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Update: I really botched the original question. My original title was "Why do we first do a topological sort for acyclic weighted digraph shortest path problems?" but my question content was about Dijkstra's algorithm. Hopefully since I've changed the title, the question is updated in such a way that it is useful to someone else. The answer to the updated question title is "yes".

Original question:

Why do I need to do a topological sort first? (see code here) Can't I just use Dijkstra's algorithm shown below and avoid the topological sort altogether (little messy syntax-wise but you get the idea)

MinIndexedPriorityQueue waitingEdges = new MinIndexedPriorityQueue
Graph g //some weighted directed graph
double[] distTo = new double[g.vertexCount]
Edge[] edgeTo = new Edge[g.vertexCount]
int source = //init to some value

void minPathInit()
    init distTo to double.MAX_VALUE
    //init first node
    distTo [source] = 0
    while waitingEdges.count>0
        int vertex = waitingEdges.dequeue()
        relax(vertex )

void relax(v) //note that visit has been renamed to relax
    for each edge in graph.getEdgesFrom(v)
        int to= edge.to
        if edge.weight + distTo [edge.from]<  distTo [to]
            distTo[to] = edge.weight + distTo [edge.from]
            edgeTo[to] = edge
            if waitingEdges.contains(to)
                waitingEdges.change(to,  distTo[to] )
                waitingEdges.enqueue(to,  distTo[to] )

//after everything is initialized
    if not hasBeenVisited[v]
        return null
    Stack path = new Stack
    while edgeTo[v] != source
        v = edgeTo[v].from
    return path

I can understand why Dijkstra's algorithm can't handle negative cycles (because it would get stuck in an infinite loop) but if there are no negative cycles, why does it fail as shown (and require the topological sort first)

Update: Ok, I can see that I've botched up this question so I will try to fix it up a bit with an update. Thanks for taking the time to point the hole's out for me. I mistakenly thought AcyclicSP becomes Dijkstra's algorithm when removing the topological sort which is not the case.

However, my question about Dijkstra's algorithm (using the version shown above) remains. Why can't it be used even if there is a negative weight so long as there are no cycles? There is a java version of Dijkstra's algorithm here. Mine is very similar to this (since this guy's book is where I learned about it) but his example is probably easier to read for some of you.

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Where is the topological sort in your post? And no, you don't need it for finding a path with Dijkstra from a source to destination. –  Petar Minchev Sep 26 '11 at 9:10
Why the question is tagges with a java tag? –  Frozen Spider Sep 26 '11 at 9:13
Not only do you not need to do a topological sort to find a shortest path, i don't see how doing one could help. –  Tom Anderson Sep 26 '11 at 9:13
@i8abug "acrylic" ? –  harold Sep 26 '11 at 9:16
@harold, I suspect he mean acyclic (spell checker bug?), but it doesn't matter if its cyclic or not. –  Peter Lawrey Sep 26 '11 at 9:18

3 Answers 3

up vote 2 down vote accepted

You don't make any topological sort in the original algorithm. But in the case of an a-cyclic graph, then you can decrees the running time to O(V) (while the original running time is O(|V|*log(|V|)). The reason is that you sort in O(|V|) time, and then you can use that order, and don't need any heap (or priority queue). So the over all time decreases to O(|V|).

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Dijkstra's algorithm doesn't appear to require a topological sort. Perhaps doing so avoids a bug you have in your implementation.

Dijkstra's algorithm doesn't support negative path costs, but does handle looping cycles. It does this by stopping when it finds that there is a shorter path to a node. A looping path will not be shorter and there for stop (provided the cost is non-negative)

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Thanks Peter. Perhaps I extracted something incorrectly from the book I'm reading but it seemed to imply that I had to use an algorithm other than Dijkstra's algorithm for solving graphs with no cycles that have negative weights. But if there are no cycles, perhaps I can still use Dijkstra's. Is this true? –  i8abug Sep 26 '11 at 10:34
As I said Dijkstra's algorithm ... does handle looping cycles Its only negative weights it is not guaranteed to handle. BTW: Negative weights are difficult to make any sense of. E.g. say you have a garden with many paths and the weights are lengths, the ones with negative weights are those with a negative length e.g. -5 meters long. –  Peter Lawrey Sep 26 '11 at 10:39
Thanks for the clarification. I understand that it handles cycles if there are no negative paths. Will it work for a graph that has some negative paths but no cycles? –  i8abug Sep 26 '11 at 10:49
I don't see why it wouldn't. With a positive path, you can't pass over it more than once and set the shortest path. With negative paths, if you could pass over it more than once, the problem becomes unsolvable. Its similar to trying to find the longest path with cycles and positive path weights. –  Peter Lawrey Sep 26 '11 at 11:00
A model which accurately recapitulates the essential features of skiing holidays! –  Tom Anderson Sep 26 '11 at 17:17

It is not possible to use Dijkstra Algo with negative weights. Hundreds have tried, no one was successfull.

Use Bellman-Ford Algo if you have neg. Weights

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