[ceph.git] / ceph / src / boost / libs / geometry / test / formulas / direct.cpp

// Boost.Geometry
// Unit Test

// Copyright (c) 2016-2018 Oracle and/or its affiliates.

// Contributed and/or modified by Vissarion Fysikopoulos, on behalf of Oracle
// Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle
// Contributed and/or modified by Adeel Ahmad, as part of Google Summer of Code 2018 program

// Use, modification and distribution is 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 "test_formula.hpp"
#include "direct_cases.hpp"
#include "direct_cases_antipodal.hpp"

#include <boost/geometry/formulas/vincenty_direct.hpp>
#include <boost/geometry/formulas/thomas_direct.hpp>
#include <boost/geometry/formulas/karney_direct.hpp>
//#include <boost/geometry/formulas/series_expansion_direct.hpp>
#include <boost/geometry/formulas/spherical.hpp>

#include <boost/geometry/srs/srs.hpp>

#ifdef BOOST_GEOEMTRY_TEST_WITH_GEOGRAPHICLIB
#include <GeographicLib/Geodesic.hpp>
#include <GeographicLib/Constants.hpp>
#endif // BOOST_GEOEMTRY_TEST_WITH_GEOGRAPHICLIB

inline void symmetrize_wrt_origin(expected_result & r)
{
    r.lon2 = -r.lon2;
    r.lat2 = -r.lat2;
    r.reduced_length = -r.reduced_length;
}

inline expected_results symmetric_wrt_origin(expected_results r)
{
    r.distance = -r.distance;
    symmetrize_wrt_origin(r.karney);
    symmetrize_wrt_origin(r.series);
    symmetrize_wrt_origin(r.spherical);
    symmetrize_wrt_origin(r.thomas);
    symmetrize_wrt_origin(r.thomas1st);
    symmetrize_wrt_origin(r.vincenty);
    return r;
}

template <typename Result>
void check_direct(Result const& result, expected_result const& expected, expected_result const& reference,
                  double reference_error, bool check_reference_only = false)
{
    check_direct_sph(result, expected, reference, reference_error, check_reference_only);
    check_one(result.reduced_length, expected.reduced_length, reference.reduced_length, reference_error);
    check_one(result.geodesic_scale, expected.geodesic_scale, reference.geodesic_scale, reference_error);
}

template <typename Result>
void check_direct_sph(Result const& result, expected_result const& expected, expected_result const& reference,
                      double reference_error, bool check_reference_only = false)
{
    check_one(result.lon2, expected.lon2, reference.lon2, reference_error, true, check_reference_only);
    check_one(result.lat2, expected.lat2, reference.lat2, reference_error, true, check_reference_only);
    check_one(result.reverse_azimuth, expected.reverse_azimuth, reference.reverse_azimuth, reference_error, true, check_reference_only);
}

void test_all(expected_results const& results)
{
    double const d2r = bg::math::d2r<double>();
    double const r2d = bg::math::r2d<double>();

    double lon1r = results.p1.lon * d2r;
    double lat1r = results.p1.lat * d2r;
    double distance = results.distance;
    double azi12r = results.azimuth12 * d2r;

    double lon1d = results.p1.lon;
    double lat1d = results.p1.lat;
    double azi12d = results.azimuth12;

    // WGS84
    bg::srs::spheroid<double> spheroid(6378137.0, 6356752.3142451793);
    bg::srs::sphere<double> const sphere;

    bg::formula::result_direct<double> result;

    typedef bg::formula::vincenty_direct<double, true, true, true, true> vi_t;
    result = vi_t::apply(lon1r, lat1r, distance, azi12r, spheroid);
    result.lon2 *= r2d;
    result.lat2 *= r2d;
    result.reverse_azimuth *= r2d;
    check_direct(result, results.vincenty, results.karney, 0.00000001);

