-----------------------------------------------------------------------------
--- $Id: InteractiveUI.hs,v 1.48 2001/02/13 18:01:23 simonmar Exp $
+-- $Id: InteractiveUI.hs,v 1.89 2001/08/15 15:50:41 simonmar Exp $
--
-- GHC Interactive User Interface
--
-----------------------------------------------------------------------------
{-# OPTIONS -#include "Linker.h" #-}
+{-# OPTIONS -#include "SchedAPI.h" #-}
module InteractiveUI ( interactiveUI, ghciWelcomeMsg ) where
+#include "../includes/config.h"
#include "HsVersions.h"
+import Packages
import CompManager
-import CmStaticInfo
+import HscTypes ( GhciMode(..), TyThing(..) )
+import MkIface ( ifaceTyCls )
import ByteCodeLink
import DriverFlags
import DriverState
import DriverUtil
-import Type
import Linker
-import Finder
-import Module
-import Outputable
+import Finder ( flushPackageCache )
import Util
-import PprType {- instance Outputable Type; do not delete -}
+import Id ( isRecordSelector, recordSelectorFieldLabel,
+ isDataConWrapId, idName )
+import Class ( className )
+import TyCon ( tyConName, tyConClass_maybe )
+import FieldLabel ( fieldLabelTyCon )
+import SrcLoc ( isGoodSrcLoc )
+import Name ( Name, isHomePackageName, nameSrcLoc )
+import Outputable
+import CmdLineOpts ( DynFlag(..), getDynFlags, saveDynFlags, restoreDynFlags, dopt_unset )
import Panic ( GhcException(..) )
import Config
+#ifndef mingw32_TARGET_OS
+import Posix
+#endif
+
import Exception
import Dynamic
-#ifndef NO_READLINE
-import Readline
+#if HAVE_READLINE_HEADERS && HAVE_READLINE_LIBS
+import Readline
#endif
import IOExts
import Monad ( when )
import PrelGHC ( unsafeCoerce# )
-import PrelPack ( packString )
-import PrelByteArr
-import Foreign ( Ptr, nullPtr )
+import Foreign ( nullPtr )
+import CString ( peekCString )
-----------------------------------------------------------------------------
ghciWelcomeMsg = "\
\ ___ ___ _\n\
\ / _ \\ /\\ /\\/ __(_)\n\
-\ / /_\\// /_/ / / | | GHC Interactive, version " ++ cProjectVersion ++ ", For Haskell 98.\n\
+\ / /_\\// /_/ / / | | GHC Interactive, version " ++ cProjectVersion ++ ", for Haskell 98.\n\
\/ /_\\\\/ __ / /___| | http://www.haskell.org/ghc/\n\
\\\____/\\/ /_/\\____/|_| Type :? for help.\n"
("def", keepGoing defineMacro),
("help", keepGoing help),
("?", keepGoing help),
+ ("info", keepGoing info),
("load", keepGoing loadModule),
("module", keepGoing setContext),
("reload", keepGoing reloadModule),
helpText = "\
\ Commands available from the prompt:\n\
-\\
-\ <expr> evaluate <expr>\n\
-\ :add <filename> add a module to the current set\n\
-\ :cd <dir> change directory to <dir>\n\
-\ :help, :? display this list of commands\n\
-\ :load <filename> load a module (and it dependents)\n\
-\ :module <mod> set the context for expression evaluation to <mod>\n\
-\ :reload reload the current module set\n\
-\ :set <option> ... set options\n\
-\ :unset <option> ... unset options\n\
-\ :type <expr> show the type of <expr>\n\
-\ :quit exit GHCi\n\
-\ :!<command> run the shell command <command>\n\
+\\
+\ <stmt> evaluate/run <stmt>\n\
+\ :add <filename> ... add module(s) to the current target set\n\
+\ :cd <dir> change directory to <dir>\n\
+\ :def <cmd> <expr> define a command :<cmd>\n\
+\ :help, :? display this list of commands\n\
+\ :info [<name> ...] display information about the given names\n\
+\ :load <filename> ... load module(s) and their dependents\n\
+\ :module <mod> set the context for expression evaluation to <mod>\n\
+\ :reload reload the current module set\n\
+\ :set <option> ... set options\n\
+\ :undef <cmd> undefine user-defined command :<cmd>\n\
+\ :type <expr> show the type of <expr>\n\
+\ :unset <option> ... unset options\n\
+\ :quit exit GHCi\n\
+\ :!<command> run the shell command <command>\n\
\\
\ Options for `:set' and `:unset':\n\
\\
+\ +r revert top-level expressions after each evaluation\n\
\ +s print timing/memory stats after each evaluation\n\
\ +t print type after evaluation\n\
-\ +r revert top-level expressions after each evaluation\n\
\ -<flags> most GHC command line flags can also be set here\n\
\ (eg. -v2, -fglasgow-exts, etc.)\n\
\"
-interactiveUI :: CmState -> Maybe FilePath -> [String] -> IO ()
-interactiveUI cmstate mod cmdline_libs = do
+interactiveUI :: CmState -> [FilePath] -> [LibrarySpec] -> IO ()
+interactiveUI cmstate paths cmdline_libs = do
hFlush stdout
hSetBuffering stdout NoBuffering
-- link in the available packages
pkgs <- getPackageInfo
initLinker
- linkPackages cmdline_libs (reverse pkgs)
+ linkPackages cmdline_libs pkgs
(cmstate, ok, mods) <-
- case mod of
- Nothing -> return (cmstate, True, [])
- Just m -> cmLoadModule cmstate m
+ case paths of
+ [] -> return (cmstate, True, [])
+ _ -> cmLoadModule cmstate paths
-#ifndef NO_READLINE
+#if HAVE_READLINE_HEADERS && HAVE_READLINE_LIBS
Readline.initialize
#endif
- prel <- moduleNameToModule defaultCurrentModuleName
- writeIORef defaultCurrentModule prel
-
dflags <- getDynFlags
- (cmstate, maybe_stuff) <- cmGetExpr cmstate dflags False prel
- "PrelHandle.hFlush PrelHandle.stdout"
- case maybe_stuff of
- Nothing -> return ()
- Just (hv,_,_) -> writeIORef flush_stdout hv
-
- (cmstate, maybe_stuff) <- cmGetExpr cmstate dflags False prel
- "PrelHandle.hFlush PrelHandle.stdout"
- case maybe_stuff of
- Nothing -> return ()
- Just (hv,_,_) -> writeIORef flush_stderr hv
-
- let this_mod = case mods of
- [] -> prel
- m:ms -> m
-
- (unGHCi runGHCi) GHCiState{ modules = mods,
- current_module = this_mod,
- target = mod,
- cmstate = cmstate,
- options = [ShowTiming],
- last_expr = Nothing}
+ (cmstate, maybe_hval)
+ <- cmCompileExpr cmstate dflags "IO.hFlush PrelHandle.stderr"
+ case maybe_hval of
+ Just hval -> writeIORef flush_stderr (unsafeCoerce# hval :: IO ())
+ _ -> panic "interactiveUI:stderr"
+
+ (cmstate, maybe_hval)
+ <- cmCompileExpr cmstate dflags "IO.hFlush PrelHandle.stdout"
+ case maybe_hval of
+ Just hval -> writeIORef flush_stdout (unsafeCoerce# hval :: IO ())
+ _ -> panic "interactiveUI:stdout"
+
+ startGHCi runGHCi GHCiState{ targets = paths,
+ cmstate = cmstate,
+ options = [] }
+
+#if HAVE_READLINE_HEADERS && HAVE_READLINE_LIBS
+ Readline.resetTerminal Nothing
+#endif
+
return ()
runGHCi :: GHCi ()
runGHCi = do
- -- read in ./.ghci
- dot_ghci <- io (IO.try (openFile "./.ghci" ReadMode))
- case dot_ghci of
- Left e -> return ()
- Right hdl -> fileLoop hdl False
-
- -- read in ~/.ghci
- home <- io (IO.try (getEnv "HOME"))
- case home of
- Left e -> return ()
- Right dir -> do
- dot_ghci <- io (IO.try (openFile (dir ++ "/.ghci") ReadMode))
- case dot_ghci of
- Left e -> return ()
- Right hdl -> fileLoop hdl False
+ read_dot_files <- io (readIORef v_Read_DotGHCi)
+
+ when (read_dot_files) $ do
+ -- Read in ./.ghci.
+ let file = "./.ghci"
+ exists <- io (doesFileExist file)
+ when exists $ do
+ dir_ok <- io (checkPerms ".")
+ file_ok <- io (checkPerms file)
+ when (dir_ok && file_ok) $ do
+ either_hdl <- io (IO.try (openFile "./.ghci" ReadMode))
+ case either_hdl of
+ Left e -> return ()
+ Right hdl -> fileLoop hdl False
+
+ when (read_dot_files) $ do
+ -- Read in $HOME/.ghci
+ either_dir <- io (IO.try (getEnv "HOME"))
+ case either_dir of
+ Left e -> return ()
+ Right dir -> do
+ cwd <- io (getCurrentDirectory)
+ when (dir /= cwd) $ do
+ let file = dir ++ "/.ghci"
+ ok <- io (checkPerms file)
+ when ok $ do
+ either_hdl <- io (IO.try (openFile file ReadMode))
+ case either_hdl of
+ Left e -> return ()
+ Right hdl -> fileLoop hdl False
-- read commands from stdin
-#ifndef NO_READLINE
+#if HAVE_READLINE_HEADERS && HAVE_READLINE_LIBS
readlineLoop
#else
fileLoop stdin True
io $ do putStrLn "Leaving GHCi."
+-- NOTE: We only read .ghci files if they are owned by the current user,
+-- and aren't world writable. Otherwise, we could be accidentally
+-- running code planted by a malicious third party.
