Beispiel #1
0
int test_main(int, char* [])
{
    typedef bg::model::point<int, 2, bg::cs::cartesian> P2ic;
    typedef bg::model::point<float, 2, bg::cs::cartesian> P2fc;
    typedef bg::model::point<double, 2, bg::cs::cartesian> P2dc;

    typedef bg::model::point<int, 3, bg::cs::cartesian> P3ic;
    typedef bg::model::point<float, 3, bg::cs::cartesian> P3fc;
    typedef bg::model::point<double, 3, bg::cs::cartesian> P3dc;
    
    test_geometry<bg::model::box<P2ic> >("POLYGON((0 1,2 4))", 5);
    test_geometry<bg::model::box<P2fc> >("POLYGON((0 1,2 4))", 5.0);
    test_geometry<bg::model::box<P2dc> >("POLYGON((0 1,2 4))", 5.0);
    test_geometry<bg::model::box<P3ic> >("POLYGON((0 1 2,2 4 6))", 9);
    test_geometry<bg::model::box<P3fc> >("POLYGON((0 1 2,2 4 6))", 9.0);
    test_geometry<bg::model::box<P3dc> >("POLYGON((0 1 2,2 4 6))", 9.0);
    
#ifdef HAVE_TTMATH
    typedef bg::model::point<ttmath_big, 2, bg::cs::cartesian> P2ttmc;
    typedef bg::model::point<ttmath_big, 3, bg::cs::cartesian> P3ttmc;

    test_geometry<bg::model::box<P2ttmc> >("POLYGON((0 1,2 4))", 10.0);
    test_geometry<bg::model::box<P3ttmc> >("POLYGON((0 1 2,2 4 6))", 52.0);
#endif

    test_large_integers();

    // test_empty_input<bg::model::d2::point_xy<int> >();

    return 0;
}
Beispiel #2
0
int test_main(int, char* [])
{
    test_2d<bg::model::d2::point_xy<double> >();
    test_2d<boost::tuple<float, float> >();
    test_2d<bg::model::d2::point_xy<float> >();

    test_3d<boost::tuple<double, double, double> >();

    test_5d<boost::tuple<double, double, double, double, double> >();

#if defined(HAVE_TTMATH)
    test_2d<bg::model::d2::point_xy<ttmath_big> >();
    test_3d<boost::tuple<ttmath_big, ttmath_big, ttmath_big> >();
#endif

#ifndef NDEBUG
    // The test currently fails in release mode. TODO: fix this
    test_large_integers();
#endif

    test_large_doubles();

    test_exceptions<bg::model::d2::point_xy<double> >();
    test_empty<bg::model::d2::point_xy<double> >();

    return 0;
}
int test_main(int, char* [])
{
    typedef bg::model::point<int, 2, bg::cs::cartesian> P2ic;
    typedef bg::model::point<float, 2, bg::cs::cartesian> P2fc;
    typedef bg::model::point<double, 2, bg::cs::cartesian> P2dc;

    typedef bg::model::point<int, 3, bg::cs::cartesian> P3ic;
    typedef bg::model::point<float, 3, bg::cs::cartesian> P3fc;
    typedef bg::model::point<double, 3, bg::cs::cartesian> P3dc;

    test_indexable<bg::model::box<P2ic> >(P2ic(1, 2), "POLYGON((0 1,2 4))", 5.0);
    test_indexable<bg::model::box<P2fc> >(P2fc(1, 2), "POLYGON((0 1,2 4))", 5.0);
    test_indexable<bg::model::box<P2dc> >(P2dc(1, 2), "POLYGON((0 1,2 4))", 5.0);
    test_indexable<bg::model::box<P3ic> >(P3ic(1, 2, 3), "POLYGON((0 1 2,2 4 6))", 14.0);
    test_indexable<bg::model::box<P3fc> >(P3fc(1, 2, 3), "POLYGON((0 1 2,2 4 6))", 14.0);
    test_indexable<bg::model::box<P3dc> >(P3dc(1, 2, 3), "POLYGON((0 1 2,2 4 6))", 14.0);

    test_indexable<bg::model::box<P2ic> >(P2ic(1, 2), "POLYGON((1 2,3 5))", 4.0);
    
