/*
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.
*/
#ifndef CREATEGRAPH_H
#define GRAPHLOADER_H
#include <cassert>
#include <cmath>
#include <fstream>
#include <iostream>
#include <iomanip>
#include <vector>
#include <google/dense_hash_map>
#ifdef _GLIBCXX_PARALLEL
#include <parallel/algorithm>
#else
#include <algorithm>
#endif
#include "../DataStructures/ImportEdge.h"
#include "../typedefs.h"
typedef google::dense_hash_map<NodeID, NodeID> ExternalNodeMap;
template<typename EdgeT>
NodeID readOSRMGraphFromStream(istream &in, vector<EdgeT>& edgeList, vector<NodeInfo> * int2ExtNodeMap) {
NodeID n, source, target, id;
EdgeID m;
int dir, xcoord, ycoord;// direction (0 = open, 1 = forward, 2+ = open)
ExternalNodeMap ext2IntNodeMap;
ext2IntNodeMap.set_empty_key(UINT_MAX);
in >> n;
VERBOSE(cout << "Importing n = " << n << " nodes ..." << flush;)
for (NodeID i=0; i<n;i++) {
in >> id >> ycoord >> xcoord;
int2ExtNodeMap->push_back(NodeInfo(xcoord, ycoord, id));
ext2IntNodeMap.insert(make_pair(id, i));
}
in >> m;
VERBOSE(cout << " and " << m << " edges ..." << flush;)
edgeList.reserve(m);
for (EdgeID i=0; i<m; i++) {
EdgeWeight weight;
short type;
NodeID nameID;
int length;
in >> source >> target >> length >> dir >> weight >> type >> nameID;
assert(length > 0);
assert(weight > 0);
assert(0<=dir && dir<=2);
bool forward = true;
bool backward = true;
if (1 == dir) backward = false;
if (2 == dir) forward = false;
if(length == 0)
{ cerr << "loaded null length edge" << endl; exit(1); }
// translate the external NodeIDs to internal IDs
ExternalNodeMap::iterator intNodeID = ext2IntNodeMap.find(source);
if( ext2IntNodeMap.find(source) == ext2IntNodeMap.end())
{
cerr << "after " << edgeList.size() << " edges" << endl;
cerr << "->" << source << "," << target << "," << length << "," << dir << "," << weight << endl;
cerr << "unresolved source NodeID: " << source << endl; exit(0);
}
source = intNodeID->second;
intNodeID = ext2IntNodeMap.find(target);
if(ext2IntNodeMap.find(target) == ext2IntNodeMap.end()) { cerr << "unresolved target NodeID : " << target << endl; exit(0); }
target = intNodeID->second;
if(source == UINT_MAX || target == UINT_MAX) { cerr << "nonexisting source or target" << endl; exit(0); }
EdgeT inputEdge(source, target, nameID, weight, forward, backward, type );
edgeList.push_back(inputEdge);
}
ext2IntNodeMap.clear();
vector<ImportEdge>(edgeList.begin(), edgeList.end()).swap(edgeList); //remove excess candidates.
cout << "ok" << endl;
return n;
}
template<typename EdgeT>
NodeID readDTMPGraphFromStream(istream &in, vector<EdgeT>& edgeList, vector<NodeInfo> * int2ExtNodeMap) {
NodeID n, source, target, id;
EdgeID m;
int dir, xcoord, ycoord;// direction (0 = open, 1 = forward, 2+ = open)
ExternalNodeMap ext2IntNodeMap;
ext2IntNodeMap.set_empty_key(UINT_MAX);
in >> n;
VERBOSE(cout << "Importing n = " << n << " nodes ..." << flush;)
for (NodeID i=0; i<n;i++) {
in >> id >> ycoord >> xcoord;
int2ExtNodeMap->push_back(NodeInfo(xcoord, ycoord, id));
ext2IntNodeMap.insert(make_pair(id, i));
}
in >> m;
VERBOSE(cout << " and " << m << " edges ..." << flush;)
edgeList.reserve(m);
for (EdgeID i=0; i<m; i++) {
EdgeWeight weight;
unsigned speedType(0);
short type(0);
// NodeID nameID;
int length;
in >> source >> target >> length >> dir >> speedType;
if(dir == 3)
dir = 0;
switch(speedType) {
case 1:
weight = 130;
break;
case 2:
weight = 120;
break;
case 3:
weight = 110;
break;
case 4:
weight = 100;
break;
case 5:
weight = 90;
break;
case 6:
weight = 80;
break;
case 7:
weight = 70;
break;
case 8:
weight = 60;
break;
case 9:
weight = 50;
break;
case 10:
weight = 40;
break;
case 11:
weight = 30;
break;
case 12:
weight = 20;
break;
case 13:
weight = length;
break;
case 15:
weight = 10;
break;
default:
weight = 0;
}
weight = length*weight/3.6;
if(speedType == 13)
weight = length;
assert(length > 0);
assert(weight > 0);
if(dir <0 || dir > 2)
