module Control.Event.Handler ( -- * Synopsis -- | <http://en.wikipedia.org/wiki/Event-driven_programming Event-driven programming> -- in the traditional imperative style. -- * Documentation Handler, AddHandler(..), newAddHandler, mapIO, filterIO, ) where import Data.IORef import qualified Data.Map as Map import qualified Data.Unique type Map = Map.Map {----------------------------------------------------------------------------- Types ------------------------------------------------------------------------------} -- | An /event handler/ is a function that takes an -- /event value/ and performs some computation. type Handler a = a -> IO () -- | A value of type @Addhandler a@ is a facility for registering -- event handlers. These will be called whenever the event occurs. -- -- When registering an event handler, you will also be given an action -- that unregisters this handler again. -- -- > do unregisterMyHandler <- register addHandler myHandler -- newtype AddHandler a = AddHandler { register :: Handler a -> IO (IO ()) } {----------------------------------------------------------------------------- Combinators ------------------------------------------------------------------------------} instance Functor AddHandler where fmap f = mapIO (return . f) -- | Map the event value with an 'IO' action. mapIO :: (a -> IO b) -> AddHandler a -> AddHandler b mapIO f e = AddHandler $ \h -> register e $ \x -> f x >>= h -- | Filter event values that don't return 'True'. filterIO :: (a -> IO Bool) -> AddHandler a -> AddHandler a filterIO f e = AddHandler $ \h -> register e $ \x -> f x >>= \b -> if b then h x else return () {----------------------------------------------------------------------------- Construction ------------------------------------------------------------------------------} -- | Build a facility to register and unregister event handlers. -- Also yields a function that takes an event handler and runs all the registered -- handlers. -- -- Example: -- -- > do -- > (addHandler, fire) <- newAddHandler -- > register addHandler putStrLn -- > fire "Hello!" newAddHandler :: IO (AddHandler a, Handler a) newAddHandler = do handlers <- newIORef Map.empty let register handler = do key <- Data.Unique.newUnique atomicModifyIORef_ handlers $ Map.insert key handler return $ atomicModifyIORef_ handlers $ Map.delete key runHandlers a = mapM_ ($ a) . map snd . Map.toList =<< readIORef handlers return (AddHandler register, runHandlers) atomicModifyIORef_ ref f = atomicModifyIORef ref $ \x -> (f x, ())