PR c/81233
[official-gcc.git] / gcc / lra-assigns.c
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1 /* Assign reload pseudos.
2 Copyright (C) 2010-2017 Free Software Foundation, Inc.
3 Contributed by Vladimir Makarov <vmakarov@redhat.com>.
5 This file is part of GCC.
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.
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.
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/>. */
22 /* This file's main objective is to assign hard registers to reload
23 pseudos. It also tries to allocate hard registers to other
24 pseudos, but at a lower priority than the reload pseudos. The pass
25 does not transform the RTL.
27 We must allocate a hard register to every reload pseudo. We try to
28 increase the chances of finding a viable allocation by assigning
29 the pseudos in order of fewest available hard registers first. If
30 we still fail to find a hard register, we spill other (non-reload)
31 pseudos in order to make room.
33 find_hard_regno_for finds hard registers for allocation without
34 spilling. spill_for does the same with spilling. Both functions
35 use a cost model to determine the most profitable choice of hard
36 and spill registers.
38 Once we have finished allocating reload pseudos, we also try to
39 assign registers to other (non-reload) pseudos. This is useful if
40 hard registers were freed up by the spilling just described.
42 We try to assign hard registers by collecting pseudos into threads.
43 These threads contain reload and inheritance pseudos that are
44 connected by copies (move insns). Doing this improves the chances
45 of pseudos in the thread getting the same hard register and, as a
46 result, of allowing some move insns to be deleted.
48 When we assign a hard register to a pseudo, we decrease the cost of
49 using the same hard register for pseudos that are connected by
50 copies.
52 If two hard registers have the same frequency-derived cost, we
53 prefer hard registers with higher priorities. The mapping of
54 registers to priorities is controlled by the register_priority
55 target hook. For example, x86-64 has a few register priorities:
56 hard registers with and without REX prefixes have different
57 priorities. This permits us to generate smaller code as insns
58 without REX prefixes are shorter.
60 If a few hard registers are still equally good for the assignment,
61 we choose the least used hard register. It is called leveling and
62 may be profitable for some targets.
64 Only insns with changed allocation pseudos are processed on the
65 next constraint pass.
67 The pseudo live-ranges are used to find conflicting pseudos.
69 For understanding the code, it is important to keep in mind that
70 inheritance, split, and reload pseudos created since last
71 constraint pass have regno >= lra_constraint_new_regno_start.
72 Inheritance and split pseudos created on any pass are in the
73 corresponding bitmaps. Inheritance and split pseudos since the
74 last constraint pass have also the corresponding non-negative
75 restore_regno. */
77 #include "config.h"
78 #include "system.h"
79 #include "coretypes.h"
80 #include "backend.h"
81 #include "target.h"
82 #include "rtl.h"
83 #include "tree.h"
84 #include "predict.h"
85 #include "df.h"
86 #include "memmodel.h"
87 #include "tm_p.h"
88 #include "insn-config.h"
89 #include "regs.h"
90 #include "ira.h"
91 #include "recog.h"
92 #include "rtl-error.h"
93 #include "sparseset.h"
94 #include "params.h"
95 #include "lra.h"
96 #include "lra-int.h"
98 /* Current iteration number of the pass and current iteration number
99 of the pass after the latest spill pass when any former reload
100 pseudo was spilled. */
101 int lra_assignment_iter;
102 int lra_assignment_iter_after_spill;
104 /* Flag of spilling former reload pseudos on this pass. */
105 static bool former_reload_pseudo_spill_p;
107 /* Array containing corresponding values of function
108 lra_get_allocno_class. It is used to speed up the code. */
109 static enum reg_class *regno_allocno_class_array;
111 /* Array containing lengths of pseudo live ranges. It is used to
112 speed up the code. */
113 static int *regno_live_length;
115 /* Information about the thread to which a pseudo belongs. Threads are
116 a set of connected reload and inheritance pseudos with the same set of
117 available hard registers. Lone registers belong to their own threads. */
118 struct regno_assign_info
120 /* First/next pseudo of the same thread. */
121 int first, next;
122 /* Frequency of the thread (execution frequency of only reload
123 pseudos in the thread when the thread contains a reload pseudo).
124 Defined only for the first thread pseudo. */
125 int freq;
128 /* Map regno to the corresponding regno assignment info. */
129 static struct regno_assign_info *regno_assign_info;
131 /* All inherited, subreg or optional pseudos created before last spill
132 sub-pass. Such pseudos are permitted to get memory instead of hard
133 regs. */
134 static bitmap_head non_reload_pseudos;
136 /* Process a pseudo copy with execution frequency COPY_FREQ connecting
137 REGNO1 and REGNO2 to form threads. */
138 static void
139 process_copy_to_form_thread (int regno1, int regno2, int copy_freq)
141 int last, regno1_first, regno2_first;
143 lra_assert (regno1 >= lra_constraint_new_regno_start
144 && regno2 >= lra_constraint_new_regno_start);
145 regno1_first = regno_assign_info[regno1].first;
146 regno2_first = regno_assign_info[regno2].first;
147 if (regno1_first != regno2_first)
149 for (last = regno2_first;
150 regno_assign_info[last].next >= 0;
151 last = regno_assign_info[last].next)
152 regno_assign_info[last].first = regno1_first;
153 regno_assign_info[last].first = regno1_first;
154 regno_assign_info[last].next = regno_assign_info[regno1_first].next;
155 regno_assign_info[regno1_first].next = regno2_first;
156 regno_assign_info[regno1_first].freq
157 += regno_assign_info[regno2_first].freq;
159 regno_assign_info[regno1_first].freq -= 2 * copy_freq;
160 lra_assert (regno_assign_info[regno1_first].freq >= 0);
163 /* Initialize REGNO_ASSIGN_INFO and form threads. */
164 static void
165 init_regno_assign_info (void)
167 int i, regno1, regno2, max_regno = max_reg_num ();
168 lra_copy_t cp;
170 regno_assign_info = XNEWVEC (struct regno_assign_info, max_regno);
171 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
173 regno_assign_info[i].first = i;
174 regno_assign_info[i].next = -1;
175 regno_assign_info[i].freq = lra_reg_info[i].freq;
177 /* Form the threads. */
178 for (i = 0; (cp = lra_get_copy (i)) != NULL; i++)
179 if ((regno1 = cp->regno1) >= lra_constraint_new_regno_start
180 && (regno2 = cp->regno2) >= lra_constraint_new_regno_start
181 && reg_renumber[regno1] < 0 && lra_reg_info[regno1].nrefs != 0
182 && reg_renumber[regno2] < 0 && lra_reg_info[regno2].nrefs != 0
183 && (ira_class_hard_regs_num[regno_allocno_class_array[regno1]]
184 == ira_class_hard_regs_num[regno_allocno_class_array[regno2]]))
185 process_copy_to_form_thread (regno1, regno2, cp->freq);
188 /* Free REGNO_ASSIGN_INFO. */
189 static void
190 finish_regno_assign_info (void)
192 free (regno_assign_info);
195 /* The function is used to sort *reload* and *inheritance* pseudos to
196 try to assign them hard registers. We put pseudos from the same
197 thread always nearby. */
198 static int
199 reload_pseudo_compare_func (const void *v1p, const void *v2p)
201 int r1 = *(const int *) v1p, r2 = *(const int *) v2p;
202 enum reg_class cl1 = regno_allocno_class_array[r1];
203 enum reg_class cl2 = regno_allocno_class_array[r2];
204 int diff;
206 lra_assert (r1 >= lra_constraint_new_regno_start
207 && r2 >= lra_constraint_new_regno_start);
209 /* Prefer to assign reload registers with smaller classes first to
210 guarantee assignment to all reload registers. */
211 if ((diff = (ira_class_hard_regs_num[cl1]
212 - ira_class_hard_regs_num[cl2])) != 0)
213 return diff;
214 if ((diff
215 = (ira_reg_class_max_nregs[cl2][lra_reg_info[r2].biggest_mode]
216 - ira_reg_class_max_nregs[cl1][lra_reg_info[r1].biggest_mode])) != 0
217 /* The code below executes rarely as nregs == 1 in most cases.
