1*404b540aSrobert /* Sign extension elimination optimization for GNU compiler.
2*404b540aSrobert Copyright (C) 2005 Free Software Foundation, Inc.
3*404b540aSrobert Contributed by Leehod Baruch <leehod@il.ibm.com>
4*404b540aSrobert
5*404b540aSrobert This file is part of GCC.
6*404b540aSrobert
7*404b540aSrobert GCC is free software; you can redistribute it and/or modify it under
8*404b540aSrobert the terms of the GNU General Public License as published by the Free
9*404b540aSrobert -Software Foundation; either version 2, or (at your option) any later
10*404b540aSrobert version.
11*404b540aSrobert
12*404b540aSrobert GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13*404b540aSrobert WARRANTY; without even the implied warranty of MERCHANTABILITY or
14*404b540aSrobert FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15*404b540aSrobert for more details.
16*404b540aSrobert
17*404b540aSrobert You should have received a copy of the GNU General Public License
18*404b540aSrobert along with GCC; see the file COPYING. If not, write to the Free
19*404b540aSrobert Software Foundation, 59 Temple Place - Suite 330, Boston, MA
20*404b540aSrobert 02111-1307, USA.
21*404b540aSrobert
22*404b540aSrobert Problem description:
23*404b540aSrobert --------------------
24*404b540aSrobert In order to support 32bit computations on a 64bit machine, sign
25*404b540aSrobert extension instructions are generated to ensure the correctness of
26*404b540aSrobert the computation.
27*404b540aSrobert A possible policy (as currently implemented) is to generate a sign
28*404b540aSrobert extension right after each 32bit computation.
29*404b540aSrobert Depending on the instruction set of the architecture, some of these
30*404b540aSrobert sign extension instructions may be redundant.
31*404b540aSrobert There are two cases in which the extension may be redundant:
32*404b540aSrobert
33*404b540aSrobert Case1:
34*404b540aSrobert The instruction that uses the 64bit operands that are sign
35*404b540aSrobert extended has a dual mode that works with 32bit operands.
36*404b540aSrobert For example:
37*404b540aSrobert
38*404b540aSrobert int32 a, b;
39*404b540aSrobert
40*404b540aSrobert a = .... --> a = ....
41*404b540aSrobert a = sign extend a -->
42*404b540aSrobert b = .... --> b = ....
43*404b540aSrobert b = sign extend a -->
44*404b540aSrobert -->
45*404b540aSrobert cmpd a, b --> cmpw a, b //half word compare
46*404b540aSrobert
47*404b540aSrobert Case2:
48*404b540aSrobert The instruction that defines the 64bit operand (which is later sign
49*404b540aSrobert extended) has a dual mode that defines and sign-extends simultaneously
50*404b540aSrobert a 32bit operand. For example:
51*404b540aSrobert
52*404b540aSrobert int32 a;
53*404b540aSrobert
54*404b540aSrobert ld a --> lwa a // load half word and sign extend
55*404b540aSrobert a = sign extend a -->
56*404b540aSrobert -->
57*404b540aSrobert return a --> return a
58*404b540aSrobert
59*404b540aSrobert
60*404b540aSrobert General idea for solution:
61*404b540aSrobert --------------------------
62*404b540aSrobert First, try to merge the sign extension with the instruction that
63*404b540aSrobert defines the source of the extension and (separately) with the
64*404b540aSrobert instructions that uses the extended result. By doing this, both cases
65*404b540aSrobert of redundancies (as described above) will be eliminated.
66*404b540aSrobert
67*404b540aSrobert Then, use partial redundancy elimination to place the non redundant
68*404b540aSrobert ones at optimal placements.
69*404b540aSrobert
70*404b540aSrobert
71*404b540aSrobert Implementation by example:
72*404b540aSrobert --------------------------
73*404b540aSrobert Note: The instruction stream is not changed till the last phase.
74*404b540aSrobert
75*404b540aSrobert Phase 0: Initial code, as currently generated by gcc.
76*404b540aSrobert
77*404b540aSrobert def1 def3
78*404b540aSrobert se1 def2 se3
79*404b540aSrobert | \ | / |
80*404b540aSrobert | \ | / |
81*404b540aSrobert | \ | / |
82*404b540aSrobert | \ | / |
83*404b540aSrobert | \ | / |
84*404b540aSrobert | \|/ |
85*404b540aSrobert use1 use2 use3
86*404b540aSrobert use4
87*404b540aSrobert def1 + se1:
88*404b540aSrobert set ((reg:SI 10) (..def1rhs..))
89*404b540aSrobert set ((reg:DI 100) (sign_extend:DI (reg:SI 10)))
90*404b540aSrobert
91*404b540aSrobert def2:
92*404b540aSrobert set ((reg:DI 100) (const_int 7))
93*404b540aSrobert
94*404b540aSrobert def3 + se3:
95*404b540aSrobert set ((reg:SI 20) (..def3rhs..))
96*404b540aSrobert set ((reg:DI 100) (sign_extend:DI (reg:SI 20)))
97*404b540aSrobert
98*404b540aSrobert use1:
99*404b540aSrobert set ((reg:CC...) (compare:CC (reg:DI 100) (...)))
100*404b540aSrobert
101*404b540aSrobert use2, use3, use4:
102*404b540aSrobert set ((...) (reg:DI 100))
103*404b540aSrobert
104*404b540aSrobert Phase 1: Propagate extensions to uses.
105*404b540aSrobert
106*404b540aSrobert def1 def3
107*404b540aSrobert se1 def2 se3
108*404b540aSrobert | \ | / |
109*404b540aSrobert | \ | / |
110*404b540aSrobert | \ | / |
111*404b540aSrobert | \ | / |
112*404b540aSrobert | \ | / |
113*404b540aSrobert | \|/ |
114*404b540aSrobert se se se
115*404b540aSrobert use1 use2 use3
116*404b540aSrobert se
117*404b540aSrobert use4
118*404b540aSrobert
119*404b540aSrobert From here, all of the subregs are lowpart !
120*404b540aSrobert
121*404b540aSrobert def1, def2, def3: No change.
122*404b540aSrobert
123*404b540aSrobert use1:
124*404b540aSrobert set ((reg:DI 100) (sign_extend:DI ((subreg:SI (reg:DI 100)))))
125*404b540aSrobert set ((reg:CC...) (compare:CC (reg:DI 100) (...)))
126*404b540aSrobert
127*404b540aSrobert use2, use3, use4:
128*404b540aSrobert set ((reg:DI 100) (sign_extend:DI ((subreg:SI (reg:DI 100)))))
129*404b540aSrobert set ((...) (reg:DI 100))
130*404b540aSrobert
131*404b540aSrobert
132*404b540aSrobert Phase 2: Merge and eliminate locally redundant extensions.
133*404b540aSrobert
134*404b540aSrobert
135*404b540aSrobert *def1 def2 *def3
136*404b540aSrobert [se removed] se se3
137*404b540aSrobert | \ | / |
138*404b540aSrobert | \ | / |
139*404b540aSrobert | \ | / |
140*404b540aSrobert | \ | / |
141*404b540aSrobert | \ | / |
142*404b540aSrobert | \|/ |
143*404b540aSrobert [se removed] se se
144*404b540aSrobert *use1 use2 use3
145*404b540aSrobert [se removed]
146*404b540aSrobert use4
147*404b540aSrobert
148*404b540aSrobert The instructions that were changed at this phase are marked with
149*404b540aSrobert asterisk.
150*404b540aSrobert
151*404b540aSrobert *def1: Merge failed.
152*404b540aSrobert Remove the sign extension instruction, modify def1 and
153*404b540aSrobert insert a move instruction to assure to correctness of the code.
154*404b540aSrobert set ((subreg:SI (reg:DI 100)) (..def1rhs..))
155*404b540aSrobert set ((reg:SI 10) (subreg:SI (reg:DI 100)))
156*404b540aSrobert
157*404b540aSrobert def2 + se: There is no need for merge.
158*404b540aSrobert Def2 is not changed but a sign extension instruction is
159*404b540aSrobert created.
160*404b540aSrobert set ((reg:DI 100) (const_int 7))
161*404b540aSrobert set ((reg:DI 100) (sign_extend:DI ((subreg:SI (reg:DI 100)))))
162*404b540aSrobert
163*404b540aSrobert *def3 + se3: Merge succeeded.
164*404b540aSrobert set ((reg:DI 100) (sign_extend:DI (..def3rhs..)))
165*404b540aSrobert set ((reg:SI 20) (reg:DI 100))
166*404b540aSrobert set ((reg:DI 100) (sign_extend:DI (reg:SI 20)))
167*404b540aSrobert (The extension instruction is the original one).
168*404b540aSrobert
169*404b540aSrobert *use1: Merge succeeded. Remove the sign extension instruction.
170*404b540aSrobert set ((reg:CC...)
171*404b540aSrobert (compare:CC (subreg:SI (reg:DI 100)) (...)))
172*404b540aSrobert
173*404b540aSrobert use2, use3: Merge failed. No change.
174*404b540aSrobert
175*404b540aSrobert use4: The extension is locally redundant, therefore it is eliminated
176*404b540aSrobert at this point.
177*404b540aSrobert
178*404b540aSrobert
179*404b540aSrobert Phase 3: Eliminate globally redundant extensions.
180*404b540aSrobert
181*404b540aSrobert Following the LCM output:
182*404b540aSrobert
183*404b540aSrobert def1 def2 def3
184*404b540aSrobert se se3
185*404b540aSrobert | \ | / |
186*404b540aSrobert | \ | / |
187*404b540aSrobert | se | / |
188*404b540aSrobert | \ | / |
189*404b540aSrobert | \ | / |
190*404b540aSrobert | \|/ |
191*404b540aSrobert [ses removed]
192*404b540aSrobert use1 use2 use3
193*404b540aSrobert use4
194*404b540aSrobert
195*404b540aSrobert se:
196*404b540aSrobert set ((reg:DI 100) (sign_extend:DI ((subreg:SI (reg:DI 100)))))
197*404b540aSrobert
198*404b540aSrobert se3:
199*404b540aSrobert set ((reg:DI 100) (sign_extend:DI (reg:SI 20)))
200*404b540aSrobert
201*404b540aSrobert
202*404b540aSrobert Phase 4: Commit changes to the insn stream.
203*404b540aSrobert
204*404b540aSrobert
205*404b540aSrobert def1 def3 *def1 def2 *def3
206*404b540aSrobert se1 def2 se3 [se removed] [se removed]
207*404b540aSrobert | \ | / | | \ | / |
208*404b540aSrobert | \ | / | ------> | \ | / |
209*404b540aSrobert | \ | / | ------> | se | / |
210*404b540aSrobert | \ | / | | \ | / |
211*404b540aSrobert | \ | / | | \ | / |
212*404b540aSrobert | \|/ | | \|/ |
213*404b540aSrobert use1 use2 use3 *use1 use2 use3
214*404b540aSrobert use4 use4
215*404b540aSrobert
216*404b540aSrobert The instructions that were changed during the whole optimization are
217*404b540aSrobert marked with asterisk.
218*404b540aSrobert
219*404b540aSrobert The result:
220*404b540aSrobert
221*404b540aSrobert def1 + se1:
222*404b540aSrobert [ set ((reg:SI 10) (..def1rhs..)) ] - Deleted
223*404b540aSrobert [ set ((reg:DI 100) (sign_extend:DI (reg:SI 10))) ] - Deleted
224*404b540aSrobert set ((subreg:SI (reg:DI 100)) (..def3rhs..)) - Inserted
225*404b540aSrobert set ((reg:SI 10) (subreg:SI (reg:DI 100))) - Inserted
226*404b540aSrobert
227*404b540aSrobert def2:
228*404b540aSrobert set ((reg:DI 100) (const_int 7)) - No change
229*404b540aSrobert
230*404b540aSrobert def3 + se3:
231*404b540aSrobert [ set ((reg:SI 20) (..def3rhs..)) ] - Deleted
232*404b540aSrobert [ set ((reg:DI 100) (sign_extend:DI (reg:SI 20))) ] - Deleted
233*404b540aSrobert set ((reg:DI 100) (sign_extend:DI (..def3rhs..))) - Inserted
234*404b540aSrobert set ((reg:SI 20) (reg:DI 100)) - Inserted
235*404b540aSrobert
236*404b540aSrobert use1:
237*404b540aSrobert [ set ((reg:CC...) (compare:CC (reg:DI 100) (...))) ] - Deleted
238*404b540aSrobert set ((reg:CC...) - Inserted
239*404b540aSrobert (compare:CC (subreg:SI (reg:DI 100)) (...)))
240*404b540aSrobert
241*404b540aSrobert use2, use3, use4:
242*404b540aSrobert set ((...) (reg:DI 100)) - No change
243*404b540aSrobert
244*404b540aSrobert se: - Inserted
245*404b540aSrobert set ((reg:DI 100) (sign_extend:DI ((subreg:SI (reg:DI 100)))))
246*404b540aSrobert
247*404b540aSrobert Note: Most of the simple move instructions that were inserted will be
248*404b540aSrobert trivially dead and therefore eliminated.
249*404b540aSrobert
250*404b540aSrobert The implementation outline:
251*404b540aSrobert ---------------------------
252*404b540aSrobert Some definitions:
253*404b540aSrobert A web is RELEVANT if at the end of phase 1, his leader's
254*404b540aSrobert relevancy is {ZERO, SIGN}_EXTENDED_DEF. The source_mode of
255*404b540aSrobert the web is the source_mode of his leader.
256*404b540aSrobert A definition is a candidate for the optimization if it is part
257*404b540aSrobert of a RELEVANT web and his local source_mode is not narrower
258*404b540aSrobert then the source_mode of its web.
259*404b540aSrobert A use is a candidate for the optimization if it is part of a
260*404b540aSrobert RELEVANT web.
261*404b540aSrobert A simple explicit extension is a single set instruction that
262*404b540aSrobert extends a register (or a subregister) to a register (or
263*404b540aSrobert subregister).
264*404b540aSrobert A complex explicit extension is an explicit extension instruction
265*404b540aSrobert that is not simple.
266*404b540aSrobert A def extension is a simple explicit extension that is
267*404b540aSrobert also a candidate for the optimization. This extension is part
268*404b540aSrobert of the instruction stream, it is not generated by this
269*404b540aSrobert optimization.
270*404b540aSrobert A use extension is a simple explicit extension that is generated
271*404b540aSrobert and stored for candidate use during this optimization. It is
272*404b540aSrobert not emitted to the instruction stream till the last phase of
273*404b540aSrobert the optimization.
274*404b540aSrobert A reference is an instruction that satisfy at least on of these
275*404b540aSrobert criteria:
276*404b540aSrobert - It contains a definition with EXTENDED_DEF relevancy in a RELEVANT web.
277*404b540aSrobert - It is followed by a def extension.
278*404b540aSrobert - It contains a candidate use.
279*404b540aSrobert
280*404b540aSrobert Phase 1: Propagate extensions to uses.
281*404b540aSrobert In this phase, we find candidate extensions for the optimization
282*404b540aSrobert and we generate (but not emit) proper extensions "right before the
283*404b540aSrobert uses".
284*404b540aSrobert
285*404b540aSrobert a. Build a DF object.
286*404b540aSrobert b. Traverse over all the instructions that contains a definition
287*404b540aSrobert and set their local relevancy and local source_mode like this:
288*404b540aSrobert - If the instruction is a simple explicit extension instruction,
289*404b540aSrobert mark it as {ZERO, SIGN}_EXTENDED_DEF according to the extension
290*404b540aSrobert type and mark its source_mode to be the mode of the quantity
291*404b540aSrobert that is been extended.
292*404b540aSrobert - Otherwise, If the instruction has an implicit extension,
293*404b540aSrobert which means that its high part is an extension of its low part,
294*404b540aSrobert or if it is a complicated explicit extension, mark it as
295*404b540aSrobert EXTENDED_DEF and set its source_mode to be the narrowest
296*404b540aSrobert mode that is been extended in the instruction.
297*404b540aSrobert c. Traverse over all the instructions that contains a use and set
298*404b540aSrobert their local relevancy to RELEVANT_USE (except for few corner
299*404b540aSrobert cases).
300*404b540aSrobert d. Produce the web. During union of two entries, update the
301*404b540aSrobert relevancy and source_mode of the leader. There are two major
302*404b540aSrobert guide lines for this update:
303*404b540aSrobert - If one of the entries is NOT_RELEVANT, mark the leader
304*404b540aSrobert NOT_RELEVANT.
305*404b540aSrobert - If one is ZERO_EXTENDED_DEF and the other is SIGN_EXTENDED_DEF
306*404b540aSrobert (or vice versa) mark the leader as NOT_RELEVANT. We don't
307*404b540aSrobert handle this kind of mixed webs.
308*404b540aSrobert (For more details about this update process,
309*404b540aSrobert see see_update_leader_extra_info ()).
310*404b540aSrobert e. Generate uses extensions according to the relevancy and
311*404b540aSrobert source_mode of the webs.
312*404b540aSrobert
313*404b540aSrobert Phase 2: Merge and eliminate locally redundant extensions.
314*404b540aSrobert In this phase, we try to merge def extensions and use
315*404b540aSrobert extensions with their references, and eliminate redundant extensions
316*404b540aSrobert in the same basic block.
317*404b540aSrobert
318*404b540aSrobert Traverse over all the references. Do this in basic block number and
319*404b540aSrobert luid number forward order.
320*404b540aSrobert For each reference do:
321*404b540aSrobert a. Peephole optimization - try to merge it with all its
322*404b540aSrobert def extensions and use extensions in the following
323*404b540aSrobert order:
324*404b540aSrobert - Try to merge only the def extensions, one by one.
325*404b540aSrobert - Try to merge only the use extensions, one by one.
326*404b540aSrobert - Try to merge any couple of use extensions simultaneously.
327*404b540aSrobert - Try to merge any def extension with one or two uses
328*404b540aSrobert extensions simultaneously.
329*404b540aSrobert b. Handle each EXTENDED_DEF in it as if it was already merged with
330*404b540aSrobert an extension.
331*404b540aSrobert
332*404b540aSrobert During the merge process we save the following data for each
333*404b540aSrobert register in each basic block:
334*404b540aSrobert a. The first instruction that defines the register in the basic
335*404b540aSrobert block.
336*404b540aSrobert b. The last instruction that defines the register in the basic
337*404b540aSrobert block.
338*404b540aSrobert c. The first extension of this register before the first
339*404b540aSrobert instruction that defines it in the basic block.
340*404b540aSrobert c. The first extension of this register after the last
341*404b540aSrobert instruction that defines it in the basic block.
342*404b540aSrobert This data will help us eliminate (or more precisely, not generate)
343*404b540aSrobert locally redundant extensions, and will be useful in the next stage.
344*404b540aSrobert
345*404b540aSrobert While merging extensions with their reference there are 4 possible
346*404b540aSrobert situations:
347*404b540aSrobert a. A use extension was merged with the reference:
348*404b540aSrobert Delete the extension instruction and save the merged reference
349*404b540aSrobert for phase 4. (For details, see see_use_extension_merged ())
350*404b540aSrobert b. A use extension failed to be merged with the reference:
351*404b540aSrobert If there is already such an extension in the same basic block
352*404b540aSrobert and it is not dead at this point, delete the unmerged extension
353*404b540aSrobert (it is locally redundant), otherwise properly update the above
354*404b540aSrobert basic block data.
355*404b540aSrobert (For details, see see_merge_one_use_extension ())
356*404b540aSrobert c. A def extension was merged with the reference:
357*404b540aSrobert Mark this extension as a merged_def extension and properly
358*404b540aSrobert update the above basic block data.
359*404b540aSrobert (For details, see see_merge_one_def_extension ())
360*404b540aSrobert d. A def extension failed to be merged with the reference:
361*404b540aSrobert Replace the definition of the NARROWmode register in the
362*404b540aSrobert reference with the proper subreg of WIDEmode register and save
363*404b540aSrobert the result as a merged reference. Also, properly update the
364*404b540aSrobert the above basic block data.
365*404b540aSrobert (For details, see see_def_extension_not_merged ())
366*404b540aSrobert
367*404b540aSrobert Phase 3: Eliminate globally redundant extensions.
368*404b540aSrobert In this phase, we set the bit vectors input of the edge based LCM
369*404b540aSrobert using the recorded data on the registers in each basic block.
370*404b540aSrobert We also save pointers for all the anticipatable and available
371*404b540aSrobert occurrences of the relevant extensions. Then we run the LCM.
372*404b540aSrobert
373*404b540aSrobert a. Initialize the comp, antloc, kill bit vectors to zero and the
374*404b540aSrobert transp bit vector to ones.
375*404b540aSrobert
376*404b540aSrobert b. Traverse over all the references. Do this in basic block number
377*404b540aSrobert and luid number forward order. For each reference:
378*404b540aSrobert - Go over all its use extensions. For each such extension -
379*404b540aSrobert If it is not dead from the beginning of the basic block SET
380*404b540aSrobert the antloc bit of the current extension in the current
381*404b540aSrobert basic block bits.
382*404b540aSrobert If it is not dead till the end of the basic block SET the
383*404b540aSrobert comp bit of the current extension in the current basic
384*404b540aSrobert block bits.
385*404b540aSrobert - Go over all its def extensions that were merged with
386*404b540aSrobert it. For each such extension -
387*404b540aSrobert If it is not dead till the end of the basic block SET the
388*404b540aSrobert comp bit of the current extension in the current basic
389*404b540aSrobert block bits.
390*404b540aSrobert RESET the proper transp and kill bits.
391*404b540aSrobert - Go over all its def extensions that were not merged
392*404b540aSrobert with it. For each such extension -
393*404b540aSrobert RESET the transp bit and SET the kill bit of the current
394*404b540aSrobert extension in the current basic block bits.
395*404b540aSrobert
396*404b540aSrobert c. Run the edge based LCM.
397*404b540aSrobert
398*404b540aSrobert Phase 4: Commit changes to the insn stream.
399*404b540aSrobert This is the only phase that actually changes the instruction stream.
400*404b540aSrobert Up to this point the optimization could be aborted at any time.
401*404b540aSrobert Here we insert extensions at their best placements and delete the
402*404b540aSrobert redundant ones according to the output of the LCM. We also replace
403*404b540aSrobert some of the instructions according to the second phase merges results.
404*404b540aSrobert
405*404b540aSrobert a. Use the pre_delete_map (from the output of the LCM) in order to
406*404b540aSrobert delete redundant extensions. This will prevent them from been
407*404b540aSrobert emitted in the first place.
408*404b540aSrobert
409*404b540aSrobert b. Insert extensions on edges where needed according to
410*404b540aSrobert pre_insert_map and edge_list (from the output of the LCM).
411*404b540aSrobert
412*404b540aSrobert c. For each reference do-
413*404b540aSrobert - Emit all the uses extensions that were not deleted until now,
414*404b540aSrobert right before the reference.
415*404b540aSrobert - Delete all the merged and unmerged def extensions from
416*404b540aSrobert the instruction stream.
417*404b540aSrobert - Replace the reference with the merged one, if exist.
418*404b540aSrobert
419*404b540aSrobert The implementation consists of four data structures:
420*404b540aSrobert - Data structure I
421*404b540aSrobert Purpose: To handle the relevancy of the uses, definitions and webs.
422*404b540aSrobert Relevant structures: web_entry (from df.h), see_entry_extra_info.
423*404b540aSrobert Details: This is a disjoint-set data structure. Most of its functions are
424*404b540aSrobert implemented in web.c. Each definition and use in the code are
425*404b540aSrobert elements. A web_entry structure is allocated for each element to
426*404b540aSrobert hold the element's relevancy and source_mode. The union rules are
427*404b540aSrobert defined in see_update_leader_extra_info ().
428*404b540aSrobert - Data structure II
429*404b540aSrobert Purpose: To store references and their extensions (uses and defs)
430*404b540aSrobert and to enable traverse over these references according to basic
431*404b540aSrobert block order.
432*404b540aSrobert Relevant structure: see_ref_s.
433*404b540aSrobert Details: This data structure consists of an array of splay trees. One splay
434*404b540aSrobert tree for each basic block. The splay tree nodes are references and
435*404b540aSrobert the keys are the luids of the references.
436*404b540aSrobert A see_ref_s structure is allocated for each reference. It holds the
437*404b540aSrobert reference itself, its def and uses extensions and later the merged
438*404b540aSrobert version of the reference.
439*404b540aSrobert Using this data structure we can traverse over all the references of
440*404b540aSrobert a basic block and their extensions in forward order.
441*404b540aSrobert - Data structure III.
442*404b540aSrobert Purpose: To store local properties of registers for each basic block.
443*404b540aSrobert This data will later help us build the LCM sbitmap_vectors
444*404b540aSrobert input.
445*404b540aSrobert Relevant structure: see_register_properties.
446*404b540aSrobert Details: This data structure consists of an array of hash tables. One hash
447*404b540aSrobert for each basic block. The hash node are a register properties
448*404b540aSrobert and the keys are the numbers of the registers.
449*404b540aSrobert A see_register_properties structure is allocated for each register
450*404b540aSrobert that we might be interested in its properties.
451*404b540aSrobert Using this data structure we can easily find the properties of a
452*404b540aSrobert register in a specific basic block. This is necessary for locally
453*404b540aSrobert redundancy elimination and for setting up the LCM input.
454*404b540aSrobert - Data structure IV.
455*404b540aSrobert Purpose: To store the extensions that are candidate for PRE and their
456*404b540aSrobert anticipatable and available occurrences.
457*404b540aSrobert Relevant structure: see_occr, see_pre_extension_expr.
458*404b540aSrobert Details: This data structure is a hash tables. Its nodes are the extensions
459*404b540aSrobert that are candidate for PRE.
460*404b540aSrobert A see_pre_extension_expr structure is allocated for each candidate
461*404b540aSrobert extension. It holds a copy of the extension and a linked list of all
462*404b540aSrobert the anticipatable and available occurrences of it.
463*404b540aSrobert We use this data structure when we read the output of the LCM. */
464*404b540aSrobert
465*404b540aSrobert #include "config.h"
466*404b540aSrobert #include "system.h"
467*404b540aSrobert #include "coretypes.h"
468*404b540aSrobert #include "tm.h"
469*404b540aSrobert
470*404b540aSrobert #include "obstack.h"
471*404b540aSrobert #include "rtl.h"
472*404b540aSrobert #include "output.h"
473*404b540aSrobert #include "df.h"
474*404b540aSrobert #include "insn-config.h"
475*404b540aSrobert #include "recog.h"
476*404b540aSrobert #include "expr.h"
477*404b540aSrobert #include "splay-tree.h"
478*404b540aSrobert #include "hashtab.h"
479*404b540aSrobert #include "regs.h"
480*404b540aSrobert #include "timevar.h"
481*404b540aSrobert #include "tree-pass.h"
482*404b540aSrobert
483*404b540aSrobert /* Used to classify defs and uses according to relevancy. */
484*404b540aSrobert enum entry_type {
485*404b540aSrobert NOT_RELEVANT,
486*404b540aSrobert SIGN_EXTENDED_DEF,
487*404b540aSrobert ZERO_EXTENDED_DEF,
488*404b540aSrobert EXTENDED_DEF,
489*404b540aSrobert RELEVANT_USE
490*404b540aSrobert };
491*404b540aSrobert
492*404b540aSrobert /* Used to classify extensions in relevant webs. */
493*404b540aSrobert enum extension_type {
494*404b540aSrobert DEF_EXTENSION,
495*404b540aSrobert EXPLICIT_DEF_EXTENSION,
496*404b540aSrobert IMPLICIT_DEF_EXTENSION,
497*404b540aSrobert USE_EXTENSION
498*404b540aSrobert };
499*404b540aSrobert
500*404b540aSrobert /* Global data structures and flags. */
501*404b540aSrobert
502*404b540aSrobert /* This structure will be assigned for each web_entry structure (defined
503*404b540aSrobert in df.h). It is placed in the extra_info field of a web_entry and holds the
504*404b540aSrobert relevancy and source mode of the web_entry. */
505*404b540aSrobert
506*404b540aSrobert struct see_entry_extra_info
507*404b540aSrobert {
508*404b540aSrobert /* The relevancy of the ref. */
509*404b540aSrobert enum entry_type relevancy;
510*404b540aSrobert /* The relevancy of the ref.
