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|
/* Reformat numbers like 11505426432 to the more human-readable 11G
Copyright (C) 2012-2015 Free Software Foundation, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
#include <config.h>
#include <float.h>
#include <getopt.h>
#include <stdio.h>
#include <sys/types.h>
#include <langinfo.h>
#include "mbsalign.h"
#include "argmatch.h"
#include "c-ctype.h"
#include "error.h"
#include "quote.h"
#include "system.h"
#include "xstrtol.h"
#include "xstrndup.h"
/* The official name of this program (e.g., no 'g' prefix). */
#define PROGRAM_NAME "numfmt"
#define AUTHORS proper_name ("Assaf Gordon")
/* Exit code when some numbers fail to convert. */
enum { EXIT_CONVERSION_WARNINGS = 2 };
enum
{
FROM_OPTION = CHAR_MAX + 1,
FROM_UNIT_OPTION,
TO_OPTION,
TO_UNIT_OPTION,
ROUND_OPTION,
SUFFIX_OPTION,
GROUPING_OPTION,
PADDING_OPTION,
FIELD_OPTION,
DEBUG_OPTION,
DEV_DEBUG_OPTION,
HEADER_OPTION,
FORMAT_OPTION,
INVALID_OPTION
};
enum scale_type
{
scale_none, /* the default: no scaling. */
scale_auto, /* --from only. */
scale_SI,
scale_IEC,
scale_IEC_I /* 'i' suffix is required. */
};
static char const *const scale_from_args[] =
{
"none", "auto", "si", "iec", "iec-i", NULL
};
static enum scale_type const scale_from_types[] =
{
scale_none, scale_auto, scale_SI, scale_IEC, scale_IEC_I
};
static char const *const scale_to_args[] =
{
"none", "si", "iec", "iec-i", NULL
};
static enum scale_type const scale_to_types[] =
{
scale_none, scale_SI, scale_IEC, scale_IEC_I
};
enum round_type
{
round_ceiling,
round_floor,
round_from_zero,
round_to_zero,
round_nearest,
};
static char const *const round_args[] =
{
"up", "down", "from-zero", "towards-zero", "nearest", NULL
};
static enum round_type const round_types[] =
{
round_ceiling, round_floor, round_from_zero, round_to_zero, round_nearest
};
enum inval_type
{
inval_abort,
inval_fail,
inval_warn,
inval_ignore
};
static char const *const inval_args[] =
{
"abort", "fail", "warn", "ignore", NULL
};
static enum inval_type const inval_types[] =
{
inval_abort, inval_fail, inval_warn, inval_ignore
};
static struct option const longopts[] =
{
{"from", required_argument, NULL, FROM_OPTION},
{"from-unit", required_argument, NULL, FROM_UNIT_OPTION},
{"to", required_argument, NULL, TO_OPTION},
{"to-unit", required_argument, NULL, TO_UNIT_OPTION},
{"round", required_argument, NULL, ROUND_OPTION},
{"padding", required_argument, NULL, PADDING_OPTION},
{"suffix", required_argument, NULL, SUFFIX_OPTION},
{"grouping", no_argument, NULL, GROUPING_OPTION},
{"delimiter", required_argument, NULL, 'd'},
{"field", required_argument, NULL, FIELD_OPTION},
{"debug", no_argument, NULL, DEBUG_OPTION},
{"-debug", no_argument, NULL, DEV_DEBUG_OPTION},
{"header", optional_argument, NULL, HEADER_OPTION},
{"format", required_argument, NULL, FORMAT_OPTION},
{"invalid", required_argument, NULL, INVALID_OPTION},
{GETOPT_HELP_OPTION_DECL},
{GETOPT_VERSION_OPTION_DECL},
{NULL, 0, NULL, 0}
};
/* If delimiter has this value, blanks separate fields. */
enum { DELIMITER_DEFAULT = CHAR_MAX + 1 };
/* Maximum number of digits we can safely handle
without precision loss, if scaling is 'none'. */
enum { MAX_UNSCALED_DIGITS = 18 };
/* Maximum number of digits we can work with.
This is equivalent to 999Y.
