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NAME
fprintf, printf, snprintf, sprintf - print formatted output
SYNOPSIS
#include <stdio.h> int fprintf(FILE *restrict stream, const char *restrict format, ...); int printf(const char *restrict format, ...); int snprintf(char *restrict s, size_t n, const char *restrict format, ...); int sprintf(char *restrict s, const char *restrict format, ...);
DESCRIPTION
The fprintf() function shall place output on the named output stream. The printf() function shall place
output on the standard output stream stdout. The sprintf() function shall place output followed by the
null byte, '\0' , in consecutive bytes starting at *s; it is the user's responsibility to ensure that
enough space is available.
The snprintf() function shall be equivalent to sprintf(), with the addition of the n argument which
states the size of the buffer referred to by s. If n is zero, nothing shall be written and s may be a
null pointer. Otherwise, output bytes beyond the n-1st shall be discarded instead of being written to
the array, and a null byte is written at the end of the bytes actually written into the array.
If copying takes place between objects that overlap as a result of a call to sprintf() or snprintf(), the
results are undefined.
Each of these functions converts, formats, and prints its arguments under control of the format. The
format is a character string, beginning and ending in its initial shift state, if any. The format is
composed of zero or more directives: ordinary characters, which are simply copied to the output stream,
and conversion specifications, each of which shall result in the fetching of zero or more arguments. The
results are undefined if there are insufficient arguments for the format. If the format is exhausted
while arguments remain, the excess arguments shall be evaluated but are otherwise ignored.
Conversions can be applied to the nth argument after the format in the argument list, rather than to the
next unused argument. In this case, the conversion specifier character % (see below) is replaced by the
sequence "%n$", where n is a decimal integer in the range [1,{NL_ARGMAX}], giving the position of the
argument in the argument list. This feature provides for the definition of format strings that select
arguments in an order appropriate to specific languages (see the EXAMPLES section).
The format can contain either numbered argument conversion specifications (that is, "%n$" and "*m$"), or
unnumbered argument conversion specifications (that is, % and * ), but not both. The only exception to
this is that %% can be mixed with the "%n$" form. The results of mixing numbered and unnumbered argument
specifications in a format string are undefined. When numbered argument specifications are used,
specifying the Nth argument requires that all the leading arguments, from the first to the (N-1)th, are
specified in the format string.
In format strings containing the "%n$" form of conversion specification, numbered arguments in the
argument list can be referenced from the format string as many times as required.
In format strings containing the % form of conversion specification, each conversion specification uses
the first unused argument in the argument list.
All forms of the fprintf() functions allow for the insertion of a language-dependent radix character in
the output string. The radix character is defined in the program's locale (category LC_NUMERIC ). In the
POSIX locale, or in a locale where the radix character is not defined, the radix character shall default
to a period ( '.' ).
Each conversion specification is introduced by the '%' character or by the character sequence "%n$",
after which the following appear in sequence:
* Zero or more flags (in any order), which modify the meaning of the conversion specification.
* An optional minimum field width. If the converted value has fewer bytes than the field width, it shall
be padded with spaces by default on the left; it shall be padded on the right if the left-adjustment
flag ( '-' ), described below, is given to the field width. The field width takes the form of an
asterisk ( '*' ), described below, or a decimal integer.
* An optional precision that gives the minimum number of digits to appear for the d , i , o , u , x ,
and X conversion specifiers; the number of digits to appear after the radix character for the a , A ,
e , E , f , and F conversion specifiers; the maximum number of significant digits for the g and G
conversion specifiers; or the maximum number of bytes to be printed from a string in the s and S
conversion specifiers. The precision takes the form of a period ( '.' ) followed either by an
asterisk ( '*' ), described below, or an optional decimal digit string, where a null digit string is
treated as zero. If a precision appears with any other conversion specifier, the behavior is
undefined.
* An optional length modifier that specifies the size of the argument.
* A conversion specifier character that indicates the type of conversion to be applied.
