-
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+%
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[TyCon]{The @TyCon@ datatype}
\begin{code}
module TyCon(
- TyCon,
+ TyCon, KindCon, SuperKindCon, ArgVrcs,
- Arity, NewOrData(..),
+ AlgTyConFlavour(..),
+ DataConDetails(..), visibleDataCons,
- isFunTyCon, isPrimTyCon, isBoxedTyCon, isProductTyCon,
- isAlgTyCon, isDataTyCon, isSynTyCon, isNewTyCon,
- isEnumerationTyCon, isTupleTyCon,
+ isFunTyCon, isUnLiftedTyCon, isBoxedTyCon, isProductTyCon,
+ isAlgTyCon, isDataTyCon, isSynTyCon, isNewTyCon, isPrimTyCon,
+ isEnumerationTyCon,
+ isTupleTyCon, isUnboxedTupleTyCon, isBoxedTupleTyCon, tupleTyConBoxity,
+ isRecursiveTyCon, newTyConRep,
- mkDataTyCon,
+ mkForeignTyCon, isForeignTyCon,
+
+ mkAlgTyCon,
+ mkClassTyCon,
mkFunTyCon,
mkPrimTyCon,
- mkSpecTyCon,
+ mkLiftedPrimTyCon,
mkTupleTyCon,
-
mkSynTyCon,
+ mkKindCon,
+ mkSuperKindCon,
+ setTyConName,
+
+ tyConName,
tyConKind,
tyConUnique,
tyConTyVars,
- tyConDataCons,
- tyConFamilySize,
- tyConDerivings,
+ tyConArgVrcs_maybe,
+ tyConDataConDetails, tyConDataCons, tyConDataCons_maybe, tyConFamilySize,
+ tyConSelIds,
tyConTheta,
tyConPrimRep,
tyConArity,
- tyConClass_maybe,
+ isClassTyCon, tyConClass_maybe,
getSynTyConDefn,
- maybeTyConSingleCon
+ maybeTyConSingleCon,
+
+ matchesTyCon,
+
+ -- Generics
+ tyConGenIds, tyConGenInfo
) where
#include "HsVersions.h"
-import {-# SOURCE #-} Type ( Type )
-import {-# SOURCE #-} Class ( Class )
-import {-# SOURCE #-} Id ( Id, isNullaryDataCon, idType )
-import {-# SOURCE #-} TysWiredIn ( tupleCon )
+import {-# SOURCE #-} TypeRep ( Type, PredType, Kind, SuperKind )
+ -- Should just be Type(Type), but this fails due to bug present up to
+ -- and including 4.02 involving slurping of hi-boot files. Bug is now fixed.
+import {-# SOURCE #-} DataCon ( DataCon, isExistentialDataCon )
-import BasicTypes ( Arity, NewOrData(..), RecFlag(..) )
-import TyVar ( GenTyVar, alphaTyVars, alphaTyVar, betaTyVar, TyVar )
-import Kind ( Kind, mkBoxedTypeKind, mkTypeKind, mkUnboxedTypeKind,
- mkArrowKind, resultKind, argKind
- )
-import Maybes
-import Name ( Name, nameUnique, mkWiredInTyConName, NamedThing(getName) )
-import Unique ( Unique, funTyConKey, Uniquable(..) )
+
+import Var ( TyVar, Id )
+import Class ( Class )
+import BasicTypes ( Arity, RecFlag(..), Boxity(..),
+ isBoxed, EP(..) )
+import Name ( Name, nameUnique, NamedThing(getName) )
+import PrelNames ( Unique, Uniquable(..), anyBoxConKey )
import PrimRep ( PrimRep(..), isFollowableRep )
-import PrelMods ( pREL_GHC, pREL_TUP, pREL_BASE )
-import Lex ( mkTupNameStr )
-import SrcLoc ( SrcLoc, mkBuiltinSrcLoc )
-import Util ( nOfThem, isIn )
+import Maybes ( orElse )
import Outputable
+import FastString
\end{code}
-\begin{code}
-data TyCon
- = FunTyCon -- Kind = Type -> Type -> Type
-
- | DataTyCon Unique
- Name
- Kind
- [TyVar]
- [(Class,[Type])] -- Its context
- [Id{-DataCon-}] -- Its data constructors, with fully polymorphic types
- -- This list can be empty, when we import a data type abstractly,
- -- either (a) the interface is hand-written and doesn't give
- -- the constructors, or
- -- (b) in a quest for fast compilation we don't import
- -- the constructors
- [Class] -- Classes which have derived instances
- (Maybe Class) -- Nothing for ordinary types; Just c for the type constructor
- -- for dictionaries of class c.
