From: Matthijs Kooijman Date: Thu, 25 Jun 2009 14:43:58 +0000 (+0200) Subject: Re-enable and clean up the foldl generation. X-Git-Url: https://git.stderr.nl/gitweb?a=commitdiff_plain;h=571f4340e8e28262975cdf7b5150eb789fa674af;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git Re-enable and clean up the foldl generation. This makes it use genApplication, meaning builtins can now also be folded. --- diff --git a/Generate.hs b/Generate.hs index 857d499..1c3edaa 100644 --- a/Generate.hs +++ b/Generate.hs @@ -131,95 +131,74 @@ genZipWith' (Left res) f args@[zipped_f, arg1, arg2] = app_concsms <- genApplication (Right resname) zipped_f [Right argexpr1, Right argexpr2] -- Return the generate functions return [AST.CSGSm $ AST.GenerateSm label genScheme [] app_concsms] -{- + genFoldl :: BuiltinBuilder genFoldl = genVarArgs genFoldl' -genFoldl' resVal f [folded_f, startVal, inVec] = do - signatures <- getA vsSignatures - let entity = Maybe.fromMaybe - (error $ "Using function '" ++ (varToString folded_f) ++ "' without signature? This should not happen!") - (Map.lookup folded_f signatures) - let (vec, _) = splitAppTy (Var.varType inVec) - let vecty = Type.mkAppTy vec (Var.varType startVal) - vecType <- vhdl_ty vecty +genFoldl' :: (Either CoreSyn.CoreBndr AST.VHDLName) -> CoreSyn.CoreBndr -> [Var.Var] -> VHDLSession [AST.ConcSm] +genFoldl' (Left res) f [folded_f, start, vec] = do + -- evec is (TFVec n), so it still needs an element type + let (nvec, _) = splitAppTy (Var.varType vec) + -- Put the type of the start value in nvec, this will be the type of our + -- temporary vector + let tmp_ty = Type.mkAppTy nvec (Var.varType start) + tmp_vhdl_ty <- vhdl_ty tmp_ty -- Setup the generate scheme - let len = (tfvec_len . Var.varType) inVec - let genlabel = mkVHDLExtId ("foldlVector" ++ (varToString inVec)) - let blockLabel = mkVHDLExtId ("foldlVector" ++ (varToString startVal)) - let range = AST.ToRange (AST.PrimLit "0") (AST.PrimLit $ show (len-1)) - let genScheme = AST.ForGn (AST.unsafeVHDLBasicId "n") range + let gen_label = mkVHDLExtId ("foldlVector" ++ (varToString vec)) + let block_label = mkVHDLExtId ("foldlVector" ++ (varToString start)) + let gen_range = AST.ToRange (AST.PrimLit "0") len_min_expr + let gen_scheme = AST.ForGn n_id gen_range -- Make the intermediate vector - let tmpVec = AST.BDISD $ AST.SigDec (mkVHDLExtId "tmp") vecType Nothing - -- Get the entity name and port names - let entity_id = ent_id entity - let argports = map (Monad.liftM fst) (ent_args entity) - let resport = (Monad.liftM fst) (ent_res entity) - -- Return the generate functions - let genSm = AST.GenerateSm genlabel genScheme [] - [ AST.CSGSm (genFirstCell (entity_id, argports, resport) - [startVal, inVec, resVal]) - , AST.CSGSm (genOtherCell (entity_id, argports, resport) - [startVal, inVec, resVal]) - , AST.CSGSm (genLastCell (entity_id, argports, resport) - [startVal, inVec, resVal]) - ] - return $ [AST.CSBSm $ AST.BlockSm blockLabel [] (AST.PMapAspect []) [tmpVec] [AST.CSGSm genSm]] + let tmp_dec = AST.BDISD $ AST.SigDec tmp_id tmp_vhdl_ty Nothing + -- Create the generate statement + cells <- sequence [genFirstCell, genOtherCell] + let gen_sm = AST.GenerateSm gen_label gen_scheme [] (map AST.CSGSm cells) + -- Assign tmp[len-1] to res + let out_assign = mkUncondAssign (Left res) $ vhdlNameToVHDLExpr (mkIndexedName tmp_name (AST.PrimLit $ show (len-1))) + let block = AST.BlockSm block_label [] (AST.PMapAspect []) [tmp_dec] [AST.CSGSm gen_sm, out_assign] + return [AST.CSBSm block] where - genFirstCell (entity_id, argports, resport) [startVal, inVec, resVal] = cellGn - where - cellLabel = mkVHDLExtId "firstcell" - cellGenScheme = AST.IfGn ((AST.PrimName $ AST.NSimple nPar) AST.:=: (AST.PrimLit "0")) - tmpId = mkVHDLExtId "tmp" - nPar = AST.unsafeVHDLBasicId "n" - -- Assign the ports - inport1 = mkAssocElem (argports!!0) (varToString startVal) - inport2 = mkAssocElemIndexed (argports!!1) (varToVHDLId inVec) nPar - outport = mkAssocElemIndexed resport tmpId nPar - portassigns = Maybe.catMaybes [inport1,inport2,outport] - -- Generate the portmap - mapLabel = "cell" ++ (AST.fromVHDLId entity_id) - compins = mkComponentInst mapLabel entity_id portassigns - -- Return the generate functions - cellGn = AST.GenerateSm cellLabel cellGenScheme [] [compins] - genOtherCell (entity_id, argports, resport) [startVal, inVec, resVal] = cellGn - where - len = (tfvec_len . Var.varType) inVec - cellLabel = mkVHDLExtId "othercell" - cellGenScheme = AST.IfGn $ AST.And ((AST.PrimName $ AST.NSimple nPar) AST.:>: (AST.PrimLit "0")) - ((AST.PrimName $ AST.NSimple nPar) AST.:<: (AST.PrimLit $ show (len-1))) - tmpId = mkVHDLExtId "tmp" - nPar = AST.unsafeVHDLBasicId "n" - -- Assign the ports - inport1 = mkAssocElemIndexed (argports!!0) tmpId (AST.unsafeVHDLBasicId "n-1") - inport2 = mkAssocElemIndexed (argports!!1) (varToVHDLId inVec) nPar - outport = mkAssocElemIndexed resport tmpId nPar - portassigns = Maybe.catMaybes [inport1,inport2,outport] - -- Generate the portmap - mapLabel = "cell" ++ (AST.fromVHDLId entity_id) - compins = mkComponentInst mapLabel entity_id portassigns - -- Return the generate functions - cellGn = AST.GenerateSm cellLabel cellGenScheme [] [compins] - genLastCell (entity_id, argports, resport) [startVal, inVec, resVal] = cellGn - where - len = (tfvec_len . Var.varType) inVec - cellLabel = mkVHDLExtId "lastCell" - cellGenScheme = AST.IfGn ((AST.PrimName $ AST.NSimple nPar) AST.:=: (AST.PrimLit $ show (len-1))) - tmpId = mkVHDLExtId "tmp" - nPar = AST.unsafeVHDLBasicId "n" - -- Assign the ports - inport1 = mkAssocElemIndexed (argports!!0) tmpId (AST.unsafeVHDLBasicId "n-1") - inport2 = mkAssocElemIndexed (argports!!1) (varToVHDLId inVec) nPar - outport = mkAssocElemIndexed resport tmpId nPar - portassigns = Maybe.catMaybes [inport1,inport2,outport] - -- Generate the portmap - mapLabel = "cell" ++ (AST.fromVHDLId entity_id) - compins = mkComponentInst mapLabel entity_id portassigns - -- Generate the output assignment - assign = mkUncondAssign (Left resVal) (AST.PrimName (AST.NIndexed (AST.IndexedName - (AST.NSimple tmpId) [AST.PrimLit $ show (len-1)]))) - -- Return the generate functions - cellGn = AST.GenerateSm cellLabel cellGenScheme [] [compins,assign] --} + -- The vector length + len = (tfvec_len . Var.varType) vec + -- An id for the counter + n_id = mkVHDLBasicId "n" + n_expr = idToVHDLExpr n_id + -- An expression for n-1 + n_min_expr = n_expr AST.:-: (AST.PrimLit "1") + -- An expression for len-1 + len_min_expr = (AST.PrimLit $ show (len-1)) + -- An id for the tmp result vector + tmp_id = mkVHDLBasicId "tmp" + tmp_name = AST.NSimple tmp_id + -- Generate parts of the fold + genFirstCell, genOtherCell :: VHDLSession AST.GenerateSm + genFirstCell = do + let cond_label = mkVHDLExtId "firstcell" + -- if n == 0 + let cond_scheme = AST.IfGn $ n_expr AST.:=: (AST.PrimLit "0") + -- Output to tmp[n] + let resname = mkIndexedName tmp_name n_expr + -- Input from start + let argexpr1 = varToVHDLExpr start + -- Input from vec[n] + let argexpr2 = vhdlNameToVHDLExpr $ mkIndexedName (varToVHDLName vec) n_expr + app_concsms <- genApplication (Right resname) folded_f [Right argexpr1, Right argexpr2] + -- Return the conditional generate part + return $ AST.GenerateSm cond_label cond_scheme [] app_concsms + + genOtherCell = do + let cond_label = mkVHDLExtId "othercell" + -- if n > 0 + let cond_scheme = AST.IfGn $ n_expr AST.:>: (AST.PrimLit "0") + -- Output to tmp[n] + let resname = mkIndexedName tmp_name n_expr + -- Input from tmp[n-1] + let argexpr1 = vhdlNameToVHDLExpr $ mkIndexedName tmp_name n_min_expr + -- Input from vec[n] + let argexpr2 = vhdlNameToVHDLExpr $ mkIndexedName (varToVHDLName vec) n_expr + app_concsms <- genApplication (Right resname) folded_f [Right argexpr1, Right argexpr2] + -- Return the conditional generate part + return $ AST.GenerateSm cond_label cond_scheme [] app_concsms + ----------------------------------------------------------------------------- -- Function to generate VHDL for applications ----------------------------------------------------------------------------- @@ -504,7 +483,7 @@ globalNameTable = Map.fromList , (plusgtId , (2, genFCall ) ) , (mapId , (2, genMap ) ) , (zipWithId , (3, genZipWith ) ) - --, (foldlId , (3, genFoldl ) ) + , (foldlId , (3, genFoldl ) ) , (emptyId , (0, genFCall ) ) , (singletonId , (1, genFCall ) ) , (copyId , (2, genFCall ) )