module TysWiredIn (
mkWiredInTyConName,
mkWiredInIdName,
mkFunKind, mkForAllKind,
wiredInTyCons, isBuiltInOcc_maybe,
boolTy, boolTyCon, boolTyCon_RDR, boolTyConName,
trueDataCon, trueDataConId, true_RDR,
falseDataCon, falseDataConId, false_RDR,
promotedFalseDataCon, promotedTrueDataCon,
orderingTyCon,
ltDataCon, ltDataConId,
eqDataCon, eqDataConId,
gtDataCon, gtDataConId,
promotedLTDataCon, promotedEQDataCon, promotedGTDataCon,
boxingDataCon_maybe,
charTyCon, charDataCon, charTyCon_RDR,
charTy, stringTy, charTyConName,
doubleTyCon, doubleDataCon, doubleTy, doubleTyConName,
floatTyCon, floatDataCon, floatTy, floatTyConName,
intTyCon, intDataCon, intTyCon_RDR, intDataCon_RDR, intTyConName,
intTy,
wordTyCon, wordDataCon, wordTyConName, wordTy,
word8TyCon, word8DataCon, word8TyConName, word8Ty,
listTyCon, listTyCon_RDR, listTyConName, listTyConKey,
nilDataCon, nilDataConName, nilDataConKey,
consDataCon_RDR, consDataCon, consDataConName,
promotedNilDataCon, promotedConsDataCon,
mkListTy, mkPromotedListTy,
maybeTyCon, maybeTyConName,
nothingDataCon, nothingDataConName, promotedNothingDataCon,
justDataCon, justDataConName, promotedJustDataCon,
mkTupleTy, mkBoxedTupleTy,
tupleTyCon, tupleDataCon, tupleTyConName,
promotedTupleDataCon,
unitTyCon, unitDataCon, unitDataConId, unitTy, unitTyConKey,
pairTyCon,
unboxedUnitTyCon, unboxedUnitDataCon,
unboxedTupleKind, unboxedSumKind,
cTupleTyConName, cTupleTyConNames, isCTupleTyConName,
cTupleDataConName, cTupleDataConNames,
anyTyCon, anyTy, anyTypeOfKind,
mkSumTy, sumTyCon, sumDataCon,
typeNatKindCon, typeNatKind, typeSymbolKindCon, typeSymbolKind,
isLiftedTypeKindTyConName, liftedTypeKind, constraintKind,
liftedTypeKindTyCon, constraintKindTyCon,
liftedTypeKindTyConName,
heqTyCon, heqClass, heqDataCon,
coercibleTyCon, coercibleTyConName, coercibleDataCon, coercibleClass,
runtimeRepTyCon, vecCountTyCon, vecElemTyCon,
runtimeRepTy, liftedRepTy, liftedRepDataCon, liftedRepDataConTyCon,
vecRepDataConTyCon, tupleRepDataConTyCon, sumRepDataConTyCon,
liftedRepDataConTy, unliftedRepDataConTy, intRepDataConTy,
wordRepDataConTy, int64RepDataConTy, word64RepDataConTy, addrRepDataConTy,
floatRepDataConTy, doubleRepDataConTy,
vec2DataConTy, vec4DataConTy, vec8DataConTy, vec16DataConTy, vec32DataConTy,
vec64DataConTy,
int8ElemRepDataConTy, int16ElemRepDataConTy, int32ElemRepDataConTy,
int64ElemRepDataConTy, word8ElemRepDataConTy, word16ElemRepDataConTy,
word32ElemRepDataConTy, word64ElemRepDataConTy, floatElemRepDataConTy,
doubleElemRepDataConTy
) where
#include "HsVersions.h"
#include "MachDeps.h"
import GhcPrelude
import MkId( mkDataConWorkId, mkDictSelId )
import PrelNames
import TysPrim
import KnownUniques
import CoAxiom
import Id
import Constants ( mAX_TUPLE_SIZE, mAX_CTUPLE_SIZE, mAX_SUM_SIZE )
import Module ( Module )
import Type
import RepType
import DataCon
import ConLike
import TyCon
import Class ( Class, mkClass )
import RdrName
import Name
import NameEnv ( NameEnv, mkNameEnv, lookupNameEnv, lookupNameEnv_NF )
import NameSet ( NameSet, mkNameSet, elemNameSet )
import BasicTypes ( Arity, Boxity(..), TupleSort(..), ConTagZ,
SourceText(..) )
import ForeignCall
import SrcLoc ( noSrcSpan )
import Unique
import Data.Array
import FastString
import Outputable
import Util
import BooleanFormula ( mkAnd )
import qualified Data.ByteString.Char8 as BS
alpha_tyvar :: [TyVar]
alpha_tyvar = [alphaTyVar]
alpha_ty :: [Type]
alpha_ty = [alphaTy]
wiredInTyCons :: [TyCon]
wiredInTyCons = [
unitTyCon
, unboxedUnitTyCon
, anyTyCon
, boolTyCon
, charTyCon
, doubleTyCon
, floatTyCon
, intTyCon
, wordTyCon
, word8TyCon
, listTyCon
, maybeTyCon
, heqTyCon
, coercibleTyCon
, typeNatKindCon
, typeSymbolKindCon
, runtimeRepTyCon
, vecCountTyCon
, vecElemTyCon
, constraintKindTyCon
, liftedTypeKindTyCon
]
mkWiredInTyConName :: BuiltInSyntax -> Module -> FastString -> Unique -> TyCon -> Name
mkWiredInTyConName built_in modu fs unique tycon
= mkWiredInName modu (mkTcOccFS fs) unique
(ATyCon tycon)
built_in
mkWiredInDataConName :: BuiltInSyntax -> Module -> FastString -> Unique -> DataCon -> Name
mkWiredInDataConName built_in modu fs unique datacon
= mkWiredInName modu (mkDataOccFS fs) unique
(AConLike (RealDataCon datacon))
built_in
mkWiredInIdName :: Module -> FastString -> Unique -> Id -> Name
mkWiredInIdName mod fs uniq id
= mkWiredInName mod (mkOccNameFS Name.varName fs) uniq (AnId id) UserSyntax
heqTyConName, heqDataConName, heqSCSelIdName :: Name
heqTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "~~") heqTyConKey heqTyCon
heqDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "Eq#") heqDataConKey heqDataCon
heqSCSelIdName = mkWiredInIdName gHC_TYPES (fsLit "heq_sel") heqSCSelIdKey heqSCSelId
coercibleTyConName, coercibleDataConName, coercibleSCSelIdName :: Name
coercibleTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Coercible") coercibleTyConKey coercibleTyCon
coercibleDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "MkCoercible") coercibleDataConKey coercibleDataCon
coercibleSCSelIdName = mkWiredInIdName gHC_TYPES (fsLit "coercible_sel") coercibleSCSelIdKey coercibleSCSelId
charTyConName, charDataConName, intTyConName, intDataConName :: Name
charTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Char") charTyConKey charTyCon
charDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "C#") charDataConKey charDataCon
intTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Int") intTyConKey intTyCon
intDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "I#") intDataConKey intDataCon
boolTyConName, falseDataConName, trueDataConName :: Name
boolTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Bool") boolTyConKey boolTyCon
falseDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "False") falseDataConKey falseDataCon
trueDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "True") trueDataConKey trueDataCon
listTyConName, nilDataConName, consDataConName :: Name
listTyConName = mkWiredInTyConName BuiltInSyntax gHC_TYPES (fsLit "[]") listTyConKey listTyCon
nilDataConName = mkWiredInDataConName BuiltInSyntax gHC_TYPES (fsLit "[]") nilDataConKey nilDataCon
consDataConName = mkWiredInDataConName BuiltInSyntax gHC_TYPES (fsLit ":") consDataConKey consDataCon
maybeTyConName, nothingDataConName, justDataConName :: Name
maybeTyConName = mkWiredInTyConName UserSyntax gHC_MAYBE (fsLit "Maybe")
maybeTyConKey maybeTyCon
nothingDataConName = mkWiredInDataConName UserSyntax gHC_MAYBE (fsLit "Nothing")
nothingDataConKey nothingDataCon
justDataConName = mkWiredInDataConName UserSyntax gHC_MAYBE (fsLit "Just")
justDataConKey justDataCon
wordTyConName, wordDataConName, word8TyConName, word8DataConName :: Name
wordTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Word") wordTyConKey wordTyCon
wordDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "W#") wordDataConKey wordDataCon
word8TyConName = mkWiredInTyConName UserSyntax gHC_WORD (fsLit "Word8") word8TyConKey word8TyCon
word8DataConName = mkWiredInDataConName UserSyntax gHC_WORD (fsLit "W8#") word8DataConKey word8DataCon
floatTyConName, floatDataConName, doubleTyConName, doubleDataConName :: Name
floatTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Float") floatTyConKey floatTyCon
floatDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "F#") floatDataConKey floatDataCon
doubleTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Double") doubleTyConKey doubleTyCon
doubleDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "D#") doubleDataConKey doubleDataCon
anyTyConName :: Name
anyTyConName =
mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Any") anyTyConKey anyTyCon
anyTyCon :: TyCon
anyTyCon = mkFamilyTyCon anyTyConName binders res_kind Nothing
(ClosedSynFamilyTyCon Nothing)
Nothing
NotInjective
where
binders@[kv] = mkTemplateKindTyConBinders [liftedTypeKind]
res_kind = mkTyVarTy (binderVar kv)
anyTy :: Type
anyTy = mkTyConTy anyTyCon
anyTypeOfKind :: Kind -> Type
anyTypeOfKind kind = mkTyConApp anyTyCon [kind]
typeNatKindConName, typeSymbolKindConName :: Name
typeNatKindConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Nat") typeNatKindConNameKey typeNatKindCon
typeSymbolKindConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Symbol") typeSymbolKindConNameKey typeSymbolKindCon