A field width, or precision, or both, may be indicated by an asterisk ( '*' ). In this case an argument
of type int supplies the field width or precision. Applications shall ensure that arguments specifying
field width, or precision, or both appear in that order before the argument, if any, to be converted. A
negative field width is taken as a '-' flag followed by a positive field width. A negative precision is
taken as if the precision were omitted. In format strings containing the "%n$" form of a conversion
specification, a field width or precision may be indicated by the sequence "*m$", where m is a decimal
integer in the range [1,{NL_ARGMAX}] giving the position in the argument list (after the format argument)
of an integer argument containing the field width or precision, for example:
printf("%1$d:%2$.*3$d:%4$.*3$d\n", hour, min, precision, sec);
The flag characters and their meanings are:
' The integer portion of the result of a decimal conversion ( %i , %d , %u , %f , %F , %g , or %G )
shall be formatted with thousands' grouping characters. For other conversions the behavior is
undefined. The non-monetary grouping character is used.
- The result of the conversion shall be left-justified within the field. The conversion is right-
justified if this flag is not specified.
+ The result of a signed conversion shall always begin with a sign ( '+' or '-' ). The conversion
shall begin with a sign only when a negative value is converted if this flag is not specified.
<space>
If the first character of a signed conversion is not a sign or if a signed conversion results in
no characters, a <space> shall be prefixed to the result. This means that if the <space> and '+'
flags both appear, the <space> flag shall be ignored.
# Specifies that the value is to be converted to an alternative form. For o conversion, it
increases the precision (if necessary) to force the first digit of the result to be zero. For x or
X conversion specifiers, a non-zero result shall have 0x (or 0X) prefixed to it. For a , A , e , E
, f , F , g , and G conversion specifiers, the result shall always contain a radix character, even
if no digits follow the radix character. Without this flag, a radix character appears in the
result of these conversions only if a digit follows it. For g and G conversion specifiers,
trailing zeros shall not be removed from the result as they normally are. For other conversion
specifiers, the behavior is undefined.
0 For d , i , o , u , x , X , a , A , e , E , f , F , g , and G conversion specifiers, leading zeros
(following any indication of sign or base) are used to pad to the field width; no space padding is
performed. If the '0' and '-' flags both appear, the '0' flag is ignored. For d , i , o , u , x ,
and X conversion specifiers, if a precision is specified, the '0' flag is ignored. If the '0'
and '" flags both appear, the grouping characters are inserted before zero padding. For other
conversions, the behavior is undefined.
The length modifiers and their meanings are:
hh Specifies that a following d , i , o , u , x , or X conversion specifier applies to a signed char
or unsigned char argument (the argument will have been promoted according to the integer
promotions, but its value shall be converted to signed char or unsigned char before printing); or
that a following n conversion specifier applies to a pointer to a signed char argument.
h Specifies that a following d , i , o , u , x , or X conversion specifier applies to a short or
unsigned short argument (the argument will have been promoted according to the integer promotions,
but its value shall be converted to short or unsigned short before printing); or that a following
n conversion specifier applies to a pointer to a short argument.
l (ell)
Specifies that a following d , i , o , u , x , or X conversion specifier applies to a long or
unsigned long argument; that a following n conversion specifier applies to a pointer to a long
argument; that a following c conversion specifier applies to a wint_t argument; that a following s
conversion specifier applies to a pointer to a wchar_t argument; or has no effect on a following a
, A , e , E , f , F , g , or G conversion specifier.
ll (ell-ell)
Specifies that a following d , i , o , u , x , or X conversion specifier applies to a long long or
unsigned long long argument; or that a following n conversion specifier applies to a pointer to a
long long argument.
j Specifies that a following d , i , o , u , x , or X conversion specifier applies to an intmax_t or
uintmax_t argument; or that a following n conversion specifier applies to a pointer to an intmax_t
argument.
z Specifies that a following d , i , o , u , x , or X conversion specifier applies to a size_t or
the corresponding signed integer type argument; or that a following n conversion specifier applies
to a pointer to a signed integer type corresponding to a size_t argument.
t Specifies that a following d , i , o , u , x , or X conversion specifier applies to a ptrdiff_t or
the corresponding unsigned type argument; or that a following n conversion specifier applies to a
pointer to a ptrdiff_t argument.
L Specifies that a following a , A , e , E , f , F , g , or G conversion specifier applies to a long
double argument.
If a length modifier appears with any conversion specifier other than as specified above, the behavior is
undefined.
