{-# OPTIONS -fno-warn-missing-fields #-}
-{-# OPTIONS -w #-}
-- The above warning supression flag is a temporary kludge.
-- While working on this module you are encouraged to remove it and fix
-- any warnings in the module. See
GhcLink(..), isNoLink,
PackageFlag(..),
Option(..),
+ DynLibLoader(..),
fFlags, xFlags,
-- Configuration of the core-to-core and stg-to-stg phases
import Data.IORef ( readIORef )
import Control.Exception ( throwDyn )
import Control.Monad ( when )
-#ifdef mingw32_TARGET_OS
-import Data.List ( isPrefixOf )
-#else
-import Util ( split )
-#endif
import Data.Char
+import System.FilePath
import System.IO ( hPutStrLn, stderr )
-- -----------------------------------------------------------------------------
| Opt_PArr -- Syntactic support for parallel arrays
| Opt_Arrows -- Arrow-notation syntax
| Opt_TemplateHaskell
+ | Opt_QuasiQuotes
| Opt_ImplicitParams
| Opt_Generics
| Opt_ImplicitPrelude
| Opt_KindSignatures
| Opt_PatternSignatures
| Opt_ParallelListComp
+ | Opt_TransformListComp
| Opt_GeneralizedNewtypeDeriving
| Opt_RecursiveDo
| Opt_PatternGuards
| Opt_LiberalTypeSynonyms
| Opt_Rank2Types
| Opt_RankNTypes
+ | Opt_ImpredicativeTypes
| Opt_TypeOperators
| Opt_PrintExplicitForalls
extCoreName :: String, -- name of the .core output file
verbosity :: Int, -- verbosity level
optLevel :: Int, -- optimisation level
+ simplPhases :: Int, -- number of simplifier phases
maxSimplIterations :: Int, -- max simplifier iterations
+ shouldDumpSimplPhase :: SimplifierMode -> Bool,
ruleCheck :: Maybe String,
specConstrThreshold :: Maybe Int, -- Threshold for SpecConstr
+ specConstrCount :: Maybe Int, -- Max number of specialisations for any one function
liberateCaseThreshold :: Maybe Int, -- Threshold for LiberateCase
stolen_x86_regs :: Int,
outputFile :: Maybe String,
outputHi :: Maybe String,
+ dynLibLoader :: DynLibLoader,
-- | This is set by DriverPipeline.runPipeline based on where
-- its output is going.
| LinkBinary -- Link object code into a binary
| LinkInMemory -- Use the in-memory dynamic linker
| LinkDynLib -- Link objects into a dynamic lib (DLL on Windows, DSO on ELF platforms)
- deriving Eq
+ deriving (Eq, Show)
isNoLink :: GhcLink -> Bool
isNoLink NoLink = True
-isNoLink other = False
+isNoLink _ = False
data PackageFlag
= ExposePackage String
| IgnorePackage String
deriving Eq
+defaultHscTarget :: HscTarget
defaultHscTarget = defaultObjectTarget
-- | the 'HscTarget' value corresponding to the default way to create
-- object files on the current platform.
+defaultObjectTarget :: HscTarget
defaultObjectTarget
| cGhcWithNativeCodeGen == "YES" = HscAsm
| otherwise = HscC
+data DynLibLoader
+ = Deployable
+ | Wrapped (Maybe String)
+ | SystemDependent
+ deriving Eq
+
+initDynFlags :: DynFlags -> IO DynFlags
initDynFlags dflags = do
-- someday these will be dynamic flags
ways <- readIORef v_Ways
rtsBuildTag = rts_build_tag
}
+defaultDynFlags :: DynFlags
defaultDynFlags =
DynFlags {
ghcMode = CompManager,
extCoreName = "",
verbosity = 0,
optLevel = 0,
+ simplPhases = 2,
maxSimplIterations = 4,
+ shouldDumpSimplPhase = const False,
ruleCheck = Nothing,
specConstrThreshold = Just 200,
+ specConstrCount = Just 3,
liberateCaseThreshold = Just 200,
stolen_x86_regs = 4,
cmdlineHcIncludes = [],
outputFile = Nothing,
outputHi = Nothing,
+ dynLibLoader = Deployable,
dumpPrefix = Nothing,
