{-# LANGUAGE RecordWildCards #-} {-# OPTIONS_HADDOCK hide #-} {-# LANGUAGE NoMonomorphismRestriction #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE CPP #-} -- | The input layer used to be a single function that correctly -- accounted for the non-threaded runtime by emulating the terminal -- VMIN adn VTIME handling. This has been removed and replace with a -- more straightforward parser. The non-threaded runtime is no longer -- supported. -- -- This is an example of an algorithm where code coverage could be high, -- even 100%, but the behavior is still under tested. I should collect -- more of these examples... -- -- reference: http://www.unixwiz.net/techtips/termios-vmin-vtime.html module Graphics.Vty.Input.Loop where import Graphics.Vty.Config import Graphics.Vty.Input.Classify import Graphics.Vty.Input.Events import Control.Applicative import Control.Concurrent import Control.Concurrent.STM import Control.Exception (mask, try, SomeException) import Lens.Micro import Lens.Micro.Mtl import Lens.Micro.TH import Control.Monad (when, mzero, forM_) import Control.Monad.IO.Class (liftIO) import Control.Monad.Trans.State (StateT(..), evalStateT) import Control.Monad.State.Class (MonadState, modify) import Control.Monad.Trans.Reader (ReaderT(..)) import Data.Char import Data.IORef import Data.Word (Word8) import Foreign ( allocaArray, peekArray, Ptr ) import Foreign.C.Types (CInt(..)) import System.IO import System.Posix.IO (fdReadBuf, setFdOption, FdOption(..)) import System.Posix.Terminal import System.Posix.Types (Fd(..)) import Text.Printf (hPrintf) data Input = Input { -- | Channel of events direct from input processing. Unlike -- 'nextEvent' this will not refresh the display if the next event -- is an 'EvResize'. _eventChannel :: TChan Event -- | Shuts down the input processing. This should return the -- terminal input state to before he input initialized. , shutdownInput :: IO () -- | Changes to this value are reflected after the next event. , _configRef :: IORef Config -- | input debug log , _inputDebug :: Maybe Handle } makeLenses ''Input data InputBuffer = InputBuffer { _ptr :: Ptr Word8 , _size :: Int } makeLenses ''InputBuffer data InputState = InputState { _unprocessedBytes :: String , _appliedConfig :: Config , _inputBuffer :: InputBuffer , _classifier :: String -> KClass } makeLenses ''InputState type InputM a = StateT InputState (ReaderT Input IO) a logMsg :: String -> InputM () logMsg msg = do d <- view inputDebug case d of Nothing -> return () Just h -> liftIO $ hPutStrLn h msg >> hFlush h -- this must be run on an OS thread dedicated to this input handling. -- otherwise the terminal timing read behavior will block the execution -- of the lightweight threads. loopInputProcessor :: InputM () loopInputProcessor = do readFromDevice >>= addBytesToProcess validEvents <- many parseEvent forM_ validEvents emit dropInvalid loopInputProcessor addBytesToProcess :: String -> InputM () addBytesToProcess block = unprocessedBytes <>= block emit :: Event -> InputM () emit event = do logMsg $ "parsed event: " ++ show event view eventChannel >>= liftIO . atomically . flip writeTChan event -- The timing requirements are assured by the VMIN and VTIME set for the -- device. -- -- Precondition: Under the threaded runtime. Only current use is from a -- forkOS thread. That case satisfies precondition. readFromDevice :: InputM String readFromDevice = do newConfig <- view configRef >>= liftIO . readIORef oldConfig <- use appliedConfig let Just fd = inputFd newConfig when (newConfig /= oldConfig) $ do logMsg $ "new config: " ++ show newConfig liftIO $ applyConfig fd newConfig appliedConfig .