#ifdef HAVE_TTMATH
    typedef bg::model::point<ttmath_big, 2, bg::cs::cartesian> P2ttmc;
    typedef bg::model::point<ttmath_big, 3, bg::cs::cartesian> P3ttmc;

    test_indexable<bg::model::box<P2ttmc> >(P2ttmc(1, 2), "POLYGON((0 1,2 4))", 5.0);
    test_indexable<bg::model::box<P3ttmc> >(P3ttmc(1, 2, 3), "POLYGON((0 1 2,2 4 6))", 14.0);
#endif

    test_large_integers();

    return 0;
}
Beispiel #4
0
int test_main(int, char* [])
{
    typedef bg::model::point<int, 2, bg::cs::cartesian> P2ic;
    typedef bg::model::point<float, 2, bg::cs::cartesian> P2fc;
    typedef bg::model::point<double, 2, bg::cs::cartesian> P2dc;

    typedef bg::model::point<int, 3, bg::cs::cartesian> P3ic;
    typedef bg::model::point<float, 3, bg::cs::cartesian> P3fc;
    typedef bg::model::point<double, 3, bg::cs::cartesian> P3dc;
    
    test_geometry<bg::model::box<P2ic> >("POLYGON((0 1,2 4))", "POLYGON((1 2,3 5))", 12.0);
    test_geometry<bg::model::box<P2fc> >("POLYGON((0 1,2 4))", "POLYGON((1 2,3 5))", 12.0);
    test_geometry<bg::model::box<P2dc> >("POLYGON((0 1,2 4))", "POLYGON((1 2,3 5))", 12.0);
    test_geometry<bg::model::box<P3ic> >("POLYGON((0 1 2,2 4 6))", "POLYGON((1 2 3,3 5 7))", 60.0);
    test_geometry<bg::model::box<P3fc> >("POLYGON((0 1 2,2 4 6))", "POLYGON((1 2 3,3 5 7))", 60.0);
    test_geometry<bg::model::box<P3dc> >("POLYGON((0 1 2,2 4 6))", "POLYGON((1 2 3,3 5 7))", 60.0);

    test_geometry<bg::model::box<P2dc> >("POLYGON((0 1,2 4))", "POLYGON((2 1,3 4))", 9.0);
    test_geometry<bg::model::box<P2dc> >("POLYGON((0 1,2 4))", "POLYGON((2 4,3 5))", 12.0);
    
#ifdef HAVE_TTMATH
    typedef bg::model::point<ttmath_big, 2, bg::cs::cartesian> P2ttmc;
    typedef bg::model::point<ttmath_big, 3, bg::cs::cartesian> P3ttmc;

    test_geometry<bg::model::box<P2ttmc> >("POLYGON((0 1,2 4))", "POLYGON((1 2,3 5))", 12.0);
    test_geometry<bg::model::box<P3ttmc> >("POLYGON((0 1 2,2 4 6))", "POLYGON((1 2 3,3 5 7))", 60.0);
#endif

    test_large_integers();

    return 0;
}
int test_main(int, char* [])
{
    test_large_integers();

    //test_all<bg::model::d2::point_xy<float> >();
    test_all<bg::model::d2::point_xy<double> >();

    return 0;
}
int test_main(int, char* [])
{
    typedef bg::model::point<int, 2, bg::cs::cartesian> P2ic;
    typedef bg::model::point<float, 2, bg::cs::cartesian> P2fc;
    typedef bg::model::point<double, 2, bg::cs::cartesian> P2dc;

    typedef bg::model::point<int, 3, bg::cs::cartesian> P3ic;
    typedef bg::model::point<float, 3, bg::cs::cartesian> P3fc;
    typedef bg::model::point<double, 3, bg::cs::cartesian> P3dc;
    
