X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2Fghci%2FRtClosureInspect.hs;h=0acc830432d67d399daafc7f97fe64bf9fc5c324;hb=834fcf7de73aeb4a3fa4c88dc995ce1b55b78a93;hp=cb13d454e604fd6f148b05a435c46672b331569c;hpb=bf64104355b284aa7513ba0ff160a2f0df942ea9;p=ghc-hetmet.git diff --git a/compiler/ghci/RtClosureInspect.hs b/compiler/ghci/RtClosureInspect.hs index cb13d45..0acc830 100644 --- a/compiler/ghci/RtClosureInspect.hs +++ b/compiler/ghci/RtClosureInspect.hs @@ -37,17 +37,18 @@ import HscTypes ( HscEnv ) import DataCon import Type -import TcRnMonad ( TcM, initTcPrintErrors, ioToTcRn, recoverM - , writeMutVar ) +import TcRnMonad ( TcM, initTcPrintErrors, ioToTcRn, recoverM) import TcType import TcMType import TcUnify import TcGadt +import TcEnv import TyCon import Var import Name import VarEnv import OccName +import Util import VarSet import {-#SOURCE#-} TcRnDriver ( tcRnRecoverDataCon ) @@ -88,7 +89,8 @@ import System.IO.Unsafe -} data Term = Term { ty :: Type - , dc :: DataCon + , dc :: DataCon -- The heap datacon. If ty is a newtype, + -- this is NOT the newtype datacon , val :: HValue , subTerms :: [Term] } @@ -101,6 +103,7 @@ data Term = Term { ty :: Type , bound_to :: Maybe Name -- Useful for printing } +isTerm, isSuspension, isPrim :: Term -> Bool isTerm Term{} = True isTerm _ = False isSuspension Suspension{} = True @@ -108,6 +111,7 @@ isSuspension _ = False isPrim Prim{} = True isPrim _ = False +termType :: Term -> Maybe Type termType t@(Suspension {}) = mb_ty t termType t = Just$ ty t @@ -157,9 +161,10 @@ getClosureData a = itbl <- peek (Ptr iptr) let tipe = readCType (BCI.tipe itbl) elems = BCI.ptrs itbl - ptrsList = Array 0 (fromIntegral$ elems) ptrs + ptrsList = Array 0 ((fromIntegral elems) - 1) ptrs nptrs_data = [W# (indexWordArray# nptrs i) | I# i <- [0.. fromIntegral (BCI.nptrs itbl)] ] + ASSERT(fromIntegral elems >= 0) return () ptrsList `seq` return (Closure tipe (Ptr iptr) itbl ptrsList nptrs_data) @@ -176,7 +181,7 @@ readCType i | fromIntegral i == pAP_CODE = PAP | otherwise = Other (fromIntegral i) -isConstr, isIndirection :: ClosureType -> Bool +isConstr, isIndirection, isThunk :: ClosureType -> Bool isConstr Constr = True isConstr _ = False @@ -260,11 +265,13 @@ idTermFoldM = TermFold { fSuspension = (((return.).).). Suspension } +mapTermType :: (Type -> Type) -> Term -> Term mapTermType f = foldTerm idTermFold { fTerm = \ty dc hval tt -> Term (f ty) dc hval tt, fSuspension = \ct mb_ty hval n -> Suspension ct (fmap f mb_ty) hval n } +termTyVars :: Term -> TyVarSet termTyVars = foldTerm TermFold { fTerm = \ty _ _ tt -> tyVarsOfType ty `plusVarEnv` concatVarEnv tt, @@ -276,75 +283,83 @@ termTyVars = foldTerm TermFold { -- Pretty printing of terms ---------------------------------- -app_prec::Int +app_prec,cons_prec ::Int app_prec = 10 +cons_prec = 5 -- TODO Extract this info from GHC itself -pprTerm :: Int -> Term -> SDoc -pprTerm p Term{dc=dc, subTerms=tt} -{- | dataConIsInfix dc, (t1:t2:tt') <- tt +pprTerm y p t | Just doc <- pprTermM y p t = doc + +pprTermM :: Monad m => (Int -> Term -> m SDoc) -> Int -> Term -> m SDoc +pprTermM y p t@Term{dc=dc, subTerms=tt, ty=ty} +{- | dataConIsInfix dc, (t1:t2:tt') <- tt --TODO fixity = parens (pprTerm1 True t1 <+> ppr dc <+> pprTerm1 True ppr t2) <+> hsep (map (pprTerm1 True) tt) -} - | null tt = ppr dc - | otherwise = cparen (p >= app_prec) - (ppr dc <+> sep (map (pprTerm app_prec) tt)) - - where fixity = undefined - -pprTerm _ t = pprTerm1 t - -pprTerm1 Prim{value=words, ty=ty} = text$ repPrim (tyConAppTyCon ty) words -pprTerm1 t@Term{} = pprTerm 0 t -pprTerm1 Suspension{bound_to=Nothing} = char '_' -- <> ppr ct <> char '_' -pprTerm1 Suspension{mb_ty=Just ty, bound_to=Just n} - | Just _ <- splitFunTy_maybe ty = ptext SLIT("") - | otherwise = parens$ ppr n <> text "::" <> ppr ty - - + | null tt = return$ ppr dc + | Just (tc,_) <- splitNewTyConApp_maybe ty + , isNewTyCon tc + , Just new_dc <- maybeTyConSingleCon tc = do + real_value <- y 10 t{ty=repType ty} + return$ cparen (p >= app_prec) (ppr new_dc <+> real_value) + | otherwise = do + tt_docs <- mapM (y app_prec) tt + return$ cparen (p >= app_prec) (ppr dc <+> sep tt_docs) + +pprTermM y _ t = pprTermM1 y t + +pprTermM1 _ Prim{value=words, ty=ty} = return$ text$ repPrim (tyConAppTyCon ty) + words +pprTermM1 y t@Term{} = panic "pprTermM1 - unreachable" +pprTermM1 _ Suspension{bound_to=Nothing} = return$ char '_' +pprTermM1 _ Suspension{mb_ty=Just ty, bound_to=Just n} + | Just _ <- splitFunTy_maybe ty = return$ ptext SLIT("") + | otherwise = return$ parens$ ppr n <> text "::" <> ppr ty + +-- Takes a list of custom printers with a explicit recursion knot and a term, +-- and returns the output of the first succesful printer, or the default printer cPprTerm :: forall m. Monad m => ((Int->Term->m SDoc)->[Int->Term->m (Maybe SDoc)]) -> Term -> m SDoc cPprTerm custom = go 0 where - go prec t@Term{subTerms=tt, dc=dc} = do - let mb_customDocs = map (($t) . ($prec)) (custom go) :: [m (Maybe SDoc)] - first_success <- firstJustM mb_customDocs - case first_success of - Just doc -> return$ cparen (prec>app_prec+1) doc --- | dataConIsInfix dc, (t1:t2:tt') <- tt = - Nothing -> do pprSubterms <- mapM (go (app_prec+1)) tt - return$ cparen (prec >= app_prec) - (ppr dc <+> sep pprSubterms) - go _ t = return$ pprTerm1 t + go prec t@Term{} = do + let default_ prec t = Just `liftM` pprTermM go prec t + mb_customDocs = [pp prec t | pp <- custom go ++ [default_]] + Just doc <- firstJustM mb_customDocs + return$ cparen (prec>app_prec+1) doc + go _ t = pprTermM1 go t firstJustM (mb:mbs) = mb >>= maybe (firstJustM mbs) (return . Just) firstJustM [] = return Nothing +-- Default set of custom printers. Note that the recursion knot is explicit cPprTermBase :: Monad m => (Int->Term-> m SDoc)->[Int->Term->m (Maybe SDoc)] -cPprTermBase pprP = +cPprTermBase y = [ - ifTerm isTupleDC (\_ -> liftM (parens . hcat . punctuate comma) - . mapM (pprP (-1)) . subTerms) - , ifTerm (isDC consDataCon) (\ p Term{subTerms=[h,t]} -> doList p h t) - , ifTerm (isDC intDataCon) (coerceShow$ \(a::Int)->a) - , ifTerm (isDC charDataCon) (coerceShow$ \(a::Char)->a) --- , ifTerm (isDC wordDataCon) (coerceShow$ \(a::Word)->a) - , ifTerm (isDC floatDataCon) (coerceShow$ \(a::Float)->a) - , ifTerm (isDC doubleDataCon) (coerceShow$ \(a::Double)->a) - , ifTerm isIntegerDC (coerceShow$ \(a::Integer)->a) + ifTerm isTupleTy (\_ -> liftM (parens . hcat . punctuate comma) + . mapM (y (-1)) . subTerms) + , ifTerm (\t -> isTyCon listTyCon t && subTerms t `lengthIs` 2) + (\ p Term{subTerms=[h,t]} -> doList p h t) + , ifTerm (isTyCon intTyCon) (coerceShow$ \(a::Int)->a) + , ifTerm (isTyCon