NetBSD/sys/arch/bebox/include/va-ppc.h

/*	$NetBSD: va-ppc.h,v 1.2 1998/01/05 07:02:55 perry Exp $	*/

/* GNU C varargs support for the PowerPC with V.4 calling sequence */

/* Define __gnuc_va_list.  */

#ifndef __GNUC_VA_LIST
#define __GNUC_VA_LIST

/* Note that the names in this structure are in the user's namespace, but
   that the V.4 abi explicitly states that these names should be used.  */
typedef struct __gnuc_va_list__ {
  char gpr;			/* index into the array of 8 GPRs stored in the
				   register save area gpr=0 corresponds to r3,
				   gpr=1 to r4, etc. */
  char fpr;			/* index into the array of 8 FPRs stored in the
				   register save area fpr=0 corresponds to f1,
				   fpr=1 to f2, etc. */
  char *overflow_arg_area;	/* location on stack that holds the next
				   overflow argument */
  char *reg_save_area;		/* where r3:r10 and f1:f8, if saved are stored */
} __gnuc_va_list[1];
#endif /* not __GNUC_VA_LIST */

/* If this is for internal libc use, don't define anything but
   __gnuc_va_list.  */
#if defined (_STDARG_H) || defined (_VARARGS_H)

/* Register save area located below the frame pointer */
typedef struct {
  long   __gp_save[8];		/* save area for GP registers */
  double __fp_save[8];		/* save area for FP registers */
} __va_regsave_t;

/* Macros to access the register save area */
/* We cast to void * and then to TYPE * because this avoids
   a warning about increasing the alignment requirement.  */
#define __VA_FP_REGSAVE(AP,TYPE)					\
  ((TYPE *) (void *) (&(((__va_regsave_t *)				\
			 (AP)->reg_save_area)->__fp_save[(int)(AP)->fpr])))

#define __VA_GP_REGSAVE(AP,TYPE)					\
  ((TYPE *) (void *) (&(((__va_regsave_t *)				\
			 (AP)->reg_save_area)->__gp_save[(int)(AP)->gpr])))

/* Common code for va_start for both varargs and stdarg.  This depends
   on the format of rs6000_args in rs6000.h.  The fields used are:

   #0	WORDS			# words used for GP regs/stack values
   #1	FREGNO			next available FP register
   #2	NARGS_PROTOTYPE		# args left in the current prototype
   #3	ORIG_NARGS		original value of NARGS_PROTOTYPE
   #4	VARARGS_OFFSET		offset from frame pointer of varargs area */

#define __va_words		__builtin_args_info (0)
#define __va_fregno		__builtin_args_info (1)
#define	__va_nargs		__builtin_args_info (2)
#define __va_orig_nargs		__builtin_args_info (3)
#define __va_varargs_offset	__builtin_args_info (4)

#define __va_start_common(AP, FAKE)					\
__extension__ ({							\
   register int __words = __va_words - FAKE;				\
									\
   (AP)->gpr = (__words < 8) ? __words : 8;				\
   (AP)->fpr = __va_fregno - 33;					\
   (AP)->reg_save_area = (((char *) __builtin_frame_address (0))	\
			  + __va_varargs_offset);			\
   (AP)->overflow_arg_area = ((char *)__builtin_saveregs ()		\
			      + (((__words >= 8) ? __words - 8 : 0)	\
				 * sizeof (long)));			\
   (void)0;								\
})

#ifdef _STDARG_H /* stdarg.h support */

/* Calling __builtin_next_arg gives the proper error message if LASTARG is
   not indeed the last argument.  */
#define va_start(AP,LASTARG) \
  (__builtin_next_arg (LASTARG), __va_start_common (AP, 0))

#else /* varargs.h support */

#define va_start(AP) __va_start_common (AP, 1)
#define va_alist __va_1st_arg
#define va_dcl register int va_alist; ...

