{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE TemplateHaskell #-} -- | Generate a HDL testbench for a component given a set of stimuli and a -- set of matching expected outputs module CLaSH.Driver.TestbenchGen ( genTestBench ) where import Control.Concurrent.Supply (Supply) import Control.Lens ((.=)) import Data.HashMap.Lazy (HashMap) import qualified Data.HashMap.Lazy as HashMap import Data.List (find,nub) import Data.Maybe (catMaybes,mapMaybe) import Data.Text.Lazy (append,pack,splitOn) import Unbound.Generics.LocallyNameless (name2String) import CLaSH.Core.Term import CLaSH.Core.TyCon import CLaSH.Core.Type import CLaSH.Driver.Types import CLaSH.Netlist import CLaSH.Netlist.BlackBox (prepareBlackBox) import CLaSH.Netlist.BlackBox.Types (Element (Err)) import CLaSH.Netlist.Types as N import CLaSH.Normalize (cleanupGraph, normalize, runNormalization) import CLaSH.Primitives.Types import CLaSH.Rewrite.Types import CLaSH.Util -- | Generate a HDL testbench for a component given a set of stimuli and a -- set of matching expected outputs genTestBench :: CLaSHOpts -> Supply -> PrimMap -- ^ Primitives -> (HashMap TyConName TyCon -> Type -> Maybe (Either String HWType)) -> HashMap TyConName TyCon -> (HashMap TyConName TyCon -> Bool -> Term -> Term) -> Int -> HashMap TmName (Type,Term) -- ^ Global binders -> Maybe TmName -- ^ Stimuli -> Maybe TmName -- ^ Expected output -> String -- ^ Name of the module containing the @topEntity@ -> [(String,FilePath)] -- ^ Set of collected data-files -> Component -- ^ Component to generate TB for -> IO ([Component],[(String,FilePath)]) genTestBench opts supply primMap typeTrans tcm eval cmpCnt globals stimuliNmM expectedNmM modName dfiles (Component cName hidden [inp] [outp] _) = do let ioDecl = [ uncurry NetDecl inp , uncurry NetDecl outp ] inpExpr = Assignment (fst inp) (BlackBoxE "" [Err Nothing] (emptyBBContext {bbResult = (undefined,snd inp)}) False) (inpInst,inpComps,cmpCnt',hidden',dfiles') <- maybe (return (inpExpr,[],cmpCnt,hidden,dfiles)) (genStimuli cmpCnt primMap globals typeTrans tcm normalizeSignal hidden inp modName dfiles) stimuliNmM ((finDecl,finExpr),s) <- runNetlistMonad (Just cmpCnt') globals primMap tcm typeTrans modName dfiles' $ do done <- genDone primMap let finDecl' = [ NetDecl "finished" Bool , done ] finExpr' <- genFinish primMap return (finDecl',finExpr') (expInst,expComps,cmpCnt'',hidden'',dfiles'') <- maybe (return (finExpr,[],cmpCnt',hidden',dfiles')) (genVerifier cmpCnt' primMap globals typeTrans tcm normalizeSignal hidden' outp modName dfiles') expectedNmM let clkNms = mapMaybe (\hd -> case hd of (clkNm,Clock _ _) -> Just clkNm ; _ -> Nothing) hidden rstNms = mapMaybe (\hd -> case hd of (clkNm,Reset _ _) -> Just clkNm ; _ -> Nothing) hidden ((clks,rsts),_) <- runNetlistMonad (Just cmpCnt'') globals primMap tcm typeTrans modName dfiles'' $ do varCount .