{-# OPTIONS -fno-warn-tabs #-} -- The above warning supression flag is a temporary kludge. -- While working on this module you are encouraged to remove it and -- detab the module (please do the detabbing in a separate patch). See -- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#TabsvsSpaces -- for details {-# OPTIONS -fno-cse #-} -- -fno-cse is needed for GLOBAL_VAR's to behave properly ----------------------------------------------------------------------------- -- -- Static flags -- -- Static flags can only be set once, on the command-line. Inside GHC, -- each static flag corresponds to a top-level value, usually of type Bool. -- -- (c) The University of Glasgow 2005 -- ----------------------------------------------------------------------------- module StaticFlags ( staticFlags, initStaticOpts, -- Ways WayName(..), Way(..), v_Ways, isRTSWay, mkBuildTag, -- Output style options opt_PprStyle_Debug, opt_NoDebugOutput, -- Suppressing boring aspects of core dumps opt_SuppressAll, opt_SuppressUniques, opt_SuppressCoercions, opt_SuppressModulePrefixes, opt_SuppressTypeApplications, opt_SuppressIdInfo, opt_SuppressTypeSignatures, opt_SuppressVarKinds, -- Hpc opts opt_Hpc, -- language opts opt_DictsStrict, -- optimisation opts opt_NoStateHack, opt_SimpleListLiterals, opt_CprOff, opt_SimplNoPreInlining, opt_SimplExcessPrecision, opt_NoOptCoercion, opt_MaxWorkerArgs, -- Unfolding control opt_UF_CreationThreshold, opt_UF_UseThreshold, opt_UF_FunAppDiscount, opt_UF_DictDiscount, opt_UF_KeenessFactor, opt_UF_DearOp, -- Optimization fuel controls opt_Fuel, -- Related to linking opt_Static, -- misc opts opt_ErrorSpans, opt_HistorySize, v_Ld_inputs, opt_StubDeadValues, opt_Ticky, -- For the parser addOpt, removeOpt, addWay, getWayFlags, v_opt_C_ready, -- Saving/restoring globals saveStaticFlagGlobals, restoreStaticFlagGlobals ) where #include "HsVersions.h" import FastString import Util import Maybes ( firstJusts ) import Panic import Control.Monad ( liftM3 ) import Data.Function import Data.Maybe ( listToMaybe ) import Data.IORef import System.IO.Unsafe ( unsafePerformIO ) import Data.List ----------------------------------------------------------------------------- -- Static flags initStaticOpts :: IO () initStaticOpts = writeIORef v_opt_C_ready True addOpt :: String -> IO () addOpt = consIORef v_opt_C addWay :: WayName -> IO () addWay = consIORef v_Ways . lkupWay removeOpt :: String -> IO () removeOpt f = do fs <- readIORef v_opt_C writeIORef v_opt_C $! filter (/= f) fs lookUp :: FastString -> Bool lookup_def_int :: String -> Int -> Int lookup_def_float :: String -> Float -> Float lookup_str :: String -> Maybe String -- holds the static opts while they're being collected, before -- being unsafely read by unpacked_static_opts below. GLOBAL_VAR(v_opt_C, defaultStaticOpts, [String]) GLOBAL_VAR(v_opt_C_ready, False, Bool) staticFlags :: [String] staticFlags = unsafePerformIO $ do ready <- readIORef v_opt_C_ready if (not ready) then panic "Static flags have not been initialised!\n Please call GHC.newSession or GHC.parseStaticFlags early enough." else readIORef v_opt_C -- -static is the default defaultStaticOpts :: [String] defaultStaticOpts = ["-static"] packed_static_opts :: [FastString] packed_static_opts = map mkFastString staticFlags lookUp sw = sw `elem` packed_static_opts -- (lookup_str "foo") looks for the flag -foo=X or -fooX, -- and returns the string X lookup_str sw = case firstJusts (map (stripPrefix sw) staticFlags) of Just ('=' : str) -> Just str Just str -> Just str Nothing -> Nothing lookup_def_int sw def = case (lookup_str sw) of Nothing -> def -- Use default Just xx -> try_read sw xx lookup_def_float sw def = case (lookup_str sw) of Nothing -> def -- Use default Just xx -> try_read sw xx try_read :: Read a => String -> String -> a -- (try_read sw str) tries to read s; if it fails, it -- bleats about flag sw try_read sw str = case reads str of ((x,_):_) -> x -- Be forgiving: ignore trailing goop, and alternative parses [] -> ghcError (UsageError ("Malformed argument " ++ str ++ " for flag " ++ sw)) -- ToDo: hack alert. We should really parse the arguments -- and announce errors in a more civilised way. {- Putting the compiler options into temporary at-files may turn out to be necessary later on if we turn hsc into a pure Win32 application where I think there's a command-line length limit of 255. unpacked_opts understands the @ option. unpacked_opts :: [String] unpacked_opts = concat $ map (expandAts) $ map unpackFS argv -- NOT ARGV any more: v_Static_hsc_opts where expandAts ('@':fname) = words (unsafePerformIO (readFile fname)) expandAts l = [l] -} -- debugging options -- | Suppress all that is suppressable in core dumps. -- Except for uniques, as some simplifier phases introduce new varibles that -- have otherwise identical names. opt_SuppressAll :: Bool opt_SuppressAll = lookUp (fsLit "-dsuppress-all") -- | Suppress all coercions, them replacing with '...' opt_SuppressCoercions :: Bool opt_SuppressCoercions = lookUp (fsLit "-dsuppress-all") || lookUp (fsLit "-dsuppress-coercions") opt_SuppressVarKinds :: Bool opt_SuppressVarKinds = lookUp (fsLit "-dsuppress-all") || lookUp (fsLit "-dsuppress-var-kinds") -- | Suppress module id prefixes on variables. opt_SuppressModulePrefixes :: Bool opt_SuppressModulePrefixes = lookUp (fsLit "-dsuppress-all") || lookUp (fsLit "-dsuppress-module-prefixes") -- | Suppress type applications. opt_SuppressTypeApplications :: Bool opt_SuppressTypeApplications = lookUp (fsLit "-dsuppress-all") || lookUp (fsLit "-dsuppress-type-applications") -- | Suppress info such as arity and unfoldings on identifiers. opt_SuppressIdInfo :: Bool opt_SuppressIdInfo = lookUp (fsLit "-dsuppress-all") || lookUp (fsLit "-dsuppress-idinfo") -- | Suppress separate type signatures in core, but leave types on lambda bound vars opt_SuppressTypeSignatures :: Bool opt_SuppressTypeSignatures = lookUp (fsLit "-dsuppress-all") || lookUp (fsLit "-dsuppress-type-signatures") -- | Suppress unique ids on variables. -- Except for uniques, as some simplifier phases introduce new variables that -- have otherwise identical names. opt_SuppressUniques :: Bool opt_SuppressUniques = lookUp (fsLit "-dsuppress-uniques") opt_PprStyle_Debug :: Bool opt_PprStyle_Debug = lookUp (fsLit "-dppr-debug") opt_Fuel :: Int opt_Fuel = lookup_def_int "-dopt-fuel" maxBound opt_NoDebugOutput :: Bool opt_NoDebugOutput = lookUp (fsLit "-dno-debug-output") -- Hpc opts opt_Hpc :: Bool opt_Hpc = lookUp (fsLit "-fhpc") -- language opts opt_DictsStrict :: Bool opt_DictsStrict = lookUp (fsLit "-fdicts-strict") opt_SimpleListLiterals :: Bool opt_SimpleListLiterals = lookUp (fsLit "-fsimple-list-literals") opt_NoStateHack :: Bool opt_NoStateHack = lookUp (fsLit "-fno-state-hack") opt_CprOff :: Bool opt_CprOff = lookUp (fsLit "-fcpr-off") -- Switch off CPR analysis in the new demand analyser opt_MaxWorkerArgs :: Int opt_MaxWorkerArgs = lookup_def_int "-fmax-worker-args" (10::Int) opt_HistorySize :: Int opt_HistorySize = lookup_def_int "-fhistory-size" 20 opt_StubDeadValues :: Bool opt_StubDeadValues = lookUp (fsLit "-dstub-dead-values") -- Simplifier switches opt_SimplNoPreInlining :: Bool opt_SimplNoPreInlining = lookUp (fsLit "-fno-pre-inlining") -- NoPreInlining is there just to see how bad things -- get if you don't do it! opt_SimplExcessPrecision :: Bool opt_SimplExcessPrecision = lookUp (fsLit "-fexcess-precision") opt_NoOptCoercion :: Bool opt_NoOptCoercion = lookUp (fsLit "-fno-opt-coercion") -- Unfolding control -- See Note [Discounts and thresholds] in CoreUnfold opt_UF_CreationThreshold, opt_UF_UseThreshold :: Int opt_UF_DearOp, opt_UF_FunAppDiscount, opt_UF_DictDiscount :: Int opt_UF_KeenessFactor :: Float opt_UF_CreationThreshold = lookup_def_int "-funfolding-creation-threshold" (750::Int) -- This threshold must be reasonably high to take -- account of possible discounts. -- E.g. 450 is not enough in 'fulsom' for Interval.sqr to inline into Csg.calc -- (The unfolding for sqr never makes it into the interface file.) opt_UF_UseThreshold = lookup_def_int "-funfolding-use-threshold" (60::Int) opt_UF_FunAppDiscount = lookup_def_int "-funfolding-fun-discount" (60::Int) opt_UF_DictDiscount = lookup_def_int "-funfolding-dict-discount" (30::Int) -- Be fairly keen to inline a fuction if that means -- we'll be able to pick the right method from a dictionary opt_UF_KeenessFactor = lookup_def_float "-funfolding-keeness-factor" (1.5::Float) opt_UF_DearOp = ( 40 :: Int) -- Related to linking opt_Static :: Bool opt_Static = lookUp (fsLit "-static") -- Include full span info in error messages, instead of just the start position. opt_ErrorSpans :: Bool opt_ErrorSpans = lookUp (fsLit "-ferror-spans") opt_Ticky :: Bool opt_Ticky = lookUp (fsLit "-ticky") -- object files and libraries to be linked in are collected here. -- ToDo: perhaps this could be done without a global, it wasn't obvious -- how to do it though --SDM. GLOBAL_VAR(v_Ld_inputs, [], [String]) ----------------------------------------------------------------------------- -- Ways -- The central concept of a "way" is that all objects in a given -- program must be compiled in the same "way". Certain options change -- parameters of the virtual machine, eg. profiling adds an extra word -- to the object header, so profiling objects cannot be linked with -- non-profiling objects. -- After parsing the command-line options, we determine which "way" we -- are building - this might be a combination way, eg. profiling+threaded. -- We then find the "build-tag" associated with this way, and this -- becomes the suffix used to find .hi files and libraries used in -- this compilation. data WayName = WayThreaded | WayDebug | WayProf | WayEventLog | WayPar | WayGran | WayNDP | WayDyn deriving (Eq,Ord) GLOBAL_VAR(v_Ways, [] ,[Way]) allowed_combination :: [WayName] -> Bool allowed_combination way = and [ x `allowedWith` y | x <- way, y <- way, x < y ] where -- Note ordering in these tests: the left argument is -- <= the right argument, according to the Ord instance -- on Way above. -- dyn is allowed with everything _ `allowedWith` WayDyn = True WayDyn `allowedWith` _ = True -- debug is allowed with everything _ `allowedWith` WayDebug = True WayDebug `allowedWith` _ = True WayProf `allowedWith` WayNDP = True WayThreaded `allowedWith` WayProf = True WayThreaded `allowedWith` WayEventLog = True _ `allowedWith` _ = False getWayFlags :: IO [String] -- new options getWayFlags = do unsorted <- readIORef v_Ways let ways = sortBy (compare `on` wayName) $ nubBy ((==) `on` wayName) $ unsorted writeIORef v_Ways ways if not (allowed_combination (map wayName ways)) then ghcError (CmdLineError $ "combination not supported: " ++ foldr1 (\a b -> a ++ '/':b) (map wayDesc ways)) else