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I have a problem where I need to search for all unique paths in an undirected graph of degree <=4. The graph is basically a grid, and all connections are between direct neighbors only (4-way).

  • A path cannot visit the same vertex more than once.
  • A path can visit any number of vertices to make a path.
  • A path contains at least 2 vertices.

How do I go about this problem?

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Is this a connected graph? – Argote Apr 4 '11 at 8:34
I can't understand the meaning of unique path, buy your definition I think there are at most 4*n unique path, each path is one edge. – Saeed Amiri Apr 4 '11 at 8:41
I believe the graph is connected (all vertices can be reached) – Morrowless Apr 4 '11 at 8:42
@Saeed I think the requirement that a path cannot visit the same vertex more than once simply means that the path cannot contain any cycles. – Joel Lee Apr 4 '11 at 8:46
@Joel, This is a simple path definition in all graph references (i.e see wiki), but I don't know what's the meaning of unique? finding simple paths in graph, is simple backtracking but if the OP wants anything else I want to know about it. – Saeed Amiri Apr 4 '11 at 9:18
up vote 1 down vote accepted

Here's the pseudocode I just came up with:

  1. Start at any node.
  2. Get all of its paths
  3. See where they lead, if it's a node that has not been visited then visit it.
  4. Call the same function recursively for the nodes from the previous paths.
  5. Keep a counter for the number of paths.

This would be this code in Java (untested):

public int getPaths (Node n, Set<Node> nodesVisited) {
    int pathCount = 0;
    for (Path p : n.getPaths()) {
        Node otherSide = p.getOtherNode(n); // Where this function basically takes a node and gets the other node in the path
        if (!(nodesVisited.contains(otherSide))) {
            pathCount += 1 + getPaths(otherSide, new Set<Nodes>(nodesVisited));
    return pathCount;

This should find the paths from one starting node. You can start it on each node but you'd get some duplicates. To weed them out you'd also need to return the paths though.

share|improve this answer
Thanks, this sounds like it could work. I'll try it tonight. – Morrowless Apr 4 '11 at 9:18
Confirmed to work, even though I need to find ways to speed this up quite a bit.. – Morrowless Apr 4 '11 at 14:16

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