% (c) The University of Glasgow 2001-2006 % \begin{code} module MkExternalCore ( emitExternalCore ) where #include "HsVersions.h" import qualified ExternalCore as C import Module import CoreSyn import HscTypes import TyCon import TypeRep import Type import PprExternalCore () -- Instances import DataCon import Coercion import Var import IdInfo import Literal import Name import Outputable import Encoding import ForeignCall import DynFlags import FastString import Data.Char import System.IO emitExternalCore :: DynFlags -> CgGuts -> IO () emitExternalCore dflags cg_guts | dopt Opt_EmitExternalCore dflags = (do handle <- openFile corename WriteMode hPutStrLn handle (show (mkExternalCore cg_guts)) hClose handle) `catch` (\_ -> pprPanic "Failed to open or write external core output file" (text corename)) where corename = extCoreName dflags emitExternalCore _ _ | otherwise = return () -- Reinventing the Reader monad; whee. newtype CoreM a = CoreM (CoreState -> (CoreState, a)) type CoreState = Module instance Monad CoreM where (CoreM m) >>= f = CoreM (\ s -> case m s of (s',r) -> case f r of CoreM f' -> f' s') return x = CoreM (\ s -> (s, x)) runCoreM :: CoreM a -> CoreState -> a runCoreM (CoreM f) s = snd $ f s ask :: CoreM CoreState ask = CoreM (\ s -> (s,s)) mkExternalCore :: CgGuts -> C.Module -- The ModGuts has been tidied, but the implicit bindings have -- not been injected, so we have to add them manually here -- We don't include the strange data-con *workers* because they are -- implicit in the data type declaration itself mkExternalCore (CgGuts {cg_module=this_mod, cg_tycons = tycons, cg_binds = binds}) {- Note that modules can be mutually recursive, but even so, we print out dependency information within each module. -} = C.Module mname tdefs (runCoreM (mapM (make_vdef True) binds) this_mod) where mname = make_mid this_mod tdefs = foldr collect_tdefs [] tycons collect_tdefs :: TyCon -> [C.Tdef] -> [C.Tdef] collect_tdefs tcon tdefs | isAlgTyCon tcon = tdef: tdefs where tdef | isNewTyCon tcon = C.Newtype (qtc tcon) (case newTyConCo_maybe tcon of Just co -> qtc co Nothing -> pprPanic ("MkExternalCore: newtype tcon\ should have a coercion: ") (ppr tcon)) (map make_tbind tyvars) (make_ty (snd (newTyConRhs tcon))) | otherwise = C.Data (qtc tcon) (map make_tbind tyvars) (map make_cdef (tyConDataCons tcon)) tyvars = tyConTyVars tcon collect_tdefs _ tdefs = tdefs qtc :: TyCon -> C.Qual C.Tcon qtc = make_con_qid . tyConName make_cdef :: DataCon -> C.Cdef make_cdef dcon = C.Constr dcon_name existentials tys where dcon_name = make_qid False False (dataConName dcon) existentials = map make_tbind ex_tyvars ex_tyvars = dataConExTyVars dcon tys = map make_ty (dataConRepArgTys dcon) make_tbind :: TyVar -> C.Tbind make_tbind tv = (make_var_id (tyVarName tv), make_kind (tyVarKind tv)) make_vbind :: Var -> C.Vbind make_vbind v = (make_var_id (Var.varName v), make_ty (varType v)) make_vdef :: Bool -> CoreBind -> CoreM C.Vdefg make_vdef topLevel b = case b of NonRec v e -> f (v,e) >>= (return . C.Nonrec) Rec ves -> mapM f ves >>= (return . C.Rec) where f :: (CoreBndr,CoreExpr) -> CoreM C.Vdef f (v,e) = do localN <- isALocal vName let local = not topLevel || localN rhs <- make_exp e -- use local flag to determine where to add the module name return (local, make_qid local True vName, make_ty (varType v),rhs) where vName = Var.varName v make_exp :: CoreExpr -> CoreM C.Exp make_exp (Var v) = do let vName = Var.varName v isLocal <- isALocal vName