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[dragonfly.git] / contrib / gcc-4.7 / gcc / ira-conflicts.c
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1 /* IRA conflict builder.
2 Copyright (C) 2006, 2007, 2008, 2009, 2010
3 Free Software Foundation, Inc.
4 Contributed by Vladimir Makarov <vmakarov@redhat.com>.
6 This file is part of GCC.
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.
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.
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/>. */
22 #include "config.h"
23 #include "system.h"
24 #include "coretypes.h"
25 #include "tm.h"
26 #include "regs.h"
27 #include "rtl.h"
28 #include "tm_p.h"
29 #include "target.h"
30 #include "flags.h"
31 #include "hard-reg-set.h"
32 #include "basic-block.h"
33 #include "insn-config.h"
34 #include "recog.h"
35 #include "diagnostic-core.h"
36 #include "params.h"
37 #include "df.h"
38 #include "sparseset.h"
39 #include "ira-int.h"
40 #include "addresses.h"
42 /* This file contains code responsible for allocno conflict creation,
43 allocno copy creation and allocno info accumulation on upper level
44 regions. */
46 /* ira_allocnos_num array of arrays of bits, recording whether two
47 allocno's conflict (can't go in the same hardware register).
49 Some arrays will be used as conflict bit vector of the
50 corresponding allocnos see function build_object_conflicts. */
51 static IRA_INT_TYPE **conflicts;
53 /* Macro to test a conflict of C1 and C2 in `conflicts'. */
54 #define OBJECTS_CONFLICT_P(C1, C2) \
55 (OBJECT_MIN (C1) <= OBJECT_CONFLICT_ID (C2) \
56 && OBJECT_CONFLICT_ID (C2) <= OBJECT_MAX (C1) \
57 && TEST_MINMAX_SET_BIT (conflicts[OBJECT_CONFLICT_ID (C1)], \
58 OBJECT_CONFLICT_ID (C2), \
59 OBJECT_MIN (C1), OBJECT_MAX (C1)))
62 /* Record a conflict between objects OBJ1 and OBJ2. If necessary,
63 canonicalize the conflict by recording it for lower-order subobjects
64 of the corresponding allocnos. */
65 static void
66 record_object_conflict (ira_object_t obj1, ira_object_t obj2)
68 ira_allocno_t a1 = OBJECT_ALLOCNO (obj1);
69 ira_allocno_t a2 = OBJECT_ALLOCNO (obj2);
70 int w1 = OBJECT_SUBWORD (obj1);
71 int w2 = OBJECT_SUBWORD (obj2);
72 int id1, id2;
74 /* Canonicalize the conflict. If two identically-numbered words
75 conflict, always record this as a conflict between words 0. That
76 is the only information we need, and it is easier to test for if
77 it is collected in each allocno's lowest-order object. */
78 if (w1 == w2 && w1 > 0)
80 obj1 = ALLOCNO_OBJECT (a1, 0);
81 obj2 = ALLOCNO_OBJECT (a2, 0);
83 id1 = OBJECT_CONFLICT_ID (obj1);
84 id2 = OBJECT_CONFLICT_ID (obj2);
86 SET_MINMAX_SET_BIT (conflicts[id1], id2, OBJECT_MIN (obj1),
87 OBJECT_MAX (obj1));
88 SET_MINMAX_SET_BIT (conflicts[id2], id1, OBJECT_MIN (obj2),
89 OBJECT_MAX (obj2));
92 /* Build allocno conflict table by processing allocno live ranges.
