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|
-- -----------------------------------------------------------------------------
--
-- (c) The University of Glasgow, 2005-2007
--
-- Running statements interactively
--
-- -----------------------------------------------------------------------------
module InteractiveEval (
#ifdef GHCI
RunResult(..), Status(..), Resume(..), History(..),
runStmt, runStmtWithLocation, runDecls, runDeclsWithLocation,
parseImportDecl, SingleStep(..),
resume,
abandon, abandonAll,
getResumeContext,
getHistorySpan,
getModBreaks,
getHistoryModule,
back, forward,
setContext, getContext,
availsToGlobalRdrEnv,
getNamesInScope,
getRdrNamesInScope,
moduleIsInterpreted,
getInfo,
exprType,
typeKind,
parseName,
showModule,
isModuleInterpreted,
compileExpr, dynCompileExpr,
Term(..), obtainTermFromId, obtainTermFromVal, reconstructType
#endif
) where
#ifdef GHCI
#include "HsVersions.h"
import GhcMonad
import HscMain
import HsSyn
import HscTypes
import InstEnv
import TyCon
import Type hiding( typeKind )
import TcType hiding( typeKind )
import Var
import Id
import Name hiding ( varName )
import NameSet
import Avail
import RdrName
import VarSet
import VarEnv
import ByteCodeInstr
import Linker
import DynFlags
import Unique
import UniqSupply
import Module
import Panic
import UniqFM
import Maybes
import ErrUtils
import SrcLoc
import BreakArray
import RtClosureInspect
import Outputable
import FastString
import MonadUtils
import System.Directory
import Data.Dynamic
import Data.Either
import Data.List (find)
import Control.Monad
import Foreign.Safe
import Foreign.C
import GHC.Exts
import Data.Array
import Exception
import Control.Concurrent
import System.IO.Unsafe
-- -----------------------------------------------------------------------------
-- running a statement interactively
data RunResult
= RunOk [Name] -- ^ names bound by this evaluation
| RunException SomeException -- ^ statement raised an exception
| RunBreak ThreadId [Name] (Maybe BreakInfo)
data Status
= Break Bool HValue BreakInfo ThreadId
-- ^ the computation hit a breakpoint (Bool <=> was an exception)
| Complete (Either SomeException [HValue])
-- ^ the computation completed with either an exception or a value
data Resume
= Resume {
resumeStmt :: String, -- the original statement
resumeThreadId :: ThreadId, -- thread running the computation
resumeBreakMVar :: MVar (),
resumeStatMVar :: MVar Status,
resumeBindings :: ([TyThing], GlobalRdrEnv),
resumeFinalIds :: [Id], -- [Id] to bind on completion
resumeApStack :: HValue, -- The object from which we can get
-- value of the free variables.
resumeBreakInfo :: Maybe BreakInfo,
-- the breakpoint we stopped at
-- (Nothing <=> exception)
resumeSpan :: SrcSpan, -- just a cache, otherwise it's a pain
-- to fetch the ModDetails & ModBreaks
-- to get this.
resumeHistory :: [History],
resumeHistoryIx :: Int -- 0 <==> at the top of the history
}
getResumeContext :: GhcMonad m => m [Resume]
getResumeContext = withSession (return . ic_resume . hsc_IC)
data SingleStep
= RunToCompletion
| SingleStep
| RunAndLogSteps
isStep :: SingleStep -> Bool
isStep RunToCompletion = False
isStep _ = True
data History
= History {
historyApStack :: HValue,
historyBreakInfo :: BreakInfo,
historyEnclosingDecls :: [String] -- declarations enclosing the breakpoint
}
mkHistory :: HscEnv -> HValue -> BreakInfo -> History
mkHistory hsc_env hval bi = let
decls = findEnclosingDecls hsc_env bi
in History hval bi decls
getHistoryModule :: History -> Module
getHistoryModule = breakInfo_module . historyBreakInfo
getHistorySpan :: HscEnv -> History -> SrcSpan
getHistorySpan hsc_env hist =
let inf = historyBreakInfo hist
num = breakInfo_number inf
in case lookupUFM (hsc_HPT hsc_env) (moduleName (breakInfo_module inf)) of
Just hmi -> modBreaks_locs (getModBreaks hmi) ! num
_ -> panic "getHistorySpan"
getModBreaks :: HomeModInfo -> ModBreaks
getModBreaks hmi
| Just linkable <- hm_linkable hmi,
[BCOs _ modBreaks] <- linkableUnlinked linkable
= modBreaks
| otherwise
= emptyModBreaks -- probably object code
{- | Finds the enclosing top level function name -}
-- ToDo: a better way to do this would be to keep hold of the decl_path computed
-- by the coverage pass, which gives the list of lexically-enclosing bindings
-- for each tick.
findEnclosingDecls :: HscEnv -> BreakInfo -> [String]
findEnclosingDecls hsc_env inf =
let hmi = expectJust "findEnclosingDecls" $
lookupUFM (hsc_HPT hsc_env) (moduleName $ breakInfo_module inf)
mb = getModBreaks hmi
in modBreaks_decls mb ! breakInfo_number inf
-- | Update fixity environment in the current interactive context.