+
+-- Furthermore, We only read ./.ghci if . is owned by the current user
+-- and isn't writable by anyone else. I think this is sufficient: we
+-- don't need to check .. and ../.. etc. because "." always refers to
+-- the same directory while a process is running.
+
+checkPerms :: String -> IO Bool
+checkPerms name =
+ handle (\_ -> return False) $ do
+#ifdef mingw32_TARGET_OS
+ doesFileExist name
+#else
+ st <- getFileStatus name
+ me <- getRealUserID
+ if fileOwner st /= me then do
+ putStrLn $ "WARNING: " ++ name ++ " is owned by someone else, IGNORING!"
+ return False
+ else do
+ let mode = fileMode st
+ if (groupWriteMode == (mode `intersectFileModes` groupWriteMode))
+ || (otherWriteMode == (mode `intersectFileModes` otherWriteMode))
+ then do
+ putStrLn $ "*** WARNING: " ++ name ++
+ " is writable by someone else, IGNORING!"
+ return False
+ else return True
+#endif
+
fileLoop :: Handle -> Bool -> GHCi ()
fileLoop hdl prompt = do
st <- getGHCiState
- when prompt (io (hPutStr hdl (moduleUserString (current_module st) ++ "> ")))
+ mod <- io (cmGetContext (cmstate st))
+ when prompt (io (putStr (mod ++ "> ")))
l <- io (IO.try (hGetLine hdl))
case l of
Left e | isEOFError e -> return ()
l -> do quit <- runCommand l
if quit then return () else stringLoop ss
-#ifndef NO_READLINE
+#if HAVE_READLINE_HEADERS && HAVE_READLINE_LIBS
readlineLoop :: GHCi ()
readlineLoop = do
st <- getGHCiState
- l <- io (readline (moduleUserString (current_module st) ++ "> "))
+ mod <- io (cmGetContext (cmstate st))
+ l <- io (readline (mod ++ "> "))
case l of
Nothing -> return ()
Just l ->
-- and carries on.
runCommand :: String -> GHCi Bool
runCommand c =
- ghciHandle ( \exception ->
- (case exception of
- DynException dyn ->
- case fromDynamic dyn of
- Nothing -> io (putStrLn ("*** Exception: (unknown)"))
- Just ghc_ex ->
- case ghc_ex of
- PhaseFailed phase code ->
- io ( putStrLn ("Phase " ++ phase ++ " failed (code "
- ++ show code ++ ")"))
- Interrupted -> io (putStrLn "Interrupted.")
- other -> io (putStrLn (show (ghc_ex :: GhcException)))
-
- other -> io (putStrLn ("*** Exception: " ++ show exception))
-
- ) >> return False
- ) $
-
- doCommand c
+ ghciHandle ( \exception -> do
+ flushEverything
+ showException exception
+ return False
+ ) $
+ doCommand c
+
+showException (DynException dyn) =
+ case fromDynamic dyn of
+ Nothing ->
+ io (putStrLn ("*** Exception: (unknown)"))
+ Just (PhaseFailed phase code) ->
+ io (putStrLn ("Phase " ++ phase ++ " failed (code "
+ ++ show code ++ ")"))
+ Just Interrupted ->
+ io (putStrLn "Interrupted.")
+ Just (CmdLineError s) ->
+ io (putStrLn s) -- omit the location for CmdLineError
+ Just other_ghc_ex ->
+ io (putStrLn (show other_ghc_ex))
+showException other_exception
+ = io (putStrLn ("*** Exception: " ++ show other_exception))
doCommand (':' : command) = specialCommand command
-doCommand ('-':'-':_) = return False -- comments, useful in scripts
-doCommand expr
- = do expr_expanded <- expandExpr expr
- -- io (putStrLn ( "Before: " ++ expr ++ "\nAfter: " ++ expr_expanded))
- expr_ok <- timeIt (do stuff <- evalExpr expr_expanded
- finishEvalExpr expr_expanded stuff)
- when expr_ok (rememberExpr expr_expanded)
+doCommand stmt
+ = do timeIt (do stuff <- runStmt stmt; finishEvalExpr stuff)
return False
--- Returned Maybe indicates whether or not the expr was successfully
--- parsed, renamed and typechecked.
-evalExpr :: String -> GHCi Bool
-evalExpr expr
- | null (filter (not.isSpace) expr)
- = return False
+-- Returns True if the expr was successfully parsed, renamed and
+-- typechecked.
+runStmt :: String -> GHCi (Maybe [Name])
+runStmt stmt
+ | null (filter (not.isSpace) stmt)
+ = return Nothing
| otherwise
= do st <- getGHCiState
- dflags <- io (getDynFlags)
- (new_cmstate, maybe_stuff) <-
- io (cmGetExpr (cmstate st) dflags True (current_module st) expr)
+ dflags <- io getDynFlags
+ let dflags' = dopt_unset dflags Opt_WarnUnusedBinds
+ (new_cmstate, names) <- io (cmRunStmt (cmstate st) dflags' stmt)
setGHCiState st{cmstate = new_cmstate}
- case maybe_stuff of
- Nothing -> return False
- Just (hv, unqual, ty) ->
- do io (cmRunExpr hv)
- return True
+ return (Just names)
-- possibly print the type and revert CAFs after evaluating an expression
-finishEvalExpr _ False = return False
-finishEvalExpr expr True
+finishEvalExpr Nothing = return False
+finishEvalExpr (Just names)
= do b <- isOptionSet ShowType
- -- re-typecheck, don't wrap with print this time
- when b (io (putStr ":: ") >> typeOfExpr expr)
+ st <- getGHCiState
+ when b (mapM_ (showTypeOfName (cmstate st)) names)
+
b <- isOptionSet RevertCAFs
io (when b revertCAFs)
flushEverything
return True
+showTypeOfName :: CmState -> Name -> GHCi ()
+showTypeOfName cmstate n
+ = do maybe_str <- io (cmTypeOfName cmstate n)
+ case maybe_str of
+ Nothing -> return ()
+ Just str -> io (putStrLn (showSDoc (ppr n) ++ " :: " ++ str))
+
flushEverything :: GHCi ()
flushEverything
= io $ do flush_so <- readIORef flush_stdout
- cmRunExpr flush_so
+ flush_so
flush_se <- readIORef flush_stdout
- cmRunExpr flush_se
+ flush_se
+ return ()
specialCommand :: String -> GHCi Bool
specialCommand ('!':str) = shellEscape (dropWhile isSpace str)
foldr1 (\a b -> a ++ ',':b) (map fst cs)
++ ")") >> return False)
-noArgs c = io (hPutStrLn stdout ("command `:" ++ c ++ "' takes no arguments"))
+noArgs c = throwDyn (CmdLineError ("command `" ++ c ++ "' takes no arguments"))
-----------------------------------------------------------------------------
-- Commands
help :: String -> GHCi ()
help _ = io (putStr helpText)
+info :: String -> GHCi ()
+info "" = throwDyn (CmdLineError "syntax: `:i <thing-you-want-info-about>'")
+info s = do
+ let names = words s
+ state <- getGHCiState
+ dflags <- io getDynFlags
+ let
+ infoThings cms [] = return cms
+ infoThings cms (name:names) = do
+ (cms, unqual, ty_things) <- io (cmInfoThing cms dflags name)
+ io (putStrLn (showSDocForUser unqual (
+ vcat (intersperse (text "") (map showThing ty_things))))
+ )
+ infoThings cms names
+
+ showThing ty_thing = vcat [ text "-- " <> showTyThing ty_thing,
+ ppr (ifaceTyCls ty_thing) ]
+
+ showTyThing (AClass cl)
+ = hcat [ppr cl, text " is a class", showSrcLoc (className cl)]
+ showTyThing (ATyCon ty)
+ = hcat [ppr ty, text " is a type constructor", showSrcLoc (tyConName ty)]
+ showTyThing (AnId id)
+ = hcat [ppr id, text " is a ", idDescr id, showSrcLoc (idName id)]
+
+ idDescr id
+ | isRecordSelector id =
+ case tyConClass_maybe (fieldLabelTyCon (
+ recordSelectorFieldLabel id)) of
+ Nothing -> text "record selector"
+ Just c -> text "method in class " <> ppr c
+ | isDataConWrapId id = text "data constructor"
+ | otherwise = text "variable"
+
+ -- also print out the source location for home things
+ showSrcLoc name
+ | isHomePackageName name && isGoodSrcLoc loc
+ = hsep [ text ", defined at", ppr loc ]
+ | otherwise
+ = empty
+ where loc = nameSrcLoc name
+
+ cms <- infoThings (cmstate state) names
+ setGHCiState state{ cmstate = cms }
+ return ()
+
+
addModule :: String -> GHCi ()
-addModule _ = throwDyn (OtherError ":add not implemented")
+addModule str = do
+ let files = words str
+ state <- getGHCiState
+ dflags <- io (getDynFlags)
+ io (revertCAFs) -- always revert CAFs on load/add.