return (concatMap wayOpts ways) mkBuildTag :: [Way] -> String mkBuildTag ways = concat (intersperse "_" (map wayTag ways)) lkupWay :: WayName -> Way lkupWay w = case listToMaybe (filter ((==) w . wayName) way_details) of Nothing -> error "findBuildTag" Just details -> details isRTSWay :: WayName -> Bool isRTSWay = wayRTSOnly . lkupWay data Way = Way { wayName :: WayName, wayTag :: String, wayRTSOnly :: Bool, wayDesc :: String, wayOpts :: [String] } way_details :: [ Way ] way_details = [ Way WayThreaded "thr" True "Threaded" [ #if defined(freebsd_TARGET_OS) -- "-optc-pthread" -- , "-optl-pthread" -- FreeBSD's default threading library is the KSE-based M:N libpthread, -- which GHC has some problems with. It's currently not clear whether -- the problems are our fault or theirs, but it seems that using the -- alternative 1:1 threading library libthr works around it: "-optl-lthr" #elif defined(openbsd_TARGET_OS) || defined(netbsd_TARGET_OS) "-optc-pthread" , "-optl-pthread" #elif defined(solaris2_TARGET_OS) "-optl-lrt" #endif ], Way WayDebug "debug" True "Debug" [], Way WayDyn "dyn" False "Dynamic" [ "-DDYNAMIC" , "-optc-DDYNAMIC" #if defined(mingw32_TARGET_OS) -- On Windows, code that is to be linked into a dynamic library must be compiled -- with -fPIC. Labels not in the current package are assumed to be in a DLL -- different from the current one. , "-fPIC" #elif defined(openbsd_TARGET_OS) || defined(netbsd_TARGET_OS) -- Without this, linking the shared libHSffi fails because -- it uses pthread mutexes. , "-optl-pthread" #endif ], Way WayProf "p" False "Profiling" [ "-fscc-profiling" , "-DPROFILING" , "-optc-DPROFILING" ], Way WayEventLog "l" True "RTS Event Logging" [ "-DTRACING" , "-optc-DTRACING" ], Way WayPar "mp" False "Parallel" [ "-fparallel" , "-D__PARALLEL_HASKELL__" , "-optc-DPAR" , "-package concurrent" , "-optc-w" , "-optl-L${PVM_ROOT}/lib/${PVM_ARCH}" , "-optl-lpvm3" , "-optl-lgpvm3" ], -- at the moment we only change the RTS and could share compiler and libs! Way WayPar "mt" False "Parallel ticky profiling" [ "-fparallel" , "-D__PARALLEL_HASKELL__" , "-optc-DPAR" , "-optc-DPAR_TICKY" , "-package concurrent" , "-optc-w" , "-optl-L${PVM_ROOT}/lib/${PVM_ARCH}" , "-optl-lpvm3" , "-optl-lgpvm3" ], Way WayPar "md" False "Distributed" [ "-fparallel" , "-D__PARALLEL_HASKELL__" , "-D__DISTRIBUTED_HASKELL__" , "-optc-DPAR" , "-optc-DDIST" , "-package concurrent" , "-optc-w" , "-optl-L${PVM_ROOT}/lib/${PVM_ARCH}" , "-optl-lpvm3" , "-optl-lgpvm3" ], Way WayGran "mg" False "GranSim" [ "-fgransim" , "-D__GRANSIM__" , "-optc-DGRAN" , "-package concurrent" ], Way WayNDP "ndp" False "Nested data parallelism" [ "-XParr" , "-fvectorise"] ] ----------------------------------------------------------------------------- -- Tunneling our global variables into a new instance of the GHC library -- Ignore the v_Ld_inputs global because: -- a) It is mutated even once GHC has been initialised, which means that I'd -- have to add another layer of indirection to truly share the value -- b) We can get away without sharing it because it only affects the link, -- and is mutated by the GHC exe. Users who load up a new copy of the GHC -- library while another is running almost certainly won't actually access it. saveStaticFlagGlobals :: IO (Bool, [String], [Way]) saveStaticFlagGlobals = liftM3 (,,) (readIORef v_opt_C_ready) (readIORef v_opt_C) (readIORef v_Ways) restoreStaticFlagGlobals :: (Bool, [String], [Way]) -> IO () restoreStaticFlagGlobals (c_ready, c, ways) = do writeIORef v_opt_C_ready c_ready writeIORef v_opt_C c writeIORef v_Ways ways