栈

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知识点总结报告

知识点：

栈

（原理）栈是一种只能在一端进行插入删除操作的线性表。栈的主要特点是后进先出。栈的存储可以分为顺序存储（顺序栈）和链式存储（链栈）。

   顺序栈

   Typedef struct{

 ElemType data[Maxsize];//存放栈中数据元素

}

栈空条件 s->top==-1

栈满条件s->top==-1

进栈操作：指针加1，元素放在栈顶

出栈操作：取出栈顶元素放入e，栈顶指针减1

初始化栈initStack(&s)

void InitStack(SqStack *&s)

{ s=(SqStack *)malloc(sizeof(SqStack));   //分配顺序栈空间，首地址放s中

   s->top=-1;    //栈顶指针置为-1}

销毁栈DestroyStack(&s)  

void DestroyStack(SqStack *&s)

{ free(s);

}

判断栈是否为空StackEmpty(s) 

bool StackEmpty(SqStack *s)

{ return(s->top==-1);

}

进栈PUSH(&s,e)

bool Push(SqStack *&s, Elemtype e)

{ if(s->top==Maxsize-1)   //栈满情况，栈上溢出

     return false;

     s->top++;   //栈顶指针增加1

     s->data[s->top]=e;    //元素e放在栈顶指针处

     return ture;

}

出栈Pop(&s,&e)

bool Pop(SqStack *&s,ElemType &e)

{ if(s->top==-1)   //栈空情况，栈下溢出

     return false;

     e=s->data[s->top];    //取栈顶元素

     s->top--;    //栈顶指针减1

     return ture;

}

取栈顶元素GetTop(s,&e)

bool GetTop(SqStack *s, ElemType &e)

{   if(s->top==-1)    //栈空时下溢出

        return false;

     e=s->data[s->top];    //取栈顶元素

        return true；

}

链栈

typedef struct linknode

{ ElemType data;   //数据域

  struct linknode *next;  //指针域

} LinkStNode;    //链栈结点类型

栈空条件 s->next==NULL

栈满条件 链栈不考虑栈满

进栈操作：新建结点存放e（p指向它），将结点插入到头结点之后

出栈操作：取出首结点data并删除

初始化栈initStack(&s)

void InitStack(LinkStNode *&s)

{ s=(LinkStNode *)malloc(sizeof(LinkStNode));

   s->next=NULL;  

}

销毁栈DestroyStack(&s)  

void DestroyStack(LinkStNode *&s)

{ LinkStNOde *pre=s,*p=s->next;   //pre指向头结点，p指向首结点

  while(p!=NULL)     //循环到p为空

  {  free(pre);     //释放pre结点

     pre=p;         //pre、p同步后移

     p=pre->next;

  }

  free(pre);     //此时pre指向尾结点，释放空间

}

判断栈是否为空StackEmpty(s) 

bool StackEmpty(LinkStNode *s)

{ return(s->next==NULL);

}

进栈PUSH(&s,e)

bool Push(LinkStNode *&s, Elemtype e)

{    LinkStNode *p;

         p=(LinkStNode *)malloc(sizeof(LinkStNode));      //新建结点p

     p->data=e;   //存放元素e

     p->next=s->next;    //p结点作为首结点插入

     s->next=p;

}

出栈Pop(&s,&e)

bool Pop(LinkStNode *&s,ElemType &e)

 {  LinkStNode *p;

  if(s->next==NULL)   //栈空情况

     return false;    //返回假

  p=s->next;     //p指向首结点

  e=p->data;    //取首结点值

  s->next=p->next;    //删除首结点

  free（p);    //释放被删结点的存储空间

  return ture;    //返回真

}

取栈顶元素GetTop(s,&e)

bool GetTop(LinkStNode *s, ElemType &e)

{   if(s->next==NULL)    //栈空

        return false;     //返回假

     e=s->next->data;    //取首结点值

        return true;     //返回真

}

 

（例题）

题目链接：http://acm.hdu.edu.cn/showproblem.php?pid=1022

 

Problem Description

 

As the new term comes, the Ignatius Train Station is very busy nowadays. A lot of student want to get back to school by train(because the trains in the Ignatius Train Station is the fastest all over the world ^v^). But here comes a problem, there is only one railway where all the trains stop. So all the trains come in from one side and get out from the other side. For this problem, if train A gets into the railway first, and then train B gets into the railway before train A leaves, train A can't leave until train B leaves. The pictures below figure out the problem. Now the problem for you is, there are at most 9 trains in the station, all the trains has an ID(numbered from 1 to n), the trains get into the railway in an order O1, your task is to determine whether the trains can get out in an order O2.

 

 

Input

 

The input contains several test cases. Each test case consists of an integer, the number of trains, and two strings, the order of the trains come in:O1, and the order of the trains leave:O2. The input is terminated by the end of file. More details in the Sample Input.

 

 

Output

 

The output contains a string "No." if you can't exchange O2 to O1, or you should output a line contains "Yes.", and then output your way in exchanging the order(you should output "in" for a train getting into the railway, and "out" for a train getting out of the railway). Print a line contains "FINISH" after each test case. More details in the Sample Output.

 

 

Sample Input

 

3 123 321 3 123 312

 

 

Sample Output

 

Yes. in in in out out out FINISH No. FINISH

Hint

Hint

For the first Sample Input, we let train 1 get in, then train 2 and train 3. So now train 3 is at the top of the railway, so train 3 can leave first, then train 2 and train 1. In the second Sample input, we should let train 3 leave first, so we have to let train 1 get in, then train 2 and train 3. Now we can let train 3 leave. But after that we can't let train 1 leave before train 2, because train 2 is at the top of the railway at the moment. So we output "No.".

 

题目分析：

 

此题考查了栈这种数据结构的熟练使用，模拟和记录入栈和出栈的过程（先进先出）。不过需要注意的是测试数据是有多组，在处理完每组数据之后，需要保证栈为空，以备处理下一组数据。

 

题解代码：

#include"iostream"
#include"stack"
#include"string"

using namespace std;

int main()
{
    int n, i, j, k;
    stack<char> s;
    string train1, train2;
    bool flags[2000];
    while(cin>>n>>train1>>train2)
    {
        j = k = 0;
        for(i = 0; i < n; i++)
        {
            s.push(train1[i]);//进栈
            flags[j++] = true;//记录进栈
            while(!s.empty() && s.top() == train2[k])//模拟出栈
            {
                s.pop();
                flags[j++] = false;//记录出栈
                k++;
            }
        }
        if(s.empty())
        {
            cout<<"Yes."<<endl;
            //输出记录
            for(i = 0; i < 2 * n; i++)
            {
                if(flags[i])
                    cout<<"in"<<endl;
                else
                    cout<<"out"<<endl;
            }
        }
        else
        {
            //若栈非空，注意清空栈，以备下次使用
            while(!s.empty())s.pop();
            cout<<"No."<<endl;
        }
        cout<<"FINISH"<<endl;
    }
    return 0;
}