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[official-gcc.git] / gcc / lra-assigns.c
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1 /* Assign reload pseudos.
2 Copyright (C) 2010, 2011, 2012
3 Free Software Foundation, Inc.
4 Contributed by Vladimir Makarov <vmakarov@redhat.com>.
5
6 This file is part of GCC.
7
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
11 version.
12
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
16 for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
21
22
23 /* This file's main objective is to assign hard registers to reload
24 pseudos. It also tries to allocate hard registers to other
25 pseudos, but at a lower priority than the reload pseudos. The pass
26 does not transform the RTL.
27
28 We must allocate a hard register to every reload pseudo. We try to
29 increase the chances of finding a viable allocation by assigning
30 the pseudos in order of fewest available hard registers first. If
31 we still fail to find a hard register, we spill other (non-reload)
32 pseudos in order to make room.
33
34 find_hard_regno_for finds hard registers for allocation without
35 spilling. spill_for does the same with spilling. Both functions
36 use a cost model to determine the most profitable choice of hard
37 and spill registers.
38
39 Once we have finished allocating reload pseudos, we also try to
40 assign registers to other (non-reload) pseudos. This is useful if
41 hard registers were freed up by the spilling just described.
42
43 We try to assign hard registers by collecting pseudos into threads.
44 These threads contain reload and inheritance pseudos that are
45 connected by copies (move insns). Doing this improves the chances
46 of pseudos in the thread getting the same hard register and, as a
47 result, of allowing some move insns to be deleted.
48
49 When we assign a hard register to a pseudo, we decrease the cost of
50 using the same hard register for pseudos that are connected by
51 copies.
52
53 If two hard registers have the same frequency-derived cost, we
54 prefer hard registers with higher priorities. The mapping of
55 registers to priorities is controlled by the register_priority
56 target hook. For example, x86-64 has a few register priorities:
57 hard registers with and without REX prefixes have different
58 priorities. This permits us to generate smaller code as insns
59 without REX prefixes are shorter.
60
61 If a few hard registers are still equally good for the assignment,
62 we choose the least used hard register. It is called leveling and
63 may be profitable for some targets.
64
65 Only insns with changed allocation pseudos are processed on the
66 next constraint pass.
67
68 The pseudo live-ranges are used to find conflicting pseudos.
69
70 For understanding the code, it is important to keep in mind that
71 inheritance, split, and reload pseudos created since last
72 constraint pass have regno >= lra_constraint_new_regno_start.
73 Inheritance and split pseudos created on any pass are in the
74 corresponding bitmaps. Inheritance and split pseudos since the
75 last constraint pass have also the corresponding non-negative
76 restore_regno. */
77
78 #include "config.h"
79 #include "system.h"
80 #include "coretypes.h"
81 #include "tm.h"
82 #include "hard-reg-set.h"
83 #include "rtl.h"
84 #include "rtl-error.h"
85 #include "tm_p.h"
86 #include "target.h"
87 #include "insn-config.h"
88 #include "recog.h"
89 #include "output.h"
90 #include "regs.h"
91 #include "function.h"
92 #include "expr.h"
93 #include "basic-block.h"
94 #include "except.h"
95 #include "df.h"
96 #include "ira.h"
97 #include "sparseset.h"
98 #include "lra-int.h"
99
100 /* Array containing corresponding values of function
101 lra_get_allocno_class. It is used to speed up the code. */
102 static enum reg_class *regno_allocno_class_array;
103
104 /* Information about the thread to which a pseudo belongs. Threads are
105 a set of connected reload and inheritance pseudos with the same set of
106 available hard registers. Lone registers belong to their own threads. */
107 struct regno_assign_info
108 {
109 /* First/next pseudo of the same thread. */
110 int first, next;
111 /* Frequency of the thread (execution frequency of only reload
112 pseudos in the thread when the thread contains a reload pseudo).
113 Defined only for the first thread pseudo. */
114 int freq;
115 };
116
117 /* Map regno to the corresponding regno assignment info. */
118 static struct regno_assign_info *regno_assign_info;
119
120 /* Process a pseudo copy with execution frequency COPY_FREQ connecting
121 REGNO1 and REGNO2 to form threads. */
122 static void
123 process_copy_to_form_thread (int regno1, int regno2, int copy_freq)
124 {
125 int last, regno1_first, regno2_first;
126
127 lra_assert (regno1 >= lra_constraint_new_regno_start
128 && regno2 >= lra_constraint_new_regno_start);
129 regno1_first = regno_assign_info[regno1].first;
130 regno2_first = regno_assign_info[regno2].first;
131 if (regno1_first != regno2_first)
132 {
133 for (last = regno2_first;
134 regno_assign_info[last].next >= 0;
135 last = regno_assign_info[last].next)
136 regno_assign_info[last].first = regno1_first;
137 regno_assign_info[last].first = regno1_first;
138 regno_assign_info[last].next = regno_assign_info[regno1_first].next;
139 regno_assign_info[regno1_first].next = regno2_first;
140 regno_assign_info[regno1_first].freq
141 += regno_assign_info[regno2_first].freq;
142 }
143 regno_assign_info[regno1_first].freq -= 2 * copy_freq;
144 lra_assert (regno_assign_info[regno1_first].freq >= 0);
145 }
146
147 /* Initialize REGNO_ASSIGN_INFO and form threads. */
148 static void
149 init_regno_assign_info (void)
150 {
151 int i, regno1, regno2, max_regno = max_reg_num ();
152 lra_copy_t cp;
153
154 regno_assign_info = XNEWVEC (struct regno_assign_info, max_regno);
155 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
156 {
157 regno_assign_info[i].first = i;
158 regno_assign_info[i].next = -1;
159 regno_assign_info[i].freq = lra_reg_info[i].freq;
160 }
161 /* Form the threads. */
162 for (i = 0; (cp = lra_get_copy (i)) != NULL; i++)
163 if ((regno1 = cp->regno1) >= lra_constraint_new_regno_start
164 && (regno2 = cp->regno2) >= lra_constraint_new_regno_start
165 && reg_renumber[regno1] < 0 && lra_reg_info[regno1].nrefs != 0
166 && reg_renumber[regno2] < 0 && lra_reg_info[regno2].nrefs != 0
167 && (ira_class_hard_regs_num[regno_allocno_class_array[regno1]]
168 == ira_class_hard_regs_num[regno_allocno_class_array[regno2]]))
169 process_copy_to_form_thread (regno1, regno2, cp->freq);
170 }
171
172 /* Free REGNO_ASSIGN_INFO. */
173 static void
174 finish_regno_assign_info (void)
175 {
176 free (regno_assign_info);
177 }
178
179 /* The function is used to sort *reload* and *inheritance* pseudos to
180 try to assign them hard registers. We put pseudos from the same
181 thread always nearby. */
182 static int
183 reload_pseudo_compare_func (const void *v1p, const void *v2p)
184 {
185 int r1 = *(const int *) v1p, r2 = *(const int *) v2p;
186 enum reg_class cl1 = regno_allocno_class_array[r1];
187 enum reg_class cl2 = regno_allocno_class_array[r2];
188 int diff;
189
190 lra_assert (r1 >= lra_constraint_new_regno_start
191 && r2 >= lra_constraint_new_regno_start);
192
193 /* Prefer to assign reload registers with smaller classes first to
194 guarantee assignment to all reload registers. */
195 if ((diff = (ira_class_hard_regs_num[cl1]
196 - ira_class_hard_regs_num[cl2])) != 0)
197 return diff;
198 if ((diff = (regno_assign_info[regno_assign_info[r2].first].freq
199 - regno_assign_info[regno_assign_info[r1].first].freq)) != 0)
200 return diff;
201 /* Put pseudos from the thread nearby. */
202 if ((diff = regno_assign_info[r1].first - regno_assign_info[r2].first) != 0)
203 return diff;
204 /* If regs are equally good, sort by their numbers, so that the
205 results of qsort leave nothing to chance. */
206 return r1 - r2;
207 }
208
209 /* The function is used to sort *non-reload* pseudos to try to assign
210 them hard registers. The order calculation is simpler than in the
211 previous function and based on the pseudo frequency usage. */
212 static int
