/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2013 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 // boost #include namespace mapnik { using boost::optional; text_symbolizer_properties::text_symbolizer_properties() : label_placement(POINT_PLACEMENT), label_spacing(0.0), label_position_tolerance(0.0), avoid_edges(false), margin(0.0), repeat_distance(0.0), minimum_distance(0.0), minimum_padding(0.0), minimum_path_length(0.0), max_char_angle_delta(22.5 * M_PI/180.0), allow_overlap(false), largest_bbox_only(true), upright(UPRIGHT_AUTO), layout_defaults(), format_defaults(), tree_() {} void text_symbolizer_properties::evaluate_text_properties(feature_impl const& feature, attributes const& attrs) { label_placement = util::apply_visitor(extract_value(feature,attrs), expressions.label_placement); label_spacing = util::apply_visitor(extract_value(feature,attrs), expressions.label_spacing); label_position_tolerance = util::apply_visitor(extract_value(feature,attrs), expressions.label_position_tolerance); avoid_edges = util::apply_visitor(extract_value(feature,attrs), expressions.avoid_edges); margin = util::apply_visitor(extract_value(feature,attrs), expressions.margin); repeat_distance = util::apply_visitor(extract_value(feature,attrs), expressions.repeat_distance); minimum_distance = util::apply_visitor(extract_value(feature,attrs), expressions.minimum_distance); minimum_padding = util::apply_visitor(extract_value(feature,attrs), expressions.minimum_padding); minimum_path_length = util::apply_visitor(extract_value(feature,attrs), expressions.minimum_path_length); max_char_angle_delta = util::apply_visitor(extract_value(feature,attrs), expressions.max_char_angle_delta) * M_PI/180; allow_overlap = util::apply_visitor(extract_value(feature,attrs), expressions.allow_overlap); largest_bbox_only = util::apply_visitor(extract_value(feature,attrs), expressions.largest_bbox_only); upright = util::apply_visitor(extract_value(feature,attrs), expressions.upright); } void text_symbolizer_properties::process(text_layout & output, feature_impl const& feature, attributes const& attrs) //const { output.clear(); if (tree_) { evaluate_text_properties(feature, attrs); //evaluate format properties evaluated_format_properties_ptr format = std::make_shared(); format->text_size = util::apply_visitor(extract_value(feature,attrs), format_defaults.text_size); format->character_spacing = util::apply_visitor(extract_value(feature,attrs), format_defaults.character_spacing); format->line_spacing = util::apply_visitor(extract_value(feature,attrs), format_defaults.line_spacing); format->text_opacity = util::apply_visitor(extract_value(feature,attrs), format_defaults.text_opacity); format->halo_opacity = util::apply_visitor(extract_value(feature,attrs), format_defaults.halo_opacity); format->halo_radius = util::apply_visitor(extract_value(feature,attrs), format_defaults.halo_radius); format->fill = util::apply_visitor(extract_value(feature,attrs), format_defaults.fill); format->halo_fill = util::apply_visitor(extract_value(feature,attrs), format_defaults.halo_fill); format->text_transform = util::apply_visitor(extract_value(feature,attrs), format_defaults.text_transform); format->face_name = format_defaults.face_name; format->fontset = format_defaults.fontset; tree_->apply(format, feature, attrs, output); } else MAPNIK_LOG_WARN(text_properties) << "text_symbolizer_properties can't produce text: No formatting tree!"; } void text_symbolizer_properties::set_format_tree(formatting::node_ptr tree) { tree_ = tree; } formatting::node_ptr text_symbolizer_properties::format_tree() const { return tree_; } void text_symbolizer_properties::text_properties_from_xml(xml_node const& node) { // The options 'margin' and 'repeat-distance' replace 'minimum-distance'. // Only allow one or the other to be defined here. if (node.has_attribute("margin") || node.has_attribute("repeat-distance")) { if (node.has_attribute("minimum-distance")) { throw config_error(std::string("Cannot use deprecated option minimum-distance with " "new options margin and