Given a binary tree
struct TreeLinkNode { TreeLinkNode *left; TreeLinkNode *right; TreeLinkNode *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
.
Initially, all next pointers are set to NULL
.
Note:
- You may only use constant extra space.
- You may assume that it is a perfect binary tree (ie, all leaves are at the same level, and every parent has two children).
For example,
Given the following perfect binary tree,
1 / 2 3 / / 4 5 6 7
After calling your function, the tree should look like:
1 -> NULL / 2 -> 3 -> NULL / / 4->5->6->7 -> NULL
解题思路:
按层遍历一遍所有结点即可,每一次从左到右枚举一次当前层的节点(这一层的节点已经连上),如果下一层为空,则退出,否则顺序地将下一层连起来。
/** * Definition for binary tree with next pointer. * struct TreeLinkNode { * int val; * TreeLinkNode *left, *right, *next; * TreeLinkNode(int x) : val(x), left(NULL), right(NULL), next(NULL) {} * }; */ class Solution { public: void connect(TreeLinkNode *root) { // IMPORTANT: Please reset any member data you declared, as // the same Solution instance will be reused for each test case. if(root == NULL) return; TreeLinkNode *head = root, *last = root, *tmp_last = root;//store the horizontal list root -> next = NULL; //if head -> left == NULL, then this is the leaf level, end while(head -> left != NULL) { //list the head level node last = head -> left;//last stores the next level, which is what we want to connect last -> next = head -> right;//connect the right to the left last = head -> right;//last node switch to the right node of the head tmp_last = head;//head level last node while(tmp_last -> next != NULL) { tmp_last = tmp_last -> next; last -> next = tmp_last -> left; (tmp_last -> left) -> next = tmp_last -> right; last = tmp_last -> right; } last -> next = NULL; head = head -> left; } } };