PR jit/63854: Introduce xstrdup_for_dump
[official-gcc.git] / gcc / ira-conflicts.c
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1 /* IRA conflict builder.
2 Copyright (C) 2006-2014 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/>. */
21 #include "config.h"
22 #include "system.h"
23 #include "coretypes.h"
24 #include "tm.h"
25 #include "regs.h"
26 #include "rtl.h"
27 #include "tm_p.h"
28 #include "target.h"
29 #include "flags.h"
30 #include "hard-reg-set.h"
31 #include "predict.h"
32 #include "vec.h"
33 #include "hashtab.h"
34 #include "hash-set.h"
35 #include "machmode.h"
36 #include "input.h"
37 #include "function.h"
38 #include "basic-block.h"
39 #include "insn-config.h"
40 #include "recog.h"
41 #include "diagnostic-core.h"
42 #include "params.h"
43 #include "df.h"
44 #include "sparseset.h"
45 #include "ira-int.h"
46 #include "addresses.h"
48 /* This file contains code responsible for allocno conflict creation,
49 allocno copy creation and allocno info accumulation on upper level
50 regions. */
52 /* ira_allocnos_num array of arrays of bits, recording whether two
53 allocno's conflict (can't go in the same hardware register).
55 Some arrays will be used as conflict bit vector of the
56 corresponding allocnos see function build_object_conflicts. */
57 static IRA_INT_TYPE **conflicts;
59 /* Macro to test a conflict of C1 and C2 in `conflicts'. */
60 #define OBJECTS_CONFLICT_P(C1, C2) \
61 (OBJECT_MIN (C1) <= OBJECT_CONFLICT_ID (C2) \
62 && OBJECT_CONFLICT_ID (C2) <= OBJECT_MAX (C1) \
63 && TEST_MINMAX_SET_BIT (conflicts[OBJECT_CONFLICT_ID (C1)], \
64 OBJECT_CONFLICT_ID (C2), \
65 OBJECT_MIN (C1), OBJECT_MAX (C1)))
68 /* Record a conflict between objects OBJ1 and OBJ2. If necessary,
69 canonicalize the conflict by recording it for lower-order subobjects
70 of the corresponding allocnos. */
71 static void
72 record_object_conflict (ira_object_t obj1, ira_object_t obj2)
74 ira_allocno_t a1 = OBJECT_ALLOCNO (obj1);
75 ira_allocno_t a2 = OBJECT_ALLOCNO (obj2);
76 int w1 = OBJECT_SUBWORD (obj1);
77 int w2 = OBJECT_SUBWORD (obj2);
78 int id1, id2;
80 /* Canonicalize the conflict. If two identically-numbered words
81 conflict, always record this as a conflict between words 0. That
82 is the only information we need, and it is easier to test for if
83 it is collected in each allocno's lowest-order object. */
84 if (w1 == w2 && w1 > 0)
86 obj1 = ALLOCNO_OBJECT (a1, 0);
87 obj2 = ALLOCNO_OBJECT (a2, 0);
89 id1 = OBJECT_CONFLICT_ID (obj1);
90 id2 = OBJECT_CONFLICT_ID (obj2);
92 SET_MINMAX_SET_BIT (conflicts[id1], id2, OBJECT_MIN (obj1),
93 OBJECT_MAX (obj1));
94 SET_MINMAX_SET_BIT (conflicts[id2], id1, OBJECT_MIN (obj2),
95 OBJECT_MAX (obj2));
98 /* Build allocno conflict table by processing allocno live ranges.
