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What issues / pitfalls must be considered when overriding equals and hashCode?

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25 Answers 25

up vote 673 down vote accepted

The theory (for the language lawyers and the mathematically inclined):

equals() (javadoc) must define an equality relation (it must be reflexive, symmetric, and transitive). In addition, it must be consistent (if the objects are not modified, then it must keep returning the same value). Furthermore, o.equals(null) must always return false.

hashCode() (javadoc) must also be consistent (if the object is not modified in terms of equals(), it must keep returning the same value).

The relation between the two methods is:

Whenever a.equals(b), then a.hashCode() must be same as b.hashCode().

In practice:

If you override one, then you should override the other.

Use the same set of fields that you use to compute equals() to compute hashCode().

Use the excellent helper classes EqualsBuilder and HashCodeBuilder from the Apache Commons Lang library. An example:

public class Person {
    private String name;
    private int age;
    // ...

    public int hashCode() {
        return new HashCodeBuilder(17, 31). // two randomly chosen prime numbers
            // if deriving: appendSuper(super.hashCode()).

    public boolean equals(Object obj) {
       if (!(obj instanceof Person))
            return false;
        if (obj == this)
            return true;

        Person rhs = (Person) obj;
        return new EqualsBuilder().
            // if deriving: appendSuper(super.equals(obj)).
            append(name, rhs.name).
            append(age, rhs.age).

Also remember:

When using a hash-based Collection or Map such as HashSet, LinkedHashSet, HashMap, Hashtable, or WeakHashMap, make sure that the hashCode() of the key objects that you put into the collection never changes while the object is in the collection. The bulletproof way to ensure this is to make your keys immutable, which has also other benefits.

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"Furthermore, o.equals(null) must always yield false if o is an object"... well, if o is not an object, you have a NullPointerException thrown. –  Lawrence Dol Mar 11 '09 at 17:57
Granted, that was a bit superfluous statement (following the style of the original javadoc for Object.equals(): "For any non-null reference value x, x.equals(null) should return false") –  Antti Sykäri May 28 '09 at 18:59
Additional point about appendSuper(): you should use it in hashCode() and equals() if and only if you want to inherit the equality behavior of the superclass. For instance, if you derive straight from Object, there's no point because all Objects are distinct by default. –  Antti Sykäri May 28 '09 at 19:03
You can get Eclipse to generate the two methods for you: Source > Generate hashCode() and equals(). –  Darthenius Nov 22 '11 at 18:58
Same is true with Netbeans: developmentality.wordpress.com/2010/08/24/… –  seinecle Aug 11 '12 at 7:59

There are some issues worth noticing if you're dealing with classes that are persisted using an Object-Relationship Mapper (ORM) like Hibernate. If you didn't think this was unreasonably complicated already!

Lazy loaded objects are subclasses

If your objects are persisted using an ORM, in many cases you will be dealing with dynamic proxies to avoid loading object too early from the data store. These proxies are implemented as subclasses of your own class. This means thatthis.getClass() == o.getClass() will return false. For example:

Person saved = new Person("John Doe");
Long key = dao.save(saved);
Person retrieved = dao.retrieve(key);
saved.getClass().equals(retrieved.getClass()); // Will return false if Person is loaded lazy

If you're dealing with an ORM using o instanceof Person is the only thing that will behave correctly.

Lazy loaded objects have null-fields

ORMs usually use the getters to force loading of lazy loaded objects. This means that person.name will be null if person is lazy loaded, even if person.getName() forces loading and returns "John Doe". In my experience, this crops up more often in hashCode and equals.

If you're dealing with an ORM, make sure to always use getters, and never field references in hashCode and equals.

Saving an object will change it's state

Persistent objects often use a id field to hold the key of the object. This field will be automatically updated when an object is first saved. Don't use an id field in hashCode. But you can use it in equals.

A pattern I often use is

if (this.getId() == null) {
    return this == other;
} else {
    return this.getId() == other.getId();

But: You cannot include getId() in hashCode(). If you do, when an object is persisted, it's hashCode changes. If the object is in a HashSet, you'll "never" find it again.

