I have ReactiveUI viewmodels, constructed in a WPF app's start-up thread, where properties are ObservableAsPropertyHelper-backed views onto observables being fed by events from a separate Task thread. What is the right way to set up the OAPHs' schedulers to avoid threading issues while maintaining testability, not pushing too much into the UI thread, and not overly complicating the viewmodels?

To give more detail: I've recently picked up ReactiveUI as a framework for building MVVM glue code in a .NET Core 3 WPF side project I've been working on. It's a client for a client/server audio playback system, and most of the UI's updates come from IObservables that are ultimately attached to events (using FromEventPattern) that are triggered in a reader Task spinning over a TCP connection. (Whether or not this is a good idea, I'll probably leave for another question.)

My ViewModels tend to do this:

  • Accept one of the above IObservables in the constructor;
  • Bind a few LINQ transformations of the observable to properties using an ObservableAsPropertyHelper, through .ToProperty;
  • Bind a few more projections of those properties using a combination of .WhenAnyValue and .ToProperty.

As I haven't bought into the ReactiveUI binding and activation system, the ViewModels get constructed (I believe) on the same thread as App.xaml's code-behind, and all of their OAPHs get initialised in the constructor. All accesses to the ViewModel properties are happening through one-way XAML bindings.

Just to clarify, the view models are in one project with ReactiveUI but not ReactiveUI.WPF etc. installed; the WPF app itself does have ReactiveUI.WPF installed.

I've tried a few different approaches to feeding schedulers to the ToProperty calls and their providing schedulers:

  1. Not overriding any schedulers at all. At first, I thought this would be correct, as the documentation on ObservableAsPropertyHelper doesn't mention any overrides. This fails with 'can't modify object because this isn't the thread that created it' type exceptions, presumably because the property change notifications are happening on the reader Task thread.
  2. Overriding the scheduler of OAPHs attaching to the reader Task's observable with scheduler: RxApp.MainThreadScheduler in its ToProperty, after reading in various places that OAPHs use the current thread's scheduler by default.. This fixed the crashing exceptions, but, when I tried to unit-test the view model, I started getting odd scheduling Heisenbugs where changes fed through the server-update observable weren't propagating through to WhenAnyValue derived properties.
  3. Overriding the scheduler of the other OAPHs too, which didn't help (but maybe perturbed the failures a little). At this stage, I was confused, because the ReactiveUI documentation suggests that RxApp.MainThreadScheduler should be immediate when it detects unit tests, and so everything should be on the same thread and (hopefully) operating sequentially.
  4. Pushing in the scheduler in the constructor of the viewmodel (as per this constructor from someone else's project), and specifically setting it to Immediate in the unit test (and RxApp.MainThreadScheduler elsewhere).

Here is a somewhat simplified version of the code I've been working with, after step 4:

// Represents the 'play/pause/stop' controls on an audio playback UI.
// The UI connects through an IObservable to a message feed coming from
// a playback server.
public class PlayerTransportViewModel : ReactiveObject
    // Holds the current 'state' of the audio being played (play/pause/stop). 
    private readonly ObservableAsPropertyHelper<PlaybackState> _state;
    public PlaybackState State => _state.Value;

    // For the view's convenience, we break out 'state' into three separate Booleans:
    private readonly ObservableAsPropertyHelper<bool> _isPlaying;
    private readonly ObservableAsPropertyHelper<bool> _isPaused;
    private readonly ObservableAsPropertyHelper<bool> _isStopped;
    public bool IsPlaying => _isPlaying.Value;
    // ... and so on for _isPaused and _isStopped.

    // The constructor then takes an observable over some raw feed of server messages.
    public PlayerTransportViewModel(IObservable<PlaybackEvent> events, IScheduler? scheduler)
        // This glue *shouldn't* introduce asynchronicity into the observable.
        var states = SomeLinqGlueSelectingPlaybackStatesFrom(events);
        // This binding directly takes in an observable fed by a message decoding thread.
        // Is the explicit scheduler needed?
        _state = states.ToProperty(this, x => x.State, PlaybackState.Stopped, scheduler: scheduler);

        // These bindings are derived from State by WhenAny.
        // Is the explicit scheduler needed?
        _isPlaying = this.WhenAnyValue(x => x.State, x => x == PlaybackState.Playing).ToProperty(this, x => x.IsPlaying, scheduler: scheduler);
        // ... and so on for _isPaused and _isStopped.

This code seems to work fine now, but I feel like I've cargo culted without fully understanding what the correct minimal amount of scheduler interference should be, or even whether I'm just patching over problems elsewhere in the program. (I'm having some strange Heisenbug instances with other parts of the same project, but I haven't pinned them down to askable questions yet, so this is me starting with the fundamental gap in my knowledge).

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