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:

```
freeTToCoroutine
:: forall f m a. (Functor f, Functor m) => FreeT f m a -> Coroutine f m a
freeTToCoroutine (FreeT action) = Coroutine $ fmap f action
where
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
coroutineToFreeT
:: forall f m a. (Functor f, Functor m) => Coroutine f m a -> FreeT f m a
coroutineToFreeT (Coroutine action) = FreeT $ fmap f action
where
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:

- 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? **Is there some sort of deeper relationship between free monads and coroutines?**It doesn't seem like a coincidence that the types are isomorphic.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.

`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 coroutinemustbe implemented using`FreeT`

; boring engineering concerns take precedence – Benjamin Hodgson♦ Jul 19 '17 at 21:35`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`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