// Boost.Geometry // Unit Test // Copyright (c) 2019 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 // 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 #include "../formulas/test_formula.hpp" #include "distance_cross_track_cases.hpp" #include #include struct error{ double long_distance; double short_distance; double very_short_distance; double very_very_short_distance; }; void check_result(double const& result, double const& expected, double const& reference, error const& reference_error) { BOOST_GEOMETRY_CHECK_CLOSE(result, expected, 0.1, std::setprecision(20) << "result {" << result << "} different than expected {" << expected << "}."); double reference_error_value = result > 2000 ? reference_error.long_distance : result > 100 ? reference_error.short_distance : result > 20 ? reference_error.very_short_distance : reference_error.very_very_short_distance; BOOST_GEOMETRY_CHECK_CLOSE(result, reference, reference_error_value, std::setprecision(20) << "result {" << result << "} different than reference {" << reference << "}."); } template void test_all(expected_results const& results) { double const d2r = bg::math::d2r(); double lon1r = results.p1.lon * d2r; double lat1r = results.p1.lat * d2r; double lon2r = results.p2.lon * d2r; double lat2r = results.p2.lat * d2r; double lon3r = results.p3.lon * d2r; double lat3r = results.p3.lat * d2r; typedef bg::srs::spheroid Spheroid; // WGS84 Spheroid spheroid(6378137.0, 6356752.3142451793); error errors [] = { {0.00000001, 0.00000001, 0.00000001, 0.000001}, //vincenty {0.0002, 0.002, 0.01, 0.2}, //thomas {0.002, 0.4, 15, 25}, //andoyer {1, 6, 15, 200} //spherical }; //vincenty double distance = bg::strategy::distance::detail::geographic_cross_track(spheroid) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.vincenty_bisection, results.reference, errors[0]); distance = bg::strategy::distance::geographic_cross_track(spheroid) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.vincenty, results.reference, errors[0]); //thomas distance = bg::strategy::distance::detail::geographic_cross_track(spheroid) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.thomas_bisection, results.reference, errors[1]); distance = bg::strategy::distance::geographic_cross_track(spheroid) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.thomas, results.reference, errors[1]); //andoyer distance = bg::strategy::distance::detail::geographic_cross_track(spheroid) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.andoyer_bisection, results.reference, errors[2]); distance = bg::strategy::distance::geographic_cross_track(spheroid) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.andoyer, results.reference, errors[2]); //spherical distance = bg::strategy::distance::cross_track<>(bg::formula::mean_radius(spheroid)) .apply(Point(lon3r, lat3r), Point(lon1r, lat1r), Point(lon2r, lat2r)); check_result(distance, results.spherical, results.reference, errors[3]); } int test_main(int, char*[]) { typedef bg::model::point > point; for (size_t i = 0; i < expected_size; ++i) { test_all(expected[i]); } return 0; }