boost/exception/info.hpp
//Copyright (c) 2006-2010 Emil Dotchevski and Reverge Studios, Inc. //Distributed under 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) #ifndef UUID_8D22C4CA9CC811DCAA9133D256D89593 #define UUID_8D22C4CA9CC811DCAA9133D256D89593 #if defined(__GNUC__) && !defined(BOOST_EXCEPTION_ENABLE_WARNINGS) #pragma GCC system_header #endif #if defined(_MSC_VER) && !defined(BOOST_EXCEPTION_ENABLE_WARNINGS) #pragma warning(push,1) #endif #include <boost/exception/exception.hpp> #include <boost/exception/to_string_stub.hpp> #include <boost/exception/detail/error_info_impl.hpp> #include <boost/shared_ptr.hpp> #include <boost/config.hpp> #include <map> namespace boost { template <class Tag,class T> inline typename enable_if<has_to_string<T>,std::string>::type to_string( error_info<Tag,T> const & x ) { return to_string(x.value()); } template <class Tag,class T> inline error_info<Tag,T>:: error_info( value_type const & value ): value_(value) { } template <class Tag,class T> inline error_info<Tag,T>:: ~error_info() throw() { } template <class Tag,class T> inline std::string error_info<Tag,T>:: tag_typeid_name() const { return tag_type_name<Tag>(); } template <class Tag,class T> inline std::string error_info<Tag,T>:: value_as_string() const { return to_string_stub(*this); } namespace exception_detail { class error_info_container_impl: public error_info_container { public: error_info_container_impl(): count_(0) { } ~error_info_container_impl() throw() { } void set( shared_ptr<error_info_base> const & x, type_info_ const & typeid_ ) { BOOST_ASSERT(x); info_[typeid_] = x; diagnostic_info_str_.clear(); } shared_ptr<error_info_base> get( type_info_ const & ti ) const { error_info_map::const_iterator i=info_.find(ti); if( info_.end()!=i ) { shared_ptr<error_info_base> const & p = i->second; #ifndef BOOST_NO_RTTI BOOST_ASSERT( BOOST_EXCEPTION_DYNAMIC_TYPEID(*p).type_==ti.type_ ); #endif return p; } return shared_ptr<error_info_base>(); } char const * diagnostic_information( char const * header ) const { if( header ) { BOOST_ASSERT(*header!=0); std::ostringstream tmp; tmp << header; for( error_info_map::const_iterator i=info_.begin(),end=info_.end(); i!=end; ++i ) { error_info_base const & x = *i->second; tmp << '[' << x.tag_typeid_name() << "] = " << x.value_as_string() << '\n'; } tmp.str().swap(diagnostic_info_str_); } return diagnostic_info_str_.c_str(); } private: friend class boost::exception; typedef std::map< type_info_, shared_ptr<error_info_base> > error_info_map; error_info_map info_; mutable std::string diagnostic_info_str_; mutable int count_; error_info_container_impl( error_info_container_impl const & ); error_info_container_impl & operator=( error_info_container const & ); void add_ref() const { ++count_; } bool release() const { if( --count_ ) return false; else { delete this; return true; } } refcount_ptr<error_info_container> clone() const { refcount_ptr<error_info_container> p; error_info_container_impl * c=new error_info_container_impl; p.adopt(c); c->info_ = info_; return p; } }; template <class E,class Tag,class T> inline E const & set_info( E const & x, error_info<Tag,T> const & v ) { typedef error_info<Tag,T> error_info_tag_t; shared_ptr<error_info_tag_t> p( new error_info_tag_t(v) ); exception_detail::error_info_container * c=x.data_.get(); if( !c ) x.data_.adopt(c=new exception_detail::error_info_container_impl); c->set(p,BOOST_EXCEPTION_STATIC_TYPEID(error_info_tag_t)); return x; } template <class T> struct derives_boost_exception { enum e { value = (sizeof(dispatch_boost_exception((T*)0))==sizeof(large_size)) }; }; } template <class E,class Tag,class T> inline typename enable_if<exception_detail::derives_boost_exception<E>,E const &>::type operator<<( E const & x, error_info<Tag,T> const & v ) { return exception_detail::set_info(x,v); } } #if defined(_MSC_VER) && !defined(BOOST_EXCEPTION_ENABLE_WARNINGS) #pragma warning(pop) #endif #endif