According to the source code, it uses the PhantomReference class. According to the documentation:
Phantom reference objects, which are enqueued after the collector determines that their referents may otherwise be reclaimed. Phantom references are most often used for scheduling pre-mortem cleanup actions in a more flexible way than is possible with the Java finalization mechanism.
If the garbage collector determines at a certain point in time that the referent of a phantom reference is phantom reachable, then at that time or at some later time it will enqueue the reference.
In order to ensure that a reclaimable object remains so, the referent of a phantom reference may not be retrieved: The get method of a phantom reference always returns null.
Unlike soft and weak references, phantom references are not automatically cleared by the garbage collector as they are enqueued. An object that is reachable via phantom references will remain so until all such references are cleared or themselves become unreachable.
PhantomReference constructor accepts two arguments:
referent - the object the new phantom reference will refer to
q - the queue with which the reference is to be registered, or null if registration is not required
q argument is an instance of the
ReferenceQueue class. The
PhantomReference will be added to this
ReferenceQueue when it's
referent becomes phantom reachable. When this happens, you can retrieve the
PhantomReference by using the
remove() methods of the
T objectToWatch = ...;
ReferenceQueue<T> referenceQueue = new ReferenceQueue<T>();
new PhantomReference<T>(objectToWatch, referenceQueue);
// Later on, probably in another thread...
Reference<? extends T> nextReference = referenceQueue.remove();
// Tidy up!
PhantomReference has sibling classes named
WeakReference that may also be of use. The relationship between these are documented in the java.lang.ref package documentation.