218 So we should not worry about using faster data structures to
219 check reload pseudos. */
220 && ! bitmap_bit_p (&non_reload_pseudos, r1)
221 && ! bitmap_bit_p (&non_reload_pseudos, r2))
222 return diff;
223 if ((diff = (regno_assign_info[regno_assign_info[r2].first].freq
224 - regno_assign_info[regno_assign_info[r1].first].freq)) != 0)
225 return diff;
226 /* Allocate bigger pseudos first to avoid register file
227 fragmentation. */
228 if ((diff
229 = (ira_reg_class_max_nregs[cl2][lra_reg_info[r2].biggest_mode]
230 - ira_reg_class_max_nregs[cl1][lra_reg_info[r1].biggest_mode])) != 0)
231 return diff;
232 /* Put pseudos from the thread nearby. */
233 if ((diff = regno_assign_info[r1].first - regno_assign_info[r2].first) != 0)
234 return diff;
235 /* Prefer pseudos with longer live ranges. It sets up better
236 prefered hard registers for the thread pseudos and decreases
237 register-register moves between the thread pseudos. */
238 if ((diff = regno_live_length[r2] - regno_live_length[r1]) != 0)
239 return diff;
240 /* If regs are equally good, sort by their numbers, so that the
241 results of qsort leave nothing to chance. */
242 return r1 - r2;
245 /* The function is used to sort *non-reload* pseudos to try to assign
246 them hard registers. The order calculation is simpler than in the
247 previous function and based on the pseudo frequency usage. */
248 static int
249 pseudo_compare_func (const void *v1p, const void *v2p)
251 int r1 = *(const int *) v1p, r2 = *(const int *) v2p;
252 int diff;
254 /* Assign hard reg to static chain pointer first pseudo when
255 non-local goto is used. */
256 if ((diff = (non_spilled_static_chain_regno_p (r2)
257 - non_spilled_static_chain_regno_p (r1))) != 0)
258 return diff;
260 /* Prefer to assign more frequently used registers first. */
261 if ((diff = lra_reg_info[r2].freq - lra_reg_info[r1].freq) != 0)
262 return diff;
264 /* If regs are equally good, sort by their numbers, so that the
265 results of qsort leave nothing to chance. */
266 return r1 - r2;
269 /* Arrays of size LRA_LIVE_MAX_POINT mapping a program point to the
270 pseudo live ranges with given start point. We insert only live
271 ranges of pseudos interesting for assignment purposes. They are
272 reload pseudos and pseudos assigned to hard registers. */
273 static lra_live_range_t *start_point_ranges;
275 /* Used as a flag that a live range is not inserted in the start point
276 chain. */
277 static struct lra_live_range not_in_chain_mark;
279 /* Create and set up START_POINT_RANGES. */
280 static void
281 create_live_range_start_chains (void)
283 int i, max_regno;
284 lra_live_range_t r;
286 start_point_ranges = XCNEWVEC (lra_live_range_t, lra_live_max_point);
287 max_regno = max_reg_num ();
288 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
289 if (i >= lra_constraint_new_regno_start || reg_renumber[i] >= 0)
291 for (r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
293 r->start_next = start_point_ranges[r->start];
294 start_point_ranges[r->start] = r;
297 else
299 for (r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
300 r->start_next = &not_in_chain_mark;
304 /* Insert live ranges of pseudo REGNO into start chains if they are
305 not there yet. */
306 static void
307 insert_in_live_range_start_chain (int regno)
309 lra_live_range_t r = lra_reg_info[regno].live_ranges;
311 if (r->start_next != &not_in_chain_mark)
312 return;
313 for (; r != NULL; r = r->next)
315 r->start_next = start_point_ranges[r->start];
316 start_point_ranges[r->start] = r;
320 /* Free START_POINT_RANGES. */
321 static void
322 finish_live_range_start_chains (void)
324 gcc_assert (start_point_ranges != NULL);
325 free (start_point_ranges);
326 start_point_ranges = NULL;
329 /* Map: program point -> bitmap of all pseudos living at the point and
330 assigned to hard registers. */
331 static bitmap_head *live_hard_reg_pseudos;
332 static bitmap_obstack live_hard_reg_pseudos_bitmap_obstack;
334 /* reg_renumber corresponding to pseudos marked in
335 live_hard_reg_pseudos. reg_renumber might be not matched to
336 live_hard_reg_pseudos but live_pseudos_reg_renumber always reflects
337 live_hard_reg_pseudos. */
338 static int *live_pseudos_reg_renumber;
340 /* Sparseset used to calculate living hard reg pseudos for some program
341 point range. */
342 static sparseset live_range_hard_reg_pseudos;
344 /* Sparseset used to calculate living reload/inheritance pseudos for
345 some program point range. */
346 static sparseset live_range_reload_inheritance_pseudos;
348 /* Allocate and initialize the data about living pseudos at program
349 points. */
350 static void
351 init_lives (void)
353 int i, max_regno = max_reg_num ();
355 live_range_hard_reg_pseudos = sparseset_alloc (max_regno);
356 live_range_reload_inheritance_pseudos = sparseset_alloc (max_regno);
357 live_hard_reg_pseudos = XNEWVEC (bitmap_head, lra_live_max_point);
358 bitmap_obstack_initialize (&live_hard_reg_pseudos_bitmap_obstack);
359 for (i = 0; i < lra_live_max_point; i++)
360 bitmap_initialize (&live_hard_reg_pseudos[i],
361 &live_hard_reg_pseudos_bitmap_obstack);
362 live_pseudos_reg_renumber = XNEWVEC (int, max_regno);
363 for (i = 0; i < max_regno; i++)
364 live_pseudos_reg_renumber[i] = -1;
367 /* Free the data about living pseudos at program points. */
368 static void
369 finish_lives (void)
371 sparseset_free (live_range_hard_reg_pseudos);
372 sparseset_free (live_range_reload_inheritance_pseudos);
373 free (live_hard_reg_pseudos);
374 bitmap_obstack_release (&live_hard_reg_pseudos_bitmap_obstack);
375 free (live_pseudos_reg_renumber);
378 /* Update the LIVE_HARD_REG_PSEUDOS and LIVE_PSEUDOS_REG_RENUMBER
379 entries for pseudo REGNO. Assume that the register has been
380 spilled if FREE_P, otherwise assume that it has been assigned
381 reg_renumber[REGNO] (if >= 0). We also insert the pseudo live
382 ranges in the start chains when it is assumed to be assigned to a
383 hard register because we use the chains of pseudos assigned to hard
384 registers during allocation. */
385 static void
386 update_lives (int regno, bool free_p)
388 int p;
389 lra_live_range_t r;
391 if (reg_renumber[regno] < 0)
392 return;
393 live_pseudos_reg_renumber[regno] = free_p ? -1 : reg_renumber[regno];
394 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
396 for (p = r->start; p <= r->finish; p++)
397 if (free_p)
398 bitmap_clear_bit (&live_hard_reg_pseudos[p], regno);
399 else
401 bitmap_set_bit (&live_hard_reg_pseudos[p], regno);
402 insert_in_live_range_start_chain (regno);
407 /* Sparseset used to calculate reload pseudos conflicting with a given
408 pseudo when we are trying to find a hard register for the given
409 pseudo. */
410 static sparseset conflict_reload_and_inheritance_pseudos;
412 /* Map: program point -> bitmap of all reload and inheritance pseudos
413 living at the point. */
414 static bitmap_head *live_reload_and_inheritance_pseudos;
415 static bitmap_obstack live_reload_and_inheritance_pseudos_bitmap_obstack;
417 /* Allocate and initialize data about living reload pseudos at any
418 given program point. */
419 static void
420 init_live_reload_and_inheritance_pseudos (void)
422 int i, p, max_regno = max_reg_num ();
423 lra_live_range_t r;
425 conflict_reload_and_inheritance_pseudos = sparseset_alloc (max_regno);
426 live_reload_and_inheritance_pseudos = XNEWVEC (bitmap_head, lra_live_max_point);
427 bitmap_obstack_initialize (&live_reload_and_inheritance_pseudos_bitmap_obstack);
428 for (p = 0; p < lra_live_max_point; p++)
429 bitmap_initialize (&live_reload_and_inheritance_pseudos[p],
430 &live_reload_and_inheritance_pseudos_bitmap_obstack);
431 for (i = lra_constraint_new_regno_start; i < max_regno; i++)
433 for (r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
434 for (p = r->start; p <= r->finish; p++)
435 bitmap_set_bit (&live_reload_and_inheritance_pseudos[p], i);
439 /* Finalize data about living reload pseudos at any given program
440 point. */
441 static void
442 finish_live_reload_and_inheritance_pseudos (void)
444 sparseset_free (conflict_reload_and_inheritance_pseudos);
445 free (live_reload_and_inheritance_pseudos);
446 bitmap_obstack_release (&live_reload_and_inheritance_pseudos_bitmap_obstack);
449 /* The value used to check that cost of given hard reg is really
450 defined currently. */
451 static int curr_hard_regno_costs_check = 0;
452 /* Array used to check that cost of the corresponding hard reg (the
453 array element index) is really defined currently. */
454 static int hard_regno_costs_check[FIRST_PSEUDO_REGISTER];
455 /* The current costs of allocation of hard regs. Defined only if the
456 value of the corresponding element of the previous array is equal to
457 CURR_HARD_REGNO_COSTS_CHECK. */
458 static int hard_regno_costs[FIRST_PSEUDO_REGISTER];
460 /* Adjust cost of HARD_REGNO by INCR. Reset the cost first if it is
461 not defined yet. */
462 static inline void
463 adjust_hard_regno_cost (int hard_regno, int incr)
465 if (hard_regno_costs_check[hard_regno] != curr_hard_regno_costs_check)
466 hard_regno_costs[hard_regno] = 0;
467 hard_regno_costs_check[hard_regno] = curr_hard_regno_costs_check;
468 hard_regno_costs[hard_regno] += incr;
471 /* Try to find a free hard register for pseudo REGNO. Return the
472 hard register on success and set *COST to the cost of using
473 that register. (If several registers have equal cost, the one with
474 the highest priority wins.) Return -1 on failure.
476 If FIRST_P, return the first available hard reg ignoring other
477 criteria, e.g. allocation cost. This approach results in less hard
478 reg pool fragmentation and permit to allocate hard regs to reload
479 pseudos in complicated situations where pseudo sizes are different.
481 If TRY_ONLY_HARD_REGNO >= 0, consider only that hard register,
482 otherwise consider all hard registers in REGNO's class.
