path: root/mcs/class/corlib/System.Threading.Tasks/Task.cs

//
// Task.cs
//
// Authors:
//    Marek Safar  <marek.safar@gmail.com>
//    Jérémie Laval <jeremie dot laval at xamarin dot com>
//
// Copyright (c) 2008 Jérémie "Garuma" Laval
// Copyright 2011-2013 Xamarin Inc (http://www.xamarin.com).
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//
//

#if NET_4_0

using System;
using System.Threading;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Runtime.CompilerServices;

namespace System.Threading.Tasks
{
	[System.Diagnostics.DebuggerDisplay ("Id = {Id}, Status = {Status}")]
	[System.Diagnostics.DebuggerTypeProxy (typeof (TaskDebuggerView))]
	public class Task : IDisposable, IAsyncResult
	{
		// With this attribute each thread has its own value so that it's correct for our Schedule code
		// and for Parent property.
		[System.ThreadStatic]
		static Task current;
		
		// parent is the outer task in which this task is created
		readonly Task parent;
		// A reference to a Task on which this continuation is attached to
		Task contAncestor;
		
		static int          id = -1;
		static readonly TaskFactory defaultFactory = new TaskFactory ();

		CountdownEvent childTasks;
		
		int                 taskId;
		TaskCreationOptions creationOptions;
		
		internal TaskScheduler       scheduler;

		TaskExceptionSlot exSlot;
		ManualResetEvent wait_handle;

		TaskStatus          status;

		TaskActionInvoker invoker;
		object         state;
		internal AtomicBooleanValue executing;

		TaskCompletionQueue<IContinuation> continuations;

		CancellationToken token;
		CancellationTokenRegistration? cancellationRegistration;

		internal const TaskCreationOptions WorkerTaskNotSupportedOptions = TaskCreationOptions.LongRunning | TaskCreationOptions.PreferFairness;

		const TaskCreationOptions MaxTaskCreationOptions =
#if NET_4_5
			TaskCreationOptions.DenyChildAttach | TaskCreationOptions.HideScheduler |
#endif
			TaskCreationOptions.PreferFairness | TaskCreationOptions.LongRunning | TaskCreationOptions.AttachedToParent;

		public Task (Action action)
			: this (action, TaskCreationOptions.None)
		{
			
		}
		
		public Task (Action action, TaskCreationOptions creationOptions)
			: this (action, CancellationToken.None, creationOptions)
		{
			
		}
		
		public Task (Action action, CancellationToken cancellationToken)
			: this (action, cancellationToken, TaskCreationOptions.None)
		{
			
		}
		
		public Task (Action action, CancellationToken cancellationToken, TaskCreationOptions creationOptions)
			: this (TaskActionInvoker.Create (action), null, cancellationToken, creationOptions, current)
		{
			if (action == null)
				throw new ArgumentNullException ("action");
			if (creationOptions > MaxTaskCreationOptions || creationOptions < TaskCreationOptions.None)
				throw new ArgumentOutOfRangeException ("creationOptions");
		}
		
		public Task (Action<object> action, object state)
			: this (action, state, TaskCreationOptions.None)
		{	
		}
		
		public Task (Action<object> action, object state, TaskCreationOptions creationOptions)
			: this (action, state, CancellationToken.None, creationOptions)
		{
		}
		
		public Task (Action<object> action, object state, CancellationToken cancellationToken)
			: this (action, state, cancellationToken, TaskCreationOptions.None)
		{	
		}

		public Task (Action<object> action, object state, CancellationToken cancellationToken, TaskCreationOptions creationOptions)
			: this (TaskActionInvoker.Create (action), state, cancellationToken, creationOptions, current)
		{
			if (action == null)
				throw new ArgumentNullException ("action");
			if (creationOptions > MaxTaskCreationOptions || creationOptions < TaskCreationOptions.None)
				throw new ArgumentOutOfRangeException ("creationOptions");
		}

		internal Task (TaskActionInvoker invoker, object state, CancellationToken cancellationToken,
		               TaskCreationOptions creationOptions, Task parent = null, Task contAncestor = null, bool ignoreCancellation = false)
		{
			this.invoker         = invoker;
			this.creationOptions = creationOptions;
			this.state           = state;
			this.taskId          = Interlocked.Increment (ref id);
			this.token           = cancellationToken;
			this.parent          = parent = parent == null ? current : parent;
			this.contAncestor    = contAncestor;
			this.status          = cancellationToken.IsCancellationRequested && !ignoreCancellation ? TaskStatus.Canceled : TaskStatus.Created;

			// Process creationOptions
#if NET_4_5
			if (parent != null && HasFlag (creationOptions, TaskCreationOptions.AttachedToParent)
			    && !HasFlag (parent.CreationOptions, TaskCreationOptions.DenyChildAttach))
#else
			if (parent != null && HasFlag (creationOptions, TaskCreationOptions.AttachedToParent))
#endif
				parent.AddChild ();

			if (token.CanBeCanceled && !ignoreCancellation)
				cancellationRegistration = token.Register (l => ((Task) l).CancelReal (), this);
		}

		static bool HasFlag (TaskCreationOptions opt, TaskCreationOptions member)
		{
			return (opt & member) == member;
		}

