final modifier is there in preparation for a bigger feature: value types, a goal for Project Valhalla (features for Java 10+).
You can read all about value types for Java in the 2014 article linked below:
Why do we need value types in Java?
In Java, objects instantiated from reference types have an identity. This allows specific objects to be referenced by variables and compared by reference. All classes/enum/interfaces currently create reference types. Thus, all objects have an identity.
But, in theory, not all objects require an identity, as explicitly mentioned in the 2014 paper linked above:
Object identity serves only to support mutability, where an object’s state can be mutated but remains the same intrinsic object.
Identities aren't free, and immutable types don't require mutation, which inheritly means they don't require identities.
Identities for immutable types result in an excessive footprint:
Object identity has footprint and performance costs, which is a major reason Java, unlike other many object oriented languages, has primitives.
Implementing Value Types
James Gosling wrote an article back in 1999 about compiling immutable types types to values:
It is almost possible, under the current language spec, for a sufficiently clever optimizing compiler to transform certain classes into lightweight objects that are not heap allocated and are passed by value rather than reference: declare the class and all its instance variables to be final.
This idea has been inherited by Oracle's experimental Project Valhalla, lead by Brian Goetz. In preparation, a specification for value-based classes has been created, which one of the requirements is for the class to be
The 2014 paper on value types in Java further exposes the decision to enforce the
Can values participate in inheritance-based subtyping?
Can a value class be abstract or non-final? No.
The decision to limit or prohibit subclassing and subtyping of value types is necessary to avoid pointer polymorphism.
We can therefore ensure that all methods are resolved unambiguously in the exact type of the method receiver. Invoking a value method is always like invokestatic or invokespecial and never like invokevirtual or invokeinterface.
Value types cannot participate in traditional subtyping (if at all, it would be limited).
So what does this have to do with
Optional is a value-based class.
It's mentioned how value-based classes may act as the boxed version of value types:
In fact, it seems likely that the boxed form of every value type will be a value-based class.
The boxed form of a value type should share the same attributes as value types (similar to
int), which include preventing traditional classes from subtyping.