constraintKindTyConName :: Name
constraintKindTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Constraint") constraintKindTyConKey constraintKindTyCon
liftedTypeKindTyConName :: Name
liftedTypeKindTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "Type") liftedTypeKindTyConKey liftedTypeKindTyCon
runtimeRepTyConName, vecRepDataConName, tupleRepDataConName, sumRepDataConName :: Name
runtimeRepTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "RuntimeRep") runtimeRepTyConKey runtimeRepTyCon
vecRepDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "VecRep") vecRepDataConKey vecRepDataCon
tupleRepDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "TupleRep") tupleRepDataConKey tupleRepDataCon
sumRepDataConName = mkWiredInDataConName UserSyntax gHC_TYPES (fsLit "SumRep") sumRepDataConKey sumRepDataCon
runtimeRepSimpleDataConNames :: [Name]
runtimeRepSimpleDataConNames
= zipWith3Lazy mk_special_dc_name
[ fsLit "LiftedRep", fsLit "UnliftedRep"
, fsLit "IntRep"
, fsLit "WordRep", fsLit "Int64Rep", fsLit "Word64Rep"
, fsLit "AddrRep", fsLit "FloatRep", fsLit "DoubleRep" ]
runtimeRepSimpleDataConKeys
runtimeRepSimpleDataCons
vecCountTyConName :: Name
vecCountTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "VecCount") vecCountTyConKey vecCountTyCon
vecCountDataConNames :: [Name]
vecCountDataConNames = zipWith3Lazy mk_special_dc_name
[ fsLit "Vec2", fsLit "Vec4", fsLit "Vec8"
, fsLit "Vec16", fsLit "Vec32", fsLit "Vec64" ]
vecCountDataConKeys
vecCountDataCons
vecElemTyConName :: Name
vecElemTyConName = mkWiredInTyConName UserSyntax gHC_TYPES (fsLit "VecElem") vecElemTyConKey vecElemTyCon
vecElemDataConNames :: [Name]
vecElemDataConNames = zipWith3Lazy mk_special_dc_name
[ fsLit "Int8ElemRep", fsLit "Int16ElemRep", fsLit "Int32ElemRep"
, fsLit "Int64ElemRep", fsLit "Word8ElemRep", fsLit "Word16ElemRep"
, fsLit "Word32ElemRep", fsLit "Word64ElemRep"
, fsLit "FloatElemRep", fsLit "DoubleElemRep" ]
vecElemDataConKeys
vecElemDataCons
mk_special_dc_name :: FastString -> Unique -> DataCon -> Name
mk_special_dc_name fs u dc = mkWiredInDataConName UserSyntax gHC_TYPES fs u dc
boolTyCon_RDR, false_RDR, true_RDR, intTyCon_RDR, charTyCon_RDR,
intDataCon_RDR, listTyCon_RDR, consDataCon_RDR :: RdrName
boolTyCon_RDR = nameRdrName boolTyConName
false_RDR = nameRdrName falseDataConName
true_RDR = nameRdrName trueDataConName
intTyCon_RDR = nameRdrName intTyConName
charTyCon_RDR = nameRdrName charTyConName
intDataCon_RDR = nameRdrName intDataConName
listTyCon_RDR = nameRdrName listTyConName
consDataCon_RDR = nameRdrName consDataConName
pcTyCon :: Name -> Maybe CType -> [TyVar] -> [DataCon] -> TyCon
pcTyCon name cType tyvars cons
= mkAlgTyCon name
(mkAnonTyConBinders tyvars)
liftedTypeKind
(map (const Representational) tyvars)
cType
[]
(mkDataTyConRhs cons)
(VanillaAlgTyCon (mkPrelTyConRepName name))
False
pcDataCon :: Name -> [TyVar] -> [Type] -> TyCon -> DataCon
pcDataCon n univs = pcDataConWithFixity False n univs
[]
univs
pcDataConWithFixity :: Bool
-> Name
-> [TyVar]
-> [TyVar]
-> [TyVar]
-> [Type]
-> TyCon
-> DataCon
pcDataConWithFixity infx n = pcDataConWithFixity' infx n (dataConWorkerUnique (nameUnique n))
NoRRI
pcDataConWithFixity' :: Bool -> Name -> Unique -> RuntimeRepInfo
-> [TyVar] -> [TyVar] -> [TyVar]
-> [Type] -> TyCon -> DataCon
pcDataConWithFixity' declared_infix dc_name wrk_key rri
tyvars ex_tyvars user_tyvars arg_tys tycon
= data_con
where
tag_map = mkTyConTagMap tycon
data_con = mkDataCon dc_name declared_infix prom_info
(map (const no_bang) arg_tys)
[]
tyvars ex_tyvars
(mkTyVarBinders Specified user_tyvars)
[]
[]
arg_tys (mkTyConApp tycon (mkTyVarTys tyvars))
rri
tycon
(lookupNameEnv_NF tag_map dc_name)
[]
(mkDataConWorkId wrk_name data_con)
NoDataConRep
no_bang = HsSrcBang NoSourceText NoSrcUnpack NoSrcStrict
wrk_name = mkDataConWorkerName data_con wrk_key
prom_info = mkPrelTyConRepName dc_name
mkDataConWorkerName :: DataCon -> Unique -> Name
mkDataConWorkerName data_con wrk_key =
mkWiredInName modu wrk_occ wrk_key
(AnId (dataConWorkId data_con)) UserSyntax
where
