{-# OPTIONS_GHC -Wno-name-shadowing #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MagicHash #-}
{-# LANGUAGE UnboxedTuples #-}
{-# OPTIONS_GHC -fno-cse -fno-warn-orphans #-}
module Clash.GHCi.UI.Monad (
GHCi(..), startGHCi,
GHCiState(..), setGHCiState, getGHCiState, modifyGHCiState,
GHCiOption(..), isOptionSet, setOption, unsetOption,
Command(..),
PromptFunction,
BreakLocation(..),
TickArray,
getDynFlags,
runStmt, runDecls, resume, timeIt, recordBreak, revertCAFs,
printForUserNeverQualify, printForUserModInfo,
printForUser, printForUserPartWay, prettyLocations,
initInterpBuffering,
turnOffBuffering, turnOffBuffering_,
flushInterpBuffers,
mkEvalWrapper
) where
#include "HsVersions.h"
import Clash.GHCi.UI.Info (ModInfo)
import qualified GHC
import GhcMonad hiding (liftIO)
import Outputable hiding (printForUser, printForUserPartWay)
import qualified Outputable
import DynFlags
import FastString
import HscTypes
import SrcLoc
import Module
import GHCi
import GHCi.RemoteTypes
import HsSyn (ImportDecl, GhcPs)
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 GHC.LanguageExtensions as LangExt
data GHCiState = GHCiState
{
progname :: String,
args :: [String],
evalWrapper :: ForeignHValue,
prompt :: PromptFunction,
prompt_cont :: PromptFunction,
editor :: String,
stop :: String,
options :: [GHCiOption],
line_number :: !Int,
break_ctr :: !Int,
breaks :: ![(Int, BreakLocation)],
tickarrays :: ModuleEnv TickArray,
ghci_commands :: [Command],
ghci_macros :: [Command],
last_command :: Maybe Command,
cmdqueue :: [String],
remembered_ctx :: [InteractiveImport],
transient_ctx :: [InteractiveImport],
extra_imports :: [ImportDecl GhcPs],
prelude_imports :: [ImportDecl GhcPs],
ghc_e :: Bool,
short_help :: String,
long_help :: String,
lastErrorLocations :: IORef [(FastString, Int)],
mod_infos :: !(Map ModuleName ModInfo),
flushStdHandles :: ForeignHValue,
noBuffering :: ForeignHValue
}
type TickArray = Array Int [(GHC.BreakIndex,RealSrcSpan)]
data Command
= Command
{ cmdName :: String
, cmdAction :: String -> InputT GHCi Bool
, cmdHidden :: Bool
, cmdCompletionFunc :: CompletionFunc GHCi
}
type PromptFunction = [String]
-> Int
-> GHCi SDoc
data GHCiOption
= ShowTiming
| ShowType
| RevertCAFs
| Multiline
| CollectInfo
deriving Eq
data BreakLocation
= BreakLocation
{ breakModule :: !GHC.Module
, breakLoc :: !SrcSpan
, breakTick :: {-# UNPACK #-} !Int
, onBreakCmd :: String
}
instance Eq BreakLocation where
loc1 == loc2 = breakModule loc1 == breakModule loc2 &&
breakTick loc1 == breakTick loc2
prettyLocations :: [(Int, BreakLocation)] -> SDoc
prettyLocations [] = text "No active breakpoints."
