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I wrote a code segment to determine the longest path in a graph. Following is the code. But I don't know how to get the computational complexity in it because of the recursive method in the middle. Since finding the longest path is an NP complete problem I assume it's something like O(n!) or O(2^n), but how can I actually determine it?

public static int longestPath(int A) {
    int k;
    int dist2=0;
    int max=0;

    visited[A] = true;

    for (k = 1; k <= V; ++k) {
            dist2= length[A][k]+longestPath(k);
share|improve this question
up vote 8 down vote accepted

Your recurrence relation is T(n, m) = mT(n, m-1) + O(n), where n denotes number of nodes and m denotes number of unvisited nodes (because you call longestPath m times, and there is a loop which executes the visited test n times). The base case is T(n, 0) = O(n) (just the visited test).

Solve this and I believe you get T(n, n) is O(n * n!).



T(n, n) = nT(n, n-1) + O(n) 
        = n((n-1)T(n, n-2) + O(n)) + O(n) = ...
        = n(n-1)...1T(n, 0) + O(n)(1 + n + n(n-1) + ... + n(n-1)...2)
        = O(n)(1 + n + n(n-1) + ... + n!)
        = O(n)O(n!) (see
        = O(n*n!)
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I'm getting the idea. But can you please explain how you gotthe n! inside big O. – nirandi Dec 14 '10 at 14:22
thanks a lot. that makes more sense. The initial O(n) is due to the foor loop we have in the main code right? – nirandi Dec 14 '10 at 15:44
And also i think since for each node the maximum number of nodes to be visited is n-1 i think we ought to take T(n, n-1). – nirandi Dec 14 '10 at 16:17
ooh yes i guess that's right. which will give O(n!) i think – lijie Dec 14 '10 at 16:39

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