gcc/testsuite/gcc.target/x86_64/abi/test_varargs.c - gcc - Git at Google

 /* Test variable number of arguments passed to functions. For now this is
    just a simple test to see if it's working.  */

 #include <stdarg.h>
 #include "defines.h"


 #define ARG_INT     1
 #define ARG_DOUBLE  2
 #define ARG_POINTER 3

 union types
 {
   int ivalue;
   double dvalue;
   void *pvalue;
 };

 struct arg
 {
   int type;
   union types value;
 };

 struct arg *arglist;

 /* This tests the argumentlist to see if it matches the format string which
    is printf-like. Nothing will be printed of course. It can handle ints,
    doubles and void pointers. The given value will be tested against the
    values given in arglist.
    This test only assures that the variable argument passing is working.
    No attempt is made to see if argument passing is done the right way.
    Since the ABI doesn't say how it's done, checking this is not really
    relevant.  */
 void
 my_noprintf (char *format, ...)
 {
   va_list va_arglist;
   char *c;

   int ivalue;
   double dvalue;
   void *pvalue;
   struct arg *argp = arglist;

   va_start (va_arglist, format);
   for (c = format; *c; c++)
     if (*c == '%')
       {
 	switch (*++c)
 	  {
 	  case 'd':
 	    assert (argp->type == ARG_INT);
 	    ivalue = va_arg (va_arglist, int);
 	    assert (argp->value.ivalue == ivalue);
 	    break;
 	  case 'f':
 	    assert (argp->type == ARG_DOUBLE);
 	    dvalue = va_arg (va_arglist, double);
 	    assert (argp->value.dvalue == dvalue);
 	    break;
 	  case 'p':
 	    assert (argp->type == ARG_POINTER);
 	    pvalue = va_arg (va_arglist, void *);
 	    assert (argp->value.pvalue == pvalue);
 	    break;
 	  default:
 	    abort ();
 	  }

 	argp++;
       }
 }

 int
 main (void)
 {
 #ifdef CHECK_VARARGS
   struct arg al[5];

   al[0].type = ARG_INT;
   al[0].value.ivalue = 256;
   al[1].type = ARG_DOUBLE;
   al[1].value.dvalue = 257.0;
   al[2].type = ARG_POINTER;
   al[2].value.pvalue = al;
   al[3].type = ARG_DOUBLE;
   al[3].value.dvalue = 258.0;
   al[4].type = ARG_INT;
   al[4].value.ivalue = 259;

   arglist = al;
   my_noprintf("%d%f%p%f%d", 256, 257.0, al, 258.0, 259);
 #endif

   return 0;
 }
	/* Test variable number of arguments passed to functions. For now this is
	just a simple test to see if it's working. */

	#include <stdarg.h>
	#include "defines.h"


	#define ARG_INT 1
	#define ARG_DOUBLE 2
	#define ARG_POINTER 3

	union types
	{
	int ivalue;
	double dvalue;
	void *pvalue;
	};

	struct arg
	{
	int type;
	union types value;
	};

	struct arg *arglist;

	/* This tests the argumentlist to see if it matches the format string which
	is printf-like. Nothing will be printed of course. It can handle ints,
	doubles and void pointers. The given value will be tested against the
	values given in arglist.
	This test only assures that the variable argument passing is working.
	No attempt is made to see if argument passing is done the right way.
	Since the ABI doesn't say how it's done, checking this is not really
	relevant. */
	void
	my_noprintf (char *format, ...)
	{
	va_list va_arglist;
	char *c;

	int ivalue;
	double dvalue;
	void *pvalue;
	struct arg *argp = arglist;

	va_start (va_arglist, format);
	for (c = format; *c; c++)
	if (*c == '%')
	{
	switch (*++c)
	{
	case 'd':
	assert (argp->type == ARG_INT);
	ivalue = va_arg (va_arglist, int);
	assert (argp->value.ivalue == ivalue);
	break;
	case 'f':
	assert (argp->type == ARG_DOUBLE);
	dvalue = va_arg (va_arglist, double);
	assert (argp->value.dvalue == dvalue);
	break;
	case 'p':
	assert (argp->type == ARG_POINTER);
	pvalue = va_arg (va_arglist, void *);
	assert (argp->value.pvalue == pvalue);
	break;
	default:
	abort ();
	}

	argp++;
	}
	}

	int
	main (void)
	{
	#ifdef CHECK_VARARGS
	struct arg al[5];

	al[0].type = ARG_INT;
	al[0].value.ivalue = 256;
	al[1].type = ARG_DOUBLE;
	al[1].value.dvalue = 257.0;
	al[2].type = ARG_POINTER;
	al[2].value.pvalue = al;
	al[3].type = ARG_DOUBLE;
	al[3].value.dvalue = 258.0;
	al[4].type = ARG_INT;
	al[4].value.ivalue = 259;

	arglist = al;
	my_noprintf("%d%f%p%f%d", 256, 257.0, al, 258.0, 259);
	#endif

	return 0;
	}