module TyCon(
TyCon, ArgVrcs,
- AlgTyConFlavour(..),
- DataConDetails(..), visibleDataCons,
+ AlgTyConRhs(..), visibleDataCons,
isFunTyCon, isUnLiftedTyCon, isProductTyCon,
isAlgTyCon, isDataTyCon, isSynTyCon, isNewTyCon, isPrimTyCon,
isEnumerationTyCon,
isTupleTyCon, isUnboxedTupleTyCon, isBoxedTupleTyCon, tupleTyConBoxity,
- isRecursiveTyCon, newTyConRep, isHiBootTyCon,
+ isRecursiveTyCon, newTyConRep, newTyConRhs, isHiBootTyCon,
mkForeignTyCon, isForeignTyCon,
tyConUnique,
tyConTyVars,
tyConArgVrcs,
- tyConDataConDetails, tyConDataCons, tyConDataCons_maybe, tyConFamilySize,
+ algTyConRhs, tyConDataCons, tyConDataCons_maybe, tyConFamilySize,
tyConSelIds,
tyConTheta,
tyConPrimRep,
}
- | AlgTyCon { -- Tuples, data type, and newtype decls.
+ | AlgTyCon { -- Data type, and newtype decls.
-- All lifted, all boxed
tyConUnique :: Unique,
tyConName :: Name,
argVrcs :: ArgVrcs,
algTyConTheta :: [PredType],
- dataCons :: DataConDetails DataCon,
+ selIds :: [Id], -- Its record selectors (if any)
- selIds :: [Id], -- Its record selectors (if any)
+ algTyConRhs :: AlgTyConRhs, -- Data constructors in here
- algTyConFlavour :: AlgTyConFlavour,
- algTyConRec :: RecFlag, -- Tells whether the data type is part of
+ algTyConRec :: RecFlag, -- Tells whether the data type is part of
-- a mutually-recursive group or not
- hasGenerics :: Bool, -- True <=> generic to/from functions are available
+ hasGenerics :: Bool, -- True <=> generic to/from functions are available
-- (in the exports of the data type's source module)
algTyConClass :: Maybe Class
primTyConRep :: PrimRep, -- Many primitive tycons are unboxed, but some are
-- boxed (represented by pointers). The PrimRep tells.
- isUnLifted :: Bool, -- Most primitive tycons are unlifted,
- -- but foreign-imported ones may not be
+ isUnLifted :: Bool, -- Most primitive tycons are unlifted,
+ -- but foreign-imported ones may not be
tyConExtName :: Maybe FastString -- Just xx for foreign-imported types
}
type ArgVrcs = [(Bool,Bool)] -- Tyvar variance info: [(occPos,occNeg)]
-- [] means "no information, assume the worst"
-data AlgTyConFlavour
- = DataTyCon Bool -- Data type; True <=> an enumeration type
+data AlgTyConRhs
+ = AbstractTyCon -- We know nothing about this data type, except
+ -- that it's represented by a pointer
+ -- Used when we export a data type abstractly into
+ -- an hi file
- | NewTyCon Type -- Newtype, with its *ultimate* representation type
+ | DataTyCon
+ [DataCon] -- The constructors; can be empty if the user declares
+ -- the type to have no constructors
+ Bool -- Cached: True <=> an enumeration type
+
+ | NewTyCon -- Newtypes always have exactly one constructor
+ DataCon -- The unique constructor; it has no existentials
+ Type -- Cached: the argument type of the constructor
+ -- = the representation type of the tycon
+
+ Type -- Cached: the *ultimate* representation type
-- By 'ultimate' I mean that the rep type is not itself
-- a newtype or type synonym.
-- The rep type isn't entirely simple:
-- The rep type is [(a,Int)]
-- NB: the rep type isn't necessarily the original RHS of the
-- newtype decl, because the rep type looks through other
- -- newtypes. If you want hte original RHS, look at the
- -- argument type of the data constructor.
-
-data DataConDetails datacon
- = DataCons [datacon] -- Its data constructors, with fully polymorphic types
- -- A type can have zero constructors
-
- | Unknown -- Used only when We're importing this data type from an
- -- hi-boot file, so we don't know what its constructors are
+ -- newtypes.
