Пример #1
0
 static  boost::python::tuple
 getstate(const raster_symbolizer& r)
 {
     return boost::python::make_tuple(r.get_mode(),r.get_scaling(),r.get_opacity(),r.get_filter_factor(),r.get_mesh_size());
 }
Пример #2
0
void agg_renderer<T>::process(raster_symbolizer const& sym,
                              Feature const& feature,
                              proj_transform const& prj_trans)
{
    raster_ptr const& raster=feature.get_raster();
    if (raster)
    {
        // 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(raster);
        
        box2d<double> ext=t_.forward(raster->ext_);
        
        int start_x = (int)ext.minx();
        int start_y = (int)ext.miny();
        int end_x = (int)ceil(ext.maxx());
        int end_y = (int)ceil(ext.maxy());
        int raster_width = end_x - start_x;
        int raster_height = end_y - start_y;
        double err_offs_x = ext.minx() - start_x;
        double err_offs_y = ext.miny() - start_y;
        
        if ( raster_width > 0 && raster_height > 0)
        {
            double scale_factor = ext.width() / raster->data_.width();
            image_data_32 target(raster_width,raster_height);
            
            if (sym.get_scaling() == "bilinear8"){
                scale_image_bilinear8<image_data_32>(target,raster->data_, err_offs_x, err_offs_y);
            } else {
                scaling_method_e scaling_method = get_scaling_method_by_name(sym.get_scaling());
                scale_image_agg<image_data_32>(target,raster->data_, (scaling_method_e)scaling_method, scale_factor, err_offs_x, err_offs_y, sym.calculate_filter_factor());
            }
            
            if (sym.get_mode() == "normal"){
                if (sym.get_opacity() == 1.0) {
                    pixmap_.set_rectangle_alpha(start_x,start_y,target);
                } else {
                    pixmap_.set_rectangle_alpha2(target,start_x,start_y, sym.get_opacity());
                }
            } else if (sym.get_mode() == "grain_merge"){
                pixmap_.template merge_rectangle<MergeGrain> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "grain_merge2"){
                pixmap_.template merge_rectangle<MergeGrain2> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "multiply"){
                pixmap_.template merge_rectangle<Multiply> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "multiply2"){
                pixmap_.template merge_rectangle<Multiply2> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "divide"){
                pixmap_.template merge_rectangle<Divide> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "divide2"){
                pixmap_.template merge_rectangle<Divide2> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "screen"){
                pixmap_.template merge_rectangle<Screen> (target,start_x,start_y, sym.get_opacity());
            } else if (sym.get_mode() == "hard_light"){
                pixmap_.template merge_rectangle<HardLight> (target,start_x,start_y, sym.get_opacity());
            } else {
                if (sym.get_opacity() == 1.0){
                    pixmap_.set_rectangle(start_x,start_y,target);
                } else {
                    pixmap_.set_rectangle_alpha2(target,start_x,start_y, sym.get_opacity());
                }
            }
            // TODO: other modes? (add,diff,sub,...)
        }
    }
}