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A very simple task:

Task.Factory.StartNew(() =>
{
    Thread.Sleep(5000);
}).ContinueWith(_ =>
{
    lblStatus.Text = "Done";
}, TaskScheduler.FromCurrentSynchronizationContext());

It executes as expected when run from Form_Load() but it blocks for 5 seconds when run from any event related to BindingSource.

Am I missing something about BindingSources? I am using .NET 4.

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What you describe doesn't happen to me. Isn't that event running inside another Task that's using SynchronizationContext? What happens if you start the sleeping task with TaskScheduler.Default? –  svick Jun 26 '12 at 15:28
    
The BindingSource event is in the UI thread I presume. If I run this Task with TaskScheduler.Default it throws an exception from trying to modify UI content. –  Ahmed T. Jun 26 '12 at 15:40
    
I meant to run the sleeping Task on that scheduler. Something like Task.Factory.StartNew(waitDelegate, CancellationToken.None, TaskCreationOptions.None, TaskScheduler.Default).ContinueWith(uiDelegate, TaskScheduler.FromCurrentSynchronizationContext()). –  svick Jun 26 '12 at 15:43
    
And I was basically asking what caused that binding event. Was it something inside a Task that runs on the SynchronizationContext? –  svick Jun 26 '12 at 15:44
    
When the form loads, a Task loads data from a DB and populates the BindingSource in its ContinueWith. The BindingSource is linked to a BindingNavigator and the latter triggers the events in question. –  Ahmed T. Jun 26 '12 at 16:13

2 Answers 2

I solved this by assigning the default task scheduler to the task. The final form became:

Task.Factory.StartNew(() =>
{
    Thread.Sleep(5000);
}, CancellationToken.None, TaskCreationOptions.LongRunning, TaskScheduler.Default).ContinueWith(_ =>
{
    lblStatus.Text = "Done";
}, TaskScheduler.FromCurrentSynchronizationContext());

I am not an expert in C#, so I do not really know why it works this way.

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Your code blocks a ThreadPool thread for 5 seconds. If you execute this code for a large number of events you may exhaust all threadpool threads and effectively block your application until all the Sleep statements finish.

Both the code samples execute using the default thread scheduler. The difference is that the second sample uses the TaskCreationOptions.LongRunning which instructs the scheduler to create new threads rather than wait for a pool thread. This may overcome the initial problem, it's still not the right solution, as you are still wasting threads and may leave no thread available for other tasks.

A correct implementation is to use a TaskSource that will be signalled when a timer expires. This way you are not blocking any threads.

C# 5 already supports this with the Task.Delay method. You can use this in .NET 4.0 if you use the async targeting pack for Visual Studio 2012 or the Async v3 CTP for 2010

You can also find a similar method in the ParallelExtensionExtras library. The TaskFactory.StartNewDelayed extension method works in almost the same way. The sample code from Stephen Toub's article provides a simplified version:

public static Task StartNewDelayed(int millisecondsDelay, Action action) 
{ 
// Validate arguments 
if (millisecondsDelay < 0) 
    throw new ArgumentOutOfRangeException("millisecondsDelay"); 
if (action == null) throw new ArgumentNullException("action"); 

// Create a trigger used to start the task 
var tcs = new TaskCompletionSource<object>(); 

// Start a timer that will trigger it 
var timer = new Timer( 
    _ => tcs.SetResult(null), null, millisecondsDelay, Timeout.Infinite); 

// Create and return a task that will be scheduled when the trigger fires. 
return tcs.Task.ContinueWith(_ => 
{
    timer.Dispose();
    action();
}); 
}

Using the version from the ParallelExtensionsExtras you can rewrite your code as follows:

Task.Factory.StartNewDelayed(5000).ContinueWith(_ =>
{
    lblStatus.Text = "Done";
}, TaskScheduler.FromCurrentSynchronizationContext());

EDIT:

It seems the actual code does not have a Thread.Sleep after all. It performs some heavy DB related operations. The effect is the same though. Starting a new task after each BindingSource event can lead to so many running tasks that the threadpool gets exhausted.

One solution is again to use the TaskCreationOptions.LongRunning flag with the TaskFactory.StartNew(Action,TaskCreationOptions) override to instruct the scheduler to create more threads.

An even better solution is to execute the database operations asynchronously, using the BeginExecuteXXX,EndExecuteXXX methods combined with TaskFactory.FromAsync to convert the asynchronous calls to tasks. This way the database operations will not block any threads at all.

You could write something like this:

Task<SqlDataReader> task = Task<SqlDataReader>.Factory.FromAsync(
    cmd.BeginExecuteReader(CommandBehavior.CloseConnection),
    cmd.EndExecuteReader)
.ContinueWith(reader=>
{
    //do some processing
    reader.Close();
});
.ContinueWith(_ => 
{
    lblStatus.Text="Done";
},TaskScheduler.FromCurrentSynchronizationContext());

to read and process the data asynchronously and update the UI once processing finishes.

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I used a delay to make my post here simple. It is actually a time consuming DB query, and I am seeing the same behavior in both cases. –  Ahmed T. Jun 27 '12 at 17:47
    
You shouldn't used a delay then, you should have said you are performing a heavy (long-running) operation. The reason it blocks is the same - you are raising so many events that the threadpool gets exhausted. The right solution in this case is to use the LongRunning flag to instruct the scheduler to create more threads. –  Panagiotis Kanavos Jun 27 '12 at 19:30

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