/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2010 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 * *****************************************************************************/ //$Id$ // mapnik #include #include #include namespace mapnik { template void agg_renderer::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 ext=t_.forward(raster->ext_); int start_x = rint(ext.minx()); int start_y = rint(ext.miny()); int raster_width = rint(ext.width()); int raster_height = rint(ext.height()); int end_x = start_x + raster_width; int end_y = start_y + raster_height; double err_offs_x = (ext.minx()-start_x + ext.maxx()-end_x)/2; double err_offs_y = (ext.miny()-start_y + ext.maxy()-end_y)/2; if ( raster_width > 0 && raster_height > 0) { image_data_32 target(raster_width,raster_height); if (sym.get_scaling() == "fast") { scale_image(target,raster->data_); } else if (sym.get_scaling() == "bilinear"){ scale_image_bilinear(target,raster->data_, err_offs_x, err_offs_y); } else if (sym.get_scaling() == "bilinear8"){ scale_image_bilinear8(target,raster->data_, err_offs_x, err_offs_y); } else { scale_image(target,raster->data_); } 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 (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "grain_merge2"){ pixmap_.template merge_rectangle (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "multiply"){ pixmap_.template merge_rectangle (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "multiply2"){ pixmap_.template merge_rectangle (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "divide"){ pixmap_.template merge_rectangle (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "divide2"){ pixmap_.template merge_rectangle (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "screen"){ pixmap_.template merge_rectangle (target,start_x,start_y, sym.get_opacity()); } else if (sym.get_mode() == "hard_light"){ pixmap_.template merge_rectangle (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,...) } } } template void agg_renderer::process(raster_symbolizer const&, Feature const&, proj_transform const&); }