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I have the following construct: A base-class which does some loading tasks asynchronously and a inherited class which only converts the result of the base-class into a special data-type (it's just a generic version with some extensions, but those are not of importance).

I initially call the inherited class' Process-method:

    public TOut Process(object parameters)
    {
        return (TOut) StartProcessor(parameters).Result;
    }

This method calls the following method of the base:

    protected async Task<object> StartProcessor(object parameters)
    {
        if (State == PipelineState.Running) return null;
        if (!ValidatePipeline())
        {
            Logging.Error(
                "Pipeline can't start processor: There are some broken segment chain-links. Check your segment settings.");
            return null;
        }

        State = PipelineState.Running;
        _stopwatch.Start();

        object result = await Task.Run(() => RunPipeline(parameters));

        _stopwatch.Stop();

        if (result is PipelineState)
            State = (PipelineState) result;
        State = result != null ? PipelineState.Finished : PipelineState.Failed;

        RecentProcessTime = _stopwatch.Elapsed;
        _stopwatch.Reset();
        Logging.Debug("Finished process for pipeline {0} in: {1} ms.", Identifier,
            RecentProcessTime.TotalMilliseconds);

        return result;
    }

    private object RunPipeline(object parameter)
    {
        object recentResult = null;
        for (int i = 0; i < SegmentCount; i++)
        {
            if (_cancelProcess) // Cancel process
                return PipelineState.Cancelled;

            PipelineSegmentBase seg = Segments[i];
            if (i == 0) // If first, do initial process
            {
                recentResult = seg.Process(parameter, ProcessingDirection);
                continue;
            }
            if (i > 0 && recentResult == null) // If not first and recent result was null, process failed
                return PipelineState.Failed;

            seg.Process(recentResult, ProcessingDirection); // Process
        }

        return recentResult ?? PipelineState.Failed;
    }

Now, of course, the inherited class' Process-method deadlocks because of the Result-property. But how the heck can I avoid this? I saw a lot of articles which were great for void-methods. But I got something I have to return to the calling class. Must I return a Task in the Process-method? What can I do so that this runs asynchronously whilst it still returns the object at the end?

I really don't understand that... With void-methods it's simple, but as I need to get the Result of this task, it deadlocks. I don't get how this should ever work :-/

EDIT: Here it happens obviously...

    public override object Process(object input, PipelineDirection direction)
    {
        if (!IsValidInput(input)) return null;
        Stream str = (Stream) input;
        // DEADLOCK
        return Core.IDE.GetGUICore().GetUIDispatcher().Invoke(() =>
        {
            Image i = new Image();
            i.BeginInit();
            i.Source = BitmapFrame.Create(str);
            i.EndInit();
            return i;
        });
    }

Thanks

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1 Answer 1

Must I return a Task in the Process-method?

That's the best solution, yes:

public Task<TOut> ProcessAsync(object parameters)
{
    return StartProcessorAsync(parameters);
}

What can I do so that this runs asynchronously whilst it still returns the object at the end?

Those two statements don't make sense together. Think about it. You want it to run asynchronously and yet synchronously return the result.

The best solution is to allow the code to be asynchronous. If StartProcessorAsync is asynchronous, then everything that calls it should be asynchronous, too. This is the natural way to write asynchronous code.

There are various hacks to try to get synchronous over asynchronous working, but none of them work in all scenarios - because, in some way, every one of those hacks must try to force the asynchronous work to complete synchronously. That just doesn't work cleanly; the best solution is to allow asynchronous work to be asynchronous.

share|improve this answer
    
Ok, makes sense. But when I now want to load something huge, maybe process the data in a complex way. Let us say this process takes about 20 seconds to finish. I don't want to have my UI-Thread frozen during this time. What is the best practice to let the program do this process, while I still have the processed data at the end? Somehow this must work, otherwise it would never make sense using the TPL for tasks which actually return something. Or err I? –  SharpShade Apr 29 at 18:57
2  
If your UI thread uses await, then it won't be frozen. await allows that method to asynchronously wait for the result. You can use Task.Run to execute CPU-bound code and await the result, or you can use TPL Dataflow if your needs are more complex. –  Stephen Cleary Apr 29 at 19:15
    
Ok thank's for that, that's not really new to me.. But for using await you need to declare a method as async. If I declare the calling method as async it has to return a task. Then I have to call "Result" again and don't I then get a deadlock again? Isn't it always the same problem? –  SharpShade Apr 29 at 19:30
2  
It has to be "async all the way". In a UI app, this can mean you end up at an async event handler. The reason for this is because of the way async/await work: they do not use DoEvents or anything evil like that; instead, they return all the way out and then resume later. –  Stephen Cleary Apr 29 at 19:36
2  
It deadlocks because Invoke is waiting for the UI thread, and the UI thread is blocked waiting for the task to complete. It's similar to but not exactly the same as this deadlock situation I describe on my blog. You could implement asynchronous code using events, but async and await are much cleaner and easier to use. –  Stephen Cleary Apr 29 at 19:53

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