    test_geometry<bg::model::box<P2ic>, P2ic>("POLYGON((0 1,2 4))", "POINT(0 0)", "POINT(2 5)", true, 1.0f/5);
    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(0 0)", "POINT(2 5)", true, 1.0f/5);
    test_geometry<bg::model::box<P2dc>, P2dc>("POLYGON((0 1,2 4))", "POINT(0 0)", "POINT(2 5)", true, 1.0/5);
    test_geometry<bg::model::box<P3ic>, P3ic>("POLYGON((0 1 2,2 4 6))", "POINT(0 0 0)", "POINT(2 5 7)", true, 2.0f/7);
    test_geometry<bg::model::box<P3fc>, P3fc>("POLYGON((0 1 2,2 4 6))", "POINT(0 0 0)", "POINT(2 5 7)", true, 2.0f/7);
    test_geometry<bg::model::box<P3dc>, P3dc>("POLYGON((0 1 2,2 4 6))", "POINT(0 0 0)", "POINT(2 5 7)", true, 2.0/7);

    test_geometry<bg::model::box<P2ic>, P2ic>("POLYGON((0 1,2 4))", "POINT(3 4)", "POINT(0 0)", true, 1.0f/3);
    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(3 4)", "POINT(0 2)", true, 1.0f/3);
    test_geometry<bg::model::box<P2dc>, P2dc>("POLYGON((0 1,2 4))", "POINT(3 4)", "POINT(0 2)", true, 1.0/3);
    test_geometry<bg::model::box<P3ic>, P3ic>("POLYGON((0 1 2,2 4 6))", "POINT(3 5 6)", "POINT(0 3 3)", true, 1.0f/2);
    test_geometry<bg::model::box<P3fc>, P3fc>("POLYGON((0 1 2,2 4 6))", "POINT(3 5 6)", "POINT(0 3 3)", true, 1.0f/2);
    test_geometry<bg::model::box<P3dc>, P3dc>("POLYGON((0 1 2,2 4 6))", "POINT(3 5 6)", "POINT(0 3 3)", true, 1.0/2);

    test_geometry<bg::model::box<P2ic>, P2ic>("POLYGON((0 1,2 4))", "POINT(1 0)", "POINT(1 5)", true, 1.0f/5);
    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(1 5)", "POINT(1 0)", true, 1.0f/5);
    test_geometry<bg::model::box<P2dc>, P2dc>("POLYGON((0 1,2 4))", "POINT(1 0)", "POINT(1 5)", true, 1.0/5);
    test_geometry<bg::model::box<P3ic>, P3ic>("POLYGON((0 1 2,2 4 6))", "POINT(1 3 0)", "POINT(1 3 7)", true, 2.0f/7);
    test_geometry<bg::model::box<P3fc>, P3fc>("POLYGON((0 1 2,2 4 6))", "POINT(1 3 7)", "POINT(1 3 0)", true, 1.0f/7);
    test_geometry<bg::model::box<P3dc>, P3dc>("POLYGON((0 1 2,2 4 6))", "POINT(1 3 0)", "POINT(1 3 7)", true, 2.0/7);

    test_geometry<bg::model::box<P2ic>, P2ic>("POLYGON((0 1,2 4))", "POINT(0 0)", "POINT(0 5)", true, 0.2f);
    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(0 5)", "POINT(0 0)", true, 0.2f);
    test_geometry<bg::model::box<P2dc>, P2dc>("POLYGON((0 1,2 4))", "POINT(0 0)", "POINT(0 5)", true, 0.2);

    test_geometry<bg::model::box<P2ic>, P2ic>("POLYGON((0 1,2 4))", "POINT(3 0)", "POINT(3 5)", false, 0.0f);
    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(3 5)", "POINT(3 0)", false, 0.0f);
    test_geometry<bg::model::box<P2dc>, P2dc>("POLYGON((0 1,2 4))", "POINT(3 0)", "POINT(3 5)", false, 0.0);

    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(1 0)", "POINT(1 1)", true, 1.0f);
    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(1 4)", "POINT(1 5)", true, 0.0f);

    test_geometry<bg::model::box<P2fc>, P2fc>("POLYGON((0 1,2 4))", "POINT(0.5 2)", "POINT(1.5 3)", true, 0.0f);
    
