14

Here's my hypothetical example. I have a very simple WPF window with a one Button. The Button.Click event has a handler that goes like this.

Action doit = () =>
{
    Action error = () => { throw new InvalidOperationException("test"); };

    try {
        this.Dispatcher.Invoke(error, DispatcherPriority.Normal);
    } catch (Exception ex) {
        System.Diagnostics.Trace.WriteLine(ex);
        throw;
    }
};
doit.BeginInvoke(null, null);

I would expect that the exception would be caught and written down by the Trace.WriteLine call. Instead, no exception is caught and the application breaks.

Does anybody knows of an possible explanation for this to happen? And what workaround do you suggest in order to catch exceptions thrown by the delegate invoked by Dispatcher.Invoke?

Update 1: I put a throw in the exception handling code. I don't want to actually ignore the exception. The whole point of my question is to handle it correctly. The problem is that the exception handling code is never executed.

Remember that this is an hypothetical example. My real code does not look like that. Also, assume that I can't change the code in the method to be invoked.

Update 2: Consider this similar example. Instead of a WPF window, I have a Windows Forms window. It has a button with the almost exactly the same handler. The only difference is in the invocation code. It goes like this.

this.Invoke(error);

In Windows Forms, the exception handling code is executed. Why the difference?

1 Answer 1

6

UPDATED: To observe the exception in the other thread, you want to use a Task, queue it to the Dispatcher thread (using TaskScheduler.FromCurrentSynchronizationContext), and wait on it, as such:

var ui = TaskScheduler.FromCurrentSynchronizationContext();
Action doit = () => 
{ 
    var error = Task.Factory.StartNew(
        () => { throw new InvalidOperationException("test"); },
        CancellationToken.None,
        TaskCreationOptions.None,
        ui); 

    try { 
        error.Wait(); 
    } catch (Exception ex) { 
        System.Diagnostics.Trace.WriteLine(ex); 
    } 
}; 
doit.BeginInvoke(null, null); 

UPDATED (again): Since your goal is a reusable component, I do recommend moving to a Task-based interface or something else based on SynchronizationContext such as the event-based asynchronous pattern, instead of basing the component on Dispatcher or ISynchronizeInvoke.

Dispatcher-based components only work on WPF/Silverlight; ISynchronizeInvoke-based components only work on Windows Forms. SynchronizationContext-based components will work with WPF or Windows Forms transparently, and (with a bit more work) ASP.NET, console apps, windows services, etc.

The event-based asynchronous pattern is the old recommended way of writing SynchronizationContext-based components; it's still around for .NET 3.5-era code. If you're on .NET 4, though, the task parallel library is much more flexible, clean, and powerful. The TaskScheduler.FromCurrentSynchronizationContext uses SynchronizationContext underneath, and is the New Way to write reusable components that need this kind of synchronization.

12
  • The way I'm dealing with caught exceptions is irrelevant. I could put some logging or whatever there. The problem is that the exception handling code is never executed.
    – jpbochi
    Jun 24, 2010 at 20:39
  • That's because the exception is thrown on another thread - the Dispatcher thread. Jun 24, 2010 at 20:40
  • 1
    @Sthepen: I know that. I was expecting to get a TargetInvocationException or something like it.
    – jpbochi
    Jun 24, 2010 at 20:47
  • Exceptions are not propogated across threads automatically. I posted a sample that uses .NET 4.0 Tasks to propogate the exception. Jun 24, 2010 at 20:49
  • 2
    In that case, I'd actually recommend moving to a Task-based interface or something else based on SynchronizationContext such as the event-based asynchronous pattern. The reason is that SynchronizationContext-based approaches will work with WPF or Windows Forms transparently, and (with a bit more work) ASP.NET, console apps, windows services, etc. So if your goal is a reusable component, stick with SynchronizationContext. Jun 25, 2010 at 0:32

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