Task Class
Represents an asynchronous operation.
Assembly: mscorlib (in mscorlib.dll)
The Task type exposes the following members.
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Task(Action) | Initializes a new Task with the specified action. |
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Task(Action, CancellationToken) | Initializes a new Task with the specified action and CancellationToken. |
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Task(Action, TaskCreationOptions) | Initializes a new Task with the specified action and creation options. |
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Task(Action<Object>, Object) | Initializes a new Task with the specified action and state. |
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Task(Action, CancellationToken, TaskCreationOptions) | Initializes a new Task with the specified action and creation options. |
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Task(Action<Object>, Object, CancellationToken) | Initializes a new Task with the specified action, state, and options. |
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Task(Action<Object>, Object, TaskCreationOptions) | Initializes a new Task with the specified action, state, and options. |
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Task(Action<Object>, Object, CancellationToken, TaskCreationOptions) | Initializes a new Task with the specified action, state, and options. |
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AsyncState | Gets the state object supplied when the Task was created, or null if none was supplied. |
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CreationOptions | Gets the TaskCreationOptions used to create this task. |
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CurrentId | Returns the unique ID of the currently executing Task. |
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Exception | Gets the AggregateException that caused the Task to end prematurely. If the Task completed successfully or has not yet thrown any exceptions, this will return null. |
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Factory | Provides access to factory methods for creating Task and Task<TResult> instances. |
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Id | Gets a unique ID for this Task instance. |
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IsCanceled | Gets whether this Task instance has completed execution due to being canceled. |
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IsCompleted | Gets whether this Task has completed. |
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IsFaulted | Gets whether the Task completed due to an unhandled exception. |
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Status | Gets the TaskStatus of this Task. |
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ContinueWith(Action<Task>) | Creates a continuation that executes asynchronously when the target Task completes. |
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ContinueWith(Action<Task>, CancellationToken) | Creates a continuation that executes asynchronously when the target Task completes. |
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ContinueWith(Action<Task>, TaskContinuationOptions) | Creates a continuation that executes according to the specified TaskContinuationOptions. |
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ContinueWith(Action<Task>, TaskScheduler) | Creates a continuation that executes asynchronously when the target Task completes. |
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ContinueWith(Action<Task>, CancellationToken, TaskContinuationOptions, TaskScheduler) | Creates a continuation that executes according to the specified TaskContinuationOptions. |
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ContinueWith<TResult>(Func<Task, TResult>) | Creates a continuation that executes asynchronously when the target Task completes. |
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ContinueWith<TResult>(Func<Task, TResult>, CancellationToken) | Creates a continuation that executes asynchronously when the target Task completes. |
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ContinueWith<TResult>(Func<Task, TResult>, TaskContinuationOptions) | Creates a continuation that executes according to the condition specified in continuationOptions. |
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ContinueWith<TResult>(Func<Task, TResult>, TaskScheduler) | Creates a continuation that executes asynchronously when the target Task completes. |
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ContinueWith<TResult>(Func<Task, TResult>, CancellationToken, TaskContinuationOptions, TaskScheduler) | Creates a continuation that executes according to the condition specified in continuationOptions. |
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Dispose() | Releases all resources used by the current instance of the Task class. |
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Dispose(Boolean) | Disposes the Task, releasing all of its unmanaged resources. |
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Equals(Object) | Determines whether the specified Object is equal to the current Object. (Inherited from Object.) |
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Finalize | Allows an object to try to free resources and perform other cleanup operations before it is reclaimed by garbage collection. (Inherited from Object.) |
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GetHashCode | Serves as a hash function for a particular type. (Inherited from Object.) |
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GetType | Gets the Type of the current instance. (Inherited from Object.) |
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MemberwiseClone | Creates a shallow copy of the current Object. (Inherited from Object.) |
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RunSynchronously() | Runs the Task synchronously on the current TaskScheduler. |
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RunSynchronously(TaskScheduler) | Runs the Task synchronously on the TaskScheduler provided. |
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Start() | Starts the Task, scheduling it for execution to the current TaskScheduler. |
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Start(TaskScheduler) | Starts the Task, scheduling it for execution to the specified TaskScheduler. |
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ToString | Returns a string that represents the current object. (Inherited from Object.) |
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Wait() | Waits for the Task to complete execution. |
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Wait(CancellationToken) | Waits for the Task to complete execution. |
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Wait(Int32) | Waits for the Task to complete execution. |
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Wait(TimeSpan) | Waits for the Task to complete execution. |
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Wait(Int32, CancellationToken) | Waits for the Task to complete execution. |
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WaitAll(Task[]) | Waits for all of the provided Task objects to complete execution. |
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WaitAll(Task[], Int32) | Waits for all of the provided Task objects to complete execution. |
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WaitAll(Task[], CancellationToken) | Waits for all of the provided Task objects to complete execution. |
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WaitAll(Task[], TimeSpan) | Waits for all of the provided Task objects to complete execution. |
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WaitAll(Task[], Int32, CancellationToken) | Waits for all of the provided Task objects to complete execution. |
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WaitAny(Task[]) | Waits for any of the provided Task objects to complete execution. |
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WaitAny(Task[], Int32) | Waits for any of the provided Task objects to complete execution. |
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WaitAny(Task[], CancellationToken) | Waits for any of the provided Task objects to complete execution. |
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WaitAny(Task[], TimeSpan) | Waits for any of the provided Task objects to complete execution. |
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WaitAny(Task[], Int32, CancellationToken) | Waits for any of the provided Task objects to complete execution. |
| Name | Description | |
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IAsyncResult.AsyncWaitHandle | Gets a WaitHandle that can be used to wait for the task to complete. |
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IAsyncResult.CompletedSynchronously | Gets an indication of whether the operation completed synchronously. |
Task instances may be created in a variety of ways. The most common approach is by using the Task type's Factory property to retrieve a TaskFactory instance that can be used to create tasks for several purposes. For example, to create a Task that runs an action, the factory's StartNew method may be used:
// C# var t = Task.Factory.StartNew(() => DoAction()); ' Visual Basic Dim t = Task.Factory.StartNew(Function() DoAction())
For more complete examples, see Task Parallelism (Task Parallel Library).
