X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2Ftypecheck%2FTcTyFuns.lhs;h=9a369d91f9d412a5130b68d5188b79c86d75ea6d;hb=9892daf7fac4087813c6f5fedfc3de5d19410689;hp=2ad62339318955ae1bcf037319d3dd75ab32f8f1;hpb=c93a92a5950a6343d93774cb07530deb8dd4ac3d;p=ghc-hetmet.git diff --git a/compiler/typecheck/TcTyFuns.lhs b/compiler/typecheck/TcTyFuns.lhs index 2ad6233..9a369d9 100644 --- a/compiler/typecheck/TcTyFuns.lhs +++ b/compiler/typecheck/TcTyFuns.lhs @@ -30,7 +30,6 @@ import Type import TypeRep ( Type(..) ) import TyCon import HsSyn -import Id import VarEnv import VarSet import Var @@ -304,10 +303,15 @@ normaliseEqs eqs -- normaliseDicts :: Bool -> [Inst] -> TcM EqConfig normaliseDicts isWanted insts - = do { traceTc $ ptext (sLit "Entering normaliseDicts") <+> - ptext (if isWanted then sLit "[Wanted]" else sLit "[Local]") + = do { traceTc $ hang (ptext (sLit "Entering normaliseDicts") <+> + ptext (if isWanted then sLit "[Wanted] for" + else sLit "[Local] for")) + 4 (ppr insts) ; (insts', eqss, bindss, skolemss) <- mapAndUnzip4M (normDict isWanted) insts + + ; traceTc $ hang (ptext (sLit "normaliseDicts returns")) + 4 (ppr insts' $$ ppr eqss) ; return $ emptyEqConfig { eqs = concat eqss , locals = if isWanted then [] else insts' , wanteds = if isWanted then insts' else [] @@ -333,35 +337,26 @@ propagateEqs eqCfg@(EqConfig {eqs = todoEqs}) -- set of instances are the locals (without equalities) and the second set are -- all residual wanteds, including equalities. -- --- Remove all identity dictinary bindings (i.e., those whose source and target --- dictionary are the same). This is important for termination, as --- TcSimplify.reduceContext takes the presence of dictionary bindings as an --- indicator that there was some improvement. --- finaliseEqsAndDicts :: EqConfig -> TcM ([Inst], [Inst], TcDictBinds, Bool) finaliseEqsAndDicts (EqConfig { eqs = eqs , locals = locals , wanteds = wanteds , binds = binds + , skolems = skolems }) = do { traceTc $ ptext (sLit "finaliseEqsAndDicts") ; (eqs', subst_binds, locals', wanteds') <- substitute eqs locals wanteds - ; (eqs'', improved) <- instantiateAndExtract eqs' - ; final_binds <- filterM nonTrivialDictBind $ - bagToList (subst_binds `unionBags` binds) + ; (eqs'', improved) <- instantiateAndExtract eqs' (null locals) skolems + ; let final_binds = subst_binds `unionBags` binds + -- Assert that all cotvs of wanted equalities are still unfilled, and + -- zonk all final insts, to make any improvement visible ; ASSERTM2( allM isValidWantedEqInst eqs'', ppr eqs'' ) - ; return (locals', eqs'' ++ wanteds', listToBag final_binds, improved) + ; zonked_locals <- zonkInsts locals' + ; zonked_wanteds <- zonkInsts (eqs'' ++ wanteds') + ; return (zonked_locals, zonked_wanteds, final_binds, improved) } - where - nonTrivialDictBind (L _ (VarBind { var_id = ide1 - , var_rhs = L _ (HsWrap _ (HsVar ide2))})) - = do { ty1 <- zonkTcType (idType ide1) - ; ty2 <- zonkTcType (idType ide2) - ; return $ not (ty1 `tcEqType` ty2) - } - nonTrivialDictBind _ = return True \end{code} @@ -442,17 +437,21 @@ deriveEqInst rewrite ty1 ty2 co instance Outputable RewriteInst where ppr (RewriteFam {rwi_fam = fam, rwi_args = args, rwi_right = rhs, rwi_co =co}) - = hsep [ ppr co <+> text "::" + = hsep [ pprEqInstCo co <+> text "::" , ppr (mkTyConApp fam args) , text "~>" , ppr rhs ] ppr (RewriteVar {rwi_var = tv, rwi_right = rhs, rwi_co =co}) - = hsep [ ppr co <+> text "::" + = hsep [ pprEqInstCo co <+> text "::" , ppr tv , text "~>" , ppr rhs ] + +pprEqInstCo :: EqInstCo -> SDoc +pprEqInstCo (Left cotv) = ptext (sLit "Wanted") <+> ppr cotv +pprEqInstCo (Right co) = ptext (sLit "Local") <+> ppr co \end{code} The following functions turn an arbitrary equality into a set of normal @@ -476,22 +475,29 @@ normEqInst :: Inst -> TcM ([RewriteInst], TyVarSet) -- Normalise one equality. normEqInst inst = ASSERT( isEqInst inst ) - go ty1 ty2 (eqInstCoercion inst) + do { traceTc $ ptext (sLit "normEqInst of ") <+> + pprEqInstCo co <+> text "::" <+> + ppr ty1 <+> text "~" <+> ppr ty2 + ; res <- go ty1 ty2 co + ; traceTc $ ptext (sLit "normEqInst returns") <+> ppr res + ; return res + } where (ty1, ty2) = eqInstTys inst + co = eqInstCoercion inst -- look through synonyms go ty1 ty2 co | Just ty1' <- tcView ty1 = go ty1' ty2 co go ty1 ty2 co | Just ty2' <- tcView ty2 = go ty1 ty2' co -- left-to-right rule with type family head - go (TyConApp con args) ty2 co - | isOpenSynTyCon con + go ty1@(TyConApp con args) ty2 co + | isOpenSynTyConApp ty1 -- only if not oversaturated = mkRewriteFam False con args ty2 co -- right-to-left rule with type family head go ty1 ty2@(TyConApp con args) co - | isOpenSynTyCon con + | isOpenSynTyConApp ty2 -- only if not oversaturated = do { co' <- mkSymEqInstCo co (ty2, ty1) ; mkRewriteFam True con args ty1 co' } @@ -669,10 +675,10 @@ flattenType inst ty go ty@(TyVarTy _) = return (ty, ty, [] , emptyVarSet) - -- type family application + -- type family application & family arity matches number of args -- => flatten to "gamma :: F t1'..tn' ~ alpha" (alpha & gamma fresh) go ty@(TyConApp con args) - | isOpenSynTyCon con + | isOpenSynTyConApp ty -- only if not oversaturated = do { (args', cargs, args_eqss, args_skolemss) <- mapAndUnzip4M go args ; alpha <- newFlexiTyVar (typeKind ty) ; let alphaTy = mkTyVarTy alpha @@ -695,6 +701,7 @@ flattenType inst ty -- data constructor application => flatten subtypes -- NB: Special cased for efficiency - could be handled as type application go ty@(TyConApp con args) + | not (isOpenSynTyCon con) -- don't match oversaturated family apps = do { (args', cargs, args_eqss, args_skolemss) <- mapAndUnzip4M go args ; if null args_eqss then -- unchanged, keep the old type with folded synonyms @@ -722,7 +729,10 @@ flattenType inst ty } -- type application => flatten subtypes - go ty@(AppTy ty_l ty_r) + go ty + | Just (ty_l, ty_r) <- repSplitAppTy_maybe ty + -- need to use the smart split as ty may be an + -- oversaturated family application = do { (ty_l', co_l, eqs_l, skolems_l) <- go ty_l ; (ty_r', co_r, eqs_r, skolems_r) <- go ty_r ; if null eqs_l && null eqs_r @@ -749,6 +759,8 @@ flattenType inst ty go (PredTy _) = panic "TcTyFuns.flattenType: unexpected PredType" + go _ = panic "TcTyFuns: suppress bogus warning" + adjustCoercions :: EqInstCo -- coercion of original equality -> Coercion -- coercion witnessing the left rewrite -> Coercion -- coercion witnessing the right rewrite @@ -802,17 +814,23 @@ mkDictBind dict isWanted rewriteCo pred where loc = tci_loc dict --- gamma :: Fam args ~ alpha --- => alpha :: Fam args ~ alpha, with