protected void applyCacheSettings(Configuration configuration) { if (getCacheConcurrencyStrategy() != null) { Iterator itr = configuration.getClassMappings(); while (itr.hasNext()) { PersistentClass clazz = (PersistentClass) itr.next(); Iterator props = clazz.getPropertyClosureIterator(); boolean hasLob = false; while (props.hasNext()) { Property prop = (Property) props.next(); if (prop.getValue().isSimpleValue()) { String type = ((SimpleValue) prop.getValue()).getTypeName(); if ("blob".equals(type) || "clob".equals(type)) { hasLob = true; } if (Blob.class.getName().equals(type) || Clob.class.getName().equals(type)) { hasLob = true; } } } if (!hasLob && !clazz.isInherited() && overrideCacheStrategy()) { configuration.setCacheConcurrencyStrategy( clazz.getEntityName(), getCacheConcurrencyStrategy()); } } itr = configuration.getCollectionMappings(); while (itr.hasNext()) { Collection coll = (Collection) itr.next(); configuration.setCollectionCacheConcurrencyStrategy( coll.getRole(), getCacheConcurrencyStrategy()); } } }
private void buildSessionFactory(String[] files) throws Exception { if (getSessions() != null) getSessions().close(); try { setCfg(new Configuration()); cfg.addProperties(getExtraProperties()); if (recreateSchema()) { cfg.setProperty(Environment.HBM2DDL_AUTO, "create-drop"); } for (int i = 0; i < files.length; i++) { if (!files[i].startsWith("net/")) files[i] = getBaseForMappings() + files[i]; getCfg().addResource(files[i], TestCase.class.getClassLoader()); } setDialect(Dialect.getDialect()); configure(cfg); if (getCacheConcurrencyStrategy() != null) { Iterator iter = cfg.getClassMappings(); while (iter.hasNext()) { PersistentClass clazz = (PersistentClass) iter.next(); Iterator props = clazz.getPropertyClosureIterator(); boolean hasLob = false; while (props.hasNext()) { Property prop = (Property) props.next(); if (prop.getValue().isSimpleValue()) { String type = ((SimpleValue) prop.getValue()).getTypeName(); if ("blob".equals(type) || "clob".equals(type)) hasLob = true; if (Blob.class.getName().equals(type) || Clob.class.getName().equals(type)) hasLob = true; } } if (!hasLob && !clazz.isInherited() && overrideCacheStrategy()) { cfg.setCacheConcurrencyStrategy(clazz.getEntityName(), getCacheConcurrencyStrategy()); } } iter = cfg.getCollectionMappings(); while (iter.hasNext()) { Collection coll = (Collection) iter.next(); cfg.setCollectionCacheConcurrencyStrategy(coll.getRole(), getCacheConcurrencyStrategy()); } } setSessions(getCfg().buildSessionFactory(/*new TestInterceptor()*/ )); afterSessionFactoryBuilt(); } catch (Exception e) { e.printStackTrace(); throw e; } }
/** * @param cfg * @return iterator over all the IdentifierGenerator's found in the entitymodel and return a list * of unique IdentifierGenerators * @throws MappingException */ private Iterator iterateGenerators(Configuration cfg) throws MappingException { TreeMap generators = new TreeMap(); String defaultCatalog = getSettings().getDefaultCatalogName(); String defaultSchema = getSettings().getDefaultSchemaName(); Iterator iter = cfg.getClassMappings(); while (iter.hasNext()) { PersistentClass pc = (PersistentClass) iter.next(); if (!pc.isInherited()) { IdentifierGenerator ig = pc.getIdentifier() .createIdentifierGenerator( cfg.getIdentifierGeneratorFactory(), dialect, defaultCatalog, defaultSchema, (RootClass) pc); if (ig instanceof PersistentIdentifierGenerator) { generators.put(((PersistentIdentifierGenerator) ig).generatorKey(), ig); } } } iter = getConfiguration().getCollectionMappings(); while (iter.hasNext()) { Collection collection = (Collection) iter.next(); if (collection.isIdentified()) { IdentifierGenerator ig = ((IdentifierCollection) collection) .getIdentifier() .createIdentifierGenerator( getConfiguration().getIdentifierGeneratorFactory(), dialect, defaultCatalog, defaultSchema, null); if (ig instanceof PersistentIdentifierGenerator) { generators.put(((PersistentIdentifierGenerator) ig).generatorKey(), ig); } } } return generators.values().iterator(); }
