----------------------------------------------------------------------------- -- | -- Module : Control.Concurrent.SampleVar -- 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) -- -- Sample variables -- ----------------------------------------------------------------------------- module Control.Concurrent.SampleVar ( -- * Sample Variables SampleVar, -- :: type _ = newEmptySampleVar, -- :: IO (SampleVar a) newSampleVar, -- :: a -> IO (SampleVar a) emptySampleVar, -- :: SampleVar a -> IO () readSampleVar, -- :: SampleVar a -> IO a writeSampleVar, -- :: SampleVar a -> a -> IO () isEmptySampleVar, -- :: SampleVar a -> IO Bool ) where import Prelude import Control.Concurrent.MVar -- | -- Sample variables are slightly different from a normal 'MVar': -- -- * Reading an empty 'SampleVar' causes the reader to block. -- (same as 'takeMVar' on empty 'MVar') -- -- * Reading a filled 'SampleVar' empties it and returns value. -- (same as 'takeMVar') -- -- * Writing to an empty 'SampleVar' fills it with a value, and -- potentially, wakes up a blocked reader (same as for 'putMVar' on -- empty 'MVar'). -- -- * Writing to a filled 'SampleVar' overwrites the current value. -- (different from 'putMVar' on full 'MVar'.) type SampleVar a = MVar (Int, -- 1 == full -- 0 == empty -- <0 no of readers blocked MVar a) -- |Build a new, empty, 'SampleVar' newEmptySampleVar :: IO (SampleVar a) newEmptySampleVar = do v <- newEmptyMVar newMVar (0,v) -- |Build a 'SampleVar' with an initial value. newSampleVar :: a -> IO (SampleVar a) newSampleVar a = do v <- newEmptyMVar putMVar v a newMVar (1,v) -- |If the SampleVar is full, leave it empty. Otherwise, do nothing. emptySampleVar :: SampleVar a -> IO () emptySampleVar v = do (readers, var) <- takeMVar v if readers > 0 then do takeMVar var putMVar v (0,var) else putMVar v (readers,var) -- |Wait for a value to become available, then take it and return. readSampleVar :: SampleVar a -> IO a readSampleVar svar = do -- -- filled => make empty and grab sample -- not filled => try to grab value, empty when read val. -- (readers,val) <- takeMVar svar putMVar svar (readers-1,val) takeMVar val -- |Write a value into the 'SampleVar', overwriting any previous value that -- was there. writeSampleVar :: SampleVar a -> a -> IO () writeSampleVar svar v = do -- -- filled => overwrite -- not filled => fill, write val -- (readers,val) <- takeMVar svar case readers of 1 -> swapMVar val v >> putMVar svar (1,val) _ -> putMVar val v >> putMVar svar (min 1 (readers+1), val) -- | Returns 'True' if the 'SampleVar' is currently empty. -- -- Note that this function is only useful if you know that no other -- threads can be modifying the state of the 'SampleVar', because -- otherwise the state of the 'SampleVar' may have changed by the time -- you see the result of 'isEmptySampleVar'. -- isEmptySampleVar :: SampleVar a -> IO Bool isEmptySampleVar svar = do (readers,val) <- readMVar svar return (readers == 0)