modu = ASSERT( isExternalName dc_name )
nameModule dc_name
dc_name = dataConName data_con
dc_occ = nameOccName dc_name
wrk_occ = mkDataConWorkerOcc dc_occ
pcSpecialDataCon :: Name -> [Type] -> TyCon -> RuntimeRepInfo -> DataCon
pcSpecialDataCon dc_name arg_tys tycon rri
= pcDataConWithFixity' False dc_name (dataConWorkerUnique (nameUnique dc_name)) rri
[] [] [] arg_tys tycon
typeNatKindCon, typeSymbolKindCon :: TyCon
typeNatKindCon = pcTyCon typeNatKindConName Nothing [] []
typeSymbolKindCon = pcTyCon typeSymbolKindConName Nothing [] []
typeNatKind, typeSymbolKind :: Kind
typeNatKind = mkTyConTy typeNatKindCon
typeSymbolKind = mkTyConTy typeSymbolKindCon
constraintKindTyCon :: TyCon
constraintKindTyCon = pcTyCon constraintKindTyConName Nothing [] []
liftedTypeKind, constraintKind :: Kind
liftedTypeKind = tYPE liftedRepTy
constraintKind = mkTyConApp constraintKindTyCon []
mkFunKind :: Kind -> Kind -> Kind
mkFunKind = mkFunTy
mkForAllKind :: TyVar -> ArgFlag -> Kind -> Kind
mkForAllKind = mkForAllTy
isBuiltInOcc_maybe :: OccName -> Maybe Name
isBuiltInOcc_maybe occ =
case name of
"[]" -> Just $ choose_ns listTyConName nilDataConName
":" -> Just consDataConName
"~" -> Just eqTyConName
"()" -> Just $ tup_name Boxed 0
_ | Just rest <- "(" `BS.stripPrefix` name
, (commas, rest') <- BS.span (==',') rest
, ")" <- rest'
-> Just $ tup_name Boxed (1+BS.length commas)
"(##)" -> Just $ tup_name Unboxed 0
"Unit#" -> Just $ tup_name Unboxed 1
_ | Just rest <- "(#" `BS.stripPrefix` name
, (commas, rest') <- BS.span (==',') rest
, "#)" <- rest'
-> Just $ tup_name Unboxed (1+BS.length commas)
_ | Just rest <- "(#" `BS.stripPrefix` name
, (pipes, rest') <- BS.span (=='|') rest
, "#)" <- rest'
-> Just $ tyConName $ sumTyCon (1+BS.length pipes)
_ | Just rest <- "(#" `BS.stripPrefix` name
, (pipes1, rest') <- BS.span (=='|') rest
, Just rest'' <- "_" `BS.stripPrefix` rest'
, (pipes2, rest''') <- BS.span (=='|') rest''
, "#)" <- rest'''
-> let arity = BS.length pipes1 + BS.length pipes2 + 1
alt = BS.length pipes1 + 1
in Just $ dataConName $ sumDataCon alt arity
_ -> Nothing
where
name = fastStringToByteString $ occNameFS occ
choose_ns :: Name -> Name -> Name
choose_ns tc dc
| isTcClsNameSpace ns = tc
| isDataConNameSpace ns = dc
| otherwise = pprPanic "tup_name" (ppr occ)
where ns = occNameSpace occ
tup_name boxity arity
= choose_ns (getName (tupleTyCon boxity arity))
(getName (tupleDataCon boxity arity))
mkTupleOcc :: NameSpace -> Boxity -> Arity -> OccName
mkTupleOcc ns Boxed ar = mkOccName ns (mkBoxedTupleStr ar)
mkTupleOcc ns Unboxed ar = mkOccName ns (mkUnboxedTupleStr ar)
mkCTupleOcc :: NameSpace -> Arity -> OccName
mkCTupleOcc ns ar = mkOccName ns (mkConstraintTupleStr ar)
mkBoxedTupleStr :: Arity -> String
mkBoxedTupleStr 0 = "()"
mkBoxedTupleStr 1 = "Unit"
mkBoxedTupleStr ar = '(' : commas ar ++ ")"
mkUnboxedTupleStr :: Arity -> String
mkUnboxedTupleStr 0 = "(##)"
mkUnboxedTupleStr 1 = "Unit#"
mkUnboxedTupleStr ar = "(#" ++ commas ar ++ "#)"
mkConstraintTupleStr :: Arity -> String
mkConstraintTupleStr 0 = "(%%)"
mkConstraintTupleStr 1 = "Unit%"
mkConstraintTupleStr ar = "(%" ++ commas ar ++ "%)"
commas :: Arity -> String
commas ar = take (ar1) (repeat ',')
cTupleTyConName :: Arity -> Name
cTupleTyConName arity
= mkExternalName (mkCTupleTyConUnique arity) gHC_CLASSES
(mkCTupleOcc tcName arity) noSrcSpan
cTupleTyConNames :: [Name]
cTupleTyConNames = map cTupleTyConName (0 : [2..mAX_CTUPLE_SIZE])
cTupleTyConNameSet :: NameSet
cTupleTyConNameSet = mkNameSet cTupleTyConNames
isCTupleTyConName :: Name -> Bool
isCTupleTyConName n
= ASSERT2( isExternalName n, ppr n )
nameModule n == gHC_CLASSES
&& n `elemNameSet` cTupleTyConNameSet
cTupleDataConName :: Arity -> Name
cTupleDataConName arity
= mkExternalName (mkCTupleDataConUnique arity) gHC_CLASSES
(mkCTupleOcc dataName arity) noSrcSpan
cTupleDataConNames :: [Name]
cTupleDataConNames = map cTupleDataConName (0 : [2..mAX_CTUPLE_SIZE])
tupleTyCon :: Boxity -> Arity -> TyCon
tupleTyCon sort i | i > mAX_TUPLE_SIZE = fst (mk_tuple sort i)
tupleTyCon Boxed i = fst (boxedTupleArr ! i)
tupleTyCon Unboxed i = fst (unboxedTupleArr ! i)