private void collectTypes() throws IOException, XMLStreamException, ClassNotFoundException, SecurityException, NoSuchMethodException { // super classes Iterator<?> superClassMappings = configuration.getMappedSuperclassMappings(); while (superClassMappings.hasNext()) { MappedSuperclass msc = (MappedSuperclass) superClassMappings.next(); EntityType entityType = createSuperType(msc.getMappedClass()); if (msc.getDeclaredIdentifierProperty() != null) { handleProperty(entityType, msc.getMappedClass(), msc.getDeclaredIdentifierProperty()); } Iterator<?> properties = msc.getDeclaredPropertyIterator(); while (properties.hasNext()) { handleProperty( entityType, msc.getMappedClass(), (org.hibernate.mapping.Property) properties.next()); } } // entity classes Iterator<?> classMappings = configuration.getClassMappings(); while (classMappings.hasNext()) { PersistentClass pc = (PersistentClass) classMappings.next(); EntityType entityType = createEntityType(pc.getMappedClass()); if (pc.getDeclaredIdentifierProperty() != null) { handleProperty(entityType, pc.getMappedClass(), pc.getDeclaredIdentifierProperty()); } else if (!pc.isInherited() && pc.hasIdentifierProperty()) { logger.info(entityType.toString() + pc.getIdentifierProperty()); handleProperty(entityType, pc.getMappedClass(), pc.getIdentifierProperty()); } Iterator<?> properties = pc.getDeclaredPropertyIterator(); while (properties.hasNext()) { handleProperty( entityType, pc.getMappedClass(), (org.hibernate.mapping.Property) properties.next()); } } }
public EntityMetamodel( PersistentClass persistentClass, AbstractEntityPersister persister, SessionFactoryImplementor sessionFactory) { this.sessionFactory = sessionFactory; this.persister = persister; name = persistentClass.getEntityName(); rootName = persistentClass.getRootClass().getEntityName(); entityType = sessionFactory.getTypeResolver().getTypeFactory().manyToOne(name); identifierAttribute = PropertyFactory.buildIdentifierAttribute( persistentClass, sessionFactory.getIdentifierGenerator(rootName)); versioned = persistentClass.isVersioned(); instrumentationMetadata = persistentClass.hasPojoRepresentation() ? Environment.getBytecodeProvider() .getEntityInstrumentationMetadata(persistentClass.getMappedClass()) : new NonPojoInstrumentationMetadata(persistentClass.getEntityName()); boolean hasLazy = false; propertySpan = persistentClass.getPropertyClosureSpan(); properties = new NonIdentifierAttribute[propertySpan]; List<Integer> naturalIdNumbers = new ArrayList<Integer>(); // temporary ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ propertyNames = new String[propertySpan]; propertyTypes = new Type[propertySpan]; propertyUpdateability = new boolean[propertySpan]; propertyInsertability = new boolean[propertySpan]; nonlazyPropertyUpdateability = new boolean[propertySpan]; propertyCheckability = new boolean[propertySpan]; propertyNullability = new boolean[propertySpan]; propertyVersionability = new boolean[propertySpan]; propertyLaziness = new boolean[propertySpan]; cascadeStyles = new CascadeStyle[propertySpan]; // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ // generated value strategies // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ this.inMemoryValueGenerationStrategies = new InMemoryValueGenerationStrategy[propertySpan]; this.inDatabaseValueGenerationStrategies = new InDatabaseValueGenerationStrategy[propertySpan]; boolean foundPreInsertGeneratedValues = false; boolean foundPreUpdateGeneratedValues = false; boolean