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998.py
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998.py
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'''
We are given the root node of a maximum tree: a tree where every node has a value greater than any other value in its subtree.
Just as in the previous problem, the given tree was constructed from an list A (root = Construct(A)) recursively with the following Construct(A) routine:
If A is empty, return null.
Otherwise, let A[i] be the largest element of A. Create a root node with value A[i].
The left child of root will be Construct([A[0], A[1], ..., A[i-1]])
The right child of root will be Construct([A[i+1], A[i+2], ..., A[A.length - 1]])
Return root.
Note that we were not given A directly, only a root node root = Construct(A).
Suppose B is a copy of A with the value val appended to it. It is guaranteed that B has unique values.
Return Construct(B).
Example 1:
Input: root = [4,1,3,null,null,2], val = 5
Output: [5,4,null,1,3,null,null,2]
Explanation: A = [1,4,2,3], B = [1,4,2,3,5]
Example 2:
Input: root = [5,2,4,null,1], val = 3
Output: [5,2,4,null,1,null,3]
Explanation: A = [2,1,5,4], B = [2,1,5,4,3]
'''
# Definition for a binary tree node.
# class TreeNode(object):
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None
class Solution(object):
def insertIntoMaxTree(self, root, val):
"""
:type root: TreeNode
:type val: int
:rtype: TreeNode
"""
new_node = TreeNode(val)
if not root:
return new_node
if root.val < val:
new_node.left = root
return new_node
nrwwt = root
start, prev = root.right, root
while start:
if(start.val > val):
prev = start
start = start.right
else:
break
prev.right = new_node
if not start:
new_node.right = start
else:
new_node.left = start
return root