public class TestDelegate
{
private string Uname = "joyet";
private int Num1 = 109;
private int Num2 = 5;
private int Num3=0;
/// <summary>
/// 测试同步方法
/// </summary>
public void TestYncMethod()
{
Console.WriteLine("同步Show方法开始=====");
DelegateShow showDelegate = new DelegateShow(TestMethods.Show);
showDelegate.Invoke(Uname);
Console.WriteLine("同步Show方法结束=====。");
Console.WriteLine("同步Add方法开始=====");
DelegatePlus plusDelegate = new DelegatePlus(TestMethods.Add);
int addResult = plusDelegate.Invoke(Num1, Num2);
Console.WriteLine("同步Add方法相加结果:" + Convert.ToString(addResult));
Console.WriteLine("同步Add方法结束=====。");
}
public void TestAsyncShow()
{
Console.WriteLine("异步Show方法开始=====");
DelegateShow showDelegate = new DelegateShow(TestMethods.Show);
showDelegate.BeginInvoke(Uname,null,null);
//异步操作返回,当主线程运行到EndInvoke时,如果这时调用没有结束(这种情况很可能出现),这时为了等待调用结果,线程依旧会被阻塞
showDelegate.EndInvoke(null);
Console.WriteLine("异步Show方法结束=====。");
}
public void TestAsyncPlus()
{
Console.WriteLine("异步Plus方法主线程开始=====");
DelegatePlus plusDelegate = new DelegatePlus(TestMethods.Add);
IAsyncResult result = plusDelegate.BeginInvoke(Num1, Num2, new AsyncCallback(TestAsyncPlusCallBack), "AsycState:OK");
Console.WriteLine("异步Plus方法主线程结束=====。");
}
/// <summary>
/// 异步回调用回调函数,当调用结束时会自动调用回调函数,解决了为等待调用结果,而让线程依旧被阻塞的局面。
/// </summary>
/// <param name="result"></param>
private void TestAsyncPlusCallBack(IAsyncResult result)
{
DelegatePlus handler = (DelegatePlus)((AsyncResult)result).AsyncDelegate;
Num3=handler.EndInvoke(result);
Console.WriteLine("异步Add方法相加结果:" + Convert.ToString(Num3));
}
}
public class TestMethods
{
public static void Show(string uname)
{
Thread.Sleep(3000);
Console.WriteLine("Your name is :" + uname);
}
public static int Add(int a, int b)
{
Thread.Sleep(3000);
return a + b;
}
}
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