tupleTyConName :: TupleSort -> Arity -> Name
tupleTyConName ConstraintTuple a = cTupleTyConName a
tupleTyConName BoxedTuple a = tyConName (tupleTyCon Boxed a)
tupleTyConName UnboxedTuple a = tyConName (tupleTyCon Unboxed a)
promotedTupleDataCon :: Boxity -> Arity -> TyCon
promotedTupleDataCon boxity i = promoteDataCon (tupleDataCon boxity i)
tupleDataCon :: Boxity -> Arity -> DataCon
tupleDataCon sort i | i > mAX_TUPLE_SIZE = snd (mk_tuple sort i)
tupleDataCon Boxed i = snd (boxedTupleArr ! i)
tupleDataCon Unboxed i = snd (unboxedTupleArr ! i)
boxedTupleArr, unboxedTupleArr :: Array Int (TyCon,DataCon)
boxedTupleArr = listArray (0,mAX_TUPLE_SIZE) [mk_tuple Boxed i | i <- [0..mAX_TUPLE_SIZE]]
unboxedTupleArr = listArray (0,mAX_TUPLE_SIZE) [mk_tuple Unboxed i | i <- [0..mAX_TUPLE_SIZE]]
unboxedTupleSumKind :: TyCon -> [Type] -> Kind
unboxedTupleSumKind tc rr_tys
= tYPE (mkTyConApp tc [mkPromotedListTy runtimeRepTy rr_tys])
unboxedTupleKind :: [Type] -> Kind
unboxedTupleKind = unboxedTupleSumKind tupleRepDataConTyCon
mk_tuple :: Boxity -> Int -> (TyCon,DataCon)
mk_tuple Boxed arity = (tycon, tuple_con)
where
tycon = mkTupleTyCon tc_name tc_binders tc_res_kind tc_arity tuple_con
BoxedTuple flavour
tc_binders = mkTemplateAnonTyConBinders (nOfThem arity liftedTypeKind)
tc_res_kind = liftedTypeKind
tc_arity = arity
flavour = VanillaAlgTyCon (mkPrelTyConRepName tc_name)
dc_tvs = binderVars tc_binders
dc_arg_tys = mkTyVarTys dc_tvs
tuple_con = pcDataCon dc_name dc_tvs dc_arg_tys tycon
boxity = Boxed
modu = gHC_TUPLE
tc_name = mkWiredInName modu (mkTupleOcc tcName boxity arity) tc_uniq
(ATyCon tycon) BuiltInSyntax
dc_name = mkWiredInName modu (mkTupleOcc dataName boxity arity) dc_uniq
(AConLike (RealDataCon tuple_con)) BuiltInSyntax
tc_uniq = mkTupleTyConUnique boxity arity
dc_uniq = mkTupleDataConUnique boxity arity
mk_tuple Unboxed arity = (tycon, tuple_con)
where
tycon = mkTupleTyCon tc_name tc_binders tc_res_kind tc_arity tuple_con
UnboxedTuple flavour
tc_binders = mkTemplateTyConBinders (nOfThem arity runtimeRepTy)
(\ks -> map tYPE ks)
tc_res_kind = unboxedTupleKind rr_tys
tc_arity = arity * 2
flavour = UnboxedAlgTyCon $ Just (mkPrelTyConRepName tc_name)
dc_tvs = binderVars tc_binders
(rr_tys, dc_arg_tys) = splitAt arity (mkTyVarTys dc_tvs)
tuple_con = pcDataCon dc_name dc_tvs dc_arg_tys tycon
boxity = Unboxed
modu = gHC_PRIM
tc_name = mkWiredInName modu (mkTupleOcc tcName boxity arity) tc_uniq
(ATyCon tycon) BuiltInSyntax
dc_name = mkWiredInName modu (mkTupleOcc dataName boxity arity) dc_uniq
(AConLike (RealDataCon tuple_con)) BuiltInSyntax
tc_uniq = mkTupleTyConUnique boxity arity
dc_uniq = mkTupleDataConUnique boxity arity
unitTyCon :: TyCon
unitTyCon = tupleTyCon Boxed 0
unitTyConKey :: Unique
unitTyConKey = getUnique unitTyCon
unitDataCon :: DataCon
unitDataCon = head (tyConDataCons unitTyCon)
unitDataConId :: Id
unitDataConId = dataConWorkId unitDataCon
pairTyCon :: TyCon
pairTyCon = tupleTyCon Boxed 2
unboxedUnitTyCon :: TyCon
unboxedUnitTyCon = tupleTyCon Unboxed 0
unboxedUnitDataCon :: DataCon
unboxedUnitDataCon = tupleDataCon Unboxed 0
mkSumTyConOcc :: Arity -> OccName
mkSumTyConOcc n = mkOccName tcName str
where
str = '(' : '#' : bars ++ "#)"
bars = replicate (n1) '|'
mkSumDataConOcc :: ConTag -> Arity -> OccName
mkSumDataConOcc alt n = mkOccName dataName str
where
str = '(' : '#' : bars alt ++ '_' : bars (n alt 1) ++ "#)"
bars i = replicate i '|'
sumTyCon :: Arity -> TyCon
sumTyCon arity
| arity > mAX_SUM_SIZE
= fst (mk_sum arity)
| arity < 2
= panic ("sumTyCon: Arity starts from 2. (arity: " ++ show arity ++ ")")
| otherwise
= fst (unboxedSumArr ! arity)
sumDataCon :: ConTag
-> Arity
-> DataCon
sumDataCon alt arity
| alt > arity
= panic ("sumDataCon: index out of bounds: alt: "
++ show alt ++ " > arity " ++ show arity)
| alt <= 0
= panic ("sumDataCon: Alts start from 1. (alt: " ++ show alt
++ ", arity: " ++ show arity ++ ")")
| arity < 2
= panic ("sumDataCon: Arity starts from 2. (alt: " ++ show alt
++ ", arity: " ++ show arity ++ ")")
| arity > mAX_SUM_SIZE
= snd (mk_sum arity) ! (alt 1)
| otherwise
