boost_1_45_0/libs/numeric/ublas/bench1/bench11.cpp - nest-learning-thermostat/5.1.5/boost - Git at Google

 //
 //  Copyright (c) 2000-2002
 //  Joerg Walter, Mathias Koch
 //
 //  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)
 //
 //  The authors gratefully acknowledge the support of
 //  GeNeSys mbH & Co. KG in producing this work.
 //

 #include "bench1.hpp"

 template<class T, int N>
 struct bench_c_inner_prod {
     typedef T value_type;

     void operator () (int runs) const {
         try {
             static typename c_vector_traits<T, N>::type v1, v2;
             initialize_c_vector<T, N> () (v1);
             initialize_c_vector<T, N> () (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 static value_type s (0);
                 for (int j = 0; j < N; ++ j) {
                     s += v1 [j] * v2 [j];
                 }
 //                sink_scalar (s);
             }
             footer<value_type> () (N, N - 1, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
 };
 template<class V, int N>
 struct bench_my_inner_prod {
     typedef typename V::value_type value_type;

     void operator () (int runs) const {
         try {
             static V v1 (N), v2 (N);
             initialize_vector (v1);
             initialize_vector (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 static value_type s (0);
                 s = ublas::inner_prod (v1, v2);
 //                sink_scalar (s);
             }
             footer<value_type> () (N, N - 1, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
 };
 template<class V, int N>
 struct bench_cpp_inner_prod {
     typedef typename V::value_type value_type;

     void operator () (int runs) const {
         try {
             static V v1 (N), v2 (N);
             initialize_vector (v1);
             initialize_vector (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 static value_type s (0);
                 s = (v1 * v2).sum ();
 //                sink_scalar (s);
             }
             footer<value_type> () (N, N - 1, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
 };

 template<class T, int N>
 struct bench_c_vector_add {
     typedef T value_type;

     void operator () (int runs) const {
         try {
             static typename c_vector_traits<T, N>::type v1, v2, v3;
             initialize_c_vector<T, N> () (v1);
             initialize_c_vector<T, N> () (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 for (int j = 0; j < N; ++ j) {
                     v3 [j] = - (v1 [j] + v2 [j]);
                 }
 //                sink_c_vector<T, N> () (v3);
             }
             footer<value_type> () (0, 2 * N, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
 };
 template<class V, int N>
 struct bench_my_vector_add {
     typedef typename V::value_type value_type;

     void operator () (int runs, safe_tag) const {
         try {
             static V v1 (N), v2 (N), v3 (N);
             initialize_vector (v1);
             initialize_vector (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 v3 = - (v1 + v2);
 //                sink_vector (v3);
             }
             footer<value_type> () (0, 2 * N, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
     void operator () (int runs, fast_tag) const {
         try {
             static V v1 (N), v2 (N), v3 (N);
             initialize_vector (v1);
             initialize_vector (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 v3.assign (- (v1 + v2));
 //                sink_vector (v3);
             }
             footer<value_type> () (0, 2 * N, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
 };
 template<class V, int N>
 struct bench_cpp_vector_add {
     typedef typename V::value_type value_type;

     void operator () (int runs) const {
         try {
             static V v1 (N), v2 (N), v3 (N);
             initialize_vector (v1);
             initialize_vector (v2);
             boost::timer t;
             for (int i = 0; i < runs; ++ i) {
                 v3 = - (v1 + v2);
 //                sink_vector (v3);
             }
             footer<value_type> () (0, 2 * N, runs, t.elapsed ());
         }
         catch (std::exception &e) {
             std::cout << e.what () << std::endl;
         }
     }
 };

 // Benchmark O (n)
 template<class T, int N>
 void bench_1<T, N>::operator () (int runs) {
     header ("bench_1");

     header ("inner_prod");

     header ("C array");
     bench_c_inner_prod<T, N> () (runs);

 #ifdef USE_C_ARRAY
     header ("c_vector");
     bench_my_inner_prod<ublas::c_vector<T, N>, N> () (runs);
 #endif

