I have an adjaceny matrix for a graph which tracks the edges between the nodes by having a 1 in the corresponding adjMat[i,j] = 1; Through this adjaceny matrix i wish to find out all the closed paths of length 4 which exists in the graph. Can anyone please provide me with a pseudo code. thank u
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This sounds like homework, so I won't give the whole thing away. But here's a hint: since you are interested in finding cycles of length 4, take the 4th power of the adjacency matrix and scan along the diagonal. If any entry M[i,i] is nonzero, there is a cycle containing vertex i. 


Perhaps it is not the optimal way to compute it ( it's
You can check then check for each of the following cycles: 1. ([a,b] && [b,c] && [c,d] && [d,a]) 2. ([a,b] && [b,d] && [d,c] && [c,a]) 3. ([a,d] && [d,b] && [b,c] && [c,a]) 1: 2: 3: AB AB A B   \ / \ /   X  X    / \ / \ DC DC C D You're basically checking every ordered set of vertices (a,b,c,d) for the 3 ways that they could form a cycle. So the pseudo code would be:



Apply a depthlimited depthfirstsearch to every node and record nodes where the DFS finds the starting node. For the search, see pseudocode here: http://en.wikipedia.org/wiki/Depthlimited_search. You just need to add something like
to the beginning of the loop. 

