{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DerivingVia #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTSyntax #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# OPTIONS_GHC -Wno-incomplete-uni-patterns #-}
module Control.Monad.IOSim.Internal
( IOSim (..)
, runIOSim
, runSimTraceST
, traceM
, traceSTM
, STM
, STMSim
, setCurrentTime
, unshareClock
, TimeoutException (..)
, EventlogEvent (..)
, EventlogMarker (..)
, ThreadId
, ThreadLabel
, Labelled (..)
, SimTrace
, Trace.Trace (SimTrace, TraceMainReturn, TraceMainException, TraceDeadlock)
, SimEvent (..)
, SimResult (..)
, SimEventType (..)
, ppTrace
, ppTrace_
, ppSimEvent
, liftST
, execReadTVar
) where
import Prelude hiding (read)
import Data.Dynamic
import Data.Foldable (foldlM, toList, traverse_)
import qualified Data.List as List
import qualified Data.List.Trace as Trace
import Data.Map.Strict (Map)
import qualified Data.Map.Strict as Map
import Data.Maybe (mapMaybe)
import Data.OrdPSQ (OrdPSQ)
import qualified Data.OrdPSQ as PSQ
import Data.Set (Set)
import qualified Data.Set as Set
import Data.Time (UTCTime (..), fromGregorian)
import Deque.Strict (Deque)
import qualified Deque.Strict as Deque
import GHC.Exts (fromList)
import Control.Exception (NonTermination (..), assert, throw)
import Control.Monad (join, when)
import Control.Monad.ST.Lazy
import Control.Monad.ST.Lazy.Unsafe (unsafeIOToST, unsafeInterleaveST)
import Data.STRef.Lazy
import Control.Concurrent.Class.MonadSTM.TMVar
import Control.Concurrent.Class.MonadSTM.TVar hiding (TVar)
import Control.Monad.Class.MonadFork (killThread, myThreadId, throwTo)
import Control.Monad.Class.MonadSTM hiding (STM)
import Control.Monad.Class.MonadSTM.Internal (TMVarDefault (TMVar))
import Control.Monad.Class.MonadThrow hiding (getMaskingState)
import Control.Monad.Class.MonadTime
import Control.Monad.Class.MonadTimer.SI (TimeoutState (..))
import Control.Monad.IOSim.InternalTypes
import Control.Monad.IOSim.Types hiding (SimEvent (SimPOREvent),
Trace (SimPORTrace))
import Control.Monad.IOSim.Types (SimEvent)
data Thread s a = Thread {
forall s a. Thread s a -> ThreadId
threadId :: !ThreadId,
forall s a. Thread s a -> ThreadControl s a
threadControl :: !(ThreadControl s a),
forall s a. Thread s a -> ThreadStatus
threadStatus :: !ThreadStatus,
forall s a. Thread s a -> MaskingState
threadMasking :: !MaskingState,
forall s a. Thread s a -> [(SomeException, Labelled ThreadId)]
threadThrowTo :: ![(SomeException, Labelled ThreadId)],
forall s a. Thread s a -> ClockId
threadClockId :: !ClockId,
forall s a. Thread s a -> Maybe ThreadLabel
threadLabel :: Maybe ThreadLabel,
forall s a. Thread s a -> Int
threadNextTId :: !Int
}
isThreadBlocked :: Thread s a -> Bool
isThreadBlocked :: forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
t = case forall s a. Thread s a -> ThreadStatus
threadStatus Thread s a
t of
ThreadBlocked {} -> Bool
True
ThreadStatus
_ -> Bool
False
labelledTVarId :: TVar s a -> ST s (Labelled TVarId)
labelledTVarId :: forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar { TVarId
tvarId :: forall s a. TVar s a -> TVarId
tvarId :: TVarId
tvarId, STRef s (Maybe ThreadLabel)
tvarLabel :: forall s a. TVar s a -> STRef s (Maybe ThreadLabel)
tvarLabel :: STRef s (Maybe ThreadLabel)
tvarLabel } = (forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled TVarId
tvarId) forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall s a. STRef s a -> ST s a
readSTRef STRef s (Maybe ThreadLabel)
tvarLabel
labelledThreads :: Map ThreadId (Thread s a) -> [Labelled ThreadId]
labelledThreads :: forall s a. Map ThreadId (Thread s a) -> [Labelled ThreadId]
labelledThreads Map ThreadId (Thread s a)
threadMap =
forall a b k. (a -> b -> b) -> b -> Map k a -> b
Map.foldr'
(\Thread { ThreadId
threadId :: ThreadId
threadId :: forall s a. Thread s a -> ThreadId
threadId, Maybe ThreadLabel
threadLabel :: Maybe ThreadLabel
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel } ![Labelled ThreadId]
acc -> forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled ThreadId
threadId Maybe ThreadLabel
threadLabel forall a. a -> [a] -> [a]
: [Labelled ThreadId]
acc)
[] Map ThreadId (Thread s a)
threadMap
data TimerCompletionInfo s =
Timer !(TVar s TimeoutState)
| TimerRegisterDelay !(TVar s Bool)
| TimerThreadDelay !ThreadId !TimeoutId
| TimerTimeout !ThreadId !TimeoutId !(TMVar (IOSim s) ThreadId)
type Timeouts s = OrdPSQ TimeoutId Time (TimerCompletionInfo s)
data SimState s a = SimState {
forall s a. SimState s a -> Deque ThreadId
runqueue :: !(Deque ThreadId),
forall s a. SimState s a -> Map ThreadId (Thread s a)
threads :: !(Map ThreadId (Thread s a)),
forall s a. SimState s a -> Time
curTime :: !Time,
forall s a. SimState s a -> Timeouts s
timers :: !(Timeouts s),
forall s a. SimState s a -> Map ClockId UTCTime
clocks :: !(Map ClockId UTCTime),
forall s a. SimState s a -> TVarId
nextVid :: !TVarId,
forall s a. SimState s a -> TimeoutId
nextTmid :: !TimeoutId
}
initialState :: SimState s a
initialState :: forall s a. SimState s a
initialState =
SimState {
runqueue :: Deque ThreadId
runqueue = forall a. Monoid a => a
mempty,
threads :: Map ThreadId (Thread s a)
threads = forall k a. Map k a
Map.empty,
curTime :: Time
curTime = DiffTime -> Time
Time DiffTime
0,
timers :: Timeouts s
timers = forall k p v. OrdPSQ k p v
PSQ.empty,
clocks :: Map ClockId UTCTime
clocks = forall k a. k -> a -> Map k a
Map.singleton ([Int] -> ClockId
ClockId []) UTCTime
epoch1970,
nextVid :: TVarId
nextVid = Int -> TVarId
TVarId Int
0,
nextTmid :: TimeoutId
nextTmid = Int -> TimeoutId
TimeoutId Int
0
}
where
epoch1970 :: UTCTime
epoch1970 = Day -> DiffTime -> UTCTime
UTCTime (Year -> Int -> Int -> Day
fromGregorian Year
1970 Int
1 Int
1) DiffTime
0
invariant :: Maybe (Thread s a) -> SimState s a -> x -> x
invariant :: forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant (Just Thread s a
running) simstate :: SimState s a
simstate@SimState{Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue,Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads,Map ClockId UTCTime
clocks :: Map ClockId UTCTime
clocks :: forall s a. SimState s a -> Map ClockId UTCTime
clocks} =
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Bool -> Bool
not (forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
running))
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall s a. Thread s a -> ThreadId
threadId Thread s a
running forall k a. Ord k => k -> Map k a -> Bool
`Map.notMember` Map ThreadId (Thread s a)
threads)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall s a. Thread s a -> ThreadId
threadId Thread s a
running forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`List.notElem` Deque ThreadId
runqueue)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall s a. Thread s a -> ClockId
threadClockId Thread s a
running forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map ClockId UTCTime
clocks)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant forall a. Maybe a
Nothing SimState s a
simstate
invariant Maybe (Thread s a)
Nothing SimState{Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue,Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads,Map ClockId UTCTime
clocks :: Map ClockId UTCTime
clocks :: forall s a. SimState s a -> Map ClockId UTCTime
clocks} =
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
all (forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map ThreadId (Thread s a)
threads) Deque ThreadId
runqueue)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall (t :: * -> *). Foldable t => t Bool -> Bool
and [ forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
t forall a. Eq a => a -> a -> Bool
== (forall s a. Thread s a -> ThreadId
threadId Thread s a
t forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`notElem` Deque ThreadId
runqueue)
| Thread s a
t <- forall k a. Map k a -> [a]
Map.elems Map ThreadId (Thread s a)
threads ])
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall (t :: * -> *) a. Foldable t => t a -> [a]
toList Deque ThreadId
runqueue forall a. Eq a => a -> a -> Bool
== forall a. Eq a => [a] -> [a]
List.nub (forall (t :: * -> *) a. Foldable t => t a -> [a]
toList Deque ThreadId
runqueue))
forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall (t :: * -> *). Foldable t => t Bool -> Bool
and [ forall s a. Thread s a -> ClockId
threadClockId Thread s a
t forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map ClockId UTCTime
clocks
| Thread s a
t <- forall k a. Map k a -> [a]
Map.elems Map ThreadId (Thread s a)
threads ])
timeSinceEpoch :: Time -> NominalDiffTime
timeSinceEpoch :: Time -> NominalDiffTime
timeSinceEpoch (Time DiffTime
t) = forall a. Fractional a => Rational -> a
fromRational (forall a. Real a => a -> Rational
toRational DiffTime
t)
schedule :: forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule :: forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule !thread :: Thread s a
thread@Thread{
threadId :: forall s a. Thread s a -> ThreadId
threadId = ThreadId
tid,
threadControl :: forall s a. Thread s a -> ThreadControl s a
threadControl = ThreadControl SimA s b
action ControlStack s b a
ctl,
threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
maskst,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl
}
!simstate :: SimState s a
simstate@SimState {
Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue,
Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads,
Timeouts s
timers :: Timeouts s
timers :: forall s a. SimState s a -> Timeouts s
timers,
Map ClockId UTCTime
clocks :: Map ClockId UTCTime
clocks :: forall s a. SimState s a -> Map ClockId UTCTime
clocks,
TVarId
nextVid :: TVarId
nextVid :: forall s a. SimState s a -> TVarId
nextVid, TimeoutId
nextTmid :: TimeoutId
nextTmid :: forall s a. SimState s a -> TimeoutId
nextTmid,
curTime :: forall s a. SimState s a -> Time
curTime = Time
time
} =
forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant (forall a. a -> Maybe a
Just Thread s a
thread) SimState s a
simstate forall a b. (a -> b) -> a -> b
$
case SimA s b
action of
Return b
x -> {-# SCC "schedule.Return" #-}
case ControlStack s b a
ctl of
ControlStack s b a
MainFrame ->
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl SimEventType
EventThreadFinished
forall a b. (a -> b) -> a -> b
$ forall a. Time -> a -> [Labelled ThreadId] -> SimTrace a
TraceMainReturn Time
time b
x (forall s a. Map ThreadId (Thread s a) -> [Labelled ThreadId]
labelledThreads Map ThreadId (Thread s a)
threads)
ControlStack s b a
ForkFrame -> do
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Terminated Thread s a
thread SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl SimEventType
EventThreadFinished
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Terminated)
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
MaskFrame b -> SimA s c
k MaskingState
maskst' ControlStack s c a
ctl' -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (b -> SimA s c
k b
x) ControlStack s c a
ctl'
, threadMasking :: MaskingState
threadMasking = MaskingState
maskst' }
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Interruptable Thread s a
thread' SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (MaskingState -> SimEventType
EventMask MaskingState
maskst')
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Interruptable)
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
CatchFrame e -> SimA s b
_handler b -> SimA s c
k ControlStack s c a
ctl' -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (b -> SimA s c
k b
x) ControlStack s c a
ctl' }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
TimeoutFrame TimeoutId
tmid TMVar (IOSim s) ThreadId
lock Maybe b -> SimA s c
k ControlStack s c a
ctl' -> do
Bool
v <- forall s a. TMVar (IOSim s) a -> a -> ST s Bool
execTryPutTMVar TMVar (IOSim s) ThreadId
lock forall a. (?callStack::CallStack) => a
undefined
let
threadAction :: IOSim s ()
threadAction :: IOSim s ()
threadAction =
if Bool
v then forall s. TimeoutId -> IOSim s ()
unsafeUnregisterTimeout TimeoutId
tmid
else forall (m :: * -> *) a.
