Mercurial > hg > CbC > CbC_gcc
annotate gcc/sched-int.h @ 132:d34655255c78
update gcc-8.2
author | mir3636 |
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date | Thu, 25 Oct 2018 10:21:07 +0900 |
parents | 84e7813d76e9 |
children | 1830386684a0 |
rev | line source |
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0 | 1 /* Instruction scheduling pass. This file contains definitions used |
2 internally in the scheduler. | |
131 | 3 Copyright (C) 1992-2018 Free Software Foundation, Inc. |
0 | 4 |
5 This file is part of GCC. | |
6 | |
7 GCC is free software; you can redistribute it and/or modify it under | |
8 the terms of the GNU General Public License as published by the Free | |
9 Software Foundation; either version 3, or (at your option) any later | |
10 version. | |
11 | |
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY | |
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
15 for more details. | |
16 | |
17 You should have received a copy of the GNU General Public License | |
18 along with GCC; see the file COPYING3. If not see | |
19 <http://www.gnu.org/licenses/>. */ | |
20 | |
21 #ifndef GCC_SCHED_INT_H | |
22 #define GCC_SCHED_INT_H | |
23 | |
24 #ifdef INSN_SCHEDULING | |
25 | |
26 /* Identificator of a scheduler pass. */ | |
27 enum sched_pass_id_t { SCHED_PASS_UNKNOWN, SCHED_RGN_PASS, SCHED_EBB_PASS, | |
28 SCHED_SMS_PASS, SCHED_SEL_PASS }; | |
29 | |
111 | 30 /* The algorithm used to implement -fsched-pressure. */ |
31 enum sched_pressure_algorithm | |
0 | 32 { |
111 | 33 SCHED_PRESSURE_NONE, |
34 SCHED_PRESSURE_WEIGHTED, | |
35 SCHED_PRESSURE_MODEL | |
0 | 36 }; |
37 | |
111 | 38 typedef vec<basic_block> bb_vec_t; |
39 typedef vec<rtx_insn *> insn_vec_t; | |
40 typedef vec<rtx_insn *> rtx_vec_t; | |
0 | 41 |
42 extern void sched_init_bbs (void); | |
43 | |
111 | 44 extern void sched_extend_luids (void); |
45 extern void sched_init_insn_luid (rtx_insn *); | |
46 extern void sched_init_luids (bb_vec_t); | |
0 | 47 extern void sched_finish_luids (void); |
48 | |
49 extern void sched_extend_target (void); | |
50 | |
111 | 51 extern void haifa_init_h_i_d (bb_vec_t); |
0 | 52 extern void haifa_finish_h_i_d (void); |
53 | |
54 /* Hooks that are common to all the schedulers. */ | |
55 struct common_sched_info_def | |
56 { | |
57 /* Called after blocks were rearranged due to movement of jump instruction. | |
58 The first parameter - index of basic block, in which jump currently is. | |
59 The second parameter - index of basic block, in which jump used | |
60 to be. | |
61 The third parameter - index of basic block, that follows the second | |
62 parameter. */ | |
63 void (*fix_recovery_cfg) (int, int, int); | |
64 | |
65 /* Called to notify frontend, that new basic block is being added. | |
66 The first parameter - new basic block. | |
67 The second parameter - block, after which new basic block is being added, | |
111 | 68 or the exit block, if recovery block is being added, |
0 | 69 or NULL, if standalone block is being added. */ |
70 void (*add_block) (basic_block, basic_block); | |
71 | |
72 /* Estimate number of insns in the basic block. */ | |
73 int (*estimate_number_of_insns) (basic_block); | |
74 | |
75 /* Given a non-insn (!INSN_P (x)) return | |
76 -1 - if this rtx don't need a luid. | |
77 0 - if it should have the same luid as the previous insn. | |
78 1 - if it needs a separate luid. */ | |
79 int (*luid_for_non_insn) (rtx); | |
80 | |
81 /* Scheduler pass identifier. It is preferably used in assertions. */ | |
82 enum sched_pass_id_t sched_pass_id; | |
83 }; | |
84 | |
85 extern struct common_sched_info_def *common_sched_info; | |
86 | |
87 extern const struct common_sched_info_def haifa_common_sched_info; | |
88 | |
89 /* Return true if selective scheduling pass is working. */ | |
90 static inline bool | |
91 sel_sched_p (void) | |
92 { | |
93 return common_sched_info->sched_pass_id == SCHED_SEL_PASS; | |
94 } | |
95 | |
96 /* Returns maximum priority that an insn was assigned to. */ | |
97 extern int get_rgn_sched_max_insns_priority (void); | |
98 | |
99 /* Increases effective priority for INSN by AMOUNT. */ | |
100 extern void sel_add_to_insn_priority (rtx, int); | |
101 | |
102 /* True if during selective scheduling we need to emulate some of haifa | |
111 | 103 scheduler behavior. */ |
0 | 104 extern int sched_emulate_haifa_p; |
105 | |
106 /* Mapping from INSN_UID to INSN_LUID. In the end all other per insn data | |
107 structures should be indexed by luid. */ | |
111 | 108 extern vec<int> sched_luids; |
109 #define INSN_LUID(INSN) (sched_luids[INSN_UID (INSN)]) | |
110 #define LUID_BY_UID(UID) (sched_luids[UID]) | |
0 | 111 |
112 #define SET_INSN_LUID(INSN, LUID) \ | |
111 | 113 (sched_luids[INSN_UID (INSN)] = (LUID)) |
0 | 114 |
115 /* The highest INSN_LUID. */ | |
116 extern int sched_max_luid; | |
117 | |
118 extern int insn_luid (rtx); | |
119 | |
120 /* This list holds ripped off notes from the current block. These notes will | |
121 be attached to the beginning of the block when its scheduling is | |
122 finished. */ | |
111 | 123 extern rtx_insn *note_list; |
0 | 124 |
111 | 125 extern void remove_notes (rtx_insn *, rtx_insn *); |
126 extern rtx_insn *restore_other_notes (rtx_insn *, basic_block); | |
0 | 127 extern void sched_insns_init (rtx); |
128 extern void sched_insns_finish (void); | |
129 | |
130 extern void *xrecalloc (void *, size_t, size_t, size_t); | |
131 | |
111 | 132 extern void reemit_notes (rtx_insn *); |
0 | 133 |
134 /* Functions in haifa-sched.c. */ | |
135 extern int haifa_classify_insn (const_rtx); | |
136 | |
137 /* Functions in sel-sched-ir.c. */ | |
138 extern void sel_find_rgns (void); | |
139 extern void sel_mark_hard_insn (rtx); | |
140 | |
141 extern size_t dfa_state_size; | |
142 | |
143 extern void advance_state (state_t); | |
144 | |
145 extern void setup_sched_dump (void); | |
146 extern void sched_init (void); | |
147 extern void sched_finish (void); | |
148 | |
149 extern bool sel_insn_is_speculation_check (rtx); | |
150 | |
151 /* Describe the ready list of the scheduler. | |
152 VEC holds space enough for all insns in the current region. VECLEN | |
153 says how many exactly. | |
154 FIRST is the index of the element with the highest priority; i.e. the | |
155 last one in the ready list, since elements are ordered by ascending | |
156 priority. | |
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157 N_READY determines how many insns are on the ready list. |
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158 N_DEBUG determines how many debug insns are on the ready list. */ |
0 | 159 struct ready_list |
160 { | |
111 | 161 rtx_insn **vec; |
0 | 162 int veclen; |
163 int first; | |
164 int n_ready; | |
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165 int n_debug; |
0 | 166 }; |
167 | |
111 | 168 extern signed char *ready_try; |
0 | 169 extern struct ready_list ready; |
170 | |
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171 extern int max_issue (struct ready_list *, int, state_t, bool, int *); |
0 | 172 |
111 | 173 extern void ebb_compute_jump_reg_dependencies (rtx, regset); |
0 | 174 |
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175 extern edge find_fallthru_edge_from (basic_block); |
0 | 176 |
177 extern void (* sched_init_only_bb) (basic_block, basic_block); | |
178 extern basic_block (* sched_split_block) (basic_block, rtx); | |
179 extern basic_block sched_split_block_1 (basic_block, rtx); | |
180 extern basic_block (* sched_create_empty_bb) (basic_block); | |
181 extern basic_block sched_create_empty_bb_1 (basic_block); | |
182 | |
183 extern basic_block sched_create_recovery_block (basic_block *); | |
184 extern void sched_create_recovery_edges (basic_block, basic_block, | |
185 basic_block); | |
186 | |
187 /* Pointer to data describing the current DFA state. */ | |
188 extern state_t curr_state; | |
189 | |
190 /* Type to represent status of a dependence. */ | |
111 | 191 typedef unsigned int ds_t; |
192 #define BITS_PER_DEP_STATUS HOST_BITS_PER_INT | |
0 | 193 |
194 /* Type to represent weakness of speculative dependence. */ | |
111 | 195 typedef unsigned int dw_t; |
0 | 196 |
197 extern enum reg_note ds_to_dk (ds_t); | |
198 extern ds_t dk_to_ds (enum reg_note); | |
199 | |
111 | 200 /* Describe a dependency that can be broken by making a replacement |
201 in one of the patterns. LOC is the location, ORIG and NEWVAL the | |
202 two alternative contents, and INSN the instruction that must be | |
203 changed. */ | |
204 struct dep_replacement | |
205 { | |
206 rtx *loc; | |
207 rtx orig; | |
208 rtx newval; | |
209 rtx_insn *insn; | |
210 }; | |
211 | |
0 | 212 /* Information about the dependency. */ |
213 struct _dep | |
214 { | |
215 /* Producer. */ | |
111 | 216 rtx_insn *pro; |
0 | 217 |
218 /* Consumer. */ | |
111 | 219 rtx_insn *con; |
0 | 220 |
111 | 221 /* If nonnull, holds a pointer to information about how to break the |
222 dependency by making a replacement in one of the insns. There is | |
223 only one such dependency for each insn that must be modified in | |
224 order to break such a dependency. */ | |
225 struct dep_replacement *replace; | |
0 | 226 |
227 /* Dependency status. This field holds all dependency types and additional | |
228 information for speculative dependencies. */ | |
229 ds_t status; | |
111 | 230 |
231 /* Dependency major type. This field is superseded by STATUS above. | |
232 Though, it is still in place because some targets use it. */ | |
233 ENUM_BITFIELD(reg_note) type:6; | |
234 | |
235 unsigned nonreg:1; | |
236 unsigned multiple:1; | |
237 | |
238 /* Cached cost of the dependency. Make sure to update UNKNOWN_DEP_COST | |
239 when changing the size of this field. */ | |
240 int cost:20; | |
0 | 241 }; |
242 | |
111 | 243 #define UNKNOWN_DEP_COST ((int) ((unsigned int) -1 << 19)) |
