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1 /*
2 * AArch64 SVE translation
3 *
4 * Copyright (c) 2018 Linaro, Ltd
5 *
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
10 *
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
15 *
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, see <http://www.gnu.org/licenses/>.
18 */
19
20 #include "qemu/osdep.h"
21 #include "cpu.h"
22 #include "exec/exec-all.h"
23 #include "tcg/tcg-op.h"
24 #include "tcg/tcg-op-gvec.h"
25 #include "tcg/tcg-gvec-desc.h"
26 #include "qemu/log.h"
27 #include "arm_ldst.h"
28 #include "translate.h"
29 #include "internals.h"
30 #include "exec/helper-proto.h"
31 #include "exec/helper-gen.h"
32 #include "exec/log.h"
33 #include "translate-a64.h"
34 #include "fpu/softfloat.h"
35
36
37 typedef void GVecGen2sFn(unsigned, uint32_t, uint32_t,
38 TCGv_i64, uint32_t, uint32_t);
39
40 typedef void gen_helper_gvec_flags_3(TCGv_i32, TCGv_ptr, TCGv_ptr,
41 TCGv_ptr, TCGv_i32);
42 typedef void gen_helper_gvec_flags_4(TCGv_i32, TCGv_ptr, TCGv_ptr,
43 TCGv_ptr, TCGv_ptr, TCGv_i32);
44
45 typedef void gen_helper_gvec_mem(TCGv_env, TCGv_ptr, TCGv_i64, TCGv_i32);
46 typedef void gen_helper_gvec_mem_scatter(TCGv_env, TCGv_ptr, TCGv_ptr,
47 TCGv_ptr, TCGv_i64, TCGv_i32);
48
49 /*
50 * Helpers for extracting complex instruction fields.
51 */
52
53 /* See e.g. ASR (immediate, predicated).
54 * Returns -1 for unallocated encoding; diagnose later.
55 */
56 static int tszimm_esz(DisasContext *s, int x)
57 {
58 x >>= 3; /* discard imm3 */
59 return 31 - clz32(x);
60 }
61
62 static int tszimm_shr(DisasContext *s, int x)
63 {
64 return (16 << tszimm_esz(s, x)) - x;
65 }
66
67 /* See e.g. LSL (immediate, predicated). */
68 static int tszimm_shl(DisasContext *s, int x)
69 {
70 return x - (8 << tszimm_esz(s, x));
71 }
72
73 /* The SH bit is in bit 8. Extract the low 8 and shift. */
74 static inline int expand_imm_sh8s(DisasContext *s, int x)
75 {
76 return (int8_t)x << (x & 0x100 ? 8 : 0);
77 }
78
79 static inline int expand_imm_sh8u(DisasContext *s, int x)
80 {
81 return (uint8_t)x << (x & 0x100 ? 8 : 0);
82 }
83
84 /* Convert a 2-bit memory size (msz) to a 4-bit data type (dtype)
85 * with unsigned data. C.f. SVE Memory Contiguous Load Group.
86 */
87 static inline int msz_dtype(DisasContext *s, int msz)
88 {
89 static const uint8_t dtype[4] = { 0, 5, 10, 15 };
90 return dtype[msz];
91 }
92
93 /*
94 * Include the generated decoder.
95 */
96
97 #include "decode-sve.c.inc"
98
99 /*
100 * Implement all of the translator functions referenced by the decoder.
101 */
102
103 /* Invoke an out-of-line helper on 2 Zregs. */
104 static bool gen_gvec_ool_zz(DisasContext *s, gen_helper_gvec_2 *fn,
105 int rd, int rn, int data)
106 {
107 if (fn == NULL) {
108 return false;
109 }
110 if (sve_access_check(s)) {
111 unsigned vsz = vec_full_reg_size(s);
112 tcg_gen_gvec_2_ool(vec_full_reg_offset(s, rd),
113 vec_full_reg_offset(s, rn),
114 vsz, vsz, data, fn);
115 }
116 return true;
117 }
118
119 static bool gen_gvec_fpst_zz(DisasContext *s, gen_helper_gvec_2_ptr *fn,
120 int rd, int rn, int data,
121 ARMFPStatusFlavour flavour)
122 {
123 if (fn == NULL) {
124 return false;
125 }
126 if (sve_access_check(s)) {
127 unsigned vsz = vec_full_reg_size(s);
128 TCGv_ptr status = fpstatus_ptr(flavour);
129
130 tcg_gen_gvec_2_ptr(vec_full_reg_offset(s, rd),
131 vec_full_reg_offset(s, rn),
132 status, vsz, vsz, data, fn);
133 tcg_temp_free_ptr(status);
134 }
135 return true;
136 }
137
138 static bool gen_gvec_fpst_arg_zz(DisasContext *s, gen_helper_gvec_2_ptr *fn,
139 arg_rr_esz *a, int data)
140 {
141 return gen_gvec_fpst_zz(s, fn, a->rd, a->rn, data,
142 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
143 }
144
145 /* Invoke an out-of-line helper on 3 Zregs. */
146 static bool gen_gvec_ool_zzz(DisasContext *s, gen_helper_gvec_3 *fn,
147 int rd, int rn, int rm, int data)
148 {
149 if (fn == NULL) {
150 return false;
151 }
152 if (sve_access_check(s)) {
153 unsigned vsz = vec_full_reg_size(s);
154 tcg_gen_gvec_3_ool(vec_full_reg_offset(s, rd),
155 vec_full_reg_offset(s, rn),
156 vec_full_reg_offset(s, rm),
157 vsz, vsz, data, fn);
158 }
159 return true;
160 }
161
162 static bool gen_gvec_ool_arg_zzz(DisasContext *s, gen_helper_gvec_3 *fn,
163 arg_rrr_esz *a, int data)
164 {
165 return gen_gvec_ool_zzz(s, fn, a->rd, a->rn, a->rm, data);
166 }
167
168 /* Invoke an out-of-line helper on 3 Zregs, plus float_status. */
169 static bool gen_gvec_fpst_zzz(DisasContext *s, gen_helper_gvec_3_ptr *fn,
170 int rd, int rn, int rm,
171 int data, ARMFPStatusFlavour flavour)
172 {
173 if (fn == NULL) {
174 return false;
175 }
176 if (sve_access_check(s)) {
177 unsigned vsz = vec_full_reg_size(s);
178 TCGv_ptr status = fpstatus_ptr(flavour);
179
180 tcg_gen_gvec_3_ptr(vec_full_reg_offset(s, rd),
181 vec_full_reg_offset(s, rn),
182 vec_full_reg_offset(s, rm),
183 status, vsz, vsz, data, fn);
184
185 tcg_temp_free_ptr(status);
186 }
187 return true;
188 }
189
190 static bool gen_gvec_fpst_arg_zzz(DisasContext *s, gen_helper_gvec_3_ptr *fn,
191 arg_rrr_esz *a, int data)
192 {
193 return gen_gvec_fpst_zzz(s, fn, a->rd, a->rn, a->rm, data,
194 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
195 }
196
197 /* Invoke an out-of-line helper on 4 Zregs. */
198 static bool gen_gvec_ool_zzzz(DisasContext *s, gen_helper_gvec_4 *fn,
199 int rd, int rn, int rm, int ra, int data)
200 {
201 if (fn == NULL) {
202 return false;
203 }
204 if (sve_access_check(s)) {
205 unsigned vsz = vec_full_reg_size(s);
206 tcg_gen_gvec_4_ool(vec_full_reg_offset(s, rd),
207 vec_full_reg_offset(s, rn),
208 vec_full_reg_offset(s, rm),
209 vec_full_reg_offset(s, ra),
210 vsz, vsz, data, fn);
211 }
212 return true;
213 }
214
215 static bool gen_gvec_ool_arg_zzzz(DisasContext *s, gen_helper_gvec_4 *fn,
216 arg_rrrr_esz *a, int data)
217 {
218 return gen_gvec_ool_zzzz(s, fn, a->rd, a->rn, a->rm, a->ra, data);
219 }
220
221 static bool gen_gvec_ool_arg_zzxz(DisasContext *s, gen_helper_gvec_4 *fn,
222 arg_rrxr_esz *a)
223 {
224 return gen_gvec_ool_zzzz(s, fn, a->rd, a->rn, a->rm, a->ra, a->index);
225 }
226
227 /* Invoke an out-of-line helper on 4 Zregs, plus a pointer. */
228 static bool gen_gvec_ptr_zzzz(DisasContext *s, gen_helper_gvec_4_ptr *fn,
229 int rd, int rn, int rm, int ra,
230 int data, TCGv_ptr ptr)
231 {
232 if (fn == NULL) {
233 return false;
234 }
235 if (sve_access_check(s)) {
236 unsigned vsz = vec_full_reg_size(s);
237 tcg_gen_gvec_4_ptr(vec_full_reg_offset(s, rd),
238 vec_full_reg_offset(s, rn),
239 vec_full_reg_offset(s, rm),
240 vec_full_reg_offset(s, ra),
241 ptr, vsz, vsz, data, fn);
242 }
243 return true;
244 }
245
246 static bool gen_gvec_fpst_zzzz(DisasContext *s, gen_helper_gvec_4_ptr *fn,
247 int rd, int rn, int rm, int ra,
248 int data, ARMFPStatusFlavour flavour)
249 {
250 TCGv_ptr status = fpstatus_ptr(flavour);
251 bool ret = gen_gvec_ptr_zzzz(s, fn, rd, rn, rm, ra, data, status);
252 tcg_temp_free_ptr(status);
253 return ret;
254 }
255
256 /* Invoke an out-of-line helper on 4 Zregs, 1 Preg, plus fpst. */
257 static bool gen_gvec_fpst_zzzzp(DisasContext *s, gen_helper_gvec_5_ptr *fn,
258 int rd, int rn, int rm, int ra, int pg,
259 int data, ARMFPStatusFlavour flavour)
260 {
261 if (fn == NULL) {
262 return false;
263 }
264 if (sve_access_check(s)) {
265 unsigned vsz = vec_full_reg_size(s);
266 TCGv_ptr status = fpstatus_ptr(flavour);
267
268 tcg_gen_gvec_5_ptr(vec_full_reg_offset(s, rd),
269 vec_full_reg_offset(s, rn),
270 vec_full_reg_offset(s, rm),
271 vec_full_reg_offset(s, ra),
272 pred_full_reg_offset(s, pg),
273 status, vsz, vsz, data, fn);
274
275 tcg_temp_free_ptr(status);
276 }
277 return true;
278 }
279
280 /* Invoke an out-of-line helper on 2 Zregs and a predicate. */
281 static bool gen_gvec_ool_zzp(DisasContext *s, gen_helper_gvec_3 *fn,
282 int rd, int rn, int pg, int data)
283 {
284 if (fn == NULL) {
285 return false;
286 }
287 if (sve_access_check(s)) {
288 unsigned vsz = vec_full_reg_size(s);
289 tcg_gen_gvec_3_ool(vec_full_reg_offset(s, rd),
290 vec_full_reg_offset(s, rn),
291 pred_full_reg_offset(s, pg),
292 vsz, vsz, data, fn);
293 }
294 return true;
295 }
296
297 static bool gen_gvec_ool_arg_zpz(DisasContext *s, gen_helper_gvec_3 *fn,
298 arg_rpr_esz *a, int data)
299 {
300 return gen_gvec_ool_zzp(s, fn, a->rd, a->rn, a->pg, data);
301 }
302
303 static bool gen_gvec_ool_arg_zpzi(DisasContext *s, gen_helper_gvec_3 *fn,
304 arg_rpri_esz *a)
305 {
306 return gen_gvec_ool_zzp(s, fn, a->rd, a->rn, a->pg, a->imm);
307 }
308
309 static bool gen_gvec_fpst_zzp(DisasContext *s, gen_helper_gvec_3_ptr *fn,
310 int rd, int rn, int pg, int data,
311 ARMFPStatusFlavour flavour)
312 {
313 if (fn == NULL) {
314 return false;
315 }
316 if (sve_access_check(s)) {
317 unsigned vsz = vec_full_reg_size(s);
318 TCGv_ptr status = fpstatus_ptr(flavour);
319
320 tcg_gen_gvec_3_ptr(vec_full_reg_offset(s, rd),
321 vec_full_reg_offset(s, rn),
322 pred_full_reg_offset(s, pg),
323 status, vsz, vsz, data, fn);
324 tcg_temp_free_ptr(status);
325 }
326 return true;
327 }
328
329 static bool gen_gvec_fpst_arg_zpz(DisasContext *s, gen_helper_gvec_3_ptr *fn,
330 arg_rpr_esz *a, int data,
331 ARMFPStatusFlavour flavour)
332 {
333 return gen_gvec_fpst_zzp(s, fn, a->rd, a->rn, a->pg, data, flavour);
334 }
335
336 /* Invoke an out-of-line helper on 3 Zregs and a predicate. */
337 static bool gen_gvec_ool_zzzp(DisasContext *s, gen_helper_gvec_4 *fn,
338 int rd, int rn, int rm, int pg, int data)
339 {
340 if (fn == NULL) {
341 return false;
342 }
343 if (sve_access_check(s)) {
344 unsigned vsz = vec_full_reg_size(s);
345 tcg_gen_gvec_4_ool(vec_full_reg_offset(s, rd),
346 vec_full_reg_offset(s, rn),
347 vec_full_reg_offset(s, rm),
348 pred_full_reg_offset(s, pg),
349 vsz, vsz, data, fn);
350 }
351 return true;
352 }
353
354 static bool gen_gvec_ool_arg_zpzz(DisasContext *s, gen_helper_gvec_4 *fn,
355 arg_rprr_esz *a, int data)
356 {
357 return gen_gvec_ool_zzzp(s, fn, a->rd, a->rn, a->rm, a->pg, data);
358 }
359
360 /* Invoke an out-of-line helper on 3 Zregs and a predicate. */
361 static bool gen_gvec_fpst_zzzp(DisasContext *s, gen_helper_gvec_4_ptr *fn,
362 int rd, int rn, int rm, int pg, int data,
363 ARMFPStatusFlavour flavour)
364 {
365 if (fn == NULL) {
366 return false;
367 }
368 if (sve_access_check(s)) {
369 unsigned vsz = vec_full_reg_size(s);
370 TCGv_ptr status = fpstatus_ptr(flavour);
371
372 tcg_gen_gvec_4_ptr(vec_full_reg_offset(s, rd),
373 vec_full_reg_offset(s, rn),
374 vec_full_reg_offset(s, rm),
375 pred_full_reg_offset(s, pg),
376 status, vsz, vsz, data, fn);
377 tcg_temp_free_ptr(status);
378 }
379 return true;
380 }
381
382 static bool gen_gvec_fpst_arg_zpzz(DisasContext *s, gen_helper_gvec_4_ptr *fn,
383 arg_rprr_esz *a)
384 {
385 return gen_gvec_fpst_zzzp(s, fn, a->rd, a->rn, a->rm, a->pg, 0,
386 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
387 }
388
389 /* Invoke a vector expander on two Zregs and an immediate. */
390 static bool gen_gvec_fn_zzi(DisasContext *s, GVecGen2iFn *gvec_fn,
391 int esz, int rd, int rn, uint64_t imm)
392 {
393 if (gvec_fn == NULL) {
394 return false;
395 }
396 if (sve_access_check(s)) {
397 unsigned vsz = vec_full_reg_size(s);
398 gvec_fn(esz, vec_full_reg_offset(s, rd),
399 vec_full_reg_offset(s, rn), imm, vsz, vsz);
400 }
401 return true;
402 }
403
404 static bool gen_gvec_fn_arg_zzi(DisasContext *s, GVecGen2iFn *gvec_fn,
405 arg_rri_esz *a)
406 {
407 if (a->esz < 0) {
408 /* Invalid tsz encoding -- see tszimm_esz. */
409 return false;
410 }
411 return gen_gvec_fn_zzi(s, gvec_fn, a->esz, a->rd, a->rn, a->imm);
412 }
413
414 /* Invoke a vector expander on three Zregs. */
415 static bool gen_gvec_fn_zzz(DisasContext *s, GVecGen3Fn *gvec_fn,
416 int esz, int rd, int rn, int rm)
417 {
418 if (gvec_fn == NULL) {
419 return false;
420 }
421 if (sve_access_check(s)) {
422 unsigned vsz = vec_full_reg_size(s);
423 gvec_fn(esz, vec_full_reg_offset(s, rd),
424 vec_full_reg_offset(s, rn),
425 vec_full_reg_offset(s, rm), vsz, vsz);
426 }
427 return true;
428 }
429
430 static bool gen_gvec_fn_arg_zzz(DisasContext *s, GVecGen3Fn *fn,
431 arg_rrr_esz *a)
432 {
433 return gen_gvec_fn_zzz(s, fn, a->esz, a->rd, a->rn, a->rm);
434 }
435
436 /* Invoke a vector expander on four Zregs. */
437 static bool gen_gvec_fn_arg_zzzz(DisasContext *s, GVecGen4Fn *gvec_fn,
438 arg_rrrr_esz *a)
439 {
440 if (gvec_fn == NULL) {
441 return false;
442 }
443 if (sve_access_check(s)) {
444 unsigned vsz = vec_full_reg_size(s);
445 gvec_fn(a->esz, vec_full_reg_offset(s, a->rd),
446 vec_full_reg_offset(s, a->rn),
447 vec_full_reg_offset(s, a->rm),
448 vec_full_reg_offset(s, a->ra), vsz, vsz);
449 }
450 return true;
451 }
452
453 /* Invoke a vector move on two Zregs. */
454 static bool do_mov_z(DisasContext *s, int rd, int rn)
455 {
456 if (sve_access_check(s)) {
457 unsigned vsz = vec_full_reg_size(s);
458 tcg_gen_gvec_mov(MO_8, vec_full_reg_offset(s, rd),
459 vec_full_reg_offset(s, rn), vsz, vsz);
460 }
461 return true;
462 }
463
464 /* Initialize a Zreg with replications of a 64-bit immediate. */
465 static void do_dupi_z(DisasContext *s, int rd, uint64_t word)
466 {
467 unsigned vsz = vec_full_reg_size(s);
468 tcg_gen_gvec_dup_imm(MO_64, vec_full_reg_offset(s, rd), vsz, vsz, word);
469 }
470
471 /* Invoke a vector expander on three Pregs. */
472 static bool gen_gvec_fn_ppp(DisasContext *s, GVecGen3Fn *gvec_fn,
473 int rd, int rn, int rm)
474 {
475 if (sve_access_check(s)) {
476 unsigned psz = pred_gvec_reg_size(s);
477 gvec_fn(MO_64, pred_full_reg_offset(s, rd),
478 pred_full_reg_offset(s, rn),
479 pred_full_reg_offset(s, rm), psz, psz);
480 }
481 return true;
482 }
483
484 /* Invoke a vector move on two Pregs. */
485 static bool do_mov_p(DisasContext *s, int rd, int rn)
486 {
487 if (sve_access_check(s)) {
488 unsigned psz = pred_gvec_reg_size(s);
489 tcg_gen_gvec_mov(MO_8, pred_full_reg_offset(s, rd),
490 pred_full_reg_offset(s, rn), psz, psz);
491 }
492 return true;
493 }
494
495 /* Set the cpu flags as per a return from an SVE helper. */
496 static void do_pred_flags(TCGv_i32 t)
497 {
498 tcg_gen_mov_i32(cpu_NF, t);
499 tcg_gen_andi_i32(cpu_ZF, t, 2);
500 tcg_gen_andi_i32(cpu_CF, t, 1);
501 tcg_gen_movi_i32(cpu_VF, 0);
502 }
503
504 /* Subroutines computing the ARM PredTest psuedofunction. */
505 static void do_predtest1(TCGv_i64 d, TCGv_i64 g)
506 {
507 TCGv_i32 t = tcg_temp_new_i32();
508
509 gen_helper_sve_predtest1(t, d, g);
510 do_pred_flags(t);
511 tcg_temp_free_i32(t);
512 }
513
514 static void do_predtest(DisasContext *s, int dofs, int gofs, int words)
515 {
516 TCGv_ptr dptr = tcg_temp_new_ptr();
517 TCGv_ptr gptr = tcg_temp_new_ptr();
518 TCGv_i32 t = tcg_temp_new_i32();
519
520 tcg_gen_addi_ptr(dptr, cpu_env, dofs);
521 tcg_gen_addi_ptr(gptr, cpu_env, gofs);
522
523 gen_helper_sve_predtest(t, dptr, gptr, tcg_constant_i32(words));
524 tcg_temp_free_ptr(dptr);
525 tcg_temp_free_ptr(gptr);
526
527 do_pred_flags(t);
528 tcg_temp_free_i32(t);
529 }
530
531 /* For each element size, the bits within a predicate word that are active. */
532 const uint64_t pred_esz_masks[5] = {
533 0xffffffffffffffffull, 0x5555555555555555ull,
534 0x1111111111111111ull, 0x0101010101010101ull,
535 0x0001000100010001ull,
536 };
537
538 static bool trans_INVALID(DisasContext *s, arg_INVALID *a)
539 {
540 unallocated_encoding(s);
541 return true;
542 }
543
544 /*
545 *** SVE Logical - Unpredicated Group
546 */
547
548 TRANS_FEAT(AND_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_and, a)
549 TRANS_FEAT(ORR_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_or, a)
550 TRANS_FEAT(EOR_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_xor, a)
551 TRANS_FEAT(BIC_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_andc, a)
552
553 static void gen_xar8_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, int64_t sh)
554 {
555 TCGv_i64 t = tcg_temp_new_i64();
556 uint64_t mask = dup_const(MO_8, 0xff >> sh);
557
558 tcg_gen_xor_i64(t, n, m);
559 tcg_gen_shri_i64(d, t, sh);
560 tcg_gen_shli_i64(t, t, 8 - sh);
561 tcg_gen_andi_i64(d, d, mask);
562 tcg_gen_andi_i64(t, t, ~mask);
563 tcg_gen_or_i64(d, d, t);
564 tcg_temp_free_i64(t);
565 }
566
567 static void gen_xar16_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, int64_t sh)
568 {
569 TCGv_i64 t = tcg_temp_new_i64();
570 uint64_t mask = dup_const(MO_16, 0xffff >> sh);
571
572 tcg_gen_xor_i64(t, n, m);
573 tcg_gen_shri_i64(d, t, sh);
574 tcg_gen_shli_i64(t, t, 16 - sh);
575 tcg_gen_andi_i64(d, d, mask);
576 tcg_gen_andi_i64(t, t, ~mask);
577 tcg_gen_or_i64(d, d, t);
578 tcg_temp_free_i64(t);
579 }
580
581 static void gen_xar_i32(TCGv_i32 d, TCGv_i32 n, TCGv_i32 m, int32_t sh)
582 {
583 tcg_gen_xor_i32(d, n, m);
584 tcg_gen_rotri_i32(d, d, sh);
585 }
586
587 static void gen_xar_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, int64_t sh)
588 {
589 tcg_gen_xor_i64(d, n, m);
590 tcg_gen_rotri_i64(d, d, sh);
591 }
592
593 static void gen_xar_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
594 TCGv_vec m, int64_t sh)
595 {
596 tcg_gen_xor_vec(vece, d, n, m);
597 tcg_gen_rotri_vec(vece, d, d, sh);
598 }
599
600 void gen_gvec_xar(unsigned vece, uint32_t rd_ofs, uint32_t rn_ofs,
601 uint32_t rm_ofs, int64_t shift,
602 uint32_t opr_sz, uint32_t max_sz)
603 {
604 static const TCGOpcode vecop[] = { INDEX_op_rotli_vec, 0 };
605 static const GVecGen3i ops[4] = {
606 { .fni8 = gen_xar8_i64,
607 .fniv = gen_xar_vec,
608 .fno = gen_helper_sve2_xar_b,
609 .opt_opc = vecop,
610 .vece = MO_8 },
611 { .fni8 = gen_xar16_i64,
612 .fniv = gen_xar_vec,
613 .fno = gen_helper_sve2_xar_h,
614 .opt_opc = vecop,
615 .vece = MO_16 },
616 { .fni4 = gen_xar_i32,
617 .fniv = gen_xar_vec,
618 .fno = gen_helper_sve2_xar_s,
619 .opt_opc = vecop,
620 .vece = MO_32 },
621 { .fni8 = gen_xar_i64,
622 .fniv = gen_xar_vec,
623 .fno = gen_helper_gvec_xar_d,
624 .opt_opc = vecop,
625 .vece = MO_64 }
626 };
627 int esize = 8 << vece;
628
629 /* The SVE2 range is 1 .. esize; the AdvSIMD range is 0 .. esize-1. */
630 tcg_debug_assert(shift >= 0);
631 tcg_debug_assert(shift <= esize);
632 shift &= esize - 1;
633
634 if (shift == 0) {
635 /* xar with no rotate devolves to xor. */
636 tcg_gen_gvec_xor(vece, rd_ofs, rn_ofs, rm_ofs, opr_sz, max_sz);
637 } else {
638 tcg_gen_gvec_3i(rd_ofs, rn_ofs, rm_ofs, opr_sz, max_sz,
639 shift, &ops[vece]);
640 }
641 }
642
643 static bool trans_XAR(DisasContext *s, arg_rrri_esz *a)
644 {
645 if (a->esz < 0 || !dc_isar_feature(aa64_sve2, s)) {
646 return false;
647 }
648 if (sve_access_check(s)) {
649 unsigned vsz = vec_full_reg_size(s);
650 gen_gvec_xar(a->esz, vec_full_reg_offset(s, a->rd),
651 vec_full_reg_offset(s, a->rn),
652 vec_full_reg_offset(s, a->rm), a->imm, vsz, vsz);
653 }
654 return true;
655 }
656
657 static void gen_eor3_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 k)
658 {
659 tcg_gen_xor_i64(d, n, m);
660 tcg_gen_xor_i64(d, d, k);
661 }
662
663 static void gen_eor3_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
664 TCGv_vec m, TCGv_vec k)
665 {
666 tcg_gen_xor_vec(vece, d, n, m);
667 tcg_gen_xor_vec(vece, d, d, k);
668 }
669
670 static void gen_eor3(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
671 uint32_t a, uint32_t oprsz, uint32_t maxsz)
672 {
673 static const GVecGen4 op = {
674 .fni8 = gen_eor3_i64,
675 .fniv = gen_eor3_vec,
676 .fno = gen_helper_sve2_eor3,
677 .vece = MO_64,
678 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
679 };
680 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &op);
681 }
682
683 TRANS_FEAT(EOR3, aa64_sve2, gen_gvec_fn_arg_zzzz, gen_eor3, a)
684
685 static void gen_bcax_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 k)
686 {
687 tcg_gen_andc_i64(d, m, k);
688 tcg_gen_xor_i64(d, d, n);
689 }
690
691 static void gen_bcax_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
692 TCGv_vec m, TCGv_vec k)
693 {
694 tcg_gen_andc_vec(vece, d, m, k);
695 tcg_gen_xor_vec(vece, d, d, n);
696 }
697
698 static void gen_bcax(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
699 uint32_t a, uint32_t oprsz, uint32_t maxsz)
700 {
701 static const GVecGen4 op = {
702 .fni8 = gen_bcax_i64,
703 .fniv = gen_bcax_vec,
704 .fno = gen_helper_sve2_bcax,
705 .vece = MO_64,
706 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
707 };
708 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &op);
709 }
710
711 TRANS_FEAT(BCAX, aa64_sve2, gen_gvec_fn_arg_zzzz, gen_bcax, a)
712
713 static void gen_bsl(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
714 uint32_t a, uint32_t oprsz, uint32_t maxsz)
715 {
716 /* BSL differs from the generic bitsel in argument ordering. */
717 tcg_gen_gvec_bitsel(vece, d, a, n, m, oprsz, maxsz);
718 }
719
720 TRANS_FEAT(BSL, aa64_sve2, gen_gvec_fn_arg_zzzz, gen_bsl, a)
721
722 static void gen_bsl1n_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 k)
723 {
724 tcg_gen_andc_i64(n, k, n);
725 tcg_gen_andc_i64(m, m, k);
726 tcg_gen_or_i64(d, n, m);
727 }
728
729 static void gen_bsl1n_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
730 TCGv_vec m, TCGv_vec k)
731 {
732 if (TCG_TARGET_HAS_bitsel_vec) {
733 tcg_gen_not_vec(vece, n, n);
734 tcg_gen_bitsel_vec(vece, d, k, n, m);
735 } else {
736 tcg_gen_andc_vec(vece, n, k, n);
737 tcg_gen_andc_vec(vece, m, m, k);
738 tcg_gen_or_vec(vece, d, n, m);
739 }
740 }
741
742 static void gen_bsl1n(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
743 uint32_t a, uint32_t oprsz, uint32_t maxsz)
744 {
745 static const GVecGen4 op = {
746 .fni8 = gen_bsl1n_i64,
747 .fniv = gen_bsl1n_vec,
748 .fno = gen_helper_sve2_bsl1n,
749 .vece = MO_64,
750 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
751 };
752 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &op);
753 }
754
755 TRANS_FEAT(BSL1N, aa64_sve2, gen_gvec_fn_arg_zzzz, gen_bsl1n, a)
756
757 static void gen_bsl2n_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 k)
758 {
759 /*
760 * Z[dn] = (n & k) | (~m & ~k)
761 * = | ~(m | k)
762 */
763 tcg_gen_and_i64(n, n, k);
764 if (TCG_TARGET_HAS_orc_i64) {
765 tcg_gen_or_i64(m, m, k);
766 tcg_gen_orc_i64(d, n, m);
767 } else {
768 tcg_gen_nor_i64(m, m, k);
769 tcg_gen_or_i64(d, n, m);
770 }
771 }
772
773 static void gen_bsl2n_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
774 TCGv_vec m, TCGv_vec k)
775 {
776 if (TCG_TARGET_HAS_bitsel_vec) {
777 tcg_gen_not_vec(vece, m, m);
778 tcg_gen_bitsel_vec(vece, d, k, n, m);
779 } else {
780 tcg_gen_and_vec(vece, n, n, k);
781 tcg_gen_or_vec(vece, m, m, k);
782 tcg_gen_orc_vec(vece, d, n, m);
783 }
784 }
785
786 static void gen_bsl2n(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
787 uint32_t a, uint32_t oprsz, uint32_t maxsz)
788 {
789 static const GVecGen4 op = {
790 .fni8 = gen_bsl2n_i64,
791 .fniv = gen_bsl2n_vec,
792 .fno = gen_helper_sve2_bsl2n,
793 .vece = MO_64,
794 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
795 };
796 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &op);
797 }
798
799 TRANS_FEAT(BSL2N, aa64_sve2, gen_gvec_fn_arg_zzzz, gen_bsl2n, a)
800
801 static void gen_nbsl_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 k)
802 {
803 tcg_gen_and_i64(n, n, k);
804 tcg_gen_andc_i64(m, m, k);
805 tcg_gen_nor_i64(d, n, m);
806 }
807
808 static void gen_nbsl_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
809 TCGv_vec m, TCGv_vec k)
810 {
811 tcg_gen_bitsel_vec(vece, d, k, n, m);
812 tcg_gen_not_vec(vece, d, d);
813 }
814
815 static void gen_nbsl(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
816 uint32_t a, uint32_t oprsz, uint32_t maxsz)
817 {
818 static const GVecGen4 op = {
819 .fni8 = gen_nbsl_i64,
820 .fniv = gen_nbsl_vec,
821 .fno = gen_helper_sve2_nbsl,
822 .vece = MO_64,
823 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
824 };
825 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &op);
826 }
827
828 TRANS_FEAT(NBSL, aa64_sve2, gen_gvec_fn_arg_zzzz, gen_nbsl, a)
829
830 /*
831 *** SVE Integer Arithmetic - Unpredicated Group
832 */
833
834 TRANS_FEAT(ADD_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_add, a)
835 TRANS_FEAT(SUB_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_sub, a)
836 TRANS_FEAT(SQADD_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_ssadd, a)
837 TRANS_FEAT(SQSUB_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_sssub, a)
838 TRANS_FEAT(UQADD_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_usadd, a)
839 TRANS_FEAT(UQSUB_zzz, aa64_sve, gen_gvec_fn_arg_zzz, tcg_gen_gvec_ussub, a)
840
841 /*
842 *** SVE Integer Arithmetic - Binary Predicated Group
843 */
844
845 /* Select active elememnts from Zn and inactive elements from Zm,
846 * storing the result in Zd.
847 */
848 static bool do_sel_z(DisasContext *s, int rd, int rn, int rm, int pg, int esz)
849 {
850 static gen_helper_gvec_4 * const fns[4] = {
851 gen_helper_sve_sel_zpzz_b, gen_helper_sve_sel_zpzz_h,
852 gen_helper_sve_sel_zpzz_s, gen_helper_sve_sel_zpzz_d
853 };
854 return gen_gvec_ool_zzzp(s, fns[esz], rd, rn, rm, pg, 0);
855 }
856
857 #define DO_ZPZZ(NAME, FEAT, name) \
858 static gen_helper_gvec_4 * const name##_zpzz_fns[4] = { \
859 gen_helper_##name##_zpzz_b, gen_helper_##name##_zpzz_h, \
860 gen_helper_##name##_zpzz_s, gen_helper_##name##_zpzz_d, \
861 }; \
862 TRANS_FEAT(NAME, FEAT, gen_gvec_ool_arg_zpzz, \
863 name##_zpzz_fns[a->esz], a, 0)
864
865 DO_ZPZZ(AND_zpzz, aa64_sve, sve_and)
866 DO_ZPZZ(EOR_zpzz, aa64_sve, sve_eor)
867 DO_ZPZZ(ORR_zpzz, aa64_sve, sve_orr)
868 DO_ZPZZ(BIC_zpzz, aa64_sve, sve_bic)
869
870 DO_ZPZZ(ADD_zpzz, aa64_sve, sve_add)
871 DO_ZPZZ(SUB_zpzz, aa64_sve, sve_sub)
872
873 DO_ZPZZ(SMAX_zpzz, aa64_sve, sve_smax)
874 DO_ZPZZ(UMAX_zpzz, aa64_sve, sve_umax)
875 DO_ZPZZ(SMIN_zpzz, aa64_sve, sve_smin)
876 DO_ZPZZ(UMIN_zpzz, aa64_sve, sve_umin)
877 DO_ZPZZ(SABD_zpzz, aa64_sve, sve_sabd)
878 DO_ZPZZ(UABD_zpzz, aa64_sve, sve_uabd)
879
880 DO_ZPZZ(MUL_zpzz, aa64_sve, sve_mul)
881 DO_ZPZZ(SMULH_zpzz, aa64_sve, sve_smulh)
882 DO_ZPZZ(UMULH_zpzz, aa64_sve, sve_umulh)
883
884 DO_ZPZZ(ASR_zpzz, aa64_sve, sve_asr)
885 DO_ZPZZ(LSR_zpzz, aa64_sve, sve_lsr)
886 DO_ZPZZ(LSL_zpzz, aa64_sve, sve_lsl)
887
888 static gen_helper_gvec_4 * const sdiv_fns[4] = {
889 NULL, NULL, gen_helper_sve_sdiv_zpzz_s, gen_helper_sve_sdiv_zpzz_d
890 };
891 TRANS_FEAT(SDIV_zpzz, aa64_sve, gen_gvec_ool_arg_zpzz, sdiv_fns[a->esz], a, 0)
892
893 static gen_helper_gvec_4 * const udiv_fns[4] = {
894 NULL, NULL, gen_helper_sve_udiv_zpzz_s, gen_helper_sve_udiv_zpzz_d
895 };
896 TRANS_FEAT(UDIV_zpzz, aa64_sve, gen_gvec_ool_arg_zpzz, udiv_fns[a->esz], a, 0)
897
898 TRANS_FEAT(SEL_zpzz, aa64_sve, do_sel_z, a->rd, a->rn, a->rm, a->pg, a->esz)
899
900 /*
901 *** SVE Integer Arithmetic - Unary Predicated Group
902 */
903
904 #define DO_ZPZ(NAME, FEAT, name) \
905 static gen_helper_gvec_3 * const name##_fns[4] = { \
906 gen_helper_##name##_b, gen_helper_##name##_h, \
907 gen_helper_##name##_s, gen_helper_##name##_d, \
908 }; \
909 TRANS_FEAT(NAME, FEAT, gen_gvec_ool_arg_zpz, name##_fns[a->esz], a, 0)
910
911 DO_ZPZ(CLS, aa64_sve, sve_cls)
912 DO_ZPZ(CLZ, aa64_sve, sve_clz)
913 DO_ZPZ(CNT_zpz, aa64_sve, sve_cnt_zpz)
914 DO_ZPZ(CNOT, aa64_sve, sve_cnot)
915 DO_ZPZ(NOT_zpz, aa64_sve, sve_not_zpz)
916 DO_ZPZ(ABS, aa64_sve, sve_abs)
917 DO_ZPZ(NEG, aa64_sve, sve_neg)
918 DO_ZPZ(RBIT, aa64_sve, sve_rbit)
919
920 static gen_helper_gvec_3 * const fabs_fns[4] = {
921 NULL, gen_helper_sve_fabs_h,
922 gen_helper_sve_fabs_s, gen_helper_sve_fabs_d,
923 };
924 TRANS_FEAT(FABS, aa64_sve, gen_gvec_ool_arg_zpz, fabs_fns[a->esz], a, 0)
925
926 static gen_helper_gvec_3 * const fneg_fns[4] = {
927 NULL, gen_helper_sve_fneg_h,
928 gen_helper_sve_fneg_s, gen_helper_sve_fneg_d,
929 };
930 TRANS_FEAT(FNEG, aa64_sve, gen_gvec_ool_arg_zpz, fneg_fns[a->esz], a, 0)
931
932 static gen_helper_gvec_3 * const sxtb_fns[4] = {
933 NULL, gen_helper_sve_sxtb_h,
934 gen_helper_sve_sxtb_s, gen_helper_sve_sxtb_d,
935 };
936 TRANS_FEAT(SXTB, aa64_sve, gen_gvec_ool_arg_zpz, sxtb_fns[a->esz], a, 0)
937
938 static gen_helper_gvec_3 * const uxtb_fns[4] = {
939 NULL, gen_helper_sve_uxtb_h,
940 gen_helper_sve_uxtb_s, gen_helper_sve_uxtb_d,
941 };
942 TRANS_FEAT(UXTB, aa64_sve, gen_gvec_ool_arg_zpz, uxtb_fns[a->esz], a, 0)
943
944 static gen_helper_gvec_3 * const sxth_fns[4] = {
945 NULL, NULL, gen_helper_sve_sxth_s, gen_helper_sve_sxth_d
946 };
947 TRANS_FEAT(SXTH, aa64_sve, gen_gvec_ool_arg_zpz, sxth_fns[a->esz], a, 0)
948
949 static gen_helper_gvec_3 * const uxth_fns[4] = {
950 NULL, NULL, gen_helper_sve_uxth_s, gen_helper_sve_uxth_d
951 };
952 TRANS_FEAT(UXTH, aa64_sve, gen_gvec_ool_arg_zpz, uxth_fns[a->esz], a, 0)
953
954 TRANS_FEAT(SXTW, aa64_sve, gen_gvec_ool_arg_zpz,
955 a->esz == 3 ? gen_helper_sve_sxtw_d : NULL, a, 0)
956 TRANS_FEAT(UXTW, aa64_sve, gen_gvec_ool_arg_zpz,
957 a->esz == 3 ? gen_helper_sve_uxtw_d : NULL, a, 0)
958
959 /*
960 *** SVE Integer Reduction Group
961 */
962
963 typedef void gen_helper_gvec_reduc(TCGv_i64, TCGv_ptr, TCGv_ptr, TCGv_i32);
964 static bool do_vpz_ool(DisasContext *s, arg_rpr_esz *a,
965 gen_helper_gvec_reduc *fn)
966 {
967 unsigned vsz = vec_full_reg_size(s);
968 TCGv_ptr t_zn, t_pg;
969 TCGv_i32 desc;
970 TCGv_i64 temp;
971
972 if (fn == NULL) {
973 return false;
974 }
975 if (!sve_access_check(s)) {
976 return true;
977 }
978
979 desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
980 temp = tcg_temp_new_i64();
981 t_zn = tcg_temp_new_ptr();
982 t_pg = tcg_temp_new_ptr();
983
984 tcg_gen_addi_ptr(t_zn, cpu_env, vec_full_reg_offset(s, a->rn));
985 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, a->pg));
986 fn(temp, t_zn, t_pg, desc);
987 tcg_temp_free_ptr(t_zn);
988 tcg_temp_free_ptr(t_pg);
989
990 write_fp_dreg(s, a->rd, temp);
991 tcg_temp_free_i64(temp);
992 return true;
993 }
994
995 #define DO_VPZ(NAME, name) \
996 static gen_helper_gvec_reduc * const name##_fns[4] = { \
997 gen_helper_sve_##name##_b, gen_helper_sve_##name##_h, \
998 gen_helper_sve_##name##_s, gen_helper_sve_##name##_d, \
999 }; \
1000 TRANS_FEAT(NAME, aa64_sve, do_vpz_ool, a, name##_fns[a->esz])
1001
1002 DO_VPZ(ORV, orv)
1003 DO_VPZ(ANDV, andv)
1004 DO_VPZ(EORV, eorv)
1005
1006 DO_VPZ(UADDV, uaddv)
1007 DO_VPZ(SMAXV, smaxv)
1008 DO_VPZ(UMAXV, umaxv)
1009 DO_VPZ(SMINV, sminv)
1010 DO_VPZ(UMINV, uminv)
1011
1012 static gen_helper_gvec_reduc * const saddv_fns[4] = {
1013 gen_helper_sve_saddv_b, gen_helper_sve_saddv_h,
1014 gen_helper_sve_saddv_s, NULL
1015 };
1016 TRANS_FEAT(SADDV, aa64_sve, do_vpz_ool, a, saddv_fns[a->esz])
1017
1018 #undef DO_VPZ
1019
1020 /*
1021 *** SVE Shift by Immediate - Predicated Group
1022 */
1023
1024 /*
1025 * Copy Zn into Zd, storing zeros into inactive elements.