NOTE: 'long double' can handle more than that, but there's
no official suffix assigned beyond Yotta (1000^8). */
enum { MAX_ACCEPTABLE_DIGITS = 27 };
static enum scale_type scale_from = scale_none;
static enum scale_type scale_to = scale_none;
static enum round_type round_style = round_from_zero;
static enum inval_type inval_style = inval_abort;
static const char *suffix = NULL;
static uintmax_t from_unit_size = 1;
static uintmax_t to_unit_size = 1;
static int grouping = 0;
static char *padding_buffer = NULL;
static size_t padding_buffer_size = 0;
static long int padding_width = 0;
static long int zero_padding_width = 0;
static const char *format_str = NULL;
static char *format_str_prefix = NULL;
static char *format_str_suffix = NULL;
/* By default, any conversion error will terminate the program. */
static int conv_exit_code = EXIT_CONVERSION_WARNINGS;
/* auto-pad each line based on skipped whitespace. */
static int auto_padding = 0;
static mbs_align_t padding_alignment = MBS_ALIGN_RIGHT;
static long int field = 1;
static int delimiter = DELIMITER_DEFAULT;
/* if non-zero, the first 'header' lines from STDIN are skipped. */
static uintmax_t header = 0;
/* Debug for users: print warnings to STDERR about possible
error (similar to sort's debug). */
static bool debug;
/* will be set according to the current locale. */
static const char *decimal_point;
static int decimal_point_length;
/* debugging for developers. Enables devmsg(). */
static bool dev_debug = false;
static inline int
default_scale_base (enum scale_type scale)
{
switch (scale)
{
case scale_IEC:
case scale_IEC_I:
return 1024;
case scale_none:
case scale_auto:
case scale_SI:
default:
return 1000;
}
}
static inline int
valid_suffix (const char suf)
{
static const char *valid_suffixes = "KMGTPEZY";
return (strchr (valid_suffixes, suf) != NULL);
}
static inline int
suffix_power (const char suf)
{
switch (suf)
{
case 'K': /* kilo or kibi. */
return 1;
case 'M': /* mega or mebi. */
return 2;
case 'G': /* giga or gibi. */
return 3;
case 'T': /* tera or tebi. */
return 4;
case 'P': /* peta or pebi. */
return 5;
case 'E': /* exa or exbi. */
return 6;
case 'Z': /* zetta or 2**70. */
return 7;
case 'Y': /* yotta or 2**80. */
return 8;
default: /* should never happen. assert? */
return 0;
}
}
static inline const char *
suffix_power_char (unsigned int power)
{
switch (power)
{
case 0:
return "";
case 1:
return "K";
case 2:
return "M";
case 3:
return "G";
case 4:
return "T";
case 5:
return "P";
case 6:
return "E";
case 7:
return "Z";
case 8:
return "Y";
default:
return "(error)";
}
}
/* Similar to 'powl(3)' but without requiring 'libm'. */
static long double
powerld (long double base, unsigned int x)
{
long double result = base;
if (x == 0)
return 1; /* note for test coverage: this is never
reached, as 'powerld' won't be called if
there's no suffix, hence, no "power". */
/* TODO: check for overflow, inf? */
while (--x)
result *= base;
return result;
}
/* Similar to 'fabs(3)' but without requiring 'libm'. */
static inline long double
absld (long double val)
{
return val < 0 ? -val : val;
}
/* Scale down 'val', returns 'updated val' and 'x', such that
val*base^X = original val
Similar to "frexpl(3)" but without requiring 'libm',
allowing only integer scale, limited functionality and error checking. */
static long double
expld (long double val, unsigned int base, unsigned int /*output */ *x)
{
unsigned int power = 0;
if (val >= -LDBL_MAX && val <= LDBL_MAX)
{
while (absld (val) >= base)
{
++power;
val /= base;
}
}
if (x)
*x = power;
return val;
}
/* EXTREMELY limited 'ceil' - without 'libm'.
Assumes values that fit in intmax_t. */
static inline intmax_t
simple_round_ceiling (long double val)
{
intmax_t intval = val;
if (intval < val)
intval++;
return intval;
}
/* EXTREMELY limited 'floor' - without 'libm'.
Assumes values that fit in intmax_t. */
static inline intmax_t
simple_round_floor (long double val)
{
return -simple_round_ceiling (-val);
}
/* EXTREMELY limited 'round away from zero'.
Assumes values that fit in intmax_t. */
static inline intmax_t
simple_round_from_zero (long double val)
{
return val < 0 ? simple_round_floor (val) : simple_round_ceiling (val);
}
/* EXTREMELY limited 'round away to zero'.
Assumes values that fit in intmax_t. */
static inline intmax_t
simple_round_to_zero (long double val)
{
return val;
}
/* EXTREMELY limited 'round' - without 'libm'.
Assumes values that fit in intmax_t. */
static inline intmax_t
simple_round_nearest (long double val)
{
return val < 0 ? val - 0.5 : val + 0.5;
}
static inline intmax_t
simple_round (long double val, enum round_type t)
{
switch (t)
{
case round_ceiling:
return simple_round_ceiling (val);
case round_floor:
return simple_round_floor (val);
case round_from_zero:
return simple_round_from_zero (val);
case round_to_zero:
return simple_round_to_zero (val);
case round_nearest:
return simple_round_nearest (val);
default:
/* to silence the compiler - this should never happen. */
return 0;
}
}
enum simple_strtod_error
{
SSE_OK = 0,
SSE_OK_PRECISION_LOSS,
SSE_OVERFLOW,
SSE_INVALID_NUMBER,
/* the following are returned by 'simple_strtod_human'. */
SSE_VALID_BUT_FORBIDDEN_SUFFIX,
SSE_INVALID_SUFFIX,
SSE_MISSING_I_SUFFIX
};
/* Read an *integer* INPUT_STR,
but return the integer value in a 'long double' VALUE
hence, no UINTMAX_MAX limitation.
NEGATIVE is updated, and is stored separately from the VALUE
so that signbit() isn't required to determine the sign of -0..
ENDPTR is required (unlike strtod) and is used to store a pointer
to the character after the last character used in the conversion.
Note locale'd grouping is not supported,
nor is skipping of white-space supported.
Returns:
SSE_OK - valid number.
SSE_OK_PRECISION_LOSS - if more than 18 digits were used.
