/***************************************************************************** * * This file is part of Mapnik (c++ mapping toolkit) * * Copyright (C) 2007 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 * *****************************************************************************/ //$Id$ #include #include #include #include #include #include #include // ogr #include "ogr_converter.hpp" using std::clog; using std::endl; using mapnik::feature_ptr; using mapnik::geometry_utils; using mapnik::geometry_type; void ogr_converter::convert_geometry (OGRGeometry* geom, feature_ptr feature, bool multiple_geometries) { switch (wkbFlatten (geom->getGeometryType())) { case wkbPoint: convert_point (static_cast(geom), feature); break; case wkbLineString: convert_linestring (static_cast(geom), feature); break; case wkbPolygon: convert_polygon (static_cast(geom), feature); break; case wkbMultiPoint: if (multiple_geometries) convert_multipoint_2 (static_cast(geom), feature); else // Todo - using convert_multipoint_2 until we have proper multipoint handling in convert_multipoint // http://trac.mapnik.org/ticket/458 //convert_multipoint (static_cast(geom), feature); convert_multipoint_2 (static_cast(geom), feature); break; case wkbMultiLineString: if (multiple_geometries) convert_multilinestring_2 (static_cast(geom), feature); else convert_multilinestring (static_cast(geom), feature); break; case wkbMultiPolygon: if (multiple_geometries) convert_multipolygon_2 (static_cast(geom), feature); else convert_multipolygon (static_cast(geom), feature); break; case wkbGeometryCollection: convert_collection (static_cast(geom), feature, multiple_geometries); break; case wkbLinearRing: convert_linestring (static_cast(geom), feature); break; case wkbNone: case wkbUnknown: default: #ifdef MAPNIK_DEBUG clog << "unknown geometry_type=" << wkbFlatten (geom->getGeometryType()) << endl; #endif break; } } void ogr_converter::convert_point (OGRPoint* geom, feature_ptr feature) { geometry_type * point = new geometry_type(mapnik::Point); point->move_to (geom->getX(), geom->getY()); feature->add_geometry (point); } void ogr_converter::convert_linestring (OGRLineString* geom, feature_ptr feature) { int num_points = geom->getNumPoints (); geometry_type * line = new geometry_type(mapnik::LineString); line->set_capacity (num_points); line->move_to (geom->getX (0), geom->getY (0)); for (int i=1;iline_to (geom->getX (i), geom->getY (i)); } feature->add_geometry (line); } void ogr_converter::convert_polygon (OGRPolygon* geom, feature_ptr feature) { OGRLinearRing* exterior = geom->getExteriorRing (); int num_points = exterior->getNumPoints (); int num_interior = geom->getNumInteriorRings (); int capacity = 0; for (int r=0;rgetInteriorRing (r); capacity += interior->getNumPoints (); } geometry_type * poly = new geometry_type(mapnik::Polygon); poly->set_capacity (num_points + capacity); poly->move_to (exterior->getX (0), exterior->getY (0)); for (int i=1;iline_to (exterior->getX (i), exterior->getY (i)); } for (int r=0;rgetInteriorRing (r); num_points = interior->getNumPoints (); poly->move_to(interior->getX (0), interior->getY (0)); for (int i=1;iline_to(interior->getX (i), interior->getY (i)); } } feature->add_geometry (poly); } void ogr_converter::convert_multipoint (OGRMultiPoint* geom, feature_ptr feature) { int num_geometries = geom->getNumGeometries (); geometry_type * point = new geometry_type(mapnik::Point); for (int i=0;i(geom->getGeometryRef (i)); point->move_to (ogrpoint->getX(), ogrpoint->getY()); //Todo - need to accept multiple points per mapnik::Point } // Todo - this only gets last point feature->add_geometry (point); } void ogr_converter::convert_multipoint_2 (OGRMultiPoint* geom, feature_ptr feature) { int num_geometries = geom->getNumGeometries (); for (int i=0;i(geom->getGeometryRef (i)), feature); } } void ogr_converter::convert_multilinestring (OGRMultiLineString* geom, feature_ptr feature) { int num_geometries = geom->getNumGeometries (); int num_points = 0; for (int i=0;i(geom->getGeometryRef (i)); num_points += ls->getNumPoints (); } geometry_type * line = new geometry_type(mapnik::LineString); line->set_capacity (num_points); for (int i=0;i(geom->getGeometryRef (i)); num_points = ls->getNumPoints (); line->move_to (ls->getX (0), ls->getY (0)); for (int i=1;iline_to (ls->getX (i), ls->getY (i)); } } feature->add_geometry (line); } void ogr_converter::convert_multilinestring_2 (OGRMultiLineString* geom, feature_ptr feature) { int num_geometries = geom->getNumGeometries (); for (int i=0;i(geom->getGeometryRef (i)), feature); } } void ogr_converter::convert_multipolygon (OGRMultiPolygon* geom, feature_ptr feature) { int num_geometries = geom->getNumGeometries (); int capacity = 0; for (int i=0;i(geom->getGeometryRef (i)); OGRLinearRing* exterior = p->getExteriorRing (); capacity += exterior->getNumPoints (); for (int r=0;rgetNumInteriorRings ();r++) { OGRLinearRing* interior = p->getInteriorRing (r); capacity += interior->getNumPoints (); } } geometry_type * poly = new geometry_type(mapnik::Polygon); poly->set_capacity (capacity); for (int i=0;i(geom->getGeometryRef (i)); OGRLinearRing* exterior = p->getExteriorRing (); int num_points = exterior->getNumPoints (); int num_interior = p->getNumInteriorRings (); poly->move_to (exterior->getX (0), exterior->getY (0)); for (int i=1;iline_to (exterior->getX (i), exterior->getY (i)); } for (int r=0;rgetInteriorRing (r); num_points = interior->getNumPoints (); poly->move_to(interior->getX (0), interior->getY (0)); for (int i=1;iline_to(interior->getX (i), interior->getY (i)); } } } feature->add_geometry (poly); } void ogr_converter::convert_multipolygon_2 (OGRMultiPolygon* geom, feature_ptr feature) { int num_geometries = geom->getNumGeometries (); for (int i=0;i(geom->getGeometryRef (i)), feature); } } void ogr_converter::convert_collection (OGRGeometryCollection* geom, feature_ptr feature, bool multiple_geometries) { int num_geometries = geom->getNumGeometries (); for (int i=0;igetGeometryRef (i); if (g != NULL) { convert_geometry (g, feature, multiple_geometries); } } }