The conversion specifiers and their meanings are:
d, i The int argument shall be converted to a signed decimal in the style "[-]dddd". The precision
specifies the minimum number of digits to appear; if the value being converted can be represented
in fewer digits, it shall be expanded with leading zeros. The default precision is 1. The result
of converting zero with an explicit precision of zero shall be no characters.
o The unsigned argument shall be converted to unsigned octal format in the style "dddd". The
precision specifies the minimum number of digits to appear; if the value being converted can be
represented in fewer digits, it shall be expanded with leading zeros. The default precision is 1.
The result of converting zero with an explicit precision of zero shall be no characters.
u The unsigned argument shall be converted to unsigned decimal format in the style "dddd". The
precision specifies the minimum number of digits to appear; if the value being converted can be
represented in fewer digits, it shall be expanded with leading zeros. The default precision is 1.
The result of converting zero with an explicit precision of zero shall be no characters.
x The unsigned argument shall be converted to unsigned hexadecimal format in the style "dddd"; the
letters "abcdef" are used. The precision specifies the minimum number of digits to appear; if the
value being converted can be represented in fewer digits, it shall be expanded with leading zeros.
The default precision is 1. The result of converting zero with an explicit precision of zero shall
be no characters.
X Equivalent to the x conversion specifier, except that letters "ABCDEF" are used instead of
"abcdef" .
f, F The double argument shall be converted to decimal notation in the style "[-]ddd.ddd", where the
number of digits after the radix character is equal to the precision specification. If the
precision is missing, it shall be taken as 6; if the precision is explicitly zero and no '#' flag
is present, no radix character shall appear. If a radix character appears, at least one digit
appears before it. The low-order digit shall be rounded in an implementation-defined manner.
A double argument representing an infinity shall be converted in one of the styles "[-]inf" or
"[-]infinity" ; which style is implementation-defined. A double argument representing a NaN shall be
converted in one of the styles "[-]nan(n-char-sequence)" or "[-]nan" ; which style, and the meaning of
any n-char-sequence, is implementation-defined. The F conversion specifier produces "INF" , "INFINITY" ,
or "NAN" instead of "inf" , "infinity" , or "nan" , respectively.
e, E The double argument shall be converted in the style "[-]d.ddde±dd", where there is one digit
before the radix character (which is non-zero if the argument is non-zero) and the number of
digits after it is equal to the precision; if the precision is missing, it shall be taken as 6; if
the precision is zero and no '#' flag is present, no radix character shall appear. The low-order
digit shall be rounded in an implementation-defined manner. The E conversion specifier shall
produce a number with 'E' instead of 'e' introducing the exponent. The exponent shall always
contain at least two digits. If the value is zero, the exponent shall be zero.
A double argument representing an infinity or NaN shall be converted in the style of an f or F conversion
specifier.
g, G The double argument shall be converted in the style f or e (or in the style F or E in the case of
a G conversion specifier), with the precision specifying the number of significant digits. If an
explicit precision is zero, it shall be taken as 1. The style used depends on the value converted;
style e (or E ) shall be used only if the exponent resulting from such a conversion is less than
-4 or greater than or equal to the precision. Trailing zeros shall be removed from the fractional
portion of the result; a radix character shall appear only if it is followed by a digit or a '#'
flag is present.
A double argument representing an infinity or NaN shall be converted in the style of an f or F conversion
specifier.
a, A A double argument representing a floating-point number shall be converted in the style
"[-]0xh.hhhhp±d", where there is one hexadecimal digit (which shall be non-zero if the argument is
a normalized floating-point number and is otherwise unspecified) before the decimal-point
character and the number of hexadecimal digits after it is equal to the precision; if the
precision is missing and FLT_RADIX is a power of 2, then the precision shall be sufficient for an
exact representation of the value; if the precision is missing and FLT_RADIX is not a power of 2,
then the precision shall be sufficient to distinguish values of type double, except that trailing
zeros may be omitted; if the precision is zero and the '#' flag is not specified, no decimal-point
character shall appear. The letters "abcdef" shall be used for a conversion and the letters
"ABCDEF" for A conversion. The A conversion specifier produces a number with 'X' and 'P' instead
of 'x' and 'p' . The exponent shall always contain at least one digit, and only as many more
digits as necessary to represent the decimal exponent of 2. If the value is zero, the exponent
shall be zero.
