/**
** 2017.11.4
** Ahthor:799
** 数制转换
**
***/
#include <bits/stdc++.h>
using namespace std;
#define STACK_INIT_SIZE 100 /// 存储空间初始分配
#define STACK_INCREMENT 10 /// 存储空间分配增量
#define ElemType int
#define Status int
#define OK 1
#define ERROR -1
#define OVERFLOW -2
typedef struct
{
ElemType *base;
ElemType *top;
int stacksize;
} SqStack;
Status InitStack (SqStack &S)
{
S.base = (ElemType * )malloc(STACK_INIT_SIZE * sizeof(ElemType));
if (!S.base) exit(OVERFLOW);
S.top = S.base;
S.stacksize = STACK_INIT_SIZE;
return OK;
}
Status DestroyStack(SqStack &S)
{
for (ElemType *index = S.base; index != S.top; index ++)
{
free(index);
}
free(&S);
return OK;
}
Status ClearStack(SqStack &S)
{
for (ElemType *index = S.base+1; index != S.top; index ++)
{
free(index);
}
S.top = S.base;
return OK;
}
Status IsEmptyStack(SqStack &S)
{
if (S.base == S.top) return true;
else return false;
}
Status LengthStack(SqStack &S)
{
return S.top - S.base;
}
ElemType GetTop(SqStack &S)
{
if (S.top == S.base) return ERROR;
ElemType e = *(S.top - 1);
return e;
}
Status Push(SqStack &S,ElemType &e)
{
if (S.top - S.base >= S.stacksize)
{
S.base = (ElemType *) realloc (S.base,(S.stacksize + STACK_INCREMENT) * sizeof(ElemType));
if (!S.base)exit(OVERFLOW);
S.top = S.base + S.stacksize;
S.stacksize += STACK_INCREMENT;
}
*S.top = e;
S.top ++;
return OK;
}
Status Pop(SqStack &S, ElemType &e)
{
if (S.top == S.base) return ERROR;
e = * --S.top;
return OK;
}
Status TrverseStack(SqStack &S)
{
for (ElemType *index = S.base; index != S.top; index ++)
{
cout<<*index<<" ";
}
cout<<endl;
return OK;
}
int main()
{
SqStack * St = (SqStack *) malloc(sizeof(SqStack));
InitStack (*St);
int n,d;
cin>>n>>d;
while (n)
{
int tmp = n%d;
Push(*St,tmp);
n /= d;
}
while (!IsEmptyStack(*St))
{
int num;
Pop(*St,num);
cout<<num;
}
cout<<endl;
return 0;
}
