/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2017 Artem Pavlenko * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * *****************************************************************************/ #include "catch.hpp" #include #include #include #include #include #include "util.hpp" namespace { template void test_path_parser(std::string const& str, Expected const& expected) { using namespace mapnik::svg; mapnik::svg_path_ptr marker_path(std::make_shared()); vertex_stl_adapter stl_storage(marker_path->source()); svg_path_adapter svg_path(stl_storage); svg_converter_type svg(svg_path, marker_path->attributes()); CHECK(mapnik::svg::parse_path(str.c_str(), svg)); double x,y; unsigned cmd; auto & p = svg.storage(); std::vector> vec; while ((cmd = p.vertex(&x,&y)) != mapnik::SEG_END) { vec.emplace_back(x, y, cmd); //std::cerr << "std::make_tuple(" << x << ", " << y << ", " << cmd << ")," << std::endl; } REQUIRE(std::equal(expected.begin(),expected.end(), vec.begin(), vertex_equal<3>())); } } // anonymous ns TEST_CASE("SVG path parser") { SECTION("MoveTo/LineTo") { std::string str = "M 100 100 L 300 100 L 200 300 z"; std::string str2 = "M100,100L300,100L200,300z"; std::string str3 = "M100,100l200 0L200,300z"; std::vector> expected = { std::make_tuple(100, 100, 1), std::make_tuple(300, 100, 2), std::make_tuple(200, 300, 2), std::make_tuple(100, 100, 79) }; test_path_parser(str, expected); test_path_parser(str2, expected); test_path_parser(str3, expected); } SECTION("MoveTo/HLine/VLine") { std::string str = "M100 100H300V200z"; std::string str2 = "M100,100h200v100z"; std::vector> expected = { std::make_tuple(100, 100, 1), std::make_tuple(300, 100, 2), std::make_tuple(300, 200, 2), std::make_tuple(100, 100, 79) }; test_path_parser(str, expected); test_path_parser(str2, expected); } SECTION("Arcs") { std::string str = "M300,200 h-150 a150,150 0 1,0 150,-150 z"; std::vector> expected = { std::make_tuple(300, 200, 1), std::make_tuple(150, 200, 2), std::make_tuple(150, 282.843, 4), std::make_tuple(217.157, 350, 4), std::make_tuple(300, 350, 4), std::make_tuple(382.843, 350, 4), std::make_tuple(450, 282.843, 4), std::make_tuple(450, 200, 4), std::make_tuple(450, 117.157, 4), std::make_tuple(382.843, 50, 4), std::make_tuple(300, 50, 4), std::make_tuple(300, 200, 79)}; test_path_parser(str, expected); } SECTION("Arcs 2") { std::string str = "M275,175 v-150 a150,150 0 0,0 -150,150 z"; std::vector> expected = { std::make_tuple(275, 175, 1), std::make_tuple(275, 25, 2), std::make_tuple(192.157, 25, 4), std::make_tuple(125, 92.1573, 4), std::make_tuple(125, 175, 4), std::make_tuple(275, 175, 79)}; test_path_parser(str, expected); } SECTION("Arcs 3") { std::string str = "M600,350 l 50,-25" "a25,25 -30 0,1 50,-25 l 50,-25" "a25,50 -30 01 50,-25 l 50,-25" "a25,75 -30 0150,-25 l 50,-25" "a25,100-30 0150-25l50-25"; std::vector> expected = { std::make_tuple(600, 350, 1), std::make_tuple(650, 325, 2), std::make_tuple(643.096, 311.193, 4), std::make_tuple(648.693, 294.404, 4), std::make_tuple(662.5, 287.5, 4), std::make_tuple(676.307, 280.596, 4), std::make_tuple(693.096, 286.193, 4), std::make_tuple(700, 300, 4), std::make_tuple(750, 275, 2), std::make_tuple(734.991, 248.079, 4), std::make_tuple(734.017, 220.66, 4), std::make_tuple(747.825, 213.756, 4), std::make_tuple(761.632, 206.852, 4), std::make_tuple(784.991, 223.079, 4), std::make_tuple(800, 250, 4), std::make_tuple(850, 225, 2), std::make_tuple(827.153, 184.812, 4), std::make_tuple(819.825, 146.636, 4), std::make_tuple(833.632, 139.733, 4), std::make_tuple(847.44, 132.829, 4), std::make_tuple(877.153, 159.812, 4), std::make_tuple(900, 200, 4), std::make_tuple(950, 175, 2), std::make_tuple(919.382, 121.506, 4), std::make_tuple(905.754, 72.5436, 4), std::make_tuple(919.561, 65.64, 4), std::make_tuple(933.368, 58.7365, 4), std::make_tuple(969.382, 96.5057, 4), std::make_tuple(1000, 150, 4), std::make_tuple(1050, 125, 2)}; test_path_parser(str, expected); } SECTION("Quadratic Bézier") { std::string str = "M200,300 Q400,50 600,300 T1000,300"; std::vector> expected = { std::make_tuple(200, 300, 1), std::make_tuple(400, 50, 3), std::make_tuple(600, 300, 3), std::make_tuple(800, 550, 3), std::make_tuple(1000, 300, 3)}; test_path_parser(str, expected); } SECTION("Cubic Bézier") { std::string str = "M100,200 C100,100 250,100 250,200S400,300 400,200"; std::vector> expected = { std::make_tuple(100, 200, 1), std::make_tuple(100, 100, 4), std::make_tuple(250, 100, 4), std::make_tuple(250, 200, 4), std::make_tuple(250, 300, 4), std::make_tuple(400, 300, 4), std::make_tuple(400, 200, 4)}; test_path_parser(str, expected); } }