Id, DictId,
-- Simple construction
- mkId, mkVanillaId, mkSysLocal, mkUserLocal,
+ mkGlobalId, mkLocalId, mkSpecPragmaId, mkLocalIdWithInfo,
+ mkSysLocal, mkUserLocal, mkVanillaGlobal,
mkTemplateLocals, mkTemplateLocalsNum, mkWildId, mkTemplateLocal,
+ mkWorkerId,
-- Taking an Id apart
idName, idType, idUnique, idInfo,
- idPrimRep, isId,
+ idPrimRep, isId, globalIdDetails,
recordSelectorFieldLabel,
-- Modifying an Id
- setIdName, setIdUnique, setIdType, setIdNoDiscard,
+ setIdName, setIdUnique, setIdType, setIdNoDiscard, setGlobalIdDetails,
setIdInfo, lazySetIdInfo, modifyIdInfo, maybeModifyIdInfo,
- zapFragileIdInfo, zapLamIdInfo,
+ zapLamIdInfo, zapDemandIdInfo,
-- Predicates
- omitIfaceSigForId, isDeadBinder,
- exportWithOrigOccName,
- externallyVisibleId,
- idFreeTyVars,
- isIP,
- isSpecPragmaId, isRecordSelector,
+ isImplicitId, isDeadBinder,
+ isSpecPragmaId, isExportedId, isLocalId, isGlobalId,
+ isRecordSelector,
isPrimOpId, isPrimOpId_maybe,
- isDataConId, isDataConId_maybe, isDataConWrapId,
- isDataConWrapId_maybe,
+ isFCallId, isFCallId_maybe,
+ isDataConId, isDataConId_maybe,
+ isDataConWrapId, isDataConWrapId_maybe,
isBottomingId,
- isExportedId, isUserExportedId,
hasNoBinding,
-- Inline pragma stuff
setIdTyGenInfo,
setIdWorkerInfo,
setIdSpecialisation,
- setIdCafInfo,
+ setIdCgInfo,
setIdCprInfo,
setIdOccInfo,
idArity, idArityInfo,
- idFlavour,
idDemandInfo,
idStrictness,
idTyGenInfo,
idWorkerInfo,
idUnfolding,
idSpecialisation,
+ idCgInfo,
idCafInfo,
+ idCgArity,
idCprInfo,
idLBVarInfo,
idOccInfo,
import CoreSyn ( Unfolding, CoreRules )
import BasicTypes ( Arity )
import Var ( Id, DictId,
- isId, mkIdVar,
- idName, idType, idUnique, idInfo,
- setIdName, setVarType, setIdUnique,
+ isId, isExportedId, isSpecPragmaId, isLocalId,
+ idName, idType, idUnique, idInfo, isGlobalId,
+ setIdName, setVarType, setIdUnique, setIdNoDiscard,
setIdInfo, lazySetIdInfo, modifyIdInfo,
maybeModifyIdInfo,
- externallyVisibleId
+ globalIdDetails, setGlobalIdDetails
)
-import VarSet
-import Type ( Type, tyVarsOfType, typePrimRep, addFreeTyVars,
+import qualified Var ( mkLocalId, mkGlobalId, mkSpecPragmaId )
+import Type ( Type, typePrimRep, addFreeTyVars,
usOnce, seqType, splitTyConApp_maybe )
import IdInfo
import Demand ( Demand )
import Name ( Name, OccName,
mkSysLocalName, mkLocalName,
- isUserExportedName, nameIsLocallyDefined,
- getOccName, isIPOcc
+ getOccName, getSrcLoc
)
-import OccName ( UserFS )
+import OccName ( UserFS, mkWorkerOcc )
import PrimRep ( PrimRep )
import TysPrim ( statePrimTyCon )
import FieldLabel ( FieldLabel )
import SrcLoc ( SrcLoc )
-import Unique ( Unique, mkBuiltinUnique, getBuiltinUniques,
- getNumBuiltinUniques )
import Outputable
+import Unique ( Unique, mkBuiltinUnique )
infixl 1 `setIdUnfolding`,
`setIdArityInfo`,
%* *
%************************************************************************
-Absolutely all Ids are made by mkId. It
- a) Pins free-tyvar-info onto the Id's type,
- where it can easily be found.
- b) Ensures that exported Ids are
+Absolutely all Ids are made by mkId. It is just like Var.mkId,
+but in addition it pins free-tyvar-info onto the Id's type,
+where it can easily be found.
\begin{code}
-mkId :: Name -> Type -> IdInfo -> Id
-mkId name ty info = mkIdVar name (addFreeTyVars ty) info'
- where
- info' | isUserExportedName name = setNoDiscardInfo info
- | otherwise = info
+mkLocalIdWithInfo :: Name -> Type -> IdInfo -> Id
+mkLocalIdWithInfo name ty info = Var.mkLocalId name (addFreeTyVars ty) info
+
+mkSpecPragmaId :: OccName -> Unique -> Type -> SrcLoc -> Id
+mkSpecPragmaId occ uniq ty loc = Var.mkSpecPragmaId (mkLocalName uniq occ loc)
+ (addFreeTyVars ty)
+ vanillaIdInfo
+
+mkGlobalId :: GlobalIdDetails -> Name -> Type -> IdInfo -> Id
+mkGlobalId details name ty info = Var.mkGlobalId details name (addFreeTyVars ty) info
\end{code}
\begin{code}
-mkVanillaId :: Name -> Type -> Id
-mkVanillaId name ty = mkId name ty vanillaIdInfo
+mkLocalId :: Name -> Type -> Id
+mkLocalId name ty = mkLocalIdWithInfo name ty vanillaIdInfo
-- SysLocal: for an Id being created by the compiler out of thin air...
