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Why is this code correct

instance Functor IO where -- note that IO isn't parametrized, and it's correct
    fmap f action = do
        result <- action
        return (f result)

but the following code has a compiler error?

class Print a where
    print :: a -> String

data A t = A t
instance Print A where  -- error: expecting one more argument to `A'
    print a = "abc"
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up vote 9 down vote accepted

This is because the kinds don't match. Regular types have kind *, while type constructors such as A or IO have kind * -> *, indicating that they need a type parameter in order to return a type.

In the definition of the Print class, the compiler infers that since a is used as a plain type, it must have kind *. However, Functor works on type constructors of kind * -> *:

class Functor f where
  fmap :: (a -> b) -> f a -> f b

Here, f is not used as a plain type, but as a type constructor, so it's inferred kind is * -> *. You can verify this with the :kind command in GHCi:

> :kind Print
Print :: * -> Constraint
> :kind Functor
Functor :: (* -> *) -> Constraint 
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When you say

class Print a where
   print' :: a -> String

You make sure that a has to be a type, but when you say

data A t = A t

you make A a type constructor - A isn't a type, but A Int is, for example. A is a sort of function on types, but the a in the Print class has to be a type value, not a type function.

You could do

instance Print (A Int) where
  print' a = "abc"

It's OK for IO because the Functor class asks for a type constructor.

class Functor f where
  fmap :: (a -> b) -> f a -> f b

You can see that since f a is a type, f is a type constructor, just like IO and A are. You'll be able to do

instance Functor A where  -- OK, A is a constructor, Functor needs one
  fmap f (A x) = A (f x)

and you won't be able to do

instance Eq IO where -- not OK - IO is a constructor and Eq needs a type
    (==) = error "this code won't compile"

(I've used print' instead of print to avoid clashing with the standard function print.)

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Try mentally (or with a text editor) filling in the types given in the class definition with the type you've used in the instance.


class Print a where
    print :: a -> String


data A t = A t

we want

instance Print A

So, substituting a in the type class definition for the A we're saying is an instnace, we get this:

class Print A where
    print :: A -> String

Uh-oh. A -> String doesn't make sense as a type, since the function type arrow takes a type on the left and a type on the right, and gives you the function type. But A isn't a type, since you declared A with data A t; A t is a type for any type t, but A is a type constructor. It can make a type if you apply it to a type, but A itself is something different. So you can make A t into an instance of Print, but not A itself.

So why did instance Functor IO work? Lets look at the class definition:

class Functor f where
    fmap :: (a -> b) -> f a -> f b

Now lets try substituting IO for f:

class Functor IO where
    fmap :: (a -> b) -> IO a -> IO b

The IOs end up applied to type parameters, so it all works out. Here we'd run into problems if we tried to make a concrete type like Int or A t an instance of Functor.

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