import HsImpExp
import qualified RdrName ( getGRE_NameQualifier_maybes ) -- should this come via GHC?
import RdrName (RdrName)
-import Outputable hiding (printForUser, printForUserPartWay)
+import Outputable hiding (printForUser, printForUserPartWay, bold)
import Module -- for ModuleEnv
import Name
import SrcLoc
("kind", keepGoing' kindOfType, completeIdentifier),
("load", keepGoingPaths loadModule_, completeHomeModuleOrFile),
("list", keepGoing' listCmd, noCompletion),
- ("module", keepGoing setContext, completeSetModule),
+ ("module", keepGoing moduleCmd, completeSetModule),
("main", keepGoing runMain, completeFilename),
("print", keepGoing printCmd, completeExpression),
("quit", quit, noCompletion),
#endif
-- initial context is just the Prelude
- prel_mod <- GHC.lookupModule (GHC.mkModuleName "Prelude") Nothing
- GHC.setContext [] [(prel_mod, Nothing)]
+ let prel_mn = GHC.mkModuleName "Prelude"
+ GHC.setContext [] [simpleImportDecl prel_mn]
default_editor <- liftIO $ findEditor
editor = default_editor,
-- session = session,
options = [],
- prelude = prel_mod,
+ prelude = prel_mn,
line_number = 1,
break_ctr = 0,
breaks = [],
mkPrompt :: GHCi String
mkPrompt = do
- (toplevs,exports) <- GHC.getContext
+ (toplevs,imports) <- GHC.getContext
resumes <- GHC.getResumeContext
-- st <- getGHCiState
-- hsep (map (\m -> text "!*" <> ppr (GHC.moduleName m)) btoplevs) <+>
-- hsep (map (\m -> char '!' <> ppr (GHC.moduleName m)) bexports) <+>
hsep (map (\m -> char '*' <> ppr (GHC.moduleName m)) toplevs) <+>
- hsep (map (ppr . GHC.moduleName) (nub (map fst exports)))
+ hsep (map ppr (nub (map ideclName imports)))
deflt_prompt = dots <> context_bit <> modules_bit
let dflags = xopt_set dflags' Opt_AlternativeLayoutRule
st <- lift $ getGHCiState
let buf = stringToStringBuffer stmt
- loc = mkSrcLoc (fsLit (progname st)) (line_number st) 1
+ loc = mkRealSrcLoc (fsLit (progname st)) (line_number st) 1
pstate = Lexer.mkPState dflags buf loc
case Lexer.unP goToEnd pstate of
(Lexer.POk _ False) -> return $ Just stmt
else LoadUpTo (GHC.mkModuleName m)
return ()
-doLoad :: Bool -> ([Module],[(Module, Maybe (ImportDecl RdrName))]) -> LoadHowMuch -> InputT GHCi SuccessFlag
+doLoad :: Bool -> ([Module],[ImportDecl RdrName]) -> LoadHowMuch -> InputT 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.
afterLoad ok retain_context prev_context
return ok
-afterLoad :: SuccessFlag -> Bool -> ([Module],[(Module, Maybe (ImportDecl RdrName))]) -> InputT GHCi ()
+afterLoad :: SuccessFlag -> Bool -> ([Module],[ImportDecl RdrName]) -> InputT GHCi ()
afterLoad ok retain_context prev_context = do
lift revertCAFs -- always revert CAFs on load.
lift discardTickArrays
lift $ setContextAfterLoad prev_context retain_context loaded_mod_summaries
-setContextAfterLoad :: ([Module],[(Module, Maybe (ImportDecl RdrName))]) -> Bool -> [GHC.ModSummary] -> GHCi ()
+setContextAfterLoad :: ([Module],[ImportDecl RdrName]) -> Bool -> [GHC.ModSummary] -> GHCi ()
setContextAfterLoad prev keep_ctxt [] = do
prel_mod <- getPrelude
- setContextKeepingPackageModules prev keep_ctxt ([], [(prel_mod, Nothing)])
+ setContextKeepingPackageModules prev keep_ctxt ([], [simpleImportDecl prel_mod])
setContextAfterLoad prev keep_ctxt ms = do
-- load a target if one is available, otherwise load the topmost module.
