module CmmContFlowOpt
( runCmmOpts, cmmCfgOpts, cmmCfgOptsZ
, branchChainElimZ, removeUnreachableBlocksZ, predMap
, replaceLabelsZ, replaceBranches, runCmmContFlowOptsZs
)
where
import BlockId
import Cmm
import CmmTx
import qualified ZipCfg as G
import ZipCfg
import ZipCfgCmmRep
import Maybes
import Control.Monad
import Outputable
import Prelude hiding (unzip, zip)
import Util
runCmmContFlowOptsZs :: [CmmZ] -> [CmmZ]
runCmmContFlowOptsZs prog
= [ runTx (runCmmOpts cmmCfgOptsZ) cmm_top
| cmm_top <- prog ]
cmmCfgOpts :: Tx (ListGraph CmmStmt)
cmmCfgOptsZ :: Tx (a, CmmGraph)
cmmCfgOpts = branchChainElim
cmmCfgOptsZ g =
optGraph
(branchChainElimZ `seqTx` blockConcatZ `seqTx` removeUnreachableBlocksZ) g
runCmmOpts :: Tx g -> Tx (GenCmm d h g)
runCmmOpts opt = mapProcs (optProc opt)
optProc :: Tx g -> Tx (GenCmmTop d h g)
optProc _ top@(CmmData {}) = noTx top
optProc opt (CmmProc info lbl formals g) =
fmap (CmmProc info lbl formals) (opt g)
optGraph :: Tx g -> Tx (a, g)
optGraph opt (a, g) = fmap (\g' -> (a, g')) (opt g)
mapProcs :: Tx (GenCmmTop d h s) -> Tx (GenCmm d h s)
mapProcs f (Cmm tops) = fmap Cmm (mapTx f tops)
branchChainElim :: Tx (ListGraph CmmStmt)
branchChainElim (ListGraph blocks)
| null lone_branch_blocks
= noTx (ListGraph blocks)
| otherwise
= aTx (ListGraph new_blocks)
where
(lone_branch_blocks, others) = partitionWith isLoneBranch blocks
new_blocks = map (replaceLabels env) others
env = mkClosureBlockEnv lone_branch_blocks
isLoneBranch :: CmmBasicBlock -> Either (BlockId, BlockId) CmmBasicBlock
isLoneBranch (BasicBlock id [CmmBranch target]) | id /= target = Left (id, target)
isLoneBranch other_block = Right other_block
replaceLabels :: BlockEnv BlockId -> CmmBasicBlock -> CmmBasicBlock
replaceLabels env (BasicBlock id stmts)
= BasicBlock id (map replace stmts)
where
replace (CmmBranch id) = CmmBranch (lookup id)
replace (CmmCondBranch e id) = CmmCondBranch e (lookup id)
replace (CmmSwitch e tbl) = CmmSwitch e (map (fmap lookup) tbl)
replace other_stmt = other_stmt
lookup id = lookupBlockEnv env id `orElse` id
branchChainElimZ :: Tx CmmGraph
branchChainElimZ g@(G.LGraph eid _)
| null lone_branch_blocks
= noTx g
| otherwise
= aTx $ replaceLabelsZ env $ G.of_block_list eid (self_branches ++ others)
where
blocks = G.to_block_list g
(lone_branch_blocks, others) = partitionWith isLoneBranchZ blocks
env = mkClosureBlockEnvZ lone_branch_blocks
self_branches =
let loop_to (id, _) =
if lookup id == id then
Just (G.Block id (G.ZLast (G.mkBranchNode id)))
else
Nothing
in mapMaybe loop_to lone_branch_blocks
lookup id = lookupBlockEnv env id `orElse` id
call_succs = foldl add emptyBlockSet blocks
where add succs b =
case G.last (G.unzip b) of
LastOther (LastCall _ (Just k) _ _ _) -> extendBlockSet succs k
_ -> succs
isLoneBranchZ :: CmmBlock -> Either (BlockId, BlockId) CmmBlock
isLoneBranchZ (G.Block id (G.ZLast (G.LastOther (LastBranch target))))
| id /= target && not (elemBlockSet id call_succs) = Left (id,target)
isLoneBranchZ other = Right other
maybeReplaceLabels :: (Last -> Bool) -> BlockEnv BlockId -> CmmGraph -> CmmGraph
maybeReplaceLabels lpred env =
replace_eid . G.map_nodes id middle last
where
