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[/] [openrisc/] [trunk/] [gnu-old/] [binutils-2.18.50/] [gprof/] [cg_print.c] - Blame information for rev 868

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1 38 julius
/* cg_print.c -  Print routines for displaying call graphs.
2
 
3
   Copyright 2000, 2001, 2002, 2004, 2007 Free Software Foundation, Inc.
4
 
5
   This file is part of GNU Binutils.
6
 
7
   This program is free software; you can redistribute it and/or modify
8
   it under the terms of the GNU General Public License as published by
9
   the Free Software Foundation; either version 3 of the License, or
10
   (at your option) any later version.
11
 
12
   This program is distributed in the hope that it will be useful,
13
   but WITHOUT ANY WARRANTY; without even the implied warranty of
14
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15
   GNU General Public License for more details.
16
 
17
   You should have received a copy of the GNU General Public License
18
   along with this program; if not, write to the Free Software
19
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
20
   02110-1301, USA.  */
21
 
22
#include "libiberty.h"
23
#include "gprof.h"
24
#include "search_list.h"
25
#include "source.h"
26
#include "symtab.h"
27
#include "cg_arcs.h"
28
#include "cg_print.h"
29
#include "hist.h"
30
#include "utils.h"
31
#include "corefile.h"
32
 
33
/* Return value of comparison functions used to sort tables.  */
34
#define LESSTHAN        -1
35
#define EQUALTO         0
36
#define GREATERTHAN     1
37
 
38
static void print_header (void);
39
static void print_cycle (Sym *);
40
static int cmp_member (Sym *, Sym *);
41
static void sort_members (Sym *);
42
static void print_members (Sym *);
43
static int cmp_arc (Arc *, Arc *);
44
static void sort_parents (Sym *);
45
static void print_parents (Sym *);
46
static void sort_children (Sym *);
47
static void print_children (Sym *);
48
static void print_line (Sym *);
49
static int cmp_name (const PTR, const PTR);
50
static int cmp_arc_count (const PTR, const PTR);
51
static int cmp_fun_nuses (const PTR, const PTR);
52
static void order_and_dump_functions_by_arcs
53
  (Arc **, unsigned long, int, Arc **, unsigned long *);
54
 
55
/* Declarations of automatically generated functions to output blurbs.  */
56
extern void bsd_callg_blurb (FILE * fp);
57
extern void fsf_callg_blurb (FILE * fp);
58
 
59
double print_time = 0.0;
60
 
61
 
62
static void
63
print_header ()
64
{
65
  if (first_output)
66
    first_output = FALSE;
67
  else
68
    printf ("\f\n");
69
 
70
  if (!bsd_style_output)
71
    {
72
      if (print_descriptions)
73
        printf (_("\t\t     Call graph (explanation follows)\n\n"));
74
      else
75
        printf (_("\t\t\tCall graph\n\n"));
76
    }
77
 
78
  printf (_("\ngranularity: each sample hit covers %ld byte(s)"),
79
          (long) hist_scale * (long) sizeof (UNIT));
80
 
81
  if (print_time > 0.0)
82
    printf (_(" for %.2f%% of %.2f seconds\n\n"),
83
            100.0 / print_time, print_time / hz);
84
  else
85
    {
86
      printf (_(" no time propagated\n\n"));
87
 
88
      /* This doesn't hurt, since all the numerators will be 0.0.  */
89
      print_time = 1.0;
90
    }
91
 
92
  if (bsd_style_output)
93
    {
94
      printf ("%6.6s %5.5s %7.7s %11.11s %7.7s/%-7.7s     %-8.8s\n",
95
              "", "", "", "", _("called"), _("total"), _("parents"));
96
      printf ("%-6.6s %5.5s %7.7s %11.11s %7.7s+%-7.7s %-8.8s\t%5.5s\n",
97
              _("index"), _("%time"), _("self"), _("descendants"),
98
              _("called"), _("self"), _("name"), _("index"));
99
      printf ("%6.6s %5.5s %7.7s %11.11s %7.7s/%-7.7s     %-8.8s\n",
100
              "", "", "", "", _("called"), _("total"), _("children"));
101
      printf ("\n");
102
    }
103
  else
104
    {
105
      printf (_("index %% time    self  children    called     name\n"));
106
    }
107
}
108
 
109
/* Print a cycle header.  */
110
 
111
static void
112
print_cycle (Sym *cyc)
113
{
114
  char buf[BUFSIZ];
115
 
116
  sprintf (buf, "[%d]", cyc->cg.index);
117
  printf (bsd_style_output
118
          ? "%-6.6s %5.1f %7.2f %11.2f %7lu"
119
          : "%-6.6s %5.1f %7.2f %7.2f %7lu", buf,
120
          100 * (cyc->cg.prop.self + cyc->cg.prop.child) / print_time,
121
          cyc->cg.prop.self / hz, cyc->cg.prop.child / hz, cyc->ncalls);
122
 
123
  if (cyc->cg.self_calls != 0)
124
    printf ("+%-7lu", cyc->cg.self_calls);
125
  else
126
    printf (" %7.7s", "");
127
 
128
  printf (_(" <cycle %d as a whole> [%d]\n"), cyc->cg.cyc.num, cyc->cg.index);
129
}
130
 
131
/* Compare LEFT and RIGHT membmer.  Major comparison key is
132
   CG.PROP.SELF+CG.PROP.CHILD, secondary key is NCALLS+CG.SELF_CALLS.  */
133
 
