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I need to sort lists of objects with a non-static comparator that uses a value from it's outer object field.

class A {
    public int x;
    public int y;
    public int z;

    public Comparator<A> scoreComparator = new Comparator<A>() {
        public compare(A o1, A o2) {
            // System.out.println("this: " + this);
            return (int) (x * o1.x - x * o2.x);

    public A(int _x, int _y, int _z) {
        x = _x;
        y = _y;
        z = _z;

A var_1 = new A(1, 2, 3);
A var_2 = new A(5, 6, 7);
List<A> list = getMyListFromSomewhere();

// the following will produce different ordering
Collections.sort(list, var_1.scoreComparator);
Collections.sort(list, var_2.scoreComparator);

But for some reason this does not work properly. When I uncomment the println line in the comparator, it shows that the references are to A objects, but they are different within one sort() call, therefore the value of "x" is different. What am I doing wrong here?

share|improve this question

Can you explain why do you need the Comparatorto be non-static? Why not just the following?

    static class MyComparator implements Comparator {
        public compare(A o1, A o2) {
            // System.out.println("this: " + this);
            return o1.x - o2.x;

    public Comparator scoreComparator = new MyComparator();
share|improve this answer
Your example does not account for the internal state of another object. What I want to achieve is different ordering depending on what instance of A I take as a "base". For example: I have objects v1 and v2 - both instances of A. I have a list [v3, v4, v5]. When I sort with a "base" v1, I get [v4, v5, v1], when I sort "based" on v2 I get [v5, v1, v4]. The order of the sorted list depends on internal field values of v1 and v2 respectively. – osjak Sep 14 '10 at 7:35
Well your code looks all right. Can you give some examples? – gpeche Sep 14 '10 at 8:00
And anyway I would make the comparator a static class and would pass "x" as a paremeter to its constructor. – gpeche Sep 14 '10 at 8:04

That depends on what you want to achieve. The code above doesn't work because you use different values of x when you create your A instances.

Each time, you create an instance of A, you also create an instance of the comparator which is tied to the instance of A. That means the x in the compare() method is either o1.x or o2.x.

I suggest to create a new class that implements the comparator and which has a field x to make it independent of A:

public class ScoreComparator implements new Comparator<A>() {
    private int x;
    public ScoreComparator(int x) { this.x = x; }
    public compare(A o1, A o2) {
        // System.out.println("this: " + this);
        return (int) (x * o1.x - x * o2.x);
share|improve this answer
"That means the x in the compare() method is either o1.x or o2.x." -- Didn't get this?! – Sidharth Panwar Sep 14 '10 at 7:15
When I pass "var_1.scoreComparator" as my comparator, doesn't that have a reference to var_1 already? So when JVM looks at "(x * o1.x - x * o2.x)" it would translate it to "(var_1.x * o1.x - var_1.x * o2.x)". Isn't it how it works? – osjak Sep 14 '10 at 7:42
I reread your comment and I think your solution will work great for me. I can certainly pass the value of "x" to the comparator. Thank you! But I still do not understand why my solution didn't work out. – osjak Sep 14 '10 at 7:47
As for my comment: When you create an var_1, you also get a comparator for var_1. In this comparator, you access var_1.x. When you sort the list containing var_1 and var_2 using the comparator from var_1, then you will get a call to compare() with var_1 and var_2 as the values of the parameters. That means the return becomes var_1.x * var_1.x - var_1.x * var_2.x. – Aaron Digulla Sep 14 '10 at 11:41

Let's see first what the scoreComparator does. The line

(int) (x * o1.x - x * o2.x)

could be also written as

(int) x * (o1.x - o2.x)

which means the the sign of x -- positive or negative inverts comparation result will revert the ordering in the sorting list.

Casting to int is added to ensure integer overflow if values of x and o1.x or x and o2.x are too big. Again, the sign of x will just revert the ordering.

Since both var_1 and var_2 have positive values for the field x we can conclude that the second scenario causes integer overflow and different ordering. var_1.x equals to 1, and var_2.x equals to 5 which makes integer overflowing five times more probable in the latter case.

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I'm not 100% sure what you want to achieve by this design, but this is a very bad design. If you want a non-static comparator inside the same class type, try going for compareTo rather than compare. Otherwise, put the compare method in a separate class as @Aaron suggested.

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