JPA EntityManager: Why use persist() over merge()?
EntityManager.merge()
can insert new objects and update existing ones.
Why would one want to use persist()
(which can only create new objects)?
Either way will add an entity to a PersistenceContext, the difference is in what you do with the entity afterwards.
Persist takes an entity instance, adds it to the context and makes that instance managed (ie future updates to the entity will be tracked).
Merge creates a new instance of your entity, copies the state from the supplied entity, and makes the new copy managed. The instance you pass in will not be managed (any changes you make will not be part of the transaction - unless you call merge again).
Maybe a code example will help.
MyEntity e = new MyEntity();
// scenario 1
// tran starts
em.persist(e);
e.setSomeField(someValue);
// tran ends, and the row for someField is updated in the database
// scenario 2
// tran starts
e = new MyEntity();
em.merge(e);
e.setSomeField(anotherValue);
// tran ends but the row for someField is not updated in the database
// (you made the changes *after* merging)
// scenario 3
// tran starts
e = new MyEntity();
MyEntity e2 = em.merge(e);
e2.setSomeField(anotherValue);
// tran ends and the row for someField is updated
// (the changes were made to e2, not e)
Scenario 1 and 3 are roughly equivalent, but there are some situations where you'd want to use Scenario 2.
Persist and merge are for two different purposes (they aren't alternatives at all).
(edited to expand differences information)
persist:
merge:
persist() efficiency:
persist() semantics:
Example:
{
AnyEntity newEntity;
AnyEntity nonAttachedEntity;
AnyEntity attachedEntity;
// Create a new entity and persist it
newEntity = new AnyEntity();
em.persist(newEntity);
// Save 1 to the database at next flush
newEntity.setValue(1);
// Create a new entity with the same Id than the persisted one.
AnyEntity nonAttachedEntity = new AnyEntity();
nonAttachedEntity.setId(newEntity.getId());
// Save 2 to the database at next flush instead of 1!!!
nonAttachedEntity.setValue(2);
attachedEntity = em.merge(nonAttachedEntity);
// This condition returns true
// merge has found the already attached object (newEntity) and returns it.
if(attachedEntity==newEntity) {
System.out.print("They are the same object!");
}
// Set 3 to value
attachedEntity.setValue(3);
// Really, now both are the same object. Prints 3
System.out.println(newEntity.getValue());
// Modify the un attached object has no effect to the entity manager
// nor to the other objects
nonAttachedEntity.setValue(42);
}
This way only exists 1 attached object for any register in the entity manager.
merge() for an entity with an id is something like:
AnyEntity myMerge(AnyEntity entityToSave) {
AnyEntity attached = em.find(AnyEntity.class, entityToSave.getId());
if(attached==null) {
attached = new AnyEntity();
em.persist(attached);
}
BeanUtils.copyProperties(attached, entityToSave);
return attached;
}
Although if connected to MySQL merge() could be as efficient as persist() using a call to INSERT with ON DUPLICATE KEY UPDATE option, JPA is a very high level programming and you can't assume this is going to be the case everywhere.
If you're using the assigned generator, using merge instead of persist can cause a redundant SQL statement, therefore affecting performance.
Also, calling merge for managed entities is also a mistake since managed entities are automatically managed by Hibernate and their state is synchronized with the database record by the dirty checking mechanism upon flushing the Persistence Context.
To understand how all this works, you should first know that Hibernate shifts the developer mindset from SQL statements to entity state transitions.
Once an entity is actively managed by Hibernate, all changes are going to be automatically propagated to the database.
Hibernate monitors currently attached entities. But for an entity to become managed, it must be in the right entity state.
First, we must define all entity states:
New (Transient)
A newly created object that hasn't ever been associated with a Hibernate Session
(aka Persistence Context
) and is not mapped to any database table row is considered to be in the New (Transient) state.
To become persisted we need to either explicitly call the EntityManager#persist
method or make use of the transitive persistence mechanism.
Persistent (Managed)
A persistent entity has been associated with a database table row and it's being managed by the current running Persistence Context. Any change made to such entity is going to be detected and propagated to the database (during the Session flush-time). With Hibernate, we no longer have to execute INSERT/UPDATE/DELETE statements. Hibernate employs a transactional write-behind working style and changes are synchronized at the very last responsible moment, during the current Session
flush-time.
Detached
Once the current running Persistence Context is closed all the previously managed entities become detached. Successive changes will no longer be tracked and no automatic database synchronization is going to happen.
To associate a detached entity to an active Hibernate Session, you can choose one of the following options:
Reattaching
Hibernate (but not JPA 2.1) supports reattaching through the Session#update method. A Hibernate Session can only associate one Entity object for a given database row. This is because the Persistence Context acts as an in-memory cache (first level cache) and only one value (entity) is associated to a given key (entity type and database identifier). An entity can be reattached only if there is no other JVM object (matching the same database row) already associated to the current Hibernate Session.
Merging
The merge is going to copy the detached entity state (source) to a managed entity instance (destination). If the merging entity has no equivalent in the current Session, one will be fetched from the database. The detached object instance will continue to remain detached even after the merge operation.
Removed
Although JPA demands that managed entities only are allowed to be removed, Hibernate can also delete detached entities (but only through a Session#delete method call). A removed entity is only scheduled for deletion and the actual database DELETE statement will be executed during Session flush-time.
To understand the JPA state transitions better, you can visualize the following diagram:
Or if you use the Hibernate specific API:
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