{-# LANGUAGE CPP, GeneralizedNewtypeDeriving, FlexibleInstances #-} {-# LANGUAGE FlexibleContexts, MultiParamTypeClasses, RankNTypes #-} {-# LANGUAGE TypeFamilies, UndecidableInstances, RecordWildCards #-} {-# LANGUAGE StandaloneDeriving #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module Language.Haskell.GhcMod.Monad ( GhcMod , runGhcMod , liftGhcMod , GhcModT , IOish , GhcModEnv(..) , GhcModWriter , GhcModState(..) , runGhcModT' , runGhcModT , newGhcModEnv , withErrorHandler , toGhcMod , options , cradle , Options(..) , defaultOptions , module Control.Monad.Reader.Class , module Control.Monad.Writer.Class , module Control.Monad.State.Class ) where #if __GLASGOW_HASKELL__ < 708 -- 'CoreMonad.MonadIO' and 'Control.Monad.IO.Class.MonadIO' are different -- classes before ghc 7.8 #define DIFFERENT_MONADIO 1 -- RWST doen't have a MonadIO instance before ghc 7.8 #define MONADIO_INSTANCES 1 #endif import Language.Haskell.GhcMod.Types import Language.Haskell.GhcMod.Cradle import Language.Haskell.GhcMod.DynFlags import Language.Haskell.GhcMod.GhcPkg import Language.Haskell.GhcMod.GHCChoice import Language.Haskell.GhcMod.CabalApi import qualified Language.Haskell.GhcMod.Gap as Gap import DynFlags import Exception import GHC import qualified GHC as G import GHC.Paths (libdir) import GhcMonad #if __GLASGOW_HASKELL__ <= 702 import HscTypes #endif -- MonadUtils of GHC 7.6 or earlier defines its own MonadIO. -- RWST does not automatically become an instance of MonadIO. -- MonadUtils of GHC 7.8 or later imports MonadIO in Monad.Control.IO.Class. -- So, RWST automatically becomes an instance of MonadIO. import MonadUtils #if DIFFERENT_MONADIO import Control.Monad.Trans.Class (lift) import qualified Control.Monad.IO.Class import Data.Monoid (Monoid) #endif import Control.Applicative (Alternative) import Control.Monad (MonadPlus, liftM, void) import Control.Monad.Base (MonadBase, liftBase) import Control.Monad.Reader.Class import Control.Monad.State.Class import Control.Monad.Trans.Class import Control.Monad.Trans.Maybe -- fixme import Control.Monad.Trans.Control (MonadBaseControl(..), StM, liftBaseWith, control, liftBaseOp, liftBaseOp_) import Control.Monad.Trans.RWS.Lazy (RWST(..), runRWST) import Control.Monad.Writer.Class import Control.Monad.Error (Error(..), ErrorT(..), MonadError) import Data.Maybe (fromJust, isJust) import Data.IORef (IORef, readIORef, writeIORef, newIORef) import System.Exit (exitSuccess) import System.IO (hPutStr, hPrint, stderr) import System.Directory (getCurrentDirectory) ---------------------------------------------------------------- data GhcModEnv = GhcModEnv { gmGhcSession :: !(IORef HscEnv) , gmOptions :: Options , gmCradle :: Cradle } data GhcModState = GhcModState deriving (Eq,Show,Read) defaultState :: GhcModState defaultState = GhcModState type GhcModWriter = () data GhcModError = GMENoMsg | GMEString String | GMECabal | GMEGhc deriving (Eq,Show,Read) instance Error GhcModError where noMsg = GMENoMsg strMsg = GMEString ---------------------------------------------------------------- type IOish m = (Functor m, MonadIO m, MonadBaseControl IO m) type GhcMod a = GhcModT (ErrorT GhcModError IO) a newtype GhcModT m a = GhcModT { unGhcModT :: RWST GhcModEnv GhcModWriter GhcModState m a } deriving (Functor , Applicative , Alternative , Monad , MonadPlus , MonadIO #if DIFFERENT_MONADIO , Control.Monad.IO.Class.MonadIO #endif , MonadReader GhcModEnv , MonadWriter GhcModWriter , MonadState GhcModState , MonadTrans ) deriving instance MonadError GhcModError m => MonadError GhcModError (GhcModT m) #if MONADIO_INSTANCES instance (Monoid w, MonadIO m) => MonadIO (RWST r w s m) where liftIO = lift . liftIO instance (Error e, MonadIO m) => MonadIO (ErrorT e m) where liftIO = lift . liftIO instance (MonadIO m) => MonadIO (MaybeT m) where liftIO = lift . liftIO #endif ---------------------------------------------------------------- -- | Initialize the 'DynFlags' relating to the compilation of a single -- file or GHC session according to the 'Cradle' and 'Options' -- provided. initializeFlagsWithCradle :: GhcMonad m => Options -> Cradle -> m () initializeFlagsWithCradle opt c | cabal = withCabal |||> withSandbox | otherwise = withSandbox where mCradleFile = cradleCabalFile c cabal = isJust mCradleFile ghcopts = ghcOpts opt withCabal = do pkgDesc <- liftIO $ parseCabalFile $ fromJust mCradleFile compOpts <- liftIO $ getCompilerOptions ghcopts c pkgDesc initSession CabalPkg opt compOpts withSandbox = initSession SingleFile opt compOpts where importDirs = [".","..","../..","../../..","../../../..","../../../../.."] pkgOpts = ghcDbStackOpts $ cradlePkgDbStack c compOpts | null pkgOpts = CompilerOptions ghcopts importDirs [] | otherwise = CompilerOptions (ghcopts ++ pkgOpts) [wdir,rdir] [] wdir = cradleCurrentDir c rdir = cradleRootDir c initSession :: GhcMonad m => Build -> Options -> CompilerOptions -> m () initSession build Options {..} CompilerOptions {..} = do df <- G.getSessionDynFlags void $ G.setSessionDynFlags =<< (addCmdOpts ghcOptions $ setLinkerOptions $ setIncludeDirs includeDirs $ setBuildEnv build $ setEmptyLogger $ Gap.addPackageFlags depPackages df) ---------------------------------------------------------------- newGhcModEnv :: Options -> FilePath -> IO GhcModEnv newGhcModEnv opt dir = do session <- newIORef (error "empty session") c <- findCradle' dir return GhcModEnv { gmGhcSession = session , gmOptions = opt , gmCradle = c } -- | Run a @GhcModT m@ computation, i.e. one with a custom underlying monad. -- -- You probably don't want this, look at 'runGhcMod' instead. runGhcModT :: IOish m => Options -> GhcModT m a -> m a runGhcModT opt action = do env <- liftBase $ newGhcModEnv opt =<< getCurrentDirectory (a,(_,_)) <- runGhcModT' env defaultState $ do dflags <- getSessionDynFlags defaultCleanupHandler dflags $ do initializeFlagsWithCradle opt (gmCradle env) action return a -- | Run a computation inside @GhcModT@ providing the RWST environment and -- initial state. This is a low level function, use it only if you know what to -- do with 'GhcModEnv' and 'GhcModState'. -- -- You should probably look at 'runGhcModT' instead. runGhcModT' :: IOish m => GhcModEnv -> GhcModState -> GhcModT m a -> m (a,(GhcModState, GhcModWriter)) runGhcModT' r s a = do (a',s',w) <- runRWST (unGhcModT $ initGhcMonad (Just libdir) >> a) r s return (a',(s',w)) -- | Run a 'GhcMod' computation. If you want an underlying monad other than -- 'ErrorT e IO' you should look at 'runGhcModT' runGhcMod :: Options -> GhcMod a -> IO (Either GhcModError a) runGhcMod o a = runErrorT $ runGhcModT o a liftErrorT :: IOish m => GhcModT m a -> GhcModT (ErrorT GhcModError m) a liftErrorT action = GhcModT $ RWST $ \e s -> ErrorT $ Right <$> (runRWST $ unGhcModT action) e s -- | Lift @(GhcModT IO)@ into @GhcMod@, which is an alias for @GhcModT (ErrorT -- GhcModError IO)@. liftGhcMod :: GhcModT IO a -> GhcMod a liftGhcMod = liftErrorT ---------------------------------------------------------------- withErrorHandler :: IOish m => String -> GhcModT m a -> GhcModT m a withErrorHandler label = ghandle ignore where ignore :: IOish m => SomeException -> GhcModT m a ignore e = liftIO $ do hPutStr stderr $ label ++ ":0:0:Error:" hPrint stderr e exitSuccess -- | This is only a transitional mechanism don't use it for new code. toGhcMod :: IOish m => Ghc a -> GhcModT m a toGhcMod a = do s <- gmGhcSession <$> ask liftIO $ unGhc a $ Session s ---------------------------------------------------------------- options :: IOish m => GhcModT m Options options = gmOptions <$> ask cradle :: IOish m => GhcModT m Cradle cradle = gmCradle <$> ask instance (MonadBaseControl IO m) => MonadBase IO (GhcModT m) where liftBase = GhcModT . liftBase instance (MonadBaseControl IO m) => MonadBaseControl IO (GhcModT m) where newtype StM (GhcModT m) a = StGhcMod { unStGhcMod :: StM (RWST GhcModEnv GhcModWriter GhcModState m) a } liftBaseWith f = GhcModT . liftBaseWith $ \runInBase -> f $ liftM StGhcMod . runInBase . unGhcModT restoreM = GhcModT . restoreM . unStGhcMod {-# INLINE liftBaseWith #-} {-# INLINE restoreM #-} -- GHC cannot prove the following instances to be decidable automatically using -- the FlexibleContexts extension as they violate the second Paterson Condition, -- namely that: The assertion has fewer constructors and variables (taken -- together and counting repetitions) than the head. Specifically the -- @MonadBaseControl IO m@ constraint is causing this violation. -- -- Proof of termination: -- -- Assuming all constraints containing the variable `m' exist and are decidable -- we show termination by manually replacing the current set of constraints with -- their own set of constraints and show that this, after a finite number of -- steps, results in the empty set, i.e. not having to check any more -- constraints. -- -- We start by setting the constraints to be those immediate constraints of the -- instance declaration which cannot be proven decidable automatically for the -- type under consideration. -- -- @ -- { MonadBaseControl IO m } -- @ -- -- Classes used: -- -- * @class MonadBase b m => MonadBaseControl b m@ -- -- @ -- { MonadBase IO m } -- @ -- -- Classes used: -- -- * @class (Applicative b, Applicative m, Monad b, Monad m) => MonadBase b m@ -- -- @ -- { Applicative IO, Applicative m, Monad IO, Monad m } -- @ -- -- Classes used: -- -- * @class Monad m@ -- * @class Applicative f => Functor f@ -- -- @ -- { Functor m } -- @ -- -- Classes used: -- -- * @class Functor f@ -- -- @ -- { } -- @ -- ∎ instance (Functor m, MonadIO m, MonadBaseControl IO m) => GhcMonad (GhcModT m) where getSession = (liftIO . readIORef) . gmGhcSession =<< ask setSession a = (liftIO . flip writeIORef a) . gmGhcSession =<< ask #if __GLASGOW_HASKELL__ >= 706 instance (Functor m, MonadIO m, MonadBaseControl IO m) => HasDynFlags (GhcModT m) where getDynFlags = getSessionDynFlags #endif instance (MonadIO m, MonadBaseControl IO m) => ExceptionMonad (GhcModT m) where gcatch act handler = control $ \run -> run act `gcatch` (run . handler) gmask = liftBaseOp gmask . liftRestore where liftRestore f r = f $ liftBaseOp_ r