| blob | 0cbd20013e72de12dfa0047f77566dac3d862dce |
1 /*
2 * In this file we wrap QEMU FP functions to look like softfloat/testfloat's,
3 * so that we can use the testfloat infrastructure as-is.
4 *
5 * This file must be included directly from fp-test.c. We could compile it
6 * separately, but it would be tedious to add declarations for all the wrappers.
7 */
9 static signed char sf_tininess_to_qemu(uint_fast8_t mode)
10 {
11 switch (mode) {
12 case softfloat_tininess_beforeRounding:
13 return float_tininess_before_rounding;
14 case softfloat_tininess_afterRounding:
15 return float_tininess_after_rounding;
16 default:
17 g_assert_not_reached();
18 }
19 }
21 static signed char sf_rounding_to_qemu(uint_fast8_t mode)
22 {
23 switch (mode) {
24 case softfloat_round_near_even:
25 return float_round_nearest_even;
26 case softfloat_round_minMag:
27 return float_round_to_zero;
28 case softfloat_round_min:
29 return float_round_down;
30 case softfloat_round_max:
31 return float_round_up;
32 case softfloat_round_near_maxMag:
33 return float_round_ties_away;
34 case softfloat_round_odd:
35 return float_round_to_odd;
36 default:
37 g_assert_not_reached();
38 }
39 }
41 static uint_fast8_t qemu_flags_to_sf(uint8_t qflags)
42 {
43 uint_fast8_t ret = 0;
45 if (qflags & float_flag_invalid) {
46 ret |= softfloat_flag_invalid;
47 }
48 if (qflags & float_flag_divbyzero) {
49 ret |= softfloat_flag_infinite;
50 }
51 if (qflags & float_flag_overflow) {
52 ret |= softfloat_flag_overflow;
53 }
54 if (qflags & float_flag_underflow) {
55 ret |= softfloat_flag_underflow;
56 }
57 if (qflags & float_flag_inexact) {
58 ret |= softfloat_flag_inexact;
59 }
60 return ret;
61 }
63 /*
64 * floatx80 and float128 cannot be cast between qemu and softfloat, because
65 * in softfloat the order of the fields depends on the host's endianness.
66 */
67 static extFloat80_t qemu_to_soft80(floatx80 a)
68 {
69 extFloat80_t ret;
71 ret.signif = a.low;
72 ret.signExp = a.high;
73 return ret;
74 }
76 static floatx80 soft_to_qemu80(extFloat80_t a)
77 {
78 floatx80 ret;
80 ret.low = a.signif;
81 ret.high = a.signExp;
82 return ret;
83 }
85 static float128_t qemu_to_soft128(float128 a)
86 {
87 float128_t ret;
88 struct uint128 *to = (struct uint128 *)&ret;
90 to->v0 = a.low;
91 to->v64 = a.high;
92 return ret;
93 }
95 static float128 soft_to_qemu128(float128_t a)
96 {
97 struct uint128 *from = (struct uint128 *)&a;
98 float128 ret;
100 ret.low = from->v0;
101 ret.high = from->v64;
102 return ret;
103 }
105 /* conversions */
106 #define WRAP_SF_TO_SF_IEEE(name, func, a_type, b_type) \
107 static b_type##_t name(a_type##_t a) \
108 { \
109 a_type *ap = (a_type *)&a; \
110 b_type ret; \
111 \
112 ret = func(*ap, true, &qsf); \
113 return *(b_type##_t *)&ret; \
114 }
116 WRAP_SF_TO_SF_IEEE(qemu_f16_to_f32, float16_to_float32, float16, float32)