213 pseudo_compare_func (const void *v1p, const void *v2p)
214 {
215 int r1 = *(const int *) v1p, r2 = *(const int *) v2p;
216 int diff;
217
218 /* Prefer to assign more frequently used registers first. */
219 if ((diff = lra_reg_info[r2].freq - lra_reg_info[r1].freq) != 0)
220 return diff;
221
222 /* If regs are equally good, sort by their numbers, so that the
223 results of qsort leave nothing to chance. */
224 return r1 - r2;
225 }
226
227 /* Arrays of size LRA_LIVE_MAX_POINT mapping a program point to the
228 pseudo live ranges with given start point. We insert only live
229 ranges of pseudos interesting for assignment purposes. They are
230 reload pseudos and pseudos assigned to hard registers. */
231 static lra_live_range_t *start_point_ranges;
232
233 /* Used as a flag that a live range is not inserted in the start point
234 chain. */
235 static struct lra_live_range not_in_chain_mark;
236
237 /* Create and set up START_POINT_RANGES. */
238 static void
239 create_live_range_start_chains (void)
240 {
241 int i, max_regno;
242 lra_live_range_t r;
243
244 start_point_ranges = XCNEWVEC (lra_live_range_t, lra_live_max_point);
245 max_regno = max_reg_num ();
246 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
247 if (i >= lra_constraint_new_regno_start || reg_renumber[i] >= 0)
248 {
249 for (r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
250 {
251 r->start_next = start_point_ranges[r->start];
252 start_point_ranges[r->start] = r;
253 }
254 }
255 else
256 {
257 for (r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
258 r->start_next = &not_in_chain_mark;
259 }
260 }
261
262 /* Insert live ranges of pseudo REGNO into start chains if they are
263 not there yet. */
264 static void
265 insert_in_live_range_start_chain (int regno)
266 {
267 lra_live_range_t r = lra_reg_info[regno].live_ranges;
268
269 if (r->start_next != &not_in_chain_mark)
270 return;
271 for (; r != NULL; r = r->next)
272 {
273 r->start_next = start_point_ranges[r->start];
274 start_point_ranges[r->start] = r;
275 }
276 }
277
278 /* Free START_POINT_RANGES. */
279 static void
280 finish_live_range_start_chains (void)
281 {
282 gcc_assert (start_point_ranges != NULL);
283 free (start_point_ranges);
284 start_point_ranges = NULL;
285 }
286
287 /* Map: program point -> bitmap of all pseudos living at the point and
288 assigned to hard registers. */
289 static bitmap_head *live_hard_reg_pseudos;
290 static bitmap_obstack live_hard_reg_pseudos_bitmap_obstack;
291
292 /* reg_renumber corresponding to pseudos marked in
293 live_hard_reg_pseudos. reg_renumber might be not matched to
294 live_hard_reg_pseudos but live_pseudos_reg_renumber always reflects
295 live_hard_reg_pseudos. */
296 static int *live_pseudos_reg_renumber;
297
298 /* Sparseset used to calculate living hard reg pseudos for some program
299 point range. */
300 static sparseset live_range_hard_reg_pseudos;
301
302 /* Sparseset used to calculate living reload/inheritance pseudos for
303 some program point range. */
304 static sparseset live_range_reload_inheritance_pseudos;
305
306 /* Allocate and initialize the data about living pseudos at program
307 points. */
308 static void
309 init_lives (void)
310 {
311 int i, max_regno = max_reg_num ();
312
313 live_range_hard_reg_pseudos = sparseset_alloc (max_regno);
314 live_range_reload_inheritance_pseudos = sparseset_alloc (max_regno);
315 live_hard_reg_pseudos = XNEWVEC (bitmap_head, lra_live_max_point);
316 bitmap_obstack_initialize (&live_hard_reg_pseudos_bitmap_obstack);
317 for (i = 0; i < lra_live_max_point; i++)
318 bitmap_initialize (&live_hard_reg_pseudos[i],
319 &live_hard_reg_pseudos_bitmap_obstack);
320 live_pseudos_reg_renumber = XNEWVEC (int, max_regno);
321 for (i = 0; i < max_regno; i++)
322 live_pseudos_reg_renumber[i] = -1;
323 }
324
325 /* Free the data about living pseudos at program points. */
326 static void
327 finish_lives (void)
328 {
329 sparseset_free (live_range_hard_reg_pseudos);
330 sparseset_free (live_range_reload_inheritance_pseudos);
331 free (live_hard_reg_pseudos);
332 bitmap_obstack_release (&live_hard_reg_pseudos_bitmap_obstack);
333 free (live_pseudos_reg_renumber);
334 }
335
336 /* Update the LIVE_HARD_REG_PSEUDOS and LIVE_PSEUDOS_REG_RENUMBER
337 entries for pseudo REGNO. Assume that the register has been
338 spilled if FREE_P, otherwise assume that it has been assigned
339 reg_renumber[REGNO] (if >= 0). We also insert the pseudo live
340 ranges in the start chains when it is assumed to be assigned to a
341 hard register because we use the chains of pseudos assigned to hard
342 registers during allocation. */
343 static void
344 update_lives (int regno, bool free_p)
345 {
346 int p;
347 lra_live_range_t r;
348
349 if (reg_renumber[regno] < 0)
350 return;
351 live_pseudos_reg_renumber[regno] = free_p ? -1 : reg_renumber[regno];
352 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
353 {
354 for (p = r->start; p <= r->finish; p++)
355 if (free_p)
356 bitmap_clear_bit (&live_hard_reg_pseudos[p], regno);
357 else
358 {
359 bitmap_set_bit (&live_hard_reg_pseudos[p], regno);
360 insert_in_live_range_start_chain (regno);
361 }
362 }
363 }
364
365 /* Sparseset used to calculate reload pseudos conflicting with a given
366 pseudo when we are trying to find a hard register for the given
367 pseudo. */
368 static sparseset conflict_reload_and_inheritance_pseudos;
369
370 /* Map: program point -> bitmap of all reload and inheritance pseudos
371 living at the point. */
372 static bitmap_head *live_reload_and_inheritance_pseudos;
373 static bitmap_obstack live_reload_and_inheritance_pseudos_bitmap_obstack;
374
375 /* Allocate and initialize data about living reload pseudos at any
376 given program point. */
377 static void
378 init_live_reload_and_inheritance_pseudos (void)
379 {
380 int i, p, max_regno = max_reg_num ();
381 lra_live_range_t r;
382
383 conflict_reload_and_inheritance_pseudos = sparseset_alloc (max_regno);
384 live_reload_and_inheritance_pseudos = XNEWVEC (bitmap_head, lra_live_max_point);
385 bitmap_obstack_initialize (&live_reload_and_inheritance_pseudos_bitmap_obstack);
386 for (p = 0; p < lra_live_max_point; p++)
387 bitmap_initialize (&live_reload_and_inheritance_pseudos[p],
388 &live_reload_and_inheritance_pseudos_bitmap_obstack);
389 for (i = lra_constraint_new_regno_start; i < max_regno; i++)
390 {
391 for (r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
392 for (p = r->start; p <= r->finish; p++)
393 bitmap_set_bit (&live_reload_and_inheritance_pseudos[p], i);
394 }
395 }
396
397 /* Finalize data about living reload pseudos at any given program
398 point. */
399 static void
400 finish_live_reload_and_inheritance_pseudos (void)
401 {
402 sparseset_free (conflict_reload_and_inheritance_pseudos);
403 free (live_reload_and_inheritance_pseudos);
404 bitmap_obstack_release (&live_reload_and_inheritance_pseudos_bitmap_obstack);
405 }
406
407 /* The value used to check that cost of given hard reg is really
408 defined currently. */
409 static int curr_hard_regno_costs_check = 0;
410 /* Array used to check that cost of the corresponding hard reg (the
411 array element index) is really defined currently. */
412 static int hard_regno_costs_check[FIRST_PSEUDO_REGISTER];
413 /* The current costs of allocation of hard regs. Defined only if the
414 value of the corresponding element of the previous array is equal to
415 CURR_HARD_REGNO_COSTS_CHECK. */
416 static int hard_regno_costs[FIRST_PSEUDO_REGISTER];
417
418 /* Adjust cost of HARD_REGNO by INCR. Reset the cost first if it is
419 not defined yet. */
420 static inline void
421 adjust_hard_regno_cost (int hard_regno, int incr)
422 {
423 if (hard_regno_costs_check[hard_regno] != curr_hard_regno_costs_check)
424 hard_regno_costs[hard_regno] = 0;
425 hard_regno_costs_check[hard_regno] = curr_hard_regno_costs_check;
426 hard_regno_costs[hard_regno] += incr;
427 }
428
429 /* Try to find a free hard register for pseudo REGNO. Return the
430 hard register on success and set *COST to the cost of using
431 that register. (If several registers have equal cost, the one with
432 the highest priority wins.) Return -1 on failure.
