{-# LANGUAGE CPP #-} {-# LANGUAGE TemplateHaskell, GADTs #-} {-# LANGUAGE BangPatterns #-} {-# LANGUAGE MultiParamTypeClasses, FlexibleInstances #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE UndecidableInstances #-} {-# OPTIONS_GHC -fno-warn-orphans #-} -- |This module provides functions useful for implementing new 'MonadRandom' -- and 'RandomSource' instances for state-abstractions containing 'PureMT' -- values (the pure pseudorandom generator provided by the -- mersenne-random-pure64 package), as well as instances for some common -- cases. -- -- A 'PureMT' generator is immutable, so 'PureMT' by itself cannot be a -- 'RandomSource' (if it were, it would always give the same \"random\" -- values). Some form of mutable state must be used, such as an 'IORef', -- 'State' monad, etc.. A few default instances are provided by this module -- along with a more-general function ('getRandomPrimFromMTRef') usable as -- an implementation for new cases users might need. module Data.Random.Source.PureMT ( PureMT, newPureMT, pureMT , getRandomPrimFromMTRef ) where import Control.Monad.State import qualified Control.Monad.State.Strict as S import Data.Random.Internal.Source import Data.Random.Internal.TH import Data.StateRef import System.Random.Mersenne.Pure64 {-# INLINE withMTRef #-} withMTRef :: (Monad m, ModifyRef sr m PureMT) => (PureMT -> (t, PureMT)) -> sr -> m t withMTRef thing ref = atomicModifyReference ref $ \(!oldMT) -> case thing oldMT of (!w, !newMT) -> (newMT, w) {-# INLINE withMTState #-} withMTState :: MonadState PureMT m => (PureMT -> (t, PureMT)) -> m t withMTState thing = do !mt <- get let (!ws, !newMt) = thing mt put newMt return ws #ifndef MTL2 $(monadRandom [d| instance MonadRandom (State PureMT) |] where getRandomWord64 = withMTState randomWord64 getRandomDouble = withMTState randomDouble |]) $(monadRandom [d| instance MonadRandom (S.State PureMT) where getRandomWord64 = withMTState randomWord64 getRandomDouble = withMTState randomDouble |]) #endif $(randomSource [d| instance (Monad m1, ModifyRef (Ref m2 PureMT) m1 PureMT) => RandomSource m1 (Ref m2 PureMT) where getRandomWord64From = withMTRef randomWord64 getRandomDoubleFrom = withMTRef randomDouble |]) $(monadRandom [d| instance Monad m => MonadRandom (StateT PureMT m) where getRandomWord64 = withMTState randomWord64 getRandomDouble = withMTState randomDouble |]) $(monadRandom [d| instance Monad m => MonadRandom (S.StateT PureMT m) where getRandomWord64 = withMTState randomWord64 getRandomDouble = withMTState randomDouble |]) $(randomSource [d| instance (MonadIO m) => RandomSource m (IORef PureMT) where getRandomWord64From = withMTRef randomWord64 getRandomDoubleFrom = withMTRef randomDouble |]) $(randomSource [d| instance (Monad m, ModifyRef (STRef s PureMT) m PureMT) => RandomSource m (STRef s PureMT) where getRandomWord64From = withMTRef randomWord64 getRandomDoubleFrom = withMTRef randomDouble |]) -- Note that this instance is probably a Bad Idea. STM allows random variables -- to interact in spooky quantum-esque ways - One transaction can 'retry' until -- it gets a \"random\" answer it likes, which causes it to selectively consume -- entropy, biasing the supply from which other random variables will draw. -- instance (Monad m, ModifyRef (TVar PureMT) m PureMT) => RandomSource m (TVar PureMT) where -- {-# SPECIALIZE instance RandomSource IO (TVar PureMT) #-} -- {-# SPECIALIZE instance RandomSource STM (TVar PureMT) #-} -- getRandomPrimFrom = getRandomPrimFromMTRef -- |Given a mutable reference to a 'PureMT' generator, we can implement -- 'RandomSource' for it in any monad in which the reference can be modified. -- -- Typically this would be used to define a new 'RandomSource' instance for -- some new reference type or new monad in which an existing reference type -- can be modified atomically. As an example, the following instance could -- be used to describe how 'IORef' 'PureMT' can be a 'RandomSource' in the -- 'IO' monad: -- -- > instance RandomSource IO (IORef PureMT) where -- > supportedPrimsFrom _ _ = True -- > getSupportedRandomPrimFrom = getRandomPrimFromMTRef -- -- (note that there is actually a more general instance declared already -- covering this as a a special case, so there's no need to repeat this -- declaration anywhere) -- -- Example usage (using some functions from "Data.Random" in the random-fu -- package): -- -- > main = do -- > src <- newIORef (pureMT 1234) -- OR: newPureMT >>= newIORef -- > x <- runRVar (uniform 0 100) src :: IO Double -- > print x getRandomPrimFromMTRef :: ModifyRef sr m PureMT => sr -> Prim a -> m a getRandomPrimFromMTRef ref = atomicModifyReference' ref . runState . getRandomPrim atomicModifyReference' :: ModifyRef sr m a => sr -> (a -> (b, a)) -> m b atomicModifyReference' ref getR = atomicModifyReference ref (swap' . getR) where swap' (!a,!b) = (b,a)