import qualified Data.Traversable as Traversable
import qualified Data.Monoid as Monoid
import Data.Accessor
+import qualified Data.Accessor.MonadState as MonadState
import qualified Type
import qualified TysWiredIn
-> [(AST.VHDLId, AST.DesignFile)]
createDesignFiles flatfuncmap =
- -- TODO: Output types
- map (Arrow.second $ AST.DesignFile context) units
+ (mkVHDLId "types", AST.DesignFile ieee_context [type_package]) :
+ map (Arrow.second $ AST.DesignFile full_context) units
+
where
init_session = VHDLSession Map.empty builtin_funcs
(units, final_session) =
State.runState (createLibraryUnits flatfuncmap) init_session
- context = [
- AST.Library $ mkVHDLId "IEEE",
- AST.Use $ (AST.NSimple $ mkVHDLId "IEEE.std_logic_1164") AST.:.: AST.All]
+ ty_decls = Map.elems (final_session ^. vsTypes)
+ ieee_context = [
+ AST.Library $ mkVHDLId "IEEE",
+ AST.Use $ (AST.NSimple $ mkVHDLId "IEEE.std_logic_1164") AST.:.: AST.All
+ ]
+ full_context =
+ (AST.Use $ (AST.NSimple $ mkVHDLId "work.types") AST.:.: AST.All)
+ : ieee_context
+ type_package = AST.LUPackageDec $ AST.PackageDec (mkVHDLId "types") (map (AST.PDITD . snd) ty_decls)
createLibraryUnits ::
FlatFuncMap
-> FlatFunction -- | The FlatFunction
-> VHDLState AST.EntityDec -- | The resulting entity
-createEntity hsfunc flatfunc =
- let
- sigs = flat_sigs flatfunc
- args = flat_args flatfunc
- res = flat_res flatfunc
- (ty_decls, args') = Traversable.traverse (Traversable.traverse (mkMap sigs)) args
- (ty_decls', res') = Traversable.traverse (mkMap sigs) res
- -- TODO: Unique ty_decls
- ent_decl' = createEntityAST hsfunc args' res'
- pkg_id = mkVHDLId $ (AST.fromVHDLId entity_id) ++ "_types"
- pkg_decl = if null ty_decls && null ty_decls'
- then Nothing
- else Just $ AST.PackageDec pkg_id (map AST.PDITD $ ty_decls ++ ty_decls')
- -- TODO: Output package
- AST.EntityDec entity_id _ = ent_decl'
- signature = Entity entity_id args' res'
- in do
- modA vsSignatures (Map.insert hsfunc signature)
- return ent_decl'
+createEntity hsfunc flatfunc = do
+ let sigs = flat_sigs flatfunc
+ let args = flat_args flatfunc
+ let res = flat_res flatfunc
+ args' <- Traversable.traverse (Traversable.traverse (mkMap sigs)) args
+ res' <- Traversable.traverse (mkMap sigs) res
+ let ent_decl' = createEntityAST hsfunc args' res'
+ let AST.EntityDec entity_id _ = ent_decl'
+ let signature = Entity entity_id args' res'
+ modA vsSignatures (Map.insert hsfunc signature)
+ return ent_decl'
where
mkMap ::
[(SignalId, SignalInfo)]
-> SignalId
- -> ([AST.TypeDec], Maybe (AST.VHDLId, AST.TypeMark))
- mkMap sigmap id =
- if isPortSigUse $ sigUse info
- then
- let (decs, type_mark) = vhdl_ty ty in
- (decs, Just (mkVHDLId nm, type_mark))
- else
- (Monoid.mempty, Nothing)
- where
+ -> VHDLState VHDLSignalMapElement
+ -- We only need the vsTypes element from the state
+ mkMap sigmap = MonadState.lift vsTypes . (\id ->
+ let
info = Maybe.fromMaybe
(error $ "Signal not found in the name map? This should not happen!")
(lookup id sigmap)
(error $ "Signal not named? This should not happen!")
(sigName info)
ty = sigTy info
+ in
+ if isPortSigUse $ sigUse info
+ then do
+ type_mark <- vhdl_ty ty
+ return $ Just (mkVHDLId nm, type_mark)
+ else
+ return $ Nothing
+ )
-- | Create the VHDL AST for an entity
createEntityAST ::
(error $ "Generating architecture for function " ++ (prettyShow hsfunc) ++ "without signature? This should not happen!")
