{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE UndecidableInstances #-}
module System.Random.Stateful
(
module System.Random
, StatefulGen(..)
, FrozenGen(..)
, RandomGenM(..)
, withMutableGen
, withMutableGen_
, randomM
, randomRM
, splitGenM
, StateGen(..)
, StateGenM(..)
, runStateGen
, runStateGen_
, runStateGenT
, runStateGenT_
, runStateGenST
, runStateGenST_
, AtomicGen(..)
, AtomicGenM(..)
, newAtomicGenM
, applyAtomicGen
, globalStdGen
, IOGen(..)
, IOGenM(..)
, newIOGenM
, applyIOGen
, STGen(..)
, STGenM(..)
, newSTGenM
, applySTGen
, runSTGen
, runSTGen_
, TGen(..)
, TGenM(..)
, newTGenM
, newTGenMIO
, applyTGen
, Uniform(..)
, uniformListM
, uniformViaFiniteM
, UniformRange(..)
, genShortByteStringIO
, genShortByteStringST
, uniformByteStringM
, uniformDouble01M
, uniformDoublePositive01M
, uniformFloat01M
, uniformFloatPositive01M
, uniformEnumM
, uniformEnumRM
) where
import Control.DeepSeq
import Control.Monad (replicateM)
import Control.Monad.IO.Class
import Control.Monad.ST
import GHC.Conc.Sync (STM, TVar, newTVar, newTVarIO, readTVar, writeTVar)
import Control.Monad.State.Strict (MonadState, state)
import Data.IORef
import Data.STRef
import Foreign.Storable
import System.Random
import System.Random.Internal
class (RandomGen r, StatefulGen g m) => RandomGenM g r m | g -> r where
applyRandomGenM :: (r -> (a, r)) -> g -> m a
splitGenM :: RandomGenM g r m => g -> m r
splitGenM :: forall g r (m :: * -> *). RandomGenM g r m => g -> m r
splitGenM = (r -> (r, r)) -> g -> m r
forall a. (r -> (a, r)) -> g -> m a
forall g r (m :: * -> *) a.
RandomGenM g r m =>
(r -> (a, r)) -> g -> m a
applyRandomGenM r -> (r, r)
forall g. RandomGen g => g -> (g, g)
split
instance (RandomGen r, MonadIO m) => RandomGenM (IOGenM r) r m where
applyRandomGenM :: forall a. (r -> (a, r)) -> IOGenM r -> m a
applyRandomGenM = (r -> (a, r)) -> IOGenM r -> m a
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen
instance (RandomGen r, MonadIO m) => RandomGenM (AtomicGenM r) r m where
applyRandomGenM :: forall a. (r -> (a, r)) -> AtomicGenM r -> m a
applyRandomGenM = (r -> (a, r)) -> AtomicGenM r -> m a
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen
instance (RandomGen r, MonadState r m) => RandomGenM (StateGenM r) r m where
applyRandomGenM :: forall a. (r -> (a, r)) -> StateGenM r -> m a
applyRandomGenM r -> (a, r)
f StateGenM r
_ = (r -> (a, r)) -> m a
forall a. (r -> (a, r)) -> m a
forall s (m :: * -> *) a. MonadState s m => (s -> (a, s)) -> m a
state r -> (a, r)
f
instance RandomGen r => RandomGenM (STGenM r s) r (ST s) where
applyRandomGenM :: forall a. (r -> (a, r)) -> STGenM r s -> ST s a
applyRandomGenM = (r -> (a, r)) -> STGenM r s -> ST s a
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen
instance RandomGen r => RandomGenM (TGenM r) r STM where
applyRandomGenM :: forall a. (r -> (a, r)) -> TGenM r -> STM a
applyRandomGenM = (r -> (a, r)) -> TGenM r -> STM a
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen
withMutableGen :: FrozenGen f m => f -> (MutableGen f m -> m a) -> m (a, f)
withMutableGen :: forall f (m :: * -> *) a.
FrozenGen f m =>
f -> (MutableGen f m -> m a) -> m (a, f)
withMutableGen f
fg MutableGen f m -> m a
action = do
MutableGen f m
g <- f -> m (MutableGen f m)
forall f (m :: * -> *). FrozenGen f m => f -> m (MutableGen f m)
thawGen f
fg
a
res <- MutableGen f m -> m a
action MutableGen f m
g
f
fg' <- MutableGen f m -> m f
forall f (m :: * -> *). FrozenGen f m => MutableGen f m -> m f
freezeGen MutableGen f m
g
(a, f) -> m (a, f)
forall a. a -> m a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (a
res, f
fg')
withMutableGen_ :: FrozenGen f m => f -> (MutableGen f m -> m a) -> m a
withMutableGen_ :: forall f (m :: * -> *) a.
FrozenGen f m =>
f -> (MutableGen f m -> m a) -> m a
withMutableGen_ f
fg MutableGen f m -> m a
action = (a, f) -> a
forall a b. (a, b) -> a
fst ((a, f) -> a) -> m (a, f) -> m a
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> f -> (MutableGen f m -> m a) -> m (a, f)
forall f (m :: * -> *) a.
FrozenGen f m =>
f -> (MutableGen f m -> m a) -> m (a, f)
withMutableGen f
fg MutableGen f m -> m a
action
uniformListM :: (StatefulGen g m, Uniform a) => Int -> g -> m [a]
uniformListM :: forall g (m :: * -> *) a.
(StatefulGen g m, Uniform a) =>
Int -> g -> m [a]
uniformListM Int
n g
gen = Int -> m a -> m [a]
forall (m :: * -> *) a. Applicative m => Int -> m a -> m [a]
replicateM Int
n (g -> m a
forall a g (m :: * -> *). (Uniform a, StatefulGen g m) => g -> m a
forall g (m :: * -> *). StatefulGen g m => g -> m a
uniformM g
gen)
randomM :: (RandomGenM g r m, Random a) => g -> m a
randomM :: forall g r (m :: * -> *) a.
(RandomGenM g r m, Random a) =>
g -> m a
randomM = (r -> (a, r)) -> g -> m a
forall a. (r -> (a, r)) -> g -> m a
forall g r (m :: * -> *) a.
RandomGenM g r m =>
(r -> (a, r)) -> g -> m a
applyRandomGenM r -> (a, r)
forall g. RandomGen g => g -> (a, g)
forall a g. (Random a, RandomGen g) => g -> (a, g)
random
randomRM :: (RandomGenM g r m, Random a) => (a, a) -> g -> m a
randomRM :: forall g r (m :: * -> *) a.
(RandomGenM g r m, Random a) =>
(a, a) -> g -> m a
randomRM (a, a)
r = (r -> (a, r)) -> g -> m a
forall a. (r -> (a, r)) -> g -> m a
forall g r (m :: * -> *) a.
