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1 /* Calculate branch probabilities, and basic block execution counts.
2 Copyright (C) 1990-2014 Free Software Foundation, Inc.
3 Contributed by James E. Wilson, UC Berkeley/Cygnus Support;
4 based on some ideas from Dain Samples of UC Berkeley.
5 Further mangling by Bob Manson, Cygnus Support.
7 This file is part of GCC.
9 GCC is free software; you can redistribute it and/or modify it under
10 the terms of the GNU General Public License as published by the Free
11 Software Foundation; either version 3, or (at your option) any later
12 version.
14 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
15 WARRANTY; without even the implied warranty of MERCHANTABILITY or
16 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 for more details.
19 You should have received a copy of the GNU General Public License
20 along with GCC; see the file COPYING3. If not see
21 <http://www.gnu.org/licenses/>. */
23 /* Generate basic block profile instrumentation and auxiliary files.
24 Profile generation is optimized, so that not all arcs in the basic
25 block graph need instrumenting. First, the BB graph is closed with
26 one entry (function start), and one exit (function exit). Any
27 ABNORMAL_EDGE cannot be instrumented (because there is no control
28 path to place the code). We close the graph by inserting fake
29 EDGE_FAKE edges to the EXIT_BLOCK, from the sources of abnormal
30 edges that do not go to the exit_block. We ignore such abnormal
31 edges. Naturally these fake edges are never directly traversed,
32 and so *cannot* be directly instrumented. Some other graph
33 massaging is done. To optimize the instrumentation we generate the
34 BB minimal span tree, only edges that are not on the span tree
35 (plus the entry point) need instrumenting. From that information
36 all other edge counts can be deduced. By construction all fake
37 edges must be on the spanning tree. We also attempt to place
38 EDGE_CRITICAL edges on the spanning tree.
40 The auxiliary files generated are <dumpbase>.gcno (at compile time)
41 and <dumpbase>.gcda (at run time). The format is
42 described in full in gcov-io.h. */
44 /* ??? Register allocation should use basic block execution counts to
45 give preference to the most commonly executed blocks. */
47 /* ??? Should calculate branch probabilities before instrumenting code, since
48 then we can use arc counts to help decide which arcs to instrument. */
50 #include "config.h"
51 #include "system.h"
52 #include "coretypes.h"
53 #include "tm.h"
54 #include "rtl.h"
55 #include "flags.h"
56 #include "regs.h"
57 #include "expr.h"
58 #include "function.h"
59 #include "basic-block.h"
60 #include "diagnostic-core.h"
61 #include "coverage.h"
62 #include "value-prof.h"
63 #include "tree.h"
64 #include "tree-ssa-alias.h"
65 #include "internal-fn.h"
66 #include "gimple-expr.h"
67 #include "is-a.h"
68 #include "gimple.h"
69 #include "gimple-iterator.h"
70 #include "tree-cfg.h"
71 #include "cfgloop.h"
72 #include "dumpfile.h"
73 #include "cgraph.h"
75 #include "profile.h"
77 struct bb_info {
78 unsigned int count_valid : 1;
80 /* Number of successor and predecessor edges. */
81 gcov_type succ_count;
82 gcov_type pred_count;
85 #define BB_INFO(b) ((struct bb_info *) (b)->aux)
88 /* Counter summary from the last set of coverage counts read. */
90 const struct gcov_ctr_summary *profile_info;
92 /* Counter working set information computed from the current counter
93 summary. Not initialized unless profile_info summary is non-NULL. */
94 static gcov_working_set_t gcov_working_sets[NUM_GCOV_WORKING_SETS];
96 /* Collect statistics on the performance of this pass for the entire source
97 file. */
99 static int total_num_blocks;
100 static int total_num_edges;
101 static int total_num_edges_ignored;
102 static int total_num_edges_instrumented;
103 static int total_num_blocks_created;
104 static int total_num_passes;
105 static int total_num_times_called;
106 static int total_hist_br_prob[20];
107 static int total_num_branches;
109 /* Forward declarations. */
110 static void find_spanning_tree (struct edge_list *);
112 /* Add edge instrumentation code to the entire insn chain.
114 F is the first insn of the chain.
115 NUM_BLOCKS is the number of basic blocks found in F. */
117 static unsigned
118 instrument_edges (struct edge_list *el)
120 unsigned num_instr_edges = 0;
121 int num_edges = NUM_EDGES (el);
122 basic_block bb;
124 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
126 edge e;
127 edge_iterator ei;
129 FOR_EACH_EDGE (e, ei, bb->succs)
131 struct edge_info *inf = EDGE_INFO (e);
133 if (!inf->ignore && !inf->on_tree)
135 gcc_assert (!(e->flags & EDGE_ABNORMAL));
136 if (dump_file)
137 fprintf (dump_file, "Edge %d to %d instrumented%s\n",
138 e->src->index, e->dest->index,
139 EDGE_CRITICAL_P (e) ? " (and split)" : "");