- NewOrData
- RecFlag -- Tells whether the data type is part of
- -- a mutually-recursive group or not
-
- | TupleTyCon Unique -- cached
- Name -- again, we could do without this, but
- -- it makes life somewhat easier
- Arity -- just a special case of DataTyCon
- -- Kind = BoxedTypeKind
- -- -> ... (n times) ...
- -- -> BoxedTypeKind
- -- -> BoxedTypeKind
-
- | PrimTyCon -- Primitive types; cannot be defined in Haskell
- Unique -- Always unpointed; hence never represented by a closure
- Name -- Often represented by a bit-pattern for the thing
- Kind -- itself (eg Int#), but sometimes by a pointer to
- Arity -- the thing.
- PrimRep
-
- | SpecTyCon -- A specialised TyCon; eg (Arr# Int#), or (List Int#)
- TyCon
- [Maybe Type] -- Specialising types
-
- -- OLD STUFF ABOUT Array types. Use SpecTyCon instead
- -- ([PrimRep] -> PrimRep) -- a heap-allocated object (eg ArrInt#).
- -- The primitive types Arr# and StablePtr# have
- -- parameters (hence arity /= 0); but the rest don't.
- -- Only arrays use the list in a non-trivial way.
- -- Length of that list must == arity.
-
- | SynTyCon
- Unique
- Name
- Kind
- Arity
- [TyVar] -- Argument type variables
- Type -- Right-hand side, mentioning these type vars.
- -- Acts as a template for the expansion when
- -- the tycon is applied to some types.
-\end{code}
+%************************************************************************
+%* *
+\subsection{The data type}
+%* *
+%************************************************************************
\begin{code}
-mkFunTyCon = FunTyCon
-mkFunTyConName = mkWiredInTyConName funTyConKey pREL_GHC SLIT("->") FunTyCon
+type KindCon = TyCon
+type SuperKindCon = TyCon
-mkSpecTyCon = SpecTyCon
-mkTupleTyCon = TupleTyCon
+data TyCon
+ = FunTyCon {
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: Kind,
+ tyConArity :: Arity
+ }
+
+
+ | AlgTyCon { -- Tuples, data type, and newtype decls.
+ -- All lifted, all boxed
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: Kind,
+ tyConArity :: Arity,
+
+ tyConTyVars :: [TyVar],
+ tyConArgVrcs :: ArgVrcs,
+ algTyConTheta :: [PredType],
+
+ dataCons :: DataConDetails DataCon,
+
+ selIds :: [Id], -- Its record selectors (if any)
+
+ algTyConFlavour :: AlgTyConFlavour,
+ algTyConRec :: RecFlag, -- Tells whether the data type is part of
+ -- a mutually-recursive group or not
+
+ genInfo :: Maybe (EP Id), -- Convert T <-> Tring
+ -- Some TyCons don't have it;
+ -- e.g. the TyCon for a Class dictionary,
+ -- and TyCons with unboxed arguments
+
+ algTyConClass :: Maybe Class
+ -- Just cl if this tycon came from a class declaration
+ }
+
+ | PrimTyCon { -- Primitive types; cannot be defined in Haskell
+ -- Now includes foreign-imported types
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: Kind,
+ tyConArity :: Arity,
+ tyConArgVrcs :: ArgVrcs,
+ 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
+ tyConExtName :: Maybe FastString
+ }
+
+ | TupleTyCon {
+
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: Kind,
+ tyConArity :: Arity,
+ tyConBoxed :: Boxity,
+ tyConTyVars :: [TyVar],
+ dataCon :: DataCon,
+ genInfo :: Maybe (EP Id) -- Generic type and conv funs
+ }
+
+ | SynTyCon {
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: Kind,
+ tyConArity :: Arity,
+
+ tyConTyVars :: [TyVar], -- Bound tyvars
+ synTyConDefn :: Type, -- Right-hand side, mentioning these type vars.
