SYN_IE(DataCon), SYN_IE(DictFun), SYN_IE(DictVar),
-- CONSTRUCTION
- mkConstMethodId,
mkDataCon,
mkDefaultMethodId,
mkDictFunId,
- mkIdWithNewUniq, mkIdWithNewName,
+ mkIdWithNewUniq, mkIdWithNewName, mkIdWithNewType,
mkImported,
mkInstId,
mkMethodSelId,
mkRecordSelId,
+ mkSameSpecCon,
mkSuperDictSelId,
mkSysLocal,
mkTemplateLocals,
mkTupleCon,
mkUserId,
mkUserLocal,
- mkWorkerId,
mkPrimitiveId,
+ mkWorkerId,
setIdVisibility,
-- DESTRUCTION (excluding pragmatic info)
idPrimRep,
idType,
idUnique,
+ idName,
dataConRepType,
dataConArgTys,
idWantsToBeINLINEd, getInlinePragma,
idMustBeINLINEd, idMustNotBeINLINEd,
isBottomingId,
- isConstMethodId,
- isConstMethodId_maybe,
isDataCon, isAlgCon, isNewCon,
isDefaultMethodId,
isDefaultMethodId_maybe,
isPrimitiveId_maybe,
isSysLocalId,
isTupleCon,
- isWorkerId,
isWrapperId,
toplevelishId,
unfoldingUnfriendlyId,
apply_to_Id,
-- PRINTING and RENUMBERING
- addId,
- nmbrDataCon,
- nmbrId,
pprId,
showId,
import {-# SOURCE #-} CoreUnfold ( Unfolding )
import {-# SOURCE #-} StdIdInfo ( addStandardIdInfo )
-- Let's see how much we can leave out..
---import {-# SOURCE #-} TyCon
---import {-# SOURCE #-} Type
---import {-# SOURCE #-} Class
---import {-# SOURCE #-} TysWiredIn
--import {-# SOURCE #-} TysPrim
---import {-# SOURCE #-} TyVar
#endif
import Bag
-import Class ( classOpString, SYN_IE(Class), GenClass, SYN_IE(ClassOp), GenClassOp )
+import Class ( SYN_IE(Class), GenClass )
+import BasicTypes ( SYN_IE(Arity) )
import IdInfo
import Maybes ( maybeToBool )
import Name ( nameUnique, mkLocalName, mkSysLocalName, isLocalName,
isLocallyDefinedName, occNameString, modAndOcc,
isLocallyDefined, changeUnique, isWiredInName,
nameString, getOccString, setNameVisibility,
- isExported, ExportFlag(..), DefnInfo, Provenance,
+ isExported, ExportFlag(..), Provenance,
OccName(..), Name, SYN_IE(Module),
NamedThing(..)
)
#if __GLASGOW_HASKELL__ >= 202
import PrimOp ( PrimOp )
#endif
-import PprEnv -- ( SYN_IE(NmbrM), NmbrEnv(..) )
import PprType ( getTypeString, specMaybeTysSuffix,
- nmbrType, nmbrTyVar,
GenType, GenTyVar
)
import Pretty
import MatchEnv ( MatchEnv )
-import SrcLoc --( mkBuiltinSrcLoc )
+import SrcLoc ( mkBuiltinSrcLoc )
import TysWiredIn ( tupleTyCon )
-import TyCon --( TyCon, tyConDataCons )
-import Type {- ( mkSigmaTy, mkTyVarTys, mkFunTys, mkDictTy,
+import TyCon ( TyCon, tyConDataCons, isDataTyCon, isNewTyCon, mkSpecTyCon )
+import Type ( mkSigmaTy, mkTyVarTys, mkFunTys, mkDictTy, splitSigmaTy,
applyTyCon, instantiateTy, mkForAllTys,
tyVarsOfType, applyTypeEnvToTy, typePrimRep,
+ specialiseTy, instantiateTauTy,
GenType, SYN_IE(ThetaType), SYN_IE(TauType), SYN_IE(Type)
- ) -}
-import TyVar --( alphaTyVars, isEmptyTyVarSet, SYN_IE(TyVarEnv) )
+ )
+import TyVar ( SYN_IE(TyVar), GenTyVar, alphaTyVars, isEmptyTyVarSet, SYN_IE(TyVarEnv) )
import Usage ( SYN_IE(UVar) )
import UniqFM
import UniqSet -- practically all of it
-import Unique ( getBuiltinUniques, pprUnique, showUnique,
+import Unique ( getBuiltinUniques, pprUnique,
incrUnique,
Unique{-instance Ord3-},
Uniquable(..)