targets <- GHC.getTargets
if b then setContextKeepingPackageModules prev keep_ctxt ([m], [])
else do
prel_mod <- getPrelude
- setContextKeepingPackageModules prev keep_ctxt ([],[(prel_mod,Nothing),(m,Nothing)])
+ setContextKeepingPackageModules prev keep_ctxt
+ ([], [simpleImportDecl prel_mod,
+ simpleImportDecl (GHC.moduleName m)])
-- | Keep any package modules (except Prelude) when changing the context.
setContextKeepingPackageModules
- :: ([Module],[(Module, Maybe (ImportDecl RdrName))]) -- previous context
+ :: ([Module],[ImportDecl RdrName]) -- previous context
-> Bool -- re-execute :module commands
- -> ([Module],[(Module, Maybe (ImportDecl RdrName))]) -- new context
+ -> ([Module],[ImportDecl RdrName]) -- new context
-> GHCi ()
setContextKeepingPackageModules prev_context keep_ctxt (as,bs) = do
- let (_,bs0) = prev_context
+ let (_,imports0) = prev_context
prel_mod <- getPrelude
-- filter everything, not just lefts
- let pkg_modules = filter ((\p -> not (isHomeModule p) && p /= prel_mod) . fst) bs0
- let bs1 = if null as then nubBy sameFst ((prel_mod,Nothing) : bs) else bs
- GHC.setContext as (nubBy sameFst (bs1 ++ pkg_modules))
+
+ let is_pkg_mod i
+ | unLoc (ideclName i) == prel_mod = return False
+ | otherwise = do
+ e <- gtry $ GHC.findModule (unLoc (ideclName i)) (ideclPkgQual i)
+ case e :: Either SomeException Module of
+ Left _ -> return False
+ Right m -> return (not (isHomeModule m))
+
+ pkg_modules <- filterM is_pkg_mod imports0
+
+ let bs1 = if null as
+ then nubBy sameMod (simpleImportDecl prel_mod : bs)
+ else bs
+
+ GHC.setContext as (nubBy sameMod (bs1 ++ pkg_modules))
if keep_ctxt
then do
st <- getGHCiState
- mapM_ (playCtxtCmd False) (remembered_ctx st)
+ playCtxtCmds False (remembered_ctx st)
else do
st <- getGHCiState
setGHCiState st{ remembered_ctx = [] }
isHomeModule :: Module -> Bool
isHomeModule mod = GHC.modulePackageId mod == mainPackageId
-sameFst :: (Module, Maybe (ImportDecl RdrName)) -> (Module, Maybe (ImportDecl RdrName)) -> Bool
-sameFst x y = fst x == fst y
+sameMod :: ImportDecl RdrName -> ImportDecl RdrName -> Bool
+sameMod x y = unLoc (ideclName x) == unLoc (ideclName y)
modulesLoadedMsg :: SuccessFlag -> [ModuleName] -> InputT GHCi ()
modulesLoadedMsg ok mods = do
-- recently-added module occurs last, it seems.