dumpPrefixForce = Nothing,
includePaths = [],
| verbosity dflags >= 3 = "-v"
| otherwise = ""
+setObjectDir, setHiDir, setStubDir, setObjectSuf, setHiSuf, setHcSuf, parseDynLibLoaderMode,
+ setPgmP, setPgmL, setPgmF, setPgmc, setPgmm, setPgms, setPgma, setPgml, setPgmdll, setPgmwindres,
+ addOptL, addOptP, addOptF, addOptc, addOptm, addOpta, addOptl, addOptdep, addOptwindres,
+ addCmdlineFramework, addHaddockOpts
+ :: String -> DynFlags -> DynFlags
+setOutputFile, setOutputHi, setDumpPrefixForce
+ :: Maybe String -> DynFlags -> DynFlags
+
setObjectDir f d = d{ objectDir = Just f}
setHiDir f d = d{ hiDir = Just f}
setStubDir f d = d{ stubDir = Just f, includePaths = f : includePaths d }
setOutputFile f d = d{ outputFile = f}
setOutputHi f d = d{ outputHi = f}
+parseDynLibLoaderMode f d =
+ case splitAt 8 f of
+ ("deploy", "") -> d{ dynLibLoader = Deployable }
+ ("sysdep", "") -> d{ dynLibLoader = SystemDependent }
+ ("wrapped", "") -> d{ dynLibLoader = Wrapped Nothing }
+ ("wrapped:", "hard") -> d{ dynLibLoader = Wrapped Nothing }
+ ("wrapped:", flex) -> d{ dynLibLoader = Wrapped (Just flex) }
+ (_,_) -> error "Unknown dynlib loader"
+
setDumpPrefixForce f d = d { dumpPrefixForce = f}
-- XXX HACK: Prelude> words "'does not' work" ===> ["'does","not'","work"]
-- -----------------------------------------------------------------------------
-- Standard sets of warning options
+standardWarnings :: [DynFlag]
standardWarnings
= [ Opt_WarnDeprecations,
Opt_WarnOverlappingPatterns,
Opt_WarnDuplicateExports
]
+minusWOpts :: [DynFlag]
minusWOpts
= standardWarnings ++
[ Opt_WarnUnusedBinds,
Opt_WarnDodgyImports
]
+minusWallOpts :: [DynFlag]
minusWallOpts
= minusWOpts ++
[ Opt_WarnTypeDefaults,
]
-- minuswRemovesOpts should be every warning option
+minuswRemovesOpts :: [DynFlag]
minuswRemovesOpts
= minusWallOpts ++
[Opt_WarnImplicitPrelude,
data SimplifierMode -- See comments in SimplMonad
= SimplGently
- | SimplPhase Int
+ | SimplPhase Int [String]
data SimplifierSwitch
= MaxSimplifierIterations Int
-- The core-to-core pass ordering is derived from the DynFlags:
runWhen :: Bool -> CoreToDo -> CoreToDo
runWhen True do_this = do_this
-runWhen False do_this = CoreDoNothing
+runWhen False _ = CoreDoNothing
+
+runMaybe :: Maybe a -> (a -> CoreToDo) -> CoreToDo
+runMaybe (Just x) f = f x
+runMaybe Nothing _ = CoreDoNothing
getCoreToDo :: DynFlags -> [CoreToDo]
getCoreToDo dflags
| otherwise = core_todo
where
opt_level = optLevel dflags
+ phases = simplPhases dflags
max_iter = maxSimplIterations dflags
strictness = dopt Opt_Strictness dflags
full_laziness = dopt Opt_FullLaziness dflags
rule_check = ruleCheck dflags
vectorisation = dopt Opt_Vectorise dflags
- core_todo =
- if opt_level == 0 then
- [
- CoreDoSimplify (SimplPhase 0) [
- MaxSimplifierIterations max_iter
- ]
- ]
- else {- opt_level >= 1 -} [
+ maybe_rule_check phase = runMaybe rule_check (CoreDoRuleCheck phase)
+
+ simpl_phase phase names iter
+ = CoreDoPasses
+ [ CoreDoSimplify (SimplPhase phase names) [
+ MaxSimplifierIterations iter
+ ],
+ maybe_rule_check phase
+ ]
+
+ -- By default, we have 2 phases before phase 0.
+
+ -- Want to run with inline phase 2 after the specialiser to give
+ -- maximum chance for fusion to work before we inline build/augment
+ -- in phase 1. This made a difference in 'ansi' where an
+ -- overloaded function wasn't inlined till too late.
