I'm currently reading through the paper Programming with Arrows by John Hughes and I'm already stumped on the first exercise, in section 2.5, on pg 20.

We have the `Arrow`

and `ArrowChoice`

typeclasses at our disposal, as well as instances for functions, stream functions `[a] -> [b]`

, and monadic functions `a -> m b`

via the `Kleisli`

type.

A `mapA`

example was given:

```
mapA f = arr listcase >>>
arr (const []) ||| (f *** mapA >>> arr (uncurry (:)))
```

Here's an attempt:

```
listcase :: [a] -> (Either () (a,[a]))
listcase [] = Left ()
listcase (x:xs) = Right (x,xs)
helper :: (Bool,a) -> [a] -> Either (a,[a]) [a]
helper (True,x) y = Left (x,y)
helper (False,x) y = Right y
test :: Arrow a => (b -> Bool) -> a (b,c) ((Bool,b), c)
test p = first (arr p &&& arr id)
filterA :: Arrow a => (b -> Bool) -> a [b] [c]
filterA p = f >>> (g ||| (h >>> (j ||| (filterA p))))
where f = arr listcase
g = arr (const [])
h = test p >>> (uncurry helper)
j = (arr id *** (filterA p)) >>> (arr (uncurry (:)))
```

The (bruteforce) rationale behind this futile attempt is as follows:
There are two choices to be made with `filterA`

: the `listcase`

like `map`

, and the result of applying the predicate `p`

. It starts off like `map`

, checking the list and returning an Either value using `listcase`

. In the case of an empty list `g`

is applied, otherwise everything to the right of `|||`

is applied to a value of type `(a,[a])`

, containing the `head`

and `tail`

respectively. The `h`

function is applied first, which applies the predicate while keeping the `head`

, returning a value of type `((Bool, head),tail)`

. This is passed to `(uncurry helper)`

, which decides whether to keep the `head`

or not depending on the `Bool`

value. It returns the result as an `Either`

value so that we may apply the choice method `(|||)`

to it. This value is passed to the next choice: `(j ||| (filterA p))`

such that if the predicate held `True`

then `j`

is applied to a pair containing the `head`

and `tail`

. The `head`

is filtered through using `id`

while the `filter p`

is applied to the `tail`

. Both results are returned as a pair. This pair is then reconciled using `arr (uncurry (:))`

like `map`

. Otherwise the `tail`

is passed to `filterA p`

alone.

I doubt it's as difficult as I'm making it out to be, I assume I'm missing something quite obvious.