X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2Fvectorise%2FVectorise.hs;h=59fded3c4f01c552c081869fd34c7698b2e285d6;hb=222415a5b658e737a0a1f2c980c6f80635289f75;hp=0bf4f662eb664527a033f041aa5cf7efc1cefd10;hpb=2c0188fca52f73de0d97a7f03bc42f133807126f;p=ghc-hetmet.git diff --git a/compiler/vectorise/Vectorise.hs b/compiler/vectorise/Vectorise.hs index 0bf4f66..59fded3 100644 --- a/compiler/vectorise/Vectorise.hs +++ b/compiler/vectorise/Vectorise.hs @@ -1,232 +1,529 @@ + module Vectorise( vectorise ) where -#include "HsVersions.h" - -import DynFlags -import HscTypes - -import CoreLint ( showPass, endPass ) +import VectMonad +import VectUtils +import VectType +import VectCore + +import HscTypes hiding ( MonadThings(..) ) + +import Module ( PackageId ) +import CoreSyn +import CoreUtils +import CoreUnfold ( mkInlineRule ) +import MkCore ( mkWildCase ) +import CoreFVs +import CoreMonad ( CoreM, getHscEnv ) +import DataCon import TyCon import Type -import TypeRep +import FamInstEnv ( extendFamInstEnvList ) import Var import VarEnv -import Name ( mkSysTvName ) -import NameEnv +import VarSet +import Id +import OccName +import BasicTypes ( isLoopBreaker ) -import DsMonad - -import PrelNames +import Literal ( Literal, mkMachInt ) +import TysWiredIn +import TysPrim ( intPrimTy ) import Outputable import FastString -import Control.Monad ( liftM2 ) +import Util ( zipLazy ) +import Control.Monad +import Data.List ( sortBy, unzip4 ) + +vectorise :: PackageId -> ModGuts -> CoreM ModGuts +vectorise backend guts = do + hsc_env <- getHscEnv + liftIO $ vectoriseIO backend hsc_env guts -vectorise :: HscEnv -> ModGuts -> IO ModGuts -vectorise hsc_env guts - | not (Opt_Vectorise `dopt` dflags) = return guts - | otherwise +vectoriseIO :: PackageId -> HscEnv -> ModGuts -> IO ModGuts +vectoriseIO backend hsc_env guts = do - showPass dflags "Vectorisation" eps <- hscEPS hsc_env let info = hptVectInfo hsc_env `plusVectInfo` eps_vect_info eps - Just guts' <- initDs hsc_env (mg_module guts) - (mg_rdr_env guts) - (mg_types guts) - (vectoriseModule info guts) - endPass dflags "Vectorisation" Opt_D_dump_vect (mg_binds guts') - return guts' + Just (info', guts') <- initV backend hsc_env guts info (vectModule guts) + return (guts' { mg_vect_info = info' }) + +vectModule :: ModGuts -> VM ModGuts +vectModule guts + = do + (types', fam_insts, tc_binds) <- vectTypeEnv (mg_types guts) + + let fam_inst_env' = extendFamInstEnvList (mg_fam_inst_env guts) fam_insts + updGEnv (setFamInstEnv fam_inst_env') + + -- dicts <- mapM buildPADict pa_insts + -- workers <- mapM vectDataConWorkers pa_insts + binds' <- mapM vectTopBind (mg_binds guts) + return $ guts { mg_types = types' + , mg_binds = Rec tc_binds : binds' + , mg_fam_inst_env = fam_inst_env' + , mg_fam_insts = mg_fam_insts guts ++ fam_insts + } + +vectTopBind :: CoreBind -> VM CoreBind +vectTopBind b@(NonRec var expr) + = do + (inline, expr') <- vectTopRhs var expr + var' <- vectTopBinder var inline expr' + hs <- takeHoisted + cexpr <- tryConvert var