+
+ -- Need phase 1 so that build/augment get
+ -- inlined. I found that spectral/hartel/genfft lost some useful
+ -- strictness in the function sumcode' if augment is not inlined
+ -- before strictness analysis runs
+ simpl_phases = CoreDoPasses [ simpl_phase phase ["main"] max_iter
+ | phase <- [phases, phases-1 .. 1] ]
+
-- initial simplify: mk specialiser happy: minimum effort please
- CoreDoSimplify SimplGently [
+ simpl_gently = CoreDoSimplify SimplGently [
-- Simplify "gently"
-- Don't inline anything till full laziness has bitten
-- In particular, inlining wrappers inhibits floating
NoCaseOfCase, -- Don't do case-of-case transformations.
-- This makes full laziness work better
MaxSimplifierIterations max_iter
- ],
+ ]
+ core_todo =
+ if opt_level == 0 then
+ [simpl_phase 0 ["final"] max_iter]
+ else {- opt_level >= 1 -} [
+
+ -- initial simplify: mk specialiser happy: minimum effort please
+ simpl_gently,
-- We run vectorisation here for now, but we might also try to run
-- it later
- runWhen vectorisation (CoreDoPasses [
- CoreDoVectorisation,
- CoreDoSimplify SimplGently
- [NoCaseOfCase,
- MaxSimplifierIterations max_iter]]),
+ runWhen vectorisation (CoreDoPasses [ CoreDoVectorisation, simpl_gently ]),
-- Specialisation is best done before full laziness
-- so that overloaded functions have all their dictionary lambdas manifest
CoreDoFloatInwards,
- CoreDoSimplify (SimplPhase 2) [
- -- Want to run with inline phase 2 after the specialiser to give
- -- maximum chance for fusion to work before we inline build/augment
- -- in phase 1. This made a difference in 'ansi' where an
- -- overloaded function wasn't inlined till too late.
- MaxSimplifierIterations max_iter
- ],
- case rule_check of { Just pat -> CoreDoRuleCheck 2 pat; Nothing -> CoreDoNothing },
-
- CoreDoSimplify (SimplPhase 1) [
- -- Need inline-phase2 here so that build/augment get
- -- inlined. I found that spectral/hartel/genfft lost some useful
- -- strictness in the function sumcode' if augment is not inlined
- -- before strictness analysis runs
- MaxSimplifierIterations max_iter
- ],
- case rule_check of { Just pat -> CoreDoRuleCheck 1 pat; Nothing -> CoreDoNothing },
+ simpl_phases,
- CoreDoSimplify (SimplPhase 0) [
-- Phase 0: allow all Ids to be inlined now
-- This gets foldr inlined before strictness analysis
- MaxSimplifierIterations (max max_iter 3)
-- At least 3 iterations because otherwise we land up with
-- huge dead expressions because of an infelicity in the
-- simpifier.
-- ==> let k = BIG in letrec go = \xs -> ...(k x).... in go xs
-- ==> let k = BIG in letrec go = \xs -> ...(BIG x).... in go xs
-- Don't stop now!
+ simpl_phase 0 ["main"] (max max_iter 3),
- ],
- case rule_check of { Just pat -> CoreDoRuleCheck 0 pat; Nothing -> CoreDoNothing },
#ifdef OLD_STRICTNESS
CoreDoOldStrictness,
CoreDoStrictness,
CoreDoWorkerWrapper,
CoreDoGlomBinds,
- CoreDoSimplify (SimplPhase 0) [
- MaxSimplifierIterations max_iter
- ]]),
+ simpl_phase 0 ["post-worker-wrapper"] max_iter
+ ]),
runWhen full_laziness
(CoreDoFloatOutwards (FloatOutSw False -- Not lambdas
CoreDoFloatInwards,
- case rule_check of { Just pat -> CoreDoRuleCheck 0 pat; Nothing -> CoreDoNothing },
+ maybe_rule_check 0,
-- Case-liberation for -O2. This should be after
-- strictness analysis and the simplification which follows it.
runWhen liberate_case (CoreDoPasses [
CoreLiberateCase,
- CoreDoSimplify (SimplPhase 0) [
- MaxSimplifierIterations max_iter
- ] ]), -- Run the simplifier after LiberateCase to vastly
+ simpl_phase 0 ["post-liberate-case"] max_iter
+ ]), -- Run the simplifier after LiberateCase to vastly
-- reduce the possiblility of shadowing
-- Reason: see Note [Shadowing] in SpecConstr.lhs
runWhen spec_constr CoreDoSpecConstr,
- case rule_check of { Just pat -> CoreDoRuleCheck 0 pat; Nothing -> CoreDoNothing },
+ maybe_rule_check 0,
-- Final clean-up simplification:
- CoreDoSimplify (SimplPhase 0) [
- MaxSimplifierIterations max_iter
- ],
-
- case rule_check of { Just pat -> CoreDoRuleCheck 0 pat; Nothing -> CoreDoNothing }
-
+ simpl_phase 0 ["final"] max_iter
]
-- -----------------------------------------------------------------------------
, ( "c" , NoArg (upd $ \d -> d{ ghcLink=NoLink } ))
, ( "no-link" , NoArg (upd $ \d -> d{ ghcLink=NoLink } )) -- Dep.
