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标题:为什么C出入栈问题输不出来!大佬求解
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为什么C出入栈问题输不出来!大佬求解
#include<stdio.h>
 #include<stdlib.h>

 typedef struct zhan{
     int data;
     struct zhan *next;
 }zhan,*ZhanL;

 /**
  * 初始化栈
 * */
ZhanL initZhan()
 {
     ZhanL L =(ZhanL)malloc(sizeof(zhan));
     L->next=NULL;
     return L;
 }

 /**
  * 进栈操作
 * */
int push(ZhanL L,int data)
 {
     //创建一个新的结点
    ZhanL p=(ZhanL)malloc(sizeof(zhan));
     p->data=data;
     p->next = L;
     L = p;
     return 0;
 }
 int pop(ZhanL L)
 {
     if(L->next){
         ZhanL s=L;//释放空间用
        printf("%d ",s->data);
         L = L->next;
         if(L->next)
         {
         //    printf("%d \n",L->data);
         }
         else
         {
             printf("栈空\n");
         }
         free(s);
     }
     return 0;
 }
 /**
  * 转换方法
 * */
  int zhuanhuan(ZhanL L,int data,int jz)
  {
      while (data)
      {
          push(L,data%jz);
          data = data/jz;
      }
      while (L)
      {
          pop(L);
      }
     return 0;
  }
  int main()
  {
     ZhanL L;
     int data,jz;
     L=initZhan();//初始化
    printf("请输入一个十进制数\n");  
     scanf("%d",&data);
     printf("请输入转换的进制\n");
     scanf("%d",&jz);
     zhuanhuan(L,data,jz);
     return 0;
 }
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2020-03-24 20:42
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#include<stack>

2020-03-24 20:47
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回复 2楼 return_0
和文件没有关系,添上那个会报错
2020-03-24 20:55
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(c++)stack头文件原型给你看一下:
程序代码:
#ifndef _STL_STACK_H
#define _STL_STACK_H 1

#include <bits/concept_check.h>
#include <debug/debug.h>
#if __cplusplus >= 201103L
# include <bits/uses_allocator.h>
#endif

namespace std _GLIBCXX_VISIBILITY(default)
{
_GLIBCXX_BEGIN_NAMESPACE_VERSION

  /**
   *  @brief  A standard container giving FILO behavior.
   *
   *  @ingroup sequences
   *
   *  @tparam _Tp  Type of element.
   *  @tparam _Sequence  Type of underlying sequence, defaults to deque<_Tp>.
   *
   *  Meets many of the requirements of a
   *  <a href="tables.html#65">container</a>,
   *  but does not define anything to do with iterators.  Very few of the
   *  other standard container interfaces are defined.
   *
   *  This is not a true container, but an @e adaptor.  It holds
   *  another container, and provides a wrapper interface to that
   *  container.  The wrapper is what enforces strict
   *  first-in-last-out %stack behavior.
   *
   *  The second template parameter defines the type of the underlying
   *  sequence/container.  It defaults to std::deque, but it can be
   *  any type that supports @c back, @c push_back, and @c pop_front,
   *  such as std::list, std::vector, or an appropriate user-defined
   *  type.
   *
   *  Members not found in @a normal containers are @c container_type,
   *  which is a typedef for the second Sequence parameter, and @c
   *  push, @c pop, and @c top, which are standard %stack/FILO
   *  operations.
  */
  template<typename _Tp, typename _Sequence = deque<_Tp> >
    class stack
    {
      // concept requirements
      typedef typename _Sequence::value_type _Sequence_value_type;
      __glibcxx_class_requires(_Tp, _SGIAssignableConcept)
      __glibcxx_class_requires(_Sequence, _BackInsertionSequenceConcept)
      __glibcxx_class_requires2(_Tp, _Sequence_value_type, _SameTypeConcept)

      template<typename _Tp1, typename _Seq1>
        friend bool
        operator==(const stack<_Tp1, _Seq1>&, const stack<_Tp1, _Seq1>&);

      template<typename _Tp1, typename _Seq1>
        friend bool
        operator<(const stack<_Tp1, _Seq1>&, const stack<_Tp1, _Seq1>&);

    public:
      typedef typename _Sequence::value_type                value_type;
      typedef typename _Sequence::reference                 reference;
      typedef typename _Sequence::const_reference           const_reference;
      typedef typename _Sequence::size_type                 size_type;
      typedef          _Sequence                            container_type;

    protected:
      //  See queue::c for notes on this name.
      _Sequence c;

    public:
      // XXX removed old def ctor, added def arg to this one to match 14882
      /**
       *  @brief  Default constructor creates no elements.
       */
#if __cplusplus < 201103L
      explicit
      stack(const _Sequence& __c = _Sequence())
      : c(__c) { }
#else
      explicit
      stack(const _Sequence& __c)
      : c(__c) { }

      explicit
      stack(_Sequence&& __c = _Sequence())
      : c(std::move(__c)) { }
#endif

      /**
       *  Returns true if the %stack is empty.
       */
      bool
      empty() const
      { return c.empty(); }