99 Return true if the table was built. The table is not built if it
100 is too big. */
101 static bool
102 build_conflict_bit_table (void)
104 int i;
105 unsigned int j;
106 enum reg_class aclass;
107 int object_set_words, allocated_words_num, conflict_bit_vec_words_num;
108 live_range_t r;
109 ira_allocno_t allocno;
110 ira_allocno_iterator ai;
111 sparseset objects_live;
112 ira_object_t obj;
113 ira_allocno_object_iterator aoi;
115 allocated_words_num = 0;
116 FOR_EACH_ALLOCNO (allocno, ai)
117 FOR_EACH_ALLOCNO_OBJECT (allocno, obj, aoi)
119 if (OBJECT_MAX (obj) < OBJECT_MIN (obj))
120 continue;
121 conflict_bit_vec_words_num
122 = ((OBJECT_MAX (obj) - OBJECT_MIN (obj) + IRA_INT_BITS)
123 / IRA_INT_BITS);
124 allocated_words_num += conflict_bit_vec_words_num;
125 if ((uint64_t) allocated_words_num * sizeof (IRA_INT_TYPE)
126 > (uint64_t) IRA_MAX_CONFLICT_TABLE_SIZE * 1024 * 1024)
128 if (internal_flag_ira_verbose > 0 && ira_dump_file != NULL)
129 fprintf
130 (ira_dump_file,
131 "+++Conflict table will be too big(>%dMB) -- don't use it\n",
132 IRA_MAX_CONFLICT_TABLE_SIZE);
133 return false;
137 conflicts = (IRA_INT_TYPE **) ira_allocate (sizeof (IRA_INT_TYPE *)
138 * ira_objects_num);
139 allocated_words_num = 0;
140 FOR_EACH_ALLOCNO (allocno, ai)
141 FOR_EACH_ALLOCNO_OBJECT (allocno, obj, aoi)
143 int id = OBJECT_CONFLICT_ID (obj);
144 if (OBJECT_MAX (obj) < OBJECT_MIN (obj))
146 conflicts[id] = NULL;
147 continue;
149 conflict_bit_vec_words_num
150 = ((OBJECT_MAX (obj) - OBJECT_MIN (obj) + IRA_INT_BITS)
151 / IRA_INT_BITS);
152 allocated_words_num += conflict_bit_vec_words_num;
153 conflicts[id]
154 = (IRA_INT_TYPE *) ira_allocate (sizeof (IRA_INT_TYPE)
155 * conflict_bit_vec_words_num);
156 memset (conflicts[id], 0,
157 sizeof (IRA_INT_TYPE) * conflict_bit_vec_words_num);
160 object_set_words = (ira_objects_num + IRA_INT_BITS - 1) / IRA_INT_BITS;
161 if (internal_flag_ira_verbose > 0 && ira_dump_file != NULL)
162 fprintf
163 (ira_dump_file,
164 "+++Allocating %ld bytes for conflict table (uncompressed size %ld)\n",
165 (long) allocated_words_num * sizeof (IRA_INT_TYPE),
166 (long) object_set_words * ira_objects_num * sizeof (IRA_INT_TYPE));
168 objects_live = sparseset_alloc (ira_objects_num);
169 for (i = 0; i < ira_max_point; i++)
171 for (r = ira_start_point_ranges[i]; r != NULL; r = r->start_next)
173 ira_object_t obj = r->object;
174 ira_allocno_t allocno = OBJECT_ALLOCNO (obj);
175 int id = OBJECT_CONFLICT_ID (obj);
177 gcc_assert (id < ira_objects_num);
179 aclass = ALLOCNO_CLASS (allocno);
180 EXECUTE_IF_SET_IN_SPARSESET (objects_live, j)
182 ira_object_t live_obj = ira_object_id_map[j];
183 ira_allocno_t live_a = OBJECT_ALLOCNO (live_obj);
184 enum reg_class live_aclass = ALLOCNO_CLASS (live_a);
186 if (ira_reg_classes_intersect_p[aclass][live_aclass]
187 /* Don't set up conflict for the allocno with itself. */
188 && live_a != allocno)
190 record_object_conflict (obj, live_obj);
193 sparseset_set_bit (objects_live, id);
196 for (r = ira_finish_point_ranges[i]; r != NULL; r = r->finish_next)
197 sparseset_clear_bit (objects_live, OBJECT_CONFLICT_ID (r->object));
199 sparseset_free (objects_live);
200 return true;
203 /* Return true iff allocnos A1 and A2 cannot be allocated to the same
