--- /dev/null
+module Dataflow (mapCmmTop, onBasicBlock, cmmLivenessComment, cmmLiveness) where
+
+import Cmm
+import PprCmm
+
+import Unique
+import UniqSet
+import UniqFM
+
+import FastString
+import Outputable
+
+import Data.List
+import Data.Maybe
+
+cmmBranchSources :: [(BlockId, [BlockId])] -> [(BlockId, [BlockId])]
+cmmBranchSources input =
+ [(target, [s | (s, ts) <- input, target `elem` ts])
+ | target <- targets] where
+ targets = nub [t | (s, ts) <- input, t <- ts]
+
+cmmBranchTargets :: CmmBasicBlock -> UniqSet BlockId
+cmmBranchTargets (BasicBlock _ stmts) =
+ mkUniqSet $ concatMap target stmts where
+ target (CmmBranch ident) = [ident]
+ target (CmmCondBranch _ ident) = [ident]
+ target (CmmSwitch _ blocks) = mapMaybe id blocks
+ target _ = []
+
+--------------------------------------------------------------------------------
+
+-- This should really be a state monad, but that is not in the core libraries
+-- so we'll hack around it here.
+-- The monad we're using is: type State a = s -> s
+
+-- The variables that were made live and killed respectively
+type CmmLiveness = (UniqSet LocalReg, UniqSet LocalReg)
+addLocalLive new_live (live, killed) =
+ (live `unionUniqSets` new_live, killed `minusUniqSet` new_live)
+addLocalKilled new_killed (live, killed) =
+ (live `minusUniqSet` new_killed, killed `unionUniqSets` new_killed)
+
+-- Calculate the live and killed registers for a local block
+cmmLocalLiveness :: CmmBasicBlock -> CmmLiveness
+cmmLocalLiveness (BasicBlock _ stmts) =
+ foldr ((.) . cmmStmtLocalLiveness) id stmts (emptyUniqSet, emptyUniqSet)
+
+-- Helper for cmmLocalLiveness
+cmmStmtLocalLiveness :: CmmStmt -> (CmmLiveness -> CmmLiveness)
+cmmStmtLocalLiveness (CmmNop) = id
+cmmStmtLocalLiveness (CmmComment _) = id
+cmmStmtLocalLiveness (CmmAssign reg expr) =
+ cmmExprLocalLiveness expr . reg_liveness where
+ reg_liveness =
+ case reg of
+ (CmmLocal reg') -> addLocalKilled $ unitUniqSet reg'
+ (CmmGlobal _) -> id
+cmmStmtLocalLiveness (CmmStore expr1 expr2) =
+ cmmExprLocalLiveness expr2 . cmmExprLocalLiveness expr1
+cmmStmtLocalLiveness (CmmCall target results arguments _) =
+ target_liveness .
+ foldr ((.) . cmmExprLocalLiveness) id (map fst arguments) .
+ addLocalKilled (mkUniqSet $ only_local_regs results) where
+ only_local_regs [] = []
+ only_local_regs ((CmmGlobal _,_):args) = only_local_regs args
+ only_local_regs ((CmmLocal r,_):args) = r:only_local_regs args
+ target_liveness =
+ case target of
+ (CmmForeignCall target _) -> cmmExprLocalLiveness target
+ (CmmPrim _) -> id
+cmmStmtLocalLiveness (CmmBranch _) = const (emptyUniqSet, emptyUniqSet)
+cmmStmtLocalLiveness (CmmCondBranch expr _) = cmmExprLocalLiveness expr
+cmmStmtLocalLiveness (CmmSwitch expr _) = cmmExprLocalLiveness expr
+cmmStmtLocalLiveness (CmmJump expr params) =
+ const (cmmExprLocalLiveness expr (mkUniqSet params, emptyUniqSet))
+
+-- Helper for cmmLocalLiveness
+cmmExprLocalLiveness :: CmmExpr -> (CmmLiveness -> CmmLiveness)
+cmmExprLocalLiveness expr = addLocalLive (mkUniqSet $ expr_liveness expr) where
+ expr_liveness (CmmLit _) = []
+ expr_liveness (CmmLoad expr _) = expr_liveness expr
+ expr_liveness (CmmReg reg) = reg_liveness reg
+ expr_liveness (CmmMachOp _ exprs) = concatMap expr_liveness exprs
+ expr_liveness (CmmRegOff reg _) = reg_liveness reg
+ reg_liveness (CmmLocal reg) = [reg]
+ reg_liveness (CmmGlobal _) = []
+
+{-
+branch_update ::
+ UniqFM {-BlockId-} (UniqSet BlockId)
+ -> UniqFM {-BlockId-} CmmLiveness
+ -> BlockId
+ -> UniqFM {-BlockId-} (UniqSet LocalReg)
+ -> Maybe (UniqFM {-BlockId-} (UniqSet LocalReg))
+branch_update targets local_liveness ident input_state =
+ if (sizeUniqSet old_live) >= (sizeUniqSet new_live)
+ then Nothing
+ else Just $ addToUFM input_state ident new_live
+ where
+ old_live = lookupWithDefaultUFM input_state emptyUniqSet ident
+ (born, killed) =
+ lookupWithDefaultUFM
+ local_liveness (emptyUniqSet, emptyUniqSet) ident
+ target_live = unionManyUniqSets $
+ map (lookupWithDefaultUFM input_state emptyUniqSet) target
+ target = uniqSetToList $ lookupWithDefaultUFM targets emptyUniqSet ident
+ new_live = (target_live `minusUniqSet` killed) `unionUniqSets` born
+-}
+
+cmmBlockUpdate ::
+ UniqFM {-BlockId-} CmmLiveness
+ -> BlockId
+ -> Maybe BlockId
+ -> UniqFM {-BlockId-} (UniqSet LocalReg)
+ -> Maybe (UniqFM {-BlockId-} (UniqSet LocalReg))
+cmmBlockUpdate local_liveness ident cause input_state =
