X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Fcompiler%2Ftypes%2FTyCon.lhs;h=51b81d6e995072d957b78474f71eb8d1a0cebf92;hb=423d477bfecd490de1449c59325c8776f91d7aac;hp=ff97fd7f677f951df04ce25b439b7df8beceda4a;hpb=438596897ebbe25a07e1c82085cfbc5bdb00f09e;p=ghc-hetmet.git diff --git a/ghc/compiler/types/TyCon.lhs b/ghc/compiler/types/TyCon.lhs index ff97fd7..51b81d6 100644 --- a/ghc/compiler/types/TyCon.lhs +++ b/ghc/compiler/types/TyCon.lhs @@ -5,50 +5,66 @@ \begin{code} module TyCon( - TyCon, KindCon, Boxity(..), + TyCon, ArgVrcs, - isFunTyCon, isUnLiftedTyCon, isBoxedTyCon, isProductTyCon, + PrimRep(..), + tyConPrimRep, + + AlgTyConRhs(..), visibleDataCons, + + isFunTyCon, isUnLiftedTyCon, isProductTyCon, isAbstractTyCon, isAlgTyCon, isDataTyCon, isSynTyCon, isNewTyCon, isPrimTyCon, - isEnumerationTyCon, isTupleTyCon, isUnboxedTupleTyCon, + isEnumerationTyCon, + isTupleTyCon, isUnboxedTupleTyCon, isBoxedTupleTyCon, tupleTyConBoxity, + isRecursiveTyCon, newTyConRep, newTyConRhs, isHiBootTyCon, + + mkForeignTyCon, isForeignTyCon, mkAlgTyCon, + mkClassTyCon, mkFunTyCon, mkPrimTyCon, + mkLiftedPrimTyCon, mkTupleTyCon, mkSynTyCon, - mkKindCon, - superKindCon, + tyConName, tyConKind, tyConUnique, tyConTyVars, - tyConDataCons, - tyConFamilySize, - tyConDerivings, + tyConArgVrcs, + algTyConRhs, tyConDataCons, tyConDataCons_maybe, tyConFamilySize, + tyConSelIds, tyConTheta, - tyConPrimRep, tyConArity, - tyConClass_maybe, + isClassTyCon, tyConClass_maybe, getSynTyConDefn, + tyConExtName, -- External name for foreign types maybeTyConSingleCon, - matchesTyCon + -- Generics + tyConHasGenerics ) where #include "HsVersions.h" -import {-# SOURCE #-} Type ( Type, Kind ) -import {-# SOURCE #-} DataCon ( DataCon ) +import {-# SOURCE #-} TypeRep ( Type, PredType ) + -- 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 Class ( Class ) -import Var ( TyVar ) -import BasicTypes ( Arity, NewOrData(..), RecFlag(..) ) -import Maybes + +import Var ( TyVar, Id ) +import Class ( Class ) +import Kind ( Kind ) +import BasicTypes ( Arity, RecFlag(..), Boxity(..), isBoxed ) import Name ( Name, nameUnique, NamedThing(getName) ) -import Unique ( Unique, Uniquable(..), superKindConKey ) -import PrimRep ( PrimRep(..), isFollowableRep ) +import PrelNames ( Unique, Uniquable(..) ) +import Maybes ( orElse ) import Outputable +import FastString \end{code} %************************************************************************ @@ -58,8 +74,6 @@ import Outputable %************************************************************************ \begin{code} -type KindCon = TyCon - data TyCon = FunTyCon { tyConUnique :: Unique, @@ -69,52 +83,57 @@ data TyCon } - | AlgTyCon { -- Tuples, data type, and newtype decls. + | AlgTyCon { -- Data type, and newtype decls. -- All lifted, all boxed tyConUnique :: Unique, tyConName :: Name, tyConKind :: Kind, tyConArity :: Arity, - tyConTyVars :: [TyVar], - dataTyConTheta :: [(Class,[Type])], - - dataCons :: [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 - - dataTyConDerivings :: [Class], -- Classes which have derived instances - - dataTyConClass_maybe :: (Maybe Class), -- Nothing for ordinary types; - -- Just c for the type constructor - -- for dictionaries of class c. - algTyConFlavour :: NewOrData, - algTyConRec :: RecFlag -- Tells whether the data type is part of - -- a mutually-recursive group or not + tyConTyVars :: [TyVar], + argVrcs :: ArgVrcs, + algTyConTheta :: [PredType], + + selIds :: [Id], -- Its record selectors (if any) + + algRhs :: AlgTyConRhs, -- Data constructors in here + + 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 + -- (in the exports of the data type's source module) + + algTyConClass :: Maybe Class + -- Just cl if this tycon came from a class declaration } - | PrimTyCon { -- Primitive types; cannot be defined in Haskell - -- NB: All of these guys are *unlifted*, but not all are *unboxed* - tyConUnique :: Unique, - tyConName :: Name, - tyConKind :: Kind, - tyConArity :: Arity, - primTyConRep :: PrimRep + | PrimTyCon { -- Primitive types; cannot be defined in Haskell + -- Now includes foreign-imported types + tyConUnique :: Unique, + tyConName :: Name, + tyConKind :: Kind, + tyConArity :: Arity, + argVrcs :: ArgVrcs, + + primTyConRep :: PrimRep, + -- Many primitive tycons are unboxed, but some are + -- boxed (represented by pointers). The CgRep tells. + + isUnLifted :: Bool, -- Most primitive tycons are unlifted, + -- but foreign-imported ones may not be + tyConExtName :: Maybe FastString -- Just xx for foreign-imported types } | TupleTyCon { - tyConUnique :: Unique, tyConName :: Name, tyConKind :: Kind, tyConArity :: Arity, - tyConBoxed :: Bool, + tyConBoxed :: Boxity, tyConTyVars :: [TyVar], - dataCon :: DataCon + dataCon :: DataCon, + hasGenerics :: Bool } | SynTyCon { @@ -123,26 +142,88 @@ data TyCon tyConKind :: Kind, tyConArity :: Arity, - tyConTyVars :: [TyVar], -- Bound tyvars - synTyConDefn :: Type -- Right-hand side, mentioning these type vars. + 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. + argVrcs :: ArgVrcs } - | KindCon { -- Type constructor at the kind level - tyConUnique :: Unique, - tyConName :: Name, - tyConKind :: Kind, - tyConArity :: Arity, - - kindConBoxity :: Boxity - } +type ArgVrcs = [(Bool,Bool)] -- Tyvar variance info: [(occPos,occNeg)] + -- [] means "no information, assume the worst" + +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 + + | 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: + -- 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. + +visibleDataCons :: AlgTyConRhs -> [DataCon] +visibleDataCons AbstractTyCon = [] +visibleDataCons (DataTyCon cs _) = cs +visibleDataCons (NewTyCon c _ _) = [c] +\end{code} - | SuperKindCon { -- The type of kind variables, - tyConUnique :: Unique -- sometimes written as a box - } +%************************************************************************ +%* * +\subsection{PrimRep} +%* * +%************************************************************************ + +A PrimRep is an abstraction of a type. It contains information that +the code generator needs in order to pass arguments, return results, +and store values of this type. + +A PrimRep is somewhat similar to a CgRep (see codeGen/SMRep) and a +MachRep (see cmm/MachOp), although each of these types has a distinct +and clearly defined purpose: + + - A PrimRep is a CgRep + information about signedness + information + about primitive pointers (AddrRep). Signedness and primitive + pointers are required when passing a primitive type to a foreign + function, but aren't needed for call/return conventions of Haskell + functions. -data Boxity = Boxed | Unboxed | Open + - A MachRep is a basic machine type (non-void, doesn't contain + information on pointerhood or signedness, but contains some + reps that don't have corresponding Haskell types). + +\begin{code} +data PrimRep + = VoidRep + | PtrRep + | IntRep -- signed, word-sized + | WordRep -- unsinged, word-sized + | Int64Rep -- signed, 64 bit (32-bit words only) + | Word64Rep -- unsigned, 64 bit (32-bit words only) + | AddrRep -- a pointer, but not to a Haskell value + | FloatRep + | DoubleRep \end{code} %************************************************************************ @@ -158,17 +239,7 @@ module mutual-recursion. And they aren't called from many places. So we compromise, and move their Kind calculation to the call site. \begin{code} -superKindCon = SuperKindCon superKindConKey - -mkKindCon name kind boxity - = KindCon { - tyConUnique = nameUnique name, - tyConName = name, - tyConArity = 0, - tyConKind = kind, - kindConBoxity = boxity - } - +mkFunTyCon :: Name -> Kind -> TyCon mkFunTyCon name kind = FunTyCon { tyConUnique = nameUnique name, @@ -176,23 +247,44 @@ mkFunTyCon name kind tyConKind = kind, tyConArity = 2 } - -mkAlgTyCon name kind tyvars theta cons derivs maybe_clas flavour rec + +-- 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 rhs sels is_rec gen_info = AlgTyCon { - tyConName = name, - tyConUnique = nameUnique name, - tyConKind = kind, - tyConArity = length tyvars, - tyConTyVars = tyvars, - dataTyConTheta = theta, - dataCons = cons, - dataTyConDerivings = derivs, - dataTyConClass_maybe = maybe_clas, - algTyConFlavour = flavour, - algTyConRec = rec + tyConName = name, + tyConUnique = nameUnique name, + tyConKind = kind, + tyConArity = length tyvars, + tyConTyVars = tyvars, + argVrcs = argvrcs, + algTyConTheta = theta, + algRhs = rhs, + selIds = sels, + algTyConClass = Nothing, + algTyConRec = is_rec, + hasGenerics = gen_info + } + +mkClassTyCon name kind tyvars argvrcs rhs clas is_rec + = AlgTyCon { + tyConName = name, + tyConUnique = nameUnique name, + tyConKind = kind, + tyConArity = length tyvars, + tyConTyVars = tyvars, + argVrcs = argvrcs, + algTyConTheta = [], + algRhs = rhs, + selIds = [], + algTyConClass = Just clas, + algTyConRec = is_rec, + hasGenerics = False } -mkTupleTyCon name kind arity tyvars con boxed + +mkTupleTyCon name kind arity tyvars con boxed gen_info = TupleTyCon { tyConUnique = nameUnique name, tyConName = name, @@ -200,112 +292,225 @@ mkTupleTyCon name kind arity tyvars con boxed tyConArity = arity, tyConBoxed = boxed, tyConTyVars = tyvars, - dataCon = con + dataCon = con, + hasGenerics = gen_info } -mkPrimTyCon name kind arity rep +-- 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 +mkForeignTyCon name ext_name kind arity arg_vrcs = PrimTyCon { - tyConName = name, - tyConUnique = nameUnique name, - tyConKind = kind, - tyConArity = arity, - primTyConRep = rep + tyConName = name, + tyConUnique = nameUnique name, + tyConKind = kind, + tyConArity = arity, + argVrcs = arg_vrcs, + primTyConRep = PtrRep, -- they all do + 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, + argVrcs = arg_vrcs, + primTyConRep = rep, + isUnLifted = is_unlifted, + tyConExtName = Nothing } -mkSynTyCon name kind arity tyvars rhs +mkSynTyCon name kind tyvars rhs argvrcs = SynTyCon { tyConName = name, tyConUnique = nameUnique name, tyConKind = kind, - tyConArity = arity, + tyConArity = length tyvars, tyConTyVars = tyvars, - synTyConDefn = rhs + synTyConDefn = rhs, + argVrcs = argvrcs } \end{code} \begin{code} +isFunTyCon :: TyCon -> Bool isFunTyCon (FunTyCon {}) = True isFunTyCon _ = False +isAbstractTyCon :: TyCon -> Bool +isAbstractTyCon (AlgTyCon { algRhs = AbstractTyCon }) = True +isAbstractTyCon _ = False + +isPrimTyCon :: TyCon -> Bool isPrimTyCon (PrimTyCon {}) = True isPrimTyCon _ = False -isUnLiftedTyCon (PrimTyCon {}) = True -isUnLiftedTyCon (TupleTyCon { tyConBoxed = False }) = True -isUnLiftedTyCon _ = False - --- isBoxedTyCon should not be applied to SynTyCon, nor KindCon -isBoxedTyCon (AlgTyCon {}) = True -isBoxedTyCon (FunTyCon {}) = True -isBoxedTyCon (TupleTyCon {tyConBoxed = boxed}) = boxed -isBoxedTyCon (PrimTyCon {primTyConRep = rep}) = isFollowableRep rep +isUnLiftedTyCon :: TyCon -> Bool +isUnLiftedTyCon (PrimTyCon {isUnLifted = is_unlifted}) = is_unlifted +isUnLiftedTyCon (TupleTyCon {tyConBoxed = boxity}) = not (isBoxed boxity) +isUnLiftedTyCon _ = False -- isAlgTyCon returns True for both @data@ and @newtype@ +isAlgTyCon :: TyCon -> Bool isAlgTyCon (AlgTyCon {}) = True isAlgTyCon (TupleTyCon {}) = True isAlgTyCon other = False --- isDataTyCon returns False for @newtype@. -isDataTyCon (AlgTyCon {algTyConFlavour = new_or_data}) = case new_or_data of - NewType -> False - other -> True -isDataTyCon (TupleTyCon {}) = True -- is an unboxed tuple a datatype? +algTyConRhs :: TyCon -> AlgTyConRhs +algTyConRhs (AlgTyCon {algRhs = rhs}) = rhs +algTyConRhs (TupleTyCon {dataCon = dc}) = DataTyCon [dc] 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 {algRhs = rhs}) + = case rhs of + DataTyCon _ _ -> True + NewTyCon _ _ _ -> False + AbstractTyCon -> panic "isDataTyCon" + +isDataTyCon (TupleTyCon {tyConBoxed = boxity}) = isBoxed boxity isDataTyCon other = False -isNewTyCon (AlgTyCon {algTyConFlavour = NewType}) = True -isNewTyCon other = False - --- A "product" tycon is non-recursive and has one constructor, --- whether DataType or NewType -isProductTyCon (AlgTyCon {dataCons = [c], algTyConRec = NonRecursive}) = True -isProductTyCon (TupleTyCon {}) = True -isProductTyCon other = False - +isNewTyCon :: TyCon -> Bool +isNewTyCon (AlgTyCon {algRhs = 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 tc@(AlgTyCon {}) = case algRhs 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 (AlgTyCon {algTyConFlavour = EnumType}) = True -isEnumerationTyCon other = False +isEnumerationTyCon :: TyCon -> Bool +isEnumerationTyCon (AlgTyCon {algRhs = DataTyCon _ is_enum}) = is_enum +isEnumerationTyCon other = False --- The unit tycon isn't classed as a tuple tycon -isTupleTyCon (TupleTyCon {tyConArity = arity, tyConBoxed = True}) = arity >= 2 -isTupleTyCon 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 (TupleTyCon {tyConBoxed = False}) = True +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 + +isHiBootTyCon :: TyCon -> Bool +-- Used for knot-tying in hi-boot files +isHiBootTyCon (AlgTyCon {algRhs = AbstractTyCon}) = True +isHiBootTyCon other = False + +isForeignTyCon :: TyCon -> Bool +-- isForeignTyCon identifies foreign-imported type constructors +isForeignTyCon (PrimTyCon {tyConExtName = Just _}) = True +isForeignTyCon other = False \end{code} \begin{code} +tyConHasGenerics :: TyCon -> Bool +tyConHasGenerics (AlgTyCon {hasGenerics = hg}) = hg +tyConHasGenerics (TupleTyCon {hasGenerics = hg}) = hg +tyConHasGenerics other = False -- Synonyms + tyConDataCons :: TyCon -> [DataCon] -tyConDataCons (AlgTyCon {dataCons = cons}) = cons -tyConDataCons (TupleTyCon {dataCon = con}) = [con] -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. +-- 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 {algRhs = DataTyCon cons _}) = Just cons +tyConDataCons_maybe (AlgTyCon {algRhs = NewTyCon