module Foundation.Check.Gen
( Gen
, runGen
, GenParams(..)
, genRng
, genWithRng
) where
import Foundation.Internal.Base
import Foundation.Collection
import Foundation.Random
import Foundation.String
import Foundation.Numerical
import Foundation.Hashing.SipHash
import Foundation.Hashing.Hasher
import qualified Foundation.Array.Unboxed as A
data GenParams = GenParams
{
}
newtype GenRng = GenRng RNGv1
type GenSeed = Word64
genRng :: GenSeed -> [String] -> (Word64 -> GenRng)
genRng seed groups = \iteration -> genRngNewNoFail $ A.unsafeRecast $ fromList [w1,w2,w3,iteration]
where
w1 = rngSeed
w2 = rngSeed * 2
w3 = rngSeed * 4
(SipHash rngSeed) = hashEnd $ hashMixBytes hashData iHashState
hashData = toBytes UTF8 $ intercalate "::" (reverse groups)
iHashState :: Sip1_3
iHashState = hashNewParam (SipKey seed 0x12345678)
genRngNewNoFail :: A.UArray Word8 -> GenRng
genRngNewNoFail = maybe (error "impossible") GenRng . randomNewFrom
genGenerator :: GenRng -> (GenRng, GenRng)
genGenerator (GenRng rng) =
let (newSeed, rngNext) = randomGenerate 32 rng
in (genRngNewNoFail newSeed, GenRng rngNext)
newtype Gen a = Gen { runGen :: GenRng -> GenParams -> a }
instance Functor Gen where
fmap f g = Gen (\rng params -> f (runGen g rng params))
instance Applicative Gen where
pure a = Gen (\_ _ -> a)
fab <*> fa = Gen $ \rng params ->
let (r1,r2) = genGenerator rng
ab = runGen fab r1 params
a = runGen fa r2 params
in ab a
instance Monad Gen where
return a = Gen (\_ _ -> a)
ma >>= mb = Gen $ \rng params ->
let (r1,r2) = genGenerator rng
a = runGen ma r1 params
in runGen (mb a) r2 params
genWithRng :: forall a . (forall randomly . MonadRandom randomly => randomly a) -> Gen a
genWithRng f = Gen $ \(GenRng rng) _ ->
let (a, _) = withRandomGenerator rng f in a