755 lines
21 KiB
C
755 lines
21 KiB
C
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/* hist.c - Histogram related operations.
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Copyright (C) 1999-2022 Free Software Foundation, Inc.
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This file is part of GNU Binutils.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
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02110-1301, USA. */
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#include "gprof.h"
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#include "libiberty.h"
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#include "search_list.h"
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#include "source.h"
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#include "symtab.h"
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#include "corefile.h"
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#include "gmon_io.h"
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#include "gmon_out.h"
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#include "hist.h"
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#include "sym_ids.h"
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#include "utils.h"
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#include "math.h"
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#include "stdio.h"
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#include "stdlib.h"
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#define UNITS_TO_CODE (offset_to_code / sizeof(UNIT))
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static void scale_and_align_entries (void);
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static void print_header (int);
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static void print_line (Sym *, double);
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static int cmp_time (const PTR, const PTR);
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/* Declarations of automatically generated functions to output blurbs. */
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extern void flat_blurb (FILE * fp);
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static histogram *find_histogram (bfd_vma lowpc, bfd_vma highpc);
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static histogram *find_histogram_for_pc (bfd_vma pc);
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histogram * histograms;
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unsigned num_histograms;
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double hist_scale;
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static char hist_dimension[16] = "seconds";
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static char hist_dimension_abbrev = 's';
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static double accum_time; /* Accumulated time so far for print_line(). */
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static double total_time; /* Total time for all routines. */
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/* Table of SI prefixes for powers of 10 (used to automatically
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scale some of the values in the flat profile). */
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const struct
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{
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char prefix;
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double scale;
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}
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SItab[] =
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{
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{ 'T', 1e-12 }, /* tera */
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{ 'G', 1e-09 }, /* giga */
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{ 'M', 1e-06 }, /* mega */
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{ 'K', 1e-03 }, /* kilo */
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{ ' ', 1e-00 },
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{ 'm', 1e+03 }, /* milli */
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{ 'u', 1e+06 }, /* micro */
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{ 'n', 1e+09 }, /* nano */
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{ 'p', 1e+12 }, /* pico */
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{ 'f', 1e+15 }, /* femto */
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{ 'a', 1e+18 } /* ato */
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};
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/* Reads just the header part of histogram record into
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*RECORD from IFP. FILENAME is the name of IFP and
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is provided for formatting error messages only.
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If FIRST is non-zero, sets global variables HZ, HIST_DIMENSION,
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HIST_DIMENSION_ABBREV, HIST_SCALE. If FIRST is zero, checks
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that the new histogram is compatible with already-set values
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of those variables and emits an error if that's not so. */
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static void
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read_histogram_header (histogram *record,
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FILE *ifp, const char *filename,
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int first)
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{
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unsigned int profrate;
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char n_hist_dimension[15];
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char n_hist_dimension_abbrev;
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double n_hist_scale;
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if (gmon_io_read_vma (ifp, &record->lowpc)
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|| gmon_io_read_vma (ifp, &record->highpc)
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|| gmon_io_read_32 (ifp, &record->num_bins)
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|| gmon_io_read_32 (ifp, &profrate)
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|| gmon_io_read (ifp, n_hist_dimension, 15)
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|| gmon_io_read (ifp, &n_hist_dimension_abbrev, 1))
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{
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fprintf (stderr, _("%s: %s: unexpected end of file\n"),
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whoami, filename);
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done (1);
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}
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n_hist_scale = (double)((record->highpc - record->lowpc) / sizeof (UNIT))
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/ record->num_bins;
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if (first)
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{
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/* We don't try to veryfy profrate is the same for all histogram
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records. If we have two histogram records for the same
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address range and profiling samples is done as often
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as possible as opposed on timer, then the actual profrate will
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be slightly different. Most of the time the difference does not
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matter and insisting that profiling rate is exactly the same
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will only create inconvenient. */
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hz = profrate;
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memcpy (hist_dimension, n_hist_dimension, 15);
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hist_dimension_abbrev = n_hist_dimension_abbrev;
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hist_scale = n_hist_scale;
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}
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else
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{
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if (strncmp (n_hist_dimension, hist_dimension, 15) != 0)
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{
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fprintf (stderr,
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_("%s: dimension unit changed between histogram records\n"
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"%s: from '%s'\n"
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"%s: to '%s'\n"),
