{-# LANGUAGE TypeFamilies, FlexibleInstances #-}
module Simulation.Aivika.IO.Resource.Preemption.Base () where
import Control.Monad
import Control.Monad.Trans
import Data.Maybe
import Data.IORef
import Simulation.Aivika.Trans.Exception
import Simulation.Aivika.Trans.Ref.Base
import Simulation.Aivika.Trans.DES
import Simulation.Aivika.Trans.Internal.Specs
import Simulation.Aivika.Trans.Internal.Simulation
import Simulation.Aivika.Trans.Internal.Event
import Simulation.Aivika.Trans.Internal.Cont
import Simulation.Aivika.Trans.Internal.Process
import Simulation.Aivika.Trans.Resource.Preemption.Base
import Simulation.Aivika.IO.DES
import qualified Simulation.Aivika.PriorityQueue as PQ
instance MonadResource IO where
{-# SPECIALISE instance MonadResource IO #-}
data Resource IO =
Resource { resourceMaxCount0 :: Maybe Int,
resourceCountRef :: IORef Int,
resourceActingQueue :: PQ.PriorityQueue (ResourceActingItem IO),
resourceWaitQueue :: PQ.PriorityQueue (ResourceAwaitingItem IO) }
{-# INLINABLE newResource #-}
newResource count =
Simulation $ \r ->
do when (count < 0) $
throwComp $
SimulationRetry $
"The resource count cannot be negative: " ++
"newResource."
countRef <- liftIO $ newIORef count
actingQueue <- liftIO PQ.newQueue
waitQueue <- liftIO PQ.newQueue
return Resource { resourceMaxCount0 = Just count,
resourceCountRef = countRef,
resourceActingQueue = actingQueue,
resourceWaitQueue = waitQueue }
{-# INLINABLE newResourceWithMaxCount #-}
newResourceWithMaxCount count maxCount =
Simulation $ \r ->
do when (count < 0) $
throwComp $
SimulationRetry $
"The resource count cannot be negative: " ++
"newResourceWithMaxCount."
case maxCount of
Just maxCount | count > maxCount ->
throwComp $
SimulationRetry $
"The resource count cannot be greater than " ++
"its maximum value: newResourceWithMaxCount."
_ ->
return ()
countRef <- liftIO $ newIORef count
actingQueue <- liftIO PQ.newQueue
waitQueue <- liftIO PQ.newQueue
return Resource { resourceMaxCount0 = maxCount,
resourceCountRef = countRef,
resourceActingQueue = actingQueue,
resourceWaitQueue = waitQueue }
{-# INLINABLE resourceCount #-}
resourceCount r =
Event $ \p -> liftIO $ readIORef (resourceCountRef r)
{-# INLINABLE resourceMaxCount #-}
resourceMaxCount = resourceMaxCount0
{-# INLINABLE requestResourceWithPriority #-}
requestResourceWithPriority r priority =
Process $ \pid ->
Cont $ \c ->
Event $ \p ->
do a <- liftIO $ readIORef (resourceCountRef r)
if a == 0
then do f <- liftIO $ PQ.queueNull (resourceActingQueue r)
if f
then do c <- invokeEvent p $
freezeContReentering c () $
invokeCont c $
invokeProcess pid $
requestResourceWithPriority r priority
liftIO $ PQ.enqueue (resourceWaitQueue r) priority (Left $ ResourceRequestingItem priority pid c)
else do (p0', item0) <- liftIO $ PQ.queueFront (resourceActingQueue r)
let p0 = - p0'
pid0 = actingItemId item0
if priority < p0
then do liftIO $ PQ.dequeue (resourceActingQueue r)
liftIO $ PQ.enqueue (resourceActingQueue r) (- priority) $ ResourceActingItem priority pid
liftIO $ PQ.enqueue (resourceWaitQueue r) p0 (Right $ ResourcePreemptedItem p0 pid0)
invokeEvent p $ processPreemptionBegin pid0
invokeEvent p $ resumeCont c ()
else do c <- invokeEvent p $
freezeContReentering c () $
invokeCont c $
invokeProcess pid $
requestResourceWithPriority r priority
liftIO $ PQ.enqueue (resourceWaitQueue r) priority (Left $ ResourceRequestingItem priority pid c)
else do let a' = a - 1
a' `seq` liftIO $ writeIORef (resourceCountRef r) a'
liftIO $ PQ.enqueue (resourceActingQueue r) (- priority) $ ResourceActingItem priority pid
invokeEvent p $ resumeCont c ()
{-# INLINABLE releaseResource #-}
releaseResource r =
Process $ \pid ->
