{-# OPTIONS_GHC -Wall -fwarn-tabs #-} {-# LANGUAGE CPP, DeriveDataTypeable #-} ---------------------------------------------------------------- -- 2011.04.06 -- | -- Module : Control.Concurrent.STM.TMChan -- Copyright : Copyright (c) 2011 wren ng thornton -- License : BSD -- Maintainer : wren@community.haskell.org -- Stability : experimental -- Portability : non-portable (GHC STM, DeriveDataTypeable) -- -- A version of "Control.Concurrent.STM.TChan" where the queue is -- closeable. This is similar to a @TChan (Maybe a)@ with a -- monotonicity guarantee that once there's a @Nothing@ there will -- always be @Nothing@. ---------------------------------------------------------------- module Control.Concurrent.STM.TMChan ( -- * The TMChan type TMChan() -- ** Creating TMChans , newTMChan , newTMChanIO , dupTMChan -- ** Reading from TMChans , readTMChan , tryReadTMChan , peekTMChan , tryPeekTMChan -- ** Writing to TMChans , writeTMChan , unGetTMChan -- ** Closing TMChans , closeTMChan -- ** Predicates , isClosedTMChan , isEmptyTMChan ) where import Data.Typeable (Typeable) import Control.Applicative ((<$>)) import Control.Monad.STM (STM) import Control.Concurrent.STM.TVar.Compat import Control.Concurrent.STM.TChan.Compat -- N.B., GHC only -- N.B., we need a Custom cabal build-type for this to work. #ifdef __HADDOCK__ import Control.Monad.STM (atomically) import System.IO.Unsafe (unsafePerformIO) #endif ---------------------------------------------------------------- -- | @TMChan@ is an abstract type representing a closeable FIFO -- channel. data TMChan a = TMChan !(TVar Bool) !(TChan a) deriving Typeable -- | Build and returns a new instance of @TMChan@. newTMChan :: STM (TMChan a) newTMChan = do closed <- newTVar False chan <- newTChan return (TMChan closed chan) -- | @IO@ version of 'newTMChan'. This is useful for creating -- top-level @TMChan@s using 'unsafePerformIO', because using -- 'atomically' inside 'unsafePerformIO' isn't possible. newTMChanIO :: IO (TMChan a) newTMChanIO = do closed <- newTVarIO False chan <- newTChanIO return (TMChan closed chan) -- | Duplicate a @TMChan@: the duplicate channel begins empty, but -- data written to either channel from then on will be available -- from both, and closing one copy will close them all. Hence this -- creates a kind of broadcast channel, where data written by anyone -- is seen by everyone else. dupTMChan :: TMChan a -> STM (TMChan a) dupTMChan (TMChan closed chan) = do new_chan <- dupTChan chan return (TMChan closed new_chan) -- | Read the next value from the @TMChan@, retrying if the channel -- is empty (and not closed). We return @Nothing@ immediately if -- the channel is closed and empty. readTMChan :: TMChan a -> STM (Maybe a) readTMChan (TMChan closed chan) = do b <- readTVar closed if b then tryReadTChan chan else Just <$> readTChan chan {- -- The above is lazier reading from @chan@, and slightly optimized, compared to the clearer: readTMChan (TMChan closed chan) = do b <- isEmptyTChan chan b' <- readTVar closed if b && b' then return Nothing else Just <$> readTChan chan -- TODO: compare Core and benchmarks; is the loss of clarity worth it? -} -- | A version of 'readTMChan' which does not retry. Instead it -- returns @Just Nothing@ if the channel is open but no value is -- available; it still returns @Nothing@ if the channel is closed -- and empty. tryReadTMChan :: TMChan a -> STM (Maybe (Maybe a)) tryReadTMChan (TMChan closed chan) = do b <- readTVar closed if b then fmap Just <$> tryReadTChan chan else Just <$> tryReadTChan chan {- -- The above is lazier reading from @chan@ (and removes an extraneous isEmptyTChan when using the compatibility layer) than the clearer: tryReadTMChan (TMChan closed chan) = do b <- isEmptyTChan chan b' <- readTVar closed if b && b' then return Nothing else Just <$> tryReadTChan chan -- TODO: compare Core and benchmarks; is the loss of clarity worth it? -} -- | Get the next value from the @TMChan@ without removing it, -- retrying if the channel is empty. peekTMChan :: TMChan a -> STM (Maybe a) peekTMChan (TMChan closed chan) = do b <- readTVar closed if b then do b' <- isEmptyTChan chan if b' then return Nothing else Just <$> peekTChan chan else Just <$> peekTChan chan {- -- The above is lazier reading from @chan@ than the clearer: peekTMChan (TMChan closed chan) = do b <- isEmptyTChan chan b' <- readTVar closed if b && b' then return Nothing else Just <$> peekTChan chan -- TODO: compare Core and benchmarks; is the loss of clarity worth it? -} -- | A version of 'peekTMChan' which does not retry. Instead it -- returns @Just Nothing@ if the channel is open but no value is -- available; it still returns @Nothing@ if the channel is closed -- and empty. tryPeekTMChan :: TMChan a -> STM (Maybe (Maybe a)) tryPeekTMChan (TMChan closed chan) = do b <- readTVar closed if b then fmap Just <$> tryPeekTChan chan else Just <$> tryPeekTChan chan {- -- The above is lazier reading from @chan@ (and removes an extraneous isEmptyTChan when using the compatibility layer) than the clearer: tryPeekTMChan (TMChan closed chan) = do b <- isEmptyTChan chan b' <- readTVar closed if b && b' then return Nothing else Just <$> tryPeekTChan chan -- TODO: compare Core and benchmarks; is the loss of clarity worth it? -} -- | Write a value to a @TMChan@, retrying if the channel is full. -- If the channel is closed then the value is silently discarded. -- Use 'isClosedTMChan' to determine if the channel is closed before -- writing, as needed. writeTMChan :: TMChan a -> a -> STM () writeTMChan (TMChan closed chan) x = do b <- readTVar closed if b then return () -- discard silently else writeTChan chan x -- | Put a data item back onto a channel, where it will be the next -- item read. If the channel is closed then the value is silently -- discarded; you can use 'peekTMChan' to circumvent this in certain -- circumstances. unGetTMChan :: TMChan a -> a -> STM () unGetTMChan (TMChan closed chan) x = do b <- readTVar closed if b then return () -- discard silently else unGetTChan chan x -- | Closes the @TMChan@, preventing any further writes. closeTMChan :: TMChan a -> STM () closeTMChan (TMChan closed _chan) = writeTVar closed True -- | Returns @True@ if the supplied @TMChan@ has been closed. isClosedTMChan :: TMChan a -> STM Bool isClosedTMChan (TMChan closed _chan) = readTVar closed {- -- | Returns @True@ if the supplied @TMChan@ has been closed. isClosedTMChanIO :: TMChan a -> IO Bool isClosedTMChanIO (TMChan closed _chan) = readTVarIO closed -} -- | Returns @True@ if the supplied @TMChan@ is empty. isEmptyTMChan :: TMChan a -> STM Bool isEmptyTMChan (TMChan _closed chan) = isEmptyTChan chan ---------------------------------------------------------------- ----------------------------------------------------------- fin.