/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2014 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 * *****************************************************************************/ // mapnik #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //agg #include "agg_conv_clip_polyline.h" namespace mapnik { base_symbolizer_helper::base_symbolizer_helper( symbolizer_base const& sym, feature_impl const& feature, attributes const& vars, proj_transform const& prj_trans, unsigned width, unsigned height, double scale_factor, view_transform const& t, box2d const& query_extent) : sym_(sym), feature_(feature), vars_(vars), prj_trans_(prj_trans), t_(t), dims_(0, 0, width, height), query_extent_(query_extent), scale_factor_(scale_factor), info_ptr_(mapnik::get(sym_, keys::text_placements_)->get_placement_info(scale_factor,feature_,vars_)), text_props_(evaluate_text_properties(info_ptr_->properties,feature_,vars_)) { initialize_geometries(); if (!geometries_to_process_.size()) return; // FIXME - bad practise initialize_points(); } struct largest_bbox_first { bool operator() (new_geometry::geometry const* g0, new_geometry::geometry const* g1) const { box2d b0 = new_geometry::envelope(*g0); box2d b1 = new_geometry::envelope(*g1); return b0.width() * b0.height() > b1.width() * b1.height(); } }; void base_symbolizer_helper::initialize_geometries() const { bool largest_box_only = text_props_->largest_bbox_only; double minimum_path_length = text_props_->minimum_path_length; new_geometry::geometry const& geom = feature_.get_geometry(); new_geometry::geometry_types type = new_geometry::geometry_type(geom); if (type == new_geometry::geometry_types::Polygon) { if (minimum_path_length > 0) { box2d gbox = t_.forward(new_geometry::envelope(geom), prj_trans_); if (gbox.width() >= minimum_path_length) { geometries_to_process_.push_back(const_cast(&geom)); } } } else { geometries_to_process_.push_back(const_cast(&geom)); } /* for ( auto const& geom : feature_.paths()) { // don't bother with empty geometries if (geom.size() == 0) continue; mapnik::new_geometry::geometry::types type = geom.type(); if (type == new_geometry::geometry::types::Polygon) { if (minimum_path_length > 0) { box2d gbox = t_.forward(::mapnik::envelope(geom), prj_trans_); if (gbox.width() < minimum_path_length) { continue; } } } // TODO - calculate length here as well geometries_to_process_.push_back(const_cast(&geom)); } */ if (largest_box_only) { geometries_to_process_.sort(largest_bbox_first()); geo_itr_ = geometries_to_process_.begin(); geometries_to_process_.erase(++geo_itr_,geometries_to_process_.end()); } geo_itr_ = geometries_to_process_.begin(); } void base_symbolizer_helper::initialize_points() const { label_placement_enum how_placed = text_props_->label_placement; if (how_placed == LINE_PLACEMENT) { point_placement_ = false; return; } else { point_placement_ = true; } double label_x=0.0; double label_y=0.0; double z=0.0; for (auto * geom_ptr : geometries_to_process_) { new_geometry::geometry const& geom = *geom_ptr; //vertex_adapter va(geom); if (how_placed == VERTEX_PLACEMENT) { #if 0 va.rewind(0); for(unsigned i = 0; i < va.size(); ++i) { va.vertex(&label_x, &label_y); prj_trans_.backward(label_x, label_y, z); t_.forward(&label_x, &label_y); points_.emplace_back(label_x, label_y); } #endif } else { // https://github.com/mapnik/mapnik/issues/1423 bool success = false; // https://github.com/mapnik/mapnik/issues/1350 auto type = new_geometry::geometry_type(geom); new_geometry::point label_pos; if (type == new_geometry::geometry_types::LineString) { auto const& line = mapnik::util::get(geom); new_geometry::line_string_vertex_adapter va(line); success = label::middle_point(va, label_x,label_y); } else if (how_placed == POINT_PLACEMENT) { new_geometry::centroid(geom,label_pos); success = true; //success = label::centroid(va, label_x, label_y); } else if (how_placed == INTERIOR_PLACEMENT) { //success = label::interior_position(va, label_x, label_y); } else { MAPNIK_LOG_ERROR(symbolizer_helpers) << "ERROR: Unknown placement type in initialize_points()"; } if (success) { prj_trans_.backward(label_pos.x, label_pos.y, z); t_.forward(&label_pos.x, &label_pos.y); points_.emplace_back(label_pos.x, label_pos.y); } } } point_itr_ = points_.begin(); } template text_symbolizer_helper::text_symbolizer_helper( text_symbolizer const& sym, feature_impl const& feature, attributes const& vars, proj_transform const& prj_trans, unsigned width, unsigned height, double scale_factor, view_transform const& t, FaceManagerT & font_manager, DetectorT &detector, box2d const& query_extent, agg::trans_affine const& affine_trans) : base_symbolizer_helper(sym, feature, vars, prj_trans, width, height, scale_factor, t, query_extent), finder_(feature, vars, detector, dims_, *info_ptr_, font_manager, scale_factor), adapter_(finder_,false), converter_(query_extent_, adapter_, sym_, t, prj_trans, affine_trans, feature, vars, scale_factor) { // setup vertex converter value_bool clip = mapnik::get(sym_, feature_, vars_); value_double simplify_tolerance = mapnik::get(sym_, feature_, vars_); value_double smooth = mapnik::get(sym_, feature_, vars_); if (clip) converter_.template