# Graphs (Nodes and Edges)

I am using HASKELL for graph games. I am willing to get a suitable method for reach ability from a node to a particular node in the graph apart from using bfs or trees etc.

As I asked for code in haskell for reach ability from one node to a particular node, it is necessary to tell you that I am totally new to haskell. I have been reading the tutorials and simple examples, but when it come to implementation then I am lost. My graph is a directed graph, and say I want to check whether I can reach from node v to node w in graph.

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Not entirely sure what your question is, in the context of Haskell.

• Looking for libraries for graphs in Haskell?

Either way, check http://hackage.haskell.org for graph-related packages:

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From Data.Graph:

``````reachable :: Graph -> Vertex -> [Vertex]
``````

To search the Haskell API and libraries:

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There are several All pair shortest path algorithms in hand. For small graphs, wikipedia says:

Floyd-Warshall algorithm is an elegant, quickly implementable O(n3) algorithm (Assumes absence of negatively-weighed cycles).

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Yes if possible. What I want is, as I used graph as list of nodes and list of edges, so how v a node is reachable from w another node in the graph. The code of such reach ability –  sajjad Jul 19 '09 at 22:01

Try representing your graph as a matrix where a 1 represents an edge.

E.g.:

`````` Node/Node  A  B  C  D
A  0  0  1  1
B  0  0  1  1
C  0  0  1  0
D  1  0  1  0
``````

For directed graphs the order of the matrix indices matters, for undirected graphs they don't. The above being a directed graph where there is an edge from D->C but not from C->D.

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