511*404b540aSrobert This field is updated only once - when this structure is created. */
512*404b540aSrobert enum entry_type local_relevancy;
513*404b540aSrobert /* The source register mode. */
514*404b540aSrobert enum machine_mode source_mode;
515*404b540aSrobert /* This field is used only if the relevancy is ZERO/SIGN_EXTENDED_DEF.
516*404b540aSrobert It is updated only once when this structure is created. */
517*404b540aSrobert enum machine_mode local_source_mode;
518*404b540aSrobert /* This field is used only if the relevancy is EXTENDED_DEF.
519*404b540aSrobert It holds the narrowest mode that is sign extended. */
520*404b540aSrobert enum machine_mode source_mode_signed;
521*404b540aSrobert /* This field is used only if the relevancy is EXTENDED_DEF.
522*404b540aSrobert It holds the narrowest mode that is zero extended. */
523*404b540aSrobert enum machine_mode source_mode_unsigned;
524*404b540aSrobert };
525*404b540aSrobert
526*404b540aSrobert /* There is one such structure for every reference. It stores the reference
527*404b540aSrobert itself as well as its extensions (uses and definitions).
528*404b540aSrobert Used as the value in splay_tree see_bb_splay_ar[]. */
529*404b540aSrobert struct see_ref_s
530*404b540aSrobert {
531*404b540aSrobert /* The luid of the insn. */
532*404b540aSrobert unsigned int luid;
533*404b540aSrobert /* The insn of the ref. */
534*404b540aSrobert rtx insn;
535*404b540aSrobert /* The merged insn that was formed from the reference's insn and extensions.
536*404b540aSrobert If all merges failed, it remains NULL. */
537*404b540aSrobert rtx merged_insn;
538*404b540aSrobert /* The def extensions of the reference that were not merged with
539*404b540aSrobert it. */
540*404b540aSrobert htab_t unmerged_def_se_hash;
541*404b540aSrobert /* The def extensions of the reference that were merged with
542*404b540aSrobert it. Implicit extensions of the reference will be stored here too. */
543*404b540aSrobert htab_t merged_def_se_hash;
544*404b540aSrobert /* The uses extensions of reference. */
545*404b540aSrobert htab_t use_se_hash;
546*404b540aSrobert };
547*404b540aSrobert
548*404b540aSrobert /* There is one such structure for every relevant extended register in a
549*404b540aSrobert specific basic block. This data will help us build the LCM sbitmap_vectors
550*404b540aSrobert input. */
551*404b540aSrobert struct see_register_properties
552*404b540aSrobert {
553*404b540aSrobert /* The register number. */
554*404b540aSrobert unsigned int regno;
555*404b540aSrobert /* The last luid of the reference that defines this register in this basic
556*404b540aSrobert block. */
557*404b540aSrobert int last_def;
558*404b540aSrobert /* The luid of the reference that has the first extension of this register
559*404b540aSrobert that appears before any definition in this basic block. */
560*404b540aSrobert int first_se_before_any_def;
561*404b540aSrobert /* The luid of the reference that has the first extension of this register
562*404b540aSrobert that appears after the last definition in this basic block. */
563*404b540aSrobert int first_se_after_last_def;
564*404b540aSrobert };
565*404b540aSrobert
566*404b540aSrobert /* Occurrence of an expression.
567*404b540aSrobert There must be at most one available occurrence and at most one anticipatable
568*404b540aSrobert occurrence per basic block. */
569*404b540aSrobert struct see_occr
570*404b540aSrobert {
571*404b540aSrobert /* Next occurrence of this expression. */
572*404b540aSrobert struct see_occr *next;
573*404b540aSrobert /* The insn that computes the expression. */
574*404b540aSrobert rtx insn;
575*404b540aSrobert int block_num;
576*404b540aSrobert };
577*404b540aSrobert
578*404b540aSrobert /* There is one such structure for every relevant extension expression.
579*404b540aSrobert It holds a copy of this extension instruction as well as a linked lists of
580*404b540aSrobert pointers to all the antic and avail occurrences of it. */
581*404b540aSrobert struct see_pre_extension_expr
582*404b540aSrobert {
583*404b540aSrobert /* A copy of the extension instruction. */
584*404b540aSrobert rtx se_insn;
585*404b540aSrobert /* Index in the available expression bitmaps. */
586*404b540aSrobert int bitmap_index;
587*404b540aSrobert /* List of anticipatable occurrences in basic blocks in the function.
588*404b540aSrobert An "anticipatable occurrence" is the first occurrence in the basic block,
589*404b540aSrobert the operands are not modified in the basic block prior to the occurrence
590*404b540aSrobert and the output is not used between the start of the block and the
591*404b540aSrobert occurrence. */
592*404b540aSrobert struct see_occr *antic_occr;
593*404b540aSrobert /* List of available occurrence in basic blocks in the function.
594*404b540aSrobert An "available occurrence" is the last occurrence in the basic block and
595*404b540aSrobert the operands are not modified by following statements in the basic block
596*404b540aSrobert [including this insn]. */
597*404b540aSrobert struct see_occr *avail_occr;
598*404b540aSrobert };
599*404b540aSrobert
600*404b540aSrobert /* Helper structure for the note_uses and see_replace_src functions. */
601*404b540aSrobert struct see_replace_data
602*404b540aSrobert {
603*404b540aSrobert rtx from;
604*404b540aSrobert rtx to;
605*404b540aSrobert };
606*404b540aSrobert
607*404b540aSrobert /* Helper structure for the note_uses and see_mentioned_reg functions. */
608*404b540aSrobert struct see_mentioned_reg_data
609*404b540aSrobert {
610*404b540aSrobert rtx reg;
611*404b540aSrobert bool mentioned;
612*404b540aSrobert };
613*404b540aSrobert
614*404b540aSrobert /* A data flow object that will be created once and used throughout the
615*404b540aSrobert optimization. */
616*404b540aSrobert static struct df *df = NULL;
617*404b540aSrobert /* An array of web_entries. The i'th definition in the df object is associated
618*404b540aSrobert with def_entry[i] */
619*404b540aSrobert static struct web_entry *def_entry = NULL;
620*404b540aSrobert /* An array of web_entries. The i'th use in the df object is associated with
621*404b540aSrobert use_entry[i] */
622*404b540aSrobert static struct web_entry *use_entry = NULL;
623*404b540aSrobert /* Array of splay_trees.
624*404b540aSrobert see_bb_splay_ar[i] refers to the splay tree of the i'th basic block.
625*404b540aSrobert The splay tree will hold see_ref_s structures. The key is the luid
626*404b540aSrobert of the insn. This way we can traverse over the references of each basic
627*404b540aSrobert block in forward or backward order. */
628*404b540aSrobert static splay_tree *see_bb_splay_ar = NULL;
629*404b540aSrobert /* Array of hashes.
630*404b540aSrobert see_bb_hash_ar[i] refers to the hash of the i'th basic block.
631*404b540aSrobert The hash will hold see_register_properties structure. The key is regno. */
632*404b540aSrobert static htab_t *see_bb_hash_ar = NULL;
633*404b540aSrobert /* Hash table that holds a copy of all the extensions. The key is the right
634*404b540aSrobert hand side of the se_insn field. */
635*404b540aSrobert static htab_t see_pre_extension_hash = NULL;
636*404b540aSrobert
637*404b540aSrobert /* Local LCM properties of expressions. */
638*404b540aSrobert /* Nonzero for expressions that are transparent in the block. */
639*404b540aSrobert static sbitmap *transp = NULL;
640*404b540aSrobert /* Nonzero for expressions that are computed (available) in the block. */
641*404b540aSrobert static sbitmap *comp = NULL;
642*404b540aSrobert /* Nonzero for expressions that are locally anticipatable in the block. */
643*404b540aSrobert static sbitmap *antloc = NULL;
644*404b540aSrobert /* Nonzero for expressions that are locally killed in the block. */
645*404b540aSrobert static sbitmap *ae_kill = NULL;
646*404b540aSrobert /* Nonzero for expressions which should be inserted on a specific edge. */
647*404b540aSrobert static sbitmap *pre_insert_map = NULL;
648*404b540aSrobert /* Nonzero for expressions which should be deleted in a specific block. */
649*404b540aSrobert static sbitmap *pre_delete_map = NULL;
650*404b540aSrobert /* Contains the edge_list returned by pre_edge_lcm. */
651*404b540aSrobert static struct edge_list *edge_list = NULL;
652*404b540aSrobert /* Records the last basic block at the beginning of the optimization. */
653*404b540aSrobert static int last_bb;
654*404b540aSrobert /* Records the number of uses at the beginning of the optimization. */
655*404b540aSrobert static unsigned int uses_num;
656*404b540aSrobert /* Records the number of definitions at the beginning of the optimization. */
657*404b540aSrobert static unsigned int defs_num;
658*404b540aSrobert
659*404b540aSrobert #define ENTRY_EI(ENTRY) ((struct see_entry_extra_info *) (ENTRY)->extra_info)
660*404b540aSrobert
661*404b540aSrobert /* Functions implementation. */
662*404b540aSrobert
663*404b540aSrobert /* Verifies that EXTENSION's pattern is this:
664*404b540aSrobert
665*404b540aSrobert set (reg/subreg reg1) (sign/zero_extend:WIDEmode (reg/subreg reg2))
666*404b540aSrobert
667*404b540aSrobert If it doesn't have the expected pattern return NULL.
668*404b540aSrobert Otherwise, if RETURN_DEST_REG is set, return reg1 else return reg2. */
669*404b540aSrobert
670*404b540aSrobert static rtx
see_get_extension_reg(rtx extension,bool return_dest_reg)671*404b540aSrobert see_get_extension_reg (rtx extension, bool return_dest_reg)
672*404b540aSrobert {
673*404b540aSrobert rtx set, rhs, lhs;
674*404b540aSrobert rtx reg1 = NULL;
675*404b540aSrobert rtx reg2 = NULL;
676*404b540aSrobert
677*404b540aSrobert /* Parallel pattern for extension not supported for the moment. */
678*404b540aSrobert if (GET_CODE (PATTERN (extension)) == PARALLEL)
679*404b540aSrobert return NULL;
680*404b540aSrobert
681*404b540aSrobert set = single_set (extension);
682*404b540aSrobert if (!set)
683*404b540aSrobert return NULL;
684*404b540aSrobert lhs = SET_DEST (set);
685*404b540aSrobert rhs = SET_SRC (set);
686*404b540aSrobert
687*404b540aSrobert if (REG_P (lhs))
688*404b540aSrobert reg1 = lhs;
689*404b540aSrobert else if (REG_P (SUBREG_REG (lhs)))
690*404b540aSrobert reg1 = SUBREG_REG (lhs);
691*404b540aSrobert else
692*404b540aSrobert return NULL;
693*404b540aSrobert
694*404b540aSrobert if (GET_CODE (rhs) != SIGN_EXTEND && GET_CODE (rhs) != ZERO_EXTEND)
695*404b540aSrobert return NULL;
696*404b540aSrobert
697*404b540aSrobert rhs = XEXP (rhs, 0);
698*404b540aSrobert if (REG_P (rhs))
699*404b540aSrobert reg2 = rhs;
700*404b540aSrobert else if (REG_P (SUBREG_REG (rhs)))
701*404b540aSrobert reg2 = SUBREG_REG (rhs);
702*404b540aSrobert else
703*404b540aSrobert return NULL;
704*404b540aSrobert
705*404b540aSrobert if (return_dest_reg)
706*404b540aSrobert return reg1;
707*404b540aSrobert return reg2;
708*404b540aSrobert }
709*404b540aSrobert
710*404b540aSrobert /* Verifies that EXTENSION's pattern is this:
711*404b540aSrobert
712*404b540aSrobert set (reg/subreg reg1) (sign/zero_extend: (...expr...)
713*404b540aSrobert
714*404b540aSrobert If it doesn't have the expected pattern return UNKNOWN.
715*404b540aSrobert Otherwise, set SOURCE_MODE to be the mode of the extended expr and return
716*404b540aSrobert the rtx code of the extension. */
717*404b540aSrobert
718*404b540aSrobert static enum rtx_code
see_get_extension_data(rtx extension,enum machine_mode * source_mode)719*404b540aSrobert see_get_extension_data (rtx extension, enum machine_mode *source_mode)
720*404b540aSrobert {
721*404b540aSrobert rtx rhs, lhs, set;
722*404b540aSrobert
723*404b540aSrobert if (!extension || !INSN_P (extension))
724*404b540aSrobert return UNKNOWN;
725*404b540aSrobert
726*404b540aSrobert /* Parallel pattern for extension not supported for the moment. */
727*404b540aSrobert if (GET_CODE (PATTERN (extension)) == PARALLEL)
728*404b540aSrobert return NOT_RELEVANT;
729*404b540aSrobert
730*404b540aSrobert set = single_set (extension);
731*404b540aSrobert if (!set)
732*404b540aSrobert return NOT_RELEVANT;
733*404b540aSrobert rhs = SET_SRC (set);
734*404b540aSrobert lhs = SET_DEST (set);
735*404b540aSrobert
736*404b540aSrobert /* Don't handle extensions to something other then register or
737*404b540aSrobert subregister. */
738*404b540aSrobert if (!REG_P (lhs) && !SUBREG_REG (lhs))
739*404b540aSrobert return UNKNOWN;
740*404b540aSrobert
741*404b540aSrobert if (GET_CODE (rhs) != SIGN_EXTEND && GET_CODE (rhs) != ZERO_EXTEND)
742*404b540aSrobert return UNKNOWN;
743*404b540aSrobert
744*404b540aSrobert if (!REG_P (XEXP (rhs, 0))
745*404b540aSrobert && !(GET_CODE (XEXP (rhs, 0)) == SUBREG
746*404b540aSrobert && REG_P (SUBREG_REG (XEXP (rhs, 0)))))
747*404b540aSrobert return UNKNOWN;
748*404b540aSrobert
749*404b540aSrobert *source_mode = GET_MODE (XEXP (rhs, 0));
750*404b540aSrobert
751*404b540aSrobert if (GET_CODE (rhs) == SIGN_EXTEND)
752*404b540aSrobert return SIGN_EXTEND;
753*404b540aSrobert return ZERO_EXTEND;
754*404b540aSrobert }
755*404b540aSrobert
756*404b540aSrobert
757*404b540aSrobert /* Generate instruction with the pattern:
758*404b540aSrobert set ((reg r) (sign/zero_extend (subreg:mode (reg r))))
759*404b540aSrobert (the register r on both sides of the set is the same register).
760*404b540aSrobert And recognize it.
761*404b540aSrobert If the recognition failed, this is very bad, return NULL (This will abort
762*404b540aSrobert the entire optimization).
763*404b540aSrobert Otherwise, return the generated instruction. */
764*404b540aSrobert
765*404b540aSrobert static rtx
see_gen_normalized_extension(rtx reg,enum rtx_code extension_code,enum machine_mode mode)766*404b540aSrobert see_gen_normalized_extension (rtx reg, enum rtx_code extension_code,
767*404b540aSrobert enum machine_mode mode)
768*404b540aSrobert {
769*404b540aSrobert rtx subreg, insn;
770*404b540aSrobert rtx extension = NULL;
771*404b540aSrobert
772*404b540aSrobert if (!reg
773*404b540aSrobert || !REG_P (reg)
774*404b540aSrobert || (extension_code != SIGN_EXTEND && extension_code != ZERO_EXTEND))
775*404b540aSrobert return NULL;
776*404b540aSrobert
777*404b540aSrobert subreg = gen_lowpart_SUBREG (mode, reg);
778*404b540aSrobert if (extension_code == SIGN_EXTEND)
779*404b540aSrobert extension = gen_rtx_SIGN_EXTEND (GET_MODE (reg), subreg);
780*404b540aSrobert else
781*404b540aSrobert extension = gen_rtx_ZERO_EXTEND (GET_MODE (reg), subreg);
782*404b540aSrobert
783*404b540aSrobert start_sequence ();
784*404b540aSrobert emit_insn (gen_rtx_SET (VOIDmode, reg, extension));
785*404b540aSrobert insn = get_insns ();
786*404b540aSrobert end_sequence ();
787*404b540aSrobert
788*404b540aSrobert if (insn_invalid_p (insn))
789*404b540aSrobert /* Recognition failed, this is very bad for this optimization.
790*404b540aSrobert Abort the optimization. */
791*404b540aSrobert return NULL;
792*404b540aSrobert return insn;
793*404b540aSrobert }
794*404b540aSrobert
795*404b540aSrobert /* Hashes and splay_trees related functions implementation. */
796*404b540aSrobert
797*404b540aSrobert /* Helper functions for the pre_extension hash.
798*404b540aSrobert This kind of hash will hold see_pre_extension_expr structures.
799*404b540aSrobert
800*404b540aSrobert The key is the right hand side of the se_insn field.
801*404b540aSrobert Note that the se_insn is an expression that looks like:
802*404b540aSrobert
803*404b540aSrobert set ((reg:WIDEmode r1) (sign_extend:WIDEmode
804*404b540aSrobert (subreg:NARROWmode (reg:WIDEmode r2)))) */
805*404b540aSrobert
806*404b540aSrobert /* Return TRUE if P1 has the same value in its rhs as P2.
807*404b540aSrobert Otherwise, return FALSE.
808*404b540aSrobert P1 and P2 are see_pre_extension_expr structures. */
809*404b540aSrobert
810*404b540aSrobert static int
eq_descriptor_pre_extension(const void * p1,const void * p2)811*404b540aSrobert eq_descriptor_pre_extension (const void *p1, const void *p2)
812*404b540aSrobert {
813*404b540aSrobert const struct see_pre_extension_expr *extension1 = p1;
814*404b540aSrobert const struct see_pre_extension_expr *extension2 = p2;
815*404b540aSrobert rtx set1 = single_set (extension1->se_insn);
816*404b540aSrobert rtx set2 = single_set (extension2->se_insn);
817*404b540aSrobert rtx rhs1, rhs2;
818*404b540aSrobert
819*404b540aSrobert gcc_assert (set1 && set2);
820*404b540aSrobert rhs1 = SET_SRC (set1);
821*404b540aSrobert rhs2 = SET_SRC (set2);
822*404b540aSrobert
823*404b540aSrobert return rtx_equal_p (rhs1, rhs2);
824*404b540aSrobert }
825*404b540aSrobert
826*404b540aSrobert
827*404b540aSrobert /* P is a see_pre_extension_expr struct, use the RHS of the se_insn field.
828*404b540aSrobert Note that the RHS is an expression that looks like this:
829*404b540aSrobert (sign_extend:WIDEmode (subreg:NARROWmode (reg:WIDEmode r))) */
830*404b540aSrobert
831*404b540aSrobert static hashval_t
hash_descriptor_pre_extension(const void * p)832*404b540aSrobert hash_descriptor_pre_extension (const void *p)
833*404b540aSrobert {
834*404b540aSrobert const struct see_pre_extension_expr *extension = p;
835*404b540aSrobert rtx set = single_set (extension->se_insn);
836*404b540aSrobert rtx rhs;
837*404b540aSrobert
838*404b540aSrobert gcc_assert (set);
839*404b540aSrobert rhs = SET_SRC (set);
840*404b540aSrobert
841*404b540aSrobert return hash_rtx (rhs, GET_MODE (rhs), 0, NULL, 0);
842*404b540aSrobert }
843*404b540aSrobert
844*404b540aSrobert
845*404b540aSrobert /* Free the allocated memory of the current see_pre_extension_expr struct.
846*404b540aSrobert
847*404b540aSrobert It frees the two linked list of the occurrences structures. */
848*404b540aSrobert
849*404b540aSrobert static void
hash_del_pre_extension(void * p)850*404b540aSrobert hash_del_pre_extension (void *p)
851*404b540aSrobert {
852*404b540aSrobert struct see_pre_extension_expr *extension = p;
853*404b540aSrobert struct see_occr *curr_occr = extension->antic_occr;
854*404b540aSrobert struct see_occr *next_occr = NULL;
855*404b540aSrobert
856*404b540aSrobert /* Free the linked list of the anticipatable occurrences. */
857*404b540aSrobert while (curr_occr)
858*404b540aSrobert {
859*404b540aSrobert next_occr = curr_occr->next;
860*404b540aSrobert free (curr_occr);
861*404b540aSrobert curr_occr = next_occr;
862*404b540aSrobert }
863*404b540aSrobert
864*404b540aSrobert /* Free the linked list of the available occurrences. */
865*404b540aSrobert curr_occr = extension->avail_occr;
866*404b540aSrobert while (curr_occr)
867*404b540aSrobert {
868*404b540aSrobert next_occr = curr_occr->next;
869*404b540aSrobert free (curr_occr);
870*404b540aSrobert curr_occr = next_occr;
871*404b540aSrobert }
872*404b540aSrobert
873*404b540aSrobert /* Free the see_pre_extension_expr structure itself. */
874*404b540aSrobert free (extension);
875*404b540aSrobert }
876*404b540aSrobert
877*404b540aSrobert
878*404b540aSrobert /* Helper functions for the register_properties hash.
879*404b540aSrobert This kind of hash will hold see_register_properties structures.
880*404b540aSrobert
881*404b540aSrobert The value of the key is the regno field of the structure. */
882*404b540aSrobert
883*404b540aSrobert /* Return TRUE if P1 has the same value in the regno field as P2.
884*404b540aSrobert Otherwise, return FALSE.
885*404b540aSrobert Where P1 and P2 are see_register_properties structures. */
886*404b540aSrobert
887*404b540aSrobert static int
eq_descriptor_properties(const void * p1,const void * p2)888*404b540aSrobert eq_descriptor_properties (const void *p1, const void *p2)
889*404b540aSrobert {
890*404b540aSrobert const struct see_register_properties *curr_prop1 = p1;
891*404b540aSrobert const struct see_register_properties *curr_prop2 = p2;
892*404b540aSrobert
893*404b540aSrobert return curr_prop1->regno == curr_prop2->regno;
894*404b540aSrobert }
895*404b540aSrobert
896*404b540aSrobert
897*404b540aSrobert /* P is a see_register_properties struct, use the register number in the
898*404b540aSrobert regno field. */
899*404b540aSrobert
900*404b540aSrobert static hashval_t
hash_descriptor_properties(const void * p)901*404b540aSrobert hash_descriptor_properties (const void *p)
902*404b540aSrobert {
903*404b540aSrobert const struct see_register_properties *curr_prop = p;
904*404b540aSrobert return curr_prop->regno;
905*404b540aSrobert }
906*404b540aSrobert
907*404b540aSrobert
908*404b540aSrobert /* Free the allocated memory of the current see_register_properties struct. */
909*404b540aSrobert static void
hash_del_properties(void * p)910*404b540aSrobert hash_del_properties (void *p)
911*404b540aSrobert {
912*404b540aSrobert struct see_register_properties *curr_prop = p;
913*404b540aSrobert free (curr_prop);
914*404b540aSrobert }
915*404b540aSrobert
916*404b540aSrobert
917*404b540aSrobert /* Helper functions for an extension hash.
918*404b540aSrobert This kind of hash will hold insns that look like:
919*404b540aSrobert
920*404b540aSrobert set ((reg:WIDEmode r1) (sign_extend:WIDEmode
921*404b540aSrobert (subreg:NARROWmode (reg:WIDEmode r2))))
922*404b540aSrobert or
923*404b540aSrobert set ((reg:WIDEmode r1) (sign_extend:WIDEmode (reg:NARROWmode r2)))
924*404b540aSrobert
925*404b540aSrobert The value of the key is (REGNO (reg:WIDEmode r1))
926*404b540aSrobert It is possible to search this hash in two ways:
927*404b540aSrobert 1. By a register rtx. The Value that is been compared to the keys is the
928*404b540aSrobert REGNO of it.
929*404b540aSrobert 2. By an insn with the above pattern. The Value that is been compared to
930*404b540aSrobert the keys is the REGNO of the reg on the lhs. */
931*404b540aSrobert
932*404b540aSrobert /* Return TRUE if P1 has the same value as P2. Otherwise, return FALSE.
933*404b540aSrobert Where P1 is an insn and P2 is an insn or a register. */
934*404b540aSrobert
935*404b540aSrobert static int
eq_descriptor_extension(const void * p1,const void * p2)936*404b540aSrobert eq_descriptor_extension (const void *p1, const void *p2)
937*404b540aSrobert {
938*404b540aSrobert const rtx insn = (rtx) p1;
939*404b540aSrobert const rtx element = (rtx) p2;
940*404b540aSrobert rtx set1 = single_set (insn);
941*404b540aSrobert rtx dest_reg1;
942*404b540aSrobert rtx set2 = NULL;
943*404b540aSrobert rtx dest_reg2 = NULL;
944*404b540aSrobert
945*404b540aSrobert gcc_assert (set1 && element && (REG_P (element) || INSN_P (element)));
946*404b540aSrobert
947*404b540aSrobert dest_reg1 = SET_DEST (set1);
948*404b540aSrobert
949*404b540aSrobert if (INSN_P (element))
950*404b540aSrobert {
951*404b540aSrobert set2 = single_set (element);
952*404b540aSrobert dest_reg2 = SET_DEST (set2);
953*404b540aSrobert }
954*404b540aSrobert else
955*404b540aSrobert dest_reg2 = element;
956*404b540aSrobert
957*404b540aSrobert return REGNO (dest_reg1) == REGNO (dest_reg2);
958*404b540aSrobert }
959*404b540aSrobert
960*404b540aSrobert
961*404b540aSrobert /* If P is an insn, use the register number of its lhs
962*404b540aSrobert otherwise, P is a register, use its number. */
963*404b540aSrobert
964*404b540aSrobert static hashval_t
hash_descriptor_extension(const void * p)965*404b540aSrobert hash_descriptor_extension (const void *p)
966*404b540aSrobert {
967*404b540aSrobert const rtx r = (rtx) p;
968*404b540aSrobert rtx set, lhs;
969*404b540aSrobert
970*404b540aSrobert if (r && REG_P (r))
971*404b540aSrobert return REGNO (r);
972*404b540aSrobert
973*404b540aSrobert gcc_assert (r && INSN_P (r));
974*404b540aSrobert set = single_set (r);
975*404b540aSrobert gcc_assert (set);
976*404b540aSrobert lhs = SET_DEST (set);
977*404b540aSrobert return REGNO (lhs);
978*404b540aSrobert }
979*404b540aSrobert
980*404b540aSrobert
981*404b540aSrobert /* Helper function for a see_bb_splay_ar[i] splay tree.
982*404b540aSrobert It frees all the allocated memory of a struct see_ref_s pointer.
