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I have a list and I want to double every other element in this list from the right.

There is another related question that solves this problem but it doubles from the left, not the right: Haskell: Double every 2nd element in list

For example, in my scenario, [1,2,3,4] would become [2,2,6,4], and in that question, [1,2,3,4] would become [1,4,3,8].

How would I implement this?

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write a map function based on index of the element. –  Srinivas Reddy Thatiparthy Nov 8 '13 at 19:57
I understood the question differently from those who have provided answers so far. It seems that Hossein wants [1,2,3] -> [1,4,3] not [2,2,6] –  Tom Ellis Nov 8 '13 at 20:12
@TomEllis I agree. I think my answer efficiently solves this problem: stackoverflow.com/a/24178579/803801 –  gsingh2011 Jun 12 '14 at 7:18
Seems like you're trying to solve an exercise from Brent Yorgey's Haskell course: seas.upenn.edu/~cis194/hw/01-intro.pdf –  sindikat Jul 8 '14 at 14:37

8 Answers 8

Think about it.

double = zipWith ($) (cycle [(*2),id])

EDIT I should note, this isn't really my solution it is the solution of the linked post with the (*2) and id flipped. That's why I said think about it because it was such a trivial fix.

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Most definitely, double is a bad name for this. But nice solution! –  leftaroundabout Nov 8 '13 at 20:26
If find zipWith (*) (cycle [1,2]) a bit clearer. –  shang Nov 8 '13 at 20:40
@shang It probably is but I don't know if ghc would optimize (*1) to id. It shouldn't for floating point numbers because that would make no sense. –  DiegoNolan Nov 8 '13 at 21:19
@DiegoNolan: I'm not sure about GHC's optimizations but from what I understand, 1.0 is the multiplicative identity even for floating point numbers. –  shang Nov 9 '13 at 9:06
The OP explicitly asking for doubling every 2nd element from the right. This answer does it from the left, so if the length of an input list is odd, the result will be wrong. –  Petr Pudlák Mar 1 at 16:35

I think that the top answer misinterpreted the question. The title clearly states that the OP wants to double the second, fourth, etc. elements from the right of the list. Ørjan Johansen's answer is correct, but slow. Here is my more efficient solution:

doubleFromRight :: [Integer] -> [Integer]
doubleFromRight xs = fst $ foldr (\x (acc, bool) ->
                                  ((if bool then 2 * x else x) : acc,
                                   not bool)) ([], False) xs

It folds over the list from the right. The initial value is a tuple containing the empty list and a boolean. The boolean starts as false and flips every time. The value is multiplied by 2 only if the boolean is true.

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OK, as @TomEllis mentions, everyone else seems to have interpreted your question as about odd-numbered elements from the left, instead of as even-numbered from the right, as your title implies.

Since you start checking positions from the right, there is no way to know what to double until the end of the list has been found. So the solution cannot be lazy, and will need to temporarily store the entire list somewhere (even if just on the execution stack) before returning anything.

Given this, the simplest solution might be to just apply reverse before and after the from-left solution:

doubleFromRight = reverse . doubleFromLeft . reverse
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His title doesn't match his explanation. The one he links doubles the 2nd and the 4th. And he says in my scenario double the first and the third and in that view double the 2nd and 4th. –  DiegoNolan Nov 9 '13 at 14:55
@DiegoNolan He doesn't use the words first and third, he just provides example lists. Since he only gives even-length examples, it is ambiguous from those which of our interpretations he means, except that the title clearly says "second element of list from right". –  Ørjan Johansen Nov 10 '13 at 1:00
It is not ambigous. He links a post that doubles the second, fourth, sixth and so on. And says that is not what he wants. There is only one other way. And the lists he displays are excatly what I said. –  DiegoNolan Nov 10 '13 at 1:36
@DiegoNolan You think think he wants the first, third etc. elements from the left. I think he wants the second, fourth etc. elements from the right. Because the title of this question is "double second element of list from right in haskell". These give the same result for the even length example he gives, but different results for odd length ones like the one TomEllis suggests. –  Ørjan Johansen Nov 10 '13 at 4:52
I believe that your interpretation of the problem is correct @ØrjanJohansen. However, I think my solution is more efficient: stackoverflow.com/a/24178579/803801 –  gsingh2011 Jun 12 '14 at 7:18

My first thought was:

doubleOdd (x:xs) = (2*x):(doubleEven xs)
doubleOdd [] = []
doubleEven (x:xs) = x:(doubleOdd xs)
doubleEven [] = []

DiegoNolan's solution is more elegant, in that the function and sequence length are more easily altered, but it took me a moment to grok.

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A direct implementation would be:

doubleOddElements :: [Int] -> [Int]
doubleOddElements [] = []
doubleOddElements [x] = [2 * x]
doubleOddElements (x:y:xs) = (2*x):y:(doubleOddElements xs)
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Okay, so not elegant or efficient like the other answers, but I wrote this from a beginners standpoint (I am one) in terms of readability and basic functionality.

This doubles every second number, beginning from the right.

Using this script: doubleEveryOther [1,3,6,9,12,15,18] produces [1,6,6,18,12,30,18] and doubleEveryOther [1,3,6,9,12,15] produces [2,3,12,9,24,15]

doubleEveryOther :: [Integer] -> [Integer]
doubleEveryOther [] = []
doubleEveryOther (x:[]) = [x]
doubleEveryOther (x:y:zs)
  |  (length (x:y:zs)) `mod` 2    /= 0    =    x : y*2 : doubleEveryOther zs
  |  otherwise                            =    x*2 : y : doubleEveryOther zs
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Some answers seems not deal with odd/even length of list.

doubleEveryOtherEvenList = zipWith ($) (cycle [(*2),id])

doubleEveryOther :: [Int] -> [Int]
doubleEveryOther n
    | length n `mod` 2 == 0 = doubleEveryOtherEvenList n
    | otherwise = (head n) : doubleEveryOtherEvenList (tail n)
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Trying to generalize the problem a bit: Since we want to double every 2nd element from the end, we can't know in advance if it'll be every odd or even from the start. So the easiest way is to construct both, count if the overall size is even or odd, and then decide.

Let's define an Applicative data structure that captures:

  • Having two variants of values,
  • keeping the parity of the length (odd/even), and
  • alternating the two when two such values are combined,

as follows:

import Control.Applicative
import Data.Monoid
import qualified Data.Traversable as T

data Switching m = Switching !Bool m m
  deriving (Eq, Ord, Show)

instance Functor Switching where
    fmap f (Switching b x y) = Switching b (f x) (f y)

instance Applicative Switching where
    pure x = Switching False x x
    (Switching False f g) <*> (Switching b2 x y) = Switching b2 (f x) (g y)
    (Switching True  f g) <*> (Switching b2 x y) = Switching (not b2) (f y) (g x)

So traversing a list will yield two lists looking like this:

x1 y2 x3 y4 ...
y1 x2 y3 x4 ...

two zig-zag-ing copies. Now we can compute

double2 :: (Num m) => m -> Switching m
double2 x = Switching True (2 * x) x

double2ndRight :: (Num m, T.Traversable f) => f m -> f m
double2ndRight k = case T.traverse double2 k of
                    Switching True _ y -> y
                    Switching False x _ -> x
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