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Today I wanted to investigate if it is possible to construct a data type in such a way, that it does not store the data of the type of its type signature, but another representation of it. So, here is my attempt of an GADT which has a type constructor of type a, but a data constructor of type ByteString.

{-# LANGUAGE GADTs #-}
import Data.ByteString.Char8
import Data.Serialize

data Serialized a where
    MkSerialized :: (Serialize a) => ByteString -> Serialized a

Now I can define a decode' function in the following way:

decode' :: (Serialize a) => Serialized a -> a
decode' (MkSerialized bs) = let Right r = (decode bs) in r

And it works:

let s = MkSerialized (encode "test") :: Serialized String
print $ decode' s     -- prints "test"

My problem is now that I'd like Serialized to be an instance of Functor.

instance Functor Serialized where
    fmap f (MkSerialized bs) = MkSerialized (encode (f (right (decode bs))))
                               where right (Right r) = r

But I get the error (Serialize b) can not be deduced. How can I constraint the Functor instance so that Serialize is enforced in the fmap?

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  • 2
    You can't. Functor doesn't allow constraints on the type parameters to be required. There's a restricted functor class, RFunctor in the rmonad package. Maybe you can use that. Jun 17, 2013 at 22:05
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    This isn't related to your question -- this is indeed not possible with Functor -- but I feel obligated to mention: Please don't use Data.ByteString.Char8 by default! It's a broken module that encourages broken code. There are some uses for it sometimes, but your code works just as well with Data.ByteString, which doesn't encourage misunderstandings of Unicode.
    – shachaf
    Jun 17, 2013 at 22:42
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    For what it's worth, you can make a CoYoneda-style data type like data Serialized a where MkSerialized :: Serialize x => ByteString -> (x -> a) -> Serialized a which stores a ByteString and a post-deserialization function, and which does have a Functor instance. But of course that defeats the purpose here.
    – shachaf
    Jun 17, 2013 at 22:45
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    This is closely related to the subject of Sculthorpe et al.'s paper "The Constrained-Monad Problem".
    – user824425
    Jun 17, 2013 at 22:51
  • I haven't thrown this onto Hackage yet, but the Summit library has a Mappable class which can be constrained on the Functor's parameter types, as well as on the Functor type itself.
    – bfops
    Jun 18, 2013 at 19:05

1 Answer 1

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You can do this using a CoYoneda functor.

The idea is simple: have an additional functional field where you accumulate your fmaping functions. When you decode your value, then apply that function.

Here's the code:

{-# LANGUAGE GADTs #-}
import Data.ByteString.Char8
import Data.Serialize

data Serialized a where
    MkSerialized
      :: (Serialize a)
      => ByteString -> (a -> b) -> Serialized b

decode' :: Serialized a -> a
decode' (MkSerialized bs f) = let Right r = decode bs in f r

instance Functor Serialized where
    fmap f (MkSerialized bs g) = MkSerialized bs (f . g)

This also has the benefit of automatically fusing multiple fmaps instead of repeated decodings and encodings, as would be in your case.

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    While this isn't really solving my problem (as I would've liked fmap to do repeated de-/encodings), I'll accept this answer b/c I see that my original idea is not possible and this is the most practical way to define a functor for a constrained GADT. Also, interesting read for GADTs and Yoneda functors.
    – Phae7rae
    Jun 20, 2013 at 9:24

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