I just noticed you used class equality, not
instanceof -- meaning that reflexivity would be correct. In your example, the use of
super.equals is probably correct, as long as the superclass doesn't provide a definition of equality which is counter to the one your subclass wants (as
Object does, for instance).
The main point is that the definition of equality should come from exactly one type (class or interface) in your class's hierarchy. If the implementation of that definition takes advantage of
super.equals, that's fine.
END EDIT, original text below
It's almost certainly the wrong thing to do, because it would violate the reflective property of equality.
Let's say you have a Shape, and it's equal to another Shape if they're of the same type: Square equals Square, Circle equals Circle, etc. Now you extend that to make a ColoredSquare which adds a color check.
Shape shape1 = new Shape(SQUARE);
Shape shape2 = new ColoredShape(SQUARE, RED);
super.equals(other) && other.color == this.color, as in your question. But now, note that
shape1.equals(shape2) == true (since
shape1 just uses the
shape2.equals(shape1) == false (since it adds the color check).
The moral of the story is that using this sort of cascading equality is really hard, if not impossible. Basically, equality should come from exactly one type within your type hierarchy -- be it
Object, your type itself, a super type, or some interface which defines a contract (e.g. in the collections framework, which define equality for