484 If REGNO_SET is not empty, only hard registers from the set are
485 considered. */
486 static int
487 find_hard_regno_for_1 (int regno, int *cost, int try_only_hard_regno,
488 bool first_p, HARD_REG_SET regno_set)
490 HARD_REG_SET conflict_set;
491 int best_cost = INT_MAX, best_priority = INT_MIN, best_usage = INT_MAX;
492 lra_live_range_t r;
493 int p, i, j, rclass_size, best_hard_regno, priority, hard_regno;
494 int hr, conflict_hr, nregs;
495 machine_mode biggest_mode;
496 unsigned int k, conflict_regno;
497 int offset, val, biggest_nregs, nregs_diff;
498 enum reg_class rclass;
499 bitmap_iterator bi;
500 bool *rclass_intersect_p;
501 HARD_REG_SET impossible_start_hard_regs, available_regs;
503 if (hard_reg_set_empty_p (regno_set))
504 COPY_HARD_REG_SET (conflict_set, lra_no_alloc_regs);
505 else
507 COMPL_HARD_REG_SET (conflict_set, regno_set);
508 IOR_HARD_REG_SET (conflict_set, lra_no_alloc_regs);
510 rclass = regno_allocno_class_array[regno];
511 rclass_intersect_p = ira_reg_classes_intersect_p[rclass];
512 curr_hard_regno_costs_check++;
513 sparseset_clear (conflict_reload_and_inheritance_pseudos);
514 sparseset_clear (live_range_hard_reg_pseudos);
515 IOR_HARD_REG_SET (conflict_set, lra_reg_info[regno].conflict_hard_regs);
516 biggest_mode = lra_reg_info[regno].biggest_mode;
517 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
519 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[r->start], 0, k, bi)
520 if (rclass_intersect_p[regno_allocno_class_array[k]])
521 sparseset_set_bit (live_range_hard_reg_pseudos, k);
522 EXECUTE_IF_SET_IN_BITMAP (&live_reload_and_inheritance_pseudos[r->start],
523 0, k, bi)
524 if (lra_reg_info[k].preferred_hard_regno1 >= 0
525 && live_pseudos_reg_renumber[k] < 0
526 && rclass_intersect_p[regno_allocno_class_array[k]])
527 sparseset_set_bit (conflict_reload_and_inheritance_pseudos, k);
528 for (p = r->start + 1; p <= r->finish; p++)
530 lra_live_range_t r2;
532 for (r2 = start_point_ranges[p];
533 r2 != NULL;
534 r2 = r2->start_next)
536 if (r2->regno >= lra_constraint_new_regno_start
537 && lra_reg_info[r2->regno].preferred_hard_regno1 >= 0
538 && live_pseudos_reg_renumber[r2->regno] < 0
539 && rclass_intersect_p[regno_allocno_class_array[r2->regno]])
540 sparseset_set_bit (conflict_reload_and_inheritance_pseudos,
541 r2->regno);
542 if (live_pseudos_reg_renumber[r2->regno] >= 0
543 && rclass_intersect_p[regno_allocno_class_array[r2->regno]])
544 sparseset_set_bit (live_range_hard_reg_pseudos, r2->regno);
548 if ((hard_regno = lra_reg_info[regno].preferred_hard_regno1) >= 0)
550 adjust_hard_regno_cost
551 (hard_regno, -lra_reg_info[regno].preferred_hard_regno_profit1);
552 if ((hard_regno = lra_reg_info[regno].preferred_hard_regno2) >= 0)
553 adjust_hard_regno_cost
554 (hard_regno, -lra_reg_info[regno].preferred_hard_regno_profit2);
556 #ifdef STACK_REGS
557 if (lra_reg_info[regno].no_stack_p)
558 for (i = FIRST_STACK_REG; i <= LAST_STACK_REG; i++)
559 SET_HARD_REG_BIT (conflict_set, i);
560 #endif
561 sparseset_clear_bit (conflict_reload_and_inheritance_pseudos, regno);
562 val = lra_reg_info[regno].val;
563 offset = lra_reg_info[regno].offset;
564 CLEAR_HARD_REG_SET (impossible_start_hard_regs);
565 EXECUTE_IF_SET_IN_SPARSESET (live_range_hard_reg_pseudos, conflict_regno)
567 conflict_hr = live_pseudos_reg_renumber[conflict_regno];
568 if (lra_reg_val_equal_p (conflict_regno, val, offset))
570 conflict_hr = live_pseudos_reg_renumber[conflict_regno];
571 nregs = (hard_regno_nregs[conflict_hr]
572 [lra_reg_info[conflict_regno].biggest_mode]);
573 /* Remember about multi-register pseudos. For example, 2
574 hard register pseudos can start on the same hard register
575 but can not start on HR and HR+1/HR-1. */
576 for (hr = conflict_hr + 1;
577 hr < FIRST_PSEUDO_REGISTER && hr < conflict_hr + nregs;
578 hr++)
579 SET_HARD_REG_BIT (impossible_start_hard_regs, hr);
580 for (hr = conflict_hr - 1;
581 hr >= 0 && hr + hard_regno_nregs[hr][biggest_mode] > conflict_hr;
582 hr--)
583 SET_HARD_REG_BIT (impossible_start_hard_regs, hr);
585 else
587 machine_mode biggest_conflict_mode
588 = lra_reg_info[conflict_regno].biggest_mode;
589 int biggest_conflict_nregs
590 = hard_regno_nregs[conflict_hr][biggest_conflict_mode];
592 nregs_diff = (biggest_conflict_nregs
593 - (hard_regno_nregs
594 [conflict_hr]
595 [PSEUDO_REGNO_MODE (conflict_regno)]));
596 add_to_hard_reg_set (&conflict_set,
597 biggest_conflict_mode,
598 conflict_hr
599 - (WORDS_BIG_ENDIAN ? nregs_diff : 0));
600 if (hard_reg_set_subset_p (reg_class_contents[rclass],
601 conflict_set))
602 return -1;
605 EXECUTE_IF_SET_IN_SPARSESET (conflict_reload_and_inheritance_pseudos,
606 conflict_regno)
607 if (!lra_reg_val_equal_p (conflict_regno, val, offset))
609 lra_assert (live_pseudos_reg_renumber[conflict_regno] < 0);
610 if ((hard_regno
611 = lra_reg_info[conflict_regno].preferred_hard_regno1) >= 0)
613 adjust_hard_regno_cost
614 (hard_regno,
615 lra_reg_info[conflict_regno].preferred_hard_regno_profit1);
616 if ((hard_regno
617 = lra_reg_info[conflict_regno].preferred_hard_regno2) >= 0)
618 adjust_hard_regno_cost
619 (hard_regno,
620 lra_reg_info[conflict_regno].preferred_hard_regno_profit2);
623 /* Make sure that all registers in a multi-word pseudo belong to the
624 required class. */
625 IOR_COMPL_HARD_REG_SET (conflict_set, reg_class_contents[rclass]);
626 lra_assert (rclass != NO_REGS);
627 rclass_size = ira_class_hard_regs_num[rclass];
628 best_hard_regno = -1;
629 hard_regno = ira_class_hard_regs[rclass][0];
630 biggest_nregs = hard_regno_nregs[hard_regno][biggest_mode];
631 nregs_diff = (biggest_nregs
632 - hard_regno_nregs[hard_regno][PSEUDO_REGNO_MODE (regno)]);
633 COPY_HARD_REG_SET (available_regs, reg_class_contents[rclass]);
634 AND_COMPL_HARD_REG_SET (available_regs, lra_no_alloc_regs);
635 for (i = 0; i < rclass_size; i++)
637 if (try_only_hard_regno >= 0)
638 hard_regno = try_only_hard_regno;
639 else
640 hard_regno = ira_class_hard_regs[rclass][i];
641 if (! overlaps_hard_reg_set_p (conflict_set,
642 PSEUDO_REGNO_MODE (regno), hard_regno)
643 && HARD_REGNO_MODE_OK (hard_regno, PSEUDO_REGNO_MODE (regno))
644 /* We can not use prohibited_class_mode_regs for all classes
645 because it is not defined for all classes. */
646 && (ira_allocno_class_translate[rclass] != rclass
647 || ! TEST_HARD_REG_BIT (ira_prohibited_class_mode_regs
648 [rclass][PSEUDO_REGNO_MODE (regno)],
649 hard_regno))
650 && ! TEST_HARD_REG_BIT (impossible_start_hard_regs, hard_regno)
651 && (nregs_diff == 0
652 || (WORDS_BIG_ENDIAN
653 ? (hard_regno - nregs_diff >= 0
654 && TEST_HARD_REG_BIT (available_regs,
655 hard_regno - nregs_diff))
656 : TEST_HARD_REG_BIT (available_regs,
657 hard_regno + nregs_diff))))
659 if (hard_regno_costs_check[hard_regno]
660 != curr_hard_regno_costs_check)
662 hard_regno_costs_check[hard_regno] = curr_hard_regno_costs_check;
663 hard_regno_costs[hard_regno] = 0;
665 for (j = 0;
666 j < hard_regno_nregs[hard_regno][PSEUDO_REGNO_MODE (regno)];
667 j++)
668 if (! TEST_HARD_REG_BIT (call_used_reg_set, hard_regno + j)
669 && ! df_regs_ever_live_p (hard_regno + j))
670 /* It needs save restore. */
671 hard_regno_costs[hard_regno]
672 += (2
673 * REG_FREQ_FROM_BB (ENTRY_BLOCK_PTR_FOR_FN (cfun)->next_bb)
674 + 1);
675 priority = targetm.register_priority (hard_regno);
676 if (best_hard_regno < 0 || hard_regno_costs[hard_regno] < best_cost
677 || (hard_regno_costs[hard_regno] == best_cost
678 && (priority > best_priority
679 || (targetm.register_usage_leveling_p ()
680 && priority == best_priority
681 && best_usage > lra_hard_reg_usage[hard_regno]))))
683 best_hard_regno = hard_regno;
684 best_cost = hard_regno_costs[hard_regno];
685 best_priority = priority;
686 best_usage = lra_hard_reg_usage[hard_regno];
689 if (try_only_hard_regno >= 0 || (first_p && best_hard_regno >= 0))
690 break;
692 if (best_hard_regno >= 0)
693 *cost = best_cost - lra_reg_info[regno].freq;
694 return best_hard_regno;
697 /* A wrapper for find_hard_regno_for_1 (see comments for that function
698 description). This function tries to find a hard register for
699 preferred class first if it is worth. */
700 static int
701 find_hard_regno_for (int regno, int *cost, int try_only_hard_regno, bool first_p)
703 int hard_regno;
704 HARD_REG_SET regno_set;
706 /* Only original pseudos can have a different preferred class. */
707 if (try_only_hard_regno < 0 && regno < lra_new_regno_start)
709 enum reg_class pref_class = reg_preferred_class (regno);
711 if (regno_allocno_class_array[regno] != pref_class)
713 hard_regno = find_hard_regno_for_1 (regno, cost, -1, first_p,
714 reg_class_contents[pref_class]);
715 if (hard_regno >= 0)
716 return hard_regno;
719 CLEAR_HARD_REG_SET (regno_set);
720 return find_hard_regno_for_1 (regno, cost, try_only_hard_regno, first_p,
721 regno_set);
724 /* Current value used for checking elements in
725 update_hard_regno_preference_check. */
726 static int curr_update_hard_regno_preference_check;
727 /* If an element value is equal to the above variable value, then the
728 corresponding regno has been processed for preference
729 propagation. */
730 static int *update_hard_regno_preference_check;
732 /* Update the preference for using HARD_REGNO for pseudos that are
733 connected directly or indirectly with REGNO. Apply divisor DIV
734 to any preference adjustments.