1026 * If invert, store zeros into the active elements.
1027 */
1028 static bool do_movz_zpz(DisasContext *s, int rd, int rn, int pg,
1029 int esz, bool invert)
1030 {
1031 static gen_helper_gvec_3 * const fns[4] = {
1032 gen_helper_sve_movz_b, gen_helper_sve_movz_h,
1033 gen_helper_sve_movz_s, gen_helper_sve_movz_d,
1034 };
1035 return gen_gvec_ool_zzp(s, fns[esz], rd, rn, pg, invert);
1036 }
1037
1038 static bool do_shift_zpzi(DisasContext *s, arg_rpri_esz *a, bool asr,
1039 gen_helper_gvec_3 * const fns[4])
1040 {
1041 int max;
1042
1043 if (a->esz < 0) {
1044 /* Invalid tsz encoding -- see tszimm_esz. */
1045 return false;
1046 }
1047
1048 /*
1049 * Shift by element size is architecturally valid.
1050 * For arithmetic right-shift, it's the same as by one less.
1051 * For logical shifts and ASRD, it is a zeroing operation.
1052 */
1053 max = 8 << a->esz;
1054 if (a->imm >= max) {
1055 if (asr) {
1056 a->imm = max - 1;
1057 } else {
1058 return do_movz_zpz(s, a->rd, a->rd, a->pg, a->esz, true);
1059 }
1060 }
1061 return gen_gvec_ool_arg_zpzi(s, fns[a->esz], a);
1062 }
1063
1064 static gen_helper_gvec_3 * const asr_zpzi_fns[4] = {
1065 gen_helper_sve_asr_zpzi_b, gen_helper_sve_asr_zpzi_h,
1066 gen_helper_sve_asr_zpzi_s, gen_helper_sve_asr_zpzi_d,
1067 };
1068 TRANS_FEAT(ASR_zpzi, aa64_sve, do_shift_zpzi, a, true, asr_zpzi_fns)
1069
1070 static gen_helper_gvec_3 * const lsr_zpzi_fns[4] = {
1071 gen_helper_sve_lsr_zpzi_b, gen_helper_sve_lsr_zpzi_h,
1072 gen_helper_sve_lsr_zpzi_s, gen_helper_sve_lsr_zpzi_d,
1073 };
1074 TRANS_FEAT(LSR_zpzi, aa64_sve, do_shift_zpzi, a, false, lsr_zpzi_fns)
1075
1076 static gen_helper_gvec_3 * const lsl_zpzi_fns[4] = {
1077 gen_helper_sve_lsl_zpzi_b, gen_helper_sve_lsl_zpzi_h,
1078 gen_helper_sve_lsl_zpzi_s, gen_helper_sve_lsl_zpzi_d,
1079 };
1080 TRANS_FEAT(LSL_zpzi, aa64_sve, do_shift_zpzi, a, false, lsl_zpzi_fns)
1081
1082 static gen_helper_gvec_3 * const asrd_fns[4] = {
1083 gen_helper_sve_asrd_b, gen_helper_sve_asrd_h,
1084 gen_helper_sve_asrd_s, gen_helper_sve_asrd_d,
1085 };
1086 TRANS_FEAT(ASRD, aa64_sve, do_shift_zpzi, a, false, asrd_fns)
1087
1088 static gen_helper_gvec_3 * const sqshl_zpzi_fns[4] = {
1089 gen_helper_sve2_sqshl_zpzi_b, gen_helper_sve2_sqshl_zpzi_h,
1090 gen_helper_sve2_sqshl_zpzi_s, gen_helper_sve2_sqshl_zpzi_d,
1091 };
1092 TRANS_FEAT(SQSHL_zpzi, aa64_sve2, gen_gvec_ool_arg_zpzi,
1093 a->esz < 0 ? NULL : sqshl_zpzi_fns[a->esz], a)
1094
1095 static gen_helper_gvec_3 * const uqshl_zpzi_fns[4] = {
1096 gen_helper_sve2_uqshl_zpzi_b, gen_helper_sve2_uqshl_zpzi_h,
1097 gen_helper_sve2_uqshl_zpzi_s, gen_helper_sve2_uqshl_zpzi_d,
1098 };
1099 TRANS_FEAT(UQSHL_zpzi, aa64_sve2, gen_gvec_ool_arg_zpzi,
1100 a->esz < 0 ? NULL : uqshl_zpzi_fns[a->esz], a)
1101
1102 static gen_helper_gvec_3 * const srshr_fns[4] = {
1103 gen_helper_sve2_srshr_b, gen_helper_sve2_srshr_h,
1104 gen_helper_sve2_srshr_s, gen_helper_sve2_srshr_d,
1105 };
1106 TRANS_FEAT(SRSHR, aa64_sve2, gen_gvec_ool_arg_zpzi,
1107 a->esz < 0 ? NULL : srshr_fns[a->esz], a)
1108
1109 static gen_helper_gvec_3 * const urshr_fns[4] = {
1110 gen_helper_sve2_urshr_b, gen_helper_sve2_urshr_h,
1111 gen_helper_sve2_urshr_s, gen_helper_sve2_urshr_d,
1112 };
1113 TRANS_FEAT(URSHR, aa64_sve2, gen_gvec_ool_arg_zpzi,
1114 a->esz < 0 ? NULL : urshr_fns[a->esz], a)
1115
1116 static gen_helper_gvec_3 * const sqshlu_fns[4] = {
1117 gen_helper_sve2_sqshlu_b, gen_helper_sve2_sqshlu_h,
1118 gen_helper_sve2_sqshlu_s, gen_helper_sve2_sqshlu_d,
1119 };
1120 TRANS_FEAT(SQSHLU, aa64_sve2, gen_gvec_ool_arg_zpzi,
1121 a->esz < 0 ? NULL : sqshlu_fns[a->esz], a)
1122
1123 /*
1124 *** SVE Bitwise Shift - Predicated Group
1125 */
1126
1127 #define DO_ZPZW(NAME, name) \
1128 static gen_helper_gvec_4 * const name##_zpzw_fns[4] = { \
1129 gen_helper_sve_##name##_zpzw_b, gen_helper_sve_##name##_zpzw_h, \
1130 gen_helper_sve_##name##_zpzw_s, NULL \
1131 }; \
1132 TRANS_FEAT(NAME##_zpzw, aa64_sve, gen_gvec_ool_arg_zpzz, \
1133 a->esz < 0 ? NULL : name##_zpzw_fns[a->esz], a, 0)
1134
1135 DO_ZPZW(ASR, asr)
1136 DO_ZPZW(LSR, lsr)
1137 DO_ZPZW(LSL, lsl)
1138
1139 #undef DO_ZPZW
1140
1141 /*
1142 *** SVE Bitwise Shift - Unpredicated Group
1143 */
1144
1145 static bool do_shift_imm(DisasContext *s, arg_rri_esz *a, bool asr,
1146 void (*gvec_fn)(unsigned, uint32_t, uint32_t,
1147 int64_t, uint32_t, uint32_t))
1148 {
1149 if (a->esz < 0) {
1150 /* Invalid tsz encoding -- see tszimm_esz. */
1151 return false;
1152 }
1153 if (sve_access_check(s)) {
1154 unsigned vsz = vec_full_reg_size(s);
1155 /* Shift by element size is architecturally valid. For
1156 arithmetic right-shift, it's the same as by one less.
1157 Otherwise it is a zeroing operation. */
1158 if (a->imm >= 8 << a->esz) {
1159 if (asr) {
1160 a->imm = (8 << a->esz) - 1;
1161 } else {
1162 do_dupi_z(s, a->rd, 0);
1163 return true;
1164 }
1165 }
1166 gvec_fn(a->esz, vec_full_reg_offset(s, a->rd),
1167 vec_full_reg_offset(s, a->rn), a->imm, vsz, vsz);
1168 }
1169 return true;
1170 }
1171
1172 TRANS_FEAT(ASR_zzi, aa64_sve, do_shift_imm, a, true, tcg_gen_gvec_sari)
1173 TRANS_FEAT(LSR_zzi, aa64_sve, do_shift_imm, a, false, tcg_gen_gvec_shri)
1174 TRANS_FEAT(LSL_zzi, aa64_sve, do_shift_imm, a, false, tcg_gen_gvec_shli)
1175
1176 #define DO_ZZW(NAME, name) \
1177 static gen_helper_gvec_3 * const name##_zzw_fns[4] = { \
1178 gen_helper_sve_##name##_zzw_b, gen_helper_sve_##name##_zzw_h, \
1179 gen_helper_sve_##name##_zzw_s, NULL \
1180 }; \
1181 TRANS_FEAT(NAME, aa64_sve, gen_gvec_ool_arg_zzz, \
1182 name##_zzw_fns[a->esz], a, 0)
1183
1184 DO_ZZW(ASR_zzw, asr)
1185 DO_ZZW(LSR_zzw, lsr)
1186 DO_ZZW(LSL_zzw, lsl)
1187
1188 #undef DO_ZZW
1189
1190 /*
1191 *** SVE Integer Multiply-Add Group
1192 */
1193
1194 static bool do_zpzzz_ool(DisasContext *s, arg_rprrr_esz *a,
1195 gen_helper_gvec_5 *fn)
1196 {
1197 if (sve_access_check(s)) {
1198 unsigned vsz = vec_full_reg_size(s);
1199 tcg_gen_gvec_5_ool(vec_full_reg_offset(s, a->rd),
1200 vec_full_reg_offset(s, a->ra),
1201 vec_full_reg_offset(s, a->rn),
1202 vec_full_reg_offset(s, a->rm),
1203 pred_full_reg_offset(s, a->pg),
1204 vsz, vsz, 0, fn);
1205 }
1206 return true;
1207 }
1208
1209 static gen_helper_gvec_5 * const mla_fns[4] = {
1210 gen_helper_sve_mla_b, gen_helper_sve_mla_h,
1211 gen_helper_sve_mla_s, gen_helper_sve_mla_d,
1212 };
1213 TRANS_FEAT(MLA, aa64_sve, do_zpzzz_ool, a, mla_fns[a->esz])
1214
1215 static gen_helper_gvec_5 * const mls_fns[4] = {
1216 gen_helper_sve_mls_b, gen_helper_sve_mls_h,
1217 gen_helper_sve_mls_s, gen_helper_sve_mls_d,
1218 };
1219 TRANS_FEAT(MLS, aa64_sve, do_zpzzz_ool, a, mls_fns[a->esz])
1220
1221 /*
1222 *** SVE Index Generation Group
1223 */
1224
1225 static bool do_index(DisasContext *s, int esz, int rd,
1226 TCGv_i64 start, TCGv_i64 incr)
1227 {
1228 unsigned vsz;
1229 TCGv_i32 desc;
1230 TCGv_ptr t_zd;
1231
1232 if (!sve_access_check(s)) {
1233 return true;
1234 }
1235
1236 vsz = vec_full_reg_size(s);
1237 desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
1238 t_zd = tcg_temp_new_ptr();
1239
1240 tcg_gen_addi_ptr(t_zd, cpu_env, vec_full_reg_offset(s, rd));
1241 if (esz == 3) {
1242 gen_helper_sve_index_d(t_zd, start, incr, desc);
1243 } else {
1244 typedef void index_fn(TCGv_ptr, TCGv_i32, TCGv_i32, TCGv_i32);
1245 static index_fn * const fns[3] = {
1246 gen_helper_sve_index_b,
1247 gen_helper_sve_index_h,
1248 gen_helper_sve_index_s,
1249 };
1250 TCGv_i32 s32 = tcg_temp_new_i32();
1251 TCGv_i32 i32 = tcg_temp_new_i32();
1252
1253 tcg_gen_extrl_i64_i32(s32, start);
1254 tcg_gen_extrl_i64_i32(i32, incr);
1255 fns[esz](t_zd, s32, i32, desc);
1256
1257 tcg_temp_free_i32(s32);
1258 tcg_temp_free_i32(i32);
1259 }
1260 tcg_temp_free_ptr(t_zd);
1261 return true;
1262 }
1263
1264 TRANS_FEAT(INDEX_ii, aa64_sve, do_index, a->esz, a->rd,
1265 tcg_constant_i64(a->imm1), tcg_constant_i64(a->imm2))
1266 TRANS_FEAT(INDEX_ir, aa64_sve, do_index, a->esz, a->rd,
1267 tcg_constant_i64(a->imm), cpu_reg(s, a->rm))
1268 TRANS_FEAT(INDEX_ri, aa64_sve, do_index, a->esz, a->rd,
1269 cpu_reg(s, a->rn), tcg_constant_i64(a->imm))
1270 TRANS_FEAT(INDEX_rr, aa64_sve, do_index, a->esz, a->rd,
1271 cpu_reg(s, a->rn), cpu_reg(s, a->rm))
1272
1273 /*
1274 *** SVE Stack Allocation Group
1275 */
1276
1277 static bool trans_ADDVL(DisasContext *s, arg_ADDVL *a)
1278 {
1279 if (!dc_isar_feature(aa64_sve, s)) {
1280 return false;
1281 }
1282 if (sve_access_check(s)) {
1283 TCGv_i64 rd = cpu_reg_sp(s, a->rd);
1284 TCGv_i64 rn = cpu_reg_sp(s, a->rn);
1285 tcg_gen_addi_i64(rd, rn, a->imm * vec_full_reg_size(s));
1286 }
1287 return true;
1288 }
1289
1290 static bool trans_ADDSVL(DisasContext *s, arg_ADDSVL *a)
1291 {
1292 if (!dc_isar_feature(aa64_sme, s)) {
1293 return false;
1294 }
1295 if (sme_enabled_check(s)) {
1296 TCGv_i64 rd = cpu_reg_sp(s, a->rd);
1297 TCGv_i64 rn = cpu_reg_sp(s, a->rn);
1298 tcg_gen_addi_i64(rd, rn, a->imm * streaming_vec_reg_size(s));
1299 }
1300 return true;
1301 }
1302
1303 static bool trans_ADDPL(DisasContext *s, arg_ADDPL *a)
1304 {
1305 if (!dc_isar_feature(aa64_sve, s)) {
1306 return false;
1307 }
1308 if (sve_access_check(s)) {
1309 TCGv_i64 rd = cpu_reg_sp(s, a->rd);
1310 TCGv_i64 rn = cpu_reg_sp(s, a->rn);
1311 tcg_gen_addi_i64(rd, rn, a->imm * pred_full_reg_size(s));
1312 }
1313 return true;
1314 }
1315
1316 static bool trans_ADDSPL(DisasContext *s, arg_ADDSPL *a)
1317 {
1318 if (!dc_isar_feature(aa64_sme, s)) {
1319 return false;
1320 }
1321 if (sme_enabled_check(s)) {
1322 TCGv_i64 rd = cpu_reg_sp(s, a->rd);
1323 TCGv_i64 rn = cpu_reg_sp(s, a->rn);
1324 tcg_gen_addi_i64(rd, rn, a->imm * streaming_pred_reg_size(s));
1325 }
1326 return true;
1327 }
1328
1329 static bool trans_RDVL(DisasContext *s, arg_RDVL *a)
1330 {
1331 if (!dc_isar_feature(aa64_sve, s)) {
1332 return false;
1333 }
1334 if (sve_access_check(s)) {
1335 TCGv_i64 reg = cpu_reg(s, a->rd);
1336 tcg_gen_movi_i64(reg, a->imm * vec_full_reg_size(s));
1337 }
1338 return true;
1339 }
1340
1341 static bool trans_RDSVL(DisasContext *s, arg_RDSVL *a)
1342 {
1343 if (!dc_isar_feature(aa64_sme, s)) {
1344 return false;
1345 }
1346 if (sme_enabled_check(s)) {
1347 TCGv_i64 reg = cpu_reg(s, a->rd);
1348 tcg_gen_movi_i64(reg, a->imm * streaming_vec_reg_size(s));
1349 }
1350 return true;
1351 }
1352
1353 /*
1354 *** SVE Compute Vector Address Group
1355 */
1356
1357 static bool do_adr(DisasContext *s, arg_rrri *a, gen_helper_gvec_3 *fn)
1358 {
1359 return gen_gvec_ool_zzz(s, fn, a->rd, a->rn, a->rm, a->imm);
1360 }
1361
1362 TRANS_FEAT_NONSTREAMING(ADR_p32, aa64_sve, do_adr, a, gen_helper_sve_adr_p32)
1363 TRANS_FEAT_NONSTREAMING(ADR_p64, aa64_sve, do_adr, a, gen_helper_sve_adr_p64)
1364 TRANS_FEAT_NONSTREAMING(ADR_s32, aa64_sve, do_adr, a, gen_helper_sve_adr_s32)
1365 TRANS_FEAT_NONSTREAMING(ADR_u32, aa64_sve, do_adr, a, gen_helper_sve_adr_u32)
1366
1367 /*
1368 *** SVE Integer Misc - Unpredicated Group
1369 */
1370
1371 static gen_helper_gvec_2 * const fexpa_fns[4] = {
1372 NULL, gen_helper_sve_fexpa_h,
1373 gen_helper_sve_fexpa_s, gen_helper_sve_fexpa_d,
1374 };
1375 TRANS_FEAT_NONSTREAMING(FEXPA, aa64_sve, gen_gvec_ool_zz,
1376 fexpa_fns[a->esz], a->rd, a->rn, 0)
1377
1378 static gen_helper_gvec_3 * const ftssel_fns[4] = {
1379 NULL, gen_helper_sve_ftssel_h,
1380 gen_helper_sve_ftssel_s, gen_helper_sve_ftssel_d,
1381 };
1382 TRANS_FEAT_NONSTREAMING(FTSSEL, aa64_sve, gen_gvec_ool_arg_zzz,
1383 ftssel_fns[a->esz], a, 0)
1384
1385 /*
1386 *** SVE Predicate Logical Operations Group
1387 */
1388
1389 static bool do_pppp_flags(DisasContext *s, arg_rprr_s *a,
1390 const GVecGen4 *gvec_op)
1391 {
1392 if (!sve_access_check(s)) {
1393 return true;
1394 }
1395
1396 unsigned psz = pred_gvec_reg_size(s);
1397 int dofs = pred_full_reg_offset(s, a->rd);
1398 int nofs = pred_full_reg_offset(s, a->rn);
1399 int mofs = pred_full_reg_offset(s, a->rm);
1400 int gofs = pred_full_reg_offset(s, a->pg);
1401
1402 if (!a->s) {
1403 tcg_gen_gvec_4(dofs, nofs, mofs, gofs, psz, psz, gvec_op);
1404 return true;
1405 }
1406
1407 if (psz == 8) {
1408 /* Do the operation and the flags generation in temps. */
1409 TCGv_i64 pd = tcg_temp_new_i64();
1410 TCGv_i64 pn = tcg_temp_new_i64();
1411 TCGv_i64 pm = tcg_temp_new_i64();
1412 TCGv_i64 pg = tcg_temp_new_i64();
1413
1414 tcg_gen_ld_i64(pn, cpu_env, nofs);
1415 tcg_gen_ld_i64(pm, cpu_env, mofs);
1416 tcg_gen_ld_i64(pg, cpu_env, gofs);
1417
1418 gvec_op->fni8(pd, pn, pm, pg);
1419 tcg_gen_st_i64(pd, cpu_env, dofs);
1420
1421 do_predtest1(pd, pg);
1422
1423 tcg_temp_free_i64(pd);
1424 tcg_temp_free_i64(pn);
1425 tcg_temp_free_i64(pm);
1426 tcg_temp_free_i64(pg);
1427 } else {
1428 /* The operation and flags generation is large. The computation
1429 * of the flags depends on the original contents of the guarding
1430 * predicate. If the destination overwrites the guarding predicate,
1431 * then the easiest way to get this right is to save a copy.
1432 */
1433 int tofs = gofs;
1434 if (a->rd == a->pg) {
1435 tofs = offsetof(CPUARMState, vfp.preg_tmp);
1436 tcg_gen_gvec_mov(0, tofs, gofs, psz, psz);
1437 }
1438
1439 tcg_gen_gvec_4(dofs, nofs, mofs, gofs, psz, psz, gvec_op);
1440 do_predtest(s, dofs, tofs, psz / 8);
1441 }
1442 return true;
1443 }
1444
1445 static void gen_and_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1446 {
1447 tcg_gen_and_i64(pd, pn, pm);
1448 tcg_gen_and_i64(pd, pd, pg);
1449 }
1450
1451 static void gen_and_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1452 TCGv_vec pm, TCGv_vec pg)
1453 {
1454 tcg_gen_and_vec(vece, pd, pn, pm);
1455 tcg_gen_and_vec(vece, pd, pd, pg);
1456 }
1457
1458 static bool trans_AND_pppp(DisasContext *s, arg_rprr_s *a)
1459 {
1460 static const GVecGen4 op = {
1461 .fni8 = gen_and_pg_i64,
1462 .fniv = gen_and_pg_vec,
1463 .fno = gen_helper_sve_and_pppp,
1464 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1465 };
1466
1467 if (!dc_isar_feature(aa64_sve, s)) {
1468 return false;
1469 }
1470 if (!a->s) {
1471 if (a->rn == a->rm) {
1472 if (a->pg == a->rn) {
1473 return do_mov_p(s, a->rd, a->rn);
1474 }
1475 return gen_gvec_fn_ppp(s, tcg_gen_gvec_and, a->rd, a->rn, a->pg);
1476 } else if (a->pg == a->rn || a->pg == a->rm) {
1477 return gen_gvec_fn_ppp(s, tcg_gen_gvec_and, a->rd, a->rn, a->rm);
1478 }
1479 }
1480 return do_pppp_flags(s, a, &op);
1481 }
1482
1483 static void gen_bic_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1484 {
1485 tcg_gen_andc_i64(pd, pn, pm);
1486 tcg_gen_and_i64(pd, pd, pg);
1487 }
1488
1489 static void gen_bic_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1490 TCGv_vec pm, TCGv_vec pg)
1491 {
1492 tcg_gen_andc_vec(vece, pd, pn, pm);
1493 tcg_gen_and_vec(vece, pd, pd, pg);
1494 }
1495
1496 static bool trans_BIC_pppp(DisasContext *s, arg_rprr_s *a)
1497 {
1498 static const GVecGen4 op = {
1499 .fni8 = gen_bic_pg_i64,
1500 .fniv = gen_bic_pg_vec,
1501 .fno = gen_helper_sve_bic_pppp,
1502 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1503 };
1504
1505 if (!dc_isar_feature(aa64_sve, s)) {
1506 return false;
1507 }
1508 if (!a->s && a->pg == a->rn) {
1509 return gen_gvec_fn_ppp(s, tcg_gen_gvec_andc, a->rd, a->rn, a->rm);
1510 }
1511 return do_pppp_flags(s, a, &op);
1512 }
1513
1514 static void gen_eor_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1515 {
1516 tcg_gen_xor_i64(pd, pn, pm);
1517 tcg_gen_and_i64(pd, pd, pg);
1518 }
1519
1520 static void gen_eor_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1521 TCGv_vec pm, TCGv_vec pg)
1522 {
1523 tcg_gen_xor_vec(vece, pd, pn, pm);
1524 tcg_gen_and_vec(vece, pd, pd, pg);
1525 }
1526
1527 static bool trans_EOR_pppp(DisasContext *s, arg_rprr_s *a)
1528 {
1529 static const GVecGen4 op = {
1530 .fni8 = gen_eor_pg_i64,
1531 .fniv = gen_eor_pg_vec,
1532 .fno = gen_helper_sve_eor_pppp,
1533 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1534 };
1535
1536 if (!dc_isar_feature(aa64_sve, s)) {
1537 return false;
1538 }
1539 /* Alias NOT (predicate) is EOR Pd.B, Pg/Z, Pn.B, Pg.B */
1540 if (!a->s && a->pg == a->rm) {
1541 return gen_gvec_fn_ppp(s, tcg_gen_gvec_andc, a->rd, a->pg, a->rn);
1542 }
1543 return do_pppp_flags(s, a, &op);
1544 }
1545
1546 static bool trans_SEL_pppp(DisasContext *s, arg_rprr_s *a)
1547 {
1548 if (a->s || !dc_isar_feature(aa64_sve, s)) {
1549 return false;
1550 }
1551 if (sve_access_check(s)) {
1552 unsigned psz = pred_gvec_reg_size(s);
1553 tcg_gen_gvec_bitsel(MO_8, pred_full_reg_offset(s, a->rd),
1554 pred_full_reg_offset(s, a->pg),
1555 pred_full_reg_offset(s, a->rn),
1556 pred_full_reg_offset(s, a->rm), psz, psz);
1557 }
1558 return true;
1559 }
1560
1561 static void gen_orr_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1562 {
1563 tcg_gen_or_i64(pd, pn, pm);
1564 tcg_gen_and_i64(pd, pd, pg);
1565 }
1566
1567 static void gen_orr_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1568 TCGv_vec pm, TCGv_vec pg)
1569 {
1570 tcg_gen_or_vec(vece, pd, pn, pm);
1571 tcg_gen_and_vec(vece, pd, pd, pg);
1572 }
1573
1574 static bool trans_ORR_pppp(DisasContext *s, arg_rprr_s *a)
1575 {
1576 static const GVecGen4 op = {
1577 .fni8 = gen_orr_pg_i64,
1578 .fniv = gen_orr_pg_vec,
1579 .fno = gen_helper_sve_orr_pppp,
1580 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1581 };
1582
1583 if (!dc_isar_feature(aa64_sve, s)) {
1584 return false;
1585 }
1586 if (!a->s && a->pg == a->rn && a->rn == a->rm) {
1587 return do_mov_p(s, a->rd, a->rn);
1588 }
1589 return do_pppp_flags(s, a, &op);
1590 }
1591
1592 static void gen_orn_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1593 {
1594 tcg_gen_orc_i64(pd, pn, pm);
1595 tcg_gen_and_i64(pd, pd, pg);
1596 }
1597
1598 static void gen_orn_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1599 TCGv_vec pm, TCGv_vec pg)
1600 {
1601 tcg_gen_orc_vec(vece, pd, pn, pm);
1602 tcg_gen_and_vec(vece, pd, pd, pg);
1603 }
1604
1605 static bool trans_ORN_pppp(DisasContext *s, arg_rprr_s *a)
1606 {
1607 static const GVecGen4 op = {
1608 .fni8 = gen_orn_pg_i64,
1609 .fniv = gen_orn_pg_vec,
1610 .fno = gen_helper_sve_orn_pppp,
1611 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1612 };
1613
1614 if (!dc_isar_feature(aa64_sve, s)) {
1615 return false;
1616 }
1617 return do_pppp_flags(s, a, &op);
1618 }
1619
1620 static void gen_nor_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1621 {
1622 tcg_gen_or_i64(pd, pn, pm);
1623 tcg_gen_andc_i64(pd, pg, pd);
1624 }
1625
1626 static void gen_nor_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1627 TCGv_vec pm, TCGv_vec pg)
1628 {
1629 tcg_gen_or_vec(vece, pd, pn, pm);
1630 tcg_gen_andc_vec(vece, pd, pg, pd);
1631 }
1632
1633 static bool trans_NOR_pppp(DisasContext *s, arg_rprr_s *a)
1634 {
1635 static const GVecGen4 op = {
1636 .fni8 = gen_nor_pg_i64,
1637 .fniv = gen_nor_pg_vec,
1638 .fno = gen_helper_sve_nor_pppp,
1639 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1640 };
1641
1642 if (!dc_isar_feature(aa64_sve, s)) {
1643 return false;
1644 }
1645 return do_pppp_flags(s, a, &op);
1646 }
1647
1648 static void gen_nand_pg_i64(TCGv_i64 pd, TCGv_i64 pn, TCGv_i64 pm, TCGv_i64 pg)
1649 {
1650 tcg_gen_and_i64(pd, pn, pm);
1651 tcg_gen_andc_i64(pd, pg, pd);
1652 }
1653
1654 static void gen_nand_pg_vec(unsigned vece, TCGv_vec pd, TCGv_vec pn,
1655 TCGv_vec pm, TCGv_vec pg)
1656 {
1657 tcg_gen_and_vec(vece, pd, pn, pm);
1658 tcg_gen_andc_vec(vece, pd, pg, pd);
1659 }
1660
1661 static bool trans_NAND_pppp(DisasContext *s, arg_rprr_s *a)
1662 {
1663 static const GVecGen4 op = {
1664 .fni8 = gen_nand_pg_i64,
1665 .fniv = gen_nand_pg_vec,
1666 .fno = gen_helper_sve_nand_pppp,
1667 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
1668 };
1669
1670 if (!dc_isar_feature(aa64_sve, s)) {
1671 return false;
1672 }
1673 return do_pppp_flags(s, a, &op);
1674 }
1675
1676 /*
1677 *** SVE Predicate Misc Group
1678 */
1679
1680 static bool trans_PTEST(DisasContext *s, arg_PTEST *a)
1681 {
1682 if (!dc_isar_feature(aa64_sve, s)) {
1683 return false;
1684 }
1685 if (sve_access_check(s)) {
1686 int nofs = pred_full_reg_offset(s, a->rn);
1687 int gofs = pred_full_reg_offset(s, a->pg);
1688 int words = DIV_ROUND_UP(pred_full_reg_size(s), 8);
1689
1690 if (words == 1) {
1691 TCGv_i64 pn = tcg_temp_new_i64();
1692 TCGv_i64 pg = tcg_temp_new_i64();
1693
1694 tcg_gen_ld_i64(pn, cpu_env, nofs);
1695 tcg_gen_ld_i64(pg, cpu_env, gofs);
1696 do_predtest1(pn, pg);
1697
1698 tcg_temp_free_i64(pn);
1699 tcg_temp_free_i64(pg);
1700 } else {
1701 do_predtest(s, nofs, gofs, words);
1702 }
1703 }
1704 return true;
1705 }
1706
1707 /* See the ARM pseudocode DecodePredCount. */
1708 static unsigned decode_pred_count(unsigned fullsz, int pattern, int esz)
1709 {
1710 unsigned elements = fullsz >> esz;
1711 unsigned bound;
1712
1713 switch (pattern) {
1714 case 0x0: /* POW2 */
1715 return pow2floor(elements);
1716 case 0x1: /* VL1 */
1717 case 0x2: /* VL2 */
1718 case 0x3: /* VL3 */
1719 case 0x4: /* VL4 */
1720 case 0x5: /* VL5 */
1721 case 0x6: /* VL6 */
1722 case 0x7: /* VL7 */
1723 case 0x8: /* VL8 */
1724 bound = pattern;
1725 break;
1726 case 0x9: /* VL16 */
1727 case 0xa: /* VL32 */
1728 case 0xb: /* VL64 */
1729 case 0xc: /* VL128 */
1730 case 0xd: /* VL256 */
1731 bound = 16 << (pattern - 9);
1732 break;
1733 case 0x1d: /* MUL4 */
1734 return elements - elements % 4;
1735 case 0x1e: /* MUL3 */
1736 return elements - elements % 3;
1737 case 0x1f: /* ALL */
1738 return elements;
1739 default: /* #uimm5 */
1740 return 0;
1741 }
1742 return elements >= bound ? bound : 0;
1743 }
1744
1745 /* This handles all of the predicate initialization instructions,
1746 * PTRUE, PFALSE, SETFFR. For PFALSE, we will have set PAT == 32
1747 * so that decode_pred_count returns 0. For SETFFR, we will have
1748 * set RD == 16 == FFR.
1749 */
1750 static bool do_predset(DisasContext *s, int esz, int rd, int pat, bool setflag)
1751 {
1752 if (!sve_access_check(s)) {
1753 return true;
1754 }
1755
1756 unsigned fullsz = vec_full_reg_size(s);
1757 unsigned ofs = pred_full_reg_offset(s, rd);
1758 unsigned numelem, setsz, i;
1759 uint64_t word, lastword;
1760 TCGv_i64 t;
1761
1762 numelem = decode_pred_count(fullsz, pat, esz);
1763
1764 /* Determine what we must store into each bit, and how many. */
1765 if (numelem == 0) {
1766 lastword = word = 0;
1767 setsz = fullsz;
1768 } else {
1769 setsz = numelem << esz;
1770 lastword = word = pred_esz_masks[esz];
1771 if (setsz % 64) {
1772 lastword &= MAKE_64BIT_MASK(0, setsz % 64);
1773 }
1774 }
1775
1776 t = tcg_temp_new_i64();
1777 if (fullsz <= 64) {
1778 tcg_gen_movi_i64(t, lastword);
1779 tcg_gen_st_i64(t, cpu_env, ofs);
1780 goto done;
1781 }
1782
1783 if (word == lastword) {
1784 unsigned maxsz = size_for_gvec(fullsz / 8);
1785 unsigned oprsz = size_for_gvec(setsz / 8);
1786
1787 if (oprsz * 8 == setsz) {
1788 tcg_gen_gvec_dup_imm(MO_64, ofs, oprsz, maxsz, word);
1789 goto done;
1790 }
1791 }
1792
1793 setsz /= 8;
1794 fullsz /= 8;
1795
1796 tcg_gen_movi_i64(t, word);
1797 for (i = 0; i < QEMU_ALIGN_DOWN(setsz, 8); i += 8) {
1798 tcg_gen_st_i64(t, cpu_env, ofs + i);
1799 }
1800 if (lastword != word) {
1801 tcg_gen_movi_i64(t, lastword);
1802 tcg_gen_st_i64(t, cpu_env, ofs + i);
1803 i += 8;
1804 }
1805 if (i < fullsz) {
1806 tcg_gen_movi_i64(t, 0);
1807 for (; i < fullsz; i += 8) {
1808 tcg_gen_st_i64(t, cpu_env, ofs + i);
1809 }
1810 }
1811
1812 done:
1813 tcg_temp_free_i64(t);
1814
1815 /* PTRUES */
1816 if (setflag) {
1817 tcg_gen_movi_i32(cpu_NF, -(word != 0));
1818 tcg_gen_movi_i32(cpu_CF, word == 0);
1819 tcg_gen_movi_i32(cpu_VF, 0);
1820 tcg_gen_mov_i32(cpu_ZF, cpu_NF);
1821 }
1822 return true;
1823 }
1824
1825 TRANS_FEAT(PTRUE, aa64_sve, do_predset, a->esz, a->rd, a->pat, a->s)
1826
1827 /* Note pat == 31 is #all, to set all elements. */
1828 TRANS_FEAT_NONSTREAMING(SETFFR, aa64_sve,
1829 do_predset, 0, FFR_PRED_NUM, 31, false)
1830
1831 /* Note pat == 32 is #unimp, to set no elements. */
1832 TRANS_FEAT(PFALSE, aa64_sve, do_predset, 0, a->rd, 32, false)
1833
1834 static bool trans_RDFFR_p(DisasContext *s, arg_RDFFR_p *a)
1835 {
1836 /* The path through do_pppp_flags is complicated enough to want to avoid
1837 * duplication. Frob the arguments into the form of a predicated AND.
1838 */
1839 arg_rprr_s alt_a = {
1840 .rd = a->rd, .pg = a->pg, .s = a->s,
1841 .rn = FFR_PRED_NUM, .rm = FFR_PRED_NUM,
1842 };
1843
1844 s->is_nonstreaming = true;
1845 return trans_AND_pppp(s, &alt_a);
1846 }
1847
1848 TRANS_FEAT_NONSTREAMING(RDFFR, aa64_sve, do_mov_p, a->rd, FFR_PRED_NUM)
1849 TRANS_FEAT_NONSTREAMING(WRFFR, aa64_sve, do_mov_p, FFR_PRED_NUM, a->rn)
1850
1851 static bool do_pfirst_pnext(DisasContext *s, arg_rr_esz *a,
1852 void (*gen_fn)(TCGv_i32, TCGv_ptr,
1853 TCGv_ptr, TCGv_i32))
1854 {
1855 if (!sve_access_check(s)) {
1856 return true;
1857 }
1858
1859 TCGv_ptr t_pd = tcg_temp_new_ptr();
1860 TCGv_ptr t_pg = tcg_temp_new_ptr();
1861 TCGv_i32 t;
1862 unsigned desc = 0;
1863
1864 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, pred_full_reg_size(s));
1865 desc = FIELD_DP32(desc, PREDDESC, ESZ, a->esz);
1866
1867 tcg_gen_addi_ptr(t_pd, cpu_env, pred_full_reg_offset(s, a->rd));
1868 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, a->rn));
1869 t = tcg_temp_new_i32();
1870
1871 gen_fn(t, t_pd, t_pg, tcg_constant_i32(desc));
1872 tcg_temp_free_ptr(t_pd);
1873 tcg_temp_free_ptr(t_pg);
1874
1875 do_pred_flags(t);
1876 tcg_temp_free_i32(t);
1877 return true;
1878 }
1879
1880 TRANS_FEAT(PFIRST, aa64_sve, do_pfirst_pnext, a, gen_helper_sve_pfirst)
1881 TRANS_FEAT(PNEXT, aa64_sve, do_pfirst_pnext, a, gen_helper_sve_pnext)
1882
1883 /*
1884 *** SVE Element Count Group
1885 */
1886
1887 /* Perform an inline saturating addition of a 32-bit value within
1888 * a 64-bit register. The second operand is known to be positive,
1889 * which halves the comparisions we must perform to bound the result.
