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I have written an algorithm to determine "whether an undirected graph is a tree"
Assumptions : graph G is represented as adjacency list, where we already know the number of vertices which is n

  Is_graph_a_tree(G,1,n) /* using BFS */
      -->Q={1} //is a Queue
      -->An array M[1:n], such that for all i, M[i]=0 /* to mark visited vertices*/
      -->edgecount=0 // to determine the number of edges visited
      -->While( (Q is not empty) and (edgecount<=n-1) )
            -->for each edge (i,j) and M[j] =0 and edgecount<=n-1
                 -->Q=Q U {j}
        If(edgecount != n-1)
            --> print “G is not a tree”
                -->If there exists i such that M[i]==0 
                        Print “ G is not a tree”
                        Print “G is tree”

Is it right??
Is the time complexity of this algorithm Big0h(n)??

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2 Answers 2

up vote 1 down vote accepted

I think the counting of edges is not correct. You should also count edges (i,j) for witch M[j]=1 but j is not the parent of i (so you would also need to keep the parent of each node). Maybe is better to count the edges at the end, by summing the sizes of the adjacency lists and dividing by 2.

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Thnx for the comment seviyor..,I think we could also count the edges for which M[j]=1 but the condition "edgecount<=n-1" needs to be changed...but I do not see where the actual algorithm fails.. could you give a counter-example –  rakesh Dec 20 '11 at 10:20
Well, I think the output is true for any input graph that is connected (even if not a tree). –  seviyor Mar 26 '12 at 13:30
hmmm... yes you are right... thnx –  rakesh Mar 27 '12 at 17:06

You want to do a Depth First Search. An undirected graph has only back edges and tree edges. So you can just copy the DFS algorithm and if you find a back edge then it's not a tree.

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Also see: stackoverflow.com/questions/8367485/… –  Hans Jan 18 '13 at 5:20

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