updateFixityEnv :: GhcMonad m => FixityEnv -> m ()
updateFixityEnv fix_env = do
hsc_env <- getSession
let ic = hsc_IC hsc_env
setSession $ hsc_env { hsc_IC = ic { ic_fix_env = fix_env } }
-- | Run a statement in the current interactive context. Statement
-- may bind multple values.
runStmt :: GhcMonad m => String -> SingleStep -> m RunResult
runStmt = runStmtWithLocation "<interactive>" 1
-- | Run a statement in the current interactive context. Passing debug information
-- Statement may bind multple values.
runStmtWithLocation :: GhcMonad m => String -> Int ->
String -> SingleStep -> m RunResult
runStmtWithLocation source linenumber expr step =
do
hsc_env <- getSession
breakMVar <- liftIO $ newEmptyMVar -- wait on this when we hit a breakpoint
statusMVar <- liftIO $ newEmptyMVar -- wait on this when a computation is running
-- Turn off -fwarn-unused-bindings when running a statement, to hide
-- warnings about the implicit bindings we introduce.
let ic = hsc_IC hsc_env -- use the interactive dflags
idflags' = ic_dflags ic `wopt_unset` Opt_WarnUnusedBinds
hsc_env' = hsc_env{ hsc_IC = ic{ ic_dflags = idflags' } }
-- compile to value (IO [HValue]), don't run
r <- liftIO $ hscStmtWithLocation hsc_env' expr source linenumber
case r of
-- empty statement / comment
Nothing -> return (RunOk [])
Just (tyThings, hval, fix_env) -> do
updateFixityEnv fix_env
status <-
withVirtualCWD $
withBreakAction (isStep step) idflags' breakMVar statusMVar $ do
liftIO $ sandboxIO idflags' statusMVar hval
let ic = hsc_IC hsc_env
bindings = (ic_tythings ic, ic_rn_gbl_env ic)
case step of
RunAndLogSteps ->
traceRunStatus expr bindings tyThings
breakMVar statusMVar status emptyHistory
_other ->
handleRunStatus expr bindings tyThings
breakMVar statusMVar status emptyHistory
runDecls :: GhcMonad m => String -> m [Name]
runDecls = runDeclsWithLocation "<interactive>" 1
runDeclsWithLocation :: GhcMonad m => String -> Int -> String -> m [Name]
runDeclsWithLocation source linenumber expr =
do
hsc_env <- getSession
(tyThings, ic) <- liftIO $ hscDeclsWithLocation hsc_env expr source linenumber
setSession $ hsc_env { hsc_IC = ic }
hsc_env <- getSession
hsc_env' <- liftIO $ rttiEnvironment hsc_env
modifySession (\_ -> hsc_env')
return (map getName tyThings)
withVirtualCWD :: GhcMonad m => m a -> m a
withVirtualCWD m = do
hsc_env <- getSession
let ic = hsc_IC hsc_env
let set_cwd = do
dir <- liftIO $ getCurrentDirectory
case ic_cwd ic of
Just dir -> liftIO $ setCurrentDirectory dir
Nothing -> return ()
return dir
reset_cwd orig_dir = do
virt_dir <- liftIO $ getCurrentDirectory
hsc_env <- getSession
let old_IC = hsc_IC hsc_env
setSession hsc_env{ hsc_IC = old_IC{ ic_cwd = Just virt_dir } }
liftIO $ setCurrentDirectory orig_dir
gbracket set_cwd reset_cwd $ \_ -> m
parseImportDecl :: GhcMonad m => String -> m (ImportDecl RdrName)
parseImportDecl expr = withSession $ \hsc_env -> liftIO $ hscImport hsc_env expr
emptyHistory :: BoundedList History
emptyHistory = nilBL 50 -- keep a log of length 50
handleRunStatus :: GhcMonad m =>
String-> ([TyThing],GlobalRdrEnv) -> [Id]
-> MVar () -> MVar Status -> Status -> BoundedList History
-> m RunResult
handleRunStatus expr bindings final_ids breakMVar statusMVar status
history =
case status of
-- did we hit a breakpoint or did we complete?
(Break is_exception apStack info tid) -> do
hsc_env <- getSession
let mb_info | is_exception = Nothing
| otherwise = Just info
(hsc_env1, names, span) <- liftIO $ bindLocalsAtBreakpoint hsc_env apStack
mb_info
let
resume = Resume { resumeStmt = expr, resumeThreadId = tid
, resumeBreakMVar = breakMVar, resumeStatMVar = statusMVar
, resumeBindings = bindings, resumeFinalIds = final_ids
, resumeApStack = apStack, resumeBreakInfo = mb_info
, resumeSpan = span, resumeHistory = toListBL history
, resumeHistoryIx = 0 }
hsc_env2 = pushResume hsc_env1 resume
--
modifySession (\_ -> hsc_env2)
return (RunBreak tid names mb_info)
(Complete either_hvals) ->
case either_hvals of
Left e -> return (RunException e)
Right hvals -> do
hsc_env <- getSession
let final_ic = extendInteractiveContext (hsc_IC hsc_env)
(map AnId final_ids)
final_names = map getName final_ids
liftIO $ Linker.extendLinkEnv (zip final_names hvals)
hsc_env' <- liftIO $ rttiEnvironment hsc_env{hsc_IC=final_ic}
modifySession (\_ -> hsc_env')
return (RunOk final_names)
traceRunStatus :: GhcMonad m =>
String -> ([TyThing], GlobalRdrEnv) -> [Id]
-> MVar () -> MVar Status -> Status -> BoundedList History
-> m RunResult
traceRunStatus expr bindings final_ids
breakMVar statusMVar status history = do
hsc_env <- getSession
case status of
-- when tracing, if we hit a breakpoint that is not explicitly
-- enabled, then we just log the event in the history and continue.
