实验七 二叉树的创建与遍历(第10周)
作者:互联网
实验目的:
通过上机实验进一步掌握栈、队列、二叉树的存储结构及基本操作的实现方法。
实验内容与要求:
基于二叉链表存储结构实现二叉树的基本运算,要求:
⑴能建立非空二叉树;
⑵实现二叉树的先、中、后序递归遍历算法;
⑶实现二叉树的非递归的先(或中、或后)序遍历算法及层序遍历算法;
⑷记录运行结果并对递归算法和非递归算法的效率加以分析。
第四点未实现。
注意:
在先序输入创建上述二叉树时应输入:AB##CDF##G##E##
(每个叶子节点后都需两个#字符来表示它们是叶子节点)
而不是:ABCDFGE.
#include<iostream>
#include<vector>
#include<stack>
#include<queue>
using namespace std;
template<typename T>
class BinTree {
private:
struct BinNode {
T data; //数值
struct BinNode* lchild, * rchild; //左右孩子指针
};
BinNode* root; //根节点
vector<T>res; //记录先序、中序、后序遍历的结果
public:
//初始化
BinTree() {
root =NULL;
}
//以先序输入创建二叉树,若树为空则输入#字符(注意:叶子节点后面需跟两个#字符)
BinNode *init() {
BinNode* p = NULL;
T n; //存放临时数据
cin >> n;
if (root == NULL) {
root = new BinNode;
root->data = n;
root->lchild = init();
root->rchild = init();
}
else {
if (n == '#')return NULL;
else {
p = new BinNode;
p->data = n;
p->lchild = init();
p->rchild = init();
return p;
}
}
return NULL;
}
//先序递归遍历
vector<T>first_recursion(BinNode *root) {
if (root != NULL) {
res.push_back(root->data);
first_recursion(root->lchild);
first_recursion(root->rchild);
}
return res;
}
//中序递归遍历
vector<T>middle_recursion(BinNode* root) {
if (root != NULL) {
middle_recursion(root->lchild);
res.push_back(root->data);
middle_recursion(root->rchild);
}
return res;
}
//后序递归遍历
vector<T>after_recursion(BinNode* root) {
if (root != NULL) {
after_recursion(root->lchild);
after_recursion(root->rchild);
res.push_back(root->data);
}
return res;
}
//先序非递归,利用栈实现
vector<T>first_non_recursion(BinNode* root) {
if (root == NULL) {
return res;
}
stack<BinNode*>st;
st.push(root);
while (!st.empty()) {
auto m = st.top();
st.pop();
res.push_back(m->data);
//因为栈的后进先出,所以先序遍历先压右节点再压左节点
if (m->rchild) {
st.push(m->rchild);
}
if (m->lchild) {
st.push(m->lchild);
}
}
return res;
}
//中序非递归,利用栈实现
vector<T>middle_non_recursion(BinNode* root) {
stack<BinNode*>st;
while (!st.empty() || root) {
while (root) {
st.push(root);
root = root->lchild;
}
if (!st.empty()) {
root = st.top();
st.pop();
res.push_back(root->data);
root = root->rchild; //判断当前节点是否有右孩子;
}
}
return res;
}
//后序非递归,利用先序非递归结果,只需先序遍历时先进栈左节点后进栈右节点,然后逆置即可
vector<T>after_non_recursion(BinNode* root) {
if (root == NULL) {
return res;
}
stack<BinNode*>st;
st.push(root);
while (!st.empty()) {
auto m = st.top();
st.pop();
res.push_back(m->data);
//此时先压左节点,再压右节点
if (m->lchild) {
st.push(m->lchild);
}
if (m->rchild) {
st.push(m->rchild);
}
}
//结果逆置
reverse(res.begin(),res.end());
return res;
}
//层次遍历,利用队列实现
vector<T>level_recursion(BinNode* root) {
queue<BinNode*>que;
if (root == NULL)return res;
que.push(root);
while (!que.empty()) {
auto x = que.front();
res.push_back(x->data);
que.pop();
if (x->lchild != NULL) {
que.push(x->lchild);
}
if (x->rchild != NULL) {
que.push(x->rchild);
}
}
return res;
}
//将遍历结果传递给res
vector<T>out(int n) {
vector<T>().swap(res);
//先序递归
if (n == 1) {
res = first_recursion(root);
}
//先序非递归
if (n == -1) {
res = first_non_recursion(root);
}
//中序递归
else if(n==2){
res = middle_recursion(root);
}
//中序非递归
else if (n == -2) {
res = middle_recursion(root);
}
//后序递归
else if (n == 3) {
res = after_recursion(root);
}
//后序非递归
else if (n == -3) {
res = after_non_recursion(root);
}
//层次遍历
else if (n == 4) {
res = level_recursion(root);
}
return res;
}
};
int main() {
BinTree<char>T;
cout << "以先序输入创建二叉树,若树为空则输入#字符(注意:叶子节点后面需跟两个#字符):"<<endl;
T.init();
vector<char>a;
cout << endl << endl;
cout << endl<<"先序递归:";
vector<char>().swap(a);
a = T.out(1);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl << "中序递归:";
vector<char>().swap(a);
a = T.out(2);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl << "后序递归:";
vector<char>().swap(a);
a = T.out(3);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl << endl;
cout << endl << "先序非递归:";
vector<char>().swap(a);
a = T.out(-1);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl << "中序非递归:";
vector<char>().swap(a);
a = T.out(-2);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl << "后序非递归:";
vector<char>().swap(a);
a = T.out(-3);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl;
cout << endl << "层次遍历";
vector<char>().swap(a);
a = T.out(4);
for (unsigned int i = 0; i < a.size(); i++) {
cout << a[i];
}
cout << endl << endl;
}
标签:10,遍历,return,recursion,st,二叉树,res,push,root 来源: https://blog.csdn.net/weixin_47446365/article/details/121323752