BOOST_REGEX_CHAR_T const*>::type) >; template class BOOST_REGEX_DECL match_results<std::basic_string<BOOST_REGEX_CHAR_T>::const_iterator, BOOST_DEFAULT_ALLOCATOR(re_detail::def_alloc_param_traits<std::basic_string<BOOST_REGEX_CHAR_T>::const_iterator>::type) >; #pragma warning(pop) # ifdef template # undef template # endif #elif !defined(BOOST_REGEX_HAS_DLL_RUNTIME) // // for each [member] function declare a full specialisation of that // [member] function, then instantiate it in one translation unit. // This is not guarenteed to work according to the standard, but in // practice it should work for all compilers (unless they use a realy // perverse name mangling convention). Unfortunately this approach // does *not* work for Win32 style import/export, because that can // alter the class layout. // # ifndef BOOST_REGEX_INSTANTIATE # define template template<> # endif template reg_expression<BOOST_REGEX_CHAR_T>::reg_expression(const BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T)&); template reg_expression<BOOST_REGEX_CHAR_T>::reg_expression(const BOOST_REGEX_CHAR_T* p, reg_expression<BOOST_REGEX_CHAR_T>::flag_type f, const BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T)& a); template reg_expression<BOOST_REGEX_CHAR_T>::reg_expression(const BOOST_REGEX_CHAR_T* p, size_type len, reg_expression<BOOST_REGEX_CHAR_T>::flag_type f, const BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T)&); template reg_expression<BOOST_REGEX_CHAR_T>::reg_expression(const reg_expression<BOOST_REGEX_CHAR_T>&); template reg_expression<BOOST_REGEX_CHAR_T>::~reg_expression(); template reg_expression<BOOST_REGEX_CHAR_T>& BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::operator=(const reg_expression&); template BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::get_allocator()const; template bool BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::operator==(const reg_expression<BOOST_REGEX_CHAR_T>&)const; template bool BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::operator<(const reg_expression<BOOST_REGEX_CHAR_T>&)const; template BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::allocator()const; template unsigned int BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::set_expression(const BOOST_REGEX_CHAR_T* p, const BOOST_REGEX_CHAR_T* end, reg_expression<BOOST_REGEX_CHAR_T>::flag_type f); template void BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::compile_maps(); template void BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::compile_map(re_detail::re_syntax_base* node, unsigned char* _map, unsigned int* pnull, unsigned char mask, re_detail::re_syntax_base* terminal)const; template bool BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::probe_start(re_detail::re_syntax_base* node, BOOST_REGEX_CHAR_T c, re_detail::re_syntax_base* terminal)const; template bool BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::probe_start_null(re_detail::re_syntax_base* node, re_detail::re_syntax_base* terminal)const; template void BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::fixup_apply(re_detail::re_syntax_base* b, unsigned cbraces); template void BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::move_offsets(re_detail::re_syntax_base* j, unsigned size); template re_detail::re_syntax_base* BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::compile_set(const BOOST_REGEX_CHAR_T*& first, const BOOST_REGEX_CHAR_T* last); template re_detail::re_syntax_base* BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::compile_set_aux(re_detail::jstack<reg_expression<BOOST_REGEX_CHAR_T>::traits_string_type, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) >& singles, re_detail::jstack<reg_expression<BOOST_REGEX_CHAR_T>::traits_string_type, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T)>& ranges, re_detail::jstack<boost::uint_fast32_t, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) >& classes, re_detail::jstack<reg_expression<BOOST_REGEX_CHAR_T>::traits_string_type, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) >& equivalents, bool isnot, const re_detail::_narrow_type&); template re_detail::re_syntax_base* BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::compile_set_aux(re_detail::jstack<reg_expression<BOOST_REGEX_CHAR_T>::traits_string_type, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) >& singles, re_detail::jstack<reg_expression<BOOST_REGEX_CHAR_T>::traits_string_type, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T)>& ranges, re_detail::jstack<boost::uint_fast32_t, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) >& classes, re_detail::jstack<reg_expression<BOOST_REGEX_CHAR_T>::traits_string_type, BOOST_DEFAULT_ALLOCATOR(BOOST_REGEX_CHAR_T) >& equivalents, bool isnot, const re_detail::_wide_type&); template re_detail::re_syntax_base* BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::compile_set_simple(re_detail::re_syntax_base* dat, unsigned long cls, bool isnot); template unsigned int BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::parse_inner_set(const BOOST_REGEX_CHAR_T*& first, const BOOST_REGEX_CHAR_T* last); template re_detail::re_syntax_base* BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::add_simple(re_detail::re_syntax_base* dat, re_detail::syntax_element_type type, unsigned int size); template re_detail::re_syntax_base* BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::add_literal(re_detail::re_syntax_base* dat, BOOST_REGEX_CHAR_T c); template BOOST_REGEX_CHAR_T BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::parse_escape(const BOOST_REGEX_CHAR_T*& first, const BOOST_REGEX_CHAR_T* last); template void BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::parse_range(const BOOST_REGEX_CHAR_T*& first, const BOOST_REGEX_CHAR_T* last, unsigned& min, unsigned& max); template bool BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::skip_space(const BOOST_REGEX_CHAR_T*& first, const BOOST_REGEX_CHAR_T* last); template unsigned int BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::probe_restart(re_detail::re_syntax_base* dat); template unsigned int BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::fixup_leading_rep(re_detail::re_syntax_base* dat, re_detail::re_syntax_base* end); template void BOOST_REGEX_CALL reg_expression<BOOST_REGEX_CHAR_T>::fail(unsigned int err); namespace re_detail{ #define iterator const BOOST_REGEX_CHAR_T* #define Allocator match_results_base<iterator>::alloc_type #define size_type match_results_base<iterator>::size_type template void BOOST_REGEX_CALL match_results_base<iterator, Allocator>::set_first(iterator i); template void BOOST_REGEX_CALL match_results_base<iterator, Allocator>::set_first(iterator i, std::size_t pos); template match_results_base<iterator, Allocator>::match_results_base(const Allocator& a); template Allocator BOOST_REGEX_CALL match_results_base<iterator, Allocator>::allocator()const; template void BOOST_REGEX_CALL match_results_base<iterator, Allocator>::m_free(); template bool match_results_base<iterator, Allocator>::operator==(const match_results_base<iterator, Allocator>& that)const; template void BOOST_REGEX_CALL match_results_base<iterator, Allocator>::set_size(size_type n); template void BOOST_REGEX_CALL match_results_base<iterator, Allocator>::set_size(size_type n, iterator i, iterator j); template void BOOST_REGEX_CALL match_results_base<iterator, Allocator>::cow(); #undef iterator #undef Allocator #undef size_type } // namespace re_detail # ifdef template # undef template # endif #endif } // namespace boost #endif // BOOST_REGEX_NO_EXTERNAL_TEMPLATES