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I'm trying to build a graph library in python (along with standard graph-algorithms). I've tried to implement DFS and this is what it looks like

def DFS(gr, s, path):
    """ Depth first search 
    Returns a list of nodes "findable" from s """
    if s in path: return False
    path.append(s)
    for each in gr.neighbors(s):
        if each not in path:
            DFS(gr, each, path)

This is working fine but I'm not happy with how it needs to be used. E.g. currently you need to do this

 path = []
 DFS(mygraph, "s", path)
 print path

Instead of this, I want to DFS to be used in this manner

path = DFS(mygraph, "s")
print path

With the recursive DFS, I am unable to come up with the implementation that works like above. Can someone give me some pointers on how can I achieve this?

share|improve this question
up vote 1 down vote accepted

Just make a wrapper method that calls the one you already have:

def DFS(gr, s):
    path = []
    DFS2(gr, s, path)
    return path

Here DFS2 is the method you showed above.

share|improve this answer
    
How extremely stupid of me to not think of that! Thanks a lot – Prakhar Dec 4 '12 at 10:09
    
@Prakhar: Learn it well because you're likely to encounter the need for many times. It's an example of the fundamental law of computer science at play which says that all problems can be solved with yet another level of indirection. – martineau Dec 4 '12 at 10:48

Actually why don't you just set path to have a default of an empty list? So using your same code but slightly different arguments:

# Original
def DFS(gr, s, path):

# Modified
def DFS(gr, s, path=[]):

# From here you can do
DFS(gr, s)
share|improve this answer
// Recursive depth-first search
public int[] recursiveDepthFirstTraversal(int currentVertex, boolean [] visited, int [] dFTTree)
{
    System.out.println(names[currentVertex]);

    // Get the indices of the neighbors of the current vertex
    int[] neighbors = getNeighbors(currentVertex);

    // Scan the neighbors of the current vertex, looking
    // for an unvisited neighbor
    int j = 0;
    while (j < neighbors.length)
    {
        // If an unvisited neighbor has been found,
        // mark it visited, make the current vertex its parent,
        // and call depth-first search with that neighbor as the
        // source
        if(!visited[neighbors[j]])
        {
            visited[neighbors[j]] = true;
            dFTTree[neighbors[j]] = currentVertex;
            recursiveDepthFirstTraversal(neighbors[j], visited, dFTTree);

            // Re-output the current vertex for tracing purposes
            System.out.println(names[currentVertex]);
        }

        j++; // scan the next vertex
    }

    // We've visited all our children, so return the tree.
    return dFTTree;
}

// This function does initialization needed for depth-first search. It also
// calls recursive depth first search separately for each connected component of
// the graph.
    public int[] rDepthFirstTraversal(String source)
    {
            // Getting the index of the source vertex and
            // checking if the vertex really exists
            int sourceIndex = getIndex(source);
            if(sourceIndex == -1)
            {
                    System.out.print("In rDepthFirstTraversal: vertex ");
                    System.out.print(source);
                    System.out.println(" is missing.");
                    return null;
            }

            // Defining and initializing the visited array
            boolean[] visited = new boolean[numVertices];
            for(int j = 0; j < numVertices; j++)
                    visited[j] = false;

            // Defining and initializing the depth first traversal tree
            int[] dFTTree = new int[numVertices];
            for(int j = 0; j < numVertices; j++)
                    dFTTree[j] = -1;

            boolean more;
            do
            {
                visited[sourceIndex] = true;
        recursiveDepthFirstTraversal(sourceIndex, visited, dFTTree);

                    // Determine if there are more unvisited vertices
                    // by scanning the visited array and looking for the
                    // first unvisited vertex
                    more = false;
                    int j = 0;
                    while(j < numVertices && !more)
                    {
                            if(!visited[j])
            {
                                    more = true;
                sourceIndex = j;
            }
                            j++;
                    }

            }
            while(more);

            return dFTTree;

    } // end of function
share|improve this answer
2  
-1 - The question is about Python and its not asking how to write a DFS method. – Burhan Khalid Oct 20 '13 at 11:59

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