Tell me more ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.
up vote 15 down vote favorite
2

If I want to declare a newtype such that type type of the value is constrained to have an instance for a type-class, it seems like I can do that with:

{-# LANGUAGE RankNTypes #-}

newtype ShowBox = ShowBox (forall a. Show a => a)

GHC compiles that just fine, but when I try and actually use ShowBox with

ShowBox "hello"

I get a compiler error

<interactive>:1:18:
    Could not deduce (a ~ [Char])
    from the context (Show a)
      bound by a type expected by the context: Show a => a
      at <interactive>:1:10-24
      `a' is a rigid type variable bound by
          a type expected by the context: Show a => a at <interactive>:1:10
    In the first argument of `ShowBox', namely `"hello"'
    In the expression: ShowBox "hello"
    In an equation for `a': a = ShowBox "hello"

Is there a way to make this work?

share|improve this question
Does this quantification mean what you think it means? I'm really not sure, myself. I'm thinking it may mean that ShowBox can only be applied to values that are precisely of type Show a => a. I am quite interested to see what is the answer to this question. – Daniel Pratt Mar 19 '12 at 23:37

2 Answers

up vote 17 down vote accepted

You're promising the compiler that the value you put inside a ShowBox will have the type forall a. Show a => a. There's only one possible value with that type, and it's _|_. I think you probably want an existential type, which looks rather similar, but means something very different.

{-# LANGUAGE ExistentialQuantification #-}

data ShowBox = forall a. Show a => ShowBox a

This must be done with data, rather than newtype. Pattern-matching on the constructor is what brings the Show instance into scope, in this case. Since newtypes have no run-time representation, they have no place to store the polymorphic witness the existential quantification implies.

share|improve this answer
3  
That is to say: the values that go in @user1279710's ShowBox have to be able to be any instance of Show, but he tried to put one particular instance of Show in. (pause for subject change) The only value of type forall a. Show a => a is _|_ in this case because the Show typeclass doesn't include any methods for constructing values of the instance type, only for consuming them. – Daniel Wagner Mar 20 '12 at 1:17
3  
It would be nice if the compiler gave warnings like "useless data declaration: Show a => a: can only be inhabited by _|_" – Dan Burton Mar 20 '12 at 6:45
Ok, that makes sense. I was hoping there was some way to do this without boxing, but I see that it isn't really possible. Thanks. – purefn Mar 20 '12 at 18:25
1  
@purefn The boxing is important. In the case of existential types with class limitations, the boxing actually stores the class dictionary at runtime. That's what's needed to actually use the class, rather than just be a limitation at construction time. – Carl Mar 20 '12 at 22:03
3  
Keep in mind that this ShowBox is essentaily the same as String. In many cases existential types can be reduced to simpler, concrete types; look for those opportunities, they could simplify your codebase. – luqui Mar 21 '12 at 1:08
up vote 6 down vote

Well, your Show constructor has this type:

Show :: (forall a. Show a => a) -> ShowBox

You're trying to apply this function to type [Char], which is not of type forall a. Show a => a, because the a is a "Skolem variable" that only be unified with another type under very strict rules (which others will be able to explain better than I can).

Are you sure the following is not what you want (modulo data vs. newtype)? Why did you scope the forall inside the constructor?

-- Show :: Show a => a -> ShowBox
data ShowBox = forall a. Show a => Show a
share|improve this answer

Your Answer

 
discard

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.