(MonadSTM m, ?callStack::CallStack) =>
STM m a -> m a
atomically (forall (m :: * -> *) a. MonadSTM m => TMVar m a -> STM m a
takeTMVar TMVar (IOSim s) ThreadId
lock) forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= forall (m :: * -> *). MonadFork m => ThreadId m -> m ()
killThread
thread' :: Thread s a
thread' =
Thread s a
thread { threadControl :: ThreadControl s a
threadControl =
forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (case IOSim s ()
threadAction of
IOSim forall r. (() -> SimA s r) -> SimA s r
k' -> forall r. (() -> SimA s r) -> SimA s r
k' (\() -> Maybe b -> SimA s c
k (forall a. a -> Maybe a
Just b
x)))
ControlStack s c a
ctl'
}
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
DelayFrame TimeoutId
tmid SimA s c
k ControlStack s c a
ctl' -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s c
k ControlStack s c a
ctl' }
timers' :: Timeouts s
timers' = forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers' }
Throw SomeException
e -> {-# SCC "schedule.Throw" #-}
case forall s a.
SomeException
-> Thread s a
-> Timeouts s
-> (Either Bool (Thread s a), Timeouts s)
unwindControlStack SomeException
e Thread s a
thread Timeouts s
timers of
(Right thread' :: Thread s a
thread'@Thread { threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
maskst' }, Timeouts s
timers'') -> do
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers'' }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThrow SomeException
e) forall a b. (a -> b) -> a -> b
$
forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (MaskingState -> SimEventType
EventMask MaskingState
maskst') SimTrace a
trace)
(Left Bool
isMain, Timeouts s
timers'')
| Bool
isMain ->
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThrow SomeException
e) forall a b. (a -> b) -> a -> b
$
forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThreadUnhandled SomeException
e) forall a b. (a -> b) -> a -> b
$
forall a.
Time -> SomeException -> [Labelled ThreadId] -> SimTrace a
TraceMainException Time
time SomeException
e (forall s a. Map ThreadId (Thread s a) -> [Labelled ThreadId]
labelledThreads Map ThreadId (Thread s a)
threads))
| Bool
otherwise -> do
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Terminated Thread s a
thread SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers'' }
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThrow SomeException
e)
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThreadUnhandled SomeException
e)
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Terminated)
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
Catch SimA s a
action' e -> SimA s a
handler a -> SimA s b
k ->
{-# SCC "schedule.Catch" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s a
action'
(forall a s b c a.
Exception a =>
(a -> SimA s b)
-> (b -> SimA s c) -> ControlStack s c a -> ControlStack s b a
CatchFrame e -> SimA s a
handler a -> SimA s b
k ControlStack s b a
ctl) }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Evaluate a
expr a -> SimA s b
k ->
{-# SCC "schedule.Evaulate" #-} do
Either SomeException a
mbWHNF <- forall a s. IO a -> ST s a
unsafeIOToST forall a b. (a -> b) -> a -> b
$ forall (m :: * -> *) e a.
(MonadCatch m, Exception e) =>
m a -> m (Either e a)
try forall a b. (a -> b) -> a -> b
$ forall (m :: * -> *) a. MonadEvaluate m => a -> m a
evaluate a
expr
case Either SomeException a
mbWHNF of
Left SomeException
e -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. SomeException -> SimA s a
Throw SomeException
e) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Right a
whnf -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (a -> SimA s b
k a
whnf) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Say ThreadLabel
msg SimA s b
k ->
{-# SCC "schedule.Say" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (ThreadLabel -> SimEventType
EventSay ThreadLabel
msg) SimTrace a
trace)
Output Dynamic
x SimA s b
k ->
{-# SCC "schedule.Output" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Dynamic -> SimEventType
EventLog Dynamic
x) SimTrace a
trace)
LiftST ST s a
st a -> SimA s b
k ->
{-# SCC "schedule.LiftST" #-} do
a
x <- forall s a. ST s a -> ST s a
strictToLazyST ST s a
st
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (a -> SimA s b
k a
x) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
GetMonoTime Time -> SimA s b
k ->
{-# SCC "schedule.GetMonoTime" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (Time -> SimA s b
k Time
time) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
GetWallTime UTCTime -> SimA s b
k ->
{-# SCC "schedule.GetWallTime" #-} do
let !clockid :: ClockId
clockid = forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
!clockoff :: UTCTime
clockoff = Map ClockId UTCTime
clocks forall k a. Ord k => Map k a -> k -> a
Map.! ClockId
clockid
!walltime :: UTCTime
walltime = Time -> NominalDiffTime
timeSinceEpoch Time
time NominalDiffTime -> UTCTime -> UTCTime
`addUTCTime` UTCTime
clockoff
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (UTCTime -> SimA s b
k UTCTime
walltime) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SetWallTime UTCTime
walltime' SimA s b
k ->
{-# SCC "schedule.SetWallTime" #-} do
let !clockid :: ClockId
clockid = forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
!clockoff :: UTCTime
clockoff = Map ClockId UTCTime
clocks forall k a. Ord k => Map k a -> k -> a
Map.! ClockId
clockid
!walltime :: UTCTime
walltime = Time -> NominalDiffTime
timeSinceEpoch Time
time NominalDiffTime -> UTCTime -> UTCTime
`addUTCTime` UTCTime
clockoff
!clockoff' :: UTCTime
clockoff' = NominalDiffTime -> UTCTime -> UTCTime
addUTCTime (UTCTime -> UTCTime -> NominalDiffTime
diffUTCTime UTCTime
walltime' UTCTime
walltime) UTCTime
clockoff
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
!simstate' :: SimState s a
simstate' = SimState s a
simstate { clocks :: Map ClockId UTCTime
clocks = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert ClockId
clockid UTCTime
clockoff' Map ClockId UTCTime
clocks }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
UnshareClock SimA s b
k ->
{-# SCC "schedule.UnshareClock" #-} do
let !clockid :: ClockId
clockid = forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
!clockoff :: UTCTime
clockoff = Map ClockId UTCTime
clocks forall k a. Ord k => Map k a -> k -> a
Map.! ClockId
clockid
!clockid' :: ClockId
clockid' = let ThreadId [Int]
i = ThreadId
tid in [Int] -> ClockId
ClockId [Int]
i
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl
, threadClockId :: ClockId
threadClockId = ClockId
clockid' }
!simstate' :: SimState s a
simstate' = SimState s a
simstate { clocks :: Map ClockId UTCTime
clocks = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert ClockId
clockid' UTCTime
clockoff Map ClockId UTCTime
clocks }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
StartTimeout DiffTime
d SimA s a
_ Maybe a -> SimA s b
_ | DiffTime
d forall a. Ord a => a -> a -> Bool
<= DiffTime
0 ->
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"schedule: StartTimeout: Impossible happened"
StartTimeout DiffTime
d SimA s a
action' Maybe a -> SimA s b
k ->
{-# SCC "schedule.StartTimeout" #-} do
TMVarDefault (IOSim s) ThreadId
lock <- forall (m :: * -> *) a. TVar m (Maybe a) -> TMVarDefault m a
TMVar forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid (forall a. a -> Maybe a
Just forall a b. (a -> b) -> a -> b
$ ThreadLabel
"lock-" forall a. [a] -> [a] -> [a]
++ forall a. Show a => a -> ThreadLabel
show TimeoutId
nextTmid) forall a. Maybe a
Nothing
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!timers' :: Timeouts s
timers' = forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (forall s.
ThreadId
-> TimeoutId -> TMVar (IOSim s) ThreadId -> TimerCompletionInfo s
TimerTimeout ThreadId
tid TimeoutId
nextTmid TMVarDefault (IOSim s) ThreadId
lock) Timeouts s
timers
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl =
forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s a
action'
(forall s b a a.
TimeoutId
-> TMVar (IOSim s) ThreadId
-> (Maybe b -> SimA s a)
-> ControlStack s a a
-> ControlStack s b a
TimeoutFrame TimeoutId
nextTmid TMVarDefault (IOSim s) ThreadId
lock Maybe a -> SimA s b
k ControlStack s b a
ctl)
}
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers'
, nextTmid :: TimeoutId
nextTmid = forall a. Enum a => a -> a
succ TimeoutId
nextTmid
, nextVid :: TVarId
nextVid = forall a. Enum a => a -> a
succ TVarId
nextVid
}
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> ThreadId -> Time -> SimEventType
EventTimeoutCreated TimeoutId
nextTmid ThreadId
tid Time
expiry) SimTrace a
trace)
UnregisterTimeout TimeoutId
tmid SimA s b
k ->
{-# SCC "schedule.UnregisterTimeout" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers }
RegisterDelay DiffTime
d TVar s Bool -> SimA s b
k | DiffTime
d forall a. Ord a => a -> a -> Bool
< DiffTime
0 ->
{-# SCC "schedule.NewRegisterDelay.1" #-} do
!TVar s Bool
tvar <- forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid
(forall a. a -> Maybe a
Just forall a b. (a -> b) -> a -> b
$ ThreadLabel
"<<timeout " forall a. [a] -> [a] -> [a]
++ forall a. Show a => a -> ThreadLabel
show (TimeoutId -> Int
unTimeoutId TimeoutId
nextTmid) forall a. [a] -> [a] -> [a]
++ ThreadLabel
">>")
Bool
True
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (TVar s Bool -> SimA s b
k TVar s Bool
tvar) ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { nextVid :: TVarId
nextVid = forall a. Enum a => a -> a
succ TVarId
nextVid }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> TVarId -> Time -> SimEventType
EventRegisterDelayCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) forall a b. (a -> b) -> a -> b
$
forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventRegisterDelayFired TimeoutId
nextTmid) forall a b. (a -> b) -> a -> b
$
SimTrace a
trace)
RegisterDelay DiffTime
d TVar s Bool -> SimA s b
k ->
{-# SCC "schedule.NewRegisterDelay.2" #-} do
!TVar s Bool
tvar <- forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid
(forall a. a -> Maybe a
Just forall a b. (a -> b) -> a -> b
$ ThreadLabel
"<<timeout " forall a. [a] -> [a] -> [a]
++ forall a. Show a => a -> ThreadLabel
show (TimeoutId -> Int
unTimeoutId TimeoutId
nextTmid) forall a. [a] -> [a] -> [a]
++ ThreadLabel
">>")
Bool
False
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!timers' :: Timeouts s
timers' = forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (forall s. TVar s Bool -> TimerCompletionInfo s
TimerRegisterDelay TVar s Bool
tvar) Timeouts s
timers
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (TVar s Bool -> SimA s b
k TVar s Bool
tvar) ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers'
, nextVid :: TVarId
nextVid = forall a. Enum a => a -> a
succ TVarId
nextVid
, nextTmid :: TimeoutId
nextTmid = forall a. Enum a => a -> a
succ TimeoutId
nextTmid }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl
(TimeoutId -> TVarId -> Time -> SimEventType
EventRegisterDelayCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) SimTrace a
trace)
ThreadDelay DiffTime
d SimA s b
k | DiffTime
d forall a. Ord a => a -> a -> Bool
< DiffTime
0 ->
{-# SCC "schedule.NewThreadDelay" #-} do
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall a s. a -> SimA s a
Return ()) (forall s a a b.