Cont $ \c ->
Event $ \p ->
do f <- liftIO $ fmap isJust $ PQ.queueDeleteBy (resourceActingQueue r) (\item -> actingItemId item == pid)
if f
then do invokeEvent p $ releaseResource' r
invokeEvent p $ resumeCont c ()
else throwComp $
SimulationRetry
"The resource was not acquired by this process: releaseResource"
{-# INLINABLE usingResourceWithPriority #-}
usingResourceWithPriority r priority m =
do requestResourceWithPriority r priority
finallyProcess m $ releaseResource r
{-# INLINABLE incResourceCount #-}
incResourceCount r n
| n < 0 = throwEvent $ SimulationRetry "The increment cannot be negative: incResourceCount"
| n == 0 = return ()
| otherwise =
do releaseResource' r
incResourceCount r (n - 1)
{-# INLINABLE decResourceCount #-}
decResourceCount r n
| n < 0 = throwEvent $ SimulationRetry "The decrement cannot be negative: decResourceCount"
| n == 0 = return ()
| otherwise =
do decResourceCount' r
decResourceCount r (n - 1)
{-# INLINABLE alterResourceCount #-}
alterResourceCount r n
| n < 0 = decResourceCount r (- n)
| n > 0 = incResourceCount r n
| n == 0 = return ()
data ResourceActingItem m =
ResourceActingItem { actingItemPriority :: Double,
actingItemId :: ProcessId m }
data ResourceRequestingItem m =
ResourceRequestingItem { requestingItemPriority :: Double,
requestingItemId :: ProcessId m,
requestingItemCont :: FrozenCont m () }
data ResourcePreemptedItem m =
ResourcePreemptedItem { preemptedItemPriority :: Double,
preemptedItemId :: ProcessId m }
type ResourceAwaitingItem m =
Either (ResourceRequestingItem m) (ResourcePreemptedItem m)
instance Eq (Resource IO) where
{-# INLINABLE (==) #-}
x == y = resourceCountRef x == resourceCountRef y
instance Eq (ResourceActingItem IO) where
{-# INLINABLE (==) #-}
x == y = actingItemId x == actingItemId y
releaseResource' :: Resource IO -> Event IO ()
{-# INLINABLE releaseResource' #-}
releaseResource' r =
Event $ \p ->
do a <- liftIO $ readIORef (resourceCountRef r)
let a' = a + 1
case resourceMaxCount r of
Just maxCount | a' > maxCount ->
throwComp $
SimulationRetry $
"The resource count cannot be greater than " ++
"its maximum value: releaseResource'."
_ ->
return ()
f <- liftIO $ PQ.queueNull (resourceWaitQueue r)
if f
then a' `seq` liftIO $ writeIORef (resourceCountRef r) a'
else do (priority', item) <- liftIO $ PQ.queueFront (resourceWaitQueue r)
liftIO $ PQ.dequeue (resourceWaitQueue r)
case item of
Left (ResourceRequestingItem priority pid c) ->
do c <- invokeEvent p $ unfreezeCont c
case c of
Nothing ->
invokeEvent p $ releaseResource' r
Just c ->
do liftIO $ PQ.enqueue (resourceActingQueue r) (- priority) $ ResourceActingItem priority pid
invokeEvent p $ enqueueEvent (pointTime p) $ reenterCont c ()
Right (ResourcePreemptedItem priority pid) ->
do f <- invokeEvent p $ processCancelled pid
case f of
True ->
invokeEvent p $ releaseResource' r
False ->
do liftIO $ PQ.enqueue (resourceActingQueue r) (- priority) $ ResourceActingItem priority pid
invokeEvent p $ processPreemptionEnd pid
decResourceCount' :: Resource IO -> Event IO ()
{-# INLINABLE decResourceCount' #-}
decResourceCount' r =
Event $ \p ->
do a <- liftIO $ readIORef (resourceCountRef r)
when (a == 0) $
throwComp $
SimulationRetry
"The resource exceeded and its count is zero: decResourceCount'"
f <- liftIO $ PQ.queueNull (resourceActingQueue r)
unless f $
do (p0', item0) <- liftIO $ PQ.queueFront (resourceActingQueue r)
let p0 = - p0'
pid0 = actingItemId item0
liftIO $ PQ.dequeue (resourceActingQueue r)
liftIO $ PQ.enqueue (resourceWaitQueue r) p0 (Right $ ResourcePreemptedItem p0 pid0)
invokeEvent p $ processPreemptionBegin pid0
let a' = a - 1
a' `seq` liftIO $ writeIORef (resourceCountRef r) a'