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|
{-# LANGUAGE CPP, FlexibleInstances, DeriveFunctor #-}
{-# OPTIONS_GHC -fno-cse -fno-warn-orphans #-}
-- -fno-cse is needed for GLOBAL_VAR's to behave properly
-----------------------------------------------------------------------------
--
-- Monadery code used in InteractiveUI
--
-- (c) The GHC Team 2005-2006
--
-----------------------------------------------------------------------------
module GHCi.UI.Monad (
GHCi(..), startGHCi,
GHCiState(..), GhciMonad(..),
GHCiOption(..), isOptionSet, setOption, unsetOption,
Command(..), CommandResult(..), cmdSuccess,
LocalConfigBehaviour(..),
PromptFunction,
BreakLocation(..),
TickArray,
getDynFlags,
runStmt, runDecls, runDecls', resume, recordBreak, revertCAFs,
ActionStats(..), runAndPrintStats, runWithStats, printStats,
printForUserNeverQualify, printForUserModInfo,
printForUser, printForUserPartWay, prettyLocations,
compileGHCiExpr,
initInterpBuffering,
turnOffBuffering, turnOffBuffering_,
flushInterpBuffers,
mkEvalWrapper
) where
#include "HsVersions.h"
import GHCi.UI.Info (ModInfo)
import qualified GHC
import GhcMonad hiding (liftIO)
import Outputable hiding (printForUser, printForUserPartWay)
import qualified Outputable
import OccName
import DynFlags
import FastString
import HscTypes
import SrcLoc
import Module
import RdrName (mkOrig)
import PrelNames (gHC_GHCI_HELPERS)
import GHCi
import GHCi.RemoteTypes
import HsSyn (ImportDecl, GhcPs, GhciLStmt, LHsDecl)
import HsUtils
import Util
import Exception
import Numeric
import Data.Array
import Data.IORef
import Data.Time
import System.Environment
import System.IO
import Control.Monad
import Prelude hiding ((<>))
import System.Console.Haskeline (CompletionFunc, InputT)
import qualified System.Console.Haskeline as Haskeline
import Control.Monad.Trans.Class
import Control.Monad.IO.Class
import Data.Map.Strict (Map)
import qualified Data.IntMap.Strict as IntMap
import qualified GHC.LanguageExtensions as LangExt
-----------------------------------------------------------------------------
-- GHCi monad
data GHCiState = GHCiState
{
progname :: String,
args :: [String],
evalWrapper :: ForeignHValue, -- ^ of type @IO a -> IO a@
prompt :: PromptFunction,
prompt_cont :: PromptFunction,
editor :: String,
stop :: String,
localConfig :: LocalConfigBehaviour,
options :: [GHCiOption],
line_number :: !Int, -- ^ input line
break_ctr :: !Int,
breaks :: !(IntMap.IntMap BreakLocation),
tickarrays :: ModuleEnv TickArray,
-- ^ 'tickarrays' caches the 'TickArray' for loaded modules,
-- so that we don't rebuild it each time the user sets
-- a breakpoint.
ghci_commands :: [Command],
-- ^ available ghci commands
ghci_macros :: [Command],
-- ^ user-defined macros
last_command :: Maybe Command,
-- ^ @:@ at the GHCi prompt repeats the last command, so we
-- remember it here
cmd_wrapper :: InputT GHCi CommandResult -> InputT GHCi (Maybe Bool),
-- ^ The command wrapper is run for each command or statement.
-- The 'Bool' value denotes whether the command is successful and
-- 'Nothing' means to exit GHCi.
cmdqueue :: [String],
remembered_ctx :: [InteractiveImport],
-- ^ The imports that the user has asked for, via import
-- declarations and :module commands. This list is
-- persistent over :reloads (but any imports for modules
-- that are not loaded are temporarily ignored). After a
-- :load, all the home-package imports are stripped from
-- this list.
--
-- See bugs #2049, #1873, #1360
transient_ctx :: [InteractiveImport],
-- ^ An import added automatically after a :load, usually of
-- the most recently compiled module. May be empty if
-- there are no modules loaded. This list is replaced by
-- :load, :reload, and :add. In between it may be modified
-- by :module.
extra_imports :: [ImportDecl GhcPs],
-- ^ These are "always-on" imports, added to the
-- context regardless of what other imports we have.
