/***************************************************************************** * * 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 * *****************************************************************************/ #if defined(HAVE_CAIRO) // mapnik #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // cairo #include #include #include #include // boost #include #include // agg #include "agg_conv_clip_polyline.h" #include "agg_conv_clip_polygon.h" #include "agg_conv_smooth_poly1.h" // markers #include "agg_path_storage.h" #include "agg_ellipse.h" namespace mapnik { class cairo_pattern : private boost::noncopyable { public: cairo_pattern(image_data_32 const& data) { int pixels = data.width() * data.height(); const unsigned int *in_ptr = data.getData(); const unsigned int *in_end = in_ptr + pixels; unsigned int *out_ptr; surface_ = Cairo::ImageSurface::create(Cairo::FORMAT_ARGB32, data.width(), data.height()); out_ptr = reinterpret_cast(surface_->get_data()); while (in_ptr < in_end) { unsigned int in = *in_ptr++; unsigned int r = (in >> 0) & 0xff; unsigned int g = (in >> 8) & 0xff; unsigned int b = (in >> 16) & 0xff; unsigned int a = (in >> 24) & 0xff; //r = r * a / 255; //g = g * a / 255; //b = b * a / 255; *out_ptr++ = (a << 24) | (r << 16) | (g << 8) | b; } // mark the surface as dirty as we've modified it behind cairo's back surface_->mark_dirty(); pattern_ = Cairo::SurfacePattern::create(surface_); } ~cairo_pattern() { } void set_matrix(Cairo::Matrix const& matrix) { pattern_->set_matrix(matrix); } void set_origin(double x, double y) { Cairo::Matrix matrix; pattern_->get_matrix(matrix); matrix.x0 = -x; matrix.y0 = -y; pattern_->set_matrix(matrix); } void set_extend(Cairo::Extend extend) { pattern_->set_extend(extend); } void set_filter(Cairo::Filter filter) { pattern_->set_filter(filter); } Cairo::RefPtr const& pattern() const { return pattern_; } private: Cairo::RefPtr surface_; Cairo::RefPtr pattern_; }; class cairo_gradient : private boost::noncopyable { public: cairo_gradient(const mapnik::gradient &grad, double opacity=1.0) { double x1,x2,y1,y2,r; grad.get_control_points(x1,y1,x2,y2,r); if (grad.get_gradient_type() == LINEAR) { pattern_ = Cairo::LinearGradient::create(x1, y1, x2, y2); } else if (grad.get_gradient_type() == RADIAL) { pattern_ = Cairo::RadialGradient::create(x1, y1, 0, x2, y2, r); } units_ = grad.get_units(); BOOST_FOREACH ( mapnik::stop_pair const& st, grad.get_stop_array() ) { mapnik::color const& stop_color = st.second; double r= static_cast (stop_color.red())/255.0; double g= static_cast (stop_color.green())/255.0; double b= static_cast (stop_color.blue())/255.0; double a= static_cast (stop_color.alpha())/255.0; pattern_->add_color_stop_rgba(st.first, r, g, b, a*opacity); } double m[6]; agg::trans_affine tr = grad.get_transform(); tr.invert(); tr.store_to(m); pattern_->set_matrix(Cairo::Matrix(m[0],m[1],m[2],m[3],m[4],m[5])); } ~cairo_gradient() { } Cairo::RefPtr const& gradient() const { return pattern_; } gradient_unit_e units() const { return units_; } private: Cairo::RefPtr pattern_; gradient_unit_e units_; }; class cairo_face : private boost::noncopyable { public: cairo_face(boost::shared_ptr const& engine, face_ptr const& face) : face_(face) { static cairo_user_data_key_t key; cairo_font_face_t *c_face; c_face = cairo_ft_font_face_create_for_ft_face(face->get_face(), FT_LOAD_NO_HINTING); cairo_font_face_set_user_data(c_face, &key, new handle(engine, face), destroy); cairo_face_ = Cairo::RefPtr(new Cairo::FontFace(c_face)); } Cairo::RefPtr const& face() const { return cairo_face_; } private: class handle { public: handle(boost::shared_ptr const& engine, face_ptr const& face) : engine_(engine), face_(face) {} private: boost::shared_ptr engine_; face_ptr face_; }; static void destroy(void *data) { handle *h = static_cast(data); delete h; } private: face_ptr face_; Cairo::RefPtr cairo_face_; }; cairo_face_manager::cairo_face_manager(boost::shared_ptr engine) : font_engine_(engine) { } cairo_face_ptr cairo_face_manager::get_face(face_ptr face) { cairo_face_cache::iterator itr = cache_.find(face); cairo_face_ptr entry; if (itr != cache_.end()) { entry = itr->second; } else { entry = boost::make_shared(font_engine_, face); cache_.insert(std::make_pair(face, entry)); } return entry; } class cairo_context : private boost::noncopyable { public: cairo_context(Cairo::RefPtr const& context) : context_(context) { context_->save(); } ~cairo_context() { context_->restore(); } void set_color(color const &color, double opacity = 1.0) { set_color(color.red(), color.green(), color.blue(), color.alpha() * opacity / 255.0); } void set_color(int r, int g, int b, double opacity = 1.0) { context_->set_source_rgba(r / 255.0, g / 255.0, b / 255.0, opacity); } void set_operator(composite_mode_e comp_op) { switch (comp_op) { case clear: context_->set_operator(Cairo::OPERATOR_CLEAR); break; case src: context_->set_operator(Cairo::OPERATOR_SOURCE); break; case dst: context_->set_operator(Cairo::OPERATOR_DEST); break; case src_over: context_->set_operator(Cairo::OPERATOR_OVER); break; case dst_over: context_->set_operator(Cairo::OPERATOR_DEST_OVER); break; case