@Override protected void deleteEntity(PersistentEntity pe, Object obj) { EntityAccess entityAccess = createEntityAccess(pe, obj); if (cancelDelete(pe, entityAccess)) { return; } for (Association association : pe.getAssociations()) { if (association.isOwningSide() && association.doesCascade(CascadeType.REMOVE)) { log.debug("cascading delete for property " + association.getName()); GraphPersistentEntity otherPersistentEntity = (GraphPersistentEntity) association.getAssociatedEntity(); Object otherSideValue = entityAccess.getProperty(association.getName()); if (association instanceof ToOne) { deleteEntity(otherPersistentEntity, otherSideValue); } else { deleteEntities(otherPersistentEntity, (Iterable) otherSideValue); } } } getCypherEngine() .execute( String.format( "MATCH (n:%s) WHERE n.__id__={id} OPTIONAL MATCH (n)-[r]-() DELETE r,n", ((GraphPersistentEntity) pe).getLabel()), Collections.singletonMap("id", entityAccess.getIdentifier())); firePostDeleteEvent(pe, entityAccess); }
protected Object getCurrentVersion(final EntityAccess ea) { Object currentVersion = ea.getProperty("version"); if (Number.class.isAssignableFrom(ea.getPropertyType("version"))) { currentVersion = currentVersion != null ? ((Number) currentVersion).longValue() : currentVersion; } return currentVersion; }
@Override protected void deleteEntities( PersistentEntity pe, @SuppressWarnings("rawtypes") Iterable objects) { List<EntityAccess> entityAccesses = new ArrayList<EntityAccess>(); List<Object> ids = new ArrayList<Object>(); Map<PersistentEntity, Collection<Object>> cascades = new HashMap<PersistentEntity, Collection<Object>>(); for (Object obj : objects) { EntityAccess entityAccess = createEntityAccess(pe, obj); if (cancelDelete(pe, entityAccess)) { return; } entityAccesses.add(entityAccess); ids.add(entityAccess.getIdentifier()); // populate cascades for (Association association : pe.getAssociations()) { Object property = entityAccess.getProperty(association.getName()); if (association.isOwningSide() && association.doesCascade(CascadeType.REMOVE) && (property != null)) { PersistentEntity associatedEntity = association.getAssociatedEntity(); Collection<Object> cascadesForPersistentEntity = cascades.get(associatedEntity); if (cascadesForPersistentEntity == null) { cascadesForPersistentEntity = new ArrayList<Object>(); cascades.put(associatedEntity, cascadesForPersistentEntity); } if (association instanceof ToOne) { cascadesForPersistentEntity.add(property); } else { cascadesForPersistentEntity.addAll((Collection<?>) property); } } } } for (Map.Entry<PersistentEntity, Collection<Object>> entry : cascades.entrySet()) { deleteEntities(entry.getKey(), entry.getValue()); } getCypherEngine() .execute( String.format( "MATCH (n:%s) WHERE n.__id__ in {ids} OPTIONAL MATCH (n)-[r]-() DELETE r,n", ((GraphPersistentEntity) pe).getLabel()), Collections.singletonMap("ids", ids)); for (EntityAccess entityAccess : entityAccesses) { firePostDeleteEvent(pe, entityAccess); } }
private void persistAssociationsOfEntity( PersistentEntity pe, EntityAccess entityAccess, boolean isUpdate) { Object obj = entityAccess.getEntity(); DirtyCheckable dirtyCheckable = null; if (obj instanceof DirtyCheckable) { dirtyCheckable = (DirtyCheckable) obj; } for (PersistentProperty pp : pe.getAssociations()) { if ((!isUpdate) || ((dirtyCheckable != null) && dirtyCheckable.hasChanged(pp.getName()))) { Object propertyValue = entityAccess.getProperty(pp.getName()); if ((pp instanceof OneToMany) || (pp instanceof ManyToMany)) { Association association = (Association) pp; if (propertyValue != null) { if (association.isBidirectional()) { // Populate other side of bidi for (Object associatedObject : (Iterable) propertyValue) { EntityAccess assocEntityAccess = createEntityAccess(association.getAssociatedEntity(), associatedObject); assocEntityAccess.setProperty(association.getReferencedPropertyName(), obj); } } Iterable targets = (Iterable) propertyValue; persistEntities(association.getAssociatedEntity(), targets); boolean reversed = RelationshipUtils.useReversedMappingFor(association); if (!reversed) { if (!(propertyValue instanceof LazyEnititySet)) { LazyEnititySet les = new LazyEnititySet( entityAccess, association, getMappingContext().getProxyFactory(), getSession()); les.addAll(targets); entityAccess.setProperty(association.getName(), les); } } } } else if (pp instanceof ToOne) { if (propertyValue != null) { ToOne to = (ToOne) pp; if (to.isBidirectional()) { // Populate other side of bidi EntityAccess assocEntityAccess = createEntityAccess(to.getAssociatedEntity(), propertyValue); if (to instanceof OneToOne) { assocEntityAccess.setProperty(to.getReferencedPropertyName(), obj); } else { Collection collection = (Collection) assocEntityAccess.getProperty(to.getReferencedPropertyName()); if (collection == null) { collection = new ArrayList(); assocEntityAccess.setProperty(to.getReferencedPropertyName(), collection); } if (!collection.contains(obj)) { collection.add(obj); } } } persistEntity(to.getAssociatedEntity(), propertyValue); boolean reversed = RelationshipUtils.useReversedMappingFor(to); String relType = RelationshipUtils.relationshipTypeUsedFor(to); if (!reversed) { getSession() .addPendingInsert( new RelationshipPendingInsert( entityAccess, relType, new EntityAccess(to.getAssociatedEntity(), propertyValue), getCypherEngine())); } } } else { throw new IllegalArgumentException( "wtf don't know how to handle " + pp + "(" + pp.getClass() + ")"); } } } }