736 The more indirectly a pseudo is connected, the smaller its effect
737 should be. We therefore increase DIV on each "hop". */
738 static void
739 update_hard_regno_preference (int regno, int hard_regno, int div)
741 int another_regno, cost;
742 lra_copy_t cp, next_cp;
744 /* Search depth 5 seems to be enough. */
745 if (div > (1 << 5))
746 return;
747 for (cp = lra_reg_info[regno].copies; cp != NULL; cp = next_cp)
749 if (cp->regno1 == regno)
751 next_cp = cp->regno1_next;
752 another_regno = cp->regno2;
754 else if (cp->regno2 == regno)
756 next_cp = cp->regno2_next;
757 another_regno = cp->regno1;
759 else
760 gcc_unreachable ();
761 if (reg_renumber[another_regno] < 0
762 && (update_hard_regno_preference_check[another_regno]
763 != curr_update_hard_regno_preference_check))
765 update_hard_regno_preference_check[another_regno]
766 = curr_update_hard_regno_preference_check;
767 cost = cp->freq < div ? 1 : cp->freq / div;
768 lra_setup_reload_pseudo_preferenced_hard_reg
769 (another_regno, hard_regno, cost);
770 update_hard_regno_preference (another_regno, hard_regno, div * 2);
775 /* Return prefix title for pseudo REGNO. */
776 static const char *
777 pseudo_prefix_title (int regno)
779 return
780 (regno < lra_constraint_new_regno_start ? ""
781 : bitmap_bit_p (&lra_inheritance_pseudos, regno) ? "inheritance "
782 : bitmap_bit_p (&lra_split_regs, regno) ? "split "
783 : bitmap_bit_p (&lra_optional_reload_pseudos, regno) ? "optional reload "
784 : bitmap_bit_p (&lra_subreg_reload_pseudos, regno) ? "subreg reload "
785 : "reload ");
788 /* Update REG_RENUMBER and other pseudo preferences by assignment of
789 HARD_REGNO to pseudo REGNO and print about it if PRINT_P. */
790 void
791 lra_setup_reg_renumber (int regno, int hard_regno, bool print_p)
793 int i, hr;
795 /* We can not just reassign hard register. */
796 lra_assert (hard_regno < 0 || reg_renumber[regno] < 0);
797 if ((hr = hard_regno) < 0)
798 hr = reg_renumber[regno];
799 reg_renumber[regno] = hard_regno;
800 lra_assert (hr >= 0);
801 for (i = 0; i < hard_regno_nregs[hr][PSEUDO_REGNO_MODE (regno)]; i++)
802 if (hard_regno < 0)
803 lra_hard_reg_usage[hr + i] -= lra_reg_info[regno].freq;
804 else
805 lra_hard_reg_usage[hr + i] += lra_reg_info[regno].freq;
806 if (print_p && lra_dump_file != NULL)
807 fprintf (lra_dump_file, " Assign %d to %sr%d (freq=%d)\n",
808 reg_renumber[regno], pseudo_prefix_title (regno),
809 regno, lra_reg_info[regno].freq);
810 if (hard_regno >= 0)
812 curr_update_hard_regno_preference_check++;
813 update_hard_regno_preference (regno, hard_regno, 1);
817 /* Pseudos which occur in insns containing a particular pseudo. */
818 static bitmap_head insn_conflict_pseudos;
820 /* Bitmaps used to contain spill pseudos for given pseudo hard regno
821 and best spill pseudos for given pseudo (and best hard regno). */
822 static bitmap_head spill_pseudos_bitmap, best_spill_pseudos_bitmap;
824 /* Current pseudo check for validity of elements in
825 TRY_HARD_REG_PSEUDOS. */
826 static int curr_pseudo_check;
827 /* Array used for validity of elements in TRY_HARD_REG_PSEUDOS. */
828 static int try_hard_reg_pseudos_check[FIRST_PSEUDO_REGISTER];
829 /* Pseudos who hold given hard register at the considered points. */
830 static bitmap_head try_hard_reg_pseudos[FIRST_PSEUDO_REGISTER];
832 /* Set up try_hard_reg_pseudos for given program point P and class
833 RCLASS. Those are pseudos living at P and assigned to a hard
834 register of RCLASS. In other words, those are pseudos which can be
835 spilled to assign a hard register of RCLASS to a pseudo living at
836 P. */
837 static void
838 setup_try_hard_regno_pseudos (int p, enum reg_class rclass)
840 int i, hard_regno;
841 machine_mode mode;
842 unsigned int spill_regno;
843 bitmap_iterator bi;
845 /* Find what pseudos could be spilled. */
846 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[p], 0, spill_regno, bi)
848 mode = PSEUDO_REGNO_MODE (spill_regno);
849 hard_regno = live_pseudos_reg_renumber[spill_regno];
850 if (overlaps_hard_reg_set_p (reg_class_contents[rclass],
851 mode, hard_regno))
853 for (i = hard_regno_nregs[hard_regno][mode] - 1; i >= 0; i--)
855 if (try_hard_reg_pseudos_check[hard_regno + i]
856 != curr_pseudo_check)
858 try_hard_reg_pseudos_check[hard_regno + i]
859 = curr_pseudo_check;
860 bitmap_clear (&try_hard_reg_pseudos[hard_regno + i]);
862 bitmap_set_bit (&try_hard_reg_pseudos[hard_regno + i],
863 spill_regno);
869 /* Assign temporarily HARD_REGNO to pseudo REGNO. Temporary
870 assignment means that we might undo the data change. */
871 static void
872 assign_temporarily (int regno, int hard_regno)
874 int p;
875 lra_live_range_t r;
877 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
879 for (p = r->start; p <= r->finish; p++)
880 if (hard_regno < 0)
881 bitmap_clear_bit (&live_hard_reg_pseudos[p], regno);
882 else
884 bitmap_set_bit (&live_hard_reg_pseudos[p], regno);
885 insert_in_live_range_start_chain (regno);
888 live_pseudos_reg_renumber[regno] = hard_regno;
891 /* Return true iff there is a reason why pseudo SPILL_REGNO should not
892 be spilled. */
893 static bool
894 must_not_spill_p (unsigned spill_regno)
896 if ((pic_offset_table_rtx != NULL
897 && spill_regno == REGNO (pic_offset_table_rtx))
898 || ((int) spill_regno >= lra_constraint_new_regno_start
899 && ! bitmap_bit_p (&lra_inheritance_pseudos, spill_regno)
900 && ! bitmap_bit_p (&lra_split_regs, spill_regno)
901 && ! bitmap_bit_p (&lra_subreg_reload_pseudos, spill_regno)
902 && ! bitmap_bit_p (&lra_optional_reload_pseudos, spill_regno)))
903 return true;
904 /* A reload pseudo that requires a singleton register class should
905 not be spilled.
906 FIXME: this mitigates the issue on certain i386 patterns, but
907 does not solve the general case where existing reloads fully
908 cover a limited register class. */
909 if (!bitmap_bit_p (&non_reload_pseudos, spill_regno)
910 && reg_class_size [reg_preferred_class (spill_regno)] == 1
911 && reg_alternate_class (spill_regno) == NO_REGS)
912 return true;
913 return false;
916 /* Array used for sorting reload pseudos for subsequent allocation
917 after spilling some pseudo. */
918 static int *sorted_reload_pseudos;
920 /* Spill some pseudos for a reload pseudo REGNO and return hard
921 register which should be used for pseudo after spilling. The
922 function adds spilled pseudos to SPILLED_PSEUDO_BITMAP. When we
923 choose hard register (and pseudos occupying the hard registers and
924 to be spilled), we take into account not only how REGNO will
925 benefit from the spills but also how other reload pseudos not yet
926 assigned to hard registers benefit from the spills too. In very
927 rare cases, the function can fail and return -1.
929 If FIRST_P, return the first available hard reg ignoring other
930 criteria, e.g. allocation cost and cost of spilling non-reload
931 pseudos. This approach results in less hard reg pool fragmentation
932 and permit to allocate hard regs to reload pseudos in complicated
933 situations where pseudo sizes are different. */
934 static int
935 spill_for (int regno, bitmap spilled_pseudo_bitmap, bool first_p)
937 int i, j, n, p, hard_regno, best_hard_regno, cost, best_cost, rclass_size;
938 int reload_hard_regno, reload_cost;
939 bool static_p, best_static_p;
940 machine_mode mode;
941 enum reg_class rclass;
942 unsigned int spill_regno, reload_regno, uid;
943 int insn_pseudos_num, best_insn_pseudos_num;
944 int bad_spills_num, smallest_bad_spills_num;
945 lra_live_range_t r;
946 bitmap_iterator bi;
948 rclass = regno_allocno_class_array[regno];
949 lra_assert (reg_renumber[regno] < 0 && rclass != NO_REGS);
950 bitmap_clear (&insn_conflict_pseudos);
951 bitmap_clear (&best_spill_pseudos_bitmap);
952 EXECUTE_IF_SET_IN_BITMAP (&lra_reg_info[regno].insn_bitmap, 0, uid, bi)
954 struct lra_insn_reg *ir;
956 for (ir = lra_get_insn_regs (uid); ir != NULL; ir = ir->next)
957 if (ir->regno >= FIRST_PSEUDO_REGISTER)
958 bitmap_set_bit (&insn_conflict_pseudos, ir->regno);
960 best_hard_regno = -1;
961 best_cost = INT_MAX;
962 best_static_p = TRUE;
963 best_insn_pseudos_num = INT_MAX;
964 smallest_bad_spills_num = INT_MAX;
965 rclass_size = ira_class_hard_regs_num[rclass];
966 mode = PSEUDO_REGNO_MODE (regno);
967 /* Invalidate try_hard_reg_pseudos elements. */
968 curr_pseudo_check++;
969 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
970 for (p = r->start; p <= r->finish; p++)
971 setup_try_hard_regno_pseudos (p, rclass);
972 for (i = 0; i < rclass_size; i++)
974 hard_regno = ira_class_hard_regs[rclass][i];
975 bitmap_clear (&spill_pseudos_bitmap);
976 for (j = hard_regno_nregs[hard_regno][mode] - 1; j >= 0; j--)
978 if (try_hard_reg_pseudos_check[hard_regno + j] != curr_pseudo_check)
979 continue;
980 lra_assert (!bitmap_empty_p (&try_hard_reg_pseudos[hard_regno + j]));
981 bitmap_ior_into (&spill_pseudos_bitmap,
982 &try_hard_reg_pseudos[hard_regno + j]);
984 /* Spill pseudos. */
985 static_p = false;
986 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
987 if (must_not_spill_p (spill_regno))
988 goto fail;
989 else if (non_spilled_static_chain_regno_p (spill_regno))
990 static_p = true;
991 insn_pseudos_num = 0;
992 bad_spills_num = 0;
993 if (lra_dump_file != NULL)
994 fprintf (lra_dump_file, " Trying %d:", hard_regno);
995 sparseset_clear (live_range_reload_inheritance_pseudos);
996 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
998 if (bitmap_bit_p (&insn_conflict_pseudos, spill_regno))
999 insn_pseudos_num++;
1000 if (spill_regno >= (unsigned int) lra_bad_spill_regno_start)
1001 bad_spills_num++;
1002 for (r = lra_reg_info[spill_regno].live_ranges;
1003 r != NULL;
1004 r = r->next)
1006 for (p = r->start; p <= r->finish; p++)
1008 lra_live_range_t r2;
1010 for (r2 = start_point_ranges[p];
1011 r2 != NULL;
1012 r2 = r2->start_next)
1013 if (r2->regno >= lra_constraint_new_regno_start)
1014 sparseset_set_bit (live_range_reload_inheritance_pseudos,
1015 r2->regno);
1019 n = 0;
1020 if (sparseset_cardinality (live_range_reload_inheritance_pseudos)
1021 <= (unsigned)LRA_MAX_CONSIDERED_RELOAD_PSEUDOS)
1022 EXECUTE_IF_SET_IN_SPARSESET (live_range_reload_inheritance_pseudos,
1023 reload_regno)
1024 if ((int) reload_regno != regno
1025 && (ira_reg_classes_intersect_p
1026 [rclass][regno_allocno_class_array[reload_regno]])
1027 && live_pseudos_reg_renumber[reload_regno] < 0
1028 && find_hard_regno_for (reload_regno, &cost, -1, first_p) < 0)
1029 sorted_reload_pseudos[n++] = reload_regno;
1030 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
1032 update_lives (spill_regno, true);
1033 if (lra_dump_file != NULL)
1034 fprintf (lra_dump_file, " spill %d(freq=%d)",
1035 spill_regno, lra_reg_info[spill_regno].freq);
1037 hard_regno = find_hard_regno_for (regno, &cost, -1, first_p);
1038 if (hard_regno >= 0)
1040 assign_temporarily (regno, hard_regno);
1041 qsort (sorted_reload_pseudos, n, sizeof (int),
1042 reload_pseudo_compare_func);
1043 for (j = 0; j < n; j++)
1045 reload_regno = sorted_reload_pseudos[j];
1046 lra_assert (live_pseudos_reg_renumber[reload_regno] < 0);
1047 if ((reload_hard_regno
1048 = find_hard_regno_for (reload_regno,
1049 &reload_cost, -1, first_p)) >= 0)
1051 if (lra_dump_file != NULL)
1052 fprintf (lra_dump_file, " assign %d(cost=%d)",
1053 reload_regno, reload_cost);
1054 assign_temporarily (reload_regno, reload_hard_regno);
1055 cost += reload_cost;
1058 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
1060 rtx_insn_list *x;
1062 cost += lra_reg_info[spill_regno].freq;
1063 if (ira_reg_equiv[spill_regno].memory != NULL
1064 || ira_reg_equiv[spill_regno].constant != NULL)
1065 for (x = ira_reg_equiv[spill_regno].init_insns;
1066 x != NULL;
1067 x = x->next ())
1068 cost -= REG_FREQ_FROM_BB (BLOCK_FOR_INSN (x->insn ()));
1070 /* Avoid spilling static chain pointer pseudo when non-local
1071 goto is used. */
1072 if ((! static_p && best_static_p)
1073 || (static_p == best_static_p
1074 && (best_insn_pseudos_num > insn_pseudos_num
1075 || (best_insn_pseudos_num == insn_pseudos_num
1076 && (bad_spills_num < smallest_bad_spills_num
1077 || (bad_spills_num == smallest_bad_spills_num
1078 && best_cost > cost))))))
1080 best_insn_pseudos_num = insn_pseudos_num;
1081 smallest_bad_spills_num = bad_spills_num;
1082 best_static_p = static_p;
1083 best_cost = cost;
1084 best_hard_regno = hard_regno;
1085 bitmap_copy (&best_spill_pseudos_bitmap, &spill_pseudos_bitmap);
1086 if (lra_dump_file != NULL)
1087 fprintf (lra_dump_file,
1088 " Now best %d(cost=%d, bad_spills=%d, insn_pseudos=%d)\n",
1089 hard_regno, cost, bad_spills_num, insn_pseudos_num);
1091 assign_temporarily (regno, -1);
1092 for (j = 0; j < n; j++)
1094 reload_regno = sorted_reload_pseudos[j];
1095 if (live_pseudos_reg_renumber[reload_regno] >= 0)
1096 assign_temporarily (reload_regno, -1);
1099 if (lra_dump_file != NULL)
1100 fprintf (lra_dump_file, "\n");
1101 /* Restore the live hard reg pseudo info for spilled pseudos. */
1102 EXECUTE_IF_SET_IN_BITMAP (&spill_pseudos_bitmap, 0, spill_regno, bi)
1103 update_lives (spill_regno, false);
1104 fail:
1107 /* Spill: */
1108 EXECUTE_IF_SET_IN_BITMAP (&best_spill_pseudos_bitmap, 0, spill_regno, bi)
1110 if ((int) spill_regno >= lra_constraint_new_regno_start)
1111 former_reload_pseudo_spill_p = true;
1112 if (lra_dump_file != NULL)
1113 fprintf (lra_dump_file, " Spill %sr%d(hr=%d, freq=%d) for r%d\n",
1114 pseudo_prefix_title (spill_regno),
1115 spill_regno, reg_renumber[spill_regno],
1116 lra_reg_info[spill_regno].freq, regno);
1117 update_lives (spill_regno, true);
1118 lra_setup_reg_renumber (spill_regno, -1, false);
1120 bitmap_ior_into (spilled_pseudo_bitmap, &best_spill_pseudos_bitmap);
1121 return best_hard_regno;
1124 /* Assign HARD_REGNO to REGNO. */
1125 static void
1126 assign_hard_regno (int hard_regno, int regno)
1128 int i;
1130 lra_assert (hard_regno >= 0);
1131 lra_setup_reg_renumber (regno, hard_regno, true);
1132 update_lives (regno, false);
1133 for (i = 0;
1134 i < hard_regno_nregs[hard_regno][lra_reg_info[regno].biggest_mode];
1135 i++)
1136 df_set_regs_ever_live (hard_regno + i, true);
1139 /* Array used for sorting different pseudos. */
1140 static int *sorted_pseudos;
1142 /* The constraints pass is allowed to create equivalences between
1143 pseudos that make the current allocation "incorrect" (in the sense
1144 that pseudos are assigned to hard registers from their own conflict
1145 sets). The global variable lra_risky_transformations_p says
1146 whether this might have happened.
