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https://github.com/coreutils/coreutils.git
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489 lines
12 KiB
C
489 lines
12 KiB
C
/* human.c -- print human readable file size
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Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005
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Free Software Foundation, Inc.
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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 2, or (at your option)
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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 Foundation,
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Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */
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/* Written by Paul Eggert and Larry McVoy. */
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#ifdef HAVE_CONFIG_H
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# include <config.h>
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#endif
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#include "human.h"
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#include <locale.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include "gettext.h"
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#define _(msgid) gettext (msgid)
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#include <argmatch.h>
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#include <error.h>
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#include <intprops.h>
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#include <xstrtol.h>
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#ifndef SIZE_MAX
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# define SIZE_MAX ((size_t) -1)
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#endif
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#ifndef UINTMAX_MAX
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# define UINTMAX_MAX ((uintmax_t) -1)
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#endif
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/* The maximum length of a suffix like "KiB". */
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#define HUMAN_READABLE_SUFFIX_LENGTH_MAX 3
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static const char power_letter[] =
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{
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0, /* not used */
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'K', /* kibi ('k' for kilo is a special case) */
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'M', /* mega or mebi */
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'G', /* giga or gibi */
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'T', /* tera or tebi */
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'P', /* peta or pebi */
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'E', /* exa or exbi */
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'Z', /* zetta or 2**70 */
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'Y' /* yotta or 2**80 */
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};
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/* If INEXACT_STYLE is not human_round_to_nearest, and if easily
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possible, adjust VALUE according to the style. */
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static long double
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adjust_value (int inexact_style, long double value)
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{
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/* Do not use the floorl or ceill functions, as that would mean
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checking for their presence and possibly linking with the
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standard math library, which is a porting pain. So leave the
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value alone if it is too large to easily round. */
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if (inexact_style != human_round_to_nearest && value < UINTMAX_MAX)
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{
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uintmax_t u = value;
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value = u + (inexact_style == human_ceiling && u != value);
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}
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return value;
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}
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/* Group the digits of NUMBER according to the grouping rules of the
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current locale. NUMBER contains NUMBERLEN digits. Modify the
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bytes pointed to by NUMBER in place, subtracting 1 from NUMBER for
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each byte inserted. Return the starting address of the modified
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number.
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To group the digits, use GROUPING and THOUSANDS_SEP as in `struct
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lconv' from <locale.h>. */
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static char *
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group_number (char *number, size_t numberlen,
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char const *grouping, char const *thousands_sep)
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{
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register char *d;
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size_t grouplen = SIZE_MAX;
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size_t thousands_seplen = strlen (thousands_sep);
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size_t i = numberlen;
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/* The maximum possible value for NUMBERLEN is the number of digits
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in the square of the largest uintmax_t, so double the size needed. */
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char buf[2 * INT_STRLEN_BOUND (uintmax_t) + 1];
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memcpy (buf, number, numberlen);
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d = number + numberlen;
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for (;;)
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{
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unsigned char g = *grouping;
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if (g)
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{
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grouplen = g < CHAR_MAX ? g : i;
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grouping++;
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}
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if (i < grouplen)
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grouplen = i;
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d -= grouplen;
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i -= grouplen;
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memcpy (d, buf + i, grouplen);
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if (i == 0)
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return d;
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d -= thousands_seplen;
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memcpy (d, thousands_sep, thousands_seplen);
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}
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}
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/* Convert N to a human readable format in BUF, using the options OPTS.
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N is expressed in units of FROM_BLOCK_SIZE. FROM_BLOCK_SIZE must
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be nonnegative.
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Use units of TO_BLOCK_SIZE in the output number. TO_BLOCK_SIZE
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must be positive.
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Use (OPTS & (human_round_to_nearest | human_floor | human_ceiling))
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to determine whether to take the ceiling or floor of any result
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that cannot be expressed exactly.
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If (OPTS & human_group_digits), group the thousands digits
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according to the locale, e.g., `1,000,000' in an American English
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locale.
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If (OPTS & human_autoscale), deduce the output block size
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automatically; TO_BLOCK_SIZE must be 1 but it has no effect on the
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output. Use powers of 1024 if (OPTS & human_base_1024), and powers
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of 1000 otherwise. For example, assuming powers of 1024, 8500
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would be converted to 8.3, 133456345 to 127, 56990456345 to 53, and
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so on. Numbers smaller than the power aren't modified.
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human_autoscale is normally used together with human_SI.
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If (OPTS & human_space_before_unit), use a space to separate the
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number from any suffix that is appended as described below.