SSE_OVERFLOW - if more than 27 digits (999Y) were used.
SSE_INVALID_NUMBER - if no digits were found. */
static enum simple_strtod_error
simple_strtod_int (const char *input_str,
char **endptr, long double *value, bool *negative)
{
enum simple_strtod_error e = SSE_OK;
long double val = 0;
unsigned int digits = 0;
if (*input_str == '-')
{
input_str++;
*negative = true;
}
else
*negative = false;
*endptr = (char *) input_str;
while (*endptr && c_isdigit (**endptr))
{
int digit = (**endptr) - '0';
if (digits > MAX_UNSCALED_DIGITS)
e = SSE_OK_PRECISION_LOSS;
++digits;
if (digits > MAX_ACCEPTABLE_DIGITS)
return SSE_OVERFLOW;
val *= 10;
val += digit;
++(*endptr);
}
if (digits == 0)
return SSE_INVALID_NUMBER;
if (*negative)
val = -val;
if (value)
*value = val;
return e;
}
/* Read a floating-point INPUT_STR represented as "NNNN[.NNNNN]",
and return the value in a 'long double' VALUE.
ENDPTR is required (unlike strtod) and is used to store a pointer
to the character after the last character used in the conversion.
PRECISION is optional and used to indicate fractions are present.
Note locale'd grouping is not supported,
nor is skipping of white-space supported.
Returns:
SSE_OK - valid number.
SSE_OK_PRECISION_LOSS - if more than 18 digits were used.
SSE_OVERFLOW - if more than 27 digits (999Y) were used.
SSE_INVALID_NUMBER - if no digits were found. */
static enum simple_strtod_error
simple_strtod_float (const char *input_str,
char **endptr,
long double *value,
size_t *precision)
{
bool negative;
enum simple_strtod_error e = SSE_OK;
if (precision)
*precision = 0;
/* TODO: accept locale'd grouped values for the integral part. */
e = simple_strtod_int (input_str, endptr, value, &negative);
if (e != SSE_OK && e != SSE_OK_PRECISION_LOSS)
return e;
/* optional decimal point + fraction. */
if (STREQ_LEN (*endptr, decimal_point, decimal_point_length))
{
char *ptr2;
long double val_frac = 0;
bool neg_frac;
(*endptr) += decimal_point_length;
enum simple_strtod_error e2 =
simple_strtod_int (*endptr, &ptr2, &val_frac, &neg_frac);
if (e2 != SSE_OK && e2 != SSE_OK_PRECISION_LOSS)
return e2;
if (e2 == SSE_OK_PRECISION_LOSS)
e = e2; /* propagate warning. */
if (neg_frac)
return SSE_INVALID_NUMBER;
/* number of digits in the fractions. */
size_t exponent = ptr2 - *endptr;
val_frac = ((long double) val_frac) / powerld (10, exponent);
if (value)
{
if (negative)
*value -= val_frac;
else
*value += val_frac;
}
if (precision)
*precision = exponent;
*endptr = ptr2;
}
return e;
}
/* Read a 'human' INPUT_STR represented as "NNNN[.NNNNN] + suffix",
and return the value in a 'long double' VALUE,
with the precision of the input returned in PRECISION.
ENDPTR is required (unlike strtod) and is used to store a pointer
to the character after the last character used in the conversion.
ALLOWED_SCALING determines the scaling supported.
TODO:
support locale'd grouping
accept scentific and hex floats (probably use strtold directly)
Returns:
SSE_OK - valid number.
SSE_OK_PRECISION_LOSS - if more than 18 digits were used.
SSE_OVERFLOW - if more than 27 digits (999Y) were used.
SSE_INVALID_NUMBER - if no digits were found.
