1.Task的优势
ThreadPool相比Thread来说具备了很多优势,但是ThreadPool却又存在一些使用上的不方便。比如:
ThreadPool不支持线程的取消、完成、失败通知等交互性操作;
ThreadPool不支持线程执行的先后次序;
以往,如果开发者要实现上述功能,需要完成很多额外的工作,现在,FCL中提供了一个功能更强大的概念:Task。Task在线程池的基础上进行了优化,并提供了更多的API。在FCL4.0中,如果我们要编写多线程程序,Task显然已经优于传统的方式。
class Program { static void Main(string[] args) { Task t = new Task(() => { Console.WriteLine("任务开始工作……"); //模拟工作过程 Thread.Sleep(5000); }); t.Start(); t.ContinueWith((task) => { Console.WriteLine("任务完成,完成时候的状态为:"); Console.WriteLine("IsCanceled={0} IsCompleted={1} IsFaulted={2}", task.IsCanceled, task.IsCompleted, task.IsFaulted); }); Console.ReadKey(); } }
2.创建任务
class Program { static void Main(string[] args) { //创建任务 多种方式 //方式1 var t1 = new Task(() => TaskMethod("Task 1")); Console.WriteLine($"t1任务状态:{t1.Status}"); t1.Start(); Console.WriteLine($"t1任务状态:{t1.Status}"); Task.WaitAll(t1);//等待所有任务结束 Console.WriteLine($"t1任务状态:{t1.Status}"); Console.ReadKey(); //方式2 Task.Run(() => TaskMethod("Task 2")); //方式3 Task.Factory.StartNew(() => Console.WriteLine("Task 3")); } static void TaskMethod(string str) { Thread.Sleep(1000); Console.WriteLine(str); } }
class Program { static void Main(string[] args) { var t1 = new Task(() => TaskMethod("Task 1")); var t2 = new Task(() => TaskMethod("Task 2")); t2.Start(); t1.Start(); Task.WaitAll(t1, t2); Task.Run(() => TaskMethod("Task 3")); Task.Factory.StartNew(() => TaskMethod("Task 4")); //标记为长时间运行任务,则任务不会使用线程池,而在单独的线程中运行。 Task.Factory.StartNew(() => TaskMethod("Task 5"), TaskCreationOptions.LongRunning); #region 常规的使用方式 Console.WriteLine("主线程执行业务处理."); //创建任务 Task task = new Task(() => { Console.WriteLine("使用System.Threading.Tasks.Task执行异步操作."); for (int i = 0; i < 10; i++) { Console.WriteLine(i); } }); //启动任务,并安排到当前任务队列线程中执行任务(System.Threading.Tasks.TaskScheduler) task.Start(); Console.WriteLine("主线程执行其他处理"); task.Wait(); #endregion Thread.Sleep(TimeSpan.FromSeconds(1)); Console.ReadLine(); } static void TaskMethod(string name) { Console.WriteLine("Task {0} is running on a thread id {1}. Is thread pool thread: {2}", name, Thread.CurrentThread.ManagedThreadId, Thread.CurrentThread.IsThreadPoolThread); } }
2.1 async/await的实现方式
无返回值
class Program { public static void Main() { Console.WriteLine("主线程执行业务处理."); AsyncFunction(); Console.WriteLine("主线程执行其他处理"); for (int i = 0; i < 10; i++) { Console.WriteLine(($"Main:i={i}")); } Console.ReadLine(); } async static void AsyncFunction() { await Task.Delay(1); Console.WriteLine("使用System.Threading.Tasks.Task执行异步操作."); for (int i = 0; i < 10; i++) { Console.WriteLine($"AsyncFunction:i={i}"); } } }
有返回值
class Program { 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"); //该任务会运行在主线程中 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); Console.ReadLine(); #region 常规使用方式 //创建任务 Task<int> getsumtask = new Task<int>(() => Getsum()); //启动任务,并安排到当前任务队列线程中执行任务(System.Threading.Tasks.TaskScheduler) getsumtask.Start(); Console.WriteLine("主线程执行其他处理"); //等待任务的完成执行过程。 getsumtask.Wait(); //获得任务的执行结果 Console.WriteLine("任务执行结果:{0}", getsumtask.Result.ToString()); Console.ReadLine(); #endregion } static Task<int> CreateTask(string name) { return new Task<int>(() => TaskMethod(name)); } 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执行异步操作."); for (int i = 0; i < 100; i++) { sum += i; } return sum; } }
阻塞主线程,等待返回结果
class Program { public static void Main() { var ret1 = AsyncGetsum(); Console.WriteLine("主线程执行其他处理"); for (int i = 1; i <= 3; i++) Console.WriteLine("Call Main()"); int result = ret1.Result; //阻塞主线程 Console.WriteLine("任务执行结果:{0}", result); Console.ReadLine(); } static async Task<int> AsyncGetsum() { await Task.Delay(1); int sum = 0; Console.WriteLine("使用Task执行异步操作."); for (int i = 0; i < 100; i++) { sum += i; } return sum; } }
3.组合任务 ContinueWith