93 Return true if the table was built. The table is not built if it
94 is too big. */
95 static bool
96 build_conflict_bit_table (void)
98 int i;
99 unsigned int j;
100 enum reg_class aclass;
101 int object_set_words, allocated_words_num, conflict_bit_vec_words_num;
102 live_range_t r;
103 ira_allocno_t allocno;
104 ira_allocno_iterator ai;
105 sparseset objects_live;
106 ira_object_t obj;
107 ira_allocno_object_iterator aoi;
109 allocated_words_num = 0;
110 FOR_EACH_ALLOCNO (allocno, ai)
111 FOR_EACH_ALLOCNO_OBJECT (allocno, obj, aoi)
113 if (OBJECT_MAX (obj) < OBJECT_MIN (obj))
114 continue;
115 conflict_bit_vec_words_num
116 = ((OBJECT_MAX (obj) - OBJECT_MIN (obj) + IRA_INT_BITS)
117 / IRA_INT_BITS);
118 allocated_words_num += conflict_bit_vec_words_num;
119 if ((unsigned HOST_WIDEST_INT) allocated_words_num * sizeof (IRA_INT_TYPE)
120 > (unsigned HOST_WIDEST_INT) IRA_MAX_CONFLICT_TABLE_SIZE * 1024 * 1024)
122 if (internal_flag_ira_verbose > 0 && ira_dump_file != NULL)
123 fprintf
124 (ira_dump_file,
125 "+++Conflict table will be too big(>%dMB) -- don't use it\n",
126 IRA_MAX_CONFLICT_TABLE_SIZE);
127 return false;
131 conflicts = (IRA_INT_TYPE **) ira_allocate (sizeof (IRA_INT_TYPE *)
132 * ira_objects_num);
133 allocated_words_num = 0;
134 FOR_EACH_ALLOCNO (allocno, ai)
135 FOR_EACH_ALLOCNO_OBJECT (allocno, obj, aoi)
137 int id = OBJECT_CONFLICT_ID (obj);
138 if (OBJECT_MAX (obj) < OBJECT_MIN (obj))
140 conflicts[id] = NULL;
141 continue;
143 conflict_bit_vec_words_num
144 = ((OBJECT_MAX (obj) - OBJECT_MIN (obj) + IRA_INT_BITS)
145 / IRA_INT_BITS);
146 allocated_words_num += conflict_bit_vec_words_num;
147 conflicts[id]
148 = (IRA_INT_TYPE *) ira_allocate (sizeof (IRA_INT_TYPE)
149 * conflict_bit_vec_words_num);
150 memset (conflicts[id], 0,
151 sizeof (IRA_INT_TYPE) * conflict_bit_vec_words_num);
154 object_set_words = (ira_objects_num + IRA_INT_BITS - 1) / IRA_INT_BITS;
155 if (internal_flag_ira_verbose > 0 && ira_dump_file != NULL)
156 fprintf
157 (ira_dump_file,
158 "+++Allocating %ld bytes for conflict table (uncompressed size %ld)\n",
159 (long) allocated_words_num * sizeof (IRA_INT_TYPE),
160 (long) object_set_words * ira_objects_num * sizeof (IRA_INT_TYPE));
162 objects_live = sparseset_alloc (ira_objects_num);
163 for (i = 0; i < ira_max_point; i++)
165 for (r = ira_start_point_ranges[i]; r != NULL; r = r->start_next)
167 ira_object_t obj = r->object;
168 ira_allocno_t allocno = OBJECT_ALLOCNO (obj);
169 int id = OBJECT_CONFLICT_ID (obj);
171 gcc_assert (id < ira_objects_num);
173 aclass = ALLOCNO_CLASS (allocno);
174 sparseset_set_bit (objects_live, id);
175 EXECUTE_IF_SET_IN_SPARSESET (objects_live, j)
177 ira_object_t live_obj = ira_object_id_map[j];
178 ira_allocno_t live_a = OBJECT_ALLOCNO (live_obj);
179 enum reg_class live_aclass = ALLOCNO_CLASS (live_a);
181 if (ira_reg_classes_intersect_p[aclass][live_aclass]
182 /* Don't set up conflict for the allocno with itself. */
183 && live_a != allocno)
185 record_object_conflict (obj, live_obj);
190 for (r = ira_finish_point_ranges[i]; r != NULL; r = r->finish_next)
191 sparseset_clear_bit (objects_live, OBJECT_CONFLICT_ID (r->object));
193 sparseset_free (objects_live);
194 return true;
197 /* Return true iff allocnos A1 and A2 cannot be allocated to the same
198 register due to conflicts. */
200 static bool
201 allocnos_conflict_for_copy_p (ira_allocno_t a1, ira_allocno_t a2)
203 /* Due to the fact that we canonicalize conflicts (see
204 record_object_conflict), we only need to test for conflicts of
205 the lowest order words. */
206 ira_object_t obj1 = ALLOCNO_OBJECT (a1, 0);
