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subtree-of-another-tree.py
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subtree-of-another-tree.py
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# Time: O(m * n), m is the number of nodes of s, n is the number of nodes of t
# Space: O(h), h is the height of s
# Given two non-empty binary trees s and t,
# check whether tree t has exactly the same structure and
# node values with a subtree of s.
# A subtree of s is a tree consists of a node in s and all of this node's descendants.
# The tree s could also be considered as a subtree of itself.
#
# Example 1:
# Given tree s:
#
# 3
# / \
# 4 5
# / \
# 1 2
# Given tree t:
# 4
# / \
# 1 2
# Return true, because t has the same structure and node values with a subtree of s.
# Example 2:
# Given tree s:
#
# 3
# / \
# 4 5
# / \
# 1 2
# /
# 0
# Given tree t:
# 4
# / \
# 1 2
# Return false.
# 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 isSubtree(self, s, t):
"""
:type s: TreeNode
:type t: TreeNode
:rtype: bool
"""
def isSame(x, y):
if not x and not y:
return True
if not x or not y:
return False
return x.val == y.val and \
isSame(x.left, y.left) and \
isSame(x.right, y.right)
def preOrderTraverse(s, t):
return s != None and \
(isSame(s, t) or \
preOrderTraverse(s.left, t) or \
preOrderTraverse(s.right, t))
return preOrderTraverse(s, t)