X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=Translator.hs;h=78b1466e4efa026cfa95c11a73e97f72bc8f0c61;hb=698e8d4deb062bca9b6a0452f228f6e8e9cb1c6d;hp=9265bfa5b6fc0e794ce78f2bcadf64c18cf6b12b;hpb=15423b23737673f098d89550ace39ec664e56ac4;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git a/Translator.hs b/Translator.hs index 9265bfa..78b1466 100644 --- a/Translator.hs +++ b/Translator.hs @@ -18,6 +18,9 @@ import Outputable ( showSDoc, ppr ) import GHC.Paths ( libdir ) import DynFlags ( defaultDynFlags ) import List ( find ) +import qualified List +import qualified Monad + -- The following modules come from the ForSyDe project. They are really -- internal modules, so ForSyDe.cabal has to be modified prior to installing -- ForSyDe to get access to these modules. @@ -40,24 +43,28 @@ main = --load LoadAllTargets --core <- GHC.compileToCoreSimplified "Adders.hs" core <- GHC.compileToCoreSimplified "Adders.hs" - liftIO $ printBinds (cm_binds core) - let bind = findBind "inv" (cm_binds core) - let NonRec var expr = bind + --liftIO $ printBinds (cm_binds core) + let binds = Maybe.mapMaybe (findBind (cm_binds core)) ["full_adder", "half_adder"] + liftIO $ printBinds binds -- Turn bind into VHDL - let vhdl = State.evalState (mkVHDL bind) (VHDLSession 0 builtin_funcs) - liftIO $ putStr $ showSDoc $ ppr expr - liftIO $ putStr "\n\n" - liftIO $ putStr $ render $ ForSyDe.Backend.Ppr.ppr $ vhdl - return expr + let vhdl = State.evalState (mkVHDL binds) (VHDLSession 0 []) + liftIO $ putStr $ render $ ForSyDe.Backend.Ppr.ppr vhdl + return () where -- Turns the given bind into VHDL - mkVHDL bind = do - -- Get the function signature - (name, f) <- mkHWFunction bind - -- Add it to the session - addFunc name f - arch <- getArchitecture bind - return arch + mkVHDL binds = do + -- Add the builtin functions + mapM (uncurry addFunc) builtin_funcs + -- Get the function signatures + funcs <- mapM mkHWFunction binds + -- Add them to the session + mapM (uncurry addFunc) funcs + let entities = map getEntity (snd $ unzip funcs) + -- Create architectures for them + archs <- mapM getArchitecture binds + return $ AST.DesignFile + [] + ((map AST.LUEntity entities) ++ (map AST.LUArch archs)) printTarget (Target (TargetFile file (Just x)) obj Nothing) = print $ show file @@ -78,34 +85,35 @@ printBind (Rec binds) = do printBind' (b, expr) = do putStr $ getOccString b - --putStr $ showSDoc $ ppr expr + putStr $ showSDoc $ ppr expr putStr "\n" -findBind :: String -> [CoreBind] -> CoreBind -findBind lookfor = +findBind :: [CoreBind] -> String -> Maybe CoreBind +findBind binds lookfor = -- This ignores Recs and compares the name of the bind with lookfor, -- disregarding any namespaces in OccName and extra attributes in Name and -- Var. - Maybe.fromJust . find (\b -> case b of + find (\b -> case b of Rec l -> False NonRec var _ -> lookfor == (occNameString $ nameOccName $ getName var) - ) + ) binds getPortMapEntry :: - SignalNameMap AST.VHDLId -- The port name to bind to - -> AST.VHDLName -- The signal or port to bind to it + SignalNameMap -- The port name to bind to + -> SignalNameMap + -- The signal or port to bind to it -> AST.AssocElem -- The resulting port map entry -- Accepts a port name and an argument to map to it. -- Returns the appropriate line for in the port map -getPortMapEntry (Signal portname) signame = - (Just portname) AST.:=>: (AST.ADName signame) +getPortMapEntry (Signal portname) (Signal signame) = + (Just portname) AST.:=>: (AST.ADName (AST.NSimple signame)) getInstantiations :: - [SignalNameMap AST.VHDLId] -- The arguments that need to be applied to the + [SignalNameMap] -- The arguments that need to be applied to the -- expression. - -> SignalNameMap AST.VHDLId -- The output ports that the expression should generate. - -> [(CoreBndr, SignalNameMap AST.VHDLId)] + -> SignalNameMap -- The output ports that the expression should generate. + -> [(CoreBndr, SignalNameMap)] -- A list of bindings in effect -> CoreSyn.CoreExpr -- The expression to generate an architecture for -> VHDLState ([AST.SigDec], [AST.ConcSm]) @@ -164,7 +172,7 @@ getInstantiations args outs binds app@(App expr arg) = do -- This is an normal function application, which maps to a component -- instantiation. -- Lookup the hwfunction to instantiate - HWFunction inports outport <- getHWFunc name + HWFunction vhdl_id inports outport <- getHWFunc name -- Generate a unique name for the application appname <- uniqueName "app" -- Expand each argument to a signal or port name, possibly generating @@ -177,7 +185,7 @@ getInstantiations args outs binds app@(App expr arg) = do -- Build and return a component instantiation let comp = AST.CompInsSm (AST.unsafeVHDLBasicId appname) - (AST.IUEntity (AST.NSimple (AST.unsafeVHDLBasicId name))) + (AST.IUEntity (AST.NSimple vhdl_id)) (AST.PMapAspect (inmaps ++ outmaps)) return (sigs, (AST.CSISm comp) : comps) @@ -185,76 +193,223 @@ getInstantiations args outs binds expr = error $ "Unsupported expression" ++ (showSDoc $ ppr $ expr) expandExpr :: - [(CoreBndr, SignalNameMap AST.VHDLName)] + [(CoreBndr, SignalNameMap)] -- A list of bindings in effect -> CoreExpr -- The expression to expand -> VHDLState ( [AST.SigDec], -- Needed signal declarations [AST.ConcSm], -- Needed component instantations and -- signal assignments. - [SignalNameMap AST.VHDLId], -- The signal names corresponding to + [SignalNameMap], -- The signal names corresponding to -- the expression's arguments - SignalNameMap AST.VHDLId) -- The signal names corresponding to + SignalNameMap) -- The signal names corresponding to -- the expression's result. -expandExpr binds (Lam b expr) = do +expandExpr binds lam@(Lam b expr) = do -- Generate a new signal to which we will expect this argument to be bound. signal_name <- uniqueName ("arg-" ++ getOccString b) - let (signal_id, signal_decl) = mkSignal signal_name vhdl_bit_ty + -- Find the type of the binder + let (arg_ty, _) = Type.splitFunTy (CoreUtils.exprType lam) + -- Create signal names for the binder + let arg_signal = getPortNameMapForTy ("xxx") arg_ty + -- Create the corresponding signal declarations + let signal_decls = mkSignalsFromMap arg_signal -- Add the binder to the list of binds - let binds' = (b, Signal (AST.NSimple signal_id)) : binds + let binds' = (b, arg_signal) : binds -- Expand the rest of the expression - (signal_decls, statements, arg_signals, res_signal) <- expandExpr binds' expr + (signal_decls', statements', arg_signals', res_signal') <- expandExpr binds' expr -- Properly merge the results - return (signal_decl : signal_decls, - statements, - (Signal signal_id) : arg_signals, - res_signal) + return (signal_decls ++ signal_decls', + statements', + arg_signal : arg_signals', + res_signal') expandExpr binds (Var id) = return ([], [], [], Signal signal_id) where -- Lookup the id in our binds map - Signal (AST.NSimple signal_id) = Maybe.fromMaybe + Signal signal_id = Maybe.fromMaybe (error $ "Argument " ++ getOccString id ++ "is unknown") (lookup id binds) +expandExpr binds l@(Let (NonRec b bexpr) expr) = do + (signal_decls, statements, arg_signals, res_signals) <- expandExpr binds bexpr + let binds' = (b, res_signals) : binds + (signal_decls', statements', arg_signals', res_signals') <- expandExpr binds' expr + return ( + signal_decls ++ signal_decls', + statements ++ statements', + arg_signals', + res_signals') + +expandExpr binds app@(App _ _) = do + let ((Var f), args) = collectArgs app + if isTupleConstructor f + then + expandBuildTupleExpr binds args + else + expandApplicationExpr binds (CoreUtils.exprType app) f args + +expandExpr binds expr@(Case (Var v) b _ alts) = + case alts of + [alt] -> expandSingleAltCaseExpr binds v b alt + otherwise -> error $ "Multiple alternative case expression not supported: " ++ (showSDoc $ ppr expr) + +expandExpr binds expr@(Case _ b _ _) = + error $ "Case expression with non-variable scrutinee not supported: " ++ (showSDoc $ ppr expr) + expandExpr binds expr = error $ "Unsupported expression: " ++ (showSDoc $ ppr $ expr) +-- Expands the construction of a tuple into VHDL +expandBuildTupleExpr :: + [(CoreBndr, SignalNameMap)] + -- A list of bindings in effect + -> [CoreExpr] -- A list of expressions to put in the tuple + -> VHDLState ( [AST.SigDec], [AST.ConcSm], [SignalNameMap], SignalNameMap) + -- See expandExpr +expandBuildTupleExpr binds args = do + -- Split the tuple constructor arguments into types and actual values. + let (_, vals) = splitTupleConstructorArgs args + -- Expand each of the values in the tuple + (signals_declss, statementss, arg_signalss, res_signals) <- + (Monad.liftM List.unzip4) $ mapM (expandExpr binds) vals + if any (not . null) arg_signalss + then error "Putting high order functions in tuples not supported" + else + return ( + concat signals_declss, + concat statementss, + [], + Tuple res_signals) + +-- Expands the most simple case expression that scrutinizes a plain variable +-- and has a single alternative. This simple form currently allows only for +-- unpacking tuple variables. +expandSingleAltCaseExpr :: + [(CoreBndr, SignalNameMap)] + -- A list of bindings in effect + -> Var.Var -- The scrutinee + -> CoreBndr -- The binder to bind the scrutinee to + -> CoreAlt -- The single alternative + -> VHDLState ( [AST.SigDec], [AST.ConcSm], [SignalNameMap], SignalNameMap) + -- See expandExpr + +expandSingleAltCaseExpr binds v b alt@(DataAlt datacon, bind_vars, expr) = + if not (DataCon.isTupleCon datacon) + then + error $ "Dataconstructors other than tuple constructors not supported in case pattern of alternative: " ++ (showSDoc $ ppr alt) + else + let + -- Lookup the scrutinee (which must be a variable bound to a tuple) in + -- the existing bindings list and get the portname map for each of + -- it's elements. + Tuple tuple_ports = Maybe.fromMaybe + (error $ "Case expression uses unknown scrutinee " ++ getOccString v) + (lookup v binds) + -- TODO include b in the binds list + -- Merge our existing binds with the new binds. + binds' = (zip bind_vars tuple_ports) ++ binds + in + -- Expand the expression with the new binds list + expandExpr binds' expr + +expandSingleAltCaseExpr _ _ _ alt = + error $ "Case patterns other than data constructors not supported in case alternative: " ++ (showSDoc $ ppr alt) + + +-- Expands the application of argument to a function into VHDL +expandApplicationExpr :: + [(CoreBndr, SignalNameMap)] + -- A list of bindings in effect + -> Type -- The result type of the function call + -> Var.Var -- The function to call + -> [CoreExpr] -- A list of argumetns to apply to the function + -> VHDLState ( [AST.SigDec], [AST.ConcSm], [SignalNameMap], SignalNameMap) + -- See expandExpr +expandApplicationExpr binds ty f args = do + let name = getOccString f + -- Generate a unique name for the application + appname <- uniqueName ("app-" ++ name) + -- Lookup the hwfunction to instantiate + HWFunction vhdl_id inports outport <- getHWFunc name + -- Expand each of the args, so each of them is reduced to output signals + (arg_signal_decls, arg_statements, arg_res_signals) <- expandArgs binds args + -- Bind each of the input ports to the expanded arguments + let inmaps = concat $ zipWith createAssocElems inports arg_res_signals + -- Create signal names for our result + let res_signal = getPortNameMapForTy (appname ++ "-out") ty + -- Create the corresponding signal declarations + let signal_decls = mkSignalsFromMap res_signal + -- Bind each of the output ports to our output signals + let outmaps = mapOutputPorts outport res_signal + -- Instantiate the component + let component = AST.CSISm $ AST.CompInsSm + (AST.unsafeVHDLBasicId appname) + (AST.IUEntity (AST.NSimple vhdl_id)) + (AST.PMapAspect (inmaps ++ outmaps)) + -- Merge the generated declarations + return ( + signal_decls ++ arg_signal_decls, + component : arg_statements, + [], -- We