)
import Outputable ( ifPprDebug, Outputable(..), PprStyle(..) )
-import Util {- ( mapAccumL, nOfThem, zipEqual, assoc,
+import SrcLoc ( SrcLoc )
+import Util ( Ord3(..), mapAccumL, nOfThem, zipEqual, assoc,
panic, panic#, pprPanic, assertPanic
- ) -}
+ )
\end{code}
Here are the @Id@ and @IdDetails@ datatypes; also see the notes that
| MethodSelId Class -- An overloaded class operation, with
-- a fully polymorphic type. Its code
-- just selects a method from the
- -- dictionary. The class.
- ClassOp -- The operation
+ -- dictionary.
-- NB: The IdInfo for a MethodSelId has all the info about its
-- related "constant method Ids", which are just
| DefaultMethodId -- Default method for a particular class op
Class -- same class, <blah-blah> info as MethodSelId
- ClassOp -- (surprise, surprise)
- Bool -- True <=> I *know* this default method Id
- -- is a generated one that just says
- -- `error "No default method for <op>"'.
-- see below
| DictFunId Class -- A DictFun is uniquely identified
-- actually do comparisons that way, we kindly supply
-- a Unique for that purpose.
- -- see below
- | ConstMethodId -- A method which depends only on the type of the
- -- instance, and not on any further dictionaries etc.
- Class -- Uniquely identified by:
- Type -- (class, type, classop) triple
- ClassOp
- Module -- module where instance came from
-
| InstId -- An instance of a dictionary, class operation,
-- or overloaded value (Local name)
Bool -- as for LocalId
-- we may specialise to a type w/ free tyvars
-- (i.e., in one of the "Maybe Type" dudes).
--- Scheduled for deletion: SLPJ Nov 96
--- Nobody seems to depend on knowing this.
- | WorkerId -- A "worker" for some other Id
- Id -- Id for which this is a worker
-
type ConTag = Int
type DictVar = Id
type DictFun = Id
\item[@SpecId@:]
%----------------------------------------------------------------------
-\item[@WorkerId@:]
-
-%----------------------------------------------------------------------
\item[@LocalId@:] A purely-local value, e.g., a function argument,
something defined in a @where@ clauses, ... --- but which appears in
the original program text.
chk (RecordSelId _) = True
chk ImportedId = True
chk (SuperDictSelId _ _) = True
- chk (MethodSelId _ _) = True
- chk (DefaultMethodId _ _ _) = True
+ chk (MethodSelId _) = True
+ chk (DefaultMethodId _) = True
chk (DictFunId _ _) = True
- chk (ConstMethodId _ _ _ _) = True
chk (SpecId unspec _ _) = toplevelishId unspec
-- depends what the unspecialised thing is
- chk (WorkerId unwrkr) = toplevelishId unwrkr
chk (InstId _) = False -- these are local
chk (LocalId _) = False
chk (SysLocalId _) = False
chk (RecordSelId _) = True
chk ImportedId = True
chk (SuperDictSelId _ _) = True
- chk (MethodSelId _ _) = True
- chk (DefaultMethodId _ _ _) = True
+ chk (MethodSelId _) = True
+ chk (DefaultMethodId _) = True
chk (DictFunId _ _) = True
- chk (ConstMethodId _ _ _ _) = True
- chk (WorkerId unwrkr) = idHasNoFreeTyVars unwrkr
chk (SpecId _ _ no_free_tvs) = no_free_tvs
chk (InstId no_free_tvs) = no_free_tvs
chk (LocalId no_free_tvs) = no_free_tvs
(TupleConId _) -> True
(RecordSelId _) -> True
(SuperDictSelId _ _) -> True
- (MethodSelId _ _) -> True
+ (MethodSelId _) -> True
other -> False -- Don't omit!
