Transaction semantics and
state-fullness are considered
implementation details in EJB3. An
implementation can decide whether to
use bean or container managed
transactions. It can decide the type
of of container managed transaction.
It can decide whether it's state-full
I understand the point of state management which is indeed important from point of view of the client.
Concerning the transactions, it's a bit more tricky.
- The type of transaction (
container-managed) is implementation details (I'm not sure about your example (a)).
- The propagation semantics is not. (
Now - the container can trap these
situations; but why wait until
Even if all that was present with an interface, the type system would still not be sufficient to enforce the rules at compile type.
You anyway need a tool to check these constraints according to their applicative semantics. The IDE could do it if it parse the annotation, the container could do it when the module is deployed, and at worse it fails at run-time.
Why are transaction semantics and
state-fullness requirements not part
of the interface?
A java interface carries only a limited set of information about the correct usage of a component, be it a class, and bean, or an API. The overal contract of most component is way more complicated than what is exposed in the interface.
- Thread-safety: how do you know if a particular class is thread-safe without looking in the doc?
ContentHandler.characters(): how do you know that it can be called more than once per XML tag?
- And the list goes on...
I personally use the term contract to refer to complete set of constraints. The interface gives me only the signature of the methods from the point of view of the type system.
If you are interested in the topic I would suggest you look at design by contract. The idea to formalize the contract between component more precisely has been around since a long time.
So my answer would be: because even if it were, you would still need more information.