charTyCon) (coerceShow$ \(a::Char)->a) +-- , ifTerm (isTyCon wordTyCon) (coerceShow$ \(a::Word)->a) + , ifTerm (isTyCon floatTyCon) (coerceShow$ \(a::Float)->a) + , ifTerm (isTyCon doubleTyCon) (coerceShow$ \(a::Double)->a) + , ifTerm isIntegerTy (coerceShow$ \(a::Integer)->a) ] - where ifTerm pred f p t = if pred t then liftM Just (f p t) - else return Nothing - isIntegerDC Term{dc=dc} = - dataConName dc `elem` [ smallIntegerDataConName - , largeIntegerDataConName] - isTupleDC Term{dc=dc} = dc `elem` snd (unzip (elems boxedTupleArr)) - isDC a_dc Term{dc=dc} = a_dc == dc + where ifTerm pred f p t@Term{} | pred t = liftM Just (f p t) + | otherwise = return Nothing + isIntegerTy Term{ty=ty} | Just (tc,_) <- splitTyConApp_maybe ty + = tyConName tc == integerTyConName + isTupleTy Term{ty=ty} | Just (tc,_) <- splitTyConApp_maybe ty + = tc `elem` (fst.unzip.elems) boxedTupleArr + isTyCon a_tc Term{ty=ty} | Just (tc,_) <- splitTyConApp_maybe ty + = a_tc == tc coerceShow f _ = return . text . show . f . unsafeCoerce# . val --TODO pprinting of list terms is not lazy doList p h t = do let elems = h : getListTerms t isConsLast = termType(last elems) /= termType h - print_elems <- mapM (pprP 5) elems + print_elems <- mapM (y cons_prec) elems return$ if isConsLast - then cparen (p >= 5) . hsep . punctuate (space<>colon) + then cparen (p >= cons_prec) . hsep . punctuate (space<>colon) $ print_elems else brackets (hcat$ punctuate comma print_elems) @@ -355,6 +370,7 @@ cPprTermBase pprP = getListTerms t@Suspension{} = [t] getListTerms t = pprPanic "getListTerms" (ppr t) + repPrim :: TyCon -> [Word] -> String repPrim t = rep where rep x @@ -420,6 +436,7 @@ runTR hsc_env c = do trIO :: IO a -> TR a trIO = liftTcM . ioToTcRn +liftTcM :: TcM a -> TR a liftTcM = id newVar :: Kind -> TR TcTyVar @@ -507,9 +524,9 @@ cvObtainTerm hsc_env force mb_ty hval = runTR hsc_env $ do matchSubTypes dc ty | Just (_,ty_args) <- splitTyConApp_maybe (repType ty) - , null (dataConExTyVars dc) --TODO case of extra existential tyvars + , isVanillaDataCon dc --TODO non-vanilla case = dataConInstArgTys dc ty_args - +-- assumes that newtypes are looked ^^^ through | otherwise = dataConRepArgTys dc -- This is used to put together pointed and nonpointed subterms in the @@ -528,14 +545,15 @@ cvObtainTerm hsc_env force mb_ty hval = runTR hsc_env $ do -- Fast, breadth-first Type reconstruction - +max_depth = 10 :: Int cvReconstructType :: HscEnv -> Bool -> Maybe Type -> HValue -> IO Type cvReconstructType hsc_env force mb_ty hval = runTR hsc_env $ do tv <- liftM mkTyVarTy (newVar argTypeKind) case mb_ty of - Nothing -> do search (isMonomorphic `fmap` zonkTcType tv) - (uncurry go) - [(tv, hval)] + Nothing -> do search (isMonomorphic `fmap` zonkTcType tv) + (uncurry go) + [(tv, hval)] + max_depth zonkTcType tv -- TODO untested! Just ty | isMonomorphic ty -> return ty Just ty -> do @@ -544,12 +562,16 @@ cvReconstructType hsc_env force mb_ty hval = runTR hsc_env $ do search (isMonomorphic `fmap` zonkTcType tv) (uncurry go) [(tv, hval)] + max_depth substTy rev_subst `fmap` zonkTcType tv where -- search :: m Bool -> ([a] -> [a] -> [a]) -> [a] -> m () - search stop expand [] = return () - search stop expand (x:xx) = do new <- expand x - unlessM stop $ search stop expand (xx ++ new) + search stop expand [] depth = return () + search stop