+ let new_targets = files ++ targets state
+ (cmstate1, ok, mods) <- io (cmLoadModule (cmstate state) new_targets)
+ setGHCiState state{ cmstate = cmstate1, targets = new_targets }
+ modulesLoadedMsg ok mods
setContext :: String -> GHCi ()
setContext ""
- = throwDyn (OtherError "syntax: `:m <module>'")
-setContext m | not (isUpper (head m)) || not (all isAlphaNum (tail m))
- = throwDyn (OtherError ("strange looking module name: `" ++ m ++ "'"))
+ = throwDyn (CmdLineError "syntax: `:m <module>'")
+setContext m | not (isUpper (head m)) || not (all isAlphaNumEx (tail m))
+ = throwDyn (CmdLineError ("strange looking module name: `" ++ m ++ "'"))
+ where
+ isAlphaNumEx c = isAlphaNum c || c == '_'
setContext str
= do st <- getGHCiState
-
- let mn = mkModuleName str
- m <- case [ m | m <- modules st, moduleName m == mn ] of
- (m:_) -> return m
- [] -> io (moduleNameToModule mn)
-
- if (isHomeModule m && m `notElem` modules st)
- then throwDyn (OtherError (showSDoc (quotes (ppr (moduleName m))
- <+> text "is not currently loaded, use :load")))
- else setGHCiState st{current_module = m}
-
-moduleNameToModule :: ModuleName -> IO Module
-moduleNameToModule mn
- = do maybe_stuff <- findModule mn
- case maybe_stuff of
- Nothing -> throwDyn (OtherError ("can't find module `"
- ++ moduleNameUserString mn ++ "'"))
- Just (m,_) -> return m
+ new_cmstate <- io (cmSetContext (cmstate st) str)
+ setGHCiState st{cmstate=new_cmstate}
changeDirectory :: String -> GHCi ()
+changeDirectory ('~':d) = do
+ tilde <- io (getEnv "HOME") -- will fail if HOME not defined
+ io (setCurrentDirectory (tilde ++ '/':d))
changeDirectory d = io (setCurrentDirectory d)
defineMacro :: String -> GHCi ()
let (macro_name, definition) = break isSpace s
cmds <- io (readIORef commands)
if (null macro_name)
- then throwDyn (OtherError "invalid macro name")
+ then throwDyn (CmdLineError "invalid macro name")
else do
if (macro_name `elem` map fst cmds)
- then throwDyn (OtherError
- ("command `" ++ macro_name ++ "' already defined"))
+ then throwDyn (CmdLineError
+ ("command `" ++ macro_name ++ "' is already defined"))
else do
-- give the expression a type signature, so we can be sure we're getting
-- compile the expression
st <- getGHCiState
- dflags <- io (getDynFlags)
- (new_cmstate, maybe_stuff) <-
- io (cmGetExpr (cmstate st) dflags False (current_module st) new_expr)
+ dflags <- io getDynFlags
+ (new_cmstate, maybe_hv) <- io (cmCompileExpr (cmstate st) dflags new_expr)
setGHCiState st{cmstate = new_cmstate}
- case maybe_stuff of
+ case maybe_hv of
Nothing -> return ()
- Just (hv, unqual, ty)
- -> io (writeIORef commands
- ((macro_name, keepGoing (runMacro hv)) : cmds))
+ Just hv -> io (writeIORef commands --
+ ((macro_name, keepGoing (runMacro hv)) : cmds))
runMacro :: HValue{-String -> IO String-} -> String -> GHCi ()
runMacro fun s = do
undefineMacro macro_name = do
cmds <- io (readIORef commands)
if (macro_name `elem` map fst builtin_commands)
- then throwDyn (OtherError
+ then throwDyn (CmdLineError
("command `" ++ macro_name ++ "' cannot be undefined"))
else do
if (macro_name `notElem` map fst cmds)
- then throwDyn (OtherError
+ then throwDyn (CmdLineError
("command `" ++ macro_name ++ "' not defined"))
else do
io (writeIORef commands (filter ((/= macro_name) . fst) cmds))
loadModule :: String -> GHCi ()
-loadModule path = timeIt (loadModule' path)
+loadModule str = timeIt (loadModule' str)
-loadModule' path = do
+loadModule' str = do
+ let files = words str
state <- getGHCiState
- cmstate1 <- io (cmUnload (cmstate state))
+ dflags <- io getDynFlags
+ cmstate1 <- io (cmUnload (cmstate state) dflags)
+ setGHCiState state{ cmstate = cmstate1, targets = [] }
io (revertCAFs) -- always revert CAFs on load.
- (cmstate2, ok, mods) <- io (cmLoadModule cmstate1 path)
+ (cmstate2, ok, mods) <- io (cmLoadModule cmstate1 files)
+ setGHCiState state{ cmstate = cmstate2, targets = files }
+ modulesLoadedMsg ok mods
+
+reloadModule :: String -> GHCi ()
+reloadModule "" = do
+ state <- getGHCiState
+ case targets state of
+ [] -> io (putStr "no current target\n")
+ paths
+ -> do io (revertCAFs) -- always revert CAFs on reload.
+ (new_cmstate, ok, mods) <- io (cmLoadModule (cmstate state) paths)
+ setGHCiState state{ cmstate=new_cmstate }
+ modulesLoadedMsg ok mods
- def_mod <- io (readIORef defaultCurrentModule)
+reloadModule _ = noArgs ":reload"
- let new_state = state{
- cmstate = cmstate2,
- modules = mods,
- current_module = case mods of
- [] -> def_mod
- xs -> head xs,
- target = Just path
- }
- setGHCiState new_state
+modulesLoadedMsg ok mods = do
let mod_commas
| null mods = text "none."
| otherwise = hsep (
- punctuate comma (map (text.moduleUserString) mods)) <> text "."