    typedef bg::formula::thomas_direct<double, true, true, true, true, true> th_t;
    result = th_t::apply(lon1r, lat1r, distance, azi12r, spheroid);
    result.lon2 *= r2d;
    result.lat2 *= r2d;
    result.reverse_azimuth *= r2d;
    check_direct(result, results.thomas, results.karney, 0.0000001);

    typedef bg::formula::thomas_direct<double, false, true, true, true, true> th_t1st;
    result = th_t1st::apply(lon1r, lat1r, distance, azi12r, spheroid);
    result.lon2 *= r2d;
    result.lat2 *= r2d;
    result.reverse_azimuth *= r2d;
    check_direct(result, results.thomas1st, results.karney, 0.0000001);
/*
    typedef bg::formula::series_expansion_direct<double, true, true, true, true, 4> series;
    result = series::apply(lon1r, lat1r, distance, azi12r, spheroid);
    result.lon2 *= r2d;
    result.lat2 *= r2d;
    result.reverse_azimuth *= r2d;
    check_direct(result, results.series, results.karney, 0.0000001);
*/
    result = bg::formula::spherical_direct<true, true>(lon1r, lat1r, distance,
                                                       azi12r, sphere);
    result.lon2 *= r2d;
    result.lat2 *= r2d;
    result.reverse_azimuth *= r2d;
    check_direct_sph(result, results.spherical, results.karney, 0.1);

    typedef bg::formula::karney_direct<double, true, true, true, true, 2> ka_t;
    result = ka_t::apply(lon1d, lat1d, distance, azi12d, spheroid);
    check_direct(result, results.karney, results.karney, 0.0000001);

#ifdef BOOST_GEOEMTRY_TEST_WITH_GEOGRAPHICLIB
    {
        using namespace GeographicLib;
        Geodesic geod(Constants::WGS84_a(), Constants::WGS84_f());
        double foo = 0;
        geod.Direct(lat1d, lon1d, azi12d, distance,
                    result.lat2, result.lon2, result.reverse_azimuth,
                    result.reduced_length, result.geodesic_scale, foo);
        boost::ignore_unused(foo);
        check_direct(result, results.karney, results.karney, 0.0000001);
    }
#endif
}

void test_karney_antipodal(expected_results_antipodal const& results)
{
    double lon1d = results.p1.lon;
    double lat1d = results.p1.lat;
    double distance = results.distance;
    double azi12d = results.azimuth12;

    // WGS84
    bg::srs::spheroid<double> spheroid(6378137.0, 6356752.3142451793);

    bg::formula::result_direct<double> result;

    typedef bg::formula::karney_direct<double, true, true, true, true, 8> ka_t;
    result = ka_t::apply(lon1d, lat1d, distance, azi12d, spheroid);
    check_direct(result, results.karney, results.karney, 0.0000001, true);
}

int test_main(int, char*[])
{
    for (size_t i = 0; i < expected_size; ++i)
    {
        test_all(expected[i]);

        if (expected[i].p1.lon == 0 && expected[i].p1.lat == 0)
        {
            test_all(symmetric_wrt_origin(expected[i]));
        }
    }

    for (size_t i = 0; i < expected_size_antipodal; ++i)
    {
        test_karney_antipodal(expected_antipodal[i]);
    }

