third_party/boost/container/bench/bench_alloc_expand_bwd.cpp - platform/external/sdv/vsomeip - Git at Google

 //////////////////////////////////////////////////////////////////////////////
 //
 // (C) Copyright Ion Gaztanaga 2007-2013. 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/container for documentation.
 //
 //////////////////////////////////////////////////////////////////////////////

 #ifdef _MSC_VER
 #pragma warning (disable : 4512)
 #endif

 #include <boost/container/allocator.hpp>
 #include <boost/core/no_exceptions_support.hpp>

 #define BOOST_CONTAINER_VECTOR_ALLOC_STATS

 #include <boost/container/vector.hpp>
 #include <memory>    //std::allocator
 #include <iostream>  //std::cout, std::endl
 #include <cassert>   //assert

 #include <boost/move/detail/nsec_clock.hpp>
 using boost::move_detail::cpu_timer;
 using boost::move_detail::cpu_times;
 using boost::move_detail::nanosecond_type;

 namespace bc = boost::container;

 typedef std::allocator<int>   StdAllocator;
 typedef bc::allocator<int, 2, bc::expand_bwd | bc::expand_fwd> AllocatorPlusV2Mask;
 typedef bc::allocator<int, 2, bc::expand_fwd> AllocatorPlusV2;
 typedef bc::allocator<int, 1> AllocatorPlusV1;

 template<class Allocator> struct get_allocator_name;

 template<> struct get_allocator_name<StdAllocator>
 {  static const char *get() {  return "StdAllocator";  } };

 template<> struct get_allocator_name<AllocatorPlusV2Mask>
 {  static const char *get() {  return "AllocatorPlusV2Mask";  }   };

 template<> struct get_allocator_name<AllocatorPlusV2>
 {  static const char *get() {  return "AllocatorPlusV2";  } };

 template<> struct get_allocator_name<AllocatorPlusV1>
 {  static const char *get() {  return "AllocatorPlusV1";  } };

 //typedef int MyInt;

 class MyInt
 {
    int int_;

    public:
    MyInt(int i = 0)
       : int_(i)
    {}

    MyInt(const MyInt &other)
       :  int_(other.int_)
    {}

    MyInt & operator=(const MyInt &other)
    {
       int_ = other.int_;
       return *this;
    }

    ~MyInt()
    {
       int_ = 0;
    }
 };
 namespace boost{

 template<class T>
 struct has_trivial_destructor_after_move;

 template<>
 struct has_trivial_destructor_after_move<MyInt>
 {
    static const bool value = true;
    //static const bool value = false;
 };

 }  //namespace boost{


 void print_header()
 {
    std::cout   << "Allocator" << ";" << "Iterations" << ";" << "Size" << ";"
                << "Capacity" << ";" << "push_back(ns)" << ";" << "Allocator calls" << ";"
                << "New allocations" << ";" << "Bwd expansions" << std::endl;
 }

 template<class Allocator>
 void vector_test_template(unsigned int num_iterations, unsigned int num_elements, bool csv_output)
 {
    typedef typename Allocator::template rebind<MyInt>::other IntAllocator;
    unsigned int numalloc = 0, numexpand = 0;

    cpu_timer timer;
    timer.resume();

    unsigned int capacity = 0;
    for(unsigned int r = 0; r != num_iterations; ++r){
       bc::vector<MyInt, IntAllocator> v;
       v.reset_alloc_stats();
       void *first_mem = 0;
       BOOST_TRY{
          first_mem = bc::dlmalloc_malloc(sizeof(MyInt)*num_elements*3/2);
          v.push_back(MyInt(0));
          bc::dlmalloc_free(first_mem);

          for(unsigned int e = 0; e != num_elements; ++e){
             v.push_back(MyInt(e));
          }
          numalloc  += v.num_alloc;
          numexpand += v.num_expand_bwd;
          capacity = static_cast<unsigned int>(v.capacity());
       }
       BOOST_CATCH(...){
          bc::dlmalloc_free(first_mem);
          BOOST_RETHROW;
       }
       BOOST_CATCH_END
    }

    assert(bc::dlmalloc_allocated_memory() == 0);

    timer.stop();
    nanosecond_type nseconds = timer.elapsed().wall;

    if(csv_output){
       std::cout   << get_allocator_name<Allocator>::get()
                   << ";"
                   << num_iterations
                   << ";"
                   << num_elements
                   << ";"
                   << capacity
                   << ";"
                   << float(nseconds)/(num_iterations*num_elements)
                   << ";"
                   << (float(numalloc) + float(numexpand))/num_iterations
                   << ";"
                   << float(numalloc)/num_iterations
                   << ";"
                   << float(numexpand)/num_iterations
                   << std::endl;
    }
    else{
       std::cout   << std::endl
                   << "Allocator: " << get_allocator_name<Allocator>::get()
                   << std::endl
                   << "  push_back ns:              "
                   << float(nseconds)/(num_iterations*num_elements)
                   << std::endl
                   << "  capacity  -  alloc calls (new/expand):  "
                      << (unsigned int)capacity << "  -  "
                      << (float(numalloc) + float(numexpand))/num_iterations
                      << "(" << float(numalloc)/num_iterations << "/" << float(numexpand)/num_iterations << ")"
                   << std::endl;
       std::cout   << '\n'
                   << "    -----------------------------------    "
                   << std::endl;
    }
    bc::dlmalloc_trim(0);
 }