983*404b540aSrobert
984*404b540aSrobert VALUE is the value of a splay tree node. */
985*404b540aSrobert
986*404b540aSrobert static void
see_free_ref_s(splay_tree_value value)987*404b540aSrobert see_free_ref_s (splay_tree_value value)
988*404b540aSrobert {
989*404b540aSrobert struct see_ref_s *ref_s = (struct see_ref_s *)value;
990*404b540aSrobert
991*404b540aSrobert if (ref_s->unmerged_def_se_hash)
992*404b540aSrobert htab_delete (ref_s->unmerged_def_se_hash);
993*404b540aSrobert if (ref_s->merged_def_se_hash)
994*404b540aSrobert htab_delete (ref_s->merged_def_se_hash);
995*404b540aSrobert if (ref_s->use_se_hash)
996*404b540aSrobert htab_delete (ref_s->use_se_hash);
997*404b540aSrobert free (ref_s);
998*404b540aSrobert }
999*404b540aSrobert
1000*404b540aSrobert
1001*404b540aSrobert /* Rest of the implementation. */
1002*404b540aSrobert
1003*404b540aSrobert /* Search the extension hash for a suitable entry for EXTENSION.
1004*404b540aSrobert TYPE is the type of EXTENSION (USE_EXTENSION or DEF_EXTENSION).
1005*404b540aSrobert
1006*404b540aSrobert If TYPE is DEF_EXTENSION we need to normalize EXTENSION before searching the
1007*404b540aSrobert extension hash.
1008*404b540aSrobert
1009*404b540aSrobert If a suitable entry was found, return the slot. Otherwise, store EXTENSION
1010*404b540aSrobert in the hash and return NULL. */
1011*404b540aSrobert
1012*404b540aSrobert static struct see_pre_extension_expr *
see_seek_pre_extension_expr(rtx extension,enum extension_type type)1013*404b540aSrobert see_seek_pre_extension_expr (rtx extension, enum extension_type type)
1014*404b540aSrobert {
1015*404b540aSrobert struct see_pre_extension_expr **slot_pre_exp, temp_pre_exp;
1016*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (extension, 1);
1017*404b540aSrobert enum rtx_code extension_code;
1018*404b540aSrobert enum machine_mode source_extension_mode;
1019*404b540aSrobert
1020*404b540aSrobert if (type == DEF_EXTENSION)
1021*404b540aSrobert {
1022*404b540aSrobert extension_code = see_get_extension_data (extension,
1023*404b540aSrobert &source_extension_mode);
1024*404b540aSrobert gcc_assert (extension_code != UNKNOWN);
1025*404b540aSrobert extension =
1026*404b540aSrobert see_gen_normalized_extension (dest_extension_reg, extension_code,
1027*404b540aSrobert source_extension_mode);
1028*404b540aSrobert }
1029*404b540aSrobert temp_pre_exp.se_insn = extension;
1030*404b540aSrobert slot_pre_exp =
1031*404b540aSrobert (struct see_pre_extension_expr **) htab_find_slot (see_pre_extension_hash,
1032*404b540aSrobert &temp_pre_exp, INSERT);
1033*404b540aSrobert if (*slot_pre_exp == NULL)
1034*404b540aSrobert /* This is the first time this extension instruction is encountered. Store
1035*404b540aSrobert it in the hash. */
1036*404b540aSrobert {
1037*404b540aSrobert (*slot_pre_exp) = xmalloc (sizeof (struct see_pre_extension_expr));
1038*404b540aSrobert (*slot_pre_exp)->se_insn = extension;
1039*404b540aSrobert (*slot_pre_exp)->bitmap_index =
1040*404b540aSrobert (htab_elements (see_pre_extension_hash) - 1);
1041*404b540aSrobert (*slot_pre_exp)->antic_occr = NULL;
1042*404b540aSrobert (*slot_pre_exp)->avail_occr = NULL;
1043*404b540aSrobert return NULL;
1044*404b540aSrobert }
1045*404b540aSrobert return *slot_pre_exp;
1046*404b540aSrobert }
1047*404b540aSrobert
1048*404b540aSrobert
1049*404b540aSrobert /* This function defines how to update the extra_info of the web_entry.
1050*404b540aSrobert
1051*404b540aSrobert FIRST is the pointer of the extra_info of the first web_entry.
1052*404b540aSrobert SECOND is the pointer of the extra_info of the second web_entry.
1053*404b540aSrobert The first web_entry will be the predecessor (leader) of the second web_entry
1054*404b540aSrobert after the union.
1055*404b540aSrobert
1056*404b540aSrobert Return true if FIRST and SECOND points to the same web entry structure and
1057*404b540aSrobert nothing is done. Otherwise, return false. */
1058*404b540aSrobert
1059*404b540aSrobert static bool
see_update_leader_extra_info(struct web_entry * first,struct web_entry * second)1060*404b540aSrobert see_update_leader_extra_info (struct web_entry *first, struct web_entry *second)
1061*404b540aSrobert {
1062*404b540aSrobert struct see_entry_extra_info *first_ei, *second_ei;
1063*404b540aSrobert
1064*404b540aSrobert first = unionfind_root (first);
1065*404b540aSrobert second = unionfind_root (second);
1066*404b540aSrobert
1067*404b540aSrobert if (unionfind_union (first, second))
1068*404b540aSrobert return true;
1069*404b540aSrobert
1070*404b540aSrobert first_ei = (struct see_entry_extra_info *) first->extra_info;
1071*404b540aSrobert second_ei = (struct see_entry_extra_info *) second->extra_info;
1072*404b540aSrobert
1073*404b540aSrobert gcc_assert (first_ei && second_ei);
1074*404b540aSrobert
1075*404b540aSrobert if (second_ei->relevancy == NOT_RELEVANT)
1076*404b540aSrobert {
1077*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1078*404b540aSrobert return false;
1079*404b540aSrobert }
1080*404b540aSrobert switch (first_ei->relevancy)
1081*404b540aSrobert {
1082*404b540aSrobert case NOT_RELEVANT:
1083*404b540aSrobert break;
1084*404b540aSrobert case RELEVANT_USE:
1085*404b540aSrobert switch (second_ei->relevancy)
1086*404b540aSrobert {
1087*404b540aSrobert case RELEVANT_USE:
1088*404b540aSrobert break;
1089*404b540aSrobert case EXTENDED_DEF:
1090*404b540aSrobert first_ei->relevancy = second_ei->relevancy;
1091*404b540aSrobert first_ei->source_mode_signed = second_ei->source_mode_signed;
1092*404b540aSrobert first_ei->source_mode_unsigned = second_ei->source_mode_unsigned;
1093*404b540aSrobert break;
1094*404b540aSrobert case SIGN_EXTENDED_DEF:
1095*404b540aSrobert case ZERO_EXTENDED_DEF:
1096*404b540aSrobert first_ei->relevancy = second_ei->relevancy;
1097*404b540aSrobert first_ei->source_mode = second_ei->source_mode;
1098*404b540aSrobert break;
1099*404b540aSrobert default:
1100*404b540aSrobert gcc_unreachable ();
1101*404b540aSrobert }
1102*404b540aSrobert break;
1103*404b540aSrobert case SIGN_EXTENDED_DEF:
1104*404b540aSrobert switch (second_ei->relevancy)
1105*404b540aSrobert {
1106*404b540aSrobert case SIGN_EXTENDED_DEF:
1107*404b540aSrobert /* The mode of the root should be the wider one in this case. */
1108*404b540aSrobert first_ei->source_mode =
1109*404b540aSrobert (first_ei->source_mode > second_ei->source_mode) ?
1110*404b540aSrobert first_ei->source_mode : second_ei->source_mode;
1111*404b540aSrobert break;
1112*404b540aSrobert case RELEVANT_USE:
1113*404b540aSrobert break;
1114*404b540aSrobert case ZERO_EXTENDED_DEF:
1115*404b540aSrobert /* Don't mix webs with zero extend and sign extend. */
1116*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1117*404b540aSrobert break;
1118*404b540aSrobert case EXTENDED_DEF:
1119*404b540aSrobert if (second_ei->source_mode_signed == MAX_MACHINE_MODE)
1120*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1121*404b540aSrobert else
1122*404b540aSrobert /* The mode of the root should be the wider one in this case. */
1123*404b540aSrobert first_ei->source_mode =
1124*404b540aSrobert (first_ei->source_mode > second_ei->source_mode_signed) ?
1125*404b540aSrobert first_ei->source_mode : second_ei->source_mode_signed;
1126*404b540aSrobert break;
1127*404b540aSrobert default:
1128*404b540aSrobert gcc_unreachable ();
1129*404b540aSrobert }
1130*404b540aSrobert break;
1131*404b540aSrobert /* This case is similar to the previous one, with little changes. */
1132*404b540aSrobert case ZERO_EXTENDED_DEF:
1133*404b540aSrobert switch (second_ei->relevancy)
1134*404b540aSrobert {
1135*404b540aSrobert case SIGN_EXTENDED_DEF:
1136*404b540aSrobert /* Don't mix webs with zero extend and sign extend. */
1137*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1138*404b540aSrobert break;
1139*404b540aSrobert case RELEVANT_USE:
1140*404b540aSrobert break;
1141*404b540aSrobert case ZERO_EXTENDED_DEF:
1142*404b540aSrobert /* The mode of the root should be the wider one in this case. */
1143*404b540aSrobert first_ei->source_mode =
1144*404b540aSrobert (first_ei->source_mode > second_ei->source_mode) ?
1145*404b540aSrobert first_ei->source_mode : second_ei->source_mode;
1146*404b540aSrobert break;
1147*404b540aSrobert case EXTENDED_DEF:
1148*404b540aSrobert if (second_ei->source_mode_unsigned == MAX_MACHINE_MODE)
1149*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1150*404b540aSrobert else
1151*404b540aSrobert /* The mode of the root should be the wider one in this case. */
1152*404b540aSrobert first_ei->source_mode =
1153*404b540aSrobert (first_ei->source_mode > second_ei->source_mode_unsigned) ?
1154*404b540aSrobert first_ei->source_mode : second_ei->source_mode_unsigned;
1155*404b540aSrobert break;
1156*404b540aSrobert default:
1157*404b540aSrobert gcc_unreachable ();
1158*404b540aSrobert }
1159*404b540aSrobert break;
1160*404b540aSrobert case EXTENDED_DEF:
1161*404b540aSrobert if (first_ei->source_mode_signed != MAX_MACHINE_MODE
1162*404b540aSrobert && first_ei->source_mode_unsigned != MAX_MACHINE_MODE)
1163*404b540aSrobert {
1164*404b540aSrobert switch (second_ei->relevancy)
1165*404b540aSrobert {
1166*404b540aSrobert case SIGN_EXTENDED_DEF:
1167*404b540aSrobert first_ei->relevancy = SIGN_EXTENDED_DEF;
1168*404b540aSrobert first_ei->source_mode =
1169*404b540aSrobert (first_ei->source_mode_signed > second_ei->source_mode) ?
1170*404b540aSrobert first_ei->source_mode_signed : second_ei->source_mode;
1171*404b540aSrobert break;
1172*404b540aSrobert case RELEVANT_USE:
1173*404b540aSrobert break;
1174*404b540aSrobert case ZERO_EXTENDED_DEF:
1175*404b540aSrobert first_ei->relevancy = ZERO_EXTENDED_DEF;
1176*404b540aSrobert first_ei->source_mode =
1177*404b540aSrobert (first_ei->source_mode_unsigned > second_ei->source_mode) ?
1178*404b540aSrobert first_ei->source_mode_unsigned : second_ei->source_mode;
1179*404b540aSrobert break;
1180*404b540aSrobert case EXTENDED_DEF:
1181*404b540aSrobert if (second_ei->source_mode_unsigned != MAX_MACHINE_MODE)
1182*404b540aSrobert first_ei->source_mode_unsigned =
1183*404b540aSrobert (first_ei->source_mode_unsigned >
1184*404b540aSrobert second_ei->source_mode_unsigned) ?
1185*404b540aSrobert first_ei->source_mode_unsigned :
1186*404b540aSrobert second_ei->source_mode_unsigned;
1187*404b540aSrobert if (second_ei->source_mode_signed != MAX_MACHINE_MODE)
1188*404b540aSrobert first_ei->source_mode_signed =
1189*404b540aSrobert (first_ei->source_mode_signed >
1190*404b540aSrobert second_ei->source_mode_signed) ?
1191*404b540aSrobert first_ei->source_mode_signed : second_ei->source_mode_signed;
1192*404b540aSrobert break;
1193*404b540aSrobert default:
1194*404b540aSrobert gcc_unreachable ();
1195*404b540aSrobert }
1196*404b540aSrobert }
1197*404b540aSrobert else if (first_ei->source_mode_signed == MAX_MACHINE_MODE)
1198*404b540aSrobert {
1199*404b540aSrobert gcc_assert (first_ei->source_mode_unsigned != MAX_MACHINE_MODE);
1200*404b540aSrobert switch (second_ei->relevancy)
1201*404b540aSrobert {
1202*404b540aSrobert case SIGN_EXTENDED_DEF:
1203*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1204*404b540aSrobert break;
1205*404b540aSrobert case RELEVANT_USE:
1206*404b540aSrobert break;
1207*404b540aSrobert case ZERO_EXTENDED_DEF:
1208*404b540aSrobert first_ei->relevancy = ZERO_EXTENDED_DEF;
1209*404b540aSrobert first_ei->source_mode =
1210*404b540aSrobert (first_ei->source_mode_unsigned > second_ei->source_mode) ?
1211*404b540aSrobert first_ei->source_mode_unsigned : second_ei->source_mode;
1212*404b540aSrobert break;
1213*404b540aSrobert case EXTENDED_DEF:
1214*404b540aSrobert if (second_ei->source_mode_unsigned == MAX_MACHINE_MODE)
1215*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1216*404b540aSrobert else
1217*404b540aSrobert first_ei->source_mode_unsigned =
1218*404b540aSrobert (first_ei->source_mode_unsigned >
1219*404b540aSrobert second_ei->source_mode_unsigned) ?
1220*404b540aSrobert first_ei->source_mode_unsigned :
1221*404b540aSrobert second_ei->source_mode_unsigned;
1222*404b540aSrobert break;
1223*404b540aSrobert default:
1224*404b540aSrobert gcc_unreachable ();
1225*404b540aSrobert }
1226*404b540aSrobert }
1227*404b540aSrobert else
1228*404b540aSrobert {
1229*404b540aSrobert gcc_assert (first_ei->source_mode_unsigned == MAX_MACHINE_MODE);
1230*404b540aSrobert gcc_assert (first_ei->source_mode_signed != MAX_MACHINE_MODE);
1231*404b540aSrobert switch (second_ei->relevancy)
1232*404b540aSrobert {
1233*404b540aSrobert case SIGN_EXTENDED_DEF:
1234*404b540aSrobert first_ei->relevancy = SIGN_EXTENDED_DEF;
1235*404b540aSrobert first_ei->source_mode =
1236*404b540aSrobert (first_ei->source_mode_signed > second_ei->source_mode) ?
1237*404b540aSrobert first_ei->source_mode_signed : second_ei->source_mode;
1238*404b540aSrobert break;
1239*404b540aSrobert case RELEVANT_USE:
1240*404b540aSrobert break;
1241*404b540aSrobert case ZERO_EXTENDED_DEF:
1242*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1243*404b540aSrobert break;
1244*404b540aSrobert case EXTENDED_DEF:
1245*404b540aSrobert if (second_ei->source_mode_signed == MAX_MACHINE_MODE)
1246*404b540aSrobert first_ei->relevancy = NOT_RELEVANT;
1247*404b540aSrobert else
1248*404b540aSrobert first_ei->source_mode_signed =
1249*404b540aSrobert (first_ei->source_mode_signed >
1250*404b540aSrobert second_ei->source_mode_signed) ?
1251*404b540aSrobert first_ei->source_mode_signed : second_ei->source_mode_signed;
1252*404b540aSrobert break;
1253*404b540aSrobert default:
1254*404b540aSrobert gcc_unreachable ();
1255*404b540aSrobert }
1256*404b540aSrobert }
1257*404b540aSrobert break;
1258*404b540aSrobert default:
1259*404b540aSrobert /* Unknown patern type. */
1260*404b540aSrobert gcc_unreachable ();
1261*404b540aSrobert }
1262*404b540aSrobert
1263*404b540aSrobert return false;
1264*404b540aSrobert }
1265*404b540aSrobert
1266*404b540aSrobert
1267*404b540aSrobert /* Free global data structures. */
1268*404b540aSrobert
1269*404b540aSrobert static void
see_free_data_structures(void)1270*404b540aSrobert see_free_data_structures (void)
1271*404b540aSrobert {
1272*404b540aSrobert int i;
1273*404b540aSrobert unsigned int j;
1274*404b540aSrobert
1275*404b540aSrobert /* Free the bitmap vectors. */
1276*404b540aSrobert if (transp)
1277*404b540aSrobert {
1278*404b540aSrobert sbitmap_vector_free (transp);
1279*404b540aSrobert transp = NULL;
1280*404b540aSrobert sbitmap_vector_free (comp);
1281*404b540aSrobert comp = NULL;
1282*404b540aSrobert sbitmap_vector_free (antloc);
1283*404b540aSrobert antloc = NULL;
1284*404b540aSrobert sbitmap_vector_free (ae_kill);
1285*404b540aSrobert ae_kill = NULL;
1286*404b540aSrobert }
1287*404b540aSrobert if (pre_insert_map)
1288*404b540aSrobert {
1289*404b540aSrobert sbitmap_vector_free (pre_insert_map);
1290*404b540aSrobert pre_insert_map = NULL;
1291*404b540aSrobert }
1292*404b540aSrobert if (pre_delete_map)
1293*404b540aSrobert {
1294*404b540aSrobert sbitmap_vector_free (pre_delete_map);
1295*404b540aSrobert pre_delete_map = NULL;
1296*404b540aSrobert }
1297*404b540aSrobert if (edge_list)
1298*404b540aSrobert {
1299*404b540aSrobert free_edge_list (edge_list);
1300*404b540aSrobert edge_list = NULL;
1301*404b540aSrobert }
1302*404b540aSrobert
1303*404b540aSrobert /* Free the extension hash. */
1304*404b540aSrobert htab_delete (see_pre_extension_hash);
1305*404b540aSrobert
1306*404b540aSrobert /* Free the array of hashes. */
1307*404b540aSrobert for (i = 0; i < last_bb; i++)
1308*404b540aSrobert if (see_bb_hash_ar[i])
1309*404b540aSrobert htab_delete (see_bb_hash_ar[i]);
1310*404b540aSrobert free (see_bb_hash_ar);
1311*404b540aSrobert
1312*404b540aSrobert /* Free the array of splay trees. */
1313*404b540aSrobert for (i = 0; i < last_bb; i++)
1314*404b540aSrobert if (see_bb_splay_ar[i])
1315*404b540aSrobert splay_tree_delete (see_bb_splay_ar[i]);
1316*404b540aSrobert free (see_bb_splay_ar);
1317*404b540aSrobert
1318*404b540aSrobert /* Free the array of web entries and their extra info field. */
1319*404b540aSrobert for (j = 0; j < defs_num; j++)
1320*404b540aSrobert free (def_entry[j].extra_info);
1321*404b540aSrobert free (def_entry);
1322*404b540aSrobert for (j = 0; j < uses_num; j++)
1323*404b540aSrobert free (use_entry[j].extra_info);
1324*404b540aSrobert free (use_entry);
1325*404b540aSrobert }
1326*404b540aSrobert
1327*404b540aSrobert
1328*404b540aSrobert /* Initialize global data structures and variables. */
1329*404b540aSrobert
1330*404b540aSrobert static void
see_initialize_data_structures(void)1331*404b540aSrobert see_initialize_data_structures (void)
1332*404b540aSrobert {
1333*404b540aSrobert /* Build the df object. */
1334*404b540aSrobert df = df_init (DF_HARD_REGS | DF_EQUIV_NOTES | DF_SUBREGS);
1335*404b540aSrobert df_rd_add_problem (df, 0);
1336*404b540aSrobert df_chain_add_problem (df, DF_DU_CHAIN | DF_UD_CHAIN);
1337*404b540aSrobert df_analyze (df);
1338*404b540aSrobert
1339*404b540aSrobert if (dump_file)
1340*404b540aSrobert df_dump (df, dump_file);
1341*404b540aSrobert
1342*404b540aSrobert /* Record the last basic block at the beginning of the optimization. */
1343*404b540aSrobert last_bb = last_basic_block;
1344*404b540aSrobert /* Record the number of uses at the beginning of the optimization. */
1345*404b540aSrobert uses_num = DF_USES_SIZE (df);
1346*404b540aSrobert /* Record the number of definitions at the beginning of the optimization. */
1347*404b540aSrobert defs_num = DF_DEFS_SIZE (df);
1348*404b540aSrobert
1349*404b540aSrobert /* Allocate web entries array for the union-find data structure. */
1350*404b540aSrobert def_entry = xcalloc (defs_num, sizeof (struct web_entry));
1351*404b540aSrobert use_entry = xcalloc (uses_num, sizeof (struct web_entry));
1352*404b540aSrobert
1353*404b540aSrobert /* Allocate an array of splay trees.
1354*404b540aSrobert One splay tree for each basic block. */
1355*404b540aSrobert see_bb_splay_ar = xcalloc (last_bb, sizeof (splay_tree));
1356*404b540aSrobert
1357*404b540aSrobert /* Allocate an array of hashes.
1358*404b540aSrobert One hash for each basic block. */
1359*404b540aSrobert see_bb_hash_ar = xcalloc (last_bb, sizeof (htab_t));
1360*404b540aSrobert
1361*404b540aSrobert /* Allocate the extension hash. It will hold the extensions that we want
1362*404b540aSrobert to PRE. */
1363*404b540aSrobert see_pre_extension_hash = htab_create (10,
1364*404b540aSrobert hash_descriptor_pre_extension,
1365*404b540aSrobert eq_descriptor_pre_extension,
1366*404b540aSrobert hash_del_pre_extension);
1367*404b540aSrobert }
1368*404b540aSrobert
1369*404b540aSrobert
1370*404b540aSrobert /* Function called by note_uses to check if a register is used in a
1371*404b540aSrobert subexpressions.
1372*404b540aSrobert
1373*404b540aSrobert X is a pointer to the subexpression and DATA is a pointer to a
1374*404b540aSrobert see_mentioned_reg_data structure that contains the register to look for and
1375*404b540aSrobert a place for the result. */
1376*404b540aSrobert
1377*404b540aSrobert static void
see_mentioned_reg(rtx * x,void * data)1378*404b540aSrobert see_mentioned_reg (rtx *x, void *data)
1379*404b540aSrobert {
1380*404b540aSrobert struct see_mentioned_reg_data *d
1381*404b540aSrobert = (struct see_mentioned_reg_data *) data;
1382*404b540aSrobert
1383*404b540aSrobert if (reg_mentioned_p (d->reg, *x))
1384*404b540aSrobert d->mentioned = true;
1385*404b540aSrobert }
1386*404b540aSrobert
1387*404b540aSrobert
1388*404b540aSrobert /* We don't want to merge a use extension with a reference if the extended
1389*404b540aSrobert register is used only in a simple move instruction. We also don't want to
1390*404b540aSrobert merge a def extension with a reference if the source register of the
1391*404b540aSrobert extension is defined only in a simple move in the reference.
1392*404b540aSrobert
1393*404b540aSrobert REF is the reference instruction.
1394*404b540aSrobert EXTENSION is the use extension or def extension instruction.
1395*404b540aSrobert TYPE is the type of the extension (use or def).
1396*404b540aSrobert
1397*404b540aSrobert Return true if the reference is complicated enough, so we would like to merge
1398*404b540aSrobert it with the extension. Otherwise, return false. */
1399*404b540aSrobert
1400*404b540aSrobert static bool
see_want_to_be_merged_with_extension(rtx ref,rtx extension,enum extension_type type)1401*404b540aSrobert see_want_to_be_merged_with_extension (rtx ref, rtx extension,
1402*404b540aSrobert enum extension_type type)
1403*404b540aSrobert {
1404*404b540aSrobert rtx pat;
1405*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (extension, 1);
1406*404b540aSrobert rtx source_extension_reg = see_get_extension_reg (extension, 0);
1407*404b540aSrobert enum rtx_code code;
1408*404b540aSrobert struct see_mentioned_reg_data d;
1409*404b540aSrobert int i;
1410*404b540aSrobert
1411*404b540aSrobert pat = PATTERN (ref);
1412*404b540aSrobert code = GET_CODE (pat);
1413*404b540aSrobert
1414*404b540aSrobert if (code == PARALLEL)
1415*404b540aSrobert {
1416*404b540aSrobert for (i = 0; i < XVECLEN (pat, 0); i++)
1417*404b540aSrobert {
1418*404b540aSrobert rtx sub = XVECEXP (pat, 0, i);
1419*404b540aSrobert
1420*404b540aSrobert if (GET_CODE (sub) == SET
1421*404b540aSrobert && (REG_P (SET_DEST (sub))
1422*404b540aSrobert || (GET_CODE (SET_DEST (sub)) == SUBREG
1423*404b540aSrobert && REG_P (SUBREG_REG (SET_DEST (sub)))))
1424*404b540aSrobert && (REG_P (SET_SRC (sub))
1425*404b540aSrobert || (GET_CODE (SET_SRC (sub)) == SUBREG
1426*404b540aSrobert && REG_P (SUBREG_REG (SET_SRC (sub))))))
1427*404b540aSrobert {
1428*404b540aSrobert /* This is a simple move SET. */
1429*404b540aSrobert if (type == DEF_EXTENSION
1430*404b540aSrobert && reg_mentioned_p (source_extension_reg, SET_DEST (sub)))
1431*404b540aSrobert return false;
1432*404b540aSrobert }
1433*404b540aSrobert else
1434*404b540aSrobert {
1435*404b540aSrobert /* This is not a simple move SET.
1436*404b540aSrobert Check if it uses the source of the extension. */
1437*404b540aSrobert if (type == USE_EXTENSION)
1438*404b540aSrobert {
1439*404b540aSrobert d.reg = dest_extension_reg;
1440*404b540aSrobert d.mentioned = false;
1441*404b540aSrobert note_uses (&sub, see_mentioned_reg, &d);
1442*404b540aSrobert if (d.mentioned)
1443*404b540aSrobert return true;
1444*404b540aSrobert }
1445*404b540aSrobert }
1446*404b540aSrobert }
1447*404b540aSrobert if (type == USE_EXTENSION)
1448*404b540aSrobert return false;
1449*404b540aSrobert }
1450*404b540aSrobert else
1451*404b540aSrobert {
1452*404b540aSrobert if (code == SET
1453*404b540aSrobert && (REG_P (SET_DEST (pat))
1454*404b540aSrobert || (GET_CODE (SET_DEST (pat)) == SUBREG
1455*404b540aSrobert && REG_P (SUBREG_REG (SET_DEST (pat)))))
1456*404b540aSrobert && (REG_P (SET_SRC (pat))
1457*404b540aSrobert || (GET_CODE (SET_SRC (pat)) == SUBREG
1458*404b540aSrobert && REG_P (SUBREG_REG (SET_SRC (pat))))))
1459*404b540aSrobert /* This is a simple move SET. */
1460*404b540aSrobert return false;
1461*404b540aSrobert }
1462*404b540aSrobert
1463*404b540aSrobert return true;
1464*404b540aSrobert }
1465*404b540aSrobert
1466*404b540aSrobert
1467*404b540aSrobert /* Print the register number of the current see_register_properties
1468*404b540aSrobert structure.
