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I am trying to use MonadRandom. I put it into randomPref function, but the whole thing brows up afterwards! Any tips are appreciated.

module AgentGenerator where

import System.Random
import Data.Hashable
import Control.Monad.Random

import System.Environment

-- Generate agents and write to a file
-- 'fname' - output filename
-- 's' - number of agent sets
-- 'n' - number of agents in a set
-- 'x' - number of preferences per agent
generate fname s n x = do
    writeFile fname $ show $ generateAgentSets s n x

-- Agent type: Name, List of preferences
data Agent = Agent String [Double] deriving Show
type AgentSet = [Agent]

-- Generate 's' sets of 'n' agents each, with 'x' preferences each
generateAgentSets:: Integer -> Integer -> Integer -> [AgentSet]
generateAgentSets s n x  = [generateAgents n x | i <- [1..s] ]

-- Generate n agents with 'x' preferences each
generateAgents:: Integer -> Integer -> AgentSet
generateAgents n x = [createAgent (show i) x | i <- [1..n]]

-- Create agent 'name' with 'x' preferences
createAgent:: String -> Integer -> Agent
createAgent name x = Agent name prefs where
    prefs = [ randomPref (i + hashed) | i <- [1..x] ]  where
        hashed = fromIntegral ( hash name )

-- Generate single random value between [0, 1] based on the seed
-- TODO: Get rid of the seed thing and use MonadRandom instead
randomPref :: (RandomGen g) => Integer -> Rand g [Double]
randomPref seed = getRandomR (0.0, 1.0)
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1 Answer 1

up vote 8 down vote accepted

You've defined Agent as

data Agent = Agent String [Double]

But in createAgent, you are trying to construct an Agent using the types

Agent String [Rand g [Double]]

Another type error is that in randomPref, the signature says that you are generating a list of random doubles, but you only generate one double. I'm also not 100% sure how the function should work, given that you never use the seed value anywhere. You either want to return a Rand monad or take a seed value and use that to generate a plain double. Having both doesn't really make sense.

Here's a version that uses a seed, and returns a plain double

randomPref :: Integer -> Double
randomPref seed = evalRand (getRandomR (0.0, 1.0)) g where
    g = mkStdGen (fromIntegral seed)

I've used mkStdGen from System.Random here as an example, but you might want to replace it with some other instance of RandomGen.

However, the above is a pretty questionable use of MonadRandom and unless it's really important to generate each agent with a specific seed, it's probably more logical to implement randomPref like this

randomPref :: RandomGen g => Rand g Double
randomPref = getRandomR (0.0, 1.0)

Now we don't take in a seed value, we just declare that randomPref is a random double. However, you can't just use a random double like it was a regular double, so we need to change the other functions too. First, createAgent

createAgent:: RandomGen g => String -> Int -> Rand g Agent
createAgent name x = Agent name <$> prefs where
    prefs = replicateM x randomPref

We change the signature to reflect the fact that we are actually returning a random Agent. The <$> operator is from the module Control.Applicative and it is used to apply a function expecting a plain value to a Rand value. This is just a nicer way to write fmap (Agent name) prefs.

prefs is defined in terms of replicateM (from the module Control.Monad), which replicates a monadic value x times, so you get x random prefs. On another note, I've changed all the functions to use Int values instead of Integers. Unless you really want to generate billions of agents, this makes the code a lot faster, and many standard library functions (like replicateM) only accept machine ints.

generateAgents:: RandomGen g => Int -> Int -> Rand g AgentSet
generateAgents n x = mapM (\i -> createAgent (show i) x) [1..n]

generateAgents is changed in a similar way. We note in the signature that we are returning a random AgentSet, and change the list comprehension into mapM. mapM is like the standard map function, except that is works with functions that return monadic values (such as Rand).

generateAgentSets:: RandomGen g => Int -> Int -> Int -> Rand g [AgentSet]
generateAgentSets s n x  = replicateM s (generateAgents n x)

generateAgentSets follows the same routine. We've replaced the list comprehension with replicateM to generate s instances of random agent sets.

The biggest change is required in the generate function

generate :: RandomGen g => FilePath -> Int -> Int -> Int -> g -> IO ()
generate fname s n x g = do
    let randomSets = generateAgentSets s n x
        agentSets  = evalRand randomSets g
    writeFile fname $ show agentSets

We need to pass in a random number generator, which is then used with evalRand to turn the Rand AgentSet values into plain AgentSet values that can then be written to disk.

To get a better understanding why we need fmap/<$> and functions such as mapM and replicateM instead of plain old list comprehensions, you might want to read Chapter 11 and Chapter 12 from Learn you a Haskell for Great Good.

share|improve this answer
    
Thanks, you were right my randomPref should not return a list - I just found this type signature Rand g [Double] somewhere and used it unwittingly. And the seed is the remains of the old code - that did not use MonadRandom - in fact, everything except randomPref is the code that does not use MonadRandom - because I just gave up after trying to figure out how to use the damn thing! Sorry for the confusion. –  drozzy Feb 15 '12 at 13:04
    
Amazing answer thanks! –  drozzy Feb 15 '12 at 13:14
    
When I try to use generate "out.txt" 2 10 3 getStdGen from console I get No instance for (RandomGen (IO StdGen)) error :-( –  drozzy Feb 15 '12 at 15:23
    
getStdGen returns a monadic value, so you need to do getStdGen >>= generate "out.txt" 2 10 3, or alternatively, you can use generate "out.txt" 2 10 3 (newStdGen seed). The difference is that getStdGen returns the global, shared random generator and newStdGen creates a new random generator based on a seed value. –  shang Feb 15 '12 at 15:36
    
Thanks, but if I try newStdGen 10 it complains that newStdGen should take no arguments... –  drozzy Feb 15 '12 at 15:38

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