use of org.hibernate.envers.internal.entities.EntitiesConfigurations in project hibernate-orm by hibernate.
the class EntitiesConfigurator method configure.
public EntitiesConfigurations configure(MetadataImplementor metadata, ServiceRegistry serviceRegistry, ReflectionManager reflectionManager, MappingCollector mappingCollector, GlobalConfiguration globalConfiguration, AuditEntitiesConfiguration auditEntitiesConfiguration, AuditStrategy auditStrategy, Document revisionInfoXmlMapping, Element revisionInfoRelationMapping) {
// Creating a name register to capture all audit entity names created.
final AuditEntityNameRegister auditEntityNameRegister = new AuditEntityNameRegister();
// Sorting the persistent class topologically - superclass always before subclass
final Iterator<PersistentClass> classes = GraphTopologicalSort.sort(new PersistentClassGraphDefiner(metadata)).iterator();
final ClassesAuditingData classesAuditingData = new ClassesAuditingData();
final Map<PersistentClass, EntityXmlMappingData> xmlMappings = new HashMap<>();
// Reading metadata from annotations
while (classes.hasNext()) {
final PersistentClass pc = classes.next();
// Ensure we're in POJO, not dynamic model, mapping.
if (pc.getClassName() != null) {
// Collecting information from annotations on the persistent class pc
final AnnotationsMetadataReader annotationsMetadataReader = new AnnotationsMetadataReader(globalConfiguration, reflectionManager, pc);
final ClassAuditingData auditData = annotationsMetadataReader.getAuditData();
classesAuditingData.addClassAuditingData(pc, auditData);
}
}
// Now that all information is read we can update the calculated fields.
classesAuditingData.updateCalculatedFields();
final AuditMetadataGenerator auditMetaGen = new AuditMetadataGenerator(metadata, serviceRegistry, globalConfiguration, auditEntitiesConfiguration, auditStrategy, revisionInfoRelationMapping, auditEntityNameRegister);
// First pass
for (Map.Entry<PersistentClass, ClassAuditingData> pcDatasEntry : classesAuditingData.getAllClassAuditedData()) {
final PersistentClass pc = pcDatasEntry.getKey();
final ClassAuditingData auditData = pcDatasEntry.getValue();
final EntityXmlMappingData xmlMappingData = new EntityXmlMappingData();
if (auditData.isAudited()) {
if (!StringTools.isEmpty(auditData.getAuditTable().value())) {
auditEntitiesConfiguration.addCustomAuditTableName(pc.getEntityName(), auditData.getAuditTable().value());
}
auditMetaGen.generateFirstPass(pc, auditData, xmlMappingData, true);
} else {
auditMetaGen.generateFirstPass(pc, auditData, xmlMappingData, false);
}
xmlMappings.put(pc, xmlMappingData);
}
// Second pass
for (Map.Entry<PersistentClass, ClassAuditingData> pcDatasEntry : classesAuditingData.getAllClassAuditedData()) {
final EntityXmlMappingData xmlMappingData = xmlMappings.get(pcDatasEntry.getKey());
if (pcDatasEntry.getValue().isAudited()) {
auditMetaGen.generateSecondPass(pcDatasEntry.getKey(), pcDatasEntry.getValue(), xmlMappingData);
try {
mappingCollector.addDocument(xmlMappingData.getMainXmlMapping());
for (Document additionalMapping : xmlMappingData.getAdditionalXmlMappings()) {
mappingCollector.addDocument(additionalMapping);
}
} catch (DocumentException e) {
throw new MappingException(e);
}
}
}
// Only if there are any versioned classes
if (auditMetaGen.getEntitiesConfigurations().size() > 0) {
try {
if (revisionInfoXmlMapping != null) {
mappingCollector.addDocument(revisionInfoXmlMapping);
}
} catch (DocumentException e) {
throw new MappingException(e);
}
}
return new EntitiesConfigurations(auditMetaGen.getEntitiesConfigurations(), auditMetaGen.getNotAuditedEntitiesConfigurations());
}
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