+ -- Acts as a template for the expansion when
+ -- the tycon is applied to some types.
+ tyConArgVrcs :: ArgVrcs
+ }
+
+ | KindCon { -- Type constructor at the kind level
+ tyConUnique :: Unique,
+ tyConName :: Name,
+ tyConKind :: SuperKind,
+ tyConArity :: Arity
+ }
+
+ | SuperKindCon { -- The type of kind variables or boxity variables,
+ tyConUnique :: Unique,
+ tyConName :: Name
+ }
+
+type ArgVrcs = [(Bool,Bool)] -- Tyvar variance info: [(occPos,occNeg)]
+
+data AlgTyConFlavour
+ = DataTyCon -- Data type
+
+ | EnumTyCon -- Special sort of enumeration type
+
+ | NewTyCon Type -- Newtype, with its *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:
+ -- for a recursive newtype we pick () as the rep type
+ -- newtype T = MkT T
+ --
+ -- The rep type has free type variables the tyConTyVars
+ -- Thus:
+ -- newtype T a = MkT [(a,Int)]
+ -- 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 -- We're importing this data type from an hi-boot file
+ -- and we don't know what its constructors are
+
+ | HasCons Int -- In a quest for compilation speed we have imported
+ -- only the number of constructors (to get return
+ -- conventions right) but not the constructors themselves
+
+visibleDataCons (DataCons cs) = cs
+visibleDataCons other = []
+\end{code}
-mkDataTyCon name = DataTyCon (nameUnique name) name
-mkPrimTyCon name arity rep
- = PrimTyCon (nameUnique name) name (mk_kind arity) arity rep
- where
- mk_kind 0 | isFollowableRep rep = mkBoxedTypeKind -- Represented by a GC-ish ptr
- | otherwise = mkUnboxedTypeKind -- Represented by a non-ptr
- mk_kind n = mkTypeKind `mkArrowKind` mk_kind (n-1)
+%************************************************************************
+%* *
+\subsection{TyCon Construction}
+%* *
+%************************************************************************
-mkSynTyCon name = SynTyCon (nameUnique name) name
+Note: the TyCon constructors all take a Kind as one argument, even though
+they could, in principle, work out their Kind from their other arguments.
+But to do so they need functions from Types, and that makes a nasty
+module mutual-recursion. And they aren't called from many places.
+So we compromise, and move their Kind calculation to the call site.