		#region Start
		public void Start ()
		{
			Start (TaskScheduler.Current);
		}
		
		public void Start (TaskScheduler scheduler)
		{
			if (scheduler == null)
				throw new ArgumentNullException ("scheduler");

			if (status >= TaskStatus.WaitingToRun)
				throw new InvalidOperationException ("The Task is not in a valid state to be started.");

			if (IsContinuation)
				throw new InvalidOperationException ("Start may not be called on a continuation task");

			if (IsPromise)
				throw new InvalidOperationException ("Start may not be called on a promise-style task");

			SetupScheduler (scheduler);
			Schedule ();
		}

		internal void SetupScheduler (TaskScheduler scheduler)
		{
			this.scheduler = scheduler;
			Status = TaskStatus.WaitingForActivation;
		}
		
		public void RunSynchronously ()
		{
			RunSynchronously (TaskScheduler.Current);
		}
		
		public void RunSynchronously (TaskScheduler scheduler)
		{
			if (scheduler == null)
				throw new ArgumentNullException ("scheduler");

			if (Status > TaskStatus.WaitingForActivation)
				throw new InvalidOperationException ("The task is not in a valid state to be started");

			if (IsContinuation)
				throw new InvalidOperationException ("RunSynchronously may not be called on a continuation task");

			if (IsPromise)
				throw new InvalidOperationException ("RunSynchronously may not be called on a promise-style task");

			RunSynchronouslyCore (scheduler);
		}

		internal void RunSynchronouslyCore (TaskScheduler scheduler)
		{
			SetupScheduler (scheduler);
			Status = TaskStatus.WaitingToRun;

			try {
				if (scheduler.RunInline (this, false))
					return;
			} catch (Exception inner) {
				var ex = new TaskSchedulerException (inner);
				TrySetException (new AggregateException (ex), false, true);
				throw ex;
			}

			Schedule ();
			WaitCore (Timeout.Infinite, CancellationToken.None, false);
		}
		#endregion
		
		#region ContinueWith
		public Task ContinueWith (Action<Task> continuationAction)
		{
			return ContinueWith (continuationAction, TaskContinuationOptions.None);
		}
		
		public Task ContinueWith (Action<Task> continuationAction, TaskContinuationOptions continuationOptions)
		{
			return ContinueWith (continuationAction, CancellationToken.None, continuationOptions, TaskScheduler.Current);
		}
		
		public Task ContinueWith (Action<Task> continuationAction, CancellationToken cancellationToken)
		{
			return ContinueWith (continuationAction, cancellationToken, TaskContinuationOptions.None, TaskScheduler.Current);
		}
		
		public Task ContinueWith (Action<Task> continuationAction, TaskScheduler scheduler)
		{
			return ContinueWith (continuationAction, CancellationToken.None, TaskContinuationOptions.None, scheduler);
		}
		
		public Task ContinueWith (Action<Task> continuationAction, CancellationToken cancellationToken, TaskContinuationOptions continuationOptions, TaskScheduler scheduler)
		{
			if (continuationAction == null)
				throw new ArgumentNullException ("continuationAction");
			if (scheduler == null)
				throw new ArgumentNullException ("scheduler");

			return ContinueWith (TaskActionInvoker.Create (continuationAction), cancellationToken, continuationOptions, scheduler);
		}

		internal Task ContinueWith (TaskActionInvoker invoker, CancellationToken cancellationToken, TaskContinuationOptions continuationOptions, TaskScheduler scheduler)
		{
			var lazyCancellation = false;
#if NET_4_5
			lazyCancellation = (continuationOptions & TaskContinuationOptions.LazyCancellation) > 0;
#endif
			var continuation = new Task (invoker, null, cancellationToken, GetCreationOptions (continuationOptions), null, this, lazyCancellation);
			ContinueWithCore (continuation, continuationOptions, scheduler);

			return continuation;
		}
		
		public Task<TResult> ContinueWith<TResult> (Func<Task, TResult> continuationFunction)
		{
			return ContinueWith<TResult> (continuationFunction, TaskContinuationOptions.None);
		}
		
		public Task<TResult> ContinueWith<TResult> (Func<Task, TResult> continuationFunction, TaskContinuationOptions continuationOptions)
		{
			return ContinueWith<TResult> (continuationFunction, CancellationToken.None, continuationOptions, TaskScheduler.Current);
		}
		
		public Task<TResult> ContinueWith<TResult> (Func<Task, TResult> continuationFunction, CancellationToken cancellationToken)
		{
			return ContinueWith<TResult> (continuationFunction, cancellationToken, TaskContinuationOptions.None, TaskScheduler.Current);
		}
		
		public Task<TResult> ContinueWith<TResult> (Func<Task, TResult> continuationFunction, TaskScheduler scheduler)
		{
			return ContinueWith<TResult> (continuationFunction, CancellationToken.None, TaskContinuationOptions.None, scheduler);
		}
		
		public Task<TResult> ContinueWith<TResult> (Func<Task, TResult> continuationFunction, CancellationToken cancellationToken,
		                                            TaskContinuationOptions continuationOptions, TaskScheduler scheduler)
		{
			if (continuationFunction == null)
				throw new ArgumentNullException ("continuationFunction");
			if (scheduler == null)
				throw new ArgumentNullException ("scheduler");