(Break is_exception apStack info tid) | not is_exception -> do
b <- liftIO $ isBreakEnabled hsc_env info
if b
then handle_normally
else do
let history' = mkHistory hsc_env apStack info `consBL` history
-- probably better make history strict here, otherwise
-- our BoundedList will be pointless.
_ <- liftIO $ evaluate history'
status <-
withBreakAction True (hsc_dflags hsc_env)
breakMVar statusMVar $ do
liftIO $ withInterruptsSentTo tid $ do
putMVar breakMVar () -- awaken the stopped thread
takeMVar statusMVar -- and wait for the result
traceRunStatus expr bindings final_ids
breakMVar statusMVar status history'
_other ->
handle_normally
where
handle_normally = handleRunStatus expr bindings final_ids
breakMVar statusMVar status history
isBreakEnabled :: HscEnv -> BreakInfo -> IO Bool
isBreakEnabled hsc_env inf =
case lookupUFM (hsc_HPT hsc_env) (moduleName (breakInfo_module inf)) of
Just hmi -> do
w <- getBreak (modBreaks_flags (getModBreaks hmi))
(breakInfo_number inf)
case w of Just n -> return (n /= 0); _other -> return False
_ ->
return False
foreign import ccall "&rts_stop_next_breakpoint" stepFlag :: Ptr CInt
foreign import ccall "&rts_stop_on_exception" exceptionFlag :: Ptr CInt
setStepFlag :: IO ()
setStepFlag = poke stepFlag 1
resetStepFlag :: IO ()
resetStepFlag = poke stepFlag 0
-- this points to the IO action that is executed when a breakpoint is hit
foreign import ccall "&rts_breakpoint_io_action"
breakPointIOAction :: Ptr (StablePtr (Bool -> BreakInfo -> HValue -> IO ()))
-- When running a computation, we redirect ^C exceptions to the running
-- thread. ToDo: we might want a way to continue even if the target
-- thread doesn't die when it receives the exception... "this thread
-- is not responding".
--
-- Careful here: there may be ^C exceptions flying around, so we start the new
-- thread blocked (forkIO inherits mask from the parent, #1048), and unblock
-- only while we execute the user's code. We can't afford to lose the final
-- putMVar, otherwise deadlock ensues. (#1583, #1922, #1946)
sandboxIO :: DynFlags -> MVar Status -> IO [HValue] -> IO Status
sandboxIO dflags statusMVar thing =
mask $ \restore -> -- fork starts blocked
let runIt = liftM Complete $ try (restore $ rethrow dflags thing)
in if dopt Opt_GhciSandbox dflags
then do tid <- forkIO $ do res <- runIt
putMVar statusMVar res -- empty: can't block
withInterruptsSentTo tid $ takeMVar statusMVar
else -- GLUT on OS X needs to run on the main thread. If you
-- try to use it from another thread then you just get a
-- white rectangle rendered. For this, or anything else
-- with such restrictions, you can turn the GHCi sandbox off
-- and things will be run in the main thread.
runIt
-- We want to turn ^C into a break when -fbreak-on-exception is on,
-- but it's an async exception and we only break for sync exceptions.
-- Idea: if we catch and re-throw it, then the re-throw will trigger
-- a break. Great - but we don't want to re-throw all exceptions, because
-- then we'll get a double break for ordinary sync exceptions (you'd have
-- to :continue twice, which looks strange). So if the exception is
-- not "Interrupted", we unset the exception flag before throwing.
--
rethrow :: DynFlags -> IO a -> IO a
rethrow dflags io = Exception.catch io $ \se -> do
-- If -fbreak-on-error, we break unconditionally,
-- but with care of not breaking twice
if dopt Opt_BreakOnError dflags &&
not (dopt Opt_BreakOnException dflags)
then poke exceptionFlag 1
else case fromException se of
-- If it is a "UserInterrupt" exception, we allow
-- a possible break by way of -fbreak-on-exception
Just UserInterrupt -> return ()
-- In any other case, we don't want to break
_ -> poke exceptionFlag 0
Exception.throwIO se
withInterruptsSentTo :: ThreadId -> IO r -> IO r
withInterruptsSentTo thread get_result = do
bracket (pushInterruptTargetThread thread)
(\_ -> popInterruptTargetThread)
(\_ -> get_result)
-- This function sets up the interpreter for catching breakpoints, and
-- resets everything when the computation has stopped running. This
-- is a not-very-good way to ensure that only the interactive
-- evaluation should generate breakpoints.
