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`

?

`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.`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.`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.