    return 0;
}
Commit	Line	Data
b32b8144 FG	1	// Boost.Geometry
	2	// Unit Test
	3
92f5a8d4	4	// Copyright (c) 2016-2018 Oracle and/or its affiliates.
b32b8144	5
92f5a8d4	6	// Contributed and/or modified by Vissarion Fysikopoulos, on behalf of Oracle
b32b8144	7	// Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle
92f5a8d4	8	// Contributed and/or modified by Adeel Ahmad, as part of Google Summer of Code 2018 program
b32b8144 FG	9
	10	// Use, modification and distribution is subject to the Boost Software License,
	11	// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
	12	// http://www.boost.org/LICENSE_1_0.txt)
	13
	14	#include "test_formula.hpp"
	15	#include "direct_cases.hpp"
92f5a8d4	16	#include "direct_cases_antipodal.hpp"
b32b8144 FG	17
	18	#include <boost/geometry/formulas/vincenty_direct.hpp>
	19	#include <boost/geometry/formulas/thomas_direct.hpp>
92f5a8d4 TL	20	#include <boost/geometry/formulas/karney_direct.hpp>
	21	//#include <boost/geometry/formulas/series_expansion_direct.hpp>
	22	#include <boost/geometry/formulas/spherical.hpp>
b32b8144	23
92f5a8d4 TL	24	#include <boost/geometry/srs/srs.hpp>
	25
	26	#ifdef BOOST_GEOEMTRY_TEST_WITH_GEOGRAPHICLIB
	27	#include <GeographicLib/Geodesic.hpp>
	28	#include <GeographicLib/Constants.hpp>
	29	#endif // BOOST_GEOEMTRY_TEST_WITH_GEOGRAPHICLIB
	30
	31	inline void symmetrize_wrt_origin(expected_result & r)
	32	{
	33	r.lon2 = -r.lon2;
	34	r.lat2 = -r.lat2;
	35	r.reduced_length = -r.reduced_length;
	36	}
	37
	38	inline expected_results symmetric_wrt_origin(expected_results r)
	39	{
	40	r.distance = -r.distance;
	41	symmetrize_wrt_origin(r.karney);
	42	symmetrize_wrt_origin(r.series);
	43	symmetrize_wrt_origin(r.spherical);
	44	symmetrize_wrt_origin(r.thomas);
	45	symmetrize_wrt_origin(r.thomas1st);
	46	symmetrize_wrt_origin(r.vincenty);
	47	return r;
	48	}
11fdf7f2	49
b32b8144	50	template <typename Result>
92f5a8d4 TL	51	void check_direct(Result const& result, expected_result const& expected, expected_result const& reference,
92f5a8d4 TL	52	double reference_error, bool check_reference_only = false)
b32b8144	53	{
92f5a8d4	54	check_direct_sph(result, expected, reference, reference_error, check_reference_only);
b32b8144 FG	55	check_one(result.reduced_length, expected.reduced_length, reference.reduced_length, reference_error);
	56	check_one(result.geodesic_scale, expected.geodesic_scale, reference.geodesic_scale, reference_error);
	57	}
	58
92f5a8d4 TL	59	template <typename Result>
	60	void check_direct_sph(Result const& result, expected_result const& expected, expected_result const& reference,
	61	double reference_error, bool check_reference_only = false)
	62	{
	63	check_one(result.lon2, expected.lon2, reference.lon2, reference_error, true, check_reference_only);
	64	check_one(result.lat2, expected.lat2, reference.lat2, reference_error, true, check_reference_only);
	65	check_one(result.reverse_azimuth, expected.reverse_azimuth, reference.reverse_azimuth, reference_error, true, check_reference_only);
	66	}
	67
b32b8144 FG	68	void test_all(expected_results const& results)
	69	{
	70	double const d2r = bg::math::d2r<double>();
	71	double const r2d = bg::math::r2d<double>();
	72
	73	double lon1r = results.p1.lon * d2r;
	74	double lat1r = results.p1.lat * d2r;
	75	double distance = results.distance;
	76	double azi12r = results.azimuth12 * d2r;
	77
92f5a8d4 TL	78	double lon1d = results.p1.lon;
	79	double lat1d = results.p1.lat;
	80	double azi12d = results.azimuth12;
	81
b32b8144 FG	82	// WGS84