RandomGenM g r m =>
(r -> (a, r)) -> g -> m a
applyRandomGenM ((a, a) -> r -> (a, r)
forall g. RandomGen g => (a, a) -> g -> (a, g)
forall a g. (Random a, RandomGen g) => (a, a) -> g -> (a, g)
randomR (a, a)
r)
newtype AtomicGenM g = AtomicGenM { forall g. AtomicGenM g -> IORef g
unAtomicGenM :: IORef g}
newtype AtomicGen g = AtomicGen { forall g. AtomicGen g -> g
unAtomicGen :: g}
deriving (AtomicGen g -> AtomicGen g -> Bool
(AtomicGen g -> AtomicGen g -> Bool)
-> (AtomicGen g -> AtomicGen g -> Bool) -> Eq (AtomicGen g)
forall g. Eq g => AtomicGen g -> AtomicGen g -> Bool
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
$c== :: forall g. Eq g => AtomicGen g -> AtomicGen g -> Bool
== :: AtomicGen g -> AtomicGen g -> Bool
$c/= :: forall g. Eq g => AtomicGen g -> AtomicGen g -> Bool
/= :: AtomicGen g -> AtomicGen g -> Bool
Eq, Eq (AtomicGen g)
Eq (AtomicGen g)
-> (AtomicGen g -> AtomicGen g -> Ordering)
-> (AtomicGen g -> AtomicGen g -> Bool)
-> (AtomicGen g -> AtomicGen g -> Bool)
-> (AtomicGen g -> AtomicGen g -> Bool)
-> (AtomicGen g -> AtomicGen g -> Bool)
-> (AtomicGen g -> AtomicGen g -> AtomicGen g)
-> (AtomicGen g -> AtomicGen g -> AtomicGen g)
-> Ord (AtomicGen g)
AtomicGen g -> AtomicGen g -> Bool
AtomicGen g -> AtomicGen g -> Ordering
AtomicGen g -> AtomicGen g -> AtomicGen g
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
forall {g}. Ord g => Eq (AtomicGen g)
forall g. Ord g => AtomicGen g -> AtomicGen g -> Bool
forall g. Ord g => AtomicGen g -> AtomicGen g -> Ordering
forall g. Ord g => AtomicGen g -> AtomicGen g -> AtomicGen g
$ccompare :: forall g. Ord g => AtomicGen g -> AtomicGen g -> Ordering
compare :: AtomicGen g -> AtomicGen g -> Ordering
$c< :: forall g. Ord g => AtomicGen g -> AtomicGen g -> Bool
< :: AtomicGen g -> AtomicGen g -> Bool
$c<= :: forall g. Ord g => AtomicGen g -> AtomicGen g -> Bool
<= :: AtomicGen g -> AtomicGen g -> Bool
$c> :: forall g. Ord g => AtomicGen g -> AtomicGen g -> Bool
> :: AtomicGen g -> AtomicGen g -> Bool
$c>= :: forall g. Ord g => AtomicGen g -> AtomicGen g -> Bool
>= :: AtomicGen g -> AtomicGen g -> Bool
$cmax :: forall g. Ord g => AtomicGen g -> AtomicGen g -> AtomicGen g
max :: AtomicGen g -> AtomicGen g -> AtomicGen g
$cmin :: forall g. Ord g => AtomicGen g -> AtomicGen g -> AtomicGen g
min :: AtomicGen g -> AtomicGen g -> AtomicGen g
Ord, Int -> AtomicGen g -> ShowS
[AtomicGen g] -> ShowS
AtomicGen g -> String
(Int -> AtomicGen g -> ShowS)
-> (AtomicGen g -> String)
-> ([AtomicGen g] -> ShowS)
-> Show (AtomicGen g)
forall g. Show g => Int -> AtomicGen g -> ShowS
forall g. Show g => [AtomicGen g] -> ShowS
forall g. Show g => AtomicGen g -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
$cshowsPrec :: forall g. Show g => Int -> AtomicGen g -> ShowS
showsPrec :: Int -> AtomicGen g -> ShowS
$cshow :: forall g. Show g => AtomicGen g -> String
show :: AtomicGen g -> String
$cshowList :: forall g. Show g => [AtomicGen g] -> ShowS
showList :: [AtomicGen g] -> ShowS
Show, Int -> AtomicGen g -> (ShortByteString, AtomicGen g)
Word32 -> AtomicGen g -> (Word32, AtomicGen g)
Word64 -> AtomicGen g -> (Word64, AtomicGen g)
AtomicGen g -> (Int, Int)
AtomicGen g -> (Int, AtomicGen g)
AtomicGen g -> (Word8, AtomicGen g)
AtomicGen g -> (Word16, AtomicGen g)
AtomicGen g -> (Word32, AtomicGen g)
AtomicGen g -> (Word64, AtomicGen g)
AtomicGen g -> (AtomicGen g, AtomicGen g)
(AtomicGen g -> (Int, AtomicGen g))
-> (AtomicGen g -> (Word8, AtomicGen g))
-> (AtomicGen g -> (Word16, AtomicGen g))
-> (AtomicGen g -> (Word32, AtomicGen g))
-> (AtomicGen g -> (Word64, AtomicGen g))
-> (Word32 -> AtomicGen g -> (Word32, AtomicGen g))
-> (Word64 -> AtomicGen g -> (Word64, AtomicGen g))
-> (Int -> AtomicGen g -> (ShortByteString, AtomicGen g))
-> (AtomicGen g -> (Int, Int))
-> (AtomicGen g -> (AtomicGen g, AtomicGen g))
-> RandomGen (AtomicGen g)
forall g.
RandomGen g =>
Int -> AtomicGen g -> (ShortByteString, AtomicGen g)
forall g.
RandomGen g =>
Word32 -> AtomicGen g -> (Word32, AtomicGen g)
forall g.
RandomGen g =>
Word64 -> AtomicGen g -> (Word64, AtomicGen g)
forall g. RandomGen g => AtomicGen g -> (Int, Int)
forall g. RandomGen g => AtomicGen g -> (Int, AtomicGen g)
forall g. RandomGen g => AtomicGen g -> (Word8, AtomicGen g)
forall g. RandomGen g => AtomicGen g -> (Word16, AtomicGen g)
forall g. RandomGen g => AtomicGen g -> (Word32, AtomicGen g)
forall g. RandomGen g => AtomicGen g -> (Word64, AtomicGen g)
forall g. RandomGen g => AtomicGen g -> (AtomicGen g, AtomicGen g)
forall g.
(g -> (Int, g))
-> (g -> (Word8, g))
-> (g -> (Word16, g))
-> (g -> (Word32, g))
-> (g -> (Word64, g))
-> (Word32 -> g -> (Word32, g))
-> (Word64 -> g -> (Word64, g))
-> (Int -> g -> (ShortByteString, g))
-> (g -> (Int, Int))
-> (g -> (g, g))
-> RandomGen g
$cnext :: forall g. RandomGen g => AtomicGen g -> (Int, AtomicGen g)
next :: AtomicGen g -> (Int, AtomicGen g)
$cgenWord8 :: forall g. RandomGen g => AtomicGen g -> (Word8, AtomicGen g)
genWord8 :: AtomicGen g -> (Word8, AtomicGen g)
$cgenWord16 :: forall g. RandomGen g => AtomicGen g -> (Word16, AtomicGen g)
genWord16 :: AtomicGen g -> (Word16, AtomicGen g)
$cgenWord32 :: forall g. RandomGen g => AtomicGen g -> (Word32, AtomicGen g)
genWord32 :: AtomicGen g -> (Word32, AtomicGen g)
$cgenWord64 :: forall g. RandomGen g => AtomicGen g -> (Word64, AtomicGen g)
genWord64 :: AtomicGen g -> (Word64, AtomicGen g)
$cgenWord32R :: forall g.
RandomGen g =>
Word32 -> AtomicGen g -> (Word32, AtomicGen g)
genWord32R :: Word32 -> AtomicGen g -> (Word32, AtomicGen g)
$cgenWord64R :: forall g.
RandomGen g =>
Word64 -> AtomicGen g -> (Word64, AtomicGen g)
genWord64R :: Word64 -> AtomicGen g -> (Word64, AtomicGen g)
$cgenShortByteString :: forall g.
RandomGen g =>
Int -> AtomicGen g -> (ShortByteString, AtomicGen g)
genShortByteString :: Int -> AtomicGen g -> (ShortByteString, AtomicGen g)
$cgenRange :: forall g. RandomGen g => AtomicGen g -> (Int, Int)
genRange :: AtomicGen g -> (Int, Int)
$csplit :: forall g. RandomGen g => AtomicGen g -> (AtomicGen g, AtomicGen g)
split :: AtomicGen g -> (AtomicGen g, AtomicGen g)
RandomGen, Ptr (AtomicGen g) -> IO (AtomicGen g)
Ptr (AtomicGen g) -> Int -> IO (AtomicGen g)
Ptr (AtomicGen g) -> Int -> AtomicGen g -> IO ()
Ptr (AtomicGen g) -> AtomicGen g -> IO ()
AtomicGen g -> Int
(AtomicGen g -> Int)
-> (AtomicGen g -> Int)
-> (Ptr (AtomicGen g) -> Int -> IO (AtomicGen g))
-> (Ptr (AtomicGen g) -> Int -> AtomicGen g -> IO ())
-> (forall b. Ptr b -> Int -> IO (AtomicGen g))
-> (forall b. Ptr b -> Int -> AtomicGen g -> IO ())
-> (Ptr (AtomicGen g) -> IO (AtomicGen g))
-> (Ptr (AtomicGen g) -> AtomicGen g -> IO ())
-> Storable (AtomicGen g)
forall b. Ptr b -> Int -> IO (AtomicGen g)
forall b. Ptr b -> Int -> AtomicGen g -> IO ()
forall g. Storable g => Ptr (AtomicGen g) -> IO (AtomicGen g)
forall g.
Storable g =>
Ptr (AtomicGen g) -> Int -> IO (AtomicGen g)
forall g.
Storable g =>
Ptr (AtomicGen g) -> Int -> AtomicGen g -> IO ()
forall g. Storable g => Ptr (AtomicGen g) -> AtomicGen g -> IO ()
forall g. Storable g => AtomicGen g -> Int
forall g b. Storable g => Ptr b -> Int -> IO (AtomicGen g)
forall g b. Storable g => Ptr b -> Int -> AtomicGen g -> IO ()
forall a.
(a -> Int)
-> (a -> Int)
-> (Ptr a -> Int -> IO a)
-> (Ptr a -> Int -> a -> IO ())
-> (forall b. Ptr b -> Int -> IO a)
-> (forall b. Ptr b -> Int -> a -> IO ())
-> (Ptr a -> IO a)
-> (Ptr a -> a -> IO ())
-> Storable a
$csizeOf :: forall g. Storable g => AtomicGen g -> Int
sizeOf :: AtomicGen g -> Int
$calignment :: forall g. Storable g => AtomicGen g -> Int
alignment :: AtomicGen g -> Int
$cpeekElemOff :: forall g.
Storable g =>
Ptr (AtomicGen g) -> Int -> IO (AtomicGen g)
peekElemOff :: Ptr (AtomicGen g) -> Int -> IO (AtomicGen g)
$cpokeElemOff :: forall g.