      /**  Returns the number of elements in the %stack.  */
      size_type
      size() const
      { return c.size(); }

      /**
       *  Returns a read/write reference to the data at the first
       *  element of the %stack.
       */
      reference
      top()
      {
    __glibcxx_requires_nonempty();
    return c.back();
      }

      /**
       *  Returns a read-only (constant) reference to the data at the first
       *  element of the %stack.
       */
      const_reference
      top() const
      {
    __glibcxx_requires_nonempty();
    return c.back();
      }

      /**
       *  @brief  Add data to the top of the %stack.
       *  @param  __x  Data to be added.
       *
       *  This is a typical %stack operation.  The function creates an
       *  element at the top of the %stack and assigns the given data
       *  to it.  The time complexity of the operation depends on the
       *  underlying sequence.
       */
      void
      push(const value_type& __x)
      { c.push_back(__x); }

#if __cplusplus >= 201103L
      void
      push(value_type&& __x)
      { c.push_back(std::move(__x)); }

      template<typename... _Args>
        void
        emplace(_Args&&... __args)
    { c.emplace_back(std::forward<_Args>(__args)...); }
#endif

      /**
       *  @brief  Removes first element.
       *
       *  This is a typical %stack operation.  It shrinks the %stack
       *  by one.  The time complexity of the operation depends on the
       *  underlying sequence.
       *
       *  Note that no data is returned, and if the first element's
       *  data is needed, it should be retrieved before pop() is
       *  called.
       */
      void
      pop()
      {
    __glibcxx_requires_nonempty();
    c.pop_back();
      }

#if __cplusplus >= 201103L
      void
      swap(stack& __s)
      noexcept(noexcept(swap(c, __s.c)))
      {
    using std::swap;
    swap(c, __s.c);
      }
#endif
    };

  /**
   *  @brief  Stack equality comparison.
   *  @param  __x  A %stack.
   *  @param  __y  A %stack of the same type as @a __x.
   *  @return  True iff the size and elements of the stacks are equal.
   *
   *  This is an equivalence relation.  Complexity and semantics
   *  depend on the underlying sequence type, but the expected rules
   *  are: this relation is linear in the size of the sequences, and
   *  stacks are considered equivalent if their sequences compare
   *  equal.
  */
  template<typename _Tp, typename _Seq>
    inline bool
    operator==(const stack<_Tp, _Seq>& __x, const stack<_Tp, _Seq>& __y)
    { return __x.c == __y.c; }

  /**
   *  @brief  Stack ordering relation.
   *  @param  __x  A %stack.
   *  @param  __y  A %stack of the same type as @a x.
   *  @return  True iff @a x is lexicographically less than @a __y.
   *
   *  This is an total ordering relation.  Complexity and semantics
   *  depend on the underlying sequence type, but the expected rules
   *  are: this relation is linear in the size of the sequences, the
   *  elements must be comparable with @c <, and
   *  std::lexicographical_compare() is usually used to make the
   *  determination.
  */
  template<typename _Tp, typename _Seq>
    inline bool
    operator<(const stack<_Tp, _Seq>& __x, const stack<_Tp, _Seq>& __y)
    { return __x.c < __y.c; }

  /// Based on operator==
  template<typename _Tp, typename _Seq>
    inline bool
    operator!=(const stack<_Tp, _Seq>& __x, const stack<_Tp, _Seq>& __y)
    { return !(__x == __y); }

  /// Based on operator<
  template<typename _Tp, typename _Seq>
    inline bool
    operator>(const stack<_Tp, _Seq>& __x, const stack<_Tp, _Seq>& __y)
    { return __y < __x; }

  /// Based on operator<
  template<typename _Tp, typename _Seq>
    inline bool
    operator<=(const stack<_Tp, _Seq>& __x, const stack<_Tp, _Seq>& __y)
    { return !(__y < __x); }

  /// Based on operator<
  template<typename _Tp, typename _Seq>
    inline bool
    operator>=(const stack<_Tp, _Seq>& __x, const stack<_Tp, _Seq>& __y)
    { return !(__x < __y); }

#if __cplusplus >= 201103L
  template<typename _Tp, typename _Seq>
    inline void
    swap(stack<_Tp, _Seq>& __x, stack<_Tp, _Seq>& __y)
    noexcept(noexcept(__x.swap(__y)))
    { __x.swap(__y); }

  template<typename _Tp, typename _Seq, typename _Alloc>
    struct uses_allocator<stack<_Tp, _Seq>, _Alloc>
    : public uses_allocator<_Seq, _Alloc>::type { };
#endif

_GLIBCXX_END_NAMESPACE_VERSION
} // namespace

#endif

2020-03-24 21:11
return_0
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你就看人家从class stack起是怎么定义的

2020-03-24 21:13
return_0
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cnt代表栈顶位置

2020-03-24 21:13
maomao12345
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天啊!牛掰

一个快乐的小小孩
2020-03-25 08:58
快速回复:为什么C出入栈问题输不出来!大佬求解
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