boost_1_45_0/libs/fusion/example/performance/functional.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /*=============================================================================
     Copyright (c) 2001-2006 Joel de Guzman
     Copyright (c) 2006-2007 Tobias Schwinger

     Use modification and distribution are 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).
 ==============================================================================*/

 #include <boost/fusion/container/list.hpp>
 #include <boost/fusion/container/vector.hpp>
 #include <boost/fusion/algorithm/iteration/fold.hpp>
 #include <boost/fusion/functional/adapter/unfused.hpp>
 #include <boost/fusion/functional/adapter/fused_function_object.hpp>

 #include <boost/functional/forward_adapter.hpp>
 #include <boost/functional/lightweight_forward_adapter.hpp>

 #include <boost/utility/result_of.hpp>
 #include <boost/config.hpp>
 #include <boost/timer.hpp>
 #include <algorithm>
 #include <iostream>

 #ifdef _MSC_VER
 // inline aggressively
 # pragma inline_recursion(on) // turn on inline recursion
 # pragma inline_depth(255)    // max inline depth
 #endif

 int const REPEAT_COUNT = 3;

 double const duration = 0.125;


 namespace
 {
     struct fused_sum
     {
         template <typename Seq>
         int operator()(Seq const & seq) const
         {
             int state = 0;
             return boost::fusion::fold(seq, state, sum_op());
         }

         typedef int result_type;

       private:

         struct sum_op
         {
             template <typename T>
             int operator()(T const & elem, int value) const
             {
               return value + sizeof(T) * elem;
             }

             template <typename T>
             int operator()(T & elem, int value) const
             {
               elem += sizeof(T);
               return value;
             }

             typedef int result_type;
         };
     };

     struct unfused_sum
     {
         inline int operator()() const
         {
             return 0;
         }
         template<typename T0>
         inline int operator()(T0 const & a0) const
         {
             return a0;
         }
         template<typename T0, typename T1>
         inline int operator()(T0 const & a0, T1 const & a1) const
         {
             return a0 + a1;
         }
         template<typename T0, typename T1, typename T2>
         inline int operator()(T0 const & a0, T1 const & a1, T2 a2) const
         {
             return a0 + a1 + a2;
         }
         template<typename T0, typename T1, typename T2, typename T3>
         inline int operator()(T0 const & a0, T1 const & a1, T2 const & a2, T3 const & a3) const
         {
             return a0 + a1 + a2 + a3;
         }

         typedef int result_type;
     };

     template<typename F>
     double call_unfused(F const & func, int & j)
     {
         boost::timer tim;
         int i = 0;
         long long iter = 65536;
         long long counter, repeats;
         double result = (std::numeric_limits<double>::max)();
         double runtime = 0;
         double run;
         do
         {
             tim.restart();
             for(counter = 0; counter < iter; ++counter)
             {
                 i += func();
                 i += func(0);
                 i += func(0,1);
                 i += func(0,1,2);
                 i += func(0,1,2,3);
             }
             runtime = tim.elapsed();
             iter *= 2;
         } while(runtime < duration);
         iter /= 2;

         for(repeats = 0; repeats < REPEAT_COUNT; ++repeats)
         {
             tim.restart();
             for(counter = 0; counter < iter; ++counter)
             {
                 i = func(); j += i;
                 i = func(0); j += i;
                 i = func(0,1); j += i;
                 i = func(0,1,2); j += i;
                 i = func(0,1,2,3); j += i;
             }
             run = tim.elapsed();
             result = (std::min)(run, result);
         }
         return result / iter;
     }

     template<typename F>
     double call_fused_ra(F const & func, int & j)
     {
         boost::timer tim;
         int i = 0;
         long long iter = 65536;
         long long counter, repeats;
         double result = (std::numeric_limits<double>::max)();
         double runtime = 0;
         double run;
         do
         {
             boost::fusion::vector<> v0;
             boost::fusion::vector<int> v1(0);
             boost::fusion::vector<int,int> v2(0,1);
             boost::fusion::vector<int,int,int> v3(0,1,2);
             boost::fusion::vector<int,int,int,int> v4(0,1,2,3);
             tim.restart();
             for(counter = 0; counter < iter; ++counter)
             {
                 i += func(v0);
                 i += func(v1);
                 i += func(v2);
                 i += func(v3);
                 i += func(v4);
             }
             runtime = tim.elapsed();
             iter *= 2;
         } while(runtime < duration);
         iter /= 2;