repeat-distance.")); } set_property_from_xml(expressions.margin, "margin", node); set_property_from_xml(expressions.repeat_distance, "repeat-distance", node); } else { set_property_from_xml(expressions.minimum_distance, "minimum-distance", node); } set_property_from_xml(expressions.label_placement, "placement", node); set_property_from_xml(expressions.label_spacing, "spacing", node); set_property_from_xml(expressions.label_position_tolerance, "label-position-tolerance", node); set_property_from_xml(expressions.minimum_padding, "minimum-padding", node); set_property_from_xml(expressions.minimum_path_length, "minimum-path-length", node); set_property_from_xml(expressions.avoid_edges, "avoid-edges", node); set_property_from_xml(expressions.allow_overlap, "allow-overlap", node); set_property_from_xml(expressions.largest_bbox_only, "largest-bbox-only", node); set_property_from_xml(expressions.max_char_angle_delta, "max-char-angle-delta", node); set_property_from_xml(expressions.upright, "upright", node); } void text_symbolizer_properties::from_xml(xml_node const& node, fontset_map const& fontsets) { text_properties_from_xml(node); layout_defaults.from_xml(node,fontsets); optional name_ = node.get_opt_attr("name"); if (name_) { MAPNIK_LOG_WARN(text_placements) << "Using 'name' in TextSymbolizer/ShieldSymbolizer is deprecated!"; set_old_style_expression(*name_); } format_defaults.from_xml(node, fontsets); formatting::node_ptr n(formatting::node::from_xml(node,fontsets)); if (n) set_format_tree(n); } void text_symbolizer_properties::to_xml(boost::property_tree::ptree &node, bool explicit_defaults, text_symbolizer_properties const& dfl) const { if (!(expressions.label_placement == dfl.expressions.label_placement) || explicit_defaults) { serialize_property("placement", expressions.label_placement, node); } if (!(expressions.label_position_tolerance == dfl.expressions.label_position_tolerance) || explicit_defaults) { serialize_property("label-position-tolerance", expressions.label_position_tolerance,node); } if (!(expressions.label_spacing == dfl.expressions.label_spacing) || explicit_defaults) { serialize_property("spacing", expressions.label_spacing, node); } if (!(expressions.margin == dfl.expressions.margin) || explicit_defaults) { serialize_property("margin", expressions.margin, node); } if (!(expressions.repeat_distance == dfl.expressions.repeat_distance) || explicit_defaults) { serialize_property("repeat-distance", expressions.repeat_distance, node); } if (!(expressions.minimum_distance == dfl.expressions.minimum_distance) || explicit_defaults) { serialize_property("minimum-distance", expressions.minimum_distance, node); } if (!(expressions.minimum_padding == dfl.expressions.minimum_padding) || explicit_defaults) { serialize_property("minimum-padding", expressions.minimum_padding, node); } if (!(expressions.minimum_path_length == dfl.expressions.minimum_path_length) || explicit_defaults) { serialize_property("minimum-path-length", expressions.minimum_path_length, node); } if (!(expressions.avoid_edges == dfl.expressions.avoid_edges) || explicit_defaults) { serialize_property("avoid-edges", expressions.avoid_edges, node); } if (!(expressions.allow_overlap == dfl.expressions.allow_overlap) || explicit_defaults) { serialize_property("allow-overlap", expressions.allow_overlap, node); } if (!(expressions.largest_bbox_only == dfl.expressions.largest_bbox_only) || explicit_defaults) { serialize_property("largest-bbox-only", expressions.largest_bbox_only, node); } if (!(expressions.max_char_angle_delta == dfl.expressions.max_char_angle_delta) || explicit_defaults) { serialize_property("max-char-angle-delta", expressions.max_char_angle_delta, node); } if (!