4 #include "qemu/bswap.h"
7 typedef __int128_t Int128
;
9 static inline Int128
int128_make64(uint64_t a
)
14 static inline Int128
int128_makes64(int64_t a
)
19 static inline Int128
int128_make128(uint64_t lo
, uint64_t hi
)
21 return (__uint128_t
)hi
<< 64 | lo
;
24 static inline uint64_t int128_get64(Int128 a
)
31 static inline uint64_t int128_getlo(Int128 a
)
36 static inline int64_t int128_gethi(Int128 a
)
41 static inline Int128
int128_zero(void)
46 static inline Int128
int128_one(void)
51 static inline Int128
int128_2_64(void)
53 return (Int128
)1 << 64;
56 static inline Int128
int128_exts64(int64_t a
)
61 static inline Int128
int128_not(Int128 a
)
66 static inline Int128
int128_and(Int128 a
, Int128 b
)
71 static inline Int128
int128_or(Int128 a
, Int128 b
)
76 static inline Int128
int128_xor(Int128 a
, Int128 b
)
81 static inline Int128
int128_rshift(Int128 a
, int n
)
86 static inline Int128
int128_lshift(Int128 a
, int n
)
91 static inline Int128
int128_add(Int128 a
, Int128 b
)
96 static inline Int128
int128_neg(Int128 a
)
101 static inline Int128
int128_sub(Int128 a
, Int128 b
)
106 static inline bool int128_nonneg(Int128 a
)
111 static inline bool int128_eq(Int128 a
, Int128 b
)
116 static inline bool int128_ne(Int128 a
, Int128 b
)
121 static inline bool int128_ge(Int128 a
, Int128 b
)
126 static inline bool int128_lt(Int128 a
, Int128 b
)
131 static inline bool int128_le(Int128 a
, Int128 b
)
136 static inline bool int128_gt(Int128 a
, Int128 b
)
141 static inline bool int128_nz(Int128 a
)
146 static inline Int128
int128_min(Int128 a
, Int128 b
)
148 return a
< b
? a
: b
;
151 static inline Int128
int128_max(Int128 a
, Int128 b
)
153 return a
> b
? a
: b
;
156 static inline void int128_addto(Int128
*a
, Int128 b
)
161 static inline void int128_subfrom(Int128
*a
, Int128 b
)
166 static inline Int128
bswap128(Int128 a
)
168 #if __has_builtin(__builtin_bswap128)
169 return __builtin_bswap128(a
);
171 return int128_make128(bswap64(int128_gethi(a
)), bswap64(int128_getlo(a
)));
175 #else /* !CONFIG_INT128 */
177 typedef struct Int128 Int128
;
180 * We guarantee that the in-memory byte representation of an
181 * Int128 is that of a host-endian-order 128-bit integer
182 * (whether using this struct or the __int128_t version of the type).
183 * Some code using this type relies on this (eg when copying it into
184 * guest memory or a gdb protocol buffer, or by using Int128 in
185 * a union with other integer types).
