module VectUtils ( collectAnnTypeBinders, collectAnnTypeArgs, isAnnTypeArg, collectAnnValBinders, dataConTagZ, mkDataConTag, mkDataConTagLit, newLocalVVar, mkBuiltinCo, mkPADictType, mkPArrayType, mkPReprType, parrayReprTyCon, parrayReprDataCon, mkVScrut, prDFunOfTyCon, paDictArgType, paDictOfType, paDFunType, paMethod, mkPR, lengthPA, replicatePA, emptyPA, packPA, combinePA, liftPA, polyAbstract, polyApply, polyVApply, hoistBinding, hoistExpr, hoistPolyVExpr, takeHoisted, buildClosure, buildClosures, mkClosureApp ) where import VectCore import VectMonad import DsUtils import CoreSyn import CoreUtils import Coercion import Type import TypeRep import TyCon import DataCon import Var import Id ( mkWildId ) import MkId ( unwrapFamInstScrut ) import TysWiredIn import BasicTypes ( Boxity(..) ) import Literal ( Literal, mkMachInt ) import Outputable import FastString import Control.Monad collectAnnTypeArgs :: AnnExpr b ann -> (AnnExpr b ann, [Type]) collectAnnTypeArgs expr = go expr [] where go (_, AnnApp f (_, AnnType ty)) tys = go f (ty : tys) go e tys = (e, tys) collectAnnTypeBinders :: AnnExpr Var ann -> ([Var], AnnExpr Var ann) collectAnnTypeBinders expr = go [] expr where go bs (_, AnnLam b e) | isTyVar b = go (b:bs) e go bs e = (reverse bs, e) collectAnnValBinders :: AnnExpr Var ann -> ([Var], AnnExpr Var ann) collectAnnValBinders expr = go [] expr where go bs (_, AnnLam b e) | isId b = go (b:bs) e go bs e = (reverse bs, e) isAnnTypeArg :: AnnExpr b ann -> Bool isAnnTypeArg (_, AnnType _) = True isAnnTypeArg _ = False dataConTagZ :: DataCon -> Int dataConTagZ con = dataConTag con - fIRST_TAG mkDataConTagLit :: DataCon -> Literal mkDataConTagLit = mkMachInt . toInteger . dataConTagZ mkDataConTag :: DataCon -> CoreExpr mkDataConTag = mkIntLitInt . dataConTagZ splitPrimTyCon :: Type -> Maybe TyCon splitPrimTyCon ty | Just (tycon, []) <- splitTyConApp_maybe ty , isPrimTyCon tycon = Just tycon | otherwise = Nothing mkBuiltinTyConApp :: (Builtins -> TyCon) -> [Type] -> VM Type mkBuiltinTyConApp get_tc tys = do tc <- builtin get_tc return $ mkTyConApp tc tys mkBuiltinTyConApps :: (Builtins -> TyCon) -> [Type] -> Type -> VM Type mkBuiltinTyConApps get_tc tys ty = do tc <- builtin get_tc return $ foldr (mk tc) ty tys where mk tc ty1 ty2 = mkTyConApp tc [ty1,ty2] {- mkBuiltinTyConApps1 :: (Builtins -> TyCon) -> Type -> [Type] -> VM Type mkBuiltinTyConApps1 _ dft [] = return dft mkBuiltinTyConApps1 get_tc _ tys = do tc <- builtin get_tc case tys of [] -> pprPanic "mkBuiltinTyConApps1" (ppr tc) _ -> return $ foldr1 (mk tc) tys where mk tc ty1 ty2 = mkTyConApp tc [ty1,ty2] mkClosureType :: Type -> Type -> VM Type mkClosureType arg_ty res_ty = mkBuiltinTyConApp closureTyCon [arg_ty, res_ty] -} mkClosureTypes :: [Type] -> Type -> VM Type mkClosureTypes = mkBuiltinTyConApps closureTyCon mkPReprType :: Type -> VM Type mkPReprType ty = mkBuiltinTyConApp preprTyCon [ty] mkPADictType :: Type -> VM Type mkPADictType ty = mkBuiltinTyConApp paTyCon [ty] mkPArrayType :: Type -> VM Type mkPArrayType ty | Just tycon <- splitPrimTyCon ty = do arr <- traceMaybeV "mkPArrayType" (ppr tycon) $ lookupPrimPArray tycon return $ mkTyConApp arr [] mkPArrayType ty = mkBuiltinTyConApp parrayTyCon [ty] mkBuiltinCo :: (Builtins -> TyCon) -> VM Coercion mkBuiltinCo get_tc = do tc <- builtin get_tc return $ mkTyConApp tc [] parrayReprTyCon :: Type -> VM (TyCon, [Type]) parrayReprTyCon ty = builtin parrayTyCon >>= (`lookupFamInst` [ty]) parrayReprDataCon :: Type -> VM (DataCon, [Type]) parrayReprDataCon ty = do (tc, arg_tys) <- parrayReprTyCon ty let [dc] = tyConDataCons tc return (dc, arg_tys) mkVScrut :: VExpr -> VM (VExpr, TyCon, [Type]) mkVScrut (ve, le) = do (tc, arg_tys) <- parrayReprTyCon (exprType ve) return ((ve, unwrapFamInstScrut tc arg_tys le), tc, arg_tys) prDFunOfTyCon :: TyCon -> VM CoreExpr prDFunOfTyCon tycon = liftM Var (traceMaybeV "prDictOfTyCon" (ppr tycon) (lookupTyConPR tycon)) paDictArgType :: TyVar -> VM (Maybe Type) paDictArgType tv = go (TyVarTy tv) (tyVarKind tv) where go ty k | Just k' <- kindView k = go ty k' go ty (FunTy k1 k2) = do tv <- newTyVar (fsLit "a") k1 mty1 <- go (TyVarTy tv) k1 case mty1 of Just ty1 -> do mty2 <- go (AppTy ty (TyVarTy tv)) k2 return $ fmap (ForAllTy tv . FunTy ty1) mty2 Nothing -> go ty k2 go ty k | isLiftedTypeKind k = liftM Just (mkPADictType ty) go _ _ = return Nothing paDictOfType :: Type -> VM CoreExpr paDictOfType ty = paDictOfTyApp ty_fn ty_args where (ty_fn, ty_args) = splitAppTys ty paDictOfTyApp :: Type -> [Type] -> VM CoreExpr paDictOfTyApp ty_fn ty_args | Just ty_fn' <- coreView ty_fn = paDictOfTyApp ty_fn' ty_args paDictOfTyApp (TyVarTy tv) ty_args = do dfun <- maybeV (lookupTyVarPA tv) paDFunApply dfun ty_args paDictOfTyApp (TyConApp tc _) ty_args = do dfun <- traceMaybeV "paDictOfTyApp" (ppr tc) (lookupTyConPA tc) paDFunApply (Var dfun) ty_args paDictOfTyApp ty _ = pprPanic "paDictOfTyApp" (ppr ty) paDFunType :: TyCon -> VM Type paDFunType tc = do margs <- mapM paDictArgType tvs res <- mkPADictType (mkTyConApp tc arg_tys) return . mkForAllTys tvs $ mkFunTys [arg | Just arg <- margs] res where tvs = tyConTyVars tc arg_tys = mkTyVarTys tvs paDFunApply :: CoreExpr -> [Type] -> VM CoreExpr paDFunApply dfun tys = do dicts <- mapM paDictOfType tys return $ mkApps (mkTyApps dfun tys) dicts type PAMethod = (Builtins -> Var, String) pa_length, pa_replicate, pa_empty, pa_pack :: (Builtins -> Var, String) pa_length = (lengthPAVar, "lengthPA") pa_replicate = (replicatePAVar, "replicatePA") pa_empty = (emptyPAVar, "emptyPA") pa_pack = (packPAVar, "packPA") paMethod :: PAMethod -> Type -> VM CoreExpr paMethod (_method, name) ty | Just tycon <- splitPrimTyCon ty = do fn <- traceMaybeV "paMethod" (ppr tycon <+> text name) $ lookupPrimMethod tycon name return (Var fn) paMethod (method, _name) ty = do fn <- builtin method dict <- paDictOfType ty return $ mkApps (Var fn) [Type ty, dict] mkPR :: Type -> VM CoreExpr mkPR ty = do fn <- builtin mkPRVar dict <- paDictOfType ty return $ mkApps (Var fn) [Type ty, dict] lengthPA :: Type -> CoreExpr -> VM CoreExpr lengthPA ty x = liftM (`App` x) (paMethod pa_length ty) replicatePA :: CoreExpr -> CoreExpr -> VM CoreExpr replicatePA len x = liftM (`mkApps` [len,x]) (paMethod pa_replicate (exprType x)) emptyPA :: Type -> VM CoreExpr emptyPA = paMethod pa_empty packPA :: Type -> CoreExpr -> CoreExpr -> CoreExpr -> VM CoreExpr packPA ty xs len sel = liftM (`mkApps` [xs, len, sel]) (paMethod pa_pack ty) combinePA :: Type -> CoreExpr -> CoreExpr -> CoreExpr -> [CoreExpr] -> VM CoreExpr combinePA ty len sel is xs = liftM (`mkApps` (len : sel : is : xs)) (paMethod (combinePAVar n, "combine" ++ show n ++ "PA") ty) where n = length xs liftPA :: CoreExpr -> VM CoreExpr liftPA x = do lc <- builtin liftingContext replicatePA (Var lc) x newLocalVVar :: FastString -> Type -> VM VVar newLocalVVar fs vty = do lty <- mkPArrayType vty vv <- newLocalVar fs vty lv <- newLocalVar fs lty return (vv,lv) polyAbstract :: [TyVar] -> ((CoreExpr -> CoreExpr) -> VM a) -> VM a polyAbstract tvs p = localV $ do mdicts <- mapM mk_dict_var tvs zipWithM_ (\tv -> maybe (defLocalTyVar tv) (defLocalTyVarWithPA tv . Var)) tvs mdicts p (mk_lams mdicts) where mk_dict_var tv = do r <- paDictArgType tv case r of Just ty -> liftM Just (newLocalVar (fsLit "dPA") ty) Nothing -> return Nothing mk_lams mdicts = mkLams (tvs ++ [dict | Just dict <- mdicts]) polyApply :: CoreExpr -> [Type] -> VM CoreExpr polyApply expr tys = do dicts <- mapM paDictOfType tys return $ expr `mkTyApps` tys `mkApps` dicts polyVApply :: VExpr -> [Type] -> VM VExpr polyVApply expr tys = do dicts <- mapM paDictOfType tys return $ mapVect (\e -> e `mkTyApps` tys `mkApps` dicts) expr hoistBinding :: Var -> CoreExpr -> VM () hoistBinding v e = updGEnv $ \env -> env { global_bindings = (v,e) : global_bindings env } hoistExpr :: FastString -> CoreExpr -> VM Var hoistExpr fs expr = do var <- newLocalVar fs (exprType expr) hoistBinding var expr return var hoistVExpr :: VExpr -> VM VVar hoistVExpr (ve, le) = do fs <- getBindName vv <- hoistExpr ('v' `consFS` fs) ve lv <- hoistExpr ('l' `consFS` fs) le return (vv, lv) hoistPolyVExpr :: [TyVar] -> VM VExpr -> VM VExpr hoistPolyVExpr tvs p = do expr <- closedV . polyAbstract tvs $ \abstract -> liftM (mapVect abstract) p fn <- hoistVExpr expr polyVApply (vVar fn) (mkTyVarTys tvs) takeHoisted :: VM [(Var, CoreExpr)] takeHoisted = do env <- readGEnv id setGEnv $ env { global_bindings = [] } return $ global_bindings env {- boxExpr :: Type -> VExpr -> VM VExpr boxExpr ty (vexpr, lexpr) | Just (tycon, []) <- splitTyConApp_maybe ty , isUnLiftedTyCon tycon = do r <- lookupBoxedTyCon tycon case r of Just tycon' -> let [dc] = tyConDataCons tycon' in return (mkConApp dc [vexpr], lexpr) Nothing -> return (vexpr, lexpr) -} mkClosure :: Type -> Type -> Type -> VExpr -> VExpr -> VM VExpr mkClosure arg_ty res_ty env_ty (vfn,lfn) (venv,lenv) = do dict <- paDictOfType env_ty mkv <- builtin mkClosureVar mkl <- builtin mkClosurePVar return (Var mkv `mkTyApps` [arg_ty, res_ty, env_ty] `mkApps` [dict, vfn, lfn, venv], Var mkl `mkTyApps` [arg_ty, res_ty, env_ty] `mkApps` [dict, vfn, lfn, lenv]) mkClosureApp :: Type -> Type -> VExpr -> VExpr -> VM VExpr mkClosureApp