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What is the most efficient shortest path algorithm performed on a graph that is not directed and only has positive edges out of these five algorithms?

  1. BFS
  2. DAG
  3. Dijkstra
  4. Floyd-Warshall
  5. Bellman-Ford

So I know Dijkstra's can't be used on negative edges and has a running time of O(E * logV) where E is the number of edges and V is the number of vertices, so this would be my best guess. Is this correct?

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    DAG is not really an algorithm (it's a class of graphs) and the rest also differ in what they do: Dijkstra (in its original form) is single source to single target, Bellman-Ford is single source to all vertices and Floyd-Warshall gives you the shortest path between any two vertices. – biziclop Oct 16 '15 at 10:14
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    A* is probably the most efficient if you can provide a good heuristic. – piotrekg2 Oct 16 '15 at 10:20
  • @piotrekg2 ...which is an informed version of Dijkstra. – biziclop Oct 16 '15 at 10:22
  • These are rather different algorithms suitable for different problems, and therefore the question does not make much sense. You can try editing your question to provide a specific problem you are facing. As it is currently written, I'm voting to close it as too broad. – Petr Oct 16 '15 at 10:26
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If you need to find the shortest path in an unweighted graph, BFS would be the best option, however if there are weights on the edges, and you only need to find the optimal route between a single source and one or many other nodes, Dijkstra would be the best option. If you need to find the shortest path between any two pairs of nodes(i.e. have multiple sources), the best option is Floyd-Warshall.

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