标签:src 递归调用 branch 二叉树 name 基本 深度 char s names
#include <iostream>
#include <stdlib.h>
using namespace std;
typedef struct node
{
char sh;
struct node *lchild, *rchild;
}TreeNode, *pTreeNode;
//这里注意,必须要使用&,不然后面求二叉树深度时有误
void Creat_Tree(pTreeNode & T)
{
char ch;
cin >> ch;
if (ch == '#')
T = NULL;
else
{
T = new TreeNode;
T->sh = ch;
Creat_Tree(T->lchild);
Creat_Tree(T->rchild);
}
}
void Before_Search(pTreeNode T)
{
//二叉树先序遍历
if (T)
{
cout << T->sh;
Before_Search(T->lchild);
Before_Search(T->rchild);
}
}
void Medium_Search(pTreeNode T)
{
//二叉树中序遍历
if (T)
{
Medium_Search(T->lchild);
cout << T->sh;
Medium_Search(T->rchild);
}
}
void Last_Search(pTreeNode T)
{
//二叉树后序遍历
if (T)
{
Last_Search(T->lchild);
Last_Search(T->rchild);
cout << T->sh;
}
}
int Depth_Tree(pTreeNode T)
{
int m, n;
if (T == NULL)
return 0;
{
m = Depth_Tree(T->lchild);
n = Depth_Tree(T->rchild);
if (m > n)
return m + 1;
else
return n + 1;
}
}
int NumNode_Tree(pTreeNode T)
{
if (T == NULL)
return 0;
else
return NumNode_Tree(T->lchild) + NumNode_Tree(T->rchild) + 1;
}
int Leaves_Num_Tree(pTreeNode T)
{
//定义静态变量使之在函数返回前一直存在
static int LeavesNum = 0;
if (T == NULL)
return 0;
//如果左和右孩子同时为空,则返回叶子树目
//否则继续访问该结点的左孩子和右孩子
if (T->lchild == NULL && T->rchild == NULL)
LeavesNum++;
else
{
Leaves_Num_Tree(T->lchild);
Leaves_Num_Tree(T->rchild);
}
return LeavesNum;
}
int Branch_1_Tree(pTreeNode T)
{
static int Branch_1_Num = 0;
if (T == NULL) //都空
return 0;
//如果左孩子为空或者右孩子为空,则返回度为1的结点个数
//否则继续访问该结点的左孩子和右孩子
if ((T->lchild == NULL && T->rchild != NULL) || (T->lchild != NULL && T->rchild == NULL)) //一个为空
{
Branch_1_Num++;
}
if (T->lchild != NULL || T->rchild != NULL)
{
//10、11、01
//左孩子不空右孩子空、左右都空、左孩子空右孩子不空
//因此递归调用的条件是左孩子和右孩子不都为空
Branch_1_Tree(T->lchild);
Branch_1_Tree(T->rchild);
}
return Branch_1_Num;
}
int Branch_2_Tree(pTreeNode T)
{
static int Branch_2_Num = 0;
if (T == NULL) //都空
return 0;
if (T->lchild != NULL && T->rchild != NULL) //一个为空
Branch_2_Num++;
//有一个为空时候进行递归调用
if (T->lchild != NULL || T->rchild != NULL)
{
Branch_2_Tree(T->lchild);
Branch_2_Tree(T->rchild);
}
return Branch_2_Num;
}
void AllPath(pTreeNode T)
{
int i;
//定义静态变量,使得其一直保存到函数调用结束为止
static int pathlen = 0;
static char path[100];
if (T != NULL)
{
if (T->lchild == NULL&&T->rchild == NULL)
{
printf("%c到根节点的逆路径:%c ", T->sh, T->sh);
for (i = pathlen - 1; i >= 0; i--)
printf("%c ", path[i]);
printf("\n");
}
else
{
path[pathlen] = T->sh;//将当前节点放入路径中
pathlen++;//路径长度增1
AllPath(T->lchild);
AllPath(T->rchild);
pathlen--;
}
}
}
void main()
{
pTreeNode T = NULL;
cout << "创建二叉树,输入字符:" ;
Creat_Tree(T);
int depth = Depth_Tree(T);
cout << "二叉树的深度是:";
cout << depth << endl;
int num = NumNode_Tree(T);
cout << "二叉树结点个数是:";
cout << num << endl;
int Leaves_Num = Leaves_Num_Tree(T);
cout << "二叉树叶子个数是:";
cout << Leaves_Num << endl;
int Branch_1_Num = Branch_1_Tree(T);
cout << "二叉树度为1的结点个数:";
cout << Branch_1_Num << endl;
int Branch_2_Num = Branch_2_Tree(T);
cout << "二叉树度为2的结点个数:";
cout << Branch_2_Num << endl;
cout << endl;
AllPath(T);
system("pause");
}
标签:src 递归调用 branch 二叉树 name 基本 深度 char s names
原文地址:https://www.cnblogs.com/zhengyu-ahu/p/12038823.html