140 gimple_gen_edge_profiler (num_instr_edges++, e);
145 total_num_blocks_created += num_edges;
146 if (dump_file)
147 fprintf (dump_file, "%d edges instrumented\n", num_instr_edges);
148 return num_instr_edges;
151 /* Add code to measure histograms for values in list VALUES. */
152 static void
153 instrument_values (histogram_values values)
155 unsigned i;
157 /* Emit code to generate the histograms before the insns. */
159 for (i = 0; i < values.length (); i++)
161 histogram_value hist = values[i];
162 unsigned t = COUNTER_FOR_HIST_TYPE (hist->type);
164 if (!coverage_counter_alloc (t, hist->n_counters))
165 continue;
167 switch (hist->type)
169 case HIST_TYPE_INTERVAL:
170 gimple_gen_interval_profiler (hist, t, 0);
171 break;
173 case HIST_TYPE_POW2:
174 gimple_gen_pow2_profiler (hist, t, 0);
175 break;
177 case HIST_TYPE_SINGLE_VALUE:
178 gimple_gen_one_value_profiler (hist, t, 0);
179 break;
181 case HIST_TYPE_CONST_DELTA:
182 gimple_gen_const_delta_profiler (hist, t, 0);
183 break;
185 case HIST_TYPE_INDIR_CALL:
186 gimple_gen_ic_profiler (hist, t, 0);
187 break;
189 case HIST_TYPE_AVERAGE:
190 gimple_gen_average_profiler (hist, t, 0);
191 break;
193 case HIST_TYPE_IOR:
194 gimple_gen_ior_profiler (hist, t, 0);
195 break;
197 case HIST_TYPE_TIME_PROFILE:
199 basic_block bb =
200 split_edge (single_succ_edge (ENTRY_BLOCK_PTR_FOR_FN (cfun)));
201 gimple_stmt_iterator gsi = gsi_start_bb (bb);
203 gimple_gen_time_profiler (t, 0, gsi);
204 break;
207 default:
208 gcc_unreachable ();
214 /* Fill the working set information into the profile_info structure. */
216 void
217 get_working_sets (void)
219 unsigned ws_ix, pctinc, pct;
220 gcov_working_set_t *ws_info;
222 if (!profile_info)
223 return;
225 compute_working_sets (profile_info, gcov_working_sets);
227 if (dump_file)
229 fprintf (dump_file, "Counter working sets:\n");
230 /* Multiply the percentage by 100 to avoid float. */
231 pctinc = 100 * 100 / NUM_GCOV_WORKING_SETS;
232 for (ws_ix = 0, pct = pctinc; ws_ix < NUM_GCOV_WORKING_SETS;
233 ws_ix++, pct += pctinc)
235 if (ws_ix == NUM_GCOV_WORKING_SETS - 1)
236 pct = 9990;
237 ws_info = &gcov_working_sets[ws_ix];
238 /* Print out the percentage using int arithmatic to avoid float. */
239 fprintf (dump_file, "\t\t%u.%02u%%: num counts=%u, min counter="
240 HOST_WIDEST_INT_PRINT_DEC "\n",
241 pct / 100, pct - (pct / 100 * 100),
242 ws_info->num_counters,
243 (HOST_WIDEST_INT)ws_info->min_counter);
248 /* Given a the desired percentage of the full profile (sum_all from the
249 summary), multiplied by 10 to avoid float in PCT_TIMES_10, returns
250 the corresponding working set information. If an exact match for
251 the percentage isn't found, the closest value is used. */
253 gcov_working_set_t *
254 find_working_set (unsigned pct_times_10)
256 unsigned i;
257 if (!profile_info)
258 return NULL;
259 gcc_assert (pct_times_10 <= 1000);
260 if (pct_times_10 >= 999)
261 return &gcov_working_sets[NUM_GCOV_WORKING_SETS - 1];
262 i = pct_times_10 * NUM_GCOV_WORKING_SETS / 1000;
263 if (!i)
264 return &gcov_working_sets[0];
265 return &gcov_working_sets[i - 1];
268 /* Computes hybrid profile for all matching entries in da_file.
270 CFG_CHECKSUM is the precomputed checksum for the CFG. */
272 static gcov_type *
273 get_exec_counts (unsigned cfg_checksum, unsigned lineno_checksum)
275 unsigned num_edges = 0;
276 basic_block bb;
277 gcov_type *counts;
279 /* Count the edges to be (possibly) instrumented. */
280 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
282 edge e;
283 edge_iterator ei;
285 FOR_EACH_EDGE (e, ei, bb->succs)
286 if (!EDGE_INFO (e)->ignore && !EDGE_INFO (e)->on_tree)
287 num_edges++;
290 counts = get_coverage_counts (GCOV_COUNTER_ARCS, num_edges, cfg_checksum,
291 lineno_checksum, &profile_info);
292 if (!counts)
293 return NULL;
295 get_working_sets ();
297 if (dump_file && profile_info)
298 fprintf (dump_file, "Merged %u profiles with maximal count %u.\n",
299 profile_info->runs, (unsigned) profile_info->sum_max);
301 return counts;
305 static bool
306 is_edge_inconsistent (vec<edge, va_gc> *edges)
308 edge e;
309 edge_iterator ei;
310 FOR_EACH_EDGE (e, ei, edges)
312 if (!EDGE_INFO (e)->ignore)
314 if (e->count < 0
315 && (!(e->flags & EDGE_FAKE)
316 || !block_ends_with_call_p (e->src)))
318 if (dump_file)
320 fprintf (dump_file,
321 "Edge %i->%i is inconsistent, count"HOST_WIDEST_INT_PRINT_DEC,
322 e->src->index, e->dest->index, e->count);
323 dump_bb (dump_file, e->src, 0, TDF_DETAILS);
324 dump_bb (dump_file, e->dest, 0, TDF_DETAILS);
326 return true;
330 return false;
333 static void
334 correct_negative_edge_counts (void)
336 basic_block bb;
337 edge e;
338 edge_iterator ei;
340 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
342 FOR_EACH_EDGE (e, ei, bb->succs)
344 if (e->count < 0)
345 e->count = 0;
350 /* Check consistency.