134
static int
135
cmp_member (Sym *left, Sym *right)
136
{
137
  double left_time = left->cg.prop.self + left->cg.prop.child;
138
  double right_time = right->cg.prop.self + right->cg.prop.child;
139
  unsigned long left_calls = left->ncalls + left->cg.self_calls;
140
  unsigned long right_calls = right->ncalls + right->cg.self_calls;
141
 
142
  if (left_time > right_time)
143
    return GREATERTHAN;
144
 
145
  if (left_time < right_time)
146
    return LESSTHAN;
147
 
148
  if (left_calls > right_calls)
149
    return GREATERTHAN;
150
 
151
  if (left_calls < right_calls)
152
    return LESSTHAN;
153
 
154
  return EQUALTO;
155
}
156
 
157
/* Sort members of a cycle.  */
158
 
159
static void
160
sort_members (Sym *cyc)
161
{
162
  Sym *todo, *doing, *prev;
163
 
164
  /* Detach cycle members from cyclehead,
165
     and insertion sort them back on.  */
166
  todo = cyc->cg.cyc.next;
167
  cyc->cg.cyc.next = 0;
168
 
169
  for (doing = todo; doing != NULL; doing = todo)
170
    {
171
      todo = doing->cg.cyc.next;
172
 
173
      for (prev = cyc; prev->cg.cyc.next; prev = prev->cg.cyc.next)
174
        {
175
          if (cmp_member (doing, prev->cg.cyc.next) == GREATERTHAN)
176
            break;
177
        }
178
 
179
      doing->cg.cyc.next = prev->cg.cyc.next;
180
      prev->cg.cyc.next = doing;
181
    }
182
}
183
 
184
/* Print the members of a cycle.  */
185
 
186
static void
187
print_members (Sym *cyc)
188
{
189
  Sym *member;
190
 
191
  sort_members (cyc);
192
 
193
  for (member = cyc->cg.cyc.next; member; member = member->cg.cyc.next)
194
    {
195
      printf (bsd_style_output
196
              ? "%6.6s %5.5s %7.2f %11.2f %7lu"
197
              : "%6.6s %5.5s %7.2f %7.2f %7lu",
198
              "", "", member->cg.prop.self / hz, member->cg.prop.child / hz,
199
              member->ncalls);
200
 
201
      if (member->cg.self_calls != 0)
202
        printf ("+%-7lu", member->cg.self_calls);
203
      else
204
        printf (" %7.7s", "");
205
 
206
      printf ("     ");
207
      print_name (member);
208
      printf ("\n");
209
    }
210
}
211
 
212
/* Compare two arcs to/from the same child/parent.
213
        - if one arc is a self arc, it's least.
214
        - if one arc is within a cycle, it's less than.
215
        - if both arcs are within a cycle, compare arc counts.
216
        - if neither arc is within a cycle, compare with
217
                time + child_time as major key
218
                arc count as minor key.  */
219
 
220
static int
221
cmp_arc (Arc *left, Arc *right)
222
{
223
  Sym *left_parent = left->parent;
224
  Sym *left_child = left->child;
225
  Sym *right_parent = right->parent;
226
  Sym *right_child = right->child;
227
  double left_time, right_time;
228
 
229
  DBG (TIMEDEBUG,
230
       printf ("[cmp_arc] ");
231
       print_name (left_parent);
232
       printf (" calls ");
233
       print_name (left_child);
234
       printf (" %f + %f %lu/%lu\n", left->time, left->child_time,
235
               left->count, left_child->ncalls);
236
       printf ("[cmp_arc] ");
237
       print_name (right_parent);
238
       printf (" calls ");
239
       print_name (right_child);
240
       printf (" %f + %f %lu/%lu\n", right->time, right->child_time,
241
               right->count, right_child->ncalls);
242
       printf ("\n");
243
    );
244
 
245
  if (left_parent == left_child)
246
    return LESSTHAN;            /* Left is a self call.  */
247
 
248
  if (right_parent == right_child)
249
    return GREATERTHAN;         /* Right is a self call.  */
250
 
251
  if (left_parent->cg.cyc.num != 0 && left_child->cg.cyc.num != 0
252
      && left_parent->cg.cyc.num == left_child->cg.cyc.num)
253
    {
254
      /* Left is a call within a cycle.  */
255
      if (right_parent->cg.cyc.num != 0 && right_child->cg.cyc.num != 0
256
          && right_parent->cg.cyc.num == right_child->cg.cyc.num)
257
        {
258
          /* Right is a call within the cycle, too.  */
259
          if (left->count < right->count)
260
            return LESSTHAN;
261
 
262
          if (left->count > right->count)
263
            return GREATERTHAN;
264
 
265
          return EQUALTO;
266
        }
267
      else
268
        {
269
          /* Right isn't a call within the cycle.  */
270
          return LESSTHAN;
271
        }
272
    }
273
  else
274
    {
275
      /* Left isn't a call within a cycle.  */
276
      if (right_parent->cg.cyc.num != 0 && right_child->cg.cyc.num != 0
277
          && right_parent->cg.cyc.num == right_child->cg.cyc.num)
278
        {
279
          /* Right is a call within a cycle.  */
280
          return GREATERTHAN;
281
        }
282
      else
283
        {
284
          /* Neither is a call within a cycle.  */
285
          left_time = left->time + left->child_time;
286
          right_time = right->time + right->child_time;
287
 
288
          if (left_time < right_time)
289
            return LESSTHAN;
290
 
291
          if (left_time > right_time)
292
            return GREATERTHAN;
293
 
294
          if (left->count < right->count)
295
            return LESSTHAN;
296
 
297
          if (left->count > right->count)
298
            return GREATERTHAN;
299
 
