mirror of
https://github.com/barrucadu/dejafu.git
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32f6887a1b
Closes #74.
305 lines
9.0 KiB
Haskell
305 lines
9.0 KiB
Haskell
{-# LANGUAGE CPP #-}
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module Cases.SingleThreaded where
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import Control.Exception (ArithException(..), ArrayException(..))
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import Control.Monad (void)
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import Data.Maybe (isNothing)
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import Test.DejaFu (Failure(..), gives, gives')
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import Test.Framework (Test, testGroup)
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import Test.Framework.Providers.HUnit (hUnitTestToTests)
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import Test.HUnit (test)
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import Test.HUnit.DejaFu (testDejafu)
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import Control.Concurrent.Classy
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import Test.DejaFu.Conc (Conc, subconcurrency)
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import Utils
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#if __GLASGOW_HASKELL__ < 710
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import Control.Applicative ((<$>), (<*>))
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#endif
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tests :: [Test]
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tests =
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[ testGroup "MVar" . hUnitTestToTests $ test
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[ testDejafu emptyMVarTake "empty take" $ gives' [True]
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, testDejafu emptyMVarPut "empty put" $ gives' [()]
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, testDejafu emptyMVarRead "empty read" $ gives' [True]
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, testDejafu fullMVarPut "full put" $ gives' [True]
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, testDejafu fullMVarTake "full take" $ gives' [True]
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, testDejafu fullMVarRead "full read" $ gives' [True]
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]
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, testGroup "CRef" . hUnitTestToTests $ test
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[ testDejafu crefRead "read" $ gives' [True]
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, testDejafu crefWrite "write" $ gives' [True]
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, testDejafu crefModify "modify" $ gives' [True]
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, testDejafu crefTicketPeek "ticket peek" $ gives' [True]
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, testDejafu crefCas1 "cas" $ gives' [(True, True)]
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, testDejafu crefCas2 "cas (modified)" $ gives' [(False, False)]
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]
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, testGroup "STM" . hUnitTestToTests $ test
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[ testDejafu stmWrite "write" $ gives' [True]
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, testDejafu stmPreserve "write (across transactions)" $ gives' [True]
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, testDejafu stmRetry "retry" $ gives [Left STMDeadlock]
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, testDejafu stmOrElse "or else" $ gives' [True]
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, testDejafu stmCatch1 "single catch" $ gives' [True]
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, testDejafu stmCatch2 "nested catch" $ gives' [True]
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]
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, testGroup "Exceptions" . hUnitTestToTests $ test
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[ testDejafu excCatch "single catch" $ gives' [True]
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, testDejafu excNest "nested catch" $ gives' [True]
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, testDejafu excEscape "uncaught" $ gives [Left UncaughtException]
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, testDejafu excCatchAll "catch all" $ gives' [(True, True)]
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, testDejafu excSTM "from stm" $ gives' [True]
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, testDejafu excToMain1 "throw to main (uncaught)" $ gives [Left UncaughtException]
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, testDejafu excToMain2 "throw to main (caught)" $ gives' [()]
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]
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, testGroup "Capabilities" . hUnitTestToTests $ test
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[ testDejafu capsGet "get" $ gives' [True]
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, testDejafu capsSet "set" $ gives' [True]
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]
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, testGroup "Subconcurrency" . hUnitTestToTests $ test
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[ testDejafu scDeadlock1 "deadlock1" $ gives' [Left Deadlock]
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, testDejafu scDeadlock2 "deadlock2" $ gives' [(Left Deadlock, ())]
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, testDejafu scSuccess "success" $ gives' [Right ()]
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]
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]
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--------------------------------------------------------------------------------
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-- @MVar@s
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-- | An empty @MVar@ cannot be taken from.
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emptyMVarTake :: MonadConc m => m Bool
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emptyMVarTake = do
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var <- newEmptyMVar
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res <- tryTakeMVar var
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return $ (res :: Maybe ()) == Nothing
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-- | An empty @MVar@ can be put into.
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emptyMVarPut :: MonadConc m => m ()
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emptyMVarPut = do
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var <- newEmptyMVar
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putMVar var ()
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-- | An empty @MVar@ cannot be read from.
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emptyMVarRead :: MonadConc m => m Bool
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emptyMVarRead = do
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var <- newEmptyMVar
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isNothing <$> tryReadMVar var
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-- | A full @MVar@ cannot be put into.
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fullMVarPut :: MonadConc m => m Bool
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fullMVarPut = do
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var <- newMVar ()
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not <$> tryPutMVar var ()
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-- | A full @MVar@ can be taken from.
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fullMVarTake :: MonadConc m => m Bool
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fullMVarTake = do
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var <- newMVar ()
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(() ==) <$> takeMVar var
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-- | A full @MVar@ can be read from.
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fullMVarRead :: MonadConc m => m Bool
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fullMVarRead = do
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var <- newMVar ()
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(() ==) <$> readMVar var
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--------------------------------------------------------------------------------
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-- @CRef@s
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-- | A @CRef@ can be read from.
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crefRead :: MonadConc m => m Bool
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crefRead = do
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ref <- newCRef (5::Int)
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(5==) <$> readCRef ref
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-- | A @CRef@ can be written to.
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crefWrite :: MonadConc m => m Bool
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crefWrite = do
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ref <- newCRef (5::Int)
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writeCRef ref 6
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(6==) <$> readCRef ref
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-- | A @CRef@ can be modified.
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crefModify :: MonadConc m => m Bool
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crefModify = do
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ref <- newCRef (5::Int)
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atomicModifyCRef ref (\i -> (i+1, ()))
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(6==) <$> readCRef ref
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-- | A @Ticket@ contains the value as of when it was created.