1469*404b540aSrobert
1470*404b540aSrobert This is a subroutine of see_main called via htab_traverse.
1471*404b540aSrobert SLOT contains the current see_register_properties structure pointer. */
1472*404b540aSrobert
1473*404b540aSrobert static int
see_print_register_properties(void ** slot,void * b ATTRIBUTE_UNUSED)1474*404b540aSrobert see_print_register_properties (void **slot, void *b ATTRIBUTE_UNUSED)
1475*404b540aSrobert {
1476*404b540aSrobert struct see_register_properties *prop = *slot;
1477*404b540aSrobert
1478*404b540aSrobert gcc_assert (prop);
1479*404b540aSrobert fprintf (dump_file, "Property found for register %d\n", prop->regno);
1480*404b540aSrobert return 1;
1481*404b540aSrobert }
1482*404b540aSrobert
1483*404b540aSrobert
1484*404b540aSrobert /* Print the extension instruction of the current see_register_properties
1485*404b540aSrobert structure.
1486*404b540aSrobert
1487*404b540aSrobert This is a subroutine of see_main called via htab_traverse.
1488*404b540aSrobert SLOT contains the current see_pre_extension_expr structure pointer. */
1489*404b540aSrobert
1490*404b540aSrobert static int
see_print_pre_extension_expr(void ** slot,void * b ATTRIBUTE_UNUSED)1491*404b540aSrobert see_print_pre_extension_expr (void **slot, void *b ATTRIBUTE_UNUSED)
1492*404b540aSrobert {
1493*404b540aSrobert struct see_pre_extension_expr *pre_extension = *slot;
1494*404b540aSrobert
1495*404b540aSrobert gcc_assert (pre_extension
1496*404b540aSrobert && pre_extension->se_insn
1497*404b540aSrobert && INSN_P (pre_extension->se_insn));
1498*404b540aSrobert
1499*404b540aSrobert fprintf (dump_file, "Index %d for:\n", pre_extension->bitmap_index);
1500*404b540aSrobert print_rtl_single (dump_file, pre_extension->se_insn);
1501*404b540aSrobert
1502*404b540aSrobert return 1;
1503*404b540aSrobert }
1504*404b540aSrobert
1505*404b540aSrobert
1506*404b540aSrobert /* Phase 4 implementation: Commit changes to the insn stream. */
1507*404b540aSrobert
1508*404b540aSrobert /* Delete the merged def extension.
1509*404b540aSrobert
1510*404b540aSrobert This is a subroutine of see_commit_ref_changes called via htab_traverse.
1511*404b540aSrobert
1512*404b540aSrobert SLOT contains the current def extension instruction.
1513*404b540aSrobert B is the see_ref_s structure pointer. */
1514*404b540aSrobert
1515*404b540aSrobert static int
see_delete_merged_def_extension(void ** slot,void * b ATTRIBUTE_UNUSED)1516*404b540aSrobert see_delete_merged_def_extension (void **slot, void *b ATTRIBUTE_UNUSED)
1517*404b540aSrobert {
1518*404b540aSrobert rtx def_se = *slot;
1519*404b540aSrobert
1520*404b540aSrobert if (dump_file)
1521*404b540aSrobert {
1522*404b540aSrobert fprintf (dump_file, "Deleting merged def extension:\n");
1523*404b540aSrobert print_rtl_single (dump_file, def_se);
1524*404b540aSrobert }
1525*404b540aSrobert
1526*404b540aSrobert if (INSN_DELETED_P (def_se))
1527*404b540aSrobert /* This def extension is an implicit one. No need to delete it since
1528*404b540aSrobert it is not in the insn stream. */
1529*404b540aSrobert return 1;
1530*404b540aSrobert
1531*404b540aSrobert delete_insn (def_se);
1532*404b540aSrobert return 1;
1533*404b540aSrobert }
1534*404b540aSrobert
1535*404b540aSrobert
1536*404b540aSrobert /* Delete the unmerged def extension.
1537*404b540aSrobert
1538*404b540aSrobert This is a subroutine of see_commit_ref_changes called via htab_traverse.
1539*404b540aSrobert
1540*404b540aSrobert SLOT contains the current def extension instruction.
1541*404b540aSrobert B is the see_ref_s structure pointer. */
1542*404b540aSrobert
1543*404b540aSrobert static int
see_delete_unmerged_def_extension(void ** slot,void * b ATTRIBUTE_UNUSED)1544*404b540aSrobert see_delete_unmerged_def_extension (void **slot, void *b ATTRIBUTE_UNUSED)
1545*404b540aSrobert {
1546*404b540aSrobert rtx def_se = *slot;
1547*404b540aSrobert
1548*404b540aSrobert if (dump_file)
1549*404b540aSrobert {
1550*404b540aSrobert fprintf (dump_file, "Deleting unmerged def extension:\n");
1551*404b540aSrobert print_rtl_single (dump_file, def_se);
1552*404b540aSrobert }
1553*404b540aSrobert
1554*404b540aSrobert delete_insn (def_se);
1555*404b540aSrobert return 1;
1556*404b540aSrobert }
1557*404b540aSrobert
1558*404b540aSrobert
1559*404b540aSrobert /* Emit the non-redundant use extension to the instruction stream.
1560*404b540aSrobert
1561*404b540aSrobert This is a subroutine of see_commit_ref_changes called via htab_traverse.
1562*404b540aSrobert
1563*404b540aSrobert SLOT contains the current use extension instruction.
1564*404b540aSrobert B is the see_ref_s structure pointer. */
1565*404b540aSrobert
1566*404b540aSrobert static int
see_emit_use_extension(void ** slot,void * b)1567*404b540aSrobert see_emit_use_extension (void **slot, void *b)
1568*404b540aSrobert {
1569*404b540aSrobert rtx use_se = *slot;
1570*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
1571*404b540aSrobert
1572*404b540aSrobert if (INSN_DELETED_P (use_se))
1573*404b540aSrobert /* This use extension was previously removed according to the lcm
1574*404b540aSrobert output. */
1575*404b540aSrobert return 1;
1576*404b540aSrobert
1577*404b540aSrobert if (dump_file)
1578*404b540aSrobert {
1579*404b540aSrobert fprintf (dump_file, "Inserting use extension:\n");
1580*404b540aSrobert print_rtl_single (dump_file, use_se);
1581*404b540aSrobert }
1582*404b540aSrobert
1583*404b540aSrobert add_insn_before (use_se, curr_ref_s->insn);
1584*404b540aSrobert
1585*404b540aSrobert return 1;
1586*404b540aSrobert }
1587*404b540aSrobert
1588*404b540aSrobert
1589*404b540aSrobert /* For each relevant reference:
1590*404b540aSrobert a. Emit the non-redundant use extensions.
1591*404b540aSrobert b. Delete the def extensions.
1592*404b540aSrobert c. Replace the original reference with the merged one (if exists) and add the
1593*404b540aSrobert move instructions that were generated.
1594*404b540aSrobert
1595*404b540aSrobert This is a subroutine of see_commit_changes called via splay_tree_foreach.
1596*404b540aSrobert
1597*404b540aSrobert STN is the current node in the see_bb_splay_ar[i] splay tree. It holds a
1598*404b540aSrobert see_ref_s structure. */
1599*404b540aSrobert
1600*404b540aSrobert static int
see_commit_ref_changes(splay_tree_node stn,void * data ATTRIBUTE_UNUSED)1601*404b540aSrobert see_commit_ref_changes (splay_tree_node stn,
1602*404b540aSrobert void *data ATTRIBUTE_UNUSED)
1603*404b540aSrobert {
1604*404b540aSrobert htab_t use_se_hash = ((struct see_ref_s *) (stn->value))->use_se_hash;
1605*404b540aSrobert htab_t unmerged_def_se_hash =
1606*404b540aSrobert ((struct see_ref_s *) (stn->value))->unmerged_def_se_hash;
1607*404b540aSrobert htab_t merged_def_se_hash =
1608*404b540aSrobert ((struct see_ref_s *) (stn->value))->merged_def_se_hash;
1609*404b540aSrobert rtx ref = ((struct see_ref_s *) (stn->value))->insn;
1610*404b540aSrobert rtx merged_ref = ((struct see_ref_s *) (stn->value))->merged_insn;
1611*404b540aSrobert
1612*404b540aSrobert /* Emit the non-redundant use extensions. */
1613*404b540aSrobert if (use_se_hash)
1614*404b540aSrobert htab_traverse_noresize (use_se_hash, see_emit_use_extension,
1615*404b540aSrobert (PTR) (stn->value));
1616*404b540aSrobert
1617*404b540aSrobert /* Delete the def extensions. */
1618*404b540aSrobert if (unmerged_def_se_hash)
1619*404b540aSrobert htab_traverse (unmerged_def_se_hash, see_delete_unmerged_def_extension,
1620*404b540aSrobert (PTR) (stn->value));
1621*404b540aSrobert
1622*404b540aSrobert if (merged_def_se_hash)
1623*404b540aSrobert htab_traverse (merged_def_se_hash, see_delete_merged_def_extension,
1624*404b540aSrobert (PTR) (stn->value));
1625*404b540aSrobert
1626*404b540aSrobert /* Replace the original reference with the merged one (if exists) and add the
1627*404b540aSrobert move instructions that were generated. */
1628*404b540aSrobert if (merged_ref && !INSN_DELETED_P (ref))
1629*404b540aSrobert {
1630*404b540aSrobert if (dump_file)
1631*404b540aSrobert {
1632*404b540aSrobert fprintf (dump_file, "Replacing orig reference:\n");
1633*404b540aSrobert print_rtl_single (dump_file, ref);
1634*404b540aSrobert fprintf (dump_file, "With merged reference:\n");
1635*404b540aSrobert print_rtl_single (dump_file, merged_ref);
1636*404b540aSrobert }
1637*404b540aSrobert emit_insn_after (merged_ref, ref);
1638*404b540aSrobert delete_insn (ref);
1639*404b540aSrobert }
1640*404b540aSrobert
1641*404b540aSrobert /* Continue to the next reference. */
1642*404b540aSrobert return 0;
1643*404b540aSrobert }
1644*404b540aSrobert
1645*404b540aSrobert
1646*404b540aSrobert /* Insert partially redundant expressions on edges to make the expressions fully
1647*404b540aSrobert redundant.
1648*404b540aSrobert
1649*404b540aSrobert INDEX_MAP is a mapping of an index to an expression.
1650*404b540aSrobert Return true if an instruction was inserted on an edge.
1651*404b540aSrobert Otherwise, return false. */
1652*404b540aSrobert
1653*404b540aSrobert static bool
see_pre_insert_extensions(struct see_pre_extension_expr ** index_map)1654*404b540aSrobert see_pre_insert_extensions (struct see_pre_extension_expr **index_map)
1655*404b540aSrobert {
1656*404b540aSrobert int num_edges = NUM_EDGES (edge_list);
1657*404b540aSrobert int set_size = pre_insert_map[0]->size;
1658*404b540aSrobert size_t pre_extension_num = htab_elements (see_pre_extension_hash);
1659*404b540aSrobert
1660*404b540aSrobert int did_insert = 0;
1661*404b540aSrobert int e;
1662*404b540aSrobert int i;
1663*404b540aSrobert int j;
1664*404b540aSrobert
1665*404b540aSrobert for (e = 0; e < num_edges; e++)
1666*404b540aSrobert {
1667*404b540aSrobert int indx;
1668*404b540aSrobert basic_block bb = INDEX_EDGE_PRED_BB (edge_list, e);
1669*404b540aSrobert
1670*404b540aSrobert for (i = indx = 0; i < set_size; i++, indx += SBITMAP_ELT_BITS)
1671*404b540aSrobert {
1672*404b540aSrobert SBITMAP_ELT_TYPE insert = pre_insert_map[e]->elms[i];
1673*404b540aSrobert
1674*404b540aSrobert for (j = indx; insert && j < (int) pre_extension_num;
1675*404b540aSrobert j++, insert >>= 1)
1676*404b540aSrobert if (insert & 1)
1677*404b540aSrobert {
1678*404b540aSrobert struct see_pre_extension_expr *expr = index_map[j];
1679*404b540aSrobert int idx = expr->bitmap_index;
1680*404b540aSrobert rtx se_insn = NULL;
1681*404b540aSrobert edge eg = INDEX_EDGE (edge_list, e);
1682*404b540aSrobert
1683*404b540aSrobert start_sequence ();
1684*404b540aSrobert emit_insn (PATTERN (expr->se_insn));
1685*404b540aSrobert se_insn = get_insns ();
1686*404b540aSrobert end_sequence ();
1687*404b540aSrobert
1688*404b540aSrobert if (eg->flags & EDGE_ABNORMAL)
1689*404b540aSrobert {
1690*404b540aSrobert rtx new_insn = NULL;
1691*404b540aSrobert
1692*404b540aSrobert new_insn = insert_insn_end_bb_new (se_insn, bb);
1693*404b540aSrobert gcc_assert (new_insn && INSN_P (new_insn));
1694*404b540aSrobert
1695*404b540aSrobert if (dump_file)
1696*404b540aSrobert {
1697*404b540aSrobert fprintf (dump_file,
1698*404b540aSrobert "PRE: end of bb %d, insn %d, ",
1699*404b540aSrobert bb->index, INSN_UID (new_insn));
1700*404b540aSrobert fprintf (dump_file,
1701*404b540aSrobert "inserting expression %d\n", idx);
1702*404b540aSrobert }
1703*404b540aSrobert }
1704*404b540aSrobert else
1705*404b540aSrobert {
1706*404b540aSrobert insert_insn_on_edge (se_insn, eg);
1707*404b540aSrobert
1708*404b540aSrobert if (dump_file)
1709*404b540aSrobert {
1710*404b540aSrobert fprintf (dump_file, "PRE: edge (%d,%d), ",
1711*404b540aSrobert bb->index,
1712*404b540aSrobert INDEX_EDGE_SUCC_BB (edge_list, e)->index);
1713*404b540aSrobert fprintf (dump_file, "inserting expression %d\n", idx);
1714*404b540aSrobert }
1715*404b540aSrobert }
1716*404b540aSrobert did_insert = true;
1717*404b540aSrobert }
1718*404b540aSrobert }
1719*404b540aSrobert }
1720*404b540aSrobert return did_insert;
1721*404b540aSrobert }
1722*404b540aSrobert
1723*404b540aSrobert
1724*404b540aSrobert /* Since all the redundant extensions must be anticipatable, they must be a use
1725*404b540aSrobert extensions. Mark them as deleted. This will prevent them from been emitted
1726*404b540aSrobert in the first place.
1727*404b540aSrobert
1728*404b540aSrobert This is a subroutine of see_commit_changes called via htab_traverse.
1729*404b540aSrobert
1730*404b540aSrobert SLOT contains the current see_pre_extension_expr structure pointer. */
1731*404b540aSrobert
1732*404b540aSrobert static int
see_pre_delete_extension(void ** slot,void * b ATTRIBUTE_UNUSED)1733*404b540aSrobert see_pre_delete_extension (void **slot, void *b ATTRIBUTE_UNUSED)
1734*404b540aSrobert {
1735*404b540aSrobert struct see_pre_extension_expr *expr = *slot;
1736*404b540aSrobert struct see_occr *occr;
1737*404b540aSrobert int indx = expr->bitmap_index;
1738*404b540aSrobert
1739*404b540aSrobert for (occr = expr->antic_occr; occr != NULL; occr = occr->next)
1740*404b540aSrobert {
1741*404b540aSrobert if (TEST_BIT (pre_delete_map[occr->block_num], indx))
1742*404b540aSrobert {
1743*404b540aSrobert /* Mark as deleted. */
1744*404b540aSrobert INSN_DELETED_P (occr->insn) = 1;
1745*404b540aSrobert if (dump_file)
1746*404b540aSrobert {
1747*404b540aSrobert fprintf (dump_file,"Redundant extension deleted:\n");
1748*404b540aSrobert print_rtl_single (dump_file, occr->insn);
1749*404b540aSrobert }
1750*404b540aSrobert }
1751*404b540aSrobert }
1752*404b540aSrobert return 1;
1753*404b540aSrobert }
1754*404b540aSrobert
1755*404b540aSrobert
1756*404b540aSrobert /* Create the index_map mapping of an index to an expression.
1757*404b540aSrobert
1758*404b540aSrobert This is a subroutine of see_commit_changes called via htab_traverse.
1759*404b540aSrobert
1760*404b540aSrobert SLOT contains the current see_pre_extension_expr structure pointer.
1761*404b540aSrobert B a pointer to see_pre_extension_expr structure pointer. */
1762*404b540aSrobert
1763*404b540aSrobert static int
see_map_extension(void ** slot,void * b)1764*404b540aSrobert see_map_extension (void **slot, void *b)
1765*404b540aSrobert {
1766*404b540aSrobert struct see_pre_extension_expr *expr = *slot;
1767*404b540aSrobert struct see_pre_extension_expr **index_map =
1768*404b540aSrobert (struct see_pre_extension_expr **) b;
1769*404b540aSrobert
1770*404b540aSrobert index_map[expr->bitmap_index] = expr;
1771*404b540aSrobert
1772*404b540aSrobert return 1;
1773*404b540aSrobert }
1774*404b540aSrobert
1775*404b540aSrobert
1776*404b540aSrobert /* Phase 4 top level function.
1777*404b540aSrobert In this phase we finally change the instruction stream.
1778*404b540aSrobert Here we insert extensions at their best placements and delete the
1779*404b540aSrobert redundant ones according to the output of the LCM. We also replace
1780*404b540aSrobert some of the instructions according to phase 2 merges results. */
1781*404b540aSrobert
1782*404b540aSrobert static void
see_commit_changes(void)1783*404b540aSrobert see_commit_changes (void)
1784*404b540aSrobert {
1785*404b540aSrobert struct see_pre_extension_expr **index_map;
1786*404b540aSrobert size_t pre_extension_num = htab_elements (see_pre_extension_hash);
1787*404b540aSrobert bool did_insert = false;
1788*404b540aSrobert int i;
1789*404b540aSrobert
1790*404b540aSrobert index_map = xcalloc (pre_extension_num,
1791*404b540aSrobert sizeof (struct see_pre_extension_expr *));
1792*404b540aSrobert
1793*404b540aSrobert if (dump_file)
1794*404b540aSrobert fprintf (dump_file,
1795*404b540aSrobert "* Phase 4: Commit changes to the insn stream. *\n");
1796*404b540aSrobert
1797*404b540aSrobert /* Produce a mapping of all the pre_extensions. */
1798*404b540aSrobert htab_traverse (see_pre_extension_hash, see_map_extension, (PTR) index_map);
1799*404b540aSrobert
1800*404b540aSrobert /* Delete redundant extension. This will prevent them from been emitted in
1801*404b540aSrobert the first place. */
1802*404b540aSrobert htab_traverse (see_pre_extension_hash, see_pre_delete_extension, NULL);
1803*404b540aSrobert
1804*404b540aSrobert /* At this point, we must free the DF object, since the number of basic blocks
1805*404b540aSrobert may change. */
1806*404b540aSrobert df_finish (df);
1807*404b540aSrobert df = NULL;
1808*404b540aSrobert
1809*404b540aSrobert /* Insert extensions on edges, according to the LCM result. */
1810*404b540aSrobert did_insert = see_pre_insert_extensions (index_map);
1811*404b540aSrobert
1812*404b540aSrobert if (did_insert)
1813*404b540aSrobert commit_edge_insertions ();
1814*404b540aSrobert
1815*404b540aSrobert /* Commit the rest of the changes. */
1816*404b540aSrobert for (i = 0; i < last_bb; i++)
1817*404b540aSrobert {
1818*404b540aSrobert if (see_bb_splay_ar[i])
1819*404b540aSrobert {
1820*404b540aSrobert /* Traverse over all the references in the basic block in forward
1821*404b540aSrobert order. */
1822*404b540aSrobert splay_tree_foreach (see_bb_splay_ar[i],
1823*404b540aSrobert see_commit_ref_changes, NULL);
1824*404b540aSrobert }
1825*404b540aSrobert }
1826*404b540aSrobert
1827*404b540aSrobert free (index_map);
1828*404b540aSrobert }
1829*404b540aSrobert
1830*404b540aSrobert
1831*404b540aSrobert /* Phase 3 implementation: Eliminate globally redundant extensions. */
1832*404b540aSrobert
1833*404b540aSrobert /* Analyze the properties of a merged def extension for the LCM and record avail
1834*404b540aSrobert occurrences.
1835*404b540aSrobert
1836*404b540aSrobert This is a subroutine of see_analyze_ref_local_prop called
1837*404b540aSrobert via htab_traverse.
1838*404b540aSrobert
1839*404b540aSrobert SLOT contains the current def extension instruction.
1840*404b540aSrobert B is the see_ref_s structure pointer. */
1841*404b540aSrobert
1842*404b540aSrobert static int
see_analyze_merged_def_local_prop(void ** slot,void * b)1843*404b540aSrobert see_analyze_merged_def_local_prop (void **slot, void *b)
1844*404b540aSrobert {
1845*404b540aSrobert rtx def_se = *slot;
1846*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
1847*404b540aSrobert rtx ref = curr_ref_s->insn;
1848*404b540aSrobert struct see_pre_extension_expr *extension_expr;
1849*404b540aSrobert int indx;
1850*404b540aSrobert int bb_num = BLOCK_NUM (ref);
1851*404b540aSrobert htab_t curr_bb_hash;
1852*404b540aSrobert struct see_register_properties *curr_prop, **slot_prop;
1853*404b540aSrobert struct see_register_properties temp_prop;
1854*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (def_se, 1);
1855*404b540aSrobert struct see_occr *curr_occr = NULL;
1856*404b540aSrobert struct see_occr *tmp_occr = NULL;
1857*404b540aSrobert
1858*404b540aSrobert extension_expr = see_seek_pre_extension_expr (def_se, DEF_EXTENSION);
1859*404b540aSrobert /* The extension_expr must be found. */
1860*404b540aSrobert gcc_assert (extension_expr);
1861*404b540aSrobert
1862*404b540aSrobert curr_bb_hash = see_bb_hash_ar[bb_num];
1863*404b540aSrobert gcc_assert (curr_bb_hash);
1864*404b540aSrobert temp_prop.regno = REGNO (dest_extension_reg);
1865*404b540aSrobert slot_prop =
1866*404b540aSrobert (struct see_register_properties **) htab_find_slot (curr_bb_hash,
1867*404b540aSrobert &temp_prop, INSERT);
1868*404b540aSrobert curr_prop = *slot_prop;
1869*404b540aSrobert gcc_assert (curr_prop);
1870*404b540aSrobert
1871*404b540aSrobert indx = extension_expr->bitmap_index;
1872*404b540aSrobert
1873*404b540aSrobert /* Reset the transparency bit. */
1874*404b540aSrobert RESET_BIT (transp[bb_num], indx);
1875*404b540aSrobert /* Reset the killed bit. */
1876*404b540aSrobert RESET_BIT (ae_kill[bb_num], indx);
1877*404b540aSrobert
1878*404b540aSrobert if (curr_prop->first_se_after_last_def == DF_INSN_LUID (df, ref))
1879*404b540aSrobert {
1880*404b540aSrobert /* Set the available bit. */
1881*404b540aSrobert SET_BIT (comp[bb_num], indx);
1882*404b540aSrobert /* Record the available occurrence. */
1883*404b540aSrobert curr_occr = xmalloc (sizeof (struct see_occr));
1884*404b540aSrobert curr_occr->next = NULL;
1885*404b540aSrobert curr_occr->insn = def_se;
1886*404b540aSrobert curr_occr->block_num = bb_num;
1887*404b540aSrobert tmp_occr = extension_expr->avail_occr;
1888*404b540aSrobert if (!tmp_occr)
1889*404b540aSrobert extension_expr->avail_occr = curr_occr;
1890*404b540aSrobert else
1891*404b540aSrobert {
1892*404b540aSrobert while (tmp_occr->next)
1893*404b540aSrobert tmp_occr = tmp_occr->next;
1894*404b540aSrobert tmp_occr->next = curr_occr;
1895*404b540aSrobert }
1896*404b540aSrobert }
1897*404b540aSrobert
1898*404b540aSrobert return 1;
1899*404b540aSrobert }
1900*404b540aSrobert
1901*404b540aSrobert
1902*404b540aSrobert /* Analyze the properties of a unmerged def extension for the LCM.
1903*404b540aSrobert
1904*404b540aSrobert This is a subroutine of see_analyze_ref_local_prop called
1905*404b540aSrobert via htab_traverse.
1906*404b540aSrobert
1907*404b540aSrobert SLOT contains the current def extension instruction.
1908*404b540aSrobert B is the see_ref_s structure pointer. */
1909*404b540aSrobert
1910*404b540aSrobert static int
see_analyze_unmerged_def_local_prop(void ** slot,void * b)1911*404b540aSrobert see_analyze_unmerged_def_local_prop (void **slot, void *b)
1912*404b540aSrobert {
1913*404b540aSrobert rtx def_se = *slot;
1914*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
1915*404b540aSrobert rtx ref = curr_ref_s->insn;
1916*404b540aSrobert struct see_pre_extension_expr *extension_expr;
1917*404b540aSrobert int indx;
1918*404b540aSrobert int bb_num = BLOCK_NUM (ref);
1919*404b540aSrobert htab_t curr_bb_hash;
1920*404b540aSrobert struct see_register_properties *curr_prop, **slot_prop;
1921*404b540aSrobert struct see_register_properties temp_prop;
1922*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (def_se, 1);
1923*404b540aSrobert
1924*404b540aSrobert extension_expr = see_seek_pre_extension_expr (def_se, DEF_EXTENSION);
1925*404b540aSrobert /* The extension_expr must be found. */
1926*404b540aSrobert gcc_assert (extension_expr);
1927*404b540aSrobert
1928*404b540aSrobert curr_bb_hash = see_bb_hash_ar[bb_num];
1929*404b540aSrobert gcc_assert (curr_bb_hash);
1930*404b540aSrobert temp_prop.regno = REGNO (dest_extension_reg);
1931*404b540aSrobert slot_prop =
1932*404b540aSrobert (struct see_register_properties **) htab_find_slot (curr_bb_hash,
1933*404b540aSrobert &temp_prop, INSERT);
1934*404b540aSrobert curr_prop = *slot_prop;
1935*404b540aSrobert gcc_assert (curr_prop);
1936*404b540aSrobert
1937*404b540aSrobert indx = extension_expr->bitmap_index;
1938*404b540aSrobert
1939*404b540aSrobert /* Reset the transparency bit. */
1940*404b540aSrobert RESET_BIT (transp[bb_num], indx);
1941*404b540aSrobert /* Set the killed bit. */
1942*404b540aSrobert SET_BIT (ae_kill[bb_num], indx);
1943*404b540aSrobert
1944*404b540aSrobert return 1;
1945*404b540aSrobert }
1946*404b540aSrobert
1947*404b540aSrobert
1948*404b540aSrobert /* Analyze the properties of a use extension for the LCM and record anic and
1949*404b540aSrobert avail occurrences.
1950*404b540aSrobert
1951*404b540aSrobert This is a subroutine of see_analyze_ref_local_prop called
1952*404b540aSrobert via htab_traverse.
1953*404b540aSrobert
1954*404b540aSrobert SLOT contains the current use extension instruction.