In my Person example, I probably would use getName() for hashCode and getId plus getName() (just for paranoia) for equals. It's okay if there are some risk of "collisions" for hashCode, but never okay for equals.

hashCode should use the non-changing subset of properties from equals

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@Johannes Brodwall: i don't understand Saving an object will change it's state! hashCode must return int, so how will you use getName()? Can you give an example for your hashCode –  jimmybondy Nov 1 '12 at 14:14
@jimmybondy: getName will return a String object which also has a hashCode which can be used –  mateusz.fiolka Mar 2 '13 at 13:15

If you are using Eclipse it has integrated a very cool hashCode() / equals() generator.

You just have to be on a class and do: right click > Source code > Generate hashCode() and equals()...

Then, a window will show up and you can choose the fields to include in your methods.

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If you are using NetBeans, you can use Alt + Ins to bring up the Generate menu. –  Brian DiCasa Jul 23 '11 at 14:53
It is easier in many cases but you still need to understand the reasons for this as the code generated is not always the best to use. –  Mark Aug 22 '12 at 13:43
In Intellij-IDEA, with the editor focused go to Code -> Generate -> Override Hashcode and Equals. Follow the wizard. Enjoy. (cmd+N for Mac users, Control+N for the rest) –  Martín Marconcini Oct 25 '13 at 20:20
The shortcut for eclipse is Alt+Shift+S. –  jq__ Jun 17 at 11:28

I am just referring you to items 7 and 8 in Josh Blochs excellent book "Effective Java", it has all the traps and pitfalls you need to know. The relevant chapter is even available online

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A clarification about the "obj.getClass() != getClass()".

This statement is the result of equals() being inheritance unfriendly. The JLS (Java language specification) specifies that if A.equals(B)==true then B.equals(A) must also return true. If you omit that statement inheriting classes that override equals() (and change it's behavior) will break this specification.

Consider the following example of what happens when the statement is omitted:

    class A {
      int field1;

      A(int field1) {
        this.field1 = field1;

      public boolean equals(Object other) {
        return (other != null && other instanceof A && ((A) other).field1 == field1);

    class B extends A {
        int field2;

        B(int field1, int field2) {
            this.field2 = field2;

        public boolean equals(Object other) {
            return (other != null && other instanceof B && ((B)other).field2 == field2 && super.equals(other));

Doing new A(1).equals(new A(1)) Also, new B(1,1).equals(new B(1,1)) result give out true, as it should.

This looks all very good, but look what happens if we try to use both classes:

A a = new A(1);
B b = new B(1,1);
a.equals(b) == true;
b.equals(a) == false;

Obviously, this is wrong.

If you want to ensure the symmetric condition. a=b if b=a and the Liskov substitution principle call super.equals(other) not only in the case of B instance, but check after for A instance.............

if (other instanceof B )
   return (other != null && ((B)other).field2 == field2 && super.equals(other)); 
if (other instanceof A) return super.equals(other); 
   else return false;

Which will output: a.equals(b) == true; b.equals(a) == true;

Where, if 'a' is not a reference of B, then it might be a be a reference of class A (because you extend it), in this case you call super.equals() TOO.

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You can make equals symmetric this way (if comparing a superclass object with subclass object, always use the equals of the subclass) if (obj.getClass() != this.getClass() && obj.getClass().isInstance(this)) return obj.equals(this); –  pihentagy Feb 25 '10 at 10:40
@pihentagy - then I'd get a stackoverflow when the implementation class doesn't override the equals method. not fun. –  Ran Biron Dec 6 '10 at 19:16
I can't see a stack overflow. The condition won't be true for obj.equals(this). –  Chris Nov 21 '12 at 15:12
You won't get a stackoverflow. If the equals method is not overridden, you will call the same code again, but the condition for recursion will always be false! –  Jacob Raihle Aug 4 '13 at 12:32
@pihentagy: How does that behave if there are two different derived classes? If a ThingWithOptionSetA can be equal to a Thing provided that all the extra options have default values, and likewise for a ThingWithOptionSetB, then it should be possible for a ThingWithOptionSetA to be compare equal to a ThingWithOptionSetB only if all non-base properties of both objects match their defaults, but I don't see how you test for that. –  supercat Dec 28 '13 at 19:41

For an inheritance-friendly implementation, check out Tal Cohen's solution, How Do I Correctly Implement the equals() Method?


In his book Effective Java Programming Language Guide (Addison-Wesley, 2001), Joshua Bloch claims that "There is simply no way to extend an instantiable class and add an aspect while preserving the equals contract." Tal disagrees.