con _ _}) = Just [con] +tyConDataCons_maybe (TupleTyCon {dataCon = con}) = Just [con] +tyConDataCons_maybe other = Nothing tyConFamilySize :: TyCon -> Int -tyConFamilySize (AlgTyCon {dataCons = cons}) = length cons -tyConFamilySize (TupleTyCon {}) = 1 +tyConFamilySize (AlgTyCon {algRhs = DataTyCon cons _}) = length cons +tyConFamilySize (AlgTyCon {algRhs = NewTyCon _ _ _}) = 1 +tyConFamilySize (TupleTyCon {}) = 1 #ifdef DEBUG tyConFamilySize other = pprPanic "tyConFamilySize:" (ppr other) #endif +tyConSelIds :: TyCon -> [Id] +tyConSelIds (AlgTyCon {selIds = sels}) = sels +tyConSelIds other_tycon = [] +\end{code} + +\begin{code} +newTyConRep :: TyCon -> ([TyVar], Type) +newTyConRep (AlgTyCon {tyConTyVars = tvs, algRhs = NewTyCon _ _ rep}) = (tvs, rep) + +newTyConRhs :: TyCon -> ([TyVar], Type) +newTyConRhs (AlgTyCon {tyConTyVars = tvs, algRhs = NewTyCon _ rhs _}) = (tvs, rhs) +\end{code} + +\begin{code} tyConPrimRep :: TyCon -> PrimRep tyConPrimRep (PrimTyCon {primTyConRep = rep}) = rep -tyConPrimRep _ = PtrRep +tyConPrimRep tc = ASSERT(not (isUnboxedTupleTyCon tc)) PtrRep \end{code} \begin{code} -tyConDerivings :: TyCon -> [Class] -tyConDerivings (AlgTyCon {dataTyConDerivings = 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 (AlgTyCon {dataTyConTheta = theta}) = theta --- should ask about anything else +tyConArgVrcs :: TyCon -> ArgVrcs +tyConArgVrcs (FunTyCon {}) = [(False,True),(True,False)] +tyConArgVrcs (AlgTyCon {argVrcs = oi}) = oi +tyConArgVrcs (PrimTyCon {argVrcs = oi}) = oi +tyConArgVrcs (TupleTyCon {tyConArity = arity}) = (replicate arity (True,False)) +tyConArgVrcs (SynTyCon {argVrcs = oi}) = oi \end{code} \begin{code} @@ -315,16 +520,23 @@ getSynTyConDefn (SynTyCon {tyConTyVars = tyvars, synTyConDefn = ty}) = (tyvars,t \begin{code} maybeTyConSingleCon :: TyCon -> Maybe DataCon -maybeTyConSingleCon (AlgTyCon {dataCons = [c]}) = Just c -maybeTyConSingleCon (AlgTyCon {}) = Nothing -maybeTyConSingleCon (TupleTyCon {dataCon = con}) = Just con -maybeTyConSingleCon (PrimTyCon {}) = Nothing +maybeTyConSingleCon (AlgTyCon {algRhs = DataTyCon [c] _}) = Just c +maybeTyConSingleCon (AlgTyCon {algRhs = 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} \begin{code} +isClassTyCon :: TyCon -> Bool +isClassTyCon (AlgTyCon {algTyConClass = Just _}) = True +isClassTyCon other_tycon = False + tyConClass_maybe :: TyCon -> Maybe Class -tyConClass_maybe (AlgTyCon {dataTyConClass_maybe = maybe_cls}) = maybe_cls -tyConClass_maybe other_tycon = Nothing +tyConClass_maybe (AlgTyCon {algTyConClass = maybe_clas}) = maybe_clas +tyConClass_maybe ther_tycon = Nothing \end{code} @@ -355,43 +567,8 @@ instance Uniquable TyCon where getUnique tc = tyConUnique tc instance Outputable TyCon where - ppr tc = ppr (getName tc) + 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 that tc1. - -E.g. It's ok to bind a type variable - tv :: k2 -to a type - t :: k1 - -\begin{code} -matchesTyCon :: TyCon -- Expected (e.g. arg type of function) - -> TyCon -- Inferred (e.g. type of actual arg to function) - -> Bool - -matchesTyCon (KindCon {kindConBoxity = k1}) (KindCon {kindConBoxity = k2}) - = k2 `has_more` k1 - where - -- "has_more" means has more boxity info - Boxed `has_more` Open = True - Boxed `has_more` Boxed = True - Unboxed `has_more` Open = True - Unboxed `has_more` Unboxed = True - Open `has_more` Open = True - k1 `has_more` k2 = False - -matchesTyCon tc1 tc2 = tyConUnique tc1 == tyConUnique tc2 -\end{code}