import qualified DataCon
import qualified Maybe
import qualified Module
+import qualified Control.Monad.State as State
import Name
import Data.Generics
import NameEnv ( lookupNameEnv )
liftIO $ printBinds (cm_binds core)
let bind = findBind "half_adder" (cm_binds core)
let NonRec var expr = bind
- let sess = VHDLSession 0 builtin_funcs
- let (sess', name, f) = mkHWFunction sess bind
- let sess = addFunc sess' name f
+ -- Turn bind into VHDL
+ let vhdl = State.evalState (mkVHDL bind) (VHDLSession 0 builtin_funcs)
liftIO $ putStr $ showSDoc $ ppr expr
liftIO $ putStr "\n\n"
- liftIO $ putStr $ render $ ForSyDe.Backend.Ppr.ppr $ getArchitecture sess bind
+ liftIO $ putStr $ render $ ForSyDe.Backend.Ppr.ppr $ vhdl
return expr
+ where
+ -- Turns the given bind into VHDL
+ mkVHDL bind = do
+ -- Get the function signature
+ (name, f) <- mkHWFunction bind
+ -- Add it to the session
+ addFunc name f
+ arch <- getArchitecture bind
+ return arch
printTarget (Target (TargetFile file (Just x)) obj Nothing) =
print $ show file
getPortMapEntry binds _ a = error $ "Unsupported argument: " ++ (showSDoc $ ppr a)
getInstantiations ::
- VHDLSession
- -> PortNameMap -- The arguments that need to be applied to the
- -- expression. Should always be the Args
- -- constructor.
+ [PortNameMap] -- The arguments that need to be applied to the
+ -- expression.
-> PortNameMap -- The output ports that the expression should generate.
-> [(CoreBndr, PortNameMap)] -- A list of bindings in effect
-> CoreSyn.CoreExpr -- The expression to generate an architecture for
- -> [AST.ConcSm] -- The resulting VHDL code
+ -> VHDLState [AST.ConcSm] -- The resulting VHDL code
-- A lambda expression binds the first argument (a) to the binder b.
-getInstantiations sess (Args (a:as)) outs binds (Lam b expr) =
- getInstantiations sess (Args as) outs ((b, a):binds) expr
+getInstantiations (a:as) outs binds (Lam b expr) =
+ getInstantiations as outs ((b, a):binds) expr
-- A case expression that checks a single variable and has a single
-- alternative, can be used to take tuples apart
-getInstantiations sess args outs binds (Case (Var v) b _ [res]) =
+getInstantiations args outs binds (Case (Var v) b _ [res]) =
case altcon of
DataAlt datacon ->
if (DataCon.isTupleCon datacon) then
- getInstantiations sess args outs binds' expr
+ getInstantiations args outs binds' expr
else
error "Data constructors other than tuples not supported"
otherwise ->
(lookup v binds)
-- An application is an instantiation of a component
-getInstantiations sess args outs binds app@(App expr arg) =
- if isTupleConstructor f then
- let
- Tuple outports = outs
- (tys, vals) = splitTupleConstructorArgs fargs
- in
- concat $ zipWith
- (\outs' expr' -> getInstantiations sess args outs' binds expr')
+getInstantiations args outs binds app@(App expr arg) = do
+ let ((Var f), fargs) = collectArgs app
+ name = getOccString f
+ if isTupleConstructor f
+ then do
+ let Tuple outports = outs
+ (tys, vals) = splitTupleConstructorArgs fargs
+ insts <- sequence $ zipWith
+ (\outs' expr' -> getInstantiations args outs' binds expr')
outports vals
- else
- [AST.CSISm comp]
- where
- ((Var f), fargs) = collectArgs app
- comp = AST.CompInsSm
- (AST.unsafeVHDLBasicId "app")
- (AST.IUEntity (AST.NSimple (AST.unsafeVHDLBasicId compname)))
- (AST.PMapAspect ports)
- compname = getOccString f
- hwfunc = Maybe.fromMaybe
- (error $ "Function " ++ compname ++ "is unknown")
- (lookup compname (funcs sess))
- HWFunction (Args inports) outport = hwfunc
- ports =
- zipWith (getPortMapEntry binds) inports fargs
- ++ mapOutputPorts outport outs
-
-getInstantiations sess args outs binds expr =
+ return $ concat insts
+ else do
+ HWFunction inports outport <- getHWFunc name
+ let comp = AST.CompInsSm
+ (AST.unsafeVHDLBasicId "app")
+ (AST.IUEntity (AST.NSimple (AST.unsafeVHDLBasicId name)))
+ (AST.PMapAspect ports)
+ ports =
+ zipWith (getPortMapEntry binds) inports fargs
+ ++ mapOutputPorts outport outs
+ return [AST.CSISm comp]
+
+getInstantiations args outs binds expr =