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If (OPTS & human_SI), append an SI prefix indicating which power is
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being used. If in addition (OPTS & human_B), append "B" (if base
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1000) or "iB" (if base 1024) to the SI prefix. When ((OPTS &
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human_SI) && ! (OPTS & human_autoscale)), TO_BLOCK_SIZE must be a
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power of 1024 or of 1000, depending on (OPTS &
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human_base_1024). */
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char *
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human_readable (uintmax_t n, char *buf, int opts,
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uintmax_t from_block_size, uintmax_t to_block_size)
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{
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int inexact_style =
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opts & (human_round_to_nearest | human_floor | human_ceiling);
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unsigned int base = opts & human_base_1024 ? 1024 : 1000;
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uintmax_t amt;
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int tenths;
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int exponent = -1;
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int exponent_max = sizeof power_letter - 1;
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char *p;
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char *psuffix;
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char const *integerlim;
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/* 0 means adjusted N == AMT.TENTHS;
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1 means AMT.TENTHS < adjusted N < AMT.TENTHS + 0.05;
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2 means adjusted N == AMT.TENTHS + 0.05;
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3 means AMT.TENTHS + 0.05 < adjusted N < AMT.TENTHS + 0.1. */
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int rounding;
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char const *decimal_point = ".";
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size_t decimal_pointlen = 1;
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char const *grouping = "";
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char const *thousands_sep = "";
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struct lconv const *l = localeconv ();
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size_t pointlen = strlen (l->decimal_point);
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if (0 < pointlen && pointlen <= MB_LEN_MAX)
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{
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decimal_point = l->decimal_point;
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decimal_pointlen = pointlen;
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}
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grouping = l->grouping;
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if (strlen (l->thousands_sep) <= MB_LEN_MAX)
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thousands_sep = l->thousands_sep;
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psuffix = buf + LONGEST_HUMAN_READABLE - HUMAN_READABLE_SUFFIX_LENGTH_MAX;
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p = psuffix;
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/* Adjust AMT out of FROM_BLOCK_SIZE units and into TO_BLOCK_SIZE
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units. If this can be done exactly with integer arithmetic, do
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not use floating point operations. */
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if (to_block_size <= from_block_size)
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{
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if (from_block_size % to_block_size == 0)
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{
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uintmax_t multiplier = from_block_size / to_block_size;
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amt = n * multiplier;
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if (amt / multiplier == n)
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{
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tenths = 0;
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rounding = 0;
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goto use_integer_arithmetic;
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}
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}
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}
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else if (from_block_size != 0 && to_block_size % from_block_size == 0)
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{
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uintmax_t divisor = to_block_size / from_block_size;
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uintmax_t r10 = (n % divisor) * 10;
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uintmax_t r2 = (r10 % divisor) * 2;
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amt = n / divisor;
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tenths = r10 / divisor;
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rounding = r2 < divisor ? 0 < r2 : 2 + (divisor < r2);
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goto use_integer_arithmetic;
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}
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{
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/* Either the result cannot be computed easily using uintmax_t,
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or from_block_size is zero. Fall back on floating point.
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FIXME: This can yield answers that are slightly off. */
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long double dto_block_size = to_block_size;
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long double damt = n * (from_block_size / dto_block_size);
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size_t buflen;
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size_t nonintegerlen;
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if (! (opts & human_autoscale))
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{
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sprintf (buf, "%.0Lf", adjust_value (inexact_style, damt));
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buflen = strlen (buf);
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nonintegerlen = 0;
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}
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else
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{
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long double e = 1;
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exponent = 0;
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do
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{
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e *= base;
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exponent++;
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}
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while (e * base <= damt && exponent < exponent_max);
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damt /= e;
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sprintf (buf, "%.1Lf", adjust_value (inexact_style, damt));
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buflen = strlen (buf);
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nonintegerlen = decimal_pointlen + 1;
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if (1 + nonintegerlen + ! (opts & human_base_1024) < buflen
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|| ((opts & human_suppress_point_zero)
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&& buf[buflen - 1] == '0'))
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{
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sprintf (buf, "%.0Lf",
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adjust_value (inexact_style, damt * 10) / 10);
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buflen = strlen (buf);
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nonintegerlen = 0;
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}
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}
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p = psuffix - buflen;
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memmove (p, buf, buflen);
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integerlim = p + buflen - nonintegerlen;
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}
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goto do_grouping;
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use_integer_arithmetic:
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{
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/* The computation can be done exactly, with integer arithmetic.
