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# Boolean.hashCode()

The hashCode() method of class Boolean is implemented like this:

``````public int hashCode() {
return value ? 1231 : 1237;
}
``````

Why does it use 1231 and 1237? Why not something else?

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## 3 Answers

1231 and 1237 are just two (sufficiently large) arbitrary prime numbers. Any other two large prime numbers would do fine.

Why primes?
Suppose for a second that we picked composite numbers (non-primes), say 1000 and 2000. When inserting booleans into a hash table, true and false would go into bucket `1000 % N` resp `2000 % N` (where `N` is the number of buckets).

Now notice that

• `1000 % 8` same bucket as `2000 % 8`
• `1000 % 10` same bucket as `2000 % 10`
• `1000 % 20` same bucket as `2000 % 20`
• ....

in other words, it would lead to many collisions.

This is because the factorization of 1000 (23, 53) and the factorization of 2000 (24, 53) have so many common factors. Thus prime numbers are chosen, since they are unlikely to have any common factors with the bucket size.

Why large primes. Wouldn't 2 and 3 do?
When computing hash codes for composite objects it's common to add the hash codes for the components. If too small values are used in a hash set with a large number of buckets there's a risk of ending up with an uneven distribution of objects.

Do collisions matter? Booleans just have two different values anyway?
Maps can contain booleans together with other objects. Also, as pointed out by Drunix, a common way to create hash functions of composite objects is to reuse the subcomponents hash code implementations in which case it's good to return large primes.

Related questions:

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I suppose these are sufficiently large. To get a gcd greater than 1, you'd need at least `2*1231 = 2462` buckets. Are collisions a problem in such a situation? – aioobe Oct 12 '10 at 7:16
Interesting though that they are not really "fairly large" considering what can fit into an int. I suppose they are just big enough to work well with the JDK Hashtable, but still small enough to minimize calculation costs. – Thilo Oct 12 '10 at 7:45
Yes, it struck me too that they're not that large. But do you believe there is a higher cost with larger primes? – aioobe Oct 12 '10 at 7:52
@Thilo you'd need a multiple of 1231*1237 = 1,522,747 buckets before they would collide, that is plenty large enough – ratchet freak Mar 27 '14 at 13:25
@Chris, made a mistake. Thanks for pointing it out. Answer updated. – aioobe Mar 28 '14 at 18:57

These two numbers are sufficiently big prime numbers. Please read the article on Hash Table on Wikipedia for further info.

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What is it in the wikipedia article that's relevant for this question? Could you post a citation? – aioobe Oct 12 '10 at 7:10
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Andresch Serj Apr 28 '14 at 12:57

They are both primes :)

Possibly related:

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