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I'm a C# guy trying to teach myself Haskell from Erik Meijer's Channel 9 webcasts. I came across an interesting puzzle which involved skipping every 'n' elements of a list using zip and mod.

every :: Int -> [a] -> [a]
every _ [] = []
every n xs = [x | (x,i) <- zip xs [1..], i `mod` n == 0]

I've been thinking it might be more efficient (for really large lists, or streams) if we could avoid using mod.

I thought about lazily creating a repeating list of integers so we can simply compare the value of i to n.

repeatInts :: Int -> [Int]

such that calling repeatInts 3 returns [1,2,3,1,2,3,1,2,3,1,2,3,..] ad infinitum.

Given this, we could redefine every like so:

every :: Int -> [a] -> [a]
every _ [] = []
every n xs = [x | (x,i) <- zip xs (repeatInts n), i == n]

So my questions is: how would you implement repeatInts?

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up vote 14 down vote accepted

Use cycle:

cycle :: [a] -> [a]  

cycle ties a finite list into a circular one, or equivalently, the infinite repetition of the original list. It is the identity on infinite lists.

You could define repeatInts in terms of cycle:

*Main> let repeatInts n = cycle [1..n]
*Main> :t repeatInts
repeatInts :: (Num t, Enum t) => t -> [t]
*Main> take 10 $ repeatInts 3
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Thanks, gbacon. Somehow I knew there'd be a simple answer! Now I can dig into the workings of cycle. – Damian Powell Jan 10 '10 at 0:29
cycle xs = xs ++ cycle xs I'd guess ;-) – Jochen Ritzel Jan 10 '10 at 0:35
Somewhat strangely, cycle is standard Haskell '98, even though cyclic lists are not. See what the source (above) says about it - you might or might not get a cyclic list... – Charles Stewart Jan 11 '10 at 11:38
"Note that you could write “cycle xs = xs ++ cycle xs”, but that isn’t strictly a cyclic list, it’s an infinite list. There is no semantic difference, only a very subtle operational one." - unspecified.wordpress.com/2010/03/30/… – user295190 Aug 23 '11 at 7:26

Late answer but it can also be written like this:

repeatInts :: Int -> [Int]
repeatInts 0 = []
repeatInts a = [1..a] ++ repeatInts a
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