{-# LANGUAGE ScopedTypeVariables, DeriveDataTypeable #-} -- | WARNING -- This program in the process of being deprecated, use `ghc-mod --interactive` -- instead. -- Commands: -- check -- find -- info -- type -- lint [hlint options] -- the format of hlint options is [String] because they may contain -- spaces and also may contain spaces. -- boot -- browse [:] -- quit -- -- Session separators: -- OK -- success -- NG -- failure module Main where import Config (cProjectVersion) import Control.Applicative ((<$>)) import Control.Exception (SomeException(..)) import qualified Control.Exception as E import Control.Monad (when) import CoreMonad (liftIO) import Data.List (intercalate) import Data.List.Split (splitOn) import Data.Version (showVersion) import Language.Haskell.GhcMod import Language.Haskell.GhcMod.Internal import Paths_ghc_mod import System.Console.GetOpt import System.Directory (setCurrentDirectory) import System.Environment (getArgs) import System.Exit (ExitCode, exitFailure) import System.IO (hFlush,stdout) import Misc import Utils ---------------------------------------------------------------- progVersion :: String progVersion = "ghc-modi version " ++ showVersion version ++ " compiled by GHC " ++ cProjectVersion ++ "\n" argspec :: [OptDescr (Options -> Options)] argspec = [ Option "b" ["boundary"] (ReqArg (\s opts -> opts { lineSeparator = LineSeparator s }) "sep") "specify line separator (default is Nul string)" , Option "l" ["tolisp"] (NoArg (\opts -> opts { outputStyle = LispStyle })) "print as a list of Lisp" , Option "g" [] (ReqArg (\s opts -> opts { ghcUserOptions = s : ghcUserOptions opts }) "flag") "specify a ghc flag" ] usage :: String usage = progVersion ++ "Usage:\n" ++ "\t ghc-modi [-l] [-b sep] [-g flag]\n" ++ "\t ghc-modi version\n" ++ "\t ghc-modi help\n" parseArgs :: [OptDescr (Options -> Options)] -> [String] -> (Options, [String]) parseArgs spec argv = case getOpt Permute spec argv of (o,n,[] ) -> (foldr id defaultOptions o, n) (_,_,errs) -> E.throw (CmdArg errs) ---------------------------------------------------------------- -- Running two GHC monad threads disables the handling of -- C-c since installSignalHandlers is called twice, sigh. main :: IO () main = E.handle cmdHandler $ go =<< parseArgs argspec <$> getArgs where cmdHandler (CmdArg _) = putStr $ usageInfo usage argspec go (_,"help":_) = putStr $ usageInfo usage argspec go (_,"version":_) = putStr progVersion go (opt,_) = emptyNewUnGetLine >>= run opt run :: Options -> UnGetLine -> IO () run opt ref = flip E.catches handlers $ do cradle0 <- findCradle let rootdir = cradleRootDir cradle0 -- c = cradle0 { cradleCurrentDir = rootdir } TODO: ????? setCurrentDirectory rootdir prepareAutogen cradle0 -- Asynchronous db loading starts here. symdbreq <- newSymDbReq opt (res, _) <- runGhcModT opt $ do crdl <- cradle world <- liftIO $ getCurrentWorld crdl loop symdbreq ref world case res of Right () -> return () Left (GMECabalConfigure msg) -> do putStrLn $ notGood $ "cabal configure failed: " ++ show msg exitFailure Left e -> bug $ show e where -- this is just in case. -- If an error is caught here, it is a bug of GhcMod library. handlers = [ E.Handler (\(_ :: ExitCode) -> return ()) , E.Handler (\(_ :: Restart) -> run opt ref) , E.Handler (\(SomeException e) -> bug $ show e) ] bug :: String -> IO () bug msg = do putStrLn $ notGood $ "BUG: " ++ msg exitFailure notGood :: String -> String notGood msg = "NG " ++ escapeNewlines msg escapeNewlines :: String -> String escapeNewlines = replace "\n" "\\n" . replace "\\n" "\\\\n" replace :: String -> String -> String -> String replace needle replacement = intercalate replacement . splitOn needle ---------------------------------------------------------------- loop :: IOish m => SymDbReq -> UnGetLine -> World -> GhcModT m () loop symdbreq ref world = do -- blocking cmdArg <- liftIO $ getCommand ref -- after blocking, we need to see if the world has changed. crdl <- cradle changed <- liftIO $ didWorldChange world crdl when changed $ do liftIO $ ungetCommand ref cmdArg E.throw Restart cradle >>= liftIO . prepareAutogen let (cmd,arg') = break (== ' ') cmdArg arg = dropWhile (== ' ') arg' (ret,ok) <- case cmd of "check" -> checkStx arg "find" -> findSym arg symdbreq "lint" -> lintStx arg "info" -> showInfo arg "type" -> showType arg "split" -> doSplit arg "sig" -> doSig arg "refine" -> doRefine arg "auto" -> doAuto arg "boot" -> bootIt "browse" -> browseIt arg "quit" -> return ("quit", False) "" -> return ("quit", False) _ -> return ([], True) if ok then do liftIO $ putStr ret liftIO $ putStrLn "OK" else do liftIO $ putStrLn $ notGood ret liftIO $ hFlush stdout when ok $ loop symdbreq ref world ---------------------------------------------------------------- checkStx :: IOish m => FilePath -> GhcModT m (String, Bool) checkStx file = do eret <- check [file] case eret of Right ret -> return (ret, True) Left ret -> return (ret, True) ---------------------------------------------------------------- findSym :: IOish m => Symbol -> SymDbReq -> GhcModT m (String, Bool) findSym sym symdbreq = do db <- getDb symdbreq >>= checkDb symdbreq ret <- lookupSymbol sym db return (ret, True) lintStx :: IOish m => FilePath -> GhcModT m (String, Bool) lintStx optFile = do ret <- withOptions changeOpt $ lint file return (ret, True) where (opts,file) = parseLintOptions optFile hopts = if opts == "" then [] else read opts changeOpt o = o { hlintOpts = hopts } -- | -- >>> parseLintOptions "[\"--ignore=Use camelCase\", \"--ignore=Eta reduce\"] file name" -- (["--ignore=Use camelCase", "--ignore=Eta reduce"], "file name") -- >>> parseLintOptions "file name" -- ([], "file name") parseLintOptions :: String -> (String, String) parseLintOptions optFile = case brk (== ']') (dropWhile (/= '[') optFile) of ("","") -> ([], optFile) (opt',file') -> (opt', dropWhile (== ' ') file') where brk _ [] = ([],[]) brk p (x:xs') | p x = ([x],xs') | otherwise = let (ys,zs) = brk p xs' in (x:ys,zs) ---------------------------------------------------------------- showInfo :: IOish m => FilePath -> GhcModT m (String, Bool) showInfo fileArg = do let [file, expr] = splitN 2 fileArg ret <- info file expr return (ret, True) showType :: IOish m => FilePath -> GhcModT m (String, Bool) showType fileArg = do let [file, line, column] = splitN 3 fileArg ret <- types file (read line) (read column) return (ret, True) doSplit :: IOish m => FilePath -> GhcModT m (String, Bool) doSplit fileArg = do let [file, line, column] = splitN 3 fileArg ret <- splits file (read line) (read column) return (ret, True) doSig :: IOish m => FilePath -> GhcModT m (String, Bool) doSig fileArg = do let [file, line, column] = splitN 3 fileArg ret <- sig file (read line) (read column) return (ret, True) doRefine :: IOish m => FilePath -> GhcModT m (String, Bool) doRefine fileArg = do let [file, line, column, expr] = splitN 4 fileArg ret <- refine file (read line) (read column) expr return (ret, True) doAuto :: IOish m => FilePath -> GhcModT m (String, Bool) doAuto fileArg = do let [file, line, column] = splitN 3 fileArg ret <- auto file (read line) (read column) return (ret, True) ---------------------------------------------------------------- bootIt :: IOish m => GhcModT m (String, Bool) bootIt = do ret <- boot return (ret, True) browseIt :: IOish m => ModuleString -> GhcModT m (String, Bool) browseIt mdl = do let (det,rest') = break (== ' ') mdl rest = dropWhile (== ' ') rest' ret <- if det == "-d" then withOptions setDetailed (browse rest) else browse mdl return (ret, True) where setDetailed opt = opt { detailed = True }