set(); //optional clip (default: true) converter_.template set(); //always transform converter_.template set(); if (simplify_tolerance > 0.0) converter_.template set(); // optional simplify converter if (smooth > 0.0) converter_.template set(); // optional smooth converter if (geometries_to_process_.size()) finder_.next_position(); } placements_list const& text_symbolizer_helper::get() const { if (point_placement_) { while (next_point_placement()); } else { while (next_line_placement()); } return finder_.placements(); } bool text_symbolizer_helper::next_line_placement() const { while (!geometries_to_process_.empty()) { if (geo_itr_ == geometries_to_process_.end()) { //Just processed the last geometry. Try next placement. if (!finder_.next_position()) return false; //No more placements //Start again from begin of list geo_itr_ = geometries_to_process_.begin(); continue; //Reexecute size check } auto type = new_geometry::geometry_type(**geo_itr_); if (type == new_geometry::LineString) // ?? { auto const& line = util::get(**geo_itr_); new_geometry::line_string_vertex_adapter va(line); converter_.apply(va); if (adapter_.status()) { //Found a placement geo_itr_ = geometries_to_process_.erase(geo_itr_); return true; } // No placement for this geometry. Keep it in geometries_to_process_ for next try. ++geo_itr_; } } return false; } bool text_symbolizer_helper::next_point_placement() const { while (!points_.empty()) { if (point_itr_ == points_.end()) { //Just processed the last point. Try next placement. if (!finder_.next_position()) return false; //No more placements //Start again from begin of list point_itr_ = points_.begin(); continue; //Reexecute size check } if (finder_.find_point_placement(*point_itr_)) { //Found a placement point_itr_ = points_.erase(point_itr_); return true; } //No placement for this point. Keep it in points_ for next try. point_itr_++; } return false; } template text_symbolizer_helper::text_symbolizer_helper( shield_symbolizer const& sym, feature_impl const& feature, attributes const& vars, proj_transform const& prj_trans, unsigned width, unsigned height, double scale_factor, view_transform const& t, FaceManagerT & font_manager, DetectorT & detector, box2d const& query_extent, agg::trans_affine const& affine_trans) : base_symbolizer_helper(sym, feature, vars, prj_trans, width, height, scale_factor, t, query_extent), finder_(feature, vars, detector, dims_, *info_ptr_, font_manager, scale_factor), adapter_(finder_,true), converter_(query_extent_, adapter_, sym_, t, prj_trans, affine_trans, feature, vars, scale_factor) { // setup vertex converter value_bool clip = mapnik::get(sym_, feature_, vars_); value_double simplify_tolerance = mapnik::get(sym_, feature_, vars_); value_double smooth = mapnik::get(sym_, feature_, vars_); if (clip) converter_.template set(); //optional clip (default: true) converter_.template set(); //always transform converter_.template set(); if (simplify_tolerance > 0.0) converter_.template set(); // optional simplify converter if (smooth > 0.0) converter_.template set(); // optional smooth converter if (geometries_to_process_.size()) { init_marker(); finder_.next_position(); } } void text_symbolizer_helper::init_marker() const { std::string filename = mapnik::get(sym_, feature_, vars_); if (filename.empty()) return; mapnik::marker const& marker = marker_cache::instance().find(filename, true); if (marker.is()) return; agg::trans_affine trans; auto image_transform = get_optional(sym_, keys::image_transform); if (image_transform) evaluate_transform(trans, feature_, vars_, *image_transform); double width = marker.width(); double height = marker.height(); double px0 = - 0.5 * width; double py0 = - 0.5 * height; double px1 = 0.5 * width; double py1 = 0.5 * height; double px2 = px1; double py2 = py0; double px3 = px0; double py3 = py1; trans.transform(&px0, &py0); trans.transform(&px1, &py1); trans.transform(&px2, &py2); trans.transform(&px3, &py3); box2d bbox(px0, py0, px1, py1); bbox.expand_to_include(px2, py2); bbox.expand_to_include(px3, py3); value_bool unlock_image = mapnik::get(sym_, feature_, vars_); value_double shield_dx = mapnik::get(sym_, feature_, vars_); value_double shield_dy = mapnik::get(sym_, feature_, vars_); pixel_position marker_displacement; marker_displacement.set(shield_dx,shield_dy); finder_.set_marker(std::make_shared(marker, trans), bbox, unlock_image, marker_displacement); } template text_symbolizer_helper::text_symbolizer_helper( text_symbolizer const& sym, feature_impl const& feature, attributes const& vars, proj_transform const& prj_trans, unsigned width, unsigned height, double scale_factor, view_transform const& t, face_manager_freetype & font_manager, label_collision_detector4 &detector, box2d const& query_extent, agg::trans_affine const&); template text_symbolizer_helper::text_symbolizer_helper( shield_symbolizer const& sym, feature_impl const& feature, attributes const& vars, proj_transform const& prj_trans, unsigned width, unsigned height, double scale_factor, view_transform const& t, face_manager_freetype & font_manager, label_collision_detector4 &detector, box2d const& query_extent, agg::trans_affine const&); } //namespace