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I'm trying to implement Ford-Fulkerson/Edmonds-Karp only using adjacency matrix'. The only thing I'm not able to program is the function to calculate the shortest path, using BFS. The function to see if a shortest path actually exists is fine, but is it possible to also get the shortest path? Or is the only way to get the shortest path with BFS to use some kind of parent pointers, and traverse backwards to get the path?

Here is my code for see if path exists:

public static boolean existsPathFromSourceToSinkInGf(int Gf[][])
    LinkedList<Integer> queue = new LinkedList<Integer>();

    while (!queue.isEmpty())
        int v = queue.remove();
        if (v == sink) return true;
        for (int i = 0; i < 5; i++)

            if (Gf[v][i] != 0)
                if (!queue.contains((Integer)i))

    return false;

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Yes, you should use a parent and traverse back to get the array. Since your vertices are integers it can be done with a map which is actually an int[] - where parent[i] = the parent of node i –  amit Nov 15 '12 at 20:45

1 Answer 1

up vote 0 down vote accepted

The common way to do it would indeed be to maintain parent pointers each time you settle a node and to go backwards once you found your path.

You could also keep track of paths explicitly in your queue. Instead of using just an integer for your linkedlist, you could create your own class consisting of the integer and a string with something like "node 1-> node 3->...". It's less commonly used because of the overhead of the class and the paths, but it avoids having to keep the parent pointers on their own and having to traverse them in the end.

On a side note 2 remarks on your code:

  1. Why does it run for i=0..5?
  2. You check if (!queue.contains((Integer)i)) so you don't put a vertex on your queue that's already on it. You should also avoid putting vertices on that have already been removed from the list (try maintaining a set of visited nodes).
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