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whoami, whoami, hist_dimension, whoami, n_hist_dimension);
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done (1);
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}
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if (n_hist_dimension_abbrev != hist_dimension_abbrev)
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{
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fprintf (stderr,
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_("%s: dimension abbreviation changed between histogram records\n"
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"%s: from '%c'\n"
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"%s: to '%c'\n"),
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whoami, whoami, hist_dimension_abbrev, whoami, n_hist_dimension_abbrev);
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done (1);
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}
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/* The only reason we require the same scale for histograms is that
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there's code (notably printing code), that prints units,
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and it would be very confusing to have one unit mean different
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things for different functions. */
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if (fabs (hist_scale - n_hist_scale) > 0.000001)
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{
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fprintf (stderr,
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_("%s: different scales in histogram records"),
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whoami);
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done (1);
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}
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}
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}
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/* Read the histogram from file IFP. FILENAME is the name of IFP and
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is provided for formatting error messages only. */
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void
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hist_read_rec (FILE * ifp, const char *filename)
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{
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bfd_vma lowpc, highpc;
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histogram n_record;
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histogram *record, *existing_record;
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unsigned i;
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/* 1. Read the header and see if there's existing record for the
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same address range and that there are no overlapping records. */
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read_histogram_header (&n_record, ifp, filename, num_histograms == 0);
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existing_record = find_histogram (n_record.lowpc, n_record.highpc);
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if (existing_record)
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{
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record = existing_record;
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}
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else
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{
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/* If this record overlaps, but does not completely match an existing
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record, it's an error. */
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lowpc = n_record.lowpc;
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highpc = n_record.highpc;
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hist_clip_symbol_address (&lowpc, &highpc);
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if (lowpc != highpc)
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{
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fprintf (stderr,
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_("%s: overlapping histogram records\n"),
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whoami);
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done (1);
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}
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/* This is new record. Add it to global array and allocate space for
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the samples. */
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histograms = (struct histogram *)
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xrealloc (histograms, sizeof (histogram) * (num_histograms + 1));
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memcpy (histograms + num_histograms,
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&n_record, sizeof (histogram));
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record = &histograms[num_histograms];
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++num_histograms;
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record->sample = (int *) xmalloc (record->num_bins
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* sizeof (record->sample[0]));
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memset (record->sample, 0, record->num_bins * sizeof (record->sample[0]));
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}
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/* 2. We have either a new record (with zeroed histogram data), or an existing
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record with some data in the histogram already. Read new data into the
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record, adding hit counts. */
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DBG (SAMPLEDEBUG,
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printf ("[hist_read_rec] n_lowpc 0x%lx n_highpc 0x%lx ncnt %u\n",
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(unsigned long) record->lowpc, (unsigned long) record->highpc,
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record->num_bins));
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for (i = 0; i < record->num_bins; ++i)
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{
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UNIT count;
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if (fread (&count[0], sizeof (count), 1, ifp) != 1)
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{
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fprintf (stderr,
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_("%s: %s: unexpected EOF after reading %u of %u samples\n"),
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whoami, filename, i, record->num_bins);
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done (1);
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}
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record->sample[i] += bfd_get_16 (core_bfd, (bfd_byte *) & count[0]);
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DBG (SAMPLEDEBUG,
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printf ("[hist_read_rec] 0x%lx: %u\n",
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(unsigned long) (record->lowpc
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+ i * (record->highpc - record->lowpc)
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/ record->num_bins),
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record->sample[i]));
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}
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}
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/* Write all execution histograms file OFP. FILENAME is the name
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of OFP and is provided for formatting error-messages only. */
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void
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hist_write_hist (FILE * ofp, const char *filename)
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{
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UNIT count;
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unsigned int i, r;
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for (r = 0; r < num_histograms; ++r)
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{
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histogram *record = &histograms[r];
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/* Write header. */
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if (gmon_io_write_8 (ofp, GMON_TAG_TIME_HIST)
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|| gmon_io_write_vma (ofp, record->lowpc)
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|| gmon_io_write_vma (ofp, record->highpc)
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|| gmon_io_write_32 (ofp, record->num_bins)
