%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[PrelInfo]{The @PrelInfo@ interface to the compiler's prelude knowledge}
\begin{code}
-#include "HsVersions.h"
-
module PrelInfo (
+ module PrelNames,
+ module MkId,
- pRELUDE, pRELUDE_BUILTIN, pRELUDE_CORE, pRELUDE_RATIO,
- pRELUDE_LIST, pRELUDE_TEXT,
- pRELUDE_PRIMIO, pRELUDE_IO, pRELUDE_PS,
- gLASGOW_ST, gLASGOW_MISC,
-
- -- finite maps for built-in things (for the renamer and typechecker):
- builtinNameInfo, BuiltinNames(..),
- BuiltinKeys(..), BuiltinIdInfos(..),
-
- -- *odd* values that need to be reached out and grabbed:
- eRROR_ID,
- pAT_ERROR_ID,
- rEC_CON_ERROR_ID,
- rEC_UPD_ERROR_ID,
- iRREFUT_PAT_ERROR_ID,
- nON_EXHAUSTIVE_GUARDS_ERROR_ID,
- aBSENT_ERROR_ID,
- packStringForCId,
- unpackCStringId, unpackCString2Id,
- unpackCStringAppendId, unpackCStringFoldrId,
- integerZeroId, integerPlusOneId,
- integerPlusTwoId, integerMinusOneId,
-
- -----------------------------------------------------
- -- the rest of the export list is organised by *type*
- -----------------------------------------------------
-
- -- type: Bool
- boolTyCon, boolTy, falseDataCon, trueDataCon,
-
- -- types: Char#, Char, String (= [Char])
- charPrimTy, charTy, stringTy,
- charPrimTyCon, charTyCon, charDataCon,
-
- -- type: Ordering (used in deriving)
- orderingTy, ltDataCon, eqDataCon, gtDataCon,
-
- -- types: Double#, Double
- doublePrimTy, doubleTy,
- doublePrimTyCon, doubleTyCon, doubleDataCon,
-
- -- types: Float#, Float
- floatPrimTy, floatTy,
- floatPrimTyCon, floatTyCon, floatDataCon,
-
- -- types: Glasgow *primitive* arrays, sequencing and I/O
- mkPrimIoTy, -- to typecheck "mainPrimIO" & for _ccall_s
- realWorldStatePrimTy, realWorldStateTy{-boxed-},
- realWorldTy, realWorldTyCon, realWorldPrimId,
- statePrimTyCon, stateDataCon, getStatePairingConInfo,
-
- byteArrayPrimTy,
-
- -- types: Void# (only used within the compiler)
- voidPrimTy, voidPrimId,
-
- -- types: Addr#, Int#, Word#, Int
- intPrimTy, intTy, intPrimTyCon, intTyCon, intDataCon,
- wordPrimTyCon, wordPrimTy, wordTy, wordTyCon, wordDataCon,
- addrPrimTyCon, addrPrimTy, addrTy, addrTyCon, addrDataCon,
-
- -- types: Integer, Rational (= Ratio Integer)
- integerTy, rationalTy,
- integerTyCon, integerDataCon,
- rationalTyCon, ratioDataCon,
-
- -- type: Lift
- liftTyCon, liftDataCon, mkLiftTy,
-
- -- type: List
- listTyCon, mkListTy, nilDataCon, consDataCon,
+ wiredInThings, -- Names of wired in things
+ wiredInThingEnv,
+
+ -- Primop RdrNames
+ eqH_Char_RDR, ltH_Char_RDR, eqH_Word_RDR, ltH_Word_RDR,
+ eqH_Addr_RDR, ltH_Addr_RDR, eqH_Float_RDR, ltH_Float_RDR,
+ eqH_Double_RDR, ltH_Double_RDR, eqH_Int_RDR, ltH_Int_RDR,
+ geH_RDR, leH_RDR, minusH_RDR, tagToEnumH_RDR,
- -- type: tuples
- mkTupleTy, unitTy,
+ -- Random other things
+ maybeCharLikeCon, maybeIntLikeCon,
- -- for compilation of List Comprehensions and foldr
- foldlId, foldrId,
- mkBuild, buildId, augmentId, appendId
+ -- Class categories
+ isCcallishClass, isCreturnableClass, isNoDictClass,
+ isNumericClass, isStandardClass
- -- and, finally, we must put in some (abstract) data types,
