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Given a binary search tree (BST), find the lowest common ancestor (LCA) of two given nodes in the BST.
According to the definition of LCA on Wikipedia: “The lowest common ancestor is defined between two nodes p and q as the lowest node in T that has both p and q as descendants (where we allow a node to be a descendant of itself).”
Example 1:
Input: root = [6,2,8,0,4,7,9,null,null,3,5], p = 2, q = 8 Output: 6 Explanation: The LCA of nodes 2 and 8 is 6.
Example 2:
Input: root = [6,2,8,0,4,7,9,null,null,3,5], p = 2, q = 4 Output: 2 Explanation: The LCA of nodes 2 and 4 is 2, since a node can be a descendant of itself according to the LCA definition.
Example 3:
Input: root = [2,1], p = 2, q = 1 Output: 2
Constraints:
[2, 105].-109 <= Node.val <= 109Node.val are unique.p != qp and q will exist in the BST.Iterative:
# Definition for a binary tree node.
# class TreeNode:
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None
class Solution:
def lowestCommonAncestor(self, root: 'TreeNode', p: 'TreeNode', q: 'TreeNode') -> 'TreeNode':
while root:
if root.val < p.val and root.val < q.val:
root = root.right
elif root.val > p.val and root.val > q.val:
root = root.left
else:
return root
Recursive:
# Definition for a binary tree node.
# class TreeNode:
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None
class Solution:
def lowestCommonAncestor(self, root: 'TreeNode', p: 'TreeNode', q: 'TreeNode') -> 'TreeNode':
if root is None:
return None
if root.val < p.val and root.val < q.val:
return self.lowestCommonAncestor(root.right, p, q)
if root.val > p.val and root.val > q.val:
return self.lowestCommonAncestor(root.left, p, q)
return root
Iterative:
/**
* Definition for a binary tree node.
* public class TreeNode {
* int val;
* TreeNode left;
* TreeNode right;
* TreeNode(int x) { val = x; }
* }
*/
class Solution {
public TreeNode lowestCommonAncestor(TreeNode root, TreeNode p, TreeNode q) {
while (root != null) {
if (root.val < p.val && root.val < q.val) root = root.right;
else if (root.val > p.val && root.val > q.val) root = root.left;
else return root;
}
return root;
}
}
Recursive:
/**
* Definition for a binary tree node.
* public class TreeNode {
* int val;
* TreeNode left;
* TreeNode right;
* TreeNode(int x) { val = x; }
* }
*/
class Solution {
public TreeNode lowestCommonAncestor(TreeNode root, TreeNode p, TreeNode q) {
if (root == null) return null;
if (root.val < p.val && root.val < q.val) return lowestCommonAncestor(root.right, p, q);
if (root.val > p.val && root.val > q.val) return lowestCommonAncestor(root.left, p, q);
return root;
}
}
Iterative:
/**
* Definition for a binary tree node.
* type TreeNode struct {
* Val int
* Left *TreeNode
* Right *TreeNode
* }
*/
func lowestCommonAncestor(root, p, q *TreeNode) *TreeNode {
for root != nil {
if root.Val > p.Val && root.Val > q.Val {
root = root.Left
} else if root.Val < p.Val && root.Val < q.Val {
root = root.Right
} else {
return root
}
}
return nil
}
Recursive:
/**
* Definition for a binary tree node.
* type TreeNode struct {
* Val int
* Left *TreeNode
* Right *TreeNode
* }
*/
func lowestCommonAncestor(root, p, q *TreeNode) *TreeNode {
if root == nil {
return root
}
if root.Val < p.Val && root.Val < q.Val {
return lowestCommonAncestor(root.Right, p, q)
}
if root.Val > p.Val && root.Val > q.Val {
return lowestCommonAncestor(root.Left, p, q)
}
return root
}
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