Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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)
    {
        try
        {
            ExecuteAction();
            PostExecuteAction();
        }
        catch (Exception ex)
        {
            if (onError == null)
                throw;
            onError(ex);
        }
    }

    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;
                PostExecuteAction();
            }, scheduler);
        if (onError != null)
            postExecuteTask.ContinueWith((t) => { onError(t.Exception); });
    }
}

Usage:

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

Feedback?

share|improve this question

3 Answers 3

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:

taskExecuter.ScheduleTask(
    continueCommand_Execute,
    continueCommand_PostExecute,
    continueCommand_Error);

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...

share|improve this answer
    
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:

longRunningCall.ExecuteAsync(
    TaskScheduler.FromCurrentSynchronizationContext(),
    continueCommand_Error);

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

var task = longRunningCall.ExecuteAsync(
    TaskScheduler.FromCurrentSynchronizationContext(),
    continueCommand_Error);
task.Wait();
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.