Let's say you have a program with a bunch of threads. The one thread would like to freeze access to stdin, stdout, and stderr (causing any other threads or keyboards to block until its done) so that its output doesn't get interweaved with them. Is there a way to do this directly, or would there have to be a manager thread, you know, managin' the handle. Relatedly, could you cause any input on stdin to block any output on stdout until it received and handled (atomically)?
1 Answer
You can easily simulate a lock for controlling access to a resource with an MVar
. You aquire the lock by taking the value with takeMVar
and release the lock by replacing the value with putMVar
. For example, we can define something like the following
import Control.Concurrent
import Control.Concurrent.MVar
main = do
stdinLock <- newMVar () -- create a new lock for stdin (unaquired)
let
printWithLabel a b = do
takeMVar stdinLock -- aquire the lock for stdin
putStrLn (show a ++ ":")
print b
putMVar stdinLock () -- release the lock for stdin
actions = map fork $ zipWith printWithLabel [1..26] ['A'..]
doneSignals <- sequence actions
sequence doneSignals
return ()
fork :: IO a -> IO (IO ())
fork a = do
done <- newEmptyMVar
forkIO (a >> putMVar done ())
return (takeMVar done)
We could extract the locking functionality into another function
withLock :: MVar () -> IO a -> IO a
withLock lock action = do
takeMVar lock
x <- action
putMVar lock ()
return x
withLock
performs an IO
action after acquiring a lock and releases it when were done. This doesn't properly handle what to do if the code throws exceptions and notably will not release the lock if an exception is thrown. The Lock
in concurrent-extra provides a similar helper function which brackets an operation (handling exceptions) with acquiring and releasing a lock.
In terms of Lock
and async
the above example can be simplified to
import qualified Control.Concurrent.Lock as Lock
import Control.Concurrent.Async
main = do
stdinLock <- Lock.new
let
printWithLabel a b = Lock.with stdinLock $ do
putStrLn (show a ++ ":")
print b
actions = zipWith printWithLabel [1..26] ['A'..]
doneSignals <- mapM async actions
mapM_ wait doneSignals
If you want a thread reading input on stdin to block output from other threads to stdout you can use a single lock to control both stdin and stdout.
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I was hoping I would be able to have this work with existing code. Locks require everything to support them. Mar 31, 2015 at 21:50
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@PyRulez If you don't somehow mark the edges of where threads are and are not allowed to interleave there are two possibilities: threads are allowed to interleave everywhere (no locks) or threads are not allowed to interleave anywhere (serial execution). If you remove the
Lock.with stdinLock $
from the last example none of the underlying existing calls to write tostdout
interleave with each other, but the output data is still nonsense (all the labels first followed by all of the values).– CirdecMar 31, 2015 at 21:58
stdout
already prevents interleaving of text within a single line. I cannot find an authoritative reference for that though...putStLn
toputStr
in either of my examples, you will see interleaving of text within a single line.