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I had trouble finding a simple, flexible pattern to allow me to write code in my ViewModels that in runtime would run asynchronously but during test-time run synchronously. This is what I came up with - does anyone have any suggestions? Is this a good path to go down? Are there better existing patterns out there?

LongRunningCall definition:

public class LongRunningCall
    public Action ExecuteAction { get; set; }
    public Action PostExecuteAction { get; set; }

    public LongRunningCall(Action executeAction = null, Action postExecuteAction = null)
        ExecuteAction = executeAction;
        PostExecuteAction = postExecuteAction;

    public void Execute(Action<Exception> onError)
        catch (Exception ex)
            if (onError == null)

    public void ExecuteAsync(TaskScheduler scheduler, Action<Exception> onError)
        var executeTask = Task.Factory.StartNew(ExecuteAction);
        var postExecuteTask = executeTask.ContinueWith((t) =>
                if (t.Exception != null)
                    throw t.Exception;
            }, scheduler);
        if (onError != null)
            postExecuteTask.ContinueWith((t) => { onError(t.Exception); });


var continueCall = new LongRunningCall(continueCommand_Execute, continueCommand_PostExecute);
if (svc.IsAsyncRequired)
   continueCall.ExecuteAsync(TaskScheduler.FromCurrentSynchronizationContext(), continueCommand_Error);

The only real pre-requisite is that you need to know at runtime if you're supposed to use async/sync. When I run my unit tests I send in a mock that tells my code to run synchronously, when the application actually runs IsAsyncRequired defaults to true;


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up vote 2 down vote accepted

I would prefer to encapsulate the decision on whether to execute code synchronously or asynchronously in a separate class that can be abstracted behind an interface such as this:

public interface ITaskExecuter
    void ScheduleTask(
        Action executeAction,
        Action postExecuteAction,
        Action<Exception> onException);

An instance of a class implementing ITaskExecuter can be injected where required. You can inject different instances for testing versus production scenarios.

Usage becomes:


with no separate code paths in the calling class for test versus production.

You have the option of writing tests that:

  • just check the correct actions are passed to the task executer, or
  • configuring the task executer to execute the action synchronously and test for the desired result, or
  • do both.
share|improve this answer
How would I modify the code to optionally take parameters? Do I have to duplicate the ITaskExecutor & its implementations with ITaskExecutor<T> and ScheduleTask(Func<T> executeAction, Action<T> postExecuteAction, etc...? Is there a way to make my TaskExecutor generic enough to handle any set of parameters like Task<> does without having to make that many definitions? – Mesan Nov 8 '11 at 17:01
I had imagined you would supply the execute action and post-execute actions as anonymous delegates that already had any parameters included, and they'd both be of type Action. E.g. taskExecuter.ScheduleTask(() => MyTask(1, 2.3f, "whatever"), () => MyPostTask(true, false, "etc."), e => MyExceptionHandler(e)); – Ergwun Nov 14 '11 at 12:40

I did something very simmilar at my current job, but can't get to the code to copy/paste it right now...

Basically what I did was to create an IWorker interface, with a DoWork(Func<>) method.

Then I created 2 derived classes, one 'AsyncWorker' and one 'SyncWorker'. The SyncWorker just executes the passed in Func (synchronously), and the 'AsyncWorker' is a wrapper around a BackgroundWorker that sends the passed in Func off to the BackgroundWorker to be processed asynchronously.

Then, I changed my ViewModel to have an IWorker passed in. This moves the dependency resolution out of the ViewModel, so you can use a Dep. Inj. utility (I use Unity and Constructor injection).

Since I use Unity, in my unit test configuration, I then map IWorker to SyncWorker, and in production I map IWorker to AsyncWorker.

Hope that makes sense... I know it'd be easier if I had the code on hand...

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This is the same solution I suggested in my answer. – Ergwun Nov 8 '11 at 3:20

Consider changing ExecuteAsync so that it will return a Task:

public Task ExecuteAsync(TaskScheduler scheduler, Action<Exception> onError)

So in production code, I would just call it as is:


But in unit tests, I would wait for the task to actually finish:

var task = longRunningCall.ExecuteAsync(
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