, ( "shared" , NoArg (upd $ \d -> d{ ghcLink=LinkDynLib } ))
+ , ( "dynload" , HasArg (upd . parseDynLibLoaderMode))
------- Libraries ---------------------------------------------------
, ( "L" , Prefix addLibraryPath )
, ( "ddump-rn", setDumpFlag Opt_D_dump_rn)
, ( "ddump-simpl", setDumpFlag Opt_D_dump_simpl)
, ( "ddump-simpl-iterations", setDumpFlag Opt_D_dump_simpl_iterations)
- , ( "ddump-simpl-phases", setDumpFlag Opt_D_dump_simpl_phases)
+ , ( "ddump-simpl-phases", OptPrefix setDumpSimplPhases)
, ( "ddump-spec", setDumpFlag Opt_D_dump_spec)
, ( "ddump-prep", setDumpFlag Opt_D_dump_prep)
, ( "ddump-stg", setDumpFlag Opt_D_dump_stg)
, ( "ddump-simpl-stats", setDumpFlag Opt_D_dump_simpl_stats)
, ( "ddump-bcos", setDumpFlag Opt_D_dump_BCOs)
, ( "dsource-stats", setDumpFlag Opt_D_source_stats)
- , ( "dverbose-core2core", setDumpFlag Opt_D_verbose_core2core)
+ , ( "dverbose-core2core", NoArg setVerboseCore2Core)
, ( "dverbose-stg2stg", setDumpFlag Opt_D_verbose_stg2stg)
, ( "ddump-hi", setDumpFlag Opt_D_dump_hi)
, ( "ddump-minimal-imports", setDumpFlag Opt_D_dump_minimal_imports)
, ( "O" , OptIntSuffix (\mb_n -> upd (setOptLevel (mb_n `orElse` 1))))
-- If the number is missing, use 1
+ , ( "fsimplifier-phases", IntSuffix (\n ->
+ upd (\dfs -> dfs{ simplPhases = n })) )
, ( "fmax-simplifier-iterations", IntSuffix (\n ->
upd (\dfs -> dfs{ maxSimplIterations = n })) )
upd (\dfs -> dfs{ specConstrThreshold = Just n })))
, ( "fno-spec-constr-threshold", NoArg (
upd (\dfs -> dfs{ specConstrThreshold = Nothing })))
+ , ( "fspec-constr-count", IntSuffix (\n ->
+ upd (\dfs -> dfs{ specConstrCount = Just n })))
+ , ( "fno-spec-constr-count", NoArg (
+ upd (\dfs -> dfs{ specConstrCount = Nothing })))
, ( "fliberate-case-threshold", IntSuffix (\n ->
upd (\dfs -> dfs{ liberateCaseThreshold = Just n })))
, ( "fno-liberate-case-threshold", NoArg (
-- these -f<blah> flags can all be reversed with -fno-<blah>
+fFlags :: [(String, DynFlag)]
fFlags = [
( "warn-dodgy-imports", Opt_WarnDodgyImports ),
( "warn-duplicate-exports", Opt_WarnDuplicateExports ),
( "PatternSignatures", Opt_PatternSignatures ),
( "EmptyDataDecls", Opt_EmptyDataDecls ),
( "ParallelListComp", Opt_ParallelListComp ),
+ ( "TransformListComp", Opt_TransformListComp ),
( "ForeignFunctionInterface", Opt_ForeignFunctionInterface ),
( "UnliftedFFITypes", Opt_UnliftedFFITypes ),
( "LiberalTypeSynonyms", Opt_LiberalTypeSynonyms ),
( "Rank2Types", Opt_Rank2Types ),
( "RankNTypes", Opt_RankNTypes ),
+ ( "ImpredicativeTypes", Opt_ImpredicativeTypes ),
( "TypeOperators", Opt_TypeOperators ),
( "RecursiveDo", Opt_RecursiveDo ),
( "Arrows", Opt_Arrows ),
( "PArr", Opt_PArr ),
( "TemplateHaskell", Opt_TemplateHaskell ),
+ ( "QuasiQuotes", Opt_QuasiQuotes ),
( "Generics", Opt_Generics ),
-- On by default:
( "ImplicitPrelude", Opt_ImplicitPrelude ),
impliedFlags :: [(DynFlag, [DynFlag])]
impliedFlags = [
- ( Opt_GADTs, [Opt_RelaxedPolyRec] ) -- We want type-sig variables to be completely rigid for GADTs
+ ( Opt_GADTs, [Opt_RelaxedPolyRec] ) -- We want type-sig variables to
+ -- be completely rigid for GADTs
+ , ( Opt_ScopedTypeVariables, [Opt_RelaxedPolyRec] ) -- Ditto for scoped type variables; see
