1 -----------------------------------------------------------------------------
3 -- The register liveness determinator
5 -- (c) The University of Glasgow 2004
7 -----------------------------------------------------------------------------
8 {-# OPTIONS -Wall -fno-warn-name-shadowing #-}
13 BlockMap, emptyBlockMap,
20 mapBlockTop, mapBlockTopM,
21 mapGenBlockTop, mapGenBlockTopM,
34 #include "HsVersions.h"
40 import Cmm hiding (RegSet)
54 -----------------------------------------------------------------------------
55 type RegSet = UniqSet Reg
57 type RegMap a = UniqFM a
59 emptyRegMap :: UniqFM a
60 emptyRegMap = emptyUFM
62 type BlockMap a = UniqFM a
64 emptyBlockMap :: UniqFM a
65 emptyBlockMap = emptyUFM
68 -- | A top level thing which carries liveness information.
73 (ListGraph (GenBasicBlock LiveInstr))
74 -- the "instructions" here are actually more blocks,
75 -- single blocks are acyclic
76 -- multiple blocks are taken to be cyclic.
78 -- | An instruction with liveness information.
80 = Instr Instr (Maybe Liveness)
82 -- | Liveness information.
83 -- The regs which die are ones which are no longer live in the *next* instruction
85 -- (NB. if the instruction is a jump, these registers might still be live
86 -- at the jump target(s) - you have to check the liveness at the destination
87 -- block to find out).
91 { liveBorn :: RegSet -- ^ registers born in this instruction (written to for first time).
92 , liveDieRead :: RegSet -- ^ registers that died because they were read for the last time.
93 , liveDieWrite :: RegSet } -- ^ registers that died because they were clobbered by something.
96 -- | Stash regs live on entry to each basic block in the info part of the cmm code.
99 [CmmStatic] -- cmm static stuff
100 (Maybe BlockId) -- id of the first block
101 (BlockMap RegSet) -- argument locals live on entry to this block
103 -- | A basic block with liveness information.
105 = GenBasicBlock LiveInstr
108 instance Outputable LiveInstr where
109 ppr (Instr instr Nothing)
112 ppr (Instr instr (Just live))
116 [ pprRegs (ptext SLIT("# born: ")) (liveBorn live)
117 , pprRegs (ptext SLIT("# r_dying: ")) (liveDieRead live)
118 , pprRegs (ptext SLIT("# w_dying: ")) (liveDieWrite live) ]
121 where pprRegs :: SDoc -> RegSet -> SDoc
123 | isEmptyUniqSet regs = empty
124 | otherwise = name <> (hcat $ punctuate space $ map (docToSDoc . pprUserReg) $ uniqSetToList regs)
127 instance Outputable LiveInfo where
128 ppr (LiveInfo static firstId liveOnEntry)
129 = (vcat $ map ppr static)
130 $$ text "# firstId = " <> ppr firstId
131 $$ text "# liveOnEntry = " <> ppr liveOnEntry
134 -- | map a function across all the basic blocks in this code
137 :: (LiveBasicBlock -> LiveBasicBlock)
138 -> LiveCmmTop -> LiveCmmTop
141 = evalState (mapBlockTopM (\x -> return $ f x) cmm) ()
144 -- | map a function across all the basic blocks in this code (monadic version)
148 => (LiveBasicBlock -> m LiveBasicBlock)
149 -> LiveCmmTop -> m LiveCmmTop
151 mapBlockTopM _ cmm@(CmmData{})
154 mapBlockTopM f (CmmProc header label params (ListGraph comps))
155 = do comps' <- mapM (mapBlockCompM f) comps
156 return $ CmmProc header label params (ListGraph comps')
158 mapBlockCompM :: Monad m => (a -> m a') -> (GenBasicBlock a) -> m (GenBasicBlock a')
159 mapBlockCompM f (BasicBlock i blocks)
160 = do blocks' <- mapM f blocks
161 return $ BasicBlock i blocks'
164 -- map a function across all the basic blocks in this code
166 :: (GenBasicBlock i -> GenBasicBlock i)
167 -> (GenCmmTop d h (ListGraph i) -> GenCmmTop d h (ListGraph i))
170 = evalState (mapGenBlockTopM (\x -> return $ f x) cmm) ()
173 -- | map a function across all the basic blocks in this code (monadic version)
176 => (GenBasicBlock i -> m (GenBasicBlock i))
177 -> (GenCmmTop d h (ListGraph i) -> m (GenCmmTop d h (ListGraph i)))
179 mapGenBlockTopM _ cmm@(CmmData{})
182 mapGenBlockTopM f (CmmProc header label params (ListGraph blocks))
183 = do blocks' <- mapM f blocks
184 return $ CmmProc header label params (ListGraph blocks')
187 -- | Slurp out the list of register conflicts and reg-reg moves from this top level thing.