SSE_VALID_BUT_FORBIDDEN_SUFFIX
SSE_INVALID_SUFFIX
SSE_MISSING_I_SUFFIX */
static enum simple_strtod_error
simple_strtod_human (const char *input_str,
char **endptr, long double *value, size_t *precision,
enum scale_type allowed_scaling)
{
int power = 0;
/* 'scale_auto' is checked below. */
int scale_base = default_scale_base (allowed_scaling);
devmsg ("simple_strtod_human:\n input string: %s\n "
"locale decimal-point: %s\n",
quote_n (0, input_str), quote_n (1, decimal_point));
enum simple_strtod_error e =
simple_strtod_float (input_str, endptr, value, precision);
if (e != SSE_OK && e != SSE_OK_PRECISION_LOSS)
return e;
devmsg (" parsed numeric value: %Lf\n"
" input precision = %d\n", *value, (int)*precision);
if (**endptr != '\0')
{
/* process suffix. */
/* Skip any blanks between the number and suffix. */
while (isblank (to_uchar (**endptr)))
(*endptr)++;
if (!valid_suffix (**endptr))
return SSE_INVALID_SUFFIX;
if (allowed_scaling == scale_none)
return SSE_VALID_BUT_FORBIDDEN_SUFFIX;
power = suffix_power (**endptr);
(*endptr)++; /* skip first suffix character. */
if (allowed_scaling == scale_auto && **endptr == 'i')
{
/* auto-scaling enabled, and the first suffix character
is followed by an 'i' (e.g. Ki, Mi, Gi). */
scale_base = 1024;
(*endptr)++; /* skip second ('i') suffix character. */
devmsg (" Auto-scaling, found 'i', switching to base %d\n",
scale_base);
}
*precision = 0; /* Reset, to select precision based on scale. */
}
if (allowed_scaling == scale_IEC_I)
{
if (**endptr == 'i')
(*endptr)++;
else
return SSE_MISSING_I_SUFFIX;
}
long double multiplier = powerld (scale_base, power);
devmsg (" suffix power=%d^%d = %Lf\n", scale_base, power, multiplier);
/* TODO: detect loss of precision and overflows. */
(*value) = (*value) * multiplier;
devmsg (" returning value: %Lf (%LG)\n", *value, *value);
return e;
}
static void
simple_strtod_fatal (enum simple_strtod_error err, char const *input_str)
{
char const *msgid = NULL;
switch (err)
{
case SSE_OK_PRECISION_LOSS:
case SSE_OK:
/* should never happen - this function isn't called when OK. */
abort ();
case SSE_OVERFLOW:
msgid = N_("value too large to be converted: %s");
break;
case SSE_INVALID_NUMBER:
msgid = N_("invalid number: %s");
break;
case SSE_VALID_BUT_FORBIDDEN_SUFFIX:
msgid = N_("rejecting suffix in input: %s (consider using --from)");
break;
case SSE_INVALID_SUFFIX:
msgid = N_("invalid suffix in input: %s");
break;
case SSE_MISSING_I_SUFFIX:
msgid = N_("missing 'i' suffix in input: %s (e.g Ki/Mi/Gi)");
break;
}
if (inval_style != inval_ignore)
error (conv_exit_code, 0, gettext (msgid), quote (input_str));
}
/* Convert VAL to a human format string in BUF. */
static void
double_to_human (long double val, int precision,
char *buf, size_t buf_size,
enum scale_type scale, int group, enum round_type round)
{
int num_size;
char fmt[64];
verify (sizeof (fmt) > (INT_BUFSIZE_BOUND (zero_padding_width)
+ INT_BUFSIZE_BOUND (precision)
+ 10 /* for %.Lf etc. */));
char *pfmt = fmt;
*pfmt++ = '%';
if (group)
*pfmt++ = '\'';
if (zero_padding_width)
pfmt += snprintf (pfmt, sizeof (fmt) - 2, "0%ld", zero_padding_width);
devmsg ("double_to_human:\n");
if (scale == scale_none)
{
val *= powerld (10, precision);
val = simple_round (val, round);
val /= powerld (10, precision);
devmsg ((group) ?
" no scaling, returning (grouped) value: %'.*Lf\n" :
" no scaling, returning value: %.*Lf\n", precision, val);
stpcpy (pfmt, ".*Lf");
num_size = snprintf (buf, buf_size, fmt, precision, val);
if (num_size < 0 || num_size >= (int) buf_size)
error (EXIT_FAILURE, 0,
_("failed to prepare value '%Lf' for printing"), val);
return;
}
/* Scaling requested by user. */
double scale_base = default_scale_base (scale);
/* Normalize val to scale. */
unsigned int power = 0;
val = expld (val, scale_base, &power);
devmsg (" scaled value to %Lf * %0.f ^ %u\n", val, scale_base, power);
/* Perform rounding. */
int ten_or_less = 0;
if (absld (val) < 10)
{
/* for values less than 10, we allow one decimal-point digit,
so adjust before rounding. */
ten_or_less = 1;
val *= 10;
}
val = simple_round (val, round);
/* two special cases after rounding:
1. a "999.99" can turn into 1000 - so scale down
2. a "9.99" can turn into 10 - so don't display decimal-point. */
if (absld (val) >= scale_base)
{
val /= scale_base;
power++;
}
if (ten_or_less)
val /= 10;
/* should "7.0" be printed as "7" ?
if removing the ".0" is preferred, enable the fourth condition. */
int show_decimal_point = (val != 0) && (absld (val) < 10) && (power > 0);
/* && (absld (val) > simple_round_floor (val))) */
devmsg (" after rounding, value=%Lf * %0.f ^ %u\n", val, scale_base, power);
stpcpy (pfmt, show_decimal_point ? ".1Lf%s" : ".0Lf%s");
/* buf_size - 1 used here to ensure place for possible scale_IEC_I suffix. */
num_size = snprintf (buf, buf_size - 1, fmt, val, suffix_power_char (power));
if (num_size < 0 || num_size >= (int) buf_size - 1)
error (EXIT_FAILURE, 0,
_("failed to prepare value '%Lf' for printing"), val);
if (scale == scale_IEC_I && power > 0)
strncat (buf, "i", buf_size - num_size - 1);
devmsg (" returning value: %s\n", quote (buf));
return;
}
/* Convert a string of decimal digits, N_STRING, with an optional suffix
to an integral value. Upon successful conversion, return that value.
