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I have to find a min path from a source and destination where source and destination are the same node and I want a minimum fixed number of nodes in the path. I thought to implement a Dijkstra algorithm (in Java) with the variant that k nodes are included into the minimum path. (k is a minimum number of nodes to cover). It's correct? If yes, any suggestion for the implementation? Thanks in advance

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  • A problem is that the start node is marked when you start. You have to unmark it Jun 22, 2016 at 9:48
  • yes! Any ideas about implementation for the k nodes?
    – Denise
    Jun 22, 2016 at 9:54
  • This is at least as hard as solving the NP-hard Hamiltonian Cycle problem, since you could solve that problem simply by picking any vertex as the source/destination vertex, setting k=n, and then running your algorithm. Jun 22, 2016 at 11:53
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    In a path, no vertex can appear more than once. Is that really what you want? If so, xenteros's answer is solving a different problem (it counts walks, where repeated vertices and edges are allowed), and you're out of luck as the problem is NP-hard as I explained above. If instead you allow repeated vertices and edges, then you want to count walks -- so please edit. (Or, maybe you want to count trails, where vertices but not edges can be repeated.) Jun 22, 2016 at 12:09
  • The vertex can't repeat in the path because after I visited I mark it, instead the edges are allowed to repeated. So I think the xenteros's solution works if I make this variant in the algorithm. what do u think?
    – Denise
    Jun 22, 2016 at 13:22

1 Answer 1

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It's a good idea. Remember to set distance to source to INF instead of 0 at the beginning for correct result.

EDIT

A simple solution is to start from u, go to all adjacent vertices and recur for adjacent vertices with k as k-1, source as adjacent vertex and destination as v. Following is C++ implementation of this simple solution. GeeksForGeeks

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  • thank you for your reply.why set to INF? and how can i pass the k nodes to algorithm?
    – Denise
    Jun 22, 2016 at 9:53
  • there is an implementation under the posted URL
    – xenteros
    Jun 22, 2016 at 9:59
  • @Denise feel free to put uparrow and accepted answer next to my answer :)
    – xenteros
    Jun 22, 2016 at 10:08
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    The linked algorithm considers walks, where vertices (and edges) are allowed to repeat. The OP asks for paths, where vertices (and, therefore, edges) are not allowed to repeat. (It may be that the OP is confused about what s/he wants, but -1 at least until you clarify which problem the linked algorithm solves.) Jun 22, 2016 at 12:05
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    Unfortunately the DP no longer works in polynomial time if you do this, because you need to record the set of visited vertices as part of the DP state, and there are O(2^n) possible such sets. The non-DP algorithm still works of course, but it's also exponential-time. Jun 22, 2016 at 12:25

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