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I defined the custom exponentiation exp' function in GHCi as:

let exp' x = sum $ take 100 [(x**k) / factorial k | k <- [0..]]

which yields the following type signature:

#> :t exp'
exp' :: (Enum a, Floating a) => a -> a

However, I would have expected it to match that of the exp function, i.e.

#> :t exp
exp :: Floating a => a -> a

Can anybody explain the Enum a => a type constraint of my exp' function? Why isn't it just Floating a => a?

Thanks.

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2 Answers 2

up vote 5 down vote accepted

It originates from the k <- [0..] - that desugars to use the Enum class.

It then propagates into the final type signature because you're using (**) for exponentiation which expects its arguments to be the same type:

(**) :: Floating a => a -> a -> a

One option is to use (^) for exponentiation instead:

(^) :: (Integral b, Num a) => a -> b -> a

You'll also need to convert factorial k to the right type, with something like fromIntegral:

exp' x = sum $ take 100 [(x^k) / fromIntegral (factorial k) | k <- [0..]]

It's possibly a better fit for this case because your exponents will be integers, although it may be a bit less efficient as it uses repeated multiplication (logarithmic in the exponent) rather than constant-time floating point operations.

Alternatively (as suggested in a comment), to stick with (**), use fromIntegral to move from an enumeration over Int to the actual type you are working with:

let exp' x = sum $ take 100 [(x**fromIntegral k) / fromIntegral (factorial k)
                                                        | k <- [0..]]
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1  
Another option is [(x**k)/factorial k | k <- map fromIntegral [0..]] –  luqui Jun 29 '14 at 21:29
    
Thanks. Indeed, that makes perfect sense. I tried replacing (**) with (^) but GHCi complains that The type variable a0 is ambiguous. So I added the function signature exp' :: (Enum a, Floating a) => a -> a explicitly but that won't compile now, saying: Could not deduce (Integral a) arising from a use of ^ –  okiharaherbst Jun 29 '14 at 21:43
    
Oh yes - give [0..] a type signature (e.g. [0..] :: [Int]). Otherwise GHC doesn't know what integral type to pick for the exponent . –  Ganesh Sittampalam Jun 29 '14 at 21:53
1  
@GaneshSittampalam The problem isn't that GHC doesn't know to pick Int. In fact if Integer fit then it would default to that with no type annotation. The problem is probably that k is also used in / factorial k, and that somehow gives k's type a constraint which Int and Integer cannot fulfil. (My guess is on Fractional.) Adding another fromIntegral to that should fix it. –  Ørjan Johansen Jun 29 '14 at 22:32
1  
Try the updated versions - needed another fromIntegral as Ørjan suggested –  Ganesh Sittampalam Jun 30 '14 at 17:08

[0..] is converted into

enumFrom 0

and enumFrom has type Enum a => a -> [a] so the compiler infers that k must be an enum type.

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