 #ifdef USE_BOUNDED_ARRAY
     header ("vector<bounded_array>");
     bench_my_inner_prod<ublas::vector<T, ublas::bounded_array<T, N> >, N> () (runs);
 #endif

 #ifdef USE_UNBOUNDED_ARRAY
     header ("vector<unbounded_array>");
     bench_my_inner_prod<ublas::vector<T, ublas::unbounded_array<T> >, N> () (runs);
 #endif

 #ifdef USE_STD_VALARRAY
     header ("vector<std::valarray>");
     bench_my_inner_prod<ublas::vector<T, std::valarray<T> >, N> () ();
 #endif

 #ifdef USE_STD_VECTOR
     header ("vector<std::vector>");
     bench_my_inner_prod<ublas::vector<T, std::vector<T> >, N> () (runs);
 #endif

 #ifdef USE_STD_VALARRAY
     header ("std::valarray");
     bench_cpp_inner_prod<std::valarray<T>, N> () (runs);
 #endif

     header ("vector + vector");

     header ("C array");
     bench_c_vector_add<T, N> () (runs);

 #ifdef USE_C_ARRAY
     header ("c_vector safe");
     bench_my_vector_add<ublas::c_vector<T, N>, N> () (runs, safe_tag ());

     header ("c_vector fast");
     bench_my_vector_add<ublas::c_vector<T, N>, N> () (runs, fast_tag ());
 #endif

 #ifdef USE_BOUNDED_ARRAY
     header ("vector<bounded_array> safe");
     bench_my_vector_add<ublas::vector<T, ublas::bounded_array<T, N> >, N> () (runs, safe_tag ());

     header ("vector<bounded_array> fast");
     bench_my_vector_add<ublas::vector<T, ublas::bounded_array<T, N> >, N> () (runs, fast_tag ());
 #endif

 #ifdef USE_UNBOUNDED_ARRAY
     header ("vector<unbounded_array> safe");
     bench_my_vector_add<ublas::vector<T, ublas::unbounded_array<T> >, N> () (runs, safe_tag ());

     header ("vector<unbounded_array> fast");
     bench_my_vector_add<ublas::vector<T, ublas::unbounded_array<T> >, N> () (runs, fast_tag ());
 #endif

 #ifdef USE_STD_VALARRAY
     header ("vector<std::valarray> safe");
     bench_my_vector_add<ublas::vector<T, std::valarray<T> >, N> () (runs, safe_tag ());

     header ("vector<std::valarray> fast");
     bench_my_vector_add<ublas::vector<T, std::valarray<T> >, N> () (runs, fast_tag ());
 #endif

 #ifdef USE_STD_VECTOR
     header ("vector<std::vector> safe");
     bench_my_vector_add<ublas::vector<T, std::vector<T> >, N> () (runs, safe_tag ());

     header ("vector<std::vector> fast");
     bench_my_vector_add<ublas::vector<T, std::vector<T> >, N> () (runs, fast_tag ());
 #endif

 #ifdef USE_STD_VALARRAY
     header ("std::valarray");
     bench_cpp_vector_add<std::valarray<T>, N> () (runs);
 #endif
 }

 #ifdef USE_FLOAT
 template struct bench_1<float, 3>;
 template struct bench_1<float, 10>;
 template struct bench_1<float, 30>;
 template struct bench_1<float, 100>;
 #endif

 #ifdef USE_DOUBLE
 template struct bench_1<double, 3>;
 template struct bench_1<double, 10>;
 template struct bench_1<double, 30>;
 template struct bench_1<double, 100>;
 #endif

 #ifdef USE_STD_COMPLEX
 #ifdef USE_FLOAT
 template struct bench_1<std::complex<float>, 3>;
 template struct bench_1<std::complex<float>, 10>;
 template struct bench_1<std::complex<float>, 30>;
 template struct bench_1<std::complex<float>, 100>;
 #endif