117 WRAP_SF_TO_SF_IEEE(qemu_f16_to_f64, float16_to_float64, float16, float64)
119 WRAP_SF_TO_SF_IEEE(qemu_f32_to_f16, float32_to_float16, float32, float16)
120 WRAP_SF_TO_SF_IEEE(qemu_f64_to_f16, float64_to_float16, float64, float16)
121 #undef WRAP_SF_TO_SF_IEEE
123 #define WRAP_SF_TO_SF(name, func, a_type, b_type) \
124 static b_type##_t name(a_type##_t a) \
125 { \
126 a_type *ap = (a_type *)&a; \
127 b_type ret; \
128 \
129 ret = func(*ap, &qsf); \
130 return *(b_type##_t *)&ret; \
131 }
133 WRAP_SF_TO_SF(qemu_f32_to_f64, float32_to_float64, float32, float64)
134 WRAP_SF_TO_SF(qemu_f64_to_f32, float64_to_float32, float64, float32)
135 #undef WRAP_SF_TO_SF
137 #define WRAP_SF_TO_80(name, func, type) \
138 static void name(type##_t a, extFloat80_t *res) \
139 { \
140 floatx80 ret; \
141 type *ap = (type *)&a; \
142 \
143 ret = func(*ap, &qsf); \
144 *res = qemu_to_soft80(ret); \
145 }
147 WRAP_SF_TO_80(qemu_f32_to_extF80M, float32_to_floatx80, float32)
148 WRAP_SF_TO_80(qemu_f64_to_extF80M, float64_to_floatx80, float64)
149 #undef WRAP_SF_TO_80
151 #define WRAP_SF_TO_128(name, func, type) \
152 static void name(type##_t a, float128_t *res) \
153 { \
154 float128 ret; \
155 type *ap = (type *)&a; \
156 \
157 ret = func(*ap, &qsf); \
158 *res = qemu_to_soft128(ret); \
159 }
161 WRAP_SF_TO_128(qemu_f32_to_f128M, float32_to_float128, float32)
162 WRAP_SF_TO_128(qemu_f64_to_f128M, float64_to_float128, float64)
163 #undef WRAP_SF_TO_128
165 /* Note: exact is ignored since qemu's softfloat assumes it is set */
166 #define WRAP_SF_TO_INT(name, func, type, fast_type) \
167 static fast_type name(type##_t a, uint_fast8_t round, bool exact) \
168 { \
169 type *ap = (type *)&a; \
170 \
171 qsf.float_rounding_mode = sf_rounding_to_qemu(round); \
172 return func(*ap, &qsf); \
173 }
175 WRAP_SF_TO_INT(qemu_f16_to_ui32, float16_to_uint32, float16, uint_fast32_t)
176 WRAP_SF_TO_INT(qemu_f16_to_ui64, float16_to_uint64, float16, uint_fast64_t)
178 WRAP_SF_TO_INT(qemu_f32_to_ui32, float32_to_uint32, float32, uint_fast32_t)
179 WRAP_SF_TO_INT(qemu_f32_to_ui64, float32_to_uint64, float32, uint_fast64_t)
181 WRAP_SF_TO_INT(qemu_f64_to_ui32, float64_to_uint32, float64, uint_fast32_t)
182 WRAP_SF_TO_INT(qemu_f64_to_ui64, float64_to_uint64, float64, uint_fast64_t)
184 WRAP_SF_TO_INT(qemu_f16_to_i32, float16_to_int32, float16, int_fast32_t)
185 WRAP_SF_TO_INT(qemu_f16_to_i64, float16_to_int64, float16, int_fast64_t)
187 WRAP_SF_TO_INT(qemu_f32_to_i32, float32_to_int32, float32, int_fast32_t)
188 WRAP_SF_TO_INT(qemu_f32_to_i64, float32_to_int64, float32, int_fast64_t)
190 WRAP_SF_TO_INT(qemu_f64_to_i32, float64_to_int32, float64, int_fast32_t)
191 WRAP_SF_TO_INT(qemu_f64_to_i64, float64_to_int64, float64, int_fast64_t)
192 #undef WRAP_SF_TO_INT
194 /* Note: exact is ignored since qemu's softfloat assumes it is set */
195 #define WRAP_SF_TO_INT_MINMAG(name, func, type, fast_type) \