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Use power of BASE notation if requested and if adjusted AMT is
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large enough. */
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if (opts & human_autoscale)
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{
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exponent = 0;
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if (base <= amt)
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{
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do
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{
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unsigned int r10 = (amt % base) * 10 + tenths;
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unsigned int r2 = (r10 % base) * 2 + (rounding >> 1);
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amt /= base;
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tenths = r10 / base;
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rounding = (r2 < base
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? (r2 + rounding) != 0
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: 2 + (base < r2 + rounding));
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exponent++;
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}
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while (base <= amt && exponent < exponent_max);
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if (amt < 10)
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{
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if (inexact_style == human_round_to_nearest
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? 2 < rounding + (tenths & 1)
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: inexact_style == human_ceiling && 0 < rounding)
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{
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tenths++;
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rounding = 0;
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if (tenths == 10)
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{
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amt++;
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tenths = 0;
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}
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}
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if (amt < 10
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&& (tenths || ! (opts & human_suppress_point_zero)))
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{
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*--p = '0' + tenths;
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p -= decimal_pointlen;
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memcpy (p, decimal_point, decimal_pointlen);
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tenths = rounding = 0;
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}
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}
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}
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}
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if (inexact_style == human_round_to_nearest
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? 5 < tenths + (0 < rounding + (amt & 1))
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: inexact_style == human_ceiling && 0 < tenths + rounding)
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{
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amt++;
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if ((opts & human_autoscale)
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&& amt == base && exponent < exponent_max)
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{
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exponent++;
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if (! (opts & human_suppress_point_zero))
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{
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*--p = '0';
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p -= decimal_pointlen;
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memcpy (p, decimal_point, decimal_pointlen);
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}
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amt = 1;
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}
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}
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integerlim = p;
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do
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{
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int digit = amt % 10;
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*--p = digit + '0';
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}
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while ((amt /= 10) != 0);
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}
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do_grouping:
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if (opts & human_group_digits)
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p = group_number (p, integerlim - p, grouping, thousands_sep);
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if (opts & human_SI)
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{
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if (exponent < 0)
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{
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uintmax_t power;
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exponent = 0;
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for (power = 1; power < to_block_size; power *= base)
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if (++exponent == exponent_max)
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break;
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}
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if ((exponent | (opts & human_B)) && (opts & human_space_before_unit))
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*psuffix++ = ' ';
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if (exponent)
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*psuffix++ = (! (opts & human_base_1024) && exponent == 1
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? 'k'
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: power_letter[exponent]);
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if (opts & human_B)
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{
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if ((opts & human_base_1024) && exponent)
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*psuffix++ = 'i';
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*psuffix++ = 'B';
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}
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}
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*psuffix = '\0';
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return p;
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}
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/* The default block size used for output. This number may change in
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the future as disks get larger. */
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#ifndef DEFAULT_BLOCK_SIZE
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# define DEFAULT_BLOCK_SIZE 1024
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#endif
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static char const *const block_size_args[] = { "human-readable", "si", 0 };
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static int const block_size_opts[] =
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{
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human_autoscale + human_SI + human_base_1024,
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human_autoscale + human_SI
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};
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static uintmax_t
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default_block_size (void)
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{
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return getenv ("POSIXLY_CORRECT") ? 512 : DEFAULT_BLOCK_SIZE;
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}
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static strtol_error
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humblock (char const *spec, uintmax_t *block_size, int *options)
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{
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int i;
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int opts = 0;
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if (! spec
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&& ! (spec = getenv ("BLOCK_SIZE"))
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&& ! (spec = getenv ("BLOCKSIZE")))
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*block_size = default_block_size ();
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else
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{
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if (*spec == '\'')
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{
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opts |= human_group_digits;
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spec++;
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}
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if (0 <= (i = ARGMATCH (spec, block_size_args, block_size_opts)))
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{
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opts |= block_size_opts[i];
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*block_size = 1;
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}
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else
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{
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char *ptr;
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strtol_error e = xstrtoumax (spec, &ptr, 0, block_size,
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"eEgGkKmMpPtTyYzZ0");
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if (e != LONGINT_OK)
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{
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*options = 0;
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return e;
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}
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for (; ! ('0' <= *spec && *spec <= '9'); spec++)
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if (spec == ptr)
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{
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opts |= human_SI;
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if (ptr[-1] == 'B')
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opts |= human_B;
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if (ptr[-1] != 'B' || ptr[-2] == 'i')
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opts |= human_base_1024;
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break;
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}
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}
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}
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*options = opts;
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return LONGINT_OK;
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}
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int
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human_options (char const *spec, bool report_errors, uintmax_t *block_size)
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{
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int opts;
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strtol_error e = humblock (spec, block_size, &opts);
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if (*block_size == 0)
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{
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*block_size = default_block_size ();
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e = LONGINT_INVALID;
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}
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if (e != LONGINT_OK && report_errors)
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STRTOL_FATAL_ERROR (spec, _("block size"), e);
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return opts;
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}
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