         for(repeats = 0; repeats < REPEAT_COUNT; ++repeats)
         {
             boost::fusion::vector<> v0;
             boost::fusion::vector<int> v1(0);
             boost::fusion::vector<int,int> v2(0,1);
             boost::fusion::vector<int,int,int> v3(0,1,2);
             boost::fusion::vector<int,int,int,int> v4(0,1,2,3);
             tim.restart();
             for(counter = 0; counter < iter; ++counter)
             {
                 i = func(v0); j += i;
                 i = func(v1); j += i;
                 i = func(v2); j += i;
                 i = func(v3); j += i;
                 i = func(v4); j += i;
             }
             run = tim.elapsed();
             result = (std::min)(run, result);
         }
         return result / iter;
     }

     template<typename F>
     double call_fused(F const & func, int & j)
     {
         boost::timer tim;
         int i = 0;
         long long iter = 65536;
         long long counter, repeats;
         double result = (std::numeric_limits<double>::max)();
         double runtime = 0;
         double run;
         do
         {
             boost::fusion::list<> l0;
             boost::fusion::list<int> l1(0);
             boost::fusion::list<int,int> l2(0,1);
             boost::fusion::list<int,int,int> l3(0,1,2);
             boost::fusion::list<int,int,int,int> l4(0,1,2,3);
             tim.restart();
             for(counter = 0; counter < iter; ++counter)
             {
                 i += func(l0);
                 i += func(l1);
                 i += func(l2);
                 i += func(l3);
                 i += func(l4);
             }
             runtime = tim.elapsed();
             iter *= 2;
         } while(runtime < duration);
         iter /= 2;

         for(repeats = 0; repeats < REPEAT_COUNT; ++repeats)
         {
             boost::fusion::list<> l0;
             boost::fusion::list<int> l1(0);
             boost::fusion::list<int,int> l2(0,1);
             boost::fusion::list<int,int,int> l3(0,1,2);
             boost::fusion::list<int,int,int,int> l4(0,1,2,3);
             tim.restart();
             for(counter = 0; counter < iter; ++counter)
             {
                 i = func(l0); j += i;
                 i = func(l1); j += i;
                 i = func(l2); j += i;
                 i = func(l3); j += i;
                 i = func(l4); j += i;
             }
             run = tim.elapsed();
             result = (std::min)(run, result);
         }
         return result / iter;
     }
 }

 int main()
 {
     int total = 0;
     int res;
     typedef fused_sum   F;
     typedef unfused_sum U;

     std::cout << "Compiler: " << BOOST_COMPILER << std::endl;
     std::cout << std::endl << "Unfused adapters:" << std::endl;
     {
         F f;
         std::cout << "F /* a fused function object */                " << call_fused_ra(f,res) << std::endl;
         total += res;
     }
     {
         F f;
         std::cout << "without random access                          " << call_fused(f,res) << std::endl;
         total += res;
     }
     {
         boost::lightweight_forward_adapter< boost::fusion::unfused<F> > f;
         std::cout << "lightweight_forward_adapter< unfused<F> >      " << call_unfused(f,res) << std::endl;
         total += res;
     }
     {
         boost::forward_adapter< boost::fusion::unfused<F> > f;
         std::cout << "forward_adapter< unfused<F> >                  " << call_unfused(f,res) << std::endl;
         total += res;
     }
     std::cout << std::endl << "Fused adapters:" << std::endl;
     {
         unfused_sum f;
         std::cout << "U /* an unfused function object */             " << call_unfused(f,res) << std::endl;
         total += res;
     }
     {
         boost::fusion::fused_function_object<U> f;
         std::cout << "fused_function_object<U>                       " << call_fused_ra(f,res) << std::endl;
         total += res;
     }
     {
         boost::fusion::fused_function_object<U> f;
         std::cout << "without random access                          " << call_fused(f,res) << std::endl;
         total += res;
     }
     {
         boost::lightweight_forward_adapter< boost::fusion::unfused< boost::fusion::fused_function_object<U> > > f;
         std::cout << "lightweight_forward_adapter< unfused<fused_function_object<U> > >" << call_unfused(f,res) << std::endl;
         total += res;
     }
     {
         boost::forward_adapter< boost::fusion::unfused< boost::fusion::fused_function_object<U> > > f;
         std::cout << "forward_adapter< unfused<fused_function_object<U> > >           " << call_unfused(f,res) << std::endl;
         total += res;
     }

     return total;
 }
	/*=============================================================================
	Copyright (c) 2001-2006 Joel de Guzman
	Copyright (c) 2006-2007 Tobias Schwinger

