In the "Coroutine Pipelines" article in Monad.Reader Issue 19, the author defines a generic Coroutine type:

newtype Coroutine f m a = Coroutine
  { resume :: m (Either (f (Coroutine f m a)) a)

I noticed that this type is very similar to the FreeT type from the free package:

data FreeF f a b = Pure a | Free (f b)

newtype FreeT f m a = FreeT
  { runFreeT :: m (FreeF f a (FreeT f m a))

It seems that FreeT and Coroutine are isomorphic. Here are the functions mapping from one to the other:

  :: forall f m a. (Functor f, Functor m) => FreeT f m a -> Coroutine f m a
freeTToCoroutine (FreeT action) = Coroutine $ fmap f action
    f :: FreeF f a (FreeT f m a) -> Either (f (Coroutine f m a)) a
    f (Pure a) = Right a
    f (Free inner) = Left $ fmap freeTToCoroutine inner

  :: forall f m a. (Functor f, Functor m) => Coroutine f m a -> FreeT f m a
coroutineToFreeT (Coroutine action) = FreeT $ fmap f action
    f :: Either (f (Coroutine f m a)) a -> FreeF f a (FreeT f m a)
    f (Right a) = Pure a
    f (Left inner) = Free $ fmap coroutineToFreeT inner

I have the following questions:

  1. What is the relationship between the FreeT and Coroutine types? Why didn't the author of "Coroutine Pipelines" use the FreeT type instead of creating the Coroutine type?
  2. Is there some sort of deeper relationship between free monads and coroutines? It doesn't seem like a coincidence that the types are isomorphic.
  3. Why aren't popular streaming libraries in Haskell based around FreeT?

    The core datatype in pipes is Proxy:

    data Proxy a' a b' b m r
      = Request a' (a  -> Proxy a' a b' b m r )
      | Respond b  (b' -> Proxy a' a b' b m r )
      | M          (m    (Proxy a' a b' b m r))
      | Pure    r

    The core datatype in conduit is Pipe:

    data Pipe l i o u m r
      = HaveOutput (Pipe l i o u m r) (m ()) o
      | NeedInput (i -> Pipe l i o u m r) (u -> Pipe l i o u m r)
      | Done r
      | PipeM (m (Pipe l i o u m r))
      | Leftover (Pipe l i o u m r) l

    I imagine it would be possible to write the Proxy or Pipe datatypes based around FreeT, so I wonder why it is not done? Is it for performance reasons?

    The only hint of FreeT I've seen in the popular streaming libraries is pipes-group, which uses FreeT to group items in streams.

  • 2
    I think the reason the Monad.Reader article and the streaming libraries don't use FreeT is the same: it doesn't earn you anything. In the case of the article, I assume the author felt the code was clearer and more self-contained as it appears in the article. In the case of the libraries, why incur a dependency on free (and, transitively, a big chunk of the Kmett Platform) when you can get the job done without it? IOW: yes, FreeT does support a class of coroutine types but that doesn't mean a given coroutine must be implemented using FreeT; boring engineering concerns take precedence – Benjamin Hodgson Jul 19 '17 at 21:35
  • Thanks @BenjaminHodgson. I think your comment does a good job of answering my questions 1 and 3. I'm still wondering about my question 2. Is there some sort of deeper relationship between coroutines and free monads? – illabout Jul 21 '17 at 4:22
  • For question 3, I found an interested comment on reddit by @gabriel-gonzalez (the author of pipes): reddit.com/r/haskell/comments/23m4bs/… He says that pipes is meant to be relatively simple and easy to read. Along with library usage concerns, that is part of the reason why pipes is not using the codensity transformation. I imagine this could also be part of the reason why it is not based on FreeT. It would be more difficult to understand with no(?) real benefit. – illabout Jul 22 '17 at 2:40
  • The FreeT construction is actually used by the streaming library. A comment on the streaming library's Stream type says that it is equivalent to FreeT. – illabout May 28 '18 at 7:27

To answer your second question, let's first simplify the problem by looking at Free. Free f a allows you to construct f-shaped ASTs of a-values for later reduction (aka, interpretation). When comparing the monad transformers in the article with unlifted free constructions, we can simply choose Identity for m, as is the usual practice for constructing base monads from their transformers: Free f = FreeT Identity f.

The Monad Reader article first presents a lifted Trampoline monad transformer, so let's start by looking at the unlifted version, with Identity elided:

data Trampoline a = Return a | Bounce (Trampoline a)

If we compare this to Free

data Free f r = Pure r | Free (f (Free f r))

and squint a bit, we can see that all we really need to do is "remove" the f-structure, just as we previously "removed" the m-structure. So, we have Trampoline = Free Identity, again because Identity has no structure. That, in turn, means that this trampoline is a FreeT Identity Identity: a sort of degenerate coroutine with trivial shape and no way to use effects to determine whether to bounce or return. So that's the difference between this trampoline and the trampoline monad transformer: the transformer allows the bounces to be interleaved with m-actions.

With a bit of work, we can also see that generators and consumers are free monads for specific choices of f, respectively ((,) a) and ((->) a). Their free monad transformer versions similarly allow them to interleave m-actions (e.g., a generator can ask for user input before yielding). Coroutine generalizes both f, the AST shape (fixed to f ~ Identity for Trampoline) and the type of effects which can be interleaved (fixed to no effects, or m ~ Identity) for Free. This is exactly FreeT m f.

Intuitively, if Free f is the monad for pure construction of f-shaped ASTs then FreeT m f is the monad for constructing f-shaped ASTs interleaved with effects supplied by m. If you squint a bit, this is exactly what coroutines are: a full generalization that parameterizes a reified computation on both the shape of the constructed AST and the type of effects used to construct it.

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