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recursion - Haskell, polyvariadic function and type inference

While looking for Polyvariadic function examples, I found this resource: StackOverflow: How to create a polyvariadic haskell function?, and there was an answer snippet like this:

class SumRes r where 
  sumOf :: Integer -> r

instance SumRes Integer where
  sumOf = id

instance (Integral a, SumRes r) => SumRes (a -> r) where
  sumOf x = sumOf . (x +) . toInteger

Then we could use:

*Main> sumOf 1 :: Integer
1
*Main> sumOf 1 4 7 10 :: Integer
22
*Main> sumOf 1 4 7 10 0 0  :: Integer
22
*Main> sumOf 1 4 7 10 2 5 8 22 :: Integer
59

I tried out to change it a little bit, just for curiosity, because I found it pretty tricky at first glance, and I got into this:

class SumRes r where
  sumOf :: Int -> r

instance SumRes Int where
  sumOf = id

instance (SumRes r) => SumRes (Int -> r) where
  sumOf x = sumOf . (x +)

I just changed Integer to Int and turned instance (Integral a, SumRes r) => SumRes (a -> r) where less polymorphic to instance (SumRes r) => SumRes (Int -> r) where

To compile it I had to set XFlexibleInstances flag. When I tryed to test sumOf function I got a problem:

*Main> sumOf 1 :: Int
1
*Main> sumOf 1 1 :: Int
<interactive>:9:9
    No instance for (Num a0) arising from the literal `1'
    The type variable `a0' is ambiguous...

Then I tried:

*Main> sumOf (1 :: Int) (1 :: Int) :: Int
2

Why can't Haskell infer that we want an Int in this situation, considering we are using Int within our SumRes typeclass?

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The instance

instance (...) => SumRes (Int -> r) where

roughly means "here's how to define SumRes on Int -> r for any r (under certain conditions)". Compare it with

instance (...) => SumRes (a -> r) where

which means "here's how to define SumRes on a -> r for any a,r (under certain conditions)".

The main difference is that the second one states that this is the relevant instance whichever the types a,r might be. Barring some (very tricky and potentially dangerous) Haskell extension, one can not add more instances later on involving functions. Instead, the first one leaves room for new instances such as e.g.

instance (...) => SumRes (Double -> r) where ...
instance (...) => SumRes (Integer -> r) where ...
instance (...) => SumRes (Float -> r) where ...
instance (...) => SumRes (String -> r) where ... -- nonsense, but allowed

This is paired with the fact that numeric literals such as 5 are polymorphic: their type must be inferred from the context. Since later on the compiler might find e.g. a Double -> r instance and choose Double as the literal types, the compiler does not commit to the Int -> r instance, and reports the ambiguity in a type error.

Note that, using some (safe) Haskell extensions (such as TypeFamilies), it is possible to "promise" to the compiler that your Int -> r is the only one that will be declared in the whole program. This is done like this:

instance (..., a ~ Int) => SumRes (a -> r) where ...

This promises to handle all the "functional type" cases, but requires that a is actually the same type as Int.


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