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Can someone provide "for-dummies" example of how to use `MonadRandom'?

Currently I have code that does stuff like passing around the generator variable, all the way from the main function:

 main = do
     g <- getStdGen
     r <- myFunc g
     putStrLn "Result is : " ++ show r

 --my complicated func
 myFunc g x y z = afunc g x y z
 afunc g x y z = bfunc g x y
 bfunc g x y = cfunc g x
 cfunc g x = ret where
       (ret, _ ) = randomR (0.0, 1.0) g


share|improve this question
up vote 13 down vote accepted

Basically all the extra g parameters can just be dropped. You then get random numbers using the functions from Control.Monad.Random (such as getRandomR). Here is your example (I added some args to make it compile):

import Control.Monad.Random

main = do
    g <- getStdGen
    let r = evalRand (myFunc 1 2 3) g :: Double
    -- or use runRand if you want to do more random stuff:
    -- let (r,g') = runRand (myFunc 1 2 3) g :: (Double,StdGen)
    putStrLn $ "Result is : " ++ show r

--my complicated func
myFunc x y z = afunc x y z
afunc x y z = bfunc x y
bfunc x y = cfunc x
cfunc x = do
    ret <- getRandomR (0.0,1.0)
    return ret
share|improve this answer
I think you have runRand and evalRand mixed up! – dflemstr Feb 13 '12 at 19:53
Not sure how that happened, since I ran the code :) Fixed now. – Porges Feb 13 '12 at 20:42
Of course, myFunc, aFunc, bFunc, and cFunc are now monadic. They return values wrapped in the Rand monad, which have to be extracted with >>= (or <- in a do), and created with return. – pat Feb 13 '12 at 20:58
No, you can use them from anywhere. You just need to use evalRand or runRand with a RandGen argument. Basically, you've changed from having to pass the argument around explicitly to getting that 'for free', but working inside a monad. It's also harder to make mistakes this way (like forgetting to pass on the second argument returned by randomR). – Porges Feb 13 '12 at 22:22
Remember, monadic doesn't imply the IO monad. In this case, we're talking about the Rand monad. It makes sure that the generator is threaded through your code correctly, so you don't inadvertently create two random numbers from the same state of the generator (which would generate two identical so-called random numbers). In your example, you are discarding the new generator. If you wanted to create a second random number, you might be tempted to use g again, but that would be incorrect. – pat Feb 13 '12 at 22:43

You just run something in the RandT monad transformer with runRandT or evalRandT, and for the pure Rand monad, with runRand or evalRand:

main = do
  g <- getStdGen
  r = evalRand twoEliteNumbers g
  putStrLn $ "Result is: " ++ show r

twoEliteNumbers :: (RandomGen g) => Rand g (Double, Double)
twoEliteNumbers = do
  -- You can call other functions in the Rand monad
  number1 <- eliteNumber
  number2 <- eliteNumber
  return $ (number1, number2)

eliteNumber :: (RandomGen g) => Rand g Double
eliteNumber = do
  -- When you need random numbers, just call the getRandom* functions
  randomNumber <- getRandomR (0.0, 1.0)
  return $ randomNumber * 1337
share|improve this answer
Um... but isn't your func working inside an IO or monad? – drozzy Feb 13 '12 at 20:09
Also... what would happen if I called func not from main? – drozzy Feb 13 '12 at 20:09
do doesn't mean that you use the IO monad. I'm using the Rand monad here. – dflemstr Feb 13 '12 at 20:25
func can be called from any other function in the Rand monad. I'll update with an example. – dflemstr Feb 13 '12 at 20:26

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