-- This is useful for adding imports that are required
-- by setGHCiMonad. Be careful adding things here:
-- you can create ambiguities if these imports overlap
-- with other things in scope.
--
-- NB. although this is not currently used by GHCi itself,
-- it was added to support other front-ends that are based
-- on the GHCi code. Potentially we could also expose
-- this functionality via GHCi commands.
prelude_imports :: [ImportDecl GhcPs],
-- ^ These imports are added to the context when
-- -XImplicitPrelude is on and we don't have a *-module
-- in the context. They can also be overridden by another
-- import for the same module, e.g.
-- "import Prelude hiding (map)"
ghc_e :: Bool, -- ^ True if this is 'ghc -e' (or runghc)
short_help :: String,
-- ^ help text to display to a user
long_help :: String,
lastErrorLocations :: IORef [(FastString, Int)],
mod_infos :: !(Map ModuleName ModInfo),
flushStdHandles :: ForeignHValue,
-- ^ @hFlush stdout; hFlush stderr@ in the interpreter
noBuffering :: ForeignHValue
-- ^ @hSetBuffering NoBuffering@ for stdin/stdout/stderr
}
type TickArray = Array Int [(GHC.BreakIndex,RealSrcSpan)]
-- | A GHCi command
data Command
= Command
{ cmdName :: String
-- ^ Name of GHCi command (e.g. "exit")
, cmdAction :: String -> InputT GHCi Bool
-- ^ The 'Bool' value denotes whether to exit GHCi
, cmdHidden :: Bool
-- ^ Commands which are excluded from default completion
-- and @:help@ summary. This is usually set for commands not
-- useful for interactive use but rather for IDEs.
, cmdCompletionFunc :: CompletionFunc GHCi
-- ^ 'CompletionFunc' for arguments
}
data CommandResult
= CommandComplete
{ cmdInput :: String
, cmdResult :: Either SomeException (Maybe Bool)
, cmdStats :: ActionStats
}
| CommandIncomplete
-- ^ Unterminated multiline command
deriving Show
cmdSuccess :: Haskeline.MonadException m => CommandResult -> m (Maybe Bool)
cmdSuccess CommandComplete{ cmdResult = Left e } = liftIO $ throwIO e
cmdSuccess CommandComplete{ cmdResult = Right r } = return r
cmdSuccess CommandIncomplete = return $ Just True
type PromptFunction = [String]
-> Int
-> GHCi SDoc
data GHCiOption
= ShowTiming -- show time/allocs after evaluation
| ShowType -- show the type of expressions
| RevertCAFs -- revert CAFs after every evaluation
| Multiline -- use multiline commands
| CollectInfo -- collect and cache information about
-- modules after load
deriving Eq
-- | Treatment of ./.ghci files. For now we either load or
-- ignore. But later we could implement a "safe mode" where
-- only safe operations are performed.
--
data LocalConfigBehaviour
= SourceLocalConfig
| IgnoreLocalConfig
deriving (Eq)
data BreakLocation
= BreakLocation
{ breakModule :: !GHC.Module
, breakLoc :: !SrcSpan
, breakTick :: {-# UNPACK #-} !Int
, breakEnabled:: !Bool
, onBreakCmd :: String
}
instance Eq BreakLocation where
loc1 == loc2 = breakModule loc1 == breakModule loc2 &&
breakTick loc1 == breakTick loc2
prettyLocations :: IntMap.IntMap BreakLocation -> SDoc
prettyLocations locs =
case IntMap.null locs of
True -> text "No active breakpoints."
