Edited to add: Interesting perspective on the origins of Java and JSR-133's
Canonical reference for how
final works in the new JMM, for safe publication: http://www.cs.umd.edu/~pugh/java/memoryModel/jsr-133-faq.html#finalRight
On simple review, I think your code represents "safe" publication to the
EventSource source object, which presumably will be fielding event callbacks to
listener in a different thread. You are guaranteed that threads operating on the
safe.listener reference passed will see a fully-initialized
listener field. This does not make any further guarantees about other synchronization issues associated with calls to
onEvent or other interactions with the object's state.
What is guaranteed by your code is that, when
SafeListener's constructor returns a reference inside the static method, the
listener field will not be seen in an unwritten state (even if there is no explicit synchronization). For example: Suppose a thread A calls
newInstance(), resulting in an assignment to the
listener field. Suppose that a thread B is able to dereference the
listener field. Then, even absent any other synchronization, thread B is guaranteed to see the write
listener = new EventListener().... If the field were not
final, you would not receive that guarantee. There are several (other) ways of providing the guarantee (explicit synchronization, use of an atomic reference, use of volatile) of varying performance and readability.
Not everything that's legal is advisable. Suggest you take a look at JCiP and perhaps this article on safe publication techniques.
A recent, related question is here: "Memory barriers and coding...", "Java multi-threading & Safe Publication".