 #ifdef USE_DOUBLE
 template struct bench_1<std::complex<double>, 3>;
 template struct bench_1<std::complex<double>, 10>;
 template struct bench_1<std::complex<double>, 30>;
 template struct bench_1<std::complex<double>, 100>;
 #endif
 #endif
	//
	// Copyright (c) 2000-2002
	// Joerg Walter, Mathias Koch
	//
	// 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)
	//
	// The authors gratefully acknowledge the support of
	// GeNeSys mbH & Co. KG in producing this work.
	//

	#include "bench1.hpp"

	template<class T, int N>
	struct bench_c_inner_prod {
	typedef T value_type;

	void operator () (int runs) const {
	try {
	static typename c_vector_traits<T, N>::type v1, v2;
	initialize_c_vector<T, N> () (v1);
	initialize_c_vector<T, N> () (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	static value_type s (0);
	for (int j = 0; j < N; ++ j) {
	s += v1 [j] * v2 [j];
	}
	// sink_scalar (s);
	}
	footer<value_type> () (N, N - 1, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	};
	template<class V, int N>
	struct bench_my_inner_prod {
	typedef typename V::value_type value_type;

	void operator () (int runs) const {
	try {
	static V v1 (N), v2 (N);
	initialize_vector (v1);
	initialize_vector (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	static value_type s (0);
	s = ublas::inner_prod (v1, v2);
	// sink_scalar (s);
	}
	footer<value_type> () (N, N - 1, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	};
	template<class V, int N>
	struct bench_cpp_inner_prod {
	typedef typename V::value_type value_type;

	void operator () (int runs) const {
	try {
	static V v1 (N), v2 (N);
	initialize_vector (v1);
	initialize_vector (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	static value_type s (0);
	s = (v1 * v2).sum ();
	// sink_scalar (s);
	}
	footer<value_type> () (N, N - 1, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	};

	template<class T, int N>
	struct bench_c_vector_add {
	typedef T value_type;

	void operator () (int runs) const {
	try {
	static typename c_vector_traits<T, N>::type v1, v2, v3;
	initialize_c_vector<T, N> () (v1);
	initialize_c_vector<T, N> () (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	for (int j = 0; j < N; ++ j) {
	v3 [j] = - (v1 [j] + v2 [j]);
	}
	// sink_c_vector<T, N> () (v3);
	}
	footer<value_type> () (0, 2 * N, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	};
	template<class V, int N>
	struct bench_my_vector_add {
	typedef typename V::value_type value_type;

	void operator () (int runs, safe_tag) const {
	try {
	static V v1 (N), v2 (N), v3 (N);
	initialize_vector (v1);
	initialize_vector (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	v3 = - (v1 + v2);
	// sink_vector (v3);
	}
	footer<value_type> () (0, 2 * N, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	void operator () (int runs, fast_tag) const {
	try {
	static V v1 (N), v2 (N), v3 (N);
	initialize_vector (v1);
	initialize_vector (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	v3.assign (- (v1 + v2));
	// sink_vector (v3);
	}
	footer<value_type> () (0, 2 * N, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	};
	template<class V, int N>
	struct bench_cpp_vector_add {
	typedef typename V::value_type value_type;

	void operator () (int runs) const {
	try {
	static V v1 (N), v2 (N), v3 (N);
	initialize_vector (v1);
	initialize_vector (v2);
	boost::timer t;
	for (int i = 0; i < runs; ++ i) {
	v3 = - (v1 + v2);
	// sink_vector (v3);
	}
	footer<value_type> () (0, 2 * N, runs, t.elapsed ());
	}
	catch (std::exception &e) {
	std::cout << e.what () << std::endl;
	}
	}
	};

	// Benchmark O (n)
	template<class T, int N>
	void bench_1<T, N>::operator () (int runs) {
	header ("bench_1");

	header ("inner_prod");

	header ("C array");
	bench_c_inner_prod<T, N> () (runs);

	#ifdef USE_C_ARRAY
	header ("c_vector");
	bench_my_inner_prod<ublas::c_vector<T, N>, N> () (runs);
	#endif

	#ifdef USE_BOUNDED_ARRAY
	header ("vector<bounded_array>");
	bench_my_inner_prod<ublas::vector<T, ublas::bounded_array<T, N> >, N> () (runs);
	#endif