- -- to make the interface self-sufficient
) where
-import Ubiq
-import PrelLoop ( primOpNameInfo )
+#include "HsVersions.h"
-- friends:
-import PrelMods -- Prelude module names
-import PrelVals -- VALUES
-import PrimOp ( PrimOp(..), allThePrimOps )
-import PrimRep ( PrimRep(..) )
-import TysPrim -- TYPES
-import TysWiredIn
+import PrelNames -- Prelude module names
+
+import PrimOp ( PrimOp(..), allThePrimOps, primOpRdrName )
+import DataCon ( DataCon )
+import MkId ( mkPrimOpId, wiredInIds )
+import MkId -- All of it, for re-export
+import TysPrim ( primTyCons )
+import TysWiredIn ( wiredInTyCons )
+import HscTypes ( TyThing(..), implicitTyThingIds, TypeEnv, mkTypeEnv )
-- others:
-import CmdLineOpts ( opt_HideBuiltinNames,
- opt_HideMostBuiltinNames,
- opt_ForConcurrent
- )
-import FiniteMap ( FiniteMap, emptyFM, listToFM )
-import Id ( mkTupleCon, GenId, Id(..) )
-import Maybes ( catMaybes )
-import Name ( origName, nameOf )
-import RnHsSyn ( RnName(..) )
-import TyCon ( tyConDataCons, mkFunTyCon, mkTupleTyCon, TyCon )
-import Type
-import UniqFM ( UniqFM, emptyUFM, listToUFM )
-import Unique -- *Key stuff
-import Util ( nOfThem, panic )
+import Class ( Class, classKey )
+import Type ( funTyCon )
+import Util ( isIn )
\end{code}
%************************************************************************
@Classes@, the other to look up values.
\begin{code}
-builtinNameInfo :: ( BuiltinNames, BuiltinKeys, BuiltinIdInfos )
-
-type BuiltinNames = (FiniteMap FAST_STRING RnName, -- WiredIn Ids
- FiniteMap FAST_STRING RnName) -- WiredIn TyCons
- -- Two maps because "[]" is in both...
-type BuiltinKeys = FiniteMap FAST_STRING (Unique, Name -> RnName)
- -- Names with known uniques
-type BuiltinIdInfos = UniqFM IdInfo -- Info for known unique Ids
-
-builtinNameInfo
- = if opt_HideBuiltinNames then
- (
- (emptyFM, emptyFM),
- emptyFM,
- emptyUFM
- )
- else if opt_HideMostBuiltinNames then
- (
- (listToFM min_assoc_val_wired, listToFM min_assoc_tc_wired),
- emptyFM,
- emptyUFM
- )
- else
- (
- (listToFM assoc_val_wired, listToFM assoc_tc_wired),
- listToFM assoc_keys,
- listToUFM assoc_id_infos
- )
-
+wiredInThings :: [TyThing]
+wiredInThings
+ = concat
+ [ -- Wired in TyCons and their implicit Ids
+ tycon_things
+ , map AnId (implicitTyThingIds tycon_things)
+
+ -- Wired in Ids
+ , map AnId wiredInIds
+
+ -- PrimOps
+ , map (AnId . mkPrimOpId) allThePrimOps
+ ]
where
- min_assoc_val_wired -- min needed when compiling bits of Prelude
- = concat [
- -- data constrs
- concat (map pcDataConWiredInInfo g_con_tycons),
- concat (map pcDataConWiredInInfo min_nonprim_tycon_list),
-
- -- values
- map pcIdWiredInInfo wired_in_ids,
- primop_ids
- ]
- min_assoc_tc_wired
- = concat [
- -- tycons
- map pcTyConWiredInInfo prim_tycons,
- map pcTyConWiredInInfo g_tycons,
- map pcTyConWiredInInfo min_nonprim_tycon_list
- ]
-
- assoc_val_wired
- = concat [
- -- data constrs
- concat (map pcDataConWiredInInfo g_con_tycons),
- concat (map pcDataConWiredInInfo data_tycons),
-
- -- values
- map pcIdWiredInInfo wired_in_ids,
- map pcIdWiredInInfo parallel_ids,
- primop_ids
- ]
