#include <iostream> //引入头文件
using namespace std;typedef int Elemtype;#define Maxsize 5
#define ERROR 0
#define OK 1typedef struct
{Elemtype data[Maxsize];int front, rear;int tag;
}SqQueue;void InitQueue(SqQueue& Q) //初始化队列
{Q.rear = Q.front = 0;Q.tag = 0;
}bool isEmpty(SqQueue Q) //判断队空
{if (Q.rear == Q.front&& Q.tag==0 ) return OK;else return ERROR;
}bool EnQueue(SqQueue& Q, Elemtype x)
{if (Q.front==Q.rear&&Q.tag==1) //队满{cout << "堆满啦,请腾出些许空间" << endl;return ERROR; //队满报错}Q.data[Q.rear] = x;Q.rear = (Q.rear + 1) % Maxsize;Q.tag = 1;return OK;
}bool DeQueue(SqQueue& Q, Elemtype& x) //队空报错
{if (Q.rear == Q.front&&Q.tag==0) return ERROR;x = Q.data[Q.front];Q.front = (Q.front + 1) % Maxsize;Q.tag = 0;return OK;
}int main(void)
{SqQueue Q;InitQueue(Q);EnQueue(Q, 1);EnQueue(Q, 2);EnQueue(Q, 3);EnQueue(Q, 4);EnQueue(Q, 5);for (int i = 0; i < Maxsize; i++)printf("data[%d]=%d\n", i, Q.data[i]);return 0;
}
#include <iostream> //引入头文件
using namespace std;typedef int Elemtype;#define Maxsize 5
#define ERROR 0
#define OK 1//====================队列---这样是循环队列,需要牺牲一位====================//
typedef struct
{Elemtype data[Maxsize];int front, rear;
}SqQueue;void InitQueue(SqQueue& Q) //初始化队列
{Q.rear = Q.front = 0;
}bool QueueEmpty(SqQueue Q) //判断队空
{if (Q.rear == Q.front) return OK;else return ERROR;
}bool EnQueue(SqQueue& Q, Elemtype x) //进队
{if ((Q.rear + 1) % Maxsize == Q.front) //判断队列是否满{cout << "堆满啦,请释放一些空间" << endl;return ERROR; //队满报错}Q.data[Q.rear] = x;Q.rear = (Q.rear + 1) % Maxsize;return OK;
}bool DeQueue(SqQueue& Q, Elemtype& x) //退队
{if (Q.rear == Q.front) return ERROR; //判断队列是为空x = Q.data[Q.front];Q.front = (Q.front + 1) % Maxsize;return OK;
}
//=====================================================================////========================堆栈---这样是顺序堆栈========================//
typedef struct
{Elemtype data[Maxsize];int top;
}SqStack;void InitStack(SqStack& S)
{S.top = -1;
}
bool StackEmpty(SqStack S)
{if (S.top == -1) //堆空return OK;else //不空return ERROR;
}bool Push(SqStack& S, Elemtype x)
{if (S.top == Maxsize - 1)return ERROR;S.data[++S.top] = x;return OK;
}bool Pop(SqStack& S, Elemtype& x)
{if (S.top == -1)return ERROR;x = S.data[S.top--];return OK;
}bool GetTop(SqStack& S, Elemtype& x)
{if (S.top == -1)return ERROR;x = S.data[S.top];return OK;
}
//=====================================================================//void Inverse(SqStack& S, SqQueue& Q)
{int x = 0;while (!QueueEmpty(Q)){DeQueue(Q,x);Push(S, x);}Q.rear = Q.front = 0;while (!StackEmpty(S)){Pop(S, x);EnQueue(Q, x);}
}
int main(void)
{SqQueue Q;SqStack S;InitQueue(Q);InitStack(S);EnQueue(Q, 1);EnQueue(Q, 2);EnQueue(Q, 3);EnQueue(Q, 4);for (int i = 0; i < Maxsize; i++)printf("data[%d]=%d\n", i, Q.data[i]);Inverse(S, Q);for (int i = 0; i < Maxsize; i++)printf("data[%d]=%d\n", i, Q.data[i]);return 0;
}