207 ira_object_t obj2 = ALLOCNO_OBJECT (a2, 0);
209 return OBJECTS_CONFLICT_P (obj1, obj2);
212 /* Return TRUE if the operand constraint STR is commutative. */
213 static bool
214 commutative_constraint_p (const char *str)
216 int curr_alt, c;
217 bool ignore_p;
219 for (ignore_p = false, curr_alt = 0;;)
221 c = *str;
222 if (c == '\0')
223 break;
224 str += CONSTRAINT_LEN (c, str);
225 if (c == '#' || !recog_data.alternative_enabled_p[curr_alt])
226 ignore_p = true;
227 else if (c == ',')
229 curr_alt++;
230 ignore_p = false;
232 else if (! ignore_p)
234 /* Usually `%' is the first constraint character but the
235 documentation does not require this. */
236 if (c == '%')
237 return true;
240 return false;
243 /* Return the number of the operand which should be the same in any
244 case as operand with number OP_NUM (or negative value if there is
245 no such operand). If USE_COMMUT_OP_P is TRUE, the function makes
246 temporarily commutative operand exchange before this. The function
247 takes only really possible alternatives into consideration. */
248 static int
249 get_dup_num (int op_num, bool use_commut_op_p)
251 int curr_alt, c, original, dup;
252 bool ignore_p, commut_op_used_p;
253 const char *str;
254 rtx op;
256 if (op_num < 0 || recog_data.n_alternatives == 0)
257 return -1;
258 op = recog_data.operand[op_num];
259 commut_op_used_p = true;
260 if (use_commut_op_p)
262 if (commutative_constraint_p (recog_data.constraints[op_num]))
263 op_num++;
264 else if (op_num > 0 && commutative_constraint_p (recog_data.constraints
265 [op_num - 1]))
266 op_num--;
267 else
268 commut_op_used_p = false;
270 str = recog_data.constraints[op_num];
271 for (ignore_p = false, original = -1, curr_alt = 0;;)
273 c = *str;
274 if (c == '\0')
275 break;
276 if (c == '#' || !recog_data.alternative_enabled_p[curr_alt])
277 ignore_p = true;
278 else if (c == ',')
280 curr_alt++;
281 ignore_p = false;
283 else if (! ignore_p)
284 switch (c)
286 case 'X':
287 return -1;
289 case 'm':
290 case 'o':
291 /* Accept a register which might be placed in memory. */
292 return -1;
293 break;
295 case 'V':
296 case '<':
297 case '>':
298 break;
300 case 'p':
301 if (address_operand (op, VOIDmode))
302 return -1;
303 break;
305 case 'g':
306 return -1;
308 case 'r':
309 case 'a': case 'b': case 'c': case 'd': case 'e': case 'f':
310 case 'h': case 'j': case 'k': case 'l':
311 case 'q': case 't': case 'u':
312 case 'v': case 'w': case 'x': case 'y': case 'z':
313 case 'A': case 'B': case 'C': case 'D':
314 case 'Q': case 'R': case 'S': case 'T': case 'U':
315 case 'W': case 'Y': case 'Z':
317 enum reg_class cl;
319 cl = (c == 'r'
320 ? GENERAL_REGS : REG_CLASS_FROM_CONSTRAINT (c, str));
321 if (cl != NO_REGS)
322 return -1;
323 #ifdef EXTRA_CONSTRAINT_STR
324 else if (EXTRA_CONSTRAINT_STR (op, c, str))
325 return -1;
326 #endif
327 break;
330 case '0': case '1': case '2': case '3': case '4':
331 case '5': case '6': case '7': case '8': case '9':
332 if (original != -1 && original != c)
333 return -1;
334 original = c;
335 break;
337 str += CONSTRAINT_LEN (c, str);
339 if (original == -1)
340 return -1;
341 dup = original - '0';
342 if (use_commut_op_p)
344 if (commutative_constraint_p (recog_data.constraints[dup]))
345 dup++;
346 else if (dup > 0
347 && commutative_constraint_p (recog_data.constraints[dup -1]))
348 dup--;
349 else if (! commut_op_used_p)
350 return -1;
352 return dup;
355 /* Check that X is REG or SUBREG of REG. */
356 #define REG_SUBREG_P(x) \
357 (REG_P (x) || (GET_CODE (x) == SUBREG && REG_P (SUBREG_REG (x))))
359 /* Return X if X is a REG, otherwise it should be SUBREG of REG and