351 Return true if inconsistency is found. */
352 static bool
353 is_inconsistent (void)
355 basic_block bb;
356 bool inconsistent = false;
357 FOR_EACH_BB_FN (bb, cfun)
359 inconsistent |= is_edge_inconsistent (bb->preds);
360 if (!dump_file && inconsistent)
361 return true;
362 inconsistent |= is_edge_inconsistent (bb->succs);
363 if (!dump_file && inconsistent)
364 return true;
365 if (bb->count < 0)
367 if (dump_file)
369 fprintf (dump_file, "BB %i count is negative "
370 HOST_WIDEST_INT_PRINT_DEC,
371 bb->index,
372 bb->count);
373 dump_bb (dump_file, bb, 0, TDF_DETAILS);
375 inconsistent = true;
377 if (bb->count != sum_edge_counts (bb->preds))
379 if (dump_file)
381 fprintf (dump_file, "BB %i count does not match sum of incoming edges "
382 HOST_WIDEST_INT_PRINT_DEC" should be " HOST_WIDEST_INT_PRINT_DEC,
383 bb->index,
384 bb->count,
385 sum_edge_counts (bb->preds));
386 dump_bb (dump_file, bb, 0, TDF_DETAILS);
388 inconsistent = true;
390 if (bb->count != sum_edge_counts (bb->succs) &&
391 ! (find_edge (bb, EXIT_BLOCK_PTR_FOR_FN (cfun)) != NULL
392 && block_ends_with_call_p (bb)))
394 if (dump_file)
396 fprintf (dump_file, "BB %i count does not match sum of outgoing edges "
397 HOST_WIDEST_INT_PRINT_DEC" should be " HOST_WIDEST_INT_PRINT_DEC,
398 bb->index,
399 bb->count,
400 sum_edge_counts (bb->succs));
401 dump_bb (dump_file, bb, 0, TDF_DETAILS);
403 inconsistent = true;
405 if (!dump_file && inconsistent)
406 return true;
409 return inconsistent;
412 /* Set each basic block count to the sum of its outgoing edge counts */
413 static void
414 set_bb_counts (void)
416 basic_block bb;
417 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
419 bb->count = sum_edge_counts (bb->succs);
420 gcc_assert (bb->count >= 0);
424 /* Reads profile data and returns total number of edge counts read */
425 static int
426 read_profile_edge_counts (gcov_type *exec_counts)
428 basic_block bb;
429 int num_edges = 0;
430 int exec_counts_pos = 0;
431 /* For each edge not on the spanning tree, set its execution count from
432 the .da file. */
433 /* The first count in the .da file is the number of times that the function
434 was entered. This is the exec_count for block zero. */
436 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
438 edge e;
439 edge_iterator ei;
441 FOR_EACH_EDGE (e, ei, bb->succs)
442 if (!EDGE_INFO (e)->ignore && !EDGE_INFO (e)->on_tree)
444 num_edges++;
445 if (exec_counts)
447 e->count = exec_counts[exec_counts_pos++];
448 if (e->count > profile_info->sum_max)
450 if (flag_profile_correction)
452 static bool informed = 0;
453 if (dump_enabled_p () && !informed)
454 dump_printf_loc (MSG_NOTE, input_location,
455 "corrupted profile info: edge count"
456 " exceeds maximal count\n");
457 informed = 1;
459 else
460 error ("corrupted profile info: edge from %i to %i exceeds maximal count",
461 bb->index, e->dest->index);
464 else
465 e->count = 0;
467 EDGE_INFO (e)->count_valid = 1;
468 BB_INFO (bb)->succ_count--;
469 BB_INFO (e->dest)->pred_count--;
470 if (dump_file)
472 fprintf (dump_file, "\nRead edge from %i to %i, count:",
473 bb->index, e->dest->index);
474 fprintf (dump_file, HOST_WIDEST_INT_PRINT_DEC,
475 (HOST_WIDEST_INT) e->count);
480 return num_edges;
483 #define OVERLAP_BASE 10000
485 /* Compare the static estimated profile to the actual profile, and
486 return the "degree of overlap" measure between them.
488 Degree of overlap is a number between 0 and OVERLAP_BASE. It is
489 the sum of each basic block's minimum relative weights between
490 two profiles. And overlap of OVERLAP_BASE means two profiles are
491 identical. */
493 static int
494 compute_frequency_overlap (void)
496 gcov_type count_total = 0, freq_total = 0;
497 int overlap = 0;
498 basic_block bb;
500 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
502 count_total += bb->count;
503 freq_total += bb->frequency;
506 if (count_total == 0 || freq_total == 0)
507 return 0;
509 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
510 overlap += MIN (bb->count * OVERLAP_BASE / count_total,
511 bb->frequency * OVERLAP_BASE / freq_total);
513 return overlap;
516 /* Compute the branch probabilities for the various branches.
517 Annotate them accordingly.
519 CFG_CHECKSUM is the precomputed checksum for the CFG. */
521 static void
522 compute_branch_probabilities (unsigned cfg_checksum, unsigned lineno_checksum)
524 basic_block bb;
525 int i;
526 int num_edges = 0;
527 int changes;
528 int passes;
529 int hist_br_prob[20];
530 int num_branches;
531 gcov_type *exec_counts = get_exec_counts (cfg_checksum, lineno_checksum);
532 int inconsistent = 0;
534 /* Very simple sanity checks so we catch bugs in our profiling code. */
535 if (!profile_info)
536 return;
538 if (profile_info->sum_all < profile_info->sum_max)
540 error ("corrupted profile info: sum_all is smaller than sum_max");
541 exec_counts = NULL;
544 /* Attach extra info block to each bb. */
545 alloc_aux_for_blocks (sizeof (struct bb_info));
546 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
548 edge e;
549 edge_iterator ei;
551 FOR_EACH_EDGE (e, ei, bb->succs)
552 if (!EDGE_INFO (e)->ignore)
553 BB_INFO (bb)->succ_count++;
554 FOR_EACH_EDGE (e, ei, bb->preds)
555 if (!EDGE_INFO (e)->ignore)
556 BB_INFO (bb)->pred_count++;
559 /* Avoid predicting entry on exit nodes. */
560 BB_INFO (EXIT_BLOCK_PTR_FOR_FN (cfun))->succ_count = 2;
561 BB_INFO (ENTRY_BLOCK_PTR_FOR_FN (cfun))->pred_count = 2;
563 num_edges = read_profile_edge_counts (exec_counts);
565 if (dump_file)
566 fprintf (dump_file, "\n%d edge counts read\n", num_edges);
568 /* For every block in the file,
569 - if every exit/entrance edge has a known count, then set the block count
570 - if the block count is known, and every exit/entrance edge but one has
571 a known execution count, then set the count of the remaining edge
573 As edge counts are set, decrement the succ/pred count, but don't delete
574 the edge, that way we can easily tell when all edges are known, or only
575 one edge is unknown. */
577 /* The order that the basic blocks are iterated through is important.
578 Since the code that finds spanning trees starts with block 0, low numbered
579 edges are put on the spanning tree in preference to high numbered edges.
580 Hence, most instrumented edges are at the end. Graph solving works much
581 faster if we propagate numbers from the end to the start.
