{-# GHC_PRAGMA INTERFACE VERSION 5 #-} interface AbsCSyn where import AbsCFuns(amodeCanSurviveGC, flattenAbsC, getAmodeKind, kindFromMagicId, mixedPtrLocn, mixedTypeLocn, mkAbsCStmtList, mkAbsCStmts, mkAbstractCs, mkAlgAltsCSwitch, nonemptyAbsC) import BasicLit(BasicLit(..), mkMachInt, mkMachWord) import CLabelInfo(CLabel) import CharSeq(CSeq) import Class(Class) import ClosureInfo(ClosureInfo, LambdaFormInfo, StandardFormInfo) import CmdLineOpts(GlobalSwitch, SimplifierSwitch) import CostCentre(CcKind, CostCentre, IsCafCC, IsDupdCC) import HeapOffs(HeapOffset, HpRelOffset(..), SpARelOffset(..), SpBRelOffset(..), VirtualHeapOffset(..), VirtualSpAOffset(..), VirtualSpBOffset(..), addOff, fixedHdrSize, intOff, intOffsetIntoGoods, isZeroOff, maxOff, possiblyEqualHeapOffset, pprHeapOffset, subOff, totHdrSize, varHdrSize, zeroOff) import Id(ConTag(..), Id, IdDetails) import IdInfo(IdInfo) import Maybes(Labda) import NameTypes(FullName) import Outputable(ExportFlag, NamedThing(..), Outputable(..)) import PprAbsC(dumpRealC, writeRealC) import PreludePS(_PackedString) import PreludeRatio(Ratio(..)) import Pretty(Delay, PprStyle, Pretty(..), PrettyRep) import PrimKind(PrimKind(..)) import PrimOps(PrimOp) import SMRep(SMRep, SMSpecRepKind, SMUpdateKind) import SplitUniq(SplitUniqSupply) import SrcLoc(SrcLoc) import Stdio(_FILE) import StgSyn(StgAtom, StgBinding, StgCaseAlternatives, StgExpr, UpdateFlag) import TyCon(TyCon) import TyVar(TyVar, TyVarTemplate) import UniType(UniType) import UniqFM(UniqFM) import UniqSet(UniqSet(..)) import Unique(Unique) import Unpretty(Unpretty(..)) class NamedThing a where getExportFlag :: a -> ExportFlag {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u2; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> ExportFlag) } [ _NOREP_S_ "%DOutputable.NamedThing.getExportFlag\"", u2 ] _N_ #-} isLocallyDefined :: a -> Bool {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u3; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> Bool) } [ _NOREP_S_ "%DOutputable.NamedThing.isLocallyDefined\"", u2 ] _N_ #-} getOrigName :: a -> (_PackedString, _PackedString) {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u4; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> (_PackedString, _PackedString)) } [ _NOREP_S_ "%DOutputable.NamedThing.getOrigName\"", u2 ] _N_ #-} getOccurrenceName :: a -> _PackedString {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u5; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> _PackedString) } [ _NOREP_S_ "%DOutputable.NamedThing.getOccurrenceName\"", u2 ] _N_ #-} getInformingModules :: a -> [_PackedString] {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u6; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> [_PackedString]) } [ _NOREP_S_ "%DOutputable.NamedThing.getInformingModules\"", u2 ] _N_ #-} getSrcLoc :: a -> SrcLoc {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u7; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> SrcLoc) } [ _NOREP_S_ "%DOutputable.NamedThing.getSrcLoc\"", u2 ] _N_ #-} getTheUnique :: a -> Unique {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u8; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> Unique) } [ _NOREP_S_ "%DOutputable.NamedThing.getTheUnique\"", u2 ] _N_ #-} hasType :: a -> Bool {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> u9; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> Bool) } [ _NOREP_S_ "%DOutputable.NamedThing.hasType\"", u2 ] _N_ #-} getType :: a -> UniType {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> ua; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> UniType) } [ _NOREP_S_ "%DOutputable.NamedThing.getType\"", u2 ] _N_ #-} fromPreludeCore :: a -> Bool {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 C 2 _/\_ u0 -> \ (u1 :: (u0 -> ExportFlag, u0 -> Bool, u0 -> (_PackedString, _PackedString), u0 -> _PackedString, u0 -> [_PackedString], u0 -> SrcLoc, u0 -> Unique, u0 -> Bool, u0 -> UniType, u0 -> Bool)) -> case u1 of { _ALG_ _TUP_10 (u2 :: u0 -> ExportFlag) (u3 :: u0 -> Bool) (u4 :: u0 -> (_PackedString, _PackedString)) (u5 :: u0 -> _PackedString) (u6 :: u0 -> [_PackedString]) (u7 :: u0 -> SrcLoc) (u8 :: u0 -> Unique) (u9 :: u0 -> Bool) (ua :: u0 -> UniType) (ub :: u0 -> Bool) -> ub; _NO_DEFLT_ } _N_ {-defm-} _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 2 XX 3 _/\_ u0 -> \ (u1 :: {{NamedThing u0}}) (u2 :: u0) -> _APP_ _TYAPP_ patError# { (u0 -> Bool) } [ _NOREP_S_ "%DOutputable.NamedThing.fromPreludeCore\"", u2 ] _N_ #-} class Outputable a where ppr :: PprStyle -> a -> Int -> Bool -> PrettyRep {-# GHC_PRAGMA {-meth-} _A_ 1 _U_ 12222 _N_ _S_ "S" _F_ _IF_ARGS_ 1 1 X 1 _/\_ u0 -> \ (u1 :: PprStyle -> u0 -> Int -> Bool -> PrettyRep) -> u1 _N_ {-defm-} _A_ 5 _U_ 02222 _N_ _S_ _!