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I feel like this should be fairly obvious, or easy, but I just can't get it. What I want to do is apply a function to a list (using map) but only if a condition is held. Imagine you only wanted to divide the numbers which were even:

map (`div` 2) (even) [1,2,3,4]

And that would give out [1,1,3,2] since only the even numbers would have the function applied to them. Obviously this doesn't work, but is there a way to make this work without having to write a seperate function that you can give to map? Filter is almost there, except I also want to keep the elements which the condition doesn't hold for, and just not apply the function to them.

Thanks

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6 Answers 6

up vote 4 down vote accepted

If you don't want to define separate function, then use lambda.

map (\x -> if (even x) then (x `div` 2) else x) [1,2,3,4]

Or instead of a map, list comprehension, bit more readable I think.

[if (even x) then (x `div` 2) else x | x <- [1,2,3,4]]
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Thanks, didn't think of using if/then/else and lambda. –  Paul Feb 12 '11 at 19:43
    
@PPiotrLegnica: In this case, list comprehension might be bad for performance, because it translate to concatMap which causes the creation of a superfluous layer of lists. –  FUZxxl Feb 12 '11 at 19:49
2  
@FUZxxl: Run ghc -ddump-simpl, you'll see that no intermediary lists are created. The default rewrite rules and other optimization passes are smarter than that. –  ephemient Feb 12 '11 at 20:07
    
Yes. I forgot about that. GHC is damned smart, some times even so smart to remove the roadblocks I set to block his optimization... :) –  FUZxxl Feb 12 '11 at 20:09
mapIf p f = map (\x -> if p x then f x else x)
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2  
Note that this can be made into a more general utility for Functor s, not just lists, if you change map to fmap in the above. –  pelotom Feb 12 '11 at 19:49

In addition to the answer of PiotrLegnica: Often, it's easier to read if you declare a helper function instead of using a lambda. Consider this:

map helper [1..4] where
  helper x | even x    = x `div` 2
           | otherwise = x

([1..4] is sugar for [1,2,3,4])

If you want to remove all the other elements instead, consider using filter. filter removes all elements that don't satisfy the predicate:

filter even [1..4] -> [2,4]

So you can build a pipe of mapand filter than or use list-comprehension instead:

map (`div` 2) $ filter even [1..4]
[x `div` 2 | x <- [1..4], even x]

Choose whatever you like best.

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Make your own helper function maker:

ifP pred f x = 
    if pred x then f x
    else x

custom_f = ifP even f
map custom_f [..]

(caveat: I don't have access to a compiler right now. I guess this works OK...)

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1  
Personally I'd call this whenP, since if makes me think there should be an else case as well, but I like this solution. –  ephemient Feb 12 '11 at 20:08

I like the other, more general solutions, but in your very special case you can get away with

map (\x -> x `div` (2 - x `mod` 2)) [1..4]
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Mostly a rip off of existing answers, but according to my biased definition of "readable" (I like guards more than ifs, and where more than let):

mapIf p f = map f'
    where f' x | p x = f x | otherwise = x

ghci says it probably works

ghci> let mapIf p f = map f' where f' x | p x = f x | otherwise = x
ghci> mapIf even (+1) [1..10]
[1,3,3,5,5,7,7,9,9,11]
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