withBreakAction :: (ExceptionMonad m, MonadIO m) =>
Bool -> DynFlags -> MVar () -> MVar Status -> m a -> m a
withBreakAction step dflags breakMVar statusMVar act
= gbracket (liftIO setBreakAction) (liftIO . resetBreakAction) (\_ -> act)
where
setBreakAction = do
stablePtr <- newStablePtr onBreak
poke breakPointIOAction stablePtr
when (dopt Opt_BreakOnException dflags) $ poke exceptionFlag 1
when step $ setStepFlag
return stablePtr
-- Breaking on exceptions is not enabled by default, since it
-- might be a bit surprising. The exception flag is turned off
-- as soon as it is hit, or in resetBreakAction below.
onBreak is_exception info apStack = do
tid <- myThreadId
putMVar statusMVar (Break is_exception apStack info tid)
takeMVar breakMVar
resetBreakAction stablePtr = do
poke breakPointIOAction noBreakStablePtr
poke exceptionFlag 0
resetStepFlag
freeStablePtr stablePtr
noBreakStablePtr :: StablePtr (Bool -> BreakInfo -> HValue -> IO ())
noBreakStablePtr = unsafePerformIO $ newStablePtr noBreakAction
noBreakAction :: Bool -> BreakInfo -> HValue -> IO ()
noBreakAction False _ _ = putStrLn "*** Ignoring breakpoint"
noBreakAction True _ _ = return () -- exception: just continue
resume :: GhcMonad m => (SrcSpan->Bool) -> SingleStep -> m RunResult
resume canLogSpan step
= do
hsc_env <- getSession
let ic = hsc_IC hsc_env
resume = ic_resume ic
case resume of
[] -> ghcError (ProgramError "not stopped at a breakpoint")
(r:rs) -> do
-- unbind the temporary locals by restoring the TypeEnv from
-- before the breakpoint, and drop this Resume from the
-- InteractiveContext.
let (resume_tmp_te,resume_rdr_env) = resumeBindings r
ic' = ic { ic_tythings = resume_tmp_te,
ic_rn_gbl_env = resume_rdr_env,
ic_resume = rs }
modifySession (\_ -> hsc_env{ hsc_IC = ic' })
-- remove any bindings created since the breakpoint from the
-- linker's environment
let new_names = map getName (filter (`notElem` resume_tmp_te)
(ic_tythings ic))
liftIO $ Linker.deleteFromLinkEnv new_names
when (isStep step) $ liftIO setStepFlag
case r of
Resume { resumeStmt = expr, resumeThreadId = tid
, resumeBreakMVar = breakMVar, resumeStatMVar = statusMVar
, resumeBindings = bindings, resumeFinalIds = final_ids
, resumeApStack = apStack, resumeBreakInfo = info, resumeSpan = span
, resumeHistory = hist } -> do
withVirtualCWD $ do
withBreakAction (isStep step) (hsc_dflags hsc_env)
breakMVar statusMVar $ do
status <- liftIO $ withInterruptsSentTo tid $ do
putMVar breakMVar ()
-- this awakens the stopped thread...
takeMVar statusMVar
-- and wait for the result
let prevHistoryLst = fromListBL 50 hist
hist' = case info of
Nothing -> prevHistoryLst
Just i
| not $canLogSpan span -> prevHistoryLst
| otherwise -> mkHistory hsc_env apStack i `consBL`
fromListBL 50 hist
case step of
RunAndLogSteps ->
traceRunStatus expr bindings final_ids
breakMVar statusMVar status hist'
_other ->
handleRunStatus expr bindings final_ids
breakMVar statusMVar status hist'
back :: GhcMonad m => m ([Name], Int, SrcSpan)
back = moveHist (+1)
forward :: GhcMonad m => m ([Name], Int, SrcSpan)
forward = moveHist (subtract 1)
moveHist :: GhcMonad m => (Int -> Int) -> m ([Name], Int, SrcSpan)
moveHist fn = do
hsc_env <- getSession
case ic_resume (hsc_IC hsc_env) of
[] -> ghcError (ProgramError "not stopped at a breakpoint")
(r:rs) -> do
let ix = resumeHistoryIx r
history = resumeHistory r
new_ix = fn ix
--
when (new_ix > length history) $
ghcError (ProgramError "no more logged breakpoints")
when (new_ix < 0) $
ghcError (ProgramError "already at the beginning of the history")
let
update_ic apStack mb_info = do
(hsc_env1, names, span) <- liftIO $ bindLocalsAtBreakpoint hsc_env
apStack mb_info
let ic = hsc_IC hsc_env1
r' = r { resumeHistoryIx = new_ix }
ic' = ic { ic_resume = r':rs }
modifySession (\_ -> hsc_env1{ hsc_IC = ic' })
return (names, new_ix, span)
-- careful: we want apStack to be the AP_STACK itself, not a thunk
-- around it, hence the cases are carefully constructed below to
-- make this the case. ToDo: this is v. fragile, do something better.
