Copyright | (c) Simon Marlow 2012 |
---|---|
License | BSD3 (see the file LICENSE) |
Maintainer | Simon Marlow <marlowsd@gmail.com> |
Stability | provisional |
Portability | non-portable (requires concurrency) |
Safe Haskell | Trustworthy |
Language | Haskell2010 |
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
, which represents an asynchronous
Async
aIO
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 cancel
) 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
- data Async a
- async :: IO a -> IO (Async a)
- asyncBound :: IO a -> IO (Async a)
- asyncOn :: Int -> IO a -> IO (Async a)
- asyncWithUnmask :: ((forall b. IO b -> IO b) -> IO a) -> IO (Async a)
- asyncOnWithUnmask :: Int -> ((forall b. IO b -> IO b) -> IO a) -> IO (Async a)
- withAsync :: IO a -> (Async a -> IO b) -> IO b
- withAsyncBound :: IO a -> (Async a -> IO b) -> IO b
- withAsyncOn :: Int -> IO a -> (Async a -> IO b) -> IO b
- withAsyncWithUnmask :: ((forall c. IO c -> IO c) -> IO a) -> (Async a -> IO b) -> IO b
- withAsyncOnWithUnmask :: Int -> ((forall c. IO c -> IO c) -> IO a) -> (Async a -> IO b) -> IO b
- wait :: Async a -> IO a
- poll :: Async a -> IO (Maybe (Either SomeException a))
- waitCatch :: Async a -> IO (Either SomeException a)
- cancel :: Async a -> IO ()
- cancelWith :: Exception e => Async a -> e -> IO ()
- asyncThreadId :: Async a -> ThreadId
- waitSTM :: Async a -> STM a
- pollSTM :: Async a -> STM (Maybe (Either SomeException a))
- waitCatchSTM :: Async a -> STM (Either SomeException a)
- waitAny :: [Async a] -> IO (Async a, a)
- waitAnyCatch :: [Async a] -> IO (Async a, Either SomeException a)
- waitAnyCancel :: [Async a] -> IO (Async a, a)
- waitAnyCatchCancel :: [Async a] -> IO (Async a, Either SomeException a)
- waitEither :: Async a -> Async b -> IO (Either a b)
- waitEitherCatch :: Async a -> Async b -> IO (Either (Either SomeException a) (Either SomeException b))
- waitEitherCancel :: Async a -> Async b -> IO (Either a b)
- waitEitherCatchCancel :: Async a -> Async b -> IO (Either (Either SomeException a) (Either SomeException b))
- waitEither_ :: Async a -> Async b -> IO ()
- waitBoth :: Async a -> Async b -> IO (a, b)
- waitAnySTM :: [Async a] -> STM (Async a, a)
- waitAnyCatchSTM :: [Async a] -> STM (Async a, Either SomeException a)
- waitEitherSTM :: Async a -> Async b -> STM (Either a b)
- waitEitherCatchSTM :: Async a -> Async b -> STM (Either (Either SomeException a) (Either SomeException b))
- waitEitherSTM_ :: Async a -> Async b -> STM ()
- waitBothSTM :: Async a -> Async b -> STM (a, b)
- link :: Async a -> IO ()
- link2 :: Async a -> Async b -> IO ()
- race :: IO a -> IO b -> IO (Either a b)
- race_ :: IO a -> IO b -> IO ()
- concurrently :: IO a -> IO b -> IO (a, b)
- mapConcurrently :: Traversable t => (a -> IO b) -> t a -> IO (t b)
- forConcurrently :: Traversable t => t a -> (a -> IO b) -> IO (t b)
- newtype Concurrently a = Concurrently {
- runConcurrently :: IO a
Asynchronous actions
Spawning
asyncWithUnmask :: ((forall b. IO b -> IO b) -> IO a) -> IO (Async a) Source
Like async
but using forkIOWithUnmask
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) Source
Like asyncOn
but using forkOnWithUnmask
internally.
The child thread is passed a function that can be used to unmask asynchronous exceptions.
Spawning with automatic cancel
ation
withAsync :: IO a -> (Async a -> IO b) -> IO b Source
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, cancel
is called on the Async
.
withAsync action inner = bracket (async action) cancel inner
This is a useful variant of async
that ensures an Async
is
never left running unintentionally.
Since cancel
may block, withAsync
may also block; see cancel
for details.
withAsyncWithUnmask :: ((forall c. IO c -> IO c) -> IO a) -> (Async a -> IO b) -> IO b Source
Like withAsync
but uses forkIOWithUnmask
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 Source
Like withAsyncOn
but uses forkOnWithUnmask
internally.
