#ifndef BOOST_ARCHIVE_DETAIL_ISERIALIZER_HPP #define BOOST_ARCHIVE_DETAIL_ISERIALIZER_HPP // MS compatible compilers support #pragma once #if defined(_MSC_VER) # pragma once #pragma inline_depth(511) #pragma inline_recursion(on) #endif #if defined(__MWERKS__) #pragma inline_depth(511) #endif /////////1/////////2/////////3/////////4/////////5/////////6/////////7/////////8 // iserializer.hpp: interface for serialization system. // (C) Copyright 2002 Robert Ramey - http://www.rrsd.com . // Use, modification and distribution is 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) // See http://www.boost.org for updates, documentation, and revision history. #include // for placement new #include // size_t, NULL #include #include #if defined(BOOST_NO_STDC_NAMESPACE) namespace std{ using ::size_t; } // namespace std #endif #include #include #include #include #include #include #ifndef BOOST_SERIALIZATION_DEFAULT_TYPE_INFO #include #endif #include #include #include #include #include #include #include #include #include #include #if !defined(BOOST_MSVC) && \ (BOOST_WORKAROUND(__IBMCPP__, < 1210) || \ defined(__SUNPRO_CC) && (__SUNPRO_CC < 0x590)) #define DONT_USE_HAS_NEW_OPERATOR 1 #else #define DONT_USE_HAS_NEW_OPERATOR 0 #endif #if ! DONT_USE_HAS_NEW_OPERATOR #include #endif #include #include #include #include #include #include #include #include #include #include #include // the following is need only for dynamic cast of polymorphic pointers #include #include #include #include #include #include #include namespace lslboost { namespace serialization { class extended_type_info; } // namespace serialization namespace archive { // an accessor to permit friend access to archives. Needed because // some compilers don't handle friend templates completely class load_access { public: template static void load_primitive(Archive &ar, T &t){ ar.load(t); } }; namespace detail { #ifdef BOOST_MSVC # pragma warning(push) # pragma warning(disable : 4511 4512) #endif template class iserializer : public basic_iserializer { private: virtual void destroy(/*const*/ void *address) const { lslboost::serialization::access::destroy(static_cast(address)); } public: explicit iserializer() : basic_iserializer( lslboost::serialization::singleton< typename lslboost::serialization::type_info_implementation< T >::type >::get_const_instance() ) {} virtual BOOST_DLLEXPORT void load_object_data( basic_iarchive & ar, void *x, const unsigned int file_version ) const BOOST_USED; virtual bool class_info() const { return lslboost::serialization::implementation_level< T >::value >= lslboost::serialization::object_class_info; } virtual bool tracking(const unsigned int /* flags */) const { return lslboost::serialization::tracking_level< T >::value == lslboost::serialization::track_always || ( lslboost::serialization::tracking_level< T >::value == lslboost::serialization::track_selectively && serialized_as_pointer()); } virtual version_type version() const { return version_type(::lslboost::serialization::version< T >::value); } virtual bool is_polymorphic() const { return lslboost::is_polymorphic< T >::value; } virtual ~iserializer(){}; }; #ifdef BOOST_MSVC # pragma warning(pop) #endif template BOOST_DLLEXPORT void iserializer::load_object_data( basic_iarchive & ar, void *x, const unsigned int file_version ) const { // note: we now comment this out. Before we permited archive // version # to be very large. Now we don't. To permit // readers of these old archives, we have to suppress this // code. Perhaps in the future we might re-enable it but // permit its suppression with a runtime switch. #if 0 // trap case where the program cannot handle the current version if(file_version > static_cast(version())) lslboost::serialization::throw_exception( archive::archive_exception( lslboost::archive::archive_exception::unsupported_class_version, get_debug_info() ) ); #endif // make sure call is routed through the higest interface that might // be specialized by the user. lslboost::serialization::serialize_adl( lslboost::serialization::smart_cast_reference(ar), * static_cast(x), file_version ); } #ifdef BOOST_MSVC # pragma warning(push) # pragma warning(disable : 4511 4512) #endif // the purpose of this code is to allocate memory for an object // without requiring the constructor to be called. Presumably // the allocated object will be subsequently initialized with // "placement new". // note: we have the boost type trait has_new_operator but we // have no corresponding has_delete_operator. So we presume // that the former being true would imply that the a delete // operator is also defined for the class T. template struct heap_allocation { // lslboost::has_new_operator< T > doesn't work on these compilers #if DONT_USE_HAS_NEW_OPERATOR // This doesn't handle operator new overload for class T static T * invoke_new(){ return static_cast(operator new(sizeof(T))); } static void invoke_delete(T *t){ (operator delete(t)); } #else // note: we presume that a true value for has_new_operator // implies the existence of a class specific delete operator as well // as a class specific new operator. struct has_new_operator { static T * invoke_new() { return static_cast((T::operator new)(sizeof(T))); } static void invoke_delete(T * t) { // if compilation fails here, the likely cause that the class // T has a class specific new operator but no class specific // delete operator which matches the following signature. // note that this solution addresses the issue that two // possible signatures. But it doesn't address the possibility // that the class might have class specific new with NO // class specific delete at all. Patches (compatible with // C++03) welcome! (operator delete)(t); } }; struct doesnt_have_new_operator { static T* invoke_new() { return static_cast(operator new(sizeof(T))); } static void invoke_delete(T * t) { // Note: I'm reliance upon automatic conversion from T * to void * here (operator delete)(t); } }; static T * invoke_new() { typedef typename mpl::eval_if< lslboost::has_new_operator< T >, mpl::identity, mpl::identity >::type typex; return typex::invoke_new(); } static void invoke_delete(T *t) { typedef typename mpl::eval_if< lslboost::has_new_operator< T >, mpl::identity, mpl::identity >::type typex; typex::invoke_delete(t); } #endif explicit heap_allocation(){ m_p = invoke_new(); } ~heap_allocation(){ if (0 != m_p) invoke_delete(m_p); } T* get() const { return m_p; } T* release() { T* p = m_p; m_p = 0; return p; } private: T* m_p; }; template class pointer_iserializer : public basic_pointer_iserializer { private: virtual void * heap_allocation() const { detail::heap_allocation h; T * t = h.get(); h.release(); return t; } virtual const basic_iserializer & get_basic_serializer() const { return lslboost::serialization::singleton< iserializer >::get_const_instance(); } BOOST_DLLEXPORT virtual void load_object_ptr( basic_iarchive & ar, void * x, const unsigned int file_version ) const BOOST_USED; public: // this should alway be a singleton so make the constructor protected pointer_iserializer(); ~pointer_iserializer(); }; #ifdef BOOST_MSVC # pragma warning(pop) #endif // note: BOOST_DLLEXPORT is so that code for polymorphic class // serialized only through base class won't get optimized out template BOOST_DLLEXPORT void pointer_iserializer::load_object_ptr( basic_iarchive & ar, void * t, const unsigned int file_version ) const { Archive & ar_impl = lslboost::serialization::smart_cast_reference(ar); // note that the above will throw std::bad_alloc if the allocation // fails so we don't have to address this contingency here. // catch exception during load_construct_data so that we don't // automatically delete the t which is most likely not fully // constructed BOOST_TRY { // this addresses an obscure situation that occurs when // load_constructor de-serializes something through a pointer. ar.next_object_pointer(t); lslboost::serialization::load_construct_data_adl( ar_impl, static_cast(t), file_version ); } BOOST_CATCH(...){ // if we get here the load_construct failed. The heap_allocation // will be automatically deleted so we don't have to do anything // special here. BOOST_RETHROW; } BOOST_CATCH_END ar_impl >> lslboost::serialization::make_nvp(NULL, * static_cast(t)); } template pointer_iserializer::pointer_iserializer() : basic_pointer_iserializer( lslboost::serialization::singleton< typename lslboost::serialization::type_info_implementation< T >::type >::get_const_instance() ) { lslboost::serialization::singleton< iserializer >::get_mutable_instance().set_bpis(this); archive_serializer_map::insert(this); } template pointer_iserializer::~pointer_iserializer(){ archive_serializer_map::erase(this); } template struct load_non_pointer_type { // note this bounces the call right back to the archive // with no runtime overhead struct load_primitive { template static void invoke(Archive & ar, T & t){ load_access::load_primitive(ar, t); } }; // note this bounces the call right back to the archive // with no runtime overhead struct load_only { template static void invoke(Archive & ar, const T & t){ // short cut to user's serializer // make sure call is routed through the higest interface that might // be specialized by the user. lslboost::serialization::serialize_adl( ar, const_cast(t), lslboost::serialization::version< T >::value ); } }; // note this save class information including version // and serialization level to the archive struct load_standard { template static void invoke(Archive &ar, const T & t){ void * x = lslboost::addressof(const_cast(t)); ar.load_object( x, lslboost::serialization::singleton< iserializer >::get_const_instance() ); } }; struct