A double argument representing an infinity or NaN shall be converted in the style of an f or F conversion
specifier.
c The int argument shall be converted to an unsigned char, and the resulting byte shall be written.
If an l (ell) qualifier is present, the wint_t argument shall be converted as if by an ls conversion
specification with no precision and an argument that points to a two-element array of type wchar_t, the
first element of which contains the wint_t argument to the ls conversion specification and the second
element contains a null wide character.
s The argument shall be a pointer to an array of char. Bytes from the array shall be written up to
(but not including) any terminating null byte. If the precision is specified, no more than that
many bytes shall be written. If the precision is not specified or is greater than the size of the
array, the application shall ensure that the array contains a null byte.
If an l (ell) qualifier is present, the argument shall be a pointer to an array of type wchar_t. Wide
characters from the array shall be converted to characters (each as if by a call to the wcrtomb()
function, with the conversion state described by an mbstate_t object initialized to zero before the first
wide character is converted) up to and including a terminating null wide character. The resulting
characters shall be written up to (but not including) the terminating null character (byte). If no
precision is specified, the application shall ensure that the array contains a null wide character. If a
precision is specified, no more than that many characters (bytes) shall be written (including shift
sequences, if any), and the array shall contain a null wide character if, to equal the character sequence
length given by the precision, the function would need to access a wide character one past the end of the
array. In no case shall a partial character be written.
p The argument shall be a pointer to void. The value of the pointer is converted to a sequence of
printable characters, in an implementation-defined manner.
n The argument shall be a pointer to an integer into which is written the number of bytes written to
the output so far by this call to one of the fprintf() functions. No argument is converted.
C Equivalent to lc .
S Equivalent to ls .
% Print a '%' character; no argument is converted. The complete conversion specification shall be %%
.
If a conversion specification does not match one of the above forms, the behavior is undefined. If any
argument is not the correct type for the corresponding conversion specification, the behavior is
undefined.
In no case shall a nonexistent or small field width cause truncation of a field; if the result of a
conversion is wider than the field width, the field shall be expanded to contain the conversion result.
Characters generated by fprintf() and printf() are printed as if fputc() had been called.
For the a and A conversion specifiers, if FLT_RADIX is a power of 2, the value shall be correctly rounded
to a hexadecimal floating number with the given precision.
For a and A conversions, if FLT_RADIX is not a power of 2 and the result is not exactly representable in
the given precision, the result should be one of the two adjacent numbers in hexadecimal floating style
with the given precision, with the extra stipulation that the error should have a correct sign for the
current rounding direction.
For the e , E , f , F , g , and G conversion specifiers, if the number of significant decimal digits is
at most DECIMAL_DIG, then the result should be correctly rounded. If the number of significant decimal
digits is more than DECIMAL_DIG but the source value is exactly representable with DECIMAL_DIG digits,
then the result should be an exact representation with trailing zeros. Otherwise, the source value is
bounded by two adjacent decimal strings L < U, both having DECIMAL_DIG significant digits; the value of
the resultant decimal string D should satisfy L <= D <= U, with the extra stipulation that the error
should have a correct sign for the current rounding direction.
The st_ctime and st_mtime fields of the file shall be marked for update between the call to a successful
execution of fprintf() or printf() and the next successful completion of a call to fflush() or fclose()
on the same stream or a call to exit() or abort().
RETURN VALUE
Upon successful completion, the fprintf() and printf() functions shall return the number of bytes
transmitted.
Upon successful completion, the sprintf() function shall return the number of bytes written to s,
excluding the terminating null byte.
Upon successful completion, the snprintf() function shall return the number of bytes that would be
written to s had n been sufficiently large excluding the terminating null byte.
If an output error was encountered, these functions shall return a negative value.
If the value of n is zero on a call to snprintf(), nothing shall be written, the number of bytes that
would have been written had n been sufficiently large excluding the terminating null shall be returned,
and s may be a null pointer.
ERRORS
For the conditions under which fprintf() and printf() fail and may fail, refer to fputc() or fputwc() .
In addition, all forms of fprintf() may fail if:
EILSEQ A wide-character code that does not correspond to a valid character has been detected.
EINVAL There are insufficient arguments.
The printf() and fprintf() functions may fail if:
ENOMEM Insufficient storage space is available.
