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How can i test this hashCode function?

public int hashCode(){
    int result = 17 + hashDouble(re);
    result = 31 * result + hashDouble(im);
    return result;
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6 Answers 6

up vote 24 down vote accepted

Whenever I override equals and hash code, I write unit tests that follow Joshua Bloch's recommendations in "Effective Java" Chapter 3. I make sure that equals and hash code are reflexive, symmetric, and transitive. I also make sure that "not equals" works properly for all the data members.

When I check the call to equals, I also make sure that the hashCode behaves as it should. Like this:

public void testEquals_Symmetric() {
    Person x = new Person("Foo Bar");  // equals and hashCode check name field value
    Person y = new Person("Foo Bar");
    Assert.assertTrue(x.equals(y) && y.equals(x));
    Assert.assertTrue(x.hashCode() == y.hashCode());
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On top of this, you could add that it would be reasonable to test that modifications to non-key fields do not cause a modified hashCode to be generated. Also that modifications to key fields do cause modified hashCodes. –  Ben Hardy Feb 5 '12 at 17:48

Create many (millions of) reproduceably random objects and add all the hashCodes to a Set and check you get almost and many unqiue values as the number of generate ids. To make them reproduceable random use a fixed random seed.

Additionally check you can add these Items to a HashSet and find them again. (Using a differnt object with the same values)

Make sure your equals() matches your hashCode() behaviour. I would also check that your fields are all final.

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I've downvoted this for the simple reason that adding randomness to a unit test is a Bad Thing - since the first thing you want to know is why the test failed - which is very difficult if its inputs are random. Plus you may need to run billions of objects through your hashcode method to get confidence, and that may mean your unit test takes a very long time to run, which is also a bad thing. –  PaulJWilliams Dec 15 '10 at 12:22
No reason given for the down votes. An explaination would be helpful. –  Peter Lawrey Dec 15 '10 at 12:22
@Visage, How does using non-random data tell you why a test fails, all you need is reproduceability to help diagnose a failed test. You cannot achieve the level of proof you claim with any realistic test driven development. However, you can say when the test fails that you have a problem. –  Peter Lawrey Dec 15 '10 at 12:25
@Visage, billions isn't that many, but millions would find most bugs. Just a single test can find a bugs surprising often. –  Peter Lawrey Dec 15 '10 at 12:28
I don't think it's a bad answer. If the randomness is used to build up a statistical profile, why is that bad? And the length of time it takes to run shouldn't be the deciding factor in whether or not to write a test. It's possible to divide your tests into fast ones that you run every time and longer-running tests that are at your discretion and don't need to be run unless changes are made. Peter's answer doesn't deserve a down vote, in my opinion. –  duffymo Dec 15 '10 at 12:30

hashCode is overrided so as to make instances with same fields identical for HashSet/HashMap etc. So Junit test should assert that two different instances with same values return identical hashCode.

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Thank you very much. –  Tomasz Gutkowski Dec 15 '10 at 12:23
One test is useful, but testing millions of values would be more useful and still take less than a second. –  Peter Lawrey Dec 15 '10 at 12:33

I don't think there's a need to unit-test a hashcode method. Especially if it is generated by either your IDE or a HashCodeBuilder (apache commons)

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Reading the code, is possibly the best check to ensure it makes sense. i.e. its hard to find pathelogical cases by trial and error. –  Peter Lawrey Dec 15 '10 at 12:19

When you write a mathematical function in general (like hash code) you test some examples in your tests until you are convinced that the function works as expected. How many examples that are depends on your function.

For a hash code function I'd think you test at least that two distinct objects, that are considered equal have the same hash code. Like

assertNotSame(obj1, obj2); // don't cheat
assertEquals(obj1.hashcode(), obj2.hashcode());

Further you should test that two different values have different hash codes to avoid implementing hashcode() like return 1;.

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