{-# OPTIONS -fno-warn-missing-signatures #-} -- | Carries interesting info for debugging / profiling of the -- graph coloring register allocator. {-# OPTIONS -fno-warn-tabs #-} -- The above warning supression flag is a temporary kludge. -- While working on this module you are encouraged to remove it and -- detab the module (please do the detabbing in a separate patch). See -- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#TabsvsSpaces -- for details module RegAlloc.Graph.Stats ( RegAllocStats (..), pprStats, pprStatsSpills, pprStatsLifetimes, pprStatsConflict, pprStatsLifeConflict, countSRMs, addSRM ) where #include "nativeGen/NCG.h" import qualified GraphColor as Color import RegAlloc.Liveness import RegAlloc.Graph.Spill import RegAlloc.Graph.SpillCost import RegAlloc.Graph.TrivColorable import Instruction import RegClass import Reg import TargetReg import OldCmm import OldPprCmm() import Outputable import UniqFM import UniqSet import State import Data.List data RegAllocStats statics instr -- initial graph = RegAllocStatsStart { raLiveCmm :: [LiveCmmDecl statics instr] -- ^ initial code, with liveness , raGraph :: Color.Graph VirtualReg RegClass RealReg -- ^ the initial, uncolored graph , raSpillCosts :: SpillCostInfo } -- ^ information to help choose which regs to spill -- a spill stage | RegAllocStatsSpill { raCode :: [LiveCmmDecl statics instr] -- ^ the code we tried to allocate registers for , raGraph :: Color.Graph VirtualReg RegClass RealReg -- ^ the partially colored graph , raCoalesced :: UniqFM VirtualReg -- ^ the regs that were coaleced , raSpillStats :: SpillStats -- ^ spiller stats , raSpillCosts :: SpillCostInfo -- ^ number of instrs each reg lives for , raSpilled :: [LiveCmmDecl statics instr] } -- ^ code with spill instructions added -- a successful coloring | RegAllocStatsColored { raCode :: [LiveCmmDecl statics instr] -- ^ the code we tried to allocate registers for , raGraph :: Color.Graph VirtualReg RegClass RealReg -- ^ the uncolored graph , raGraphColored :: Color.Graph VirtualReg RegClass RealReg -- ^ the coalesced and colored graph , raCoalesced :: UniqFM VirtualReg -- ^ the regs that were coaleced , raCodeCoalesced :: [LiveCmmDecl statics instr] -- ^ code with coalescings applied , raPatched :: [LiveCmmDecl statics instr] -- ^ code with vregs replaced by hregs , raSpillClean :: [LiveCmmDecl statics instr] -- ^ code with unneeded spill\/reloads cleaned out , raFinal :: [NatCmmDecl statics instr] -- ^ final code , raSRMs :: (Int, Int, Int) } -- ^ spill\/reload\/reg-reg moves present in this code instance (PlatformOutputable statics, PlatformOutputable instr) => PlatformOutputable (RegAllocStats statics instr) where pprPlatform platform (s@RegAllocStatsStart{}) = text "# Start" $$ text "# Native code with liveness information." $$ pprPlatform platform (raLiveCmm s) $$ text "" $$ text "# Initial register conflict graph." $$ Color.dotGraph (targetRegDotColor platform) (trivColorable platform (targetVirtualRegSqueeze platform) (targetRealRegSqueeze platform)) (raGraph s) pprPlatform platform (s@RegAllocStatsSpill{}) = text "# Spill" $$ text "# Code with liveness information." $$ pprPlatform platform (raCode s) $$ text "" $$ (if (not $ isNullUFM $ raCoalesced s) then text "# Registers coalesced." $$ (vcat $ map ppr $ ufmToList $ raCoalesced s) $$ text "" else empty) $$ text "# Spills inserted." $$ ppr (raSpillStats s) $$ text "" $$ text "# Code with spills inserted." $$ pprPlatform platform (raSpilled s) pprPlatform platform (s@RegAllocStatsColored { raSRMs = (spills, reloads, moves) }) = text "# Colored" $$ text "# Code with liveness information." $$ pprPlatform platform (raCode s) $$ text "" $$ text "# Register conflict graph (colored)." $$ Color.dotGraph (targetRegDotColor platform) (trivColorable platform (targetVirtualRegSqueeze platform) (targetRealRegSqueeze platform)) (raGraphColored s) $$ text "" $$ (if (not $ isNullUFM $ raCoalesced s) then text "# Registers coalesced." $$ (vcat $ map ppr $ ufmToList $ raCoalesced s) $$ text "" else empty) $$ text "# Native code after coalescings applied." $$ pprPlatform platform (raCodeCoalesced s) $$ text "" $$ text "# Native code after register allocation." $$ pprPlatform platform (raPatched s) $$ text "" $$ text "# Clean out unneeded spill/reloads." $$ pprPlatform platform (raSpillClean s) $$ text "" $$ text "# Final code, after rewriting spill/rewrite pseudo instrs." $$ pprPlatform platform (raFinal s) $$ text "" $$ text "# Score:" $$ (text "# spills inserted: " <> int spills) $$ (text "# reloads inserted: " <> int reloads) $$ (text "# reg-reg moves remaining: " <> int moves) $$ text "" -- | Do all the different analysis on this list of RegAllocStats pprStats :: [RegAllocStats statics instr] -> Color.Graph VirtualReg RegClass RealReg -> SDoc pprStats stats graph = let outSpills = pprStatsSpills stats outLife = pprStatsLifetimes stats outConflict = pprStatsConflict stats outScatter = pprStatsLifeConflict stats graph in vcat [outSpills, outLife, outConflict, outScatter] -- | Dump a table of how many spill loads \/ stores were inserted for each vreg. pprStatsSpills :: [RegAllocStats statics instr] -> SDoc pprStatsSpills stats = let finals = [ s | s@RegAllocStatsColored{} <- stats] -- sum up how many stores\/loads\/reg-reg-moves were left in the code total = foldl' addSRM (0, 0, 0) $ map raSRMs finals in ( text "-- spills-added-total" $$ text "-- (stores, loads, reg_reg_moves_remaining)" $$ ppr total $$ text "") -- | Dump a table of how long vregs tend to live for in the initial code. pprStatsLifetimes :: [RegAllocStats statics instr] -> SDoc pprStatsLifetimes stats = let info = foldl' plusSpillCostInfo zeroSpillCostInfo [ raSpillCosts s | s@RegAllocStatsStart{} <- stats ] lifeBins = binLifetimeCount $ lifeMapFromSpillCostInfo info in ( text "-- vreg-population-lifetimes" $$ text "-- (instruction_count, number_of_vregs_that_lived_that_long)" $$ (vcat $ map ppr $ eltsUFM lifeBins) $$ text "\n") binLifetimeCount :: UniqFM (VirtualReg, Int) -> UniqFM (Int, Int) binLifetimeCount fm = let lifes = map (\l -> (l, (l, 1))) $ map snd $ eltsUFM fm in addListToUFM_C (\(l1, c1) (_, c2) -> (l1, c1 + c2)) emptyUFM lifes -- | Dump a table of how many conflicts vregs tend to have in the initial code. pprStatsConflict :: [RegAllocStats statics instr] -> SDoc pprStatsConflict stats = let confMap = foldl' (plusUFM_C (\(c1, n1) (_, n2) -> (c1, n1 + n2))) emptyUFM $ map Color.slurpNodeConflictCount [ raGraph s | s@RegAllocStatsStart{} <- stats ] in ( text "-- vreg-conflicts" $$ text "-- (conflict_count, number_of_vregs_that_had_that_many_conflicts)" $$ (vcat $ map ppr $ eltsUFM confMap) $$ text "\n") -- | For every vreg, dump it's how many conflicts it has and its lifetime -- good for making a scatter plot. pprStatsLifeConflict :: [RegAllocStats statics instr] -> Color.Graph VirtualReg RegClass RealReg -- ^ global register conflict graph -> SDoc pprStatsLifeConflict stats graph = let lifeMap = lifeMapFromSpillCostInfo $ foldl' plusSpillCostInfo zeroSpillCostInfo $ [ raSpillCosts s | s@RegAllocStatsStart{} <- stats ] scatter = map (\r -> let lifetime = case lookupUFM lifeMap r of Just (_, l) -> l Nothing -> 0 Just node = Color.lookupNode graph r in parens $ hcat $ punctuate (text ", ") [ doubleQuotes $ ppr $ Color.nodeId node , ppr $ sizeUniqSet (Color.nodeConflicts node) , ppr $ lifetime ]) $ map Color.nodeId $ eltsUFM $ Color.graphMap graph in ( text "-- vreg-conflict-lifetime" $$ text "-- (vreg, vreg_conflicts, vreg_lifetime)" $$ (vcat scatter) $$ text "\n") -- | Count spill/reload/reg-reg moves. -- Lets us see how well the register allocator has done. countSRMs :: Instruction instr => LiveCmmDecl statics instr -> (Int, Int, Int) countSRMs cmm = execState (mapBlockTopM countSRM_block cmm) (0, 0, 0) countSRM_block (BasicBlock i instrs) = do instrs' <- mapM countSRM_instr instrs return $ BasicBlock i instrs' countSRM_instr li | LiveInstr SPILL{} _ <- li = do modify $ \(s, r, m) -> (s + 1, r, m) return li | LiveInstr RELOAD{} _ <- li = do modify $ \(s, r, m) -> (s, r + 1, m) return li | LiveInstr instr _ <- li , Just _ <- takeRegRegMoveInstr instr = do modify $ \(s, r, m) -> (s, r, m + 1) return li | otherwise = return li -- sigh.. addSRM (s1, r1, m1) (s2, r2, m2) = (s1+s2, r1+r2, m1+m2)