			return ContinueWith<TResult> (TaskActionInvoker.Create (continuationFunction), cancellationToken, continuationOptions, scheduler);
		}

		internal Task<TResult> ContinueWith<TResult> (TaskActionInvoker invoker, CancellationToken cancellationToken, TaskContinuationOptions continuationOptions, TaskScheduler scheduler)
		{
			var lazyCancellation = false;
#if NET_4_5
			lazyCancellation = (continuationOptions & TaskContinuationOptions.LazyCancellation) > 0;
#endif
			var continuation = new Task<TResult> (invoker, null, cancellationToken, GetCreationOptions (continuationOptions), parent, this, lazyCancellation);
			ContinueWithCore (continuation, continuationOptions, scheduler);

			return continuation;
		}
	
		internal void ContinueWithCore (Task continuation, TaskContinuationOptions options, TaskScheduler scheduler)
		{
			const TaskContinuationOptions wrongRan = TaskContinuationOptions.NotOnRanToCompletion | TaskContinuationOptions.OnlyOnRanToCompletion;
			const TaskContinuationOptions wrongCanceled = TaskContinuationOptions.NotOnCanceled | TaskContinuationOptions.OnlyOnCanceled;
			const TaskContinuationOptions wrongFaulted = TaskContinuationOptions.NotOnFaulted | TaskContinuationOptions.OnlyOnFaulted;

			if (((options & wrongRan) == wrongRan) || ((options & wrongCanceled) == wrongCanceled) || ((options & wrongFaulted) == wrongFaulted))
				throw new ArgumentException ("continuationOptions", "Some options are mutually exclusive");

			// Already set the scheduler so that user can call Wait and that sort of stuff
			continuation.scheduler = scheduler;
			continuation.Status = TaskStatus.WaitingForActivation;

			ContinueWith (new TaskContinuation (continuation, options));
		}
		
		internal bool ContinueWith (IContinuation continuation, bool canExecuteInline = true)
		{
			if (IsCompleted) {
				if (!canExecuteInline)
					return false;

				continuation.Execute ();
				return true;
			}
			
			continuations.Add (continuation);
			
			// Retry in case completion was achieved but event adding was too late
			if (IsCompleted) {
				continuations.Remove (continuation);
				if (!canExecuteInline)
					return false;

				continuation.Execute ();
			}

			return true;
		}

		internal void RemoveContinuation (IContinuation continuation)
		{
			continuations.Remove (continuation);
		}

		static internal TaskCreationOptions GetCreationOptions (TaskContinuationOptions kind)
		{
			TaskCreationOptions options = TaskCreationOptions.None;
			if ((kind & TaskContinuationOptions.AttachedToParent) > 0)
				options |= TaskCreationOptions.AttachedToParent;
			if ((kind & TaskContinuationOptions.PreferFairness) > 0)
				options |= TaskCreationOptions.PreferFairness;
			if ((kind & TaskContinuationOptions.LongRunning) > 0)
				options |= TaskCreationOptions.LongRunning;
			
			return options;
		}
		#endregion
		
		#region Internal and protected thingies
		internal void Schedule ()
		{
			Status = TaskStatus.WaitingToRun;
			scheduler.QueueTask (this);
		}
		
		void ThreadStart ()
		{
			/* Allow scheduler to break fairness of deque ordering without
			 * breaking its semantic (the task can be executed twice but the
			 * second time it will return immediately
			 */
			if (!executing.TryRelaxedSet ())
				return;

			// Disable CancellationToken direct cancellation
			if (cancellationRegistration != null) {
				cancellationRegistration.Value.Dispose ();
				cancellationRegistration = null;
			}

			// If Task are ran inline on the same thread we might trash these values
			var saveCurrent = current;
			var saveScheduler = TaskScheduler.Current;

			current = this;
#if NET_4_5
			TaskScheduler.Current = HasFlag (creationOptions, TaskCreationOptions.HideScheduler) ? TaskScheduler.Default : scheduler;
#else
			TaskScheduler.Current = scheduler;
#endif
			
			if (!token.IsCancellationRequested) {
				
				status = TaskStatus.Running;
				
				try {
					InnerInvoke ();
				} catch (OperationCanceledException oce) {
					if (token != CancellationToken.None && oce.CancellationToken == token)
						CancelReal ();
					else
						HandleGenericException (oce);
				} catch (Exception e) {
					HandleGenericException (e);
				}
			} else {
				CancelReal ();
			}

			if (saveCurrent != null)
				current = saveCurrent;
			if (saveScheduler != null)
				TaskScheduler.Current = saveScheduler;
			Finish ();
		}

		internal bool TrySetCanceled ()
		{
			if (IsCompleted)
				return false;
			
			if (!executing.TryRelaxedSet ()) {
				var sw = new SpinWait ();
				while (!IsCompleted)
					sw.SpinOnce ();

				return false;
			}
			
			CancelReal ();
			return true;
		}

		internal bool TrySetException (AggregateException aggregate, bool cancellation, bool observed)
		{
			if (IsCompleted)
				return false;
			
			if (!executing.TryRelaxedSet ()) {
				var sw = new SpinWait ();
				while (!IsCompleted)
					sw.SpinOnce ();

				return false;
			}

			if (cancellation) {
				ExceptionSlot.Exception = aggregate;
				Thread.MemoryBarrier ();