Storable g =>
Ptr (AtomicGen g) -> Int -> AtomicGen g -> IO ()
pokeElemOff :: Ptr (AtomicGen g) -> Int -> AtomicGen g -> IO ()
$cpeekByteOff :: forall g b. Storable g => Ptr b -> Int -> IO (AtomicGen g)
peekByteOff :: forall b. Ptr b -> Int -> IO (AtomicGen g)
$cpokeByteOff :: forall g b. Storable g => Ptr b -> Int -> AtomicGen g -> IO ()
pokeByteOff :: forall b. Ptr b -> Int -> AtomicGen g -> IO ()
$cpeek :: forall g. Storable g => Ptr (AtomicGen g) -> IO (AtomicGen g)
peek :: Ptr (AtomicGen g) -> IO (AtomicGen g)
$cpoke :: forall g. Storable g => Ptr (AtomicGen g) -> AtomicGen g -> IO ()
poke :: Ptr (AtomicGen g) -> AtomicGen g -> IO ()
Storable, AtomicGen g -> ()
(AtomicGen g -> ()) -> NFData (AtomicGen g)
forall g. NFData g => AtomicGen g -> ()
forall a. (a -> ()) -> NFData a
$crnf :: forall g. NFData g => AtomicGen g -> ()
rnf :: AtomicGen g -> ()
NFData)
newAtomicGenM :: MonadIO m => g -> m (AtomicGenM g)
newAtomicGenM :: forall (m :: * -> *) g. MonadIO m => g -> m (AtomicGenM g)
newAtomicGenM = (IORef g -> AtomicGenM g) -> m (IORef g) -> m (AtomicGenM g)
forall a b. (a -> b) -> m a -> m b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap IORef g -> AtomicGenM g
forall g. IORef g -> AtomicGenM g
AtomicGenM (m (IORef g) -> m (AtomicGenM g))
-> (g -> m (IORef g)) -> g -> m (AtomicGenM g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IO (IORef g) -> m (IORef g)
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO (IORef g) -> m (IORef g))
-> (g -> IO (IORef g)) -> g -> m (IORef g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. g -> IO (IORef g)
forall a. a -> IO (IORef a)
newIORef
globalStdGen :: AtomicGenM StdGen
globalStdGen :: AtomicGenM StdGen
globalStdGen = IORef StdGen -> AtomicGenM StdGen
forall g. IORef g -> AtomicGenM g
AtomicGenM IORef StdGen
theStdGen
instance (RandomGen g, MonadIO m) => StatefulGen (AtomicGenM g) m where
uniformWord32R :: Word32 -> AtomicGenM g -> m Word32
uniformWord32R Word32
r = (g -> (Word32, g)) -> AtomicGenM g -> m Word32
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen (Word32 -> g -> (Word32, g)
forall g. RandomGen g => Word32 -> g -> (Word32, g)
genWord32R Word32
r)
{-# INLINE uniformWord32R #-}
uniformWord64R :: Word64 -> AtomicGenM g -> m Word64
uniformWord64R Word64
r = (g -> (Word64, g)) -> AtomicGenM g -> m Word64
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen (Word64 -> g -> (Word64, g)
forall g. RandomGen g => Word64 -> g -> (Word64, g)
genWord64R Word64
r)
{-# INLINE uniformWord64R #-}
uniformWord8 :: AtomicGenM g -> m Word8
uniformWord8 = (g -> (Word8, g)) -> AtomicGenM g -> m Word8
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen g -> (Word8, g)
forall g. RandomGen g => g -> (Word8, g)
genWord8
{-# INLINE uniformWord8 #-}
uniformWord16 :: AtomicGenM g -> m Word16
uniformWord16 = (g -> (Word16, g)) -> AtomicGenM g -> m Word16
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen g -> (Word16, g)
forall g. RandomGen g => g -> (Word16, g)
genWord16
{-# INLINE uniformWord16 #-}
uniformWord32 :: AtomicGenM g -> m Word32
uniformWord32 = (g -> (Word32, g)) -> AtomicGenM g -> m Word32
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen g -> (Word32, g)
forall g. RandomGen g => g -> (Word32, g)
genWord32
{-# INLINE uniformWord32 #-}
uniformWord64 :: AtomicGenM g -> m Word64
uniformWord64 = (g -> (Word64, g)) -> AtomicGenM g -> m Word64
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen g -> (Word64, g)
forall g. RandomGen g => g -> (Word64, g)
genWord64
{-# INLINE uniformWord64 #-}
uniformShortByteString :: Int -> AtomicGenM g -> m ShortByteString
uniformShortByteString Int
n = (g -> (ShortByteString, g)) -> AtomicGenM g -> m ShortByteString
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen (Int -> g -> (ShortByteString, g)
forall g. RandomGen g => Int -> g -> (ShortByteString, g)
genShortByteString Int
n)
instance (RandomGen g, MonadIO m) => FrozenGen (AtomicGen g) m where
type MutableGen (AtomicGen g) m = AtomicGenM g
freezeGen :: MutableGen (AtomicGen g) m -> m (AtomicGen g)
freezeGen = (g -> AtomicGen g) -> m g -> m (AtomicGen g)
forall a b. (a -> b) -> m a -> m b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap g -> AtomicGen g
forall g. g -> AtomicGen g
AtomicGen (m g -> m (AtomicGen g))
-> (AtomicGenM g -> m g) -> AtomicGenM g -> m (AtomicGen g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IO g -> m g
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO g -> m g) -> (AtomicGenM g -> IO g) -> AtomicGenM g -> m g
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IORef g -> IO g
forall a. IORef a -> IO a
readIORef (IORef g -> IO g)
-> (AtomicGenM g -> IORef g) -> AtomicGenM g -> IO g
forall b c a. (b -> c) -> (a -> b) -> a -> c
. AtomicGenM g -> IORef g
forall g. AtomicGenM g -> IORef g
unAtomicGenM
thawGen :: AtomicGen g -> m (MutableGen (AtomicGen g) m)
thawGen (AtomicGen g
g) = g -> m (AtomicGenM g)
forall (m :: * -> *) g. MonadIO m => g -> m (AtomicGenM g)
newAtomicGenM g
g
applyAtomicGen :: MonadIO m => (g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen :: forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> AtomicGenM g -> m a
applyAtomicGen g -> (a, g)
op (AtomicGenM IORef g
gVar) =
IO a -> m a
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO a -> m a) -> IO a -> m a
forall a b. (a -> b) -> a -> b
$ IORef g -> (g -> (g, a)) -> IO a
forall a b. IORef a -> (a -> (a, b)) -> IO b
atomicModifyIORef' IORef g
gVar ((g -> (g, a)) -> IO a) -> (g -> (g, a)) -> IO a
forall a b. (a -> b) -> a -> b
$ \g
g ->
case g -> (a, g)
op g
g of
(a
a, g
g') -> (g
g', a
a)
{-# INLINE applyAtomicGen #-}
newtype IOGenM g = IOGenM { forall g. IOGenM g -> IORef g
unIOGenM :: IORef g }
newtype IOGen g = IOGen { forall g. IOGen g -> g
unIOGen :: g }
deriving (IOGen g -> IOGen g -> Bool
(IOGen g -> IOGen g -> Bool)
-> (IOGen g -> IOGen g -> Bool) -> Eq (IOGen g)
forall g. Eq g => IOGen g -> IOGen g -> Bool
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
$c== :: forall g. Eq g => IOGen g -> IOGen g -> Bool
== :: IOGen g -> IOGen g -> Bool
$c/= :: forall g. Eq g => IOGen g -> IOGen g -> Bool
/= :: IOGen g -> IOGen g -> Bool
Eq, Eq (IOGen g)
Eq (IOGen g)
-> (IOGen g -> IOGen g -> Ordering)
-> (IOGen g -> IOGen g -> Bool)
-> (IOGen g -> IOGen g -> Bool)
-> (IOGen g -> IOGen g -> Bool)
-> (IOGen g -> IOGen g -> Bool)
-> (IOGen g -> IOGen g -> IOGen g)
-> (IOGen g -> IOGen g -> IOGen g)
-> Ord (IOGen g)
IOGen g -> IOGen g -> Bool
IOGen g -> IOGen g -> Ordering
IOGen g -> IOGen g -> IOGen g
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
forall {g}. Ord g => Eq (IOGen g)
forall g. Ord g => IOGen g -> IOGen g -> Bool
forall g. Ord g => IOGen g -> IOGen g -> Ordering
forall g. Ord g => IOGen g -> IOGen g -> IOGen g
$ccompare :: forall g. Ord g => IOGen g -> IOGen g -> Ordering
compare :: IOGen g -> IOGen g -> Ordering
$c< :: forall g. Ord g => IOGen g -> IOGen g -> Bool
< :: IOGen g -> IOGen g -> Bool
$c<= :: forall g. Ord g => IOGen g -> IOGen g -> Bool
<= :: IOGen g -> IOGen g -> Bool
$c> :: forall g. Ord g => IOGen g -> IOGen g -> Bool
> :: IOGen g -> IOGen g -> Bool
$c>= :: forall g. Ord g => IOGen g -> IOGen g -> Bool
>= :: IOGen g -> IOGen g -> Bool
$cmax :: forall g. Ord g => IOGen g -> IOGen g -> IOGen g
max :: IOGen g -> IOGen g -> IOGen g
$cmin :: forall g. Ord g => IOGen g -> IOGen g -> IOGen g
min :: IOGen g -> IOGen g -> IOGen g
Ord, Int -> IOGen g -> ShowS
[IOGen g] -> ShowS
IOGen g -> String
(Int -> IOGen g -> ShowS)
-> (IOGen g -> String) -> ([IOGen g] -> ShowS) -> Show (IOGen g)
forall g. Show g => Int -> IOGen g -> ShowS
forall g. Show g => [IOGen g] -> ShowS
forall g. Show g => IOGen g -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
$cshowsPrec :: forall g. Show g => Int -> IOGen g -> ShowS
showsPrec :: Int -> IOGen g -> ShowS
$cshow :: forall g. Show g => IOGen g -> String
show :: IOGen g -> String
$cshowList :: forall g. Show g => [IOGen g] -> ShowS
showList :: [IOGen g] -> ShowS
Show, Int -> IOGen g -> (ShortByteString, IOGen g)
Word32 -> IOGen g -> (Word32, IOGen g)
Word64 -> IOGen g -> (Word64, IOGen g)
IOGen g -> (Int, Int)
IOGen g -> (Int, IOGen g)
IOGen g -> (Word8, IOGen g)
IOGen g -> (Word16, IOGen g)
IOGen g -> (Word32, IOGen g)
IOGen g -> (Word64, IOGen g)
IOGen g -> (IOGen g, IOGen g)
(IOGen g -> (Int, IOGen g))
-> (IOGen g -> (Word8, IOGen g))
-> (IOGen g -> (Word16, IOGen g))
-> (IOGen g -> (Word32, IOGen g))
-> (IOGen g -> (Word64, IOGen g))
-> (Word32 -> IOGen g -> (Word32, IOGen g))
-> (Word64 -> IOGen g -> (Word64, IOGen g))
-> (Int -> IOGen g -> (ShortByteString, IOGen g))
-> (IOGen g -> (Int, Int))
-> (IOGen g -> (IOGen g, IOGen g))
-> RandomGen (IOGen g)
forall g.