360 the function returns the reg in this case. *OFFSET will be set to
361 0 in the first case or the regno offset in the first case. */
362 static rtx
363 go_through_subreg (rtx x, int *offset)
365 rtx reg;
367 *offset = 0;
368 if (REG_P (x))
369 return x;
370 ira_assert (GET_CODE (x) == SUBREG);
371 reg = SUBREG_REG (x);
372 ira_assert (REG_P (reg));
373 if (REGNO (reg) < FIRST_PSEUDO_REGISTER)
374 *offset = subreg_regno_offset (REGNO (reg), GET_MODE (reg),
375 SUBREG_BYTE (x), GET_MODE (x));
376 else
377 *offset = (SUBREG_BYTE (x) / REGMODE_NATURAL_SIZE (GET_MODE (x)));
378 return reg;
381 /* Process registers REG1 and REG2 in move INSN with execution
382 frequency FREQ. The function also processes the registers in a
383 potential move insn (INSN == NULL in this case) with frequency
384 FREQ. The function can modify hard register costs of the
385 corresponding allocnos or create a copy involving the corresponding
386 allocnos. The function does nothing if the both registers are hard
387 registers. When nothing is changed, the function returns
388 FALSE. */
389 static bool
390 process_regs_for_copy (rtx reg1, rtx reg2, bool constraint_p,
391 rtx insn, int freq)
393 int allocno_preferenced_hard_regno, cost, index, offset1, offset2;
394 bool only_regs_p;
395 ira_allocno_t a;
396 reg_class_t rclass, aclass;
397 enum machine_mode mode;
398 ira_copy_t cp;
400 gcc_assert (REG_SUBREG_P (reg1) && REG_SUBREG_P (reg2));
401 only_regs_p = REG_P (reg1) && REG_P (reg2);
402 reg1 = go_through_subreg (reg1, &offset1);
403 reg2 = go_through_subreg (reg2, &offset2);
404 /* Set up hard regno preferenced by allocno. If allocno gets the
405 hard regno the copy (or potential move) insn will be removed. */
406 if (HARD_REGISTER_P (reg1))
408 if (HARD_REGISTER_P (reg2))
409 return false;
410 allocno_preferenced_hard_regno = REGNO (reg1) + offset1 - offset2;
411 a = ira_curr_regno_allocno_map[REGNO (reg2)];
413 else if (HARD_REGISTER_P (reg2))
415 allocno_preferenced_hard_regno = REGNO (reg2) + offset2 - offset1;
416 a = ira_curr_regno_allocno_map[REGNO (reg1)];
418 else
420 ira_allocno_t a1 = ira_curr_regno_allocno_map[REGNO (reg1)];
421 ira_allocno_t a2 = ira_curr_regno_allocno_map[REGNO (reg2)];
423 if (!allocnos_conflict_for_copy_p (a1, a2) && offset1 == offset2)
425 cp = ira_add_allocno_copy (a1, a2, freq, constraint_p, insn,
426 ira_curr_loop_tree_node);
427 bitmap_set_bit (ira_curr_loop_tree_node->local_copies, cp->num);
428 return true;
430 else
431 return false;
434 if (! IN_RANGE (allocno_preferenced_hard_regno,
435 0, FIRST_PSEUDO_REGISTER - 1))
436 /* Can not be tied. */
437 return false;
438 rclass = REGNO_REG_CLASS (allocno_preferenced_hard_regno);
439 mode = ALLOCNO_MODE (a);
440 aclass = ALLOCNO_CLASS (a);
441 if (only_regs_p && insn != NULL_RTX
442 && reg_class_size[rclass] <= ira_reg_class_max_nregs [rclass][mode])
443 /* It is already taken into account in ira-costs.c. */
444 return false;
445 index = ira_class_hard_reg_index[aclass][allocno_preferenced_hard_regno];
446 if (index < 0)
447 /* Can not be tied. It is not in the allocno class. */
448 return false;
449 ira_init_register_move_cost_if_necessary (mode);
450 if (HARD_REGISTER_P (reg1))
451 cost = ira_register_move_cost[mode][aclass][rclass] * freq;
452 else
453 cost = ira_register_move_cost[mode][rclass][aclass] * freq;
456 ira_allocate_and_set_costs
457 (&ALLOCNO_HARD_REG_COSTS (a), aclass,
458 ALLOCNO_CLASS_COST (a));
459 ira_allocate_and_set_costs
460 (&ALLOCNO_CONFLICT_HARD_REG_COSTS (a), aclass, 0);
461 ALLOCNO_HARD_REG_COSTS (a)[index] -= cost;
462 ALLOCNO_CONFLICT_HARD_REG_COSTS (a)[index] -= cost;