return $ case idDetails v of FCallId (CCall (CCallSpec (StaticTarget nm) callconv _)) -> C.External (unpackFS nm) (showSDoc (ppr callconv)) (make_ty (varType v)) FCallId (CCall (CCallSpec DynamicTarget callconv _)) -> C.DynExternal (showSDoc (ppr callconv)) (make_ty (varType v)) -- Constructors are always exported, so make sure to declare them -- with qualified names DataConWorkId _ -> C.Var (make_var_qid False vName) DataConWrapId _ -> C.Var (make_var_qid False vName) _ -> C.Var (make_var_qid isLocal vName) make_exp (Lit (MachLabel s _ _)) = return $ C.Label (unpackFS s) make_exp (Lit l) = return $ C.Lit (make_lit l) make_exp (App e (Type t)) = make_exp e >>= (\ b -> return $ C.Appt b (make_ty t)) make_exp (App e1 e2) = do rator <- make_exp e1 rand <- make_exp e2 return $ C.App rator rand make_exp (Lam v e) | isTyVar v = make_exp e >>= (\ b -> return $ C.Lam (C.Tb (make_tbind v)) b) make_exp (Lam v e) | otherwise = make_exp e >>= (\ b -> return $ C.Lam (C.Vb (make_vbind v)) b) make_exp (Cast e co) = make_exp e >>= (\ b -> return $ C.Cast b (make_ty co)) make_exp (Let b e) = do vd <- make_vdef False b body <- make_exp e return $ C.Let vd body make_exp (Case e v ty alts) = do scrut <- make_exp e newAlts <- mapM make_alt alts return $ C.Case scrut (make_vbind v) (make_ty ty) newAlts make_exp (Note (SCC _) e) = make_exp e >>= (return . C.Note "SCC") -- temporary make_exp (Note (CoreNote s) e) = make_exp e >>= (return . C.Note s) -- hdaume: core annotations make_exp (Note InlineMe e) = make_exp e >>= (return . C.Note "InlineMe") make_exp _ = error "MkExternalCore died: make_exp" make_alt :: CoreAlt -> CoreM C.Alt make_alt (DataAlt dcon, vs, e) = do newE <- make_exp e return $ C.Acon (make_con_qid (dataConName dcon)) (map make_tbind tbs) (map make_vbind vbs) newE where (tbs,vbs) = span isTyVar vs make_alt (LitAlt l,_,e) = make_exp e >>= (return . (C.Alit (make_lit l))) make_alt (DEFAULT,[],e) = make_exp e >>= (return . C.Adefault) -- This should never happen, as the DEFAULT alternative binds no variables, -- but we might as well check for it: make_alt a@(DEFAULT,_ ,_) = pprPanic ("MkExternalCore: make_alt: DEFAULT " ++ "alternative had a non-empty var list") (ppr a) make_lit :: Literal -> C.Lit make_lit l = case l of -- Note that we need to check whether the character is "big". -- External Core only allows character literals up to '\xff'. MachChar i | i <= chr 0xff -> C.Lchar i t -- For a character bigger than 0xff, we represent it in ext-core -- as an int lit with a char type. MachChar i -> C.Lint (fromIntegral $ ord i) t MachStr s -> C.Lstring (unpackFS s) t MachNullAddr -> C.Lint 0 t MachInt i -> C.Lint i t MachInt64 i -> C.Lint i t MachWord i -> C.Lint i t MachWord64 i -> C.Lint i t MachFloat r -> C.Lrational r t MachDouble r -> C.Lrational r t _ -> error "MkExternalCore died: make_lit" where t = make_ty (literalType l) -- Expand type synonyms, then convert. make_ty :: Type -> C.Ty -- Be sure to expand types recursively! -- example: FilePath ~> String ~> [Char] make_ty t | Just expanded <- tcView t = make_ty expanded make_ty t = make_ty' t -- note calls to make_ty so as to expand types recursively make_ty' :: Type -> C.Ty make_ty' (TyVarTy tv) = C.Tvar (make_var_id (tyVarName tv)) make_ty' (AppTy t1 t2) = C.Tapp (make_ty t1) (make_ty t2) make_ty' (FunTy t1 t2) = make_ty (TyConApp funTyCon [t1,t2]) make_ty' (ForAllTy tv t) = C.Tforall (make_tbind tv) (make_ty t) make_ty' (TyConApp tc ts) = make_tyConApp tc ts -- Newtypes are