-- for details
module Convert( convertToHsExpr, convertToPat, convertToHsDecls,
- convertToHsType, thRdrName ) where
+ convertToHsType, thRdrNameGuesses ) where
import HsSyn as Hs
import qualified Class
; e' <- returnL $ OpApp x' s' undefined y'
; return $ HsPar e' }
cvt (InfixE Nothing s (Just y)) = do { s' <- cvtl s; y' <- cvtl y
- ; return $ SectionR s' y' }
+ ; sec <- returnL $ SectionR s' y'
+ ; return $ HsPar sec }
cvt (InfixE (Just x) s Nothing ) = do { x' <- cvtl x; s' <- cvtl s
- ; return $ SectionL x' s' }
+ ; sec <- returnL $ SectionL x' s'
+ ; return $ HsPar sec }
cvt (InfixE Nothing s Nothing ) = cvt s -- Can I indicate this is an infix thing?
cvt (SigE e t) = do { e' <- cvtl e; t' <- cvtType t
| n == 1 -> failWith (ptext (sLit "Illegal 1-tuple type constructor"))
| otherwise -> mk_apps (HsTyVar (getRdrName (tupleTyCon Boxed n))) tys'
ArrowT | [x',y'] <- tys' -> returnL (HsFunTy x' y')
+ | otherwise -> mk_apps (HsTyVar (getRdrName funTyCon)) tys'
ListT | [x'] <- tys' -> returnL (HsListTy x')
+ | otherwise -> mk_apps (HsTyVar (getRdrName listTyCon)) tys'
VarT nm -> do { nm' <- tName nm; mk_apps (HsTyVar nm') tys' }
ConT nm -> do { nm' <- tconName nm; mk_apps (HsTyVar nm') tys' }
-- which will give confusing error messages later
--
-- The strict applications ensure that any buried exceptions get forced
-thRdrName _ occ (TH.NameG th_ns pkg mod) = (mkOrig $! (mkModule (mk_pkg pkg) (mk_mod mod))) $! (mk_occ (mk_ghc_ns th_ns) occ)
+thRdrName _ occ (TH.NameG th_ns pkg mod) = thOrigRdrName occ th_ns pkg mod
thRdrName ctxt_ns occ (TH.NameL uniq) = nameRdrName $! (((Name.mkInternalName $! (mk_uniq uniq)) $! (mk_occ ctxt_ns occ)) noSrcSpan)
thRdrName ctxt_ns occ (TH.NameQ mod) = (mkRdrQual $! (mk_mod mod)) $! (mk_occ ctxt_ns occ)
thRdrName ctxt_ns occ (TH.NameU uniq) = mkRdrUnqual $! (mk_uniq_occ ctxt_ns occ uniq)
| Just name <- isBuiltInOcc ctxt_ns occ = nameRdrName $! name
| otherwise = mkRdrUnqual $! (mk_occ ctxt_ns occ)
+thOrigRdrName :: String -> TH.NameSpace -> PkgName -> ModName -> RdrName
+thOrigRdrName occ th_ns pkg mod = (mkOrig $! (mkModule (mk_pkg pkg) (mk_mod mod))) $! (mk_occ (mk_ghc_ns th_ns) occ)
+
+thRdrNameGuesses :: TH.Name -> [RdrName]
+thRdrNameGuesses (TH.Name occ flavour)
+ -- This special case for NameG ensures that we don't generate duplicates in the output list
+ | TH.NameG th_ns pkg mod <- flavour = [thOrigRdrName occ_str th_ns pkg mod]
+ | otherwise = [ thRdrName gns occ_str flavour
+ | gns <- guessed_nss]
+ where
+ -- guessed_ns are the name spaces guessed from looking at the TH name
+ guessed_nss | isLexCon (mkFastString occ_str) = [OccName.tcName, OccName.dataName]
+ | otherwise = [OccName.varName, OccName.tvName]
+ occ_str = TH.occString occ
+
isBuiltInOcc :: OccName.NameSpace -> String -> Maybe Name.Name
-- Built in syntax isn't "in scope" so an Unqual RdrName won't do
-- We must generate an Exact name, just as the parser does