alpha := Fam args +-- gamma ::^l Fam args ~ alpha +-- => gamma ::^w Fam args ~ alpha, with alpha := Fam args & gamma := Fam args -- (the update of alpha will not be apparent during propagation, as we -- never follow the indirections of meta variables; it will be revealed -- when the equality is zonked) +-- +-- NB: It's crucial to update *both* alpha and gamma, as gamma may already +-- have escaped into some other coercions during normalisation. +-- wantedToLocal :: RewriteInst -> TcM RewriteInst wantedToLocal eq@(RewriteFam {rwi_fam = fam, rwi_args = args, - rwi_right = alphaTy@(TyVarTy alpha)}) + rwi_right = TyVarTy alpha, + rwi_co = Left gamma}) = do { writeMetaTyVar alpha (mkTyConApp fam args) - ; return $ eq {rwi_co = mkGivenCo alphaTy} + ; writeMetaTyVar gamma (mkTyConApp fam args) + ; return $ eq {rwi_co = mkGivenCo $ mkTyVarTy gamma} } wantedToLocal _ = panic "TcTyFuns.wantedToLocal" \end{code} @@ -866,8 +884,11 @@ mapSubstRules eq eqs } where substRules eq1 eq2 - = do { -- try the SubstFam rule - optEqs <- applySubstFam eq1 eq2 + = do {traceTc $ hang (ptext (sLit "Trying subst rules with")) + 4 (ppr eq1 $$ ppr eq2) + + -- try the SubstFam rule + ; optEqs <- applySubstFam eq1 eq2 ; case optEqs of Just (eqs, skolems) -> return (eqs, [], skolems) Nothing -> do @@ -935,6 +956,8 @@ applySubstFam :: RewriteInst -> TcM (Maybe ([RewriteInst], TyVarSet)) applySubstFam eq1@(RewriteFam {rwi_fam = fam1, rwi_args = args1}) eq2@(RewriteFam {rwi_fam = fam2, rwi_args = args2}) + + -- rule matches => rewrite | fam1 == fam2 && tcEqTypes args1 args2 && (isWantedRewriteInst eq2 || not (isWantedRewriteInst eq1)) -- !!!TODO: tcEqTypes is insufficient as it does not look through type synonyms @@ -944,11 +967,18 @@ applySubstFam eq1@(RewriteFam {rwi_fam = fam1, rwi_args = args1}) ; eq2' <- deriveEqInst eq2 lhs rhs co2' ; liftM Just $ normEqInst eq2' } + + -- rule would match with eq1 and eq2 swapped => put eq2 into todo list + | fam1 == fam2 && tcEqTypes args1 args2 && + (isWantedRewriteInst eq1 || not (isWantedRewriteInst eq2)) + = return $ Just ([eq2], emptyVarSet) + where lhs = rwi_right eq1 rhs = rwi_right eq2 co1 = eqInstCoType (rwi_co eq1) co2 = rwi_co eq2 + applySubstFam _ _ = return Nothing \end{code} @@ -970,17 +1000,26 @@ applySubstVarVar :: RewriteInst -> TcM (Maybe ([RewriteInst], TyVarSet)) applySubstVarVar eq1@(RewriteVar {rwi_var = tv1}) eq2@(RewriteVar {rwi_var = tv2}) + + -- rule matches => rewrite | tv1 == tv2 && (isWantedRewriteInst eq2 || not (isWantedRewriteInst eq1)) = do { co2' <- mkRightTransEqInstCo co2 co1 (lhs, rhs) ; eq2' <- deriveEqInst eq2 lhs rhs co2' ; liftM Just $ normEqInst eq2' } + + -- rule would match with eq1 and eq2 swapped => put eq2 into todo list + | tv1 == tv2 && + (isWantedRewriteInst eq1 || not (isWantedRewriteInst eq2)) + = return $ Just ([eq2], emptyVarSet) + where lhs = rwi_right eq1 rhs = rwi_right eq2 co1 = eqInstCoType (rwi_co eq1) co2 = rwi_co eq2 + applySubstVarVar _ _ = return Nothing \end{code} @@ -998,6 +1037,8 @@ co2' is returned. (The equality co1 is not returned as it remain unaltered.) \begin{code} applySubstVarFam :: RewriteInst -> RewriteInst -> TcM (Maybe RewriteInst) + + -- rule matches => rewrite applySubstVarFam eq1@(RewriteVar {rwi_var = tv1}) eq2@(RewriteFam {rwi_fam = fam2, rwi_args = args2}) | tv1 `elemVarSet` tyVarsOfTypes args2 @@ -1012,6 +1053,13 @@ applySubstVarFam eq1@(RewriteVar {rwi_var = tv1}) rhs2 = rwi_right eq2 co1 = eqInstCoType (rwi_co eq1) co2 = rwi_co eq2 + + -- rule would match with eq1 and eq2 swapped => put eq2 into todo list +applySubstVarFam (RewriteFam {rwi_args = args1}) + eq2@(RewriteVar {rwi_var = tv2}) + | tv2 `elemVarSet` tyVarsOfTypes args1 + = return $ Just eq2 + applySubstVarFam _ _ = return Nothing \end{code} @@ -1031,10 +1079,26 @@ implied by one variable equality exhaustively before turning to the next and We also apply the same substitutions to the local and wanted class and IP dictionaries. -NB: Given that we apply the substitution corresponding to a single equality -exhaustively, before turning to the next, and because we eliminate recursive -equalities, all opportunities for subtitution will have been exhausted after -we have considered each equality once. +The treatment of flexibles in wanteds is quite subtle. We absolutely want to +substitute them into right-hand sides of equalities, to avoid getting two +competing instantiations for a type variables; e.g., consider + + F s ~ alpha, alpha ~ t + +If we don't substitute `alpha ~ t', we may instantiate t with `F s' instead. +This would be bad as `F s' is less useful, eg, as an argument to a class +constraint. + +However, there is no reason why we would want to *substitute* `alpha ~ t' into a +class constraint. We rather wait until `alpha' is instantiated to `t` and +save the extra dictionary binding that substitution would introduce. +Moreover, we may substitute wanted equalities only into wanted dictionaries. + +NB: +* Given that we apply the substitution corresponding to a single equality + exhaustively, before turning to the next, and because we eliminate recursive + equalities, all opportunities for subtitution will have been exhausted after + we have considered each equality once. \begin{code} substitute :: [RewriteInst] -- equalities @@ -1048,20 +1112,35 @@ substitute eqs locals wanteds = subst eqs [] emptyBag locals wanteds where subst [] res binds locals wanteds = return (res, binds, locals, wanteds) + subst (eq@(RewriteVar {rwi_var = tv, rwi_right = ty, rwi_co = co}):eqs) res binds locals wanteds - = do { traceTc $ ptext (sLit "TcTyFuns.substitute:") <+> ppr tv <+> - ptext (sLit "->") <+> ppr ty + = do { traceTc $ ptext (sLit "TcTyFuns.substitute:") <+> ppr eq + ; let coSubst = zipOpenTvSubst [tv] [eqInstCoType co] tySubst = zipOpenTvSubst [tv] [ty] - ; eqs' <- mapM (substEq eq coSubst tySubst) eqs - ; res' <- mapM (substEq eq coSubst tySubst) res - ; (lbinds, locals') <- mapAndUnzipM - (substDict eq coSubst tySubst False) - locals - ; (wbinds, wanteds') <- mapAndUnzipM - (substDict eq coSubst tySubst True) - wanteds + ; eqs' <- mapM (substEq eq coSubst tySubst) eqs + ; res' <- mapM (substEq eq coSubst tySubst) res + + -- only susbtitute local equalities into local dictionaries + ; (lbinds, locals') <- if not (isWantedCo co) + then + mapAndUnzipM + (substDict eq coSubst tySubst False) + locals + else + return ([], locals) + + -- flexible tvs in wanteds will be instantiated anyway, there is + -- no need to substitute them into dictionaries + ; (wbinds, wanteds') <- if not (isMetaTyVar tv && isWantedCo co) + then + mapAndUnzipM + (substDict eq coSubst tySubst True) + wanteds + else + return ([], wanteds) + ; let binds' = unionManyBags $ binds : lbinds ++ wbinds ; subst eqs' (eq:res') binds' locals' wanteds' } @@ -1094,8 +1173,7 @@ substitute eqs locals wanteds = subst eqs [] emptyBag locals wanteds -- We have, co :: tv ~ ty -- => apply [ty/tv] to dictionary predicate -- (but only if tv actually occurs in the predicate) - substDict (RewriteVar {rwi_var = tv}) - coSubst tySubst isWanted dict + substDict (RewriteVar {rwi_var = tv}) coSubst tySubst isWanted dict | isClassDict dict , tv `elemVarSet` tyVarsOfPred (tci_pred dict) = do { let co1Subst = PredTy (substPred coSubst (tci_pred dict)) @@ -1113,31 +1191,65 @@ substitute eqs locals wanteds = subst eqs [] emptyBag locals wanteds For any *wanted* variable equality of the form co :: alpha ~ t or co :: a ~ alpha, we instantiate alpha with t or a, respectively, and set co := id. Return all remaining wanted equalities. The Boolean result component is True -if at least one instantiation of a flexible was performed. +if at least one instantiation of a flexible that is *not* a skolem from +flattening was performed. \begin{code} -instantiateAndExtract :: [RewriteInst] -> TcM ([Inst], Bool) -instantiateAndExtract eqs - = do { let wanteds = filter (isWantedCo . rwi_co) eqs - ; wanteds' <- mapM inst wanteds - ; let residuals = catMaybes wanteds' - improved = length wanteds /= length residuals +instantiateAndExtract :: [RewriteInst] -> Bool -> TyVarSet -> TcM ([Inst], Bool) +instantiateAndExtract eqs localsEmpty skolems + = do { traceTc $ hang (ptext (sLit "instantiateAndExtract:")) + 4 (ppr eqs $$ ppr skolems) + ; results <- mapM inst wanteds + ; let residuals = [eq | Left eq <- results] + only_skolems = and [tv `elemVarSet` skolems | Right tv <- results] ; residuals' <- mapM rewriteInstToInst residuals - ; return (residuals', improved) + ; return (residuals', not only_skolems) } where - inst eq@(RewriteVar {rwi_var = tv1, rwi_right = ty2, rwi_co = co}) + wanteds = filter (isWantedCo . rwi_co) eqs + checkingMode = length eqs > length wanteds || not localsEmpty + -- no local equalities or dicts => checking mode - -- co :: alpha ~ t - | isMetaTyVar tv1 - = doInst (rwi_swapped eq) tv1 ty2 co eq + -- co :: alpha ~ t or co :: a ~ alpha + inst eq@(RewriteVar {rwi_var = tv1, rwi_right = ty2, rwi_co = co}) + = do { flexi_tv1 <- isFlexible tv1 + ; maybe_flexi_tv2 <- isFlexibleTy ty2 + ; case (flexi_tv1, maybe_flexi_tv2) of + (True, _) + -> -- co :: alpha ~ t + doInst (rwi_swapped eq) tv1 ty2 co eq + (False, Just tv2) + -> -- co :: a ~ alpha + doInst (not $ rwi_swapped eq) tv2 (mkTyVarTy tv1) co eq + _ -> return $ Left eq + } - -- co :: a ~ alpha + -- co :: F args ~ alpha, and we are in checking mode (ie, no locals) + inst eq@(RewriteFam {rwi_fam = fam, rwi_args = args, rwi_right = ty2, + rwi_co = co}) | Just tv2 <- tcGetTyVar_maybe ty2 , isMetaTyVar tv2 - = doInst (not $ rwi_swapped eq) tv2 (mkTyVarTy tv1) co eq - - inst eq = return $ Just eq + , checkingMode || tv2 `elemVarSet` skolems + -- !!!TODO: this is too liberal, even if tv2 is in + -- skolems we shouldn't instantiate if tvs occurs + -- in other equalities that may propagate it into the + -- environment + = doInst (not $ rwi_swapped eq) tv2 (mkTyConApp fam args) co eq + + inst eq = return $ Left eq + + -- tv is a meta var and not filled + isFlexible tv + | isMetaTyVar tv = liftM isFlexi $ readMetaTyVar tv + | otherwise = return False + + -- type is a tv that is a meta var and not filled + isFlexibleTy ty + | Just tv <- tcGetTyVar_maybe ty = do {flexi <- isFlexible tv + ; if flexi then return $ Just tv + else return Nothing + } + | otherwise = return Nothing doInst _swapped _tv _ty (Right ty) _eq = pprPanic "TcTyFuns.doInst: local eq: " (ppr ty) @@ -1147,9 +1259,14 @@ instantiateAndExtract eqs } where -- meta variable has been filled already - -- => ignore (must be a skolem that was introduced by flattening locals) - uMeta _swapped _tv (IndirectTv _) _ty _cotv - = return Nothing + -- => keep the equality + uMeta _swapped tv (IndirectTv fill_ty) ty _cotv + = do { traceTc $ + ptext (sLit "flexible") <+> ppr tv <+> + ptext (sLit "already filled with") <+> ppr fill_ty <+> + ptext (sLit "meant to fill with") <+> ppr ty + ; return $ Left eq + } -- type variable meets type variable -- => check that tv2 hasn't been updated yet and choose which to update @@ -1171,7 +1288,7 @@ instantiateAndExtract eqs -- signature skolem meets non-variable type -- => cannot update (retain the equality)! uMeta _swapped _tv (DoneTv (MetaTv (SigTv _) _)) _non_tv_ty _cotv - = return $ Just eq + = return $ Left eq -- updatable meta variable meets non-variable type -- => occurs check, monotype check, and kinds match check, then update @@ -1186,7 +1303,7 @@ instantiateAndExtract eqs Just ty' -> do { checkUpdateMeta swapped tv ref ty' -- update meta var ; writeMetaTyVar cotv ty' -- update co var - ; return Nothing + ; return $ Right tv } } @@ -1198,35 +1315,38 @@ instantiateAndExtract eqs uMetaVar swapped tv1 (MetaTv _ ref) tv2 (SkolemTv _) cotv = do { checkUpdateMeta swapped tv1 ref (mkTyVarTy tv2) ; writeMetaTyVar cotv (mkTyVarTy tv2) - ; return Nothing + ; return $ Right tv1 } -- meta variable meets meta variable -- => be clever about which of the two to update -- (from TcUnify.uUnfilledVars minus boxy stuff) uMetaVar swapped tv1 (MetaTv info1 ref1) tv2 (MetaTv info2 ref2) cotv - = do { case (info1, info2) of - -- Avoid SigTvs if poss - (SigTv _, _ ) | k1_sub_k2 -> update_tv2 - (_, SigTv _) | k2_sub_k1 -> update_tv1 - - (_, _) | k1_sub_k2 -> if k2_sub_k1 && nicer_to_update_tv1 - then update_tv1 -- Same kinds - else update_tv2 - | k2_sub_k1 -> update_tv1 - | otherwise -> kind_err + = do { tv <- case (info1, info2) of + -- Avoid SigTvs if poss + (SigTv _, _ ) | k1_sub_k2 -> update_tv2 + (_, SigTv _) | k2_sub_k1 -> update_tv1 + + (_, _) | k1_sub_k2 -> if k2_sub_k1 && + nicer_to_update_tv1 + then update_tv1 -- Same kinds + else update_tv2 + | k2_sub_k1 -> update_tv1 + | otherwise -> kind_err >> return tv1 -- Update the variable with least kind info -- See notes on type inference in Kind.lhs -- The "nicer to" part only applies if the two kinds are the same, -- so we can choose which to do. ; writeMetaTyVar cotv (mkTyVarTy tv2) - ; return Nothing + ; return $ Right tv } where -- Kinds should be guaranteed ok at this point update_tv1 = updateMeta tv1 ref1 (mkTyVarTy tv2) + >> return tv1 update_tv2 = updateMeta tv2 ref2 (mkTyVarTy tv1) + >> return tv2 kind_err = addErrCtxtM (unifyKindCtxt swapped tv1 (mkTyVarTy tv2)) $ unifyKindMisMatch k1 k2