Does the compiler treat all the methods in a final class as being final themselves?
In effect, yes it does. A method in a
final class cannot be overridden. Adding (or removing) a
final keyword to a method makes no difference to this rule.
Does adding the final keyword to methods in a final class has any effect?
In practice, it has minimal effect. It has no effect on the rules on overriding (see above), and no effect on inlining (see below).
It is possible to tell at runtime if a method was declared with a
final keyword ... using reflection to look at the method's flags. So it does have some effect, albeit an effect that it irrelevant to 99.99% of programs.
I understood that final methods have a better chance of getting inlined and this is why I am asking.
This understanding is incorrect. The JIT compiler in a modern JVMs keeps track of which methods are not overridden in the classes loaded by an application. It uses this information, and the static types to determine whether a particular call requires virtual class dispatching or not. If not, then inlining is possible, and will be used depending on how large the method body is. In effect, the JIT compiler ignores the presence / absence of
final, and uses a more accurate method to detect method calls where inlining of the method is allowable.
(In fact it is more complex than this. An application can dynamically load subclasses that cause the JIT compiler's method override analysis to become incorrect. If this happens, the JVM needs to invalidate any effected compiled methods and cause them to be recompiled.)
The bottom line is:
There is NO performance advantage in adding
final to methods in
There might be a performance advantage in
final to methods in non-
final classes, but only if you are using an old Sun JVM, or some other Java / Java-like platform with a poor quality JIT compiler.
If you care about performance, it is better to use an up-to-date / high performance Java platform with a decent JIT compiler than to pollute your code-base with
final keywords that are liable to cause you problems in the future.
You wrote in a comment:
@RussellZahniser I have read differently in many places.
The internet is full of old information, much of which is out of date ... or was never correct in the first place.