The Java language spec defines semantics of final fields in section 17.5:
The usage model for final fields is a simple one. Set the final fields for an object in that object's constructor. Do not write a reference to the object being constructed in a place where another thread can see it before the object's constructor is finished. If this is followed, then when the object is seen by another thread, that thread will always see the correctly constructed version of that object's final fields. It will also see versions of any object or array referenced by those final fields that are at least as up-to-date as the final fields are.
My question is - does the 'up-to-date' guarantee extend to the contents of nested arrays, and nested objects?
In a nutshell: If one thread assigns a mutable object graph to a final field in an object, and the object graph is never updated, can all threads safely read that object graph via the final field?
An example scenario:
- Thread A constructs a HashMap of ArrayLists, then assigns the HashMap to final field 'myFinal' in an instance of class 'MyClass'
- Thread B sees a (non-synchronized) reference to the MyClass instance and reads 'myFinal', and accesses and reads the contents of one of the ArrayLists
In this scenario, are the members of the ArrayList as seen by Thread B guaranteed to be at least as up to date as they were when MyClass's constructor completed?
I'm looking for clarification of the semantics of the Java Memory Model and language spec, rather than alternative solutions like synchronization. My dream answer would be a yes or no, with a reference to the relevant text.
- I'm interested in the semantics of Java 1.5 and above, i.e. with the updated Java Memory Model introduced via JSR 133. The 'up-to-date' guarantee on final fields was introduced in this update.