求出一个排序二叉树中结点度数为一的结点个数

#include<stdio.h>

#include<iostream.h>

#include<conio.h>

#include<malloc.h>

#include<stdlib.h>

#define ERROR 0

#define STACK_INIT_SIZE 100

#define OVERFLOW -1

#define FALSE 0

#define TRUE 1

#define OK 1

int i=0;

 

struct  tree{

    char data;

    struct tree *Lchild,*Rchild;

};

typedef struct tree SElemType;

typedef int Status ;

 

struct STACK

{

  SElemType *base;

  SElemType *top;

  int stacksize;

};

 

typedef struct STACK *pSqstack;

typedef struct STACK SqStack;

 

 

Status InitStack(SqStack **S)

{

  (*S)=(SqStack *)malloc(sizeof(SqStack));

  (*S)->base=(SElemType *)malloc(STACK_INIT_SIZE *sizeof(SElemType));

  if(!(*S)->base) exit (OVERFLOW);

  (*S)->top=(*S)->base;

  (*S)->stacksize=STACK_INIT_SIZE;

  return OK;

}

Status StackEmpty(SqStack S)

{

if(S.top==S.base) return TRUE;

  else

    return FALSE;

 

}

Status Push(SqStack *S,SElemType e)

{

 

  *(S->top++)=e;

  return OK;

}

 

Status Pop(SqStack *S,SElemType *e)

{

  if(S->top==S->base) return ERROR;

  e=--S->top;

  return OK;

}

void Visite(struct  tree *t)

{

if(t) printf("%c",t->data);

 

}

struct tree *create_btree(struct tree *t,struct tree *r,char data)//创建二叉树

{ 

    if (r ==0 )

    {  

       r=new (struct tree);

       if ( r == 0)

       {

           printf("Out of memory/n");   return 0 ;

       }

        r->Lchild= 0;  r->Rchild=0;   r->data=data;

       if (t)

       {

           if(data<t->data)   t->Lchild=r;

           else                   

               t->Rchild=r;

       }

       else

       { 

           r->Rchild=0;   r->Lchild = 0;

       }

        return  r;

    }   

      if(data<r->data)

        create_btree(r,r->Lchild,data);

      else

        create_btree(r,r->Rchild,data);

    return t;

}

void PreOrderUnrec(struct tree *t,SqStack *s)//前序遍历二叉树

{

InitStack(&s);

struct tree *p,*q;

p=t;

 

 

while (p!=0||!StackEmpty(*s))

{

while (p!=0) //遍历左子树

{

Visite(p);

if((p->Lchild==0||p->Rchild==0)&&(p->Lchild!=p->Rchild))

{printf(" o ");

i++;};

Push(s,*p);

p=p->Lchild;

};//endwhile

 

while (!StackEmpty(*s)) //通过下一次循环中的内嵌while实现右子树遍历

{  

  Pop(s,p);

   q=s->top;

  //Pop(s,p);

  p=q->Rchild;

  Visite(p);

  printf("?");

};//endif

 

};//endwhile

 

}//PreOrderUnrec

 

 void main()

{  

    char s[100], e;

    SqStack *Sa;

 

    struct tree *t=0;      

    printf("Input a letter for Creating the Binary_Tree ( Directly press <Enter> to stop ):/n");

    while (*s){

        printf("/nInput a letter: ");

      

        e=getch();     /*#include<conio.h>*/

       putch(e);       /*#include<conio.h>*/

       if(e==13) break;

       if (!t)

           t=create_btree(t,t,e);

       else

           create_btree(t,t,e);

    };

        printf("/n");                                 

        PreOrderUnrec(t,Sa);

        printf("度数为一的结点数为:%d",i);

        printf("结束请按q!");

           if(getchar()=='q') printf("再见");

           else  {while(1);};

 

 }

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