/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2011 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(HAVE_CAIRO) #include #include #endif #include int main ( int argc , char** argv) { if (argc != 2) { std::cout << "usage: ./rundemo \nUsually /usr/local/lib/mapnik\n"; std::cout << "Warning: ./rundemo looks for data in ../data/,\nTherefore must be run from within the demo/c++ folder.\n"; return EXIT_SUCCESS; } using namespace mapnik; try { std::cout << " running demo ... \n"; std::string mapnik_dir(argv[1]); std::cout << " looking for 'shape.input' plugin in... " << mapnik_dir << "/input/" << "\n"; datasource_cache::instance().register_datasources(mapnik_dir + "/input/"); std::cout << " looking for DejaVuSans font in... " << mapnik_dir << "/fonts/DejaVuSans.ttf" << "\n"; freetype_engine::register_font(mapnik_dir + "/fonts/DejaVuSans.ttf"); Map m(800,600); m.set_background(parse_color("white")); // create styles // Provinces (polygon) feature_type_style provpoly_style; rule provpoly_rule_on; provpoly_rule_on.set_filter(parse_expression("[NAME_EN] = 'Ontario'")); provpoly_rule_on.append(polygon_symbolizer(color(250, 190, 183))); provpoly_style.add_rule(provpoly_rule_on); rule provpoly_rule_qc; provpoly_rule_qc.set_filter(parse_expression("[NOM_FR] = 'Québec'")); provpoly_rule_qc.append(polygon_symbolizer(color(217, 235, 203))); provpoly_style.add_rule(provpoly_rule_qc); m.insert_style("provinces",provpoly_style); // Provinces (polyline) feature_type_style provlines_style; stroke provlines_stk (color(0,0,0),1.0); provlines_stk.add_dash(8, 4); provlines_stk.add_dash(2, 2); provlines_stk.add_dash(2, 2); rule provlines_rule; provlines_rule.append(line_symbolizer(provlines_stk)); provlines_style.add_rule(provlines_rule); m.insert_style("provlines",provlines_style); // Drainage feature_type_style qcdrain_style; rule qcdrain_rule; qcdrain_rule.set_filter(parse_expression("[HYC] = 8")); qcdrain_rule.append(polygon_symbolizer(color(153, 204, 255))); qcdrain_style.add_rule(qcdrain_rule); m.insert_style("drainage",qcdrain_style); // Roads 3 and 4 (The "grey" roads) feature_type_style roads34_style; rule roads34_rule; roads34_rule.set_filter(parse_expression("[CLASS] = 3 or [CLASS] = 4")); stroke roads34_rule_stk(color(171,158,137),2.0); roads34_rule_stk.set_line_cap(ROUND_CAP); roads34_rule_stk.set_line_join(ROUND_JOIN); roads34_rule.append(line_symbolizer(roads34_rule_stk)); roads34_style.add_rule(roads34_rule); m.insert_style("smallroads",roads34_style); // Roads 2 (The thin yellow ones) feature_type_style roads2_style_1; rule roads2_rule_1; roads2_rule_1.set_filter(parse_expression("[CLASS] = 2")); stroke roads2_rule_stk_1(color(171,158,137),4.0); roads2_rule_stk_1.set_line_cap(ROUND_CAP); roads2_rule_stk_1.set_line_join(ROUND_JOIN); roads2_rule_1.append(line_symbolizer(roads2_rule_stk_1)); roads2_style_1.add_rule(roads2_rule_1); m.insert_style("road-border", roads2_style_1); feature_type_style roads2_style_2; rule roads2_rule_2; roads2_rule_2.set_filter(parse_expression("[CLASS] = 2")); stroke roads2_rule_stk_2(color(255,250,115),2.0); roads2_rule_stk_2.set_line_cap(ROUND_CAP); roads2_rule_stk_2.set_line_join(ROUND_JOIN); roads2_rule_2.append(line_symbolizer(roads2_rule_stk_2)); roads2_style_2.add_rule(roads2_rule_2); m.insert_style("road-fill", roads2_style_2); // Roads 1 (The big orange ones, the highways) feature_type_style roads1_style_1; rule roads1_rule_1; roads1_rule_1.set_filter(parse_expression("[CLASS] = 1")); stroke roads1_rule_stk_1(color(188,149,28),7.0); roads1_rule_stk_1.set_line_cap(ROUND_CAP); roads1_rule_stk_1.set_line_join(ROUND_JOIN); roads1_rule_1.append(line_symbolizer(roads1_rule_stk_1)); roads1_style_1.add_rule(roads1_rule_1); m.insert_style("highway-border", roads1_style_1); feature_type_style roads1_style_2; rule roads1_rule_2; roads1_rule_2.set_filter(parse_expression("[CLASS] = 1")); stroke