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I am applying the all-pairs shortest path algorithm (Floyd-Warshall) to this directed graph: alt text

The graph is represented by its adjacency matrix. The simple code looks like this:

public class ShortestPath {

public static void main(String[] args) {
    int x = Integer.MAX_VALUE;
    int [][] adj= {      
      {0, 6, x, 6, 7}, 
            {x, 0, 5, x, x}, 
            {x, x, 0, 9, 3}, 
            {x, x, 9, 0, 7}, 
            {x, 4, x, x, 0}};

    int [][] D = adj;

    for (int k=0; k<5; k++){
        for (int i=0; i<5; i++){
            for (int j=0; j<5; j++){
                if(D[i][k] != x && D[k][j] != x && D[i][k]+D[k][j] < D[i][j]){
                       D[i][j] = D[i][k]+D[k][j];                    
                   }
            }
        }       
    }

    //Print out the paths
    for (int r=0; r<5; r++) {
         for (int c=0; c<5; c++) {
             if(D[r][c] == x){
                 System.out.print("n/a"); 
             }else{
             System.out.print(" " + D[r][c]);
             }
         }
         System.out.println(" ");
     }
}

}

The above works fine as far as the algorithm is concerned.

I am trying to indicate that a path from any node to itself is not necessarily 0, as implied by the use of the adjacency matrix here, but can be any possible path through other nodes: For example B -...-...-...-B

Is there a way to modify my current representation to indicate that a shortest path from say, B to B, is not zero, but 12, following the B-C-E-B route? Can it be done by somehow modifying the adjacency matrix method?

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1 Answer

up vote 11 down vote accepted

Changing the diagonal elements adjacency matrix from 0 to infinity (theoretically) should work.

It means the self loop cost is infinite and any other path with less than this cost is better hence if a path exists from a node to itself, through other nodes, its cost will be finite and it will replace the infinite value.

Practically you can use maximum value of integer as infinite.

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2  
+1 The matrix is telling the algorithm that the B->B path is weight 0 so of course it will always be the shortest. Explicitly define the weights of the self edges to give them weight. :) –  PSpeed Dec 23 '09 at 19:27
    
Many thanks for the tip, quite straightforward actually. –  denchr Dec 23 '09 at 19:56
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