I'm trying to translate this Scala's cats example about composing free monads.

The gist of the example seems to be the decomposition of separate concerns into separate data types:

data Interact a = Ask (String -> a) | Tell String a deriving (Functor)

data DataOp = AddCat String | GetAllCats [String] deriving (Functor)

type CatsApp = Sum Interact DataOp

Without having these two separate concerns, I would build the "language" for Interact operations as follows:

ask :: Free Interact String
ask = liftF $ Ask id

tell :: String -> Free Interact ()
tell str = liftF $ Tell str ()

However, if I want to use ask and tell in a program that also uses DataOp I cannot define them with the types above, since such a program will have type:

program :: Free CatsApp a

In cats, for the definition of the tell and ask operations they use an InjectK class, and an inject method from Free:

class Interacts[F[_]](implicit I: InjectK[Interact, F]) {
  def tell(msg: String): Free[F, Unit] = Free.inject[Interact, F](Tell(msg))
  def ask(prompt: String): Free[F, String] = Free.inject[Interact, F](Ask(prompt))

What puzzles me is that somehow the positional information of the functors (DataOp is on the left, Interact is on the right) seems to be irrelevant (which is quite nice).

Are there similar type-classes and functions that could be used to solve this problem in an elegant manner using Haskell?

  • I suspect the positional information is encoded in the implicit I: InjectK[Interact, F], which tells you how to inject Interacts into Fs. Wherever Interacts is instantiated will have to give that information. – luqui Nov 18 '17 at 18:51

This is covered in Data Types à la Carte. The Scala library you demonstrated looks like a fairly faithful translation of the original Haskell. The gist of it is, you write a class representing a relationship between a functor sup which "contains" a functor sub:

class (Functor sub, Functor sup) => sub :-<: sup where
    inj :: sub a -> sup a

(These days you might use a Prism, because they can both inject and project.) Then you can use the usual technique of composing the base functors of your free monads using the functor coproduct, implement :-<: for the two cases of Sum,

instance Functor f => f :-<: f where
    inj = id
instance (Functor f, Functor g) => f :-<: (Sum f g) where
    inj = InL
instance (Functor f, Functor g, Functor h, f :-<: g) => f :-<: (Sum h g) where
    inj = InR . inj

and make instruction sets composable by abstracting over the base functor.

ask :: Interact :-<: f => Free f String
ask = liftF $ inj $ Ask id

tell :: Interact :-<: f => String -> Free f ()
tell str = liftF $ inj $ Tell str ()

addCat :: DataOp :-<: f => String -> Free f ()
addCat cat = liftF $ inj $ AddCat cat ()

getCats :: DataOp :-<: f => Free f [String]
getCats = liftF $ inj $ GetCats id

Now you can write a program which uses both Interact and DataOp without making reference to a particular sum type.

myProgram :: (Interact :-< f, DataOp :-< f) => Free f ()
myProgram = ask >>= addCat

None of this is particularly better than the standard MTL approach, though.

  • As I climb up the FP ladder all the roads lead to lenses :) Now I have to figure out how to solve the overlapping instances problem that I get if I try to interpret this using IO. But that's topic for another question. I'll also give it a try at the MTL approach. – Damian Nadales Nov 22 '17 at 9:30
  • And this is the error I was referring to. I'm really puzzled about that second instance, which shouldn't be :( – Damian Nadales Nov 22 '17 at 9:53
  • Actually the paper you referred to mentions the fact that overlapping instances are needed. So another argument in favor of MTL. – Damian Nadales Nov 22 '17 at 11:12
  • I've tried stacking monads (although I do not use transformers), but I cannot imagine how cross cutting concerns could be nicely separated with the MTL approach. Here is my new question – Damian Nadales Nov 30 '17 at 17:26

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