433
434 If TRY_ONLY_HARD_REGNO >= 0, consider only that hard register,
435 otherwise consider all hard registers in REGNO's class. */
436 static int
437 find_hard_regno_for (int regno, int *cost, int try_only_hard_regno)
438 {
439 HARD_REG_SET conflict_set;
440 int best_cost = INT_MAX, best_priority = INT_MIN, best_usage = INT_MAX;
441 lra_live_range_t r;
442 int p, i, j, rclass_size, best_hard_regno, priority, hard_regno;
443 int hr, conflict_hr, nregs;
444 enum machine_mode biggest_mode;
445 unsigned int k, conflict_regno;
446 int val, biggest_nregs, nregs_diff;
447 enum reg_class rclass;
448 bitmap_iterator bi;
449 bool *rclass_intersect_p;
450 HARD_REG_SET impossible_start_hard_regs;
451
452 COPY_HARD_REG_SET (conflict_set, lra_no_alloc_regs);
453 rclass = regno_allocno_class_array[regno];
454 rclass_intersect_p = ira_reg_classes_intersect_p[rclass];
455 curr_hard_regno_costs_check++;
456 sparseset_clear (conflict_reload_and_inheritance_pseudos);
457 sparseset_clear (live_range_hard_reg_pseudos);
458 IOR_HARD_REG_SET (conflict_set, lra_reg_info[regno].conflict_hard_regs);
459 biggest_mode = lra_reg_info[regno].biggest_mode;
460 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
461 {
462 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[r->start], 0, k, bi)
463 if (rclass_intersect_p[regno_allocno_class_array[k]])
464 sparseset_set_bit (live_range_hard_reg_pseudos, k);
465 EXECUTE_IF_SET_IN_BITMAP (&live_reload_and_inheritance_pseudos[r->start],
466 0, k, bi)
467 if (lra_reg_info[k].preferred_hard_regno1 >= 0
468 && live_pseudos_reg_renumber[k] < 0
469 && rclass_intersect_p[regno_allocno_class_array[k]])
470 sparseset_set_bit (conflict_reload_and_inheritance_pseudos, k);
471 for (p = r->start + 1; p <= r->finish; p++)
472 {
473 lra_live_range_t r2;
474
475 for (r2 = start_point_ranges[p];
476 r2 != NULL;
477 r2 = r2->start_next)
478 {
479 if (r2->regno >= lra_constraint_new_regno_start
480 && lra_reg_info[r2->regno].preferred_hard_regno1 >= 0
481 && live_pseudos_reg_renumber[r2->regno] < 0
482 && rclass_intersect_p[regno_allocno_class_array[r2->regno]])
483 sparseset_set_bit (conflict_reload_and_inheritance_pseudos,
484 r2->regno);
485 if (live_pseudos_reg_renumber[r2->regno] >= 0
486 && rclass_intersect_p[regno_allocno_class_array[r2->regno]])
487 sparseset_set_bit (live_range_hard_reg_pseudos, r2->regno);
488 }
489 }
490 }
491 if ((hard_regno = lra_reg_info[regno].preferred_hard_regno1) >= 0)
492 {
493 adjust_hard_regno_cost
494 (hard_regno, -lra_reg_info[regno].preferred_hard_regno_profit1);
495 if ((hard_regno = lra_reg_info[regno].preferred_hard_regno2) >= 0)
496 adjust_hard_regno_cost
497 (hard_regno, -lra_reg_info[regno].preferred_hard_regno_profit2);
498 }
499 #ifdef STACK_REGS
500 if (lra_reg_info[regno].no_stack_p)
501 for (i = FIRST_STACK_REG; i <= LAST_STACK_REG; i++)
502 SET_HARD_REG_BIT (conflict_set, i);
503 #endif
504 sparseset_clear_bit (conflict_reload_and_inheritance_pseudos, regno);
505 val = lra_reg_info[regno].val;
506 CLEAR_HARD_REG_SET (impossible_start_hard_regs);
507 EXECUTE_IF_SET_IN_SPARSESET (live_range_hard_reg_pseudos, conflict_regno)
508 if (val == lra_reg_info[conflict_regno].val)
509 {
510 conflict_hr = live_pseudos_reg_renumber[conflict_regno];
511 nregs = (hard_regno_nregs[conflict_hr]
512 [lra_reg_info[conflict_regno].biggest_mode]);
513 /* Remember about multi-register pseudos. For example, 2 hard
514 register pseudos can start on the same hard register but can
515 not start on HR and HR+1/HR-1. */
516 for (hr = conflict_hr + 1;
517 hr < FIRST_PSEUDO_REGISTER && hr < conflict_hr + nregs;
518 hr++)
519 SET_HARD_REG_BIT (impossible_start_hard_regs, hr);
520 for (hr = conflict_hr - 1;
521 hr >= 0 && hr + hard_regno_nregs[hr][biggest_mode] > conflict_hr;
522 hr--)
523 SET_HARD_REG_BIT (impossible_start_hard_regs, hr);
524 }
525 else
526 {
527 add_to_hard_reg_set (&conflict_set,
528 lra_reg_info[conflict_regno].biggest_mode,
529 live_pseudos_reg_renumber[conflict_regno]);
530 if (hard_reg_set_subset_p (reg_class_contents[rclass],
531 conflict_set))
532 return -1;
533 }
534 EXECUTE_IF_SET_IN_SPARSESET (conflict_reload_and_inheritance_pseudos,
535 conflict_regno)
536 if (val != lra_reg_info[conflict_regno].val)
537 {
538 lra_assert (live_pseudos_reg_renumber[conflict_regno] < 0);
539 if ((hard_regno
540 = lra_reg_info[conflict_regno].preferred_hard_regno1) >= 0)
541 {
542 adjust_hard_regno_cost
543 (hard_regno,
544 lra_reg_info[conflict_regno].preferred_hard_regno_profit1);
545 if ((hard_regno
546 = lra_reg_info[conflict_regno].preferred_hard_regno2) >= 0)
547 adjust_hard_regno_cost
548 (hard_regno,
549 lra_reg_info[conflict_regno].preferred_hard_regno_profit2);
550 }
551 }
552 /* Make sure that all registers in a multi-word pseudo belong to the
553 required class. */
554 IOR_COMPL_HARD_REG_SET (conflict_set, reg_class_contents[rclass]);
555 lra_assert (rclass != NO_REGS);
556 rclass_size = ira_class_hard_regs_num[rclass];
557 best_hard_regno = -1;
558 hard_regno = ira_class_hard_regs[rclass][0];
559 biggest_nregs = hard_regno_nregs[hard_regno][biggest_mode];
560 nregs_diff = (biggest_nregs
561 - hard_regno_nregs[hard_regno][PSEUDO_REGNO_MODE (regno)]);
562 for (i = 0; i < rclass_size; i++)
563 {
564 if (try_only_hard_regno >= 0)
565 hard_regno = try_only_hard_regno;
566 else
567 hard_regno = ira_class_hard_regs[rclass][i];
568 if (! overlaps_hard_reg_set_p (conflict_set,
569 PSEUDO_REGNO_MODE (regno), hard_regno)
570 /* We can not use prohibited_class_mode_regs because it is
571 not defined for all classes. */
572 && HARD_REGNO_MODE_OK (hard_regno, PSEUDO_REGNO_MODE (regno))
573 && ! TEST_HARD_REG_BIT (impossible_start_hard_regs, hard_regno)
574 && (nregs_diff == 0
575 || (WORDS_BIG_ENDIAN
576 ? (hard_regno - nregs_diff >= 0
577 && TEST_HARD_REG_BIT (reg_class_contents[rclass],
578 hard_regno - nregs_diff))
579 : TEST_HARD_REG_BIT (reg_class_contents[rclass],
580 hard_regno + nregs_diff))))
581 {
582 if (hard_regno_costs_check[hard_regno]
583 != curr_hard_regno_costs_check)
584 {
585 hard_regno_costs_check[hard_regno] = curr_hard_regno_costs_check;
586 hard_regno_costs[hard_regno] = 0;
587 }
588 for (j = 0;
589 j < hard_regno_nregs[hard_regno][PSEUDO_REGNO_MODE (regno)];
590 j++)
591 if (! TEST_HARD_REG_BIT (call_used_reg_set, hard_regno + j)
592 && ! df_regs_ever_live_p (hard_regno + j))
593 /* It needs save restore. */
594 hard_regno_costs[hard_regno]
595 += 2 * ENTRY_BLOCK_PTR->next_bb->frequency;
596 priority = targetm.register_priority (hard_regno);
597 if (best_hard_regno < 0 || hard_regno_costs[hard_regno] < best_cost
598 || (hard_regno_costs[hard_regno] == best_cost
599 && (priority > best_priority
600 /* Hard register usage leveling actually results
601 in bigger code for targets with conditional
602 execution like ARM because it reduces chance
603 of if-conversion after LRA. */
604 || (! targetm.have_conditional_execution ()
605 && priority == best_priority
606 && best_usage > lra_hard_reg_usage[hard_regno]))))
607 {
608 best_hard_regno = hard_regno;
609 best_cost = hard_regno_costs[hard_regno];
610 best_priority = priority;
611 best_usage = lra_hard_reg_usage[hard_regno];
612 }
613 }
614 if (try_only_hard_regno >= 0)
615 break;
616 }
617 if (best_hard_regno >= 0)
618 *cost = best_cost - lra_reg_info[regno].freq;
619 return best_hard_regno;
620 }
621
622 /* Current value used for checking elements in
623 update_hard_regno_preference_check. */
624 static int curr_update_hard_regno_preference_check;
625 /* If an element value is equal to the above variable value, then the
626 corresponding regno has been processed for preference
627 propagation. */
628 static int *update_hard_regno_preference_check;
629
630 /* Update the preference for using HARD_REGNO for pseudos that are
631 connected directly or indirectly with REGNO. Apply divisor DIV
632 to any preference adjustments.
633
634 The more indirectly a pseudo is connected, the smaller its effect
635 should be. We therefore increase DIV on each "hop". */
636 static void
637 update_hard_regno_preference (int regno, int hard_regno, int div)
638 {
639 int another_regno, cost;
640 lra_copy_t cp, next_cp;
641
642 /* Search depth 5 seems to be enough. */
643 if (div > (1 << 5))
644 return;
645 for (cp = lra_reg_info[regno].copies; cp != NULL; cp = next_cp)
646 {
647 if (cp->regno1 == regno)
648 {
649 next_cp = cp->regno1_next;
650 another_regno = cp->regno2;
651 }
652 else if (cp->regno2 == regno)
653 {
654 next_cp = cp->regno2_next;
655 another_regno = cp->regno1;
656 }
657 else
658 gcc_unreachable ();
659 if (reg_renumber[another_regno] < 0
660 && (update_hard_regno_preference_check[another_regno]
661 != curr_update_hard_regno_preference_check))
662 {
663 update_hard_regno_preference_check[another_regno]
664 = curr_update_hard_regno_preference_check;
665 cost = cp->freq < div ? 1 : cp->freq / div;
666 lra_setup_reload_pseudo_preferenced_hard_reg
667 (another_regno, hard_regno, cost);
668 update_hard_regno_preference (another_regno, hard_regno, div * 2);
669 }
670 }
671 }
672
673 /* Update REG_RENUMBER and other pseudo preferences by assignment of
674 HARD_REGNO to pseudo REGNO and print about it if PRINT_P. */
675 void
676 lra_setup_reg_renumber (int regno, int hard_regno, bool print_p)
677 {
678 int i, hr;
679
680 /* We can not just reassign hard register. */
681 lra_assert (hard_regno < 0 || reg_renumber[regno] < 0);
682 if ((hr = hard_regno) < 0)
683 hr = reg_renumber[regno];
684 reg_renumber[regno] = hard_regno;
685 lra_assert (hr >= 0);
686 for (i = 0; i < hard_regno_nregs[hr][PSEUDO_REGNO_MODE (regno)]; i++)
687 if (hard_regno < 0)
688 lra_hard_reg_usage[hr + i] -= lra_reg_info[regno].freq;
689 else
690 lra_hard_reg_usage[hr + i] += lra_reg_info[regno].freq;
691 if (print_p && lra_dump_file != NULL)
692 fprintf (lra_dump_file, " Assign %d to %sr%d (freq=%d)\n",
693 reg_renumber[regno],
694 regno < lra_constraint_new_regno_start
695 ? ""
696 : bitmap_bit_p (&lra_inheritance_pseudos, regno) ? "inheritance "
697 : bitmap_bit_p (&lra_split_regs, regno) ? "split "
698 : bitmap_bit_p (&lra_optional_reload_pseudos, regno)
699 ? "optional reload ": "reload ",
700 regno, lra_reg_info[regno].freq);
701 if (hard_regno >= 0)
702 {
703 curr_update_hard_regno_preference_check++;
704 update_hard_regno_preference (regno, hard_regno, 1);
705 }
706 }
707
708 /* Pseudos which occur in insns containing a particular pseudo. */
709 static bitmap_head insn_conflict_pseudos;
710
711 /* Bitmaps used to contain spill pseudos for given pseudo hard regno
712 and best spill pseudos for given pseudo (and best hard regno). */
713 static bitmap_head spill_pseudos_bitmap, best_spill_pseudos_bitmap;
714
715 /* Current pseudo check for validity of elements in
716 TRY_HARD_REG_PSEUDOS. */
717 static int curr_pseudo_check;
718 /* Array used for validity of elements in TRY_HARD_REG_PSEUDOS. */
719 static int try_hard_reg_pseudos_check[FIRST_PSEUDO_REGISTER];
720 /* Pseudos who hold given hard register at the considered points. */
721 static bitmap_head try_hard_reg_pseudos[FIRST_PSEUDO_REGISTER];
722
723 /* Set up try_hard_reg_pseudos for given program point P and class
724 RCLASS. Those are pseudos living at P and assigned to a hard
725 register of RCLASS. In other words, those are pseudos which can be
726 spilled to assign a hard register of RCLASS to a pseudo living at
727 P. */
728 static void
729 setup_try_hard_regno_pseudos (int p, enum reg_class rclass)
730 {
731 int i, hard_regno;
732 enum machine_mode mode;
733 unsigned int spill_regno;
734 bitmap_iterator bi;
735
736 /* Find what pseudos could be spilled. */
737 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[p], 0, spill_regno, bi)
738 {
739 mode = PSEUDO_REGNO_MODE (spill_regno);
740 hard_regno = live_pseudos_reg_renumber[spill_regno];
741 if (overlaps_hard_reg_set_p (reg_class_contents[rclass],
742 mode, hard_regno))
743 {
