X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=compiler%2FsimplCore%2FSimplCore.lhs;h=bd1c920f0f233d47f1ef8b01f00cdd2933d51472;hb=7936b988d6d0a5f9a9b439c7d4a6adf616ddb9b5;hp=f2fa70573dfda4dd919ec5ba03d5f266b6c33936;hpb=ad94d40948668032189ad22a0ad741ac1f645f50;p=ghc-hetmet.git diff --git a/compiler/simplCore/SimplCore.lhs b/compiler/simplCore/SimplCore.lhs index f2fa705..bd1c920 100644 --- a/compiler/simplCore/SimplCore.lhs +++ b/compiler/simplCore/SimplCore.lhs @@ -8,7 +8,7 @@ -- The above warning supression flag is a temporary kludge. -- While working on this module you are encouraged to remove it and fix -- any warnings in the module. See --- http://hackage.haskell.org/trac/ghc/wiki/CodingStyle#Warnings +-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings -- for details module SimplCore ( core2core, simplifyExpr ) where @@ -17,32 +17,32 @@ module SimplCore ( core2core, simplifyExpr ) where import DynFlags ( CoreToDo(..), SimplifierSwitch(..), SimplifierMode(..), DynFlags, DynFlag(..), dopt, - getCoreToDo ) + getCoreToDo, shouldDumpSimplPhase ) import CoreSyn -import HscTypes ( HscEnv(..), ModGuts(..), ExternalPackageState(..), - Dependencies( dep_mods ), - hscEPS, hptRules ) +import HscTypes import CSE ( cseProgram ) import Rules ( RuleBase, emptyRuleBase, mkRuleBase, unionRuleBase, - extendRuleBaseList, pprRuleBase, ruleCheckProgram, + extendRuleBaseList, pprRuleBase, pprRulesForUser, + ruleCheckProgram, rulesOfBinds, addSpecInfo, addIdSpecialisations ) import PprCore ( pprCoreBindings, pprCoreExpr, pprRules ) import OccurAnal ( occurAnalysePgm, occurAnalyseExpr ) -import IdInfo ( setNewStrictnessInfo, newStrictnessInfo, - setWorkerInfo, workerInfo, - setInlinePragInfo, inlinePragInfo, - setSpecInfo, specInfo, specInfoRules ) +import IdInfo import CoreUtils ( coreBindsSize ) import Simplify ( simplTopBinds, simplExpr ) import SimplEnv ( SimplEnv, simplBinders, mkSimplEnv, setInScopeSet ) import SimplMonad -import ErrUtils ( dumpIfSet, dumpIfSet_dyn, showPass ) -import CoreLint ( endPass ) +import CoreMonad +import qualified ErrUtils as Err ( dumpIfSet_dyn, dumpIfSet, showPass ) +import CoreLint ( showPass, endPass, endPassIf, endIteration ) import FloatIn ( floatInwards ) import FloatOut ( floatOutwards ) import FamInstEnv -import Id ( Id, modifyIdInfo, idInfo, isExportedId, isLocalId, - idSpecialisation, idName ) +import Id +import DataCon +import TyCon ( tyConDataCons ) +import Class ( classSelIds ) +import BasicTypes ( CompilerPhase, isActive, isDefaultInlinePragma ) import VarSet import VarEnv import NameEnv ( lookupNameEnv ) @@ -57,12 +57,15 @@ import StrictAnal ( saBinds ) import CprAnalyse ( cprAnalyse ) #endif import Vectorise ( vectorise ) +import FastString +import Util import UniqSupply ( UniqSupply, mkSplitUniqSupply, splitUniqSupply ) import IO ( hPutStr, stderr ) import Outputable -import List ( partition ) -import Maybes ( orElse ) +import Control.Monad +import List ( partition, intersperse ) +import Maybes \end{code} %************************************************************************ @@ -76,28 +79,39 @@ core2core :: HscEnv -> ModGuts -> IO ModGuts -core2core hsc_env guts - = do - let dflags = hsc_dflags hsc_env - core_todos = getCoreToDo dflags +core2core hsc_env guts = do + let dflags = hsc_dflags hsc_env - us <- mkSplitUniqSupply 's' - let (cp_us, ru_us) = splitUniqSupply us + us <- mkSplitUniqSupply 's' + let (cp_us, ru_us) = splitUniqSupply us - -- COMPUTE THE RULE BASE TO USE - (imp_rule_base, guts') <- prepareRules hsc_env guts ru_us + -- COMPUTE THE ANNOTATIONS TO USE + ann_env <- prepareAnnotations hsc_env (Just guts) - -- DO THE BUSINESS - (stats, guts'') <- doCorePasses hsc_env imp_rule_base cp_us - (zeroSimplCount dflags) - guts' core_todos + -- COMPUTE THE RULE BASE TO USE + (imp_rule_base, guts1) <- prepareRules hsc_env guts ru_us - dumpIfSet_dyn dflags Opt_D_dump_simpl_stats - "Grand total simplifier statistics" - (pprSimplCount stats) + -- Get the module out of the current HscEnv so we can retrieve it from the monad. + -- This is very convienent for the users of the monad (e.g. plugins do not have to + -- consume the ModGuts to find the module) but somewhat ugly because mg_module may + -- _theoretically_ be changed during the Core pipeline (it's part of ModGuts), which + -- would mean our cached value would go out of date. + let mod = mg_module guts + (guts2, stats) <- runCoreM hsc_env ann_env imp_rule_base cp_us mod $ do + -- FIND BUILT-IN PASSES + let builtin_core_todos = getCoreToDo dflags - return guts'' + -- DO THE BUSINESS + doCorePasses builtin_core_todos guts1 + Err.dumpIfSet_dyn dflags Opt_D_dump_simpl_stats + "Grand total simplifier statistics" + (pprSimplCount stats) + + return guts2 + + +type CorePass = CoreToDo simplifyExpr :: DynFlags -- includes spec of what core-to-core passes to do -> CoreExpr @@ -106,14 +120,14 @@ simplifyExpr :: DynFlags -- includes spec of what core-to-core passes to do -- expression typed in at the interactive prompt simplifyExpr dflags expr = do { - ; showPass dflags "Simplify" + ; Err.showPass dflags "Simplify" ; us <- mkSplitUniqSupply 's' ; let (expr', _counts) = initSmpl dflags emptyRuleBase emptyFamInstEnvs us $ simplExprGently gentleSimplEnv expr - ; dumpIfSet_dyn dflags Opt_D_dump_simpl "Simplified expression" + ; Err.dumpIfSet_dyn dflags Opt_D_dump_simpl "Simplified expression" (pprCoreExpr expr') ; return expr' @@ -122,97 +136,171 @@ simplifyExpr dflags expr gentleSimplEnv :: SimplEnv gentleSimplEnv = mkSimplEnv SimplGently (isAmongSimpl []) -doCorePasses :: HscEnv - -> RuleBase -- the imported main rule base - -> UniqSupply -- uniques - -> SimplCount -- simplifier stats - -> ModGuts -- local binds in (with rules attached) - -> [CoreToDo] -- which passes to do - -> IO (SimplCount, ModGuts) - -doCorePasses hsc_env rb us stats guts [] - = return (stats, guts) - -doCorePasses hsc_env rb us stats guts (CoreDoPasses to_dos1 : to_dos2) - = doCorePasses hsc_env rb us stats guts (to_dos1 ++ to_dos2) - -doCorePasses hsc_env rb us stats guts (to_do : to_dos) - = do - let (us1, us2) = splitUniqSupply us - (stats1, guts1) <- doCorePass to_do hsc_env us1 rb guts - doCorePasses hsc_env rb us2 (stats `plusSimplCount` stats1) guts1 to_dos - -doCorePass :: CoreToDo -> HscEnv -> UniqSupply -> RuleBase - -> ModGuts -> IO (SimplCount, ModGuts) -doCorePass (CoreDoSimplify mode sws) = {-# SCC "Simplify" #-} simplifyPgm mode sws -doCorePass CoreCSE = {-# SCC "CommonSubExpr" #-} trBinds cseProgram -doCorePass CoreLiberateCase = {-# SCC "LiberateCase" #-} liberateCase -doCorePass CoreDoFloatInwards = {-# SCC "FloatInwards" #-} trBinds floatInwards -doCorePass (CoreDoFloatOutwards f) = {-# SCC "FloatOutwards" #-} trBindsU (floatOutwards f) -doCorePass CoreDoStaticArgs = {-# SCC "StaticArgs" #-} trBinds doStaticArgs -doCorePass CoreDoStrictness = {-# SCC "Stranal" #-} trBinds dmdAnalPgm -doCorePass CoreDoWorkerWrapper = {-# SCC "WorkWrap" #-} trBindsU wwTopBinds -doCorePass CoreDoSpecialising = {-# SCC "Specialise" #-} trBindsU specProgram -doCorePass CoreDoSpecConstr = {-# SCC "SpecConstr" #-} trBindsU specConstrProgram -doCorePass CoreDoGlomBinds = trBinds glomBinds -doCorePass CoreDoVectorisation = {-# SCC "Vectorise" #-} vectorise -doCorePass CoreDoPrintCore = observe printCore -doCorePass (CoreDoRuleCheck phase pat) = observe (ruleCheck phase pat) -doCorePass CoreDoNothing = observe (\ _ _ -> return ()) -#ifdef OLD_STRICTNESS -doCorePass CoreDoOldStrictness = {-# SCC "OldStrictness" #-} trBinds doOldStrictness -#else -doCorePass CoreDoOldStrictness = panic "CoreDoOldStrictness" +doCorePasses :: [CorePass] -> ModGuts -> CoreM ModGuts +doCorePasses passes guts = foldM (flip doCorePass) guts passes + +doCorePass :: CorePass -> ModGuts -> CoreM ModGuts +doCorePass (CoreDoSimplify mode sws) = {-# SCC "Simplify" #-} + simplifyPgm mode sws + +doCorePass CoreCSE = {-# SCC "CommonSubExpr" #-} + describePass "Common sub-expression" Opt_D_dump_cse $ + doPass cseProgram + +doCorePass CoreLiberateCase = {-# SCC "LiberateCase" #-} + describePass "Liberate case" Opt_D_verbose_core2core $ + doPassD liberateCase + +doCorePass CoreDoFloatInwards = {-# SCC "FloatInwards" #-} + describePass "Float inwards" Opt_D_verbose_core2core $ + doPass floatInwards + +doCorePass (CoreDoFloatOutwards f) = {-# SCC "FloatOutwards" #-} + describePassD (text "Float out" <+> parens (ppr f)) + Opt_D_verbose_core2core $ + doPassDUM (floatOutwards f) + +doCorePass CoreDoStaticArgs = {-# SCC "StaticArgs" #-} + describePass "Static argument" Opt_D_verbose_core2core $ + doPassU doStaticArgs + +doCorePass CoreDoStrictness = {-# SCC "Stranal" #-} + describePass "Demand analysis" Opt_D_dump_stranal $ + doPassDM dmdAnalPgm + +doCorePass CoreDoWorkerWrapper = {-# SCC "WorkWrap" #-} + describePass "Worker Wrapper binds" Opt_D_dump_worker_wrapper $ + doPassU wwTopBinds + +doCorePass CoreDoSpecialising = {-# SCC "Specialise" #-} + describePassR "Specialise" Opt_D_dump_spec $ + doPassU specProgram + +doCorePass CoreDoSpecConstr = {-# SCC "SpecConstr" #-} + describePassR "SpecConstr" Opt_D_dump_spec $ + doPassDU specConstrProgram + +doCorePass (CoreDoVectorisation be) = {-# SCC "Vectorise" #-} + describePass "Vectorisation" Opt_D_dump_vect $ + vectorise be + +doCorePass CoreDoGlomBinds = dontDescribePass $ doPassDM glomBinds +doCorePass CoreDoPrintCore = dontDescribePass $ observe printCore +doCorePass (CoreDoRuleCheck phase pat) = dontDescribePass $ ruleCheck phase pat + +#ifdef OLD_STRICTNESS +doCorePass CoreDoOldStrictness = {-# SCC "OldStrictness" #-} doOldStrictness #endif -doCorePass (CoreDoPasses _) = panic "CoreDoPasses" + +doCorePass CoreDoNothing = return +doCorePass (CoreDoPasses passes) = doCorePasses passes #ifdef OLD_STRICTNESS -doOldStrictness dfs binds - = do binds1 <- saBinds dfs binds - binds2 <- cprAnalyse dfs binds1 - return binds2 +doOldStrictness :: ModGuts -> CoreM ModGuts +doOldStrictness guts + = do dfs <- getDynFlags + guts' <- describePass "Strictness analysis" Opt_D_dump_stranal $ + doPassM (saBinds dfs) guts + guts'' <- describePass "Constructed Product analysis" Opt_D_dump_cpranal $ + doPass cprAnalyse guts' + return guts'' #endif -printCore _ binds = dumpIfSet True "Print Core" (pprCoreBindings binds) +\end{code} -ruleCheck phase pat dflags binds = do showPass dflags "RuleCheck" - printDump (ruleCheckProgram phase pat binds) +%************************************************************************ +%* * +\subsection{Core pass