196 static fast_type name(type##_t a, bool exact) \
197 { \
198 type *ap = (type *)&a; \
199 \
200 return func(*ap, &qsf); \
201 }
203 WRAP_SF_TO_INT_MINMAG(qemu_f16_to_ui32_r_minMag,
204 float16_to_uint32_round_to_zero, float16, uint_fast32_t)
205 WRAP_SF_TO_INT_MINMAG(qemu_f16_to_ui64_r_minMag,
206 float16_to_uint64_round_to_zero, float16, uint_fast64_t)
208 WRAP_SF_TO_INT_MINMAG(qemu_f16_to_i32_r_minMag,
209 float16_to_int32_round_to_zero, float16, int_fast32_t)
210 WRAP_SF_TO_INT_MINMAG(qemu_f16_to_i64_r_minMag,
211 float16_to_int64_round_to_zero, float16, int_fast64_t)
213 WRAP_SF_TO_INT_MINMAG(qemu_f32_to_ui32_r_minMag,
214 float32_to_uint32_round_to_zero, float32, uint_fast32_t)
215 WRAP_SF_TO_INT_MINMAG(qemu_f32_to_ui64_r_minMag,
216 float32_to_uint64_round_to_zero, float32, uint_fast64_t)
218 WRAP_SF_TO_INT_MINMAG(qemu_f32_to_i32_r_minMag,
219 float32_to_int32_round_to_zero, float32, int_fast32_t)
220 WRAP_SF_TO_INT_MINMAG(qemu_f32_to_i64_r_minMag,
221 float32_to_int64_round_to_zero, float32, int_fast64_t)
223 WRAP_SF_TO_INT_MINMAG(qemu_f64_to_ui32_r_minMag,
224 float64_to_uint32_round_to_zero, float64, uint_fast32_t)
225 WRAP_SF_TO_INT_MINMAG(qemu_f64_to_ui64_r_minMag,
226 float64_to_uint64_round_to_zero, float64, uint_fast64_t)
228 WRAP_SF_TO_INT_MINMAG(qemu_f64_to_i32_r_minMag,
229 float64_to_int32_round_to_zero, float64, int_fast32_t)
230 WRAP_SF_TO_INT_MINMAG(qemu_f64_to_i64_r_minMag,
231 float64_to_int64_round_to_zero, float64, int_fast64_t)
232 #undef WRAP_SF_TO_INT_MINMAG
234 #define WRAP_80_TO_SF(name, func, type) \
235 static type##_t name(const extFloat80_t *ap) \
236 { \
237 floatx80 a; \
238 type ret; \
239 \
240 a = soft_to_qemu80(*ap); \
241 ret = func(a, &qsf); \
242 return *(type##_t *)&ret; \
243 }
245 WRAP_80_TO_SF(qemu_extF80M_to_f32, floatx80_to_float32, float32)
246 WRAP_80_TO_SF(qemu_extF80M_to_f64, floatx80_to_float64, float64)
247 #undef WRAP_80_TO_SF
249 #define WRAP_128_TO_SF(name, func, type) \
250 static type##_t name(const float128_t *ap) \
251 { \
252 float128 a; \
253 type ret; \
254 \
255 a = soft_to_qemu128(*ap); \
256 ret = func(a, &qsf); \
257 return *(type##_t *)&ret; \
258 }
260 WRAP_128_TO_SF(qemu_f128M_to_f32, float128_to_float32, float32)
261 WRAP_128_TO_SF(qemu_f128M_to_f64, float128_to_float64, float64)
262 #undef WRAP_128_TO_SF
264 static void qemu_extF80M_to_f128M(const extFloat80_t *from, float128_t *to)
265 {
266 floatx80 qfrom;
267 float128 qto;
269 qfrom = soft_to_qemu80(*from);
270 qto = floatx80_to_float128(qfrom, &qsf);
271 *to = qemu_to_soft128(qto);
272 }
274 static void qemu_f128M_to_extF80M(const float128_t *from, extFloat80_t *to)
275 {
276 float128 qfrom;
277 floatx80 qto;
279 qfrom = soft_to_qemu128(*from);
280 qto = float128_to_floatx80(qfrom, &qsf);
281 *to = qemu_to_soft80(qto);
282 }
284 #define WRAP_INT_TO_SF(name, func, int_type, type) \
