class Contravariant (f :: * -> *) where
  contramap :: (a -> b) -> f b -> f a

The following code is rejected. I'm expecting to get String -> Bool (a predicate) as a result of contra-mapping Int -> Bool over String -> Int. I feel stupid as I must be making some wrong assumptions. Please help me in understanding the error message. Why is the second argument expected to be different than the one I think I need?

Prelude Control.Lens> contramap length (>0) "Hello"

<interactive>:25:19: error:
    • Couldn't match type ‘Bool’ with ‘Int’
      Expected type: [Char] -> Int
        Actual type: [Char] -> Bool
    • In the second argument of ‘contramap’, namely ‘(> 0)’
      In the expression: contramap length (> 0) "Hello"
      In an equation for ‘it’: it = contramap length (> 0) "Hello"
  • 1
    What is the Contravariant ((->) a) instance? – Alec Aug 12 '16 at 18:00
  • 2
    @Alec: There is none, because the parameter is used in positive position. – Rein Henrichs Aug 12 '16 at 18:16
  • @Alec Ah. Welp. :) – Rein Henrichs Aug 12 '16 at 18:44

Contravariant only works on the last argument of a type constructor. You might want Profunctor, which denotes type constructors that are contravariant in the second to last argument and covariant (like a regular Functor) in the last one.

<Gurkenglas> > lmap length (>0) "hello"
<lambdabot>  True
  • 3
    After some reflection, I think I like this answer better than mine! It emphasizes the same intuition that the person asking the question probably had, and addresses the issue of first type argument/second type argument for Contravariant which is probably the actual misunderstanding that happened in the asker's mind. – Daniel Wagner Aug 12 '16 at 18:33
  • Oh. I thought that a concrete Bool would be inferred by GHC somehow. But it remained as a "free variable" on the type level. In other words I thought I was working with newtype Predicate a = a -> Bool which I believe actually is contravariant. My contramap length (Predicate (>0)) now type checks. – sevo Aug 12 '16 at 19:15
  • @sevo It's about (type) argument position, not about variable vs. non-variable. The concrete Boolness is indeed inferred by GHC. Consider also newtype Predicate b a = Predicate (a -> b), which will still happily be a Contravariant instance. – Daniel Wagner Aug 12 '16 at 20:38

Actually, you're looking for the boring old covariant Functor instance.

> fmap (>0) length "Hello"

At an even higher level, you may be looking for the null function. For many types, length will traverse the entire data structure you pass to it, whereas null generally will not.

Here is a short explanation of the error message, as well. First:

contramap length :: (Contravariant f, Foldable t) => f      Int  -> f (t a)
(>0)             :: (Num a, Ord a) =>                (->) a Bool

I have aligned things in what I hope is a suggestive way. In order to apply contramap length to (>0), we would need to set f ~ (->) a and Int ~ Bool. The second is clearly impossible, so the compiler complains. (N.B. The first equation is only subtly impossible; even if you supplied a function which returned an Int you'd have a problem, but the compiler doesn't notice yet because the obvious problem with the second equation trumps it. Namely: there is no Contravariant instance for (->) a, and can't be!)

  • Which is of course (.): fmap (> 0) length = (> 0) . length – Rein Henrichs Aug 12 '16 at 18:08

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