The snprintf() function shall fail if:
EOVERFLOW
The value of n is greater than {INT_MAX} or the number of bytes needed to hold the output
excluding the terminating null is greater than {INT_MAX}.
The following sections are informative.
EXAMPLES
Printing Language-Independent Date and Time
The following statement can be used to print date and time using a language-independent format:
printf(format, weekday, month, day, hour, min);
For American usage, format could be a pointer to the following string:
"%s, %s %d, %d:%.2d\n"
This example would produce the following message:
Sunday, July 3, 10:02
For German usage, format could be a pointer to the following string:
"%1$s, %3$d. %2$s, %4$d:%5$.2d\n"
This definition of format would produce the following message:
Sonntag, 3. Juli, 10:02
Printing File Information
The following example prints information about the type, permissions, and number of links of a specific
file in a directory.
The first two calls to printf() use data decoded from a previous stat() call. The user-defined strperm()
function shall return a string similar to the one at the beginning of the output for the following
command:
ls -l
The next call to printf() outputs the owner's name if it is found using getpwuid(); the getpwuid()
function shall return a passwd structure from which the name of the user is extracted. If the user name
is not found, the program instead prints out the numeric value of the user ID.
The next call prints out the group name if it is found using getgrgid(); getgrgid() is very similar to
getpwuid() except that it shall return group information based on the group number. Once again, if the
group is not found, the program prints the numeric value of the group for the entry.
The final call to printf() prints the size of the file.
#include <stdio.h>
#include <sys/types.h>
#include <pwd.h>
#include <grp.h>
char *strperm (mode_t);
...
struct stat statbuf;
struct passwd *pwd;
struct group *grp;
...
printf("%10.10s", strperm (statbuf.st_mode));
printf("%4d", statbuf.st_nlink);
if ((pwd = getpwuid(statbuf.st_uid)) != NULL)
printf(" %-8.8s", pwd->pw_name);
else
printf(" %-8ld", (long) statbuf.st_uid);
if ((grp = getgrgid(statbuf.st_gid)) != NULL)
printf(" %-8.8s", grp->gr_name);
else
printf(" %-8ld", (long) statbuf.st_gid);
printf("%9jd", (intmax_t) statbuf.st_size);
...
Printing a Localized Date String
The following example gets a localized date string. The nl_langinfo() function shall return the localized
date string, which specifies the order and layout of the date. The strftime() function takes this
information and, using the tm structure for values, places the date and time information into datestring.
The printf() function then outputs datestring and the name of the entry.
#include <stdio.h>
#include <time.h>
#include <langinfo.h>
...
struct dirent *dp;
struct tm *tm;
char datestring[256];
...
strftime(datestring, sizeof(datestring), nl_langinfo (D_T_FMT), tm);
printf(" %s %s\n", datestring, dp->d_name);
...
Printing Error Information
The following example uses fprintf() to write error information to standard error.
In the first group of calls, the program tries to open the password lock file named LOCKFILE. If the file
already exists, this is an error, as indicated by the O_EXCL flag on the open() function. If the call
fails, the program assumes that someone else is updating the password file, and the program exits.
The next group of calls saves a new password file as the current password file by creating a link between
LOCKFILE and the new password file PASSWDFILE.
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#define LOCKFILE "/etc/ptmp"
#define PASSWDFILE "/etc/passwd"
...
int pfd;
...
if ((pfd = open(LOCKFILE, O_WRONLY | O_CREAT | O_EXCL,
S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH)) == -1)
{
fprintf(stderr, "Cannot open /etc/ptmp. Try again later.\n");
exit(1);
}
...
if (link(LOCKFILE,PASSWDFILE) == -1) {
fprintf(stderr, "Link error: %s\n", strerror(errno));
exit(1);
}
...
Printing Usage Information
The following example checks to make sure the program has the necessary arguments, and uses fprintf() to
print usage information if the expected number of arguments is not present.
#include <stdio.h>
#include <stdlib.h>
...
char *Options = "hdbtl";
...
if (argc < 2) {
fprintf(stderr, "Usage: %s -%s <file\n", argv[0], Options); exit(1);
}
...
Formatting a Decimal String
The following example prints a key and data pair on stdout. Note use of the '*' (asterisk) in the format
string; this ensures the correct number of decimal places for the element based on the number of elements
requested.
