To create a
WeakReference, the syntax is
WeakReference<SomeType> myWeakReference = new WeakReference<SomeType>(actualObject);. To retrieve the object via that
WeakReference, do the check
if (weakWidget == null). That way, you will avoid a
NullPointerException if it has been garbage-collected already.
This Java.net article by Ethan Nicholas explains why you would want to use a
WeakReference instead of a strong one. It provides the example of a
final (unextendible) class called
Widget that has no defined serial UID, presuming that the developer decides to define a serial UID to track each
Widget instance. They do so by creating a new
HashMap and doing something like
serialNumberMap.put(widget, widgetSerialNumber); which is a strong reference. That means it must be explicitly cleaned up when no longer needed. The developer is responsible for knowing exactly when to manually "garbage-collect" that reference and remove it from the
HashMap, which should be done only when they're really sure it's not needed anymore. This may be the problem you ran into in your application.
In this particular case, as the article explains, the developer could use the
WeakHashMap class instead (as @NayAneshGupte put in his example), wherein the key is actually a
WeakReference. This would allow the JVM nullify the keys to old
Widgets as it saw fit, so that the garbage collector could come along and destroy their associated objects.
The article also goes on to talk about
PhantomReferences (which I've never used). You can read more about all of these in this javapapers.com article and this Rally blog.