583 This takes an average of slightly more than 3 passes. */
585 changes = 1;
586 passes = 0;
587 while (changes)
589 passes++;
590 changes = 0;
591 FOR_BB_BETWEEN (bb, EXIT_BLOCK_PTR_FOR_FN (cfun), NULL, prev_bb)
593 struct bb_info *bi = BB_INFO (bb);
594 if (! bi->count_valid)
596 if (bi->succ_count == 0)
598 edge e;
599 edge_iterator ei;
600 gcov_type total = 0;
602 FOR_EACH_EDGE (e, ei, bb->succs)
603 total += e->count;
604 bb->count = total;
605 bi->count_valid = 1;
606 changes = 1;
608 else if (bi->pred_count == 0)
610 edge e;
611 edge_iterator ei;
612 gcov_type total = 0;
614 FOR_EACH_EDGE (e, ei, bb->preds)
615 total += e->count;
616 bb->count = total;
617 bi->count_valid = 1;
618 changes = 1;
621 if (bi->count_valid)
623 if (bi->succ_count == 1)
625 edge e;
626 edge_iterator ei;
627 gcov_type total = 0;
629 /* One of the counts will be invalid, but it is zero,
630 so adding it in also doesn't hurt. */
631 FOR_EACH_EDGE (e, ei, bb->succs)
632 total += e->count;
634 /* Search for the invalid edge, and set its count. */
635 FOR_EACH_EDGE (e, ei, bb->succs)
636 if (! EDGE_INFO (e)->count_valid && ! EDGE_INFO (e)->ignore)
637 break;
639 /* Calculate count for remaining edge by conservation. */
640 total = bb->count - total;
642 gcc_assert (e);
643 EDGE_INFO (e)->count_valid = 1;
644 e->count = total;
645 bi->succ_count--;
647 BB_INFO (e->dest)->pred_count--;
648 changes = 1;
650 if (bi->pred_count == 1)
652 edge e;
653 edge_iterator ei;
654 gcov_type total = 0;
656 /* One of the counts will be invalid, but it is zero,
657 so adding it in also doesn't hurt. */
658 FOR_EACH_EDGE (e, ei, bb->preds)
659 total += e->count;
661 /* Search for the invalid edge, and set its count. */
662 FOR_EACH_EDGE (e, ei, bb->preds)
663 if (!EDGE_INFO (e)->count_valid && !EDGE_INFO (e)->ignore)
664 break;
666 /* Calculate count for remaining edge by conservation. */
667 total = bb->count - total + e->count;
669 gcc_assert (e);
670 EDGE_INFO (e)->count_valid = 1;
671 e->count = total;
672 bi->pred_count--;
674 BB_INFO (e->src)->succ_count--;
675 changes = 1;
680 if (dump_file)
682 int overlap = compute_frequency_overlap ();
683 gimple_dump_cfg (dump_file, dump_flags);
684 fprintf (dump_file, "Static profile overlap: %d.%d%%\n",
685 overlap / (OVERLAP_BASE / 100),
686 overlap % (OVERLAP_BASE / 100));
689 total_num_passes += passes;
690 if (dump_file)
691 fprintf (dump_file, "Graph solving took %d passes.\n\n", passes);
693 /* If the graph has been correctly solved, every block will have a
694 succ and pred count of zero. */
695 FOR_EACH_BB_FN (bb, cfun)
697 gcc_assert (!BB_INFO (bb)->succ_count && !BB_INFO (bb)->pred_count);
700 /* Check for inconsistent basic block counts */
701 inconsistent = is_inconsistent ();
703 if (inconsistent)
705 if (flag_profile_correction)
707 /* Inconsistency detected. Make it flow-consistent. */
708 static int informed = 0;
709 if (dump_enabled_p () && informed == 0)
711 informed = 1;
712 dump_printf_loc (MSG_NOTE, input_location,
713 "correcting inconsistent profile data\n");
715 correct_negative_edge_counts ();
716 /* Set bb counts to the sum of the outgoing edge counts */
717 set_bb_counts ();
718 if (dump_file)
719 fprintf (dump_file, "\nCalling mcf_smooth_cfg\n");
720 mcf_smooth_cfg ();
722 else
723 error ("corrupted profile info: profile data is not flow-consistent");
726 /* For every edge, calculate its branch probability and add a reg_note
727 to the branch insn to indicate this. */
729 for (i = 0; i < 20; i++)
730 hist_br_prob[i] = 0;
731 num_branches = 0;
733 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
735 edge e;
736 edge_iterator ei;
738 if (bb->count < 0)
740 error ("corrupted profile info: number of iterations for basic block %d thought to be %i",
741 bb->index, (int)bb->count);
742 bb->count = 0;
744 FOR_EACH_EDGE (e, ei, bb->succs)
746 /* Function may return twice in the cased the called function is
747 setjmp or calls fork, but we can't represent this by extra
748 edge from the entry, since extra edge from the exit is
749 already present. We get negative frequency from the entry
750 point. */
751 if ((e->count < 0
752 && e->dest == EXIT_BLOCK_PTR_FOR_FN (cfun))
753 || (e->count > bb->count
754 && e->dest != EXIT_BLOCK_PTR_FOR_FN (cfun)))
756 if (block_ends_with_call_p (bb))
757 e->count = e->count < 0 ? 0 : bb->count;
759 if (e->count < 0 || e->count > bb->count)
761 error ("corrupted profile info: number of executions for edge %d-%d thought to be %i",
762 e->src->index, e->dest->index,
763 (int)e->count);
764 e->count = bb->count / 2;
767 if (bb->count)
769 FOR_EACH_EDGE (e, ei, bb->succs)
770 e->probability = GCOV_COMPUTE_SCALE (e->count, bb->count);
771 if (bb->index >= NUM_FIXED_BLOCKS
772 && block_ends_with_condjump_p (bb)
773 && EDGE_COUNT (bb->succs) >= 2)
775 int prob;
776 edge e;
777 int index;
779 /* Find the branch edge. It is possible that we do have fake
780 edges here. */
781 FOR_EACH_EDGE (e, ei, bb->succs)
782 if (!(e->flags & (EDGE_FAKE | EDGE_FALLTHRU)))
783 break;
785 prob = e->probability;
786 index = prob * 20 / REG_BR_PROB_BASE;
788 if (index == 20)
789 index = 19;
790 hist_br_prob[index]++;
792 num_branches++;
795 /* As a last resort, distribute the probabilities evenly.
