module Simulation.Aivika.Composite
(
Composite,
runComposite,
runComposite_,
runCompositeInStartTime_,
runCompositeInStopTime_,
disposableComposite) where
import Data.Monoid
import Control.Exception
import Control.Monad
import Control.Monad.Trans
import Control.Monad.Fix
import Control.Applicative
import Simulation.Aivika.Parameter
import Simulation.Aivika.Simulation
import Simulation.Aivika.Dynamics
import Simulation.Aivika.Event
newtype Composite a = Composite { runComposite :: DisposableEvent -> Event (a, DisposableEvent)
}
runComposite_ :: Composite a -> Event a
runComposite_ m =
do (a, _) <- runComposite m mempty
return a
runCompositeInStartTime_ :: Composite a -> Simulation a
runCompositeInStartTime_ = runEventInStartTime . runComposite_
runCompositeInStopTime_ :: Composite a -> Simulation a
runCompositeInStopTime_ = runEventInStopTime . runComposite_
disposableComposite :: DisposableEvent -> Composite ()
disposableComposite h = Composite $ \h0 -> return ((), h0 <> h)
instance Functor Composite where
fmap f (Composite m) =
Composite $ \h0 ->
do (a, h) <- m h0
return (f a, h)
instance Applicative Composite where
pure = return
(<*>) = ap
instance Monad Composite where
return a = Composite $ \h0 -> return (a, h0)
(Composite m) >>= k =
Composite $ \h0 ->
do (a, h) <- m h0
let Composite m' = k a
(b, h') <- m' h
return (b, h')
instance MonadIO Composite where
liftIO m =
Composite $ \h0 ->
do a <- liftIO m
return (a, h0)
instance MonadFix Composite where
mfix f =
Composite $ \h0 ->
do rec (a, h) <- runComposite (f a) h0
return (a, h)
instance ParameterLift Composite where
liftParameter m =
Composite $ \h0 ->
do a <- liftParameter m
return (a, h0)
instance SimulationLift Composite where
liftSimulation m =
Composite $ \h0 ->
do a <- liftSimulation m
return (a, h0)
instance DynamicsLift Composite where
liftDynamics m =
Composite $ \h0 ->
do a <- liftDynamics m
return (a, h0)
instance EventLift Composite where
liftEvent m =
Composite $ \h0 ->
do a <- liftEvent m
return (a, h0)