204 register due to conflicts. */
206 static bool
207 allocnos_conflict_for_copy_p (ira_allocno_t a1, ira_allocno_t a2)
209 /* Due to the fact that we canonicalize conflicts (see
210 record_object_conflict), we only need to test for conflicts of
211 the lowest order words. */
212 ira_object_t obj1 = ALLOCNO_OBJECT (a1, 0);
213 ira_object_t obj2 = ALLOCNO_OBJECT (a2, 0);
215 return OBJECTS_CONFLICT_P (obj1, obj2);
218 /* Check that X is REG or SUBREG of REG. */
219 #define REG_SUBREG_P(x) \
220 (REG_P (x) || (GET_CODE (x) == SUBREG && REG_P (SUBREG_REG (x))))
222 /* Return X if X is a REG, otherwise it should be SUBREG of REG and
223 the function returns the reg in this case. *OFFSET will be set to
224 0 in the first case or the regno offset in the first case. */
225 static rtx
226 go_through_subreg (rtx x, int *offset)
228 rtx reg;
230 *offset = 0;
231 if (REG_P (x))
232 return x;
233 ira_assert (GET_CODE (x) == SUBREG);
234 reg = SUBREG_REG (x);
235 ira_assert (REG_P (reg));
236 if (REGNO (reg) < FIRST_PSEUDO_REGISTER)
237 *offset = subreg_regno_offset (REGNO (reg), GET_MODE (reg),
238 SUBREG_BYTE (x), GET_MODE (x));
239 else
240 *offset = (SUBREG_BYTE (x) / REGMODE_NATURAL_SIZE (GET_MODE (x)));
241 return reg;
244 /* Process registers REG1 and REG2 in move INSN with execution
245 frequency FREQ. The function also processes the registers in a
246 potential move insn (INSN == NULL in this case) with frequency
247 FREQ. The function can modify hard register costs of the
248 corresponding allocnos or create a copy involving the corresponding
249 allocnos. The function does nothing if the both registers are hard
250 registers. When nothing is changed, the function returns
251 FALSE. */
252 static bool
253 process_regs_for_copy (rtx reg1, rtx reg2, bool constraint_p,
254 rtx_insn *insn, int freq)
256 int allocno_preferenced_hard_regno, cost, index, offset1, offset2;
257 bool only_regs_p;
258 ira_allocno_t a;
259 reg_class_t rclass, aclass;
260 machine_mode mode;
261 ira_copy_t cp;
263 gcc_assert (REG_SUBREG_P (reg1) && REG_SUBREG_P (reg2));
264 only_regs_p = REG_P (reg1) && REG_P (reg2);
265 reg1 = go_through_subreg (reg1, &offset1);
266 reg2 = go_through_subreg (reg2, &offset2);
267 /* Set up hard regno preferenced by allocno. If allocno gets the
268 hard regno the copy (or potential move) insn will be removed. */
269 if (HARD_REGISTER_P (reg1))
271 if (HARD_REGISTER_P (reg2))
272 return false;
273 allocno_preferenced_hard_regno = REGNO (reg1) + offset1 - offset2;
274 a = ira_curr_regno_allocno_map[REGNO (reg2)];
276 else if (HARD_REGISTER_P (reg2))
278 allocno_preferenced_hard_regno = REGNO (reg2) + offset2 - offset1;
279 a = ira_curr_regno_allocno_map[REGNO (reg1)];
281 else
283 ira_allocno_t a1 = ira_curr_regno_allocno_map[REGNO (reg1)];
284 ira_allocno_t a2 = ira_curr_regno_allocno_map[REGNO (reg2)];
286 if (!allocnos_conflict_for_copy_p (a1, a2) && offset1 == offset2)
288 cp = ira_add_allocno_copy (a1, a2, freq, constraint_p, insn,
289 ira_curr_loop_tree_node);
290 bitmap_set_bit (ira_curr_loop_tree_node->local_copies, cp->num);
291 return true;
293 else
294 return false;
297 if (! IN_RANGE (allocno_preferenced_hard_regno,
298 0, FIRST_PSEUDO_REGISTER - 1))
299 /* Can not be tied. */