-- UserLocal: an Id with a name the user might recognize...
mkUserLocal :: OccName -> Unique -> Type -> SrcLoc -> Id
mkSysLocal :: UserFS -> Unique -> Type -> Id
+mkVanillaGlobal :: Name -> Type -> IdInfo -> Id
-mkSysLocal fs uniq ty = mkVanillaId (mkSysLocalName uniq fs) ty
-mkUserLocal occ uniq ty loc = mkVanillaId (mkLocalName uniq occ loc) ty
+mkSysLocal fs uniq ty = mkLocalId (mkSysLocalName uniq fs) ty
+mkUserLocal occ uniq ty loc = mkLocalId (mkLocalName uniq occ loc) ty
+mkVanillaGlobal = mkGlobalId VanillaGlobal
\end{code}
Make some local @Ids@ for a template @CoreExpr@. These have bogus
@Uniques@, but that's OK because the templates are supposed to be
instantiated before use.
-
+
\begin{code}
-- "Wild Id" typically used when you need a binder that you don't expect to use
mkWildId :: Type -> Id
mkWildId ty = mkSysLocal SLIT("wild") (mkBuiltinUnique 1) ty
+mkWorkerId :: Unique -> Id -> Type -> Id
+-- A worker gets a local name. CoreTidy will globalise it if necessary.
+mkWorkerId uniq unwrkr ty
+ = mkLocalId wkr_name ty
+ where
+ wkr_name = mkLocalName uniq (mkWorkerOcc (getOccName unwrkr)) (getSrcLoc unwrkr)
+
-- "Template locals" typically used in unfoldings
mkTemplateLocals :: [Type] -> [Id]
-mkTemplateLocals tys = zipWith (mkSysLocal SLIT("tpl"))
- (getBuiltinUniques (length tys))
- tys
+mkTemplateLocals tys = zipWith mkTemplateLocal [1..] tys
mkTemplateLocalsNum :: Int -> [Type] -> [Id]
-mkTemplateLocalsNum n tys = zipWith (mkSysLocal SLIT("tpl"))
- (getNumBuiltinUniques n (length tys))
- tys
+-- The Int gives the starting point for unique allocation
+mkTemplateLocalsNum n tys = zipWith mkTemplateLocal [n..] tys
mkTemplateLocal :: Int -> Type -> Id
mkTemplateLocal i ty = mkSysLocal SLIT("tpl") (mkBuiltinUnique i) ty
%************************************************************************
\begin{code}
-idFreeTyVars :: Id -> TyVarSet
-idFreeTyVars id = tyVarsOfType (idType id)
-
setIdType :: Id -> Type -> Id
-- Add free tyvar info to the type
setIdType id ty = seqType ty `seq` setVarType id (addFreeTyVars ty)
%* *
%************************************************************************
-\begin{code}
-idFlavour :: Id -> IdFlavour
-idFlavour id = flavourInfo (idInfo id)
+The @SpecPragmaId@ exists only to make Ids that are
+on the *LHS* of bindings created by SPECIALISE pragmas;
+eg: s = f Int d
+The SpecPragmaId is never itself mentioned; it
+exists solely so that the specialiser will find
+the call to f, and make specialised version of it.
+The SpecPragmaId binding is discarded by the specialiser
+when it gathers up overloaded calls.
+Meanwhile, it is not discarded as dead code.
-setIdNoDiscard :: Id -> Id
-setIdNoDiscard id -- Make an Id into a NoDiscardId, unless it is already
- = modifyIdInfo setNoDiscardInfo id
+\begin{code}
recordSelectorFieldLabel :: Id -> FieldLabel
-recordSelectorFieldLabel id = case idFlavour id of
- RecordSelId lbl -> lbl
+recordSelectorFieldLabel id = case globalIdDetails id of
+ RecordSelId lbl -> lbl
-isRecordSelector id = case idFlavour id of
+isRecordSelector id = case globalIdDetails id of
RecordSelId lbl -> True
other -> False
-isPrimOpId id = case idFlavour id of
+isPrimOpId id = case globalIdDetails id of
PrimOpId op -> True
other -> False
-isPrimOpId_maybe id = case idFlavour id of
+isPrimOpId_maybe id = case globalIdDetails id of
PrimOpId op -> Just op
other -> Nothing
-isDataConId id = case idFlavour id of
+isFCallId id = case globalIdDetails id of
+ FCallId call -> True
+ other -> False
+
+isFCallId_maybe id = case globalIdDetails id of
+ FCallId call -> Just call
+ other -> Nothing
+
+isDataConId id = case globalIdDetails id of
DataConId _ -> True
other -> False
-isDataConId_maybe id = case idFlavour id of
+isDataConId_maybe id = case globalIdDetails id of
DataConId con -> Just con
other -> Nothing
-isDataConWrapId_maybe id = case idFlavour id of
+isDataConWrapId_maybe id = case globalIdDetails id of
DataConWrapId con -> Just con
other -> Nothing
-isDataConWrapId id = case idFlavour id of
+isDataConWrapId id = case globalIdDetails id of
DataConWrapId con -> True
other -> False
-isSpecPragmaId id = case idFlavour id of
- SpecPragmaId -> True
- other -> False
-
-hasNoBinding id = case idFlavour id of
- DataConId _ -> True
- PrimOpId _ -> True
- other -> False
-- hasNoBinding returns True of an Id which may not have a
-- binding, even though it is defined in this module. Notably,
-- the constructors of a dictionary are in this situation.