1890 */
1891 static void do_sat_addsub_32(TCGv_i64 reg, TCGv_i64 val, bool u, bool d)
1892 {
1893 int64_t ibound;
1894
1895 /* Use normal 64-bit arithmetic to detect 32-bit overflow. */
1896 if (u) {
1897 tcg_gen_ext32u_i64(reg, reg);
1898 } else {
1899 tcg_gen_ext32s_i64(reg, reg);
1900 }
1901 if (d) {
1902 tcg_gen_sub_i64(reg, reg, val);
1903 ibound = (u ? 0 : INT32_MIN);
1904 tcg_gen_smax_i64(reg, reg, tcg_constant_i64(ibound));
1905 } else {
1906 tcg_gen_add_i64(reg, reg, val);
1907 ibound = (u ? UINT32_MAX : INT32_MAX);
1908 tcg_gen_smin_i64(reg, reg, tcg_constant_i64(ibound));
1909 }
1910 }
1911
1912 /* Similarly with 64-bit values. */
1913 static void do_sat_addsub_64(TCGv_i64 reg, TCGv_i64 val, bool u, bool d)
1914 {
1915 TCGv_i64 t0 = tcg_temp_new_i64();
1916 TCGv_i64 t2;
1917
1918 if (u) {
1919 if (d) {
1920 tcg_gen_sub_i64(t0, reg, val);
1921 t2 = tcg_constant_i64(0);
1922 tcg_gen_movcond_i64(TCG_COND_LTU, reg, reg, val, t2, t0);
1923 } else {
1924 tcg_gen_add_i64(t0, reg, val);
1925 t2 = tcg_constant_i64(-1);
1926 tcg_gen_movcond_i64(TCG_COND_LTU, reg, t0, reg, t2, t0);
1927 }
1928 } else {
1929 TCGv_i64 t1 = tcg_temp_new_i64();
1930 if (d) {
1931 /* Detect signed overflow for subtraction. */
1932 tcg_gen_xor_i64(t0, reg, val);
1933 tcg_gen_sub_i64(t1, reg, val);
1934 tcg_gen_xor_i64(reg, reg, t1);
1935 tcg_gen_and_i64(t0, t0, reg);
1936
1937 /* Bound the result. */
1938 tcg_gen_movi_i64(reg, INT64_MIN);
1939 t2 = tcg_constant_i64(0);
1940 tcg_gen_movcond_i64(TCG_COND_LT, reg, t0, t2, reg, t1);
1941 } else {
1942 /* Detect signed overflow for addition. */
1943 tcg_gen_xor_i64(t0, reg, val);
1944 tcg_gen_add_i64(reg, reg, val);
1945 tcg_gen_xor_i64(t1, reg, val);
1946 tcg_gen_andc_i64(t0, t1, t0);
1947
1948 /* Bound the result. */
1949 tcg_gen_movi_i64(t1, INT64_MAX);
1950 t2 = tcg_constant_i64(0);
1951 tcg_gen_movcond_i64(TCG_COND_LT, reg, t0, t2, t1, reg);
1952 }
1953 tcg_temp_free_i64(t1);
1954 }
1955 tcg_temp_free_i64(t0);
1956 }
1957
1958 /* Similarly with a vector and a scalar operand. */
1959 static void do_sat_addsub_vec(DisasContext *s, int esz, int rd, int rn,
1960 TCGv_i64 val, bool u, bool d)
1961 {
1962 unsigned vsz = vec_full_reg_size(s);
1963 TCGv_ptr dptr, nptr;
1964 TCGv_i32 t32, desc;
1965 TCGv_i64 t64;
1966
1967 dptr = tcg_temp_new_ptr();
1968 nptr = tcg_temp_new_ptr();
1969 tcg_gen_addi_ptr(dptr, cpu_env, vec_full_reg_offset(s, rd));
1970 tcg_gen_addi_ptr(nptr, cpu_env, vec_full_reg_offset(s, rn));
1971 desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
1972
1973 switch (esz) {
1974 case MO_8:
1975 t32 = tcg_temp_new_i32();
1976 tcg_gen_extrl_i64_i32(t32, val);
1977 if (d) {
1978 tcg_gen_neg_i32(t32, t32);
1979 }
1980 if (u) {
1981 gen_helper_sve_uqaddi_b(dptr, nptr, t32, desc);
1982 } else {
1983 gen_helper_sve_sqaddi_b(dptr, nptr, t32, desc);
1984 }
1985 tcg_temp_free_i32(t32);
1986 break;
1987
1988 case MO_16:
1989 t32 = tcg_temp_new_i32();
1990 tcg_gen_extrl_i64_i32(t32, val);
1991 if (d) {
1992 tcg_gen_neg_i32(t32, t32);
1993 }
1994 if (u) {
1995 gen_helper_sve_uqaddi_h(dptr, nptr, t32, desc);
1996 } else {
1997 gen_helper_sve_sqaddi_h(dptr, nptr, t32, desc);
1998 }
1999 tcg_temp_free_i32(t32);
2000 break;
2001
2002 case MO_32:
2003 t64 = tcg_temp_new_i64();
2004 if (d) {
2005 tcg_gen_neg_i64(t64, val);
2006 } else {
2007 tcg_gen_mov_i64(t64, val);
2008 }
2009 if (u) {
2010 gen_helper_sve_uqaddi_s(dptr, nptr, t64, desc);
2011 } else {
2012 gen_helper_sve_sqaddi_s(dptr, nptr, t64, desc);
2013 }
2014 tcg_temp_free_i64(t64);
2015 break;
2016
2017 case MO_64:
2018 if (u) {
2019 if (d) {
2020 gen_helper_sve_uqsubi_d(dptr, nptr, val, desc);
2021 } else {
2022 gen_helper_sve_uqaddi_d(dptr, nptr, val, desc);
2023 }
2024 } else if (d) {
2025 t64 = tcg_temp_new_i64();
2026 tcg_gen_neg_i64(t64, val);
2027 gen_helper_sve_sqaddi_d(dptr, nptr, t64, desc);
2028 tcg_temp_free_i64(t64);
2029 } else {
2030 gen_helper_sve_sqaddi_d(dptr, nptr, val, desc);
2031 }
2032 break;
2033
2034 default:
2035 g_assert_not_reached();
2036 }
2037
2038 tcg_temp_free_ptr(dptr);
2039 tcg_temp_free_ptr(nptr);
2040 }
2041
2042 static bool trans_CNT_r(DisasContext *s, arg_CNT_r *a)
2043 {
2044 if (!dc_isar_feature(aa64_sve, s)) {
2045 return false;
2046 }
2047 if (sve_access_check(s)) {
2048 unsigned fullsz = vec_full_reg_size(s);
2049 unsigned numelem = decode_pred_count(fullsz, a->pat, a->esz);
2050 tcg_gen_movi_i64(cpu_reg(s, a->rd), numelem * a->imm);
2051 }
2052 return true;
2053 }
2054
2055 static bool trans_INCDEC_r(DisasContext *s, arg_incdec_cnt *a)
2056 {
2057 if (!dc_isar_feature(aa64_sve, s)) {
2058 return false;
2059 }
2060 if (sve_access_check(s)) {
2061 unsigned fullsz = vec_full_reg_size(s);
2062 unsigned numelem = decode_pred_count(fullsz, a->pat, a->esz);
2063 int inc = numelem * a->imm * (a->d ? -1 : 1);
2064 TCGv_i64 reg = cpu_reg(s, a->rd);
2065
2066 tcg_gen_addi_i64(reg, reg, inc);
2067 }
2068 return true;
2069 }
2070
2071 static bool trans_SINCDEC_r_32(DisasContext *s, arg_incdec_cnt *a)
2072 {
2073 if (!dc_isar_feature(aa64_sve, s)) {
2074 return false;
2075 }
2076 if (!sve_access_check(s)) {
2077 return true;
2078 }
2079
2080 unsigned fullsz = vec_full_reg_size(s);
2081 unsigned numelem = decode_pred_count(fullsz, a->pat, a->esz);
2082 int inc = numelem * a->imm;
2083 TCGv_i64 reg = cpu_reg(s, a->rd);
2084
2085 /* Use normal 64-bit arithmetic to detect 32-bit overflow. */
2086 if (inc == 0) {
2087 if (a->u) {
2088 tcg_gen_ext32u_i64(reg, reg);
2089 } else {
2090 tcg_gen_ext32s_i64(reg, reg);
2091 }
2092 } else {
2093 do_sat_addsub_32(reg, tcg_constant_i64(inc), a->u, a->d);
2094 }
2095 return true;
2096 }
2097
2098 static bool trans_SINCDEC_r_64(DisasContext *s, arg_incdec_cnt *a)
2099 {
2100 if (!dc_isar_feature(aa64_sve, s)) {
2101 return false;
2102 }
2103 if (!sve_access_check(s)) {
2104 return true;
2105 }
2106
2107 unsigned fullsz = vec_full_reg_size(s);
2108 unsigned numelem = decode_pred_count(fullsz, a->pat, a->esz);
2109 int inc = numelem * a->imm;
2110 TCGv_i64 reg = cpu_reg(s, a->rd);
2111
2112 if (inc != 0) {
2113 do_sat_addsub_64(reg, tcg_constant_i64(inc), a->u, a->d);
2114 }
2115 return true;
2116 }
2117
2118 static bool trans_INCDEC_v(DisasContext *s, arg_incdec2_cnt *a)
2119 {
2120 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
2121 return false;
2122 }
2123
2124 unsigned fullsz = vec_full_reg_size(s);
2125 unsigned numelem = decode_pred_count(fullsz, a->pat, a->esz);
2126 int inc = numelem * a->imm;
2127
2128 if (inc != 0) {
2129 if (sve_access_check(s)) {
2130 tcg_gen_gvec_adds(a->esz, vec_full_reg_offset(s, a->rd),
2131 vec_full_reg_offset(s, a->rn),
2132 tcg_constant_i64(a->d ? -inc : inc),
2133 fullsz, fullsz);
2134 }
2135 } else {
2136 do_mov_z(s, a->rd, a->rn);
2137 }
2138 return true;
2139 }
2140
2141 static bool trans_SINCDEC_v(DisasContext *s, arg_incdec2_cnt *a)
2142 {
2143 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
2144 return false;
2145 }
2146
2147 unsigned fullsz = vec_full_reg_size(s);
2148 unsigned numelem = decode_pred_count(fullsz, a->pat, a->esz);
2149 int inc = numelem * a->imm;
2150
2151 if (inc != 0) {
2152 if (sve_access_check(s)) {
2153 do_sat_addsub_vec(s, a->esz, a->rd, a->rn,
2154 tcg_constant_i64(inc), a->u, a->d);
2155 }
2156 } else {
2157 do_mov_z(s, a->rd, a->rn);
2158 }
2159 return true;
2160 }
2161
2162 /*
2163 *** SVE Bitwise Immediate Group
2164 */
2165
2166 static bool do_zz_dbm(DisasContext *s, arg_rr_dbm *a, GVecGen2iFn *gvec_fn)
2167 {
2168 uint64_t imm;
2169 if (!logic_imm_decode_wmask(&imm, extract32(a->dbm, 12, 1),
2170 extract32(a->dbm, 0, 6),
2171 extract32(a->dbm, 6, 6))) {
2172 return false;
2173 }
2174 return gen_gvec_fn_zzi(s, gvec_fn, MO_64, a->rd, a->rn, imm);
2175 }
2176
2177 TRANS_FEAT(AND_zzi, aa64_sve, do_zz_dbm, a, tcg_gen_gvec_andi)
2178 TRANS_FEAT(ORR_zzi, aa64_sve, do_zz_dbm, a, tcg_gen_gvec_ori)
2179 TRANS_FEAT(EOR_zzi, aa64_sve, do_zz_dbm, a, tcg_gen_gvec_xori)
2180
2181 static bool trans_DUPM(DisasContext *s, arg_DUPM *a)
2182 {
2183 uint64_t imm;
2184
2185 if (!dc_isar_feature(aa64_sve, s)) {
2186 return false;
2187 }
2188 if (!logic_imm_decode_wmask(&imm, extract32(a->dbm, 12, 1),
2189 extract32(a->dbm, 0, 6),
2190 extract32(a->dbm, 6, 6))) {
2191 return false;
2192 }
2193 if (sve_access_check(s)) {
2194 do_dupi_z(s, a->rd, imm);
2195 }
2196 return true;
2197 }
2198
2199 /*
2200 *** SVE Integer Wide Immediate - Predicated Group
2201 */
2202
2203 /* Implement all merging copies. This is used for CPY (immediate),
2204 * FCPY, CPY (scalar), CPY (SIMD&FP scalar).
2205 */
2206 static void do_cpy_m(DisasContext *s, int esz, int rd, int rn, int pg,
2207 TCGv_i64 val)
2208 {
2209 typedef void gen_cpy(TCGv_ptr, TCGv_ptr, TCGv_ptr, TCGv_i64, TCGv_i32);
2210 static gen_cpy * const fns[4] = {
2211 gen_helper_sve_cpy_m_b, gen_helper_sve_cpy_m_h,
2212 gen_helper_sve_cpy_m_s, gen_helper_sve_cpy_m_d,
2213 };
2214 unsigned vsz = vec_full_reg_size(s);
2215 TCGv_i32 desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
2216 TCGv_ptr t_zd = tcg_temp_new_ptr();
2217 TCGv_ptr t_zn = tcg_temp_new_ptr();
2218 TCGv_ptr t_pg = tcg_temp_new_ptr();
2219
2220 tcg_gen_addi_ptr(t_zd, cpu_env, vec_full_reg_offset(s, rd));
2221 tcg_gen_addi_ptr(t_zn, cpu_env, vec_full_reg_offset(s, rn));
2222 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, pg));
2223
2224 fns[esz](t_zd, t_zn, t_pg, val, desc);
2225
2226 tcg_temp_free_ptr(t_zd);
2227 tcg_temp_free_ptr(t_zn);
2228 tcg_temp_free_ptr(t_pg);
2229 }
2230
2231 static bool trans_FCPY(DisasContext *s, arg_FCPY *a)
2232 {
2233 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
2234 return false;
2235 }
2236 if (sve_access_check(s)) {
2237 /* Decode the VFP immediate. */
2238 uint64_t imm = vfp_expand_imm(a->esz, a->imm);
2239 do_cpy_m(s, a->esz, a->rd, a->rn, a->pg, tcg_constant_i64(imm));
2240 }
2241 return true;
2242 }
2243
2244 static bool trans_CPY_m_i(DisasContext *s, arg_rpri_esz *a)
2245 {
2246 if (!dc_isar_feature(aa64_sve, s)) {
2247 return false;
2248 }
2249 if (sve_access_check(s)) {
2250 do_cpy_m(s, a->esz, a->rd, a->rn, a->pg, tcg_constant_i64(a->imm));
2251 }
2252 return true;
2253 }
2254
2255 static bool trans_CPY_z_i(DisasContext *s, arg_CPY_z_i *a)
2256 {
2257 static gen_helper_gvec_2i * const fns[4] = {
2258 gen_helper_sve_cpy_z_b, gen_helper_sve_cpy_z_h,
2259 gen_helper_sve_cpy_z_s, gen_helper_sve_cpy_z_d,
2260 };
2261
2262 if (!dc_isar_feature(aa64_sve, s)) {
2263 return false;
2264 }
2265 if (sve_access_check(s)) {
2266 unsigned vsz = vec_full_reg_size(s);
2267 tcg_gen_gvec_2i_ool(vec_full_reg_offset(s, a->rd),
2268 pred_full_reg_offset(s, a->pg),
2269 tcg_constant_i64(a->imm),
2270 vsz, vsz, 0, fns[a->esz]);
2271 }
2272 return true;
2273 }
2274
2275 /*
2276 *** SVE Permute Extract Group
2277 */
2278
2279 static bool do_EXT(DisasContext *s, int rd, int rn, int rm, int imm)
2280 {
2281 if (!sve_access_check(s)) {
2282 return true;
2283 }
2284
2285 unsigned vsz = vec_full_reg_size(s);
2286 unsigned n_ofs = imm >= vsz ? 0 : imm;
2287 unsigned n_siz = vsz - n_ofs;
2288 unsigned d = vec_full_reg_offset(s, rd);
2289 unsigned n = vec_full_reg_offset(s, rn);
2290 unsigned m = vec_full_reg_offset(s, rm);
2291
2292 /* Use host vector move insns if we have appropriate sizes
2293 * and no unfortunate overlap.
2294 */
2295 if (m != d
2296 && n_ofs == size_for_gvec(n_ofs)
2297 && n_siz == size_for_gvec(n_siz)
2298 && (d != n || n_siz <= n_ofs)) {
2299 tcg_gen_gvec_mov(0, d, n + n_ofs, n_siz, n_siz);
2300 if (n_ofs != 0) {
2301 tcg_gen_gvec_mov(0, d + n_siz, m, n_ofs, n_ofs);
2302 }
2303 } else {
2304 tcg_gen_gvec_3_ool(d, n, m, vsz, vsz, n_ofs, gen_helper_sve_ext);
2305 }
2306 return true;
2307 }
2308
2309 TRANS_FEAT(EXT, aa64_sve, do_EXT, a->rd, a->rn, a->rm, a->imm)
2310 TRANS_FEAT(EXT_sve2, aa64_sve2, do_EXT, a->rd, a->rn, (a->rn + 1) % 32, a->imm)
2311
2312 /*
2313 *** SVE Permute - Unpredicated Group
2314 */
2315
2316 static bool trans_DUP_s(DisasContext *s, arg_DUP_s *a)
2317 {
2318 if (!dc_isar_feature(aa64_sve, s)) {
2319 return false;
2320 }
2321 if (sve_access_check(s)) {
2322 unsigned vsz = vec_full_reg_size(s);
2323 tcg_gen_gvec_dup_i64(a->esz, vec_full_reg_offset(s, a->rd),
2324 vsz, vsz, cpu_reg_sp(s, a->rn));
2325 }
2326 return true;
2327 }
2328
2329 static bool trans_DUP_x(DisasContext *s, arg_DUP_x *a)
2330 {
2331 if (!dc_isar_feature(aa64_sve, s)) {
2332 return false;
2333 }
2334 if ((a->imm & 0x1f) == 0) {
2335 return false;
2336 }
2337 if (sve_access_check(s)) {
2338 unsigned vsz = vec_full_reg_size(s);
2339 unsigned dofs = vec_full_reg_offset(s, a->rd);
2340 unsigned esz, index;
2341
2342 esz = ctz32(a->imm);
2343 index = a->imm >> (esz + 1);
2344
2345 if ((index << esz) < vsz) {
2346 unsigned nofs = vec_reg_offset(s, a->rn, index, esz);
2347 tcg_gen_gvec_dup_mem(esz, dofs, nofs, vsz, vsz);
2348 } else {
2349 /*
2350 * While dup_mem handles 128-bit elements, dup_imm does not.
2351 * Thankfully element size doesn't matter for splatting zero.
2352 */
2353 tcg_gen_gvec_dup_imm(MO_64, dofs, vsz, vsz, 0);
2354 }
2355 }
2356 return true;
2357 }
2358
2359 static void do_insr_i64(DisasContext *s, arg_rrr_esz *a, TCGv_i64 val)
2360 {
2361 typedef void gen_insr(TCGv_ptr, TCGv_ptr, TCGv_i64, TCGv_i32);
2362 static gen_insr * const fns[4] = {
2363 gen_helper_sve_insr_b, gen_helper_sve_insr_h,
2364 gen_helper_sve_insr_s, gen_helper_sve_insr_d,
2365 };
2366 unsigned vsz = vec_full_reg_size(s);
2367 TCGv_i32 desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
2368 TCGv_ptr t_zd = tcg_temp_new_ptr();
2369 TCGv_ptr t_zn = tcg_temp_new_ptr();
2370
2371 tcg_gen_addi_ptr(t_zd, cpu_env, vec_full_reg_offset(s, a->rd));
2372 tcg_gen_addi_ptr(t_zn, cpu_env, vec_full_reg_offset(s, a->rn));
2373
2374 fns[a->esz](t_zd, t_zn, val, desc);
2375
2376 tcg_temp_free_ptr(t_zd);
2377 tcg_temp_free_ptr(t_zn);
2378 }
2379
2380 static bool trans_INSR_f(DisasContext *s, arg_rrr_esz *a)
2381 {
2382 if (!dc_isar_feature(aa64_sve, s)) {
2383 return false;
2384 }
2385 if (sve_access_check(s)) {
2386 TCGv_i64 t = tcg_temp_new_i64();
2387 tcg_gen_ld_i64(t, cpu_env, vec_reg_offset(s, a->rm, 0, MO_64));
2388 do_insr_i64(s, a, t);
2389 tcg_temp_free_i64(t);
2390 }
2391 return true;
2392 }
2393
2394 static bool trans_INSR_r(DisasContext *s, arg_rrr_esz *a)
2395 {
2396 if (!dc_isar_feature(aa64_sve, s)) {
2397 return false;
2398 }
2399 if (sve_access_check(s)) {
2400 do_insr_i64(s, a, cpu_reg(s, a->rm));
2401 }
2402 return true;
2403 }
2404
2405 static gen_helper_gvec_2 * const rev_fns[4] = {
2406 gen_helper_sve_rev_b, gen_helper_sve_rev_h,
2407 gen_helper_sve_rev_s, gen_helper_sve_rev_d
2408 };
2409 TRANS_FEAT(REV_v, aa64_sve, gen_gvec_ool_zz, rev_fns[a->esz], a->rd, a->rn, 0)
2410
2411 static gen_helper_gvec_3 * const sve_tbl_fns[4] = {
2412 gen_helper_sve_tbl_b, gen_helper_sve_tbl_h,
2413 gen_helper_sve_tbl_s, gen_helper_sve_tbl_d
2414 };
2415 TRANS_FEAT(TBL, aa64_sve, gen_gvec_ool_arg_zzz, sve_tbl_fns[a->esz], a, 0)
2416
2417 static gen_helper_gvec_4 * const sve2_tbl_fns[4] = {
2418 gen_helper_sve2_tbl_b, gen_helper_sve2_tbl_h,
2419 gen_helper_sve2_tbl_s, gen_helper_sve2_tbl_d
2420 };
2421 TRANS_FEAT(TBL_sve2, aa64_sve2, gen_gvec_ool_zzzz, sve2_tbl_fns[a->esz],
2422 a->rd, a->rn, (a->rn + 1) % 32, a->rm, 0)
2423
2424 static gen_helper_gvec_3 * const tbx_fns[4] = {
2425 gen_helper_sve2_tbx_b, gen_helper_sve2_tbx_h,
2426 gen_helper_sve2_tbx_s, gen_helper_sve2_tbx_d
2427 };
2428 TRANS_FEAT(TBX, aa64_sve2, gen_gvec_ool_arg_zzz, tbx_fns[a->esz], a, 0)
2429
2430 static bool trans_UNPK(DisasContext *s, arg_UNPK *a)
2431 {
2432 static gen_helper_gvec_2 * const fns[4][2] = {
2433 { NULL, NULL },
2434 { gen_helper_sve_sunpk_h, gen_helper_sve_uunpk_h },
2435 { gen_helper_sve_sunpk_s, gen_helper_sve_uunpk_s },
2436 { gen_helper_sve_sunpk_d, gen_helper_sve_uunpk_d },
2437 };
2438
2439 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
2440 return false;
2441 }
2442 if (sve_access_check(s)) {
2443 unsigned vsz = vec_full_reg_size(s);
2444 tcg_gen_gvec_2_ool(vec_full_reg_offset(s, a->rd),
2445 vec_full_reg_offset(s, a->rn)
2446 + (a->h ? vsz / 2 : 0),
2447 vsz, vsz, 0, fns[a->esz][a->u]);
2448 }
2449 return true;
2450 }
2451
2452 /*
2453 *** SVE Permute - Predicates Group
2454 */
2455
2456 static bool do_perm_pred3(DisasContext *s, arg_rrr_esz *a, bool high_odd,
2457 gen_helper_gvec_3 *fn)
2458 {
2459 if (!sve_access_check(s)) {
2460 return true;
2461 }
2462
2463 unsigned vsz = pred_full_reg_size(s);
2464
2465 TCGv_ptr t_d = tcg_temp_new_ptr();
2466 TCGv_ptr t_n = tcg_temp_new_ptr();
2467 TCGv_ptr t_m = tcg_temp_new_ptr();
2468 uint32_t desc = 0;
2469
2470 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, vsz);
2471 desc = FIELD_DP32(desc, PREDDESC, ESZ, a->esz);
2472 desc = FIELD_DP32(desc, PREDDESC, DATA, high_odd);
2473
2474 tcg_gen_addi_ptr(t_d, cpu_env, pred_full_reg_offset(s, a->rd));
2475 tcg_gen_addi_ptr(t_n, cpu_env, pred_full_reg_offset(s, a->rn));
2476 tcg_gen_addi_ptr(t_m, cpu_env, pred_full_reg_offset(s, a->rm));
2477
2478 fn(t_d, t_n, t_m, tcg_constant_i32(desc));
2479
2480 tcg_temp_free_ptr(t_d);
2481 tcg_temp_free_ptr(t_n);
2482 tcg_temp_free_ptr(t_m);
2483 return true;
2484 }
2485
2486 static bool do_perm_pred2(DisasContext *s, arg_rr_esz *a, bool high_odd,
2487 gen_helper_gvec_2 *fn)
2488 {
2489 if (!sve_access_check(s)) {
2490 return true;
2491 }
2492
2493 unsigned vsz = pred_full_reg_size(s);
2494 TCGv_ptr t_d = tcg_temp_new_ptr();
2495 TCGv_ptr t_n = tcg_temp_new_ptr();
2496 uint32_t desc = 0;
2497
2498 tcg_gen_addi_ptr(t_d, cpu_env, pred_full_reg_offset(s, a->rd));
2499 tcg_gen_addi_ptr(t_n, cpu_env, pred_full_reg_offset(s, a->rn));
2500
2501 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, vsz);
2502 desc = FIELD_DP32(desc, PREDDESC, ESZ, a->esz);
2503 desc = FIELD_DP32(desc, PREDDESC, DATA, high_odd);
2504
2505 fn(t_d, t_n, tcg_constant_i32(desc));
2506
2507 tcg_temp_free_ptr(t_d);
2508 tcg_temp_free_ptr(t_n);
2509 return true;
2510 }
2511
2512 TRANS_FEAT(ZIP1_p, aa64_sve, do_perm_pred3, a, 0, gen_helper_sve_zip_p)
2513 TRANS_FEAT(ZIP2_p, aa64_sve, do_perm_pred3, a, 1, gen_helper_sve_zip_p)
2514 TRANS_FEAT(UZP1_p, aa64_sve, do_perm_pred3, a, 0, gen_helper_sve_uzp_p)
2515 TRANS_FEAT(UZP2_p, aa64_sve, do_perm_pred3, a, 1, gen_helper_sve_uzp_p)
2516 TRANS_FEAT(TRN1_p, aa64_sve, do_perm_pred3, a, 0, gen_helper_sve_trn_p)
2517 TRANS_FEAT(TRN2_p, aa64_sve, do_perm_pred3, a, 1, gen_helper_sve_trn_p)
2518
2519 TRANS_FEAT(REV_p, aa64_sve, do_perm_pred2, a, 0, gen_helper_sve_rev_p)
2520 TRANS_FEAT(PUNPKLO, aa64_sve, do_perm_pred2, a, 0, gen_helper_sve_punpk_p)
2521 TRANS_FEAT(PUNPKHI, aa64_sve, do_perm_pred2, a, 1, gen_helper_sve_punpk_p)
2522
2523 /*
2524 *** SVE Permute - Interleaving Group
2525 */
2526
2527 static gen_helper_gvec_3 * const zip_fns[4] = {
2528 gen_helper_sve_zip_b, gen_helper_sve_zip_h,
2529 gen_helper_sve_zip_s, gen_helper_sve_zip_d,
2530 };
2531 TRANS_FEAT(ZIP1_z, aa64_sve, gen_gvec_ool_arg_zzz,
2532 zip_fns[a->esz], a, 0)
2533 TRANS_FEAT(ZIP2_z, aa64_sve, gen_gvec_ool_arg_zzz,
2534 zip_fns[a->esz], a, vec_full_reg_size(s) / 2)
2535
2536 TRANS_FEAT(ZIP1_q, aa64_sve_f64mm, gen_gvec_ool_arg_zzz,
2537 gen_helper_sve2_zip_q, a, 0)
2538 TRANS_FEAT(ZIP2_q, aa64_sve_f64mm, gen_gvec_ool_arg_zzz,
2539 gen_helper_sve2_zip_q, a,
2540 QEMU_ALIGN_DOWN(vec_full_reg_size(s), 32) / 2)
2541
2542 static gen_helper_gvec_3 * const uzp_fns[4] = {
2543 gen_helper_sve_uzp_b, gen_helper_sve_uzp_h,
2544 gen_helper_sve_uzp_s, gen_helper_sve_uzp_d,
2545 };
2546
2547 TRANS_FEAT(UZP1_z, aa64_sve, gen_gvec_ool_arg_zzz,
2548 uzp_fns[a->esz], a, 0)
2549 TRANS_FEAT(UZP2_z, aa64_sve, gen_gvec_ool_arg_zzz,
2550 uzp_fns[a->esz], a, 1 << a->esz)
2551
2552 TRANS_FEAT(UZP1_q, aa64_sve_f64mm, gen_gvec_ool_arg_zzz,
2553 gen_helper_sve2_uzp_q, a, 0)
2554 TRANS_FEAT(UZP2_q, aa64_sve_f64mm, gen_gvec_ool_arg_zzz,
2555 gen_helper_sve2_uzp_q, a, 16)
2556
2557 static gen_helper_gvec_3 * const trn_fns[4] = {
2558 gen_helper_sve_trn_b, gen_helper_sve_trn_h,
2559 gen_helper_sve_trn_s, gen_helper_sve_trn_d,
2560 };
2561
2562 TRANS_FEAT(TRN1_z, aa64_sve, gen_gvec_ool_arg_zzz,
2563 trn_fns[a->esz], a, 0)
2564 TRANS_FEAT(TRN2_z, aa64_sve, gen_gvec_ool_arg_zzz,
2565 trn_fns[a->esz], a, 1 << a->esz)
2566
2567 TRANS_FEAT(TRN1_q, aa64_sve_f64mm, gen_gvec_ool_arg_zzz,
2568 gen_helper_sve2_trn_q, a, 0)
2569 TRANS_FEAT(TRN2_q, aa64_sve_f64mm, gen_gvec_ool_arg_zzz,
2570 gen_helper_sve2_trn_q, a, 16)
2571
2572 /*
2573 *** SVE Permute Vector - Predicated Group
2574 */
2575
2576 static gen_helper_gvec_3 * const compact_fns[4] = {
2577 NULL, NULL, gen_helper_sve_compact_s, gen_helper_sve_compact_d
2578 };
2579 TRANS_FEAT_NONSTREAMING(COMPACT, aa64_sve, gen_gvec_ool_arg_zpz,
2580 compact_fns[a->esz], a, 0)
2581
2582 /* Call the helper that computes the ARM LastActiveElement pseudocode
2583 * function, scaled by the element size. This includes the not found
2584 * indication; e.g. not found for esz=3 is -8.
2585 */
2586 static void find_last_active(DisasContext *s, TCGv_i32 ret, int esz, int pg)
2587 {
2588 /* Predicate sizes may be smaller and cannot use simd_desc. We cannot
2589 * round up, as we do elsewhere, because we need the exact size.
2590 */
2591 TCGv_ptr t_p = tcg_temp_new_ptr();
2592 unsigned desc = 0;
2593
2594 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, pred_full_reg_size(s));
2595 desc = FIELD_DP32(desc, PREDDESC, ESZ, esz);
2596
2597 tcg_gen_addi_ptr(t_p, cpu_env, pred_full_reg_offset(s, pg));
2598
2599 gen_helper_sve_last_active_element(ret, t_p, tcg_constant_i32(desc));
2600
2601 tcg_temp_free_ptr(t_p);
2602 }
2603
2604 /* Increment LAST to the offset of the next element in the vector,
2605 * wrapping around to 0.
2606 */
2607 static void incr_last_active(DisasContext *s, TCGv_i32 last, int esz)
2608 {
2609 unsigned vsz = vec_full_reg_size(s);
2610
2611 tcg_gen_addi_i32(last, last, 1 << esz);
2612 if (is_power_of_2(vsz)) {
2613 tcg_gen_andi_i32(last, last, vsz - 1);
2614 } else {
2615 TCGv_i32 max = tcg_constant_i32(vsz);
2616 TCGv_i32 zero = tcg_constant_i32(0);
2617 tcg_gen_movcond_i32(TCG_COND_GEU, last, last, max, zero, last);
2618 }
2619 }
2620
2621 /* If LAST < 0, set LAST to the offset of the last element in the vector. */
2622 static void wrap_last_active(DisasContext *s, TCGv_i32 last, int esz)
2623 {
2624 unsigned vsz = vec_full_reg_size(s);
2625
2626 if (is_power_of_2(vsz)) {
2627 tcg_gen_andi_i32(last, last, vsz - 1);
2628 } else {
2629 TCGv_i32 max = tcg_constant_i32(vsz - (1 << esz));
2630 TCGv_i32 zero = tcg_constant_i32(0);
2631 tcg_gen_movcond_i32(TCG_COND_LT, last, last, zero, max, last);
2632 }
2633 }
2634
2635 /* Load an unsigned element of ESZ from BASE+OFS. */
2636 static TCGv_i64 load_esz(TCGv_ptr base, int ofs, int esz)
2637 {
2638 TCGv_i64 r = tcg_temp_new_i64();
2639
2640 switch (esz) {
2641 case 0:
2642 tcg_gen_ld8u_i64(r, base, ofs);
2643 break;
2644 case 1:
2645 tcg_gen_ld16u_i64(r, base, ofs);
2646 break;
2647 case 2:
2648 tcg_gen_ld32u_i64(r, base, ofs);
2649 break;
2650 case 3:
2651 tcg_gen_ld_i64(r, base, ofs);
2652 break;
2653 default:
2654 g_assert_not_reached();
2655 }
2656 return r;
2657 }
2658
2659 /* Load an unsigned element of ESZ from RM[LAST]. */
2660 static TCGv_i64 load_last_active(DisasContext *s, TCGv_i32 last,
2661 int rm, int esz)
2662 {
2663 TCGv_ptr p = tcg_temp_new_ptr();
2664 TCGv_i64 r;
2665
2666 /* Convert offset into vector into offset into ENV.
2667 * The final adjustment for the vector register base
2668 * is added via constant offset to the load.
2669 */
2670 #if HOST_BIG_ENDIAN
2671 /* Adjust for element ordering. See vec_reg_offset. */
2672 if (esz < 3) {
2673 tcg_gen_xori_i32(last, last, 8 - (1 << esz));
2674 }
2675 #endif
2676 tcg_gen_ext_i32_ptr(p, last);
2677 tcg_gen_add_ptr(p, p, cpu_env);
2678
2679 r = load_esz(p, vec_full_reg_offset(s, rm), esz);
2680 tcg_temp_free_ptr(p);
2681
2682 return r;
2683 }
2684
2685 /* Compute CLAST for a Zreg. */
2686 static bool do_clast_vector(DisasContext *s, arg_rprr_esz *a, bool before)
2687 {
2688 TCGv_i32 last;
2689 TCGLabel *over;
2690 TCGv_i64 ele;
2691 unsigned vsz, esz = a->esz;
2692
2693 if (!sve_access_check(s)) {
2694 return true;
2695 }
2696
2697 last = tcg_temp_new_i32();
2698 over = gen_new_label();
2699
2700 find_last_active(s, last, esz, a->pg);
2701
2702 /* There is of course no movcond for a 2048-bit vector,
2703 * so we must branch over the actual store.
2704 */
2705 tcg_gen_brcondi_i32(TCG_COND_LT, last, 0, over);
2706
2707 if (!before) {
2708 incr_last_active(s, last, esz);
2709 }
2710
2711 ele = load_last_active(s, last, a->rm, esz);
2712 tcg_temp_free_i32(last);
2713
2714 vsz = vec_full_reg_size(s);
2715 tcg_gen_gvec_dup_i64(esz, vec_full_reg_offset(s, a->rd), vsz, vsz, ele);
2716 tcg_temp_free_i64(ele);
2717
2718 /* If this insn used MOVPRFX, we may need a second move. */
2719 if (a->rd != a->rn) {
2720 TCGLabel *done = gen_new_label();
2721 tcg_gen_br(done);
2722
2723 gen_set_label(over);
2724 do_mov_z(s, a->rd, a->rn);
2725
2726 gen_set_label(done);
2727 } else {
2728 gen_set_label(over);
2729 }
2730 return true;
2731 }
2732
2733 TRANS_FEAT(CLASTA_z, aa64_sve, do_clast_vector, a, false)
2734 TRANS_FEAT(CLASTB_z, aa64_sve, do_clast_vector, a, true)
2735
2736 /* Compute CLAST for a scalar. */
2737 static void do_clast_scalar(DisasContext *s, int esz, int pg, int rm,
2738 bool before, TCGv_i64 reg_val)
2739 {
2740 TCGv_i32 last = tcg_temp_new_i32();
2741 TCGv_i64 ele, cmp;
2742
2743 find_last_active(s, last, esz, pg);
2744
2745 /* Extend the original value of last prior to incrementing. */
2746 cmp = tcg_temp_new_i64();
2747 tcg_gen_ext_i32_i64(cmp, last);
2748
2749 if (!before) {
2750 incr_last_active(s, last, esz);
2751 }
2752
2753 /* The conceit here is that while last < 0 indicates not found, after
2754 * adjusting for cpu_env->vfp.zregs[rm], it is still a valid address
2755 * from which we can load garbage. We then discard the garbage with
2756 * a conditional move.
