#include "catch.hpp" #include #include #include #ifdef MAPNIK_USE_PROJ4 // proj4 #include #endif TEST_CASE("projection transform") { SECTION("Test bounding box transforms - 4326 to 3857") { mapnik::projection proj_4326("epsg:4326"); mapnik::projection proj_3857("epsg:3857"); mapnik::proj_transform prj_trans(proj_4326, proj_3857); double minx = -45.0; double miny = 55.0; double maxx = -40.0; double maxy = 75.0; mapnik::box2d bbox(minx, miny, maxx, maxy); INFO(bbox.to_string()); CHECKED_IF(prj_trans.forward(bbox)) { CHECK(bbox.minx() == Approx(-5009377.085697311)); CHECK(bbox.miny() == Approx(7361866.1130511891)); CHECK(bbox.maxx() == Approx(-4452779.631730943)); CHECK(bbox.maxy() == Approx(12932243.1119920239)); } CHECKED_IF(prj_trans.backward(bbox)) { CHECK(bbox.minx() == Approx(minx)); CHECK(bbox.miny() == Approx(miny)); CHECK(bbox.maxx() == Approx(maxx)); CHECK(bbox.maxy() == Approx(maxy)); } } #if defined(MAPNIK_USE_PROJ4) && PJ_VERSION >= 480 SECTION("test pj_transform failure behavior") { mapnik::projection proj_4269("epsg:4269"); mapnik::projection proj_3857("epsg:3857"); mapnik::proj_transform prj_trans(proj_4269, proj_3857); mapnik::proj_transform prj_trans2(proj_3857, proj_4269); auto proj_ctx0 = pj_ctx_alloc(); REQUIRE( proj_ctx0 != nullptr ); auto proj0 = pj_init_plus_ctx(proj_ctx0, proj_4269.params().c_str()); REQUIRE( proj0 != nullptr ); auto proj_ctx1 = pj_ctx_alloc(); REQUIRE( proj_ctx1 != nullptr ); auto proj1 = pj_init_plus_ctx(proj_ctx1, proj_3857.params().c_str()); REQUIRE( proj1 != nullptr ); // first test valid values directly against proj double x = -180.0; double y = -60.0; x *= DEG_TO_RAD; y *= DEG_TO_RAD; CHECK( x == Approx(-3.1415926536) ); CHECK( y == Approx(-1.0471975512) ); CHECK( 0 == pj_transform(proj0, proj1, 1, 0, &x, &y, nullptr) ); CHECK( x == Approx(-20037508.3427892439) ); CHECK( y == Approx(-8399737.8896366451) ); // now test mapnik class double x0 = -180.0; double y0 = -60.0; CHECK( prj_trans.forward(&x0,&y0,nullptr,1,1) ); CHECK( x0 == Approx(-20037508.3427892439) ); CHECK( y0 == Approx(-8399737.8896366451) ); double x1 = -180.0; double y1 = -60.0; CHECK( prj_trans2.backward(&x1,&y1,nullptr,1,1) ); CHECK( x1 == Approx(-20037508.3427892439) ); CHECK( y1 == Approx(-8399737.8896366451) ); // longitude value outside the value range for mercator x = -181.0; y = -91.0; x *= DEG_TO_RAD; y *= DEG_TO_RAD; CHECK( x == Approx(-3.1590459461) ); CHECK( y == Approx(-1.5882496193) ); CHECK( 0 == pj_transform(proj0, proj1, 1, 0, &x, &y, nullptr) ); CHECK( std::isinf(x) ); CHECK( std::isinf(y) ); // now test mapnik class double x2 = -181.0; double y2 = -91.0; CHECK( false == prj_trans.forward(&x2,&y2,nullptr,1,1) ); CHECK( std::isinf(x2) ); CHECK( std::isinf(y2) ); double x3 = -181.0; double y3 = -91.0; CHECK( false == prj_trans2.backward(&x3,&y3,nullptr,1,1) ); CHECK( std::isinf(x3) ); CHECK( std::isinf(y3) ); // cleanup pj_ctx_free(proj_ctx0); proj_ctx0 = nullptr; pj_free(proj0); proj0 = nullptr; pj_ctx_free(proj_ctx1); proj_ctx1 = nullptr; pj_free(proj1); proj1 = nullptr; } // Github Issue https://github.com/mapnik/mapnik/issues/2648 SECTION("Test proj antimeridian bbox") { mapnik::projection prj_geog("epsg:4326"); mapnik::projection prj_proj("epsg:2193"); mapnik::proj_transform prj_trans_fwd(prj_proj, prj_geog); mapnik::proj_transform prj_trans_rev(prj_geog, prj_proj); // reference values taken from proj4 command line tool: // (non-corner points assume PROJ_ENVELOPE_POINTS == 20) // // cs2cs -Ef %.10f epsg:2193 +to epsg:4326 < better(-180.0, -62.3337481525, 