RandomGen g =>
Int -> IOGen g -> (ShortByteString, IOGen g)
forall g. RandomGen g => Word32 -> IOGen g -> (Word32, IOGen g)
forall g. RandomGen g => Word64 -> IOGen g -> (Word64, IOGen g)
forall g. RandomGen g => IOGen g -> (Int, Int)
forall g. RandomGen g => IOGen g -> (Int, IOGen g)
forall g. RandomGen g => IOGen g -> (Word8, IOGen g)
forall g. RandomGen g => IOGen g -> (Word16, IOGen g)
forall g. RandomGen g => IOGen g -> (Word32, IOGen g)
forall g. RandomGen g => IOGen g -> (Word64, IOGen g)
forall g. RandomGen g => IOGen g -> (IOGen g, IOGen g)
forall g.
(g -> (Int, g))
-> (g -> (Word8, g))
-> (g -> (Word16, g))
-> (g -> (Word32, g))
-> (g -> (Word64, g))
-> (Word32 -> g -> (Word32, g))
-> (Word64 -> g -> (Word64, g))
-> (Int -> g -> (ShortByteString, g))
-> (g -> (Int, Int))
-> (g -> (g, g))
-> RandomGen g
$cnext :: forall g. RandomGen g => IOGen g -> (Int, IOGen g)
next :: IOGen g -> (Int, IOGen g)
$cgenWord8 :: forall g. RandomGen g => IOGen g -> (Word8, IOGen g)
genWord8 :: IOGen g -> (Word8, IOGen g)
$cgenWord16 :: forall g. RandomGen g => IOGen g -> (Word16, IOGen g)
genWord16 :: IOGen g -> (Word16, IOGen g)
$cgenWord32 :: forall g. RandomGen g => IOGen g -> (Word32, IOGen g)
genWord32 :: IOGen g -> (Word32, IOGen g)
$cgenWord64 :: forall g. RandomGen g => IOGen g -> (Word64, IOGen g)
genWord64 :: IOGen g -> (Word64, IOGen g)
$cgenWord32R :: forall g. RandomGen g => Word32 -> IOGen g -> (Word32, IOGen g)
genWord32R :: Word32 -> IOGen g -> (Word32, IOGen g)
$cgenWord64R :: forall g. RandomGen g => Word64 -> IOGen g -> (Word64, IOGen g)
genWord64R :: Word64 -> IOGen g -> (Word64, IOGen g)
$cgenShortByteString :: forall g.
RandomGen g =>
Int -> IOGen g -> (ShortByteString, IOGen g)
genShortByteString :: Int -> IOGen g -> (ShortByteString, IOGen g)
$cgenRange :: forall g. RandomGen g => IOGen g -> (Int, Int)
genRange :: IOGen g -> (Int, Int)
$csplit :: forall g. RandomGen g => IOGen g -> (IOGen g, IOGen g)
split :: IOGen g -> (IOGen g, IOGen g)
RandomGen, Ptr (IOGen g) -> IO (IOGen g)
Ptr (IOGen g) -> Int -> IO (IOGen g)
Ptr (IOGen g) -> Int -> IOGen g -> IO ()
Ptr (IOGen g) -> IOGen g -> IO ()
IOGen g -> Int
(IOGen g -> Int)
-> (IOGen g -> Int)
-> (Ptr (IOGen g) -> Int -> IO (IOGen g))
-> (Ptr (IOGen g) -> Int -> IOGen g -> IO ())
-> (forall b. Ptr b -> Int -> IO (IOGen g))
-> (forall b. Ptr b -> Int -> IOGen g -> IO ())
-> (Ptr (IOGen g) -> IO (IOGen g))
-> (Ptr (IOGen g) -> IOGen g -> IO ())
-> Storable (IOGen g)
forall b. Ptr b -> Int -> IO (IOGen g)
forall b. Ptr b -> Int -> IOGen g -> IO ()
forall g. Storable g => Ptr (IOGen g) -> IO (IOGen g)
forall g. Storable g => Ptr (IOGen g) -> Int -> IO (IOGen g)
forall g. Storable g => Ptr (IOGen g) -> Int -> IOGen g -> IO ()
forall g. Storable g => Ptr (IOGen g) -> IOGen g -> IO ()
forall g. Storable g => IOGen g -> Int
forall g b. Storable g => Ptr b -> Int -> IO (IOGen g)
forall g b. Storable g => Ptr b -> Int -> IOGen g -> IO ()
forall a.
