+{-# OPTIONS -fno-cse #-}
+-- -fno-cse is needed for GLOBAL_VAR's to behave properly
+
{-# OPTIONS -#include "Linker.h" #-}
-----------------------------------------------------------------------------
--
-- The GHC interface
import qualified GHC hiding (resume, runStmt)
-import GHC ( Session, LoadHowMuch(..), Target(..), TargetId(..),
+import GHC ( LoadHowMuch(..), Target(..), TargetId(..),
Module, ModuleName, TyThing(..), Phase,
- BreakIndex, SrcSpan, Resume, SingleStep )
+ BreakIndex, SrcSpan, Resume, SingleStep,
+ Ghc, handleSourceError )
import PprTyThing
import DynFlags
import UniqFM
#endif
-import HscTypes ( implicitTyThings )
+import HscTypes ( implicitTyThings, reflectGhc, reifyGhc
+ , handleFlagWarnings )
import qualified RdrName ( getGRE_NameQualifier_maybes ) -- should this come via GHC?
import Outputable hiding (printForUser, printForUserPartWay)
import Module -- for ModuleEnv
import SrcLoc
-- Other random utilities
+import CmdLineParser
import Digraph
import BasicTypes hiding (isTopLevel)
import Panic hiding (showException)
import Linker
import Util
import NameSet
-import Maybes ( orElse )
+import Maybes ( orElse, expectJust )
import FastString
import Encoding
+import MonadUtils ( liftIO )
#ifndef mingw32_HOST_OS
import System.Posix hiding (getEnv)
--import SystemExts
-import Control.Exception as Exception
+import Exception
-- import Control.Concurrent
import System.FilePath
import System.IO
import System.IO.Error as IO
import Data.Char
-import Data.Dynamic
import Data.Array
import Control.Monad as Monad
import Text.Printf
import Data.IORef ( IORef, readIORef, writeIORef )
-#ifdef USE_EDITLINE
-import System.Posix.Internals ( setNonBlockingFD )
-#endif
-
-----------------------------------------------------------------------------
ghciWelcomeMsg :: String
("reload", keepGoing reloadModule, Nothing, completeNone),
("run", keepGoing runRun, Nothing, completeIdentifier),
("set", keepGoing setCmd, Just flagWordBreakChars, completeSetOptions),
- ("show", keepGoing showCmd, Nothing, completeNone),
+ ("show", keepGoing showCmd, Nothing, completeShowOptions),
("sprint", keepGoing sprintCmd, Nothing, completeIdentifier),
("step", keepGoing stepCmd, Nothing, completeIdentifier),
("steplocal", keepGoing stepLocalCmd, Nothing, completeIdentifier),
" <statement> evaluate/run <statement>\n" ++
" : repeat last command\n" ++
" :{\\n ..lines.. \\n:}\\n multiline command\n" ++
- " :add <filename> ... add module(s) to the current target set\n" ++
+ " :add [*]<module> ... add module(s) to the current target set\n" ++
" :browse[!] [[*]<mod>] display the names defined by module <mod>\n" ++
" (!: more details; *: all top-level names)\n" ++
" :cd <dir> change directory to <dir>\n" ++
" :help, :? display this list of commands\n" ++
" :info [<name> ...] display information about the given names\n" ++
" :kind <type> show the kind of <type>\n" ++
- " :load <filename> ... load module(s) and their dependents\n" ++
+ " :load [*]<module> ... load module(s) and their dependents\n" ++
" :main [<arguments> ...] run the main function with the given arguments\n" ++
" :module [+/-] [*]<mod> ... set the context for expression evaluation\n" ++
" :quit exit GHCi\n" ++
" :set prog <progname> set the value returned by System.getProgName\n" ++
" :set prompt <prompt> set the prompt used in GHCi\n" ++
" :set editor <cmd> set the command used for :edit\n" ++
- " :set stop <cmd> set the command to run when a breakpoint is hit\n" ++
+ " :set stop [<n>] <cmd> set the command to run when a breakpoint is hit\n" ++
" :unset <option> ... unset options\n" ++
"\n" ++
" Options for ':set' and ':unset':\n" ++
return ""
#endif
-interactiveUI :: Session -> [(FilePath, Maybe Phase)] -> Maybe [String]
- -> IO ()
-interactiveUI session srcs maybe_exprs = do
+interactiveUI :: [(FilePath, Maybe Phase)] -> Maybe [String]
+ -> Ghc ()
+interactiveUI srcs maybe_exprs = withTerminalReset $ do
-- HACK! If we happen to get into an infinite loop (eg the user
-- types 'let x=x in x' at the prompt), then the thread will block
-- on a blackhole, and become unreachable during GC. The GC will
-- it refers to might be finalized, including the standard Handles.
-- This sounds like a bug, but we don't have a good solution right
-- now.
- newStablePtr stdin
- newStablePtr stdout
- newStablePtr stderr
+ liftIO $ newStablePtr stdin
+ liftIO $ newStablePtr stdout
+ liftIO $ newStablePtr stderr
-- Initialise buffering for the *interpreted* I/O system
- initInterpBuffering session
+ initInterpBuffering
- when (isNothing maybe_exprs) $ do
+ liftIO $ when (isNothing maybe_exprs) $ do
-- Only for GHCi (not runghc and ghc -e):
-- Turn buffering off for the compiled program's stdout/stderr
#ifdef USE_EDITLINE
is_tty <- hIsTerminalDevice stdin
- when is_tty $ do
+ when is_tty $ withReadline $ do
Readline.initialize
withGhcAppData
#endif
-- initial context is just the Prelude
- prel_mod <- GHC.findModule session (GHC.mkModuleName "Prelude")
- (Just basePackageId)
- GHC.setContext session [] [prel_mod]
-
- default_editor <- findEditor
+ prel_mod <- GHC.findModule (GHC.mkModuleName "Prelude") Nothing
+ GHC.setContext [] [prel_mod]
- cwd <- getCurrentDirectory
+ default_editor <- liftIO $ findEditor
startGHCi (runGHCi srcs maybe_exprs)
GHCiState{ progname = "<interactive>",
prompt = "%s> ",
stop = "",
editor = default_editor,
- session = session,
+-- session = session,
options = [],
prelude = prel_mod,
break_ctr = 0,
last_command = Nothing,
cmdqueue = [],
remembered_ctx = [],
- virtual_path = cwd,
ghc_e = isJust maybe_exprs
}
#ifdef USE_EDITLINE
- Readline.stifleHistory 100
- withGhcAppData (\dir -> Readline.writeHistory (dir </> "ghci_history"))
- (return True)
- Readline.resetTerminal Nothing
+ liftIO $ do
+ Readline.stifleHistory 100
+ withGhcAppData (\dir -> Readline.writeHistory (dir </> "ghci_history"))
+ (return True)
+ Readline.resetTerminal Nothing
#endif
return ()
Right dir -> right dir
_ -> left
+-- libedit doesn't always restore the terminal settings correctly (as of at
+-- least 07/12/2008); see trac #2691. Work around this by manually resetting
+-- the terminal outselves.