188 -- Slurping of conflicts and moves is wrapped up together so we don't have
189 -- to make two passes over the same code when we want to build the graph.
191 slurpConflicts :: LiveCmmTop -> (Bag (UniqSet Reg), Bag (Reg, Reg))
193 = slurpCmm (emptyBag, emptyBag) live
195 where slurpCmm rs CmmData{} = rs
196 slurpCmm rs (CmmProc info _ _ (ListGraph blocks))
197 = foldl' (slurpComp info) rs blocks
199 slurpComp info rs (BasicBlock _ blocks)
200 = foldl' (slurpBlock info) rs blocks
202 slurpBlock info rs (BasicBlock blockId instrs)
203 | LiveInfo _ _ blockLive <- info
204 , Just rsLiveEntry <- lookupUFM blockLive blockId
205 , (conflicts, moves) <- slurpLIs rsLiveEntry rs instrs
206 = (consBag rsLiveEntry conflicts, moves)
209 = error "RegLiveness.slurpBlock: bad block"
211 slurpLIs rsLive (conflicts, moves) []
212 = (consBag rsLive conflicts, moves)
214 slurpLIs rsLive rs (Instr _ Nothing : lis) = slurpLIs rsLive rs lis
216 slurpLIs rsLiveEntry (conflicts, moves) (Instr instr (Just live) : lis)
218 -- regs that die because they are read for the last time at the start of an instruction
219 -- are not live across it.
220 rsLiveAcross = rsLiveEntry `minusUniqSet` (liveDieRead live)
222 -- regs live on entry to the next instruction.
223 -- be careful of orphans, make sure to delete dying regs _after_ unioning
224 -- in the ones that are born here.
225 rsLiveNext = (rsLiveAcross `unionUniqSets` (liveBorn live))
226 `minusUniqSet` (liveDieWrite live)
228 -- orphan vregs are the ones that die in the same instruction they are born in.
229 -- these are likely to be results that are never used, but we still
230 -- need to assign a hreg to them..
231 rsOrphans = intersectUniqSets
233 (unionUniqSets (liveDieWrite live) (liveDieRead live))
236 rsConflicts = unionUniqSets rsLiveNext rsOrphans
238 in case isRegRegMove instr of
239 Just rr -> slurpLIs rsLiveNext
240 ( consBag rsConflicts conflicts
241 , consBag rr moves) lis
243 Nothing -> slurpLIs rsLiveNext
244 ( consBag rsConflicts conflicts
248 -- | For spill/reloads
254 -- If we can arrange that v1 and v2 are allocated to the same hreg it's more likely
255 -- the spill/reload instrs can be cleaned and replaced by a nop reg-reg move.
257 -- TODO: This only works intra-block at the momement. It's be nice to join up the mappings
258 -- across blocks also.