replace_eid (G.LGraph eid blocks) = G.LGraph (lookup eid) blocks
middle = mapExpDeepMiddle exp
last l = if lpred l then mapExpDeepLast exp (last' l) else l
last' (LastBranch bid) = LastBranch (lookup bid)
last' (LastCondBranch p t f) = LastCondBranch p (lookup t) (lookup f)
last' (LastSwitch e arms) = LastSwitch e (map (liftM lookup) arms)
last' (LastCall t k a res r) = LastCall t (liftM lookup k) a res r
exp (CmmLit (CmmBlock bid)) = CmmLit (CmmBlock (lookup bid))
exp (CmmStackSlot (CallArea (Young id)) i) =
CmmStackSlot (CallArea (Young (lookup id))) i
exp e = e
lookup id = fmap lookup (lookupBlockEnv env id) `orElse` id
replaceLabelsZ :: BlockEnv BlockId -> CmmGraph -> CmmGraph
replaceLabelsZ = maybeReplaceLabels (const True)
replaceBranches :: BlockEnv BlockId -> CmmGraph -> CmmGraph
replaceBranches env g = map_nodes id id last g
where
last (LastBranch id) = LastBranch (lookup id)
last (LastCondBranch e ti fi) = LastCondBranch e (lookup ti) (lookup fi)
last (LastSwitch e tbl) = LastSwitch e (map (fmap lookup) tbl)
last l@(LastCall {}) = l
lookup id = fmap lookup (lookupBlockEnv env id) `orElse` id
predMap :: G.LastNode l => G.LGraph m l -> BlockEnv BlockSet
predMap g = G.fold_blocks add_preds emptyBlockEnv g
where add_preds b env = foldl (add b) env (G.succs b)
add (G.Block bid _) env b' =
extendBlockEnv env b' $
extendBlockSet (lookupBlockEnv env b' `orElse` emptyBlockSet) bid
blockConcatZ :: Tx CmmGraph
blockConcatZ = removeUnreachableBlocksZ `seqTx` blockConcatZ'
blockConcatZ' :: Tx CmmGraph
blockConcatZ' g@(G.LGraph eid blocks) =
tx $ replaceLabelsZ concatMap $ G.LGraph eid blocks'
where (changed, blocks', concatMap) =
foldr maybe_concat (False, blocks, emptyBlockEnv) $ G.postorder_dfs g
maybe_concat b@(G.Block bid _) (changed, blocks', concatMap) =
let unchanged = (changed, extendBlockEnv blocks' bid b, concatMap)
in case G.goto_end $ G.unzip b of
(h, G.LastOther (LastBranch b')) ->
if canConcatWith b' then
(True, extendBlockEnv blocks' bid $ splice blocks' h b',
extendBlockEnv concatMap b' bid)
else unchanged
_ -> unchanged
num_preds bid = liftM sizeBlockSet (lookupBlockEnv backEdges bid) `orElse` 0
canConcatWith b' = b' /= eid && num_preds b' == 1
backEdges = predMap g
splice blocks' h bid' =
case lookupBlockEnv blocks' bid' of
Just (G.Block _ t) -> G.zip $ G.ZBlock h t
Nothing -> panic "unknown successor block"
tx = if changed then aTx else noTx
mkClosureBlockEnv :: [(BlockId, BlockId)] -> BlockEnv BlockId
mkClosureBlockEnv blocks = mkBlockEnv $ map follow blocks
where singleEnv = mkBlockEnv blocks
follow (id, next) = (id, endChain id next)
endChain orig id = case lookupBlockEnv singleEnv id of
Just id' | id /= orig -> endChain orig id'
_ -> id
mkClosureBlockEnvZ :: [(BlockId, BlockId)] -> BlockEnv BlockId
mkClosureBlockEnvZ blocks = mkBlockEnv $ map follow blocks
where singleEnv = mkBlockEnv blocks
follow (id, next) = (id, endChain id next)
endChain orig id = case lookupBlockEnv singleEnv id of
Just id' | id /= orig -> endChain orig id'
_ -> id
removeUnreachableBlocksZ :: Tx CmmGraph
removeUnreachableBlocksZ g@(G.LGraph id blocks) =
if length blocks' < sizeBEnv blocks then aTx $ G.of_block_list id blocks'
else noTx g
where blocks' = G.postorder_dfs g