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I am creating a Haskell application that generates a random number on an infinite loop (only when requested by a client). However, I should only use pure functions for that purpose. Is it safe to wrap randomIO with unsafeperformIO without any drastic stability or performance risk?

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You should use random or randomR in pure code. – Mikhail Glushenkov Apr 25 '13 at 7:55
NO! You might be able to justify unsafeInterleaveIO but nothing random is pure! – Philip JF Apr 25 '13 at 8:05
@PhilipJF: "nothing random is pure"? I'd say things like (not–in-place) quicksort with random pivot are pure algorithms allright: the randomness can't be observed from the outside except through performance variations, which only have any meaning in the IO monad anyway. – leftaroundabout Apr 25 '13 at 9:20
@leftaroundabout: Well, that quicksort itself isn't random then, is it? It's as pure as runST, there's just no easy way to enforce it the way ST does. The random values are still "locally" impure, though. – C. A. McCann Apr 25 '13 at 16:29
I question the need to use unsafePerformIO at all. Why do you say that you must only use pure functions? – Gabriel Gonzalez Apr 25 '13 at 18:24
up vote 12 down vote accepted

Any use of unsafePerformIO should be justified by a proof that the resulting value is still pure. The rigour of the proof is up to you and the importance of the work. For example, this pathetic use unsafePerformIO and randomIO should be safe, because you can prove that when slowTrue returns anything, it will return True.

import System.Random
import System.IO.Unsafe
import Data.Int

slowTrue = unsafePerformIO $ go
    go = do
        x1 <- randomIO
        x2 <- randomIO
        if ((x1 :: Int16) == x2) then return True else go

The following tempting definition of a global, possibly random variables is not safe:

rand :: Bool -> Int
rand True = unsafePerformIO randomIO 
rand False = 0

The problem is that the same expression will now yield different values:

main = do
    print (rand True)
    print (rand True)

prints here:


(at least when compiled without optimizations – but that just stresses the fragility of inappropriate use of unsafePerformIO).

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That's an interesting question. Top level definition unknown = unsafePerformIO randomIO is actually safe if compiler will evaluate body of unknown only once. But I'm pretty sure that compiler have rights to inline it and/or calculate many times. – ony Apr 25 '13 at 12:24
I had that as my example first, but I could not tickle GHC enough to make that actually observable, therefore this example. – Joachim Breitner Apr 25 '13 at 14:41

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