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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?

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I don't know the rules exactly, but I'm suspicious of (Elem r -> r) as a pattern in a type family, when Elem is not a type constructor but, in effect, a defined function. Here, it might be possible to match r right of the ->, then check that what's left of -> agrees with Elem r, but in general, allowing type synonym families in patterns for type synonym families would require them to be invertible. –  pigworker Nov 6 '11 at 23:56
    
I was thinking of it this way: given that 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
1  
Look at the example Daniel Wagner gave in the other post, you need an equality constraint (Elem r ~ a) and then use type Elem (a -> r) = a. –  Daniel Fischer Nov 7 '11 at 0:29
    
Whoops, I accidentally answered this in your other question! Sorry about that, I hadn't seen this one yet. –  Daniel Wagner Nov 7 '11 at 0:43
    
Link to Daniel Wagner's answer, for posterity. –  Dan Burton Nov 7 '11 at 22:26

1 Answer 1

up vote 6 down vote accepted

Type families aren't a replacement for multi param type classes, rather they replace functional dependencies.

This is because type families allow a mapping from one type to another, which is similar to what functional dependencies do with multi param type classes. Ie:

class Collection col e | col -> e where
   getHead :: col -> e

instance Collection [a] a where
   getHead = head

can be represented with type families as:

class Collection col where
  type CollectionHead col :: *
  getHead :: col -> CollectionHead col

instance Collection [a] where
   type CollectionHead [a] = a
   getHead = head

However they cannot replace a multi param type class without functional dependencies. Eg

class Converter a b where
  convert :: a -> b

instance Converter Int String where
  convert = show

instance Converter Int [Int] where
  convert x = [x]

Cannot be done by removing the b param and using type families. You could do something like this:

class Converter a where
   type Target a :: *
   convert :: a -> Target a

instance Converter Int where
   type Target Int = String
   convert = show

However it isn't possible to write the second instance, as it require a duplicate instance Converter Int.


With regards to your program, you can see instantly that there are no functional dependencies, just multiple parameter type classes. You therefor cannot do a straight conversion to type families with this.

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