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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
@Andrew White, how does it matter how the BST is stored? – Hec May 26 '14 at 0:08
@Hec It doesn't; My brain was dead that day. – Andrew White May 28 '14 at 1:35
up vote 13 down vote accepted

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).

              1      7
                   6   8
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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){
            return root;
        Tnode * p = closestBST(root->left, val);
        return abs(p->val-val) > abs(root->val-val) ? root : p;
            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

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)

        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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Here's a recursive solution in Python:

def searchForClosestNodeHelper(root, val, closestNode):
    if root is None:
        return closestNode

    if root.val == val:
        return root

    if closestNode is None or abs(root.val - val) < abs(closestNode.val - val):
        closestNode = root

    if val < root.val:
        return searchForClosestNodeHelper(root.left, val, closestNode)
        return searchForClosestNodeHelper(root.right, val, closestNode)

def searchForClosestNode(root, val):
    return searchForClosestNodeHelper(root, val, None)
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The problem with the approach "left right traversal and finding the closest" is that it depends over the sequence in which elements were entered to create BST. If we search 11 for the BST sequence 22, 15, 16, 6,14,3,1,90, the above method will return 15 while the correct answer is 14. The only method should be using recursion to traverse all the nodes, returning the closest one as the result of the recursive function. This'll give us the closest value

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That is simply not true. Teng Teng's answer above: will work for the case you described, and does not traverse every node in the tree. – KSletmoe May 17 at 22:28

The easiest solution is to recurse your tree since when

  • you find the element
  • you reach a leaf. This case you should make a couple of comparison to determine if the closest value is the leaf or the parent of the leaf.

Up to you the implementation.

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This can be done using a Queue and a ArrayList. Queue will be used to perform a breadth first search on the tree. ArrayList will be used to store the element of the tree in breadth first order. Here is the code to implement the same

Queue queue = new LinkedList();
ArrayList list = new ArrayList();
int i =0;
public Node findNextRightNode(Node root,int key)
    System.out.print("The breadth first search on Tree : \t");      
    if(root == null)
        return null;


    while(!queue.isEmpty() )
        Node node = (Node)queue.remove();
        System.out.print( + " ");
        if(node.left != null) queue.add(node.left);
        if(node.right !=null) queue.add(node.right);            

    Iterator iter = list.iterator();
            if(((Node) == key)
                return ((Node);

    return null;
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