combinators} +%* * +%************************************************************************ --- Most passes return no stats and don't change rules -trBinds :: (DynFlags -> [CoreBind] -> IO [CoreBind]) - -> HscEnv -> UniqSupply -> RuleBase -> ModGuts - -> IO (SimplCount, ModGuts) -trBinds do_pass hsc_env us rb guts - = do { binds' <- do_pass dflags (mg_binds guts) - ; return (zeroSimplCount dflags, guts { mg_binds = binds' }) } - where - dflags = hsc_dflags hsc_env - -trBindsU :: (DynFlags -> UniqSupply -> [CoreBind] -> IO [CoreBind]) - -> HscEnv -> UniqSupply -> RuleBase -> ModGuts - -> IO (SimplCount, ModGuts) -trBindsU do_pass hsc_env us rb guts - = do { binds' <- do_pass dflags us (mg_binds guts) - ; return (zeroSimplCount dflags, guts { mg_binds = binds' }) } - where - dflags = hsc_dflags hsc_env +\begin{code} + +dontDescribePass :: (ModGuts -> CoreM ModGuts) -> ModGuts -> CoreM ModGuts +dontDescribePass = ($) + +describePass :: String -> DynFlag -> (ModGuts -> CoreM ModGuts) -> ModGuts -> CoreM ModGuts +describePass name dflag pass guts = do + dflags <- getDynFlags + + liftIO $ showPass dflags name + guts' <- pass guts + liftIO $ endPass dflags name dflag (mg_binds guts') + + return guts' + +describePassD :: SDoc -> DynFlag -> (ModGuts -> CoreM ModGuts) -> ModGuts -> CoreM ModGuts +describePassD doc = describePass (showSDoc doc) + +describePassR :: String -> DynFlag -> (ModGuts -> CoreM ModGuts) -> ModGuts -> CoreM ModGuts +describePassR name dflag pass guts = do + guts' <- describePass name dflag pass guts + dumpIfSet_dyn Opt_D_dump_rules "Top-level specialisations" + (pprRulesForUser (rulesOfBinds (mg_binds guts'))) + return guts' + +printCore _ binds = Err.dumpIfSet True "Print Core" (pprCoreBindings binds) + +ruleCheck :: CompilerPhase -> String -> ModGuts -> CoreM ModGuts +ruleCheck current_phase pat guts = do + let is_active = isActive current_phase + rb <- getRuleBase + dflags <- getDynFlags + liftIO $ Err.showPass dflags "RuleCheck" + liftIO $ printDump (ruleCheckProgram is_active pat rb (mg_binds guts)) + return guts + + +doPassDMS :: (DynFlags -> [CoreBind] -> IO (SimplCount, [CoreBind])) -> ModGuts -> CoreM ModGuts +doPassDMS do_pass = doPassM $ \binds -> do + dflags <- getDynFlags + liftIOWithCount $ do_pass dflags binds + +doPassDUM :: (DynFlags -> UniqSupply -> [CoreBind] -> IO [CoreBind]) -> ModGuts -> CoreM ModGuts +doPassDUM do_pass = doPassM $ \binds -> do + dflags <- getDynFlags + us <- getUniqueSupplyM + liftIO $ do_pass dflags us binds + +doPassDM :: (DynFlags -> [CoreBind] -> IO [CoreBind]) -> ModGuts -> CoreM ModGuts +doPassDM do_pass = doPassDUM (\dflags -> const (do_pass dflags)) + +doPassD :: (DynFlags -> [CoreBind] -> [CoreBind]) -> ModGuts -> CoreM ModGuts +doPassD do_pass = doPassDM (\dflags -> return . do_pass dflags) + +doPassDU :: (DynFlags -> UniqSupply -> [CoreBind] -> [CoreBind]) -> ModGuts -> CoreM ModGuts +doPassDU do_pass = doPassDUM (\dflags us -> return . do_pass dflags us) + +doPassU :: (UniqSupply -> [CoreBind] -> [CoreBind]) -> ModGuts -> CoreM ModGuts +doPassU do_pass = doPassDU (const do_pass) + +-- Most passes return no stats and don't change rules: these combinators +-- let us lift them to the full blown ModGuts+CoreM world +doPassM :: Monad m => ([CoreBind] -> m [CoreBind]) -> ModGuts -> m ModGuts +doPassM bind_f guts = do + binds' <- bind_f (mg_binds guts) + return (guts { mg_binds = binds' }) + +doPassMG :: Monad m => (ModGuts -> m [CoreBind]) -> ModGuts -> m ModGuts +doPassMG bind_f guts = do + binds' <- bind_f guts + return (guts { mg_binds = binds' }) + +doPass :: ([CoreBind] -> [CoreBind]) -> ModGuts -> CoreM ModGuts +doPass bind_f guts = return $ guts { mg_binds = bind_f (mg_binds guts) } -- Observer passes just peek; don't modify the bindings at all -observe :: (DynFlags -> [CoreBind] -> IO a) - -> HscEnv -> UniqSupply -> RuleBase -> ModGuts - -> IO (SimplCount, ModGuts) -observe do_pass hsc_env us rb guts - = do { binds <- do_pass dflags (mg_binds guts) - ; return (zeroSimplCount dflags, guts) } - where - dflags = hsc_dflags hsc_env +observe :: (DynFlags -> [CoreBind] -> IO a) -> ModGuts -> CoreM ModGuts +observe do_pass = doPassM $ \binds -> do + dflags <- getDynFlags + liftIO $ do_pass dflags binds + return binds \end{code} - %************************************************************************ %* * -\subsection{Dealing with rules} + Dealing with rules %* * %************************************************************************ @@ -234,14 +322,15 @@ prepareRules :: HscEnv -- (b) Rules are now just orphan rules prepareRules hsc_env@(HscEnv { hsc_dflags = dflags, hsc_HPT = hpt }) - guts@(ModGuts { mg_binds = binds, mg_deps = deps, mg_rules = local_rules }) + guts@(ModGuts { mg_binds = binds, mg_deps = deps + , mg_rules = local_rules, mg_rdr_env = rdr_env }) us = do { let -- Simplify the local rules; boringly, we need to make an in-scope set -- from the local binders, to avoid warnings from Simplify.simplVar local_ids = mkInScopeSet (mkVarSet (bindersOfBinds binds)) env = setInScopeSet gentleSimplEnv local_ids (better_rules,_) = initSmpl dflags emptyRuleBase emptyFamInstEnvs us $ - (mapSmpl (simplRule env) local_rules) + (mapM (simplRule env) local_rules) home_pkg_rules = hptRules hsc_env (dep_mods deps) -- Find the rules for locally-defined Ids; then we can attach them @@ -266,8 +355,9 @@ prepareRules hsc_env@(HscEnv { hsc_dflags = dflags, hsc_HPT = hpt }) hpt_rule_base = mkRuleBase home_pkg_rules imp_rule_base = extendRuleBaseList hpt_rule_base rules_for_imps - ; dumpIfSet_dyn dflags Opt_D_dump_rules "Transformation rules" - (vcat [text "Local rules", pprRules better_rules, + ; Err.dumpIfSet_dyn dflags Opt_D_dump_rules "Transformation rules" + (withPprStyle (mkUserStyle (mkPrintUnqualified dflags rdr_env) AllTheWay) $ + vcat [text "Local rules", pprRules better_rules, text "", text "Imported rules", pprRuleBase imp_rule_base]) @@ -289,21 +379,28 @@ updateBinders local_rules binds -- arising from specialisation pragmas \end{code} - -We must do some gentle simplification on the template (but not the RHS) -of each rule. The case that forced me to add this was the fold/build rule, +Note [Simplifying the left-hand side of a RULE] +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +We must do some gentle simplification on the lhs (template) of each +rule. The case that forced me to add this was the fold/build rule, which without simplification looked like: fold k z (build (/\a. g a)) ==> ... This doesn't match unless you do eta reduction on the build argument. +Similarly for a LHS like + augment g (build h) +we do not want to get + augment (\a. g a) (build h) +otherwise we don't match when given an argument like + augment (\a. h a a) (build h) \begin{code} simplRule env rule@(BuiltinRule {}) - = returnSmpl rule + = return rule simplRule env rule@(Rule { ru_bndrs = bndrs, ru_args = args, ru_rhs = rhs }) - = simplBinders env bndrs `thenSmpl` \ (env, bndrs') -> - mapSmpl (simplExprGently env) args `thenSmpl` \ args' -> - simplExprGently env rhs `thenSmpl` \ rhs' -> - returnSmpl (rule { ru_bndrs = bndrs', ru_args = args', ru_rhs = rhs' }) + = do (env, bndrs') <- simplBinders env bndrs + args' <- mapM (simplExprGently env) args + rhs' <- simplExprGently env rhs + return (rule { ru_bndrs = bndrs', ru_args = args', ru_rhs = rhs' }) -- It's important that simplExprGently does eta reduction. -- For example, in a rule like: @@ -325,13 +422,19 @@ simplExprGently :: SimplEnv -> CoreExpr -> SimplM CoreExpr -- alone leaves tons of crud. -- Used (a) for user expressions typed in at the interactive prompt -- (b) the LHS and RHS of a RULE +-- (c) Template Haskell splices -- -- The name 'Gently' suggests that the SimplifierMode is SimplGently, -- and in fact that is so.... but the 'Gently' in simplExprGently doesn't -- enforce that; it just simplifies the expression twice -simplExprGently env expr - = simplExpr env (occurAnalyseExpr expr) `thenSmpl` \ expr1 -> +-- It's important that simplExprGently does eta reduction; see +-- Note [Simplifying the left-hand side of a RULE] above. The +-- simplifier does indeed do eta reduction (it's in Simplify.completeLam) +-- but only if -O is on. + +simplExprGently env expr = do + expr1 <- simplExpr env (occurAnalyseExpr expr) simplExpr env (occurAnalyseExpr expr1) \end{code} @@ -370,7 +473,7 @@ glomBinds :: DynFlags -> [CoreBind] -> IO [CoreBind] -- analyser as free in f. glomBinds dflags binds - = do { showPass dflags "GlomBinds" ; + = do { Err.showPass dflags "GlomBinds" ; let { recd_binds = [Rec (flattenBinds binds)] } ; return recd_binds } -- Not much point in printing the result... @@ -385,37 +488,46 @@ glomBinds dflags binds %************************************************************************ \begin{code} -simplifyPgm :: SimplifierMode +simplifyPgm :: SimplifierMode -> [SimplifierSwitch] -> ModGuts -> CoreM ModGuts +simplifyPgm mode switches + = describePassD doc Opt_D_dump_simpl_phases $ \guts -> + do { hsc_env <- getHscEnv + ; us <- getUniqueSupplyM + ; rb <- getRuleBase + ; let fam_inst_env = mg_fam_inst_env guts + dump_phase = shouldDumpSimplPhase (hsc_dflags hsc_env) mode + simplify_pgm = simplifyPgmIO dump_phase mode switches + hsc_env us rb fam_inst_env + + ; doPassM (liftIOWithCount . simplify_pgm) guts } + where + doc = ptext (sLit "Simplifier Phase") <+> text (showPpr mode) + +simplifyPgmIO :: Bool + -> SimplifierMode -> [SimplifierSwitch] -> HscEnv -> UniqSupply -> RuleBase - -> ModGuts - -> IO (SimplCount, ModGuts) -- New bindings + -> FamInstEnv + -> [CoreBind] + -> IO (SimplCount, [CoreBind]) -- New bindings -simplifyPgm mode switches hsc_env us imp_rule_base guts +simplifyPgmIO dump_phase mode switches hsc_env us imp_rule_base fam_inst_env binds = do { - showPass dflags "Simplify"; - (termination_msg, it_count, counts_out, binds') - <- do_iteration us 1 (zeroSimplCount dflags) (mg_binds guts) ; + <- do_iteration us 1 (zeroSimplCount dflags) binds ; - dumpIfSet (dopt Opt_D_verbose_core2core dflags - && dopt Opt_D_dump_simpl_stats dflags) - "Simplifier statistics" + Err.dumpIfSet (dump_phase && dopt Opt_D_dump_simpl_stats dflags) + "Simplifier statistics for following pass" (vcat [text termination_msg <+> text "after" <+> ppr it_count <+> text "iterations", text "", pprSimplCount counts_out]); - endPass dflags ("Simplify phase " ++ phase_info ++ " done") Opt_D_verbose_core2core binds'; - - return (counts_out, guts { mg_binds = binds' }) + return (counts_out, binds') } where dflags = hsc_dflags hsc_env - phase_info = case mode of - SimplGently -> "gentle" - SimplPhase n -> show n sw_chkr = isAmongSimpl switches max_iterations = intSwitchSet sw_chkr MaxSimplifierIterations `orElse` 2 @@ -424,19 +536,13 @@ simplifyPgm mode switches hsc_env us imp_rule_base guts -- iteration_no is the number of the iteration we are -- about to begin, with '1' for the first | iteration_no > max_iterations -- Stop if we've run out of iterations - = do { -#ifdef DEBUG - if max_iterations > 2 then - hPutStr stderr ("NOTE: Simplifier still going after " ++ - show max_iterations ++ - " iterations; bailing out.\n") - else - return (); -#endif + = WARN(debugIsOn && (max_iterations > 2), + text ("Simplifier still going after " ++ + show max_iterations ++ + " iterations; bailing out. Size = " ++ show (coreBindsSize binds) ++ "\n" )) -- Subtract 1 from iteration_no to get the -- number of iterations we actually completed - return ("Simplifier baled out", iteration_no - 1, counts, binds) - } + return ("Simplifier bailed out", iteration_no - 1, counts, binds) -- Try and force thunks off the binds; significantly reduces -- space usage, especially with -O. JRS, 000620. @@ -444,7 +550,7 @@ simplifyPgm mode switches hsc_env us imp_rule_base guts = do { -- Occurrence analysis let { tagged_binds = {-# SCC "OccAnal" #-} occurAnalysePgm binds } ; - dumpIfSet_dyn dflags Opt_D_dump_occur_anal "Occurrence analysis" + Err.dumpIfSet_dyn dflags Opt_D_dump_occur_anal "Occurrence analysis" (pprCoreBindings tagged_binds); -- Get any new rules, and extend the rule base @@ -457,7 +563,7 @@ simplifyPgm mode switches hsc_env us imp_rule_base guts ; simpl_env = mkSimplEnv mode sw_chkr ; simpl_binds = {-# SCC "SimplTopBinds" #-} simplTopBinds simpl_env tagged_binds - ; fam_envs = (eps_fam_inst_env eps, mg_fam_inst_env guts) } ; + ; fam_envs = (eps_fam_inst_env eps, fam_inst_env) } ; -- Simplify the program -- We do this with a *case* not a *let* because lazy pattern @@ -474,7 +580,7 @@ simplifyPgm mode switches hsc_env us imp_rule_base guts (binds', counts') -> do { let { all_counts = counts `plusSimplCount` counts' - ; herald = "Simplifier phase " ++ phase_info ++ + ; herald = "Simplifier mode " ++ showPpr mode ++ ", iteration " ++ show iteration_no ++ " out of " ++ show max_iterations } ; @@ -495,9 +601,9 @@ simplifyPgm mode switches hsc_env us imp_rule_base guts let { binds'' = {-# SCC "ZapInd" #-} shortOutIndirections binds' } ; -- Dump the result of this iteration - dumpIfSet_dyn dflags Opt_D_dump_simpl_iterations herald + Err.dumpIfSet_dyn dflags Opt_D_dump_simpl_iterations herald (pprSimplCount counts') ; - endPass dflags herald Opt_D_dump_simpl_iterations binds'' ; + endIteration dflags herald Opt_D_dump_simpl_iterations binds'' ; -- Loop do_iteration us2 (iteration_no + 1) all_counts binds'' @@ -530,22 +636,20 @@ save a gratuitous jump (from \tr{x_exported} to \tr{x_local}), and makes strictness information propagate better. This used to happen in the final phase, but it's tidier to do it here. +Note [Transferring IdInfo] +~~~~~~~~~~~~~~~~~~~~~~~~~~ +We want to propagage any useful IdInfo on x_local to x_exported. + STRICTNESS: if we have done strictness analysis, we want the strictness info on x_local to transfer to x_exported. Hence the copyIdInfo call. RULES: we want to *add* any RULES for x_local to x_exported. -Note [Rules and indirection-zapping] -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -Problem: what if x_exported has a RULE that mentions something in ...bindings...? -Then the things mentioned can be out of scope! Solution - a) Make sure that in this pass the usage-info from x_exported is - available for ...bindings... - b) If there are any such RULES, rec-ify the entire top-level. - It'll get sorted out next time round -Messing up the rules -~~~~~~~~~~~~~~~~~~~~ +Note [Messing up the exported Id's IdInfo] +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +We must be careful about discarding the IdInfo on the old Id + The example that went bad on me at one stage was this one: iterate :: (a -> a) -> a -> [a] @@ -579,13 +683,28 @@ And now we get an infinite loop in the rule system -> iterateFB (:) f x -> iterate f x -Tiresome old solution: - don't do shorting out if f has rewrite rules (see shortableIdInfo) - -New solution (I think): +Old "solution": use rule switching-off pragmas to get rid of iterateList in the first place +But in principle the user *might* want rules that only apply to the Id +he says. And inline pragmas are similar + {-# NOINLINE f #-} + f = local + local = +Then we do not want to get rid of the NOINLINE. + +Hence hasShortableIdinfo. + + +Note [Rules and indirection-zapping] +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +Problem: what if x_exported has a RULE that mentions something in ...bindings...? +Then the things mentioned can be out of scope! Solution + a) Make sure that in this pass the usage-info from x_exported is + available for ...bindings... + b) If there are any such RULES, rec-ify the entire top-level. + It'll get sorted out next time round Other remarks ~~~~~~~~~~~~~ @@ -656,6 +775,7 @@ makeIndEnv binds add_pair (exported_id, rhs) env = env +----------------- shortMeOut ind_env exported_id local_id -- The if-then-else stuff is just so I can get a pprTrace to see -- how often I don't get shorting out becuase of IdInfo stuff @@ -670,23 +790,27 @@ shortMeOut ind_env exported_id local_id not (local_id `elemVarEnv` ind_env) -- Only if not already substituted for then - True - -{- No longer needed - if isEmptySpecInfo (specInfo (idInfo exported_id)) -- Only if no rules - then True -- See note on "Messing up rules" - else -#ifdef DEBUG - pprTrace "shortMeOut:" (ppr exported_id) -#endif - False --} + if hasShortableIdInfo exported_id + then True -- See Note [Messing up the exported Id's IdInfo] + else WARN( True, ptext (sLit "Not shorting out:") <+> ppr exported_id ) + False else - False + False +----------------- +hasShortableIdInfo :: Id -> Bool +-- True if there is no user-attached IdInfo on exported_id, +-- so we can safely discard it +-- See Note [Messing up the exported Id's IdInfo] +hasShortableIdInfo id + = isEmptySpecInfo (specInfo info) + && isDefaultInlinePragma (inlinePragInfo info) + where + info = idInfo id ----------------- transferIdInfo :: Id -> Id -> Id +-- See Note [Transferring IdInfo] -- If we have -- lcl_id = e; exp_id = lcl_id -- and lcl_id has useful IdInfo, we don't want to discard it by going @@ -700,6 +824,9 @@ transferIdInfo exported_id local_id transfer exp_info = exp_info `setNewStrictnessInfo` newStrictnessInfo local_info `setWorkerInfo` workerInfo local_info `setInlinePragInfo` inlinePragInfo local_info - `setSpecInfo` addSpecInfo (specInfo exp_info) - (specInfo local_info) + `setSpecInfo` addSpecInfo (specInfo exp_info) new_info + new_info = setSpecInfoHead (idName exported_id) + (specInfo local_info) + -- Remember to set the function-name field of the + -- rules as we transfer them from one function to another \end{code}