if new_ix == 0
then case r of
Resume { resumeApStack = apStack,
resumeBreakInfo = mb_info } ->
update_ic apStack mb_info
else case history !! (new_ix - 1) of
History apStack info _ ->
update_ic apStack (Just info)
-- -----------------------------------------------------------------------------
-- After stopping at a breakpoint, add free variables to the environment
result_fs :: FastString
result_fs = fsLit "_result"
bindLocalsAtBreakpoint
:: HscEnv
-> HValue
-> Maybe BreakInfo
-> IO (HscEnv, [Name], SrcSpan)
-- Nothing case: we stopped when an exception was raised, not at a
-- breakpoint. We have no location information or local variables to
-- bind, all we can do is bind a local variable to the exception
-- value.
bindLocalsAtBreakpoint hsc_env apStack Nothing = do
let exn_fs = fsLit "_exception"
exn_name = mkInternalName (getUnique exn_fs) (mkVarOccFS exn_fs) span
e_fs = fsLit "e"
e_name = mkInternalName (getUnique e_fs) (mkTyVarOccFS e_fs) span
e_tyvar = mkRuntimeUnkTyVar e_name liftedTypeKind
exn_id = AnId $ Id.mkVanillaGlobal exn_name (mkTyVarTy e_tyvar)
ictxt0 = hsc_IC hsc_env
ictxt1 = extendInteractiveContext ictxt0 [exn_id]
span = mkGeneralSrcSpan (fsLit "<exception thrown>")
--
Linker.extendLinkEnv [(exn_name, unsafeCoerce# apStack)]
return (hsc_env{ hsc_IC = ictxt1 }, [exn_name], span)
-- Just case: we stopped at a breakpoint, we have information about the location
-- of the breakpoint and the free variables of the expression.
bindLocalsAtBreakpoint hsc_env apStack (Just info) = do
let
mod_name = moduleName (breakInfo_module info)
hmi = expectJust "bindLocalsAtBreakpoint" $
lookupUFM (hsc_HPT hsc_env) mod_name
breaks = getModBreaks hmi
index = breakInfo_number info
vars = breakInfo_vars info
result_ty = breakInfo_resty info
occs = modBreaks_vars breaks ! index
span = modBreaks_locs breaks ! index
-- Filter out any unboxed ids;
-- we can't bind these at the prompt
pointers = filter (\(id,_) -> isPointer id) vars
isPointer id | UnaryRep ty <- repType (idType id)
, PtrRep <- typePrimRep ty = True
| otherwise = False
(ids, offsets) = unzip pointers
free_tvs = foldr (unionVarSet . tyVarsOfType . idType)
(tyVarsOfType result_ty) ids
-- It might be that getIdValFromApStack fails, because the AP_STACK
-- has been accidentally evaluated, or something else has gone wrong.
-- So that we don't fall over in a heap when this happens, just don't
-- bind any free variables instead, and we emit a warning.
mb_hValues <- mapM (getIdValFromApStack apStack) (map fromIntegral offsets)
let filtered_ids = [ id | (id, Just _hv) <- zip ids mb_hValues ]
when (any isNothing mb_hValues) $
debugTraceMsg (hsc_dflags hsc_env) 1 $
text "Warning: _result has been evaluated, some bindings have been lost"
us <- mkSplitUniqSupply 'I'
let (us1, us2) = splitUniqSupply us
tv_subst = newTyVars us1 free_tvs
new_ids = zipWith3 (mkNewId tv_subst) occs filtered_ids (uniqsFromSupply us2)
names = map idName new_ids
-- make an Id for _result. We use the Unique of the FastString "_result";
-- we don't care about uniqueness here, because there will only be one
-- _result in scope at any time.
let result_name = mkInternalName (getUnique result_fs)
(mkVarOccFS result_fs) span
result_id = Id.mkVanillaGlobal result_name (substTy tv_subst result_ty)
-- for each Id we're about to bind in the local envt:
-- - tidy the type variables
-- - globalise the Id (Ids are supposed to be Global, apparently).
--
let result_ok = isPointer result_id
all_ids | result_ok = result_id : new_ids
| otherwise = new_ids
id_tys = map idType all_ids
(_,tidy_tys) = tidyOpenTypes emptyTidyEnv id_tys
final_ids = zipWith setIdType all_ids tidy_tys
ictxt0 = hsc_IC hsc_env
ictxt1 = extendInteractiveContext ictxt0 (map AnId final_ids)
Linker.extendLinkEnv [ (name,hval) | (name, Just hval) <- zip names mb_hValues ]
when result_ok $ Linker.extendLinkEnv [(result_name, unsafeCoerce# apStack)]
hsc_env1 <- rttiEnvironment hsc_env{ hsc_IC = ictxt1 }
return (hsc_env1, if result_ok then result_name:names else names, span)
where
-- We need a fresh Unique for each Id we bind, because the linker
-- state is single-threaded and otherwise we'd spam old bindings
-- whenever we stop at a breakpoint. The InteractveContext is properly
-- saved/restored, but not the linker state. See #1743, test break026.