#endif /* _STDARG_H */

#ifdef _SOFT_FLOAT
#define __va_float_p(TYPE)	0
#else
#define __va_float_p(TYPE)	(__builtin_classify_type(*(TYPE *)0) == 8)
#endif

#define __va_aggregate_p(TYPE)	(__builtin_classify_type(*(TYPE *)0) >= 12)
#define __va_size(TYPE)		((sizeof(TYPE) + sizeof (long) - 1) / sizeof (long))

#define va_arg(AP,TYPE)							\
__extension__ (*({							\
  register TYPE *__ptr;							\
									\
  if (__va_float_p (TYPE) && (AP)->fpr < 8)				\
    {									\
      __ptr = __VA_FP_REGSAVE (AP, TYPE);				\
      (AP)->fpr++;							\
    }									\
									\
  else if (__va_aggregate_p (TYPE) && (AP)->gpr < 8)			\
    {									\
      __ptr = * __VA_GP_REGSAVE (AP, TYPE *);				\
      (AP)->gpr++;							\
    }									\
									\
  else if (!__va_float_p (TYPE) && !__va_aggregate_p (TYPE)		\
	   && (AP)->gpr + __va_size(TYPE) <= 8)				\
    {									\
      __ptr = __VA_GP_REGSAVE (AP, TYPE);				\
      (AP)->gpr += __va_size (TYPE);					\
    }									\
									\
  else if (!__va_float_p (TYPE) && !__va_aggregate_p (TYPE)		\
	   && (AP)->gpr < 8)						\
    {									\
      (AP)->gpr = 8;							\
      __ptr = (TYPE *) (void *) ((AP)->overflow_arg_area);		\
      (AP)->overflow_arg_area += __va_size (TYPE) * sizeof (long);	\
    }									\
									\
  else if (__va_aggregate_p (TYPE))					\
    {									\
      __ptr = * (TYPE **) (void *) ((AP)->overflow_arg_area);		\
      (AP)->overflow_arg_area += sizeof (TYPE *);			\
    }									\
  else									\
    {									\
      __ptr = (TYPE *) (void *) ((AP)->overflow_arg_area);		\
      (AP)->overflow_arg_area += __va_size (TYPE) * sizeof (long);	\
    }									\
									\
  __ptr;								\
}))

#define va_end(AP)	((void)0)

#endif /* defined (_STDARG_H) || defined (_VARARGS_H) */
RCSID Police. 1998-01-05 10:02:46 +03:00			`/* $NetBSD: va-ppc.h,v 1.2 1998/01/05 07:02:55 perry Exp $ */`

Initial commit of NetBSD/bebox port. 1997-10-14 10:47:17 +04:00			`/* GNU C varargs support for the PowerPC with V.4 calling sequence */`

			`/* Define __gnuc_va_list. */`

			`#ifndef __GNUC_VA_LIST`
			`#define __GNUC_VA_LIST`

			`/* Note that the names in this structure are in the user's namespace, but`
			`that the V.4 abi explicitly states that these names should be used. */`
			`typedef struct __gnuc_va_list__ {`
			`char gpr; /* index into the array of 8 GPRs stored in the`
			`register save area gpr=0 corresponds to r3,`
			`gpr=1 to r4, etc. */`
			`char fpr; /* index into the array of 8 FPRs stored in the`
			`register save area fpr=0 corresponds to f1,`
			`fpr=1 to f2, etc. */`
			`char overflow_arg_area; / location on stack that holds the next`
			`overflow argument */`
			`char reg_save_area; / where r3:r10 and f1:f8, if saved are stored */`
			`} __gnuc_va_list[1];`
			`#endif /* not __GNUC_VA_LIST */`

			`/* If this is for internal libc use, don't define anything but`
			`__gnuc_va_list. */`
			`#if defined (_STDARG_H) \|\| defined (_VARARGS_H)`

			`/* Register save area located below the frame pointer */`
			`typedef struct {`
			`long __gp_save[8]; /* save area for GP registers */`
			`double __fp_save[8]; /* save area for FP registers */`
			`} __va_regsave_t;`

			`/* Macros to access the register save area */`
			`/* We cast to void * and then to TYPE * because this avoids`
			`a warning about increasing the alignment requirement. */`
			`#define __VA_FP_REGSAVE(AP,TYPE) \`
			`((TYPE ) (void ) (&(((__va_regsave_t *) \`
			`(AP)->reg_save_area)->__fp_save[(int)(AP)->fpr])))`

			`#define __VA_GP_REGSAVE(AP,TYPE) \`
			`((TYPE ) (void ) (&(((__va_regsave_t *) \`
			`(AP)->reg_save_area)->__gp_save[(int)(AP)->gpr])))`

			`/* Common code for va_start for both varargs and stdarg. This depends`
			`on the format of rs6000_args in rs6000.h. The fields used are:`