load_conditional { template static void invoke(Archive &ar, T &t){ //if(0 == (ar.get_flags() & no_tracking)) load_standard::invoke(ar, t); //else // load_only::invoke(ar, t); } }; template static void invoke(Archive & ar, T &t){ typedef typename mpl::eval_if< // if its primitive mpl::equal_to< lslboost::serialization::implementation_level< T >, mpl::int_ >, mpl::identity, // else typename mpl::eval_if< // class info / version mpl::greater_equal< lslboost::serialization::implementation_level< T >, mpl::int_ >, // do standard load mpl::identity, // else typename mpl::eval_if< // no tracking mpl::equal_to< lslboost::serialization::tracking_level< T >, mpl::int_ >, // do a fast load mpl::identity, // else // do a fast load only tracking is turned off mpl::identity > > >::type typex; check_object_versioning< T >(); check_object_level< T >(); typex::invoke(ar, t); } }; template struct load_pointer_type { struct abstract { template static const basic_pointer_iserializer * register_type(Archive & /* ar */){ // it has? to be polymorphic BOOST_STATIC_ASSERT(lslboost::is_polymorphic< T >::value); return static_cast(NULL); } }; struct non_abstract { template static const basic_pointer_iserializer * register_type(Archive & ar){ return ar.register_type(static_cast(NULL)); } }; template static const basic_pointer_iserializer * register_type(Archive &ar, const T* const /*t*/){ // there should never be any need to load an abstract polymorphic // class pointer. Inhibiting code generation for this // permits abstract base classes to be used - note: exception // virtual serialize functions used for plug-ins typedef typename mpl::eval_if< lslboost::serialization::is_abstract, lslboost::mpl::identity, lslboost::mpl::identity >::type typex; return typex::template register_type< T >(ar); } template static T * pointer_tweak( const lslboost::serialization::extended_type_info & eti, void const * const t, const T & ) { // tweak the pointer back to the base class void * upcast = const_cast( lslboost::serialization::void_upcast( eti, lslboost::serialization::singleton< typename lslboost::serialization::type_info_implementation< T >::type >::get_const_instance(), t ) ); if(NULL == upcast) lslboost::serialization::throw_exception( archive_exception(archive_exception::unregistered_class) ); return static_cast(upcast); } template static void check_load(T * const /* t */){ check_pointer_level< T >(); check_pointer_tracking< T >(); } static const basic_pointer_iserializer * find(const lslboost::serialization::extended_type_info & type){ return static_cast( archive_serializer_map::find(type) ); } template static void invoke(Archive & ar, Tptr & t){ check_load(t); const basic_pointer_iserializer * bpis_ptr = register_type(ar, t); const basic_pointer_iserializer * newbpis_ptr = ar.load_pointer( // note major hack here !!! // I tried every way to convert Tptr &t (where Tptr might // include const) to void * &. This is the only way // I could make it work. RR (void * & )t, bpis_ptr, find ); // if the pointer isn't that of the base class if(newbpis_ptr != bpis_ptr){ t = pointer_tweak(newbpis_ptr->get_eti(), t, *t); } } }; template struct load_enum_type { template static void invoke(Archive &ar, T &t){ // convert integers to correct enum to load int i; ar >> lslboost::serialization::make_nvp(NULL, i); t = static_cast< T >(i); } }; template struct load_array_type { template static void invoke(Archive &ar, T &t){ typedef typename remove_extent< T >::type value_type; // convert integers to correct enum to load // determine number of elements in the array. Consider the // fact that some machines will align elements on boundries // other than characters. std::size_t current_count = sizeof(t) / ( static_cast(static_cast(&t[1])) - static_cast(static_cast(&t[0])) ); lslboost::serialization::collection_size_type count; ar >> BOOST_SERIALIZATION_NVP(count); if(static_cast(count) > current_count) lslboost::serialization::throw_exception( archive::archive_exception( lslboost::archive::archive_exception::array_size_too_short ) ); // explict template arguments to pass intel C++ compiler ar >> serialization::make_array< value_type, lslboost::serialization::collection_size_type >( static_cast(&t[0]), count ); } }; } // detail template inline void load(Archive & ar, T &t){ // if this assertion trips. It means we're trying to load a // const object with a compiler that doesn't have correct // function template ordering. On other compilers, this is // handled below. detail::check_const_loading< T >(); typedef typename mpl::eval_if, mpl::identity > ,//else typename mpl::eval_if, mpl::identity > ,//else typename mpl::eval_if, mpl::identity > ,//else mpl::identity > > > >::type typex; typex::invoke(ar, t); } } // namespace archive } // namespace lslboost #endif // BOOST_ARCHIVE_DETAIL_ISERIALIZER_HPP