----------------------------------------------------------------------------- -- | -- Module : Control.Concurrent.QSemN -- Copyright : (c) The University of Glasgow 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : libraries@haskell.org -- Stability : experimental -- Portability : non-portable (concurrency) -- -- Quantity semaphores in which each thread may wait for an arbitrary -- \"amount\". -- ----------------------------------------------------------------------------- module Control.Concurrent.QSemN ( -- * General Quantity Semaphores QSemN, -- abstract newQSemN, -- :: Int -> IO QSemN waitQSemN, -- :: QSemN -> Int -> IO () signalQSemN -- :: QSemN -> Int -> IO () ) where import Prelude import Control.Concurrent.MVar import Data.Typeable #include "Typeable.h" -- |A 'QSemN' is a quantity semaphore, in which the available -- \"quantity\" may be signalled or waited for in arbitrary amounts. newtype QSemN = QSemN (MVar (Int,[(Int,MVar ())])) INSTANCE_TYPEABLE0(QSemN,qSemNTc,"QSemN") -- |Build a new 'QSemN' with a supplied initial quantity. newQSemN :: Int -> IO QSemN newQSemN init = do sem <- newMVar (init,[]) return (QSemN sem) -- |Wait for the specified quantity to become available waitQSemN :: QSemN -> Int -> IO () waitQSemN (QSemN sem) sz = do (avail,blocked) <- takeMVar sem -- gain ex. access if (avail - sz) >= 0 then -- discharging 'sz' still leaves the semaphore -- in an 'unblocked' state. putMVar sem (avail-sz,blocked) else do block <- newEmptyMVar putMVar sem (avail, blocked++[(sz,block)]) takeMVar block -- |Signal that a given quantity is now available from the 'QSemN'. signalQSemN :: QSemN -> Int -> IO () signalQSemN (QSemN sem) n = do (avail,blocked) <- takeMVar sem (avail',blocked') <- free (avail+n) blocked putMVar sem (avail',blocked') where free avail [] = return (avail,[]) free avail ((req,block):blocked) | avail >= req = do putMVar block () free (avail-req) blocked | otherwise = do (avail',blocked') <- free avail blocked return (avail',(req,block):blocked')