18

I recently wrote

do
  e <- (Left <$> m) <|> (Right <$> n)
  more actions
  case e of
    Left x -> ...
    Right y -> ...

This seems awkward. I know that protolude (and some other packages) define

-- Called eitherP in parser combinator libraries
eitherA :: Alternative f => f a -> f b -> f (Either a b)

But even with that, it all feels a bit manual. Is there some nice pattern I haven't seen for tightening it up?

3 Answers 3

16

I just noticed that OP expressed this same idea in a comment. I'm going to post my thoughts anyway.


Coyoneda is a neat trick, but it's a little overkill for this particular problem. I think all you need is regular old continuations.

Let's name those ...s:

do
  e <- (Left <$> m) <|> (Right <$> n)
  more actions
  case e of
    Left x -> fx x
    Right y -> fy y

Then, we could instead have written this as:

do
  e <- (fx <$> m) <|> (fy <$> n)
  more actions
  e

This is slightly subtle — it's important to use <$> there even though it looks like you might want to use =<< so that the result of the first line is actually a monadic action to be performed later rather than something that gets performed right away.

4
  • 1
    Nice solution, it reminds me of the "return a command" trick which also uses nested actions: haskellforall.com/2021/10/the-return-command-trick.html
    – danidiaz
    Jan 25 at 8:36
  • 3
    There is a difference these two code snippets, though: in the first one, fx can cleanly mention variables bound by more actions. Jan 25 at 19:55
  • 2
    @DanielWagner You're definitely right. It's possible to let fx :: TypeOfM -> More -> Types -> m () and similarly for fy. Then, the last line would be e p q or something similar. If there are a lot of variables bound in more actions, this becomes ugly fast, but for just one or two, it can work out nicely.
    – DDub
    Jan 26 at 20:09
  • @DanielWagner, that's true; at some point my original solution probably starts to look good. But in me original context, there were no variables bound.
    – dfeuer
    Jan 27 at 14:50
11

This is way overthinking the question, but...

In your code, the types of each branch of the Either might be distinct, but they don't escape the do-block, because they are "erased" by the Left and Right continuations.

That looks a bit like an existential type. Perhaps we could declare a type which packed the initial action along with its continuation, and give that type an Alternative instance.

Actually, we don't have to declare it, because such a type already exists in Hackage: it's Coyoneda from kan-extensions.

data Coyoneda f a where       
    Coyoneda :: (b -> a) -> f b -> Coyoneda f a  

Which has the useful instances

Alternative f => Alternative (Coyoneda f)
MonadPlus f => MonadPlus (Coyoneda f)

In our case the "return value" will be itself a monadic action m, so we want to deal with values of type Coyoneda m (m a) where m a is the type of the overall do-block.

Knowing all that, we can define the following function:

sandwich :: (Foldable f, MonadPlus m, Monad m) 
         => m x 
         -> f (Coyoneda m (m a)) 
         -> m a
sandwich more = join . lowerCoyoneda . hoistCoyoneda (<* more) . asum 

Reimplementing the original example:

sandwich more [Coyoneda m xCont, Coyoneda n yCont]
6
  • 4
    I kind of like it! It also seems to suggest a more elementary approach, which I think I like even more: do { final <- (m <&> xCont) <|> (n <&> yCont); more; actions; final }
    – dfeuer
    Jan 25 at 0:16
  • @dfeuer Yeah, Coyoneda is overkill here. Keeping the initial action and the continuation separate using Coyoneda works, but nesting them is simpler and you don't need any extra types.
    – danidiaz
    Jan 25 at 8:49
  • 1
    This actually looks really cool – at last an application of Yoneda reduction that serves a clear purpose and isn't just “trivial yet inscrutable”! Does this have a good category-theory explanation? Alternative/MonadPlus always seem a bit on the shadier side of Haskell's functor hierarchy. Jan 25 at 8:56
  • 2
    @leftaroundabout IIRC, another use of Coyoneda is to make functors out of types like IORef that don't have the instance, by "stashing" the fmappings in the function component of Coyoneda. reddit.com/r/haskell/comments/5v33qk/…
    – danidiaz
    Jan 25 at 9:05
  • 1
    BTW, there's no need to use hoistCoyoneda here even if you use Coyoneda. You can lower first, at which point you're back on the elementary solution track.
    – dfeuer
    Jan 25 at 10:00
8

You could perhaps do it like this:

do
  let acts = do more actions
  (do x <- m; acts; ...) <|> (do y <- n; acts; ...)

I don't know if that looks better to you.

(Of course this doesn't work out nicely if those more actions bind many variables)

2
  • 4
    That's only equivalent for instances satisfying left distribution, I believe, since it'll reserve judgement to see if the intermediate actions fail.
    – dfeuer
    Jan 24 at 23:36
  • 1
    Could be good in those cases, but my (foolishly unspoken) context was left catch.
    – dfeuer
    Jan 25 at 1:24

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