	#ifdef USE_UNBOUNDED_ARRAY
	header ("vector<unbounded_array>");
	bench_my_inner_prod<ublas::vector<T, ublas::unbounded_array<T> >, N> () (runs);
	#endif

	#ifdef USE_STD_VALARRAY
	header ("vector<std::valarray>");
	bench_my_inner_prod<ublas::vector<T, std::valarray<T> >, N> () ();
	#endif

	#ifdef USE_STD_VECTOR
	header ("vector<std::vector>");
	bench_my_inner_prod<ublas::vector<T, std::vector<T> >, N> () (runs);
	#endif

	#ifdef USE_STD_VALARRAY
	header ("std::valarray");
	bench_cpp_inner_prod<std::valarray<T>, N> () (runs);
	#endif

	header ("vector + vector");

	header ("C array");
	bench_c_vector_add<T, N> () (runs);

	#ifdef USE_C_ARRAY
	header ("c_vector safe");
	bench_my_vector_add<ublas::c_vector<T, N>, N> () (runs, safe_tag ());

	header ("c_vector fast");
	bench_my_vector_add<ublas::c_vector<T, N>, N> () (runs, fast_tag ());
	#endif

	#ifdef USE_BOUNDED_ARRAY
	header ("vector<bounded_array> safe");
	bench_my_vector_add<ublas::vector<T, ublas::bounded_array<T, N> >, N> () (runs, safe_tag ());

	header ("vector<bounded_array> fast");
	bench_my_vector_add<ublas::vector<T, ublas::bounded_array<T, N> >, N> () (runs, fast_tag ());
	#endif

	#ifdef USE_UNBOUNDED_ARRAY
	header ("vector<unbounded_array> safe");
	bench_my_vector_add<ublas::vector<T, ublas::unbounded_array<T> >, N> () (runs, safe_tag ());

	header ("vector<unbounded_array> fast");
	bench_my_vector_add<ublas::vector<T, ublas::unbounded_array<T> >, N> () (runs, fast_tag ());
	#endif

	#ifdef USE_STD_VALARRAY
	header ("vector<std::valarray> safe");
	bench_my_vector_add<ublas::vector<T, std::valarray<T> >, N> () (runs, safe_tag ());

	header ("vector<std::valarray> fast");
	bench_my_vector_add<ublas::vector<T, std::valarray<T> >, N> () (runs, fast_tag ());
	#endif

	#ifdef USE_STD_VECTOR
	header ("vector<std::vector> safe");
	bench_my_vector_add<ublas::vector<T, std::vector<T> >, N> () (runs, safe_tag ());

	header ("vector<std::vector> fast");
	bench_my_vector_add<ublas::vector<T, std::vector<T> >, N> () (runs, fast_tag ());
	#endif

	#ifdef USE_STD_VALARRAY
	header ("std::valarray");
	bench_cpp_vector_add<std::valarray<T>, N> () (runs);
	#endif
	}

	#ifdef USE_FLOAT
	template struct bench_1<float, 3>;
	template struct bench_1<float, 10>;
	template struct bench_1<float, 30>;
	template struct bench_1<float, 100>;
	#endif

	#ifdef USE_DOUBLE
	template struct bench_1<double, 3>;
	template struct bench_1<double, 10>;
	template struct bench_1<double, 30>;
	template struct bench_1<double, 100>;
	#endif

	#ifdef USE_STD_COMPLEX
	#ifdef USE_FLOAT
	template struct bench_1<std::complex<float>, 3>;
	template struct bench_1<std::complex<float>, 10>;
	template struct bench_1<std::complex<float>, 30>;
	template struct bench_1<std::complex<float>, 100>;
	#endif

	#ifdef USE_DOUBLE
	template struct bench_1<std::complex<double>, 3>;
	template struct bench_1<std::complex<double>, 10>;
	template struct bench_1<std::complex<double>, 30>;
	template struct bench_1<std::complex<double>, 100>;
	#endif
	#endif