2757 */
2758 ele = load_last_active(s, last, rm, esz);
2759 tcg_temp_free_i32(last);
2760
2761 tcg_gen_movcond_i64(TCG_COND_GE, reg_val, cmp, tcg_constant_i64(0),
2762 ele, reg_val);
2763
2764 tcg_temp_free_i64(cmp);
2765 tcg_temp_free_i64(ele);
2766 }
2767
2768 /* Compute CLAST for a Vreg. */
2769 static bool do_clast_fp(DisasContext *s, arg_rpr_esz *a, bool before)
2770 {
2771 if (sve_access_check(s)) {
2772 int esz = a->esz;
2773 int ofs = vec_reg_offset(s, a->rd, 0, esz);
2774 TCGv_i64 reg = load_esz(cpu_env, ofs, esz);
2775
2776 do_clast_scalar(s, esz, a->pg, a->rn, before, reg);
2777 write_fp_dreg(s, a->rd, reg);
2778 tcg_temp_free_i64(reg);
2779 }
2780 return true;
2781 }
2782
2783 TRANS_FEAT(CLASTA_v, aa64_sve, do_clast_fp, a, false)
2784 TRANS_FEAT(CLASTB_v, aa64_sve, do_clast_fp, a, true)
2785
2786 /* Compute CLAST for a Xreg. */
2787 static bool do_clast_general(DisasContext *s, arg_rpr_esz *a, bool before)
2788 {
2789 TCGv_i64 reg;
2790
2791 if (!sve_access_check(s)) {
2792 return true;
2793 }
2794
2795 reg = cpu_reg(s, a->rd);
2796 switch (a->esz) {
2797 case 0:
2798 tcg_gen_ext8u_i64(reg, reg);
2799 break;
2800 case 1:
2801 tcg_gen_ext16u_i64(reg, reg);
2802 break;
2803 case 2:
2804 tcg_gen_ext32u_i64(reg, reg);
2805 break;
2806 case 3:
2807 break;
2808 default:
2809 g_assert_not_reached();
2810 }
2811
2812 do_clast_scalar(s, a->esz, a->pg, a->rn, before, reg);
2813 return true;
2814 }
2815
2816 TRANS_FEAT(CLASTA_r, aa64_sve, do_clast_general, a, false)
2817 TRANS_FEAT(CLASTB_r, aa64_sve, do_clast_general, a, true)
2818
2819 /* Compute LAST for a scalar. */
2820 static TCGv_i64 do_last_scalar(DisasContext *s, int esz,
2821 int pg, int rm, bool before)
2822 {
2823 TCGv_i32 last = tcg_temp_new_i32();
2824 TCGv_i64 ret;
2825
2826 find_last_active(s, last, esz, pg);
2827 if (before) {
2828 wrap_last_active(s, last, esz);
2829 } else {
2830 incr_last_active(s, last, esz);
2831 }
2832
2833 ret = load_last_active(s, last, rm, esz);
2834 tcg_temp_free_i32(last);
2835 return ret;
2836 }
2837
2838 /* Compute LAST for a Vreg. */
2839 static bool do_last_fp(DisasContext *s, arg_rpr_esz *a, bool before)
2840 {
2841 if (sve_access_check(s)) {
2842 TCGv_i64 val = do_last_scalar(s, a->esz, a->pg, a->rn, before);
2843 write_fp_dreg(s, a->rd, val);
2844 tcg_temp_free_i64(val);
2845 }
2846 return true;
2847 }
2848
2849 TRANS_FEAT(LASTA_v, aa64_sve, do_last_fp, a, false)
2850 TRANS_FEAT(LASTB_v, aa64_sve, do_last_fp, a, true)
2851
2852 /* Compute LAST for a Xreg. */
2853 static bool do_last_general(DisasContext *s, arg_rpr_esz *a, bool before)
2854 {
2855 if (sve_access_check(s)) {
2856 TCGv_i64 val = do_last_scalar(s, a->esz, a->pg, a->rn, before);
2857 tcg_gen_mov_i64(cpu_reg(s, a->rd), val);
2858 tcg_temp_free_i64(val);
2859 }
2860 return true;
2861 }
2862
2863 TRANS_FEAT(LASTA_r, aa64_sve, do_last_general, a, false)
2864 TRANS_FEAT(LASTB_r, aa64_sve, do_last_general, a, true)
2865
2866 static bool trans_CPY_m_r(DisasContext *s, arg_rpr_esz *a)
2867 {
2868 if (!dc_isar_feature(aa64_sve, s)) {
2869 return false;
2870 }
2871 if (sve_access_check(s)) {
2872 do_cpy_m(s, a->esz, a->rd, a->rd, a->pg, cpu_reg_sp(s, a->rn));
2873 }
2874 return true;
2875 }
2876
2877 static bool trans_CPY_m_v(DisasContext *s, arg_rpr_esz *a)
2878 {
2879 if (!dc_isar_feature(aa64_sve, s)) {
2880 return false;
2881 }
2882 if (sve_access_check(s)) {
2883 int ofs = vec_reg_offset(s, a->rn, 0, a->esz);
2884 TCGv_i64 t = load_esz(cpu_env, ofs, a->esz);
2885 do_cpy_m(s, a->esz, a->rd, a->rd, a->pg, t);
2886 tcg_temp_free_i64(t);
2887 }
2888 return true;
2889 }
2890
2891 static gen_helper_gvec_3 * const revb_fns[4] = {
2892 NULL, gen_helper_sve_revb_h,
2893 gen_helper_sve_revb_s, gen_helper_sve_revb_d,
2894 };
2895 TRANS_FEAT(REVB, aa64_sve, gen_gvec_ool_arg_zpz, revb_fns[a->esz], a, 0)
2896
2897 static gen_helper_gvec_3 * const revh_fns[4] = {
2898 NULL, NULL, gen_helper_sve_revh_s, gen_helper_sve_revh_d,
2899 };
2900 TRANS_FEAT(REVH, aa64_sve, gen_gvec_ool_arg_zpz, revh_fns[a->esz], a, 0)
2901
2902 TRANS_FEAT(REVW, aa64_sve, gen_gvec_ool_arg_zpz,
2903 a->esz == 3 ? gen_helper_sve_revw_d : NULL, a, 0)
2904
2905 TRANS_FEAT(REVD, aa64_sme, gen_gvec_ool_arg_zpz, gen_helper_sme_revd_q, a, 0)
2906
2907 TRANS_FEAT(SPLICE, aa64_sve, gen_gvec_ool_arg_zpzz,
2908 gen_helper_sve_splice, a, a->esz)
2909
2910 TRANS_FEAT(SPLICE_sve2, aa64_sve2, gen_gvec_ool_zzzp, gen_helper_sve_splice,
2911 a->rd, a->rn, (a->rn + 1) % 32, a->pg, a->esz)
2912
2913 /*
2914 *** SVE Integer Compare - Vectors Group
2915 */
2916
2917 static bool do_ppzz_flags(DisasContext *s, arg_rprr_esz *a,
2918 gen_helper_gvec_flags_4 *gen_fn)
2919 {
2920 TCGv_ptr pd, zn, zm, pg;
2921 unsigned vsz;
2922 TCGv_i32 t;
2923
2924 if (gen_fn == NULL) {
2925 return false;
2926 }
2927 if (!sve_access_check(s)) {
2928 return true;
2929 }
2930
2931 vsz = vec_full_reg_size(s);
2932 t = tcg_temp_new_i32();
2933 pd = tcg_temp_new_ptr();
2934 zn = tcg_temp_new_ptr();
2935 zm = tcg_temp_new_ptr();
2936 pg = tcg_temp_new_ptr();
2937
2938 tcg_gen_addi_ptr(pd, cpu_env, pred_full_reg_offset(s, a->rd));
2939 tcg_gen_addi_ptr(zn, cpu_env, vec_full_reg_offset(s, a->rn));
2940 tcg_gen_addi_ptr(zm, cpu_env, vec_full_reg_offset(s, a->rm));
2941 tcg_gen_addi_ptr(pg, cpu_env, pred_full_reg_offset(s, a->pg));
2942
2943 gen_fn(t, pd, zn, zm, pg, tcg_constant_i32(simd_desc(vsz, vsz, 0)));
2944
2945 tcg_temp_free_ptr(pd);
2946 tcg_temp_free_ptr(zn);
2947 tcg_temp_free_ptr(zm);
2948 tcg_temp_free_ptr(pg);
2949
2950 do_pred_flags(t);
2951
2952 tcg_temp_free_i32(t);
2953 return true;
2954 }
2955
2956 #define DO_PPZZ(NAME, name) \
2957 static gen_helper_gvec_flags_4 * const name##_ppzz_fns[4] = { \
2958 gen_helper_sve_##name##_ppzz_b, gen_helper_sve_##name##_ppzz_h, \
2959 gen_helper_sve_##name##_ppzz_s, gen_helper_sve_##name##_ppzz_d, \
2960 }; \
2961 TRANS_FEAT(NAME##_ppzz, aa64_sve, do_ppzz_flags, \
2962 a, name##_ppzz_fns[a->esz])
2963
2964 DO_PPZZ(CMPEQ, cmpeq)
2965 DO_PPZZ(CMPNE, cmpne)
2966 DO_PPZZ(CMPGT, cmpgt)
2967 DO_PPZZ(CMPGE, cmpge)
2968 DO_PPZZ(CMPHI, cmphi)
2969 DO_PPZZ(CMPHS, cmphs)
2970
2971 #undef DO_PPZZ
2972
2973 #define DO_PPZW(NAME, name) \
2974 static gen_helper_gvec_flags_4 * const name##_ppzw_fns[4] = { \
2975 gen_helper_sve_##name##_ppzw_b, gen_helper_sve_##name##_ppzw_h, \
2976 gen_helper_sve_##name##_ppzw_s, NULL \
2977 }; \
2978 TRANS_FEAT(NAME##_ppzw, aa64_sve, do_ppzz_flags, \
2979 a, name##_ppzw_fns[a->esz])
2980
2981 DO_PPZW(CMPEQ, cmpeq)
2982 DO_PPZW(CMPNE, cmpne)
2983 DO_PPZW(CMPGT, cmpgt)
2984 DO_PPZW(CMPGE, cmpge)
2985 DO_PPZW(CMPHI, cmphi)
2986 DO_PPZW(CMPHS, cmphs)
2987 DO_PPZW(CMPLT, cmplt)
2988 DO_PPZW(CMPLE, cmple)
2989 DO_PPZW(CMPLO, cmplo)
2990 DO_PPZW(CMPLS, cmpls)
2991
2992 #undef DO_PPZW
2993
2994 /*
2995 *** SVE Integer Compare - Immediate Groups
2996 */
2997
2998 static bool do_ppzi_flags(DisasContext *s, arg_rpri_esz *a,
2999 gen_helper_gvec_flags_3 *gen_fn)
3000 {
3001 TCGv_ptr pd, zn, pg;
3002 unsigned vsz;
3003 TCGv_i32 t;
3004
3005 if (gen_fn == NULL) {
3006 return false;
3007 }
3008 if (!sve_access_check(s)) {
3009 return true;
3010 }
3011
3012 vsz = vec_full_reg_size(s);
3013 t = tcg_temp_new_i32();
3014 pd = tcg_temp_new_ptr();
3015 zn = tcg_temp_new_ptr();
3016 pg = tcg_temp_new_ptr();
3017
3018 tcg_gen_addi_ptr(pd, cpu_env, pred_full_reg_offset(s, a->rd));
3019 tcg_gen_addi_ptr(zn, cpu_env, vec_full_reg_offset(s, a->rn));
3020 tcg_gen_addi_ptr(pg, cpu_env, pred_full_reg_offset(s, a->pg));
3021
3022 gen_fn(t, pd, zn, pg, tcg_constant_i32(simd_desc(vsz, vsz, a->imm)));
3023
3024 tcg_temp_free_ptr(pd);
3025 tcg_temp_free_ptr(zn);
3026 tcg_temp_free_ptr(pg);
3027
3028 do_pred_flags(t);
3029
3030 tcg_temp_free_i32(t);
3031 return true;
3032 }
3033
3034 #define DO_PPZI(NAME, name) \
3035 static gen_helper_gvec_flags_3 * const name##_ppzi_fns[4] = { \
3036 gen_helper_sve_##name##_ppzi_b, gen_helper_sve_##name##_ppzi_h, \
3037 gen_helper_sve_##name##_ppzi_s, gen_helper_sve_##name##_ppzi_d, \
3038 }; \
3039 TRANS_FEAT(NAME##_ppzi, aa64_sve, do_ppzi_flags, a, \
3040 name##_ppzi_fns[a->esz])
3041
3042 DO_PPZI(CMPEQ, cmpeq)
3043 DO_PPZI(CMPNE, cmpne)
3044 DO_PPZI(CMPGT, cmpgt)
3045 DO_PPZI(CMPGE, cmpge)
3046 DO_PPZI(CMPHI, cmphi)
3047 DO_PPZI(CMPHS, cmphs)
3048 DO_PPZI(CMPLT, cmplt)
3049 DO_PPZI(CMPLE, cmple)
3050 DO_PPZI(CMPLO, cmplo)
3051 DO_PPZI(CMPLS, cmpls)
3052
3053 #undef DO_PPZI
3054
3055 /*
3056 *** SVE Partition Break Group
3057 */
3058
3059 static bool do_brk3(DisasContext *s, arg_rprr_s *a,
3060 gen_helper_gvec_4 *fn, gen_helper_gvec_flags_4 *fn_s)
3061 {
3062 if (!sve_access_check(s)) {
3063 return true;
3064 }
3065
3066 unsigned vsz = pred_full_reg_size(s);
3067
3068 /* Predicate sizes may be smaller and cannot use simd_desc. */
3069 TCGv_ptr d = tcg_temp_new_ptr();
3070 TCGv_ptr n = tcg_temp_new_ptr();
3071 TCGv_ptr m = tcg_temp_new_ptr();
3072 TCGv_ptr g = tcg_temp_new_ptr();
3073 TCGv_i32 desc = tcg_constant_i32(FIELD_DP32(0, PREDDESC, OPRSZ, vsz));
3074
3075 tcg_gen_addi_ptr(d, cpu_env, pred_full_reg_offset(s, a->rd));
3076 tcg_gen_addi_ptr(n, cpu_env, pred_full_reg_offset(s, a->rn));
3077 tcg_gen_addi_ptr(m, cpu_env, pred_full_reg_offset(s, a->rm));
3078 tcg_gen_addi_ptr(g, cpu_env, pred_full_reg_offset(s, a->pg));
3079
3080 if (a->s) {
3081 TCGv_i32 t = tcg_temp_new_i32();
3082 fn_s(t, d, n, m, g, desc);
3083 do_pred_flags(t);
3084 tcg_temp_free_i32(t);
3085 } else {
3086 fn(d, n, m, g, desc);
3087 }
3088 tcg_temp_free_ptr(d);
3089 tcg_temp_free_ptr(n);
3090 tcg_temp_free_ptr(m);
3091 tcg_temp_free_ptr(g);
3092 return true;
3093 }
3094
3095 static bool do_brk2(DisasContext *s, arg_rpr_s *a,
3096 gen_helper_gvec_3 *fn, gen_helper_gvec_flags_3 *fn_s)
3097 {
3098 if (!sve_access_check(s)) {
3099 return true;
3100 }
3101
3102 unsigned vsz = pred_full_reg_size(s);
3103
3104 /* Predicate sizes may be smaller and cannot use simd_desc. */
3105 TCGv_ptr d = tcg_temp_new_ptr();
3106 TCGv_ptr n = tcg_temp_new_ptr();
3107 TCGv_ptr g = tcg_temp_new_ptr();
3108 TCGv_i32 desc = tcg_constant_i32(FIELD_DP32(0, PREDDESC, OPRSZ, vsz));
3109
3110 tcg_gen_addi_ptr(d, cpu_env, pred_full_reg_offset(s, a->rd));
3111 tcg_gen_addi_ptr(n, cpu_env, pred_full_reg_offset(s, a->rn));
3112 tcg_gen_addi_ptr(g, cpu_env, pred_full_reg_offset(s, a->pg));
3113
3114 if (a->s) {
3115 TCGv_i32 t = tcg_temp_new_i32();
3116 fn_s(t, d, n, g, desc);
3117 do_pred_flags(t);
3118 tcg_temp_free_i32(t);
3119 } else {
3120 fn(d, n, g, desc);
3121 }
3122 tcg_temp_free_ptr(d);
3123 tcg_temp_free_ptr(n);
3124 tcg_temp_free_ptr(g);
3125 return true;
3126 }
3127
3128 TRANS_FEAT(BRKPA, aa64_sve, do_brk3, a,
3129 gen_helper_sve_brkpa, gen_helper_sve_brkpas)
3130 TRANS_FEAT(BRKPB, aa64_sve, do_brk3, a,
3131 gen_helper_sve_brkpb, gen_helper_sve_brkpbs)
3132
3133 TRANS_FEAT(BRKA_m, aa64_sve, do_brk2, a,
3134 gen_helper_sve_brka_m, gen_helper_sve_brkas_m)
3135 TRANS_FEAT(BRKB_m, aa64_sve, do_brk2, a,
3136 gen_helper_sve_brkb_m, gen_helper_sve_brkbs_m)
3137
3138 TRANS_FEAT(BRKA_z, aa64_sve, do_brk2, a,
3139 gen_helper_sve_brka_z, gen_helper_sve_brkas_z)
3140 TRANS_FEAT(BRKB_z, aa64_sve, do_brk2, a,
3141 gen_helper_sve_brkb_z, gen_helper_sve_brkbs_z)
3142
3143 TRANS_FEAT(BRKN, aa64_sve, do_brk2, a,
3144 gen_helper_sve_brkn, gen_helper_sve_brkns)
3145
3146 /*
3147 *** SVE Predicate Count Group
3148 */
3149
3150 static void do_cntp(DisasContext *s, TCGv_i64 val, int esz, int pn, int pg)
3151 {
3152 unsigned psz = pred_full_reg_size(s);
3153
3154 if (psz <= 8) {
3155 uint64_t psz_mask;
3156
3157 tcg_gen_ld_i64(val, cpu_env, pred_full_reg_offset(s, pn));
3158 if (pn != pg) {
3159 TCGv_i64 g = tcg_temp_new_i64();
3160 tcg_gen_ld_i64(g, cpu_env, pred_full_reg_offset(s, pg));
3161 tcg_gen_and_i64(val, val, g);
3162 tcg_temp_free_i64(g);
3163 }
3164
3165 /* Reduce the pred_esz_masks value simply to reduce the
3166 * size of the code generated here.
3167 */
3168 psz_mask = MAKE_64BIT_MASK(0, psz * 8);
3169 tcg_gen_andi_i64(val, val, pred_esz_masks[esz] & psz_mask);
3170
3171 tcg_gen_ctpop_i64(val, val);
3172 } else {
3173 TCGv_ptr t_pn = tcg_temp_new_ptr();
3174 TCGv_ptr t_pg = tcg_temp_new_ptr();
3175 unsigned desc = 0;
3176
3177 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, psz);
3178 desc = FIELD_DP32(desc, PREDDESC, ESZ, esz);
3179
3180 tcg_gen_addi_ptr(t_pn, cpu_env, pred_full_reg_offset(s, pn));
3181 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, pg));
3182
3183 gen_helper_sve_cntp(val, t_pn, t_pg, tcg_constant_i32(desc));
3184 tcg_temp_free_ptr(t_pn);
3185 tcg_temp_free_ptr(t_pg);
3186 }
3187 }
3188
3189 static bool trans_CNTP(DisasContext *s, arg_CNTP *a)
3190 {
3191 if (!dc_isar_feature(aa64_sve, s)) {
3192 return false;
3193 }
3194 if (sve_access_check(s)) {
3195 do_cntp(s, cpu_reg(s, a->rd), a->esz, a->rn, a->pg);
3196 }
3197 return true;
3198 }
3199
3200 static bool trans_INCDECP_r(DisasContext *s, arg_incdec_pred *a)
3201 {
3202 if (!dc_isar_feature(aa64_sve, s)) {
3203 return false;
3204 }
3205 if (sve_access_check(s)) {
3206 TCGv_i64 reg = cpu_reg(s, a->rd);
3207 TCGv_i64 val = tcg_temp_new_i64();
3208
3209 do_cntp(s, val, a->esz, a->pg, a->pg);
3210 if (a->d) {
3211 tcg_gen_sub_i64(reg, reg, val);
3212 } else {
3213 tcg_gen_add_i64(reg, reg, val);
3214 }
3215 tcg_temp_free_i64(val);
3216 }
3217 return true;
3218 }
3219
3220 static bool trans_INCDECP_z(DisasContext *s, arg_incdec2_pred *a)
3221 {
3222 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
3223 return false;
3224 }
3225 if (sve_access_check(s)) {
3226 unsigned vsz = vec_full_reg_size(s);
3227 TCGv_i64 val = tcg_temp_new_i64();
3228 GVecGen2sFn *gvec_fn = a->d ? tcg_gen_gvec_subs : tcg_gen_gvec_adds;
3229
3230 do_cntp(s, val, a->esz, a->pg, a->pg);
3231 gvec_fn(a->esz, vec_full_reg_offset(s, a->rd),
3232 vec_full_reg_offset(s, a->rn), val, vsz, vsz);
3233 }
3234 return true;
3235 }
3236
3237 static bool trans_SINCDECP_r_32(DisasContext *s, arg_incdec_pred *a)
3238 {
3239 if (!dc_isar_feature(aa64_sve, s)) {
3240 return false;
3241 }
3242 if (sve_access_check(s)) {
3243 TCGv_i64 reg = cpu_reg(s, a->rd);
3244 TCGv_i64 val = tcg_temp_new_i64();
3245
3246 do_cntp(s, val, a->esz, a->pg, a->pg);
3247 do_sat_addsub_32(reg, val, a->u, a->d);
3248 }
3249 return true;
3250 }
3251
3252 static bool trans_SINCDECP_r_64(DisasContext *s, arg_incdec_pred *a)
3253 {
3254 if (!dc_isar_feature(aa64_sve, s)) {
3255 return false;
3256 }
3257 if (sve_access_check(s)) {
3258 TCGv_i64 reg = cpu_reg(s, a->rd);
3259 TCGv_i64 val = tcg_temp_new_i64();
3260
3261 do_cntp(s, val, a->esz, a->pg, a->pg);
3262 do_sat_addsub_64(reg, val, a->u, a->d);
3263 }
3264 return true;
3265 }
3266
3267 static bool trans_SINCDECP_z(DisasContext *s, arg_incdec2_pred *a)
3268 {
3269 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
3270 return false;
3271 }
3272 if (sve_access_check(s)) {
3273 TCGv_i64 val = tcg_temp_new_i64();
3274 do_cntp(s, val, a->esz, a->pg, a->pg);
3275 do_sat_addsub_vec(s, a->esz, a->rd, a->rn, val, a->u, a->d);
3276 }
3277 return true;
3278 }
3279
3280 /*
3281 *** SVE Integer Compare Scalars Group
3282 */
3283
3284 static bool trans_CTERM(DisasContext *s, arg_CTERM *a)
3285 {
3286 if (!dc_isar_feature(aa64_sve, s)) {
3287 return false;
3288 }
3289 if (!sve_access_check(s)) {
3290 return true;
3291 }
3292
3293 TCGCond cond = (a->ne ? TCG_COND_NE : TCG_COND_EQ);
3294 TCGv_i64 rn = read_cpu_reg(s, a->rn, a->sf);
3295 TCGv_i64 rm = read_cpu_reg(s, a->rm, a->sf);
3296 TCGv_i64 cmp = tcg_temp_new_i64();
3297
3298 tcg_gen_setcond_i64(cond, cmp, rn, rm);
3299 tcg_gen_extrl_i64_i32(cpu_NF, cmp);
3300 tcg_temp_free_i64(cmp);
3301
3302 /* VF = !NF & !CF. */
3303 tcg_gen_xori_i32(cpu_VF, cpu_NF, 1);
3304 tcg_gen_andc_i32(cpu_VF, cpu_VF, cpu_CF);
3305
3306 /* Both NF and VF actually look at bit 31. */
3307 tcg_gen_neg_i32(cpu_NF, cpu_NF);
3308 tcg_gen_neg_i32(cpu_VF, cpu_VF);
3309 return true;
3310 }
3311
3312 static bool trans_WHILE(DisasContext *s, arg_WHILE *a)
3313 {
3314 TCGv_i64 op0, op1, t0, t1, tmax;
3315 TCGv_i32 t2;
3316 TCGv_ptr ptr;
3317 unsigned vsz = vec_full_reg_size(s);
3318 unsigned desc = 0;
3319 TCGCond cond;
3320 uint64_t maxval;
3321 /* Note that GE/HS has a->eq == 0 and GT/HI has a->eq == 1. */
3322 bool eq = a->eq == a->lt;
3323
3324 /* The greater-than conditions are all SVE2. */
3325 if (a->lt
3326 ? !dc_isar_feature(aa64_sve, s)
3327 : !dc_isar_feature(aa64_sve2, s)) {
3328 return false;
3329 }
3330 if (!sve_access_check(s)) {
3331 return true;
3332 }
3333
3334 op0 = read_cpu_reg(s, a->rn, 1);
3335 op1 = read_cpu_reg(s, a->rm, 1);
3336
3337 if (!a->sf) {
3338 if (a->u) {
3339 tcg_gen_ext32u_i64(op0, op0);
3340 tcg_gen_ext32u_i64(op1, op1);
3341 } else {
3342 tcg_gen_ext32s_i64(op0, op0);
3343 tcg_gen_ext32s_i64(op1, op1);
3344 }
3345 }
3346
3347 /* For the helper, compress the different conditions into a computation
3348 * of how many iterations for which the condition is true.
3349 */
3350 t0 = tcg_temp_new_i64();
3351 t1 = tcg_temp_new_i64();
3352
3353 if (a->lt) {
3354 tcg_gen_sub_i64(t0, op1, op0);
3355 if (a->u) {
3356 maxval = a->sf ? UINT64_MAX : UINT32_MAX;
3357 cond = eq ? TCG_COND_LEU : TCG_COND_LTU;
3358 } else {
3359 maxval = a->sf ? INT64_MAX : INT32_MAX;
3360 cond = eq ? TCG_COND_LE : TCG_COND_LT;
3361 }
3362 } else {
3363 tcg_gen_sub_i64(t0, op0, op1);
3364 if (a->u) {
3365 maxval = 0;
3366 cond = eq ? TCG_COND_GEU : TCG_COND_GTU;
3367 } else {
3368 maxval = a->sf ? INT64_MIN : INT32_MIN;
3369 cond = eq ? TCG_COND_GE : TCG_COND_GT;
3370 }
3371 }
3372
3373 tmax = tcg_constant_i64(vsz >> a->esz);
3374 if (eq) {
3375 /* Equality means one more iteration. */
3376 tcg_gen_addi_i64(t0, t0, 1);
3377
3378 /*
3379 * For the less-than while, if op1 is maxval (and the only time
3380 * the addition above could overflow), then we produce an all-true
3381 * predicate by setting the count to the vector length. This is
3382 * because the pseudocode is described as an increment + compare
3383 * loop, and the maximum integer would always compare true.
3384 * Similarly, the greater-than while has the same issue with the
3385 * minimum integer due to the decrement + compare loop.
3386 */
3387 tcg_gen_movi_i64(t1, maxval);
3388 tcg_gen_movcond_i64(TCG_COND_EQ, t0, op1, t1, tmax, t0);
3389 }
3390
3391 /* Bound to the maximum. */
3392 tcg_gen_umin_i64(t0, t0, tmax);
3393
3394 /* Set the count to zero if the condition is false. */
3395 tcg_gen_movi_i64(t1, 0);
3396 tcg_gen_movcond_i64(cond, t0, op0, op1, t0, t1);
3397 tcg_temp_free_i64(t1);
3398
3399 /* Since we're bounded, pass as a 32-bit type. */
3400 t2 = tcg_temp_new_i32();
3401 tcg_gen_extrl_i64_i32(t2, t0);
3402 tcg_temp_free_i64(t0);
3403
3404 /* Scale elements to bits. */
3405 tcg_gen_shli_i32(t2, t2, a->esz);
3406
3407 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, vsz / 8);
3408 desc = FIELD_DP32(desc, PREDDESC, ESZ, a->esz);
3409
3410 ptr = tcg_temp_new_ptr();
3411 tcg_gen_addi_ptr(ptr, cpu_env, pred_full_reg_offset(s, a->rd));
3412
3413 if (a->lt) {
3414 gen_helper_sve_whilel(t2, ptr, t2, tcg_constant_i32(desc));
3415 } else {
3416 gen_helper_sve_whileg(t2, ptr, t2, tcg_constant_i32(desc));
3417 }
3418 do_pred_flags(t2);
3419
3420 tcg_temp_free_ptr(ptr);
3421 tcg_temp_free_i32(t2);
3422 return true;
3423 }
3424
3425 static bool trans_WHILE_ptr(DisasContext *s, arg_WHILE_ptr *a)
3426 {
3427 TCGv_i64 op0, op1, diff, t1, tmax;
3428 TCGv_i32 t2;
3429 TCGv_ptr ptr;
3430 unsigned vsz = vec_full_reg_size(s);
3431 unsigned desc = 0;
3432
3433 if (!dc_isar_feature(aa64_sve2, s)) {
3434 return false;
3435 }
3436 if (!sve_access_check(s)) {
3437 return true;
3438 }
3439
3440 op0 = read_cpu_reg(s, a->rn, 1);
3441 op1 = read_cpu_reg(s, a->rm, 1);
3442
3443 tmax = tcg_constant_i64(vsz);
3444 diff = tcg_temp_new_i64();
3445
3446 if (a->rw) {
3447 /* WHILERW */
3448 /* diff = abs(op1 - op0), noting that op0/1 are unsigned. */
3449 t1 = tcg_temp_new_i64();
3450 tcg_gen_sub_i64(diff, op0, op1);
3451 tcg_gen_sub_i64(t1, op1, op0);
3452 tcg_gen_movcond_i64(TCG_COND_GEU, diff, op0, op1, diff, t1);
3453 tcg_temp_free_i64(t1);
3454 /* Round down to a multiple of ESIZE. */
3455 tcg_gen_andi_i64(diff, diff, -1 << a->esz);
3456 /* If op1 == op0, diff == 0, and the condition is always true. */
3457 tcg_gen_movcond_i64(TCG_COND_EQ, diff, op0, op1, tmax, diff);
3458 } else {
3459 /* WHILEWR */
3460 tcg_gen_sub_i64(diff, op1, op0);
3461 /* Round down to a multiple of ESIZE. */
3462 tcg_gen_andi_i64(diff, diff, -1 << a->esz);
3463 /* If op0 >= op1, diff <= 0, the condition is always true. */
3464 tcg_gen_movcond_i64(TCG_COND_GEU, diff, op0, op1, tmax, diff);
3465 }
3466
3467 /* Bound to the maximum. */
3468 tcg_gen_umin_i64(diff, diff, tmax);
3469
3470 /* Since we're bounded, pass as a 32-bit type. */
3471 t2 = tcg_temp_new_i32();
3472 tcg_gen_extrl_i64_i32(t2, diff);
3473 tcg_temp_free_i64(diff);
3474
3475 desc = FIELD_DP32(desc, PREDDESC, OPRSZ, vsz / 8);
3476 desc = FIELD_DP32(desc, PREDDESC, ESZ, a->esz);
3477
3478 ptr = tcg_temp_new_ptr();
3479 tcg_gen_addi_ptr(ptr, cpu_env, pred_full_reg_offset(s, a->rd));
3480
3481 gen_helper_sve_whilel(t2, ptr, t2, tcg_constant_i32(desc));
3482 do_pred_flags(t2);
3483
3484 tcg_temp_free_ptr(ptr);
3485 tcg_temp_free_i32(t2);
3486 return true;
3487 }
3488
3489 /*
3490 *** SVE Integer Wide Immediate - Unpredicated Group
3491 */
3492
3493 static bool trans_FDUP(DisasContext *s, arg_FDUP *a)
3494 {
3495 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
3496 return false;
3497 }
3498 if (sve_access_check(s)) {
3499 unsigned vsz = vec_full_reg_size(s);
3500 int dofs = vec_full_reg_offset(s, a->rd);
3501 uint64_t imm;
3502
3503 /* Decode the VFP immediate. */
3504 imm = vfp_expand_imm(a->esz, a->imm);
3505 tcg_gen_gvec_dup_imm(a->esz, dofs, vsz, vsz, imm);
3506 }
3507 return true;
3508 }
3509
3510 static bool trans_DUP_i(DisasContext *s, arg_DUP_i *a)
3511 {
3512 if (!dc_isar_feature(aa64_sve, s)) {
3513 return false;
3514 }
3515 if (sve_access_check(s)) {
3516 unsigned vsz = vec_full_reg_size(s);
3517 int dofs = vec_full_reg_offset(s, a->rd);
3518 tcg_gen_gvec_dup_imm(a->esz, dofs, vsz, vsz, a->imm);
3519 }
3520 return true;
3521 }
3522
3523 TRANS_FEAT(ADD_zzi, aa64_sve, gen_gvec_fn_arg_zzi, tcg_gen_gvec_addi, a)
3524
3525 static bool trans_SUB_zzi(DisasContext *s, arg_rri_esz *a)
3526 {
3527 a->imm = -a->imm;
3528 return trans_ADD_zzi(s, a);
3529 }
3530
3531 static bool trans_SUBR_zzi(DisasContext *s, arg_rri_esz *a)
3532 {
3533 static const TCGOpcode vecop_list[] = { INDEX_op_sub_vec, 0 };
3534 static const GVecGen2s op[4] = {
3535 { .fni8 = tcg_gen_vec_sub8_i64,
3536 .fniv = tcg_gen_sub_vec,
3537 .fno = gen_helper_sve_subri_b,
3538 .opt_opc = vecop_list,
3539 .vece = MO_8,
3540 .scalar_first = true },
3541 { .fni8 = tcg_gen_vec_sub16_i64,
3542 .fniv = tcg_gen_sub_vec,
3543 .fno = gen_helper_sve_subri_h,
3544 .opt_opc = vecop_list,
3545 .vece = MO_16,
3546 .scalar_first = true },
3547 { .fni4 = tcg_gen_sub_i32,
3548 .fniv = tcg_gen_sub_vec,
3549 .fno = gen_helper_sve_subri_s,
3550 .opt_opc = vecop_list,
3551 .vece = MO_32,
3552 .scalar_first = true },
3553 { .fni8 = tcg_gen_sub_i64,
3554 .fniv = tcg_gen_sub_vec,
3555 .fno = gen_helper_sve_subri_d,
3556 .opt_opc = vecop_list,
3557 .prefer_i64 = TCG_TARGET_REG_BITS == 64,
3558 .vece = MO_64,
3559 .scalar_first = true }
3560 };
3561
3562 if (!dc_isar_feature(aa64_sve, s)) {
3563 return false;
3564 }
3565 if (sve_access_check(s)) {
3566 unsigned vsz = vec_full_reg_size(s);
3567 tcg_gen_gvec_2s(vec_full_reg_offset(s, a->rd),
3568 vec_full_reg_offset(s, a->rn),
3569 vsz, vsz, tcg_constant_i64(a->imm), &op[a->esz]);
3570 }
3571 return true;
3572 }
3573
3574 TRANS_FEAT(MUL_zzi, aa64_sve, gen_gvec_fn_arg_zzi, tcg_gen_gvec_muli, a)
3575
3576 static bool do_zzi_sat(DisasContext *s, arg_rri_esz *a, bool u, bool d)
3577 {
3578 if (sve_access_check(s)) {
3579 do_sat_addsub_vec(s, a->esz, a->rd, a->rn,
3580 tcg_constant_i64(a->imm), u, d);
3581 }
3582 return true;
3583 }
3584
3585 TRANS_FEAT(SQADD_zzi, aa64_sve, do_zzi_sat, a, false, false)
3586 TRANS_FEAT(UQADD_zzi, aa64_sve, do_zzi_sat, a, true, false)
3587 TRANS_FEAT(SQSUB_zzi, aa64_sve, do_zzi_sat, a, false, true)
3588 TRANS_FEAT(UQSUB_zzi, aa64_sve, do_zzi_sat, a, true, true)
3589
3590 static bool do_zzi_ool(DisasContext *s, arg_rri_esz *a, gen_helper_gvec_2i *fn)
3591 {
3592 if (sve_access_check(s)) {
3593 unsigned vsz = vec_full_reg_size(s);
3594 tcg_gen_gvec_2i_ool(vec_full_reg_offset(s, a->rd),
3595 vec_full_reg_offset(s, a->rn),
3596 tcg_constant_i64(a->imm), vsz, vsz, 0, fn);
3597 }
3598 return true;
3599 }
3600
3601 #define DO_ZZI(NAME, name) \
3602 static gen_helper_gvec_2i * const name##i_fns[4] = { \
3603 gen_helper_sve_##name##i_b, gen_helper_sve_##name##i_h, \
3604 gen_helper_sve_##name##i_s, gen_helper_sve_##name##i_d, \
3605 }; \
3606 TRANS_FEAT(NAME##_zzi, aa64_sve, do_zzi_ool, a, name##i_fns[a->esz])
3607
3608 DO_ZZI(SMAX, smax)
3609 DO_ZZI(UMAX, umax)
3610 DO_ZZI(SMIN, smin)
3611 DO_ZZI(UMIN, umin)
3612
3613 #undef DO_ZZI
3614
3615 static gen_helper_gvec_4 * const dot_fns[2][2] = {
3616 { gen_helper_gvec_sdot_b, gen_helper_gvec_sdot_h },
3617 { gen_helper_gvec_udot_b, gen_helper_gvec_udot_h }
3618 };
3619 TRANS_FEAT(DOT_zzzz, aa64_sve, gen_gvec_ool_zzzz,
3620 dot_fns[a->u][a->sz], a->rd, a->rn, a->rm, a->ra, 0)
3621
3622 /*
3623 * SVE Multiply - Indexed
3624 */
3625
3626 TRANS_FEAT(SDOT_zzxw_s, aa64_sve, gen_gvec_ool_arg_zzxz,
3627 gen_helper_gvec_sdot_idx_b, a)
3628 TRANS_FEAT(SDOT_zzxw_d, aa64_sve, gen_gvec_ool_arg_zzxz,
3629 gen_helper_gvec_sdot_idx_h, a)
3630 TRANS_FEAT(UDOT_zzxw_s, aa64_sve, gen_gvec_ool_arg_zzxz,
3631 gen_helper_gvec_udot_idx_b, a)
3632 TRANS_FEAT(UDOT_zzxw_d, aa64_sve, gen_gvec_ool_arg_zzxz,
3633 gen_helper_gvec_udot_idx_h, a)
3634
3635 TRANS_FEAT(SUDOT_zzxw_s, aa64_sve_i8mm, gen_gvec_ool_arg_zzxz,
3636 gen_helper_gvec_sudot_idx_b, a)
3637 TRANS_FEAT(USDOT_zzxw_s, aa64_sve_i8mm, gen_gvec_ool_arg_zzxz,
3638 gen_helper_gvec_usdot_idx_b, a)
3639
3640 #define DO_SVE2_RRX(NAME, FUNC) \
3641 TRANS_FEAT(NAME, aa64_sve, gen_gvec_ool_zzz, FUNC, \
3642 a->rd, a->rn, a->rm, a->index)
3643
3644 DO_SVE2_RRX(MUL_zzx_h, gen_helper_gvec_mul_idx_h)
3645 DO_SVE2_RRX(MUL_zzx_s, gen_helper_gvec_mul_idx_s)
3646 DO_SVE2_RRX(MUL_zzx_d, gen_helper_gvec_mul_idx_d)
3647
3648 DO_SVE2_RRX(SQDMULH_zzx_h, gen_helper_sve2_sqdmulh_idx_h)
3649 DO_SVE2_RRX(SQDMULH_zzx_s, gen_helper_sve2_sqdmulh_idx_s)
3650 DO_SVE2_RRX(SQDMULH_zzx_d, gen_helper_sve2_sqdmulh_idx_d)
3651
3652 DO_SVE2_RRX(SQRDMULH_zzx_h, gen_helper_sve2_sqrdmulh_idx_h)
3653 DO_SVE2_RRX(SQRDMULH_zzx_s, gen_helper_sve2_sqrdmulh_idx_s)
3654 DO_SVE2_RRX(SQRDMULH_zzx_d, gen_helper_sve2_sqrdmulh_idx_d)
3655
3656 #undef DO_SVE2_RRX
3657
3658 #define DO_SVE2_RRX_TB(NAME, FUNC, TOP) \
3659 TRANS_FEAT(NAME, aa64_sve, gen_gvec_ool_zzz, FUNC, \
3660 a->rd, a->rn, a->rm, (a->index << 1) | TOP)
3661
3662 DO_SVE2_RRX_TB(SQDMULLB_zzx_s, gen_helper_sve2_sqdmull_idx_s, false)
3663 DO_SVE2_RRX_TB(SQDMULLB_zzx_d, gen_helper_sve2_sqdmull_idx_d, false)
3664 DO_SVE2_RRX_TB(SQDMULLT_zzx_s, gen_helper_sve2_sqdmull_idx_s, true)
3665 DO_SVE2_RRX_TB(SQDMULLT_zzx_d, gen_helper_sve2_sqdmull_idx_d, true)
3666
3667 DO_SVE2_RRX_TB(SMULLB_zzx_s, gen_helper_sve2_smull_idx_s, false)
3668 DO_SVE2_RRX_TB(SMULLB_zzx_d, gen_helper_sve2_smull_idx_d, false)
3669 DO_SVE2_RRX_TB(SMULLT_zzx_s, gen_helper_sve2_smull_idx_s, true)
3670 DO_SVE2_RRX_TB(SMULLT_zzx_d, gen_helper_sve2_smull_idx_d, true)
3671
3672 DO_SVE2_RRX_TB(UMULLB_zzx_s, gen_helper_sve2_umull_idx_s, false)
3673 DO_SVE2_RRX_TB(UMULLB_zzx_d, gen_helper_sve2_umull_idx_d, false)
3674 DO_SVE2_RRX_TB(UMULLT_zzx_s, gen_helper_sve2_umull_idx_s, true)
3675 DO_SVE2_RRX_TB(UMULLT_zzx_d, gen_helper_sve2_umull_idx_d, true)
3676
3677 #undef DO_SVE2_RRX_TB
3678
3679 #define DO_SVE2_RRXR(NAME, FUNC) \
3680 TRANS_FEAT(NAME, aa64_sve2, gen_gvec_ool_arg_zzxz, FUNC, a)
3681
3682 DO_SVE2_RRXR(MLA_zzxz_h, gen_helper_gvec_mla_idx_h)
3683 DO_SVE2_RRXR(MLA_zzxz_s, gen_helper_gvec_mla_idx_s)
3684 DO_SVE2_RRXR(MLA_zzxz_d, gen_helper_gvec_mla_idx_d)
3685
3686 DO_SVE2_RRXR(MLS_zzxz_h, gen_helper_gvec_mls_idx_h)
3687 DO_SVE2_RRXR(MLS_zzxz_s, gen_helper_gvec_mls_idx_s)
3688 DO_SVE2_RRXR(MLS_zzxz_d, gen_helper_gvec_mls_idx_d)
3689
3690 DO_SVE2_RRXR(SQRDMLAH_zzxz_h, gen_helper_sve2_sqrdmlah_idx_h)
3691 DO_SVE2_RRXR(SQRDMLAH_zzxz_s, gen_helper_sve2_sqrdmlah_idx_s)
3692 DO_SVE2_RRXR(SQRDMLAH_zzxz_d, gen_helper_sve2_sqrdmlah_idx_d)
3693
3694 DO_SVE2_RRXR(SQRDMLSH_zzxz_h, gen_helper_sve2_sqrdmlsh_idx_h)
3695 DO_SVE2_RRXR(SQRDMLSH_zzxz_s, gen_helper_sve2_sqrdmlsh_idx_s)
3696 DO_SVE2_RRXR(SQRDMLSH_zzxz_d, gen_helper_sve2_sqrdmlsh_idx_d)
3697
3698 #undef DO_SVE2_RRXR
3699
3700 #define DO_SVE2_RRXR_TB(NAME, FUNC, TOP) \
3701 TRANS_FEAT(NAME, aa64_sve2, gen_gvec_ool_zzzz, FUNC, \
3702 a->rd, a->rn, a->rm, a->ra, (a->index << 1) | TOP)
3703
3704 DO_SVE2_RRXR_TB(SQDMLALB_zzxw_s, gen_helper_sve2_sqdmlal_idx_s, false)
3705 DO_SVE2_RRXR_TB(SQDMLALB_zzxw_d, gen_helper_sve2_sqdmlal_idx_d, false)
3706 DO_SVE2_RRXR_TB(SQDMLALT_zzxw_s, gen_helper_sve2_sqdmlal_idx_s, true)
