/* This is just like the default gvarargs.h except for differences described below. */ /* Define __gnuc_va_list. */ #ifndef __GNUC_VA_LIST #define __GNUC_VA_LIST #ifdef __SH3E__ typedef long __va_greg; typedef double __va_freg; typedef struct { __va_greg * __va_next_o; /* next available register */ __va_greg * __va_next_o_limit; /* past last available register */ __va_freg * __va_next_fp; /* next available fp register */ __va_freg * __va_next_fp_limit; /* last available fp register */ __va_greg * __va_next_stack; /* next extended word on stack */ } __gnuc_va_list; #else /* ! SH3E */ typedef void *__gnuc_va_list; #define __va_rounded_size(TYPE) \ (((sizeof (TYPE) + sizeof (int) - 1) / sizeof (int)) * sizeof (int)) #endif /* ! SH3E */ #endif /* __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) #ifdef _STDARG_H #ifdef __SH3E__ #define va_start(AP, LASTARG) \ __extension__ \ ({ \ AP.__va_next_fp = (__va_freg *) __builtin_saveregs (); \ AP.__va_next_fp_limit = (AP.__va_next_fp + \ (__builtin_args_info (1) < 8 ? 8 - __builtin_args_info (1) : 0)); \ AP.__va_next_o = (__va_greg *) AP.__va_next_fp_limit; \ AP.__va_next_o_limit = (AP.__va_next_o + \ (__builtin_args_info (0) < 4 ? 4 - __builtin_args_info (0) : 0)); \ AP.__va_next_stack = (__va_greg *) __builtin_next_arg (LASTARG); \ }) #else /* ! SH3E */ #define va_start(AP, LASTARG) \ (AP = ((__gnuc_va_list) __builtin_next_arg (LASTARG))) #endif /* ! SH3E */ #else /* _VARARGS_H */ #define va_alist __builtin_va_alist #define va_dcl int __builtin_va_alist;... #ifdef __SH3E__ #define va_start(AP) \ __extension__ \ ({ \ AP.__va_next_fp = (__va_freg *) __builtin_saveregs (); \ AP.__va_next_fp_limit = (AP.__va_next_fp + \ (__builtin_args_info (1) < 8 ? 8 - __builtin_args_info (1) : 0)); \ AP.__va_next_o = (__va_greg *) AP.__va_next_fp_limit; \ AP.__va_next_o_limit = (AP.__va_next_o + \ (__builtin_args_info (0) < 4 ? 4 - __builtin_args_info (0) : 0)); \ AP.__va_next_stack = (__va_greg *) __builtin_next_arg (__builtin_va_alist) \ - (__builtin_args_info (0) >= 4 || __builtin_args_info (1) >= 8 ? 1 : 0); \ }) #else /* ! SH3E */ #define va_start(AP) AP=(char *) &__builtin_va_alist #endif /* ! SH3E */ #endif /* _STDARG */ #ifndef va_end void va_end (__gnuc_va_list); /* Defined in libgcc.a */ /* Values returned by __builtin_classify_type. */ enum __va_type_classes { __no_type_class = -1, __void_type_class, __integer_type_class, __char_type_class, __enumeral_type_class, __boolean_type_class, __pointer_type_class, __reference_type_class, __offset_type_class, __real_type_class, __complex_type_class, __function_type_class, __method_type_class, __record_type_class, __union_type_class, __array_type_class, __string_type_class, __set_type_class, __file_type_class, __lang_type_class }; #endif #define va_end(pvar) ((void)0) /* RECORD_TYPE args passed using the C calling convention are passed by invisible reference. ??? RECORD_TYPE args passed in the stack are made to be word-aligned; for an aggregate that is not word-aligned, we advance the pointer to the first non-reg slot. */ #ifdef __SH3E__ #ifdef __LITTLE_ENDIAN__ #define va_arg(pvar,TYPE) \ __extension__ \ (*({int __type = __builtin_classify_type (* (TYPE *) 0); \ void * __result; \ if (__type == __real_type_class && sizeof(TYPE) == 4) \ /* float? */ \ { \ __va_freg *__r; \ if (pvar.__va_next_fp < pvar.__va_next_fp_limit) \ __r = (__va_freg *) pvar.__va_next_fp++; \ else \ __r = (__va_freg *) pvar.__va_next_stack++; \ __result = (char *) __r; \ } \ else \ { \ __va_greg *_r; \ if (pvar.__va_next_o + ((sizeof (TYPE) + 3) / 4) \ <= pvar.__va_next_o_limit) \ { \ _r = pvar.__va_next_o; \ pvar.__va_next_o += (sizeof (TYPE) + 3) / 4; \ } \ else \ { \ _r = pvar.__va_next_stack; \ pvar.__va_next_stack += (sizeof (TYPE) + 3) / 4; \ } \ __result = (char *) _r; \ } \ (TYPE *) __result;})) #else /* ! __LITTLE_ENDIAN__ */ #define va_arg(pvar,TYPE) \ __extension__ \ (*({int __type = __builtin_classify_type (* (TYPE *) 0); \ void * __result; \ if (__type == __real_type_class && sizeof(TYPE) == 4) \ /* float? */ \ { \ __va_freg *__r; \ if (pvar.__va_next_fp < pvar.__va_next_fp_limit) \ __r = (__va_freg *) pvar.__va_next_fp++; \ else \ __r = (__va_freg *) pvar.__va_next_stack++; \ __result = (char *) __r; \ } \ else \ { \ __va_greg *_r; \ if (pvar.__va_next_o + ((sizeof (TYPE) + 3) / 4) \ <= pvar.__va_next_o_limit) \ { \ pvar.__va_next_o += (sizeof (TYPE) + 3) / 4; \ _r = pvar.__va_next_o; \ } \ else \ { \ pvar.__va_next_stack += (sizeof (TYPE) + 3) / 4; \ _r = pvar.__va_next_stack; \ } \ __result = ((char *) _r \ - (sizeof (TYPE) < 4 ? sizeof (TYPE) \ : ((sizeof (TYPE) + 3) / 4) * 4)); \ } \ (TYPE *) __result;})) #endif /* __LITTLE_ENDIAN__ */ #else /* ! SH3E */ #ifdef __LITTLE_ENDIAN__ /* This is for little-endian machines; small args are padded upward. */ #define va_arg(AP, TYPE) \ (AP = (__gnuc_va_list) ((char *) (AP) + __va_rounded_size (TYPE)), \ *((TYPE *) (void *) ((char *) (AP) - __va_rounded_size (TYPE)))) #else /* ! __LITTLE_ENDIAN__ */ /* This is for big-endian machines; small args are padded downward. */ #define va_arg(AP, TYPE) \ (AP = (__gnuc_va_list) ((char *) (AP) + __va_rounded_size (TYPE)), \ *((TYPE *) (void *) ((char *) (AP) \ - ((sizeof (TYPE) < __va_rounded_size (char) \ ? sizeof (TYPE) : __va_rounded_size (TYPE)))))) #endif /* __LITTLE_ENDIAN__ */ #endif /* SH3E */ #endif /* defined (_STDARG_H) || defined (_VARARGS_H) */