X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Fcmm%2FZipCfg.hs;h=634bc8cccf2e755f08e29f48e60b95aac528affe;hp=78eeaed3e6b0639c1d15ce3c8338a730f637780a;hb=176fa33f17dd78355cc572e006d2ab26898e2c69;hpb=e06951a75a1f519e8f015880c363a8dedc08ff9c diff --git a/compiler/cmm/ZipCfg.hs b/compiler/cmm/ZipCfg.hs index 78eeaed..634bc8c 100644 --- a/compiler/cmm/ZipCfg.hs +++ b/compiler/cmm/ZipCfg.hs @@ -12,7 +12,7 @@ module ZipCfg , splice_tail, splice_head, splice_head_only', splice_head' , of_block_list, to_block_list , graphOfLGraph - , map_blocks, map_nodes, mapM_blocks + , map_blocks, map_one_block, map_nodes, mapM_blocks , postorder_dfs, postorder_dfs_from, postorder_dfs_from_except , fold_layout , fold_blocks, fold_fwd_block @@ -38,7 +38,8 @@ where import BlockId ( BlockId, BlockEnv, emptyBlockEnv, lookupBlockEnv, extendBlockEnv , BlockSet, emptyBlockSet, elemBlockSet, extendBlockSet) -import CmmExpr ( UserOfLocalRegs(..) ) --for an instance +import CmmExpr ( UserOfLocalRegs(..) ) +import PprCmm() import Outputable hiding (empty) import Panic @@ -150,18 +151,22 @@ instance UserOfLocalRegs a => UserOfLocalRegs (ZLast a) where foldRegsUsed _f z LastExit = z -data ZHead m = ZFirst BlockId | ZHead (ZHead m) m +data ZHead m = ZFirst BlockId (Maybe Int) + | ZHead (ZHead m) m -- ZHead is a (reversed) sequence of middle nodes labeled by a BlockId data ZTail m l = ZLast (ZLast l) | ZTail m (ZTail m l) -- ZTail is a sequence of middle nodes followed by a last node -- | Blocks and flow graphs; see Note [Kinds of graphs] -data Block m l = Block BlockId (ZTail m l) +-- In addition to its id, the block carries the number of bytes of stack space +-- used for incoming parameters on entry to the block. +data Block m l = Block BlockId (Maybe Int) (ZTail m l) data Graph m l = Graph { g_entry :: (ZTail m l), g_blocks :: (BlockEnv (Block m l)) } -data LGraph m l = LGraph { lg_entry :: BlockId - , lg_blocks :: BlockEnv (Block m l) } +data LGraph m l = LGraph { lg_entry :: BlockId + , lg_argoffset :: Int -- space (bytes) for incoming args + , lg_blocks :: BlockEnv (Block m l)} -- Invariant: lg_entry is in domain( lg_blocks ) -- | And now the zipper. The focus is between the head and tail. @@ -220,13 +225,13 @@ ht_to_last :: ZHead m -> ZTail m l -> (ZHead m, ZLast l) -- , (???, [, -- N: y:=x; return (y,x)]) -splice_head :: ZHead m -> LGraph m l -> (LGraph m l, ZHead m) -splice_head' :: ZHead m -> Graph m l -> (BlockEnv (Block m l), ZHead m) +splice_head :: ZHead m -> LGraph m l -> (LGraph m l, ZHead m) +splice_head' :: ZHead m -> Graph m l -> (BlockEnv (Block m l), ZHead m) splice_tail :: Graph m l -> ZTail m l -> Graph m l -- | We can also splice a single-entry, no-exit Graph into a head. -splice_head_only :: ZHead m -> LGraph m l -> LGraph m l -splice_head_only' :: ZHead m -> Graph m l -> LGraph m l +splice_head_only :: ZHead m -> LGraph m l -> LGraph m l +splice_head_only' :: ZHead m -> Graph m l -> LGraph m l -- | A safe operation @@ -235,12 +240,12 @@ splice_head_only' :: ZHead m -> Graph m l -> LGraph m l -- layout or dataflow, however, one will want to use 'postorder_dfs' -- in order to get the blocks in an order that relates to the control -- flow in the procedure. -of_block_list :: BlockId -> [Block m l] -> LGraph m l -- N log N +of_block_list :: BlockId -> Int -> [Block m l] -> LGraph m l -- N log N to_block_list :: LGraph m l -> [Block m l] -- N log N -- | Conversion from LGraph to Graph graphOfLGraph :: LastNode l => LGraph m l -> Graph m l -graphOfLGraph (LGraph eid blocks) = Graph (ZLast $ mkBranchNode eid) blocks +graphOfLGraph (LGraph eid _ blocks) = Graph (ZLast $ mkBranchNode eid) blocks -- | Traversal: 'postorder_dfs' returns a list of blocks reachable @@ -282,6 +287,8 @@ fold_blocks :: (Block m l -> a -> a) -> a -> LGraph m l -> a fold_fwd_block :: (BlockId -> a -> a) -> (m -> a -> a) -> (ZLast l -> a -> a) -> Block m l -> a -> a +map_one_block :: (BlockId -> BlockId) -> (m -> m') -> (l -> l') -> Block m l -> Block m' l' + map_nodes :: (BlockId -> BlockId) -> (m -> m') -> (l -> l') -> LGraph m l -> LGraph m' l' -- mapping includes the entry id! @@ -350,14 +357,14 @@ instance LastNode l => HavingSuccessors (ZTail m l) where ----- block manipulations -blockId (Block id _) = id +blockId (Block id _ _) = id -- | Convert block between forms. -- These functions are tail-recursive, so we can go as deep as we like -- without fear of stack overflow. ht_to_block head tail = case head of - ZFirst id -> Block id tail + ZFirst id off -> Block id off tail ZHead h m -> ht_to_block h (ZTail m tail) ht_to_last head (ZLast l) = (head, l) @@ -367,11 +374,11 @@ zipht h t = ht_to_block h t zip (ZBlock h t) = ht_to_block h t goto_end (ZBlock h t) = ht_to_last h t -unzip (Block id t) = ZBlock (ZFirst id) t +unzip (Block id off t) = ZBlock (ZFirst id off) t head_id :: ZHead m -> BlockId -head_id (ZFirst id) = id -head_id (ZHead h _) = head_id h +head_id (ZFirst id _) = id +head_id (ZHead h _) = head_id h last (ZBlock _ t) = lastTail t @@ -385,13 +392,13 @@ tailOfLast l = ZLast (LastOther l) -- tedious to write in every client ------------------ simple graph manipulations focus :: BlockId -> LGraph m l -> FGraph m l -- focus on edge out of node with id -focus id (LGraph entry blocks) = +focus id (LGraph entry _ blocks) = case lookupBlockEnv blocks id of Just b -> FGraph entry (unzip b) (delFromUFM blocks id) Nothing -> panic "asked for nonexistent block in flow graph" entry :: LGraph m l -> FGraph m l -- focus on edge out of entry node -entry g@(LGraph eid _) = focus eid g +entry g@(LGraph eid _ _) = focus eid g -- | pull out a block satisfying the predicate, if any splitp_blocks :: (Block m l -> Bool) -> BlockEnv (Block m l) -> @@ -452,7 +459,7 @@ single_exitg (Graph tail blocks) = foldUFM add (exit_count (lastTail tail)) bloc -- Better to geot [A,B,C,D] -postorder_dfs g@(LGraph _ blockenv) = +postorder_dfs g@(LGraph _ _ blockenv) = let FGraph id eblock _ = entry g in zip eblock : postorder_dfs_from_except blockenv eblock (unitUniqSet id) @@ -463,7 +470,7 @@ postorder_dfs_from_except blocks b visited = where -- vnode :: -- Block m l -> ([Block m l] -> BlockSet -> a) -> [Block m l] -> BlockSet -> a - vnode block@(Block id _) cont acc visited = + vnode block@(Block id _ _) cont acc visited = if elemBlockSet id visited then cont acc visited else @@ -489,42 +496,42 @@ postorder_dfs_from blocks b = postorder_dfs_from_except blocks b emptyBlockSet -- 'b1' what its inline successor is going to be, so that if 'b1' ends with -- 'goto b2', the goto can be omitted. -fold_layout f z g@(LGraph eid _) = fold (postorder_dfs g) z +fold_layout f z g@(LGraph eid _ _) = fold (postorder_dfs g) z where fold blocks z = case blocks of [] -> z [b] -> f b Nothing z b1 : b2 : bs -> fold (b2 : bs) (f b1 (nextlabel b2) z) - nextlabel (Block id _) = + nextlabel (Block id _ _) = if id == eid then panic "entry as successor" else Just id -- | The rest of the traversals are straightforward -map_blocks f (LGraph eid blocks) = LGraph eid (mapUFM f blocks) +map_blocks f (LGraph eid off blocks) = LGraph eid off (mapUFM f blocks) + +map_nodes idm middle last (LGraph eid off blocks) = + LGraph (idm eid) off (mapUFM (map_one_block idm middle last) blocks) -map_nodes idm middle last (LGraph eid blocks) = LGraph (idm eid) (mapUFM block blocks) - where block (Block id t) = Block (idm id) (tail t) - tail (ZTail m t) = ZTail (middle m) (tail t) +map_one_block idm middle last (Block id off t) = Block (idm id) off (tail t) + where tail (ZTail m t) = ZTail (middle m) (tail