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|| gmon_io_write_32 (ofp, hz)
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|| gmon_io_write (ofp, hist_dimension, 15)
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|| gmon_io_write (ofp, &hist_dimension_abbrev, 1))
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{
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perror (filename);
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done (1);
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}
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for (i = 0; i < record->num_bins; ++i)
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{
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bfd_put_16 (core_bfd, (bfd_vma) record->sample[i], (bfd_byte *) &count[0]);
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if (fwrite (&count[0], sizeof (count), 1, ofp) != 1)
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{
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perror (filename);
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done (1);
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}
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}
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}
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}
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/* Calculate scaled entry point addresses (to save time in
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hist_assign_samples), and, on architectures that have procedure
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entry masks at the start of a function, possibly push the scaled
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entry points over the procedure entry mask, if it turns out that
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the entry point is in one bin and the code for a routine is in the
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next bin. */
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static void
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scale_and_align_entries (void)
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{
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Sym *sym;
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bfd_vma bin_of_entry;
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bfd_vma bin_of_code;
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for (sym = symtab.base; sym < symtab.limit; sym++)
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{
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histogram *r = find_histogram_for_pc (sym->addr);
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sym->hist.scaled_addr = sym->addr / sizeof (UNIT);
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if (r)
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{
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bin_of_entry = (sym->hist.scaled_addr - r->lowpc) / hist_scale;
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bin_of_code = ((sym->hist.scaled_addr + UNITS_TO_CODE - r->lowpc)
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/ hist_scale);
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if (bin_of_entry < bin_of_code)
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{
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DBG (SAMPLEDEBUG,
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printf ("[scale_and_align_entries] pushing 0x%lx to 0x%lx\n",
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(unsigned long) sym->hist.scaled_addr,
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(unsigned long) (sym->hist.scaled_addr
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+ UNITS_TO_CODE)));
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sym->hist.scaled_addr += UNITS_TO_CODE;
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}
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}
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}
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}
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/* Assign samples to the symbol to which they belong.
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Histogram bin I covers some address range [BIN_LOWPC,BIN_HIGH_PC)
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which may overlap one more symbol address ranges. If a symbol
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overlaps with the bin's address range by O percent, then O percent
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of the bin's count is credited to that symbol.
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There are three cases as to where BIN_LOW_PC and BIN_HIGH_PC can be
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with respect to the symbol's address range [SYM_LOW_PC,
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SYM_HIGH_PC) as shown in the following diagram. OVERLAP computes
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the distance (in UNITs) between the arrows, the fraction of the
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sample that is to be credited to the symbol which starts at
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SYM_LOW_PC.
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sym_low_pc sym_high_pc
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v v
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+-----------------------------------------------+
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| |
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| ->| |<- ->| |<- ->| |<- |
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| | | | | |
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+---------+ +---------+ +---------+
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^ ^ ^ ^ ^ ^
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| | | | | |
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bin_low_pc bin_high_pc bin_low_pc bin_high_pc bin_low_pc bin_high_pc
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For the VAX we assert that samples will never fall in the first two
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bytes of any routine, since that is the entry mask, thus we call
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scale_and_align_entries() to adjust the entry points if the entry
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mask falls in one bin but the code for the routine doesn't start
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until the next bin. In conjunction with the alignment of routine
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addresses, this should allow us to have only one sample for every
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four bytes of text space and never have any overlap (the two end
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cases, above). */
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static void
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hist_assign_samples_1 (histogram *r)
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{
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bfd_vma bin_low_pc, bin_high_pc;
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bfd_vma sym_low_pc, sym_high_pc;
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bfd_vma overlap, addr;
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unsigned int bin_count;
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unsigned int i, j, k;
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double count_time, credit;
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bfd_vma lowpc = r->lowpc / sizeof (UNIT);
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/* Iterate over all sample bins. */
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for (i = 0, k = 1; i < r->num_bins; ++i)
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{
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bin_count = r->sample[i];
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if (! bin_count)
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continue;
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bin_low_pc = lowpc + (bfd_vma) (hist_scale * i);
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bin_high_pc = lowpc + (bfd_vma) (hist_scale * (i + 1));
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count_time = bin_count;
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DBG (SAMPLEDEBUG,
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printf (
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"[assign_samples] bin_low_pc=0x%lx, bin_high_pc=0x%lx, bin_count=%u\n",
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(unsigned long) (sizeof (UNIT) * bin_low_pc),
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(unsigned long) (sizeof (UNIT) * bin_high_pc),
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bin_count));
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total_time += count_time;
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/* Credit all symbols that are covered by bin I.