_ _F_ _IF_ARGS_ 1 5 XXXXX 6 _/\_ u0 -> \ (u1 :: {{Outputable u0}}) (u2 :: PprStyle) (u3 :: u0) (u4 :: Int) (u5 :: Bool) -> _APP_ _TYAPP_ patError# { (PprStyle -> u0 -> Int -> Bool -> PrettyRep) } [ _NOREP_S_ "%DOutputable.Outputable.ppr\"", u2, u3, u4, u5 ] _N_ #-} data AbstractC = AbsCNop | AbsCStmts AbstractC AbstractC | CAssign CAddrMode CAddrMode | CJump CAddrMode | CFallThrough CAddrMode | CReturn CAddrMode ReturnInfo | CSwitch CAddrMode [(BasicLit, AbstractC)] AbstractC | CCodeBlock CLabel AbstractC | CInitHdr ClosureInfo RegRelative CAddrMode Bool | COpStmt [CAddrMode] PrimOp [CAddrMode] Int [MagicId] | CSimultaneous AbstractC | CMacroStmt CStmtMacro [CAddrMode] | CCallProfCtrMacro _PackedString [CAddrMode] | CCallProfCCMacro _PackedString [CAddrMode] | CStaticClosure CLabel ClosureInfo CAddrMode [CAddrMode] | CClosureInfoAndCode ClosureInfo AbstractC (Labda AbstractC) CAddrMode [Char] | CRetVector CLabel [Labda CAddrMode] AbstractC | CRetUnVector CLabel CAddrMode | CFlatRetVector CLabel [CAddrMode] | CCostCentreDecl Bool CostCentre | CClosureUpdInfo AbstractC | CSplitMarker data BasicLit = MachChar Char | MachStr _PackedString | MachAddr Integer | MachInt Integer Bool | MachFloat (Ratio Integer) | MachDouble (Ratio Integer) | MachLitLit _PackedString PrimKind | NoRepStr _PackedString | NoRepInteger Integer | NoRepRational (Ratio Integer) data CAddrMode = CVal RegRelative PrimKind | CAddr RegRelative | CReg MagicId | CTableEntry CAddrMode CAddrMode PrimKind | CTemp Unique PrimKind | CLbl CLabel PrimKind | CUnVecLbl CLabel CLabel | CCharLike CAddrMode | CIntLike CAddrMode | CString _PackedString | CLit BasicLit | CLitLit _PackedString PrimKind | COffset HeapOffset | CCode AbstractC | CLabelledCode CLabel AbstractC | CJoinPoint Int Int | CMacroExpr PrimKind CExprMacro [CAddrMode] | CCostCentre CostCentre Bool data CExprMacro = INFO_PTR | ENTRY_CODE | INFO_TAG | EVAL_TAG data CLabel data CSeq {-# GHC_PRAGMA CNil | CAppend CSeq CSeq | CIndent Int CSeq | CNewline | CStr [Char] | CCh Char | CInt Int | CPStr _PackedString #-} data CStmtMacro = ARGS_CHK_A_LOAD_NODE | ARGS_CHK_A | ARGS_CHK_B_LOAD_NODE | ARGS_CHK_B | HEAP_CHK | STK_CHK | UPD_CAF | UPD_IND | UPD_INPLACE_NOPTRS | UPD_INPLACE_PTRS | UPD_BH_UPDATABLE | UPD_BH_SINGLE_ENTRY | PUSH_STD_UPD_FRAME | POP_STD_UPD_FRAME | SET_ARITY | CHK_ARITY | SET_TAG data ClosureInfo {-# GHC_PRAGMA MkClosureInfo Id LambdaFormInfo SMRep #-} data LambdaFormInfo {-# GHC_PRAGMA LFReEntrant Bool Int Bool | LFCon Id Bool | LFTuple Id Bool | LFThunk Bool Bool Bool StandardFormInfo | LFArgument | LFImported | LFLetNoEscape Int (UniqFM Id) | LFBlackHole | LFIndirection #-} data GlobalSwitch {-# GHC_PRAGMA ProduceC [Char] | ProduceS [Char] | ProduceHi [Char] | AsmTarget [Char] | ForConcurrent | Haskell_1_3 | GlasgowExts | CompilingPrelude | HideBuiltinNames | HideMostBuiltinNames | EnsureSplittableC [Char] | Verbose | PprStyle_User | PprStyle_Debug | PprStyle_All | DoCoreLinting | EmitArityChecks | OmitInterfacePragmas | OmitDerivedRead | OmitReexportedInstances | UnfoldingUseThreshold Int | UnfoldingCreationThreshold Int | UnfoldingOverrideThreshold Int | ReportWhyUnfoldingsDisallowed | UseGetMentionedVars | ShowPragmaNameErrs | NameShadowingNotOK | SigsRequired | SccProfilingOn | AutoSccsOnExportedToplevs | AutoSccsOnAllToplevs | AutoSccsOnIndividualCafs | SccGroup [Char] | DoTickyProfiling | DoSemiTagging | FoldrBuildOn | FoldrBuildTrace | SpecialiseImports | ShowImportSpecs | OmitUnspecialisedCode | SpecialiseOverloaded | SpecialiseUnboxed | SpecialiseAll | SpecialiseTrace | OmitBlackHoling | StgDoLetNoEscapes | IgnoreStrictnessPragmas | IrrefutableTuples | IrrefutableEverything | AllStrict | AllDemanded | D_dump_rif2hs | D_dump_rn4 | D_dump_tc | D_dump_deriv | D_dump_ds | D_dump_occur_anal | D_dump_simpl | D_dump_spec | D_dump_stranal | D_dump_deforest | D_dump_stg | D_dump_absC | D_dump_flatC | D_dump_realC | D_dump_asm | D_dump_core_passes | D_dump_core_passes_info | D_verbose_core2core | D_verbose_stg2stg | D_simplifier_stats #-} data SimplifierSwitch {-# GHC_PRAGMA SimplOkToDupCode | SimplFloatLetsExposingWHNF | SimplOkToFloatPrimOps | SimplAlwaysFloatLetsFromLets | SimplDoCaseElim | SimplReuseCon | SimplCaseOfCase | SimplLetToCase | SimplMayDeleteConjurableIds | SimplPedanticBottoms | SimplDoArityExpand | SimplDoFoldrBuild | SimplDoNewOccurAnal | SimplDoInlineFoldrBuild | IgnoreINLINEPragma | SimplDoLambdaEtaExpansion | SimplDoEtaReduction | EssentialUnfoldingsOnly | ShowSimplifierProgress | MaxSimplifierIterations Int | SimplUnfoldingUseThreshold Int | SimplUnfoldingCreationThreshold Int | KeepSpecPragmaIds | KeepUnusedBindings #-} data CostCentre {-# GHC_PRAGMA NoCostCentre | NormalCC CcKind _PackedString _PackedString IsDupdCC IsCafCC | CurrentCC | SubsumedCosts | AllCafsCC _PackedString _PackedString | AllDictsCC _PackedString _PackedString IsDupdCC | OverheadCC | PreludeCafsCC | PreludeDictsCC IsDupdCC | DontCareCC #-} data HeapOffset type HpRelOffset = HeapOffset data MagicId = BaseReg | StkOReg | VanillaReg PrimKind Int# | FloatReg Int# | DoubleReg Int# | TagReg | RetReg | SpA | SuA | SpB | SuB | Hp | HpLim | LivenessReg | ActivityReg | StdUpdRetVecReg | StkStubReg | CurCostCentre | VoidReg data RegRelative = HpRel HeapOffset HeapOffset | SpARel Int Int | SpBRel Int Int | NodeRel HeapOffset data ReturnInfo = DirectReturn | StaticVectoredReturn Int | DynamicVectoredReturn CAddrMode type SpARelOffset = Int type SpBRelOffset = Int type VirtualHeapOffset = HeapOffset type VirtualSpAOffset = Int type VirtualSpBOffset = Int type ConTag = Int data Id {-# GHC_PRAGMA Id Unique UniType IdInfo IdDetails #-} data Labda a {-# GHC_PRAGMA Hamna | Ni a #-} data ExportFlag {-# GHC_PRAGMA ExportAll | ExportAbs | NotExported #-} data PprStyle {-# GHC_PRAGMA PprForUser | PprDebug | PprShowAll | PprInterface (GlobalSwitch -> Bool) | PprForC (GlobalSwitch -> Bool) | PprUnfolding (GlobalSwitch -> Bool) | PprForAsm (GlobalSwitch -> Bool) Bool ([Char] -> [Char]) #-} type Pretty = Int -> Bool -> PrettyRep data PrettyRep {-# GHC_PRAGMA MkPrettyRep CSeq (Delay Int) Bool Bool #-} data PrimKind = PtrKind | CodePtrKind | DataPtrKind | RetKind | InfoPtrKind | CostCentreKind | CharKind | IntKind | WordKind | AddrKind | FloatKind | DoubleKind | MallocPtrKind | StablePtrKind | ArrayKind | ByteArrayKind | VoidKind data PrimOp {-# GHC_PRAGMA CharGtOp | CharGeOp | CharEqOp | CharNeOp | CharLtOp | CharLeOp | IntGtOp | IntGeOp | IntEqOp | IntNeOp | IntLtOp | IntLeOp | WordGtOp | WordGeOp | WordEqOp | WordNeOp | WordLtOp | WordLeOp | AddrGtOp | AddrGeOp | AddrEqOp | AddrNeOp | AddrLtOp | AddrLeOp | FloatGtOp | FloatGeOp | FloatEqOp | FloatNeOp | FloatLtOp | FloatLeOp | DoubleGtOp | DoubleGeOp | DoubleEqOp | DoubleNeOp | DoubleLtOp | DoubleLeOp | OrdOp | ChrOp | IntAddOp | IntSubOp | IntMulOp | IntQuotOp | IntDivOp | IntRemOp | IntNegOp | IntAbsOp | AndOp | OrOp | NotOp | SllOp | SraOp | SrlOp | ISllOp | ISraOp | ISrlOp | Int2WordOp | Word2IntOp | Int2AddrOp | Addr2IntOp | FloatAddOp | FloatSubOp | FloatMulOp | FloatDivOp | FloatNegOp | Float2IntOp | Int2FloatOp | FloatExpOp | FloatLogOp | FloatSqrtOp | FloatSinOp | FloatCosOp | FloatTanOp | FloatAsinOp | FloatAcosOp | FloatAtanOp | FloatSinhOp | FloatCoshOp | FloatTanhOp | FloatPowerOp | DoubleAddOp | DoubleSubOp | DoubleMulOp | DoubleDivOp | DoubleNegOp | Double2IntOp | Int2DoubleOp | Double2FloatOp | Float2DoubleOp | DoubleExpOp | DoubleLogOp | DoubleSqrtOp | DoubleSinOp | DoubleCosOp | DoubleTanOp | DoubleAsinOp | DoubleAcosOp | DoubleAtanOp | DoubleSinhOp | DoubleCoshOp | DoubleTanhOp | DoublePowerOp | IntegerAddOp | IntegerSubOp | IntegerMulOp | IntegerQuotRemOp | IntegerDivModOp | IntegerNegOp | IntegerCmpOp | Integer2IntOp | Int2IntegerOp | Word2IntegerOp | Addr2IntegerOp | FloatEncodeOp | FloatDecodeOp | DoubleEncodeOp | DoubleDecodeOp | NewArrayOp | NewByteArrayOp PrimKind | SameMutableArrayOp | SameMutableByteArrayOp | ReadArrayOp | WriteArrayOp | IndexArrayOp | ReadByteArrayOp PrimKind | WriteByteArrayOp PrimKind | IndexByteArrayOp PrimKind | IndexOffAddrOp PrimKind | UnsafeFreezeArrayOp | UnsafeFreezeByteArrayOp | NewSynchVarOp | TakeMVarOp | PutMVarOp | ReadIVarOp | WriteIVarOp | MakeStablePtrOp | DeRefStablePtrOp | CCallOp _PackedString Bool Bool [UniType] UniType | ErrorIOPrimOp | ReallyUnsafePtrEqualityOp | SeqOp | ParOp | ForkOp | DelayOp | WaitOp #-} data SMRep {-# GHC_PRAGMA StaticRep Int Int | SpecialisedRep SMSpecRepKind Int Int SMUpdateKind | GenericRep Int Int SMUpdateKind | BigTupleRep Int | DataRep Int | DynamicRep | BlackHoleRep | PhantomRep | MuTupleRep Int #-} data SplitUniqSupply {-# GHC_PRAGMA MkSplitUniqSupply Int SplitUniqSupply SplitUniqSupply #-} data SrcLoc {-# GHC_PRAGMA SrcLoc _PackedString _PackedString | SrcLoc2 _PackedString Int# #-} data StgAtom a {-# GHC_PRAGMA StgVarAtom a | StgLitAtom BasicLit #-} data StgExpr a b {-# GHC_PRAGMA StgApp (StgAtom b) [StgAtom b] (UniqFM b) | StgConApp Id [StgAtom b] (UniqFM b) | StgPrimApp PrimOp [StgAtom b] (UniqFM b) | StgCase (StgExpr a b) (UniqFM b) (UniqFM b) Unique (StgCaseAlternatives a b) | StgLet (StgBinding a b) (StgExpr a b) | StgLetNoEscape (UniqFM b) (UniqFM b) (StgBinding a b) (StgExpr a b) | StgSCC UniType CostCentre (StgExpr a b) #-} data UpdateFlag {-# GHC_PRAGMA ReEntrant | Updatable | SingleEntry #-} data TyCon {-# GHC_PRAGMA SynonymTyCon Unique FullName Int [TyVarTemplate] UniType Bool | DataTyCon Unique FullName Int [TyVarTemplate] [Id] [Class] Bool | TupleTyCon Int | PrimTyCon Unique FullName Int ([PrimKind] -> PrimKind) | SpecTyCon TyCon [Labda UniType] #-} data UniType {-# GHC_PRAGMA UniTyVar TyVar | UniFun UniType UniType | UniData TyCon [UniType] | UniSyn TyCon [UniType] UniType | UniDict Class UniType | UniTyVarTemplate TyVarTemplate | UniForall TyVarTemplate UniType #-} data UniqFM a {-# GHC_PRAGMA EmptyUFM | LeafUFM Int# a | NodeUFM Int# Int# (UniqFM a) (UniqFM a) #-} type UniqSet a = UniqFM a data Unique {-# GHC_PRAGMA MkUnique Int# #-} type Unpretty = CSeq amodeCanSurviveGC :: CAddrMode -> Bool {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} flattenAbsC :: SplitUniqSupply -> AbstractC -> AbstractC {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _S_ "LS" _N_ _N_ #-} getAmodeKind :: CAddrMode -> PrimKind {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} kindFromMagicId :: MagicId -> PrimKind {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} mixedPtrLocn :: CAddrMode -> Bool {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} mixedTypeLocn :: CAddrMode -> Bool {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} mkAbsCStmtList :: AbstractC -> [AbstractC] {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _S_ "S" _N_ _N_ #-} mkAbsCStmts :: AbstractC -> AbstractC -> AbstractC {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 3 \ (u0 :: AbstractC) (u1 :: AbstractC) -> _!_ _ORIG_ AbsCSyn AbsCStmts [] [u0, u1] _N_ #-} mkAbstractCs :: [AbstractC] -> AbstractC {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _S_ "S" _F_ _IF_ARGS_ 0 1 C 6 \ (u0 :: [AbstractC]) -> case u0 of { _ALG_ (:) (u1 :: AbstractC) (u2 :: [AbstractC]) -> _APP_ _TYAPP_ _ORIG_ PreludeList foldr1 { AbstractC } [ _ORIG_ AbsCFuns mkAbsCStmts, u0 ]; _NIL_ -> _!_ _ORIG_ AbsCSyn AbsCNop [] []; _NO_DEFLT_ } _N_ #-} mkAlgAltsCSwitch :: CAddrMode -> [(Int, AbstractC)] -> AbstractC -> AbstractC {-# GHC_PRAGMA _A_ 3 _U_ 212 _N_ _N_ _N_ _N_ #-} nonemptyAbsC :: AbstractC -> Labda AbstractC {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _S_ "S" _N_ _N_ #-} mkMachInt :: Integer -> BasicLit {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _N_ _N_ _N_ #-} mkMachWord :: Integer -> BasicLit {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _N_ _N_ _N_ #-} addOff :: HeapOffset -> HeapOffset -> HeapOffset {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_ #-} fixedHdrSize :: HeapOffset {-# GHC_PRAGMA _A_ 0 _N_ _N_ _N_ _N_ _N_ #-} dumpRealC :: (GlobalSwitch -> Bool) -> AbstractC -> [Char] {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} infoptr :: MagicId {-# GHC_PRAGMA _A_ 0 _N_ _N_ _N_ _N_ _N_ #-} intOff :: Int -> HeapOffset {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "U(P)" {_A_ 1 _U_ 2 _N_ _N_ _N_ _N_} _N_ _N_ #-} intOffsetIntoGoods :: HeapOffset -> Labda Int {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} isVolatileReg :: MagicId -> Bool {-# GHC_PRAGMA _A_ 1 _U_ 0 _N_ _S_ "A" {_A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _!_ True [] [] _N_} _F_ _IF_ARGS_ 0 1 X 1 \ (u0 :: MagicId) -> _!_ True [] [] _N_ #-} isZeroOff :: HeapOffset -> Bool {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _S_ "S" _N_ _N_ #-} maxOff :: HeapOffset -> HeapOffset -> HeapOffset {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_ #-} mkCCostCentre :: CostCentre -> CAddrMode {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _N_ _N_ _N_ #-} mkIntCLit :: Int -> CAddrMode {-# GHC_PRAGMA _A_ 1 _U_ 1 _N_ _N_ _N_ _N_ #-} node :: MagicId {-# GHC_PRAGMA _A_ 0 _N_ _N_ _N_ _N_ _N_ #-} possiblyEqualHeapOffset :: HeapOffset -> HeapOffset -> Bool {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _S_ "LS" _N_ _N_ #-} pprHeapOffset :: PprStyle -> HeapOffset -> CSeq {-# GHC_PRAGMA _A_ 2 _U_ 21 _N_ _S_ "LS" _N_ _N_ #-} subOff :: HeapOffset -> HeapOffset -> HeapOffset {-# GHC_PRAGMA _A_ 2 _U_ 22 _N_ _S_ "LS" _N_ _N_ #-} totHdrSize :: SMRep -> HeapOffset {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _S_ "S" _N_ _N_ #-} varHdrSize :: SMRep -> HeapOffset {-# GHC_PRAGMA _A_ 1 _U_ 2 _N_ _S_ "S" _N_ _N_ #-} zeroOff :: HeapOffset {-# GHC_PRAGMA _A_ 0 _N_ _N_ _N_ _N_ _N_ #-} writeRealC :: (GlobalSwitch -> Bool) -> _FILE -> AbstractC -> _State _RealWorld -> ((), _State _RealWorld) {-# GHC_PRAGMA _A_ 4 _U_ 2122 _N_ _S_ "LU(P)LL" {_A_ 4 _U_ 2222 _N_ _N_ _N_ _N_} _N_ _N_ #-} instance Eq MagicId {-# GHC_PRAGMA _M_ AbsCSyn {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(MagicId -> MagicId -> Bool), (MagicId -> MagicId -> Bool)] [_CONSTM_ Eq (==) (MagicId), _CONSTM_ Eq (/=) (MagicId)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (/=) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} instance Eq BasicLit {-# GHC_PRAGMA _M_ BasicLit {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(BasicLit -> BasicLit -> Bool), (BasicLit -> BasicLit -> Bool)] [_CONSTM_ Eq (==) (BasicLit), _CONSTM_ Eq (/=) (BasicLit)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (/=) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_ #-} instance Eq CLabel {-# GHC_PRAGMA _M_ CLabelInfo {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(CLabel -> CLabel -> Bool), (CLabel -> CLabel -> Bool)] [_CONSTM_ Eq (==) (CLabel), _CONSTM_ Eq (/=) (CLabel)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (/=) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_ #-} instance Eq GlobalSwitch {-# GHC_PRAGMA _M_ CmdLineOpts {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(GlobalSwitch -> GlobalSwitch -> Bool), (GlobalSwitch -> GlobalSwitch -> Bool)] [_CONSTM_ Eq (==) (GlobalSwitch), _CONSTM_ Eq (/=) (GlobalSwitch)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (/=) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} instance Eq SimplifierSwitch {-# GHC_PRAGMA _M_ CmdLineOpts {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(SimplifierSwitch -> SimplifierSwitch -> Bool), (SimplifierSwitch -> SimplifierSwitch -> Bool)] [_CONSTM_ Eq (==) (SimplifierSwitch), _CONSTM_ Eq (/=) (SimplifierSwitch)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (/=) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} instance Eq Id {-# GHC_PRAGMA _M_ Id {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(Id -> Id -> Bool), (Id -> Id -> Bool)] [_CONSTM_ Eq (==) (Id), _CONSTM_ Eq (/=) (Id)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Int#) (u1 :: Int#) -> case _APP_ _WRKR_ _ORIG_ Id cmpId [ u0, u1 ] of { _PRIM_ 0# -> _!_ True [] []; (u2 :: Int#) -> _!_ False [] [] } _N_} _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Id) (u1 :: Id) -> case _APP_ _ORIG_ Id cmpId [ u0, u1 ] of { _PRIM_ 0# -> _!_ True [] []; (u2 :: Int#) -> _!_ False [] [] } _N_, (/=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Int#) (u1 :: Int#) -> case _APP_ _WRKR_ _ORIG_ Id cmpId [ u0, u1 ] of { _PRIM_ 0# -> _!_ False [] []; (u2 :: Int#) -> _!_ True [] [] } _N_} _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Id) (u1 :: Id) -> case _APP_ _ORIG_ Id cmpId [ u0, u1 ] of { _PRIM_ 0# -> _!_ False [] []; (u2 :: Int#) -> _!_ True [] [] } _N_ #-} instance Eq PrimKind {-# GHC_PRAGMA _M_ PrimKind {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(PrimKind -> PrimKind -> Bool), (PrimKind -> PrimKind -> Bool)] [_CONSTM_ Eq (==) (PrimKind), _CONSTM_ Eq (/=) (PrimKind)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_, (/=) = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_ #-} instance Eq PrimOp {-# GHC_PRAGMA _M_ PrimOps {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(PrimOp -> PrimOp -> Bool), (PrimOp -> PrimOp -> Bool)] [_CONSTM_ Eq (==) (PrimOp), _CONSTM_ Eq (/=) (PrimOp)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "SS" _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: PrimOp) (u1 :: PrimOp) -> case _APP_ _ORIG_ PrimOps tagOf_PrimOp [ u0 ] of { _PRIM_ (u2 :: Int#) -> case _APP_ _ORIG_ PrimOps tagOf_PrimOp [ u1 ] of { _PRIM_ (u3 :: Int#) -> _#_ eqInt# [] [u2, u3] } } _N_, (/=) = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} instance Eq Unique {-# GHC_PRAGMA _M_ Unique {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 3 _!_ _TUP_2 [(Unique -> Unique -> Bool), (Unique -> Unique -> Bool)] [_CONSTM_ Eq (==) (Unique), _CONSTM_ Eq (/=) (Unique)] _N_ (==) = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 1 \ (u0 :: Int#) (u1 :: Int#) -> _#_ eqInt# [] [u0, u1] _N_} _F_ _IF_ARGS_ 0 2 CC 3 \ (u0 :: Unique) (u1 :: Unique) -> case u0 of { _ALG_ _ORIG_ Unique MkUnique (u2 :: Int#) -> case u1 of { _ALG_ _ORIG_ Unique MkUnique (u3 :: Int#) -> _#_ eqInt# [] [u2, u3]; _NO_DEFLT_ }; _NO_DEFLT_ } _N_, (/=) = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Int#) (u1 :: Int#) -> case _#_ eqInt# [] [u0, u1] of { _ALG_ True -> _!_ False [] []; False -> _!_ True [] []; _NO_DEFLT_ } _N_} _F_ _IF_ARGS_ 0 2 CC 7 \ (u0 :: Unique) (u1 :: Unique) -> case u0 of { _ALG_ _ORIG_ Unique MkUnique (u2 :: Int#) -> case u1 of { _ALG_ _ORIG_ Unique MkUnique (u3 :: Int#) -> case _#_ eqInt# [] [u2, u3] of { _ALG_ True -> _!_ False [] []; False -> _!_ True [] []; _NO_DEFLT_ }; _NO_DEFLT_ }; _NO_DEFLT_ } _N_ #-} instance Ord BasicLit {-# GHC_PRAGMA _M_ BasicLit {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq BasicLit}}, (BasicLit -> BasicLit -> Bool), (BasicLit -> BasicLit -> Bool), (BasicLit -> BasicLit -> Bool), (BasicLit -> BasicLit -> Bool), (BasicLit -> BasicLit -> BasicLit), (BasicLit -> BasicLit -> BasicLit), (BasicLit -> BasicLit -> _CMP_TAG)] [_DFUN_ Eq (BasicLit), _CONSTM_ Ord (<) (BasicLit), _CONSTM_ Ord (<=) (BasicLit), _CONSTM_ Ord (>=) (BasicLit), _CONSTM_ Ord (>) (BasicLit), _CONSTM_ Ord max (BasicLit), _CONSTM_ Ord min (BasicLit), _CONSTM_ Ord _tagCmp (BasicLit)] _N_ (<) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, (<=) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, (>=) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, (>) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, max = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, min = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, _tagCmp = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_ #-} instance Ord CLabel {-# GHC_PRAGMA _M_ CLabelInfo {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq CLabel}}, (CLabel -> CLabel -> Bool), (CLabel -> CLabel -> Bool), (CLabel -> CLabel -> Bool), (CLabel -> CLabel -> Bool), (CLabel -> CLabel -> CLabel), (CLabel -> CLabel -> CLabel), (CLabel -> CLabel -> _CMP_TAG)] [_DFUN_ Eq (CLabel), _CONSTM_ Ord (<) (CLabel), _CONSTM_ Ord (<=) (CLabel), _CONSTM_ Ord (>=) (CLabel), _CONSTM_ Ord (>) (CLabel), _CONSTM_ Ord max (CLabel), _CONSTM_ Ord min (CLabel), _CONSTM_ Ord _tagCmp (CLabel)] _N_ (<) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, (<=) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, (>=) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, (>) = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, max = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, min = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_, _tagCmp = _A_ 2 _U_ 22 _N_ _S_ "SS" _N_ _N_ #-} instance Ord GlobalSwitch {-# GHC_PRAGMA _M_ CmdLineOpts {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq GlobalSwitch}}, (GlobalSwitch -> GlobalSwitch -> Bool), (GlobalSwitch -> GlobalSwitch -> Bool), (GlobalSwitch -> GlobalSwitch -> Bool), (GlobalSwitch -> GlobalSwitch -> Bool), (GlobalSwitch -> GlobalSwitch -> GlobalSwitch), (GlobalSwitch -> GlobalSwitch -> GlobalSwitch), (GlobalSwitch -> GlobalSwitch -> _CMP_TAG)] [_DFUN_ Eq (GlobalSwitch), _CONSTM_ Ord (<) (GlobalSwitch), _CONSTM_ Ord (<=) (GlobalSwitch), _CONSTM_ Ord (>=) (GlobalSwitch), _CONSTM_ Ord (>) (GlobalSwitch), _CONSTM_ Ord max (GlobalSwitch), _CONSTM_ Ord min (GlobalSwitch), _CONSTM_ Ord _tagCmp (GlobalSwitch)] _N_ (<) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (<=) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (>=) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (>) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, max = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, min = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, _tagCmp = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} instance Ord SimplifierSwitch {-# GHC_PRAGMA _M_ CmdLineOpts {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq SimplifierSwitch}}, (SimplifierSwitch -> SimplifierSwitch -> Bool), (SimplifierSwitch -> SimplifierSwitch -> Bool), (SimplifierSwitch -> SimplifierSwitch -> Bool), (SimplifierSwitch -> SimplifierSwitch -> Bool), (SimplifierSwitch -> SimplifierSwitch -> SimplifierSwitch), (SimplifierSwitch -> SimplifierSwitch -> SimplifierSwitch), (SimplifierSwitch -> SimplifierSwitch -> _CMP_TAG)] [_DFUN_ Eq (SimplifierSwitch), _CONSTM_ Ord (<) (SimplifierSwitch), _CONSTM_ Ord (<=) (SimplifierSwitch), _CONSTM_ Ord (>=) (SimplifierSwitch), _CONSTM_ Ord (>) (SimplifierSwitch), _CONSTM_ Ord max (SimplifierSwitch), _CONSTM_ Ord min (SimplifierSwitch), _CONSTM_ Ord _tagCmp (SimplifierSwitch)] _N_ (<) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (<=) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (>=) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, (>) = _A_ 2 _U_ 11 _N_ _S_ "SS" _N_ _N_, max = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, min = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, _tagCmp = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_ #-} instance Ord Id {-# GHC_PRAGMA _M_ Id {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq Id}}, (Id -> Id -> Bool), (Id -> Id -> Bool), (Id -> Id -> Bool), (Id -> Id -> Bool), (Id -> Id -> Id), (Id -> Id -> Id), (Id -> Id -> _CMP_TAG)] [_DFUN_ Eq (Id), _CONSTM_ Ord (<) (Id), _CONSTM_ Ord (<=) (Id), _CONSTM_ Ord (>=) (Id), _CONSTM_ Ord (>) (Id), _CONSTM_ Ord max (Id), _CONSTM_ Ord min (Id), _CONSTM_ Ord _tagCmp (Id)] _N_ (<) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _N_ _N_} _N_ _N_, (<=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _N_ _N_} _N_ _N_, (>=) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _N_ _N_} _N_ _N_, (>) = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _N_ _N_} _N_ _N_, max = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, min = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, _tagCmp = _A_ 2 _U_ 11 _N_ _S_ "U(U(P)AAA)U(U(P)AAA)" {_A_ 2 _U_ 22 _N_ _N_ _N_ _N_} _N_ _N_ #-} instance Ord PrimKind {-# GHC_PRAGMA _M_ PrimKind {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq PrimKind}}, (PrimKind -> PrimKind -> Bool), (PrimKind -> PrimKind -> Bool), (PrimKind -> PrimKind -> Bool), (PrimKind -> PrimKind -> Bool), (PrimKind -> PrimKind -> PrimKind), (PrimKind -> PrimKind -> PrimKind), (PrimKind -> PrimKind -> _CMP_TAG)] [_DFUN_ Eq (PrimKind), _CONSTM_ Ord (<) (PrimKind), _CONSTM_ Ord (<=) (PrimKind), _CONSTM_ Ord (>=) (PrimKind), _CONSTM_ Ord (>) (PrimKind), _CONSTM_ Ord max (PrimKind), _CONSTM_ Ord min (PrimKind), _CONSTM_ Ord _tagCmp (PrimKind)] _N_ (<) = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_, (<=) = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_, (>=) = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_, (>) = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_, max = _A_ 2 _U_ 22 _N_ _S_ "EE" _N_ _N_, min = _A_ 2 _U_ 22 _N_ _S_ "EE" _N_ _N_, _tagCmp = _A_ 2 _U_ 11 _N_ _S_ "EE" _N_ _N_ #-} instance Ord Unique {-# GHC_PRAGMA _M_ Unique {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 9 _!