-isFunTyCon FunTyCon = True
-isFunTyCon _ = False
+\begin{code}
+mkSuperKindCon :: Name -> SuperKindCon
+mkSuperKindCon name = SuperKindCon {
+ tyConUnique = nameUnique name,
+ tyConName = name
+ }
+
+mkKindCon :: Name -> SuperKind -> KindCon
+mkKindCon name kind
+ = KindCon {
+ tyConUnique = nameUnique name,
+ tyConName = name,
+ tyConArity = 0,
+ tyConKind = kind
+ }
+
+mkFunTyCon :: Name -> Kind -> TyCon
+mkFunTyCon name kind
+ = FunTyCon {
+ tyConUnique = nameUnique name,
+ tyConName = name,
+ tyConKind = kind,
+ tyConArity = 2
+ }
+
+tyConGenInfo :: TyCon -> Maybe (EP Id)
+tyConGenInfo (AlgTyCon { genInfo = info }) = info
+tyConGenInfo (TupleTyCon { genInfo = info }) = info
+tyConGenInfo other = Nothing
+
+tyConGenIds :: TyCon -> [Id]
+-- Returns the generic-programming Ids; these Ids need bindings
+tyConGenIds tycon = case tyConGenInfo tycon of
+ Nothing -> []
+ Just (EP from to) -> [from,to]
+
+-- 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
+ = AlgTyCon {
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = length tyvars,
+ tyConTyVars = tyvars,
+ tyConArgVrcs = argvrcs,
+ algTyConTheta = theta,
+ dataCons = cons,
+ selIds = sels,
+ algTyConClass = Nothing,
+ algTyConFlavour = flavour,
+ algTyConRec = is_rec,
+ genInfo = gen_info
+ }
+
+mkClassTyCon name kind tyvars argvrcs con clas flavour is_rec
+ = AlgTyCon {
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = length tyvars,
+ tyConTyVars = tyvars,
+ tyConArgVrcs = argvrcs,
+ algTyConTheta = [],
+ dataCons = DataCons [con],
+ selIds = [],
+ algTyConClass = Just clas,
+ algTyConFlavour = flavour,
+ algTyConRec = is_rec,
+ genInfo = Nothing
+ }
+
+
+mkTupleTyCon name kind arity tyvars con boxed gen_info
+ = TupleTyCon {
+ tyConUnique = nameUnique name,
+ tyConName = name,
+ tyConKind = kind,
+ tyConArity = arity,
+ tyConBoxed = boxed,
+ tyConTyVars = tyvars,
+ dataCon = con,
+ genInfo = gen_info
+ }
+
+-- Foreign-imported (.NET) type constructors are represented
+-- as primitive, but *lifted*, TyCons for now. They are lifted
+-- because the Haskell type T representing the (foreign) .NET
+-- type T is actually implemented (in ILX) as a thunk<T>
+-- They have PtrRep
+mkForeignTyCon name ext_name kind arity arg_vrcs
+ = PrimTyCon {
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = arity,
+ tyConArgVrcs = arg_vrcs,
+ primTyConRep = PtrRep,
+ isUnLifted = False,
+ tyConExtName = ext_name
+ }
+
+
+-- most Prim tycons are lifted
+mkPrimTyCon name kind arity arg_vrcs rep
+ = mkPrimTyCon' name kind arity arg_vrcs rep True
+
+-- but RealWorld is lifted
+mkLiftedPrimTyCon name kind arity arg_vrcs rep
+ = mkPrimTyCon' name kind arity arg_vrcs rep False
+
+mkPrimTyCon' name kind arity arg_vrcs rep is_unlifted
+ = PrimTyCon {
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = arity,
+ tyConArgVrcs = arg_vrcs,
+ primTyConRep = rep,
+ isUnLifted = is_unlifted,
+ tyConExtName = Nothing
+ }
+
+mkSynTyCon name kind arity tyvars rhs argvrcs
+ = SynTyCon {
+ tyConName = name,
+ tyConUnique = nameUnique name,
+ tyConKind = kind,
+ tyConArity = arity,
+ tyConTyVars = tyvars,
+ synTyConDefn = rhs,
+ tyConArgVrcs = argvrcs
+ }
+
+setTyConName tc name = tc {tyConName = name, tyConUnique = nameUnique name}
-isPrimTyCon (PrimTyCon _ _ _ _ _) = True
-isPrimTyCon _ = False
+\end{code}
--- At present there are no unboxed non-primitive types, so
--- isBoxedTyCon is just the negation of isPrimTyCon.
-isBoxedTyCon = not . isPrimTyCon
+\begin{code}
+isFunTyCon :: TyCon -> Bool
+isFunTyCon (FunTyCon {}) = True
+isFunTyCon _ = False
+
+isPrimTyCon :: TyCon -> Bool
+isPrimTyCon (PrimTyCon {}) = True
+isPrimTyCon _ = False
+
+isUnLiftedTyCon :: TyCon -> Bool
+isUnLiftedTyCon (PrimTyCon {isUnLifted = is_unlifted}) = is_unlifted
+isUnLiftedTyCon (TupleTyCon {tyConBoxed = boxity}) = not (isBoxed boxity)
+isUnLiftedTyCon _ = False
+
+-- 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
-- isAlgTyCon returns True for both @data@ and @newtype@
-isAlgTyCon (DataTyCon _ _ _ _ _ _ _ _ _ _) = True
-isAlgTyCon (TupleTyCon _ _ _) = True
-isAlgTyCon other = False
-
--- isDataTyCon returns False for @newtype@.
