import Pretty
import Flatten
import FlattenTypes
+import VHDLTypes
import qualified VHDL
main =
modFuncs nameFlatFunction
modFuncs VHDL.createEntity
modFuncs VHDL.createArchitecture
- -- Extract the library units generated from all the functions in the
- -- session.
- funcs <- getFuncs
- let units = concat $ map VHDL.getLibraryUnits funcs
- return $ AST.DesignFile
- []
- units
+ VHDL.getDesignFile
findBind :: [CoreBind] -> String -> Maybe CoreBind
findBind binds lookfor =
let flatfunc = flattenFunction hsfunc bind
addFunc hsfunc
setFlatFunc hsfunc flatfunc
- let used_hsfuncs = map appFunc (flat_apps flatfunc)
+ let used_hsfuncs = Maybe.mapMaybe usedHsFunc (flat_defs flatfunc)
State.mapM resolvFunc used_hsfuncs
return ()
-- Name the signals in all other functions
Just flatfunc ->
let s = flat_sigs flatfunc in
- let s' = map (\(id, (SignalInfo Nothing ty)) -> (id, SignalInfo (Just $ "sig_" ++ (show id)) ty)) s 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'
-- | 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) -> Just (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 =
[
projects / matthijs / master-project / cλash.git / blobdiff