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crefTicketPeek :: MonadConc m => m Bool
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crefTicketPeek = do
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ref <- newCRef (5::Int)
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tick <- readForCAS ref
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writeCRef ref 6
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(5==) <$> peekTicket tick
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-- | A compare-and-swap can be done on a @CRef@ which hasn't been
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-- modified.
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crefCas1 :: MonadConc m => m (Bool, Bool)
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crefCas1 = do
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ref <- newCRef (5::Int)
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tick <- readForCAS ref
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(suc, _) <- casCRef ref tick 6
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val <- readCRef ref
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return (suc, 6 == val)
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-- | A compare-and-swap cannot be done on a @CRef@ which has been
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-- modified.
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crefCas2 :: MonadConc m => m (Bool, Bool)
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crefCas2 = do
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ref <- newCRef (5::Int)
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tick <- readForCAS ref
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writeCRef ref 6
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(suc, _) <- casCRef ref tick 7
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val <- readCRef ref
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return (suc, 7 == val)
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--------------------------------------------------------------------------------
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-- STM
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-- | A @TVar@ can be written to.
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stmWrite :: MonadConc m => m Bool
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stmWrite =
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(6==) <$> atomically (do { v <- newTVar (5::Int); writeTVar v 6; readTVar v })
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-- | A @TVar@ preserves its value between transactions.
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stmPreserve :: MonadConc m => m Bool
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stmPreserve = do
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ctv <- atomically $ newTVar (5::Int)
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(5==) <$> atomically (readTVar ctv)
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-- | A transaction can be aborted, which blocks the thread.
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stmRetry :: MonadConc m => m ()
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stmRetry = atomically retry
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-- | An abort can be caught by an @orElse@.
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stmOrElse :: MonadConc m => m Bool
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stmOrElse = do
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ctv <- atomically $ newTVar (5::Int)
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atomically $ orElse retry (writeTVar ctv 6)
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(6==) <$> atomically (readTVar ctv)
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-- | An exception can be caught by an appropriate handler.
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stmCatch1 :: MonadConc m => m Bool
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stmCatch1 = do
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ctv <- atomically $ newTVar (5::Int)
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atomically $ catchArithException
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(throwSTM Overflow)
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(\_ -> writeTVar ctv 6)
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(6==) <$> atomically (readTVar ctv)
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-- | Nested exception handlers can catch different types of exception.
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stmCatch2 :: MonadConc m => m Bool
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stmCatch2 = do
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ctv <- atomically $ newTVar (5::Int)
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atomically $ catchArithException
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(catchArrayException
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(throwSTM Overflow)
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(\_ -> writeTVar ctv 0))
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(\_ -> writeTVar ctv 6)
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(6==) <$> atomically (readTVar ctv)
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--------------------------------------------------------------------------------
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-- Exceptions
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-- | An exception can be caught by an appropriate handler.
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excCatch :: MonadConc m => m Bool
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excCatch = catchArithException
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(throw Overflow)
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(\_ -> return True)
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-- | Nested exception handlers can catch different types of exception.
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excNest :: MonadConc m => m Bool
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excNest = catchArithException
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(catchArrayException
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(throw Overflow)
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(\_ -> return False))
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(\_ -> return True)
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-- | Exceptions of the wrong type kill the computation
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excEscape :: MonadConc m => m ()
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excEscape = catchArithException
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(throw $ IndexOutOfBounds "")
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(\_ -> return undefined)
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-- | @SomeException@ matches all exception types.
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excCatchAll :: MonadConc m => m (Bool, Bool)
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excCatchAll = do
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a <- catchSomeException
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(throw Overflow)
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(\_ -> return True)
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b <- catchSomeException
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(throw $ IndexOutOfBounds "")
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(\_ -> return True)
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return (a, b)
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-- | Exceptions thrown from STM can be caught.
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excSTM :: MonadConc m => m Bool
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excSTM = catchArithException
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(atomically $ throwSTM Overflow)
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(\_ -> return True)
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-- | Throw an exception to the main thread with 'throwTo', without a
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-- handler.
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excToMain1 :: MonadConc m => m ()
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excToMain1 = do
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tid <- myThreadId
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throwTo tid Overflow
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-- | Throw an exception to the main thread with 'throwTo', with a
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-- handler.
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excToMain2 :: MonadConc m => m ()
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excToMain2 = do
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tid <- myThreadId
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catchArithException (throwTo tid Overflow) (\_ -> pure ())
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--------------------------------------------------------------------------------
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-- Capabilities
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-- | Check that the capabilities are consistent when retrieved.
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capsGet :: MonadConc m => m Bool
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capsGet = (==) <$> getNumCapabilities <*> getNumCapabilities
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-- | Check that the capabilities can be set.
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capsSet :: MonadConc m => m Bool
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capsSet = do
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caps <- getNumCapabilities
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setNumCapabilities $ caps + 1
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(== caps + 1) <$> getNumCapabilities
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--------------------------------------------------------------------------------
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-- Subconcurrency
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-- | Subcomputation deadlocks.
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scDeadlock1 :: Monad n => Conc n r (Either Failure ())
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scDeadlock1 = subconcurrency (newEmptyMVar >>= readMVar)
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-- | Subcomputation deadlocks, and action after it still happens.
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scDeadlock2 :: Monad n => Conc n r (Either Failure (), ())
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scDeadlock2 = do
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var <- newMVar ()
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(,) <$> subconcurrency (putMVar var ()) <*> readMVar var
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-- | Subcomputation successfully completes.
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scSuccess :: Monad n => Conc n r (Either Failure ())
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scSuccess = do
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var <- newMVar ()
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subconcurrency (takeMVar var)
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