300
          return EQUALTO;
301
        }
302
    }
303
}
304
 
305
 
306
static void
307
sort_parents (Sym * child)
308
{
309
  Arc *arc, *detached, sorted, *prev;
310
 
311
  /* Unlink parents from child, then insertion sort back on to
312
     sorted's parents.
313
          *arc        the arc you have detached and are inserting.
314
          *detached   the rest of the arcs to be sorted.
315
          sorted      arc list onto which you insertion sort.
316
          *prev       arc before the arc you are comparing.  */
317
  sorted.next_parent = 0;
318
 
319
  for (arc = child->cg.parents; arc; arc = detached)
320
    {
321
      detached = arc->next_parent;
322
 
323
      /* Consider *arc as disconnected; insert it into sorted.  */
324
      for (prev = &sorted; prev->next_parent; prev = prev->next_parent)
325
        {
326
          if (cmp_arc (arc, prev->next_parent) != GREATERTHAN)
327
            break;
328
        }
329
 
330
      arc->next_parent = prev->next_parent;
331
      prev->next_parent = arc;
332
    }
333
 
334
  /* Reattach sorted arcs to child.  */
335
  child->cg.parents = sorted.next_parent;
336
}
337
 
338
 
339
static void
340
print_parents (Sym *child)
341
{
342
  Sym *parent;
343
  Arc *arc;
344
  Sym *cycle_head;
345
 
346
  if (child->cg.cyc.head != 0)
347
    cycle_head = child->cg.cyc.head;
348
  else
349
    cycle_head = child;
350
 
351
  if (!child->cg.parents)
352
    {
353
      printf (bsd_style_output
354
              ? _("%6.6s %5.5s %7.7s %11.11s %7.7s %7.7s     <spontaneous>\n")
355
              : _("%6.6s %5.5s %7.7s %7.7s %7.7s %7.7s     <spontaneous>\n"),
356
              "", "", "", "", "", "");
357
      return;
358
    }
359
 
360
  sort_parents (child);
361
 
362
  for (arc = child->cg.parents; arc; arc = arc->next_parent)
363
    {
364
      parent = arc->parent;
365
      if (child == parent || (child->cg.cyc.num != 0
366
                              && parent->cg.cyc.num == child->cg.cyc.num))
367
        {
368
          /* Selfcall or call among siblings.  */
369
          printf (bsd_style_output
370
                  ? "%6.6s %5.5s %7.7s %11.11s %7lu %7.7s     "
371
                  : "%6.6s %5.5s %7.7s %7.7s %7lu %7.7s     ",
372
                  "", "", "", "",
373
                  arc->count, "");
374
          print_name (parent);
375
          printf ("\n");
376
        }
377
      else
378
        {
379
          /* Regular parent of child.  */
380
          printf (bsd_style_output
381
                  ? "%6.6s %5.5s %7.2f %11.2f %7lu/%-7lu     "
382
                  : "%6.6s %5.5s %7.2f %7.2f %7lu/%-7lu     ",
383
                  "", "",
384
                  arc->time / hz, arc->child_time / hz,
385
                  arc->count, cycle_head->ncalls);
386
          print_name (parent);
387
          printf ("\n");
388
        }
389
    }
390
}
391
 
392
 
393
static void
394
sort_children (Sym *parent)
395
{
396
  Arc *arc, *detached, sorted, *prev;
397
 
398
  /* Unlink children from parent, then insertion sort back on to
399
     sorted's children.
400
          *arc        the arc you have detached and are inserting.
401
          *detached   the rest of the arcs to be sorted.
402
          sorted      arc list onto which you insertion sort.
403
          *prev       arc before the arc you are comparing.  */
404
  sorted.next_child = 0;
405
 
406
  for (arc = parent->cg.children; arc; arc = detached)
407
    {
408
      detached = arc->next_child;
409
 
410
      /* Consider *arc as disconnected; insert it into sorted.  */
411
      for (prev = &sorted; prev->next_child; prev = prev->next_child)
412
        {
413
          if (cmp_arc (arc, prev->next_child) != LESSTHAN)
414
            break;
415
        }
416
 
417
      arc->next_child = prev->next_child;
418
      prev->next_child = arc;
419
    }
420
 
421
  /* Reattach sorted children to parent.  */
422
  parent->cg.children = sorted.next_child;
423
}
424
 
425
 
426
static void
427
print_children (Sym *parent)
428
{
429
  Sym *child;
430
  Arc *arc;
431
 
432
  sort_children (parent);
433
  arc = parent->cg.children;
434
 
435
  for (arc = parent->cg.children; arc; arc = arc->next_child)
436
    {
437
      child = arc->child;
438
      if (child == parent || (child->cg.cyc.num != 0
439
                              && child->cg.cyc.num == parent->cg.cyc.num))
440
        {
441
          /* Self call or call to sibling.  */
442
          printf (bsd_style_output
443
                  ? "%6.6s %5.5s %7.7s %11.11s %7lu %7.7s     "
444
                  : "%6.6s %5.5s %7.7s %7.7s %7lu %7.7s     ",
445
                  "", "", "", "", arc->count, "");
446
          print_name (child);
447
          printf ("\n");
448
        }
449
      else
450
        {
451
          /* Regular child of parent.  */
452
          printf (bsd_style_output
453
                  ? "%6.6s %5.5s %7.2f %11.2f %7lu/%-7lu     "
454
                  : "%6.6s %5.5s %7.2f %7.2f %7lu/%-7lu     ",
455
                  "", "",
456
                  arc->time / hz, arc->child_time / hz,
457
                  arc->count, child->cg.cyc.head->ncalls);
458
          print_name (child);
459
          printf ("\n");
460
        }
461
    }
462
}
463
 
