import CLasH.Utils.Pretty
import CLasH.Normalize
import CLasH.VHDL.VHDLTypes
+import CLasH.Utils.Core.CoreTools
import qualified CLasH.VHDL as VHDL
-makeVHDL :: FilePath -> String -> String -> Bool -> IO ()
-makeVHDL libdir filename name stateful = do
- -- Load the module
- (core, env) <- loadModule libdir filename
- -- Translate to VHDL
- vhdl <- moduleToVHDL env core [(name, stateful)]
- -- Write VHDL to file
- let dir = "./vhdl/" ++ name ++ "/"
- prepareDir dir
- mapM (writeVHDL dir) vhdl
- return ()
+-- makeVHDL :: FilePath -> String -> String -> Bool -> IO ()
+-- makeVHDL libdir filename name stateful = do
+-- -- Load the module
+-- (core, env) <- loadModule libdir filename
+-- -- Translate to VHDL
+-- vhdl <- moduleToVHDL env core [(name, stateful)]
+-- -- Write VHDL to file
+-- let dir = "./vhdl/" ++ name ++ "/"
+-- prepareDir dir
+-- mapM (writeVHDL dir) vhdl
+-- return ()
makeVHDLAnn :: FilePath -> String -> IO ()
makeVHDLAnn libdir filename = do
- (core, top, init, env) <- loadModuleAnn libdir filename
+ (core, top, init, test, env) <- loadModuleAnn libdir filename
let top_entity = head top
+ let test_expr = head test
vhdl <- case init of
- [] -> moduleToVHDLAnn env core [top_entity]
- xs -> moduleToVHDLAnnState env core [(top_entity, (head xs))]
+ [] -> moduleToVHDLAnn env core (top_entity, test_expr)
+ xs -> moduleToVHDLAnnState env core (top_entity, test_expr, (head xs))
let dir = "./vhdl/" ++ (show top_entity) ++ "/"
prepareDir dir
mapM (writeVHDL dir) vhdl
-- | Translate the binds with the given names from the given core module to
-- VHDL. The Bool in the tuple makes the function stateful (True) or
-- stateless (False).
-moduleToVHDL :: HscTypes.HscEnv -> HscTypes.CoreModule -> [(String, Bool)] -> IO [(AST.VHDLId, AST.DesignFile)]
-moduleToVHDL env core list = do
- let (names, statefuls) = unzip list
- let binds = map fst $ findBinds core names
- -- Generate a UniqSupply
- -- Running
- -- egrep -r "(initTcRnIf|mkSplitUniqSupply)" .
- -- on the compiler dir of ghc suggests that 'z' is not used to generate a
- -- unique supply anywhere.
- uniqSupply <- UniqSupply.mkSplitUniqSupply 'z'
- -- Turn bind into VHDL
- let all_bindings = (CoreSyn.flattenBinds $ cm_binds core)
- let (normalized_bindings, typestate) = normalizeModule env uniqSupply all_bindings binds statefuls
- let vhdl = VHDL.createDesignFiles typestate normalized_bindings
- mapM (putStr . render . Ppr.ppr . snd) vhdl
- --putStr $ "\n\nFinal session:\n" ++ prettyShow sess ++ "\n\n"
- return vhdl
+-- moduleToVHDL :: HscTypes.HscEnv -> HscTypes.CoreModule -> [(String, Bool)] -> IO [(AST.VHDLId, AST.DesignFile)]
+-- moduleToVHDL env core list = do
+-- let (names, statefuls) = unzip list
+-- let binds = map fst $ findBinds core names
+-- -- Generate a UniqSupply
+-- -- Running
+-- -- egrep -r "(initTcRnIf|mkSplitUniqSupply)" .
+-- -- on the compiler dir of ghc suggests that 'z' is not used to generate a
+-- -- unique supply anywhere.
+-- uniqSupply <- UniqSupply.mkSplitUniqSupply 'z'
+-- -- Turn bind into VHDL
+-- let all_bindings = (CoreSyn.flattenBinds $ cm_binds core)
+-- let (normalized_bindings, typestate) = normalizeModule env uniqSupply all_bindings binds statefuls
+-- let vhdl = VHDL.createDesignFiles typestate normalized_bindings binds
+-- mapM (putStr . render . Ppr.ppr . snd) vhdl
+-- --putStr $ "\n\nFinal session:\n" ++ prettyShow sess ++ "\n\n"
+-- return vhdl
-moduleToVHDLAnn :: HscTypes.HscEnv -> HscTypes.CoreModule -> [CoreSyn.CoreBndr] -> IO [(AST.VHDLId, AST.DesignFile)]
-moduleToVHDLAnn env core binds = do
+moduleToVHDLAnn :: HscTypes.HscEnv -> HscTypes.CoreModule -> (CoreSyn.CoreBndr, CoreSyn.CoreExpr) -> IO [(AST.VHDLId, AST.DesignFile)]
+moduleToVHDLAnn env core (topbind, test) = do
-- Generate a UniqSupply
-- Running
-- egrep -r "(initTcRnIf|mkSplitUniqSupply)" .
