# Returning subclass object from superclass method

I keep coming back to variants of this problem: it probably has a very simple solution, but I can't seem to figure it out...

I have a bunch of classes of the form xQuantity, e.g. DistanceQuantity, AreaQuantity, etc., which extend a class DimensionQuantity. Now you can add or subtract DistanceQuantity's or AreaQuantity's, etc., but you can't mix them, so I think I need to have (short) add, subtract, etc., methods in the subclasses, but I want to reduce any logic duplication to a minimum. However, I need to return an object of the subclass, and this seems difficult to do from the superclass method. I believe this can be done using reflection, but AFAIK you still need to do a cast at the end in the subclass method, and I am told that reflection can be expensive... The best I have come up with so far is:

In DistanceQuantity (and the other similar ones):

``````public DistanceQuantity() {
}

DistanceQuantity dn = new DistanceQuantity();
Object o = super.add(dn, this, d1, DistanceUnit.REF_UNIT);
return (DistanceQuantity) o;
}
``````

In DimensionQuantity (minus some less relevant statements):

``````public Object add(DimensionQuantity dn, DimensionQuantity d1, DimensionQuantity d2,
AbstractUnit au) {
dn.unit = au;
dn.scalar = d1.scalar + d2.scalar;
dn.units = dn.scalar;
return dn;
}
``````

Can anyone come up with leaner code - that is still type-safe? TIA

-

You can use Generics like this :

``````public abstract class DimensionQuantity<T extends DimensionQuantity>{
}
``````

and you extends it like this :

``````public class DistanceQuantity extends DimensionQuantity<DistanceQuantity>{
//Whatever
return null;
}
}
``````

And for the initial question, it's a really bad idea (and a bad practice) to have a superclass which uses one of its sub-classes.

Resources :

On the same topic :

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it's better (clearer once you have lots of generics) to name the generics something closer to T_DimensionQuantity – Egwor Aug 30 '10 at 19:21
You forgot the abstract keyword. ;) Just using 'T' is pretty standard practice I think. – Michael Aug 30 '10 at 19:26
@mangst thanks, it's abstract now. @Egwor, like @mangst said, T is common. T for Type, in Collection it's E for Element, in Map it's K and V for Key and Value. Usually it's the first letter of your generics meaning. – Colin Hebert Aug 30 '10 at 19:32
@Colin Do you consider the design of the `Ordering` class from Guava also bad, because it relies directly on sub classes (`nullsLast`, `reverse`, ...)? Just curious. – whiskeysierra Aug 30 '10 at 20:17
@Willi Schönborn Well, to be precise as long as the subclasses aren't part of the public interface of the parent, it's not that bad. And I shouldn't have used "Design flaw" but rather "Bad practice". – Colin Hebert Aug 30 '10 at 20:29

In Java 6, you can try something like that. But using generics is also a good idea :

``````public abstract class DimensionQuantity {

protected int quantity;

public DimensionQuantity (int quantity) {
this.quantity = quantity;
}

}

public class DistanceQuantity extends DimensionQuantity {

public DistanceQuantity(Quantity quantity) {
super(quantity);
}

/*
* A sub-class as return type is authorized.
* If dq is not a DistanceQuantity, a ClassCastException is thrown, but you can change this.
*/
@Override
public DistanceQuantity add(DimensionQuantity dq) throws ClassCastException {
return new DistanceQuantity(this.quantity + (DistanceQuantity) dq.quantity);
}
}
``````
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But now you can add an AreaQuantity to your DistanceQuantity. – Colin Hebert Aug 30 '10 at 19:26
Yes, but this will result in a ClassCastException. So this action is forbidden and will be detected quickly (but at runtime and not a compilation). – Benoit Courtine Aug 30 '10 at 19:30
It's really dangerous, and if you cast your DistanceQuantity into a DimensionQuantity you don't even know what to do without risking a CCE. – Colin Hebert Aug 30 '10 at 19:34

Create an enum for the Dimensions:

public enum Dimension { AREA, DISTANCE,...}

Throw away your subclasses. Instead create only DimensionQuantity objects, and force each to have an (immutable) Dimension, set at create time.

Implement addition in DimensionQuantity, first checking that the Dimensions of the two quantities being added are the same.

Voila! Fewer classes, type safety, no duplicate code.

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"first checking that the Dimensions of the two quantities being added are the same. " - that sounds like run-time to me! – Paul Morrison Sep 1 '10 at 17:23