TimeoutId -> SimA s a -> ControlStack s a a -> ControlStack s b a
DelayFrame TimeoutId
nextTmid SimA s b
k ControlStack s b a
ctl) }
!simstate' :: SimState s a
simstate' = SimState s a
simstate { nextTmid :: TimeoutId
nextTmid = forall a. Enum a => a -> a
succ TimeoutId
nextTmid }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> Time -> SimEventType
EventThreadDelay TimeoutId
nextTmid Time
expiry) forall a b. (a -> b) -> a -> b
$
forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventThreadDelayFired TimeoutId
nextTmid) forall a b. (a -> b) -> a -> b
$
SimTrace a
trace)
ThreadDelay DiffTime
d SimA s b
k ->
{-# SCC "schedule.NewThreadDelay" #-} do
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!timers' :: Timeouts s
timers' = forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (forall s. ThreadId -> TimeoutId -> TimerCompletionInfo s
TimerThreadDelay ThreadId
tid TimeoutId
nextTmid) Timeouts s
timers
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall a s. a -> SimA s a
Return ()) (forall s a a b.
TimeoutId -> SimA s a -> ControlStack s a a -> ControlStack s b a
DelayFrame TimeoutId
nextTmid SimA s b
k ControlStack s b a
ctl) }
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnOther) Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers'
, nextTmid :: TimeoutId
nextTmid = forall a. Enum a => a -> a
succ TimeoutId
nextTmid }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> Time -> SimEventType
EventThreadDelay TimeoutId
nextTmid Time
expiry) SimTrace a
trace)
NewTimeout DiffTime
d Timeout s -> SimA s b
k | DiffTime
d forall a. Ord a => a -> a -> Bool
< DiffTime
0 ->
{-# SCC "schedule.NewTimeout.1" #-} do
let !t :: Timeout s
t = forall s. TimeoutId -> Timeout s
NegativeTimeout TimeoutId
nextTmid
!expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (Timeout s -> SimA s b
k Timeout s
t) ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { nextTmid :: TimeoutId
nextTmid = forall a. Enum a => a -> a
succ TimeoutId
nextTmid }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> TVarId -> Time -> SimEventType
EventTimerCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) forall a b. (a -> b) -> a -> b
$
forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventTimerCancelled TimeoutId
nextTmid) forall a b. (a -> b) -> a -> b
$
SimTrace a
trace)
NewTimeout DiffTime
d Timeout s -> SimA s b
k ->
{-# SCC "schedule.NewTimeout.2" #-} do
!TVar s TimeoutState
tvar <- forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid
(forall a. a -> Maybe a
Just forall a b. (a -> b) -> a -> b
$ ThreadLabel
"<<timeout-state " forall a. [a] -> [a] -> [a]
++ forall a. Show a => a -> ThreadLabel
show (TimeoutId -> Int
unTimeoutId TimeoutId
nextTmid) forall a. [a] -> [a] -> [a]
++ ThreadLabel
">>")
TimeoutState
TimeoutPending
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!t :: Timeout s
t = forall s. TVar s TimeoutState -> TimeoutId -> Timeout s
Timeout TVar s TimeoutState
tvar TimeoutId
nextTmid
!timers' :: Timeouts s
timers' = forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (forall s. TVar s TimeoutState -> TimerCompletionInfo s
Timer TVar s TimeoutState
tvar) Timeouts s
timers
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (Timeout s -> SimA s b
k Timeout s
t) ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers :: Timeouts s
timers = Timeouts s
timers'
, nextVid :: TVarId
nextVid = forall a. Enum a => a -> a
succ TVarId
nextVid
, nextTmid :: TimeoutId
nextTmid = forall a. Enum a => a -> a
succ TimeoutId
nextTmid }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> TVarId -> Time -> SimEventType
EventTimerCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) SimTrace a
trace)
CancelTimeout (Timeout TVar s TimeoutState
tvar TimeoutId
tmid) SimA s b
k ->
{-# SCC "schedule.CancelTimeout" #-} do
let !timers' :: Timeouts s
timers' = forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
![SomeTVar s]
written <- forall s. StmA s () -> ST s [SomeTVar s]
execAtomically' (forall s a. STM s a -> StmA s a
runSTM forall a b. (a -> b) -> a -> b
$ forall (m :: * -> *) a. MonadSTM m => TVar m a -> a -> STM m ()
writeTVar TVar s TimeoutState
tvar TimeoutState
TimeoutCancelled)
([ThreadId]
wakeup, Map ThreadId (Set (Labelled TVarId))
wokeby) <- forall s.
[SomeTVar s]
-> ST s ([ThreadId], Map ThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
var) -> forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar s a
var) [SomeTVar s]
written
let ([ThreadId]
unblocked,
SimState s a
simstate') = forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads Bool
True [ThreadId]
wakeup SimState s a
simstate
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate' { timers :: Timeouts s
timers = Timeouts s
timers' }
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventTimerCancelled TimeoutId
tmid)
forall a b. (a -> b) -> a -> b
$ forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, ThreadId
tid', Maybe ThreadLabel
tlbl', [Labelled TVarId] -> SimEventType
EventTxWakeup [Labelled TVarId]
vids)
| ThreadId
tid' <- [ThreadId]
unblocked
, let tlbl' :: Maybe ThreadLabel
tlbl' = forall s a.
ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel ThreadId
tid' Map ThreadId (Thread s a)
threads
, let Just [Labelled TVarId]
vids = forall a. Set a -> [a]
Set.toList forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup ThreadId
tid' Map ThreadId (Set (Labelled TVarId))
wokeby ]
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
CancelTimeout (NegativeTimeout TimeoutId
_tmid) SimA s b
k ->
{-# SCC "schedule.CancelTimeout" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Fork IOSim s ()
a ThreadId -> SimA s b
k ->
{-# SCC "schedule.Fork" #-} do
let !nextId :: Int
nextId = forall s a. Thread s a -> Int
threadNextTId Thread s a
thread
!tid' :: ThreadId
tid' = ThreadId -> Int -> ThreadId
childThreadId ThreadId
tid Int
nextId
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (ThreadId -> SimA s b
k ThreadId
tid') ControlStack s b a
ctl
, threadNextTId :: Int
threadNextTId = forall a. Enum a => a -> a
succ Int
nextId }
!thread'' :: Thread s a
thread'' = Thread { threadId :: ThreadId
threadId = ThreadId
tid'
, threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. IOSim s a -> SimA s a
runIOSim IOSim s ()
a)
forall s a. ControlStack s () a
ForkFrame
, threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning
, threadMasking :: MaskingState
threadMasking = forall s a. Thread s a -> MaskingState
threadMasking Thread s a
thread
, threadThrowTo :: [(SomeException, Labelled ThreadId)]
threadThrowTo = []
, threadClockId :: ClockId
threadClockId = forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
, threadLabel :: Maybe ThreadLabel
threadLabel = forall a. Maybe a
Nothing
, threadNextTId :: Int
threadNextTId = Int
1
}
!threads' :: Map ThreadId (Thread s a)
threads' = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert ThreadId
tid' Thread s a
thread'' Map ThreadId (Thread s a)
threads
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { runqueue :: Deque ThreadId
runqueue = forall a. a -> Deque a -> Deque a
Deque.snoc ThreadId
tid' Deque ThreadId
runqueue
, threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads' }
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (ThreadId -> SimEventType
EventThreadForked ThreadId
tid') SimTrace a
trace)
Atomically STM s a
a a -> SimA s b
k ->
{-# SCC "schedule.Atomically" #-} forall s a c.
Time
-> ThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a
-> (StmTxResult s a -> ST s (SimTrace c))
-> ST s (SimTrace c)
execAtomically Time
time ThreadId
tid Maybe ThreadLabel
tlbl TVarId
nextVid (forall s a. STM s a -> StmA s a
runSTM STM s a
a) forall a b. (a -> b) -> a -> b
$ \StmTxResult s a
res ->
case StmTxResult s a
res of
StmTxCommitted a
x [SomeTVar s]
written [SomeTVar s]
_read [SomeTVar s]
created
[Dynamic]
tvarDynamicTraces [ThreadLabel]
tvarStringTraces TVarId
nextVid' -> do
(![ThreadId]
wakeup, Map ThreadId (Set (Labelled TVarId))
wokeby) <- forall s.
[SomeTVar s]
-> ST s ([ThreadId], Map ThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written
!()
_ <- forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar s a
tvar) [SomeTVar s]
written
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (a -> SimA s b
k a
x) ControlStack s b a
ctl }
([ThreadId]
unblocked,
SimState s a
simstate') = forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads Bool
True [ThreadId]
wakeup SimState s a
simstate
[Labelled TVarId]
written' <- forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
traverse (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar) [SomeTVar s]
written
[Labelled TVarId]
created' <- forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
traverse (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar) [SomeTVar s]
created
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate' { nextVid :: TVarId
nextVid = TVarId
nextVid' }
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl ([Labelled TVarId]
-> [Labelled TVarId] -> Maybe Effect -> SimEventType
EventTxCommitted
[Labelled TVarId]
written' [Labelled TVarId]
created' forall a. Maybe a
Nothing)
forall a b. (a -> b) -> a -> b
$ forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, ThreadId
tid', Maybe ThreadLabel
tlbl', [Labelled TVarId] -> SimEventType
EventTxWakeup [Labelled TVarId]
vids')
| ThreadId
tid' <- [ThreadId]
unblocked
, let tlbl' :: Maybe ThreadLabel
tlbl' = forall s a.
ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel ThreadId
tid' Map ThreadId (Thread s a)
threads
, let Just [Labelled TVarId]
vids' = forall a. Set a -> [a]
Set.toList forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup ThreadId
tid' Map ThreadId (Set (Labelled TVarId))
wokeby ]
forall a b. (a -> b) -> a -> b
$ forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, ThreadId
tid, Maybe ThreadLabel
tlbl, Dynamic -> SimEventType
EventLog Dynamic
tr)
| Dynamic
tr <- [Dynamic]
tvarDynamicTraces ]
forall a b. (a -> b) -> a -> b
$ forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, ThreadId
tid, Maybe ThreadLabel
tlbl, ThreadLabel -> SimEventType
EventSay ThreadLabel
str)
| ThreadLabel
str <- [ThreadLabel]
tvarStringTraces ]
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl ([ThreadId] -> SimEventType
EventUnblocked [ThreadId]
unblocked)
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Yield)
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
StmTxAborted [SomeTVar s]
_read SomeException
e -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. SomeException -> SimA s a
Throw SomeException
e) ControlStack s b a
ctl }
!SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Maybe Effect -> SimEventType
EventTxAborted forall a. Maybe a
Nothing) SimTrace a
trace
StmTxBlocked [SomeTVar s]
read -> do
!()
_ <- forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
tvar) -> forall s a. ThreadId -> TVar s a -> ST s ()
blockThreadOnTVar ThreadId
tid TVar s a
tvar) [SomeTVar s]
read
[Labelled TVarId]
vids <- forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
traverse (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar) [SomeTVar s]
read
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnSTM) Thread s a
thread SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl ([Labelled TVarId] -> Maybe Effect -> SimEventType
EventTxBlocked [Labelled TVarId]
vids forall a. Maybe a
Nothing)
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnSTM))
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
GetThreadId ThreadId -> SimA s b
k ->
{-# SCC "schedule.GetThreadId" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (ThreadId -> SimA s b
k ThreadId
tid) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
LabelThread ThreadId
tid' ThreadLabel
l SimA s b
k | ThreadId
tid' forall a. Eq a => a -> a -> Bool
== ThreadId
tid ->
{-# SCC "schedule.LabelThread" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl
, threadLabel :: Maybe ThreadLabel
threadLabel = forall a. a -> Maybe a
Just ThreadLabel
l }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
LabelThread ThreadId
tid' ThreadLabel
l SimA s b
k ->
{-# SCC "schedule.LabelThread" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
threads' :: Map ThreadId (Thread s a)
threads' = forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust (\Thread s a
t -> Thread s a
t { threadLabel :: Maybe ThreadLabel
threadLabel = forall a. a -> Maybe a
Just ThreadLabel
l }) ThreadId
tid' Map ThreadId (Thread s a)
threads
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads' }
GetMaskState MaskingState -> SimA s b
k ->
{-# SCC "schedule.GetMaskState" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (MaskingState -> SimA s b
k MaskingState
maskst) ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SetMaskState MaskingState
maskst' IOSim s a
action' a -> SimA s b
k ->
{-# SCC "schedule.SetMaskState" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl
(forall s a. IOSim s a -> SimA s a
runIOSim IOSim s a
action')
(forall b s a a.
