{-# LANGUAGE CPP, MagicHash, UnboxedTuples, RankNTypes, ExistentialQuantification #-} #if __GLASGOW_HASKELL__ >= 701 {-# LANGUAGE Trustworthy #-} #endif #if __GLASGOW_HASKELL__ < 710 {-# LANGUAGE DeriveDataTypeable #-} #endif {-# OPTIONS -Wall #-} ----------------------------------------------------------------------------- -- | -- Module : Control.Concurrent.Async -- Copyright : (c) Simon Marlow 2012 -- License : BSD3 (see the file LICENSE) -- -- Maintainer : Simon Marlow -- Stability : provisional -- Portability : non-portable (requires concurrency) -- -- This module provides a set of operations for running IO operations -- asynchronously and waiting for their results. It is a thin layer -- over the basic concurrency operations provided by -- "Control.Concurrent". The main additional functionality it -- provides is the ability to wait for the return value of a thread, -- but the interface also provides some additional safety and -- robustness over using threads and @MVar@ directly. -- -- The basic type is @'Async' a@, which represents an asynchronous -- @IO@ action that will return a value of type @a@, or die with an -- exception. An @Async@ corresponds to a thread, and its 'ThreadId' -- can be obtained with 'asyncThreadId', although that should rarely -- be necessary. -- -- For example, to fetch two web pages at the same time, we could do -- this (assuming a suitable @getURL@ function): -- -- > do a1 <- async (getURL url1) -- > a2 <- async (getURL url2) -- > page1 <- wait a1 -- > page2 <- wait a2 -- > ... -- -- where 'async' starts the operation in a separate thread, and -- 'wait' waits for and returns the result. If the operation -- throws an exception, then that exception is re-thrown by -- 'wait'. This is one of the ways in which this library -- provides some additional safety: it is harder to accidentally -- forget about exceptions thrown in child threads. -- -- A slight improvement over the previous example is this: -- -- > withAsync (getURL url1) $ \a1 -> do -- > withAsync (getURL url2) $ \a2 -> do -- > page1 <- wait a1 -- > page2 <- wait a2 -- > ... -- -- 'withAsync' is like 'async', except that the 'Async' is -- automatically killed (using 'uninterruptibleCancel') if the -- enclosing IO operation returns before it has completed. Consider -- the case when the first 'wait' throws an exception; then the second -- 'Async' will be automatically killed rather than being left to run -- in the background, possibly indefinitely. This is the second way -- that the library provides additional safety: using 'withAsync' -- means we can avoid accidentally leaving threads running. -- Furthermore, 'withAsync' allows a tree of threads to be built, such -- that children are automatically killed if their parents die for any -- reason. -- -- The pattern of performing two IO actions concurrently and waiting -- for their results is packaged up in a combinator 'concurrently', so -- we can further shorten the above example to: -- -- > (page1, page2) <- concurrently (getURL url1) (getURL url2) -- > ... -- -- The 'Functor' instance can be used to change the result of an -- 'Async'. For example: -- -- > ghci> a <- async (return 3) -- > ghci> wait a -- > 3 -- > ghci> wait (fmap (+1) a) -- > 4 ----------------------------------------------------------------------------- module Control.Concurrent.Async ( -- * Asynchronous actions Async, -- ** Spawning async, asyncBound, asyncOn, asyncWithUnmask, asyncOnWithUnmask, -- ** Spawning with automatic 'cancel'ation withAsync, withAsyncBound, withAsyncOn, withAsyncWithUnmask, withAsyncOnWithUnmask, -- ** Querying 'Async's wait, poll, waitCatch, asyncThreadId, cancel, uninterruptibleCancel, cancelWith, AsyncCancelled(..), -- ** STM operations waitSTM, pollSTM, waitCatchSTM, -- ** Waiting for multiple 'Async's waitAny, waitAnyCatch, waitAnyCancel, waitAnyCatchCancel, waitEither, waitEitherCatch, waitEitherCancel, waitEitherCatchCancel, waitEither_, waitBoth, -- ** Waiting