If I have a type with a phantom parameter that I only sometimes care about, like this one:

data Foo p a b = Bar a b

Is there any hack way to write a type synonym Baz such that Baz a b is Foo p a b for some p that I've forgotten?

You can't do:

type Baz a b = Foo p a b

and while you can do (with appropriate extensions):

type Baz a b = forall p.Foo p a b

It doesn't seem like that does what I want, because I can't convert a value of type Foo P1 a b to type Baz a b, with a message about a "rigid type variable".

Do you need another layer of contructors to achieve this effect, as below? Could you briefly explain why?

data Baz' a b = forall p.Baz' (Foo p a b)

There isn't currently a way to do this as a type synonym. However, if you have GHC 7.10, you can turn on the PartialTypeSignatures extension and write Foo _ a b instead. Use -fno-warn-partial-type-signatures to ask GHC not to warn you about each of the holes you leave in this way.

  • You can do this by inventing fresh type variables in a lot of cases. Good idea that partial type signatures probably covers the other and saves you from having to make up unique names, thanks. – Doug McClean Apr 17 '15 at 0:16

This can't really be done reliably with type synonyms. You need either existential types or rank-n types.

The problem is that Haskell allows type synonyms to be fully intersubstitutable. I.e., when you define type Baz a b = Foo p a b, then in every context where you have Foo p a b, you would be allowed to use Baz a b, and vice-versa. So for example, if you had a function of this type:

f1 :: Foo Something a b -> Whatever Something b a

Then because of substitutability, that'd be the same type as this:

f1 :: Baz a b -> Whatever Something b a

And as this:

f1 :: Foo p a b -> Whatever Something b a

...which then you could specialize to this:

f1 :: Foo SomethingElse a b -> Whatever Something b a

So, what can you do? One is to define an existential wrapper type:

{-# LANGUAGE ExistentialTypes #-}

data Baz a b = forall p. Baz (Foo p a b)

Alternative way of doing the same thing:


data Baz a b where
     Baz :: Foo p a b -> Baz a b

Second way you could go: rank-n types and continuation-passing style:

{-# LANGUAGE RankNTypes #-}

-- To consume one of these, you pass a "callback" function to `runBaz`,
-- which is not allowed to restrict the type variable `p`.
newtype Baz a b = Baz { runBaz :: forall p r. (Foo p a b -> r) -> r }

makeBaz :: Foo p a -> Baz a b
makeBaz foo = Baz ($foo)

Third way, which you've attempted and (I'm told) doesn't work very well: type synonyms + impredicative types (which are required to get forall synonyms to occur as type arguments in many cases).

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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