300 return false;
301 rclass = REGNO_REG_CLASS (allocno_preferenced_hard_regno);
302 mode = ALLOCNO_MODE (a);
303 aclass = ALLOCNO_CLASS (a);
304 if (only_regs_p && insn != NULL_RTX
305 && reg_class_size[rclass] <= ira_reg_class_max_nregs [rclass][mode])
306 /* It is already taken into account in ira-costs.c. */
307 return false;
308 index = ira_class_hard_reg_index[aclass][allocno_preferenced_hard_regno];
309 if (index < 0)
310 /* Can not be tied. It is not in the allocno class. */
311 return false;
312 ira_init_register_move_cost_if_necessary (mode);
313 if (HARD_REGISTER_P (reg1))
314 cost = ira_register_move_cost[mode][aclass][rclass] * freq;
315 else
316 cost = ira_register_move_cost[mode][rclass][aclass] * freq;
319 ira_allocate_and_set_costs
320 (&ALLOCNO_HARD_REG_COSTS (a), aclass,
321 ALLOCNO_CLASS_COST (a));
322 ira_allocate_and_set_costs
323 (&ALLOCNO_CONFLICT_HARD_REG_COSTS (a), aclass, 0);
324 ALLOCNO_HARD_REG_COSTS (a)[index] -= cost;
325 ALLOCNO_CONFLICT_HARD_REG_COSTS (a)[index] -= cost;
326 if (ALLOCNO_HARD_REG_COSTS (a)[index] < ALLOCNO_CLASS_COST (a))
327 ALLOCNO_CLASS_COST (a) = ALLOCNO_HARD_REG_COSTS (a)[index];
328 ira_add_allocno_pref (a, allocno_preferenced_hard_regno, freq);
329 a = ira_parent_or_cap_allocno (a);
331 while (a != NULL);
332 return true;
335 /* Process all of the output registers of the current insn which are
336 not bound (BOUND_P) and the input register REG (its operand number
337 OP_NUM) which dies in the insn as if there were a move insn between
338 them with frequency FREQ. */
339 static void
340 process_reg_shuffles (rtx reg, int op_num, int freq, bool *bound_p)
342 int i;
343 rtx another_reg;
345 gcc_assert (REG_SUBREG_P (reg));
346 for (i = 0; i < recog_data.n_operands; i++)
348 another_reg = recog_data.operand[i];
350 if (!REG_SUBREG_P (another_reg) || op_num == i
351 || recog_data.operand_type[i] != OP_OUT
352 || bound_p[i])
353 continue;
355 process_regs_for_copy (reg, another_reg, false, NULL, freq);
359 /* Process INSN and create allocno copies if necessary. For example,
360 it might be because INSN is a pseudo-register move or INSN is two
361 operand insn. */
362 static void
363 add_insn_allocno_copies (rtx_insn *insn)
365 rtx set, operand, dup;
366 bool bound_p[MAX_RECOG_OPERANDS];
367 int i, n, freq;
368 HARD_REG_SET alts;
370 freq = REG_FREQ_FROM_BB (BLOCK_FOR_INSN (insn));
371 if (freq == 0)
372 freq = 1;
373 if ((set = single_set (insn)) != NULL_RTX
374 && REG_SUBREG_P (SET_DEST (set)) && REG_SUBREG_P (SET_SRC (set))
375 && ! side_effects_p (set)
376 && find_reg_note (insn, REG_DEAD,
377 REG_P (SET_SRC (set))
378 ? SET_SRC (set)
379 : SUBREG_REG (SET_SRC (set))) != NULL_RTX)
381 process_regs_for_copy (SET_SRC (set), SET_DEST (set),
382 false, insn, freq);
383 return;
385 /* Fast check of possibility of constraint or shuffle copies. If
386 there are no dead registers, there will be no such copies. */
387 if (! find_reg_note (insn, REG_DEAD, NULL_RTX))
388 return;
389 ira_setup_alts (insn, alts);
390 for (i = 0; i < recog_data.n_operands; i++)
391 bound_p[i] = false;
392 for (i = 0; i < recog_data.n_operands; i++)
394 operand = recog_data.operand[i];
395 if (! REG_SUBREG_P (operand))
396 continue;
397 if ((n = ira_get_dup_out_num (i, alts)) >= 0)