(expressions.upright == dfl.expressions.upright) || explicit_defaults) { serialize_property("upright", expressions.upright, node); } layout_defaults.to_xml(node, explicit_defaults, dfl.layout_defaults); format_defaults.to_xml(node, explicit_defaults, dfl.format_defaults); if (tree_) tree_->to_xml(node); } void text_symbolizer_properties::add_expressions(expression_set & output) const { if (is_expression(expressions.label_placement)) output.insert(util::get(expressions.label_placement)); if (is_expression(expressions.label_spacing)) output.insert(util::get(expressions.label_spacing)); if (is_expression(expressions.label_position_tolerance)) output.insert(util::get(expressions.label_position_tolerance)); if (is_expression(expressions.avoid_edges)) output.insert(util::get(expressions.avoid_edges)); if (is_expression(expressions.margin)) output.insert(util::get(expressions.margin)); if (is_expression(expressions.repeat_distance)) output.insert(util::get(expressions.repeat_distance)); if (is_expression(expressions.minimum_distance)) output.insert(util::get(expressions.minimum_distance)); if (is_expression(expressions.minimum_padding)) output.insert(util::get(expressions.minimum_padding)); if (is_expression(expressions.minimum_path_length)) output.insert(util::get(expressions.minimum_path_length)); if (is_expression(expressions.max_char_angle_delta)) output.insert(util::get(expressions.max_char_angle_delta)); if (is_expression(expressions.allow_overlap)) output.insert(util::get(expressions.allow_overlap)); if (is_expression(expressions.largest_bbox_only)) output.insert(util::get(expressions.largest_bbox_only)); if (is_expression(expressions.upright)) output.insert(util::get(expressions.upright)); layout_defaults.add_expressions(output); format_defaults.add_expressions(output); if (tree_) tree_->add_expressions(output); } void text_symbolizer_properties::set_old_style_expression(expression_ptr expr) { tree_ = std::make_shared(expr); } text_layout_properties::text_layout_properties() : halign(enumeration_wrapper(H_AUTO)), jalign(enumeration_wrapper(J_AUTO)), valign(enumeration_wrapper(V_AUTO)) {} void text_layout_properties::from_xml(xml_node const &node, fontset_map const& fontsets) { set_property_from_xml(dx, "dx", node); set_property_from_xml(dy, "dy", node); set_property_from_xml(text_ratio, "text-ratio", node); set_property_from_xml(wrap_width, "wrap-width", node); set_property_from_xml(wrap_char, "wrap-char", node); set_property_from_xml(wrap_before, "wrap-before", node); set_property_from_xml(repeat_wrap_char, "repeat-wrap-char", node); set_property_from_xml(rotate_displacement, "rotate-displacement", node); set_property_from_xml(orientation, "orientation", node); set_property_from_xml(valign, "vertical-alignment", node); set_property_from_xml(halign, "horizontal-alignment", node); set_property_from_xml(jalign, "justify-alignment", node); } void text_layout_properties::to_xml(boost::property_tree::ptree & node, bool explicit_defaults, text_layout_properties const& dfl) const { if (!(dx == dfl.dx) || explicit_defaults) serialize_property("dx", dx, node); if (!(dy == dfl.dy) || explicit_defaults) serialize_property("dy", dy, node); if (!(valign == dfl.valign) || explicit_defaults) serialize_property("vertical-alignment", valign, node); if (!(halign == dfl.halign) || explicit_defaults) serialize_property("horizontal-alignment", halign, node); if (!(jalign == dfl.jalign) || explicit_defaults) serialize_property("justify-alignment", jalign, node); if (!(text_ratio == dfl.text_ratio) || explicit_defaults) serialize_property("text-ratio", text_ratio, node); if (!(wrap_width == dfl.wrap_width) || explicit_defaults) serialize_property("wrap-width", wrap_width, node); if (!(wrap_char == dfl.wrap_char) || explicit_defaults) serialize_property("wrap-char", wrap_char, node); if (!(wrap_before == dfl.wrap_before) || explicit_defaults) serialize_property("wrap-before", wrap_before, node); if (!(repeat_wrap_char == dfl.repeat_wrap_char) || explicit_defaults) serialize_property("repeat-wrap-char", repeat_wrap_char, node); if (!(rotate_displacement == dfl.rotate_displacement) || explicit_defaults) serialize_property("rotate-displacement", rotate_displacement, node); if (!