- assoc_tc_wired
- = concat [
- -- tycons
- map pcTyConWiredInInfo prim_tycons,
- map pcTyConWiredInInfo g_tycons,
- map pcTyConWiredInInfo data_tycons,
- map pcTyConWiredInInfo synonym_tycons
- ]
+ tycon_things = map ATyCon ([funTyCon] ++ primTyCons ++ wiredInTyCons)
- assoc_keys
- = concat
- [
- id_keys,
- tysyn_keys,
- class_keys,
- class_op_keys
- ]
-
- id_keys = map id_key id_keys_infos
- id_key (str, uniq, info) = (str, (uniq, RnImplicit))
-
- assoc_id_infos = catMaybes (map assoc_info id_keys_infos)
- assoc_info (str, uniq, Just info) = Just (uniq, info)
- assoc_info (str, uniq, Nothing) = Nothing
+wiredInThingEnv :: TypeEnv
+wiredInThingEnv = mkTypeEnv wiredInThings
\end{code}
-
We let a lot of "non-standard" values be visible, so that we can make
sense of them in interface pragmas. It's cool, though they all have
"non-standard" names, so they won't get past the parser in user code.
-The WiredIn TyCons and DataCons ...
-\begin{code}
-
-prim_tycons
- = [ addrPrimTyCon
- , arrayPrimTyCon
- , byteArrayPrimTyCon
- , charPrimTyCon
- , doublePrimTyCon
- , floatPrimTyCon
- , intPrimTyCon
- , mallocPtrPrimTyCon
- , mutableArrayPrimTyCon
- , mutableByteArrayPrimTyCon
- , synchVarPrimTyCon
- , realWorldTyCon
- , stablePtrPrimTyCon
- , statePrimTyCon
- , wordPrimTyCon
- ]
-
-g_tycons
- = mkFunTyCon : g_con_tycons
-
-g_con_tycons
- = listTyCon : mkTupleTyCon 0 : [mkTupleTyCon i | i <- [2..32] ]
-min_nonprim_tycon_list -- used w/ HideMostBuiltinNames
- = [ boolTyCon
- , orderingTyCon
- , charTyCon
- , intTyCon
- , floatTyCon
- , doubleTyCon
- , integerTyCon
- , ratioTyCon
- , liftTyCon
- , return2GMPsTyCon -- ADR asked for these last two (WDP 94/11)
- , returnIntAndGMPTyCon
- ]
-
-
-data_tycons
- = [ addrTyCon
- , boolTyCon
- , charTyCon
- , orderingTyCon
- , doubleTyCon
- , floatTyCon
- , intTyCon
- , integerTyCon
- , liftTyCon
- , mallocPtrTyCon
- , ratioTyCon
- , return2GMPsTyCon
- , returnIntAndGMPTyCon
- , stablePtrTyCon
- , stateAndAddrPrimTyCon
- , stateAndArrayPrimTyCon
- , stateAndByteArrayPrimTyCon
- , stateAndCharPrimTyCon
- , stateAndDoublePrimTyCon
- , stateAndFloatPrimTyCon
- , stateAndIntPrimTyCon
- , stateAndMallocPtrPrimTyCon
- , stateAndMutableArrayPrimTyCon
- , stateAndMutableByteArrayPrimTyCon
- , stateAndSynchVarPrimTyCon
- , stateAndPtrPrimTyCon
- , stateAndStablePtrPrimTyCon
- , stateAndWordPrimTyCon
- , stateTyCon
- , wordTyCon
- ]
-
-synonym_tycons
- = [ primIoTyCon
- , rationalTyCon
- , stTyCon
- , stringTyCon
- ]
-
-pcTyConWiredInInfo :: TyCon -> (FAST_STRING, RnName)
-pcTyConWiredInInfo tc = (nameOf (origName tc), WiredInTyCon tc)
+%************************************************************************
+%* *
+\subsection{RdrNames for the primops}
+%* *
+%************************************************************************
-pcDataConWiredInInfo :: TyCon -> [(FAST_STRING, RnName)]
-pcDataConWiredInInfo tycon
- = [ (nameOf (origName con), WiredInId con) | con <- tyConDataCons tycon ]
-\end{code}
+These can't be in PrelNames, because we get the RdrName from the PrimOp,
+which is above PrelNames in the module hierarchy.