1148 Process pseudos assigned to hard registers (less frequently used
1149 first), spill if a conflict is found, and mark the spilled pseudos
1150 in SPILLED_PSEUDO_BITMAP. Set up LIVE_HARD_REG_PSEUDOS from
1151 pseudos, assigned to hard registers. */
1152 static void
1153 setup_live_pseudos_and_spill_after_risky_transforms (bitmap
1154 spilled_pseudo_bitmap)
1156 int p, i, j, n, regno, hard_regno;
1157 unsigned int k, conflict_regno;
1158 int val, offset;
1159 HARD_REG_SET conflict_set;
1160 machine_mode mode;
1161 lra_live_range_t r;
1162 bitmap_iterator bi;
1163 int max_regno = max_reg_num ();
1165 if (! lra_risky_transformations_p)
1167 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1168 if (reg_renumber[i] >= 0 && lra_reg_info[i].nrefs > 0)
1169 update_lives (i, false);
1170 return;
1172 for (n = 0, i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1173 if ((pic_offset_table_rtx == NULL_RTX
1174 || i != (int) REGNO (pic_offset_table_rtx))
1175 && reg_renumber[i] >= 0 && lra_reg_info[i].nrefs > 0)
1176 sorted_pseudos[n++] = i;
1177 qsort (sorted_pseudos, n, sizeof (int), pseudo_compare_func);
1178 if (pic_offset_table_rtx != NULL_RTX
1179 && (regno = REGNO (pic_offset_table_rtx)) >= FIRST_PSEUDO_REGISTER
1180 && reg_renumber[regno] >= 0 && lra_reg_info[regno].nrefs > 0)
1181 sorted_pseudos[n++] = regno;
1182 for (i = n - 1; i >= 0; i--)
1184 regno = sorted_pseudos[i];
1185 hard_regno = reg_renumber[regno];
1186 lra_assert (hard_regno >= 0);
1187 mode = lra_reg_info[regno].biggest_mode;
1188 sparseset_clear (live_range_hard_reg_pseudos);
1189 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
1191 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[r->start], 0, k, bi)
1192 sparseset_set_bit (live_range_hard_reg_pseudos, k);
1193 for (p = r->start + 1; p <= r->finish; p++)
1195 lra_live_range_t r2;
1197 for (r2 = start_point_ranges[p];
1198 r2 != NULL;
1199 r2 = r2->start_next)
1200 if (live_pseudos_reg_renumber[r2->regno] >= 0)
1201 sparseset_set_bit (live_range_hard_reg_pseudos, r2->regno);
1204 COPY_HARD_REG_SET (conflict_set, lra_no_alloc_regs);
1205 IOR_HARD_REG_SET (conflict_set, lra_reg_info[regno].conflict_hard_regs);
1206 val = lra_reg_info[regno].val;
1207 offset = lra_reg_info[regno].offset;
1208 EXECUTE_IF_SET_IN_SPARSESET (live_range_hard_reg_pseudos, conflict_regno)
1209 if (!lra_reg_val_equal_p (conflict_regno, val, offset)
1210 /* If it is multi-register pseudos they should start on
1211 the same hard register. */
1212 || hard_regno != reg_renumber[conflict_regno])
1214 int conflict_hard_regno = reg_renumber[conflict_regno];
1215 machine_mode biggest_mode = lra_reg_info[conflict_regno].biggest_mode;
1216 int biggest_nregs = hard_regno_nregs[conflict_hard_regno][biggest_mode];
1217 int nregs_diff = (biggest_nregs
1218 - (hard_regno_nregs
1219 [conflict_hard_regno]
1220 [PSEUDO_REGNO_MODE (conflict_regno)]));
1221 add_to_hard_reg_set (&conflict_set,
1222 biggest_mode,
1223 conflict_hard_regno
1224 - (WORDS_BIG_ENDIAN ? nregs_diff : 0));
1226 if (! overlaps_hard_reg_set_p (conflict_set, mode, hard_regno))
1228 update_lives (regno, false);
1229 continue;
1231 bitmap_set_bit (spilled_pseudo_bitmap, regno);
1232 for (j = 0;
1233 j < hard_regno_nregs[hard_regno][PSEUDO_REGNO_MODE (regno)];
1234 j++)
1235 lra_hard_reg_usage[hard_regno + j] -= lra_reg_info[regno].freq;
1236 reg_renumber[regno] = -1;
1237 if (regno >= lra_constraint_new_regno_start)
1238 former_reload_pseudo_spill_p = true;
1239 if (lra_dump_file != NULL)
1240 fprintf (lra_dump_file, " Spill r%d after risky transformations\n",
1241 regno);
1245 /* Improve allocation by assigning the same hard regno of inheritance
1246 pseudos to the connected pseudos. We need this because inheritance
1247 pseudos are allocated after reload pseudos in the thread and when
1248 we assign a hard register to a reload pseudo we don't know yet that
1249 the connected inheritance pseudos can get the same hard register.
1250 Add pseudos with changed allocation to bitmap CHANGED_PSEUDOS. */
1251 static void
1252 improve_inheritance (bitmap changed_pseudos)
1254 unsigned int k;
1255 int regno, another_regno, hard_regno, another_hard_regno, cost, i, n;
1256 lra_copy_t cp, next_cp;
1257 bitmap_iterator bi;
1259 if (lra_inheritance_iter > LRA_MAX_INHERITANCE_PASSES)
1260 return;
1261 n = 0;
1262 EXECUTE_IF_SET_IN_BITMAP (&lra_inheritance_pseudos, 0, k, bi)
1263 if (reg_renumber[k] >= 0 && lra_reg_info[k].nrefs != 0)
1264 sorted_pseudos[n++] = k;
1265 qsort (sorted_pseudos, n, sizeof (int), pseudo_compare_func);
1266 for (i = 0; i < n; i++)
1268 regno = sorted_pseudos[i];
1269 hard_regno = reg_renumber[regno];
1270 lra_assert (hard_regno >= 0);
1271 for (cp = lra_reg_info[regno].copies; cp != NULL; cp = next_cp)
1273 if (cp->regno1 == regno)
1275 next_cp = cp->regno1_next;
1276 another_regno = cp->regno2;
1278 else if (cp->regno2 == regno)
1280 next_cp = cp->regno2_next;
1281 another_regno = cp->regno1;
1283 else
1284 gcc_unreachable ();
1285 /* Don't change reload pseudo allocation. It might have
1286 this allocation for a purpose and changing it can result
1287 in LRA cycling. */
1288 if ((another_regno < lra_constraint_new_regno_start
1289 || bitmap_bit_p (&lra_inheritance_pseudos, another_regno))
1290 && (another_hard_regno = reg_renumber[another_regno]) >= 0
1291 && another_hard_regno != hard_regno)
1293 if (lra_dump_file != NULL)
1294 fprintf
1295 (lra_dump_file,
1296 " Improving inheritance for %d(%d) and %d(%d)...\n",
1297 regno, hard_regno, another_regno, another_hard_regno);
1298 update_lives (another_regno, true);
1299 lra_setup_reg_renumber (another_regno, -1, false);
1300 if (hard_regno == find_hard_regno_for (another_regno, &cost,
1301 hard_regno, false))
1302 assign_hard_regno (hard_regno, another_regno);
1303 else
1304 assign_hard_regno (another_hard_regno, another_regno);
1305 bitmap_set_bit (changed_pseudos, another_regno);
1312 /* Bitmap finally containing all pseudos spilled on this assignment
1313 pass. */
1314 static bitmap_head all_spilled_pseudos;
1315 /* All pseudos whose allocation was changed. */
1316 static bitmap_head changed_pseudo_bitmap;
1319 /* Add to LIVE_RANGE_HARD_REG_PSEUDOS all pseudos conflicting with