+ -- Note [Scoped tyvars] in TcBinds
]
+glasgowExtsFlags :: [DynFlag]
glasgowExtsFlags = [
Opt_PrintExplicitForalls
, Opt_ForeignFunctionInterface
, Opt_UnliftedFFITypes
- , Opt_GADTs
- , Opt_ImplicitParams
- , Opt_ScopedTypeVariables
+ , Opt_GADTs
+ , Opt_ImplicitParams
+ , Opt_ScopedTypeVariables
, Opt_UnboxedTuples
, Opt_TypeSynonymInstances
, Opt_StandaloneDeriving
, Opt_ConstrainedClassMethods
, Opt_MultiParamTypeClasses
, Opt_FunctionalDependencies
- , Opt_MagicHash
+ , Opt_MagicHash
, Opt_PolymorphicComponents
, Opt_ExistentialQuantification
, Opt_UnicodeSyntax
, Opt_PatternGuards
, Opt_LiberalTypeSynonyms
, Opt_RankNTypes
+ , Opt_ImpredicativeTypes
, Opt_TypeOperators
, Opt_RecursiveDo
, Opt_ParallelListComp
, Opt_KindSignatures
, Opt_PatternSignatures
, Opt_GeneralizedNewtypeDeriving
- , Opt_TypeFamilies ]
+ , Opt_TypeFamilies ]
------------------
isFlag :: [(String,a)] -> String -> Bool
------------------
getFlag :: [(String,a)] -> String -> a
getFlag flags f = case [ opt | (ff, opt) <- flags, ff == f] of
- (o:os) -> o
+ (o:_) -> o
[] -> panic ("get_flag " ++ f)
getPrefFlag :: String -> [(String,a)] -> String -> a
-- Whenver we -ddump, switch off the recompilation checker,
-- else you don't see the dump!
+setVerboseCore2Core :: DynP ()
+setVerboseCore2Core = do setDynFlag Opt_ForceRecomp
+ setDynFlag Opt_D_verbose_core2core
+ upd (\s -> s { shouldDumpSimplPhase = const True })
+
+setDumpSimplPhases :: String -> DynP ()
+setDumpSimplPhases s = do setDynFlag Opt_ForceRecomp
+ upd (\s -> s { shouldDumpSimplPhase = spec })
+ where
+ spec :: SimplifierMode -> Bool
+ spec = join (||)
+ . map (join (&&) . map match . split ':')
+ . split ','
+ $ case s of
+ '=' : s' -> s'
+ _ -> s
+
+ join :: (Bool -> Bool -> Bool)
+ -> [SimplifierMode -> Bool]
+ -> SimplifierMode -> Bool
+ join _ [] = const True
+ join op ss = foldr1 (\f g x -> f x `op` g x) ss
+
+ match :: String -> SimplifierMode -> Bool
+ match "" = const True
+ match s = case reads s of
+ [(n,"")] -> phase_num n
+ _ -> phase_name s
+
+ phase_num :: Int -> SimplifierMode -> Bool
+ phase_num n (SimplPhase k _) = n == k
+ phase_num _ _ = False
+
+ phase_name :: String -> SimplifierMode -> Bool
+ phase_name s SimplGently = s == "gentle"
+ phase_name s (SimplPhase _ ss) = s `elem` ss
+
setVerbosity :: Maybe Int -> DynP ()
setVerbosity mb_n = upd (\dfs -> dfs{ verbosity = mb_n `orElse` 3 })
+addCmdlineHCInclude :: String -> DynP ()
addCmdlineHCInclude a = upd (\s -> s{cmdlineHcIncludes = a : cmdlineHcIncludes s})
+extraPkgConf_ :: FilePath -> DynP ()
extraPkgConf_ p = upd (\s -> s{ extraPkgConfs = p : extraPkgConfs s })
+exposePackage, hidePackage, ignorePackage :: String -> DynP ()
exposePackage p =
upd (\s -> s{ packageFlags = ExposePackage p : packageFlags s })
hidePackage p =
ignorePackage p =
upd (\s -> s{ packageFlags = IgnorePackage p : packageFlags s })
+setPackageName :: String -> DynFlags -> DynFlags
setPackageName p
| Nothing <- unpackPackageId pid
= throwDyn (CmdLineError ("cannot parse \'" ++ p ++ "\' as a package identifier"))
-- If we're linking a binary, then only targets that produce object
-- code are allowed (requests for other target types are ignored).
