I have a search API that can abstractly search for properties of referenced entities defined in a persistence scheme. For example i have something like these entities:
@Entity
public class EntityA {
@Column
private String someProperty;
@Column
private EntityB someReference;
}
@Entity
public class EntityB {
@Column
private String someProperty;
@Column
private Set<EntityC> someReferences;
}
@Entity
public class EntityC {
@Column
private String someProperty;
}
With these entities i can traverse paths (for example when my root is EntityA and im sure that the user searches for a string field within:
private Expression<String> getExpression(Root<T> root, String fieldName) {
String[] propertySplit = fieldName.split("\\.");
Path<String> path = null;
for (String property : propertySplit) {
if (path == null) {
path = root.get(property);
continue;
}
path = path.get(property);
}
return path;
}
Assuming that is currently EntityA i can call the getExpression method like this:
[...]
criteriaBuilder.equal(getExpression(entityARoot, "someProperty"), "myValue");
[...]
And i also can invoke references:
[...]
criteriaBuilder.equal(getExpression(entityARoot, "someReference.someProperty"), "myValue");
[...]
But when the path encounters a Collection Type, then this doesn't work, but i want to do something like this:
[...]
criteriaBuilder.equal(getExpression(entityARoot, "someReference.someReferences.someProperty"), "myValue");
[...]
Im getting the following exception:
java.lang.IllegalStateException: Illegal attempt to dereference path source [null.someReferences] of basic type
I know that there must be a way to archive that since Spring Data can do that with Method-Names in Repositories too. My goal is to create a function that can traverse any unknown object as long as the final attribute i am checking is the type i know of. So i know every time whether the criteria should compare String, Integer, Boolean, Date etc.
root.join(property)
orpath.join(property)
in the cases in which the exception is thrown? See stackoverflow.com/questions/53820207/….get(property)
to an interface that contains thatjoin()
method and call it. I think the best way to check this is by debugging and watching for the real class of the returned object byget(property)
. Thejoin()
method is declared in theFrom<>
interface, andRoot<>
inherits from it: docs.oracle.com/javaee/7/api/javax/persistence/criteria/….Class rootClass = ((RootImpl) root).getEntityType().getJavaType();
with reflection you can find out information about the field root.property and act accordingly: if root.property is a leaf you just create your predicate; while if you are in the case root.property1.property2.property3 and you find out property1 is an @Entity you join the entity and apply the same mechanism on the rest of the path joinProperty1.property2.property3