1955*404b540aSrobert B is the see_ref_s structure pointer. */
1956*404b540aSrobert
1957*404b540aSrobert static int
see_analyze_use_local_prop(void ** slot,void * b)1958*404b540aSrobert see_analyze_use_local_prop (void **slot, void *b)
1959*404b540aSrobert {
1960*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
1961*404b540aSrobert rtx use_se = *slot;
1962*404b540aSrobert rtx ref = curr_ref_s->insn;
1963*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (use_se, 1);
1964*404b540aSrobert struct see_pre_extension_expr *extension_expr;
1965*404b540aSrobert struct see_register_properties *curr_prop, **slot_prop;
1966*404b540aSrobert struct see_register_properties temp_prop;
1967*404b540aSrobert struct see_occr *curr_occr = NULL;
1968*404b540aSrobert struct see_occr *tmp_occr = NULL;
1969*404b540aSrobert htab_t curr_bb_hash;
1970*404b540aSrobert int indx;
1971*404b540aSrobert int bb_num = BLOCK_NUM (ref);
1972*404b540aSrobert
1973*404b540aSrobert extension_expr = see_seek_pre_extension_expr (use_se, USE_EXTENSION);
1974*404b540aSrobert /* The extension_expr must be found. */
1975*404b540aSrobert gcc_assert (extension_expr);
1976*404b540aSrobert
1977*404b540aSrobert curr_bb_hash = see_bb_hash_ar[bb_num];
1978*404b540aSrobert gcc_assert (curr_bb_hash);
1979*404b540aSrobert temp_prop.regno = REGNO (dest_extension_reg);
1980*404b540aSrobert slot_prop =
1981*404b540aSrobert (struct see_register_properties **) htab_find_slot (curr_bb_hash,
1982*404b540aSrobert &temp_prop, INSERT);
1983*404b540aSrobert curr_prop = *slot_prop;
1984*404b540aSrobert gcc_assert (curr_prop);
1985*404b540aSrobert
1986*404b540aSrobert indx = extension_expr->bitmap_index;
1987*404b540aSrobert
1988*404b540aSrobert if (curr_prop->first_se_before_any_def == DF_INSN_LUID (df, ref))
1989*404b540aSrobert {
1990*404b540aSrobert /* Set the anticipatable bit. */
1991*404b540aSrobert SET_BIT (antloc[bb_num], indx);
1992*404b540aSrobert /* Record the anticipatable occurrence. */
1993*404b540aSrobert curr_occr = xmalloc (sizeof (struct see_occr));
1994*404b540aSrobert curr_occr->next = NULL;
1995*404b540aSrobert curr_occr->insn = use_se;
1996*404b540aSrobert curr_occr->block_num = bb_num;
1997*404b540aSrobert tmp_occr = extension_expr->antic_occr;
1998*404b540aSrobert if (!tmp_occr)
1999*404b540aSrobert extension_expr->antic_occr = curr_occr;
2000*404b540aSrobert else
2001*404b540aSrobert {
2002*404b540aSrobert while (tmp_occr->next)
2003*404b540aSrobert tmp_occr = tmp_occr->next;
2004*404b540aSrobert tmp_occr->next = curr_occr;
2005*404b540aSrobert }
2006*404b540aSrobert if (curr_prop->last_def < 0)
2007*404b540aSrobert {
2008*404b540aSrobert /* Set the available bit. */
2009*404b540aSrobert SET_BIT (comp[bb_num], indx);
2010*404b540aSrobert /* Record the available occurrence. */
2011*404b540aSrobert curr_occr = xmalloc (sizeof (struct see_occr));
2012*404b540aSrobert curr_occr->next = NULL;
2013*404b540aSrobert curr_occr->insn = use_se;
2014*404b540aSrobert curr_occr->block_num = bb_num;
2015*404b540aSrobert tmp_occr = extension_expr->avail_occr;
2016*404b540aSrobert if (!tmp_occr)
2017*404b540aSrobert extension_expr->avail_occr = curr_occr;
2018*404b540aSrobert else
2019*404b540aSrobert {
2020*404b540aSrobert while (tmp_occr->next)
2021*404b540aSrobert tmp_occr = tmp_occr->next;
2022*404b540aSrobert tmp_occr->next = curr_occr;
2023*404b540aSrobert }
2024*404b540aSrobert }
2025*404b540aSrobert /* Note: there is no need to reset the killed bit since it must be zero at
2026*404b540aSrobert this point. */
2027*404b540aSrobert }
2028*404b540aSrobert else if (curr_prop->first_se_after_last_def == DF_INSN_LUID (df, ref))
2029*404b540aSrobert {
2030*404b540aSrobert /* Set the available bit. */
2031*404b540aSrobert SET_BIT (comp[bb_num], indx);
2032*404b540aSrobert /* Reset the killed bit. */
2033*404b540aSrobert RESET_BIT (ae_kill[bb_num], indx);
2034*404b540aSrobert /* Record the available occurrence. */
2035*404b540aSrobert curr_occr = xmalloc (sizeof (struct see_occr));
2036*404b540aSrobert curr_occr->next = NULL;
2037*404b540aSrobert curr_occr->insn = use_se;
2038*404b540aSrobert curr_occr->block_num = bb_num;
2039*404b540aSrobert tmp_occr = extension_expr->avail_occr;
2040*404b540aSrobert if (!tmp_occr)
2041*404b540aSrobert extension_expr->avail_occr = curr_occr;
2042*404b540aSrobert else
2043*404b540aSrobert {
2044*404b540aSrobert while (tmp_occr->next)
2045*404b540aSrobert tmp_occr = tmp_occr->next;
2046*404b540aSrobert tmp_occr->next = curr_occr;
2047*404b540aSrobert }
2048*404b540aSrobert }
2049*404b540aSrobert return 1;
2050*404b540aSrobert }
2051*404b540aSrobert
2052*404b540aSrobert
2053*404b540aSrobert /* Here we traverse over all the merged and unmerged extensions of the reference
2054*404b540aSrobert and analyze their properties for the LCM.
2055*404b540aSrobert
2056*404b540aSrobert This is a subroutine of see_execute_LCM called via splay_tree_foreach.
2057*404b540aSrobert
2058*404b540aSrobert STN is the current node in the see_bb_splay_ar[i] splay tree. It holds a
2059*404b540aSrobert see_ref_s structure. */
2060*404b540aSrobert
2061*404b540aSrobert static int
see_analyze_ref_local_prop(splay_tree_node stn,void * data ATTRIBUTE_UNUSED)2062*404b540aSrobert see_analyze_ref_local_prop (splay_tree_node stn,
2063*404b540aSrobert void *data ATTRIBUTE_UNUSED)
2064*404b540aSrobert {
2065*404b540aSrobert htab_t use_se_hash = ((struct see_ref_s *) (stn->value))->use_se_hash;
2066*404b540aSrobert htab_t unmerged_def_se_hash =
2067*404b540aSrobert ((struct see_ref_s *) (stn->value))->unmerged_def_se_hash;
2068*404b540aSrobert htab_t merged_def_se_hash =
2069*404b540aSrobert ((struct see_ref_s *) (stn->value))->merged_def_se_hash;
2070*404b540aSrobert
2071*404b540aSrobert /* Analyze use extensions that were not merged with the reference. */
2072*404b540aSrobert if (use_se_hash)
2073*404b540aSrobert htab_traverse_noresize (use_se_hash, see_analyze_use_local_prop,
2074*404b540aSrobert (PTR) (stn->value));
2075*404b540aSrobert
2076*404b540aSrobert /* Analyze def extensions that were not merged with the reference. */
2077*404b540aSrobert if (unmerged_def_se_hash)
2078*404b540aSrobert htab_traverse (unmerged_def_se_hash, see_analyze_unmerged_def_local_prop,
2079*404b540aSrobert (PTR) (stn->value));
2080*404b540aSrobert
2081*404b540aSrobert /* Analyze def extensions that were merged with the reference. */
2082*404b540aSrobert if (merged_def_se_hash)
2083*404b540aSrobert htab_traverse (merged_def_se_hash, see_analyze_merged_def_local_prop,
2084*404b540aSrobert (PTR) (stn->value));
2085*404b540aSrobert
2086*404b540aSrobert /* Continue to the next definition. */
2087*404b540aSrobert return 0;
2088*404b540aSrobert }
2089*404b540aSrobert
2090*404b540aSrobert
2091*404b540aSrobert /* Phase 3 top level function.
2092*404b540aSrobert In this phase, we set the input bit vectors of the LCM according to data
2093*404b540aSrobert gathered in phase 2.
2094*404b540aSrobert Then we run the edge based LCM. */
2095*404b540aSrobert
2096*404b540aSrobert static void
see_execute_LCM(void)2097*404b540aSrobert see_execute_LCM (void)
2098*404b540aSrobert {
2099*404b540aSrobert size_t pre_extension_num = htab_elements (see_pre_extension_hash);
2100*404b540aSrobert int i = 0;
2101*404b540aSrobert
2102*404b540aSrobert if (dump_file)
2103*404b540aSrobert fprintf (dump_file,
2104*404b540aSrobert "* Phase 3: Eliminate globally redundant extensions. *\n");
2105*404b540aSrobert
2106*404b540aSrobert /* Initialize the global sbitmap vectors. */
2107*404b540aSrobert transp = sbitmap_vector_alloc (last_bb, pre_extension_num);
2108*404b540aSrobert comp = sbitmap_vector_alloc (last_bb, pre_extension_num);
2109*404b540aSrobert antloc = sbitmap_vector_alloc (last_bb, pre_extension_num);
2110*404b540aSrobert ae_kill = sbitmap_vector_alloc (last_bb, pre_extension_num);
2111*404b540aSrobert sbitmap_vector_ones (transp, last_bb);
2112*404b540aSrobert sbitmap_vector_zero (comp, last_bb);
2113*404b540aSrobert sbitmap_vector_zero (antloc, last_bb);
2114*404b540aSrobert sbitmap_vector_zero (ae_kill, last_bb);
2115*404b540aSrobert
2116*404b540aSrobert /* Traverse over all the splay trees of the basic blocks. */
2117*404b540aSrobert for (i = 0; i < last_bb; i++)
2118*404b540aSrobert {
2119*404b540aSrobert if (see_bb_splay_ar[i])
2120*404b540aSrobert {
2121*404b540aSrobert /* Traverse over all the references in the basic block in forward
2122*404b540aSrobert order. */
2123*404b540aSrobert splay_tree_foreach (see_bb_splay_ar[i],
2124*404b540aSrobert see_analyze_ref_local_prop, NULL);
2125*404b540aSrobert }
2126*404b540aSrobert }
2127*404b540aSrobert
2128*404b540aSrobert /* Add fake exit edges before running the lcm. */
2129*404b540aSrobert add_noreturn_fake_exit_edges ();
2130*404b540aSrobert
2131*404b540aSrobert /* Run the LCM. */
2132*404b540aSrobert edge_list = pre_edge_lcm (pre_extension_num, transp, comp, antloc,
2133*404b540aSrobert ae_kill, &pre_insert_map, &pre_delete_map);
2134*404b540aSrobert
2135*404b540aSrobert /* Remove the fake edges. */
2136*404b540aSrobert remove_fake_exit_edges ();
2137*404b540aSrobert }
2138*404b540aSrobert
2139*404b540aSrobert
2140*404b540aSrobert /* Phase 2 implementation: Merge and eliminate locally redundant extensions. */
2141*404b540aSrobert
2142*404b540aSrobert /* In this function we set the register properties for the register that is
2143*404b540aSrobert defined and extended in the reference.
2144*404b540aSrobert The properties are defined in see_register_properties structure which is
2145*404b540aSrobert allocated per basic block and per register.
2146*404b540aSrobert Later the extension is inserted into the see_pre_extension_hash for the next
2147*404b540aSrobert phase of the optimization.
2148*404b540aSrobert
2149*404b540aSrobert This is a subroutine of see_handle_extensions_for_one_ref called
2150*404b540aSrobert via htab_traverse.
2151*404b540aSrobert
2152*404b540aSrobert SLOT contains the current def extension instruction.
2153*404b540aSrobert B is the see_ref_s structure pointer. */
2154*404b540aSrobert
2155*404b540aSrobert static int
see_set_prop_merged_def(void ** slot,void * b)2156*404b540aSrobert see_set_prop_merged_def (void **slot, void *b)
2157*404b540aSrobert {
2158*404b540aSrobert rtx def_se = *slot;
2159*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
2160*404b540aSrobert rtx insn = curr_ref_s->insn;
2161*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (def_se, 1);
2162*404b540aSrobert htab_t curr_bb_hash;
2163*404b540aSrobert struct see_register_properties *curr_prop = NULL;
2164*404b540aSrobert struct see_register_properties **slot_prop;
2165*404b540aSrobert struct see_register_properties temp_prop;
2166*404b540aSrobert int ref_luid = DF_INSN_LUID (df, insn);
2167*404b540aSrobert
2168*404b540aSrobert curr_bb_hash = see_bb_hash_ar[BLOCK_NUM (curr_ref_s->insn)];
2169*404b540aSrobert if (!curr_bb_hash)
2170*404b540aSrobert {
2171*404b540aSrobert /* The hash doesn't exist yet. Create it. */
2172*404b540aSrobert curr_bb_hash = htab_create (10,
2173*404b540aSrobert hash_descriptor_properties,
2174*404b540aSrobert eq_descriptor_properties,
2175*404b540aSrobert hash_del_properties);
2176*404b540aSrobert see_bb_hash_ar[BLOCK_NUM (curr_ref_s->insn)] = curr_bb_hash;
2177*404b540aSrobert }
2178*404b540aSrobert
2179*404b540aSrobert /* Find the right register properties in the right basic block. */
2180*404b540aSrobert temp_prop.regno = REGNO (dest_extension_reg);
2181*404b540aSrobert slot_prop =
2182*404b540aSrobert (struct see_register_properties **) htab_find_slot (curr_bb_hash,
2183*404b540aSrobert &temp_prop, INSERT);
2184*404b540aSrobert
2185*404b540aSrobert if (slot_prop && *slot_prop != NULL)
2186*404b540aSrobert {
2187*404b540aSrobert /* Property already exists. */
2188*404b540aSrobert curr_prop = *slot_prop;
2189*404b540aSrobert gcc_assert (curr_prop->regno == REGNO (dest_extension_reg));
2190*404b540aSrobert
2191*404b540aSrobert curr_prop->last_def = ref_luid;
2192*404b540aSrobert curr_prop->first_se_after_last_def = ref_luid;
2193*404b540aSrobert }
2194*404b540aSrobert else
2195*404b540aSrobert {
2196*404b540aSrobert /* Property doesn't exist yet. */
2197*404b540aSrobert curr_prop = xmalloc (sizeof (struct see_register_properties));
2198*404b540aSrobert curr_prop->regno = REGNO (dest_extension_reg);
2199*404b540aSrobert curr_prop->last_def = ref_luid;
2200*404b540aSrobert curr_prop->first_se_before_any_def = -1;
2201*404b540aSrobert curr_prop->first_se_after_last_def = ref_luid;
2202*404b540aSrobert *slot_prop = curr_prop;
2203*404b540aSrobert }
2204*404b540aSrobert
2205*404b540aSrobert /* Insert the def_se into see_pre_extension_hash if it isn't already
2206*404b540aSrobert there. */
2207*404b540aSrobert see_seek_pre_extension_expr (def_se, DEF_EXTENSION);
2208*404b540aSrobert
2209*404b540aSrobert return 1;
2210*404b540aSrobert }
2211*404b540aSrobert
2212*404b540aSrobert
2213*404b540aSrobert /* In this function we set the register properties for the register that is
2214*404b540aSrobert defined but not extended in the reference.
2215*404b540aSrobert The properties are defined in see_register_properties structure which is
2216*404b540aSrobert allocated per basic block and per register.
2217*404b540aSrobert Later the extension is inserted into the see_pre_extension_hash for the next
2218*404b540aSrobert phase of the optimization.
2219*404b540aSrobert
2220*404b540aSrobert This is a subroutine of see_handle_extensions_for_one_ref called
2221*404b540aSrobert via htab_traverse.
2222*404b540aSrobert
2223*404b540aSrobert SLOT contains the current def extension instruction.
2224*404b540aSrobert B is the see_ref_s structure pointer. */
2225*404b540aSrobert
2226*404b540aSrobert static int
see_set_prop_unmerged_def(void ** slot,void * b)2227*404b540aSrobert see_set_prop_unmerged_def (void **slot, void *b)
2228*404b540aSrobert {
2229*404b540aSrobert rtx def_se = *slot;
2230*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
2231*404b540aSrobert rtx insn = curr_ref_s->insn;
2232*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (def_se, 1);
2233*404b540aSrobert htab_t curr_bb_hash;
2234*404b540aSrobert struct see_register_properties *curr_prop = NULL;
2235*404b540aSrobert struct see_register_properties **slot_prop;
2236*404b540aSrobert struct see_register_properties temp_prop;
2237*404b540aSrobert int ref_luid = DF_INSN_LUID (df, insn);
2238*404b540aSrobert
2239*404b540aSrobert curr_bb_hash = see_bb_hash_ar[BLOCK_NUM (curr_ref_s->insn)];
2240*404b540aSrobert if (!curr_bb_hash)
2241*404b540aSrobert {
2242*404b540aSrobert /* The hash doesn't exist yet. Create it. */
2243*404b540aSrobert curr_bb_hash = htab_create (10,
2244*404b540aSrobert hash_descriptor_properties,
2245*404b540aSrobert eq_descriptor_properties,
2246*404b540aSrobert hash_del_properties);
2247*404b540aSrobert see_bb_hash_ar[BLOCK_NUM (curr_ref_s->insn)] = curr_bb_hash;
2248*404b540aSrobert }
2249*404b540aSrobert
2250*404b540aSrobert /* Find the right register properties in the right basic block. */
2251*404b540aSrobert temp_prop.regno = REGNO (dest_extension_reg);
2252*404b540aSrobert slot_prop =
2253*404b540aSrobert (struct see_register_properties **) htab_find_slot (curr_bb_hash,
2254*404b540aSrobert &temp_prop, INSERT);
2255*404b540aSrobert
2256*404b540aSrobert if (slot_prop && *slot_prop != NULL)
2257*404b540aSrobert {
2258*404b540aSrobert /* Property already exists. */
2259*404b540aSrobert curr_prop = *slot_prop;
2260*404b540aSrobert gcc_assert (curr_prop->regno == REGNO (dest_extension_reg));
2261*404b540aSrobert
2262*404b540aSrobert curr_prop->last_def = ref_luid;
2263*404b540aSrobert curr_prop->first_se_after_last_def = -1;
2264*404b540aSrobert }
2265*404b540aSrobert else
2266*404b540aSrobert {
2267*404b540aSrobert /* Property doesn't exist yet. */
2268*404b540aSrobert curr_prop = xmalloc (sizeof (struct see_register_properties));
2269*404b540aSrobert curr_prop->regno = REGNO (dest_extension_reg);
2270*404b540aSrobert curr_prop->last_def = ref_luid;
2271*404b540aSrobert curr_prop->first_se_before_any_def = -1;
2272*404b540aSrobert curr_prop->first_se_after_last_def = -1;
2273*404b540aSrobert *slot_prop = curr_prop;
2274*404b540aSrobert }
2275*404b540aSrobert
2276*404b540aSrobert /* Insert the def_se into see_pre_extension_hash if it isn't already
2277*404b540aSrobert there. */
2278*404b540aSrobert see_seek_pre_extension_expr (def_se, DEF_EXTENSION);
2279*404b540aSrobert
2280*404b540aSrobert return 1;
2281*404b540aSrobert }
2282*404b540aSrobert
2283*404b540aSrobert
2284*404b540aSrobert /* In this function we set the register properties for the register that is used
2285*404b540aSrobert in the reference.
2286*404b540aSrobert The properties are defined in see_register_properties structure which is
2287*404b540aSrobert allocated per basic block and per register.
2288*404b540aSrobert When a redundant use extension is found it is removed from the hash of the
2289*404b540aSrobert reference.
2290*404b540aSrobert If the extension is non redundant it is inserted into the
2291*404b540aSrobert see_pre_extension_hash for the next phase of the optimization.
2292*404b540aSrobert
2293*404b540aSrobert This is a subroutine of see_handle_extensions_for_one_ref called
2294*404b540aSrobert via htab_traverse.
2295*404b540aSrobert
2296*404b540aSrobert SLOT contains the current use extension instruction.
2297*404b540aSrobert B is the see_ref_s structure pointer. */
2298*404b540aSrobert
2299*404b540aSrobert static int
see_set_prop_unmerged_use(void ** slot,void * b)2300*404b540aSrobert see_set_prop_unmerged_use (void **slot, void *b)
2301*404b540aSrobert {
2302*404b540aSrobert rtx use_se = *slot;
2303*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
2304*404b540aSrobert rtx insn = curr_ref_s->insn;
2305*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (use_se, 1);
2306*404b540aSrobert htab_t curr_bb_hash;
2307*404b540aSrobert struct see_register_properties *curr_prop = NULL;
2308*404b540aSrobert struct see_register_properties **slot_prop;
2309*404b540aSrobert struct see_register_properties temp_prop;
2310*404b540aSrobert bool locally_redundant = false;
2311*404b540aSrobert int ref_luid = DF_INSN_LUID (df, insn);
2312*404b540aSrobert
2313*404b540aSrobert curr_bb_hash = see_bb_hash_ar[BLOCK_NUM (curr_ref_s->insn)];
2314*404b540aSrobert if (!curr_bb_hash)
2315*404b540aSrobert {
2316*404b540aSrobert /* The hash doesn't exist yet. Create it. */
2317*404b540aSrobert curr_bb_hash = htab_create (10,
2318*404b540aSrobert hash_descriptor_properties,
2319*404b540aSrobert eq_descriptor_properties,
2320*404b540aSrobert hash_del_properties);
2321*404b540aSrobert see_bb_hash_ar[BLOCK_NUM (curr_ref_s->insn)] = curr_bb_hash;
2322*404b540aSrobert }
2323*404b540aSrobert
2324*404b540aSrobert /* Find the right register properties in the right basic block. */
2325*404b540aSrobert temp_prop.regno = REGNO (dest_extension_reg);
2326*404b540aSrobert slot_prop =
2327*404b540aSrobert (struct see_register_properties **) htab_find_slot (curr_bb_hash,
2328*404b540aSrobert &temp_prop, INSERT);
2329*404b540aSrobert
2330*404b540aSrobert if (slot_prop && *slot_prop != NULL)
2331*404b540aSrobert {
2332*404b540aSrobert /* Property already exists. */
2333*404b540aSrobert curr_prop = *slot_prop;
2334*404b540aSrobert gcc_assert (curr_prop->regno == REGNO (dest_extension_reg));
2335*404b540aSrobert
2336*404b540aSrobert
2337*404b540aSrobert if (curr_prop->last_def < 0 && curr_prop->first_se_before_any_def < 0)
2338*404b540aSrobert curr_prop->first_se_before_any_def = ref_luid;
2339*404b540aSrobert else if (curr_prop->last_def < 0
2340*404b540aSrobert && curr_prop->first_se_before_any_def >= 0)
2341*404b540aSrobert {
2342*404b540aSrobert /* In this case the extension is locally redundant. */
2343*404b540aSrobert htab_clear_slot (curr_ref_s->use_se_hash, (PTR *)slot);
2344*404b540aSrobert locally_redundant = true;
2345*404b540aSrobert }
2346*404b540aSrobert else if (curr_prop->last_def >= 0
2347*404b540aSrobert && curr_prop->first_se_after_last_def < 0)
2348*404b540aSrobert curr_prop->first_se_after_last_def = ref_luid;
2349*404b540aSrobert else if (curr_prop->last_def >= 0
2350*404b540aSrobert && curr_prop->first_se_after_last_def >= 0)
2351*404b540aSrobert {
2352*404b540aSrobert /* In this case the extension is locally redundant. */
2353*404b540aSrobert htab_clear_slot (curr_ref_s->use_se_hash, (PTR *)slot);
2354*404b540aSrobert locally_redundant = true;
2355*404b540aSrobert }
2356*404b540aSrobert else
2357*404b540aSrobert gcc_unreachable ();
2358*404b540aSrobert }
2359*404b540aSrobert else
2360*404b540aSrobert {
2361*404b540aSrobert /* Property doesn't exist yet. Create a new one. */
2362*404b540aSrobert curr_prop = xmalloc (sizeof (struct see_register_properties));
2363*404b540aSrobert curr_prop->regno = REGNO (dest_extension_reg);
2364*404b540aSrobert curr_prop->last_def = -1;
2365*404b540aSrobert curr_prop->first_se_before_any_def = ref_luid;
2366*404b540aSrobert curr_prop->first_se_after_last_def = -1;
2367*404b540aSrobert *slot_prop = curr_prop;
2368*404b540aSrobert }
2369*404b540aSrobert
2370*404b540aSrobert /* Insert the use_se into see_pre_extension_hash if it isn't already
2371*404b540aSrobert there. */
2372*404b540aSrobert if (!locally_redundant)
2373*404b540aSrobert see_seek_pre_extension_expr (use_se, USE_EXTENSION);
2374*404b540aSrobert if (locally_redundant && dump_file)
2375*404b540aSrobert {
2376*404b540aSrobert fprintf (dump_file, "Locally redundant extension:\n");
2377*404b540aSrobert print_rtl_single (dump_file, use_se);
2378*404b540aSrobert }
2379*404b540aSrobert return 1;
2380*404b540aSrobert }
2381*404b540aSrobert
2382*404b540aSrobert
2383*404b540aSrobert /* Print an extension instruction.
2384*404b540aSrobert
2385*404b540aSrobert This is a subroutine of see_handle_extensions_for_one_ref called
2386*404b540aSrobert via htab_traverse.
2387*404b540aSrobert SLOT contains the extension instruction. */
2388*404b540aSrobert
2389*404b540aSrobert static int
see_print_one_extension(void ** slot,void * b ATTRIBUTE_UNUSED)2390*404b540aSrobert see_print_one_extension (void **slot, void *b ATTRIBUTE_UNUSED)
2391*404b540aSrobert {
2392*404b540aSrobert rtx def_se = *slot;
2393*404b540aSrobert
2394*404b540aSrobert gcc_assert (def_se && INSN_P (def_se));
2395*404b540aSrobert print_rtl_single (dump_file, def_se);
2396*404b540aSrobert
2397*404b540aSrobert return 1;
2398*404b540aSrobert }
2399*404b540aSrobert
2400*404b540aSrobert /* Function called by note_uses to replace used subexpressions.
2401*404b540aSrobert
2402*404b540aSrobert X is a pointer to the subexpression and DATA is a pointer to a
2403*404b540aSrobert see_replace_data structure that contains the data for the replacement. */
2404*404b540aSrobert
2405*404b540aSrobert static void
see_replace_src(rtx * x,void * data)2406*404b540aSrobert see_replace_src (rtx *x, void *data)
2407*404b540aSrobert {
2408*404b540aSrobert struct see_replace_data *d
2409*404b540aSrobert = (struct see_replace_data *) data;
2410*404b540aSrobert
2411*404b540aSrobert *x = replace_rtx (*x, d->from, d->to);
2412*404b540aSrobert }
2413*404b540aSrobert
2414*404b540aSrobert
2415*404b540aSrobert /* At this point the pattern is expected to be:
2416*404b540aSrobert
2417*404b540aSrobert ref: set (dest_reg) (rhs)
2418*404b540aSrobert def_se: set (dest_extension_reg) (sign/zero_extend (source_extension_reg))
2419*404b540aSrobert
2420*404b540aSrobert The merge of these two instructions didn't succeed.
