4

I have a class with some non primitive members.

class Relation {
 String name;
 Role roleFrom;
 Role roleTo;
}

class Role {
  RoleType roleType;
  String details;
}
class RoleType {
  String typeName;
  String details;
}

Two relations are equal, when

  1. the name are equal
  2. the role type (identified by unique typeName) are equal for the Role members (roleFrom and roleTo)

How to write equals and hashCode for class Relation. When tried with Netbeans, it only displays 3 fields (name, roleFrom and roleTo). Is it because, one should not access the primitive types in roleFrom and roleTo (roleType -> typeName). Or, please show an implementation.

thanks.

4 Answers 4

7

When implementing hashCode() and equals() with non-primitive types of fields, it is assumed that these types also implement hashCode() and equals() correctly. So go to the other classes and implement hashCode() and equals() there (again using the auto-generation features of your IDE).

5

You should be extremely careful when overriding your equals method, the best thing to do, as noted by Joshua Bloch in "Effective Java" is not to override it at all unless it is absolutely necessary, with the default equals implementation inherited from java.lang.Object every objects is only equals to itself.

I recommend that you check the following links to learn how to appropriately implement both your equals and hashCode methods. The last link shows you how to implement those methods when you have non primitive types as well as considerations for when you're dealing with inheritance.

4
  • +1 for "the best thing to do is not to override it at all unless it is absolutely necessary"
    – whaley
    Jul 28, 2010 at 16:46
  • 1
    thanks for the reply.. I am new to Java, so I never knew it. In my case, I may do list manipulations like remove, contains, compare two relation objects. Do you think the default implementation (which I read equal to == (or same reference) ) is enough then? I retrieve my objects through JPA (hibernate). So will it be the same relation it retrieves (or in the memory) if I use the unique key to query them (in this case, name, roleFrom and roleTo). All these objects are not static or singletons.
    – bsr
    Jul 28, 2010 at 16:57
  • 2
    I'm looking at the first edition (as I don't have the second edition), but Bloch says there "So when is it appropriate to override Object.equals? When a class has a notion of logical equality different from mere object identity, and a superclass has not already overridden equals to implement the desired behavior."
    – Powerlord
    Jul 28, 2010 at 17:12
  • You're very welcome. If you're using JPA this link might help you further you're knowledge of how to safely implement these methods. docs.jboss.org/hibernate/core/3.3/reference/en/html/… and blog.andrewbeacock.com/2008/08/… :)
    – Jose Diaz
    Jul 28, 2010 at 17:15
0

One potential solution, assuming that you

  1. you must override equals for your implementations
  2. you want to be lazy
  3. you don't mind treating hashcode() and equals() methods as black boxes
  4. don't mind using an extra tool at compile time

is to try using Lombok's useful EqualsAndHashcode annotation to handle this for you. Granted, you should probably probably still read the links that @StudiousJoseph mentioned in his answer so you understand how to write proper equals/hashcode methods, but this a tool that can help relieve some of the pains and pitfalls of writing these methods yourself.

As others have mentioned, in your case, you'll need to at least use that annotation or override equals()/hashcode() on your Relations class and potentially on your Role and Roletype class too if you need custom equals behavior on them.

Edit: I just noticed you are using Netbeans. This may be relevant if you want to try Lombok: http://wiki.netbeans.org/Lombok#IDE_support

-1

As others said, you need to implement equals/hashCode for the other two classes as well. Where's an example:

class Relation {
  String name;
  Role roleFrom;
  Role roleTo;

  public int hashCode() {
    // Just a sample. super.hashCode() would probably be better
    return name.hashCode() & roleFrom.hashCode() | roleTo.hashCode();
  }

  public boolean equals(Object o) {
    if(!(o instanceof Relation)) return false;
    Relation other = (Relation)o;

    return name.equals(other.name)
      && roleFrom.equals(other.roleFrom)
      && roleTo.equals(other.roleTo);
  }
}

class Role {
  RoleType roleType;
  String details;

  public int hashCode() {
    // Just a sample. super.hashCode() would probably be better
    return roleType.hashCode();
  }

  public boolean equals(Object o) {
    if(!(o instanceof Role)) return false;
    Role other = (Role)o;

    return roleType.equals(other.roleType);
  }
}
class RoleType {
  String typeName;
  String details;

  public int hashCode() {
    // Just a sample. super.hashCode() would probably be better
    return typeName.hashCode();
  }

  public boolean equals(Object o) {
    if(!(o instanceof RoleType)) return false;
    RoleType other = (RoleType)o;

    return typeName.equals(other.typeName);
  }
}

With regard to if(!(o instanceof XYZWK)) return false;: this is basically just fail-fast for the equals method, without generating (or needing a try/catch for) a ClassCastException.

5
  • Why would super.hashCode() be better? If you override equals, you need to override hashCode.
    – Steve Kuo
    Jul 28, 2010 at 16:45
  • 1
    Umm, technically, you have a problem here. Your RoleType.equals uses only typeName, but RoleType.hashCode uses typeName and details. Thus two RoleTypes could be equal to each other but have different hash codes, which violates the contract.
    – Jay
    Jul 28, 2010 at 16:45
  • @Jay: Whoops, I meant to remove that when I realized the OP's equality for equals only depended on typeName.
    – Brian S
    Jul 28, 2010 at 18:24
  • @Steve Kuo: super.hashCode() will often be better for hashing than a custom implementation. java.lang.Object#hashCode(): "As much as is reasonably practical, the hashCode method defined by class Object does return distinct integers for distinct objects." In this case, super.hashCode() will return distinct hashes for distinct objects, while typeName.hashCode() will only return distinct hashes for distinct typeName. More distinct hashcodes is better when it comes to things like HashMap
    – Brian S
    Jul 28, 2010 at 18:25
  • Two objects equal to each other must have the same hash code. If your equals uses something other than system identity hash code for equality and you use Object's hashCode(), then it's possible to have two equals objects with a different hash code. Example: 2 distinct objects that are equals to each other will have a different system identity hash code.
    – Steve Kuo
    Jul 28, 2010 at 19:38

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