/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2014 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 * *****************************************************************************/ #include "geojson_datasource.hpp" #include "geojson_featureset.hpp" #include "large_geojson_featureset.hpp" #include #include // boost #include #include // mapnik #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // boost.geometry - register box2d #if defined(SHAPE_MEMORY_MAPPED_FILE) #include #include #endif using mapnik::datasource; using mapnik::parameters; DATASOURCE_PLUGIN(geojson_datasource) struct attr_value_converter { mapnik::eAttributeType operator() (mapnik::value_integer) const { return mapnik::Integer; } mapnik::eAttributeType operator() (double) const { return mapnik::Double; } mapnik::eAttributeType operator() (float) const { return mapnik::Double; } mapnik::eAttributeType operator() (bool) const { return mapnik::Boolean; } mapnik::eAttributeType operator() (std::string const& ) const { return mapnik::String; } mapnik::eAttributeType operator() (mapnik::value_unicode_string const&) const { return mapnik::String; } mapnik::eAttributeType operator() (mapnik::value_null const& ) const { return mapnik::String; } }; geojson_datasource::geojson_datasource(parameters const& params) : datasource(params), type_(datasource::Vector), desc_(geojson_datasource::name(), *params.get("encoding","utf-8")), filename_(), inline_string_(), extent_(), features_(), tree_(nullptr) { boost::optional inline_string = params.get("inline"); if (inline_string) { inline_string_ = *inline_string; } else { boost::optional file = params.get("file"); if (!file) throw mapnik::datasource_exception("GeoJSON Plugin: missing parameter"); boost::optional base = params.get("base"); if (base) filename_ = *base + "/" + *file; else filename_ = *file; } if (!inline_string_.empty()) { char const* start = inline_string_.c_str(); char const* end = start + inline_string_.size(); parse_geojson(start, end); } else { cache_features_ = *params.get("cache_features", true); #if !defined(SHAPE_MEMORY_MAPPED_FILE) mapnik::util::file file(filename_); if (!file.open()) { throw mapnik::datasource_exception("GeoJSON Plugin: could not open: '" + filename_ + "'"); } std::string file_buffer; file_buffer.resize(file.size()); std::fread(&file_buffer[0], file.size(), 1, file.get()); char const* start = file_buffer.c_str(); char const* end = start + file_buffer.length(); if (cache_features_) { parse_geojson(start, end); } else { initialise_index(start, end); } #else boost::optional mapped_region = mapnik::mapped_memory_cache::instance().find(filename_, false); if (!mapped_region) { throw std::runtime_error("could not get file mapping for "+ filename_); } char const* start = reinterpret_cast((*mapped_region)->get_address()); char const* end = start + (*mapped_region)->get_size(); if (cache_features_) { parse_geojson(start, end); } else { initialise_index(start, end); } #endif } } namespace { using base_iterator_type = char const*; const mapnik::transcoder geojson_datasource_static_tr("utf8"); const mapnik::json::feature_collection_grammar geojson_datasource_static_fc_grammar(geojson_datasource_static_tr); const mapnik::json::feature_grammar geojson_datasource_static_feature_grammar(geojson_datasource_static_tr); const mapnik::json::extract_bounding_box_grammar geojson_datasource_static_bbox_grammar; } template void geojson_datasource::initialise_index(Iterator start, Iterator end) { mapnik::json::boxes boxes; boost::spirit::ascii::space_type space; Iterator itr = start; if (!boost::spirit::qi::phrase_parse(itr, end, (geojson_datasource_static_bbox_grammar)(boost::phoenix::ref(boxes)) , space)) { throw mapnik::datasource_exception("GeoJSON Plugin: could not parse: '" + filename_ + "'"); } // bulk insert initialise r-tree tree_ = std::make_unique(boxes); // calculate total extent for (auto const& item : boxes) { auto const& box = std::get<0>(item); auto const& geometry_index = std::get<1>(item); if (!extent_.valid()) { extent_ = box; // parse first feature to extract attributes schema. // NOTE: this doesn't yield correct answer for geoJSON in general, just an indication Iterator itr = start + geometry_index.first; Iterator end = itr + geometry_index.second; mapnik::context_ptr ctx = std::make_shared(); mapnik::feature_ptr feature(mapnik::feature_factory::create(ctx,1)); boost::spirit::ascii::space_type space; if (!boost::spirit::qi::phrase_parse(itr, end, (geojson_datasource_static_feature_grammar)(boost::phoenix::ref(*feature)), space)) { throw std::runtime_error("Failed to parse geojson feature"); } for ( auto const& kv : *feature) { desc_.add_descriptor(mapnik::attribute_descriptor(std::get<0>(kv), mapnik::util::apply_visitor(attr_value_converter(), std::get<1>(kv)))); } } else { extent_.expand_to_include(box); } } } template void geojson_datasource::parse_geojson(Iterator start, Iterator end) { boost::spirit::ascii::space_type space; mapnik::context_ptr ctx = std::make_shared(); std::size_t start_id = 1; mapnik::json::default_feature_callback callback(features_); bool result = boost::spirit::qi::phrase_parse(start, end, (geojson_datasource_static_fc_grammar) (boost::phoenix::ref(ctx),boost::phoenix::ref(start_id), boost::phoenix::ref(callback)), space); if (!result) { if (!inline_string_.empty()) throw mapnik::datasource_exception("geojson_datasource: Failed parse GeoJSON file from in-memory string"); else throw mapnik::datasource_exception("geojson_datasource: Failed parse GeoJSON file '" + filename_ + "'"); } using values_container = std::vector< std::pair>>; values_container values; values.reserve(features_.size()); std::size_t geometry_index = 0; for (mapnik::feature_ptr const& f : features_) { mapnik::box2d box = f->envelope(); if (box.valid()) { if (geometry_index == 0) { extent_ = box; for ( auto const& kv : *f) { desc_.add_descriptor(mapnik::attribute_descriptor(std::get<0>(kv), mapnik::util::apply_visitor(attr_value_converter(), std::get<1>(kv)))); } } else { extent_.expand_to_include(box); } } values.emplace_back(box, std::make_pair(geometry_index,0)); ++geometry_index; } // packing algorithm tree_ = std::make_unique(values); } geojson_datasource::~geojson_datasource() { } const char * geojson_datasource::name() { return "geojson"; } boost::optional geojson_datasource::get_geometry_type() const { boost::optional result; int multi_type = 0; if (cache_features_) { unsigned num_features = features_.size(); for (unsigned i = 0; i < num_features && i < 5; ++i) { mapnik::util::to_ds_type(features_[i]->paths(),result); if (result) { int type = static_cast(*result); if (multi_type > 0 && multi_type != type) { result.reset(mapnik::datasource::Collection); return result; } multi_type = type; } } } else { mapnik::util::file file(filename_); if (!file.open()) { throw mapnik::datasource_exception("GeoJSON Plugin: could not open: '" + filename_ + "'"); } auto itr = tree_->qbegin(boost::geometry::index::intersects(extent_)); auto end = tree_->qend(); mapnik::context_ptr ctx = std::make_shared(); for (std::size_t count = 0; itr !=end && count < 5; ++itr,++count) { geojson_datasource::item_type const& item = *itr; std::size_t file_offset = item.second.first; std::size_t size = item.second.second; std::fseek(file.get(), file_offset, SEEK_SET); std::vector json; json.resize(size); std::fread(json.data(), size, 1, file.get()); using chr_iterator_type = char const*; chr_iterator_type start = json.data(); chr_iterator_type end = start + json.size(); using namespace boost::spirit; ascii::space_type space; mapnik::feature_ptr feature(mapnik::feature_factory::create(ctx,1)); if (!qi::phrase_parse(start, end, (geojson_datasource_static_feature_grammar)(boost::phoenix::ref(*feature)), space)) { throw std::runtime_error("Failed to parse geojson feature"); } mapnik::util::to_ds_type(feature->paths(),result); if (result) { int type = static_cast(*result); if (multi_type > 0 && multi_type != type) { result.reset(mapnik::datasource::Collection); return result; } multi_type = type; } } } return result; } mapnik::datasource::datasource_t geojson_datasource::type() const { return type_; } mapnik::box2d geojson_datasource::envelope() const { return extent_; } mapnik::layer_descriptor geojson_datasource::get_descriptor() const { return desc_; } mapnik::featureset_ptr geojson_datasource::features(mapnik::query const& q) const { // if the query box intersects our world extent then query for features mapnik::box2d const& box = q.get_bbox(); if (extent_.intersects(box)) { geojson_featureset::array_type index_array; if (tree_) { tree_->query(boost::geometry::index::intersects(box),std::back_inserter(index_array)); if (cache_features_) { return std::make_shared(features_, std::move(index_array)); } else { std::sort(index_array.begin(),index_array.end(), [] (item_type const& item0, item_type const& item1) { return item0.second.first < item1.second.first; }); return std::make_shared(filename_, std::move(index_array)); } } } // otherwise return an empty featureset pointer return mapnik::featureset_ptr(); } mapnik::featureset_ptr geojson_datasource::features_at_point(mapnik::coord2d const& pt, double tol) const { mapnik::box2d query_bbox(pt, pt); query_bbox.pad(tol); mapnik::query q(query_bbox); std::vector const& desc = desc_.get_descriptors(); std::vector::const_iterator itr = desc.begin(); std::vector::const_iterator end = desc.end(); for ( ;itr!=end;++itr) { q.add_property_name(itr->get_name()); } return features(q); }