-The WiredIn Ids ...
-ToDo: Some of these should be moved to id_keys_infos!
\begin{code}
-wired_in_ids
- = [ eRROR_ID
- , pAT_ERROR_ID -- occurs in i/faces
- , pAR_ERROR_ID -- ditto
- , tRACE_ID
-
- , runSTId
- , seqId
- , realWorldPrimId
-
- -- foldr/build Ids have magic unfoldings
- , buildId
- , augmentId
- , foldlId
- , foldrId
- , unpackCStringAppendId
- , unpackCStringFoldrId
- ]
-
-parallel_ids
- = if not opt_ForConcurrent then
- []
- else
- [ parId
- , forkId
-#ifdef GRAN
- , parLocalId
- , parGlobalId
- -- Add later:
- -- ,parAtId
- -- ,parAtForNowId
- -- ,copyableId
- -- ,noFollowId
-#endif {-GRAN-}
- ]
-
-pcIdWiredInInfo :: Id -> (FAST_STRING, RnName)
-pcIdWiredInInfo id = (nameOf (origName id), WiredInId id)
+eqH_Char_RDR = primOpRdrName CharEqOp
+ltH_Char_RDR = primOpRdrName CharLtOp
+eqH_Word_RDR = primOpRdrName WordEqOp
+ltH_Word_RDR = primOpRdrName WordLtOp
+eqH_Addr_RDR = primOpRdrName AddrEqOp
+ltH_Addr_RDR = primOpRdrName AddrLtOp
+eqH_Float_RDR = primOpRdrName FloatEqOp
+ltH_Float_RDR = primOpRdrName FloatLtOp
+eqH_Double_RDR = primOpRdrName DoubleEqOp
+ltH_Double_RDR = primOpRdrName DoubleLtOp
+eqH_Int_RDR = primOpRdrName IntEqOp
+ltH_Int_RDR = primOpRdrName IntLtOp
+geH_RDR = primOpRdrName IntGeOp
+leH_RDR = primOpRdrName IntLeOp
+minusH_RDR = primOpRdrName IntSubOp
+
+tagToEnumH_RDR = primOpRdrName TagToEnumOp
\end{code}
-WiredIn primitive numeric operations ...
-\begin{code}
-primop_ids
- = map primOpNameInfo allThePrimOps ++ map fn funny_name_primops
- where
- fn (op,s) = case (primOpNameInfo op) of (_,n) -> (s,n)
-funny_name_primops
- = [ (IntAddOp, SLIT("+#"))
- , (IntSubOp, SLIT("-#"))
- , (IntMulOp, SLIT("*#"))
- , (IntGtOp, SLIT(">#"))
- , (IntGeOp, SLIT(">=#"))
- , (IntEqOp, SLIT("==#"))
- , (IntNeOp, SLIT("/=#"))
- , (IntLtOp, SLIT("<#"))
- , (IntLeOp, SLIT("<=#"))
- , (DoubleAddOp, SLIT("+##"))
- , (DoubleSubOp, SLIT("-##"))
- , (DoubleMulOp, SLIT("*##"))
- , (DoubleDivOp, SLIT("/##"))
- , (DoublePowerOp, SLIT("**##"))
- , (DoubleGtOp, SLIT(">##"))
- , (DoubleGeOp, SLIT(">=##"))
- , (DoubleEqOp, SLIT("==##"))
- , (DoubleNeOp, SLIT("/=##"))
- , (DoubleLtOp, SLIT("<##"))
- , (DoubleLeOp, SLIT("<=##"))
- ]
-\end{code}
+%************************************************************************
+%* *
+\subsection{Built-in keys}
+%* *
+%************************************************************************
+ToDo: make it do the ``like'' part properly (as in 0.26 and before).