				CancelReal ();
			} else {
				HandleGenericException (aggregate);
			}

			if (observed)
				exSlot.Observed = true;

			return true;
		}

		internal bool TrySetExceptionObserved ()
		{
			if (exSlot != null) {
				exSlot.Observed = true;
				return true;
			}
			return false;
		}

		internal void Execute ()
		{
			ThreadStart ();
		}
		
		internal void AddChild ()
		{
			if (childTasks == null)
				Interlocked.CompareExchange (ref childTasks, new CountdownEvent (1), null);
			childTasks.AddCount ();
		}

		internal void ChildCompleted (AggregateException childEx)
		{
			if (childEx != null) {
				if (ExceptionSlot.ChildExceptions == null)
					Interlocked.CompareExchange (ref ExceptionSlot.ChildExceptions, new ConcurrentQueue<AggregateException> (), null);
				ExceptionSlot.ChildExceptions.Enqueue (childEx);
			}

			if (childTasks.Signal () && status == TaskStatus.WaitingForChildrenToComplete) {
				ProcessChildExceptions ();
				Status = exSlot == null ? TaskStatus.RanToCompletion : TaskStatus.Faulted;
				ProcessCompleteDelegates ();
				if (parent != null &&
#if NET_4_5
				    !HasFlag (parent.CreationOptions, TaskCreationOptions.DenyChildAttach) &&
#endif
					HasFlag (creationOptions, TaskCreationOptions.AttachedToParent))
					parent.ChildCompleted (this.Exception);
			}
		}

		void InnerInvoke ()
		{
			if (IsContinuation) {
				var ancestor = contAncestor;
				contAncestor = null;
				invoker.Invoke (ancestor, state, this);
			} else {
				invoker.Invoke (this, state, this);
			}
		}
		
		internal void Finish ()
		{
			// If there was children created and they all finished, we set the countdown
			if (childTasks != null) {
				if (childTasks.Signal ())
					ProcessChildExceptions (true);
			}
			
			// Don't override Canceled or Faulted
			if (status == TaskStatus.Running) {
				if (childTasks == null || childTasks.IsSet)
					Status = TaskStatus.RanToCompletion;
				else
					Status = TaskStatus.WaitingForChildrenToComplete;
			}

			if (wait_handle != null)
				wait_handle.Set ();

			// Tell parent that we are finished
			if (parent != null && HasFlag (creationOptions, TaskCreationOptions.AttachedToParent) &&
#if NET_4_5
			    !HasFlag (parent.CreationOptions, TaskCreationOptions.DenyChildAttach) &&
#endif
				status != TaskStatus.WaitingForChildrenToComplete) {
				parent.ChildCompleted (this.Exception);
			}

			// Completions are already processed when task is canceled or faulted
			if (status == TaskStatus.RanToCompletion)
				ProcessCompleteDelegates ();

			// Reset the current thingies
			if (current == this)
				current = null;
			if (TaskScheduler.Current == scheduler)
				TaskScheduler.Current = null;

			if (cancellationRegistration.HasValue)
				cancellationRegistration.Value.Dispose ();
		}

		void ProcessCompleteDelegates ()
		{
			if (continuations.HasElements) {
				IContinuation continuation;
				while (continuations.TryGetNextCompletion (out continuation))
					continuation.Execute ();
			}
		}

		void ProcessChildExceptions (bool isParent = false)
		{
			if (exSlot == null || exSlot.ChildExceptions == null)
				return;

			if (ExceptionSlot.Exception == null)
				exSlot.Exception = new AggregateException ();

			AggregateException childEx;
			while (exSlot.ChildExceptions.TryDequeue (out childEx))
				exSlot.Exception.AddChildException (childEx);

			if (isParent) {
				Status = TaskStatus.Faulted;
				ProcessCompleteDelegates ();			
			}
		}
		#endregion
		
		#region Cancel and Wait related method
		
		internal void CancelReal ()
		{
			Status = TaskStatus.Canceled;

			if (wait_handle != null)
				wait_handle.Set ();

			ProcessCompleteDelegates ();
		}

		void HandleGenericException (Exception e)
		{
			HandleGenericException (new AggregateException (e));
		}

		void HandleGenericException (AggregateException e)
		{
			ExceptionSlot.Exception = e;
			Thread.MemoryBarrier ();
			Status = TaskStatus.Faulted;

			if (wait_handle != null)
				wait_handle.Set ();