If it cannot be converted, give a diagnostic and exit. */
static uintmax_t
unit_to_umax (const char *n_string)
{
strtol_error s_err;
char *end = NULL;
uintmax_t n;
s_err = xstrtoumax (n_string, &end, 10, &n, "KMGTPEZY");
if (s_err != LONGINT_OK || *end || n == 0)
error (EXIT_FAILURE, 0, _("invalid unit size: %s"), quote (n_string));
return n;
}
static void
setup_padding_buffer (size_t min_size)
{
if (padding_buffer_size > min_size)
return;
padding_buffer_size = min_size + 1;
padding_buffer = xrealloc (padding_buffer, padding_buffer_size);
}
void
usage (int status)
{
if (status != EXIT_SUCCESS)
emit_try_help ();
else
{
printf (_("\
Usage: %s [OPTION]... [NUMBER]...\n\
"), program_name);
fputs (_("\
Reformat NUMBER(s), or the numbers from standard input if none are specified.\n\
"), stdout);
emit_mandatory_arg_note ();
fputs (_("\
--debug print warnings about invalid input\n\
"), stdout);
fputs (_("\
-d, --delimiter=X use X instead of whitespace for field delimiter\n\
"), stdout);
fputs (_("\
--field=N replace the number in input field N (default is 1)\n\
"), stdout);
fputs (_("\
--format=FORMAT use printf style floating-point FORMAT;\n\
see FORMAT below for details\n\
"), stdout);
fputs (_("\
--from=UNIT auto-scale input numbers to UNITs; default is 'none';\n\
see UNIT below\n\
"), stdout);
fputs (_("\
--from-unit=N specify the input unit size (instead of the default 1)\n\
"), stdout);
fputs (_("\
--grouping use locale-defined grouping of digits, e.g. 1,000,000\n\
(which means it has no effect in the C/POSIX locale)\n\
"), stdout);
fputs (_("\
--header[=N] print (without converting) the first N header lines;\n\
N defaults to 1 if not specified\n\
"), stdout);
fputs (_("\
--invalid=MODE failure mode for invalid numbers: MODE can be:\n\
abort (default), fail, warn, ignore\n\
"), stdout);
fputs (_("\
--padding=N pad the output to N characters; positive N will\n\
right-align; negative N will left-align;\n\
padding is ignored if the output is wider than N;\n\
the default is to automatically pad if a whitespace\n\
is found\n\
"), stdout);
fputs (_("\
--round=METHOD use METHOD for rounding when scaling; METHOD can be:\n\
up, down, from-zero (default), towards-zero, nearest\n\
"), stdout);
fputs (_("\
--suffix=SUFFIX add SUFFIX to output numbers, and accept optional\n\
SUFFIX in input numbers\n\
"), stdout);
fputs (_("\
--to=UNIT auto-scale output numbers to UNITs; see UNIT below\n\
"), stdout);
fputs (_("\
--to-unit=N the output unit size (instead of the default 1)\n\
"), stdout);
fputs (HELP_OPTION_DESCRIPTION, stdout);
fputs (VERSION_OPTION_DESCRIPTION, stdout);
fputs (_("\
\n\
UNIT options:\n"), stdout);
fputs (_("\
none no auto-scaling is done; suffixes will trigger an error\n\
"), stdout);
fputs (_("\
auto accept optional single/two letter suffix:\n\
1K = 1000,\n\
1Ki = 1024,\n\
1M = 1000000,\n\
1Mi = 1048576,\n"), stdout);
fputs (_("\
si accept optional single letter suffix:\n\
1K = 1000,\n\
1M = 1000000,\n\
...\n"), stdout);
fputs (_("\
iec accept optional single letter suffix:\n\
1K = 1024,\n\
1M = 1048576,\n\
...\n"), stdout);
fputs (_("\
iec-i accept optional two-letter suffix:\n\
1Ki = 1024,\n\
1Mi = 1048576,\n\
...\n"), stdout);
fputs (_("\n\
FORMAT must be suitable for printing one floating-point argument '%f'.\n\
Optional quote (%'f) will enable --grouping (if supported by current locale).\n\
Optional width value (%10f) will pad output. Optional zero (%010f) width\n\
will zero pad the number. Optional negative values (%-10f) will left align.\n\
"), stdout);
printf (_("\n\
Exit status is 0 if all input numbers were successfully converted.\n\
By default, %s will stop at the first conversion error with exit status 2.\n\
With --invalid='fail' a warning is printed for each conversion error\n\
and the exit status is 2. With --invalid='warn' each conversion error is\n\
diagnosed, but the exit status is 0. With --invalid='ignore' conversion\n\
errors are not diagnosed and the exit status is 0.\n\
"), program_name);
printf (_("\n\
Examples:\n\
$ %s --to=si 1000\n\
-> \"1.0K\"\n\
$ %s --to=iec 2048\n\
-> \"2.0K\"\n\
$ %s --to=iec-i 4096\n\
-> \"4.0Ki\"\n\
$ echo 1K | %s --from=si\n\
-> \"1000\"\n\
$ echo 1K | %s --from=iec\n\
-> \"1024\"\n\
$ df | %s --header --field 2 --to=si\n\
$ ls -l | %s --header --field 5 --to=iec\n\
$ ls -lh | %s --header --field 5 --from=iec --padding=10\n\
$ ls -lh | %s --header --field 5 --from=iec --format %%10f\n"),
program_name, program_name, program_name,
program_name, program_name, program_name,
program_name, program_name, program_name);
emit_ancillary_info (PROGRAM_NAME);
}
exit (status);
}
/* Given 'fmt' (a printf(3) compatible format string), extracts the following:
1. padding (e.g. %20f)
2. alignment (e.g. %-20f)
3. grouping (e.g. %'f)
Only a limited subset of printf(3) syntax is supported.
