- return $ AST.CSSASm assign
--}
--- | Turn a SignalId into a VHDL Expr
-mkIdExpr :: [(SignalId, SignalInfo)] -> SignalId -> AST.Expr
-mkIdExpr sigs id =
- let src_name = AST.NSimple (getSignalId $ signalInfo sigs id) in
- AST.PrimName src_name
-
-mkAssocElems ::
- [CoreSyn.CoreExpr] -- | The argument that are applied to function
- -> CoreSyn.CoreBndr -- | The binder in which to store the result
- -> Entity -- | The entity to map against.
- -> [AST.AssocElem] -- | The resulting port maps
-
-mkAssocElems args res entity =
- -- Create the actual AssocElems
- Maybe.catMaybes $ zipWith mkAssocElem ports sigs
- where
- -- Turn the ports and signals from a map into a flat list. This works,
- -- since the maps must have an identical form by definition. TODO: Check
- -- the similar form?
- arg_ports = ent_args entity
- res_port = ent_res entity
- -- Extract the id part from the (id, type) tuple
- ports = map (Monad.liftM fst) (res_port : arg_ports)
- -- Translate signal numbers into names
- sigs = (bndrToString res : map (bndrToString.varBndr) args)
-
--- Turns a Var CoreExpr into the Id inside it. Will of course only work for
--- simple Var CoreExprs, not complexer ones.
-varBndr :: CoreSyn.CoreExpr -> Var.Id
-varBndr (CoreSyn.Var id) = id
-
--- | Look up a signal in the signal name map
-lookupSigName :: [(SignalId, SignalInfo)] -> SignalId -> String
-lookupSigName sigs sig = name
- where
- info = Maybe.fromMaybe
- (error $ "Unknown signal " ++ (show sig) ++ " used? This should not happen!")
- (lookup sig sigs)
- name = Maybe.fromMaybe
- (error $ "Unnamed signal " ++ (show sig) ++ " used? This should not happen!")
- (sigName info)
-
--- | Create an VHDL port -> signal association
-mkAssocElem :: Maybe AST.VHDLId -> String -> Maybe AST.AssocElem
-mkAssocElem (Just port) signal = Just $ Just port AST.:=>: (AST.ADName (AST.NSimple (mkVHDLExtId signal)))
-mkAssocElem Nothing _ = Nothing
-
--- | The VHDL Bit type
-bit_ty :: AST.TypeMark
-bit_ty = AST.unsafeVHDLBasicId "Bit"
-
--- | The VHDL Boolean type
-bool_ty :: AST.TypeMark
-bool_ty = AST.unsafeVHDLBasicId "Boolean"
-
--- | The VHDL std_logic
-std_logic_ty :: AST.TypeMark
-std_logic_ty = AST.unsafeVHDLBasicId "std_logic"
-
--- Translate a Haskell type to a VHDL type
-vhdl_ty :: Type.Type -> VHDLState AST.TypeMark
-vhdl_ty ty = do
- typemap <- getA vsTypes
- let builtin_ty = do -- See if this is a tycon and lookup its name
- (tycon, args) <- Type.splitTyConApp_maybe ty
- let name = Name.getOccString (TyCon.tyConName tycon)
- Map.lookup name builtin_types
- -- If not a builtin type, try the custom types
- let existing_ty = (fmap fst) $ Map.lookup (OrdType ty) typemap
- case Monoid.getFirst $ Monoid.mconcat (map Monoid.First [builtin_ty, existing_ty]) of
- -- Found a type, return it
- Just t -> return t
- -- No type yet, try to construct it
- Nothing -> do
- let new_ty = do
- -- Use the Maybe Monad for failing when one of these fails
- (tycon, args) <- Type.splitTyConApp_maybe ty
- let name = Name.getOccString (TyCon.tyConName tycon)
- case name of
- "TFVec" -> Just $ mk_vector_ty (tfvec_len ty) ty
- "SizedWord" -> Just $ mk_vector_ty (sized_word_len ty) ty
- otherwise -> Nothing
- -- Return new_ty when a new type was successfully created
- Maybe.fromMaybe
- (error $ "Unsupported Haskell type: " ++ (showSDoc $ ppr ty))
- new_ty
-
--- | Create a VHDL vector type
-mk_vector_ty ::
- Int -- ^ The length of the vector
- -> Type.Type -- ^ The Haskell type to create a VHDL type for
- -> VHDLState AST.TypeMark -- The typemark created.