_ _TUP_8 [{{Eq Unique}}, (Unique -> Unique -> Bool), (Unique -> Unique -> Bool), (Unique -> Unique -> Bool), (Unique -> Unique -> Bool), (Unique -> Unique -> Unique), (Unique -> Unique -> Unique), (Unique -> Unique -> _CMP_TAG)] [_DFUN_ Eq (Unique), _CONSTM_ Ord (<) (Unique), _CONSTM_ Ord (<=) (Unique), _CONSTM_ Ord (>=) (Unique), _CONSTM_ Ord (>) (Unique), _CONSTM_ Ord max (Unique), _CONSTM_ Ord min (Unique), _CONSTM_ Ord _tagCmp (Unique)] _N_ (<) = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 1 \ (u0 :: Int#) (u1 :: Int#) -> _#_ ltInt# [] [u0, u1] _N_} _F_ _IF_ARGS_ 0 2 CC 3 \ (u0 :: Unique) (u1 :: Unique) -> case u0 of { _ALG_ _ORIG_ Unique MkUnique (u2 :: Int#) -> case u1 of { _ALG_ _ORIG_ Unique MkUnique (u3 :: Int#) -> _#_ ltInt# [] [u2, u3]; _NO_DEFLT_ }; _NO_DEFLT_ } _N_, (<=) = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 1 \ (u0 :: Int#) (u1 :: Int#) -> _#_ leInt# [] [u0, u1] _N_} _F_ _IF_ARGS_ 0 2 CC 3 \ (u0 :: Unique) (u1 :: Unique) -> case u0 of { _ALG_ _ORIG_ Unique MkUnique (u2 :: Int#) -> case u1 of { _ALG_ _ORIG_ Unique MkUnique (u3 :: Int#) -> _#_ leInt# [] [u2, u3]; _NO_DEFLT_ }; _NO_DEFLT_ } _N_, (>=) = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Int#) (u1 :: Int#) -> case _#_ ltInt# [] [u0, u1] of { _ALG_ True -> _!_ False [] []; False -> _!_ True [] []; _NO_DEFLT_ } _N_} _F_ _IF_ARGS_ 0 2 CC 7 \ (u0 :: Unique) (u1 :: Unique) -> case u0 of { _ALG_ _ORIG_ Unique MkUnique (u2 :: Int#) -> case u1 of { _ALG_ _ORIG_ Unique MkUnique (u3 :: Int#) -> case _#_ ltInt# [] [u2, u3] of { _ALG_ True -> _!_ False [] []; False -> _!_ True [] []; _NO_DEFLT_ }; _NO_DEFLT_ }; _NO_DEFLT_ } _N_, (>) = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _F_ _IF_ARGS_ 0 2 XX 5 \ (u0 :: Int#) (u1 :: Int#) -> case _#_ leInt# [] [u0, u1] of { _ALG_ True -> _!_ False [] []; False -> _!_ True [] []; _NO_DEFLT_ } _N_} _F_ _IF_ARGS_ 0 2 CC 7 \ (u0 :: Unique) (u1 :: Unique) -> case u0 of { _ALG_ _ORIG_ Unique MkUnique (u2 :: Int#) -> case u1 of { _ALG_ _ORIG_ Unique MkUnique (u3 :: Int#) -> case _#_ leInt# [] [u2, u3] of { _ALG_ True -> _!_ False [] []; False -> _!_ True [] []; _NO_DEFLT_ }; _NO_DEFLT_ }; _NO_DEFLT_ } _N_, max = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, min = _A_ 2 _U_ 22 _N_ _N_ _N_ _N_, _tagCmp = _A_ 2 _U_ 11 _N_ _S_ "U(P)U(P)" {_A_ 2 _U_ 22 _N_ _N_ _N_ _N_} _N_ _N_ #-} instance NamedThing Id {-# GHC_PRAGMA _M_ Id {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 11 _!_ _TUP_10 [(Id -> ExportFlag), (Id -> Bool), (Id -> (_PackedString, _PackedString)), (Id -> _PackedString), (Id -> [_PackedString]), (Id -> SrcLoc), (Id -> Unique), (Id -> Bool), (Id -> UniType), (Id -> Bool)] [_CONSTM_ NamedThing getExportFlag (Id), _CONSTM_ NamedThing isLocallyDefined (Id), _CONSTM_ NamedThing getOrigName (Id), _CONSTM_ NamedThing getOccurrenceName (Id), _CONSTM_ NamedThing getInformingModules (Id), _CONSTM_ NamedThing getSrcLoc (Id), _CONSTM_ NamedThing getTheUnique (Id), _CONSTM_ NamedThing hasType (Id), _CONSTM_ NamedThing getType (Id), _CONSTM_ NamedThing fromPreludeCore (Id)] _N_ getExportFlag = _A_ 1 _U_ 1 _N_ _S_ "U(AAAS)" {_A_ 1 _U_ 1 _N_ _N_ _N_ _N_} _N_ _N_, isLocallyDefined = _A_ 1 _U_ 1 _N_ _S_ "U(AAAS)" {_A_ 1 _U_ 1 _N_ _N_ _N_ _N_} _N_ _N_, getOrigName = _A_ 1 _U_ 1 _N_ _S_ "U(LAAS)" {_A_ 2 _U_ 12 _N_ _N_ _N_ _N_} _N_ _N_, getOccurrenceName = _A_ 1 _U_ 1 _N_ _S_ "U(LAAS)" {_A_ 2 _U_ 12 _N_ _N_ _N_ _N_} _N_ _N_, getInformingModules = _A_ 1 _U_ 0 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 1 X 2 \ (u0 :: Id) -> _APP_ _TYAPP_ _ORIG_ Util panic { [_PackedString] } [ _NOREP_S_ "getInformingModule:Id" ] _N_, getSrcLoc = _A_ 1 _U_ 1 _N_ _S_ "U(AALS)" {_A_ 2 _U_ 11 _N_ _N_ _N_ _N_} _N_ _N_, getTheUnique = _A_ 1 _U_ 1 _N_ _S_ "U(U(P)AAA)" {_A_ 1 _U_ 2 _N_ _N_ _F_ _IF_ARGS_ 0 1 X 2 \ (u0 :: Int#) -> _!_ _ORIG_ Unique MkUnique [] [u0] _N_} _F_ _IF_ARGS_ 0 1 C 2 \ (u0 :: Id) -> case u0 of { _ALG_ _ORIG_ Id Id (u1 :: Unique) (u2 :: UniType) (u3 :: IdInfo) (u4 :: IdDetails) -> u1; _NO_DEFLT_ } _N_, hasType = _A_ 1 _U_ 0 _N_ _S_ "A" {_A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _!_ True [] [] _N_} _F_ _IF_ARGS_ 0 1 X 1 \ (u0 :: Id) -> _!