/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2011 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 * *****************************************************************************/ // stl #include // mapnik #include // boost #include #include "shape_featureset.hpp" using mapnik::geometry_type; using mapnik::feature_factory; using mapnik::context_ptr; template shape_featureset::shape_featureset(const filterT& filter, const std::string& shape_name, const std::set& attribute_names, std::string const& encoding, long file_length, int row_limit) : filter_(filter), shape_(shape_name, false), query_ext_(), tr_(new transcoder(encoding)), file_length_(file_length), count_(0), row_limit_(row_limit) { ctx_ = boost::make_shared(); shape_.shp().skip(100); //attributes typename std::set::const_iterator pos = attribute_names.begin(); while (pos != attribute_names.end()) { bool found_name = false; for (int i = 0; i < shape_.dbf().num_fields(); ++i) { if (shape_.dbf().descriptor(i).name_ == *pos) { ctx_->push(*pos); attr_ids_.push_back(i); found_name = true; break; } } if (! found_name) { std::ostringstream s; s << "no attribute '" << *pos << "' in '" << shape_name << "'. Valid attributes are: "; std::vector list; for (int i = 0; i < shape_.dbf().num_fields(); ++i) { list.push_back(shape_.dbf().descriptor(i).name_); } s << boost::algorithm::join(list, ",") << "."; throw mapnik::datasource_exception("Shape Plugin: " + s.str()); } ++pos; } } template feature_ptr shape_featureset::next() { if (row_limit_ && count_ > row_limit_) { return feature_ptr(); } std::streampos pos = shape_.shp().pos(); // skip null shapes while (pos > 0 && pos < std::streampos(file_length_ * 2)) { shape_.move_to(pos); if (shape_.type() == shape_io::shape_null) { pos += std::streampos(12); } else { break; } } if (pos < std::streampos(file_length_ * 2)) { int type = shape_.type(); feature_ptr feature(feature_factory::create(ctx_, shape_.id_)); if (type == shape_io::shape_point) { double x = shape_.shp().read_double(); double y = shape_.shp().read_double(); geometry_type* point = new geometry_type(mapnik::Point); point->move_to(x, y); feature->add_geometry(point); ++count_; } else if (type == shape_io::shape_pointm) { double x = shape_.shp().read_double(); double y = shape_.shp().read_double(); // skip m shape_.shp().skip(8); geometry_type* point = new geometry_type(mapnik::Point); point->move_to(x, y); feature->add_geometry(point); ++count_; } else if (type == shape_io::shape_pointz) { double x = shape_.shp().read_double(); double y = shape_.shp().read_double(); // skip z shape_.shp().skip(8); // skip m if exists if (shape_.reclength_ == 8 + 36) { shape_.shp().skip(8); } geometry_type* point = new geometry_type(mapnik::Point); point->move_to(x, y); feature->add_geometry(point); ++count_; } else { // skip shapes for (;;) { std::streampos pos = shape_.shp().pos(); if (shape_.type() == shape_io::shape_null) { pos += std::streampos(12); // TODO handle the shapes std::cerr << "NULL SHAPE len=" << shape_.reclength_ << std::endl; } else if (filter_.pass(shape_.current_extent())) { break; } else { pos += std::streampos(2 * shape_.reclength_ - 36); } if (pos > 0 && pos < std::streampos(file_length_ * 2)) { shape_.move_to(pos); } else { #ifdef MAPNIK_DEBUG std::clog << "Shape Plugin: total shapes read=" << count_ << std::endl; #endif return feature_ptr(); } } switch (type) { case shape_io::shape_multipoint: { int num_points = shape_.shp().read_ndr_integer(); for (int i = 0; i < num_points; ++i) { double x = shape_.shp().read_double(); double y = shape_.shp().read_double(); geometry_type* point = new geometry_type(mapnik::Point); point->move_to(x, y); feature->add_geometry(point); } ++count_; break; } case shape_io::shape_multipointm: { int num_points = shape_.shp().read_ndr_integer(); for (int i = 0; i < num_points; ++i) { double x = shape_.shp().read_double(); double y = shape_.shp().read_double(); geometry_type* point = new geometry_type(mapnik::Point); point->move_to(x, y); feature->add_geometry(point); } // skip m shape_.shp().skip(2 * 8 + 8 * num_points); ++count_; break; } case shape_io::shape_multipointz: { int num_points = shape_.shp().read_ndr_integer(); for (int i = 0; i < num_points; ++i) { double x = shape_.shp().read_double(); double y = shape_.shp().read_double(); geometry_type* point = new geometry_type(mapnik::Point); point->move_to(x, y); feature->add_geometry(point); } // skip z shape_.shp().skip(2 * 8 + 8 * num_points); // check if we have measure data if (shape_.reclength_ == (unsigned)(num_points * 16 + 36)) { // skip m shape_.shp().skip(2 * 8 + 8 * num_points); } ++count_; break; } case shape_io::shape_polyline: case shape_io::shape_polylinem: case shape_io::shape_polylinez: { shape_.read_polyline(feature->paths()); ++count_; break; } case shape_io::shape_polygon: case shape_io::shape_polygonm: case shape_io::shape_polygonz: { shape_.read_polygon(feature->paths()); ++count_; break; } } } // FIXME feature->set_id(shape_.id_); if (attr_ids_.size()) { shape_.dbf().move_to(shape_.id_); std::vector::const_iterator itr = attr_ids_.begin(); std::vector::const_iterator end = attr_ids_.end(); try { for (; itr != end; ++itr) { shape_.dbf().add_attribute(*itr, *tr_, *feature); //TODO optimize!!! } } catch (...) { std::clog << "Shape Plugin: error processing attributes " << std::endl; } } return feature; } else { #ifdef MAPNIK_DEBUG std::clog << "Shape Plugin: total shapes read=" << count_ << std::endl; #endif return feature_ptr(); } } template shape_featureset::~shape_featureset() {} template class shape_featureset; template class shape_featureset;