case (as,bs) of
(as@(_:_), _) -> browseModule bang (last as) True
- ([], bs@(_:_)) -> browseModule bang (fst (last bs)) True
+ ([], bs@(_:_)) -> do
+ let i = last bs
+ m <- GHC.findModule (unLoc (ideclName i)) (ideclPkgQual i)
+ browseModule bang m True
([], []) -> ghcError (CmdLineError ":browse: no current module")
_ -> ghcError (CmdLineError "syntax: :browse <module>")
-- just so we can get an appropriate PrintUnqualified
(as,bs) <- GHC.getContext
prel_mod <- lift getPrelude
- if exports_only then GHC.setContext [] [(prel_mod,Nothing), (modl,Nothing)]
+ if exports_only then GHC.setContext [] [simpleImportDecl prel_mod,
+ simpleImportDecl (GHC.moduleName modl)]
else GHC.setContext [modl] []
target_unqual <- GHC.getPrintUnqual
GHC.setContext as bs
newContextCmd :: CtxtCmd -> GHCi ()
newContextCmd cmd = do
- playCtxtCmd True cmd
+ playCtxtCmds True [cmd]
st <- getGHCiState
let cmds = remembered_ctx st
setGHCiState st{ remembered_ctx = cmds ++ [cmd] }
-setContext :: String -> GHCi ()
-setContext str
+moduleCmd :: String -> GHCi ()
+moduleCmd str
| all sensible strs = newContextCmd cmd
| otherwise = ghcError (CmdLineError "syntax: :module [+/-] [*]M1 ... [*]Mn")
where
starred ('*':m) = Left m
starred m = Right m
-playCtxtCmd:: Bool -> CtxtCmd -> GHCi ()
-playCtxtCmd fail cmd = do
- (prev_as,prev_bs) <- GHC.getContext
+type Context = ([GHC.Module], [GHC.ImportDecl GHC.RdrName])
+
+playCtxtCmds :: Bool -> [CtxtCmd] -> GHCi ()
+playCtxtCmds fail cmds = do
+ ctx <- GHC.getContext
+ (as,bs) <- foldM (playCtxtCmd fail) ctx cmds
+ GHC.setContext as bs
+
+playCtxtCmd:: Bool -> Context -> CtxtCmd -> GHCi Context
+playCtxtCmd fail (prev_as, prev_bs) cmd = do
case cmd of
SetContext as bs -> do
(as',bs') <- do_checks as bs
prel_mod <- getPrelude
- let bs'' = if null as && prel_mod `notElem` (map fst bs')
- then (prel_mod,Nothing):bs'
+ let bs'' = if null as && prel_mod `notElem` bs'
+ then prel_mod : bs'
else bs'
- GHC.setContext as' bs''
+ return (as', map simpleImportDecl bs'')
AddModules as bs -> do
(as',bs') <- do_checks as bs
- -- it should replace the old stuff, not the other way around
- -- need deleteAllBy, not deleteFirstsBy for sameFst
- let remaining_as = prev_as \\ (as' ++ map fst bs')
- remaining_bs = deleteAllBy sameFst prev_bs (bs' ++ map contextualize as')
- GHC.setContext (remaining_as ++ as') (remaining_bs ++ bs')
+ let (remaining_as, remaining_bs) =
+ prev_without (map moduleName as' ++ bs')
+ return (remaining_as ++ as', remaining_bs ++ map simpleImportDecl bs')
RemModules as bs -> do
(as',bs') <- do_checks as bs
- let new_as = prev_as \\ (as' ++ map fst bs')
- new_bs = deleteAllBy sameFst prev_bs (map contextualize as' ++ bs')
- GHC.setContext new_as new_bs
+ let (new_as, new_bs) = prev_without (map moduleName as' ++ bs')
+ return (new_as, new_bs)
Import str -> do
m_idecl <- maybe_fail $ GHC.parseImportDecl str
case m_idecl of
- Nothing -> return ()
+ Nothing -> return (prev_as, prev_bs)
Just idecl -> do
m_mdl <- maybe_fail $ loadModuleName idecl
case m_mdl of
- Nothing -> return ()
- Just m -> GHC.setContext prev_as (prev_bs ++ [(m, Just idecl)])
-
+ Nothing -> return (prev_as, prev_bs)
+ Just _ -> return (prev_as, prev_bs ++ [idecl])
+ -- we don't filter the module out of the old declarations,
+ -- because 'import' is supposed to be cumulative.
where
maybe_fail | fail = liftM Just
| otherwise = trymaybe
+ prev_without names = (as',bs')
+ where as' = deleteAllBy sameModName prev_as names
+ bs' = deleteAllBy importsSameMod prev_bs names
+
do_checks as bs = do
as' <- mapM (maybe_fail . wantInterpretedModule) as
- bs' <- mapM (maybe_fail . lookupModule) bs
- return (catMaybes as', map contextualize (catMaybes bs'))
+ bs' <- mapM (maybe_fail . liftM moduleName . lookupModule) bs
+ return (catMaybes as', catMaybes bs')
- contextualize x = (x,Nothing)
- deleteAllBy f a b = filter (\x->(not (any (f x) b))) a
+ sameModName a b = moduleName a == b
+ importsSameMod a b = unLoc (ideclName a) == b
+
+ deleteAllBy :: (a -> b -> Bool) -> [a] -> [b] -> [a]
+ deleteAllBy f as bs = filter (\a-> not (any (f a) bs)) as
trymaybe ::GHCi a -> GHCi (Maybe a)
trymaybe m = do
completeSetModule = wrapIdentCompleterWithModifier "+-" $ \m w -> do
modules <- case m of
Just '-' -> do
- (toplevs, exports) <- GHC.getContext
- return $ map GHC.moduleName (nub (map fst exports) ++ toplevs)
+ (toplevs, imports) <- GHC.getContext
+ return $ map GHC.moduleName toplevs ++ map (unLoc.ideclName) imports
_ -> do
dflags <- GHC.getSessionDynFlags
let pkg_mods = allExposedModules dflags
-- | Returns the span of the largest tick containing the srcspan given
enclosingTickSpan :: Module -> SrcSpan -> GHCi SrcSpan
-enclosingTickSpan mod src = do
+enclosingTickSpan _ (UnhelpfulSpan _) = panic "enclosingTickSpan UnhelpfulSpan"
+enclosingTickSpan mod (RealSrcSpan src) = do
ticks <- getTickArray mod
let line = srcSpanStartLine src
ASSERT (inRange (bounds ticks) line) do
- let enclosing_spans = [ span | (_,span) <- ticks ! line
- , srcSpanEnd span >= srcSpanEnd src]
+ let toRealSrcSpan (UnhelpfulSpan _) = panic "enclosingTickSpan UnhelpfulSpan"
+ toRealSrcSpan (RealSrcSpan s) = s
+ enclosing_spans = [ span | (_,span) <- ticks ! line
+ , realSrcSpanEnd (toRealSrcSpan span) >= realSrcSpanEnd src]
return . head . sortBy leftmost_largest $ enclosing_spans
traceCmd :: String -> GHCi ()
| otherwise = do -- try parsing it as an identifier
wantNameFromInterpretedModule noCanDo arg1 $ \name -> do
let loc = GHC.srcSpanStart (GHC.nameSrcSpan name)
- if GHC.isGoodSrcLoc loc
- then ASSERT( isExternalName name )
+ case loc of
+ RealSrcLoc l ->
+ ASSERT( isExternalName name )
findBreakAndSet (GHC.nameModule name) $
- findBreakByCoord (Just (GHC.srcLocFile loc))
- (GHC.srcLocLine loc,
- GHC.srcLocCol loc)
- else noCanDo name $ text "can't find its location: " <> ppr loc
+ findBreakByCoord (Just (GHC.srcLocFile l))
+ (GHC.srcLocLine l,
+ GHC.srcLocCol l)
+ UnhelpfulLoc _ ->
+ noCanDo name $ text "can't find its location: " <> ppr loc
where
noCanDo n why = printForUser $
text "cannot set breakpoint on " <> ppr n <> text ": " <> why
ticks = arr ! line
starts_here = [ tick | tick@(_,span) <- ticks,
- GHC.srcSpanStartLine span == line ]
+ GHC.srcSpanStartLine (toRealSpan span) == line ]
(complete,incomplete) = partition ends_here starts_here
- where ends_here (_,span) = GHC.srcSpanEndLine span == line
+ where ends_here (_,span) = GHC.srcSpanEndLine (toRealSpan span) == line
+ toRealSpan (RealSrcSpan span) = span
+ toRealSpan (UnhelpfulSpan _) = panic "findBreakByLine UnhelpfulSpan"
findBreakByCoord :: Maybe FastString -> (Int,Int) -> TickArray
-> Maybe (BreakIndex,SrcSpan)
is_correct_file span ]
is_correct_file span
- | Just f <- mb_file = GHC.srcSpanFile span == f
+ | Just f <- mb_file = GHC.srcSpanFile (toRealSpan span) == f
| otherwise = True
after_here = [ tick | tick@(_,span) <- ticks,
- GHC.srcSpanStartLine span == line,
- GHC.srcSpanStartCol span >= col ]
+ let span' = toRealSpan span,
+ GHC.srcSpanStartLine span' == line,
+ GHC.srcSpanStartCol span' >= col ]
+
+ toRealSpan (RealSrcSpan span) = span
+ toRealSpan (UnhelpfulSpan _) = panic "findBreakByCoord UnhelpfulSpan"
-- For now, use ANSI bold on terminals that we know support it.
-- Otherwise, we add a line of carets under the active expression instead.
case mb_span of
Nothing ->
printForUser $ text "Not stopped at a breakpoint; nothing to list"
- Just span
- | GHC.isGoodSrcSpan span -> listAround span True
- | otherwise ->
+ Just (RealSrcSpan span) ->
+ listAround span True
+ Just span@(UnhelpfulSpan _) ->
do resumes <- GHC.getResumeContext
case resumes of
[] -> panic "No resumes"
list2 [arg] = do
wantNameFromInterpretedModule noCanDo arg $ \name -> do
let loc = GHC.srcSpanStart (GHC.nameSrcSpan name)
- if GHC.isGoodSrcLoc loc
- then do
- tickArray <- ASSERT( isExternalName name )
+ case loc of
+ RealSrcLoc l ->
+ do tickArray <- ASSERT( isExternalName name )
lift $ getTickArray (GHC.nameModule name)
- let mb_span = findBreakByCoord (Just (GHC.srcLocFile loc))
- (GHC.srcLocLine loc, GHC.srcLocCol loc)
+ let mb_span = findBreakByCoord (Just (GHC.srcLocFile l))
+ (GHC.srcLocLine l, GHC.srcLocCol l)
tickArray
case mb_span of
- Nothing -> listAround (GHC.srcLocSpan loc) False
- Just (_,span) -> listAround span False
- else
+ Nothing -> listAround (realSrcLocSpan l) False
+ Just (_, UnhelpfulSpan _) -> panic "list2 UnhelpfulSpan"
+ Just (_, RealSrcSpan span) -> listAround span False
+ UnhelpfulLoc _ ->
noCanDo name $ text "can't find its location: " <>
ppr loc
where
[] -> panic "listModuleLine"
summ:_ -> do
let filename = expectJust "listModuleLine" (ml_hs_file (GHC.ms_location summ))
- loc = GHC.mkSrcLoc (mkFastString (filename)) line 0
- listAround (GHC.srcLocSpan loc) False
+ loc = mkRealSrcLoc (mkFastString (filename)) line 0
+ listAround (realSrcLocSpan loc) False
-- | list a section of a source file around a particular SrcSpan.
-- If the highlight flag is True, also highlight the span using
-- 2) convert the BS to String using utf-string, and write it out.
-- It would be better if we could convert directly between UTF-8 and the
-- console encoding, of course.
-listAround :: MonadIO m => SrcSpan -> Bool -> InputT m ()
+listAround :: MonadIO m => RealSrcSpan -> Bool -> InputT m ()
listAround span do_highlight = do
contents <- liftIO $ BS.readFile (unpackFS file)
let
mkTickArray ticks
= accumArray (flip (:)) [] (1, max_line)
[ (line, (nm,span)) | (nm,span) <- ticks,
- line <- srcSpanLines span ]
+ let span' = toRealSpan span,
+ line <- srcSpanLines span' ]
where
- max_line = foldr max 0 (map GHC.srcSpanEndLine (map snd ticks))
+ max_line = foldr max 0 (map (GHC.srcSpanEndLine . toRealSpan . snd) ticks)
srcSpanLines span = [ GHC.srcSpanStartLine span ..
GHC.srcSpanEndLine span ]
+ toRealSpan (RealSrcSpan span) = span
+ toRealSpan (UnhelpfulSpan _) = panic "mkTickArray UnhelpfulSpan"
lookupModule :: GHC.GhcMonad m => String -> m Module
lookupModule modName
setBreakFlag toggle array index
| toggle = GHC.setBreakOn array index
| otherwise = GHC.setBreakOff array index
+