His solution is to implement equals() by calling another nonsymmetric blindlyEquals() both ways. blindlyEquals() is overridden by subclasses, equals() is inherited, and never overridden.


class Point {
    private int x;
    private int y;
    protected boolean blindlyEquals(Object o) {
        if (!(o instanceof Point))
            return false;
        Point p = (Point)o;
        return (p.x == this.x && p.y == this.y);
    public boolean equals(Object o) {
        return (this.blindlyEquals(o) && o.blindlyEquals(this));

class ColorPoint extends Point {
    private Color c;
    protected boolean blindlyEquals(Object o) {
        if (!(o instanceof ColorPoint))
            return false;
        ColorPoint cp = (ColorPoint)o;
        return (super.blindlyEquals(cp) && 
        cp.color == this.color);

Note that equals() must work across inheritance hierarchies if the Liskov Substitution Principle is to be satisfied.

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Have a look at the canEqual method explained here - the same principle makes both solutions work, but with canEqual you don't compare the same fields twice (above, p.x == this.x will be tested in both directions): artima.com/lejava/articles/equality.html –  Blaisorblade Dec 14 '11 at 1:43
Nice approach. Point.equals() should be declared final. –  Paul Cantrell Apr 24 '13 at 21:49

There is an Apache Commons package that provides an EqualsBuilder and HashCodeBuilder, which use the methods described in Bloch's Effective Java, so that instead of re-coding the algorithm yourself for each Object you can use EqualsBuilder and HashCodeBuilder as helpers.

UserGuide here.

EqualsBuilders api docs.

HashCodeBuilder api docs.

The Javadocs contain some examples on how to use each.

I think the project has been around for quite a while, but I'm not sure how widely used it is or if it's functionality isn't covered in more recent versions of the JDK.

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Updated (working) links: EqualsBuilder, HashCodeBuilder –  PapaFreud Nov 13 '13 at 7:25

There are a couple of ways to do your check for class equality before checking member equality, and I think both are useful in the right circumstances.

  1. Use the instanceof operator.
  2. Use this.getClass().equals(that.getClass()).

I use #1 in a final equals implementation, or when implementing an interface that prescribes an algorithm for equals (like the java.util collection interfaces—the right way to check with with (obj instanceof Set) or whatever interface you're implementing). It's generally a bad choice when equals can be overridden because that breaks the symmetry property.

Option #2 allows the class to be safely extended without overriding equals or breaking symmetry.

If your class is also Comparable, the equals and compareTo methods should be consistent too. Here's a template for the equals method in a Comparable class:

final class MyClass implements Comparable<MyClass>


  public boolean equals(Object obj)
    /* If compareTo and equals aren't final, we should check with getClass instead. */
    if (!(obj instanceof MyClass)) 
      return false;
    return compareTo((MyClass) obj) == 0;

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+1 for this. Neither getClass() nor instanceof is a panacea, and this is a good explanation of how to approach both. Don't think there's any reason not to do this.getClass() == that.getClass() instead of using equals(). –  Paul Cantrell Apr 24 '13 at 21:48

For equals, look into Secrets of Equals by Angelika Langer. I love it very much. She's also a great FAQ about Generics in Java. View her other articles here (scroll down to "Core Java"), where she also goes on with Part-2 and "mixed type comparison". Have fun reading them!

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Still amazed that none recommended the guava library for this.

 //Sample taken from a current working project of mine just to illustrate the idea

    public int hashCode(){
        return Objects.hashCode(this.getDate(), this.datePattern);

    public boolean equals(Object obj){
        if ( ! obj instanceof DateAndPattern ) {
            return false;
        return Objects.equal(((DateAndPattern)obj).getDate(), this.getDate())
                && Objects.equal(((DateAndPattern)obj).getDate(), this.getDatePattern());
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java.util.Objects.hash() and java.util.Objects.equals() are part of Java 7 (released in 2011) so you don't need Guava for this. –  herman Jul 23 '13 at 13:33
@herman unless you are stuck with java 6 and lower ;) –  Eugene Jul 24 '13 at 5:42
of course, but you should avoid that since Oracle is not providing public updates anymore for Java 6 (this has been the case since February 2013). –  herman Jul 25 '13 at 9:48
Added missing type check. –  Andy Thomas Dec 17 '13 at 19:43
Your this in this.getDate() means nothing (other than clutter) –  Steve Kuo Apr 29 at 4:49

Sometimes, you can use Eclipse -> Source -> Generate hashCode() and equals().

