X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=c%CE%BBash%2FCLasH%2FVHDL%2FGenerate.hs;h=ea55cc2f42ba51b6341d086b6442ffcecb75925a;hb=9eb787bf4e8ee174f0df43af29e94298c23cb5a4;hp=154745879524de3880d3797c965be280c81f07eb;hpb=85693fb7ac19042b767cd712e92aec9897a0155e;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git "a/c\316\273ash/CLasH/VHDL/Generate.hs" "b/c\316\273ash/CLasH/VHDL/Generate.hs" index 1547458..ea55cc2 100644 --- "a/c\316\273ash/CLasH/VHDL/Generate.hs" +++ "b/c\316\273ash/CLasH/VHDL/Generate.hs" @@ -50,7 +50,9 @@ getEntity fname = Utils.makeCached fname tsEntities $ do args' <- catMaybesM $ mapM mkMap args -- TODO: Handle Nothing res' <- mkMap res - let vhdl_id = mkVHDLBasicId $ varToString fname ++ "_" ++ varToStringUniq fname + count <- getA tsEntityCounter + let vhdl_id = mkVHDLBasicId $ varToString fname ++ "Component_" ++ show count + putA tsEntityCounter (count + 1) let ent_decl = createEntityAST vhdl_id args' res' let signature = Entity vhdl_id args' res' ent_decl return signature @@ -88,9 +90,10 @@ createEntityAST vhdl_id args res = -- Create a basic Id, since VHDL doesn't grok filenames with extended Ids. ports = map (mkIfaceSigDec AST.In) args ++ (Maybe.maybeToList res_port) - ++ [clk_port] + ++ [clk_port,resetn_port] -- Add a clk port if we have state clk_port = AST.IfaceSigDec clockId AST.In std_logicTM + resetn_port = AST.IfaceSigDec resetId AST.In std_logicTM res_port = fmap (mkIfaceSigDec AST.Out) res -- | Create a port declaration @@ -164,16 +167,18 @@ mkStateProcSm :: mkStateProcSm (old, new) = do nonempty <- hasNonEmptyType old if nonempty - then return [AST.CSPSm $ AST.ProcSm label [clk] [statement]] + then return [AST.CSPSm $ AST.ProcSm label [clockId,resetId] [statement]] else return [] where label = mkVHDLBasicId $ "state" - clk = mkVHDLBasicId "clock" rising_edge = AST.NSimple $ mkVHDLBasicId "rising_edge" wform = AST.Wform [AST.WformElem (AST.PrimName $ varToVHDLName new) Nothing] - assign = AST.SigAssign (varToVHDLName old) wform - rising_edge_clk = AST.PrimFCall $ AST.FCall rising_edge [Nothing AST.:=>: (AST.ADName $ AST.NSimple clk)] - statement = AST.IfSm rising_edge_clk [assign] [] Nothing + clk_assign = AST.SigAssign (varToVHDLName old) wform + rising_edge_clk = AST.PrimFCall $ AST.FCall rising_edge [Nothing AST.:=>: (AST.ADName $ AST.NSimple clockId)] + resetn_is_low = (AST.PrimName $ AST.NSimple resetId) AST.:=: (AST.PrimLit "'0'") + reset_statement = [] + clk_statement = [AST.ElseIf rising_edge_clk [clk_assign]] + statement = AST.IfSm resetn_is_low reset_statement clk_statement Nothing -- | Transforms a core binding into a VHDL concurrent statement @@ -185,7 +190,10 @@ mkConcSm :: -- Ignore Cast expressions, they should not longer have any meaning as long as --- the type works out. +-- the type works out. Throw away state repacking +mkConcSm (bndr, to@(CoreSyn.Cast from ty)) + | hasStateType to && hasStateType from + = return ([],[]) mkConcSm (bndr, CoreSyn.Cast expr ty) = mkConcSm (bndr, expr) -- Simple a = b assignments are just like applications, but without arguments. @@ -199,7 +207,7 @@ mkConcSm (bndr, app@(CoreSyn.App _ _))= do let valargs = get_val_args (Var.varType f) args genApplication (Left bndr) f (map Left valargs) --- A single alt case must be a selector. This means thee scrutinee is a simple +-- A single alt case must be a selector. This means the scrutinee is a simple -- variable, the alternative is a dataalt with a single non-wild binder that -- is also returned. mkConcSm (bndr, expr@(CoreSyn.Case (CoreSyn.Var scrut) b ty [alt])) @@ -224,14 +232,23 @@ mkConcSm (bndr, expr@(CoreSyn.Case (CoreSyn.Var scrut) b ty [alt])) -- binders in the alts and only variables in the case values and a variable -- for a scrutinee. We check the constructor of the second alt, since the -- first is the default case, if there is any. -mkConcSm (bndr, (CoreSyn.Case (CoreSyn.Var scrut) b ty [(_, _, CoreSyn.Var false), (con, _, CoreSyn.Var true)])) = do + +-- mkConcSm (bndr, (CoreSyn.Case (CoreSyn.Var scrut) b ty [(_, _, CoreSyn.Var false), (con, _, CoreSyn.Var true)])) = do +-- scrut' <- MonadState.lift tsType $ varToVHDLExpr scrut +-- altcon <- MonadState.lift tsType $ altconToVHDLExpr con +-- let cond_expr = scrut' AST.:=: altcon +-- true_expr <- MonadState.lift tsType $ varToVHDLExpr true +-- false_expr <- MonadState.lift tsType $ varToVHDLExpr false +-- return ([mkCondAssign (Left bndr) cond_expr true_expr false_expr], []) +mkConcSm (bndr, (CoreSyn.Case (CoreSyn.Var scrut) _ _ (alt:alts))) = do --error "\nVHDL.mkConcSm: Not in normal form: Case statement with more than two alternatives" scrut' <- MonadState.lift tsType $ varToVHDLExpr scrut - let cond_expr = scrut' AST.:=: (altconToVHDLExpr con) - true_expr <- MonadState.lift tsType $ varToVHDLExpr true - false_expr <- MonadState.lift tsType $ varToVHDLExpr false - return ([mkCondAssign (Left bndr) cond_expr true_expr false_expr], []) + -- Omit first condition, which is the default + altcons <- MonadState.lift tsType $ mapM (altconToVHDLExpr . (\(con,_,_) -> con)) alts + let cond_exprs = map (\x -> scrut' AST.:=: x) altcons + -- Rotate expressions to the left, so that the expression related to the default case is the last + exprs <- MonadState.lift tsType $ mapM (varToVHDLExpr . (\(_,_,CoreSyn.Var expr) -> expr)) (alts ++ [alt]) + return ([mkAltsAssign (Left bndr) cond_exprs exprs], []) -mkConcSm (_, (CoreSyn.Case (CoreSyn.Var _) _ _ alts)) = error "\nVHDL.mkConcSm: Not in normal form: Case statement with more than two alternatives" mkConcSm (_, CoreSyn.Case _ _ _ _) = error "\nVHDL.mkConcSm: Not in normal form: Case statement has does not have a simple variable as scrutinee" mkConcSm (bndr, expr) = error $ "\nVHDL.mkConcSM: Unsupported binding in let expression: " ++ pprString bndr ++ " = " ++ pprString expr @@ -284,14 +301,16 @@ genVarArgs wrap dst func args = wrap dst func args' -- | A function to wrap a builder-like function that expects its arguments to -- be Literals genLitArgs :: - (dst -> func -> [Literal.Literal] -> res) - -> (dst -> func -> [Either CoreSyn.CoreExpr AST.Expr] -> res) -genLitArgs wrap dst func args = wrap dst func args' - where - args' = map exprToLit litargs - -- FIXME: Check if we were passed an CoreSyn.App - litargs = concat (map getLiterals