796 Use simple heuristics that if there are normal edges,
797 give all abnormals frequency of 0, otherwise distribute the
798 frequency over abnormals (this is the case of noreturn
799 calls). */
800 else if (profile_status_for_fn (cfun) == PROFILE_ABSENT)
802 int total = 0;
804 FOR_EACH_EDGE (e, ei, bb->succs)
805 if (!(e->flags & (EDGE_COMPLEX | EDGE_FAKE)))
806 total ++;
807 if (total)
809 FOR_EACH_EDGE (e, ei, bb->succs)
810 if (!(e->flags & (EDGE_COMPLEX | EDGE_FAKE)))
811 e->probability = REG_BR_PROB_BASE / total;
812 else
813 e->probability = 0;
815 else
817 total += EDGE_COUNT (bb->succs);
818 FOR_EACH_EDGE (e, ei, bb->succs)
819 e->probability = REG_BR_PROB_BASE / total;
821 if (bb->index >= NUM_FIXED_BLOCKS
822 && block_ends_with_condjump_p (bb)
823 && EDGE_COUNT (bb->succs) >= 2)
824 num_branches++;
827 counts_to_freqs ();
828 profile_status_for_fn (cfun) = PROFILE_READ;
829 compute_function_frequency ();
831 if (dump_file)
833 fprintf (dump_file, "%d branches\n", num_branches);
834 if (num_branches)
835 for (i = 0; i < 10; i++)
836 fprintf (dump_file, "%d%% branches in range %d-%d%%\n",
837 (hist_br_prob[i] + hist_br_prob[19-i]) * 100 / num_branches,
838 5 * i, 5 * i + 5);
840 total_num_branches += num_branches;
841 for (i = 0; i < 20; i++)
842 total_hist_br_prob[i] += hist_br_prob[i];
844 fputc ('\n', dump_file);
845 fputc ('\n', dump_file);
848 free_aux_for_blocks ();
851 /* Load value histograms values whose description is stored in VALUES array
852 from .gcda file.
854 CFG_CHECKSUM is the precomputed checksum for the CFG. */
856 static void
857 compute_value_histograms (histogram_values values, unsigned cfg_checksum,
858 unsigned lineno_checksum)
860 unsigned i, j, t, any;
861 unsigned n_histogram_counters[GCOV_N_VALUE_COUNTERS];
862 gcov_type *histogram_counts[GCOV_N_VALUE_COUNTERS];
863 gcov_type *act_count[GCOV_N_VALUE_COUNTERS];
864 gcov_type *aact_count;
865 struct cgraph_node *node;
867 for (t = 0; t < GCOV_N_VALUE_COUNTERS; t++)
868 n_histogram_counters[t] = 0;
870 for (i = 0; i < values.length (); i++)
872 histogram_value hist = values[i];
873 n_histogram_counters[(int) hist->type] += hist->n_counters;
876 any = 0;
877 for (t = 0; t < GCOV_N_VALUE_COUNTERS; t++)
879 if (!n_histogram_counters[t])
881 histogram_counts[t] = NULL;
882 continue;
885 histogram_counts[t] =
886 get_coverage_counts (COUNTER_FOR_HIST_TYPE (t),
887 n_histogram_counters[t], cfg_checksum,
888 lineno_checksum, NULL);
889 if (histogram_counts[t])
890 any = 1;
891 act_count[t] = histogram_counts[t];
893 if (!any)
894 return;
896 for (i = 0; i < values.length (); i++)
898 histogram_value hist = values[i];
899 gimple stmt = hist->hvalue.stmt;
901 t = (int) hist->type;
903 aact_count = act_count[t];
905 if (act_count[t])
906 act_count[t] += hist->n_counters;
908 gimple_add_histogram_value (cfun, stmt, hist);
909 hist->hvalue.counters = XNEWVEC (gcov_type, hist->n_counters);
910 for (j = 0; j < hist->n_counters; j++)
911 if (aact_count)
912 hist->hvalue.counters[j] = aact_count[j];
913 else
914 hist->hvalue.counters[j] = 0;
916 /* Time profiler counter is not related to any statement,
917 so that we have to read the counter and set the value to
918 the corresponding call graph node. */
919 if (hist->type == HIST_TYPE_TIME_PROFILE)
921 node = cgraph_get_node (hist->fun->decl);
923 node->tp_first_run = hist->hvalue.counters[0];
925 if (dump_file)
926 fprintf (dump_file, "Read tp_first_run: %d\n", node->tp_first_run);
930 for (t = 0; t < GCOV_N_VALUE_COUNTERS; t++)
931 free (histogram_counts[t]);
934 /* When passed NULL as file_name, initialize.
935 When passed something else, output the necessary commands to change
936 line to LINE and offset to FILE_NAME. */
937 static void
938 output_location (char const *file_name, int line,
939 gcov_position_t *offset, basic_block bb)
941 static char const *prev_file_name;
942 static int prev_line;
943 bool name_differs, line_differs;
945 if (!file_name)
947 prev_file_name = NULL;
948 prev_line = -1;
949 return;
952 name_differs = !prev_file_name || filename_cmp (file_name, prev_file_name);
953 line_differs = prev_line != line;
955 if (name_differs || line_differs)
957 if (!*offset)
959 *offset = gcov_write_tag (GCOV_TAG_LINES);
960 gcov_write_unsigned (bb->index);
961 name_differs = line_differs=true;
964 /* If this is a new source file, then output the
965 file's name to the .bb file. */
966 if (name_differs)
968 prev_file_name = file_name;
969 gcov_write_unsigned (0);
970 gcov_write_string (prev_file_name);
972 if (line_differs)
974 gcov_write_unsigned (line);
975 prev_line = line;
980 /* Instrument and/or analyze program behavior based on program the CFG.
982 This function creates a representation of the control flow graph (of
983 the function being compiled) that is suitable for the instrumentation
984 of edges and/or converting measured edge counts to counts on the
985 complete CFG.
987 When FLAG_PROFILE_ARCS is nonzero, this function instruments the edges in
988 the flow graph that are needed to reconstruct the dynamic behavior of the
989 flow graph. This data is written to the gcno file for gcov.
991 When FLAG_BRANCH_PROBABILITIES is nonzero, this function reads auxiliary
992 information from the gcda file containing edge count information from
993 previous executions of the function being compiled. In this case, the
994 control flow graph is annotated with actual execution counts by
995 compute_branch_probabilities().