-Ids, Synonyms, Classes and ClassOps with builtin keys.
-For the Ids we may also have some builtin IdInfo.
\begin{code}
-id_keys_infos :: [(FAST_STRING, Unique, Maybe IdInfo)]
-id_keys_infos
- = [ (SLIT("main"), mainIdKey, Nothing)
- , (SLIT("mainPrimIO"), mainPrimIOIdKey, Nothing)
- ]
-
-tysyn_keys
- = [ (SLIT("IO"), (iOTyConKey, RnImplicitTyCon))
- ]
+maybeCharLikeCon, maybeIntLikeCon :: DataCon -> Bool
+maybeCharLikeCon con = con `hasKey` charDataConKey
+maybeIntLikeCon con = con `hasKey` intDataConKey
+\end{code}
--- this "class_keys" list *must* include:
--- classes that are grabbed by key (e.g., eqClassKey)
--- classes in "Class.standardClassKeys" (quite a few)
-class_keys
- = [ (s, (k, RnImplicitClass)) | (s,k) <-
- [ (SLIT("Eq"), eqClassKey) -- mentioned, derivable
- , (SLIT("Ord"), ordClassKey) -- derivable
- , (SLIT("Num"), numClassKey) -- mentioned, numeric
- , (SLIT("Real"), realClassKey) -- numeric
- , (SLIT("Integral"), integralClassKey) -- numeric
- , (SLIT("Fractional"), fractionalClassKey) -- numeric
- , (SLIT("Floating"), floatingClassKey) -- numeric
- , (SLIT("RealFrac"), realFracClassKey) -- numeric
- , (SLIT("RealFloat"), realFloatClassKey) -- numeric
--- , (SLIT("Ix"), ixClassKey)
- , (SLIT("Bounded"), boundedClassKey) -- derivable
- , (SLIT("Enum"), enumClassKey) -- derivable
- , (SLIT("Show"), showClassKey) -- derivable
- , (SLIT("Read"), readClassKey) -- derivable
- , (SLIT("Monad"), monadClassKey)
- , (SLIT("MonadZero"), monadZeroClassKey)
- , (SLIT("CCallable"), cCallableClassKey) -- mentioned, ccallish
- , (SLIT("CReturnable"), cReturnableClassKey) -- mentioned, ccallish
- ]]
+%************************************************************************
+%* *
+\subsection{Class predicates}
+%* *
+%************************************************************************
-class_op_keys
- = [ (s, (k, RnImplicit)) | (s,k) <-
- [ (SLIT("fromInt"), fromIntClassOpKey)
- , (SLIT("fromInteger"), fromIntegerClassOpKey)
- , (SLIT("fromRational"), fromRationalClassOpKey)
- , (SLIT("enumFrom"), enumFromClassOpKey)
- , (SLIT("enumFromThen"), enumFromThenClassOpKey)
- , (SLIT("enumFromTo"), enumFromToClassOpKey)
- , (SLIT("enumFromThenTo"), enumFromThenToClassOpKey)
- , (SLIT("=="), eqClassOpKey)
- ]]
+\begin{code}
+isCcallishClass, isCreturnableClass, isNoDictClass,
+ isNumericClass, isStandardClass :: Class -> Bool
+
+isNumericClass clas = classKey clas `is_elem` numericClassKeys
+isStandardClass clas = classKey clas `is_elem` standardClassKeys
+isCcallishClass clas = classKey clas `is_elem` cCallishClassKeys
+isCreturnableClass clas = classKey clas == cReturnableClassKey
+isNoDictClass clas = classKey clas `is_elem` noDictClassKeys
+is_elem = isIn "is_X_Class"
\end{code}