-- ghc-mod: Making Haskell development *more* fun -- Copyright (C) 2015 Daniel Gröber -- -- This program is free software: you can redistribute it and/or modify -- it under the terms of the GNU Affero General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU Affero General Public License for more details. -- -- You should have received a copy of the GNU Affero General Public License -- along with this program. If not, see . -- Derived from process:System.Process -- Copyright (c) The University of Glasgow 2004-2008 module Language.Haskell.GhcMod.Output ( gmPutStr , gmErrStr , gmPutStrLn , gmErrStrLn , gmPutStrIO , gmErrStrIO , gmReadProcess , gmUnsafePutStr , gmUnsafeErrStr , stdoutGateway ) where import Data.List import System.IO import System.Exit import System.Process import Control.Monad import Control.DeepSeq import Control.Exception import Control.Concurrent import Prelude import Language.Haskell.GhcMod.Types hiding (LineSeparator) import Language.Haskell.GhcMod.Monad.Types withLines :: (String -> String) -> String -> String withLines f s = let res = unlines $ map f $ lines s in case s of [] -> res _ | not $ isTerminated s -> reverse $ drop 1 $ reverse res _ -> res isTerminated :: String -> Bool isTerminated "" = False isTerminated s = isNewline (last s) isNewline :: Char -> Bool isNewline c = c == '\n' toGmLines :: String -> (GmLines String) toGmLines "" = GmLines GmPartial "" toGmLines s | isNewline (last s) = GmLines GmTerminated s toGmLines s = GmLines GmPartial s outputFns :: (GmOut m, MonadIO m') => m (GmLines String -> m' (), GmLines String -> m' ()) outputFns = outputFns' `liftM` gmoAsk pfxFns :: Maybe (String, String) -> (GmLines String -> GmLines String, GmLines String -> GmLines String) pfxFns lpfx = case lpfx of Nothing -> ( id, id ) Just (op, ep) -> ( fmap $ pfx (op++), fmap $ pfx (ep++) ) where pfx f = withLines f stdioOutputFns :: MonadIO m => Maybe (String, String) -> (GmLines String -> m (), GmLines String -> m ()) stdioOutputFns lpfx = let (outPfx, errPfx) = pfxFns lpfx in ( liftIO . putStr . unGmLine . outPfx , liftIO . hPutStr stderr . unGmLine . errPfx) chanOutputFns :: MonadIO m => Chan (GmStream, GmLines String) -> Maybe (String, String) -> (GmLines String -> m (), GmLines String -> m ()) chanOutputFns c lpfx = let (outPfx, errPfx) = pfxFns lpfx in ( liftIO . writeChan c . (,) GmOutStream . outPfx , liftIO . writeChan c . (,) GmErrStream . errPfx) outputFns' :: MonadIO m => GhcModOut -> (GmLines String -> m (), GmLines String -> m ()) outputFns' (GhcModOut oopts c) = let OutputOpts {..} = oopts in case ooptLinePrefix of Nothing -> stdioOutputFns ooptLinePrefix Just _ -> chanOutputFns c ooptLinePrefix gmPutStr, gmPutStrLn, gmErrStr, gmErrStrLn :: (MonadIO m, GmOut m) => String -> m () gmPutStr str = do putOut <- gmPutStrIO putOut str gmErrStr str = do putErr <- gmErrStrIO putErr str gmPutStrLn = gmPutStr . (++"\n") gmErrStrLn = gmErrStr . (++"\n") gmPutStrIO, gmErrStrIO :: (GmOut m, MonadIO mi) => m (String -> mi ()) gmPutStrIO = ((. toGmLines) . fst) `liftM` outputFns gmErrStrIO = ((. toGmLines) . snd) `liftM` outputFns -- | Only use these when you're sure there are no other writers on stdout gmUnsafePutStr, gmUnsafeErrStr :: MonadIO m => OutputOpts -> String -> m () gmUnsafePutStr oopts = (fst $ stdioOutputFns (ooptLinePrefix oopts)) . toGmLines gmUnsafeErrStr oopts = (snd $ stdioOutputFns (ooptLinePrefix oopts)) . toGmLines gmReadProcess :: GmOut m => m (FilePath -> [String] -> String -> IO String) gmReadProcess = do GhcModOut {..} <- gmoAsk case ooptLinePrefix gmoOptions of Just _ -> readProcessStderrChan Nothing -> return $ readProcess stdoutGateway :: Chan (GmStream, GmLines String) -> IO () stdoutGateway chan = go ("", "") where go buf@(obuf, ebuf) = do (stream, GmLines ty l) <- readChan chan case ty of GmTerminated -> case stream of GmOutStream -> putStr (obuf++l) >> hFlush stdout >> go ("", ebuf) GmErrStream -> putStr (ebuf++l) >> hFlush stdout >> go (obuf, "") GmPartial -> case reverse $ lines l of [] -> go buf [x] -> go (appendBuf stream buf x) x:xs -> do putStr $ unlines $ reverse xs hFlush stdout go (appendBuf stream buf x) appendBuf GmOutStream (obuf, ebuf) s = (obuf++s, ebuf) appendBuf GmErrStream (obuf, ebuf) s = (obuf, ebuf++s) readProcessStderrChan :: GmOut m => m (FilePath -> [String] -> String -> IO String) readProcessStderrChan = do (_, e :: GmLines String -> IO ()) <- outputFns return $ readProcessStderrChan' e readProcessStderrChan' :: (GmLines String -> IO ()) -> FilePath -> [String] -> String -> IO String readProcessStderrChan' pute = go pute where go :: (GmLines String -> IO ()) -> FilePath -> [String] -> String -> IO String go putErr exe args input = do let cp = (proc exe args) { std_out = CreatePipe , std_err = CreatePipe , std_in = CreatePipe } (Just i, Just o, Just e, h) <- createProcess cp _ <- forkIO $ reader e output <- hGetContents o withForkWait (evaluate $ rnf output) $ \waitOut -> do -- now write any input unless (null input) $ ignoreSEx $ hPutStr i input -- hClose performs implicit hFlush, and thus may trigger a SIGPIPE ignoreSEx $ hClose i -- wait on the output waitOut hClose o res <- waitForProcess h case res of ExitFailure rv -> throw $ GMEProcess "readProcessStderrChan" exe args $ Left rv ExitSuccess -> return output where ignoreSEx = handle (\(SomeException _) -> return ()) reader h = ignoreSEx $ do putErr . toGmLines . (++"\n") =<< hGetLine h reader h withForkWait :: IO () -> (IO () -> IO a) -> IO a withForkWait async body = do waitVar <- newEmptyMVar :: IO (MVar (Either SomeException ())) mask $ \restore -> do tid <- forkIO $ try (restore async) >>= putMVar waitVar let wait = takeMVar waitVar >>= either throwIO return restore (body wait) `onException` killThread tid