997 Main entry point of this file. */
999 void
1000 branch_prob (void)
1002 basic_block bb;
1003 unsigned i;
1004 unsigned num_edges, ignored_edges;
1005 unsigned num_instrumented;
1006 struct edge_list *el;
1007 histogram_values values = histogram_values ();
1008 unsigned cfg_checksum, lineno_checksum;
1010 total_num_times_called++;
1012 flow_call_edges_add (NULL);
1013 add_noreturn_fake_exit_edges ();
1015 /* We can't handle cyclic regions constructed using abnormal edges.
1016 To avoid these we replace every source of abnormal edge by a fake
1017 edge from entry node and every destination by fake edge to exit.
1018 This keeps graph acyclic and our calculation exact for all normal
1019 edges except for exit and entrance ones.
1021 We also add fake exit edges for each call and asm statement in the
1022 basic, since it may not return. */
1024 FOR_EACH_BB_FN (bb, cfun)
1026 int need_exit_edge = 0, need_entry_edge = 0;
1027 int have_exit_edge = 0, have_entry_edge = 0;
1028 edge e;
1029 edge_iterator ei;
1031 /* Functions returning multiple times are not handled by extra edges.
1032 Instead we simply allow negative counts on edges from exit to the
1033 block past call and corresponding probabilities. We can't go
1034 with the extra edges because that would result in flowgraph that
1035 needs to have fake edges outside the spanning tree. */
1037 FOR_EACH_EDGE (e, ei, bb->succs)
1039 gimple_stmt_iterator gsi;
1040 gimple last = NULL;
1042 /* It may happen that there are compiler generated statements
1043 without a locus at all. Go through the basic block from the
1044 last to the first statement looking for a locus. */
1045 for (gsi = gsi_last_nondebug_bb (bb);
1046 !gsi_end_p (gsi);
1047 gsi_prev_nondebug (&gsi))
1049 last = gsi_stmt (gsi);
1050 if (gimple_has_location (last))
1051 break;
1054 /* Edge with goto locus might get wrong coverage info unless
1055 it is the only edge out of BB.
1056 Don't do that when the locuses match, so
1057 if (blah) goto something;
1058 is not computed twice. */
1059 if (last
1060 && gimple_has_location (last)
1061 && LOCATION_LOCUS (e->goto_locus) != UNKNOWN_LOCATION
1062 && !single_succ_p (bb)
1063 && (LOCATION_FILE (e->goto_locus)
1064 != LOCATION_FILE (gimple_location (last))
1065 || (LOCATION_LINE (e->goto_locus)
1066 != LOCATION_LINE (gimple_location (last)))))
1068 basic_block new_bb = split_edge (e);
1069 edge ne = single_succ_edge (new_bb);
1070 ne->goto_locus = e->goto_locus;
1072 if ((e->flags & (EDGE_ABNORMAL | EDGE_ABNORMAL_CALL))
1073 && e->dest != EXIT_BLOCK_PTR_FOR_FN (cfun))
1074 need_exit_edge = 1;
1075 if (e->dest == EXIT_BLOCK_PTR_FOR_FN (cfun))
1076 have_exit_edge = 1;
1078 FOR_EACH_EDGE (e, ei, bb->preds)
1080 if ((e->flags & (EDGE_ABNORMAL | EDGE_ABNORMAL_CALL))
1081 && e->src != ENTRY_BLOCK_PTR_FOR_FN (cfun))
1082 need_entry_edge = 1;
1083 if (e->src == ENTRY_BLOCK_PTR_FOR_FN (cfun))
1084 have_entry_edge = 1;
1087 if (need_exit_edge && !have_exit_edge)
1089 if (dump_file)
1090 fprintf (dump_file, "Adding fake exit edge to bb %i\n",
1091 bb->index);
1092 make_edge (bb, EXIT_BLOCK_PTR_FOR_FN (cfun), EDGE_FAKE);
1094 if (need_entry_edge && !have_entry_edge)
1096 if (dump_file)
1097 fprintf (dump_file, "Adding fake entry edge to bb %i\n",
1098 bb->index);
1099 make_edge (ENTRY_BLOCK_PTR_FOR_FN (cfun), bb, EDGE_FAKE);
1100 /* Avoid bbs that have both fake entry edge and also some
1101 exit edge. One of those edges wouldn't be added to the
1102 spanning tree, but we can't instrument any of them. */
1103 if (have_exit_edge || need_exit_edge)
1105 gimple_stmt_iterator gsi;
1106 gimple first;
1107 tree fndecl;
1109 gsi = gsi_after_labels (bb);
1110 gcc_checking_assert (!gsi_end_p (gsi));
1111 first = gsi_stmt (gsi);
1112 if (is_gimple_debug (first))
1114 gsi_next_nondebug (&gsi);
1115 gcc_checking_assert (!gsi_end_p (gsi));
1116 first = gsi_stmt (gsi);
1118 /* Don't split the bbs containing __builtin_setjmp_receiver
1119 or __builtin_setjmp_dispatcher calls. These are very
1120 special and don't expect anything to be inserted before
1121 them. */
1122 if (is_gimple_call (first)
1123 && (((fndecl = gimple_call_fndecl (first)) != NULL
1124 && DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_NORMAL
1125 && (DECL_FUNCTION_CODE (fndecl)
1126 == BUILT_IN_SETJMP_RECEIVER
1127 || (DECL_FUNCTION_CODE (fndecl)
1128 == BUILT_IN_SETJMP_DISPATCHER)))
1129 || gimple_call_flags (first) & ECF_RETURNS_TWICE))
1130 continue;
1132 if (dump_file)
1133 fprintf (dump_file, "Splitting bb %i after labels\n",
1134 bb->index);
1135 split_block_after_labels (bb);
1140 el = create_edge_list ();
1141 num_edges = NUM_EDGES (el);
1142 alloc_aux_for_edges (sizeof (struct edge_info));
1144 /* The basic blocks are expected to be numbered sequentially. */
1145 compact_blocks ();
1147 ignored_edges = 0;
1148 for (i = 0 ; i < num_edges ; i++)
1150 edge e = INDEX_EDGE (el, i);
1151 e->count = 0;
1153 /* Mark edges we've replaced by fake edges above as ignored. */
1154 if ((e->flags & (EDGE_ABNORMAL | EDGE_ABNORMAL_CALL))
