/***************************************************************************** * * 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 * *****************************************************************************/ // mapnik #include #include #include #include #include // boost #include #include namespace mapnik { struct wkb_reader : boost::noncopyable { private: enum wkbByteOrder { wkbXDR=0, wkbNDR=1 }; const char* wkb_; unsigned size_; unsigned pos_; wkbByteOrder byteOrder_; bool needSwap_; wkbFormat format_; public: enum wkbGeometryType { wkbPoint=1, wkbLineString=2, wkbPolygon=3, wkbMultiPoint=4, wkbMultiLineString=5, wkbMultiPolygon=6, wkbGeometryCollection=7, wkbPointZ=1001, wkbLineStringZ=1002, wkbPolygonZ=1003, wkbMultiPointZ=1004, wkbMultiLineStringZ=1005, wkbMultiPolygonZ=1006, wkbGeometryCollectionZ=1007 }; wkb_reader(const char* wkb, unsigned size, wkbFormat format) : wkb_(wkb), size_(size), pos_(0), format_(format) { // try to determine WKB format automatically if (format_ == wkbAuto) { if (size_ >= 44 && (unsigned char)(wkb_[0]) == (unsigned char)(0x00) && (unsigned char)(wkb_[38]) == (unsigned char)(0x7C)) { format_ = wkbSpatiaLite; } else { format_ = wkbGeneric; } } switch (format_) { case wkbSpatiaLite: byteOrder_ = (wkbByteOrder) wkb_[1]; pos_ = 39; break; case wkbGeneric: default: byteOrder_ = (wkbByteOrder) wkb_[0]; pos_ = 1; break; } #ifndef MAPNIK_BIG_ENDIAN needSwap_ = byteOrder_ ? wkbXDR : wkbNDR; #else needSwap_ = byteOrder_ ? wkbNDR : wkbXDR; #endif } void read(boost::ptr_vector & paths) { int type = read_integer(); switch (type) { case wkbPoint: read_point(paths); break; case wkbLineString: read_linestring(paths); break; case wkbPolygon: read_polygon(paths); break; case wkbMultiPoint: read_multipoint(paths); break; case wkbMultiLineString: read_multilinestring(paths); break; case wkbMultiPolygon: read_multipolygon(paths); break; case wkbGeometryCollection: read_collection(paths); break; case wkbPointZ: read_point_xyz(paths); break; case wkbLineStringZ: read_linestring_xyz(paths); break; case wkbPolygonZ: read_polygon_xyz(paths); break; case wkbMultiPointZ: read_multipoint_xyz(paths); break; case wkbMultiLineStringZ: read_multilinestring_xyz(paths); break; case wkbMultiPolygonZ: read_multipolygon_xyz(paths); break; case wkbGeometryCollectionZ: read_collection(paths); break; default: break; } } private: int read_integer() { boost::int32_t n; if (needSwap_) { read_int32_xdr(wkb_ + pos_, n); } else { read_int32_ndr(wkb_ + pos_, n); } pos_ += 4; return n; } double read_double() { double d; if (needSwap_) { read_double_xdr(wkb_ + pos_, d); } else { read_double_ndr(wkb_ + pos_, d); } pos_ += 8; return d; } void read_coords(CoordinateArray& ar) { if (! needSwap_) { for (unsigned i = 0; i < ar.size(); ++i) { read_double_ndr(wkb_ + pos_, ar[i].x); read_double_ndr(wkb_ + pos_ + 8, ar[i].y); pos_ += 16; // skip XY } } else { for (unsigned i=0;i & paths) { double x = read_double(); double y = read_double(); std::auto_ptr pt(new geometry_type(Point)); pt->move_to(x, y); paths.push_back(pt); } void read_multipoint(boost::ptr_vector & paths) { int num_points = read_integer(); for (int i = 0; i < num_points; ++i) { pos_ += 5; read_point(paths); } } void read_point_xyz(boost::ptr_vector & paths) { double x = read_double(); double y = read_double(); std::auto_ptr pt(new geometry_type(Point)); pos_ += 8; // double z = read_double(); pt->move_to(x, y); paths.push_back(pt); } void read_multipoint_xyz(boost::ptr_vector & paths) { int num_points = read_integer(); for (int i = 0; i < num_points; ++i) { pos_ += 5; read_point_xyz(paths); } } void