Trying to design a type-driven API, I've been trying to get something like the following working (using much more complicated code/attempts, this is stripped down to the minimum required to clarify what I'm looking for):

{-# LANGUAGE DataKinds #-}
{-# LANGUAGE KindSignatures #-}

module Main where

import Data.Proxy
import GHC.TypeLits

type Printer (s :: Symbol) = IO ()

concrete :: Printer "foo"
concrete = generic

generic :: KnownSymbol s => Printer s
generic = putStrLn (symbolVal (Proxy :: Proxy s))

main :: IO ()
main = concrete

This program would print 'foo', but doesn't:

Could not deduce (KnownSymbol s0)
  arising from the ambiguity check for ‘generic’
from the context (KnownSymbol s)
  bound by the type signature for
             generic :: KnownSymbol s => Printer s
  at test5.hs:14:12-37
The type variable ‘s0’ is ambiguous
In the ambiguity check for:
  forall (s :: Symbol). KnownSymbol s => Printer s
To defer the ambiguity check to use sites, enable AllowAmbiguousTypes
In the type signature for ‘generic’:
  generic :: KnownSymbol s => Printer s

Enabling AllowAmbiguousTypes doesn't really help. Any way to get this working anyway?

  • should you provide argument to concrete on call site? – Peter K Feb 17 '15 at 22:15
  • @PeterK That could be possible, yes, but I don't see how that changes anything here? – Nicolas Trangez Feb 17 '15 at 22:29
  • Printer "foo" is exactly the same type as Printer "bar" as both are type synonyms for IO (), so this can never work in its current form. – Reid Barton Feb 17 '15 at 22:30
up vote 9 down vote accepted

Type synonyms (defined with type) are replaced with their definition during typechecking. The problem is that Printer has no reference to s in its definition, which leads to the following constraint:

generic :: KnonwSymbol s => IO ()

This type signature does not have an s right of the => and so fails the ambiguity check. It can't really work because there's nowhere to specify what s should be when you use it.

Unfortunately, GHC is inconsistent about how it represents type synonyms in error messages. Sometimes they are expanded and sometimes they are preserved. Ironically, I think improvements in the error messages have made this particular error harder to track down: normally, expressing the error in terms of the types you defined is clearer, but here it hides the cause of the ambiguity.

What you need is some way to supply the relevant type-level symbol that does not rely on type synonyms. But first, you need to enable ScopedTypeVariables and add a forall to the signature of generic to make sure the s in the type signature and the s in Proxy :: Proxy s are the same.

There are two possibilities:

  • change Printer to a newtype and unwrap it when you use it:

    newtype Printer (s :: Symbol) = Printer { runPrinter :: IO () }
    
    generic :: forall s. KnownSymbol s => Printer s
    generic = Printer $ putStrLn (symbolVal (Proxy :: Proxy s))
    
    main = runPrinter generic
    
  • pass in an extra Proxy argument to generic, just like symbolVal:

    concrete :: Printer "foo"
    concrete = generic (Proxy :: Proxy "foo")
    
    generic :: forall proxy s. KnownSymbol s => proxy s -> IO ()
    generic _ = putStrLn (symbolVal (Proxy :: Proxy s))
    

    Having proxy as a type variable is a neat idiom that lets you not depend on Data.Proxy and lets callers pass in whatever they want in its stead.

  • Thank you. In retrospect, it seems so obvious the 'phantom' args are lost when using a simple type synonym... – Nicolas Trangez Feb 20 '15 at 13:55

This is wrong:

generic :: KnownSymbol s => Printer s
generic = ...(Proxy :: Proxy s)

The last s has nothing to do with the s above it. It is locally implicitly universally quantified, as in top-level type annotations. The code actually means

generic :: KnownSymbol s => Printer s
generic = ...(Proxy :: forall z. Proxy z)

To fix the above, enable ScopedTypeVariables and use

-- the explicit forall makes s available below
generic :: forall s. KnownSymbol s => Printer s
generic = ...(Proxy :: Proxy s)

There are other issues, though, as Tikhon Jelvis points out in his answer.

  • ScopedTypeVariables is necessary but not sufficient: the ambiguity check still fails for the code, even with proper scoping. – Tikhon Jelvis Feb 17 '15 at 22:27

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