# Haskell recursion with random numbers and IO

For the 99 Haskell questions, specifically the 23rd one, I need to

"Extract a given number of randomly selected elements from a list.

Example (in lisp):

``````(rnd-select '(a b c d e f g h) 3)
(E D A)
``````

"

Which I have implemented like so:

``````import System.Random

removeAt :: [a] -> Int -> [a]
removeAt (x:xs) i
| i > 0  = x : removeAt xs (i-1)
| otherwise = xs

rndSelect :: (RandomGen g) => [a] -> Int ->  g -> IO [a]
rndSelect _ 0 _ = return []
rndSelect xs n gen = do
let (pos, newGen) = randomR (0, length xs - 1) gen
rest <- rndSelect (removeAt xs pos) (n-1) newGen
return \$ (xs!!pos):rest

-- for an explanation of what this is doing see EXPLANATION below
``````

As far as I can tell this works, but what I'm concerned about are those last two lines. I'm new to this and I don't know the associated costs of the '<-' operator is or bouncing in and out of IO repeatedly like I'm doing. Is this efficient, is there a better way to do this that doesn't involve bouncing IO, or is there no real overheads involved?

Any insight you have is appreciated, since I've only recently started learning these more sophisticated concepts in Haskell and haven't yet gotten used to reasoning about Haskell's IO system.

EXPLANATION: In order to do this I've decided that I should randomly select one element from the list using the randomR function (returns a random number in a given range), and keep doing this recursively until I've taken n elements.

I've made a couple assumptions about the problem that have lead me to this approach. Firstly I've assumed that rndSelect can select a specific element from the list only once, and secondly I've assumed that each element should have an equal probability of being picked.

PS: it's my first question on SO so if I've formatted the question poorly feel free to tell me.

-
Do you really need to wrap the result in IO monad? Why cant it be : rndSelect :: (RandomGen g) => [a] -> Int -> g -> [a] .... The user of this function can wrap the result list in IO if required using return function. –  Ankur May 10 '11 at 5:28
I'm using IO because that's the only way (I know of) to get random numbers. I wish to randomly select/remove an element from the list, then return the list so I can do this again (n-1) times. Due to Haskell's purity I don't think I can do this outside of an IO monad, but it might be possible to write a helper function that doesn't use IO. –  Dave May 10 '11 at 5:37

You do not need IO for this, since randomR does not require it. What you need to do however, is to thread the random number generator through your computation:

``````import System.Random

removeAt :: [a] -> Int -> [a]
removeAt (x:xs) i
| i > 0  = x : removeAt xs (i-1)
| otherwise = xs

rndSelect :: (RandomGen t, Num a) => [a1] -> a -> t -> ([a1], t)
rndSelect _ 0 g = ([],g)
rndSelect xs n gen =
let (pos, newGen) = randomR (0, length xs - 1) gen
(rest,ng)     = rndSelect (removeAt xs pos) (n-1) newGen
in  ((xs!!pos):rest, ng)
``````

If you're concerned about overheads going from IO to pure code, don't be. Instead you can try mwc-random package which will be atleast an order of magnitude faster in this case. Further, you could get additional benefit using any random access data structure instead of list if you have many elements.

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Right, I see. I got confused and assumed I needed IO because I was reading about getStdGen in LYAH when all I needed that for was the seed randomGen at the start. >If you're concerned about overheads going from IO to pure code, don't be. Thanks. Optimization of this program wasn't important so much as finding out if IO had costs associated, so that's good to know. –  Dave May 10 '11 at 6:08
``````rndSelect :: (RandomGen g) => [a] -> Int ->  g -> [a]