test31.cpp

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//
//  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 "test3.hpp"

// Test vector expression templates
template<class V, int N>
struct test_my_vector {
    typedef typename V::value_type value_type;
    typedef typename V::size_type size_type;
    typedef typename ublas::type_traits<value_type>::real_type real_type;

    template<class VP>
    void test_with (VP &v1, VP &v2, VP &v3) const {
        {
            value_type t;
            size_type i;
            real_type n;

            // Default Construct
            default_construct<VP>::test ();
            
            // Copy and swap
            initialize_vector (v1);
            initialize_vector (v2);
            v1 = v2;
            std::cout << "v1 = v2 = " << v1 << std::endl;
            v1.assign_temporary (v2);
            std::cout << "v1.assign_temporary (v2) = " << v1 << std::endl;
            v1.swap (v2);
            std::cout << "v1.swap (v2) = " << v1 << " " << v2 << std::endl;

            // Zero assignment
            v1 = ublas::zero_vector<> (v1.size ());
            std::cout << "v1.zero_vector = " << v1 << std::endl;
            v1 = v2;

#ifndef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
            // Project range and slice
            initialize_vector (v1);
            initialize_vector (v2);
            project (v1, ublas::range(0,1)) = project (v2, ublas::range(0,1));
            project (v1, ublas::range(0,1)) = project (v2, ublas::slice(0,1,1));
            project (v1, ublas::slice(2,-1,2)) = project (v2, ublas::slice(0,1,2));
            project (v1, ublas::slice(2,-1,2)) = project (v2, ublas::range(0,2));
            std::cout << "v1 = range/slice " << v1 << std::endl;
#endif

            // Unary vector operations resulting in a vector
            initialize_vector (v1);
            v2 = - v1;
            std::cout << "- v1 = " << v2 << std::endl;
            v2 = ublas::conj (v1);
            std::cout << "conj (v1) = " << v2 << std::endl;

            // Binary vector operations resulting in a vector
            initialize_vector (v1);
            initialize_vector (v2);
            initialize_vector (v3);
            v3 = v1 + v2;
            std::cout << "v1 + v2 = " << v3 << std::endl;

            v3 = v1 - v2;
            std::cout << "v1 - v2 = " << v3 << std::endl;

            // Scaling a vector
            t = N;
            initialize_vector (v1);
            v2 = value_type (1.) * v1;
            std::cout << "1. * v1 = " << v2 << std::endl;
            v2 = t * v1;
            std::cout << "N * v1 = " << v2 << std::endl;
            initialize_vector (v1);
            v2 = v1 * value_type (1.);
            std::cout << "v1 * 1. = " << v2 << std::endl;
            v2 = v1 * t;
            std::cout << "v1 * N = " << v2 << std::endl;

            // Some assignments
            initialize_vector (v1);
            initialize_vector (v2);
            v2 += v1;
            std::cout << "v2 += v1 = " << v2 << std::endl;
            v2 -= v1;
            std::cout << "v2 -= v1 = " << v2 << std::endl;
            v2 = v2 + v1;
            std::cout << "v2 = v2 + v1 = " << v2 << std::endl;
            v2 = v2 - v1;
            std::cout << "v2 = v2 - v1 = " << v2 << std::endl;
            v1 *= value_type (1.);
            std::cout << "v1 *= 1. = " << v1 << std::endl;
            v1 *= t;
            std::cout << "v1 *= N = " << v1 << std::endl;

            // Unary vector operations resulting in a scalar
            initialize_vector (v1);
            t = ublas::sum (v1);
            std::cout << "sum (v1) = " << t << std::endl;
            n = ublas::norm_1 (v1);
            std::cout << "norm_1 (v1) = " << n << std::endl;
            n = ublas::norm_2 (v1);
            std::cout << "norm_2 (v1) = " << n << std::endl;
            n = ublas::norm_inf (v1);
            std::cout << "norm_inf (v1) = " << n << std::endl;

            i = ublas::index_norm_inf (v1);
            std::cout << "index_norm_inf (v1) = " << i << std::endl;

