I have the following setup

IObservable<Data> source = ...;


Normally the events come seperated by a reasonable time frame. Imagine a user updating a text box in a form. Our VeryExpensiveOperation might take 5 seconds to complete and whilst it does an hour glass is displayed on the screen.

However if during the 5 seconds the user updates the textbox again I would want to send a cancelation to the current VeryExpensiveOperation before the new one starts.

I would imagine a scenario like

    .SelectWithCancel((data, cancelToken)=>VeryExpensiveOperation(data, token))

So every time the lambda is called is is called with a cancelToken which can be used to manage canceling a Task. However now we are mixing Task, CancelationToken and RX. Not quite sure how to fit it all together. Any suggestions.

Bonus Points for figuring out how to test the operator using XUnit :)


    public static IObservable<U> SelectWithCancelation<T, U>( this IObservable<T> This, Func<CancellationToken, T, Task<U>> fn )
        CancellationTokenSource tokenSource = new CancellationTokenSource();

        return This
                tokenSource=new CancellationTokenSource();
                return new {tokenSource.Token, v};
            .SelectMany(o=>Observable.FromAsync(()=>fn(o.Token, o.v)));

Not tested yet. I'm hoping that a task that does not complete generates an IObservable that completes without firing any OnNext events.


You have to model VeryExpensiveOperation as an cancellable asynchronous thing. Either a Task or an IObservable. I'll assume it is a task with a CancellationToken:

Task<TResult> VeryExpensiveOperationAsync<TSource, TResult>(TSource item, CancellationToken token);

Then you do it like so:

    .Select(item => Observable.DeferAsync(async token =>
        // do not yield the observable until after the operation is completed
        // (ie do not just do VeryExpensiveOperation(...).ToObservable())
        // because DeferAsync() will dispose of the token source as soon
        // as you provide the observable (instead of when the observable completes)
        var result = await VeryExpensiveOperationAsync(item, token);
        return Observable.Return(result);

The Select just creates a deferred observable that, when subscribed, will create a token and kick off the operation. If the observable is unsubscribed before the operation finishes, the token will be cancelled.

The Switch subscribes to each new observable that comes out of Select, unsubscribing from the previous observable it was subscribed to.

This has the effect you want.

P.S. this is easily testable. Just provide a mock source and a mock VeryExpensiveOperation that uses a TaskCompletetionSource provided by the unit test so the unit test can control exactly when new source items are produced and when tasks are completed. Something like this:

void SomeTest()
    // create a test source where the values are how long
    // the mock operation should wait to do its work.
    var source = _testScheduler.CreateColdObservable<int>(...);

    // records the actions (whether they completed or canceled)
    List<bool> mockActionsCompleted = new List<bool>();
    var resultStream = source.SelectWithCancellation((token, delay) =>
        var tcs = new TaskCompletionSource<string>();
        var tokenRegistration = new SingleAssignmentDisposable();

        // schedule an action to complete the task
        var d = _testScheduler.ScheduleRelative(delay, () =>
           tcs.SetResult("done " + delay);
           // stop listening to the token

        // listen to the token and cancel the task if the token signals
        tokenRegistration.Disposable = token.Register(() =>
           // cancel the scheduled task

        return tcs.Task;

    // subscribe to resultStream
    // start the scheduler
    // assert the mockActionsCompleted has the correct sequence
    // assert the results observed were what you expected.

You might run into trouble using testScheduler.Start() due to the new actions scheduled dynamically. a while loop with testScheduler.AdvanceBy(1) might work better.

  • I don't quite understand where the token is cancelled. Is it done automagically when Switch unsubscribes from the previous inner observable? – bradgonesurfing Jul 24 '13 at 15:18
  • 2
    DeferAsync creates the token when the observable is subscribed. It then cancels the token if the observable is unsubscribed before the Task produces the real observable (letting you know you do not need to keep working to produce the real observable). Switch keeps subscribing to the new observable that arrives and unsubscribing from the previous, which triggers the cancellation of the previous. – Brandon Jul 24 '13 at 15:21
  • I am having trouble writing a mock VeryExpensiveOperation. Problem is I have to use Task.Run to create it which put's it on another thread out of context of the TestScheduler. Then I don't get correct results. – bradgonesurfing Jul 25 '13 at 7:01
  • 1
    I added an example of what I was thinking. – Brandon Jul 25 '13 at 13:40

Why not just use a Throttle?


Throttle stops the flow of events until no more events are produced for a specified period of time. For example, if you throttle a TextChanged event of a textbox to .5 seconds, no events will be passed until the user has stopped typing for .5 seconds. This is useful in search boxes where you do not want to start a new search after every keystroke, but want to wait until the user pauses.

SearchTextChangedObservable = Observable.FromEventPattern<TextChangedEventArgs>(this.textBox, "TextChanged");
_currentSubscription = SearchTextChangedObservable.Throttle(TimeSpan.FromSeconds(.5)).ObserveOnDispatcher
  • You got it round the wrong way. The events don't come too quick. No need to throttle. The processing is very expensive and should be cancelled if new data is available. – bradgonesurfing Jul 25 '13 at 3:50
  • Actually, I meant throttle before starting the expensive processing, so that we only run it when we know it wil have time to complete. However I can now see that this would just be a primitive estimation of how long it needs to complete, compared to Brandon's implementation. – AlSki Jul 25 '13 at 11:29

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