{-# LANGUAGE CPP #-} ------------------------------------------------------------------------------- -- -- | Dynamic flags -- -- Most flags are dynamic flags, which means they can change from compilation -- to compilation using @OPTIONS_GHC@ pragmas, and in a multi-session GHC each -- session can be using different dynamic flags. Dynamic flags can also be set -- at the prompt in GHCi. -- -- (c) The University of Glasgow 2005 -- ------------------------------------------------------------------------------- {-# OPTIONS_GHC -fno-cse #-} -- -fno-cse is needed for GLOBAL_VAR's to behave properly module DynFlags ( -- * Dynamic flags and associated configuration types DumpFlag(..), GeneralFlag(..), WarningFlag(..), ExtensionFlag(..), Language(..), PlatformConstants(..), FatalMessager, LogAction, FlushOut(..), FlushErr(..), ProfAuto(..), glasgowExtsFlags, dopt, dopt_set, dopt_unset, gopt, gopt_set, gopt_unset, wopt, wopt_set, wopt_unset, xopt, xopt_set, xopt_unset, lang_set, useUnicodeSyntax, whenGeneratingDynamicToo, ifGeneratingDynamicToo, whenCannotGenerateDynamicToo, dynamicTooMkDynamicDynFlags, DynFlags(..), FlagSpec(..), HasDynFlags(..), ContainsDynFlags(..), RtsOptsEnabled(..), HscTarget(..), isObjectTarget, defaultObjectTarget, targetRetainsAllBindings, GhcMode(..), isOneShot, GhcLink(..), isNoLink, PackageFlag(..), PackageArg(..), ModRenaming(..), PkgConfRef(..), Option(..), showOpt, DynLibLoader(..), fFlags, fWarningFlags, fLangFlags, xFlags, dynFlagDependencies, tablesNextToCode, mkTablesNextToCode, SigOf, getSigOf, makeDynFlagsConsistent, Way(..), mkBuildTag, wayRTSOnly, addWay', updateWays, wayGeneralFlags, wayUnsetGeneralFlags, -- ** Safe Haskell SafeHaskellMode(..), safeHaskellOn, safeImportsOn, safeLanguageOn, safeInferOn, packageTrustOn, safeDirectImpsReq, safeImplicitImpsReq, unsafeFlags, unsafeFlagsForInfer, -- ** System tool settings and locations Settings(..), targetPlatform, programName, projectVersion, ghcUsagePath, ghciUsagePath, topDir, tmpDir, rawSettings, versionedAppDir, extraGccViaCFlags, systemPackageConfig, pgm_L, pgm_P, pgm_F, pgm_c, pgm_s, pgm_a, pgm_l, pgm_dll, pgm_T, pgm_sysman, pgm_windres, pgm_libtool, pgm_lo, pgm_lc, opt_L, opt_P, opt_F, opt_c, opt_a, opt_l, opt_windres, opt_lo, opt_lc, -- ** Manipulating DynFlags defaultDynFlags, -- Settings -> DynFlags defaultWays, interpWays, initDynFlags, -- DynFlags -> IO DynFlags defaultFatalMessager, defaultLogAction, defaultLogActionHPrintDoc, defaultLogActionHPutStrDoc, defaultFlushOut, defaultFlushErr, getOpts, -- DynFlags -> (DynFlags -> [a]) -> [a] getVerbFlags, updOptLevel, setTmpDir, setPackageKey, interpretPackageEnv, -- ** Parsing DynFlags parseDynamicFlagsCmdLine, parseDynamicFilePragma, parseDynamicFlagsFull, -- ** Package key cache PackageKeyCache, ShPackageKey(..), -- ** Available DynFlags allFlags, flagsAll, flagsDynamic, flagsPackage, flagsForCompletion, supportedLanguagesAndExtensions, languageExtensions, -- ** DynFlags C compiler options picCCOpts, picPOpts, -- * Configuration of the stg-to-stg passes StgToDo(..), getStgToDo, -- * Compiler configuration suitable for display to the user compilerInfo, #ifdef GHCI rtsIsProfiled, #endif dynamicGhc, #include "../includes/dist-derivedconstants/header/GHCConstantsHaskellExports.hs" bLOCK_SIZE_W, wORD_SIZE_IN_BITS, tAG_MASK, mAX_PTR_TAG, tARGET_MIN_INT, tARGET_MAX_INT, tARGET_MAX_WORD, unsafeGlobalDynFlags, setUnsafeGlobalDynFlags, -- * SSE and AVX isSseEnabled, isSse2Enabled, isSse4_2Enabled, isAvxEnabled, isAvx2Enabled, isAvx512cdEnabled, isAvx512erEnabled, isAvx512fEnabled, isAvx512pfEnabled, -- * Linker/compiler information LinkerInfo(..), CompilerInfo(..), ) where #include "HsVersions.h" import Platform import PlatformConstants import Module import PackageConfig import {-# SOURCE #-} Hooks import {-# SOURCE #-} PrelNames ( mAIN ) import {-# SOURCE #-} Packages (PackageState, emptyPackageState) import DriverPhases ( Phase(..), phaseInputExt ) import Config import CmdLineParser import Constants import Panic import Util import Maybes import MonadUtils import qualified Pretty import SrcLoc import BasicTypes ( IntWithInf, treatZeroAsInf ) import FastString import Outputable #ifdef GHCI import Foreign.C ( CInt(..) ) import System.IO.Unsafe ( unsafeDupablePerformIO ) #endif import {-# SOURCE #-} ErrUtils ( Severity(..), MsgDoc, mkLocMessage ) import UniqFM import UniqSet import System.IO.Unsafe ( unsafePerformIO ) import Data.IORef import Control.Arrow ((&&&)) import Control.Monad import Control.Exception (throwIO) import Data.Bits import Data.Char import Data.Int import Data.List import Data.Map (Map) import qualified Data.Map as Map import Data.Set (Set) import qualified Data.Set as Set import Data.Word import System.FilePath import System.Directory import System.Environment (getEnv) import System.IO import System.IO.Error import Text.ParserCombinators.ReadP hiding (char) import Text.ParserCombinators.ReadP as R import Data.IntSet (IntSet) import qualified Data.IntSet as IntSet import GHC.Foreign (withCString, peekCString) -- Note [Updating flag description in the User's Guide] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- -- If you modify anything in this file please make sure that your changes are -- described in the User's Guide. Usually at least two sections need to be -- updated: -- -- * Flag Reference section in docs/users-guide/flags.xml lists all available -- flags together with a short description -- -- * Flag description in docs/users_guide/using.xml provides a detailed -- explanation of flags' usage. -- Note [Supporting CLI completion] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- -- The command line interface completion (in for example bash) is an easy way -- for the developer to learn what flags are available from GHC. -- GHC helps by separating which flags are available when compiling with GHC, -- and which flags are available when using GHCi. -- A flag is assumed to either work in both these modes, or only in one of them. -- When adding or changing a flag, please consider for which mode the flag will -- have effect, and annotate it accordingly. For Flags use defFlag, defGhcFlag, -- defGhciFlag, and for FlagSpec use flagSpec or flagGhciSpec. -- ----------------------------------------------------------------------------- -- DynFlags data DumpFlag -- See Note [Updating flag description in the User's Guide] -- debugging flags = Opt_D_dump_cmm | Opt_D_dump_cmm_raw -- All of the cmm subflags (there are a lot!) Automatically -- enabled if you run -ddump-cmm | Opt_D_dump_cmm_cfg | Opt_D_dump_cmm_cbe | Opt_D_dump_cmm_switch | Opt_D_dump_cmm_proc | Opt_D_dump_cmm_sink | Opt_D_dump_cmm_sp | Opt_D_dump_cmm_procmap | Opt_D_dump_cmm_split | Opt_D_dump_cmm_info | Opt_D_dump_cmm_cps -- end cmm subflags | Opt_D_dump_asm | Opt_D_dump_asm_native | Opt_D_dump_asm_liveness | Opt_D_dump_asm_regalloc | Opt_D_dump_asm_regalloc_stages | Opt_D_dump_asm_conflicts | Opt_D_dump_asm_stats | Opt_D_dump_asm_expanded | Opt_D_dump_llvm | Opt_D_dump_core_stats | Opt_D_dump_deriv | Opt_D_dump_ds | Opt_D_dump_foreign | Opt_D_dump_inlinings | Opt_D_dump_rule_firings | Opt_D_dump_rule_rewrites | Opt_D_dump_simpl_trace | Opt_D_dump_occur_anal | Opt_D_dump_parsed | Opt_D_dump_rn | Opt_D_dump_simpl | Opt_D_dump_simpl_iterations | Opt_D_dump_spec | Opt_D_dump_prep | Opt_D_dump_stg | Opt_D_dump_call_arity | Opt_D_dump_stranal | Opt_D_dump_strsigs | Opt_D_dump_tc | Opt_D_dump_types | Opt_D_dump_rules | Opt_D_dump_cse | Opt_D_dump_worker_wrapper | Opt_D_dump_rn_trace | Opt_D_dump_rn_stats | Opt_D_dump_opt_cmm | Opt_D_dump_simpl_stats | Opt_D_dump_cs_trace -- Constraint solver in type checker | Opt_D_dump_tc_trace | Opt_D_dump_if_trace | Opt_D_dump_vt_trace | Opt_D_dump_splices | Opt_D_th_dec_file | Opt_D_dump_BCOs | Opt_D_dump_vect | Opt_D_dump_ticked | Opt_D_dump_rtti | Opt_D_source_stats | Opt_D_verbose_stg2stg | Opt_D_dump_hi | Opt_D_dump_hi_diffs | Opt_D_dump_mod_cycles | Opt_D_dump_mod_map | Opt_D_dump_view_pattern_commoning | Opt_D_verbose_core2core | Opt_D_dump_debug deriving (Eq, Show, Enum) -- | Enumerates the simple on-or-off dynamic flags data GeneralFlag -- See Note [Updating flag description in the User's Guide] = Opt_DumpToFile -- ^ Append dump output to files instead of stdout. | Opt_D_faststring_stats | Opt_D_dump_minimal_imports | Opt_DoCoreLinting | Opt_DoStgLinting | Opt_DoCmmLinting | Opt_DoAsmLinting | Opt_DoAnnotationLinting | Opt_NoLlvmMangler -- hidden flag | Opt_WarnIsError -- -Werror; makes warnings fatal | Opt_PrintExplicitForalls | Opt_PrintExplicitKinds | Opt_PrintUnicodeSyntax | Opt_PrintExpandedSynonyms | Opt_PrintPotentialInstances -- optimisation opts | Opt_CallArity | Opt_Strictness | Opt_LateDmdAnal | Opt_KillAbsence | Opt_KillOneShot | Opt_FullLaziness | Opt_FloatIn | Opt_Specialise | Opt_SpecialiseAggressively | Opt_CrossModuleSpecialise | Opt_StaticArgumentTransformation | Opt_CSE | Opt_LiberateCase | Opt_SpecConstr | Opt_DoLambdaEtaExpansion | Opt_IgnoreAsserts | Opt_DoEtaReduction | Opt_CaseMerge | Opt_UnboxStrictFields | Opt_UnboxSmallStrictFields | Opt_DictsCheap | Opt_EnableRewriteRules -- Apply rewrite rules during simplification | Opt_Vectorise | Opt_VectorisationAvoidance | Opt_RegsGraph -- do graph coloring register allocation | Opt_RegsIterative -- do iterative coalescing graph coloring register allocation | Opt_PedanticBottoms -- Be picky about how we treat bottom | Opt_LlvmTBAA -- Use LLVM TBAA infastructure for improving AA (hidden flag) | Opt_LlvmPassVectorsInRegisters -- Pass SIMD vectors in registers (requires a patched LLVM) (hidden flag) | Opt_IrrefutableTuples | Opt_CmmSink | Opt_CmmElimCommonBlocks | Opt_OmitYields | Opt_SimpleListLiterals | Opt_FunToThunk -- allow WwLib.mkWorkerArgs to remove all value lambdas | Opt_DictsStrict -- be strict in argument dictionaries | Opt_DmdTxDictSel -- use a special demand transformer for dictionary selectors | Opt_Loopification -- See Note [Self-recursive tail calls] | Opt_CprAnal -- Interface files | Opt_IgnoreInterfacePragmas | Opt_OmitInterfacePragmas | Opt_ExposeAllUnfoldings | Opt_WriteInterface -- forces .hi files to be written even with -fno-code -- profiling opts | Opt_AutoSccsOnIndividualCafs | Opt_ProfCountEntries -- misc opts | Opt_Pp | Opt_ForceRecomp | Opt_ExcessPrecision | Opt_EagerBlackHoling | Opt_NoHsMain | Opt_SplitObjs | Opt_StgStats | Opt_HideAllPackages | Opt_PrintBindResult | Opt_Haddock | Opt_HaddockOptions | Opt_BreakOnException | Opt_BreakOnError | Opt_PrintEvldWithShow | Opt_PrintBindContents | Opt_GenManifest | Opt_EmbedManifest | Opt_SharedImplib | Opt_BuildingCabalPackage | Opt_IgnoreDotGhci | Opt_GhciSandbox | Opt_GhciHistory | Opt_HelpfulErrors | Opt_DeferTypeErrors | Opt_DeferTypedHoles | Opt_PIC | Opt_SccProfilingOn | Opt_Ticky | Opt_Ticky_Allocd | Opt_Ticky_LNE | Opt_Ticky_Dyn_Thunk | Opt_Static | Opt_RPath | Opt_RelativeDynlibPaths | Opt_Hpc | Opt_FlatCache -- PreInlining is on by default. The option is there just to see how -- bad things get if you turn it off! | Opt_SimplPreInlining -- output style opts | Opt_ErrorSpans -- Include full span info in error messages, -- instead of just the start position. | Opt_PprCaseAsLet | Opt_PprShowTicks -- Suppress all coercions, them replacing with '...' | Opt_SuppressCoercions | Opt_SuppressVarKinds -- Suppress module id prefixes on variables. | Opt_SuppressModulePrefixes -- Suppress type applications. | Opt_SuppressTypeApplications -- Suppress info such as arity and unfoldings on identifiers. | Opt_SuppressIdInfo -- Suppress separate type signatures in core, but leave types on -- lambda bound vars | Opt_SuppressUnfoldings -- Suppress the details of even stable unfoldings | Opt_SuppressTypeSignatures -- Suppress unique ids on variables. -- Except for uniques, as some simplifier phases introduce new -- variables that have otherwise identical names. | Opt_SuppressUniques -- temporary flags | Opt_AutoLinkPackages | Opt_ImplicitImportQualified -- keeping stuff | Opt_KeepHiDiffs | Opt_KeepHcFiles | Opt_KeepSFiles | Opt_KeepTmpFiles | Opt_KeepRawTokenStream | Opt_KeepLlvmFiles | Opt_BuildDynamicToo -- safe haskell flags | Opt_DistrustAllPackages | Opt_PackageTrust -- debugging flags | Opt_Debug deriving (Eq, Show, Enum) data WarningFlag = -- See Note [Updating flag description in the User's Guide] Opt_WarnDuplicateExports | Opt_WarnDuplicateConstraints | Opt_WarnRedundantConstraints | Opt_WarnHiShadows | Opt_WarnImplicitPrelude | Opt_WarnIncompletePatterns | Opt_WarnIncompleteUniPatterns | Opt_WarnIncompletePatternsRecUpd | Opt_WarnOverflowedLiterals | Opt_WarnEmptyEnumerations | Opt_WarnMissingFields | Opt_WarnMissingImportList | Opt_WarnMissingMethods | Opt_WarnMissingSigs | Opt_WarnMissingLocalSigs | Opt_WarnNameShadowing | Opt_WarnOverlappingPatterns | Opt_WarnTypeDefaults | Opt_WarnMonomorphism | Opt_WarnUnusedTopBinds | Opt_WarnUnusedLocalBinds | Opt_WarnUnusedPatternBinds | Opt_WarnUnusedImports | Opt_WarnUnusedMatches | Opt_WarnContextQuantification | Opt_WarnWarningsDeprecations | Opt_WarnDeprecatedFlags | Opt_WarnAMP | Opt_WarnDodgyExports | Opt_WarnDodgyImports | Opt_WarnOrphans | Opt_WarnAutoOrphans | Opt_WarnIdentities | Opt_WarnTabs | Opt_WarnUnrecognisedPragmas | Opt_WarnDodgyForeignImports | Opt_WarnUnusedDoBind | Opt_WarnWrongDoBind | Opt_WarnAlternativeLayoutRuleTransitional | Opt_WarnUnsafe | Opt_WarnSafe | Opt_WarnTrustworthySafe | Opt_WarnMissedSpecs | Opt_WarnAllMissedSpecs | Opt_WarnUnsupportedCallingConventions | Opt_WarnUnsupportedLlvmVersion | Opt_WarnInlineRuleShadowing | Opt_WarnTypedHoles | Opt_WarnPartialTypeSignatures | Opt_WarnMissingExportedSigs | Opt_WarnUntickedPromotedConstructors | Opt_WarnDerivingTypeable | Opt_WarnDeferredTypeErrors deriving (Eq, Show, Enum) data Language = Haskell98 | Haskell2010 deriving Enum -- | The various Safe Haskell modes data SafeHaskellMode = Sf_None | Sf_Unsafe | Sf_Trustworthy | Sf_Safe deriving (Eq) instance Show SafeHaskellMode where show Sf_None = "None" show Sf_Unsafe = "Unsafe" show Sf_Trustworthy = "Trustworthy" show Sf_Safe = "Safe" instance Outputable SafeHaskellMode where ppr = text . show data ExtensionFlag -- See Note [Updating flag description in the User's Guide] = Opt_Cpp | Opt_OverlappingInstances | Opt_UndecidableInstances | Opt_IncoherentInstances | Opt_MonomorphismRestriction | Opt_MonoPatBinds | Opt_MonoLocalBinds | Opt_RelaxedPolyRec -- Deprecated | Opt_ExtendedDefaultRules -- Use GHC's extended rules for defaulting | Opt_ForeignFunctionInterface | Opt_UnliftedFFITypes | Opt_InterruptibleFFI | Opt_CApiFFI | Opt_GHCForeignImportPrim | Opt_JavaScriptFFI | Opt_ParallelArrays -- Syntactic support for parallel arrays | Opt_Arrows -- Arrow-notation syntax | Opt_TemplateHaskell | Opt_QuasiQuotes | Opt_ImplicitParams | Opt_ImplicitPrelude | Opt_ScopedTypeVariables | Opt_AllowAmbiguousTypes | Opt_UnboxedTuples | Opt_BangPatterns | Opt_TypeFamilies | Opt_OverloadedStrings | Opt_OverloadedLists | Opt_NumDecimals | Opt_DisambiguateRecordFields | Opt_RecordWildCards | Opt_RecordPuns | Opt_ViewPatterns | Opt_GADTs | Opt_GADTSyntax | Opt_NPlusKPatterns | Opt_DoAndIfThenElse | Opt_RebindableSyntax | Opt_ConstraintKinds | Opt_PolyKinds -- Kind polymorphism | Opt_DataKinds -- Datatype promotion | Opt_InstanceSigs | Opt_StandaloneDeriving | Opt_DeriveDataTypeable | Opt_AutoDeriveTypeable -- Automatic derivation of Typeable | Opt_DeriveFunctor | Opt_DeriveTraversable | Opt_DeriveFoldable | Opt_DeriveGeneric -- Allow deriving Generic/1 | Opt_DefaultSignatures -- Allow extra signatures for defmeths | Opt_DeriveAnyClass -- Allow deriving any class | Opt_TypeSynonymInstances | Opt_FlexibleContexts | Opt_FlexibleInstances | Opt_ConstrainedClassMethods | Opt_MultiParamTypeClasses | Opt_NullaryTypeClasses | Opt_FunctionalDependencies | Opt_UnicodeSyntax | Opt_ExistentialQuantification | Opt_MagicHash | Opt_EmptyDataDecls | Opt_KindSignatures | Opt_RoleAnnotations | Opt_ParallelListComp | Opt_TransformListComp | Opt_MonadComprehensions | Opt_GeneralizedNewtypeDeriving | Opt_RecursiveDo | Opt_PostfixOperators | Opt_TupleSections | Opt_PatternGuards | Opt_LiberalTypeSynonyms | Opt_RankNTypes | Opt_ImpredicativeTypes | Opt_TypeOperators | Opt_ExplicitNamespaces | Opt_PackageImports | Opt_ExplicitForAll | Opt_AlternativeLayoutRule | Opt_AlternativeLayoutRuleTransitional | Opt_DatatypeContexts | Opt_NondecreasingIndentation | Opt_RelaxedLayout | Opt_TraditionalRecordSyntax | Opt_LambdaCase | Opt_MultiWayIf | Opt_BinaryLiterals | Opt_NegativeLiterals | Opt_EmptyCase | Opt_PatternSynonyms | Opt_PartialTypeSignatures | Opt_NamedWildCards | Opt_StaticPointers | Opt_StrictData deriving (Eq, Enum, Show) type SigOf = Map ModuleName Module getSigOf :: DynFlags -> ModuleName -> Maybe Module getSigOf dflags n = Map.lookup n (sigOf dflags) -- NameCache updNameCache type PackageKeyEnv = UniqFM type PackageKeyCache = PackageKeyEnv ShPackageKey -- | An elaborated representation of a 'PackageKey', which records -- all of the components that go into the hashed 'PackageKey'. data ShPackageKey = ShPackageKey { shPackageKeyUnitName :: !UnitName, shPackageKeyLibraryName :: !LibraryName, shPackageKeyInsts :: ![(ModuleName, Module)], shPackageKeyFreeHoles :: UniqSet ModuleName } | ShDefinitePackageKey { shPackageKey :: !PackageKey } deriving Eq instance Outputable ShPackageKey where ppr (ShPackageKey pn vh insts fh) = ppr pn <+> ppr vh <+> ppr insts <+> parens (ppr fh) ppr (ShDefinitePackageKey pk) = ppr pk -- | Contains not only a collection of 'GeneralFlag's but also a plethora of -- information relating to the compilation of a single file or GHC session data DynFlags = DynFlags { ghcMode :: GhcMode, ghcLink :: GhcLink, hscTarget :: HscTarget, settings :: Settings, -- See Note [Signature parameters in TcGblEnv and DynFlags] sigOf :: SigOf, -- ^ Compiling an hs-boot against impl. verbosity :: Int, -- ^ Verbosity level: see Note [Verbosity levels] optLevel :: Int, -- ^ Optimisation level simplPhases :: Int, -- ^ Number of simplifier phases maxSimplIterations :: Int, -- ^ Max simplifier iterations ruleCheck :: Maybe String, strictnessBefore :: [Int], -- ^ Additional demand analysis parMakeCount :: Maybe Int, -- ^ The number of modules to compile in parallel -- in --make mode, where Nothing ==> compile as -- many in parallel as there are CPUs. enableTimeStats :: Bool, -- ^ Enable RTS timing statistics? ghcHeapSize :: Maybe Int, -- ^ The heap size to set. maxRelevantBinds :: Maybe Int, -- ^ Maximum number of bindings from the type envt -- to show in type error messages simplTickFactor :: Int, -- ^ Multiplier for simplifier ticks specConstrThreshold :: Maybe Int, -- ^ Threshold for SpecConstr specConstrCount :: Maybe Int, -- ^ Max number of specialisations for any one function specConstrRecursive :: Int, -- ^ Max number of specialisations for recursive types -- Not optional; otherwise ForceSpecConstr can diverge. liberateCaseThreshold :: Maybe Int, -- ^ Threshold for LiberateCase floatLamArgs :: Maybe Int, -- ^ Arg count for lambda floating -- See CoreMonad.FloatOutSwitches historySize :: Int, cmdlineHcIncludes :: [String], -- ^ @\-\#includes@ importPaths :: [FilePath], mainModIs :: Module, mainFunIs :: Maybe String, reductionDepth :: IntWithInf, -- ^ Typechecker maximum stack depth solverIterations :: IntWithInf, -- ^ Number of iterations in the constraints solver -- Typically only 1 is needed thisPackage :: PackageKey, -- ^ key of package currently being compiled thisLibraryName :: LibraryName, -- ^ the version hash which identifies the textual -- package being compiled. -- ways ways :: [Way], -- ^ Way flags from the command line buildTag :: String, -- ^ The global \"way\" (e.g. \"p\" for prof) rtsBuildTag :: String, -- ^ The RTS \"way\" -- For object splitting splitInfo :: Maybe (String,Int), -- paths etc. objectDir :: Maybe String, dylibInstallName :: Maybe String, hiDir :: Maybe String, stubDir :: Maybe String, dumpDir :: Maybe String, objectSuf :: String, hcSuf :: String, hiSuf :: String, canGenerateDynamicToo :: IORef Bool, dynObjectSuf :: String, dynHiSuf :: String, -- Packages.isDllName needs to know whether a call is within a -- single DLL or not. Normally it does this by seeing if the call -- is to the same package, but for the ghc package, we split the -- package between 2 DLLs. The dllSplit tells us which sets of -- modules are in which package. dllSplitFile :: Maybe FilePath, dllSplit :: Maybe [Set String], outputFile :: Maybe String, dynOutputFile :: Maybe String, outputHi :: Maybe String, dynLibLoader :: DynLibLoader, -- | This is set by 'DriverPipeline.runPipeline' based on where -- its output is going. dumpPrefix :: Maybe FilePath, -- | Override the 'dumpPrefix' set by 'DriverPipeline.runPipeline'. -- Set by @-ddump-file-prefix@ dumpPrefixForce :: Maybe FilePath, ldInputs :: [Option], includePaths :: [String], libraryPaths :: [String], frameworkPaths :: [String], -- used on darwin only cmdlineFrameworks :: [String], -- ditto rtsOpts :: Maybe String, rtsOptsEnabled :: RtsOptsEnabled, rtsOptsSuggestions :: Bool, hpcDir :: String, -- ^ Path to store the .mix files -- Plugins pluginModNames :: [ModuleName], pluginModNameOpts :: [(ModuleName,String)], -- GHC API hooks hooks :: Hooks, -- For ghc -M depMakefile :: FilePath, depIncludePkgDeps :: Bool, depExcludeMods :: [ModuleName], depSuffixes :: [String], -- Package flags extraPkgConfs :: [PkgConfRef] -> [PkgConfRef], -- ^ The @-package-db@ flags given on the command line, in the order -- they appeared. packageFlags :: [PackageFlag], -- ^ The @-package@ and @-hide-package@ flags from the command-line packageEnv :: Maybe FilePath, -- ^ Filepath to the package environment file (if overriding default) -- Package state -- NB. do not modify this field, it is calculated by -- Packages.initPackages pkgDatabase :: Maybe [PackageConfig], pkgState :: PackageState, pkgKeyCache :: {-# UNPACK #-} !(IORef PackageKeyCache), -- Temporary files -- These have to be IORefs, because the defaultCleanupHandler needs to -- know what to clean when an exception happens filesToClean :: IORef [FilePath], dirsToClean :: IORef (Map FilePath FilePath), filesToNotIntermediateClean :: IORef [FilePath], -- The next available suffix to uniquely name a temp file, updated atomically nextTempSuffix :: IORef Int, -- Names of files which were generated from -ddump-to-file; used to -- track which ones we need to truncate because it's our first run -- through generatedDumps :: IORef (Set FilePath), -- hsc dynamic flags dumpFlags :: IntSet, generalFlags :: IntSet, warningFlags :: IntSet, -- Don't change this without updating extensionFlags: language :: Maybe Language, -- | Safe Haskell mode safeHaskell :: SafeHaskellMode, safeInfer :: Bool, safeInferred :: Bool, -- We store the location of where some extension and flags were turned on so -- we can produce accurate error messages when Safe Haskell fails due to -- them. thOnLoc :: SrcSpan, newDerivOnLoc :: SrcSpan, overlapInstLoc :: SrcSpan, incoherentOnLoc :: SrcSpan, pkgTrustOnLoc :: SrcSpan, warnSafeOnLoc :: SrcSpan, warnUnsafeOnLoc :: SrcSpan, trustworthyOnLoc :: SrcSpan, -- Don't change this without updating extensionFlags: extensions :: [OnOff ExtensionFlag], -- extensionFlags should always be equal to -- flattenExtensionFlags language extensions extensionFlags :: IntSet, -- Unfolding control -- See Note [Discounts and thresholds] in CoreUnfold ufCreationThreshold :: Int, ufUseThreshold :: Int, ufFunAppDiscount :: Int, ufDictDiscount :: Int, ufKeenessFactor :: Float, ufDearOp :: Int, maxWorkerArgs :: Int, ghciHistSize :: Int, -- | MsgDoc output action: use "ErrUtils" instead of this if you can log_action :: LogAction, flushOut :: FlushOut, flushErr :: FlushErr, haddockOptions :: Maybe String, -- | GHCi scripts specified by -ghci-script, in reverse order ghciScripts :: [String], -- Output style options pprUserLength :: Int, pprCols :: Int, traceLevel :: Int, -- Standard level is 1. Less verbose is 0. useUnicode :: Bool, -- | what kind of {-# SCC #-} to add automatically profAuto :: ProfAuto, interactivePrint :: Maybe String, llvmVersion :: IORef Int, nextWrapperNum :: IORef (ModuleEnv Int), -- | Machine dependant flags (-m stuff) sseVersion :: Maybe SseVersion, avx :: Bool, avx2 :: Bool, avx512cd :: Bool, -- Enable AVX-512 Conflict Detection Instructions. avx512er :: Bool, -- Enable AVX-512 Exponential and Reciprocal Instructions. avx512f :: Bool, -- Enable AVX-512 instructions. avx512pf :: Bool, -- Enable AVX-512 PreFetch Instructions. -- | Run-time linker information (what options we need, etc.) rtldInfo :: IORef (Maybe LinkerInfo), -- | Run-time compiler information rtccInfo :: IORef (Maybe CompilerInfo), -- Constants used to control the amount of optimization done. -- | Max size, in bytes, of inline array allocations. maxInlineAllocSize :: Int, -- | Only inline memcpy if it generates no more than this many -- pseudo (roughly: Cmm) instructions. maxInlineMemcpyInsns :: Int, -- | Only inline memset if it generates no more than this many -- pseudo (roughly: Cmm) instructions. maxInlineMemsetInsns :: Int } class HasDynFlags m where getDynFlags :: m DynFlags class ContainsDynFlags t where extractDynFlags :: t -> DynFlags replaceDynFlags :: t -> DynFlags -> t data ProfAuto = NoProfAuto -- ^ no SCC annotations added | ProfAutoAll -- ^ top-level and nested functions are annotated | ProfAutoTop -- ^ top-level functions annotated only | ProfAutoExports -- ^ exported functions annotated only | ProfAutoCalls -- ^ annotate call-sites deriving (Eq,Enum) data Settings = Settings { sTargetPlatform :: Platform, -- Filled in by SysTools sGhcUsagePath :: FilePath, -- Filled in by SysTools sGhciUsagePath :: FilePath, -- ditto sTopDir :: FilePath, sTmpDir :: String, -- no trailing '/' sProgramName :: String, sProjectVersion :: String, -- You shouldn't need to look things up in rawSettings directly. -- They should have their own fields instead. sRawSettings :: [(String, String)], sExtraGccViaCFlags :: [String], sSystemPackageConfig :: FilePath, sLdSupportsCompactUnwind :: Bool, sLdSupportsBuildId :: Bool, sLdSupportsFilelist :: Bool, sLdIsGnuLd :: Bool, -- commands for particular phases sPgm_L :: String, sPgm_P :: (String,[Option]), sPgm_F :: String, sPgm_c :: (String,[Option]), sPgm_s :: (String,[Option]), sPgm_a :: (String,[Option]), sPgm_l :: (String,[Option]), sPgm_dll :: (String,[Option]), sPgm_T :: String, sPgm_sysman :: String, sPgm_windres :: String, sPgm_libtool :: String, sPgm_lo :: (String,[Option]), -- LLVM: opt llvm optimiser sPgm_lc :: (String,[Option]), -- LLVM: llc static compiler -- options for particular phases sOpt_L :: [String], sOpt_P :: [String], sOpt_F :: [String], sOpt_c :: [String], sOpt_a :: [String], sOpt_l :: [String], sOpt_windres :: [String], sOpt_lo :: [String], -- LLVM: llvm optimiser sOpt_lc :: [String], -- LLVM: llc static compiler sPlatformConstants :: PlatformConstants } targetPlatform :: DynFlags -> Platform targetPlatform dflags = sTargetPlatform (settings dflags) programName :: DynFlags -> String programName dflags = sProgramName (settings dflags) projectVersion :: DynFlags -> String projectVersion dflags = sProjectVersion (settings dflags) ghcUsagePath :: DynFlags -> FilePath ghcUsagePath dflags = sGhcUsagePath (settings dflags) ghciUsagePath :: DynFlags -> FilePath ghciUsagePath dflags = sGhciUsagePath (settings dflags) topDir :: DynFlags -> FilePath topDir dflags = sTopDir (settings dflags) tmpDir :: DynFlags -> String tmpDir dflags = sTmpDir (settings dflags) rawSettings :: DynFlags -> [(String, String)] rawSettings dflags = sRawSettings (settings dflags) extraGccViaCFlags :: DynFlags -> [String] extraGccViaCFlags dflags = sExtraGccViaCFlags (settings dflags) systemPackageConfig :: DynFlags -> FilePath systemPackageConfig dflags = sSystemPackageConfig (settings dflags) pgm_L :: DynFlags -> String pgm_L dflags = sPgm_L (settings dflags) pgm_P :: DynFlags -> (String,[Option]) pgm_P dflags = sPgm_P (settings dflags) pgm_F :: DynFlags -> String pgm_F dflags = sPgm_F (settings dflags) pgm_c :: DynFlags -> (String,[Option]) pgm_c dflags = sPgm_c (settings dflags) pgm_s :: DynFlags -> (String,[Option]) pgm_s dflags = sPgm_s (settings dflags) pgm_a :: DynFlags -> (String,[Option]) pgm_a dflags = sPgm_a (settings dflags) pgm_l :: DynFlags -> (String,[Option]) pgm_l dflags = sPgm_l (settings dflags) pgm_dll :: DynFlags -> (String,[Option]) pgm_dll dflags = sPgm_dll (settings dflags) pgm_T :: DynFlags -> String pgm_T dflags = sPgm_T (settings dflags) pgm_sysman :: DynFlags -> String pgm_sysman dflags = sPgm_sysman (settings dflags) pgm_windres :: DynFlags -> String pgm_windres dflags = sPgm_windres (settings dflags) pgm_libtool :: DynFlags -> String pgm_libtool dflags = sPgm_libtool (settings dflags) pgm_lo :: DynFlags -> (String,[Option]) pgm_lo dflags = sPgm_lo (settings dflags) pgm_lc :: DynFlags -> (String,[Option]) pgm_lc dflags = sPgm_lc (settings dflags) opt_L :: DynFlags -> [String] opt_L dflags = sOpt_L (settings dflags) opt_P :: DynFlags -> [String] opt_P dflags = concatMap (wayOptP (targetPlatform dflags)) (ways dflags) ++ sOpt_P (settings dflags) opt_F :: DynFlags -> [String] opt_F dflags = sOpt_F (settings dflags) opt_c :: DynFlags -> [String] opt_c dflags = concatMap (wayOptc (targetPlatform dflags)) (ways dflags) ++ sOpt_c (settings dflags) opt_a :: DynFlags -> [String] opt_a dflags = sOpt_a (settings dflags) opt_l :: DynFlags -> [String] opt_l dflags = concatMap (wayOptl (targetPlatform dflags)) (ways dflags) ++ sOpt_l (settings dflags) opt_windres :: DynFlags -> [String] opt_windres dflags = sOpt_windres (settings dflags) opt_lo :: DynFlags -> [String] opt_lo dflags = sOpt_lo (settings dflags) opt_lc :: DynFlags -> [String] opt_lc dflags = sOpt_lc (settings dflags) -- | The directory for this version of ghc in the user's app directory -- (typically something like @~/.ghc/x86_64-linux-7.6.3@) -- versionedAppDir :: DynFlags -> IO FilePath versionedAppDir dflags = do appdir <- getAppUserDataDirectory (programName dflags) return $ appdir (TARGET_ARCH ++ '-':TARGET_OS ++ '-':projectVersion dflags) -- | The target code type of the compilation (if any). -- -- Whenever you change the target, also make sure to set 'ghcLink' to -- something sensible. -- -- 'HscNothing' can be used to avoid generating any output, however, note -- that: -- -- * If a program uses Template Haskell the typechecker may try to run code -- from an imported module. This will fail if no code has been generated -- for this module. You can use 'GHC.needsTemplateHaskell' to detect -- whether this might be the case and choose to either switch to a -- different target or avoid typechecking such modules. (The latter may be -- preferable for security reasons.) -- data HscTarget = HscC -- ^ Generate C code. | HscAsm -- ^ Generate assembly using the native code generator. | HscLlvm -- ^ Generate assembly using the llvm code generator. | HscInterpreted -- ^ Generate bytecode. (Requires 'LinkInMemory') | HscNothing -- ^ Don't generate any code. See notes above. deriving (Eq, Show) -- | Will this target result in an object file on the disk? isObjectTarget :: HscTarget -> Bool isObjectTarget HscC = True isObjectTarget HscAsm = True isObjectTarget HscLlvm = True isObjectTarget _ = False -- | Does this target retain *all* top-level bindings for a module, -- rather than just the exported bindings, in the TypeEnv and compiled -- code (if any)? In interpreted mode we do this, so that GHCi can -- call functions inside a module. In HscNothing mode we also do it, -- so that Haddock can get access to the GlobalRdrEnv for a module -- after typechecking it. targetRetainsAllBindings :: HscTarget -> Bool targetRetainsAllBindings HscInterpreted = True targetRetainsAllBindings HscNothing = True targetRetainsAllBindings _ = False -- | The 'GhcMode' tells us whether we're doing multi-module -- compilation (controlled via the "GHC" API) or one-shot -- (single-module) compilation. This makes a difference primarily to -- the "Finder": in one-shot mode we look for interface files for -- imported modules, but in multi-module mode we look for source files -- in order to check whether they need to be recompiled. data GhcMode = CompManager -- ^ @\-\-make@, GHCi, etc. | OneShot -- ^ @ghc -c Foo.hs@ | MkDepend -- ^ @ghc -M@, see "Finder" for why we need this deriving Eq instance Outputable GhcMode where ppr CompManager = ptext (sLit "CompManager") ppr OneShot = ptext (sLit "OneShot") ppr MkDepend = ptext (sLit "MkDepend") isOneShot :: GhcMode -> Bool isOneShot OneShot = True isOneShot _other = False -- | What to do in the link step, if there is one. data GhcLink = NoLink -- ^ Don't link at all | LinkBinary -- ^ Link object code into a binary | LinkInMemory -- ^ Use the in-memory dynamic linker (works for both -- bytecode and object code). | LinkDynLib -- ^ Link objects into a dynamic lib (DLL on Windows, DSO on ELF platforms) | LinkStaticLib -- ^ Link objects into a static lib deriving (Eq, Show) isNoLink :: GhcLink -> Bool isNoLink NoLink = True isNoLink _ = False -- | We accept flags which make packages visible, but how they select -- the package varies; this data type reflects what selection criterion -- is used. data PackageArg = PackageArg String -- ^ @-package@, by 'PackageName' | PackageIdArg String -- ^ @-package-id@, by 'SourcePackageId' | PackageKeyArg String -- ^ @-package-key@, by 'InstalledPackageId' deriving (Eq, Show) -- | Represents the renaming that may be associated with an exposed -- package, e.g. the @rns@ part of @-package "foo (rns)"@. -- -- Here are some example parsings of the package flags (where -- a string literal is punned to be a 'ModuleName': -- -- * @-package foo@ is @ModRenaming True []@ -- * @-package foo ()@ is @ModRenaming False []@ -- * @-package foo (A)@ is @ModRenaming False [("A", "A")]@ -- * @-package foo (A as B)@ is @ModRenaming False [("A", "B")]@ -- * @-package foo with (A as B)@ is @ModRenaming True [("A", "B")]@ data ModRenaming = ModRenaming { modRenamingWithImplicit :: Bool, -- ^ Bring all exposed modules into scope? modRenamings :: [(ModuleName, ModuleName)] -- ^ Bring module @m@ into scope -- under name @n@. } deriving (Eq) -- | Flags for manipulating packages. data PackageFlag = ExposePackage PackageArg ModRenaming -- ^ @-package@, @-package-id@ -- and @-package-key@ | HidePackage String -- ^ @-hide-package@ | IgnorePackage String -- ^ @-ignore-package@ | TrustPackage String -- ^ @-trust-package@ | DistrustPackage String -- ^ @-distrust-package@ deriving (Eq) defaultHscTarget :: Platform -> HscTarget defaultHscTarget = defaultObjectTarget -- | The 'HscTarget' value corresponding to the default way to create -- object files on the current platform. defaultObjectTarget :: Platform -> HscTarget defaultObjectTarget platform | platformUnregisterised platform = HscC | cGhcWithNativeCodeGen == "YES" = HscAsm | otherwise = HscLlvm tablesNextToCode :: DynFlags -> Bool tablesNextToCode dflags = mkTablesNextToCode (platformUnregisterised (targetPlatform dflags)) -- Determines whether we will be compiling -- info tables that reside just before the entry code, or with an -- indirection to the entry code. See TABLES_NEXT_TO_CODE in -- includes/rts/storage/InfoTables.h. mkTablesNextToCode :: Bool -> Bool mkTablesNextToCode unregisterised = not unregisterised && cGhcEnableTablesNextToCode == "YES" data DynLibLoader = Deployable | SystemDependent deriving Eq data RtsOptsEnabled = RtsOptsNone | RtsOptsSafeOnly | RtsOptsAll deriving (Show) ----------------------------------------------------------------------------- -- 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 Way = WayCustom String -- for GHC API clients building custom variants | WayThreaded | WayDebug | WayProf | WayEventLog | WayDyn deriving (Eq, Ord, Show) allowed_combination :: [Way] -> 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 (WayCustom {}) `allowedWith` _ = True WayThreaded `allowedWith` WayProf = True WayThreaded `allowedWith` WayEventLog = True _ `allowedWith` _ = False mkBuildTag :: [Way] -> String mkBuildTag ways = concat (intersperse "_" (map wayTag ways)) wayTag :: Way -> String wayTag (WayCustom xs) = xs wayTag WayThreaded = "thr" wayTag WayDebug = "debug" wayTag WayDyn = "dyn" wayTag WayProf = "p" wayTag WayEventLog = "l" wayRTSOnly :: Way -> Bool wayRTSOnly (WayCustom {}) = False wayRTSOnly WayThreaded = True wayRTSOnly WayDebug = True wayRTSOnly WayDyn = False wayRTSOnly WayProf = False wayRTSOnly WayEventLog = True wayDesc :: Way -> String wayDesc (WayCustom xs) = xs wayDesc WayThreaded = "Threaded" wayDesc WayDebug = "Debug" wayDesc WayDyn = "Dynamic" wayDesc WayProf = "Profiling" wayDesc WayEventLog = "RTS Event Logging" -- Turn these flags on when enabling this way wayGeneralFlags :: Platform -> Way -> [GeneralFlag] wayGeneralFlags _ (WayCustom {}) = [] wayGeneralFlags _ WayThreaded = [] wayGeneralFlags _ WayDebug = [] wayGeneralFlags _ WayDyn = [Opt_PIC] -- We could get away without adding -fPIC when compiling the -- modules of a program that is to be linked with -dynamic; the -- program itself does not need to be position-independent, only -- the libraries need to be. HOWEVER, GHCi links objects into a -- .so before loading the .so using