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The functions vprintf and friends are provided so that you can
define your own variadic printf-like functions that make use of
the same internals as the built-in formatted output functions.
The most natural way to define such functions would be to use a language
construct to say, “Call printf and pass this template plus all
of my arguments after the first five.” But there is no way to do this
in C, and it would be hard to provide a way, since at the C language
level there is no way to tell how many arguments your function received.
Since that method is impossible, we provide alternative functions, the
vprintf series, which lets you pass a va_list to describe
“all of my arguments after the first five.”
When it is sufficient to define a macro rather than a real function, the GNU C compiler provides a way to do this much more easily with macros. For example:
#define myprintf(a, b, c, d, e, rest...) \
printf (mytemplate , ## rest)
See Macros with Variable Numbers of Arguments, for details. But this is limited to macros, and does not apply to real functions at all.
Before calling vprintf or the other functions listed in this
section, you must call va_start (see Variadic Functions) to initialize a pointer to the variable arguments. Then you
can call va_arg to fetch the arguments that you want to handle
yourself. This advances the pointer past those arguments.
Once your va_list pointer is pointing at the argument of your
choice, you are ready to call vprintf. That argument and all
subsequent arguments that were passed to your function are used by
vprintf along with the template that you specified separately.
In some other systems, the va_list pointer may become invalid
after the call to vprintf, so you must not use va_arg
after you call vprintf. Instead, you should call va_end
to retire the pointer from service. However, you can safely call
va_start on another pointer variable and begin fetching the
arguments again through that pointer. Calling vprintf does not
destroy the argument list of your function, merely the particular
pointer that you passed to it.
GNU C does not have such restrictions. You can safely continue to fetch
arguments from a va_list pointer after passing it to
vprintf, and va_end is a no-op. (Note, however, that
subsequent va_arg calls will fetch the same arguments which
vprintf previously used.)
Prototypes for these functions are declared in stdio.h.
This function is similar to
printfexcept that, instead of taking a variable number of arguments directly, it takes an argument list pointer ap.
This function is similar to
wprintfexcept that, instead of taking a variable number of arguments directly, it takes an argument list pointer ap.
This is the equivalent of
fprintfwith the variable argument list specified directly as forvprintf.
This is the equivalent of
fwprintfwith the variable argument list specified directly as forvwprintf.
This is the equivalent of
sprintfwith the variable argument list specified directly as forvprintf.
This is the equivalent of
swprintfwith the variable argument list specified directly as forvwprintf.
This is the equivalent of
snprintfwith the variable argument list specified directly as forvprintf.
The
vasprintffunction is the equivalent ofasprintfwith the variable argument list specified directly as forvprintf.
The
obstack_vprintffunction is the equivalent ofobstack_printfwith the variable argument list specified directly as forvprintf.
Here's an example showing how you might use vfprintf. This is a
function that prints error messages to the stream stderr, along
with a prefix indicating the name of the program
(see Error Messages, for a description of
program_invocation_short_name).
#include <stdio.h>
#include <stdarg.h>
void
eprintf (const char *template, ...)
{
va_list ap;
extern char *program_invocation_short_name;
fprintf (stderr, "%s: ", program_invocation_short_name);
va_start (ap, template);
vfprintf (stderr, template, ap);
va_end (ap);
}
You could call eprintf like this:
eprintf ("file `%s' does not exist\n", filename);
In GNU C, there is a special construct you can use to let the compiler
know that a function uses a printf-style format string. Then it
can check the number and types of arguments in each call to the
function, and warn you when they do not match the format string.
For example, take this declaration of eprintf:
void eprintf (const char *template, ...)
__attribute__ ((format (printf, 1, 2)));
This tells the compiler that eprintf uses a format string like
printf (as opposed to scanf; see Formatted Input);
the format string appears as the first argument;
and the arguments to satisfy the format begin with the second.
See Declaring Attributes of Functions, for more information.