var' expr + return . Rec $ (var, cexpr) : (var', expr') : hs + `orElseV` + return b + +vectTopBind b@(Rec bs) + = do + (vars', _, exprs') <- fixV $ \ ~(_, inlines, rhss) -> + do + vars' <- sequence [vectTopBinder var inline rhs + | (var, ~(inline, rhs)) + <- zipLazy vars (zip inlines rhss)] + (inlines', exprs') <- mapAndUnzipM (uncurry vectTopRhs) bs + return (vars', inlines', exprs') + hs <- takeHoisted + cexprs <- sequence $ zipWith3 tryConvert vars vars' exprs + return . Rec $ zip vars cexprs ++ zip vars' exprs' ++ hs + `orElseV` + return b where - dflags = hsc_dflags hsc_env + (vars, exprs) = unzip bs --- ---------------------------------------------------------------------------- --- Vectorisation monad - -data Builtins = Builtins { - parrayTyCon :: TyCon - , paTyCon :: TyCon - , closureTyCon :: TyCon - , mkClosureVar :: Var - , applyClosureVar :: Var - , mkClosurePVar :: Var - , applyClosurePVar :: Var - , closurePAVar :: Var - , lengthPAVar :: Var - , replicatePAVar :: Var - } - -initBuiltins :: DsM Builtins -initBuiltins - = do - parrayTyCon <- dsLookupTyCon parrayTyConName - paTyCon <- dsLookupTyCon paTyConName - closureTyCon <- dsLookupTyCon closureTyConName - - mkClosureVar <- dsLookupGlobalId mkClosureName - applyClosureVar <- dsLookupGlobalId applyClosureName - mkClosurePVar <- dsLookupGlobalId mkClosurePName - applyClosurePVar <- dsLookupGlobalId applyClosurePName - closurePAVar <- dsLookupGlobalId closurePAName - lengthPAVar <- dsLookupGlobalId lengthPAName - replicatePAVar <- dsLookupGlobalId replicatePAName - - return $ Builtins { - parrayTyCon = parrayTyCon - , paTyCon = paTyCon - , closureTyCon = closureTyCon - , mkClosureVar = mkClosureVar - , applyClosureVar = applyClosureVar - , mkClosurePVar = mkClosurePVar - , applyClosurePVar = applyClosurePVar - , closurePAVar = closurePAVar - , lengthPAVar = lengthPAVar - , replicatePAVar = replicatePAVar - } - -data VEnv = VEnv { - -- Mapping from variables to their vectorised versions - -- - vect_vars :: VarEnv Var - - -- Exported variables which have a vectorised version - -- - , vect_exported_vars :: VarEnv (Var, Var) - - -- Mapping from TyCons to their vectorised versions. - -- TyCons which do not have to be vectorised are mapped to - -- themselves. - , vect_tycons :: NameEnv TyCon - } - -initVEnv :: VectInfo -> DsM VEnv -initVEnv info - = return $ VEnv { - vect_vars = mapVarEnv snd $ vectInfoCCVar info - , vect_exported_vars = emptyVarEnv - , vect_tycons = mapNameEnv snd $ vectInfoCCTyCon info - } - --- FIXME -updVectInfo :: VEnv -> ModGuts -> ModGuts -updVectInfo env guts = guts { mg_vect_info = info' } - where - info' = info { - vectInfoCCVar = vect_exported_vars env - , vectInfoCCTyCon = tc_env - } - - info = mg_vect_info guts - tyenv = mg_types guts - - tc_env = mkNameEnv [(tc_name, (tc,tc')) | tc <- typeEnvTyCons tyenv - , let tc_name = tyConName tc - , Just tc' <- [lookupNameEnv (vect_tycons env) tc_name]] - -newtype VM a = VM { runVM :: Builtins -> VEnv -> DsM (VEnv, a) } - -instance Monad VM