class Program { public static void Main() { //创建一个任务 Task<int> task = new Task<int>(() => { int sum = 0; Console.WriteLine("使用Task执行异步操作."); for (int i = 0; i < 100; i++) { sum += i; } return sum; }); //启动任务,并安排到当前任务队列线程中执行任务(System.Threading.Tasks.TaskScheduler) task.Start(); Console.WriteLine("主线程执行其他处理"); //任务完成时执行处理。 task.ContinueWith(t => { Console.WriteLine("任务完成后的执行结果:{0}", t.Result.ToString()); }); Console.ReadLine(); } }
任务的串行
class Program { static void Main(string[] args) { ConcurrentStack<int> stack = new ConcurrentStack<int>(); //t1先串行 var t1 = Task.Factory.StartNew(() => { stack.Push(1); stack.Push(2); }); //t2,t3并行执行 var t2 = t1.ContinueWith(t => { stack.TryPop(out var result); Console.WriteLine("Task t2 result={0},Thread id {1}", result, Thread.CurrentThread.ManagedThreadId); }); //t2,t3并行执行 var t3 = t1.ContinueWith(t => { stack.TryPop(out var result); Console.WriteLine("Task t3 result={0},Thread id {1}", result, Thread.CurrentThread.ManagedThreadId); }); //等待t2和t3执行完 Task.WaitAll(t2, t3); //t7串行执行 var t4 = Task.Factory.StartNew(() => { Console.WriteLine("当前集合元素个数:{0},Thread id {1}", stack.Count, Thread.CurrentThread.ManagedThreadId); }); t4.Wait(); Console.ReadLine(); } }
子任务
class Program { static void Main(string[] args) { WaitForSimpleNestedTask(); Console.WriteLine("====================================================="); SimpleNestedTask(); Thread.SpinWait(600000);//等待SimpleNestedTask结束 再运行 Console.WriteLine("====================================================="); SimpleNestedTaskAttachedToParent(); Console.Read(); } static void WaitForSimpleNestedTask() { var outer = Task<int>.Factory.StartNew(() => { Console.WriteLine("Outer1 task executing."); var nested = Task<int>.Factory.StartNew(() => { Console.WriteLine("Nested1 task starting."); Thread.SpinWait(5000000); Console.WriteLine("Nested1 task completing."); return 42; }); // 父任务等待子任务完成 return nested.Result; }); //输出的时候使用了返回值outer.Result,所以自动等待父任务完成 Console.WriteLine("Outer1 has returned {0}.", outer.Result); } static void SimpleNestedTask() { var parent = Task.Factory.StartNew(() => { Console.WriteLine("Outer2 task executing."); var child = Task.Factory.StartNew(() => { Console.WriteLine("Nested2 task starting."); Thread.SpinWait(500000); Console.WriteLine("Nested2 task completing."); }); }); //等待父任务完成,再输出字符串,如果没有这个等待,这句话会先输出 parent.Wait(); Console.WriteLine("Outer2 has completed."); } static void SimpleNestedTaskAttachedToParent() { var parent = Task.Factory.StartNew(() => { Console.WriteLine("Outer3 task executing."); var child = Task.Factory.StartNew(() => { Console.WriteLine("Nested3 task starting."); Thread.SpinWait(500000); Console.WriteLine("Nested3 task completing."); }, TaskCreationOptions.AttachedToParent); //增加参数TaskCreationOptions.AttachedToParent,将子任务附加进父任务,这样子任务完成后,父任务才算完成。 }); //等待父任务完成,再输出字符串,如果没有这个等待,这句话会先输出 parent.Wait(); Console.WriteLine("Outer has completed."); } }
动态并行,父任务等待所有子任务完成后 整个任务才算完成
class Node { public Node Left { get; set; } public Node Right { get; set; } public string Text { get; set; } } class Program { static Node GetNode() { Node root = new Node { Left = new Node { Left = new Node { Text = "L-L" }, Right = new Node { Text = "L-R" }, Text = "L" }, Right = new Node { Left = new Node { Text = "R-L" }, Right = new Node { Text = "R-R" }, Text = "R" }, Text = "Root" }; return root; } static void Main(string[] args) { Node root = GetNode(); DisplayTree(root); Console.ReadLine(); } static void DisplayTree(Node root) { var task = Task.Factory.StartNew(() => DisplayNode(root), CancellationToken.None, TaskCreationOptions.None, TaskScheduler.Default); task.Wait(); } static void DisplayNode(Node current) { if (current.Left != null) Task.Factory.StartNew(() => DisplayNode(current.Left), CancellationToken.None, TaskCreationOptions.AttachedToParent, TaskScheduler.Default); if (current.Right != null) Task.Factory.StartNew(() => DisplayNode(current.Right), CancellationToken.None, TaskCreationOptions.AttachedToParent, TaskScheduler.Default); Console.WriteLine("当前节点的值为{0};处理的ThreadId={1}", current.Text, Thread.CurrentThread.ManagedThreadId); } }
