# Find maximum element in binary tree

I am really confused about finding an element in `binary tree`.

Question : When we say, search an element in binary tree, maximum in this case, do we assume that the tree is sorted???
If not, take a look at below code, i got it from a book and almost every online url is suggesting similar pattern

``````int FindMaxNmb(BinaryTreeNode root)
{
int root_val,left,right,max;
if(root!=null)
{
root_val = root.getData();

//recursion - this is what i dont understand

/*
*
* This code would have made sense if binary tree contained
* sorted elements,like  The left subtree of a node contained
* only nodes with keys less than the node's key The right subtree
* of a node contained only nodes with keys greater
* than the node's key.
*
* */
left = FindMaxNmb(root.getLeft());
right = FindMaxNmb(root.getRight());

//Find max nmbr
if(left > right)
{
max = left;
}
else
{
max = right;
}

if(root_val > max)
{
max = root_val;
}
}
return max;
}
``````

What i dont undertsand : take this recusrion for instance `left = FindMaxNmb(root.getLeft());` this will go on calling unless it reaches the leftmost bottom leaf and then assigns the value, same is with `getRight()`....but this thing only works for leftmost node having 2 childs...how does it checks the value of remaining nodes (i am assuming that binary tree is not sorted)

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@user2864740 : been through those references....but really dint cleared my doubt about how the elements are placed and recursion works!! –  NoobEditor Feb 8 at 6:29
@user2864740 : i understand the concept of searching in `Binary search tree`, what m unable to crack is what if the `elements` in the BT are placed randomly...(asking because i don't know if placing element randomly in BT is permissible or not so long as 2 childs logic is maintained) –  NoobEditor Feb 8 at 6:34
ok..let me put it plain simple...in the code that i posted, its searching max element under the presumption of BST and not BT...right?? –  NoobEditor Feb 8 at 6:36
–  NoobEditor Feb 8 at 6:36

The difference between a Binary Tree and Binary Search Tree is that a BST has a guaranteed between each node and its left/right child nodes - a plain BT has no ordering.

The code presented will work for a plain Binary Tree because it traverses all nodes in a depth first manner. (If the data was a BST the algorithm would only need to find the "rightmost" node and return it's value to find the maximum value in the tree.)

Now, in the BT implementation shown, each recursive function finds the maximum value of the sub-tree given by the left or right child node (the child node is root of the sub-tree) and it is this value that is returned.

For instance, consider this Binary Tree, which is not a BST in this case (from Wikipedia):

The call stack, as it works the way through the tree, will look like the following where `-` represents a stack level and the number represents the node.

``````-2
--7 (l)
---2 (l)
---6 (r)
----5 (l)
----11 (r)
--5 (r)
---9 (r)
----4 (l)
``````

The stack can only "unwind" when it reaches the terminal case - this after the maximum value of the left and right sub-trees has been computed (via recursion into `FindMaxNmb`).

On the unwinding phase ..

• .. when node 11 is reached there is no right node so it returns to 6
• since this finishes searching in the right sub-tree (of 6) it returns to 7
• since this finishes searching in the right sub-tree (of 7) it returns to 2
• since this finishes searching in the left sub-tree (of 2), the right sub-tree (5) is entered ..
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