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PR gprof/13325: Make sure that K does not get decremented
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and J will never be less than 0. */
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for (j = k - 1; j < symtab.len; k = ++j)
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{
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sym_low_pc = symtab.base[j].hist.scaled_addr;
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sym_high_pc = symtab.base[j + 1].hist.scaled_addr;
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|||
|
/* If high end of bin is below entry address,
|
|||
|
go for next bin. */
|
|||
|
if (bin_high_pc < sym_low_pc)
|
|||
|
break;
|
|||
|
|
|||
|
/* If low end of bin is above high end of symbol,
|
|||
|
go for next symbol. */
|
|||
|
if (bin_low_pc >= sym_high_pc)
|
|||
|
continue;
|
|||
|
|
|||
|
overlap =
|
|||
|
MIN (bin_high_pc, sym_high_pc) - MAX (bin_low_pc, sym_low_pc);
|
|||
|
if (overlap > 0)
|
|||
|
{
|
|||
|
DBG (SAMPLEDEBUG,
|
|||
|
printf (
|
|||
|
"[assign_samples] [0x%lx,0x%lx) %s gets %f ticks %ld overlap\n",
|
|||
|
(unsigned long) symtab.base[j].addr,
|
|||
|
(unsigned long) (sizeof (UNIT) * sym_high_pc),
|
|||
|
symtab.base[j].name, overlap * count_time / hist_scale,
|
|||
|
(long) overlap));
|
|||
|
|
|||
|
addr = symtab.base[j].addr;
|
|||
|
credit = overlap * count_time / hist_scale;
|
|||
|
|
|||
|
/* Credit symbol if it appears in INCL_FLAT or that
|
|||
|
table is empty and it does not appear it in
|
|||
|
EXCL_FLAT. */
|
|||
|
if (sym_lookup (&syms[INCL_FLAT], addr)
|
|||
|
|| (syms[INCL_FLAT].len == 0
|
|||
|
&& !sym_lookup (&syms[EXCL_FLAT], addr)))
|
|||
|
{
|
|||
|
symtab.base[j].hist.time += credit;
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
total_time -= credit;
|
|||
|
}
|
|||
|
}
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
DBG (SAMPLEDEBUG, printf ("[assign_samples] total_time %f\n",
|
|||
|
total_time));
|
|||
|
}
|
|||
|
|
|||
|
/* Calls 'hist_assign_sampes_1' for all histogram records read so far. */
|
|||
|
void
|
|||
|
hist_assign_samples (void)
|
|||
|
{
|
|||
|
unsigned i;
|
|||
|
|
|||
|
scale_and_align_entries ();
|
|||
|
|
|||
|
for (i = 0; i < num_histograms; ++i)
|
|||
|
hist_assign_samples_1 (&histograms[i]);
|
|||
|
|
|||
|
}
|
|||
|
|
|||
|
/* Print header for flag histogram profile. */
|
|||
|
|
|||
|
static void
|
|||
|
print_header (int prefix)
|
|||
|
{
|
|||
|
char unit[64];
|
|||
|
|
|||
|
sprintf (unit, _("%c%c/call"), prefix, hist_dimension_abbrev);
|
|||
|
|
|||
|
if (bsd_style_output)
|
|||
|
{
|
|||
|
printf (_("\ngranularity: each sample hit covers %ld byte(s)"),
|
|||
|