-- NB DefaultMethodIds are not omitted
isSpecPragmaId (Id _ _ _ (SpecPragmaId _ _) _ _) = True
isSpecPragmaId other = False
-isMethodSelId_maybe (Id _ _ _ (MethodSelId cls op) _ _) = Just (cls,op)
-isMethodSelId_maybe _ = Nothing
+isSpecId_maybe (Id _ _ _ (SpecId unspec ty_maybes _) _ _)
+ = ASSERT(not (maybeToBool (isSpecId_maybe unspec)))
+ Just (unspec, ty_maybes)
+isSpecId_maybe other_id
+ = Nothing
+
+isMethodSelId_maybe (Id _ _ _ (MethodSelId cls) _ _) = Just cls
+isMethodSelId_maybe _ = Nothing
-isDefaultMethodId (Id _ _ _ (DefaultMethodId _ _ _) _ _) = True
-isDefaultMethodId other = False
+isDefaultMethodId (Id _ _ _ (DefaultMethodId _) _ _) = True
+isDefaultMethodId other = False
-isDefaultMethodId_maybe (Id _ _ _ (DefaultMethodId cls clsop err) _ _)
- = Just (cls, clsop, err)
+isDefaultMethodId_maybe (Id _ _ _ (DefaultMethodId cls) _ _)
+ = Just cls
isDefaultMethodId_maybe other = Nothing
isDictFunId (Id _ _ _ (DictFunId _ _) _ _) = True
isDictFunId other = False
-isConstMethodId (Id _ _ _ (ConstMethodId _ _ _ _) _ _) = True
-isConstMethodId other = False
-
-isConstMethodId_maybe (Id _ _ _ (ConstMethodId cls ty clsop _) _ _)
- = Just (cls, ty, clsop)
-isConstMethodId_maybe other = Nothing
-
isSuperDictSelId_maybe (Id _ _ _ (SuperDictSelId c sc) _ _) = Just (c, sc)
isSuperDictSelId_maybe other_id = Nothing
-isWorkerId (Id _ _ _ (WorkerId _) _ _) = True
-isWorkerId other = False
-
isWrapperId id = workerExists (getIdStrictness id)
isPrimitiveId_maybe (Id _ _ _ (PrimitiveId primop) _ _) = Just primop
isPrimitiveId_maybe other = Nothing
\end{code}
-Tell them who my wrapper function is.
-\begin{code}
-{-LATER:
-myWrapperMaybe :: Id -> Maybe Id
-
-myWrapperMaybe (Id _ _ _ (WorkerId my_wrapper) _ _) = Just my_wrapper
-myWrapperMaybe other_id = Nothing
--}
-\end{code}
-
\begin{code}
unfoldingUnfriendlyId -- return True iff it is definitely a bad
:: Id -- idea to export an unfolding that
`Top-levelish Ids'' cannot have any free type variables, so applying
the type-env cannot have any effect. (NB: checked in CoreLint?)
-The special casing is in @applyTypeEnvToId@, not @apply_to_Id@, as the
-former ``should be'' the usual crunch point.
-
\begin{code}
type TypeEnv = TyVarEnv Type
applyTypeEnvToId :: TypeEnv -> Id -> Id
-
applyTypeEnvToId type_env id@(Id _ _ ty _ _ _)
- | idHasNoFreeTyVars id
- = id
- | otherwise
= apply_to_Id ( \ ty ->
applyTypeEnvToTy type_env ty
) id
\begin{code}
apply_to_Id :: (Type -> Type) -> Id -> Id
-apply_to_Id ty_fn (Id u n ty details prag info)
- = let
- new_ty = ty_fn ty
- in
- Id u n new_ty (apply_to_details details) prag (apply_to_IdInfo ty_fn info)
+apply_to_Id ty_fn id@(Id u n ty details prag info)
+ | idHasNoFreeTyVars id
+ = id
+ | otherwise
+ = Id u n (ty_fn ty) (apply_to_details details) prag (apply_to_IdInfo ty_fn info)
where
apply_to_details (SpecId unspec ty_maybes no_ftvs)
= let
apply_to_maybe Nothing = Nothing
apply_to_maybe (Just ty) = Just (ty_fn ty)
- apply_to_details (WorkerId unwrkr)
- = let
- new_unwrkr = apply_to_Id ty_fn unwrkr
- in
- WorkerId new_unwrkr
-
apply_to_details other = other
\end{code}
-Sadly, I don't think the one using the magic typechecker substitution
-can be done with @apply_to_Id@. Here we go....
