The typeclass Data. Bits has a method isSigned :: a -> Bool that returns True if the type of the argument is a signed type. The docs explicitly say that the argument is ignored. There are other such methods like that in the typeclass; there are also other typeclasses that have such methods. My question: why this design choice? The value depends only on the type, so why not just:

isSigned :: Bool

As a follow-up: suppose I had a custom typeclass with a nullary method method :: Bool. Would there be any reason to change it and do as Data.Bits does, that is, method :: a -> Bool?

  • 1
    There isn't one value of isSigned; there is one value per instance, and you need some way of indicating which instance to use.
    – chepner
    Feb 10 at 16:09
  • 2
    In the past w went though several solutions for this problem. Initially it was method::a->Bool to be called as method (undefined::T), knowing that the value did not matter. Then we used method::Proxy a->Bool to be called as method (Proxy::Proxy T) to make things more explicit. We had a few more vanrianta (like Tagged a Bool). Nowadays we use modern extensions and method::Bool to be called as method @T like the answer below explains.
    – chi
    Feb 10 at 19:28

1 Answer 1


In short, the argument is ignored at runtime, but the type of the argument is used during compilation to select the correct instance of isSigned to use at runtime.

Without the argument, there is no way to determine which instance should be used to resolve the value of something like isSigned :: Bool.

> class Foo a where isSigned :: Bool

<interactive>:1:19: error:
    • Could not deduce (Foo a0)
      from the context: Foo a
        bound by the type signature for:
                   isSigned :: forall a. Foo a => Bool
        at <interactive>:1:19-34
      The type variable ‘a0’ is ambiguous
    • In the ambiguity check for ‘isSigned’
      To defer the ambiguity check to use sites, enable AllowAmbiguousTypes
      When checking the class method: isSigned :: forall a. Foo a => Bool
      In the class declaration for ‘Foo’

If you enable the TypeApplications and AllowAmbiguousTypes extensions, you could do something like this:

class Foo a where
    isSigned :: Bool

instance Foo Int where
    isSigned = True

instance Foo Char where
    isSigned = False

Using isSigned alone would still be an error, but you could use isSigned @Int or isSigned @Char to get the specific value for a given type.

Back to standard Haskell, we need some way to select which instance's isSigned value is needed, and we do that by defining a function whose argument type ties it to a particular instance. The value of the argument is ignored, but the type is used during type-checking and compilation to select the correct instance.

  • 5
    Maybe it would also be interesting to mention the "visible forall in types of terms" proposal which will be part of GHC 9.10. That removes the need for ambiguous types and enforces that the type is explicitly applied.
    – Noughtmare
    Feb 10 at 16:35
  • I'm not sure where to put this in context. My (probably confused) understanding would be that the member could be defined as isSigned :: forall a -> Bool, then one could "call" isSigned Int instead of having to provide an Int value as an argument to a function?
    – chepner
    Feb 10 at 17:15
  • That's right. I think the biggest advantages are that it is local to this one function (and even to a single type variable) and that GHC could potentially produce better error messages if you forget to apply the type argument. I don't actually know what the messages look like, but I personally hate "ambiguous type variable" errors.
    – Noughtmare
    Feb 10 at 18:28
  • Actually, I see now that Section 1.2 of the proposal explains the motivation using the sizeOf :: forall a -> Sized a => Int function and shows how the error messages improve.
    – Noughtmare
    Feb 10 at 19:32
  • "Without the argument, there is no way to determine which instance should be used" Of course (slap forehead)! Thanks. Feb 11 at 0:45

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