Problem with Finalization
To perform some postmortem cleanup on objects that garbage collector consider as unreachable, one can use finalization. This feature can be utilized to reclaim native resources associated with an object. However, finalizers have many problems associated.
Firstly, we can’t foresee the call of finalize(). Since the Garbage Collection is unpredictable, the calling of finalize() cannot be predicted. There is no guarantee that the object will be garbage collected. The object might never become eligible for GC because it could be reachable through the entire lifetime of the JVM. It is also possible that no garbage collection actually runs from the time the object became eligible and before JVM stops.
Secondly, Finalization can slowdown an application. Managing objects with a finalize() method takes more resources from the JVM than normal objects.
As per doc,
You should also use finalization only when it is absolutely necessary. Finalization is a nondeterministic -- and sometimes unpredictable -- process. The less you rely on it, the smaller the impact it will have on the JVM and your application
In Effective Java, 2nd ed., Joshua Bloch says,
there is a severe performance penalty for using finalizers... So what should you do instead of writing a finalizer for a class whose objects encapsulate resources that require termination, such as files or threads? Just provide an explicit termination method, and require clients of the class to invoke this method on each instance when it is no longer needed.
In short, Finalize() isn't used often, and also there is no much reason to use it. If we have a class with methods like close() or cleanup() and that should be called once user done with the object then placing these methods call in finalize() can be used as a safety measure, but not necessary.
phantom reachable, phantomly reachable
An object is phantom reachable if it is neither strongly nor softly nor weakly reachable and has been finalized and there is a path from the roots to it that contains at least one phantom reference.
The PhantomReference constructor accepts two arguments:
referent - the object the new phantom reference will refer to
q - the reference is registered with the given queue.
The argument q represents the instance of the ReferenceQueue class. If the garbage collector determines that the referent of a phantom reference is phantom reachable, then the PhantomReference will be added to this ReferenceQueue. You can then retrieve the PhantomReference by using the remove() methods of the ReferenceQueue class.
Consider the following example,
ReferenceQueue q = new ReferenceQueue();
PhantomReference pr = new PhantomReference(object, referenceQueue);
// Later on another point
Reference r = q.remove();
// Now, clear up any thing you want
PhantomReference, when to use?
Phantom Reference can be used in situations, where sometime using finalize() is not sensible thing to do.This reference type differs from the other types defined in java.lang.ref Package because it isn't meant to be used to access the object, but as a signal that the object has already been finalized, and the garbage collector is ready to reclaim its memory.
As per API doc,
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.
People usually attempt to use finalize() method to perform postmortem cleanup on objects which usually not advisable. As mentioned earlier, Finalizers have an impact on the performance of the garbage collector since Objects with finalizers are slow to garbage collect.
Phantom references are safe way to know an object has been removed from memory. For instance, consider an application that deals with large images. Suppose that we want to load a big image in to memory when large image is already in memory which is ready for garbage collected. In such case, we want to wait until the old image is collected before loading a new one. Here, the phantom reference is flexible and safely option to choose. The reference of the old image will be enqueued in the ReferenceQueue once the old image object is finalized. After receiving that reference, we can load the new image in to memory.
Similarly we can use Phantom References to implement a Connection Pool. We can easily gain control over the number of open connections, and can block until one becomes available.
Reference Objects and Garbage Collection
Soft Reference can be garbage collected after there are no strong references to the referent. However, it typically retained until memory is low. All softly reachable objects will be reclaimed before an OutOfMemoryException is thrown. Therefore, it can be used to implement caches of objects that can be recreated if needed.
Weak Reference can be garbage collected when there are no strong or soft references to the referent. However, unlike Soft Reference, they are garbage collected on a gc even when memory is abundant. They often can be used for “canonical mappings” where each object has a unique identifier (one-to-one), and in collections of “listeners”
On the other hand, Phantom Reference, can be garbage collected once there are no strong, soft or weak references to the referent. When object is phantomly reachable, it means the object is already finalized but not yet reclaimed, so the GC enqueues it in a ReferenceQueue for post-finalization processing.
As per Java Doc,
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.
A PhantomReference is not automatically cleared when it is enqueued, so when we remove a PhantomReference from a ReferenceQueue, we must call its clear() method or allow the PhantomReference object itself to be garbage-collected.
In short, we should avoid finalize() as much as possible. There is no guarantee if the finalize() method will be called promptly following garbage collection, or even it will be called. If the finalize method runs for a long time, it can delay execution of finalize methods of other objects. Instead of relying on finalize(), we can use reference types define in java.lang.ref package.
Beside java.lang.ref package, Google collection library also provide some alternatives. For example, FinalizablePhantomReference extends java.lang.ref.PhantomReference, deals with processing the ReferenceQueue and call back a convenient method finalizeReferent(). So if we want to do some cleanup operation when an object is claimed by the garbage collector (GC) then we just need to override the finalizeReferent() method.
The java.lang.ref Package (Java in a Nutshell)
Understanding Weak References