#ifndef BOOST_UTF8_CODECVT_FACET_HPP #define BOOST_UTF8_CODECVT_FACET_HPP #include #ifdef BOOST_IOSTREAMS_NO_WIDE_STREAMS # error wide streams not supported on this platform #endif // MS compatible compilers support #pragma once #if defined(_MSC_VER) # pragma once #endif /////////1/////////2/////////3/////////4/////////5/////////6/////////7/////////8 // utf8_codecvt_facet.hpp // Copyright (c) 2001 Ronald Garcia, Indiana University (garcia@osl.iu.edu) // Andrew Lumsdaine, Indiana University (lums@osl.iu.edu). // Distributed under the Boost Software License, Version 1.0. (See accompany- // ing file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // Note:(Robert Ramey). I have made the following alterations in the original // code. // a) Rendered utf8_codecvt with using templates // b) Move longer functions outside class definition to prevent inlining // and make code smaller // c) added on a derived class to permit translation to/from current // locale to utf8 // See http://www.boost.org for updates, documentation, and revision history. // archives stored as text - note these ar templated on the basic // stream templates to accommodate wide (and other?) kind of characters // // note the fact that on libraries without wide characters, ostream is // is not a specialization of basic_ostream which in fact is not defined // in such cases. So we can't use basic_ostream but rather // use two template parameters // // utf8_codecvt_facet // This is an implementation of a std::codecvt facet for translating // from UTF-8 externally to UCS-4. Note that this is not tied to // any specific types in order to allow customization on platforms // where wchar_t is not big enough. // // NOTES: The current implementation jumps through some unpleasant hoops in // order to deal with signed character types. As a std::codecvt_base::result, // it is necessary for the ExternType to be convertible to unsigned char. // I chose not to tie the extern_type explicitly to char. But if any combination // of types other than is used, then std::codecvt must be // specialized on those types for this to work. #include #include // size_t #include // mbstate_t #include #include #include // maximum lenght of a multibyte string #define MB_LENGTH_MAX 8 struct utf8_codecvt_facet_wchar_t : public boost::iostreams::detail::codecvt_helper { public: explicit utf8_codecvt_facet_wchar_t(std::size_t no_locale_manage = 0) : boost::iostreams::detail::codecvt_helper (no_locale_manage) { } protected: virtual std::codecvt_base::result do_in( std::mbstate_t& state, const char * from, const char * from_end, const char * & from_next, wchar_t * to, wchar_t * to_end, wchar_t*& to_next ) const; virtual std::codecvt_base::result do_out( std::mbstate_t & state, const wchar_t * from, const wchar_t * from_end, const wchar_t* & from_next, char * to, char * to_end, char * & to_next ) const; bool invalid_continuing_octet(unsigned char octet_1) const { return (octet_1 < 0x80|| 0xbf< octet_1); } bool invalid_leading_octet(unsigned char octet_1) const { return (0x7f < octet_1 && octet_1 < 0xc0) || (octet_1 > 0xfd); } // continuing octets = octets except for the leading octet static unsigned int get_cont_octet_count(unsigned char lead_octet) { return get_octet_count(lead_octet) - 1; } static unsigned int get_octet_count(unsigned char lead_octet); // How many "continuing octets" will be needed for this word // == total octets - 1. int get_cont_octet_out_count(wchar_t word) const ; virtual bool do_always_noconv() const throw() { return false; } // UTF-8 isn't really stateful since we rewind on partial conversions virtual std::codecvt_base::result do_unshift( std::mbstate_t&, char * from, char * /* to */, char * & next ) const{ next = from; return ok; } virtual int do_encoding() const throw() { const int variable_byte_external_encoding=0; return variable_byte_external_encoding; } // How many char objects can I process to get <= max_limit // wchar_t objects? virtual int do_length( BOOST_IOSTREAMS_CODECVT_CV_QUALIFIER std::mbstate_t &, const char * from, const char * from_end, std::size_t max_limit ) const throw(); // Largest possible value do_length(state,from,from_end,1) could return. virtual int do_max_length() const throw () { return 6; // largest UTF-8 encoding of a UCS-4 character } }; #if 0 // not used - incorrect in any case // Robert Ramey - use the above to make a code converter from multi-byte // char strings to utf8 encoding struct utf8_codecvt_facet_char : public utf8_codecvt_facet_wchar_t { typedef utf8_codecvt_facet_wchar_t base_class; public: explicit utf8_codecvt_facet_char(std::size_t no_locale_manage=0) : base_class(no_locale_manage) {} protected: virtual std::codecvt_base::result do_in( std::mbstate_t & state, const char * from, const char * from_end, const char * & from_next, char * to, char * to_end, char * & to_next ) const; virtual std::codecvt_base::result do_out( std::mbstate_t & state, const char * from, const char * from_end, const char* & from_next, char * to, char * to_end, char * & to_next ) const; // How many char objects can I process to get <= max_limit // char objects? virtual int do_length( const std::mbstate_t&, const char * from, const char * from_end, std::size_t max_limit ) const; }; #endif template struct utf8_codecvt_facet {}; template<> struct utf8_codecvt_facet : public utf8_codecvt_facet_wchar_t {}; #if 0 template<> struct utf8_codecvt_facet : public utf8_codecvt_facet_char {}; #endif #endif // BOOST_UTF8_CODECVT_FACET_HPP