{-# LANGUAGE GADTs, NoMonoLocalBinds, FlexibleContexts #-} -- Norman likes local bindings -- If this module lives on I'd like to get rid of this flag in due course {-# OPTIONS_GHC -fno-warn-warnings-deprecations #-} #if __GLASGOW_HASKELL__ >= 701 -- GHC 7.0.1 improved incomplete pattern warnings with GADTs {-# OPTIONS_GHC -fwarn-incomplete-patterns #-} #endif module CmmSpillReload ( DualLive(..) , dualLiveLattice, dualLiveTransfers, dualLiveness --, insertSpillsAndReloads --- XXX todo check live-in at entry against formals , dualLivenessWithInsertion , removeDeadAssignmentsAndReloads ) where import BlockId import Cmm import CmmExpr import CmmLive import OptimizationFuel import Control.Monad import Outputable hiding (empty) import qualified Outputable as PP import UniqSet import Compiler.Hoopl hiding (Unique) import Data.Maybe import Prelude hiding (succ, zip) {- Note [Overview of spill/reload] ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The point of this module is to insert spills and reloads to establish the invariant that at a call (or at any proc point with an established protocol) all live variables not expected in registers are sitting on the stack. We use a backward analysis to insert spills and reloads. It should be followed by a forward transformation to sink reloads as deeply as possible, so as to reduce register pressure. A variable can be expected to be live in a register, live on the stack, or both. This analysis ensures that spills and reloads are inserted as needed to make sure that every live variable needed after a call is available on the stack. Spills are pushed back to their reaching definitions, but reloads are dropped immediately after we return from a call and will have to be sunk by a later forward transformation. Note that we offer no guarantees about the consistency of the value in memory and the value in the register, except that they are equal across calls/procpoints. If the variable is changed, this mapping breaks: but as the original value of the register may still be useful in a different context, the memory location is not updated. -} data DualLive = DualLive { on_stack :: RegSet, in_regs :: RegSet } dualUnion :: DualLive -> DualLive -> DualLive dualUnion (DualLive s r) (DualLive s' r') = DualLive (s `unionUniqSets` s') (r `unionUniqSets` r') dualUnionList :: [DualLive] -> DualLive dualUnionList ls = DualLive ss rs where ss = unionManyUniqSets $ map on_stack ls rs = unionManyUniqSets $ map in_regs ls changeStack, changeRegs :: (RegSet -> RegSet) -> DualLive -> DualLive changeStack f live = live { on_stack = f (on_stack live) } changeRegs f live = live { in_regs = f (in_regs live) } dualLiveLattice :: DataflowLattice DualLive dualLiveLattice = DataflowLattice "variables live in registers and on stack" empty add where empty = DualLive emptyRegSet emptyRegSet add _ (OldFact old) (NewFact new) = (changeIf $ change1 || change2, DualLive stack regs) where (change1, stack) = add1 (on_stack old) (on_stack new) (change2, regs) = add1 (in_regs old) (in_regs new) add1 old new = if sizeUniqSet join > sizeUniqSet old then (True, join) else (False, old) where join = unionUniqSets old new dualLivenessWithInsertion :: BlockSet -> CmmGraph -> FuelUniqSM CmmGraph dualLivenessWithInsertion procPoints g = liftM fst $ dataflowPassBwd g [] $ analRewBwd dualLiveLattice (dualLiveTransfers (g_entry g) procPoints) (insertSpillAndReloadRewrites g procPoints) dualLiveness :: BlockSet -> CmmGraph -> FuelUniqSM (BlockEnv DualLive) dualLiveness procPoints g = liftM snd $ dataflowPassBwd g [] $ analBwd dualLiveLattice $ dualLiveTransfers (g_entry g) procPoints dualLiveTransfers :: BlockId -> BlockSet -> (BwdTransfer CmmNode DualLive) dualLiveTransfers entry procPoints = mkBTransfer3 first middle last where first :: CmmNode C O -> DualLive -> DualLive first (CmmEntry id) live = check live id $ -- live at procPoint => spill if id /= entry && setMember id procPoints then DualLive { on_stack = on_stack live `plusRegSet` in_regs live , in_regs = emptyRegSet } else live where check live id x = if id == entry then noLiveOnEntry id (in_regs live) x else x middle :: CmmNode O O -> DualLive -> DualLive middle m = changeStack updSlots . changeRegs updRegs where -- Reuse middle of liveness analysis from CmmLive updRegs = case getBTransfer3 xferLive of (_, middle, _) -> middle m updSlots live = foldSlotsUsed reload (foldSlotsDefd spill live m) m spill live s@(RegSlot r, _, _) = check s $ deleteFromRegSet live r spill live _ = live reload live s@(RegSlot r, _, _) = check s $ extendRegSet live r reload live _ = live