464
 
465
static void
466
print_line (Sym *np)
467
{
468
  char buf[BUFSIZ];
469
 
470
  sprintf (buf, "[%d]", np->cg.index);
471
  printf (bsd_style_output
472
          ? "%-6.6s %5.1f %7.2f %11.2f"
473
          : "%-6.6s %5.1f %7.2f %7.2f", buf,
474
          100 * (np->cg.prop.self + np->cg.prop.child) / print_time,
475
          np->cg.prop.self / hz, np->cg.prop.child / hz);
476
 
477
  if ((np->ncalls + np->cg.self_calls) != 0)
478
    {
479
      printf (" %7lu", np->ncalls);
480
 
481
      if (np->cg.self_calls != 0)
482
          printf ("+%-7lu ", np->cg.self_calls);
483
      else
484
          printf (" %7.7s ", "");
485
    }
486
  else
487
    {
488
      printf (" %7.7s %7.7s ", "", "");
489
    }
490
 
491
  print_name (np);
492
  printf ("\n");
493
}
494
 
495
 
496
/* Print dynamic call graph.  */
497
 
498
void
499
cg_print (Sym ** timesortsym)
500
{
501
  unsigned int index;
502
  Sym *parent;
503
 
504
  if (print_descriptions && bsd_style_output)
505
    bsd_callg_blurb (stdout);
506
 
507
  print_header ();
508
 
509
  for (index = 0; index < symtab.len + num_cycles; ++index)
510
    {
511
      parent = timesortsym[index];
512
 
513
      if ((ignore_zeros && parent->ncalls == 0
514
           && parent->cg.self_calls == 0 && parent->cg.prop.self == 0
515
           && parent->cg.prop.child == 0)
516
          || !parent->cg.print_flag
517
          || (line_granularity && ! parent->is_func))
518
        continue;
519
 
520
      if (!parent->name && parent->cg.cyc.num != 0)
521
        {
522
          /* Cycle header.  */
523
          print_cycle (parent);
524
          print_members (parent);
525
        }
526
      else
527
        {
528
          print_parents (parent);
529
          print_line (parent);
530
          print_children (parent);
531
        }
532
 
533
      if (bsd_style_output)
534
        printf ("\n");
535
 
536
      printf ("-----------------------------------------------\n");
537
 
538
      if (bsd_style_output)
539
        printf ("\n");
540
    }
541
 
542
  free (timesortsym);
543
 
544
  if (print_descriptions && !bsd_style_output)
545
    fsf_callg_blurb (stdout);
546
}
547
 
548
 
549
static int
550
cmp_name (const PTR left, const PTR right)
551
{
552
  const Sym **npp1 = (const Sym **) left;
553
  const Sym **npp2 = (const Sym **) right;
554
 
555
  return strcmp ((*npp1)->name, (*npp2)->name);
556
}
557
 
558
 
559
void
560
cg_print_index ()
561
{
562
  unsigned int index;
563
  unsigned int nnames, todo, i, j;
564
  int col, starting_col;
565
  Sym **name_sorted_syms, *sym;
566
  const char *filename;
567
  char buf[20];
568
  int column_width = (output_width - 1) / 3;    /* Don't write in last col!  */
569
 
570
  /* Now, sort regular function name
571
     alphabetically to create an index.  */
572
  name_sorted_syms = (Sym **) xmalloc ((symtab.len + num_cycles) * sizeof (Sym *));
573
 
574
  for (index = 0, nnames = 0; index < symtab.len; index++)
575
    {
576
      if (ignore_zeros && symtab.base[index].ncalls == 0
577
          && symtab.base[index].hist.time == 0)
578
        continue;
579
 
580
      name_sorted_syms[nnames++] = &symtab.base[index];
581
    }
582
 
583
  qsort (name_sorted_syms, nnames, sizeof (Sym *), cmp_name);
584
 
585
  for (index = 1, todo = nnames; index <= num_cycles; index++)
586
    name_sorted_syms[todo++] = &cycle_header[index];
587
 
588
  printf ("\f\n");
589
  printf (_("Index by function name\n\n"));
590
  index = (todo + 2) / 3;
591
 
592
  for (i = 0; i < index; i++)
593
    {
594
      col = 0;
595
      starting_col = 0;
596
 
597
      for (j = i; j < todo; j += index)
598
        {
599
          sym = name_sorted_syms[j];
600
 
601
          if (sym->cg.print_flag)
602
            sprintf (buf, "[%d]", sym->cg.index);
603
          else
604
            sprintf (buf, "(%d)", sym->cg.index);
605
 
606
          if (j < nnames)
607
            {
608
              if (bsd_style_output)
609
                {
610
                  printf ("%6.6s %-19.19s", buf, sym->name);
611
                }
612
              else
613
                {
614
                  col += strlen (buf);
615
 
616
                  for (; col < starting_col + 5; ++col)
617
                    putchar (' ');
618
 
619
                  printf (" %s ", buf);
620
                  col += print_name_only (sym);
621
 
622
                  if (!line_granularity && sym->is_static && sym->file)
623
                    {
624
                      filename = sym->file->name;
625
 
626
                      if (!print_path)
627
                        {
628
                          filename = strrchr (filename, '/');
629
 
630
                          if (filename)
631
                            ++filename;
632
                          else
633
                            filename = sym->file->name;
634
                        }
635
 
