C#使用异步方式调用同步方法
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异步调用完成时执行回调方法
如果启动异步调用的线程不是需要处理结果的线程,则可以在调用完成时执行回调方法。 回调方法在 ThreadPool 线程上执行。
若要使用回调方法,必须将表示回调方法的 AsyncCallback 委托传递给 BeginInvoke。 也可以传递包含回调方法要使用的信息的对象。 在回调方法中,可以将 IAsyncResult(回调方法的唯一参数)强制转换为 AsyncResult 对象。 然后,可以使用 AsyncResult.AsyncDelegate 属性获取已用于启动调用的委托,以便可以调用 EndInvoke。
有关示例的说明:
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TestMethod 的 threadId 参数为 out 参数(在 Visual Basic 中为 <Out> ByRef),因此 TestMethod 从不使用该参数的输入值。 会将一个虚拟变量传递给 BeginInvoke 调用。 如果 threadId 参数为 ref 参数(在 Visual Basic 中为 ByRef),则该变量必须为类级别字段,这样才能同时传递给BeginInvoke 和 EndInvoke。
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传递给 BeginInvoke 的状态信息是一个格式字符串,回调方法使用该字符串来设置输出消息的格式。 因为作为类型 Object 进行传递,所以状态信息必须强制转换为正确的类型才能被使用。
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回调在 ThreadPool 线程上执行。 ThreadPool 线程是后台线程,这些线程不会在主线程结束后保持应用程序的运行,因此示例的主线程必须休眠足够长的时间以便回调完成。
using System; using System.Threading; using System.Runtime.Remoting.Messaging; namespace Examples.AdvancedProgramming.AsynchronousOperations { public class AsyncMain { static void Main() { // Create an instance of the test class. AsyncDemo ad = new AsyncDemo(); // Create the delegate. AsyncMethodCaller caller = new AsyncMethodCaller(ad.TestMethod); // The threadId parameter of TestMethod is an out parameter, so // its input value is never used by TestMethod. Therefore, a dummy // variable can be passed to the BeginInvoke call. If the threadId // parameter were a ref parameter, it would have to be a class- // level field so that it could be passed to both BeginInvoke and // EndInvoke. int dummy = 0; // Initiate the asynchronous call, passing three seconds (3000 ms) // for the callDuration parameter of TestMethod; a dummy variable // for the out parameter (threadId); the callback delegate; and // state information that can be retrieved by the callback method. // In this case, the state information is a string that can be used // to format a console message. IAsyncResult result = caller.BeginInvoke(3000, out dummy, new AsyncCallback(CallbackMethod), "The call executed on thread {0}, with return value \"{1}\"."); Console.WriteLine("The main thread {0} continues to execute...", Thread.CurrentThread.ManagedThreadId); // The callback is made on a ThreadPool thread. ThreadPool threads // are background threads, which do not keep the application running // if the main thread ends. Comment out the next line to demonstrate // this. Thread.Sleep(4000); Console.WriteLine("The main thread ends."); } // The callback method must have the same signature as the // AsyncCallback delegate. static void CallbackMethod(IAsyncResult ar) { // Retrieve the delegate. AsyncResult result = (AsyncResult) ar; AsyncMethodCaller caller = (AsyncMethodCaller) result.AsyncDelegate; // Retrieve the format string that was passed as state // information. string formatString = (string) ar.AsyncState; // Define a variable to receive the value of the out parameter. // If the parameter were ref rather than out then it would have to // be a class-level field so it could also be passed to BeginInvoke. int threadId = 0; // Call EndInvoke to retrieve the results. string returnValue = caller.EndInvoke(out threadId, ar); // Use the format string to format the output message. Console.WriteLine(formatString, threadId, returnValue); } } } /* This example produces output similar to the following: The main thread 1 continues to execute... Test method begins. The call executed on thread 3, with return value "My call time was 3000.". The main thread ends. */