(b -> SimA s a)
-> MaskingState -> ControlStack s a a -> ControlStack s b a
MaskFrame a -> SimA s b
k MaskingState
maskst ControlStack s b a
ctl)
, threadMasking :: MaskingState
threadMasking = MaskingState
maskst' }
SimTrace a
trace <-
case MaskingState
maskst' of
MaskingState
Unmasked -> forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Interruptable)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Interruptable Thread s a
thread' SimState s a
simstate
MaskingState
_ -> forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (MaskingState -> SimEventType
EventMask MaskingState
maskst')
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
ThrowTo SomeException
e ThreadId
tid' SimA s b
_ | ThreadId
tid' forall a. Eq a => a -> a -> Bool
== ThreadId
tid ->
{-# SCC "schedule.ThrowTo" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. SomeException -> SimA s a
Throw SomeException
e) ControlStack s b a
ctl }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
forall (m :: * -> *) a. Monad m => a -> m a
return (forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> ThreadId -> SimEventType
EventThrowTo SomeException
e ThreadId
tid) SimTrace a
trace)
ThrowTo SomeException
e ThreadId
tid' SimA s b
k ->
{-# SCC "schedule.ThrowTo" #-} do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
willBlock :: Bool
willBlock = case forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup ThreadId
tid' Map ThreadId (Thread s a)
threads of
Just Thread s a
t -> Bool -> Bool
not (forall s a. Thread s a -> Bool
threadInterruptible Thread s a
t)
Maybe (Thread s a)
_ -> Bool
False
if Bool
willBlock
then do
let adjustTarget :: Thread s a -> Thread s a
adjustTarget Thread s a
t = Thread s a
t { threadThrowTo :: [(SomeException, Labelled ThreadId)]
threadThrowTo = (SomeException
e, forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled ThreadId
tid Maybe ThreadLabel
tlbl) forall a. a -> [a] -> [a]
: forall s a. Thread s a -> [(SomeException, Labelled ThreadId)]
threadThrowTo Thread s a
t }
threads' :: Map ThreadId (Thread s a)
threads' = forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust Thread s a -> Thread s a
adjustTarget ThreadId
tid' Map ThreadId (Thread s a)
threads
!SimTrace a
trace <- forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnOther) Thread s a
thread' SimState s a
simstate { threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads' }
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> ThreadId -> SimEventType
EventThrowTo SomeException
e ThreadId
tid')
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl SimEventType
EventThrowToBlocked
forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnOther))
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
else do
let adjustTarget :: Thread s a -> Thread s a
adjustTarget t :: Thread s a
t@Thread{ threadControl :: forall s a. Thread s a -> ThreadControl s a
threadControl = ThreadControl SimA s b
_ ControlStack s b a
ctl' } =
Thread s a
t { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. SomeException -> SimA s a
Throw SomeException
e) ControlStack s b a
ctl'
, threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning
}
simstate' :: SimState s a
simstate'@SimState { threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads' }
= forall a b. (a, b) -> b
snd (forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads Bool
False [ThreadId
tid'] SimState s a
simstate)
threads'' :: Map ThreadId (Thread s a)
threads'' = forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust Thread s a -> Thread s a
adjustTarget ThreadId
tid' Map ThreadId (Thread s a)
threads'
simstate'' :: SimState s a
simstate'' = SimState s a
simstate' { threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads'' }
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate''
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (SomeException -> ThreadId -> SimEventType
EventThrowTo SomeException
e ThreadId
tid')
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
YieldSim SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl }
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate
ExploreRaces SimA s b
k ->
{-# SCC "schedule.ExploreRaces" #-}
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread{ threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k ControlStack s b a
ctl } SimState s a
simstate
Fix x -> IOSim s x
f x -> SimA s b
k ->
{-# SCC "schedule.Fix" #-} do
STRef s x
r <- forall a s. a -> ST s (STRef s a)
newSTRef (forall a e. Exception e => e -> a
throw NonTermination
NonTermination)
x
x <- forall s a. ST s a -> ST s a
unsafeInterleaveST forall a b. (a -> b) -> a -> b
$ forall s a. STRef s a -> ST s a
readSTRef STRef s x
r
let k' :: SimA s b
k' = forall s a. IOSim s a -> forall r. (a -> SimA s r) -> SimA s r
unIOSim (x -> IOSim s x
f x
x) forall a b. (a -> b) -> a -> b
$ \x
x' ->
forall s a b. ST s a -> (a -> SimA s b) -> SimA s b
LiftST (forall s a. ST s a -> ST s a
lazyToStrictST (forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s x
r x
x')) (\() -> x -> SimA s b
k x
x')
thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl SimA s b
k' ControlStack s b a
ctl }
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
threadInterruptible :: Thread s a -> Bool
threadInterruptible :: forall s a. Thread s a -> Bool
threadInterruptible Thread s a
thread =
case forall s a. Thread s a -> MaskingState
threadMasking Thread s a
thread of
MaskingState
Unmasked -> Bool
True
MaskingState
MaskedInterruptible
| forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
thread -> Bool
True
| Bool
otherwise -> Bool
False
MaskingState
MaskedUninterruptible -> Bool
False
deschedule :: Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule :: forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield !Thread s a
thread !simstate :: SimState s a
simstate@SimState{Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue, Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads} =
{-# SCC "deschedule.Yield" #-}
let runqueue' :: Deque ThreadId
runqueue' = forall a. a -> Deque a -> Deque a
Deque.snoc (forall s a. Thread s a -> ThreadId
threadId Thread s a
thread) Deque ThreadId
runqueue
threads' :: Map ThreadId (Thread s a)
threads' = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (forall s a. Thread s a -> ThreadId
threadId Thread s a
thread) Thread s a
thread Map ThreadId (Thread s a)
threads in
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate { runqueue :: Deque ThreadId
runqueue = Deque ThreadId
runqueue', threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads' }
deschedule Deschedule
Interruptable !thread :: Thread s a
thread@Thread {
threadId :: forall s a. Thread s a -> ThreadId
threadId = ThreadId
tid,
threadControl :: forall s a. Thread s a -> ThreadControl s a
threadControl = ThreadControl SimA s b
_ ControlStack s b a
ctl,
threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
Unmasked,
threadThrowTo :: forall s a. Thread s a -> [(SomeException, Labelled ThreadId)]
threadThrowTo = (SomeException
e, Labelled ThreadId
tid') : [(SomeException, Labelled ThreadId)]
etids,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl
}
!simstate :: SimState s a
simstate@SimState{ curTime :: forall s a. SimState s a -> Time
curTime = Time
time, Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads } =
{-# SCC "deschedule.Interruptable.Unmasked" #-}
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. SomeException -> SimA s a
Throw SomeException
e) ControlStack s b a
ctl
, threadMasking :: MaskingState
threadMasking = MaskingState
MaskedInterruptible
, threadThrowTo :: [(SomeException, Labelled ThreadId)]
threadThrowTo = [(SomeException, Labelled ThreadId)]
etids }
([ThreadId]
unblocked,
SimState s a
simstate') = forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads Bool
False [forall a. Labelled a -> a
l_labelled Labelled ThreadId
tid'] SimState s a
simstate
in do
SimTrace a
trace <- forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Labelled ThreadId -> SimEventType
EventThrowToUnmasked Labelled ThreadId
tid')
forall a b. (a -> b) -> a -> b
$ forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [ (Time
time, ThreadId
tid'', Maybe ThreadLabel
tlbl'', SimEventType
EventThrowToWakeup)
| ThreadId
tid'' <- [ThreadId]
unblocked
, let tlbl'' :: Maybe ThreadLabel
tlbl'' = forall s a.
ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel ThreadId
tid'' Map ThreadId (Thread s a)
threads ]
SimTrace a
trace
deschedule Deschedule
Interruptable !Thread s a
thread !SimState s a
simstate =
{-# SCC "deschedule.Interruptable.Masked" #-}
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread SimState s a
simstate
deschedule (Blocked BlockedReason
_blockedReason) !thread :: Thread s a
thread@Thread { threadThrowTo :: forall s a. Thread s a -> [(SomeException, Labelled ThreadId)]
threadThrowTo = (SomeException, Labelled ThreadId)
_ : [(SomeException, Labelled ThreadId)]
_
, threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
maskst } !SimState s a
simstate
| MaskingState
maskst forall a. Eq a => a -> a -> Bool
/= MaskingState
MaskedUninterruptible =
{-# SCC "deschedule.Interruptable.Blocked.1" #-}
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Interruptable Thread s a
thread { threadMasking :: MaskingState
threadMasking = MaskingState
Unmasked } SimState s a
simstate
deschedule (Blocked BlockedReason
blockedReason) !Thread s a
thread !simstate :: SimState s a
simstate@SimState{Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads} =
{-# SCC "deschedule.Interruptable.Blocked.2" #-}
let thread' :: Thread s a
thread' = Thread s a
thread { threadStatus :: ThreadStatus
threadStatus = BlockedReason -> ThreadStatus
ThreadBlocked BlockedReason
blockedReason }
threads' :: Map ThreadId (Thread s a)
threads' = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (forall s a. Thread s a -> ThreadId
threadId Thread s a
thread') Thread s a
thread' Map ThreadId (Thread s a)
threads in
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate { threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads' }
deschedule Deschedule
Terminated !Thread s a
thread !simstate :: SimState s a
simstate@SimState{ curTime :: forall s a. SimState s a -> Time
curTime = Time
time, Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads } =
{-# SCC "deschedule.Terminated" #-}
let !wakeup :: [ThreadId]
wakeup = forall a b. (a -> b) -> [a] -> [b]
map (forall a. Labelled a -> a
l_labelled forall b c a. (b -> c) -> (a -> b) -> a -> c
. forall a b. (a, b) -> b
snd) (forall a. [a] -> [a]
reverse (forall s a. Thread s a -> [(SomeException, Labelled ThreadId)]
threadThrowTo Thread s a
thread))
([ThreadId]
unblocked,
!SimState s a
simstate') = forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads Bool
False [ThreadId]
wakeup SimState s a
simstate
in do
!SimTrace a
trace <- forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate'
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, ThreadId
tid', Maybe ThreadLabel
tlbl', SimEventType
EventThrowToWakeup)
| ThreadId
tid' <- [ThreadId]
unblocked
, let tlbl' :: Maybe ThreadLabel
tlbl' = forall s a.
ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel ThreadId
tid' Map ThreadId (Thread s a)
threads ]
SimTrace a
trace
deschedule Deschedule
Sleep Thread s a
_thread SimState s a
_simstate =
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"IOSim: impossible happend"
reschedule :: SimState s a -> ST s (SimTrace a)
reschedule :: forall s a. SimState s a -> ST s (SimTrace a)
reschedule !simstate :: SimState s a
simstate@SimState{ Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue, Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads }
| Just (!ThreadId
tid, Deque ThreadId
runqueue') <- forall a. Deque a -> Maybe (a, Deque a)
Deque.uncons Deque ThreadId
runqueue =
{-# SCC "reschedule.Just" #-}
let thread :: Thread s a
thread = Map ThreadId (Thread s a)
threads forall k a. Ord k => Map k a -> k -> a
Map.! ThreadId
tid in
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread SimState s a
simstate { runqueue :: Deque ThreadId
runqueue = Deque ThreadId
runqueue'
, threads :: Map ThreadId (Thread s a)
threads = forall k a. Ord k => k -> Map k a -> Map k a
Map.delete ThreadId
tid Map ThreadId (Thread s a)
threads }
reschedule !simstate :: SimState s a
simstate@SimState{ Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads, Timeouts s
timers :: Timeouts s
timers :: forall s a. SimState s a -> Timeouts s
timers, curTime :: forall s a. SimState s a -> Time
curTime = Time
time } =
{-# SCC "reschedule.Nothing" #-}
case forall k p a.