636
                      printf (" (%s)", filename);
637
                      col += strlen (filename) + 3;
638
                    }
639
                }
640
            }
641
          else
642
            {
643
              if (bsd_style_output)
644
                {
645
                  printf ("%6.6s ", buf);
646
                  sprintf (buf, _("<cycle %d>"), sym->cg.cyc.num);
647
                  printf ("%-19.19s", buf);
648
                }
649
              else
650
                {
651
                  col += strlen (buf);
652
                  for (; col < starting_col + 5; ++col)
653
                    putchar (' ');
654
                  printf (" %s ", buf);
655
                  sprintf (buf, _("<cycle %d>"), sym->cg.cyc.num);
656
                  printf ("%s", buf);
657
                  col += strlen (buf);
658
                }
659
            }
660
 
661
          starting_col += column_width;
662
        }
663
 
664
      printf ("\n");
665
    }
666
 
667
  free (name_sorted_syms);
668
}
669
 
670
/* Compare two arcs based on their usage counts.
671
   We want to sort in descending order.  */
672
 
673
static int
674
cmp_arc_count (const PTR left, const PTR right)
675
{
676
  const Arc **npp1 = (const Arc **) left;
677
  const Arc **npp2 = (const Arc **) right;
678
 
679
  if ((*npp1)->count > (*npp2)->count)
680
    return -1;
681
  else if ((*npp1)->count < (*npp2)->count)
682
    return 1;
683
  else
684
    return 0;
685
}
686
 
687
/* Compare two funtions based on their usage counts.
688
   We want to sort in descending order.  */
689
 
690
static int
691
cmp_fun_nuses (const PTR left, const PTR right)
692
{
693
  const Sym **npp1 = (const Sym **) left;
694
  const Sym **npp2 = (const Sym **) right;
695
 
696
  if ((*npp1)->nuses > (*npp2)->nuses)
697
    return -1;
698
  else if ((*npp1)->nuses < (*npp2)->nuses)
699
    return 1;
700
  else
701
    return 0;
702
}
703
 
704
/* Print a suggested function ordering based on the profiling data.
705
 
706
   We perform 4 major steps when ordering functions:
707
 
708
        * Group unused functions together and place them at the
709
        end of the function order.
710
 
711
        * Search the highest use arcs (those which account for 90% of
712
        the total arc count) for functions which have several parents.
713
 
714
        Group those with the most call sites together (currently the
715
        top 1.25% which have at least five different call sites).
716
 
717
        These are emitted at the start of the function order.
718
 
719
        * Use a greedy placement algorithm to place functions which
720
        occur in the top 99% of the arcs in the profile.  Some provisions
721
        are made to handle high usage arcs where the parent and/or
722
        child has already been placed.
723
 
724
        * Run the same greedy placement algorithm on the remaining
725
        arcs to place the leftover functions.
726
 
727
 
728
   The various "magic numbers" should (one day) be tuneable by command
729
   line options.  They were arrived at by benchmarking a few applications
730
   with various values to see which values produced better overall function
731
   orderings.
732
 
733
   Of course, profiling errors, machine limitations (PA long calls), and
734
   poor cutoff values for the placement algorithm may limit the usefullness
735
   of the resulting function order.  Improvements would be greatly appreciated.
736
 
737
   Suggestions:
738
 
739
        * Place the functions with many callers near the middle of the
740
        list to reduce long calls.
741
 
742
        * Propagate arc usage changes as functions are placed.  Ie if
743
        func1 and func2 are placed together, arcs to/from those arcs
744
        to the same parent/child should be combined, then resort the
745
        arcs to choose the next one.
746
 
747
        * Implement some global positioning algorithm to place the
748
        chains made by the greedy local positioning algorithm.  Probably
749
        by examining arcs which haven't been placed yet to tie two
750
        chains together.
751
 
752
        * Take a function's size and time into account in the algorithm;
753
        size in particular is important on the PA (long calls).  Placing
754
        many small functions onto their own page may be wise.
755
 
756
        * Use better profiling information; many published algorithms
757
        are based on call sequences through time, rather than just
758
        arc counts.
759
 
760
        * Prodecure cloning could improve performance when a small number
761
        of arcs account for most of the calls to a particular function.
762
 
763
        * Use relocation information to avoid moving unused functions
764
        completely out of the code stream; this would avoid severe lossage
765
        when the profile data bears little resemblance to actual runs.
766
 
767
        * Propagation of arc usages should also improve .o link line
768
        ordering which shares the same arc placement algorithm with
769
        the function ordering code (in fact it is a degenerate case
770
        of function ordering).  */
771
 
772
void
773
cg_print_function_ordering ()
774
{
775
  unsigned long index, used, unused, scratch_index;
776
  unsigned long  unplaced_arc_count, high_arc_count, scratch_arc_count;
777
#ifdef __GNUC__
778
  unsigned long long total_arcs, tmp_arcs_count;
779
#else
780
  unsigned long total_arcs, tmp_arcs_count;
781
#endif
782
  Sym **unused_syms, **used_syms, **scratch_syms;
783
  Arc **unplaced_arcs, **high_arcs, **scratch_arcs;
784
 
785
  index = 0;
786
  used = 0;
787
  unused = 0;
788
  scratch_index = 0;
789
  unplaced_arc_count = 0;
790
  high_arc_count = 0;
791
  scratch_arc_count = 0;
792
 
793
  /* First group all the unused functions together.  */
794
  unused_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
795
  used_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
796
  scratch_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
797
  high_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
798
  scratch_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
799
  unplaced_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
800
 
