boost_1_45_0/libs/interprocess/test/user_buffer_test.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 //////////////////////////////////////////////////////////////////////////////
 //
 // (C) Copyright Ion Gaztanaga 2004-2009. 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.
 //
 //////////////////////////////////////////////////////////////////////////////

 #include <boost/interprocess/detail/config_begin.hpp>
 #include <algorithm>
 #include <vector>
 #include <list>
 #include <iostream>
 #include <functional>
 #include <boost/interprocess/managed_external_buffer.hpp>
 #include <boost/interprocess/managed_heap_memory.hpp>
 #include <boost/interprocess/containers/list.hpp>
 #include <boost/interprocess/detail/type_traits.hpp>
 #include <boost/interprocess/allocators/node_allocator.hpp>
 #include "print_container.hpp"

 /******************************************************************************/
 /*                                                                            */
 /*  This example constructs repeats the same operations with std::list,       */
 /*  shmem_list in user provided buffer, and shmem_list in heap memory         */
 /*                                                                            */
 /******************************************************************************/

 using namespace boost::interprocess;

 //We will work with wide characters for user memory objects
 //Alias <integer> node allocator type
 typedef node_allocator
    <int, wmanaged_external_buffer::segment_manager> user_node_allocator_t;
 typedef node_allocator
    <int, wmanaged_heap_memory::segment_manager> heap_node_allocator_t;

 //Alias list types
 typedef list<int, user_node_allocator_t>    MyUserList;
 typedef list<int, heap_node_allocator_t>    MyHeapList;
 typedef std::list<int>                      MyStdList;

 //Function to check if both lists are equal
 bool CheckEqual(MyUserList *userlist, MyStdList *stdlist, MyHeapList *heaplist)
 {
    return std::equal(userlist->begin(), userlist->end(), stdlist->begin()) &&
           std::equal(heaplist->begin(), heaplist->end(), stdlist->begin());
 }

 int main ()
 {
    //Create the user memory who will store all objects
    const int size_aligner  = sizeof(detail::max_align);
    const int memsize       = 65536/size_aligner*size_aligner;
    static detail::max_align static_buffer[memsize/size_aligner];

    {
       //Now test move semantics
       managed_heap_memory original(memsize);
       managed_heap_memory move_ctor(boost::interprocess::move(original));
       managed_heap_memory move_assign;
       move_assign = boost::interprocess::move(move_ctor);
       original.swap(move_assign);
    }
    {
       //Now test move semantics
       managed_external_buffer original(create_only, static_buffer, memsize);
       managed_external_buffer move_ctor(boost::interprocess::move(original));
       managed_external_buffer move_assign;
       move_assign = boost::interprocess::move(move_ctor);
       original.swap(move_assign);
    }

    //Named new capable user mem allocator
    wmanaged_external_buffer user_buffer(create_only, static_buffer, memsize);

    //Named new capable heap mem allocator
    wmanaged_heap_memory heap_buffer(memsize);

    //Test move semantics
    {
       wmanaged_external_buffer user_default;
       wmanaged_external_buffer temp_external(boost::interprocess::move(user_buffer));
       user_default = boost::interprocess::move(temp_external);
       user_buffer  = boost::interprocess::move(user_default);
       wmanaged_heap_memory heap_default;
       wmanaged_heap_memory temp_heap(boost::interprocess::move(heap_buffer));
       heap_default = boost::interprocess::move(temp_heap);
       heap_buffer  = boost::interprocess::move(heap_default);
    }

    //Initialize memory
    user_buffer.reserve_named_objects(100);
    heap_buffer.reserve_named_objects(100);

    //User memory allocator must be always be initialized
    //since it has no default constructor
    MyUserList *userlist = user_buffer.construct<MyUserList>(L"MyUserList")
                            (user_buffer.get_segment_manager());

    MyHeapList *heaplist = heap_buffer.construct<MyHeapList>(L"MyHeapList")
                            (heap_buffer.get_segment_manager());

