/* ==========================================
* JGraphT : a free Java graph-theory library
* ==========================================
*
* Project Info: http://jgrapht.sourceforge.net/
* Project Creator: Barak Naveh (http://sourceforge.net/users/barak_naveh)
*
* (C) Copyright 2003-2008, by Barak Naveh and Contributors.
*
* This program and the accompanying materials are dual-licensed under
* either
*
* (a) the terms of the GNU Lesser General Public License version 2.1
* as published by the Free Software Foundation, or (at your option) any
* later version.
*
* or (per the licensee's choosing)
*
* (b) the terms of the Eclipse Public License v1.0 as published by
* the Eclipse Foundation.
*/
/* -------------
* EdgeReversedGraph.java
* -------------
* (C) Copyright 2006-2008, by John V. Sichi and Contributors.
*
* Original Author: John V. Sichi
* Contributor(s): -
*
* $Id$
*
* Changes
* -------
* 16-Sept-2006 : Initial revision (JVS);
*
*/
package org.jgrapht.graph;
import java.util.*;
import org.jgrapht.*;
/**
* Provides an edge-reversed view g' of a directed graph g. The vertex sets for
* the two graphs are the same, but g' contains an edge (v2, v1) iff g contains
* an edge (v1, v2). g' is backed by g, so changes to g are reflected in g', and
* vice versa.
*
* <p>This class allows you to use a directed graph algorithm in reverse. For
* example, suppose you have a directed graph representing a tree, with edges
* from parent to child, and you want to find all of the parents of a node. To
* do this, simply create an edge-reversed graph and pass that as input to
* {@link org.jgrapht.traverse.DepthFirstIterator}.
*
* @author John V. Sichi
* @see AsUndirectedGraph
*/
public class EdgeReversedGraph<V, E>
extends GraphDelegator<V, E>
implements DirectedGraph<V, E>
{
/**
*/
private static final long serialVersionUID = 9091361782455418631L;
/**
* Creates a new EdgeReversedGraph.
*
* @param g the base (backing) graph on which the edge-reversed view will be
* based.
*/
public EdgeReversedGraph(DirectedGraph<V, E> g)
{
super(g);
}
/**
* @see Graph#getEdge(Object, Object)
*/
public E getEdge(V sourceVertex, V targetVertex)
{
return super.getEdge(targetVertex, sourceVertex);
}
/**
* @see Graph#getAllEdges(Object, Object)
*/
public Set<E> getAllEdges(V sourceVertex, V targetVertex)
{
return super.getAllEdges(targetVertex, sourceVertex);
}
/**
* @see Graph#addEdge(Object, Object)
*/
public E addEdge(V sourceVertex, V targetVertex)
{
return super.addEdge(targetVertex, sourceVertex);
}
/**
* @see Graph#addEdge(Object, Object, Object)
*/
public boolean addEdge(V sourceVertex, V targetVertex, E e)
{
return super.addEdge(targetVertex, sourceVertex, e);
}
/**
* @see DirectedGraph#inDegreeOf(Object)
*/
public int inDegreeOf(V vertex)
{
return super.outDegreeOf(vertex);
}
/**
* @see DirectedGraph#outDegreeOf(Object)
*/
public int outDegreeOf(V vertex)
{
return super.inDegreeOf(vertex);
}
/**
* @see DirectedGraph#incomingEdgesOf(Object)
*/
public Set<E> incomingEdgesOf(V vertex)
{
return super.outgoingEdgesOf(vertex);
}
/**
* @see DirectedGraph#outgoingEdgesOf(Object)
*/
public Set<E> outgoingEdgesOf(V vertex)
{
return super.incomingEdgesOf(vertex);
}
/**
* @see Graph#removeEdge(Object, Object)
*/
public E removeEdge(V sourceVertex, V targetVertex)
{
return super.removeEdge(targetVertex, sourceVertex);
}
/**
* @see Graph#getEdgeSource(Object)
*/
public V getEdgeSource(E e)
{
return super.getEdgeTarget(e);
}
/**
* @see Graph#getEdgeTarget(Object)
*/
public V getEdgeTarget(E e)
{
return super.getEdgeSource(e);
}
/**
* @see java.lang.Object#toString()
*/
public String toString()
{
return toStringFromSets(
vertexSet(),
edgeSet(),
true);
}
}
// End EdgeReversedGraph.java