import Prelude
import Control.Concurrent.MVar
+import Control.Exception ( block )
import Data.Typeable
#include "Typeable.h"
-- |Wait for the specified quantity to become available
waitQSemN :: QSemN -> Int -> IO ()
-waitQSemN (QSemN sem) sz = do
+waitQSemN (QSemN sem) sz = block $ do
(avail,blocked) <- takeMVar sem -- gain ex. access
- if (avail - sz) >= 0 then
+ let remaining = avail - sz
+ if remaining >= 0 then
-- discharging 'sz' still leaves the semaphore
-- in an 'unblocked' state.
- putMVar sem (avail-sz,blocked)
+ putMVar sem (remaining,blocked)
else do
- block <- newEmptyMVar
- putMVar sem (avail, blocked++[(sz,block)])
- takeMVar block
+ b <- newEmptyMVar
+ putMVar sem (avail, blocked++[(sz,b)])
+ takeMVar b
-- |Signal that a given quantity is now available from the 'QSemN'.
signalQSemN :: QSemN -> Int -> IO ()
-signalQSemN (QSemN sem) n = do
+signalQSemN (QSemN sem) n = block $ do
(avail,blocked) <- takeMVar sem
(avail',blocked') <- free (avail+n) blocked
- putMVar sem (avail',blocked')
+ avail' `seq` putMVar sem (avail',blocked')
where
free avail [] = return (avail,[])
- free avail ((req,block):blocked)
+ free avail ((req,b):blocked)
| avail >= req = do
- putMVar block ()
+ putMVar b ()
free (avail-req) blocked
| otherwise = do
(avail',blocked') <- free avail blocked
- return (avail',(req,block):blocked')
+ return (avail',(req,b):blocked')