-visibleDataCons (DataCons cs) = cs
-visibleDataCons other = []
+visibleDataCons :: AlgTyConRhs -> [DataCon]
+visibleDataCons AbstractTyCon = []
+visibleDataCons (DataTyCon cs _) = cs
+visibleDataCons (NewTyCon c _ _) = [c]
\end{code}
-- This is the making of a TyCon. Just the same as the old mkAlgTyCon,
-- but now you also have to pass in the generic information about the type
-- constructor - you can get hold of it easily (see Generics module)
-mkAlgTyCon name kind tyvars theta argvrcs cons sels flavour is_rec gen_info
+mkAlgTyCon name kind tyvars theta argvrcs rhs sels is_rec gen_info
= AlgTyCon {
tyConName = name,
tyConUnique = nameUnique name,
tyConTyVars = tyvars,
argVrcs = argvrcs,
algTyConTheta = theta,
- dataCons = cons,
+ algTyConRhs = rhs,
selIds = sels,
algTyConClass = Nothing,
- algTyConFlavour = flavour,
algTyConRec = is_rec,
hasGenerics = gen_info
}
-mkClassTyCon name kind tyvars argvrcs con clas flavour is_rec
+mkClassTyCon name kind tyvars argvrcs rhs clas is_rec
= AlgTyCon {
tyConName = name,
tyConUnique = nameUnique name,
tyConTyVars = tyvars,
argVrcs = argvrcs,
algTyConTheta = [],
- dataCons = DataCons [con],
+ algTyConRhs = rhs,
selIds = [],
algTyConClass = Just clas,
- algTyConFlavour = flavour,
algTyConRec = is_rec,
hasGenerics = False
}
isUnLiftedTyCon (TupleTyCon {tyConBoxed = boxity}) = not (isBoxed boxity)
isUnLiftedTyCon _ = False
-#ifdef UNUSED
--- isBoxedTyCon should not be applied to SynTyCon, nor KindCon
-isBoxedTyCon :: TyCon -> Bool
-isBoxedTyCon (AlgTyCon {}) = True
-isBoxedTyCon (FunTyCon {}) = True
-isBoxedTyCon (TupleTyCon {tyConBoxed = boxity}) = isBoxed boxity
-isBoxedTyCon (PrimTyCon {primTyConRep = rep}) = isFollowableRep rep
-#endif
-
-- isAlgTyCon returns True for both @data@ and @newtype@
isAlgTyCon :: TyCon -> Bool
isAlgTyCon (AlgTyCon {}) = True
-- True for all @data@ types
-- False for newtypes
-- unboxed tuples
-isDataTyCon (AlgTyCon {algTyConFlavour = new_or_data})
- = case new_or_data of
- NewTyCon _ -> False
- other -> True
+isDataTyCon (AlgTyCon {algTyConRhs = rhs})
+ = case rhs of
+ DataTyCon _ _ -> True
+ NewTyCon _ _ _ -> False
+ AbstractTyCon -> panic "isDataTyCon"
isDataTyCon (TupleTyCon {tyConBoxed = boxity}) = isBoxed boxity
isDataTyCon other = False
isNewTyCon :: TyCon -> Bool
-isNewTyCon (AlgTyCon {algTyConFlavour = NewTyCon _}) = True
+isNewTyCon (AlgTyCon {algTyConRhs = NewTyCon _ _ _}) = True
isNewTyCon other = False
isProductTyCon :: TyCon -> Bool
-- may be DataType or NewType,
-- may be unboxed or not,
-- may be recursive or not
-isProductTyCon (AlgTyCon {dataCons = DataCons [data_con]}) = not (isExistentialDataCon data_con)
-isProductTyCon (TupleTyCon {}) = True
-isProductTyCon other = False
+isProductTyCon tc@(AlgTyCon {}) = case algTyConRhs tc of
+ DataTyCon [data_con] _ -> not (isExistentialDataCon data_con)
+ NewTyCon _ _ _ -> True
+ other -> False
+isProductTyCon (TupleTyCon {}) = True
+isProductTyCon other = False
isSynTyCon :: TyCon -> Bool
isSynTyCon (SynTyCon {}) = True
isSynTyCon _ = False
isEnumerationTyCon :: TyCon -> Bool
-isEnumerationTyCon (AlgTyCon {algTyConFlavour = DataTyCon is_enum}) = is_enum
-isEnumerationTyCon other = False