for multiple 'Async's in STM waitAnySTM, waitAnyCatchSTM, waitEitherSTM, waitEitherCatchSTM, waitEitherSTM_, waitBothSTM, -- ** Linking link, link2, ExceptionInLinkedThread(..), -- * Convenient utilities race, race_, concurrently, concurrently_, mapConcurrently, forConcurrently, mapConcurrently_, forConcurrently_, replicateConcurrently, replicateConcurrently_, Concurrently(..), compareAsyncs, ) where import Control.Concurrent.STM import Control.Exception import Control.Concurrent import qualified Data.Foldable as F #if !MIN_VERSION_base(4,6,0) import Prelude hiding (catch) #endif import Control.Monad import Control.Applicative #if !MIN_VERSION_base(4,8,0) import Data.Monoid (Monoid(mempty,mappend)) import Data.Traversable #endif #if __GLASGOW_HASKELL__ < 710 import Data.Typeable #endif #if MIN_VERSION_base(4,9,0) import Data.Semigroup (Semigroup((<>))) #endif import Data.IORef import GHC.Exts import GHC.IO hiding (finally, onException) import GHC.Conc -- ----------------------------------------------------------------------------- -- STM Async API -- | An asynchronous action spawned by 'async' or 'withAsync'. -- Asynchronous actions are executed in a separate thread, and -- operations are provided for waiting for asynchronous actions to -- complete and obtaining their results (see e.g. 'wait'). -- data Async a = Async { asyncThreadId :: {-# UNPACK #-} !ThreadId -- ^ Returns the 'ThreadId' of the thread running -- the given 'Async'. , _asyncWait :: STM (Either SomeException a) } instance Eq (Async a) where Async a _ == Async b _ = a == b instance Ord (Async a) where Async a _ `compare` Async b _ = a `compare` b instance Functor Async where fmap f (Async a w) = Async a (fmap (fmap f) w) -- | Compare two 'Async's that may have different types compareAsyncs :: Async a -> Async b -> Ordering compareAsyncs (Async t1 _) (Async t2 _) = compare t1 t2 -- | Spawn an asynchronous action in a separate thread. async :: IO a -> IO (Async a) async = inline asyncUsing rawForkIO -- | Like 'async' but using 'forkOS' internally. asyncBound :: IO a -> IO (Async a) asyncBound = asyncUsing forkOS -- | Like 'async' but using 'forkOn' internally. asyncOn :: Int -> IO a -> IO (Async a) asyncOn = asyncUsing . rawForkOn -- | Like 'async' but using 'forkIOWithUnmask' internally. The child -- thread is passed a function that can be used to unmask asynchronous -- exceptions. asyncWithUnmask :: ((forall b . IO b -> IO b) -> IO a) -> IO (Async a) asyncWithUnmask actionWith = asyncUsing rawForkIO (actionWith unsafeUnmask) -- | Like 'asyncOn' but using 'forkOnWithUnmask' internally. The -- child thread is passed a function that can be used to unmask -- asynchronous exceptions. asyncOnWithUnmask :: Int -> ((forall b . IO b -> IO b) -> IO a) -> IO (Async a) asyncOnWithUnmask cpu actionWith = asyncUsing (rawForkOn cpu) (actionWith unsafeUnmask) asyncUsing :: (IO () -> IO ThreadId) -> IO a -> IO (Async a) asyncUsing doFork = \action -> do var <- newEmptyTMVarIO -- t <- forkFinally action (\r -> atomically $ putTMVar var r) -- slightly faster: t <- mask $ \restore -> doFork $ try (restore action) >>= atomically . putTMVar var return (Async t (readTMVar var)) -- | Spawn an asynchronous action in a separate thread, and pass its -- @Async@ handle to the supplied function. When the function returns -- or throws an exception, 'uninterruptibleCancel' is called on the @Async@. -- -- > withAsync action inner = mask $ \restore -> do -- > a <- async (restore action) -- > restore inner `finally` uninterruptibleCancel a -- -- This is a useful variant of 'async' that ensures an @Async@ is -- never left running unintentionally. -- -- Note: a reference to the child thread is kept alive until the call -- to `withAsync` returns, so nesting many `withAsync` calls requires -- linear memory. -- withAsync :: IO a -> (Async a -> IO b) -> IO b withAsync = inline withAsyncUsing rawForkIO -- | Like 'withAsync' but uses 'forkOS' internally. withAsyncBound :: IO a -> (Async a -> IO b) -> IO b withAsyncBound = withAsyncUsing forkOS -- | Like 'withAsync' but uses 'forkOn' internally. withAsyncOn :: Int -> IO a -> (Async a -> IO b) -> IO b withAsyncOn = withAsyncUsing . rawForkOn -- | Like 'withAsync' but uses 'forkIOWithUnmask' internally. The -- child thread is passed a function that can be used to unmask -- asynchronous exceptions. withAsyncWithUnmask :: ((forall c. IO c -> IO c) -> IO a) -> (Async a -> IO b) -> IO b withAsyncWithUnmask actionWith = withAsyncUsing rawForkIO (actionWith unsafeUnmask) -- | Like 'withAsyncOn' but uses 'forkOnWithUnmask' internally. The -- child thread is passed a function that can be used to unmask -- asynchronous exceptions withAsyncOnWithUnmask :: Int -> ((forall c. IO c -> IO c) -> IO a) -> (Async a -> IO b) -> IO b withAsyncOnWithUnmask cpu actionWith = withAsyncUsing (rawForkOn cpu) (actionWith unsafeUnmask) withAsyncUsing :: (IO () -> IO ThreadId) -> IO a -> (Async a -> IO b) -> IO b -- The bracket version works, but is slow. We can do better by -- hand-coding it: withAsyncUsing doFork = \action inner -> do var <- newEmptyTMVarIO mask $ \restore -> do t <- doFork $ try (restore action) >>= atomically . putTMVar var let a = Async t (readTMVar var) r <- restore (inner a) `catchAll` \e -> do uninterruptibleCancel a throwIO e uninterruptibleCancel a return r -- | Wait for an asynchronous action to complete, and return its -- value. If the asynchronous action threw an exception, then the -- exception is re-thrown by 'wait'. -- -- > wait = atomically . waitSTM -- {-# INLINE wait #-} wait :: Async a -> IO a wait = atomically . waitSTM -- | Wait for an asynchronous action to complete, and return either -- @Left e@ if the action raised an exception @e@, or @Right a@ if it -- returned a value @a@. -- -- > waitCatch = atomically . waitCatchSTM -- {-# INLINE waitCatch #-} waitCatch :: Async a -> IO (Either SomeException a) waitCatch = tryAgain . atomically . waitCatchSTM where -- See: https://github.com/simonmar/async/issues/14 tryAgain f = f `catch` \BlockedIndefinitelyOnSTM -> f -- | Check whether an 'Async' has completed yet. If it has not -- completed yet, then the result is @Nothing@, otherwise the result -- is @Just e@ where @e@ is @Left x@ if the @Async@ raised an -- exception @x@, or @Right a@ if it returned a value @a@. -- -- > poll = atomically . pollSTM -- {-# INLINE poll #-} poll :: Async a -> IO (Maybe (Either SomeException a)) poll = atomically . pollSTM -- | A version of 'wait' that can be used inside an STM transaction. -- waitSTM :: Async a -> STM a waitSTM a = do r <- waitCatchSTM a either throwSTM return r -- | A version of 'waitCatch' that can be used inside an STM transaction. -- {-# INLINE waitCatchSTM #-} waitCatchSTM :: Async a -> STM (Either SomeException a) waitCatchSTM (Async _ w) = w -- | A version of 'poll' that can be used inside an STM transaction. -- {-# INLINE pollSTM #-} pollSTM :: Async a -> STM (Maybe (Either SomeException a)) pollSTM (Async _ w) = (Just <$> w) `orElse` return Nothing -- | Cancel an asynchronous action by throwing the @AsyncCancelled@ -- exception to it, and waiting for the `Async` thread to quit. -- Has no effect if the 'Async' has already completed. -- -- > cancel a = throwTo (asyncThreadId a) AsyncCancelled <* waitCatch a -- -- Note that 'cancel' will not terminate until the thread the 'Async' -- refers to has terminated. This means that 'cancel' will block for -- as long said thread blocks when receiving an asynchronous exception. -- -- For example, it could block if: -- -- * It's executing a foreign call, and thus cannot receive the asynchronous -- exception; -- * It's executing some cleanup handler after having received the exception, -- and the handler is blocking. {-# INLINE cancel #-} cancel :: Async a -> IO () cancel a@(Async t _) = throwTo t AsyncCancelled <* waitCatch a -- | The exception thrown by `cancel` to terminate a thread. data AsyncCancelled = AsyncCancelled deriving (Show, Eq #if __GLASGOW_HASKELL__ < 710 ,Typeable #endif ) instance Exception AsyncCancelled where #if __GLASGOW_HASKELL__ >= 708 fromException = asyncExceptionFromException toException = asyncExceptionToException #endif -- | Cancel an asynchronous action -- -- This is a variant of `cancel`, but it is not interruptible. {-# INLINE uninterruptibleCancel #-} uninterruptibleCancel :: Async a -> IO () uninterruptibleCancel = uninterruptibleMask_ . cancel -- | Cancel an asynchronous action by throwing the supplied exception -- to it. -- -- > cancelWith a x = throwTo (asyncThreadId a) x -- -- The notes about the synchronous nature of 'cancel' also apply to -- 'cancelWith'. cancelWith :: Exception e => Async a -> e -> IO () cancelWith a@(Async t _) e = throwTo t e <* waitCatch a -- | Wait for any of the supplied asynchronous operations to complete. -- The value returned is a pair of the 'Async' that completed, and the -- result that would be returned by 'wait' on that 'Async'. -- -- If multiple 'Async's complete or have completed, then the value -- returned corresponds to the first completed 'Async' in the list. -- {-# INLINE waitAnyCatch #-} waitAnyCatch :: [Async a] -> IO (Async a, Either SomeException a) waitAnyCatch = atomically . waitAnyCatchSTM -- | A version of 'waitAnyCatch' that can be used inside an STM transaction. -- -- @since 2.1.0 waitAnyCatchSTM :: [Async a] -> STM (Async a, Either SomeException a) waitAnyCatchSTM asyncs = foldr orElse retry $ map (\a -> do r <- waitCatchSTM a; return (a, r)) asyncs -- | Like 'waitAnyCatch', but also cancels the other asynchronous -- operations as soon as one has completed. -- waitAnyCatchCancel :: [Async a] -> IO (Async a, Either SomeException a) waitAnyCatchCancel asyncs = waitAnyCatch asyncs `finally` mapM_ cancel asyncs -- | Wait for any of the supplied @Async@s to complete. If the first -- to complete throws an exception, then that exception is re-thrown -- by 'waitAny'. -- -- If multiple 'Async's complete or have completed, then the value -- returned corresponds to the first completed 'Async' in the list. -- {-# INLINE waitAny #-} waitAny :: [Async a] -> IO (Async a, a) waitAny = atomically . waitAnySTM -- | A version of 'waitAny' that can be used inside an STM transaction. -- -- @since 2.1.0 waitAnySTM :: [Async a] -> STM (Async a, a) waitAnySTM asyncs = foldr orElse retry $ map (\a -> do r <- waitSTM a; return (a, r)) asyncs -- | Like 'waitAny', but also cancels the other asynchronous -- operations as soon as one has completed. -- waitAnyCancel :: [Async a] -> IO (Async a, a) waitAnyCancel asyncs = waitAny asyncs `finally` mapM_ cancel asyncs -- | Wait for the first of two @Async@s to finish. {-# INLINE waitEitherCatch #-} waitEitherCatch :: Async a -> Async b -> IO (Either (Either SomeException a) (Either SomeException b)) waitEitherCatch left right = tryAgain $ atomically (waitEitherCatchSTM left right) where -- See: https://github.com/simonmar/async/issues/14 tryAgain f = f `catch` \BlockedIndefinitelyOnSTM -> f -- | A version of 'waitEitherCatch' that can be used inside an STM transaction. -- -- @since 2.1.0 waitEitherCatchSTM :: Async a -> Async b -> STM (Either (Either SomeException a) (Either SomeException b)) waitEitherCatchSTM left right = (Left <$> waitCatchSTM left) `orElse` (Right <$> waitCatchSTM right) -- | Like 'waitEitherCatch', but also 'cancel's both @Async@s before -- returning. -- waitEitherCatchCancel :: Async a -> Async b -> IO (Either (Either SomeException a) (Either SomeException b)) waitEitherCatchCancel left right = waitEitherCatch left right `finally` (cancel left >> cancel right) -- | Wait for the first of two @Async@s to finish. If the @Async@ -- that finished first raised an exception, then the exception is -- re-thrown by 'waitEither'. -- {-# INLINE waitEither #-} waitEither :: Async a -> Async b -> IO (Either a b) waitEither left right = atomically (waitEitherSTM left right) -- | A