+hasNoBinding id = case globalIdDetails id of
+ DataConId _ -> True
+ PrimOpId _ -> True
+ FCallId _ -> True
+ other -> False
--- Don't drop a binding for an exported Id,
--- if it otherwise looks dead.
-isExportedId :: Id -> Bool
-isExportedId id = isUserExportedId id -- Try this
-{-
- case idFlavour id of
- VanillaId -> False
- other -> True -- All the others are no-discard
--}
-
--- Say if an Id was exported by the user
--- Implies isExportedId (see mkId above)
-isUserExportedId :: Id -> Bool
-isUserExportedId id = isUserExportedName (idName id)
-\end{code}
-
-
-omitIfaceSigForId tells whether an Id's info is implied by other declarations,
-so we don't need to put its signature in an interface file, even if it's mentioned
-in some other interface unfolding.
-
-\begin{code}
-omitIfaceSigForId :: Id -> Bool
-omitIfaceSigForId id
- = ASSERT2( not (omit && nameIsLocallyDefined (idName id)
- && idTyGenInfo id /= TyGenNever),
- ppr id )
- -- mustn't omit type signature for a name whose type might change!
- omit
- where
- omit = omitIfaceSigForId' id
-
-omitIfaceSigForId' id
- = case idFlavour id of
+isImplicitId :: Id -> Bool
+ -- isImplicitId tells whether an Id's info is implied by other
+ -- declarations, so we don't need to put its signature in an interface
+ -- file, even if it's mentioned in some other interface unfolding.
+isImplicitId id
+ = case globalIdDetails id of
RecordSelId _ -> True -- Includes dictionary selectors
+ FCallId _ -> True
PrimOpId _ -> True
DataConId _ -> True
DataConWrapId _ -> True
-- remember that all type and class decls appear in the interface file.
-- The dfun id must *not* be omitted, because it carries version info for
-- the instance decl
-
- other -> False -- Don't omit!
-
--- Certain names must be exported with their original occ names, because
--- these names are bound by either a class declaration or a data declaration
--- or an explicit user export.
-exportWithOrigOccName :: Id -> Bool
-exportWithOrigOccName id = omitIfaceSigForId id || isUserExportedId id
+ other -> False
\end{code}
\begin{code}
isDeadBinder :: Id -> Bool
isDeadBinder bndr | isId bndr = isDeadOcc (idOccInfo bndr)
| otherwise = False -- TyVars count as not dead
-
-isIP id = isIPOcc (getOccName id)
\end{code}
setIdSpecialisation id spec_info = modifyIdInfo (`setSpecInfo` spec_info) id
---------------------------------
+ -- CG INFO
+idCgInfo :: Id -> CgInfo
+#ifdef DEBUG
+idCgInfo id = case cgInfo (idInfo id) of
+ NoCgInfo -> pprPanic "idCgInfo" (ppr id)
+ info -> info
+#else
+idCgInfo id = cgInfo (idInfo id)
+#endif
+
+setIdCgInfo :: Id -> CgInfo -> Id
+setIdCgInfo id cg_info = modifyIdInfo (`setCgInfo` cg_info) id
+
+ ---------------------------------
-- CAF INFO
idCafInfo :: Id -> CafInfo
-idCafInfo id = cafInfo (idInfo id)
+idCafInfo id = cgCafInfo (idCgInfo id)
+
+ ---------------------------------
+ -- CG ARITY
-setIdCafInfo :: Id -> CafInfo -> Id
-setIdCafInfo id caf_info = modifyIdInfo (`setCafInfo` caf_info) id
+idCgArity :: Id -> Arity
+idCgArity id = cgArity (idCgInfo id)
---------------------------------
-- CPR INFO
\end{code}
\begin{code}
-zapFragileIdInfo :: Id -> Id
-zapFragileIdInfo id = maybeModifyIdInfo zapFragileInfo id
-
zapLamIdInfo :: Id -> Id
zapLamIdInfo id = maybeModifyIdInfo zapLamInfo id
-\end{code}
+zapDemandIdInfo id = maybeModifyIdInfo zapDemandInfo id
+\end{code}