treated just like any other type constructor; not expanded -- Reason: predTypeRep does substitution and, while substitution deals -- correctly with name capture, it's only correct if you see the uniques! -- If you just see occurrence names, name capture may occur. -- Example: newtype A a = A (forall b. b -> a) -- test :: forall q b. q -> A b -- test _ = undefined -- Here the 'a' gets substituted by 'b', which is captured. -- Another solution would be to expand newtypes before tidying; but that would -- expose the representation in interface files, which definitely isn't right. -- Maybe CoreTidy should know whether to expand newtypes or not? make_ty' (PredTy p) = make_ty (predTypeRep p) make_tyConApp :: TyCon -> [Type] -> C.Ty make_tyConApp tc [t1, t2] | tc == transCoercionTyCon = C.TransCoercion (make_ty t1) (make_ty t2) make_tyConApp tc [t] | tc == symCoercionTyCon = C.SymCoercion (make_ty t) make_tyConApp tc [t1, t2] | tc == unsafeCoercionTyCon = C.UnsafeCoercion (make_ty t1) (make_ty t2) make_tyConApp tc [t] | tc == leftCoercionTyCon = C.LeftCoercion (make_ty t) make_tyConApp tc [t] | tc == rightCoercionTyCon = C.RightCoercion (make_ty t) make_tyConApp tc [t1, t2] | tc == instCoercionTyCon = C.InstCoercion (make_ty t1) (make_ty t2) -- this fails silently if we have an application -- of a wired-in coercion tycon to the wrong number of args. -- Not great... make_tyConApp tc ts = foldl C.Tapp (C.Tcon (qtc tc)) (map make_ty ts) make_kind :: Kind -> C.Kind make_kind (PredTy p) | isEqPred p = C.Keq (make_ty t1) (make_ty t2) where (t1, t2) = getEqPredTys p make_kind (FunTy k1 k2) = C.Karrow (make_kind k1) (make_kind k2) make_kind k | isLiftedTypeKind k = C.Klifted | isUnliftedTypeKind k = C.Kunlifted | isOpenTypeKind k = C.Kopen make_kind _ = error "MkExternalCore died: make_kind" {- Id generation. -} make_id :: Bool -> Name -> C.Id -- include uniques for internal names in order to avoid name shadowing make_id _is_var nm = ((occNameString . nameOccName) nm) ++ (if isInternalName nm then (show . nameUnique) nm else "") make_var_id :: Name -> C.Id make_var_id = make_id True -- It's important to encode the module name here, because in External Core, -- base:GHC.Base => base:GHCziBase -- We don't do this in pprExternalCore because we -- *do* want to keep the package name (we don't want baseZCGHCziBase, -- because that would just be ugly.) -- SIGH. -- We encode the package name as well. make_mid :: Module -> C.Id -- Super ugly code, but I can't find anything else that does quite what I -- want (encodes the hierarchical module name without encoding the colon -- that separates the package name from it.) make_mid m = showSDoc $ (text $ zEncodeString $ packageIdString $ modulePackageId m) <> text ":" <> (pprEncoded $ pprModuleName $ moduleName m) where pprEncoded = pprCode CStyle make_qid :: Bool -> Bool -> Name -> C.Qual C.Id make_qid force_unqual is_var n = (mname,make_id is_var n) where mname = case nameModule_maybe n of Just m | not force_unqual -> make_mid m _ -> "" make_var_qid :: Bool -> Name -> C.Qual C.Id make_var_qid force_unqual = make_qid force_unqual True make_con_qid :: Name -> C.Qual C.Id make_con_qid = make_qid False False ------- isALocal :: Name -> CoreM Bool isALocal vName = do modName <- ask return $ case nameModule_maybe vName of -- Not sure whether isInternalName corresponds to "local"ness -- in the External Core sense; need to re-read the spec. Just m | m == modName -> isInternalName vName _ -> False \end{code}