mkNewId :: TvSubst -> OccName -> Id -> Unique -> Id
mkNewId tv_subst occ id uniq
= Id.mkVanillaGlobalWithInfo name ty (idInfo id)
where
loc = nameSrcSpan (idName id)
name = mkInternalName uniq occ loc
ty = substTy tv_subst (idType id)
newTyVars :: UniqSupply -> TcTyVarSet -> TvSubst
-- Similarly, clone the type variables mentioned in the types
-- we have here, *and* make them all RuntimeUnk tyars
newTyVars us tvs
= mkTopTvSubst [ (tv, mkTyVarTy (mkRuntimeUnkTyVar name (tyVarKind tv)))
| (tv, uniq) <- varSetElems tvs `zip` uniqsFromSupply us
, let name = setNameUnique (tyVarName tv) uniq ]
rttiEnvironment :: HscEnv -> IO HscEnv
rttiEnvironment hsc_env@HscEnv{hsc_IC=ic} = do
let tmp_ids = [id | AnId id <- ic_tythings ic]
incompletelyTypedIds =
[id | id <- tmp_ids
, not $ noSkolems id
, (occNameFS.nameOccName.idName) id /= result_fs]
hsc_env' <- foldM improveTypes hsc_env (map idName incompletelyTypedIds)
return hsc_env'
where
noSkolems = isEmptyVarSet . tyVarsOfType . idType
improveTypes hsc_env@HscEnv{hsc_IC=ic} name = do
let tmp_ids = [id | AnId id <- ic_tythings ic]
Just id = find (\i -> idName i == name) tmp_ids
if noSkolems id
then return hsc_env
else do
mb_new_ty <- reconstructType hsc_env 10 id
let old_ty = idType id
case mb_new_ty of
Nothing -> return hsc_env
Just new_ty -> do
case improveRTTIType hsc_env old_ty new_ty of
Nothing -> return $
WARN(True, text (":print failed to calculate the "
++ "improvement for a type")) hsc_env
Just subst -> do
let dflags = hsc_dflags hsc_env
when (dopt Opt_D_dump_rtti dflags) $
printInfoForUser dflags alwaysQualify $
fsep [text "RTTI Improvement for", ppr id, equals, ppr subst]
let ic' = extendInteractiveContext
(substInteractiveContext ic subst) []
return hsc_env{hsc_IC=ic'}
getIdValFromApStack :: HValue -> Int -> IO (Maybe HValue)
getIdValFromApStack apStack (I# stackDepth) = do
case getApStackVal# apStack (stackDepth +# 1#) of
-- The +1 is magic! I don't know where it comes
-- from, but this makes things line up. --SDM
(# ok, result #) ->
case ok of
0# -> return Nothing -- AP_STACK not found
_ -> return (Just (unsafeCoerce# result))
pushResume :: HscEnv -> Resume -> HscEnv
pushResume hsc_env resume = hsc_env { hsc_IC = ictxt1 }
where
ictxt0 = hsc_IC hsc_env
ictxt1 = ictxt0 { ic_resume = resume : ic_resume ictxt0 }
-- -----------------------------------------------------------------------------
-- Abandoning a resume context
abandon :: GhcMonad m => m Bool
abandon = do
hsc_env <- getSession
let ic = hsc_IC hsc_env
resume = ic_resume ic
case resume of
[] -> return False
r:rs -> do
modifySession $ \_ -> hsc_env{ hsc_IC = ic { ic_resume = rs } }
liftIO $ abandon_ r
return True
abandonAll :: GhcMonad m => m Bool
abandonAll = do
hsc_env <- getSession
let ic = hsc_IC hsc_env
resume = ic_resume ic
case resume of
[] -> return False
rs -> do
modifySession $ \_ -> hsc_env{ hsc_IC = ic { ic_resume = [] } }
liftIO $ mapM_ abandon_ rs
return True
-- when abandoning a computation we have to
-- (a) kill the thread with an async exception, so that the
-- computation itself is stopped, and
-- (b) fill in the MVar. This step is necessary because any
-- thunks that were under evaluation will now be updated
-- with the partial computation, which still ends in takeMVar,
-- so any attempt to evaluate one of these thunks will block
-- unless we fill in the MVar.
-- (c) wait for the thread to terminate by taking its status MVar. This
-- step is necessary to prevent race conditions with
-- -fbreak-on-exception (see #5975).
-- See test break010.
abandon_ :: Resume -> IO ()
abandon_ r = do
killThread (resumeThreadId r)
putMVar (resumeBreakMVar r) ()
_ <- takeMVar (resumeStatMVar r)
return ()
-- -----------------------------------------------------------------------------
-- Bounded list, optimised for repeated cons
data BoundedList a = BL
{-# UNPACK #-} !Int -- length
{-# UNPACK #-} !Int -- bound
[a] -- left
[a] -- right, list is (left ++ reverse right)
nilBL :: Int -> BoundedList a
nilBL bound = BL 0 bound [] []
consBL :: a -> BoundedList a -> BoundedList a
consBL a (BL len bound left right)
| len < bound = BL (len+1) bound (a:left) right
| null right = BL len bound [a] $! tail (reverse left)
| otherwise = BL len bound (a:left) $! tail right
toListBL :: BoundedList a -> [a]
toListBL (BL _ _ left right) = left ++ reverse right
fromListBL :: Int -> [a] -> BoundedList a
fromListBL bound l = BL (length l) bound l []
-- lenBL (BL len _ _ _) = len
-- -----------------------------------------------------------------------------
-- | Set the interactive evaluation context.
--
-- Setting the context doesn't throw away any bindings; the bindings
-- we've built up in the InteractiveContext simply move to the new
-- module. They always shadow anything in scope in the current context.
setContext :: GhcMonad m => [InteractiveImport] -> m ()
setContext imports
= do { hsc_env <- getSession
; let dflags = hsc_dflags hsc_env
; all_env_err <- liftIO $ findGlobalRdrEnv hsc_env imports
; case all_env_err of
Left (mod, err) -> ghcError (formatError dflags mod err)
Right all_env -> do {
; let old_ic = hsc_IC hsc_env
final_rdr_env = ic_tythings old_ic `icPlusGblRdrEnv` all_env
; modifySession $ \_ ->
hsc_env{ hsc_IC = old_ic { ic_imports = imports
, ic_rn_gbl_env = final_rdr_env }}}}
where
formatError dflags mod err = ProgramError . showSDoc dflags $
text "Cannot add module" <+> ppr mod <+>
text "to context:" <+> text err
findGlobalRdrEnv :: HscEnv -> [InteractiveImport]
-> IO (Either (ModuleName, String) GlobalRdrEnv)
-- Compute the GlobalRdrEnv for the interactive context
findGlobalRdrEnv hsc_env imports
= do { idecls_env <- hscRnImportDecls hsc_env idecls
-- This call also loads any orphan modules
; return $ case partitionEithers (map mkEnv imods) of
([], imods_env) -> Right (foldr plusGlobalRdrEnv idecls_env imods_env)
(err : _, _) -> Left err }
where
idecls :: [LImportDecl RdrName]
idecls = [noLoc d | IIDecl d <- imports]
imods :: [ModuleName]
imods = [m | IIModule m <- imports]
mkEnv mod = case mkTopLevEnv (hsc_HPT hsc_env) mod of
Left err -> Left (mod, err)
Right env -> Right env
availsToGlobalRdrEnv :: ModuleName -> [AvailInfo] -> GlobalRdrEnv
availsToGlobalRdrEnv mod_name avails
= mkGlobalRdrEnv (gresFromAvails imp_prov avails)
where
-- We're building a GlobalRdrEnv as if the user imported
-- all the specified modules into the global interactive module
imp_prov = Imported [ImpSpec { is_decl = decl, is_item = ImpAll}]
decl = ImpDeclSpec { is_mod = mod_name, is_as = mod_name,
is_qual = False,
is_dloc = srcLocSpan interactiveSrcLoc }
mkTopLevEnv :: HomePackageTable -> ModuleName -> Either String GlobalRdrEnv
mkTopLevEnv hpt modl
= case lookupUFM hpt modl of
Nothing -> Left "not a home module"
Just details ->
case mi_globals (hm_iface details) of
Nothing -> Left "not interpreted"
Just env -> Right env
-- | Get the interactive evaluation context, consisting of a pair of the
-- set of modules from which we take the full top-level scope, and the set
-- of modules from which we take just the exports respectively.
getContext :: GhcMonad m => m [InteractiveImport]
getContext = withSession $ \HscEnv{ hsc_IC=ic } ->
return (ic_imports ic)
-- | Returns @True@ if the specified module is interpreted, and hence has
-- its full top-level scope available.
moduleIsInterpreted :: GhcMonad m => Module -> m Bool
moduleIsInterpreted modl = withSession $ \h ->
if modulePackageId modl /= thisPackage (hsc_dflags h)
then return False
else case lookupUFM (hsc_HPT h) (moduleName modl) of
Just details -> return (isJust (mi_globals (hm_iface details)))
_not_a_home_module -> return False
-- | Looks up an identifier in the current interactive context (for :info)
-- Filter the instances by the ones whose tycons (or clases resp)
-- are in scope (qualified or otherwise). Otherwise we list a whole lot too many!
-- The exact choice of which ones to show, and which to hide, is a judgement call.
-- (see Trac #1581)
getInfo :: GhcMonad m => Name -> m (Maybe (TyThing,Fixity,[ClsInst]))
getInfo name
= withSession $ \hsc_env ->
do mb_stuff <- liftIO $ hscTcRnGetInfo hsc_env name
case mb_stuff of
Nothing -> return Nothing
Just (thing, fixity, ispecs) -> do
let rdr_env = ic_rn_gbl_env (hsc_IC hsc_env)
return (Just (thing, fixity, filter (plausible rdr_env) ispecs))
where
plausible rdr_env ispec -- Dfun involving only names that are in ic_rn_glb_env
= all ok $ nameSetToList $ orphNamesOfType $ idType $ instanceDFunId ispec
where -- A name is ok if it's in the rdr_env,
-- whether qualified or not
ok n | n == name = True -- The one we looked for in the first place!