(long) hist_scale * (long) sizeof (UNIT));
|
|||
|
if (total_time > 0.0)
|
|||
|
{
|
|||
|
printf (_(" for %.2f%% of %.2f %s\n\n"),
|
|||
|
100.0 / total_time, total_time / hz, hist_dimension);
|
|||
|
}
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
printf (_("\nEach sample counts as %g %s.\n"), 1.0 / hz, hist_dimension);
|
|||
|
}
|
|||
|
|
|||
|
if (total_time <= 0.0)
|
|||
|
{
|
|||
|
printf (_(" no time accumulated\n\n"));
|
|||
|
|
|||
|
/* This doesn't hurt since all the numerators will be zero. */
|
|||
|
total_time = 1.0;
|
|||
|
}
|
|||
|
|
|||
|
printf ("%5.5s %10.10s %8.8s %8.8s %8.8s %8.8s %-8.8s\n",
|
|||
|
"% ", _("cumulative"), _("self "), "", _("self "), _("total "),
|
|||
|
"");
|
|||
|
printf ("%5.5s %9.9s %8.8s %8.8s %8.8s %8.8s %-8.8s\n",
|
|||
|
_("time"), hist_dimension, hist_dimension, _("calls"), unit, unit,
|
|||
|
_("name"));
|
|||
|
}
|
|||
|
|
|||
|
|
|||
|
static void
|
|||
|
print_line (Sym *sym, double scale)
|
|||
|
{
|
|||
|
if (ignore_zeros && sym->ncalls == 0 && sym->hist.time == 0)
|
|||
|
return;
|
|||
|
|
|||
|
accum_time += sym->hist.time;
|
|||
|
|
|||
|
if (bsd_style_output)
|
|||
|
printf ("%5.1f %10.2f %8.2f",
|
|||
|
total_time > 0.0 ? 100 * sym->hist.time / total_time : 0.0,
|
|||
|
accum_time / hz, sym->hist.time / hz);
|
|||
|
else
|
|||
|
printf ("%6.2f %9.2f %8.2f",
|
|||
|
total_time > 0.0 ? 100 * sym->hist.time / total_time : 0.0,
|
|||
|
accum_time / hz, sym->hist.time / hz);
|
|||
|
|
|||
|
if (sym->ncalls != 0)
|
|||
|
printf (" %8lu %8.2f %8.2f ",
|
|||
|
sym->ncalls, scale * sym->hist.time / hz / sym->ncalls,
|
|||
|
scale * (sym->hist.time + sym->cg.child_time) / hz / sym->ncalls);
|
|||
|
else
|
|||
|
printf (" %8.8s %8.8s %8.8s ", "", "", "");
|
|||
|
|
|||
|
if (bsd_style_output)
|
|||
|
print_name (sym);
|
|||
|
else
|
|||
|
print_name_only (sym);
|
|||
|
|
|||
|
printf ("\n");
|
|||
|
}
|
|||
|
|
|||
|
|
|||
|
/* Compare LP and RP. The primary comparison key is execution time,
|
|||
|
the secondary is number of invocation, and the tertiary is the
|
|||
|
lexicographic order of the function names. */
|
|||
|
|
|||
|
static int
|
|||
|
cmp_time (const PTR lp, const PTR rp)
|
|||
|
{
|
|||
|
const Sym *left = *(const Sym **) lp;
|
|||
|
const Sym *right = *(const Sym **) rp;
|
|||
|
double time_diff;
|
|||
|
|
|||
|
time_diff = right->hist.time - left->hist.time;
|
|||
|
|
|||
|
if (time_diff > 0.0)
|
|||
|
return 1;
|
|||
|
|
|||
|
if (time_diff < 0.0)
|
|||
|
return -1;
|
|||
|
|
|||
|
if (right->ncalls > left->ncalls)
|
|||
|
return 1;
|
|||
|
|
|||
|
if (right->ncalls < left->ncalls)
|
|||
|
return -1;
|
|||
|
|
|||
|
return strcmp (left->name, right->name);
|
|||
|
}
|
|||
|
|
|||
|
|
|||
|