(Ord k, Ord p) =>
OrdPSQ k p a -> Maybe ([k], p, [a], OrdPSQ k p a)
removeMinimums Timeouts s
timers of
Maybe ([TimeoutId], Time, [TimerCompletionInfo s], Timeouts s)
Nothing -> forall (m :: * -> *) a. Monad m => a -> m a
return (forall a. Time -> [Labelled ThreadId] -> SimTrace a
TraceDeadlock Time
time (forall s a. Map ThreadId (Thread s a) -> [Labelled ThreadId]
labelledThreads Map ThreadId (Thread s a)
threads))
Just ([TimeoutId]
tmids, !Time
time', ![TimerCompletionInfo s]
fired, !Timeouts s
timers') -> forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Time
time' forall a. Ord a => a -> a -> Bool
>= Time
time) forall a b. (a -> b) -> a -> b
$ do
![SomeTVar s]
written <- forall s. StmA s () -> ST s [SomeTVar s]
execAtomically' (forall s a. STM s a -> StmA s a
runSTM forall a b. (a -> b) -> a -> b
$ forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ forall {m :: * -> *} {s}.
(TVar m ~ TVar s, MonadSTM m) =>
TimerCompletionInfo s -> STM m ()
timeoutSTMAction [TimerCompletionInfo s]
fired)
([ThreadId]
wakeupSTM, Map ThreadId (Set (Labelled TVarId))
wokeby) <- forall s.
[SomeTVar s]
-> ST s ([ThreadId], Map ThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written
!()
_ <- forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar s a
tvar) [SomeTVar s]
written
let wakeupThreadDelay :: [(ThreadId, TimeoutId)]
wakeupThreadDelay = [ (ThreadId
tid, TimeoutId
tmid) | TimerThreadDelay ThreadId
tid TimeoutId
tmid <- [TimerCompletionInfo s]
fired ]
wakeup :: [ThreadId]
wakeup = forall a b. (a, b) -> a
fst forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
`fmap` [(ThreadId, TimeoutId)]
wakeupThreadDelay forall a. [a] -> [a] -> [a]
++ [ThreadId]
wakeupSTM
([ThreadId]
_, !SimState s a
simstate') = forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads Bool
False [ThreadId]
wakeup SimState s a
simstate
!timeoutExpired :: [(ThreadId, TimeoutId, TMVarDefault (IOSim s) ThreadId)]
timeoutExpired = [ (ThreadId
tid, TimeoutId
tmid, TMVar (IOSim s) ThreadId
lock)
| TimerTimeout ThreadId
tid TimeoutId
tmid TMVar (IOSim s) ThreadId
lock <- [TimerCompletionInfo s]
fired ]
!SimState s a
simstate'' <- forall s a.
[(ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)]
-> SimState s a -> ST s (SimState s a)
forkTimeoutInterruptThreads [(ThreadId, TimeoutId, TMVarDefault (IOSim s) ThreadId)]
timeoutExpired SimState s a
simstate'
!SimTrace a
trace <- forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate'' { curTime :: Time
curTime = Time
time'
, timers :: Timeouts s
timers = Timeouts s
timers' }
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$
forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany ([ ( Time
time', [Int] -> ThreadId
ThreadId [-Int
1], forall a. a -> Maybe a
Just ThreadLabel
"timer"
, TimeoutId -> SimEventType
EventTimerFired TimeoutId
tmid)
| (TimeoutId
tmid, Timer TVar s TimeoutState
_) <- forall a b. [a] -> [b] -> [(a, b)]
zip [TimeoutId]
tmids [TimerCompletionInfo s]
fired ]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', [Int] -> ThreadId
ThreadId [-Int
1], forall a. a -> Maybe a
Just ThreadLabel
"register delay timer"
, TimeoutId -> SimEventType
EventRegisterDelayFired TimeoutId
tmid)
| (TimeoutId
tmid, TimerRegisterDelay TVar s Bool
_) <- forall a b. [a] -> [b] -> [(a, b)]
zip [TimeoutId]
tmids [TimerCompletionInfo s]
fired ]
forall a. [a] -> [a] -> [a]
++ [ (Time
time', ThreadId
tid', Maybe ThreadLabel
tlbl', [Labelled TVarId] -> SimEventType
EventTxWakeup [Labelled TVarId]
vids)
| ThreadId
tid' <- [ThreadId]
wakeupSTM
, let tlbl' :: Maybe ThreadLabel
tlbl' = forall s a.
ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel ThreadId
tid' Map ThreadId (Thread s a)
threads
, let Just [Labelled TVarId]
vids = forall a. Set a -> [a]
Set.toList forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup ThreadId
tid' Map ThreadId (Set (Labelled TVarId))
wokeby ]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', ThreadId
tid, forall a. a -> Maybe a
Just ThreadLabel
"thread delay timer"
, TimeoutId -> SimEventType
EventThreadDelayFired TimeoutId
tmid)
| (ThreadId
tid, TimeoutId
tmid) <- [(ThreadId, TimeoutId)]
wakeupThreadDelay ]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', ThreadId
tid, forall a. a -> Maybe a
Just ThreadLabel
"timeout timer"
, TimeoutId -> SimEventType
EventTimeoutFired TimeoutId
tmid)
| (ThreadId
tid, TimeoutId
tmid, TMVarDefault (IOSim s) ThreadId
_) <- [(ThreadId, TimeoutId, TMVarDefault (IOSim s) ThreadId)]
timeoutExpired ]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', ThreadId
tid, forall a. a -> Maybe a
Just ThreadLabel
"thread forked"
, ThreadId -> SimEventType
EventThreadForked ThreadId
tid)
| (ThreadId
tid, TimeoutId
_, TMVarDefault (IOSim s) ThreadId
_) <- [(ThreadId, TimeoutId, TMVarDefault (IOSim s) ThreadId)]
timeoutExpired ])
SimTrace a
trace
where
timeoutSTMAction :: TimerCompletionInfo s -> STM m ()
timeoutSTMAction (Timer TVar s TimeoutState
var) = do
TimeoutState
x <- forall (m :: * -> *) a. MonadSTM m => TVar m a -> STM m a
readTVar TVar s TimeoutState
var
case TimeoutState
x of
TimeoutState
TimeoutPending -> forall (m :: * -> *) a. MonadSTM m => TVar m a -> a -> STM m ()
writeTVar TVar s TimeoutState
var TimeoutState
TimeoutFired
TimeoutState
TimeoutFired -> forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"MonadTimer(Sim): invariant violation"
TimeoutState
TimeoutCancelled -> forall (m :: * -> *) a. Monad m => a -> m a
return ()
timeoutSTMAction (TimerRegisterDelay TVar s Bool
var) = forall (m :: * -> *) a. MonadSTM m => TVar m a -> a -> STM m ()
writeTVar TVar s Bool
var Bool
True
timeoutSTMAction TimerThreadDelay{} = forall (m :: * -> *) a. Monad m => a -> m a
return ()
timeoutSTMAction TimerTimeout{} = forall (m :: * -> *) a. Monad m => a -> m a
return ()
unblockThreads :: Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads :: forall s a.
Bool -> [ThreadId] -> SimState s a -> ([ThreadId], SimState s a)
unblockThreads !Bool
onlySTM ![ThreadId]
wakeup !simstate :: SimState s a
simstate@SimState {Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue, Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads} =
([ThreadId]
unblocked, SimState s a
simstate {
runqueue :: Deque ThreadId
runqueue = Deque ThreadId
runqueue forall a. Semigroup a => a -> a -> a
<> forall l. IsList l => [Item l] -> l
fromList [ThreadId]
unblocked,
threads :: Map ThreadId (Thread s a)
threads = Map ThreadId (Thread s a)
threads'
})
where
!unblocked :: [ThreadId]
unblocked = [ ThreadId
tid
| ThreadId
tid <- [ThreadId]
wakeup
, case forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup ThreadId
tid Map ThreadId (Thread s a)
threads of
Just Thread { threadStatus :: forall s a. Thread s a -> ThreadStatus
threadStatus = ThreadBlocked BlockedReason
BlockedOnOther }
-> Bool -> Bool
not Bool
onlySTM
Just Thread { threadStatus :: forall s a. Thread s a -> ThreadStatus
threadStatus = ThreadBlocked BlockedReason
BlockedOnSTM }
-> Bool
True
Maybe (Thread s a)
_ -> Bool
False
]
!threads' :: Map ThreadId (Thread s a)
threads' = forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
List.foldl'
(forall a b c. (a -> b -> c) -> b -> a -> c
flip (forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust (\Thread s a
t -> Thread s a
t { threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning })))
Map ThreadId (Thread s a)
threads
[ThreadId]
unblocked
forkTimeoutInterruptThreads :: forall s a.
[(ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)]
-> SimState s a
-> ST s (SimState s a)
forkTimeoutInterruptThreads :: forall s a.
[(ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)]
-> SimState s a -> ST s (SimState s a)
forkTimeoutInterruptThreads [(ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)]
timeoutExpired SimState s a
simState =
forall (t :: * -> *) (m :: * -> *) b a.
(Foldable t, Monad m) =>
(b -> a -> m b) -> b -> t a -> m b
foldlM (\st :: SimState s a
st@SimState{ Deque ThreadId
runqueue :: Deque ThreadId
runqueue :: forall s a. SimState s a -> Deque ThreadId
runqueue, Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads }
(Thread s a
t, TMVar TVar (IOSim s) (Maybe ThreadId)
lock)
-> do
Maybe ThreadId
v <- forall s a. TVar s a -> ST s a
execReadTVar TVar (IOSim s) (Maybe ThreadId)
lock
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ case Maybe ThreadId
v of
Maybe ThreadId
Nothing -> SimState s a
st { runqueue :: Deque ThreadId
runqueue = forall a. a -> Deque a -> Deque a
Deque.snoc (forall s a. Thread s a -> ThreadId
threadId Thread s a
t) Deque ThreadId
runqueue,
threads :: Map ThreadId (Thread s a)
threads = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (forall s a. Thread s a -> ThreadId
threadId Thread s a
t) Thread s a
t Map ThreadId (Thread s a)
threads
}
Just ThreadId
_ -> SimState s a
st
)
SimState s a
simState'
[(Thread s a, TMVar (IOSim s) ThreadId)]
throwToThread
where
throwToThread :: [(Thread s a, TMVar (IOSim s) ThreadId)]
(SimState s a
simState', [(Thread s a, TMVar (IOSim s) ThreadId)]
[(Thread s a, TMVarDefault (IOSim s) ThreadId)]
throwToThread) = forall (t :: * -> *) s a b.
Traversable t =>
(s -> a -> (s, b)) -> s -> t a -> (s, t b)
List.mapAccumR SimState s a
-> (ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)
-> (SimState s a, (Thread s a, TMVar (IOSim s) ThreadId))
fn SimState s a
simState [(ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)]
timeoutExpired
where
fn :: SimState s a
-> (ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)
-> (SimState s a, (Thread s a, TMVar (IOSim s) ThreadId))
fn :: SimState s a
-> (ThreadId, TimeoutId, TMVar (IOSim s) ThreadId)
-> (SimState s a, (Thread s a, TMVar (IOSim s) ThreadId))
fn state :: SimState s a
state@SimState { Map ThreadId (Thread s a)
threads :: Map ThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map ThreadId (Thread s a)
threads } (ThreadId
tid, TimeoutId
tmid, TMVar (IOSim s) ThreadId
lock) =
let t :: Thread s a
t = case ThreadId
tid forall k a. Ord k => k -> Map k a -> Maybe a
`Map.lookup` Map ThreadId (Thread s a)
threads of
Just Thread s a
t' -> Thread s a
t'
Maybe (Thread s a)
Nothing -> forall a. (?callStack::CallStack) => ThreadLabel -> a
error (ThreadLabel
"IOSim: internal error: unknown thread " forall a. [a] -> [a] -> [a]
++ forall a. Show a => a -> ThreadLabel
show ThreadId
tid)
nextId :: Int
nextId = forall s a. Thread s a -> Int
threadNextTId Thread s a
t
in ( SimState s a
state { threads :: Map ThreadId (Thread s a)
threads = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert ThreadId
tid Thread s a
t { threadNextTId :: Int
threadNextTId = forall a. Enum a => a -> a
succ Int
nextId } Map ThreadId (Thread s a)
threads }
, ( Thread { threadId :: ThreadId
threadId = ThreadId -> Int -> ThreadId
childThreadId ThreadId
tid Int
nextId,
threadControl :: ThreadControl s a
threadControl =
forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl
(forall s a. IOSim s a -> SimA s a
runIOSim forall a b. (a -> b) -> a -> b
$ do
ThreadId
mtid <- forall (m :: * -> *). MonadThread m => m (ThreadId m)
myThreadId
Bool
v2 <- forall (m :: * -> *) a.