744 for (i = hard_regno_nregs[hard_regno][mode] - 1; i >= 0; i--)
745 {
746 if (try_hard_reg_pseudos_check[hard_regno + i]
747 != curr_pseudo_check)
748 {
749 try_hard_reg_pseudos_check[hard_regno + i]
750 = curr_pseudo_check;
751 bitmap_clear (&try_hard_reg_pseudos[hard_regno + i]);
752 }
753 bitmap_set_bit (&try_hard_reg_pseudos[hard_regno + i],
754 spill_regno);
755 }
756 }
757 }
758 }
759
760 /* Assign temporarily HARD_REGNO to pseudo REGNO. Temporary
761 assignment means that we might undo the data change. */
762 static void
763 assign_temporarily (int regno, int hard_regno)
764 {
765 int p;
766 lra_live_range_t r;
767
768 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
769 {
770 for (p = r->start; p <= r->finish; p++)
771 if (hard_regno < 0)
772 bitmap_clear_bit (&live_hard_reg_pseudos[p], regno);
773 else
774 {
775 bitmap_set_bit (&live_hard_reg_pseudos[p], regno);
776 insert_in_live_range_start_chain (regno);
777 }
778 }
779 live_pseudos_reg_renumber[regno] = hard_regno;
780 }
781
782 /* Array used for sorting reload pseudos for subsequent allocation
783 after spilling some pseudo. */
784 static int *sorted_reload_pseudos;
785
786 /* Spill some pseudos for a reload pseudo REGNO and return hard
787 register which should be used for pseudo after spilling. The
788 function adds spilled pseudos to SPILLED_PSEUDO_BITMAP. When we
789 choose hard register (and pseudos occupying the hard registers and
790 to be spilled), we take into account not only how REGNO will
791 benefit from the spills but also how other reload pseudos not yet
792 assigned to hard registers benefit from the spills too. In very
793 rare cases, the function can fail and return -1. */
794 static int
795 spill_for (int regno, bitmap spilled_pseudo_bitmap)
796 {
797 int i, j, n, p, hard_regno, best_hard_regno, cost, best_cost, rclass_size;
798 int reload_hard_regno, reload_cost;
799 enum machine_mode mode;
800 enum reg_class rclass;
801 unsigned int spill_regno, reload_regno, uid;
802 int insn_pseudos_num, best_insn_pseudos_num;
803 lra_live_range_t r;
804 bitmap_iterator bi;
805
806 rclass = regno_allocno_class_array[regno];
807 lra_assert (reg_renumber[regno] < 0 && rclass != NO_REGS);
808 bitmap_clear (&insn_conflict_pseudos);
809 bitmap_clear (&best_spill_pseudos_bitmap);
810 EXECUTE_IF_SET_IN_BITMAP (&lra_reg_info[regno].insn_bitmap, 0, uid, bi)
811 {
812 struct lra_insn_reg *ir;
813
814 for (ir = lra_get_insn_regs (uid); ir != NULL; ir = ir->next)
815 if (ir->regno >= FIRST_PSEUDO_REGISTER)
816 bitmap_set_bit (&insn_conflict_pseudos, ir->regno);
817 }
818 best_hard_regno = -1;
819 best_cost = INT_MAX;
820 best_insn_pseudos_num = INT_MAX;
821 rclass_size = ira_class_hard_regs_num[rclass];
822 mode = PSEUDO_REGNO_MODE (regno);
823 /* Invalidate try_hard_reg_pseudos elements. */
824 curr_pseudo_check++;
825 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
826 for (p = r->start; p <= r->finish; p++)
827 setup_try_hard_regno_pseudos (p, rclass);
828 for (i = 0; i < rclass_size; i++)
829 {
830 hard_regno = ira_class_hard_regs[rclass][i];
831 bitmap_clear (&spill_pseudos_bitmap);
832 for (j = hard_regno_nregs[hard_regno][mode] - 1; j >= 0; j--)
833 {
834 if (try_hard_reg_pseudos_check[hard_regno + j] != curr_pseudo_check)
835 continue;
836 lra_assert (!bitmap_empty_p (&try_hard_reg_pseudos[hard_regno + j]));
837 bitmap_ior_into (&spill_pseudos_bitmap,
838 &try_hard_reg_pseudos[hard_regno + j]);
839 }
840 /* Spill pseudos. */
841 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
842 if ((int) spill_regno >= lra_constraint_new_regno_start
843 && ! bitmap_bit_p (&lra_inheritance_pseudos, spill_regno)
844 && ! bitmap_bit_p (&lra_split_regs, spill_regno)
845 && ! bitmap_bit_p (&lra_optional_reload_pseudos, spill_regno))
846 goto fail;
847 insn_pseudos_num = 0;
848 if (lra_dump_file != NULL)
849 fprintf (lra_dump_file, " Trying %d:", hard_regno);
850 sparseset_clear (live_range_reload_inheritance_pseudos);
851 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
852 {
853 if (bitmap_bit_p (&insn_conflict_pseudos, spill_regno))
854 insn_pseudos_num++;
855 for (r = lra_reg_info[spill_regno].live_ranges;
856 r != NULL;
857 r = r->next)
858 {
859 for (p = r->start; p <= r->finish; p++)
860 {
861 lra_live_range_t r2;
862
863 for (r2 = start_point_ranges[p];
864 r2 != NULL;
865 r2 = r2->start_next)
866 if (r2->regno >= lra_constraint_new_regno_start)
867 sparseset_set_bit (live_range_reload_inheritance_pseudos,
868 r2->regno);
869 }
870 }
871 }
872 n = 0;
873 EXECUTE_IF_SET_IN_SPARSESET (live_range_reload_inheritance_pseudos,
874 reload_regno)
875 if ((int) reload_regno != regno
876 && (ira_reg_classes_intersect_p
877 [rclass][regno_allocno_class_array[reload_regno]])
878 && live_pseudos_reg_renumber[reload_regno] < 0
879 && find_hard_regno_for (reload_regno, &cost, -1) < 0)
880 sorted_reload_pseudos[n++] = reload_regno;
881 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
882 {
883 update_lives (spill_regno, true);
884 if (lra_dump_file != NULL)
885 fprintf (lra_dump_file, " spill %d(freq=%d)",
886 spill_regno, lra_reg_info[spill_regno].freq);
887 }
888 hard_regno = find_hard_regno_for (regno, &cost, -1);
889 if (hard_regno >= 0)
890 {
891 assign_temporarily (regno, hard_regno);
892 qsort (sorted_reload_pseudos, n, sizeof (int),
893 reload_pseudo_compare_func);
894 for (j = 0; j < n; j++)
895 {
896 reload_regno = sorted_reload_pseudos[j];
897 lra_assert (live_pseudos_reg_renumber[reload_regno] < 0);
898 if ((reload_hard_regno
899 = find_hard_regno_for (reload_regno,
900 &reload_cost, -1)) >= 0)
901 {
902 if (lra_dump_file != NULL)
903 fprintf (lra_dump_file, " assign %d(cost=%d)",
904 reload_regno, reload_cost);
905 assign_temporarily (reload_regno, reload_hard_regno);
906 cost += reload_cost;
907 }
908 }
909 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
910 {
911 rtx x;
912
913 cost += lra_reg_info[spill_regno].freq;
914 if (ira_reg_equiv[spill_regno].memory != NULL