+isEnumerationTyCon (AlgTyCon {algTyConRhs = DataTyCon _ is_enum}) = is_enum
+isEnumerationTyCon other = False
isTupleTyCon :: TyCon -> Bool
-- The unit tycon didn't used to be classed as a tuple tycon
isHiBootTyCon :: TyCon -> Bool
-- Used for knot-tying in hi-boot files
-isHiBootTyCon (AlgTyCon {dataCons = Unknown}) = True
-isHiBootTyCon other = False
+isHiBootTyCon (AlgTyCon {algTyConRhs = AbstractTyCon}) = True
+isHiBootTyCon other = False
isForeignTyCon :: TyCon -> Bool
-- isForeignTyCon identifies foreign-imported type constructors
tyConHasGenerics (TupleTyCon {hasGenerics = hg}) = hg
tyConHasGenerics other = False -- Synonyms
-tyConDataConDetails :: TyCon -> DataConDetails DataCon
-tyConDataConDetails (AlgTyCon {dataCons = cons}) = cons
-tyConDataConDetails (TupleTyCon {dataCon = con}) = DataCons [con]
-tyConDataConDetails other = pprPanic "tyConDataConDetails" (ppr other)
-
tyConDataCons :: TyCon -> [DataCon]
-- It's convenient for tyConDataCons to return the
-- empty list for type synonyms etc
tyConDataCons tycon = tyConDataCons_maybe tycon `orElse` []
tyConDataCons_maybe :: TyCon -> Maybe [DataCon]
-tyConDataCons_maybe (AlgTyCon {dataCons = DataCons cons}) = Just cons
-tyConDataCons_maybe (TupleTyCon {dataCon = con}) = Just [con]
-tyConDataCons_maybe other = Nothing
+tyConDataCons_maybe (AlgTyCon {algTyConRhs = DataTyCon cons _}) = Just cons
+tyConDataCons_maybe (AlgTyCon {algTyConRhs = NewTyCon con _ _}) = Just [con]
+tyConDataCons_maybe (TupleTyCon {dataCon = con}) = Just [con]
+tyConDataCons_maybe other = Nothing
tyConFamilySize :: TyCon -> Int
-tyConFamilySize (AlgTyCon {dataCons = DataCons cs}) = length cs
-tyConFamilySize (TupleTyCon {}) = 1
+tyConFamilySize (AlgTyCon {algTyConRhs = DataTyCon cons _}) = length cons
+tyConFamilySize (AlgTyCon {algTyConRhs = NewTyCon _ _ _}) = 1
+tyConFamilySize (TupleTyCon {}) = 1
#ifdef DEBUG
tyConFamilySize other = pprPanic "tyConFamilySize:" (ppr other)
#endif
\begin{code}
newTyConRep :: TyCon -> ([TyVar], Type)
-newTyConRep (AlgTyCon {tyConTyVars = tvs, algTyConFlavour = NewTyCon rep}) = (tvs, rep)
+newTyConRep (AlgTyCon {tyConTyVars = tvs, algTyConRhs = NewTyCon _ _ rep}) = (tvs, rep)
+
+newTyConRhs :: TyCon -> ([TyVar], Type)
+newTyConRhs (AlgTyCon {tyConTyVars = tvs, algTyConRhs = NewTyCon _ rhs _}) = (tvs, rhs)
tyConPrimRep :: TyCon -> PrimRep
tyConPrimRep (PrimTyCon {primTyConRep = rep}) = rep
\begin{code}
maybeTyConSingleCon :: TyCon -> Maybe DataCon
-maybeTyConSingleCon (AlgTyCon {dataCons = DataCons [c]}) = Just c
-maybeTyConSingleCon (AlgTyCon {}) = Nothing
-maybeTyConSingleCon (TupleTyCon {dataCon = con}) = Just con
-maybeTyConSingleCon (PrimTyCon {}) = Nothing
-maybeTyConSingleCon (FunTyCon {}) = Nothing -- case at funty
+maybeTyConSingleCon (AlgTyCon {algTyConRhs = DataTyCon [c] _}) = Just c
+maybeTyConSingleCon (AlgTyCon {algTyConRhs = NewTyCon c _ _}) = Just c
+maybeTyConSingleCon (AlgTyCon {}) = Nothing
+maybeTyConSingleCon (TupleTyCon {dataCon = con}) = Just con
+maybeTyConSingleCon (PrimTyCon {}) = Nothing
+maybeTyConSingleCon (FunTyCon {}) = Nothing -- case at funty
maybeTyConSingleCon tc = pprPanic "maybeTyConSingleCon: unexpected tycon " $ ppr tc
\end{code}