801
  /* Walk through all the functions; mark those which are never
802
     called as placed (we'll emit them as a group later).  */
803
  for (index = 0, used = 0, unused = 0; index < symtab.len; index++)
804
    {
805
      if (symtab.base[index].ncalls == 0)
806
        {
807
          /* Filter out gprof generated names.  */
808
          if (strcmp (symtab.base[index].name, "<locore>")
809
              && strcmp (symtab.base[index].name, "<hicore>"))
810
            {
811
              unused_syms[unused++] = &symtab.base[index];
812
              symtab.base[index].has_been_placed = 1;
813
            }
814
        }
815
      else
816
        {
817
          used_syms[used++] = &symtab.base[index];
818
          symtab.base[index].has_been_placed = 0;
819
          symtab.base[index].next = 0;
820
          symtab.base[index].prev = 0;
821
          symtab.base[index].nuses = 0;
822
        }
823
    }
824
 
825
  /* Sort the arcs from most used to least used.  */
826
  qsort (arcs, numarcs, sizeof (Arc *), cmp_arc_count);
827
 
828
  /* Compute the total arc count.  Also mark arcs as unplaced.
829
 
830
     Note we don't compensate for overflow if that happens!
831
     Overflow is much less likely when this file is compiled
832
     with GCC as it can double-wide integers via long long.  */
833
  total_arcs = 0;
834
  for (index = 0; index < numarcs; index++)
835
    {
836
      total_arcs += arcs[index]->count;
837
      arcs[index]->has_been_placed = 0;
838
    }
839
 
840
  /* We want to pull out those functions which are referenced
841
     by many highly used arcs and emit them as a group.  This
842
     could probably use some tuning.  */
843
  tmp_arcs_count = 0;
844
  for (index = 0; index < numarcs; index++)
845
    {
846
      tmp_arcs_count += arcs[index]->count;
847
 
848
      /* Count how many times each parent and child are used up
849
         to our threshhold of arcs (90%).  */
850
      if ((double)tmp_arcs_count / (double)total_arcs > 0.90)
851
        break;
852
 
853
      arcs[index]->child->nuses++;
854
    }
855
 
856
  /* Now sort a temporary symbol table based on the number of
857
     times each function was used in the highest used arcs.  */
858
  memcpy (scratch_syms, used_syms, used * sizeof (Sym *));
859
  qsort (scratch_syms, used, sizeof (Sym *), cmp_fun_nuses);
860
 
861
  /* Now pick out those symbols we're going to emit as
862
     a group.  We take up to 1.25% of the used symbols.  */
863
  for (index = 0; index < used / 80; index++)
864
    {
865
      Sym *sym = scratch_syms[index];
866
      Arc *arc;
867
 
868
      /* If we hit symbols that aren't used from many call sites,
869
         then we can quit.  We choose five as the low limit for
870
         no particular reason.  */
871
      if (sym->nuses == 5)
872
        break;
873
 
874
      /* We're going to need the arcs between these functions.
875
         Unfortunately, we don't know all these functions
876
         until we're done.  So we keep track of all the arcs
877
         to the functions we care about, then prune out those
878
         which are uninteresting.
879
 
880
         An interesting variation would be to quit when we found
881
         multi-call site functions which account for some percentage
882
         of the arcs.  */
883
      arc = sym->cg.children;
884
 
885
      while (arc)
886
        {
887
          if (arc->parent != arc->child)
888
            scratch_arcs[scratch_arc_count++] = arc;
889
          arc->has_been_placed = 1;
890
          arc = arc->next_child;
891
        }
892
 
893
      arc = sym->cg.parents;
894
 
895
      while (arc)
896
        {
897
          if (arc->parent != arc->child)
898
            scratch_arcs[scratch_arc_count++] = arc;
899
          arc->has_been_placed = 1;
900
          arc = arc->next_parent;
901
        }
902
 
903
      /* Keep track of how many symbols we're going to place.  */
904
      scratch_index = index;
905
 
906
      /* A lie, but it makes identifying
907
         these functions easier later.  */
908
      sym->has_been_placed = 1;
909
    }
910
 
911
  /* Now walk through the temporary arcs and copy
912
     those we care about into the high arcs array.  */
913
  for (index = 0; index < scratch_arc_count; index++)
914
    {
915
      Arc *arc = scratch_arcs[index];
916
 
917
      /* If this arc refers to highly used functions, then
918
         then we want to keep it.  */
919
      if (arc->child->has_been_placed
920
          && arc->parent->has_been_placed)
921
        {
922
          high_arcs[high_arc_count++] = scratch_arcs[index];
923
 
924
          /* We need to turn of has_been_placed since we're going to
925
             use the main arc placement algorithm on these arcs.  */
926
          arc->child->has_been_placed = 0;
927
          arc->parent->has_been_placed = 0;
928
        }
929
    }
930
 
931
  /* Dump the multi-site high usage functions which are not
932
     going to be ordered by the main ordering algorithm.  */
933
  for (index = 0; index < scratch_index; index++)
934
    {
935
      if (scratch_syms[index]->has_been_placed)
936
        printf ("%s\n", scratch_syms[index]->name);
937
    }
938
 
939
  /* Now we can order the multi-site high use
940
     functions based on the arcs between them.  */
941
  qsort (high_arcs, high_arc_count, sizeof (Arc *), cmp_arc_count);
942
  order_and_dump_functions_by_arcs (high_arcs, high_arc_count, 1,
943
                                    unplaced_arcs, &unplaced_arc_count);
944
 
945
  /* Order and dump the high use functions left,
946
     these typically have only a few call sites.  */
947
  order_and_dump_functions_by_arcs (arcs, numarcs, 0,
948
                                    unplaced_arcs, &unplaced_arc_count);
949
 
950
  /* Now place the rarely used functions.  */
951
  order_and_dump_functions_by_arcs (unplaced_arcs, unplaced_arc_count, 1,
952
                                    scratch_arcs, &scratch_arc_count);
953
 