260 slurpReloadCoalesce :: LiveCmmTop -> Bag (Reg, Reg)
261 slurpReloadCoalesce live
262 = slurpCmm emptyBag live
264 where slurpCmm cs CmmData{} = cs
265 slurpCmm cs (CmmProc _ _ _ (ListGraph blocks))
266 = foldl' slurpComp cs blocks
268 slurpComp cs (BasicBlock _ blocks)
269 = foldl' slurpBlock cs blocks
271 slurpBlock cs (BasicBlock _ instrs)
272 = let (_, mMoves) = mapAccumL slurpLI emptyUFM instrs
273 in unionBags cs (listToBag $ catMaybes mMoves)
275 slurpLI :: UniqFM Reg -> LiveInstr -> (UniqFM Reg, Maybe (Reg, Reg))
276 slurpLI slotMap (Instr instr _)
278 -- remember what reg was stored into the slot
279 | SPILL reg slot <- instr
280 , slotMap' <- addToUFM slotMap slot reg
281 = (slotMap', Nothing)
283 -- add an edge betwen the this reg and the last one stored into the slot
284 | RELOAD slot reg <- instr
285 = case lookupUFM slotMap slot of
286 Just reg2 -> (slotMap, Just (reg, reg2))
287 Nothing -> (slotMap, Nothing)
293 -- | Strip away liveness information, yielding NatCmmTop
295 stripLive :: LiveCmmTop -> NatCmmTop
299 where stripCmm (CmmData sec ds) = CmmData sec ds
300 stripCmm (CmmProc (LiveInfo info _ _) label params (ListGraph comps))
301 = CmmProc info label params (ListGraph $ concatMap stripComp comps)
303 stripComp (BasicBlock _ blocks) = map stripBlock blocks
304 stripBlock (BasicBlock i instrs) = BasicBlock i (map stripLI instrs)
305 stripLI (Instr instr _) = instr
308 -- | Make real spill instructions out of SPILL, RELOAD pseudos
310 spillNatBlock :: NatBasicBlock -> NatBasicBlock
311 spillNatBlock (BasicBlock i is)
312 = BasicBlock i instrs'
314 = runState (spillNat [] is) 0
317 = return (reverse acc)
319 spillNat acc (DELTA i : instrs)
323 spillNat acc (SPILL reg slot : instrs)
325 spillNat (mkSpillInstr reg delta slot : acc) instrs
327 spillNat acc (RELOAD slot reg : instrs)
329 spillNat (mkLoadInstr reg delta slot : acc) instrs
331 spillNat acc (instr : instrs)
332 = spillNat (instr : acc) instrs
335 -- | Slurp out a map of how many times each register was live upon entry to an instruction.
339 -> UniqFM (Reg, Int) -- ^ reg -> (reg, count)
342 = countCmm emptyUFM cmm
344 countCmm fm CmmData{} = fm
345 countCmm fm (CmmProc info _ _ (ListGraph blocks))
346 = foldl' (countComp info) fm blocks
348 countComp info fm (BasicBlock _ blocks)
349 = foldl' (countBlock info) fm blocks
351 countBlock info fm (BasicBlock blockId instrs)
352 | LiveInfo _ _ blockLive <- info
353 , Just rsLiveEntry <- lookupUFM blockLive blockId
354 = countLIs rsLiveEntry fm instrs
357 = error "RegLiveness.countBlock: bad block"
359 countLIs _ fm [] = fm
360 countLIs rsLive fm (Instr _ Nothing : lis) = countLIs rsLive fm lis
362 countLIs rsLiveEntry fm (Instr _ (Just live) : lis)
364 rsLiveAcross = rsLiveEntry `minusUniqSet` (liveDieRead live)
366 rsLiveNext = (rsLiveAcross `unionUniqSets` (liveBorn live))
367 `minusUniqSet` (liveDieWrite live)
369 add r fm = addToUFM_C
370 (\(r1, l1) (_, l2) -> (r1, l1 + l2))
373 fm' = foldUniqSet add fm rsLiveEntry
374 in countLIs rsLiveNext fm' lis
377 -- | Erase Delta instructions.
379 eraseDeltasLive :: LiveCmmTop -> LiveCmmTop
381 = mapBlockTop eraseBlock cmm
383 isDelta (DELTA _) = True
386 eraseBlock (BasicBlock id lis)
388 $ filter (\(Instr i _) -> not $ isDelta i)
392 -- | Patch the registers in this code according to this register mapping.
393 -- also erase reg -> reg moves when the reg is the same.
394 -- also erase reg -> reg moves when the destination dies in this instr.
398 -> LiveCmmTop -> LiveCmmTop
400 patchEraseLive patchF cmm
403 patchCmm cmm@CmmData{} = cmm
405 patchCmm (CmmProc info label params (ListGraph comps))
406 | LiveInfo static id blockMap <- info
407 = let patchRegSet set = mkUniqSet $ map patchF $ uniqSetToList set
408 blockMap' = mapUFM patchRegSet blockMap
410 info' = LiveInfo static id blockMap'
411 in CmmProc info' label params $ ListGraph $ map patchComp comps
413 patchComp (BasicBlock id blocks)
414 = BasicBlock id $ map patchBlock blocks
416 patchBlock (BasicBlock id lis)
417 = BasicBlock id $ patchInstrs lis
420 patchInstrs (li : lis)
422 | Instr i (Just live) <- li'
423 , Just (r1, r2) <- isRegRegMove i
428 = li' : patchInstrs lis
430 where li' = patchRegsLiveInstr patchF li
433 -- source and destination regs are the same
436 -- desination reg is never used
437 | elementOfUniqSet r2 (liveBorn live)
438 , elementOfUniqSet r2 (liveDieRead live) || elementOfUniqSet r2 (liveDieWrite live)
444 -- | Patch registers in this LiveInstr, including the liveness information.