180.0, -24.5845974912); { mapnik::box2d ext(274000, 3087000, 3327000, 7173000); CHECKED_IF(prj_trans_fwd.forward(ext, PROJ_ENVELOPE_POINTS)) { CHECK(ext.minx() == Approx(better.minx())); CHECK(ext.miny() == Approx(better.miny())); CHECK(ext.maxx() == Approx(better.maxx())); CHECK(ext.maxy() == Approx(better.maxy())); } } { // check the same logic works for .backward() mapnik::box2d ext(274000, 3087000, 3327000, 7173000); CHECKED_IF(prj_trans_rev.backward(ext, PROJ_ENVELOPE_POINTS)) { CHECK(ext.minx() == Approx(better.minx())); CHECK(ext.miny() == Approx(better.miny())); CHECK(ext.maxx() == Approx(better.maxx())); CHECK(ext.maxy() == Approx(better.maxy())); } } // reference values taken from proj4 command line tool: // // cs2cs -Ef %.10f epsg:2193 +to epsg:4326 < normal(148.7639922894, -60.1222810241, 159.9548489296, -24.9771195155); { // checks for not being snapped (ie. not antimeridian) mapnik::box2d ext(274000, 3087000, 276000, 7173000); CHECKED_IF(prj_trans_fwd.forward(ext, PROJ_ENVELOPE_POINTS)) { CHECK(ext.minx() == Approx(normal.minx())); CHECK(ext.miny() == Approx(normal.miny())); CHECK(ext.maxx() == Approx(normal.maxx())); CHECK(ext.maxy() == Approx(normal.maxy())); } } { // check the same logic works for .backward() mapnik::box2d ext(274000, 3087000, 276000, 7173000); CHECKED_IF(prj_trans_rev.backward(ext, PROJ_ENVELOPE_POINTS)) { CHECK(ext.minx() == Approx(normal.minx())); CHECK(ext.miny() == Approx(normal.miny())); CHECK(ext.maxx() == Approx(normal.maxx())); CHECK(ext.maxy() == Approx(normal.maxy())); } } } #endif SECTION("proj_transform of coordinate arrays with stride > 1") { mapnik::projection const proj_4326("epsg:4326"); mapnik::projection const proj_3857("epsg:3857"); mapnik::projection const proj_2193("epsg:2193"); SECTION("lonlat <-> Web Mercator") { // cs2cs -Ef %.10f epsg:4326 +to epsg:3857 < points[] = {{ 170.142139, -43.595056 }, { 175.566667, -39.283333 }}; // this transform is calculated by Mapnik (well_known_srs.cpp) mapnik::proj_transform lonlat_to_webmerc(proj_4326, proj_3857); CHECKED_IF(lonlat_to_webmerc.forward(&points[0].x, &points[0].y, nullptr, 2, 2)) { CHECK(points[0].x == Approx(18940136.2759583741)); CHECK(points[0].y == Approx(-5402988.5324898539)); CHECK(points[1].x == Approx(19543991.9707122259)); CHECK(points[1].y == Approx(-4762338.2380718365)); } CHECKED_IF(lonlat_to_webmerc.backward(&points[0].x, &points[0].y, nullptr, 2, 2)) { CHECK(points[0].x == Approx(170.142139)); CHECK(points[0].y == Approx(-43.595056)); CHECK(points[1].x == Approx(175.566667)); CHECK(points[1].y == Approx(-39.283333)); } } #ifdef MAPNIK_USE_PROJ4 SECTION("lonlat <-> New Zealand Transverse Mercator 2000") { mapnik::projection const proj_2193("+init=epsg:2193"); // cs2cs -Ef %.10f epsg:4326 +to epsg:2193 < points[] = {{ 170.142139, -43.595056 }, { 175.566667, -39.283333 }}; // this transform is not calculated by Mapnik (needs Proj4) mapnik::proj_transform lonlat_to_nztm(proj_4326, proj_2193); CHECKED_IF(lonlat_to_nztm.forward(&points[0].x, &points[0].y, nullptr, 2, 2)) { CHECK(points[0].x == Approx(1369316.0970041484)); CHECK(points[0].y == Approx(5169132.9750701785)); CHECK(points[1].x == Approx(1821377.9170061364)); CHECK(points[1].y == Approx(5648640.2106032455)); } CHECKED_IF(lonlat_to_nztm.backward(&points[0].x, &points[0].y, nullptr, 2, 2)) { CHECK(points[0].x == Approx(170.142139)); CHECK(points[0].y == Approx(-43.595056)); CHECK(points[1].x == Approx(175.566667)); CHECK(points[1].y == Approx(-39.283333)); } } #endif // MAPNIK_USE_PROJ4 } }