TODO:
support .precision
support %e %g etc. rather than just %f
NOTES:
1. This function sets the global variables:
padding_width, padding_alignment, grouping,
format_str_prefix, format_str_suffix
2. The function aborts on any errors. */
static void
parse_format_string (char const *fmt)
{
size_t i;
size_t prefix_len = 0;
size_t suffix_pos;
long int pad = 0;
char *endptr = NULL;
bool zero_padding = false;
for (i = 0; !(fmt[i] == '%' && fmt[i + 1] != '%'); i += (fmt[i] == '%') + 1)
{
if (!fmt[i])
error (EXIT_FAILURE, 0,
_("format %s has no %% directive"), quote (fmt));
prefix_len++;
}
i++;
while (true)
{
size_t skip = strspn (fmt + i, " ");
i += skip;
if (fmt[i] == '\'')
{
grouping = 1;
i++;
}
else if (fmt[i] == '0')
{
zero_padding = true;
i++;
}
else if (! skip)
break;
}
errno = 0;
pad = strtol (fmt + i, &endptr, 10);
if (errno == ERANGE)
error (EXIT_FAILURE, 0,
_("invalid format %s (width overflow)"), quote (fmt));
if (endptr != (fmt + i) && pad != 0)
{
if (debug && padding_width && !(zero_padding && pad > 0))
error (0, 0, _("--format padding overriding --padding"));
if (pad < 0)
{
padding_alignment = MBS_ALIGN_LEFT;
padding_width = -pad;
}
else
{
if (zero_padding)
zero_padding_width = pad;
else
padding_width = pad;
}
}
i = endptr - fmt;
if (fmt[i] == '\0')
error (EXIT_FAILURE, 0, _("format %s ends in %%"), quote (fmt));
if (fmt[i] != 'f')
error (EXIT_FAILURE, 0, _("invalid format %s,"
" directive must be %%[0]['][-][N]f"),
quote (fmt));
i++;
suffix_pos = i;
for (; fmt[i] != '\0'; i += (fmt[i] == '%') + 1)
if (fmt[i] == '%' && fmt[i + 1] != '%')
error (EXIT_FAILURE, 0, _("format %s has too many %% directives"),
quote (fmt));
if (prefix_len)
format_str_prefix = xstrndup (fmt, prefix_len);
if (fmt[suffix_pos] != '\0')
format_str_suffix = xstrdup (fmt + suffix_pos);
devmsg ("format String:\n input: %s\n grouping: %s\n"
" padding width: %ld\n alignment: %s\n"
" prefix: %s\n suffix: %s\n",
quote_n (0, fmt), (grouping) ? "yes" : "no",
padding_width,
(padding_alignment == MBS_ALIGN_LEFT) ? "Left" : "Right",
quote_n (1, format_str_prefix ? format_str_prefix : ""),
quote_n (2, format_str_suffix ? format_str_suffix : ""));
}
/* Parse a numeric value (with optional suffix) from a string.
Returns a long double value, with input precision.
If there's an error converting the string to value - exits with
an error.
If there are any trailing characters after the number
(besides a valid suffix) - exits with an error. */
static enum simple_strtod_error
parse_human_number (const char *str, long double /*output */ *value,
size_t *precision)
{
char *ptr = NULL;
enum simple_strtod_error e =
simple_strtod_human (str, &ptr, value, precision, scale_from);
if (e != SSE_OK && e != SSE_OK_PRECISION_LOSS)
{
simple_strtod_fatal (e, str);
return e;
}
if (ptr && *ptr != '\0')
{
if (inval_style != inval_ignore)
error (conv_exit_code, 0, _("invalid suffix in input %s: %s"),
quote_n (0, str), quote_n (1, ptr));
e = SSE_INVALID_SUFFIX;
}
return e;
}
/* Print the given VAL, using the requested representation.
