# Finding Cycles in Graphs Using Depth-First Search

Given the following depth-first search, why does the check `if(Parent[currVertex] != successorVertex)` in ProcessEdge method detect a cycle? This code follows the algorithm given in the book Algortim Design Manual by S.Skiena. It is possible that the check is a typo and is meant to be `if(Parent[successorVertex] != currVertex)`. Please ask for any clarification. I'm really stuck at this.

``````    public void Search(int start)
{
/* NOTE: the differences from BFS are: this uses a stack instead of a queue AND this maintains 'time' variable */
Stack<int> s = new Stack<int>();
int currVertex;
int successorVertex;
int time = 0;

s.Push(start);

Discovered[start] = true;

while (s.Count != 0)
{
currVertex = s.Pop();
// time increments every time we enter a node (when discovered) and every time we exit a node (when processed_late, i.e. when all its neighbours have been processed)
time++;
EntryTime[currVertex] = time;

ProcessVertexEarly(currVertex);
Processed[currVertex] = true;

for (int i = 0; i < Graph.Vertices[currVertex].Count; i++)
{
successorVertex = Graph.Vertices[currVertex][i].Y;
if (!Processed[successorVertex] || Graph.IsDirected)
{
ProcessEdge(currVertex, successorVertex);
}
if (!Discovered[successorVertex])
{
s.Push(successorVertex);
Discovered[successorVertex] = true;
Parent[successorVertex] = currVertex;
}
}
// time increments every time we enter a node (when discovered) and every time we exit a node (when processed_late, i.e. when all its neighbours have been processed)
time++;
ExitTime[currVertex] = time;
ProcessVertexLate(currVertex);
}
}

private void ProcessEdge(int currVertex, int successorVertex)
{
if(Parent[currVertex] != successorVertex) // then we've found a cycle
{
/* Found cycle*/
}
}
``````

UPDATE

Found correction for this code in errata http://www.cs.sunysb.edu/~skiena/algorist/book/errata. See (*) Page 173, process_edge procedure -- the correct test should be

``````if (discovered[y] && (parent[x] != y)) { /* found back edge */
``````

But will that detect cycles?? The if check will never pass because in DFS method, `process_edge` is only called when `discovered[y] == false`.

-
Re your update: Skiena's `dfs` calls `process_edge` if `y` is not discovered or not processed. Vertices are not marked processed until every edge leaving them are explored. –  David Eisenstat Aug 26 at 12:17
Good point. Thanks –  Okash Khawaja Aug 26 at 14:21

I believe that the intent of the line you highlighted was as follows. For depth-first search in undirected graphs, there are two types of edges, tree and back. The graph has a cycle if and only if there exists a back edge. Now, the representation of undirected graphs chosen by Skiena is to store each undirected edge as two directed arcs, one in each direction. If we use depth-first search to detect cycles in this directed graph, then the length-two cycles consisting of the two directed arcs corresponding to a single undirected edge are reported in error as cycles. As written, the check ensures that a candidate back arc `y->x` is not the reverse of a tree arc `x->y`.
@bytefire 3 vertices, 2 edges, first edge 1-2, second edge 2-3. The problem with Skiena's code is that it calls `process_edge` on the tree edges. –  David Eisenstat Aug 25 at 15:19