(MonadSTM m, ?callStack::CallStack) =>
STM m a -> m a
atomically forall a b. (a -> b) -> a -> b
$ forall (m :: * -> *) a. MonadSTM m => TMVar m a -> a -> STM m Bool
tryPutTMVar TMVar (IOSim s) ThreadId
lock ThreadId
mtid
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when Bool
v2 forall a b. (a -> b) -> a -> b
$
forall (m :: * -> *) e.
(MonadFork m, Exception e) =>
ThreadId m -> e -> m ()
throwTo ThreadId
tid (forall e. Exception e => e -> SomeException
toException (TimeoutId -> TimeoutException
TimeoutException TimeoutId
tmid)))
forall s a. ControlStack s () a
ForkFrame,
threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning,
threadMasking :: MaskingState
threadMasking = MaskingState
Unmasked,
threadThrowTo :: [(SomeException, Labelled ThreadId)]
threadThrowTo = [],
threadClockId :: ClockId
threadClockId = forall s a. Thread s a -> ClockId
threadClockId Thread s a
t,
threadLabel :: Maybe ThreadLabel
threadLabel = forall a. a -> Maybe a
Just ThreadLabel
"timeout-forked-thread",
threadNextTId :: Int
threadNextTId = Int
1
}
, TMVar (IOSim s) ThreadId
lock
)
)
unwindControlStack :: forall s a.
SomeException
-> Thread s a
-> Timeouts s
-> ( Either Bool (Thread s a)
, Timeouts s
)
unwindControlStack :: forall s a.
SomeException
-> Thread s a
-> Timeouts s
-> (Either Bool (Thread s a), Timeouts s)
unwindControlStack SomeException
e Thread s a
thread = \Timeouts s
timers ->
case forall s a. Thread s a -> ThreadControl s a
threadControl Thread s a
thread of
ThreadControl SimA s b
_ ControlStack s b a
ctl ->
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind (forall s a. Thread s a -> MaskingState
threadMasking Thread s a
thread) ControlStack s b a
ctl Timeouts s
timers
where
unwind :: forall s' c. MaskingState
-> ControlStack s' c a
-> OrdPSQ TimeoutId Time (TimerCompletionInfo s)
-> (Either Bool (Thread s' a), OrdPSQ TimeoutId Time (TimerCompletionInfo s))
unwind :: forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
_ ControlStack s' c a
MainFrame Timeouts s
timers = (forall a b. a -> Either a b
Left Bool
True, Timeouts s
timers)
unwind MaskingState
_ ControlStack s' c a
ForkFrame Timeouts s
timers = (forall a b. a -> Either a b
Left Bool
False, Timeouts s
timers)
unwind MaskingState
_ (MaskFrame c -> SimA s' c
_k MaskingState
maskst' ControlStack s' c a
ctl) Timeouts s
timers = forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst' ControlStack s' c a
ctl Timeouts s
timers
unwind MaskingState
maskst (CatchFrame e -> SimA s' c
handler c -> SimA s' c
k ControlStack s' c a
ctl) Timeouts s
timers =
case forall e. Exception e => SomeException -> Maybe e
fromException SomeException
e of
Maybe e
Nothing -> forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst ControlStack s' c a
ctl Timeouts s
timers
Just e
e' -> ( forall a b. b -> Either a b
Right Thread s a
thread {
threadControl :: ThreadControl s' a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (e -> SimA s' c
handler e
e')
(forall b s a a.
(b -> SimA s a)
-> MaskingState -> ControlStack s a a -> ControlStack s b a
MaskFrame c -> SimA s' c
k MaskingState
maskst ControlStack s' c a
ctl),
threadMasking :: MaskingState
threadMasking = MaskingState -> MaskingState
atLeastInterruptibleMask MaskingState
maskst
}
, Timeouts s
timers
)
unwind MaskingState
maskst (TimeoutFrame TimeoutId
tmid TMVar (IOSim s') ThreadId
_ Maybe c -> SimA s' c
k ControlStack s' c a
ctl) Timeouts s
timers =
case forall e. Exception e => SomeException -> Maybe e
fromException SomeException
e of
Just (TimeoutException TimeoutId
tmid') | TimeoutId
tmid forall a. Eq a => a -> a -> Bool
== TimeoutId
tmid' ->
(forall a b. b -> Either a b
Right Thread s a
thread { threadControl :: ThreadControl s' a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (Maybe c -> SimA s' c
k forall a. Maybe a
Nothing) ControlStack s' c a
ctl }, Timeouts s
timers')
Maybe TimeoutException
_ -> forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst ControlStack s' c a
ctl Timeouts s
timers'
where
timers' :: Timeouts s
timers' = forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
unwind MaskingState
maskst (DelayFrame TimeoutId
tmid SimA s' c
_k ControlStack s' c a
ctl) Timeouts s
timers =
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst ControlStack s' c a
ctl Timeouts s
timers'
where
timers' :: Timeouts s
timers' = forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
atLeastInterruptibleMask :: MaskingState -> MaskingState
atLeastInterruptibleMask :: MaskingState -> MaskingState
atLeastInterruptibleMask MaskingState
Unmasked = MaskingState
MaskedInterruptible
atLeastInterruptibleMask MaskingState
ms = MaskingState
ms
removeMinimums :: (Ord k, Ord p)
=> OrdPSQ k p a
-> Maybe ([k], p, [a], OrdPSQ k p a)
removeMinimums :: forall k p a.
(Ord k, Ord p) =>
OrdPSQ k p a -> Maybe ([k], p, [a], OrdPSQ k p a)
removeMinimums = \OrdPSQ k p a
psq ->
case forall k p v.
(Ord k, Ord p) =>
OrdPSQ k p v -> Maybe (k, p, v, OrdPSQ k p v)
PSQ.minView OrdPSQ k p a
psq of
Maybe (k, p, a, OrdPSQ k p a)
Nothing -> forall a. Maybe a
Nothing
Just (k
k, p
p, a
x, OrdPSQ k p a
psq') -> forall a. a -> Maybe a
Just (forall {a} {b} {a}.
(Ord a, Ord b) =>
[a] -> b -> [a] -> OrdPSQ a b a -> ([a], b, [a], OrdPSQ a b a)
collectAll [k
k] p
p [a
x] OrdPSQ k p a
psq')
where
collectAll :: [a] -> b -> [a] -> OrdPSQ a b a -> ([a], b, [a], OrdPSQ a b a)
collectAll ![a]
ks !b
p ![a]
xs !OrdPSQ a b a
psq =
case forall k p v.
(Ord k, Ord p) =>
OrdPSQ k p v -> Maybe (k, p, v, OrdPSQ k p v)
PSQ.minView OrdPSQ a b a
psq of
Just (a
k, b
p', a
x, OrdPSQ a b a
psq')
| b
p forall a. Eq a => a -> a -> Bool
== b
p' -> [a] -> b -> [a] -> OrdPSQ a b a -> ([a], b, [a], OrdPSQ a b a)
collectAll (a
kforall a. a -> [a] -> [a]
:[a]
ks) b
p (a
xforall a. a -> [a] -> [a]
:[a]
xs) OrdPSQ a b a
psq'
Maybe (a, b, a, OrdPSQ a b a)
_ -> (forall a. [a] -> [a]
reverse [a]
ks, b
p, forall a. [a] -> [a]
reverse [a]
xs, OrdPSQ a b a
psq)
traceMany :: [(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany :: forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [] SimTrace a
trace = SimTrace a
trace
traceMany ((Time
time, ThreadId
tid, Maybe ThreadLabel
tlbl, SimEventType
event):[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
ts) SimTrace a
trace =
forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl SimEventType
event (forall a.
[(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [(Time, ThreadId, Maybe ThreadLabel, SimEventType)]
ts SimTrace a
trace)
lookupThreadLabel :: ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel :: forall s a.
ThreadId -> Map ThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel ThreadId
tid Map ThreadId (Thread s a)
threads = forall (m :: * -> *) a. Monad m => m (m a) -> m a
join (forall s a. Thread s a -> Maybe ThreadLabel
threadLabel forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup ThreadId
tid Map ThreadId (Thread s a)
threads)
runSimTraceST :: forall s a. IOSim s a -> ST s (SimTrace a)
runSimTraceST :: forall s a. IOSim s a -> ST s (SimTrace a)
runSimTraceST IOSim s a
mainAction = forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
mainThread forall s a. SimState s a
initialState
where
mainThread :: Thread s a
mainThread =
Thread {
threadId :: ThreadId
threadId = [Int] -> ThreadId
ThreadId [],
threadControl :: ThreadControl s a
threadControl = forall s a a. SimA s a -> ControlStack s a a -> ThreadControl s a
ThreadControl (forall s a. IOSim s a -> SimA s a
runIOSim IOSim s a
mainAction) forall s a. ControlStack s a a
MainFrame,
threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning,
threadMasking :: MaskingState
threadMasking = MaskingState
Unmasked,
threadThrowTo :: [(SomeException, Labelled ThreadId)]
threadThrowTo = [],
threadClockId :: ClockId
threadClockId = [Int] -> ClockId
ClockId [],
threadLabel :: Maybe ThreadLabel
threadLabel = forall a. a -> Maybe a
Just ThreadLabel
"main",
threadNextTId :: Int
threadNextTId = Int
1
}
execAtomically :: forall s a c.
Time
-> ThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a
-> (StmTxResult s a -> ST s (SimTrace c))
-> ST s (SimTrace c)
execAtomically :: forall s a c.
Time
-> ThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a
-> (StmTxResult s a -> ST s (SimTrace c))
-> ST s (SimTrace c)
execAtomically !Time
time !ThreadId
tid !Maybe ThreadLabel
tlbl !TVarId
nextVid0 StmA s a
action0 StmTxResult s a -> ST s (SimTrace c)
k0 =
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go forall s a. StmStack s a a
AtomicallyFrame forall k a. Map k a
Map.empty forall k a. Map k a
Map.empty [] [] TVarId
nextVid0 StmA s a
action0
where
go :: forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go :: forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go !StmStack s b a
ctl !Map TVarId (SomeTVar s)
read !Map TVarId (SomeTVar s)
written ![SomeTVar s]
writtenSeq ![SomeTVar s]
createdSeq !TVarId
nextVid StmA s b
action = forall a. (?callStack::CallStack) => Bool -> a -> a
assert Bool
localInvariant forall a b. (a -> b) -> a -> b
$
case StmA s b
action of
ReturnStm b
x ->
{-# SCC "execAtomically.go.ReturnStm" #-}
case StmStack s b a
ctl of
StmStack s b a
AtomicallyFrame -> do
![TraceValue]
ds <- forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
traverse (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar s a
tvar Bool
True) [SomeTVar s]
createdSeq
![TraceValue]
ds' <- forall k a. Map k a -> [a]
Map.elems forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
traverse
(\(SomeTVar TVar s a
tvar) -> do
TraceValue
tr <- forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar s a
tvar Bool
False
!()
_ <- forall s a. TVar s a -> ST s ()
commitTVar TVar s a
tvar
[a]
undos <- forall s a. TVar s a -> ST s [a]
readTVarUndos TVar s a
tvar
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (forall (t :: * -> *) a. Foldable t => t a -> Bool
null [a]
undos) forall a b. (a -> b) -> a -> b
$ forall (m :: * -> *) a. Monad m => a -> m a
return TraceValue
tr
) Map TVarId (SomeTVar s)
written
StmTxResult s a -> ST s (SimTrace c)
k0 forall a b. (a -> b) -> a -> b
$ forall s a.
