-module CmmCPS (cmmCPS) where
+{-# OPTIONS_GHC -XNoMonoLocalBinds #-}
+-- Norman likes local bindings
+-- If this module lives on I'd like to get rid of this flag in due course
+module CmmCPS (
+ -- | Converts C-- with full proceedures and parameters
+ -- to a CPS transformed C-- with the stack made manifest.
+ -- Well, sort of.
+ protoCmmCPS
+) where
-#include "HsVersions.h"
-
-import Cmm
-import CmmLint
-import PprCmm
-
-import Dataflow (fixedpoint)
-import CmmLive
-
-import MachOp
-import ForeignCall
import CLabel
-import SMRep
-import Constants
+import Cmm
+import CmmDecl
+import CmmBuildInfoTables
+import CmmCommonBlockElim
+import CmmProcPoint
+import CmmSpillReload
+import CmmStackLayout
+import OptimizationFuel
import DynFlags
import ErrUtils
-import Maybes
+import HscTypes
+import Data.Maybe
+import Control.Monad
+import Data.Map (Map)
+import qualified Data.Map as Map
import Outputable
-import UniqSupply
-import UniqFM
-import UniqSet
-import Unique
-
-import Monad
-import IO
-import Data.List
-
---------------------------------------------------------------------------------
-
--- The format for the call to a continuation
--- The fst is the arguments that must be passed to the continuation
--- by the continuation's caller.
--- The snd is the live values that must be saved on stack.
--- A Nothing indicates an ignored slot.
--- The head of each list is the stack top or the first parameter.
-
--- The format for live values for a particular continuation
--- All on stack for now.
--- Head element is the top of the stack (or just under the header).
--- Nothing means an empty slot.
--- Future possibilities include callee save registers (i.e. passing slots in register)
--- and heap memory (not sure if that's usefull at all though, but it may
--- be worth exploring the design space).
-
-data BrokenBlock
- = BrokenBlock {
- brokenBlockId :: BlockId, -- Like a CmmBasicBlock
- brokenBlockEntry :: BlockEntryInfo,
- -- How this block can be entered
-
- brokenBlockStmts :: [CmmStmt],
- -- Like a CmmBasicBlock
- -- (but without the last statement)
-
- brokenBlockTargets :: [BlockId],
- -- Blocks that this block could
- -- branch to one either by conditional
- -- branches or via the last statement
-
- brokenBlockExit :: FinalStmt
- -- How the block can be left
- }
-
-continuationLabel (Continuation _ _ l _ _) = l
-data Continuation =
- Continuation
- Bool -- True => Function entry, False => Continuation/return point
- [CmmStatic] -- Info table, may be empty
- CLabel -- Used to generate both info & entry labels
- CmmFormals -- Argument locals live on entry (C-- procedure params)
- [BrokenBlock] -- Code, may be empty. The first block is
- -- the entry point. The order is otherwise initially
- -- unimportant, but at some point the code gen will
- -- fix the order.
-
- -- the BlockId of the first block does not give rise
- -- to a label. To jump to the first block in a Proc,
- -- use the appropriate CLabel.
-
-data BlockEntryInfo
- = FunctionEntry -- Beginning of a function
- CLabel -- The function name
- CmmFormals -- Aguments to function
-
- | ContinuationEntry -- Return point of a call
- CmmFormals -- return values (argument to continuation)
- -- TODO:
- -- | ProcPointEntry -- no return values, but some live might end up as params or possibly in the frame
-
- | ControlEntry -- A label in the input
-
--- Final statement in a BlokenBlock
--- Constructors and arguments match those in Cmm,
--- but are restricted to branches, returns, jumps, calls and switches
-data FinalStmt
- = FinalBranch
- BlockId -- next block (must be a ControlEntry)
-
- | FinalReturn
- CmmActuals -- return values
-
- | FinalJump
- CmmExpr -- the function to call
- CmmActuals -- arguments to call
-
- | FinalCall
- BlockId -- next block after call (must be a ContinuationEntry)
- CmmCallTarget -- the function to call
- CmmFormals -- results from call (redundant with ContinuationEntry)
- CmmActuals -- arguments to call
- (Maybe [GlobalReg]) -- registers that must be saved (TODO)
-
- | FinalSwitch
- CmmExpr [Maybe BlockId] -- Table branch
-
- -- TODO: | ProcPointExit (needed?)
-
-data StackFormat
- = StackFormat
- BlockId {- block that is the start of the continuation. may or may not be the current block -}
- WordOff {- total frame size -}
- [(CmmReg, WordOff)] {- local reg offsets from stack top -}
-
--- A block can be a continuation of a call
--- A block can be a continuation of another block (w/ or w/o joins)
--- A block can be an entry to a function
-
-blocksToBlockEnv :: [BrokenBlock] -> BlockEnv BrokenBlock
-blocksToBlockEnv blocks = listToUFM $ map (\b -> (brokenBlockId b, b)) blocks
-
------------------------------------------------------------------------------
-calculateOwnership :: UniqSet BlockId -> [BrokenBlock] -> BlockEnv (UniqSet BlockId)
-calculateOwnership proc_points blocks =
- fixedpoint dependants update (map brokenBlockId blocks) emptyUFM
- where
- blocks_ufm :: BlockEnv BrokenBlock
- blocks_ufm = blocksToBlockEnv blocks
-
- dependants :: BlockId -> [BlockId]
- dependants ident =
- brokenBlockTargets $ lookupWithDefaultUFM
- blocks_ufm unknown_block ident
-
- update :: BlockId -> Maybe BlockId
- -> BlockEnv (UniqSet BlockId) -> Maybe (BlockEnv (UniqSet BlockId))
- update ident cause owners =
- case (cause, ident `elementOfUniqSet` proc_points) of
- (Nothing, True) -> Just $ addToUFM owners ident (unitUniqSet ident)
- (Nothing, False) -> Nothing
- (Just cause', True) -> Nothing
- (Just cause', False) ->
- if (sizeUniqSet old) == (sizeUniqSet new)
- then Nothing
- else Just $ addToUFM owners ident new
- where
- old = lookupWithDefaultUFM owners emptyUniqSet ident
- new = old `unionUniqSets` lookupWithDefaultUFM owners emptyUniqSet cause'
-
- unknown_block = panic "unknown BlockId in selectStackFormat"
-
-calculateProcPoints :: [BrokenBlock] -> UniqSet BlockId
-calculateProcPoints blocks = calculateProcPoints' init_proc_points blocks
- where
- init_proc_points = mkUniqSet $
- map brokenBlockId $
- filter always_proc_point blocks
- always_proc_point BrokenBlock {
- brokenBlockEntry = FunctionEntry _ _ } = True
- always_proc_point BrokenBlock {
- brokenBlockEntry = ContinuationEntry _ } = True
- always_proc_point _ = False
-
-calculateProcPoints' :: UniqSet BlockId -> [BrokenBlock] -> UniqSet BlockId
-calculateProcPoints' old_proc_points blocks =
- if sizeUniqSet old_proc_points == sizeUniqSet new_proc_points
- then old_proc_points
- else calculateProcPoints' new_proc_points blocks
- where
- owners = calculateOwnership old_proc_points blocks
- new_proc_points = unionManyUniqSets (old_proc_points:(map (calculateProcPoints'' owners) blocks))
-
-calculateProcPoints'' :: BlockEnv (UniqSet BlockId) -> BrokenBlock -> UniqSet BlockId
-calculateProcPoints'' owners block =
- unionManyUniqSets (map (f parent_id) child_ids)
- where
- parent_id = brokenBlockId block
- child_ids = brokenBlockTargets block
- -- TODO: name for f
- f parent_id child_id =
- if needs_proc_point
- then unitUniqSet child_id
- else emptyUniqSet
- where
- parent_owners = lookupWithDefaultUFM owners emptyUniqSet parent_id
- child_owners = lookupWithDefaultUFM owners emptyUniqSet child_id
- needs_proc_point = not $ isEmptyUniqSet $ child_owners `minusUniqSet` parent_owners
-
-collectNonProcPointTargets ::
- UniqSet BlockId -> BlockEnv BrokenBlock
- -> UniqSet BlockId -> BlockId -> UniqSet BlockId
-collectNonProcPointTargets proc_points blocks current_targets block =
- if sizeUniqSet current_targets == sizeUniqSet new_targets
- then current_targets
- else foldl (collectNonProcPointTargets proc_points blocks) new_targets targets
- where
- block' = lookupWithDefaultUFM blocks (panic "TODO") block
- targets =
- -- Note the subtlety that since the extra branch after a call
- -- will always be to a block that is a proc-point,
- -- this subtraction will always remove that case
- uniqSetToList $ (mkUniqSet $ brokenBlockTargets block') `minusUniqSet` proc_points
- -- TODO: remove redundant uniqSetToList
- new_targets = current_targets `unionUniqSets` (mkUniqSet targets)
-
-buildContinuation ::
- UniqSet BlockId -> BlockEnv BrokenBlock
- -> BlockId -> Continuation
-buildContinuation proc_points blocks start =
- Continuation is_entry info_table clabel params body
- where
- children = (collectNonProcPointTargets proc_points blocks (unitUniqSet start) start) `delOneFromUniqSet` start
- start_block = lookupWithDefaultUFM blocks (panic "TODO") start
- children_blocks = map (lookupWithDefaultUFM blocks (panic "TODO")) (uniqSetToList children)
- body = start_block : children_blocks
- info_table = [] -- TODO
- start_block_entry = brokenBlockEntry start_block
- is_entry = case start_block_entry of
- FunctionEntry _ _ -> True
- _ -> False
- clabel = case start_block_entry of
- FunctionEntry label _ -> label
- _ -> mkReturnPtLabel $ getUnique start
- params = case start_block_entry of
- FunctionEntry _ args -> args
- ContinuationEntry args -> args
- ControlEntry -> [] -- TODO: it's a proc-point, we could pass lives in parameter registers
-
---------------------------------------------------------------------------------
--- For now just select the continuation orders in the order they are in the set with no gaps
+import StaticFlags
-selectStackFormat :: BlockEnv CmmLive -> [BrokenBlock] -> BlockEnv StackFormat
-selectStackFormat live blocks =
- fixedpoint dependants update (map brokenBlockId blocks) emptyUFM
- where
- blocks_ufm :: BlockEnv BrokenBlock
- blocks_ufm = listToUFM $ map (\b -> (brokenBlockId b, b)) blocks
-
- dependants :: BlockId -> [BlockId]
- dependants ident =
- brokenBlockTargets $ lookupWithDefaultUFM
- blocks_ufm unknown_block ident
-
- update :: BlockId -> Maybe BlockId
- -> BlockEnv StackFormat -> Maybe (BlockEnv StackFormat)
- update ident cause formats =
- if ident `elemUFM` formats
- then Nothing -- Blocks only need to be updated once
- else case (cause,
- brokenBlockEntry $ lookupWithDefaultUFM blocks_ufm
- unknown_block ident) of
- -- Propagate only to blocks entered by branches
- -- (not function entry blocks or continuation entry blocks)
- (Just cause_name, ControlEntry) ->
- Just $ addToUFM formats ident cause_format
- where cause_format = lookupWithDefaultUFM
- formats unknown_block
- cause_name
- -- Do initial calculates for function blocks
- (Nothing, FunctionEntry _ _) ->
- Just $
- addToUFM formats ident $
- StackFormat ident 0 []
- -- Do initial calculates for continuation blocks
- (Nothing, ContinuationEntry _) ->
- Just $
- addToUFM formats ident $
- live_to_format ident $
- lookupWithDefaultUFM live unknown_block ident
- _ -> Nothing
-
- unknown_block = panic "unknown BlockId in selectStackFormat"
-
- live_to_format :: BlockId -> CmmLive -> StackFormat
- live_to_format label live =
- foldl extend_format
- (StackFormat label retAddrSizeW [])
- (uniqSetToList live)
-
- extend_format :: StackFormat -> LocalReg -> StackFormat
- extend_format (StackFormat block size offsets) reg =
- StackFormat block (slot_size reg + size) ((CmmLocal reg, size) : offsets)
-
-selectStackFormat2 :: BlockEnv CmmLive -> [Continuation] -> [(CLabel, StackFormat)]
-selectStackFormat2 live continuations =
- map (\c -> (continuationLabel c, selectStackFormat' c)) continuations
- where
- selectStackFormat' (Continuation True info_table label formals blocks) =
- let ident = brokenBlockId $ head blocks -- TODO: CLabel isn't a uniquable, but we need a better way than this
- in StackFormat ident 0 []
- selectStackFormat' (Continuation False info_table label formals blocks) =
- let ident = brokenBlockId $ head blocks -- TODO: CLabel isn't a uniquable, but we need a better way than this
- in live_to_format ident $ lookupWithDefaultUFM live unknown_block ident
-
- live_to_format :: BlockId -> CmmLive -> StackFormat
- live_to_format label live =
- foldl extend_format
- (StackFormat label retAddrSizeW [])
- (uniqSetToList live)
-
- extend_format :: StackFormat -> LocalReg -> StackFormat
- extend_format (StackFormat block size offsets) reg =
- StackFormat block (slot_size reg + size) ((CmmLocal reg, size) : offsets)
-
- unknown_block = panic "unknown BlockId in selectStackFormat"
-
-slot_size reg = ((machRepByteWidth (localRegRep reg) - 1) `div` wORD_SIZE) + 1
-
-constructContinuation :: [(CLabel, StackFormat)] -> Continuation -> CmmTop
-constructContinuation formats (Continuation is_entry info label formals blocks) =
- CmmProc info label formals (map (constructContinuation2' label formats) blocks)
-
-constructContinuation2' :: CLabel -> [(CLabel, StackFormat)] -> BrokenBlock
- -> CmmBasicBlock
-constructContinuation2' curr_ident formats (BrokenBlock ident entry stmts _ exit) =
- BasicBlock ident (prefix++stmts++postfix)
- where
- curr_format = maybe unknown_block id $ lookup curr_ident formats
- unknown_block = panic "unknown BlockId in constructContinuation"
- prefix = case entry of
- ControlEntry -> []
- FunctionEntry _ _ -> []
- ContinuationEntry formals ->
- unpack_continuation curr_format
- postfix = case exit of
- FinalBranch next -> [CmmBranch next]
- FinalSwitch expr targets -> [CmmSwitch expr targets]
- FinalReturn arguments ->
- exit_function curr_format
- (CmmLoad (CmmReg spReg) wordRep)
- arguments
- FinalJump target arguments ->
- exit_function curr_format target arguments
- -- TODO: do something about global saves
- FinalCall next (CmmForeignCall target CmmCallConv)
- results arguments saves ->
- pack_continuation curr_format cont_format ++
- [CmmJump target arguments]
- where
- cont_format = maybe unknown_block id $
- lookup (mkReturnPtLabel $ getUnique next) formats
- FinalCall next _ results arguments saves -> panic "unimplemented CmmCall"
-
---------------------------------------------------------------------------------
--- Functions that generate CmmStmt sequences
--- for packing/unpacking continuations
--- and entering/exiting functions
-
-exit_function :: StackFormat -> CmmExpr -> CmmActuals -> [CmmStmt]
-exit_function (StackFormat curr_id curr_frame_size curr_offsets) target arguments
- = adjust_spReg ++ jump where
- adjust_spReg = [
- CmmAssign spReg
- (CmmRegOff spReg (curr_frame_size*wORD_SIZE))]
- jump = [CmmJump target arguments]
-
-enter_function :: WordOff -> [CmmStmt]
-enter_function max_frame_size
- = check_stack_limit where
- check_stack_limit = [
- CmmCondBranch
- (CmmMachOp (MO_U_Lt $ cmmRegRep spReg)
- [CmmRegOff spReg max_frame_size, CmmReg spLimReg])
- gc_block]
- gc_block = undefined -- TODO: get stack and heap checks to go to same
-
--- TODO: fix branches to proc point (we have to insert a new block to marshel the continuation)
-pack_continuation :: StackFormat -> StackFormat -> [CmmStmt]
-pack_continuation (StackFormat curr_id curr_frame_size curr_offsets)
- (StackFormat cont_id cont_frame_size cont_offsets)
- = save_live_values ++ set_stack_header ++ adjust_spReg where
- -- TODO: only save variables when actually needed
- save_live_values =
- [CmmStore
- (CmmRegOff
- spReg (wORD_SIZE*(curr_frame_size - cont_frame_size + offset)))
- (CmmReg reg)
- | (reg, offset) <- cont_offsets]
- set_stack_header = -- TODO: only set when needed
- [CmmStore (CmmRegOff spReg (wORD_SIZE*(curr_frame_size - cont_frame_size))) continuation_function]
- continuation_function = CmmLit $ CmmLabel $ mkReturnPtLabel {-TODO: use the correct function -} $ getUnique cont_id
- adjust_spReg =
- if curr_frame_size == cont_frame_size
- then []
- else [CmmAssign spReg (CmmRegOff spReg ((curr_frame_size - cont_frame_size)*wORD_SIZE))]
-
--- Lazy adjustment of stack headers assumes all blocks
--- that could branch to eachother (i.e. control blocks)
--- have the same stack format (this causes a problem
--- only for proc-point).
-unpack_continuation :: StackFormat -> [CmmStmt]
-unpack_continuation (StackFormat curr_id curr_frame_size curr_offsets)
- = load_live_values where
- -- TODO: only save variables when actually needed
- load_live_values =
- [CmmAssign
- reg
- (CmmLoad (CmmRegOff spReg (wORD_SIZE*offset)) (cmmRegRep reg))
- | (reg, offset) <- curr_offsets]
-
------------------------------------------------------------------------------
--- Breaking basic blocks on function calls
-----------------------------------------------------------------------------
-
------------------------------------------------------------------------------
--- Takes a basic block and breaks it up into a list of broken blocks
---
--- Takes a basic block and returns a list of basic blocks that
--- each have at most 1 CmmCall in them which must occur at the end.
--- Also returns with each basic block, the variables that will
--- be arguments to the continuation of the block once the call (if any)
--- returns.
-
-breakBlock :: [Unique] -> CmmBasicBlock -> BlockEntryInfo -> [BrokenBlock]
-breakBlock uniques (BasicBlock ident stmts) entry =
- breakBlock' uniques ident entry [] [] stmts where
- breakBlock' uniques current_id entry exits accum_stmts stmts =
- case stmts of
- [] -> panic "block doesn't end in jump, goto or return"
- [CmmJump target arguments] ->
- [BrokenBlock current_id entry accum_stmts
- exits
- (FinalJump target arguments)]
- [CmmReturn arguments] ->
- [BrokenBlock current_id entry accum_stmts
- exits
- (FinalReturn arguments)]
- [CmmBranch target] ->
- [BrokenBlock current_id entry accum_stmts
- (target:exits)
- (FinalBranch target)]
- [CmmSwitch expr targets] ->
- [BrokenBlock current_id entry accum_stmts
- (mapMaybe id targets ++ exits)
- (FinalSwitch expr targets)]
- (CmmJump _ _:_) ->
- panic "jump in middle of block"
- (CmmReturn _:_) ->
- panic "return in middle of block"
- (CmmBranch _:_) ->
- panic "branch in middle of block"
- (CmmSwitch _ _:_) ->
- panic ("switch in middle of block" ++ (showSDoc $ ppr stmts))
- (CmmCall target results arguments saves:stmts) -> block : rest
- where
- new_id = BlockId $ head uniques
- block = BrokenBlock current_id entry accum_stmts
- (new_id:exits)
- (FinalCall new_id target results arguments saves)
- rest = breakBlock' (tail uniques) new_id
- (ContinuationEntry results) [] [] stmts
- (s@(CmmCondBranch test target):stmts) ->
- breakBlock' uniques current_id entry
- (target:exits) (accum_stmts++[s]) stmts
- (s:stmts) ->
- breakBlock' uniques current_id entry
- exits (accum_stmts++[s]) stmts
-
---------------------------------
--- Convert from a BrokenBlock
--- to a CmmBasicBlock so the
--- liveness analysis can run
--- on it.
---------------------------------
-cmmBlockFromBrokenBlock :: BrokenBlock -> CmmBasicBlock
-cmmBlockFromBrokenBlock (BrokenBlock ident _ stmts _ exit) =
- BasicBlock ident (stmts++exit_stmt)
- where
- exit_stmt =
- case exit of
- FinalBranch target -> [CmmBranch target]
- FinalReturn arguments -> [CmmReturn arguments]
- FinalJump target arguments -> [CmmJump target arguments]
- FinalSwitch expr targets -> [CmmSwitch expr targets]
- FinalCall branch_target call_target results arguments saves ->
- [CmmCall call_target results arguments saves,
- CmmBranch branch_target]
-
+-- |Top level driver for the CPS pass
-----------------------------------------------------------------------------
--- CPS a single CmmTop (proceedure)
------------------------------------------------------------------------------
-
-cpsProc :: UniqSupply -> CmmTop -> [CmmTop]
-cpsProc uniqSupply x@(CmmData _ _) = [x]
-cpsProc uniqSupply x@(CmmProc info_table ident params blocks) =
- --[CmmProc info_table ident params cps_blocks]
- cps_continuations
- where
- uniqes :: [[Unique]]
- uniqes = map uniqsFromSupply $ listSplitUniqSupply uniqSupply
-
- -- Break the block at each function call
- broken_blocks :: [BrokenBlock]
- broken_blocks = concat $ zipWith3 breakBlock uniqes blocks
- (FunctionEntry ident params:repeat ControlEntry)
-
- -- Calculate live variables for each broken block
- live :: BlockEntryLiveness
- live = cmmLiveness $ map cmmBlockFromBrokenBlock broken_blocks
- -- nothing can be live on entry to the first block so we could take the tail
-
- proc_points :: UniqSet BlockId
- proc_points = calculateProcPoints broken_blocks
-
- continuations :: [Continuation]
- continuations = map (buildContinuation proc_points (blocksToBlockEnv broken_blocks)) (uniqSetToList proc_points)
-
- -- TODO: insert proc point code here
- -- * Branches and switches to proc points may cause new blocks to be created
- -- (or proc points could leave behind phantom blocks that just jump to them)
- -- * Proc points might get some live variables passed as arguments
-
- -- TODO: let blocks_with_live = map (cmmLivenessComment live . snd) broken_blocks
-
- --procs = groupBlocksIntoContinuations live broken_blocks
-
- -- Select the stack format on entry to each block
- formats2 :: [(CLabel, StackFormat)]
- formats2 = selectStackFormat2 live continuations
-
- -- Do the actual CPS transform
- cps_continuations :: [CmmTop]
- cps_continuations = map (constructContinuation formats2) continuations
-
---------------------------------------------------------------------------------
-cmmCPS :: DynFlags
- -> [Cmm] -- C-- with Proceedures
- -> IO [Cmm] -- Output: CPS transformed C--
-
-cmmCPS dflags abstractC = do
- when (dopt Opt_DoCmmLinting dflags) $
- do showPass dflags "CmmLint"
- case firstJust $ map cmmLint abstractC of
- Just err -> do printDump err
- ghcExit dflags 1
- Nothing -> return ()
- showPass dflags "CPS"
- -- TODO: check for use of branches to non-existant blocks
- -- TODO: check for use of Sp, SpLim, R1, R2, etc.
- -- TODO: find out if it is valid to create a new unique source like this
- uniqSupply <- mkSplitUniqSupply 'p'
- let supplies = listSplitUniqSupply uniqSupply
- let continuationC = zipWith (\s (Cmm c) -> Cmm $ concat $ zipWith (cpsProc) (listSplitUniqSupply s) c) supplies abstractC
-
- dumpIfSet_dyn dflags Opt_D_dump_cps_cmm "CPS Cmm" (pprCmms continuationC)
- -- TODO: add option to dump Cmm to file
- return continuationC
+-- There are two complications here:
+-- 1. We need to compile the procedures in two stages because we need
+-- an analysis of the procedures to tell us what CAFs they use.
+-- The first stage returns a map from procedure labels to CAFs,
+-- along with a closure that will compute SRTs and attach them to
+-- the compiled procedures.
+-- The second stage is to combine the CAF information into a top-level
+-- CAF environment mapping non-static closures to the CAFs they keep live,
+-- then pass that environment to the closures returned in the first
+-- stage of compilation.
+-- 2. We need to thread the module's SRT around when the SRT tables
+-- are computed for each procedure.
+-- The SRT needs to be threaded because it is grown lazily.
+protoCmmCPS :: HscEnv -- Compilation env including
+ -- dynamic flags: -dcmm-lint -ddump-cps-cmm
+ -> (TopSRT, [Cmm]) -- SRT table and accumulating list of compiled procs
+ -> Cmm -- Input C-- with Procedures
+ -> IO (TopSRT, [Cmm]) -- Output CPS transformed C--
+protoCmmCPS hsc_env (topSRT, rst) (Cmm tops) =
+ do let dflags = hsc_dflags hsc_env
+ showPass dflags "CPSZ"
+ (cafEnvs, tops) <- liftM unzip $ mapM (cpsTop hsc_env) tops
+ let topCAFEnv = mkTopCAFInfo (concat cafEnvs)
+ (topSRT, tops) <- foldM (toTops hsc_env topCAFEnv) (topSRT, []) tops
+ let cmms = Cmm (reverse (concat tops))
+ dumpIfSet_dyn dflags Opt_D_dump_cps_cmm "Post CPS Cmm" (ppr cmms)
+ return (topSRT, cmms : rst)
+
+{- [Note global fuel]
+~~~~~~~~~~~~~~~~~~~~~
+The identity and the last pass are stored in
+mutable reference cells in an 'HscEnv' and are
+global to one compiler session.
+-}
+
+cpsTop :: HscEnv -> CmmTop -> IO ([(CLabel, CAFSet)], [(CAFSet, CmmTop)])
+cpsTop _ p@(CmmData {}) = return ([], [(Map.empty, p)])
+cpsTop hsc_env (CmmProc h@(TopInfo {stack_info=StackInfo {arg_space=entry_off}}) l g) =
+ do
+ -- Why bother doing it this early?
+ -- g <- dual_rewrite Opt_D_dump_cmmz "spills and reloads"
+ -- (dualLivenessWithInsertion callPPs) g
+ -- g <- run $ insertLateReloads g -- Duplicate reloads just before uses
+ -- g <- dual_rewrite Opt_D_dump_cmmz "Dead Assignment Elimination"
+ -- (removeDeadAssignmentsAndReloads callPPs) g
+ dump Opt_D_dump_cmmz "Pre common block elimination" g
+ g <- return $ elimCommonBlocks g
+ dump Opt_D_dump_cmmz "Post common block elimination" g
+
+ -- Any work storing block Labels must be performed _after_ elimCommonBlocks
+
+ ----------- Proc points -------------------
+ let callPPs = callProcPoints g
+ procPoints <- run $ minimalProcPointSet callPPs g
+ g <- run $ addProcPointProtocols callPPs procPoints g
+ dump Opt_D_dump_cmmz "Post Proc Points Added" g
+
+ ----------- Spills and reloads -------------------
+ g <-
+ -- pprTrace "pre Spills" (ppr g) $
