Arity(..), NewOrData(..),
isFunTyCon, isPrimTyCon, isBoxedTyCon,
- isDataTyCon, isSynTyCon,
+ isDataTyCon, isSynTyCon, isNewTyCon,
mkDataTyCon,
mkFunTyCon,
tyConDataCons,
tyConFamilySize,
tyConDerivings,
- tyConArity, synTyConArity,
+ tyConTheta,
+ tyConPrimRep,
+ synTyConArity,
getSynTyConDefn,
maybeTyConSingleCon,
CHK_Ubiq() -- debugging consistency check
-import TyLoop ( Type(..), GenType,
+IMPORT_DELOOPER(TyLoop) ( Type(..), GenType,
Class(..), GenClass,
Id(..), GenId,
- mkTupleCon, dataConSig,
+ mkTupleCon, isNullaryDataCon,
specMaybeTysSuffix
)
)
import Unique ( Unique, funTyConKey, mkTupleTyConUnique )
import Pretty ( Pretty(..), PrettyRep )
-import PprStyle ( PprStyle )
+import PrimRep ( PrimRep(..) )
import SrcLoc ( SrcLoc, mkBuiltinSrcLoc )
-import Util ( panic, panic#, nOfThem, isIn, Ord3(..) )
+import Util ( panic, panic#, pprPanic{-ToDo:rm-}, nOfThem, isIn, Ord3(..) )
+import {-hide me-}
+ PprType (pprTyCon)
+import {-hide me-}
+ PprStyle--ToDo:rm
\end{code}
\begin{code}
Unique -- Always unboxed; 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
+ PrimRep
| SpecTyCon -- A specialised TyCon; eg (Arr# Int#), or (List Int#)
TyCon
isFunTyCon FunTyCon = True
isFunTyCon _ = False
-isPrimTyCon (PrimTyCon _ _ _) = True
+isPrimTyCon (PrimTyCon _ _ _ _) = True
isPrimTyCon _ = False
-- At present there are no unboxed non-primitive types, so
-- isDataTyCon returns False for @newtype@.
-- Not sure about this decision yet.
isDataTyCon (DataTyCon _ _ _ _ _ _ _ DataType) = True
+isDataTyCon (TupleTyCon _ _ _) = True
isDataTyCon other = False
+isNewTyCon (DataTyCon _ _ _ _ _ _ _ NewType) = True
+isNewTyCon other = False
+
isSynTyCon (SynTyCon _ _ _ _ _ _) = True
isSynTyCon _ = False
\end{code}
tyConKind :: TyCon -> Kind
tyConKind FunTyCon = kind2
tyConKind (DataTyCon _ _ kind _ _ _ _ _) = kind
-tyConKind (PrimTyCon _ _ kind) = kind
+tyConKind (PrimTyCon _ _ kind _) = kind
tyConKind (SynTyCon _ _ k _ _ _) = k
tyConKind (TupleTyCon _ _ n)
tyConUnique FunTyCon = funTyConKey
tyConUnique (DataTyCon uniq _ _ _ _ _ _ _) = uniq
tyConUnique (TupleTyCon uniq _ _) = uniq
-tyConUnique (PrimTyCon uniq _ _) = uniq
+tyConUnique (PrimTyCon uniq _ _ _) = uniq
tyConUnique (SynTyCon uniq _ _ _ _ _) = uniq
tyConUnique (SpecTyCon _ _ ) = panic "tyConUnique:SpecTyCon"
-tyConArity :: TyCon -> Arity
-tyConArity FunTyCon = 2
-tyConArity (DataTyCon _ _ _ tvs _ _ _ _) = length tvs
-tyConArity (TupleTyCon _ _ arity) = arity
-tyConArity (PrimTyCon _ _ _) = 0 -- ??
