osrm-backend/Extractor/XMLParser.cpp

/*
 open source routing machine
 Copyright (C) Dennis Luxen, others 2010

 This program is free software; you can redistribute it and/or modify
 it under the terms of the GNU AFFERO General Public License as published by
 the Free Software Foundation; either version 3 of the License, or
 any later version.

 This program 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 General Public License for more details.

 You should have received a copy of the GNU Affero General Public License
 along with this program; if not, write to the Free Software
 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 or see http://www.gnu.org/licenses/agpl.txt.
 */

#include "XMLParser.h"

#include "ExtractorStructs.h"
#include "../DataStructures/HashTable.h"
#include "../DataStructures/InputReaderFactory.h"

#include <boost/ref.hpp>

XMLParser::XMLParser(const char * filename, ExtractorCallbacks* ec, ScriptingEnvironment& se) : BaseParser(ec, se) {
	SimpleLogger().Write(logWARNING) <<
		"Parsing plain .osm/.osm.bz2 is deprecated. Switch to .pbf";

	inputReader = inputReaderFactory(filename);
}

bool XMLParser::ReadHeader() {
	return (xmlTextReaderRead( inputReader ) == 1);
}
bool XMLParser::Parse() {
	while ( xmlTextReaderRead( inputReader ) == 1 ) {
		const int type = xmlTextReaderNodeType( inputReader );

		//1 is Element
		if ( type != 1 ) {
			continue;
		}

		xmlChar* currentName = xmlTextReaderName( inputReader );
		if ( currentName == NULL ) {
			continue;
		}

		if ( xmlStrEqual( currentName, ( const xmlChar* ) "node" ) == 1 ) {
			ImportNode n = _ReadXMLNode();
			ParseNodeInLua( n, luaState );
			extractor_callbacks->nodeFunction(n);
//			if(!extractor_callbacks->nodeFunction(n))
//				std::cerr << "[XMLParser] dense node not parsed" << std::endl;
		}

		if ( xmlStrEqual( currentName, ( const xmlChar* ) "way" ) == 1 ) {
			ExtractionWay way = _ReadXMLWay( );
			ParseWayInLua( way, luaState );
			extractor_callbacks->wayFunction(way);
//			if(!extractor_callbacks->wayFunction(way))
//				std::cerr << "[PBFParser] way not parsed" << std::endl;
		}
		if( use_turn_restrictions ) {
			if ( xmlStrEqual( currentName, ( const xmlChar* ) "relation" ) == 1 ) {
				_RawRestrictionContainer r = _ReadXMLRestriction();
				if(r.fromWay != UINT_MAX) {
					if(!extractor_callbacks->restrictionFunction(r)) {
						std::cerr << "[XMLParser] restriction not parsed" << std::endl;
					}
				}
			}
		}
		xmlFree( currentName );
	}
	return true;
}

_RawRestrictionContainer XMLParser::_ReadXMLRestriction() {
    _RawRestrictionContainer restriction;
    std::string except_tag_string;

	if ( xmlTextReaderIsEmptyElement( inputReader ) != 1 ) {
		const int depth = xmlTextReaderDepth( inputReader );while ( xmlTextReaderRead( inputReader ) == 1 ) {
			const int childType = xmlTextReaderNodeType( inputReader );
			if ( childType != 1 && childType != 15 ) {
				continue;
			}
			const int childDepth = xmlTextReaderDepth( inputReader );
			xmlChar* childName = xmlTextReaderName( inputReader );
			if ( childName == NULL ) {
				continue;
			}
			if ( depth == childDepth && childType == 15 && xmlStrEqual( childName, ( const xmlChar* ) "relation" ) == 1 ) {
				xmlFree( childName );
				break;
			}
			if ( childType != 1 ) {
				xmlFree( childName );
				continue;
			}

			if ( xmlStrEqual( childName, ( const xmlChar* ) "tag" ) == 1 ) {
				xmlChar* k = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "k" );
				xmlChar* value = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "v" );
				if ( k != NULL && value != NULL ) {
					if(xmlStrEqual(k, ( const xmlChar* ) "restriction" )){
						if(0 == std::string((const char *) value).find("only_")) {
							restriction.restriction.flags.isOnly = true;
						}
					}
					if ( xmlStrEqual(k, (const xmlChar *) "except") ) {
						except_tag_string = (const char*) value;
					}
				}

				if ( k != NULL ) {
					xmlFree( k );
				}
				if ( value != NULL ) {
					xmlFree( value );
				}
			} else if ( xmlStrEqual( childName, ( const xmlChar* ) "member" ) == 1 ) {
				xmlChar* ref = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "ref" );
				if ( ref != NULL ) {
					xmlChar * role = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "role" );
					xmlChar * type = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "type" );