-isDataTyCon (DataTyCon _ _ _ _ _ _ _ _ DataType _) = True
-isDataTyCon (TupleTyCon _ _ _) = True
-isDataTyCon other = False
-
-isNewTyCon (DataTyCon _ _ _ _ _ _ _ _ NewType _) = True
-isNewTyCon other = False
-
--- A "product" tycon is non-recursive and has one constructor,
--- whether DataType or NewType
-isProductTyCon (TupleTyCon _ _ _) = True
-isProductTyCon (DataTyCon _ _ _ _ _ [c] _ _ _ NonRecursive) = True
-isProductTyCon other = False
-
-isSynTyCon (SynTyCon _ _ _ _ _ _) = True
-isSynTyCon _ = False
-
-isEnumerationTyCon (TupleTyCon _ _ arity)
- = arity == 0
-isEnumerationTyCon (DataTyCon _ _ _ _ _ data_cons _ _ DataType _)
- = not (null data_cons) && all isNullaryDataCon data_cons
-isEnumerationTyCon other = False
-
-isTupleTyCon (TupleTyCon _ _ arity) = arity >= 2 -- treat "0-tuple" specially
-isTupleTyCon (SpecTyCon tc tys) = isTupleTyCon tc
-isTupleTyCon other = False
+isAlgTyCon :: TyCon -> Bool
+isAlgTyCon (AlgTyCon {}) = True
+isAlgTyCon (TupleTyCon {}) = True
+isAlgTyCon other = False
+
+isDataTyCon :: TyCon -> Bool
+-- isDataTyCon returns True for data types that are represented by
+-- heap-allocated constructors.
+-- These are srcutinised by Core-level @case@ expressions, and they
+-- get info tables allocated for them.
+-- 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 (TupleTyCon {tyConBoxed = boxity}) = isBoxed boxity
+isDataTyCon other = False
+
+isNewTyCon :: TyCon -> Bool
+isNewTyCon (AlgTyCon {algTyConFlavour = NewTyCon _}) = True
+isNewTyCon other = False
+
+isProductTyCon :: TyCon -> Bool
+-- A "product" tycon
+-- has *one* constructor,
+-- is *not* existential
+-- but
+-- 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
+
+isSynTyCon :: TyCon -> Bool
+isSynTyCon (SynTyCon {}) = True
+isSynTyCon _ = False
+
+isEnumerationTyCon :: TyCon -> Bool
+isEnumerationTyCon (AlgTyCon {algTyConFlavour = EnumTyCon}) = True
+isEnumerationTyCon other = False
+
+isTupleTyCon :: TyCon -> Bool
+-- The unit tycon didn't used to be classed as a tuple tycon
+-- but I thought that was silly so I've undone it
+-- If it can't be for some reason, it should be a AlgTyCon
+isTupleTyCon (TupleTyCon {}) = True
+isTupleTyCon other = False
+
+isUnboxedTupleTyCon :: TyCon -> Bool
+isUnboxedTupleTyCon (TupleTyCon {tyConBoxed = boxity}) = not (isBoxed boxity)
+isUnboxedTupleTyCon other = False
+
+isBoxedTupleTyCon :: TyCon -> Bool
+isBoxedTupleTyCon (TupleTyCon {tyConBoxed = boxity}) = isBoxed boxity
+isBoxedTupleTyCon other = False
+
+tupleTyConBoxity tc = tyConBoxed tc
+
+isRecursiveTyCon :: TyCon -> Bool
+isRecursiveTyCon (AlgTyCon {algTyConRec = Recursive}) = True
+isRecursiveTyCon other = False
+
+isForeignTyCon :: TyCon -> Bool
+-- isForeignTyCon identifies foreign-imported type constructors
+-- For the moment, they are primitive but lifted, but that may change
+isForeignTyCon (PrimTyCon {isUnLifted = is_unlifted}) = not is_unlifted
+isForeignTyCon other = False
\end{code}
\begin{code}
--- Special cases to avoid reconstructing lots of kinds
-kind1 = mkBoxedTypeKind `mkArrowKind` mkBoxedTypeKind
-kind2 = mkBoxedTypeKind `mkArrowKind` kind1