-
-Strictness is very important here. We can't leave behind thunks
-with pointers to the substitution: it {\em must} be single-threaded.
-
-\begin{code}
-{-LATER:
-applySubstToId :: Subst -> Id -> (Subst, Id)
-
-applySubstToId subst id@(Id u n ty info details)
- -- *cannot* have a "idHasNoFreeTyVars" get-out clause
- -- because, in the typechecker, we are still
- -- *concocting* the types.
- = case (applySubstToTy subst ty) of { (s2, new_ty) ->
- case (applySubstToIdInfo s2 info) of { (s3, new_info) ->
- case (apply_to_details s3 new_ty details) of { (s4, new_details) ->
- (s4, Id u n new_ty new_info new_details) }}}
- where
- apply_to_details subst _ (InstId inst no_ftvs)
- = case (applySubstToInst subst inst) of { (s2, new_inst) ->
- (s2, InstId new_inst no_ftvs{-ToDo:right???-}) }
-
- apply_to_details subst new_ty (SpecId unspec ty_maybes _)
- = case (applySubstToId subst unspec) of { (s2, new_unspec) ->
- case (mapAccumL apply_to_maybe s2 ty_maybes) of { (s3, new_maybes) ->
- (s3, SpecId new_unspec new_maybes (no_free_tvs new_ty)) }}
- -- NB: recalc no_ftvs (I think it's necessary (?) WDP 95/04)
- where
- apply_to_maybe subst Nothing = (subst, Nothing)
- apply_to_maybe subst (Just ty)
- = case (applySubstToTy subst ty) of { (s2, new_ty) ->
- (s2, Just new_ty) }
-
- apply_to_details subst _ (WorkerId unwrkr)
- = case (applySubstToId subst unwrkr) of { (s2, new_unwrkr) ->
- (s2, WorkerId new_unwrkr) }
-
- apply_to_details subst _ other = (subst, other)
--}
-\end{code}
%************************************************************************
%* *
%************************************************************************
\begin{code}
-idType :: GenId ty -> ty
+idName :: GenId ty -> Name
+idName (Id _ n _ _ _ _) = n
+idType :: GenId ty -> ty
idType (Id _ _ ty _ _ _) = ty
-\end{code}
-
-\begin{code}
-{-LATER:
-getMentionedTyConsAndClassesFromId :: Id -> (Bag TyCon, Bag Class)
-
-getMentionedTyConsAndClassesFromId id
- = getMentionedTyConsAndClassesFromType (idType id)
--}
-\end{code}
-\begin{code}
idPrimRep i = typePrimRep (idType i)
\end{code}
-- For method selectors the clean thing to do is
-- to give the method selector the same name as the class op itself.
