public Query descend(final String a_field) {
synchronized (streamLock()) {
final QQuery query = new QQuery(_trans, _this, a_field);
IntByRef run = new IntByRef(1);
if (!descend1(query, a_field, run)) {
// try to add unparented nodes on the second run,
// if not added in the first run and a descendant
// was not found
if (run.value == 1) {
run.value = 2;
if (!descend1(query, a_field, run)) {
new QConUnconditional(_trans, false).attach(query, a_field);
}
}
}
return query;
}
}
private boolean descend1(final QQuery query, final String fieldName, IntByRef run) {
if (run.value == 2 || i_constraints.size() == 0) {
// On the second run we are really creating a second independant
// query network that is not joined to other higher level
// constraints.
// Let's see how this works out. We may need to join networks.
run.value = 0; // prevent a double run of this code
stream()
.classCollection()
.attachQueryNode(
fieldName,
new Visitor4() {
boolean untypedFieldConstraintCollected = false;
public void visit(Object obj) {
Object[] pair = ((Object[]) obj);
ClassMetadata containingClass = (ClassMetadata) pair[0];
FieldMetadata field = (FieldMetadata) pair[1];
if (isTyped(field)) {
addFieldConstraint(containingClass, field);
return;
}
if (untypedFieldConstraintCollected) return;
addFieldConstraint(containingClass, field);
untypedFieldConstraintCollected = true;
}
private boolean isTyped(FieldMetadata field) {
return !Handlers4.isUntyped(field.getHandler());
}
private void addFieldConstraint(
ClassMetadata containingClass, FieldMetadata field) {
QConClass qcc =
new QConClass(
_trans, null, field.qField(_trans), containingClass.classReflector());
addConstraint(qcc);
toConstraint(i_constraints).or(qcc);
}
});
}
checkConstraintsEvaluationMode();
final BooleanByRef foundClass = new BooleanByRef(false);
Iterator4 i = iterateConstraints();
while (i.moveNext()) {
if (((QCon) i.current()).attach(query, fieldName)) {
foundClass.value = true;
}
}
return foundClass.value;
}
