In this case, the volatility would only ensure visibility of the new object; any other threads that happened to get hold of your object via a non-volatile field would indeed see the correct values of final fields as per JSR-133's initialization safety guarantees.
Still, making the variable volatile doesn't hurt; is correct from a memory management perspective anyway; and would be necessary for non-final fields initialised in a constructor (although there shouldn't be any of these in an immutable object). If you wish to share variables between threads, you'll need to ensure adequate synchronization to give visibility anyway; though in this case you're right, that there's no danger to the atomicity of the constructor.
Thanks to Tom Hawtin for pointing out I'd completely overlooked the JMM guarantees on final fields; previous incorrect answer is given below.
The reason for the volatile variable is that is establishes a happens-before relationship (according to the Java Memory Model) between the construction of the object, and the assignment of the variable. This achieves two things:
- Subsequent reads of that variable from different threads are guaranteed to see the new value. Without marking the variable as volatile, these threads could see stale values of the reference.
- The happens-before relationship places limits on what reorderings the compiler can do. Without a volatile variable, the assignment to the variable could happen before the object's constructor runs - hence other threads could get a reference to the object before it was fully constructed.
Since one of the fundamental rules of immutable objects is that you don't publish references during the constructor, it's this second point that is likely being referenced here. In a multithreaded environment without proper concurrent handling, it is possible for a reference to the object to be "published" before that object has been constructed. Thus another thread could get that object, see that one of its fields is
null, and then later see that this "immutable" object has changed.
Note that you don't have to use volatile fields to achieve this if you have other appropriate synchronization primitives - for example, if the assignment (and all later reads) are done in a
synchronized block on a given monitor - but in a "standalone" sense, marking the variable as
volatile is the easiest way to tell the JVM "this might be read by multiple threads, please make the assignment safe in that context."