exprargs) - (exprargs, []) = Either.partitionEithers args + (dst -> func -> [Literal.Literal] -> TranslatorSession [AST.ConcSm]) + -> (dst -> func -> [Either CoreSyn.CoreExpr AST.Expr] -> TranslatorSession [AST.ConcSm]) +genLitArgs wrap dst func args = do + hscenv <- MonadState.lift tsType $ getA tsHscEnv + let (exprargs, []) = Either.partitionEithers args + -- FIXME: Check if we were passed an CoreSyn.App + let litargs = concat (map (getLiterals hscenv) exprargs) + let args' = map exprToLit litargs + concsms <- wrap dst func args' + return concsms -- | A function to wrap a builder-like function that produces an expression -- and expects it to be assigned to the destination. @@ -326,7 +345,7 @@ genNegation' _ f [arg] = do let name = Name.getOccString (TyCon.tyConName tycon) case name of "SizedInt" -> return $ AST.Neg arg1 - otherwise -> error $ "\nGenerate.genNegation': Negation allowed for type: " ++ show name + otherwise -> error $ "\nGenerate.genNegation': Negation not allowed for type: " ++ show name -- | Generate a function call from the destination binder, function name and a -- list of expressions (its arguments) @@ -342,12 +361,13 @@ genFCall' switch (Left res) f args = do genFCall' _ (Right name) _ _ = error $ "\nGenerate.genFCall': Cannot generate builtin function call assigned to a VHDLName: " ++ show name genFromSizedWord :: BuiltinBuilder -genFromSizedWord = genNoInsts $ genExprArgs $ genExprRes genFromSizedWord' -genFromSizedWord' :: Either CoreSyn.CoreBndr AST.VHDLName -> CoreSyn.CoreBndr -> [AST.Expr] -> TranslatorSession AST.Expr -genFromSizedWord' (Left res) f args = do - let fname = varToString f - return $ AST.PrimFCall $ AST.FCall (AST.NSimple (mkVHDLBasicId toIntegerId)) $ - map (\exp -> Nothing AST.:=>: AST.ADExpr exp) args +genFromSizedWord = genNoInsts $ genExprArgs genFromSizedWord' +genFromSizedWord' :: Either CoreSyn.CoreBndr AST.VHDLName -> CoreSyn.CoreBndr -> [AST.Expr] -> TranslatorSession [AST.ConcSm] +genFromSizedWord' (Left res) f args@[arg] = do + return $ [mkUncondAssign (Left res) arg] + -- let fname = varToString f + -- return $ AST.PrimFCall $ AST.FCall (AST.NSimple (mkVHDLBasicId toIntegerId)) $ + -- map (\exp -> Nothing AST.:=>: AST.ADExpr exp) args genFromSizedWord' (Right name) _ _ = error $ "\nGenerate.genFromSizedWord': Cannot generate builtin function call assigned to a VHDLName: " ++ show name genResize :: BuiltinBuilder @@ -376,17 +396,17 @@ genFromInteger' (Left res) f lits = do { ; (tycon, args) = Type.splitTyConApp ty ; name = Name.getOccString (TyCon.tyConName tycon) } ; - ; case name of - "RangedWord" -> return $ AST.PrimLit (show (last lits)) - otherwise -> do { - ; len <- case name of - "SizedInt" -> MonadState.lift tsType $ tfp_to_int (sized_int_len_ty ty) - "SizedWord" -> MonadState.lift tsType $ tfp_to_int (sized_word_len_ty ty) - "RangedWord" -> MonadState.lift tsType $ tfp_to_int (ranged_word_bound_ty ty) - ; let fname = case name of "SizedInt" -> toSignedId ; "SizedWord" -> toUnsignedId - ; return $ AST.PrimFCall $ AST.FCall (AST.NSimple (mkVHDLBasicId fname)) - [Nothing AST.:=>: AST.ADExpr (AST.PrimLit (show (last lits))), Nothing AST.:=>: AST.ADExpr( AST.PrimLit (show len))] + ; len <- case name of + "SizedInt" -> MonadState.lift tsType $ tfp_to_int (sized_int_len_ty ty) + "SizedWord" -> MonadState.lift tsType $ tfp_to_int (sized_word_len_ty ty) + "RangedWord" -> do { + ; bound <- MonadState.lift tsType $ tfp_to_int (ranged_word_bound_ty ty) + ; return $ floor (logBase 2 (fromInteger (toInteger (bound)))) + 1 } + ; let fname = case name of "SizedInt" -> toSignedId ; "SizedWord" -> toUnsignedId ; "RangedWord" -> toUnsignedId + ; return $ AST.PrimFCall $ AST.FCall (AST.NSimple (mkVHDLBasicId fname)) + [Nothing AST.:=>: AST.ADExpr (AST.PrimLit (show (last lits))), Nothing AST.:=>: AST.ADExpr( AST.PrimLit (show len))] + } genFromInteger' (Right name) _ _ = error $ "\nGenerate.genFromInteger': Cannot generate builtin function call assigned to a VHDLName: " ++ show name @@ -646,6 +666,34 @@ genZip' (Left res) f args@[arg1, arg2] = do { -- Return the generate functions ; return [AST.CSGSm $ AST.GenerateSm label genScheme [] [resA_assign,resB_assign]] } + +-- | Generate a generate statement for the builtin function "fst" +genFst :: BuiltinBuilder +genFst = genNoInsts $ genVarArgs genFst' +genFst' :: (Either CoreSyn.CoreBndr AST.VHDLName) -> CoreSyn.CoreBndr -> [Var.Var] -> TranslatorSession [AST.ConcSm] +genFst' (Left res) f args@[arg] = do { + ; labels <- MonadState.lift tsType $ getFieldLabels (Var.varType arg) + ; let { argexpr' = varToVHDLName arg + ; argexprA = vhdlNameToVHDLExpr $ mkSelectedName argexpr' (labels!!0) + ; assign = mkUncondAssign (Left res) argexprA + } ; + -- Return the generate functions + ; return [assign] + } + +-- | Generate a generate statement for the builtin function "snd" +genSnd :: BuiltinBuilder +genSnd = genNoInsts $ genVarArgs genSnd' +genSnd' :: (Either CoreSyn.CoreBndr AST.VHDLName) -> CoreSyn.CoreBndr -> [Var.Var] -> TranslatorSession [AST.ConcSm] +genSnd' (Left res) f args@[arg] = do { + ; labels <- MonadState.lift tsType $ getFieldLabels (Var.varType arg) + ; let { argexpr' = varToVHDLName arg + ; argexprB = vhdlNameToVHDLExpr $ mkSelectedName argexpr' (labels!!1) + ; assign = mkUncondAssign (Left res) argexprB + } ; + -- Return the generate functions + ; return [assign] + } -- | Generate a generate statement for the builtin function "unzip" genUnzip :: BuiltinBuilder @@ -809,6 +857,42 @@ genIterateOrGenerate'' len iter (Left res) f [app_f, start] = do -- Return the conditional generate part return $ (AST.GenerateSm cond_label cond_scheme [] app_concsms, used) +genBlockRAM :: BuiltinBuilder +genBlockRAM = genNoInsts $ genExprArgs genBlockRAM' + +genBlockRAM' :: (Either CoreSyn.CoreBndr AST.VHDLName) -> CoreSyn.CoreBndr -> [AST.Expr] -> TranslatorSession [AST.ConcSm] +genBlockRAM' (Left res) f args@[data_in,rdaddr,wraddr,wrenable] = do + -- Get the ram type + let (tup,data_out) = Type.splitAppTy (Var.varType res) + let (tup',ramvec) = Type.splitAppTy tup + let Just realram = Type.coreView ramvec + let Just (tycon, types) = Type.splitTyConApp_maybe realram + Just ram_vhdl_ty <- MonadState.lift tsType $ vhdl_ty "wtf" (head types) + -- Make the intermediate vector + let ram_dec = AST.BDISD $ AST.SigDec ram_id ram_vhdl_ty Nothing + -- Get the data_out name + reslabels <- MonadState.lift tsType $ getFieldLabels (Var.varType res) + let resname' = varToVHDLName res + let resname = mkSelectedName resname' (reslabels!!0) + let rdaddr_int = genExprFCall (mkVHDLBasicId toIntegerId) rdaddr + let argexpr = vhdlNameToVHDLExpr $ mkIndexedName (AST.NSimple ram_id) rdaddr_int + let assign = mkUncondAssign (Right resname) argexpr + let block_label = mkVHDLExtId ("blockRAM" ++ (varToString res)) + let block = AST.BlockSm block_label [] (AST.PMapAspect []) [ram_dec] [assign, mkUpdateProcSm] + return [AST.CSBSm block] + where + ram_id = mkVHDLBasicId "ram" + mkUpdateProcSm :: AST.ConcSm + mkUpdateProcSm = AST.CSPSm $ AST.ProcSm proclabel [clockId] [statement] + where + proclabel = mkVHDLBasicId "updateRAM" + rising_edge = mkVHDLBasicId "rising_edge" + wraddr_int = genExprFCall (mkVHDLBasicId toIntegerId) wraddr + ramloc = mkIndexedName (AST.NSimple ram_id) wraddr_int + wform = AST.Wform [AST.WformElem data_in Nothing] + ramassign = AST.SigAssign ramloc wform + rising_edge_clk = genExprFCall rising_edge (AST.PrimName $ AST.NSimple clockId) + statement = AST.IfSm (AST.And rising_edge_clk wrenable) [ramassign] [] Nothing ----------------------------------------------------------------------------- -- Function to generate VHDL for applications @@ -833,7 +917,7 @@ genApplication dst f args = do let entity_id = ent_id signature -- TODO: Using show here isn't really pretty, but we'll need some -- unique-ish value... - let label = "comp_ins_" ++ (either show prettyShow) dst + let label = "comp_ins_" ++ (either (prettyShow . varToVHDLName) prettyShow) dst let portmaps = mkAssocElems args' ((either varToVHDLName id) dst) signature return ([mkComponentInst label entity_id portmaps], [f]) False -> do @@ -931,7 +1015,7 @@ vectorFunId el_ty fname = do -- the VHDLState or something. let vectorTM = mkVHDLExtId $ "vector_" ++ (AST.fromVHDLId elemTM) typefuns <- getA tsTypeFuns - case Map.lookup (OrdType el_ty, fname) typefuns of + case Map.lookup (StdType $ OrdType el_ty, fname) typefuns of -- Function already generated, just return it Just (id, _) -> return id -- Function not generated yet, generate it @@ -939,7 +1023,7 @@ vectorFunId el_ty fname = do let functions = genUnconsVectorFuns elemTM vectorTM case lookup fname functions of Just body -> do - modA tsTypeFuns $ Map.insert (OrdType el_ty, fname) (function_id, (fst body)) + modA tsTypeFuns $ Map.insert (StdType $ OrdType el_ty, fname) (function_id, (fst body)) mapM_ (vectorFunId el_ty) (snd body) return function_id Nothing -> error $ "\nGenerate.vectorFunId: I don't know how to generate vector function " ++ fname @@ -951,7 +1035,7 @@ genUnconsVectorFuns :: AST.TypeMark -- ^ type of the vector elements -> [(String, (AST.SubProgBody, [String]))] genUnconsVectorFuns elemTM vectorTM = [ (exId, (AST.SubProgBody exSpec [] [exExpr],[])) - , (replaceId, (AST.SubProgBody replaceSpec [AST.SPVD replaceVar] [replaceExpr,replaceRet],[])) + , (replaceId, (AST.SubProgBody replaceSpec [AST.SPVD replaceVar] [replaceExpr1,replaceExpr2,replaceRet],[])) , (lastId, (AST.SubProgBody