////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2004-2012. 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) // // See http://www.boost.org/libs/interprocess for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTERPROCESS_TEST_VECTOR_TEST_HEADER #define BOOST_INTERPROCESS_TEST_VECTOR_TEST_HEADER #include #include #include #include #include "print_container.hpp" #include "check_equal_containers.hpp" #include "movable_int.hpp" #include "get_process_id_name.hpp" #include "emplace_test.hpp" #include #include #include #include #include namespace boost{ namespace interprocess{ namespace test{ template bool copyable_only(V1 *, V2 *, boost::interprocess::ipcdetail::false_type) { return true; } //Function to check if both sets are equal template bool copyable_only(V1 *shmvector, V2 *stdvector, boost::interprocess::ipcdetail::true_type) { typedef typename V1::value_type IntType; std::size_t size = shmvector->size(); stdvector->insert(stdvector->end(), 50, 1); shmvector->insert(shmvector->end(), 50, IntType(1)); if(!test::CheckEqualContainers(shmvector, stdvector)) return false; { IntType move_me(1); stdvector->insert(stdvector->begin()+size/2, 50, 1); shmvector->insert(shmvector->begin()+size/2, 50, boost::move(move_me)); if(!test::CheckEqualContainers(shmvector, stdvector)) return false; } { IntType move_me(2); shmvector->assign(shmvector->size()/2, boost::move(move_me)); stdvector->assign(stdvector->size()/2, 2); if(!test::CheckEqualContainers(shmvector, stdvector)) return false; } { IntType move_me(3); shmvector->assign(shmvector->size()*3-1, boost::move(move_me)); stdvector->assign(stdvector->size()*3-1, 3); if(!test::CheckEqualContainers(shmvector, stdvector)) return false; } return true; } template int vector_test() { typedef std::vector MyStdVector; typedef typename MyShmVector::value_type IntType; std::string process_name; test::get_process_id_name(process_name); const int Memsize = 65536; const char *const shMemName = process_name.c_str(); const int max = 100; { //Compare several shared memory vector operations with std::vector //Create shared memory shared_memory_object::remove(shMemName); try{ ManagedSharedMemory segment(create_only, shMemName, Memsize); segment.reserve_named_objects(100); //Shared memory allocator must be always be initialized //since it has no default constructor MyShmVector *shmvector = segment.template construct("MyShmVector") (segment.get_segment_manager()); MyStdVector *stdvector = new MyStdVector; shmvector->resize(100); stdvector->resize(100); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; shmvector->resize(200); stdvector->resize(200); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; shmvector->resize(0); stdvector->resize(0); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; for(int i = 0; i < max; ++i){ IntType new_int(i); shmvector->insert(shmvector->end(), boost::move(new_int)); stdvector->insert(stdvector->end(), i); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; } if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; typename MyShmVector::iterator shmit(shmvector->begin()); typename MyStdVector::iterator stdit(stdvector->begin()); typename MyShmVector::const_iterator cshmit = shmit; (void)cshmit; ++shmit; ++stdit; shmvector->erase(shmit); stdvector->erase(stdit); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; shmvector->erase(shmvector->begin()); stdvector->erase(stdvector->begin()); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; { //Initialize values IntType aux_vect[50]; for(int i = 0; i < 50; ++i){ IntType new_int(-1); //BOOST_STATIC_ASSERT((::boost::move_ipcdetail::is_copy_constructible::value == false)); aux_vect[i] = boost::move(new_int); } int aux_vect2[50]; for(int i = 0; i < 50; ++i){ aux_vect2[i] = -1; } shmvector->insert(shmvector->end() ,::boost::make_move_iterator(&aux_vect[0]) ,::boost::make_move_iterator(aux_vect + 50)); stdvector->insert(stdvector->end(), aux_vect2, aux_vect2 + 50); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; for(int i = 0, j = static_cast(shmvector->size()); i < j; ++i){ shmvector->erase(shmvector->begin()); stdvector->erase(stdvector->begin()); } if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; } { IntType aux_vect[50]; for(int i = 0; i < 50; ++i){ IntType new_int(-1); aux_vect[i] = boost::move(new_int); } int aux_vect2[50]; for(int i = 0; i < 50; ++i){ aux_vect2[i] = -1; } shmvector->insert(shmvector->begin() ,::boost::make_move_iterator(&aux_vect[0]) ,::boost::make_move_iterator(aux_vect + 50)); stdvector->insert(stdvector->begin(), aux_vect2, aux_vect2 + 50); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; } shmvector->reserve(shmvector->size()*2); stdvector->reserve(stdvector->size()*2); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; IntType push_back_this(1); shmvector->push_back(boost::move(push_back_this)); stdvector->push_back(int(1)); shmvector->push_back(IntType(1)); stdvector->push_back(int(1)); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; if(!copyable_only(shmvector, stdvector ,ipcdetail::bool_::value>())){ return 1; } shmvector->erase(shmvector->begin()); stdvector->erase(stdvector->begin()); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; for(int i = 0; i < max; ++i){ IntType insert_this(i); shmvector->insert(shmvector->begin(), boost::move(insert_this)); stdvector->insert(stdvector->begin(), i); shmvector->insert(shmvector->begin(), IntType(i)); stdvector->insert(stdvector->begin(), int(i)); } if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; //Test insertion from list { std::list l(50, int(1)); shmvector->insert(shmvector->begin(), l.begin(), l.end()); stdvector->insert(stdvector->begin(), l.begin(), l.end()); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; shmvector->assign(l.begin(), l.end()); stdvector->assign(l.begin(), l.end()); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; } /* std::size_t cap = shmvector->capacity(); shmvector->reserve(cap*2); stdvector->reserve(cap*2); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; shmvector->resize(0); stdvector->resize(0); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; shmvector->resize(cap*2); stdvector->resize(cap*2); if(!test::CheckEqualContainers(shmvector, stdvector)) return 1; */ delete stdvector; segment.template destroy("MyShmVector"); segment.shrink_to_fit_indexes(); if(!segment.all_memory_deallocated()) return 1; } catch(std::exception &ex){ shared_memory_object::remove(shMemName); std::cout << ex.what() << std::endl; return 1; } } shared_memory_object::remove(shMemName); std::cout << std::endl << "Test OK!" << std::endl; return 0; } } //namespace test{ } //namespace interprocess{ } //namespace boost{ #include #endif