A macro can be declared to accept a variable number of arguments much as a function can. The syntax for defining the macro is similar to that of a function. Here is an example:
#define eprintf(...) fprintf (stderr, __VA_ARGS__)
This kind of macro is called variadic. When the macro is invoked,
all the tokens in its argument list after the last named argument (this
macro has none), including any commas, become the variable
argument. This sequence of tokens replaces the identifier
__VA_ARGS__
in the macro body wherever it appears. Thus, we
have this expansion:
eprintf ("%s:%d: ", input_file, lineno) → fprintf (stderr, "%s:%d: ", input_file, lineno)
The variable argument is completely macro-expanded before it is inserted into the macro expansion, just like an ordinary argument. You may use the ‘#’ and ‘##’ operators to stringize the variable argument or to paste its leading or trailing token with another token. (But see below for an important special case for ‘##’.)
If your macro is complicated, you may want a more descriptive name for
the variable argument than __VA_ARGS__
. CPP permits
this, as an extension. You may write an argument name immediately
before the ‘...’; that name is used for the variable argument.
The eprintf
macro above could be written
#define eprintf(args...) fprintf (stderr, args)
using this extension. You cannot use __VA_ARGS__
and this
extension in the same macro.
You can have named arguments as well as variable arguments in a variadic
macro. We could define eprintf
like this, instead:
#define eprintf(format, ...) fprintf (stderr, format, __VA_ARGS__)
This formulation looks more descriptive, but historically it was less flexible: you had to supply at least one argument after the format string. In standard C, you could not omit the comma separating the named argument from the variable arguments. (Note that this restriction has been lifted in C++20, and never existed in GNU C; see below.)
Furthermore, if you left the variable argument empty, you would have gotten a syntax error, because there would have been an extra comma after the format string.
eprintf("success!\n", ); → fprintf(stderr, "success!\n", );
This has been fixed in C++20, and GNU CPP also has a pair of extensions which deal with this problem.
First, in GNU CPP, and in C++ beginning in C++20, you are allowed to leave the variable argument out entirely:
eprintf ("success!\n") → fprintf(stderr, "success!\n", );
Second, C++20 introduces the __VA_OPT__
function macro.
This macro may only appear in the definition of a variadic macro. If
the variable argument has any tokens, then a __VA_OPT__
invocation expands to its argument; but if the variable argument does
not have any tokens, the __VA_OPT__
expands to nothing:
#define eprintf(format, ...) \ fprintf (stderr, format __VA_OPT__(,) __VA_ARGS__)
__VA_OPT__
is also available in GNU C and GNU C++.
Historically, GNU CPP has also had another extension to handle the
trailing comma: the ‘##’ token paste operator has a special
meaning when placed between a comma and a variable argument. Despite
the introduction of __VA_OPT__
, this extension remains
supported in GNU CPP, for backward compatibility. If you write
#define eprintf(format, ...) fprintf (stderr, format, ##__VA_ARGS__)
and the variable argument is left out when the eprintf
macro is
used, then the comma before the ‘##’ will be deleted. This does
not happen if you pass an empty argument, nor does it happen if
the token preceding ‘##’ is anything other than a comma.
eprintf ("success!\n") → fprintf(stderr, "success!\n");
The above explanation is ambiguous about the case where the only macro parameter is a variable arguments parameter, as it is meaningless to try to distinguish whether no argument at all is an empty argument or a missing argument. CPP retains the comma when conforming to a specific C standard. Otherwise the comma is dropped as an extension to the standard.
The C standard
mandates that the only place the identifier __VA_ARGS__
can appear is in the replacement list of a variadic macro. It may not
be used as a macro name, macro argument name, or within a different type
of macro. It may also be forbidden in open text; the standard is
ambiguous. We recommend you avoid using it except for its defined
purpose.
Likewise, C++ forbids __VA_OPT__
anywhere outside the
replacement list of a variadic macro.
Variadic macros became a standard part of the C language with C99.
GNU CPP previously supported them
with a named variable argument
(‘args...’, not ‘...’ and __VA_ARGS__
), which
is still supported for backward compatibility.