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GHCI will give me a type for 1 ++ 2:

$ ghci
GHCi, version 7.4.2: http://www.haskell.org/ghc/  :? for help
Loading package ghc-prim ... linking ... done.
Loading package integer-gmp ... linking ... done.
Loading package base ... linking ... done.
Prelude> :t 1 ++ 2
1 ++ 2 :: Num [a] => [a]

But this is obviously wrong. If I try and evaluate it, instead of just type check it, things correctly fail:

Prelude> 1 ++ 2

<interactive>:3:1:
    No instance for (Num [a0])
      arising from the literal `1'
    Possible fix: add an instance declaration for (Num [a0])
    In the first argument of `(++)', namely `1'
    In the expression: 1 ++ 2
    In an equation for `it': it = 1 ++ 2

What gives?

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5  
+1 for the title –  Mysticial Feb 23 '13 at 22:30
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2 Answers 2

up vote 23 down vote accepted

But this is obviously wrong.

No, it's completely correct.

The type of (++) is

(++) :: [a] -> [a] -> [a]

and the type of integer literals is

1 :: Num n => n

So the type [a] that an argument of (++) must have is unified with the type Num n => n that a literal has, giving

1 ++ 2 :: Num [a] => [a]

and if you have a list type with a Num instance, that expression can also be evaluated.

But, by default, there is no Num instance for list types available, so when you try to evaluate it, ghci complains that it finds no Num instance for [a].

For example:

Prelude> instance Num a => Num [a] where fromInteger n = Data.List.genericReplicate n 1 

<interactive>:2:10: Warning:
    No explicit method or default declaration for `+'
    In the instance declaration for `Num [a]'

<interactive>:2:10: Warning:
    No explicit method or default declaration for `*'
    In the instance declaration for `Num [a]'

<interactive>:2:10: Warning:
    No explicit method or default declaration for `abs'
    In the instance declaration for `Num [a]'

<interactive>:2:10: Warning:
    No explicit method or default declaration for `signum'
    In the instance declaration for `Num [a]'
Prelude> 1 ++ 2 :: [Int]
[1,1,1]
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So does that mean ghci isn't fully type checking the expression? What's the step that isn't being made by ghci to go from Num [a] to "there is no Num [a]"? –  Dave Feb 23 '13 at 14:41
2  
It infers (and checks) the type as far as it can be inferred. What it doesn't do is checking if the instances currently in scope allow the type variables to be instantiated in a way that would yield a well-typed monomorphic expression. That's good, since sometimes you want to check what type an expression has without having defined necessary instances to evaluate such an expression. When the expression shall be evaluated, the type variables have to be instantiated to get a monomorphic type, and then ghci looks for the necessary instances. If instances are missing, that is reported. –  Daniel Fischer Feb 23 '13 at 14:55
9  
A No instance ... message doesn't mean that the expression is inherently not-well-typed, it is (real type errors get different messages); by adding the missing instances, you can (almost always) get ghci to accept and evaluate it. –  Daniel Fischer Feb 23 '13 at 14:59
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Because someone could define lists to be treated as numbers:

instance Num a => Num [a] where
 (+) = zipWith (+)
 (*) = zipWith (*)
 (-) = zipWith (-)
 negate = map negate
 abs = map abs
 signum = map signum
 fromInteger x = [fromInteger x]

Then what you typed would work, since

  1++2 == fromInteger 1++fromInteger 2 == [1]++[2]

(Not that this Num instance would make much sense..)

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You can define a mostly sensible Num instance for all applicatives T (including [] and ((->) e)): instance (Num a) => Num (T a) where fromInteger = pure . fromInteger; negate = liftA negate; (+) = liftA2 (+); ... –  melpomene Feb 23 '13 at 16:32
2  
@melpomene I thought that concrete example would be best here. –  aleator Feb 23 '13 at 20:28
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