the system linker. Since only -- PIC objects can be linked into a .so, we have to compile even -- modules of the main program with -fPIC when using -dynamic. wayGeneralFlags _ WayProf = [Opt_SccProfilingOn] wayGeneralFlags _ WayEventLog = [] -- Turn these flags off when enabling this way wayUnsetGeneralFlags :: Platform -> Way -> [GeneralFlag] wayUnsetGeneralFlags _ (WayCustom {}) = [] wayUnsetGeneralFlags _ WayThreaded = [] wayUnsetGeneralFlags _ WayDebug = [] wayUnsetGeneralFlags _ WayDyn = [-- There's no point splitting objects -- when we're going to be dynamically -- linking. Plus it breaks compilation -- on OSX x86. Opt_SplitObjs] wayUnsetGeneralFlags _ WayProf = [] wayUnsetGeneralFlags _ WayEventLog = [] wayExtras :: Platform -> Way -> DynFlags -> DynFlags wayExtras _ (WayCustom {}) dflags = dflags wayExtras _ WayThreaded dflags = dflags wayExtras _ WayDebug dflags = dflags wayExtras _ WayDyn dflags = dflags wayExtras _ WayProf dflags = dflags wayExtras _ WayEventLog dflags = dflags wayOptc :: Platform -> Way -> [String] wayOptc _ (WayCustom {}) = [] wayOptc platform WayThreaded = case platformOS platform of OSOpenBSD -> ["-pthread"] OSNetBSD -> ["-pthread"] _ -> [] wayOptc _ WayDebug = [] wayOptc _ WayDyn = [] wayOptc _ WayProf = ["-DPROFILING"] wayOptc _ WayEventLog = ["-DTRACING"] wayOptl :: Platform -> Way -> [String] wayOptl _ (WayCustom {}) = [] wayOptl platform WayThreaded = case platformOS platform of -- 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: OSFreeBSD -> ["-lthr"] OSOpenBSD -> ["-pthread"] OSNetBSD -> ["-pthread"] _ -> [] wayOptl _ WayDebug = [] wayOptl _ WayDyn = [] wayOptl _ WayProf = [] wayOptl _ WayEventLog = [] wayOptP :: Platform -> Way -> [String] wayOptP _ (WayCustom {}) = [] wayOptP _ WayThreaded = [] wayOptP _ WayDebug = [] wayOptP _ WayDyn = [] wayOptP _ WayProf = ["-DPROFILING"] wayOptP _ WayEventLog = ["-DTRACING"] whenGeneratingDynamicToo :: MonadIO m => DynFlags -> m () -> m () whenGeneratingDynamicToo dflags f = ifGeneratingDynamicToo dflags f (return ()) ifGeneratingDynamicToo :: MonadIO m => DynFlags -> m a -> m a -> m a ifGeneratingDynamicToo dflags f g = generateDynamicTooConditional dflags f g g whenCannotGenerateDynamicToo :: MonadIO m => DynFlags -> m () -> m () whenCannotGenerateDynamicToo dflags f = ifCannotGenerateDynamicToo dflags f (return ()) ifCannotGenerateDynamicToo :: MonadIO m => DynFlags -> m a -> m a -> m a ifCannotGenerateDynamicToo dflags f g = generateDynamicTooConditional dflags g f g generateDynamicTooConditional :: MonadIO m => DynFlags -> m a -> m a -> m a -> m a generateDynamicTooConditional dflags canGen cannotGen notTryingToGen = if gopt Opt_BuildDynamicToo dflags then do let ref = canGenerateDynamicToo dflags b <- liftIO $ readIORef ref if b then canGen else cannotGen else notTryingToGen dynamicTooMkDynamicDynFlags :: DynFlags -> DynFlags dynamicTooMkDynamicDynFlags dflags0 = let dflags1 = addWay' WayDyn dflags0 dflags2 = dflags1 { outputFile = dynOutputFile dflags1, hiSuf = dynHiSuf dflags1, objectSuf = dynObjectSuf dflags1 } dflags3 = updateWays dflags2 dflags4 = gopt_unset dflags3 Opt_BuildDynamicToo in dflags4 ----------------------------------------------------------------------------- -- | Used by 'GHC.runGhc' to partially initialize a new 'DynFlags' value initDynFlags :: DynFlags -> IO DynFlags initDynFlags dflags = do let -- We can't build with dynamic-too on Windows, as labels before -- the fork point are different depending on whether we are -- building dynamically or not. platformCanGenerateDynamicToo = platformOS (targetPlatform dflags) /= OSMinGW32 refCanGenerateDynamicToo <- newIORef platformCanGenerateDynamicToo refNextTempSuffix <- newIORef 0 refFilesToClean <- newIORef [] refDirsToClean <- newIORef Map.empty refFilesToNotIntermediateClean <- newIORef [] refGeneratedDumps <- newIORef Set.empty refLlvmVersion <- newIORef 28 refRtldInfo <- newIORef Nothing refRtccInfo <- newIORef Nothing wrapperNum <- newIORef emptyModuleEnv canUseUnicode <- do let enc = localeEncoding str = "‘’" (withCString enc str $ \cstr -> do str' <- peekCString enc cstr return (str == str')) `catchIOError` \_ -> return False return dflags{ canGenerateDynamicToo = refCanGenerateDynamicToo, nextTempSuffix = refNextTempSuffix, filesToClean = refFilesToClean, dirsToClean = refDirsToClean, filesToNotIntermediateClean = refFilesToNotIntermediateClean, generatedDumps = refGeneratedDumps, llvmVersion = refLlvmVersion, nextWrapperNum = wrapperNum, useUnicode = canUseUnicode, rtldInfo = refRtldInfo, rtccInfo = refRtccInfo } -- | The normal 'DynFlags'. Note that they are not suitable for use in this form -- and must be fully initialized by 'GHC.runGhc' first. defaultDynFlags :: Settings -> DynFlags defaultDynFlags mySettings = -- See Note [Updating flag description in the User's Guide] DynFlags { ghcMode = CompManager, ghcLink = LinkBinary, hscTarget = defaultHscTarget (sTargetPlatform mySettings), sigOf = Map.empty, verbosity = 0, optLevel = 0, simplPhases = 2, maxSimplIterations = 4, ruleCheck = Nothing, maxRelevantBinds = Just 6, simplTickFactor = 100, specConstrThreshold = Just 2000, specConstrCount = Just 3, specConstrRecursive = 3, liberateCaseThreshold = Just 2000, floatLamArgs = Just 0, -- Default: float only if no fvs historySize = 20, strictnessBefore = [], parMakeCount = Just 1, enableTimeStats = False, ghcHeapSize = Nothing, cmdlineHcIncludes = [], importPaths = ["."], mainModIs = mAIN, mainFunIs = Nothing, reductionDepth = treatZeroAsInf mAX_REDUCTION_DEPTH, solverIterations = treatZeroAsInf mAX_SOLVER_ITERATIONS, thisPackage = mainPackageKey, thisLibraryName = LibraryName nilFS, objectDir = Nothing, dylibInstallName = Nothing, hiDir = Nothing, stubDir = Nothing, dumpDir = Nothing, objectSuf = phaseInputExt StopLn, hcSuf = phaseInputExt HCc, hiSuf = "hi", canGenerateDynamicToo = panic "defaultDynFlags: No canGenerateDynamicToo", dynObjectSuf = "dyn_" ++ phaseInputExt StopLn, dynHiSuf = "dyn_hi", dllSplitFile = Nothing, dllSplit = Nothing, pluginModNames = [], pluginModNameOpts = [], hooks = emptyHooks, outputFile = Nothing, dynOutputFile = Nothing, outputHi = Nothing, dynLibLoader = SystemDependent, dumpPrefix = Nothing, dumpPrefixForce = Nothing, ldInputs = [], includePaths = [], libraryPaths = [], frameworkPaths = [], cmdlineFrameworks = [], rtsOpts = Nothing, rtsOptsEnabled = RtsOptsSafeOnly, rtsOptsSuggestions = True, hpcDir = ".hpc", extraPkgConfs = id, packageFlags = [], packageEnv = Nothing, pkgDatabase = Nothing, -- This gets filled in with GHC.setSessionDynFlags pkgState = emptyPackageState, pkgKeyCache = v_unsafePkgKeyCache, ways = defaultWays mySettings, buildTag = mkBuildTag (defaultWays mySettings), rtsBuildTag = mkBuildTag (defaultWays mySettings), splitInfo = Nothing, settings = mySettings, -- ghc -M values depMakefile = "Makefile", depIncludePkgDeps = False, depExcludeMods = [], depSuffixes = [], -- end of ghc -M values nextTempSuffix = panic "defaultDynFlags: No nextTempSuffix", filesToClean = panic "defaultDynFlags: No filesToClean", dirsToClean = panic "defaultDynFlags: No dirsToClean", filesToNotIntermediateClean = panic "defaultDynFlags: No filesToNotIntermediateClean", generatedDumps = panic "defaultDynFlags: No generatedDumps", haddockOptions = Nothing, dumpFlags = IntSet.empty, generalFlags = IntSet.fromList (map fromEnum (defaultFlags mySettings)), warningFlags = IntSet.fromList (map fromEnum standardWarnings), ghciScripts = [], language = Nothing, safeHaskell = Sf_None, safeInfer = True, safeInferred = True, thOnLoc = noSrcSpan, newDerivOnLoc = noSrcSpan, overlapInstLoc = noSrcSpan, incoherentOnLoc = noSrcSpan, pkgTrustOnLoc = noSrcSpan, warnSafeOnLoc = noSrcSpan, warnUnsafeOnLoc = noSrcSpan, trustworthyOnLoc = noSrcSpan, extensions = [], extensionFlags = flattenExtensionFlags Nothing [], -- The ufCreationThreshold 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.) ufCreationThreshold = 750, ufUseThreshold = 60, ufFunAppDiscount = 60, -- Be fairly keen to inline a function if that means -- we'll be able to pick the right method from a dictionary ufDictDiscount = 30, ufKeenessFactor = 1.5, ufDearOp = 40, maxWorkerArgs = 10, ghciHistSize = 50, -- keep a log of length 50 by default log_action = defaultLogAction, flushOut = defaultFlushOut, flushErr = defaultFlushErr, pprUserLength = 5, pprCols = 100, useUnicode = False, traceLevel = 1, profAuto = NoProfAuto, llvmVersion = panic "defaultDynFlags: No llvmVersion", interactivePrint = Nothing, nextWrapperNum = panic "defaultDynFlags: No nextWrapperNum", sseVersion = Nothing, avx = False, avx2 = False, avx512cd = False, avx512er = False, avx512f = False, avx512pf = False, rtldInfo = panic "defaultDynFlags: no rtldInfo", rtccInfo = panic "defaultDynFlags: no rtccInfo", maxInlineAllocSize = 128, maxInlineMemcpyInsns = 32, maxInlineMemsetInsns = 32 } defaultWays :: Settings -> [Way] defaultWays settings = if pc_DYNAMIC_BY_DEFAULT (sPlatformConstants settings) then [WayDyn] else [] interpWays :: [Way] interpWays = if dynamicGhc then [WayDyn] else [] -------------------------------------------------------------------------- type FatalMessager = String -> IO () type LogAction = DynFlags -> Severity -> SrcSpan -> PprStyle -> MsgDoc -> IO () defaultFatalMessager :: FatalMessager defaultFatalMessager = hPutStrLn stderr defaultLogAction :: LogAction defaultLogAction dflags severity srcSpan style msg = case severity of SevOutput -> printSDoc msg style SevDump -> printSDoc (msg $$ blankLine) style SevInteractive -> putStrSDoc msg style SevInfo -> printErrs msg style SevFatal -> printErrs msg style _ -> do hPutChar stderr '\n' printErrs (mkLocMessage severity srcSpan msg) style -- careful (#2302): printErrs prints in UTF-8, -- whereas converting to string first and using -- hPutStr would just emit the low 8 bits of -- each unicode char. where printSDoc = defaultLogActionHPrintDoc dflags stdout printErrs = defaultLogActionHPrintDoc dflags stderr putStrSDoc = defaultLogActionHPutStrDoc dflags stdout defaultLogActionHPrintDoc :: DynFlags -> Handle -> SDoc -> PprStyle -> IO () defaultLogActionHPrintDoc dflags h d sty = defaultLogActionHPutStrDoc dflags h (d $$ text "") sty -- Adds a newline defaultLogActionHPutStrDoc :: DynFlags -> Handle -> SDoc -> PprStyle -> IO () defaultLogActionHPutStrDoc dflags h d sty = Pretty.printDoc_ Pretty.PageMode (pprCols dflags) h doc where -- Don't add a newline at the end, so that successive -- calls to this log-action can output all on the same line doc = runSDoc d (initSDocContext dflags sty) newtype FlushOut = FlushOut (IO ()) defaultFlushOut :: FlushOut defaultFlushOut = FlushOut $ hFlush stdout newtype FlushErr = FlushErr (IO ()) defaultFlushErr :: FlushErr defaultFlushErr = FlushErr $ hFlush stderr {- Note [Verbosity levels] ~~~~~~~~~~~~~~~~~~~~~~~ 0 | print errors & warnings only 1 | minimal verbosity: print "compiling M ... done." for each module. 2 | equivalent to -dshow-passes 3 | equivalent to existing "ghc -v" 4 | "ghc -v -ddump-most" 5 | "ghc -v -ddump-all" -} data OnOff a = On a | Off a -- OnOffs accumulate in reverse order, so we use foldr in order to -- process them in the right order flattenExtensionFlags :: Maybe Language -> [OnOff ExtensionFlag] -> IntSet flattenExtensionFlags ml = foldr f defaultExtensionFlags where f (On f) flags = IntSet.insert (fromEnum f) flags f (Off f) flags = IntSet.delete (fromEnum f) flags defaultExtensionFlags = IntSet.fromList (map fromEnum (languageExtensions ml)) languageExtensions :: Maybe Language -> [ExtensionFlag] languageExtensions Nothing -- Nothing => the default case = Opt_NondecreasingIndentation -- This has been on by default for some time : delete Opt_DatatypeContexts -- The Haskell' committee decided to -- remove datatype contexts from the -- language: -- http://www.haskell.org/pipermail/haskell-prime/2011-January/003335.html (languageExtensions (Just Haskell2010)) -- NB: MonoPatBinds is no longer the default languageExtensions (Just Haskell98) = [Opt_ImplicitPrelude, Opt_MonomorphismRestriction, Opt_NPlusKPatterns, Opt_DatatypeContexts, Opt_TraditionalRecordSyntax, Opt_NondecreasingIndentation -- strictly speaking non-standard, but we always had this -- on implicitly before the option was added in 7.1, and -- turning it off breaks code, so we're keeping it on for -- backwards compatibility. Cabal uses -XHaskell98 by -- default unless you specify another language. ] languageExtensions (Just Haskell2010) = [Opt_ImplicitPrelude, Opt_MonomorphismRestriction, Opt_DatatypeContexts, Opt_TraditionalRecordSyntax, Opt_EmptyDataDecls, Opt_ForeignFunctionInterface, Opt_PatternGuards, Opt_DoAndIfThenElse, Opt_RelaxedPolyRec] -- | Test whether a 'DumpFlag' is set dopt :: DumpFlag -> DynFlags -> Bool dopt f dflags = (fromEnum f `IntSet.member` dumpFlags dflags) || (verbosity dflags >= 4 && enableIfVerbose f) where enableIfVerbose Opt_D_dump_tc_trace = False enableIfVerbose Opt_D_dump_rn_trace = False enableIfVerbose Opt_D_dump_cs_trace = False enableIfVerbose Opt_D_dump_if_trace = False enableIfVerbose Opt_D_dump_vt_trace = False enableIfVerbose Opt_D_dump_tc = False enableIfVerbose Opt_D_dump_rn = False enableIfVerbose Opt_D_dump_rn_stats = False enableIfVerbose Opt_D_dump_hi_diffs = False enableIfVerbose Opt_D_verbose_core2core = False enableIfVerbose Opt_D_verbose_stg2stg = False enableIfVerbose Opt_D_dump_splices = False enableIfVerbose Opt_D_th_dec_file = False enableIfVerbose Opt_D_dump_rule_firings = False enableIfVerbose Opt_D_dump_rule_rewrites = False enableIfVerbose Opt_D_dump_simpl_trace = False enableIfVerbose Opt_D_dump_rtti = False enableIfVerbose Opt_D_dump_inlinings = False enableIfVerbose Opt_D_dump_core_stats = False enableIfVerbose Opt_D_dump_asm_stats = False enableIfVerbose Opt_D_dump_types = False enableIfVerbose Opt_D_dump_simpl_iterations = False enableIfVerbose Opt_D_dump_ticked = False enableIfVerbose Opt_D_dump_view_pattern_commoning = False enableIfVerbose Opt_D_dump_mod_cycles = False enableIfVerbose Opt_D_dump_mod_map = False enableIfVerbose _ = True -- | Set a 'DumpFlag' dopt_set :: DynFlags -> DumpFlag -> DynFlags dopt_set dfs f = dfs{ dumpFlags = IntSet.insert (fromEnum f) (dumpFlags dfs) } -- | Unset a 'DumpFlag' dopt_unset :: DynFlags -> DumpFlag -> DynFlags dopt_unset dfs f = dfs{ dumpFlags = IntSet.delete (fromEnum f) (dumpFlags dfs) } -- | Test whether a 'GeneralFlag' is set gopt :: GeneralFlag -> DynFlags -> Bool gopt f dflags = fromEnum f `IntSet.member` generalFlags dflags -- | Set a 'GeneralFlag' gopt_set :: DynFlags -> GeneralFlag -> DynFlags gopt_set dfs f = dfs{ generalFlags = IntSet.insert (fromEnum f) (generalFlags dfs) } -- | Unset a 'GeneralFlag' gopt_unset :: DynFlags -> GeneralFlag -> DynFlags gopt_unset dfs f = dfs{ generalFlags = IntSet.delete (fromEnum f) (generalFlags dfs) } -- | Test whether a 'WarningFlag' is set wopt :: WarningFlag -> DynFlags -> Bool wopt f dflags = fromEnum f `IntSet.member` warningFlags dflags -- | Set a 'WarningFlag' wopt_set :: DynFlags -> WarningFlag -> DynFlags wopt_set dfs f = dfs{ warningFlags = IntSet.insert (fromEnum f) (warningFlags dfs) } -- | Unset a 'WarningFlag' wopt_unset :: DynFlags -> WarningFlag -> DynFlags wopt_unset dfs f = dfs{ warningFlags = IntSet.delete (fromEnum f) (warningFlags dfs) } -- | Test whether a 'ExtensionFlag' is set xopt :: ExtensionFlag -> DynFlags -> Bool xopt f dflags = fromEnum f `IntSet.member` extensionFlags dflags -- | Set a 'ExtensionFlag' xopt_set :: DynFlags -> ExtensionFlag -> DynFlags xopt_set dfs f = let onoffs = On f : extensions dfs in dfs { extensions = onoffs, extensionFlags = flattenExtensionFlags (language dfs) onoffs } -- | Unset a 'ExtensionFlag' xopt_unset :: DynFlags -> ExtensionFlag -> DynFlags xopt_unset dfs f = let onoffs = Off f : extensions dfs in dfs { extensions = onoffs, extensionFlags = flattenExtensionFlags (language dfs) onoffs } lang_set :: DynFlags -> Maybe Language -> DynFlags lang_set dflags lang = dflags { language = lang, extensionFlags = flattenExtensionFlags lang (extensions dflags) } -- | Check whether to use unicode syntax for output useUnicodeSyntax :: DynFlags -> Bool useUnicodeSyntax = gopt Opt_PrintUnicodeSyntax -- | Set the Haskell language standard to use setLanguage :: Language -> DynP () setLanguage l = upd (`lang_set` Just l) -- | Some modules have dependencies on others through the DynFlags rather than textual imports dynFlagDependencies :: DynFlags -> [ModuleName] dynFlagDependencies = pluginModNames -- | Is the -fpackage-trust mode on packageTrustOn :: DynFlags -> Bool packageTrustOn = gopt Opt_PackageTrust -- | Is Safe Haskell on in some way (including inference mode) safeHaskellOn :: DynFlags -> Bool safeHaskellOn dflags = safeHaskell dflags /= Sf_None || safeInferOn dflags -- | Is the Safe Haskell safe language in use safeLanguageOn :: DynFlags -> Bool safeLanguageOn dflags = safeHaskell dflags == Sf_Safe -- | Is the Safe Haskell safe inference mode active safeInferOn :: DynFlags -> Bool safeInferOn = safeInfer -- | Test if Safe Imports are on in some form safeImportsOn :: DynFlags -> Bool safeImportsOn dflags = safeHaskell dflags == Sf_Unsafe || safeHaskell dflags == Sf_Trustworthy || safeHaskell dflags == Sf_Safe -- | Set a 'Safe Haskell' flag setSafeHaskell :: SafeHaskellMode -> DynP () setSafeHaskell s = updM f where f dfs = do let sf = safeHaskell dfs safeM <- combineSafeFlags sf s case s of Sf_Safe -> return $ dfs { safeHaskell = safeM, safeInfer = False } -- leave safe inferrence on in Trustworthy mode so we can warn -- if it could have been inferred safe. Sf_Trustworthy -> do l <- getCurLoc return $ dfs { safeHaskell = safeM, trustworthyOnLoc = l } -- leave safe inference on in Unsafe mode as well. _ -> return $ dfs { safeHaskell = safeM } -- | Are all direct imports required to be safe for this Safe Haskell mode? -- Direct imports are when the code explicitly imports a module safeDirectImpsReq :: DynFlags -> Bool safeDirectImpsReq d = safeLanguageOn d -- | Are all implicit imports required to be safe for this Safe Haskell mode? -- Implicit imports are things in the prelude. e.g System.IO when print is used. safeImplicitImpsReq :: DynFlags -> Bool safeImplicitImpsReq d = safeLanguageOn d -- | Combine two Safe Haskell modes correctly. Used for dealing with multiple flags. -- This makes Safe Haskell very much a monoid but for now I prefer this as I don't -- want to export this functionality from the module but do want to export the -- type constructors. combineSafeFlags :: SafeHaskellMode -> SafeHaskellMode -> DynP SafeHaskellMode combineSafeFlags a b | a == Sf_None = return