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If I implement equals() and hashCode() in both the parent and child classes, is it necessary to call super.equals() in equals() in the child class, e.g.

public boolean equals(Object obj) {

  if (obj.getClass() != ChildClass.class) {
    return false;

  return super.equals() && this.var == ((ChildClass) obj).var;

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P.S. I am assuming that the parent class is not Object and is giving the correct definition of equals and hashCode. – BJ Peter DeLaCruz Apr 20 '12 at 22:04
up vote 7 down vote accepted

No, that's not necessary, and would probably be wrong. Indeed, part of the reason why you're overriding equal is because super.equals doesn't give the correct behaviour (right?).

Or put another way, if super.equals gives the correct behaviour, you probably don't need to go to the trouble of overriding it.

But if you are overriding equals, then yes, you need to override hashCode, too.

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SuperClass.equals can obviously only compare SuperClass instances and does not know anything about SubClass. That's why SubClass must override it, even if it is perfectly correct in terms of SuperClass. But it would be foolish to reimplement its behaviour in SubClass (or in each of many subclasses) instead of calling super.equals (before comparing the subclass parts), right? – Péter Török Apr 20 '12 at 21:31
Well, if value equality is being implemented, it can be necessary to call super.equals() to have inherited fields checked for equality... – Alan Apr 20 '12 at 21:31
actually, many times you only need to add checks for additional fields (as @Alan mentioned), so calling super.equals() is necessary. additionally, if you are only adding fields, you don't need to override hashCode(). – jtahlborn Apr 20 '12 at 22:03
If super.equals(o), then it should always be the case that this.equals(o), if this class and the super class satisfy the equals contract. – Louis Wasserman Apr 20 '12 at 23:14
@LouisWasserman, you are correct, but this seems impossible to achieve unless the super class explicitly checks that the compared object has exactly the same class (and not a subclass of it). I looked at a random class from the JDK: superclass java.awt.Color simply compares the RGB values of both objects (casting the other to Color). Subclass javax.swing.plaf.nimbus.DerivedColor checks that the other instance is also DerivedColor. So calling equals on Color with DerivedColor as argument can return true (if both have the same rgb values) while the inverse will always return false. – herman Feb 18 '13 at 15:21

If your super class doesn't implement equals, then calling super.equals will get you the Object implementation which only compares references, so in any normal equals implementation where you want to compare a business key it would actually cause a lot of false negatives.

That said, your implementation above really isn't any different semantically than the default equals implementation in Object since you are just using == for comparison.

As for hashCode, if you override equals you really should override hashCode in order to keep the contract of the two. For instance, if you are using a business key for equals you should probably use the same business key for the hashcode so that two objects that are equal generate the same hashcode.

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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);

You implement ColoredSquare.equals as super.equals(other) && other.color == this.color, as in your question. But now, note that shape1.equals(shape2) == true (since shape1 just uses the Shape.equals), but 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 Set, List, etc).

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The moral of the story is rather that you should only inherit from abstract classes, not from concrete ones. It is violation of this rule which causes the problems you describe nicely, not calling super.equals from the subclass equals method. – Péter Török Apr 20 '12 at 21:35
@PéterTörök I'm not sure how that applies, since an abstract class could still provide equals and hashCode. In my example, pretend Shape is abstract and has two subclasses, ColoredShape and ColorlessShape, only the latter of which adds the color check to equality. Same problem. – yshavit Apr 20 '12 at 21:37
No, because if Shape is abstract, you can't have plain Shape objects, only ColoredShapes and/or ColorlessShapes. And for these you can implement equals correctly with or without reusing super.equals. Because you can never have a situation where objectOfA is a B but objectOfB is not an A. – Péter Török Apr 20 '12 at 21:39
@PéterTörök Again, imagine that Shape (the abstract class) provides an implementation for equals. ColorlessShape doesn't touch it, while ColoredShape adds the extra check. now colorlessSquare.equals(redSquare) != redSquare.equals(colorlessSquare). – yshavit Apr 20 '12 at 21:41
ColorlessShape must override equals of course, just as any other concrete classes. And if you ask what's the point in doing so, I ask back what's the point in extending a superclass without adding any new property to it :-) – Péter Török Apr 20 '12 at 21:44

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