285 static type##_t name(int_type a) \
286 { \
287 type ret; \
288 \
289 ret = func(a, &qsf); \
290 return *(type##_t *)&ret; \
291 }
293 WRAP_INT_TO_SF(qemu_ui32_to_f16, uint32_to_float16, uint32_t, float16)
294 WRAP_INT_TO_SF(qemu_ui32_to_f32, uint32_to_float32, uint32_t, float32)
295 WRAP_INT_TO_SF(qemu_ui32_to_f64, uint32_to_float64, uint32_t, float64)
297 WRAP_INT_TO_SF(qemu_ui64_to_f16, uint64_to_float16, uint64_t, float16)
298 WRAP_INT_TO_SF(qemu_ui64_to_f32, uint64_to_float32, uint64_t, float32)
299 WRAP_INT_TO_SF(qemu_ui64_to_f64, uint64_to_float64, uint64_t, float64)
301 WRAP_INT_TO_SF(qemu_i32_to_f16, int32_to_float16, int32_t, float16)
302 WRAP_INT_TO_SF(qemu_i32_to_f32, int32_to_float32, int32_t, float32)
303 WRAP_INT_TO_SF(qemu_i32_to_f64, int32_to_float64, int32_t, float64)
305 WRAP_INT_TO_SF(qemu_i64_to_f16, int64_to_float16, int64_t, float16)
306 WRAP_INT_TO_SF(qemu_i64_to_f32, int64_to_float32, int64_t, float32)
307 WRAP_INT_TO_SF(qemu_i64_to_f64, int64_to_float64, int64_t, float64)
308 #undef WRAP_INT_TO_SF
310 #define WRAP_INT_TO_80(name, func, int_type) \
311 static void name(int_type a, extFloat80_t *res) \
312 { \
313 floatx80 ret; \
314 \
315 ret = func(a, &qsf); \
316 *res = qemu_to_soft80(ret); \
317 }
319 WRAP_INT_TO_80(qemu_i32_to_extF80M, int32_to_floatx80, int32_t)
320 WRAP_INT_TO_80(qemu_i64_to_extF80M, int64_to_floatx80, int64_t)
321 #undef WRAP_INT_TO_80
323 /* Note: exact is ignored since qemu's softfloat assumes it is set */
324 #define WRAP_80_TO_INT(name, func, fast_type) \
325 static fast_type name(const extFloat80_t *ap, uint_fast8_t round, \
326 bool exact) \
327 { \
328 floatx80 a; \
329 \
330 a = soft_to_qemu80(*ap); \
331 qsf.float_rounding_mode = sf_rounding_to_qemu(round); \
332 return func(a, &qsf); \
333 }
335 WRAP_80_TO_INT(qemu_extF80M_to_i32, floatx80_to_int32, int_fast32_t)
336 WRAP_80_TO_INT(qemu_extF80M_to_i64, floatx80_to_int64, int_fast64_t)
337 #undef WRAP_80_TO_INT
339 /* Note: exact is ignored since qemu's softfloat assumes it is set */
340 #define WRAP_80_TO_INT_MINMAG(name, func, fast_type) \
341 static fast_type name(const extFloat80_t *ap, bool exact) \
342 { \
343 floatx80 a; \
344 \
345 a = soft_to_qemu80(*ap); \
346 return func(a, &qsf); \
347 }
349 WRAP_80_TO_INT_MINMAG(qemu_extF80M_to_i32_r_minMag,
350 floatx80_to_int32_round_to_zero, int_fast32_t)
351 WRAP_80_TO_INT_MINMAG(qemu_extF80M_to_i64_r_minMag,
352 floatx80_to_int64_round_to_zero, int_fast64_t)
353 #undef WRAP_80_TO_INT_MINMAG
355 /* Note: exact is ignored since qemu's softfloat assumes it is set */
356 #define WRAP_128_TO_INT(name, func, fast_type) \
357 static fast_type name(const float128_t *ap, uint_fast8_t round, \
358 bool exact) \
359 { \
360 float128 a; \
361 \
362 a = soft_to_qemu128(*ap); \
363 qsf.float_rounding_mode = sf_rounding_to_qemu(round); \
364 return func(a, &qsf); \