False -> vcat $ map (\(i, loc) -> brackets (int i) <+> ppr loc) $ IntMap.toAscList locs
instance Outputable BreakLocation where
ppr loc = (ppr $ breakModule loc) <+> ppr (breakLoc loc) <+> pprEnaDisa <+>
if null (onBreakCmd loc)
then Outputable.empty
else doubleQuotes (text (onBreakCmd loc))
where pprEnaDisa = case breakEnabled loc of
True -> text "enabled"
False -> text "disabled"
recordBreak
:: GhciMonad m => BreakLocation -> m (Bool{- was already present -}, Int)
recordBreak brkLoc = do
st <- getGHCiState
let oldmap = breaks st
oldActiveBreaks = IntMap.assocs oldmap
-- don't store the same break point twice
case [ nm | (nm, loc) <- oldActiveBreaks, loc == brkLoc ] of
(nm:_) -> return (True, nm)
[] -> do
let oldCounter = break_ctr st
newCounter = oldCounter + 1
setGHCiState $ st { break_ctr = newCounter,
breaks = IntMap.insert oldCounter brkLoc oldmap
}
return (False, oldCounter)
newtype GHCi a = GHCi { unGHCi :: IORef GHCiState -> Ghc a }
deriving (Functor)
reflectGHCi :: (Session, IORef GHCiState) -> GHCi a -> IO a
reflectGHCi (s, gs) m = unGhc (unGHCi m gs) s
startGHCi :: GHCi a -> GHCiState -> Ghc a
startGHCi g state = do ref <- liftIO $ newIORef state; unGHCi g ref
instance Applicative GHCi where
pure a = GHCi $ \_ -> pure a
(<*>) = ap
instance Monad GHCi where
(GHCi m) >>= k = GHCi $ \s -> m s >>= \a -> unGHCi (k a) s
class GhcMonad m => GhciMonad m where
getGHCiState :: m GHCiState
setGHCiState :: GHCiState -> m ()
modifyGHCiState :: (GHCiState -> GHCiState) -> m ()
reifyGHCi :: ((Session, IORef GHCiState) -> IO a) -> m a
instance GhciMonad GHCi where
getGHCiState = GHCi $ \r -> liftIO $ readIORef r
setGHCiState s = GHCi $ \r -> liftIO $ writeIORef r s
modifyGHCiState f = GHCi $ \r -> liftIO $ modifyIORef r f
reifyGHCi f = GHCi $ \r -> reifyGhc $ \s -> f (s, r)
instance GhciMonad (InputT GHCi) where
getGHCiState = lift getGHCiState
setGHCiState = lift . setGHCiState
modifyGHCiState = lift . modifyGHCiState
reifyGHCi = lift . reifyGHCi
liftGhc :: Ghc a -> GHCi a
liftGhc m = GHCi $ \_ -> m
instance MonadIO GHCi where
liftIO = liftGhc . liftIO
instance HasDynFlags GHCi where
getDynFlags = getSessionDynFlags
instance GhcMonad GHCi where
setSession s' = liftGhc $ setSession s'
getSession = liftGhc $ getSession
instance HasDynFlags (InputT GHCi) where
getDynFlags = lift getDynFlags
instance GhcMonad (InputT GHCi) where
setSession = lift . setSession
getSession = lift getSession
instance ExceptionMonad GHCi where
gcatch m h = GHCi $ \r -> unGHCi m r `gcatch` (\e -> unGHCi (h e) r)
gmask f =
GHCi $ \s -> gmask $ \io_restore ->
let
g_restore (GHCi m) = GHCi $ \s' -> io_restore (m s')
in
unGHCi (f g_restore) s
instance Haskeline.MonadException Ghc where
controlIO f = Ghc $ \s -> Haskeline.controlIO $ \(Haskeline.RunIO run) -> let
run' = Haskeline.RunIO (fmap (Ghc . const) . run . flip unGhc s)
in fmap (flip unGhc s) $ f run'
instance Haskeline.MonadException GHCi where
controlIO f = GHCi $ \s -> Haskeline.controlIO $ \(Haskeline.RunIO run) -> let
run' = Haskeline.RunIO (fmap (GHCi . const) . run . flip unGHCi s)
in fmap (flip unGHCi s) $ f run'
instance ExceptionMonad (InputT GHCi) where
gcatch = Haskeline.catch
gmask f = Haskeline.liftIOOp gmask (f . Haskeline.liftIOOp_)
isOptionSet :: GhciMonad m => GHCiOption -> m Bool
isOptionSet opt
= do st <- getGHCiState
return (opt `elem` options st)
setOption :: GhciMonad m => GHCiOption -> m ()
setOption opt
= do st <- getGHCiState
setGHCiState (st{ options = opt : filter (/= opt) (options st) })
unsetOption :: GhciMonad m => GHCiOption -> m ()
unsetOption opt
= do st <- getGHCiState
setGHCiState (st{ options = filter (/= opt) (options st) })
printForUserNeverQualify :: GhcMonad m => SDoc -> m ()
printForUserNeverQualify doc = do
dflags <- getDynFlags
liftIO $ Outputable.printForUser dflags stdout neverQualify doc
printForUserModInfo :: GhcMonad m => GHC.ModuleInfo -> SDoc -> m ()