463 if (ALLOCNO_HARD_REG_COSTS (a)[index] < ALLOCNO_CLASS_COST (a))
464 ALLOCNO_CLASS_COST (a) = ALLOCNO_HARD_REG_COSTS (a)[index];
465 a = ira_parent_or_cap_allocno (a);
467 while (a != NULL);
468 return true;
471 /* Process all of the output registers of the current insn which are
472 not bound (BOUND_P) and the input register REG (its operand number
473 OP_NUM) which dies in the insn as if there were a move insn between
474 them with frequency FREQ. */
475 static void
476 process_reg_shuffles (rtx reg, int op_num, int freq, bool *bound_p)
478 int i;
479 rtx another_reg;
481 gcc_assert (REG_SUBREG_P (reg));
482 for (i = 0; i < recog_data.n_operands; i++)
484 another_reg = recog_data.operand[i];
486 if (!REG_SUBREG_P (another_reg) || op_num == i
487 || recog_data.operand_type[i] != OP_OUT
488 || bound_p[i])
489 continue;
491 process_regs_for_copy (reg, another_reg, false, NULL_RTX, freq);
495 /* Process INSN and create allocno copies if necessary. For example,
496 it might be because INSN is a pseudo-register move or INSN is two
497 operand insn. */
498 static void
499 add_insn_allocno_copies (rtx insn)
501 rtx set, operand, dup;
502 const char *str;
503 bool commut_p, bound_p[MAX_RECOG_OPERANDS];
504 int i, j, n, freq;
506 freq = REG_FREQ_FROM_BB (BLOCK_FOR_INSN (insn));
507 if (freq == 0)
508 freq = 1;
509 if ((set = single_set (insn)) != NULL_RTX
510 && REG_SUBREG_P (SET_DEST (set)) && REG_SUBREG_P (SET_SRC (set))
511 && ! side_effects_p (set)
512 && find_reg_note (insn, REG_DEAD,
513 REG_P (SET_SRC (set))
514 ? SET_SRC (set)
515 : SUBREG_REG (SET_SRC (set))) != NULL_RTX)
517 process_regs_for_copy (SET_DEST (set), SET_SRC (set),
518 false, insn, freq);
519 return;
521 /* Fast check of possibility of constraint or shuffle copies. If
522 there are no dead registers, there will be no such copies. */
523 if (! find_reg_note (insn, REG_DEAD, NULL_RTX))
524 return;
525 extract_insn (insn);
526 for (i = 0; i < recog_data.n_operands; i++)
527 bound_p[i] = false;
528 for (i = 0; i < recog_data.n_operands; i++)
530 operand = recog_data.operand[i];
531 if (! REG_SUBREG_P (operand))
532 continue;
533 str = recog_data.constraints[i];
534 while (*str == ' ' || *str == '\t')
535 str++;
536 for (j = 0, commut_p = false; j < 2; j++, commut_p = true)
537 if ((n = get_dup_num (i, commut_p)) >= 0)
539 bound_p[n] = true;
540 dup = recog_data.operand[n];
541 if (REG_SUBREG_P (dup)
542 && find_reg_note (insn, REG_DEAD,
543 REG_P (operand)
544 ? operand
545 : SUBREG_REG (operand)) != NULL_RTX)
546 process_regs_for_copy (operand, dup, true, NULL_RTX, freq);
549 for (i = 0; i < recog_data.n_operands; i++)
551 operand = recog_data.operand[i];
552 if (REG_SUBREG_P (operand)
553 && find_reg_note (insn, REG_DEAD,
554 REG_P (operand)
555 ? operand : SUBREG_REG (operand)) != NULL_RTX)
556 /* If an operand dies, prefer its hard register for the output
557 operands by decreasing the hard register cost or creating
558 the corresponding allocno copies. The cost will not
559 correspond to a real move insn cost, so make the frequency
560 smaller. */
561 process_reg_shuffles (operand, i, freq < 8 ? 1 : freq / 8, bound_p);
565 /* Add copies originated from BB given by LOOP_TREE_NODE. */
566 static void
567 add_copies (ira_loop_tree_node_t loop_tree_node)
569 basic_block bb;
570 rtx insn;
572 bb = loop_tree_node->bb;
573 if (bb == NULL)
574 return;
575 FOR_BB_INSNS (bb, insn)
576 if (NONDEBUG_INSN_P (insn))
577 add_insn_allocno_copies (insn);
580 /* Propagate copies the corresponding allocnos on upper loop tree
581 level. */
582 static void
583 propagate_copies (void)
585 ira_copy_t cp;
586 ira_copy_iterator ci;
