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I would like to generate a list of random numbers (0, 1) for each element in a stream of integers. I was trying to build a comprehension list this:

randomNums = [(i, r) | i <- [1..], r <- SR.newStdGen] 

I simply cannot figure out how to do this. Can anyone help? The output I'm looking for is the original element, i and an associated random float. For example:

[(1, 0.20381), (2, 0.1128373), ...
share|improve this question
Is the stream of integers the normal counting ones (like 1, 2, 3, etc) or could it be any sequence of integers? – Matthew Watson Apr 28 '13 at 15:37
They could really be anything and in any order. Strings, Ints, etc. I want to create a random float for each item in this list. – turtle Apr 28 '13 at 15:48
up vote 4 down vote accepted

Just use zip to pair them up:

Prelude System.Random> let g = mkStdGen 42

Prelude System.Random> take 10 . zip [1..] . randomRs (0.0,1.0) $ g

As you can see, these are not really random; with the same initial argument (here, 42), the same sequence will be produced:

import System.Random

randomNums :: [a] -> Int -> [(a, Float)]
randomNums list initVal = zip list . randomRs (0.0,1.0) . mkStdGen $ initVal

If you're using this function from inside main, you can also randomize the initVal value itself,

main = do 
  initVal <- randomIO :: IO Int
  .... -- use initVal ....
share|improve this answer
How can this be used in a main function? The code works inside GHCi, but I get errors when I try to run inside of main as print $ randomNums [1..10] 3 – turtle Apr 28 '13 at 16:09
@turtle I've changed type signature. Try now. – Will Ness Apr 28 '13 at 16:10

First of all, newStdGen is IO StdGen, so you can't use it in pure functions at all, only in the IO monad. You could make your function return IO [(Int,Double)], but that's not really nice, it would pull everything into IO. I'd recommend using the Rand monad instead:

randomNums :: RandomGen g => Rand g [(Int,Double)]
randomNums = do
    randDoubles <- getRandoms
    return $ zip [1..] randDoubles

or simply

randomNums = fmap (zip [1..]) getRandoms

Note that Rand is little more than a reader monad (aka function) for random generators, so you can easily rewrite it without the MonadRandom package:

randomNums :: RandomGen g => g -> [(Int,Double)]
randomNums = zip [1..] . randoms

only, that signuature will be less pleasant to use if you have multiple things that need random generators; the Rand monad automatically takes care for distributing them. With the explicit function you'll keep on having to call split all the time, this quickly gets messy.

share|improve this answer
Thanks for the help. This looks very clear; however, I get errors. What is randoms? zip [1..] . randoms I also get errors with randomNums = fmap (zip [1..]) getRandoms. What is getRandoms? – turtle Apr 28 '13 at 16:08
randoms :: (RandomGen g, Random a) => g -> [a] is from the base package, you have that already (apparently imported qualified System.Random as SR, so it's SR.randoms for you). getRandoms :: (Random a, MonadRandom m) => m [a] is from MonadRandom, you may need to cabal install that. – leftaroundabout Apr 28 '13 at 16:17

If you want a pure list of randoms then use WillNess's approach. If you want an impure list, then use the pipes library to lazily stream an impure list:

import Control.Proxy
import Control.Proxy.Trans.State
import System.Random

randomNums :: (Proxy p) => () -> Producer p (Int, Double) IO r
randomNums () = evalStateP 0 $ forever $ do
    i <- get
    r <- lift $ randomRIO (0, 1)
    respond (i, r)
    put $! i + 1

You read out the list by supplying the appropriate transformation and consumption stages. For example, if you want to take the first 10 elements and print them, you write:

>>> runProxy $ randomNums >-> takeB_ 10 >-> printD

pipes gives you a way to work with effectful lazy lists without sacrificing the ability to manipulate them using high-level transformations.

share|improve this answer
is >>> a prompt? – Will Ness Apr 28 '13 at 16:08
@WillNess Yes, that's supposed to be a ghci prompt. It's just a habit I got from writing haddocks. – Gabriel Gonzalez Apr 28 '13 at 16:11
this can be confusing. :) Thanks. – Will Ness Apr 28 '13 at 16:11
That's very nice, but unless you're already using pipes for IO reasons I'd rather dispute it's worth to use them here. Ordinary lazy lists are completely fine for infinite random streams. – leftaroundabout Apr 28 '13 at 16:25
@leftaroundabout That's right. That's why I qualified this with the initial statement that it's only worth it if you want them purely for the sake of using the impure versions of the random functions. – Gabriel Gonzalez Apr 28 '13 at 17:04

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