(orientation == dfl.orientation) || explicit_defaults) serialize_property("orientation", orientation, node); } void text_layout_properties::add_expressions(expression_set & output) const { if (is_expression(dx)) output.insert(util::get(dx)); if (is_expression(dy)) output.insert(util::get(dy)); if (is_expression(orientation)) output.insert(util::get(orientation)); if (is_expression(wrap_width)) output.insert(util::get(wrap_width)); if (is_expression(wrap_char)) output.insert(util::get(wrap_char)); if (is_expression(wrap_before)) output.insert(util::get(wrap_before)); if (is_expression(repeat_wrap_char)) output.insert(util::get(repeat_wrap_char)); if (is_expression(rotate_displacement)) output.insert(util::get(rotate_displacement)); if (is_expression(text_ratio)) output.insert(util::get(text_ratio)); if (is_expression(halign)) output.insert(util::get(halign)); if (is_expression(valign)) output.insert(util::get(valign)); if (is_expression(jalign)) output.insert(util::get(jalign)); } // text format properties format_properties::format_properties() : face_name(), fontset(), text_size(10.0), character_spacing(0.0), line_spacing(0.0), text_opacity(1.0), halo_opacity(1.0), fill(color(0,0,0)), halo_fill(color(255,255,255)), halo_radius(0.0), text_transform(enumeration_wrapper(NONE)) {} void format_properties::from_xml(xml_node const& node, fontset_map const& fontsets) { set_property_from_xml(text_size, "size", node); set_property_from_xml(character_spacing, "character-spacing", node); set_property_from_xml(line_spacing, "line-spacing", node); set_property_from_xml(halo_radius, "halo-radius", node); set_property_from_xml(text_opacity, "opacity", node); set_property_from_xml(halo_opacity, "halo-opacity", node); set_property_from_xml(fill, "fill", node); set_property_from_xml(halo_fill, "halo-fill", node); set_property_from_xml(text_transform,"text-transform", node); optional face_name_ = node.get_opt_attr("face-name"); if (face_name_) face_name = *face_name_; optional fontset_name_ = node.get_opt_attr("fontset-name"); if (fontset_name_) { std::map::const_iterator itr = fontsets.find(*fontset_name_); if (itr != fontsets.end()) { fontset = itr->second; } else { throw config_error("Unable to find any fontset named '" + *fontset_name_ + "'", node); } } if (!face_name.empty() && fontset) { throw config_error("Can't have both face-name and fontset-name", node); } if (face_name.empty() && !fontset) { throw config_error("Must have face-name or fontset-name", node); } } void format_properties::to_xml(boost::property_tree::ptree & node, bool explicit_defaults, format_properties const& dfl) const { if (fontset) { set_attr(node, "fontset-name", fontset->get_name()); } if (face_name != dfl.face_name || explicit_defaults) { set_attr(node, "face-name", face_name); } if (!(text_size == dfl.text_size) || explicit_defaults) serialize_property("size", text_size, node); if (!(character_spacing == dfl.character_spacing) || explicit_defaults) serialize_property("character-spacing", character_spacing, node); if (!(line_spacing == dfl.line_spacing) || explicit_defaults) serialize_property("line-spacing", line_spacing, node); if (!(halo_radius == dfl.halo_radius) || explicit_defaults) serialize_property("halo-radius", halo_radius, node); // for shield_symbolizer this is later overridden -- FIXME if (!(text_opacity == dfl.text_opacity) || explicit_defaults) serialize_property("opacity", text_opacity, node); if (!(halo_opacity == dfl.halo_opacity) || explicit_defaults) serialize_property("halo-opacity", halo_opacity, node); // if (!(fill == dfl.fill) || explicit_defaults) serialize_property("fill", fill, node); if (!(halo_fill == dfl.halo_fill) || explicit_defaults) serialize_property("halo-fill", halo_fill, node); if (!(text_transform == dfl.text_transform) || explicit_defaults) serialize_property("text-transform", text_transform, node); } void format_properties::add_expressions(expression_set & output) const { if (is_expression(text_size)) output.insert(util::get(text_size)); if (is_expression(character_spacing)) output.insert(util::get(character_spacing)); if (is_expression(line_spacing)) output.insert(util::get(line_spacing)); if (is_expression(halo_radius)) output.insert(util::get(halo_radius)); if (is_expression(text_opacity)) output.insert(util::get(text_opacity)); if (is_expression(halo_opacity)) output.insert(util::get(halo_opacity)); if (is_expression(fill)) output.insert(util::get(fill)); if (is_expression(halo_fill)) output.insert(util::get(halo_fill)); if (is_expression(text_transform)) output.insert(util::get(text_transform)); } } //ns mapnik