# How to generate an infinite list of random numbers using randomRIO?

I'm trying to generate an infinite list of random numbers using randomRIO.

``````import System.Random

g :: IO [Integer]
g = do
n <- randomRIO (1,6) :: IO Integer
f <- g
return (n : f)
``````

It compiles but hangs when run.

The problem with your code is that it never teminates. Whenever you execute `g`, it initially calcuates the first random number and stores it in `n`. Then it again recursively calls back to the same function `g` which goes on and on. To get an infinite list you can use the `randomRs` function:

``````g2 :: IO [Integer]
g2 = do
g <- newStdGen
return \$ randomRs (1,6) g
``````

And then you can produce any number of random numbers using it:

``````λ> g2 >>= \x -> return \$ take 5 \$ x
[5,4,6,5,6]
``````
• This won't work correctly: `getStdGen` does not update the global RNG state, like `randomRIO` does. You need `getStdRandom` to achieve this effect. – leftaroundabout Jul 10 '15 at 13:58

Well, you can't, for much the same reason why you can't lazily `mapM` over `State` (and then use the result state afterwards). `randomRIO` produces a single value and only hands on the monadic program flow after this value has been produced.

The way to produce infinite streams of random values is of course `randomRs`. You can easily couple it with `getStdRandom` to produce such streams right in `IO`:

``````import Control.Arrow

randomRsIO :: Random a => (a,a) -> IO [a]
randomRsIO range = getStdRandom \$ split >>> first (randomRs range)
``````

With that,

``````g :: IO [Integer]
g = randomRsIO (1,6)
``````
• You can do it with `unsafeInterleaveIO`: `g = do {r <- randomRIO (1,6); rs <- unsafeInterleaveIO g; return (r:rs)}`. But unless I had a reason, I'd use your approach. – cchalmers Jul 10 '15 at 13:57
• I generally pretend the `unsafeXyzIO` functions don't exist. (But you're right, this could actually be a safe use case... but I don't see any benefit over `randomRs`.) – leftaroundabout Jul 10 '15 at 14:02
• I can't compile `randomRsIO`. `Couldn't match type ‘[a]’ with ‘([a], StdGen)’` – Ηλεκτρολόγος Μηχανικός Jul 10 '15 at 14:51
• Right, that's because `randomRs` doesn't return an updated generator. Fixed. – leftaroundabout Jul 10 '15 at 14:58
• Thank you for introducing me to `Arrow` :) – Ηλεκτρολόγος Μηχανικός Jul 10 '15 at 16:35

You wanted an answer using randomRIO. I know its been a long time since the question was asked.

This is using liftM where you can generate a random number in range low `l` to high `h` and keep appending to a list num times. So we have a list of length `num` of random numbers.

``````import Control.Monad
import System.Random
gx :: Int -> Int -> Int -> IO [Int]
gx l h num = do
x <- randomRIO(l,h)
if num <=1 then return [x] else liftM (x:) (gx l h (num-1))
``````