Floyd–Warshall algorithm

Floyd–Warshall algorithm

In computer science, the Floyd–Warshall algorithm (sometimes known as the WFI Algorithm or Roy–Floyd algorithm, since Bernard Roy described this algorithm in 1959) is a graph analysis algorithm for finding shortest paths in a weighted, directed graph. A single execution of the algorithm will find the shortest paths between all pairs of vertices. The Floyd–Warshall algorithm is an example of dynamic programming.

Algorithm

The Floyd-Warshall algorithm compares all possible paths through the graph between each pair of vertices. It is able to do this with only V^3 comparisons. This is remarkable considering that there may be up to V^2 edges in the graph, and every combination of edges is tested. It does so by incrementally improving an estimate on the shortest path between two vertices, until the estimate is known to be optimal.

Consider a graph G with vertices V, each numbered 1 through N. Further consider a function extrm{shortestPath}(i,j,k) that returns the shortest possible path from i to j using only vertices 1 through k as intermediate points along the way. Now, given this function, our goal is to find the shortest path from each i to each j using only nodes 1 through k+1.

There are two candidates for this path: either the true shortest path only uses nodes in the set (1...k); or there exists some path that goes from i to k+1, then from k+1 to j that is better. We know that the best path from i to j that only uses nodes 1 through k is defined by extrm{shortestPath}(i,j,k), and it is clear that if there were a better path from i to k+1 to j, then the length of this path would be the concatenation of the shortest path from i to k+1 (using vertices in (1...k) ) and the shortest path from k+1 to j (also using vertices in (1...k) ).

Therefore, we can define shortestPath(i,j,k) in terms of the following recursive formula:

extrm{shortestPath}(i,j,k) = min( extrm{shortestPath}(i,j,k-1), extrm{shortestPath}(i,k,k-1),+, extrm{shortestPath}(k,j,k-1));,!

extrm{shortestPath}(i,j,0) = extrm{edgeCost}(i,j);,!

This formula is the heart of Floyd Warshall. The algorithm works by first computing shortestPath(i,j,1) for all (i,j) pairs, then using that to find shortestPath(i,j,2) for all (i,j) pairs, etc. This process continues until k=n, and we have found the shortest path for all (i,j) pairs using any intermediate vertices.

Pseudocode

Conveniently, when calculating the kth case, one can overwrite the information saved from the computation of k-1. This means the algorithm uses quadratic memory. Be careful to note the initialization conditions:

1 /* Assume a function "edgeCost"(i,j) which returns the cost of the edge from i to j 2 (infinity if there is none). 3 Also assume that n is the number of vertices and "edgeCost"(i,i)=0 4 */ 5 6 int path [] [] ; 7 /* A 2-dimensional matrix. At each step in the algorithm, path [i] [j] is the shortest path 8 from i to j using intermediate values in (1..k-1). Each path [i] [j] is initialized to 9 "edgeCost"(i,j). 10 */ 11 12 procedure "FloydWarshall" () 13 for mathit{k} := 0 to mathit{n-1} 14 for each mathit{(i,j)} in (0..n-1) 15 path [i] [j] = min ( path [i] [j] , path [i] [k] +path [k] [j] );

Behaviour with negative cycles

For numerically meaningful output, Floyd-Warshall assumes that there are no negative cycles (in fact, between any pair of vertices which form part of a negative cycle, the shortest path is not well-defined because the path can be infinitely small). Nevertheless, if there are negative cycles, Floyd–Warshall can be used to detect them. A negative cycle can be detected if the "path" matrix contains a negative number along the diagonal. If path [i] [i] is negative for some vertex i, then this vertex belongs to at least one negative cycle.

Analysis

To find all mathit{n}^2 of mathcal{W}_k from those of mathcal{W}_{mathit{k}-1} requires 2mathit{n}^2 bit operations. Since we begin with mathcal{W}_0 = mathcal{W}_mathcal{R} and compute the sequence of mathit{n} zero-one matrices mathcal{W}_1, mathcal{W}_2, ..., mathcal{W}_mathit{n} = mathcal{M}_{mathcal{R}^*}, the total number of bit operations used is mathit{n} imes 2mathit{n}^2 = 2mathit{n}^3. Therefore, the complexity of the algorithm is Theta({n}^3) and can be solved by a deterministic machine in polynomial time.

Applications and generalizations

The Floyd–Warshall algorithm can be used to solve the following problems, among others:
* Shortest paths in directed graphs (Floyd's algorithm).
* Transitive closure of directed graphs (Warshall's algorithm). In Warshall's original formulation of the algorithm, the graph is unweighted and represented by a Boolean adjacency matrix. Then the addition operation is replaced by logical conjunction (AND) and the minimum operation by logical disjunction (OR).
* Finding a regular expression denoting the regular language accepted by a finite automaton (Kleene's algorithm)
* Inversion of real matrices (Gauss-Jordan algorithm).
* Optimal routing. In this application one is interested in finding the path with the maximum flow between two vertices. This means that, rather than taking minima as in the pseudocode above, one instead takes maxima. The edge weights represent fixed constraints on flow. Path weights represent bottlenecks; so the addition operation above is replaced by the minimum operation.
* Testing whether an undirected graph is bipartite.

Implementations

* A Perl implementation is available in the [http://search.cpan.org/search?query=Graph&mode=all Graph] module
* A Javascript implementation is available at [http://alexle.net/stuff/floyd-algorithm/ Alex Le's Blog]
* A Python implementation is available in the [https://networkx.lanl.gov/ NetworkX] package
* A C implementation is available at [http://www.ece.rice.edu/~jpr/research/fwarsh.html ece.rice.edu]
* A C++ implementation is available in the [http://www.boost.org/libs/graph/doc/ boost::graph] library
* A Java implementation is in the [http://svn.apache.org/repos/asf/commons/dormant/graph2/branches/jakarta/src/java/org/apache/commons/graph/impl/AllPaths.java Apache commons graph] library.

References

*
** Section 26.2, "The Floyd–Warshall algorithm", pp. 558–565;
** Section 26.4, "A general framework for solving path problems in directed graphs", pp. 570–576.
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ee also

* Robert Floyd
* Stephen Warshall
* Dijkstra's algorithm

External links

* [http://tide4javascript.com/?s=Floyd Analyze Floyd's algorithm in an online Javascript IDE]
* [http://www.pms.informatik.uni-muenchen.de/lehre/compgeometry/Gosper/shortest_path/shortest_path.html#visualization Interactive animation of Floyd–Warshall algorithm]


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