C++ 遍历二叉树实例详解

C++ 遍历二叉树实例详解

2叉数又叫红黑树,关于2叉数的遍历问题,有很多,一般有三种常用遍历方法:

(1)前序遍历(2)中序遍历(3)后续遍历

       以下是经典示例:

#include "stdafx.h" 
 
#include<stdio.h> 
#include<malloc.h> 
#include <math.h > 
#define MaxSize 20 
 
typedef struct BiTNode 
{ 
 int data; 
 struct BiTNode *lchild, *rchild; 
}BiTNode,*BiTree; 
 
//建立二叉树 
void CreateBiTree(BiTree *T) 
{ 
 char ch; 
 scanf("%c",&ch); 
 getchar(); 
 if(ch==' ') 
 { 
  printf("不产生子树。\n"); 
  *T=NULL; 
 } 
 else 
 { 
  if(!(*T=(BiTNode *)malloc(sizeof(BiTNode)))) 
  { 
   printf("分配空间失败"); 
   return; 
  }//生成一个新节点 
  (*T)->data = ch; 
  printf("产生左右子树。\n"); 
  CreateBiTree(&(*T)->lchild);        
  CreateBiTree(&(*T)->rchild);        
 } 
} 
 
//递归前序遍历 
void Preorder(BiTNode *T) 
{ 
 if(T) 
 { 
  printf("%c ",T->data); 
  Preorder(T->lchild);         
  Preorder(T->rchild);        
 } 
} 
 
//递归中序遍历 
void Inorder(BiTNode *T) 
{ 
 if(T) 
 { 
  Inorder(T->lchild); 
  printf("%c ",T->data); 
  Inorder(T->rchild); 
 } 
} 
 
//递归后序遍历 
void Postorder(BiTNode *T) 
{ 
 if(T) 
 { 
  Postorder(T->lchild); 
  Postorder(T->rchild); 
  printf("%c ",T->data); 
 } 
} 
 
//非递归前序遍历 
void NPreorder(BiTNode *T) 
{ 
 BiTNode *stack[MaxSize],*p; 
 int top=-1; 
 if(T) 
 { 
  top++; 
  stack[top]=T;     //根节点进栈 
  while(top>-1)     //栈不为空时循环 
  { 
   p=stack[top];    //退栈并访问该节点 
   top--; 
   printf("%c ",p->data); 
   if(p->rchild)    //右孩子进栈 
   { 
    top++; 
    stack[top]=p->rchild; 
   } 
   if(p->lchild)    //左孩子进栈 
   { 
    top++; 
    stack[top]=p->lchild; 
   } 
  }       
 } 
} 
 
//非递归中序遍历 
void NInorder(BiTNode *T) 
{ 
 BiTNode *stack[MaxSize],*p; 
 int top=-1; 
 p=T; 
 while(p||top!=-1) 
 { 
  if(p) 
  { 
   top++; 
   stack[top]=p; 
   p=p->lchild; 
  }        //根节点进栈,遍历左子树 
  else       //根节点退栈,访问根节点,遍历右子树 
  { 
   p=stack[top]; 
   top--; 
   printf("%c ",p->data); 
   p=p->rchild; 
  } 
 } 
} 
 
//非递归后序遍历 
void NPostorder(BiTNode *T) 
{ 
 BiTNode *stack[MaxSize],*p; 
 int flag,top=-1; 
 do 
 { 
  while(T) 
  { 
   top++; 
   stack[top]=T; 
   T=T->lchild; 
  }        //所有左节点进栈 
  p=NULL;      //p总是指向当前节点的前一个已经访问过的节点 
  flag=1;      //flag为1表示当前节点已经访问过了 
  while(top!=-1 && flag) 
  { 
   T=stack[top]; 
   if(T->rchild==p)   //右子树不存在或者已经被访问过时 
   { 
    printf("%c ",T->data); 
    top--; 
    p=T;     //调整p指针 
   } 
   else 
   { 
    T=T->rchild; 
    flag=0;    //调整访问标志 
   } 
  } 
 } while(top!=-1); 
} 
 
