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Say I have a set of records, as in

data A = A { a:: String } deriving (Show)
data B = B { b:: String } deriving (Show)

Then some type class

class Foo a where
    foo :: a -> IO ()

instance Foo A where
    foo c = ...

And I also want to do something like

bar = do
    push (A {a="x"})
    push (B {b="y"})

And have these things end up in a list l somewhere to be run at a later time, such that I can

map foo l

Should I write template haskell to generate a wrapper type and derive instances so the list can be of the wrapper type? Is there a more intelligent way to go about this? I'm honestly feeling pretty pinned down by the haskell type system, and know there has to be a better way to do this.

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2 Answers 2

up vote 15 down vote accepted

There are ways to do this with existential quantification, but it's often overkill. A more Haskell-y approach would be to simply apply foo up front and keep a [IO ()] list of the resulting actions, which you can then sequence later to run them.

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See also the FAQ entry on this, and the article it links to. – shachaf Oct 12 '12 at 19:26
So you can have thingsToDo :: [IO()] defined by thingsToDo = [foo A, foo B] or even stuffToDo :: IO () with stuffToDo = foo A >> foo B – AndrewC Oct 12 '12 at 19:55

An example using Existential, but I would really abstain from using it and would suggest what hammar told.

{-# LANGUAGE ExistentialQuantification #-}
data A = A String deriving Show
data B = B String deriving Show

class Foo a where
    foo :: a -> IO ()

instance Foo A where
    foo c = putStrLn $ "FOOA " ++ show c

instance Foo B where
    foo c = putStrLn $ "FOOB " ++ show c

data Wrap = forall a . Foo a => Wrap a

instance Foo Wrap where
    foo (Wrap c) = foo c

bar :: [Wrap]
bar = [Wrap $ A "x", Wrap $ B "y"]

main = mapM_ foo bar
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Abstain. Absolutely. – AndrewC Oct 12 '12 at 19:52

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