printForUserModInfo info doc = do
dflags <- getDynFlags
mUnqual <- GHC.mkPrintUnqualifiedForModule info
unqual <- maybe GHC.getPrintUnqual return mUnqual
liftIO $ Outputable.printForUser dflags stdout unqual doc
printForUser :: GhcMonad m => SDoc -> m ()
printForUser doc = do
unqual <- GHC.getPrintUnqual
dflags <- getDynFlags
liftIO $ Outputable.printForUser dflags stdout unqual doc
printForUserPartWay :: GhcMonad m => SDoc -> m ()
printForUserPartWay doc = do
unqual <- GHC.getPrintUnqual
dflags <- getDynFlags
liftIO $ Outputable.printForUserPartWay dflags stdout (pprUserLength dflags) unqual doc
-- | Run a single Haskell expression
runStmt
:: GhciMonad m
=> GhciLStmt GhcPs -> String -> GHC.SingleStep -> m (Maybe GHC.ExecResult)
runStmt stmt stmt_text step = do
st <- getGHCiState
GHC.handleSourceError (\e -> do GHC.printException e; return Nothing) $ do
let opts = GHC.execOptions
{ GHC.execSourceFile = progname st
, GHC.execLineNumber = line_number st
, GHC.execSingleStep = step
, GHC.execWrap = \fhv -> EvalApp (EvalThis (evalWrapper st))
(EvalThis fhv) }
Just <$> GHC.execStmt' stmt stmt_text opts
runDecls :: GhciMonad m => String -> m (Maybe [GHC.Name])
runDecls decls = do
st <- getGHCiState
reifyGHCi $ \x ->
withProgName (progname st) $
withArgs (args st) $
reflectGHCi x $ do
GHC.handleSourceError (\e -> do GHC.printException e;
return Nothing) $ do
r <- GHC.runDeclsWithLocation (progname st) (line_number st) decls
return (Just r)
runDecls' :: GhciMonad m => [LHsDecl GhcPs] -> m (Maybe [GHC.Name])
runDecls' decls = do
st <- getGHCiState
reifyGHCi $ \x ->
withProgName (progname st) $
withArgs (args st) $
reflectGHCi x $
GHC.handleSourceError
(\e -> do GHC.printException e;
return Nothing)
(Just <$> GHC.runParsedDecls decls)
resume :: GhciMonad m => (SrcSpan -> Bool) -> GHC.SingleStep -> m GHC.ExecResult
resume canLogSpan step = do
st <- getGHCiState
reifyGHCi $ \x ->
withProgName (progname st) $
withArgs (args st) $
reflectGHCi x $ do
GHC.resumeExec canLogSpan step
-- --------------------------------------------------------------------------
-- timing & statistics
data ActionStats = ActionStats
{ actionAllocs :: Maybe Integer
, actionElapsedTime :: Double
} deriving Show
runAndPrintStats
:: GhciMonad m
=> (a -> Maybe Integer)
-> m a
-> m (ActionStats, Either SomeException a)
runAndPrintStats getAllocs action = do
result <- runWithStats getAllocs action
case result of
(stats, Right{}) -> do
showTiming <- isOptionSet ShowTiming
when showTiming $ do
dflags <- getDynFlags
liftIO $ printStats dflags stats
_ -> return ()
return result
runWithStats
:: ExceptionMonad m
=> (a -> Maybe Integer) -> m a -> m (ActionStats, Either SomeException a)
runWithStats getAllocs action = do
t0 <- liftIO getCurrentTime
result <- gtry action
let allocs = either (const Nothing) getAllocs result
t1 <- liftIO getCurrentTime
let elapsedTime = realToFrac $ t1 `diffUTCTime` t0
return (ActionStats allocs elapsedTime, result)
printStats :: DynFlags -> ActionStats -> IO ()
printStats dflags ActionStats{actionAllocs = mallocs, actionElapsedTime = secs}
= do let secs_str = showFFloat (Just 2) secs
putStrLn (showSDoc dflags (
parens (text (secs_str "") <+> text "secs" <> comma <+>
case mallocs of
Nothing -> empty
Just allocs ->
text (separateThousands allocs) <+> text "bytes")))
where
separateThousands n = reverse . sep . reverse . show $ n
where sep n'
| n' `lengthAtMost` 3 = n'
| otherwise = take 3 n' ++ "," ++ sep (drop 3 n')
-----------------------------------------------------------------------------
-- reverting CAFs
revertCAFs :: GhciMonad m => m ()
revertCAFs = do
hsc_env <- GHC.getSession
liftIO $ iservCmd hsc_env RtsRevertCAFs
s <- getGHCiState
when (not (ghc_e s)) turnOffBuffering
-- Have to turn off buffering again, because we just
-- reverted stdout, stderr & stdin to their defaults.
