# Find deepest node(s) of a binary tree

I have a height method that able to find the height of Binary tree but not sure how to return the deepest node of a binary tree(multiple nodes if same depth).

``````BinaryNode.new(1,BinaryNode.new(2,leaf,leaf),BinaryNode.new(3,leaf,leaf))
``````

where leaf represents empty

the height for this tree is 2 and the deepest nodes are 2,3 (same depth)

``````class BinaryNode
include Enumerable
def initialize(element,lchild,rchild)
@element, @lchild, @rchild = element, lchild, rchild
end
def deepestNode
if self.nil?
0
else
height1=@lchild.height+1
height2=@lchild.height+1
end
height=[height1,height2].max
height
end
end
end
``````
-
Can you add some context? It's kind a vague example and it's really not clear what you need. Some inputs with expected outputs should be enough. –  robertodecurnex Oct 26 '12 at 17:26
I want to find the deepest node of a binary tree. –  John Oct 26 '12 at 17:30
we know nothing of you implementation. If you can provide a more detailed context we may be able to provide a better solution. I can try to give you one but assuming tons of things. –  robertodecurnex Oct 26 '12 at 17:34
Thanks,I have a binarynode class that takes three parameters. node,left child and right child. I'stuck on how to find the deepest node. only able to find the height of the tree. I edited the code –  John Oct 26 '12 at 17:41

Assumptions:

• The Binary Tree is actually the root node
• child_nodes returns the collection of child nodes as an array

``````class BinaryNode

def initialize(element,lchild,rchild)
@element, @lchild, @rchild = element, lchild, rchild
end

def height
if @lchild.nil? && @rchild.nil?
return 0
else
[@lchild, @rchild].collect {|n| n.nil ? 0 : n.height + 1 }.max
end
end

def deepest_nodes
return [self] if self.height == 1

[@lchild, @rchild].select {|n| !n.nil? && (n.height == self.height - 1)}.collect {|n| n.deepest_nodes}.flatten
end
end
``````

Refactor:

``````class BinaryNode

def initialize(element,lchild,rchild)
@element, @lchild, @rchild = element, lchild, rchild
end

def child_nodes
[@lchild, @rchild].compact
end

def height
if self.child_nodes.empty?
return 0
else
self.child_nodes.collect {|n| n.height + 1 }.max
end
end

def deepest_nodes
return [self] if self.depth == 1

self.child_nodes.select {|n| n.height == self.height - 1}.collect {|n| n.deepest_nodes}.flatten
end
end
``````

Getting the elements:

``````BinaryNode.new(1,BinaryNode.new(2,leaf,leaf),BinaryNode.new(3,leaf,leaf)).deepest_nodes.collect {|n| n.element }
``````
-
Thank you so much.I didn't explain too well. I added an example. –  John Oct 26 '12 at 18:30
@John, there you have the example using the l/r childs (given that they can be nil or an instance of BinaryNode) –  robertodecurnex Oct 26 '12 at 18:39
Minor nitpick: I would probably rename `depth` to `height`, since the depth of a node is usually its distance from the root. –  Phrogz Oct 26 '12 at 19:58
@Phrogz recap: you are right. We really need a BinaryTree class to make this behave properly. –  robertodecurnex Oct 26 '12 at 20:16
not sure why did the deepest_nodes output memory address when use the above example.#<BinaryNode:0x10cb1c288>#<BinaryNode:0x10cb1bea0> –  John Oct 26 '12 at 20:17
``````struct node //structure type
{
int data;
struct node *left,*right;
};

from main()
{
Deepestnode= MaxDepth(root);
}

//return type// function name//
struct node*    MaxDepth (struct node* temp, int depth)
{
if(temp->next!=NULL && temp->right!=NULL)
{
MaxDepth(temp->left ,depth+1);
MaxDepth(temp->right,depth+1);
}
else if(temp->left==NULL && temp->right!=NULL)
MaxDepth(temp->right,depth+1);
else if(temp->left!=NULL && temp->right==NULL)
MaxDepth(temp->left,depth+1);

else // temp->left==NULL &&temp->right==NULL
{
if(max<depth)
{
max=depth;
Deepestnode=temp;
}
return(Deepestnode);
}
}
``````
-