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103.binary-tree-zigzag-level-order-traversal.md

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题目地址

https://leetcode.com/problems/binary-tree-zigzag-level-order-traversal/description/

题目描述

和leetcode 102 基本是一样的,思路是完全一样的。

Given a binary tree, return the zigzag level order traversal of its nodes' values. (ie, from left to right, then right to left for the next level and alternate between).

For example:
Given binary tree [3,9,20,null,null,15,7],
    3
   / \
  9  20
    /  \
   15   7
return its zigzag level order traversal as:
[
  [3],
  [20,9],
  [15,7]
]

思路

这道题可以借助队列实现,首先把root入队,然后入队一个特殊元素Null(来表示每层的结束)。

然后就是while(queue.length), 每次处理一个节点,都将其子节点(在这里是left和right)放到队列中。

然后不断的出队, 如果出队的是null,则表式这一层已经结束了,我们就继续push一个null。

关键点解析

  • 队列

  • 队列中用Null(一个特殊元素)来划分每层

  • 树的基本操作- 遍历 - 层次遍历(BFS)

代码

  • 语言支持:JS,C++

JavaScript Code:

/*
 * @lc app=leetcode id=103 lang=javascript
 *
 * [103] Binary Tree Zigzag Level Order Traversal
 *
 * https://leetcode.com/problems/binary-tree-zigzag-level-order-traversal/description/
 *
 * algorithms
 * Medium (40.57%)
 * Total Accepted:    201.2K
 * Total Submissions: 493.7K
 * Testcase Example:  '[3,9,20,null,null,15,7]'
 *
 * Given a binary tree, return the zigzag level order traversal of its nodes'
 * values. (ie, from left to right, then right to left for the next level and
 * alternate between).
 * 
 * 
 * For example:
 * Given binary tree [3,9,20,null,null,15,7],
 * 
 * ⁠   3
 * ⁠  / \
 * ⁠ 9  20
 * ⁠   /  \
 * ⁠  15   7
 * 
 * 
 * 
 * return its zigzag level order traversal as:
 * 
 * [
 * ⁠ [3],
 * ⁠ [20,9],
 * ⁠ [15,7]
 * ]
 * 
 * 
 */
/**
 * Definition for a binary tree node.
 * function TreeNode(val) {
 *     this.val = val;
 *     this.left = this.right = null;
 * }
 */
/**
 * @param {TreeNode} root
 * @return {number[][]}
 */
var zigzagLevelOrder = function(root) {
  if (!root) return [];   
  const items = [];
  let isOdd = true;
  let levelNodes = [];
  
  const queue = [root, null];


  while(queue.length > 0) {
      const t = queue.shift();

      if (t) {
          levelNodes.push(t.val)
          if (t.left) {
            queue.push(t.left)
          }
          if (t.right) {
            queue.push(t.right)
          }
      } else {
        if (!isOdd) {
          levelNodes = levelNodes.reverse();
        }
        items.push(levelNodes)
        levelNodes = [];
        isOdd = !isOdd;
        if (queue.length > 0) {
            queue.push(null);
        }
      }
  }

  return items
    
};

C++ Code:

/**
 * Definition for a binary tree node.
 * struct TreeNode {
 *     int val;
 *     TreeNode *left;
 *     TreeNode *right;
 *     TreeNode(int x) : val(x), left(NULL), right(NULL) {}
 * };
 */
class Solution {
public:
    vector<vector<int>> zigzagLevelOrder(TreeNode* root) {
        auto ret = vector<vector<int>>();
        if (root == nullptr) return ret;
        auto queue = vector<const TreeNode*>{root};
        auto isOdd = true;
        while (!queue.empty()) {
            auto sz = queue.size();
            auto level = vector<int>();
            for (auto i = 0; i < sz; ++i) {
                auto n = queue.front();
                queue.erase(queue.begin());
                if (isOdd) level.push_back(n->val);
                else level.insert(level.begin(), n->val);
                if (n->left != nullptr) queue.push_back(n->left);
                if (n->right != nullptr) queue.push_back(n->right);
            }
            isOdd = !isOdd;
            ret.push_back(level);
        }
        return ret;
    }
};

拓展

由于二叉树是递归结构,因此,可以采用递归的方式来处理。在递归时需要保留当前的层次信息(从0开始),作为参数传递给下一次递归调用。

描述

  1. 当前层次为偶数时,将当前节点放到当前层的结果数组尾部
  2. 当前层次为奇数时,将当前节点放到当前层的结果数组头部
  3. 递归对左子树进行之字形遍历,层数参数为当前层数+1
  4. 递归对右子树进行之字形遍历,层数参数为当前层数+1

C++实现

class Solution {
public:
    vector<vector<int>> zigzagLevelOrder(TreeNode* root) {
        auto ret = vector<vector<int>>();
        zigzagLevelOrder(root, 0, ret);
        return ret;
    }
private:
    void zigzagLevelOrder(const TreeNode* root, int level, vector<vector<int>>& ret) {
        if (root == nullptr || level < 0) return;
        if (ret.size() <= level) {
            ret.push_back(vector<int>());
        }
        if (level % 2 == 0) ret[level].push_back(root->val);
        else ret[level].insert(ret[level].begin(), root->val);
        zigzagLevelOrder(root->left, level + 1, ret);
        zigzagLevelOrder(root->right, level + 1, ret);
    }
};

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