954
  /* Output any functions not emitted by the order_and_dump calls.  */
955
  for (index = 0; index < used; index++)
956
    if (used_syms[index]->has_been_placed == 0)
957
      printf("%s\n", used_syms[index]->name);
958
 
959
  /* Output the unused functions.  */
960
  for (index = 0; index < unused; index++)
961
    printf("%s\n", unused_syms[index]->name);
962
 
963
  unused_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
964
  used_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
965
  scratch_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
966
  high_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
967
  scratch_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
968
  unplaced_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
969
 
970
  free (unused_syms);
971
  free (used_syms);
972
  free (scratch_syms);
973
  free (high_arcs);
974
  free (scratch_arcs);
975
  free (unplaced_arcs);
976
}
977
 
978
/* Place functions based on the arcs in THE_ARCS with ARC_COUNT entries;
979
   place unused arcs into UNPLACED_ARCS/UNPLACED_ARC_COUNT.
980
 
981
   If ALL is nonzero, then place all functions referenced by THE_ARCS,
982
   else only place those referenced in the top 99% of the arcs in THE_ARCS.  */
983
 
984
#define MOST 0.99
985
static void
986
order_and_dump_functions_by_arcs (the_arcs, arc_count, all,
987
                                  unplaced_arcs, unplaced_arc_count)
988
     Arc **the_arcs;
989
     unsigned long arc_count;
990
     int all;
991
     Arc **unplaced_arcs;
992
     unsigned long *unplaced_arc_count;
993
{
994
#ifdef __GNUC__
995
  unsigned long long tmp_arcs, total_arcs;
996
#else
997
  unsigned long tmp_arcs, total_arcs;
998
#endif
999
  unsigned int index;
1000
 
1001
  /* If needed, compute the total arc count.
1002
 
1003
     Note we don't compensate for overflow if that happens!  */
1004
  if (! all)
1005
    {
1006
      total_arcs = 0;
1007
      for (index = 0; index < arc_count; index++)
1008
        total_arcs += the_arcs[index]->count;
1009
    }
1010
  else
1011
    total_arcs = 0;
1012
 
1013
  tmp_arcs = 0;
1014
 
1015
  for (index = 0; index < arc_count; index++)
1016
    {
1017
      Sym *sym1, *sym2;
1018
      Sym *child, *parent;
1019
 
1020
      tmp_arcs += the_arcs[index]->count;
1021
 
1022
      /* Ignore this arc if it's already been placed.  */
1023
      if (the_arcs[index]->has_been_placed)
1024
        continue;
1025
 
1026
      child = the_arcs[index]->child;
1027
      parent = the_arcs[index]->parent;
1028
 
1029
      /* If we're not using all arcs, and this is a rarely used
1030
         arc, then put it on the unplaced_arc list.  Similarly
1031
         if both the parent and child of this arc have been placed.  */
1032
      if ((! all && (double)tmp_arcs / (double)total_arcs > MOST)
1033
          || child->has_been_placed || parent->has_been_placed)
1034
        {
1035
          unplaced_arcs[(*unplaced_arc_count)++] = the_arcs[index];
1036
          continue;
1037
        }
1038
 
1039
      /* If all slots in the parent and child are full, then there isn't
1040
         anything we can do right now.  We'll place this arc on the
1041
         unplaced arc list in the hope that a global positioning
1042
         algorithm can use it to place function chains.  */
1043
      if (parent->next && parent->prev && child->next && child->prev)
1044
        {
1045
          unplaced_arcs[(*unplaced_arc_count)++] = the_arcs[index];
1046
          continue;
1047
        }
1048
 
1049
      /* If the parent is unattached, then find the closest
1050
         place to attach it onto child's chain.   Similarly
1051
         for the opposite case.  */
1052
      if (!parent->next && !parent->prev)
1053
        {
1054
          int next_count = 0;
1055
          int prev_count = 0;
1056
          Sym *prev = child;
1057
          Sym *next = child;
1058
 
1059
          /* Walk to the beginning and end of the child's chain.  */
1060
          while (next->next)
1061
            {
1062
              next = next->next;
1063
              next_count++;
1064
            }
1065
 
1066
          while (prev->prev)
1067
            {
1068
              prev = prev->prev;
1069
              prev_count++;
1070
            }
1071
 
1072
          /* Choose the closest.  */
1073
          child = next_count < prev_count ? next : prev;
1074
        }
1075
      else if (! child->next && !child->prev)
1076
        {
1077
          int next_count = 0;
1078
          int prev_count = 0;
1079
          Sym *prev = parent;
1080
          Sym *next = parent;
1081
 
1082
          while (next->next)
1083
            {
1084
              next = next->next;
1085
              next_count++;
1086
            }
1087
 
1088
          while (prev->prev)
1089
            {
1090
              prev = prev->prev;
1091
              prev_count++;
1092
            }
1093
 
1094
          parent = prev_count < next_count ? prev : next;
1095
        }
1096
      else
1097
        {
1098
          /* Couldn't find anywhere to attach the functions,
1099
             put the arc on the unplaced arc list.  */
1100
          unplaced_arcs[(*unplaced_arc_count)++] = the_arcs[index];
1101
          continue;
1102
        }
1103
 
1104
      /* Make sure we don't tie two ends together.  */
1105
      sym1 = parent;
1106
      if (sym1->next)
1107
        while (sym1->next)
1108
          sym1 = sym1->next;
1109
      else
1110
        while (sym1->prev)
1111
          sym1 = sym1->prev;
1112
 
