The title pretty much sums it.
From Understanding Weak References, by Ethan Nicholas:
And Peter Kessler added in a comment:
Weak references are collected eagerly. If GC finds that an object is weakly reachable (reachable only through weak references), it'll clear the weak references to that object immediately. As such, they're good for keeping a reference to an object for which your program also keeps (strongly referenced) "associated information" somewere, like cached reflection information about a class, or a wrapper for an object, etc. Anything that makes no sense to keep after the object it is associated with is GC-ed. When the weak reference gets cleared, it gets enqueued in a reference queue that your code polls somewhere, and it discards the associated objects as well. That is, you keep extra information about an object, but that information is not needed once the object it refers to goes away. Actually, in certain situations you can even subclass WeakReference and keep the associated extra information about the object in the fields of the WeakReference subclass. Another typical use of WeakReference is in conjunction with Maps for keeping canonical instances.
SoftReferences on the other hand are good for caching external, recreatable resources as the GC typically delays clearing them. It is guaranteed though that all SoftReferences will get cleared before OutOfMemoryError is thrown, so they theoretically can't cause an OOME[*].
Typical use case example is keeping a parsed form of a contents from a file. You'd implement a system where you'd load a file, parse it, and keep a SoftReference to the root object of the parsed representation. Next time you need the file, you'll try to retrieve it through the SoftReference. If you can retrieve it, you spared yourself another load/parse, and if the GC cleared it in the meantime, you reload it. That way, you utilize free memory for performance optimization, but don't risk an OOME.
Now for the [*]. Keeping a SoftReference can't cause an OOME in itself. If on the other hand you mistakenly use SoftReference for a task a WeakReference is meant to be used (namely, you keep information associated with an Object somehow strongly referenced, and discard it when the Reference object gets cleared), you can run into OOME as your code that polls the ReferenceQueue and discards the associated objects might happen to not run in a timely fashion.
So, the decision depends on usage - if you're caching information that is expensive to construct, but nonetheless reconstructible from other data, use soft references - if you're keeping a reference to a canonical instance of some data, or you want to have a reference to an object without "owning" it (thus preventing it from being GC'd), use a weak reference.
Let's look at the below example: We have an
Now, during the execution of the program we have made
Let me show the above example same with WeakHashMap
The garbage collector does not aggressively collect softly reachable objects the way it does with weakly reachable ones -- instead it only collects softly reachable objects if it really "needs" the memory. Soft references are a way of saying to the garbage collector, "As long as memory isn't too tight, I'd like to keep this object around. But if memory gets really tight, go ahead and collect it and I'll deal with that." The garbage collector is required to clear all soft references before it can throw
The only real difference between a soft reference and a weak reference is that the garbage collector
In order from strongest to weakest these references are: Strong, Soft, Weak, Phantom.
These are your regular object references: Server server = new Server();
The variable server holds a strong reference to a Server object. OK, before you stop reading there is a point to this: objects that are reachable through any chain of strong references are not eligible for garbage collection. Usually this is what you want. But not always.
Imagine for a minute that you’re coding an Enterprise Web App backed by a large Oracle database. When users navigate your web app it loads data into memory from Oracle. Sometimes the same data is regularly accessed so you decide to cache it in a Map. By storing strong references you’ve just introduced a memory leak. “Ha!”, you say, “then I’ll write a memory manager that throws out least frequently used objects when we begin to run out of memory”. But doesn’t the JVM already manage memory for you?
A weak reference will not pin an object into memory. An object that is identified as only weakly reachable will be collected at the next GC cycle. WeakReference weakData = new WeakReference(data);
To access data call weakData.get(). This call to get may return null if the weak reference was garbage collected: you must check the returned value to avoid NPEs.
Java contains collections that use weak references. For example, the WeakHashMap class stores keys (not values) as weak references. If the key is GC’d then the value will automatically be removed from the map too.
Since weak references are objects too we need a way to clean them up (they’re no longer useful when the object they were referencing has been GC’d). If you pass a ReferenceQueue into the constructor for a weak reference then the garbage collector will append that weak reference to the ReferenceQueue when it is no longer needed. You can periodically process this queue and deal with dead references.
A SoftReference is like a weak reference but it is less likely to be garbage collected. Soft references are cleared at the discretion of the garbage collector in response to memory demand. The virtual machine guarantees that all soft references to softly-reachable objects will have been cleared before it would ever throw an OutOfMemoryError.
In practice these are rarely used.
Key point: phantom references are the most tenuous of all reference types: calling get will always return null.
So how are they useful? When you construct a phantom reference you must always pass in a ReferenceQueue. This indicates that you can use a phantom reference to see when your object is GC’d. The phantom reference is enqueued after it has been physically removed from memory — as opposed to weak references which are enqueued before they’re finalized or GC’d.
Hey, so if weak references are enqueued when they’re considered finalizable but not yet GC’d we could create a new strong reference to the object in the finalizer block and prevent the object being GC’d. Yep, you can but you probably shouldn’t do this. To check for this case the GC cycle will happen at least twice for each object, unless that object is reachable only by a phantom reference. This is why you can run out of heap even when it your memory contains plenty of garbage. Phantom references can prevent this.