/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2017 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 #include #include #include #include #include #pragma GCC diagnostic push #include #include #include #pragma GCC diagnostic pop #include "raster_featureset.hpp" using mapnik::query; using mapnik::image_reader; using mapnik::feature_ptr; using mapnik::image_rgba8; using mapnik::raster; using mapnik::feature_factory; template raster_featureset::raster_featureset(LookupPolicy const& policy, box2d const& extent, query const& q) : policy_(policy), feature_id_(1), ctx_(std::make_shared()), extent_(extent), bbox_(q.get_bbox()), curIter_(policy_.begin()), endIter_(policy_.end()), filter_factor_(q.get_filter_factor()) { } template raster_featureset::~raster_featureset() { } template feature_ptr raster_featureset::next() { if (curIter_ != endIter_) { feature_ptr feature(feature_factory::create(ctx_,feature_id_++)); try { std::unique_ptr reader(mapnik::get_image_reader(curIter_->file(),curIter_->format())); MAPNIK_LOG_DEBUG(raster) << "raster_featureset: Reader=" << curIter_->format() << "," << curIter_->file() << ",size(" << curIter_->width() << "," << curIter_->height() << ")"; if (reader.get()) { int image_width = policy_.img_width(reader->width()); int image_height = policy_.img_height(reader->height()); if (image_width > 0 && image_height > 0) { mapnik::view_transform t(image_width, image_height, extent_, 0, 0); box2d intersect = bbox_.intersect(curIter_->envelope()); box2d ext = t.forward(intersect); box2d rem = policy_.transform(ext); // select minimum raster containing whole ext int x_off = static_cast(std::floor(ext.minx())); int y_off = static_cast(std::floor(ext.miny())); int end_x = static_cast(std::ceil(ext.maxx())); int end_y = static_cast(std::ceil(ext.maxy())); // clip to available data if (x_off >= image_width) x_off = image_width - 1; if (y_off >= image_height) y_off = image_height - 1; if (x_off < 0) x_off = 0; if (y_off < 0) y_off = 0; if (end_x > image_width) end_x = image_width; if (end_y > image_height) end_y = image_height; int width = end_x - x_off; int height = end_y - y_off; if (width < 1) width = 1; if (height < 1) height = 1; // calculate actual box2d of returned raster box2d feature_raster_extent(rem.minx() + x_off, rem.miny() + y_off, rem.maxx() + x_off + width, rem.maxy() + y_off + height); feature_raster_extent = t.backward(feature_raster_extent); mapnik::image_any data = reader->read(x_off, y_off, width, height); mapnik::raster_ptr raster = std::make_shared(feature_raster_extent, intersect, std::move(data), filter_factor_); feature->set_raster(raster); } } } catch (mapnik::image_reader_exception const& ex) { MAPNIK_LOG_ERROR(raster) << "Raster Plugin: image reader exception caught: " << ex.what(); } catch (std::exception const& ex) { MAPNIK_LOG_ERROR(raster) << "Raster Plugin: " << ex.what(); } catch (...) { MAPNIK_LOG_ERROR(raster) << "Raster Plugin: exception caught"; } ++curIter_; return feature; } return feature_ptr(); } std::string tiled_multi_file_policy::interpolate(std::string const& pattern, int x, int y) const { // TODO: make from some sort of configurable interpolation int tms_y = tile_stride_ * ((image_height_ / tile_size_) - y - 1); int tms_x = tile_stride_ * x; // TODO - optimize by avoiding boost::format std::string xs = (boost::format("%03d/%03d/%03d") % (tms_x / 1000000) % ((tms_x / 1000) % 1000) % (tms_x % 1000)).str(); std::string ys = (boost::format("%03d/%03d/%03d") % (tms_y / 1000000) % ((tms_y / 1000) % 1000) % (tms_y % 1000)).str(); std::string rv(pattern); boost::algorithm::replace_all(rv, "${x}", xs); boost::algorithm::replace_all(rv, "${y}", ys); return rv; } template class raster_featureset; template class raster_featureset; template class raster_featureset;