std::cerr << "[error] direction bogus: " << dir << std::endl;
assert(0<=dir && dir<=2);
bool forward = true;
bool backward = true;
if (dir == 1) backward = false;
if (dir == 2) forward = false;
if(length == 0)
{ cerr << "loaded null length edge" << endl; exit(1); }
// translate the external NodeIDs to internal IDs
ExternalNodeMap::iterator intNodeID = ext2IntNodeMap.find(source);
if( ext2IntNodeMap.find(source) == ext2IntNodeMap.end())
{
cerr << "after " << edgeList.size() << " edges" << endl;
cerr << "->" << source << "," << target << "," << length << "," << dir << "," << weight << endl;
cerr << "unresolved source NodeID: " << source << endl; exit(0);
}
source = intNodeID->second;
intNodeID = ext2IntNodeMap.find(target);
if(ext2IntNodeMap.find(target) == ext2IntNodeMap.end()) { cerr << "unresolved target NodeID : " << target << endl; exit(0); }
target = intNodeID->second;
if(source == UINT_MAX || target == UINT_MAX) { cerr << "nonexisting source or target" << endl; exit(0); }
EdgeT inputEdge(source, target, 0, weight, forward, backward, type );
edgeList.push_back(inputEdge);
}
ext2IntNodeMap.clear();
vector<ImportEdge>(edgeList.begin(), edgeList.end()).swap(edgeList); //remove excess candidates.
cout << "ok" << endl;
return n;
}
template<typename EdgeT>
NodeID readDDSGGraphFromStream(istream &in, vector<EdgeT>& edgeList, vector<NodeInfo> * int2ExtNodeMap) {
NodeID n, source, target;
char d;
EdgeID m;
int dir;// direction (0 = open, 1 = forward, 2+ = open)
ExternalNodeMap ext2IntNodeMap;
ext2IntNodeMap.set_empty_key(UINT_MAX);
in >> d;
in >> n;
in >> m;
std::cout << n << " nodes and " << m << " edges ..." << flush;
edgeList.reserve(m);
for (EdgeID i=0; i<m; i++) {
EdgeWeight weight;
in >> source >> target >> weight >> dir;
// if(dir == 3)
// dir = 0;
assert(weight > 0);
if(dir <0 || dir > 3)
std::cerr << "[error] direction bogus: " << dir << std::endl;
assert(0<=dir && dir<=3);
bool forward = true;
bool backward = true;
if (dir == 1) backward = false;
if (dir == 2) forward = false;
if (dir == 3) {backward = true; forward = true;}
if(weight == 0)
{ cerr << "loaded null length edge" << endl; exit(1); }
if(source == UINT_MAX || target == UINT_MAX) { cerr << "nonexisting source or target" << endl; exit(0); }
EdgeT inputEdge(source, target, 0, weight, forward, backward, 1 );
edgeList.push_back(inputEdge);
}
ext2IntNodeMap.clear();
vector<ImportEdge>(edgeList.begin(), edgeList.end()).swap(edgeList); //remove excess candidates.
cout << "ok" << endl;
return n;
}
template<typename EdgeT>
unsigned readHSGRFromStream(istream &in, vector<EdgeT> * edgeList) {
unsigned numberOfNodes = 0;
ExternalNodeMap nodeMap; nodeMap.set_empty_key(UINT_MAX);
while(!in.eof()) {
EdgeT g;
EdgeData e;
int distance;
bool shortcut;
bool forward;
bool backward;
bool forwardTurn;
bool backwardTurn;
short type;
NodeID middle;
NodeID source;
NodeID target;
in.read((char *)&(distance), sizeof(int));
assert(distance > 0);
in.read((char *)&(forwardTurn), sizeof(bool));
in.read((char *)&(backwardTurn), sizeof(bool));
in.read((char *)&(shortcut), sizeof(bool));
in.read((char *)&(forward), sizeof(bool));
in.read((char *)&(backward), sizeof(bool));
in.read((char *)&(middle), sizeof(NodeID));
in.read((char *)&(type), sizeof(short));
in.read((char *)&(source), sizeof(NodeID));
in.read((char *)&(target), sizeof(NodeID));
e.backward = backward; e.distance = distance; e.forward = forward; e.middleName.middle = middle; e.shortcut = shortcut; e.type = type;
e.forwardTurn = forwardTurn; e.backwardTurn = backwardTurn;
g.data = e; g.source = source; g.target = target;
if(source > numberOfNodes)
numberOfNodes = source;
if(target > numberOfNodes)
numberOfNodes = target;
if(middle > numberOfNodes)
numberOfNodes = middle;
std::cout << "loaded edge (" << source << "," << target << ")" << std::endl;
edgeList->push_back(g);
}
return numberOfNodes+1;
}
#endif // CREATEGRAPH_H