error $ "Unsupported expression" ++ (showSDoc $ ppr $ expr)
-- Is the given name a (binary) tuple constructor
concat (zipWith mapOutputPorts ports signals)
getArchitecture ::
- VHDLSession
- -> CoreBind -- The binder to expand into an architecture
- -> AST.ArchBody -- The resulting architecture
+ CoreBind -- The binder to expand into an architecture
+ -> VHDLState AST.ArchBody -- The resulting architecture
-getArchitecture sess (Rec _) = error "Recursive binders not supported"
+getArchitecture (Rec _) = error "Recursive binders not supported"
-getArchitecture sess (NonRec var expr) =
- AST.ArchBody
+getArchitecture (NonRec var expr) = do
+ let name = (getOccString var)
+ HWFunction inports outport <- getHWFunc name
+ sess <- State.get
+ insts <- getInstantiations inports outport [] expr
+ return $ AST.ArchBody
(AST.unsafeVHDLBasicId "structural")
-- Use unsafe for now, to prevent pulling in ForSyDe error handling
(AST.NSimple (AST.unsafeVHDLBasicId name))
[]
- (getInstantiations sess (Args inportnames) outport [] expr)
- where
- name = (getOccString var)
- ty = CoreUtils.exprType expr
- (fargs, res) = Type.splitFunTys ty
- --state = if length fargs == 1 then () else (last fargs)
- ports = if length fargs == 1 then fargs else (init fargs)
- inportnames = case ports of
- [port] -> [getPortNameMapForTy "portin" port]
- ps -> getPortNameMapForTys "portin" 0 ps
- outport = getPortNameMapForTy "portout" res
+ (insts)
data PortNameMap =
- Args [PortNameMap] -- Each of the submaps represent an argument to the
- -- function. Should only occur at top level.
- | Tuple [PortNameMap]
+ Tuple [PortNameMap]
| Port String
+ deriving (Show)
-- Generate a port name map (or multiple for tuple types) in the given direction for
-- each type given.
(tycon, args) = Type.splitTyConApp ty
data HWFunction = HWFunction { -- A function that is available in hardware
- inPorts :: PortNameMap,
- outPorts :: PortNameMap
+ inPorts :: [PortNameMap],
+ outPort :: PortNameMap
--entity :: AST.EntityDec
-}
+} deriving (Show)
-- Turns a CoreExpr describing a function into a description of its input and
-- output ports.
mkHWFunction ::
- VHDLSession
- -> CoreBind -- The core binder to generate the interface for
- -> (VHDLSession, String, HWFunction) -- The name of the function and its interface
+ CoreBind -- The core binder to generate the interface for
+ -> VHDLState (String, HWFunction) -- The name of the function and its interface
-mkHWFunction sess (NonRec var expr) =
- (sess, name, HWFunction (Args inports) outport)
+mkHWFunction (NonRec var expr) =
+ return (name, HWFunction inports outport)
where
name = (getOccString var)
ty = CoreUtils.exprType expr
ps -> getPortNameMapForTys "portin" 0 ps
outport = getPortNameMapForTy "portout" res
-mkHWFunction sess (Rec _) =
+mkHWFunction (Rec _) =
error "Recursive binders not supported"
data VHDLSession = VHDLSession {
nameCount :: Int, -- A counter that can be used to generate unique names
funcs :: [(String, HWFunction)] -- All functions available, indexed by name
-}
+} deriving (Show)
+
+type VHDLState = State.State VHDLSession
-- Add the function to the session
-addFunc :: VHDLSession -> String -> HWFunction -> VHDLSession
-addFunc sess name f =
- sess {funcs = (name, f) : (funcs sess) }
+addFunc :: String -> HWFunction -> VHDLState ()
+addFunc name f = do
+ fs <- State.gets funcs -- Get the funcs element from the session
+ State.modify (\x -> x {funcs = (name, f) : fs }) -- Prepend name and f
+
+-- Lookup the function with the given name in the current session. Errors if
+-- it was not found.
+getHWFunc :: String -> VHDLState HWFunction
+getHWFunc name = do
+ fs <- State.gets funcs -- Get the funcs element from the session
+ return $ Maybe.fromMaybe
+ (error $ "Function " ++ name ++ "is unknown? This should not happen!")
+ (lookup name fs)
builtin_funcs =
[
- ("hwxor", HWFunction (Args [Port "a", Port "b"]) (Port "o")),
- ("hwand", HWFunction (Args [Port "a", Port "b"]) (Port "o"))
+ ("hwxor", HWFunction [Port "a", Port "b"] (Port "o")),
+ ("hwand", HWFunction [Port "a", Port "b"] (Port "o"))
]