_ True [] [] _N_, getType = _A_ 1 _U_ 1 _N_ _S_ "U(ASAA)" {_A_ 1 _U_ 1 _N_ _N_ _F_ _IF_ARGS_ 0 1 X 1 \ (u0 :: UniType) -> u0 _N_} _F_ _IF_ARGS_ 0 1 C 2 \ (u0 :: Id) -> case u0 of { _ALG_ _ORIG_ Id Id (u1 :: Unique) (u2 :: UniType) (u3 :: IdInfo) (u4 :: IdDetails) -> u2; _NO_DEFLT_ } _N_, fromPreludeCore = _A_ 1 _U_ 1 _N_ _S_ "U(AAAS)" {_A_ 1 _U_ 1 _N_ _N_ _N_ _N_} _N_ _N_ #-} instance (Outputable a, Outputable b) => Outputable (a, b) {-# GHC_PRAGMA _M_ Outputable {-dfun-} _A_ 4 _U_ 22 _N_ _S_ "LLLS" _N_ _N_ #-} instance (Outputable a, Outputable b, Outputable c) => Outputable (a, b, c) {-# GHC_PRAGMA _M_ Outputable {-dfun-} _A_ 5 _U_ 222 _N_ _S_ "LLLLU(LLL)" _N_ _N_ #-} instance Outputable BasicLit {-# GHC_PRAGMA _M_ BasicLit {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _CONSTM_ Outputable ppr (BasicLit) _N_ ppr = _A_ 0 _U_ 2122 _N_ _N_ _N_ _N_ #-} instance Outputable Bool {-# GHC_PRAGMA _M_ Outputable {-dfun-} _A_ 4 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _CONSTM_ Outputable ppr (Bool) _N_ ppr = _A_ 4 _U_ 0120 _N_ _S_ "AELA" {_A_ 2 _U_ 12 _N_ _N_ _N_ _N_} _N_ _N_ #-} instance Outputable Id {-# GHC_PRAGMA _M_ Id {-dfun-} _A_ 2 _N_ _N_ _N_ _N_ _N_ ppr = _A_ 2 _U_ 2222 _N_ _N_ _N_ _N_ #-} instance Outputable PrimKind {-# GHC_PRAGMA _M_ PrimKind {-dfun-} _A_ 2 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _CONSTM_ Outputable ppr (PrimKind) _N_ ppr = _A_ 2 _U_ 0120 _N_ _S_ "AL" {_A_ 1 _U_ 120 _N_ _N_ _N_ _N_} _N_ _N_ #-} instance Outputable PrimOp {-# GHC_PRAGMA _M_ PrimOps {-dfun-} _A_ 2 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _ORIG_ PrimOps pprPrimOp _N_ ppr = _A_ 2 _U_ 2222 _N_ _N_ _F_ _IF_ARGS_ 0 0 X 1 _ORIG_ PrimOps pprPrimOp _N_ #-} instance Outputable a => Outputable (StgAtom a) {-# GHC_PRAGMA _M_ StgSyn {-dfun-} _A_ 3 _U_ 2 _N_ _S_ "LLS" _F_ _IF_ARGS_ 1 3 XXC 8 _/\_ u0 -> \ (u1 :: {{Outputable u0}}) (u2 :: PprStyle) (u3 :: StgAtom u0) -> case u3 of { _ALG_ _ORIG_ StgSyn StgVarAtom (u4 :: u0) -> _APP_ u1 [ u2, u4 ]; _ORIG_ StgSyn StgLitAtom (u5 :: BasicLit) -> _APP_ _CONSTM_ Outputable ppr (BasicLit) [ u2, u5 ]; _NO_DEFLT_ } _N_ #-} instance (Outputable a, Outputable b, Ord b) => Outputable (StgExpr a b) {-# GHC_PRAGMA _M_ StgSyn {-dfun-} _A_ 3 _U_ 222 _N_ _N_ _N_ _N_ #-} instance Outputable a => Outputable [a] {-# GHC_PRAGMA _M_ Outputable {-dfun-} _A_ 3 _U_ 2 _N_ _N_ _N_ _N_ #-} instance Text CExprMacro {-# GHC_PRAGMA _M_ AbsCSyn {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [(Int -> [Char] -> [(CExprMacro, [Char])]), (Int -> CExprMacro -> [Char] -> [Char]), ([Char] -> [([CExprMacro], [Char])]), ([CExprMacro] -> [Char] -> [Char])] [_CONSTM_ Text readsPrec (CExprMacro), _CONSTM_ Text showsPrec (CExprMacro), _CONSTM_ Text readList (CExprMacro), _CONSTM_ Text showList (CExprMacro)] _N_ readsPrec = _A_ 2 _U_ 22 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 2 XX 4 \ (u0 :: Int) (u1 :: [Char]) -> _APP_ _TYAPP_ patError# { (Int -> [Char] -> [(CExprMacro, [Char])]) } [ _NOREP_S_ "%DPreludeCore.Text.readsPrec\"", u0, u1 ] _N_, showsPrec = _A_ 2 _U_ 112 _N_ _S_ "LE" _N_ _N_, readList = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_, showList = _A_ 0 _U_ 12 _N_ _N_ _N_ _N_ #-} instance Text CStmtMacro {-# GHC_PRAGMA _M_ AbsCSyn {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [(Int -> [Char] -> [(CStmtMacro, [Char])]), (Int -> CStmtMacro -> [Char] -> [Char]), ([Char] -> [([CStmtMacro], [Char])]), ([CStmtMacro] -> [Char] -> [Char])] [_CONSTM_ Text readsPrec (CStmtMacro), _CONSTM_ Text showsPrec (CStmtMacro), _CONSTM_ Text readList (CStmtMacro), _CONSTM_ Text showList (CStmtMacro)] _N_ readsPrec = _A_ 2 _U_ 22 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 2 XX 4 \ (u0 :: Int) (u1 :: [Char]) -> _APP_ _TYAPP_ patError# { (Int -> [Char] -> [(CStmtMacro, [Char])]) } [ _NOREP_S_ "%DPreludeCore.Text.readsPrec\"", u0, u1 ] _N_, showsPrec = _A_ 2 _U_ 112 _N_ _S_ "LE" _N_ _N_, readList = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_, showList = _A_ 0 _U_ 12 _N_ _N_ _N_ _N_ #-} instance Text Unique {-# GHC_PRAGMA _M_ Unique {-dfun-} _A_ 0 _N_ _N_ _N_ _F_ _IF_ARGS_ 0 0 X 5 _!_ _TUP_4 [(Int -> [Char] -> [(Unique, [Char])]), (Int -> Unique -> [Char] -> [Char]), ([Char] -> [([Unique], [Char])]), ([Unique] -> [Char] -> [Char])] [_CONSTM_ Text readsPrec (Unique), _CONSTM_ Text showsPrec (Unique), _CONSTM_ Text readList (Unique), _CONSTM_ Text showList (Unique)] _N_ readsPrec = _A_ 2 _U_ 02 _N_ _S_ _!_ _F_ _IF_ARGS_ 0 2 XX 3 \ (u0 :: Int) (u1 :: [Char]) -> _APP_ _TYAPP_ _ORIG_ Util panic { ([Char] -> [(Unique, [Char])]) } [ _NOREP_S_ "no readsPrec for Unique", u1 ] _N_, showsPrec = _A_ 3 _U_ 010 _N_ _S_ "AU(P)A" {_A_ 1 _U_ 2 _N_ _N_ _N_ _N_} _F_ _IF_ARGS_ 0 3 XXX 5 \ (u0 :: Int) (u1 :: Unique) (u2 :: [Char]) -> let {(u3 :: _PackedString) = _APP_ _ORIG_ Unique showUnique [ u1 ]} in _APP_ _ORIG_ PreludePS _unpackPS [ u3 ] _N_, readList = _A_ 0 _U_ 2 _N_ _N_ _N_ _N_, showList = _A_ 0 _U_ 12 _N_ _N_ _N_ _N_ #-}