2 % (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
4 \section[SCCfinal]{Modify and collect code generation for final STG program}
6 This is now a sort-of-normal STG-to-STG pass (WDP 94/06), run by stg2stg.
8 * Traverses the STG program collecting the cost centres. These are
9 required to declare the cost centres at the start of code
12 Note: because of cross-module unfolding, some of these cost centres
13 may be from other modules. But will still have to give them
14 "extern" declarations.
16 * Puts on CAF cost-centres if the user has asked for individual CAF
19 * Ditto for individual DICT cost-centres.
21 * Boxes top-level inherited functions passed as arguments.
23 * "Distributes" given cost-centres to all as-yet-unmarked RHSs.
26 module SCCfinal ( stgMassageForProfiling ) where
28 #include "HsVersions.h"
32 import Packages ( HomeModules )
33 import StaticFlags ( opt_AutoSccsOnIndividualCafs )
34 import CostCentre -- lots of things
36 import Module ( Module )
37 import UniqSupply ( uniqFromSupply, splitUniqSupply, UniqSupply )
38 import Unique ( Unique )
40 import ListSetOps ( removeDups )
43 infixr 9 `thenMM`, `thenMM_`
47 stgMassageForProfiling
49 -> Module -- module name
50 -> UniqSupply -- unique supply
51 -> [StgBinding] -- input
52 -> (CollectedCCs, [StgBinding])
54 stgMassageForProfiling pdeps mod_name us stg_binds
56 ((local_ccs, extern_ccs, cc_stacks),
58 = initMM mod_name us (do_top_bindings stg_binds)
60 (fixed_ccs, fixed_cc_stacks)
61 = if opt_AutoSccsOnIndividualCafs
62 then ([],[]) -- don't need "all CAFs" CC
63 -- (for Prelude, we use PreludeCC)
64 else ([all_cafs_cc], [all_cafs_ccs])
66 local_ccs_no_dups = fst (removeDups cmpCostCentre local_ccs)
67 extern_ccs_no_dups = fst (removeDups cmpCostCentre extern_ccs)
69 ((fixed_ccs ++ local_ccs_no_dups,
71 fixed_cc_stacks ++ cc_stacks), stg_binds2)
74 all_cafs_cc = mkAllCafsCC mod_name
75 all_cafs_ccs = mkSingletonCCS all_cafs_cc
78 do_top_bindings :: [StgBinding] -> MassageM [StgBinding]
80 do_top_bindings [] = returnMM []
82 do_top_bindings (StgNonRec b rhs : bs)
83 = do_top_rhs b rhs `thenMM` \ rhs' ->
85 do_top_bindings bs `thenMM` \bs' ->
86 returnMM (StgNonRec b rhs' : bs')
89 do_top_bindings (StgRec pairs : bs)
90 = addTopLevelIshIds binders (
91 mapMM do_pair pairs `thenMM` \ pairs2 ->
92 do_top_bindings bs `thenMM` \ bs' ->
93 returnMM (StgRec pairs2 : bs')
96 binders = map fst pairs
98 = do_top_rhs b rhs `thenMM` \ rhs2 ->
102 do_top_rhs :: Id -> StgRhs -> MassageM StgRhs
104 do_top_rhs binder (StgRhsClosure _ bi fv u srt [] (StgSCC cc (StgConApp con args)))
105 | not (isSccCountCostCentre cc) && not (isDllConApp pdeps con args)
106 -- Trivial _scc_ around nothing but static data
107 -- Eliminate _scc_ ... and turn into StgRhsCon
109 -- isDllConApp checks for LitLit args too
110 = returnMM (StgRhsCon dontCareCCS con args)
112 {- Can't do this one with cost-centre stacks: --SDM
113 do_top_rhs binder (StgRhsClosure no_cc bi fv u [] (StgSCC ty cc expr))
114 | (noCCSAttached no_cc || currentOrSubsumedCCS no_cc)
115 && not (isSccCountCostCentre cc)
116 -- Top level CAF without a cost centre attached
117 -- Attach and collect cc of trivial _scc_ in body
118 = collectCC cc `thenMM_`
119 set_prevailing_cc cc (do_expr expr) `thenMM` \ expr' ->
120 returnMM (StgRhsClosure cc bi fv u [] expr')
123 do_top_rhs binder (StgRhsClosure no_cc bi fv u srt [] body)
124 | noCCSAttached no_cc || currentOrSubsumedCCS no_cc
125 -- Top level CAF without a cost centre attached
126 -- Attach CAF cc (collect if individual CAF ccs)
127 = (if opt_AutoSccsOnIndividualCafs
128 then let cc = mkAutoCC binder mod_name CafCC
129 ccs = mkSingletonCCS cc
131 collectCC cc `thenMM_`
132 collectCCS ccs `thenMM_`
135 returnMM all_cafs_ccs) `thenMM` \ caf_ccs ->
136 set_prevailing_cc caf_ccs (do_expr body) `thenMM` \ body' ->
137 returnMM (StgRhsClosure caf_ccs bi fv u srt [] body')
139 do_top_rhs binder (StgRhsClosure cc bi fv u srt [] body)
140 -- Top level CAF with cost centre attached
141 -- Should this be a CAF cc ??? Does this ever occur ???
142 = pprPanic "SCCfinal: CAF with cc:" (ppr cc)
144 do_top_rhs binder (StgRhsClosure no_ccs bi fv u srt args body)
145 -- Top level function, probably subsumed
146 | noCCSAttached no_ccs
147 = set_lambda_cc (do_expr body) `thenMM` \ body' ->
148 returnMM (StgRhsClosure subsumedCCS bi fv u srt args body')
151 = pprPanic "SCCfinal: CAF with cc:" (ppr no_ccs)
153 do_top_rhs binder (StgRhsCon ccs con args)
154 -- Top-level (static) data is not counted in heap
155 -- profiles; nor do we set CCCS from it; so we
156 -- just slam in dontCareCostCentre
157 = returnMM (StgRhsCon dontCareCCS con args)
160 do_expr :: StgExpr -> MassageM StgExpr
162 do_expr (StgLit l) = returnMM (StgLit l)
164 do_expr (StgApp fn args)
165 = boxHigherOrderArgs (StgApp fn) args
167 do_expr (StgConApp con args)
168 = boxHigherOrderArgs (\args -> StgConApp con args) args
170 do_expr (StgOpApp con args res_ty)
171 = boxHigherOrderArgs (\args -> StgOpApp con args res_ty) args
173 do_expr (StgSCC cc expr) -- Ha, we found a cost centre!
174 = collectCC cc `thenMM_`
175 do_expr expr `thenMM` \ expr' ->
176 returnMM (StgSCC cc expr')
178 do_expr (StgCase expr fv1 fv2 bndr srt alt_type alts)
179 = do_expr expr `thenMM` \ expr' ->
180 mapMM do_alt alts `thenMM` \ alts' ->
181 returnMM (StgCase expr' fv1 fv2 bndr srt alt_type alts')
183 do_alt (id, bs, use_mask, e)
184 = do_expr e `thenMM` \ e' ->
185 returnMM (id, bs, use_mask, e')
188 = do_let b e `thenMM` \ (b,e) ->
189 returnMM (StgLet b e)
191 do_expr (StgLetNoEscape lvs1 lvs2 b e)
192 = do_let b e `thenMM` \ (b,e) ->
193 returnMM (StgLetNoEscape lvs1 lvs2 b e)
196 do_expr other = pprPanic "SCCfinal.do_expr" (ppr other)
199 ----------------------------------
201 do_let (StgNonRec b rhs) e
202 = do_rhs rhs `thenMM` \ rhs' ->
204 do_expr e `thenMM` \ e' ->
205 returnMM (StgNonRec b rhs',e')
208 do_let (StgRec pairs) e
209 = addTopLevelIshIds binders (
210 mapMM do_pair pairs `thenMM` \ pairs' ->
211 do_expr e `thenMM` \ e' ->
212 returnMM (StgRec pairs', e')
215 binders = map fst pairs
217 = do_rhs rhs `thenMM` \ rhs2 ->
220 ----------------------------------
221 do_rhs :: StgRhs -> MassageM StgRhs
222 -- We play much the same game as we did in do_top_rhs above;
223 -- but we don't have to worry about cafs etc.
226 do_rhs (StgRhsClosure closure_cc bi fv u [] (StgSCC ty cc (StgCon (DataCon con) args _)))
227 | not (isSccCountCostCentre cc)
228 = collectCC cc `thenMM_`
229 returnMM (StgRhsCon cc con args)
232 do_rhs (StgRhsClosure _ bi fv u srt args expr)
233 = slurpSCCs currentCCS expr `thenMM` \ (expr', ccs) ->
234 do_expr expr' `thenMM` \ expr'' ->
235 returnMM (StgRhsClosure ccs bi fv u srt args expr'')
237 slurpSCCs ccs (StgSCC cc e)
238 = collectCC cc `thenMM_`
239 slurpSCCs ccs e `thenMM` \ (e', ccs') ->
240 returnMM (e', pushCCOnCCS cc ccs')
244 do_rhs (StgRhsCon cc con args)
245 = returnMM (StgRhsCon currentCCS con args)
248 %************************************************************************
250 \subsection{Boxing higher-order args}
252 %************************************************************************
254 Boxing is *turned off* at the moment, until we can figure out how to
255 do it properly in general.
259 :: ([StgArg] -> StgExpr)
260 -- An application lacking its arguments
261 -> [StgArg] -- arguments which we might box
264 #ifndef PROF_DO_BOXING
265 boxHigherOrderArgs almost_expr args
266 = returnMM (almost_expr args)
268 boxHigherOrderArgs almost_expr args
269 = getTopLevelIshIds `thenMM` \ ids ->
270 mapAccumMM (do_arg ids) [] args `thenMM` \ (let_bindings, new_args) ->
271 returnMM (foldr (mk_stg_let currentCCS) (almost_expr new_args) let_bindings)
275 do_arg ids bindings arg@(StgVarArg old_var)
276 | (not (isLocalVar old_var) || elemVarSet old_var ids)
277 && isFunTy (dropForAlls var_type)
278 = -- make a trivial let-binding for the top-level function
279 getUniqueMM `thenMM` \ uniq ->
281 new_var = mkSysLocal FSLIT("sf") uniq var_type
283 returnMM ( (new_var, old_var) : bindings, StgVarArg new_var )
285 var_type = idType old_var
287 do_arg ids bindings arg = returnMM (bindings, arg)
290 mk_stg_let :: CostCentreStack -> (Id, Id) -> StgExpr -> StgExpr
292 mk_stg_let cc (new_var, old_var) body
294 rhs_body = StgApp old_var [{-args-}]
295 rhs_closure = StgRhsClosure cc stgArgOcc [{-fvs-}] ReEntrant NoSRT{-eeek!!!-} [{-args-}] rhs_body
297 StgLet (StgNonRec new_var rhs_closure) body
299 bOGUS_LVs = emptyUniqSet -- easier to print than: panic "mk_stg_let: LVs"
303 %************************************************************************
305 \subsection{Boring monad stuff for this}
307 %************************************************************************
311 = Module -- module name
312 -> CostCentreStack -- prevailing CostCentre
313 -- if none, subsumedCosts at top-level
314 -- currentCostCentre at nested levels
316 -> VarSet -- toplevel-ish Ids for boxing
318 -> (CollectedCCs, result)
320 -- the initMM function also returns the final CollectedCCs
322 initMM :: Module -- module name, which we may consult
327 initMM mod_name init_us m = m mod_name noCCS init_us emptyVarSet ([],[],[])