    //Alias heap list
    typedef std::list<int>   MyStdList;
    MyStdList *stdlist = new MyStdList;

    int i;
    const int max = 100;
    for(i = 0; i < max; ++i){
       userlist->push_back(i);
       heaplist->push_back(i);
       stdlist->push_back(i);
    }
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    userlist->erase(userlist->begin()++);
    heaplist->erase(heaplist->begin()++);
    stdlist->erase(stdlist->begin()++);
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    userlist->pop_back();
    heaplist->pop_back();
    stdlist->pop_back();
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    userlist->pop_front();
    heaplist->pop_front();
    stdlist->pop_front();
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    std::vector<int> aux_vect;
    #if !BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, == 1)
    aux_vect.assign(50, -1);
    userlist->assign(aux_vect.begin(), aux_vect.end());
    heaplist->assign(aux_vect.begin(), aux_vect.end());
    stdlist->assign(aux_vect.begin(), aux_vect.end());
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;
    #endif

    userlist->sort();
    heaplist->sort();
    stdlist->sort();
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    #if !BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, == 1)
    aux_vect.assign(50, 0);
    #endif
    userlist->insert(userlist->begin(), aux_vect.begin(), aux_vect.end());
    heaplist->insert(heaplist->begin(), aux_vect.begin(), aux_vect.end());
    stdlist->insert(stdlist->begin(), aux_vect.begin(), aux_vect.end());

    userlist->unique();
    heaplist->unique();
    stdlist->unique();
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    userlist->sort(std::greater<int>());
    heaplist->sort(std::greater<int>());
    stdlist->sort(std::greater<int>());
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    userlist->resize(userlist->size()/2);
    heaplist->resize(heaplist->size()/2);
    stdlist->resize(stdlist->size()/2);
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    userlist->remove(*userlist->begin());
    heaplist->remove(*heaplist->begin());
    stdlist->remove(*stdlist->begin());
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    for(i = 0; i < max; ++i){
       userlist->push_back(i);
       heaplist->push_back(i);
       stdlist->push_back(i);
    }

    MyUserList otheruserlist(*userlist);
    MyHeapList otherheaplist(*heaplist);
    MyStdList otherstdlist(*stdlist);
    userlist->splice(userlist->begin(), otheruserlist);
    heaplist->splice(heaplist->begin(), otherheaplist);
    stdlist->splice(stdlist->begin(), otherstdlist);
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    otheruserlist = *userlist;
    otherheaplist = *heaplist;
    otherstdlist = *stdlist;

    userlist->sort(std::greater<int>());
    heaplist->sort(std::greater<int>());
    stdlist->sort(std::greater<int>());
    otheruserlist.sort(std::greater<int>());
    otherheaplist.sort(std::greater<int>());
    otherstdlist.sort(std::greater<int>());
    userlist->merge(otheruserlist, std::greater<int>());
    heaplist->merge(otherheaplist, std::greater<int>());
    stdlist->merge(otherstdlist, std::greater<int>());
    if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

    user_buffer.destroy<MyUserList>(L"MyUserList");
    delete stdlist;

    //Fill heap buffer until is full
    try{
       while(1){
          heaplist->insert(heaplist->end(), 0);
       }
    }
    catch(boost::interprocess::bad_alloc &){}

    std::size_t heap_list_size = heaplist->size();

    //Copy heap buffer to another
    const char *insert_beg = static_cast<char*>(heap_buffer.get_address());
    const char *insert_end = insert_beg + heap_buffer.get_size();
    std::vector<char> grow_copy (insert_beg, insert_end);

    //Destroy old list
    heap_buffer.destroy<MyHeapList>(L"MyHeapList");

    //Resize copy buffer
    grow_copy.resize(memsize*2);

    //Open Interprocess machinery in the new managed external buffer
    wmanaged_external_buffer user_buffer2(open_only, &grow_copy[0], memsize);

    //Expand old Interprocess machinery to the new size
    user_buffer2.grow(memsize);

    //Get a pointer to the full list
    userlist = user_buffer2.find<MyUserList>(L"MyHeapList").first;
    if(!userlist){
       return 1;
    }

    //Fill user buffer until is full
    try{
       while(1){
          userlist->insert(userlist->end(), 0);
       }
    }
    catch(boost::interprocess::bad_alloc &){}

    std::size_t user_list_size = userlist->size();

    if(user_list_size <= heap_list_size){
       return 1;
    }

    user_buffer2.destroy_ptr(userlist);

    return 0;
 }

 #include <boost/interprocess/detail/config_end.hpp>
	//////////////////////////////////////////////////////////////////////////////
	//
	// (C) Copyright Ion Gaztanaga 2004-2009. 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.
	//
	//////////////////////////////////////////////////////////////////////////////