+ dual_rewrite Opt_D_dump_cmmz "spills and reloads"
+ (dualLivenessWithInsertion procPoints) g
+ -- Insert spills at defns; reloads at return points
+ g <-
+ -- pprTrace "pre insertLateReloads" (ppr g) $
+ run $ insertLateReloads g -- Duplicate reloads just before uses
+ dump Opt_D_dump_cmmz "Post late reloads" g
+ g <-
+ -- pprTrace "post insertLateReloads" (ppr g) $
+ dual_rewrite Opt_D_dump_cmmz "Dead Assignment Elimination"
+ (removeDeadAssignmentsAndReloads procPoints) g
+ -- Remove redundant reloads (and any other redundant asst)
+
+ ----------- Debug only: add code to put zero in dead stack slots----
+ -- Debugging: stubbing slots on death can cause crashes early
+ g <- -- trace "post dead-assign elim" $
+ if opt_StubDeadValues then run $ stubSlotsOnDeath g else return g
+
+
+ --------------- Stack layout ----------------
+ slotEnv <- run $ liveSlotAnal g
+ mbpprTrace "live slot analysis results: " (ppr slotEnv) $ return ()
+ let areaMap = layout procPoints slotEnv entry_off g
+ mbpprTrace "areaMap" (ppr areaMap) $ return ()
+
+ ------------ Manifest the stack pointer --------
+ g <- run $ manifestSP areaMap entry_off g
+ dump Opt_D_dump_cmmz "after manifestSP" g
+ -- UGH... manifestSP can require updates to the procPointMap.
+ -- We can probably do something quicker here for the update...
+
+ ------------- Split into separate procedures ------------
+ procPointMap <- run $ procPointAnalysis procPoints g
+ dump Opt_D_dump_cmmz "procpoint map" procPointMap
+ gs <- run $ splitAtProcPoints l callPPs procPoints procPointMap
+ (CmmProc h l g)
+ mapM_ (dump Opt_D_dump_cmmz "after splitting") gs
+
+ ------------- More CAFs and foreign calls ------------
+ cafEnv <- run $ cafAnal g
+ let localCAFs = catMaybes $ map (localCAFInfo cafEnv) gs
+ mbpprTrace "localCAFs" (ppr localCAFs) $ return ()
+
+ gs <- run $ mapM (lowerSafeForeignCalls areaMap) gs
+ mapM_ (dump Opt_D_dump_cmmz "after lowerSafeForeignCalls") gs
+
+ -- NO MORE GRAPH TRANSFORMATION AFTER HERE -- JUST MAKING INFOTABLES
+ let gs' = map (setInfoTableStackMap slotEnv areaMap) gs
+ mapM_ (dump Opt_D_dump_cmmz "after setInfoTableStackMap") gs'
+ let gs'' = map (bundleCAFs cafEnv) gs'
+ mapM_ (dump Opt_D_dump_cmmz "after bundleCAFs") gs''
+ return (localCAFs, gs'')
+ where dflags = hsc_dflags hsc_env
+ mbpprTrace x y z = if dopt Opt_D_dump_cmmz dflags then pprTrace x y z else z
+ dump f txt g = dumpIfSet_dyn dflags f txt (ppr g)
+
+ run = runFuelIO (hsc_OptFuel hsc_env)
+
+ dual_rewrite flag txt pass g =
+ do dump flag ("Pre " ++ txt) g
+ g <- run $ pass g
+ dump flag ("Post " ++ txt) $ g
+ return g
+
+-- This probably belongs in CmmBuildInfoTables?
+-- We're just finishing the job here: once we know what CAFs are defined
+-- in non-static closures, we can build the SRTs.
+toTops :: HscEnv -> Map CLabel CAFSet -> (TopSRT, [[CmmTop]])
+ -> [(CAFSet, CmmTop)] -> IO (TopSRT, [[CmmTop]])
+toTops hsc_env topCAFEnv (topSRT, tops) gs =
+ do let setSRT (topSRT, rst) g =
+ do (topSRT, gs) <- setInfoTableSRT topCAFEnv topSRT g
+ return (topSRT, gs : rst)
+ (topSRT, gs') <- runFuelIO (hsc_OptFuel hsc_env) $ foldM setSRT (topSRT, []) gs
+ return (topSRT, concat gs' : tops)