version of 'waitEither' that can be used inside an STM transaction. -- -- @since 2.1.0 waitEitherSTM :: Async a -> Async b -> STM (Either a b) waitEitherSTM left right = (Left <$> waitSTM left) `orElse` (Right <$> waitSTM right) -- | Like 'waitEither', but the result is ignored. -- {-# INLINE waitEither_ #-} waitEither_ :: Async a -> Async b -> IO () waitEither_ left right = atomically (waitEitherSTM_ left right) -- | A version of 'waitEither_' that can be used inside an STM transaction. -- -- @since 2.1.0 waitEitherSTM_:: Async a -> Async b -> STM () waitEitherSTM_ left right = (void $ waitSTM left) `orElse` (void $ waitSTM right) -- | Like 'waitEither', but also 'cancel's both @Async@s before -- returning. -- waitEitherCancel :: Async a -> Async b -> IO (Either a b) waitEitherCancel left right = waitEither left right `finally` (cancel left >> cancel right) -- | Waits for both @Async@s to finish, but if either of them throws -- an exception before they have both finished, then the exception is -- re-thrown by 'waitBoth'. -- {-# INLINE waitBoth #-} waitBoth :: Async a -> Async b -> IO (a,b) waitBoth left right = atomically (waitBothSTM left right) -- | A version of 'waitBoth' that can be used inside an STM transaction. -- -- @since 2.1.0 waitBothSTM :: Async a -> Async b -> STM (a,b) waitBothSTM left right = do a <- waitSTM left `orElse` (waitSTM right >> retry) b <- waitSTM right return (a,b) -- ----------------------------------------------------------------------------- -- Linking threads data ExceptionInLinkedThread = forall a . ExceptionInLinkedThread (Async a) SomeException #if __GLASGOW_HASKELL__ < 710 deriving Typeable #endif instance Show ExceptionInLinkedThread where show (ExceptionInLinkedThread (Async t _) e) = "ExceptionInLinkedThread " ++ show t ++ " " ++ show e instance Exception ExceptionInLinkedThread where #if __GLASGOW_HASKELL__ >= 708 fromException = asyncExceptionFromException toException = asyncExceptionToException #endif -- | Link the given @Async@ to the current thread, such that if the -- @Async@ raises an exception, that exception will be re-thrown in -- the current thread, wrapped in 'ExceptionInLinkedThread'. -- -- 'link' ignores 'AsyncCancelled' exceptions thrown in the other thread, -- so that it's safe to 'cancel' a thread you're linked to. If you want -- different behaviour, use 'linkOnly'. -- link :: Async a -> IO () link = linkOnly (not . isCancel) -- | Link the given @Async@ to the current thread, such that if the -- @Async@ raises an exception, that exception will be re-thrown in -- the current thread. The supplied predicate determines which -- exceptions in the target thread should be propagated to the source -- thread. -- linkOnly :: (SomeException -> Bool) -- ^ return 'True' if the exception -- should be propagated, 'False' -- otherwise. -> Async a -> IO () linkOnly shouldThrow a = do me <- myThreadId void $ forkRepeat $ do r <- waitCatch a case r of Left e | shouldThrow e -> throwTo me (ExceptionInLinkedThread a e) _otherwise -> return () -- | Link two @Async@s together, such that if either raises an -- exception, the same exception is re-thrown in the other @Async@, -- wrapped in 'ExceptionInLinkedThread'. -- -- 'link2' ignores 'AsyncCancelled' exceptions, so that it's possible -- to 'cancel' either thread without cancelling the other. If you -- want different behaviour, use 'link2Only'. -- link2 :: Async a -> Async b -> IO () link2 = link2Only (not . isCancel) link2Only :: (SomeException -> Bool) -> Async a -> Async b -> IO () link2Only shouldThrow left@(Async tl _) right@(Async tr _) = void $ forkRepeat $ do r <- waitEitherCatch left right case r of Left (Left e) | shouldThrow e -> throwTo tr (ExceptionInLinkedThread left e) Right (Left e) | shouldThrow e -> throwTo tl (ExceptionInLinkedThread right e) _ -> return () isCancel :: SomeException -> Bool isCancel e | Just AsyncCancelled <- fromException e = True | otherwise = False -- ----------------------------------------------------------------------------- -- | Run two @IO@ actions concurrently, and return the first to -- finish. The loser of the race is 'cancel'led. -- -- > race left right = -- > withAsync left $ \a -> -- > withAsync right $ \b -> -- > waitEither a b -- race :: IO a -> IO b -> IO (Either a b) -- | Like 'race', but the result is ignored. -- race_ :: IO a -> IO b -> IO () -- | Run two @IO@ actions concurrently, and return both results. If -- either action throws an exception at any time, then the other -- action is 'cancel'led, and the exception is re-thrown by -- 'concurrently'. -- -- > concurrently left right = -- > withAsync left $ \a -> -- > withAsync right $ \b -> -- > waitBoth a b concurrently :: IO a -> IO b -> IO (a,b) #define USE_ASYNC_VERSIONS 0 #if USE_ASYNC_VERSIONS race left right = withAsync left $ \a -> withAsync right $ \b -> waitEither a b race_ left right = withAsync left $ \a -> withAsync right $ \b -> waitEither_ a b concurrently left right = withAsync left $ \a -> withAsync right $ \b -> waitBoth a b #else -- MVar versions of race/concurrently -- More ugly than the Async versions, but quite a bit faster. -- race :: IO a -> IO b -> IO (Either a b) race left right = concurrently' left right collect where collect m = do e <- m case e of Left ex -> throwIO ex Right r -> return r -- race_ :: IO a -> IO b -> IO () race_ left right = void $ race left right -- concurrently :: IO a -> IO b -> IO (a,b) concurrently left right = concurrently' left right (collect []) where collect [Left a, Right b] _ = return (a,b) collect [Right b, Left a] _ = return (a,b) collect xs m = do e <- m case e of Left ex -> throwIO ex Right r -> collect (r:xs) m concurrently' :: IO a -> IO b -> (IO (Either SomeException (Either a b)) -> IO r) -> IO r concurrently' left right collect = do done <- newEmptyMVar mask $ \restore -> do -- Note: uninterruptibleMask here is because we must not allow -- the putMVar in the exception handler to be interrupted, -- otherwise the parent thread will deadlock when it waits for -- the thread to terminate. lid <- forkIO $ uninterruptibleMask_ $ restore (left >>= putMVar done . Right . Left) `catchAll` (putMVar done . Left) rid <- forkIO $ uninterruptibleMask_ $ restore (right >>= putMVar done . Right . Right) `catchAll` (putMVar done . Left) count <- newIORef (2 :: Int) let takeDone = do r <- takeMVar done -- interruptible -- Decrement the counter so we know how many takes are left. -- Since only the parent thread is calling this, we can -- use non-atomic modifications. -- NB. do this *after* takeMVar, because takeMVar might be -- interrupted. modifyIORef count (subtract 1) return r let tryAgain f = f `catch` \BlockedIndefinitelyOnMVar -> f stop = do -- kill right before left, to match the semantics of -- the version using withAsync. (#27) uninterruptibleMask_ $ do count' <- readIORef count -- we only need to use killThread if there are still -- children alive. Note: forkIO here is because the -- child thread could be in an uninterruptible -- putMVar. when (count' > 0) $ void $ forkIO $ do throwTo rid AsyncCancelled throwTo lid AsyncCancelled -- ensure the children are really dead replicateM_ count' (tryAgain $ takeMVar done) r <- collect (tryAgain $ takeDone) `onException` stop stop return r #endif -- | maps an @IO@-performing function over any @Traversable@ data -- type, performing all the @IO@ actions concurrently, and returning -- the original data structure with the arguments replaced by the -- results. -- -- If any of the actions throw an exception, then all other actions are -- cancelled and the exception is re-thrown. -- -- For example, @mapConcurrently@ works with lists: -- -- > pages <- mapConcurrently getURL ["url1", "url2", "url3"] -- mapConcurrently :: Traversable t => (a -> IO b) -> t a -> IO (t b) mapConcurrently f = runConcurrently . traverse (Concurrently . f) -- | `forConcurrently` is `mapConcurrently` with its arguments