1113
      sym2 = child;
1114
      if (sym2->next)
1115
        while (sym2->next)
1116
          sym2 = sym2->next;
1117
      else
1118
        while (sym2->prev)
1119
          sym2 = sym2->prev;
1120
 
1121
      if (sym1 == child
1122
          && sym2 == parent)
1123
        {
1124
          /* This would tie two ends together.  */
1125
          unplaced_arcs[(*unplaced_arc_count)++] = the_arcs[index];
1126
          continue;
1127
        }
1128
 
1129
      if (parent->next)
1130
        {
1131
          /* Must attach to the parent's prev field.  */
1132
          if (! child->next)
1133
            {
1134
              /* parent-prev and child-next */
1135
              parent->prev = child;
1136
              child->next = parent;
1137
              the_arcs[index]->has_been_placed = 1;
1138
            }
1139
        }
1140
      else if (parent->prev)
1141
        {
1142
          /* Must attach to the parent's next field.  */
1143
          if (! child->prev)
1144
            {
1145
              /* parent-next and child-prev */
1146
              parent->next = child;
1147
              child->prev = parent;
1148
              the_arcs[index]->has_been_placed = 1;
1149
            }
1150
        }
1151
      else
1152
        {
1153
          /* Can attach to either field in the parent, depends
1154
             on where we've got space in the child.  */
1155
          if (child->prev)
1156
            {
1157
              /* parent-prev and child-next.  */
1158
              parent->prev = child;
1159
              child->next = parent;
1160
              the_arcs[index]->has_been_placed = 1;
1161
            }
1162
          else
1163
            {
1164
              /* parent-next and child-prev.  */
1165
              parent->next = child;
1166
              child->prev = parent;
1167
              the_arcs[index]->has_been_placed = 1;
1168
            }
1169
        }
1170
    }
1171
 
1172
  /* Dump the chains of functions we've made.  */
1173
  for (index = 0; index < arc_count; index++)
1174
    {
1175
      Sym *sym;
1176
      if (the_arcs[index]->parent->has_been_placed
1177
          || the_arcs[index]->child->has_been_placed)
1178
        continue;
1179
 
1180
      sym = the_arcs[index]->parent;
1181
 
1182
      /* If this symbol isn't attached to any other
1183
         symbols, then we've got a rarely used arc.
1184
 
1185
         Skip it for now, we'll deal with them later.  */
1186
      if (sym->next == NULL
1187
          && sym->prev == NULL)
1188
        continue;
1189
 
1190
      /* Get to the start of this chain.  */
1191
      while (sym->prev)
1192
        sym = sym->prev;
1193
 
1194
      while (sym)
1195
        {
1196
          /* Mark it as placed.  */
1197
          sym->has_been_placed = 1;
1198
          printf ("%s\n", sym->name);
1199
          sym = sym->next;
1200
        }
1201
    }
1202
 
1203
  /* If we want to place all the arcs, then output
1204
     those which weren't placed by the main algorithm.  */
1205
  if (all)
1206
    for (index = 0; index < arc_count; index++)
1207
      {
1208
        Sym *sym;
1209
        if (the_arcs[index]->parent->has_been_placed
1210
            || the_arcs[index]->child->has_been_placed)
1211
          continue;
1212
 
1213
        sym = the_arcs[index]->parent;
1214
 
1215
        sym->has_been_placed = 1;
1216
        printf ("%s\n", sym->name);
1217
      }
1218
}
1219
 
1220
/* Print a suggested .o ordering for files on a link line based
1221
   on profiling information.  This uses the function placement
1222
   code for the bulk of its work.  */
1223
 
1224
void
1225
cg_print_file_ordering ()
1226
{
1227
  unsigned long scratch_arc_count, index;
1228
  Arc **scratch_arcs;
1229
  char *last;
1230
 
1231
  scratch_arc_count = 0;
1232
 
1233
  scratch_arcs = (Arc **) xmalloc (numarcs * sizeof (Arc *));
1234
  for (index = 0; index < numarcs; index++)
1235
    {
1236
      if (! arcs[index]->parent->mapped
1237
          || ! arcs[index]->child->mapped)
1238
        arcs[index]->has_been_placed = 1;
1239
    }
1240
 
1241
  order_and_dump_functions_by_arcs (arcs, numarcs, 0,
1242
                                    scratch_arcs, &scratch_arc_count);
1243
 
1244
  /* Output .o's not handled by the main placement algorithm.  */
1245
  for (index = 0; index < symtab.len; index++)
1246
    {
1247
      if (symtab.base[index].mapped
1248
          && ! symtab.base[index].has_been_placed)
1249
        printf ("%s\n", symtab.base[index].name);
1250
    }
1251
 
1252
  /* Now output any .o's that didn't have any text symbols.  */
1253
  last = NULL;
1254
  for (index = 0; index < symbol_map_count; index++)
1255
    {
1256
      unsigned int index2;
1257
 
1258
      /* Don't bother searching if this symbol
1259
         is the same as the previous one.  */
1260
      if (last && !strcmp (last, symbol_map[index].file_name))
1261
        continue;
1262
 
1263
      for (index2 = 0; index2 < symtab.len; index2++)
1264
        {
1265
          if (! symtab.base[index2].mapped)
1266
            continue;
1267
 
1268
          if (!strcmp (symtab.base[index2].name, symbol_map[index].file_name))
1269
            break;
1270
        }
1271
 
1272
      /* If we didn't find it in the symbol table, then it must
1273
         be a .o with no text symbols.  Output it last.  */
1274
      if (index2 == symtab.len)
1275
        printf ("%s\n", symbol_map[index].file_name);
1276
      last = symbol_map[index].file_name;
1277
    }
1278
}

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