244 | |
0 | 245 typedef struct _dep dep_def; |
246 typedef dep_def *dep_t; | |
247 | |
248 #define DEP_PRO(D) ((D)->pro) | |
249 #define DEP_CON(D) ((D)->con) | |
250 #define DEP_TYPE(D) ((D)->type) | |
251 #define DEP_STATUS(D) ((D)->status) | |
111 | 252 #define DEP_COST(D) ((D)->cost) |
253 #define DEP_NONREG(D) ((D)->nonreg) | |
254 #define DEP_MULTIPLE(D) ((D)->multiple) | |
255 #define DEP_REPLACE(D) ((D)->replace) | |
0 | 256 |
257 /* Functions to work with dep. */ | |
258 | |
111 | 259 extern void init_dep_1 (dep_t, rtx_insn *, rtx_insn *, enum reg_note, ds_t); |
260 extern void init_dep (dep_t, rtx_insn *, rtx_insn *, enum reg_note); | |
0 | 261 |
262 extern void sd_debug_dep (dep_t); | |
263 | |
264 /* Definition of this struct resides below. */ | |
265 struct _dep_node; | |
266 typedef struct _dep_node *dep_node_t; | |
267 | |
268 /* A link in the dependency list. This is essentially an equivalent of a | |
269 single {INSN, DEPS}_LIST rtx. */ | |
270 struct _dep_link | |
271 { | |
272 /* Dep node with all the data. */ | |
273 dep_node_t node; | |
274 | |
275 /* Next link in the list. For the last one it is NULL. */ | |
276 struct _dep_link *next; | |
277 | |
278 /* Pointer to the next field of the previous link in the list. | |
279 For the first link this points to the deps_list->first. | |
280 | |
281 With help of this field it is easy to remove and insert links to the | |
282 list. */ | |
283 struct _dep_link **prev_nextp; | |
284 }; | |
285 typedef struct _dep_link *dep_link_t; | |
286 | |
287 #define DEP_LINK_NODE(N) ((N)->node) | |
288 #define DEP_LINK_NEXT(N) ((N)->next) | |
289 #define DEP_LINK_PREV_NEXTP(N) ((N)->prev_nextp) | |
290 | |
291 /* Macros to work dep_link. For most usecases only part of the dependency | |
292 information is need. These macros conveniently provide that piece of | |
293 information. */ | |
294 | |
295 #define DEP_LINK_DEP(N) (DEP_NODE_DEP (DEP_LINK_NODE (N))) | |
296 #define DEP_LINK_PRO(N) (DEP_PRO (DEP_LINK_DEP (N))) | |
297 #define DEP_LINK_CON(N) (DEP_CON (DEP_LINK_DEP (N))) | |
298 #define DEP_LINK_TYPE(N) (DEP_TYPE (DEP_LINK_DEP (N))) | |
299 #define DEP_LINK_STATUS(N) (DEP_STATUS (DEP_LINK_DEP (N))) | |
300 | |
301 /* A list of dep_links. */ | |
302 struct _deps_list | |
303 { | |
304 /* First element. */ | |
305 dep_link_t first; | |
306 | |
307 /* Total number of elements in the list. */ | |
308 int n_links; | |
309 }; | |
310 typedef struct _deps_list *deps_list_t; | |
311 | |
312 #define DEPS_LIST_FIRST(L) ((L)->first) | |
313 #define DEPS_LIST_N_LINKS(L) ((L)->n_links) | |
314 | |
315 /* Suppose we have a dependence Y between insn pro1 and con1, where pro1 has | |
316 additional dependents con0 and con2, and con1 is dependent on additional | |
317 insns pro0 and pro1: | |
318 | |
319 .con0 pro0 | |
320 . ^ | | |
321 . | | | |
322 . | | | |
323 . X A | |
324 . | | | |
325 . | | | |
326 . | V | |
327 .pro1--Y-->con1 | |
328 . | ^ | |
329 . | | | |
330 . | | | |
331 . Z B | |
332 . | | | |
333 . | | | |
334 . V | | |
335 .con2 pro2 | |
336 | |
337 This is represented using a "dep_node" for each dependence arc, which are | |
338 connected as follows (diagram is centered around Y which is fully shown; | |
339 other dep_nodes shown partially): | |
340 | |
341 . +------------+ +--------------+ +------------+ | |
342 . : dep_node X : | dep_node Y | : dep_node Z : | |
343 . : : | | : : | |
344 . : : | | : : | |
345 . : forw : | forw | : forw : | |
346 . : +--------+ : | +--------+ | : +--------+ : | |
347 forw_deps : |dep_link| : | |dep_link| | : |dep_link| : | |
348 +-----+ : | +----+ | : | | +----+ | | : | +----+ | : | |
349 |first|----->| |next|-+------+->| |next|-+--+----->| |next|-+--->NULL | |
350 +-----+ : | +----+ | : | | +----+ | | : | +----+ | : | |
351 . ^ ^ : | ^ | : | | ^ | | : | | : | |
352 . | | : | | | : | | | | | : | | : | |
353 . | +--<----+--+ +--+---<--+--+--+ +--+--+--<---+--+ | : | |
354 . | : | | | : | | | | | : | | | : | |
355 . | : | +----+ | : | | +----+ | | : | +----+ | : | |
356 . | : | |prev| | : | | |prev| | | : | |prev| | : | |
357 . | : | |next| | : | | |next| | | : | |next| | : | |
358 . | : | +----+ | : | | +----+ | | : | +----+ | : | |
359 . | : | | :<-+ | | | |<-+ : | | :<-+ | |
360 . | : | +----+ | : | | | +----+ | | | : | +----+ | : | | |
361 . | : | |node|-+----+ | | |node|-+--+--+ : | |node|-+----+ | |
362 . | : | +----+ | : | | +----+ | | : | +----+ | : | |
363 . | : | | : | | | | : | | : | |
364 . | : +--------+ : | +--------+ | : +--------+ : | |
365 . | : : | | : : | |
366 . | : SAME pro1 : | +--------+ | : SAME pro1 : | |
367 . | : DIFF con0 : | |dep | | : DIFF con2 : | |
368 . | : : | | | | : : | |
369 . | | | +----+ | | | |
370 .RTX<------------------------+--+-|pro1| | | | |
371 .pro1 | | +----+ | | | |
372 . | | | | | |
373 . | | +----+ | | | |
374 .RTX<------------------------+--+-|con1| | | | |
375 .con1 | | +----+ | | | |
376 . | | | | | | |
377 . | | | +----+ | | | |
378 . | | | |kind| | | | |
379 . | | | +----+ | | | |
380 . | : : | | |stat| | | : : | |
381 . | : DIFF pro0 : | | +----+ | | : DIFF pro2 : | |
382 . | : SAME con1 : | | | | : SAME con1 : | |
383 . | : : | +--------+ | : : | |
384 . | : : | | : : | |
385 . | : back : | back | : back : | |
386 . v : +--------+ : | +--------+ | : +--------+ : | |
387 back_deps : |dep_link| : | |dep_link| | : |dep_link| : | |
388 +-----+ : | +----+ | : | | +----+ | | : | +----+ | : | |
389 |first|----->| |next|-+------+->| |next|-+--+----->| |next|-+--->NULL | |
390 +-----+ : | +----+ | : | | +----+ | | : | +----+ | : | |
391 . ^ : | ^ | : | | ^ | | : | | : | |
392 . | : | | | : | | | | | : | | : | |
393 . +--<----+--+ +--+---<--+--+--+ +--+--+--<---+--+ | : | |
394 . : | | | : | | | | | : | | | : | |
395 . : | +----+ | : | | +----+ | | : | +----+ | : | |
396 . : | |prev| | : | | |prev| | | : | |prev| | : | |
397 . : | |next| | : | | |next| | | : | |next| | : | |
398 . : | +----+ | : | | +----+ | | : | +----+ | : | |
399 . : | | :<-+ | | | |<-+ : | | :<-+ | |
400 . : | +----+ | : | | | +----+ | | | : | +----+ | : | | |
401 . : | |node|-+----+ | | |node|-+--+--+ : | |node|-+----+ | |
402 . : | +----+ | : | | +----+ | | : | +----+ | : | |
403 . : | | : | | | | : | | : | |
404 . : +--------+ : | +--------+ | : +--------+ : | |
405 . : : | | : : | |
406 . : dep_node A : | dep_node Y | : dep_node B : | |
407 . +------------+ +--------------+ +------------+ | |
408 */ | |
409 | |
410 struct _dep_node | |
411 { | |
412 /* Backward link. */ | |
413 struct _dep_link back; | |
414 | |
415 /* The dep. */ | |
416 struct _dep dep; | |
417 | |
418 /* Forward link. */ | |
419 struct _dep_link forw; | |
420 }; | |
421 | |
422 #define DEP_NODE_BACK(N) (&(N)->back) | |
423 #define DEP_NODE_DEP(N) (&(N)->dep) | |
424 #define DEP_NODE_FORW(N) (&(N)->forw) | |
425 | |
426 /* The following enumeration values tell us what dependencies we | |
427 should use to implement the barrier. We use true-dependencies for | |
428 TRUE_BARRIER and anti-dependencies for MOVE_BARRIER. */ | |
429 enum reg_pending_barrier_mode | |
430 { | |
431 NOT_A_BARRIER = 0, | |
432 MOVE_BARRIER, | |
433 TRUE_BARRIER | |
434 }; | |
435 | |
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436 /* Whether a register movement is associated with a call. */ |
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437 enum post_call_group |
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438 { |
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439 not_post_call, |
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440 post_call, |
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441 post_call_initial |
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442 }; |
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443 |
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444 /* Insns which affect pseudo-registers. */ |
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445 struct deps_reg |
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446 { |
111 | 447 rtx_insn_list *uses; |
448 rtx_insn_list *sets; | |
449 rtx_insn_list *implicit_sets; | |
450 rtx_insn_list *control_uses; | |
451 rtx_insn_list *clobbers; | |
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452 int uses_length; |
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453 int clobbers_length; |
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454 }; |
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455 |
0 | 456 /* Describe state of dependencies used during sched_analyze phase. */ |
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457 struct deps_desc |
0 | 458 { |
459 /* The *_insns and *_mems are paired lists. Each pending memory operation | |
460 will have a pointer to the MEM rtx on one list and a pointer to the | |
461 containing insn on the other list in the same place in the list. */ | |
462 | |
463 /* We can't use add_dependence like the old code did, because a single insn | |
464 may have multiple memory accesses, and hence needs to be on the list | |
465 once for each memory access. Add_dependence won't let you add an insn | |
466 to a list more than once. */ | |
467 | |
468 /* An INSN_LIST containing all insns with pending read operations. */ | |
111 | 469 rtx_insn_list *pending_read_insns; |
0 | 470 |
471 /* An EXPR_LIST containing all MEM rtx's which are pending reads. */ | |
111 | 472 rtx_expr_list *pending_read_mems; |
0 | 473 |
474 /* An INSN_LIST containing all insns with pending write operations. */ | |
111 | 475 rtx_insn_list *pending_write_insns; |
0 | 476 |
477 /* An EXPR_LIST containing all MEM rtx's which are pending writes. */ | |
111 | 478 rtx_expr_list *pending_write_mems; |
479 | |
480 /* An INSN_LIST containing all jump insns. */ | |
481 rtx_insn_list *pending_jump_insns; | |
0 | 482 |