365 }
367 WRAP_128_TO_INT(qemu_f128M_to_i32, float128_to_int32, int_fast32_t)
368 WRAP_128_TO_INT(qemu_f128M_to_i64, float128_to_int64, int_fast64_t)
370 WRAP_128_TO_INT(qemu_f128M_to_ui32, float128_to_uint32, uint_fast32_t)
371 WRAP_128_TO_INT(qemu_f128M_to_ui64, float128_to_uint64, uint_fast64_t)
372 #undef WRAP_128_TO_INT
374 /* Note: exact is ignored since qemu's softfloat assumes it is set */
375 #define WRAP_128_TO_INT_MINMAG(name, func, fast_type) \
376 static fast_type name(const float128_t *ap, bool exact) \
377 { \
378 float128 a; \
379 \
380 a = soft_to_qemu128(*ap); \
381 return func(a, &qsf); \
382 }
384 WRAP_128_TO_INT_MINMAG(qemu_f128M_to_i32_r_minMag,
385 float128_to_int32_round_to_zero, int_fast32_t)
386 WRAP_128_TO_INT_MINMAG(qemu_f128M_to_i64_r_minMag,
387 float128_to_int64_round_to_zero, int_fast64_t)
389 WRAP_128_TO_INT_MINMAG(qemu_f128M_to_ui32_r_minMag,
390 float128_to_uint32_round_to_zero, uint_fast32_t)
391 WRAP_128_TO_INT_MINMAG(qemu_f128M_to_ui64_r_minMag,
392 float128_to_uint64_round_to_zero, uint_fast64_t)
393 #undef WRAP_128_TO_INT_MINMAG
395 #define WRAP_INT_TO_128(name, func, int_type) \
396 static void name(int_type a, float128_t *res) \
397 { \
398 float128 ret; \
399 \
400 ret = func(a, &qsf); \
401 *res = qemu_to_soft128(ret); \
402 }
404 WRAP_INT_TO_128(qemu_ui64_to_f128M, uint64_to_float128, uint64_t)
406 WRAP_INT_TO_128(qemu_i32_to_f128M, int32_to_float128, int32_t)
407 WRAP_INT_TO_128(qemu_i64_to_f128M, int64_to_float128, int64_t)
408 #undef WRAP_INT_TO_128
410 /* Note: exact is ignored since qemu's softfloat assumes it is set */
411 #define WRAP_ROUND_TO_INT(name, func, type) \
412 static type##_t name(type##_t a, uint_fast8_t round, bool exact) \
413 { \
414 type *ap = (type *)&a; \
415 type ret; \
416 \
417 qsf.float_rounding_mode = sf_rounding_to_qemu(round); \
418 ret = func(*ap, &qsf); \
419 return *(type##_t *)&ret; \
420 }
422 WRAP_ROUND_TO_INT(qemu_f16_roundToInt, float16_round_to_int, float16)
423 WRAP_ROUND_TO_INT(qemu_f32_roundToInt, float32_round_to_int, float32)
424 WRAP_ROUND_TO_INT(qemu_f64_roundToInt, float64_round_to_int, float64)
425 #undef WRAP_ROUND_TO_INT
427 static void qemu_extF80M_roundToInt(const extFloat80_t *ap, uint_fast8_t round,
428 bool exact, extFloat80_t *res)
429 {
430 floatx80 a;
431 floatx80 ret;
433 a = soft_to_qemu80(*ap);
434 qsf.float_rounding_mode = sf_rounding_to_qemu(round);
435 ret = floatx80_round_to_int(a, &qsf);
436 *res = qemu_to_soft80(ret);
437 }
439 static void qemu_f128M_roundToInt(const float128_t *ap, uint_fast8_t round,
440 bool exact, float128_t *res)
441 {
442 float128 a;
443 float128 ret;
445 a = soft_to_qemu128(*ap);
446 qsf.float_rounding_mode = sf_rounding_to_qemu(round);
447 ret = float128_round_to_int(a, &qsf);
448 *res = qemu_to_soft128(ret);
449 }
451 /* operations */
452 #define WRAP1(name, func, type) \
