/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2015 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 // for to_double #include #include #include #include // stl #include #include namespace mapnik { //! \brief Strings for the colorizer_mode enumeration static const char *colorizer_mode_strings[] = { "inherit", "linear", "discrete", "exact", "" }; IMPLEMENT_ENUM( colorizer_mode, colorizer_mode_strings ) colorizer_stop::colorizer_stop(float value, colorizer_mode mode, color const& _color, std::string const& label) : value_(value) , mode_(mode) , color_(_color) , label_(label) { } colorizer_stop::colorizer_stop(colorizer_stop const& stop) : value_(stop.value_) , mode_(stop.mode_) , color_(stop.color_) , label_(stop.label_) { } colorizer_stop::~colorizer_stop() { } bool colorizer_stop::operator==(colorizer_stop const& other) const { return (value_ == other.value_) && (color_ == other.color_) && (mode_ == other.mode_) && (label_ == other.label_); } std::string colorizer_stop::to_string() const { std::stringstream ss; ss << color_.to_string() << " " << value_ << " " << mode_.as_string(); return ss.str(); } raster_colorizer::raster_colorizer(colorizer_mode mode, color const& _color) : default_mode_(mode) , default_color_(_color) , epsilon_(std::numeric_limits::epsilon()) { } raster_colorizer::~raster_colorizer() { } bool raster_colorizer::add_stop(colorizer_stop const& stop) { //make sure stops are added in order of value if(stops_.size()) { if(stop.get_value() <= stops_.back().get_value()) { return false; } } stops_.push_back(stop); return true; } template void raster_colorizer::colorize(image_rgba8 & out, T const& in, boost::optional const& nodata, feature_impl const& f) const { using image_type = T; using pixel_type = typename image_type::pixel_type; const std::size_t width = std::min(in.width(), out.width()); const std::size_t height = std::min(in.height(), out.height()); for (std::size_t y = 0; y < height; ++y) { pixel_type const * in_row = in.get_row(y); image_rgba8::pixel_type * out_row = out.get_row(y); for (std::size_t x = 0; x < width; ++x) { pixel_type val = in_row[x]; if (nodata && (std::fabs(val - *nodata) < epsilon_)) { out_row[x] = 0; // rgba(0,0,0,0) } else { out_row[x] = get_color(val); } } } } inline unsigned interpolate(unsigned start, unsigned end, float fraction) { return static_cast(fraction * (static_cast(end) - static_cast(start)) + static_cast(start)); } unsigned raster_colorizer::get_color(float value) const { int stopCount = stops_.size(); //use default color if no stops if (stopCount == 0) { return default_color_.rgba(); } //1 - Find the stop that the value is in int stopIdx = -1; bool foundStopIdx = false; for(int i=0; i= stopCount) { //there is no next stop nextStopIdx = stopCount - 1; } //3 - Work out the mode colorizer_mode stopMode; if( stopIdx == -1 ) { //before the first stop stopMode = default_mode_; } else { stopMode = stops_[stopIdx].get_mode(); if(stopMode == COLORIZER_INHERIT) { stopMode = default_mode_; } } //4 - Calculate the colour color stopColor; color nextStopColor; float stopValue = 0; float nextStopValue = 0; color outputColor = get_default_color(); if(stopIdx == -1) { stopColor = default_color_; nextStopColor = stops_[nextStopIdx].get_color(); stopValue = value; nextStopValue = stops_[nextStopIdx].get_value(); } else { stopColor = stops_[stopIdx].get_color(); nextStopColor = stops_[nextStopIdx].get_color(); stopValue = stops_[stopIdx].get_value(); nextStopValue = stops_[nextStopIdx].get_value(); } switch(stopMode) { case COLORIZER_LINEAR: { //deal with this separately so we don't have to worry about div0 if(nextStopValue == stopValue) { outputColor = stopColor; } else { float fraction = (value - stopValue) / (nextStopValue - stopValue); unsigned r = interpolate(stopColor.red(), nextStopColor.red(),fraction); unsigned g = interpolate(stopColor.green(), nextStopColor.green(),fraction); unsigned b = interpolate(stopColor.blue(), nextStopColor.blue(),fraction); unsigned a = interpolate(stopColor.alpha(), nextStopColor.alpha(),fraction); outputColor.set_red(r); outputColor.set_green(g); outputColor.set_blue(b); outputColor.set_alpha(a); } } break; case COLORIZER_DISCRETE: outputColor = stopColor; break; case COLORIZER_EXACT: default: //approximately equal (within epsilon) if(std::fabs(value - stopValue) < epsilon_) { outputColor = stopColor; } else { outputColor = default_color_; } break; } /* MAPNIK_LOG_DEBUG(raster_colorizer) << "raster_colorizer: get_color " << value; MAPNIK_LOG_DEBUG(raster_colorizer) << "\tstopIdx: " << stopIdx; MAPNIK_LOG_DEBUG(raster_colorizer) << "\tnextStopIdx: " << nextStopIdx; MAPNIK_LOG_DEBUG(raster_colorizer) << "\tstopValue: " << stopValue; MAPNIK_LOG_DEBUG(raster_colorizer) << "\tnextStopValue: " << nextStopValue; MAPNIK_LOG_DEBUG(raster_colorizer) << "\tstopColor: " << stopColor.to_string(); MAPNIK_LOG_DEBUG(raster_colorizer) << "\tnextStopColor: " << nextStopColor.to_string(); MAPNIK_LOG_DEBUG(raster_colorizer) << "\tstopMode: " << stopMode.as_string(); MAPNIK_LOG_DEBUG(raster_colorizer) << "\toutputColor: " << outputColor.to_string(); */ return outputColor.rgba(); } template void raster_colorizer::colorize(image_rgba8 & out, image_gray8 const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray8s const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray16 const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray16s const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray32 const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray32s const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray32f const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray64 const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray64s const& in, boost::optionalconst& nodata, feature_impl const& f) const; template void raster_colorizer::colorize(image_rgba8 & out, image_gray64f const& in, boost::optionalconst& nodata, feature_impl const& f) const; }