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#include <bits/stdc++.h>
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using namespace std;
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#pragma region 二叉树模板
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//二叉树结点结构
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typedef struct Node {
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string data; //结点数据
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struct Node *left; //左孩子
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struct Node *right; //右孩子
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} *Tree; //定义了一个指针,这个指针是一个TreeNode的指针
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//通过字符串数据,按层遍历反向构建完全二叉树
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Tree RebuildCompleteBinaryTree(string *arr, int n) {
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//构建一个指针组成的数组
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vector<Tree> trees;
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//遍历每一个字符串数组中的字符串,构建指针,然后将指针添加到指针数组中去
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for (int i = 0; i < n; i++) {
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//实例化指针
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Tree tree = new Node();
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tree->data = arr[i];//指针为->,对象为.
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tree->left = NULL;
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tree->right = NULL;
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trees.push_back(tree);
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}
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//从下往上遍历
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/*
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0
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1 2
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3 4 5 6
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*/
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for (int i = trees.size() - 1; i > 0; i--) {
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//奇数
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if (i % 2 != 0) {
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trees[(i - 1) / 2]->left = trees[i]; //好巧妙的 (i-1)/2,这个除法是整数除法,还带取整的,牛!
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} else//偶数
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{
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trees[(i - 1) / 2]->right = trees[i]; //好巧妙的 (i-1)/2,这个除法是整数除法,还带取整的,牛!
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}
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}
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return trees[0];//返回根节点
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}
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//前序遍历
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void PreOrderTraverse(Tree T) {
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//利用递归前序输出二叉树
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if (T) {
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cout << T->data << " ";
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PreOrderTraverse(T->left);
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PreOrderTraverse(T->right);
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}
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}
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//中序遍历
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void InOrderTraverse(Tree T) {
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//利用递归中序输出二叉树
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if (T) {
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InOrderTraverse(T->left);
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cout << T->data << " ";
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InOrderTraverse(T->right);
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}
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}
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//后序遍历
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void PostOrderTraverse(Tree T) {
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//利用递归后序输出二叉树
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if (T) {
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PostOrderTraverse(T->left);
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PostOrderTraverse(T->right);
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cout << T->data << " ";
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}
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}
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// level : 用来控制是第几层的,默认为第0层,每一层增加1
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// 容器 : vector<vector<Tree>> &vec
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// 层序遍历(递归的核心函数)
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void PreLevelOrderTraverse(Tree T, int level, vector<vector<Tree>> &vec) {
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//如果当前节点不是空
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if (T) {
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//如果当前行数不够,换句话说,就是又该新增加一层的时候,声明一个数组,追加上去。
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if (vec.size() < level + 1) {
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vector<Tree> arr;
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vec.push_back(arr);
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}
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//将当前的指针保存到数组中
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vec[level].push_back(T);
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//递归左子树
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PreLevelOrderTraverse(T->left, level + 1, vec);
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//递归右子树
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PreLevelOrderTraverse(T->right, level + 1, vec);
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}
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}
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//层次遍历
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void LevelOrderTraverse(Tree T) {
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if (T) {
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vector<vector<Tree>> vec;
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//通过层序递归遍历进行构建
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PreLevelOrderTraverse(T, 0, vec);
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//输出构建结果
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for (int i = 0; i < vec.size(); i++) {
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for (int j = 0; j < vec[i].size(); j++) {
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cout << vec[i][j]->data << " ";
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}
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cout << endl;
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}
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}
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}
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#pragma endregion 二叉树模板
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int main() {
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//输入+输出重定向
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//freopen("../x.in", "r", stdin);
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//freopen("../x.out", "w", stdout);
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string s;
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cin >> s;
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string arr[1000];
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for (int i = 0; i < s.size(); ++i) {
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arr[i] = s[i];
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}
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Tree root = RebuildCompleteBinaryTree(arr, s.size());
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PreOrderTraverse(root);
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//关闭文件
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//fclose(stdin);
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//fclose(stdout);
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return 0;
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}
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