#include "catch.hpp" #include #include "area_helper.hpp" #include "wnl_helper.hpp" TEST_CASE("GeoJSON_Geometry") { SECTION("point") { osmium::geom::GeoJSONFactory<> factory; std::string json {factory.create_point(osmium::Location(3.2, 4.2))}; REQUIRE(std::string{"{\"type\":\"Point\",\"coordinates\":[3.2,4.2]}"} == json); } SECTION("empty_point") { osmium::geom::GeoJSONFactory<> factory; REQUIRE_THROWS_AS(factory.create_point(osmium::Location()), osmium::invalid_location); } SECTION("linestring") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); auto &wnl = create_test_wnl_okay(buffer); { std::string json {factory.create_linestring(wnl)}; REQUIRE(std::string{"{\"type\":\"LineString\",\"coordinates\":[[3.2,4.2],[3.5,4.7],[3.6,4.9]]}"} == json); } { std::string json {factory.create_linestring(wnl, osmium::geom::use_nodes::unique, osmium::geom::direction::backward)}; REQUIRE(std::string{"{\"type\":\"LineString\",\"coordinates\":[[3.6,4.9],[3.5,4.7],[3.2,4.2]]}"} == json); } { std::string json {factory.create_linestring(wnl, osmium::geom::use_nodes::all)}; REQUIRE(std::string{"{\"type\":\"LineString\",\"coordinates\":[[3.2,4.2],[3.5,4.7],[3.5,4.7],[3.6,4.9]]}"} == json); } { std::string json {factory.create_linestring(wnl, osmium::geom::use_nodes::all, osmium::geom::direction::backward)}; REQUIRE(std::string{"{\"type\":\"LineString\",\"coordinates\":[[3.6,4.9],[3.5,4.7],[3.5,4.7],[3.2,4.2]]}"} == json); } } SECTION("empty_linestring") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); auto& wnl = create_test_wnl_empty(buffer); REQUIRE_THROWS_AS(factory.create_linestring(wnl), osmium::geometry_error); REQUIRE_THROWS_AS(factory.create_linestring(wnl, osmium::geom::use_nodes::unique, osmium::geom::direction::backward), osmium::geometry_error); REQUIRE_THROWS_AS(factory.create_linestring(wnl, osmium::geom::use_nodes::all), osmium::geometry_error); REQUIRE_THROWS_AS(factory.create_linestring(wnl, osmium::geom::use_nodes::all, osmium::geom::direction::backward), osmium::geometry_error); } SECTION("linestring_with_two_same_locations") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); auto& wnl = create_test_wnl_same_location(buffer); REQUIRE_THROWS_AS(factory.create_linestring(wnl), osmium::geometry_error); REQUIRE_THROWS_AS(factory.create_linestring(wnl, osmium::geom::use_nodes::unique, osmium::geom::direction::backward), osmium::geometry_error); { std::string json {factory.create_linestring(wnl, osmium::geom::use_nodes::all)}; REQUIRE(std::string{"{\"type\":\"LineString\",\"coordinates\":[[3.5,4.7],[3.5,4.7]]}"} == json); } { std::string json {factory.create_linestring(wnl, osmium::geom::use_nodes::all, osmium::geom::direction::backward)}; REQUIRE(std::string{"{\"type\":\"LineString\",\"coordinates\":[[3.5,4.7],[3.5,4.7]]}"} == json); } } SECTION("linestring_with_undefined_location") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); auto& wnl = create_test_wnl_undefined_location(buffer); REQUIRE_THROWS_AS(factory.create_linestring(wnl), osmium::invalid_location); } SECTION("area_1outer_0inner") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); const osmium::Area& area = create_test_area_1outer_0inner(buffer); REQUIRE(!area.is_multipolygon()); REQUIRE(std::distance(area.cbegin(), area.cend()) == 2); REQUIRE(std::distance(area.cbegin(), area.cend()) == area.num_rings().first); { std::string json {factory.create_multipolygon(area)}; REQUIRE(std::string{"{\"type\":\"MultiPolygon\",\"coordinates\":[[[[3.2,4.2],[3.5,4.7],[3.6,4.9],[3.2,4.2]]]]}"} == json); } } SECTION("area_1outer_1inner") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); const osmium::Area& area = create_test_area_1outer_1inner(buffer); REQUIRE(!area.is_multipolygon()); REQUIRE(std::distance(area.cbegin(), area.cend()) == 3); REQUIRE(std::distance(area.cbegin(), area.cend()) == area.num_rings().first); REQUIRE(std::distance(area.cbegin(), area.cend()) == area.num_rings().second); { std::string json {factory.create_multipolygon(area)}; REQUIRE(std::string{"{\"type\":\"MultiPolygon\",\"coordinates\":[[[[0.1,0.1],[9.1,0.1],[9.1,9.1],[0.1,9.1],[0.1,0.1]],[[1,1],[8,1],[8,8],[1,8],[1,1]]]]}"} == json); } } SECTION("area_2outer_2inner") { osmium::geom::GeoJSONFactory<> factory; osmium::memory::Buffer buffer(1000); const osmium::Area& area = create_test_area_2outer_2inner(buffer); REQUIRE(area.is_multipolygon()); REQUIRE(std::distance(area.cbegin(), area.cend()) == 5); REQUIRE(std::distance(area.cbegin(), area.cend()) == area.num_rings().first); REQUIRE(std::distance(area.cbegin(), area.cend()) == area.num_rings().second); int outer_ring=0; int inner_ring=0; for (auto it_outer = area.cbegin(); it_outer != area.cend(); ++it_outer) { if (outer_ring == 0) { REQUIRE(it_outer->front().ref() == 1); } else if (outer_ring == 1) { REQUIRE(it_outer->front().ref() == 100); } else { REQUIRE(false); } for (auto it_inner = area.inner_ring_cbegin(it_outer); it_inner != area.inner_ring_cend(it_outer); ++it_inner) { if (outer_ring == 0 && inner_ring == 0) { REQUIRE(it_inner->front().ref() == 5); } else if (outer_ring == 0 && inner_ring == 1) { REQUIRE(it_inner->front().ref() == 10); } else { REQUIRE(false); } ++inner_ring; } inner_ring = 0; ++outer_ring; } { std::string json {factory.create_multipolygon(area)}; REQUIRE(std::string{"{\"type\":\"MultiPolygon\",\"coordinates\":[[[[0.1,0.1],[9.1,0.1],[9.1,9.1],[0.1,9.1],[0.1,0.1]],[[1,1],[4,1],[4,4],[1,4],[1,1]],[[5,5],[5,7],[7,7],[5,5]]],[[[10,10],[11,10],[11,11],[10,11],[10,10]]]]}"} == json); } } }