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This is a follow-up question of Why most graph algorithms do not adapt so easily to negative numbers?.

I think Shortest Path (SP) has problem with negative weights, because it adds up all weights along the paths and tries to find the minimum one.

But I don't think Minimum Spanning Tree (MST) has problems with negative weights, because it just takes the single minimum weight edge without caring about the overall total weights.

Am I right?

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considered computer science @ stackexchange ? –  Hongbo Zhu May 2 '12 at 12:54
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@HongboZhu yeah, maybe next time –  Jackson Tale May 2 '12 at 12:59
    
BTW when all the edges in graph are negative, finding shortest path is the same problem as finding longest path for the graph with edges labeled with absolute value of their original length. Longest path problem is known to be NP-hard. –  Palec Jan 11 at 19:17

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up vote 20 down vote accepted

Yes, you are right. The concept of MST allows weights of an arbitrary sign. The two most popular algorithms for finding MST (Kruskal's and Prim's) work fine with negative edges.

Actually, you can just add a big positive constant to all the edges of your graph, making all the edges positive. The MST (as a subset of edges) will remain the same.

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The fact that a tree that is a sub-graph of a graph has a fixed number of edges depending on the number of vertices, so adding a number p to every edge cost increases the overall mst cost of pE. It is not true in finding shortest path, because the shortest paths can consist of different number of edges. –  enedil Jan 1 at 17:18

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