-tyConArity (SpecTyCon _ _) = 0
-tyConArity (SynTyCon _ _ _ arity _ _) = arity
-
synTyConArity :: TyCon -> Maybe Arity -- Nothing <=> not a syn tycon
synTyConArity (SynTyCon _ _ _ arity _ _) = Just arity
synTyConArity _ = Nothing
tyConTyVars (DataTyCon _ _ _ tvs _ _ _ _) = tvs
tyConTyVars (TupleTyCon _ _ arity) = take arity alphaTyVars
tyConTyVars (SynTyCon _ _ _ _ tvs _) = tvs
-tyConTyVars (PrimTyCon _ _ _) = panic "tyConTyVars:PrimTyCon"
+#ifdef DEBUG
+tyConTyVars (PrimTyCon _ _ _ _) = panic "tyConTyVars:PrimTyCon"
tyConTyVars (SpecTyCon _ _ ) = panic "tyConTyVars:SpecTyCon"
+#endif
\end{code}
\begin{code}
tyConFamilySize (DataTyCon _ _ _ _ _ data_cons _ _) = length data_cons
tyConFamilySize (TupleTyCon _ _ _) = 1
+#ifdef DEBUG
+tyConFamilySize other = pprPanic "tyConFamilySize:" (pprTyCon PprDebug other)
+#endif
+
+tyConPrimRep :: TyCon -> PrimRep
+tyConPrimRep (PrimTyCon _ _ _ rep) = rep
+tyConPrimRep _ = PtrRep
\end{code}
\begin{code}
tyConDerivings :: TyCon -> [Class]
tyConDerivings (DataTyCon _ _ _ _ _ _ derivs _) = derivs
-tyConDerivings other = []
+tyConDerivings other = []
+\end{code}
+
+\begin{code}
+tyConTheta :: TyCon -> [(Class,Type)]
+tyConTheta (DataTyCon _ _ _ _ theta _ _ _) = theta
+tyConTheta (TupleTyCon _ _ _) = []
+-- should ask about anything else
\end{code}
\begin{code}
maybeTyConSingleCon (TupleTyCon _ _ arity) = Just (mkTupleCon arity)
maybeTyConSingleCon (DataTyCon _ _ _ _ _ [c] _ _) = Just c
maybeTyConSingleCon (DataTyCon _ _ _ _ _ _ _ _) = Nothing
-maybeTyConSingleCon (PrimTyCon _ _ _) = Nothing
+maybeTyConSingleCon (PrimTyCon _ _ _ _) = Nothing
maybeTyConSingleCon (SpecTyCon tc tys) = panic "maybeTyConSingleCon:SpecTyCon"
-- requires DataCons of TyCon
isEnumerationTyCon (TupleTyCon _ _ arity)
= arity == 0
isEnumerationTyCon (DataTyCon _ _ _ _ _ data_cons _ _)
- = not (null data_cons) && all is_nullary data_cons
- where
- is_nullary con = case (dataConSig con) of { (_,_, arg_tys, _) ->
- null arg_tys }
+ = not (null data_cons) && all isNullaryDataCon data_cons
\end{code}
@derivedFor@ reports if we have an {\em obviously}-derived instance
\begin{code}
instance Ord3 TyCon where
- cmp FunTyCon FunTyCon = EQ_
- cmp (DataTyCon a _ _ _ _ _ _ _) (DataTyCon b _ _ _ _ _ _ _) = a `cmp` b
- cmp (SynTyCon a _ _ _ _ _) (SynTyCon b _ _ _ _ _) = a `cmp` b
- cmp (TupleTyCon _ _ a) (TupleTyCon _ _ b) = a `cmp` b
- cmp (PrimTyCon a _ _) (PrimTyCon b _ _) = a `cmp` b
- cmp (SpecTyCon tc1 mtys1) (SpecTyCon tc2 mtys2)
- = panic# "cmp on SpecTyCons" -- case (tc1 `cmp` tc2) of { EQ_ -> mtys1 `cmp` mtys2; xxx -> xxx }
-
- -- now we *know* the tags are different, so...
- cmp other_1 other_2
- | tag1 _LT_ tag2 = LT_
- | otherwise = GT_
- where
- tag1 = tag_TyCon other_1
- tag2 = tag_TyCon other_2
-
- tag_TyCon FunTyCon = ILIT(1)
- tag_TyCon (DataTyCon _ _ _ _ _ _ _ _) = ILIT(2)
- tag_TyCon (TupleTyCon _ _ _) = ILIT(3)
- tag_TyCon (PrimTyCon _ _ _) = ILIT(4)
- tag_TyCon (SpecTyCon _ _) = ILIT(5)
- tag_TyCon (SynTyCon _ _ _ _ _ _) = ILIT(6)
+ cmp tc1 tc2 = uniqueOf tc1 `cmp` uniqueOf tc2
instance Eq TyCon where
a == b = case (a `cmp` b) of { EQ_ -> True; _ -> False }
_tagCmp a b = case (a `cmp` b) of { LT_ -> _LT; EQ_ -> _EQ; GT__ -> _GT }
instance Uniquable TyCon where
- uniqueOf (DataTyCon u _ _ _ _ _ _ _) = u
- uniqueOf (PrimTyCon u _ _) = u
- uniqueOf (SynTyCon u _ _ _ _ _) = u
- uniqueOf tc@(SpecTyCon _ _) = panic "uniqueOf:SpecTyCon"
- uniqueOf tc = uniqueOf (getName tc)
+ uniqueOf (DataTyCon u _ _ _ _ _ _ _) = u
+ uniqueOf (TupleTyCon u _ _) = u
+ uniqueOf (PrimTyCon u _ _ _) = u
+ uniqueOf (SynTyCon u _ _ _ _ _) = u
+ uniqueOf tc@(SpecTyCon _ _) = panic "uniqueOf:SpecTyCon"
+ uniqueOf tc = uniqueOf (getName tc)
\end{code}
\begin{code}
instance NamedThing TyCon where
getName (DataTyCon _ n _ _ _ _ _ _) = n
- getName (PrimTyCon _ n _) = n
+ getName (PrimTyCon _ n _ _) = n
getName (SpecTyCon tc _) = getName tc
getName (SynTyCon _ n _ _ _ _) = n
getName FunTyCon = mkFunTyConName
getName tc = panic "TyCon.getName"
{- LATER:
- getName (SpecTyCon tc tys) = let (m,n) = moduleNamePair tc in
+ 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