Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have implemented a BFS algorithm to detect cycles in a graph, this is the following code:

            void hasCycle(node *root,string start){  
                if(root->name == start) cout << "Has cycle" << endl;
                else return;
            root->visted = true;
            int ind;
            for(ind = 0; ind < root->adj.size(); ind++)
                hasCycle(root->adj[ind], start);
            root->visted = false;

Where start is the starting node. where node is the following struct:

            struct node{
                string name;
                bool   visted;
                vector <node *> adj;

This is the Graph that I have constructed:

            Graph *grp = new Graph();


The output is: Has cycle Has cycle Has cycle

The correct output is nothing since there is no cycle. I have spent a lot of time trying to debug this, please help!

note: This is not a directed graph so I want them to be double edges

share|improve this question
Isn't A => B => A a cycle? And A => C => A? – Waynn Lue Feb 28 '12 at 1:56
@amit This is not a directed graph so i want them to be double edges – Mike G Feb 28 '12 at 1:58
For undirected graph, for every connected component of size |V|, if there are more then |V|-1 edges, there is a cycle in the graph – amit Feb 28 '12 at 2:01

2 Answers 2

I presume you want a cycle of size 3 or more in an undirected graph. In that case, you should ignore the parent in the BFS traversal when checking for 'visited'.

share|improve this answer
no i dont want a cycle of size 3, it shouldnt output anything since there is no cycle (in an undirected graph) – Mike G Feb 28 '12 at 2:11
I am saying that you have to remove a cycle of 'size 2' by checking the parent. Hence you are looking for a cycle of size 3 or more. This is an undirected graph, the parent is always the child's neighbour (2-cycle with respect to your implementation). – devil Feb 28 '12 at 2:12

Some Issues here:

  1. BFS does not for well for finding cycles in graph. for example have a look at the undirected graph A->B->C->A, the BFS from A will discover first A, and then B and C, and will stop there - without detecting the loop.
  2. Your implementation should NOT use an undirected edge twice, and your implementation does, for every u, v - it uses both u->v and v->u(*)
  3. Your implementation only detects loops through start, it will miss "laso" loops [loops that are reachable from start, but do not contain start].

A possible solution: Note that for a not directed graph, for each connected component of size |V|, if there are more then |V|-1 edges - the component is not a tree, and the graph has at list one cycle [since tree in a directed graph is the maximal structure without cycles].
So, in order to find if there is a cycle - you can just find all connected components [BFS is good for it], and check if each such component contains more then |V|-1 edges.

(*)2 is debateable actually - but in standard BFS implementation - there is no point to do it, since BFS is for discovery of nodes, and if you already used an edge - both vertices connected to it are already discovered.

share|improve this answer
I don't see anything wrong with using the edge twice. You can always build an undirected graph from a directed graph implementation. – devil Feb 28 '12 at 2:10
Can you add code? – Mike G Feb 28 '12 at 2:10

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.