The child thread is passed a function that can be used to unmask asynchronous exceptions
Querying Async
s
wait :: Async a -> IO a Source
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
poll :: Async a -> IO (Maybe (Either SomeException a)) Source
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
waitCatch :: Async a -> IO (Either SomeException a) Source
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
cancel :: Async a -> IO () Source
Cancel an asynchronous action by throwing the ThreadKilled
exception to it. Has no effect if the Async
has already
completed.
cancel a = throwTo (asyncThreadId a) ThreadKilled
Note that cancel
is synchronous in the same sense as throwTo
.
It does not return until the exception has been thrown in the
target thread, or the target thread has completed. In particular,
if the target thread is making a foreign call, the exception will
not be thrown until the foreign call returns, and in this case
cancel
may block indefinitely. An asynchronous cancel
can
of course be obtained by wrapping cancel
itself in async
.
cancelWith :: Exception e => Async a -> e -> IO () Source
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
.
asyncThreadId :: Async a -> ThreadId Source
STM operations
pollSTM :: Async a -> STM (Maybe (Either SomeException a)) Source
A version of poll
that can be used inside an STM transaction.
waitCatchSTM :: Async a -> STM (Either SomeException a) Source
A version of waitCatch
that can be used inside an STM transaction.
Waiting for multiple Async
s
waitAnyCatch :: [Async a] -> IO (Async a, Either SomeException a) Source
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.
waitAnyCancel :: [Async a] -> IO (Async a, a) Source
Like waitAny
, but also cancels the other asynchronous
operations as soon as one has completed.
waitAnyCatchCancel :: [Async a] -> IO (Async a, Either SomeException a) Source
Like waitAnyCatch
, but also cancels the other asynchronous
operations as soon as one has completed.
waitEither :: Async a -> Async b -> IO (Either a b) Source
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
.
waitEitherCatch :: Async a -> Async b -> IO (Either (Either SomeException a) (Either SomeException b)) Source
Wait for the first of two Async
s to finish.
waitEitherCancel :: Async a -> Async b -> IO (Either a b) Source
Like waitEither
, but also cancel
s both Async
s before
returning.
waitEitherCatchCancel :: Async a -> Async b -> IO (Either (Either SomeException a) (Either SomeException b)) Source
Like waitEitherCatch
, but also cancel
s both Async
s before
returning.
waitEither_ :: Async a -> Async b -> IO () Source
Like waitEither
, but the result is ignored.
waitBoth :: Async a -> Async b -> IO (a, b) Source
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
.
Waiting for multiple Async
s in STM
waitAnySTM :: [Async a] -> STM (Async a, a) Source
A version of waitAny
that can be used inside an STM transaction.
Since: 2.1.0
waitAnyCatchSTM :: [Async a] -> STM (Async a, Either SomeException a) Source
A version of waitAnyCatch
that can be used inside an STM transaction.
Since: 2.1.0
waitEitherSTM :: Async a -> Async b -> STM (Either a b) Source
A version of waitEither
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)) Source
A version of waitEitherCatch
that can be used inside an STM transaction.
Since: 2.1.0
waitEitherSTM_ :: Async a -> Async b -> STM () Source
A version of waitEither_
that can be used inside an STM transaction.
Since: 2.1.0
waitBothSTM :: Async a -> Async b -> STM (a, b) Source
A version of waitBoth
that can be used inside an STM transaction.
Since: 2.1.0
Linking
link :: Async a -> IO () Source
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.
link2 :: Async a -> Async b -> IO () Source
Link two Async
s together, such that if either raises an
exception, the same exception is re-thrown in the other Async
.
Convenient utilities
race :: IO a -> IO b -> IO (Either a b) Source
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
concurrently :: IO a -> IO b -> IO (a, b) Source
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
mapConcurrently :: Traversable t => (a -> IO b) -> t a -> IO (t b) Source
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.
For example, mapConcurrently
works with lists:
pages <- mapConcurrently getURL ["url1", "url2", "url3"]
forConcurrently :: Traversable t => t a -> (a -> IO b) -> IO (t b) Source
forConcurrently
is mapConcurrently
with its arguments flipped
pages <- forConcurrently ["url1", "url2", "url3"] $ \url -> getURL url
Since: 2.1.0
newtype Concurrently a Source
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")
Functor Concurrently Source | |
Applicative Concurrently Source | |
Alternative Concurrently Source | |
Monoid a => Monoid (Concurrently a) Source | Since: 2.1.0 |