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There are two methods in super class as java.lang.Object. We need to override them to custom object.

public boolean equals(Object obj)
public int hashCode()

Equal objects must produce the same hash code as long as they are equal, however unequal objects need not produce distinct hash codes.

public class Test
    private int num;
    private String data;
    public boolean equals(Object obj)
        if(this == obj)
            return true;
        if((obj == null) || (obj.getClass() != this.getClass()))
            return false;
        // object must be Test at this point
        Test test = (Test)obj;
        return num == test.num &&
        (data == test.data || (data != null && data.equals(test.data)));

    public int hashCode()
        int hash = 7;
        hash = 31 * hash + num;
        hash = 31 * hash + (null == data ? 0 : data.hashCode());
        return hash;

    // other methods

If you want get more, please check this link as http://www.javaranch.com/journal/2002/10/equalhash.html

This is another example, http://java67.blogspot.com/2013/04/example-of-overriding-equals-hashcode-compareTo-java-method.html

Have Fun! @.@

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One gotcha I have found is where two objects contain references to each other (one example being a parent/child relationship with a convenience method on the parent to get all children).
These sorts of things are fairly common when doing Hibernate mappings for example.

If you include both ends of the relationship in your hashCode or equals tests it's possible to get into a recursive loop which ends in a StackOverflowException.
The simplest solution is to not include the getChildren collection in the methods.

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I think the underlying theory here is to distinguish between the attributes, aggregates and associatinos of an object. The asssociations should not participate in equals(). If a mad scientist created a duplicate of me we would be equivalent. But we would not have the same father. –  Raedwald Sep 29 '11 at 9:28

equals() method is used to determine the equality of two objects.

as int value of 10 is always equal to 10. But this equals() method is about equality of two objects. When we say object, it will have properties. To decide about equality those properties are considered. It is not necessary that all properties must be taken into account to determine the equality and with respect to the class definition and context it can be decided. Then the equals() method can be overridden.

we should always override hashCode() method whenever we override equals() method. If not, what will happen? If we use hashtables in our application, it will not behave as expected. As the hashCode is used in determining the equality of values stored, it will not return the right corresponding value for a key.

Default implementation given is hashCode() method in Object class uses the internal address of the object and converts it into integer and returns it.

public class Tiger {
  private String color;
  private String stripePattern;
  private int height;

  public boolean equals(Object object) {
    boolean result = false;
    if (object == null || object.getClass() != getClass()) {
      result = false;
    } else {
      Tiger tiger = (Tiger) object;
      if (this.color == tiger.getColor()
          && this.stripePattern == tiger.getStripePattern()) {
        result = true;
    return result;

  // just omitted null checks
  public int hashCode() {
    int hash = 3;
    hash = 7 * hash + this.color.hashCode();
    hash = 7 * hash + this.stripePattern.hashCode();
    return hash;

  public static void main(String args[]) {
    Tiger bengalTiger1 = new Tiger("Yellow", "Dense", 3);
    Tiger bengalTiger2 = new Tiger("Yellow", "Dense", 2);
    Tiger siberianTiger = new Tiger("White", "Sparse", 4);
    System.out.println("bengalTiger1 and bengalTiger2: "
        + bengalTiger1.equals(bengalTiger2));
    System.out.println("bengalTiger1 and siberianTiger: "
        + bengalTiger1.equals(siberianTiger));

    System.out.println("bengalTiger1 hashCode: " + bengalTiger1.hashCode());
    System.out.println("bengalTiger2 hashCode: " + bengalTiger2.hashCode());
    System.out.println("siberianTiger hashCode: "
        + siberianTiger.hashCode());

  public String getColor() {
    return color;

  public String getStripePattern() {
    return stripePattern;

  public Tiger(String color, String stripePattern, int height) {
    this.color = color;
    this.stripePattern = stripePattern;
    this.height = height;


Example Code Output:

bengalTiger1 and bengalTiger2: true 
bengalTiger1 and siberianTiger: false 
bengalTiger1 hashCode: 1398212510 
bengalTiger2 hashCode: 1398212510 
siberianTiger hashCode: –1227465966
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Chapter 3 of Effective Java discusses this in depth. You can read about it here.

