-- | -- Module : Data.IVar.Simple.MIChan -- Copyright : (c) 2008-2015 Bertram Felgenhauer -- License : MIT -- -- Maintainer : Bertram Felgenhauer <int-e@gmx.de> -- Stability : experimental -- Portability : ghc -- -- An 'MIChan' is a multicast channel built on top of an 'IChan.IChan'. -- -- Like 'IChan.IChan', this channel supports multiple readers. It is -- comparable to a @Control.Concurrent.Chan.Chan@ for the writing end: -- Each write will append an element to the channel. No writes will fail. module Data.IVar.Simple.MIChan ( -- $comparison MIChan, new, read, write, writeList, ) where import Prelude hiding (read) import qualified Data.IVar.Simple.IChan as IChan import Control.Monad import Control.Concurrent.MVar -- | A multicast channel. newtype MIChan a = MIChan (MVar (IChan.IChan a)) deriving Eq -- | Create a new multicast channel. new :: IO (MIChan a) new = do ic <- IChan.new MIChan `fmap` newMVar ic -- | Return the list of values that the channel represents. read :: MIChan a -> IO [a] read (MIChan mic) = do IChan.read `fmap` readMVar mic -- | Send a value across the channel. write :: MIChan a -> a -> IO () write (MIChan mic) value = do modifyMVar_ mic (\ic -> IChan.write ic value) -- | Send several values across the channel, atomically. writeList :: MIChan a -> [a] -> IO () writeList (MIChan mic) values = do modifyMVar_ mic (\ic -> foldM IChan.write ic values) -- $comparison -- Comparison to @Control.Concurrent.Chan@: -- -- > Control.Concurrent.Chan.Chan => Data.MIChan -- > newChan => new -- > writeChan => write -- > getChanContents => read -- > writeList2Chan => writeList -- -- These can't be implemented: -- -- > readChan (can't steal items from other readers) -- > unGetChan (there is no separate reading end) -- > isEmptyChan (needs an IO interface for reading) -- > dupChan (not needed)