			`#0 WORDS # words used for GP regs/stack values`
			`#1 FREGNO next available FP register`
			`#2 NARGS_PROTOTYPE # args left in the current prototype`
			`#3 ORIG_NARGS original value of NARGS_PROTOTYPE`
			`#4 VARARGS_OFFSET offset from frame pointer of varargs area */`

			`#define __va_words __builtin_args_info (0)`
			`#define __va_fregno __builtin_args_info (1)`
			`#define __va_nargs __builtin_args_info (2)`
			`#define __va_orig_nargs __builtin_args_info (3)`
			`#define __va_varargs_offset __builtin_args_info (4)`

			`#define __va_start_common(AP, FAKE) \`
			`__extension__ ({ \`
			`register int __words = __va_words - FAKE; \`
			`\`
			`(AP)->gpr = (__words < 8) ? __words : 8; \`
			`(AP)->fpr = __va_fregno - 33; \`
			`(AP)->reg_save_area = (((char *) __builtin_frame_address (0)) \`
			`+ __va_varargs_offset); \`
			`(AP)->overflow_arg_area = ((char *)__builtin_saveregs () \`
			`+ (((__words >= 8) ? __words - 8 : 0) \`
			`* sizeof (long))); \`
			`(void)0; \`
			`})`

			`#ifdef _STDARG_H /* stdarg.h support */`

			`/* Calling __builtin_next_arg gives the proper error message if LASTARG is`
			`not indeed the last argument. */`
			`#define va_start(AP,LASTARG) \`
			`(__builtin_next_arg (LASTARG), __va_start_common (AP, 0))`

			`#else /* varargs.h support */`

			`#define va_start(AP) __va_start_common (AP, 1)`
			`#define va_alist __va_1st_arg`
			`#define va_dcl register int va_alist; ...`

			`#endif /* _STDARG_H */`

			`#ifdef _SOFT_FLOAT`
			`#define __va_float_p(TYPE) 0`
			`#else`
			`#define __va_float_p(TYPE) (__builtin_classify_type((TYPE )0) == 8)`
			`#endif`

			`#define __va_aggregate_p(TYPE) (__builtin_classify_type((TYPE )0) >= 12)`
			`#define __va_size(TYPE) ((sizeof(TYPE) + sizeof (long) - 1) / sizeof (long))`

			`#define va_arg(AP,TYPE) \`
			`__extension__ (*({ \`
			`register TYPE *__ptr; \`
			`\`
			`if (__va_float_p (TYPE) && (AP)->fpr < 8) \`
			`{ \`
			`__ptr = __VA_FP_REGSAVE (AP, TYPE); \`
			`(AP)->fpr++; \`
			`} \`
			`\`
			`else if (__va_aggregate_p (TYPE) && (AP)->gpr < 8) \`
			`{ \`
			`__ptr = * __VA_GP_REGSAVE (AP, TYPE *); \`
			`(AP)->gpr++; \`
			`} \`
			`\`
			`else if (!__va_float_p (TYPE) && !__va_aggregate_p (TYPE) \`
			`&& (AP)->gpr + __va_size(TYPE) <= 8) \`
			`{ \`
			`__ptr = __VA_GP_REGSAVE (AP, TYPE); \`
			`(AP)->gpr += __va_size (TYPE); \`
			`} \`
			`\`
			`else if (!__va_float_p (TYPE) && !__va_aggregate_p (TYPE) \`
			`&& (AP)->gpr < 8) \`
			`{ \`
			`(AP)->gpr = 8; \`
			`__ptr = (TYPE ) (void ) ((AP)->overflow_arg_area); \`
			`(AP)->overflow_arg_area += __va_size (TYPE) * sizeof (long); \`
			`} \`
			`\`
			`else if (__va_aggregate_p (TYPE)) \`
			`{ \`
			`__ptr = * (TYPE *) (void ) ((AP)->overflow_arg_area); \`
			`(AP)->overflow_arg_area += sizeof (TYPE *); \`
			`} \`
			`else \`
			`{ \`
			`__ptr = (TYPE ) (void ) ((AP)->overflow_arg_area); \`
			`(AP)->overflow_arg_area += __va_size (TYPE) * sizeof (long); \`
			`} \`
			`\`
			`__ptr; \`
			`}))`

			`#define va_end(AP) ((void)0)`

			`#endif /* defined (_STDARG_H) \|\| defined (_VARARGS_H) */`