/* Print the flat histogram profile. */
|
|||
|
|
|||
|
void
|
|||
|
hist_print (void)
|
|||
|
{
|
|||
|
Sym **time_sorted_syms, *top_dog, *sym;
|
|||
|
unsigned int sym_index;
|
|||
|
unsigned log_scale;
|
|||
|
double top_time;
|
|||
|
bfd_vma addr;
|
|||
|
|
|||
|
if (first_output)
|
|||
|
first_output = false;
|
|||
|
else
|
|||
|
printf ("\f\n");
|
|||
|
|
|||
|
accum_time = 0.0;
|
|||
|
|
|||
|
if (bsd_style_output)
|
|||
|
{
|
|||
|
if (print_descriptions)
|
|||
|
{
|
|||
|
printf (_("\n\n\nflat profile:\n"));
|
|||
|
flat_blurb (stdout);
|
|||
|
}
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
printf (_("Flat profile:\n"));
|
|||
|
}
|
|||
|
|
|||
|
/* Sort the symbol table by time (call-count and name as secondary
|
|||
|
and tertiary keys). */
|
|||
|
time_sorted_syms = (Sym **) xmalloc (symtab.len * sizeof (Sym *));
|
|||
|
|
|||
|
for (sym_index = 0; sym_index < symtab.len; ++sym_index)
|
|||
|
time_sorted_syms[sym_index] = &symtab.base[sym_index];
|
|||
|
|
|||
|
qsort (time_sorted_syms, symtab.len, sizeof (Sym *), cmp_time);
|
|||
|
|
|||
|
if (bsd_style_output)
|
|||
|
{
|
|||
|
log_scale = 5; /* Milli-seconds is BSD-default. */
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
/* Search for symbol with highest per-call
|
|||
|
execution time and scale accordingly. */
|
|||
|
log_scale = 0;
|
|||
|
top_dog = 0;
|
|||
|
top_time = 0.0;
|
|||
|
|
|||
|
for (sym_index = 0; sym_index < symtab.len; ++sym_index)
|
|||
|
{
|
|||
|
sym = time_sorted_syms[sym_index];
|
|||
|
|
|||
|
if (sym->ncalls != 0)
|
|||
|
{
|
|||
|
double call_time;
|
|||
|
|
|||
|
call_time = (sym->hist.time + sym->cg.child_time) / sym->ncalls;
|
|||
|
|
|||
|
if (call_time > top_time)
|
|||
|
{
|
|||
|
top_dog = sym;
|
|||
|
top_time = call_time;
|
|||
|
}
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
if (top_dog && top_dog->ncalls != 0 && top_time > 0.0)
|
|||
|
{
|
|||
|
top_time /= hz;
|
|||
|
|
|||
|
for (log_scale = 0; log_scale < ARRAY_SIZE (SItab); log_scale ++)
|
|||
|
{
|
|||
|
double scaled_value = SItab[log_scale].scale * top_time;
|
|||
|
|
|||
|
if (scaled_value >= 1.0 && scaled_value < 1000.0)
|
|||
|
break;
|
|||
|
}
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
/* For now, the dimension is always seconds. In the future, we
|
|||
|
may also want to support other (pseudo-)dimensions (such as
|
|||
|
I-cache misses etc.). */
|
|||
|
print_header (SItab[log_scale].prefix);
|
|||
|
|
|||
|
for (sym_index = 0; sym_index < symtab.len; ++sym_index)
|
|||
|
{
|
|||
|
addr = time_sorted_syms[sym_index]->addr;
|
|||
|
|
|||
|
/* Print symbol if its in INCL_FLAT table or that table
|
|||
|
is empty and the symbol is not in EXCL_FLAT. */
|
|||
|
