Entities are synchronized to the connected database at transaction commit time. If you only have n = 1 ongoing transaction (here: JTA/container managed), changes on one or more entities get written to the DB the moment you call
flush() on the
However, changes become "visible" only after the transaction has been properly executed by the container (here: Glassfish) which is responsible for transaction handling. For reference, see. section 7.6.1 (p. 294) of JPA Spec 2.0 which defines:
A new persistence context begins when the container-managed entity manager is invoked (Specifically, when one of the methods of the EntityManager interface is invoked) in the scope of an active JTA transaction, and there is no current persistence context already associated with the JTA transaction. The persistence context is created and then associated with the JTA transaction.
The persistence context ends when the associated JTA transaction commits or rolls back, and all entities that were managed by the EntityManager become detached.
In section 3.2.4 (Synchronization to the Database) of the JPA Spec 2.0 we find:
The state of persistent entities is synchronized to the database at transaction commit.
The persistence provider runtime is permitted to perform synchronization to the database at other times as well when a transaction is active. The
flush method can be used by the application to force synchronization.
It applies to entities associated with the persistence context. The
EntityManager and Query setFlushMode methods can be used to control synchronization semantics. The effect of
FlushModeType.AUTO is defined in section 3.8.7. If
FlushModeType.COMMIT is specified, flushing will occur at transaction commit; the persistence provider is permitted, but not required, to perform to flush at other times. If there is no transaction active, the persistence provider must not flush to the database.
Most likely in your scenario, the container (Glassfish) and/or your application is configured for
FlushModeType.COMMIT(*1). In case
FlushModeType.AUTO is in place, it is up to the Persistence Provider (EclipseLink) which "is responsible for ensuring that all updates to the state of all entities in the persistence context which could potentially affect the result of the query are visible to the processing of the query." (Section 3.8.7, p. 122)
By contrast, the
clear() method does NOT commit anything by itself. It simply detaches all managed entities from the current persistence context, thus causing any changes on entities which have not been flushed (committed) to get lost. For reference, see p. 70 of the linked JPA Spec.
With respect to the
OutOfMemoryError, it's hard to tell what's causing this under which circumstances, as you did not provide much detail either. However, I would:
- read the aforementioned sections of the JPA specification
- check how your environment is configured and
- reevaluate how your application is written/implemented, potentially making false assumptions on the transaction handling of the container it is running in.
Related to 2., you might check your
persistence.xml whether it configures
<property name="eclipselink.persistence-context.flush-mode" value="COMMIT" />
and change it to
AUTO to see if there is any difference.
Hope it helps.
*1: But that's a good guess, as you did not provide that much detail on your setup/environment.