-mkMethodSelId op_name rec_c op ty
+mkMethodSelId op_name rec_c ty
= addStandardIdInfo $
- Id (uniqueOf op_name) op_name ty (MethodSelId rec_c op) NoPragmaInfo noIdInfo
+ Id (uniqueOf op_name) op_name ty (MethodSelId rec_c) NoPragmaInfo noIdInfo
-mkDefaultMethodId dm_name rec_c op gen ty
- = Id (uniqueOf dm_name) dm_name ty (DefaultMethodId rec_c op gen) NoPragmaInfo noIdInfo
+mkDefaultMethodId dm_name rec_c ty
+ = Id (uniqueOf dm_name) dm_name ty (DefaultMethodId rec_c) NoPragmaInfo noIdInfo
mkDictFunId dfun_name full_ty clas ity
= Id (nameUnique dfun_name) dfun_name full_ty details NoPragmaInfo noIdInfo
where
details = DictFunId clas ity
-mkConstMethodId uniq clas op ity full_ty from_here locn mod info
- = Id uniq name full_ty details NoPragmaInfo info
- where
- name = mkInstDeclName uniq mod (VarOcc occ_name) locn from_here
- details = ConstMethodId clas ity op mod
- occ_name = classOpString op _APPEND_
- SLIT("_cm_") _APPEND_ renum_type_string full_ty ity
-
mkWorkerId u unwrkr ty info
= Id u name ty details NoPragmaInfo info
where
+ details = LocalId (no_free_tvs ty)
name = mkCompoundName name_fn u (getName unwrkr)
- details = WorkerId unwrkr
name_fn wkr_str = SLIT("$w") _APPEND_ wkr_str
mkInstId u ty name
= Id u name ty (InstId (no_free_tvs ty)) NoPragmaInfo noIdInfo
-
-{-LATER:
-getConstMethodId clas op ty
- = -- constant-method info is hidden in the IdInfo of
- -- the class-op id (as mentioned up above).
- let
- sel_id = getMethodSelId clas op
- in
- case (lookupConstMethodId (getIdSpecialisation sel_id) ty) of
- Just xx -> xx
- Nothing -> pprError "ERROR: getConstMethodId:" (vcat [
- hsep [ppr PprDebug ty, ppr PprDebug ops, ppr PprDebug op_ids,
- ppr PprDebug sel_id],
- text "(This can arise if an interface pragma refers to an instance",
- text "but there is no imported interface which *defines* that instance.",
- text "The info above, however ugly, should indicate what else you need to import."
- ])
--}
-
-
-renum_type_string full_ty ity
- = initNmbr (
- nmbrType full_ty `thenNmbr` \ _ -> -- so all the tyvars get added to renumbering...
- nmbrType ity `thenNmbr` \ rn_ity ->
- returnNmbr (getTypeString rn_ity)
- )
\end{code}
%************************************************************************
Id (nameUnique n) n ty (PrimitiveId primop) IMustBeINLINEd noIdInfo
-- The pragma @IMustBeINLINEd@ says that this Id absolutely must be inlined.
-- It's only true for primitives, because we don't want to make a closure for each of them.
+
\end{code}
\begin{code}
= Id (nameUnique name) name ty (LocalId (no_free_tvs ty)) pragma_info noIdInfo
\end{code}
-
\begin{code}
-{-LATER:
+-- See notes with setNameVisibility (Name.lhs)
+setIdVisibility :: Maybe Module -> Unique -> Id -> Id
+setIdVisibility maybe_mod u (Id uniq name ty details prag info)
+ = Id uniq (setNameVisibility maybe_mod u name) ty details prag info
--- for a SpecPragmaId being created by the compiler out of thin air...