188 #ifdef HOST_WORDS_BIGENDIAN
197 static inline Int128
int128_make64(uint64_t a
)
199 return (Int128
) { .lo
= a
, .hi
= 0 };
202 static inline Int128
int128_makes64(int64_t a
)
204 return (Int128
) { .lo
= a
, .hi
= a
>> 63 };
207 static inline Int128
int128_make128(uint64_t lo
, uint64_t hi
)
209 return (Int128
) { .lo
= lo
, .hi
= hi
};
212 static inline uint64_t int128_get64(Int128 a
)
218 static inline uint64_t int128_getlo(Int128 a
)
223 static inline int64_t int128_gethi(Int128 a
)
228 static inline Int128
int128_zero(void)
230 return int128_make64(0);
233 static inline Int128
int128_one(void)
235 return int128_make64(1);
238 static inline Int128
int128_2_64(void)
240 return int128_make128(0, 1);
243 static inline Int128
int128_exts64(int64_t a
)
245 return int128_make128(a
, (a
< 0) ? -1 : 0);
248 static inline Int128
int128_not(Int128 a
)
250 return int128_make128(~a
.lo
, ~a
.hi
);
253 static inline Int128
int128_and(Int128 a
, Int128 b
)
255 return int128_make128(a
.lo
& b
.lo
, a
.hi
& b
.hi
);
258 static inline Int128
int128_or(Int128 a
, Int128 b
)
260 return int128_make128(a
.lo
| b
.lo
, a
.hi
| b
.hi
);
263 static inline Int128
int128_xor(Int128 a
, Int128 b
)
265 return int128_make128(a
.lo
^ b
.lo
, a
.hi
^ b
.hi
);
268 static inline Int128
int128_rshift(Int128 a
, int n
)
274 h
= a
.hi
>> (n
& 63);
276 return int128_make128(h
, h
>> 63);
278 return int128_make128((a
.lo
>> n
) | ((uint64_t)a
.hi
<< (64 - n
)), h
);
282 static inline Int128
int128_lshift(Int128 a
, int n
)
284 uint64_t l
= a
.lo
<< (n
& 63);
286 return int128_make128(0, l
);
288 return int128_make128(l
, (a
.hi
<< n
) | (a
.lo
>> (64 - n
)));
293 static inline Int128
int128_add(Int128 a
, Int128 b
)
295 uint64_t lo
= a
.lo
+ b
.lo
;
297 /* a.lo <= a.lo + b.lo < a.lo + k (k is the base, 2^64). Hence,
298 * a.lo + b.lo >= k implies 0 <= lo = a.lo + b.lo - k < a.lo.
299 * Similarly, a.lo + b.lo < k implies a.lo <= lo = a.lo + b.lo < k.
301 * So the carry is lo < a.lo.
303 return int128_make128(lo
, (uint64_t)a
.hi
+ b
.hi
+ (lo
< a
.lo
));
306 static inline Int128
int128_neg(Int128 a
)
309 return int128_make128(lo
, ~(uint64_t)a
.hi
+ !lo
);
312 static inline Int128
int128_sub(Int128 a
, Int128 b
)
314 return int128_make128(a
.lo
- b
.lo
, (uint64_t)a
.hi
- b
.hi
- (a
.lo
< b
.lo
));
317 static inline bool int128_nonneg(Int128 a
)
322 static inline bool int128_eq(Int128 a
, Int128 b
)
324 return a
.lo
== b
.lo
&& a
.hi
== b
.hi
;
327 static inline bool int128_ne(Int128 a
, Int128 b
)
329 return !int128_eq(a
, b
);
332 static inline bool int128_ge(Int128 a
, Int128 b
)
334 return a
.hi
> b
.hi
|| (a
.hi
== b
.hi
&& a
.lo
>= b
.lo
);
337 static inline bool int128_lt(Int128 a
, Int128 b
)
339 return !int128_ge(a
, b
);
342 static inline bool int128_le(Int128 a
, Int128 b
)
344 return int128_ge(b
, a
);
347 static inline bool int128_gt(Int128 a
, Int128 b
)
349 return !int128_le(a
, b
);
352 static inline bool int128_nz(Int128 a
)
357 static inline Int128
int128_min(Int128 a
, Int128 b
)
359 return int128_le(a
, b
) ? a
: b
;
362 static inline Int128
int128_max(Int128 a
, Int128 b
)
364 return int128_ge(a
, b
) ? a
: b
;
367 static inline void int128_addto(Int128
*a
, Int128 b
)
369 *a
= int128_add(*a
, b
);
372 static inline void int128_subfrom(Int128
*a
, Int128 b
)
374 *a
= int128_sub(*a
, b
);
377 static inline Int128
bswap128(Int128 a
)
379 return int128_make128(bswap64(a
.hi
), bswap64(a
.lo
));
382 #endif /* CONFIG_INT128 */
384 static inline void bswap128s(Int128
*s
)
389 #endif /* INT128_H */