= snd (unboxedSumArr ! arity) ! (alt 1)
unboxedSumArr :: Array Int (TyCon, Array Int DataCon)
unboxedSumArr = listArray (2,mAX_SUM_SIZE) [mk_sum i | i <- [2..mAX_SUM_SIZE]]
unboxedSumKind :: [Type] -> Kind
unboxedSumKind = unboxedTupleSumKind sumRepDataConTyCon
mk_sum :: Arity -> (TyCon, Array ConTagZ DataCon)
mk_sum arity = (tycon, sum_cons)
where
tycon = mkSumTyCon tc_name tc_binders tc_res_kind (arity * 2) tyvars (elems sum_cons)
(UnboxedAlgTyCon rep_name)
rep_name = Nothing
tc_binders = mkTemplateTyConBinders (nOfThem arity runtimeRepTy)
(\ks -> map tYPE ks)
tyvars = binderVars tc_binders
tc_res_kind = unboxedSumKind rr_tys
(rr_tys, tyvar_tys) = splitAt arity (mkTyVarTys tyvars)
tc_name = mkWiredInName gHC_PRIM (mkSumTyConOcc arity) tc_uniq
(ATyCon tycon) BuiltInSyntax
sum_cons = listArray (0,arity1) [sum_con i | i <- [0..arity1]]
sum_con i = let dc = pcDataCon dc_name
tyvars
[tyvar_tys !! i]
tycon
dc_name = mkWiredInName gHC_PRIM
(mkSumDataConOcc i arity)
(dc_uniq i)
(AConLike (RealDataCon dc))
BuiltInSyntax
in dc
tc_uniq = mkSumTyConUnique arity
dc_uniq i = mkSumDataConUnique i arity
heqTyCon, coercibleTyCon :: TyCon
heqClass, coercibleClass :: Class
heqDataCon, coercibleDataCon :: DataCon
heqSCSelId, coercibleSCSelId :: Id
(heqTyCon, heqClass, heqDataCon, heqSCSelId)
= (tycon, klass, datacon, sc_sel_id)
where
tycon = mkClassTyCon heqTyConName binders roles
rhs klass
(mkPrelTyConRepName heqTyConName)
klass = mk_class tycon sc_pred sc_sel_id
datacon = pcDataCon heqDataConName tvs [sc_pred] tycon
binders = mkTemplateTyConBinders [liftedTypeKind, liftedTypeKind] (\ks -> ks)
roles = [Nominal, Nominal, Nominal, Nominal]
rhs = mkDataTyConRhs [datacon]
tvs = binderVars binders
sc_pred = mkTyConApp eqPrimTyCon (mkTyVarTys tvs)
sc_sel_id = mkDictSelId heqSCSelIdName klass
(coercibleTyCon, coercibleClass, coercibleDataCon, coercibleSCSelId)
= (tycon, klass, datacon, sc_sel_id)
where
tycon = mkClassTyCon coercibleTyConName binders roles
rhs klass
(mkPrelTyConRepName coercibleTyConName)
klass = mk_class tycon sc_pred sc_sel_id
datacon = pcDataCon coercibleDataConName tvs [sc_pred] tycon
binders = mkTemplateTyConBinders [liftedTypeKind] (\[k] -> [k,k])
roles = [Nominal, Representational, Representational]
rhs = mkDataTyConRhs [datacon]
tvs@[k,a,b] = binderVars binders
sc_pred = mkTyConApp eqReprPrimTyCon (mkTyVarTys [k, k, a, b])
sc_sel_id = mkDictSelId coercibleSCSelIdName klass
mk_class :: TyCon -> PredType -> Id -> Class
mk_class tycon sc_pred sc_sel_id
= mkClass (tyConName tycon) (tyConTyVars tycon) [] [sc_pred] [sc_sel_id]
[] [] (mkAnd []) tycon
runtimeRepTy :: Type
runtimeRepTy = mkTyConTy runtimeRepTyCon
liftedTypeKindTyCon :: TyCon
liftedTypeKindTyCon = buildSynTyCon liftedTypeKindTyConName
[] liftedTypeKind []
(tYPE liftedRepTy)
runtimeRepTyCon :: TyCon
runtimeRepTyCon = pcTyCon runtimeRepTyConName Nothing []
(vecRepDataCon : tupleRepDataCon :
sumRepDataCon : runtimeRepSimpleDataCons)
vecRepDataCon :: DataCon
vecRepDataCon = pcSpecialDataCon vecRepDataConName [ mkTyConTy vecCountTyCon
, mkTyConTy vecElemTyCon ]
runtimeRepTyCon
(RuntimeRep prim_rep_fun)
where
prim_rep_fun [count, elem]
| VecCount n <- tyConRuntimeRepInfo (tyConAppTyCon count)
, VecElem e <- tyConRuntimeRepInfo (tyConAppTyCon elem)
= [VecRep n e]
prim_rep_fun args
= pprPanic "vecRepDataCon" (ppr args)
vecRepDataConTyCon :: TyCon
vecRepDataConTyCon = promoteDataCon vecRepDataCon
tupleRepDataCon :: DataCon
tupleRepDataCon = pcSpecialDataCon tupleRepDataConName [ mkListTy runtimeRepTy ]
runtimeRepTyCon (RuntimeRep prim_rep_fun)
where
prim_rep_fun [rr_ty_list]
= concatMap (runtimeRepPrimRep doc) rr_tys
where
rr_tys = extractPromotedList rr_ty_list
doc = text "tupleRepDataCon" <+> ppr rr_tys
prim_rep_fun args
= pprPanic "tupleRepDataCon" (ppr args)
tupleRepDataConTyCon :: TyCon
tupleRepDataConTyCon = promoteDataCon tupleRepDataCon
sumRepDataCon :: DataCon
sumRepDataCon = pcSpecialDataCon sumRepDataConName [ mkListTy runtimeRepTy ]
runtimeRepTyCon (RuntimeRep prim_rep_fun)
where
prim_rep_fun [rr_ty_list]
= map slotPrimRep (ubxSumRepType prim_repss)
where