#include <stdio.h>
...
long i;
char *keystr;
int elementlen, len;
...
while (len < elementlen) {
...
printf("%s Element%0*ld\n", keystr, elementlen, i);
...
}
Creating a Filename
The following example creates a filename using information from a previous getpwnam() function that
returned the HOME directory of the user.
#include <stdio.h>
#include <sys/types.h>
#include <unistd.h>
...
char filename[PATH_MAX+1];
struct passwd *pw;
...
sprintf(filename, "%s/%d.out", pw->pw_dir, getpid());
...
Reporting an Event
The following example loops until an event has timed out. The pause() function waits forever unless it
receives a signal. The fprintf() statement should never occur due to the possible return values of
pause().
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
...
while (!event_complete) {
...
if (pause() != -1 || errno != EINTR)
fprintf(stderr, "pause: unknown error: %s\n", strerror(errno));
}
...
Printing Monetary Information
The following example uses strfmon() to convert a number and store it as a formatted monetary string
named convbuf. If the first number is printed, the program prints the format and the description;
otherwise, it just prints the number.
#include <monetary.h>
#include <stdio.h>
...
struct tblfmt {
char *format;
char *description;
};
struct tblfmt table[] = {
{ "%n", "default formatting" },
{ "%11n", "right align within an 11 character field" },
{ "%#5n", "aligned columns for values up to 99999" },
{ "%=*#5n", "specify a fill character" },
{ "%=0#5n", "fill characters do not use grouping" },
{ "%^#5n", "disable the grouping separator" },
{ "%^#5.0n", "round off to whole units" },
{ "%^#5.4n", "increase the precision" },
{ "%(#5n", "use an alternative pos/neg style" },
{ "%!(#5n", "disable the currency symbol" },
};
...
float input[3];
int i, j;
char convbuf[100];
...
strfmon(convbuf, sizeof(convbuf), table[i].format, input[j]);
if (j == 0) {
printf("%s %s %s\n", table[i].format,
convbuf, table[i].description);
}
else {
printf(" %s\n", convbuf);
}
...
Printing Wide Characters
The following example prints a series of wide characters. Suppose that "L`@`" expands to three bytes:
wchar_t wz [3] = L"@@"; // Zero-terminated
wchar_t wn [3] = L"@@@"; // Unterminated
fprintf (stdout,"%ls", wz); // Outputs 6 bytes
fprintf (stdout,"%ls", wn); // Undefined because wn has no terminator
fprintf (stdout,"%4ls", wz); // Outputs 3 bytes
fprintf (stdout,"%4ls", wn); // Outputs 3 bytes; no terminator needed
fprintf (stdout,"%9ls", wz); // Outputs 6 bytes
fprintf (stdout,"%9ls", wn); // Outputs 9 bytes; no terminator needed
fprintf (stdout,"%10ls", wz); // Outputs 6 bytes
fprintf (stdout,"%10ls", wn); // Undefined because wn has no terminator
In the last line of the example, after processing three characters, nine bytes have been output. The
fourth character must then be examined to determine whether it converts to one byte or more. If it
converts to more than one byte, the output is only nine bytes. Since there is no fourth character in the
array, the behavior is undefined.
APPLICATION USAGE
If the application calling fprintf() has any objects of type wint_t or wchar_t, it must also include the
<wchar.h> header to have these objects defined.
RATIONALE
None.
FUTURE DIRECTIONS
None.
SEE ALSO
fputc() , fscanf() , setlocale() , strfmon() , wcrtomb() , the Base Definitions volume of
IEEE Std 1003.1-2001, Chapter 7, Locale, <stdio.h>, <wchar.h>
COPYRIGHT
Portions of this text are reprinted and reproduced in electronic form from IEEE Std 1003.1, 2003 Edition,
Standard for Information Technology -- Portable Operating System Interface (POSIX), The Open Group Base
Specifications Issue 6, Copyright (C) 2001-2003 by the Institute of Electrical and Electronics Engineers,
Inc and The Open Group. In the event of any discrepancy between this version and the original IEEE and
The Open Group Standard, the original IEEE and The Open Group Standard is the referee document. The
original Standard can be obtained online at http://www.opengroup.org/unix/online.html .