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I have something like the following:

{-# LANGUAGE TypeFamilies #-}

class Configuration c where
    data Pig c
    data Cow c

    parsePig :: GenParser Char st (Pig c)
    parseCow :: GenParser Char st (Cow c)

data Farm c =
    { pigs :: [Pig c]
    , cows :: [Cow c]
    } deriving Show

This fails because of the deriving Show line. I don't know how to force all Configuration instances to ensure that their data Pig and data Cow implementations are all instances of Show.

I know I could make it have showPig and showCow methods and the write out the whole complex show instance, but in reality things are more complex than this and that would be quite a pain.

Is there an easy, elegant way to guarantee that type family instances are themselves instances of certain classes?

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It doesn't fail because of the LANGAUGE line? –  Matt Fenwick Sep 13 '12 at 18:37
That's not the whole file; I pared it down for purposes of this question. Obviously there's a module declaration, a ParserCombinators.Parsec import, and so forth. –  So8res Sep 13 '12 at 18:40
I think Matt meant the fact that the line states LANGAUGE while it should be LANGUAGE. –  Jan Christiansen Sep 13 '12 at 18:45
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2 Answers 2

up vote 8 down vote accepted

You can use StandaloneDeriving to specify the constraints manually just for the Show instance.

{-# LANGUAGE StandaloneDeriving, FlexibleContexts, UndecidableInstances #-}
deriving instance (Show (Pig c), Show (Cow c)) => Show (Farm c)

This will still let you have Configuration instances with Cow and Pig that don't implement Show, however, as long as you don't try to show them.

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Since you said you wanted to force all instances of Configuration to have Pig c and Cow c implement Show, an even simpler way to do this is to simply constrain the type families in the class's context, like so:

{-# LANGUAGE TypeFamilies, FlexibleContexts #-}

class (Show (Pig c), Show (Cow c)) => Configuration c where
    data Pig c
    data Cow c

data Farm c = Farm { pigs :: [Pig c],
                     cows :: [Cow c] } deriving (Show)


As @hammar pointed out in his comment, the previous code won't compile. One way to fix this is to use StandaloneDeriving, as he suggested. The other way is this:

{-# LANGUAGE TypeFamilies, FlexibleContexts, GADTSyntax #-}

class (Show (Pig c), Show (Cow c)) => Configuration c where
    data Pig c
    data Cow c

data Farm c where
    Farm :: Configuration c => { pigs :: [Pig c],
                                 cows :: [Cow c] } -> Farm c deriving (Show)

These two approaches get you slightly different results, in that @hammar's approach will require a Configuration constraint if you call show, whereas my approach will make available said constraint.

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This doesn't compile (using GHC 7.4.1, at least). However, combining this with the StandaloneDeriving approach using deriving instance Configuration c => Show (Farm c) avoids the need for UndecidableInstances. –  hammar Sep 14 '12 at 20:35
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