The number is printed to STDOUT, with padding and alignment. */
static int
prepare_padded_number (const long double val, size_t precision)
{
/* Generate Output. */
char buf[128];
/* Can't reliably print too-large values without auto-scaling. */
unsigned int x;
expld (val, 10, &x);
if (scale_to == scale_none && x > MAX_UNSCALED_DIGITS)
{
if (inval_style != inval_ignore)
error (conv_exit_code, 0, _("value too large to be printed: '%Lg'"
" (consider using --to)"), val);
return 0;
}
if (x > MAX_ACCEPTABLE_DIGITS - 1)
{
if (inval_style != inval_ignore)
error (conv_exit_code, 0, _("value too large to be printed: '%Lg'"
" (cannot handle values > 999Y)"), val);
return 0;
}
double_to_human (val, precision, buf, sizeof (buf), scale_to, grouping,
round_style);
if (suffix)
strncat (buf, suffix, sizeof (buf) - strlen (buf) -1);
devmsg ("formatting output:\n value: %Lf\n humanized: %s\n",
val, quote (buf));
if (padding_width && strlen (buf) < padding_width)
{
size_t w = padding_width;
mbsalign (buf, padding_buffer, padding_buffer_size, &w,
padding_alignment, MBA_UNIBYTE_ONLY);
devmsg (" After padding: %s\n", quote (padding_buffer));
}
else
{
setup_padding_buffer (strlen (buf) + 1);
strcpy (padding_buffer, buf);
}
return 1;
}
static void
print_padded_number (void)
{
if (format_str_prefix)
fputs (format_str_prefix, stdout);
fputs (padding_buffer, stdout);
if (format_str_suffix)
fputs (format_str_suffix, stdout);
}
/* Converts the TEXT number string to the requested representation,
and handles automatic suffix addition. */
static int
process_suffixed_number (char *text, long double *result, size_t *precision)
{
if (suffix && strlen (text) > strlen (suffix))
{
char *possible_suffix = text + strlen (text) - strlen (suffix);
if (STREQ (suffix, possible_suffix))
{
/* trim suffix, ONLY if it's at the end of the text. */
*possible_suffix = '\0';
devmsg ("trimming suffix %s\n", quote (suffix));
}
else
devmsg ("no valid suffix found\n");
}
/* Skip white space - always. */
char *p = text;
while (*p && isblank (to_uchar (*p)))
++p;
const unsigned int skip_count = text - p;
/* setup auto-padding. */
if (auto_padding)
{
if (skip_count > 0 || field > 1)
{
padding_width = strlen (text);
setup_padding_buffer (padding_width);
}
else
{
padding_width = 0;
}
devmsg ("setting Auto-Padding to %ld characters\n", padding_width);
}
long double val = 0;
enum simple_strtod_error e = parse_human_number (p, &val, precision);
if (e == SSE_OK_PRECISION_LOSS && debug)
error (0, 0, _("large input value %s: possible precision loss"),
quote (p));
if (from_unit_size != 1 || to_unit_size != 1)
val = (val * from_unit_size) / to_unit_size;
*result = val;
return (e == SSE_OK || e == SSE_OK_PRECISION_LOSS);
}
/* Skip the requested number of fields in the input string.
Returns a pointer to the *delimiter* of the requested field,
or a pointer to NUL (if reached the end of the string). */
static inline char * _GL_ATTRIBUTE_PURE
skip_fields (char *buf, int fields)
{
char *ptr = buf;
if (delimiter != DELIMITER_DEFAULT)
{
if (*ptr == delimiter)
fields--;
while (*ptr && fields--)
{
while (*ptr && *ptr == delimiter)
++ptr;
while (*ptr && *ptr != delimiter)
++ptr;
}
}
else
while (*ptr && fields--)
{
while (*ptr && isblank (to_uchar (*ptr)))
++ptr;
while (*ptr && !isblank (to_uchar (*ptr)))
++ptr;
}
return ptr;
}
/* Parse a delimited string, and extracts the requested field.
NOTE: the input buffer is modified.
TODO:
Maybe support multiple fields, though can always pipe output
into another numfmt to process other fields.
Maybe default to processing all fields rather than just first?
Output:
_PREFIX, _DATA, _SUFFIX will point to the relevant positions
in the input string, or be NULL if such a part doesn't exist. */
static void
extract_fields (char *line, int _field,
char ** _prefix, char ** _data, char ** _suffix)
{
char *ptr = line;
*_prefix = NULL;
*_data = NULL;
*_suffix = NULL;
devmsg ("extracting Fields:\n input: %s\n field: %d\n",
quote (line), _field);
if (field > 1)
{
/* skip the requested number of fields. */
*_prefix = line;
ptr = skip_fields (line, field - 1);
if (*ptr == '\0')
{
/* not enough fields in the input - print warning? */
devmsg (" TOO FEW FIELDS!\n prefix: %s\n", quote (*_prefix));
return;
}
*ptr = '\0';
++ptr;
}
*_data = ptr;
*_suffix = skip_fields (*_data, 1);
if (**_suffix)
{
/* there is a suffix (i.e., the field is not the last on the line),
so null-terminate the _data before it. */
**_suffix = '\0';
++(*_suffix);
}
else
*_suffix = NULL;
devmsg (" prefix: %s\n number: %s\n suffix: %s\n",
quote_n (0, *_prefix ? *_prefix : ""),
quote_n (1, *_data),
quote_n (2, *_suffix ? *_suffix : ""));
}
/* Convert a number in a given line of text.