#ifdef HAVE_TTMATH
    typedef bg::model::point<ttmath_big, 2, bg::cs::cartesian> P2ttmc;
    typedef bg::model::point<ttmath_big, 3, bg::cs::cartesian> P3ttmc;

    test_geometry<bg::model::box<P2ttmc>, P2ttmc>("POLYGON((0 1,2 4))", "POINT(0 0)", "POINT(2 5)", true, 1.0f/5);
    test_geometry<bg::model::box<P3ttmc>, P3ttmc>("POLYGON((0 1 2,2 4 6))", "POINT(0 0 0)", "POINT(2 5 7)", true, 2.0f/7);
#endif

    test_large_integers();

    return 0;
}
int test_main( int , char* [] )
{
    test_large_integers();

    test_all<bg::model::d2::point_xy<int> >();
    test_all<bg::model::d2::point_xy<double> >();

    test_spherical<bg::model::point<double, 2, bg::cs::spherical_equatorial<bg::degree> > >();

#if defined(HAVE_TTMATH)
    test_all<bg::model::d2::point_xy<ttmath_big> >();
    test_spherical<bg::model::point<ttmath_big, 2, bg::cs::spherical_equatorial<bg::degree> > >();
#endif

    test_tickets();

    return 0;
}
Beispiel #8
0
int test_main(int, char* [])
{
    test_2d<bg::model::d2::point_xy<double> >();
    test_2d<boost::tuple<float, float> >();
    test_2d<bg::model::d2::point_xy<float> >();

    test_3d<boost::tuple<double, double, double> >();

    test_5d<boost::tuple<double, double, double, double, double> >();

#if defined(HAVE_TTMATH)
    test_2d<bg::model::d2::point_xy<ttmath_big> >();
    test_3d<boost::tuple<ttmath_big, ttmath_big, ttmath_big> >();
#endif

    test_large_integers();
    test_exceptions<bg::model::d2::point_xy<double> >();

    return 0;
}
Beispiel #9
0
int test_main(int, char* [])
{
    typedef bg::model::point<int, 2, bg::cs::cartesian> P2ic;
    typedef bg::model::point<float, 2, bg::cs::cartesian> P2fc;
    typedef bg::model::point<double, 2, bg::cs::cartesian> P2dc;

    typedef bg::model::point<int, 3, bg::cs::cartesian> P3ic;
    typedef bg::model::point<float, 3, bg::cs::cartesian> P3fc;
    typedef bg::model::point<double, 3, bg::cs::cartesian> P3dc;
    
    test(P2ic(0, 0), true);
    test(P2fc(0, 0), true);
    test(P2dc(0, 0), true);
    test(P3ic(0, 0, 0), true);
    test(P3fc(0, 0, 0), true);
    test(P3dc(0, 0, 0), true);
    
    test_box<bg::model::box<P2ic> >("POLYGON((0 1,2 4))", true);
    test_box<bg::model::box<P2fc> >("POLYGON((0 1,2 4))", true);
    test_box<bg::model::box<P2dc> >("POLYGON((0 1,2 4))", true);
    test_box<bg::model::box<P3ic> >("POLYGON((0 1 2,2 4 6))", true);
    test_box<bg::model::box<P3fc> >("POLYGON((0 1 2,2 4 6))", true);
    test_box<bg::model::box<P3dc> >("POLYGON((0 1 2,2 4 6))", true);
    
#ifdef HAVE_TTMATH
    typedef bg::model::point<ttmath_big, 2, bg::cs::cartesian> P2ttmc;
    typedef bg::model::point<ttmath_big, 3, bg::cs::cartesian> P3ttmc;

    test_geometry<bg::model::box<P2ttmc> >("POLYGON((0 1,2 4))", true);
    test_geometry<bg::model::box<P3ttmc> >("POLYGON((0 1 2,2 4 6))", true);
#endif

    test_large_integers();

    return 0;
}