直接上代码:
#include <windows.h>//必要的头文件,使用Windows API函数
#include <stdio.h>
int index = 0;
int tickets = 100;//票数
HANDLE hMutex; //使用全局的相互排斥对象来保证对同一资源的相互排斥訪问与操作这里是tickets
//线程处理函数原型,形式可从MSDN中拷贝
//线程1 的入口函数
DWORD WINAPI Fun1Proc(LPVOID lpParameter);
DWORD WINAPI Fun2Proc(LPVOID lpParameter);
void main()
{
HANDLE hThread1;
DWORD thread1ID;
//创建线程1
hThread1 = CreateThread(NULL, 0, Fun1Proc, NULL, 0, &thread1ID);
HANDLE hThread2;
DWORD thread2ID;
//创建线程2
hThread2 = CreateThread(NULL, 0, Fun2Proc, NULL, 0, &thread2ID);
CloseHandle(hThread1); //关闭线程的句柄,为什么要关闭?它将线程的使用计数减1
CloseHandle(hThread2);//这样当线程结束时,线程内核对象被释放,
//否则仅仅有当进程结束。才释放线程的内核对象hThread1与hThread
//创建一个相互排斥对象,假设成功返回相互排斥对象的句柄,否则返回NULL
hMutex = CreateMutex(NULL, FALSE, "tickets");
if (hMutex)
{
if(ERROR_ALREADY_EXISTS == GetLastError())
{
puts("only one instance can run!");
return;
}
}
Sleep(4000);//主线程睡眠4秒钟,给其他线程执行的时间,由于一旦主线程退出则进行退出,其他线程也将退出
}
DWORD WINAPI Fun1Proc(LPVOID lpParameter)
{
while(TRUE)
{
WaitForSingleObject(hMutex, INFINITE);//假设全局相互排斥对象是有信号状态,则获得该对象,
//直到调用ReleaseMutex之前,相互排斥对象是无信号状态,其他线程不能对相互排斥对象进行訪问
if(tickets > 0)
{
Sleep(1);
printf("Thread1 sell tickets : %d
", tickets-- );
}
else
break;
ReleaseMutex(hMutex);//将相互排斥对象设置为有信号状态
}
return 0;
}
DWORD WINAPI Fun2Proc(LPVOID lpParameter)
{
while(TRUE)
{
WaitForSingleObject(hMutex, INFINITE);
if (tickets > 0)
{
Sleep(1);
printf("Thread2 sell tickets : %d
", tickets-- );
}
else
break;
ReleaseMutex(hMutex);
}
return 0;
}