3707 DO_SVE2_RRXR_TB(SQDMLALT_zzxw_d, gen_helper_sve2_sqdmlal_idx_d, true)
3708
3709 DO_SVE2_RRXR_TB(SQDMLSLB_zzxw_s, gen_helper_sve2_sqdmlsl_idx_s, false)
3710 DO_SVE2_RRXR_TB(SQDMLSLB_zzxw_d, gen_helper_sve2_sqdmlsl_idx_d, false)
3711 DO_SVE2_RRXR_TB(SQDMLSLT_zzxw_s, gen_helper_sve2_sqdmlsl_idx_s, true)
3712 DO_SVE2_RRXR_TB(SQDMLSLT_zzxw_d, gen_helper_sve2_sqdmlsl_idx_d, true)
3713
3714 DO_SVE2_RRXR_TB(SMLALB_zzxw_s, gen_helper_sve2_smlal_idx_s, false)
3715 DO_SVE2_RRXR_TB(SMLALB_zzxw_d, gen_helper_sve2_smlal_idx_d, false)
3716 DO_SVE2_RRXR_TB(SMLALT_zzxw_s, gen_helper_sve2_smlal_idx_s, true)
3717 DO_SVE2_RRXR_TB(SMLALT_zzxw_d, gen_helper_sve2_smlal_idx_d, true)
3718
3719 DO_SVE2_RRXR_TB(UMLALB_zzxw_s, gen_helper_sve2_umlal_idx_s, false)
3720 DO_SVE2_RRXR_TB(UMLALB_zzxw_d, gen_helper_sve2_umlal_idx_d, false)
3721 DO_SVE2_RRXR_TB(UMLALT_zzxw_s, gen_helper_sve2_umlal_idx_s, true)
3722 DO_SVE2_RRXR_TB(UMLALT_zzxw_d, gen_helper_sve2_umlal_idx_d, true)
3723
3724 DO_SVE2_RRXR_TB(SMLSLB_zzxw_s, gen_helper_sve2_smlsl_idx_s, false)
3725 DO_SVE2_RRXR_TB(SMLSLB_zzxw_d, gen_helper_sve2_smlsl_idx_d, false)
3726 DO_SVE2_RRXR_TB(SMLSLT_zzxw_s, gen_helper_sve2_smlsl_idx_s, true)
3727 DO_SVE2_RRXR_TB(SMLSLT_zzxw_d, gen_helper_sve2_smlsl_idx_d, true)
3728
3729 DO_SVE2_RRXR_TB(UMLSLB_zzxw_s, gen_helper_sve2_umlsl_idx_s, false)
3730 DO_SVE2_RRXR_TB(UMLSLB_zzxw_d, gen_helper_sve2_umlsl_idx_d, false)
3731 DO_SVE2_RRXR_TB(UMLSLT_zzxw_s, gen_helper_sve2_umlsl_idx_s, true)
3732 DO_SVE2_RRXR_TB(UMLSLT_zzxw_d, gen_helper_sve2_umlsl_idx_d, true)
3733
3734 #undef DO_SVE2_RRXR_TB
3735
3736 #define DO_SVE2_RRXR_ROT(NAME, FUNC) \
3737 TRANS_FEAT(NAME, aa64_sve2, gen_gvec_ool_zzzz, FUNC, \
3738 a->rd, a->rn, a->rm, a->ra, (a->index << 2) | a->rot)
3739
3740 DO_SVE2_RRXR_ROT(CMLA_zzxz_h, gen_helper_sve2_cmla_idx_h)
3741 DO_SVE2_RRXR_ROT(CMLA_zzxz_s, gen_helper_sve2_cmla_idx_s)
3742
3743 DO_SVE2_RRXR_ROT(SQRDCMLAH_zzxz_h, gen_helper_sve2_sqrdcmlah_idx_h)
3744 DO_SVE2_RRXR_ROT(SQRDCMLAH_zzxz_s, gen_helper_sve2_sqrdcmlah_idx_s)
3745
3746 DO_SVE2_RRXR_ROT(CDOT_zzxw_s, gen_helper_sve2_cdot_idx_s)
3747 DO_SVE2_RRXR_ROT(CDOT_zzxw_d, gen_helper_sve2_cdot_idx_d)
3748
3749 #undef DO_SVE2_RRXR_ROT
3750
3751 /*
3752 *** SVE Floating Point Multiply-Add Indexed Group
3753 */
3754
3755 static bool do_FMLA_zzxz(DisasContext *s, arg_rrxr_esz *a, bool sub)
3756 {
3757 static gen_helper_gvec_4_ptr * const fns[4] = {
3758 NULL,
3759 gen_helper_gvec_fmla_idx_h,
3760 gen_helper_gvec_fmla_idx_s,
3761 gen_helper_gvec_fmla_idx_d,
3762 };
3763 return gen_gvec_fpst_zzzz(s, fns[a->esz], a->rd, a->rn, a->rm, a->ra,
3764 (a->index << 1) | sub,
3765 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
3766 }
3767
3768 TRANS_FEAT(FMLA_zzxz, aa64_sve, do_FMLA_zzxz, a, false)
3769 TRANS_FEAT(FMLS_zzxz, aa64_sve, do_FMLA_zzxz, a, true)
3770
3771 /*
3772 *** SVE Floating Point Multiply Indexed Group
3773 */
3774
3775 static gen_helper_gvec_3_ptr * const fmul_idx_fns[4] = {
3776 NULL, gen_helper_gvec_fmul_idx_h,
3777 gen_helper_gvec_fmul_idx_s, gen_helper_gvec_fmul_idx_d,
3778 };
3779 TRANS_FEAT(FMUL_zzx, aa64_sve, gen_gvec_fpst_zzz,
3780 fmul_idx_fns[a->esz], a->rd, a->rn, a->rm, a->index,
3781 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
3782
3783 /*
3784 *** SVE Floating Point Fast Reduction Group
3785 */
3786
3787 typedef void gen_helper_fp_reduce(TCGv_i64, TCGv_ptr, TCGv_ptr,
3788 TCGv_ptr, TCGv_i32);
3789
3790 static bool do_reduce(DisasContext *s, arg_rpr_esz *a,
3791 gen_helper_fp_reduce *fn)
3792 {
3793 unsigned vsz, p2vsz;
3794 TCGv_i32 t_desc;
3795 TCGv_ptr t_zn, t_pg, status;
3796 TCGv_i64 temp;
3797
3798 if (fn == NULL) {
3799 return false;
3800 }
3801 if (!sve_access_check(s)) {
3802 return true;
3803 }
3804
3805 vsz = vec_full_reg_size(s);
3806 p2vsz = pow2ceil(vsz);
3807 t_desc = tcg_constant_i32(simd_desc(vsz, vsz, p2vsz));
3808 temp = tcg_temp_new_i64();
3809 t_zn = tcg_temp_new_ptr();
3810 t_pg = tcg_temp_new_ptr();
3811
3812 tcg_gen_addi_ptr(t_zn, cpu_env, vec_full_reg_offset(s, a->rn));
3813 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, a->pg));
3814 status = fpstatus_ptr(a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
3815
3816 fn(temp, t_zn, t_pg, status, t_desc);
3817 tcg_temp_free_ptr(t_zn);
3818 tcg_temp_free_ptr(t_pg);
3819 tcg_temp_free_ptr(status);
3820
3821 write_fp_dreg(s, a->rd, temp);
3822 tcg_temp_free_i64(temp);
3823 return true;
3824 }
3825
3826 #define DO_VPZ(NAME, name) \
3827 static gen_helper_fp_reduce * const name##_fns[4] = { \
3828 NULL, gen_helper_sve_##name##_h, \
3829 gen_helper_sve_##name##_s, gen_helper_sve_##name##_d, \
3830 }; \
3831 TRANS_FEAT(NAME, aa64_sve, do_reduce, a, name##_fns[a->esz])
3832
3833 DO_VPZ(FADDV, faddv)
3834 DO_VPZ(FMINNMV, fminnmv)
3835 DO_VPZ(FMAXNMV, fmaxnmv)
3836 DO_VPZ(FMINV, fminv)
3837 DO_VPZ(FMAXV, fmaxv)
3838
3839 #undef DO_VPZ
3840
3841 /*
3842 *** SVE Floating Point Unary Operations - Unpredicated Group
3843 */
3844
3845 static gen_helper_gvec_2_ptr * const frecpe_fns[] = {
3846 NULL, gen_helper_gvec_frecpe_h,
3847 gen_helper_gvec_frecpe_s, gen_helper_gvec_frecpe_d,
3848 };
3849 TRANS_FEAT(FRECPE, aa64_sve, gen_gvec_fpst_arg_zz, frecpe_fns[a->esz], a, 0)
3850
3851 static gen_helper_gvec_2_ptr * const frsqrte_fns[] = {
3852 NULL, gen_helper_gvec_frsqrte_h,
3853 gen_helper_gvec_frsqrte_s, gen_helper_gvec_frsqrte_d,
3854 };
3855 TRANS_FEAT(FRSQRTE, aa64_sve, gen_gvec_fpst_arg_zz, frsqrte_fns[a->esz], a, 0)
3856
3857 /*
3858 *** SVE Floating Point Compare with Zero Group
3859 */
3860
3861 static bool do_ppz_fp(DisasContext *s, arg_rpr_esz *a,
3862 gen_helper_gvec_3_ptr *fn)
3863 {
3864 if (fn == NULL) {
3865 return false;
3866 }
3867 if (sve_access_check(s)) {
3868 unsigned vsz = vec_full_reg_size(s);
3869 TCGv_ptr status =
3870 fpstatus_ptr(a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
3871
3872 tcg_gen_gvec_3_ptr(pred_full_reg_offset(s, a->rd),
3873 vec_full_reg_offset(s, a->rn),
3874 pred_full_reg_offset(s, a->pg),
3875 status, vsz, vsz, 0, fn);
3876 tcg_temp_free_ptr(status);
3877 }
3878 return true;
3879 }
3880
3881 #define DO_PPZ(NAME, name) \
3882 static gen_helper_gvec_3_ptr * const name##_fns[] = { \
3883 NULL, gen_helper_sve_##name##_h, \
3884 gen_helper_sve_##name##_s, gen_helper_sve_##name##_d, \
3885 }; \
3886 TRANS_FEAT(NAME, aa64_sve, do_ppz_fp, a, name##_fns[a->esz])
3887
3888 DO_PPZ(FCMGE_ppz0, fcmge0)
3889 DO_PPZ(FCMGT_ppz0, fcmgt0)
3890 DO_PPZ(FCMLE_ppz0, fcmle0)
3891 DO_PPZ(FCMLT_ppz0, fcmlt0)
3892 DO_PPZ(FCMEQ_ppz0, fcmeq0)
3893 DO_PPZ(FCMNE_ppz0, fcmne0)
3894
3895 #undef DO_PPZ
3896
3897 /*
3898 *** SVE floating-point trig multiply-add coefficient
3899 */
3900
3901 static gen_helper_gvec_3_ptr * const ftmad_fns[4] = {
3902 NULL, gen_helper_sve_ftmad_h,
3903 gen_helper_sve_ftmad_s, gen_helper_sve_ftmad_d,
3904 };
3905 TRANS_FEAT_NONSTREAMING(FTMAD, aa64_sve, gen_gvec_fpst_zzz,
3906 ftmad_fns[a->esz], a->rd, a->rn, a->rm, a->imm,
3907 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
3908
3909 /*
3910 *** SVE Floating Point Accumulating Reduction Group
3911 */
3912
3913 static bool trans_FADDA(DisasContext *s, arg_rprr_esz *a)
3914 {
3915 typedef void fadda_fn(TCGv_i64, TCGv_i64, TCGv_ptr,
3916 TCGv_ptr, TCGv_ptr, TCGv_i32);
3917 static fadda_fn * const fns[3] = {
3918 gen_helper_sve_fadda_h,
3919 gen_helper_sve_fadda_s,
3920 gen_helper_sve_fadda_d,
3921 };
3922 unsigned vsz = vec_full_reg_size(s);
3923 TCGv_ptr t_rm, t_pg, t_fpst;
3924 TCGv_i64 t_val;
3925 TCGv_i32 t_desc;
3926
3927 if (a->esz == 0 || !dc_isar_feature(aa64_sve, s)) {
3928 return false;
3929 }
3930 s->is_nonstreaming = true;
3931 if (!sve_access_check(s)) {
3932 return true;
3933 }
3934
3935 t_val = load_esz(cpu_env, vec_reg_offset(s, a->rn, 0, a->esz), a->esz);
3936 t_rm = tcg_temp_new_ptr();
3937 t_pg = tcg_temp_new_ptr();
3938 tcg_gen_addi_ptr(t_rm, cpu_env, vec_full_reg_offset(s, a->rm));
3939 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, a->pg));
3940 t_fpst = fpstatus_ptr(a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
3941 t_desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
3942
3943 fns[a->esz - 1](t_val, t_val, t_rm, t_pg, t_fpst, t_desc);
3944
3945 tcg_temp_free_ptr(t_fpst);
3946 tcg_temp_free_ptr(t_pg);
3947 tcg_temp_free_ptr(t_rm);
3948
3949 write_fp_dreg(s, a->rd, t_val);
3950 tcg_temp_free_i64(t_val);
3951 return true;
3952 }
3953
3954 /*
3955 *** SVE Floating Point Arithmetic - Unpredicated Group
3956 */
3957
3958 #define DO_FP3(NAME, name) \
3959 static gen_helper_gvec_3_ptr * const name##_fns[4] = { \
3960 NULL, gen_helper_gvec_##name##_h, \
3961 gen_helper_gvec_##name##_s, gen_helper_gvec_##name##_d \
3962 }; \
3963 TRANS_FEAT(NAME, aa64_sve, gen_gvec_fpst_arg_zzz, name##_fns[a->esz], a, 0)
3964
3965 DO_FP3(FADD_zzz, fadd)
3966 DO_FP3(FSUB_zzz, fsub)
3967 DO_FP3(FMUL_zzz, fmul)
3968 DO_FP3(FRECPS, recps)
3969 DO_FP3(FRSQRTS, rsqrts)
3970
3971 #undef DO_FP3
3972
3973 static gen_helper_gvec_3_ptr * const ftsmul_fns[4] = {
3974 NULL, gen_helper_gvec_ftsmul_h,
3975 gen_helper_gvec_ftsmul_s, gen_helper_gvec_ftsmul_d
3976 };
3977 TRANS_FEAT_NONSTREAMING(FTSMUL, aa64_sve, gen_gvec_fpst_arg_zzz,
3978 ftsmul_fns[a->esz], a, 0)
3979
3980 /*
3981 *** SVE Floating Point Arithmetic - Predicated Group
3982 */
3983
3984 #define DO_ZPZZ_FP(NAME, FEAT, name) \
3985 static gen_helper_gvec_4_ptr * const name##_zpzz_fns[4] = { \
3986 NULL, gen_helper_##name##_h, \
3987 gen_helper_##name##_s, gen_helper_##name##_d \
3988 }; \
3989 TRANS_FEAT(NAME, FEAT, gen_gvec_fpst_arg_zpzz, name##_zpzz_fns[a->esz], a)
3990
3991 DO_ZPZZ_FP(FADD_zpzz, aa64_sve, sve_fadd)
3992 DO_ZPZZ_FP(FSUB_zpzz, aa64_sve, sve_fsub)
3993 DO_ZPZZ_FP(FMUL_zpzz, aa64_sve, sve_fmul)
3994 DO_ZPZZ_FP(FMIN_zpzz, aa64_sve, sve_fmin)
3995 DO_ZPZZ_FP(FMAX_zpzz, aa64_sve, sve_fmax)
3996 DO_ZPZZ_FP(FMINNM_zpzz, aa64_sve, sve_fminnum)
3997 DO_ZPZZ_FP(FMAXNM_zpzz, aa64_sve, sve_fmaxnum)
3998 DO_ZPZZ_FP(FABD, aa64_sve, sve_fabd)
3999 DO_ZPZZ_FP(FSCALE, aa64_sve, sve_fscalbn)
4000 DO_ZPZZ_FP(FDIV, aa64_sve, sve_fdiv)
4001 DO_ZPZZ_FP(FMULX, aa64_sve, sve_fmulx)
4002
4003 typedef void gen_helper_sve_fp2scalar(TCGv_ptr, TCGv_ptr, TCGv_ptr,
4004 TCGv_i64, TCGv_ptr, TCGv_i32);
4005
4006 static void do_fp_scalar(DisasContext *s, int zd, int zn, int pg, bool is_fp16,
4007 TCGv_i64 scalar, gen_helper_sve_fp2scalar *fn)
4008 {
4009 unsigned vsz = vec_full_reg_size(s);
4010 TCGv_ptr t_zd, t_zn, t_pg, status;
4011 TCGv_i32 desc;
4012
4013 t_zd = tcg_temp_new_ptr();
4014 t_zn = tcg_temp_new_ptr();
4015 t_pg = tcg_temp_new_ptr();
4016 tcg_gen_addi_ptr(t_zd, cpu_env, vec_full_reg_offset(s, zd));
4017 tcg_gen_addi_ptr(t_zn, cpu_env, vec_full_reg_offset(s, zn));
4018 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, pg));
4019
4020 status = fpstatus_ptr(is_fp16 ? FPST_FPCR_F16 : FPST_FPCR);
4021 desc = tcg_constant_i32(simd_desc(vsz, vsz, 0));
4022 fn(t_zd, t_zn, t_pg, scalar, status, desc);
4023
4024 tcg_temp_free_ptr(status);
4025 tcg_temp_free_ptr(t_pg);
4026 tcg_temp_free_ptr(t_zn);
4027 tcg_temp_free_ptr(t_zd);
4028 }
4029
4030 static bool do_fp_imm(DisasContext *s, arg_rpri_esz *a, uint64_t imm,
4031 gen_helper_sve_fp2scalar *fn)
4032 {
4033 if (fn == NULL) {
4034 return false;
4035 }
4036 if (sve_access_check(s)) {
4037 do_fp_scalar(s, a->rd, a->rn, a->pg, a->esz == MO_16,
4038 tcg_constant_i64(imm), fn);
4039 }
4040 return true;
4041 }
4042
4043 #define DO_FP_IMM(NAME, name, const0, const1) \
4044 static gen_helper_sve_fp2scalar * const name##_fns[4] = { \
4045 NULL, gen_helper_sve_##name##_h, \
4046 gen_helper_sve_##name##_s, \
4047 gen_helper_sve_##name##_d \
4048 }; \
4049 static uint64_t const name##_const[4][2] = { \
4050 { -1, -1 }, \
4051 { float16_##const0, float16_##const1 }, \
4052 { float32_##const0, float32_##const1 }, \
4053 { float64_##const0, float64_##const1 }, \
4054 }; \
4055 TRANS_FEAT(NAME##_zpzi, aa64_sve, do_fp_imm, a, \
4056 name##_const[a->esz][a->imm], name##_fns[a->esz])
4057
4058 DO_FP_IMM(FADD, fadds, half, one)
4059 DO_FP_IMM(FSUB, fsubs, half, one)
4060 DO_FP_IMM(FMUL, fmuls, half, two)
4061 DO_FP_IMM(FSUBR, fsubrs, half, one)
4062 DO_FP_IMM(FMAXNM, fmaxnms, zero, one)
4063 DO_FP_IMM(FMINNM, fminnms, zero, one)
4064 DO_FP_IMM(FMAX, fmaxs, zero, one)
4065 DO_FP_IMM(FMIN, fmins, zero, one)
4066
4067 #undef DO_FP_IMM
4068
4069 static bool do_fp_cmp(DisasContext *s, arg_rprr_esz *a,
4070 gen_helper_gvec_4_ptr *fn)
4071 {
4072 if (fn == NULL) {
4073 return false;
4074 }
4075 if (sve_access_check(s)) {
4076 unsigned vsz = vec_full_reg_size(s);
4077 TCGv_ptr status = fpstatus_ptr(a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
4078 tcg_gen_gvec_4_ptr(pred_full_reg_offset(s, a->rd),
4079 vec_full_reg_offset(s, a->rn),
4080 vec_full_reg_offset(s, a->rm),
4081 pred_full_reg_offset(s, a->pg),
4082 status, vsz, vsz, 0, fn);
4083 tcg_temp_free_ptr(status);
4084 }
4085 return true;
4086 }
4087
4088 #define DO_FPCMP(NAME, name) \
4089 static gen_helper_gvec_4_ptr * const name##_fns[4] = { \
4090 NULL, gen_helper_sve_##name##_h, \
4091 gen_helper_sve_##name##_s, gen_helper_sve_##name##_d \
4092 }; \
4093 TRANS_FEAT(NAME##_ppzz, aa64_sve, do_fp_cmp, a, name##_fns[a->esz])
4094
4095 DO_FPCMP(FCMGE, fcmge)
4096 DO_FPCMP(FCMGT, fcmgt)
4097 DO_FPCMP(FCMEQ, fcmeq)
4098 DO_FPCMP(FCMNE, fcmne)
4099 DO_FPCMP(FCMUO, fcmuo)
4100 DO_FPCMP(FACGE, facge)
4101 DO_FPCMP(FACGT, facgt)
4102
4103 #undef DO_FPCMP
4104
4105 static gen_helper_gvec_4_ptr * const fcadd_fns[] = {
4106 NULL, gen_helper_sve_fcadd_h,
4107 gen_helper_sve_fcadd_s, gen_helper_sve_fcadd_d,
4108 };
4109 TRANS_FEAT(FCADD, aa64_sve, gen_gvec_fpst_zzzp, fcadd_fns[a->esz],
4110 a->rd, a->rn, a->rm, a->pg, a->rot,
4111 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4112
4113 #define DO_FMLA(NAME, name) \
4114 static gen_helper_gvec_5_ptr * const name##_fns[4] = { \
4115 NULL, gen_helper_sve_##name##_h, \
4116 gen_helper_sve_##name##_s, gen_helper_sve_##name##_d \
4117 }; \
4118 TRANS_FEAT(NAME, aa64_sve, gen_gvec_fpst_zzzzp, name##_fns[a->esz], \
4119 a->rd, a->rn, a->rm, a->ra, a->pg, 0, \
4120 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4121
4122 DO_FMLA(FMLA_zpzzz, fmla_zpzzz)
4123 DO_FMLA(FMLS_zpzzz, fmls_zpzzz)
4124 DO_FMLA(FNMLA_zpzzz, fnmla_zpzzz)
4125 DO_FMLA(FNMLS_zpzzz, fnmls_zpzzz)
4126
4127 #undef DO_FMLA
4128
4129 static gen_helper_gvec_5_ptr * const fcmla_fns[4] = {
4130 NULL, gen_helper_sve_fcmla_zpzzz_h,
4131 gen_helper_sve_fcmla_zpzzz_s, gen_helper_sve_fcmla_zpzzz_d,
4132 };
4133 TRANS_FEAT(FCMLA_zpzzz, aa64_sve, gen_gvec_fpst_zzzzp, fcmla_fns[a->esz],
4134 a->rd, a->rn, a->rm, a->ra, a->pg, a->rot,
4135 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4136
4137 static gen_helper_gvec_4_ptr * const fcmla_idx_fns[4] = {
4138 NULL, gen_helper_gvec_fcmlah_idx, gen_helper_gvec_fcmlas_idx, NULL
4139 };
4140 TRANS_FEAT(FCMLA_zzxz, aa64_sve, gen_gvec_fpst_zzzz, fcmla_idx_fns[a->esz],
4141 a->rd, a->rn, a->rm, a->ra, a->index * 4 + a->rot,
4142 a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4143
4144 /*
4145 *** SVE Floating Point Unary Operations Predicated Group
4146 */
4147
4148 TRANS_FEAT(FCVT_sh, aa64_sve, gen_gvec_fpst_arg_zpz,
4149 gen_helper_sve_fcvt_sh, a, 0, FPST_FPCR)
4150 TRANS_FEAT(FCVT_hs, aa64_sve, gen_gvec_fpst_arg_zpz,
4151 gen_helper_sve_fcvt_hs, a, 0, FPST_FPCR)
4152
4153 TRANS_FEAT(BFCVT, aa64_sve_bf16, gen_gvec_fpst_arg_zpz,
4154 gen_helper_sve_bfcvt, a, 0, FPST_FPCR)
4155
4156 TRANS_FEAT(FCVT_dh, aa64_sve, gen_gvec_fpst_arg_zpz,
4157 gen_helper_sve_fcvt_dh, a, 0, FPST_FPCR)
4158 TRANS_FEAT(FCVT_hd, aa64_sve, gen_gvec_fpst_arg_zpz,
4159 gen_helper_sve_fcvt_hd, a, 0, FPST_FPCR)
4160 TRANS_FEAT(FCVT_ds, aa64_sve, gen_gvec_fpst_arg_zpz,
4161 gen_helper_sve_fcvt_ds, a, 0, FPST_FPCR)
4162 TRANS_FEAT(FCVT_sd, aa64_sve, gen_gvec_fpst_arg_zpz,
4163 gen_helper_sve_fcvt_sd, a, 0, FPST_FPCR)
4164
4165 TRANS_FEAT(FCVTZS_hh, aa64_sve, gen_gvec_fpst_arg_zpz,
4166 gen_helper_sve_fcvtzs_hh, a, 0, FPST_FPCR_F16)
4167 TRANS_FEAT(FCVTZU_hh, aa64_sve, gen_gvec_fpst_arg_zpz,
4168 gen_helper_sve_fcvtzu_hh, a, 0, FPST_FPCR_F16)
4169 TRANS_FEAT(FCVTZS_hs, aa64_sve, gen_gvec_fpst_arg_zpz,
4170 gen_helper_sve_fcvtzs_hs, a, 0, FPST_FPCR_F16)
4171 TRANS_FEAT(FCVTZU_hs, aa64_sve, gen_gvec_fpst_arg_zpz,
4172 gen_helper_sve_fcvtzu_hs, a, 0, FPST_FPCR_F16)
4173 TRANS_FEAT(FCVTZS_hd, aa64_sve, gen_gvec_fpst_arg_zpz,
4174 gen_helper_sve_fcvtzs_hd, a, 0, FPST_FPCR_F16)
4175 TRANS_FEAT(FCVTZU_hd, aa64_sve, gen_gvec_fpst_arg_zpz,
4176 gen_helper_sve_fcvtzu_hd, a, 0, FPST_FPCR_F16)
4177
4178 TRANS_FEAT(FCVTZS_ss, aa64_sve, gen_gvec_fpst_arg_zpz,
4179 gen_helper_sve_fcvtzs_ss, a, 0, FPST_FPCR)
4180 TRANS_FEAT(FCVTZU_ss, aa64_sve, gen_gvec_fpst_arg_zpz,
4181 gen_helper_sve_fcvtzu_ss, a, 0, FPST_FPCR)
4182 TRANS_FEAT(FCVTZS_sd, aa64_sve, gen_gvec_fpst_arg_zpz,
4183 gen_helper_sve_fcvtzs_sd, a, 0, FPST_FPCR)
4184 TRANS_FEAT(FCVTZU_sd, aa64_sve, gen_gvec_fpst_arg_zpz,
4185 gen_helper_sve_fcvtzu_sd, a, 0, FPST_FPCR)
4186 TRANS_FEAT(FCVTZS_ds, aa64_sve, gen_gvec_fpst_arg_zpz,
4187 gen_helper_sve_fcvtzs_ds, a, 0, FPST_FPCR)
4188 TRANS_FEAT(FCVTZU_ds, aa64_sve, gen_gvec_fpst_arg_zpz,
4189 gen_helper_sve_fcvtzu_ds, a, 0, FPST_FPCR)
4190
4191 TRANS_FEAT(FCVTZS_dd, aa64_sve, gen_gvec_fpst_arg_zpz,
4192 gen_helper_sve_fcvtzs_dd, a, 0, FPST_FPCR)
4193 TRANS_FEAT(FCVTZU_dd, aa64_sve, gen_gvec_fpst_arg_zpz,
4194 gen_helper_sve_fcvtzu_dd, a, 0, FPST_FPCR)
4195
4196 static gen_helper_gvec_3_ptr * const frint_fns[] = {
4197 NULL,
4198 gen_helper_sve_frint_h,
4199 gen_helper_sve_frint_s,
4200 gen_helper_sve_frint_d
4201 };
4202 TRANS_FEAT(FRINTI, aa64_sve, gen_gvec_fpst_arg_zpz, frint_fns[a->esz],
4203 a, 0, a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4204
4205 static gen_helper_gvec_3_ptr * const frintx_fns[] = {
4206 NULL,
4207 gen_helper_sve_frintx_h,
4208 gen_helper_sve_frintx_s,
4209 gen_helper_sve_frintx_d
4210 };
4211 TRANS_FEAT(FRINTX, aa64_sve, gen_gvec_fpst_arg_zpz, frintx_fns[a->esz],
4212 a, 0, a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
4213
4214 static bool do_frint_mode(DisasContext *s, arg_rpr_esz *a,
4215 int mode, gen_helper_gvec_3_ptr *fn)
4216 {
4217 unsigned vsz;
4218 TCGv_i32 tmode;
4219 TCGv_ptr status;
4220
4221 if (fn == NULL) {
4222 return false;
4223 }
4224 if (!sve_access_check(s)) {
4225 return true;
4226 }
4227
4228 vsz = vec_full_reg_size(s);
4229 tmode = tcg_const_i32(mode);
4230 status = fpstatus_ptr(a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR);
4231
4232 gen_helper_set_rmode(tmode, tmode, status);
4233
4234 tcg_gen_gvec_3_ptr(vec_full_reg_offset(s, a->rd),
4235 vec_full_reg_offset(s, a->rn),
4236 pred_full_reg_offset(s, a->pg),
4237 status, vsz, vsz, 0, fn);
4238
4239 gen_helper_set_rmode(tmode, tmode, status);
4240 tcg_temp_free_i32(tmode);
4241 tcg_temp_free_ptr(status);
4242 return true;
4243 }
4244
4245 TRANS_FEAT(FRINTN, aa64_sve, do_frint_mode, a,
4246 float_round_nearest_even, frint_fns[a->esz])
4247 TRANS_FEAT(FRINTP, aa64_sve, do_frint_mode, a,
4248 float_round_up, frint_fns[a->esz])
4249 TRANS_FEAT(FRINTM, aa64_sve, do_frint_mode, a,
4250 float_round_down, frint_fns[a->esz])
4251 TRANS_FEAT(FRINTZ, aa64_sve, do_frint_mode, a,
4252 float_round_to_zero, frint_fns[a->esz])
4253 TRANS_FEAT(FRINTA, aa64_sve, do_frint_mode, a,
4254 float_round_ties_away, frint_fns[a->esz])
4255
4256 static gen_helper_gvec_3_ptr * const frecpx_fns[] = {
4257 NULL, gen_helper_sve_frecpx_h,
4258 gen_helper_sve_frecpx_s, gen_helper_sve_frecpx_d,
4259 };
4260 TRANS_FEAT(FRECPX, aa64_sve, gen_gvec_fpst_arg_zpz, frecpx_fns[a->esz],
4261 a, 0, a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4262
4263 static gen_helper_gvec_3_ptr * const fsqrt_fns[] = {
4264 NULL, gen_helper_sve_fsqrt_h,
4265 gen_helper_sve_fsqrt_s, gen_helper_sve_fsqrt_d,
4266 };
4267 TRANS_FEAT(FSQRT, aa64_sve, gen_gvec_fpst_arg_zpz, fsqrt_fns[a->esz],
4268 a, 0, a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
4269
4270 TRANS_FEAT(SCVTF_hh, aa64_sve, gen_gvec_fpst_arg_zpz,
4271 gen_helper_sve_scvt_hh, a, 0, FPST_FPCR_F16)
4272 TRANS_FEAT(SCVTF_sh, aa64_sve, gen_gvec_fpst_arg_zpz,
4273 gen_helper_sve_scvt_sh, a, 0, FPST_FPCR_F16)
4274 TRANS_FEAT(SCVTF_dh, aa64_sve, gen_gvec_fpst_arg_zpz,
4275 gen_helper_sve_scvt_dh, a, 0, FPST_FPCR_F16)
4276
4277 TRANS_FEAT(SCVTF_ss, aa64_sve, gen_gvec_fpst_arg_zpz,
4278 gen_helper_sve_scvt_ss, a, 0, FPST_FPCR)
4279 TRANS_FEAT(SCVTF_ds, aa64_sve, gen_gvec_fpst_arg_zpz,
4280 gen_helper_sve_scvt_ds, a, 0, FPST_FPCR)
4281
4282 TRANS_FEAT(SCVTF_sd, aa64_sve, gen_gvec_fpst_arg_zpz,
4283 gen_helper_sve_scvt_sd, a, 0, FPST_FPCR)
4284 TRANS_FEAT(SCVTF_dd, aa64_sve, gen_gvec_fpst_arg_zpz,
4285 gen_helper_sve_scvt_dd, a, 0, FPST_FPCR)
4286
4287 TRANS_FEAT(UCVTF_hh, aa64_sve, gen_gvec_fpst_arg_zpz,
4288 gen_helper_sve_ucvt_hh, a, 0, FPST_FPCR_F16)
4289 TRANS_FEAT(UCVTF_sh, aa64_sve, gen_gvec_fpst_arg_zpz,
4290 gen_helper_sve_ucvt_sh, a, 0, FPST_FPCR_F16)
4291 TRANS_FEAT(UCVTF_dh, aa64_sve, gen_gvec_fpst_arg_zpz,
4292 gen_helper_sve_ucvt_dh, a, 0, FPST_FPCR_F16)
4293
4294 TRANS_FEAT(UCVTF_ss, aa64_sve, gen_gvec_fpst_arg_zpz,
4295 gen_helper_sve_ucvt_ss, a, 0, FPST_FPCR)
4296 TRANS_FEAT(UCVTF_ds, aa64_sve, gen_gvec_fpst_arg_zpz,
4297 gen_helper_sve_ucvt_ds, a, 0, FPST_FPCR)
4298 TRANS_FEAT(UCVTF_sd, aa64_sve, gen_gvec_fpst_arg_zpz,
4299 gen_helper_sve_ucvt_sd, a, 0, FPST_FPCR)
4300
4301 TRANS_FEAT(UCVTF_dd, aa64_sve, gen_gvec_fpst_arg_zpz,
4302 gen_helper_sve_ucvt_dd, a, 0, FPST_FPCR)
4303
4304 /*
4305 *** SVE Memory - 32-bit Gather and Unsized Contiguous Group
4306 */
4307
4308 /* Subroutine loading a vector register at VOFS of LEN bytes.
4309 * The load should begin at the address Rn + IMM.
4310 */
4311
4312 void gen_sve_ldr(DisasContext *s, TCGv_ptr base, int vofs,
4313 int len, int rn, int imm)
4314 {
4315 int len_align = QEMU_ALIGN_DOWN(len, 8);
4316 int len_remain = len % 8;
4317 int nparts = len / 8 + ctpop8(len_remain);
4318 int midx = get_mem_index(s);
4319 TCGv_i64 dirty_addr, clean_addr, t0, t1;
4320
4321 dirty_addr = tcg_temp_new_i64();
4322 tcg_gen_addi_i64(dirty_addr, cpu_reg_sp(s, rn), imm);
4323 clean_addr = gen_mte_checkN(s, dirty_addr, false, rn != 31, len);
4324 tcg_temp_free_i64(dirty_addr);
4325
4326 /*
4327 * Note that unpredicated load/store of vector/predicate registers
4328 * are defined as a stream of bytes, which equates to little-endian
4329 * operations on larger quantities.
4330 * Attempt to keep code expansion to a minimum by limiting the
4331 * amount of unrolling done.
4332 */
4333 if (nparts <= 4) {
4334 int i;
4335
4336 t0 = tcg_temp_new_i64();
4337 for (i = 0; i < len_align; i += 8) {
4338 tcg_gen_qemu_ld_i64(t0, clean_addr, midx, MO_LEUQ);
4339 tcg_gen_st_i64(t0, base, vofs + i);
4340 tcg_gen_addi_i64(clean_addr, clean_addr, 8);
4341 }
4342 tcg_temp_free_i64(t0);
4343 } else {
4344 TCGLabel *loop = gen_new_label();
4345 TCGv_ptr tp, i = tcg_const_ptr(0);
4346
4347 gen_set_label(loop);
4348
4349 t0 = tcg_temp_new_i64();
4350 tcg_gen_qemu_ld_i64(t0, clean_addr, midx, MO_LEUQ);
4351 tcg_gen_addi_i64(clean_addr, clean_addr, 8);
4352
4353 tp = tcg_temp_new_ptr();
4354 tcg_gen_add_ptr(tp, base, i);
4355 tcg_gen_addi_ptr(i, i, 8);
4356 tcg_gen_st_i64(t0, tp, vofs);
4357 tcg_temp_free_ptr(tp);
4358 tcg_temp_free_i64(t0);
4359
4360 tcg_gen_brcondi_ptr(TCG_COND_LTU, i, len_align, loop);
4361 tcg_temp_free_ptr(i);
4362 }
4363
4364 /*
4365 * Predicate register loads can be any multiple of 2.
4366 * Note that we still store the entire 64-bit unit into cpu_env.
4367 */
4368 if (len_remain) {
4369 t0 = tcg_temp_new_i64();
4370 switch (len_remain) {
4371 case 2:
4372 case 4:
4373 case 8:
4374 tcg_gen_qemu_ld_i64(t0, clean_addr, midx,
4375 MO_LE | ctz32(len_remain));
4376 break;
4377
4378 case 6:
4379 t1 = tcg_temp_new_i64();
4380 tcg_gen_qemu_ld_i64(t0, clean_addr, midx, MO_LEUL);
4381 tcg_gen_addi_i64(clean_addr, clean_addr, 4);
4382 tcg_gen_qemu_ld_i64(t1, clean_addr, midx, MO_LEUW);
4383 tcg_gen_deposit_i64(t0, t0, t1, 32, 32);
4384 tcg_temp_free_i64(t1);
4385 break;
4386
4387 default:
4388 g_assert_not_reached();
4389 }
4390 tcg_gen_st_i64(t0, base, vofs + len_align);
4391 tcg_temp_free_i64(t0);
4392 }
4393 }
4394
4395 /* Similarly for stores. */
4396 void gen_sve_str(DisasContext *s, TCGv_ptr base, int vofs,
4397 int len, int rn, int imm)
4398 {
4399 int len_align = QEMU_ALIGN_DOWN(len, 8);
4400 int len_remain = len % 8;
4401 int nparts = len / 8 + ctpop8(len_remain);
4402 int midx = get_mem_index(s);
4403 TCGv_i64 dirty_addr, clean_addr, t0;
4404
4405 dirty_addr = tcg_temp_new_i64();
4406 tcg_gen_addi_i64(dirty_addr, cpu_reg_sp(s, rn), imm);
4407 clean_addr = gen_mte_checkN(s, dirty_addr, false, rn != 31, len);
4408 tcg_temp_free_i64(dirty_addr);
4409
4410 /* Note that unpredicated load/store of vector/predicate registers
4411 * are defined as a stream of bytes, which equates to little-endian
4412 * operations on larger quantities. There is no nice way to force
4413 * a little-endian store for aarch64_be-linux-user out of line.
4414 *
4415 * Attempt to keep code expansion to a minimum by limiting the
4416 * amount of unrolling done.
4417 */
4418 if (nparts <= 4) {
4419 int i;
4420
4421 t0 = tcg_temp_new_i64();
4422 for (i = 0; i < len_align; i += 8) {
4423 tcg_gen_ld_i64(t0, base, vofs + i);
4424 tcg_gen_qemu_st_i64(t0, clean_addr, midx, MO_LEUQ);
4425 tcg_gen_addi_i64(clean_addr, clean_addr, 8);
4426 }
4427 tcg_temp_free_i64(t0);
4428 } else {
4429 TCGLabel *loop = gen_new_label();
4430 TCGv_ptr tp, i = tcg_const_ptr(0);
4431
4432 gen_set_label(loop);
4433
4434 t0 = tcg_temp_new_i64();
4435 tp = tcg_temp_new_ptr();
4436 tcg_gen_add_ptr(tp, base, i);
4437 tcg_gen_ld_i64(t0, tp, vofs);
4438 tcg_gen_addi_ptr(i, i, 8);
4439 tcg_temp_free_ptr(tp);
4440
4441 tcg_gen_qemu_st_i64(t0, clean_addr, midx, MO_LEUQ);
4442 tcg_gen_addi_i64(clean_addr, clean_addr, 8);
4443 tcg_temp_free_i64(t0);
4444
4445 tcg_gen_brcondi_ptr(TCG_COND_LTU, i, len_align, loop);
4446 tcg_temp_free_ptr(i);
4447 }
4448
4449 /* Predicate register stores can be any multiple of 2. */
4450 if (len_remain) {
4451 t0 = tcg_temp_new_i64();
4452 tcg_gen_ld_i64(t0, base, vofs + len_align);
4453
4454 switch (len_remain) {
4455 case 2:
4456 case 4:
4457 case 8:
4458 tcg_gen_qemu_st_i64(t0, clean_addr, midx,
4459 MO_LE | ctz32(len_remain));
4460 break;
4461
4462 case 6:
4463 tcg_gen_qemu_st_i64(t0, clean_addr, midx, MO_LEUL);
4464 tcg_gen_addi_i64(clean_addr, clean_addr, 4);
4465 tcg_gen_shri_i64(t0, t0, 32);
4466 tcg_gen_qemu_st_i64(t0, clean_addr, midx, MO_LEUW);
4467 break;
4468
4469 default:
4470 g_assert_not_reached();
4471 }
4472 tcg_temp_free_i64(t0);
4473 }
4474 }
4475
4476 static bool trans_LDR_zri(DisasContext *s, arg_rri *a)
4477 {
4478 if (!dc_isar_feature(aa64_sve, s)) {
4479 return false;
4480 }
4481 if (sve_access_check(s)) {
4482 int size = vec_full_reg_size(s);
4483 int off = vec_full_reg_offset(s, a->rd);
4484 gen_sve_ldr(s, cpu_env, off, size, a->rn, a->imm * size);
4485 }
4486 return true;
4487 }
4488
4489 static bool trans_LDR_pri(DisasContext *s, arg_rri *a)
4490 {
4491 if (!dc_isar_feature(aa64_sve, s)) {
4492 return false;
4493 }
4494 if (sve_access_check(s)) {
4495 int size = pred_full_reg_size(s);
4496 int off = pred_full_reg_offset(s, a->rd);
4497 gen_sve_ldr(s, cpu_env, off, size, a->rn, a->imm * size);
4498 }
4499 return true;
4500 }
4501
4502 static bool trans_STR_zri(DisasContext *s, arg_rri *a)
4503 {
4504 if (!dc_isar_feature(aa64_sve, s)) {
4505 return false;
4506 }
4507 if (sve_access_check(s)) {
4508 int size = vec_full_reg_size(s);
4509 int off = vec_full_reg_offset(s, a->rd);
4510 gen_sve_str(s, cpu_env, off, size, a->rn, a->imm * size);
4511 }
4512 return true;
4513 }
4514
4515 static bool trans_STR_pri(DisasContext *s, arg_rri *a)
4516 {
4517 if (!dc_isar_feature(aa64_sve, s)) {
4518 return false;
4519 }
4520 if (sve_access_check(s)) {
4521 int size = pred_full_reg_size(s);
4522 int off = pred_full_reg_offset(s, a->rd);
4523 gen_sve_str(s, cpu_env, off, size, a->rn, a->imm * size);
4524 }
4525 return true;
4526 }
4527
4528 /*
4529 *** SVE Memory - Contiguous Load Group
4530 */
4531
4532 /* The memory mode of the dtype. */
4533 static const MemOp dtype_mop[16] = {
4534 MO_UB, MO_UB, MO_UB, MO_UB,
4535 MO_SL, MO_UW, MO_UW, MO_UW,
4536 MO_SW, MO_SW, MO_UL, MO_UL,
4537 MO_SB, MO_SB, MO_SB, MO_UQ
4538 };
4539
4540 #define dtype_msz(x) (dtype_mop[x] & MO_SIZE)
4541
4542 /* The vector element size of dtype. */
4543 static const uint8_t dtype_esz[16] = {
4544 0, 1, 2, 3,
4545 3, 1, 2, 3,
4546 3, 2, 2, 3,
4547 3, 2, 1, 3
4548 };
4549
4550 static void do_mem_zpa(DisasContext *s, int zt, int pg, TCGv_i64 addr,
4551 int dtype, uint32_t mte_n, bool is_write,
4552 gen_helper_gvec_mem *fn)
4553 {
4554 unsigned vsz = vec_full_reg_size(s);
4555 TCGv_ptr t_pg;
4556 int desc = 0;
4557
4558 /*
4559 * For e.g. LD4, there are not enough arguments to pass all 4
4560 * registers as pointers, so encode the regno into the data field.
4561 * For consistency, do this even for LD1.
