#include <stdio.h>
#include <stdlib.h>
#define LIST_INIT_SIZE 10
#define LISTINCREMENT 100
#define STACK_INIT_SIZE 100
#define STACKINCREMENT 10
#define TRUE 1
#define FALSE 0
#define OK 1
#define ERROR 0
#define INFEASIBLE -1
#define OVERFLOW -2
typedef int Status;
typedef int SElemType;
typedef struct
{
SElemType *base;
SElemType *top;
int stacksize;
} SqStack;
Status InitStack(SqStack *S);
Status Push(SqStack *S, SElemType e);
Status Pop(SqStack *S, SElemType *e);
Status StackEmpty(SqStack S);
void conversion ();
int main()
{
printf("Please input a number to conver:\n");
conversion();
return 0;
}
Status InitStack(SqStack *S)
{
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 Push(SqStack *S, SElemType e)
{
if (S->top - S->base >= S->stacksize) //栈满
{
S->base = (SElemType *)realloc
(S->base, (S->stacksize + STACKINCREMENT)
* sizeof(SElemType));
if (!S->base) exit (OVERFLOW);
S->top = S->base + S->stacksize;
S->stacksize += STACKINCREMENT;
} // if
*S->top++ = e;
return OK;
} //Push
Status Pop(SqStack *S, SElemType *e)
{
if(S->top == S->base)return ERROR;
*e = *--S->top;
return OK;
} //Pop
Status StackEmpty(SqStack S)
{
if (S.base == S.top)
return TRUE;
return FALSE;
}
void conversion ()
{
SqStack S;
int N,e;
InitStack(&S);
scanf ("%d",&N);
while (N)
{
Push(&S, N % 8);
N = N/8;
}
while (!StackEmpty(S))
{
Pop(&S, &e);
printf ("%d", e);
}
}