NEWLINE specifies whether to output a '\n' for this "line". */
static int
process_line (char *line, bool newline)
{
char *pre, *num, *suf;
long double val = 0;
size_t precision = 0;
int valid_number = 0;
extract_fields (line, field, &pre, &num, &suf);
if (!num)
if (inval_style != inval_ignore)
error (conv_exit_code, 0, _("input line is too short, "
"no numbers found to convert in field %ld"),
field);
if (num)
{
valid_number = process_suffixed_number (num, &val, &precision);
if (valid_number)
valid_number = prepare_padded_number (val, precision);
}
if (pre)
fputs (pre, stdout);
if (pre && num)
fputc ((delimiter == DELIMITER_DEFAULT) ? ' ' : delimiter, stdout);
if (valid_number)
{
print_padded_number ();
}
else
{
if (num)
fputs (num, stdout);
}
if (suf)
{
fputc ((delimiter == DELIMITER_DEFAULT) ? ' ' : delimiter, stdout);
fputs (suf, stdout);
}
if (newline)
putchar ('\n');
return valid_number;
}
int
main (int argc, char **argv)
{
int valid_numbers = 1;
initialize_main (&argc, &argv);
set_program_name (argv[0]);
setlocale (LC_ALL, "");
bindtextdomain (PACKAGE, LOCALEDIR);
textdomain (PACKAGE);
decimal_point = nl_langinfo (RADIXCHAR);
if (decimal_point == NULL || strlen (decimal_point) == 0)
decimal_point = ".";
decimal_point_length = strlen (decimal_point);
atexit (close_stdout);
while (true)
{
int c = getopt_long (argc, argv, "d:", longopts, NULL);
if (c == -1)
break;
switch (c)
{
case FROM_OPTION:
scale_from = XARGMATCH ("--from", optarg,
scale_from_args, scale_from_types);
break;
case FROM_UNIT_OPTION:
from_unit_size = unit_to_umax (optarg);
break;
case TO_OPTION:
scale_to =
XARGMATCH ("--to", optarg, scale_to_args, scale_to_types);
break;
case TO_UNIT_OPTION:
to_unit_size = unit_to_umax (optarg);
break;
case ROUND_OPTION:
round_style = XARGMATCH ("--round", optarg, round_args, round_types);
break;
case GROUPING_OPTION:
grouping = 1;
break;
case PADDING_OPTION:
if (xstrtol (optarg, NULL, 10, &padding_width, "") != LONGINT_OK
|| padding_width == 0)
error (EXIT_FAILURE, 0, _("invalid padding value %s"),
quote (optarg));
if (padding_width < 0)
{
padding_alignment = MBS_ALIGN_LEFT;
padding_width = -padding_width;
}
/* TODO: We probably want to apply a specific --padding
to --header lines too. */
break;
case FIELD_OPTION:
if (xstrtol (optarg, NULL, 10, &field, "") != LONGINT_OK
|| field <= 0)
error (EXIT_FAILURE, 0, _("invalid field value %s"),
quote (optarg));
break;
case 'd':
/* Interpret -d '' to mean 'use the NUL byte as the delimiter.' */
if (optarg[0] != '\0' && optarg[1] != '\0')
error (EXIT_FAILURE, 0,
_("the delimiter must be a single character"));
delimiter = optarg[0];
break;
case SUFFIX_OPTION:
suffix = optarg;
break;
case DEBUG_OPTION:
debug = true;
break;
case DEV_DEBUG_OPTION:
dev_debug = true;
debug = true;
break;
case HEADER_OPTION:
if (optarg)
{
if (xstrtoumax (optarg, NULL, 10, &header, "") != LONGINT_OK
|| header == 0)
error (EXIT_FAILURE, 0, _("invalid header value %s"),
quote (optarg));
}
else
{
header = 1;
}
break;
case FORMAT_OPTION:
format_str = optarg;
break;
case INVALID_OPTION:
inval_style = XARGMATCH ("--invalid", optarg,
inval_args, inval_types);
break;
case_GETOPT_HELP_CHAR;
case_GETOPT_VERSION_CHAR (PROGRAM_NAME, AUTHORS);
default:
usage (EXIT_FAILURE);
}
}
if (format_str != NULL && grouping)
error (EXIT_FAILURE, 0, _("--grouping cannot be combined with --format"));
/* Warn about no-op. */
if (debug && scale_from == scale_none && scale_to == scale_none
&& !grouping && (padding_width == 0) && (format_str == NULL))
error (0, 0, _("no conversion option specified"));
if (format_str)
parse_format_string (format_str);
if (grouping)
{
if (scale_to != scale_none)
error (EXIT_FAILURE, 0, _("grouping cannot be combined with --to"));
if (debug && (strlen (nl_langinfo (THOUSEP)) == 0))
error (0, 0, _("grouping has no effect in this locale"));
}
setup_padding_buffer (padding_width);
auto_padding = (padding_width == 0 && delimiter == DELIMITER_DEFAULT);
if (inval_style != inval_abort)
conv_exit_code = 0;
if (argc > optind)
{
if (debug && header)
error (0, 0, _("--header ignored with command-line input"));
for (; optind < argc; optind++)
valid_numbers &= process_line (argv[optind], true);
}
else
{
char *line = NULL;
size_t line_allocated = 0;
ssize_t len;
while (header-- && getline (&line, &line_allocated, stdin) > 0)
fputs (line, stdout);
while ((len = getline (&line, &line_allocated, stdin)) > 0)
{
bool newline = line[len - 1] == '\n';
if (newline)
line[len - 1] = '\0';
valid_numbers &= process_line (line, newline);
}
IF_LINT (free (line));
if (ferror (stdin))
error (0, errno, _("error reading input"));
}
free (padding_buffer);
free (format_str_prefix);
free (format_str_suffix);
if (debug && !valid_numbers)
error (0, 0, _("failed to convert some of the input numbers"));
int exit_status = EXIT_SUCCESS;
if (!valid_numbers
&& inval_style != inval_warn && inval_style != inval_ignore)
exit_status = EXIT_CONVERSION_WARNINGS;
return exit_status;
}
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