/// <summary>
/// Gets a task for the completion source which execute continuations for TaskCompletionSource.SetResult asynchronously.
/// </summary>
public static Task <T> GetAsyncCompletion <T>(this TaskSourceSlim <T> completion)
{
if (completion.Task.IsCompleted)
{
return(completion.Task);
}
return(GetTaskWithAsyncContinuation(completion));
}
private static async Task <T> GetTaskWithAsyncContinuation <T>(this TaskSourceSlim <T> completion)
{
var result = await completion.Task;
// Yield to not block the thread which sets the result of the completion
await Task.Yield();
return(result);
}
public static Task <T> FromException <T>(Exception ex)
{
Contract.RequiresNotNull(ex);
var failureSource = TaskSourceSlim.Create <T>();
failureSource.SetException(ex);
return(failureSource.Task);
}
public static Task <T> FromException <T>(Exception ex)
{
Contract.Requires(ex != null);
Contract.Ensures(Contract.Result <Task <T> >() != null);
var failureSource = TaskSourceSlim.Create <T>();
failureSource.SetException(ex);
return(failureSource.Task);
}
/// <summary>
/// Gets <see cref="CancellationTokenAwaitable"/> from a given <paramref name="token"/> that can be used in async methods to await the cancellation.
/// </summary>
/// <remarks>
/// The method returns a special disposable type instead of just returning a Task.
/// This is important, because the client code need to "unregister" the callback from the token when some other operations are done and the cancellation is no longer relevant.
/// Just returning a task on a token that is never trigerred will effectively cause a memory leak.
/// Here is a previous implementation of this method:
/// <code>public static async Task ToAwaitable(this CancellationToken token) { try {await Task.Delay(Timeout.Infinite, token);} catch(TaskCanceledException) {} }</code>
/// The `Delay` impelmentaiton checks if the timeout is infinite and won't start the timer, but it still will create a `DelayPromise` instance
/// and will register for the cancellation.
/// It means that if we call such a method many times with the same cancellation token, the registration list will grow indefinitely causing potential performance issues.
/// </remarks>
public static CancellationTokenAwaitable ToAwaitable(this CancellationToken token)
{
if (!token.CanBeCanceled)
{
// If the token can not be canceled, return a special global instance with a task that will never be finished.
return(CancellationTokenAwaitable.NonCancellableAwaitable);
}
var tcs = TaskSourceSlim.Create <object>();
var registration = token.Register(static tcs => ((TaskSourceSlim <object>)tcs).SetResult(null), tcs);
/// <summary>
/// Creates a TPL Task that is marked as completed when any <see cref="WaitHandle"/> in the array is signaled.
/// </summary>
/// <param name="handles">The handles whose signals triggers the task to be completed. Do not use a <see cref="Mutex"/> here.</param>
/// <param name="timeout">The timeout (in milliseconds) after which the task will return a value of WaitTimeout.</param>
/// <returns>A Task that is completed after any handle is signaled.</returns>
/// <remarks>
/// There is a (brief) time delay between when the handles are signaled and when the task is marked as completed.
/// </remarks>
public static Task <int> ToTask(this WaitHandle[] handles, int timeout = Timeout.Infinite)
{
Contract.Requires(handles != null);
Contract.RequiresForAll(handles, handle => handles != null);
var tcs = TaskSourceSlim.Create <int>();
int signalledHandle = WaitHandle.WaitAny(handles, 0);
if (signalledHandle != WaitHandle.WaitTimeout)
{
// An optimization for if the handle is already signaled
// to return a completed task.
tcs.SetResult(signalledHandle);
}
else
{
var localVariableInitLock = new object();
lock (localVariableInitLock)
{
RegisteredWaitHandle[] callbackHandles = new RegisteredWaitHandle[handles.Length];
for (int i = 0; i < handles.Length; i++)
{
callbackHandles[i] = ThreadPool.RegisterWaitForSingleObject(
handles[i],
(state, timedOut) =>
{
int handleIndex = (int)state;
if (timedOut)
{
tcs.TrySetResult(WaitHandle.WaitTimeout);
}
else
{
tcs.TrySetResult(handleIndex);
}
// We take a lock here to make sure the outer method has completed setting the local variable callbackHandles contents.
lock (localVariableInitLock)
{
foreach (var handle in callbackHandles)
{
handle.Unregister(null);
}
}
},
state: i,
millisecondsTimeOutInterval: timeout,
executeOnlyOnce: true);
}
}
}
return(tcs.Task);
}
static BoolTask()
{
TrueCompletion = TaskSourceSlim.Create <bool>();
TrueCompletion.SetResult(true);
True = TrueCompletion.Task;
TrueCompletionSource = new TaskCompletionSource <bool>();
TrueCompletionSource.SetResult(true);
FalseCompletion = TaskSourceSlim.Create <bool>();
FalseCompletion.SetResult(false);
False = FalseCompletion.Task;
FalseCompletionSource = new TaskCompletionSource <bool>(false);
FalseCompletionSource.SetResult(false);
}