+mkAssign dst cond false_expr =
+ let
+ -- I'm not 100% how this assignment AST works, but this gets us what we
+ -- want...
+ whenelse = case cond of
+ Just (cond_expr, true_expr) ->
+ let
+ true_wform = AST.Wform [AST.WformElem true_expr Nothing]
+ in
+ [AST.WhenElse true_wform cond_expr]
+ Nothing -> []
+ false_wform = AST.Wform [AST.WformElem false_expr Nothing]
+ dst_name = case dst of
+ Left bndr -> AST.NSimple (bndrToVHDLId bndr)
+ Right name -> name
+ assign = dst_name AST.:<==: (AST.ConWforms whenelse false_wform Nothing)
+ in
+ AST.CSSASm assign
+
+-- Create a record field selector that selects the given label from the record
+-- stored in the given binder.
+mkSelectedName :: CoreBndr -> AST.VHDLId -> AST.VHDLName
+mkSelectedName bndr label =
+ let
+ sel_prefix = AST.NSimple $ bndrToVHDLId bndr
+ sel_suffix = AST.SSimple $ label
+ in
+ AST.NSelected $ sel_prefix AST.:.: sel_suffix
+
+-- Finds the field labels for VHDL type generated for the given Core type,
+-- which must result in a record type.
+getFieldLabels :: Type.Type -> VHDLState [AST.VHDLId]
+getFieldLabels ty = do
+ -- Ensure that the type is generated (but throw away it's VHDLId)
+ vhdl_ty ty
+ -- Get the types map, lookup and unpack the VHDL TypeDef
+ types <- getA vsTypes
+ case Map.lookup (OrdType ty) types of
+ Just (_, Left (AST.TDR (AST.RecordTypeDef elems))) -> return $ map (\(AST.ElementDec id _) -> id) elems
+ _ -> error $ "VHDL.getFieldLabels Type not found or not a record type? This should not happen! Type: " ++ (show ty)
+
+-- Turn a variable reference into a AST expression
+varToVHDLExpr :: Var.Var -> AST.Expr
+varToVHDLExpr var = AST.PrimName $ AST.NSimple $ bndrToVHDLId var
+
+-- Turn a constructor into an AST expression. For dataconstructors, this is
+-- only the constructor itself, not any arguments it has. Should not be called
+-- with a DEFAULT constructor.
+conToVHDLExpr :: CoreSyn.AltCon -> AST.Expr
+conToVHDLExpr (DataAlt dc) = AST.PrimLit lit
+ where
+ tycon = DataCon.dataConTyCon dc
+ tyname = TyCon.tyConName tycon
+ dcname = DataCon.dataConName dc
+ lit = case Name.getOccString tyname of
+ -- TODO: Do something more robust than string matching
+ "Bit" -> case Name.getOccString dcname of "High" -> "'1'"; "Low" -> "'0'"
+ "Bool" -> case Name.getOccString dcname of "True" -> "true"; "False" -> "false"
+conToVHDLExpr (LitAlt _) = error "VHDL.conToVHDLExpr Literals not support in case alternatives yet"
+conToVHDLExpr DEFAULT = error "VHDL.conToVHDLExpr DEFAULT alternative should not occur here!"
+
+
+
+{-
+mkConcSm sigs (UncondDef src dst) _ = do
+ src_expr <- vhdl_expr src
+ let src_wform = AST.Wform [AST.WformElem src_expr Nothing]
+ let dst_name = AST.NSimple (getSignalId $ signalInfo sigs dst)
+ let assign = dst_name AST.:<==: (AST.ConWforms [] src_wform Nothing)
+ return $ AST.CSSASm assign
+ where
+ vhdl_expr (Left id) = return $ mkIdExpr sigs id
+ vhdl_expr (Right expr) =
+ case expr of
+ (EqLit id lit) ->
+ return $ (mkIdExpr sigs id) AST.:=: (AST.PrimLit lit)
+ (Literal lit Nothing) ->
+ return $ AST.PrimLit lit
+ (Literal lit (Just ty)) -> do
+ -- Create a cast expression, which is just a function call using the
+ -- type name as the function name.
+ let litexpr = AST.PrimLit lit
+ ty_id <- vhdl_ty ty
+ let ty_name = AST.NSimple ty_id
+ let args = [Nothing AST.:=>: (AST.ADExpr litexpr)]
+ return $ AST.PrimFCall $ AST.FCall ty_name args
+ (Eq a b) ->
+ return $ (mkIdExpr sigs a) AST.:=: (mkIdExpr sigs b)
+
+mkConcSm sigs (CondDef cond true false dst) _ =
+ let
+ cond_expr = mkIdExpr sigs cond
+ true_expr = mkIdExpr sigs true
+ false_expr = mkIdExpr sigs false
+ false_wform = AST.Wform [AST.WformElem false_expr Nothing]
+ true_wform = AST.Wform [AST.WformElem true_expr Nothing]
+ whenelse = AST.WhenElse true_wform cond_expr
+ dst_name = AST.NSimple (getSignalId $ signalInfo sigs dst)
+ assign = dst_name AST.:<==: (AST.ConWforms [whenelse] false_wform Nothing)
+ in
+ 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