+ let (born, killed) = lookupWithDefaultUFM
+ local_liveness (emptyUniqSet, emptyUniqSet) ident
+ old_live = lookupWithDefaultUFM input_state emptyUniqSet ident
+ cause_live =
+ case cause of
+ Just cause' -> lookupWithDefaultUFM input_state emptyUniqSet cause'
+ Nothing -> emptyUniqSet
+ new_live = old_live
+ `unionUniqSets` (cause_live `minusUniqSet` killed)
+ `unionUniqSets` born
+ in {-trace (--(showSDoc $ ppr $ getUnique cause) ++ "-->" ++
+ (showSDoc $ ppr $ getUnique ident) ++ ":" ++
+ (showSDoc $ ppr $ map CmmLocal $ uniqSetToList $ cause_live) ++ ":" ++
+ (showSDoc $ ppr $ map CmmLocal $ uniqSetToList $ old_live) ++ ":" ++
+ (showSDoc $ ppr $ map CmmLocal $ uniqSetToList $ new_live) ++ "|" ++
+ (show $ map (\(k,v) -> (k, showSDoc $ ppr $ map CmmLocal $ uniqSetToList v)) $ ufmToList input_state)) $-}
+ if (sizeUniqSet old_live) == (sizeUniqSet new_live)
+ then Nothing
+ else Just $ addToUFM input_state ident new_live
+
+cmmBlockDependants :: UniqFM {-BlockId-} (UniqSet BlockId) -> BlockId -> [BlockId]
+cmmBlockDependants sources ident =
+ uniqSetToList $ lookupWithDefaultUFM sources emptyUFM ident
+
+cmmBlockLiveness :: [CmmBasicBlock] -> UniqFM {-BlockId-} CmmLiveness
+cmmBlockLiveness blocks = listToUFM $ map block_info blocks where
+ block_info block = (blockId block, cmmLocalLiveness block)
+
+cmmBlockSourcesAndTargets ::
+ [CmmBasicBlock]
+ -> (UniqFM {-BlockId-} (UniqSet BlockId), UniqFM (UniqSet BlockId))
+cmmBlockSourcesAndTargets blocks = foldr aux (emptyUFM, emptyUFM) blocks where
+ aux block (sourcesUFM, targetsUFM) =
+ (foldUniqSet add_source_edges sourcesUFM targets,
+ addToUFM_Acc unionUniqSets id targetsUFM ident targets) where
+ add_source_edges t ufm =
+ addToUFM_Acc (flip addOneToUniqSet) unitUniqSet ufm t ident
+ targets = cmmBranchTargets block
+ ident = blockId block
+
+cmmLiveness :: [CmmBasicBlock] -> UniqFM {-BlockId-} (UniqSet LocalReg)
+cmmLiveness blocks =
+ fixedpoint (cmmBlockDependants sources) (cmmBlockUpdate liveness)
+ (map blockId blocks) emptyUFM where
+ (sources, targets) = cmmBlockSourcesAndTargets blocks
+ liveness = cmmBlockLiveness blocks
+
+cmmLivenessComment ::
+ UniqFM {-BlockId-} (UniqSet LocalReg)
+ -> CmmBasicBlock -> CmmBasicBlock
+cmmLivenessComment live (BasicBlock ident stmts) =
+ BasicBlock ident stmts' where
+ stmts' = (CmmComment $ mkFastString $ showSDoc $ ppr $ live'):stmts
+ live' = map CmmLocal $ uniqSetToList $ lookupWithDefaultUFM live emptyUniqSet ident
+
+onBasicBlock f (CmmProc ds ident args blocks) = CmmProc ds ident args (f blocks)
+onBasicBlock f x = x
+
+mapCmmTop f (Cmm xs) = Cmm (map f xs)
+
+--------------------------------------------------------------------------------
+
+-- Solve a fixed-point of a dataflow problem.
+-- O(N+H*E) calls to update where
+-- N = number of nodes,
+-- E = number of edges,
+-- H = maximum height of the lattice for any particular node.
+-- dependants: map from nodes to those who's value depend on the argument node
+-- update:
+-- Given the node which needs to be updated, and
+-- which node caused that node to need to be updated,
+-- update the state.
+-- (The causing node will be 'Nothing' if this is the initial update.)
+-- Must return 'Nothing' if no change,
+-- otherwise returrn 'Just' of the new state
+-- nodes: a set of nodes that initially need updating
+-- state: some sort of state (usually a map)
+-- containing the initial value for each node
+--
+-- Sketch for proof of complexity:
+-- Note that the state is threaded through the entire execution.
+-- Also note that the height of the latice at any particular node
+-- is the number of times 'update' can return non-Nothing for a particular node.
+-- Every call (except for the top level one) must be caused by a non-Nothing
+-- result and each non-Nothing result causes as many calls as it has
+-- out-going edges. Thus any particular node, n, may cause in total
+-- at most H*out(n) further calls. When summed over all nodes,
+-- that is H*E. The N term of the complexity is from the initial call
+-- when 'update' will be passed 'Nothing'.
+fixedpoint ::
+ (node -> [node])
+ -> (node -> Maybe node -> s -> Maybe s)
+ -> [node] -> s -> s
+fixedpoint dependants update nodes state =
+ foldr (fixedpoint' Nothing) state nodes where
+ fixedpoint' cause node state =
+ case update node cause state of
+ Nothing -> state
+ Just state' ->
+ foldr (fixedpoint' (Just node)) state' (dependants node)