-
-mk_vector_ty len ty = do
- -- Assume there is a single type argument
- let ty_id = mkVHDLExtId $ "vector_" ++ (show len)
- -- TODO: Use el_ty
- let range = AST.IndexConstraint [AST.ToRange (AST.PrimLit "0") (AST.PrimLit $ show (len - 1))]
- let ty_def = AST.TDA $ AST.ConsArrayDef range std_logic_ty
- let ty_dec = AST.TypeDec ty_id ty_def
- -- TODO: Check name uniqueness
- --State.modify (Map.insert (OrdType ty) (ty_id, ty_dec))
- modA vsTypes (Map.insert (OrdType ty) (ty_id, ty_dec))
- modA vsTypeFuns (Map.insert (OrdType ty) (genUnconsVectorFuns std_logic_ty ty_id))
- return ty_id
-
-
-builtin_types =
- Map.fromList [
- ("Bit", std_logic_ty),
- ("Bool", bool_ty) -- TysWiredIn.boolTy
- ]
-
--- Shortcut for
--- Can only contain alphanumerics and underscores. The supplied string must be
--- a valid basic id, otherwise an error value is returned. This function is
--- not meant to be passed identifiers from a source file, use mkVHDLExtId for
--- that.
-mkVHDLBasicId :: String -> AST.VHDLId
-mkVHDLBasicId s =
- AST.unsafeVHDLBasicId $ (strip_multiscore . strip_leading . strip_invalid) s
- where
- -- Strip invalid characters.
- strip_invalid = filter (`elem` ['A'..'Z'] ++ ['a'..'z'] ++ ['0'..'9'] ++ "_.")
- -- Strip leading numbers and underscores
- strip_leading = dropWhile (`elem` ['0'..'9'] ++ "_")
- -- Strip multiple adjacent underscores
- strip_multiscore = concat . map (\cs ->
- case cs of
- ('_':_) -> "_"
- _ -> cs
- ) . List.group
-
--- Shortcut for Extended VHDL Id's. These Id's can contain a lot more
--- different characters than basic ids, but can never be used to refer to
--- basic ids.
--- Use extended Ids for any values that are taken from the source file.
-mkVHDLExtId :: String -> AST.VHDLId
-mkVHDLExtId s =
- AST.unsafeVHDLExtId $ strip_invalid s
- where
- -- Allowed characters, taken from ForSyde's mkVHDLExtId
- allowed = ['A'..'Z'] ++ ['a'..'z'] ++ ['0'..'9'] ++ " \"#&\\'()*+,./:;<=>_|!$%@?[]^`{}~-"
- strip_invalid = filter (`elem` allowed)
-
--- Creates a VHDL Id from a binder
-bndrToVHDLId ::
- CoreSyn.CoreBndr
- -> AST.VHDLId
-
-bndrToVHDLId = mkVHDLExtId . OccName.occNameString . Name.nameOccName . Var.varName
-
--- Extracts the binder name as a String
-bndrToString ::
- CoreSyn.CoreBndr
- -> String
-
-bndrToString = OccName.occNameString . Name.nameOccName . Var.varName
-
--- | A consise representation of a (set of) ports on a builtin function
---type PortMap = HsValueMap (String, AST.TypeMark)
--- | A consise representation of a builtin function
-data BuiltIn = BuiltIn String [(String, AST.TypeMark)] (String, AST.TypeMark)
-
--- | Translate a list of concise representation of builtin functions to a
--- SignatureMap
-mkBuiltins :: [BuiltIn] -> SignatureMap
-mkBuiltins = Map.fromList . map (\(BuiltIn name args res) ->
- (name,
- Entity (VHDL.mkVHDLBasicId name) (map toVHDLSignalMapElement args) (toVHDLSignalMapElement res))
- )
-
-builtin_hsfuncs = Map.keys builtin_funcs
-builtin_funcs = mkBuiltins
- [
- BuiltIn "hwxor" [("a", VHDL.bit_ty), ("b", VHDL.bit_ty)] ("o", VHDL.bit_ty),
- BuiltIn "hwand" [("a", VHDL.bit_ty), ("b", VHDL.bit_ty)] ("o", VHDL.bit_ty),
- BuiltIn "hwor" [("a", VHDL.bit_ty), ("b", VHDL.bit_ty)] ("o", VHDL.bit_ty),
- BuiltIn "hwnot" [("a", VHDL.bit_ty)] ("o", VHDL.bit_ty)
- ]
-
--- | Map a port specification of a builtin function to a VHDL Signal to put in
--- a VHDLSignalMap
-toVHDLSignalMapElement :: (String, AST.TypeMark) -> VHDLSignalMapElement
-toVHDLSignalMapElement (name, ty) = Just (mkVHDLBasicId name, ty)