Ejemplo n.º 1
0
void apply_markers_multi(feature_impl const& feature, attributes const& vars, Converter & converter, markers_symbolizer const& sym)
{
    std::size_t geom_count = feature.paths().size();
    if (geom_count == 1)
    {
        converter.apply(feature.paths()[0]);
    }
    else if (geom_count > 1)
    {
        marker_multi_policy_enum multi_policy = get<marker_multi_policy_enum>(sym, keys::markers_multipolicy, feature, vars, MARKER_EACH_MULTI);
        marker_placement_enum placement = get<marker_placement_enum>(sym, keys::markers_placement_type, feature, vars, MARKER_POINT_PLACEMENT);

        if (placement == MARKER_POINT_PLACEMENT &&
            multi_policy == MARKER_WHOLE_MULTI)
        {
            double x, y;
            if (label::centroid_geoms(feature.paths().begin(), feature.paths().end(), x, y))
            {
                geometry_type pt(geometry_type::types::Point);
                pt.move_to(x, y);
                // unset any clipping since we're now dealing with a point
                converter.template unset<clip_poly_tag>();
                converter.apply(pt);
            }
        }
        else if ((placement == MARKER_POINT_PLACEMENT || placement == MARKER_INTERIOR_PLACEMENT) &&
                 multi_policy == MARKER_LARGEST_MULTI)
        {
            // Only apply to path with largest envelope area
            // TODO: consider using true area for polygon types
            double maxarea = 0;
            geometry_type const* largest = 0;
            for (geometry_type const& geom : feature.paths())
            {
                const box2d<double>& env = geom.envelope();
                double area = env.width() * env.height();
                if (area > maxarea)
                {
                    maxarea = area;
                    largest = &geom;
                }
            }
            if (largest)
            {
                converter.apply(*largest);
            }
        }
        else
        {
            if (multi_policy != MARKER_EACH_MULTI && placement != MARKER_POINT_PLACEMENT)
            {
                MAPNIK_LOG_WARN(marker_symbolizer) << "marker_multi_policy != 'each' has no effect with marker_placement != 'point'";
            }
            for (geometry_type const& path : feature.paths())
            {
                converter.apply(path);
            }
        }
    }
}
Ejemplo n.º 2
0
void agg_renderer<T>::process(markers_symbolizer const& sym,
                              feature_impl & feature,
                              proj_transform const& prj_trans)
{
    typedef agg::rgba8 color_type;
    typedef agg::order_rgba order_type;
    typedef agg::pixel32_type pixel_type;
    typedef agg::comp_op_adaptor_rgba_pre<color_type, order_type> blender_type; // comp blender
    typedef agg::rendering_buffer buf_type;
    typedef agg::pixfmt_custom_blend_rgba<blender_type, buf_type> pixfmt_comp_type;
    typedef agg::renderer_base<pixfmt_comp_type> renderer_base;
    typedef label_collision_detector4 detector_type;
    typedef boost::mpl::vector<clip_line_tag,clip_poly_tag,transform_tag,smooth_tag> conv_types;

    std::string filename = path_processor_type::evaluate(*sym.get_filename(), feature);

    if (!filename.empty())
    {
        boost::optional<marker_ptr> mark = mapnik::marker_cache::instance().find(filename, true);
        if (mark && *mark)
        {
            ras_ptr->reset();
            ras_ptr->gamma(agg::gamma_power());
            agg::trans_affine geom_tr;
            evaluate_transform(geom_tr, feature, sym.get_transform());
            agg::trans_affine tr = agg::trans_affine_scaling(scale_factor_);

            if ((*mark)->is_vector())
            {
                using namespace mapnik::svg;
                typedef agg::renderer_scanline_aa_solid<renderer_base> renderer_type;
                typedef agg::pod_bvector<path_attributes> svg_attribute_type;
                typedef svg_renderer_agg<svg_path_adapter,
                                     svg_attribute_type,
                                     renderer_type,
                                     pixfmt_comp_type > svg_renderer_type;
                typedef vector_markers_rasterizer_dispatch<buf_type,
                                     svg_renderer_type,
                                     rasterizer,
                                     detector_type > dispatch_type;
                boost::optional<svg_path_ptr> 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<svg_path_storage> stl_storage(marker_ellipse.source());
                    svg_path_adapter svg_path(stl_storage);
                    build_ellipse(sym, feature, marker_ellipse, svg_path);
                    svg_attribute_type attributes;
                    bool result = push_explicit_style( (*stock_vector_marker)->attributes(), attributes, sym);
                    svg_renderer_type svg_renderer(svg_path, result ? attributes : (*stock_vector_marker)->attributes());
                    evaluate_transform(tr, feature, sym.get_image_transform());
                    box2d<double> bbox = marker_ellipse.bounding_box();
                    coord2d center = bbox.center();
                    agg::trans_affine_translation recenter(-center.x, -center.y);
                    agg::trans_affine marker_trans = recenter * tr;
                    buf_type render_buffer(current_buffer_->raw_data(), width_, height_, width_ * 4);
                    dispatch_type rasterizer_dispatch(render_buffer,svg_renderer,*ras_ptr,
                                                      bbox, marker_trans, sym, *detector_, scale_factor_);
                    vertex_converter<box2d<double>, dispatch_type, markers_symbolizer,
                                     CoordTransform, proj_transform, agg::trans_affine, conv_types>
                        converter(query_extent_, rasterizer_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.template set<clip_poly_tag>();
                        // line clipping disabled due to https://github.com/mapnik/mapnik/issues/1426
                        //else if (type == LineString)
                        //    converter.template set<clip_line_tag>();
                        // don't clip if type==Point
                    }
                    converter.template set<transform_tag>(); //always transform
                    if (sym.smooth() > 0.0) converter.template set<smooth_tag>(); // optional smooth converter
                    apply_markers_multi(feature, converter, sym);
                }
                else
                {
                    box2d<double> const& bbox = (*mark)->bounding_box();
                    setup_transform_scaling(tr, bbox, feature, sym);
                    evaluate_transform(tr, feature, sym.get_image_transform());
                    coord2d center = bbox.center();
                    agg::trans_affine_translation recenter(-center.x, -center.y);
                    agg::trans_affine marker_trans = recenter * tr;
                    vertex_stl_adapter<svg_path_storage> stl_storage((*stock_vector_marker)->source());
                    svg_path_adapter svg_path(stl_storage);
                    svg_attribute_type attributes;
                    bool result = push_explicit_style( (*stock_vector_marker)->attributes(), attributes, sym);
                    svg_renderer_type svg_renderer(svg_path, result ? attributes : (*stock_vector_marker)->attributes());
                    buf_type render_buffer(current_buffer_->raw_data(), width_, height_, width_ * 4);
                    dispatch_type rasterizer_dispatch(render_buffer,svg_renderer,*ras_ptr,
                                                      bbox, marker_trans, sym, *detector_, scale_factor_);
                    vertex_converter<box2d<double>, dispatch_type, markers_symbolizer,
                                     CoordTransform, proj_transform, agg::trans_affine, conv_types>
                        converter(query_extent_, rasterizer_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.template set<clip_poly_tag>();
                        // line clipping disabled due to https://github.com/mapnik/mapnik/issues/1426
                        //else if (type == LineString)
                        //    converter.template set<clip_line_tag>();
                        // don't clip if type==Point
                    }
                    converter.template set<transform_tag>(); //always transform
                    if (sym.smooth() > 0.0) converter.template set<smooth_tag>(); // optional smooth converter
                    apply_markers_multi(feature, converter, sym);
                }
            }
            else // raster markers
            {
                box2d<double> const& bbox = (*mark)->bounding_box();
                setup_transform_scaling(tr, bbox, feature, sym);
                evaluate_transform(tr, feature, sym.get_image_transform());
                coord2d center = bbox.center();
                agg::trans_affine_translation recenter(-center.x, -center.y);
                agg::trans_affine marker_trans = recenter * tr;
                boost::optional<mapnik::image_ptr> marker = (*mark)->get_bitmap_data();
                typedef raster_markers_rasterizer_dispatch<buf_type,rasterizer, detector_type> dispatch_type;
                buf_type render_buffer(current_buffer_->raw_data(), width_, height_, width_ * 4);
                dispatch_type rasterizer_dispatch(render_buffer,*ras_ptr, **marker,
                                                  marker_trans, sym, *detector_, scale_factor_);
                vertex_converter<box2d<double>, dispatch_type, markers_symbolizer,
                                 CoordTransform, proj_transform, agg::trans_affine, conv_types>
                    converter(query_extent_, rasterizer_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.template set<clip_poly_tag>();
                    // line clipping disabled due to https://github.com/mapnik/mapnik/issues/1426
                    //else if (type == LineString)
                    //    converter.template set<clip_line_tag>();
                    // don't clip if type==Point
                }
                converter.template set<transform_tag>(); //always transform
                if (sym.smooth() > 0.0) converter.template set<smooth_tag>(); // optional smooth converter
                apply_markers_multi(feature, converter, sym);
            }
        }
    }
}