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link no longer leads there –  Dmide Jun 10 at 22:25

@Konrad Rudolph: this is wrong, hashCode() may very well return a different value, if any information used in equals comparisons has changed. You are right in saying, that it's best to use immutable objects as Map keys. The behaviour of all Maps (not just HashMap) is not specified if you change an object, that is used as a key for a Map, in a way that its behaviour of the equals method is changed (see Javadoc for Map).

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Besides some excellent responses above, here is an old, but useful article that would help you understand the intricacies of these methods

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Logically we have:

a.getClass().equals(b.getClass()) && a.equals(b)a.hashCode() == b.hashCode()

But not vice-versa!

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The first question you should ask is do you really need to? java.lang.Object has implementations of these methods that are sufficient for usage as hashtable keys.

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Make sure you produce a reasonably pseudo-random distribution of hashCodes otherwise you may end up with a lot of hash table entries in the same bucket and your performance will suffer. One simple technique I have sometimes used is to create a String representation of the object and return the hashCode of that.

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Reliable, but probably rather slow. –  Raedwald Sep 29 '11 at 9:29

I have an abstract test case which I can use to test an object's equal/hashCode methods. This test will attempt to verify that your equals method is reflexive, symmetric, and transitive; and your hashCode is consistent. To build a unit test, simply extend the EqualityTestCase class. For example, to test a Point class:

public class PointTest extends EqualityTestCase<Point> {
    public Point getA() { return new Point(0,0); }
    public Point getB() { return new Point(1,1); }

Additionally, the class will test other common contracts such as Serializable, Comparable and clone.

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Care to share this class? –  Roger Wernersson Mar 30 '12 at 6:54
There's a hyperlink to the class in my response. I have both JUnit 3 & 4 versions. –  brianegge Apr 2 '12 at 20:09

Just my 2 cents.

Equals and such are important and should be unit tested. Anyway if you want to have a good coverage, you need to do it.

I use a good tool for this called EqualsVerifier. It permits to check that the equals/hashcode that you implement are correct. There are also good explanations and tools to do it well.

You will find it here

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Actually, when declaring a class you know what class you want to extend, at least in case u call super.equals(). And when implementing a correct equals, you want to ensure symmetric condition (i.e. a.equals(b) if b.equals(a)) and the Liskov substitution principle.

if (other instanceof B ) {
    return (other != null && ((B)other).field2 == field2 && super.equals(other));
if (other instanceof A) {
    return super.equals(other); 
return false;

Which will output:

a.equals(b) == true;

b.equals(a) == true;

Where, if 'a' is not a reference of B, then it might be a be a reference of class A (because you extend it), in this case you call super.equals() too.

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it was ans answer to @Ran Biron with class B extending class A –  DayaMoon Feb 1 '13 at 11:06
this preserves symmetry and the Liskov substitution principle, but breaks transitivity, as described by Bloch : web.archive.org/web/20110622072109/http://java.sun.com/… (when comparing two B's with the same A...the B's may compare as different while both comparing equal to the A) –  Graham Griffiths Sep 13 '13 at 12:11

Item 8 and Item 9 of Effective Java 2nd Edition by Josh Bloch is a must read before you override any of these methods. It explains the likely issues in detail. Key is if you override one, you got to override the other too. When in doubt better to stick to Object's default implementation of these two methods. Whenever any object has a notion of logical equality then only equals and also hashcode should be overridden.

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Here's the Guerilla's guide to equals() and hashCode():

  1. Avoid using them. The design, which favours inheritance over composition, is broken. Use a typeclass design like Equal and Hash instead. By extension, the collections framework in the standard library is also broken. Don't use that either.
  2. Make your objects immutable and seal your classes (everything either abstract or final).

Be careful out there.

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The truth is unpopular. –  Apocalisp Jan 6 '13 at 0:32
I downvoted because I think this answer isn't particularly helpful. Clearly the original poster is aware that there are pitfalls to Java's approach to equality. But in order to determine the best design for his use-case, he needs to know what those pitfalls are (and perhaps the pros/cons of other approaches). Totally abandoning Java equality/collections is a major undertaking and may not be feasible (although I agree that a functional approach is often more desirable). –  shj Jan 6 '13 at 19:49

protected by Pshemo Jan 12 at 19:30

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