2421*404b540aSrobert
2422*404b540aSrobert We try to generate the pattern:
2423*404b540aSrobert set (subreg (dest_extension_reg)) (rhs)
2424*404b540aSrobert
2425*404b540aSrobert We do this in 4 steps:
2426*404b540aSrobert a. Replace every use of dest_reg with a new pseudo register.
2427*404b540aSrobert b. Replace every instance of dest_reg with the subreg.
2428*404b540aSrobert c. Replace every use of the new pseudo register back to dest_reg.
2429*404b540aSrobert d. Try to recognize and simplify.
2430*404b540aSrobert
2431*404b540aSrobert If the manipulation failed, leave the original ref but try to generate and
2432*404b540aSrobert recognize a simple move instruction:
2433*404b540aSrobert set (subreg (dest_extension_reg)) (dest_reg)
2434*404b540aSrobert This move instruction will be emitted right after the ref to the instruction
2435*404b540aSrobert stream and assure the correctness of the code after def_se will be removed.
2436*404b540aSrobert
2437*404b540aSrobert CURR_REF_S is the current reference.
2438*404b540aSrobert DEF_SE is the extension that couldn't be merged. */
2439*404b540aSrobert
2440*404b540aSrobert static void
see_def_extension_not_merged(struct see_ref_s * curr_ref_s,rtx def_se)2441*404b540aSrobert see_def_extension_not_merged (struct see_ref_s *curr_ref_s, rtx def_se)
2442*404b540aSrobert {
2443*404b540aSrobert struct see_replace_data d;
2444*404b540aSrobert /* If the original insn was already merged with an extension before,
2445*404b540aSrobert take the merged one. */
2446*404b540aSrobert rtx ref = (curr_ref_s->merged_insn) ? curr_ref_s->merged_insn :
2447*404b540aSrobert curr_ref_s->insn;
2448*404b540aSrobert rtx merged_ref_next = (curr_ref_s->merged_insn) ?
2449*404b540aSrobert NEXT_INSN (curr_ref_s->merged_insn): NULL_RTX;
2450*404b540aSrobert rtx ref_copy = copy_rtx (ref);
2451*404b540aSrobert rtx source_extension_reg = see_get_extension_reg (def_se, 0);
2452*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (def_se, 1);
2453*404b540aSrobert rtx move_insn = NULL;
2454*404b540aSrobert rtx set, rhs;
2455*404b540aSrobert rtx dest_reg, dest_real_reg;
2456*404b540aSrobert rtx new_pseudo_reg, subreg;
2457*404b540aSrobert enum machine_mode source_extension_mode = GET_MODE (source_extension_reg);
2458*404b540aSrobert enum machine_mode dest_mode;
2459*404b540aSrobert
2460*404b540aSrobert set = single_set (def_se);
2461*404b540aSrobert gcc_assert (set);
2462*404b540aSrobert rhs = SET_SRC (set);
2463*404b540aSrobert gcc_assert (GET_CODE (rhs) == SIGN_EXTEND
2464*404b540aSrobert || GET_CODE (rhs) == ZERO_EXTEND);
2465*404b540aSrobert dest_reg = XEXP (rhs, 0);
2466*404b540aSrobert gcc_assert (REG_P (dest_reg)
2467*404b540aSrobert || (GET_CODE (dest_reg) == SUBREG
2468*404b540aSrobert && REG_P (SUBREG_REG (dest_reg))));
2469*404b540aSrobert dest_real_reg = REG_P (dest_reg) ? dest_reg : SUBREG_REG (dest_reg);
2470*404b540aSrobert dest_mode = GET_MODE (dest_reg);
2471*404b540aSrobert
2472*404b540aSrobert subreg = gen_lowpart_SUBREG (dest_mode, dest_extension_reg);
2473*404b540aSrobert new_pseudo_reg = gen_reg_rtx (source_extension_mode);
2474*404b540aSrobert
2475*404b540aSrobert /* Step a: Replace every use of dest_real_reg with a new pseudo register. */
2476*404b540aSrobert d.from = dest_real_reg;
2477*404b540aSrobert d.to = new_pseudo_reg;
2478*404b540aSrobert note_uses (&PATTERN (ref_copy), see_replace_src, &d);
2479*404b540aSrobert /* Step b: Replace every instance of dest_reg with the subreg. */
2480*404b540aSrobert ref_copy = replace_rtx (ref_copy, dest_reg, subreg);
2481*404b540aSrobert
2482*404b540aSrobert /* Step c: Replace every use of the new pseudo register back to
2483*404b540aSrobert dest_real_reg. */
2484*404b540aSrobert d.from = new_pseudo_reg;
2485*404b540aSrobert d.to = dest_real_reg;
2486*404b540aSrobert note_uses (&PATTERN (ref_copy), see_replace_src, &d);
2487*404b540aSrobert
2488*404b540aSrobert if (rtx_equal_p (PATTERN (ref), PATTERN (ref_copy))
2489*404b540aSrobert || insn_invalid_p (ref_copy))
2490*404b540aSrobert {
2491*404b540aSrobert /* The manipulation failed. */
2492*404b540aSrobert
2493*404b540aSrobert /* Create a new copy. */
2494*404b540aSrobert ref_copy = copy_rtx (ref);
2495*404b540aSrobert
2496*404b540aSrobert /* Create a simple move instruction that will replace the def_se. */
2497*404b540aSrobert start_sequence ();
2498*404b540aSrobert emit_move_insn (subreg, dest_reg);
2499*404b540aSrobert move_insn = get_insns ();
2500*404b540aSrobert end_sequence ();
2501*404b540aSrobert
2502*404b540aSrobert /* Link the manipulated instruction to the newly created move instruction
2503*404b540aSrobert and to the former created move instructions. */
2504*404b540aSrobert PREV_INSN (ref_copy) = NULL_RTX;
2505*404b540aSrobert NEXT_INSN (ref_copy) = move_insn;
2506*404b540aSrobert PREV_INSN (move_insn) = ref_copy;
2507*404b540aSrobert NEXT_INSN (move_insn) = merged_ref_next;
2508*404b540aSrobert if (merged_ref_next != NULL_RTX)
2509*404b540aSrobert PREV_INSN (merged_ref_next) = move_insn;
2510*404b540aSrobert curr_ref_s->merged_insn = ref_copy;
2511*404b540aSrobert
2512*404b540aSrobert if (dump_file)
2513*404b540aSrobert {
2514*404b540aSrobert fprintf (dump_file, "Following def merge failure a move ");
2515*404b540aSrobert fprintf (dump_file, "insn was added after the ref.\n");
2516*404b540aSrobert fprintf (dump_file, "Original ref:\n");
2517*404b540aSrobert print_rtl_single (dump_file, ref);
2518*404b540aSrobert fprintf (dump_file, "Move insn that was added:\n");
2519*404b540aSrobert print_rtl_single (dump_file, move_insn);
2520*404b540aSrobert }
2521*404b540aSrobert return;
2522*404b540aSrobert }
2523*404b540aSrobert
2524*404b540aSrobert /* The manipulation succeeded. Store the new manipulated reference. */
2525*404b540aSrobert
2526*404b540aSrobert /* Try to simplify the new manipulated insn. */
2527*404b540aSrobert validate_simplify_insn (ref_copy);
2528*404b540aSrobert
2529*404b540aSrobert /* Create a simple move instruction to assure the correctness of the code. */
2530*404b540aSrobert start_sequence ();
2531*404b540aSrobert emit_move_insn (dest_reg, subreg);
2532*404b540aSrobert move_insn = get_insns ();
2533*404b540aSrobert end_sequence ();
2534*404b540aSrobert
2535*404b540aSrobert /* Link the manipulated instruction to the newly created move instruction and
2536*404b540aSrobert to the former created move instructions. */
2537*404b540aSrobert PREV_INSN (ref_copy) = NULL_RTX;
2538*404b540aSrobert NEXT_INSN (ref_copy) = move_insn;
2539*404b540aSrobert PREV_INSN (move_insn) = ref_copy;
2540*404b540aSrobert NEXT_INSN (move_insn) = merged_ref_next;
2541*404b540aSrobert if (merged_ref_next != NULL_RTX)
2542*404b540aSrobert PREV_INSN (merged_ref_next) = move_insn;
2543*404b540aSrobert curr_ref_s->merged_insn = ref_copy;
2544*404b540aSrobert
2545*404b540aSrobert if (dump_file)
2546*404b540aSrobert {
2547*404b540aSrobert fprintf (dump_file, "Following merge failure the ref was transformed!\n");
2548*404b540aSrobert fprintf (dump_file, "Original ref:\n");
2549*404b540aSrobert print_rtl_single (dump_file, ref);
2550*404b540aSrobert fprintf (dump_file, "Transformed ref:\n");
2551*404b540aSrobert print_rtl_single (dump_file, ref_copy);
2552*404b540aSrobert fprintf (dump_file, "Move insn that was added:\n");
2553*404b540aSrobert print_rtl_single (dump_file, move_insn);
2554*404b540aSrobert }
2555*404b540aSrobert }
2556*404b540aSrobert
2557*404b540aSrobert
2558*404b540aSrobert /* Merge the reference instruction (ref) with the current use extension.
2559*404b540aSrobert
2560*404b540aSrobert use_se extends a NARROWmode register to a WIDEmode register.
2561*404b540aSrobert ref uses the WIDEmode register.
2562*404b540aSrobert
2563*404b540aSrobert The pattern we try to merge is this:
2564*404b540aSrobert use_se: set (dest_extension_reg) (sign/zero_extend (source_extension_reg))
2565*404b540aSrobert ref: use (dest_extension_reg)
2566*404b540aSrobert
2567*404b540aSrobert where dest_extension_reg and source_extension_reg can be subregs.
2568*404b540aSrobert
2569*404b540aSrobert The merge is done by generating, simplifying and recognizing the pattern:
2570*404b540aSrobert use (sign/zero_extend (source_extension_reg))
2571*404b540aSrobert
2572*404b540aSrobert If ref is too simple (according to see_want_to_be_merged_with_extension ())
2573*404b540aSrobert we don't try to merge it with use_se and we continue as if the merge failed.
2574*404b540aSrobert
2575*404b540aSrobert This is a subroutine of see_handle_extensions_for_one_ref called
2576*404b540aSrobert via htab_traverse.
2577*404b540aSrobert SLOT contains the current use extension instruction.
2578*404b540aSrobert B is the see_ref_s structure pointer. */
2579*404b540aSrobert
2580*404b540aSrobert static int
see_merge_one_use_extension(void ** slot,void * b)2581*404b540aSrobert see_merge_one_use_extension (void **slot, void *b)
2582*404b540aSrobert {
2583*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
2584*404b540aSrobert rtx use_se = *slot;
2585*404b540aSrobert rtx ref = (curr_ref_s->merged_insn) ? curr_ref_s->merged_insn :
2586*404b540aSrobert curr_ref_s->insn;
2587*404b540aSrobert rtx merged_ref_next = (curr_ref_s->merged_insn) ?
2588*404b540aSrobert NEXT_INSN (curr_ref_s->merged_insn): NULL_RTX;
2589*404b540aSrobert rtx ref_copy = copy_rtx (ref);
2590*404b540aSrobert rtx extension_set = single_set (use_se);
2591*404b540aSrobert rtx extension_rhs = NULL;
2592*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (use_se, 1);
2593*404b540aSrobert rtx note = NULL;
2594*404b540aSrobert rtx simplified_note = NULL;
2595*404b540aSrobert
2596*404b540aSrobert gcc_assert (use_se && curr_ref_s && extension_set);
2597*404b540aSrobert
2598*404b540aSrobert extension_rhs = SET_SRC (extension_set);
2599*404b540aSrobert
2600*404b540aSrobert /* In REG_EQUIV and REG_EQUAL notes that mention the register we need to
2601*404b540aSrobert replace the uses of the dest_extension_reg with the rhs of the extension
2602*404b540aSrobert instruction. This is necessary since there might not be an extension in
2603*404b540aSrobert the path between the definition and the note when this optimization is
2604*404b540aSrobert over. */
2605*404b540aSrobert note = find_reg_equal_equiv_note (ref_copy);
2606*404b540aSrobert if (note)
2607*404b540aSrobert {
2608*404b540aSrobert simplified_note = simplify_replace_rtx (XEXP (note, 0),
2609*404b540aSrobert dest_extension_reg,
2610*404b540aSrobert extension_rhs);
2611*404b540aSrobert if (rtx_equal_p (XEXP (note, 0), simplified_note))
2612*404b540aSrobert /* Replacement failed. Remove the note. */
2613*404b540aSrobert remove_note (ref_copy, note);
2614*404b540aSrobert else
2615*404b540aSrobert XEXP (note, 0) = simplified_note;
2616*404b540aSrobert }
2617*404b540aSrobert
2618*404b540aSrobert if (!see_want_to_be_merged_with_extension (ref, use_se, USE_EXTENSION))
2619*404b540aSrobert {
2620*404b540aSrobert /* The use in the reference is too simple. Don't try to merge. */
2621*404b540aSrobert if (dump_file)
2622*404b540aSrobert {
2623*404b540aSrobert fprintf (dump_file, "Use merge skipped!\n");
2624*404b540aSrobert fprintf (dump_file, "Original instructions:\n");
2625*404b540aSrobert print_rtl_single (dump_file, use_se);
2626*404b540aSrobert print_rtl_single (dump_file, ref);
2627*404b540aSrobert }
2628*404b540aSrobert /* Don't remove the current use_se from the use_se_hash and continue to
2629*404b540aSrobert the next extension. */
2630*404b540aSrobert return 1;
2631*404b540aSrobert }
2632*404b540aSrobert
2633*404b540aSrobert validate_replace_src_group (dest_extension_reg, extension_rhs, ref_copy);
2634*404b540aSrobert
2635*404b540aSrobert if (!num_changes_pending ())
2636*404b540aSrobert /* In this case this is not a real use (the only use is/was in the notes
2637*404b540aSrobert list). Remove the use extension from the hash. This will prevent it
2638*404b540aSrobert from been emitted in the first place. */
2639*404b540aSrobert {
2640*404b540aSrobert if (dump_file)
2641*404b540aSrobert {
2642*404b540aSrobert fprintf (dump_file, "Use extension not necessary before:\n");
2643*404b540aSrobert print_rtl_single (dump_file, ref);
2644*404b540aSrobert }
2645*404b540aSrobert htab_clear_slot (curr_ref_s->use_se_hash, (PTR *)slot);
2646*404b540aSrobert PREV_INSN (ref_copy) = NULL_RTX;
2647*404b540aSrobert NEXT_INSN (ref_copy) = merged_ref_next;
2648*404b540aSrobert if (merged_ref_next != NULL_RTX)
2649*404b540aSrobert PREV_INSN (merged_ref_next) = ref_copy;
2650*404b540aSrobert curr_ref_s->merged_insn = ref_copy;
2651*404b540aSrobert return 1;
2652*404b540aSrobert }
2653*404b540aSrobert
2654*404b540aSrobert if (!apply_change_group ())
2655*404b540aSrobert {
2656*404b540aSrobert /* The merge failed. */
2657*404b540aSrobert if (dump_file)
2658*404b540aSrobert {
2659*404b540aSrobert fprintf (dump_file, "Use merge failed!\n");
2660*404b540aSrobert fprintf (dump_file, "Original instructions:\n");
2661*404b540aSrobert print_rtl_single (dump_file, use_se);
2662*404b540aSrobert print_rtl_single (dump_file, ref);
2663*404b540aSrobert }
2664*404b540aSrobert /* Don't remove the current use_se from the use_se_hash and continue to
2665*404b540aSrobert the next extension. */
2666*404b540aSrobert return 1;
2667*404b540aSrobert }
2668*404b540aSrobert
2669*404b540aSrobert /* The merge succeeded! */
2670*404b540aSrobert
2671*404b540aSrobert /* Try to simplify the new merged insn. */
2672*404b540aSrobert validate_simplify_insn (ref_copy);
2673*404b540aSrobert
2674*404b540aSrobert PREV_INSN (ref_copy) = NULL_RTX;
2675*404b540aSrobert NEXT_INSN (ref_copy) = merged_ref_next;
2676*404b540aSrobert if (merged_ref_next != NULL_RTX)
2677*404b540aSrobert PREV_INSN (merged_ref_next) = ref_copy;
2678*404b540aSrobert curr_ref_s->merged_insn = ref_copy;
2679*404b540aSrobert
2680*404b540aSrobert if (dump_file)
2681*404b540aSrobert {
2682*404b540aSrobert fprintf (dump_file, "Use merge succeeded!\n");
2683*404b540aSrobert fprintf (dump_file, "Original instructions:\n");
2684*404b540aSrobert print_rtl_single (dump_file, use_se);
2685*404b540aSrobert print_rtl_single (dump_file, ref);
2686*404b540aSrobert fprintf (dump_file, "Merged instruction:\n");
2687*404b540aSrobert print_rtl_single (dump_file, ref_copy);
2688*404b540aSrobert }
2689*404b540aSrobert
2690*404b540aSrobert /* Remove the current use_se from the use_se_hash. This will prevent it from
2691*404b540aSrobert been emitted in the first place. */
2692*404b540aSrobert htab_clear_slot (curr_ref_s->use_se_hash, (PTR *)slot);
2693*404b540aSrobert return 1;
2694*404b540aSrobert }
2695*404b540aSrobert
2696*404b540aSrobert
2697*404b540aSrobert /* Merge the reference instruction (ref) with the extension that follows it
2698*404b540aSrobert in the same basic block (def_se).
2699*404b540aSrobert ref sets a NARROWmode register and def_se extends it to WIDEmode register.
2700*404b540aSrobert
2701*404b540aSrobert The pattern we try to merge is this:
2702*404b540aSrobert ref: set (dest_reg) (rhs)
2703*404b540aSrobert def_se: set (dest_extension_reg) (sign/zero_extend (source_extension_reg))
2704*404b540aSrobert
2705*404b540aSrobert where dest_reg and source_extension_reg can both be subregs (together)
2706*404b540aSrobert and (REGNO (dest_reg) == REGNO (source_extension_reg))
2707*404b540aSrobert
2708*404b540aSrobert The merge is done by generating, simplifying and recognizing the pattern:
2709*404b540aSrobert set (dest_extension_reg) (sign/zero_extend (rhs))
2710*404b540aSrobert If ref is a parallel instruction we just replace the relevant set in it.
2711*404b540aSrobert
2712*404b540aSrobert If ref is too simple (according to see_want_to_be_merged_with_extension ())
2713*404b540aSrobert we don't try to merge it with def_se and we continue as if the merge failed.
2714*404b540aSrobert
2715*404b540aSrobert This is a subroutine of see_handle_extensions_for_one_ref called
2716*404b540aSrobert via htab_traverse.
2717*404b540aSrobert
2718*404b540aSrobert SLOT contains the current def extension instruction.
2719*404b540aSrobert B is the see_ref_s structure pointer. */
2720*404b540aSrobert
2721*404b540aSrobert static int
see_merge_one_def_extension(void ** slot,void * b)2722*404b540aSrobert see_merge_one_def_extension (void **slot, void *b)
2723*404b540aSrobert {
2724*404b540aSrobert struct see_ref_s *curr_ref_s = (struct see_ref_s *) b;
2725*404b540aSrobert rtx def_se = *slot;
2726*404b540aSrobert /* If the original insn was already merged with an extension before,
2727*404b540aSrobert take the merged one. */
2728*404b540aSrobert rtx ref = (curr_ref_s->merged_insn) ? curr_ref_s->merged_insn :
2729*404b540aSrobert curr_ref_s->insn;
2730*404b540aSrobert rtx merged_ref_next = (curr_ref_s->merged_insn) ?
2731*404b540aSrobert NEXT_INSN (curr_ref_s->merged_insn): NULL_RTX;
2732*404b540aSrobert rtx ref_copy = copy_rtx (ref);
2733*404b540aSrobert rtx new_set = NULL;
2734*404b540aSrobert rtx source_extension_reg = see_get_extension_reg (def_se, 0);
2735*404b540aSrobert rtx dest_extension_reg = see_get_extension_reg (def_se, 1);
2736*404b540aSrobert rtx move_insn, *rtx_slot, subreg;
2737*404b540aSrobert rtx temp_extension = NULL;
2738*404b540aSrobert rtx simplified_temp_extension = NULL;
2739*404b540aSrobert rtx *pat;
2740*404b540aSrobert enum rtx_code code;
2741*404b540aSrobert enum rtx_code extension_code;
2742*404b540aSrobert enum machine_mode source_extension_mode;
2743*404b540aSrobert enum machine_mode source_mode;
2744*404b540aSrobert enum machine_mode dest_extension_mode;
2745*404b540aSrobert bool merge_success = false;
2746*404b540aSrobert int i;
2747*404b540aSrobert
2748*404b540aSrobert gcc_assert (def_se
2749*404b540aSrobert && INSN_P (def_se)
2750*404b540aSrobert && curr_ref_s
2751*404b540aSrobert && ref
2752*404b540aSrobert && INSN_P (ref));
2753*404b540aSrobert
2754*404b540aSrobert if (!see_want_to_be_merged_with_extension (ref, def_se, DEF_EXTENSION))
2755*404b540aSrobert {
2756*404b540aSrobert /* The definition in the reference is too simple. Don't try to merge. */
2757*404b540aSrobert if (dump_file)
2758*404b540aSrobert {
2759*404b540aSrobert fprintf (dump_file, "Def merge skipped!\n");
2760*404b540aSrobert fprintf (dump_file, "Original instructions:\n");
2761*404b540aSrobert print_rtl_single (dump_file, ref);
2762*404b540aSrobert print_rtl_single (dump_file, def_se);
2763*404b540aSrobert }
2764*404b540aSrobert
2765*404b540aSrobert see_def_extension_not_merged (curr_ref_s, def_se);
2766*404b540aSrobert /* Continue to the next extension. */
2767*404b540aSrobert return 1;
2768*404b540aSrobert }
2769*404b540aSrobert
2770*404b540aSrobert extension_code = see_get_extension_data (def_se, &source_mode);
2771*404b540aSrobert
2772*404b540aSrobert /* Try to merge and simplify the extension. */
2773*404b540aSrobert source_extension_mode = GET_MODE (source_extension_reg);
2774*404b540aSrobert dest_extension_mode = GET_MODE (dest_extension_reg);
2775*404b540aSrobert
2776*404b540aSrobert pat = &PATTERN (ref_copy);
2777*404b540aSrobert code = GET_CODE (*pat);
2778*404b540aSrobert
2779*404b540aSrobert if (code == PARALLEL)
2780*404b540aSrobert {
2781*404b540aSrobert bool need_to_apply_change = false;
2782*404b540aSrobert
2783*404b540aSrobert for (i = 0; i < XVECLEN (*pat, 0); i++)
2784*404b540aSrobert {
2785*404b540aSrobert rtx *sub = &XVECEXP (*pat, 0, i);
2786*404b540aSrobert
2787*404b540aSrobert if (GET_CODE (*sub) == SET
2788*404b540aSrobert && GET_MODE (SET_SRC (*sub)) != VOIDmode
2789*404b540aSrobert && GET_MODE (SET_DEST (*sub)) == source_mode
2790*404b540aSrobert && ((REG_P (SET_DEST (*sub))
2791*404b540aSrobert && REGNO (SET_DEST (*sub)) == REGNO (source_extension_reg))
2792*404b540aSrobert || (GET_CODE (SET_DEST (*sub)) == SUBREG
2793*404b540aSrobert && REG_P (SUBREG_REG (SET_DEST (*sub)))
2794*404b540aSrobert && (REGNO (SUBREG_REG (SET_DEST (*sub))) ==
2795*404b540aSrobert REGNO (source_extension_reg)))))
2796*404b540aSrobert {
2797*404b540aSrobert rtx orig_src = SET_SRC (*sub);
2798*404b540aSrobert
2799*404b540aSrobert if (extension_code == SIGN_EXTEND)
2800*404b540aSrobert temp_extension = gen_rtx_SIGN_EXTEND (dest_extension_mode,
2801*404b540aSrobert orig_src);
2802*404b540aSrobert else
2803*404b540aSrobert temp_extension = gen_rtx_ZERO_EXTEND (dest_extension_mode,
2804*404b540aSrobert orig_src);
2805*404b540aSrobert simplified_temp_extension = simplify_rtx (temp_extension);
2806*404b540aSrobert temp_extension =
2807*404b540aSrobert (simplified_temp_extension) ? simplified_temp_extension :
2808*404b540aSrobert temp_extension;
2809*404b540aSrobert new_set = gen_rtx_SET (VOIDmode, dest_extension_reg,
2810*404b540aSrobert temp_extension);
2811*404b540aSrobert validate_change (ref_copy, sub, new_set, 1);
2812*404b540aSrobert need_to_apply_change = true;
2813*404b540aSrobert }
2814*404b540aSrobert }
2815*404b540aSrobert if (need_to_apply_change)
2816*404b540aSrobert if (apply_change_group ())
2817*404b540aSrobert merge_success = true;
2818*404b540aSrobert }
2819*404b540aSrobert else if (code == SET
2820*404b540aSrobert && GET_MODE (SET_SRC (*pat)) != VOIDmode
2821*404b540aSrobert && GET_MODE (SET_DEST (*pat)) == source_mode
2822*404b540aSrobert && ((REG_P (SET_DEST (*pat))
2823*404b540aSrobert && REGNO (SET_DEST (*pat)) == REGNO (source_extension_reg))
2824*404b540aSrobert || (GET_CODE (SET_DEST (*pat)) == SUBREG
2825*404b540aSrobert && REG_P (SUBREG_REG (SET_DEST (*pat)))
2826*404b540aSrobert && (REGNO (SUBREG_REG (SET_DEST (*pat))) ==
2827*404b540aSrobert REGNO (source_extension_reg)))))
2828*404b540aSrobert {
2829*404b540aSrobert rtx orig_src = SET_SRC (*pat);
2830*404b540aSrobert
2831*404b540aSrobert if (extension_code == SIGN_EXTEND)
2832*404b540aSrobert temp_extension = gen_rtx_SIGN_EXTEND (dest_extension_mode, orig_src);
2833*404b540aSrobert else
2834*404b540aSrobert temp_extension = gen_rtx_ZERO_EXTEND (dest_extension_mode, orig_src);
2835*404b540aSrobert simplified_temp_extension = simplify_rtx (temp_extension);
2836*404b540aSrobert temp_extension = (simplified_temp_extension) ? simplified_temp_extension :
2837*404b540aSrobert temp_extension;
2838*404b540aSrobert new_set = gen_rtx_SET (VOIDmode, dest_extension_reg, temp_extension);
2839*404b540aSrobert if (validate_change (ref_copy, pat, new_set, 0))
2840*404b540aSrobert merge_success = true;
2841*404b540aSrobert }
2842*404b540aSrobert if (!merge_success)
2843*404b540aSrobert {
2844*404b540aSrobert /* The merge failed. */
2845*404b540aSrobert if (dump_file)
2846*404b540aSrobert {
2847*404b540aSrobert fprintf (dump_file, "Def merge failed!\n");
2848*404b540aSrobert fprintf (dump_file, "Original instructions:\n");
2849*404b540aSrobert print_rtl_single (dump_file, ref);
2850*404b540aSrobert print_rtl_single (dump_file, def_se);
2851*404b540aSrobert }
2852*404b540aSrobert
2853*404b540aSrobert see_def_extension_not_merged (curr_ref_s, def_se);
2854*404b540aSrobert /* Continue to the next extension. */
2855*404b540aSrobert return 1;
2856*404b540aSrobert }
2857*404b540aSrobert
2858*404b540aSrobert /* The merge succeeded! */
2859*404b540aSrobert
2860*404b540aSrobert /* Create a simple move instruction to assure the correctness of the code. */
2861*404b540aSrobert subreg = gen_lowpart_SUBREG (source_extension_mode, dest_extension_reg);
2862*404b540aSrobert start_sequence ();
2863*404b540aSrobert emit_move_insn (source_extension_reg, subreg);
2864*404b540aSrobert move_insn = get_insns ();
2865*404b540aSrobert end_sequence ();
2866*404b540aSrobert
2867*404b540aSrobert /* Link the merged instruction to the newly created move instruction and
2868*404b540aSrobert to the former created move instructions. */
2869*404b540aSrobert PREV_INSN (ref_copy) = NULL_RTX;
2870*404b540aSrobert NEXT_INSN (ref_copy) = move_insn;
2871*404b540aSrobert PREV_INSN (move_insn) = ref_copy;
2872*404b540aSrobert NEXT_INSN (move_insn) = merged_ref_next;
2873*404b540aSrobert if (merged_ref_next != NULL_RTX)
2874*404b540aSrobert PREV_INSN (merged_ref_next) = move_insn;
2875*404b540aSrobert curr_ref_s->merged_insn = ref_copy;
2876*404b540aSrobert
2877*404b540aSrobert if (dump_file)
2878*404b540aSrobert {
2879*404b540aSrobert fprintf (dump_file, "Def merge succeeded!\n");
2880*404b540aSrobert fprintf (dump_file, "Original instructions:\n");
2881*404b540aSrobert print_rtl_single (dump_file, ref);
2882*404b540aSrobert print_rtl_single (dump_file, def_se);
2883*404b540aSrobert fprintf (dump_file, "Merged instruction:\n");
2884*404b540aSrobert print_rtl_single (dump_file, ref_copy);
2885*404b540aSrobert fprintf (dump_file, "Move instruction that was added:\n");
2886*404b540aSrobert print_rtl_single (dump_file, move_insn);
2887*404b540aSrobert }
2888*404b540aSrobert
2889*404b540aSrobert /* Remove the current def_se from the unmerged_def_se_hash and insert it to
2890*404b540aSrobert the merged_def_se_hash. */
2891*404b540aSrobert htab_clear_slot (curr_ref_s->unmerged_def_se_hash, (PTR *)slot);
2892*404b540aSrobert if (!curr_ref_s->merged_def_se_hash)
2893*404b540aSrobert curr_ref_s->merged_def_se_hash = htab_create (10,
2894*404b540aSrobert hash_descriptor_extension,
2895*404b540aSrobert eq_descriptor_extension,
2896*404b540aSrobert NULL);
2897*404b540aSrobert rtx_slot = (rtx *) htab_find_slot (curr_ref_s->merged_def_se_hash,
2898*404b540aSrobert dest_extension_reg, INSERT);
2899*404b540aSrobert gcc_assert (*rtx_slot == NULL);
2900*404b540aSrobert *rtx_slot = def_se;
2901*404b540aSrobert
2902*404b540aSrobert return 1;
2903*404b540aSrobert }
2904*404b540aSrobert
2905*404b540aSrobert
2906*404b540aSrobert /* Try to eliminate extensions in this order:
2907*404b540aSrobert a. Try to merge only the def extensions, one by one.