			ProcessCompleteDelegates ();
		}

		internal bool WaitOnChildren ()
		{
			if (Status == TaskStatus.WaitingForChildrenToComplete && childTasks != null) {
				childTasks.Wait ();
				return true;
			}
			return false;
		}
		
		public void Wait ()
		{
			Wait (Timeout.Infinite, CancellationToken.None);
		}

		public void Wait (CancellationToken cancellationToken)
		{
			Wait (Timeout.Infinite, cancellationToken);
		}
		
		public bool Wait (TimeSpan timeout)
		{
			return Wait (CheckTimeout (timeout), CancellationToken.None);
		}
		
		public bool Wait (int millisecondsTimeout)
		{
			return Wait (millisecondsTimeout, CancellationToken.None);
		}

		public bool Wait (int millisecondsTimeout, CancellationToken cancellationToken)
		{
			if (millisecondsTimeout < -1)
				throw new ArgumentOutOfRangeException ("millisecondsTimeout");

			bool result = WaitCore (millisecondsTimeout, cancellationToken, true);

			if (IsCanceled)
				throw new AggregateException (new TaskCanceledException (this));

			var exception = Exception;
			if (exception != null)
				throw exception;

			return result;
		}

		internal bool WaitCore (int millisecondsTimeout, CancellationToken cancellationToken, bool runInline)
		{
			if (IsCompleted)
				return true;

			// If the task is ready to be run and we were supposed to wait on it indefinitely without cancellation, just run it
			if (runInline && Status == TaskStatus.WaitingToRun && millisecondsTimeout == Timeout.Infinite && scheduler != null && !cancellationToken.CanBeCanceled)
				scheduler.RunInline (this, true);

			bool result = true;

			if (!IsCompleted) {
				var continuation = new ManualResetContinuation ();
				try {
					ContinueWith (continuation);
					result = continuation.Event.Wait (millisecondsTimeout, cancellationToken);
				} finally {
					if (!result)
						RemoveContinuation (continuation);
					continuation.Dispose ();
				}
			}

			return result;
		}
		
		public static void WaitAll (params Task[] tasks)
		{
			WaitAll (tasks, Timeout.Infinite, CancellationToken.None);
		}

		public static void WaitAll (Task[] tasks, CancellationToken cancellationToken)
		{
			WaitAll (tasks, Timeout.Infinite, cancellationToken);
		}
		
		public static bool WaitAll (Task[] tasks, TimeSpan timeout)
		{
			return WaitAll (tasks, CheckTimeout (timeout), CancellationToken.None);
		}
		
		public static bool WaitAll (Task[] tasks, int millisecondsTimeout)
		{
			return WaitAll (tasks, millisecondsTimeout, CancellationToken.None);
		}
		
		public static bool WaitAll (Task[] tasks, int millisecondsTimeout, CancellationToken cancellationToken)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			bool result = true;
			foreach (var t in tasks) {
				if (t == null)
					throw new ArgumentException ("tasks", "the tasks argument contains a null element");

				result &= t.Status == TaskStatus.RanToCompletion;
			}

			if (!result) {
				var continuation = new CountdownContinuation (tasks.Length);
				try {
					foreach (var t in tasks)
						t.ContinueWith (continuation);

					result = continuation.Event.Wait (millisecondsTimeout, cancellationToken);
				} finally {
					List<Exception> exceptions = null;

					foreach (var t in tasks) {
						if (result) {
							if (t.Status == TaskStatus.RanToCompletion)
								continue;
							if (exceptions == null)
								exceptions = new List<Exception> ();
							if (t.Exception != null)
								exceptions.AddRange (t.Exception.InnerExceptions);
							else
								exceptions.Add (new TaskCanceledException (t));
						} else {
							t.RemoveContinuation (continuation);
						}
					}

					continuation.Dispose ();

					if (exceptions != null)
						throw new AggregateException (exceptions);
				}
			}

			return result;
		}
		
		public static int WaitAny (params Task[] tasks)
		{
			return WaitAny (tasks, Timeout.Infinite, CancellationToken.None);
		}

		public static int WaitAny (Task[] tasks, TimeSpan timeout)
		{
			return WaitAny (tasks, CheckTimeout (timeout));
		}
		
		public static int WaitAny (Task[] tasks, int millisecondsTimeout)
		{
			return WaitAny (tasks, millisecondsTimeout, CancellationToken.None);
		}

		public static int WaitAny (Task[] tasks, CancellationToken cancellationToken)
		{
			return WaitAny (tasks, Timeout.Infinite, cancellationToken);
		}

		public static int WaitAny (Task[] tasks, int millisecondsTimeout, CancellationToken cancellationToken)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");
			if (millisecondsTimeout < -1)
				throw new ArgumentOutOfRangeException ("millisecondsTimeout");
			CheckForNullTasks (tasks);

			if (tasks.Length > 0) {
				var continuation = new ManualResetContinuation ();
				bool result = false;
				try {
					for (int i = 0; i < tasks.Length; i++) {
						var t = tasks[i];
						if (t.IsCompleted)
							return i;
						t.ContinueWith (continuation);
					}

					if (!(result = continuation.Event.Wait (millisecondsTimeout, cancellationToken)))
						return -1;
				} finally {
					if (!result)
						foreach (var t in tasks)
							t.RemoveContinuation (continuation);
					continuation.Dispose ();
				}
			}

			int firstFinished = -1;
			for (int i = 0; i < tasks.Length; i++) {
				var t = tasks[i];
				if (t.IsCompleted) {
					firstFinished = i;
					break;
				}
			}

			return firstFinished;
		}

		static int CheckTimeout (TimeSpan timeout)
		{
			try {
				return checked ((int)timeout.TotalMilliseconds);
			} catch (System.OverflowException) {
				throw new ArgumentOutOfRangeException ("timeout");
			}
		}

		static void CheckForNullTasks (Task[] tasks)
		{
			foreach (var t in tasks)
				if (t == null)
					throw new ArgumentException ("tasks", "the tasks argument contains a null element");
		}
		#endregion
		