read_linestring(boost::ptr_vector & paths) { int num_points = read_integer(); if (num_points > 0) { CoordinateArray ar(num_points); read_coords(ar); std::auto_ptr line(new geometry_type(LineString)); line->move_to(ar[0].x, ar[0].y); for (int i = 1; i < num_points; ++i) { line->line_to(ar[i].x, ar[i].y); } paths.push_back(line); } } void read_multilinestring(boost::ptr_vector & paths) { int num_lines = read_integer(); for (int i = 0; i < num_lines; ++i) { pos_ += 5; read_linestring(paths); } } void read_linestring_xyz(boost::ptr_vector & paths) { int num_points = read_integer(); if (num_points > 0) { CoordinateArray ar(num_points); read_coords_xyz(ar); std::auto_ptr line(new geometry_type(LineString)); line->move_to(ar[0].x, ar[0].y); for (int i = 1; i < num_points; ++i) { line->line_to(ar[i].x, ar[i].y); } paths.push_back(line); } } void read_multilinestring_xyz(boost::ptr_vector & paths) { int num_lines = read_integer(); for (int i = 0; i < num_lines; ++i) { pos_ += 5; read_linestring_xyz(paths); } } void read_polygon(boost::ptr_vector & paths) { int num_rings = read_integer(); if (num_rings > 0) { std::auto_ptr poly(new geometry_type(Polygon)); for (int i = 0; i < num_rings; ++i) { int num_points = read_integer(); if (num_points > 0) { CoordinateArray ar(num_points); read_coords(ar); poly->move_to(ar[0].x, ar[0].y); for (int j = 1; j < num_points; ++j) { poly->line_to(ar[j].x, ar[j].y); } } } if (poly->size() > 2) // ignore if polygon has less than 3 vertices paths.push_back(poly); } } void read_multipolygon(boost::ptr_vector & paths) { int num_polys = read_integer(); for (int i = 0; i < num_polys; ++i) { pos_ += 5; read_polygon(paths); } } void read_polygon_xyz(boost::ptr_vector & paths) { int num_rings = read_integer(); if (num_rings > 0) { std::auto_ptr poly(new geometry_type(Polygon)); for (int i = 0; i < num_rings; ++i) { int num_points = read_integer(); if (num_points > 0) { CoordinateArray ar(num_points); read_coords_xyz(ar); poly->move_to(ar[0].x, ar[0].y); for (int j = 1; j < num_points; ++j) { poly->line_to(ar[j].x, ar[j].y); } } } if (poly->size() > 2) // ignore if polygon has less than 3 vertices paths.push_back(poly); } } void read_multipolygon_xyz(boost::ptr_vector & paths) { int num_polys = read_integer(); for (int i = 0; i < num_polys; ++i) { pos_ += 5; read_polygon_xyz(paths); } } void read_collection(boost::ptr_vector & paths) { int num_geometries = read_integer(); for (int i = 0; i < num_geometries; ++i) { pos_ += 1; // skip byte order read(paths); } } std::string wkb_geometry_type_string(int type) { std::stringstream s; switch (type) { case wkbPoint: s << "Point"; break; case wkbLineString: s << "LineString"; break; case wkbPolygon: s << "Polygon"; break; case wkbMultiPoint: s << "MultiPoint"; break; case wkbMultiLineString: s << "MultiLineString"; break; case wkbMultiPolygon: s << "MultiPolygon"; break; case wkbGeometryCollection: s << "GeometryCollection"; break; case wkbPointZ: s << "PointZ"; break; case wkbLineStringZ: s << "LineStringZ"; break; case wkbPolygonZ: s << "PolygonZ"; break; case wkbMultiPointZ: s << "MultiPointZ"; break; case wkbMultiLineStringZ: s << "MultiLineStringZ"; break; case wkbMultiPolygonZ: s << "MultiPolygonZ"; break; case wkbGeometryCollectionZ: s << "GeometryCollectionZ"; break; default: s << "wkbUknown(" << type << ")"; break; } return s.str(); } }; bool geometry_utils::from_wkb(boost::ptr_vector& paths, const char* wkb, unsigned size, wkbFormat format) { unsigned geom_count = paths.size(); wkb_reader reader(wkb, size, format); reader.read(paths); if (paths.size() > geom_count) return true; return false; } }