【LeetCode】863. All Nodes Distance K in Binary Tree 解题报告(Python)

【LeetCode】863. All Nodes Distance K in Binary Tree 解题报告(Python)

作者: 负雪明烛
id: fuxuemingzhu
个人博客: http://fuxuemingzhu.cn/


题目地址:https://leetcode.com/problems/all-nodes-distance-k-in-binary-tree/description/

题目描述:

We are given a binary tree (with root node root), a target node, and an integer value K.

Return a list of the values of all nodes that have a distance K from the target node. The answer can be returned in any order.

Example 1:

Input: root = [3,5,1,6,2,0,8,null,null,7,4], target = 5, K = 2

Output: [7,4,1]

Explanation:
The nodes that are a distance 2 from the target node (with value 5)
have values 7, 4, and 1.

【LeetCode】863. All Nodes Distance K in Binary Tree 解题报告(Python)

Note that the inputs "root" and "target" are actually TreeNodes.
The descriptions of the inputs above are just serializations of these objects.

Note:

  1. The given tree is non-empty.
  2. Each node in the tree has unique values 0 <= node.val <= 500.
  3. The target node is a node in the tree.
  4. 0 <= K <= 1000.

题目大意

找出距离二叉树上某个节点距离为target的所有节点。注意不仅要向下寻找,还可以通过父亲节点反向寻找。

解题方法

第一眼看到这个题就感觉到这个题是个BFS问题,因为是满足条件的搜索问题,而且同时向不同方向寻找,找到之后提前终止。很像刚做过的,752. Open the Lock

所以这个题的做法就是通过DFS建立一个邻接矩阵,然后在这个邻接矩阵上使用BFS。这个BFS的做法和752题基本雷同,只是终止条件不同。

代码如下:

# 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 distanceK(self, root, target, K):
"""
:type root: TreeNode
:type target: TreeNode
:type K: int
:rtype: List[int]
"""
# DFS
conn = collections.defaultdict(list)
def connect(parent, child):
if parent and child:
conn[parent.val].append(child.val)
conn[child.val].append(parent.val)
if child.left: connect(child, child.left)
if child.right: connect(child, child.right)
connect(None, root)
# BFS
que = collections.deque()
que.append(target.val)
visited = set([target.val])
for k in range(K):
size = len(que)
for i in range(size):
node = que.popleft()
for j in conn[node]:
if j not in visited:
que.append(j)
visited.add(j)
return list(que)

参考大神的BFS的写法,感觉醍醐灌顶啊!

# 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 distanceK(self, root, target, K):
"""
:type root: TreeNode
:type target: TreeNode
:type K: int
:rtype: List[int]
"""
# DFS
conn = collections.defaultdict(list)
def connect(parent, child):
if parent and child:
conn[parent.val].append(child.val)
conn[child.val].append(parent.val)
if child.left: connect(child, child.left)
if child.right: connect(child, child.right)
connect(None, root)
# BFS
bfs = [target.val]
visited = set([target.val])
for k in range(K):
bfs = [y for x in bfs for y in conn[x] if y not in visited]
visited |= set(bfs)
return bfs

参考资料:

https://leetcode.com/problems/all-nodes-distance-k-in-binary-tree/discuss/143729/Python-DFS-and-BFS/175740

日期

2018 年 9 月 14 日 ———— 现在需要的还是夯实基础,算法和理论

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