 int main(int argc, const char *argv[])
 {
    //#define SINGLE_TEST
    #define SIMPLE_IT
    #ifdef SINGLE_TEST
       #ifdef NDEBUG
       unsigned int numit [] = { 10 };
       #else
       unsigned int numit [] = { 10 };
       #endif
       unsigned int numele [] = { 10000 };
    #elif defined(SIMPLE_IT)
       unsigned int numit [] = { 3 };
       unsigned int numele[] = { 10000 };
    #else
       #ifdef NDEBUG
       unsigned int numit [] = { 2000, 20000, 200000, 2000000 };
       #else
       unsigned int numit [] = { 100, 1000, 10000, 100000 };
       #endif
       unsigned int numele [] = { 10000, 1000,   100,     10       };
    #endif

    bool csv_output = argc == 2 && (strcmp(argv[1], "--csv-output") == 0);

    if(csv_output){
       print_header();
       for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
          vector_test_template<StdAllocator>(numit[i], numele[i], csv_output);
       }
       for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
          vector_test_template<AllocatorPlusV1>(numit[i], numele[i], csv_output);
       }
       for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
          vector_test_template<AllocatorPlusV2Mask>(numit[i], numele[i], csv_output);
       }
       for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
          vector_test_template<AllocatorPlusV2>(numit[i], numele[i], csv_output);
       }
    }
    else{
       for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
          std::cout   << "\n    -----------------------------------    \n"
                      <<   "  Iterations/Elements:         " << numit[i] << "/" << numele[i]
                      << "\n    -----------------------------------    \n";
          vector_test_template<StdAllocator>(numit[i], numele[i], csv_output);
          vector_test_template<AllocatorPlusV1>(numit[i], numele[i], csv_output);
          vector_test_template<AllocatorPlusV2Mask>(numit[i], numele[i], csv_output);
          vector_test_template<AllocatorPlusV2>(numit[i], numele[i], csv_output);
       }
    }
    return 0;
 }
	//////////////////////////////////////////////////////////////////////////////
	//
	// (C) Copyright Ion Gaztanaga 2007-2013. 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/container for documentation.
	//
	//////////////////////////////////////////////////////////////////////////////

	#ifdef _MSC_VER
	#pragma warning (disable : 4512)
	#endif

	#include <boost/container/allocator.hpp>
	#include <boost/core/no_exceptions_support.hpp>

	#define BOOST_CONTAINER_VECTOR_ALLOC_STATS

	#include <boost/container/vector.hpp>
	#include <memory> //std::allocator
	#include <iostream> //std::cout, std::endl
	#include <cassert> //assert

	#include <boost/move/detail/nsec_clock.hpp>
	using boost::move_detail::cpu_timer;
	using boost::move_detail::cpu_times;
	using boost::move_detail::nanosecond_type;

	namespace bc = boost::container;

	typedef std::allocator<int> StdAllocator;
	typedef bc::allocator<int, 2, bc::expand_bwd \| bc::expand_fwd> AllocatorPlusV2Mask;
	typedef bc::allocator<int, 2, bc::expand_fwd> AllocatorPlusV2;
	typedef bc::allocator<int, 1> AllocatorPlusV1;

	template<class Allocator> struct get_allocator_name;

	template<> struct get_allocator_name<StdAllocator>
	{ static const char *get() { return "StdAllocator"; } };

	template<> struct get_allocator_name<AllocatorPlusV2Mask>
	{ static const char *get() { return "AllocatorPlusV2Mask"; } };

	template<> struct get_allocator_name<AllocatorPlusV2>
	{ static const char *get() { return "AllocatorPlusV2"; } };

	template<> struct get_allocator_name<AllocatorPlusV1>
	{ static const char *get() { return "AllocatorPlusV1"; } };

	//typedef int MyInt;

	class MyInt
	{
	int int_;

	public:
	MyInt(int i = 0)
	: int_(i)
	{}

	MyInt(const MyInt &other)
	: int_(other.int_)
	{}

	MyInt & operator=(const MyInt &other)
	{
	int_ = other.int_;
	return *this;
	}

	~MyInt()
	{
	int_ = 0;
	}
	};
	namespace boost{

	template<class T>
	struct has_trivial_destructor_after_move;

	template<>
	struct has_trivial_destructor_after_move<MyInt>
	{
	static const bool value = true;
	//static const bool value = false;
	};

