# C++ Finding largest number in binary tree

Binary tree of numbers, with a node structure

``````type def numbernode
{
unsigned value;
numbernode * left;
numbernode * right;
}
``````

and an external pointer (to the root node) write a function in largest (numbernode * tree) will return the largest number in the tree , if the tree is not empty. your function should return -1 if the tree is empty.

its a practice question for a test, i've spent hours trying to figure it out, i need some code assistance!!

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If you've spent hours, show us some of what you have tried, and then we can help. –  John May 2 '11 at 18:17

recursion is your friend - here's the outline

``````int maxValue(Node n) {

if(n == null) return -1 // if this is a null node, get out with -1

// each time you call this, it spawns a new version of this function
// calling maxValue(root) could end up calling maxValue on a .left node
// dozens of times before it calls one on a .right node!
int left = maxValue(n.left) // get the left value's max
int right = maxValue(n.right) // get the right value's max

return max(this.value, left, right) // return the highest of the three values
}
``````

this is the basic idea. You go down the children of the current node, and get the result back, see if their results are better than yours. The highest value will work its way up the chain.

P.S. the syntax in my code is simply wrong. For instance, there's no semi-colons. It also ignores pointers or anything. Think of it as C++ friendly pseudo-code only.

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I'm digging up this old post, but what can we do if the tree contains all values less than -1? –  Coding Mash Nov 18 '12 at 13:16

Recursion problems are really easy to solve once you start thinking about them the right way, especially with regards to trees. "What is the largest number in the tree? Well its the highest of myself, my left child, and my right child...what is the highest of my left child? well its the highest of that child, its left, and its right...." and so on.

really simple recursion problem.

``````int largest( node* root )
{
if ( root == null )
return -1;

int left = largest(root->left);
int right = largest ( root->right);
if( root->value > left && root->value > right )
return root->value;
else
return max ( left, right );
}
``````
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I understand, so I went ahead and added an explanation in –  Dan F May 2 '11 at 18:45

Just do a traversal of the tree using any of the known method of inorder, preorder or postorder. You are bound to encounter the largest element during the traversal.

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Just walk the right side of the tree and return the last non-null node.

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It doesn't say binary search tree, or that it is sorted in any way. –  corsiKa May 2 '11 at 18:18
A binary tree is not necessarily ordered. You are confusing binary trees and binary search trees, i'd say –  sehe May 2 '11 at 18:19
What would be the point of storing the number in the tree in the first place? I know it was an assumption of mine going in, and that the comparison might not be a < > comparison. Other than that, point taken. –  Kevin Hsu May 2 '11 at 18:54
So - I can figure out a few dozen reasons why I'd store unordered numbers in a binary tree. Heck, even in an unbalanced one. (even objects identified by numbers just to stretch the imagination). This would happen in cases where it's not just about the nodes, but also the edges –  sehe May 2 '11 at 21:34
In the context of a programming test question, I think it's reasonable to assume the integers are the values and not pointers or id's to external data. True, one can contrive many different reasons, but in the context of a test question, I don't feel my reply was unreasonable. Also, I know well the difference, but thanks for the lesson, anyways. –  Kevin Hsu May 3 '11 at 5:08