prettyLocations locs = vcat $ map (\(i, loc) -> brackets (int i) <+> ppr loc) $ reverse $ locs
instance Outputable BreakLocation where
ppr loc = (ppr $ breakModule loc) <+> ppr (breakLoc loc) <+>
if null (onBreakCmd loc)
then Outputable.empty
else doubleQuotes (text (onBreakCmd loc))
recordBreak :: BreakLocation -> GHCi (Bool, Int)
recordBreak brkLoc = do
st <- getGHCiState
let oldActiveBreaks = breaks st
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 = (oldCounter, brkLoc) : oldActiveBreaks
}
return (False, oldCounter)
newtype GHCi a = GHCi { unGHCi :: IORef GHCiState -> Ghc a }
reflectGHCi :: (Session, IORef GHCiState) -> GHCi a -> IO a
reflectGHCi (s, gs) m = unGhc (unGHCi m gs) s
reifyGHCi :: ((Session, IORef GHCiState) -> IO a) -> GHCi a
reifyGHCi f = GHCi f'
where
f' gs = reifyGhc (f'' gs)
f'' gs s = f (s, gs)
startGHCi :: GHCi a -> GHCiState -> Ghc a
startGHCi g state = do ref <- liftIO $ newIORef state; unGHCi g ref
instance Functor GHCi where
fmap = liftM
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 HasGhciState m where
getGHCiState :: m GHCiState
setGHCiState :: GHCiState -> m ()
modifyGHCiState :: (GHCiState -> GHCiState) -> m ()
instance HasGhciState GHCi where
getGHCiState = GHCi $ \r -> liftIO $ readIORef r
setGHCiState s = GHCi $ \r -> liftIO $ writeIORef r s
modifyGHCiState f = GHCi $ \r -> liftIO $ modifyIORef r f
instance (MonadTrans t, Monad m, HasGhciState m) => HasGhciState (t m) where
getGHCiState = lift getGHCiState
setGHCiState = lift . setGHCiState
modifyGHCiState = lift . modifyGHCiState
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 :: GHCiOption -> GHCi Bool
isOptionSet opt
= do st <- getGHCiState
return (opt `elem` options st)
setOption :: GHCiOption -> GHCi ()
setOption opt
= do st <- getGHCiState
setGHCiState (st{ options = opt : filter (/= opt) (options st) })
unsetOption :: GHCiOption -> GHCi ()
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 :: SDoc -> GHCi ()
printForUserPartWay doc = do
unqual <- GHC.getPrintUnqual
dflags <- getDynFlags
liftIO $ Outputable.printForUserPartWay dflags stdout (pprUserLength dflags) unqual doc
runStmt :: String -> GHC.SingleStep -> GHCi (Maybe GHC.ExecResult)
runStmt expr 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 expr opts
runDecls :: String -> GHCi (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)
resume :: (SrcSpan -> Bool) -> GHC.SingleStep -> GHCi GHC.ExecResult
resume canLogSpan step = do
st <- getGHCiState
reifyGHCi $ \x ->
withProgName (progname st) $
withArgs (args st) $
reflectGHCi x $ do
GHC.resumeExec canLogSpan step
timeIt :: (a -> Maybe Integer) -> InputT GHCi a -> InputT GHCi a
timeIt getAllocs action
= do b <- lift $ isOptionSet ShowTiming
if not b
then action
else do time1 <- liftIO $ getCurrentTime
a <- action
let allocs = getAllocs a
time2 <- liftIO $ getCurrentTime
dflags <- getDynFlags
let period = time2 `diffUTCTime` time1
liftIO $ printTimes dflags allocs (realToFrac period)
return a
printTimes :: DynFlags -> Maybe Integer -> Double -> IO ()
printTimes dflags mallocs 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')
revertCAFs :: GHCi ()
revertCAFs = do
liftIO rts_revertCAFs
s <- getGHCiState
when (not (ghc_e s)) turnOffBuffering
foreign import ccall "revertCAFs" rts_revertCAFs :: IO ()
initInterpBuffering :: Ghc (ForeignHValue, ForeignHValue)
initInterpBuffering = do
nobuf <- compileGHCiExpr $
"do { System.IO.hSetBuffering System.IO.stdin System.IO.NoBuffering; " ++
" System.IO.hSetBuffering System.IO.stdout System.IO.NoBuffering; " ++
" System.IO.hSetBuffering System.IO.stderr System.IO.NoBuffering }"
flush <- compileGHCiExpr $
"do { System.IO.hFlush System.IO.stdout; " ++
" System.IO.hFlush System.IO.stderr }"
return (nobuf, flush)
flushInterpBuffers :: GHCi ()
flushInterpBuffers = do
st <- getGHCiState
hsc_env <- GHC.getSession
liftIO $ evalIO hsc_env (flushStdHandles st)
turnOffBuffering :: GHCi ()
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 =
compileGHCiExpr $
"\\m -> System.Environment.withProgName " ++ show progname ++
"(System.Environment.withArgs " ++ show args ++ " m)"
compileGHCiExpr :: GhcMonad m => String -> m ForeignHValue
compileGHCiExpr expr = do
hsc_env <- getSession
let dflags = hsc_dflags hsc_env
no_rb_hsc_env =
hsc_env { hsc_dflags = xopt_unset dflags LangExt.RebindableSyntax }
setSession no_rb_hsc_env
res <- GHC.compileExprRemote expr
setSession hsc_env
pure res