X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2Fvectorise%2FVectType.hs;h=11d69d6f6708137690cc22cf41103037a08b21de;hb=f86c92d05b404383e0a98cd5de8c2ba649804fc8;hp=e28b66ffa02e779cf19db9a7b4b9d62423616fe6;hpb=58eb6de8922742d301a6703b4a21504dd8d623a5;p=ghc-hetmet.git diff --git a/compiler/vectorise/VectType.hs b/compiler/vectorise/VectType.hs index e28b66f..11d69d6 100644 --- a/compiler/vectorise/VectType.hs +++ b/compiler/vectorise/VectType.hs @@ -1,551 +1,194 @@ -module VectType ( vectTyCon, vectType, vectTypeEnv, - PAInstance, buildPADict ) +{-# OPTIONS -fno-warn-missing-signatures #-} + +module VectType ( + vectTyCon, + vectAndLiftType, + vectType, + vectTypeEnv, + buildPADict, + fromVect +) where - -#include "HsVersions.h" - -import VectMonad import VectUtils -import VectCore - -import HscTypes ( TypeEnv, extendTypeEnvList, typeEnvTyCons ) +import Vectorise.Env +import Vectorise.Convert +import Vectorise.Vect +import Vectorise.Monad +import Vectorise.Builtins +import Vectorise.Type.Type +import Vectorise.Type.TyConDecl +import Vectorise.Type.Classify +import Vectorise.Type.PADict +import Vectorise.Type.PData +import Vectorise.Type.PRepr +import Vectorise.Type.Repr +import Vectorise.Utils.Closure +import Vectorise.Utils.Hoisting + +import HscTypes import CoreSyn import CoreUtils -import BuildTyCl +import CoreUnfold import DataCon import TyCon import Type -import TypeRep -import Coercion -import FamInstEnv ( FamInst, mkLocalFamInst ) -import InstEnv ( Instance, mkLocalInstance, instanceDFunId ) +import FamInstEnv import OccName +import Id import MkId -import BasicTypes ( StrictnessMark(..), OverlapFlag(..), boolToRecFlag ) -import Var ( Var ) -import Id ( mkWildId ) -import Name ( Name, getOccName ) +import Var import NameEnv -import TysWiredIn ( unitTy, intTy, intDataCon ) -import TysPrim ( intPrimTy ) import Unique import UniqFM -import UniqSet -import Digraph ( SCC(..), stronglyConnComp ) - +import Util import Outputable - -import Control.Monad ( liftM, liftM2, zipWithM, zipWithM_ ) -import Data.List ( inits, tails, zipWith4 ) - --- ---------------------------------------------------------------------------- --- Types - -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 ty@(ForAllTy _ _) - = do - mdicts <- mapM paDictArgType tyvars - mono_ty' <- vectType mono_ty - return $ tyvars `mkForAllTys` ([dict | Just dict <- mdicts] `mkFunTys` mono_ty') - where - (tyvars, mono_ty) = splitForAllTys ty - -vectType ty = pprPanic "vectType:" (ppr ty) - --- ---------------------------------------------------------------------------- --- Type definitions - -type TyConGroup = ([TyCon], UniqSet TyCon) - -data PAInstance = PAInstance { - painstDFun :: Var - , painstOrigTyCon :: TyCon - , painstVectTyCon :: TyCon - , painstArrTyCon :: TyCon - } - -vectTypeEnv :: TypeEnv -> VM (TypeEnv, [FamInst], [(Var, CoreExpr)]) +import FastString +import MonadUtils +import Control.Monad +import Data.List + +debug = False +dtrace s x = if debug then pprTrace "VectType" s x else x + + +-- | Vectorise a type environment. +-- The type environment contains all the type things defined in a module. +vectTypeEnv + :: TypeEnv + -> VM ( TypeEnv -- Vectorised type environment. + , [FamInst] -- New type family instances. + , [(Var, CoreExpr)]) -- New top level bindings. + vectTypeEnv env - = do + = dtrace (ppr env) + $ do cs <- readGEnv $ mk_map . global_tycons + + -- Split the list of TyCons into the ones we have to vectorise vs the + -- ones we can pass through unchanged. We also pass through algebraic + -- types that use non Haskell98 features, as we don't handle those. let (conv_tcs, keep_tcs) = classifyTyCons cs groups keep_dcs = concatMap tyConDataCons keep_tcs + zipWithM_ defTyCon keep_tcs keep_tcs zipWithM_ defDataCon keep_dcs keep_dcs + new_tcs <- vectTyConDecls conv_tcs let orig_tcs = keep_tcs ++ conv_tcs - vect_tcs = keep_tcs ++ new_tcs - repr_tcs <- zipWithM buildPReprTyCon orig_tcs vect_tcs - parr_tcs <- zipWithM buildPArrayTyCon orig_tcs vect_tcs - dfuns <- mapM mkPADFun vect_tcs - defTyConPAs (zip vect_tcs dfuns) - binds <- sequence (zipWith4 buildTyConBindings orig_tcs vect_tcs parr_tcs dfuns) - - let all_new_tcs = new_tcs ++ repr_tcs ++ parr_tcs + -- We don't need to make new representation types for dictionary + -- constructors. The constructors are always fully applied, and we don't + -- need to lift them to arrays as a dictionary of a particular type + -- always has the same value. + let vect_tcs = filter (not . isClassTyCon) + $ keep_tcs ++ new_tcs + + (_, binds, inst_tcs) <- fixV $ \ ~(dfuns', _, _) -> + do + defTyConPAs (zipLazy vect_tcs dfuns') + reprs <- mapM tyConRepr vect_tcs + repr_tcs <- zipWith3M buildPReprTyCon orig_tcs vect_tcs reprs + pdata_tcs <- zipWith3M buildPDataTyCon orig_tcs vect_tcs reprs + + dfuns <- sequence + $ zipWith5 buildTyConBindings + orig_tcs + vect_tcs + repr_tcs + pdata_tcs + reprs + + binds <- takeHoisted + return (dfuns, binds, repr_tcs ++ pdata_tcs) + + let all_new_tcs = new_tcs ++ inst_tcs let new_env = extendTypeEnvList env (map ATyCon all_new_tcs ++ [ADataCon dc | tc <- all_new_tcs , dc <- tyConDataCons tc]) - return (new_env, map mkLocalFamInst (repr_tcs ++ parr_tcs), concat binds) + return (new_env, map mkLocalFamInst inst_tcs, binds) where tycons = typeEnvTyCons env groups = tyConGroups tycons mk_map env = listToUFM_Directly [(u, getUnique n /= u) | (u,n) <- nameEnvUniqueElts env] - keep_tc tc = let dcs = tyConDataCons tc - in - defTyCon tc tc >> zipWithM_ defDataCon dcs dcs -vectTyConDecls :: [TyCon] -> VM [TyCon] -vectTyConDecls tcs = fixV $ \tcs' -> - do - mapM_ (uncurry defTyCon) (lazy_zip tcs tcs') - mapM vectTyConDecl tcs - where - lazy_zip [] _ = [] - lazy_zip (x:xs) ~(y:ys) = (x,y) : lazy_zip xs ys - -vectTyConDecl :: TyCon -> VM TyCon -vectTyConDecl tc - = do - name' <- cloneName mkVectTyConOcc name - rhs' <- vectAlgTyConRhs (algTyConRhs tc) - - liftDs $ buildAlgTyCon name' - tyvars - [] -- no stupid theta - rhs' - rec_flag -- FIXME: is this ok? - False -- FIXME: no generics - False -- not GADT syntax - Nothing -- not a family instance - where - name = tyConName tc - tyvars = tyConTyVars tc - rec_flag = boolToRecFlag (isRecursiveTyCon tc) - -vectAlgTyConRhs :: AlgTyConRhs -> VM AlgTyConRhs -vectAlgTyConRhs (DataTyCon { data_cons = data_cons - , is_enum = is_enum - }) - = do - data_cons' <- mapM vectDataCon data_cons - zipWithM_ defDataCon data_cons data_cons' - return $ DataTyCon { data_cons = data_cons' - , is_enum = is_enum - } - -vectDataCon :: DataCon -> VM DataCon -vectDataCon dc - | not . null $ dataConExTyVars dc = pprPanic "vectDataCon: existentials" (ppr dc) - | not . null $ dataConEqSpec dc = pprPanic "vectDataCon: eq spec" (ppr dc) - | otherwise - = do - name' <- cloneName mkVectDataConOcc name - tycon' <- vectTyCon tycon - arg_tys <- mapM vectType rep_arg_tys - - liftDs $ buildDataCon name' - False -- not infix - (map (const NotMarkedStrict) arg_tys) - [] -- no labelled fields - univ_tvs - [] -- no existential tvs for now - [] -- no eq spec for now - [] -- no context - arg_tys - tycon' - where - name = dataConName dc - univ_tvs = dataConUnivTyVars dc - rep_arg_tys = dataConRepArgTys dc - tycon = dataConTyCon dc - -mk_fam_inst :: TyCon -> TyCon -> (TyCon, [Type]) -mk_fam_inst fam_tc arg_tc - = (fam_tc, [mkTyConApp arg_tc . mkTyVarTys $ tyConTyVars arg_tc]) - -mkSumOfProdRepr :: [[Type]] -> VM Type -mkSumOfProdRepr [] = panic "mkSumOfProdRepr" -mkSumOfProdRepr tys - = do - embed <- builtin embedTyCon - plus <- builtin plusTyCon - cross <- builtin crossTyCon - - return . foldr1 (mk_bin plus) - . map (mkprod cross) - . map (map (mk_un embed)) - $ tys - where - mkprod cross [] = unitTy - mkprod cross tys = foldr1 (mk_bin cross) tys - - mk_un tc ty = mkTyConApp tc [ty] - mk_bin tc ty1 ty2 = mkTyConApp tc [ty1,ty2] - -buildPReprTyCon :: TyCon -> TyCon -> VM TyCon -buildPReprTyCon orig_tc vect_tc - = do - name <- cloneName mkPReprTyConOcc (tyConName orig_tc) - rhs_ty <- buildPReprRhsTy vect_tc - prepr_tc <- builtin preprTyCon - liftDs $ buildSynTyCon name - tyvars - (SynonymTyCon rhs_ty) - (Just $ mk_fam_inst prepr_tc vect_tc) - where - tyvars = tyConTyVars vect_tc - -buildPReprRhsTy :: TyCon -> VM Type -buildPReprRhsTy = mkSumOfProdRepr . map dataConRepArgTys . tyConDataCons - -buildPArrayTyCon :: TyCon -> TyCon -> VM TyCon -buildPArrayTyCon orig_tc vect_tc = fixV $ \repr_tc -> - do - name' <- cloneName mkPArrayTyConOcc orig_name - rhs <- buildPArrayTyConRhs orig_name vect_tc repr_tc - parray <- builtin parrayTyCon - - liftDs $ buildAlgTyCon name' - tyvars - [] -- no stupid theta - rhs - rec_flag -- FIXME: is this ok? - False -- FIXME: no generics - False -- not GADT syntax - (Just $ mk_fam_inst parray vect_tc) - where - orig_name = tyConName orig_tc - tyvars = tyConTyVars vect_tc - rec_flag = boolToRecFlag (isRecursiveTyCon vect_tc) - - -buildPArrayTyConRhs :: Name -> TyCon -> TyCon -> VM AlgTyConRhs -buildPArrayTyConRhs orig_name vect_tc repr_tc - = do - data_con <- buildPArrayDataCon orig_name vect_tc repr_tc - return $ DataTyCon { data_cons = [data_con], is_enum = False } - -buildPArrayDataCon :: Name -> TyCon -> TyCon -> VM DataCon -buildPArrayDataCon orig_name vect_tc repr_tc - = do - dc_name <- cloneName mkPArrayDataConOcc orig_name - shape <- tyConShape vect_tc - repr_tys <- mapM mkPArrayType types - - liftDs $ buildDataCon dc_name - False -- not infix - (shapeStrictness shape ++ map (const NotMarkedStrict) repr_tys) - [] -- no field labels - (tyConTyVars vect_tc) - [] -- no existentials - [] -- no eq spec - [] -- no context - (shapeReprTys shape ++ repr_tys) - repr_tc - where - types = [ty | dc <- tyConDataCons vect_tc - , ty <- dataConRepArgTys dc] - -mkPADFun :: TyCon -> VM Var -mkPADFun vect_tc - = newExportedVar (mkPADFunOcc $ getOccName vect_tc) =<< paDFunType vect_tc - -data Shape = Shape { - shapeReprTys :: [Type] - , shapeStrictness :: [StrictnessMark] - , shapeLength :: [CoreExpr] -> VM CoreExpr - , shapeReplicate :: CoreExpr -> CoreExpr -> VM [CoreExpr] - } - -tyConShape :: TyCon -> VM Shape -tyConShape vect_tc - | isProductTyCon vect_tc - = return $ Shape { - shapeReprTys = [intPrimTy] - , shapeStrictness = [NotMarkedStrict] - , shapeLength = \[len] -> return len - , shapeReplicate = \len _ -> return [len] - } - - | otherwise - = do - repr_ty <- mkPArrayType intTy -- FIXME: we want to unbox this - return $ Shape { - shapeReprTys = [repr_ty] - , shapeStrictness = [MarkedStrict] - , shapeLength = \[sel] -> lengthPA sel - , shapeReplicate = \len n -> do - e <- replicatePA len n - return [e] - } - -buildTyConBindings :: TyCon -> TyCon -> TyCon -> Var -> VM [(Var, CoreExpr)] -buildTyConBindings orig_tc vect_tc arr_tc dfun - = do - shape <- tyConShape vect_tc - sequence_ (zipWith4 (vectDataConWorker shape vect_tc arr_tc arr_dc) - orig_dcs - vect_dcs - (inits repr_tys) - (tails repr_tys)) - dict <- buildPADict shape vect_tc arr_tc dfun - binds <- takeHoisted - return $ (dfun, dict) : binds - where - orig_dcs = tyConDataCons orig_tc - vect_dcs = tyConDataCons vect_tc - [arr_dc] = tyConDataCons arr_tc +buildTyConBindings :: TyCon -> TyCon -> TyCon -> TyCon -> SumRepr -> VM Var +buildTyConBindings orig_tc vect_tc prepr_tc pdata_tc repr + = do vectDataConWorkers orig_tc vect_tc pdata_tc + buildPADict vect_tc prepr_tc pdata_tc repr - repr_tys = map dataConRepArgTys vect_dcs - -vectDataConWorker :: Shape -> TyCon -> TyCon -> DataCon - -> DataCon -> DataCon -> [[Type]] -> [[Type]] - -> VM () -vectDataConWorker shape vect_tc arr_tc arr_dc orig_dc vect_dc pre (dc_tys : post) - = do - clo <- closedV - . inBind orig_worker - . polyAbstract tvs $ \abstract -> - liftM (abstract . vectorised) - $ buildClosures tvs [] dc_tys res_ty (liftM2 (,) mk_vect mk_lift) - - worker <- cloneId mkVectOcc orig_worker (exprType clo) - hoistBinding worker clo - defGlobalVar orig_worker worker - return () - where - tvs = tyConTyVars vect_tc - arg_tys = mkTyVarTys tvs - res_ty = mkTyConApp vect_tc arg_tys - - orig_worker = dataConWorkId orig_dc - - mk_vect = return . mkConApp vect_dc $ map Type arg_tys - mk_lift = do - len <- newLocalVar FSLIT("n") intPrimTy - arr_tys <- mapM mkPArrayType dc_tys - args <- mapM (newLocalVar FSLIT("xs")) arr_tys - shapes <- shapeReplicate shape - (Var len) - (mkDataConTag vect_dc) - - empty_pre <- mapM emptyPA (concat pre) - empty_post <- mapM emptyPA (concat post) - - return . mkLams (len : args) - . wrapFamInstBody arr_tc arg_tys - . mkConApp arr_dc - $ map Type arg_tys ++ shapes - ++ empty_pre - ++ map Var args - ++ empty_post - -buildPADict :: Shape -> TyCon -> TyCon -> Var -> VM CoreExpr -buildPADict shape vect_tc arr_tc dfun - = polyAbstract tvs $ \abstract -> - do - meth_binds <- mapM (mk_method shape) paMethods - let meth_exprs = map (Var . fst) meth_binds - - pa_dc <- builtin paDataCon - let dict = mkConApp pa_dc (Type (mkTyConApp vect_tc arg_tys) : meth_exprs) - body = Let (Rec meth_binds) dict - return . mkInlineMe $ abstract body - where - tvs = tyConTyVars arr_tc - arg_tys = mkTyVarTys tvs - - mk_method shape (name, build) - = localV - $ do - body <- build shape vect_tc arr_tc - var <- newLocalVar name (exprType body) - return (var, mkInlineMe body) - -paMethods = [(FSLIT("lengthPA"), buildLengthPA), - (FSLIT("replicatePA"), buildReplicatePA)] - -buildLengthPA :: Shape -> TyCon -> TyCon -> VM CoreExpr -buildLengthPA shape vect_tc arr_tc - = do - parr_ty <- mkPArrayType (mkTyConApp vect_tc arg_tys) - arg <- newLocalVar FSLIT("xs") parr_ty - shapes <- mapM (newLocalVar FSLIT("sh")) shape_tys - wilds <- mapM newDummyVar repr_tys - let scrut = unwrapFamInstScrut arr_tc arg_tys (Var arg) - scrut_ty = exprType scrut - - body <- shapeLength shape (map Var shapes) - - return . Lam arg - $ Case scrut (mkWildId scrut_ty) intPrimTy - [(DataAlt repr_dc, shapes ++ wilds, body)] - where - arg_tys = mkTyVarTys $ tyConTyVars arr_tc - [repr_dc] = tyConDataCons arr_tc - - shape_tys = shapeReprTys shape - repr_tys = drop (length shape_tys) (dataConRepArgTys repr_dc) - --- data T = C0 t1 ... tm --- ... --- Ck u1 ... un --- --- data [:T:] = A ![:Int:] [:t1:] ... [:un:] --- --- replicatePA :: Int# -> T -> [:T:] --- replicatePA n# t --- = let c = case t of --- C0 _ ... _ -> 0 --- ... --- Ck _ ... _ -> k --- --- xs1 = case t of --- C0 x1 _ ... _ -> replicatePA @t1 n# x1 --- _ -> emptyPA @t1 --- --- ... --- --- ysn = case t of --- Ck _ ... _ yn -> replicatePA @un n# yn --- _ -> emptyPA @un --- in --- A (replicatePA @Int n# c) xs1 ... ysn --- --- - -buildReplicatePA :: Shape -> TyCon -> TyCon -> VM CoreExpr -buildReplicatePA shape vect_tc arr_tc - = do - len_var <- newLocalVar FSLIT("n") intPrimTy - val_var <- newLocalVar FSLIT("x") val_ty - - let len = Var len_var - val = Var val_var - - shape_reprs <- shapeReplicate shape len (ctr_num val) - reprs <- liftM concat $ mapM (mk_comp_arrs len val) vect_dcs - - return . mkLams [len_var, val_var] - . wrapFamInstBody arr_tc arg_tys - $ mkConApp arr_dc (map Type arg_tys ++ shape_reprs ++ reprs) - where - arg_tys = mkTyVarTys (tyConTyVars arr_tc) - val_ty = mkTyConApp vect_tc arg_tys - wild = mkWildId val_ty - vect_dcs = tyConDataCons vect_tc - [arr_dc] = tyConDataCons arr_tc - ctr_num val = Case val wild intTy (zipWith ctr_num_alt vect_dcs [0..]) - ctr_num_alt dc i = (DataAlt dc, map mkWildId (dataConRepArgTys dc), - mkConApp intDataCon [mkIntLitInt i]) +vectDataConWorkers :: TyCon -> TyCon -> TyCon -> VM () +vectDataConWorkers orig_tc vect_tc arr_tc + = do bs <- sequence + . zipWith3 def_worker (tyConDataCons orig_tc) rep_tys + $ zipWith4 mk_data_con (tyConDataCons vect_tc) + rep_tys + (inits rep_tys) + (tail $ tails rep_tys) + mapM_ (uncurry hoistBinding) bs + where + tyvars = tyConTyVars vect_tc + var_tys = mkTyVarTys tyvars + ty_args = map Type var_tys + res_ty = mkTyConApp vect_tc var_tys + cons = tyConDataCons vect_tc + arity = length cons + [arr_dc] = tyConDataCons arr_tc - mk_comp_arrs len val dc = let tys = dataConRepArgTys dc - wilds = map mkWildId tys - in - sequence (zipWith3 (mk_comp_arr len val dc) - tys (inits wilds) (tails wilds)) + rep_tys = map dataConRepArgTys $ tyConDataCons vect_tc - mk_comp_arr len val dc ty pre (_:post) - = do - var <- newLocalVar FSLIT("x") ty - rep <- replicatePA len (Var var) - empty <- emptyPA ty - arr_ty <- mkPArrayType ty - - return $ Case val wild arr_ty - [(DEFAULT, [], empty), (DataAlt dc, pre ++ (var : post), rep)] - --- | Split the given tycons into two sets depending on whether they have to be --- converted (first list) or not (second list). The first argument contains --- information about the conversion status of external tycons: --- --- * tycons which