+getInstantiations args outs binds app@(App expr arg) = do
+ let ((Var f), fargs) = collectArgs app
+ name = getOccString f
+ if isTupleConstructor f
+ then do
+ -- Get the signals we should bind our results to
+ let Tuple outports = outs
+ -- Split the tuple constructor arguments into types and actual values.
+ let (_, vals) = splitTupleConstructorArgs fargs
+ -- Bind each argument to each output signal
+ res <- sequence $ zipWith
+ (\outs' expr' -> getInstantiations args outs' binds expr')
+ outports vals
+ -- res is a list of pairs of lists, so split out the signals and
+ -- components into separate lists of lists
+ let (sigs, comps) = unzip res
+ -- And join all the signals and component instantiations together
+ return $ (concat sigs, concat comps)
+ else do
+ -- This is an normal function application, which maps to a component
+ -- instantiation.
+ -- Lookup the hwfunction to instantiate
+ HWFunction inports outport <- getHWFunc name
+ -- Generate a unique name for the application
+ appname <- uniqueName "app"
+ -- Expand each argument to a signal or port name, possibly generating
+ -- new signals and component instantiations
+ (sigs, comps, args) <- expandArgs binds fargs
+ -- Bind each of the input ports to the expanded signal or port
+ let inmaps = zipWith getPortMapEntry inports args
+ -- Bind each of the output ports to our output signals
+ let outmaps = mapOutputPorts outport outs
+ -- Build and return a component instantiation
+ let comp = AST.CompInsSm
+ (AST.unsafeVHDLBasicId appname)
+ (AST.IUEntity (AST.NSimple (AST.unsafeVHDLBasicId name)))
+ (AST.PMapAspect (inmaps ++ outmaps))
+ return (sigs, (AST.CSISm comp) : comps)
+
+getInstantiations args outs binds expr =
+ error $ "Unsupported expression" ++ (showSDoc $ ppr $ expr)
+
+expandArgs ::
+ [(CoreBndr, SignalNameMap String)] -- A list of bindings in effect
+ -> [CoreExpr] -- The arguments to expand
+ -> VHDLState ([AST.SigDec], [AST.ConcSm], [AST.VHDLName])
+ -- The resulting signal declarations,
+ -- component instantiations and a
+ -- VHDLName for each of the
+ -- expressions passed in.
+expandArgs binds (e:exprs) = do
+ -- Expand the first expression
+ arg <- case e of
+ -- A simple variable reference should be in our binds map
+ Var id -> return $ let
+ -- Lookup the id in our binds map
+ Signal signalname = Maybe.fromMaybe
+ (error $ "Argument " ++ getOccString id ++ "is unknown")
+ (lookup id binds)
+ in
+ -- Create a VHDL name from the signal name
+ AST.NSimple (AST.unsafeVHDLBasicId signalname)
+ -- Other expressions are unsupported
+ otherwise -> error ("Unsupported expression used as argument: " ++ (showSDoc $ ppr e))
+ -- Expand the rest
+ (sigs, comps, args) <- expandArgs binds exprs
+ -- Return all results
+ return (sigs, comps, arg:args)
+
+expandArgs _ [] = return ([], [], [])
+
+-- Is the given name a (binary) tuple constructor
+isTupleConstructor :: Var.Var -> Bool
+isTupleConstructor var =
+ Name.isWiredInName name
+ && Name.nameModule name == tuple_mod
+ && (Name.occNameString $ Name.nameOccName name) == "(,)"
+ where
+ name = Var.varName var
+ mod = nameModule name
+ tuple_mod = Module.mkModule (Module.stringToPackageId "ghc-prim") (Module.mkModuleName "GHC.Tuple")
+
+-- Split arguments into type arguments and value arguments This is probably
+-- not really sufficient (not sure if Types can actually occur as value
+-- arguments...)
+splitTupleConstructorArgs :: [CoreExpr] -> ([CoreExpr], [CoreExpr])
+splitTupleConstructorArgs (e:es) =
+ case e of
+ Type t -> (e:tys, vals)
+ otherwise -> (tys, e:vals)
+ where
+ (tys, vals) = splitTupleConstructorArgs es
+
+mapOutputPorts ::
+ SignalNameMap String -- The output portnames of the component
+ -> SignalNameMap String -- The output portnames and/or signals to map these to
+ -> [AST.AssocElem] -- The resulting output ports