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I have written a recursive DFS algorithm to traverse a graph:

void Graph<E, N>::DFS(Node n)
    std::cout << ReadNode(n) << " ";


    NodeList adjnodes = Adjacent(n);

    NodeList::position pos = adjnodes.FirstPosition();

        Node adj = adjnodes.ReadList(pos);


        pos = adjnodes.NextPosition(pos);

Then I have written an iterative DFS algorithm using a stack:

template <typename E, typename N>
void Graph<E, N>::IterativeDFS(Node n)
    Stack<Node> stack;


        Node u = stack.Read();


            std::cout << ReadNode(u) << " ";


            NodeList adjnodes = Adjacent(u);

            NodeList::position pos = adjnodes.FirstPosition();


                pos = adjnodes.NextPosition(pos);

My problem is that in a graph in which, for example, I enter the three nodes 'a', 'b', 'c' with arcs ('a', 'b') and ('a', 'c') my output is:

'a', 'b', 'c' with the recursive DFS version, and:

'a', 'c', 'b' with the iterative DFS one.

How could I get the same order? Am I doing something wrong?

Thank you!

share|improve this question
Both orders are valid DFS orderings, since the nodes 'b' and 'c' are both reachable in one hop from the node 'a'. Are you worried that this is producing an invalid ordering? Or do you just want the two algorithms - both of which seem to produce valid orderings - to produce the same ordering? –  templatetypedef Feb 8 '12 at 20:49
I know that using a stack I should be able to emulate a recursive function in an iterative way, so why don't I get the same output? –  JohnQ Feb 8 '12 at 20:53

1 Answer 1

up vote 20 down vote accepted

Both are valid DFS algorithms. A DFS does not specify which node you see first. It is not important because the order between edges is not defined [remember: edges are a set usually]. The difference is due to the way you handle each node's sons.

In the iterative approach: You first insert all the elements into the stack - ang then handle the head of the stack [which is the last node inserted] - thus the first node you handle is the last son.

In the recursive approach: You handle each node when you see it. Thus the first node you handle is the first son.

To make the iterative DFS yield the same result as the recursive one - you need to add elements to the stack at reverse order [for each node, insert its last son first and its first son last]

share|improve this answer
Oh, I understand. So it's about pushing the elements in the stack in the correct order. I have tried to read the list from the last element to the first one and now it works. Thank you! –  JohnQ Feb 8 '12 at 21:02
@JohnQ: You are welcome. I'm glad it helped you, and I hope you understand not only how to fix these issue, but also why it happened and how to identify it in the future. –  amit Feb 8 '12 at 21:08
Yes, of course. I have drawn some schemes to understand the situation :) –  JohnQ Feb 8 '12 at 21:16

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