arg_ty res_ty (vclo, lclo) (varg, larg) = do vapply <- builtin applyClosureVar lapply <- builtin applyClosurePVar return (Var vapply `mkTyApps` [arg_ty, res_ty] `mkApps` [vclo, varg], Var lapply `mkTyApps` [arg_ty, res_ty] `mkApps` [lclo, larg]) buildClosures :: [TyVar] -> [VVar] -> [Type] -> Type -> VM VExpr -> VM VExpr buildClosures _ _ [] _ mk_body = mk_body buildClosures tvs vars [arg_ty] res_ty mk_body = buildClosure tvs vars arg_ty res_ty mk_body buildClosures tvs vars (arg_ty : arg_tys) res_ty mk_body = do res_ty' <- mkClosureTypes arg_tys res_ty arg <- newLocalVVar (fsLit "x") arg_ty buildClosure tvs vars arg_ty res_ty' . hoistPolyVExpr tvs $ do lc <- builtin liftingContext clo <- buildClosures tvs (vars ++ [arg]) arg_tys res_ty mk_body return $ vLams lc (vars ++ [arg]) clo -- (clo , aclo (Arr lc xs1 ... xsn) ) -- where -- f = \env v -> case env of -> e x1 ... xn v -- f^ = \env v -> case env of Arr l xs1 ... xsn -> e^ l x1 ... xn v -- buildClosure :: [TyVar] -> [VVar] -> Type -> Type -> VM VExpr -> VM VExpr buildClosure tvs vars arg_ty res_ty mk_body = do (env_ty, env, bind) <- buildEnv vars env_bndr <- newLocalVVar (fsLit "env") env_ty arg_bndr <- newLocalVVar (fsLit "arg") arg_ty fn <- hoistPolyVExpr tvs $ do lc <- builtin liftingContext body <- mk_body body' <- bind (vVar env_bndr) (vVarApps lc body (vars ++ [arg_bndr])) return (vLamsWithoutLC [env_bndr, arg_bndr] body') mkClosure arg_ty res_ty env_ty fn env buildEnv :: [VVar] -> VM (Type, VExpr, VExpr -> VExpr -> VM VExpr) buildEnv vvs = do lc <- builtin liftingContext let (ty, venv, vbind) = mkVectEnv tys vs (lenv, lbind) <- mkLiftEnv lc tys ls return (ty, (venv, lenv), \(venv,lenv) (vbody,lbody) -> do let vbody' = vbind venv vbody lbody' <- lbind lenv lbody return (vbody', lbody')) where (vs,ls) = unzip vvs tys = map idType vs mkVectEnv :: [Type] -> [Var] -> (Type, CoreExpr, CoreExpr -> CoreExpr -> CoreExpr) mkVectEnv [] [] = (unitTy, Var unitDataConId, \_ body -> body) mkVectEnv [ty] [v] = (ty, Var v, \env body -> Let (NonRec v env) body) mkVectEnv tys vs = (ty, mkCoreTup (map Var vs), \env body -> Case env (mkWildId ty) (exprType body) [(DataAlt (tupleCon Boxed (length vs)), vs, body)]) where ty = mkCoreTupTy tys mkLiftEnv :: Var -> [Type] -> [Var] -> VM (CoreExpr, CoreExpr -> CoreExpr -> VM CoreExpr) mkLiftEnv lc [ty] [v] = return (Var v, \env body -> do len <- lengthPA ty (Var v) return . Let (NonRec v env) $ Case len lc (exprType body) [(DEFAULT, [], body)]) -- NOTE: this transparently deals with empty environments mkLiftEnv lc tys vs = do (env_tc, env_tyargs) <- parrayReprTyCon vty bndrs <- if null vs then do v <- newDummyVar unitTy return [v] else return vs let [env_con] = tyConDataCons env_tc env = Var (dataConWrapId env_con) `mkTyApps` env_tyargs `mkApps` (Var lc : args) bind env body = let scrut = unwrapFamInstScrut env_tc env_tyargs env in return $ Case scrut (mkWildId (exprType scrut)) (exprType body) [(DataAlt env_con, lc : bndrs, body)] return (env, bind) where vty = mkCoreTupTy tys args | null vs = [Var unitDataConId] | otherwise = map Var vs