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I have a Roo project that works "fine" with transactions, but each .merge() or .persist() takes longer and longer time, so that what should've taken 10ms takes 5000ms towards the end of the transaction. Luckily, my changes are individually idempotent, so I don't really need a transaction.

But when I throw out transaction handling I run into the classic "The context has been closed" when I do myObject.merge()

The job I'm running is from the command line as a batch, so here is what I usually do:

public static void main(final String[] args) {
    context = new ClassPathXmlApplicationContext("META-INF/spring/applicationContext.xml");
    JpaTransactionManager txMgr = (JpaTransactionManager) context.getBean("transactionManager");
    TransactionTemplate txTemplate = new TransactionTemplate(txMgr);
    txTemplate.execute(new TransactionCallback() { @SuppressWarnings("finally")
    public Object doInTransaction(TransactionStatus txStatus) {
    try {
        ImportUnitFromDisk importer = new ImportUnitFromDisk();
        int status = importer.run(args[0]);
        System.out.println("Import data complete status: " + status);
    } catch (Exception e) {
        e.printStackTrace();
    } finally {
        return null;
    }
    }});

    System.out.println("All done!");
    System.exit(0);
}

But what I really want to do is something like this:

public static void main(final String[] args) {
    ImportUnitFromDisk importer = new ImportUnitFromDisk();
    int status = importer.run(args[0]);
    System.out.println("Import data complete status: " + status);
    System.out.println("All done!");
    System.exit(0);
}

What can I do to allow me to persist() and merge() without using transactions, given that the entities are generated with Spring Roo (using OpenJPA and MySQL)?

Cheers

Nik

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Is the stuff you do within the transaction: readonly? –  Ralph Jan 28 '11 at 9:01
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2 Answers

up vote 1 down vote accepted

Even if your changes are idempotent, you still will need transaction.

As far as performance is concerned.

  1. How tightly coupled is your entity objects. (For instance if all table fk refernces are migrated to entity relationship, then its pretty tightly coupled)?

  2. May be you should remove some unwanted bidirectional relationships.

  3. Identify master tables and remove entities mapping to master records.

  4. What is your cascade options? Check if you have cascade all options everywhere.

For me it looks the Entity map is far too tightly coupled .(Everyone knows someone who has ...) and the cascade options kick off merging the whole object graph. (log your jpa sql, that can validate my assumption)

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They are fairly tightly coupled, like one volume has many documents that have many pages, and since the start is that one volume has many pages and I need to find documents, volume references both documents and pages, and of course the reverse is there as well. I'll have a look at the cascade options –  niklassaers Jan 24 '11 at 8:26
    
I think from your question, its quiet obvious that the objects are all closely knit together. I understand that sometime the domain itself has closely coupled objects, but could you not replace relationships with queries or please suggest lazy loading to mappings and definitely look in to your cascade options.Because cascade is what makes the ORM look for child entities to merge. –  doc_180 Jan 24 '11 at 15:37
    
I should add: everything is lazy-loaded –  niklassaers Jan 25 '11 at 10:01
    
Lazy loading only affect query time performance. It was a more generic point. –  doc_180 Jan 25 '11 at 14:56
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I have experienced exactly the same performance problem with a Spring / Hibernate batch process. Note that this has nothing to do with Spring Roo or even Spring - it is due to the workings of Hibernate / JPA.

The basic problem is that Hibernate maintains a session cache of all the Java entities that are part of the transaction, and for new entities (for which bytecode instrumentation has not been done) Hibernate must scan the entities on each flush to see if there were updates. This is at least O(n) for n = # of new entities in the session. If the batch process is primarily adding new entities, then this turns into O(n^2) behavior for the overall batch.

One solution if you want to maintain the whole process in one transaction is to periodically flush (to do inserts/updates) and then evict entities that you no longer need to keep in the session. Another solution is to split the batch process into multiple transactions.

See http://www.basilv.com/psd/blog/2010/avoiding-caching-to-improve-hibernate-performance for more details.

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True, I probably was using Hibernate too much as a silver bullet. I ended up splitting it into multiple smaller transactions, but if I were to do it again I think I'd have thought twice about using an ORM. –  niklassaers May 1 '12 at 7:46
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