How to find the closest element to a given key value in a binary search tree?

Given a bst with integer values as keys how do I find the closest node to that key in a bst ? The BST is represented using a object of nodes (Java). Closest will be for eg 4,5,9 and if the key is 6 it will return 5 ..

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The question appears incomplete. How is the BST stored? What do they mean by "closest" value? Smallest delta? How should ties be treated? –  Andrew White Jun 2 '11 at 0:57

Traverse the tree as you would to find the element. While you do that record the value that is closest to your key. Now when you didn't find a node for the key itself return the recorded value.

So if you were looking for the key `3` in the following tree you would end up on the node `6` without finding a match but your recorded value would be `2` since this was the closest key of all nodes that you had traversed (`2`,`7`,`6`).

``````                 2
1      7
6   8
``````
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It can be solved in O(log*n*) time.

• If the value in a node is same as the given value, it's the closest node;
• If the value in a node is greater than the given value, move to the left child;
• If the value in a node is less than the given value, move to the right child.

The algorithm can be implemented with the following C++ code:

``````BinaryTreeNode* getClosestNode(BinaryTreeNode* pRoot, int value)
{
BinaryTreeNode* pClosest = NULL;
int minDistance = 0x7FFFFFFF;
BinaryTreeNode* pNode = pRoot;
while(pNode != NULL){
int distance = abs(pNode->m_nValue - value);
if(distance < minDistance){
minDistance = distance;
pClosest = pNode;
}

if(distance == 0)
break;

if(pNode->m_nValue > value)
pNode = pNode->m_pLeft;
else if(pNode->m_nValue < value)
pNode = pNode->m_pRight;
}

return pClosest;
}
``````

You may visit my blog for more details.

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Traverse takes O(n) time. Can we proceed it in top-bottom? like this recursive code:

``````Tnode * closestBST(Tnode * root, int val){
if(root->val == val)
return root;
if(val < root->val){
if(!root->left)
return root;
Tnode * p = closestBST(root->left, val);
return abs(p->val-val) > abs(root->val-val) ? root : p;
}else{
if(!root->right)
return root;
Tnode * p = closestBST(root->right, val);
return abs(p->val-val) > abs(root->val-val) ? root : p;
}
return null;
}
``````
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Exactly what I was after - thanks! –  recurser Mar 31 '12 at 6:40