wprintf, fwprintf, swprintf, vwprintf, vfwprintf, vswprintf — formatted wide-character output conversion
#include <stdio.h> #include <wchar.h>
int
wprintf( |
const wchar_t *format, |
...) ; |
int
fwprintf( |
FILE *stream, |
const wchar_t *format, | |
...) ; |
int
swprintf( |
wchar_t *wcs, |
size_t maxlen, | |
const wchar_t *format, | |
...) ; |
int
vwprintf( |
const wchar_t *format, |
va_list args) ; |
int
vfwprintf( |
FILE *stream, |
const wchar_t *format, | |
va_list args) ; |
int
vswprintf( |
wchar_t *wcs, |
size_t maxlen, | |
const wchar_t *format, | |
va_list args) ; |
Note | ||||
---|---|---|---|---|
|
The wprintf
() family of
functions is the wide-character equivalent of the printf(3) family of
functions. It performs formatted output of wide
characters.
The wprintf
() and
vwprintf
() functions perform
wide-character output to stdout
.
stdout
must not be byte
oriented; see fwide(3) for more
information.
The fwprintf
() and
vfwprintf
() functions perform
wide-character output to stream
. stream
must not be byte
oriented; see fwide(3) for more
information.
The swprintf
() and
vswprintf
() functions perform
wide-character output to an array of wide characters. The
programmer must ensure that there is room for at least
maxlen
wide
characters at wcs
.
These functions are like the printf(3), vprintf(3), fprintf(3), vfprintf(3), sprintf(3), vsprintf(3) functions except for the following differences:
The format
string is a wide-character string.
The output consists of wide characters, not bytes.
swprintf
() and
vswprintf
() take a
maxlen
argument, sprintf(3) and
vsprintf(3) do not.
(snprintf(3) and
vsnprintf(3) take a
maxlen
argument, but these functions do not return −1
upon buffer overflow on Linux.)
The treatment of the conversion characters c
and s
is
different:
c
If no l
modifier is
present, the int argument is
converted to a wide character by a call to the
btowc(3) function,
and the resulting wide character is written. If an
l
modifier is present, the
wint_t (wide character)
argument is written.
s
If no l
modifier is
present: The const char *
argument is expected to be a pointer to an array of
character type (pointer to a string) containing a
multibyte character sequence beginning in the initial
shift state. Characters from the array are converted to
wide characters (each by a call to the mbrtowc(3) function
with a conversion state starting in the initial state
before the first byte). The resulting wide characters
are written up to (but not including) the terminating
null wide character (L'\0'). If a precision is
specified, no more wide characters than the number
specified are written. Note that the precision
determines the number of wide characters written, not
the number of bytes or screen positions. The array
must contain a terminating null byte ('\0'), unless a
precision is given and it is so small that the number
of converted wide characters reaches it before the end
of the array is reached. If an l
modifier is present: The
const wchar_t * argument is
expected to be a pointer to an array of wide
characters. Wide characters from the array are written
up to (but not including) a terminating null wide
character. If a precision is specified, no more than
the number specified are written. The array must
contain a terminating null wide character, unless a
precision is given and it is smaller than or equal to
the number of wide characters in the array.
The functions return the number of wide characters
written, excluding the terminating null wide character in
case of the functions swprintf
() and vswprintf
(). They return −1 when an
error occurs.
For an explanation of the terms used in this section, see attributes(7).
Interface | Attribute | Value |
|
Thread safety | MT-Safe locale |
The behavior of wprintf
() et
al. depends on the LC_CTYPE
category of the current locale.
If the format
string contains non-ASCII wide characters, the program will
work correctly only if the LC_CTYPE
category of the current locale at
run time is the same as the LC_CTYPE
category of the current locale at
compile time. This is because the wchar_t representation is platform- and
locale-dependent. (The glibc represents wide characters using
their Unicode (ISO-10646) code point, but other platforms
don't do this. Also, the use of C99 universal character names
of the form \unnnn does not solve this problem.) Therefore,
in internationalized programs, the format
string should consist of
ASCII wide characters only, or should be constructed at run
time in an internationalized way (e.g., using gettext(3) or iconv(3), followed by
mbstowcs(3)).
This page is part of release 4.07 of the Linux man-pages
project. A
description of the project, information about reporting bugs,
and the latest version of this page, can be found at
https://www.kernel.org/doc/man−pages/.
Copyright (c) Bruno Haible <haibleclisp.cons.org> %%%LICENSE_START(GPLv2+_DOC_ONEPARA) This is free documentation; 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 2 of the License, or (at your option) any later version. %%%LICENSE_END References consulted: GNU glibc-2 source code and manual Dinkumware C library reference http://www.dinkumware.com/ OpenGroup's Single UNIX specification http://www.UNIX-systems.org/online.html ISO/IEC 9899:1999 |