expand x 0 = fail$ "Failed to reconstruct a type after " ++ + show max_depth ++ " steps" + search stop expand (x:xx) d = do + new <- expand x + unlessM stop $ search stop expand (xx ++ new) $! (pred d) -- returns unification tasks,since we are going to want a breadth-first search go :: Type -> HValue -> TR [(Type, HValue)] @@ -572,10 +594,8 @@ cvReconstructType hsc_env force mb_ty hval = runTR hsc_env $ do let myType = mkFunTys subTtypes tv (signatureType,_) <- instScheme(dataConRepType dc) addConstraint myType signatureType - return $ map (\(I# i#,t) -> case ptrs clos of - (Array _ _ ptrs#) -> case indexArray# ptrs# i# of - (# e #) -> (t,e)) - (drop extra_args $ zip [0..] subTtypes) + return $ [ appArr (\e->(t,e)) (ptrs clos) i + | (i,t) <- drop extra_args $ zip [0..] subTtypes] otherwise -> return [] @@ -610,52 +630,34 @@ cvReconstructType hsc_env force mb_ty hval = runTR hsc_env $ do using TcM wrongly). -} congruenceNewtypes :: TcType -> TcType -> TcM (TcType,TcType) -congruenceNewtypes = go True - where - go rewriteRHS lhs rhs +congruenceNewtypes lhs rhs -- TyVar lhs inductive case | Just tv <- getTyVar_maybe lhs = recoverM (return (lhs,rhs)) $ do Indirect ty_v <- readMetaTyVar tv - (lhs', rhs') <- go rewriteRHS ty_v rhs - writeMutVar (metaTvRef tv) (Indirect lhs') - return (lhs, rhs') - -- TyVar rhs inductive case - | Just tv <- getTyVar_maybe rhs - = recoverM (return (lhs,rhs)) $ do - Indirect ty_v <- readMetaTyVar tv - (lhs', rhs') <- go rewriteRHS lhs ty_v - writeMutVar (metaTvRef tv) (Indirect rhs') - return (lhs', rhs) + (lhs1, rhs1) <- congruenceNewtypes ty_v rhs + return (lhs, rhs1) -- FunTy inductive case | Just (l1,l2) <- splitFunTy_maybe lhs , Just (r1,r2) <- splitFunTy_maybe rhs - = do (l2',r2') <- go True l2 r2 - (l1',r1') <- go False l1 r1 + = do (l2',r2') <- congruenceNewtypes l2 r2 + (l1',r1') <- congruenceNewtypes l1 r1 return (mkFunTy l1' l2', mkFunTy r1' r2') -- TyconApp Inductive case; this is the interesting bit. | Just (tycon_l, args_l) <- splitNewTyConApp_maybe lhs - , Just (tycon_r, args_r) <- splitNewTyConApp_maybe rhs = do - - let (tycon_l',args_l') = if isNewTyCon tycon_r && not(isNewTyCon tycon_l) - then (tycon_r, rewrite tycon_r lhs) - else (tycon_l, args_l) - (tycon_r',args_r') = if rewriteRHS && isNewTyCon tycon_l && - not(isNewTyCon tycon_r) - then (tycon_l, rewrite tycon_l rhs) - else (tycon_r, args_r) - (args_l'', args_r'') <- unzip `liftM` zipWithM (go rewriteRHS) - args_l' - args_r' - return (mkTyConApp tycon_l' args_l'', mkTyConApp tycon_r' args_r'') + , Just (tycon_r, args_r) <- splitNewTyConApp_maybe rhs + , tycon_l /= tycon_r + = return (lhs, upgrade tycon_l rhs) | otherwise = return (lhs,rhs) - where rewrite newtyped_tc lame_tipe - | (tvs, tipe) <- newTyConRep newtyped_tc - = case tcUnifyTys (const BindMe) [tipe] [lame_tipe] of - Just subst -> substTys subst (map mkTyVarTy tvs) - otherwise -> panic "congruenceNewtypes: Can't unify a newtype" + where upgrade :: TyCon -> Type -> Type + upgrade new_tycon ty + | not (isNewTyCon new_tycon) = ty + | ty' <- mkTyConApp new_tycon (map mkTyVarTy $ tyConTyVars new_tycon) + , Just subst <- tcUnifyTys (const BindMe) [ty] [repType ty'] + = substTy subst ty' + -- assumes that reptype doesn't touch tyconApp args ^^^ --------------------------------------------------------------------------------