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【leetcode】Populating Next Right Pointers in Each Node - IT-Homer 专栏

[日期:2013-04-13] 来源:  作者: [字体: ]

Question :

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

Anwser 1:    Travesal

/**
 * 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) {
        // Start typing your C/C++ solution below
        // DO NOT write int main() function
        if(NULL == root){
            return;
        }

        TreeLinkNode *left = root;
        while(left && left->left && left->right)
        {
            root = left;
            while(root)
            {
                root->left->next = root->right;     // connect two nodes of root
                if(root->next){
                    root->right->next = root->next->left;   // connect two isolated nodes
                }
                    
                root=root->next;    // traversal the same level line
            }
            left=left->left;
        }
    }
};


Anwser 2:    Recursive

/**
 * 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) {
        // Start typing your C/C++ solution below
        // DO NOT write int main() function
        if(NULL == root){
            return;
        }
        
        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);
    }
};


Anwser 3: Queue

/**
 * 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) {
        // Start typing your C/C++ solution below
        // DO NOT write int main() function
        if(NULL == root){
            return;
        }
        
        queue<TreeLinkNode *> Q;
        if(root != NULL){
            Q.push(root);
        }
        
        int row = 1;
        int count = 0;
        while(!Q.empty()){
            TreeLinkNode *tmp = Q.front();
            Q.pop();
            count++;
            
            if(tmp->left) Q.push(tmp->left);
            if(tmp->right) Q.push(tmp->right);
            
            if(count == row){
                tmp->next = NULL;
                count = 0;
                row *= 2;
            } else {
                tmp->next = Q.front();
            }
        }
    }
};
注意点:

1) Queue > Traversal > Recursive

2) Queue 没有递归的层次限制,可以使用很大的二叉树





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