(a -> Int)
-> (a -> Int)
-> (Ptr a -> Int -> IO a)
-> (Ptr a -> Int -> a -> IO ())
-> (forall b. Ptr b -> Int -> IO a)
-> (forall b. Ptr b -> Int -> a -> IO ())
-> (Ptr a -> IO a)
-> (Ptr a -> a -> IO ())
-> Storable a
$csizeOf :: forall g. Storable g => IOGen g -> Int
sizeOf :: IOGen g -> Int
$calignment :: forall g. Storable g => IOGen g -> Int
alignment :: IOGen g -> Int
$cpeekElemOff :: forall g. Storable g => Ptr (IOGen g) -> Int -> IO (IOGen g)
peekElemOff :: Ptr (IOGen g) -> Int -> IO (IOGen g)
$cpokeElemOff :: forall g. Storable g => Ptr (IOGen g) -> Int -> IOGen g -> IO ()
pokeElemOff :: Ptr (IOGen g) -> Int -> IOGen g -> IO ()
$cpeekByteOff :: forall g b. Storable g => Ptr b -> Int -> IO (IOGen g)
peekByteOff :: forall b. Ptr b -> Int -> IO (IOGen g)
$cpokeByteOff :: forall g b. Storable g => Ptr b -> Int -> IOGen g -> IO ()
pokeByteOff :: forall b. Ptr b -> Int -> IOGen g -> IO ()
$cpeek :: forall g. Storable g => Ptr (IOGen g) -> IO (IOGen g)
peek :: Ptr (IOGen g) -> IO (IOGen g)
$cpoke :: forall g. Storable g => Ptr (IOGen g) -> IOGen g -> IO ()
poke :: Ptr (IOGen g) -> IOGen g -> IO ()
Storable, IOGen g -> ()
(IOGen g -> ()) -> NFData (IOGen g)
forall g. NFData g => IOGen g -> ()
forall a. (a -> ()) -> NFData a
$crnf :: forall g. NFData g => IOGen g -> ()
rnf :: IOGen g -> ()
NFData)
newIOGenM :: MonadIO m => g -> m (IOGenM g)
newIOGenM :: forall (m :: * -> *) g. MonadIO m => g -> m (IOGenM g)
newIOGenM = (IORef g -> IOGenM g) -> m (IORef g) -> m (IOGenM g)
forall a b. (a -> b) -> m a -> m b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap IORef g -> IOGenM g
forall g. IORef g -> IOGenM g
IOGenM (m (IORef g) -> m (IOGenM g))
-> (g -> m (IORef g)) -> g -> m (IOGenM g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IO (IORef g) -> m (IORef g)
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO (IORef g) -> m (IORef g))
-> (g -> IO (IORef g)) -> g -> m (IORef g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. g -> IO (IORef g)
forall a. a -> IO (IORef a)
newIORef
instance (RandomGen g, MonadIO m) => StatefulGen (IOGenM g) m where
uniformWord32R :: Word32 -> IOGenM g -> m Word32
uniformWord32R Word32
r = (g -> (Word32, g)) -> IOGenM g -> m Word32
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen (Word32 -> g -> (Word32, g)
forall g. RandomGen g => Word32 -> g -> (Word32, g)
genWord32R Word32
r)
{-# INLINE uniformWord32R #-}
uniformWord64R :: Word64 -> IOGenM g -> m Word64
uniformWord64R Word64
r = (g -> (Word64, g)) -> IOGenM g -> m Word64
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen (Word64 -> g -> (Word64, g)
forall g. RandomGen g => Word64 -> g -> (Word64, g)
genWord64R Word64
r)
{-# INLINE uniformWord64R #-}
uniformWord8 :: IOGenM g -> m Word8
uniformWord8 = (g -> (Word8, g)) -> IOGenM g -> m Word8
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen g -> (Word8, g)
forall g. RandomGen g => g -> (Word8, g)
genWord8
{-# INLINE uniformWord8 #-}
uniformWord16 :: IOGenM g -> m Word16
uniformWord16 = (g -> (Word16, g)) -> IOGenM g -> m Word16
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen g -> (Word16, g)
forall g. RandomGen g => g -> (Word16, g)
genWord16
{-# INLINE uniformWord16 #-}
uniformWord32 :: IOGenM g -> m Word32
uniformWord32 = (g -> (Word32, g)) -> IOGenM g -> m Word32
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen g -> (Word32, g)
forall g. RandomGen g => g -> (Word32, g)
genWord32
{-# INLINE uniformWord32 #-}
uniformWord64 :: IOGenM g -> m Word64
uniformWord64 = (g -> (Word64, g)) -> IOGenM g -> m Word64
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen g -> (Word64, g)
forall g. RandomGen g => g -> (Word64, g)
genWord64
{-# INLINE uniformWord64 #-}
uniformShortByteString :: Int -> IOGenM g -> m ShortByteString
uniformShortByteString Int
n = (g -> (ShortByteString, g)) -> IOGenM g -> m ShortByteString
forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen (Int -> g -> (ShortByteString, g)
forall g. RandomGen g => Int -> g -> (ShortByteString, g)
genShortByteString Int
n)
instance (RandomGen g, MonadIO m) => FrozenGen (IOGen g) m where
type MutableGen (IOGen g) m = IOGenM g
freezeGen :: MutableGen (IOGen g) m -> m (IOGen g)
freezeGen = (g -> IOGen g) -> m g -> m (IOGen g)
forall a b. (a -> b) -> m a -> m b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap g -> IOGen g
forall g. g -> IOGen g
IOGen (m g -> m (IOGen g))
-> (IOGenM g -> m g) -> IOGenM g -> m (IOGen g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IO g -> m g
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO g -> m g) -> (IOGenM g -> IO g) -> IOGenM g -> m g
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IORef g -> IO g
forall a. IORef a -> IO a
readIORef (IORef g -> IO g) -> (IOGenM g -> IORef g) -> IOGenM g -> IO g
forall b c a. (b -> c) -> (a -> b) -> a -> c
. IOGenM g -> IORef g
forall g. IOGenM g -> IORef g
unIOGenM
thawGen :: IOGen g -> m (MutableGen (IOGen g) m)
thawGen (IOGen g
g) = g -> m (IOGenM g)
forall (m :: * -> *) g. MonadIO m => g -> m (IOGenM g)
newIOGenM g
g
applyIOGen :: MonadIO m => (g -> (a, g)) -> IOGenM g -> m a
applyIOGen :: forall (m :: * -> *) g a.
MonadIO m =>
(g -> (a, g)) -> IOGenM g -> m a
applyIOGen g -> (a, g)
f (IOGenM IORef g
ref) = IO a -> m a
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO a -> m a) -> IO a -> m a
forall a b. (a -> b) -> a -> b
$ do
g
g <- IORef g -> IO g
forall a. IORef a -> IO a
readIORef IORef g
ref
case g -> (a, g)
f g
g of
(!a
a, !g
g') -> a
a a -> IO () -> IO a
forall a b. a -> IO b -> IO a
forall (f :: * -> *) a b. Functor f => a -> f b -> f a
<$ IORef g -> g -> IO ()
forall a. IORef a -> a -> IO ()
writeIORef IORef g
ref g
g'
{-# INLINE applyIOGen #-}
newtype STGenM g s = STGenM { forall g s. STGenM g s -> STRef s g
unSTGenM :: STRef s g }
newtype STGen g = STGen { forall g. STGen g -> g
unSTGen :: g }
deriving (STGen g -> STGen g -> Bool
(STGen g -> STGen g -> Bool)
-> (STGen g -> STGen g -> Bool) -> Eq (STGen g)
forall g. Eq g => STGen g -> STGen g -> Bool
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
$c== :: forall g. Eq g => STGen g -> STGen g -> Bool
== :: STGen g -> STGen g -> Bool
$c/= :: forall g. Eq g => STGen g -> STGen g -> Bool
/= :: STGen g -> STGen g -> Bool
Eq, Eq (STGen g)
Eq (STGen g)
-> (STGen g -> STGen g -> Ordering)
-> (STGen g -> STGen g -> Bool)
-> (STGen g -> STGen g -> Bool)
-> (STGen g -> STGen g -> Bool)
-> (STGen g -> STGen g -> Bool)
-> (STGen g -> STGen g -> STGen g)
-> (STGen g -> STGen g -> STGen g)
-> Ord (STGen g)
STGen g -> STGen g -> Bool
STGen g -> STGen g -> Ordering
STGen g -> STGen g -> STGen g
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
forall {g}. Ord g => Eq (STGen g)
forall g. Ord g => STGen g -> STGen g -> Bool
forall g. Ord g => STGen g -> STGen g -> Ordering
forall g. Ord g => STGen g -> STGen g -> STGen g
$ccompare :: forall g. Ord g => STGen g -> STGen g -> Ordering
compare :: STGen g -> STGen g -> Ordering
$c< :: forall g. Ord g => STGen g -> STGen g -> Bool
< :: STGen g -> STGen g -> Bool
$c<= :: forall g. Ord g => STGen g -> STGen g -> Bool
<= :: STGen g -> STGen g -> Bool
$c> :: forall g. Ord g => STGen g -> STGen g -> Bool
> :: STGen g -> STGen g -> Bool
$c>= :: forall g. Ord g => STGen g -> STGen g -> Bool
>= :: STGen g -> STGen g -> Bool
$cmax :: forall g. Ord g => STGen g -> STGen g -> STGen g
max :: STGen g -> STGen g -> STGen g
$cmin :: forall g. Ord g => STGen g -> STGen g -> STGen g
min :: STGen g -> STGen g -> STGen g
Ord, Int -> STGen g -> ShowS
[STGen g] -> ShowS
STGen g -> String
(Int -> STGen g -> ShowS)
-> (STGen g -> String) -> ([STGen g] -> ShowS) -> Show (STGen g)
forall g. Show g => Int -> STGen g -> ShowS
forall g. Show g => [STGen g] -> ShowS
forall g. Show g => STGen g -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
$cshowsPrec :: forall g. Show g => Int -> STGen g -> ShowS
showsPrec :: Int -> STGen g -> ShowS
$cshow :: forall g. Show g => STGen g -> String
show :: STGen g -> String
$cshowList :: forall g. Show g => [STGen g] -> ShowS
showList :: [STGen g] -> ShowS
Show, Int -> STGen g -> (ShortByteString, STGen g)
Word32 -> STGen g -> (Word32, STGen g)
Word64 -> STGen g -> (Word64, STGen g)
STGen g -> (Int, Int)
STGen g -> (Int, STGen g)
STGen g -> (Word8, STGen g)
STGen g -> (Word16, STGen g)
STGen g -> (Word32, STGen g)
STGen g -> (Word64, STGen g)
STGen g -> (STGen g, STGen g)
(STGen g -> (Int, STGen g))
-> (STGen g -> (Word8, STGen g))
-> (STGen g -> (Word16, STGen g))
-> (STGen g -> (Word32, STGen g))
-> (STGen g -> (Word64, STGen g))
-> (Word32 -> STGen g -> (Word32, STGen g))
-> (Word64 -> STGen g -> (Word64, STGen g))
-> (Int -> STGen g -> (ShortByteString, STGen g))
-> (STGen g -> (Int, Int))
-> (STGen g -> (STGen g, STGen g))
-> RandomGen (STGen g)
forall g.
RandomGen g =>
Int -> STGen g -> (ShortByteString, STGen g)
forall g. RandomGen g => Word32 -> STGen g -> (Word32, STGen g)
forall g. RandomGen g => Word64 -> STGen g -> (Word64, STGen g)
forall g. RandomGen g => STGen g -> (Int, Int)
forall g. RandomGen g => STGen g -> (Int, STGen g)
forall g. RandomGen g => STGen g -> (Word8, STGen g)
forall g. RandomGen g => STGen g -> (Word16, STGen g)
forall g. RandomGen g => STGen g -> (Word32, STGen g)
forall g. RandomGen g => STGen g -> (Word64, STGen g)
forall g. RandomGen g => STGen g -> (STGen g, STGen g)
forall g.