483 /* We must prevent the above lists from ever growing too large since | |
484 the number of dependencies produced is at least O(N*N), | |
485 and execution time is at least O(4*N*N), as a function of the | |
486 length of these pending lists. */ | |
487 | |
488 /* Indicates the length of the pending_read list. */ | |
489 int pending_read_list_length; | |
490 | |
491 /* Indicates the length of the pending_write list. */ | |
492 int pending_write_list_length; | |
493 | |
111 | 494 /* Length of the pending memory flush list plus the length of the pending |
495 jump insn list. Large functions with no calls may build up extremely | |
496 large lists. */ | |
0 | 497 int pending_flush_length; |
498 | |
499 /* The last insn upon which all memory references must depend. | |
500 This is an insn which flushed the pending lists, creating a dependency | |
501 between it and all previously pending memory references. This creates | |
502 a barrier (or a checkpoint) which no memory reference is allowed to cross. | |
503 | |
504 This includes all non constant CALL_INSNs. When we do interprocedural | |
505 alias analysis, this restriction can be relaxed. | |
506 This may also be an INSN that writes memory if the pending lists grow | |
507 too large. */ | |
111 | 508 rtx_insn_list *last_pending_memory_flush; |
0 | 509 |
510 /* A list of the last function calls we have seen. We use a list to | |
511 represent last function calls from multiple predecessor blocks. | |
512 Used to prevent register lifetimes from expanding unnecessarily. */ | |
111 | 513 rtx_insn_list *last_function_call; |
0 | 514 |
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515 /* A list of the last function calls that may not return normally |
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516 we have seen. We use a list to represent last function calls from |
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517 multiple predecessor blocks. Used to prevent moving trapping insns |
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518 across such calls. */ |
111 | 519 rtx_insn_list *last_function_call_may_noreturn; |
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520 |
0 | 521 /* A list of insns which use a pseudo register that does not already |
522 cross a call. We create dependencies between each of those insn | |
523 and the next call insn, to ensure that they won't cross a call after | |
524 scheduling is done. */ | |
111 | 525 rtx_insn_list *sched_before_next_call; |
526 | |
527 /* Similarly, a list of insns which should not cross a branch. */ | |
528 rtx_insn_list *sched_before_next_jump; | |
0 | 529 |
530 /* Used to keep post-call pseudo/hard reg movements together with | |
531 the call. */ | |
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532 enum post_call_group in_post_call_group_p; |
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533 |
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534 /* The last debug insn we've seen. */ |
111 | 535 rtx_insn *last_debug_insn; |
536 | |
537 /* The last insn bearing REG_ARGS_SIZE that we've seen. */ | |
538 rtx_insn *last_args_size; | |
539 | |
540 /* A list of all prologue insns we have seen without intervening epilogue | |
541 insns, and one of all epilogue insns we have seen without intervening | |
542 prologue insns. This is used to prevent mixing prologue and epilogue | |
543 insns. See PR78029. */ | |
544 rtx_insn_list *last_prologue; | |
545 rtx_insn_list *last_epilogue; | |
546 | |
547 /* Whether the last *logue insn was an epilogue insn or a prologue insn | |
548 instead. */ | |
549 bool last_logue_was_epilogue; | |
0 | 550 |
551 /* The maximum register number for the following arrays. Before reload | |
552 this is max_reg_num; after reload it is FIRST_PSEUDO_REGISTER. */ | |
553 int max_reg; | |
554 | |
555 /* Element N is the next insn that sets (hard or pseudo) register | |
556 N within the current basic block; or zero, if there is no | |
557 such insn. Needed for new registers which may be introduced | |
558 by splitting insns. */ | |
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559 struct deps_reg *reg_last; |
0 | 560 |
561 /* Element N is set for each register that has any nonzero element | |
562 in reg_last[N].{uses,sets,clobbers}. */ | |
563 regset_head reg_last_in_use; | |
564 | |
565 /* Shows the last value of reg_pending_barrier associated with the insn. */ | |
566 enum reg_pending_barrier_mode last_reg_pending_barrier; | |
567 | |
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568 /* True when this context should be treated as a readonly by |
0 | 569 the analysis. */ |
570 BOOL_BITFIELD readonly : 1; | |
571 }; | |
572 | |
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573 typedef struct deps_desc *deps_t; |
0 | 574 |
575 /* This structure holds some state of the current scheduling pass, and | |
576 contains some function pointers that abstract out some of the non-generic | |
577 functionality from functions such as schedule_block or schedule_insn. | |
578 There is one global variable, current_sched_info, which points to the | |
579 sched_info structure currently in use. */ | |
580 struct haifa_sched_info | |
581 { | |
582 /* Add all insns that are initially ready to the ready list. Called once | |
583 before scheduling a set of insns. */ | |
584 void (*init_ready_list) (void); | |
585 /* Called after taking an insn from the ready list. Returns nonzero if | |
586 this insn can be scheduled, nonzero if we should silently discard it. */ | |
111 | 587 int (*can_schedule_ready_p) (rtx_insn *); |
0 | 588 /* Return nonzero if there are more insns that should be scheduled. */ |
589 int (*schedule_more_p) (void); | |
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590 /* Called after an insn has all its hard dependencies resolved. |
0 | 591 Adjusts status of instruction (which is passed through second parameter) |
592 to indicate if instruction should be moved to the ready list or the | |
593 queue, or if it should silently discard it (until next resolved | |
594 dependence). */ | |
111 | 595 ds_t (*new_ready) (rtx_insn *, ds_t); |
0 | 596 /* Compare priority of two insns. Return a positive number if the second |
597 insn is to be preferred for scheduling, and a negative one if the first | |
598 is to be preferred. Zero if they are equally good. */ | |
111 | 599 int (*rank) (rtx_insn *, rtx_insn *); |
0 | 600 /* Return a string that contains the insn uid and optionally anything else |
601 necessary to identify this insn in an output. It's valid to use a | |
602 static buffer for this. The ALIGNED parameter should cause the string | |
603 to be formatted so that multiple output lines will line up nicely. */ | |
111 | 604 const char *(*print_insn) (const rtx_insn *, int); |
0 | 605 /* Return nonzero if an insn should be included in priority |
606 calculations. */ | |
111 | 607 int (*contributes_to_priority) (rtx_insn *, rtx_insn *); |
0 | 608 |
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609 /* Return true if scheduling insn (passed as the parameter) will trigger |
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610 finish of scheduling current block. */ |
111 | 611 bool (*insn_finishes_block_p) (rtx_insn *); |
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612 |
0 | 613 /* The boundaries of the set of insns to be scheduled. */ |
111 | 614 rtx_insn *prev_head, *next_tail; |
0 | 615 |
616 /* Filled in after the schedule is finished; the first and last scheduled | |
617 insns. */ | |
111 | 618 rtx_insn *head, *tail; |
0 | 619 |
620 /* If nonzero, enables an additional sanity check in schedule_block. */ | |
621 unsigned int queue_must_finish_empty:1; | |
622 | |
623 /* Maximum priority that has been assigned to an insn. */ | |
624 int sched_max_insns_priority; | |
625 | |
626 /* Hooks to support speculative scheduling. */ | |
627 | |
628 /* Called to notify frontend that instruction is being added (second | |
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629 parameter == 0) or removed (second parameter == 1). */ |
111 | 630 void (*add_remove_insn) (rtx_insn *, int); |
631 | |
632 /* Called to notify the frontend that instruction INSN is being | |
633 scheduled. */ | |
634 void (*begin_schedule_ready) (rtx_insn *insn); | |
0 | 635 |
111 | 636 /* Called to notify the frontend that an instruction INSN is about to be |
637 moved to its correct place in the final schedule. This is done for all | |
638 insns in order of the schedule. LAST indicates the last scheduled | |
639 instruction. */ | |
640 void (*begin_move_insn) (rtx_insn *insn, rtx_insn *last); | |
0 | 641 |
642 /* If the second parameter is not NULL, return nonnull value, if the | |
643 basic block should be advanced. | |
644 If the second parameter is NULL, return the next basic block in EBB. | |
645 The first parameter is the current basic block in EBB. */ | |
111 | 646 basic_block (*advance_target_bb) (basic_block, rtx_insn *); |
647 | |
648 /* Allocate memory, store the frontend scheduler state in it, and | |
649 return it. */ | |
650 void *(*save_state) (void); | |
651 /* Restore frontend scheduler state from the argument, and free the | |
652 memory. */ | |
653 void (*restore_state) (void *); | |
0 | 654 |
655 /* ??? FIXME: should use straight bitfields inside sched_info instead of | |
656 this flag field. */ | |
657 unsigned int flags; | |
658 }; | |
659 | |
660 /* This structure holds description of the properties for speculative | |
661 scheduling. */ | |
662 struct spec_info_def | |
663 { | |
664 /* Holds types of allowed speculations: BEGIN_{DATA|CONTROL}, | |
665 BE_IN_{DATA_CONTROL}. */ | |
666 int mask; | |
667 | |
668 /* A dump file for additional information on speculative scheduling. */ | |
669 FILE *dump; | |
670 | |
671 /* Minimal cumulative weakness of speculative instruction's | |