don't take any extra arguments; we don't support higher order functions yet + res_signal) + +-- Creates a list of AssocElems (port map lines) that maps the given signals +-- to the given ports. +createAssocElems :: + SignalNameMap -- The port names to bind to + -> SignalNameMap -- The signals to bind to it + -> [AST.AssocElem] -- The resulting port map lines + +createAssocElems (Signal port_id) (Signal signal_id) = + [(Just port_id) AST.:=>: (AST.ADName (AST.NSimple signal_id))] + +createAssocElems (Tuple ports) (Tuple signals) = + concat $ zipWith createAssocElems ports signals + -- Generate a signal declaration for a signal with the given name and the -- given type and no value. Also returns the id of the signal. mkSignal :: String -> AST.TypeMark -> (AST.VHDLId, AST.SigDec) mkSignal name ty = - (id, AST.SigDec id ty Nothing) + (id, mkSignalFromId id ty) where id = AST.unsafeVHDLBasicId name +mkSignalFromId :: AST.VHDLId -> AST.TypeMark -> AST.SigDec +mkSignalFromId id ty = + AST.SigDec id ty Nothing + +-- Generates signal declarations for all the signals in the given map +mkSignalsFromMap :: + SignalNameMap + -> [AST.SigDec] + +mkSignalsFromMap (Signal id) = + -- TODO: This uses the bit type hardcoded + [mkSignalFromId id vhdl_bit_ty] + +mkSignalsFromMap (Tuple signals) = + concat $ map mkSignalsFromMap signals + expandArgs :: - [(CoreBndr, SignalNameMap AST.VHDLId)] -- A list of bindings in effect + [(CoreBndr, SignalNameMap)] -- A list of bindings in effect -> [CoreExpr] -- The arguments to expand - -> VHDLState ([AST.SigDec], [AST.ConcSm], [AST.VHDLName]) + -> VHDLState ([AST.SigDec], [AST.ConcSm], [SignalNameMap]) -- The resulting signal declarations, -- component instantiations and a -- VHDLName for each of the -- expressions passed in. expandArgs binds (e:exprs) = do -- Expand the first expression - arg <- case e of - -- A simple variable reference should be in our binds map - Var id -> return $ let - -- Lookup the id in our binds map - Signal signalid = Maybe.fromMaybe - (error $ "Argument " ++ getOccString id ++ "is unknown") - (lookup id binds) - in - -- Create a VHDL name from the signal name - AST.NSimple signalid - -- Other expressions are unsupported - otherwise -> error ("Unsupported expression used as argument: " ++ (showSDoc $ ppr e)) - -- Expand the rest - (sigs, comps, args) <- expandArgs binds exprs - -- Return all results - return (sigs, comps, arg:args) + (signal_decls, statements, arg_signals, res_signal) <- expandExpr binds e + if not (null arg_signals) + then error $ "Passing functions as arguments not supported: " ++ (showSDoc $ ppr e) + else do + (signal_decls', statements', res_signals') <- expandArgs binds exprs + return ( + signal_decls ++ signal_decls', + statements ++ statements', + res_signal : res_signals') expandArgs _ [] = return ([], [], []) @@ -280,9 +435,11 @@ splitTupleConstructorArgs (e:es) = where (tys, vals) = splitTupleConstructorArgs es +splitTupleConstructorArgs [] = ([], []) + mapOutputPorts :: - SignalNameMap AST.VHDLId -- The output portnames of the component - -> SignalNameMap AST.VHDLId -- The output portnames and/or signals to map these to + SignalNameMap -- The output portnames of the component + -> SignalNameMap -- The output portnames and/or signals to map these to -> [AST.AssocElem] -- The resulting output ports -- Map the output port of a component to the output port of the containing @@ -302,23 +459,43 @@ getArchitecture (Rec _) = error "Recursive binders not supported" getArchitecture (NonRec var expr) = do let name = (getOccString var) - HWFunction inports outport <- getHWFunc name + HWFunction vhdl_id inports outport <- getHWFunc name sess <- State.get (signal_decls, statements, arg_signals, res_signal) <- expandExpr [] expr let inport_assigns = concat $ zipWith createSignalAssignments arg_signals inports let outport_assigns = createSignalAssignments outport res_signal return $ AST.ArchBody (AST.unsafeVHDLBasicId "structural") - -- Use unsafe for now, to prevent pulling in ForSyDe error handling - (AST.NSimple (AST.unsafeVHDLBasicId name)) + (AST.NSimple vhdl_id) (map AST.BDISD signal_decls) (inport_assigns ++ outport_assigns ++ statements) +-- Generate a VHDL entity declaration for the given function +getEntity :: HWFunction -> AST.EntityDec +getEntity (HWFunction vhdl_id inports outport) = + AST.EntityDec vhdl_id ports + where + ports = + (concat $ map (mkIfaceSigDecs AST.In) inports) + ++ mkIfaceSigDecs AST.Out outport + +mkIfaceSigDecs :: + AST.Mode -- The port's mode (In or Out) + -> SignalNameMap -- The ports to generate a map for + -> [AST.IfaceSigDec] -- The resulting ports + +mkIfaceSigDecs mode (Signal port_id) = + -- TODO: Remove hardcoded type + [AST.IfaceSigDec port_id mode vhdl_bit_ty] + +mkIfaceSigDecs mode (Tuple ports) = + concat $ map (mkIfaceSigDecs mode) ports + -- Create concurrent assignments of one map of signals to another. The maps -- should have a similar form. createSignalAssignments :: - SignalNameMap AST.VHDLId -- The signals to assign to - -> SignalNameMap AST.VHDLId -- The signals to assign + SignalNameMap -- The signals to assign to + -> SignalNameMap -- The signals to assign -> [AST.ConcSm] -- The resulting assignments -- A simple assignment of one signal to another (greatly complicated because @@ -335,19 +512,22 @@ createSignalAssignments (Signal dst) (Signal src) = createSignalAssignments (Tuple dsts) (Tuple srcs) = concat $ zipWith createSignalAssignments dsts srcs -data SignalNameMap t = - Tuple [SignalNameMap t] - | Signal t +createSignalAssignments dst src = + error $ "Non matching source and destination: " ++ show dst ++ "\nand\n" ++ show src + +data SignalNameMap = + Tuple [SignalNameMap] + | Signal AST.VHDLId deriving (Show) -- Generate a port name map (or multiple for tuple types) in the given direction for -- each type given. -getPortNameMapForTys :: String -> Int -> [Type] -> [SignalNameMap AST.VHDLId] +getPortNameMapForTys :: String -> Int -> [Type] -> [SignalNameMap] getPortNameMapForTys prefix num [] = [] getPortNameMapForTys prefix num (t:ts) = (getPortNameMapForTy (prefix ++ show num) t) : getPortNameMapForTys prefix (num + 1) ts -getPortNameMapForTy :: String -> Type -> SignalNameMap AST.VHDLId +getPortNameMapForTy :: String -> Type -> SignalNameMap getPortNameMapForTy name ty = if (TyCon.isTupleTyCon tycon) then -- Expand tuples we find @@ -359,8 +539,9 @@ getPortNameMapForTy name ty = (tycon, args) = Type.splitTyConApp ty data HWFunction = HWFunction { -- A function that is available in hardware - inPorts :: [SignalNameMap AST.VHDLId], - outPort :: SignalNameMap AST.VHDLId + vhdlId :: AST.VHDLId, + inPorts :: [SignalNameMap], + outPort :: SignalNameMap --entity :: AST.EntityDec } deriving (Show) @@ -371,9 +552,9 @@ mkHWFunction :: -> VHDLState (String, HWFunction) -- The name of the function and its interface mkHWFunction (NonRec var expr) = - return (name, HWFunction inports outport) + return (name, HWFunction (mkVHDLId name) inports outport) where - name = (getOccString var) + name = getOccString var ty = CoreUtils.exprType expr (fargs, res) = Type.splitFunTys ty args = if length fargs == 1 then fargs else (init fargs) @@ -424,8 +605,10 @@ mkVHDLId = AST.unsafeVHDLBasicId builtin_funcs = [ - ("hwxor", HWFunction [Signal $ mkVHDLId "a", Signal $ mkVHDLId "b"] (Signal $ mkVHDLId "o")), - ("hwand", HWFunction [Signal $ mkVHDLId "a", Signal $ mkVHDLId "b"] (Signal $ mkVHDLId "o")) + ("hwxor", HWFunction (mkVHDLId "hwxor") [Signal $ mkVHDLId "a", Signal $ mkVHDLId "b"] (Signal $ mkVHDLId "o")), + ("hwand", HWFunction (mkVHDLId "hwand") [Signal $ mkVHDLId "a", Signal $ mkVHDLId "b"] (Signal $ mkVHDLId "o")), + ("hwor", HWFunction (mkVHDLId "hwor") [Signal $ mkVHDLId "a", Signal $ mkVHDLId "b"] (Signal $ mkVHDLId "o")), + ("hwnot", HWFunction (mkVHDLId "hwnot") [Signal $ mkVHDLId "i"] (Signal $ mkVHDLId "o")) ] vhdl_bit_ty :: AST.TypeMark