	Use modification and distribution are 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).
	==============================================================================*/

	#include <boost/fusion/container/list.hpp>
	#include <boost/fusion/container/vector.hpp>
	#include <boost/fusion/algorithm/iteration/fold.hpp>
	#include <boost/fusion/functional/adapter/unfused.hpp>
	#include <boost/fusion/functional/adapter/fused_function_object.hpp>

	#include <boost/functional/forward_adapter.hpp>
	#include <boost/functional/lightweight_forward_adapter.hpp>

	#include <boost/utility/result_of.hpp>
	#include <boost/config.hpp>
	#include <boost/timer.hpp>
	#include <algorithm>
	#include <iostream>

	#ifdef _MSC_VER
	// inline aggressively
	# pragma inline_recursion(on) // turn on inline recursion
	# pragma inline_depth(255) // max inline depth
	#endif

	int const REPEAT_COUNT = 3;

	double const duration = 0.125;


	namespace
	{
	struct fused_sum
	{
	template <typename Seq>
	int operator()(Seq const & seq) const
	{
	int state = 0;
	return boost::fusion::fold(seq, state, sum_op());
	}

	typedef int result_type;

	private:

	struct sum_op
	{
	template <typename T>
	int operator()(T const & elem, int value) const
	{
	return value + sizeof(T) * elem;
	}

	template <typename T>
	int operator()(T & elem, int value) const
	{
	elem += sizeof(T);
	return value;
	}

	typedef int result_type;
	};
	};

	struct unfused_sum
	{
	inline int operator()() const
	{
	return 0;
	}
	template<typename T0>
	inline int operator()(T0 const & a0) const
	{
	return a0;
	}
	template<typename T0, typename T1>
	inline int operator()(T0 const & a0, T1 const & a1) const
	{
	return a0 + a1;
	}
	template<typename T0, typename T1, typename T2>
	inline int operator()(T0 const & a0, T1 const & a1, T2 a2) const
	{
	return a0 + a1 + a2;
	}
	template<typename T0, typename T1, typename T2, typename T3>
	inline int operator()(T0 const & a0, T1 const & a1, T2 const & a2, T3 const & a3) const
	{
	return a0 + a1 + a2 + a3;
	}

	typedef int result_type;
	};

	template<typename F>
	double call_unfused(F const & func, int & j)
	{
	boost::timer tim;
	int i = 0;
	long long iter = 65536;
	long long counter, repeats;
	double result = (std::numeric_limits<double>::max)();
	double runtime = 0;
	double run;
	do
	{
	tim.restart();
	for(counter = 0; counter < iter; ++counter)
	{
	i += func();
	i += func(0);
	i += func(0,1);
	i += func(0,1,2);
	i += func(0,1,2,3);
	}
	runtime = tim.elapsed();
	iter *= 2;
	} while(runtime < duration);
	iter /= 2;

	for(repeats = 0; repeats < REPEAT_COUNT; ++repeats)
	{
	tim.restart();
	for(counter = 0; counter < iter; ++counter)
	{
	i = func(); j += i;
	i = func(0); j += i;
	i = func(0,1); j += i;
	i = func(0,1,2); j += i;
	i = func(0,1,2,3); j += i;
	}
	run = tim.elapsed();
	result = (std::min)(run, result);
	}
	return result / iter;
	}

	template<typename F>
	double call_fused_ra(F const & func, int & j)
	{
	boost::timer tim;
	int i = 0;
	long long iter = 65536;
	long long counter, repeats;
	double result = (std::numeric_limits<double>::max)();
	double runtime = 0;
	double run;
	do
	{
	boost::fusion::vector<> v0;
	boost::fusion::vector<int> v1(0);
	boost::fusion::vector<int,int> v2(0,1);
	boost::fusion::vector<int,int,int> v3(0,1,2);
	boost::fusion::vector<int,int,int,int> v4(0,1,2,3);
	tim.restart();
	for(counter = 0; counter < iter; ++counter)
	{
	i += func(v0);
	i += func(v1);
	i += func(v2);
	i += func(v3);
	i += func(v4);
	}
	runtime = tim.elapsed();
	iter *= 2;
	} while(runtime < duration);
	iter /= 2;