-----------------------------------------------------------------------------
-- To flush buffers for the *interpreted* computation we need
-- to refer to *its* stdout/stderr handles
-- | Compile "hFlush stdout; hFlush stderr" once, so we can use it repeatedly
initInterpBuffering :: Ghc (ForeignHValue, ForeignHValue)
initInterpBuffering = do
let mkHelperExpr :: OccName -> Ghc ForeignHValue
mkHelperExpr occ =
GHC.compileParsedExprRemote
$ GHC.nlHsVar $ RdrName.mkOrig gHC_GHCI_HELPERS occ
nobuf <- mkHelperExpr $ mkVarOcc "disableBuffering"
flush <- mkHelperExpr $ mkVarOcc "flushAll"
return (nobuf, flush)
-- | Invoke "hFlush stdout; hFlush stderr" in the interpreter
flushInterpBuffers :: GhciMonad m => m ()
flushInterpBuffers = do
st <- getGHCiState
hsc_env <- GHC.getSession
liftIO $ evalIO hsc_env (flushStdHandles st)
-- | Turn off buffering for stdin, stdout, and stderr in the interpreter
turnOffBuffering :: GhciMonad m => m ()
turnOffBuffering = do
st <- getGHCiState
turnOffBuffering_ (noBuffering st)
turnOffBuffering_ :: GhcMonad m => ForeignHValue -> m ()
turnOffBuffering_ fhv = do
hsc_env <- getSession
liftIO $ evalIO hsc_env fhv
mkEvalWrapper :: GhcMonad m => String -> [String] -> m ForeignHValue
mkEvalWrapper progname args =
runInternal $ GHC.compileParsedExprRemote
$ evalWrapper `GHC.mkHsApp` nlHsString progname
`GHC.mkHsApp` nlList (map nlHsString args)
where
nlHsString = nlHsLit . mkHsString
evalWrapper =
GHC.nlHsVar $ RdrName.mkOrig gHC_GHCI_HELPERS (mkVarOcc "evalWrapper")
-- | Run a 'GhcMonad' action to compile an expression for internal usage.
runInternal :: GhcMonad m => m a -> m a
runInternal =
withTempSession mkTempSession
where
mkTempSession hsc_env = hsc_env
{ hsc_dflags = (hsc_dflags hsc_env) {
-- Running GHCi's internal expression is incompatible with -XSafe.
-- We temporarily disable any Safe Haskell settings while running
-- GHCi internal expressions. (see #12509)
safeHaskell = Sf_None
}
-- RebindableSyntax can wreak havoc with GHCi in several ways
-- (see #13385 and #14342 for examples), so we temporarily
-- disable it too.
`xopt_unset` LangExt.RebindableSyntax
-- We heavily depend on -fimplicit-import-qualified to compile expr
-- with fully qualified names without imports.
`gopt_set` Opt_ImplicitImportQualified
}
compileGHCiExpr :: GhcMonad m => String -> m ForeignHValue
compileGHCiExpr expr = runInternal $ GHC.compileExprRemote expr
|