where - return x = VM $ \bi env -> return (env, x) - VM p >>= f = VM $ \bi env -> do - (env', x) <- p bi env - runVM (f x) bi env' - -liftDs :: DsM a -> VM a -liftDs p = VM $ \bi env -> do { x <- p; return (env, x) } - -builtin :: (Builtins -> a) -> VM a -builtin f = VM $ \bi env -> return (env, f bi) - -readEnv :: (VEnv -> a) -> VM a -readEnv f = VM $ \bi env -> return (env, f env) - -setEnv :: VEnv -> VM () -setEnv env = VM $ \_ _ -> return (env, ()) - -updEnv :: (VEnv -> VEnv) -> VM () -updEnv f = VM $ \_ env -> return (f env, ()) - -newTyVar :: FastString -> Kind -> VM Var -newTyVar fs k - = do - u <- liftDs newUnique - return $ mkTyVar (mkSysTvName u fs) k - -lookupTyCon :: TyCon -> VM (Maybe TyCon) -lookupTyCon tc = readEnv $ \env -> lookupNameEnv (vect_tycons env) (tyConName tc) +-- NOTE: vectTopBinder *MUST* be lazy in inline and expr because of how it is +-- used inside of fixV in vectTopBind +vectTopBinder :: Var -> Inline -> CoreExpr -> VM Var +vectTopBinder var inline expr + = do + vty <- vectType (idType var) + var' <- liftM (`setIdUnfolding` unfolding) $ cloneId mkVectOcc var vty + defGlobalVar var var' + return var' + where + unfolding = case inline of + Inline arity -> mkInlineRule InlSat expr arity + DontInline -> noUnfolding + +vectTopRhs :: Var -> CoreExpr -> VM (Inline, CoreExpr) +vectTopRhs var expr + = closedV + $ do + (inline, vexpr) <- inBind var + $ vectPolyExpr (isLoopBreaker $ idOccInfo var) + (freeVars expr) + return (inline, vectorised vexpr) + +tryConvert :: Var -> Var -> CoreExpr -> VM CoreExpr +tryConvert var vect_var rhs + = fromVect (idType var) (Var vect_var) `orElseV` return rhs -- ---------------------------------------------------------------------------- -- Bindings -vectoriseModule :: VectInfo -> ModGuts -> DsM ModGuts -vectoriseModule info guts +vectBndr :: Var -> VM VVar +vectBndr v = do - builtins <- initBuiltins - env <- initVEnv info - (env', guts') <- runVM (vectModule guts) builtins env - return $ updVectInfo env' guts' + (vty, lty) <- vectAndLiftType (idType v) + let vv = v `Id.setIdType` vty + lv = v `Id.setIdType` lty + updLEnv (mapTo vv lv) + return (vv, lv) + where + mapTo vv lv env = env { local_vars = extendVarEnv (local_vars env) v (vv, lv) } -vectModule :: ModGuts -> VM ModGuts -vectModule guts = return guts +vectBndrNew :: Var -> FastString -> VM VVar +vectBndrNew v fs + = do + vty <- vectType (idType v) + vv <- newLocalVVar fs vty + updLEnv (upd vv) + return vv + where + upd vv env = env { local_vars = extendVarEnv (local_vars env) v vv } + +vectBndrIn :: Var -> VM a -> VM (VVar, a) +vectBndrIn v p + = localV + $ do + vv <- vectBndr v + x <- p + return (vv, x) + +vectBndrNewIn :: Var -> FastString -> VM a -> VM (VVar, a) +vectBndrNewIn v fs p + = localV + $ do + vv <- vectBndrNew v fs + x <- p + return (vv, x) + +vectBndrsIn :: [Var] -> VM a -> VM ([VVar], a) +vectBndrsIn vs p + = localV + $ do + vvs <- mapM vectBndr vs + x <- p + return (vvs, x) -- ---------------------------------------------------------------------------- --- Types +-- Expressions -paArgType :: Type -> Kind -> VM (Maybe Type) -paArgType ty k - | Just k' <- kindView k = paArgType ty k' +vectVar :: Var -> VM VExpr +vectVar v + = do + r <- lookupVar v + case r of + Local (vv,lv) -> return (Var vv, Var lv) + Global vv -> do + let vexpr = Var vv + lexpr <- liftPD vexpr + return (vexpr, lexpr) + +vectPolyVar :: Var -> [Type] -> VM VExpr +vectPolyVar v tys + = do + vtys <- mapM vectType tys + r <- lookupVar v + case r of + Local (vv, lv) -> liftM2 (,) (polyApply (Var vv) vtys) + (polyApply (Var lv) vtys) + Global poly -> do + vexpr <- polyApply (Var poly) vtys + lexpr <- liftPD vexpr + return (vexpr, lexpr) + +vectLiteral :: Literal -> VM VExpr +vectLiteral lit + = do + lexpr <- liftPD (Lit lit) + return (Lit lit, lexpr) --- Here, we assume that for a kind (k1 -> k2) to be valid, k1 and k2 can only --- be made up of * and (->), i.e., they can't be coercion kinds or #. -paArgType ty (FunTy k1 k2) +vectPolyExpr :: Bool -> CoreExprWithFVs -> VM (Inline, VExpr) +vectPolyExpr loop_breaker (_, AnnNote note expr) + = do + (inline, expr') <- vectPolyExpr loop_breaker expr + return (inline, vNote note expr') +vectPolyExpr loop_breaker expr = do - tv <- newTyVar FSLIT("a") k1 - ty1 <- paArgType' (TyVarTy tv) k1 - ty2 <- paArgType' (AppTy ty (TyVarTy tv)) k2 - return . Just $ ForAllTy tv (FunTy ty1 ty2) + arity <- polyArity tvs + polyAbstract tvs $ \args -> + do + (inline, mono') <- vectFnExpr False loop_breaker mono + return (addInlineArity inline arity, + mapVect (mkLams $ tvs ++ args) mono') + where + (tvs, mono) = collectAnnTypeBinders expr + +vectExpr :: CoreExprWithFVs -> VM VExpr +vectExpr (_, AnnType ty) + = liftM vType (vectType ty) + +vectExpr (_, AnnVar v) = vectVar v + +vectExpr (_, AnnLit lit) = vectLiteral lit -paArgType ty k - | isLiftedTypeKind k +vectExpr (_, AnnNote note expr) + = liftM (vNote note) (vectExpr expr) + +vectExpr e@(_, AnnApp _ arg) + | isAnnTypeArg arg + = vectTyAppExpr fn tys + where + (fn, tys) = collectAnnTypeArgs e + +vectExpr (_, AnnApp (_, AnnVar v) (_, AnnLit lit)) + | Just con <- isDataConId_maybe v + , is_special_con con = do - tc <- builtin paTyCon - return . Just $ TyConApp tc [ty] + let vexpr = App (Var v) (Lit lit) + lexpr <- liftPD vexpr + return (vexpr, lexpr) + where + is_special_con con = con `elem` [intDataCon, floatDataCon, doubleDataCon] - | otherwise - = return Nothing -paArgType' :: Type -> Kind -> VM Type -paArgType' ty k +vectExpr (_, AnnApp fn arg) = do - r <- paArgType ty k - case r of - Just ty' -> return ty' - Nothing -> pprPanic "paArgType'" (ppr ty) - -vectTyCon :: TyCon -> VM TyCon -vectTyCon tc - | isFunTyCon tc = builtin closureTyCon - | isBoxedTupleTyCon tc = return tc - | isUnLiftedTyCon tc = return tc - | otherwise = do - r <- lookupTyCon tc - case r of - Just tc' -> return tc' - - -- FIXME: just for now - Nothing -> pprTrace "ccTyCon:" (ppr tc) $ return tc - -vectType :: Type -> VM Type -vectType ty | Just ty' <- coreView ty = vectType ty -vectType (TyVarTy tv) = return $ TyVarTy tv -vectType (AppTy ty1 ty2) = liftM2 AppTy (vectType ty1) (vectType ty2) -vectType (TyConApp tc tys) = liftM2 TyConApp (vectTyCon tc) (mapM vectType tys) -vectType (FunTy ty1 ty2) = liftM2 TyConApp (builtin closureTyCon) - (mapM vectType [ty1,ty2]) -vectType (ForAllTy tv ty) - = do - r <- paArgType (TyVarTy tv) (tyVarKind tv) - ty' <- vectType ty - return . ForAllTy tv $ case r of { Just paty -> FunTy paty ty'; Nothing -> ty' } - -vectType ty = pprPanic "vectType:" (ppr ty) + arg_ty' <- vectType arg_ty + res_ty' <- vectType res_ty + fn' <- vectExpr fn + arg' <- vectExpr arg + mkClosureApp arg_ty' res_ty' fn' arg' + where + (arg_ty, res_ty) = splitFunTy . exprType $ deAnnotate fn + +vectExpr (_, AnnCase scrut bndr ty alts) + | Just (tycon, ty_args) <- splitTyConApp_maybe scrut_ty + , isAlgTyCon tycon + = vectAlgCase tycon ty_args scrut bndr ty alts + where + scrut_ty = exprType (deAnnotate scrut) + +vectExpr (_, AnnLet (AnnNonRec bndr rhs) body) + = do + vrhs <- localV . inBind bndr . liftM snd $ vectPolyExpr False rhs + (vbndr, vbody) <- vectBndrIn bndr (vectExpr body) + return $ vLet (vNonRec vbndr vrhs) vbody + +vectExpr (_, AnnLet (AnnRec bs) body) + = do + (vbndrs, (vrhss, vbody)) <- vectBndrsIn bndrs + $ liftM2 (,) + (zipWithM vect_rhs bndrs rhss) + (vectExpr body) + return $ vLet (vRec vbndrs vrhss) vbody + where + (bndrs, rhss) = unzip bs + + vect_rhs bndr rhs = localV + . inBind bndr + . liftM snd + $ vectPolyExpr (isLoopBreaker $ idOccInfo bndr) rhs + +vectExpr e@(_, AnnLam bndr _) + | isId bndr = liftM snd $ vectFnExpr True False e +{- +onlyIfV (isEmptyVarSet fvs) (vectScalarLam bs $ deAnnotate body) + `orElseV` vectLam True fvs bs body + where + (bs,body) = collectAnnValBinders e +-} + +vectExpr e = cantVectorise "Can't vectorise expression" (ppr $ deAnnotate e) + +vectFnExpr :: Bool -> Bool -> CoreExprWithFVs -> VM (Inline, VExpr) +vectFnExpr inline loop_breaker e@(fvs, AnnLam bndr _) + | isId bndr = onlyIfV (isEmptyVarSet fvs) + (mark DontInline . vectScalarLam bs $ deAnnotate body) + `orElseV` mark inlineMe (vectLam inline loop_breaker fvs bs body) + where + (bs,body) = collectAnnValBinders e +vectFnExpr _ _ e = mark DontInline $ vectExpr e + +mark :: Inline -> VM a -> VM (Inline, a) +mark b p = do { x <- p; return (b,x) } + +vectScalarLam :: [Var] -> CoreExpr -> VM VExpr +vectScalarLam args body + = do + scalars <- globalScalars + onlyIfV (all is_scalar_ty arg_tys + && is_scalar_ty res_ty + && is_scalar (extendVarSetList scalars args) body) + $ do + fn_var <- hoistExpr (fsLit "fn") (mkLams args body) DontInline + zipf <- zipScalars arg_tys res_ty + clo <- scalarClosure arg_tys res_ty (Var fn_var) + (zipf `App` Var fn_var) + clo_var <- hoistExpr (fsLit "clo") clo DontInline + lclo <- liftPD (Var clo_var) + return (Var clo_var, lclo) + where + arg_tys = map idType args + res_ty = exprType body + + is_scalar_ty ty | Just (tycon, []) <- splitTyConApp_maybe ty + = tycon == intTyCon + || tycon == floatTyCon + || tycon == doubleTyCon + + | otherwise = False + + is_scalar vs (Var v) = v `elemVarSet` vs + is_scalar _ e@(Lit _) = is_scalar_ty $ exprType e + is_scalar vs (App e1 e2) = is_scalar vs e1 && is_scalar vs e2 + is_scalar _ _ = False + +vectLam :: Bool -> Bool -> VarSet -> [Var] -> CoreExprWithFVs -> VM VExpr +vectLam inline loop_breaker fvs bs body + = do + tyvars <- localTyVars + (vs, vvs) <- readLEnv $ \env -> + unzip [(var, vv) | var <- varSetElems fvs + , Just vv <- [lookupVarEnv (local_vars env) var]] + + arg_tys <- mapM (vectType . idType) bs + res_ty <- vectType (exprType $ deAnnotate body) + + buildClosures tyvars vvs arg_tys res_ty + . hoistPolyVExpr tyvars (maybe_inline (length vs + length bs)) + $ do + lc <- builtin liftingContext + (vbndrs, vbody) <- vectBndrsIn (vs ++ bs) + (vectExpr body) + vbody' <- break_loop lc res_ty vbody + return $ vLams lc vbndrs vbody' + where + maybe_inline n | inline = Inline n + | otherwise = DontInline + + break_loop lc ty (ve, le) + | loop_breaker + = do + empty <- emptyPD ty + lty <- mkPDataType ty + return (ve, mkWildCase (Var lc) intPrimTy lty + [(DEFAULT, [], le), + (LitAlt (mkMachInt 0), [], empty)]) + + | otherwise = return (ve, le) + + +vectTyAppExpr :: CoreExprWithFVs -> [Type] -> VM VExpr +vectTyAppExpr (_, AnnVar v) tys = vectPolyVar v tys +vectTyAppExpr e tys = cantVectorise "Can't vectorise expression" + (ppr $ deAnnotate e `mkTyApps` tys) + +-- We convert +-- +-- case e :: t of v { ... } +-- +-- to +-- +-- V: let v' = e in case v' of _ { ... } +-- L: let v' = e in case v' `cast` ... of _ { ... } +-- +-- When lifting, we have to do it this way because v must have the type +-- [:V(T):] but the scrutinee must be cast to the representation type. We also +-- have to handle the case where v is a wild var correctly. +-- + +-- FIXME: this is too lazy +vectAlgCase :: TyCon -> [Type] -> CoreExprWithFVs -> Var -> Type + -> [(AltCon, [Var], CoreExprWithFVs)] + -> VM VExpr +vectAlgCase _tycon _ty_args scrut bndr ty [(DEFAULT, [], body)] + = do + vscrut <- vectExpr scrut + (vty, lty) <- vectAndLiftType ty + (vbndr, vbody) <- vectBndrIn bndr (vectExpr body) + return $ vCaseDEFAULT vscrut vbndr vty lty vbody + +vectAlgCase _tycon _ty_args scrut bndr ty [(DataAlt _, [], body)] + = do + vscrut <- vectExpr scrut + (vty, lty) <- vectAndLiftType ty + (vbndr, vbody) <- vectBndrIn bndr (vectExpr body) + return $ vCaseDEFAULT vscrut vbndr vty lty vbody + +vectAlgCase _tycon _ty_args scrut bndr ty [(DataAlt dc, bndrs, body)] + = do + (vty, lty) <- vectAndLiftType ty + vexpr <- vectExpr scrut + (vbndr, (vbndrs, (vect_body, lift_body))) + <- vect_scrut_bndr + . vectBndrsIn bndrs + $ vectExpr body + let (vect_bndrs, lift_bndrs) = unzip vbndrs + (vscrut, lscrut, pdata_tc, _arg_tys) <- mkVScrut (vVar vbndr) + vect_dc <- maybeV (lookupDataCon dc) + let [pdata_dc] = tyConDataCons pdata_tc + + let vcase = mk_wild_case vscrut vty vect_dc vect_bndrs vect_body + lcase = mk_wild_case lscrut lty pdata_dc lift_bndrs lift_body + + return $ vLet (vNonRec vbndr