915 || ira_reg_equiv[spill_regno].constant != NULL)
916 for (x = ira_reg_equiv[spill_regno].init_insns;
917 x != NULL;
918 x = XEXP (x, 1))
919 cost -= REG_FREQ_FROM_BB (BLOCK_FOR_INSN (XEXP (x, 0)));
920 }
921 if (best_insn_pseudos_num > insn_pseudos_num
922 || (best_insn_pseudos_num == insn_pseudos_num
923 && best_cost > cost))
924 {
925 best_insn_pseudos_num = insn_pseudos_num;
926 best_cost = cost;
927 best_hard_regno = hard_regno;
928 bitmap_copy (&best_spill_pseudos_bitmap, &spill_pseudos_bitmap);
929 if (lra_dump_file != NULL)
930 fprintf (lra_dump_file, " Now best %d(cost=%d)\n",
931 hard_regno, cost);
932 }
933 assign_temporarily (regno, -1);
934 for (j = 0; j < n; j++)
935 {
936 reload_regno = sorted_reload_pseudos[j];
937 if (live_pseudos_reg_renumber[reload_regno] >= 0)
938 assign_temporarily (reload_regno, -1);
939 }
940 }
941 if (lra_dump_file != NULL)
942 fprintf (lra_dump_file, "\n");
943 /* Restore the live hard reg pseudo info for spilled pseudos. */
944 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
945 update_lives (spill_regno, false);
946 fail:
947 ;
948 }
949 /* Spill: */
950 EXECUTE_IF_SET_IN_BITMAP (&best_spill_pseudos_bitmap, 0, spill_regno, bi)
951 {
952 if (lra_dump_file != NULL)
953 fprintf (lra_dump_file, " Spill %sr%d(hr=%d, freq=%d) for r%d\n",
954 ((int) spill_regno < lra_constraint_new_regno_start
955 ? ""
956 : bitmap_bit_p (&lra_inheritance_pseudos, spill_regno)
957 ? "inheritance "
958 : bitmap_bit_p (&lra_split_regs, spill_regno)
959 ? "split "
960 : bitmap_bit_p (&lra_optional_reload_pseudos, spill_regno)
961 ? "optional reload " : "reload "),
962 spill_regno, reg_renumber[spill_regno],
963 lra_reg_info[spill_regno].freq, regno);
964 update_lives (spill_regno, true);
965 lra_setup_reg_renumber (spill_regno, -1, false);
966 }
967 bitmap_ior_into (spilled_pseudo_bitmap, &best_spill_pseudos_bitmap);
968 return best_hard_regno;
969 }
970
971 /* Assign HARD_REGNO to REGNO. */
972 static void
973 assign_hard_regno (int hard_regno, int regno)
974 {
975 int i;
976
977 lra_assert (hard_regno >= 0);
978 lra_setup_reg_renumber (regno, hard_regno, true);
979 update_lives (regno, false);
980 for (i = 0;
981 i < hard_regno_nregs[hard_regno][lra_reg_info[regno].biggest_mode];
982 i++)
983 df_set_regs_ever_live (hard_regno + i, true);
984 }
985
986 /* Array used for sorting different pseudos. */
987 static int *sorted_pseudos;
988
989 /* The constraints pass is allowed to create equivalences between
990 pseudos that make the current allocation "incorrect" (in the sense
991 that pseudos are assigned to hard registers from their own conflict
992 sets). The global variable lra_risky_transformations_p says
993 whether this might have happened.
994
995 Process pseudos assigned to hard registers (less frequently used
996 first), spill if a conflict is found, and mark the spilled pseudos
997 in SPILLED_PSEUDO_BITMAP. Set up LIVE_HARD_REG_PSEUDOS from
998 pseudos, assigned to hard registers. */
999 static void
1000 setup_live_pseudos_and_spill_after_risky_transforms (bitmap
1001 spilled_pseudo_bitmap)
1002 {
1003 int p, i, j, n, regno, hard_regno;
1004 unsigned int k, conflict_regno;
1005 int val;
1006 HARD_REG_SET conflict_set;
1007 enum machine_mode mode;
1008 lra_live_range_t r;
1009 bitmap_iterator bi;
1010 int max_regno = max_reg_num ();
1011
1012 if (! lra_risky_transformations_p)
1013 {
1014 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1015 if (reg_renumber[i] >= 0 && lra_reg_info[i].nrefs > 0)
1016 update_lives (i, false);
1017 return;
1018 }
1019 for (n = 0, i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1020 if (reg_renumber[i] >= 0 && lra_reg_info[i].nrefs > 0)
1021 sorted_pseudos[n++] = i;
1022 qsort (sorted_pseudos, n, sizeof (int), pseudo_compare_func);
1023 for (i = n - 1; i >= 0; i--)
1024 {
1025 regno = sorted_pseudos[i];
1026 hard_regno = reg_renumber[regno];
1027 lra_assert (hard_regno >= 0);
1028 mode = lra_reg_info[regno].biggest_mode;
1029 sparseset_clear (live_range_hard_reg_pseudos);
1030 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
1031 {
1032 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[r->start], 0, k, bi)
1033 sparseset_set_bit (live_range_hard_reg_pseudos, k);
1034 for (p = r->start + 1; p <= r->finish; p++)
1035 {
1036 lra_live_range_t r2;
1037
1038 for (r2 = start_point_ranges[p];
1039 r2 != NULL;
1040 r2 = r2->start_next)
1041 if (live_pseudos_reg_renumber[r2->regno] >= 0)
1042 sparseset_set_bit (live_range_hard_reg_pseudos, r2->regno);
1043 }
1044 }
1045 COPY_HARD_REG_SET (conflict_set, lra_no_alloc_regs);
1046 IOR_HARD_REG_SET (conflict_set, lra_reg_info[regno].conflict_hard_regs);
1047 val = lra_reg_info[regno].val;
1048 EXECUTE_IF_SET_IN_SPARSESET (live_range_hard_reg_pseudos, conflict_regno)
1049 if (val != lra_reg_info[conflict_regno].val
1050 /* If it is multi-register pseudos they should start on
1051 the same hard register. */
1052 || hard_regno != reg_renumber[conflict_regno])
1053 add_to_hard_reg_set (&conflict_set,
1054 lra_reg_info[conflict_regno].biggest_mode,
1055 reg_renumber[conflict_regno]);
1056 if (! overlaps_hard_reg_set_p (conflict_set, mode, hard_regno))
1057 {
1058 update_lives (regno, false);
1059 continue;
1060 }
1061 bitmap_set_bit (spilled_pseudo_bitmap, regno);
1062 for (j = 0;
1063 j < hard_regno_nregs[hard_regno][PSEUDO_REGNO_MODE (regno)];
1064 j++)
1065 lra_hard_reg_usage[hard_regno + j] -= lra_reg_info[regno].freq;
1066 reg_renumber[regno] = -1;
1067 if (lra_dump_file != NULL)
1068 fprintf (lra_dump_file, " Spill r%d after risky transformations\n",
1069 regno);
1070 }
1071 }
1072
1073 /* Improve allocation by assigning the same hard regno of inheritance
1074 pseudos to the connected pseudos. We need this because inheritance
1075 pseudos are allocated after reload pseudos in the thread and when
1076 we assign a hard register to a reload pseudo we don't know yet that
1077 the connected inheritance pseudos can get the same hard register.