            // Binary vector operations resulting in a scalar
            initialize_vector (v1);
            initialize_vector (v2);
            t = ublas::inner_prod (v1, v2);
            std::cout << "inner_prod (v1, v2) = " << t << std::endl;
        }
    }
    void operator () () const {
        {
            V v1 (N, N), v2 (N, N), v3 (N, N);
            test_with (v1, v2, v3);

#ifdef USE_RANGE
            ublas::vector_range<V> vr1 (v1, ublas::range (0, N)),
                                   vr2 (v2, ublas::range (0, N)),
                                   vr3 (v3, ublas::range (0, N));
            test_with (vr1, vr2, vr3);
#endif

#ifdef USE_SLICE
            ublas::vector_slice<V> vs1 (v1, ublas::slice (0, 1, N)),
                                   vs2 (v2, ublas::slice (0, 1, N)),
                                   vs3 (v3, ublas::slice (0, 1, N));
            test_with (vs1, vs2, vs3);
#endif
        }
    }
};

// Test vector
void test_vector () {
    std::cout << "test_vector" << std::endl;

#ifdef USE_SPARSE_VECTOR
#ifdef USE_MAP_ARRAY
#ifdef USE_FLOAT
    std::cout << "float, map_array" << std::endl;
    test_my_vector<ublas::mapped_vector<float, ublas::map_array<std::size_t, float> >, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "double, map_array" << std::endl;
    test_my_vector<ublas::mapped_vector<double, ublas::map_array<std::size_t, double> >, 3 > () ();
#endif

#ifdef USE_STD_COMPLEX
#ifdef USE_FLOAT
    std::cout << "std::complex<float>, map_array" << std::endl;
    test_my_vector<ublas::mapped_vector<std::complex<float>, ublas::map_array<std::size_t, std::complex<float> > >, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "std::complex<double>, map_array" << std::endl;
    test_my_vector<ublas::mapped_vector<std::complex<double>, ublas::map_array<std::size_t, std::complex<double> > >, 3 > () ();
#endif
#endif
#endif

#ifdef USE_STD_MAP
#ifdef USE_FLOAT
    std::cout << "float, std::map" << std::endl;
    test_my_vector<ublas::mapped_vector<float, std::map<std::size_t, float> >, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "double, std::map" << std::endl;
    test_my_vector<ublas::mapped_vector<double, std::map<std::size_t, double> >, 3 > () ();
#endif

#ifdef USE_STD_COMPLEX
#ifdef USE_FLOAT
    std::cout << "std::complex<float>, std::map" << std::endl;
    test_my_vector<ublas::mapped_vector<std::complex<float>, std::map<std::size_t, std::complex<float> > >, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "std::complex<double>, std::map" << std::endl;
    test_my_vector<ublas::mapped_vector<std::complex<double>, std::map<std::size_t, std::complex<double> > > , 3 > () ();
#endif
#endif
#endif
#endif

#ifdef USE_COMPRESSED_VECTOR
#ifdef USE_FLOAT
    std::cout << "float compressed" << std::endl;
    test_my_vector<ublas::compressed_vector<float>, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "double compressed" << std::endl;
    test_my_vector<ublas::compressed_vector<double>, 3 > () ();
#endif

#ifdef USE_STD_COMPLEX
#ifdef USE_FLOAT
    std::cout << "std::complex<float> compressed" << std::endl;
    test_my_vector<ublas::compressed_vector<std::complex<float> >, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "std::complex<double> compressed" << std::endl;
    test_my_vector<ublas::compressed_vector<std::complex<double> >, 3 > () ();
#endif
#endif
#endif

#ifdef USE_COORDINATE_VECTOR
#ifdef USE_FLOAT
    std::cout << "float coordinate" << std::endl;
    test_my_vector<ublas::coordinate_vector<float>, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "double coordinate" << std::endl;
    test_my_vector<ublas::coordinate_vector<double>, 3 > () ();
#endif

#ifdef USE_STD_COMPLEX
#ifdef USE_FLOAT
    std::cout << "std::complex<float> coordinate" << std::endl;
    test_my_vector<ublas::coordinate_vector<std::complex<float> >, 3 > () ();
#endif

#ifdef USE_DOUBLE
    std::cout << "std::complex<double> coordinate" << std::endl;
    test_my_vector<ublas::coordinate_vector<std::complex<double> >, 3 > () ();
#endif
#endif
#endif
}