(Map.lookup hsfunc signaturemap)
let entity_id = ent_id signature
- -- Create concurrent statements for all signal definitions
+ -- Create signal declarations for all internal and state signals
+ sig_dec_maybes <- mapM (mkSigDec' . snd) sigs
+ let sig_decs = Maybe.catMaybes $ sig_dec_maybes
+ -- Create concurrent statements for all signal definitions
let statements = zipWith (mkConcSm signaturemap sigs) defs [0..]
return $ AST.ArchBody (mkVHDLId "structural") (AST.NSimple entity_id) (map AST.BDISD sig_decs) (statements ++ procs')
where
args = flat_args flatfunc
res = flat_res flatfunc
defs = flat_defs flatfunc
- -- Create signal declarations for all internal and state signals
- (ty_decls, sig_decs) = Arrow.second Maybe.catMaybes $ Traversable.traverse (mkSigDec . snd) sigs
- -- TODO: Unique ty_decls
- -- TODO: Store ty_decls somewhere
procs = map mkStateProcSm (makeStatePairs flatfunc)
procs' = map AST.CSPSm procs
+ -- mkSigDec only uses vsTypes from the state
+ mkSigDec' = MonadState.lift vsTypes . mkSigDec
-- | Looks up all pairs of old state, new state signals, together with
-- the state id they represent.
rising_edge_clk = AST.PrimFCall $ AST.FCall rising_edge [Nothing AST.:=>: (AST.ADName $ AST.NSimple clk)]
statement = AST.IfSm rising_edge_clk [assign] [] Nothing
-mkSigDec :: SignalInfo -> ([AST.TypeDec], Maybe AST.SigDec)
+mkSigDec :: SignalInfo -> TypeState (Maybe AST.SigDec)
mkSigDec info =
let use = sigUse info in
- if isInternalSigUse use || isStateSigUse use then
- let (ty_decls, type_mark) = vhdl_ty ty in
- (ty_decls, Just $ AST.SigDec (getSignalId info) type_mark Nothing)
+ if isInternalSigUse use || isStateSigUse use then do
+ type_mark <- vhdl_ty ty
+ return $ Just (AST.SigDec (getSignalId info) type_mark Nothing)
else
- ([], Nothing)
+ return Nothing
where
ty = sigTy info
std_logic_ty = AST.unsafeVHDLBasicId "std_logic"
-- Translate a Haskell type to a VHDL type
-vhdl_ty :: Type.Type -> ([AST.TypeDec], AST.TypeMark)
-vhdl_ty ty = Maybe.fromMaybe
- (error $ "Unsupported Haskell type: " ++ (showSDoc $ ppr ty))
- (vhdl_ty_maybe ty)
-
--- Translate a Haskell type to a VHDL type, optionally generating a type
--- declaration for the type.
-vhdl_ty_maybe :: Type.Type -> Maybe ([AST.TypeDec], AST.TypeMark)
-vhdl_ty_maybe ty =
- if Type.coreEqType ty TysWiredIn.boolTy
- then
- Just ([], bool_ty)
- else
- case Type.splitTyConApp_maybe ty of
- Just (tycon, args) ->
- let name = TyCon.tyConName tycon in
- -- TODO: Do something more robust than string matching
- case Name.getOccString name of
- "Bit" -> Just ([], std_logic_ty)
- "FSVec" ->
- let
- [len, el_ty] = args
- -- TODO: Find actual number
- ty_id = mkVHDLId ("vector_" ++ (show len))
- -- TODO: Use el_ty
- range = AST.IndexConstraint [AST.ToRange (AST.PrimLit "0") (AST.PrimLit "16")]
- ty_def = AST.TDA $ AST.ConsArrayDef range std_logic_ty
- ty_dec = AST.TypeDec ty_id ty_def
- in
- Just ([ty_dec], ty_id)
- otherwise -> Nothing
- otherwise -> Nothing
+vhdl_ty :: Type.Type -> TypeState AST.TypeMark
+vhdl_ty ty = do
+ typemap <- State.get
+ 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
+ "FSVec" -> Just $ mk_fsvec_ty ty args
+ 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 type belonging to a FSVec Haskell type
+mk_fsvec_ty ::
+ Type.Type -- ^ The Haskell type to create a VHDL type for
+ -> [Type.Type] -- ^ Type arguments to the FSVec type constructor
+ -> TypeState AST.TypeMark -- The typemark created.
+
+mk_fsvec_ty ty args = do
+ -- Assume there are two type arguments
+ let [len, el_ty] = args
+ -- TODO: Find actual number
+ -- Construct the type id, but filter out dots (since these are not allowed).
+ let ty_id = mkVHDLId $ filter (/='.') ("vector_" ++ (show len))
+ -- TODO: Use el_ty
+ let range = AST.IndexConstraint [AST.ToRange (AST.PrimLit "0") (AST.PrimLit "16")]
+ let ty_def = AST.TDA $ AST.ConsArrayDef range std_logic_ty
+ let ty_dec = AST.TypeDec ty_id ty_def
+ State.modify (Map.insert (OrdType ty) (ty_id, ty_dec))
+ return ty_id
+
+
+builtin_types =
+ Map.fromList [
+ ("Bit", std_logic_ty),
+ ("Bool", bool_ty) -- TysWiredIn.boolTy
+ ]
-- Shortcut
mkVHDLId :: String -> AST.VHDLId