foundPostInsertGeneratedValues = false; boolean foundPostUpdateGeneratedValues = false; // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Iterator iter = persistentClass.getPropertyClosureIterator(); int i = 0; int tempVersionProperty = NO_VERSION_INDX; boolean foundCascade = false; boolean foundCollection = false; boolean foundMutable = false; boolean foundNonIdentifierPropertyNamedId = false; boolean foundInsertGeneratedValue = false; boolean foundUpdateGeneratedValue = false; boolean foundUpdateableNaturalIdProperty = false; while (iter.hasNext()) { Property prop = (Property) iter.next(); if (prop == persistentClass.getVersion()) { tempVersionProperty = i; properties[i] = PropertyFactory.buildVersionProperty( persister, sessionFactory, i, prop, instrumentationMetadata.isInstrumented()); } else { properties[i] = PropertyFactory.buildEntityBasedAttribute( persister, sessionFactory, i, prop, instrumentationMetadata.isInstrumented()); } if (prop.isNaturalIdentifier()) { naturalIdNumbers.add(i); if (prop.isUpdateable()) { foundUpdateableNaturalIdProperty = true; } } if ("id".equals(prop.getName())) { foundNonIdentifierPropertyNamedId = true; } // temporary ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ boolean lazy = prop.isLazy() && instrumentationMetadata.isInstrumented(); if (lazy) hasLazy = true; propertyLaziness[i] = lazy; propertyNames[i] = properties[i].getName(); propertyTypes[i] = properties[i].getType(); propertyNullability[i] = properties[i].isNullable(); propertyUpdateability[i] = properties[i].isUpdateable(); propertyInsertability[i] = properties[i].isInsertable(); propertyVersionability[i] = properties[i].isVersionable(); nonlazyPropertyUpdateability[i] = properties[i].isUpdateable() && !lazy; propertyCheckability[i] = propertyUpdateability[i] || (propertyTypes[i].isAssociationType() && ((AssociationType) propertyTypes[i]).isAlwaysDirtyChecked()); cascadeStyles[i] = properties[i].getCascadeStyle(); // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ // generated value strategies // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ GenerationStrategyPair pair = buildGenerationStrategyPair(sessionFactory, prop); inMemoryValueGenerationStrategies[i] = pair.getInMemoryStrategy(); inDatabaseValueGenerationStrategies[i] = pair.getInDatabaseStrategy(); if (pair.getInMemoryStrategy() != null) { final GenerationTiming timing = pair.getInMemoryStrategy().getGenerationTiming(); if (timing != GenerationTiming.NEVER) { final ValueGenerator generator = pair.getInMemoryStrategy().getValueGenerator(); if (generator != null) { // we have some level of generation indicated if (timing == GenerationTiming.INSERT) { foundPreInsertGeneratedValues = true; } else if (timing == GenerationTiming.ALWAYS) { foundPreInsertGeneratedValues = true; foundPreUpdateGeneratedValues = true; } } } } if (pair.getInDatabaseStrategy() != null) { final GenerationTiming timing = pair.getInDatabaseStrategy().getGenerationTiming(); if (timing == GenerationTiming.INSERT) { foundPostInsertGeneratedValues = true; } else if (timing == GenerationTiming.ALWAYS) { foundPostInsertGeneratedValues = true; foundPostUpdateGeneratedValues = true; } } // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ if (properties[i].isLazy()) { hasLazy = true; } if (properties[i].getCascadeStyle() != CascadeStyles.NONE) { foundCascade = true; } if (indicatesCollection(properties[i].getType())) { foundCollection = true; } if (propertyTypes[i].isMutable() && propertyCheckability[i]) { foundMutable = true; } mapPropertyToIndex(prop, i); i++; } if (naturalIdNumbers.size() == 0) { naturalIdPropertyNumbers = null; hasImmutableNaturalId = false; hasCacheableNaturalId = false; } else { naturalIdPropertyNumbers = ArrayHelper.toIntArray(naturalIdNumbers); hasImmutableNaturalId = !foundUpdateableNaturalIdProperty; hasCacheableNaturalId = persistentClass.getNaturalIdCacheRegionName() != null; } this.hasPreInsertGeneratedValues = foundPreInsertGeneratedValues; this.hasPreUpdateGeneratedValues = foundPreUpdateGeneratedValues; this.hasInsertGeneratedValues = foundPostInsertGeneratedValues; this.hasUpdateGeneratedValues = foundPostUpdateGeneratedValues; hasCascades = foundCascade; hasNonIdentifierPropertyNamedId = foundNonIdentifierPropertyNamedId; versionPropertyIndex = tempVersionProperty; hasLazyProperties = hasLazy; if (hasLazyProperties) LOG.lazyPropertyFetchingAvailable(name); lazy = persistentClass.isLazy() && ( // TODO: this disables laziness even in non-pojo entity modes: !persistentClass.hasPojoRepresentation() || !ReflectHelper.isFinalClass(persistentClass.getProxyInterface())); mutable = persistentClass.isMutable(); if (persistentClass.isAbstract() == null) { // legacy behavior (with no abstract attribute specified) isAbstract = persistentClass.hasPojoRepresentation() && ReflectHelper.isAbstractClass(persistentClass.getMappedClass()); } else { isAbstract = persistentClass.isAbstract().booleanValue(); if (!isAbstract && persistentClass.hasPojoRepresentation() && ReflectHelper.isAbstractClass(persistentClass.getMappedClass())) { LOG.entityMappedAsNonAbstract(name); } } selectBeforeUpdate = persistentClass.hasSelectBeforeUpdate(); dynamicUpdate = persistentClass.useDynamicUpdate(); dynamicInsert = persistentClass.useDynamicInsert(); polymorphic = persistentClass.isPolymorphic(); explicitPolymorphism = persistentClass.isExplicitPolymorphism(); inherited = persistentClass.isInherited(); superclass = inherited ? persistentClass.getSuperclass().getEntityName() : null; hasSubclasses = persistentClass.hasSubclasses(); optimisticLockStyle = persistentClass.getOptimisticLockStyle(); final boolean isAllOrDirty = optimisticLockStyle == OptimisticLockStyle.ALL || optimisticLockStyle == OptimisticLockStyle.DIRTY; if (isAllOrDirty && !dynamicUpdate) { throw new MappingException( "optimistic-lock=all|dirty requires dynamic-update=\"true\": " + name); } if (versionPropertyIndex != NO_VERSION_INDX && isAllOrDirty) { throw new MappingException( "version and optimistic-lock=all|dirty are not a valid combination : " + name); } hasCollections = foundCollection; hasMutableProperties = foundMutable; iter = persistentClass.getSubclassIterator(); while (iter.hasNext()) { subclassEntityNames.add(((PersistentClass) iter.next()).getEntityName()); } subclassEntityNames.add(name); if (persistentClass.hasPojoRepresentation()) { entityNameByInheritenceClassMap.put( persistentClass.getMappedClass(), persistentClass.getEntityName()); iter = persistentClass.getSubclassIterator(); while (iter.hasNext()) { final PersistentClass pc = (PersistentClass) iter.next(); entityNameByInheritenceClassMap.put(pc.getMappedClass(), pc.getEntityName()); } } entityMode = persistentClass.hasPojoRepresentation() ? EntityMode.POJO : EntityMode.MAP; final EntityTuplizerFactory entityTuplizerFactory = sessionFactory.getSettings().getEntityTuplizerFactory(); final String tuplizerClassName = persistentClass.getTuplizerImplClassName(entityMode); if (tuplizerClassName == null) { entityTuplizer = entityTuplizerFactory.constructDefaultTuplizer(entityMode, this, persistentClass); } else { entityTuplizer = entityTuplizerFactory.constructTuplizer(tuplizerClassName, this, persistentClass); } }
public SessionFactoryImpl( Configuration cfg, Mapping mapping, Settings settings, EventListeners listeners, SessionFactoryObserver observer) throws HibernateException { log.info("building session factory"); Statistics concurrentStatistics = null; try { Class concurrentStatsClass = ReflectHelper.classForName("org.hibernate.stat.ConcurrentStatisticsImpl"); Constructor constructor = concurrentStatsClass.getConstructor(new Class[] {SessionFactoryImplementor.class}); concurrentStatistics = (Statistics) constructor.newInstance(new Object[] {this}); log.trace("JDK 1.5 concurrent classes present"); } catch (NoClassDefFoundError noJava5) { log.trace("JDK 1.5 concurrent classes missing"); } catch (Exception noJava5) { log.trace("JDK 1.5 concurrent classes missing"); } if (concurrentStatistics != null) { this.statistics = concurrentStatistics; } else { this.statistics = new StatisticsImpl(this); } if (log.isTraceEnabled()) { log.trace("Statistics initialized with " + statistics.getClass().getName()); } this.properties = new Properties(); this.properties.putAll(cfg.getProperties()); this.interceptor = cfg.getInterceptor(); this.settings = settings; this.sqlFunctionRegistry = new SQLFunctionRegistry(settings.getDialect(), cfg.getSqlFunctions()); this.eventListeners = listeners; this.observer = observer != null ? observer : new SessionFactoryObserver() { public void sessionFactoryCreated(SessionFactory factory) {} public void sessionFactoryClosed(SessionFactory factory) {} }; this.filters = new HashMap(); this.filters.putAll(cfg.getFilterDefinitions()); if (log.isDebugEnabled()) { log.debug("Session factory constructed with filter configurations : " + filters); } if (log.isDebugEnabled()) { log.debug("instantiating session factory with properties: " + properties); } // Caches settings.getRegionFactory().start(settings, properties); // Generators: identifierGenerators = new HashMap(); Iterator classes = cfg.getClassMappings(); while (classes.hasNext()) { PersistentClass model = (PersistentClass) classes.next(); if (!model.isInherited()) { IdentifierGenerator generator = model .getIdentifier() .createIdentifierGenerator( cfg.getIdentifierGeneratorFactory(), settings.getDialect(), settings.getDefaultCatalogName(), settings.getDefaultSchemaName(), (RootClass) model); identifierGenerators.put(model.getEntityName(), generator); } } /////////////////////////////////////////////////////////////////////// // Prepare persisters and link them up with their cache // region/access-strategy final String cacheRegionPrefix = settings.getCacheRegionPrefix() == null ? "" : settings.getCacheRegionPrefix() + "."; entityPersisters = new HashMap(); Map entityAccessStrategies = new HashMap(); Map classMeta = new HashMap(); classes = cfg.getClassMappings(); while (classes.hasNext()) { final PersistentClass model = (PersistentClass) classes.next(); model.prepareTemporaryTables(mapping, settings.getDialect()); final String cacheRegionName = cacheRegionPrefix + model.getRootClass().getCacheRegionName(); // cache region is defined by the root-class in the hierarchy... EntityRegionAccessStrategy accessStrategy = (EntityRegionAccessStrategy) entityAccessStrategies.get(cacheRegionName); if (accessStrategy == null && settings.isSecondLevelCacheEnabled()) { final AccessType accessType = AccessType.parse(model.getCacheConcurrencyStrategy()); if (accessType != null) { log.trace("Building cache for entity data [" + model.getEntityName() + "]"); EntityRegion entityRegion = settings .getRegionFactory() .buildEntityRegion( cacheRegionName, properties, CacheDataDescriptionImpl.decode(model)); accessStrategy = entityRegion.buildAccessStrategy(accessType); entityAccessStrategies.put(cacheRegionName, accessStrategy); allCacheRegions.put(cacheRegionName, entityRegion); } } EntityPersister cp = PersisterFactory.createClassPersister(model, accessStrategy, this, mapping); entityPersisters.put(model.getEntityName(), cp); classMeta.put(model.getEntityName(), cp.getClassMetadata()); } classMetadata = Collections.unmodifiableMap(classMeta); Map tmpEntityToCollectionRoleMap = new HashMap(); collectionPersisters = new HashMap(); Iterator collections = cfg.getCollectionMappings(); while (collections.hasNext()) { Collection model = (Collection) collections.next(); final String cacheRegionName = cacheRegionPrefix + model.getCacheRegionName(); final AccessType accessType = AccessType.parse(model.getCacheConcurrencyStrategy()); CollectionRegionAccessStrategy accessStrategy = null; if (accessType != null && settings.isSecondLevelCacheEnabled()) { log.trace("Building cache for collection data [" + model.getRole() + "]"); CollectionRegion collectionRegion = settings .getRegionFactory() .buildCollectionRegion( cacheRegionName, properties, CacheDataDescriptionImpl.decode(model)); accessStrategy = collectionRegion.buildAccessStrategy(accessType); entityAccessStrategies.put(cacheRegionName, accessStrategy); allCacheRegions.put(cacheRegionName, collectionRegion); } CollectionPersister persister = PersisterFactory.createCollectionPersister(cfg, model, accessStrategy, this); collectionPersisters.put(model.getRole(), persister.getCollectionMetadata()); Type indexType = persister.getIndexType(); if (indexType != null && indexType.isAssociationType() && !indexType.isAnyType()) { String entityName = ((AssociationType) indexType).getAssociatedEntityName(this); Set roles = (Set) tmpEntityToCollectionRoleMap.get(entityName); if (roles == null) { roles = new HashSet(); tmpEntityToCollectionRoleMap.put(entityName, roles); } roles.add(persister.getRole()); } Type elementType = persister.getElementType(); if (elementType.isAssociationType() && !elementType.isAnyType()) { String entityName = ((AssociationType) elementType).getAssociatedEntityName(this); Set roles = (Set) tmpEntityToCollectionRoleMap.get(entityName); if (roles == null) { roles = new HashSet(); tmpEntityToCollectionRoleMap.put(entityName, roles); } roles.add(persister.getRole()); } } collectionMetadata = Collections.unmodifiableMap(collectionPersisters); Iterator itr = tmpEntityToCollectionRoleMap.entrySet().iterator(); while (itr.hasNext()) { final Map.Entry entry = (Map.Entry) itr.next(); entry.setValue(Collections.unmodifiableSet((Set) entry.getValue())); } collectionRolesByEntityParticipant = Collections.unmodifiableMap(tmpEntityToCollectionRoleMap); // Named Queries: namedQueries = new HashMap(cfg.getNamedQueries()); namedSqlQueries = new HashMap(cfg.getNamedSQLQueries()); sqlResultSetMappings = new HashMap(cfg.getSqlResultSetMappings()); imports = new HashMap(cfg.getImports()); // after *all* persisters and named queries are registered Iterator iter = entityPersisters.values().iterator(); while (iter.hasNext()) { final EntityPersister persister = ((EntityPersister) iter.next()); persister.postInstantiate(); registerEntityNameResolvers(persister); } iter = collectionPersisters.values().iterator(); while (iter.hasNext()) { final CollectionPersister persister = ((CollectionPersister) iter.next()); persister.postInstantiate(); } // JNDI + Serialization: name = settings.getSessionFactoryName(); try { uuid = (String) UUID_GENERATOR.generate(null, null); } catch (Exception e) { throw new AssertionFailure("Could not generate UUID"); } SessionFactoryObjectFactory.addInstance(uuid, name, this, properties); log.debug("instantiated session factory"); if (settings.isAutoCreateSchema()) { new SchemaExport(cfg, settings).create(false, true); } if (settings.isAutoUpdateSchema()) { new SchemaUpdate(cfg, settings).execute(false, true); } if (settings.isAutoValidateSchema()) { new SchemaValidator(cfg, settings).validate(); } if (settings.isAutoDropSchema()) { schemaExport = new SchemaExport(cfg, settings); } if (settings.getTransactionManagerLookup() != null) { log.debug("obtaining JTA TransactionManager"); transactionManager = settings.getTransactionManagerLookup().getTransactionManager(properties); } else { if (settings.getTransactionFactory().isTransactionManagerRequired()) { throw new HibernateException( "The chosen transaction strategy requires access to the JTA TransactionManager"); } transactionManager = null; } currentSessionContext = buildCurrentSessionContext(); if (settings.isQueryCacheEnabled()) { updateTimestampsCache = new UpdateTimestampsCache(settings, properties); queryCache = settings .getQueryCacheFactory() .getQueryCache(null, updateTimestampsCache, settings, properties); queryCaches = new HashMap(); allCacheRegions.put( updateTimestampsCache.getRegion().getName(), updateTimestampsCache.getRegion()); allCacheRegions.put(queryCache.getRegion().getName(), queryCache.getRegion()); } else { updateTimestampsCache = null; queryCache = null; queryCaches = null; } // checking for named queries if (settings.isNamedQueryStartupCheckingEnabled()) { Map errors = checkNamedQueries(); if (!errors.isEmpty()) { Set keys = errors.keySet(); StringBuffer failingQueries = new StringBuffer("Errors in named queries: "); for (Iterator iterator = keys.iterator(); iterator.hasNext(); ) { String queryName = (String) iterator.next(); HibernateException e = (HibernateException) errors.get(queryName); failingQueries.append(queryName); if (iterator.hasNext()) { failingQueries.append(", "); } log.error("Error in named query: " + queryName, e); } throw new HibernateException(failingQueries.toString()); } } // stats getStatistics().setStatisticsEnabled(settings.isStatisticsEnabled()); // EntityNotFoundDelegate EntityNotFoundDelegate entityNotFoundDelegate = cfg.getEntityNotFoundDelegate(); if (entityNotFoundDelegate == null) { entityNotFoundDelegate = new EntityNotFoundDelegate() { public void handleEntityNotFound(String entityName, Serializable id) { throw new ObjectNotFoundException(id, entityName); } public boolean isEntityNotFoundException(RuntimeException exception) { return ObjectNotFoundException.class.isInstance(exception); } }; } this.entityNotFoundDelegate = entityNotFoundDelegate; // this needs to happen after persisters are all ready to go... this.fetchProfiles = new HashMap(); itr = cfg.iterateFetchProfiles(); while (itr.hasNext()) { final org.hibernate.mapping.FetchProfile mappingProfile = (org.hibernate.mapping.FetchProfile) itr.next(); final FetchProfile fetchProfile = new FetchProfile(mappingProfile.getName()); Iterator fetches = mappingProfile.getFetches().iterator(); while (fetches.hasNext()) { final org.hibernate.mapping.FetchProfile.Fetch mappingFetch = (org.hibernate.mapping.FetchProfile.Fetch) fetches.next(); // resolve the persister owning the fetch final String entityName = getImportedClassName(mappingFetch.getEntity()); final EntityPersister owner = (EntityPersister) (entityName == null ? null : entityPersisters.get(entityName)); if (owner == null) { throw new HibernateException( "Unable to resolve entity reference [" + mappingFetch.getEntity() + "] in fetch profile [" + fetchProfile.getName() + "]"); } // validate the specified association fetch Type associationType = owner.getPropertyType(mappingFetch.getAssociation()); if (associationType == null || !associationType.isAssociationType()) { throw new HibernateException( "Fetch profile [" + fetchProfile.getName() + "] specified an invalid association"); } // resolve the style final Fetch.Style fetchStyle = Fetch.Style.parse(mappingFetch.getStyle()); // then construct the fetch instance... fetchProfile.addFetch(new Association(owner, mappingFetch.getAssociation()), fetchStyle); ((Loadable) owner).registerAffectingFetchProfile(fetchProfile.getName()); } fetchProfiles.put(fetchProfile.getName(), fetchProfile); } this.observer.sessionFactoryCreated(this); }