roads1_rule_stk_2(color(242,191,36),5.0); roads1_rule_stk_2.set_line_cap(ROUND_CAP); roads1_rule_stk_2.set_line_join(ROUND_JOIN); roads1_rule_2.append(line_symbolizer(roads1_rule_stk_2)); roads1_style_2.add_rule(roads1_rule_2); m.insert_style("highway-fill", roads1_style_2); // Populated Places feature_type_style popplaces_style; rule popplaces_rule; text_symbolizer popplaces_text_symbolizer(parse_expression("[GEONAME]"),"DejaVu Sans Book",10,color(0,0,0)); popplaces_text_symbolizer.set_halo_fill(color(255,255,200)); popplaces_text_symbolizer.set_halo_radius(1); popplaces_rule.append(popplaces_text_symbolizer); popplaces_style.add_rule(popplaces_rule); m.insert_style("popplaces",popplaces_style ); // layers // Provincial polygons { parameters p; p["type"]="shape"; p["file"]="../data/boundaries"; p["encoding"]="latin1"; layer lyr("Provinces"); lyr.set_datasource(datasource_cache::instance().create(p)); lyr.add_style("provinces"); m.addLayer(lyr); } // Drainage { parameters p; p["type"]="shape"; p["file"]="../data/qcdrainage"; layer lyr("Quebec Hydrography"); lyr.set_datasource(datasource_cache::instance().create(p)); lyr.add_style("drainage"); m.addLayer(lyr); } { parameters p; p["type"]="shape"; p["file"]="../data/ontdrainage"; layer lyr("Ontario Hydrography"); lyr.set_datasource(datasource_cache::instance().create(p)); lyr.add_style("drainage"); m.addLayer(lyr); } // Provincial boundaries { parameters p; p["type"]="shape"; p["file"]="../data/boundaries_l"; layer lyr("Provincial borders"); lyr.set_datasource(datasource_cache::instance().create(p)); lyr.add_style("provlines"); m.addLayer(lyr); } // Roads { parameters p; p["type"]="shape"; p["file"]="../data/roads"; layer lyr("Roads"); lyr.set_datasource(datasource_cache::instance().create(p)); lyr.add_style("smallroads"); lyr.add_style("road-border"); lyr.add_style("road-fill"); lyr.add_style("highway-border"); lyr.add_style("highway-fill"); m.addLayer(lyr); } // popplaces { parameters p; p["type"]="shape"; p["file"]="../data/popplaces"; p["encoding"] = "latin1"; layer lyr("Populated Places"); lyr.set_datasource(datasource_cache::instance().create(p)); lyr.add_style("popplaces"); m.addLayer(lyr); } m.zoom_to_box(box2d(1405120.04127408,-247003.813399447, 1706357.31328276,-25098.593149577)); image_32 buf(m.width(),m.height()); agg_renderer ren(m,buf); ren.apply(); save_to_file(buf,"demo.jpg","jpeg"); save_to_file(buf,"demo.png","png"); save_to_file(buf,"demo256.png","png8"); save_to_file(buf,"demo.tif","tiff"); std::cout << "Three maps have been rendered using AGG in the current directory:\n" "- demo.jpg\n" "- demo.png\n" "- demo256.png\n" "- demo.tif\n" "Have a look!\n"; #if defined(HAVE_CAIRO) // save to pdf/svg files save_to_cairo_file(m,"cairo-demo.pdf"); save_to_cairo_file(m,"cairo-demo.svg"); /* we could also do: save_to_cairo_file(m,"cairo-demo.png"); but instead let's build up a surface for more flexibility */ cairo_surface_ptr image_surface( cairo_image_surface_create(CAIRO_FORMAT_ARGB32,m.width(),m.height()), cairo_surface_closer()); double scale_factor = 1.0; cairo_ptr image_context = (create_context(image_surface)); mapnik::cairo_renderer png_render(m,image_context,scale_factor); png_render.apply(); // we can now write to png with cairo functionality cairo_surface_write_to_png(&*image_surface, "cairo-demo.png"); // but we can also benefit from quantization by converting // to a mapnik image object and then saving that image_32 im(image_surface); save_to_file(im, "cairo-demo256.png","png8"); cairo_surface_finish(&*image_surface); std::cout << "Three maps have been rendered using Cairo in the current directory:\n" "- cairo-demo.png\n" "- cairo-demo256.png\n" "- cairo-demo.pdf\n" "- cairo-demo.svg\n" "Have a look!\n"; #endif } catch ( const mapnik::config_error & ex ) { std::cerr << "### Configuration error: " << ex.what() << std::endl; return EXIT_FAILURE; } catch ( const std::exception & ex ) { std::cerr << "### std::exception: " << ex.what() << std::endl; return EXIT_FAILURE; } catch ( ... ) { std::cerr << "### Unknown exception." << std::endl; return EXIT_FAILURE; } return EXIT_SUCCESS; }