+
+
+createTestBench ::
+ Maybe Int -- ^ Number of cycles to simulate
+ -> [(CoreSyn.CoreBndr, CoreSyn.CoreExpr)] -- ^ Input stimuli
+ -> CoreSyn.CoreBndr -- ^ Top Entity
+ -> VHDLSession (AST.VHDLId, [AST.LibraryUnit]) -- ^ Testbench
+createTestBench mCycles stimuli topEntity = do
+ ent@(AST.EntityDec id _) <- createTestBenchEntity topEntity
+ arch <- createTestBenchArch mCycles stimuli topEntity
+ return (id, [AST.LUEntity ent, AST.LUArch arch])
+
+
+createTestBenchEntity ::
+ CoreSyn.CoreBndr -- ^ Top Entity
+ -> VHDLSession AST.EntityDec -- ^ TB Entity
+createTestBenchEntity topEntity = do
+ signaturemap <- getA vsSignatures
+ let signature = Maybe.fromMaybe
+ (error $ "\nTestbench.createTestBenchEntity: Generating testbench for function \n" ++ (pprString topEntity) ++ "\nwithout signature? This should not happen!")
+ (Map.lookup topEntity signaturemap)
+ let signaturename = ent_id signature
+ return $ AST.EntityDec (AST.unsafeIdAppend signaturename "_tb") []
+
+createTestBenchArch ::
+ Maybe Int -- ^ Number of cycles to simulate
+ -> [(CoreSyn.CoreBndr, CoreSyn.CoreExpr)] -- ^ Imput stimulie
+ -> CoreSyn.CoreBndr -- ^ Top Entity
+ -> VHDLSession AST.ArchBody
+createTestBenchArch mCycles stimuli topEntity = do
+ signaturemap <- getA vsSignatures
+ let signature = Maybe.fromMaybe
+ (error $ "\nTestbench.createTestBenchArch: Generating testbench for function \n" ++ (pprString topEntity) ++ "\nwithout signature? This should not happen!")
+ (Map.lookup topEntity signaturemap)
+ let entId = ent_id signature
+ iIface = ent_args signature
+ oIface = ent_res signature
+ iIds = map fst iIface
+ oIds = fst oIface
+ let iDecs = map (\(vId, tm) -> AST.SigDec vId tm Nothing) iIface
+ let finalIDecs = iDecs ++
+ [AST.SigDec clockId std_logicTM (Just $ AST.PrimLit "'0'"),
+ AST.SigDec resetId std_logicTM (Just $ AST.PrimLit "'0'")]
+ let oDecs = AST.SigDec (fst oIface) (snd oIface) Nothing
+ let portmaps = mkAssocElems (map idToVHDLExpr iIds) (AST.NSimple oIds) signature
+ let mIns = mkComponentInst "totest" entId portmaps
+ (stimuliAssigns, stimuliDecs, cycles) <- createStimuliAssigns mCycles stimuli (head iIds)
+ let finalAssigns = (AST.CSSASm (AST.NSimple resetId AST.:<==:
+ AST.ConWforms []
+ (AST.Wform [AST.WformElem (AST.PrimLit "'1'") (Just $ AST.PrimLit "3 ns")])
+ Nothing)) : stimuliAssigns
+ let clkProc = createClkProc
+ let outputProc = createOutputProc [oIds]
+ return $ (AST.ArchBody
+ (AST.unsafeVHDLBasicId "test")
+ (AST.NSimple $ AST.unsafeIdAppend entId "_tb")
+ (map AST.BDISD (finalIDecs ++ stimuliDecs ++ [oDecs]))
+ (mIns :
+ ( (AST.CSPSm clkProc) : (AST.CSPSm outputProc) : finalAssigns ) ) )
+
+createStimuliAssigns ::
+ Maybe Int -- ^ Number of cycles to simulate
+ -> [(CoreSyn.CoreBndr, CoreSyn.CoreExpr)] -- ^ Input stimuli
+ -> AST.VHDLId -- ^ Input signal
+ -> VHDLSession ([AST.ConcSm], [AST.SigDec], Int)
+createStimuliAssigns mCycles [] _ = return ([], [], Maybe.maybe 0 id mCycles)
+
+createStimuliAssigns mCycles stimuli signal = do
+ let genWformElem time stim = (AST.WformElem stim (Just $ AST.PrimLit (show time ++ " ns")))
+ let inputlen = length stimuli
+ assigns <- Monad.zipWithM createStimulans stimuli [0..inputlen]
+ let resvars = (map snd assigns)
+ sig_dec_maybes <- mapM mkSigDec resvars
+ let sig_decs = Maybe.catMaybes sig_dec_maybes
+ outps <- mapM (\x -> MonadState.lift vsType (varToVHDLExpr x)) resvars
+ let wformelems = zipWith genWformElem [0,10..] outps
+ let inassign = AST.CSSASm $ AST.NSimple signal AST.:<==: AST.ConWforms [] (AST.Wform wformelems) Nothing
+ return ((map fst assigns) ++ [inassign], sig_decs, inputlen)
+
+createStimulans :: (CoreSyn.CoreBndr, CoreSyn.CoreExpr) -> Int -> VHDLSession (AST.ConcSm, Var.Var)
+createStimulans (bndr, expr) cycl = do
+ -- There must be a let at top level
+ let (CoreSyn.Let (CoreSyn.Rec binds) (Var res)) = expr
+ stimulansbinds <- Monad.mapM mkConcSm binds
+ sig_dec_maybes <- mapM (mkSigDec . fst) (filter ((/=res).fst) binds)
+ let sig_decs = map (AST.BDISD) (Maybe.catMaybes $ sig_dec_maybes)
+ let block_label = mkVHDLExtId ("testcycle_" ++ (show cycl))
+ let block = AST.BlockSm block_label [] (AST.PMapAspect []) sig_decs (concat stimulansbinds)
+ return (AST.CSBSm block, res)
+
+-- | generates a clock process with a period of 10ns
+createClkProc :: AST.ProcSm
+createClkProc = AST.ProcSm (AST.unsafeVHDLBasicId "clkproc") [] sms
+ where sms = -- wait for 5 ns -- (half a cycle)
+ [AST.WaitFor $ AST.PrimLit "5 ns",
+ -- clk <= not clk;
+ AST.NSimple clockId `AST.SigAssign`
+ AST.Wform [AST.WformElem (AST.Not (AST.PrimName $ AST.NSimple clockId)) Nothing]]
+
+-- | generate the output process
+createOutputProc :: [AST.VHDLId] -- ^ output signal
+ -> AST.ProcSm
+createOutputProc outs =
+ AST.ProcSm (AST.unsafeVHDLBasicId "writeoutput")
+ [clockId]
+ [AST.IfSm clkPred (writeOuts outs) [] Nothing]
+ where clkPred = AST.PrimName (AST.NAttribute $ AST.AttribName (AST.NSimple clockId)
+ (AST.NSimple $ eventId)
+ Nothing ) `AST.And`
+ (AST.PrimName (AST.NSimple clockId) AST.:=: AST.PrimLit "'1'")
+ writeOuts :: [AST.VHDLId] -> [AST.SeqSm]
+ writeOuts [] = []
+ writeOuts [i] = [writeOut i (AST.PrimLit "LF")]
+ writeOuts (i:is) = writeOut i (AST.PrimLit "HT") : writeOuts is
+ writeOut outSig suffix =
+ genExprPCall2 writeId
+ (AST.PrimName $ AST.NSimple outputId)
+ ((genExprFCall showId (AST.PrimName $ AST.NSimple outSig)) AST.:&: suffix)