= (_varCount s) clks' <- catMaybes <$> mapM (genClock primMap) hidden'' rsts' <- catMaybes <$> mapM (genReset primMap) hidden'' return (clks',rsts') let instDecl = InstDecl cName "totest" (map (\i -> (i,Identifier i Nothing)) (concat [ clkNms, rstNms, [fst inp], [fst outp] ]) ) tbComp = Component (pack modName `append` "_testbench") [] [] [("done",Bool)] (concat [ finDecl , concat clks , concat rsts , ioDecl , [instDecl,inpInst,expInst] ]) return (tbComp:(inpComps++expComps),dfiles'') where normalizeSignal :: HashMap TmName (Type,Term) -> TmName -> HashMap TmName (Type,Term) normalizeSignal glbls bndr = runNormalization opts supply glbls typeTrans tcm eval (normalize [bndr] >>= cleanupGraph bndr) genTestBench opts _ _ _ _ _ _ _ _ _ _ dfiles c = traceIf (opt_dbgLevel opts > DebugNone) ("Can't make testbench for: " ++ show c) $ return ([],dfiles) genClock :: PrimMap -> (Identifier,HWType) -> NetlistMonad (Maybe [Declaration]) genClock primMap (clkName,Clock clkSym rate) = case HashMap.lookup "CLaSH.Driver.TestbenchGen.clockGen" primMap of Just (BlackBox _ (Left templ)) -> do let (rising,rest) = divMod (toInteger rate) 2 falling = rising + rest ctx = emptyBBContext { bbResult = (Left (Identifier clkName Nothing), Clock clkSym rate) , bbInputs = [ (Left (N.Literal Nothing (NumLit 2)),Integer,True) , (Left (N.Literal Nothing (NumLit rising)),Integer,True) , (Left (N.Literal Nothing (NumLit falling)),Integer,True) ] } templ' <- prepareBlackBox "CLaSH.Driver.TestbenchGen.clockGen" templ ctx let clkGenDecl = BlackBoxD "CLaSH.Driver.TestbenchGen.clockGen" templ' ctx clkDecls = [ NetDecl clkName (Clock clkSym rate) , clkGenDecl ] return (Just clkDecls) pM -> error $ $(curLoc) ++ ("Can't make clock declaration for: " ++ show pM) genClock _ _ = return Nothing genReset :: PrimMap -> (Identifier,HWType) -> NetlistMonad (Maybe [Declaration]) genReset primMap (rstName,Reset clkSym rate) = case HashMap.lookup "CLaSH.Driver.TestbenchGen.resetGen" primMap of Just (BlackBox _ (Left templ)) -> do let ctx = emptyBBContext { bbResult = (Left (Identifier rstName Nothing), Reset clkSym rate) , bbInputs = [(Left (N.Literal Nothing (NumLit 1)),Integer,True)] } templ' <- prepareBlackBox "CLaSH.Driver.TestbenchGen.resetGen" templ ctx let resetGenDecl = BlackBoxD "CLaSH.Driver.TestbenchGen.resetGen" templ' ctx rstDecls = [ NetDecl rstName (Reset clkSym rate) , resetGenDecl ] return (Just rstDecls) pM -> error $ $(curLoc) ++ ("Can't make reset declaration for: " ++ show pM) genReset _ _ = return Nothing genFinish :: PrimMap -> NetlistMonad Declaration genFinish primMap = case HashMap.lookup "CLaSH.Driver.TestbenchGen.finishedGen" primMap of Just (BlackBox _ (Left templ)) -> do let ctx = emptyBBContext { bbResult = (Left (Identifier "finished" Nothing), Bool) , bbInputs = [ (Left (N.Literal Nothing (NumLit 100)),Integer,True) ] } templ' <- prepareBlackBox "CLaSH.Driver.TestbenchGen.finishGen" templ ctx return $ BlackBoxD "CLaSH.Driver.TestbenchGen.finishGen" templ' ctx pM -> error $ $(curLoc) ++ ("Can't make finish declaration for: " ++ show pM) genDone :: PrimMap -> NetlistMonad Declaration genDone primMap = case HashMap.lookup "CLaSH.Driver.TestbenchGen.doneGen" primMap of Just (BlackBox _ (Left templ)) -> do let ctx = emptyBBContext { bbResult = (Left (Identifier "done" Nothing), Bool) , bbInputs = [(Left (Identifier "finished" Nothing),Bool,False)] } templ' <- prepareBlackBox "CLaSH.Driver.TestbenchGen.doneGen" templ ctx return $ BlackBoxD "CLaSH.Driver.TestbenchGen.doneGen" templ' ctx pM -> error $ $(curLoc) ++ ("Can't make done declaration for: " ++ show pM) genStimuli :: Int -> PrimMap -> HashMap TmName (Type,Term) -> (HashMap TyConName TyCon -> Type -> Maybe (Either String HWType)) -> HashMap TyConName TyCon -> ( HashMap TmName (Type,Term) -> TmName -> HashMap TmName (Type,Term) ) -> [(Identifier,HWType)] -> (Identifier,HWType) -> String -> [(String,FilePath)] -> TmName -> IO (Declaration,[Component],Int,[(Identifier,HWType)],[(String,FilePath)]) genStimuli cmpCnt primMap globals typeTrans tcm normalizeSignal hidden inp modName dfiles signalNm = do let stimNormal = normalizeSignal globals signalNm (comps,dfiles',cmpCnt') <- genNetlist (Just cmpCnt) stimNormal primMap tcm typeTrans Nothing modName dfiles signalNm let sigNm = pack (modName ++ "_") `append` last (splitOn (pack ".") (pack (name2String signalNm))) `append` pack "_" `append` (pack (show cmpCnt)) sigComp = case find ((== sigNm) . componentName) comps of Just c -> c Nothing -> error $ $(curLoc) ++ "Can't locate component for stimuli gen: " ++ (show $ pack $ name2String signalNm) ++ show (map (componentName) comps) (cName,hidden',outp) = case sigComp of (Component a b [] [(c,_)] _) -> (a,b,c) (Component a _ is _ _) -> error $ $(curLoc) ++ "Stimuli gen " ++ show a ++ " has unexpected inputs: " ++ show is hidden'' = nub (hidden ++ hidden') clkNms = mapMaybe (\hd -> case hd of (clkNm,Clock _ _) -> Just clkNm ; _ -> Nothing) hidden' rstNms = mapMaybe (\hd -> case hd of (clkNm,Reset _ _) -> Just clkNm ; _ -> Nothing) hidden' decl = InstDecl cName "stimuli" (map (\i -> (i,Identifier i Nothing)) (concat [ clkNms, rstNms ]) ++ [(outp,Identifier (fst inp) Nothing)] ) return (decl,comps,cmpCnt',hidden'',dfiles') genVerifier :: Int -> PrimMap -> HashMap TmName (Type,Term) -> (HashMap TyConName TyCon -> Type -> Maybe (Either String HWType)) -> HashMap TyConName TyCon -> ( HashMap TmName (Type,Term) -> TmName -> HashMap TmName (Type,Term) ) -> [(Identifier,HWType)] -> (Identifier,HWType) -> String -> [(String,FilePath)] -> TmName -> IO (Declaration,[Component],Int,[(Identifier,HWType)],[(String,FilePath)]) genVerifier cmpCnt primMap globals typeTrans tcm normalizeSignal hidden outp modName dfiles signalNm = do let stimNormal = normalizeSignal globals signalNm (comps,dfiles',cmpCnt') <- genNetlist (Just cmpCnt) stimNormal primMap tcm typeTrans Nothing modName dfiles signalNm let sigNm = pack (modName ++ "_") `append` last (splitOn (pack ".") (pack (name2String signalNm))) `append` "_" `append` (pack (show cmpCnt)) sigComp = case find ((== sigNm) . componentName) comps of Just c -> c Nothing -> error $ $(curLoc) ++ "Can't locate component for Verifier: " ++ (show $ pack $ name2String signalNm) ++ show (map (componentName) comps) (cName,hidden',inp,fin) = case sigComp of (Component a b [(c,_)] [(d,_)] _) -> (a,b,c,d) (Component a _ is _ _) -> error $ $(curLoc) ++ "Verifier " ++ show a ++ " has unexpected inputs: " ++ show is hidden'' = nub (hidden ++ hidden') clkNms = mapMaybe (\hd -> case hd of (clkNm,Clock _ _) -> Just clkNm ; _ -> Nothing) hidden' rstNms = mapMaybe (\hd -> case hd of (clkNm,Reset _ _) -> Just clkNm ; _ -> Nothing) hidden' decl = InstDecl cName "verify" (map (\i -> (i,Identifier i Nothing)) (concat [ clkNms, rstNms ]) ++ [(inp,Identifier (fst outp) Nothing),(fin,Identifier "finished" Nothing)] ) return (decl,comps,cmpCnt',hidden'',dfiles')