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I'm trying to add an instance declaration in Haskell for a new data type I've created unsuccessfully. Here what I've tried so far:

data Prediction = Prediction Int Int Int
showPrediction :: Prediction -> String
showPrediction (Prediction a b c) = show a ++ "-" ++ show b ++ "-" ++ show c
instance Show (Prediction p) => showPrediction p

Seems the last line is wrong but I'm not sure how to achieve what I want. Basically is to be able to call from the interpreter a Prediction variable and get it visualized without having to call the showPrediction. Right now this works:

showPrediction (Prediction 1 2 3)

and shows:


as expected, but I would like this to work (from the interpreter):

Prediction 1 2 3

Any idea?


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3 Answers 3

up vote 33 down vote accepted

To derive an instance, the syntax is

instance «preconditions» => Class «type» where
  «method» = «definition»

So here, for instance, you'd have

instance Show Prediction where
  show (Prediction a b c) = show a ++ "-" ++ show b ++ "-" ++ show c

There's no precondition; you'd use that for something like instance Show a => Show [a] where ..., which says that if a is showable, then so is [a]. Here, all Predictions are showable, so there's nothing to worry about. When you wrote instance Show (Prediction p) => showPrediction p, you made a few mistakes. First, Prediction p implies that Prediction is a parametrized type (one declared by, for instance, data Prediction a = Prediction a a a), which it isn't. Second, Show (Prediction p) => implies that if Prediction P is showable, then you want to declare some other instance. And third, after the =>, having a function is nonsensical—Haskell wanted a type class name.

Also, for completeness's sake, there's another way to derive Show if you want the Prediction 1 2 3 format for displayed output:

data Prediction = Prediction Int Int Int deriving Show

As specified in the Haskell 98 report, there are only a handful of types which can be derived this way: Eq, Ord, Enum, Bounded, Show, and Read. With the appropriate GHC extensions, you can also derive Data, Typeable, Functor, Foldable, and Traversable; you can derive any class which a newtype's wrapped type derived for a newtype; and you can generate these automatic instances in a standalone way.

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++ high-quality, in-depth, comprehensive answer. – delnan Dec 11 '10 at 17:56
Thanks for the nice reply as well! The "deriving Show" worked perfectly as well. Nice to know ;)) – Cristobal Viedma Dec 11 '10 at 17:58

You've got the syntax for instances wrong. To create an instance of Show write:

instance Show Foo where
  show = ...
  -- or
  show x = ...

where ... contains your definition of the show function for Foo.

So in this case you want:

instance Show Prediction where
  show = showPrediction

or, since there isn't an important reason to have showPrediction at all:

instance Show Prediction where
  show (Prediction a b c) = show a ++ "-" ++ show b ++ "-" ++ show c
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Yup, this was it. Thanks a lot for the reply! :)) – Cristobal Viedma Dec 11 '10 at 17:53

Replace your last line with:

instance Show Prediction where
    show = showPrediction
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