X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fcmm%2FCmmCPSZ.hs;h=23e57d72b6c453f890b21949c821f2c4e12bbaeb;hp=9410304b688ab3b9c69e197fdc4d031656946ad3;hb=edc0bafd3fcd01b85a2e8894e5dfe149eb0e0857;hpb=c0a5a5d2e41341046aaf37c1d2155372e7ed3ee8 diff --git a/compiler/cmm/CmmCPSZ.hs b/compiler/cmm/CmmCPSZ.hs index 9410304..23e57d7 100644 --- a/compiler/cmm/CmmCPSZ.hs +++ b/compiler/cmm/CmmCPSZ.hs @@ -1,4 +1,6 @@ -{-# OPTIONS -Wall -fno-warn-name-shadowing #-} +{-# OPTIONS_GHC -XNoMonoLocalBinds #-} +-- Norman likes local bindings +-- If this module lives on I'd like to get rid of this flag in due course module CmmCPSZ ( -- | Converts C-- with full proceedures and parameters @@ -7,45 +9,175 @@ module CmmCPSZ ( protoCmmCPSZ ) where +import CLabel import Cmm -import CmmContFlowOpt +import CmmBuildInfoTables +import CmmCommonBlockElimZ import CmmProcPointZ import CmmSpillReload -import CmmTx +import CmmStackLayout import DFMonad +import PprCmmZ() +import ZipCfgCmmRep + import DynFlags import ErrUtils +import HscTypes +import Data.Maybe +import Control.Monad +import Data.Map (Map) +import qualified Data.Map as Map import Outputable -import PprCmmZ() -import UniqSupply -import ZipCfg hiding (zip, unzip) -import ZipCfgCmmRep -import ZipDataflow +import StaticFlags ----------------------------------------------------------------------------- -- |Top level driver for the CPS pass ----------------------------------------------------------------------------- -protoCmmCPSZ :: DynFlags -- ^ Dynamic flags: -dcmm-lint -ddump-cps-cmm - -> CmmZ -- ^ Input C-- with Proceedures - -> IO CmmZ -- ^ Output CPS transformed C-- -protoCmmCPSZ dflags (Cmm tops) - = do { showPass dflags "CPSZ" - ; u <- mkSplitUniqSupply 'p' - ; let txtops = initUs_ u $ mapM cpsTop tops - ; let pgm = Cmm $ runDFTx maxBound $ sequence txtops - --- XXX calling runDFTx is totally bogus - ; dumpIfSet_dyn dflags Opt_D_dump_cps_cmm "CPS Cmm" (ppr pgm) - ; return pgm - } - -cpsTop :: CmmTopZ -> UniqSM (DFTx CmmTopZ) -cpsTop p@(CmmData {}) = return $ return p -cpsTop (CmmProc h l args g) = - let procPoints = minimalProcPointSet (runTx cmmCfgOptsZ g) - g' = addProcPointProtocols procPoints args g - g'' = map_nodes id NotSpillOrReload id g' - in do us <- getUs - let g = runDFM us dualLiveLattice $ b_rewrite dualLivenessWithInsertion g'' - -- let igraph = buildIGraph - return $ do g' <- g >>= return . map_nodes id spillAndReloadComments id - return $ CmmProc h l args g' +-- There are two complications here: +-- 1. We need to compile the procedures in two stages because we need +-- an analysis of the procedures to tell us what CAFs they use. +-- The first stage returns a map from procedure labels to CAFs, +-- along with a closure that will compute SRTs and attach them to +-- the compiled procedures. +-- The second stage is to combine the CAF information into a top-level +-- CAF environment mapping non-static closures to the CAFs they keep live, +-- then pass that environment to the closures returned in the first +-- stage of compilation. +-- 2. We need to thread the module's SRT around when the SRT tables +-- are computed for each procedure. +-- The SRT needs to be threaded because it is grown lazily. +protoCmmCPSZ :: HscEnv -- Compilation env including + -- dynamic flags: -dcmm-lint -ddump-cps-cmm + -> (TopSRT, [CmmZ]) -- SRT table and accumulating list of compiled procs + -> CmmZ -- Input C-- with Procedures + -> IO (TopSRT, [CmmZ]) -- Output CPS transformed C-- +protoCmmCPSZ hsc_env (topSRT, rst) (Cmm tops) = + do let dflags = hsc_dflags hsc_env + showPass dflags "CPSZ" + (cafEnvs, tops) <- liftM unzip $ mapM (cpsTop hsc_env) tops + let topCAFEnv = mkTopCAFInfo (concat cafEnvs) + (topSRT, tops) <- foldM (toTops hsc_env topCAFEnv) (topSRT, []) tops + -- (topSRT, tops) <- foldM (\ z f -> f topCAFEnv z) (topSRT, []) toTops + let cmms = Cmm (reverse (concat tops)) + dumpIfSet_dyn dflags Opt_D_dump_cps_cmm "Post CPS Cmm" (ppr cmms) + return (topSRT, cmms : rst) + +{- [Note global fuel] +~~~~~~~~~~~~~~~~~~~~~ +The identity and the last pass are stored in +mutable reference cells in an 'HscEnv' and are +global to one compiler session. +-} + +cpsTop :: HscEnv -> CmmTopZ -> + IO ([(CLabel, CAFSet)], + [(CAFSet, CmmTopForInfoTables)]) +cpsTop _ p@(CmmData {}) = return ([], [(Map.empty, NoInfoTable p)]) +cpsTop hsc_env (CmmProc h l args (stackInfo@(entry_off, _), g)) = + do + dump Opt_D_dump_cmmz "Pre Proc Points Added" g + let callPPs = callProcPoints g + -- Why bother