399 bound_p[n] = true;
400 dup = recog_data.operand[n];
401 if (REG_SUBREG_P (dup)
402 && find_reg_note (insn, REG_DEAD,
403 REG_P (operand)
404 ? operand
405 : SUBREG_REG (operand)) != NULL_RTX)
406 process_regs_for_copy (operand, dup, true, NULL,
407 freq);
410 for (i = 0; i < recog_data.n_operands; i++)
412 operand = recog_data.operand[i];
413 if (REG_SUBREG_P (operand)
414 && find_reg_note (insn, REG_DEAD,
415 REG_P (operand)
416 ? operand : SUBREG_REG (operand)) != NULL_RTX)
417 /* If an operand dies, prefer its hard register for the output
418 operands by decreasing the hard register cost or creating
419 the corresponding allocno copies. The cost will not
420 correspond to a real move insn cost, so make the frequency
421 smaller. */
422 process_reg_shuffles (operand, i, freq < 8 ? 1 : freq / 8, bound_p);
426 /* Add copies originated from BB given by LOOP_TREE_NODE. */
427 static void
428 add_copies (ira_loop_tree_node_t loop_tree_node)
430 basic_block bb;
431 rtx_insn *insn;
433 bb = loop_tree_node->bb;
434 if (bb == NULL)
435 return;
436 FOR_BB_INSNS (bb, insn)
437 if (NONDEBUG_INSN_P (insn))
438 add_insn_allocno_copies (insn);
441 /* Propagate copies the corresponding allocnos on upper loop tree
442 level. */
443 static void
444 propagate_copies (void)
446 ira_copy_t cp;
447 ira_copy_iterator ci;
448 ira_allocno_t a1, a2, parent_a1, parent_a2;
450 FOR_EACH_COPY (cp, ci)
452 a1 = cp->first;
453 a2 = cp->second;
454 if (ALLOCNO_LOOP_TREE_NODE (a1) == ira_loop_tree_root)
455 continue;
456 ira_assert ((ALLOCNO_LOOP_TREE_NODE (a2) != ira_loop_tree_root));
457 parent_a1 = ira_parent_or_cap_allocno (a1);
458 parent_a2 = ira_parent_or_cap_allocno (a2);
459 ira_assert (parent_a1 != NULL && parent_a2 != NULL);
460 if (! allocnos_conflict_for_copy_p (parent_a1, parent_a2))
461 ira_add_allocno_copy (parent_a1, parent_a2, cp->freq,
462 cp->constraint_p, cp->insn, cp->loop_tree_node);
466 /* Array used to collect all conflict allocnos for given allocno. */
467 static ira_object_t *collected_conflict_objects;
469 /* Build conflict vectors or bit conflict vectors (whatever is more
470 profitable) for object OBJ from the conflict table. */
471 static void
472 build_object_conflicts (ira_object_t obj)
474 int i, px, parent_num;
475 ira_allocno_t parent_a, another_parent_a;
476 ira_object_t parent_obj;
477 ira_allocno_t a = OBJECT_ALLOCNO (obj);
478 IRA_INT_TYPE *object_conflicts;
479 minmax_set_iterator asi;
480 int parent_min, parent_max ATTRIBUTE_UNUSED;
482 object_conflicts = conflicts[OBJECT_CONFLICT_ID (obj)];
483 px = 0;
484 FOR_EACH_BIT_IN_MINMAX_SET (object_conflicts,
485 OBJECT_MIN (obj), OBJECT_MAX (obj), i, asi)
487 ira_object_t another_obj = ira_object_id_map[i];
488 ira_allocno_t another_a = OBJECT_ALLOCNO (obj);
490 ira_assert (ira_reg_classes_intersect_p
491 [ALLOCNO_CLASS (a)][ALLOCNO_CLASS (another_a)]);
492 collected_conflict_objects[px++] = another_obj;
494 if (ira_conflict_vector_profitable_p (obj, px))
496 ira_object_t *vec;
497 ira_allocate_conflict_vec (obj, px);
498 vec = OBJECT_CONFLICT_VEC (obj);
499 memcpy (vec, collected_conflict_objects, sizeof (ira_object_t) * px);
500 vec[px] = NULL;
501 OBJECT_NUM_CONFLICTS (obj) = px;
503 else
505 int conflict_bit_vec_words_num;