1320 REGNO and whose hard regs can be assigned to REGNO. */
1321 static void
1322 find_all_spills_for (int regno)
1324 int p;
1325 lra_live_range_t r;
1326 unsigned int k;
1327 bitmap_iterator bi;
1328 enum reg_class rclass;
1329 bool *rclass_intersect_p;
1331 rclass = regno_allocno_class_array[regno];
1332 rclass_intersect_p = ira_reg_classes_intersect_p[rclass];
1333 for (r = lra_reg_info[regno].live_ranges; r != NULL; r = r->next)
1335 EXECUTE_IF_SET_IN_BITMAP (&live_hard_reg_pseudos[r->start], 0, k, bi)
1336 if (rclass_intersect_p[regno_allocno_class_array[k]])
1337 sparseset_set_bit (live_range_hard_reg_pseudos, k);
1338 for (p = r->start + 1; p <= r->finish; p++)
1340 lra_live_range_t r2;
1342 for (r2 = start_point_ranges[p];
1343 r2 != NULL;
1344 r2 = r2->start_next)
1346 if (live_pseudos_reg_renumber[r2->regno] >= 0
1347 && rclass_intersect_p[regno_allocno_class_array[r2->regno]])
1348 sparseset_set_bit (live_range_hard_reg_pseudos, r2->regno);
1354 /* Assign hard registers to reload pseudos and other pseudos. */
1355 static void
1356 assign_by_spills (void)
1358 int i, n, nfails, iter, regno, hard_regno, cost;
1359 rtx restore_rtx;
1360 rtx_insn *insn;
1361 bitmap_head changed_insns, do_not_assign_nonreload_pseudos;
1362 unsigned int u, conflict_regno;
1363 bitmap_iterator bi;
1364 bool reload_p;
1365 int max_regno = max_reg_num ();
1367 for (n = 0, i = lra_constraint_new_regno_start; i < max_regno; i++)
1368 if (reg_renumber[i] < 0 && lra_reg_info[i].nrefs != 0
1369 && regno_allocno_class_array[i] != NO_REGS)
1370 sorted_pseudos[n++] = i;
1371 bitmap_initialize (&insn_conflict_pseudos, &reg_obstack);
1372 bitmap_initialize (&spill_pseudos_bitmap, &reg_obstack);
1373 bitmap_initialize (&best_spill_pseudos_bitmap, &reg_obstack);
1374 update_hard_regno_preference_check = XCNEWVEC (int, max_regno);
1375 curr_update_hard_regno_preference_check = 0;
1376 memset (try_hard_reg_pseudos_check, 0, sizeof (try_hard_reg_pseudos_check));
1377 for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
1378 bitmap_initialize (&try_hard_reg_pseudos[i], &reg_obstack);
1379 curr_pseudo_check = 0;
1380 bitmap_initialize (&changed_insns, &reg_obstack);
1381 bitmap_initialize (&non_reload_pseudos, &reg_obstack);
1382 bitmap_ior (&non_reload_pseudos, &lra_inheritance_pseudos, &lra_split_regs);
1383 bitmap_ior_into (&non_reload_pseudos, &lra_subreg_reload_pseudos);
1384 bitmap_ior_into (&non_reload_pseudos, &lra_optional_reload_pseudos);
1385 for (iter = 0; iter <= 1; iter++)
1387 qsort (sorted_pseudos, n, sizeof (int), reload_pseudo_compare_func);
1388 nfails = 0;
1389 for (i = 0; i < n; i++)
1391 regno = sorted_pseudos[i];
1392 if (reg_renumber[regno] >= 0)
1393 continue;
1394 if (lra_dump_file != NULL)
1395 fprintf (lra_dump_file, " Assigning to %d "
1396 "(cl=%s, orig=%d, freq=%d, tfirst=%d, tfreq=%d)...\n",
1397 regno, reg_class_names[regno_allocno_class_array[regno]],
1398 ORIGINAL_REGNO (regno_reg_rtx[regno]),
1399 lra_reg_info[regno].freq, regno_assign_info[regno].first,
1400 regno_assign_info[regno_assign_info[regno].first].freq);
1401 hard_regno = find_hard_regno_for (regno, &cost, -1, iter == 1);
1402 reload_p = ! bitmap_bit_p (&non_reload_pseudos, regno);
1403 if (hard_regno < 0 && reload_p)
1404 hard_regno = spill_for (regno, &all_spilled_pseudos, iter == 1);
1405 if (hard_regno < 0)
1407 if (reload_p)
1408 sorted_pseudos[nfails++] = regno;
1410 else
1412 /* This register might have been spilled by the previous
1413 pass. Indicate that it is no longer spilled. */
1414 bitmap_clear_bit (&all_spilled_pseudos, regno);
1415 assign_hard_regno (hard_regno, regno);
1416 if (! reload_p)
1417 /* As non-reload pseudo assignment is changed we
1418 should reconsider insns referring for the
1419 pseudo. */
1420 bitmap_set_bit (&changed_pseudo_bitmap, regno);
1423 if (nfails == 0)
1424 break;
1425 if (iter > 0)
1427 /* We did not assign hard regs to reload pseudos after two iterations.
1428 Either it's an asm and something is wrong with the constraints, or
1429 we have run out of spill registers; error out in either case. */
1430 bool asm_p = false;
1431 bitmap_head failed_reload_insns;
1433 bitmap_initialize (&failed_reload_insns, &reg_obstack);
1434 for (i = 0; i < nfails; i++)
1436 regno = sorted_pseudos[i];
1437 bitmap_ior_into (&failed_reload_insns,
1438 &lra_reg_info[regno].insn_bitmap);
1439 /* Assign an arbitrary hard register of regno class to
1440 avoid further trouble with this insn. */
1441 bitmap_clear_bit (&all_spilled_pseudos, regno);
1442 assign_hard_regno
1443 (ira_class_hard_regs[regno_allocno_class_array[regno]][0],
1444 regno);
1446 EXECUTE_IF_SET_IN_BITMAP (&failed_reload_insns, 0, u, bi)
1448 insn = lra_insn_recog_data[u]->insn;
1449 if (asm_noperands (PATTERN (insn)) >= 0)
1451 asm_p = true;
1452 error_for_asm (insn,
1453 "%<asm%> operand has impossible constraints");
1454 /* Avoid further trouble with this insn.
1455 For asm goto, instead of fixing up all the edges
1456 just clear the template and clear input operands
1457 (asm goto doesn't have any output operands). */
1458 if (JUMP_P (insn))
1460 rtx asm_op = extract_asm_operands (PATTERN (insn));
1461 ASM_OPERANDS_TEMPLATE (asm_op) = ggc_strdup ("");
1462 ASM_OPERANDS_INPUT_VEC (asm_op) = rtvec_alloc (0);
1463 ASM_OPERANDS_INPUT_CONSTRAINT_VEC (asm_op) = rtvec_alloc (0);
1464 lra_update_insn_regno_info (insn);
1466 else
1468 PATTERN (insn) = gen_rtx_USE (VOIDmode, const0_rtx);
1469 lra_set_insn_deleted (insn);
1472 else if (!asm_p)
1474 error ("unable to find a register to spill");
1475 fatal_insn ("this is the insn:", insn);
1478 break;
1480 /* This is a very rare event. We can not assign a hard register
1481 to reload pseudo because the hard register was assigned to
1482 another reload pseudo on a previous assignment pass. For x86
1483 example, on the 1st pass we assigned CX (although another
1484 hard register could be used for this) to reload pseudo in an
1485 insn, on the 2nd pass we need CX (and only this) hard
1486 register for a new reload pseudo in the same insn. Another
1487 possible situation may occur in assigning to multi-regs
1488 reload pseudos when hard regs pool is too fragmented even
1489 after spilling non-reload pseudos.