doing it this early? + -- g <- dual_rewrite Opt_D_dump_cmmz "spills and reloads" + -- (dualLivenessWithInsertion callPPs) g + -- g <- run $ insertLateReloads g -- Duplicate reloads just before uses + -- g <- dual_rewrite Opt_D_dump_cmmz "Dead Assignment Elimination" + -- (removeDeadAssignmentsAndReloads callPPs) g + dump Opt_D_dump_cmmz "Pre common block elimination" g + g <- return $ elimCommonBlocks g + dump Opt_D_dump_cmmz "Post common block elimination" g + + ----------- Proc points ------------------- + procPoints <- run $ minimalProcPointSet callPPs g + g <- run $ addProcPointProtocols callPPs procPoints g + dump Opt_D_dump_cmmz "Post Proc Points Added" g + + ----------- Spills and reloads ------------------- + g <- + -- pprTrace "pre Spills" (ppr g) $ + dual_rewrite Opt_D_dump_cmmz "spills and reloads" + (dualLivenessWithInsertion procPoints) g + -- Insert spills at defns; reloads at return points + g <- + -- pprTrace "pre insertLateReloads" (ppr g) $ + run $ insertLateReloads g -- Duplicate reloads just before uses + dump Opt_D_dump_cmmz "Post late reloads" g + g <- + -- pprTrace "post insertLateReloads" (ppr g) $ + dual_rewrite Opt_D_dump_cmmz "Dead Assignment Elimination" + (removeDeadAssignmentsAndReloads procPoints) g + -- Remove redundant reloads (and any other redundant asst) + + ----------- Debug only: add code to put zero in dead stack slots---- + -- Debugging: stubbing slots on death can cause crashes early + g <- + -- trace "post dead-assign elim" $ + if opt_StubDeadValues then run $ stubSlotsOnDeath g else return g + + + --------------- Stack layout ---------------- + slotEnv <- run $ liveSlotAnal g + mbpprTrace "live slot analysis results: " (ppr slotEnv) $ return () + -- cafEnv <- -- trace "post liveSlotAnal" $ run $ cafAnal g + -- (cafEnv, slotEnv) <- + -- -- trace "post print cafAnal" $ + -- return $ extendEnvsForSafeForeignCalls cafEnv slotEnv g + slotEnv <- return $ extendEnvWithSafeForeignCalls liveSlotTransfers slotEnv g + mbpprTrace "slotEnv extended for safe foreign calls: " (ppr slotEnv) $ return () + let areaMap = layout procPoints slotEnv entry_off g + mbpprTrace "areaMap" (ppr areaMap) $ return () + + ------------ Manifest the the stack pointer -------- + g <- run $ manifestSP areaMap entry_off g + dump Opt_D_dump_cmmz "after manifestSP" g + -- UGH... manifestSP can require updates to the procPointMap. + -- We can probably do something quicker here for the update... + + ------------- Split into separate procedures ------------ + procPointMap <- run $ procPointAnalysis procPoints g + dump Opt_D_dump_cmmz "procpoint map" procPointMap + gs <- run $ splitAtProcPoints l callPPs procPoints procPointMap + (CmmProc h l args (stackInfo, g)) + mapM_ (dump Opt_D_dump_cmmz "after splitting") gs + + ------------- More CAFs and foreign calls ------------ + cafEnv <- run $ cafAnal g + cafEnv <- return $ extendEnvWithSafeForeignCalls cafTransfers cafEnv g + let localCAFs = catMaybes $ map (localCAFInfo cafEnv) gs + mbpprTrace "localCAFs" (ppr localCAFs) $ return () + + gs <- liftM concat $ run $ foldM lowerSafeForeignCalls [] gs + mapM_ (dump Opt_D_dump_cmmz "after lowerSafeForeignCalls") gs + + -- NO MORE GRAPH TRANSFORMATION AFTER HERE -- JUST MAKING INFOTABLES + let gs' = map (setInfoTableStackMap slotEnv areaMap) gs + mapM_ (dump Opt_D_dump_cmmz "after setInfoTableStackMap") gs' + let gs'' = map (bundleCAFs cafEnv) gs' + mapM_ (dump Opt_D_dump_cmmz "after bundleCAFs") gs'' + return (localCAFs, gs'') + where dflags = hsc_dflags hsc_env + mbpprTrace x y z = if dopt Opt_D_dump_cmmz dflags then pprTrace x y z else z + dump f txt g = dumpIfSet_dyn dflags f txt (ppr g) + + run :: FuelMonad a -> IO a + run = runFuelIO (hsc_OptFuel hsc_env) + + dual_rewrite flag txt pass g = + do dump flag ("Pre " ++ txt) g + g <- run $ pass g + dump flag ("Post " ++ txt) $ g + return g + +-- This probably belongs in CmmBuildInfoTables? +-- We're just finishing the job here: once we know what CAFs are defined +-- in non-static closures, we can build the SRTs. +toTops :: HscEnv -> Map CLabel CAFSet -> (TopSRT, [[CmmTopZ]]) + -> [(CAFSet, CmmTopForInfoTables)] -> IO (TopSRT, [[CmmTopZ]]) + +toTops hsc_env topCAFEnv (topSRT, tops) gs = + do let setSRT (topSRT, rst) g = + do (topSRT, gs) <- setInfoTableSRT topCAFEnv topSRT g + return (topSRT, gs : rst) + (topSRT, gs') <- runFuelIO (hsc_OptFuel hsc_env) $ foldM setSRT (topSRT, []) gs + gs' <- mapM finishInfoTables (concat gs') + return (topSRT, concat gs' : tops)