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As a part of creating my SimpleInjector container, I've followed recommended practices and called container.Verify() to check that my type registrations make sense.

This works well and has caught a number of errors that I've made - but it also creates debris that lingers around afterwards that I'd like to clean up.

One of my classes is a singleton event hub that's used to route messages between other transient components; these other components accept the event hub in their constructor, create a subscription to receive the messages they're interested in receiving, then Dispose() the subscription when they're finished.

The call to container.Verify() creates one of each kind of object, resulting in a number of these otherwise transient instances lingering around because the event hub still knows about their subscriptions.

At the moment I've worked around the problem by manually terminating all subscriptions immediately after the Verify() call, before the application starts up. However, this feels like a problem that must be already solved, though I haven't been able to find an answer in the docs, here on Stack Overflow, or by searching.

Perhaps using a scoped lifestyle is the solution? They didn't seem relevant because I'm building a WPF application, but if I knew the answer I wouldn't be asking here!

Update, 12 Jan - As requested by @steven, here's some code to demonstrate my issue.

I tried (and failed) to demonstrate the issue with something that was both compilable and short enough to share inline; instead I'm showing some code excerpts from the actual project. If you want to see the whole thing, the WordTutor project is on GitHub.

At the core of my application I have a singleton IReduxStore<T> which both encapsulates application state and acts as a kind of event hub. Other classes subscribe to the store in order to be proactively notified when the application state changes.

Here is IReduxStore<T>, pared down to the essentials:

// IReduxStore.cs
public interface IReduxStore<T>
{
    T State { get; }
    void Dispatch(IReduxMessage message);

    IDisposable SubscribeToReference<V>(
        Func<T, V?> referenceReader,
        Action<V?> whenChanged)
        where V : class, IEquatable<V>?;
}

Subscriptions implement IDisposable as a convenient and idiomatic way for deterministic cleanup when the subscription is no longer required.

The store is registered as a singleton, bound to a specific type of state:

// Program.cs
container.RegisterSingleton<
    IReduxStore<WordTutorApplication>,
    ReduxStore<WordTutorApplication>>();

The implementation of IReduxStore<T> stores all the subscriptions:

private readonly HashSet<ReduxSubscription<T>> _subscriptions
    = new HashSet<ReduxSubscription<T>>();

They're removed from the HashSet when disposed.

Many of my ViewModels accept IReduxStore<WordTutorApplication> to their constructors so they can subscribe to updates:

// VocabularyBrowserViewModel.cs
public sealed class VocabularyBrowserViewModel : ViewModelBase
{
    private readonly IReduxStore<WordTutorApplication> _store;
    private readonly IDisposable _screenSubscription;
    private readonly IDisposable _vocabularySubscription;

    public VocabularyBrowserViewModel(IReduxStore<WordTutorApplication> store)
    {
        _store = store ?? throw new ArgumentNullException(nameof(store));

        // ... elided ...

        _screenSubscription = _store.SubscribeToReference(
            app => app.CurrentScreen as VocabularyBrowserScreen,
            RefreshFromScreen);

        _vocabularySubscription = _store.SubscribeToReference(
            app => app.VocabularySet,
            RefreshFromVocabularySet);

        // ... elided ...
    }

   // ... elided ...
}

ViewModels are registered as transient because each window needs a unique instance:

// Program.cs
var desktopAssembly = typeof(WordTutorWindow).Assembly;
container.Collection.Register<ViewModelBase>(desktopAssembly);

The ViewModels release their subscriptions proactively when they are no longer needed:

// VocabularyBrowserViewModel.cs
private void RefreshFromScreen(VocabularyBrowserScreen? screen)
{
    if (screen == null)
    {
        _screenSubscription.Dispose();
        _vocabularySubscription.Dispose();
        return;
    }

    Selection = screen.Selection;
    Modified = screen.Modified;
}

When Verify() is called on the SimpleInjector container, an exemplar of every object is created, including the singleton IReduxStore<T>. The transient viewmodels (such as VocabularyBrowserViewModel shown above) are also created, but those instances remain live because their subscriptions are still held by the store.

I tried implementing IDisposable on the ViewModels, but because their lifestyle is transient, the only effect was to generate an additional warning when Verify() was called.

Update II, 12 Jan:

The workaround I have at the moment is to manually clear all the subscriptions as a part of application startup, after the container has been successfully initialized:

var store = (ReduxStore<WordTutorApplication>)
    container.GetInstance<IReduxStore<WordTutorApplication>>();
store.ClearSubscriptions();

This feels like a nasty hack. First it needs to explicitly cast to the implementation type, then it calls a method that otherwise wouldn't need to exist at all.

  • Some code that shows what you're doing inside your transient components to hook onto the event hub, and some code that shows how event hub holds on to the subscriptions would be beneficial to your question. – Steven Jan 9 at 7:32
  • @Bevan Your workaround seems fine, given it's executed in composition root. If you don't want to extend the API for this one case, you could use a unit test to kill two birds with one stone. Quoting the docs: "consider wrapping the Verify call in an #IF DEBUG compiler directive, or run Verify only as part of an unit/integration test. This keeps startup time short, and moves the performance penalty to every first resolve of an individual registration.". – Funk 12 hours ago

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