This is perhaps not the sanest approach, but we can abuse my `reflection`

package to lie about a TypeRep.

```
{-# LANGUAGE Rank2Types, FlexibleContexts, ScopedTypeVariables #-}
import Data.Dynamic
import Data.Proxy
import Data.Reflection
import GHC.Prim (Any)
import Unsafe.Coerce
newtype WithRep s a = WithRep { withRep :: a }
instance Reifies s TypeRep => Typeable (WithRep s a) where
typeOf s = reflect (Proxy :: Proxy s)
```

Given that we can now peek at the `TypeRep`

of our `Dynamic`

argument and instantiate our `Dynamic`

function appropriately.

```
apD :: forall f. Typeable1 f => (forall a. a -> f a) -> Dynamic -> Dynamic
apD f a = dynApp df a
where t = dynTypeRep a
df = reify (mkFunTy t (typeOf1 (undefined :: f ()) `mkAppTy` t)) $
\(_ :: Proxy s) -> toDyn (WithRep f :: WithRep s (() -> f ()))
```

It could be a lot easier if `base`

just supplied something like `apD`

for us, but that requires a rank 2 type, and `Typeable`

/`Dynamic`

manage to avoid them, even if `Data`

does not.

Another path would be to just exploit the implementation of `Dynamic`

:

```
data Dynamic = Dynamic TypeRep Any
```

and `unsafeCoerce`

to your own `Dynamic'`

data type, do what you need to do with the `TypeRep`

in the internals, and after applying your function, `unsafeCoerce`

everything back.

`polytypeable`

and`polytypeable-utils`

could be used for this - though you'd still have to implement full unification, in the worst case. – Carl Jun 5 '12 at 0:52