private void writeCachedDirty() { Iterator4 i = _dirtyClassMetadata.iterator(); while (i.moveNext()) { PersistentBase dirty = (PersistentBase) i.current(); dirty.write(systemTransaction()); dirty.notCachedDirty(); } _dirtyClassMetadata.clear(); }
public Iterator4 executeSnapshot() { final CreateCandidateCollectionResult r = createCandidateCollection(); final Collection4 executionPath = executionPath(r); Iterator4 candidatesIterator = new Iterator4Impl(r.candidateCollection); Collection4 snapshots = new Collection4(); while (candidatesIterator.moveNext()) { QCandidates candidates = (QCandidates) candidatesIterator.current(); snapshots.add(candidates.executeSnapshot(executionPath)); } Iterator4 snapshotsIterator = snapshots.iterator(); final CompositeIterator4 resultingIDs = new CompositeIterator4(snapshotsIterator); if (!r.checkDuplicates) { return resultingIDs; } return checkDuplicates(resultingIDs); }
private Constraint addInterfaceConstraint(ReflectClass claxx) { Collection4 classes = stream().classCollection().forInterface(claxx); if (classes.size() == 0) { QConClass qcc = new QConClass(_trans, null, null, claxx); addConstraint(qcc); return qcc; } Iterator4 i = classes.iterator(); Constraint constr = null; while (i.moveNext()) { ClassMetadata classMetadata = (ClassMetadata) i.current(); ReflectClass classMetadataClaxx = classMetadata.classReflector(); if (classMetadataClaxx != null) { if (!classMetadataClaxx.isInterface()) { if (constr == null) { constr = constrain(classMetadataClaxx); } else { constr = constr.or(constrain(classMetadata.classReflector())); } } } } return constr; }