453 static type##_t name(type##_t a) \
454 { \
455 type *ap = (type *)&a; \
456 type ret; \
457 \
458 ret = func(*ap, &qsf); \
459 return *(type##_t *)&ret; \
460 }
462 #define WRAP2(name, func, type) \
463 static type##_t name(type##_t a, type##_t b) \
464 { \
465 type *ap = (type *)&a; \
466 type *bp = (type *)&b; \
467 type ret; \
468 \
469 ret = func(*ap, *bp, &qsf); \
470 return *(type##_t *)&ret; \
471 }
473 #define WRAP_COMMON_OPS(b) \
474 WRAP1(qemu_f##b##_sqrt, float##b##_sqrt, float##b) \
475 WRAP2(qemu_f##b##_add, float##b##_add, float##b) \
476 WRAP2(qemu_f##b##_sub, float##b##_sub, float##b) \
477 WRAP2(qemu_f##b##_mul, float##b##_mul, float##b) \
478 WRAP2(qemu_f##b##_div, float##b##_div, float##b)
480 WRAP_COMMON_OPS(16)
481 WRAP_COMMON_OPS(32)
482 WRAP_COMMON_OPS(64)
483 #undef WRAP_COMMON
485 WRAP2(qemu_f32_rem, float32_rem, float32)
486 WRAP2(qemu_f64_rem, float64_rem, float64)
487 #undef WRAP2
488 #undef WRAP1
490 #define WRAP1_80(name, func) \
491 static void name(const extFloat80_t *ap, extFloat80_t *res) \
492 { \
493 floatx80 a; \
494 floatx80 ret; \
495 \
496 a = soft_to_qemu80(*ap); \
497 ret = func(a, &qsf); \
498 *res = qemu_to_soft80(ret); \
499 }
501 WRAP1_80(qemu_extF80M_sqrt, floatx80_sqrt)
502 #undef WRAP1_80
504 #define WRAP1_128(name, func) \
505 static void name(const float128_t *ap, float128_t *res) \
506 { \
507 float128 a; \
508 float128 ret; \
509 \
510 a = soft_to_qemu128(*ap); \
511 ret = func(a, &qsf); \
512 *res = qemu_to_soft128(ret); \
513 }
515 WRAP1_128(qemu_f128M_sqrt, float128_sqrt)
516 #undef WRAP1_128
518 #define WRAP2_80(name, func) \
519 static void name(const extFloat80_t *ap, const extFloat80_t *bp, \
520 extFloat80_t *res) \
521 { \
522 floatx80 a; \
523 floatx80 b; \
524 floatx80 ret; \
525 \
526 a = soft_to_qemu80(*ap); \
527 b = soft_to_qemu80(*bp); \
528 ret = func(a, b, &qsf); \
529 *res = qemu_to_soft80(ret); \
530 }
532 WRAP2_80(qemu_extF80M_add, floatx80_add)
533 WRAP2_80(qemu_extF80M_sub, floatx80_sub)
534 WRAP2_80(qemu_extF80M_mul, floatx80_mul)
535 WRAP2_80(qemu_extF80M_div, floatx80_div)
536 WRAP2_80(qemu_extF80M_rem, floatx80_rem)
537 #undef WRAP2_80
539 #define WRAP2_128(name, func) \
540 static void name(const float128_t *ap, const float128_t *bp, \
541 float128_t *res) \
542 { \
543 float128 a; \
544 float128 b; \
545 float128 ret; \
546 \
547 a = soft_to_qemu128(*ap); \
548 b = soft_to_qemu128(*bp); \
549 ret = func(a, b, &qsf); \
550 *res = qemu_to_soft128(ret); \
551 }
553 WRAP2_128(qemu_f128M_add, float128_add)
554 WRAP2_128(qemu_f128M_sub, float128_sub)
555 WRAP2_128(qemu_f128M_mul, float128_mul)
556 WRAP2_128(qemu_f128M_div, float128_div)
557 WRAP2_128(qemu_f128M_rem, float128_rem)
558 #undef WRAP2_128
560 #define WRAP_MULADD(name, func, type) \
561 static type##_t name(type##_t a, type##_t b, type##_t c) \
562 { \
563 type *ap = (type *)&a; \