+setTarget :: HscTarget -> DynP ()
setTarget l = upd set
where
set dfs
-- used by -fasm and -fvia-C, which switch from one to the other, but
-- not from bytecode to object-code. The idea is that -fasm/-fvia-C
-- can be safely used in an OPTIONS_GHC pragma.
+setObjTarget :: HscTarget -> DynP ()
setObjTarget l = upd set
where
set dfs
-----------------------------------------------------------------------------
-- Paths & Libraries
+addImportPath, addLibraryPath, addIncludePath, addFrameworkPath :: FilePath -> DynP ()
+
-- -i on its own deletes the import paths
addImportPath "" = upd (\s -> s{importPaths = []})
addImportPath p = upd (\s -> s{importPaths = importPaths s ++ splitPathList p})
addFrameworkPath p =
upd (\s -> s{frameworkPaths = frameworkPaths s ++ splitPathList p})
+#ifndef mingw32_TARGET_OS
+split_marker :: Char
split_marker = ':' -- not configurable (ToDo)
+#endif
splitPathList :: String -> [String]
splitPathList s = filter notNull (splitUp s)
-- finding the next split marker.
findNextPath xs =
case break (`elem` split_markers) xs of
- (p, d:ds) -> (p, ds)
+ (p, _:ds) -> (p, ds)
(p, xs) -> (p, xs)
split_markers :: [Char]
-- tmpDir, where we store temporary files.
setTmpDir :: FilePath -> DynFlags -> DynFlags
-setTmpDir dir dflags = dflags{ tmpDir = canonicalise dir }
- where
-#if !defined(mingw32_HOST_OS)
- canonicalise p = normalisePath p
-#else
- -- Canonicalisation of temp path under win32 is a bit more
- -- involved: (a) strip trailing slash,
- -- (b) normalise slashes
- -- (c) just in case, if there is a prefix /cygdrive/x/, change to x:
- --
- canonicalise path = normalisePath (xltCygdrive (removeTrailingSlash path))
-
- -- if we're operating under cygwin, and TMP/TEMP is of
- -- the form "/cygdrive/drive/path", translate this to
- -- "drive:/path" (as GHC isn't a cygwin app and doesn't
- -- understand /cygdrive paths.)
- xltCygdrive path
- | "/cygdrive/" `isPrefixOf` path =
- case drop (length "/cygdrive/") path of
- drive:xs@('/':_) -> drive:':':xs
- _ -> path
- | otherwise = path
-
- -- strip the trailing backslash (awful, but we only do this once).
- removeTrailingSlash path =
- case last path of
- '/' -> init path
- '\\' -> init path
- _ -> path
-#endif
+setTmpDir dir dflags = dflags{ tmpDir = normalise dir }
+ -- we used to fix /cygdrive/c/.. on Windows, but this doesn't
+ -- seem necessary now --SDM 7/2/2008
-----------------------------------------------------------------------------
-- Hpc stuff
machdepCCOpts :: DynFlags -> ([String], -- flags for all C compilations
[String]) -- for registerised HC compilations
-machdepCCOpts dflags
+machdepCCOpts _dflags
#if alpha_TARGET_ARCH
= ( ["-w", "-mieee"
#ifdef HAVE_THREADED_RTS_SUPPORT
--
-- -fomit-frame-pointer : *must* in .hc files; because we're stealing
-- the fp (%ebp) for our register maps.
- = let n_regs = stolen_x86_regs dflags
+ = let n_regs = stolen_x86_regs _dflags
sta = opt_Static
in
( [ if sta then "-DDONT_WANT_WIN32_DLL_SUPPORT" else ""
#endif
picCCOpts :: DynFlags -> [String]
-picCCOpts dflags
+picCCOpts _dflags
#if darwin_TARGET_OS
-- Apple prefers to do things the other way round.
-- PIC is on by default.