-mkSpecPragmaId :: OccName -> Unique -> Type -> Maybe Id -> SrcLoc -> Id
-mkSpecPragmaId str uniq ty specid loc
- = Id uniq (mkShortName str loc) ty noIdInfo (SpecPragmaId specid (no_free_tvs ty))
+mkIdWithNewUniq :: Id -> Unique -> Id
+mkIdWithNewUniq (Id _ n ty details prag info) u
+ = Id u (changeUnique n u) ty details prag info
--- for new SpecId
-mkSpecId u unspec ty_maybes ty info
- = ASSERT(not (maybeToBool (isSpecId_maybe unspec)))
- Id u n ty info (SpecId unspec ty_maybes (no_free_tvs ty))
+mkIdWithNewName :: Id -> Name -> Id
+mkIdWithNewName (Id _ _ ty details prag info) new_name
+ = Id (uniqueOf new_name) new_name ty details prag info
+
+mkIdWithNewType :: Id -> Type -> Id
+mkIdWithNewType (Id u name _ details pragma info) ty
+ = Id u name ty details pragma info
-- Specialised version of constructor: only used in STG and code generation
-- Note: The specialsied Id has the same unique as the unspeced Id
-mkSameSpecCon ty_maybes unspec@(Id u n ty info details)
+mkSameSpecCon ty_maybes unspec@(Id u name ty details pragma info)
= ASSERT(isDataCon unspec)
ASSERT(not (maybeToBool (isSpecId_maybe unspec)))
- Id u n new_ty info (SpecId unspec ty_maybes (no_free_tvs new_ty))
+ Id u name new_ty (SpecId unspec ty_maybes (no_free_tvs new_ty)) pragma info
where
new_ty = specialiseTy ty ty_maybes 0
-localiseId :: Id -> Id
-localiseId id@(Id u n ty info details)
- = Id u (mkShortName name loc) ty info (LocalId (no_free_tvs ty))
- where
- name = getOccName id
- loc = getSrcLoc id
--}
-
--- See notes with setNameVisibility (Name.lhs)
-setIdVisibility :: Module -> Id -> Id
-setIdVisibility mod (Id uniq name ty details prag info)
- = Id uniq (setNameVisibility mod name) ty details prag info
-
-mkIdWithNewUniq :: Id -> Unique -> Id
-mkIdWithNewUniq (Id _ n ty details prag info) u
- = Id u (changeUnique n u) ty details prag info
-
-mkIdWithNewName :: Id -> Name -> Id
-mkIdWithNewName (Id _ _ ty details prag info) new_name
- = Id (uniqueOf new_name) new_name ty details prag info
+ -- pprTrace "SameSpecCon:Unique:"
+ -- (ppSep (ppr PprDebug unspec: [pprMaybeTy PprDebug ty | ty <- ty_maybes]))
\end{code}
Make some local @Ids@ for a template @CoreExpr@. These have bogus
length con_theta + length arg_tys }
isNullaryDataCon con = dataConNumFields con == 0 -- function of convenience
+
\end{code}
where
tyvars = take arity alphaTyVars
tyvar_tys = mkTyVarTys tyvars
+dataConSig (Id _ _ _ (SpecId unspec ty_maybes _) _ _)
+ = (spec_tyvars, spec_theta_ty, spec_con_tyvars, spec_con_theta, spec_arg_tys, spec_tycon)
+ where
+ (tyvars, theta_ty, con_tyvars, con_theta, arg_tys, tycon) = dataConSig unspec
+
+ ty_env = tyvars `zip` ty_maybes
+
+ spec_tyvars = foldr nothing_tyvars [] ty_env
+ spec_con_tyvars = foldr nothing_tyvars [] (con_tyvars `zip` ty_maybes) -- Hmm..
+
+ nothing_tyvars (tyvar, Nothing) l = tyvar : l
+ nothing_tyvars (tyvar, Just ty) l = l
+
+ spec_env = foldr just_env [] ty_env
+ just_env (tyvar, Nothing) l = l
+ just_env (tyvar, Just ty) l = (tyvar, ty) : l
+ spec_arg_tys = map (instantiateTauTy spec_env) arg_tys
+
+ spec_theta_ty = if null theta_ty then []
+ else panic "dataConSig:ThetaTy:SpecDataCon1"
+ spec_con_theta = if null con_theta then []
+ else panic "dataConSig:ThetaTy:SpecDataCon2"
+ spec_tycon = mkSpecTyCon tycon ty_maybes
-- dataConRepType returns the type of the representation of a contructor
Strictness: we snaffle the info out of the IdInfo.