a
-> [SomeTVar s]
-> [SomeTVar s]
-> [SomeTVar s]
-> [Dynamic]
-> [ThreadLabel]
-> TVarId
-> StmTxResult s a
StmTxCommitted b
x (forall a. [a] -> [a]
reverse [SomeTVar s]
writtenSeq)
[]
(forall a. [a] -> [a]
reverse [SomeTVar s]
createdSeq)
(forall a b. (a -> Maybe b) -> [a] -> [b]
mapMaybe (\TraceValue { Maybe tr
traceDynamic :: ()
traceDynamic :: Maybe tr
traceDynamic }
-> forall a. Typeable a => a -> Dynamic
toDyn forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Maybe tr
traceDynamic)
forall a b. (a -> b) -> a -> b
$ [TraceValue]
ds forall a. [a] -> [a] -> [a]
++ [TraceValue]
ds')
(forall a b. (a -> Maybe b) -> [a] -> [b]
mapMaybe TraceValue -> Maybe ThreadLabel
traceString forall a b. (a -> b) -> a -> b
$ [TraceValue]
ds forall a. [a] -> [a] -> [a]
++ [TraceValue]
ds')
TVarId
nextVid
BranchFrame BranchStmA s b
_b b -> StmA s b
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl' -> do
!()
_ <- forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s ()
commitTVar TVar s a
tvar)
(forall k a b. Ord k => Map k a -> Map k b -> Map k a
Map.intersection Map TVarId (SomeTVar s)
written Map TVarId (SomeTVar s)
writtenOuter)
let written' :: Map TVarId (SomeTVar s)
written' = forall k a. Ord k => Map k a -> Map k a -> Map k a
Map.union Map TVarId (SomeTVar s)
written Map TVarId (SomeTVar s)
writtenOuter
writtenSeq' :: [SomeTVar s]
writtenSeq' = forall a. (a -> Bool) -> [a] -> [a]
filter (\(SomeTVar TVar s a
tvar) ->
forall s a. TVar s a -> TVarId
tvarId TVar s a
tvar forall k a. Ord k => k -> Map k a -> Bool
`Map.notMember` Map TVarId (SomeTVar s)
writtenOuter)
[SomeTVar s]
writtenSeq
forall a. [a] -> [a] -> [a]
++ [SomeTVar s]
writtenOuterSeq
createdSeq' :: [SomeTVar s]
createdSeq' = [SomeTVar s]
createdSeq forall a. [a] -> [a] -> [a]
++ [SomeTVar s]
createdOuterSeq
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written' [SomeTVar s]
writtenSeq' [SomeTVar s]
createdSeq' TVarId
nextVid (b -> StmA s b
k b
x)
ThrowStm SomeException
e ->
{-# SCC "execAtomically.go.ThrowStm" #-} do
!()
_ <- forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s ()
revertTVar TVar s a
tvar) Map TVarId (SomeTVar s)
written
case StmStack s b a
ctl of
StmStack s b a
AtomicallyFrame -> do
StmTxResult s a -> ST s (SimTrace c)
k0 forall a b. (a -> b) -> a -> b
$ forall s a. [SomeTVar s] -> SomeException -> StmTxResult s a
StmTxAborted (forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
read) (forall e. Exception e => e -> SomeException
toException SomeException
e)
BranchFrame (CatchStmA SomeException -> StmA s b
h) b -> StmA s b
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl' ->
{-# SCC "execAtomically.go.BranchFrame" #-} do
let ctl'' :: StmStack s b a
ctl'' = forall s a a c.
BranchStmA s a
-> (a -> StmA s a)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s a c
-> StmStack s a c
BranchFrame forall s a. BranchStmA s a
NoOpStmA b -> StmA s b
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl'
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl'' Map TVarId (SomeTVar s)
read forall k a. Map k a
Map.empty [] [] TVarId
nextVid (SomeException -> StmA s b
h SomeException
e)
BranchFrame (OrElseStmA StmA s b
_r) b -> StmA s b
_k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl' ->
{-# SCC "execAtomically.go.BranchFrame" #-} do
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq TVarId
nextVid (forall s a. SomeException -> StmA s a
ThrowStm SomeException
e)
BranchFrame BranchStmA s b
NoOpStmA b -> StmA s b
_k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl' ->
{-# SCC "execAtomically.go.BranchFrame" #-} do
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq TVarId
nextVid (forall s a. SomeException -> StmA s a
ThrowStm SomeException
e)
CatchStm StmA s a
a SomeException -> StmA s a
h a -> StmA s b
k ->
{-# SCC "execAtomically.go.ThrowStm" #-} do
let ctl' :: StmStack s a a
ctl' = forall s a a c.
BranchStmA s a
-> (a -> StmA s a)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s a c
-> StmStack s a c
BranchFrame (forall s a. (SomeException -> StmA s a) -> BranchStmA s a
CatchStmA SomeException -> StmA s a
h) a -> StmA s b
k Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq StmStack s b a
ctl
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s a a
ctl' Map TVarId (SomeTVar s)
read forall k a. Map k a
Map.empty [] [] TVarId
nextVid StmA s a
a
StmA s b
Retry ->
{-# SCC "execAtomically.go.Retry" #-} do
!()
_ <- forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s ()
revertTVar TVar s a
tvar) Map TVarId (SomeTVar s)
written
case StmStack s b a
ctl of
StmStack s b a
AtomicallyFrame -> do
StmTxResult s a -> ST s (SimTrace c)
k0 forall a b. (a -> b) -> a -> b
$! forall s a. [SomeTVar s] -> StmTxResult s a
StmTxBlocked forall a b. (a -> b) -> a -> b
$! forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
read
BranchFrame (OrElseStmA StmA s b
b) b -> StmA s b
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl' ->
{-# SCC "execAtomically.go.BranchFrame.OrElseStmA" #-} do
let ctl'' :: StmStack s b a
ctl'' = forall s a a c.
BranchStmA s a
-> (a -> StmA s a)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s a c
-> StmStack s a c
BranchFrame forall s a. BranchStmA s a
NoOpStmA b -> StmA s b
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl'
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl'' Map TVarId (SomeTVar s)
read forall k a. Map k a
Map.empty [] [] TVarId
nextVid StmA s b
b
BranchFrame BranchStmA s b
_ b -> StmA s b
_k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b a
ctl' ->
{-# SCC "execAtomically.go.BranchFrame" #-} do
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq TVarId
nextVid forall s b. StmA s b
Retry
OrElse StmA s a
a StmA s a
b a -> StmA s b
k ->
{-# SCC "execAtomically.go.OrElse" #-} do
let ctl' :: StmStack s a a
ctl' = forall s a a c.
BranchStmA s a
-> (a -> StmA s a)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s a c
-> StmStack s a c
BranchFrame (forall s a. StmA s a -> BranchStmA s a
OrElseStmA StmA s a
b) a -> StmA s b
k Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq StmStack s b a
ctl
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s a a
ctl' Map TVarId (SomeTVar s)
read forall k a. Map k a
Map.empty [] [] TVarId
nextVid StmA s a
a
NewTVar !Maybe ThreadLabel
mbLabel x
x TVar s x -> StmA s b
k ->
{-# SCC "execAtomically.go.NewTVar" #-} do
!TVar s x
v <- forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid Maybe ThreadLabel
mbLabel x
x
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq (forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s x
v forall a. a -> [a] -> [a]
: [SomeTVar s]
createdSeq) (forall a. Enum a => a -> a
succ TVarId
nextVid) (TVar s x -> StmA s b
k TVar s x
v)
LabelTVar !ThreadLabel
label TVar s a
tvar StmA s b
k ->
{-# SCC "execAtomically.go.LabelTVar" #-} do
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef (forall s a. TVar s a -> STRef s (Maybe ThreadLabel)
tvarLabel TVar s a
tvar) forall a b. (a -> b) -> a -> b
$! (forall a. a -> Maybe a
Just ThreadLabel
label)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
TraceTVar TVar s a
tvar Maybe a -> a -> ST s TraceValue
f StmA s b
k ->
{-# SCC "execAtomically.go.TraceTVar" #-} do
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef (forall s a.
TVar s a -> STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace TVar s a
tvar) (forall a. a -> Maybe a
Just Maybe a -> a -> ST s TraceValue
f)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
ReadTVar TVar s a
v a -> StmA s b
k
| forall s a. TVar s a -> TVarId
tvarId TVar s a
v forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map TVarId (SomeTVar s)
read ->
{-# SCC "execAtomically.go.ReadTVar" #-} do
a
x <- forall s a. TVar s a -> ST s a
execReadTVar TVar s a
v
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid (a -> StmA s b
k a
x)
| Bool
otherwise ->
{-# SCC "execAtomically.go.ReadTVar" #-} do
a
x <- forall s a. TVar s a -> ST s a
execReadTVar TVar s a
v
let read' :: Map TVarId (SomeTVar s)
read' = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (forall s a. TVar s a -> TVarId
tvarId TVar s a
v) (forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a
v) Map TVarId (SomeTVar s)
read
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read' Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid (a -> StmA s b
k a
x)
WriteTVar TVar s a
v a
x StmA s b
k
| forall s a. TVar s a -> TVarId
tvarId TVar s a
v forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map TVarId (SomeTVar s)
written ->
{-# SCC "execAtomically.go.WriteTVar" #-} do
!()
_ <- forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a
v a
x
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
| Bool
otherwise ->
{-# SCC "execAtomically.go.WriteTVar" #-} do
!()
_ <- forall s a. TVar s a -> ST s ()
saveTVar TVar s a
v
!()
_ <- forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a
v a
x
let written' :: Map TVarId (SomeTVar s)
written' = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (forall s a. TVar s a -> TVarId
tvarId TVar s a
v) (forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a
v) Map TVarId (SomeTVar s)
written
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written' (forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a
v forall a. a -> [a] -> [a]
: [SomeTVar s]
writtenSeq) [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
SayStm ThreadLabel
msg StmA s b
k ->
{-# SCC "execAtomically.go.SayStm" #-} do
SimTrace c
trace <- forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (ThreadLabel -> SimEventType
EventSay ThreadLabel
msg) SimTrace c
trace
OutputStm Dynamic
x StmA s b
k ->
{-# SCC "execAtomically.go.OutputStm" #-} do
SimTrace c
trace <- forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ forall a.
