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Given an existential data type, for example:

data Foo = forall a . (Typeable a, Binary a) => Foo a

I'd like to write instance Binary Foo. I can write the serialisation (serialise the TypeRep then serialise the value), but I can't figure out how to write the deserialisation. The basic problem is that given a TypeRep you need to map back to the type dictionary for that type - and I don't know if that can be done.

This question has been asked before on the haskell mailing list http://www.haskell.org/pipermail/haskell/2006-September/018522.html, but no answers were given.

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As far as I know it can't be done in any nice way. –  augustss Nov 11 '11 at 23:40
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3 Answers

up vote 4 down vote accepted

You need some way that each Binary instance can register itself (just as in your witness version). You can do this by bundling each instance declaration with an exported foreign symbol, where the symbol name is derived from the TypeRep. Then when you want to deserialize you get the name from the TypeRep and look up that symbol dynamically (with dlsym() or something similar). The value exported by the foreign export can, e.g., be the deserializer function.

It's crazy ugly, but it works.

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If you could do that, you would also be able to implement:

isValidRead :: TypeRep -> String -> Bool

This would be a function that changes its behavior due to someone defining a new type! Not very pure-ish.. I think (and hope) that one can't implement this in Haskell..

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What does isValidRead do? Just because you can accurately serialise an existential, I don't think you can query the universe of types - since the existential captures a proof that the type existed before, so you can't observe a newly defined type. –  Neil Mitchell Nov 12 '11 at 13:56
    
@NeilMitchell: Perhaps I should had called it isValidShow. It tells whether the String argument is a possible result for show for the given type. If you use the get function of Foo's Binary instance, it would indirectly tell whether its input is a valid result of put. –  yairchu Nov 12 '11 at 21:58
    
Still totally confused, I don't see how this tells you anything... –  Neil Mitchell Nov 13 '11 at 14:51
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I have an answer that slightly works in some situations (not enough for my purposes), but may be the best that can be done. You can add a witness function to witness any types that you have, and then the deserialisation can lookup in the witness table. The rough idea is (untested):

witnesses :: IORef [Foo]
witnesses = unsafePerformIO $ newIORef []

witness :: (Typeable a, Binary a) => a -> IO ()
witness x = modifyIORef (Foo x :)

instance Binary Foo where
    put (Foo x) = put (typeOf x) >> put x
    get = do
        ty <- get
        wits <- unsafePerformIO $ readIORef witnesses
        case [Foo x | Foo x <- wits, typeOf x == ty] of
            Foo x:_ -> fmap Foo $ get `asTypeOf` return x
            [] -> error $ "Could not find a witness for the type: " ++ show ty

The idea is that as you go through, you call witness on values of every type that you may plausibly encounter when deserialising. When you deserialise you search this list. The obvious problem is that if you fail to call witness before deserialisation you get a crash.

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What do you need to import for the Binary instance of TypeRep? –  yairchu Nov 12 '11 at 0:42
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Looks a little unsafe! </pun> –  Thomas Eding Nov 12 '11 at 1:21
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@yairchu: Nothing defines one, but there are enough functions to take it it apart and put it back together that you could write one (see splitTyConApp and mkTyConApp). –  Neil Mitchell Nov 12 '11 at 13:53
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