4562 */
4563 if (s->mte_active[0]) {
4564 int msz = dtype_msz(dtype);
4565
4566 desc = FIELD_DP32(desc, MTEDESC, MIDX, get_mem_index(s));
4567 desc = FIELD_DP32(desc, MTEDESC, TBI, s->tbid);
4568 desc = FIELD_DP32(desc, MTEDESC, TCMA, s->tcma);
4569 desc = FIELD_DP32(desc, MTEDESC, WRITE, is_write);
4570 desc = FIELD_DP32(desc, MTEDESC, SIZEM1, (mte_n << msz) - 1);
4571 desc <<= SVE_MTEDESC_SHIFT;
4572 } else {
4573 addr = clean_data_tbi(s, addr);
4574 }
4575
4576 desc = simd_desc(vsz, vsz, zt | desc);
4577 t_pg = tcg_temp_new_ptr();
4578
4579 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, pg));
4580 fn(cpu_env, t_pg, addr, tcg_constant_i32(desc));
4581
4582 tcg_temp_free_ptr(t_pg);
4583 }
4584
4585 /* Indexed by [mte][be][dtype][nreg] */
4586 static gen_helper_gvec_mem * const ldr_fns[2][2][16][4] = {
4587 { /* mte inactive, little-endian */
4588 { { gen_helper_sve_ld1bb_r, gen_helper_sve_ld2bb_r,
4589 gen_helper_sve_ld3bb_r, gen_helper_sve_ld4bb_r },
4590 { gen_helper_sve_ld1bhu_r, NULL, NULL, NULL },
4591 { gen_helper_sve_ld1bsu_r, NULL, NULL, NULL },
4592 { gen_helper_sve_ld1bdu_r, NULL, NULL, NULL },
4593
4594 { gen_helper_sve_ld1sds_le_r, NULL, NULL, NULL },
4595 { gen_helper_sve_ld1hh_le_r, gen_helper_sve_ld2hh_le_r,
4596 gen_helper_sve_ld3hh_le_r, gen_helper_sve_ld4hh_le_r },
4597 { gen_helper_sve_ld1hsu_le_r, NULL, NULL, NULL },
4598 { gen_helper_sve_ld1hdu_le_r, NULL, NULL, NULL },
4599
4600 { gen_helper_sve_ld1hds_le_r, NULL, NULL, NULL },
4601 { gen_helper_sve_ld1hss_le_r, NULL, NULL, NULL },
4602 { gen_helper_sve_ld1ss_le_r, gen_helper_sve_ld2ss_le_r,
4603 gen_helper_sve_ld3ss_le_r, gen_helper_sve_ld4ss_le_r },
4604 { gen_helper_sve_ld1sdu_le_r, NULL, NULL, NULL },
4605
4606 { gen_helper_sve_ld1bds_r, NULL, NULL, NULL },
4607 { gen_helper_sve_ld1bss_r, NULL, NULL, NULL },
4608 { gen_helper_sve_ld1bhs_r, NULL, NULL, NULL },
4609 { gen_helper_sve_ld1dd_le_r, gen_helper_sve_ld2dd_le_r,
4610 gen_helper_sve_ld3dd_le_r, gen_helper_sve_ld4dd_le_r } },
4611
4612 /* mte inactive, big-endian */
4613 { { gen_helper_sve_ld1bb_r, gen_helper_sve_ld2bb_r,
4614 gen_helper_sve_ld3bb_r, gen_helper_sve_ld4bb_r },
4615 { gen_helper_sve_ld1bhu_r, NULL, NULL, NULL },
4616 { gen_helper_sve_ld1bsu_r, NULL, NULL, NULL },
4617 { gen_helper_sve_ld1bdu_r, NULL, NULL, NULL },
4618
4619 { gen_helper_sve_ld1sds_be_r, NULL, NULL, NULL },
4620 { gen_helper_sve_ld1hh_be_r, gen_helper_sve_ld2hh_be_r,
4621 gen_helper_sve_ld3hh_be_r, gen_helper_sve_ld4hh_be_r },
4622 { gen_helper_sve_ld1hsu_be_r, NULL, NULL, NULL },
4623 { gen_helper_sve_ld1hdu_be_r, NULL, NULL, NULL },
4624
4625 { gen_helper_sve_ld1hds_be_r, NULL, NULL, NULL },
4626 { gen_helper_sve_ld1hss_be_r, NULL, NULL, NULL },
4627 { gen_helper_sve_ld1ss_be_r, gen_helper_sve_ld2ss_be_r,
4628 gen_helper_sve_ld3ss_be_r, gen_helper_sve_ld4ss_be_r },
4629 { gen_helper_sve_ld1sdu_be_r, NULL, NULL, NULL },
4630
4631 { gen_helper_sve_ld1bds_r, NULL, NULL, NULL },
4632 { gen_helper_sve_ld1bss_r, NULL, NULL, NULL },
4633 { gen_helper_sve_ld1bhs_r, NULL, NULL, NULL },
4634 { gen_helper_sve_ld1dd_be_r, gen_helper_sve_ld2dd_be_r,
4635 gen_helper_sve_ld3dd_be_r, gen_helper_sve_ld4dd_be_r } } },
4636
4637 { /* mte active, little-endian */
4638 { { gen_helper_sve_ld1bb_r_mte,
4639 gen_helper_sve_ld2bb_r_mte,
4640 gen_helper_sve_ld3bb_r_mte,
4641 gen_helper_sve_ld4bb_r_mte },
4642 { gen_helper_sve_ld1bhu_r_mte, NULL, NULL, NULL },
4643 { gen_helper_sve_ld1bsu_r_mte, NULL, NULL, NULL },
4644 { gen_helper_sve_ld1bdu_r_mte, NULL, NULL, NULL },
4645
4646 { gen_helper_sve_ld1sds_le_r_mte, NULL, NULL, NULL },
4647 { gen_helper_sve_ld1hh_le_r_mte,
4648 gen_helper_sve_ld2hh_le_r_mte,
4649 gen_helper_sve_ld3hh_le_r_mte,
4650 gen_helper_sve_ld4hh_le_r_mte },
4651 { gen_helper_sve_ld1hsu_le_r_mte, NULL, NULL, NULL },
4652 { gen_helper_sve_ld1hdu_le_r_mte, NULL, NULL, NULL },
4653
4654 { gen_helper_sve_ld1hds_le_r_mte, NULL, NULL, NULL },
4655 { gen_helper_sve_ld1hss_le_r_mte, NULL, NULL, NULL },
4656 { gen_helper_sve_ld1ss_le_r_mte,
4657 gen_helper_sve_ld2ss_le_r_mte,
4658 gen_helper_sve_ld3ss_le_r_mte,
4659 gen_helper_sve_ld4ss_le_r_mte },
4660 { gen_helper_sve_ld1sdu_le_r_mte, NULL, NULL, NULL },
4661
4662 { gen_helper_sve_ld1bds_r_mte, NULL, NULL, NULL },
4663 { gen_helper_sve_ld1bss_r_mte, NULL, NULL, NULL },
4664 { gen_helper_sve_ld1bhs_r_mte, NULL, NULL, NULL },
4665 { gen_helper_sve_ld1dd_le_r_mte,
4666 gen_helper_sve_ld2dd_le_r_mte,
4667 gen_helper_sve_ld3dd_le_r_mte,
4668 gen_helper_sve_ld4dd_le_r_mte } },
4669
4670 /* mte active, big-endian */
4671 { { gen_helper_sve_ld1bb_r_mte,
4672 gen_helper_sve_ld2bb_r_mte,
4673 gen_helper_sve_ld3bb_r_mte,
4674 gen_helper_sve_ld4bb_r_mte },
4675 { gen_helper_sve_ld1bhu_r_mte, NULL, NULL, NULL },
4676 { gen_helper_sve_ld1bsu_r_mte, NULL, NULL, NULL },
4677 { gen_helper_sve_ld1bdu_r_mte, NULL, NULL, NULL },
4678
4679 { gen_helper_sve_ld1sds_be_r_mte, NULL, NULL, NULL },
4680 { gen_helper_sve_ld1hh_be_r_mte,
4681 gen_helper_sve_ld2hh_be_r_mte,
4682 gen_helper_sve_ld3hh_be_r_mte,
4683 gen_helper_sve_ld4hh_be_r_mte },
4684 { gen_helper_sve_ld1hsu_be_r_mte, NULL, NULL, NULL },
4685 { gen_helper_sve_ld1hdu_be_r_mte, NULL, NULL, NULL },
4686
4687 { gen_helper_sve_ld1hds_be_r_mte, NULL, NULL, NULL },
4688 { gen_helper_sve_ld1hss_be_r_mte, NULL, NULL, NULL },
4689 { gen_helper_sve_ld1ss_be_r_mte,
4690 gen_helper_sve_ld2ss_be_r_mte,
4691 gen_helper_sve_ld3ss_be_r_mte,
4692 gen_helper_sve_ld4ss_be_r_mte },
4693 { gen_helper_sve_ld1sdu_be_r_mte, NULL, NULL, NULL },
4694
4695 { gen_helper_sve_ld1bds_r_mte, NULL, NULL, NULL },
4696 { gen_helper_sve_ld1bss_r_mte, NULL, NULL, NULL },
4697 { gen_helper_sve_ld1bhs_r_mte, NULL, NULL, NULL },
4698 { gen_helper_sve_ld1dd_be_r_mte,
4699 gen_helper_sve_ld2dd_be_r_mte,
4700 gen_helper_sve_ld3dd_be_r_mte,
4701 gen_helper_sve_ld4dd_be_r_mte } } },
4702 };
4703
4704 static void do_ld_zpa(DisasContext *s, int zt, int pg,
4705 TCGv_i64 addr, int dtype, int nreg)
4706 {
4707 gen_helper_gvec_mem *fn
4708 = ldr_fns[s->mte_active[0]][s->be_data == MO_BE][dtype][nreg];
4709
4710 /*
4711 * While there are holes in the table, they are not
4712 * accessible via the instruction encoding.
4713 */
4714 assert(fn != NULL);
4715 do_mem_zpa(s, zt, pg, addr, dtype, nreg, false, fn);
4716 }
4717
4718 static bool trans_LD_zprr(DisasContext *s, arg_rprr_load *a)
4719 {
4720 if (a->rm == 31 || !dc_isar_feature(aa64_sve, s)) {
4721 return false;
4722 }
4723 if (sve_access_check(s)) {
4724 TCGv_i64 addr = tcg_temp_new_i64();
4725 tcg_gen_shli_i64(addr, cpu_reg(s, a->rm), dtype_msz(a->dtype));
4726 tcg_gen_add_i64(addr, addr, cpu_reg_sp(s, a->rn));
4727 do_ld_zpa(s, a->rd, a->pg, addr, a->dtype, a->nreg);
4728 }
4729 return true;
4730 }
4731
4732 static bool trans_LD_zpri(DisasContext *s, arg_rpri_load *a)
4733 {
4734 if (!dc_isar_feature(aa64_sve, s)) {
4735 return false;
4736 }
4737 if (sve_access_check(s)) {
4738 int vsz = vec_full_reg_size(s);
4739 int elements = vsz >> dtype_esz[a->dtype];
4740 TCGv_i64 addr = tcg_temp_new_i64();
4741
4742 tcg_gen_addi_i64(addr, cpu_reg_sp(s, a->rn),
4743 (a->imm * elements * (a->nreg + 1))
4744 << dtype_msz(a->dtype));
4745 do_ld_zpa(s, a->rd, a->pg, addr, a->dtype, a->nreg);
4746 }
4747 return true;
4748 }
4749
4750 static bool trans_LDFF1_zprr(DisasContext *s, arg_rprr_load *a)
4751 {
4752 static gen_helper_gvec_mem * const fns[2][2][16] = {
4753 { /* mte inactive, little-endian */
4754 { gen_helper_sve_ldff1bb_r,
4755 gen_helper_sve_ldff1bhu_r,
4756 gen_helper_sve_ldff1bsu_r,
4757 gen_helper_sve_ldff1bdu_r,
4758
4759 gen_helper_sve_ldff1sds_le_r,
4760 gen_helper_sve_ldff1hh_le_r,
4761 gen_helper_sve_ldff1hsu_le_r,
4762 gen_helper_sve_ldff1hdu_le_r,
4763
4764 gen_helper_sve_ldff1hds_le_r,
4765 gen_helper_sve_ldff1hss_le_r,
4766 gen_helper_sve_ldff1ss_le_r,
4767 gen_helper_sve_ldff1sdu_le_r,
4768
4769 gen_helper_sve_ldff1bds_r,
4770 gen_helper_sve_ldff1bss_r,
4771 gen_helper_sve_ldff1bhs_r,
4772 gen_helper_sve_ldff1dd_le_r },
4773
4774 /* mte inactive, big-endian */
4775 { gen_helper_sve_ldff1bb_r,
4776 gen_helper_sve_ldff1bhu_r,
4777 gen_helper_sve_ldff1bsu_r,
4778 gen_helper_sve_ldff1bdu_r,
4779
4780 gen_helper_sve_ldff1sds_be_r,
4781 gen_helper_sve_ldff1hh_be_r,
4782 gen_helper_sve_ldff1hsu_be_r,
4783 gen_helper_sve_ldff1hdu_be_r,
4784
4785 gen_helper_sve_ldff1hds_be_r,
4786 gen_helper_sve_ldff1hss_be_r,
4787 gen_helper_sve_ldff1ss_be_r,
4788 gen_helper_sve_ldff1sdu_be_r,
4789
4790 gen_helper_sve_ldff1bds_r,
4791 gen_helper_sve_ldff1bss_r,
4792 gen_helper_sve_ldff1bhs_r,
4793 gen_helper_sve_ldff1dd_be_r } },
4794
4795 { /* mte active, little-endian */
4796 { gen_helper_sve_ldff1bb_r_mte,
4797 gen_helper_sve_ldff1bhu_r_mte,
4798 gen_helper_sve_ldff1bsu_r_mte,
4799 gen_helper_sve_ldff1bdu_r_mte,
4800
4801 gen_helper_sve_ldff1sds_le_r_mte,
4802 gen_helper_sve_ldff1hh_le_r_mte,
4803 gen_helper_sve_ldff1hsu_le_r_mte,
4804 gen_helper_sve_ldff1hdu_le_r_mte,
4805
4806 gen_helper_sve_ldff1hds_le_r_mte,
4807 gen_helper_sve_ldff1hss_le_r_mte,
4808 gen_helper_sve_ldff1ss_le_r_mte,
4809 gen_helper_sve_ldff1sdu_le_r_mte,
4810
4811 gen_helper_sve_ldff1bds_r_mte,
4812 gen_helper_sve_ldff1bss_r_mte,
4813 gen_helper_sve_ldff1bhs_r_mte,
4814 gen_helper_sve_ldff1dd_le_r_mte },
4815
4816 /* mte active, big-endian */
4817 { gen_helper_sve_ldff1bb_r_mte,
4818 gen_helper_sve_ldff1bhu_r_mte,
4819 gen_helper_sve_ldff1bsu_r_mte,
4820 gen_helper_sve_ldff1bdu_r_mte,
4821
4822 gen_helper_sve_ldff1sds_be_r_mte,
4823 gen_helper_sve_ldff1hh_be_r_mte,
4824 gen_helper_sve_ldff1hsu_be_r_mte,
4825 gen_helper_sve_ldff1hdu_be_r_mte,
4826
4827 gen_helper_sve_ldff1hds_be_r_mte,
4828 gen_helper_sve_ldff1hss_be_r_mte,
4829 gen_helper_sve_ldff1ss_be_r_mte,
4830 gen_helper_sve_ldff1sdu_be_r_mte,
4831
4832 gen_helper_sve_ldff1bds_r_mte,
4833 gen_helper_sve_ldff1bss_r_mte,
4834 gen_helper_sve_ldff1bhs_r_mte,
4835 gen_helper_sve_ldff1dd_be_r_mte } },
4836 };
4837
4838 if (!dc_isar_feature(aa64_sve, s)) {
4839 return false;
4840 }
4841 s->is_nonstreaming = true;
4842 if (sve_access_check(s)) {
4843 TCGv_i64 addr = tcg_temp_new_i64();
4844 tcg_gen_shli_i64(addr, cpu_reg(s, a->rm), dtype_msz(a->dtype));
4845 tcg_gen_add_i64(addr, addr, cpu_reg_sp(s, a->rn));
4846 do_mem_zpa(s, a->rd, a->pg, addr, a->dtype, 1, false,
4847 fns[s->mte_active[0]][s->be_data == MO_BE][a->dtype]);
4848 }
4849 return true;
4850 }
4851
4852 static bool trans_LDNF1_zpri(DisasContext *s, arg_rpri_load *a)
4853 {
4854 static gen_helper_gvec_mem * const fns[2][2][16] = {
4855 { /* mte inactive, little-endian */
4856 { gen_helper_sve_ldnf1bb_r,
4857 gen_helper_sve_ldnf1bhu_r,
4858 gen_helper_sve_ldnf1bsu_r,
4859 gen_helper_sve_ldnf1bdu_r,
4860
4861 gen_helper_sve_ldnf1sds_le_r,
4862 gen_helper_sve_ldnf1hh_le_r,
4863 gen_helper_sve_ldnf1hsu_le_r,
4864 gen_helper_sve_ldnf1hdu_le_r,
4865
4866 gen_helper_sve_ldnf1hds_le_r,
4867 gen_helper_sve_ldnf1hss_le_r,
4868 gen_helper_sve_ldnf1ss_le_r,
4869 gen_helper_sve_ldnf1sdu_le_r,
4870
4871 gen_helper_sve_ldnf1bds_r,
4872 gen_helper_sve_ldnf1bss_r,
4873 gen_helper_sve_ldnf1bhs_r,
4874 gen_helper_sve_ldnf1dd_le_r },
4875
4876 /* mte inactive, big-endian */
4877 { gen_helper_sve_ldnf1bb_r,
4878 gen_helper_sve_ldnf1bhu_r,
4879 gen_helper_sve_ldnf1bsu_r,
4880 gen_helper_sve_ldnf1bdu_r,
4881
4882 gen_helper_sve_ldnf1sds_be_r,
4883 gen_helper_sve_ldnf1hh_be_r,
4884 gen_helper_sve_ldnf1hsu_be_r,
4885 gen_helper_sve_ldnf1hdu_be_r,
4886
4887 gen_helper_sve_ldnf1hds_be_r,
4888 gen_helper_sve_ldnf1hss_be_r,
4889 gen_helper_sve_ldnf1ss_be_r,
4890 gen_helper_sve_ldnf1sdu_be_r,
4891
4892 gen_helper_sve_ldnf1bds_r,
4893 gen_helper_sve_ldnf1bss_r,
4894 gen_helper_sve_ldnf1bhs_r,
4895 gen_helper_sve_ldnf1dd_be_r } },
4896
4897 { /* mte inactive, little-endian */
4898 { gen_helper_sve_ldnf1bb_r_mte,
4899 gen_helper_sve_ldnf1bhu_r_mte,
4900 gen_helper_sve_ldnf1bsu_r_mte,
4901 gen_helper_sve_ldnf1bdu_r_mte,
4902
4903 gen_helper_sve_ldnf1sds_le_r_mte,
4904 gen_helper_sve_ldnf1hh_le_r_mte,
4905 gen_helper_sve_ldnf1hsu_le_r_mte,
4906 gen_helper_sve_ldnf1hdu_le_r_mte,
4907
4908 gen_helper_sve_ldnf1hds_le_r_mte,
4909 gen_helper_sve_ldnf1hss_le_r_mte,
4910 gen_helper_sve_ldnf1ss_le_r_mte,
4911 gen_helper_sve_ldnf1sdu_le_r_mte,
4912
4913 gen_helper_sve_ldnf1bds_r_mte,
4914 gen_helper_sve_ldnf1bss_r_mte,
4915 gen_helper_sve_ldnf1bhs_r_mte,
4916 gen_helper_sve_ldnf1dd_le_r_mte },
4917
4918 /* mte inactive, big-endian */
4919 { gen_helper_sve_ldnf1bb_r_mte,
4920 gen_helper_sve_ldnf1bhu_r_mte,
4921 gen_helper_sve_ldnf1bsu_r_mte,
4922 gen_helper_sve_ldnf1bdu_r_mte,
4923
4924 gen_helper_sve_ldnf1sds_be_r_mte,
4925 gen_helper_sve_ldnf1hh_be_r_mte,
4926 gen_helper_sve_ldnf1hsu_be_r_mte,
4927 gen_helper_sve_ldnf1hdu_be_r_mte,
4928
4929 gen_helper_sve_ldnf1hds_be_r_mte,
4930 gen_helper_sve_ldnf1hss_be_r_mte,
4931 gen_helper_sve_ldnf1ss_be_r_mte,
4932 gen_helper_sve_ldnf1sdu_be_r_mte,
4933
4934 gen_helper_sve_ldnf1bds_r_mte,
4935 gen_helper_sve_ldnf1bss_r_mte,
4936 gen_helper_sve_ldnf1bhs_r_mte,
4937 gen_helper_sve_ldnf1dd_be_r_mte } },
4938 };
4939
4940 if (!dc_isar_feature(aa64_sve, s)) {
4941 return false;
4942 }
4943 s->is_nonstreaming = true;
4944 if (sve_access_check(s)) {
4945 int vsz = vec_full_reg_size(s);
4946 int elements = vsz >> dtype_esz[a->dtype];
4947 int off = (a->imm * elements) << dtype_msz(a->dtype);
4948 TCGv_i64 addr = tcg_temp_new_i64();
4949
4950 tcg_gen_addi_i64(addr, cpu_reg_sp(s, a->rn), off);
4951 do_mem_zpa(s, a->rd, a->pg, addr, a->dtype, 1, false,
4952 fns[s->mte_active[0]][s->be_data == MO_BE][a->dtype]);
4953 }
4954 return true;
4955 }
4956
4957 static void do_ldrq(DisasContext *s, int zt, int pg, TCGv_i64 addr, int dtype)
4958 {
4959 unsigned vsz = vec_full_reg_size(s);
4960 TCGv_ptr t_pg;
4961 int poff;
4962
4963 /* Load the first quadword using the normal predicated load helpers. */
4964 poff = pred_full_reg_offset(s, pg);
4965 if (vsz > 16) {
4966 /*
4967 * Zero-extend the first 16 bits of the predicate into a temporary.
4968 * This avoids triggering an assert making sure we don't have bits
4969 * set within a predicate beyond VQ, but we have lowered VQ to 1
4970 * for this load operation.
4971 */
4972 TCGv_i64 tmp = tcg_temp_new_i64();
4973 #if HOST_BIG_ENDIAN
4974 poff += 6;
4975 #endif
4976 tcg_gen_ld16u_i64(tmp, cpu_env, poff);
4977
4978 poff = offsetof(CPUARMState, vfp.preg_tmp);
4979 tcg_gen_st_i64(tmp, cpu_env, poff);
4980 tcg_temp_free_i64(tmp);
4981 }
4982
4983 t_pg = tcg_temp_new_ptr();
4984 tcg_gen_addi_ptr(t_pg, cpu_env, poff);
4985
4986 gen_helper_gvec_mem *fn
4987 = ldr_fns[s->mte_active[0]][s->be_data == MO_BE][dtype][0];
4988 fn(cpu_env, t_pg, addr, tcg_constant_i32(simd_desc(16, 16, zt)));
4989
4990 tcg_temp_free_ptr(t_pg);
4991
4992 /* Replicate that first quadword. */
4993 if (vsz > 16) {
4994 int doff = vec_full_reg_offset(s, zt);
4995 tcg_gen_gvec_dup_mem(4, doff + 16, doff, vsz - 16, vsz - 16);
4996 }
4997 }
4998
4999 static bool trans_LD1RQ_zprr(DisasContext *s, arg_rprr_load *a)
5000 {
5001 if (a->rm == 31 || !dc_isar_feature(aa64_sve, s)) {
5002 return false;
5003 }
5004 if (sve_access_check(s)) {
5005 int msz = dtype_msz(a->dtype);
5006 TCGv_i64 addr = tcg_temp_new_i64();
5007 tcg_gen_shli_i64(addr, cpu_reg(s, a->rm), msz);
5008 tcg_gen_add_i64(addr, addr, cpu_reg_sp(s, a->rn));
5009 do_ldrq(s, a->rd, a->pg, addr, a->dtype);
5010 }
5011 return true;
5012 }
5013
5014 static bool trans_LD1RQ_zpri(DisasContext *s, arg_rpri_load *a)
5015 {
5016 if (!dc_isar_feature(aa64_sve, s)) {
5017 return false;
5018 }
5019 if (sve_access_check(s)) {
5020 TCGv_i64 addr = tcg_temp_new_i64();
5021 tcg_gen_addi_i64(addr, cpu_reg_sp(s, a->rn), a->imm * 16);
5022 do_ldrq(s, a->rd, a->pg, addr, a->dtype);
5023 }
5024 return true;
5025 }
5026
5027 static void do_ldro(DisasContext *s, int zt, int pg, TCGv_i64 addr, int dtype)
5028 {
5029 unsigned vsz = vec_full_reg_size(s);
5030 unsigned vsz_r32;
5031 TCGv_ptr t_pg;
5032 int poff, doff;
5033
5034 if (vsz < 32) {
5035 /*
5036 * Note that this UNDEFINED check comes after CheckSVEEnabled()
5037 * in the ARM pseudocode, which is the sve_access_check() done
5038 * in our caller. We should not now return false from the caller.
5039 */
5040 unallocated_encoding(s);
5041 return;
5042 }
5043
5044 /* Load the first octaword using the normal predicated load helpers. */
5045
5046 poff = pred_full_reg_offset(s, pg);
5047 if (vsz > 32) {
5048 /*
5049 * Zero-extend the first 32 bits of the predicate into a temporary.
5050 * This avoids triggering an assert making sure we don't have bits
5051 * set within a predicate beyond VQ, but we have lowered VQ to 2
5052 * for this load operation.
5053 */
5054 TCGv_i64 tmp = tcg_temp_new_i64();
5055 #if HOST_BIG_ENDIAN
5056 poff += 4;
5057 #endif
5058 tcg_gen_ld32u_i64(tmp, cpu_env, poff);
5059
5060 poff = offsetof(CPUARMState, vfp.preg_tmp);
5061 tcg_gen_st_i64(tmp, cpu_env, poff);
5062 tcg_temp_free_i64(tmp);
5063 }
5064
5065 t_pg = tcg_temp_new_ptr();
5066 tcg_gen_addi_ptr(t_pg, cpu_env, poff);
5067
5068 gen_helper_gvec_mem *fn
5069 = ldr_fns[s->mte_active[0]][s->be_data == MO_BE][dtype][0];
5070 fn(cpu_env, t_pg, addr, tcg_constant_i32(simd_desc(32, 32, zt)));
5071
5072 tcg_temp_free_ptr(t_pg);
5073
5074 /*
5075 * Replicate that first octaword.
5076 * The replication happens in units of 32; if the full vector size
5077 * is not a multiple of 32, the final bits are zeroed.
5078 */
5079 doff = vec_full_reg_offset(s, zt);
5080 vsz_r32 = QEMU_ALIGN_DOWN(vsz, 32);
5081 if (vsz >= 64) {
5082 tcg_gen_gvec_dup_mem(5, doff + 32, doff, vsz_r32 - 32, vsz_r32 - 32);
5083 }
5084 vsz -= vsz_r32;
5085 if (vsz) {
5086 tcg_gen_gvec_dup_imm(MO_64, doff + vsz_r32, vsz, vsz, 0);
5087 }
5088 }
5089
5090 static bool trans_LD1RO_zprr(DisasContext *s, arg_rprr_load *a)
5091 {
5092 if (!dc_isar_feature(aa64_sve_f64mm, s)) {
5093 return false;
5094 }
5095 if (a->rm == 31) {
5096 return false;
5097 }
5098 s->is_nonstreaming = true;
5099 if (sve_access_check(s)) {
5100 TCGv_i64 addr = tcg_temp_new_i64();
5101 tcg_gen_shli_i64(addr, cpu_reg(s, a->rm), dtype_msz(a->dtype));
5102 tcg_gen_add_i64(addr, addr, cpu_reg_sp(s, a->rn));
5103 do_ldro(s, a->rd, a->pg, addr, a->dtype);
5104 }
5105 return true;
5106 }
5107
5108 static bool trans_LD1RO_zpri(DisasContext *s, arg_rpri_load *a)
5109 {
5110 if (!dc_isar_feature(aa64_sve_f64mm, s)) {
5111 return false;
5112 }
5113 s->is_nonstreaming = true;
5114 if (sve_access_check(s)) {
5115 TCGv_i64 addr = tcg_temp_new_i64();
5116 tcg_gen_addi_i64(addr, cpu_reg_sp(s, a->rn), a->imm * 32);
5117 do_ldro(s, a->rd, a->pg, addr, a->dtype);
5118 }
5119 return true;
5120 }
5121
5122 /* Load and broadcast element. */
5123 static bool trans_LD1R_zpri(DisasContext *s, arg_rpri_load *a)
5124 {
5125 unsigned vsz = vec_full_reg_size(s);
5126 unsigned psz = pred_full_reg_size(s);
5127 unsigned esz = dtype_esz[a->dtype];
5128 unsigned msz = dtype_msz(a->dtype);
5129 TCGLabel *over;
5130 TCGv_i64 temp, clean_addr;
5131
5132 if (!dc_isar_feature(aa64_sve, s)) {
5133 return false;
5134 }
5135 if (!sve_access_check(s)) {
5136 return true;
5137 }
5138
5139 over = gen_new_label();
5140
5141 /* If the guarding predicate has no bits set, no load occurs. */
5142 if (psz <= 8) {
5143 /* Reduce the pred_esz_masks value simply to reduce the
5144 * size of the code generated here.
5145 */
5146 uint64_t psz_mask = MAKE_64BIT_MASK(0, psz * 8);
5147 temp = tcg_temp_new_i64();
5148 tcg_gen_ld_i64(temp, cpu_env, pred_full_reg_offset(s, a->pg));
5149 tcg_gen_andi_i64(temp, temp, pred_esz_masks[esz] & psz_mask);
5150 tcg_gen_brcondi_i64(TCG_COND_EQ, temp, 0, over);
5151 tcg_temp_free_i64(temp);
5152 } else {
5153 TCGv_i32 t32 = tcg_temp_new_i32();
5154 find_last_active(s, t32, esz, a->pg);
5155 tcg_gen_brcondi_i32(TCG_COND_LT, t32, 0, over);
5156 tcg_temp_free_i32(t32);
5157 }
5158
5159 /* Load the data. */
5160 temp = tcg_temp_new_i64();
5161 tcg_gen_addi_i64(temp, cpu_reg_sp(s, a->rn), a->imm << msz);
5162 clean_addr = gen_mte_check1(s, temp, false, true, msz);
5163
5164 tcg_gen_qemu_ld_i64(temp, clean_addr, get_mem_index(s),
5165 finalize_memop(s, dtype_mop[a->dtype]));
5166
5167 /* Broadcast to *all* elements. */
5168 tcg_gen_gvec_dup_i64(esz, vec_full_reg_offset(s, a->rd),
5169 vsz, vsz, temp);
5170 tcg_temp_free_i64(temp);
5171
5172 /* Zero the inactive elements. */
5173 gen_set_label(over);
5174 return do_movz_zpz(s, a->rd, a->rd, a->pg, esz, false);
5175 }
5176
5177 static void do_st_zpa(DisasContext *s, int zt, int pg, TCGv_i64 addr,
5178 int msz, int esz, int nreg)
5179 {
5180 static gen_helper_gvec_mem * const fn_single[2][2][4][4] = {
5181 { { { gen_helper_sve_st1bb_r,
5182 gen_helper_sve_st1bh_r,
5183 gen_helper_sve_st1bs_r,
5184 gen_helper_sve_st1bd_r },
5185 { NULL,
5186 gen_helper_sve_st1hh_le_r,
5187 gen_helper_sve_st1hs_le_r,
5188 gen_helper_sve_st1hd_le_r },
5189 { NULL, NULL,
5190 gen_helper_sve_st1ss_le_r,
5191 gen_helper_sve_st1sd_le_r },
5192 { NULL, NULL, NULL,
5193 gen_helper_sve_st1dd_le_r } },
5194 { { gen_helper_sve_st1bb_r,
5195 gen_helper_sve_st1bh_r,
5196 gen_helper_sve_st1bs_r,
5197 gen_helper_sve_st1bd_r },
5198 { NULL,
5199 gen_helper_sve_st1hh_be_r,
5200 gen_helper_sve_st1hs_be_r,
5201 gen_helper_sve_st1hd_be_r },
5202 { NULL, NULL,
5203 gen_helper_sve_st1ss_be_r,
5204 gen_helper_sve_st1sd_be_r },
5205 { NULL, NULL, NULL,
5206 gen_helper_sve_st1dd_be_r } } },
5207
5208 { { { gen_helper_sve_st1bb_r_mte,
5209 gen_helper_sve_st1bh_r_mte,
5210 gen_helper_sve_st1bs_r_mte,
5211 gen_helper_sve_st1bd_r_mte },
5212 { NULL,
5213 gen_helper_sve_st1hh_le_r_mte,
5214 gen_helper_sve_st1hs_le_r_mte,
5215 gen_helper_sve_st1hd_le_r_mte },
5216 { NULL, NULL,
5217 gen_helper_sve_st1ss_le_r_mte,
5218 gen_helper_sve_st1sd_le_r_mte },
5219 { NULL, NULL, NULL,
5220 gen_helper_sve_st1dd_le_r_mte } },
5221 { { gen_helper_sve_st1bb_r_mte,
5222 gen_helper_sve_st1bh_r_mte,
5223 gen_helper_sve_st1bs_r_mte,
5224 gen_helper_sve_st1bd_r_mte },
5225 { NULL,
5226 gen_helper_sve_st1hh_be_r_mte,
5227 gen_helper_sve_st1hs_be_r_mte,
5228 gen_helper_sve_st1hd_be_r_mte },
5229 { NULL, NULL,
5230 gen_helper_sve_st1ss_be_r_mte,
5231 gen_helper_sve_st1sd_be_r_mte },
5232 { NULL, NULL, NULL,
5233 gen_helper_sve_st1dd_be_r_mte } } },
5234 };
5235 static gen_helper_gvec_mem * const fn_multiple[2][2][3][4] = {
5236 { { { gen_helper_sve_st2bb_r,
5237 gen_helper_sve_st2hh_le_r,
5238 gen_helper_sve_st2ss_le_r,
5239 gen_helper_sve_st2dd_le_r },
5240 { gen_helper_sve_st3bb_r,
5241 gen_helper_sve_st3hh_le_r,
5242 gen_helper_sve_st3ss_le_r,
5243 gen_helper_sve_st3dd_le_r },
5244 { gen_helper_sve_st4bb_r,
5245 gen_helper_sve_st4hh_le_r,
5246 gen_helper_sve_st4ss_le_r,
5247 gen_helper_sve_st4dd_le_r } },
5248 { { gen_helper_sve_st2bb_r,
5249 gen_helper_sve_st2hh_be_r,
5250 gen_helper_sve_st2ss_be_r,
5251 gen_helper_sve_st2dd_be_r },
5252 { gen_helper_sve_st3bb_r,
5253 gen_helper_sve_st3hh_be_r,
5254 gen_helper_sve_st3ss_be_r,
5255 gen_helper_sve_st3dd_be_r },
5256 { gen_helper_sve_st4bb_r,
5257 gen_helper_sve_st4hh_be_r,
5258 gen_helper_sve_st4ss_be_r,
5259 gen_helper_sve_st4dd_be_r } } },
5260 { { { gen_helper_sve_st2bb_r_mte,
5261 gen_helper_sve_st2hh_le_r_mte,
5262 gen_helper_sve_st2ss_le_r_mte,
5263 gen_helper_sve_st2dd_le_r_mte },
5264 { gen_helper_sve_st3bb_r_mte,
5265 gen_helper_sve_st3hh_le_r_mte,
5266 gen_helper_sve_st3ss_le_r_mte,
5267 gen_helper_sve_st3dd_le_r_mte },
5268 { gen_helper_sve_st4bb_r_mte,
5269 gen_helper_sve_st4hh_le_r_mte,
5270 gen_helper_sve_st4ss_le_r_mte,
5271 gen_helper_sve_st4dd_le_r_mte } },
5272 { { gen_helper_sve_st2bb_r_mte,
5273 gen_helper_sve_st2hh_be_r_mte,
5274 gen_helper_sve_st2ss_be_r_mte,
5275 gen_helper_sve_st2dd_be_r_mte },
5276 { gen_helper_sve_st3bb_r_mte,
5277 gen_helper_sve_st3hh_be_r_mte,
5278 gen_helper_sve_st3ss_be_r_mte,
5279 gen_helper_sve_st3dd_be_r_mte },
5280 { gen_helper_sve_st4bb_r_mte,
5281 gen_helper_sve_st4hh_be_r_mte,
5282 gen_helper_sve_st4ss_be_r_mte,
5283 gen_helper_sve_st4dd_be_r_mte } } },
5284 };
5285 gen_helper_gvec_mem *fn;
5286 int be = s->be_data == MO_BE;
5287
5288 if (nreg == 0) {
5289 /* ST1 */
5290 fn = fn_single[s->mte_active[0]][be][msz][esz];
5291 nreg = 1;
5292 } else {
5293 /* ST2, ST3, ST4 -- msz == esz, enforced by encoding */
5294 assert(msz == esz);
5295 fn = fn_multiple[s->mte_active[0]][be][nreg - 1][msz];
5296 }
5297 assert(fn != NULL);
5298 do_mem_zpa(s, zt, pg, addr, msz_dtype(s, msz), nreg, true, fn);
5299 }
5300
5301 static bool trans_ST_zprr(DisasContext *s, arg_rprr_store *a)
5302 {
5303 if (!dc_isar_feature(aa64_sve, s)) {
5304 return false;
5305 }
5306 if (a->rm == 31 || a->msz > a->esz) {
5307 return false;
5308 }
5309 if (sve_access_check(s)) {
5310 TCGv_i64 addr = tcg_temp_new_i64();
5311 tcg_gen_shli_i64(addr, cpu_reg(s, a->rm), a->msz);
5312 tcg_gen_add_i64(addr, addr, cpu_reg_sp(s, a->rn));
5313 do_st_zpa(s, a->rd, a->pg, addr, a->msz, a->esz, a->nreg);
5314 }
5315 return true;
5316 }
5317
5318 static bool trans_ST_zpri(DisasContext *s, arg_rpri_store *a)
5319 {
5320 if (!dc_isar_feature(aa64_sve, s)) {
5321 return false;
5322 }
5323 if (a->msz > a->esz) {
5324 return false;
5325 }
5326 if (sve_access_check(s)) {
5327 int vsz = vec_full_reg_size(s);
5328 int elements = vsz >> a->esz;
5329 TCGv_i64 addr = tcg_temp_new_i64();
5330
5331 tcg_gen_addi_i64(addr, cpu_reg_sp(s, a->rn),
5332 (a->imm * elements * (a->nreg + 1)) << a->msz);
5333 do_st_zpa(s, a->rd, a->pg, addr, a->msz, a->esz, a->nreg);
5334 }
5335 return true;
5336 }
5337
5338 /*
5339 *** SVE gather loads / scatter stores
5340 */
5341
5342 static void do_mem_zpz(DisasContext *s, int zt, int pg, int zm,
5343 int scale, TCGv_i64 scalar, int msz, bool is_write,
5344 gen_helper_gvec_mem_scatter *fn)
5345 {
5346 unsigned vsz = vec_full_reg_size(s);
5347 TCGv_ptr t_zm = tcg_temp_new_ptr();
5348 TCGv_ptr t_pg = tcg_temp_new_ptr();
5349 TCGv_ptr t_zt = tcg_temp_new_ptr();
5350 int desc = 0;
5351
5352 if (s->mte_active[0]) {
5353 desc = FIELD_DP32(desc, MTEDESC, MIDX, get_mem_index(s));
5354 desc = FIELD_DP32(desc, MTEDESC, TBI, s->tbid);
5355 desc = FIELD_DP32(desc, MTEDESC, TCMA, s->tcma);
5356 desc = FIELD_DP32(desc, MTEDESC, WRITE, is_write);
5357 desc = FIELD_DP32(desc, MTEDESC, SIZEM1, (1 << msz) - 1);
5358 desc <<= SVE_MTEDESC_SHIFT;
5359 }
5360 desc = simd_desc(vsz, vsz, desc | scale);
5361
5362 tcg_gen_addi_ptr(t_pg, cpu_env, pred_full_reg_offset(s, pg));
5363 tcg_gen_addi_ptr(t_zm, cpu_env, vec_full_reg_offset(s, zm));
5364 tcg_gen_addi_ptr(t_zt, cpu_env, vec_full_reg_offset(s, zt));
5365 fn(cpu_env, t_zt, t_pg, t_zm, scalar, tcg_constant_i32(desc));
5366
5367 tcg_temp_free_ptr(t_zt);
5368 tcg_temp_free_ptr(t_zm);
5369 tcg_temp_free_ptr(t_pg);
5370 }
5371
5372 /* Indexed by [mte][be][ff][xs][u][msz]. */
5373 static gen_helper_gvec_mem_scatter * const
5374 gather_load_fn32[2][2][2][2][2][3] = {
5375 { /* MTE Inactive */
5376 { /* Little-endian */
5377 { { { gen_helper_sve_ldbss_zsu,
5378 gen_helper_sve_ldhss_le_zsu,
5379 NULL, },
5380 { gen_helper_sve_ldbsu_zsu,
5381 gen_helper_sve_ldhsu_le_zsu,
5382 gen_helper_sve_ldss_le_zsu, } },
5383 { { gen_helper_sve_ldbss_zss,
5384 gen_helper_sve_ldhss_le_zss,
5385 NULL, },
5386 { gen_helper_sve_ldbsu_zss,
5387 gen_helper_sve_ldhsu_le_zss,
5388 gen_helper_sve_ldss_le_zss, } } },
5389
5390 /* First-fault */
5391 { { { gen_helper_sve_ldffbss_zsu,
5392 gen_helper_sve_ldffhss_le_zsu,
5393 NULL, },
5394 { gen_helper_sve_ldffbsu_zsu,
5395 gen_helper_sve_ldffhsu_le_zsu,