587 ira_allocno_t a1, a2, parent_a1, parent_a2;
589 FOR_EACH_COPY (cp, ci)
591 a1 = cp->first;
592 a2 = cp->second;
593 if (ALLOCNO_LOOP_TREE_NODE (a1) == ira_loop_tree_root)
594 continue;
595 ira_assert ((ALLOCNO_LOOP_TREE_NODE (a2) != ira_loop_tree_root));
596 parent_a1 = ira_parent_or_cap_allocno (a1);
597 parent_a2 = ira_parent_or_cap_allocno (a2);
598 ira_assert (parent_a1 != NULL && parent_a2 != NULL);
599 if (! allocnos_conflict_for_copy_p (parent_a1, parent_a2))
600 ira_add_allocno_copy (parent_a1, parent_a2, cp->freq,
601 cp->constraint_p, cp->insn, cp->loop_tree_node);
605 /* Array used to collect all conflict allocnos for given allocno. */
606 static ira_object_t *collected_conflict_objects;
608 /* Build conflict vectors or bit conflict vectors (whatever is more
609 profitable) for object OBJ from the conflict table. */
610 static void
611 build_object_conflicts (ira_object_t obj)
613 int i, px, parent_num;
614 ira_allocno_t parent_a, another_parent_a;
615 ira_object_t parent_obj;
616 ira_allocno_t a = OBJECT_ALLOCNO (obj);
617 IRA_INT_TYPE *object_conflicts;
618 minmax_set_iterator asi;
619 int parent_min, parent_max ATTRIBUTE_UNUSED;
621 object_conflicts = conflicts[OBJECT_CONFLICT_ID (obj)];
622 px = 0;
623 FOR_EACH_BIT_IN_MINMAX_SET (object_conflicts,
624 OBJECT_MIN (obj), OBJECT_MAX (obj), i, asi)
626 ira_object_t another_obj = ira_object_id_map[i];
627 ira_allocno_t another_a = OBJECT_ALLOCNO (obj);
629 ira_assert (ira_reg_classes_intersect_p
630 [ALLOCNO_CLASS (a)][ALLOCNO_CLASS (another_a)]);
631 collected_conflict_objects[px++] = another_obj;
633 if (ira_conflict_vector_profitable_p (obj, px))
635 ira_object_t *vec;
636 ira_allocate_conflict_vec (obj, px);
637 vec = OBJECT_CONFLICT_VEC (obj);
638 memcpy (vec, collected_conflict_objects, sizeof (ira_object_t) * px);
639 vec[px] = NULL;
640 OBJECT_NUM_CONFLICTS (obj) = px;
642 else
644 int conflict_bit_vec_words_num;
646 OBJECT_CONFLICT_ARRAY (obj) = object_conflicts;
647 if (OBJECT_MAX (obj) < OBJECT_MIN (obj))
648 conflict_bit_vec_words_num = 0;
649 else
650 conflict_bit_vec_words_num
651 = ((OBJECT_MAX (obj) - OBJECT_MIN (obj) + IRA_INT_BITS)
652 / IRA_INT_BITS);
653 OBJECT_CONFLICT_ARRAY_SIZE (obj)
654 = conflict_bit_vec_words_num * sizeof (IRA_INT_TYPE);
657 parent_a = ira_parent_or_cap_allocno (a);
658 if (parent_a == NULL)
659 return;
660 ira_assert (ALLOCNO_CLASS (a) == ALLOCNO_CLASS (parent_a));
661 ira_assert (ALLOCNO_NUM_OBJECTS (a) == ALLOCNO_NUM_OBJECTS (parent_a));
662 parent_obj = ALLOCNO_OBJECT (parent_a, OBJECT_SUBWORD (obj));
663 parent_num = OBJECT_CONFLICT_ID (parent_obj);
664 parent_min = OBJECT_MIN (parent_obj);
665 parent_max = OBJECT_MAX (parent_obj);
666 FOR_EACH_BIT_IN_MINMAX_SET (object_conflicts,
667 OBJECT_MIN (obj), OBJECT_MAX (obj), i, asi)
669 ira_object_t another_obj = ira_object_id_map[i];
670 ira_allocno_t another_a = OBJECT_ALLOCNO (another_obj);
671 int another_word = OBJECT_SUBWORD (another_obj);
673 ira_assert (ira_reg_classes_intersect_p
674 [ALLOCNO_CLASS (a)][ALLOCNO_CLASS (another_a)]);
676 another_parent_a = ira_parent_or_cap_allocno (another_a);
677 if (another_parent_a == NULL)
678 continue;
679 ira_assert (ALLOCNO_NUM (another_parent_a) >= 0);
680 ira_assert (ALLOCNO_CLASS (another_a)
681 == ALLOCNO_CLASS (another_parent_a));
682 ira_assert (ALLOCNO_NUM_OBJECTS (another_a)
683 == ALLOCNO_NUM_OBJECTS (another_parent_a));
684 SET_MINMAX_SET_BIT (conflicts[parent_num],
685 OBJECT_CONFLICT_ID (ALLOCNO_OBJECT (another_parent_a,
686 another_word)),
687 parent_min, parent_max);
691 /* Build conflict vectors or bit conflict vectors (whatever is more