	} //namespace boost{


	void print_header()
	{
	std::cout << "Allocator" << ";" << "Iterations" << ";" << "Size" << ";"
	<< "Capacity" << ";" << "push_back(ns)" << ";" << "Allocator calls" << ";"
	<< "New allocations" << ";" << "Bwd expansions" << std::endl;
	}

	template<class Allocator>
	void vector_test_template(unsigned int num_iterations, unsigned int num_elements, bool csv_output)
	{
	typedef typename Allocator::template rebind<MyInt>::other IntAllocator;
	unsigned int numalloc = 0, numexpand = 0;

	cpu_timer timer;
	timer.resume();

	unsigned int capacity = 0;
	for(unsigned int r = 0; r != num_iterations; ++r){
	bc::vector<MyInt, IntAllocator> v;
	v.reset_alloc_stats();
	void *first_mem = 0;
	BOOST_TRY{
	first_mem = bc::dlmalloc_malloc(sizeof(MyInt)num_elements3/2);
	v.push_back(MyInt(0));
	bc::dlmalloc_free(first_mem);

	for(unsigned int e = 0; e != num_elements; ++e){
	v.push_back(MyInt(e));
	}
	numalloc += v.num_alloc;
	numexpand += v.num_expand_bwd;
	capacity = static_cast<unsigned int>(v.capacity());
	}
	BOOST_CATCH(...){
	bc::dlmalloc_free(first_mem);
	BOOST_RETHROW;
	}
	BOOST_CATCH_END
	}

	assert(bc::dlmalloc_allocated_memory() == 0);

	timer.stop();
	nanosecond_type nseconds = timer.elapsed().wall;

	if(csv_output){
	std::cout << get_allocator_name<Allocator>::get()
	<< ";"
	<< num_iterations
	<< ";"
	<< num_elements
	<< ";"
	<< capacity
	<< ";"
	<< float(nseconds)/(num_iterations*num_elements)
	<< ";"
	<< (float(numalloc) + float(numexpand))/num_iterations
	<< ";"
	<< float(numalloc)/num_iterations
	<< ";"
	<< float(numexpand)/num_iterations
	<< std::endl;
	}
	else{
	std::cout << std::endl
	<< "Allocator: " << get_allocator_name<Allocator>::get()
	<< std::endl
	<< " push_back ns: "
	<< float(nseconds)/(num_iterations*num_elements)
	<< std::endl
	<< " capacity - alloc calls (new/expand): "
	<< (unsigned int)capacity << " - "
	<< (float(numalloc) + float(numexpand))/num_iterations
	<< "(" << float(numalloc)/num_iterations << "/" << float(numexpand)/num_iterations << ")"
	<< std::endl;
	std::cout << '\n'
	<< " ----------------------------------- "
	<< std::endl;
	}
	bc::dlmalloc_trim(0);
	}

	int main(int argc, const char *argv[])
	{
	//#define SINGLE_TEST
	#define SIMPLE_IT
	#ifdef SINGLE_TEST
	#ifdef NDEBUG
	unsigned int numit [] = { 10 };
	#else
	unsigned int numit [] = { 10 };
	#endif
	unsigned int numele [] = { 10000 };
	#elif defined(SIMPLE_IT)
	unsigned int numit [] = { 3 };
	unsigned int numele[] = { 10000 };
	#else
	#ifdef NDEBUG
	unsigned int numit [] = { 2000, 20000, 200000, 2000000 };
	#else
	unsigned int numit [] = { 100, 1000, 10000, 100000 };
	#endif
	unsigned int numele [] = { 10000, 1000, 100, 10 };
	#endif

	bool csv_output = argc == 2 && (strcmp(argv[1], "--csv-output") == 0);

	if(csv_output){
	print_header();
	for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
	vector_test_template<StdAllocator>(numit[i], numele[i], csv_output);
	}
	for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
	vector_test_template<AllocatorPlusV1>(numit[i], numele[i], csv_output);
	}
	for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
	vector_test_template<AllocatorPlusV2Mask>(numit[i], numele[i], csv_output);
	}
	for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
	vector_test_template<AllocatorPlusV2>(numit[i], numele[i], csv_output);
	}
	}
	else{
	for(unsigned int i = 0; i < sizeof(numele)/sizeof(numele[0]); ++i){
	std::cout << "\n ----------------------------------- \n"
	<< " Iterations/Elements: " << numit[i] << "/" << numele[i]
	<< "\n ----------------------------------- \n";
	vector_test_template<StdAllocator>(numit[i], numele[i], csv_output);
	vector_test_template<AllocatorPlusV1>(numit[i], numele[i], csv_output);
	vector_test_template<AllocatorPlusV2Mask>(numit[i], numele[i], csv_output);
	vector_test_template<AllocatorPlusV2>(numit[i], numele[i], csv_output);
	}
	}
	return 0;
	}