5396 gen_helper_sve_ldffss_le_zsu, } },
5397 { { gen_helper_sve_ldffbss_zss,
5398 gen_helper_sve_ldffhss_le_zss,
5399 NULL, },
5400 { gen_helper_sve_ldffbsu_zss,
5401 gen_helper_sve_ldffhsu_le_zss,
5402 gen_helper_sve_ldffss_le_zss, } } } },
5403
5404 { /* Big-endian */
5405 { { { gen_helper_sve_ldbss_zsu,
5406 gen_helper_sve_ldhss_be_zsu,
5407 NULL, },
5408 { gen_helper_sve_ldbsu_zsu,
5409 gen_helper_sve_ldhsu_be_zsu,
5410 gen_helper_sve_ldss_be_zsu, } },
5411 { { gen_helper_sve_ldbss_zss,
5412 gen_helper_sve_ldhss_be_zss,
5413 NULL, },
5414 { gen_helper_sve_ldbsu_zss,
5415 gen_helper_sve_ldhsu_be_zss,
5416 gen_helper_sve_ldss_be_zss, } } },
5417
5418 /* First-fault */
5419 { { { gen_helper_sve_ldffbss_zsu,
5420 gen_helper_sve_ldffhss_be_zsu,
5421 NULL, },
5422 { gen_helper_sve_ldffbsu_zsu,
5423 gen_helper_sve_ldffhsu_be_zsu,
5424 gen_helper_sve_ldffss_be_zsu, } },
5425 { { gen_helper_sve_ldffbss_zss,
5426 gen_helper_sve_ldffhss_be_zss,
5427 NULL, },
5428 { gen_helper_sve_ldffbsu_zss,
5429 gen_helper_sve_ldffhsu_be_zss,
5430 gen_helper_sve_ldffss_be_zss, } } } } },
5431 { /* MTE Active */
5432 { /* Little-endian */
5433 { { { gen_helper_sve_ldbss_zsu_mte,
5434 gen_helper_sve_ldhss_le_zsu_mte,
5435 NULL, },
5436 { gen_helper_sve_ldbsu_zsu_mte,
5437 gen_helper_sve_ldhsu_le_zsu_mte,
5438 gen_helper_sve_ldss_le_zsu_mte, } },
5439 { { gen_helper_sve_ldbss_zss_mte,
5440 gen_helper_sve_ldhss_le_zss_mte,
5441 NULL, },
5442 { gen_helper_sve_ldbsu_zss_mte,
5443 gen_helper_sve_ldhsu_le_zss_mte,
5444 gen_helper_sve_ldss_le_zss_mte, } } },
5445
5446 /* First-fault */
5447 { { { gen_helper_sve_ldffbss_zsu_mte,
5448 gen_helper_sve_ldffhss_le_zsu_mte,
5449 NULL, },
5450 { gen_helper_sve_ldffbsu_zsu_mte,
5451 gen_helper_sve_ldffhsu_le_zsu_mte,
5452 gen_helper_sve_ldffss_le_zsu_mte, } },
5453 { { gen_helper_sve_ldffbss_zss_mte,
5454 gen_helper_sve_ldffhss_le_zss_mte,
5455 NULL, },
5456 { gen_helper_sve_ldffbsu_zss_mte,
5457 gen_helper_sve_ldffhsu_le_zss_mte,
5458 gen_helper_sve_ldffss_le_zss_mte, } } } },
5459
5460 { /* Big-endian */
5461 { { { gen_helper_sve_ldbss_zsu_mte,
5462 gen_helper_sve_ldhss_be_zsu_mte,
5463 NULL, },
5464 { gen_helper_sve_ldbsu_zsu_mte,
5465 gen_helper_sve_ldhsu_be_zsu_mte,
5466 gen_helper_sve_ldss_be_zsu_mte, } },
5467 { { gen_helper_sve_ldbss_zss_mte,
5468 gen_helper_sve_ldhss_be_zss_mte,
5469 NULL, },
5470 { gen_helper_sve_ldbsu_zss_mte,
5471 gen_helper_sve_ldhsu_be_zss_mte,
5472 gen_helper_sve_ldss_be_zss_mte, } } },
5473
5474 /* First-fault */
5475 { { { gen_helper_sve_ldffbss_zsu_mte,
5476 gen_helper_sve_ldffhss_be_zsu_mte,
5477 NULL, },
5478 { gen_helper_sve_ldffbsu_zsu_mte,
5479 gen_helper_sve_ldffhsu_be_zsu_mte,
5480 gen_helper_sve_ldffss_be_zsu_mte, } },
5481 { { gen_helper_sve_ldffbss_zss_mte,
5482 gen_helper_sve_ldffhss_be_zss_mte,
5483 NULL, },
5484 { gen_helper_sve_ldffbsu_zss_mte,
5485 gen_helper_sve_ldffhsu_be_zss_mte,
5486 gen_helper_sve_ldffss_be_zss_mte, } } } } },
5487 };
5488
5489 /* Note that we overload xs=2 to indicate 64-bit offset. */
5490 static gen_helper_gvec_mem_scatter * const
5491 gather_load_fn64[2][2][2][3][2][4] = {
5492 { /* MTE Inactive */
5493 { /* Little-endian */
5494 { { { gen_helper_sve_ldbds_zsu,
5495 gen_helper_sve_ldhds_le_zsu,
5496 gen_helper_sve_ldsds_le_zsu,
5497 NULL, },
5498 { gen_helper_sve_ldbdu_zsu,
5499 gen_helper_sve_ldhdu_le_zsu,
5500 gen_helper_sve_ldsdu_le_zsu,
5501 gen_helper_sve_lddd_le_zsu, } },
5502 { { gen_helper_sve_ldbds_zss,
5503 gen_helper_sve_ldhds_le_zss,
5504 gen_helper_sve_ldsds_le_zss,
5505 NULL, },
5506 { gen_helper_sve_ldbdu_zss,
5507 gen_helper_sve_ldhdu_le_zss,
5508 gen_helper_sve_ldsdu_le_zss,
5509 gen_helper_sve_lddd_le_zss, } },
5510 { { gen_helper_sve_ldbds_zd,
5511 gen_helper_sve_ldhds_le_zd,
5512 gen_helper_sve_ldsds_le_zd,
5513 NULL, },
5514 { gen_helper_sve_ldbdu_zd,
5515 gen_helper_sve_ldhdu_le_zd,
5516 gen_helper_sve_ldsdu_le_zd,
5517 gen_helper_sve_lddd_le_zd, } } },
5518
5519 /* First-fault */
5520 { { { gen_helper_sve_ldffbds_zsu,
5521 gen_helper_sve_ldffhds_le_zsu,
5522 gen_helper_sve_ldffsds_le_zsu,
5523 NULL, },
5524 { gen_helper_sve_ldffbdu_zsu,
5525 gen_helper_sve_ldffhdu_le_zsu,
5526 gen_helper_sve_ldffsdu_le_zsu,
5527 gen_helper_sve_ldffdd_le_zsu, } },
5528 { { gen_helper_sve_ldffbds_zss,
5529 gen_helper_sve_ldffhds_le_zss,
5530 gen_helper_sve_ldffsds_le_zss,
5531 NULL, },
5532 { gen_helper_sve_ldffbdu_zss,
5533 gen_helper_sve_ldffhdu_le_zss,
5534 gen_helper_sve_ldffsdu_le_zss,
5535 gen_helper_sve_ldffdd_le_zss, } },
5536 { { gen_helper_sve_ldffbds_zd,
5537 gen_helper_sve_ldffhds_le_zd,
5538 gen_helper_sve_ldffsds_le_zd,
5539 NULL, },
5540 { gen_helper_sve_ldffbdu_zd,
5541 gen_helper_sve_ldffhdu_le_zd,
5542 gen_helper_sve_ldffsdu_le_zd,
5543 gen_helper_sve_ldffdd_le_zd, } } } },
5544 { /* Big-endian */
5545 { { { gen_helper_sve_ldbds_zsu,
5546 gen_helper_sve_ldhds_be_zsu,
5547 gen_helper_sve_ldsds_be_zsu,
5548 NULL, },
5549 { gen_helper_sve_ldbdu_zsu,
5550 gen_helper_sve_ldhdu_be_zsu,
5551 gen_helper_sve_ldsdu_be_zsu,
5552 gen_helper_sve_lddd_be_zsu, } },
5553 { { gen_helper_sve_ldbds_zss,
5554 gen_helper_sve_ldhds_be_zss,
5555 gen_helper_sve_ldsds_be_zss,
5556 NULL, },
5557 { gen_helper_sve_ldbdu_zss,
5558 gen_helper_sve_ldhdu_be_zss,
5559 gen_helper_sve_ldsdu_be_zss,
5560 gen_helper_sve_lddd_be_zss, } },
5561 { { gen_helper_sve_ldbds_zd,
5562 gen_helper_sve_ldhds_be_zd,
5563 gen_helper_sve_ldsds_be_zd,
5564 NULL, },
5565 { gen_helper_sve_ldbdu_zd,
5566 gen_helper_sve_ldhdu_be_zd,
5567 gen_helper_sve_ldsdu_be_zd,
5568 gen_helper_sve_lddd_be_zd, } } },
5569
5570 /* First-fault */
5571 { { { gen_helper_sve_ldffbds_zsu,
5572 gen_helper_sve_ldffhds_be_zsu,
5573 gen_helper_sve_ldffsds_be_zsu,
5574 NULL, },
5575 { gen_helper_sve_ldffbdu_zsu,
5576 gen_helper_sve_ldffhdu_be_zsu,
5577 gen_helper_sve_ldffsdu_be_zsu,
5578 gen_helper_sve_ldffdd_be_zsu, } },
5579 { { gen_helper_sve_ldffbds_zss,
5580 gen_helper_sve_ldffhds_be_zss,
5581 gen_helper_sve_ldffsds_be_zss,
5582 NULL, },
5583 { gen_helper_sve_ldffbdu_zss,
5584 gen_helper_sve_ldffhdu_be_zss,
5585 gen_helper_sve_ldffsdu_be_zss,
5586 gen_helper_sve_ldffdd_be_zss, } },
5587 { { gen_helper_sve_ldffbds_zd,
5588 gen_helper_sve_ldffhds_be_zd,
5589 gen_helper_sve_ldffsds_be_zd,
5590 NULL, },
5591 { gen_helper_sve_ldffbdu_zd,
5592 gen_helper_sve_ldffhdu_be_zd,
5593 gen_helper_sve_ldffsdu_be_zd,
5594 gen_helper_sve_ldffdd_be_zd, } } } } },
5595 { /* MTE Active */
5596 { /* Little-endian */
5597 { { { gen_helper_sve_ldbds_zsu_mte,
5598 gen_helper_sve_ldhds_le_zsu_mte,
5599 gen_helper_sve_ldsds_le_zsu_mte,
5600 NULL, },
5601 { gen_helper_sve_ldbdu_zsu_mte,
5602 gen_helper_sve_ldhdu_le_zsu_mte,
5603 gen_helper_sve_ldsdu_le_zsu_mte,
5604 gen_helper_sve_lddd_le_zsu_mte, } },
5605 { { gen_helper_sve_ldbds_zss_mte,
5606 gen_helper_sve_ldhds_le_zss_mte,
5607 gen_helper_sve_ldsds_le_zss_mte,
5608 NULL, },
5609 { gen_helper_sve_ldbdu_zss_mte,
5610 gen_helper_sve_ldhdu_le_zss_mte,
5611 gen_helper_sve_ldsdu_le_zss_mte,
5612 gen_helper_sve_lddd_le_zss_mte, } },
5613 { { gen_helper_sve_ldbds_zd_mte,
5614 gen_helper_sve_ldhds_le_zd_mte,
5615 gen_helper_sve_ldsds_le_zd_mte,
5616 NULL, },
5617 { gen_helper_sve_ldbdu_zd_mte,
5618 gen_helper_sve_ldhdu_le_zd_mte,
5619 gen_helper_sve_ldsdu_le_zd_mte,
5620 gen_helper_sve_lddd_le_zd_mte, } } },
5621
5622 /* First-fault */
5623 { { { gen_helper_sve_ldffbds_zsu_mte,
5624 gen_helper_sve_ldffhds_le_zsu_mte,
5625 gen_helper_sve_ldffsds_le_zsu_mte,
5626 NULL, },
5627 { gen_helper_sve_ldffbdu_zsu_mte,
5628 gen_helper_sve_ldffhdu_le_zsu_mte,
5629 gen_helper_sve_ldffsdu_le_zsu_mte,
5630 gen_helper_sve_ldffdd_le_zsu_mte, } },
5631 { { gen_helper_sve_ldffbds_zss_mte,
5632 gen_helper_sve_ldffhds_le_zss_mte,
5633 gen_helper_sve_ldffsds_le_zss_mte,
5634 NULL, },
5635 { gen_helper_sve_ldffbdu_zss_mte,
5636 gen_helper_sve_ldffhdu_le_zss_mte,
5637 gen_helper_sve_ldffsdu_le_zss_mte,
5638 gen_helper_sve_ldffdd_le_zss_mte, } },
5639 { { gen_helper_sve_ldffbds_zd_mte,
5640 gen_helper_sve_ldffhds_le_zd_mte,
5641 gen_helper_sve_ldffsds_le_zd_mte,
5642 NULL, },
5643 { gen_helper_sve_ldffbdu_zd_mte,
5644 gen_helper_sve_ldffhdu_le_zd_mte,
5645 gen_helper_sve_ldffsdu_le_zd_mte,
5646 gen_helper_sve_ldffdd_le_zd_mte, } } } },
5647 { /* Big-endian */
5648 { { { gen_helper_sve_ldbds_zsu_mte,
5649 gen_helper_sve_ldhds_be_zsu_mte,
5650 gen_helper_sve_ldsds_be_zsu_mte,
5651 NULL, },
5652 { gen_helper_sve_ldbdu_zsu_mte,
5653 gen_helper_sve_ldhdu_be_zsu_mte,
5654 gen_helper_sve_ldsdu_be_zsu_mte,
5655 gen_helper_sve_lddd_be_zsu_mte, } },
5656 { { gen_helper_sve_ldbds_zss_mte,
5657 gen_helper_sve_ldhds_be_zss_mte,
5658 gen_helper_sve_ldsds_be_zss_mte,
5659 NULL, },
5660 { gen_helper_sve_ldbdu_zss_mte,
5661 gen_helper_sve_ldhdu_be_zss_mte,
5662 gen_helper_sve_ldsdu_be_zss_mte,
5663 gen_helper_sve_lddd_be_zss_mte, } },
5664 { { gen_helper_sve_ldbds_zd_mte,
5665 gen_helper_sve_ldhds_be_zd_mte,
5666 gen_helper_sve_ldsds_be_zd_mte,
5667 NULL, },
5668 { gen_helper_sve_ldbdu_zd_mte,
5669 gen_helper_sve_ldhdu_be_zd_mte,
5670 gen_helper_sve_ldsdu_be_zd_mte,
5671 gen_helper_sve_lddd_be_zd_mte, } } },
5672
5673 /* First-fault */
5674 { { { gen_helper_sve_ldffbds_zsu_mte,
5675 gen_helper_sve_ldffhds_be_zsu_mte,
5676 gen_helper_sve_ldffsds_be_zsu_mte,
5677 NULL, },
5678 { gen_helper_sve_ldffbdu_zsu_mte,
5679 gen_helper_sve_ldffhdu_be_zsu_mte,
5680 gen_helper_sve_ldffsdu_be_zsu_mte,
5681 gen_helper_sve_ldffdd_be_zsu_mte, } },
5682 { { gen_helper_sve_ldffbds_zss_mte,
5683 gen_helper_sve_ldffhds_be_zss_mte,
5684 gen_helper_sve_ldffsds_be_zss_mte,
5685 NULL, },
5686 { gen_helper_sve_ldffbdu_zss_mte,
5687 gen_helper_sve_ldffhdu_be_zss_mte,
5688 gen_helper_sve_ldffsdu_be_zss_mte,
5689 gen_helper_sve_ldffdd_be_zss_mte, } },
5690 { { gen_helper_sve_ldffbds_zd_mte,
5691 gen_helper_sve_ldffhds_be_zd_mte,
5692 gen_helper_sve_ldffsds_be_zd_mte,
5693 NULL, },
5694 { gen_helper_sve_ldffbdu_zd_mte,
5695 gen_helper_sve_ldffhdu_be_zd_mte,
5696 gen_helper_sve_ldffsdu_be_zd_mte,
5697 gen_helper_sve_ldffdd_be_zd_mte, } } } } },
5698 };
5699
5700 static bool trans_LD1_zprz(DisasContext *s, arg_LD1_zprz *a)
5701 {
5702 gen_helper_gvec_mem_scatter *fn = NULL;
5703 bool be = s->be_data == MO_BE;
5704 bool mte = s->mte_active[0];
5705
5706 if (!dc_isar_feature(aa64_sve, s)) {
5707 return false;
5708 }
5709 s->is_nonstreaming = true;
5710 if (!sve_access_check(s)) {
5711 return true;
5712 }
5713
5714 switch (a->esz) {
5715 case MO_32:
5716 fn = gather_load_fn32[mte][be][a->ff][a->xs][a->u][a->msz];
5717 break;
5718 case MO_64:
5719 fn = gather_load_fn64[mte][be][a->ff][a->xs][a->u][a->msz];
5720 break;
5721 }
5722 assert(fn != NULL);
5723
5724 do_mem_zpz(s, a->rd, a->pg, a->rm, a->scale * a->msz,
5725 cpu_reg_sp(s, a->rn), a->msz, false, fn);
5726 return true;
5727 }
5728
5729 static bool trans_LD1_zpiz(DisasContext *s, arg_LD1_zpiz *a)
5730 {
5731 gen_helper_gvec_mem_scatter *fn = NULL;
5732 bool be = s->be_data == MO_BE;
5733 bool mte = s->mte_active[0];
5734
5735 if (a->esz < a->msz || (a->esz == a->msz && !a->u)) {
5736 return false;
5737 }
5738 if (!dc_isar_feature(aa64_sve, s)) {
5739 return false;
5740 }
5741 s->is_nonstreaming = true;
5742 if (!sve_access_check(s)) {
5743 return true;
5744 }
5745
5746 switch (a->esz) {
5747 case MO_32:
5748 fn = gather_load_fn32[mte][be][a->ff][0][a->u][a->msz];
5749 break;
5750 case MO_64:
5751 fn = gather_load_fn64[mte][be][a->ff][2][a->u][a->msz];
5752 break;
5753 }
5754 assert(fn != NULL);
5755
5756 /* Treat LD1_zpiz (zn[x] + imm) the same way as LD1_zprz (rn + zm[x])
5757 * by loading the immediate into the scalar parameter.
5758 */
5759 do_mem_zpz(s, a->rd, a->pg, a->rn, 0,
5760 tcg_constant_i64(a->imm << a->msz), a->msz, false, fn);
5761 return true;
5762 }
5763
5764 static bool trans_LDNT1_zprz(DisasContext *s, arg_LD1_zprz *a)
5765 {
5766 gen_helper_gvec_mem_scatter *fn = NULL;
5767 bool be = s->be_data == MO_BE;
5768 bool mte = s->mte_active[0];
5769
5770 if (a->esz < a->msz + !a->u) {
5771 return false;
5772 }
5773 if (!dc_isar_feature(aa64_sve2, s)) {
5774 return false;
5775 }
5776 s->is_nonstreaming = true;
5777 if (!sve_access_check(s)) {
5778 return true;
5779 }
5780
5781 switch (a->esz) {
5782 case MO_32:
5783 fn = gather_load_fn32[mte][be][0][0][a->u][a->msz];
5784 break;
5785 case MO_64:
5786 fn = gather_load_fn64[mte][be][0][2][a->u][a->msz];
5787 break;
5788 }
5789 assert(fn != NULL);
5790
5791 do_mem_zpz(s, a->rd, a->pg, a->rn, 0,
5792 cpu_reg(s, a->rm), a->msz, false, fn);
5793 return true;
5794 }
5795
5796 /* Indexed by [mte][be][xs][msz]. */
5797 static gen_helper_gvec_mem_scatter * const scatter_store_fn32[2][2][2][3] = {
5798 { /* MTE Inactive */
5799 { /* Little-endian */
5800 { gen_helper_sve_stbs_zsu,
5801 gen_helper_sve_sths_le_zsu,
5802 gen_helper_sve_stss_le_zsu, },
5803 { gen_helper_sve_stbs_zss,
5804 gen_helper_sve_sths_le_zss,
5805 gen_helper_sve_stss_le_zss, } },
5806 { /* Big-endian */
5807 { gen_helper_sve_stbs_zsu,
5808 gen_helper_sve_sths_be_zsu,
5809 gen_helper_sve_stss_be_zsu, },
5810 { gen_helper_sve_stbs_zss,
5811 gen_helper_sve_sths_be_zss,
5812 gen_helper_sve_stss_be_zss, } } },
5813 { /* MTE Active */
5814 { /* Little-endian */
5815 { gen_helper_sve_stbs_zsu_mte,
5816 gen_helper_sve_sths_le_zsu_mte,
5817 gen_helper_sve_stss_le_zsu_mte, },
5818 { gen_helper_sve_stbs_zss_mte,
5819 gen_helper_sve_sths_le_zss_mte,
5820 gen_helper_sve_stss_le_zss_mte, } },
5821 { /* Big-endian */
5822 { gen_helper_sve_stbs_zsu_mte,
5823 gen_helper_sve_sths_be_zsu_mte,
5824 gen_helper_sve_stss_be_zsu_mte, },
5825 { gen_helper_sve_stbs_zss_mte,
5826 gen_helper_sve_sths_be_zss_mte,
5827 gen_helper_sve_stss_be_zss_mte, } } },
5828 };
5829
5830 /* Note that we overload xs=2 to indicate 64-bit offset. */
5831 static gen_helper_gvec_mem_scatter * const scatter_store_fn64[2][2][3][4] = {
5832 { /* MTE Inactive */
5833 { /* Little-endian */
5834 { gen_helper_sve_stbd_zsu,
5835 gen_helper_sve_sthd_le_zsu,
5836 gen_helper_sve_stsd_le_zsu,
5837 gen_helper_sve_stdd_le_zsu, },
5838 { gen_helper_sve_stbd_zss,
5839 gen_helper_sve_sthd_le_zss,
5840 gen_helper_sve_stsd_le_zss,
5841 gen_helper_sve_stdd_le_zss, },
5842 { gen_helper_sve_stbd_zd,
5843 gen_helper_sve_sthd_le_zd,
5844 gen_helper_sve_stsd_le_zd,
5845 gen_helper_sve_stdd_le_zd, } },
5846 { /* Big-endian */
5847 { gen_helper_sve_stbd_zsu,
5848 gen_helper_sve_sthd_be_zsu,
5849 gen_helper_sve_stsd_be_zsu,
5850 gen_helper_sve_stdd_be_zsu, },
5851 { gen_helper_sve_stbd_zss,
5852 gen_helper_sve_sthd_be_zss,
5853 gen_helper_sve_stsd_be_zss,
5854 gen_helper_sve_stdd_be_zss, },
5855 { gen_helper_sve_stbd_zd,
5856 gen_helper_sve_sthd_be_zd,
5857 gen_helper_sve_stsd_be_zd,
5858 gen_helper_sve_stdd_be_zd, } } },
5859 { /* MTE Inactive */
5860 { /* Little-endian */
5861 { gen_helper_sve_stbd_zsu_mte,
5862 gen_helper_sve_sthd_le_zsu_mte,
5863 gen_helper_sve_stsd_le_zsu_mte,
5864 gen_helper_sve_stdd_le_zsu_mte, },
5865 { gen_helper_sve_stbd_zss_mte,
5866 gen_helper_sve_sthd_le_zss_mte,
5867 gen_helper_sve_stsd_le_zss_mte,
5868 gen_helper_sve_stdd_le_zss_mte, },
5869 { gen_helper_sve_stbd_zd_mte,
5870 gen_helper_sve_sthd_le_zd_mte,
5871 gen_helper_sve_stsd_le_zd_mte,
5872 gen_helper_sve_stdd_le_zd_mte, } },
5873 { /* Big-endian */
5874 { gen_helper_sve_stbd_zsu_mte,
5875 gen_helper_sve_sthd_be_zsu_mte,
5876 gen_helper_sve_stsd_be_zsu_mte,
5877 gen_helper_sve_stdd_be_zsu_mte, },
5878 { gen_helper_sve_stbd_zss_mte,
5879 gen_helper_sve_sthd_be_zss_mte,
5880 gen_helper_sve_stsd_be_zss_mte,
5881 gen_helper_sve_stdd_be_zss_mte, },
5882 { gen_helper_sve_stbd_zd_mte,
5883 gen_helper_sve_sthd_be_zd_mte,
5884 gen_helper_sve_stsd_be_zd_mte,
5885 gen_helper_sve_stdd_be_zd_mte, } } },
5886 };
5887
5888 static bool trans_ST1_zprz(DisasContext *s, arg_ST1_zprz *a)
5889 {
5890 gen_helper_gvec_mem_scatter *fn;
5891 bool be = s->be_data == MO_BE;
5892 bool mte = s->mte_active[0];
5893
5894 if (a->esz < a->msz || (a->msz == 0 && a->scale)) {
5895 return false;
5896 }
5897 if (!dc_isar_feature(aa64_sve, s)) {
5898 return false;
5899 }
5900 s->is_nonstreaming = true;
5901 if (!sve_access_check(s)) {
5902 return true;
5903 }
5904 switch (a->esz) {
5905 case MO_32:
5906 fn = scatter_store_fn32[mte][be][a->xs][a->msz];
5907 break;
5908 case MO_64:
5909 fn = scatter_store_fn64[mte][be][a->xs][a->msz];
5910 break;
5911 default:
5912 g_assert_not_reached();
5913 }
5914 do_mem_zpz(s, a->rd, a->pg, a->rm, a->scale * a->msz,
5915 cpu_reg_sp(s, a->rn), a->msz, true, fn);
5916 return true;
5917 }
5918
5919 static bool trans_ST1_zpiz(DisasContext *s, arg_ST1_zpiz *a)
5920 {
5921 gen_helper_gvec_mem_scatter *fn = NULL;
5922 bool be = s->be_data == MO_BE;
5923 bool mte = s->mte_active[0];
5924
5925 if (a->esz < a->msz) {
5926 return false;
5927 }
5928 if (!dc_isar_feature(aa64_sve, s)) {
5929 return false;
5930 }
5931 s->is_nonstreaming = true;
5932 if (!sve_access_check(s)) {
5933 return true;
5934 }
5935
5936 switch (a->esz) {
5937 case MO_32:
5938 fn = scatter_store_fn32[mte][be][0][a->msz];
5939 break;
5940 case MO_64:
5941 fn = scatter_store_fn64[mte][be][2][a->msz];
5942 break;
5943 }
5944 assert(fn != NULL);
5945
5946 /* Treat ST1_zpiz (zn[x] + imm) the same way as ST1_zprz (rn + zm[x])
5947 * by loading the immediate into the scalar parameter.
5948 */
5949 do_mem_zpz(s, a->rd, a->pg, a->rn, 0,
5950 tcg_constant_i64(a->imm << a->msz), a->msz, true, fn);
5951 return true;
5952 }
5953
5954 static bool trans_STNT1_zprz(DisasContext *s, arg_ST1_zprz *a)
5955 {
5956 gen_helper_gvec_mem_scatter *fn;
5957 bool be = s->be_data == MO_BE;
5958 bool mte = s->mte_active[0];
5959
5960 if (a->esz < a->msz) {
5961 return false;
5962 }
5963 if (!dc_isar_feature(aa64_sve2, s)) {
5964 return false;
5965 }
5966 s->is_nonstreaming = true;
5967 if (!sve_access_check(s)) {
5968 return true;
5969 }
5970
5971 switch (a->esz) {
5972 case MO_32:
5973 fn = scatter_store_fn32[mte][be][0][a->msz];
5974 break;
5975 case MO_64:
5976 fn = scatter_store_fn64[mte][be][2][a->msz];
5977 break;
5978 default:
5979 g_assert_not_reached();
5980 }
5981
5982 do_mem_zpz(s, a->rd, a->pg, a->rn, 0,
5983 cpu_reg(s, a->rm), a->msz, true, fn);
5984 return true;
5985 }
5986
5987 /*
5988 * Prefetches
5989 */
5990
5991 static bool trans_PRF(DisasContext *s, arg_PRF *a)
5992 {
5993 if (!dc_isar_feature(aa64_sve, s)) {
5994 return false;
5995 }
5996 /* Prefetch is a nop within QEMU. */
5997 (void)sve_access_check(s);
5998 return true;
5999 }
6000
6001 static bool trans_PRF_rr(DisasContext *s, arg_PRF_rr *a)
6002 {
6003 if (a->rm == 31 || !dc_isar_feature(aa64_sve, s)) {
6004 return false;
6005 }
6006 /* Prefetch is a nop within QEMU. */
6007 (void)sve_access_check(s);
6008 return true;
6009 }
6010
6011 static bool trans_PRF_ns(DisasContext *s, arg_PRF_ns *a)
6012 {
6013 if (!dc_isar_feature(aa64_sve, s)) {
6014 return false;
6015 }
6016 /* Prefetch is a nop within QEMU. */
6017 s->is_nonstreaming = true;
6018 (void)sve_access_check(s);
6019 return true;
6020 }
6021
6022 /*
6023 * Move Prefix
6024 *
6025 * TODO: The implementation so far could handle predicated merging movprfx.
6026 * The helper functions as written take an extra source register to
6027 * use in the operation, but the result is only written when predication
6028 * succeeds. For unpredicated movprfx, we need to rearrange the helpers
6029 * to allow the final write back to the destination to be unconditional.
6030 * For predicated zeroing movprfx, we need to rearrange the helpers to
6031 * allow the final write back to zero inactives.
6032 *
6033 * In the meantime, just emit the moves.
6034 */
6035
6036 TRANS_FEAT(MOVPRFX, aa64_sve, do_mov_z, a->rd, a->rn)
6037 TRANS_FEAT(MOVPRFX_m, aa64_sve, do_sel_z, a->rd, a->rn, a->rd, a->pg, a->esz)
6038 TRANS_FEAT(MOVPRFX_z, aa64_sve, do_movz_zpz, a->rd, a->rn, a->pg, a->esz, false)
6039
6040 /*
6041 * SVE2 Integer Multiply - Unpredicated
6042 */
6043
6044 TRANS_FEAT(MUL_zzz, aa64_sve2, gen_gvec_fn_arg_zzz, tcg_gen_gvec_mul, a)
6045
6046 static gen_helper_gvec_3 * const smulh_zzz_fns[4] = {
6047 gen_helper_gvec_smulh_b, gen_helper_gvec_smulh_h,
6048 gen_helper_gvec_smulh_s, gen_helper_gvec_smulh_d,
6049 };
6050 TRANS_FEAT(SMULH_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6051 smulh_zzz_fns[a->esz], a, 0)
6052
6053 static gen_helper_gvec_3 * const umulh_zzz_fns[4] = {
6054 gen_helper_gvec_umulh_b, gen_helper_gvec_umulh_h,
6055 gen_helper_gvec_umulh_s, gen_helper_gvec_umulh_d,
6056 };
6057 TRANS_FEAT(UMULH_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6058 umulh_zzz_fns[a->esz], a, 0)
6059
6060 TRANS_FEAT(PMUL_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6061 gen_helper_gvec_pmul_b, a, 0)
6062
6063 static gen_helper_gvec_3 * const sqdmulh_zzz_fns[4] = {
6064 gen_helper_sve2_sqdmulh_b, gen_helper_sve2_sqdmulh_h,
6065 gen_helper_sve2_sqdmulh_s, gen_helper_sve2_sqdmulh_d,
6066 };
6067 TRANS_FEAT(SQDMULH_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6068 sqdmulh_zzz_fns[a->esz], a, 0)
6069
6070 static gen_helper_gvec_3 * const sqrdmulh_zzz_fns[4] = {
6071 gen_helper_sve2_sqrdmulh_b, gen_helper_sve2_sqrdmulh_h,
6072 gen_helper_sve2_sqrdmulh_s, gen_helper_sve2_sqrdmulh_d,
6073 };
6074 TRANS_FEAT(SQRDMULH_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6075 sqrdmulh_zzz_fns[a->esz], a, 0)
6076
6077 /*
6078 * SVE2 Integer - Predicated
6079 */
6080
6081 static gen_helper_gvec_4 * const sadlp_fns[4] = {
6082 NULL, gen_helper_sve2_sadalp_zpzz_h,
6083 gen_helper_sve2_sadalp_zpzz_s, gen_helper_sve2_sadalp_zpzz_d,
6084 };
6085 TRANS_FEAT(SADALP_zpzz, aa64_sve2, gen_gvec_ool_arg_zpzz,
6086 sadlp_fns[a->esz], a, 0)
6087
6088 static gen_helper_gvec_4 * const uadlp_fns[4] = {
6089 NULL, gen_helper_sve2_uadalp_zpzz_h,
6090 gen_helper_sve2_uadalp_zpzz_s, gen_helper_sve2_uadalp_zpzz_d,
6091 };
6092 TRANS_FEAT(UADALP_zpzz, aa64_sve2, gen_gvec_ool_arg_zpzz,
6093 uadlp_fns[a->esz], a, 0)
6094
6095 /*
6096 * SVE2 integer unary operations (predicated)
6097 */
6098
6099 TRANS_FEAT(URECPE, aa64_sve2, gen_gvec_ool_arg_zpz,
6100 a->esz == 2 ? gen_helper_sve2_urecpe_s : NULL, a, 0)
6101
6102 TRANS_FEAT(URSQRTE, aa64_sve2, gen_gvec_ool_arg_zpz,
6103 a->esz == 2 ? gen_helper_sve2_ursqrte_s : NULL, a, 0)
6104
6105 static gen_helper_gvec_3 * const sqabs_fns[4] = {
6106 gen_helper_sve2_sqabs_b, gen_helper_sve2_sqabs_h,
6107 gen_helper_sve2_sqabs_s, gen_helper_sve2_sqabs_d,
6108 };
6109 TRANS_FEAT(SQABS, aa64_sve2, gen_gvec_ool_arg_zpz, sqabs_fns[a->esz], a, 0)
6110
6111 static gen_helper_gvec_3 * const sqneg_fns[4] = {
6112 gen_helper_sve2_sqneg_b, gen_helper_sve2_sqneg_h,
6113 gen_helper_sve2_sqneg_s, gen_helper_sve2_sqneg_d,
6114 };
6115 TRANS_FEAT(SQNEG, aa64_sve2, gen_gvec_ool_arg_zpz, sqneg_fns[a->esz], a, 0)
6116
6117 DO_ZPZZ(SQSHL, aa64_sve2, sve2_sqshl)
6118 DO_ZPZZ(SQRSHL, aa64_sve2, sve2_sqrshl)
6119 DO_ZPZZ(SRSHL, aa64_sve2, sve2_srshl)
6120
6121 DO_ZPZZ(UQSHL, aa64_sve2, sve2_uqshl)
6122 DO_ZPZZ(UQRSHL, aa64_sve2, sve2_uqrshl)
6123 DO_ZPZZ(URSHL, aa64_sve2, sve2_urshl)
6124
6125 DO_ZPZZ(SHADD, aa64_sve2, sve2_shadd)
6126 DO_ZPZZ(SRHADD, aa64_sve2, sve2_srhadd)
6127 DO_ZPZZ(SHSUB, aa64_sve2, sve2_shsub)
6128
6129 DO_ZPZZ(UHADD, aa64_sve2, sve2_uhadd)
6130 DO_ZPZZ(URHADD, aa64_sve2, sve2_urhadd)
6131 DO_ZPZZ(UHSUB, aa64_sve2, sve2_uhsub)
6132
6133 DO_ZPZZ(ADDP, aa64_sve2, sve2_addp)
6134 DO_ZPZZ(SMAXP, aa64_sve2, sve2_smaxp)
6135 DO_ZPZZ(UMAXP, aa64_sve2, sve2_umaxp)
6136 DO_ZPZZ(SMINP, aa64_sve2, sve2_sminp)
6137 DO_ZPZZ(UMINP, aa64_sve2, sve2_uminp)
6138
6139 DO_ZPZZ(SQADD_zpzz, aa64_sve2, sve2_sqadd)
6140 DO_ZPZZ(UQADD_zpzz, aa64_sve2, sve2_uqadd)
6141 DO_ZPZZ(SQSUB_zpzz, aa64_sve2, sve2_sqsub)
6142 DO_ZPZZ(UQSUB_zpzz, aa64_sve2, sve2_uqsub)
6143 DO_ZPZZ(SUQADD, aa64_sve2, sve2_suqadd)
6144 DO_ZPZZ(USQADD, aa64_sve2, sve2_usqadd)
6145
6146 /*
6147 * SVE2 Widening Integer Arithmetic
6148 */
6149
6150 static gen_helper_gvec_3 * const saddl_fns[4] = {
6151 NULL, gen_helper_sve2_saddl_h,
6152 gen_helper_sve2_saddl_s, gen_helper_sve2_saddl_d,
6153 };
6154 TRANS_FEAT(SADDLB, aa64_sve2, gen_gvec_ool_arg_zzz,
6155 saddl_fns[a->esz], a, 0)
6156 TRANS_FEAT(SADDLT, aa64_sve2, gen_gvec_ool_arg_zzz,
6157 saddl_fns[a->esz], a, 3)
6158 TRANS_FEAT(SADDLBT, aa64_sve2, gen_gvec_ool_arg_zzz,
6159 saddl_fns[a->esz], a, 2)
6160
6161 static gen_helper_gvec_3 * const ssubl_fns[4] = {
6162 NULL, gen_helper_sve2_ssubl_h,
6163 gen_helper_sve2_ssubl_s, gen_helper_sve2_ssubl_d,
6164 };
6165 TRANS_FEAT(SSUBLB, aa64_sve2, gen_gvec_ool_arg_zzz,
6166 ssubl_fns[a->esz], a, 0)
6167 TRANS_FEAT(SSUBLT, aa64_sve2, gen_gvec_ool_arg_zzz,
6168 ssubl_fns[a->esz], a, 3)
6169 TRANS_FEAT(SSUBLBT, aa64_sve2, gen_gvec_ool_arg_zzz,
6170 ssubl_fns[a->esz], a, 2)
6171 TRANS_FEAT(SSUBLTB, aa64_sve2, gen_gvec_ool_arg_zzz,
6172 ssubl_fns[a->esz], a, 1)
6173
6174 static gen_helper_gvec_3 * const sabdl_fns[4] = {
6175 NULL, gen_helper_sve2_sabdl_h,
6176 gen_helper_sve2_sabdl_s, gen_helper_sve2_sabdl_d,
6177 };
6178 TRANS_FEAT(SABDLB, aa64_sve2, gen_gvec_ool_arg_zzz,
6179 sabdl_fns[a->esz], a, 0)
6180 TRANS_FEAT(SABDLT, aa64_sve2, gen_gvec_ool_arg_zzz,
6181 sabdl_fns[a->esz], a, 3)
6182
6183 static gen_helper_gvec_3 * const uaddl_fns[4] = {
6184 NULL, gen_helper_sve2_uaddl_h,
6185 gen_helper_sve2_uaddl_s, gen_helper_sve2_uaddl_d,
6186 };
6187 TRANS_FEAT(UADDLB, aa64_sve2, gen_gvec_ool_arg_zzz,
6188 uaddl_fns[a->esz], a, 0)
6189 TRANS_FEAT(UADDLT, aa64_sve2, gen_gvec_ool_arg_zzz,
6190 uaddl_fns[a->esz], a, 3)
6191
6192 static gen_helper_gvec_3 * const usubl_fns[4] = {
6193 NULL, gen_helper_sve2_usubl_h,
6194 gen_helper_sve2_usubl_s, gen_helper_sve2_usubl_d,
6195 };
6196 TRANS_FEAT(USUBLB, aa64_sve2, gen_gvec_ool_arg_zzz,
6197 usubl_fns[a->esz], a, 0)
6198 TRANS_FEAT(USUBLT, aa64_sve2, gen_gvec_ool_arg_zzz,
6199 usubl_fns[a->esz], a, 3)
6200
6201 static gen_helper_gvec_3 * const uabdl_fns[4] = {
6202 NULL, gen_helper_sve2_uabdl_h,
6203 gen_helper_sve2_uabdl_s, gen_helper_sve2_uabdl_d,
6204 };
6205 TRANS_FEAT(UABDLB, aa64_sve2, gen_gvec_ool_arg_zzz,
6206 uabdl_fns[a->esz], a, 0)
6207 TRANS_FEAT(UABDLT, aa64_sve2, gen_gvec_ool_arg_zzz,
6208 uabdl_fns[a->esz], a, 3)
6209
6210 static gen_helper_gvec_3 * const sqdmull_fns[4] = {
6211 NULL, gen_helper_sve2_sqdmull_zzz_h,
6212 gen_helper_sve2_sqdmull_zzz_s, gen_helper_sve2_sqdmull_zzz_d,
6213 };
6214 TRANS_FEAT(SQDMULLB_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6215 sqdmull_fns[a->esz], a, 0)
6216 TRANS_FEAT(SQDMULLT_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6217 sqdmull_fns[a->esz], a, 3)
6218
6219 static gen_helper_gvec_3 * const smull_fns[4] = {
6220 NULL, gen_helper_sve2_smull_zzz_h,
6221 gen_helper_sve2_smull_zzz_s, gen_helper_sve2_smull_zzz_d,
6222 };
6223 TRANS_FEAT(SMULLB_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6224 smull_fns[a->esz], a, 0)
6225 TRANS_FEAT(SMULLT_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6226 smull_fns[a->esz], a, 3)
6227
6228 static gen_helper_gvec_3 * const umull_fns[4] = {
6229 NULL, gen_helper_sve2_umull_zzz_h,
6230 gen_helper_sve2_umull_zzz_s, gen_helper_sve2_umull_zzz_d,
6231 };
6232 TRANS_FEAT(UMULLB_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6233 umull_fns[a->esz], a, 0)
6234 TRANS_FEAT(UMULLT_zzz, aa64_sve2, gen_gvec_ool_arg_zzz,
6235 umull_fns[a->esz], a, 3)
6236
6237 static gen_helper_gvec_3 * const eoril_fns[4] = {
6238 gen_helper_sve2_eoril_b, gen_helper_sve2_eoril_h,
6239 gen_helper_sve2_eoril_s, gen_helper_sve2_eoril_d,
6240 };