t) tail (ZLast LastExit) = ZLast LastExit tail (ZLast (LastOther l)) = ZLast (LastOther (last l)) -mapM_blocks f (LGraph eid blocks) = blocks' >>= return . LGraph eid +mapM_blocks f (LGraph eid off blocks) = blocks' >>= return . LGraph eid off where blocks' = foldUFM (\b mblocks -> do { blocks <- mblocks ; b <- f b ; return $ insertBlock b blocks }) (return emptyBlockEnv) blocks -fold_blocks f z (LGraph _ blocks) = foldUFM f z blocks -fold_fwd_block first middle last (Block id t) z = tail t (first id z) +fold_blocks f z (LGraph _ _ blocks) = foldUFM f z blocks +fold_fwd_block first middle last (Block id _ t) z = tail t (first id z) where tail (ZTail m t) z = tail t (middle m z) tail (ZLast l) z = last l z -of_block_list e blocks = LGraph e $ foldr insertBlock emptyBlockEnv blocks -to_block_list (LGraph _ blocks) = eltsUFM blocks - - +of_block_list e off blocks = LGraph e off $ foldr insertBlock emptyBlockEnv blocks +to_block_list (LGraph _ _ blocks) = eltsUFM blocks -- We want to be able to scrutinize a single-entry, single-exit 'LGraph' for @@ -568,15 +575,15 @@ prepare_for_splicing' (Graph etail gblocks) single multi = is_exit :: Block m l -> Bool is_exit b = case last (unzip b) of { LastExit -> True; _ -> False } -splice_head head g = +splice_head head g@(LGraph _ off _) = ASSERT (single_exit g) prepare_for_splicing g splice_one_block splice_many_blocks where eid = head_id head splice_one_block tail' = case ht_to_last head tail' of - (head, LastExit) -> (LGraph eid emptyBlockEnv, head) + (head, LastExit) -> (LGraph eid off emptyBlockEnv, head) _ -> panic "spliced LGraph without exit" splice_many_blocks entry exit others = - (LGraph eid (insertBlock (zipht head entry) others), exit) + (LGraph eid off (insertBlock (zipht head entry) others), exit) splice_head' head g = ASSERT (single_exitg g) prepare_for_splicing' g splice_one_block splice_many_blocks @@ -614,25 +621,27 @@ splice_tail g tail = splice_head_only head g = let FGraph eid gentry gblocks = entry g in case gentry of - ZBlock (ZFirst _) tail -> LGraph eid (insertBlock (zipht head tail) gblocks) + ZBlock (ZFirst _ _) tail -> + LGraph eid 0 (insertBlock (zipht head tail) gblocks) _ -> panic "entry not at start of block?!" splice_head_only' head (Graph tail gblocks) = let eblock = zipht head tail in - LGraph (blockId eblock) (insertBlock eblock gblocks) + LGraph (blockId eblock) 0 (insertBlock eblock gblocks) + -- the offset probably should never be used, but well, it's correct for this LGraph --- Translation -translate txm txl (LGraph eid blocks) = +translate txm txl (LGraph eid off blocks) = do blocks' <- foldUFM txblock (return emptyBlockEnv) blocks - return $ LGraph eid blocks' + return $ LGraph eid off blocks' where -- txblock :: -- Block m l -> tm (BlockEnv (Block m' l')) -> tm (BlockEnv (Block m' l')) - txblock (Block id t) expanded = + txblock (Block id boff t) expanded = do blocks' <- expanded - txtail (ZFirst id) t blocks' + txtail (ZFirst id boff) t blocks' -- txtail :: ZHead m' -> ZTail m l -> BlockEnv (Block m' l') -> -- tm (BlockEnv (Block m' l')) txtail h (ZTail m t) blocks' = @@ -675,10 +684,11 @@ pprLast LastExit = text "" pprLast (LastOther l) = ppr l pprBlock :: (Outputable m, Outputable l, LastNode l) => Block m l -> SDoc -pprBlock (Block id tail) = ppr id <> colon $$ ppr tail +pprBlock (Block id args tail) = ppr id <> parens (ppr args) <> colon $$ ppr tail pprLgraph :: (Outputable m, Outputable l, LastNode l) => LGraph m l -> SDoc -pprLgraph g = text "{" $$ nest 2 (vcat $ map ppr blocks) $$ text "}" +pprLgraph g = text "{" <> text "offset" <> parens (ppr $ lg_argoffset g) $$ + nest 2 (vcat $ map ppr blocks) $$ text "}" where blocks = postorder_dfs g pprGraph :: (Outputable m, Outputable l, LastNode l) => Graph m l -> SDoc