static boost::python::tuple getstate(const point_symbolizer& p) { return boost::python::make_tuple(p.get_allow_overlap(), p.get_opacity(), p.get_ignore_placement(), p.get_point_placement()); }
void agg_renderer<T>::process(point_symbolizer const& sym, Feature const& feature, proj_transform const& prj_trans) { std::string filename = path_processor_type::evaluate(*sym.get_filename(), feature); boost::optional<mapnik::marker_ptr> marker; if ( !filename.empty() ) { marker = marker_cache::instance()->find(filename, true); } else { marker.reset(boost::make_shared<mapnik::marker>()); } if (marker) { for (unsigned i=0; i<feature.num_geometries(); ++i) { geometry_type const& geom = feature.get_geometry(i); double x; double y; double z=0; if (sym.get_point_placement() == CENTROID_POINT_PLACEMENT) geom.label_position(&x, &y); else geom.label_interior_position(&x, &y); prj_trans.backward(x,y,z); t_.forward(&x,&y); int w = (*marker)->width(); int h = (*marker)->height(); int px = int(floor(x - 0.5 * w)); int py = int(floor(y - 0.5 * h)); box2d<double> label_ext (px, py, px + w, py + h); if (sym.get_allow_overlap() || detector_.has_placement(label_ext)) { agg::trans_affine tr; boost::array<double,6> const& m = sym.get_transform(); tr.load_from(&m[0]); render_marker(px,py,**marker,tr, sym.get_opacity()); if (!sym.get_ignore_placement()) detector_.insert(label_ext); metawriter_with_properties writer = sym.get_metawriter(); if (writer.first) writer.first->add_box(label_ext, feature, t_, writer.second); } } } }
void agg_renderer<T>::process(point_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { std::string filename = path_processor_type::evaluate(*sym.get_filename(), feature); boost::optional<mapnik::marker_ptr> marker; if ( !filename.empty() ) { marker = marker_cache::instance()->find(filename, true); } else { marker.reset(boost::make_shared<mapnik::marker>()); } if (marker) { box2d<double> const& bbox = (*marker)->bounding_box(); coord2d center = bbox.center(); agg::trans_affine tr; evaluate_transform(tr, feature, sym.get_image_transform()); agg::trans_affine_translation recenter(-center.x, -center.y); agg::trans_affine recenter_tr = recenter * tr; box2d<double> label_ext = bbox * recenter_tr; for (unsigned i=0; i<feature.num_geometries(); ++i) { geometry_type const& geom = feature.get_geometry(i); double x; double y; double z=0; if (sym.get_point_placement() == CENTROID_POINT_PLACEMENT) { if (!label::centroid(geom, x, y)) return; } else { if (!label::interior_position(geom ,x, y)) return; } prj_trans.backward(x,y,z); t_.forward(&x,&y); label_ext.re_center(x,y); if (sym.get_allow_overlap() || detector_->has_placement(label_ext)) { render_marker(pixel_position(x, y), **marker, tr, sym.get_opacity(), sym.comp_op()); if (!sym.get_ignore_placement()) detector_->insert(label_ext); } } } }
void agg_renderer<T>::process(point_symbolizer const& sym, mapnik::feature_ptr const& feature, proj_transform const& prj_trans) { std::string filename = path_processor_type::evaluate(*sym.get_filename(), *feature); boost::optional<mapnik::marker_ptr> marker; if ( !filename.empty() ) { marker = marker_cache::instance()->find(filename, true); } else { marker.reset(boost::make_shared<mapnik::marker>()); } if (marker) { double w = (*marker)->width(); double h = (*marker)->height(); agg::trans_affine tr; boost::array<double,6> const& m = sym.get_transform(); tr.load_from(&m[0]); double px0 = - 0.5 * w; double py0 = - 0.5 * h; double px1 = 0.5 * w; double py1 = 0.5 * h; double px2 = px1; double py2 = py0; double px3 = px0; double py3 = py1; tr.transform(&px0,&py0); tr.transform(&px1,&py1); tr.transform(&px2,&py2); tr.transform(&px3,&py3); box2d<double> label_ext (px0, py0, px1, py1); label_ext.expand_to_include(px2, py2); label_ext.expand_to_include(px3, py3); for (unsigned i=0; i<feature->num_geometries(); ++i) { geometry_type const& geom = feature->get_geometry(i); double x; double y; double z=0; if (sym.get_point_placement() == CENTROID_POINT_PLACEMENT) geom.label_position(&x, &y); else geom.label_interior_position(&x, &y); prj_trans.backward(x,y,z); t_.forward(&x,&y); label_ext.re_center(x,y); if (sym.get_allow_overlap() || detector_->has_placement(label_ext)) { render_marker(pixel_position(x - 0.5 * w, y - 0.5 * h) ,**marker,tr, sym.get_opacity()); if (!sym.get_ignore_placement()) detector_->insert(label_ext); metawriter_with_properties writer = sym.get_metawriter(); if (writer.first) writer.first->add_box(label_ext, *feature, t_, writer.second); } } } }
void agg_renderer<T>::process(point_symbolizer const& sym, Feature const& feature, proj_transform const& prj_trans) { typedef agg::pixfmt_rgba32 pixfmt; typedef agg::renderer_base<pixfmt> renderer_base; typedef agg::renderer_scanline_aa_solid<renderer_base> renderer_solid; double x; double y; double z=0; std::string filename = path_processor_type::evaluate(*sym.get_filename(), feature); boost::optional<mapnik::image_ptr> data; if (is_svg(filename)) { // SVG using namespace mapnik::svg; boost::optional<path_ptr> marker; ras_ptr->reset(); ras_ptr->gamma(agg::gamma_linear()); agg::scanline_u8 sl; agg::rendering_buffer buf(pixmap_.raw_data(), width_, height_, width_ * 4); pixfmt pixf(buf); renderer_base renb(pixf); renderer_solid ren(renb); box2d<double> extent; marker = marker_cache::instance()->find(filename, true); if (marker && *marker) { box2d<double> const& bbox = (*marker)->bounding_box(); double x1 = bbox.minx(); double y1 = bbox.miny(); double x2 = bbox.maxx(); double y2 = bbox.maxy(); vertex_stl_adapter<svg_path_storage> stl_storage((*marker)->source()); svg_path_adapter svg_path(stl_storage); svg_renderer<svg_path_adapter, agg::pod_bvector<path_attributes> > svg_renderer(svg_path, (*marker)->attributes()); for (unsigned i=0; i<feature.num_geometries(); ++i) { geometry2d const& geom = feature.get_geometry(i); geom.label_position(&x,&y); prj_trans.backward(x,y,z); t_.forward(&x,&y); agg::trans_affine tr; boost::array<double,6> const& m = sym.get_transform(); tr.load_from(&m[0]); tr *= agg::trans_affine_scaling(scale_factor_); tr *= agg::trans_affine_translation(x, y); tr.transform(&x1,&y1); tr.transform(&x2,&y2); extent.init(x1,y1,x2,y2); if (sym.get_allow_overlap() || detector_.has_placement(extent)) { svg_renderer.render(*ras_ptr, sl, ren, tr, renb.clip_box(), sym.get_opacity()); detector_.insert(extent); metawriter_with_properties writer = sym.get_metawriter(); if (writer.first) { writer.first->add_box(extent, feature, t_, writer.second); } } } } } else { if ( filename.empty() ) { // default OGC 4x4 black square data = boost::optional<mapnik::image_ptr>(new image_data_32(4,4)); (*data)->set(0xff000000); } else { data = mapnik::image_cache::instance()->find(filename,true); } if ( data ) { for (unsigned i=0; i<feature.num_geometries(); ++i) { geometry2d const& geom = feature.get_geometry(i); geom.label_position(&x,&y); prj_trans.backward(x,y,z); t_.forward(&x,&y); int w = (*data)->width(); int h = (*data)->height(); int px = int(floor(x - 0.5 * w)); int py = int(floor(y - 0.5 * h)); box2d<double> label_ext (px, py, px + w, py + h); if (sym.get_allow_overlap() || detector_.has_placement(label_ext)) { pixmap_.set_rectangle_alpha2(*(*data), px, py, sym.get_opacity()); detector_.insert(label_ext); metawriter_with_properties writer = sym.get_metawriter(); if (writer.first) writer.first->add_box(label_ext, feature, t_, writer.second); } } } } }