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Can anybody give a link for a simple explanation on BFS and DFS with its implementation?

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9 Answers 9

up vote 20 down vote accepted

Lets say you are given the following structure:

Format: Node [Children]

A [B C D]
B [E F]
C [G]
D []
E []
F []
G []

A breadth first search visits all of a node's children before visiting their children. Here's the pseudocode and the solution for the above structure:

1. Enqueue root node.
2. Dequeue and output. If the queue is empty, go to step 5.
3. Enqueue the dequeued node's children.
4. Go to Step 2.
5. Done
Two queues: (Active Node) [Output] [Working Set]
Starting with root:
( ) []              [A]
(A) [A]             [B C D] 
(B) [A B]           [C D E F] 
(C) [A B C]         [D E F G] 
(D) [A B C D]       [E F G] 
(E) [A B C D E]     [F G] 
(F) [A B C D E F]   [G] 
(G) [A B C D E F G] [] 


A depth first search visits the lowest level (deepest children) of the tree first instead. There are two types of depth first search: pre-order and post-order. This just differentiates between when you add the node to the output (when you visit it vs leave it).

    var rootNode = structure.getRoot();
    var preOrder = new Array();
    var postOrder = new Array();
    function DepthFirst( rootNode ){
        // Pre-order
        preOrder[ preOrder.length ] = rootNode;

        for( var child in rootNode ){
            DepthFirst( child );

        // Post-order
        postOrder[ postOrder.length ] = rootNode;
* A B E F C G D

* E F B G C D A
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Does this have anything to do with today's xkcd? :-P –  SoapBox Jul 2 '10 at 20:06
three types. You missed in-order traversal. –  user1031420 Apr 25 at 23:56

Depth First Search:

alt text

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Say you have a tree as follows:

alt text

It may be a little confusing because E is both a child of A and F but it helps illustrate the dpeth-ness of a depth first search. A depth first search searches the tree going as deep (hence the term depth) as it can first. So the traversal left to right would be would go A, B, D, F, E, C, G.

A breadth first search evaluates all the children first before proceeding to the children of the children. So the same tree would go A, B, C, E, D, F, G.

Hope this helps.

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That's not a tree. That is a directed acyclic graph. –  Thomas Eding Dec 22 '12 at 23:17
@ThomasEding you are right that it is not a tree but wrong in saying that it is a directed acyclic graph*(DAG). In fact if it would have been a *DAG it would have been a tree. What he describes here is actually a undirected cyclic graph. –  Inquisitive Mar 31 '13 at 6:29

you can find everything on wiki:


this link can be useful too. if you want an implementation go to: c++ boost library: DFS

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Here are a few links to check out:

BFS is an uninformed search method that aims to expand and examine all nodes of a graph or combination of sequences by systematically searching through every solution. In other words, it exhaustively searches the entire graph or sequence without considering the goal until it finds it.

Formally, DFS is an uninformed search that progresses by expanding the first child node of the search tree that appears and thus going deeper and deeper until a goal node is found, or until it hits a node that has no children. Then the search backtracks, returning to the most recent node it hasn't finished exploring

Not only do they contain good explanations on how they are implemented in applications but also some algorithm pseudo code.

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graph traversal with dfs and bfs.

in c++ and python.

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Heres the idea in basics:

get a new queue ...initalize it with the root node .... loop through the entire queue and keep removing an item from the queue and printing it out (or saving it etc) and check if the same item has any children , if so push them onto the queue and continue in the loop until you traverse the entire segment(graph)...

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snippet with 2 pointers.

void BFS(int v,struct Node **p)
     struct Node *u;

     visited[v-1] = TRUE;

     while(IsEmpty() == FALSE)
         v = DeleteQueue();
         u = *(p+v-1);

            if(visited(u->data -1) == FALSE)
                  visited[u->data -1]=TRUE;

            u = u->next;
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