Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

[The real question is marked in bold down. Here follows an as short as possible explanation of my situation]

I have the following JPA Entities:

@Entity Genre{
 private String name;
 @OneToMany(mappedBy = "genre", cascade={CascadeType.MERGE, CascadeType.PERSIST})
 private Collection<Novel> novels;
class Novel{
 @ManyToOne(cascade={CascadeType.MERGE, CascadeType.PERSIST})
 private Genre genre;
 private String titleUnique;
 @OneToMany(mappedBy="novel", cascade={CascadeType.MERGE, CascadeType.PERSIST})
 private Collection<NovelEdition> editions;
class NovelEdition{
 private String publisherNameUnique;
 private String year;
 @ManyToOne(optional=false, cascade={CascadeType.PERSIST, CascadeType.MERGE})
 private Novel novel;
 @ManyToOne(optional=false, cascade={CascadeType.MERGE, CascadeType.PERSIST})
 private Catalog appearsInCatalog;
class Catalog{
 private String name;
 @OneToMany(mappedBy = "appearsInCatalog", cascade = {CascadeType.MERGE, CascadeType.PERSIST})
 private Collection<NovelEdition> novelsInCatalog;

The idea is to have several Novels, belonging each to a specific Genre, for which can exist more than an edition (different publisher, year, etc). For semplicity a NovelEdition can belong to just one Catalog, being such a Catalog represented by such a text file:

Catalog: Name Of Catalog 1
"Title of Novel 1", "Genre1 name","Publisher1 Name", 2009
"Title of Novel 2", "Genre1 name","Pulisher2 Name", 2010

Catalog: Name Of Catalog 2
"Title of Novel 1", "Genre1 name","Publisher2 Name", 2011
"Title of Novel 2", "Genre1 name","Pulisher1 Name", 2011

Each entity has associated a Stateless EJB that acts as a DAO, using a Transaction Scoped EntityManager. For example:

public class NovelDAO extends AbstractDAO<Novel> {
    @PersistenceContext(unitName = "XXX")
    private EntityManager em;

    protected EntityManager getEntityManager() {
        return em;

    public NovelDAO() {
    //NovelDAO Specific methods

I am interested at when the catalog files are parsed and the corresponding entities are built (I usually read a whole batch of Catalogs at a time).

Being the parsing a String-driven procedure, I don't want to repeat actions like novelDAO.getByName("Title of Novel 1") so I would like to use a centralized cache for mappings of type String-Identifier->Entity object.

Currently I use 3 Objects: 1) The file parser, which does something like:

final CatalogBuilder catalogBuilder = //JNDI Lookup
//for each file:
String catalogName = parseCatalogName(file);
//For each novel edition
String title= parseNovelTitle();
String genre= parseGenre();
catalogBuilder.addNovelEdition(title, genre, publisher, year);
//End foreach

2) The CatalogBuilder is a Stateful EJB which uses the Cache and gets re-initialized each time a new Catalog file is parsed and gets "removed" after a catalog is persisted.

public class CatalogBuilder {

    @PersistenceContext(unitName = "XXX", type = PersistenceContextType.EXTENDED)
    private EntityManager em;
    private Cache cache;
    private Catalog catalog;

    public void initialize() {
      catalog = new Catalog();
      catalog.setNovelsInCatalog(new ArrayList<NovelEdition>());

    public void addNovelEdition(String title, String genreStr, String publisher, String year){
        Genre genre = cache.findGenreCreateIfAbsent(genreStr);//**
        Novel novel = cache.findNovelCreateIfAbsent(title, genre);//**
        NovelEdition novEd = new NovelEdition();
        //novEd.set publisher year catalog

    public void setCatalogName(String name) {

    public void build(){

3) Finally, the problematic bean: Cache. For CatalogBuilder I used an EXTENDED persistence context (which I need as the Parser executes several succesive transactions) together with a Stateful EJB; but in this case I am not really sure what I need. In fact, the cache:

  1. Should stay in memory until the parser is finished with its job, but not longer (should not be a singleton) as the parsing is just a very particular activity which happens rarely.
  2. Should keep all of the entities in context, and should return managed entities form methods marked with *, otherwise the attempt to persist the catalog should fail (duplicated INSERTs)..*
  3. Should use the same persistence context as the CatalogBuilder.

What I have now is :

public class Cache {

   @PersistenceContext(unitName = "XXX", type = PersistenceContextType.EXTENDED)
    private EntityManager em;

    private sessionbean.GenreDAO genreDAO;
    //DAOs for other cached entities

    Map<String, Genre> genreName2Object=new TreeMap<String, Genre>();

    public void initialize(){
    for (Genre g: genreDAO.findAll()) {
      genreName2Object.put(g.getName(), em.merge(g));

    public Genre findGenreCreateIfAbsent(String genreName){
     if (genreName2Object.containsKey(genreName){
       return genreName2Object.get(genreName);
    Genre g = new Genre();
    g.setNovels(new ArrayList<Novel>());
    genreName2Object.put(t.getIdentifier(), em.merge(t));
return t;

But honestly I couldn't find a solution which satisfies these 3 points at the same time. For example, using another stateful bean with an extended persistence context would work for the 1st parsed file, but I have no idea what should happen from the 2nd file on.. Indeed for the first file the PC will be created and propagated from CatalogBuilder to Cache, which will then use the same PC. But after build() returns, the PC of CatalogBuilder should (I guess) be removed and re-created during the successive parsing, although the PC of Cache should stay "alive": shouldn't in this case an exception being thrown? Another problem is what to do when the Cache bean is passivated. Currently I get the exception:

"passivateEJB(), Exception caught -> 
java.io.IOException: java.io.IOException
    at com.sun.ejb.base.io.IOUtils.serializeObject(IOUtils.java:101)
    at com.sun.ejb.containers.util.cache.LruSessionCache.saveStateToStore(LruSessionCache.java:501)"

Hence, I have no idea how to implement my cache. How would you solve the problem?

share|improve this question
Are you not interested in the L2 shared-cache used by the JPA to share a cached entities between the PersistenceContexts? – Piotr Nowicki Oct 28 '11 at 14:43
Hi! As far as I understood L2 cache is enabled by default in EclipseLink. To make sure to activate it, I added <shared-cache-mode>ALL</shared-cache-mode> to my persistence.xml. Shouldn't the result of each query be automatically cached then? I changed my Cache class to query directly the DB (throught DAOs'methods) instead of storing the values into Maps, but with a FINE log level I can see the SQL queries are executed every time I call a findXXXCreateIfAbsent() method.. What is wrong in this approach? – Federico Nov 1 '11 at 19:13

EclipseLink configuration :

  • You can have specify property in configuration file for all entites.

    <property name="eclipselink.cache.shared.default" value="true"/>

  • At entity level with @Cache annotation, specifying different attributes.

General JPA configuration :

  • At entity level by using @Cacheable annotation with value attribute as true.

  • Specifying the retrieval mode by CacheRetrieveMode, attribute USE to enable else BYPASS.

    entityManager.setProperty("javax.persistence.cache.retrieveMode", CacheRetrieveMode.USE);

  • Configuring the storage in cache by CacheStoreMode with attribute BYPASS, USE or REFRESH.


  • Cache interface represents shared cache. To remove all or some cached entity, you can call one of the evict methods. You can get reference of cache interface from EntityManagerFactory.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.