Here's what I've got, expressed with MultiParamTypeClasses:

```
class ListResultMult r a where
lstM :: a -> [a] -> r
listM :: ListResultMult r a => a -> r
listM a = lstM a []
instance ListResultMult r a => ListResultMult (a -> r) a where
lstM a as x = lstM x $ a:as
instance ListResultMult [a] a where
lstM a as = reverse $ a:as
instance Show a => ListResultMult (IO ()) a where
lstM a as = print . reverse $ a:as
```

Here's what I tried, using TypeFamilies (TypeSynonymInstances didn't help):

```
class ListResultFam r where
type Elem r :: *
lstF :: Elem r -> [Elem r] -> r
listFam :: ListResultFam r => Elem r -> r
listFam a = lstF a []
-- Illegal type synonym family application in instance: Elem r -> r
-- in the instance declaration for `ListResultFam (Elem r -> r)'
instance ListResultFam r => ListResultFam (Elem r -> r) where
type Elem (Elem r -> r) = Elem r
lstF a as x = lstF x $ a:as
instance ListResultFam [a] where
type Elem [a] = a
lstF a as = reverse $ a:as
```

Is there any way to accomplish this with Type Families? Why is this an "illegal" type synonym family application?

`r`

is a`ListResultFam`

, this means that`Elem r`

is some specific type. It seems logically sound, although the implementation details may not be all there. – Dan Burton Nov 7 '11 at 0:07`(Elem r ~ a)`

and then use`type Elem (a -> r) = a`

. – Daniel Fischer Nov 7 '11 at 0:29