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Given two nodes A and B from a directed JUNG graph, I want to determine whether there is more than one path from A to B (not necessarely a shortest path).

I can think of two approaches only, both very time-consuming.

  1. Retrieve all paths connecting the two nodes (question Finding all paths in JUNG?) and check if there is more than one.

  2. Retrieve the shortest path by using the class DijkstraShortestPath, then break this path and search for the shortest path again. If there is still one, it means there were multiple paths. Note that this also requires to clone the graph, since I do not want to alter the original graph.

How can I do this smarter (i.e. faster)?

share|improve this question
Do you want to know whether there is more than one shortest path, or just more than one path? Further, are you interested in modifications that remove vertices, or just edges? If you're interested in modifications that remove a vertex, BiComponentClusterer may be of interest: jung.sourceforge.net/doc/api/edu/uci/ics/jung/algorithms/… – Joshua O'Madadhain Apr 5 '13 at 18:17
Just more than one path. I'm not sure if to modify the graph is the smartest way to solve this problem, but I will try the BiComponentClusterer. Nevertheless, I do not understand why it accepts only an UndirectedGraph. Do I need to clone my entire graph to remove all edge directions? – Alphaaa Apr 8 '13 at 8:10
I'd have to check, but I'll bet that BiComponentClusterer doesn't actually need the "UndirectedGraph" constraint. Try modifying it so that it takes a Graph and see if it works; it should be an easy change. – Joshua O'Madadhain Apr 9 '13 at 1:35
Now that I think about it, it actually makes sense that this class accepts only UndirectedGraph. Even if I manage to pass a DirectedGraph, the edge direction would be ignored, so I could not use this class to detect directed paths. Am I right? – Alphaaa Apr 19 '13 at 8:53
up vote 0 down vote accepted

I found a solution myself.

My problem has the additional constraint that I only want to check whether there is more than one path only for two nodes that are directly connected with and edge. This means that by simply computing the shortest path you will always get this single edge as path.

So, my question can be reformulated as:

Is there another path connecting the two nodes of an edge, aside from the edge itself?

The solution is to use a weighted shortest path. If we assign a very high weight to our edge of interest, and weight 1 to all the others, then if the minimal distance is lower than our high weight, the answer is YES, otherwise NO.

Here is the code:

public static boolean areThereMultiplePaths(final Edge edge, DirectedGraph<Entity, Edge> graph) {
        Transformer<Edge, Integer> transformer = new Transformer<Edge, Integer>() {
            public Integer transform(Edge otherEdge) {
                if (otherEdge.equals(edge))
                    return Integer.MAX_VALUE;
                    return 1;

        DijkstraShortestPath<Entity, Edge> algorithm = new DijkstraShortestPath<Entity, Edge>(graph, transformer);
        Double distance = (Double) algorithm.getDistance(edge.getStartNode(), edge.getEndNode());

        return distance < Integer.MAX_VALUE; 
share|improve this answer
That constraint makes all the difference; wish you'd mentioned that before. In this context you have a more elegant solution: remove the edge, run Dijkstra, and see whether there is a non-null distance. – Joshua O'Madadhain Apr 20 '13 at 2:26
You are right, I only later realized I had that additional constraint. In any case, in my question I already say that this elegant solution is not possible, as I do not want to alter the graph. The only way would be to clone the graph, but I guess that this would make the solution more time-consuming than mine. – Alphaaa Apr 22 '13 at 12:53
Why is altering the graph such a big deal? Are there other readers that are looking at the graph while you're running this computation? (You can put the edge back when you're done with no side effects.) Side note: 'distance' can be null, so you can get a NPE thrown on your last line in your code as written. – Joshua O'Madadhain Apr 26 '13 at 3:42
If I can put the edge back without side effects, then also that solution is a good alternative. Thanks for pointing that out. – Alphaaa May 2 '13 at 9:25
JUNG itself does not have side effects associated with removing edges. – Joshua O'Madadhain May 31 '13 at 4:20

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