uniqSupply <- UniqSupply.mkSplitUniqSupply 'z'
-- Turn bind into VHDL
let all_bindings = (CoreSyn.flattenBinds $ cm_binds core)
- let (normalized_bindings, typestate) = normalizeModule env uniqSupply all_bindings binds [False]
- let vhdl = VHDL.createDesignFiles typestate normalized_bindings
+ let testexprs = reduceCoreListToHsList test
+ let (normalized_bindings, test_bindings, typestate) = normalizeModule env uniqSupply all_bindings testexprs [topbind] [False]
+ let vhdl = VHDL.createDesignFiles typestate normalized_bindings topbind test_bindings
mapM (putStr . render . Ppr.ppr . snd) vhdl
--putStr $ "\n\nFinal session:\n" ++ prettyShow sess ++ "\n\n"
return vhdl
-moduleToVHDLAnnState :: HscTypes.HscEnv -> HscTypes.CoreModule -> [(CoreSyn.CoreBndr, CoreSyn.CoreBndr)] -> IO [(AST.VHDLId, AST.DesignFile)]
-moduleToVHDLAnnState env core list = do
- let (binds, init_states) = unzip list
+moduleToVHDLAnnState :: HscTypes.HscEnv -> HscTypes.CoreModule -> (CoreSyn.CoreBndr, CoreSyn.CoreExpr, CoreSyn.CoreBndr) -> IO [(AST.VHDLId, AST.DesignFile)]
+moduleToVHDLAnnState env core (topbind, test, init_state) = do
-- Generate a UniqSupply
-- Running
-- egrep -r "(initTcRnIf|mkSplitUniqSupply)" .
uniqSupply <- UniqSupply.mkSplitUniqSupply 'z'
-- Turn bind into VHDL
let all_bindings = (CoreSyn.flattenBinds $ cm_binds core)
- let (normalized_bindings, typestate) = normalizeModule env uniqSupply all_bindings binds [True]
- let vhdl = VHDL.createDesignFiles typestate normalized_bindings
+ let testexprs = reduceCoreListToHsList test
+ let (normalized_bindings, test_bindings, typestate) = normalizeModule env uniqSupply all_bindings testexprs [topbind] [True]
+ let vhdl = VHDL.createDesignFiles typestate normalized_bindings topbind test_bindings
mapM (putStr . render . Ppr.ppr . snd) vhdl
--putStr $ "\n\nFinal session:\n" ++ prettyShow sess ++ "\n\n"
return vhdl
return (core, env)
-- | Loads the given file and turns it into a core module.
-loadModuleAnn :: FilePath -> String -> IO (HscTypes.CoreModule, [CoreSyn.CoreBndr], [CoreSyn.CoreBndr], HscTypes.HscEnv)
+loadModuleAnn :: FilePath -> String -> IO (HscTypes.CoreModule, [CoreSyn.CoreBndr], [CoreSyn.CoreBndr], [CoreSyn.CoreExpr], HscTypes.HscEnv)
loadModuleAnn libdir filename =
defaultErrorHandler defaultDynFlags $ do
runGhc (Just libdir) $ do
env <- GHC.getSession
top_entity <- findTopEntity core
init_state <- findInitState core
- return (core, top_entity, init_state, env)
+ test_input <- findTestInput core
+ return (core, top_entity, init_state, test_input, env)
findTopEntity :: GhcMonad m => HscTypes.CoreModule -> m [CoreSyn.CoreBndr]
findTopEntity core = do
let bndrs = case statebinds of [] -> [] ; xs -> fst (unzip statebinds)
return bndrs
+findTestInput :: GhcMonad m => HscTypes.CoreModule -> m [CoreSyn.CoreExpr]
+findTestInput core = do
+ let binds = CoreSyn.flattenBinds $ cm_binds core
+ testbinds <- Monad.filterM (hasTestInputAnnotation . fst) binds
+ let exprs = case testbinds of [] -> [] ; xs -> snd (unzip testbinds)
+ return exprs
+
hasTopEntityAnnotation :: GhcMonad m => Var.Var -> m Bool
hasTopEntityAnnotation var = do
let deserializer = Serialized.deserializeWithData
case top_ents of
[] -> return False
xs -> return True
+
+hasTestInputAnnotation :: GhcMonad m => Var.Var -> m Bool
+hasTestInputAnnotation var = do
+ let deserializer = Serialized.deserializeWithData
+ let target = Annotations.NamedTarget (Var.varName var)
+ (anns :: [CLasHAnn]) <- GHC.findGlobalAnns deserializer target
+ let top_ents = filter isTestInput anns
+ case top_ents of
+ [] -> return False
+ xs -> return True
-- | Extracts the named binds from the given module.
findBinds :: HscTypes.CoreModule -> [String] -> [(CoreBndr, CoreExpr)]
projects / matthijs / master-project / cλash.git / blobdiff