672 dependencies, so that insn will be scheduled. */ | |
673 dw_t data_weakness_cutoff; | |
674 | |
675 /* Minimal usefulness of speculative instruction to be considered for | |
676 scheduling. */ | |
677 int control_weakness_cutoff; | |
678 | |
679 /* Flags from the enum SPEC_SCHED_FLAGS. */ | |
680 int flags; | |
681 }; | |
682 typedef struct spec_info_def *spec_info_t; | |
683 | |
684 extern spec_info_t spec_info; | |
685 | |
686 extern struct haifa_sched_info *current_sched_info; | |
687 | |
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688 /* Do register pressure sensitive insn scheduling if the flag is set |
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689 up. */ |
111 | 690 extern enum sched_pressure_algorithm sched_pressure; |
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691 |
111 | 692 /* Map regno -> its pressure class. The map defined only when |
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693 SCHED_PRESSURE_P is true. */ |
111 | 694 extern enum reg_class *sched_regno_pressure_class; |
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695 |
0 | 696 /* Indexed by INSN_UID, the collection of all data associated with |
697 a single instruction. */ | |
698 | |
699 struct _haifa_deps_insn_data | |
700 { | |
701 /* The number of incoming edges in the forward dependency graph. | |
702 As scheduling proceeds, counts are decreased. An insn moves to | |
703 the ready queue when its counter reaches zero. */ | |
704 int dep_count; | |
705 | |
706 /* Nonzero if instruction has internal dependence | |
707 (e.g. add_dependence was invoked with (insn == elem)). */ | |
708 unsigned int has_internal_dep; | |
709 | |
710 /* NB: We can't place 'struct _deps_list' here instead of deps_list_t into | |
711 h_i_d because when h_i_d extends, addresses of the deps_list->first | |
712 change without updating deps_list->first->next->prev_nextp. Thus | |
713 BACK_DEPS and RESOLVED_BACK_DEPS are allocated on the heap and FORW_DEPS | |
714 list is allocated on the obstack. */ | |
715 | |
716 /* A list of hard backward dependencies. The insn is a consumer of all the | |
717 deps mentioned here. */ | |
718 deps_list_t hard_back_deps; | |
719 | |
720 /* A list of speculative (weak) dependencies. The insn is a consumer of all | |
721 the deps mentioned here. */ | |
722 deps_list_t spec_back_deps; | |
723 | |
724 /* A list of insns which depend on the instruction. Unlike 'back_deps', | |
725 it represents forward dependencies. */ | |
726 deps_list_t forw_deps; | |
727 | |
728 /* A list of scheduled producers of the instruction. Links are being moved | |
729 from 'back_deps' to 'resolved_back_deps' while scheduling. */ | |
730 deps_list_t resolved_back_deps; | |
731 | |
732 /* A list of scheduled consumers of the instruction. Links are being moved | |
733 from 'forw_deps' to 'resolved_forw_deps' while scheduling to fasten the | |
734 search in 'forw_deps'. */ | |
735 deps_list_t resolved_forw_deps; | |
736 | |
111 | 737 /* If the insn is conditional (either through COND_EXEC, or because |
738 it is a conditional branch), this records the condition. NULL | |
739 for insns that haven't been seen yet or don't have a condition; | |
740 const_true_rtx to mark an insn without a condition, or with a | |
741 condition that has been clobbered by a subsequent insn. */ | |
742 rtx cond; | |
743 | |
744 /* For a conditional insn, a list of insns that could set the condition | |
745 register. Used when generating control dependencies. */ | |
746 rtx_insn_list *cond_deps; | |
747 | |
748 /* True if the condition in 'cond' should be reversed to get the actual | |
749 condition. */ | |
750 unsigned int reverse_cond : 1; | |
751 | |
0 | 752 /* Some insns (e.g. call) are not allowed to move across blocks. */ |
753 unsigned int cant_move : 1; | |
754 }; | |
755 | |
111 | 756 |
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757 /* Bits used for storing values of the fields in the following |
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758 structure. */ |
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759 #define INCREASE_BITS 8 |
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760 |
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761 /* The structure describes how the corresponding insn increases the |
111 | 762 register pressure for each pressure class. */ |
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763 struct reg_pressure_data |
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764 { |
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765 /* Pressure increase for given class because of clobber. */ |
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766 unsigned int clobber_increase : INCREASE_BITS; |
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767 /* Increase in register pressure for given class because of register |
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768 sets. */ |
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769 unsigned int set_increase : INCREASE_BITS; |
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770 /* Pressure increase for given class because of unused register |
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771 set. */ |
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772 unsigned int unused_set_increase : INCREASE_BITS; |
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773 /* Pressure change: #sets - #deaths. */ |
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774 int change : INCREASE_BITS; |
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775 }; |
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776 |
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777 /* The following structure describes usage of registers by insns. */ |
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778 struct reg_use_data |
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779 { |
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780 /* Regno used in the insn. */ |
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781 int regno; |
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782 /* Insn using the regno. */ |
111 | 783 rtx_insn *insn; |
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784 /* Cyclic list of elements with the same regno. */ |
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785 struct reg_use_data *next_regno_use; |
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786 /* List of elements with the same insn. */ |
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787 struct reg_use_data *next_insn_use; |
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788 }; |
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789 |
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790 /* The following structure describes used sets of registers by insns. |
111 | 791 Registers are pseudos whose pressure class is not NO_REGS or hard |
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792 registers available for allocations. */ |
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793 struct reg_set_data |
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794 { |
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795 /* Regno used in the insn. */ |
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796 int regno; |
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797 /* Insn setting the regno. */ |
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798 rtx insn; |
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799 /* List of elements with the same insn. */ |
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800 struct reg_set_data *next_insn_set; |
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801 }; |
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802 |
111 | 803 enum autopref_multipass_data_status { |
804 /* Entry is irrelevant for auto-prefetcher. */ | |
805 AUTOPREF_MULTIPASS_DATA_IRRELEVANT = -2, | |
806 /* Entry is uninitialized. */ | |
807 AUTOPREF_MULTIPASS_DATA_UNINITIALIZED = -1, | |
808 /* Entry is relevant for auto-prefetcher and insn can be delayed | |
809 to allow another insn through. */ | |
810 AUTOPREF_MULTIPASS_DATA_NORMAL = 0, | |
811 /* Entry is relevant for auto-prefetcher, but insn should not be | |
812 delayed as that will break scheduling. */ | |
813 AUTOPREF_MULTIPASS_DATA_DONT_DELAY = 1 | |
814 }; | |
815 | |
816 /* Data for modeling cache auto-prefetcher. */ | |
817 struct autopref_multipass_data_ | |
818 { | |
819 /* Base part of memory address. */ | |
820 rtx base; | |
821 | |
822 /* Memory offsets from the base. */ | |
823 int offset; | |
824 | |
825 /* Entry status. */ | |
826 enum autopref_multipass_data_status status; | |
827 }; | |
828 typedef struct autopref_multipass_data_ autopref_multipass_data_def; | |
829 typedef autopref_multipass_data_def *autopref_multipass_data_t; | |
830 | |
0 | 831 struct _haifa_insn_data |
832 { | |
833 /* We can't place 'struct _deps_list' into h_i_d instead of deps_list_t | |
834 because when h_i_d extends, addresses of the deps_list->first | |
835 change without updating deps_list->first->next->prev_nextp. */ | |
836 | |
837 /* Logical uid gives the original ordering of the insns. */ | |
838 int luid; | |
839 | |
840 /* A priority for each insn. */ | |
841 int priority; | |
842 | |
111 | 843 /* The fusion priority for each insn. */ |
844 int fusion_priority; | |
845 | |
0 | 846 /* The minimum clock tick at which the insn becomes ready. This is |
847 used to note timing constraints for the insns in the pending list. */ | |
848 int tick; | |
849 | |
111 | 850 /* For insns that are scheduled at a fixed difference from another, |
851 this records the tick in which they must be ready. */ | |
852 int exact_tick; | |
853 | |
0 | 854 /* INTER_TICK is used to adjust INSN_TICKs of instructions from the |