b | b == Sf_None = return a | a == b = return a | otherwise = addErr errm >> return (panic errm) where errm = "Incompatible Safe Haskell flags! (" ++ show a ++ ", " ++ show b ++ ")" -- | A list of unsafe flags under Safe Haskell. Tuple elements are: -- * name of the flag -- * function to get srcspan that enabled the flag -- * function to test if the flag is on -- * function to turn the flag off unsafeFlags, unsafeFlagsForInfer :: [(String, DynFlags -> SrcSpan, DynFlags -> Bool, DynFlags -> DynFlags)] unsafeFlags = [ ("-XGeneralizedNewtypeDeriving", newDerivOnLoc, xopt Opt_GeneralizedNewtypeDeriving, flip xopt_unset Opt_GeneralizedNewtypeDeriving) , ("-XTemplateHaskell", thOnLoc, xopt Opt_TemplateHaskell, flip xopt_unset Opt_TemplateHaskell) ] unsafeFlagsForInfer = unsafeFlags -- | Retrieve the options corresponding to a particular @opt_*@ field in the correct order getOpts :: DynFlags -- ^ 'DynFlags' to retrieve the options from -> (DynFlags -> [a]) -- ^ Relevant record accessor: one of the @opt_*@ accessors -> [a] -- ^ Correctly ordered extracted options getOpts dflags opts = reverse (opts dflags) -- We add to the options from the front, so we need to reverse the list -- | Gets the verbosity flag for the current verbosity level. This is fed to -- other tools, so GHC-specific verbosity flags like @-ddump-most@ are not included getVerbFlags :: DynFlags -> [String] getVerbFlags dflags | verbosity dflags >= 4 = ["-v"] | otherwise = [] setObjectDir, setHiDir, setStubDir, setDumpDir, setOutputDir, setDynObjectSuf, setDynHiSuf, setDylibInstallName, setObjectSuf, setHiSuf, setHcSuf, parseDynLibLoaderMode, setPgmP, addOptl, addOptc, addOptP, addCmdlineFramework, addHaddockOpts, addGhciScript, setInteractivePrint :: String -> DynFlags -> DynFlags setOutputFile, setDynOutputFile, 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 } -- -stubdir D adds an implicit -I D, so that gcc can find the _stub.h file -- \#included from the .hc file when compiling via C (i.e. unregisterised -- builds). setDumpDir f d = d{ dumpDir = Just f} setOutputDir f = setObjectDir f . setHiDir f . setStubDir f . setDumpDir f setDylibInstallName f d = d{ dylibInstallName = Just f} setObjectSuf f d = d{ objectSuf = f} setDynObjectSuf f d = d{ dynObjectSuf = f} setHiSuf f d = d{ hiSuf = f} setDynHiSuf f d = d{ dynHiSuf = f} setHcSuf f d = d{ hcSuf = f} setOutputFile f d = d{ outputFile = f} setDynOutputFile f d = d{ dynOutputFile = f} setOutputHi f d = d{ outputHi = f} parseSigOf :: String -> SigOf parseSigOf str = case filter ((=="").snd) (readP_to_S parse str) of [(r, "")] -> r _ -> throwGhcException $ CmdLineError ("Can't parse -sig-of: " ++ str) where parse = Map.fromList <$> sepBy parseEntry (R.char ',') parseEntry = do n <- tok $ parseModuleName -- ToDo: deprecate this 'is' syntax? tok $ ((string "is" >> return ()) +++ (R.char '=' >> return ())) m <- tok $ parseModule return (n, m) parseModule = do pk <- munch1 (\c -> isAlphaNum c || c `elem` "-_") _ <- R.char ':' m <- parseModuleName return (mkModule (stringToPackageKey pk) m) tok m = skipSpaces >> m setSigOf :: String -> DynFlags -> DynFlags setSigOf s d = d { sigOf = parseSigOf s } addPluginModuleName :: String -> DynFlags -> DynFlags addPluginModuleName name d = d { pluginModNames = (mkModuleName name) : (pluginModNames d) } addPluginModuleNameOption :: String -> DynFlags -> DynFlags addPluginModuleNameOption optflag d = d { pluginModNameOpts = (mkModuleName m, option) : (pluginModNameOpts d) } where (m, rest) = break (== ':') optflag option = case rest of [] -> "" -- should probably signal an error (_:plug_opt) -> plug_opt -- ignore the ':' from break parseDynLibLoaderMode f d = case splitAt 8 f of ("deploy", "") -> d{ dynLibLoader = Deployable } ("sysdep", "") -> d{ dynLibLoader = SystemDependent } _ -> throwGhcException (CmdLineError ("Unknown dynlib loader: " ++ f)) setDumpPrefixForce f d = d { dumpPrefixForce = f} -- XXX HACK: Prelude> words "'does not' work" ===> ["'does","not'","work"] -- Config.hs should really use Option. setPgmP f = let (pgm:args) = words f in alterSettings (\s -> s { sPgm_P = (pgm, map Option args)}) addOptl f = alterSettings (\s -> s { sOpt_l = f : sOpt_l s}) addOptc f = alterSettings (\s -> s { sOpt_c = f : sOpt_c s}) addOptP f = alterSettings (\s -> s { sOpt_P = f : sOpt_P s}) setDepMakefile :: FilePath -> DynFlags -> DynFlags setDepMakefile f d = d { depMakefile = f } setDepIncludePkgDeps :: Bool -> DynFlags -> DynFlags setDepIncludePkgDeps b d = d { depIncludePkgDeps = b } addDepExcludeMod :: String -> DynFlags -> DynFlags addDepExcludeMod m d = d { depExcludeMods = mkModuleName m : depExcludeMods d } addDepSuffix :: FilePath -> DynFlags -> DynFlags addDepSuffix s d = d { depSuffixes = s : depSuffixes d } addCmdlineFramework f d = d{ cmdlineFrameworks = f : cmdlineFrameworks d} addHaddockOpts f d = d{ haddockOptions = Just f} addGhciScript f d = d{ ghciScripts = f : ghciScripts d} setInteractivePrint f d = d{ interactivePrint = Just f} -- ----------------------------------------------------------------------------- -- Command-line options -- | When invoking external tools as part of the compilation pipeline, we -- pass these a sequence of options on the command-line. Rather than -- just using a list of Strings, we use a type that allows us to distinguish -- between filepaths and 'other stuff'. The reason for this is that -- this type gives us a handle on transforming filenames, and filenames only, -- to whatever format they're expected to be on a particular platform. data Option = FileOption -- an entry that _contains_ filename(s) / filepaths. String -- a non-filepath prefix that shouldn't be -- transformed (e.g., "/out=") String -- the filepath/filename portion | Option String deriving ( Eq ) showOpt :: Option -> String showOpt (FileOption pre f) = pre ++ f showOpt (Option s) = s ----------------------------------------------------------------------------- -- Setting the optimisation level updOptLevel :: Int -> DynFlags -> DynFlags -- ^ Sets the 'DynFlags' to be appropriate to the optimisation level updOptLevel n dfs = dfs2{ optLevel = final_n } where final_n = max 0 (min 2 n) -- Clamp to 0 <= n <= 2 dfs1 = foldr (flip gopt_unset) dfs remove_gopts dfs2 = foldr (flip gopt_set) dfs1 extra_gopts extra_gopts = [ f | (ns,f) <- optLevelFlags, final_n `elem` ns ] remove_gopts = [ f | (ns,f) <- optLevelFlags, final_n `notElem` ns ] -- ----------------------------------------------------------------------------- -- StgToDo: abstraction of stg-to-stg passes to run. data StgToDo = StgDoMassageForProfiling -- should be (next to) last -- There's also setStgVarInfo, but its absolute "lastness" -- is so critical that it is hardwired in (no flag). | D_stg_stats getStgToDo :: DynFlags -> [StgToDo] getStgToDo dflags = todo2 where stg_stats = gopt Opt_StgStats dflags todo1 = if stg_stats then [D_stg_stats] else [] todo2 | WayProf `elem` ways dflags = StgDoMassageForProfiling : todo1 | otherwise = todo1 {- ********************************************************************** %* * DynFlags parser %* * %********************************************************************* -} -- ----------------------------------------------------------------------------- -- Parsing the dynamic flags. -- | Parse dynamic flags from a list of command line arguments. Returns the -- the parsed 'DynFlags', the left-over arguments, and a list of warnings. -- Throws a 'UsageError' if errors occurred during parsing (such as unknown -- flags or missing arguments). parseDynamicFlagsCmdLine :: MonadIO m => DynFlags -> [Located String] -> m (DynFlags, [Located String], [Located String]) -- ^ Updated 'DynFlags', left-over arguments, and -- list of warnings. parseDynamicFlagsCmdLine = parseDynamicFlagsFull flagsAll True -- | Like 'parseDynamicFlagsCmdLine' but does not allow the package flags -- (-package, -hide-package, -ignore-package, -hide-all-packages, -package-db). -- Used to parse flags set in a modules pragma. parseDynamicFilePragma :: MonadIO m => DynFlags -> [Located String] -> m (DynFlags, [Located String], [Located String]) -- ^ Updated 'DynFlags', left-over arguments, and -- list of warnings. parseDynamicFilePragma = parseDynamicFlagsFull flagsDynamic False -- | Parses the dynamically set flags for GHC. This is the most general form of -- the dynamic flag parser that the other methods simply wrap. It allows -- saying which flags are valid flags and indicating if we are parsing -- arguments from the command line or from a file pragma. parseDynamicFlagsFull :: MonadIO m => [Flag (CmdLineP DynFlags)] -- ^ valid flags to match against -> Bool -- ^ are the arguments from the command line? -> DynFlags -- ^ current dynamic flags -> [Located String] -- ^ arguments to parse -> m (DynFlags, [Located String], [Located String]) parseDynamicFlagsFull activeFlags cmdline dflags0 args = do let ((leftover, errs, warns), dflags1) = runCmdLine (processArgs activeFlags args) dflags0 -- See Note [Handling errors when parsing commandline flags] unless (null errs) $ liftIO $ throwGhcExceptionIO $ errorsToGhcException . map (showPpr dflags0 . getLoc &&& unLoc) $ errs -- check for disabled flags in safe haskell let (dflags2, sh_warns) = safeFlagCheck cmdline dflags1 dflags3 = updateWays dflags2 theWays = ways dflags3 unless (allowed_combination theWays) $ liftIO $ throwGhcExceptionIO (CmdLineError ("combination not supported: " ++ intercalate "/" (map wayDesc theWays))) let chooseOutput | isJust (outputFile dflags3) -- Only iff user specified -o ... , not (isJust (dynOutputFile dflags3)) -- but not -dyno = return $ dflags3 { dynOutputFile = Just $ dynOut (fromJust $ outputFile dflags3) } | otherwise = return dflags3 where dynOut = flip addExtension (dynObjectSuf dflags3) . dropExtension dflags4 <- ifGeneratingDynamicToo dflags3 chooseOutput (return dflags3) let (dflags5, consistency_warnings) = makeDynFlagsConsistent dflags4 dflags6 <- case dllSplitFile dflags5 of Nothing -> return (dflags5 { dllSplit = Nothing }) Just f -> case dllSplit dflags5 of Just _ -> -- If dllSplit is out of date then it would have -- been set to Nothing. As it's a Just, it must be -- up-to-date. return dflags5 Nothing -> do xs <- liftIO $ readFile f let ss = map (Set.fromList . words) (lines xs) return $ dflags5 { dllSplit = Just ss } -- Set timer stats & heap size when (enableTimeStats dflags6) $ liftIO enableTimingStats case (ghcHeapSize dflags6) of Just x -> liftIO (setHeapSize x) _ -> return () liftIO $ setUnsafeGlobalDynFlags dflags6 return (dflags6, leftover, consistency_warnings ++ sh_warns ++ warns) updateWays :: DynFlags -> DynFlags updateWays dflags = let theWays = sort $ nub $ ways dflags f = if WayDyn `elem` theWays then unSetGeneralFlag' else setGeneralFlag' in f Opt_Static $ dflags { ways = theWays, buildTag = mkBuildTag (filter (not . wayRTSOnly) theWays), rtsBuildTag = mkBuildTag theWays } -- | Check (and potentially disable) any extensions that aren't allowed -- in safe mode. -- -- The bool is to indicate if we are parsing command line flags (false means -- file pragma). This allows us to generate better warnings. safeFlagCheck :: Bool -> DynFlags -> (DynFlags, [Located String]) safeFlagCheck _ dflags | safeLanguageOn dflags = (dflagsUnset, warns) where -- Handle illegal flags under safe language. (dflagsUnset, warns) = foldl check_method (dflags, []) unsafeFlags check_method (df, warns) (str,loc,test,fix) | test df = (fix df, warns ++ safeFailure (loc df) str) | otherwise = (df, warns) safeFailure loc str = [L loc $ str ++ " is not allowed in Safe Haskell; ignoring " ++ str] safeFlagCheck cmdl dflags = case (safeInferOn dflags) of True | safeFlags -> (dflags', warn) True -> (dflags' { safeInferred = False }, warn) False -> (dflags', warn) where -- dynflags and warn for when -fpackage-trust by itself with no safe -- haskell flag (dflags', warn) | safeHaskell dflags == Sf_None && not cmdl && packageTrustOn dflags = (gopt_unset dflags Opt_PackageTrust, pkgWarnMsg) | otherwise = (dflags, []) pkgWarnMsg = [L (pkgTrustOnLoc dflags') $ "-fpackage-trust ignored;" ++ " must be specified with a Safe Haskell flag"] -- Have we inferred Unsafe? See Note [HscMain . Safe Haskell Inference] safeFlags = all (\(_,_,t,_) -> not $ t dflags) unsafeFlagsForInfer {- ********************************************************************** %* * DynFlags specifications %* * %********************************************************************* -} -- | All dynamic flags option strings. These are the user facing strings for -- enabling and disabling options. allFlags :: [String] allFlags = [ '-':flagName flag | flag <- flagsAll , ok (flagOptKind flag) ] where ok (PrefixPred _ _) = False ok _ = True {- - Below we export user facing symbols for GHC dynamic flags for use with the - GHC API. -} -- All dynamic flags present in GHC. flagsAll :: [Flag (CmdLineP DynFlags)] flagsAll = package_flags ++ dynamic_flags -- All dynamic flags, minus package flags, present in GHC. flagsDynamic :: [Flag (CmdLineP DynFlags)] flagsDynamic = dynamic_flags -- ALl package flags present in GHC. flagsPackage :: [Flag (CmdLineP DynFlags)] flagsPackage = package_flags --------------- The main flags themselves ------------------ -- See Note [Updating flag description in the User's Guide] -- See Note [Supporting CLI completion] dynamic_flags :: [Flag (CmdLineP DynFlags)] dynamic_flags = [ defFlag "n" (NoArg (addWarn "The -n flag is deprecated and no longer has any effect")) , defFlag "cpp" (NoArg (setExtensionFlag Opt_Cpp)) , defFlag "F" (NoArg (setGeneralFlag Opt_Pp)) , defFlag "#include" (HasArg (\s -> do addCmdlineHCInclude s addWarn ("-#include and INCLUDE pragmas are " ++ "deprecated: They no longer have any effect"))) , defFlag "v" (OptIntSuffix setVerbosity) , defGhcFlag "j" (OptIntSuffix (\n -> upd (\d -> d {parMakeCount = n}))) , defFlag "sig-of" (sepArg setSigOf) -- RTS options ------------------------------------------------------------- , defFlag "H" (HasArg (\s -> upd (\d -> d { ghcHeapSize = Just $ fromIntegral (decodeSize s)}))) , defFlag "Rghc-timing" (NoArg (upd (\d -> d { enableTimeStats = True }))) ------- ways --------------------------------------------------------------- , defGhcFlag "prof" (NoArg (addWay WayProf)) , defGhcFlag "eventlog" (NoArg (addWay WayEventLog)) , defGhcFlag "smp" (NoArg (addWay WayThreaded >> deprecate "Use -threaded instead")) , defGhcFlag "debug" (NoArg (addWay WayDebug)) , defGhcFlag "threaded" (NoArg (addWay WayThreaded)) , defGhcFlag "ticky" (NoArg (setGeneralFlag Opt_Ticky >> addWay WayDebug)) -- -ticky enables ticky-ticky code generation, and also implies -debug which -- is required to get the RTS ticky support. ----- Linker -------------------------------------------------------- , defGhcFlag "static" (NoArg removeWayDyn) , defGhcFlag "dynamic" (NoArg (addWay WayDyn)) , defGhcFlag "rdynamic" $ noArg $ #ifdef linux_HOST_OS addOptl "-rdynamic" #elif defined (mingw32_HOST_OS) addOptl "-Wl,--export-all-symbols" #else -- ignored for compat w/ gcc: id #endif , defGhcFlag "relative-dynlib-paths" (NoArg (setGeneralFlag Opt_RelativeDynlibPaths)) ------- Specific phases -------------------------------------------- -- need to appear before -pgmL to be parsed as LLVM flags. , defFlag "pgmlo" (hasArg (\f -> alterSettings (\s -> s { sPgm_lo = (f,[])}))) , defFlag "pgmlc" (hasArg (\f -> alterSettings (\s -> s { sPgm_lc = (f,[])}))) , defFlag "pgmL" (hasArg (\f -> alterSettings (\s -> s { sPgm_L = f}))) , defFlag "pgmP" (hasArg setPgmP) , defFlag "pgmF" (hasArg (\f -> alterSettings (\s -> s { sPgm_F = f}))) , defFlag "pgmc" (hasArg (\f -> alterSettings (\s -> s { sPgm_c = (f,[])}))) , defFlag "pgms" (hasArg (\f -> alterSettings (\s -> s { sPgm_s = (f,[])}))) , defFlag "pgma" (hasArg (\f -> alterSettings (\s -> s { sPgm_a = (f,[])}))) , defFlag "pgml" (hasArg (\f -> alterSettings (\s -> s { sPgm_l = (f,[])}))) , defFlag "pgmdll" (hasArg (\f -> alterSettings (\s -> s { sPgm_dll = (f,[])}))) , defFlag "pgmwindres" (hasArg (\f -> alterSettings (\s -> s { sPgm_windres = f}))) , defFlag "pgmlibtool" (hasArg (\f -> alterSettings (\s -> s { sPgm_libtool = f}))) -- need to appear before -optl/-opta to be parsed as LLVM flags. , defFlag "optlo" (hasArg (\f -> alterSettings (\s -> s { sOpt_lo = f : sOpt_lo s}))) , defFlag "optlc" (hasArg (\f -> alterSettings (\s -> s { sOpt_lc = f : sOpt_lc s}))) , defFlag "optL" (hasArg (\f -> alterSettings (\s -> s { sOpt_L = f : sOpt_L s}))) , defFlag "optP" (hasArg addOptP) , defFlag "optF" (hasArg (\f -> alterSettings (\s -> s { sOpt_F = f : sOpt_F s}))) , defFlag "optc" (hasArg addOptc) , defFlag "opta" (hasArg (\f -> alterSettings (\s -> s { sOpt_a = f : sOpt_a s}))) , defFlag "optl" (hasArg addOptl) , defFlag "optwindres" (hasArg (\f -> alterSettings (\s -> s { sOpt_windres = f : sOpt_windres s}))) , defGhcFlag "split-objs" (NoArg (if can_split then setGeneralFlag Opt_SplitObjs else addWarn "ignoring -fsplit-objs")) -------- ghc -M ----------------------------------------------------- , defGhcFlag "dep-suffix" (hasArg addDepSuffix) , defGhcFlag "dep-makefile" (hasArg setDepMakefile) , defGhcFlag "include-pkg-deps" (noArg (setDepIncludePkgDeps True)) , defGhcFlag "exclude-module" (hasArg addDepExcludeMod) -------- Linking ---------------------------------------------------- , defGhcFlag "no-link" (noArg (\d -> d{ ghcLink=NoLink })) , defGhcFlag "shared" (noArg (\d -> d{ ghcLink=LinkDynLib })) , defGhcFlag "staticlib" (noArg (\d -> d{ ghcLink=LinkStaticLib })) , defGhcFlag "dynload" (hasArg parseDynLibLoaderMode) , defGhcFlag "dylib-install-name" (hasArg setDylibInstallName) -- -dll-split is an internal flag, used only during the GHC build , defHiddenFlag "dll-split" (hasArg (\f d -> d{ dllSplitFile = Just f, dllSplit = Nothing })) ------- Libraries --------------------------------------------------- , defFlag "L" (Prefix addLibraryPath) , defFlag "l" (hasArg (addLdInputs . Option . ("-l" ++))) ------- Frameworks -------------------------------------------------- -- -framework-path should really be -F ... , defFlag "framework-path" (HasArg addFrameworkPath) , defFlag "framework" (hasArg addCmdlineFramework) ------- Output Redirection ------------------------------------------ , defGhcFlag "odir" (hasArg setObjectDir) , defGhcFlag "o" (sepArg (setOutputFile . Just)) , defGhcFlag "dyno" (sepArg (setDynOutputFile . Just)) , defGhcFlag "ohi" (hasArg (setOutputHi . Just )) , defGhcFlag "osuf" (hasArg setObjectSuf) , defGhcFlag "dynosuf" (hasArg setDynObjectSuf) , defGhcFlag "hcsuf" (hasArg setHcSuf) , defGhcFlag "hisuf" (hasArg setHiSuf) , defGhcFlag "dynhisuf" (hasArg setDynHiSuf) , defGhcFlag "hidir" (hasArg setHiDir) , defGhcFlag "tmpdir" (hasArg setTmpDir) , defGhcFlag "stubdir" (hasArg setStubDir) , defGhcFlag "dumpdir" (hasArg setDumpDir) , defGhcFlag "outputdir" (hasArg setOutputDir) , defGhcFlag "ddump-file-prefix" (hasArg (setDumpPrefixForce . Just)) , defGhcFlag "dynamic-too" (NoArg (setGeneralFlag Opt_BuildDynamicToo)) ------- Keeping temporary files ------------------------------------- -- These can be singular (think ghc -c) or plural (think ghc --make) , defGhcFlag "keep-hc-file" (NoArg (setGeneralFlag Opt_KeepHcFiles)) , defGhcFlag "keep-hc-files" (NoArg (setGeneralFlag Opt_KeepHcFiles)) , defGhcFlag "keep-s-file" (NoArg (setGeneralFlag Opt_KeepSFiles)) , defGhcFlag "keep-s-files" (NoArg (setGeneralFlag Opt_KeepSFiles)) , defGhcFlag "keep-llvm-file" (NoArg (do setObjTarget HscLlvm setGeneralFlag Opt_KeepLlvmFiles)) , defGhcFlag "keep-llvm-files" (NoArg (do setObjTarget HscLlvm setGeneralFlag Opt_KeepLlvmFiles)) -- This only makes sense as plural , defGhcFlag "keep-tmp-files" (NoArg (setGeneralFlag Opt_KeepTmpFiles)) ------- Miscellaneous ---------------------------------------------- , defGhcFlag "no-auto-link-packages" (NoArg (unSetGeneralFlag Opt_AutoLinkPackages)) , defGhcFlag "no-hs-main" (NoArg (setGeneralFlag Opt_NoHsMain)) , defGhcFlag "with-rtsopts" (HasArg setRtsOpts) , defGhcFlag "rtsopts" (NoArg (setRtsOptsEnabled RtsOptsAll)) , defGhcFlag "rtsopts=all" (NoArg (setRtsOptsEnabled RtsOptsAll)) , defGhcFlag "rtsopts=some" (NoArg (setRtsOptsEnabled RtsOptsSafeOnly)) , defGhcFlag "rtsopts=none" (NoArg (setRtsOptsEnabled RtsOptsNone)) , defGhcFlag "no-rtsopts" (NoArg (setRtsOptsEnabled RtsOptsNone)) , defGhcFlag "no-rtsopts-suggestions" (noArg (\d -> d {rtsOptsSuggestions = False} )) , defGhcFlag "main-is" (SepArg setMainIs) , defGhcFlag "haddock" (NoArg (setGeneralFlag Opt_Haddock)) , defGhcFlag "haddock-opts" (hasArg addHaddockOpts) , defGhcFlag "hpcdir" (SepArg setOptHpcDir) , defGhciFlag "ghci-script" (hasArg addGhciScript) , defGhciFlag "interactive-print" (hasArg setInteractivePrint) , defGhcFlag "ticky-allocd" (NoArg (setGeneralFlag Opt_Ticky_Allocd)) , defGhcFlag "ticky-LNE" (NoArg (setGeneralFlag Opt_Ticky_LNE)) , defGhcFlag "ticky-dyn-thunk" (NoArg (setGeneralFlag Opt_Ticky_Dyn_Thunk)) ------- recompilation checker -------------------------------------- , defGhcFlag "recomp" (NoArg (do unSetGeneralFlag Opt_ForceRecomp deprecate "Use -fno-force-recomp instead")) , defGhcFlag "no-recomp" (NoArg (do setGeneralFlag Opt_ForceRecomp deprecate "Use -fforce-recomp instead")) ------ HsCpp opts --------------------------------------------------- , defFlag "D" (AnySuffix (upd . addOptP)) , defFlag "U" (AnySuffix (upd . addOptP)) ------- Include/Import Paths ---------------------------------------- , defFlag "I" (Prefix addIncludePath) , defFlag "i" (OptPrefix addImportPath) ------ Output style options ----------------------------------------- , defFlag "dppr-user-length" (intSuffix (\n d -> d{ pprUserLength = n })) , defFlag "dppr-cols" (intSuffix (\n d -> d{ pprCols = n })) , defGhcFlag "dtrace-level" (intSuffix (\n d -> d{ traceLevel = n })) -- Suppress all that is suppressable in core dumps. -- Except for uniques, as some simplifier phases introduce new varibles that -- have otherwise identical names. , defGhcFlag "dsuppress-all" (NoArg $ do setGeneralFlag Opt_SuppressCoercions setGeneralFlag Opt_SuppressVarKinds setGeneralFlag Opt_SuppressModulePrefixes setGeneralFlag Opt_SuppressTypeApplications setGeneralFlag Opt_SuppressIdInfo setGeneralFlag Opt_SuppressTypeSignatures) ------ Debugging ---------------------------------------------------- , defGhcFlag "dstg-stats" (NoArg (setGeneralFlag Opt_StgStats)) , defGhcFlag "ddump-cmm" (setDumpFlag Opt_D_dump_cmm) , defGhcFlag "ddump-cmm-raw" (setDumpFlag Opt_D_dump_cmm_raw) , defGhcFlag "ddump-cmm-cfg" (setDumpFlag Opt_D_dump_cmm_cfg) , defGhcFlag "ddump-cmm-cbe" (setDumpFlag Opt_D_dump_cmm_cbe) , defGhcFlag "ddump-cmm-switch" (setDumpFlag Opt_D_dump_cmm_switch) , defGhcFlag "ddump-cmm-proc" (setDumpFlag Opt_D_dump_cmm_proc) , defGhcFlag "ddump-cmm-sink" (setDumpFlag Opt_D_dump_cmm_sink) , defGhcFlag "ddump-cmm-sp" (setDumpFlag Opt_D_dump_cmm_sp) , defGhcFlag "ddump-cmm-procmap" (setDumpFlag Opt_D_dump_cmm_procmap) , defGhcFlag "ddump-cmm-split" (setDumpFlag Opt_D_dump_cmm_split) , defGhcFlag "ddump-cmm-info" (setDumpFlag Opt_D_dump_cmm_info) , defGhcFlag "ddump-cmm-cps" (setDumpFlag Opt_D_dump_cmm_cps) , defGhcFlag "ddump-core-stats" (setDumpFlag Opt_D_dump_core_stats) , defGhcFlag "ddump-asm" (setDumpFlag Opt_D_dump_asm) , defGhcFlag "ddump-asm-native" (setDumpFlag Opt_D_dump_asm_native) , defGhcFlag "ddump-asm-liveness" (setDumpFlag Opt_D_dump_asm_liveness) , defGhcFlag "ddump-asm-regalloc" (setDumpFlag Opt_D_dump_asm_regalloc) , defGhcFlag "ddump-asm-conflicts" (setDumpFlag Opt_D_dump_asm_conflicts) , defGhcFlag "ddump-asm-regalloc-stages" (setDumpFlag Opt_D_dump_asm_regalloc_stages) , defGhcFlag "ddump-asm-stats" (setDumpFlag Opt_D_dump_asm_stats) , defGhcFlag "ddump-asm-expanded" (setDumpFlag Opt_D_dump_asm_expanded) , defGhcFlag "ddump-llvm" (NoArg (do setObjTarget HscLlvm setDumpFlag' Opt_D_dump_llvm)) , defGhcFlag "ddump-deriv" (setDumpFlag Opt_D_dump_deriv) , defGhcFlag "ddump-ds" (setDumpFlag Opt_D_dump_ds) , defGhcFlag "ddump-foreign" (setDumpFlag Opt_D_dump_foreign) , defGhcFlag "ddump-inlinings" (setDumpFlag Opt_D_dump_inlinings) , defGhcFlag "ddump-rule-firings" (setDumpFlag Opt_D_dump_rule_firings) , defGhcFlag "ddump-rule-rewrites" (setDumpFlag Opt_D_dump_rule_rewrites) , defGhcFlag "ddump-simpl-trace" (setDumpFlag Opt_D_dump_simpl_trace) , defGhcFlag "ddump-occur-anal" (setDumpFlag Opt_D_dump_occur_anal) , defGhcFlag "ddump-parsed" (setDumpFlag Opt_D_dump_parsed) , defGhcFlag "ddump-rn" (setDumpFlag Opt_D_dump_rn) , defGhcFlag "ddump-simpl" (setDumpFlag Opt_D_dump_simpl) , defGhcFlag "ddump-simpl-iterations" (setDumpFlag Opt_D_dump_simpl_iterations) , defGhcFlag "ddump-spec" (setDumpFlag Opt_D_dump_spec) , defGhcFlag "ddump-prep" (setDumpFlag Opt_D_dump_prep) , defGhcFlag "ddump-stg" (setDumpFlag Opt_D_dump_stg) , defGhcFlag "ddump-call-arity" (setDumpFlag Opt_D_dump_call_arity) , defGhcFlag "ddump-stranal" (setDumpFlag Opt_D_dump_stranal) , defGhcFlag "ddump-strsigs" (setDumpFlag Opt_D_dump_strsigs) , defGhcFlag "ddump-tc" (setDumpFlag Opt_D_dump_tc) , defGhcFlag "ddump-types" (setDumpFlag Opt_D_dump_types) , defGhcFlag "ddump-rules" (setDumpFlag Opt_D_dump_rules) , defGhcFlag "ddump-cse" (setDumpFlag Opt_D_dump_cse) , defGhcFlag "ddump-worker-wrapper" (setDumpFlag Opt_D_dump_worker_wrapper) , defGhcFlag "ddump-rn-trace" (setDumpFlag Opt_D_dump_rn_trace) , defGhcFlag "ddump-if-trace" (setDumpFlag Opt_D_dump_if_trace) , defGhcFlag "ddump-cs-trace" (setDumpFlag Opt_D_dump_cs_trace) , defGhcFlag "ddump-tc-trace" (NoArg (do setDumpFlag' Opt_D_dump_tc_trace setDumpFlag' Opt_D_dump_cs_trace)) , defGhcFlag "ddump-vt-trace" (setDumpFlag Opt_D_dump_vt_trace) , defGhcFlag "ddump-splices" (setDumpFlag Opt_D_dump_splices) , defGhcFlag "dth-dec-file" (setDumpFlag Opt_D_th_dec_file) , defGhcFlag "ddump-rn-stats" (setDumpFlag Opt_D_dump_rn_stats) , defGhcFlag "ddump-opt-cmm" (setDumpFlag Opt_D_dump_opt_cmm) , defGhcFlag "ddump-simpl-stats" (setDumpFlag Opt_D_dump_simpl_stats) , defGhcFlag "ddump-bcos" (setDumpFlag Opt_D_dump_BCOs) , defGhcFlag "dsource-stats" (setDumpFlag Opt_D_source_stats) , defGhcFlag "dverbose-core2core" (NoArg (do setVerbosity (Just 2) setVerboseCore2Core)) , defGhcFlag "dverbose-stg2stg" (setDumpFlag Opt_D_verbose_stg2stg) , defGhcFlag "ddump-hi" (setDumpFlag Opt_D_dump_hi) , defGhcFlag "ddump-minimal-imports" (NoArg (setGeneralFlag Opt_D_dump_minimal_imports)) , defGhcFlag "ddump-vect" (setDumpFlag Opt_D_dump_vect) , defGhcFlag "ddump-hpc" (setDumpFlag Opt_D_dump_ticked) -- back compat , defGhcFlag "ddump-ticked" (setDumpFlag Opt_D_dump_ticked) , defGhcFlag "ddump-mod-cycles" (setDumpFlag Opt_D_dump_mod_cycles) , defGhcFlag "ddump-mod-map" (setDumpFlag Opt_D_dump_mod_map) , defGhcFlag "ddump-view-pattern-commoning" (setDumpFlag Opt_D_dump_view_pattern_commoning) , defGhcFlag "ddump-to-file" (NoArg (setGeneralFlag Opt_DumpToFile)) , defGhcFlag "ddump-hi-diffs" (setDumpFlag Opt_D_dump_hi_diffs) , defGhcFlag "ddump-rtti" (setDumpFlag Opt_D_dump_rtti) , defGhcFlag "dcore-lint" (NoArg (setGeneralFlag Opt_DoCoreLinting)) , defGhcFlag "dstg-lint" (NoArg (setGeneralFlag Opt_DoStgLinting)) , defGhcFlag "dcmm-lint" (NoArg (setGeneralFlag Opt_DoCmmLinting)) , defGhcFlag "dasm-lint" (NoArg (setGeneralFlag Opt_DoAsmLinting)) , defGhcFlag "dannot-lint" (NoArg (setGeneralFlag Opt_DoAnnotationLinting)) , defGhcFlag "dshow-passes" (NoArg (do forceRecompile setVerbosity $ Just 2)) , defGhcFlag "dfaststring-stats" (NoArg (setGeneralFlag Opt_D_faststring_stats)) , defGhcFlag "dno-llvm-mangler" (NoArg (setGeneralFlag Opt_NoLlvmMangler)) -- hidden flag , defGhcFlag "ddump-debug" (setDumpFlag Opt_D_dump_debug) ------ Machine dependant (-m) stuff --------------------------- , defGhcFlag "msse" (noArg (\d -> d{ sseVersion = Just SSE1 })) , defGhcFlag "msse2" (noArg (\d -> d{ sseVersion = Just SSE2 })) , defGhcFlag "msse3" (noArg (\d -> d{ sseVersion = Just SSE3 })) , defGhcFlag "msse4" (noArg (\d -> d{ sseVersion = Just SSE4 })) , defGhcFlag "msse4.2" (noArg (\d -> d{ sseVersion = Just SSE42 })) , defGhcFlag "mavx" (noArg (\d -> d{ avx = True })) , defGhcFlag "mavx2" (noArg (\d -> d{ avx2 = True })) , defGhcFlag "mavx512cd" (noArg (\d -> d{ avx512cd = True })) , defGhcFlag "mavx512er" (noArg (\d -> d{ avx512er = True })) , defGhcFlag "mavx512f" (noArg (\d -> d{ avx512f = True })) , defGhcFlag "mavx512pf" (noArg (\d -> d{ avx512pf = True })) ------ Warning opts ------------------------------------------------- , defFlag "W" (NoArg (mapM_ setWarningFlag minusWOpts)) , defFlag "Werror" (NoArg (setGeneralFlag Opt_WarnIsError)) , defFlag "Wwarn" (NoArg (unSetGeneralFlag Opt_WarnIsError)) , defFlag "Wall" (NoArg (mapM_ setWarningFlag minusWallOpts)) , defFlag "Wnot" (NoArg (do upd (\dfs -> dfs {warningFlags = IntSet.empty}) deprecate "Use -w instead")) , defFlag "w" (NoArg (upd (\dfs -> dfs {warningFlags = IntSet.empty}))) ------ Plugin flags ------------------------------------------------ , defGhcFlag "fplugin-opt" (hasArg addPluginModuleNameOption) , defGhcFlag "fplugin" (hasArg addPluginModuleName) ------ Optimisation flags ------------------------------------------ , defGhcFlag "O" (noArgM (setOptLevel 1)) , defGhcFlag "Onot" (noArgM (\dflags -> do deprecate "Use -O0 instead" setOptLevel 0 dflags)) , defGhcFlag "Odph" (noArgM setDPHOpt) , defGhcFlag "O" (optIntSuffixM (\mb_n -> setOptLevel (mb_n `orElse` 1))) -- If the number is missing, use 1 , defFlag "fmax-relevant-binds" (intSuffix (\n d -> d{ maxRelevantBinds = Just n })) , defFlag "fno-max-relevant-binds" (noArg (\d -> d{ maxRelevantBinds = Nothing })) , defFlag "fsimplifier-phases" (intSuffix (\n d -> d{ simplPhases = n })) , defFlag "fmax-simplifier-iterations" (intSuffix (\n d -> d{ maxSimplIterations = n })) , defFlag "fsimpl-tick-factor" (intSuffix (\n d -> d{ simplTickFactor = n })) , defFlag "fspec-constr-threshold" (intSuffix (\n d -> d{ specConstrThreshold = Just n })) , defFlag "fno-spec-constr-threshold" (noArg (\d -> d{ specConstrThreshold = Nothing })) , defFlag "fspec-constr-count" (intSuffix (\n d -> d{ specConstrCount = Just n })) , defFlag "fno-spec-constr-count" (noArg (\d -> d{ specConstrCount = Nothing })) , defFlag "fspec-constr-recursive" (intSuffix (\n d -> d{ specConstrRecursive = n })) , defFlag "fliberate-case-threshold" (intSuffix (\n d -> d{ liberateCaseThreshold = Just n })) , defFlag "fno-liberate-case-threshold" (noArg (\d -> d{ liberateCaseThreshold = Nothing })) , defFlag "frule-check" (sepArg (\s d -> d{ ruleCheck = Just s })) , defFlag "freduction-depth" (intSuffix (\n d -> d{ reductionDepth = treatZeroAsInf n })) , defFlag "fconstraint-solver-iterations" (intSuffix (\n d -> d{ solverIterations = treatZeroAsInf n })) , defFlag "fcontext-stack" (intSuffixM (\n d -> do { deprecate $ "use -freduction-depth=" ++ show n ++ " instead" ; return $ d{ reductionDepth = treatZeroAsInf n } })) , defFlag "ftype-function-depth" (intSuffixM (\n d -> do { deprecate $ "use -freduction-depth=" ++ show n ++ " instead" ; return $ d{ reductionDepth = treatZeroAsInf n } })) , defFlag "fstrictness-before" (intSuffix (\n d -> d{ strictnessBefore = n : strictnessBefore d })) , defFlag "ffloat-lam-args" (intSuffix (\n d -> d{ floatLamArgs = Just n })) , defFlag "ffloat-all-lams" (noArg (\d -> d{ floatLamArgs = Nothing })) , defFlag "fhistory-size" (intSuffix (\n d -> d{ historySize = n })) , defFlag "funfolding-creation-threshold" (intSuffix (\n d -> d {ufCreationThreshold = n})) , defFlag "funfolding-use-threshold" (intSuffix (\n d -> d {ufUseThreshold = n})) , defFlag "funfolding-fun-discount" (intSuffix (\n d -> d {ufFunAppDiscount = n})) , defFlag "funfolding-dict-discount" (intSuffix (\n d -> d {ufDictDiscount = n})) , defFlag "funfolding-keeness-factor" (floatSuffix (\n d -> d {ufKeenessFactor = n})) , defFlag "fmax-worker-args" (intSuffix (\n d -> d {maxWorkerArgs = n})) , defGhciFlag "fghci-hist-size" (intSuffix (\n d -> d {ghciHistSize = n})) , defGhcFlag "fmax-inline-alloc-size" (intSuffix (\n d -> d{ maxInlineAllocSize = n })) , defGhcFlag "fmax-inline-memcpy-insns" (intSuffix (\n d -> d{ maxInlineMemcpyInsns = n })) , defGhcFlag "fmax-inline-memset-insns" (intSuffix (\n d -> d{ maxInlineMemsetInsns = n })) ------ Profiling ---------------------------------------------------- -- OLD profiling flags , defGhcFlag "auto-all" (noArg (\d -> d { profAuto = ProfAutoAll } )) , defGhcFlag "no-auto-all" (noArg (\d -> d { profAuto = NoProfAuto } )) , defGhcFlag "auto" (noArg (\d -> d { profAuto = ProfAutoExports } )) , defGhcFlag "no-auto" (noArg (\d -> d { profAuto = NoProfAuto } )) , defGhcFlag "caf-all" (NoArg (setGeneralFlag Opt_AutoSccsOnIndividualCafs)) , defGhcFlag "no-caf-all" (NoArg (unSetGeneralFlag Opt_AutoSccsOnIndividualCafs)) -- NEW profiling flags , defGhcFlag "fprof-auto" (noArg (\d -> d { profAuto = ProfAutoAll } )) , defGhcFlag "fprof-auto-top" (noArg (\d -> d { profAuto = ProfAutoTop } )) , defGhcFlag "fprof-auto-exported" (noArg (\d -> d { profAuto = ProfAutoExports } )) , defGhcFlag "fprof-auto-calls" (noArg (\d -> d { profAuto = ProfAutoCalls } )) , defGhcFlag "fno-prof-auto" (noArg (\d -> d { profAuto = NoProfAuto } )) ------ Compiler flags ----------------------------------------------- , defGhcFlag "fasm" (NoArg (setObjTarget HscAsm)) , defGhcFlag "fvia-c" (NoArg (addWarn $ "The -fvia-c flag does nothing; " ++ "it will be removed in a future GHC release")) , defGhcFlag "fvia-C" (NoArg (addWarn $ "The -fvia-C flag does nothing; " ++ "it will be removed in a future GHC release")) , defGhcFlag "fllvm" (NoArg (setObjTarget HscLlvm)) , defFlag "fno-code" (NoArg (do upd $ \d -> d{ ghcLink=NoLink } setTarget HscNothing)) , defFlag "fbyte-code" (NoArg (setTarget HscInterpreted)) , defFlag "fobject-code" (NoArg (setTargetWithPlatform defaultHscTarget)) , defFlag "fglasgow-exts" (NoArg (do enableGlasgowExts deprecate "Use individual extensions instead")) , defFlag "fno-glasgow-exts" (NoArg (do disableGlasgowExts deprecate "Use individual extensions instead")) , defFlag "fwarn-unused-binds" (NoArg enableUnusedBinds) , defFlag "fno-warn-unused-binds" (NoArg disableUnusedBinds) ------ Safe Haskell flags ------------------------------------------- , defFlag "fpackage-trust" (NoArg setPackageTrust) , defFlag "fno-safe-infer" (noArg (\d -> d { safeInfer = False } )) , defGhcFlag "fPIC" (NoArg (setGeneralFlag Opt_PIC)) , defGhcFlag "fno-PIC" (NoArg (unSetGeneralFlag Opt_PIC)) ------ Debugging flags ---------------------------------------------- , defGhcFlag "g" (NoArg (setGeneralFlag Opt_Debug)) ] ++ map (mkFlag turnOn "" setGeneralFlag ) negatableFlags ++ map (mkFlag turnOff "no-" unSetGeneralFlag) negatableFlags ++ map (mkFlag turnOn "d" setGeneralFlag ) dFlags ++ map (mkFlag turnOff "dno-" unSetGeneralFlag) dFlags ++ map (mkFlag turnOn "f" setGeneralFlag ) fFlags ++ map (mkFlag turnOff "fno-" unSetGeneralFlag) fFlags ++ map (mkFlag turnOn "f" setWarningFlag ) fWarningFlags ++ map (mkFlag turnOff "fno-" unSetWarningFlag) fWarningFlags ++ map (mkFlag turnOn "f" setExtensionFlag ) fLangFlags ++ map (mkFlag turnOff "fno-" unSetExtensionFlag) fLangFlags ++ map (mkFlag turnOn "X" setExtensionFlag ) xFlags ++ map (mkFlag turnOff "XNo" unSetExtensionFlag) xFlags ++ map (mkFlag turnOn "X" setLanguage) languageFlags ++ map (mkFlag turnOn "X" setSafeHaskell) safeHaskellFlags ++ [ defFlag "XGenerics" (NoArg (deprecate $ "it does nothing; look into -XDefaultSignatures " ++ "and -XDeriveGeneric for generic programming support.")) , defFlag "XNoGenerics" (NoArg (deprecate $ "it does nothing; look into -XDefaultSignatures and " ++ "-XDeriveGeneric for generic programming support.")) ] -- See Note [Supporting CLI completion] package_flags :: [Flag (CmdLineP DynFlags)] package_flags = [ ------- Packages ---------------------------------------------------- defFlag "package-db" (HasArg (addPkgConfRef . PkgConfFile)) , defFlag "clear-package-db" (NoArg clearPkgConf) , defFlag "no-global-package-db" (NoArg removeGlobalPkgConf) , defFlag "no-user-package-db" (NoArg removeUserPkgConf) , defFlag "global-package-db" (NoArg (addPkgConfRef GlobalPkgConf)) , defFlag "user-package-db" (NoArg (addPkgConfRef UserPkgConf)) -- backwards compat with GHC<=7.4 : , defFlag "package-conf" (HasArg $ \path -> do addPkgConfRef (PkgConfFile path) deprecate "Use -package-db instead") , defFlag "no-user-package-conf" (NoArg $ do removeUserPkgConf deprecate "Use -no-user-package-db instead") , defGhcFlag "package-name" (HasArg $ \name -> do upd (setPackageKey name) deprecate "Use -this-package-key instead") , defGhcFlag "this-package-key" (hasArg setPackageKey) , defGhcFlag "library-name" (hasArg setLibraryName) , defFlag "package-id" (HasArg exposePackageId) , defFlag "package" (HasArg exposePackage) , defFlag "package-key" (HasArg exposePackageKey) , defFlag "hide-package" (HasArg hidePackage) , defFlag "hide-all-packages" (NoArg (setGeneralFlag Opt_HideAllPackages)) , defFlag "package-env" (HasArg setPackageEnv) , defFlag "ignore-package" (HasArg ignorePackage) , defFlag "syslib" (HasArg (\s -> do exposePackage s deprecate "Use -package instead")) , defFlag "distrust-all-packages" (NoArg (setGeneralFlag Opt_DistrustAllPackages)) , defFlag "trust" (HasArg trustPackage) , defFlag "distrust" (HasArg