取消任务 CancellationTokenSource
class Program { private static int TaskMethod(string name, int seconds, CancellationToken token) { Console.WriteLine("Task {0} is running on a thread id {1}. Is thread pool thread: {2}", name, Thread.CurrentThread.ManagedThreadId, Thread.CurrentThread.IsThreadPoolThread); for (int i = 0; i < seconds; i++) { Thread.Sleep(TimeSpan.FromSeconds(1)); if (token.IsCancellationRequested) return -1; } return 42 * seconds; } private static void Main(string[] args) { var cts = new CancellationTokenSource(); var longTask = new Task<int>(() => TaskMethod("Task 1", 10, cts.Token), cts.Token); Console.WriteLine(longTask.Status); cts.Cancel(); Console.WriteLine(longTask.Status); Console.WriteLine("First task has been cancelled before execution"); cts = new CancellationTokenSource(); longTask = new Task<int>(() => TaskMethod("Task 2", 10, cts.Token), cts.Token); longTask.Start(); for (int i = 0; i < 5; i++) { Thread.Sleep(TimeSpan.FromSeconds(0.5)); Console.WriteLine(longTask.Status); } cts.Cancel(); for (int i = 0; i < 5; i++) { Thread.Sleep(TimeSpan.FromSeconds(0.5)); Console.WriteLine(longTask.Status); } Console.WriteLine("A task has been completed with result {0}.", longTask.Result); Console.ReadLine(); } }
4.处理任务中的异常
单个任务
class Program { static int TaskMethod(string name, int seconds) { 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(seconds)); throw new Exception("Boom!"); return 42 * seconds; } static void Main(string[] args) { try { Task<int> task = Task.Run(() => TaskMethod("Task 2", 2)); int result = task.GetAwaiter().GetResult(); Console.WriteLine("Result: {0}", result); } catch (Exception ex) { Console.WriteLine("Task 2 Exception caught: {0}", ex.Message); } Console.WriteLine("----------------------------------------------"); Console.ReadLine(); } }
多个任务
class Program { static int TaskMethod(string name, int seconds) { 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(seconds)); throw new Exception(string.Format("Task {0} Boom!", name)); return 42 * seconds; } public static void Main(string[] args) { try { var t1 = new Task<int>(() => TaskMethod("Task 3", 3)); var t2 = new Task<int>(() => TaskMethod("Task 4", 2)); var complexTask = Task.WhenAll(t1, t2); var exceptionHandler = complexTask.ContinueWith(t => Console.WriteLine("Result: {0}", t.Result), TaskContinuationOptions.OnlyOnFaulted ); t1.Start(); t2.Start(); Task.WaitAll(t1, t2); } catch (AggregateException ex) { // enumerate the exceptions that have been aggregated foreach (Exception inner in ex.InnerExceptions) { Console.WriteLine($"Exception type {inner.GetType()} from {inner.Source} {ex.Message}"); } } Console.ReadLine(); Console.WriteLine("----------------------"); } }
async/await的方式
class Program { static async Task ThrowNotImplementedExceptionAsync() { throw new NotImplementedException(); } static async Task ThrowInvalidOperationExceptionAsync() { throw new InvalidOperationException(); } static async Task Normal() { await Fun(); } static Task Fun() { return Task.Run(() => { for (int i = 1; i <= 10; i++) { Console.WriteLine("i={0}", i); Thread.Sleep(200); } }); } static async Task ObserveOneExceptionAsync() { var task1 = ThrowNotImplementedExceptionAsync(); var task2 = ThrowInvalidOperationExceptionAsync(); var task3 = Normal(); try { //异步的方式 Task allTasks = Task.WhenAll(task1, task2, task3); await allTasks; //同步的方式 //Task.WaitAll(task1, task2, task3); } catch (NotImplementedException ex) { Console.WriteLine("task1 任务报错!"); } catch (InvalidOperationException ex) { Console.WriteLine("task2 任务报错!"); } catch (Exception ex) { Console.WriteLine("任务报错!"); } } public static void Main() { Task task = ObserveOneExceptionAsync(); Console.WriteLine("主线程继续运行........"); task.Wait(); Console.ReadLine(); } }