+ punctuate comma (map text mods)) <> text "."
case ok of
False ->
io (putStrLn (showSDoc (text "Failed, modules loaded: " <> mod_commas)))
True ->
io (putStrLn (showSDoc (text "Ok, modules loaded: " <> mod_commas)))
-reloadModule :: String -> GHCi ()
-reloadModule "" = do
- state <- getGHCiState
- case target state of
- Nothing -> io (putStr "no current target\n")
- Just path
- -> do io (revertCAFs) -- always revert CAFs on reload.
- (new_cmstate, ok, mods) <- io (cmLoadModule (cmstate state) path)
- def_mod <- io (readIORef defaultCurrentModule)
- setGHCiState
- state{cmstate=new_cmstate,
- modules = mods,
- current_module = case mods of
- [] -> def_mod
- xs -> head xs
- }
-
-reloadModule _ = noArgs ":reload"
typeOfExpr :: String -> GHCi ()
typeOfExpr str
= do st <- getGHCiState
- dflags <- io (getDynFlags)
- (new_cmstate, maybe_ty) <- io (cmGetExpr (cmstate st) dflags False
- (current_module st) str)
+ dflags <- io getDynFlags
+ (new_cmstate, maybe_tystr) <- io (cmTypeOfExpr (cmstate st) dflags str)
setGHCiState st{cmstate = new_cmstate}
- case maybe_ty of
- Nothing -> return ()
- Just (_, unqual, ty) -> io (printForUser stdout unqual (ppr ty))
+ case maybe_tystr of
+ Nothing -> return ()
+ Just tystr -> io (putStrLn tystr)
quit :: String -> GHCi Bool
quit _ = return True
))
setOptions str
= do -- first, deal with the GHCi opts (+s, +t, etc.)
- let opts = words str
- (minus_opts, rest1) = partition isMinus opts
- (plus_opts, rest2) = partition isPlus rest1
-
- if (not (null rest2))
- then io (putStrLn ("unknown option: `" ++ head rest2 ++ "'"))
- else do
-
- mapM setOpt plus_opts
-
- -- now, the GHC flags
- io (do -- first, static flags
- leftovers <- processArgs static_flags minus_opts []
-
- -- then, dynamic flags
- dyn_flags <- readIORef v_InitDynFlags
- writeIORef v_DynFlags dyn_flags
- leftovers <- processArgs dynamic_flags leftovers []
- dyn_flags <- readIORef v_DynFlags
- writeIORef v_InitDynFlags dyn_flags
-
- if (not (null leftovers))
- then throwDyn (OtherError ("unrecognised flags: " ++
+ let (plus_opts, minus_opts) = partition isPlus (words str)
+ mapM setOpt plus_opts
+
+ -- now, the GHC flags
+ pkgs_before <- io (readIORef v_Packages)
+ leftovers <- io (processArgs static_flags minus_opts [])
+ pkgs_after <- io (readIORef v_Packages)
+
+ -- update things if the users wants more packages
+ when (pkgs_before /= pkgs_after) $
+ newPackages (pkgs_after \\ pkgs_before)
+
+ -- then, dynamic flags
+ io $ do
+ restoreDynFlags
+ leftovers <- processArgs dynamic_flags leftovers []
+ saveDynFlags
+
+ if (not (null leftovers))
+ then throwDyn (CmdLineError ("unrecognised flags: " ++
unwords leftovers))
- else return ()
- )
+ else return ()
+
unsetOptions :: String -> GHCi ()
unsetOptions str
-- can't do GHC flags for now
if (not (null minus_opts))
- then throwDyn (OtherError "can't unset GHC command-line flags")
+ then throwDyn (CmdLineError "can't unset GHC command-line flags")
else return ()
isMinus ('-':s) = True
optToStr ShowType = "t"
optToStr RevertCAFs = "r"
------------------------------------------------------------------------------
--- Code to do last-expression-entered stuff. (a.k.a the $$ facility)
-
--- Take a string and replace $$s in it with the last expr, if any.
