Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I was recently informed about BFS & DFS and was asked to implement something in DFS: a directory listing/searching for a filename. I was able to pull that off (which in all fairness, I did get a hint on how to proceed), but I've been intrigued by BFS ever since and I've been unable to even grasp how to implement that concept on the same problem.

Based on the diagrams I found on Wikipedia and several google searches, here's the closest thing I've gotten so far:

The Code:

import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;

public class foo {
    private List<List<String>> queue = new ArrayList<List<String>>();

     * @param args
    public static void main(String[] args) throws Exception {
        foo f = new foo();

    public void traverse(String dir) throws Exception {
        // add dir to the top of the tree
        queue.add(0, Arrays.asList(dir));
        traverse(dir, 1);

    public void traverse(String dir, int depth) throws Exception {
        // add a new depth if this is a new one
        if (queue.size() <= depth) {
            queue.add(new ArrayList<String>());

        File file = new File(dir);
        for (File curfile: file.listFiles()) {
            // recursive function call if curfile is a directory
            if (curfile.isDirectory()) traverse(curfile.getPath(), depth+1);

    public void report() {
        for (int i=0; i<queue.size()-1; i++) {
            log(String.format("****** Level %d ******", i));
            for (String node : queue.get(i))
                log(String.format("[%d] `%s'", i, node));

    public void log(String s) {
        System.out.printf("[foo] %s\n", s);

The Output:

[foo] ****** Level 0 ******
[foo] [0] 'src'
[foo] ****** Level 1 ******
[foo] [1] 'src/A'
[foo] [1] 'src/C'
[foo] [1] 'src/'
[foo] [1] 'src/B'
[foo] ****** Level 2 ******
[foo] [2] 'src/A/A2'
[foo] [2] 'src/A/A1'
[foo] [2] 'src/C/C1'
[foo] ****** Level 3 ******
[foo] [3] 'src/A/A2/A2A'
[foo] [3] 'src/A/A1/A1A'
[foo] [3] 'src/C/C1/C1A'
[foo] [3] 'src/C/C1/C1B'
[foo] ****** Level 4 ******
[foo] [4] 'src/A/A2/A2A/A2A1'
[foo] [4] 'src/C/C1/C1A/C1A1'
[foo] ****** Level 5 ******
[foo] [5] 'src/A/A2/A2A/A2A1/A2A1A'
[foo] ****** Level 6 ******
[foo] [6] 'src/A/A2/A2A/A2A1/A2A1A/A2A1A1'
[foo] [6] 'src/A/A2/A2A/A2A1/A2A1A/A2A1A2'

I know this can't be right because although it spits output that appears correct, I know the inner workings are wrong. It's essentially a DFS masquerading as a BFS, using an ArrayList to hide the evidence.

Desperately hoping someone can help me get closure here because I've got a frameworks book burning a hole on my desk for almost a month now since I started procrastinating trying to understand this concept. And so, buried in a ton of rambling, my question is: how can BFS apply to directory structures? Also, is there a "For-Dummies" version of BFS/DFS implementation examples online or in print anywhere?

share|improve this question

1 Answer 1

up vote 0 down vote accepted

How can BFS apply to directory structure? Both, BFS and DFS concepts are about tree data structures (directory can be a tree too). Assuming you understand tree depth, BFS is basically visiting all nodes in order from lowest depth to greatest. Stack is to DFS as Queue is to BFS.

I'm not sure if there is a "for-dummies" implementation. I think the concept is as simple as I've explained. Wikipedia should provide the missing information.

What doubt do you have about your implementaion? Like I said, the only diffence between DFS and BFS is using Stack or Queue.

share|improve this answer
Thanks for the answer! My doubt is that it's not true BFS in that it uses a DFS to first "peek" into the directory before getting the data into the queue. The purpose of BFS from what I've gathered on the web is that it avoids descending into a potentially infinite level of depth. Would you say my code is still valid if it uses DFS to build the queue first or would is it "cheating" to get the same output? – dbazile May 22 '12 at 15:37
It's not DFS just because you peek 1 depth in. Besides, you are just doing that to put it in the queue. Actually visiting the node means processing it (in your case printing the path). – user845279 May 22 '12 at 17:23

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.