have converted versions are mapped to True --- * tycons which are not changed by vectorisation are mapped to False --- * tycons which can't be converted are not elements of the map --- -classifyTyCons :: UniqFM Bool -> [TyConGroup] -> ([TyCon], [TyCon]) -classifyTyCons = classify [] [] - where - classify conv keep cs [] = (conv, keep) - classify conv keep cs ((tcs, ds) : rs) - | can_convert && must_convert - = classify (tcs ++ conv) keep (cs `addListToUFM` [(tc,True) | tc <- tcs]) rs - | can_convert - = classify conv (tcs ++ keep) (cs `addListToUFM` [(tc,False) | tc <- tcs]) rs - | otherwise - = classify conv keep cs rs - where - refs = ds `delListFromUniqSet` tcs - can_convert = isNullUFM (refs `minusUFM` cs) && all convertable tcs - must_convert = foldUFM (||) False (intersectUFM_C const cs refs) + mk_data_con con tys pre post + = liftM2 (,) (vect_data_con con) + (lift_data_con tys pre post (mkDataConTag con)) - convertable tc = isDataTyCon tc && all isVanillaDataCon (tyConDataCons tc) - --- | Compute mutually recursive groups of tycons in topological order --- -tyConGroups :: [TyCon] -> [TyConGroup] -tyConGroups tcs = map mk_grp (stronglyConnComp edges) - where - edges = [((tc, ds), tc, uniqSetToList ds) | tc <- tcs - , let ds = tyConsOfTyCon tc] + sel_replicate len tag + | arity > 1 = do + rep <- builtin (selReplicate arity) + return [rep `mkApps` [len, tag]] - mk_grp (AcyclicSCC (tc, ds)) = ([tc], ds) - mk_grp (CyclicSCC els) = (tcs, unionManyUniqSets dss) - where - (tcs, dss) = unzip els + | otherwise = return [] -tyConsOfTyCon :: TyCon -> UniqSet TyCon -tyConsOfTyCon - = tyConsOfTypes . concatMap dataConRepArgTys . tyConDataCons + vect_data_con con = return $ mkConApp con ty_args + lift_data_con tys pre_tys post_tys tag + = do + len <- builtin liftingContext + args <- mapM (newLocalVar (fsLit "xs")) + =<< mapM mkPDataType tys -tyConsOfType :: Type -> UniqSet TyCon -tyConsOfType ty - | Just ty' <- coreView ty = tyConsOfType ty' -tyConsOfType (TyVarTy v) = emptyUniqSet -tyConsOfType (TyConApp tc tys) = extend (tyConsOfTypes tys) - where - extend | isUnLiftedTyCon tc - || isTupleTyCon tc = id + sel <- sel_replicate (Var len) tag - | otherwise = (`addOneToUniqSet` tc) + pre <- mapM emptyPD (concat pre_tys) + post <- mapM emptyPD (concat post_tys) -tyConsOfType (AppTy a b) = tyConsOfType a `unionUniqSets` tyConsOfType b -tyConsOfType (FunTy a b) = (tyConsOfType a `unionUniqSets` tyConsOfType b) - `addOneToUniqSet` funTyCon -tyConsOfType (ForAllTy _ ty) = tyConsOfType ty -tyConsOfType other = pprPanic "ClosureConv.tyConsOfType" $ ppr other + return . mkLams (len : args) + . wrapFamInstBody arr_tc var_tys + . mkConApp arr_dc + $ ty_args ++ sel ++ pre ++ map Var args ++ post -tyConsOfTypes :: [Type] -> UniqSet TyCon -tyConsOfTypes = unionManyUniqSets . map tyConsOfType + def_worker data_con arg_tys mk_body + = do + arity <- polyArity tyvars + body <- closedV + . inBind orig_worker + . polyAbstract tyvars $ \args -> + liftM (mkLams (tyvars ++ args) . vectorised) + $ buildClosures tyvars [] arg_tys res_ty mk_body + + raw_worker <- cloneId mkVectOcc orig_worker (exprType body) + let vect_worker = raw_worker `setIdUnfolding` + mkInlineRule body (Just arity) + defGlobalVar orig_worker vect_worker + return (vect_worker, body) + where + orig_worker = dataConWorkId data_con