Time
-> ThreadId
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimTrace Time
time ThreadId
tid Maybe ThreadLabel
tlbl (Dynamic -> SimEventType
EventLog Dynamic
x) SimTrace c
trace
LiftSTStm ST s a
st a -> StmA s b
k ->
{-# SCC "schedule.LiftSTStm" #-} do
a
x <- forall s a. ST s a -> ST s a
strictToLazyST ST s a
st
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid (a -> StmA s b
k a
x)
FixStm x -> STM s x
f x -> StmA s b
k ->
{-# SCC "execAtomically.go.FixStm" #-} do
STRef s x
r <- forall a s. a -> ST s (STRef s a)
newSTRef (forall a e. Exception e => e -> a
throw NonTermination
NonTermination)
x
x <- forall s a. ST s a -> ST s a
unsafeInterleaveST forall a b. (a -> b) -> a -> b
$ forall s a. STRef s a -> ST s a
readSTRef STRef s x
r
let k' :: StmA s b
k' = forall s a. STM s a -> forall r. (a -> StmA s r) -> StmA s r
unSTM (x -> STM s x
f x
x) forall a b. (a -> b) -> a -> b
$ \x
x' ->
forall s a b. ST s a -> (a -> StmA s b) -> StmA s b
LiftSTStm (forall s a. ST s a -> ST s a
lazyToStrictST (forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s x
r x
x')) (\() -> x -> StmA s b
k x
x')
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k'
where
localInvariant :: Bool
localInvariant =
forall k a. Map k a -> Set k
Map.keysSet Map TVarId (SomeTVar s)
written
forall a. Eq a => a -> a -> Bool
== forall a. Ord a => [a] -> Set a
Set.fromList [ forall s a. TVar s a -> TVarId
tvarId TVar s a
tvar | SomeTVar TVar s a
tvar <- [SomeTVar s]
writtenSeq ]
execAtomically' :: StmA s () -> ST s [SomeTVar s]
execAtomically' :: forall s. StmA s () -> ST s [SomeTVar s]
execAtomically' = forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go forall k a. Map k a
Map.empty
where
go :: Map TVarId (SomeTVar s)
-> StmA s ()
-> ST s [SomeTVar s]
go :: forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go !Map TVarId (SomeTVar s)
written StmA s ()
action = case StmA s ()
action of
ReturnStm () -> do
!()
_ <- forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> forall s a. TVar s a -> ST s ()
commitTVar TVar s a
tvar) Map TVarId (SomeTVar s)
written
forall (m :: * -> *) a. Monad m => a -> m a
return (forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
written)
ReadTVar TVar s a
v a -> StmA s ()
k -> do
a
x <- forall s a. TVar s a -> ST s a
execReadTVar TVar s a
v
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
written (a -> StmA s ()
k a
x)
WriteTVar TVar s a
v a
x StmA s ()
k
| forall s a. TVar s a -> TVarId
tvarId TVar s a
v forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map TVarId (SomeTVar s)
written -> do
!()
_ <- forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a
v a
x
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
written StmA s ()
k
| Bool
otherwise -> do
!()
_ <- forall s a. TVar s a -> ST s ()
saveTVar TVar s a
v
!()
_ <- forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a
v a
x
let written' :: Map TVarId (SomeTVar s)
written' = forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (forall s a. TVar s a -> TVarId
tvarId TVar s a
v) (forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a
v) Map TVarId (SomeTVar s)
written
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
written' StmA s ()
k
StmA s ()
_ -> forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"execAtomically': only for special case of reads and writes"
execNewTVar :: TVarId -> Maybe String -> a -> ST s (TVar s a)
execNewTVar :: forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid !Maybe ThreadLabel
mbLabel a
x = do
!STRef s (Maybe ThreadLabel)
tvarLabel <- forall a s. a -> ST s (STRef s a)
newSTRef Maybe ThreadLabel
mbLabel
!STRef s a
tvarCurrent <- forall a s. a -> ST s (STRef s a)
newSTRef a
x
!STRef s [a]
tvarUndo <- forall a s. a -> ST s (STRef s a)
newSTRef forall a b. (a -> b) -> a -> b
$! []
!STRef s ([ThreadId], Set ThreadId)
tvarBlocked <- forall a s. a -> ST s (STRef s a)
newSTRef ([], forall a. Set a
Set.empty)
!STRef s VectorClock
tvarVClock <- forall a s. a -> ST s (STRef s a)
newSTRef forall a b. (a -> b) -> a -> b
$! Map ThreadId Int -> VectorClock
VectorClock forall k a. Map k a
Map.empty
!STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace <- forall a s. a -> ST s (STRef s a)
newSTRef forall a b. (a -> b) -> a -> b
$! forall a. Maybe a
Nothing
forall (m :: * -> *) a. Monad m => a -> m a
return TVar {tvarId :: TVarId
tvarId = TVarId
nextVid, STRef s (Maybe ThreadLabel)
tvarLabel :: STRef s (Maybe ThreadLabel)
tvarLabel :: STRef s (Maybe ThreadLabel)
tvarLabel,
STRef s a
tvarCurrent :: STRef s a
tvarCurrent :: STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo, STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: STRef s ([ThreadId], Set ThreadId)
tvarBlocked, STRef s VectorClock
tvarVClock :: STRef s VectorClock
tvarVClock :: STRef s VectorClock
tvarVClock,
STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace}
execWriteTVar :: TVar s a -> a -> ST s ()
execWriteTVar :: forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar{STRef s a
tvarCurrent :: STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent} = forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s a
tvarCurrent
{-# INLINE execWriteTVar #-}
execTryPutTMVar :: TMVar (IOSim s) a -> a -> ST s Bool
execTryPutTMVar :: forall s a. TMVar (IOSim s) a -> a -> ST s Bool
execTryPutTMVar (TMVar TVar (IOSim s) (Maybe a)
var) a
a = do
Maybe a
v <- forall s a. TVar s a -> ST s a
execReadTVar TVar (IOSim s) (Maybe a)
var
case Maybe a
v of
Maybe a
Nothing -> forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar (IOSim s) (Maybe a)
var (forall a. a -> Maybe a
Just a
a)
forall (m :: * -> *) a b. Monad m => m a -> m b -> m b
>> forall (m :: * -> *) a. Monad m => a -> m a
return Bool
True
Just a
_ -> forall (m :: * -> *) a. Monad m => a -> m a
return Bool
False
{-# INLINE execTryPutTMVar #-}
saveTVar :: TVar s a -> ST s ()
saveTVar :: forall s a. TVar s a -> ST s ()
saveTVar TVar{STRef s a
tvarCurrent :: STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo} = do
a
v <- forall s a. STRef s a -> ST s a
readSTRef STRef s a
tvarCurrent
[a]
vs <- forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s [a]
tvarUndo (a
vforall a. a -> [a] -> [a]
:[a]
vs)
forall (m :: * -> *) a. Monad m => a -> m a
return ()
revertTVar :: TVar s a -> ST s ()
revertTVar :: forall s a. TVar s a -> ST s ()
revertTVar TVar{STRef s a
tvarCurrent :: STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo} = do
[a]
vs <- forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s a
tvarCurrent (forall a. [a] -> a
head [a]
vs)
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s [a]
tvarUndo (forall a. [a] -> [a]
tail [a]
vs)
forall (m :: * -> *) a. Monad m => a -> m a
return ()
{-# INLINE revertTVar #-}
commitTVar :: TVar s a -> ST s ()
commitTVar :: forall s a. TVar s a -> ST s ()
commitTVar TVar{STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo} = do
[a]
vs <- forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s [a]
tvarUndo (forall a. [a] -> [a]
tail [a]
vs)
forall (m :: * -> *) a. Monad m => a -> m a
return ()
{-# INLINE commitTVar #-}
readTVarUndos :: TVar s a -> ST s [a]
readTVarUndos :: forall s a. TVar s a -> ST s [a]
readTVarUndos TVar{STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo} = forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
traceTVarST :: TVar s a
-> Bool
-> ST s TraceValue
traceTVarST :: forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar{STRef s a
tvarCurrent :: STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo, STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: forall s a.
TVar s a -> STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace} Bool
new = do
Maybe (Maybe a -> a -> ST s TraceValue)
mf <- forall s a. STRef s a -> ST s a
readSTRef STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace
case Maybe (Maybe a -> a -> ST s TraceValue)
mf of
Maybe (Maybe a -> a -> ST s TraceValue)
Nothing -> forall (m :: * -> *) a. Monad m => a -> m a
return TraceValue { traceDynamic :: Maybe ()
traceDynamic = (forall a. Maybe a
Nothing :: Maybe ())
, traceString :: Maybe ThreadLabel
traceString = forall a. Maybe a
Nothing }
Just Maybe a -> a -> ST s TraceValue
f -> do
[a]
vs <- forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
a
v <- forall s a. STRef s a -> ST s a
readSTRef STRef s a
tvarCurrent
case (Bool
new, [a]
vs) of
(Bool
True, [a]
_) -> Maybe a -> a -> ST s TraceValue
f forall a. Maybe a
Nothing a
v
(Bool
_, a
_:[a]
_) -> Maybe a -> a -> ST s TraceValue
f (forall a. a -> Maybe a
Just forall a b. (a -> b) -> a -> b
$ forall a. [a] -> a
last [a]
vs) a
v
(Bool, [a])
_ -> forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"traceTVarST: unexpected tvar state"
readTVarBlockedThreads :: TVar s a -> ST s [ThreadId]
readTVarBlockedThreads :: forall s a. TVar s a -> ST s [ThreadId]
readTVarBlockedThreads TVar{STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: forall s a. TVar s a -> STRef s ([ThreadId], Set ThreadId)
tvarBlocked} = forall a b. (a, b) -> a
fst forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall s a. STRef s a -> ST s a
readSTRef STRef s ([ThreadId], Set ThreadId)
tvarBlocked
blockThreadOnTVar :: ThreadId -> TVar s a -> ST s ()
blockThreadOnTVar :: forall s a. ThreadId -> TVar s a -> ST s ()
blockThreadOnTVar ThreadId
tid TVar{STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: forall s a. TVar s a -> STRef s ([ThreadId], Set ThreadId)
tvarBlocked} = do
([ThreadId]
tids, Set ThreadId
tidsSet) <- forall s a. STRef s a -> ST s a
readSTRef STRef s ([ThreadId], Set ThreadId)
tvarBlocked
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (ThreadId
tid forall a. Ord a => a -> Set a -> Bool
`Set.notMember` Set ThreadId
tidsSet) forall a b. (a -> b) -> a -> b
$ do
let !tids' :: [ThreadId]
tids' = ThreadId
tid forall a. a -> [a] -> [a]
: [ThreadId]
tids
!tidsSet' :: Set ThreadId
tidsSet' = forall a. Ord a => a -> Set a -> Set a
Set.insert ThreadId
tid Set ThreadId
tidsSet
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s ([ThreadId], Set ThreadId)
tvarBlocked ([ThreadId]
tids', Set ThreadId
tidsSet')
forall (m :: * -> *) a. Monad m => a -> m a
return ()
unblockAllThreadsFromTVar :: TVar s a -> ST s ()
unblockAllThreadsFromTVar :: forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar{STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: STRef s ([ThreadId], Set ThreadId)
tvarBlocked :: forall s a. TVar s a -> STRef s ([ThreadId], Set ThreadId)
tvarBlocked} = do
!()
_ <- forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s ([ThreadId], Set ThreadId)
tvarBlocked ([], forall a. Set a
Set.empty)
forall (m :: * -> *) a. Monad m => a -> m a
return ()
threadsUnblockedByWrites :: [SomeTVar s]
-> ST s ([ThreadId], Map ThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites :: forall s.
[SomeTVar s]
-> ST s ([ThreadId], Map ThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written = do
![(Labelled TVarId, [ThreadId])]
tidss <- forall (t :: * -> *) (m :: * -> *) a.
(Traversable t, Monad m) =>
t (m a) -> m (t a)
sequence
[ (,) forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*> forall s a. TVar s a -> ST s [ThreadId]
readTVarBlockedThreads TVar s a
tvar
| SomeTVar TVar s a
tvar <- [SomeTVar s]
written ]
let !wakeup :: [ThreadId]
wakeup = forall a. Ord a => [a] -> [a]
ordNub [ ThreadId
tid | (Labelled TVarId
_vid, [ThreadId]
tids) <- [(Labelled TVarId, [ThreadId])]
tidss, ThreadId
tid <- forall a. [a] -> [a]
reverse [ThreadId]
tids ]
wokeby :: Map ThreadId (Set (Labelled TVarId))
wokeby = forall k a. Ord k => (a -> a -> a) -> [(k, a)] -> Map k a
Map.fromListWith forall a. Ord a => Set a -> Set a -> Set a
Set.union
[ (ThreadId
tid, forall a. a -> Set a
Set.singleton Labelled TVarId
vid)
| (Labelled TVarId
vid, [ThreadId]
tids) <- [(Labelled TVarId, [ThreadId])]
tidss
, ThreadId
tid <- [ThreadId]
tids ]
forall (m :: * -> *) a. Monad m => a -> m a
return ([ThreadId]
wakeup, Map ThreadId (Set (Labelled TVarId))
wokeby)
ordNub :: Ord a => [a] -> [a]
ordNub :: forall a. Ord a => [a] -> [a]
ordNub = forall {a}. Ord a => Set a -> [a] -> [a]
go forall a. Set a
Set.empty
where
go :: Set a -> [a] -> [a]
go !Set a
_ [] = []
go !Set a
s (a
x:[a]
xs)
| a
x forall a. Ord a => a -> Set a -> Bool
`Set.member` Set a
s = Set a -> [a] -> [a]
go Set a
s [a]
xs
| Bool
otherwise = a
x forall a. a -> [a] -> [a]
: Set a -> [a] -> [a]
go (forall a. Ord a => a -> Set a -> Set a
Set.insert a
x Set a
s) [a]
xs
{-# INLINE ordNub #-}