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To obtain the last n elements of a list xs, I can use reverse (take n (reverse xs)), but that is not very good code (it keeps the complete list in memory before returning anything, and the result is not shared with the original list).

How do I implement this lastR function in Haskell?

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Disclaimer: I have an answer that I’d like to share, but first I’ll see what else is suggested :-) –  Joachim Breitner Jun 22 '13 at 16:26
Never tried Haskell but know OCaml and one line has striken me: how the result can be shared with the original list? Ain't the objects immutable in Haskell? (as in most functional language) –  Boris Jun 22 '13 at 16:49
@Boris Yes. But when you do something like drop 1 xs dropping the first element from list. Instead of creating a new list of 1 less element, haskell usually optimizes this by just changing the pointer to point to the second element of the original list. –  Satvik Jun 22 '13 at 16:52
@Davorak gave the answer that I found as well, so I’ll refrain from answering myself. –  Joachim Breitner Jun 22 '13 at 17:22
why, the code inside a very recent question does exactly that. –  Will Ness Jun 22 '13 at 22:17

4 Answers 4

up vote 7 down vote accepted

This should have the property of only iterating the length of the list once. N for drop n and n - 1 for zipLeftover.

zipLeftover :: [a] -> [a] -> [a]
zipLeftover []     []     = []
zipLeftover xs     []     = xs
zipLeftover []     ys     = ys
zipLeftover (x:xs) (y:ys) = zipLeftover xs ys

lastN :: Int -> [a] -> [a]
lastN n xs = zipLeftover (drop n xs) xs

Here is an alternative shorter and perhaps better since as Satvik pointed out it is often better to use recursion operators then explicit recursion.

takeLeftover :: [a] -> t -> [a]
takeLeftover [] _ = []
takeLeftover (x:xss) _ = xss

lastN' :: Int -> [a] -> [a]
lastN' n xs = foldl' takeLeftover xs (drop n xs)

Also note Will Ness's comment below that takeLeftover is just:

takeLeftover == const . drop 1

Which makes things rather tidy:

lastN' :: Int -> [a] -> [a]
lastN' n xs = foldl' (const .drop 1) xs (drop n xs)
-- or
-- lastN' n xs = foldl' (const . drop 1) <*> drop n
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That’s the one I was looking for, see joachim-breitner.de/blog/archives/… for a long treatment of the issue. Note that you can reduce the number of cases in zipLeftover, but that is just cosmetics. –  Joachim Breitner Jun 22 '13 at 17:21
Thanks for the link I will check it out. I default to being explicit if I hesitate on a choice and do not want to spend much time thinking about it, hence the extra case. –  Davorak Jun 22 '13 at 17:32
I am not sure that the variant is really good; usually foldl has stack overflow issues. Maybe you meant to use foldr? –  Joachim Breitner Jun 22 '13 at 19:29
Yes, the second variant is not good. Compare lastN 1 [1..] (loops indefinitely, but does not allocate noticable memory) with lastN' 1 [1..] (which fills up the heap quite quickly). –  Joachim Breitner Jun 22 '13 at 20:37
Yes but that is because I forgot to make it strict. I should have used foldl' rather then the lazy foldl. The memory profile on lastN' and lastN when using foldl' is the same at least up to 100M elements. –  Davorak Jun 22 '13 at 20:43

Not sure whether it's terribly fast, but it's easy:

lastR n xs = snd $ dropWhile (not . null . fst) $ zip (tails $ drop n xs) (tails xs)
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From what I can tell you can use something like

lastN :: Int -> [a] -> [a]
lastN n xs = drop (length xs - n) xs

But with any implementation on inbuilt list you can not perform better than O(length of list - n).

It looks like you are trying to use list for something it was not meant to perform efficiently. Use Data.Sequence or some other implementation of list which allows operations to be performed at the end of the list efficiently.


Davorak's implementation looks like to be the most efficient implementation you can get from inbuilt list. But remember there are intricacies other than just the running time of a single function like whether it fuse well with other functions etc.

Daniel's solution uses inbuilt functions and has the same complexity as of Davorak's and I think has better chances to fuse with other functions.

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"like whether it fuse well with other functions etc." can you comment on what about Daniel's function makes it more likely to fuse? Or rather what hints are that might make it so. –  Davorak Jun 22 '13 at 17:34
@Davorak I am not an expert on fusion, but a function written using inbuilt functions is more likely to fuse. I think Daniel can comment on this with more information. –  Satvik Jun 22 '13 at 17:35
thanks, that was my impression as well specifically using recursion operators rather then explicit recursion, since the fusion rewrite rules are based off of the operators. –  Davorak Jun 22 '13 at 17:37

Be aware that whatever you do, you are going to need to iterate through the entire list. That said, you can do a bit better than reverse (take n (reverse xs)) by computing the length of the list first, and dropping the appropriate number of elements:

lastN :: Int -> [a] -> [a]
lastN n xs = let m = length xs in drop (m-n) xs
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