2908*404b540aSrobert b. Try to merge only the use extensions, one by one.
2909*404b540aSrobert
2910*404b540aSrobert TODO:
2911*404b540aSrobert Try to merge any couple of use extensions simultaneously.
2912*404b540aSrobert Try to merge any def extension with one or two uses extensions
2913*404b540aSrobert simultaneously.
2914*404b540aSrobert
2915*404b540aSrobert After all the merges are done, update the register properties for the basic
2916*404b540aSrobert block and eliminate locally redundant use extensions.
2917*404b540aSrobert
2918*404b540aSrobert This is a subroutine of see_merge_and_eliminate_extensions called
2919*404b540aSrobert via splay_tree_foreach.
2920*404b540aSrobert STN is the current node in the see_bb_splay_ar[i] splay tree. It holds a
2921*404b540aSrobert see_ref_s structure. */
2922*404b540aSrobert
2923*404b540aSrobert static int
see_handle_extensions_for_one_ref(splay_tree_node stn,void * data ATTRIBUTE_UNUSED)2924*404b540aSrobert see_handle_extensions_for_one_ref (splay_tree_node stn,
2925*404b540aSrobert void *data ATTRIBUTE_UNUSED)
2926*404b540aSrobert {
2927*404b540aSrobert htab_t use_se_hash = ((struct see_ref_s *) (stn->value))->use_se_hash;
2928*404b540aSrobert htab_t unmerged_def_se_hash =
2929*404b540aSrobert ((struct see_ref_s *) (stn->value))->unmerged_def_se_hash;
2930*404b540aSrobert htab_t merged_def_se_hash;
2931*404b540aSrobert rtx ref = ((struct see_ref_s *) (stn->value))->insn;
2932*404b540aSrobert
2933*404b540aSrobert if (dump_file)
2934*404b540aSrobert {
2935*404b540aSrobert fprintf (dump_file, "Handling ref:\n");
2936*404b540aSrobert print_rtl_single (dump_file, ref);
2937*404b540aSrobert }
2938*404b540aSrobert
2939*404b540aSrobert /* a. Try to eliminate only def extensions, one by one. */
2940*404b540aSrobert if (unmerged_def_se_hash)
2941*404b540aSrobert htab_traverse_noresize (unmerged_def_se_hash, see_merge_one_def_extension,
2942*404b540aSrobert (PTR) (stn->value));
2943*404b540aSrobert
2944*404b540aSrobert if (use_se_hash)
2945*404b540aSrobert /* b. Try to eliminate only use extensions, one by one. */
2946*404b540aSrobert htab_traverse_noresize (use_se_hash, see_merge_one_use_extension,
2947*404b540aSrobert (PTR) (stn->value));
2948*404b540aSrobert
2949*404b540aSrobert merged_def_se_hash = ((struct see_ref_s *) (stn->value))->merged_def_se_hash;
2950*404b540aSrobert
2951*404b540aSrobert if (dump_file)
2952*404b540aSrobert {
2953*404b540aSrobert fprintf (dump_file, "The hashes of the current reference:\n");
2954*404b540aSrobert if (unmerged_def_se_hash)
2955*404b540aSrobert {
2956*404b540aSrobert fprintf (dump_file, "unmerged_def_se_hash:\n");
2957*404b540aSrobert htab_traverse (unmerged_def_se_hash, see_print_one_extension, NULL);
2958*404b540aSrobert }
2959*404b540aSrobert if (merged_def_se_hash)
2960*404b540aSrobert {
2961*404b540aSrobert fprintf (dump_file, "merged_def_se_hash:\n");
2962*404b540aSrobert htab_traverse (merged_def_se_hash, see_print_one_extension, NULL);
2963*404b540aSrobert }
2964*404b540aSrobert if (use_se_hash)
2965*404b540aSrobert {
2966*404b540aSrobert fprintf (dump_file, "use_se_hash:\n");
2967*404b540aSrobert htab_traverse (use_se_hash, see_print_one_extension, NULL);
2968*404b540aSrobert }
2969*404b540aSrobert }
2970*404b540aSrobert
2971*404b540aSrobert /* Now that all the merges are done, update the register properties of the
2972*404b540aSrobert basic block and eliminate locally redundant extensions.
2973*404b540aSrobert It is important that we first traverse the use extensions hash and
2974*404b540aSrobert afterwards the def extensions hashes. */
2975*404b540aSrobert
2976*404b540aSrobert if (use_se_hash)
2977*404b540aSrobert htab_traverse_noresize (use_se_hash, see_set_prop_unmerged_use,
2978*404b540aSrobert (PTR) (stn->value));
2979*404b540aSrobert
2980*404b540aSrobert if (unmerged_def_se_hash)
2981*404b540aSrobert htab_traverse (unmerged_def_se_hash, see_set_prop_unmerged_def,
2982*404b540aSrobert (PTR) (stn->value));
2983*404b540aSrobert
2984*404b540aSrobert if (merged_def_se_hash)
2985*404b540aSrobert htab_traverse (merged_def_se_hash, see_set_prop_merged_def,
2986*404b540aSrobert (PTR) (stn->value));
2987*404b540aSrobert
2988*404b540aSrobert /* Continue to the next definition. */
2989*404b540aSrobert return 0;
2990*404b540aSrobert }
2991*404b540aSrobert
2992*404b540aSrobert
2993*404b540aSrobert /* Phase 2 top level function.
2994*404b540aSrobert In this phase, we try to merge def extensions and use extensions with their
2995*404b540aSrobert references, and eliminate redundant extensions in the same basic block.
2996*404b540aSrobert We also gather information for the next phases. */
2997*404b540aSrobert
2998*404b540aSrobert static void
see_merge_and_eliminate_extensions(void)2999*404b540aSrobert see_merge_and_eliminate_extensions (void)
3000*404b540aSrobert {
3001*404b540aSrobert int i = 0;
3002*404b540aSrobert
3003*404b540aSrobert if (dump_file)
3004*404b540aSrobert fprintf (dump_file,
3005*404b540aSrobert "* Phase 2: Merge and eliminate locally redundant extensions. *\n");
3006*404b540aSrobert
3007*404b540aSrobert /* Traverse over all the splay trees of the basic blocks. */
3008*404b540aSrobert for (i = 0; i < last_bb; i++)
3009*404b540aSrobert {
3010*404b540aSrobert if (see_bb_splay_ar[i])
3011*404b540aSrobert {
3012*404b540aSrobert if (dump_file)
3013*404b540aSrobert fprintf (dump_file, "Handling references for bb %d\n", i);
3014*404b540aSrobert /* Traverse over all the references in the basic block in forward
3015*404b540aSrobert order. */
3016*404b540aSrobert splay_tree_foreach (see_bb_splay_ar[i],
3017*404b540aSrobert see_handle_extensions_for_one_ref, NULL);
3018*404b540aSrobert }
3019*404b540aSrobert }
3020*404b540aSrobert }
3021*404b540aSrobert
3022*404b540aSrobert
3023*404b540aSrobert /* Phase 1 implementation: Propagate extensions to uses. */
3024*404b540aSrobert
3025*404b540aSrobert /* Insert REF_INSN into the splay tree of its basic block.
3026*404b540aSrobert SE_INSN is the extension to store in the proper hash according to TYPE.
3027*404b540aSrobert
3028*404b540aSrobert Return true if everything went well.
3029*404b540aSrobert Otherwise, return false (this will cause the optimization to be aborted). */
3030*404b540aSrobert
3031*404b540aSrobert static bool
see_store_reference_and_extension(rtx ref_insn,rtx se_insn,enum extension_type type)3032*404b540aSrobert see_store_reference_and_extension (rtx ref_insn, rtx se_insn,
3033*404b540aSrobert enum extension_type type)
3034*404b540aSrobert {
3035*404b540aSrobert rtx *rtx_slot;
3036*404b540aSrobert int curr_bb_num;
3037*404b540aSrobert splay_tree_node stn = NULL;
3038*404b540aSrobert htab_t se_hash = NULL;
3039*404b540aSrobert struct see_ref_s *ref_s = NULL;
3040*404b540aSrobert
3041*404b540aSrobert /* Check the arguments. */
3042*404b540aSrobert gcc_assert (ref_insn && se_insn);
3043*404b540aSrobert if (!see_bb_splay_ar)
3044*404b540aSrobert return false;
3045*404b540aSrobert
3046*404b540aSrobert curr_bb_num = BLOCK_NUM (ref_insn);
3047*404b540aSrobert gcc_assert (curr_bb_num < last_bb && curr_bb_num >= 0);
3048*404b540aSrobert
3049*404b540aSrobert /* Insert the reference to the splay tree of its basic block. */
3050*404b540aSrobert if (!see_bb_splay_ar[curr_bb_num])
3051*404b540aSrobert /* The splay tree for this block doesn't exist yet, create it. */
3052*404b540aSrobert see_bb_splay_ar[curr_bb_num] = splay_tree_new (splay_tree_compare_ints,
3053*404b540aSrobert NULL, see_free_ref_s);
3054*404b540aSrobert else
3055*404b540aSrobert /* Splay tree already exists, check if the current reference is already
3056*404b540aSrobert in it. */
3057*404b540aSrobert {
3058*404b540aSrobert stn = splay_tree_lookup (see_bb_splay_ar[curr_bb_num],
3059*404b540aSrobert DF_INSN_LUID (df, ref_insn));
3060*404b540aSrobert if (stn)
3061*404b540aSrobert switch (type)
3062*404b540aSrobert {
3063*404b540aSrobert case EXPLICIT_DEF_EXTENSION:
3064*404b540aSrobert se_hash =
3065*404b540aSrobert ((struct see_ref_s *) (stn->value))->unmerged_def_se_hash;
3066*404b540aSrobert if (!se_hash)
3067*404b540aSrobert {
3068*404b540aSrobert se_hash = htab_create (10,
3069*404b540aSrobert hash_descriptor_extension,
3070*404b540aSrobert eq_descriptor_extension,
3071*404b540aSrobert NULL);
3072*404b540aSrobert ((struct see_ref_s *) (stn->value))->unmerged_def_se_hash =
3073*404b540aSrobert se_hash;
3074*404b540aSrobert }
3075*404b540aSrobert break;
3076*404b540aSrobert case IMPLICIT_DEF_EXTENSION:
3077*404b540aSrobert se_hash = ((struct see_ref_s *) (stn->value))->merged_def_se_hash;
3078*404b540aSrobert if (!se_hash)
3079*404b540aSrobert {
3080*404b540aSrobert se_hash = htab_create (10,
3081*404b540aSrobert hash_descriptor_extension,
3082*404b540aSrobert eq_descriptor_extension,
3083*404b540aSrobert NULL);
3084*404b540aSrobert ((struct see_ref_s *) (stn->value))->merged_def_se_hash =
3085*404b540aSrobert se_hash;
3086*404b540aSrobert }
3087*404b540aSrobert break;
3088*404b540aSrobert case USE_EXTENSION:
3089*404b540aSrobert se_hash = ((struct see_ref_s *) (stn->value))->use_se_hash;
3090*404b540aSrobert if (!se_hash)
3091*404b540aSrobert {
3092*404b540aSrobert se_hash = htab_create (10,
3093*404b540aSrobert hash_descriptor_extension,
3094*404b540aSrobert eq_descriptor_extension,
3095*404b540aSrobert NULL);
3096*404b540aSrobert ((struct see_ref_s *) (stn->value))->use_se_hash = se_hash;
3097*404b540aSrobert }
3098*404b540aSrobert break;
3099*404b540aSrobert default:
3100*404b540aSrobert gcc_unreachable ();
3101*404b540aSrobert }
3102*404b540aSrobert }
3103*404b540aSrobert
3104*404b540aSrobert /* Initialize a new see_ref_s structure and insert it to the splay
3105*404b540aSrobert tree. */
3106*404b540aSrobert if (!stn)
3107*404b540aSrobert {
3108*404b540aSrobert ref_s = xmalloc (sizeof (struct see_ref_s));
3109*404b540aSrobert ref_s->luid = DF_INSN_LUID (df, ref_insn);
3110*404b540aSrobert ref_s->insn = ref_insn;
3111*404b540aSrobert ref_s->merged_insn = NULL;
3112*404b540aSrobert
3113*404b540aSrobert /* Initialize the hashes. */
3114*404b540aSrobert switch (type)
3115*404b540aSrobert {
3116*404b540aSrobert case EXPLICIT_DEF_EXTENSION:
3117*404b540aSrobert ref_s->unmerged_def_se_hash = htab_create (10,
3118*404b540aSrobert hash_descriptor_extension,
3119*404b540aSrobert eq_descriptor_extension,
3120*404b540aSrobert NULL);
3121*404b540aSrobert se_hash = ref_s->unmerged_def_se_hash;
3122*404b540aSrobert ref_s->merged_def_se_hash = NULL;
3123*404b540aSrobert ref_s->use_se_hash = NULL;
3124*404b540aSrobert break;
3125*404b540aSrobert case IMPLICIT_DEF_EXTENSION:
3126*404b540aSrobert ref_s->merged_def_se_hash = htab_create (10,
3127*404b540aSrobert hash_descriptor_extension,
3128*404b540aSrobert eq_descriptor_extension,
3129*404b540aSrobert NULL);
3130*404b540aSrobert se_hash = ref_s->merged_def_se_hash;
3131*404b540aSrobert ref_s->unmerged_def_se_hash = NULL;
3132*404b540aSrobert ref_s->use_se_hash = NULL;
3133*404b540aSrobert break;
3134*404b540aSrobert case USE_EXTENSION:
3135*404b540aSrobert ref_s->use_se_hash = htab_create (10,
3136*404b540aSrobert hash_descriptor_extension,
3137*404b540aSrobert eq_descriptor_extension,
3138*404b540aSrobert NULL);
3139*404b540aSrobert se_hash = ref_s->use_se_hash;
3140*404b540aSrobert ref_s->unmerged_def_se_hash = NULL;
3141*404b540aSrobert ref_s->merged_def_se_hash = NULL;
3142*404b540aSrobert break;
3143*404b540aSrobert default:
3144*404b540aSrobert gcc_unreachable ();
3145*404b540aSrobert }
3146*404b540aSrobert }
3147*404b540aSrobert
3148*404b540aSrobert /* Insert the new extension instruction into the correct se_hash of the
3149*404b540aSrobert current reference. */
3150*404b540aSrobert rtx_slot = (rtx *) htab_find_slot (se_hash, se_insn, INSERT);
3151*404b540aSrobert if (*rtx_slot != NULL)
3152*404b540aSrobert {
3153*404b540aSrobert gcc_assert (type == USE_EXTENSION);
3154*404b540aSrobert gcc_assert (rtx_equal_p (PATTERN (*rtx_slot), PATTERN (se_insn)));
3155*404b540aSrobert }
3156*404b540aSrobert else
3157*404b540aSrobert *rtx_slot = se_insn;
3158*404b540aSrobert
3159*404b540aSrobert /* If this is a new reference, insert it into the splay_tree. */
3160*404b540aSrobert if (!stn)
3161*404b540aSrobert splay_tree_insert (see_bb_splay_ar[curr_bb_num],
3162*404b540aSrobert DF_INSN_LUID (df, ref_insn), (splay_tree_value) ref_s);
3163*404b540aSrobert return true;
3164*404b540aSrobert }
3165*404b540aSrobert
3166*404b540aSrobert
3167*404b540aSrobert /* Go over all the defs, for each relevant definition (defined below) store its
3168*404b540aSrobert instruction as a reference.
3169*404b540aSrobert
3170*404b540aSrobert A definition is relevant if its root has
3171*404b540aSrobert ((entry_type == SIGN_EXTENDED_DEF) || (entry_type == ZERO_EXTENDED_DEF)) and
3172*404b540aSrobert his source_mode is not narrower then the the roots source_mode.
3173*404b540aSrobert
3174*404b540aSrobert Return the number of relevant defs or negative number if something bad had
3175*404b540aSrobert happened and the optimization should be aborted. */
3176*404b540aSrobert
3177*404b540aSrobert static int
see_handle_relevant_defs(void)3178*404b540aSrobert see_handle_relevant_defs (void)
3179*404b540aSrobert {
3180*404b540aSrobert rtx insn = NULL;
3181*404b540aSrobert rtx se_insn = NULL;
3182*404b540aSrobert rtx reg = NULL;
3183*404b540aSrobert rtx ref_insn = NULL;
3184*404b540aSrobert struct web_entry *root_entry = NULL;
3185*404b540aSrobert unsigned int i;
3186*404b540aSrobert int num_relevant_defs = 0;
3187*404b540aSrobert enum rtx_code extension_code;
3188*404b540aSrobert
3189*404b540aSrobert for (i = 0; i < defs_num; i++)
3190*404b540aSrobert {
3191*404b540aSrobert insn = DF_REF_INSN (DF_DEFS_GET (df, i));
3192*404b540aSrobert reg = DF_REF_REAL_REG (DF_DEFS_GET (df, i));
3193*404b540aSrobert
3194*404b540aSrobert if (!insn)
3195*404b540aSrobert continue;
3196*404b540aSrobert
3197*404b540aSrobert if (!INSN_P (insn))
3198*404b540aSrobert continue;
3199*404b540aSrobert
3200*404b540aSrobert root_entry = unionfind_root (&def_entry[i]);
3201*404b540aSrobert
3202*404b540aSrobert if (ENTRY_EI (root_entry)->relevancy != SIGN_EXTENDED_DEF
3203*404b540aSrobert && ENTRY_EI (root_entry)->relevancy != ZERO_EXTENDED_DEF)
3204*404b540aSrobert /* The current web is not relevant. Continue to the next def. */
3205*404b540aSrobert continue;
3206*404b540aSrobert
3207*404b540aSrobert if (root_entry->reg)
3208*404b540aSrobert /* It isn't possible to have two different register for the same
3209*404b540aSrobert web. */
3210*404b540aSrobert gcc_assert (rtx_equal_p (root_entry->reg, reg));
3211*404b540aSrobert else
3212*404b540aSrobert root_entry->reg = reg;
3213*404b540aSrobert
3214*404b540aSrobert /* The current definition is an EXTENDED_DEF or a definition that its
3215*404b540aSrobert source_mode is narrower then its web's source_mode.
3216*404b540aSrobert This means that we need to generate the implicit extension explicitly
3217*404b540aSrobert and store it in the current reference's merged_def_se_hash. */
3218*404b540aSrobert if (ENTRY_EI (&def_entry[i])->local_relevancy == EXTENDED_DEF
3219*404b540aSrobert || (ENTRY_EI (&def_entry[i])->local_source_mode <
3220*404b540aSrobert ENTRY_EI (root_entry)->source_mode))
3221*404b540aSrobert {
3222*404b540aSrobert num_relevant_defs++;
3223*404b540aSrobert
3224*404b540aSrobert if (ENTRY_EI (root_entry)->relevancy == SIGN_EXTENDED_DEF)
3225*404b540aSrobert extension_code = SIGN_EXTEND;
3226*404b540aSrobert else
3227*404b540aSrobert extension_code = ZERO_EXTEND;
3228*404b540aSrobert
3229*404b540aSrobert se_insn =
3230*404b540aSrobert see_gen_normalized_extension (reg, extension_code,
3231*404b540aSrobert ENTRY_EI (root_entry)->source_mode);
3232*404b540aSrobert
3233*404b540aSrobert /* This is a dummy extension, mark it as deleted. */
3234*404b540aSrobert INSN_DELETED_P (se_insn) = 1;
3235*404b540aSrobert
3236*404b540aSrobert if (!see_store_reference_and_extension (insn, se_insn,
3237*404b540aSrobert IMPLICIT_DEF_EXTENSION))
3238*404b540aSrobert /* Something bad happened. Abort the optimization. */
3239*404b540aSrobert return -1;
3240*404b540aSrobert continue;
3241*404b540aSrobert }
3242*404b540aSrobert
3243*404b540aSrobert ref_insn = PREV_INSN (insn);
3244*404b540aSrobert gcc_assert (BLOCK_NUM (ref_insn) == BLOCK_NUM (insn));
3245*404b540aSrobert
3246*404b540aSrobert num_relevant_defs++;
3247*404b540aSrobert
3248*404b540aSrobert if (!see_store_reference_and_extension (ref_insn, insn,
3249*404b540aSrobert EXPLICIT_DEF_EXTENSION))
3250*404b540aSrobert /* Something bad happened. Abort the optimization. */
3251*404b540aSrobert return -1;
3252*404b540aSrobert }
3253*404b540aSrobert return num_relevant_defs;
3254*404b540aSrobert }
3255*404b540aSrobert
3256*404b540aSrobert
3257*404b540aSrobert /* Go over all the uses, for each use in relevant web store its instruction as
3258*404b540aSrobert a reference and generate an extension before it.
3259*404b540aSrobert
3260*404b540aSrobert Return the number of relevant uses or negative number if something bad had
3261*404b540aSrobert happened and the optimization should be aborted. */
3262*404b540aSrobert
3263*404b540aSrobert static int
see_handle_relevant_uses(void)3264*404b540aSrobert see_handle_relevant_uses (void)
3265*404b540aSrobert {
3266*404b540aSrobert rtx insn = NULL;
3267*404b540aSrobert rtx reg = NULL;
3268*404b540aSrobert struct web_entry *root_entry = NULL;
3269*404b540aSrobert rtx se_insn = NULL;
3270*404b540aSrobert unsigned int i;
3271*404b540aSrobert int num_relevant_uses = 0;
3272*404b540aSrobert enum rtx_code extension_code;
3273*404b540aSrobert
3274*404b540aSrobert for (i = 0; i < uses_num; i++)
3275*404b540aSrobert {
3276*404b540aSrobert insn = DF_REF_INSN (DF_USES_GET (df, i));
3277*404b540aSrobert reg = DF_REF_REAL_REG (DF_USES_GET (df, i));
3278*404b540aSrobert
3279*404b540aSrobert if (!insn)
3280*404b540aSrobert continue;
3281*404b540aSrobert
3282*404b540aSrobert if (!INSN_P (insn))
3283*404b540aSrobert continue;
3284*404b540aSrobert
3285*404b540aSrobert root_entry = unionfind_root (&use_entry[i]);
3286*404b540aSrobert
3287*404b540aSrobert if (ENTRY_EI (root_entry)->relevancy != SIGN_EXTENDED_DEF
3288*404b540aSrobert && ENTRY_EI (root_entry)->relevancy != ZERO_EXTENDED_DEF)
3289*404b540aSrobert /* The current web is not relevant. Continue to the next use. */
3290*404b540aSrobert continue;
3291*404b540aSrobert
3292*404b540aSrobert if (root_entry->reg)
3293*404b540aSrobert /* It isn't possible to have two different register for the same
3294*404b540aSrobert web. */
3295*404b540aSrobert gcc_assert (rtx_equal_p (root_entry->reg, reg));
3296*404b540aSrobert else
3297*404b540aSrobert root_entry->reg = reg;
3298*404b540aSrobert
3299*404b540aSrobert /* Generate the use extension. */
3300*404b540aSrobert if (ENTRY_EI (root_entry)->relevancy == SIGN_EXTENDED_DEF)
3301*404b540aSrobert extension_code = SIGN_EXTEND;
3302*404b540aSrobert else
3303*404b540aSrobert extension_code = ZERO_EXTEND;
3304*404b540aSrobert
3305*404b540aSrobert se_insn =
3306*404b540aSrobert see_gen_normalized_extension (reg, extension_code,
3307*404b540aSrobert ENTRY_EI (root_entry)->source_mode);
3308*404b540aSrobert if (!se_insn)
3309*404b540aSrobert /* This is very bad, abort the transformation. */
3310*404b540aSrobert return -1;
3311*404b540aSrobert
3312*404b540aSrobert num_relevant_uses++;
3313*404b540aSrobert
3314*404b540aSrobert if (!see_store_reference_and_extension (insn, se_insn,
3315*404b540aSrobert USE_EXTENSION))
3316*404b540aSrobert /* Something bad happened. Abort the optimization. */
3317*404b540aSrobert return -1;
3318*404b540aSrobert }
3319*404b540aSrobert
3320*404b540aSrobert return num_relevant_uses;
3321*404b540aSrobert }
3322*404b540aSrobert
3323*404b540aSrobert
3324*404b540aSrobert /* Updates the relevancy of all the uses.