check (RegSlot (LocalReg _ ty), o, w) x | o == w && w == widthInBytes (typeWidth ty) = x check _ _ = panic "middleDualLiveness unsupported: slices" last :: CmmNode O C -> FactBase DualLive -> DualLive last l fb = case l of CmmBranch id -> lkp id l@(CmmCall {cml_cont=Nothing}) -> changeRegs (gen l . kill l) empty l@(CmmCall {cml_cont=Just k}) -> call l k l@(CmmForeignCall {succ=k}) -> call l k l@(CmmCondBranch _ t f) -> changeRegs (gen l . kill l) $ dualUnion (lkp t) (lkp f) l@(CmmSwitch _ tbl) -> changeRegs (gen l . kill l) $ dualUnionList $ map lkp (catMaybes tbl) where empty = fact_bot dualLiveLattice lkp id = empty `fromMaybe` lookupFact id fb call l k = DualLive (on_stack (lkp k)) (gen l emptyRegSet) gen :: UserOfLocalRegs a => a -> RegSet -> RegSet gen a live = foldRegsUsed extendRegSet live a kill :: DefinerOfLocalRegs a => a -> RegSet -> RegSet kill a live = foldRegsDefd deleteFromRegSet live a insertSpillAndReloadRewrites :: CmmGraph -> BlockSet -> CmmBwdRewrite DualLive insertSpillAndReloadRewrites graph procPoints = deepBwdRw3 first middle nothing -- Beware: deepBwdRw with one polymorphic function seems more reasonable here, -- but GHC miscompiles it, see bug #4044. where first :: CmmNode C O -> Fact O DualLive -> CmmReplGraph C O first e@(CmmEntry id) live = return $ if id /= (g_entry graph) && setMember id procPoints then case map reload (uniqSetToList spill_regs) of [] -> Nothing is -> Just $ mkFirst e <*> mkMiddles is else Nothing where -- If we are splitting procedures, we need the LastForeignCall -- to spill its results to the stack because they will only -- be used by a separate procedure (so they can't stay in LocalRegs). splitting = True spill_regs = if splitting then in_regs live else in_regs live `minusRegSet` defs defs = case mapLookup id firstDefs of Just defs -> defs Nothing -> emptyRegSet -- A LastForeignCall may contain some definitions, which take place -- on return from the function call. Therefore, we build a map (firstDefs) -- from BlockId to the set of variables defined on return to the BlockId. firstDefs = mapFold addLive emptyBlockMap (toBlockMap graph) addLive :: CmmBlock -> BlockEnv RegSet -> BlockEnv RegSet addLive b env = case lastNode b of CmmForeignCall {succ=k, res=defs} -> add k (mkRegSet defs) env _ -> env add bid defs env = mapInsert bid defs'' env where defs'' = case mapLookup bid env of Just defs' -> timesRegSet defs defs' Nothing -> defs middle :: CmmNode O O -> Fact O DualLive -> CmmReplGraph O O middle (CmmAssign (CmmLocal reg) (CmmLoad (CmmStackSlot (RegSlot reg') _) _)) _ | reg == reg' = return Nothing middle m@(CmmAssign (CmmLocal reg) _) live = return $ if reg `elemRegSet` on_stack live then -- must spill my_trace "Spilling" (f4sep [text "spill" <+> ppr reg, text "after"{-, ppr m-}]) $ Just $ mkMiddles $ [m, spill reg] else Nothing middle _ _ = return Nothing nothing _ _ = return Nothing spill, reload :: LocalReg -> CmmNode O O spill r = CmmStore (regSlot r) (CmmReg $ CmmLocal r) reload r = CmmAssign (CmmLocal r) (CmmLoad (regSlot r) $ localRegType r) removeDeadAssignmentsAndReloads :: BlockSet -> CmmGraph -> FuelUniqSM CmmGraph removeDeadAssignmentsAndReloads procPoints g = liftM fst $ dataflowPassBwd g [] $ analRewBwd dualLiveLattice (dualLiveTransfers (g_entry g) procPoints) rewrites where rewrites = deepBwdRw3 nothing middle nothing -- Beware: deepBwdRw with one polymorphic function seems more reasonable here, -- but GHC panics while compiling, see bug #4045. middle :: CmmNode O O -> Fact O DualLive -> CmmReplGraph O O middle (CmmAssign (CmmLocal reg') _) live | not (reg' `elemRegSet` in_regs live) = return $ Just emptyGraph -- XXX maybe this should be somewhere else... middle (CmmAssign lhs (CmmReg rhs)) _ | lhs == rhs = return $ Just emptyGraph middle (CmmStore lhs (CmmLoad rhs _)) _ | lhs == rhs = return $ Just emptyGraph middle _ _ = return Nothing nothing _ _ = return Nothing --------------------- -- prettyprinting ppr_regs :: String -> RegSet -> SDoc ppr_regs s regs = text s <+> commafy (map ppr $ uniqSetToList regs) where commafy xs = hsep $ punctuate comma xs instance Outputable DualLive where ppr (DualLive {in_regs = regs, on_stack = stack}) = if isEmptyUniqSet regs && isEmptyUniqSet stack then text "" else nest 2 $ fsep [if isEmptyUniqSet regs then PP.empty else (ppr_regs "live in regs =" regs), if isEmptyUniqSet stack then PP.empty else (ppr_regs "live on stack =" stack)] my_trace :: String -> SDoc -> a -> a my_trace = if False then pprTrace else \_ _ a -> a f4sep :: [SDoc] -> SDoc f4sep [] = fsep [] f4sep (d:ds) = fsep (d : map (nest 4) ds)