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nanomap/monav/utils/edgeconnector.h

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/*
Copyright 2010 Christian Vetter veaac.fdirct@gmail.com
This file is part of MoNav.
MoNav is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
MoNav 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 General Public License
along with MoNav. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef EDGECONNECTOR_H
#define EDGECONNECTOR_H
#include "utils/coordinates.h"
#include <vector>
#include <QMultiHash>
#include <algorithm>
static uint qHash( const UnsignedCoordinate& key )
{
return qHash( key.x ) ^ qHash( key.y );
}
template< class Node >
class EdgeConnector
{
public:
struct Edge {
Node source;
Node target;
bool reverseable;
};
static void run( std::vector< unsigned >* segments, std::vector< unsigned >* segmentDescriptions, std::vector< bool >* reversed, const std::vector< Edge >& edges )
{
// build node index
QMultiHash< Node, unsigned > nodes;
QMultiHash< Node, unsigned > backwardNodes;
for ( unsigned i = 0; i < edges.size(); i++ ) {
nodes.insert( edges[i].source, i );
backwardNodes.insert( edges[i].target, i );
if ( edges[i].reverseable ) {
nodes.insert( edges[i].target, i );
backwardNodes.insert( edges[i].source, i );
}
}
std::vector< bool > used( edges.size(), false );
reversed->resize( edges.size(), false );
for ( unsigned i = 0; i < edges.size(); i++ ) {
if ( used[i] )
continue;
unsigned lastSize = segmentDescriptions->size();
segmentDescriptions->push_back( i );
used[i] = true;
removeEdge( &nodes, &backwardNodes, edges[i], i );
// chain edges forward
Node lastNode = edges[i].target;
while ( nodes.contains( lastNode ) ) {
unsigned nextEdge = nodes.value( lastNode );
assert( !used[nextEdge] );
if ( lastNode != edges[nextEdge].source ) {
assert( lastNode == edges[nextEdge].target );
assert( edges[nextEdge].reverseable );
( *reversed )[nextEdge] = true;
lastNode = edges[nextEdge].source;
} else {
lastNode = edges[nextEdge].target;
}
segmentDescriptions->push_back( nextEdge );
used[nextEdge] = true;
removeEdge( &nodes, &backwardNodes, edges[nextEdge], nextEdge );
}
// chain edges backward
std::vector< unsigned > backwardsPath;
lastNode = edges[i].source;
while ( backwardNodes.contains( lastNode ) ) {
unsigned nextEdge = backwardNodes.value( lastNode );
assert( !used[nextEdge] );
if ( lastNode != edges[nextEdge].target ) {
assert( lastNode == edges[nextEdge].source );
assert( edges[nextEdge].reverseable );
( *reversed )[nextEdge] = true;
lastNode = edges[nextEdge].target;
} else {
lastNode = edges[nextEdge].source;
}
backwardsPath.push_back( nextEdge );
used[nextEdge] = true;
removeEdge( &nodes, &backwardNodes, edges[nextEdge], nextEdge );
}
segmentDescriptions->insert( segmentDescriptions->begin() + lastSize, backwardsPath.rbegin(), backwardsPath.rend() );
segments->push_back( segmentDescriptions->size() - lastSize );
}
assert( segmentDescriptions->size() == edges.size() );
}
protected:
static void removeEdge( QMultiHash< Node, unsigned >* nodes, QMultiHash< Node, unsigned >* backwardsNodes, const Edge& edge, unsigned value )
{
nodes->remove( edge.source, value );
nodes->remove( edge.target, value );
backwardsNodes->remove( edge.target, value );
backwardsNodes->remove( edge.source, value );
}
};
#endif // EDGECONNECTOR_H