		#region Dispose
		public void Dispose ()
		{
			Dispose (true);			
		}
		
		protected virtual void Dispose (bool disposing)
		{
			if (!IsCompleted)
				throw new InvalidOperationException ("A task may only be disposed if it is in a completion state");

			// Set action to null so that the GC can collect the delegate and thus
			// any big object references that the user might have captured in a anonymous method
			if (disposing) {
				invoker = null;
				state = null;
				if (cancellationRegistration != null)
					cancellationRegistration.Value.Dispose ();
				if (wait_handle != null)
					wait_handle.Dispose ();
			}
		}
		#endregion

#if NET_4_5
		public
#else
		internal
#endif
		Task ContinueWith (Action<Task, object> continuationAction, object state, CancellationToken cancellationToken,
								  TaskContinuationOptions continuationOptions, TaskScheduler scheduler)
		{
			if (continuationAction == null)
				throw new ArgumentNullException ("continuationAction");
			if (scheduler == null)
				throw new ArgumentNullException ("scheduler");

			Task continuation = new Task (TaskActionInvoker.Create (continuationAction),
										  state, cancellationToken,
										  GetCreationOptions (continuationOptions),
			                              parent,
			                              this);
			ContinueWithCore (continuation, continuationOptions, scheduler);

			return continuation;
		}
		
#if NET_4_5

		public ConfiguredTaskAwaitable ConfigureAwait (bool continueOnCapturedContext)
		{
			return new ConfiguredTaskAwaitable (this, continueOnCapturedContext);
		}

		public Task ContinueWith (Action<Task, object> continuationAction, object state)
		{
			return ContinueWith (continuationAction, state, CancellationToken.None, TaskContinuationOptions.None, TaskScheduler.Current);
		}

		public Task ContinueWith (Action<Task, object> continuationAction, object state, CancellationToken cancellationToken)
		{
			return ContinueWith (continuationAction, state, cancellationToken, TaskContinuationOptions.None, TaskScheduler.Current);
		}

		public Task ContinueWith (Action<Task, object> continuationAction, object state, TaskContinuationOptions continuationOptions)
		{
			return ContinueWith (continuationAction, state, CancellationToken.None, continuationOptions, TaskScheduler.Current);
		}

		public Task ContinueWith (Action<Task, object> continuationAction, object state, TaskScheduler scheduler)
		{
			return ContinueWith (continuationAction, state, CancellationToken.None, TaskContinuationOptions.None, scheduler);
		}

		public Task<TResult> ContinueWith<TResult> (Func<Task, object, TResult> continuationFunction, object state)
		{
			return ContinueWith<TResult> (continuationFunction, state, CancellationToken.None, TaskContinuationOptions.None, TaskScheduler.Current);
		}

		public Task<TResult> ContinueWith<TResult> (Func<Task, object, TResult> continuationFunction, object state, TaskContinuationOptions continuationOptions)
		{
			return ContinueWith<TResult> (continuationFunction, state, CancellationToken.None, continuationOptions, TaskScheduler.Current);
		}

		public Task<TResult> ContinueWith<TResult> (Func<Task, object, TResult> continuationFunction, object state, CancellationToken cancellationToken)
		{
			return ContinueWith<TResult> (continuationFunction, state, cancellationToken, TaskContinuationOptions.None, TaskScheduler.Current);
		}

		public Task<TResult> ContinueWith<TResult> (Func<Task, object, TResult> continuationFunction, object state, TaskScheduler scheduler)
		{
			return ContinueWith<TResult> (continuationFunction, state, CancellationToken.None, TaskContinuationOptions.None, scheduler);
		}

		public Task<TResult> ContinueWith<TResult> (Func<Task, object, TResult> continuationFunction, object state, CancellationToken cancellationToken,
													TaskContinuationOptions continuationOptions, TaskScheduler scheduler)
		{
			if (continuationFunction == null)
				throw new ArgumentNullException ("continuationFunction");
			if (scheduler == null)
				throw new ArgumentNullException ("scheduler");

			var t = new Task<TResult> (TaskActionInvoker.Create (continuationFunction),
			                           state,
			                           cancellationToken,
			                           GetCreationOptions (continuationOptions),
			                           parent,
			                           this);