507 OBJECT_CONFLICT_ARRAY (obj) = object_conflicts;
508 if (OBJECT_MAX (obj) < OBJECT_MIN (obj))
509 conflict_bit_vec_words_num = 0;
510 else
511 conflict_bit_vec_words_num
512 = ((OBJECT_MAX (obj) - OBJECT_MIN (obj) + IRA_INT_BITS)
513 / IRA_INT_BITS);
514 OBJECT_CONFLICT_ARRAY_SIZE (obj)
515 = conflict_bit_vec_words_num * sizeof (IRA_INT_TYPE);
518 parent_a = ira_parent_or_cap_allocno (a);
519 if (parent_a == NULL)
520 return;
521 ira_assert (ALLOCNO_CLASS (a) == ALLOCNO_CLASS (parent_a));
522 ira_assert (ALLOCNO_NUM_OBJECTS (a) == ALLOCNO_NUM_OBJECTS (parent_a));
523 parent_obj = ALLOCNO_OBJECT (parent_a, OBJECT_SUBWORD (obj));
524 parent_num = OBJECT_CONFLICT_ID (parent_obj);
525 parent_min = OBJECT_MIN (parent_obj);
526 parent_max = OBJECT_MAX (parent_obj);
527 FOR_EACH_BIT_IN_MINMAX_SET (object_conflicts,
528 OBJECT_MIN (obj), OBJECT_MAX (obj), i, asi)
530 ira_object_t another_obj = ira_object_id_map[i];
531 ira_allocno_t another_a = OBJECT_ALLOCNO (another_obj);
532 int another_word = OBJECT_SUBWORD (another_obj);
534 ira_assert (ira_reg_classes_intersect_p
535 [ALLOCNO_CLASS (a)][ALLOCNO_CLASS (another_a)]);
537 another_parent_a = ira_parent_or_cap_allocno (another_a);
538 if (another_parent_a == NULL)
539 continue;
540 ira_assert (ALLOCNO_NUM (another_parent_a) >= 0);
541 ira_assert (ALLOCNO_CLASS (another_a)
542 == ALLOCNO_CLASS (another_parent_a));
543 ira_assert (ALLOCNO_NUM_OBJECTS (another_a)
544 == ALLOCNO_NUM_OBJECTS (another_parent_a));
545 SET_MINMAX_SET_BIT (conflicts[parent_num],
546 OBJECT_CONFLICT_ID (ALLOCNO_OBJECT (another_parent_a,
547 another_word)),
548 parent_min, parent_max);
552 /* Build conflict vectors or bit conflict vectors (whatever is more
553 profitable) of all allocnos from the conflict table. */
554 static void
555 build_conflicts (void)
557 int i;
558 ira_allocno_t a, cap;
560 collected_conflict_objects
561 = (ira_object_t *) ira_allocate (sizeof (ira_object_t)
562 * ira_objects_num);
563 for (i = max_reg_num () - 1; i >= FIRST_PSEUDO_REGISTER; i--)
564 for (a = ira_regno_allocno_map[i];
565 a != NULL;
566 a = ALLOCNO_NEXT_REGNO_ALLOCNO (a))
568 int j, nregs = ALLOCNO_NUM_OBJECTS (a);
569 for (j = 0; j < nregs; j++)
571 ira_object_t obj = ALLOCNO_OBJECT (a, j);
572 build_object_conflicts (obj);
573 for (cap = ALLOCNO_CAP (a); cap != NULL; cap = ALLOCNO_CAP (cap))
575 ira_object_t cap_obj = ALLOCNO_OBJECT (cap, j);
576 gcc_assert (ALLOCNO_NUM_OBJECTS (cap) == ALLOCNO_NUM_OBJECTS (a));
577 build_object_conflicts (cap_obj);
581 ira_free (collected_conflict_objects);
586 /* Print hard reg set SET with TITLE to FILE. */
587 static void
588 print_hard_reg_set (FILE *file, const char *title, HARD_REG_SET set)
590 int i, start;
592 fputs (title, file);
593 for (start = -1, i = 0; i < FIRST_PSEUDO_REGISTER; i++)
595 if (TEST_HARD_REG_BIT (set, i))
597 if (i == 0 || ! TEST_HARD_REG_BIT (set, i - 1))
598 start = i;
600 if (start >= 0
601 && (i == FIRST_PSEUDO_REGISTER - 1 || ! TEST_HARD_REG_BIT (set, i)))
603 if (start == i - 1)
604 fprintf (file, " %d", start);
605 else if (start == i - 2)
606 fprintf (file, " %d %d", start, start + 1);
607 else
608 fprintf (file, " %d-%d", start, i - 1);
609 start = -1;
612 putc ('\n', file);
615 static void
