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second-minimum-node-in-a-binary-tree.py
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second-minimum-node-in-a-binary-tree.py
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# Time: O(n)
# Space: O(h)
# Given a non-empty special binary tree consisting of nodes with the non-negative value,
# where each node in this tree has exactly two or zero sub-node. If the node has two sub-nodes,
# then this node's value is the smaller value among its two sub-nodes.
#
# Given such a binary tree, you need to output the second minimum value in the set made of
# all the nodes' value in the whole tree.
#
# If no such second minimum value exists, output -1 instead.
#
# Example 1:
# Input:
# 2
# / \
# 2 5
# / \
# 5 7
#
# Output: 5
# Explanation: The smallest value is 2, the second smallest value is 5.
# Example 2:
# Input:
# 2
# / \
# 2 2
#
# Output: -1
# Explanation: The smallest value is 2, but there isn't any second smallest value.
# Definition for a binary tree node.
# class TreeNode(object):
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None
import heapq
class Solution(object):
def findSecondMinimumValue(self, root):
"""
:type root: TreeNode
:rtype: int
"""
def findSecondMinimumValueHelper(root, max_heap, lookup):
if not root:
return
if root.val not in lookup:
heapq.heappush(max_heap, -root.val)
lookup.add(root.val)
if len(max_heap) > 2:
lookup.remove(-heapq.heappop(max_heap))
findSecondMinimumValueHelper(root.left, max_heap, lookup)
findSecondMinimumValueHelper(root.right, max_heap, lookup)
max_heap, lookup = [], set()
findSecondMinimumValueHelper(root, max_heap, lookup)
if len(max_heap) < 2:
return -1
return -max_heap[0]