			ContinueWithCore (t, continuationOptions, scheduler);

			return t;
		}

		public static Task Delay (int millisecondsDelay)
		{
			return Delay (millisecondsDelay, CancellationToken.None);
		}

		public static Task Delay (TimeSpan delay)
		{
			return Delay (CheckTimeout (delay), CancellationToken.None);
		}

		public static Task Delay (TimeSpan delay, CancellationToken cancellationToken)
		{
			return Delay (CheckTimeout (delay), cancellationToken);
		}

		public static Task Delay (int millisecondsDelay, CancellationToken cancellationToken)
		{
			if (millisecondsDelay < -1)
				throw new ArgumentOutOfRangeException ("millisecondsDelay");

			if (cancellationToken.IsCancellationRequested)
				return TaskConstants.Canceled;

			var task = new Task (TaskActionInvoker.Empty, null, cancellationToken, TaskCreationOptions.None, null, null);
			task.SetupScheduler (TaskScheduler.Default);

			if (millisecondsDelay != Timeout.Infinite) {
				var timer = new Timer (delegate (object state) {
					var t = (Task) state;
					if (t.Status == TaskStatus.WaitingForActivation) {
						t.Status = TaskStatus.Running;
						t.Finish ();
					}
				}, task, millisecondsDelay, -1);

				task.ContinueWith (new DisposeContinuation (timer));
			}

			return task;
		}

		public static Task<TResult> FromResult<TResult> (TResult result)
		{
			var tcs = new TaskCompletionSource<TResult> ();
			tcs.SetResult (result);
			return tcs.Task;
		}

		public TaskAwaiter GetAwaiter ()
		{
			return new TaskAwaiter (this);
		}

		public static Task Run (Action action)
		{
			return Run (action, CancellationToken.None);
		}

		public static Task Run (Action action, CancellationToken cancellationToken)
		{
			if (cancellationToken.IsCancellationRequested)
				return TaskConstants.Canceled;

			return Task.Factory.StartNew (action, cancellationToken, TaskCreationOptions.DenyChildAttach, TaskScheduler.Default);
		}

		public static Task Run (Func<Task> function)
		{
			return Run (function, CancellationToken.None);
		}

		public static Task Run (Func<Task> function, CancellationToken cancellationToken)
		{
			if (cancellationToken.IsCancellationRequested)
				return TaskConstants.Canceled;

			return TaskExtensionsImpl.Unwrap (Task.Factory.StartNew (function, cancellationToken, TaskCreationOptions.DenyChildAttach, TaskScheduler.Default));
		}

		public static Task<TResult> Run<TResult> (Func<TResult> function)
		{
			return Run (function, CancellationToken.None);
		}

		public static Task<TResult> Run<TResult> (Func<TResult> function, CancellationToken cancellationToken)
		{
			if (cancellationToken.IsCancellationRequested)
				return TaskConstants<TResult>.Canceled;

			return Task.Factory.StartNew (function, cancellationToken, TaskCreationOptions.DenyChildAttach, TaskScheduler.Default);
		}

		public static Task<TResult> Run<TResult> (Func<Task<TResult>> function)
		{
			return Run (function, CancellationToken.None);
		}

		public static Task<TResult> Run<TResult> (Func<Task<TResult>> function, CancellationToken cancellationToken)
		{
			if (cancellationToken.IsCancellationRequested)
				return TaskConstants<TResult>.Canceled;

			return TaskExtensionsImpl.Unwrap (Task.Factory.StartNew (function, cancellationToken, TaskCreationOptions.DenyChildAttach, TaskScheduler.Default));
		}

		public static Task WhenAll (params Task[] tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			return WhenAllCore (tasks);
		}

		public static Task WhenAll (IEnumerable<Task> tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			// Call ToList on input enumeration or we end up
			// enumerating it more than once
			return WhenAllCore (new List<Task> (tasks));
		}

		public static Task<TResult[]> WhenAll<TResult> (params Task<TResult>[] tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			return WhenAllCore<TResult> (tasks);
		}

		public static Task<TResult[]> WhenAll<TResult> (IEnumerable<Task<TResult>> tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			// Call ToList on input enumeration or we end up
			// enumerating it more than once
			return WhenAllCore<TResult> (new List<Task<TResult>> (tasks));
		}

		internal static Task<TResult[]> WhenAllCore<TResult> (IList<Task<TResult>> tasks)
		{
			if (tasks.Count == 0)
				return FromResult(new TResult[0]);

			foreach (var t in tasks) {
				if (t == null)
					throw new ArgumentException ("tasks", "the tasks argument contains a null element");
			}

			var task = new Task<TResult[]> (TaskActionInvoker.Empty, null, CancellationToken.None, TaskCreationOptions.None, null, TaskConstants.Finished);
			task.SetupScheduler (TaskScheduler.Current);

			var continuation = new WhenAllContinuation<TResult> (task, tasks);
			foreach (var t in tasks)
				t.ContinueWith (continuation);

			return task;
		}

		public static Task<Task> WhenAny (params Task[] tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			return WhenAnyCore (tasks);
		}

		public static Task<Task> WhenAny (IEnumerable<Task> tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			return WhenAnyCore (new List<Task> (tasks));
		}

		public static Task<Task<TResult>> WhenAny<TResult> (params Task<TResult>[] tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			return WhenAnyCore<TResult> (tasks);
		}

		public static Task<Task<TResult>> WhenAny<TResult> (IEnumerable<Task<TResult>> tasks)
		{
			if (tasks == null)
				throw new ArgumentNullException ("tasks");

