Task類學習教程—Task的創建方式
一、簡介
ThreadPool相比Thread來說具備了很多優勢,但是ThreadPool卻又存在一些使用上的不方便。比如:
Task支持線程的取消、完成、失敗通知等交互性操作,但是ThreadPool不支持;
Task支持線程執行的先后次序,但是ThreadPool不支持;;
以往,如果開發者要實現上述功能,需要完成很多額外的工作,現在,FCL中提供了一個功能更強大的概念:Task。Task在線程池的基礎上進行了優化,並提供了更多的API。在FCL4.0中,如果我們要編寫多線程程序,Task顯然已經優於傳統的方式。
Task t = new Task(() => { Console.WriteLine("Start……"); //模擬工作過程 Thread.Sleep(5000); }); t.Start(); t.ContinueWith((task) => { Console.WriteLine("Already Finished,States:"); Console.WriteLine("IsCanceled={0}\tIsCompleted={1}\tIsFaulted={2}", task.IsCanceled, task.IsCompleted, task.IsFaulted); }); Console.ReadKey();
二、Task創建
無返回值創建方式
線程引用方法:
static void TaskMethod(string name) { Console.WriteLine("Task: {0} is running on a thread id {1}. Is thread pool thread: {2}", name, Thread.CurrentThread.ManagedThreadId, Thread.CurrentThread.IsThreadPoolThread); }
方式一:
//方式一 var t1 = new Task(() => TaskMethod("Task_1")); t1.Start(); //等待所有任務結束 //任務的狀態: //Start之前為:Created //Start之后為:WaitingToRun Task.WaitAll(t1);////等待所有任務結束
方式二:
//方式二 Task.Run(() => TaskMethod("Task_2"));
方式三:
//方式三 Task.Factory.StartNew(() => TaskMethod("Task_3")); //直接異步的方法 //或者 var t3 = Task.Factory.StartNew(() => TaskMethod("Task_3")); Task.WaitAll(t3);//等待所有任務結束 //任務的狀態 //Start之前為:Running //Start之后為:Running
實例:
class Program { static void Main(string[] args) { var t1 = new Task(() => TaskMethod("Task_1")); var t2 = new Task(() => TaskMethod("Task_2")); t2.Start(); t1.Start(); Task.WaitAll(t1, t2); Task.Run(() => TaskMethod("Task_3")); Task.Factory.StartNew(() => TaskMethod("Task_4")); //標記為長時間運行任務,則任務不會使用線程池,而在單獨的線程中運行。 Task.Factory.StartNew(() => TaskMethod("Task_5"), TaskCreationOptions.LongRunning); #region 常規的使用方式 Console.WriteLine("主線程執行業務處理."); //創建任務 Task task = new Task(() => { Console.WriteLine("使用System.Threading.Tasks.Task執行異步操作."); for (int i = 0; i < 10; i++) { Console.WriteLine(i); } }); //啟動任務,並安排到當前任務隊列線程中執行任務(System.Threading.Tasks.TaskScheduler) task.Start(); Console.WriteLine("主線程執行其他處理"); task.Wait(); #endregion Thread.Sleep(TimeSpan.FromSeconds(1)); Console.ReadLine(); } static void TaskMethod(string name) { Console.WriteLine("Task {0} is running on a thread id {1}. Is thread pool thread: {2}", name, Thread.CurrentThread.ManagedThreadId, Thread.CurrentThread.IsThreadPoolThread); } }
結果:
async/await的實現方式:
class Program { async static void AsyncFunction() { await Task.Delay(1); Console.WriteLine("使用System.Threading.Tasks.Task執行異步操作."); for (int i = 0; i < 10; i++) { Console.WriteLine(string.Format("AsyncFunction:i={0}", i)); } } public static void Main() { Console.WriteLine("主線程執行業務處理."); AsyncFunction(); Console.WriteLine("主線程執行其他處理"); for (int i = 0; i < 10; i++) { Console.WriteLine(string.Format("Main:i={0}", i)); } Console.ReadLine(); } }
結果:
帶返回值方式
線程引用方法
static Task<int> CreateTask(string name) { return new Task<int>(() => TaskMethod1(name)); }
static int TaskMethod1(string name) { Console.WriteLine("Task {0} is running on a thread id {1}. Is thread pool thread: {2}", name, Thread.CurrentThread.ManagedThreadId, Thread.CurrentThread.IsThreadPoolThread); Thread.Sleep(TimeSpan.FromSeconds(2)); return 42; }
方式四:
//方式四 Task<int> task = CreateTask("Task_1"); task.Start(); int result = task.Result;
實例:
class Program { static Task<int> CreateTask(string name) { return new Task<int>(() => TaskMethod(name)); } static void Main(string[] args) { TaskMethod("Main Thread Task"); Task<int> task = CreateTask("Task_1"); task.Start(); int result = task.Result; Console.WriteLine("Task_1 Result is: {0}", result); task = CreateTask("Task_2"); //該任務會運行在主線程中 task.RunSynchronously(); result = task.Result; Console.WriteLine("Task_2 Result is: {0}", result); task = CreateTask("Task_3"); Console.WriteLine(task.Status); task.Start(); while (!task.IsCompleted) { Console.WriteLine(task.Status); Thread.Sleep(TimeSpan.FromSeconds(0.5)); } Console.WriteLine(task.Status); result = task.Result; Console.WriteLine("Task_3 Result is: {0}", result); #region 常規使用方式 //創建任務 Task<int> getsumtask = new Task<int>(() => Getsum()); //啟動任務,並安排到當前任務隊列線程中執行任務(System.Threading.Tasks.TaskScheduler) getsumtask.Start(); Console.WriteLine("主線程執行其他處理"); //等待任務的完成執行過程。 getsumtask.Wait(); //獲得任務的執行結果 Console.WriteLine("任務執行結果:{0}", getsumtask.Result.ToString()); Console.ReadLine(); #endregion } static int TaskMethod(string name) { Console.WriteLine("Task: {0} is running on a thread id {1}. Is thread pool thread: {2}", name, Thread.CurrentThread.ManagedThreadId, Thread.CurrentThread.IsThreadPoolThread); Thread.Sleep(TimeSpan.FromSeconds(2)); return 42; } static int Getsum() { int sum = 0; Console.WriteLine("使用Task執行異步操作."); for (int i = 0; i < 100; i++) { sum += i; } return sum; } }
結果:
async/await的實現:
class Program { public static void Main() { var ret1 = AsyncGetsum(); Console.WriteLine("主線程執行其他處理"); for (int i = 1; i <= 3; i++) Console.WriteLine("Call Main()"); int result = ret1.Result; //阻塞主線程 Console.WriteLine("任務執行結果:{0}", result); Console.ReadLine(); } async static Task<int> AsyncGetsum() { await Task.Delay(1); int sum = 0; Console.WriteLine("使用Task執行異步操作."); for (int i = 0; i < 100; i++) { sum += i; } return sum; } }
結果:
