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Suppose there are two classes like this:

abstract class A { /* some irrelevant methods */ }

class B extends A {
    public final int x;

    public B(final int x) {
        this.x = x;

    /* some more irrelevant methods */

Then I generate the equals() and hashCode() methods on class B using Eclipse's "Source → Generate hashCode() and equals()...". But Eclipse warns me that:

The super class 'com.example.test2.A' does not redeclare equals() and hashCode() - the resulting code may not work correctly.

So, what will make the resulting code not working correctly with the generated methods?

(BTW, the generated methods look like this:

public int hashCode() {
    final int prime = 31;
    int result = 1;
    result = prime * result + x;
    return result;

public boolean equals(Object obj) {
    if (this == obj)
        return true;
    if (obj == null)
        return false;
    if (getClass() != obj.getClass())
        return false;
    B other = (B) obj;
    if (x != other.x)
        return false;
    return true;


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This may be of interest. That said, I am not sure how it applies since A is abstract. Mostly, it tries to prevent that b.equals(a) but !a.equals(b) –  SJuan76 Apr 26 '13 at 12:47
I think your question has suffered due to the plethora of literature that explain a very similar, but crucially different scenario. Almost every answer below talks about the super class having an equals method, whereas in your example it clearly doesn't. I'm not even the question asker and I'm getting frustrated here! –  Duncan Apr 26 '13 at 18:48
@KennyTM is the warning still generated if you remove the abstract modifier? –  monkybonk05 Apr 26 '13 at 19:10
@monkybonk05 Yes, it is. –  Duncan Apr 27 '13 at 7:06

5 Answers 5

I think this warning is erroneous. Every piece of literature I've ever seen regarding equals construction (including Item 8 from Bloch), warns about situations where the parent class does implement equals.

Given that your A class is solely using reference equality, I cannot fathom a situation where your B equals method violates any of the required principles (symmetry, transitivity and reflexivity).

Bear in mind that any half-sensible equals method will have a type check. This is true of the auto-generated code in the original question:

if (getClass() != obj.getClass())
    return false;

Rather than just quoting chunks of Bloch's book and other websites, we should think long and hard about whether any of the "standard" equals problems are possible if the parent class doesn't implement equals. I would say they're not and I welcome a counter-example.

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Superclass A does not implement equals, subclass B implements it (by checking id, say) So, there can be instances where b.equals(a) because the id matches, but !a.equals(b) because they are different objects. –  SJuan76 Apr 26 '13 at 14:08
@SJuan76 Only with a poorly coded equals method that doesn't compare class types. –  Duncan Apr 26 '13 at 18:39
Check the link I provided for a better explained example of how can happen in a not so poorly coded implementation. –  SJuan76 Apr 26 '13 at 20:26
@SJuan76 Yes, but that link is only valid if the super class defines an equals method. Which isn't the case in this question. –  Duncan Apr 27 '13 at 7:05
@Duncan Jones please see my updated answer –  monkybonk05 Apr 29 '13 at 13:05

If both parent and child classes implement equals in such a way that it is not possible for two references to be considered equal unless both refer to instances of the same exact class, there won't be any inheritance-related problems with equals.

The problematic situation occurs when it is possible to have instances which are of different classes but are nonetheless supposed to compare equal. The only proper way to handle that situation is to specify that any instances which may compare equal to each other must derive from a common class, and the contract for that class must specify what equality is supposed to mean. The common class equals (which may or may not be abstract) will typically define virtual members which derived classes can override to test different aspects of equality. If, for example, the common-class equals method is something like if (other==null) return false; else return this.equals2(other) && other.equals2(this);, that will essentially guarantee symmetric behavior for any implementation of equals2 which does not mutate the objects being compared.

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You must be careful when overriding equals to adhere to a specific set of rules. See the javadoc for details. In short, two tricky parts are preserving symmetry and transitivity. According to Joshua Block's Effective Java

"There is no way to extend an instantiable class and add a value component while preserving the equals contract"

What does this mean? Well let's say you have in class A a property of type T and in subclass B another property of type V. If both classes override equals then you'll get different results when comparing A to B than B to A.

A a = new A(T obj1);
B b = new B(T obj1, V obj2);
a.equals(b) //will return true, because objects a and b have the same T reference.
b.equals(a) //will return false because a is not an instanceof B

This is a violation of symmetry. If you try and correct this by doing mixed comparisions, you'll lose transitivity.

B b2 = new B(T obj1, V obj3);
b.equals(a) // will return true now, because we altered equals to do mixed comparisions
b2.equals(a) // will return true for the same reason
b.equals(b2) // will return false, because obj2 != obj3

In this case b == a, b2 ==a, b != b2, which is a problem.


In an effort to more precisely answer the question: "what will make the resulting code not working correctly with the generated methods" let's consider this specific case. The parent class is abstract and does not override equals. I believe we can conclude that the code is safe and no violation of the equals contract has occurred. This is a result of the parent class being abstract. It cannot be instantiated, therefore the above examples do not apply to it.

Now consider the case when the parent class is concrete and does not override equals. As Duncan Jones pointed out, the warning message is still generated, and in this case seems correct to do so. By default, all classes inherit equals from Object, and will be compared based on object identify (i.e. memory address). This could result in a unsymmetrical comparison if used with a subclass that does override equals.

A a = new A();
B b = new B(T obj1);
a.equals(b) //will return false, because the references do not point at the same object
b.equals(a) //should return false, but could return true based on implementation logic. 

If b.equals(a) returns true for whatever reason, either implementation logic or programming error, a loss of symmetry will result. The compiler has no way to enforce this, hence, a warning is generated.

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Check this link Basically, the subclass can ensure that superInstance.equals(subInstance) is false, by the mechanism proposed there. –  SJuan76 Apr 26 '13 at 14:05
"There is no way to extend an instantiable class…" — But class A is abstract. –  kennytm Apr 26 '13 at 14:14
If that was true/related to the warning, you would get the warning either if the superclass was implementing equals or if it was not. –  SJuan76 Apr 26 '13 at 14:34
@monkybonk05 I'm still not convinced. Not comparing class types is such a fundamental error in an equals method, I'm not sure it's a worthy example. –  Duncan Apr 29 '13 at 13:11
@monkybonk05 But again, that relies on the super class defining equals! Sorry, but I remain firmly in the position that the warning is erroneous as I've yet to see an example of how it can go wrong (other than due to very poor equals method in the subclass). –  Duncan Apr 29 '13 at 13:35

Having waited for a time for a convincing reason, my take.

The article I linked (again, it is explains why there are issues when implementing equals in a subclass (mostly, that the instanceof check leads to asimmetries that are forbidden by the equals contract).

If your superclass does not implement equals, you may find this situation.

  • B extends A

  • B implements equals, lets say like

    public boolean equals(Object obj) {
      A a = (A) obj;  <-- this cast is the most problematic issue from this example

So you end with

A a = new A("Hello");
B b = new B("Hello");
a.equals(b) != b.equals(a);

One point that would go against this example is that your superclass is abstract, but probably Eclipse is issuing the warning in prevention that you instantiate it (or it is just that the warning check is not so fine-grained).

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As A is Abstract, eclipse wont provide warning for this reason. the actual reason for warning see my answer –  rahul maindargi Apr 26 '13 at 15:18
I think your equals example is unnecessarily poor. Why would an equals method in a B class cast the object to A? Core to any sensible equals method is a class check. I feel you've massaged your example to fit what you think is the answer. –  Duncan Apr 26 '13 at 18:43
@Duncan I'm pretty sure you're right (despite nobody agreeing with you). A superclass not implementing equals is surely no problem (Object doesn't implement it either). Overriding a non-trivial equals may be a problem as explained in the article linked, but they give an universal solution (canEqual). Unfortunately, the article is rather confusingly written. –  maaartinus Jun 15 '14 at 18:01

If there are some fields in A class then your code will consider objects with same B parts same, while their A part may be different. If it was provided, Eclipse could possibly use it in generated method

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So it's fine if A does not have any fields? –  kennytm Apr 26 '13 at 12:47
Actually, even if A has some fields, since A doesn't define its own equals(), only pointer equality will be used, so the fields shouldn't affect the result... –  kennytm Apr 26 '13 at 12:49
@KennyTM Yes, ironically the warning should probably be reversed. "Be warned, your super class does override equals". –  Duncan Apr 26 '13 at 12:52

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