	#include <boost/interprocess/detail/config_begin.hpp>
	#include <algorithm>
	#include <vector>
	#include <list>
	#include <iostream>
	#include <functional>
	#include <boost/interprocess/managed_external_buffer.hpp>
	#include <boost/interprocess/managed_heap_memory.hpp>
	#include <boost/interprocess/containers/list.hpp>
	#include <boost/interprocess/detail/type_traits.hpp>
	#include <boost/interprocess/allocators/node_allocator.hpp>
	#include "print_container.hpp"

	/******************************************************************************/
	/* */
	/* This example constructs repeats the same operations with std::list, */
	/* shmem_list in user provided buffer, and shmem_list in heap memory */
	/* */
	/******************************************************************************/

	using namespace boost::interprocess;

	//We will work with wide characters for user memory objects
	//Alias <integer> node allocator type
	typedef node_allocator
	<int, wmanaged_external_buffer::segment_manager> user_node_allocator_t;
	typedef node_allocator
	<int, wmanaged_heap_memory::segment_manager> heap_node_allocator_t;

	//Alias list types
	typedef list<int, user_node_allocator_t> MyUserList;
	typedef list<int, heap_node_allocator_t> MyHeapList;
	typedef std::list<int> MyStdList;

	//Function to check if both lists are equal
	bool CheckEqual(MyUserList userlist, MyStdList stdlist, MyHeapList *heaplist)
	{
	return std::equal(userlist->begin(), userlist->end(), stdlist->begin()) &&
	std::equal(heaplist->begin(), heaplist->end(), stdlist->begin());
	}

	int main ()
	{
	//Create the user memory who will store all objects
	const int size_aligner = sizeof(detail::max_align);
	const int memsize = 65536/size_aligner*size_aligner;
	static detail::max_align static_buffer[memsize/size_aligner];

	{
	//Now test move semantics
	managed_heap_memory original(memsize);
	managed_heap_memory move_ctor(boost::interprocess::move(original));
	managed_heap_memory move_assign;
	move_assign = boost::interprocess::move(move_ctor);
	original.swap(move_assign);
	}
	{
	//Now test move semantics
	managed_external_buffer original(create_only, static_buffer, memsize);
	managed_external_buffer move_ctor(boost::interprocess::move(original));
	managed_external_buffer move_assign;
	move_assign = boost::interprocess::move(move_ctor);
	original.swap(move_assign);
	}

	//Named new capable user mem allocator
	wmanaged_external_buffer user_buffer(create_only, static_buffer, memsize);

	//Named new capable heap mem allocator
	wmanaged_heap_memory heap_buffer(memsize);

	//Test move semantics
	{
	wmanaged_external_buffer user_default;
	wmanaged_external_buffer temp_external(boost::interprocess::move(user_buffer));
	user_default = boost::interprocess::move(temp_external);
	user_buffer = boost::interprocess::move(user_default);
	wmanaged_heap_memory heap_default;
	wmanaged_heap_memory temp_heap(boost::interprocess::move(heap_buffer));
	heap_default = boost::interprocess::move(temp_heap);
	heap_buffer = boost::interprocess::move(heap_default);
	}

	//Initialize memory
	user_buffer.reserve_named_objects(100);
	heap_buffer.reserve_named_objects(100);

	//User memory allocator must be always be initialized
	//since it has no default constructor
	MyUserList *userlist = user_buffer.construct<MyUserList>(L"MyUserList")
	(user_buffer.get_segment_manager());

	MyHeapList *heaplist = heap_buffer.construct<MyHeapList>(L"MyHeapList")
	(heap_buffer.get_segment_manager());