329 thenMM :: MassageM a -> (a -> MassageM b) -> MassageM b
330 thenMM_ :: MassageM a -> (MassageM b) -> MassageM b
332 thenMM expr cont mod scope_cc us ids ccs
333 = case splitUniqSupply us of { (s1, s2) ->
334 case (expr mod scope_cc s1 ids ccs) of { (ccs2, result) ->
335 cont result mod scope_cc s2 ids ccs2 }}
337 thenMM_ expr cont mod scope_cc us ids ccs
338 = case splitUniqSupply us of { (s1, s2) ->
339 case (expr mod scope_cc s1 ids ccs) of { (ccs2, _) ->
340 cont mod scope_cc s2 ids ccs2 }}
342 returnMM :: a -> MassageM a
343 returnMM result mod scope_cc us ids ccs = (ccs, result)
346 nopMM mod scope_cc us ids ccs = (ccs, ())
348 mapMM :: (a -> MassageM b) -> [a] -> MassageM [b]
349 mapMM f [] = returnMM []
351 = f m `thenMM` \ r ->
352 mapMM f ms `thenMM` \ rs ->
355 mapAccumMM :: (acc -> x -> MassageM (acc, y)) -> acc -> [x] -> MassageM (acc, [y])
356 mapAccumMM f b [] = returnMM (b, [])
357 mapAccumMM f b (m:ms)
358 = f b m `thenMM` \ (b2, r) ->
359 mapAccumMM f b2 ms `thenMM` \ (b3, rs) ->
362 getUniqueMM :: MassageM Unique
363 getUniqueMM mod scope_cc us ids ccs = (ccs, uniqFromSupply us)
365 addTopLevelIshId :: Id -> MassageM a -> MassageM a
366 addTopLevelIshId id scope mod scope_cc us ids ccs
367 | isCurrentCCS scope_cc = scope mod scope_cc us ids ccs
368 | otherwise = scope mod scope_cc us (extendVarSet ids id) ccs
370 addTopLevelIshIds :: [Id] -> MassageM a -> MassageM a
371 addTopLevelIshIds [] cont = cont
372 addTopLevelIshIds (id:ids) cont
373 = addTopLevelIshId id (addTopLevelIshIds ids cont)
375 getTopLevelIshIds :: MassageM VarSet
376 getTopLevelIshIds mod scope_cc us ids ccs = (ccs, ids)
379 The prevailing CCS is used to tell whether we're in a top-levelish
380 position, where top-levelish is defined as "not inside a lambda".
381 Prevailing CCs used to be used for something much more complicated,
385 set_lambda_cc :: MassageM a -> MassageM a
386 set_lambda_cc action mod scope_cc us ids ccs
387 = action mod currentCCS us ids ccs
389 set_prevailing_cc :: CostCentreStack -> MassageM a -> MassageM a
390 set_prevailing_cc cc_to_set_to action mod scope_cc us ids ccs
391 = action mod cc_to_set_to us ids ccs
393 get_prevailing_cc :: MassageM CostCentreStack
394 get_prevailing_cc mod scope_cc us ids ccs = (ccs, scope_cc)
398 collectCC :: CostCentre -> MassageM ()
400 collectCC cc mod_name scope_cc us ids (local_ccs, extern_ccs, ccss)
401 = ASSERT(not (noCCAttached cc))
402 if (cc `ccFromThisModule` mod_name) then
403 ((cc : local_ccs, extern_ccs, ccss), ())
404 else -- must declare it "extern"
405 ((local_ccs, cc : extern_ccs, ccss), ())
407 collectCCS :: CostCentreStack -> MassageM ()
409 collectCCS ccs mod_name scope_cc us ids (local_ccs, extern_ccs, ccss)
410 = ASSERT(not (noCCSAttached ccs))
411 ((local_ccs, extern_ccs, ccs : ccss), ())