692 profitable) of all allocnos from the conflict table. */
693 static void
694 build_conflicts (void)
696 int i;
697 ira_allocno_t a, cap;
699 collected_conflict_objects
700 = (ira_object_t *) ira_allocate (sizeof (ira_object_t)
701 * ira_objects_num);
702 for (i = max_reg_num () - 1; i >= FIRST_PSEUDO_REGISTER; i--)
703 for (a = ira_regno_allocno_map[i];
704 a != NULL;
705 a = ALLOCNO_NEXT_REGNO_ALLOCNO (a))
707 int j, nregs = ALLOCNO_NUM_OBJECTS (a);
708 for (j = 0; j < nregs; j++)
710 ira_object_t obj = ALLOCNO_OBJECT (a, j);
711 build_object_conflicts (obj);
712 for (cap = ALLOCNO_CAP (a); cap != NULL; cap = ALLOCNO_CAP (cap))
714 ira_object_t cap_obj = ALLOCNO_OBJECT (cap, j);
715 gcc_assert (ALLOCNO_NUM_OBJECTS (cap) == ALLOCNO_NUM_OBJECTS (a));
716 build_object_conflicts (cap_obj);
720 ira_free (collected_conflict_objects);
725 /* Print hard reg set SET with TITLE to FILE. */
726 static void
727 print_hard_reg_set (FILE *file, const char *title, HARD_REG_SET set)
729 int i, start;
731 fputs (title, file);
732 for (start = -1, i = 0; i < FIRST_PSEUDO_REGISTER; i++)
734 if (TEST_HARD_REG_BIT (set, i))
736 if (i == 0 || ! TEST_HARD_REG_BIT (set, i - 1))
737 start = i;
739 if (start >= 0
740 && (i == FIRST_PSEUDO_REGISTER - 1 || ! TEST_HARD_REG_BIT (set, i)))
742 if (start == i - 1)
743 fprintf (file, " %d", start);
744 else if (start == i - 2)
745 fprintf (file, " %d %d", start, start + 1);
746 else
747 fprintf (file, " %d-%d", start, i - 1);
748 start = -1;
751 putc ('\n', file);
754 static void
755 print_allocno_conflicts (FILE * file, bool reg_p, ira_allocno_t a)
757 HARD_REG_SET conflicting_hard_regs;
758 basic_block bb;
759 int n, i;
761 if (reg_p)
762 fprintf (file, ";; r%d", ALLOCNO_REGNO (a));
763 else
765 fprintf (file, ";; a%d(r%d,", ALLOCNO_NUM (a), ALLOCNO_REGNO (a));
766 if ((bb = ALLOCNO_LOOP_TREE_NODE (a)->bb) != NULL)
767 fprintf (file, "b%d", bb->index);
768 else
769 fprintf (file, "l%d", ALLOCNO_LOOP_TREE_NODE (a)->loop_num);
770 putc (')', file);
773 fputs (" conflicts:", file);
774 n = ALLOCNO_NUM_OBJECTS (a);
775 for (i = 0; i < n; i++)
777 ira_object_t obj = ALLOCNO_OBJECT (a, i);
778 ira_object_t conflict_obj;
779 ira_object_conflict_iterator oci;
781 if (OBJECT_CONFLICT_ARRAY (obj) == NULL)
782 continue;
783 if (n > 1)
784 fprintf (file, "\n;; subobject %d:", i);
785 FOR_EACH_OBJECT_CONFLICT (obj, conflict_obj, oci)
787 ira_allocno_t conflict_a = OBJECT_ALLOCNO (conflict_obj);
788 if (reg_p)
789 fprintf (file, " r%d,", ALLOCNO_REGNO (conflict_a));
790 else
792 fprintf (file, " a%d(r%d", ALLOCNO_NUM (conflict_a),
793 ALLOCNO_REGNO (conflict_a));
794 if (ALLOCNO_NUM_OBJECTS (conflict_a) > 1)
795 fprintf (file, ",w%d", OBJECT_SUBWORD (conflict_obj));
796 if ((bb = ALLOCNO_LOOP_TREE_NODE (conflict_a)->bb) != NULL)
797 fprintf (file, ",b%d", bb->index);
798 else
799 fprintf (file, ",l%d",
800 ALLOCNO_LOOP_TREE_NODE (conflict_a)->loop_num);
801 putc (')', file);
804 COPY_HARD_REG_SET (conflicting_hard_regs, OBJECT_TOTAL_CONFLICT_HARD_REGS (obj));
805 AND_COMPL_HARD_REG_SET (conflicting_hard_regs, ira_no_alloc_regs);
806 AND_HARD_REG_SET (conflicting_hard_regs,
807 reg_class_contents[ALLOCNO_CLASS (a)]);
808 print_hard_reg_set (file, "\n;; total conflict hard regs:",
809 conflicting_hard_regs);
811 COPY_HARD_REG_SET (conflicting_hard_regs, OBJECT_CONFLICT_HARD_REGS (obj));
812 AND_COMPL_HARD_REG_SET (conflicting_hard_regs, ira_no_alloc_regs);
813 AND_HARD_REG_SET (conflicting_hard_regs,
814 reg_class_contents[ALLOCNO_CLASS (a)]);
815 print_hard_reg_set (file, ";; conflict hard regs:",
816 conflicting_hard_regs);
817 putc ('\n', file);
