X-Git-Url: https://git.stderr.nl/gitweb?a=blobdiff_plain;f=Translator.hs;h=9cced3444d452607e3b8d35cc9b3ce631b6ee515;hb=e2a1b9504807512be2e613c9e8822658be6fa626;hp=15349f1bf5e6bf2d3837fe4c5f1d91e8022a3a9a;hpb=d1d3f4434d96bfa0254061043f6c9f92367cfcc1;p=matthijs%2Fmaster-project%2Fc%CE%BBash.git diff --git a/Translator.hs b/Translator.hs index 15349f1..9cced34 100644 --- a/Translator.hs +++ b/Translator.hs @@ -33,8 +33,11 @@ import qualified ForSyDe.Backend.Ppr import Text.PrettyPrint.HughesPJ (render) import TranslatorTypes +import HsValueMap import Pretty import Flatten +import FlattenTypes +import VHDLTypes import qualified VHDL main = @@ -51,7 +54,7 @@ main = --core <- GHC.compileToCoreSimplified "Adders.hs" core <- GHC.compileToCoreSimplified "Adders.hs" --liftIO $ printBinds (cm_binds core) - let binds = Maybe.mapMaybe (findBind (cm_binds core)) ["sfull_adder"] + let binds = Maybe.mapMaybe (findBind (cm_binds core)) ["dff"] liftIO $ putStr $ prettyShow binds -- Turn bind into VHDL let (vhdl, sess) = State.runState (mkVHDL binds) (VHDLSession core 0 Map.empty) @@ -66,9 +69,10 @@ main = mapM addBuiltIn builtin_funcs -- Create entities and architectures for them mapM processBind binds - return $ AST.DesignFile - [] - [] + modFuncs nameFlatFunction + modFuncs VHDL.createEntity + modFuncs VHDL.createArchitecture + VHDL.getDesignFile findBind :: [CoreBind] -> String -> Maybe CoreBind findBind binds lookfor = @@ -107,7 +111,7 @@ flattenBind hsfunc bind@(NonRec var expr) = do let flatfunc = flattenFunction hsfunc bind addFunc hsfunc setFlatFunc hsfunc flatfunc - let used_hsfuncs = map appFunc (apps flatfunc) + let used_hsfuncs = map appFunc (flat_apps flatfunc) State.mapM resolvFunc used_hsfuncs return () @@ -164,6 +168,24 @@ mkHsFunction f ty = error $ "Input state type of function " ++ hsname ++ ": " ++ (showSDoc $ ppr state_ty) ++ " does not match output state type: " ++ (showSDoc $ ppr outstate_ty) otherwise -> error $ "Return type of top-level function " ++ hsname ++ " must be a two-tuple containing a state and output ports." +-- | Adds signal names to the given FlatFunction +nameFlatFunction :: + HsFunction + -> FuncData + -> VHDLState () + +nameFlatFunction hsfunc fdata = + let func = flatFunc fdata in + case func of + -- Skip (builtin) functions without a FlatFunction + Nothing -> do return () + -- Name the signals in all other functions + Just flatfunc -> + let s = flat_sigs flatfunc in + let s' = map (\(id, (SignalInfo Nothing use ty)) -> (id, SignalInfo (Just $ "sig_" ++ (show id)) use ty)) s in + let flatfunc' = flatfunc { flat_sigs = s' } in + setFlatFunc hsfunc flatfunc' + -- | Splits a tuple type into a list of element types, or Nothing if the type -- is not a tuple type. splitTupleType :: @@ -184,17 +206,27 @@ type PortMap = HsValueMap (String, AST.TypeMark) -- | A consise representation of a builtin function data BuiltIn = BuiltIn String [PortMap] PortMap +-- | Map a port specification of a builtin function to a VHDL Signal to put in +-- a VHDLSignalMap +toVHDLSignalMap :: HsValueMap (String, AST.TypeMark) -> VHDLSignalMap +toVHDLSignalMap = fmap (\(name, ty) -> (VHDL.mkVHDLId name, ty)) + -- | Translate a concise representation of a builtin function to something -- that can be put into FuncMap directly. addBuiltIn :: BuiltIn -> VHDLState () addBuiltIn (BuiltIn name args res) = do addFunc hsfunc + setEntity hsfunc entity where hsfunc = HsFunction name (map useAsPort args) (useAsPort res) + entity = Entity (VHDL.mkVHDLId name) (map toVHDLSignalMap args) (toVHDLSignalMap res) Nothing builtin_funcs = [ - BuiltIn "hwxor" [(Single ("a", VHDL.bit_ty)), (Single ("b", VHDL.bit_ty))] (Single ("o", VHDL.bit_ty)) + BuiltIn "hwxor" [(Single ("a", VHDL.bit_ty)), (Single ("b", VHDL.bit_ty))] (Single ("o", VHDL.bit_ty)), + BuiltIn "hwand" [(Single ("a", VHDL.bit_ty)), (Single ("b", VHDL.bit_ty))] (Single ("o", VHDL.bit_ty)), + BuiltIn "hwor" [(Single ("a", VHDL.bit_ty)), (Single ("b", VHDL.bit_ty))] (Single ("o", VHDL.bit_ty)), + BuiltIn "hwnot" [(Single ("a", VHDL.bit_ty))] (Single ("o", VHDL.bit_ty)) ] -- vim: set ts=8 sw=2 sts=2 expandtab: