# Trying to apply map to “inner” arguments of functions in Haskell

Let's define an arbitrary function

``````someFunc a b = ...
``````

if I ever need it, I know I can do something like

``````map (someFunc a) [b0, b1, b2, ..., bn]
``````

and I'll get as result

``````[(someFunc a b0), (someFunc a b1), ..., (someFunc a bn)]
``````

There is nothing new here. But what if instead of using the map's 2nd argument to vary `b`, I wanted to vary `a` (a "inner" argument)?

``````map (someFunc ? b) [?0, ?1, ?2, ..., ?n]
``````

Is there any way to accomplish this in Haskell? If not, what would be the work around for this?

I know I probably wasn't very clear about what I'm posting about. If needed, I can try to reformulate my question :(

-
Trust me (or anyone who did a bit of Haskell) - you'll need implicit currying. Propably because it becomes second nature, but at the very least so you can read the code point-free fanatics sometimes produce. – delnan Dec 1 '10 at 22:36

You can either use a lambda

``````map (\a -> someFunc a b) ...
``````

or the higher order function`flip`, which returns the given function with its arguments flipped around:

``````map (flip someFunc b) ...
``````
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Don't forget (ab)using backticks and infix sections, e.g. `(`someFunc` b)`. Usually not recommended, but can be acceptable for two-argument functions and/or functions intended to be used infix, like `on`. – C. A. McCann Dec 2 '10 at 0:06

You could use

``````flip :: (a -> b -> c) -> b -> a -> c
``````

So you would say

``````map (flip someFunc b) [a1...]
``````

For more complicated cases with more arguments you would have to use a lambda. In theory you can always do it with the right combination of flips and arguments, but the lambda version will probably be more readable.

-
You could also use lots and lots of flips: `\x -> f x a1 a2 a3 a4 a5`, for instance, is equivalent to `flip (flip (flip (flip (flip f a1) a2) a3) a4) a5` (code obtained via the `pointfree` program). But, uh, don't do this :-) – Antal Spector-Zabusky Dec 1 '10 at 22:30