I'm trying to use typeclasses and functional dependencies to get a *type function* that can transform say, `Int`

to `Cont Int`

in the code below, then use it in another typeclass as shown below.

```
{-# LANGUAGE KindSignatures, FunctionalDependencies, FlexibleInstances, FlexibleContexts #-}
newtype TestData a b = TestData b
newtype Cont a = Cont a
class TypeConv (repr :: * -> *) a b | repr a -> b where
class Lift repr a where
liftOp :: (TypeConv repr a a') => a -> repr a'
instance TypeConv (TestData a) Int (Cont Int) where
instance Lift (TestData a) Int where
liftOp i = TestData (Cont i)
```

And here's the error from ghci 7.4.2

```
src/Test.hs:13:26:
Could not deduce (a' ~ Cont Int)
from the context (Full (TestData a) Int a')
bound by the type signature for
liftOp :: Full (TestData a) Int a' => Int -> TestData a a'
at src/Test.hs:13:5-32
a' is a rigid type variable bound by
the type signature for
liftOp :: Full (TestData a) Int a' => Int -> TestData a a'
at src/Test.hs:13:5
In the return type of a call of `Cont'
In the first argument of `TestData', namely `(Cont i)'
In the expression: TestData (Cont i)
```

Given that the `TypeConv`

typeclass has a fundep that I read as: "Given `repr`

and `a`

, we can infer `b`

" and provided an instance for `Int`

, why can't ghc infer that `a' ~ Cont Int`

?

`TestData`

just there to try to make the types work? I'm not sure what you're trying to achieve with it. Do you actually want this instance to create`liftOp :: Int -> Cont Int`

but you had to wrap it in`TestData`

? – AndrewC Sep 25 '12 at 23:37`repr`

has no use here. The idea is that`repr`

and`a`

should both decide`a'`

in`TypeConv`

– Chetan Sep 26 '12 at 13:19