module FRP.Yampa.Random
(
RandomGen(..)
, Random(..)
, noise
, noiseR
, occasionally
)
where
import System.Random (Random (..), RandomGen (..))
import FRP.Yampa.Diagnostics
import FRP.Yampa.Event
import FRP.Yampa.InternalCore (SF (..), SF' (..), Time)
noise :: (RandomGen g, Random b) => g -> SF a b
noise :: forall g b a. (RandomGen g, Random b) => g -> SF a b
noise g
g0 = forall b a. [b] -> SF a b
streamToSF (forall a g. (Random a, RandomGen g) => g -> [a]
randoms g
g0)
noiseR :: (RandomGen g, Random b) => (b,b) -> g -> SF a b
noiseR :: forall g b a. (RandomGen g, Random b) => (b, b) -> g -> SF a b
noiseR (b, b)
range g
g0 = forall b a. [b] -> SF a b
streamToSF (forall a g. (Random a, RandomGen g) => (a, a) -> g -> [a]
randomRs (b, b)
range g
g0)
streamToSF :: [b] -> SF a b
streamToSF :: forall b a. [b] -> SF a b
streamToSF [] = forall a. String -> String -> String -> a
intErr String
"Yampa" String
"streamToSF" String
"Empty list!"
streamToSF (b
b:[b]
bs) = SF {sfTF :: a -> Transition a b
sfTF = forall {p} {a}. p -> (SF' a b, b)
tf0}
where
tf0 :: p -> (SF' a b, b)
tf0 p
_ = (forall {b} {a}. [b] -> SF' a b
stsfAux [b]
bs, b
b)
stsfAux :: [b] -> SF' a b
stsfAux [] = forall a. String -> String -> String -> a
intErr String
"Yampa" String
"streamToSF" String
"Empty list!"
stsfAux (b
b:[b]
bs) = forall a b. (DTime -> a -> Transition a b) -> SF' a b
SF' forall {p} {p}. p -> p -> (SF' a b, b)
tf
where
tf :: p -> p -> (SF' a b, b)
tf p
_ p
_ = ([b] -> SF' a b
stsfAux [b]
bs, b
b)
occasionally :: RandomGen g => g -> Time -> b -> SF a (Event b)
occasionally :: forall g b a. RandomGen g => g -> DTime -> b -> SF a (Event b)
occasionally g
g DTime
t_avg b
x | DTime
t_avg forall a. Ord a => a -> a -> Bool
> DTime
0 = SF {sfTF :: a -> Transition a (Event b)
sfTF = forall {p} {a} {a}. p -> (SF' a (Event b), Event a)
tf0}
| Bool
otherwise = forall a. String -> String -> String -> a
usrErr String
"Yampa" String
"occasionally"
String
"Non-positive average interval."
where
tf0 :: p -> (SF' a (Event b), Event a)
tf0 p
_ = (forall {a}. [DTime] -> SF' a (Event b)
occAux (forall a g. (Random a, RandomGen g) => g -> [a]
randoms g
g :: [Time]), forall a. Event a
NoEvent)
occAux :: [DTime] -> SF' a (Event b)
occAux [] = forall a. HasCallStack => a
undefined
occAux (DTime
r:[DTime]
rs) = forall a b. (DTime -> a -> Transition a b) -> SF' a b
SF' forall {p}. DTime -> p -> (SF' a (Event b), Event b)
tf
where
tf :: DTime -> p -> (SF' a (Event b), Event b)
tf DTime
dt p
_ = let p :: DTime
p = DTime
1 forall a. Num a => a -> a -> a
- forall a. Floating a => a -> a
exp (-(DTime
dtforall a. Fractional a => a -> a -> a
/DTime
t_avg))
in ([DTime] -> SF' a (Event b)
occAux [DTime]
rs, if DTime
r forall a. Ord a => a -> a -> Bool
< DTime
p then forall a. a -> Event a
Event b
x else forall a. Event a
NoEvent)