	//Alias heap list
	typedef std::list<int> MyStdList;
	MyStdList *stdlist = new MyStdList;

	int i;
	const int max = 100;
	for(i = 0; i < max; ++i){
	userlist->push_back(i);
	heaplist->push_back(i);
	stdlist->push_back(i);
	}
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	userlist->erase(userlist->begin()++);
	heaplist->erase(heaplist->begin()++);
	stdlist->erase(stdlist->begin()++);
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	userlist->pop_back();
	heaplist->pop_back();
	stdlist->pop_back();
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	userlist->pop_front();
	heaplist->pop_front();
	stdlist->pop_front();
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	std::vector<int> aux_vect;
	#if !BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, == 1)
	aux_vect.assign(50, -1);
	userlist->assign(aux_vect.begin(), aux_vect.end());
	heaplist->assign(aux_vect.begin(), aux_vect.end());
	stdlist->assign(aux_vect.begin(), aux_vect.end());
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;
	#endif

	userlist->sort();
	heaplist->sort();
	stdlist->sort();
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	#if !BOOST_WORKAROUND(BOOST_DINKUMWARE_STDLIB, == 1)
	aux_vect.assign(50, 0);
	#endif
	userlist->insert(userlist->begin(), aux_vect.begin(), aux_vect.end());
	heaplist->insert(heaplist->begin(), aux_vect.begin(), aux_vect.end());
	stdlist->insert(stdlist->begin(), aux_vect.begin(), aux_vect.end());

	userlist->unique();
	heaplist->unique();
	stdlist->unique();
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	userlist->sort(std::greater<int>());
	heaplist->sort(std::greater<int>());
	stdlist->sort(std::greater<int>());
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	userlist->resize(userlist->size()/2);
	heaplist->resize(heaplist->size()/2);
	stdlist->resize(stdlist->size()/2);
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	userlist->remove(*userlist->begin());
	heaplist->remove(*heaplist->begin());
	stdlist->remove(*stdlist->begin());
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	for(i = 0; i < max; ++i){
	userlist->push_back(i);
	heaplist->push_back(i);
	stdlist->push_back(i);
	}

	MyUserList otheruserlist(*userlist);
	MyHeapList otherheaplist(*heaplist);
	MyStdList otherstdlist(*stdlist);
	userlist->splice(userlist->begin(), otheruserlist);
	heaplist->splice(heaplist->begin(), otherheaplist);
	stdlist->splice(stdlist->begin(), otherstdlist);
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	otheruserlist = *userlist;
	otherheaplist = *heaplist;
	otherstdlist = *stdlist;

	userlist->sort(std::greater<int>());
	heaplist->sort(std::greater<int>());
	stdlist->sort(std::greater<int>());
	otheruserlist.sort(std::greater<int>());
	otherheaplist.sort(std::greater<int>());
	otherstdlist.sort(std::greater<int>());
	userlist->merge(otheruserlist, std::greater<int>());
	heaplist->merge(otherheaplist, std::greater<int>());
	stdlist->merge(otherstdlist, std::greater<int>());
	if(!CheckEqual(userlist, stdlist, heaplist)) return 1;

	user_buffer.destroy<MyUserList>(L"MyUserList");
	delete stdlist;

	//Fill heap buffer until is full
	try{
	while(1){
	heaplist->insert(heaplist->end(), 0);
	}
	}
	catch(boost::interprocess::bad_alloc &){}

	std::size_t heap_list_size = heaplist->size();

	//Copy heap buffer to another
	const char insert_beg = static_cast<char>(heap_buffer.get_address());
	const char *insert_end = insert_beg + heap_buffer.get_size();
	std::vector<char> grow_copy (insert_beg, insert_end);

	//Destroy old list
	heap_buffer.destroy<MyHeapList>(L"MyHeapList");

	//Resize copy buffer
	grow_copy.resize(memsize*2);

	//Open Interprocess machinery in the new managed external buffer
	wmanaged_external_buffer user_buffer2(open_only, &grow_copy[0], memsize);

	//Expand old Interprocess machinery to the new size
	user_buffer2.grow(memsize);

	//Get a pointer to the full list
	userlist = user_buffer2.find<MyUserList>(L"MyHeapList").first;
	if(!userlist){
	return 1;
	}

	//Fill user buffer until is full
	try{
	while(1){
	userlist->insert(userlist->end(), 0);
	}
	}
	catch(boost::interprocess::bad_alloc &){}

	std::size_t user_list_size = userlist->size();

	if(user_list_size <= heap_list_size){
	return 1;
	}

	user_buffer2.destroy_ptr(userlist);

	return 0;
	}

	#include <boost/interprocess/detail/config_end.hpp>