1155 && e->src != ENTRY_BLOCK_PTR_FOR_FN (cfun)
1156 && e->dest != EXIT_BLOCK_PTR_FOR_FN (cfun))
1158 EDGE_INFO (e)->ignore = 1;
1159 ignored_edges++;
1163 /* Create spanning tree from basic block graph, mark each edge that is
1164 on the spanning tree. We insert as many abnormal and critical edges
1165 as possible to minimize number of edge splits necessary. */
1167 find_spanning_tree (el);
1169 /* Fake edges that are not on the tree will not be instrumented, so
1170 mark them ignored. */
1171 for (num_instrumented = i = 0; i < num_edges; i++)
1173 edge e = INDEX_EDGE (el, i);
1174 struct edge_info *inf = EDGE_INFO (e);
1176 if (inf->ignore || inf->on_tree)
1177 /*NOP*/;
1178 else if (e->flags & EDGE_FAKE)
1180 inf->ignore = 1;
1181 ignored_edges++;
1183 else
1184 num_instrumented++;
1187 total_num_blocks += n_basic_blocks_for_fn (cfun);
1188 if (dump_file)
1189 fprintf (dump_file, "%d basic blocks\n", n_basic_blocks_for_fn (cfun));
1191 total_num_edges += num_edges;
1192 if (dump_file)
1193 fprintf (dump_file, "%d edges\n", num_edges);
1195 total_num_edges_ignored += ignored_edges;
1196 if (dump_file)
1197 fprintf (dump_file, "%d ignored edges\n", ignored_edges);
1199 total_num_edges_instrumented += num_instrumented;
1200 if (dump_file)
1201 fprintf (dump_file, "%d instrumentation edges\n", num_instrumented);
1203 /* Compute two different checksums. Note that we want to compute
1204 the checksum in only once place, since it depends on the shape
1205 of the control flow which can change during
1206 various transformations. */
1207 cfg_checksum = coverage_compute_cfg_checksum ();
1208 lineno_checksum = coverage_compute_lineno_checksum ();
1210 /* Write the data from which gcov can reconstruct the basic block
1211 graph and function line numbers (the gcno file). */
1212 if (coverage_begin_function (lineno_checksum, cfg_checksum))
1214 gcov_position_t offset;
1216 /* Basic block flags */
1217 offset = gcov_write_tag (GCOV_TAG_BLOCKS);
1218 for (i = 0; i != (unsigned) (n_basic_blocks_for_fn (cfun)); i++)
1219 gcov_write_unsigned (0);
1220 gcov_write_length (offset);
1222 /* Arcs */
1223 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun),
1224 EXIT_BLOCK_PTR_FOR_FN (cfun), next_bb)
1226 edge e;
1227 edge_iterator ei;
1229 offset = gcov_write_tag (GCOV_TAG_ARCS);
1230 gcov_write_unsigned (bb->index);
1232 FOR_EACH_EDGE (e, ei, bb->succs)
1234 struct edge_info *i = EDGE_INFO (e);
1235 if (!i->ignore)
1237 unsigned flag_bits = 0;
1239 if (i->on_tree)
1240 flag_bits |= GCOV_ARC_ON_TREE;
1241 if (e->flags & EDGE_FAKE)
1242 flag_bits |= GCOV_ARC_FAKE;
1243 if (e->flags & EDGE_FALLTHRU)
1244 flag_bits |= GCOV_ARC_FALLTHROUGH;
1245 /* On trees we don't have fallthru flags, but we can
1246 recompute them from CFG shape. */
1247 if (e->flags & (EDGE_TRUE_VALUE | EDGE_FALSE_VALUE)
1248 && e->src->next_bb == e->dest)
1249 flag_bits |= GCOV_ARC_FALLTHROUGH;
1251 gcov_write_unsigned (e->dest->index);
1252 gcov_write_unsigned (flag_bits);
1256 gcov_write_length (offset);
1259 /* Line numbers. */
1260 /* Initialize the output. */
1261 output_location (NULL, 0, NULL, NULL);
1263 FOR_EACH_BB_FN (bb, cfun)
1265 gimple_stmt_iterator gsi;
1266 gcov_position_t offset = 0;
1268 if (bb == ENTRY_BLOCK_PTR_FOR_FN (cfun)->next_bb)
1270 expanded_location curr_location =
1271 expand_location (DECL_SOURCE_LOCATION (current_function_decl));
1272 output_location (curr_location.file, curr_location.line,
1273 &offset, bb);
1276 for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
1278 gimple stmt = gsi_stmt (gsi);
1279 if (gimple_has_location (stmt))
1280 output_location (gimple_filename (stmt), gimple_lineno (stmt),
1281 &offset, bb);
1284 /* Notice GOTO expressions eliminated while constructing the CFG. */
1285 if (single_succ_p (bb)
1286 && LOCATION_LOCUS (single_succ_edge (bb)->goto_locus)
1287 != UNKNOWN_LOCATION)
1289 expanded_location curr_location
1290 = expand_location (single_succ_edge (bb)->goto_locus);
1291 output_location (curr_location.file, curr_location.line,
1292 &offset, bb);
1295 if (offset)
1297 /* A file of NULL indicates the end of run. */
1298 gcov_write_unsigned (0);
1299 gcov_write_string (NULL);
1300 gcov_write_length (offset);
1305 if (flag_profile_values)
1306 gimple_find_values_to_profile (&values);
1308 if (flag_branch_probabilities)
1310 compute_branch_probabilities (cfg_checksum, lineno_checksum);
1311 if (flag_profile_values)
1312 compute_value_histograms (values, cfg_checksum, lineno_checksum);
1315 remove_fake_edges ();
1317 /* For each edge not on the spanning tree, add counting code. */
1318 if (profile_arc_flag
1319 && coverage_counter_alloc (GCOV_COUNTER_ARCS, num_instrumented))
1321 unsigned n_instrumented;
1323 gimple_init_edge_profiler ();
1325 n_instrumented = instrument_edges (el);
1327 gcc_assert (n_instrumented == num_instrumented);
1329 if (flag_profile_values)
1330 instrument_values (values);
1332 /* Commit changes done by instrumentation. */
1333 gsi_commit_edge_inserts ();
