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I recently needed to stride a list in order to peek out only some elements. It’s sorta a filter function, but it’s not so simple. But first, here what a stride is.

Striding a list – or any traversable type – is the same thing that folding it, but discarding some frequently met elements (regarding the stride value). We pick off an element, then the next value to pick off will be the next stride th one. For instance, if we stride a list with a stride value set to 0, we actually get the list unchanged. If we stride 1 a list, we get one element on two:

stride 0 [1..10] == [1..10]
stride 1 [1..10] == [1,3,5,7,9]
stride 2 [1..10] == [1,4,7,10]

I looked at Data.List, I found nothing to stride a list. That’s why I’ve written a function to stride my – and your! – stuff:

import Data.DList

-- for Data.List
stride :: (Num a, Eq a) => a -> [b] -> [b]
stride s = toList . snd . foldl (\(sa,xa) x -> if sa == s then (0,xa `snoc` x) else (sa+1,xa)) (s,fromList [])

You can use it like above. Is it possible to propose it to be part of the Data.List module? I think it can help much.

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1  
Why not stride n xs = chunk (n+1) xs >>= take 1, using chunk from Data.List.Split? –  Daniel Wagner Jan 4 '13 at 16:12
    
This is almost not a question – the only SO-suitable question I can find here is essentially "what's the process to add new functions to standard modules?" and that's buried right at the end. –  Ben Millwood Jan 4 '13 at 17:04

3 Answers 3

up vote 8 down vote accepted

A simpler implementation that also works on infinite lists and is more efficient would be

stride :: Int -> [a] -> [a]
stride s = go
  where
    go (x:xs) = x : go (drop s xs)
    go _      = []

If you want it for other types than just Int, make it

import Data.List

stride :: Integral i => i -> [a] -> [a]
stride s = go
  where
    go (x:xs) = x : go (genericDrop s xs)
    go _      = []

Doing it for non-integral types makes no sense IMO.

Is it possible to propose it to be part of the Data.List module?

Yes, that is possible, make a proposal on the libraries@haskell.org mailing list.

I don't think it would be accepted, however. The usefulness is too small to add it to the base package. It would be better added to another package. Perhaps including it in split would be best.

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Well, it could make sense for RealFracs, basically a more efficient \s l -> [l!!round x | x<-[0,s..]] – which wouldn't quite match the example behaviour, though, it would then be stride 1 ≡ id, not stride 0 ≡ id. –  leftaroundabout Jan 4 '13 at 15:44
    
Something like that might make sense indeed, I didn't think of that. If you look at the linked implementation, it counts up from 0 in steps of 1, until sa == s, which only produces more than the initial element if s is an integer. –  Daniel Fischer Jan 4 '13 at 15:50
    
woah, forgot the drop function, great idea :) –  phaazon Jan 4 '13 at 23:14

This function does not do exactly what you want, but you can base your stride function on it:

chunksOf :: Int -> [a] -> [[a]]
chunksOf n = takeWhile (not . null) . map (take n) . iterate (drop n)

Now your stride function might look something like this:

stride :: Int -> [a] -> [a]
stride n = map head . chunksOf (n + 1)

Using head is fine here, because the takeWhile (not . null) ensures that a sublist can never be empty.

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Exactly! chunksOf is the function that could be added, and stride could be based on it. An alternative implementation of chunksOf can be found in this blog post: bolo1729.blogspot.com/2011/12/my-first-use-of-state-monad.html –  Bolo Jan 4 '13 at 15:41
    
I'd always say: go for compositional solutions. I like this method particularly because of its use of composition. Neither Daniel's implementation nor yours makes use of that. Edit: That also makes sure that it's properly lazy. –  ertes Jan 4 '13 at 15:53
    
Your implementation of chunksOf is elegant, no doubt! It is exactly what I was looking for (and couldn't find, see "future work" remark) when writing my blog post. –  Bolo Jan 4 '13 at 16:04
    
It's an unfoldr! chunksOf n = takeWhile (not . null) . unfoldr (Just . splitAt n) –  Ben Millwood Jan 4 '13 at 17:08
    
You can actually implement stride itself in terms of unfoldr with the following short snippet, but I don't really like it: stride n = unfoldr (\xs' -> do x:xs <- Just xs'; Just (x, drop n xs)) –  ertes Jan 4 '13 at 17:34

Alternatively using the lens package you can:

>stridingOf l n = (elementsOf l ((==0) . (flip mod (n + 1))))
>striding = stridingOf traverse
>stride n = toListOf striding

>stride 1 [1..10]
[1,3,5,7,9]

A little bit of extra work of writing stridingOf rather then just striding allows for easy use on text and byteStrings a much more difficult rewrite with out the lens package.

>import Data.Text
>import Data.Text.Lens

>testText = pack "This is a test"
>toListOf (stridingOf text 1) testText
"Ti sats"

#lens

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