855 subsequent blocks in a region. */ | |
856 int inter_tick; | |
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857 |
111 | 858 /* Used temporarily to estimate an INSN_TICK value for an insn given |
859 current knowledge. */ | |
860 int tick_estimate; | |
861 | |
0 | 862 /* See comment on QUEUE_INDEX macro in haifa-sched.c. */ |
863 int queue_index; | |
864 | |
865 short cost; | |
866 | |
111 | 867 /* '> 0' if priority is valid, |
868 '== 0' if priority was not yet computed, | |
869 '< 0' if priority in invalid and should be recomputed. */ | |
870 signed char priority_status; | |
871 | |
0 | 872 /* Set if there's DEF-USE dependence between some speculatively |
873 moved load insn and this one. */ | |
874 unsigned int fed_by_spec_load : 1; | |
875 unsigned int is_load_insn : 1; | |
111 | 876 /* Nonzero if this insn has negative-cost forward dependencies against |
877 an already scheduled insn. */ | |
878 unsigned int feeds_backtrack_insn : 1; | |
0 | 879 |
111 | 880 /* Nonzero if this insn is a shadow of another, scheduled after a fixed |
881 delay. We only emit shadows at the end of a cycle, with no other | |
882 real insns following them. */ | |
883 unsigned int shadow_p : 1; | |
884 | |
885 /* Used internally in unschedule_insns_until to mark insns that must have | |
886 their TODO_SPEC recomputed. */ | |
887 unsigned int must_recompute_spec : 1; | |
0 | 888 |
889 /* What speculations are necessary to apply to schedule the instruction. */ | |
890 ds_t todo_spec; | |
891 | |
892 /* What speculations were already applied. */ | |
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893 ds_t done_spec; |
0 | 894 |
895 /* What speculations are checked by this instruction. */ | |
896 ds_t check_spec; | |
897 | |
898 /* Recovery block for speculation checks. */ | |
899 basic_block recovery_block; | |
900 | |
901 /* Original pattern of the instruction. */ | |
902 rtx orig_pat; | |
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903 |
111 | 904 /* For insns with DEP_CONTROL dependencies, the predicated pattern if it |
905 was ever successfully constructed. */ | |
906 rtx predicated_pat; | |
907 | |
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908 /* The following array contains info how the insn increases register |
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909 pressure. There is an element for each cover class of pseudos |
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910 referenced in insns. */ |
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911 struct reg_pressure_data *reg_pressure; |
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912 /* The following array contains maximal reg pressure between last |
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913 scheduled insn and given insn. There is an element for each |
111 | 914 pressure class of pseudos referenced in insns. This info updated |
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915 after scheduling each insn for each insn between the two |
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916 mentioned insns. */ |
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917 int *max_reg_pressure; |
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918 /* The following list contains info about used pseudos and hard |
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919 registers available for allocation. */ |
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920 struct reg_use_data *reg_use_list; |
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921 /* The following list contains info about set pseudos and hard |
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922 registers available for allocation. */ |
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923 struct reg_set_data *reg_set_list; |
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924 /* Info about how scheduling the insn changes cost of register |
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925 pressure excess (between source and target). */ |
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926 int reg_pressure_excess_cost_change; |
111 | 927 int model_index; |
928 | |
929 /* Original order of insns in the ready list. */ | |
930 int rfs_debug_orig_order; | |
931 | |
932 /* The deciding reason for INSN's place in the ready list. */ | |
933 int last_rfs_win; | |
934 | |
935 /* Two entries for cache auto-prefetcher model: one for mem reads, | |
936 and one for mem writes. */ | |
937 autopref_multipass_data_def autopref_multipass_data[2]; | |
0 | 938 }; |
939 | |
940 typedef struct _haifa_insn_data haifa_insn_data_def; | |
941 typedef haifa_insn_data_def *haifa_insn_data_t; | |
942 | |
943 | |
111 | 944 extern vec<haifa_insn_data_def> h_i_d; |
0 | 945 |
111 | 946 #define HID(INSN) (&h_i_d[INSN_UID (INSN)]) |
0 | 947 |
948 /* Accessor macros for h_i_d. There are more in haifa-sched.c and | |
949 sched-rgn.c. */ | |
950 #define INSN_PRIORITY(INSN) (HID (INSN)->priority) | |
111 | 951 #define INSN_FUSION_PRIORITY(INSN) (HID (INSN)->fusion_priority) |
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952 #define INSN_REG_PRESSURE(INSN) (HID (INSN)->reg_pressure) |
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953 #define INSN_MAX_REG_PRESSURE(INSN) (HID (INSN)->max_reg_pressure) |
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954 #define INSN_REG_USE_LIST(INSN) (HID (INSN)->reg_use_list) |
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955 #define INSN_REG_SET_LIST(INSN) (HID (INSN)->reg_set_list) |
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956 #define INSN_REG_PRESSURE_EXCESS_COST_CHANGE(INSN) \ |
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957 (HID (INSN)->reg_pressure_excess_cost_change) |
0 | 958 #define INSN_PRIORITY_STATUS(INSN) (HID (INSN)->priority_status) |
111 | 959 #define INSN_MODEL_INDEX(INSN) (HID (INSN)->model_index) |
960 #define INSN_AUTOPREF_MULTIPASS_DATA(INSN) \ | |
961 (HID (INSN)->autopref_multipass_data) | |
0 | 962 |
963 typedef struct _haifa_deps_insn_data haifa_deps_insn_data_def; | |
964 typedef haifa_deps_insn_data_def *haifa_deps_insn_data_t; | |
965 | |
966 | |
111 | 967 extern vec<haifa_deps_insn_data_def> h_d_i_d; |
0 | 968 |
111 | 969 #define HDID(INSN) (&h_d_i_d[INSN_LUID (INSN)]) |
0 | 970 #define INSN_DEP_COUNT(INSN) (HDID (INSN)->dep_count) |
971 #define HAS_INTERNAL_DEP(INSN) (HDID (INSN)->has_internal_dep) | |
972 #define INSN_FORW_DEPS(INSN) (HDID (INSN)->forw_deps) | |
973 #define INSN_RESOLVED_BACK_DEPS(INSN) (HDID (INSN)->resolved_back_deps) | |
974 #define INSN_RESOLVED_FORW_DEPS(INSN) (HDID (INSN)->resolved_forw_deps) | |
975 #define INSN_HARD_BACK_DEPS(INSN) (HDID (INSN)->hard_back_deps) | |
976 #define INSN_SPEC_BACK_DEPS(INSN) (HDID (INSN)->spec_back_deps) | |
111 | 977 #define INSN_CACHED_COND(INSN) (HDID (INSN)->cond) |
978 #define INSN_REVERSE_COND(INSN) (HDID (INSN)->reverse_cond) | |
979 #define INSN_COND_DEPS(INSN) (HDID (INSN)->cond_deps) | |
0 | 980 #define CANT_MOVE(INSN) (HDID (INSN)->cant_move) |
111 | 981 #define CANT_MOVE_BY_LUID(LUID) (h_d_i_d[LUID].cant_move) |
0 | 982 |
983 | |
984 #define INSN_PRIORITY(INSN) (HID (INSN)->priority) | |
985 #define INSN_PRIORITY_STATUS(INSN) (HID (INSN)->priority_status) | |
986 #define INSN_PRIORITY_KNOWN(INSN) (INSN_PRIORITY_STATUS (INSN) > 0) | |
987 #define TODO_SPEC(INSN) (HID (INSN)->todo_spec) | |
988 #define DONE_SPEC(INSN) (HID (INSN)->done_spec) | |
989 #define CHECK_SPEC(INSN) (HID (INSN)->check_spec) | |
990 #define RECOVERY_BLOCK(INSN) (HID (INSN)->recovery_block) | |
991 #define ORIG_PAT(INSN) (HID (INSN)->orig_pat) | |
111 | 992 #define PREDICATED_PAT(INSN) (HID (INSN)->predicated_pat) |
0 | 993 |
994 /* INSN is either a simple or a branchy speculation check. */ | |
995 #define IS_SPECULATION_CHECK_P(INSN) \ | |
996 (sel_sched_p () ? sel_insn_is_speculation_check (INSN) : RECOVERY_BLOCK (INSN) != NULL) | |
997 | |
998 /* INSN is a speculation check that will simply reexecute the speculatively | |
999 scheduled instruction if the speculation fails. */ | |
1000 #define IS_SPECULATION_SIMPLE_CHECK_P(INSN) \ | |
111 | 1001 (RECOVERY_BLOCK (INSN) == EXIT_BLOCK_PTR_FOR_FN (cfun)) |
0 | 1002 |
1003 /* INSN is a speculation check that will branch to RECOVERY_BLOCK if the | |
1004 speculation fails. Insns in that block will reexecute the speculatively | |
1005 scheduled code and then will return immediately after INSN thus preserving | |
1006 semantics of the program. */ | |
1007 #define IS_SPECULATION_BRANCHY_CHECK_P(INSN) \ | |
111 | 1008 (RECOVERY_BLOCK (INSN) != NULL \ |
1009 && RECOVERY_BLOCK (INSN) != EXIT_BLOCK_PTR_FOR_FN (cfun)) | |
1010 | |
1011 | |
1012 /* Dep status (aka ds_t) of the link encapsulates all information for a given | |
1013 dependency, including everything that is needed for speculative scheduling. | |
1014 | |
1015 The lay-out of a ds_t is as follows: | |
1016 | |
1017 1. Integers corresponding to the probability of the dependence to *not* | |
1018 exist. This is the probability that overcoming this dependence will | |
1019 not be followed by execution of the recovery code. Note that however | |
1020 high this probability is, the recovery code should still always be | |
1021 generated to preserve semantics of the program. | |
1022 | |
1023 The probability values can be set or retrieved using the functions | |
1024 the set_dep_weak() and get_dep_weak() in sched-deps.c. The values | |
1025 are always in the range [0, MAX_DEP_WEAK]. | |
0 | 1026 |
111 | 1027 BEGIN_DATA : BITS_PER_DEP_WEAK |
1028 BE_IN_DATA : BITS_PER_DEP_WEAK | |
1029 BEGIN_CONTROL : BITS_PER_DEP_WEAK | |
1030 BE_IN_CONTROL : BITS_PER_DEP_WEAK | |
1031 | |
1032 The basic type of DS_T is a host int. For a 32-bits int, the values | |
1033 will each take 6 bits. | |
1034 | |