-
-tyConKind :: TyCon -> Kind
-tyConKind FunTyCon = kind2
-tyConKind (DataTyCon _ _ kind _ _ _ _ _ _ _) = kind
-tyConKind (PrimTyCon _ _ kind _ _) = kind
-tyConKind (SynTyCon _ _ k _ _ _) = k
-
-tyConKind (TupleTyCon _ _ n)
- = mkArrow n
- where
- mkArrow 0 = mkBoxedTypeKind
- mkArrow 1 = kind1
- mkArrow 2 = kind2
- mkArrow n = mkBoxedTypeKind `mkArrowKind` mkArrow (n-1)
-
-tyConKind (SpecTyCon tc tys)
- = spec (tyConKind tc) tys
- where
- spec kind [] = kind
- spec kind (Just _ : tys) = spec (resultKind kind) tys
- spec kind (Nothing : tys) =
- argKind kind `mkArrowKind` spec (resultKind kind) tys
-\end{code}
+tyConDataConDetails :: TyCon -> DataConDetails DataCon
+tyConDataConDetails (AlgTyCon {dataCons = cons}) = cons
+tyConDataConDetails (TupleTyCon {dataCon = con}) = DataCons [con]
+tyConDataConDetails other = Unknown
-\begin{code}
-tyConUnique :: TyCon -> Unique
-tyConUnique FunTyCon = funTyConKey
-tyConUnique (DataTyCon uniq _ _ _ _ _ _ _ _ _) = uniq
-tyConUnique (TupleTyCon uniq _ _) = uniq
-tyConUnique (PrimTyCon uniq _ _ _ _) = uniq
-tyConUnique (SynTyCon uniq _ _ _ _ _) = uniq
-tyConUnique (SpecTyCon _ _ ) = panic "tyConUnique:SpecTyCon"
-
-tyConArity :: TyCon -> Arity
-tyConArity FunTyCon = 2
-tyConArity (DataTyCon _ _ _ tyvars _ _ _ _ _ _) = length tyvars
-tyConArity (TupleTyCon _ _ arity) = arity
-tyConArity (PrimTyCon _ _ _ arity _) = arity
-tyConArity (SynTyCon _ _ _ arity _ _) = arity
-tyConArity (SpecTyCon _ _ ) = panic "tyConArity:SpecTyCon"
-\end{code}
+tyConDataCons :: TyCon -> [DataCon]
+-- It's convenient for tyConDataCons to return the
+-- empty list for type synonyms etc
+tyConDataCons tycon = tyConDataCons_maybe tycon `orElse` []
-\begin{code}
-tyConTyVars :: TyCon -> [TyVar]
-tyConTyVars FunTyCon = [alphaTyVar,betaTyVar]
-tyConTyVars (DataTyCon _ _ _ tvs _ _ _ _ _ _) = tvs
-tyConTyVars (TupleTyCon _ _ arity) = take arity alphaTyVars
-tyConTyVars (SynTyCon _ _ _ _ tvs _) = tvs
+tyConDataCons_maybe :: TyCon -> Maybe [DataCon]
+tyConDataCons_maybe (AlgTyCon {dataCons = DataCons cons}) = Just cons
+tyConDataCons_maybe (TupleTyCon {dataCon = con}) = Just [con]
+tyConDataCons_maybe other = Nothing
+
+tyConFamilySize :: TyCon -> Int
+tyConFamilySize (AlgTyCon {dataCons = DataCons cs}) = length cs
+tyConFamilySize (AlgTyCon {dataCons = HasCons n}) = n
+tyConFamilySize (TupleTyCon {}) = 1
#ifdef DEBUG
-tyConTyVars (PrimTyCon _ _ _ _ _) = panic "tyConTyVars:PrimTyCon"
-tyConTyVars (SpecTyCon _ _ ) = panic "tyConTyVars:SpecTyCon"
+tyConFamilySize other = pprPanic "tyConFamilySize:" (ppr other)
#endif
+
+tyConSelIds :: TyCon -> [Id]
+tyConSelIds (AlgTyCon {selIds = sels}) = sels
+tyConSelIds other_tycon = []
\end{code}
\begin{code}
-tyConDataCons :: TyCon -> [Id]
-tyConFamilySize :: TyCon -> Int
-
-tyConDataCons (DataTyCon _ _ _ _ _ data_cons _ _ _ _) = data_cons
-tyConDataCons (TupleTyCon _ _ a) = [tupleCon a]
-tyConDataCons other = []
- -- You may think this last equation should fail,
- -- but it's quite convenient to return no constructors for
- -- a synonym; see for example the call in TcTyClsDecls.