	for(repeats = 0; repeats < REPEAT_COUNT; ++repeats)
	{
	boost::fusion::vector<> v0;
	boost::fusion::vector<int> v1(0);
	boost::fusion::vector<int,int> v2(0,1);
	boost::fusion::vector<int,int,int> v3(0,1,2);
	boost::fusion::vector<int,int,int,int> v4(0,1,2,3);
	tim.restart();
	for(counter = 0; counter < iter; ++counter)
	{
	i = func(v0); j += i;
	i = func(v1); j += i;
	i = func(v2); j += i;
	i = func(v3); j += i;
	i = func(v4); j += i;
	}
	run = tim.elapsed();
	result = (std::min)(run, result);
	}
	return result / iter;
	}

	template<typename F>
	double call_fused(F const & func, int & j)
	{
	boost::timer tim;
	int i = 0;
	long long iter = 65536;
	long long counter, repeats;
	double result = (std::numeric_limits<double>::max)();
	double runtime = 0;
	double run;
	do
	{
	boost::fusion::list<> l0;
	boost::fusion::list<int> l1(0);
	boost::fusion::list<int,int> l2(0,1);
	boost::fusion::list<int,int,int> l3(0,1,2);
	boost::fusion::list<int,int,int,int> l4(0,1,2,3);
	tim.restart();
	for(counter = 0; counter < iter; ++counter)
	{
	i += func(l0);
	i += func(l1);
	i += func(l2);
	i += func(l3);
	i += func(l4);
	}
	runtime = tim.elapsed();
	iter *= 2;
	} while(runtime < duration);
	iter /= 2;

	for(repeats = 0; repeats < REPEAT_COUNT; ++repeats)
	{
	boost::fusion::list<> l0;
	boost::fusion::list<int> l1(0);
	boost::fusion::list<int,int> l2(0,1);
	boost::fusion::list<int,int,int> l3(0,1,2);
	boost::fusion::list<int,int,int,int> l4(0,1,2,3);
	tim.restart();
	for(counter = 0; counter < iter; ++counter)
	{
	i = func(l0); j += i;
	i = func(l1); j += i;
	i = func(l2); j += i;
	i = func(l3); j += i;
	i = func(l4); j += i;
	}
	run = tim.elapsed();
	result = (std::min)(run, result);
	}
	return result / iter;
	}
	}

	int main()
	{
	int total = 0;
	int res;
	typedef fused_sum F;
	typedef unfused_sum U;

	std::cout << "Compiler: " << BOOST_COMPILER << std::endl;
	std::cout << std::endl << "Unfused adapters:" << std::endl;
	{
	F f;
	std::cout << "F /* a fused function object */ " << call_fused_ra(f,res) << std::endl;
	total += res;
	}
	{
	F f;
	std::cout << "without random access " << call_fused(f,res) << std::endl;
	total += res;
	}
	{
	boost::lightweight_forward_adapter< boost::fusion::unfused<F> > f;
	std::cout << "lightweight_forward_adapter< unfused<F> > " << call_unfused(f,res) << std::endl;
	total += res;
	}
	{
	boost::forward_adapter< boost::fusion::unfused<F> > f;
	std::cout << "forward_adapter< unfused<F> > " << call_unfused(f,res) << std::endl;
	total += res;
	}
	std::cout << std::endl << "Fused adapters:" << std::endl;
	{
	unfused_sum f;
	std::cout << "U /* an unfused function object */ " << call_unfused(f,res) << std::endl;
	total += res;
	}
	{
	boost::fusion::fused_function_object<U> f;
	std::cout << "fused_function_object<U> " << call_fused_ra(f,res) << std::endl;
	total += res;
	}
	{
	boost::fusion::fused_function_object<U> f;
	std::cout << "without random access " << call_fused(f,res) << std::endl;
	total += res;
	}
	{
	boost::lightweight_forward_adapter< boost::fusion::unfused< boost::fusion::fused_function_object<U> > > f;
	std::cout << "lightweight_forward_adapter< unfused<fused_function_object<U> > >" << call_unfused(f,res) << std::endl;
	total += res;
	}
	{
	boost::forward_adapter< boost::fusion::unfused< boost::fusion::fused_function_object<U> > > f;
	std::cout << "forward_adapter< unfused<fused_function_object<U> > > " << call_unfused(f,res) << std::endl;
	total += res;
	}

	return total;
	}