448 -> LiveInstr -> LiveInstr
450 patchRegsLiveInstr patchF li
453 -> Instr (patchRegs instr patchF) Nothing
455 Instr instr (Just live)
457 (patchRegs instr patchF)
459 { -- WARNING: have to go via lists here because patchF changes the uniq in the Reg
460 liveBorn = mkUniqSet $ map patchF $ uniqSetToList $ liveBorn live
461 , liveDieRead = mkUniqSet $ map patchF $ uniqSetToList $ liveDieRead live
462 , liveDieWrite = mkUniqSet $ map patchF $ uniqSetToList $ liveDieWrite live })
465 ---------------------------------------------------------------------------------
466 -- Annotate code with register liveness information
472 regLiveness (CmmData i d)
473 = returnUs $ CmmData i d
475 regLiveness (CmmProc info lbl params (ListGraph []))
477 (LiveInfo info Nothing emptyUFM)
478 lbl params (ListGraph [])
480 regLiveness (CmmProc info lbl params (ListGraph blocks@(first : _)))
481 = let first_id = blockId first
482 sccs = sccBlocks blocks
483 (ann_sccs, block_live) = computeLiveness sccs
486 = map (\scc -> case scc of
487 AcyclicSCC b@(BasicBlock l _) -> BasicBlock l [b]
488 CyclicSCC bs@(BasicBlock l _ : _) -> BasicBlock l bs
490 -> panic "RegLiveness.regLiveness: no blocks in scc list")
493 in returnUs $ CmmProc
494 (LiveInfo info (Just first_id) block_live)
495 lbl params (ListGraph liveBlocks)
498 sccBlocks :: [NatBasicBlock] -> [SCC NatBasicBlock]
499 sccBlocks blocks = stronglyConnComp graph
501 getOutEdges :: [Instr] -> [BlockId]
502 getOutEdges instrs = foldl' (\a x -> jumpDests x a) [] instrs
504 graph = [ (block, getUnique id, map getUnique (getOutEdges instrs))
505 | block@(BasicBlock id instrs) <- blocks ]
508 -- -----------------------------------------------------------------------------
509 -- Computing liveness
512 :: [SCC NatBasicBlock]
513 -> ([SCC LiveBasicBlock], -- instructions annotated with list of registers
514 -- which are "dead after this instruction".
515 BlockMap RegSet) -- blocks annontated with set of live registers
516 -- on entry to the block.
518 -- NOTE: on entry, the SCCs are in "reverse" order: later blocks may transfer
519 -- control to earlier ones only. The SCCs returned are in the *opposite*
520 -- order, which is exactly what we want for the next pass.
523 = livenessSCCs emptyBlockMap [] sccs
528 -> [SCC LiveBasicBlock] -- accum
529 -> [SCC NatBasicBlock]
530 -> ([SCC LiveBasicBlock], BlockMap RegSet)
532 livenessSCCs blockmap done [] = (done, blockmap)
534 livenessSCCs blockmap done (AcyclicSCC block : sccs)
535 = let (blockmap', block') = livenessBlock blockmap block
536 in livenessSCCs blockmap' (AcyclicSCC block' : done) sccs
538 livenessSCCs blockmap done
539 (CyclicSCC blocks : sccs) =
540 livenessSCCs blockmap' (CyclicSCC blocks':done) sccs
541 where (blockmap', blocks')
542 = iterateUntilUnchanged linearLiveness equalBlockMaps
545 iterateUntilUnchanged
546 :: (a -> b -> (a,c)) -> (a -> a -> Bool)
550 iterateUntilUnchanged f eq a b
553 groupBy (\(a1, _) (a2, _) -> eq a1 a2) $
554 iterate (\(a, _) -> f a b) $
555 (a, error "RegisterAlloc.livenessSCCs")
558 linearLiveness :: BlockMap RegSet -> [NatBasicBlock]
559 -> (BlockMap RegSet, [LiveBasicBlock])
560 linearLiveness = mapAccumL livenessBlock
562 -- probably the least efficient way to compare two
563 -- BlockMaps for equality.
