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Just a simple Question with a Car-entity persisted field color of value red:

00  @Transactional public class MyBean{...
01    public void test(){
02        Car c = s.find(Car.class,1);
03        c.setColor("blue");
04        test1(c);
05        System.out.println(c.getColor());   
06    }
07    @Transactional(readOnly=true)
08    public void test1(Car c){
09        c.setName("black");
10    }
11  }

Assuming, we are in Spring ORM TX-Transactional-Annotation environment, with transactional semantics and transaction scoped persistence context.

What will be printed to Console?

  • red
  • blue
  • black
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@Adrian Shum tnx for fixing –  Peter Rader Oct 10 '12 at 10:55
Peter, could you please provide the required information about aspect weaving and transaction propagation. Are you using load time or compile time weaving? What kind of transaction propagation did you configure? I think this will help us to give a clear answer. –  SpaceTrucker Oct 11 '12 at 6:40

2 Answers 2

up vote 4 down vote accepted

Assuming transactional semantics are enabled when calling methods of the same instance and NESTED transaction propagation: It depends on the scope of the persistence context.

Assuming a transaction scoped persistence context: black is printed to the console. The car instance is detached, because it was fetched outside the readonly transaction and is not merged into the readonly transaction. Calling the setter on a detached instance is safe (like the call to setColor("blue").

Assuming an extended scope of the persistence context: black is also printed. From the javadoc of @Transactional


A transaction manager which cannot interpret the read-only hint will not throw an exception when asked for a read-only transaction.

And from the JPA 2.0 Spec Section Mapping of Derived Identities:

The embedded id attributes that correspond to the relationship are treated by the provider as “read only”—that is, any updates to them on the part of the application are not propagated to the database.

But I'm not 100% sure, if there isn't an exception thrown. Since the color property isn't an embedded id the behaviour may vary.

If transactional semantics are available via proxies then see the answer of Adrian Shum

share|improve this answer
I forgot to tell: another @Transaction is on class-scope readonly=false, so the s points to the available hibernate-session. So anyway it returns black, alright. Is there any way to get Red or Blue instead without refresh it manuality? –  Peter Rader Oct 10 '12 at 9:16
You could use the memento pattern for that. But I really think you should get rid of the persistent entity modifications within the read only transaction. –  SpaceTrucker Oct 10 '12 at 9:21
In fact, the way OP is using Spring Transaction and Hibernate is unreasonable. There is nothing to do with the scope in fact. Please read my answer. :) –  Adrian Shum Oct 10 '12 at 10:10
Im irritated now, i never call em.persist(c);, does it happens automatically on line 06? –  Peter Rader Oct 10 '12 at 11:38
@PeterRader the entity manager knows about c, because I assume that during the call to s.find(Car.class,1) the returned car is put into the current persistence context and hence c is managed. On committing a transaction the managed entities are automatically synchronized with the database. –  SpaceTrucker Oct 10 '12 at 11:42

I believe you have falled into a trap in AOP in Spring.

Transaction in Spring is achieved by AOP, and AOP in Spring is achieved by having proxy around the actual target.

You have annotated @Transactional for MyBean. Assume someone else is calling instance of MyBean.test(), it is in fact not "talking" to that object directly. There is a proxy which looks exactly like MyBean, but it create the transaction, then invoke the actual MyBean.test(), and afterwards, commit/rollback.

It is something like this:

         test()                     test()
[Caller] ------->  [MyBean Proxy]  ------> [MyBean]

However, when you are invoking test1() in test(), that actually means this.test1(), which means you are invoking the MyBean instance directly:

          [MyBean Proxy]     [MyBean] <--
                                |       |  test1(c)

Without going through the MyBean Proxy (which is responsible to do the transaction trick), your invocation to test1() in fact have nothing to do with Transaction. It is just a plain method.

So you know the answer.

Moreover, even you manage to invoke through the proxy, it is not going to change the story:

          -> [MyBean Proxy]     [MyBean]
test1(c) |                         |

That's because the instance of Car you passed to test1() is retrieved in the transaction (that means, Hibernate session) around test(), and whatever you change in test1(), you are not doing anything with the Hibernate session you created separately in test1() (if you use REQUIRED_NEW propagation). You are simply changing the state of the object passed in. Therefore, calling test1(c) is still nothing but a plain method call.

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@Transactional can also be used with compile-time-weaving. When this is the case there is no need for proxies and also method calls on the same instance will enable transactional semantics. –  SpaceTrucker Oct 10 '12 at 10:23
@SpaceTrucker That's true, I should mention that though I believe LTW is more widely used. However, even for CTW, my second point still holds :) –  Adrian Shum Oct 10 '12 at 10:29
You are right, my assumption is NESTED propagation, which is kind of a natural assumption for me, but very rarely used in practice. So we still end up with blackin all cases mentioned so far. –  SpaceTrucker Oct 10 '12 at 10:35
My @PersistenceContext is pointed to HibernateEntityManager hem; So s=hem.getSession(); Trust in me, the environmet setup is ok. –  Peter Rader Oct 10 '12 at 10:52
@SpaceTrucker Please look in detail in my second point. It is not about NESTED propagation I believe. No matter what kind of propagation it is, there is no difference. The car passed in has nothing to do with the inner transaction around test1(). Transaction around test1() have no effect on that car instance. –  Adrian Shum Oct 11 '12 at 1:40

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