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In relation to my previous question, I need to check whether a component that will be instantiated by Castle Windsor, can be garbage collected after my code has finished using it. I have tried the suggestion in the answers from the previous question, but it does not seem to work as expected, at least for my code. So I would like to write a unit test that tests whether a specific object instance can be garbage collected after some of my code has run.

Is that possible to do in a reliable way ?


I currently have the following test based on Paul Stovell's answer, which succeeds:

    public void ReleaseTest()
        WindsorContainer container = new WindsorContainer();
        container.Kernel.ReleasePolicy = new NoTrackingReleasePolicy();
        Assert.AreEqual(0, ReleaseTester.refCount);
        var weakRef = new WeakReference(container.Resolve<ReleaseTester>());
        Assert.AreEqual(1, ReleaseTester.refCount);
        Assert.AreEqual(0, ReleaseTester.refCount, "Component not released");

    private class ReleaseTester
        public static int refCount = 0;

        public ReleaseTester()


Am I right assuming that, based on the test above, I can conclude that Windsor will not leak memory when using the NoTrackingReleasePolicy ?

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We had a similar problem with Windsor in a production app and fixed it by using a similar policy. Windsor expects you to call "Release(component)" (which, if the component implements IDisposable, it cleans up for you), but there are some situations where that doesn't make sense. –  Paul Stovell Feb 23 '09 at 20:34
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4 Answers

up vote 51 down vote accepted

This is what I normally do:

public void MyTest() 
    WeakReference reference;
    new Action(() => 
        var service = new Service();
        // Do things with service that might cause a memory leak...

        reference = new WeakReference(service, true);

    // Service should have gone out of scope about now, 
    // so the garbage collector can clean it up


NB: There are very, very few times where you should call GC.Collect() in a production application. But testing for leaks is one example of where it's appropriate.

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Thanks. I understand that I generally should not call GC.Collect, I needed this to test parts of my code which I suspected was leaking memory. –  driis Feb 23 '09 at 19:58
Excellent bit of code sir +1 –  annakata Feb 23 '09 at 20:04
+1. nice one paul! –  Mitch Wheat Mar 12 '09 at 4:42
nice! is it possible to use a scope block instead of the anonymous delegate? –  vidstige Nov 23 '11 at 12:22
@vidstige I don't think that works - a scope block isn't the same in C# as in C++. The end of a scope block isn't enough to allow the memory to be GC'd - but you'd have to try it to be sure. –  Paul Stovell Nov 23 '11 at 14:35
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Perhaps you could hold a WeakReference to it and then check to see that it no longer alive (i.e., !IsAlive) after the tests have completed.

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That would only test if it HAS been garbage collected. –  Ray Feb 23 '09 at 19:31
@Ray: true, but the process would be to force a GC, wait for finalizers and then check IsAlive. –  denis phillips Feb 24 '09 at 0:38
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Based on Paul's answer, I created a more reusable Assert method. Since string's are copied by value I added an explicit check for them. They can be collected by the garbage collector.

public static void IsGarbageCollected<TObject>( ref TObject @object )
    where TObject : class
    Action<TObject> emptyAction = o => { };
    IsGarbageCollected( ref @object, emptyAction );

public static void IsGarbageCollected<TObject>(
    ref TObject @object,
    Action<TObject> useObject )
    where TObject : class
    if ( typeof( TObject ) == typeof( string ) )
        // Strings are copied by value, and don't leak anyhow.

    int generation = GC.GetGeneration( @object );
    useObject( @object );
    WeakReference reference = new WeakReference( @object, true );
    @object = null;

    // The object should have gone out of scope about now, 
    // so the garbage collector can clean it up.
    GC.Collect( generation, GCCollectionMode.Forced );

    Assert.IsNull( reference.Target );

The following unit tests show the function is working in some common scenarios.

public void IsGarbageCollectedTest()
    // Empty object without any references which are held.
    object empty = new object();
    AssertHelper.IsGarbageCollected( ref empty );

    // Strings are copied by value, but are collectable!
    string @string = "";
    AssertHelper.IsGarbageCollected( ref @string );

    // Keep reference around.
    object hookedEvent = new object();
    #pragma warning disable 168
    object referenceCopy = hookedEvent;
    #pragma warning restore 168
        () => AssertHelper.IsGarbageCollected( ref hookedEvent ) );

    // Still attached as event.
    Publisher publisher = new Publisher();
    Subscriber subscriber = new Subscriber( publisher );
        () => AssertHelper.IsGarbageCollected( ref subscriber ) );

Complete source code (including some of the helper methods used) can be found in my library.

WARNING: Due to differences when using the Release configuration (I assume compiler optimizations), some of these unit tests will fail. Be sure to run them in Debug.

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Does that work? I would have expected that @object is still referenced via the call stack of the calling method, so it shouldn't be collected. –  Paul Stovell Mar 22 '12 at 17:48
@PaulStovell I'm writing unit tests for it as we speak, but the code provided with object @object = new object() works. It doesn't work for I believe value types (and string). I'm guessing since the value is copied. I'll update if I can improve it. P.s. that didn't work on your version either. –  Steven Jeuris Mar 22 '12 at 17:54
@PaulStovell Works like a charm. I added an explicit test for string and added some common unit tests. Am I missing some cases? –  Steven Jeuris Mar 22 '12 at 18:30
Hi Steven, I see - I miss-read your code the first time. I didn't spot where you assign @object = null the first time I read it, but now it makes sense. Nice one! –  Paul Stovell Mar 27 '12 at 18:56
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This is not an answer, however you may want to try running your code in both Debug and Release modes (for comparison sake).

In my experience the Debug version of JIT'ed code is made easier to debug and thus may see references stay alive longer (I belive function scope) However, code JITed in Release mode may have the objects ready for collection quickly once it is out of scope and if a Collection happens.

Also not answering your question: :-)
I would be interested in seeing you debug this code using Visual Studio in Interop mode (Managed and Native) and then breaking after displaying a message box or something. Then you can open the Debug->Windows-Immediate and then type

load sos
(Change to thread 0)
!do <object>
!gcroot <object> (and look for any roots)

(or you can use Windbg as other's have posted in previous posts)

Thanks, Aaron

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