vexpr) (vcase, lcase) + where + vect_scrut_bndr | isDeadBinder bndr = vectBndrNewIn bndr (fsLit "scrut") + | otherwise = vectBndrIn bndr + + mk_wild_case expr ty dc bndrs body + = mkWildCase expr (exprType expr) ty [(DataAlt dc, bndrs, body)] + +vectAlgCase tycon _ty_args scrut bndr ty alts + = do + vect_tc <- maybeV (lookupTyCon tycon) + (vty, lty) <- vectAndLiftType ty + + let arity = length (tyConDataCons vect_tc) + sel_ty <- builtin (selTy arity) + sel_bndr <- newLocalVar (fsLit "sel") sel_ty + let sel = Var sel_bndr + + (vbndr, valts) <- vect_scrut_bndr + $ mapM (proc_alt arity sel vty lty) alts' + let (vect_dcs, vect_bndrss, lift_bndrss, vbodies) = unzip4 valts + + vexpr <- vectExpr scrut + (vect_scrut, lift_scrut, pdata_tc, _arg_tys) <- mkVScrut (vVar vbndr) + let [pdata_dc] = tyConDataCons pdata_tc + + let (vect_bodies, lift_bodies) = unzip vbodies + + vdummy <- newDummyVar (exprType vect_scrut) + ldummy <- newDummyVar (exprType lift_scrut) + let vect_case = Case vect_scrut vdummy vty + (zipWith3 mk_vect_alt vect_dcs vect_bndrss vect_bodies) + + lc <- builtin liftingContext + lbody <- combinePD vty (Var lc) sel lift_bodies + let lift_case = Case lift_scrut ldummy lty + [(DataAlt pdata_dc, sel_bndr : concat lift_bndrss, + lbody)] + + return . vLet (vNonRec vbndr vexpr) + $ (vect_case, lift_case) + where + vect_scrut_bndr | isDeadBinder bndr = vectBndrNewIn bndr (fsLit "scrut") + | otherwise = vectBndrIn bndr + + alts' = sortBy (\(alt1, _, _) (alt2, _, _) -> cmp alt1 alt2) alts + + cmp (DataAlt dc1) (DataAlt dc2) = dataConTag dc1 `compare` dataConTag dc2 + cmp DEFAULT DEFAULT = EQ + cmp DEFAULT _ = LT + cmp _ DEFAULT = GT + cmp _ _ = panic "vectAlgCase/cmp" + + proc_alt arity sel _ lty (DataAlt dc, bndrs, body) + = do + vect_dc <- maybeV (lookupDataCon dc) + let ntag = dataConTagZ vect_dc + tag = mkDataConTag vect_dc + fvs = freeVarsOf body `delVarSetList` bndrs + + sel_tags <- liftM (`App` sel) (builtin (selTags arity)) + lc <- builtin liftingContext + elems <- builtin (selElements arity ntag) + + (vbndrs, vbody) + <- vectBndrsIn bndrs + . localV + $ do + binds <- mapM (pack_var (Var lc) sel_tags tag) + . filter isLocalId + $ varSetElems fvs + (ve, le) <- vectExpr body + return (ve, Case (elems `App` sel) lc lty + [(DEFAULT, [], (mkLets (concat binds) le))]) + -- empty <- emptyPD vty + -- return (ve, Case (elems `App` sel) lc lty + -- [(DEFAULT, [], Let (NonRec flags_var flags_expr) + -- $ mkLets (concat binds) le), + -- (LitAlt (mkMachInt 0), [], empty)]) + let (vect_bndrs, lift_bndrs) = unzip vbndrs + return (vect_dc, vect_bndrs, lift_bndrs, vbody) + + proc_alt _ _ _ _ _ = panic "vectAlgCase/proc_alt" + + mk_vect_alt vect_dc bndrs body = (DataAlt vect_dc, bndrs, body) + + pack_var len tags t v + = do + r <- lookupVar v + case r of + Local (vv, lv) -> + do + lv' <- cloneVar lv + expr <- packByTagPD (idType vv) (Var lv) len tags t + updLEnv (\env -> env { local_vars = extendVarEnv + (local_vars env) v (vv, lv') }) + return [(NonRec lv' expr)] + + _ -> return []