1035 2. The type of dependence. This supercedes the old-style REG_NOTE_KIND | |
1036 values. TODO: Use this field instead of DEP_TYPE, or make DEP_TYPE | |
1037 extract the dependence type from here. | |
1038 | |
1039 dep_type : 4 => DEP_{TRUE|OUTPUT|ANTI|CONTROL} | |
1040 | |
1041 3. Various flags: | |
1042 | |
1043 HARD_DEP : 1 => Set if an instruction has a non-speculative | |
1044 dependence. This is an instruction property | |
1045 so this bit can only appear in the TODO_SPEC | |
1046 field of an instruction. | |
1047 DEP_POSTPONED : 1 => Like HARD_DEP, but the hard dependence may | |
1048 still be broken by adjusting the instruction. | |
1049 DEP_CANCELLED : 1 => Set if a dependency has been broken using | |
1050 some form of speculation. | |
1051 RESERVED : 1 => Reserved for use in the delay slot scheduler. | |
1052 | |
0 | 1053 See also: check_dep_status () in sched-deps.c . */ |
1054 | |
111 | 1055 /* The number of bits per weakness probability. There are 4 weakness types |
1056 and we need 8 bits for other data in a DS_T. */ | |
1057 #define BITS_PER_DEP_WEAK ((BITS_PER_DEP_STATUS - 8) / 4) | |
0 | 1058 |
1059 /* Mask of speculative weakness in dep_status. */ | |
1060 #define DEP_WEAK_MASK ((1 << BITS_PER_DEP_WEAK) - 1) | |
1061 | |
1062 /* This constant means that dependence is fake with 99.999...% probability. | |
1063 This is the maximum value, that can appear in dep_status. | |
1064 Note, that we don't want MAX_DEP_WEAK to be the same as DEP_WEAK_MASK for | |
1065 debugging reasons. Though, it can be set to DEP_WEAK_MASK, and, when | |
1066 done so, we'll get fast (mul for)/(div by) NO_DEP_WEAK. */ | |
1067 #define MAX_DEP_WEAK (DEP_WEAK_MASK - 1) | |
1068 | |
1069 /* This constant means that dependence is 99.999...% real and it is a really | |
1070 bad idea to overcome it (though this can be done, preserving program | |
1071 semantics). */ | |
1072 #define MIN_DEP_WEAK 1 | |
1073 | |
1074 /* This constant represents 100% probability. | |
111 | 1075 E.g. it is used to represent weakness of dependence, that doesn't exist. |
1076 This value never appears in a ds_t, it is only used for computing the | |
1077 weakness of a dependence. */ | |
0 | 1078 #define NO_DEP_WEAK (MAX_DEP_WEAK + MIN_DEP_WEAK) |
1079 | |
1080 /* Default weakness of speculative dependence. Used when we can't say | |
1081 neither bad nor good about the dependence. */ | |
1082 #define UNCERTAIN_DEP_WEAK (MAX_DEP_WEAK - MAX_DEP_WEAK / 4) | |
1083 | |
1084 /* Offset for speculative weaknesses in dep_status. */ | |
1085 enum SPEC_TYPES_OFFSETS { | |
1086 BEGIN_DATA_BITS_OFFSET = 0, | |
1087 BE_IN_DATA_BITS_OFFSET = BEGIN_DATA_BITS_OFFSET + BITS_PER_DEP_WEAK, | |
1088 BEGIN_CONTROL_BITS_OFFSET = BE_IN_DATA_BITS_OFFSET + BITS_PER_DEP_WEAK, | |
1089 BE_IN_CONTROL_BITS_OFFSET = BEGIN_CONTROL_BITS_OFFSET + BITS_PER_DEP_WEAK | |
1090 }; | |
1091 | |
111 | 1092 /* The following defines provide numerous constants used to distinguish |
1093 between different types of speculative dependencies. They are also | |
1094 used as masks to clear/preserve the bits corresponding to the type | |
1095 of dependency weakness. */ | |
0 | 1096 |
1097 /* Dependence can be overcome with generation of new data speculative | |
1098 instruction. */ | |
1099 #define BEGIN_DATA (((ds_t) DEP_WEAK_MASK) << BEGIN_DATA_BITS_OFFSET) | |
1100 | |
1101 /* This dependence is to the instruction in the recovery block, that was | |
1102 formed to recover after data-speculation failure. | |
1103 Thus, this dependence can overcome with generating of the copy of | |
1104 this instruction in the recovery block. */ | |
1105 #define BE_IN_DATA (((ds_t) DEP_WEAK_MASK) << BE_IN_DATA_BITS_OFFSET) | |
1106 | |
1107 /* Dependence can be overcome with generation of new control speculative | |
1108 instruction. */ | |
1109 #define BEGIN_CONTROL (((ds_t) DEP_WEAK_MASK) << BEGIN_CONTROL_BITS_OFFSET) | |
1110 | |
1111 /* This dependence is to the instruction in the recovery block, that was | |
1112 formed to recover after control-speculation failure. | |
1113 Thus, this dependence can be overcome with generating of the copy of | |
1114 this instruction in the recovery block. */ | |
1115 #define BE_IN_CONTROL (((ds_t) DEP_WEAK_MASK) << BE_IN_CONTROL_BITS_OFFSET) | |
1116 | |
1117 /* A few convenient combinations. */ | |
1118 #define BEGIN_SPEC (BEGIN_DATA | BEGIN_CONTROL) | |
1119 #define DATA_SPEC (BEGIN_DATA | BE_IN_DATA) | |
1120 #define CONTROL_SPEC (BEGIN_CONTROL | BE_IN_CONTROL) | |
1121 #define SPECULATIVE (DATA_SPEC | CONTROL_SPEC) | |
1122 #define BE_IN_SPEC (BE_IN_DATA | BE_IN_CONTROL) | |
1123 | |
1124 /* Constants, that are helpful in iterating through dep_status. */ | |
1125 #define FIRST_SPEC_TYPE BEGIN_DATA | |
1126 #define LAST_SPEC_TYPE BE_IN_CONTROL | |
1127 #define SPEC_TYPE_SHIFT BITS_PER_DEP_WEAK | |
1128 | |
1129 /* Dependence on instruction can be of multiple types | |
1130 (e.g. true and output). This fields enhance REG_NOTE_KIND information | |
1131 of the dependence. */ | |
1132 #define DEP_TRUE (((ds_t) 1) << (BE_IN_CONTROL_BITS_OFFSET + BITS_PER_DEP_WEAK)) | |
1133 #define DEP_OUTPUT (DEP_TRUE << 1) | |
1134 #define DEP_ANTI (DEP_OUTPUT << 1) | |
111 | 1135 #define DEP_CONTROL (DEP_ANTI << 1) |
0 | 1136 |
111 | 1137 #define DEP_TYPES (DEP_TRUE | DEP_OUTPUT | DEP_ANTI | DEP_CONTROL) |
0 | 1138 |
1139 /* Instruction has non-speculative dependence. This bit represents the | |
1140 property of an instruction - not the one of a dependence. | |
111 | 1141 Therefore, it can appear only in the TODO_SPEC field of an instruction. */ |
1142 #define HARD_DEP (DEP_CONTROL << 1) | |
1143 | |
1144 /* Like HARD_DEP, but dependencies can perhaps be broken by modifying | |
1145 the instructions. This is used for example to change: | |
1146 | |
1147 rn++ => rm=[rn + 4] | |
1148 rm=[rn] rn++ | |
0 | 1149 |
111 | 1150 For instructions that have this bit set, one of the dependencies of |
1151 the instructions will have a non-NULL REPLACE field in its DEP_T. | |
1152 Just like HARD_DEP, this bit is only ever set in TODO_SPEC. */ | |
1153 #define DEP_POSTPONED (HARD_DEP << 1) | |
1154 | |
1155 /* Set if a dependency is cancelled via speculation. */ | |
1156 #define DEP_CANCELLED (DEP_POSTPONED << 1) | |
1157 | |
1158 | |
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1159 /* This represents the results of calling sched-deps.c functions, |
0 | 1160 which modify dependencies. */ |
1161 enum DEPS_ADJUST_RESULT { | |
1162 /* No dependence needed (e.g. producer == consumer). */ | |
1163 DEP_NODEP, | |
1164 /* Dependence is already present and wasn't modified. */ | |
1165 DEP_PRESENT, | |
1166 /* Existing dependence was modified to include additional information. */ | |
1167 DEP_CHANGED, | |
1168 /* New dependence has been created. */ | |
1169 DEP_CREATED | |
1170 }; | |
1171 | |
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1172 /* Represents the bits that can be set in the flags field of the |
0 | 1173 sched_info structure. */ |
1174 enum SCHED_FLAGS { | |
1175 /* If set, generate links between instruction as DEPS_LIST. | |
1176 Otherwise, generate usual INSN_LIST links. */ | |
1177 USE_DEPS_LIST = 1, | |
1178 /* Perform data or control (or both) speculation. | |
1179 Results in generation of data and control speculative dependencies. | |
1180 Requires USE_DEPS_LIST set. */ | |
1181 DO_SPECULATION = USE_DEPS_LIST << 1, | |
111 | 1182 DO_BACKTRACKING = DO_SPECULATION << 1, |
1183 DO_PREDICATION = DO_BACKTRACKING << 1, | |
1184 DONT_BREAK_DEPENDENCIES = DO_PREDICATION << 1, | |
1185 SCHED_RGN = DONT_BREAK_DEPENDENCIES << 1, | |
0 | 1186 SCHED_EBB = SCHED_RGN << 1, |
1187 /* Scheduler can possibly create new basic blocks. Used for assertions. */ | |
1188 NEW_BBS = SCHED_EBB << 1, | |
1189 SEL_SCHED = NEW_BBS << 1 | |
1190 }; | |
1191 | |
1192 enum SPEC_SCHED_FLAGS { | |
1193 COUNT_SPEC_IN_CRITICAL_PATH = 1, | |
111 | 1194 SEL_SCHED_SPEC_DONT_CHECK_CONTROL = COUNT_SPEC_IN_CRITICAL_PATH << 1 |
0 | 1195 }; |
1196 | |
1197 #define NOTE_NOT_BB_P(NOTE) (NOTE_P (NOTE) && (NOTE_KIND (NOTE) \ | |
1198 != NOTE_INSN_BASIC_BLOCK)) | |
1199 | |
1200 extern FILE *sched_dump; | |
1201 extern int sched_verbose; | |
1202 | |
1203 extern spec_info_t spec_info; | |
1204 extern bool haifa_recovery_bb_ever_added_p; | |
1205 | |
1206 /* Exception Free Loads: | |
1207 | |
1208 We define five classes of speculative loads: IFREE, IRISKY, | |
1209 PFREE, PRISKY, and MFREE. | |
1210 | |
1211 IFREE loads are loads that are proved to be exception-free, just | |
1212 by examining the load insn. Examples for such loads are loads | |
1213 from TOC and loads of global data. | |
1214 | |
1215 IRISKY loads are loads that are proved to be exception-risky, | |
1216 just by examining the load insn. Examples for such loads are | |
1217 volatile loads and loads from shared memory. | |
1218 | |
1219 PFREE loads are loads for which we can prove, by examining other | |
1220 insns, that they are exception-free. Currently, this class consists | |
1221 of loads for which we are able to find a "similar load", either in | |
1222 the target block, or, if only one split-block exists, in that split | |
1223 block. Load2 is similar to load1 if both have same single base | |
1224 register. We identify only part of the similar loads, by finding | |
1225 an insn upon which both load1 and load2 have a DEF-USE dependence. | |
1226 | |
1227 PRISKY loads are loads for which we can prove, by examining other | |
1228 insns, that they are exception-risky. Currently we have two proofs for | |
1229 such loads. The first proof detects loads that are probably guarded by a | |
1230 test on the memory address. This proof is based on the | |
1231 backward and forward data dependence information for the region. | |
1232 Let load-insn be the examined load. | |
1233 Load-insn is PRISKY iff ALL the following hold: | |