rr_tys = extractPromotedList rr_ty_list
doc = text "sumRepDataCon" <+> ppr rr_tys
prim_repss = map (runtimeRepPrimRep doc) rr_tys
prim_rep_fun args
= pprPanic "sumRepDataCon" (ppr args)
sumRepDataConTyCon :: TyCon
sumRepDataConTyCon = promoteDataCon sumRepDataCon
runtimeRepSimpleDataCons :: [DataCon]
liftedRepDataCon :: DataCon
runtimeRepSimpleDataCons@(liftedRepDataCon : _)
= zipWithLazy mk_runtime_rep_dc
[ LiftedRep, UnliftedRep, IntRep, WordRep, Int64Rep
, Word64Rep, AddrRep, FloatRep, DoubleRep ]
runtimeRepSimpleDataConNames
where
mk_runtime_rep_dc primrep name
= pcSpecialDataCon name [] runtimeRepTyCon (RuntimeRep (\_ -> [primrep]))
liftedRepDataConTy, unliftedRepDataConTy,
intRepDataConTy, wordRepDataConTy, int64RepDataConTy,
word64RepDataConTy, addrRepDataConTy, floatRepDataConTy, doubleRepDataConTy :: Type
[liftedRepDataConTy, unliftedRepDataConTy,
intRepDataConTy, wordRepDataConTy, int64RepDataConTy,
word64RepDataConTy, addrRepDataConTy, floatRepDataConTy, doubleRepDataConTy]
= map (mkTyConTy . promoteDataCon) runtimeRepSimpleDataCons
vecCountTyCon :: TyCon
vecCountTyCon = pcTyCon vecCountTyConName Nothing [] vecCountDataCons
vecCountDataCons :: [DataCon]
vecCountDataCons = zipWithLazy mk_vec_count_dc
[ 2, 4, 8, 16, 32, 64 ]
vecCountDataConNames
where
mk_vec_count_dc n name
= pcSpecialDataCon name [] vecCountTyCon (VecCount n)
vec2DataConTy, vec4DataConTy, vec8DataConTy, vec16DataConTy, vec32DataConTy,
vec64DataConTy :: Type
[vec2DataConTy, vec4DataConTy, vec8DataConTy, vec16DataConTy, vec32DataConTy,
vec64DataConTy] = map (mkTyConTy . promoteDataCon) vecCountDataCons
vecElemTyCon :: TyCon
vecElemTyCon = pcTyCon vecElemTyConName Nothing [] vecElemDataCons
vecElemDataCons :: [DataCon]
vecElemDataCons = zipWithLazy mk_vec_elem_dc
[ Int8ElemRep, Int16ElemRep, Int32ElemRep, Int64ElemRep
, Word8ElemRep, Word16ElemRep, Word32ElemRep, Word64ElemRep
, FloatElemRep, DoubleElemRep ]
vecElemDataConNames
where
mk_vec_elem_dc elem name
= pcSpecialDataCon name [] vecElemTyCon (VecElem elem)
int8ElemRepDataConTy, int16ElemRepDataConTy, int32ElemRepDataConTy,
int64ElemRepDataConTy, word8ElemRepDataConTy, word16ElemRepDataConTy,
word32ElemRepDataConTy, word64ElemRepDataConTy, floatElemRepDataConTy,
doubleElemRepDataConTy :: Type
[int8ElemRepDataConTy, int16ElemRepDataConTy, int32ElemRepDataConTy,
int64ElemRepDataConTy, word8ElemRepDataConTy, word16ElemRepDataConTy,
word32ElemRepDataConTy, word64ElemRepDataConTy, floatElemRepDataConTy,
doubleElemRepDataConTy] = map (mkTyConTy . promoteDataCon)
vecElemDataCons
liftedRepDataConTyCon :: TyCon
liftedRepDataConTyCon = promoteDataCon liftedRepDataCon
liftedRepTy :: Type
liftedRepTy = mkTyConTy liftedRepDataConTyCon
boxingDataCon_maybe :: TyCon -> Maybe DataCon
boxingDataCon_maybe tc
= lookupNameEnv boxing_constr_env (tyConName tc)
boxing_constr_env :: NameEnv DataCon
boxing_constr_env
= mkNameEnv [(charPrimTyConName , charDataCon )
,(intPrimTyConName , intDataCon )
,(wordPrimTyConName , wordDataCon )
,(floatPrimTyConName , floatDataCon )
,(doublePrimTyConName, doubleDataCon) ]
charTy :: Type
charTy = mkTyConTy charTyCon
charTyCon :: TyCon
charTyCon = pcTyCon charTyConName
(Just (CType NoSourceText Nothing
(NoSourceText,fsLit "HsChar")))
[] [charDataCon]
charDataCon :: DataCon
charDataCon = pcDataCon charDataConName [] [charPrimTy] charTyCon
stringTy :: Type
stringTy = mkListTy charTy
intTy :: Type
intTy = mkTyConTy intTyCon
intTyCon :: TyCon
intTyCon = pcTyCon intTyConName
(Just (CType NoSourceText Nothing (NoSourceText,fsLit "HsInt")))
[] [intDataCon]
intDataCon :: DataCon
intDataCon = pcDataCon intDataConName [] [intPrimTy] intTyCon
wordTy :: Type
wordTy = mkTyConTy wordTyCon
wordTyCon :: TyCon
wordTyCon = pcTyCon wordTyConName
(Just (CType NoSourceText Nothing (NoSourceText, fsLit "HsWord")))
[] [wordDataCon]
wordDataCon :: DataCon
wordDataCon = pcDataCon wordDataConName [] [wordPrimTy] wordTyCon
word8Ty :: Type
word8Ty = mkTyConTy word8TyCon
word8TyCon :: TyCon
word8TyCon = pcTyCon word8TyConName
(Just (CType NoSourceText Nothing
(NoSourceText, fsLit "HsWord8"))) []
[word8DataCon]