1491 We should do something radical here to succeed. Here we
1492 spill *all* conflicting pseudos and reassign them. */
1493 if (lra_dump_file != NULL)
1494 fprintf (lra_dump_file, " 2nd iter for reload pseudo assignments:\n");
1495 sparseset_clear (live_range_hard_reg_pseudos);
1496 for (i = 0; i < nfails; i++)
1498 if (lra_dump_file != NULL)
1499 fprintf (lra_dump_file, " Reload r%d assignment failure\n",
1500 sorted_pseudos[i]);
1501 find_all_spills_for (sorted_pseudos[i]);
1503 EXECUTE_IF_SET_IN_SPARSESET (live_range_hard_reg_pseudos, conflict_regno)
1505 if ((int) conflict_regno >= lra_constraint_new_regno_start)
1507 sorted_pseudos[nfails++] = conflict_regno;
1508 former_reload_pseudo_spill_p = true;
1510 else
1511 /* It is better to do reloads before spilling as after the
1512 spill-subpass we will reload memory instead of pseudos
1513 and this will make reusing reload pseudos more
1514 complicated. Going directly to the spill pass in such
1515 case might result in worse code performance or even LRA
1516 cycling if we have few registers. */
1517 bitmap_set_bit (&all_spilled_pseudos, conflict_regno);
1518 if (lra_dump_file != NULL)
1519 fprintf (lra_dump_file, " Spill %s r%d(hr=%d, freq=%d)\n",
1520 pseudo_prefix_title (conflict_regno), conflict_regno,
1521 reg_renumber[conflict_regno],
1522 lra_reg_info[conflict_regno].freq);
1523 update_lives (conflict_regno, true);
1524 lra_setup_reg_renumber (conflict_regno, -1, false);
1526 n = nfails;
1528 improve_inheritance (&changed_pseudo_bitmap);
1529 bitmap_clear (&non_reload_pseudos);
1530 bitmap_clear (&changed_insns);
1531 if (! lra_simple_p)
1533 /* We should not assign to original pseudos of inheritance
1534 pseudos or split pseudos if any its inheritance pseudo did
1535 not get hard register or any its split pseudo was not split
1536 because undo inheritance/split pass will extend live range of
1537 such inheritance or split pseudos. */
1538 bitmap_initialize (&do_not_assign_nonreload_pseudos, &reg_obstack);
1539 EXECUTE_IF_SET_IN_BITMAP (&lra_inheritance_pseudos, 0, u, bi)
1540 if ((restore_rtx = lra_reg_info[u].restore_rtx) != NULL_RTX
1541 && REG_P (restore_rtx)
1542 && reg_renumber[u] < 0
1543 && bitmap_bit_p (&lra_inheritance_pseudos, u))
1544 bitmap_set_bit (&do_not_assign_nonreload_pseudos, REGNO (restore_rtx));
1545 EXECUTE_IF_SET_IN_BITMAP (&lra_split_regs, 0, u, bi)
1546 if ((restore_rtx = lra_reg_info[u].restore_rtx) != NULL_RTX
1547 && reg_renumber[u] >= 0)
1549 lra_assert (REG_P (restore_rtx));
1550 bitmap_set_bit (&do_not_assign_nonreload_pseudos, REGNO (restore_rtx));
1552 for (n = 0, i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1553 if (((i < lra_constraint_new_regno_start
1554 && ! bitmap_bit_p (&do_not_assign_nonreload_pseudos, i))
1555 || (bitmap_bit_p (&lra_inheritance_pseudos, i)
1556 && lra_reg_info[i].restore_rtx != NULL_RTX)
1557 || (bitmap_bit_p (&lra_split_regs, i)
1558 && lra_reg_info[i].restore_rtx != NULL_RTX)
1559 || bitmap_bit_p (&lra_subreg_reload_pseudos, i)
1560 || bitmap_bit_p (&lra_optional_reload_pseudos, i))
1561 && reg_renumber[i] < 0 && lra_reg_info[i].nrefs != 0
1562 && regno_allocno_class_array[i] != NO_REGS)
1563 sorted_pseudos[n++] = i;
1564 bitmap_clear (&do_not_assign_nonreload_pseudos);
1565 if (n != 0 && lra_dump_file != NULL)
1566 fprintf (lra_dump_file, " Reassigning non-reload pseudos\n");
1567 qsort (sorted_pseudos, n, sizeof (int), pseudo_compare_func);
1568 for (i = 0; i < n; i++)
1570 regno = sorted_pseudos[i];
1571 hard_regno = find_hard_regno_for (regno, &cost, -1, false);
1572 if (hard_regno >= 0)
1574 assign_hard_regno (hard_regno, regno);
1575 /* We change allocation for non-reload pseudo on this
1576 iteration -- mark the pseudo for invalidation of used
1577 alternatives of insns containing the pseudo. */
1578 bitmap_set_bit (&changed_pseudo_bitmap, regno);
1580 else
1582 enum reg_class rclass = lra_get_allocno_class (regno);
1583 enum reg_class spill_class;
1585 if (targetm.spill_class == NULL
1586 || lra_reg_info[regno].restore_rtx == NULL_RTX
1587 || ! bitmap_bit_p (&lra_inheritance_pseudos, regno)
1588 || (spill_class
1589 = ((enum reg_class)
1590 targetm.spill_class
1591 ((reg_class_t) rclass,
1592 PSEUDO_REGNO_MODE (regno)))) == NO_REGS)
1593 continue;
1594 regno_allocno_class_array[regno] = spill_class;
1595 hard_regno = find_hard_regno_for (regno, &cost, -1, false);
1596 if (hard_regno < 0)
1597 regno_allocno_class_array[regno] = rclass;
1598 else
1600 setup_reg_classes
1601 (regno, spill_class, spill_class, spill_class);
1602 assign_hard_regno (hard_regno, regno);
1603 bitmap_set_bit (&changed_pseudo_bitmap, regno);
1608 free (update_hard_regno_preference_check);
1609 bitmap_clear (&best_spill_pseudos_bitmap);
1610 bitmap_clear (&spill_pseudos_bitmap);
1611 bitmap_clear (&insn_conflict_pseudos);
1615 /* Entry function to assign hard registers to new reload pseudos
1616 starting with LRA_CONSTRAINT_NEW_REGNO_START (by possible spilling
1617 of old pseudos) and possibly to the old pseudos. The function adds
1618 what insns to process for the next constraint pass. Those are all
1619 insns who contains non-reload and non-inheritance pseudos with
1620 changed allocation.
1622 Return true if we did not spill any non-reload and non-inheritance
1623 pseudos. */
1624 bool
1625 lra_assign (void)
1627 int i;
1628 unsigned int u;
1629 bitmap_iterator bi;
1630 bitmap_head insns_to_process;
1631 bool no_spills_p;
1632 int max_regno = max_reg_num ();
1634 timevar_push (TV_LRA_ASSIGN);
1635 lra_assignment_iter++;
1636 if (lra_dump_file != NULL)
1637 fprintf (lra_dump_file, "\n********** Assignment #%d: **********\n\n",
1638 lra_assignment_iter);
1639 init_lives ();
1640 sorted_pseudos = XNEWVEC (int, max_regno);
1641 sorted_reload_pseudos = XNEWVEC (int, max_regno);
1642 regno_allocno_class_array = XNEWVEC (enum reg_class, max_regno);
1643 regno_live_length = XNEWVEC (int, max_regno);
1644 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1646 int l;
1647 lra_live_range_t r;
1649 regno_allocno_class_array[i] = lra_get_allocno_class (i);
1650 for (l = 0, r = lra_reg_info[i].live_ranges; r != NULL; r = r->next)
1651 l += r->finish - r->start + 1;
1652 regno_live_length[i] = l;
1654 former_reload_pseudo_spill_p = false;
1655 init_regno_assign_info ();
1656 bitmap_initialize (&all_spilled_pseudos, &reg_obstack);
1657 create_live_range_start_chains ();
1658 setup_live_pseudos_and_spill_after_risky_transforms (&all_spilled_pseudos);
1659 if (flag_checking && !flag_ipa_ra)
1660 for (i = FIRST_PSEUDO_REGISTER; i < max_regno; i++)
1661 if (lra_reg_info[i].nrefs != 0 && reg_renumber[i] >= 0
1662 && lra_reg_info[i].call_p
1663 && overlaps_hard_reg_set_p (call_used_reg_set,
1664 PSEUDO_REGNO_MODE (i), reg_renumber[i]))
1665 gcc_unreachable ();
1666 /* Setup insns to process on the next constraint pass. */
1667 bitmap_initialize (&changed_pseudo_bitmap, &reg_obstack);
1668 init_live_reload_and_inheritance_pseudos ();
1669 assign_by_spills ();
1670 finish_live_reload_and_inheritance_pseudos ();
1671 bitmap_ior_into (&changed_pseudo_bitmap, &all_spilled_pseudos);
1672 no_spills_p = true;
1673 EXECUTE_IF_SET_IN_BITMAP (&all_spilled_pseudos, 0, u, bi)
1674 /* We ignore spilled pseudos created on last inheritance pass
1675 because they will be removed. */
1676 if (lra_reg_info[u].restore_rtx == NULL_RTX)
1678 no_spills_p = false;
1679 break;
1681 finish_live_range_start_chains ();
1682 bitmap_clear (&all_spilled_pseudos);
1683 bitmap_initialize (&insns_to_process, &reg_obstack);
1684 EXECUTE_IF_SET_IN_BITMAP (&changed_pseudo_bitmap, 0, u, bi)
1685 bitmap_ior_into (&insns_to_process, &lra_reg_info[u].insn_bitmap);
1686 bitmap_clear (&changed_pseudo_bitmap);
1687 EXECUTE_IF_SET_IN_BITMAP (&insns_to_process, 0, u, bi)
1689 lra_push_insn_by_uid (u);
1690 /* Invalidate alternatives for insn should be processed. */
1691 lra_set_used_insn_alternative_by_uid (u, -1);
1693 bitmap_clear (&insns_to_process);
1694 finish_regno_assign_info ();
1695 free (regno_live_length);
1696 free (regno_allocno_class_array);
1697 free (sorted_pseudos);
1698 free (sorted_reload_pseudos);
1699 finish_lives ();
1700 timevar_pop (TV_LRA_ASSIGN);
1701 if (former_reload_pseudo_spill_p)
1702 lra_assignment_iter_after_spill++;
1703 /* This is conditional on flag_checking because valid code can take
1704 more than this maximum number of iteration, but at the same time
1705 the test can uncover errors in machine descriptions. */
1706 if (flag_checking
1707 && (lra_assignment_iter_after_spill
1708 > LRA_MAX_ASSIGNMENT_ITERATION_NUMBER))
1709 internal_error
1710 ("Maximum number of LRA assignment passes is achieved (%d)\n",
1711 LRA_MAX_ASSIGNMENT_ITERATION_NUMBER);
1712 return no_spills_p;