822 /* Print information about allocno or only regno (if REG_P) conflicts
823 to FILE. */
824 static void
825 print_conflicts (FILE *file, bool reg_p)
827 ira_allocno_t a;
828 ira_allocno_iterator ai;
830 FOR_EACH_ALLOCNO (a, ai)
831 print_allocno_conflicts (file, reg_p, a);
834 /* Print information about allocno or only regno (if REG_P) conflicts
835 to stderr. */
836 void
837 ira_debug_conflicts (bool reg_p)
839 print_conflicts (stderr, reg_p);
844 /* Entry function which builds allocno conflicts and allocno copies
845 and accumulate some allocno info on upper level regions. */
846 void
847 ira_build_conflicts (void)
849 enum reg_class base;
850 ira_allocno_t a;
851 ira_allocno_iterator ai;
852 HARD_REG_SET temp_hard_reg_set;
854 if (ira_conflicts_p)
856 ira_conflicts_p = build_conflict_bit_table ();
857 if (ira_conflicts_p)
859 ira_object_t obj;
860 ira_object_iterator oi;
862 build_conflicts ();
863 ira_traverse_loop_tree (true, ira_loop_tree_root, NULL, add_copies);
864 /* We need finished conflict table for the subsequent call. */
865 if (flag_ira_region == IRA_REGION_ALL
866 || flag_ira_region == IRA_REGION_MIXED)
867 propagate_copies ();
869 /* Now we can free memory for the conflict table (see function
870 build_object_conflicts for details). */
871 FOR_EACH_OBJECT (obj, oi)
873 if (OBJECT_CONFLICT_ARRAY (obj) != conflicts[OBJECT_CONFLICT_ID (obj)])
874 ira_free (conflicts[OBJECT_CONFLICT_ID (obj)]);
876 ira_free (conflicts);
879 base = base_reg_class (VOIDmode, ADDR_SPACE_GENERIC, ADDRESS, SCRATCH);
880 if (! targetm.class_likely_spilled_p (base))
881 CLEAR_HARD_REG_SET (temp_hard_reg_set);
882 else
884 COPY_HARD_REG_SET (temp_hard_reg_set, reg_class_contents[base]);
885 AND_COMPL_HARD_REG_SET (temp_hard_reg_set, ira_no_alloc_regs);
886 AND_HARD_REG_SET (temp_hard_reg_set, call_used_reg_set);
888 FOR_EACH_ALLOCNO (a, ai)
890 int i, n = ALLOCNO_NUM_OBJECTS (a);
892 for (i = 0; i < n; i++)
894 ira_object_t obj = ALLOCNO_OBJECT (a, i);
895 reg_attrs *attrs = REG_ATTRS (regno_reg_rtx [ALLOCNO_REGNO (a)]);
896 tree decl;
898 if ((! flag_caller_saves && ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
899 /* For debugging purposes don't put user defined variables in
900 callee-clobbered registers. */
901 || (optimize == 0
902 && attrs != NULL
903 && (decl = attrs->decl) != NULL
904 && VAR_OR_FUNCTION_DECL_P (decl)
905 && ! DECL_ARTIFICIAL (decl)))
907 IOR_HARD_REG_SET (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
908 call_used_reg_set);
909 IOR_HARD_REG_SET (OBJECT_CONFLICT_HARD_REGS (obj),
910 call_used_reg_set);
912 else if (ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
914 IOR_HARD_REG_SET (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
915 no_caller_save_reg_set);
916 IOR_HARD_REG_SET (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
917 temp_hard_reg_set);
918 IOR_HARD_REG_SET (OBJECT_CONFLICT_HARD_REGS (obj),
919 no_caller_save_reg_set);
920 IOR_HARD_REG_SET (OBJECT_CONFLICT_HARD_REGS (obj),
921 temp_hard_reg_set);
924 if (ALLOCNO_CALLS_CROSSED_NUM (a) != 0)
926 int regno;
928 /* Allocnos bigger than the saved part of call saved
929 regs must conflict with them. */
930 for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
931 if (!TEST_HARD_REG_BIT (call_used_reg_set, regno)
932 && HARD_REGNO_CALL_PART_CLOBBERED (regno,
933 obj->allocno->mode))
935 SET_HARD_REG_BIT (OBJECT_CONFLICT_HARD_REGS (obj), regno);
936 SET_HARD_REG_BIT (OBJECT_TOTAL_CONFLICT_HARD_REGS (obj),
937 regno);
942 if (optimize && ira_conflicts_p
943 && internal_flag_ira_verbose > 2 && ira_dump_file != NULL)
944 print_conflicts (ira_dump_file, false);