1078 Add pseudos with changed allocation to bitmap CHANGED_PSEUDOS. */
1079 static void
1080 improve_inheritance (bitmap changed_pseudos)
1081 {
1082 unsigned int k;
1083 int regno, another_regno, hard_regno, another_hard_regno, cost, i, n;
1084 lra_copy_t cp, next_cp;
1085 bitmap_iterator bi;
1086
1087 n = 0;
1088 EXECUTE_IF_SET_IN_BITMAP (&lra_inheritance_pseudos, 0, k, bi)
1089 if (reg_renumber[k] >= 0 && lra_reg_info[k].nrefs != 0)
1090 sorted_pseudos[n++] = k;
1091 qsort (sorted_pseudos, n, sizeof (int), pseudo_compare_func);
1092 for (i = 0; i < n; i++)
1093 {
1094 regno = sorted_pseudos[i];
1095 hard_regno = reg_renumber[regno];
1096 lra_assert (hard_regno >= 0);
1097 for (cp = lra_reg_info[regno].copies; cp != NULL; cp = next_cp)
1098 {
1099 if (cp->regno1 == regno)
1100 {
1101 next_cp = cp->regno1_next;
1102 another_regno = cp->regno2;
1103 }
1104 else if (cp->regno2 == regno)
1105 {
1106 next_cp = cp->regno2_next;
1107 another_regno = cp->regno1;
1108 }
1109 else
1110 gcc_unreachable ();
1111 /* Don't change reload pseudo allocation. It might have
1112 this allocation for a purpose and changing it can result
1113 in LRA cycling. */
1114 if ((another_regno < lra_constraint_new_regno_start
1115 || bitmap_bit_p (&lra_inheritance_pseudos, another_regno))
1116 && (another_hard_regno = reg_renumber[another_regno]) >= 0
1117 && another_hard_regno != hard_regno)
1118 {
1119 if (lra_dump_file != NULL)
1120 fprintf
1121 (lra_dump_file,
1122 " Improving inheritance for %d(%d) and %d(%d)...\n",
1123 regno, hard_regno, another_regno, another_hard_regno);
1124 update_lives (another_regno, true);
1125 lra_setup_reg_renumber (another_regno, -1, false);
1126 if (hard_regno
1127 == find_hard_regno_for (another_regno, &cost, hard_regno))
1128 assign_hard_regno (hard_regno, another_regno);
1129 else
1130 assign_hard_regno (another_hard_regno, another_regno);
1131 bitmap_set_bit (changed_pseudos, another_regno);
1132 }
1133 }
1134 }
1135 }
1136
1137
1138 /* Bitmap finally containing all pseudos spilled on this assignment
1139 pass. */
1140 static bitmap_head all_spilled_pseudos;
1141 /* All pseudos whose allocation was changed. */
1142 static bitmap_head changed_pseudo_bitmap;
1143
1144 /* Assign hard registers to reload pseudos and other pseudos. */
1145 static void
1146 assign_by_spills (void)
1147 {
1148 int i, n, nfails, iter, regno, hard_regno, cost, restore_regno;
1149 rtx insn;
1150 basic_block bb;
1151 bitmap_head changed_insns, do_not_assign_nonreload_pseudos;
1152 bitmap_head non_reload_pseudos;
1153 unsigned int u;
1154 bitmap_iterator bi;
1155 bool reload_p;
1156 int max_regno = max_reg_num ();
1157
1158 for (n = 0, i = lra_constraint_new_regno_start; i < max_regno; i++)
1159 if (reg_renumber[i] < 0 && lra_reg_info[i].nrefs != 0
1160 && regno_allocno_class_array[i] != NO_REGS)
1161 sorted_pseudos[n++] = i;
1162 bitmap_initialize (&insn_conflict_pseudos, &reg_obstack);
1163 bitmap_initialize (&spill_pseudos_bitmap, &reg_obstack);
1164 bitmap_initialize (&best_spill_pseudos_bitmap, &reg_obstack);
1165 update_hard_regno_preference_check = XCNEWVEC (int, max_regno);
1166 curr_update_hard_regno_preference_check = 0;
1167 memset (try_hard_reg_pseudos_check, 0, sizeof (try_hard_reg_pseudos_check));
1168 for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
1169 bitmap_initialize (&try_hard_reg_pseudos[i], &reg_obstack);
1170 curr_pseudo_check = 0;
1171 bitmap_initialize (&changed_insns, &reg_obstack);
1172 bitmap_initialize (&non_reload_pseudos, &reg_obstack);
1173 bitmap_ior (&non_reload_pseudos, &lra_inheritance_pseudos, &lra_split_regs);
1174 bitmap_ior_into (&non_reload_pseudos, &lra_optional_reload_pseudos);
1175 for (iter = 0; iter <= 1; iter++)
1176 {
1177 qsort (sorted_pseudos, n, sizeof (int), reload_pseudo_compare_func);
1178 nfails = 0;
1179 for (i = 0; i < n; i++)
1180 {
1181 regno = sorted_pseudos[i];
1182 if (lra_dump_file != NULL)
1183 fprintf (lra_dump_file, " Assigning to %d "
1184 "(cl=%s, orig=%d, freq=%d, tfirst=%d, tfreq=%d)...\n",
1185 regno, reg_class_names[regno_allocno_class_array[regno]],
1186 ORIGINAL_REGNO (regno_reg_rtx[regno]),
1187 lra_reg_info[regno].freq, regno_assign_info[regno].first,
1188 regno_assign_info[regno_assign_info[regno].first].freq);
1189 hard_regno = find_hard_regno_for (regno, &cost, -1);
1190 reload_p = ! bitmap_bit_p (&non_reload_pseudos, regno);
1191 if (hard_regno < 0 && reload_p)
1192 hard_regno = spill_for (regno, &all_spilled_pseudos);
1193 if (hard_regno < 0)
1194 {
1195 if (reload_p)
1196 sorted_pseudos[nfails++] = regno;
1197 }
1198 else
1199 {
1200 /* This register might have been spilled by the previous
1201 pass. Indicate that it is no longer spilled. */
1202 bitmap_clear_bit (&all_spilled_pseudos, regno);
1203 assign_hard_regno (hard_regno, regno);
1204 if (! reload_p)
1205 /* As non-reload pseudo assignment is changed we
1206 should reconsider insns referring for the
1207 pseudo. */
1208 bitmap_set_bit (&changed_pseudo_bitmap, regno);
1209 }
1210 }
1211 if (nfails == 0)
1212 break;
1213 if (iter > 0)
1214 {
1215 /* We did not assign hard regs to reload pseudos after two
1216 iteration. It means something is wrong with asm insn
1217 constraints. Report it. */
1218 bool asm_p = false;
1219 bitmap_head failed_reload_insns;
1220
1221 bitmap_initialize (&failed_reload_insns, &reg_obstack);
1222 for (i = 0; i < nfails; i++)
1223 {
1224 regno = sorted_pseudos[i];
1225 bitmap_ior_into (&failed_reload_insns,
1226 &lra_reg_info[regno].insn_bitmap);
1227 /* Assign an arbitrary hard register of regno class to
1228 avoid further trouble with the asm insns. */
1229 bitmap_clear_bit (&all_spilled_pseudos, regno);
1230 assign_hard_regno
1231 (ira_class_hard_regs[regno_allocno_class_array[regno]][0],
1232 regno);
1233 }
1234 EXECUTE_IF_SET_IN_BITMAP (&failed_reload_insns, 0, u, bi)
1235 {
1236 insn = lra_insn_recog_data[u]->insn;
1237 if (asm_noperands (PATTERN (insn)) >= 0)
1238 {
1239 asm_p = true;
1240 error_for_asm (insn,
1241 "%<asm%> operand has impossible constraints");
1242 }
1243 }
1244 lra_assert (asm_p);
1245 break;
1246 }
1247 /* This is a very rare event. We can not assign a hard
1248 register to reload pseudo because the hard register was
1249 assigned to another reload pseudo on a previous
1250 assignment pass. For x86 example, on the 1st pass we
1251 assigned CX (although another hard register could be used
1252 for this) to reload pseudo in an insn, on the 2nd pass we
1253 need CX (and only this) hard register for a new reload
1254 pseudo in the same insn. */
1255 if (lra_dump_file != NULL)
1256 fprintf (lra_dump_file, " 2nd iter for reload pseudo assignments:\n");
1257 for (i = 0; i < nfails; i++)
1258 {
1259 if (lra_dump_file != NULL)
1260 fprintf (lra_dump_file, " Reload r%d assignment failure\n",
1261 sorted_pseudos[i]);
1262 bitmap_ior_into (&changed_insns,
1263 &lra_reg_info[sorted_pseudos[i]].insn_bitmap);
1264 }
1265 FOR_EACH_BB (bb)
1266 FOR_BB_INSNS (bb, insn)
1267 if (bitmap_bit_p (&changed_insns, INSN_UID (insn)))
1268 {
1269 lra_insn_recog_data_t data;
1270 struct lra_insn_reg *r;
1271
1272 data = lra_get_insn_recog_data (insn);
1273 for (r = data->regs; r != NULL; r = r->next)
1274 {
1275 regno = r->regno;
1276 /* A reload pseudo did not get a hard register on the
1277 first iteration because of the conflict with
1278 another reload pseudos in the same insn. So we
1279 consider only reload pseudos assigned to hard
1280 registers. We shall exclude inheritance pseudos as
1281 they can occur in original insns (not reload ones).