616 print_allocno_conflicts (FILE * file, bool reg_p, ira_allocno_t a)
618 HARD_REG_SET conflicting_hard_regs;
619 basic_block bb;
620 int n, i;
622 if (reg_p)
623 fprintf (file, ";; r%d", ALLOCNO_REGNO (a));
624 else
626 fprintf (file, ";; a%d(r%d,", ALLOCNO_NUM (a), ALLOCNO_REGNO (a));
627 if ((bb = ALLOCNO_LOOP_TREE_NODE (a)->bb) != NULL)
628 fprintf (file, "b%d", bb->index);
629 else
630 fprintf (file, "l%d", ALLOCNO_LOOP_TREE_NODE (a)->loop_num);
631 putc (')', file);
634 fputs (" conflicts:", file);
635 n = ALLOCNO_NUM_OBJECTS (a);
636 for (i = 0; i < n; i++)
638 ira_object_t obj = ALLOCNO_OBJECT (a, i);
639 ira_object_t conflict_obj;
640 ira_object_conflict_iterator oci;
642 if (OBJECT_CONFLICT_ARRAY (obj) == NULL)
643 continue;
644 if (n > 1)
645 fprintf (file, "\n;; subobject %d:", i);
646 FOR_EACH_OBJECT_CONFLICT (obj, conflict_obj, oci)
648 ira_allocno_t conflict_a = OBJECT_ALLOCNO (conflict_obj);
649 if (reg_p)
650 fprintf (file, " r%d,", ALLOCNO_REGNO (conflict_a));
651 else
653 fprintf (file, " a%d(r%d", ALLOCNO_NUM (conflict_a),
654 ALLOCNO_REGNO (conflict_a));
655 if (ALLOCNO_NUM_OBJECTS (conflict_a) > 1)
656 fprintf (file, ",w%d", OBJECT_SUBWORD (conflict_obj));
657 if ((bb = ALLOCNO_LOOP_TREE_NODE (conflict_a)->bb) != NULL)
658 fprintf (file, ",b%d", bb->index);
659 else
660 fprintf (file, ",l%d",
661 ALLOCNO_LOOP_TREE_NODE (conflict_a)->loop_num);
662 putc (')', file);
665 COPY_HARD_REG_SET (conflicting_hard_regs, OBJECT_TOTAL_CONFLICT_HARD_REGS (obj));
666 AND_COMPL_HARD_REG_SET (conflicting_hard_regs, ira_no_alloc_regs);
667 AND_HARD_REG_SET (conflicting_hard_regs,
668 reg_class_contents[ALLOCNO_CLASS (a)]);
669 print_hard_reg_set (file, "\n;; total conflict hard regs:",
670 conflicting_hard_regs);
672 COPY_HARD_REG_SET (conflicting_hard_regs, OBJECT_CONFLICT_HARD_REGS (obj));
673 AND_COMPL_HARD_REG_SET (conflicting_hard_regs, ira_no_alloc_regs);
674 AND_HARD_REG_SET (conflicting_hard_regs,
675 reg_class_contents[ALLOCNO_CLASS (a)]);
676 print_hard_reg_set (file, ";; conflict hard regs:",
677 conflicting_hard_regs);
678 putc ('\n', file);
683 /* Print information about allocno or only regno (if REG_P) conflicts
684 to FILE. */
685 static void
686 print_conflicts (FILE *file, bool reg_p)
688 ira_allocno_t a;
689 ira_allocno_iterator ai;
691 FOR_EACH_ALLOCNO (a, ai)
692 print_allocno_conflicts (file, reg_p, a);
695 /* Print information about allocno or only regno (if REG_P) conflicts
696 to stderr. */
697 void
698 ira_debug_conflicts (bool reg_p)
700 print_conflicts (stderr, reg_p);
705 /* Entry function which builds allocno conflicts and allocno copies
706 and accumulate some allocno info on upper level regions. */
707 void
708 ira_build_conflicts (void)
710 enum reg_class base;
711 ira_allocno_t a;
712 ira_allocno_iterator ai;
713 HARD_REG_SET temp_hard_reg_set;
715 if (ira_conflicts_p)
717 ira_conflicts_p = build_conflict_bit_table ();
718 if (ira_conflicts_p)
720 ira_object_t obj;
721 ira_object_iterator oi;
723 build_conflicts ();
724 ira_traverse_loop_tree (true, ira_loop_tree_root, add_copies, NULL);
725 /* We need finished conflict table for the subsequent call. */
726 if (flag_ira_region == IRA_REGION_ALL
727 || flag_ira_region == IRA_REGION_MIXED)
728 propagate_copies ();
