![[leetcode]Recover Binary Search Tree @ Python](https://image.shishitao.com:8440/aHR0cHM6Ly9ia3FzaW1nLmlrYWZhbi5jb20vdXBsb2FkL2NoYXRncHQtcy5wbmc%2FIQ%3D%3D.png?!?w=700&webp=1 "[leetcode]Recover Binary Search Tree @ Python")
原题地址:https://oj.leetcode.com/problems/recover-binary-search-tree/
题意:
Two elements of a binary search tree (BST) are swapped by mistake.
Recover the tree without changing its structure.
解题思路:这题是说一颗二叉查找树中的某两个节点被错误的交换了,需要恢复成原来的正确的二叉查找树。
算法一:思路很简单,一颗二叉查找树的中序遍历应该是升序的,而两个节点被交换了,那么对这个错误的二叉查找树中序遍历,肯定不是升序的。那我们只需把顺序恢复过来然后进行重新赋值就可以了。开辟两个列表,list用来存储被破坏的二叉查找树的节点值,listp用来存储二叉查找树的节点的指针。然后将list排序,再使用listp里面存储的节点指针赋值就可以了。
代码:
# Definition for a binary tree node
# class TreeNode:
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None class Solution:
# @param root, a tree node
# @return a tree node
def inorder(self, root, list, listp):
if root:
self.inorder(root.left, list, listp)
list.append(root.val); listp.append(root)
self.inorder(root.right, list, listp)
def recoverTree(self, root):
list = []; listp = []
self.inorder(root, list, listp)
list.sort()
for i in range(len(list)):
listp[i].val = list[i]
return root
算法二:
题目有一个附加要求就是要求空间复杂度为常数空间。而算法一的空间复杂度为O(N),还不够省空间。以下的解法也是中序遍历的写法,只是非常巧妙,使用了一个prev指针。例如一颗被破坏的二叉查找树如下:
4
/ \
2 6
/ \ / \
1 5 3 7
很明显3和5颠倒了。那么在中序遍历时:当碰到第一个逆序时:为5->4,那么将n1指向5,n2指向4,注意,此时n1已经确定下来了。然后prev和root一直向后遍历,直到碰到第二个逆序时:4->3,此时将n2指向3,那么n1和n2都已经确定,只需要交换节点的值即可。prev指针用来比较中序遍历中相邻两个值的大小关系,很巧妙。
代码:
# Definition for a binary tree node
# class TreeNode:
# def __init__(self, x):
# self.val = x
# self.left = None
# self.right = None class Solution:
# @param root, a tree node
# @return a tree node
def FindTwoNodes(self, root):
if root:
self.FindTwoNodes(root.left)
if self.prev and self.prev.val > root.val:
self.n2 = root
if self.n1 == None: self.n1 = self.prev
self.prev = root
self.FindTwoNodes(root.right)
def recoverTree(self, root):
self.n1 = self.n2 = None
self.prev = None
self.FindTwoNodes(root)
self.n1.val, self.n2.val = self.n2.val, self.n1.val
return root