= newConfig bufferPtr <- use $ inputBuffer.ptr maxBytes <- use $ inputBuffer.size stringRep <- liftIO $ do -- The killThread used in shutdownInput will not interrupt the -- foreign call fdReadBuf uses this provides a location to be -- interrupted prior to the foreign call. If there is input on -- the FD then the fdReadBuf will return in a finite amount of -- time due to the vtime terminal setting. threadWaitRead fd bytesRead <- fdReadBuf fd bufferPtr (fromIntegral maxBytes) if bytesRead > 0 then fmap (map $ chr . fromIntegral) $ peekArray (fromIntegral bytesRead) bufferPtr else return [] when (not $ null stringRep) $ logMsg $ "input bytes: " ++ show stringRep return stringRep applyConfig :: Fd -> Config -> IO () applyConfig fd (Config{ vmin = Just theVmin, vtime = Just theVtime }) = setTermTiming fd theVmin (theVtime `div` 100) applyConfig _ _ = fail "(vty) applyConfig was not provided a complete configuration" parseEvent :: InputM Event parseEvent = do c <- use classifier b <- use unprocessedBytes case c b of Valid e remaining -> do logMsg $ "valid parse: " ++ show e logMsg $ "remaining: " ++ show remaining unprocessedBytes .= remaining return e _ -> mzero dropInvalid :: InputM () dropInvalid = do c <- use classifier b <- use unprocessedBytes when (c b == Invalid) $ do logMsg "dropping input bytes" unprocessedBytes .= [] runInputProcessorLoop :: ClassifyMap -> Input -> IO () runInputProcessorLoop classifyTable input = do let bufferSize = 1024 allocaArray bufferSize $ \(bufferPtr :: Ptr Word8) -> do s0 <- InputState [] <$> readIORef (_configRef input) <*> pure (InputBuffer bufferPtr bufferSize) <*> pure (classify classifyTable) runReaderT (evalStateT loopInputProcessor s0) input attributeControl :: Fd -> IO (IO (), IO ()) attributeControl fd = do original <- getTerminalAttributes fd let vtyMode = foldl withoutMode original [ StartStopOutput, KeyboardInterrupts , EnableEcho, ProcessInput, ExtendedFunctions ] let setAttrs = setTerminalAttributes fd vtyMode Immediately unsetAttrs = setTerminalAttributes fd original Immediately return (setAttrs,unsetAttrs) logInitialInputState :: Input -> ClassifyMap -> IO() logInitialInputState input classifyTable = case _inputDebug input of Nothing -> return () Just h -> do Config{ vmin = Just theVmin , vtime = Just theVtime , termName = Just theTerm, .. } <- readIORef $ _configRef input _ <- hPrintf h "initial (vmin,vtime): %s\n" (show (theVmin, theVtime)) forM_ classifyTable $ \i -> case i of (inBytes, EvKey k mods) -> hPrintf h "map %s %s %s %s\n" (show theTerm) (show inBytes) (show k) (show mods) _ -> return () initInput :: Config -> ClassifyMap -> IO Input initInput config classifyTable = do let Just fd = inputFd config setFdOption fd NonBlockingRead False applyConfig fd config stopSync <- newEmptyMVar input <- Input <$> atomically newTChan <*> pure (return ()) <*> newIORef config <*> maybe (return Nothing) (\f -> Just <$> openFile f AppendMode) (debugLog config) logInitialInputState input classifyTable inputThread <- forkOSFinally (runInputProcessorLoop classifyTable input) (\_ -> putMVar stopSync ()) let killAndWait = do killThread inputThread takeMVar stopSync return $ input { shutdownInput = killAndWait } foreign import ccall "vty_set_term_timing" setTermTiming :: Fd -> Int -> Int -> IO () forkOSFinally :: IO a -> (Either SomeException a -> IO ()) -> IO ThreadId forkOSFinally action and_then = mask $ \restore -> forkOS $ try (restore action) >>= and_then (<>=) :: (MonadState s m, Monoid a) => ASetter' s a -> a -> m () l <>= a = modify (l <>~ a) (<>~) :: Monoid a => ASetter s t a a -> a -> s -> t l <>~ n = over l (`mappend` n)