730 /* Now we can free memory for the conflict table (see function
731 build_object_conflicts for details). */
732 FOR_EACH_OBJECT (obj, oi)
734 if (OBJECT_CONFLICT_ARRAY (obj) != conflicts[OBJECT_CONFLICT_ID (obj)])
735 ira_free (conflicts[OBJECT_CONFLICT_ID (obj)]);
737 ira_free (conflicts);
740 base = base_reg_class (VOIDmode, ADDR_SPACE_GENERIC, ADDRESS, SCRATCH);
741 if (! targetm.class_likely_spilled_p (base))
742 CLEAR_HARD_REG_SET (temp_hard_reg_set);
743 else
745 COPY_HARD_REG_SET (temp_hard_reg_set, reg_class_contents[base]);
746 AND_COMPL_HARD_REG_SET (temp_hard_reg_set, ira_no_alloc_regs);
747 AND_HARD_REG_SET (temp_hard_reg_set, call_used_reg_set);
749 FOR_EACH_ALLOCNO (a, ai)
751 int i, n = ALLOCNO_NUM_OBJECTS (a);
753 for (i = 0; i < n; i++)
755 ira_object_t obj = ALLOCNO_OBJECT (a, i);
756 rtx allocno_reg = regno_reg_rtx [ALLOCNO_REGNO (a)];
758 if ((! flag_caller_saves && ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
759 /* For debugging purposes don't put user defined variables in
760 callee-clobbered registers. However, do allow parameters
761 in callee-clobbered registers to improve debugging. This
762 is a bit of a fragile hack. */
763 || (optimize == 0
764 && REG_USERVAR_P (allocno_reg)
765 && ! reg_is_parm_p (allocno_reg)))
767 IOR_HARD_REG_SET (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
768 call_used_reg_set);
769 IOR_HARD_REG_SET (OBJECT_CONFLICT_HARD_REGS (obj),
770 call_used_reg_set);
772 else if (ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
774 IOR_HARD_REG_SET (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
775 no_caller_save_reg_set);
776 IOR_HARD_REG_SET (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
777 temp_hard_reg_set);
778 IOR_HARD_REG_SET (OBJECT_CONFLICT_HARD_REGS (obj),
779 no_caller_save_reg_set);
780 IOR_HARD_REG_SET (OBJECT_CONFLICT_HARD_REGS (obj),
781 temp_hard_reg_set);
784 /* Now we deal with paradoxical subreg cases where certain registers
785 cannot be accessed in the widest mode. */
786 machine_mode outer_mode = ALLOCNO_WMODE (a);
787 machine_mode inner_mode = ALLOCNO_MODE (a);
788 if (GET_MODE_SIZE (outer_mode) > GET_MODE_SIZE (inner_mode))
790 enum reg_class aclass = ALLOCNO_CLASS (a);
791 for (int j = ira_class_hard_regs_num[aclass] - 1; j >= 0; --j)
793 int inner_regno = ira_class_hard_regs[aclass][j];
794 int outer_regno = simplify_subreg_regno (inner_regno,
795 inner_mode, 0,
796 outer_mode);
797 if (outer_regno < 0
798 || !in_hard_reg_set_p (reg_class_contents[aclass],
799 outer_mode, outer_regno))
800 SET_HARD_REG_BIT (OBJECT_CONFLICT_HARD_REGS (obj),
801 inner_regno);
805 if (ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
807 int regno;
809 /* Allocnos bigger than the saved part of call saved
810 regs must conflict with them. */
811 for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
812 if (!TEST_HARD_REG_BIT (call_used_reg_set, regno)
813 && HARD_REGNO_CALL_PART_CLOBBERED (regno,
814 obj->allocno->mode))
816 SET_HARD_REG_BIT (OBJECT_CONFLICT_HARD_REGS (obj), regno);
817 SET_HARD_REG_BIT (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
818 regno);
823 if (optimize && ira_conflicts_p
824 && internal_flag_ira_verbose > 2 && ira_dump_file != NULL)
825 print_conflicts (ira_dump_file, false);