1234 | |
1235 - insn1 is not in the same block as load-insn | |
1236 - there is a DEF-USE dependence chain (insn1, ..., load-insn) | |
1237 - test-insn is either a compare or a branch, not in the same block | |
1238 as load-insn | |
1239 - load-insn is reachable from test-insn | |
1240 - there is a DEF-USE dependence chain (insn1, ..., test-insn) | |
1241 | |
1242 This proof might fail when the compare and the load are fed | |
1243 by an insn not in the region. To solve this, we will add to this | |
1244 group all loads that have no input DEF-USE dependence. | |
1245 | |
1246 The second proof detects loads that are directly or indirectly | |
1247 fed by a speculative load. This proof is affected by the | |
1248 scheduling process. We will use the flag fed_by_spec_load. | |
1249 Initially, all insns have this flag reset. After a speculative | |
1250 motion of an insn, if insn is either a load, or marked as | |
1251 fed_by_spec_load, we will also mark as fed_by_spec_load every | |
1252 insn1 for which a DEF-USE dependence (insn, insn1) exists. A | |
1253 load which is fed_by_spec_load is also PRISKY. | |
1254 | |
1255 MFREE (maybe-free) loads are all the remaining loads. They may be | |
1256 exception-free, but we cannot prove it. | |
1257 | |
1258 Now, all loads in IFREE and PFREE classes are considered | |
1259 exception-free, while all loads in IRISKY and PRISKY classes are | |
1260 considered exception-risky. As for loads in the MFREE class, | |
1261 these are considered either exception-free or exception-risky, | |
1262 depending on whether we are pessimistic or optimistic. We have | |
1263 to take the pessimistic approach to assure the safety of | |
1264 speculative scheduling, but we can take the optimistic approach | |
1265 by invoking the -fsched_spec_load_dangerous option. */ | |
1266 | |
1267 enum INSN_TRAP_CLASS | |
1268 { | |
1269 TRAP_FREE = 0, IFREE = 1, PFREE_CANDIDATE = 2, | |
1270 PRISKY_CANDIDATE = 3, IRISKY = 4, TRAP_RISKY = 5 | |
1271 }; | |
1272 | |
1273 #define WORST_CLASS(class1, class2) \ | |
1274 ((class1 > class2) ? class1 : class2) | |
1275 | |
1276 #ifndef __GNUC__ | |
1277 #define __inline | |
1278 #endif | |
1279 | |
1280 #ifndef HAIFA_INLINE | |
1281 #define HAIFA_INLINE __inline | |
1282 #endif | |
1283 | |
1284 struct sched_deps_info_def | |
1285 { | |
1286 /* Called when computing dependencies for a JUMP_INSN. This function | |
1287 should store the set of registers that must be considered as set by | |
1288 the jump in the regset. */ | |
111 | 1289 void (*compute_jump_reg_dependencies) (rtx, regset); |
0 | 1290 |
1291 /* Start analyzing insn. */ | |
111 | 1292 void (*start_insn) (rtx_insn *); |
0 | 1293 |
1294 /* Finish analyzing insn. */ | |
1295 void (*finish_insn) (void); | |
1296 | |
1297 /* Start analyzing insn LHS (Left Hand Side). */ | |
1298 void (*start_lhs) (rtx); | |
1299 | |
1300 /* Finish analyzing insn LHS. */ | |
1301 void (*finish_lhs) (void); | |
1302 | |
1303 /* Start analyzing insn RHS (Right Hand Side). */ | |
1304 void (*start_rhs) (rtx); | |
1305 | |
1306 /* Finish analyzing insn RHS. */ | |
1307 void (*finish_rhs) (void); | |
1308 | |
1309 /* Note set of the register. */ | |
1310 void (*note_reg_set) (int); | |
1311 | |
1312 /* Note clobber of the register. */ | |
1313 void (*note_reg_clobber) (int); | |
1314 | |
1315 /* Note use of the register. */ | |
1316 void (*note_reg_use) (int); | |
1317 | |
1318 /* Note memory dependence of type DS between MEM1 and MEM2 (which is | |
1319 in the INSN2). */ | |
111 | 1320 void (*note_mem_dep) (rtx mem1, rtx mem2, rtx_insn *insn2, ds_t ds); |
0 | 1321 |
1322 /* Note a dependence of type DS from the INSN. */ | |
111 | 1323 void (*note_dep) (rtx_insn *, ds_t ds); |
0 | 1324 |
1325 /* Nonzero if we should use cselib for better alias analysis. This | |
1326 must be 0 if the dependency information is used after sched_analyze | |
1327 has completed, e.g. if we're using it to initialize state for successor | |
1328 blocks in region scheduling. */ | |
1329 unsigned int use_cselib : 1; | |
1330 | |
1331 /* If set, generate links between instruction as DEPS_LIST. | |
1332 Otherwise, generate usual INSN_LIST links. */ | |
1333 unsigned int use_deps_list : 1; | |
1334 | |
1335 /* Generate data and control speculative dependencies. | |
1336 Requires USE_DEPS_LIST set. */ | |
1337 unsigned int generate_spec_deps : 1; | |
1338 }; | |
1339 | |
1340 extern struct sched_deps_info_def *sched_deps_info; | |
1341 | |
1342 | |
1343 /* Functions in sched-deps.c. */ | |
111 | 1344 extern rtx sched_get_reverse_condition_uncached (const rtx_insn *); |
1345 extern bool sched_insns_conditions_mutex_p (const rtx_insn *, | |
1346 const rtx_insn *); | |
1347 extern bool sched_insn_is_legitimate_for_speculation_p (const rtx_insn *, ds_t); | |
1348 extern void add_dependence (rtx_insn *, rtx_insn *, enum reg_note); | |
1349 extern void sched_analyze (struct deps_desc *, rtx_insn *, rtx_insn *); | |
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1350 extern void init_deps (struct deps_desc *, bool); |
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1351 extern void init_deps_reg_last (struct deps_desc *); |
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1352 extern void free_deps (struct deps_desc *); |
0 | 1353 extern void init_deps_global (void); |
1354 extern void finish_deps_global (void); | |
111 | 1355 extern void deps_analyze_insn (struct deps_desc *, rtx_insn *); |
1356 extern void remove_from_deps (struct deps_desc *, rtx_insn *); | |
1357 extern void init_insn_reg_pressure_info (rtx_insn *); | |
1358 extern void get_implicit_reg_pending_clobbers (HARD_REG_SET *, rtx_insn *); | |
0 | 1359 |
1360 extern dw_t get_dep_weak (ds_t, ds_t); | |
1361 extern ds_t set_dep_weak (ds_t, ds_t, dw_t); | |
1362 extern dw_t estimate_dep_weak (rtx, rtx); | |
1363 extern ds_t ds_merge (ds_t, ds_t); | |
1364 extern ds_t ds_full_merge (ds_t, ds_t, rtx, rtx); | |
1365 extern ds_t ds_max_merge (ds_t, ds_t); | |
1366 extern dw_t ds_weak (ds_t); | |
1367 extern ds_t ds_get_speculation_types (ds_t); | |
1368 extern ds_t ds_get_max_dep_weak (ds_t); | |
1369 | |
1370 extern void sched_deps_init (bool); | |
1371 extern void sched_deps_finish (void); | |
1372 | |
1373 extern void haifa_note_reg_set (int); | |
1374 extern void haifa_note_reg_clobber (int); | |
1375 extern void haifa_note_reg_use (int); | |
1376 | |
1377 extern void maybe_extend_reg_info_p (void); | |
1378 | |
111 | 1379 extern void deps_start_bb (struct deps_desc *, rtx_insn *); |
0 | 1380 extern enum reg_note ds_to_dt (ds_t); |
1381 | |
1382 extern bool deps_pools_are_empty_p (void); | |
111 | 1383 extern void sched_free_deps (rtx_insn *, rtx_insn *, bool); |
0 | 1384 extern void extend_dependency_caches (int, bool); |
1385 | |
1386 extern void debug_ds (ds_t); | |
1387 | |
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1388 |
0 | 1389 /* Functions in haifa-sched.c. */ |
111 | 1390 extern void initialize_live_range_shrinkage (void); |
1391 extern void finish_live_range_shrinkage (void); | |
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1392 extern void sched_init_region_reg_pressure_info (void); |
111 | 1393 extern void free_global_sched_pressure_data (void); |
0 | 1394 extern int haifa_classify_insn (const_rtx); |
111 | 1395 extern void get_ebb_head_tail (basic_block, basic_block, |
1396 rtx_insn **, rtx_insn **); | |
1397 extern int no_real_insns_p (const rtx_insn *, const rtx_insn *); | |
0 | 1398 |
111 | 1399 extern int insn_sched_cost (rtx_insn *); |
0 | 1400 extern int dep_cost_1 (dep_t, dw_t); |
1401 extern int dep_cost (dep_t); | |
111 | 1402 extern int set_priorities (rtx_insn *, rtx_insn *); |
0 | 1403 |
111 | 1404 extern void sched_setup_bb_reg_pressure_info (basic_block, rtx_insn *); |
1405 extern bool schedule_block (basic_block *, state_t); | |
0 | 1406 |
1407 extern int cycle_issued_insns; | |
1408 extern int issue_rate; | |
1409 extern int dfa_lookahead; | |
1410 | |
111 | 1411 extern int autopref_multipass_dfa_lookahead_guard (rtx_insn *, int); |
0 | 1412 |
111 | 1413 extern rtx_insn *ready_element (struct ready_list *, int); |
1414 extern rtx_insn **ready_lastpos (struct ready_list *); | |
1415 | |
1416 extern int try_ready (rtx_insn *); | |
0 | 1417 extern void sched_extend_ready_list (int); |
1418 extern void sched_finish_ready_list (void); | |
1419 extern void sched_change_pattern (rtx, rtx); | |
111 | 1420 extern int sched_speculate_insn (rtx_insn *, ds_t, rtx *); |
0 | 1421 extern void unlink_bb_notes (basic_block, basic_block); |
1422 extern void add_block (basic_block, basic_block); | |
111 | 1423 extern rtx_note *bb_note (basic_block); |
1424 extern void concat_note_lists (rtx_insn *, rtx_insn **); | |
1425 extern rtx_insn *sched_emit_insn (rtx); | |
1426 extern rtx_insn *get_ready_element (int); | |
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1427 extern int number_in_ready (void); |
0 | 1428 |
111 | 1429 /* Types and functions in sched-ebb.c. */ |
0 | 1430 |
111 | 1431 extern basic_block schedule_ebb (rtx_insn *, rtx_insn *, bool); |
1432 extern void schedule_ebbs_init (void); | |
1433 extern void schedule_ebbs_finish (void); | |
1434 | |
0 | 1435 /* Types and functions in sched-rgn.c. */ |
1436 | |
1437 /* A region is the main entity for interblock scheduling: insns | |
1438 are allowed to move between blocks in the same region, along | |
1439 control flow graph edges, in the 'up' direction. */ | |
111 | 1440 struct region |
0 | 1441 { |
1442 /* Number of extended basic blocks in region. */ | |
1443 int rgn_nr_blocks; | |
1444 /* cblocks in the region (actually index in rgn_bb_table). */ | |
1445 int rgn_blocks; | |
1446 /* Dependencies for this region are already computed. Basically, indicates, | |
1447 that this is a recovery block. */ | |