lastSpec [] [lastExpr],[])) , (initId, (AST.SubProgBody initSpec [AST.SPVD initVar] [initExpr, initRet],[])) , (minimumId, (AST.SubProgBody minimumSpec [] [minimumExpr],[])) @@ -987,12 +1071,11 @@ genUnconsVectorFuns elemTM vectorTM = sPar = AST.unsafeVHDLBasicId "s" resId = AST.unsafeVHDLBasicId "res" exSpec = AST.Function (mkVHDLExtId exId) [AST.IfaceVarDec vecPar vectorTM, - AST.IfaceVarDec ixPar naturalTM] elemTM + AST.IfaceVarDec ixPar unsignedTM] elemTM exExpr = AST.ReturnSm (Just $ AST.PrimName $ AST.NIndexed - (AST.IndexedName (AST.NSimple vecPar) [AST.PrimName $ - AST.NSimple ixPar])) + (AST.IndexedName (AST.NSimple vecPar) [genExprFCall (mkVHDLBasicId toIntegerId) (AST.PrimName $ AST.NSimple $ ixPar)])) replaceSpec = AST.Function (mkVHDLExtId replaceId) [ AST.IfaceVarDec vecPar vectorTM - , AST.IfaceVarDec iPar naturalTM + , AST.IfaceVarDec iPar unsignedTM , AST.IfaceVarDec aPar elemTM ] vectorTM -- variable res : fsvec_x (0 to vec'length-1); @@ -1006,13 +1089,8 @@ genUnconsVectorFuns elemTM vectorTM = (AST.PrimLit "1")) ])) Nothing -- res AST.:= vec(0 to i-1) & a & vec(i+1 to length'vec-1) - replaceExpr = AST.NSimple resId AST.:= - (vecSlice (AST.PrimLit "0") (AST.PrimName (AST.NSimple iPar) AST.:-: AST.PrimLit "1") AST.:&: - AST.PrimName (AST.NSimple aPar) AST.:&: - vecSlice (AST.PrimName (AST.NSimple iPar) AST.:+: AST.PrimLit "1") - ((AST.PrimName (AST.NAttribute $ - AST.AttribName (AST.NSimple vecPar) (AST.NSimple $ mkVHDLBasicId lengthId) Nothing)) - AST.:-: AST.PrimLit "1")) + replaceExpr1 = AST.NSimple resId AST.:= AST.PrimName (AST.NSimple vecPar) + replaceExpr2 = AST.NIndexed (AST.IndexedName (AST.NSimple resId) [genExprFCall (mkVHDLBasicId toIntegerId) (AST.PrimName $ AST.NSimple $ iPar)]) AST.:= AST.PrimName (AST.NSimple aPar) replaceRet = AST.ReturnSm (Just $ AST.PrimName $ AST.NSimple resId) vecSlice init last = AST.PrimName (AST.NSlice (AST.SliceName @@ -1377,15 +1455,27 @@ globalNameTable = Map.fromList , (hwandId , (2, genOperator2 AST.And ) ) , (hworId , (2, genOperator2 AST.Or ) ) , (hwnotId , (1, genOperator1 AST.Not ) ) + , (equalityId , (2, genOperator2 (AST.:=:) ) ) + , (inEqualityId , (2, genOperator2 (AST.:/=:) ) ) + , (ltId , (2, genOperator2 (AST.:<:) ) ) + , (lteqId , (2, genOperator2 (AST.:<=:) ) ) + , (gtId , (2, genOperator2 (AST.:>:) ) ) + , (gteqId , (2, genOperator2 (AST.:>=:) ) ) + , (boolOrId , (2, genOperator2 AST.Or ) ) + , (boolAndId , (2, genOperator2 AST.And ) ) , (plusId , (2, genOperator2 (AST.:+:) ) ) , (timesId , (2, genOperator2 (AST.:*:) ) ) , (negateId , (1, genNegation ) ) , (minusId , (2, genOperator2 (AST.:-:) ) ) , (fromSizedWordId , (1, genFromSizedWord ) ) , (fromIntegerId , (1, genFromInteger ) ) - , (resizeId , (1, genResize ) ) + , (resizeWordId , (1, genResize ) ) + , (resizeIntId , (1, genResize ) ) , (sizedIntId , (1, genSizedInt ) ) , (smallIntegerId , (1, genFromInteger ) ) + , (fstId , (1, genFst ) ) + , (sndId , (1, genSnd ) ) + , (blockRAMId , (5, genBlockRAM ) ) --, (tfvecId , (1, genTFVec ) ) , (minimumId , (2, error $ "\nFunction name: \"minimum\" is used internally, use another name")) ]