[LeetCode] 116. Populating Next Right Pointers in Each Node 每一个节点的右向指针
You are given a perfect binary tree where all leaves are on the same level, and every parent has two children. The binary tree has the following definition:html
struct Node {
int val;
Node *left;
Node *right;
Node *next;
}
Populate each next pointer to point to its next right node. If there is no next right node, the next pointer should be set to NULL.node
Initially, all next pointers are set to NULL.git
Example:github
Input: {"$id":"1","left":{"$id":"2","left":{"$id":"3","left":null,"next":null,"right":null,"val":4},"next":null,"right":{"$id":"4","left":null,"next":null,"right":null,"val":5},"val":2},"next":null,"right":{"$id":"5","left":{"$id":"6","left":null,"next":null,"right":null,"val":6},"next":null,"right":{"$id":"7","left":null,"next":null,"right":null,"val":7},"val":3},"val":1}
Output: {"$id":"1","left":{"$id":"2","left":{"$id":"3","left":null,"next":{"$id":"4","left":null,"next":{"$id":"5","left":null,"next":{"$id":"6","left":null,"next":null,"right":null,"val":7},"right":null,"val":6},"right":null,"val":5},"right":null,"val":4},"next":{"$id":"7","left":{"$ref":"5"},"next":null,"right":{"$ref":"6"},"val":3},"right":{"$ref":"4"},"val":2},"next":null,"right":{"$ref":"7"},"val":1}
Explanation: Given the above perfect binary tree (Figure A), your function should populate each next pointer to point to its next right node, just like in Figure B.
Note:app
- You may only use constant extra space.
- Recursive approach is fine, implicit stack space does not count as extra space for this problem.
这道题其实是树的层序遍历的应用,能够参考以前的博客 Binary Tree Level Order Traversal,既然是遍历,就有递归和非递归两种方法,最好两种方法都要掌握,都要会写。下面先来看递归的解法,因为是彻底二叉树,因此若节点的左子结点存在的话,其右子节点一定存在,因此左子结点的 next 指针能够直接指向其右子节点,对于其右子节点的处理方法是,判断其父节点的 next 是否为空,若不为空,则指向其 next 指针指向的节点的左子结点,若为空则指向 NULL,代码以下:ide
解法一:post
class Solution { public: Node* connect(Node* root) { if (!root) return NULL; if (root->left) root->left->next = root->right; if (root->right) root->right->next = root->next? root->next->left : NULL; connect(root->left); connect(root->right); return root; } };
对于非递归的解法要稍微复杂一点,但也不算特别复杂,须要用到 queue 来辅助,因为是层序遍历,每层的节点都按顺序加入 queue 中,而每当从 queue 中取出一个元素时,将其 next 指针指向 queue 中下一个节点便可,对于每层的开头元素开始遍历以前,先统计一下该层的总个数,用个 for 循环,这样当 for 循环结束的时候,该层就已经被遍历完了,参见代码以下:this
解法二:url
// Non-recursion, more than constant space class Solution { public: Node* connect(Node* root) { if (!root) return NULL; queue<Node*> q; q.push(root); while (!q.empty()) { int size = q.size(); for (int i = 0; i < size; ++i) { Node *t = q.front(); q.pop(); if (i < size - 1) { t->next = q.front(); } if (t->left) q.push(t->left); if (t->right) q.push(t->right); } } return root; } };
咱们再来看下面这种碉堡了的方法,用两个指针 start 和 cur,其中 start 标记每一层的起始节点,cur 用来遍历该层的节点,设计思路之巧妙,不得不服啊:spa
解法三:
// Non-recursion, constant space class Solution { public: Node* connect(Node* root) { if (!root) return NULL; Node *start = root, *cur = NULL; while (start->left) { cur = start; while (cur) { cur->left->next = cur->right; if (cur->next) cur->right->next = cur->next->left; cur = cur->next; } start = start->left; } return root; } };
Github 同步地址:
https://github.com/grandyang/leetcode/issues/116
相似题目:
Populating Next Right Pointers in Each Node II
参考资料:
https://leetcode.com/problems/populating-next-right-pointers-in-each-node/