-
-tyConFamilySize (DataTyCon _ _ _ _ _ data_cons _ _ _ _) = length data_cons
-tyConFamilySize (TupleTyCon _ _ _) = 1
-#ifdef DEBUG
---tyConFamilySize other = pprPanic "tyConFamilySize:" (pprTyCon other)
-#endif
+newTyConRep :: TyCon -> ([TyVar], Type)
+newTyConRep (AlgTyCon {tyConTyVars = tvs, algTyConFlavour = NewTyCon rep}) = (tvs, rep)
tyConPrimRep :: TyCon -> PrimRep
-tyConPrimRep (PrimTyCon _ __ _ rep) = rep
-tyConPrimRep _ = PtrRep
+tyConPrimRep (PrimTyCon {primTyConRep = rep}) = rep
+tyConPrimRep tc = ASSERT( not (isUnboxedTupleTyCon tc) )
+ PtrRep
+ -- We should not be asking what the representation of an
+ -- unboxed tuple is, because it isn't a first class value.
\end{code}
\begin{code}
-tyConDerivings :: TyCon -> [Class]
-tyConDerivings (DataTyCon _ _ _ _ _ _ derivs _ _ _) = derivs
-tyConDerivings other = []
+tyConTheta :: TyCon -> [PredType]
+tyConTheta (AlgTyCon {algTyConTheta = theta}) = theta
+tyConTheta (TupleTyCon {}) = []
+-- shouldn't ask about anything else
\end{code}
+@tyConArgVrcs_maybe@ gives a list of (occPos,occNeg) flags, one for
+each tyvar, if available. See @calcAlgTyConArgVrcs@ for how this is
+actually computed (in another file).