//层次遍历二叉树 
void Translever(BiTNode *T) 
{ 
 struct node 
 { 
  BiTNode *vec[MaxSize]; 
  int f,r;    //r为队尾,f为队头 
 }queue; 
 BiTNode *p; 
 p=T; 
 queue.f=0; 
 queue.r=0; 
 if(T) 
  printf("%c ", p->data); 
 queue.vec[queue.r]=p; 
 queue.r=queue.r+1; 
 while(queue.f<queue.r) 
 { 
  p=queue.vec[queue.f]; 
  queue.f=queue.f+1; 
  if(p->lchild) 
  { 
   printf("%c ",p->lchild->data); 
   queue.vec[queue.r]=p->lchild; 
   queue.r=queue.r+1; 
  } 
  if(p->rchild) 
  { 
   printf("%c ",p->rchild->data); 
   queue.vec[queue.r]=p->rchild; 
   queue.r=queue.r+1; 
  } 
 } 
 printf("\n"); 
} 
 
//求二叉树的深度 
int Depth(BiTNode *T) 
{ 
 int dep1,dep2; 
 if(T==NULL) 
  return(0); 
 else 
 { 
  dep1=Depth(T->lchild); 
  dep2=Depth(T->rchild); 
  if(dep1>dep2) 
   return(dep1+1); 
  else 
   return(dep2+1); 
 } 
} 
 
//输出二叉树 
void Disptree(BiTNode *T) 
{ 
 if(T) 
 { 
  printf("%c",T->data); 
  if(T->lchild || T->rchild) 
  { 
   printf("("); 
   Disptree(T->lchild); 
   if(T->rchild) 
    printf(","); 
   Disptree(T->rchild); 
   printf(")"); 
  } 
 } 
} 

main.cpp

void main() 
{ 
 BiTree T=NULL; 
 char j; 
 int sign = 1; 
 
 printf("本程序可以进行建立二叉树、递归与非递归先序、中序、后序遍历二叉树、层次遍历二叉树、输出二叉树的扩展序列的操作。\n"); 
 printf("请将二叉树的先序序列输入以建立二叉树,叶子节点用空格代替。\n"); 
 printf("您必须一个一个地输入字符。\n"); 
 while(sign) 
 { 
  printf("请选择: \n"); 
  printf("0.生成二叉树         1.求二叉树的深度\n"); 
  printf("2.递归先序遍历        3.非递归先序遍历\n"); 
  printf("4.递归中序遍历        5.非递归中序遍历\n"); 
  printf("6.递归后序遍历        7.非递归后序遍历\n"); 
  printf("8.层次遍历         9.输出二叉树的广义表形式\n"); 
  printf("q.退出程序\n"); 
  scanf("%c",&j); 
  getchar(); 
  switch(j) 
  { 
  case '0': 
   printf("生成二叉树:"); 
   CreateBiTree(&T); 
   printf("\n"); 
   printf("\n"); 
   break; 
  case '1': 
   if(T) 
   { 
    printf("此二叉树的深度为:"); 
    printf("%d",Depth(T)); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  case '2': 
   if(T) 
   { 
    printf("递归先序遍历二叉树:"); 
    Preorder(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else 
    printf("二叉树为空!\n"); 
   break; 
  case '3': 
   if(T) 
   { 
    printf("非递归先序遍历二叉树:"); 
    NPreorder(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else 
    printf("二叉树为空!\n"); 
   break; 
  case '4': 
   if(T) 
   { 
    printf("递归中序遍历二叉树:"); 
    Inorder(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  case '5': 
   if(T) 
   { 
    printf("非递归中序遍历二叉树:"); 
    NInorder(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  case '6': 
   if(T) 
   { 
    printf("递归后序遍历二叉树:"); 
    Postorder(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  case '7': 
   if(T) 
   { 
    printf("非递归后序遍历二叉树:"); 
    NPostorder(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  case '8': 
   if(T) 
   { 
    printf("层次遍历二叉树:"); 
    Translever(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  case '9': 
   if(T) 
   { 
    printf("输出二叉树:"); 
    Disptree(T); 
    printf("\n"); 
    printf("\n"); 
   } 
   else printf("二叉树为空!\n"); 
   break; 
  default: 
   sign=0; 
   printf("程序运行结束,按任意键退出!\n"); 
  } 
 } 
} 

