split2 ps (PredTy p `FunTy` ty) = split2 (p:ps) ty
split2 ps ty = (reverse ps, ty)
-ppr_tc_app :: Prec -> TyCon -> [Type] -> SDoc
-ppr_tc_app _ tc []
- = ppr_tc tc
-ppr_tc_app _ tc [ty]
- | tc `hasKey` listTyConKey = brackets (pprType ty)
- | tc `hasKey` parrTyConKey = ptext (sLit "[:") <> pprType ty <> ptext (sLit ":]")
- | tc `hasKey` liftedTypeKindTyConKey = ptext (sLit "*")
- | tc `hasKey` unliftedTypeKindTyConKey = ptext (sLit "#")
- | tc `hasKey` openTypeKindTyConKey = ptext (sLit "(?)")
- | tc `hasKey` ubxTupleKindTyConKey = ptext (sLit "(#)")
- | tc `hasKey` argTypeKindTyConKey = ptext (sLit "??")
-
-ppr_tc_app p tc tys
- | isTupleTyCon tc && tyConArity tc == length tys
- = tupleParens (tupleTyConBoxity tc) (sep (punctuate comma (map pprType tys)))
- | otherwise
- = ppr_type_app p (getName tc) tys
-
-ppr_type_app :: Prec -> Name -> [Type] -> SDoc
--- Used for classes as well as types; that's why it's separate from ppr_tc_app
-ppr_type_app p tc tys
- | is_sym_occ -- Print infix if possible
- , [ty1,ty2] <- tys -- We know nothing of precedence though
- = maybeParen p FunPrec (sep [ppr_type FunPrec ty1,
- pprInfixVar True (ppr tc) <+> ppr_type FunPrec ty2])
- | otherwise
- = maybeParen p TyConPrec (hang (pprPrefixVar is_sym_occ (ppr tc))
- 2 (sep (map pprParendType tys)))
- where
- is_sym_occ = isSymOcc (getOccName tc)
-
-ppr_tc :: TyCon -> SDoc -- No brackets for SymOcc
-ppr_tc tc
- = pp_nt_debug <> ppr tc
- where
- pp_nt_debug | isNewTyCon tc = ifPprDebug (if isRecursiveTyCon tc
- then ptext (sLit "<recnt>")
- else ptext (sLit "<nt>"))
- | otherwise = empty
-
ppr_tvar :: TyVar -> SDoc
ppr_tvar tv -- Note [Infix type variables]
| isSymOcc (getOccName tv) = parens (ppr tv)