b32b8144 FG	83	bg::srs::spheroid<double> spheroid(6378137.0, 6356752.3142451793);
92f5a8d4	84	bg::srs::sphere<double> const sphere;
b32b8144 FG	85
	86	bg::formula::result_direct<double> result;
	87
	88	typedef bg::formula::vincenty_direct<double, true, true, true, true> vi_t;
	89	result = vi_t::apply(lon1r, lat1r, distance, azi12r, spheroid);
	90	result.lon2 *= r2d;
	91	result.lat2 *= r2d;
	92	result.reverse_azimuth *= r2d;
	93	check_direct(result, results.vincenty, results.karney, 0.00000001);
	94
92f5a8d4	95	typedef bg::formula::thomas_direct<double, true, true, true, true, true> th_t;
b32b8144 FG	96	result = th_t::apply(lon1r, lat1r, distance, azi12r, spheroid);
	97	result.lon2 *= r2d;
	98	result.lat2 *= r2d;
	99	result.reverse_azimuth *= r2d;
	100	check_direct(result, results.thomas, results.karney, 0.0000001);
92f5a8d4 TL	101
	102	typedef bg::formula::thomas_direct<double, false, true, true, true, true> th_t1st;
	103	result = th_t1st::apply(lon1r, lat1r, distance, azi12r, spheroid);
	104	result.lon2 *= r2d;
	105	result.lat2 *= r2d;
	106	result.reverse_azimuth *= r2d;
	107	check_direct(result, results.thomas1st, results.karney, 0.0000001);
	108	/*
	109	typedef bg::formula::series_expansion_direct<double, true, true, true, true, 4> series;
	110	result = series::apply(lon1r, lat1r, distance, azi12r, spheroid);
	111	result.lon2 *= r2d;
	112	result.lat2 *= r2d;
	113	result.reverse_azimuth *= r2d;
	114	check_direct(result, results.series, results.karney, 0.0000001);
	115	*/
	116	result = bg::formula::spherical_direct<true, true>(lon1r, lat1r, distance,
	117	azi12r, sphere);
	118	result.lon2 *= r2d;
	119	result.lat2 *= r2d;
	120	result.reverse_azimuth *= r2d;
	121	check_direct_sph(result, results.spherical, results.karney, 0.1);
	122
	123	typedef bg::formula::karney_direct<double, true, true, true, true, 2> ka_t;
	124	result = ka_t::apply(lon1d, lat1d, distance, azi12d, spheroid);
	125	check_direct(result, results.karney, results.karney, 0.0000001);
	126
	127	#ifdef BOOST_GEOEMTRY_TEST_WITH_GEOGRAPHICLIB
	128	{
	129	using namespace GeographicLib;
	130	Geodesic geod(Constants::WGS84_a(), Constants::WGS84_f());
	131	double foo = 0;
	132	geod.Direct(lat1d, lon1d, azi12d, distance,
	133	result.lat2, result.lon2, result.reverse_azimuth,
	134	result.reduced_length, result.geodesic_scale, foo);
	135	boost::ignore_unused(foo);
	136	check_direct(result, results.karney, results.karney, 0.0000001);
	137	}
	138	#endif
	139	}
	140
	141	void test_karney_antipodal(expected_results_antipodal const& results)
	142	{
	143	double lon1d = results.p1.lon;
	144	double lat1d = results.p1.lat;
	145	double distance = results.distance;
	146	double azi12d = results.azimuth12;
	147
	148	// WGS84
	149	bg::srs::spheroid<double> spheroid(6378137.0, 6356752.3142451793);
	150
	151	bg::formula::result_direct<double> result;
	152
	153	typedef bg::formula::karney_direct<double, true, true, true, true, 8> ka_t;
	154	result = ka_t::apply(lon1d, lat1d, distance, azi12d, spheroid);
	155	check_direct(result, results.karney, results.karney, 0.0000001, true);
b32b8144 FG	156	}
	157
	158	int test_main(int, char*[])
	159	{
	160	for (size_t i = 0; i < expected_size; ++i)
	161	{
	162	test_all(expected[i]);
92f5a8d4 TL	163
	164	if (expected[i].p1.lon == 0 && expected[i].p1.lat == 0)
	165	{
	166	test_all(symmetric_wrt_origin(expected[i]));
	167	}
	168	}
	169
	170	for (size_t i = 0; i < expected_size_antipodal; ++i)
	171	{
	172	test_karney_antipodal(expected_antipodal[i]);
b32b8144 FG	173	}
	174
	175	return 0;
	176	}