The Task class also provides constructors that initialize the Task but that do not schedule it for execution. For performance reasons, TaskFactory's StartNew method should be the preferred mechanism for creating and scheduling computational tasks, but for scenarios where creation and scheduling must be separated, the constructors may be used, and the task's Start method may then be used to schedule the task for execution at a later time.
For operations that return values, the Task<TResult> class should be used.
For Debugger Developers
For developers implementing custom debuggers, several internal and private members of Task may be useful (these may change from release to release). The Int32 m_taskId field serves as the backing store for the Id property, however accessing this field directly from a debugger may be more efficient than accessing the same value through the property's getter method (the s_taskIdCounter Int32 counter is used to retrieve the next available ID for a Task). Similarly, the Int32 m_stateFlags field stores information about the current lifecycle stage of the Task, information also accessible through the Status property. The m_action System.Object field stores a reference to the Task's delegate, and the m_stateObject System.Object field stores the async state passed to the Task by the developer. Finally, for debuggers that parse stack frames, the InternalWait method serves a potential marker for when a Task is entering a wait operation.
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The HostProtectionAttribute attribute applied to this type or member has the following Resources property value: Synchronization | ExternalThreading. The HostProtectionAttribute does not affect desktop applications (which are typically started by double-clicking an icon, typing a command, or entering a URL in a browser). For more information, see the HostProtectionAttribute class or SQL Server Programming and Host Protection Attributes. |
The following example shows how to start a task by using the StartNew() method:
using System; using System.Threading; using System.Threading.Tasks; class StartNewDemo { // Demonstrated features: // Task ctor() // Task.Factory // Task.Wait() // Task.RunSynchronously() // Expected results: // Task t1 (alpha) is created unstarted. // Task t2 (beta) is created started. // Task t1's (alpha) start is held until after t2 (beta) is started. // Both tasks t1 (alpha) and t2 (beta) are potentially executed on threads other than the main thread on multi-core machines. // Task t3 (gamma) is executed synchronously on the main thread. // Documentation: // http://msdn.microsoft.com/en-us/library/system.threading.tasks.task_members(VS.100).aspx static void Main() { Action<object> action = (object obj) => { Console.WriteLine("Task={0}, obj={1}, Thread={2}", Task.CurrentId, obj.ToString(), Thread.CurrentThread.ManagedThreadId); }; // Construct an unstarted task Task t1 = new Task(action, "alpha"); // Cosntruct a started task Task t2 = Task.Factory.StartNew(action, "beta"); // Block the main thread to demonstate that t2 is executing t2.Wait(); // Launch t1 t1.Start(); Console.WriteLine("t1 has been launched. (Main Thread={0})", Thread.CurrentThread.ManagedThreadId); // Wait for the task to finish. // You may optionally provide a timeout interval or a cancellation token // to mitigate situations when the task takes too long to finish. t1.Wait(); // Construct an unstarted task Task t3 = new Task(action, "gamma"); // Run it synchronously t3.RunSynchronously(); // Although the task was run synchrounously, it is a good practice to wait for it which observes for // exceptions potentially thrown by that task. t3.Wait(); } }
Windows 7, Windows Vista SP1 or later, Windows XP SP3, Windows Server 2008 (Server Core not supported), Windows Server 2008 R2 (Server Core supported with SP1 or later), Windows Server 2003 SP2
The .NET Framework does not support all versions of every platform. For a list of the supported versions, see .NET Framework System Requirements.
All members of Task, except for Dispose, are thread-safe and may be used from multiple threads concurrently.
There is a small typo in the comment from a code sample (coSNTruct):
// Cosntruct a started task
Task t2 = Task.Factory.StartNew(action, "beta");
- 3/29/2012
- juFo
- 4/6/2012
- Thomas Lee
Aparently in many situations the dispose function is optional though not noted here at all, which explains lack of usage in many examples. Though in many cases its probebly still a good idea to call it if able.
Source:
http://social.msdn.microsoft.com/Forums/en-US/parallelextensions/thread/7b3a42e5-4ebf-405a-8ee6-bcd2f0214f85
- 1/12/2012
- paws1111
