# Is (map f) == concatMap (map f . (:[]))?

I defined the `left`/`right` methods for stream functions (SF) of the `ArrowChoice` class as follows: `newtype SF a b = SF { runSF :: [a] -> [b] }`

``````instance ArrowChoice SF where
left (SF f) =
SF \$ map (either (\x -> Left . head \$ f [x]) Right)
right (SF f) =
SF \$ map (either Left (\x -> Right . head \$ f [x]))
``````

A few tests in ghci makes it seem like everything is fine:

``````λ> let lst = [Left 'c', Right 2, Left 'a', Right 3, Left 't']
λ> let foo = SF \$ map toUpper
λ> let bar = SF \$ map (+1)
λ> runSF (left foo) lst
[Left 'C',Right 2,Left 'A',Right 3,Left 'T']
λ> runSF (right bar) lst
[Left 'c',Right 3,Left 'a',Right 4,Left 't']
``````

But using it with `mapA` says otherwise:

``````λ> let delay x = SF \$ init . (x:)
λ> runSF (mapA (delay 0)) [[1,2,3],[4,5,6],[7,8,9]]
[[0,0,0],[0,0,0],[0,0,0]]
``````

The correct answer should be:

``````[[0,0,0],[1,2,3],[4,5,6]]
``````

where mapA is defined as:

``````mapA :: ArrowChoice arr => arr a b -> arr [a] [b]
mapA f = arr listcase >>>
(arr (const []) ||| (f *** mapA f >>> arr (uncurry (:))))
``````
-
I'm still confused by your choice of title (to which the answer is a resounding 'yes') - would you care to expand your question a little for those of us who last used `Arrow`s in the bronze age? –  yatima2975 Aug 1 '11 at 18:38

I don't think your `ArrowChoice` instance is correct.

Note that the `delay` function takes a stream and replaces the first element; critically, it doesn't treat all elements identically. Now, consider your definition of `Left`:

``````left (SF f) = SF \$ map (either (\x -> Left . head \$ f [x]) Right)
``````

Observe that `f` is the guts of an entire stream function, and thus may behave differently depending on stream position. The `left` function then creates a new stream function that maps a homogeneous function over its stream, where each element is either passed through (for `Right`s) or lifted to a singleton list on which the input stream function is run.

Rather than `delay`, consider instead the following function:

``````skip = SF \$ drop 1
``````

This drops the first element of a stream entirely, and since `left` runs its input independently each time on a singleton list, this would filter out all `Left`s entirely! Probably not what you want.

Rather, you need to do something like partition the stream into its `Left` and `Right` components, apply the input stream function to the entire stream of `Left`s, then merge the lefts and rights back together in the same sequence they were in originally.

I get the impression that you're doing this as some sort of exercise so I won't spoil the fun by simply writing the solution out in full. But I will say that my code indeed gives `[[0,0,0],[1,2,3],[4,5,6]]` on your example.

If you do want to see my test code, it's below. (shh, it's hiding)

``` instance ArrowChoice SF where
left (SF f) = SF \$ \xs -> let (ls, rs) = partitionEithers xs
in merge xs (f ls) rs

merge (Left  _:xs) (l:ls) rs = Left l  : merge xs ls rs
merge (Right _:xs) ls (r:rs) = Right r : merge xs ls rs
merge _ _ _ = []
```

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Thanks, the `drop 1` function really makes it clear. –  qubital Aug 1 '11 at 6:02
Cool! I didn't know you could hide code. –  kizzx2 Aug 3 '11 at 15:03
@kizzx2: Neither did I, but it seemed appropriate here. I knew there was a "spoiler" feature, and the ~8 minutes or so between posting the answer and adding the hidden code is how long it took me to figure out how to make it display properly... –  C. A. McCann Aug 3 '11 at 15:10