566 where a' = map f $ ufmToList a
567 b' = map f $ ufmToList b
568 f (key,elt) = (key, uniqSetToList elt)
572 -- | Annotate a basic block with register liveness information.
577 -> (BlockMap RegSet, LiveBasicBlock)
579 livenessBlock blockmap (BasicBlock block_id instrs)
581 (regsLiveOnEntry, instrs1)
582 = livenessBack emptyUniqSet blockmap [] (reverse instrs)
583 blockmap' = addToUFM blockmap block_id regsLiveOnEntry
585 instrs2 = livenessForward regsLiveOnEntry instrs1
587 output = BasicBlock block_id instrs2
589 in ( blockmap', output)
591 -- | Calculate liveness going forwards,
592 -- filling in when regs are born
595 :: RegSet -- regs live on this instr
596 -> [LiveInstr] -> [LiveInstr]
598 livenessForward _ [] = []
599 livenessForward rsLiveEntry (li@(Instr instr mLive) : lis)
601 = li : livenessForward rsLiveEntry lis
604 , RU _ written <- regUsage instr
606 -- Regs that are written to but weren't live on entry to this instruction
607 -- are recorded as being born here.
609 $ filter (\r -> not $ elementOfUniqSet r rsLiveEntry) written
611 rsLiveNext = (rsLiveEntry `unionUniqSets` rsBorn)
612 `minusUniqSet` (liveDieRead live)
613 `minusUniqSet` (liveDieWrite live)
615 in Instr instr (Just live { liveBorn = rsBorn })
616 : livenessForward rsLiveNext lis
618 livenessForward _ _ = panic "RegLiveness.livenessForward: no match"
621 -- | Calculate liveness going backwards,
622 -- filling in when regs die, and what regs are live across each instruction
625 :: RegSet -- regs live on this instr
626 -> BlockMap RegSet -- regs live on entry to other BBs
627 -> [LiveInstr] -- instructions (accum)
628 -> [Instr] -- instructions
629 -> (RegSet, [LiveInstr])
631 livenessBack liveregs _ done [] = (liveregs, done)
633 livenessBack liveregs blockmap acc (instr : instrs)
634 = let (liveregs', instr') = liveness1 liveregs blockmap instr
635 in livenessBack liveregs' blockmap (instr' : acc) instrs
637 -- don't bother tagging comments or deltas with liveness
638 liveness1 :: RegSet -> BlockMap RegSet -> Instr -> (RegSet, LiveInstr)
639 liveness1 liveregs _ (instr@COMMENT{})
640 = (liveregs, Instr instr Nothing)
642 liveness1 liveregs _ (instr@DELTA{})
643 = (liveregs, Instr instr Nothing)
645 liveness1 liveregs blockmap instr
648 = (liveregs1, Instr instr
650 { liveBorn = emptyUniqSet
651 , liveDieRead = mkUniqSet r_dying
652 , liveDieWrite = mkUniqSet w_dying }))
655 = (liveregs_br, Instr instr
657 { liveBorn = emptyUniqSet
658 , liveDieRead = mkUniqSet r_dying_br
659 , liveDieWrite = mkUniqSet w_dying }))
662 RU read written = regUsage instr
664 -- registers that were written here are dead going backwards.
665 -- registers that were read here are live going backwards.
666 liveregs1 = (liveregs `delListFromUniqSet` written)
667 `addListToUniqSet` read
669 -- registers that are not live beyond this point, are recorded
671 r_dying = [ reg | reg <- read, reg `notElem` written,
672 not (elementOfUniqSet reg liveregs) ]
674 w_dying = [ reg | reg <- written,
675 not (elementOfUniqSet reg liveregs) ]
677 -- union in the live regs from all the jump destinations of this
679 targets = jumpDests instr [] -- where we go from here
680 not_a_branch = null targets
682 targetLiveRegs target
683 = case lookupUFM blockmap target of
685 Nothing -> emptyBlockMap
687 live_from_branch = unionManyUniqSets (map targetLiveRegs targets)
689 liveregs_br = liveregs1 `unionUniqSets` live_from_branch
691 -- registers that are live only in the branch targets should
692 -- be listed as dying here.
693 live_branch_only = live_from_branch `minusUniqSet` liveregs
694 r_dying_br = uniqSetToList (mkUniqSet r_dying `unionUniqSets`