Since last 2 days,i'm trying to find some logic for calculating longest path in graph.I know i can find it easily for DAGs and in general it is polynomial time algorithm.Formally,I want to implement heuristic for computing longest path,morever,if probability p is given with which an edge is present in graph,how can we solve the problem..help...

Calculating longest path cannot be done in polynomial time as far as I know. Following java implementation of the longest path algorithm finds the longest path of a positive weighted graph for a given source but it takes exponential time in its worst case.
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Dijkstra's can't be used on graphs with negative weights  Wiki article on Dijkstra's
So you can't negate all edge weights and use Dijkstra's, what you can do is negate all edge weights and use BellmanFord algorithm  Wiki article on BellmanFord
EDIT: The shortest path (with the most negative value) is then the longest path in your original graph. NOTE: if you have positive cycles in your graph, you will not find a solution since the longest path doesn't exist in such a graph. 


Invert the weights of the paths and run a shortest path algorithm. The lowest number you get (most negative) is the longest path. 


You could always just use a breadth first search (BFS) and, whenever you are adding an edge to the graph you have it's cost as the additive inverse (multiply it be 1). This way you are finding the 'shortest path' by using the longest edges. Because you're doing a scalar transform, you're not losing the ability to add within the group (which you do lose if you use the multiplicative inverse). 