word8DataCon :: DataCon
word8DataCon = pcDataCon word8DataConName [] [wordPrimTy] word8TyCon
floatTy :: Type
floatTy = mkTyConTy floatTyCon
floatTyCon :: TyCon
floatTyCon = pcTyCon floatTyConName
(Just (CType NoSourceText Nothing
(NoSourceText, fsLit "HsFloat"))) []
[floatDataCon]
floatDataCon :: DataCon
floatDataCon = pcDataCon floatDataConName [] [floatPrimTy] floatTyCon
doubleTy :: Type
doubleTy = mkTyConTy doubleTyCon
doubleTyCon :: TyCon
doubleTyCon = pcTyCon doubleTyConName
(Just (CType NoSourceText Nothing
(NoSourceText,fsLit "HsDouble"))) []
[doubleDataCon]
doubleDataCon :: DataCon
doubleDataCon = pcDataCon doubleDataConName [] [doublePrimTy] doubleTyCon
boolTy :: Type
boolTy = mkTyConTy boolTyCon
boolTyCon :: TyCon
boolTyCon = pcTyCon boolTyConName
(Just (CType NoSourceText Nothing
(NoSourceText, fsLit "HsBool")))
[] [falseDataCon, trueDataCon]
falseDataCon, trueDataCon :: DataCon
falseDataCon = pcDataCon falseDataConName [] [] boolTyCon
trueDataCon = pcDataCon trueDataConName [] [] boolTyCon
falseDataConId, trueDataConId :: Id
falseDataConId = dataConWorkId falseDataCon
trueDataConId = dataConWorkId trueDataCon
orderingTyCon :: TyCon
orderingTyCon = pcTyCon orderingTyConName Nothing
[] [ltDataCon, eqDataCon, gtDataCon]
ltDataCon, eqDataCon, gtDataCon :: DataCon
ltDataCon = pcDataCon ltDataConName [] [] orderingTyCon
eqDataCon = pcDataCon eqDataConName [] [] orderingTyCon
gtDataCon = pcDataCon gtDataConName [] [] orderingTyCon
ltDataConId, eqDataConId, gtDataConId :: Id
ltDataConId = dataConWorkId ltDataCon
eqDataConId = dataConWorkId eqDataCon
gtDataConId = dataConWorkId gtDataCon
mkListTy :: Type -> Type
mkListTy ty = mkTyConApp listTyCon [ty]
listTyCon :: TyCon
listTyCon =
buildAlgTyCon listTyConName alpha_tyvar [Representational]
Nothing []
(mkDataTyConRhs [nilDataCon, consDataCon])
False
(VanillaAlgTyCon $ mkPrelTyConRepName listTyConName)
nilDataCon :: DataCon
nilDataCon = pcDataCon nilDataConName alpha_tyvar [] listTyCon
consDataCon :: DataCon
consDataCon = pcDataConWithFixity True
consDataConName
alpha_tyvar [] alpha_tyvar
[alphaTy, mkTyConApp listTyCon alpha_ty] listTyCon
maybeTyCon :: TyCon
maybeTyCon = pcTyCon maybeTyConName Nothing alpha_tyvar
[nothingDataCon, justDataCon]
nothingDataCon :: DataCon
nothingDataCon = pcDataCon nothingDataConName alpha_tyvar [] maybeTyCon
justDataCon :: DataCon
justDataCon = pcDataCon justDataConName alpha_tyvar [alphaTy] maybeTyCon
mkTupleTy :: Boxity -> [Type] -> Type
mkTupleTy Boxed [ty] = ty
mkTupleTy Boxed tys = mkTyConApp (tupleTyCon Boxed (length tys)) tys
mkTupleTy Unboxed tys = mkTyConApp (tupleTyCon Unboxed (length tys))
(map getRuntimeRep tys ++ tys)
mkBoxedTupleTy :: [Type] -> Type
mkBoxedTupleTy tys = mkTupleTy Boxed tys
unitTy :: Type
unitTy = mkTupleTy Boxed []
mkSumTy :: [Type] -> Type
mkSumTy tys = mkTyConApp (sumTyCon (length tys))
(map getRuntimeRep tys ++ tys)
promotedFalseDataCon, promotedTrueDataCon :: TyCon
promotedTrueDataCon = promoteDataCon trueDataCon
promotedFalseDataCon = promoteDataCon falseDataCon
promotedNothingDataCon, promotedJustDataCon :: TyCon
promotedNothingDataCon = promoteDataCon nothingDataCon
promotedJustDataCon = promoteDataCon justDataCon
promotedLTDataCon
, promotedEQDataCon
, promotedGTDataCon
:: TyCon
promotedLTDataCon = promoteDataCon ltDataCon
promotedEQDataCon = promoteDataCon eqDataCon
promotedGTDataCon = promoteDataCon gtDataCon
promotedConsDataCon, promotedNilDataCon :: TyCon
promotedConsDataCon = promoteDataCon consDataCon
promotedNilDataCon = promoteDataCon nilDataCon
mkPromotedListTy :: Kind
-> [Type]
-> Type
mkPromotedListTy k tys
= foldr cons nil tys
where
cons :: Type
-> Type
-> Type
cons elt list = mkTyConApp promotedConsDataCon [k, elt, list]
nil :: Type
nil = mkTyConApp promotedNilDataCon [k]
extractPromotedList :: Type
-> [Type]
extractPromotedList tys = go tys
where
go list_ty
| Just (tc, [_k, t, ts]) <- splitTyConApp_maybe list_ty
= ASSERT( tc `hasKey` consDataConKey )
t : go ts
| Just (tc, [_k]) <- splitTyConApp_maybe list_ty
= ASSERT( tc `hasKey` nilDataConKey )
[]
| otherwise
= pprPanic "extractPromotedList" (ppr tys)