It's hard to tell what you're asking here, exactly. You can certainly pick a particular type
T, deserialize a
ByteString to it, and store it in an
AnyNode. That doesn't do the user of an
AnyNode much good, though -- you still picked
T, after all. If it wasn't for the
Typeable constraint, the user wouldn't even be able to tell what the type is (so let's get rid of the
Typeable constraint because it makes things messier). Maybe what you want is a universal instead of an existential.
Serialize up into two classes -- call them
Show -- and simplify them a bit (so e.g.
read can't fail).
So we have
class Show a where show :: a -> String
class Read a where read :: String -> a
We can make an existential container for a
data ShowEx where
ShowEx :: forall a. Show a => a -> ShowEx
-- non-GADT: data ShowEx = forall a. Show a => ShowEx a
But of course
ShowEx is isomorphic to
String, so there isn't a whole lot point to this. But note that an existential for
Read is has even less point:
data ReadEx where
ReadEx :: forall a. Read a => a -> ReadEx
-- non-GADT: data ReadEx = forall a. Read a => ReadEx a
When I give you a
ReadEx -- i.e.
∃a. Read a *> a -- it means that you have a value of some type, and you don't know what the type is, but you can a
String into another value of the same type. But you can't do anything with it!
read only produces
as, but that doesn't do you any good when you don't know what
What you might want with
Read would be a type that lets the caller choose -- i.e., a universal. Something like
newtype ReadUn where
ReadUn :: (forall a. Read a => a) -> ReadUn
-- non-GADT: newtype ReadUn = ReadUn (forall a. Read a => a)
ReadEx, you could make
ShowUn -- i.e.
∀a. Show a => a -- and it would be just as useless.)
ShowEx is essentially the argument to
show -- i.e.
show :: (∃a. Show a *> a) -> String -- and
ReadUn is essentially the return value of
read -- i.e.
read :: String -> (∀a. Read a => a).
So what are you asking for, an existential or a universal? You can certainly make something like
∀a. (Show a, Read a) => a or
∃a. (Show a, Read a) *> a, but neither does you much good here. The real issue is the quantifier.
(I asked a question a while ago where I talked about some of this in another context.)