1448 unsigned int dont_calc_deps : 1; | |
1449 /* This region has at least one non-trivial ebb. */ | |
1450 unsigned int has_real_ebb : 1; | |
111 | 1451 }; |
0 | 1452 |
1453 extern int nr_regions; | |
1454 extern region *rgn_table; | |
1455 extern int *rgn_bb_table; | |
1456 extern int *block_to_bb; | |
1457 extern int *containing_rgn; | |
1458 | |
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1459 /* Often used short-hand in the scheduler. The rest of the compiler uses |
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1460 BLOCK_FOR_INSN(INSN) and an indirect reference to get the basic block |
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1461 number ("index"). For historical reasons, the scheduler does not. */ |
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1462 #define BLOCK_NUM(INSN) (BLOCK_FOR_INSN (INSN)->index + 0) |
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1463 |
0 | 1464 #define RGN_NR_BLOCKS(rgn) (rgn_table[rgn].rgn_nr_blocks) |
1465 #define RGN_BLOCKS(rgn) (rgn_table[rgn].rgn_blocks) | |
1466 #define RGN_DONT_CALC_DEPS(rgn) (rgn_table[rgn].dont_calc_deps) | |
1467 #define RGN_HAS_REAL_EBB(rgn) (rgn_table[rgn].has_real_ebb) | |
1468 #define BLOCK_TO_BB(block) (block_to_bb[block]) | |
1469 #define CONTAINING_RGN(block) (containing_rgn[block]) | |
1470 | |
1471 /* The mapping from ebb to block. */ | |
1472 extern int *ebb_head; | |
1473 #define BB_TO_BLOCK(ebb) (rgn_bb_table[ebb_head[ebb]]) | |
111 | 1474 #define EBB_FIRST_BB(ebb) BASIC_BLOCK_FOR_FN (cfun, BB_TO_BLOCK (ebb)) |
1475 #define EBB_LAST_BB(ebb) \ | |
1476 BASIC_BLOCK_FOR_FN (cfun, rgn_bb_table[ebb_head[ebb + 1] - 1]) | |
0 | 1477 #define INSN_BB(INSN) (BLOCK_TO_BB (BLOCK_NUM (INSN))) |
1478 | |
1479 extern int current_nr_blocks; | |
1480 extern int current_blocks; | |
1481 extern int target_bb; | |
111 | 1482 extern bool sched_no_dce; |
0 | 1483 |
111 | 1484 extern void set_modulo_params (int, int, int, int); |
1485 extern void record_delay_slot_pair (rtx_insn *, rtx_insn *, int, int); | |
1486 extern rtx_insn *real_insn_for_shadow (rtx_insn *); | |
1487 extern void discard_delay_pairs_above (int); | |
1488 extern void free_delay_pairs (void); | |
1489 extern void add_delay_dependencies (rtx_insn *); | |
0 | 1490 extern bool sched_is_disabled_for_current_region_p (void); |
1491 extern void sched_rgn_init (bool); | |
1492 extern void sched_rgn_finish (void); | |
1493 extern void rgn_setup_region (int); | |
1494 extern void sched_rgn_compute_dependencies (int); | |
1495 extern void sched_rgn_local_init (int); | |
1496 extern void sched_rgn_local_finish (void); | |
1497 extern void sched_rgn_local_free (void); | |
1498 extern void extend_regions (void); | |
1499 extern void rgn_make_new_region_out_of_new_block (basic_block); | |
1500 | |
1501 extern void compute_priorities (void); | |
111 | 1502 extern void increase_insn_priority (rtx_insn *, int); |
0 | 1503 extern void debug_rgn_dependencies (int); |
111 | 1504 extern void debug_dependencies (rtx_insn *, rtx_insn *); |
1505 extern void dump_rgn_dependencies_dot (FILE *); | |
1506 extern void dump_rgn_dependencies_dot (const char *); | |
1507 | |
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1508 extern void free_rgn_deps (void); |
111 | 1509 extern int contributes_to_priority (rtx_insn *, rtx_insn *); |
0 | 1510 extern void extend_rgns (int *, int *, sbitmap, int *); |
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1511 extern void deps_join (struct deps_desc *, struct deps_desc *); |
0 | 1512 |
1513 extern void rgn_setup_common_sched_info (void); | |
1514 extern void rgn_setup_sched_infos (void); | |
1515 | |
1516 extern void debug_regions (void); | |
1517 extern void debug_region (int); | |
1518 extern void dump_region_dot (FILE *, int); | |
1519 extern void dump_region_dot_file (const char *, int); | |
1520 | |
1521 extern void haifa_sched_init (void); | |
1522 extern void haifa_sched_finish (void); | |
1523 | |
111 | 1524 extern void find_modifiable_mems (rtx_insn *, rtx_insn *); |
1525 | |
0 | 1526 /* sched-deps.c interface to walk, add, search, update, resolve, delete |
1527 and debug instruction dependencies. */ | |
1528 | |
1529 /* Constants defining dependences lists. */ | |
1530 | |
1531 /* No list. */ | |
1532 #define SD_LIST_NONE (0) | |
1533 | |
1534 /* hard_back_deps. */ | |
1535 #define SD_LIST_HARD_BACK (1) | |
1536 | |
1537 /* spec_back_deps. */ | |
1538 #define SD_LIST_SPEC_BACK (2) | |
1539 | |
1540 /* forw_deps. */ | |
1541 #define SD_LIST_FORW (4) | |
1542 | |
1543 /* resolved_back_deps. */ | |
1544 #define SD_LIST_RES_BACK (8) | |
1545 | |
1546 /* resolved_forw_deps. */ | |
1547 #define SD_LIST_RES_FORW (16) | |
1548 | |
1549 #define SD_LIST_BACK (SD_LIST_HARD_BACK | SD_LIST_SPEC_BACK) | |
1550 | |
1551 /* A type to hold above flags. */ | |
1552 typedef int sd_list_types_def; | |
1553 | |
1554 extern void sd_next_list (const_rtx, sd_list_types_def *, deps_list_t *, bool *); | |
1555 | |
1556 /* Iterator to walk through, resolve and delete dependencies. */ | |
1557 struct _sd_iterator | |
1558 { | |
1559 /* What lists to walk. Can be any combination of SD_LIST_* flags. */ | |
1560 sd_list_types_def types; | |
1561 | |
1562 /* Instruction dependencies lists of which will be walked. */ | |
1563 rtx insn; | |
1564 | |
1565 /* Pointer to the next field of the previous element. This is not | |
1566 simply a pointer to the next element to allow easy deletion from the | |
1567 list. When a dep is being removed from the list the iterator | |
1568 will automatically advance because the value in *linkp will start | |
1569 referring to the next element. */ | |
1570 dep_link_t *linkp; | |
1571 | |
1572 /* True if the current list is a resolved one. */ | |
1573 bool resolved_p; | |
1574 }; | |
1575 | |
1576 typedef struct _sd_iterator sd_iterator_def; | |
1577 | |
1578 /* ??? We can move some definitions that are used in below inline functions | |
1579 out of sched-int.h to sched-deps.c provided that the below functions will | |
1580 become global externals. | |
1581 These definitions include: | |
1582 * struct _deps_list: opaque pointer is needed at global scope. | |
1583 * struct _dep_link: opaque pointer is needed at scope of sd_iterator_def. | |
1584 * struct _dep_node: opaque pointer is needed at scope of | |
1585 struct _deps_link. */ | |
1586 | |
1587 /* Return initialized iterator. */ | |
1588 static inline sd_iterator_def | |
1589 sd_iterator_start (rtx insn, sd_list_types_def types) | |
1590 { | |
1591 /* Some dep_link a pointer to which will return NULL. */ | |
1592 static dep_link_t null_link = NULL; | |
1593 | |
1594 sd_iterator_def i; | |
1595 | |
1596 i.types = types; | |
1597 i.insn = insn; | |
1598 i.linkp = &null_link; | |
1599 | |
1600 /* Avoid 'uninitialized warning'. */ | |
1601 i.resolved_p = false; | |
1602 | |
1603 return i; | |
1604 } | |
1605 | |
1606 /* Return the current element. */ | |
1607 static inline bool | |
1608 sd_iterator_cond (sd_iterator_def *it_ptr, dep_t *dep_ptr) | |
1609 { | |
111 | 1610 while (true) |
0 | 1611 { |
111 | 1612 dep_link_t link = *it_ptr->linkp; |
0 | 1613 |
111 | 1614 if (link != NULL) |
1615 { | |
1616 *dep_ptr = DEP_LINK_DEP (link); | |
1617 return true; | |
1618 } | |
1619 else | |
0 | 1620 { |
111 | 1621 sd_list_types_def types = it_ptr->types; |
0 | 1622 |
111 | 1623 if (types != SD_LIST_NONE) |
1624 /* Switch to next list. */ | |
1625 { | |
1626 deps_list_t list; | |
0 | 1627 |
111 | 1628 sd_next_list (it_ptr->insn, |
1629 &it_ptr->types, &list, &it_ptr->resolved_p); | |
0 | 1630 |
111 | 1631 if (list) |
1632 { | |
1633 it_ptr->linkp = &DEPS_LIST_FIRST (list); | |
1634 continue; | |
1635 } | |
1636 } | |
0 | 1637 |
111 | 1638 *dep_ptr = NULL; |
1639 return false; | |
1640 } | |
1641 } | |
0 | 1642 } |
1643 | |
1644 /* Advance iterator. */ | |
1645 static inline void | |
1646 sd_iterator_next (sd_iterator_def *it_ptr) | |
1647 { | |
1648 it_ptr->linkp = &DEP_LINK_NEXT (*it_ptr->linkp); | |
1649 } | |
1650 | |
1651 /* A cycle wrapper. */ | |
1652 #define FOR_EACH_DEP(INSN, LIST_TYPES, ITER, DEP) \ | |
1653 for ((ITER) = sd_iterator_start ((INSN), (LIST_TYPES)); \ | |
1654 sd_iterator_cond (&(ITER), &(DEP)); \ | |
1655 sd_iterator_next (&(ITER))) | |
1656 | |
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1657 #define IS_DISPATCH_ON 1 |
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1658 #define IS_CMP 2 |
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1659 #define DISPATCH_VIOLATION 3 |
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1660 #define FITS_DISPATCH_WINDOW 4 |
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1661 #define DISPATCH_INIT 5 |
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1662 #define ADD_TO_DISPATCH_WINDOW 6 |
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1663 |
0 | 1664 extern int sd_lists_size (const_rtx, sd_list_types_def); |
1665 extern bool sd_lists_empty_p (const_rtx, sd_list_types_def); | |
111 | 1666 extern void sd_init_insn (rtx_insn *); |
1667 extern void sd_finish_insn (rtx_insn *); | |
0 | 1668 extern dep_t sd_find_dep_between (rtx, rtx, bool); |
1669 extern void sd_add_dep (dep_t, bool); | |
1670 extern enum DEPS_ADJUST_RESULT sd_add_or_update_dep (dep_t, bool); | |
1671 extern void sd_resolve_dep (sd_iterator_def); | |
111 | 1672 extern void sd_unresolve_dep (sd_iterator_def); |
1673 extern void sd_copy_back_deps (rtx_insn *, rtx_insn *, bool); | |
0 | 1674 extern void sd_delete_dep (sd_iterator_def); |
1675 extern void sd_debug_lists (rtx, sd_list_types_def); | |
1676 | |
111 | 1677 /* Macros and declarations for scheduling fusion. */ |
1678 #define FUSION_MAX_PRIORITY (INT_MAX) | |
1679 extern bool sched_fusion; | |
1680 | |
0 | 1681 #endif /* INSN_SCHEDULING */ |
1682 | |
111 | 1683 #endif /* GCC_SCHED_INT_H */ |
0 | 1684 |