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Why does it complain about this code:

data Point = Point {
              x, y :: Int
            } deriving (Show)

main = print $ Point (15 20)

by saying:

No instance for (Show (Int -> Point))
      arising from a use of `print'
    Possible fix: add an instance declaration for (Show (Int -> Point))
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"(15 20)" is not valid syntax so my bet is you are getting a syntax error first and then a type error on on the expression "print $ Point" becuase to recover the parser left out "(15 20)". I could be missing some information however –  Jake Aug 12 '13 at 4:45
@Jake it is valid syntax, but 15 is not a function so it cannot be applied to 20. –  elyse Aug 12 '13 at 8:15
Fair enough. I didn't think about it actually being valid syntax. Regardless you should neber see that in valid Haskell –  Jake Aug 12 '13 at 14:09
@Jake But it can compile! You might need Text.Show.Functions and flexible instances but... main = print $ Point (15 20) instance (Integral a, Num a) => Num (a -> Int) where fromInteger n = fromIntegral ∘ (+ (fromIntegral n)) Now you've seen it, for better or worse! –  Thomas M. DuBuisson Aug 12 '13 at 14:55
Wow I never thought would be possible. Kudos. But that was defiantly for worse lol. –  Jake Aug 12 '13 at 17:13

2 Answers 2

up vote 9 down vote accepted

Your bracketing is wrong. Bracketing the (15 20) makes the compiler treat it as one argument to Point, and you're missing the second. If you remove those brackets to leave Point 15 20 it will work.

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What is Wrong

data Point = Point {
              x, y :: Int
            } deriving (Show)

It might become more obvious if we express the constructor Point as a function:

Point :: Int -> Int -> Point

If you know the syntax of function application then this becomes really clear:

main = print $ Point 15 20

Why This Error

As for why the broken code gets your particular error, consider how this is type-checked. We have the expression:

Point ( ...something... )

And if Point :: Int -> Int -> Point then Point something must be of type Int -> Point (Point applied to any single argument has said type). Now you see how it concludes you are trying to call print on something typed Int -> Point and thus complains about the missing instance - it doesn't even consider the bad expression of (15 20).

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