					if(xmlStrEqual(role, (const xmlChar *) "to") && xmlStrEqual(type, (const xmlChar *) "way")) {
						restriction.toWay = stringToUint((const char*) ref);
					}
					if(xmlStrEqual(role, (const xmlChar *) "from") && xmlStrEqual(type, (const xmlChar *) "way")) {
						restriction.fromWay = stringToUint((const char*) ref);
					}
					if(xmlStrEqual(role, (const xmlChar *) "via") && xmlStrEqual(type, (const xmlChar *) "node")) {
						restriction.restriction.viaNode = stringToUint((const char*) ref);
					}

					if(NULL != type) {
						xmlFree( type );
					}
					if(NULL != role) {
						xmlFree( role );
					}
					if(NULL != ref) {
						xmlFree( ref );
					}
				}
			}
			xmlFree( childName );
		}
	}

	if( ShouldIgnoreRestriction(except_tag_string) ) {
		restriction.fromWay = UINT_MAX;				 //workaround to ignore the restriction
	}
	return restriction;
}

ExtractionWay XMLParser::_ReadXMLWay() {
	ExtractionWay way;
	if ( xmlTextReaderIsEmptyElement( inputReader ) != 1 ) {
		const int depth = xmlTextReaderDepth( inputReader );
		while ( xmlTextReaderRead( inputReader ) == 1 ) {
			const int childType = xmlTextReaderNodeType( inputReader );
			if ( childType != 1 && childType != 15 ) {
				continue;
			}
			const int childDepth = xmlTextReaderDepth( inputReader );
			xmlChar* childName = xmlTextReaderName( inputReader );
			if ( childName == NULL ) {
				continue;
			}

			if ( depth == childDepth && childType == 15 && xmlStrEqual( childName, ( const xmlChar* ) "way" ) == 1 ) {
				xmlChar* id = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "id" );
				way.id = stringToUint((char*)id);
				xmlFree(id);
				xmlFree( childName );
				break;
			}
			if ( childType != 1 ) {
				xmlFree( childName );
				continue;
			}

			if ( xmlStrEqual( childName, ( const xmlChar* ) "tag" ) == 1 ) {
				xmlChar* k = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "k" );
				xmlChar* value = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "v" );
				//				cout << "->k=" << k << ", v=" << value << endl;
				if ( k != NULL && value != NULL ) {
					way.keyVals.Add(std::string( (char *) k ), std::string( (char *) value));
				}
				if ( k != NULL ) {
					xmlFree( k );
				}
				if ( value != NULL ) {
					xmlFree( value );
				}
			} else if ( xmlStrEqual( childName, ( const xmlChar* ) "nd" ) == 1 ) {
				xmlChar* ref = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "ref" );
				if ( ref != NULL ) {
					way.path.push_back( stringToUint(( const char* ) ref ) );
					xmlFree( ref );
				}
			}
			xmlFree( childName );
		}
	}
	return way;
}

ImportNode XMLParser::_ReadXMLNode() {
	ImportNode node;

	xmlChar* attribute = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "lat" );
	if ( attribute != NULL ) {
		node.lat =  static_cast<NodeID>(COORDINATE_PRECISION*atof(( const char* ) attribute ) );
		xmlFree( attribute );
	}
	attribute = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "lon" );
	if ( attribute != NULL ) {
		node.lon =  static_cast<NodeID>(COORDINATE_PRECISION*atof(( const char* ) attribute ));
		xmlFree( attribute );
	}
	attribute = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "id" );
	if ( attribute != NULL ) {
		node.id =  stringToUint(( const char* ) attribute );
		xmlFree( attribute );
	}

	if ( xmlTextReaderIsEmptyElement( inputReader ) != 1 ) {
		const int depth = xmlTextReaderDepth( inputReader );
		while ( xmlTextReaderRead( inputReader ) == 1 ) {
			const int childType = xmlTextReaderNodeType( inputReader );
			// 1 = Element, 15 = EndElement
			if ( childType != 1 && childType != 15 ) {
				continue;
			}
			const int childDepth = xmlTextReaderDepth( inputReader );
			xmlChar* childName = xmlTextReaderName( inputReader );
			if ( childName == NULL ) {
				continue;
			}

			if ( depth == childDepth && childType == 15 && xmlStrEqual( childName, ( const xmlChar* ) "node" ) == 1 ) {
				xmlFree( childName );
				break;
			}
			if ( childType != 1 ) {
				xmlFree( childName );
				continue;
			}

			if ( xmlStrEqual( childName, ( const xmlChar* ) "tag" ) == 1 ) {
				xmlChar* k = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "k" );
				xmlChar* value = xmlTextReaderGetAttribute( inputReader, ( const xmlChar* ) "v" );
				if ( k != NULL && value != NULL ) {
					node.keyVals.Add(std::string( reinterpret_cast<char*>(k) ), std::string( reinterpret_cast<char*>(value)));
				}
				if ( k != NULL ) {
					xmlFree( k );
				}
				if ( value != NULL ) {
					xmlFree( value );
				}
			}

			xmlFree( childName );
		}
	}
	return node;
}