# Find all the special graphs which can reduced to the shortest paths graph [closed]

I have a directed weighted graph `G = (V, E, W)`. There is always an edge from a vertex `i` to another one `j`, the weight `w(i,j)` could be positive infinity, and there does not exist any negative cycle.

An execution of some algorithms will find the lengths (summed weights) of the shortest paths between all pairs of vertices though it does not return details of the paths themselves. For instance, Floyd–Warshall algorithm is straightforward, and it works. Let us denote the result by `G' = (V, E, W')`.

In `G'`, it is possible that for an edge from `i` to `j`, `w'(i,j) = w'(i, k_0) + w'(k_0, k_1) + ... w'(k_n, j)`. Let us make from `G'` another graph `G''` whose any element is same as `G'` except `w''(i,j) = positive infinity <> w'(i,j)`. Therefore we know that an execution of a shortest paths algorithm on `G''` will give `G'`.

So given a `G'`, I would like to find all the graphs like `G''`, such that `forall i, j, w''(i,j) = w'(i,j) or positive infinity`, and `G''` can be reduced to `G'` via a shortest paths algorithm.

Hope my question is clear... I do not know if an algorithm for this exists already, does anyone have any idea?

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Note that this question has been migrated to Computer Science. The migration has been incorrectly been marked as rejected due to a bug with remigration (a prior migration to Scicomp was rejected). –  Gilles Jun 30 '12 at 15:09

## closed as off topic by Bill the Lizard♦Jun 27 '12 at 12:36

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