src_in: context_->set_operator(Cairo::OPERATOR_IN); break; case dst_in: context_->set_operator(Cairo::OPERATOR_DEST_IN); break; case src_out: context_->set_operator(Cairo::OPERATOR_OUT); break; case dst_out: context_->set_operator(Cairo::OPERATOR_DEST_OUT); break; case src_atop: context_->set_operator(Cairo::OPERATOR_ATOP); break; case dst_atop: context_->set_operator(Cairo::OPERATOR_DEST_ATOP); break; case _xor: context_->set_operator(Cairo::OPERATOR_XOR); break; case plus: context_->set_operator(Cairo::OPERATOR_ADD); break; #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 10, 0) case multiply: context_->set_operator(static_cast(CAIRO_OPERATOR_MULTIPLY)); break; case screen: context_->set_operator(static_cast(CAIRO_OPERATOR_SCREEN)); break; case overlay: context_->set_operator(static_cast(CAIRO_OPERATOR_OVERLAY)); break; case darken: context_->set_operator(static_cast(CAIRO_OPERATOR_DARKEN)); break; case lighten: context_->set_operator(static_cast(CAIRO_OPERATOR_LIGHTEN)); break; case color_dodge: context_->set_operator(static_cast(CAIRO_OPERATOR_COLOR_DODGE)); break; case color_burn: context_->set_operator(static_cast(CAIRO_OPERATOR_COLOR_BURN)); break; case hard_light: context_->set_operator(static_cast(CAIRO_OPERATOR_HARD_LIGHT)); break; case soft_light: context_->set_operator(static_cast(CAIRO_OPERATOR_SOFT_LIGHT)); break; case difference: context_->set_operator(static_cast(CAIRO_OPERATOR_DIFFERENCE)); break; case exclusion: context_->set_operator(static_cast(CAIRO_OPERATOR_EXCLUSION)); break; #else #warning building against cairo older that 1.10.0, some compositing options are disabled case multiply: case screen: case overlay: case darken: case lighten: case color_dodge: case color_burn: case hard_light: case soft_light: case difference: case exclusion: break; #endif case contrast: case minus: case invert: case invert_rgb: case grain_merge: case grain_extract: case hue: case saturation: case _color: case _value: //case colorize_alpha: break; } } void set_line_join(line_join_e join) { if (join == MITER_JOIN) context_->set_line_join(Cairo::LINE_JOIN_MITER); else if (join == MITER_REVERT_JOIN) context_->set_line_join(Cairo::LINE_JOIN_MITER); else if (join == ROUND_JOIN) context_->set_line_join(Cairo::LINE_JOIN_ROUND); else context_->set_line_join(Cairo::LINE_JOIN_BEVEL); } void set_line_cap(line_cap_e cap) { if (cap == BUTT_CAP) context_->set_line_cap(Cairo::LINE_CAP_BUTT); else if (cap == SQUARE_CAP) context_->set_line_cap(Cairo::LINE_CAP_SQUARE); else context_->set_line_cap(Cairo::LINE_CAP_ROUND); } void set_miter_limit(double limit) { context_->set_miter_limit(limit); } void set_line_width(double width) { context_->set_line_width(width); } void set_dash(dash_array const &dashes, double scale_factor) { std::valarray d(dashes.size() * 2); dash_array::const_iterator itr = dashes.begin(); dash_array::const_iterator end = dashes.end(); int index = 0; for (; itr != end; ++itr) { d[index++] = itr->first * scale_factor; d[index++] = itr->second * scale_factor; } context_->set_dash(d, 0.0); } void set_fill_rule(Cairo::FillRule fill_rule) { context_->set_fill_rule(fill_rule); } void move_to(double x, double y) { #if CAIRO_VERSION < CAIRO_VERSION_ENCODE(1, 6, 0) if (x < -32767.0) x = -32767.0; else if (x > 32767.0) x = 32767.0; if (y < -32767.0) y = -32767.0; else if (y > 32767.0) y = 32767.0; #endif context_->move_to(x, y); } void curve_to(double ct1_x, double ct1_y, double ct2_x, double ct2_y, double end_x, double end_y) { context_->curve_to(ct1_x,ct1_y,ct2_x,ct2_y,end_x,end_y); } void close_path() { context_->close_path(); } void line_to(double x, double y) { #if CAIRO_VERSION < CAIRO_VERSION_ENCODE(1, 6, 0) if (x < -32767.0) x = -32767.0; else if (x > 32767.0) x = 32767.0; if (y < -32767.0) y = -32767.0; else if (y > 32767.0) y = 32767.0; #endif context_->line_to(x, y); } template void add_path(T& path, unsigned start_index = 0) { double x, y; path.rewind(start_index); for (unsigned cm = path.vertex(&x, &y); cm != SEG_END; cm = path.vertex(&x, &y)) { if (cm == SEG_MOVETO) { move_to(x, y); } else if (cm == SEG_LINETO) { line_to(x, y); } else if (cm == SEG_CLOSE) { close_path(); } } } template void add_agg_path(T& path, unsigned start_index = 0) { double x=0; double y=0; path.rewind(start_index); for (unsigned cm = path.vertex(&x, &y); !agg::is_stop(cm); cm = path.vertex(&x, &y)) { if (agg::is_move_to(cm)) { move_to(x, y); } else if (agg::is_drawing(cm)) { if (agg::is_curve3(cm)) { double end_x=0; double end_y=0; MAPNIK_LOG_WARN(cairo_renderer) << "Curve 3 not implemented"; path.vertex(&end_x, &end_y); curve_to(x,y,x,y,end_x,end_y); } else if (agg::is_curve4(cm)) { double ct2_x=0; double ct2_y=0; double end_x=0; double end_y=0; path.vertex(&ct2_x, &ct2_y); path.vertex(&end_x, &end_y); curve_to(x,y,ct2_x,ct2_y,end_x,end_y); } else if (agg::is_line_to(cm)) { line_to(x, y); } else { MAPNIK_LOG_WARN(cairo_renderer) << "Unimplemented drawing command: " << cm; move_to(x, y); } } else if (agg::is_close(cm)) { close_path(); } else { MAPNIK_LOG_WARN(cairo_renderer) << "Unimplemented path command: " << cm; } } } void rectangle(double x, double