I was trying to solve one interview question, but for that I have to travel the binary tree level by level. I have designed BinaryNode with having below variable

``````private object data;
private BinaryNode left;
private BinaryNode right;
``````

Update: Thanks everyone for your inputs. So this was the interview question. "Given a binary search tree, design an algorithm which creates a linked list of all the nodes at each depth (i.e., if you have a tree with depth D, you’ll have D linked lists)".

Here is my Method, let me know your expert comment.

``````public List<LinkedList<BNode>> FindLevelLinkList(BNode root)
{
Queue<BNode> q = new Queue<BNode>();
// List of all nodes starting from root.
List<BNode> list = new List<BNode>();
q.Enqueue(root);
while (q.Count > 0)
{
BNode current = q.Dequeue();
if (current == null)
continue;
q.Enqueue(current.Left);
q.Enqueue(current.Right);
}

int currentDepth = 0;
foreach (BNode node in list)
{
if (node != root)
{
if (node.Depth == currentDepth)
{
}
else
{
currentDepth++;
}
}
}

return result;
}
``````

Taking Breath Now ;)

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"Breath" is what you feel when your lover sighs in your arms. "Breadth" is the horizontal dimension of a data structure :-) –  Pointy Feb 24 '11 at 23:04
Maybe he's searching for lovers in his binary tree. –  mellamokb Feb 24 '11 at 23:05
I edited his breath away. –  John Feb 24 '11 at 23:06
What have you tried so far? Could you explain, in plain english, what the algorithm should do (i.e give pseudo-code)? –  Davidann Feb 24 '11 at 23:08
How 'bout due diligence on Wikipedia? en.wikipedia.org/wiki/Breadth-first_search –  Kirk Woll Feb 24 '11 at 23:08

A breadth first search is usually implemented with a queue, a depth first search using a stack.

``````Queue<Node> q = new Queue<Node>();
q.Enqueue(root);
while(q.Count > 0)
{
Node current = q.Dequeue();
if(current == null)
continue;
q.Enqueue(current.Left);
q.Enqueue(current.Right);

DoSomething(current);
}
``````

As an alternative to checking for `null` after dequeuing you can check before adding to the Queue. I didn't compile the code, so it might contain some small mistakes.

A fancier (but slower) version that integrates well with LINQ:

``````public static IEnumerable<T> BreadthFirstTopDownTraversal<T>(T root, Func<T, IEnumerable<T>> children)
{
var q = new Queue<T>();
q.Enqueue(root);
while (q.Count > 0)
{
T current = q.Dequeue();
yield return current;
foreach (var child in children(current))
q.Enqueue(child);
}
}
``````

Which can be used together with a `Children` property on `Node`:

``````IEnumerable<T> Children { get { return new []{node.Left, node.Right}.Where(x => x != null); } };
``````

...

``````foreach(var element in BreadthFirstTopDownTraversal(root, node => node.Children)
{
...
}
``````
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I solve it in the same way –  Viacheslav Smityukh Feb 24 '11 at 23:12
@Via not surprising. A queue is the obvious choice for implementing a breadth-first search, just like you'd use a stack for depth first. –  CodesInChaos Feb 24 '11 at 23:13
Thank you very much for handing him his homework on a silver platter. –  Henk Holterman Feb 24 '11 at 23:36
``````var queue = new Queue<BinaryNode>();
queue.Enqueue(rootNode);

while(queue.Any())
{
var currentNode = queue.Dequeue();
if(currentNode.data == searchedData)
{
break;
}

if(currentNode.Left != null)
queue.Enqueue(currentNode.Left);

if(currentNode.Right != null)
queue.Enqueue(currentNode.Right);
}
``````
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