3325*404b540aSrobert The information of the i'th use is stored in use_entry[i].
3326*404b540aSrobert Currently all the uses are relevant for the optimization except for uses that
3327*404b540aSrobert are in LIBCALL or RETVAL instructions. */
3328*404b540aSrobert
3329*404b540aSrobert static void
see_update_uses_relevancy(void)3330*404b540aSrobert see_update_uses_relevancy (void)
3331*404b540aSrobert {
3332*404b540aSrobert rtx insn = NULL;
3333*404b540aSrobert rtx reg = NULL;
3334*404b540aSrobert struct see_entry_extra_info *curr_entry_extra_info;
3335*404b540aSrobert enum entry_type et;
3336*404b540aSrobert unsigned int i;
3337*404b540aSrobert
3338*404b540aSrobert if (!df || !use_entry)
3339*404b540aSrobert return;
3340*404b540aSrobert
3341*404b540aSrobert for (i = 0; i < uses_num; i++)
3342*404b540aSrobert {
3343*404b540aSrobert
3344*404b540aSrobert insn = DF_REF_INSN (DF_USES_GET (df, i));
3345*404b540aSrobert reg = DF_REF_REAL_REG (DF_USES_GET (df, i));
3346*404b540aSrobert
3347*404b540aSrobert et = RELEVANT_USE;
3348*404b540aSrobert
3349*404b540aSrobert if (insn)
3350*404b540aSrobert {
3351*404b540aSrobert if (!INSN_P (insn))
3352*404b540aSrobert et = NOT_RELEVANT;
3353*404b540aSrobert if (insn && find_reg_note (insn, REG_LIBCALL, NULL_RTX))
3354*404b540aSrobert et = NOT_RELEVANT;
3355*404b540aSrobert if (find_reg_note (insn, REG_RETVAL, NULL_RTX))
3356*404b540aSrobert et = NOT_RELEVANT;
3357*404b540aSrobert }
3358*404b540aSrobert else
3359*404b540aSrobert et = NOT_RELEVANT;
3360*404b540aSrobert
3361*404b540aSrobert if (dump_file)
3362*404b540aSrobert {
3363*404b540aSrobert fprintf (dump_file, "u%i insn %i reg %i ",
3364*404b540aSrobert i, (insn ? INSN_UID (insn) : -1), REGNO (reg));
3365*404b540aSrobert if (et == NOT_RELEVANT)
3366*404b540aSrobert fprintf (dump_file, "NOT RELEVANT \n");
3367*404b540aSrobert else
3368*404b540aSrobert fprintf (dump_file, "RELEVANT USE \n");
3369*404b540aSrobert }
3370*404b540aSrobert
3371*404b540aSrobert curr_entry_extra_info = xmalloc (sizeof (struct see_entry_extra_info));
3372*404b540aSrobert curr_entry_extra_info->relevancy = et;
3373*404b540aSrobert curr_entry_extra_info->local_relevancy = et;
3374*404b540aSrobert use_entry[i].extra_info = curr_entry_extra_info;
3375*404b540aSrobert use_entry[i].reg = NULL;
3376*404b540aSrobert use_entry[i].pred = NULL;
3377*404b540aSrobert }
3378*404b540aSrobert }
3379*404b540aSrobert
3380*404b540aSrobert
3381*404b540aSrobert /* A definition in a candidate for this optimization only if its pattern is
3382*404b540aSrobert recognized as relevant in this function.
3383*404b540aSrobert INSN is the instruction to be recognized.
3384*404b540aSrobert
3385*404b540aSrobert - If this is the pattern of a common sign extension after definition:
3386*404b540aSrobert PREV_INSN (INSN): def (reg:NARROWmode r)
3387*404b540aSrobert INSN: set ((reg:WIDEmode r')
3388*404b540aSrobert (sign_extend:WIDEmode (reg:NARROWmode r)))
3389*404b540aSrobert return SIGN_EXTENDED_DEF and set SOURCE_MODE to NARROWmode.
3390*404b540aSrobert
3391*404b540aSrobert - If this is the pattern of a common zero extension after definition:
3392*404b540aSrobert PREV_INSN (INSN): def (reg:NARROWmode r)
3393*404b540aSrobert INSN: set ((reg:WIDEmode r')
3394*404b540aSrobert (zero_extend:WIDEmode (reg:NARROWmode r)))
3395*404b540aSrobert return ZERO_EXTENDED_DEF and set SOURCE_MODE to NARROWmode.
3396*404b540aSrobert
3397*404b540aSrobert - Otherwise,
3398*404b540aSrobert
3399*404b540aSrobert For the pattern:
3400*404b540aSrobert INSN: set ((reg:WIDEmode r) (sign_extend:WIDEmode (...expr...)))
3401*404b540aSrobert return EXTENDED_DEF and set SOURCE_MODE to the mode of expr.
3402*404b540aSrobert
3403*404b540aSrobert For the pattern:
3404*404b540aSrobert INSN: set ((reg:WIDEmode r) (zero_extend:WIDEmode (...expr...)))
3405*404b540aSrobert return EXTENDED_DEF and set SOURCE_MODE_UNSIGNED to the mode of expr.
3406*404b540aSrobert
3407*404b540aSrobert For the pattern:
3408*404b540aSrobert INSN: set ((reg:WIDEmode r) (CONST_INT (...)))
3409*404b540aSrobert return EXTENDED_DEF and set SOURCE_MODE(_UNSIGNED) to the narrowest mode that
3410*404b540aSrobert is implicitly sign(zero) extended to WIDEmode in the INSN.
3411*404b540aSrobert
3412*404b540aSrobert - FIXME: Extensions that are not adjacent to their definition and EXTENDED_DEF
3413*404b540aSrobert that is part of a PARALLEL instruction are not handled.
3414*404b540aSrobert These restriction can be relaxed. */
3415*404b540aSrobert
3416*404b540aSrobert static enum entry_type
see_analyze_one_def(rtx insn,enum machine_mode * source_mode,enum machine_mode * source_mode_unsigned)3417*404b540aSrobert see_analyze_one_def (rtx insn, enum machine_mode *source_mode,
3418*404b540aSrobert enum machine_mode *source_mode_unsigned)
3419*404b540aSrobert {
3420*404b540aSrobert enum rtx_code extension_code;
3421*404b540aSrobert rtx rhs = NULL;
3422*404b540aSrobert rtx lhs = NULL;
3423*404b540aSrobert rtx set = NULL;
3424*404b540aSrobert rtx source_register = NULL;
3425*404b540aSrobert rtx prev_insn = NULL;
3426*404b540aSrobert rtx next_insn = NULL;
3427*404b540aSrobert enum machine_mode mode;
3428*404b540aSrobert enum machine_mode next_source_mode;
3429*404b540aSrobert HOST_WIDE_INT val = 0;
3430*404b540aSrobert HOST_WIDE_INT val2 = 0;
3431*404b540aSrobert int i = 0;
3432*404b540aSrobert
3433*404b540aSrobert *source_mode = MAX_MACHINE_MODE;
3434*404b540aSrobert *source_mode_unsigned = MAX_MACHINE_MODE;
3435*404b540aSrobert
3436*404b540aSrobert if (!insn)
3437*404b540aSrobert return NOT_RELEVANT;
3438*404b540aSrobert
3439*404b540aSrobert if (!INSN_P (insn))
3440*404b540aSrobert return NOT_RELEVANT;
3441*404b540aSrobert
3442*404b540aSrobert extension_code = see_get_extension_data (insn, source_mode);
3443*404b540aSrobert switch (extension_code)
3444*404b540aSrobert {
3445*404b540aSrobert case SIGN_EXTEND:
3446*404b540aSrobert case ZERO_EXTEND:
3447*404b540aSrobert source_register = see_get_extension_reg (insn, 0);
3448*404b540aSrobert /* FIXME: This restriction can be relaxed. The only thing that is
3449*404b540aSrobert important is that the reference would be inside the same basic block
3450*404b540aSrobert as the extension. */
3451*404b540aSrobert prev_insn = PREV_INSN (insn);
3452*404b540aSrobert if (!prev_insn || !INSN_P (prev_insn))
3453*404b540aSrobert return NOT_RELEVANT;
3454*404b540aSrobert
3455*404b540aSrobert if (!reg_set_between_p (source_register, PREV_INSN (prev_insn), insn))
3456*404b540aSrobert return NOT_RELEVANT;
3457*404b540aSrobert
3458*404b540aSrobert if (find_reg_note (prev_insn, REG_LIBCALL, NULL_RTX))
3459*404b540aSrobert return NOT_RELEVANT;
3460*404b540aSrobert
3461*404b540aSrobert if (find_reg_note (prev_insn, REG_RETVAL, NULL_RTX))
3462*404b540aSrobert return NOT_RELEVANT;
3463*404b540aSrobert
3464*404b540aSrobert /* If we can't use copy_rtx on the reference it can't be a reference. */
3465*404b540aSrobert if (GET_CODE (PATTERN (prev_insn)) == PARALLEL
3466*404b540aSrobert && asm_noperands (PATTERN (prev_insn)) >= 0)
3467*404b540aSrobert return NOT_RELEVANT;
3468*404b540aSrobert
3469*404b540aSrobert /* Now, check if this extension is a reference itself. If so, it is not
3470*404b540aSrobert relevant. Handling this extension as relevant would make things much
3471*404b540aSrobert more complicated. */
3472*404b540aSrobert next_insn = NEXT_INSN (insn);
3473*404b540aSrobert if (next_insn
3474*404b540aSrobert && INSN_P (next_insn)
3475*404b540aSrobert && (see_get_extension_data (next_insn, &next_source_mode) !=
3476*404b540aSrobert NOT_RELEVANT))
3477*404b540aSrobert {
3478*404b540aSrobert rtx curr_dest_register = see_get_extension_reg (insn, 1);
3479*404b540aSrobert rtx next_source_register = see_get_extension_reg (next_insn, 0);
3480*404b540aSrobert
3481*404b540aSrobert if (REGNO (curr_dest_register) == REGNO (next_source_register))
3482*404b540aSrobert return NOT_RELEVANT;
3483*404b540aSrobert }
3484*404b540aSrobert
3485*404b540aSrobert if (extension_code == SIGN_EXTEND)
3486*404b540aSrobert return SIGN_EXTENDED_DEF;
3487*404b540aSrobert else
3488*404b540aSrobert return ZERO_EXTENDED_DEF;
3489*404b540aSrobert
3490*404b540aSrobert case UNKNOWN:
3491*404b540aSrobert /* This may still be an EXTENDED_DEF. */
3492*404b540aSrobert
3493*404b540aSrobert /* FIXME: This restriction can be relaxed. It is possible to handle
3494*404b540aSrobert PARALLEL insns too. */
3495*404b540aSrobert set = single_set (insn);
3496*404b540aSrobert if (!set)
3497*404b540aSrobert return NOT_RELEVANT;
3498*404b540aSrobert rhs = SET_SRC (set);
3499*404b540aSrobert lhs = SET_DEST (set);
3500*404b540aSrobert
3501*404b540aSrobert /* Don't handle extensions to something other then register or
3502*404b540aSrobert subregister. */
3503*404b540aSrobert if (!REG_P (lhs) && !SUBREG_REG (lhs))
3504*404b540aSrobert return NOT_RELEVANT;
3505*404b540aSrobert
3506*404b540aSrobert switch (GET_CODE (rhs))
3507*404b540aSrobert {
3508*404b540aSrobert case SIGN_EXTEND:
3509*404b540aSrobert *source_mode = GET_MODE (XEXP (rhs, 0));
3510*404b540aSrobert *source_mode_unsigned = MAX_MACHINE_MODE;
3511*404b540aSrobert return EXTENDED_DEF;
3512*404b540aSrobert case ZERO_EXTEND:
3513*404b540aSrobert *source_mode = MAX_MACHINE_MODE;
3514*404b540aSrobert *source_mode_unsigned = GET_MODE (XEXP (rhs, 0));
3515*404b540aSrobert return EXTENDED_DEF;
3516*404b540aSrobert case CONST_INT:
3517*404b540aSrobert
3518*404b540aSrobert val = INTVAL (rhs);
3519*404b540aSrobert
3520*404b540aSrobert /* Find the narrowest mode, val could fit into. */
3521*404b540aSrobert for (mode = GET_CLASS_NARROWEST_MODE (MODE_INT), i = 0;
3522*404b540aSrobert GET_MODE_BITSIZE (mode) < BITS_PER_WORD;
3523*404b540aSrobert mode = GET_MODE_WIDER_MODE (mode), i++)
3524*404b540aSrobert {
3525*404b540aSrobert val2 = trunc_int_for_mode (val, mode);
3526*404b540aSrobert if (val2 == val && *source_mode == MAX_MACHINE_MODE)
3527*404b540aSrobert *source_mode = mode;
3528*404b540aSrobert if (val == (val & (HOST_WIDE_INT)GET_MODE_MASK (mode))
3529*404b540aSrobert && *source_mode_unsigned == MAX_MACHINE_MODE)
3530*404b540aSrobert *source_mode_unsigned = mode;
3531*404b540aSrobert if (*source_mode != MAX_MACHINE_MODE
3532*404b540aSrobert && *source_mode_unsigned !=MAX_MACHINE_MODE)
3533*404b540aSrobert return EXTENDED_DEF;
3534*404b540aSrobert }
3535*404b540aSrobert if (*source_mode != MAX_MACHINE_MODE
3536*404b540aSrobert || *source_mode_unsigned !=MAX_MACHINE_MODE)
3537*404b540aSrobert return EXTENDED_DEF;
3538*404b540aSrobert return NOT_RELEVANT;
3539*404b540aSrobert default:
3540*404b540aSrobert return NOT_RELEVANT;
3541*404b540aSrobert }
3542*404b540aSrobert default:
3543*404b540aSrobert gcc_unreachable ();
3544*404b540aSrobert }
3545*404b540aSrobert }
3546*404b540aSrobert
3547*404b540aSrobert
3548*404b540aSrobert /* Updates the relevancy and source_mode of all the definitions.
3549*404b540aSrobert The information of the i'th definition is stored in def_entry[i]. */
3550*404b540aSrobert
3551*404b540aSrobert static void
see_update_defs_relevancy(void)3552*404b540aSrobert see_update_defs_relevancy (void)
3553*404b540aSrobert {
3554*404b540aSrobert struct see_entry_extra_info *curr_entry_extra_info;
3555*404b540aSrobert unsigned int i;
3556*404b540aSrobert rtx insn = NULL;
3557*404b540aSrobert rtx reg = NULL;
3558*404b540aSrobert enum entry_type et;
3559*404b540aSrobert enum machine_mode source_mode;
3560*404b540aSrobert enum machine_mode source_mode_unsigned;
3561*404b540aSrobert
3562*404b540aSrobert if (!df || !def_entry)
3563*404b540aSrobert return;
3564*404b540aSrobert
3565*404b540aSrobert for (i = 0; i < defs_num; i++)
3566*404b540aSrobert {
3567*404b540aSrobert insn = DF_REF_INSN (DF_DEFS_GET (df, i));
3568*404b540aSrobert reg = DF_REF_REAL_REG (DF_DEFS_GET (df, i));
3569*404b540aSrobert
3570*404b540aSrobert et = see_analyze_one_def (insn, &source_mode, &source_mode_unsigned);
3571*404b540aSrobert
3572*404b540aSrobert curr_entry_extra_info = xmalloc (sizeof (struct see_entry_extra_info));
3573*404b540aSrobert curr_entry_extra_info->relevancy = et;
3574*404b540aSrobert curr_entry_extra_info->local_relevancy = et;
3575*404b540aSrobert if (et != EXTENDED_DEF)
3576*404b540aSrobert {
3577*404b540aSrobert curr_entry_extra_info->source_mode = source_mode;
3578*404b540aSrobert curr_entry_extra_info->local_source_mode = source_mode;
3579*404b540aSrobert }
3580*404b540aSrobert else
3581*404b540aSrobert {
3582*404b540aSrobert curr_entry_extra_info->source_mode_signed = source_mode;
3583*404b540aSrobert curr_entry_extra_info->source_mode_unsigned = source_mode_unsigned;
3584*404b540aSrobert }
3585*404b540aSrobert def_entry[i].extra_info = curr_entry_extra_info;
3586*404b540aSrobert def_entry[i].reg = NULL;
3587*404b540aSrobert def_entry[i].pred = NULL;
3588*404b540aSrobert
3589*404b540aSrobert if (dump_file)
3590*404b540aSrobert {
3591*404b540aSrobert if (et == NOT_RELEVANT)
3592*404b540aSrobert {
3593*404b540aSrobert fprintf (dump_file, "d%i insn %i reg %i ",
3594*404b540aSrobert i, (insn ? INSN_UID (insn) : -1), REGNO (reg));
3595*404b540aSrobert fprintf (dump_file, "NOT RELEVANT \n");
3596*404b540aSrobert }
3597*404b540aSrobert else
3598*404b540aSrobert {
3599*404b540aSrobert fprintf (dump_file, "d%i insn %i reg %i ",
3600*404b540aSrobert i ,INSN_UID (insn), REGNO (reg));
3601*404b540aSrobert fprintf (dump_file, "RELEVANT - ");
3602*404b540aSrobert switch (et)
3603*404b540aSrobert {
3604*404b540aSrobert case SIGN_EXTENDED_DEF :
3605*404b540aSrobert fprintf (dump_file, "SIGN_EXTENDED_DEF, source_mode = %s\n",
3606*404b540aSrobert GET_MODE_NAME (source_mode));
3607*404b540aSrobert break;
3608*404b540aSrobert case ZERO_EXTENDED_DEF :
3609*404b540aSrobert fprintf (dump_file, "ZERO_EXTENDED_DEF, source_mode = %s\n",
3610*404b540aSrobert GET_MODE_NAME (source_mode));
3611*404b540aSrobert break;
3612*404b540aSrobert case EXTENDED_DEF :
3613*404b540aSrobert fprintf (dump_file, "EXTENDED_DEF, ");
3614*404b540aSrobert if (source_mode != MAX_MACHINE_MODE
3615*404b540aSrobert && source_mode_unsigned != MAX_MACHINE_MODE)
3616*404b540aSrobert {
3617*404b540aSrobert fprintf (dump_file, "positive const, ");
3618*404b540aSrobert fprintf (dump_file, "source_mode_signed = %s, ",
3619*404b540aSrobert GET_MODE_NAME (source_mode));
3620*404b540aSrobert fprintf (dump_file, "source_mode_unsigned = %s\n",
3621*404b540aSrobert GET_MODE_NAME (source_mode_unsigned));
3622*404b540aSrobert }
3623*404b540aSrobert else if (source_mode != MAX_MACHINE_MODE)
3624*404b540aSrobert fprintf (dump_file, "source_mode_signed = %s\n",
3625*404b540aSrobert GET_MODE_NAME (source_mode));
3626*404b540aSrobert else
3627*404b540aSrobert fprintf (dump_file, "source_mode_unsigned = %s\n",
3628*404b540aSrobert GET_MODE_NAME (source_mode_unsigned));
3629*404b540aSrobert break;
3630*404b540aSrobert default :
3631*404b540aSrobert gcc_unreachable ();
3632*404b540aSrobert }
3633*404b540aSrobert }
3634*404b540aSrobert }
3635*404b540aSrobert }
3636*404b540aSrobert }
3637*404b540aSrobert
3638*404b540aSrobert
3639*404b540aSrobert /* Phase 1 top level function.
3640*404b540aSrobert In this phase the relevancy of all the definitions and uses are checked,
3641*404b540aSrobert later the webs are produces and the extensions are generated.
3642*404b540aSrobert These extensions are not emitted yet into the insns stream.
3643*404b540aSrobert
3644*404b540aSrobert returns true if at list one relevant web was found and there were no
3645*404b540aSrobert problems, otherwise return false. */
3646*404b540aSrobert
3647*404b540aSrobert static bool
see_propagate_extensions_to_uses(void)3648*404b540aSrobert see_propagate_extensions_to_uses (void)
3649*404b540aSrobert {
3650*404b540aSrobert unsigned int i = 0;
3651*404b540aSrobert int num_relevant_uses;
3652*404b540aSrobert int num_relevant_defs;
3653*404b540aSrobert
3654*404b540aSrobert if (dump_file)
3655*404b540aSrobert fprintf (dump_file,
3656*404b540aSrobert "* Phase 1: Propagate extensions to uses. *\n");
3657*404b540aSrobert
3658*404b540aSrobert /* Update the relevancy of references using the DF object. */
3659*404b540aSrobert see_update_defs_relevancy ();
3660*404b540aSrobert see_update_uses_relevancy ();
3661*404b540aSrobert
3662*404b540aSrobert /* Produce the webs and update the extra_info of the root.
3663*404b540aSrobert In general, a web is relevant if all its definitions and uses are relevant
3664*404b540aSrobert and there is at least one definition that was marked as SIGN_EXTENDED_DEF
3665*404b540aSrobert or ZERO_EXTENDED_DEF. */
3666*404b540aSrobert for (i = 0; i < uses_num; i++)
3667*404b540aSrobert union_defs (df, DF_USES_GET (df, i), def_entry, use_entry,
3668*404b540aSrobert see_update_leader_extra_info);
3669*404b540aSrobert
3670*404b540aSrobert /* Generate use extensions for references and insert these
3671*404b540aSrobert references to see_bb_splay_ar data structure. */
3672*404b540aSrobert num_relevant_uses = see_handle_relevant_uses ();
3673*404b540aSrobert
3674*404b540aSrobert if (num_relevant_uses < 0)
3675*404b540aSrobert return false;
3676*404b540aSrobert
3677*404b540aSrobert /* Store the def extensions in their references structures and insert these
3678*404b540aSrobert references to see_bb_splay_ar data structure. */
3679*404b540aSrobert num_relevant_defs = see_handle_relevant_defs ();
3680*404b540aSrobert
3681*404b540aSrobert if (num_relevant_defs < 0)
3682*404b540aSrobert return false;
3683*404b540aSrobert
3684*404b540aSrobert return num_relevant_uses > 0 || num_relevant_defs > 0;
3685*404b540aSrobert }
3686*404b540aSrobert
3687*404b540aSrobert
3688*404b540aSrobert /* Main entry point for the sign extension elimination optimization. */
3689*404b540aSrobert
3690*404b540aSrobert static void
see_main(void)3691*404b540aSrobert see_main (void)
3692*404b540aSrobert {
3693*404b540aSrobert bool cont = false;
3694*404b540aSrobert int i = 0;
3695*404b540aSrobert
3696*404b540aSrobert /* Initialize global data structures. */
3697*404b540aSrobert see_initialize_data_structures ();
3698*404b540aSrobert
3699*404b540aSrobert /* Phase 1: Propagate extensions to uses. */
3700*404b540aSrobert cont = see_propagate_extensions_to_uses ();
3701*404b540aSrobert
3702*404b540aSrobert if (cont)
3703*404b540aSrobert {
3704*404b540aSrobert init_recog ();
3705*404b540aSrobert
3706*404b540aSrobert /* Phase 2: Merge and eliminate locally redundant extensions. */
3707*404b540aSrobert see_merge_and_eliminate_extensions ();
3708*404b540aSrobert
3709*404b540aSrobert /* Phase 3: Eliminate globally redundant extensions. */
3710*404b540aSrobert see_execute_LCM ();
3711*404b540aSrobert
3712*404b540aSrobert /* Phase 4: Commit changes to the insn stream. */
3713*404b540aSrobert see_commit_changes ();
3714*404b540aSrobert
3715*404b540aSrobert if (dump_file)
3716*404b540aSrobert {
3717*404b540aSrobert /* For debug purpose only. */
3718*404b540aSrobert fprintf (dump_file, "see_pre_extension_hash:\n");
3719*404b540aSrobert htab_traverse (see_pre_extension_hash, see_print_pre_extension_expr,
3720*404b540aSrobert NULL);
3721*404b540aSrobert
3722*404b540aSrobert for (i = 0; i < last_bb; i++)
3723*404b540aSrobert {
3724*404b540aSrobert if (see_bb_hash_ar[i])
3725*404b540aSrobert /* Traverse over all the references in the basic block in
3726*404b540aSrobert forward order. */
3727*404b540aSrobert {
3728*404b540aSrobert fprintf (dump_file,
3729*404b540aSrobert "Searching register properties in bb %d\n", i);
3730*404b540aSrobert htab_traverse (see_bb_hash_ar[i],
3731*404b540aSrobert see_print_register_properties, NULL);
3732*404b540aSrobert }
3733*404b540aSrobert }
3734*404b540aSrobert }
3735*404b540aSrobert }
3736*404b540aSrobert
3737*404b540aSrobert /* Free global data structures. */
3738*404b540aSrobert see_free_data_structures ();
3739*404b540aSrobert }
3740*404b540aSrobert
3741*404b540aSrobert
3742*404b540aSrobert static bool
gate_handle_see(void)3743*404b540aSrobert gate_handle_see (void)
3744*404b540aSrobert {
3745*404b540aSrobert return optimize > 1 && flag_see;
3746*404b540aSrobert }
3747*404b540aSrobert
3748*404b540aSrobert static unsigned int
rest_of_handle_see(void)3749*404b540aSrobert rest_of_handle_see (void)
3750*404b540aSrobert {
3751*404b540aSrobert int no_new_pseudos_bcp = no_new_pseudos;
3752*404b540aSrobert
3753*404b540aSrobert no_new_pseudos = 0;
3754*404b540aSrobert see_main ();
3755*404b540aSrobert no_new_pseudos = no_new_pseudos_bcp;
3756*404b540aSrobert
3757*404b540aSrobert delete_trivially_dead_insns (get_insns (), max_reg_num ());
3758*404b540aSrobert update_life_info_in_dirty_blocks (UPDATE_LIFE_GLOBAL_RM_NOTES,
3759*404b540aSrobert (PROP_DEATH_NOTES));
3760*404b540aSrobert cleanup_cfg (CLEANUP_EXPENSIVE);
3761*404b540aSrobert reg_scan (get_insns (), max_reg_num ());
3762*404b540aSrobert
3763*404b540aSrobert return 0;
3764*404b540aSrobert }
3765*404b540aSrobert
3766*404b540aSrobert struct tree_opt_pass pass_see =
3767*404b540aSrobert {
3768*404b540aSrobert "see", /* name */
3769*404b540aSrobert gate_handle_see, /* gate */
3770*404b540aSrobert rest_of_handle_see, /* execute */
3771*404b540aSrobert NULL, /* sub */
3772*404b540aSrobert NULL, /* next */
3773*404b540aSrobert 0, /* static_pass_number */
3774*404b540aSrobert TV_SEE, /* tv_id */
3775*404b540aSrobert 0, /* properties_required */
3776*404b540aSrobert 0, /* properties_provided */
3777*404b540aSrobert 0, /* properties_destroyed */
3778*404b540aSrobert 0, /* todo_flags_start */
3779*404b540aSrobert TODO_dump_func, /* todo_flags_finish */
3780*404b540aSrobert 'u' /* letter */
3781*404b540aSrobert };
3782*404b540aSrobert
3783