// Boost.Geometry // Unit Test // Copyright (c) 2018 Oracle and/or its affiliates. // Contributed and/or modified by Vissarion Fysikopoulos, on behalf of Oracle // 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) #define BOOST_GEOMETRY_NORMALIZE_LATITUDE #include #include "test_formula.hpp" #include "direct_meridian_cases.hpp" #include #include #include template void check_meridian_direct(Result& result, Expected const& expected, Reference& reference, double reference_error) { boost::geometry::math::normalize_spheroidal_coordinates < boost::geometry::radian, double >(result.lon2, result.lat2); boost::geometry::math::normalize_spheroidal_coordinates < boost::geometry::radian, double >(reference.lon2, reference.lat2); std::stringstream ss; ss << "(" << result.lon2 * bg::math::r2d() << " " << result.lat2 * bg::math::r2d() << ")"; check_one("lon:" + ss.str(), result.lon2, expected.lon, reference.lon2, reference_error); check_one("lat:" + ss.str(), result.lat2, expected.lat, reference.lat2, reference_error); check_one("rev_az:" + ss.str(), result.reverse_azimuth, result.reverse_azimuth, reference.reverse_azimuth, reference_error); check_one("red len:" + ss.str(), result.reduced_length, result.reduced_length, reference.reduced_length, 0.01); check_one("geo scale:" + ss.str(), result.geodesic_scale, result.geodesic_scale, reference.geodesic_scale, 0.01); } void test_all(expected_results const& results) { double const d2r = bg::math::d2r(); double lon1_rad = results.p1.lon * d2r; double lat1_rad = results.p1.lat * d2r; coordinates expected_point; expected_point.lon = results.p2.lon * d2r; expected_point.lat = results.p2.lat * d2r; double distance = results.distance; bool direction = results.direction; // WGS84 bg::srs::spheroid spheroid(6378137.0, 6356752.3142451793); bg::formula::result_direct vincenty_result; bg::formula::result_direct meridian_result; typedef bg::formula::vincenty_direct vi_t; double vincenty_azimuth = direction ? 0.0 : bg::math::pi(); vincenty_result = vi_t::apply(lon1_rad, lat1_rad, distance, vincenty_azimuth, spheroid); { typedef bg::formula::meridian_direct eli; meridian_result = eli::apply(lon1_rad, lat1_rad, distance, direction, spheroid); check_meridian_direct(meridian_result, expected_point, vincenty_result, 0.001); } { typedef bg::formula::meridian_direct eli; meridian_result = eli::apply(lon1_rad, lat1_rad, distance, direction, spheroid); check_meridian_direct(meridian_result, expected_point, vincenty_result, 0.00001); } { typedef bg::formula::meridian_direct eli; meridian_result = eli::apply(lon1_rad, lat1_rad, distance, direction, spheroid); check_meridian_direct(meridian_result, expected_point, vincenty_result, 0.00000001); } { typedef bg::formula::meridian_direct eli; meridian_result = eli::apply(lon1_rad, lat1_rad, distance, direction, spheroid); check_meridian_direct(meridian_result, expected_point, vincenty_result, 0.00000001); } { typedef bg::formula::meridian_direct eli; meridian_result = eli::apply(lon1_rad, lat1_rad, distance, direction, spheroid); check_meridian_direct(meridian_result, expected_point, vincenty_result, 0.00000000001); } } int test_main(int, char*[]) { for (size_t i = 0; i < expected_size; ++i) { test_all(expected[i]); } return 0; }