I have a performance question today.
I am making a (Haskell) program and, when profiling, I saw that most of the time is spent in the function you can find below. Its purpose is to take the nth element of a list and return the list without it besides the element itself. My current (slow) definition is as follows:
breakOn :: Int -> [a] -> (a,[a]) breakOn 1 (x:xs) = (x,xs) breakOn n (x:xs) = (y,x:ys) where (y,ys) = breakOn (n-1) xs
Int argument is known to be in the range
n is the length of the (never null) list
(x:xs), so the function never arises an error.
However, I got a poor performance here. My first guess is that I should change lists for another structure. But, before start picking different structures and testing code (which will take me lot of time) I wanted to ask here for a third person opinion. Also, I'm pretty sure that I'm not doing it in the best way. Any pointers are welcome!
Please, note that the type
a may not be an instance of
I adapted my code tu use
Sequences from the Data.Sequence module. The result is here:
import qualified Data.Sequence as S breakOn :: Int -> Seq a -> (a,Seq a) breakOn n xs = (S.index zs 0, ys <> (S.drop 1 zs)) where (ys,zs) = S.splitAt (n-1) xs
However, I still accept further suggestions of improvement!