1336 free_aux_for_edges ();
1338 values.release ();
1339 free_edge_list (el);
1340 coverage_end_function (lineno_checksum, cfg_checksum);
1343 /* Union find algorithm implementation for the basic blocks using
1344 aux fields. */
1346 static basic_block
1347 find_group (basic_block bb)
1349 basic_block group = bb, bb1;
1351 while ((basic_block) group->aux != group)
1352 group = (basic_block) group->aux;
1354 /* Compress path. */
1355 while ((basic_block) bb->aux != group)
1357 bb1 = (basic_block) bb->aux;
1358 bb->aux = (void *) group;
1359 bb = bb1;
1361 return group;
1364 static void
1365 union_groups (basic_block bb1, basic_block bb2)
1367 basic_block bb1g = find_group (bb1);
1368 basic_block bb2g = find_group (bb2);
1370 /* ??? I don't have a place for the rank field. OK. Lets go w/o it,
1371 this code is unlikely going to be performance problem anyway. */
1372 gcc_assert (bb1g != bb2g);
1374 bb1g->aux = bb2g;
1377 /* This function searches all of the edges in the program flow graph, and puts
1378 as many bad edges as possible onto the spanning tree. Bad edges include
1379 abnormals edges, which can't be instrumented at the moment. Since it is
1380 possible for fake edges to form a cycle, we will have to develop some
1381 better way in the future. Also put critical edges to the tree, since they
1382 are more expensive to instrument. */
1384 static void
1385 find_spanning_tree (struct edge_list *el)
1387 int i;
1388 int num_edges = NUM_EDGES (el);
1389 basic_block bb;
1391 /* We use aux field for standard union-find algorithm. */
1392 FOR_BB_BETWEEN (bb, ENTRY_BLOCK_PTR_FOR_FN (cfun), NULL, next_bb)
1393 bb->aux = bb;
1395 /* Add fake edge exit to entry we can't instrument. */
1396 union_groups (EXIT_BLOCK_PTR_FOR_FN (cfun), ENTRY_BLOCK_PTR_FOR_FN (cfun));
1398 /* First add all abnormal edges to the tree unless they form a cycle. Also
1399 add all edges to the exit block to avoid inserting profiling code behind
1400 setting return value from function. */
1401 for (i = 0; i < num_edges; i++)
1403 edge e = INDEX_EDGE (el, i);
1404 if (((e->flags & (EDGE_ABNORMAL | EDGE_ABNORMAL_CALL | EDGE_FAKE))
1405 || e->dest == EXIT_BLOCK_PTR_FOR_FN (cfun))
1406 && !EDGE_INFO (e)->ignore
1407 && (find_group (e->src) != find_group (e->dest)))
1409 if (dump_file)
1410 fprintf (dump_file, "Abnormal edge %d to %d put to tree\n",
1411 e->src->index, e->dest->index);
1412 EDGE_INFO (e)->on_tree = 1;
1413 union_groups (e->src, e->dest);
1417 /* Now insert all critical edges to the tree unless they form a cycle. */
1418 for (i = 0; i < num_edges; i++)
1420 edge e = INDEX_EDGE (el, i);
1421 if (EDGE_CRITICAL_P (e) && !EDGE_INFO (e)->ignore
1422 && find_group (e->src) != find_group (e->dest))
1424 if (dump_file)
1425 fprintf (dump_file, "Critical edge %d to %d put to tree\n",
1426 e->src->index, e->dest->index);
1427 EDGE_INFO (e)->on_tree = 1;
1428 union_groups (e->src, e->dest);
1432 /* And now the rest. */
1433 for (i = 0; i < num_edges; i++)
1435 edge e = INDEX_EDGE (el, i);
1436 if (!EDGE_INFO (e)->ignore
1437 && find_group (e->src) != find_group (e->dest))
1439 if (dump_file)
1440 fprintf (dump_file, "Normal edge %d to %d put to tree\n",
1441 e->src->index, e->dest->index);
1442 EDGE_INFO (e)->on_tree = 1;
1443 union_groups (e->src, e->dest);
1447 clear_aux_for_blocks ();
1450 /* Perform file-level initialization for branch-prob processing. */
1452 void
1453 init_branch_prob (void)
1455 int i;
1457 total_num_blocks = 0;
1458 total_num_edges = 0;
1459 total_num_edges_ignored = 0;
1460 total_num_edges_instrumented = 0;
1461 total_num_blocks_created = 0;
1462 total_num_passes = 0;
1463 total_num_times_called = 0;
1464 total_num_branches = 0;
1465 for (i = 0; i < 20; i++)
1466 total_hist_br_prob[i] = 0;
1469 /* Performs file-level cleanup after branch-prob processing
1470 is completed. */
1472 void
1473 end_branch_prob (void)
1475 if (dump_file)
1477 fprintf (dump_file, "\n");
1478 fprintf (dump_file, "Total number of blocks: %d\n",
1479 total_num_blocks);
1480 fprintf (dump_file, "Total number of edges: %d\n", total_num_edges);
1481 fprintf (dump_file, "Total number of ignored edges: %d\n",
1482 total_num_edges_ignored);
1483 fprintf (dump_file, "Total number of instrumented edges: %d\n",
1484 total_num_edges_instrumented);
1485 fprintf (dump_file, "Total number of blocks created: %d\n",
1486 total_num_blocks_created);
1487 fprintf (dump_file, "Total number of graph solution passes: %d\n",
1488 total_num_passes);
1489 if (total_num_times_called != 0)
1490 fprintf (dump_file, "Average number of graph solution passes: %d\n",
1491 (total_num_passes + (total_num_times_called >> 1))
1492 / total_num_times_called);
1493 fprintf (dump_file, "Total number of branches: %d\n",
1494 total_num_branches);
1495 if (total_num_branches)
1497 int i;
1499 for (i = 0; i < 10; i++)
1500 fprintf (dump_file, "%d%% branches in range %d-%d%%\n",
1501 (total_hist_br_prob[i] + total_hist_br_prob[19-i]) * 100
1502 / total_num_branches, 5*i, 5*i+5);