-- | Translate a core Type to an HsType. Far from complete so far.
coreToHsType :: Type.Type -> HsTypes.LHsType RdrName.RdrName
-- Translate TyConApps
-coreToHsType (Type.splitTyConApp_maybe -> Just (tycon, tys)) =
- foldl (\t a -> SrcLoc.noLoc $ HsTypes.HsAppTy t a) tycon_ty (map coreToHsType tys)
- where
- tycon_name = TyCon.tyConName tycon
- mod_name = Module.moduleName $ Name.nameModule tycon_name
- occ_name = Name.nameOccName tycon_name
- tycon_rdrname = RdrName.mkRdrQual mod_name occ_name
- tycon_ty = SrcLoc.noLoc $ HsTypes.HsTyVar tycon_rdrname
+coreToHsType ty = case Type.splitTyConApp_maybe ty of
+ Just (tycon, tys) ->
+ foldl (\t a -> SrcLoc.noLoc $ HsTypes.HsAppTy t a) tycon_ty (map coreToHsType tys)
+ where
+ tycon_name = TyCon.tyConName tycon
+ mod_name = Module.moduleName $ Name.nameModule tycon_name
+ occ_name = Name.nameOccName tycon_name
+ tycon_rdrname = RdrName.mkRdrQual mod_name occ_name
+ tycon_ty = SrcLoc.noLoc $ HsTypes.HsTyVar tycon_rdrname
+ Nothing -> error $ "HsTools.coreToHsType Cannot translate non-tycon type"
-- | Evaluate a CoreExpr and return its value. For this to work, the caller
-- should already know the result type for sure, since the result value is
let res = Unsafe.Coerce.unsafeCoerce hval :: Int
return $ Unsafe.Coerce.unsafeCoerce hval
--- | Evaluate a core Type representing type level int from the TypeLevel
--- library to a real int.
-eval_type_level_int :: Type.Type -> Int
-eval_type_level_int ty =
- unsafeRunGhc $ do
- -- Automatically import modules for any fully qualified identifiers
- setDynFlag DynFlags.Opt_ImplicitImportQualified
-
- let to_int_name = mkRdrName "Data.TypeLevel.Num.Sets" "toInt"
- let to_int = SrcLoc.noLoc $ HsExpr.HsVar to_int_name
- let undef = hsTypedUndef $ coreToHsType ty
- let app = HsExpr.HsApp (to_int) (undef)
-
- core <- toCore [] app
- execCore core
-
-- These functions build (parts of) a LHSExpr RdrName.
-- | A reference to the Prelude.undefined function.