564 type *bp = (type *)&b; \
565 type *cp = (type *)&c; \
566 type ret; \
567 \
568 ret = func(*ap, *bp, *cp, 0, &qsf); \
569 return *(type##_t *)&ret; \
570 }
572 WRAP_MULADD(qemu_f16_mulAdd, float16_muladd, float16)
573 WRAP_MULADD(qemu_f32_mulAdd, float32_muladd, float32)
574 WRAP_MULADD(qemu_f64_mulAdd, float64_muladd, float64)
575 #undef WRAP_MULADD
577 #define WRAP_CMP16(name, func, retcond) \
578 static bool name(float16_t a, float16_t b) \
579 { \
580 float16 *ap = (float16 *)&a; \
581 float16 *bp = (float16 *)&b; \
582 int ret; \
583 \
584 ret = func(*ap, *bp, &qsf); \
585 return retcond; \
586 }
588 WRAP_CMP16(qemu_f16_eq_signaling, float16_compare, ret == 0)
589 WRAP_CMP16(qemu_f16_eq, float16_compare_quiet, ret == 0)
590 WRAP_CMP16(qemu_f16_le, float16_compare, ret <= 0)
591 WRAP_CMP16(qemu_f16_lt, float16_compare, ret < 0)
592 WRAP_CMP16(qemu_f16_le_quiet, float16_compare_quiet, ret <= 0)
593 WRAP_CMP16(qemu_f16_lt_quiet, float16_compare_quiet, ret < 0)
594 #undef WRAP_CMP16
596 #define WRAP_CMP(name, func, type) \
597 static bool name(type##_t a, type##_t b) \
598 { \
599 type *ap = (type *)&a; \
600 type *bp = (type *)&b; \
601 \
602 return !!func(*ap, *bp, &qsf); \
603 }
605 #define GEN_WRAP_CMP(b) \
606 WRAP_CMP(qemu_f##b##_eq_signaling, float##b##_eq, float##b) \
607 WRAP_CMP(qemu_f##b##_eq, float##b##_eq_quiet, float##b) \
608 WRAP_CMP(qemu_f##b##_le, float##b##_le, float##b) \
609 WRAP_CMP(qemu_f##b##_lt, float##b##_lt, float##b) \
610 WRAP_CMP(qemu_f##b##_le_quiet, float##b##_le_quiet, float##b) \
611 WRAP_CMP(qemu_f##b##_lt_quiet, float##b##_lt_quiet, float##b)
613 GEN_WRAP_CMP(32)
614 GEN_WRAP_CMP(64)
615 #undef GEN_WRAP_CMP
616 #undef WRAP_CMP
618 #define WRAP_CMP80(name, func) \
619 static bool name(const extFloat80_t *ap, const extFloat80_t *bp) \
620 { \
621 floatx80 a; \
622 floatx80 b; \
623 \
624 a = soft_to_qemu80(*ap); \
625 b = soft_to_qemu80(*bp); \
626 return !!func(a, b, &qsf); \
627 }
629 WRAP_CMP80(qemu_extF80M_eq_signaling, floatx80_eq)
630 WRAP_CMP80(qemu_extF80M_eq, floatx80_eq_quiet)
631 WRAP_CMP80(qemu_extF80M_le, floatx80_le)
632 WRAP_CMP80(qemu_extF80M_lt, floatx80_lt)
633 WRAP_CMP80(qemu_extF80M_le_quiet, floatx80_le_quiet)
634 WRAP_CMP80(qemu_extF80M_lt_quiet, floatx80_le_quiet)
635 #undef WRAP_CMP80
637 #define WRAP_CMP128(name, func) \
638 static bool name(const float128_t *ap, const float128_t *bp) \
639 { \
640 float128 a; \
641 float128 b; \
642 \
643 a = soft_to_qemu128(*ap); \
644 b = soft_to_qemu128(*bp); \
645 return !!func(a, b, &qsf); \
646 }
648 WRAP_CMP128(qemu_f128M_eq_signaling, float128_eq)
649 WRAP_CMP128(qemu_f128M_eq, float128_eq_quiet)
650 WRAP_CMP128(qemu_f128M_le, float128_le)
651 WRAP_CMP128(qemu_f128M_lt, float128_lt)
652 WRAP_CMP128(qemu_f128M_le_quiet, float128_le_quiet)
653 WRAP_CMP128(qemu_f128M_lt_quiet, float128_lt_quiet)
654 #undef WRAP_CMP128