\begin{code}
-getIdStrictness :: Id -> StrictnessInfo Id
+getIdStrictness :: Id -> StrictnessInfo
getIdStrictness (Id _ _ _ _ _ info) = strictnessInfo info
-addIdStrictness :: Id -> StrictnessInfo Id -> Id
+addIdStrictness :: Id -> StrictnessInfo -> Id
addIdStrictness (Id u n ty details prags info) strict_info
= Id u n ty details prags (info `addStrictnessInfo` strict_info)
\end{code}
isEmptyIdSet = isEmptyUniqSet
mkIdSet = mkUniqSet
\end{code}
-
-\begin{code}
-addId, nmbrId, nmbrDataCon :: Id -> NmbrM Id
-
-addId id@(Id u n ty det prag info) nenv@(NmbrEnv ui ut uu idenv tvenv uvenv)
- = case (lookupUFM_Directly idenv u) of
- Just xx -> trace "addId: already in map!" $
- (nenv, xx)
- Nothing ->
- if toplevelishId id then
- trace "addId: can't add toplevelish!" $
- (nenv, id)
- else -- alloc a new unique for this guy
- -- and add an entry in the idenv
- -- NB: *** KNOT-TYING ***
- let
- nenv_plus_id = NmbrEnv (incrUnique ui) ut uu
- (addToUFM_Directly idenv u new_id)
- tvenv uvenv
-
- (nenv2, new_ty) = nmbrType ty nenv_plus_id
- (nenv3, new_det) = nmbr_details det nenv2
-
- new_id = Id ui n new_ty new_det prag info
- in
- (nenv3, new_id)
-
-nmbrId id@(Id u n ty det prag info) nenv@(NmbrEnv ui ut uu idenv tvenv uvenv)
- = case (lookupUFM_Directly idenv u) of
- Just xx -> (nenv, xx)
- Nothing ->
- if not (toplevelishId id) then
- trace "nmbrId: lookup failed" $
- (nenv, id)
- else
- let
- (nenv2, new_ty) = nmbrType ty nenv
- (nenv3, new_det) = nmbr_details det nenv2
-
- new_id = Id u n new_ty new_det prag info
- in
- (nenv3, new_id)
-
- -- used when renumbering TyCons to produce data decls...
-nmbrDataCon id@(Id _ _ _ (TupleConId _) _ _) nenv
- = (nenv, id) -- nothing to do for tuples
-
-nmbrDataCon id@(Id u n ty (AlgConId tag marks fields tvs theta con_tvs con_theta arg_tys tc) prag info)
- nenv@(NmbrEnv ui ut uu idenv tvenv uvenv)
- = case (lookupUFM_Directly idenv u) of
- Just xx -> trace "nmbrDataCon: in env???\n" (nenv, xx)
- Nothing ->
- let
- (nenv2, new_fields) = (mapNmbr nmbrField fields) nenv
- (nenv3, new_arg_tys) = (mapNmbr nmbrType arg_tys) nenv2
-
- new_det = AlgConId tag marks new_fields (bottom "tvs") (bottom "theta") (bottom "tvs") (bottom "theta") new_arg_tys tc
- new_id = Id u n (bottom "ty") new_det prag info
- in
- (nenv3, new_id)
- where
- bottom msg = panic ("nmbrDataCon"++msg)
-
-------------
-nmbr_details :: IdDetails -> NmbrM IdDetails
-
-nmbr_details (AlgConId tag marks fields tvs theta con_tvs con_theta arg_tys tc)
- = mapNmbr nmbrTyVar tvs `thenNmbr` \ new_tvs ->
- mapNmbr nmbrTyVar con_tvs `thenNmbr` \ new_con_tvs ->
- mapNmbr nmbrField fields `thenNmbr` \ new_fields ->
- mapNmbr nmbr_theta theta `thenNmbr` \ new_theta ->
- mapNmbr nmbr_theta con_theta `thenNmbr` \ new_con_theta ->
- mapNmbr nmbrType arg_tys `thenNmbr` \ new_arg_tys ->
- returnNmbr (AlgConId tag marks new_fields new_tvs new_theta new_con_tvs new_con_theta new_arg_tys tc)
- where
- nmbr_theta (c,t)
- = --nmbrClass c `thenNmbr` \ new_c ->
- nmbrType t `thenNmbr` \ new_t ->
- returnNmbr (c, new_t)
-
- -- ToDo:add more cases as needed
-nmbr_details other_details = returnNmbr other_details
-
-------------
-nmbrField (FieldLabel n ty tag)
- = nmbrType ty `thenNmbr` \ new_ty ->
- returnNmbr (FieldLabel n new_ty tag)
-\end{code}