(g -> (Int, g))
-> (g -> (Word8, g))
-> (g -> (Word16, g))
-> (g -> (Word32, g))
-> (g -> (Word64, g))
-> (Word32 -> g -> (Word32, g))
-> (Word64 -> g -> (Word64, g))
-> (Int -> g -> (ShortByteString, g))
-> (g -> (Int, Int))
-> (g -> (g, g))
-> RandomGen g
$cnext :: forall g. RandomGen g => STGen g -> (Int, STGen g)
next :: STGen g -> (Int, STGen g)
$cgenWord8 :: forall g. RandomGen g => STGen g -> (Word8, STGen g)
genWord8 :: STGen g -> (Word8, STGen g)
$cgenWord16 :: forall g. RandomGen g => STGen g -> (Word16, STGen g)
genWord16 :: STGen g -> (Word16, STGen g)
$cgenWord32 :: forall g. RandomGen g => STGen g -> (Word32, STGen g)
genWord32 :: STGen g -> (Word32, STGen g)
$cgenWord64 :: forall g. RandomGen g => STGen g -> (Word64, STGen g)
genWord64 :: STGen g -> (Word64, STGen g)
$cgenWord32R :: forall g. RandomGen g => Word32 -> STGen g -> (Word32, STGen g)
genWord32R :: Word32 -> STGen g -> (Word32, STGen g)
$cgenWord64R :: forall g. RandomGen g => Word64 -> STGen g -> (Word64, STGen g)
genWord64R :: Word64 -> STGen g -> (Word64, STGen g)
$cgenShortByteString :: forall g.
RandomGen g =>
Int -> STGen g -> (ShortByteString, STGen g)
genShortByteString :: Int -> STGen g -> (ShortByteString, STGen g)
$cgenRange :: forall g. RandomGen g => STGen g -> (Int, Int)
genRange :: STGen g -> (Int, Int)
$csplit :: forall g. RandomGen g => STGen g -> (STGen g, STGen g)
split :: STGen g -> (STGen g, STGen g)
RandomGen, Ptr (STGen g) -> IO (STGen g)
Ptr (STGen g) -> Int -> IO (STGen g)
Ptr (STGen g) -> Int -> STGen g -> IO ()
Ptr (STGen g) -> STGen g -> IO ()
STGen g -> Int
(STGen g -> Int)
-> (STGen g -> Int)
-> (Ptr (STGen g) -> Int -> IO (STGen g))
-> (Ptr (STGen g) -> Int -> STGen g -> IO ())
-> (forall b. Ptr b -> Int -> IO (STGen g))
-> (forall b. Ptr b -> Int -> STGen g -> IO ())
-> (Ptr (STGen g) -> IO (STGen g))
-> (Ptr (STGen g) -> STGen g -> IO ())
-> Storable (STGen g)
forall b. Ptr b -> Int -> IO (STGen g)
forall b. Ptr b -> Int -> STGen g -> IO ()
forall g. Storable g => Ptr (STGen g) -> IO (STGen g)
forall g. Storable g => Ptr (STGen g) -> Int -> IO (STGen g)
forall g. Storable g => Ptr (STGen g) -> Int -> STGen g -> IO ()
forall g. Storable g => Ptr (STGen g) -> STGen g -> IO ()
forall g. Storable g => STGen g -> Int
forall g b. Storable g => Ptr b -> Int -> IO (STGen g)
forall g b. Storable g => Ptr b -> Int -> STGen g -> IO ()
forall a.
(a -> Int)
-> (a -> Int)
-> (Ptr a -> Int -> IO a)
-> (Ptr a -> Int -> a -> IO ())
-> (forall b. Ptr b -> Int -> IO a)
-> (forall b. Ptr b -> Int -> a -> IO ())
-> (Ptr a -> IO a)
-> (Ptr a -> a -> IO ())
-> Storable a
$csizeOf :: forall g. Storable g => STGen g -> Int
sizeOf :: STGen g -> Int
$calignment :: forall g. Storable g => STGen g -> Int
alignment :: STGen g -> Int
$cpeekElemOff :: forall g. Storable g => Ptr (STGen g) -> Int -> IO (STGen g)
peekElemOff :: Ptr (STGen g) -> Int -> IO (STGen g)
$cpokeElemOff :: forall g. Storable g => Ptr (STGen g) -> Int -> STGen g -> IO ()
pokeElemOff :: Ptr (STGen g) -> Int -> STGen g -> IO ()
$cpeekByteOff :: forall g b. Storable g => Ptr b -> Int -> IO (STGen g)
peekByteOff :: forall b. Ptr b -> Int -> IO (STGen g)
$cpokeByteOff :: forall g b. Storable g => Ptr b -> Int -> STGen g -> IO ()
pokeByteOff :: forall b. Ptr b -> Int -> STGen g -> IO ()
$cpeek :: forall g. Storable g => Ptr (STGen g) -> IO (STGen g)
peek :: Ptr (STGen g) -> IO (STGen g)
$cpoke :: forall g. Storable g => Ptr (STGen g) -> STGen g -> IO ()
poke :: Ptr (STGen g) -> STGen g -> IO ()
Storable, STGen g -> ()
(STGen g -> ()) -> NFData (STGen g)
forall g. NFData g => STGen g -> ()
forall a. (a -> ()) -> NFData a
$crnf :: forall g. NFData g => STGen g -> ()
rnf :: STGen g -> ()
NFData)
newSTGenM :: g -> ST s (STGenM g s)
newSTGenM :: forall g s. g -> ST s (STGenM g s)
newSTGenM = (STRef s g -> STGenM g s) -> ST s (STRef s g) -> ST s (STGenM g s)
forall a b. (a -> b) -> ST s a -> ST s b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap STRef s g -> STGenM g s
forall g s. STRef s g -> STGenM g s
STGenM (ST s (STRef s g) -> ST s (STGenM g s))
-> (g -> ST s (STRef s g)) -> g -> ST s (STGenM g s)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. g -> ST s (STRef s g)
forall a s. a -> ST s (STRef s a)
newSTRef
instance RandomGen g => StatefulGen (STGenM g s) (ST s) where
uniformWord32R :: Word32 -> STGenM g s -> ST s Word32
uniformWord32R Word32
r = (g -> (Word32, g)) -> STGenM g s -> ST s Word32
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen (Word32 -> g -> (Word32, g)
forall g. RandomGen g => Word32 -> g -> (Word32, g)
genWord32R Word32
r)
{-# INLINE uniformWord32R #-}
uniformWord64R :: Word64 -> STGenM g s -> ST s Word64
uniformWord64R Word64
r = (g -> (Word64, g)) -> STGenM g s -> ST s Word64
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen (Word64 -> g -> (Word64, g)
forall g. RandomGen g => Word64 -> g -> (Word64, g)
genWord64R Word64
r)
{-# INLINE uniformWord64R #-}
uniformWord8 :: STGenM g s -> ST s Word8
uniformWord8 = (g -> (Word8, g)) -> STGenM g s -> ST s Word8
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen g -> (Word8, g)
forall g. RandomGen g => g -> (Word8, g)
genWord8
{-# INLINE uniformWord8 #-}
uniformWord16 :: STGenM g s -> ST s Word16
uniformWord16 = (g -> (Word16, g)) -> STGenM g s -> ST s Word16
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen g -> (Word16, g)
forall g. RandomGen g => g -> (Word16, g)
genWord16
{-# INLINE uniformWord16 #-}
uniformWord32 :: STGenM g s -> ST s Word32
uniformWord32 = (g -> (Word32, g)) -> STGenM g s -> ST s Word32
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen g -> (Word32, g)
forall g. RandomGen g => g -> (Word32, g)
genWord32
{-# INLINE uniformWord32 #-}
uniformWord64 :: STGenM g s -> ST s Word64
uniformWord64 = (g -> (Word64, g)) -> STGenM g s -> ST s Word64
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen g -> (Word64, g)
forall g. RandomGen g => g -> (Word64, g)
genWord64
{-# INLINE uniformWord64 #-}
uniformShortByteString :: Int -> STGenM g s -> ST s ShortByteString
uniformShortByteString Int
n = (g -> (ShortByteString, g)) -> STGenM g s -> ST s ShortByteString
forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen (Int -> g -> (ShortByteString, g)
forall g. RandomGen g => Int -> g -> (ShortByteString, g)
genShortByteString Int
n)
instance RandomGen g => FrozenGen (STGen g) (ST s) where
type MutableGen (STGen g) (ST s) = STGenM g s
freezeGen :: MutableGen (STGen g) (ST s) -> ST s (STGen g)
freezeGen = (g -> STGen g) -> ST s g -> ST s (STGen g)
forall a b. (a -> b) -> ST s a -> ST s b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap g -> STGen g
forall g. g -> STGen g
STGen (ST s g -> ST s (STGen g))
-> (STGenM g s -> ST s g) -> STGenM g s -> ST s (STGen g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. STRef s g -> ST s g
forall s a. STRef s a -> ST s a
readSTRef (STRef s g -> ST s g)
-> (STGenM g s -> STRef s g) -> STGenM g s -> ST s g
forall b c a. (b -> c) -> (a -> b) -> a -> c
. STGenM g s -> STRef s g
forall g s. STGenM g s -> STRef s g
unSTGenM
thawGen :: STGen g -> ST s (MutableGen (STGen g) (ST s))
thawGen (STGen g
g) = g -> ST s (STGenM g s)
forall g s. g -> ST s (STGenM g s)
newSTGenM g
g
applySTGen :: (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen :: forall g a s. (g -> (a, g)) -> STGenM g s -> ST s a
applySTGen g -> (a, g)
f (STGenM STRef s g
ref) = do
g
g <- STRef s g -> ST s g
forall s a. STRef s a -> ST s a
readSTRef STRef s g
ref
case g -> (a, g)
f g
g of
(!a
a, !g
g') -> a
a a -> ST s () -> ST s a
forall a b. a -> ST s b -> ST s a
forall (f :: * -> *) a b. Functor f => a -> f b -> f a
<$ STRef s g -> g -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s g
ref g
g'
{-# INLINE applySTGen #-}
runSTGen :: RandomGen g => g -> (forall s . STGenM g s -> ST s a) -> (a, g)
runSTGen :: forall g a.
