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Using the built-in functions described below, you can record the arguments a function received, and call another function with the same arguments, without knowing the number or types of the arguments.
You can also record the return value of that function call, and later return that value, without knowing what data type the function tried to return (as long as your caller expects that data type).
However, these built-in functions may interact badly with some sophisticated features or other extensions of the language. It is, therefore, not recommended to use them outside very simple functions acting as mere forwarders for their arguments.
This built-in function returns a pointer to data describing how to perform a call with the same arguments as are passed to the current function.
The function saves the arg pointer register, structure value address, and all registers that might be used to pass arguments to a function into a block of memory allocated on the stack. Then it returns the address of that block.
This built-in function invokes function with a copy of the parameters described by arguments and size.
The value of arguments should be the value returned by
__builtin_apply_args
. The argument size specifies the size
of the stack argument data, in bytes.
This function returns a pointer to data describing how to return whatever value is returned by function. The data is saved in a block of memory allocated on the stack.
It is not always simple to compute the proper value for size. The
value is used by __builtin_apply
to compute the amount of data
that should be pushed on the stack and copied from the incoming argument
area.
This built-in function returns the value described by result from
the containing function. You should specify, for result, a value
returned by __builtin_apply
.
This built-in function represents all anonymous arguments of an inline
function. It can be used only in inline functions that are always
inlined, never compiled as a separate function, such as those using
__attribute__ ((__always_inline__))
or
__attribute__ ((__gnu_inline__))
extern inline functions.
It must be only passed as last argument to some other function
with variable arguments. This is useful for writing small wrapper
inlines for variable argument functions, when using preprocessor
macros is undesirable. For example:
extern int myprintf (FILE *f, const char *format, ...); extern inline __attribute__ ((__gnu_inline__)) int myprintf (FILE *f, const char *format, ...) { int r = fprintf (f, "myprintf: "); if (r < 0) return r; int s = fprintf (f, format, __builtin_va_arg_pack ()); if (s < 0) return s; return r + s; }
This built-in function returns the number of anonymous arguments of
an inline function. It can be used only in inline functions that
are always inlined, never compiled as a separate function, such
as those using __attribute__ ((__always_inline__))
or
__attribute__ ((__gnu_inline__))
extern inline functions.
For example following does link- or run-time checking of open
arguments for optimized code:
#ifdef __OPTIMIZE__ extern inline __attribute__((__gnu_inline__)) int myopen (const char *path, int oflag, ...) { if (__builtin_va_arg_pack_len () > 1) warn_open_too_many_arguments (); if (__builtin_constant_p (oflag)) { if ((oflag & O_CREAT) != 0 && __builtin_va_arg_pack_len () < 1) { warn_open_missing_mode (); return __open_2 (path, oflag); } return open (path, oflag, __builtin_va_arg_pack ()); } if (__builtin_va_arg_pack_len () < 1) return __open_2 (path, oflag); return open (path, oflag, __builtin_va_arg_pack ()); } #endif
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