| isBuiltInSyntax n = True
| isExternalName n = any ((== n) . gre_name)
(lookupGRE_Name rdr_env n)
| otherwise = True
-- | Returns all names in scope in the current interactive context
getNamesInScope :: GhcMonad m => m [Name]
getNamesInScope = withSession $ \hsc_env -> do
return (map gre_name (globalRdrEnvElts (ic_rn_gbl_env (hsc_IC hsc_env))))
getRdrNamesInScope :: GhcMonad m => m [RdrName]
getRdrNamesInScope = withSession $ \hsc_env -> do
let
ic = hsc_IC hsc_env
gbl_rdrenv = ic_rn_gbl_env ic
gbl_names = concatMap greToRdrNames $ globalRdrEnvElts gbl_rdrenv
return gbl_names
-- ToDo: move to RdrName
greToRdrNames :: GlobalRdrElt -> [RdrName]
greToRdrNames GRE{ gre_name = name, gre_prov = prov }
= case prov of
LocalDef -> [unqual]
Imported specs -> concat (map do_spec (map is_decl specs))
where
occ = nameOccName name
unqual = Unqual occ
do_spec decl_spec
| is_qual decl_spec = [qual]
| otherwise = [unqual,qual]
where qual = Qual (is_as decl_spec) occ
-- | Parses a string as an identifier, and returns the list of 'Name's that
-- the identifier can refer to in the current interactive context.
parseName :: GhcMonad m => String -> m [Name]
parseName str = withSession $ \hsc_env -> do
(L _ rdr_name) <- liftIO $ hscParseIdentifier hsc_env str
liftIO $ hscTcRnLookupRdrName hsc_env rdr_name
-- -----------------------------------------------------------------------------
-- Getting the type of an expression
-- | Get the type of an expression
exprType :: GhcMonad m => String -> m Type
exprType expr = withSession $ \hsc_env -> do
ty <- liftIO $ hscTcExpr hsc_env expr
return $ tidyType emptyTidyEnv ty
-- -----------------------------------------------------------------------------
-- Getting the kind of a type
-- | Get the kind of a type
typeKind :: GhcMonad m => Bool -> String -> m (Type, Kind)
typeKind normalise str = withSession $ \hsc_env -> do
liftIO $ hscKcType hsc_env normalise str
-----------------------------------------------------------------------------
-- Compile an expression, run it and deliver the resulting HValue
compileExpr :: GhcMonad m => String -> m HValue
compileExpr expr = withSession $ \hsc_env -> do
Just (ids, hval, fix_env) <- liftIO $ hscStmt hsc_env ("let __cmCompileExpr = "++expr)
updateFixityEnv fix_env
hvals <- liftIO hval
case (ids,hvals) of
([_],[hv]) -> return hv
_ -> panic "compileExpr"
-- -----------------------------------------------------------------------------
-- Compile an expression, run it and return the result as a dynamic
dynCompileExpr :: GhcMonad m => String -> m Dynamic
dynCompileExpr expr = do
iis <- getContext
let importDecl = ImportDecl {
ideclName = noLoc (mkModuleName "Data.Dynamic"),
ideclPkgQual = Nothing,
ideclSource = False,
ideclSafe = False,
ideclQualified = True,
ideclImplicit = False,
ideclAs = Nothing,
ideclHiding = Nothing
}
setContext (IIDecl importDecl : iis)
let stmt = "let __dynCompileExpr = Data.Dynamic.toDyn (" ++ expr ++ ")"
Just (ids, hvals, fix_env) <- withSession $ \hsc_env ->
liftIO $ hscStmt hsc_env stmt
setContext iis
updateFixityEnv fix_env
vals <- liftIO (unsafeCoerce# hvals :: IO [Dynamic])
case (ids,vals) of
(_:[], v:[]) -> return v
_ -> panic "dynCompileExpr"
-----------------------------------------------------------------------------
-- show a module and it's source/object filenames
showModule :: GhcMonad m => ModSummary -> m String
showModule mod_summary =
withSession $ \hsc_env -> do
interpreted <- isModuleInterpreted mod_summary
let dflags = hsc_dflags hsc_env
return (showModMsg dflags (hscTarget dflags) interpreted mod_summary)
isModuleInterpreted :: GhcMonad m => ModSummary -> m Bool
isModuleInterpreted mod_summary = withSession $ \hsc_env ->
case lookupUFM (hsc_HPT hsc_env) (ms_mod_name mod_summary) of
Nothing -> panic "missing linkable"
Just mod_info -> return (not obj_linkable)
where
obj_linkable = isObjectLinkable (expectJust "showModule" (hm_linkable mod_info))
----------------------------------------------------------------------------
-- RTTI primitives
obtainTermFromVal :: HscEnv -> Int -> Bool -> Type -> a -> IO Term
obtainTermFromVal hsc_env bound force ty x =
cvObtainTerm hsc_env bound force ty (unsafeCoerce# x)
obtainTermFromId :: HscEnv -> Int -> Bool -> Id -> IO Term
obtainTermFromId hsc_env bound force id = do
hv <- Linker.getHValue hsc_env (varName id)
cvObtainTerm hsc_env bound force (idType id) hv
-- Uses RTTI to reconstruct the type of an Id, making it less polymorphic
reconstructType :: HscEnv -> Int -> Id -> IO (Maybe Type)
reconstructType hsc_env bound id = do
hv <- Linker.getHValue hsc_env (varName id)
cvReconstructType hsc_env bound (idType id) hv
mkRuntimeUnkTyVar :: Name -> Kind -> TyVar
mkRuntimeUnkTyVar name kind = mkTcTyVar name kind RuntimeUnk
#endif /* GHCI */
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