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In Java, I have a class that represents a point with int coordinates

public class Point {
    int x = -1;
    int y = -1;

    public Point (int xNew, int yNew) {
        x = xNew; y = yNew;

    public boolean equals (Object o) {
        // no need for (o instanceof Point) by design
        return x == ((Point)o).x && y == ((Point)o).y;

I'm using objects of class Point as keys in a HashMap and as elements in a HashSet.

What would be the best candidate for the hashCode function? I would make it double so that the left part is x and the right part is y, for example: x = 4, y = 12, then the hashCode returns 4.12. But by the implementation, it cannot be double, only int.

This is not an option:

public int hashCode() {
    // no need to check for exception parseInt since x and y are valid by design
    return Integer.parseInt(Integer.toString(x) + Integer.toString(y));

because values x and y can be too long, so that together they will not be converted.

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int hashCode says return for hashcode method is int only, so double is ruled out. –  Nambari Jul 31 '12 at 14:38
Yes, that's why I got stuck for a while. –  Sophie Sperner Jul 31 '12 at 14:38

5 Answers 5

up vote 10 down vote accepted

You can't change the type of hashCode, nor should you want to.

I'd just go with something like:

public int hashCode() {
    return x * 31 + y;

Note that this means that (a, b) is different to (b, a) for most cases (unlike e.g. adding or XOR-ing). This can be useful if you often end up with keys for the "switched" values in real life.

It isn't unique - but hash codes don't have to be. They just have to be the same for equal values (for correctness), and (for efficiency) "usually" different for non-equal values, with a reasonable distribution.

In general, I usually follow the same kind of pattern as Josh Bloch suggests in Effective Java:

public int hashCode() {
    int hash = 17;
    hash = hash * 31 + field1Hash;
    hash = hash * 31 + field2Hash;
    hash = hash * 31 + field3Hash;
    hash = hash * 31 + field4Hash;
    return hash;

Where field1Hash would be the hash code for reference type fields (or 0 for a null reference), the int itself for int values, some sort of hash from 64 bits to 32 for long etc.

EDIT: I can't remember the details of why 31 and 17 work well together. The fact that they're both prime may be useful - but from what I remember, the maths behind why hashes like this are generally reasonable (though not as good as hashes where the distribution of likely values is known in advance) is either difficult or not well understood. I know that multiplying by 31 is cheap (shift left 5 and subtract the original value)...

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Could you edit to remind me (or respond via comment) why 31 is often the magic number chosen for hash codes? –  BlackVegetable Jul 31 '12 at 14:40
31 is a small prime. –  Markus Mikkolainen Jul 31 '12 at 14:43
@Matt: Please don't edit answers like that - the code you edited in would have been perfectly fine for a separate answer. –  Jon Skeet Jul 31 '12 at 16:24
@Matt: You edited my answer to edit in some extra code. It's a perfectly reasonable bit of code to include in an answer, but I don't think it makes sense to make it part of my answer. –  Jon Skeet Jul 31 '12 at 21:10
I just saw someone using hash *= 31 + field1Hash instead of hash = hash * 31 + field1Hash . DON'T do that. It changes the order of the operators as the part after the *= is evaluated at first and then multiplicated with the current hash. Just my 5 cents warning for people "optimizing" code too quickly. –  DebugErr Sep 14 '14 at 15:58

There is a common strategy of generating a hashcode operation. In your case this would be :

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


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So just return 31 * (31 + x) + y; –  Sophie Sperner Jul 31 '12 at 15:12

try adding their hashcodes. ?

return new Integer(x).hashCode()+new Integer(y).hashCode();

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it will wrap, but that does not matter since it is a hashcode.. –  Markus Mikkolainen Jul 31 '12 at 14:40
Primitive types do not have hashCode. –  Sophie Sperner Jul 31 '12 at 14:41
no but Integer does. –  Markus Mikkolainen Jul 31 '12 at 14:42
@MarkusMikkolainen Which simply returns the int it's wrapping. It would be simpler to just use x + y. –  Jeffrey Jul 31 '12 at 15:02
ah. I was not aware of the implementation of Integer.hashCode. Usually hashcodes try to avoid returning sequential hashcodes for sequential values.. –  Markus Mikkolainen Jul 31 '12 at 16:55

It's often worth considering Apache Commons HashCodeBuilder

This class enables a good hashCode method to be built for any class. It follows the rules laid out in the book Effective Java by Joshua Bloch. Writing a good hashCode method is actually quite difficult. This class aims to simplify the process

and I would definitely recommend looking at the referenced book Effective Java.

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You may want to take a look at Google Guava's Objects.hashCode(Object...) method.

public int hashCode() {
  return Objects.hashCode(x, y);
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