distrustPackage) ] where setPackageEnv env = upd $ \s -> s { packageEnv = Just env } -- | Make a list of flags for shell completion. -- Filter all available flags into two groups, for interactive GHC vs all other. flagsForCompletion :: Bool -> [String] flagsForCompletion isInteractive = [ '-':flagName flag | flag <- flagsAll , modeFilter (flagGhcMode flag) ] where modeFilter AllModes = True modeFilter OnlyGhci = isInteractive modeFilter OnlyGhc = not isInteractive modeFilter HiddenFlag = False type TurnOnFlag = Bool -- True <=> we are turning the flag on -- False <=> we are turning the flag off turnOn :: TurnOnFlag; turnOn = True turnOff :: TurnOnFlag; turnOff = False data FlagSpec flag = FlagSpec { flagSpecName :: String -- ^ Flag in string form , flagSpecFlag :: flag -- ^ Flag in internal form , flagSpecAction :: (TurnOnFlag -> DynP ()) -- ^ Extra action to run when the flag is found -- Typically, emit a warning or error , flagSpecGhcMode :: GhcFlagMode -- ^ In which ghc mode the flag has effect } -- | Define a new flag. flagSpec :: String -> flag -> FlagSpec flag flagSpec name flag = flagSpec' name flag nop -- | Define a new flag with an effect. flagSpec' :: String -> flag -> (TurnOnFlag -> DynP ()) -> FlagSpec flag flagSpec' name flag act = FlagSpec name flag act AllModes -- | Define a new flag for GHCi. flagGhciSpec :: String -> flag -> FlagSpec flag flagGhciSpec name flag = flagGhciSpec' name flag nop -- | Define a new flag for GHCi with an effect. flagGhciSpec' :: String -> flag -> (TurnOnFlag -> DynP ()) -> FlagSpec flag flagGhciSpec' name flag act = FlagSpec name flag act OnlyGhci -- | Define a new flag invisible to CLI completion. flagHiddenSpec :: String -> flag -> FlagSpec flag flagHiddenSpec name flag = flagHiddenSpec' name flag nop -- | Define a new flag invisible to CLI completion with an effect. flagHiddenSpec' :: String -> flag -> (TurnOnFlag -> DynP ()) -> FlagSpec flag flagHiddenSpec' name flag act = FlagSpec name flag act HiddenFlag mkFlag :: TurnOnFlag -- ^ True <=> it should be turned on -> String -- ^ The flag prefix -> (flag -> DynP ()) -- ^ What to do when the flag is found -> FlagSpec flag -- ^ Specification of this particular flag -> Flag (CmdLineP DynFlags) mkFlag turn_on flagPrefix f (FlagSpec name flag extra_action mode) = Flag (flagPrefix ++ name) (NoArg (f flag >> extra_action turn_on)) mode deprecatedForExtension :: String -> TurnOnFlag -> DynP () deprecatedForExtension lang turn_on = deprecate ("use -X" ++ flag ++ " or pragma {-# LANGUAGE " ++ flag ++ " #-} instead") where flag | turn_on = lang | otherwise = "No"++lang useInstead :: String -> TurnOnFlag -> DynP () useInstead flag turn_on = deprecate ("Use -f" ++ no ++ flag ++ " instead") where no = if turn_on then "" else "no-" nop :: TurnOnFlag -> DynP () nop _ = return () -- | These @-f\@ flags can all be reversed with @-fno-\@ fWarningFlags :: [FlagSpec WarningFlag] fWarningFlags = [ -- See Note [Updating flag description in the User's Guide] -- See Note [Supporting CLI completion] -- Please keep the list of flags below sorted alphabetically flagSpec "warn-alternative-layout-rule-transitional" Opt_WarnAlternativeLayoutRuleTransitional, flagSpec' "warn-amp" Opt_WarnAMP (\_ -> deprecate "it has no effect, and will be removed in GHC 7.12"), flagSpec "warn-auto-orphans" Opt_WarnAutoOrphans, flagSpec "warn-deferred-type-errors" Opt_WarnDeferredTypeErrors, flagSpec "warn-deprecations" Opt_WarnWarningsDeprecations, flagSpec "warn-deprecated-flags" Opt_WarnDeprecatedFlags, flagSpec "warn-deriving-typeable" Opt_WarnDerivingTypeable, flagSpec "warn-dodgy-exports" Opt_WarnDodgyExports, flagSpec "warn-dodgy-foreign-imports" Opt_WarnDodgyForeignImports, flagSpec "warn-dodgy-imports" Opt_WarnDodgyImports, flagSpec "warn-empty-enumerations" Opt_WarnEmptyEnumerations, flagSpec "warn-context-quantification" Opt_WarnContextQuantification, flagSpec' "warn-duplicate-constraints" Opt_WarnDuplicateConstraints (\_ -> deprecate "it is subsumed by -fwarn-redundant-constraints"), flagSpec "warn-redundant-constraints" Opt_WarnRedundantConstraints, flagSpec "warn-duplicate-exports" Opt_WarnDuplicateExports, flagSpec "warn-hi-shadowing" Opt_WarnHiShadows, flagSpec "warn-implicit-prelude" Opt_WarnImplicitPrelude, flagSpec "warn-incomplete-patterns" Opt_WarnIncompletePatterns, flagSpec "warn-incomplete-record-updates" Opt_WarnIncompletePatternsRecUpd, flagSpec "warn-incomplete-uni-patterns" Opt_WarnIncompleteUniPatterns, flagSpec "warn-inline-rule-shadowing" Opt_WarnInlineRuleShadowing, flagSpec "warn-identities" Opt_WarnIdentities, flagSpec "warn-missing-fields" Opt_WarnMissingFields, flagSpec "warn-missing-import-lists" Opt_WarnMissingImportList, flagSpec "warn-missing-local-sigs" Opt_WarnMissingLocalSigs, flagSpec "warn-missing-methods" Opt_WarnMissingMethods, flagSpec "warn-missing-signatures" Opt_WarnMissingSigs, flagSpec "warn-missing-exported-sigs" Opt_WarnMissingExportedSigs, flagSpec "warn-monomorphism-restriction" Opt_WarnMonomorphism, flagSpec "warn-name-shadowing" Opt_WarnNameShadowing, flagSpec "warn-orphans" Opt_WarnOrphans, flagSpec "warn-overflowed-literals" Opt_WarnOverflowedLiterals, flagSpec "warn-overlapping-patterns" Opt_WarnOverlappingPatterns, flagSpec "warn-missed-specialisations" Opt_WarnMissedSpecs, flagSpec "warn-all-missed-specialisations" Opt_WarnAllMissedSpecs, flagSpec' "warn-safe" Opt_WarnSafe setWarnSafe, flagSpec "warn-trustworthy-safe" Opt_WarnTrustworthySafe, flagSpec "warn-tabs" Opt_WarnTabs, flagSpec "warn-type-defaults" Opt_WarnTypeDefaults, flagSpec "warn-typed-holes" Opt_WarnTypedHoles, flagSpec "warn-partial-type-signatures" Opt_WarnPartialTypeSignatures, flagSpec "warn-unrecognised-pragmas" Opt_WarnUnrecognisedPragmas, flagSpec' "warn-unsafe" Opt_WarnUnsafe setWarnUnsafe, flagSpec "warn-unsupported-calling-conventions" Opt_WarnUnsupportedCallingConventions, flagSpec "warn-unsupported-llvm-version" Opt_WarnUnsupportedLlvmVersion, flagSpec "warn-unticked-promoted-constructors" Opt_WarnUntickedPromotedConstructors, flagSpec "warn-unused-do-bind" Opt_WarnUnusedDoBind, flagSpec "warn-unused-imports" Opt_WarnUnusedImports, flagSpec "warn-unused-local-binds" Opt_WarnUnusedLocalBinds, flagSpec "warn-unused-matches" Opt_WarnUnusedMatches, flagSpec "warn-unused-pattern-binds" Opt_WarnUnusedPatternBinds, flagSpec "warn-unused-top-binds" Opt_WarnUnusedTopBinds, flagSpec "warn-warnings-deprecations" Opt_WarnWarningsDeprecations, flagSpec "warn-wrong-do-bind" Opt_WarnWrongDoBind] -- | These @-\@ flags can all be reversed with @-no-\@ negatableFlags :: [FlagSpec GeneralFlag] negatableFlags = [ flagGhciSpec "ignore-dot-ghci" Opt_IgnoreDotGhci ] -- | These @-d\@ flags can all be reversed with @-dno-\@ dFlags :: [FlagSpec GeneralFlag] dFlags = [ -- See Note [Updating flag description in the User's Guide] -- See Note [Supporting CLI completion] -- Please keep the list of flags below sorted alphabetically flagSpec "ppr-case-as-let" Opt_PprCaseAsLet, flagSpec "ppr-ticks" Opt_PprShowTicks, flagSpec "suppress-coercions" Opt_SuppressCoercions, flagSpec "suppress-idinfo" Opt_SuppressIdInfo, flagSpec "suppress-unfoldings" Opt_SuppressUnfoldings, flagSpec "suppress-module-prefixes" Opt_SuppressModulePrefixes, flagSpec "suppress-type-applications" Opt_SuppressTypeApplications, flagSpec "suppress-type-signatures" Opt_SuppressTypeSignatures, flagSpec "suppress-uniques" Opt_SuppressUniques, flagSpec "suppress-var-kinds" Opt_SuppressVarKinds] -- | These @-f\@ flags can all be reversed with @-fno-\@ fFlags :: [FlagSpec GeneralFlag] fFlags = [ -- See Note [Updating flag description in the User's Guide] -- See Note [Supporting CLI completion] -- Please keep the list of flags below sorted alphabetically flagGhciSpec "break-on-error" Opt_BreakOnError, flagGhciSpec "break-on-exception" Opt_BreakOnException, flagSpec "building-cabal-package" Opt_BuildingCabalPackage, flagSpec "call-arity" Opt_CallArity, flagSpec "case-merge" Opt_CaseMerge, flagSpec "cmm-elim-common-blocks" Opt_CmmElimCommonBlocks, flagSpec "cmm-sink" Opt_CmmSink, flagSpec "cse" Opt_CSE, flagSpec "cpr-anal" Opt_CprAnal, flagSpec "defer-type-errors" Opt_DeferTypeErrors, flagSpec "defer-typed-holes" Opt_DeferTypedHoles, flagSpec "dicts-cheap" Opt_DictsCheap, flagSpec "dicts-strict" Opt_DictsStrict, flagSpec "dmd-tx-dict-sel" Opt_DmdTxDictSel, flagSpec "do-eta-reduction" Opt_DoEtaReduction, flagSpec "do-lambda-eta-expansion" Opt_DoLambdaEtaExpansion, flagSpec "eager-blackholing" Opt_EagerBlackHoling, flagSpec "embed-manifest" Opt_EmbedManifest, flagSpec "enable-rewrite-rules" Opt_EnableRewriteRules, flagSpec "error-spans" Opt_ErrorSpans, flagSpec "excess-precision" Opt_ExcessPrecision, flagSpec "expose-all-unfoldings" Opt_ExposeAllUnfoldings, flagSpec "flat-cache" Opt_FlatCache, flagSpec "float-in" Opt_FloatIn, flagSpec "force-recomp" Opt_ForceRecomp, flagSpec "full-laziness" Opt_FullLaziness, flagSpec "fun-to-thunk" Opt_FunToThunk, flagSpec "gen-manifest" Opt_GenManifest, flagSpec "ghci-history" Opt_GhciHistory, flagSpec "ghci-sandbox" Opt_GhciSandbox, flagSpec "helpful-errors" Opt_HelpfulErrors, flagSpec "hpc" Opt_Hpc, flagSpec "ignore-asserts" Opt_IgnoreAsserts, flagSpec "ignore-interface-pragmas" Opt_IgnoreInterfacePragmas, flagGhciSpec "implicit-import-qualified" Opt_ImplicitImportQualified, flagSpec "irrefutable-tuples" Opt_IrrefutableTuples, flagSpec "kill-absence" Opt_KillAbsence, flagSpec "kill-one-shot" Opt_KillOneShot, flagSpec "late-dmd-anal" Opt_LateDmdAnal, flagSpec "liberate-case" Opt_LiberateCase, flagHiddenSpec "llvm-pass-vectors-in-regs" Opt_LlvmPassVectorsInRegisters, flagHiddenSpec "llvm-tbaa" Opt_LlvmTBAA, flagSpec "loopification" Opt_Loopification, flagSpec "omit-interface-pragmas" Opt_OmitInterfacePragmas, flagSpec "omit-yields" Opt_OmitYields, flagSpec "pedantic-bottoms" Opt_PedanticBottoms, flagSpec "pre-inlining" Opt_SimplPreInlining, flagGhciSpec "print-bind-contents" Opt_PrintBindContents, flagGhciSpec "print-bind-result" Opt_PrintBindResult, flagGhciSpec "print-evld-with-show" Opt_PrintEvldWithShow, flagSpec "print-explicit-foralls" Opt_PrintExplicitForalls, flagSpec "print-explicit-kinds" Opt_PrintExplicitKinds, flagSpec "print-unicode-syntax" Opt_PrintUnicodeSyntax, flagSpec "print-expanded-synonyms" Opt_PrintExpandedSynonyms, flagSpec "print-potential-instances" Opt_PrintPotentialInstances, flagSpec "prof-cafs" Opt_AutoSccsOnIndividualCafs, flagSpec "prof-count-entries" Opt_ProfCountEntries, flagSpec "regs-graph" Opt_RegsGraph, flagSpec "regs-iterative" Opt_RegsIterative, flagSpec' "rewrite-rules" Opt_EnableRewriteRules (useInstead "enable-rewrite-rules"), flagSpec "shared-implib" Opt_SharedImplib, flagSpec "simple-list-literals" Opt_SimpleListLiterals, flagSpec "spec-constr" Opt_SpecConstr, flagSpec "specialise" Opt_Specialise, flagSpec "specialise-aggressively" Opt_SpecialiseAggressively, flagSpec "cross-module-specialise" Opt_CrossModuleSpecialise, flagSpec "static-argument-transformation" Opt_StaticArgumentTransformation, flagSpec "strictness" Opt_Strictness, flagSpec "use-rpaths" Opt_RPath, flagSpec "write-interface" Opt_WriteInterface, flagSpec "unbox-small-strict-fields" Opt_UnboxSmallStrictFields, flagSpec "unbox-strict-fields" Opt_UnboxStrictFields, flagSpec "vectorisation-avoidance" Opt_VectorisationAvoidance, flagSpec "vectorise" Opt_Vectorise ] -- | These @-f\@ flags can all be reversed with @-fno-\@ fLangFlags :: [FlagSpec ExtensionFlag] fLangFlags = [ -- See Note [Updating flag description in the User's Guide] -- See Note [Supporting CLI completion] flagSpec' "th" Opt_TemplateHaskell (\on -> deprecatedForExtension "TemplateHaskell" on >> setTemplateHaskellLoc on), flagSpec' "fi" Opt_ForeignFunctionInterface (deprecatedForExtension "ForeignFunctionInterface"), flagSpec' "ffi" Opt_ForeignFunctionInterface (deprecatedForExtension "ForeignFunctionInterface"), flagSpec' "arrows" Opt_Arrows (deprecatedForExtension "Arrows"), flagSpec' "implicit-prelude" Opt_ImplicitPrelude (deprecatedForExtension "ImplicitPrelude"), flagSpec' "bang-patterns" Opt_BangPatterns (deprecatedForExtension "BangPatterns"), flagSpec' "monomorphism-restriction" Opt_MonomorphismRestriction (deprecatedForExtension "MonomorphismRestriction"), flagSpec' "mono-pat-binds" Opt_MonoPatBinds (deprecatedForExtension "MonoPatBinds"), flagSpec' "extended-default-rules" Opt_ExtendedDefaultRules (deprecatedForExtension "ExtendedDefaultRules"), flagSpec' "implicit-params" Opt_ImplicitParams (deprecatedForExtension "ImplicitParams"), flagSpec' "scoped-type-variables" Opt_ScopedTypeVariables (deprecatedForExtension "ScopedTypeVariables"), flagSpec' "parr" Opt_ParallelArrays (deprecatedForExtension "ParallelArrays"), flagSpec' "PArr" Opt_ParallelArrays (deprecatedForExtension "ParallelArrays"), flagSpec' "allow-overlapping-instances" Opt_OverlappingInstances (deprecatedForExtension "OverlappingInstances"), flagSpec' "allow-undecidable-instances" Opt_UndecidableInstances (deprecatedForExtension "UndecidableInstances"), flagSpec' "allow-incoherent-instances" Opt_IncoherentInstances (deprecatedForExtension "IncoherentInstances") ] supportedLanguages :: [String] supportedLanguages = map flagSpecName languageFlags supportedLanguageOverlays :: [String] supportedLanguageOverlays = map flagSpecName safeHaskellFlags supportedExtensions :: [String] supportedExtensions = concatMap (\name -> [name, "No" ++ name]) (map flagSpecName xFlags) supportedLanguagesAndExtensions :: [String] supportedLanguagesAndExtensions = supportedLanguages ++ supportedLanguageOverlays ++ supportedExtensions -- | These -X flags cannot be reversed with -XNo languageFlags :: [FlagSpec Language] languageFlags = [ flagSpec "Haskell98" Haskell98, flagSpec "Haskell2010" Haskell2010 ] -- | These -X flags cannot be reversed with -XNo -- They are used to place hard requirements on what GHC Haskell language -- features can be used. safeHaskellFlags :: [FlagSpec SafeHaskellMode] safeHaskellFlags = [mkF Sf_Unsafe, mkF Sf_Trustworthy, mkF Sf_Safe] where mkF flag = flagSpec (show flag) flag -- | These -X flags can all be reversed with -XNo xFlags :: [FlagSpec ExtensionFlag] xFlags = [ -- See Note [Updating flag description in the User's Guide] -- See Note [Supporting CLI completion] -- Please keep the list of flags below sorted alphabetically flagSpec "AllowAmbiguousTypes" Opt_AllowAmbiguousTypes, flagSpec "AlternativeLayoutRule" Opt_AlternativeLayoutRule, flagSpec "AlternativeLayoutRuleTransitional" Opt_AlternativeLayoutRuleTransitional, flagSpec "Arrows" Opt_Arrows, flagSpec "AutoDeriveTypeable" Opt_AutoDeriveTypeable, flagSpec "BangPatterns" Opt_BangPatterns, flagSpec "BinaryLiterals" Opt_BinaryLiterals, flagSpec "CApiFFI" Opt_CApiFFI, flagSpec "CPP" Opt_Cpp, flagSpec "ConstrainedClassMethods" Opt_ConstrainedClassMethods, flagSpec "ConstraintKinds" Opt_ConstraintKinds, flagSpec "DataKinds" Opt_DataKinds, flagSpec' "DatatypeContexts" Opt_DatatypeContexts (\ turn_on -> when turn_on $ deprecate $ "It was widely considered a misfeature, " ++ "and has been removed from the Haskell language."), flagSpec "DefaultSignatures" Opt_DefaultSignatures, flagSpec "DeriveAnyClass" Opt_DeriveAnyClass, flagSpec "DeriveDataTypeable" Opt_DeriveDataTypeable, flagSpec "DeriveFoldable" Opt_DeriveFoldable, flagSpec "DeriveFunctor" Opt_DeriveFunctor, flagSpec "DeriveGeneric" Opt_DeriveGeneric, flagSpec "DeriveTraversable" Opt_DeriveTraversable, flagSpec "DisambiguateRecordFields" Opt_DisambiguateRecordFields, flagSpec "DoAndIfThenElse" Opt_DoAndIfThenElse, flagSpec' "DoRec" Opt_RecursiveDo (deprecatedForExtension "RecursiveDo"), flagSpec "EmptyCase" Opt_EmptyCase, flagSpec "EmptyDataDecls" Opt_EmptyDataDecls, flagSpec "ExistentialQuantification" Opt_ExistentialQuantification, flagSpec "ExplicitForAll" Opt_ExplicitForAll, flagSpec "ExplicitNamespaces" Opt_ExplicitNamespaces, flagSpec "ExtendedDefaultRules" Opt_ExtendedDefaultRules, flagSpec "FlexibleContexts" Opt_FlexibleContexts, flagSpec "FlexibleInstances" Opt_FlexibleInstances, flagSpec "ForeignFunctionInterface" Opt_ForeignFunctionInterface, flagSpec "FunctionalDependencies" Opt_FunctionalDependencies, flagSpec "GADTSyntax" Opt_GADTSyntax, flagSpec "GADTs" Opt_GADTs, flagSpec "GHCForeignImportPrim" Opt_GHCForeignImportPrim, flagSpec' "GeneralizedNewtypeDeriving" Opt_GeneralizedNewtypeDeriving setGenDeriving, flagSpec "ImplicitParams" Opt_ImplicitParams, flagSpec "ImplicitPrelude" Opt_ImplicitPrelude, flagSpec "ImpredicativeTypes" Opt_ImpredicativeTypes, flagSpec' "IncoherentInstances" Opt_IncoherentInstances setIncoherentInsts, flagSpec "InstanceSigs" Opt_InstanceSigs, flagSpec "InterruptibleFFI" Opt_InterruptibleFFI, flagSpec "JavaScriptFFI" Opt_JavaScriptFFI, flagSpec "KindSignatures" Opt_KindSignatures, flagSpec "LambdaCase" Opt_LambdaCase, flagSpec "LiberalTypeSynonyms" Opt_LiberalTypeSynonyms, flagSpec "MagicHash" Opt_MagicHash, flagSpec "MonadComprehensions" Opt_MonadComprehensions, flagSpec "MonoLocalBinds" Opt_MonoLocalBinds, flagSpec' "MonoPatBinds" Opt_MonoPatBinds (\ turn_on -> when turn_on $ deprecate "Experimental feature now removed; has no effect"), flagSpec "MonomorphismRestriction" Opt_MonomorphismRestriction, flagSpec "MultiParamTypeClasses" Opt_MultiParamTypeClasses, flagSpec "MultiWayIf" Opt_MultiWayIf, flagSpec "NPlusKPatterns" Opt_NPlusKPatterns, flagSpec "NamedFieldPuns" Opt_RecordPuns, flagSpec "NamedWildCards" Opt_NamedWildCards, flagSpec "NegativeLiterals" Opt_NegativeLiterals, flagSpec "NondecreasingIndentation" Opt_NondecreasingIndentation, flagSpec' "NullaryTypeClasses" Opt_NullaryTypeClasses (deprecatedForExtension "MultiParamTypeClasses"), flagSpec "NumDecimals" Opt_NumDecimals, flagSpec' "OverlappingInstances" Opt_OverlappingInstances setOverlappingInsts, flagSpec "OverloadedLists" Opt_OverloadedLists, flagSpec "OverloadedStrings" Opt_OverloadedStrings, flagSpec "PackageImports" Opt_PackageImports, flagSpec "ParallelArrays" Opt_ParallelArrays, flagSpec "ParallelListComp" Opt_ParallelListComp, flagSpec "PartialTypeSignatures" Opt_PartialTypeSignatures, flagSpec "PatternGuards" Opt_PatternGuards, flagSpec' "PatternSignatures" Opt_ScopedTypeVariables (deprecatedForExtension "ScopedTypeVariables"), flagSpec "PatternSynonyms" Opt_PatternSynonyms, flagSpec "PolyKinds" Opt_PolyKinds, flagSpec "PolymorphicComponents" Opt_RankNTypes, flagSpec "PostfixOperators" Opt_PostfixOperators, flagSpec "QuasiQuotes" Opt_QuasiQuotes, flagSpec "Rank2Types" Opt_RankNTypes, flagSpec "RankNTypes" Opt_RankNTypes, flagSpec "RebindableSyntax" Opt_RebindableSyntax, flagSpec' "RecordPuns" Opt_RecordPuns (deprecatedForExtension "NamedFieldPuns"), flagSpec "RecordWildCards" Opt_RecordWildCards, flagSpec "RecursiveDo" Opt_RecursiveDo, flagSpec "RelaxedLayout" Opt_RelaxedLayout, flagSpec' "RelaxedPolyRec" Opt_RelaxedPolyRec (\ turn_on -> unless turn_on $ deprecate "You can't turn off RelaxedPolyRec any more"), flagSpec "RoleAnnotations" Opt_RoleAnnotations, flagSpec "ScopedTypeVariables" Opt_ScopedTypeVariables, flagSpec "StandaloneDeriving" Opt_StandaloneDeriving, flagSpec "StaticPointers" Opt_StaticPointers, flagSpec "StrictData" Opt_StrictData, flagSpec' "TemplateHaskell" Opt_TemplateHaskell setTemplateHaskellLoc, flagSpec "TraditionalRecordSyntax" Opt_TraditionalRecordSyntax, flagSpec "TransformListComp" Opt_TransformListComp, flagSpec "TupleSections" Opt_TupleSections, flagSpec "TypeFamilies" Opt_TypeFamilies, flagSpec "TypeOperators" Opt_TypeOperators, flagSpec "TypeSynonymInstances" Opt_TypeSynonymInstances, flagSpec "UnboxedTuples" Opt_UnboxedTuples, flagSpec "UndecidableInstances" Opt_UndecidableInstances, flagSpec "UnicodeSyntax" Opt_UnicodeSyntax, flagSpec "UnliftedFFITypes" Opt_UnliftedFFITypes, flagSpec "ViewPatterns" Opt_ViewPatterns ] defaultFlags :: Settings -> [GeneralFlag] defaultFlags settings -- See Note [Updating flag description in the User's Guide] = [ Opt_AutoLinkPackages, Opt_EmbedManifest, Opt_FlatCache, Opt_GenManifest, Opt_GhciHistory, Opt_GhciSandbox, Opt_HelpfulErrors, Opt_OmitYields, Opt_PrintBindContents, Opt_ProfCountEntries, Opt_RPath, Opt_SharedImplib, Opt_SimplPreInlining ] ++ [f | (ns,f) <- optLevelFlags, 0 `elem` ns] -- The default -O0 options ++ default_PIC platform ++ (if pc_DYNAMIC_BY_DEFAULT (sPlatformConstants settings) then wayGeneralFlags platform WayDyn else [Opt_Static]) -- Opt_Static needs to be set if and only if WayDyn is not used (#7478) where platform = sTargetPlatform settings default_PIC :: Platform -> [GeneralFlag] default_PIC platform = case (platformOS platform, platformArch platform) of (OSDarwin, ArchX86_64) -> [Opt_PIC] (OSOpenBSD, ArchX86_64) -> [Opt_PIC] -- Due to PIE support in -- OpenBSD since 5.3 release -- (1 May 2013) we need to -- always generate PIC. See -- #10597 for more -- information. _ -> [] impliedGFlags :: [(GeneralFlag, TurnOnFlag, GeneralFlag)] impliedGFlags = [(Opt_DeferTypeErrors, turnOn, Opt_DeferTypedHoles)] impliedXFlags :: [(ExtensionFlag, TurnOnFlag, ExtensionFlag)] impliedXFlags -- See Note [Updating flag description in the User's Guide] = [ (Opt_RankNTypes, turnOn, Opt_ExplicitForAll) , (Opt_ScopedTypeVariables, turnOn, Opt_ExplicitForAll) , (Opt_LiberalTypeSynonyms, turnOn, Opt_ExplicitForAll) , (Opt_ExistentialQuantification, turnOn, Opt_ExplicitForAll) , (Opt_FlexibleInstances, turnOn, Opt_TypeSynonymInstances) , (Opt_FunctionalDependencies, turnOn, Opt_MultiParamTypeClasses) , (Opt_MultiParamTypeClasses, turnOn, Opt_ConstrainedClassMethods) -- c.f. Trac #7854 , (Opt_RebindableSyntax, turnOff, Opt_ImplicitPrelude) -- NB: turn off! , (Opt_GADTs, turnOn, Opt_GADTSyntax) , (Opt_GADTs, turnOn, Opt_MonoLocalBinds) , (Opt_TypeFamilies, turnOn, Opt_MonoLocalBinds) , (Opt_TypeFamilies, turnOn, Opt_KindSignatures) -- Type families use kind signatures , (Opt_PolyKinds, turnOn, Opt_KindSignatures) -- Ditto polymorphic kinds -- AutoDeriveTypeable is not very useful without DeriveDataTypeable , (Opt_AutoDeriveTypeable, turnOn, Opt_DeriveDataTypeable) -- We turn this on so that we can export associated type -- type synonyms in subordinates (e.g. MyClass(type AssocType)) , (Opt_TypeFamilies, turnOn, Opt_ExplicitNamespaces) , (Opt_TypeOperators, turnOn, Opt_ExplicitNamespaces) , (Opt_ImpredicativeTypes, turnOn, Opt_RankNTypes) -- Record wild-cards implies field disambiguation -- Otherwise if you write (C {..}) you may well get -- stuff like " 'a' not in scope ", which is a bit silly -- if the compiler has just filled in field 'a' of constructor 'C' , (Opt_RecordWildCards, turnOn, Opt_DisambiguateRecordFields) , (Opt_ParallelArrays, turnOn, Opt_ParallelListComp) , (Opt_JavaScriptFFI, turnOn, Opt_InterruptibleFFI) , (Opt_DeriveTraversable, turnOn, Opt_DeriveFunctor) , (Opt_DeriveTraversable, turnOn, Opt_DeriveFoldable) ] -- Note [Documenting optimisation flags] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- -- If you change the list of flags enabled for particular optimisation levels -- please remember to update the User's Guide. The relevant files are: -- -- * docs/users_guide/flags.xml -- * docs/users_guide/using.xml -- -- The first contains the Flag Refrence section, which breifly lists all -- available flags. The second contains a detailed description of the -- flags. Both places should contain information whether a flag is implied by -- -O0, -O or -O2. optLevelFlags :: [([Int], GeneralFlag)] optLevelFlags -- see Note [Documenting optimisation flags] = [ ([0,1,2], Opt_DoLambdaEtaExpansion) , ([0,1,2], Opt_DmdTxDictSel) , ([0,1,2], Opt_LlvmTBAA) , ([0,1,2], Opt_VectorisationAvoidance) -- This one is important for a tiresome reason: -- we want to make sure that the bindings for data -- constructors are eta-expanded. This is probably -- a good thing anyway, but it seems fragile. , ([0], Opt_IgnoreInterfacePragmas) , ([0], Opt_OmitInterfacePragmas) , ([1,2], Opt_CallArity) , ([1,2], Opt_CaseMerge) , ([1,2], Opt_CmmElimCommonBlocks) , ([1,2], Opt_CmmSink) , ([1,2], Opt_CSE) , ([1,2], Opt_DoEtaReduction) , ([1,2], Opt_EnableRewriteRules) -- Off for -O0; see Note [Scoping for Builtin rules] -- in PrelRules , ([1,2], Opt_FloatIn) , ([1,2], Opt_FullLaziness) , ([1,2], Opt_IgnoreAsserts) , ([1,2], Opt_Loopification) , ([1,2], Opt_Specialise) , ([1,2], Opt_CrossModuleSpecialise) , ([1,2], Opt_Strictness) , ([1,2], Opt_UnboxSmallStrictFields) , ([1,2], Opt_CprAnal) , ([2], Opt_LiberateCase) , ([2], Opt_SpecConstr) -- , ([2], Opt_RegsGraph) -- RegsGraph suffers performance regression. See #7679 -- , ([2], Opt_StaticArgumentTransformation) -- Static Argument Transformation needs investigation. See #9374 ] -- ----------------------------------------------------------------------------- -- Standard sets of warning options -- Note [Documenting warning flags] -- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -- -- If you change the list of warning enabled by default -- please remember to update the User's Guide. The relevant file is: -- -- * docs/users_guide/using.xml standardWarnings :: [WarningFlag] standardWarnings -- see Note [Documenting warning flags] = [ Opt_WarnOverlappingPatterns, Opt_WarnWarningsDeprecations, Opt_WarnDeprecatedFlags, Opt_WarnDeferredTypeErrors, Opt_WarnTypedHoles, Opt_WarnPartialTypeSignatures, Opt_WarnUnrecognisedPragmas, Opt_WarnRedundantConstraints, Opt_WarnDuplicateExports, Opt_WarnOverflowedLiterals, Opt_WarnEmptyEnumerations, Opt_WarnMissingFields, Opt_WarnMissingMethods, Opt_WarnWrongDoBind, Opt_WarnUnsupportedCallingConventions, Opt_WarnDodgyForeignImports, Opt_WarnInlineRuleShadowing, Opt_WarnAlternativeLayoutRuleTransitional, Opt_WarnUnsupportedLlvmVersion, Opt_WarnContextQuantification, Opt_WarnTabs, Opt_WarnMissedSpecs ] minusWOpts :: [WarningFlag] -- Things you get with -W minusWOpts = standardWarnings ++ [ Opt_WarnUnusedTopBinds, Opt_WarnUnusedLocalBinds, Opt_WarnUnusedPatternBinds, Opt_WarnUnusedMatches, Opt_WarnUnusedImports, Opt_WarnIncompletePatterns, Opt_WarnDodgyExports, Opt_WarnDodgyImports ] minusWallOpts :: [WarningFlag] -- Things you get with -Wall minusWallOpts = minusWOpts ++ [ Opt_WarnTypeDefaults, Opt_WarnNameShadowing, Opt_WarnMissingSigs, Opt_WarnHiShadows, Opt_WarnOrphans, Opt_WarnUnusedDoBind, Opt_WarnTrustworthySafe, Opt_WarnUntickedPromotedConstructors, Opt_WarnAllMissedSpecs ] enableUnusedBinds :: DynP () enableUnusedBinds = mapM_ setWarningFlag unusedBindsFlags disableUnusedBinds :: DynP () disableUnusedBinds = mapM_ unSetWarningFlag unusedBindsFlags -- Things you get with -fwarn-unused-binds unusedBindsFlags :: [WarningFlag] unusedBindsFlags = [ Opt_WarnUnusedTopBinds , Opt_WarnUnusedLocalBinds , Opt_WarnUnusedPatternBinds ] enableGlasgowExts :: DynP () enableGlasgowExts = do setGeneralFlag Opt_PrintExplicitForalls mapM_ setExtensionFlag glasgowExtsFlags disableGlasgowExts :: DynP () disableGlasgowExts = do unSetGeneralFlag Opt_PrintExplicitForalls mapM_ unSetExtensionFlag glasgowExtsFlags glasgowExtsFlags :: [ExtensionFlag] glasgowExtsFlags = [ Opt_ConstrainedClassMethods , Opt_DeriveDataTypeable , Opt_DeriveFoldable , Opt_DeriveFunctor , Opt_DeriveGeneric , Opt_DeriveTraversable , Opt_EmptyDataDecls , Opt_ExistentialQuantification , Opt_ExplicitNamespaces , Opt_FlexibleContexts , Opt_FlexibleInstances , Opt_ForeignFunctionInterface , Opt_FunctionalDependencies , Opt_GeneralizedNewtypeDeriving , Opt_ImplicitParams , Opt_KindSignatures , Opt_LiberalTypeSynonyms , Opt_MagicHash , Opt_MultiParamTypeClasses , Opt_ParallelListComp , Opt_PatternGuards , Opt_PostfixOperators , Opt_RankNTypes , Opt_RecursiveDo , Opt_ScopedTypeVariables , Opt_StandaloneDeriving , Opt_TypeOperators , Opt_TypeSynonymInstances , Opt_UnboxedTuples , Opt_UnicodeSyntax , Opt_UnliftedFFITypes ] #ifdef GHCI -- Consult the RTS to find whether GHC itself has been built profiled -- If so, you can't use Template Haskell foreign import ccall unsafe "rts_isProfiled" rtsIsProfiledIO :: IO CInt rtsIsProfiled :: Bool rtsIsProfiled = unsafeDupablePerformIO rtsIsProfiledIO /= 0 #endif #ifdef GHCI -- Consult the RTS to find whether GHC itself has been built with -- dynamic linking. This can't be statically known at compile-time, -- because we build both the static and dynamic versions together with -- -dynamic-too. foreign import ccall unsafe "rts_isDynamic" rtsIsDynamicIO :: IO CInt dynamicGhc :: Bool dynamicGhc = unsafeDupablePerformIO rtsIsDynamicIO /= 0 #else dynamicGhc :: Bool dynamicGhc = False #endif setWarnSafe :: Bool -> DynP () setWarnSafe True = getCurLoc >>= \l -> upd (\d -> d { warnSafeOnLoc = l }) setWarnSafe False = return () setWarnUnsafe :: Bool -> DynP () setWarnUnsafe True = getCurLoc >>= \l -> upd (\d -> d { warnUnsafeOnLoc = l }) setWarnUnsafe False = return () setPackageTrust :: DynP () setPackageTrust = do setGeneralFlag Opt_PackageTrust l <- getCurLoc upd $ \d -> d { pkgTrustOnLoc = l } setGenDeriving :: TurnOnFlag -> DynP () setGenDeriving True = getCurLoc >>= \l -> upd (\d -> d { newDerivOnLoc = l }) setGenDeriving False = return () setOverlappingInsts :: TurnOnFlag -> DynP () setOverlappingInsts False = return () setOverlappingInsts True = do l <- getCurLoc upd (\d -> d { overlapInstLoc = l }) deprecate "instead use per-instance pragmas OVERLAPPING/OVERLAPPABLE/OVERLAPS" setIncoherentInsts :: TurnOnFlag -> DynP () setIncoherentInsts False = return () setIncoherentInsts True = do l <- getCurLoc upd (\d -> d { incoherentOnLoc = l }) setTemplateHaskellLoc :: TurnOnFlag -> DynP () setTemplateHaskellLoc _ = getCurLoc >>= \l -> upd (\d -> d { thOnLoc = l }) {- ********************************************************************** %* * DynFlags constructors %* * %********************************************************************* -} type DynP = EwM (CmdLineP DynFlags) upd :: (DynFlags -> DynFlags) -> DynP () upd f = liftEwM (do dflags <- getCmdLineState putCmdLineState $! f dflags) updM :: (DynFlags -> DynP DynFlags) -> DynP () updM f = do dflags <- liftEwM getCmdLineState dflags' <- f dflags liftEwM $ putCmdLineState $! dflags' --------------- Constructor functions for OptKind ----------------- noArg :: (DynFlags -> DynFlags) -> OptKind (CmdLineP DynFlags) noArg fn = NoArg (upd fn) noArgM :: (DynFlags -> DynP DynFlags) -> OptKind (CmdLineP DynFlags) noArgM fn = NoArg (updM fn) hasArg :: (String -> DynFlags -> DynFlags) -> OptKind (CmdLineP DynFlags) hasArg fn = HasArg (upd . fn) sepArg :: (String -> DynFlags -> DynFlags) -> OptKind (CmdLineP DynFlags) sepArg fn = SepArg (upd . fn) intSuffix :: (Int -> DynFlags -> DynFlags) -> OptKind (CmdLineP DynFlags) intSuffix fn = IntSuffix (\n -> upd (fn n)) intSuffixM :: (Int -> DynFlags -> DynP DynFlags) -> OptKind (CmdLineP DynFlags) intSuffixM fn = IntSuffix (\n -> updM (fn n)) floatSuffix :: (Float -> DynFlags -> DynFlags) -> OptKind (CmdLineP DynFlags) floatSuffix fn = FloatSuffix (\n -> upd (fn n)) optIntSuffixM :: (Maybe Int -> DynFlags -> DynP DynFlags) -> OptKind (CmdLineP DynFlags) optIntSuffixM fn = OptIntSuffix (\mi -> updM (fn mi)) setDumpFlag :: DumpFlag -> OptKind (CmdLineP DynFlags) setDumpFlag dump_flag = NoArg (setDumpFlag' dump_flag) -------------------------- addWay :: Way -> DynP () addWay w = upd (addWay' w) addWay' :: Way -> DynFlags -> DynFlags addWay' w dflags0 = let platform = targetPlatform dflags0 dflags1 = dflags0 { ways = w : ways dflags0 } dflags2 = wayExtras platform w dflags1 dflags3 = foldr setGeneralFlag' dflags2 (wayGeneralFlags platform w) dflags4 = foldr unSetGeneralFlag' dflags3 (wayUnsetGeneralFlags platform w) in dflags4 removeWayDyn :: DynP () removeWayDyn = upd (\dfs -> dfs { ways = filter (WayDyn /=) (ways dfs) }) -------------------------- setGeneralFlag, unSetGeneralFlag :: GeneralFlag -> DynP () setGeneralFlag f = upd (setGeneralFlag' f) unSetGeneralFlag f = upd (unSetGeneralFlag' f) setGeneralFlag' :: GeneralFlag -> DynFlags -> DynFlags setGeneralFlag' f dflags = foldr ($) (gopt_set dflags f) deps where deps = [ if turn_on then setGeneralFlag' d else unSetGeneralFlag' d | (f', turn_on, d) <- impliedGFlags, f' == f ] -- When you set f, set the ones it implies -- NB: use setGeneralFlag recursively, in case the implied flags -- implies further flags unSetGeneralFlag' :: GeneralFlag -> DynFlags -> DynFlags unSetGeneralFlag' f dflags = gopt_unset dflags f -- When you un-set f, however, we don't un-set the things it implies -------------------------- setWarningFlag, unSetWarningFlag :: WarningFlag -> DynP () setWarningFlag f = upd (\dfs -> wopt_set dfs f) unSetWarningFlag f = upd (\dfs -> wopt_unset dfs f) -------------------------- setExtensionFlag, unSetExtensionFlag :: ExtensionFlag -> DynP () setExtensionFlag f = upd (setExtensionFlag' f) unSetExtensionFlag f = upd (unSetExtensionFlag' f) setExtensionFlag', unSetExtensionFlag' :: ExtensionFlag -> DynFlags -> DynFlags setExtensionFlag' f dflags = foldr ($) (xopt_set dflags f) deps where deps = [ if turn_on then setExtensionFlag' d else unSetExtensionFlag' d | (f', turn_on, d) <- impliedXFlags, f' == f ] -- When you set f, set the ones it implies -- NB: use setExtensionFlag recursively, in case the implied flags -- implies further flags unSetExtensionFlag' f dflags = xopt_unset dflags f -- When you un-set f, however, we don't un-set the things it implies -- (except for -fno-glasgow-exts, which is treated specially) -------------------------- alterSettings :: (Settings -> Settings) -> DynFlags -> DynFlags alterSettings f dflags = dflags { settings = f (settings dflags) } -------------------------- setDumpFlag' :: DumpFlag -> DynP () setDumpFlag' dump_flag = do upd (\dfs -> dopt_set dfs dump_flag) when want_recomp forceRecompile where -- Certain dumpy-things are really interested in what's going -- on during recompilation checking, so in those cases we -- don't want to turn it off. want_recomp = dump_flag `notElem` [Opt_D_dump_if_trace, Opt_D_dump_hi_diffs] forceRecompile :: DynP () -- Whenver we -ddump, force recompilation (by switching off the -- recompilation checker), else you don't see the dump! However, -- don't switch it off in --make mode, else *everything* gets -- recompiled which probably isn't what you want forceRecompile = do dfs <- liftEwM getCmdLineState when (force_recomp dfs) (setGeneralFlag Opt_ForceRecomp) where force_recomp dfs = isOneShot (ghcMode dfs) setVerboseCore2Core :: DynP () setVerboseCore2Core = setDumpFlag' Opt_D_verbose_core2core 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}) data PkgConfRef = GlobalPkgConf | UserPkgConf | PkgConfFile FilePath addPkgConfRef :: PkgConfRef -> DynP () addPkgConfRef p = upd $ \s -> s { extraPkgConfs = (p:) . extraPkgConfs s } removeUserPkgConf :: DynP () removeUserPkgConf = upd $ \s -> s { extraPkgConfs = filter isNotUser . extraPkgConfs s } where isNotUser UserPkgConf = False isNotUser _ = True removeGlobalPkgConf :: DynP () removeGlobalPkgConf = upd $ \s -> s { extraPkgConfs = filter isNotGlobal . extraPkgConfs s } where isNotGlobal GlobalPkgConf = False isNotGlobal _ = True clearPkgConf :: DynP () clearPkgConf = upd $ \s -> s { extraPkgConfs = const [] } parseModuleName :: ReadP ModuleName parseModuleName = fmap mkModuleName $ munch1 (\c -> isAlphaNum c || c `elem` "_.") parsePackageFlag :: (String -> PackageArg) -- type of argument -> String -- string to parse -> PackageFlag parsePackageFlag constr str = case filter ((=="").snd) (readP_to_S parse str) of [(r, "")] -> r _ -> throwGhcException $ CmdLineError ("Can't parse package flag: " ++ str) where parse = do pkg <- tok $ munch1 (\c -> isAlphaNum c || c `elem` ":-_.") ( do _ <- tok $ string "with" fmap (ExposePackage (constr pkg) . ModRenaming True) parseRns <++ fmap (ExposePackage (constr pkg) . ModRenaming False) parseRns <++ return (ExposePackage (constr pkg) (ModRenaming True []))) parseRns = do _ <- tok $ R.char '(' rns <- tok $ sepBy parseItem (tok $ R.char ',') _ <- tok $ R.char ')' return rns parseItem = do orig <- tok $ parseModuleName (do _ <- tok $ string "as" new <- tok $ parseModuleName return (orig, new) +++ return (orig, orig)) tok m = m >>= \x -> skipSpaces >> return x exposePackage, exposePackageId, exposePackageKey, hidePackage, ignorePackage, trustPackage, distrustPackage :: String -> DynP () exposePackage p = upd (exposePackage' p) exposePackageId p = upd (\s -> s{ packageFlags = parsePackageFlag PackageIdArg p : packageFlags s }) exposePackageKey p = upd (\s -> s{ packageFlags = parsePackageFlag PackageKeyArg p : packageFlags s }) hidePackage p = upd (\s -> s{ packageFlags = HidePackage p : packageFlags s }) ignorePackage p = upd (\s -> s{ packageFlags = IgnorePackage p : packageFlags s }) trustPackage p = exposePackage p >> -- both trust and distrust also expose a package upd (\s -> s{ packageFlags = TrustPackage p : packageFlags s }) distrustPackage p = exposePackage p >> upd (\s -> s{ packageFlags = DistrustPackage p : packageFlags s }) exposePackage' :: String -> DynFlags -> DynFlags exposePackage' p dflags = dflags { packageFlags = parsePackageFlag PackageArg p : packageFlags dflags } setPackageKey :: String -> DynFlags -> DynFlags setPackageKey p s = s{ thisPackage = stringToPackageKey p } setLibraryName :: String -> DynFlags -> DynFlags setLibraryName v s = s{ thisLibraryName = LibraryName (mkFastString v) } -- ----------------------------------------------------------------------------- -- | Find the package environment (if one exists) -- -- We interpret the package environment as a set of package flags; to be -- specific, if we find a package environment -- -- > id1 -- > id2 -- > .. -- > idn -- -- we interpret this as -- -- > [ -hide-all-packages -- > , -package-id id1 -- > , -package-id id2 -- > , .. -- > , -package-id idn -- > ] interpretPackageEnv :: DynFlags -> IO DynFlags interpretPackageEnv dflags = do mPkgEnv <- runMaybeT $ msum $ [ getCmdLineArg >>= \env -> msum [ loadEnvFile env , loadEnvName env , cmdLineError env ] , getEnvVar >>= \env -> msum [ loadEnvFile env , loadEnvName env , envError env ] , loadEnvFile localEnvFile , loadEnvName defaultEnvName ] case mPkgEnv of Nothing -> -- No environment found. Leave DynFlags unchanged. return dflags Just ids -> do let setFlags :: DynP () setFlags = do setGeneralFlag Opt_HideAllPackages mapM_ exposePackageId (lines ids) (_, dflags') = runCmdLine (runEwM setFlags) dflags return dflags' where -- Loading environments (by name or by location) namedEnvPath :: String -> MaybeT IO FilePath namedEnvPath name = do appdir <- liftMaybeT $ versionedAppDir dflags return $ appdir "environments" name loadEnvName :: String -> MaybeT IO String loadEnvName name = loadEnvFile =<< namedEnvPath name loadEnvFile :: String -> MaybeT IO String loadEnvFile path = do guard =<< liftMaybeT (doesFileExist path) liftMaybeT $ readFile path -- Various ways to define which environment to use getCmdLineArg :: MaybeT IO String getCmdLineArg = MaybeT $ return $ packageEnv dflags getEnvVar :: MaybeT IO String getEnvVar = do mvar <- liftMaybeT $ try $ getEnv "GHC_ENVIRONMENT" case mvar of Right var -> return var Left err -> if isDoesNotExistError err then mzero else liftMaybeT $ throwIO err defaultEnvName :: String defaultEnvName = "default" localEnvFile :: FilePath localEnvFile = "./.ghc.environment" -- Error reporting cmdLineError :: String -> MaybeT IO a cmdLineError env = liftMaybeT . throwGhcExceptionIO . CmdLineError $ "Package environment " ++ show env ++ " not found" envError :: String -> MaybeT IO a envError env = liftMaybeT . throwGhcExceptionIO . CmdLineError $ "Package environment " ++ show env ++ " (specified in GHC_ENVIRIONMENT) not found" -- 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 = setTargetWithPlatform (const l) setTargetWithPlatform :: (Platform -> HscTarget) -> DynP () setTargetWithPlatform f = upd set where set dfs = let l = f (targetPlatform dfs) in if ghcLink dfs /= LinkBinary || isObjectTarget l then dfs{ hscTarget = l } else dfs -- Changes the target only if we're compiling object code. This is -- used by -fasm and -fllvm, which switch from one to the other, but -- not from bytecode to object-code. The idea is that -fasm/-fllvm -- can be safely used in an OPTIONS_GHC pragma. setObjTarget :: HscTarget -> DynP () setObjTarget l = updM set where set dflags | isObjectTarget (hscTarget dflags) = return $ dflags { hscTarget = l } | otherwise = return dflags setOptLevel :: Int -> DynFlags -> DynP DynFlags setOptLevel n dflags = return (updOptLevel n dflags) checkOptLevel :: Int -> DynFlags -> Either String DynFlags checkOptLevel n dflags | hscTarget dflags == HscInterpreted && n > 0 = Left "-O conflicts with --interactive; -O ignored." | otherwise = Right dflags -- -Odph is equivalent to -- -- -O2 optimise as much as possible -- -fmax-simplifier-iterations20 this is necessary sometimes -- -fsimplifier-phases=3 we use an additional simplifier phase for fusion -- setDPHOpt :: DynFlags -> DynP DynFlags setDPHOpt dflags = setOptLevel 2 (dflags { maxSimplIterations = 20 , simplPhases = 3 }) setMainIs :: String -> DynP () setMainIs arg | not (null main_fn) && isLower (head main_fn) -- The arg looked like "Foo.Bar.baz" = upd $ \d -> d{ mainFunIs = Just main_fn, mainModIs = mkModule mainPackageKey (mkModuleName main_mod) } | isUpper (head arg) -- The arg looked like "Foo" or "Foo.Bar" = upd $ \d -> d{ mainModIs = mkModule mainPackageKey (mkModuleName arg) } | otherwise -- The arg looked like "baz" = upd $ \d -> d{ mainFunIs = Just arg } where (main_mod, main_fn) = splitLongestPrefix arg (== '.') addLdInputs :: Option -> DynFlags -> DynFlags addLdInputs p dflags = dflags{ldInputs = ldInputs dflags ++ [p]} ----------------------------------------------------------------------------- -- 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}) addLibraryPath p = upd (\s -> s{libraryPaths = libraryPaths s ++ splitPathList p}) addIncludePath p = upd (\s -> s{includePaths = includePaths 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) -- empty paths are ignored: there might be a trailing -- ':' in the initial list, for example. Empty paths can -- cause confusion when they are translated into -I options -- for passing to gcc. where #ifndef mingw32_TARGET_OS splitUp xs = split split_marker xs #else -- Windows: 'hybrid' support for DOS-style paths in directory lists. -- -- That is, if "foo:bar:baz" is used, this interpreted as -- consisting of three entries, 'foo', 'bar', 'baz'. -- However, with "c:/foo:c:\\foo;x:/bar", this is interpreted -- as 3 elts, "c:/foo", "c:\\foo", "x:/bar" -- -- Notice that no attempt is made to fully replace the 'standard' -- split marker ':' with the Windows / DOS one, ';'. The reason being -- that this will cause too much breakage for users & ':' will -- work fine even with DOS paths, if you're not insisting on being silly. -- So, use either. splitUp [] = [] splitUp (x:':':div:xs) | div `elem` dir_markers = ((x:':':div:p): splitUp rs) where (p,rs) = findNextPath xs -- we used to check for existence of the path here, but that -- required the IO monad to be threaded through the command-line -- parser which is quite inconvenient. The splitUp xs = cons p (splitUp rs) where (p,rs) = findNextPath xs cons "" xs = xs cons x xs = x:xs -- will be called either when we've consumed nought or the -- ":/" part of a DOS path, so splitting is just a Q of -- finding the next split marker. findNextPath xs = case break (`elem` split_markers) xs of (p, _:ds) -> (p, ds) (p, xs) -> (p, xs) split_markers :: [Char] split_markers = [':', ';'] dir_markers :: [Char] dir_markers = ['/', '\\'] #endif -- ----------------------------------------------------------------------------- -- tmpDir, where we store temporary files. setTmpDir :: FilePath -> DynFlags -> DynFlags setTmpDir dir = alterSettings (\s -> s { sTmpDir = normalise dir }) -- we used to fix /cygdrive/c/.. on Windows, but this doesn't -- seem necessary now --SDM 7/2/2008 ----------------------------------------------------------------------------- -- RTS opts setRtsOpts :: String -> DynP () setRtsOpts arg = upd $ \ d -> d {rtsOpts = Just arg} setRtsOptsEnabled :: RtsOptsEnabled -> DynP () setRtsOptsEnabled arg = upd $ \ d -> d {rtsOptsEnabled = arg} ----------------------------------------------------------------------------- -- Hpc stuff setOptHpcDir :: String -> DynP () setOptHpcDir arg = upd $ \ d -> d{hpcDir = arg} ----------------------------------------------------------------------------- -- Via-C compilation stuff -- There are some options that we need to pass to gcc when compiling -- Haskell code via C, but are only supported by recent versions of -- gcc. The configure script decides which of these options we need, -- and puts them in the "settings" file in $topdir. The advantage of -- having these in a separate file is that the file can be created at -- install-time depending on the available gcc version, and even -- re-generated later if gcc is upgraded. -- -- The options below are not dependent on the version of gcc, only the -- platform. picCCOpts :: DynFlags -> [String] picCCOpts dflags = case platformOS (targetPlatform dflags) of OSDarwin -- Apple prefers to do things the other way round. -- PIC is on by default. -- -mdynamic-no-pic: -- Turn off PIC code generation. -- -fno-common: -- Don't generate "common" symbols - these are unwanted -- in dynamic libraries. | gopt Opt_PIC dflags -> ["-fno-common", "-U__PIC__", "-D__PIC__"] | otherwise -> ["-mdynamic-no-pic"] OSMinGW32 -- no -fPIC for Windows | gopt Opt_PIC dflags -> ["-U__PIC__", "-D__PIC__"] | otherwise -> [] _ -- we need -fPIC for C files when we are compiling with -dynamic, -- otherwise things like stub.c files don't get compiled -- correctly. They need to reference data in the Haskell -- objects, but can't without -fPIC. See -- http://ghc.haskell.org/trac/ghc/wiki/Commentary/PositionIndependentCode | gopt Opt_PIC dflags || not (gopt Opt_Static dflags) -> ["-fPIC", "-U__PIC__", "-D__PIC__"] | otherwise -> [] picPOpts :: DynFlags -> [String] picPOpts dflags | gopt Opt_PIC dflags = ["-U__PIC__", "-D__PIC__"] | otherwise = [] -- ----------------------------------------------------------------------------- -- Splitting can_split :: Bool can_split = cSupportsSplitObjs == "YES" -- ----------------------------------------------------------------------------- -- Compiler Info compilerInfo :: DynFlags -> [(String, String)] compilerInfo dflags = -- We always make "Project name" be first to keep parsing in -- other languages simple, i.e. when looking for other fields, -- you don't have to worry whether there is a leading '[' or not ("Project name", cProjectName) -- Next come the settings, so anything else can be overridden -- in the settings file (as "lookup" uses the first match for the -- key) : rawSettings dflags ++ [("Project version", projectVersion dflags), ("Project Git commit id", cProjectGitCommitId), ("Booter version", cBooterVersion), ("Stage", cStage), ("Build platform", cBuildPlatformString), ("Host platform", cHostPlatformString), ("Target platform", cTargetPlatformString), ("Have interpreter", cGhcWithInterpreter), ("Object splitting supported", cSupportsSplitObjs), ("Have native code generator", cGhcWithNativeCodeGen), ("Support SMP", cGhcWithSMP), ("Tables next to code", cGhcEnableTablesNextToCode), ("RTS ways", cGhcRTSWays), ("Support dynamic-too", if isWindows then "NO" else "YES"), ("Support parallel --make", "YES"), ("Support reexported-modules", "YES"), ("Support thinning and renaming package flags", "YES"), ("Uses package keys", "YES"), ("Dynamic by default", if dYNAMIC_BY_DEFAULT dflags then "YES" else "NO"), ("GHC Dynamic", if dynamicGhc then "YES" else "NO"), ("Leading underscore", cLeadingUnderscore), ("Debug on", show debugIsOn), ("LibDir", topDir dflags), ("Global Package DB", systemPackageConfig dflags) ] where isWindows = platformOS (targetPlatform dflags) == OSMinGW32 #include "../includes/dist-derivedconstants/header/GHCConstantsHaskellWrappers.hs" bLOCK_SIZE_W :: DynFlags -> Int bLOCK_SIZE_W dflags = bLOCK_SIZE dflags `quot` wORD_SIZE dflags wORD_SIZE_IN_BITS :: DynFlags -> Int wORD_SIZE_IN_BITS dflags = wORD_SIZE dflags * 8 tAG_MASK :: DynFlags -> Int tAG_MASK dflags = (1 `shiftL` tAG_BITS dflags) - 1 mAX_PTR_TAG :: DynFlags -> Int mAX_PTR_TAG = tAG_MASK -- Might be worth caching these in targetPlatform? tARGET_MIN_INT, tARGET_MAX_INT, tARGET_MAX_WORD :: DynFlags -> Integer tARGET_MIN_INT dflags = case platformWordSize (targetPlatform dflags) of 4 -> toInteger (minBound :: Int32) 8 -> toInteger (minBound :: Int64) w -> panic ("tARGET_MIN_INT: Unknown platformWordSize: " ++ show w) tARGET_MAX_INT dflags = case platformWordSize (targetPlatform dflags) of 4 -> toInteger (maxBound :: Int32) 8 -> toInteger (maxBound :: Int64) w -> panic ("tARGET_MAX_INT: Unknown platformWordSize: " ++ show w) tARGET_MAX_WORD dflags = case platformWordSize (targetPlatform dflags) of 4 -> toInteger (maxBound :: Word32) 8 -> toInteger (maxBound :: Word64) w -> panic ("tARGET_MAX_WORD: Unknown platformWordSize: " ++ show w) -- | Resolve any internal inconsistencies in a set of 'DynFlags'. -- Returns the consistent 'DynFlags' as well as a list of warnings -- to report to the user. makeDynFlagsConsistent :: DynFlags -> (DynFlags, [Located String]) -- Whenever makeDynFlagsConsistent does anything, it starts over, to -- ensure that a later change doesn't invalidate an earlier check. -- Be careful not to introduce potential loops! makeDynFlagsConsistent dflags -- Disable -dynamic-too on Windows (#8228, #7134, #5987) | os == OSMinGW32 && gopt Opt_BuildDynamicToo dflags = let dflags' = gopt_unset dflags Opt_BuildDynamicToo warn = "-dynamic-too is not supported on Windows" in loop dflags' warn | hscTarget dflags == HscC && not (platformUnregisterised (targetPlatform dflags)) = if cGhcWithNativeCodeGen == "YES" then let dflags' = dflags { hscTarget = HscAsm } warn = "Compiler not unregisterised, so using native code generator rather than compiling via C" in loop dflags' warn else let dflags' = dflags { hscTarget = HscLlvm } warn = "Compiler not unregisterised, so using LLVM rather than compiling via C" in loop dflags' warn | gopt Opt_Hpc dflags && hscTarget dflags == HscInterpreted = let dflags' = gopt_unset dflags Opt_Hpc warn = "Hpc can't be used with byte-code interpreter. Ignoring -fhpc." in loop dflags' warn | hscTarget dflags == HscAsm && platformUnregisterised (targetPlatform dflags) = loop (dflags { hscTarget = HscC }) "Compiler unregisterised, so compiling via C" | hscTarget dflags == HscAsm && cGhcWithNativeCodeGen /= "YES" = let dflags' = dflags { hscTarget = HscLlvm } warn = "No native code generator, so using LLVM" in loop dflags' warn | hscTarget dflags == HscLlvm && not ((arch == ArchX86_64) && (os == OSLinux || os == OSDarwin || os == OSFreeBSD)) && not ((isARM arch) && (os == OSLinux)) && (not (gopt Opt_Static dflags) || gopt Opt_PIC dflags) = if cGhcWithNativeCodeGen == "YES" then let dflags' = dflags { hscTarget = HscAsm } warn = "Using native code generator rather than LLVM, as LLVM is incompatible with -fPIC and -dynamic on this platform" in loop dflags' warn else throwGhcException $ CmdLineError "Can't use -fPIC or -dynamic on this platform" | os == OSDarwin && arch == ArchX86_64 && not (gopt Opt_PIC dflags) = loop (gopt_set dflags Opt_PIC) "Enabling -fPIC as it is always on for this platform" | Left err <- checkOptLevel (optLevel dflags) dflags = loop (updOptLevel 0 dflags) err | otherwise = (dflags, []) where loc = mkGeneralSrcSpan (fsLit "when making flags consistent") loop updated_dflags warning = case makeDynFlagsConsistent updated_dflags of (dflags', ws) -> (dflags', L loc warning : ws) platform = targetPlatform dflags arch = platformArch platform os = platformOS platform {- Note [DynFlags consistency] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ There are a number of number of DynFlags configurations which either do not make sense or lead to unimplemented or buggy codepaths in the compiler. makeDynFlagsConsistent is responsible for verifying the validity of a set of DynFlags, fixing any issues, and reporting them back to the caller. GHCi and -O --------------- When using optimization, the compiler can introduce several things (such as unboxed tuples) into the intermediate code, which GHCi later chokes on since the bytecode interpreter can't handle this (and while this is arguably a bug these aren't handled, there are no plans to fix it.) While the driver pipeline always checks for this particular erroneous combination when parsing flags, we also need to check when we update the flags; this is because API clients may parse flags but update the DynFlags afterwords, before finally running code inside a session (see T10052 and #10052). -} -------------------------------------------------------------------------- -- Do not use unsafeGlobalDynFlags! -- -- unsafeGlobalDynFlags is a hack, necessary because we need to be able -- to show SDocs when tracing, but we don't always have DynFlags -- available. -- -- Do not use it if you can help it. You may get the wrong value, or this -- panic! GLOBAL_VAR(v_unsafeGlobalDynFlags, panic "v_unsafeGlobalDynFlags: not initialised", DynFlags) unsafeGlobalDynFlags :: DynFlags unsafeGlobalDynFlags = unsafePerformIO $ readIORef v_unsafeGlobalDynFlags setUnsafeGlobalDynFlags :: DynFlags -> IO () setUnsafeGlobalDynFlags = writeIORef v_unsafeGlobalDynFlags GLOBAL_VAR(v_unsafePkgKeyCache, emptyUFM, PackageKeyCache) -- ----------------------------------------------------------------------------- -- SSE and AVX -- TODO: Instead of using a separate predicate (i.e. isSse2Enabled) to -- check if SSE is enabled, we might have x86-64 imply the -msse2 -- flag. data SseVersion = SSE1 | SSE2 | SSE3 | SSE4 | SSE42 deriving (Eq, Ord) isSseEnabled :: DynFlags -> Bool isSseEnabled dflags = case platformArch (targetPlatform dflags) of ArchX86_64 -> True ArchX86 -> sseVersion dflags >= Just SSE1 _ -> False isSse2Enabled :: DynFlags -> Bool isSse2Enabled dflags = case platformArch (targetPlatform dflags) of ArchX86_64 -> -- SSE2 is fixed on for x86_64. It would be -- possible to make it optional, but we'd need to -- fix at least the foreign call code where the -- calling convention specifies the use of xmm regs, -- and possibly other places. True ArchX86 -> sseVersion dflags >= Just SSE2 _ -> False isSse4_2Enabled :: DynFlags -> Bool isSse4_2Enabled dflags = sseVersion dflags >= Just SSE42 isAvxEnabled :: DynFlags -> Bool isAvxEnabled dflags = avx dflags || avx2 dflags || avx512f dflags isAvx2Enabled :: DynFlags -> Bool isAvx2Enabled dflags = avx2 dflags || avx512f dflags isAvx512cdEnabled :: DynFlags -> Bool isAvx512cdEnabled dflags = avx512cd dflags isAvx512erEnabled :: DynFlags -> Bool isAvx512erEnabled dflags = avx512er dflags isAvx512fEnabled :: DynFlags -> Bool isAvx512fEnabled dflags = avx512f dflags isAvx512pfEnabled :: DynFlags -> Bool isAvx512pfEnabled dflags = avx512pf dflags -- ----------------------------------------------------------------------------- -- Linker/compiler information -- LinkerInfo contains any extra options needed by the system linker. data LinkerInfo = GnuLD [Option] | GnuGold [Option] | DarwinLD [Option] | SolarisLD [Option] | UnknownLD deriving Eq -- CompilerInfo tells us which C compiler we're using data CompilerInfo = GCC | Clang | AppleClang | AppleClang51 | UnknownCC deriving Eq -- ----------------------------------------------------------------------------- -- RTS hooks -- Convert sizes like "3.5M" into integers decodeSize :: String -> Integer decodeSize str | c == "" = truncate n | c == "K" || c == "k" = truncate (n * 1000) | c == "M" || c == "m" = truncate (n * 1000 * 1000) | c == "G" || c == "g" = truncate (n * 1000 * 1000 * 1000) | otherwise = throwGhcException (CmdLineError ("can't decode size: " ++ str)) where (m, c) = span pred str n = readRational m pred c = isDigit c || c == '.' foreign import ccall unsafe "setHeapSize" setHeapSize :: Int -> IO () foreign import ccall unsafe "enableTimingStats" enableTimingStats :: IO ()