			return WhenAnyCore<TResult> (new List<Task<TResult>> (tasks));
		}

		static Task<Task<TResult>> WhenAnyCore<TResult> (IList<Task<TResult>> tasks)
		{
			if (tasks.Count == 0)
				throw new ArgumentException ("The tasks argument contains no tasks", "tasks");

			int completed_index = -1;
			for (int i = 0; i < tasks.Count; ++i) {
				var t = tasks[i];
				if (t == null)
					throw new ArgumentException ("tasks", "the tasks argument contains a null element");

				if (t.IsCompleted && completed_index < 0)
					completed_index = i;
			}

			var task = new Task<Task<TResult>> (TaskActionInvoker.Empty, null, CancellationToken.None, TaskCreationOptions.None, null, TaskConstants.Finished);

			if (completed_index > 0) {
				task.TrySetResult (tasks[completed_index]);
				return task;
			}

			task.SetupScheduler (TaskScheduler.Current);

			var continuation = new WhenAnyContinuation<Task<TResult>> (task, tasks);
			foreach (var t in tasks)
				t.ContinueWith (continuation);

			return task;
		}

		public static YieldAwaitable Yield ()
		{
			return new YieldAwaitable ();
		}
#endif

		internal static Task WhenAllCore (IList<Task> tasks)
		{
			bool all_completed = true;
			foreach (var t in tasks) {
				if (t == null)
					throw new ArgumentException ("tasks", "the tasks argument contains a null element");

				all_completed &= t.Status == TaskStatus.RanToCompletion;
			}

			if (all_completed)
				return TaskConstants.Finished;

			var task = new Task (TaskActionInvoker.Empty, null, CancellationToken.None, TaskCreationOptions.None, null, TaskConstants.Finished);
			task.SetupScheduler (TaskScheduler.Current);

			var continuation = new WhenAllContinuation (task, tasks);
			foreach (var t in tasks)
				t.ContinueWith (continuation);

			return task;
		}

		internal static Task<Task> WhenAnyCore (IList<Task> tasks)
		{
			if (tasks.Count == 0)
				throw new ArgumentException ("The tasks argument contains no tasks", "tasks");

			int completed_index = -1;
			for (int i = 0; i < tasks.Count; ++i) {
				var t = tasks [i];
				if (t == null)
					throw new ArgumentException ("tasks", "the tasks argument contains a null element");

				if (t.IsCompleted && completed_index < 0)
					completed_index = i;
			}

			var task = new Task<Task> (TaskActionInvoker.Empty, null, CancellationToken.None, TaskCreationOptions.None, null, TaskConstants.Finished);

			if (completed_index > 0) {
				task.TrySetResult (tasks[completed_index]);
				return task;
			}

			task.SetupScheduler (TaskScheduler.Current);

			var continuation = new WhenAnyContinuation<Task> (task, tasks);
			foreach (var t in tasks)
				t.ContinueWith (continuation);

			return task;
		}
		#region Properties

		internal CancellationToken CancellationToken {
			get {
				return token;
			}
		}

		public static TaskFactory Factory {
			get {
				return defaultFactory;
			}
		}
		
		public static int? CurrentId {
			get {
				Task t = current;
				return t == null ? (int?)null : t.Id;
			}
		}
		
		public AggregateException Exception {
			get {
				if (exSlot == null || !IsFaulted)
					return null;
				exSlot.Observed = true;
				return exSlot.Exception;
			}
		}
		
		public bool IsCanceled {
			get {
				return status == TaskStatus.Canceled;
			}
		}

		public bool IsCompleted {
			get {
				return status >= TaskStatus.RanToCompletion;
			}
		}
		
		public bool IsFaulted {
			get {
				return status == TaskStatus.Faulted;
			}
		}

		public TaskCreationOptions CreationOptions {
			get {
				return creationOptions & MaxTaskCreationOptions;
			}
		}
		
		public TaskStatus Status {
			get {
				return status;
			}
			internal set {
				status = value;
				Thread.MemoryBarrier ();
			}
		}

		internal TaskExceptionSlot ExceptionSlot {
			get {
				if (exSlot != null)
					return exSlot;
				Interlocked.CompareExchange (ref exSlot, new TaskExceptionSlot (this), null);
				return exSlot;
			}
		}

		public object AsyncState {
			get {
				return state;
			}
		}
		
		bool IAsyncResult.CompletedSynchronously {
			get {
				return true;
			}
		}

		WaitHandle IAsyncResult.AsyncWaitHandle {
			get {
				if (invoker == null)
					throw new ObjectDisposedException (GetType ().ToString ());

				if (wait_handle == null)
					Interlocked.CompareExchange (ref wait_handle, new ManualResetEvent (IsCompleted), null);

				return wait_handle;
			}
		}
		
		public int Id {
			get {
				return taskId;
			}
		}

		bool IsContinuation {
			get {
				return contAncestor != null;
			}
		}

		bool IsPromise {
			get {
				return invoker == TaskActionInvoker.Promise;
			}
		}

		internal Task ContinuationAncestor {
			get {
				return contAncestor;
			}
		}
		
		internal string DisplayActionMethod {
			get {
				Delegate d = invoker.Action;
				return d == null ? "<none>" : d.Method.ToString ();
			}
		}
		
		#endregion
	}
}
#endif