1282 We can omit the check for split pseudos because
1283 they occur only in move insns containing non-reload
1284 pseudos. */
1285 if (regno < lra_constraint_new_regno_start
1286 || bitmap_bit_p (&lra_inheritance_pseudos, regno)
1287 || reg_renumber[regno] < 0)
1288 continue;
1289 sorted_pseudos[nfails++] = regno;
1290 if (lra_dump_file != NULL)
1291 fprintf (lra_dump_file,
1292 " Spill reload r%d(hr=%d, freq=%d)\n",
1293 regno, reg_renumber[regno],
1294 lra_reg_info[regno].freq);
1295 update_lives (regno, true);
1296 lra_setup_reg_renumber (regno, -1, false);
1297 }
1298 }
1299 n = nfails;
1300 }
1301 improve_inheritance (&changed_pseudo_bitmap);
1302 bitmap_clear (&non_reload_pseudos);
1303 bitmap_clear (&changed_insns);
1304 if (! lra_simple_p)
1305 {
1306 /* We should not assign to original pseudos of inheritance
1307 pseudos or split pseudos if any its inheritance pseudo did
1308 not get hard register or any its split pseudo was not split
1309 because undo inheritance/split pass will extend live range of
1310 such inheritance or split pseudos. */
1311 bitmap_initialize (&do_not_assign_nonreload_pseudos, &reg_obstack);
1312 EXECUTE_IF_SET_IN_BITMAP (&lra_inheritance_pseudos, 0, u, bi)
1313 if ((restore_regno = lra_reg_info[u].restore_regno) >= 0
1314 && reg_renumber[u] < 0
1315 && bitmap_bit_p (&lra_inheritance_pseudos, u))
1316 bitmap_set_bit (&do_not_assign_nonreload_pseudos, restore_regno);
1317 EXECUTE_IF_SET_IN_BITMAP (&lra_split_regs, 0, u, bi)
1318 if ((restore_regno = lra_reg_info[u].restore_regno) >= 0
1319 && reg_renumber[u] >= 0)
1320 bitmap_set_bit (&do_not_assign_nonreload_pseudos, restore_regno);
1321 for (n = 0, i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1322 if (((i < lra_constraint_new_regno_start
1323 && ! bitmap_bit_p (&do_not_assign_nonreload_pseudos, i))
1324 || (bitmap_bit_p (&lra_inheritance_pseudos, i)
1325 && lra_reg_info[i].restore_regno >= 0)
1326 || (bitmap_bit_p (&lra_split_regs, i)
1327 && lra_reg_info[i].restore_regno >= 0)
1328 || bitmap_bit_p (&lra_optional_reload_pseudos, i))
1329 && reg_renumber[i] < 0 && lra_reg_info[i].nrefs != 0
1330 && regno_allocno_class_array[i] != NO_REGS)
1331 sorted_pseudos[n++] = i;
1332 bitmap_clear (&do_not_assign_nonreload_pseudos);
1333 if (n != 0 && lra_dump_file != NULL)
1334 fprintf (lra_dump_file, " Reassigning non-reload pseudos\n");
1335 qsort (sorted_pseudos, n, sizeof (int), pseudo_compare_func);
1336 for (i = 0; i < n; i++)
1337 {
1338 regno = sorted_pseudos[i];
1339 hard_regno = find_hard_regno_for (regno, &cost, -1);
1340 if (hard_regno >= 0)
1341 {
1342 assign_hard_regno (hard_regno, regno);
1343 /* We change allocation for non-reload pseudo on this
1344 iteration -- mark the pseudo for invalidation of used
1345 alternatives of insns containing the pseudo. */
1346 bitmap_set_bit (&changed_pseudo_bitmap, regno);
1347 }
1348 }
1349 }
1350 free (update_hard_regno_preference_check);
1351 bitmap_clear (&best_spill_pseudos_bitmap);
1352 bitmap_clear (&spill_pseudos_bitmap);
1353 bitmap_clear (&insn_conflict_pseudos);
1354 }
1355
1356
1357 /* Entry function to assign hard registers to new reload pseudos
1358 starting with LRA_CONSTRAINT_NEW_REGNO_START (by possible spilling
1359 of old pseudos) and possibly to the old pseudos. The function adds
1360 what insns to process for the next constraint pass. Those are all
1361 insns who contains non-reload and non-inheritance pseudos with
1362 changed allocation.
1363
1364 Return true if we did not spill any non-reload and non-inheritance
1365 pseudos. */
1366 bool
1367 lra_assign (void)
1368 {
1369 int i;
1370 unsigned int u;
1371 bitmap_iterator bi;
1372 bitmap_head insns_to_process;
1373 bool no_spills_p;
1374 int max_regno = max_reg_num ();
1375
1376 timevar_push (TV_LRA_ASSIGN);
1377 init_lives ();
1378 sorted_pseudos = XNEWVEC (int, max_regno);
1379 sorted_reload_pseudos = XNEWVEC (int, max_regno);
1380 regno_allocno_class_array = XNEWVEC (enum reg_class, max_regno);
1381 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1382 regno_allocno_class_array[i] = lra_get_allocno_class (i);
1383 init_regno_assign_info ();
1384 bitmap_initialize (&all_spilled_pseudos, &reg_obstack);
1385 create_live_range_start_chains ();
1386 setup_live_pseudos_and_spill_after_risky_transforms (&all_spilled_pseudos);
1387 #ifdef ENABLE_CHECKING
1388 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1389 if (lra_reg_info[i].nrefs != 0 && reg_renumber[i] >= 0
1390 && lra_reg_info[i].call_p
1391 && overlaps_hard_reg_set_p (call_used_reg_set,
1392 PSEUDO_REGNO_MODE (i), reg_renumber[i]))
1393 gcc_unreachable ();
1394 #endif
1395 /* Setup insns to process on the next constraint pass. */
1396 bitmap_initialize (&changed_pseudo_bitmap, &reg_obstack);
1397 init_live_reload_and_inheritance_pseudos ();
1398 assign_by_spills ();
1399 finish_live_reload_and_inheritance_pseudos ();
1400 bitmap_ior_into (&changed_pseudo_bitmap, &all_spilled_pseudos);
1401 no_spills_p = true;
1402 EXECUTE_IF_SET_IN_BITMAP (&all_spilled_pseudos, 0, u, bi)
1403 /* We ignore spilled pseudos created on last inheritance pass
1404 because they will be removed. */
1405 if (lra_reg_info[u].restore_regno < 0)
1406 {
1407 no_spills_p = false;
1408 break;
1409 }
1410 finish_live_range_start_chains ();
1411 bitmap_clear (&all_spilled_pseudos);
1412 bitmap_initialize (&insns_to_process, &reg_obstack);
1413 EXECUTE_IF_SET_IN_BITMAP (&changed_pseudo_bitmap, 0, u, bi)
1414 bitmap_ior_into (&insns_to_process, &lra_reg_info[u].insn_bitmap);
1415 bitmap_clear (&changed_pseudo_bitmap);
1416 EXECUTE_IF_SET_IN_BITMAP (&insns_to_process, 0, u, bi)
1417 {
1418 lra_push_insn_by_uid (u);
1419 /* Invalidate alternatives for insn should be processed. */
1420 lra_set_used_insn_alternative_by_uid (u, -1);
1421 }
1422 bitmap_clear (&insns_to_process);
1423 finish_regno_assign_info ();
1424 free (regno_allocno_class_array);
1425 free (sorted_pseudos);
1426 free (sorted_reload_pseudos);
1427 finish_lives ();
1428 timevar_pop (TV_LRA_ASSIGN);
1429 return no_spills_p;
1430 }
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