+
\begin{code}
-tyConTheta :: TyCon -> [(Class, [Type])]
-tyConTheta (DataTyCon _ _ _ _ theta _ _ _ _ _) = theta
-tyConTheta (TupleTyCon _ _ _) = []
--- should ask about anything else
+tyConArgVrcs_maybe :: TyCon -> Maybe ArgVrcs
+
+tyConArgVrcs_maybe (FunTyCon {} ) = Just [(False,True),(True,False)]
+tyConArgVrcs_maybe (AlgTyCon {tyConArgVrcs = oi}) = Just oi
+tyConArgVrcs_maybe (PrimTyCon {tyConArgVrcs = oi}) = Just oi
+tyConArgVrcs_maybe (TupleTyCon {tyConArity = arity }) = Just (replicate arity (True,False))
+tyConArgVrcs_maybe (SynTyCon {tyConArgVrcs = oi }) = Just oi
+tyConArgVrcs_maybe _ = Nothing
\end{code}
\begin{code}
getSynTyConDefn :: TyCon -> ([TyVar], Type)
-getSynTyConDefn (SynTyCon _ _ _ _ tyvars ty) = (tyvars,ty)
+getSynTyConDefn (SynTyCon {tyConTyVars = tyvars, synTyConDefn = ty}) = (tyvars,ty)
\end{code}
\begin{code}
-maybeTyConSingleCon :: TyCon -> Maybe Id
-
-maybeTyConSingleCon (TupleTyCon _ _ arity) = Just (tupleCon arity)
-maybeTyConSingleCon (DataTyCon _ _ _ _ _ [c] _ _ _ _) = Just c
-maybeTyConSingleCon (DataTyCon _ _ _ _ _ _ _ _ _ _) = Nothing
-maybeTyConSingleCon (PrimTyCon _ _ _ _ _) = Nothing
-maybeTyConSingleCon (SpecTyCon tc tys) = panic "maybeTyConSingleCon:SpecTyCon"
- -- requires DataCons of TyCon
+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 tc = pprPanic "maybeTyConSingleCon: unexpected tycon " $ ppr tc
\end{code}
\begin{code}
+isClassTyCon :: TyCon -> Bool
+isClassTyCon (AlgTyCon {algTyConClass = Just _}) = True
+isClassTyCon other_tycon = False
+
tyConClass_maybe :: TyCon -> Maybe Class
-tyConClass_maybe (DataTyCon _ _ _ _ _ _ _ maybe_cls _ _) = maybe_cls
-tyConClass_maybe other_tycon = Nothing
+tyConClass_maybe (AlgTyCon {algTyConClass = maybe_clas}) = maybe_clas
+tyConClass_maybe ther_tycon = Nothing
\end{code}
-@derivedFor@ reports if we have an {\em obviously}-derived instance
-for the given class/tycon. Of course, you might be deriving something
-because it a superclass of some other obviously-derived class --- this
-function doesn't deal with that.
-
-ToDo: what about derivings for specialised tycons !!!
%************************************************************************
%* *
a < b = case (a `compare` b) of { LT -> True; EQ -> False; GT -> False }
a >= b = case (a `compare` b) of { LT -> False; EQ -> True; GT -> True }
a > b = case (a `compare` b) of { LT -> False; EQ -> False; GT -> True }
- compare a b = uniqueOf a `compare` uniqueOf b
+ compare a b = getUnique a `compare` getUnique b
instance Uniquable TyCon where
- uniqueOf tc = tyConUnique tc
+ getUnique tc = tyConUnique tc
+
+instance Outputable TyCon where
+ ppr tc = ppr (getName tc)
+
+instance NamedThing TyCon where
+ getName = tyConName
\end{code}
+
+%************************************************************************
+%* *
+\subsection{Kind constructors}
+%* *
+%************************************************************************
+
+@matchesTyCon tc1 tc2@ checks whether an appliation
+(tc1 t1..tn) matches (tc2 t1..tn). By "matches" we basically mean "equals",
+except that at the kind level tc2 might have more boxity info than tc1.
+
\begin{code}
-instance NamedThing TyCon where
- getName (DataTyCon _ n _ _ _ _ _ _ _ _) = n
- getName (PrimTyCon _ n _ _ _) = n
- getName (SpecTyCon tc _) = getName tc
- getName (SynTyCon _ n _ _ _ _) = n
- getName FunTyCon = mkFunTyConName
- getName (TupleTyCon _ n _) = n
-
-{- LATER:
- getName (SpecTyCon tc tys) = let (OrigName m n) = origName "????" tc in
- (m, n _APPEND_ specMaybeTysSuffix tys)
- getName other_tc = moduleNamePair (expectJust "tycon1" (getName other_tc))
- getName other = Nothing
--}
+matchesTyCon :: TyCon -- Expected (e.g. arg type of function)
+ -> TyCon -- Inferred (e.g. type of actual arg to function)
+ -> Bool
+
+matchesTyCon tc1 tc2 = uniq1 == uniq2 || uniq1 == anyBoxConKey
+ where
+ uniq1 = tyConUnique tc1
+ uniq2 = tyConUnique tc2
\end{code}
+
+
+
projects / ghc-hetmet.git / blobdiff