# Haskell map/zip Vs. list comprehension

Which of the following are you most likely to write?

``````r = zip xs \$ map sqrt xs
``````

or

``````r = [(x, sqrt x) | x <- xs]
``````

Sample code on the Internet seems to indicate that the former is more abundant and the preferred way.

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I'd likely write

``````map (\x -> (x, sqrt x)) xs
``````

If you prefer point-free, the above is equivalent to (after having imported `Control.Monad` and `Control.Monad.Instances`)

``````map (ap (,) sqrt) xs
``````

Another alternative that hasn't yet been mentioned is

``````zipWith (,) xs (map sqrt xs)
``````
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I'm more of an "Old School" Haskellier, so I'd use `zip `ap` map sqrt` and later refactor it to use the `<*>` instead of `ap`.

Applicative is the new Monad. (In the sense of "what do the Cool Haskell Kids use these days?")

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arrows are the new monad, no? –  Vlad Patryshev Feb 26 '12 at 22:53

For certain types of problems (Project Euler in particular), this particular case comes up so often that I wrote the following little helper:

``````with :: (a -> b) -> a -> (a,b)
with f a = (a, f a)
``````

This allows your example to be written:

``````r = map (with sqrt) xs
``````
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I would probably write `map`/`zip` and then later wish I had written the list comprehension.

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Although I tend to not use them very often, in this case, I think I'd prefer the list comprehension version, since it seems cleaner to me.

If you're into point free style, you might like this one, too:

``````f = zip `ap` map sqrt
``````

ap lives in Control.Monad and in this case, it can be thought of as the S combinator, which generalizes application in SKI calculus:

``````ap f g x == f x (g x)
ap const const == id
``````

As Conal points out, this may also be generalized from Monad to Applicative thusly (import Control.Applicative):

``````f = zip <*> map sqrt
``````
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nice, I like that notation the best. I always read `ap` as "apply", so it becomes: "zip apply map with sqrt to input" –  Dan Jul 4 '10 at 18:57
Or, simplifying/generalizing from `Monad` to `Applicative`, `f = zip <*> map sqrt`. Though I personally prefer `map (id &&& sqrt) xs` as in carl's answer. –  Conal Jul 4 '10 at 18:59
Yes, that's IMHO a nice way to read it. @Conal added your suggestion to the answer. –  danlei Jul 4 '10 at 20:43

People who spend too much time in #haskell would probably write that as

``````r = map (id &&& sqrt) xs
``````

`(&&&)` is a fun combinator defined in `Control.Arrow`. Its actual type signature is complicated because it's generalized to all instances of Arrow. But it's often used with the `(->)` instance of `Arrow`, which results in this type signature:

``````(&&&) :: (a -> b) -> (a -> c) -> a -> (b, c)
``````
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I refer to this as "opaque haskell". At a certain point it's just illegible, the point varies on exposure. –  Dan Jul 4 '10 at 18:58
In fact, I tend to define a function which, for lack of a better name, I call `preserving :: (a -> b) -> a -> (a,b)`, defined as simply `preserving = (id &&&)`. (Sometimes I also swap the tuple order and define it as `(&&& id)`; I ought to be consistent.) I'm always a little surprised that it doesn't seem to exit anywhere standard. –  Antal Spector-Zabusky Jul 4 '10 at 19:51
Dan, I think that's probably the easiest Arrow combinator to use in real code. Its name is nicely evocative: you can read that line of code out loud as "map id and sqrt to xs". –  Carl Jul 4 '10 at 20:08
I agree, I think this is very readable. It does force readers to learn what `&&&` does, but that's fun :-). –  Mk12 Jul 9 '12 at 4:42

I rarely use list comprehensions, but both are dandy. Just use the one that makes your code easier to read.

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