-expandExpr :: String -> GHCi String
-expandExpr str
- = do mle <- getLastExpr
- return (outside mle str)
- where
- outside mle ('$':'$':cs)
- = case mle of
- Just le -> " (" ++ le ++ ") " ++ outside mle cs
- Nothing -> outside mle cs
-
- outside mle [] = []
- outside mle ('"':str) = '"' : inside2 mle str -- "
- outside mle ('\'':str) = '\'' : inside1 mle str -- '
- outside mle (c:cs) = c : outside mle cs
-
- inside2 mle ('"':cs) = '"' : outside mle cs -- "
- inside2 mle (c:cs) = c : inside2 mle cs
- inside2 mle [] = []
-
- inside1 mle ('\'':cs) = '\'': outside mle cs
- inside1 mle (c:cs) = c : inside1 mle cs
- inside1 mle [] = []
-
-
-rememberExpr :: String -> GHCi ()
-rememberExpr str
- = do let cleaned = (clean . reverse . clean . reverse) str
- let forget_me_not | null cleaned = Nothing
- | otherwise = Just cleaned
- setLastExpr forget_me_not
- where
- clean = dropWhile isSpace
+newPackages new_pkgs = do
+ state <- getGHCiState
+ dflags <- io getDynFlags
+ cmstate1 <- io (cmUnload (cmstate state) dflags)
+ setGHCiState state{ cmstate = cmstate1, targets = [] }
+ io $ do
+ pkgs <- getPackageInfo
+ flushPackageCache pkgs
+
+ new_pkg_info <- getPackageDetails new_pkgs
+ mapM_ (linkPackage False) (reverse new_pkg_info)
-----------------------------------------------------------------------------
-- GHCi monad
data GHCiState = GHCiState
{
- modules :: [Module],
- current_module :: Module,
- target :: Maybe FilePath,
+ targets :: [FilePath],
cmstate :: CmState,
- options :: [GHCiOption],
- last_expr :: Maybe String
+ options :: [GHCiOption]
}
data GHCiOption
| RevertCAFs -- revert CAFs after every evaluation
deriving Eq
-defaultCurrentModuleName = mkModuleName "Prelude"
-GLOBAL_VAR(defaultCurrentModule, error "no defaultCurrentModule", Module)
+GLOBAL_VAR(flush_stdout, error "no flush_stdout", IO ())
+GLOBAL_VAR(flush_stderr, error "no flush_stdout", IO ())
-GLOBAL_VAR(flush_stdout, error "no flush_stdout", HValue)
-GLOBAL_VAR(flush_stderr, error "no flush_stdout", HValue)
+newtype GHCi a = GHCi { unGHCi :: IORef GHCiState -> IO a }
-newtype GHCi a = GHCi { unGHCi :: GHCiState -> IO (GHCiState, a) }
+startGHCi :: GHCi a -> GHCiState -> IO a
+startGHCi g state = do ref <- newIORef state; unGHCi g ref
instance Monad GHCi where
- (GHCi m) >>= k = GHCi $ \s -> m s >>= \(s,a) -> unGHCi (k a) s
- return a = GHCi $ \s -> return (s,a)
+ (GHCi m) >>= k = GHCi $ \s -> m s >>= \a -> unGHCi (k a) s
+ return a = GHCi $ \s -> return a
-getGHCiState = GHCi $ \s -> return (s,s)
-setGHCiState s = GHCi $ \_ -> return (s,())
+getGHCiState = GHCi $ \r -> readIORef r
+setGHCiState s = GHCi $ \r -> writeIORef r s
isOptionSet :: GHCiOption -> GHCi Bool
isOptionSet opt
= do st <- getGHCiState
setGHCiState (st{ options = filter (/= opt) (options st) })
-getLastExpr :: GHCi (Maybe String)
-getLastExpr
- = do st <- getGHCiState ; return (last_expr st)
-
-setLastExpr :: Maybe String -> GHCi ()
-setLastExpr last_expr
- = do st <- getGHCiState ; setGHCiState (st{last_expr = last_expr})
-
-io m = GHCi $ \s -> m >>= \a -> return (s,a)
+io :: IO a -> GHCi a
+io m = GHCi { unGHCi = \s -> m >>= return }
-----------------------------------------------------------------------------
-- recursive exception handlers
-----------------------------------------------------------------------------
-- package loader
-linkPackages :: [String] -> [Package] -> IO ()
-linkPackages cmdline_libs pkgs
- = do mapM preloadLib cmdline_libs
- mapM_ linkPackage pkgs
+-- Left: full path name of a .o file, including trailing .o
+-- Right: "unadorned" name of a .DLL/.so
+-- e.g. On unix "qt" denotes "libqt.so"
+-- On WinDoze "burble" denotes "burble.DLL"
+-- addDLL is platform-specific and adds the lib/.so/.DLL
+-- suffixes platform-dependently; we don't do that here.
+--
+-- For dynamic objects only, try to find the object file in all the
+-- directories specified in v_Library_Paths before giving up.
+
+type LibrarySpec
+ = Either FilePath String
+
+showLS (Left nm) = "(static) " ++ nm
+showLS (Right nm) = "(dynamic) " ++ nm
+
+linkPackages :: [LibrarySpec] -> [PackageConfig] -> IO ()
+linkPackages cmdline_lib_specs pkgs
+ = do sequence_ [ linkPackage (name p `elem` loaded) p | p <- reverse pkgs ]
+ lib_paths <- readIORef v_Library_paths
+ mapM_ (preloadLib lib_paths) cmdline_lib_specs
+ if (null cmdline_lib_specs)
+ then return ()
+ else do putStr "final link ... "
+ ok <- resolveObjs
+ if ok then putStrLn "done."
+ else throwDyn (InstallationError "linking extra libraries/objects failed")
where
- preloadLib orig_name
- = do putStr ("Loading object " ++ orig_name ++ " ... ")
- case classify orig_name of
+ -- Packages that are already linked into GHCi. For mingw32, we only
+ -- skip gmp and rts, since std and after need to load the msvcrt.dll
+ -- library which std depends on.