RandomGen g =>
g -> (forall s. STGenM g s -> ST s a) -> (a, g)
runSTGen g
g forall s. STGenM g s -> ST s a
action = STGen g -> g
forall g. STGen g -> g
unSTGen (STGen g -> g) -> (a, STGen g) -> (a, g)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> (forall s. ST s (a, STGen g)) -> (a, STGen g)
forall a. (forall s. ST s a) -> a
runST (STGen g
-> (MutableGen (STGen g) (ST s) -> ST s a) -> ST s (a, STGen g)
forall f (m :: * -> *) a.
FrozenGen f m =>
f -> (MutableGen f m -> m a) -> m (a, f)
withMutableGen (g -> STGen g
forall g. g -> STGen g
STGen g
g) MutableGen (STGen g) (ST s) -> ST s a
STGenM g s -> ST s a
forall s. STGenM g s -> ST s a
action)
runSTGen_ :: RandomGen g => g -> (forall s . STGenM g s -> ST s a) -> a
runSTGen_ :: forall g a.
RandomGen g =>
g -> (forall s. STGenM g s -> ST s a) -> a
runSTGen_ g
g forall s. STGenM g s -> ST s a
action = (a, g) -> a
forall a b. (a, b) -> a
fst ((a, g) -> a) -> (a, g) -> a
forall a b. (a -> b) -> a -> b
$ g -> (forall s. STGenM g s -> ST s a) -> (a, g)
forall g a.
RandomGen g =>
g -> (forall s. STGenM g s -> ST s a) -> (a, g)
runSTGen g
g STGenM g s -> ST s a
forall s. STGenM g s -> ST s a
action
newtype TGenM g = TGenM { forall g. TGenM g -> TVar g
unTGenM :: TVar g }
newtype TGen g = TGen { forall g. TGen g -> g
unTGen :: g }
deriving (TGen g -> TGen g -> Bool
(TGen g -> TGen g -> Bool)
-> (TGen g -> TGen g -> Bool) -> Eq (TGen g)
forall g. Eq g => TGen g -> TGen g -> Bool
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
$c== :: forall g. Eq g => TGen g -> TGen g -> Bool
== :: TGen g -> TGen g -> Bool
$c/= :: forall g. Eq g => TGen g -> TGen g -> Bool
/= :: TGen g -> TGen g -> Bool
Eq, Eq (TGen g)
Eq (TGen g)
-> (TGen g -> TGen g -> Ordering)
-> (TGen g -> TGen g -> Bool)
-> (TGen g -> TGen g -> Bool)
-> (TGen g -> TGen g -> Bool)
-> (TGen g -> TGen g -> Bool)
-> (TGen g -> TGen g -> TGen g)
-> (TGen g -> TGen g -> TGen g)
-> Ord (TGen g)
TGen g -> TGen g -> Bool
TGen g -> TGen g -> Ordering
TGen g -> TGen g -> TGen g
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
forall {g}. Ord g => Eq (TGen g)
forall g. Ord g => TGen g -> TGen g -> Bool
forall g. Ord g => TGen g -> TGen g -> Ordering
forall g. Ord g => TGen g -> TGen g -> TGen g
$ccompare :: forall g. Ord g => TGen g -> TGen g -> Ordering
compare :: TGen g -> TGen g -> Ordering
$c< :: forall g. Ord g => TGen g -> TGen g -> Bool
< :: TGen g -> TGen g -> Bool
$c<= :: forall g. Ord g => TGen g -> TGen g -> Bool
<= :: TGen g -> TGen g -> Bool
$c> :: forall g. Ord g => TGen g -> TGen g -> Bool
> :: TGen g -> TGen g -> Bool
$c>= :: forall g. Ord g => TGen g -> TGen g -> Bool
>= :: TGen g -> TGen g -> Bool
$cmax :: forall g. Ord g => TGen g -> TGen g -> TGen g
max :: TGen g -> TGen g -> TGen g
$cmin :: forall g. Ord g => TGen g -> TGen g -> TGen g
min :: TGen g -> TGen g -> TGen g
Ord, Int -> TGen g -> ShowS
[TGen g] -> ShowS
TGen g -> String
(Int -> TGen g -> ShowS)
-> (TGen g -> String) -> ([TGen g] -> ShowS) -> Show (TGen g)
forall g. Show g => Int -> TGen g -> ShowS
forall g. Show g => [TGen g] -> ShowS
forall g. Show g => TGen g -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
$cshowsPrec :: forall g. Show g => Int -> TGen g -> ShowS
showsPrec :: Int -> TGen g -> ShowS
$cshow :: forall g. Show g => TGen g -> String
show :: TGen g -> String
$cshowList :: forall g. Show g => [TGen g] -> ShowS
showList :: [TGen g] -> ShowS
Show, Int -> TGen g -> (ShortByteString, TGen g)
Word32 -> TGen g -> (Word32, TGen g)
Word64 -> TGen g -> (Word64, TGen g)
TGen g -> (Int, Int)
TGen g -> (Int, TGen g)
TGen g -> (Word8, TGen g)
TGen g -> (Word16, TGen g)
TGen g -> (Word32, TGen g)
TGen g -> (Word64, TGen g)
TGen g -> (TGen g, TGen g)
(TGen g -> (Int, TGen g))
-> (TGen g -> (Word8, TGen g))
-> (TGen g -> (Word16, TGen g))
-> (TGen g -> (Word32, TGen g))
-> (TGen g -> (Word64, TGen g))
-> (Word32 -> TGen g -> (Word32, TGen g))
-> (Word64 -> TGen g -> (Word64, TGen g))
-> (Int -> TGen g -> (ShortByteString, TGen g))
-> (TGen g -> (Int, Int))
-> (TGen g -> (TGen g, TGen g))
-> RandomGen (TGen g)
forall g. RandomGen g => Int -> TGen g -> (ShortByteString, TGen g)
forall g. RandomGen g => Word32 -> TGen g -> (Word32, TGen g)
forall g. RandomGen g => Word64 -> TGen g -> (Word64, TGen g)
forall g. RandomGen g => TGen g -> (Int, Int)
forall g. RandomGen g => TGen g -> (Int, TGen g)
forall g. RandomGen g => TGen g -> (Word8, TGen g)
forall g. RandomGen g => TGen g -> (Word16, TGen g)
forall g. RandomGen g => TGen g -> (Word32, TGen g)
forall g. RandomGen g => TGen g -> (Word64, TGen g)
forall g. RandomGen g => TGen g -> (TGen g, TGen g)
forall g.