y, double w, double h) { context_->rectangle(x, y, w, h); } void stroke() { context_->stroke(); } void fill() { context_->fill(); } void paint() { context_->paint(); } void set_pattern(cairo_pattern const& pattern) { context_->set_source(pattern.pattern()); } void set_gradient(cairo_gradient const& pattern, const box2d &bbox) { Cairo::RefPtr p = pattern.gradient(); double bx1=bbox.minx(); double by1=bbox.miny(); double bx2=bbox.maxx(); double by2=bbox.maxy(); if (pattern.units() != USER_SPACE_ON_USE) { if (pattern.units() == OBJECT_BOUNDING_BOX) { context_->get_path_extents (bx1, by1, bx2, by2); } Cairo::Matrix m = p->get_matrix(); m.scale(1.0/(bx2-bx1),1.0/(by2-by1)); m.translate(-bx1,-by1); p->set_matrix(m); } context_->set_source(p); } void add_image(double x, double y, image_data_32 & data, double opacity = 1.0) { cairo_pattern pattern(data); pattern.set_origin(x, y); context_->save(); context_->set_source(pattern.pattern()); context_->paint_with_alpha(opacity); context_->restore(); } void add_image(agg::trans_affine const& tr, image_data_32 & data, double opacity = 1.0) { cairo_pattern pattern(data); if (!tr.is_identity()) { double m[6]; tr.store_to(m); Cairo::Matrix cairo_matrix(m[0],m[1],m[2],m[3],m[4],m[5]); cairo_matrix.invert(); pattern.set_matrix(cairo_matrix); } context_->save(); context_->set_source(pattern.pattern()); context_->paint_with_alpha(opacity); context_->restore(); } void set_font_face(cairo_face_manager & manager, face_ptr face) { context_->set_font_face(manager.get_face(face)->face()); } void set_font_matrix(Cairo::Matrix const& matrix) { context_->set_font_matrix(matrix); } void set_matrix(Cairo::Matrix const& matrix) { context_->set_matrix(matrix); } void transform(Cairo::Matrix const& matrix) { context_->transform(matrix); } void translate(double x, double y) { context_->translate(x,y); } void save() { context_->save(); } void restore() { context_->restore(); } void show_glyph(unsigned long index, double x, double y) { Cairo::Glyph glyph; glyph.index = index; glyph.x = x; glyph.y = y; cairo_show_glyphs(context_->cobj(), &glyph, 1); if (context_->get_status() != CAIRO_STATUS_SUCCESS) { throw std::runtime_error("cairo: show_glyph"); } } void glyph_path(unsigned long index, double x, double y) { Cairo::Glyph glyph; glyph.index = index; glyph.x = x; glyph.y = y; cairo_glyph_path(context_->cobj(), &glyph, 1); if (context_->get_status() != CAIRO_STATUS_SUCCESS) { throw std::runtime_error("cairo: glyph_path"); } } void add_text(text_path const& path, cairo_face_manager & manager, face_manager &font_manager, double scale_factor = 1.0) { double sx = path.center.x; double sy = path.center.y; path.rewind(); for (int iii = 0; iii < path.num_nodes(); iii++) { char_info_ptr c; double x, y, angle; path.vertex(&c, &x, &y, &angle); face_set_ptr faces = font_manager.get_face_set(c->format->face_name, c->format->fontset); float text_size = c->format->text_size * scale_factor; faces->set_character_sizes(text_size); glyph_ptr glyph = faces->get_glyph(c->c); if (glyph) { Cairo::Matrix matrix; matrix.xx = text_size * cos(angle); matrix.xy = text_size * sin(angle); matrix.yx = text_size * -sin(angle); matrix.yy = text_size * cos(angle); matrix.x0 = 0; matrix.y0 = 0; set_font_matrix(matrix); set_font_face(manager, glyph->get_face()); glyph_path(glyph->get_index(), sx + x, sy - y); set_line_width(2.0 * c->format->halo_radius * scale_factor); set_line_join(ROUND_JOIN); set_color(c->format->halo_fill); stroke(); set_color(c->format->fill); show_glyph(glyph->get_index(), sx + x, sy - y); } } } private: Cairo::RefPtr context_; }; cairo_renderer_base::cairo_renderer_base(Map const& m, Cairo::RefPtr const& context, double scale_factor, unsigned offset_x, unsigned offset_y) : m_(m), context_(context), width_(m.width()), height_(m.height()), scale_factor_(scale_factor), t_(m.width(),m.height(),m.get_current_extent(),offset_x,offset_y), font_engine_(boost::make_shared()), font_manager_(*font_engine_), face_manager_(font_engine_), detector_(box2d(-m.buffer_size() ,-m.buffer_size() , m.width() + m.buffer_size() ,m.height() + m.buffer_size())) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: Scale=" << m.scale(); } template <> cairo_renderer::cairo_renderer(Map const& m, Cairo::RefPtr const& context, double scale_factor, unsigned offset_x, unsigned offset_y) : feature_style_processor(m,scale_factor), cairo_renderer_base(m,context,scale_factor,offset_x,offset_y) {} template <> cairo_renderer::cairo_renderer(Map const& m, Cairo::RefPtr const& surface, double scale_factor, unsigned offset_x, unsigned offset_y) : feature_style_processor(m,scale_factor), cairo_renderer_base(m,Cairo::Context::create(surface),scale_factor,offset_x,offset_y) {} cairo_renderer_base::~cairo_renderer_base() {} void cairo_renderer_base::start_map_processing(Map const& map) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: Start map processing bbox=" << map.get_current_extent(); #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 6, 0) box2d bounds = t_.forward(t_.extent()); context_->rectangle(bounds.minx(), bounds.miny(), bounds.maxx(), bounds.maxy()); context_->clip(); #else #warning building against cairo older that 1.6.0, map clipping is disabled #endif boost::optional bg = m_.background(); if (bg) { cairo_context context(context_); context.set_color(*bg); context.paint(); } } template <> void cairo_renderer::end_map_processing(Map const& ) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: End map processing"; } template <> void cairo_renderer::end_map_processing(Map const& ) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: End map processing"; context_->show_page(); } void cairo_renderer_base::start_layer_processing(layer const& lay, box2d const& query_extent) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: Start processing layer=" << lay.name() ; MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: -- datasource=" << lay.datasource().get(); MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: -- query_extent=" << query_extent; if (lay.clear_label_cache()) { detector_.clear(); } query_extent_ = query_extent; } void cairo_renderer_base::end_layer_processing(layer const&) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer_base: End layer processing"; } void cairo_renderer_base::start_style_processing(feature_type_style const& st) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer:start style processing"; } void cairo_renderer_base::end_style_processing(feature_type_style const& st) { MAPNIK_LOG_DEBUG(cairo_renderer) << "cairo_renderer:end style processing"; } void cairo_renderer_base::process(polygon_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { cairo_context context(context_); context.set_operator(sym.comp_op()); context.set_color(sym.get_fill(), sym.get_opacity()); agg::trans_affine tr; evaluate_transform(tr, feature, sym.get_transform()); typedef boost::mpl::vector conv_types; vertex_converter, cairo_context, polygon_symbolizer, CoordTransform, proj_transform, agg::trans_affine, conv_types> converter(query_extent_,context,sym,t_,prj_trans,tr,1.0); if (sym.clip()) converter.set(); //optional clip (default: true) converter.set(); //always transform converter.set(); if (sym.smooth() > 0.0) converter.set(); // optional smooth converter BOOST_FOREACH( geometry_type & geom, feature.paths()) { if (geom.size() > 2) { converter.apply(geom); } } // fill polygon context.fill(); } void cairo_renderer_base::process(building_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { typedef coord_transform path_type; cairo_context context(context_); context.set_operator(sym.comp_op()); color const& fill = sym.get_fill(); double height = 0.0; expression_ptr height_expr = sym.height(); if (height_expr) { value_type result = boost::apply_visitor(evaluate(feature), *height_expr); height = result.to_double() * scale_factor_; } for (unsigned i = 0; i < feature.num_geometries(); ++i) { geometry_type const& geom = feature.get_geometry(i); if (geom.size() > 2) { boost::scoped_ptr frame(new geometry_type(LineString)); boost::scoped_ptr roof(new geometry_type(Polygon)); std::deque face_segments; double x0 = 0; double y0 = 0; double x, y; geom.rewind(0); for (unsigned cm = geom.vertex(&x, &y); cm != SEG_END; cm = geom.vertex(&x, &y)) { if (cm == SEG_MOVETO) { frame->move_to(x,y); } else if (cm == SEG_LINETO || cm == SEG_CLOSE) { frame->line_to(x,y); face_segments.push_back(segment_t(x0,y0,x,y)); } x0 = x; y0 = y; } std::sort(face_segments.begin(), face_segments.end(), y_order); std::deque::const_iterator itr = face_segments.begin(); std::deque::const_iterator end=face_segments.end(); for (; itr != end; ++itr) { boost::scoped_ptr faces(new geometry_type(Polygon)); faces->move_to(itr->get<0>(), itr->get<1>()); faces->line_to(itr->get<2>(), itr->get<3>()); faces->line_to(itr->get<2>(), itr->get<3>() + height); faces->line_to(itr->get<0>(), itr->get<1>() + height); path_type faces_path(t_, *faces, prj_trans); context.set_color(int(fill.red() * 0.8), int(fill.green() * 0.8), int(fill.blue() * 0.8), fill.alpha() * sym.get_opacity() / 255.0); context.add_path(faces_path); context.fill(); frame->move_to(itr->get<0>(), itr->get<1>()); frame->line_to(itr->get<0>(), itr->get<1>() + height); } geom.rewind(0); for (unsigned cm = geom.vertex(&x, &y); cm != SEG_END; cm = geom.vertex(&x, &y)) { if (cm == SEG_MOVETO) { frame->move_to(x,y+height); roof->move_to(x,y+height); } else if (cm == SEG_LINETO || cm == SEG_CLOSE) { frame->line_to(x,y+height); roof->line_to(x,y+height); } } path_type path(t_, *frame, prj_trans); context.set_color(fill.red()*0.8, fill.green()*0.8, fill.blue()*0.8,sym.get_opacity()); context.set_line_width(scale_factor_); context.add_path(path); context.stroke(); path_type roof_path(t_, *roof, prj_trans); context.set_color(fill, fill.alpha() * sym.get_opacity() / 255.0 ); context.add_path(roof_path); context.fill(); } } } void cairo_renderer_base::process(line_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { typedef boost::mpl::vector conv_types; cairo_context context(context_); mapnik::stroke const& stroke_ = sym.get_stroke(); context.set_operator(sym.comp_op()); context.set_color(stroke_.get_color(), stroke_.get_opacity()); context.set_line_join(stroke_.get_line_join()); context.set_line_cap(stroke_.get_line_cap()); context.set_miter_limit(stroke_.get_miterlimit()); context.set_line_width(stroke_.get_width() * scale_factor_); if (stroke_.has_dash()) { context.set_dash(stroke_.get_dash_array(), scale_factor_); } agg::trans_affine tr; evaluate_transform(tr, feature, sym.get_transform()); box2d clipping_extent = query_extent_; if (sym.clip()) { double padding = (double)(query_extent_.width()/width_); float half_stroke = stroke_.get_width()/2.0; if (half_stroke > 1) padding *= half_stroke; if (fabs(sym.offset()) > 0) padding *= fabs(sym.offset()) * 1.2; double x0 = query_extent_.minx(); double y0 = query_extent_.miny(); double x1 = query_extent_.maxx(); double y1 = query_extent_.maxy(); clipping_extent.init(x0 - padding, y0 - padding, x1 + padding , y1 + padding); } vertex_converter, cairo_context, line_symbolizer, CoordTransform, proj_transform, agg::trans_affine, conv_types> converter(clipping_extent,context,sym,t_,prj_trans,tr,scale_factor_); if (sym.clip()) converter.set(); // optional clip (default: true) converter.set(); // always transform if (fabs(sym.offset()) > 0.0) converter.set(); // parallel offset converter.set(); // optional affine transform if (sym.smooth() > 0.0) converter.set(); // optional smooth converter BOOST_FOREACH( geometry_type & geom, feature.paths()) { if (geom.size() > 1) { converter.apply(geom); } } // stroke context.stroke(); } void cairo_renderer_base::render_box(box2d const& b) { cairo_context context(context_); context.move_to(b.minx(), b.miny()); context.line_to(b.minx(), b.maxy()); context.line_to(b.maxx(), b.maxy()); context.line_to(b.maxx(), b.miny()); context.close_path(); context.stroke(); } void render_vector_marker(cairo_context & context, pixel_position const& pos, mapnik::svg_storage_type & vmarker, agg::pod_bvector const & attributes, agg::trans_affine const& tr, double opacity, bool recenter) { using namespace mapnik::svg; box2d bbox = vmarker.bounding_box(); agg::trans_affine mtx = tr; if (recenter) { coord c = bbox.center(); mtx = agg::trans_affine_translation(-c.x,-c.y); mtx *= tr; mtx.translate(pos.x, pos.y); } agg::trans_affine transform; for(unsigned i = 0; i < attributes.size(); ++i) { mapnik::svg::path_attributes const& attr = attributes[i]; if (!attr.visibility_flag) continue; context.save(); transform = attr.transform; transform *= mtx; // TODO - this 'is_valid' check is not used in the AGG renderer and also // appears to lead to bogus results with // tests/data/good_maps/markers_symbolizer_lines_file.xml if (/*transform.is_valid() && */ !transform.is_identity()) { double m[6]; transform.store_to(m); context.transform(Cairo::Matrix(m[0],m[1],m[2],m[3],m[4],m[5])); } vertex_stl_adapter stl_storage(vmarker.source()); svg_path_adapter svg_path(stl_storage); if (attr.fill_flag || attr.fill_gradient.get_gradient_type() != NO_GRADIENT) { context.add_agg_path(svg_path,attr.index); if (attr.even_odd_flag) { context.set_fill_rule(Cairo::FILL_RULE_EVEN_ODD); } else { context.set_fill_rule(Cairo::FILL_RULE_WINDING); } if(attr.fill_gradient.get_gradient_type() != NO_GRADIENT) { cairo_gradient g(attr.fill_gradient,attr.fill_opacity*opacity); context.set_gradient(g,bbox); context.fill(); } else if(attr.fill_flag) { double fill_opacity = attr.fill_opacity * opacity * attr.fill_color.opacity(); context.set_color(attr.fill_color.r,attr.fill_color.g,attr.fill_color.b, fill_opacity); context.fill(); } } if (attr.stroke_gradient.get_gradient_type() != NO_GRADIENT || attr.stroke_flag) { context.add_agg_path(svg_path,attr.index); if(attr.stroke_gradient.get_gradient_type() != NO_GRADIENT) { context.set_line_width(attr.stroke_width); context.set_line_cap(line_cap_enum(attr.line_cap)); context.set_line_join(line_join_enum(attr.line_join)); context.set_miter_limit(attr.miter_limit); cairo_gradient g(attr.stroke_gradient,attr.fill_opacity*opacity); context.set_gradient(g,bbox); context.stroke(); } else if (attr.stroke_flag) { double stroke_opacity = attr.stroke_opacity * opacity * attr.stroke_color.opacity(); context.set_color(attr.stroke_color.r,attr.stroke_color.g,attr.stroke_color.b, stroke_opacity); context.set_line_width(attr.stroke_width); context.set_line_cap(line_cap_enum(attr.line_cap)); context.set_line_join(line_join_enum(attr.line_join)); context.set_miter_limit(attr.miter_limit); context.stroke(); } } context.restore(); } } void cairo_renderer_base::render_marker(pixel_position const& pos, marker const& marker, const agg::trans_affine & tr, double opacity, bool recenter) { cairo_context context(context_); if (marker.is_vector()) { mapnik::svg_path_ptr vmarker = *marker.get_vector_data(); if (vmarker) { agg::pod_bvector const & attributes = vmarker->attributes(); render_vector_marker(context, pos, *vmarker, attributes, tr, opacity, recenter); } } else if (marker.is_bitmap()) { agg::trans_affine matrix = tr; matrix *= agg::trans_affine_translation(pos.x, pos.y); context.add_image(matrix, **marker.get_bitmap_data(), opacity); } } void cairo_renderer_base::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 marker; if ( !filename.empty() ) { marker = marker_cache::instance()->find(filename, true); } else { marker.reset(boost::make_shared()); } 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) label::centroid(geom, x, y); else label::interior_position(geom, x, y); prj_trans.backward(x, y, z); t_.forward(&x, &y); double dx = 0.5 * (*marker)->width(); double dy = 0.5 * (*marker)->height(); agg::trans_affine tr = agg::trans_affine_scaling(scale_factor_); evaluate_transform(tr, feature, sym.get_image_transform()); box2d label_ext (-dx, -dy, dx, dy); label_ext *= tr; label_ext *= agg::trans_affine_translation(x,y); if (sym.get_allow_overlap() || detector_.has_placement(label_ext)) { render_marker(pixel_position(x,y),**marker, tr, sym.get_opacity()); if (!sym.get_ignore_placement()) detector_.insert(label_ext); } } } } void cairo_renderer_base::process(shield_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { shield_symbolizer_helper, label_collision_detector4> helper( sym, feature, prj_trans, width_, height_, scale_factor_, t_, font_manager_, detector_, query_extent_); cairo_context context(context_); context.set_operator(sym.comp_op()); while (helper.next()) { placements_type const& placements = helper.placements(); for (unsigned int ii = 0; ii < placements.size(); ++ii) { pixel_position marker_pos = helper.get_marker_position(placements[ii]); double dx = 0.5 * helper.get_marker_width(); double dy = 0.5 * helper.get_marker_height(); agg::trans_affine marker_tr = agg::trans_affine_translation(-dx,-dy); marker_tr *= agg::trans_affine_scaling(scale_factor_); marker_tr *= agg::trans_affine_translation(dx,dy); marker_tr *= helper.get_image_transform(); render_marker(marker_pos, helper.get_marker(), marker_tr, sym.get_opacity()); context.add_text(placements[ii], face_manager_, font_manager_, scale_factor_); } } } void cairo_renderer_base::process(line_pattern_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { typedef agg::conv_clip_polyline clipped_geometry_type; typedef coord_transform path_type; std::string filename = path_processor_type::evaluate( *sym.get_filename(), feature); boost::optional marker = mapnik::marker_cache::instance()->find(filename,true); if (!marker && !(*marker)->is_bitmap()) return; unsigned width((*marker)->width()); unsigned height((*marker)->height()); cairo_context context(context_); context.set_operator(sym.comp_op()); cairo_pattern pattern(**((*marker)->get_bitmap_data())); pattern.set_extend(Cairo::EXTEND_REPEAT); pattern.set_filter(Cairo::FILTER_BILINEAR); context.set_line_width(height * scale_factor_); for (unsigned i = 0; i < feature.num_geometries(); ++i) { geometry_type & geom = feature.get_geometry(i); if (geom.size() > 1) { clipped_geometry_type clipped(geom); clipped.clip_box(query_extent_.minx(),query_extent_.miny(),query_extent_.maxx(),query_extent_.maxy()); path_type path(t_,clipped,prj_trans); double length(0); double x0(0), y0(0); double x, y; for (unsigned cm = path.vertex(&x, &y); cm != SEG_END; cm = path.vertex(&x, &y)) { if (cm == SEG_MOVETO) { length = 0.0; } else if (cm == SEG_LINETO) { double dx = x - x0; double dy = y - y0; double angle = atan2(dy, dx); double offset = fmod(length, width); Cairo::Matrix matrix; cairo_matrix_init_identity(&matrix); cairo_matrix_translate(&matrix,x0,y0); cairo_matrix_rotate(&matrix,angle); cairo_matrix_translate(&matrix,-offset,0.5*height); cairo_matrix_invert(&matrix); pattern.set_matrix(matrix); context.set_pattern(pattern); context.move_to(x0, y0); context.line_to(x, y); context.stroke(); length = length + hypot(x - x0, y - y0); } x0 = x; y0 = y; } } } } void cairo_renderer_base::process(polygon_pattern_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { typedef agg::conv_clip_polygon clipped_geometry_type; typedef coord_transform path_type; cairo_context context(context_); context.set_operator(sym.comp_op()); std::string filename = path_processor_type::evaluate( *sym.get_filename(), feature); boost::optional marker = mapnik::marker_cache::instance()->find(filename,true); if (!marker && !(*marker)->is_bitmap()) return; cairo_pattern pattern(**((*marker)->get_bitmap_data())); pattern.set_extend(Cairo::EXTEND_REPEAT); context.set_pattern(pattern); //pattern_alignment_e align = sym.get_alignment(); //unsigned offset_x=0; //unsigned offset_y=0; //if (align == LOCAL_ALIGNMENT) //{ // double x0 = 0; // double y0 = 0; // if (feature.num_geometries() > 0) // { // clipped_geometry_type clipped(feature.get_geometry(0)); // clipped.clip_box(query_extent_.minx(),query_extent_.miny(),query_extent_.maxx(),query_extent_.maxy()); // path_type path(t_,clipped,prj_trans); // path.vertex(&x0,&y0); // } // offset_x = unsigned(width_ - x0); // offset_y = unsigned(height_ - y0); //} agg::trans_affine tr; evaluate_transform(tr, feature, sym.get_transform()); typedef boost::mpl::vector conv_types; vertex_converter, cairo_context, polygon_pattern_symbolizer, CoordTransform, proj_transform, agg::trans_affine, conv_types> converter(query_extent_,context,sym,t_,prj_trans,tr, scale_factor_); if (sym.clip()) converter.set(); //optional clip (default: true) converter.set(); //always transform converter.set(); if (sym.smooth() > 0.0) converter.set(); // optional smooth converter BOOST_FOREACH( geometry_type & geom, feature.paths()) { if (geom.size() > 2) { converter.apply(geom); } } // fill polygon context.fill(); } void cairo_renderer_base::process(raster_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { raster_ptr const& source = feature.get_raster(); if (source) { // If there's a colorizer defined, use it to color the raster in-place raster_colorizer_ptr colorizer = sym.get_colorizer(); if (colorizer) colorizer->colorize(source,feature); box2d target_ext = box2d(source->ext_); prj_trans.backward(target_ext, PROJ_ENVELOPE_POINTS); box2d ext = t_.forward(target_ext); int start_x = static_cast(ext.minx()); int start_y = static_cast(ext.miny()); int end_x = static_cast(ceil(ext.maxx())); int end_y = static_cast(ceil(ext.maxy())); int raster_width = end_x - start_x; int raster_height = end_y - start_y; if (raster_width > 0 && raster_height > 0) { image_data_32 target_data(raster_width,raster_height); raster target(target_ext, target_data); scaling_method_e scaling_method = sym.get_scaling_method(); double filter_radius = sym.calculate_filter_factor(); double offset_x = ext.minx() - start_x; double offset_y = ext.miny() - start_y; if (!prj_trans.equal()) { reproject_and_scale_raster(target, *source, prj_trans, offset_x, offset_y, sym.get_mesh_size(), filter_radius, scaling_method); } else { if (scaling_method == SCALING_BILINEAR8){ scale_image_bilinear8(target.data_,source->data_, offset_x, offset_y); } else { double scaling_ratio = ext.width() / source->data_.width(); scale_image_agg(target.data_, source->data_, scaling_method, scaling_ratio, offset_x, offset_y, filter_radius); } } cairo_context context(context_); context.set_operator(sym.comp_op()); context.add_image(start_x, start_y, target.data_, sym.get_opacity()); } } } namespace detail { template struct markers_dispatch { markers_dispatch(Context & ctx, SvgPath & marker, Attributes const& attributes, Detector & detector, markers_symbolizer const& sym, box2d const& bbox, agg::trans_affine const& marker_trans, double scale_factor) :ctx_(ctx), marker_(marker), attributes_(attributes), detector_(detector), sym_(sym), bbox_(bbox), marker_trans_(marker_trans), scale_factor_(scale_factor) {} template void add_path(T & path) { marker_placement_e placement_method = sym_.get_marker_placement(); if (placement_method != MARKER_LINE_PLACEMENT) { double x,y; path.rewind(0); if (placement_method == MARKER_INTERIOR_PLACEMENT) { label::interior_position(path, x, y); } else { label::centroid(path, x, y); } coord2d center = bbox_.center(); agg::trans_affine matrix = agg::trans_affine_translation(-center.x, -center.y); matrix *= marker_trans_; matrix *=agg::trans_affine_translation(x, y); box2d transformed_bbox = bbox_ * matrix; if (sym_.get_allow_overlap() || detector_.has_placement(transformed_bbox)) { render_vector_marker(ctx_, pixel_position(x,y), marker_, attributes_, marker_trans_, sym_.get_opacity(), true); if (!sym_.get_ignore_placement()) { detector_.insert(transformed_bbox); } } } else { markers_placement placement(path, bbox_, marker_trans_, detector_, sym_.get_spacing() * scale_factor_, sym_.get_max_error(), sym_.get_allow_overlap()); double x, y, angle; while (placement.get_point(x, y, angle)) { agg::trans_affine matrix = marker_trans_; matrix.rotate(angle); render_vector_marker(ctx_, pixel_position(x,y),marker_, attributes_, matrix, sym_.get_opacity(), true); } } } Context & ctx_; SvgPath & marker_; Attributes const& attributes_; Detector & detector_; markers_symbolizer const& sym_; box2d const& bbox_; agg::trans_affine const& marker_trans_; double scale_factor_; }; template struct markers_dispatch_2 { markers_dispatch_2(Context & ctx, ImageMarker & marker, Detector & detector, markers_symbolizer const& sym, box2d const& bbox, agg::trans_affine const& marker_trans, double scale_factor) :ctx_(ctx), marker_(marker), detector_(detector), sym_(sym), bbox_(bbox), marker_trans_(marker_trans), scale_factor_(scale_factor) {} template void add_path(T & path) { marker_placement_e placement_method = sym_.get_marker_placement(); if (placement_method != MARKER_LINE_PLACEMENT) { double x,y; path.rewind(0); if (placement_method == MARKER_INTERIOR_PLACEMENT) { label::interior_position(path, x, y); } else { label::centroid(path, x, y); } coord2d center = bbox_.center(); agg::trans_affine matrix = agg::trans_affine_translation(-center.x, -center.y); matrix *= marker_trans_; matrix *=agg::trans_affine_translation(x, y); box2d transformed_bbox = bbox_ * matrix; if (sym_.get_allow_overlap() || detector_.has_placement(transformed_bbox)) { ctx_.add_image(matrix, *marker_, sym_.get_opacity()); if (!sym_.get_ignore_placement()) { detector_.insert(transformed_bbox); } } } else { markers_placement placement(path, bbox_, marker_trans_, detector_, sym_.get_spacing() * scale_factor_, sym_.get_max_error(), sym_.get_allow_overlap()); double x, y, angle; while (placement.get_point(x, y, angle)) { coord2d center = bbox_.center(); agg::trans_affine matrix = agg::trans_affine_translation(-center.x, -center.y); matrix *= marker_trans_; matrix *= agg::trans_affine_rotation(angle); matrix *= agg::trans_affine_translation(x, y); ctx_.add_image(matrix, *marker_, sym_.get_opacity()); } } } Context & ctx_; ImageMarker & marker_; Detector & detector_; markers_symbolizer const& sym_; box2d const& bbox_; agg::trans_affine const& marker_trans_; double scale_factor_; }; } void cairo_renderer_base::process(markers_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { typedef boost::mpl::vector conv_types; cairo_context context(context_); context.set_operator(sym.comp_op()); agg::trans_affine tr = agg::trans_affine_scaling(scale_factor_); std::string filename = path_processor_type::evaluate(*sym.get_filename(), feature); if (!filename.empty()) { boost::optional mark = mapnik::marker_cache::instance()->find(filename, true); if (mark && *mark) { agg::trans_affine geom_tr; evaluate_transform(geom_tr, feature, sym.get_transform()); box2d const& bbox = (*mark)->bounding_box(); setup_transform_scaling(tr, bbox, feature, sym); evaluate_transform(tr, feature, sym.get_image_transform()); if ((*mark)->is_vector()) { using namespace mapnik::svg; typedef agg::pod_bvector svg_attributes_type; typedef detail::markers_dispatch dispatch_type; boost::optional const& stock_vector_marker = (*mark)->get_vector_data(); expression_ptr const& width_expr = sym.get_width(); expression_ptr const& height_expr = sym.get_height(); // special case for simple ellipse markers // to allow for full control over rx/ry dimensions if (filename == "shape://ellipse" && (width_expr || height_expr)) { svg_storage_type marker_ellipse; vertex_stl_adapter stl_storage(marker_ellipse.source()); svg_path_adapter svg_path(stl_storage); build_ellipse(sym, feature, marker_ellipse, svg_path); svg_attributes_type attributes; bool result = push_explicit_style( (*stock_vector_marker)->attributes(), attributes, sym); agg::trans_affine marker_tr = agg::trans_affine_scaling(scale_factor_); evaluate_transform(marker_tr, feature, sym.get_image_transform()); box2d bbox = marker_ellipse.bounding_box(); dispatch_type dispatch(context, marker_ellipse, result?attributes:(*stock_vector_marker)->attributes(), detector_, sym, bbox, marker_tr, scale_factor_); vertex_converter, dispatch_type, markers_symbolizer, CoordTransform, proj_transform, agg::trans_affine, conv_types> converter(query_extent_, dispatch, sym, t_, prj_trans, marker_tr, scale_factor_); if (sym.clip() && feature.paths().size() > 0) // optional clip (default: true) { eGeomType type = feature.paths()[0].type(); if (type == Polygon) converter.set(); else if (type == LineString) converter.set(); // don't clip if type==Point } converter.set(); //always transform if (sym.smooth() > 0.0) converter.set(); // optional smooth converter BOOST_FOREACH(geometry_type & geom, feature.paths()) { converter.apply(geom); } } else { svg_attributes_type attributes; bool result = push_explicit_style( (*stock_vector_marker)->attributes(), attributes, sym); dispatch_type dispatch(context, **stock_vector_marker, result?attributes:(*stock_vector_marker)->attributes(), detector_, sym, bbox, tr, scale_factor_); vertex_converter, dispatch_type, markers_symbolizer, CoordTransform, proj_transform, agg::trans_affine, conv_types> converter(query_extent_, dispatch, sym, t_, prj_trans, tr, scale_factor_); if (sym.clip() && feature.paths().size() > 0) // optional clip (default: true) { eGeomType type = feature.paths()[0].type(); if (type == Polygon) converter.set(); else if (type == LineString) converter.set(); // don't clip if type==Point } converter.set(); //always transform if (sym.smooth() > 0.0) converter.set(); // optional smooth converter BOOST_FOREACH(geometry_type & geom, feature.paths()) { converter.apply(geom); } } } else // raster markers { typedef detail::markers_dispatch_2 dispatch_type; boost::optional marker = (*mark)->get_bitmap_data(); if ( marker ) { dispatch_type dispatch(context, *marker, detector_, sym, bbox, tr, scale_factor_); vertex_converter, dispatch_type, markers_symbolizer, CoordTransform, proj_transform, agg::trans_affine, conv_types> converter(query_extent_, dispatch, sym, t_, prj_trans, tr, scale_factor_); if (sym.clip() && feature.paths().size() > 0) // optional clip (default: true) { eGeomType type = feature.paths()[0].type(); if (type == Polygon) converter.set(); else if (type == LineString) converter.set(); // don't clip if type==Point } converter.set(); //always transform if (sym.smooth() > 0.0) converter.set(); // optional smooth converter BOOST_FOREACH(geometry_type & geom, feature.paths()) { converter.apply(geom); } } } } } } void cairo_renderer_base::process(text_symbolizer const& sym, mapnik::feature_impl & feature, proj_transform const& prj_trans) { text_symbolizer_helper, label_collision_detector4> helper( sym, feature, prj_trans, width_, height_, scale_factor_, t_, font_manager_, detector_, query_extent_); cairo_context context(context_); context.set_operator(sym.comp_op()); while (helper.next()) { placements_type const& placements = helper.placements(); for (unsigned int ii = 0; ii < placements.size(); ++ii) { context.add_text(placements[ii], face_manager_, font_manager_, scale_factor_); } } } template class cairo_renderer; template class cairo_renderer; } #endif // HAVE_CAIRO