+ loaded
+# ifndef mingw32_TARGET_OS
+ = [ "gmp", "rts", "std", "concurrent", "posix", "text", "util" ]
+# else
+ = [ "gmp", "rts" ]
+# endif
+
+ preloadLib :: [String] -> LibrarySpec -> IO ()
+ preloadLib lib_paths lib_spec
+ = do putStr ("Loading object " ++ showLS lib_spec ++ " ... ")
+ case lib_spec of
Left static_ish
- -> do b <- doesFileExist static_ish
- if not b
- then do putStr "not found.\n"
- croak
- else do loadObj static_ish
- putStr "done.\n"
+ -> do b <- preload_static lib_paths static_ish
+ putStrLn (if b then "done." else "not found")
Right dll_unadorned
- -> do dll_ok <- addDLL dll_unadorned
- if dll_ok
- then putStr "done.\n"
- else do putStr "not found.\n"
- croak
-
- croak = throwDyn (OtherError "user specified .o/.so/.DLL cannot be found.")
-
- classify a_lib
- = let a_libr = reverse a_lib
- in
- case map toLower a_libr of
- ('o':'.':_)
- -> Left a_lib
- ('o':'s':'.':_)
- -> (Right . zap_leading_lib
- . reverse . drop 3 . reverse) a_lib
- ('l':'l':'d':'.':_)
- -> (Right . reverse . drop 4 . reverse) a_lib
- other
- -> -- Main.beginInteractive should not have let this through
- pprPanic "linkPackages" (text (show a_lib))
-
- zap_leading_lib str
- = if take 3 str == "lib" then drop 3 str else str
-
-
-linkPackage :: Package -> IO ()
+ -> -- We add "" to the set of paths to try, so that
+ -- if none of the real paths match, we force addDLL
+ -- to look in the default dynamic-link search paths.
+ do b <- preload_dynamic (lib_paths++[""]) dll_unadorned
+ when (not b) (cantFind lib_paths lib_spec)
+ putStrLn "done"
+
+ cantFind :: [String] -> LibrarySpec -> IO ()
+ cantFind paths spec
+ = do putStr ("failed.\nCan't find " ++ showLS spec
+ ++ " in directories:\n"
+ ++ unlines (map (" "++) paths) )
+ give_up
+
+ -- not interested in the paths in the static case.
+ preload_static paths name
+ = do b <- doesFileExist name
+ if not b then return False
+ else loadObj name >> return True
+
+ preload_dynamic [] name
+ = return False
+ preload_dynamic (path:paths) rootname
+ = do maybe_errmsg <- addDLL path rootname
+ if maybe_errmsg /= nullPtr
+ then preload_dynamic paths rootname
+ else return True
+
+ give_up
+ = (throwDyn . CmdLineError)
+ "user specified .o/.so/.DLL could not be loaded."
+
+
+linkPackage :: Bool -> PackageConfig -> IO ()
-- ignore rts and gmp for now (ToDo; better?)
-linkPackage pkg
+linkPackage loaded_in_ghci pkg
| name pkg `elem` ["rts", "gmp"]
= return ()
| otherwise
let dirs = library_dirs pkg
let objs = hs_libraries pkg ++ extra_libraries pkg
classifieds <- mapM (locateOneObj dirs) objs
- let sos_first = filter isRight classifieds
- ++ filter (not.isRight) classifieds
+
+ -- Don't load the .so libs if this is a package GHCi is already
+ -- linked against, because we'll already have the .so linked in.
+ let (so_libs, obj_libs) = partition isRight classifieds
+ let sos_first | loaded_in_ghci = obj_libs
+ | otherwise = so_libs ++ obj_libs
+
mapM loadClassified sos_first
putStr "linking ... "
- resolveObjs
- putStrLn "done."
+ ok <- resolveObjs
+ if ok then putStrLn "done."
+ else panic ("can't load package `" ++ name pkg ++ "'")
where
isRight (Right _) = True
isRight (Left _) = False
-loadClassified :: Either FilePath String -> IO ()
+loadClassified :: LibrarySpec -> IO ()
loadClassified (Left obj_absolute_filename)
= do loadObj obj_absolute_filename
loadClassified (Right dll_unadorned)
- = do dll_ok <- addDLL dll_unadorned
- if dll_ok
+ = do maybe_errmsg <- addDLL "" dll_unadorned -- doesn't seem right to me
+ if maybe_errmsg == nullPtr
then return ()
- else throwDyn (OtherError ("can't find .o or .so/.DLL for: "
- ++ dll_unadorned))
+ else do str <- peekCString maybe_errmsg
+ throwDyn (CmdLineError ("can't load .so/.DLL for: "
+ ++ dll_unadorned ++ " (" ++ str ++ ")" ))
-locateOneObj :: [FilePath] -> String -> IO (Either FilePath String)
+locateOneObj :: [FilePath] -> String -> IO LibrarySpec
locateOneObj [] obj
= return (Right obj) -- we assume
locateOneObj (d:ds) obj