5.Task.FromResult的应用
class Program { static IDictionary<string, string> cache = new Dictionary<string, string>() { {"0001","A"}, {"0002","B"}, {"0003","C"}, {"0004","D"}, {"0005","E"}, {"0006","F"}, }; public static void Main() { Task<string> task = GetValueFromCache("0006"); Console.WriteLine("主程序继续执行。。。。"); string result = task.Result; Console.WriteLine("result={0}", result); Console.ReadLine(); } private static Task<string> GetValueFromCache(string key) { Console.WriteLine("GetValueFromCache开始执行。。。。"); Thread.Sleep(5000); Console.WriteLine("GetValueFromCache继续执行。。。。"); if (cache.TryGetValue(key, out var result)) { return Task.FromResult(result); } return Task.FromResult(""); } }
6.使用IProgress实现异步编程的进程通知
IProgress<in T>只提供了一个方法void Report(T value),通过Report方法把一个T类型的值报告给IProgress,然后IProgress<in T>的实现类Progress<in T>的构造函数接收类型为Action<T>的形参,通过这个委托让进度显示在UI界面中
class Program { static void DoProcessing(IProgress<int> progress) { for (int i = 0; i <= 100; ++i) { Thread.Sleep(100); progress?.Report(i); } } static async Task Display() { //当前线程 var progress = new Progress<int>(percent => { Console.Clear(); Console.Write($"{percent}%"); }); //线程池线程 await Task.Run(() => DoProcessing(progress)); Console.WriteLine(""); Console.WriteLine("结束"); } public static void Main() { Task task = Display(); task.Wait(); } }
7.Factory.FromAsync的应用 (简APM模式(委托)转换为任务)(BeginXXX和EndXXX)
带回调方式的带回调方式的
class Program { private delegate string AsynchronousTask(string threadName); private static string Test(string threadName) { Console.WriteLine("Starting..."); Console.WriteLine("Is thread pool thread: {0}", Thread.CurrentThread.IsThreadPoolThread); Thread.Sleep(TimeSpan.FromSeconds(2)); Thread.CurrentThread.Name = threadName; return string.Format("Thread name: {0}", Thread.CurrentThread.Name); } private static void Callback(IAsyncResult ar) { Console.WriteLine("Starting a callback..."); Console.WriteLine("State passed to a callbak: {0}", ar.AsyncState); Console.WriteLine("Is thread pool thread: {0}", Thread.CurrentThread.IsThreadPoolThread); Console.WriteLine("Thread pool worker thread id: {0}", Thread.CurrentThread.ManagedThreadId); } //执行的流程是 先执行Test--->Callback--->task.ContinueWith static void Main(string[] args) { AsynchronousTask d = Test; Console.WriteLine("Option 1"); Task<string> task = Task<string>.Factory.FromAsync( d.BeginInvoke("AsyncTaskThread", Callback, "a delegate asynchronous call"), d.EndInvoke); task.ContinueWith(t => Console.WriteLine("Callback is finished, now running a continuation! Result: {0}", t.Result)); while (!task.IsCompleted) { Console.WriteLine(task.Status); Thread.Sleep(TimeSpan.FromSeconds(0.5)); } Console.WriteLine(task.Status); Console.ReadLine(); } }
不带回调方式的
class Program { private delegate string AsynchronousTask(string threadName); private static string Test(string threadName) { Console.WriteLine("Starting..."); Console.WriteLine("Is thread pool thread: {0}", Thread.CurrentThread.IsThreadPoolThread); Thread.Sleep(2000); Thread.CurrentThread.Name = threadName; return string.Format("Thread name: {0}", Thread.CurrentThread.Name); } //执行的流程是 先执行Test--->task.ContinueWith static void Main(string[] args) { AsynchronousTask d = Test; Task<string> task = Task<string>.Factory.FromAsync( d.BeginInvoke, d.EndInvoke, "AsyncTaskThread", "a delegate asynchronous call"); task.ContinueWith(t => Console.WriteLine("Task is completed, now running a continuation! Result: {0}", t.Result)); while (!task.IsCompleted) { Console.WriteLine(task.Status); Thread.Sleep(TimeSpan.FromSeconds(0.5)); } Console.WriteLine(task.Status); Console.ReadLine(); } }