Here's an academic question about object finalization and collection in C#/.NET. Background reading is section 3.9 of the C# language spec, Automatic Memory Management.

When there are no explicit references to an object, it may become garbage collected. It becomes "eligible for destruction". At some point in the future (e.g. if you force garbage collection), the object's destructor will be run.

In the destructor, if you save a reference to the object, the object will be finalized, but will not be eligible for collection. This can lead to an object being in a state where it has been finalized, but not collected. Sec 3.9 of the spec has an example of this.

At this point, the object is really still alive, since it has not yet been garbage collected. However, a WeakReference referring to the object reports an IsAlive value of false, indicating that the object has been collected.

The core question is this--what is the IsAlive property really reporting? We know that we can't trust a value of true for this property, because the value can become false shortly after you read it. But a value of false is trustworthy and is meant to indicate (according to documentation) that the object has been garbage collected. So what is the IsAlive property telling us in this case? Not strictly whether the object has been garbage collected, since we believe that the object is in a finalized-but-not-collected state.

Here's a sample to show the behavior.

    public class Dog 
        public static Dog KeepDogRef;

   public string Name { get; set; }

    public Dog(string name)
        Name = name;

        Console.WriteLine("Dog destructor for " + Name + " called");
        Dog.KeepDogRef = this;

    public void Bark()
        Console.WriteLine(Name + " : Woof");

And code for main program. If you run the code, you'll see that the original WeakReference reports IsAlive as false, even after we reconstitute the object.

    static void Main()
        Dog dog = new Dog("Bowser");

        WeakReference dogRef = new WeakReference(dog);

        // Unref Bowser, now eligible for destruction
        dog = null;

        // Bowser no longer alive
        Console.WriteLine(string.Format("Object still alive: {0}", dogRef.IsAlive));

        // Bowser alive again
        Dog newRef = Dog.KeepDogRef;

If you read all of the documentation for WeakReference, it's clear that there is more than one type of weak reference available. The default is to produce a short weak reference. But you can also create long weak references which specifically account for resurrection scenarios.

From the documentation for TrackResurrection:

Gets an indication whether the object referenced by the current WeakReference object is tracked after it is finalized.

If true, the weak reference is a long weak reference and true was specified for the trackResurrection parameter in the WeakReference constructor.

So I'd say you have to understand this part of weak references before interpreting the IsAlive property.

  • That appears to be the answer. For a short weak reference, the weak reference's Target goes null as soon as the finalizer is called. For a long weak reference, it only goes null when the object is actually collected. MSDN documentation is a little muddy on this. Documentation of short vs. long is clear, but the documentation of the IsAlive property is not entirely accurate, in that it indicates that IsAlive goes false when the object is collected. Technically, for short weak references, it goes false only when the object has been finalized, but before it's actually collected. – Sean Sexton Dec 17 '12 at 19:50
  • 3
    @SeanSexton: Slight correction: the weak reference is invalidated as soon as the system notices that the object would be eligible for collection but for the existence of the finalizer, and adds it to a list of objects whose finalizer methods should be run at first opportunity. The finalizer would usually be run pretty soon after that, but it might be arbitrarily delayed. Any short WeakReference that targets the object would be invalidated as soon as the object was found to be abandoned, however, regardless of when the finalizer actually runs. – supercat Feb 27 '13 at 23:00
  • BTW, a rather nasty quirk, which is especially annoying with long weak references, is that a weak reference which becomes eligible for finalization will be invalidated, even if references to both the WeakReference and its target still exist. Because of this, code which wants to use a long weak reference to ensure that an object is well and truly dead may need to create a static reference somewhere to the WeakReference itself, and have some other object periodically determine whether the WeakReference is still doing anything useful and kill the static reference once it isn't. – supercat Aug 10 '15 at 21:39

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