+withTerminalReset :: Ghc () -> Ghc ()
+#ifdef mingw32_HOST_OS
+withTerminalReset = id
+#else
+withTerminalReset f = do
+ isTTY <- liftIO $ hIsTerminalDevice stdout
+ if not isTTY
+ then f
+ else gbracket (liftIO $ getTerminalAttributes stdOutput)
+ (\attrs -> liftIO $ setTerminalAttributes stdOutput attrs Immediately)
+ (const f)
+#endif
runGHCi :: [(FilePath, Maybe Phase)] -> Maybe [String] -> GHCi ()
runGHCi paths maybe_exprs = do
interactiveLoop :: Bool -> Bool -> GHCi ()
interactiveLoop is_tty show_prompt =
-- Ignore ^C exceptions caught here
- ghciHandleDyn (\e -> case e of
+ ghciHandleGhcException (\e -> case e of
Interrupted -> do
#if defined(mingw32_HOST_OS)
io (putStrLn "")
return True
#else
checkPerms name =
- Util.handle (\_ -> return False) $ do
+ handleIO (\_ -> return False) $ do
st <- getFileStatus name
me <- getRealUserID
if fileOwner st /= me then do
mkPrompt :: GHCi String
mkPrompt = do
- session <- getSession
- (toplevs,exports) <- io (GHC.getContext session)
- resumes <- io $ GHC.getResumeContext session
+ (toplevs,exports) <- GHC.getContext
+ resumes <- GHC.getResumeContext
-- st <- getGHCiState
context_bit <-
then return (brackets (ppr (GHC.resumeSpan r)) <> space)
else do
let hist = GHC.resumeHistory r !! (ix-1)
- span <- io$ GHC.getHistorySpan session hist
+ span <- GHC.getHistorySpan hist
return (brackets (ppr (negate ix) <> char ':'
<+> ppr span) <> space)
let
io yield
saveSession -- for use by completion
prompt <- mkPrompt
- l <- io (readline prompt `finally` setNonBlockingFD 0)
- -- readline sometimes puts stdin into blocking mode,
- -- so we need to put it back for the IO library
+ l <- io $ withReadline (readline prompt)
splatSavedSession
case l of
Nothing -> return Nothing
io (addHistory l)
str <- io $ consoleInputToUnicode True l
return (Just str)
+
+withReadline :: IO a -> IO a
+withReadline = bracket_ stopTimer startTimer
+ -- editline doesn't handle some of its system calls returning
+ -- EINTR, so our timer signal confuses it, hence we turn off
+ -- the timer signal when making calls to editline. (#2277)
+ -- If editline is ever fixed, we can remove this.
+
+-- These come from the RTS
+foreign import ccall unsafe startTimer :: IO ()
+foreign import ccall unsafe stopTimer :: IO ()
#endif
queryQueue :: GHCi (Maybe String)
runCommands :: GHCi (Maybe String) -> GHCi ()
runCommands = runCommands' handler
-runCommands' :: (Exception -> GHCi Bool) -- Exception handler
+runCommands' :: (SomeException -> GHCi Bool) -- Exception handler
-> GHCi (Maybe String) -> GHCi ()
runCommands' eh getCmd = do
mb_cmd <- noSpace queryQueue
case mb_cmd of
Nothing -> return ()
Just c -> do
- b <- ghciHandle eh (doCommand c)
+ b <- ghciHandle eh $
+ handleSourceError printErrorAndKeepGoing
+ (doCommand c)
if b then return () else runCommands' eh getCmd
where
+ printErrorAndKeepGoing err = do
+ GHC.printExceptionAndWarnings err
+ return False
+
noSpace q = q >>= maybe (return Nothing)
(\c->case removeSpaces c of
"" -> noSpace q
afterRunStmt :: (SrcSpan -> Bool) -> GHC.RunResult -> GHCi Bool
afterRunStmt _ (GHC.RunException e) = throw e
afterRunStmt step_here run_result = do
- session <- getSession
- resumes <- io $ GHC.getResumeContext session
+ resumes <- GHC.getResumeContext
case run_result of
GHC.RunOk names -> do
show_types <- isOptionSet ShowType
- when show_types $ printTypeOfNames session names
- GHC.RunBreak _ names mb_info
- | isNothing mb_info ||
+ when show_types $ printTypeOfNames names
+ GHC.RunBreak _ names mb_info
+ | isNothing mb_info ||
step_here (GHC.resumeSpan $ head resumes) -> do
- printForUser $ ptext (sLit "Stopped at") <+>
- ppr (GHC.resumeSpan $ head resumes)
--- printTypeOfNames session names
- let namesSorted = sortBy compareNames names
- tythings <- catMaybes `liftM`
- io (mapM (GHC.lookupName session) namesSorted)
- docs <- io$ pprTypeAndContents session [id | AnId id <- tythings]
- printForUserPartWay docs
- maybe (return ()) runBreakCmd mb_info
+ mb_id_loc <- toBreakIdAndLocation mb_info
+ let breakCmd = maybe "" ( \(_,l) -> onBreakCmd l ) mb_id_loc
+ if (null breakCmd)
+ then printStoppedAtBreakInfo (head resumes) names
+ else enqueueCommands [breakCmd]
-- run the command set with ":set stop <cmd>"
st <- getGHCiState
enqueueCommands [stop st]
return ()
- | otherwise -> resume GHC.SingleStep >>=
+ | otherwise -> resume step_here GHC.SingleStep >>=
afterRunStmt step_here >> return ()
_ -> return ()
return (case run_result of GHC.RunOk _ -> True; _ -> False)
-runBreakCmd :: GHC.BreakInfo -> GHCi ()
-runBreakCmd info = do
+toBreakIdAndLocation ::
+ Maybe GHC.BreakInfo -> GHCi (Maybe (Int, BreakLocation))
+toBreakIdAndLocation Nothing = return Nothing
+toBreakIdAndLocation (Just info) = do
let mod = GHC.breakInfo_module info
nm = GHC.breakInfo_number info
st <- getGHCiState
- case [ loc | (_,loc) <- breaks st,
- breakModule loc == mod, breakTick loc == nm ] of
- [] -> return ()
- loc:_ | null cmd -> return ()
- | otherwise -> do enqueueCommands [cmd]; return ()
- where cmd = onBreakCmd loc
+ return $ listToMaybe [ id_loc | id_loc@(_,loc) <- breaks st,
+ breakModule loc == mod,
+ breakTick loc == nm ]
+
+printStoppedAtBreakInfo :: Resume -> [Name] -> GHCi ()
+printStoppedAtBreakInfo resume names = do
+ printForUser $ ptext (sLit "Stopped at") <+>
+ ppr (GHC.resumeSpan resume)
+ -- printTypeOfNames session names
+ let namesSorted = sortBy compareNames names
+ tythings <- catMaybes `liftM` mapM GHC.lookupName namesSorted
+ docs <- pprTypeAndContents [id | AnId id <- tythings]
+ printForUserPartWay docs
-printTypeOfNames :: Session -> [Name] -> GHCi ()
-printTypeOfNames session names
- = mapM_ (printTypeOfName session) $ sortBy compareNames names
+printTypeOfNames :: [Name] -> GHCi ()
+printTypeOfNames names
+ = mapM_ (printTypeOfName ) $ sortBy compareNames names
compareNames :: Name -> Name -> Ordering
n1 `compareNames` n2 = compareWith n1 `compare` compareWith n2
where compareWith n = (getOccString n, getSrcSpan n)
-printTypeOfName :: Session -> Name -> GHCi ()
-printTypeOfName session n
- = do maybe_tything <- io (GHC.lookupName session n)
+printTypeOfName :: Name -> GHCi ()
+printTypeOfName n
+ = do maybe_tything <- GHC.lookupName n
case maybe_tything of
Nothing -> return ()
Just thing -> printTyThing thing
getCurrentBreakSpan :: GHCi (Maybe SrcSpan)
getCurrentBreakSpan = do
- session <- getSession
- resumes <- io $ GHC.getResumeContext session
+ resumes <- GHC.getResumeContext
case resumes of
[] -> return Nothing
(r:_) -> do
then return (Just (GHC.resumeSpan r))
else do
let hist = GHC.resumeHistory r !! (ix-1)
- span <- io $ GHC.getHistorySpan session hist
+ span <- GHC.getHistorySpan hist
return (Just span)
getCurrentBreakModule :: GHCi (Maybe Module)
getCurrentBreakModule = do
- session <- getSession
- resumes <- io $ GHC.getResumeContext session
+ resumes <- GHC.getResumeContext
case resumes of
[] -> return Nothing
(r:_) -> do
help _ = io (putStr helpText)
info :: String -> GHCi ()
-info "" = throwDyn (CmdLineError "syntax: ':i <thing-you-want-info-about>'")
-info s = do { let names = words s
- ; session <- getSession
+info "" = ghcError (CmdLineError "syntax: ':i <thing-you-want-info-about>'")
+info s = handleSourceError GHC.printExceptionAndWarnings $ do
+ { let names = words s
; dflags <- getDynFlags
; let pefas = dopt Opt_PrintExplicitForalls dflags
- ; mapM_ (infoThing pefas session) names }
+ ; mapM_ (infoThing pefas) names }
where
- infoThing pefas session str = io $ do
- names <- GHC.parseName session str
- mb_stuffs <- mapM (GHC.getInfo session) names
+ infoThing pefas str = do
+ names <- GHC.parseName str
+ mb_stuffs <- mapM GHC.getInfo names
let filtered = filterOutChildren (\(t,_f,_i) -> t) (catMaybes mb_stuffs)
- unqual <- GHC.getPrintUnqual session
- putStrLn (showSDocForUser unqual $
- vcat (intersperse (text "") $
- map (pprInfo pefas) filtered))
+ unqual <- GHC.getPrintUnqual
+ liftIO $
+ putStrLn (showSDocForUser unqual $
+ vcat (intersperse (text "") $
+ map (pprInfo pefas) filtered))
-- Filter out names whose parent is also there Good
-- example is '[]', which is both a type and data
addModule files = do
revertCAFs -- always revert CAFs on load/add.
files <- mapM expandPath files
- targets <- mapM (\m -> io (GHC.guessTarget m Nothing)) files
- session <- getSession
- io (mapM_ (GHC.addTarget session) targets)
- prev_context <- io $ GHC.getContext session
- ok <- io (GHC.load session LoadAllTargets)
- afterLoad ok session False prev_context
+ targets <- mapM (\m -> GHC.guessTarget m Nothing) files
+ -- remove old targets with the same id; e.g. for :add *M
+ mapM_ GHC.removeTarget [ tid | Target tid _ _ <- targets ]
+ mapM_ GHC.addTarget targets
+ prev_context <- GHC.getContext
+ ok <- trySuccess $ GHC.load LoadAllTargets
+ afterLoad ok False prev_context
changeDirectory :: String -> GHCi ()
changeDirectory "" = do
Left _e -> return ()
Right dir -> changeDirectory dir
changeDirectory dir = do
- session <- getSession
- graph <- io (GHC.getModuleGraph session)
+ graph <- GHC.getModuleGraph
when (not (null graph)) $
io $ putStr "Warning: changing directory causes all loaded modules to be unloaded,\nbecause the search path has changed.\n"
- prev_context <- io $ GHC.getContext session
- io (GHC.setTargets session [])
- io (GHC.load session LoadAllTargets)
- setContextAfterLoad session prev_context False []
- io (GHC.workingDirectoryChanged session)
+ prev_context <- GHC.getContext
+ GHC.setTargets []
+ GHC.load LoadAllTargets
+ setContextAfterLoad prev_context False []
+ GHC.workingDirectoryChanged
dir <- expandPath dir
io (setCurrentDirectory dir)
+trySuccess :: GHC.GhcMonad m => m SuccessFlag -> m SuccessFlag
+trySuccess act =
+ handleSourceError (\e -> do GHC.printExceptionAndWarnings e
+ return Failed) $ do
+ act
+
editFile :: String -> GHCi ()
editFile str =
do file <- if null str then chooseEditFile else return str
st <- getGHCiState
let cmd = editor st
when (null cmd)
- $ throwDyn (CmdLineError "editor not set, use :set editor")
+ $ ghcError (CmdLineError "editor not set, use :set editor")
io $ system (cmd ++ ' ':file)
return ()
-- of those.
chooseEditFile :: GHCi String
chooseEditFile =
- do session <- getSession
- let hasFailed x = io $ fmap not $ GHC.isLoaded session $ GHC.ms_mod_name x
+ do let hasFailed x = fmap not $ GHC.isLoaded $ GHC.ms_mod_name x
- graph <- io (GHC.getModuleGraph session)
+ graph <- GHC.getModuleGraph
failed_graph <- filterM hasFailed graph
let order g = flattenSCCs $ GHC.topSortModuleGraph True g Nothing
pick xs = case xs of
case pick (order failed_graph) of
Just file -> return file
Nothing ->
- do targets <- io (GHC.getTargets session)
+ do targets <- GHC.getTargets
case msum (map fromTarget targets) of
Just file -> return file
- Nothing -> throwDyn (CmdLineError "No files to edit.")
+ Nothing -> ghcError (CmdLineError "No files to edit.")
- where fromTarget (GHC.Target (GHC.TargetFile f _) _) = Just f
+ where fromTarget (GHC.Target (GHC.TargetFile f _) _ _) = Just f
fromTarget _ = Nothing -- when would we get a module target?
defineMacro :: Bool{-overwrite-} -> String -> GHCi ()
unlines defined)
else do
if (not overwrite && macro_name `elem` defined)
- then throwDyn (CmdLineError
+ then ghcError (CmdLineError
("macro '" ++ macro_name ++ "' is already defined"))
else do
let new_expr = '(' : definition ++ ") :: String -> IO String"
-- compile the expression
- cms <- getSession
- maybe_hv <- io (GHC.compileExpr cms new_expr)
- case maybe_hv of
- Nothing -> return ()
- Just hv -> io (writeIORef macros_ref --
- (filtered ++ [(macro_name, runMacro hv, Nothing, completeNone)]))
+ handleSourceError (\e -> GHC.printExceptionAndWarnings e) $ do
+ hv <- GHC.compileExpr new_expr
+ io (writeIORef macros_ref --
+ (filtered ++ [(macro_name, runMacro hv, Nothing, completeNone)]))
runMacro :: GHC.HValue{-String -> IO String-} -> String -> GHCi Bool
runMacro fun s = do
str <- io ((unsafeCoerce# fun :: String -> IO String) s)
+ -- make sure we force any exceptions in the result, while we are still
+ -- inside the exception handler for commands:
+ seqList str (return ())
enqueueCommands (lines str)
return False
where undef macro_name = do
cmds <- io (readIORef macros_ref)
if (macro_name `notElem` map cmdName cmds)
- then throwDyn (CmdLineError
+ then ghcError (CmdLineError
("macro '" ++ macro_name ++ "' is not defined"))
else do
io (writeIORef macros_ref (filter ((/= macro_name) . cmdName) cmds))
cmdCmd :: String -> GHCi ()
cmdCmd str = do
let expr = '(' : str ++ ") :: IO String"
- session <- getSession
- maybe_hv <- io (GHC.compileExpr session expr)
- case maybe_hv of
- Nothing -> return ()
- Just hv -> do
- cmds <- io $ (unsafeCoerce# hv :: IO String)
- enqueueCommands (lines cmds)
- return ()
+ handleSourceError (\e -> GHC.printExceptionAndWarnings e) $ do
+ hv <- GHC.compileExpr expr
+ cmds <- io $ (unsafeCoerce# hv :: IO String)
+ enqueueCommands (lines cmds)
+ return ()
loadModule :: [(FilePath, Maybe Phase)] -> GHCi SuccessFlag
loadModule fs = timeIt (loadModule' fs)
loadModule' :: [(FilePath, Maybe Phase)] -> GHCi SuccessFlag
loadModule' files = do
- session <- getSession
- prev_context <- io $ GHC.getContext session
+ prev_context <- GHC.getContext
-- unload first
+ GHC.abandonAll
discardActiveBreakPoints
- io (GHC.setTargets session [])
- io (GHC.load session LoadAllTargets)
+ GHC.setTargets []
+ GHC.load LoadAllTargets
-- expand tildes
let (filenames, phases) = unzip files
exp_filenames <- mapM expandPath filenames
let files' = zip exp_filenames phases
- targets <- io (mapM (uncurry GHC.guessTarget) files')
+ targets <- mapM (uncurry GHC.guessTarget) files'
-- NOTE: we used to do the dependency anal first, so that if it
-- fails we didn't throw away the current set of modules. This would
-- require some re-working of the GHC interface, so we'll leave it
-- as a ToDo for now.
- io (GHC.setTargets session targets)
- doLoad session False prev_context LoadAllTargets
+ GHC.setTargets targets
+ doLoad False prev_context LoadAllTargets
checkModule :: String -> GHCi ()
checkModule m = do
let modl = GHC.mkModuleName m
- session <- getSession
- prev_context <- io $ GHC.getContext session
- result <- io (GHC.checkModule session modl False)
- case result of
- Nothing -> io $ putStrLn "Nothing"
- Just r -> io $ putStrLn (showSDoc (
- case GHC.checkedModuleInfo r of
- Just cm | Just scope <- GHC.modInfoTopLevelScope cm ->
+ prev_context <- GHC.getContext
+ ok <- handleSourceError (\e -> GHC.printExceptionAndWarnings e >> return False) $ do
+ r <- GHC.typecheckModule =<< GHC.parseModule =<< GHC.getModSummary modl
+ io $ putStrLn (showSDoc (
+ case GHC.moduleInfo r of
+ cm | Just scope <- GHC.modInfoTopLevelScope cm ->
let
- (local,global) = partition ((== modl) . GHC.moduleName . GHC.nameModule) scope
+ (local,global) = ASSERT( all isExternalName scope )
+ partition ((== modl) . GHC.moduleName . GHC.nameModule) scope
in
(text "global names: " <+> ppr global) $$
(text "local names: " <+> ppr local)
- _ -> empty))
- afterLoad (successIf (isJust result)) session False prev_context
+ _ -> empty))
+ return True
+ afterLoad (successIf ok) False prev_context
reloadModule :: String -> GHCi ()
reloadModule m = do
- session <- getSession
- prev_context <- io $ GHC.getContext session
- doLoad session True prev_context $
+ prev_context <- GHC.getContext
+ doLoad True prev_context $
if null m then LoadAllTargets
else LoadUpTo (GHC.mkModuleName m)
return ()
-doLoad :: Session -> Bool -> ([Module],[Module]) -> LoadHowMuch -> GHCi SuccessFlag
-doLoad session retain_context prev_context howmuch = do
+doLoad :: Bool -> ([Module],[Module]) -> LoadHowMuch -> GHCi SuccessFlag
+doLoad retain_context prev_context howmuch = do
-- turn off breakpoints before we load: we can't turn them off later, because
-- the ModBreaks will have gone away.
discardActiveBreakPoints
- ok <- io (GHC.load session howmuch)
- afterLoad ok session retain_context prev_context
+ ok <- trySuccess $ GHC.load howmuch
+ afterLoad ok retain_context prev_context
return ok
-afterLoad :: SuccessFlag -> Session -> Bool -> ([Module],[Module]) -> GHCi ()
-afterLoad ok session retain_context prev_context = do
+afterLoad :: SuccessFlag -> Bool -> ([Module],[Module]) -> GHCi ()
+afterLoad ok retain_context prev_context = do
revertCAFs -- always revert CAFs on load.
discardTickArrays
- loaded_mod_summaries <- getLoadedModules session
+ loaded_mod_summaries <- getLoadedModules
let loaded_mods = map GHC.ms_mod loaded_mod_summaries
loaded_mod_names = map GHC.moduleName loaded_mods
modulesLoadedMsg ok loaded_mod_names
- setContextAfterLoad session prev_context retain_context loaded_mod_summaries
+ setContextAfterLoad prev_context retain_context loaded_mod_summaries
-setContextAfterLoad :: Session -> ([Module],[Module]) -> Bool -> [GHC.ModSummary] -> GHCi ()
-setContextAfterLoad session prev keep_ctxt [] = do
+setContextAfterLoad :: ([Module],[Module]) -> Bool -> [GHC.ModSummary] -> GHCi ()
+setContextAfterLoad prev keep_ctxt [] = do
prel_mod <- getPrelude
- setContextKeepingPackageModules session prev keep_ctxt ([], [prel_mod])
-setContextAfterLoad session prev keep_ctxt ms = do
+ setContextKeepingPackageModules prev keep_ctxt ([], [prel_mod])
+setContextAfterLoad prev keep_ctxt ms = do
-- load a target if one is available, otherwise load the topmost module.
- targets <- io (GHC.getTargets session)
+ targets <- GHC.getTargets
case [ m | Just m <- map (findTarget ms) targets ] of
[] ->
let graph' = flattenSCCs (GHC.topSortModuleGraph True ms Nothing) in
[] -> Nothing
(m:_) -> Just m
- summary `matches` Target (TargetModule m) _
+ summary `matches` Target (TargetModule m) _ _
= GHC.ms_mod_name summary == m
- summary `matches` Target (TargetFile f _) _
+ summary `matches` Target (TargetFile f _) _ _
| Just f' <- GHC.ml_hs_file (GHC.ms_location summary) = f == f'
_ `matches` _
= False
load_this summary | m <- GHC.ms_mod summary = do
- b <- io (GHC.moduleIsInterpreted session m)
- if b then setContextKeepingPackageModules session prev keep_ctxt ([m], [])
+ b <- GHC.moduleIsInterpreted m
+ if b then setContextKeepingPackageModules prev keep_ctxt ([m], [])
else do
prel_mod <- getPrelude
- setContextKeepingPackageModules session prev keep_ctxt ([],[prel_mod,m])
+ setContextKeepingPackageModules prev keep_ctxt ([],[prel_mod,m])
-- | Keep any package modules (except Prelude) when changing the context.
setContextKeepingPackageModules
- :: Session
- -> ([Module],[Module]) -- previous context
+ :: ([Module],[Module]) -- previous context
-> Bool -- re-execute :module commands
-> ([Module],[Module]) -- new context
-> GHCi ()
-setContextKeepingPackageModules session prev_context keep_ctxt (as,bs) = do
+setContextKeepingPackageModules prev_context keep_ctxt (as,bs) = do
let (_,bs0) = prev_context
prel_mod <- getPrelude
let pkg_modules = filter (\p -> not (isHomeModule p) && p /= prel_mod) bs0
let bs1 = if null as then nub (prel_mod : bs) else bs
- io $ GHC.setContext session as (nub (bs1 ++ pkg_modules))
+ GHC.setContext as (nub (bs1 ++ pkg_modules))
if keep_ctxt
then do
st <- getGHCiState
typeOfExpr :: String -> GHCi ()
typeOfExpr str
- = do cms <- getSession
- maybe_ty <- io (GHC.exprType cms str)
- case maybe_ty of
- Nothing -> return ()
- Just ty -> do dflags <- getDynFlags
- let pefas = dopt Opt_PrintExplicitForalls dflags
- printForUser $ text str <+> dcolon
- <+> pprTypeForUser pefas ty
+ = handleSourceError (\e -> GHC.printExceptionAndWarnings e) $ do
+ ty <- GHC.exprType str
+ dflags <- getDynFlags
+ let pefas = dopt Opt_PrintExplicitForalls dflags
+ printForUser $ sep [text str, nest 2 (dcolon <+> pprTypeForUser pefas ty)]
kindOfType :: String -> GHCi ()
kindOfType str
- = do cms <- getSession
- maybe_ty <- io (GHC.typeKind cms str)
- case maybe_ty of
- Nothing -> return ()
- Just ty -> printForUser $ text str <+> dcolon <+> ppr ty
+ = handleSourceError (\e -> GHC.printExceptionAndWarnings e) $ do
+ ty <- GHC.typeKind str
+ printForUser $ text str <+> dcolon <+> ppr ty
quit :: String -> GHCi Bool
quit _ = return True
m <- lookupModule s
browseModule bang m True
[] -> do
- s <- getSession
- (as,bs) <- io $ GHC.getContext s
+ (as,bs) <- GHC.getContext
-- Guess which module the user wants to browse. Pick
-- modules that are interpreted first. The most
-- recently-added module occurs last, it seems.
case (as,bs) of
(as@(_:_), _) -> browseModule bang (last as) True
([], bs@(_:_)) -> browseModule bang (last bs) True
- ([], []) -> throwDyn (CmdLineError ":browse: no current module")
- _ -> throwDyn (CmdLineError "syntax: :browse <module>")
+ ([], []) -> ghcError (CmdLineError ":browse: no current module")
+ _ -> ghcError (CmdLineError "syntax: :browse <module>")
-- without bang, show items in context of their parents and omit children
-- with bang, show class methods and data constructors separately, and
-- with sorted, sort items alphabetically
browseModule :: Bool -> Module -> Bool -> GHCi ()
browseModule bang modl exports_only = do
- s <- getSession
-- :browse! reports qualifiers wrt current context
- current_unqual <- io (GHC.getPrintUnqual s)
+ current_unqual <- GHC.getPrintUnqual
-- Temporarily set the context to the module we're interested in,
-- just so we can get an appropriate PrintUnqualified
- (as,bs) <- io (GHC.getContext s)
+ (as,bs) <- GHC.getContext
prel_mod <- getPrelude
- io (if exports_only then GHC.setContext s [] [prel_mod,modl]
- else GHC.setContext s [modl] [])
- target_unqual <- io (GHC.getPrintUnqual s)
- io (GHC.setContext s as bs)
+ if exports_only then GHC.setContext [] [prel_mod,modl]
+ else GHC.setContext [modl] []
+ target_unqual <- GHC.getPrintUnqual
+ GHC.setContext as bs
let unqual = if bang then current_unqual else target_unqual
- mb_mod_info <- io $ GHC.getModuleInfo s modl
+ mb_mod_info <- GHC.getModuleInfo modl
case mb_mod_info of
- Nothing -> throwDyn (CmdLineError ("unknown module: " ++
+ Nothing -> ghcError (CmdLineError ("unknown module: " ++
GHC.moduleNameString (GHC.moduleName modl)))
Just mod_info -> do
dflags <- getDynFlags
-- We would like to improve this; see #1799.
sorted_names = loc_sort local ++ occ_sort external
where
- (local,external) = partition ((==modl) . nameModule) names
+ (local,external) = ASSERT( all isExternalName names )
+ partition ((==modl) . nameModule) names
occ_sort = sortBy (compare `on` nameOccName)
-- try to sort by src location. If the first name in
-- our list has a good source location, then they all should.
| otherwise
= occ_sort names
- mb_things <- io $ mapM (GHC.lookupName s) sorted_names
+ mb_things <- mapM GHC.lookupName sorted_names
let filtered_things = filterOutChildren (\t -> t) (catMaybes mb_things)
- rdr_env <- io $ GHC.getGRE s
+ rdr_env <- GHC.getGRE
let pefas = dopt Opt_PrintExplicitForalls dflags
things | bang = catMaybes mb_things
playCtxtCmd True (cmd, as, bs)
st <- getGHCiState
setGHCiState st{ remembered_ctx = remembered_ctx st ++ [(cmd,as,bs)] }
- | otherwise = throwDyn (CmdLineError "syntax: :module [+/-] [*]M1 ... [*]Mn")
+ | otherwise = ghcError (CmdLineError "syntax: :module [+/-] [*]M1 ... [*]Mn")
where
(cmd, strs, as, bs) =
case str of
playCtxtCmd :: Bool -> (CtxtCmd, [String], [String]) -> GHCi ()
playCtxtCmd fail (cmd, as, bs)
= do
- s <- getSession
(as',bs') <- do_checks fail
- (prev_as,prev_bs) <- io $ GHC.getContext s
+ (prev_as,prev_bs) <- GHC.getContext
(new_as, new_bs) <-
case cmd of
SetContext -> do
let new_as = prev_as \\ (as' ++ bs')
new_bs = prev_bs \\ (as' ++ bs')
return (new_as, new_bs)
- io $ GHC.setContext s new_as new_bs
+ GHC.setContext new_as new_bs
where
do_checks True = do
as' <- mapM wantInterpretedModule as
vcat (text "other dynamic, non-language, flag settings:"
:map (flagSetting dflags) nonLanguageDynFlags)
))
- where flagSetting dflags (str,f)
+ where flagSetting dflags (str, f, _)
| dopt f dflags = text " " <> text "-f" <> text str
| otherwise = text " " <> text "-fno-" <> text str
- (ghciFlags,others) = partition (\(_,f)->f `elem` flags)
+ (ghciFlags,others) = partition (\(_, f, _) -> f `elem` flags)
DynFlags.fFlags
- nonLanguageDynFlags = filter (\(_,f)->not $ f `elem` map snd xFlags)
- others
+ nonLanguageDynFlags = filterOut (\(_, f, _) -> f `elem` languageOptions)
+ others
flags = [Opt_PrintExplicitForalls
,Opt_PrintBindResult
,Opt_BreakOnException
st <- getGHCiState
if null value
then io $ hPutStrLn stderr $ "syntax: :set prompt <prompt>, currently \"" ++ prompt st ++ "\""
- else setGHCiState st{ prompt = remQuotes value }
- where
- remQuotes ('\"':xs) | not (null xs) && last xs == '\"' = init xs
- remQuotes x = x
+ else case value of
+ '\"' : _ -> case reads value of
+ [(value', xs)] | all isSpace xs ->
+ setGHCiState (st { prompt = value' })
+ _ ->
+ io $ hPutStrLn stderr "Can't parse prompt string. Use Haskell syntax."
+ _ -> setGHCiState (st { prompt = value })
setOptions wds =
do -- first, deal with the GHCi opts (+s, +t, etc.)
newDynFlags minus_opts = do
dflags <- getDynFlags
let pkg_flags = packageFlags dflags
- (dflags',leftovers) <- io $ GHC.parseDynamicFlags dflags minus_opts
+ (dflags', leftovers, warns) <- io $ GHC.parseDynamicFlags dflags $ map noLoc minus_opts
+ handleFlagWarnings dflags' warns
if (not (null leftovers))
- then throwDyn (CmdLineError ("unrecognised flags: " ++
- unwords leftovers))
- else return ()
+ then ghcError $ errorsToGhcException leftovers
+ else return ()
new_pkgs <- setDynFlags dflags'
-- and link the new packages.
dflags <- getDynFlags
when (packageFlags dflags /= pkg_flags) $ do
- io $ hPutStrLn stderr "package flags have changed, ressetting and loading new packages..."
- session <- getSession
- io (GHC.setTargets session [])
- io (GHC.load session LoadAllTargets)
+ io $ hPutStrLn stderr "package flags have changed, resetting and loading new packages..."
+ GHC.setTargets []
+ GHC.load LoadAllTargets
io (linkPackages dflags new_pkgs)
-- package flags changed, we can't re-use any of the old context
- setContextAfterLoad session ([],[]) False []
+ setContextAfterLoad ([],[]) False []
return ()
mapM_ unsetOpt plus_opts
let no_flag ('-':'f':rest) = return ("-fno-" ++ rest)
- no_flag f = throwDyn (ProgramError ("don't know how to reverse " ++ f))
+ no_flag f = ghcError (ProgramError ("don't know how to reverse " ++ f))
no_flags <- mapM no_flag minus_opts
newDynFlags no_flags
["context"] -> showContext
["packages"] -> showPackages
["languages"] -> showLanguages
- _ -> throwDyn (CmdLineError ("syntax: :show [ args | prog | prompt | editor | stop | modules | bindings\n"++
+ _ -> ghcError (CmdLineError ("syntax: :show [ args | prog | prompt | editor | stop | modules | bindings\n"++
" | breaks | context | packages | languages ]"))
showModules :: GHCi ()
showModules = do
- session <- getSession
- loaded_mods <- getLoadedModules session
+ loaded_mods <- getLoadedModules
-- we want *loaded* modules only, see #1734
- let show_one ms = do m <- io (GHC.showModule session ms); io (putStrLn m)
+ let show_one ms = do m <- GHC.showModule ms; io (putStrLn m)
mapM_ show_one loaded_mods
-getLoadedModules :: GHC.Session -> GHCi [GHC.ModSummary]
-getLoadedModules session = do
- graph <- io (GHC.getModuleGraph session)
- filterM (io . GHC.isLoaded session . GHC.ms_mod_name) graph
+getLoadedModules :: GHCi [GHC.ModSummary]
+getLoadedModules = do
+ graph <- GHC.getModuleGraph
+ filterM (GHC.isLoaded . GHC.ms_mod_name) graph
showBindings :: GHCi ()
showBindings = do
- s <- getSession
- bindings <- io (GHC.getBindings s)
- docs <- io$ pprTypeAndContents s
+ bindings <- GHC.getBindings
+ docs <- pprTypeAndContents
[ id | AnId id <- sortBy compareTyThings bindings]
printForUserPartWay docs
showContext :: GHCi ()
showContext = do
- session <- getSession
- resumes <- io $ GHC.getResumeContext session
+ resumes <- GHC.getResumeContext
printForUser $ vcat (map pp_resume (reverse resumes))
where
pp_resume resume =
dflags <- getDynFlags
io $ putStrLn $ showSDoc $ vcat $
text "active language flags:" :
- [text (" -X" ++ str) | (str,f) <- DynFlags.xFlags, dopt f dflags]
+ [text (" -X" ++ str) | (str, f, _) <- DynFlags.xFlags, dopt f dflags]
-- -----------------------------------------------------------------------------
-- Completion
completeNone _w = return []
completeMacro, completeIdentifier, completeModule,
- completeHomeModule, completeSetOptions, completeFilename,
- completeHomeModuleOrFile
+ completeHomeModule, completeSetOptions, completeShowOptions,
+ completeFilename, completeHomeModuleOrFile
:: String -> IO [String]
#ifdef USE_EDITLINE
(s,r') = span isBreak r
in (n,w):words' isBreak (n+length w+length s) r'
-- In a Haskell expression we want to parse 'a-b' as three words
- -- where a compiler flag (ie. -fno-monomorphism-restriction) should
+ -- where a compiler flag (e.g. -ddump-simpl) should
-- only be a single word.
selectWord [] = (0,w)
selectWord ((offset,x):xs)
return (filter (w `isPrefixOf`) (map cmdName cmds))
completeIdentifier w = do
- s <- restoreSession
- rdrs <- GHC.getRdrNamesInScope s
+ rdrs <- withRestoredSession GHC.getRdrNamesInScope
return (filter (w `isPrefixOf`) (map (showSDoc.ppr) rdrs))
completeModule w = do
- s <- restoreSession
- dflags <- GHC.getSessionDynFlags s
+ dflags <- withRestoredSession GHC.getSessionDynFlags
let pkg_mods = allExposedModules dflags
return (filter (w `isPrefixOf`) (map (showSDoc.ppr) pkg_mods))
completeHomeModule w = do
- s <- restoreSession
- g <- GHC.getModuleGraph s
+ g <- withRestoredSession GHC.getModuleGraph
let home_mods = map GHC.ms_mod_name g
return (filter (w `isPrefixOf`) (map (showSDoc.ppr) home_mods))
completeSetOptions w = do
return (filter (w `isPrefixOf`) options)
- where options = "args":"prog":allFlags
+ where options = "args":"prog":"prompt":"editor":"stop":flagList
+ flagList = map head $ group $ sort allFlags
+
+completeShowOptions w = do
+ return (filter (w `isPrefixOf`) options)
+ where options = ["args", "prog", "prompt", "editor", "stop",
+ "modules", "bindings", "linker", "breaks",
+ "context", "packages", "languages"]
completeFilename w = do
ws <- Readline.filenameCompletionFunction w
where
pkg_db = pkgIdMap (pkgState dflags)
#else
-completeMacro = completeNone
-completeIdentifier = completeNone
-completeModule = completeNone
-completeHomeModule = completeNone
-completeSetOptions = completeNone
-completeFilename = completeNone
+completeMacro = completeNone
+completeIdentifier = completeNone
+completeModule = completeNone
+completeHomeModule = completeNone
+completeSetOptions = completeNone
+completeShowOptions = completeNone
+completeFilename = completeNone
completeHomeModuleOrFile=completeNone
#endif
-- raising another exception. We therefore don't put the recursive
-- handler arond the flushing operation, so if stderr is closed
-- GHCi will just die gracefully rather than going into an infinite loop.
-handler :: Exception -> GHCi Bool
+handler :: SomeException -> GHCi Bool
handler exception = do
flushInterpBuffers
io installSignalHandlers
ghciHandle handler (showException exception >> return False)
-showException :: Exception -> GHCi ()
-showException (DynException dyn) =
- case fromDynamic dyn of
- Nothing -> io (putStrLn ("*** Exception: (unknown)"))
- Just Interrupted -> io (putStrLn "Interrupted.")
- Just (CmdLineError s) -> io (putStrLn s) -- omit the location for CmdLineError
- Just ph@PhaseFailed{} -> io (putStrLn (showGhcException ph "")) -- ditto
- Just other_ghc_ex -> io (print other_ghc_ex)
-
-showException other_exception
- = io (putStrLn ("*** Exception: " ++ show other_exception))
+showException :: SomeException -> GHCi ()
+showException se =
+ io $ case fromException se of
+ Just Interrupted -> putStrLn "Interrupted."
+ -- omit the location for CmdLineError:
+ Just (CmdLineError s) -> putStrLn s
+ -- ditto:
+ Just ph@(PhaseFailed {}) -> putStrLn (showGhcException ph "")
+ Just other_ghc_ex -> print other_ghc_ex
+ Nothing -> putStrLn ("*** Exception: " ++ show se)
-----------------------------------------------------------------------------
-- recursive exception handlers
-- in an exception loop (eg. let a = error a in a) the ^C exception
-- may never be delivered. Thanks to Marcin for pointing out the bug.
-ghciHandle :: (Exception -> GHCi a) -> GHCi a -> GHCi a
+ghciHandle :: (SomeException -> GHCi a) -> GHCi a -> GHCi a
ghciHandle h (GHCi m) = GHCi $ \s ->
- Exception.catch (m s)
+ gcatch (m s)
(\e -> unGHCi (ghciUnblock (h e)) s)
ghciUnblock :: GHCi a -> GHCi a
-ghciUnblock (GHCi a) = GHCi $ \s -> Exception.unblock (a s)
+ghciUnblock (GHCi a) =
+ GHCi $ \s -> reifyGhc $ \gs ->
+ Exception.unblock (reflectGhc (a s) gs)
-ghciTry :: GHCi a -> GHCi (Either Exception a)
-ghciTry (GHCi m) = GHCi $ \s -> Exception.try (m s)
+ghciTry :: GHCi a -> GHCi (Either SomeException a)
+ghciTry (GHCi m) = GHCi $ \s -> gtry (m s)
-- ----------------------------------------------------------------------------
-- Utils
wantInterpretedModule :: String -> GHCi Module
wantInterpretedModule str = do
- session <- getSession
modl <- lookupModule str
- is_interpreted <- io (GHC.moduleIsInterpreted session modl)
+ dflags <- getDynFlags
+ when (GHC.modulePackageId modl /= thisPackage dflags) $
+ ghcError (CmdLineError ("module '" ++ str ++ "' is from another package;\nthis command requires an interpreted module"))
+ is_interpreted <- GHC.moduleIsInterpreted modl
when (not is_interpreted) $
- throwDyn (CmdLineError ("module '" ++ str ++ "' is not interpreted"))
+ ghcError (CmdLineError ("module '" ++ str ++ "' is not interpreted; try \':add *" ++ str ++ "' first"))
return modl
wantNameFromInterpretedModule :: (Name -> SDoc -> GHCi ()) -> String
-> (Name -> GHCi ())
-> GHCi ()
-wantNameFromInterpretedModule noCanDo str and_then = do
- session <- getSession
- names <- io $ GHC.parseName session str
+wantNameFromInterpretedModule noCanDo str and_then =
+ handleSourceError (GHC.printExceptionAndWarnings) $ do
+ names <- GHC.parseName str
case names of
[] -> return ()
(n:_) -> do
- let modl = GHC.nameModule n
+ let modl = ASSERT( isExternalName n ) GHC.nameModule n
if not (GHC.isExternalName n)
then noCanDo n $ ppr n <>
text " is not defined in an interpreted module"
else do
- is_interpreted <- io (GHC.moduleIsInterpreted session modl)
+ is_interpreted <- GHC.moduleIsInterpreted modl
if not is_interpreted
then noCanDo n $ text "module " <> ppr modl <>
text " is not interpreted"
pprintCommand :: Bool -> Bool -> String -> GHCi ()
pprintCommand bind force str = do
- session <- getSession
- io $ pprintClosureCommand session bind force str
+ pprintClosureCommand bind force str
stepCmd :: String -> GHCi ()
stepCmd [] = doContinue (const True) GHC.SingleStep
Nothing -> stepCmd []
Just _ -> do
Just span <- getCurrentBreakSpan
- let f some_span = optSrcSpanFileName span == optSrcSpanFileName some_span
+ let f some_span = srcSpanFileName_maybe span == srcSpanFileName_maybe some_span
doContinue f GHC.SingleStep
stepModuleCmd expression = stepCmd expression
-- doContinue :: SingleStep -> GHCi ()
doContinue :: (SrcSpan -> Bool) -> SingleStep -> GHCi ()
doContinue pred step = do
- runResult <- resume step
+ runResult <- resume pred step
afterRunStmt pred runResult
return ()
abandonCmd :: String -> GHCi ()
abandonCmd = noArgs $ do
- s <- getSession
- b <- io $ GHC.abandon s -- the prompt will change to indicate the new context
+ b <- GHC.abandon -- the prompt will change to indicate the new context
when (not b) $ io $ putStrLn "There is no computation running."
return ()
| otherwise = io $ putStrLn "Syntax: :history [num]"
where
history num = do
- s <- getSession
- resumes <- io $ GHC.getResumeContext s
+ resumes <- GHC.getResumeContext
case resumes of
[] -> io $ putStrLn "Not stopped at a breakpoint"
(r:_) -> do
[] -> io $ putStrLn $
"Empty history. Perhaps you forgot to use :trace?"
_ -> do
- spans <- mapM (io . GHC.getHistorySpan s) took
+ spans <- mapM GHC.getHistorySpan took
let nums = map (printf "-%-3d:") [(1::Int)..]
names = map GHC.historyEnclosingDecl took
printForUser (vcat(zipWith3
backCmd :: String -> GHCi ()
backCmd = noArgs $ do
- s <- getSession
- (names, _, span) <- io $ GHC.back s
+ (names, _, span) <- GHC.back
printForUser $ ptext (sLit "Logged breakpoint at") <+> ppr span
- printTypeOfNames s names
+ printTypeOfNames names
-- run the command set with ":set stop <cmd>"
st <- getGHCiState
enqueueCommands [stop st]
forwardCmd :: String -> GHCi ()
forwardCmd = noArgs $ do
- s <- getSession
- (names, ix, span) <- io $ GHC.forward s
+ (names, ix, span) <- GHC.forward
printForUser $ (if (ix == 0)
then ptext (sLit "Stopped at")
else ptext (sLit "Logged breakpoint at")) <+> ppr span
- printTypeOfNames s names
+ printTypeOfNames names
-- run the command set with ":set stop <cmd>"
st <- getGHCiState
enqueueCommands [stop st]
-- handle the "break" command
breakCmd :: String -> GHCi ()
breakCmd argLine = do
- session <- getSession
- breakSwitch session $ words argLine
+ breakSwitch $ words argLine
-breakSwitch :: Session -> [String] -> GHCi ()
-breakSwitch _session [] = do
+breakSwitch :: [String] -> GHCi ()
+breakSwitch [] = do
io $ putStrLn "The break command requires at least one argument."
-breakSwitch session (arg1:rest)
+breakSwitch (arg1:rest)
| looksLikeModuleName arg1 && not (null rest) = do
mod <- wantInterpretedModule arg1
breakByModule mod rest
| all isDigit arg1 = do
- (toplevel, _) <- io $ GHC.getContext session
+ (toplevel, _) <- GHC.getContext
case toplevel of
(mod : _) -> breakByModuleLine mod (read arg1) rest
[] -> do
wantNameFromInterpretedModule noCanDo arg1 $ \name -> do
let loc = GHC.srcSpanStart (GHC.nameSrcSpan name)
if GHC.isGoodSrcLoc loc
- then findBreakAndSet (GHC.nameModule name) $
+ then ASSERT( isExternalName name )
+ findBreakAndSet (GHC.nameModule name) $
findBreakByCoord (Just (GHC.srcLocFile loc))
(GHC.srcLocLine loc,
GHC.srcLocCol loc)
| otherwise = breakSyntax
breakSyntax :: a
-breakSyntax = throwDyn (CmdLineError "Syntax: :break [<mod>] <line> [<column>]")
+breakSyntax = ghcError (CmdLineError "Syntax: :break [<mod>] <line> [<column>]")
findBreakAndSet :: Module -> (TickArray -> Maybe (Int, SrcSpan)) -> GHCi ()
findBreakAndSet mod lookupTickTree = do
do_bold :: Bool
do_bold = (`isPrefixOf` unsafePerformIO mTerm) `any` ["xterm", "linux"]
where mTerm = System.Environment.getEnv "TERM"
- `Exception.catch` \_ -> return "TERM not set"
+ `catchIO` \_ -> return "TERM not set"
start_bold :: String
start_bold = "\ESC[1m"
Just span
| GHC.isGoodSrcSpan span -> io $ listAround span True
| otherwise ->
- do s <- getSession
- resumes <- io $ GHC.getResumeContext s
+ do resumes <- GHC.getResumeContext
case resumes of
[] -> panic "No resumes"
(r:_) ->
list2 :: [String] -> GHCi ()
list2 [arg] | all isDigit arg = do
- session <- getSession
- (toplevel, _) <- io $ GHC.getContext session
+ (toplevel, _) <- GHC.getContext
case toplevel of
[] -> io $ putStrLn "No module to list"
(mod : _) -> listModuleLine mod (read arg)
let loc = GHC.srcSpanStart (GHC.nameSrcSpan name)
if GHC.isGoodSrcLoc loc
then do
- tickArray <- getTickArray (GHC.nameModule name)
+ tickArray <- ASSERT( isExternalName name )
+ getTickArray (GHC.nameModule name)
let mb_span = findBreakByCoord (Just (GHC.srcLocFile loc))
(GHC.srcLocLine loc, GHC.srcLocCol loc)
tickArray
listModuleLine :: Module -> Int -> GHCi ()
listModuleLine modl line = do
- session <- getSession
- graph <- io (GHC.getModuleGraph session)
+ graph <- GHC.getModuleGraph
let this = filter ((== modl) . GHC.ms_mod) graph
case this of
[] -> panic "listModuleLine"
summ:_ -> do
- let filename = fromJust (ml_hs_file (GHC.ms_location summ))
+ let filename = expectJust "listModuleLine" (ml_hs_file (GHC.ms_location summ))
loc = GHC.mkSrcLoc (mkFastString (filename)) line 0
io $ listAround (GHC.srcLocSpan loc) False
-- | list a section of a source file around a particular SrcSpan.
-- If the highlight flag is True, also highlight the span using
--- start_bold/end_bold.
+-- start_bold\/end_bold.
listAround :: SrcSpan -> Bool -> IO ()
listAround span do_highlight = do
contents <- BS.readFile (unpackFS file)
lookupModule :: String -> GHCi Module
lookupModule modName
- = do session <- getSession
- io (GHC.findModule session (GHC.mkModuleName modName) Nothing)
+ = GHC.findModule (GHC.mkModuleName modName) Nothing
-- don't reset the counter back to zero?
discardActiveBreakPoints :: GHCi ()
getModBreak :: Module -> GHCi (GHC.BreakArray, Array Int SrcSpan)
getModBreak mod = do
- session <- getSession
- Just mod_info <- io $ GHC.getModuleInfo session mod
+ Just mod_info <- GHC.getModuleInfo mod
let modBreaks = GHC.modInfoModBreaks mod_info
let array = GHC.modBreaks_flags modBreaks
let ticks = GHC.modBreaks_locs modBreaks