(g -> (Int, g))
-> (g -> (Word8, g))
-> (g -> (Word16, g))
-> (g -> (Word32, g))
-> (g -> (Word64, g))
-> (Word32 -> g -> (Word32, g))
-> (Word64 -> g -> (Word64, g))
-> (Int -> g -> (ShortByteString, g))
-> (g -> (Int, Int))
-> (g -> (g, g))
-> RandomGen g
$cnext :: forall g. RandomGen g => TGen g -> (Int, TGen g)
next :: TGen g -> (Int, TGen g)
$cgenWord8 :: forall g. RandomGen g => TGen g -> (Word8, TGen g)
genWord8 :: TGen g -> (Word8, TGen g)
$cgenWord16 :: forall g. RandomGen g => TGen g -> (Word16, TGen g)
genWord16 :: TGen g -> (Word16, TGen g)
$cgenWord32 :: forall g. RandomGen g => TGen g -> (Word32, TGen g)
genWord32 :: TGen g -> (Word32, TGen g)
$cgenWord64 :: forall g. RandomGen g => TGen g -> (Word64, TGen g)
genWord64 :: TGen g -> (Word64, TGen g)
$cgenWord32R :: forall g. RandomGen g => Word32 -> TGen g -> (Word32, TGen g)
genWord32R :: Word32 -> TGen g -> (Word32, TGen g)
$cgenWord64R :: forall g. RandomGen g => Word64 -> TGen g -> (Word64, TGen g)
genWord64R :: Word64 -> TGen g -> (Word64, TGen g)
$cgenShortByteString :: forall g. RandomGen g => Int -> TGen g -> (ShortByteString, TGen g)
genShortByteString :: Int -> TGen g -> (ShortByteString, TGen g)
$cgenRange :: forall g. RandomGen g => TGen g -> (Int, Int)
genRange :: TGen g -> (Int, Int)
$csplit :: forall g. RandomGen g => TGen g -> (TGen g, TGen g)
split :: TGen g -> (TGen g, TGen g)
RandomGen, Ptr (TGen g) -> IO (TGen g)
Ptr (TGen g) -> Int -> IO (TGen g)
Ptr (TGen g) -> Int -> TGen g -> IO ()
Ptr (TGen g) -> TGen g -> IO ()
TGen g -> Int
(TGen g -> Int)
-> (TGen g -> Int)
-> (Ptr (TGen g) -> Int -> IO (TGen g))
-> (Ptr (TGen g) -> Int -> TGen g -> IO ())
-> (forall b. Ptr b -> Int -> IO (TGen g))
-> (forall b. Ptr b -> Int -> TGen g -> IO ())
-> (Ptr (TGen g) -> IO (TGen g))
-> (Ptr (TGen g) -> TGen g -> IO ())
-> Storable (TGen g)
forall b. Ptr b -> Int -> IO (TGen g)
forall b. Ptr b -> Int -> TGen g -> IO ()
forall g. Storable g => Ptr (TGen g) -> IO (TGen g)
forall g. Storable g => Ptr (TGen g) -> Int -> IO (TGen g)
forall g. Storable g => Ptr (TGen g) -> Int -> TGen g -> IO ()
forall g. Storable g => Ptr (TGen g) -> TGen g -> IO ()
forall g. Storable g => TGen g -> Int
forall g b. Storable g => Ptr b -> Int -> IO (TGen g)
forall g b. Storable g => Ptr b -> Int -> TGen g -> IO ()
forall a.
(a -> Int)
-> (a -> Int)
-> (Ptr a -> Int -> IO a)
-> (Ptr a -> Int -> a -> IO ())
-> (forall b. Ptr b -> Int -> IO a)
-> (forall b. Ptr b -> Int -> a -> IO ())
-> (Ptr a -> IO a)
-> (Ptr a -> a -> IO ())
-> Storable a
$csizeOf :: forall g. Storable g => TGen g -> Int
sizeOf :: TGen g -> Int
$calignment :: forall g. Storable g => TGen g -> Int
alignment :: TGen g -> Int
$cpeekElemOff :: forall g. Storable g => Ptr (TGen g) -> Int -> IO (TGen g)
peekElemOff :: Ptr (TGen g) -> Int -> IO (TGen g)
$cpokeElemOff :: forall g. Storable g => Ptr (TGen g) -> Int -> TGen g -> IO ()
pokeElemOff :: Ptr (TGen g) -> Int -> TGen g -> IO ()
$cpeekByteOff :: forall g b. Storable g => Ptr b -> Int -> IO (TGen g)
peekByteOff :: forall b. Ptr b -> Int -> IO (TGen g)
$cpokeByteOff :: forall g b. Storable g => Ptr b -> Int -> TGen g -> IO ()
pokeByteOff :: forall b. Ptr b -> Int -> TGen g -> IO ()
$cpeek :: forall g. Storable g => Ptr (TGen g) -> IO (TGen g)
peek :: Ptr (TGen g) -> IO (TGen g)
$cpoke :: forall g. Storable g => Ptr (TGen g) -> TGen g -> IO ()
poke :: Ptr (TGen g) -> TGen g -> IO ()
Storable, TGen g -> ()
(TGen g -> ()) -> NFData (TGen g)
forall g. NFData g => TGen g -> ()
forall a. (a -> ()) -> NFData a
$crnf :: forall g. NFData g => TGen g -> ()
rnf :: TGen g -> ()
NFData)
newTGenM :: g -> STM (TGenM g)
newTGenM :: forall g. g -> STM (TGenM g)
newTGenM = (TVar g -> TGenM g) -> STM (TVar g) -> STM (TGenM g)
forall a b. (a -> b) -> STM a -> STM b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap TVar g -> TGenM g
forall g. TVar g -> TGenM g
TGenM (STM (TVar g) -> STM (TGenM g))
-> (g -> STM (TVar g)) -> g -> STM (TGenM g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. g -> STM (TVar g)
forall a. a -> STM (TVar a)
newTVar
newTGenMIO :: MonadIO m => g -> m (TGenM g)
newTGenMIO :: forall (m :: * -> *) g. MonadIO m => g -> m (TGenM g)
newTGenMIO g
g = IO (TGenM g) -> m (TGenM g)
forall a. IO a -> m a
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (TVar g -> TGenM g
forall g. TVar g -> TGenM g
TGenM (TVar g -> TGenM g) -> IO (TVar g) -> IO (TGenM g)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> g -> IO (TVar g)
forall a. a -> IO (TVar a)
newTVarIO g
g)
instance RandomGen g => StatefulGen (TGenM g) STM where
uniformWord32R :: Word32 -> TGenM g -> STM Word32
uniformWord32R Word32
r = (g -> (Word32, g)) -> TGenM g -> STM Word32
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen (Word32 -> g -> (Word32, g)
forall g. RandomGen g => Word32 -> g -> (Word32, g)
genWord32R Word32
r)
{-# INLINE uniformWord32R #-}
uniformWord64R :: Word64 -> TGenM g -> STM Word64
uniformWord64R Word64
r = (g -> (Word64, g)) -> TGenM g -> STM Word64
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen (Word64 -> g -> (Word64, g)
forall g. RandomGen g => Word64 -> g -> (Word64, g)
genWord64R Word64
r)
{-# INLINE uniformWord64R #-}
uniformWord8 :: TGenM g -> STM Word8
uniformWord8 = (g -> (Word8, g)) -> TGenM g -> STM Word8
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen g -> (Word8, g)
forall g. RandomGen g => g -> (Word8, g)
genWord8
{-# INLINE uniformWord8 #-}
uniformWord16 :: TGenM g -> STM Word16
uniformWord16 = (g -> (Word16, g)) -> TGenM g -> STM Word16
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen g -> (Word16, g)
forall g. RandomGen g => g -> (Word16, g)
genWord16
{-# INLINE uniformWord16 #-}
uniformWord32 :: TGenM g -> STM Word32
uniformWord32 = (g -> (Word32, g)) -> TGenM g -> STM Word32
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen g -> (Word32, g)
forall g. RandomGen g => g -> (Word32, g)
genWord32
{-# INLINE uniformWord32 #-}
uniformWord64 :: TGenM g -> STM Word64
uniformWord64 = (g -> (Word64, g)) -> TGenM g -> STM Word64
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen g -> (Word64, g)
forall g. RandomGen g => g -> (Word64, g)
genWord64
{-# INLINE uniformWord64 #-}
uniformShortByteString :: Int -> TGenM g -> STM ShortByteString
uniformShortByteString Int
n = (g -> (ShortByteString, g)) -> TGenM g -> STM ShortByteString
forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen (Int -> g -> (ShortByteString, g)
forall g. RandomGen g => Int -> g -> (ShortByteString, g)
genShortByteString Int
n)
instance RandomGen g => FrozenGen (TGen g) STM where
type MutableGen (TGen g) STM = TGenM g
freezeGen :: MutableGen (TGen g) STM -> STM (TGen g)
freezeGen = (g -> TGen g) -> STM g -> STM (TGen g)
forall a b. (a -> b) -> STM a -> STM b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap g -> TGen g
forall g. g -> TGen g
TGen (STM g -> STM (TGen g))
-> (TGenM g -> STM g) -> TGenM g -> STM (TGen g)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. TVar g -> STM g
forall a. TVar a -> STM a
readTVar (TVar g -> STM g) -> (TGenM g -> TVar g) -> TGenM g -> STM g
forall b c a. (b -> c) -> (a -> b) -> a -> c
. TGenM g -> TVar g
forall g. TGenM g -> TVar g
unTGenM
thawGen :: TGen g -> STM (MutableGen (TGen g) STM)
thawGen (TGen g
g) = g -> STM (TGenM g)
forall g. g -> STM (TGenM g)
newTGenM g
g
applyTGen :: (g -> (a, g)) -> TGenM g -> STM a
applyTGen :: forall g a. (g -> (a, g)) -> TGenM g -> STM a
applyTGen g -> (a, g)
f (TGenM TVar g
tvar) = do
g
g <- TVar g -> STM g
forall a. TVar a -> STM a
readTVar TVar g
tvar
case g -> (a, g)
f g
g of
(a
a, !g
g') -> a
a a -> STM () -> STM a
forall a b. a -> STM b -> STM a
forall (f :: * -> *) a b. Functor f => a -> f b -> f a
<$ TVar g -> g -> STM ()
forall a. TVar a -> a -> STM ()
writeTVar TVar g
tvar g
g'
{-# INLINE applyTGen #-}