示例:

转换成双向链表

先序列:H      F       C       D      M     I        N
中序列:C       F       D      H      I        M     N
后序列:C       D      F       I        N      M     H 

#include <iostream> 
using namespace std; 
struct BSTreeNode{ 
 char m_val; 
 BSTreeNode *m_pLeft; 
 BSTreeNode *m_pRight; 
}; 
BSTreeNode *pHead;//链表显示的头结点 
BSTreeNode *pListIndex;//游标指针 
void showOrderLiust(BSTreeNode *pCurrent); 
void createBSTree(BSTreeNode *&pCurrent,char ch) 
{ 
 if (NULL == pCurrent) { 
 pCurrent = new BSTreeNode; 
 pCurrent->m_val = ch; 
 pCurrent->m_pLeft = NULL; 
 pCurrent->m_pRight = NULL; 
 }else { 
 if (pCurrent->m_val > ch) { 
 createBSTree(pCurrent->m_pLeft,ch); 
 }else if (pCurrent->m_val < ch) { 
 createBSTree(pCurrent->m_pRight,ch); 
 } 
 else 
 { 
 return; 
 } 
 } 
} 
//遍历二叉树/*先序遍历*/ 
void PreOrderTraverse(BSTreeNode *pCurrent) 
{ 
 if (NULL == pCurrent) { 
 return; 
 } 
 
 if (NULL!=pCurrent) 
 { 
 //先遍历根节点 
 cout<<pCurrent->m_val<<endl; 
 //在遍历左节点 
 PreOrderTraverse(pCurrent->m_pLeft); 
 //在遍历右节点 
 PreOrderTraverse(pCurrent->m_pRight); 
 } 
 
} 
//中序遍历 
void InOrderTraverse(BSTreeNode *pCurrent) 
{ 
 if (NULL == pCurrent) { 
 return; 
 } 
 if (NULL != pCurrent->m_pLeft) { 
 InOrderTraverse(pCurrent->m_pLeft); 
 } 
 
 showOrderLiust(pCurrent); 
 //在遍历右节点 
 if (NULL != pCurrent->m_pRight) { 
 InOrderTraverse(pCurrent->m_pRight); 
 } 
} 
//后序遍历 
void EndOrderTraverse(BSTreeNode *pCurrent) 
{ 
 if (NULL == pCurrent) { 
 return; 
 } 
 if (NULL != pCurrent->m_pLeft) { 
 EndOrderTraverse(pCurrent->m_pLeft); 
 } 
 cout<<pCurrent->m_val<<endl; 
 //在遍历右节点 
 if (NULL != pCurrent->m_pRight) { 
 EndOrderTraverse(pCurrent->m_pRight); 
 } 
} 
/*该二元查找树转换成一个排序的双向链表。 
 要求不能创建任何新的结点,只调整指针的指向*/ 
void showOrderLiust(BSTreeNode *pCurrent) 
{ 
 pCurrent->m_pLeft = pListIndex; 
 if (NULL != pListIndex) { 
 pListIndex->m_pRight = pCurrent; 
 }else 
 { 
 pHead = pCurrent; 
 } 
 pListIndex = pCurrent; 
 cout<<pCurrent->m_val<<endl; 
} 
int main(int argc,char**argv) 
{ 
 BSTreeNode *pRoot = NULL; 
 pHead = NULL; 
 pListIndex = NULL; 
 createBSTree(pRoot,'H'); 
 createBSTree(pRoot,'F'); 
 createBSTree(pRoot,'C'); 
 createBSTree(pRoot,'D'); 
 createBSTree(pRoot,'M'); 
 createBSTree(pRoot,'I'); 
 createBSTree(pRoot,'N'); 
 PreOrderTraverse(pRoot); 
 InOrderTraverse(pRoot); 
 EndOrderTraverse(pRoot); 
 delete pRoot; 
 return 0; 
} 

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