Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Say I have a data type like the following:

data Foo = Foo { field1, field2, field3 :: Int }

And I'd like to make it an instance of Ord by comparing field1, field2, and field3 in a particular order.

I find it very annoying to write:

-- (we need Eq Foo to define Ord Foo)
instance Eq Foo where
    x == y = all id [ f x == f y
                    | f <- [field1, field2, field3] ]

instance Ord Foo where
    compare x y = case (comparing field1) x y of
        EQ -> case (comparing field2) x y of
            EQ -> (comparing field3) x y
            ord -> ord
        ord -> ord

Monads like Maybe and Either have some really nice support for this kind of thing, and I find myself wishing that Ordering had something similar, e.g.

instance Ord Foo where
    compare == comparing field1 >>= comparing field2 >>= comparing field3

...or something like that.

I've needed to do this for complex data types, where re-ordering fields in the definition and depending on default definitions for deriving (Eq, Ord) were not possible, so I'm not interested in solutions that game the default instance declarations.

Is there a more elegant, or at least more terse, way to define this kind of ordering?


share|improve this question
Here's an unrelated tip: all id is the same as and :: [Bool] -> Bool –  cdk Apr 6 at 23:12

1 Answer 1

up vote 12 down vote accepted

You can use the Monoid instance for Ordering and functions to good effect here:

instance Ord Foo where
    compare = comparing field1 <> comparing field2 <> comparing field3

Another trick you can use that generalizes more readily to the Eq instance is to use the instances for tuples:

equating = on (==)
reorder v = (field1 v, field2 v, field3 v)

instance Eq  Foo where (==)    = equating  reorder
instance Ord Foo where compare = comparing reorder
share|improve this answer
Beautiful. Thank you! –  koschei Apr 6 at 22:51

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.