// // Boost.Pointer Container // // Copyright Thorsten Ottosen 2003-2005. 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) // // For more information, see http://www.boost.org/libs/ptr_container/ // #ifndef BOOST_PTR_CONTAINER_CLONE_ALLOCATOR_HPP #define BOOST_PTR_CONTAINER_CLONE_ALLOCATOR_HPP #include #include #include namespace boost { ///////////////////////////////////////////////////////////////////////// // Clonable concept ///////////////////////////////////////////////////////////////////////// template< class T > inline T* new_clone( const T& r ) { // // @remark: if you get a compile-error here, // it is most likely because you did not // define new_clone( const T& ) in the namespace // of T. // T* res = new T( r ); BOOST_ASSERT( typeid(r) == typeid(*res) && "Default new_clone() sliced object!" ); return res; } template< class T > inline T* new_clone( const T* r ) { return r ? new_clone( *r ) : 0; } // // @remark: to make new_clone() work // with scope_ptr/shared_ptr ect. // simply overload for those types // in the appropriate namespace. // template< class T > inline void delete_clone( const T* r ) { checked_delete( r ); } ///////////////////////////////////////////////////////////////////////// // CloneAllocator concept ///////////////////////////////////////////////////////////////////////// struct heap_clone_allocator { template< class U > static U* allocate_clone( const U& r ) { return new_clone( r ); } template< class U > static void deallocate_clone( const U* r ) { delete_clone( r ); } }; struct view_clone_allocator { template< class U > static U* allocate_clone( const U& r ) { return const_cast(&r); } template< class U > static void deallocate_clone( const U* /*r*/ ) { // do nothing } }; } // namespace 'boost' #endif