flipped -- -- > pages <- forConcurrently ["url1", "url2", "url3"] $ \url -> getURL url -- -- @since 2.1.0 forConcurrently :: Traversable t => t a -> (a -> IO b) -> IO (t b) forConcurrently = flip mapConcurrently -- | `mapConcurrently_` is `mapConcurrently` with the return value discarded, -- just like @mapM_ mapConcurrently_ :: F.Foldable f => (a -> IO b) -> f a -> IO () mapConcurrently_ f = runConcurrently . F.foldMap (Concurrently . void . f) -- | `forConcurrently_` is `forConcurrently` with the return value discarded, -- just like @forM_ forConcurrently_ :: F.Foldable f => f a -> (a -> IO b) -> IO () forConcurrently_ = flip mapConcurrently_ -- | 'concurrently', but ignore the result values -- -- @since 2.1.1 concurrently_ :: IO a -> IO b -> IO () concurrently_ left right = concurrently' left right (collect 0) where collect 2 _ = return () collect i m = do e <- m case e of Left ex -> throwIO ex Right _ -> collect (i + 1 :: Int) m -- | Perform the action in the given number of threads. -- -- @since 2.1.1 replicateConcurrently :: Int -> IO a -> IO [a] replicateConcurrently cnt = runConcurrently . sequenceA . replicate cnt . Concurrently -- | Same as 'replicateConcurrently', but ignore the results. -- -- @since 2.1.1 replicateConcurrently_ :: Int -> IO a -> IO () replicateConcurrently_ cnt = runConcurrently . F.fold . replicate cnt . Concurrently . void -- ----------------------------------------------------------------------------- -- | A value of type @Concurrently a@ is an @IO@ operation that can be -- composed with other @Concurrently@ values, using the @Applicative@ -- and @Alternative@ instances. -- -- Calling @runConcurrently@ on a value of type @Concurrently a@ will -- execute the @IO@ operations it contains concurrently, before -- delivering the result of type @a@. -- -- For example -- -- > (page1, page2, page3) -- > <- runConcurrently $ (,,) -- > <$> Concurrently (getURL "url1") -- > <*> Concurrently (getURL "url2") -- > <*> Concurrently (getURL "url3") -- newtype Concurrently a = Concurrently { runConcurrently :: IO a } instance Functor Concurrently where fmap f (Concurrently a) = Concurrently $ f <$> a instance Applicative Concurrently where pure = Concurrently . return Concurrently fs <*> Concurrently as = Concurrently $ (\(f, a) -> f a) <$> concurrently fs as instance Alternative Concurrently where empty = Concurrently $ forever (threadDelay maxBound) Concurrently as <|> Concurrently bs = Concurrently $ either id id <$> race as bs #if MIN_VERSION_base(4,9,0) -- | Only defined by @async@ for @base >= 4.9@ -- -- @since 2.1.0 instance Semigroup a => Semigroup (Concurrently a) where (<>) = liftA2 (<>) -- | @since 2.1.0 instance (Semigroup a, Monoid a) => Monoid (Concurrently a) where mempty = pure mempty mappend = (<>) #else -- | @since 2.1.0 instance Monoid a => Monoid (Concurrently a) where mempty = pure mempty mappend = liftA2 mappend #endif -- ---------------------------------------------------------------------------- -- | Fork a thread that runs the supplied action, and if it raises an -- exception, re-runs the action. The thread terminates only when the -- action runs to completion without raising an exception. forkRepeat :: IO a -> IO ThreadId forkRepeat action = mask $ \restore -> let go = do r <- tryAll (restore action) case r of Left _ -> go _ -> return () in forkIO go catchAll :: IO a -> (SomeException -> IO a) -> IO a catchAll = catch tryAll :: IO a -> IO (Either SomeException a) tryAll = try -- A version of forkIO that does not include the outer exception -- handler: saves a bit of time when we will be installing our own -- exception handler. {-# INLINE rawForkIO #-} rawForkIO :: IO () -> IO ThreadId rawForkIO action = IO $ \ s -> case (fork# action s) of (# s1, tid #) -> (# s1, ThreadId tid #) {-# INLINE rawForkOn #-} rawForkOn :: Int -> IO () -> IO ThreadId rawForkOn (I# cpu) action = IO $ \ s -> case (forkOn# cpu action s) of (# s1, tid #) -> (# s1, ThreadId tid #)