栈

最新推荐文章于 2025-04-22 16:16:31 发布
原创最新推荐文章于 2025-04-22 16:16:31 发布 · 106 阅读
0 ·
CC 4.0 BY-SA版权
数据结构上机课专栏收录该内容
6 篇文章
订阅专栏
#include<iostream>
#include<malloc.h>
#define SElemType int
#define STACK_INIT_SIZE 100
#define STACKINCREMENT 10
typedef  int Status;
using namespace std;
typedef struct{
    SElemType *base;
    SElemType *top;
    int stacksize;
}SqStack;
Status InitStack( SqStack &S )
{
    S.base=new SElemType[STACK_INIT_SIZE];
    S.top=S.base;
    S.stacksize=STACK_INIT_SIZE;
    return true;
}
Status DestroyStack(SqStack &S){
   if(S.base){
    delete[]S.base;
    S.stacksize=0;
    S.top=S.base=NULL;
   }
   return true;
}
Status ClearStack( SqStack S )
{
    if(S.base) S.top=S.base;
    return true;
}
bool StackEmpty( SqStack S )
{
    if(S.base==S.top)
        return true;
    return false;
}
int StackLength( SqStack S )
{
    return S.top-S.base;
}
Status  Pop ( SqStack  &S, SElemType & e)
 {
     if ( S.top == S.base )   return false;
     e=*--S.top;
     return true;
}//Pop
Status Circle( SqStack S){
        int e,n;
        while(!StackEmpty(S)){
            e=*(S.top-1);
            cout<<e<<" ";
            Pop(S,n);
        }
        cout<<endl;
        return 0;
}
Status GetTop( SqStack S, SElemType &e)
{	// 若栈不空，则用e返回S的栈顶元素

	if( S.top == S.base )
        return false;
 	e=*(S.top - 1 );
	return true;
}
Status  Push ( SqStack  &S, SElemType  e)
{   //插入元素e为新的栈顶元素
     if ( S.top-S.base==S.stacksize ) {
               S.base=(SElemType*) realloc ( S.base,
                       (S.stacksize+STACKINCREMENT)*sizeof(SElemType));
           if (!S.base)exit(10);
           S.top=S.base + S.stacksize;
           S.stacksize+=STACKINCREMENT;
     }
     *S.top++ = e;
     return true;
}//Pus

void show(){
     cout<<"    1.构造空栈"<<endl;
     cout<<"    2.销毁栈结构"<<endl;
     cout<<"    3.栈清空"<<endl;
     cout<<"    4.栈判空"<<endl;
     cout<<"    5.求栈长"<<endl;
     cout<<"    6.遍历栈"<<endl;
     cout<<"    7.求栈顶元素"<<endl;
     cout<<"    8.入栈"<<endl;
     cout<<"    9.出栈"<<endl;
}
int main()
{
    SqStack S;
    InitStack(S);
    show();
    int n;
    while(1)
    {
    cin>>n;
    switch(n){
        case 1: {
            InitStack(S);
            break;
        }
         case 2: {
            DestroyStack(S);
            break;
        } case 3: {
           ClearStack(S);
            break;
        }
         case 4: {
            if(StackEmpty(S)){
                cout<<"此栈是空栈"<<endl;
            }else{
                cout<<"此栈不是空栈"<<endl;
            }
            break;
        }
         case 5: {
           cout<<StackLength(S)<<endl;
            break;
        }
         case 6: {
            Circle(S);
            break;
        }
         case 7: {
             int e;
            if(GetTop(S,e)==false){
                cout<<"此栈为空栈"<<endl;
            }
            else
                cout<<GetTop(S,e)<<endl;
            break;
        }
         case 8: {
             int e;
             cin>>e;
           Push(S,e);
            break;
        }
         case 9: {
             int e;
            cout<<Pop(S,e)<<endl;
            break;
        }
         default:{
                 cout<<"操作错误"<<endl;
                 break;
            }
        }
    }
    return 0;
}
/*#include<iostream>
#include<malloc.h>
#define SElemType int
#define STACK_INIT_SIZE 100
#define STACKINCREMENT 10
typedef  int Status;
using namespace std;
typedef  struct StackNode {
      SElemType  data;
      struct StackNode *next;
 } StackNode,  *LinkStack;
 void InitStack(LinkStack &S )
{
	S=NULL;
}
bool StackEmpty(LinkStack &S){
     if(S==NULL) return true;
     return false;
}
Status Push(LinkStack &S,SElemType e){
      LinkStack p;
      p=new StackNode;
      p->data=e;
      p->next=S;
      S=p;
      return 0;
}
Status Pop (LinkStack &S,SElemType &e)
{
    LinkStack p;
    if (S==NULL) return false;
    e = S-> data;  p = S;   S =  S-> next;
    delete p;
    return true;
 }

void show(){
     cout<<"    1.构造空栈"<<endl;
     cout<<"    2.栈判空"<<endl;
     cout<<"    3.入栈"<<endl;
     cout<<"    4.出栈"<<endl;
}
int main()
{
    LinkStack S;
    InitStack(S);
    show();
    int n;
    while(1)
    {
    cin>>n;
    switch(n){
        case 1: {
            InitStack(S);
            break;
        }
         case 2: {
            if(StackEmpty(S)){
                cout<<"此栈是空栈"<<endl;
            }else{
                cout<<"此栈不是空栈"<<endl;
            }
            break;
         }
         case 3: {
             int e;
             cin>>e;
           Push(S,e);
            break;
        }
         case 4: {
             int e;
                cout<<Pop(S,e)<<endl;
            break;
        }
         default:{
                 cout<<"操作错误"<<endl;
                 break;
            }
        }
    }
    return 0;
}*/