if (sym_lookup (&syms[INCL_FLAT], addr)
|
|||
|
|| (syms[INCL_FLAT].len == 0
|
|||
|
&& !sym_lookup (&syms[EXCL_FLAT], addr)))
|
|||
|
print_line (time_sorted_syms[sym_index], SItab[log_scale].scale);
|
|||
|
}
|
|||
|
|
|||
|
free (time_sorted_syms);
|
|||
|
|
|||
|
if (print_descriptions && !bsd_style_output)
|
|||
|
flat_blurb (stdout);
|
|||
|
}
|
|||
|
|
|||
|
int
|
|||
|
hist_check_address (unsigned address)
|
|||
|
{
|
|||
|
unsigned i;
|
|||
|
|
|||
|
for (i = 0; i < num_histograms; ++i)
|
|||
|
if (histograms[i].lowpc <= address && address < histograms[i].highpc)
|
|||
|
return 1;
|
|||
|
|
|||
|
return 0;
|
|||
|
}
|
|||
|
|
|||
|
#if ! defined(min)
|
|||
|
#define min(a,b) (((a)<(b)) ? (a) : (b))
|
|||
|
#endif
|
|||
|
#if ! defined(max)
|
|||
|
#define max(a,b) (((a)>(b)) ? (a) : (b))
|
|||
|
#endif
|
|||
|
|
|||
|
void
|
|||
|
hist_clip_symbol_address (bfd_vma *p_lowpc, bfd_vma *p_highpc)
|
|||
|
{
|
|||
|
unsigned i;
|
|||
|
int found = 0;
|
|||
|
|
|||
|
if (num_histograms == 0)
|
|||
|
{
|
|||
|
*p_highpc = *p_lowpc;
|
|||
|
return;
|
|||
|
}
|
|||
|
|
|||
|
for (i = 0; i < num_histograms; ++i)
|
|||
|
{
|
|||
|
bfd_vma common_low, common_high;
|
|||
|
common_low = max (histograms[i].lowpc, *p_lowpc);
|
|||
|
common_high = min (histograms[i].highpc, *p_highpc);
|
|||
|
|
|||
|
if (common_low < common_high)
|
|||
|
{
|
|||
|
if (found)
|
|||
|
{
|
|||
|
fprintf (stderr,
|
|||
|
_("%s: found a symbol that covers "
|
|||
|
"several histogram records"),
|
|||
|
whoami);
|
|||
|
done (1);
|
|||
|
}
|
|||
|
|
|||
|
found = 1;
|
|||
|
*p_lowpc = common_low;
|
|||
|
*p_highpc = common_high;
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
if (!found)
|
|||
|
*p_highpc = *p_lowpc;
|
|||
|
}
|
|||
|
|
|||
|
/* Find and return exising histogram record having the same lowpc and
|
|||
|
highpc as passed via the parameters. Return NULL if nothing is found.
|
|||
|
The return value is valid until any new histogram is read. */
|
|||
|
static histogram *
|
|||
|
find_histogram (bfd_vma lowpc, bfd_vma highpc)
|
|||
|
{
|
|||
|
unsigned i;
|
|||
|
for (i = 0; i < num_histograms; ++i)
|
|||
|
{
|
|||
|
if (histograms[i].lowpc == lowpc && histograms[i].highpc == highpc)
|
|||
|
return &histograms[i];
|
|||
|
}
|
|||
|
return 0;
|
|||
|
}
|
|||
|
|
|||
|
/* Given a PC, return histogram record which address range include this PC.
|
|||
|
Return NULL if there's no such record. */
|
|||
|
static histogram *
|
|||
|
find_histogram_for_pc (bfd_vma pc)
|
|||
|
{
|
|||
|
unsigned i;
|
|||
|
for (i = 0; i < num_histograms; ++i)
|
|||
|
{
|
|||
|
if (histograms[i].lowpc <= pc && pc < histograms[i].highpc)
|
|||
|
return &histograms[i];
|
|||
|
}
|
|||
|
return 0;
|
|||
|
}
|