6241 TRANS_FEAT(EORBT, aa64_sve2, gen_gvec_ool_arg_zzz, eoril_fns[a->esz], a, 2)
6242 TRANS_FEAT(EORTB, aa64_sve2, gen_gvec_ool_arg_zzz, eoril_fns[a->esz], a, 1)
6243
6244 static bool do_trans_pmull(DisasContext *s, arg_rrr_esz *a, bool sel)
6245 {
6246 static gen_helper_gvec_3 * const fns[4] = {
6247 gen_helper_gvec_pmull_q, gen_helper_sve2_pmull_h,
6248 NULL, gen_helper_sve2_pmull_d,
6249 };
6250
6251 if (a->esz == 0) {
6252 if (!dc_isar_feature(aa64_sve2_pmull128, s)) {
6253 return false;
6254 }
6255 s->is_nonstreaming = true;
6256 } else if (!dc_isar_feature(aa64_sve, s)) {
6257 return false;
6258 }
6259 return gen_gvec_ool_arg_zzz(s, fns[a->esz], a, sel);
6260 }
6261
6262 TRANS_FEAT(PMULLB, aa64_sve2, do_trans_pmull, a, false)
6263 TRANS_FEAT(PMULLT, aa64_sve2, do_trans_pmull, a, true)
6264
6265 static gen_helper_gvec_3 * const saddw_fns[4] = {
6266 NULL, gen_helper_sve2_saddw_h,
6267 gen_helper_sve2_saddw_s, gen_helper_sve2_saddw_d,
6268 };
6269 TRANS_FEAT(SADDWB, aa64_sve2, gen_gvec_ool_arg_zzz, saddw_fns[a->esz], a, 0)
6270 TRANS_FEAT(SADDWT, aa64_sve2, gen_gvec_ool_arg_zzz, saddw_fns[a->esz], a, 1)
6271
6272 static gen_helper_gvec_3 * const ssubw_fns[4] = {
6273 NULL, gen_helper_sve2_ssubw_h,
6274 gen_helper_sve2_ssubw_s, gen_helper_sve2_ssubw_d,
6275 };
6276 TRANS_FEAT(SSUBWB, aa64_sve2, gen_gvec_ool_arg_zzz, ssubw_fns[a->esz], a, 0)
6277 TRANS_FEAT(SSUBWT, aa64_sve2, gen_gvec_ool_arg_zzz, ssubw_fns[a->esz], a, 1)
6278
6279 static gen_helper_gvec_3 * const uaddw_fns[4] = {
6280 NULL, gen_helper_sve2_uaddw_h,
6281 gen_helper_sve2_uaddw_s, gen_helper_sve2_uaddw_d,
6282 };
6283 TRANS_FEAT(UADDWB, aa64_sve2, gen_gvec_ool_arg_zzz, uaddw_fns[a->esz], a, 0)
6284 TRANS_FEAT(UADDWT, aa64_sve2, gen_gvec_ool_arg_zzz, uaddw_fns[a->esz], a, 1)
6285
6286 static gen_helper_gvec_3 * const usubw_fns[4] = {
6287 NULL, gen_helper_sve2_usubw_h,
6288 gen_helper_sve2_usubw_s, gen_helper_sve2_usubw_d,
6289 };
6290 TRANS_FEAT(USUBWB, aa64_sve2, gen_gvec_ool_arg_zzz, usubw_fns[a->esz], a, 0)
6291 TRANS_FEAT(USUBWT, aa64_sve2, gen_gvec_ool_arg_zzz, usubw_fns[a->esz], a, 1)
6292
6293 static void gen_sshll_vec(unsigned vece, TCGv_vec d, TCGv_vec n, int64_t imm)
6294 {
6295 int top = imm & 1;
6296 int shl = imm >> 1;
6297 int halfbits = 4 << vece;
6298
6299 if (top) {
6300 if (shl == halfbits) {
6301 TCGv_vec t = tcg_temp_new_vec_matching(d);
6302 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(halfbits, halfbits));
6303 tcg_gen_and_vec(vece, d, n, t);
6304 tcg_temp_free_vec(t);
6305 } else {
6306 tcg_gen_sari_vec(vece, d, n, halfbits);
6307 tcg_gen_shli_vec(vece, d, d, shl);
6308 }
6309 } else {
6310 tcg_gen_shli_vec(vece, d, n, halfbits);
6311 tcg_gen_sari_vec(vece, d, d, halfbits - shl);
6312 }
6313 }
6314
6315 static void gen_ushll_i64(unsigned vece, TCGv_i64 d, TCGv_i64 n, int imm)
6316 {
6317 int halfbits = 4 << vece;
6318 int top = imm & 1;
6319 int shl = (imm >> 1);
6320 int shift;
6321 uint64_t mask;
6322
6323 mask = MAKE_64BIT_MASK(0, halfbits);
6324 mask <<= shl;
6325 mask = dup_const(vece, mask);
6326
6327 shift = shl - top * halfbits;
6328 if (shift < 0) {
6329 tcg_gen_shri_i64(d, n, -shift);
6330 } else {
6331 tcg_gen_shli_i64(d, n, shift);
6332 }
6333 tcg_gen_andi_i64(d, d, mask);
6334 }
6335
6336 static void gen_ushll16_i64(TCGv_i64 d, TCGv_i64 n, int64_t imm)
6337 {
6338 gen_ushll_i64(MO_16, d, n, imm);
6339 }
6340
6341 static void gen_ushll32_i64(TCGv_i64 d, TCGv_i64 n, int64_t imm)
6342 {
6343 gen_ushll_i64(MO_32, d, n, imm);
6344 }
6345
6346 static void gen_ushll64_i64(TCGv_i64 d, TCGv_i64 n, int64_t imm)
6347 {
6348 gen_ushll_i64(MO_64, d, n, imm);
6349 }
6350
6351 static void gen_ushll_vec(unsigned vece, TCGv_vec d, TCGv_vec n, int64_t imm)
6352 {
6353 int halfbits = 4 << vece;
6354 int top = imm & 1;
6355 int shl = imm >> 1;
6356
6357 if (top) {
6358 if (shl == halfbits) {
6359 TCGv_vec t = tcg_temp_new_vec_matching(d);
6360 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(halfbits, halfbits));
6361 tcg_gen_and_vec(vece, d, n, t);
6362 tcg_temp_free_vec(t);
6363 } else {
6364 tcg_gen_shri_vec(vece, d, n, halfbits);
6365 tcg_gen_shli_vec(vece, d, d, shl);
6366 }
6367 } else {
6368 if (shl == 0) {
6369 TCGv_vec t = tcg_temp_new_vec_matching(d);
6370 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
6371 tcg_gen_and_vec(vece, d, n, t);
6372 tcg_temp_free_vec(t);
6373 } else {
6374 tcg_gen_shli_vec(vece, d, n, halfbits);
6375 tcg_gen_shri_vec(vece, d, d, halfbits - shl);
6376 }
6377 }
6378 }
6379
6380 static bool do_shll_tb(DisasContext *s, arg_rri_esz *a,
6381 const GVecGen2i ops[3], bool sel)
6382 {
6383
6384 if (a->esz < 0 || a->esz > 2) {
6385 return false;
6386 }
6387 if (sve_access_check(s)) {
6388 unsigned vsz = vec_full_reg_size(s);
6389 tcg_gen_gvec_2i(vec_full_reg_offset(s, a->rd),
6390 vec_full_reg_offset(s, a->rn),
6391 vsz, vsz, (a->imm << 1) | sel,
6392 &ops[a->esz]);
6393 }
6394 return true;
6395 }
6396
6397 static const TCGOpcode sshll_list[] = {
6398 INDEX_op_shli_vec, INDEX_op_sari_vec, 0
6399 };
6400 static const GVecGen2i sshll_ops[3] = {
6401 { .fniv = gen_sshll_vec,
6402 .opt_opc = sshll_list,
6403 .fno = gen_helper_sve2_sshll_h,
6404 .vece = MO_16 },
6405 { .fniv = gen_sshll_vec,
6406 .opt_opc = sshll_list,
6407 .fno = gen_helper_sve2_sshll_s,
6408 .vece = MO_32 },
6409 { .fniv = gen_sshll_vec,
6410 .opt_opc = sshll_list,
6411 .fno = gen_helper_sve2_sshll_d,
6412 .vece = MO_64 }
6413 };
6414 TRANS_FEAT(SSHLLB, aa64_sve2, do_shll_tb, a, sshll_ops, false)
6415 TRANS_FEAT(SSHLLT, aa64_sve2, do_shll_tb, a, sshll_ops, true)
6416
6417 static const TCGOpcode ushll_list[] = {
6418 INDEX_op_shli_vec, INDEX_op_shri_vec, 0
6419 };
6420 static const GVecGen2i ushll_ops[3] = {
6421 { .fni8 = gen_ushll16_i64,
6422 .fniv = gen_ushll_vec,
6423 .opt_opc = ushll_list,
6424 .fno = gen_helper_sve2_ushll_h,
6425 .vece = MO_16 },
6426 { .fni8 = gen_ushll32_i64,
6427 .fniv = gen_ushll_vec,
6428 .opt_opc = ushll_list,
6429 .fno = gen_helper_sve2_ushll_s,
6430 .vece = MO_32 },
6431 { .fni8 = gen_ushll64_i64,
6432 .fniv = gen_ushll_vec,
6433 .opt_opc = ushll_list,
6434 .fno = gen_helper_sve2_ushll_d,
6435 .vece = MO_64 },
6436 };
6437 TRANS_FEAT(USHLLB, aa64_sve2, do_shll_tb, a, ushll_ops, false)
6438 TRANS_FEAT(USHLLT, aa64_sve2, do_shll_tb, a, ushll_ops, true)
6439
6440 static gen_helper_gvec_3 * const bext_fns[4] = {
6441 gen_helper_sve2_bext_b, gen_helper_sve2_bext_h,
6442 gen_helper_sve2_bext_s, gen_helper_sve2_bext_d,
6443 };
6444 TRANS_FEAT_NONSTREAMING(BEXT, aa64_sve2_bitperm, gen_gvec_ool_arg_zzz,
6445 bext_fns[a->esz], a, 0)
6446
6447 static gen_helper_gvec_3 * const bdep_fns[4] = {
6448 gen_helper_sve2_bdep_b, gen_helper_sve2_bdep_h,
6449 gen_helper_sve2_bdep_s, gen_helper_sve2_bdep_d,
6450 };
6451 TRANS_FEAT_NONSTREAMING(BDEP, aa64_sve2_bitperm, gen_gvec_ool_arg_zzz,
6452 bdep_fns[a->esz], a, 0)
6453
6454 static gen_helper_gvec_3 * const bgrp_fns[4] = {
6455 gen_helper_sve2_bgrp_b, gen_helper_sve2_bgrp_h,
6456 gen_helper_sve2_bgrp_s, gen_helper_sve2_bgrp_d,
6457 };
6458 TRANS_FEAT_NONSTREAMING(BGRP, aa64_sve2_bitperm, gen_gvec_ool_arg_zzz,
6459 bgrp_fns[a->esz], a, 0)
6460
6461 static gen_helper_gvec_3 * const cadd_fns[4] = {
6462 gen_helper_sve2_cadd_b, gen_helper_sve2_cadd_h,
6463 gen_helper_sve2_cadd_s, gen_helper_sve2_cadd_d,
6464 };
6465 TRANS_FEAT(CADD_rot90, aa64_sve2, gen_gvec_ool_arg_zzz,
6466 cadd_fns[a->esz], a, 0)
6467 TRANS_FEAT(CADD_rot270, aa64_sve2, gen_gvec_ool_arg_zzz,
6468 cadd_fns[a->esz], a, 1)
6469
6470 static gen_helper_gvec_3 * const sqcadd_fns[4] = {
6471 gen_helper_sve2_sqcadd_b, gen_helper_sve2_sqcadd_h,
6472 gen_helper_sve2_sqcadd_s, gen_helper_sve2_sqcadd_d,
6473 };
6474 TRANS_FEAT(SQCADD_rot90, aa64_sve2, gen_gvec_ool_arg_zzz,
6475 sqcadd_fns[a->esz], a, 0)
6476 TRANS_FEAT(SQCADD_rot270, aa64_sve2, gen_gvec_ool_arg_zzz,
6477 sqcadd_fns[a->esz], a, 1)
6478
6479 static gen_helper_gvec_4 * const sabal_fns[4] = {
6480 NULL, gen_helper_sve2_sabal_h,
6481 gen_helper_sve2_sabal_s, gen_helper_sve2_sabal_d,
6482 };
6483 TRANS_FEAT(SABALB, aa64_sve2, gen_gvec_ool_arg_zzzz, sabal_fns[a->esz], a, 0)
6484 TRANS_FEAT(SABALT, aa64_sve2, gen_gvec_ool_arg_zzzz, sabal_fns[a->esz], a, 1)
6485
6486 static gen_helper_gvec_4 * const uabal_fns[4] = {
6487 NULL, gen_helper_sve2_uabal_h,
6488 gen_helper_sve2_uabal_s, gen_helper_sve2_uabal_d,
6489 };
6490 TRANS_FEAT(UABALB, aa64_sve2, gen_gvec_ool_arg_zzzz, uabal_fns[a->esz], a, 0)
6491 TRANS_FEAT(UABALT, aa64_sve2, gen_gvec_ool_arg_zzzz, uabal_fns[a->esz], a, 1)
6492
6493 static bool do_adcl(DisasContext *s, arg_rrrr_esz *a, bool sel)
6494 {
6495 static gen_helper_gvec_4 * const fns[2] = {
6496 gen_helper_sve2_adcl_s,
6497 gen_helper_sve2_adcl_d,
6498 };
6499 /*
6500 * Note that in this case the ESZ field encodes both size and sign.
6501 * Split out 'subtract' into bit 1 of the data field for the helper.
6502 */
6503 return gen_gvec_ool_arg_zzzz(s, fns[a->esz & 1], a, (a->esz & 2) | sel);
6504 }
6505
6506 TRANS_FEAT(ADCLB, aa64_sve2, do_adcl, a, false)
6507 TRANS_FEAT(ADCLT, aa64_sve2, do_adcl, a, true)
6508
6509 TRANS_FEAT(SSRA, aa64_sve2, gen_gvec_fn_arg_zzi, gen_gvec_ssra, a)
6510 TRANS_FEAT(USRA, aa64_sve2, gen_gvec_fn_arg_zzi, gen_gvec_usra, a)
6511 TRANS_FEAT(SRSRA, aa64_sve2, gen_gvec_fn_arg_zzi, gen_gvec_srsra, a)
6512 TRANS_FEAT(URSRA, aa64_sve2, gen_gvec_fn_arg_zzi, gen_gvec_ursra, a)
6513 TRANS_FEAT(SRI, aa64_sve2, gen_gvec_fn_arg_zzi, gen_gvec_sri, a)
6514 TRANS_FEAT(SLI, aa64_sve2, gen_gvec_fn_arg_zzi, gen_gvec_sli, a)
6515
6516 TRANS_FEAT(SABA, aa64_sve2, gen_gvec_fn_arg_zzz, gen_gvec_saba, a)
6517 TRANS_FEAT(UABA, aa64_sve2, gen_gvec_fn_arg_zzz, gen_gvec_uaba, a)
6518
6519 static bool do_narrow_extract(DisasContext *s, arg_rri_esz *a,
6520 const GVecGen2 ops[3])
6521 {
6522 if (a->esz < 0 || a->esz > MO_32 || a->imm != 0) {
6523 return false;
6524 }
6525 if (sve_access_check(s)) {
6526 unsigned vsz = vec_full_reg_size(s);
6527 tcg_gen_gvec_2(vec_full_reg_offset(s, a->rd),
6528 vec_full_reg_offset(s, a->rn),
6529 vsz, vsz, &ops[a->esz]);
6530 }
6531 return true;
6532 }
6533
6534 static const TCGOpcode sqxtn_list[] = {
6535 INDEX_op_shli_vec, INDEX_op_smin_vec, INDEX_op_smax_vec, 0
6536 };
6537
6538 static void gen_sqxtnb_vec(unsigned vece, TCGv_vec d, TCGv_vec n)
6539 {
6540 TCGv_vec t = tcg_temp_new_vec_matching(d);
6541 int halfbits = 4 << vece;
6542 int64_t mask = (1ull << halfbits) - 1;
6543 int64_t min = -1ull << (halfbits - 1);
6544 int64_t max = -min - 1;
6545
6546 tcg_gen_dupi_vec(vece, t, min);
6547 tcg_gen_smax_vec(vece, d, n, t);
6548 tcg_gen_dupi_vec(vece, t, max);
6549 tcg_gen_smin_vec(vece, d, d, t);
6550 tcg_gen_dupi_vec(vece, t, mask);
6551 tcg_gen_and_vec(vece, d, d, t);
6552 tcg_temp_free_vec(t);
6553 }
6554
6555 static const GVecGen2 sqxtnb_ops[3] = {
6556 { .fniv = gen_sqxtnb_vec,
6557 .opt_opc = sqxtn_list,
6558 .fno = gen_helper_sve2_sqxtnb_h,
6559 .vece = MO_16 },
6560 { .fniv = gen_sqxtnb_vec,
6561 .opt_opc = sqxtn_list,
6562 .fno = gen_helper_sve2_sqxtnb_s,
6563 .vece = MO_32 },
6564 { .fniv = gen_sqxtnb_vec,
6565 .opt_opc = sqxtn_list,
6566 .fno = gen_helper_sve2_sqxtnb_d,
6567 .vece = MO_64 },
6568 };
6569 TRANS_FEAT(SQXTNB, aa64_sve2, do_narrow_extract, a, sqxtnb_ops)
6570
6571 static void gen_sqxtnt_vec(unsigned vece, TCGv_vec d, TCGv_vec n)
6572 {
6573 TCGv_vec t = tcg_temp_new_vec_matching(d);
6574 int halfbits = 4 << vece;
6575 int64_t mask = (1ull << halfbits) - 1;
6576 int64_t min = -1ull << (halfbits - 1);
6577 int64_t max = -min - 1;
6578
6579 tcg_gen_dupi_vec(vece, t, min);
6580 tcg_gen_smax_vec(vece, n, n, t);
6581 tcg_gen_dupi_vec(vece, t, max);
6582 tcg_gen_smin_vec(vece, n, n, t);
6583 tcg_gen_shli_vec(vece, n, n, halfbits);
6584 tcg_gen_dupi_vec(vece, t, mask);
6585 tcg_gen_bitsel_vec(vece, d, t, d, n);
6586 tcg_temp_free_vec(t);
6587 }
6588
6589 static const GVecGen2 sqxtnt_ops[3] = {
6590 { .fniv = gen_sqxtnt_vec,
6591 .opt_opc = sqxtn_list,
6592 .load_dest = true,
6593 .fno = gen_helper_sve2_sqxtnt_h,
6594 .vece = MO_16 },
6595 { .fniv = gen_sqxtnt_vec,
6596 .opt_opc = sqxtn_list,
6597 .load_dest = true,
6598 .fno = gen_helper_sve2_sqxtnt_s,
6599 .vece = MO_32 },
6600 { .fniv = gen_sqxtnt_vec,
6601 .opt_opc = sqxtn_list,
6602 .load_dest = true,
6603 .fno = gen_helper_sve2_sqxtnt_d,
6604 .vece = MO_64 },
6605 };
6606 TRANS_FEAT(SQXTNT, aa64_sve2, do_narrow_extract, a, sqxtnt_ops)
6607
6608 static const TCGOpcode uqxtn_list[] = {
6609 INDEX_op_shli_vec, INDEX_op_umin_vec, 0
6610 };
6611
6612 static void gen_uqxtnb_vec(unsigned vece, TCGv_vec d, TCGv_vec n)
6613 {
6614 TCGv_vec t = tcg_temp_new_vec_matching(d);
6615 int halfbits = 4 << vece;
6616 int64_t max = (1ull << halfbits) - 1;
6617
6618 tcg_gen_dupi_vec(vece, t, max);
6619 tcg_gen_umin_vec(vece, d, n, t);
6620 tcg_temp_free_vec(t);
6621 }
6622
6623 static const GVecGen2 uqxtnb_ops[3] = {
6624 { .fniv = gen_uqxtnb_vec,
6625 .opt_opc = uqxtn_list,
6626 .fno = gen_helper_sve2_uqxtnb_h,
6627 .vece = MO_16 },
6628 { .fniv = gen_uqxtnb_vec,
6629 .opt_opc = uqxtn_list,
6630 .fno = gen_helper_sve2_uqxtnb_s,
6631 .vece = MO_32 },
6632 { .fniv = gen_uqxtnb_vec,
6633 .opt_opc = uqxtn_list,
6634 .fno = gen_helper_sve2_uqxtnb_d,
6635 .vece = MO_64 },
6636 };
6637 TRANS_FEAT(UQXTNB, aa64_sve2, do_narrow_extract, a, uqxtnb_ops)
6638
6639 static void gen_uqxtnt_vec(unsigned vece, TCGv_vec d, TCGv_vec n)
6640 {
6641 TCGv_vec t = tcg_temp_new_vec_matching(d);
6642 int halfbits = 4 << vece;
6643 int64_t max = (1ull << halfbits) - 1;
6644
6645 tcg_gen_dupi_vec(vece, t, max);
6646 tcg_gen_umin_vec(vece, n, n, t);
6647 tcg_gen_shli_vec(vece, n, n, halfbits);
6648 tcg_gen_bitsel_vec(vece, d, t, d, n);
6649 tcg_temp_free_vec(t);
6650 }
6651
6652 static const GVecGen2 uqxtnt_ops[3] = {
6653 { .fniv = gen_uqxtnt_vec,
6654 .opt_opc = uqxtn_list,
6655 .load_dest = true,
6656 .fno = gen_helper_sve2_uqxtnt_h,
6657 .vece = MO_16 },
6658 { .fniv = gen_uqxtnt_vec,
6659 .opt_opc = uqxtn_list,
6660 .load_dest = true,
6661 .fno = gen_helper_sve2_uqxtnt_s,
6662 .vece = MO_32 },
6663 { .fniv = gen_uqxtnt_vec,
6664 .opt_opc = uqxtn_list,
6665 .load_dest = true,
6666 .fno = gen_helper_sve2_uqxtnt_d,
6667 .vece = MO_64 },
6668 };
6669 TRANS_FEAT(UQXTNT, aa64_sve2, do_narrow_extract, a, uqxtnt_ops)
6670
6671 static const TCGOpcode sqxtun_list[] = {
6672 INDEX_op_shli_vec, INDEX_op_umin_vec, INDEX_op_smax_vec, 0
6673 };
6674
6675 static void gen_sqxtunb_vec(unsigned vece, TCGv_vec d, TCGv_vec n)
6676 {
6677 TCGv_vec t = tcg_temp_new_vec_matching(d);
6678 int halfbits = 4 << vece;
6679 int64_t max = (1ull << halfbits) - 1;
6680
6681 tcg_gen_dupi_vec(vece, t, 0);
6682 tcg_gen_smax_vec(vece, d, n, t);
6683 tcg_gen_dupi_vec(vece, t, max);
6684 tcg_gen_umin_vec(vece, d, d, t);
6685 tcg_temp_free_vec(t);
6686 }
6687
6688 static const GVecGen2 sqxtunb_ops[3] = {
6689 { .fniv = gen_sqxtunb_vec,
6690 .opt_opc = sqxtun_list,
6691 .fno = gen_helper_sve2_sqxtunb_h,
6692 .vece = MO_16 },
6693 { .fniv = gen_sqxtunb_vec,
6694 .opt_opc = sqxtun_list,
6695 .fno = gen_helper_sve2_sqxtunb_s,
6696 .vece = MO_32 },
6697 { .fniv = gen_sqxtunb_vec,
6698 .opt_opc = sqxtun_list,
6699 .fno = gen_helper_sve2_sqxtunb_d,
6700 .vece = MO_64 },
6701 };
6702 TRANS_FEAT(SQXTUNB, aa64_sve2, do_narrow_extract, a, sqxtunb_ops)
6703
6704 static void gen_sqxtunt_vec(unsigned vece, TCGv_vec d, TCGv_vec n)
6705 {
6706 TCGv_vec t = tcg_temp_new_vec_matching(d);
6707 int halfbits = 4 << vece;
6708 int64_t max = (1ull << halfbits) - 1;
6709
6710 tcg_gen_dupi_vec(vece, t, 0);
6711 tcg_gen_smax_vec(vece, n, n, t);
6712 tcg_gen_dupi_vec(vece, t, max);
6713 tcg_gen_umin_vec(vece, n, n, t);
6714 tcg_gen_shli_vec(vece, n, n, halfbits);
6715 tcg_gen_bitsel_vec(vece, d, t, d, n);
6716 tcg_temp_free_vec(t);
6717 }
6718
6719 static const GVecGen2 sqxtunt_ops[3] = {
6720 { .fniv = gen_sqxtunt_vec,
6721 .opt_opc = sqxtun_list,
6722 .load_dest = true,
6723 .fno = gen_helper_sve2_sqxtunt_h,
6724 .vece = MO_16 },
6725 { .fniv = gen_sqxtunt_vec,
6726 .opt_opc = sqxtun_list,
6727 .load_dest = true,
6728 .fno = gen_helper_sve2_sqxtunt_s,
6729 .vece = MO_32 },
6730 { .fniv = gen_sqxtunt_vec,
6731 .opt_opc = sqxtun_list,
6732 .load_dest = true,
6733 .fno = gen_helper_sve2_sqxtunt_d,
6734 .vece = MO_64 },
6735 };
6736 TRANS_FEAT(SQXTUNT, aa64_sve2, do_narrow_extract, a, sqxtunt_ops)
6737
6738 static bool do_shr_narrow(DisasContext *s, arg_rri_esz *a,
6739 const GVecGen2i ops[3])
6740 {
6741 if (a->esz < 0 || a->esz > MO_32) {
6742 return false;
6743 }
6744 assert(a->imm > 0 && a->imm <= (8 << a->esz));
6745 if (sve_access_check(s)) {
6746 unsigned vsz = vec_full_reg_size(s);
6747 tcg_gen_gvec_2i(vec_full_reg_offset(s, a->rd),
6748 vec_full_reg_offset(s, a->rn),
6749 vsz, vsz, a->imm, &ops[a->esz]);
6750 }
6751 return true;
6752 }
6753
6754 static void gen_shrnb_i64(unsigned vece, TCGv_i64 d, TCGv_i64 n, int shr)
6755 {
6756 int halfbits = 4 << vece;
6757 uint64_t mask = dup_const(vece, MAKE_64BIT_MASK(0, halfbits));
6758
6759 tcg_gen_shri_i64(d, n, shr);
6760 tcg_gen_andi_i64(d, d, mask);
6761 }
6762
6763 static void gen_shrnb16_i64(TCGv_i64 d, TCGv_i64 n, int64_t shr)
6764 {
6765 gen_shrnb_i64(MO_16, d, n, shr);
6766 }
6767
6768 static void gen_shrnb32_i64(TCGv_i64 d, TCGv_i64 n, int64_t shr)
6769 {
6770 gen_shrnb_i64(MO_32, d, n, shr);
6771 }
6772
6773 static void gen_shrnb64_i64(TCGv_i64 d, TCGv_i64 n, int64_t shr)
6774 {
6775 gen_shrnb_i64(MO_64, d, n, shr);
6776 }
6777
6778 static void gen_shrnb_vec(unsigned vece, TCGv_vec d, TCGv_vec n, int64_t shr)
6779 {
6780 TCGv_vec t = tcg_temp_new_vec_matching(d);
6781 int halfbits = 4 << vece;
6782 uint64_t mask = MAKE_64BIT_MASK(0, halfbits);
6783
6784 tcg_gen_shri_vec(vece, n, n, shr);
6785 tcg_gen_dupi_vec(vece, t, mask);
6786 tcg_gen_and_vec(vece, d, n, t);
6787 tcg_temp_free_vec(t);
6788 }
6789
6790 static const TCGOpcode shrnb_vec_list[] = { INDEX_op_shri_vec, 0 };
6791 static const GVecGen2i shrnb_ops[3] = {
6792 { .fni8 = gen_shrnb16_i64,
6793 .fniv = gen_shrnb_vec,
6794 .opt_opc = shrnb_vec_list,
6795 .fno = gen_helper_sve2_shrnb_h,
6796 .vece = MO_16 },
6797 { .fni8 = gen_shrnb32_i64,
6798 .fniv = gen_shrnb_vec,
6799 .opt_opc = shrnb_vec_list,
6800 .fno = gen_helper_sve2_shrnb_s,
6801 .vece = MO_32 },
6802 { .fni8 = gen_shrnb64_i64,
6803 .fniv = gen_shrnb_vec,
6804 .opt_opc = shrnb_vec_list,
6805 .fno = gen_helper_sve2_shrnb_d,
6806 .vece = MO_64 },
6807 };
6808 TRANS_FEAT(SHRNB, aa64_sve2, do_shr_narrow, a, shrnb_ops)
6809
6810 static void gen_shrnt_i64(unsigned vece, TCGv_i64 d, TCGv_i64 n, int shr)
6811 {
6812 int halfbits = 4 << vece;
6813 uint64_t mask = dup_const(vece, MAKE_64BIT_MASK(0, halfbits));
6814
6815 tcg_gen_shli_i64(n, n, halfbits - shr);
6816 tcg_gen_andi_i64(n, n, ~mask);
6817 tcg_gen_andi_i64(d, d, mask);
6818 tcg_gen_or_i64(d, d, n);
6819 }
6820
6821 static void gen_shrnt16_i64(TCGv_i64 d, TCGv_i64 n, int64_t shr)
6822 {
6823 gen_shrnt_i64(MO_16, d, n, shr);
6824 }
6825
6826 static void gen_shrnt32_i64(TCGv_i64 d, TCGv_i64 n, int64_t shr)
6827 {
6828 gen_shrnt_i64(MO_32, d, n, shr);
6829 }
6830
6831 static void gen_shrnt64_i64(TCGv_i64 d, TCGv_i64 n, int64_t shr)
6832 {
6833 tcg_gen_shri_i64(n, n, shr);
6834 tcg_gen_deposit_i64(d, d, n, 32, 32);
6835 }
6836
6837 static void gen_shrnt_vec(unsigned vece, TCGv_vec d, TCGv_vec n, int64_t shr)
6838 {
6839 TCGv_vec t = tcg_temp_new_vec_matching(d);
6840 int halfbits = 4 << vece;
6841 uint64_t mask = MAKE_64BIT_MASK(0, halfbits);
6842
6843 tcg_gen_shli_vec(vece, n, n, halfbits - shr);
6844 tcg_gen_dupi_vec(vece, t, mask);
6845 tcg_gen_bitsel_vec(vece, d, t, d, n);
6846 tcg_temp_free_vec(t);
6847 }
6848
6849 static const TCGOpcode shrnt_vec_list[] = { INDEX_op_shli_vec, 0 };
6850 static const GVecGen2i shrnt_ops[3] = {
6851 { .fni8 = gen_shrnt16_i64,
6852 .fniv = gen_shrnt_vec,
6853 .opt_opc = shrnt_vec_list,
6854 .load_dest = true,
6855 .fno = gen_helper_sve2_shrnt_h,
6856 .vece = MO_16 },
6857 { .fni8 = gen_shrnt32_i64,
6858 .fniv = gen_shrnt_vec,
6859 .opt_opc = shrnt_vec_list,
6860 .load_dest = true,
6861 .fno = gen_helper_sve2_shrnt_s,
6862 .vece = MO_32 },
6863 { .fni8 = gen_shrnt64_i64,
6864 .fniv = gen_shrnt_vec,
6865 .opt_opc = shrnt_vec_list,
6866 .load_dest = true,
6867 .fno = gen_helper_sve2_shrnt_d,
6868 .vece = MO_64 },
6869 };
6870 TRANS_FEAT(SHRNT, aa64_sve2, do_shr_narrow, a, shrnt_ops)
6871
6872 static const GVecGen2i rshrnb_ops[3] = {
6873 { .fno = gen_helper_sve2_rshrnb_h },
6874 { .fno = gen_helper_sve2_rshrnb_s },
6875 { .fno = gen_helper_sve2_rshrnb_d },
6876 };
6877 TRANS_FEAT(RSHRNB, aa64_sve2, do_shr_narrow, a, rshrnb_ops)
6878
6879 static const GVecGen2i rshrnt_ops[3] = {
6880 { .fno = gen_helper_sve2_rshrnt_h },
6881 { .fno = gen_helper_sve2_rshrnt_s },
6882 { .fno = gen_helper_sve2_rshrnt_d },
6883 };
6884 TRANS_FEAT(RSHRNT, aa64_sve2, do_shr_narrow, a, rshrnt_ops)
6885
6886 static void gen_sqshrunb_vec(unsigned vece, TCGv_vec d,
6887 TCGv_vec n, int64_t shr)
6888 {
6889 TCGv_vec t = tcg_temp_new_vec_matching(d);
6890 int halfbits = 4 << vece;
6891
6892 tcg_gen_sari_vec(vece, n, n, shr);
6893 tcg_gen_dupi_vec(vece, t, 0);
6894 tcg_gen_smax_vec(vece, n, n, t);
6895 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
6896 tcg_gen_umin_vec(vece, d, n, t);
6897 tcg_temp_free_vec(t);
6898 }
6899
6900 static const TCGOpcode sqshrunb_vec_list[] = {
6901 INDEX_op_sari_vec, INDEX_op_smax_vec, INDEX_op_umin_vec, 0
6902 };
6903 static const GVecGen2i sqshrunb_ops[3] = {
6904 { .fniv = gen_sqshrunb_vec,
6905 .opt_opc = sqshrunb_vec_list,
6906 .fno = gen_helper_sve2_sqshrunb_h,
6907 .vece = MO_16 },
6908 { .fniv = gen_sqshrunb_vec,
6909 .opt_opc = sqshrunb_vec_list,
6910 .fno = gen_helper_sve2_sqshrunb_s,
6911 .vece = MO_32 },
6912 { .fniv = gen_sqshrunb_vec,
6913 .opt_opc = sqshrunb_vec_list,
6914 .fno = gen_helper_sve2_sqshrunb_d,
6915 .vece = MO_64 },
6916 };
6917 TRANS_FEAT(SQSHRUNB, aa64_sve2, do_shr_narrow, a, sqshrunb_ops)
6918
6919 static void gen_sqshrunt_vec(unsigned vece, TCGv_vec d,
6920 TCGv_vec n, int64_t shr)
6921 {
6922 TCGv_vec t = tcg_temp_new_vec_matching(d);
6923 int halfbits = 4 << vece;
6924
6925 tcg_gen_sari_vec(vece, n, n, shr);
6926 tcg_gen_dupi_vec(vece, t, 0);
6927 tcg_gen_smax_vec(vece, n, n, t);
6928 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
6929 tcg_gen_umin_vec(vece, n, n, t);
6930 tcg_gen_shli_vec(vece, n, n, halfbits);
6931 tcg_gen_bitsel_vec(vece, d, t, d, n);
6932 tcg_temp_free_vec(t);
6933 }
6934
6935 static const TCGOpcode sqshrunt_vec_list[] = {
6936 INDEX_op_shli_vec, INDEX_op_sari_vec,
6937 INDEX_op_smax_vec, INDEX_op_umin_vec, 0
6938 };
6939 static const GVecGen2i sqshrunt_ops[3] = {
6940 { .fniv = gen_sqshrunt_vec,
6941 .opt_opc = sqshrunt_vec_list,
6942 .load_dest = true,
6943 .fno = gen_helper_sve2_sqshrunt_h,
6944 .vece = MO_16 },
6945 { .fniv = gen_sqshrunt_vec,
6946 .opt_opc = sqshrunt_vec_list,
6947 .load_dest = true,
6948 .fno = gen_helper_sve2_sqshrunt_s,
6949 .vece = MO_32 },
6950 { .fniv = gen_sqshrunt_vec,
6951 .opt_opc = sqshrunt_vec_list,
6952 .load_dest = true,
6953 .fno = gen_helper_sve2_sqshrunt_d,
6954 .vece = MO_64 },
6955 };
6956 TRANS_FEAT(SQSHRUNT, aa64_sve2, do_shr_narrow, a, sqshrunt_ops)
6957
6958 static const GVecGen2i sqrshrunb_ops[3] = {
6959 { .fno = gen_helper_sve2_sqrshrunb_h },
6960 { .fno = gen_helper_sve2_sqrshrunb_s },
6961 { .fno = gen_helper_sve2_sqrshrunb_d },
6962 };
6963 TRANS_FEAT(SQRSHRUNB, aa64_sve2, do_shr_narrow, a, sqrshrunb_ops)
6964
6965 static const GVecGen2i sqrshrunt_ops[3] = {
6966 { .fno = gen_helper_sve2_sqrshrunt_h },
6967 { .fno = gen_helper_sve2_sqrshrunt_s },
6968 { .fno = gen_helper_sve2_sqrshrunt_d },
6969 };
6970 TRANS_FEAT(SQRSHRUNT, aa64_sve2, do_shr_narrow, a, sqrshrunt_ops)
6971
6972 static void gen_sqshrnb_vec(unsigned vece, TCGv_vec d,
6973 TCGv_vec n, int64_t shr)
6974 {
6975 TCGv_vec t = tcg_temp_new_vec_matching(d);
6976 int halfbits = 4 << vece;
6977 int64_t max = MAKE_64BIT_MASK(0, halfbits - 1);
6978 int64_t min = -max - 1;
6979
6980 tcg_gen_sari_vec(vece, n, n, shr);
6981 tcg_gen_dupi_vec(vece, t, min);
6982 tcg_gen_smax_vec(vece, n, n, t);
6983 tcg_gen_dupi_vec(vece, t, max);
6984 tcg_gen_smin_vec(vece, n, n, t);
6985 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
6986 tcg_gen_and_vec(vece, d, n, t);
6987 tcg_temp_free_vec(t);
6988 }
6989
6990 static const TCGOpcode sqshrnb_vec_list[] = {
6991 INDEX_op_sari_vec, INDEX_op_smax_vec, INDEX_op_smin_vec, 0
6992 };
6993 static const GVecGen2i sqshrnb_ops[3] = {
6994 { .fniv = gen_sqshrnb_vec,
6995 .opt_opc = sqshrnb_vec_list,
6996 .fno = gen_helper_sve2_sqshrnb_h,
6997 .vece = MO_16 },
6998 { .fniv = gen_sqshrnb_vec,
6999 .opt_opc = sqshrnb_vec_list,
7000 .fno = gen_helper_sve2_sqshrnb_s,
7001 .vece = MO_32 },
7002 { .fniv = gen_sqshrnb_vec,
7003 .opt_opc = sqshrnb_vec_list,
7004 .fno = gen_helper_sve2_sqshrnb_d,
7005 .vece = MO_64 },
7006 };
7007 TRANS_FEAT(SQSHRNB, aa64_sve2, do_shr_narrow, a, sqshrnb_ops)
7008
7009 static void gen_sqshrnt_vec(unsigned vece, TCGv_vec d,
7010 TCGv_vec n, int64_t shr)
7011 {
7012 TCGv_vec t = tcg_temp_new_vec_matching(d);
7013 int halfbits = 4 << vece;
7014 int64_t max = MAKE_64BIT_MASK(0, halfbits - 1);
7015 int64_t min = -max - 1;
7016
7017 tcg_gen_sari_vec(vece, n, n, shr);
7018 tcg_gen_dupi_vec(vece, t, min);
7019 tcg_gen_smax_vec(vece, n, n, t);
7020 tcg_gen_dupi_vec(vece, t, max);
7021 tcg_gen_smin_vec(vece, n, n, t);
7022 tcg_gen_shli_vec(vece, n, n, halfbits);
7023 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
7024 tcg_gen_bitsel_vec(vece, d, t, d, n);
7025 tcg_temp_free_vec(t);
7026 }
7027
7028 static const TCGOpcode sqshrnt_vec_list[] = {
7029 INDEX_op_shli_vec, INDEX_op_sari_vec,
7030 INDEX_op_smax_vec, INDEX_op_smin_vec, 0
7031 };
7032 static const GVecGen2i sqshrnt_ops[3] = {
7033 { .fniv = gen_sqshrnt_vec,
7034 .opt_opc = sqshrnt_vec_list,
7035 .load_dest = true,
7036 .fno = gen_helper_sve2_sqshrnt_h,
7037 .vece = MO_16 },
7038 { .fniv = gen_sqshrnt_vec,
7039 .opt_opc = sqshrnt_vec_list,
7040 .load_dest = true,
7041 .fno = gen_helper_sve2_sqshrnt_s,
7042 .vece = MO_32 },
7043 { .fniv = gen_sqshrnt_vec,
7044 .opt_opc = sqshrnt_vec_list,
7045 .load_dest = true,
7046 .fno = gen_helper_sve2_sqshrnt_d,
7047 .vece = MO_64 },
7048 };
7049 TRANS_FEAT(SQSHRNT, aa64_sve2, do_shr_narrow, a, sqshrnt_ops)
7050
7051 static const GVecGen2i sqrshrnb_ops[3] = {
7052 { .fno = gen_helper_sve2_sqrshrnb_h },
7053 { .fno = gen_helper_sve2_sqrshrnb_s },
7054 { .fno = gen_helper_sve2_sqrshrnb_d },
7055 };
7056 TRANS_FEAT(SQRSHRNB, aa64_sve2, do_shr_narrow, a, sqrshrnb_ops)
7057
7058 static const GVecGen2i sqrshrnt_ops[3] = {
7059 { .fno = gen_helper_sve2_sqrshrnt_h },
7060 { .fno = gen_helper_sve2_sqrshrnt_s },
7061 { .fno = gen_helper_sve2_sqrshrnt_d },
7062 };
7063 TRANS_FEAT(SQRSHRNT, aa64_sve2, do_shr_narrow, a, sqrshrnt_ops)
7064
7065 static void gen_uqshrnb_vec(unsigned vece, TCGv_vec d,
7066 TCGv_vec n, int64_t shr)
7067 {
7068 TCGv_vec t = tcg_temp_new_vec_matching(d);
7069 int halfbits = 4 << vece;
7070
7071 tcg_gen_shri_vec(vece, n, n, shr);
7072 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
7073 tcg_gen_umin_vec(vece, d, n, t);
7074 tcg_temp_free_vec(t);
7075 }
7076
7077 static const TCGOpcode uqshrnb_vec_list[] = {
7078 INDEX_op_shri_vec, INDEX_op_umin_vec, 0
7079 };
7080 static const GVecGen2i uqshrnb_ops[3] = {
7081 { .fniv = gen_uqshrnb_vec,
7082 .opt_opc = uqshrnb_vec_list,
7083 .fno = gen_helper_sve2_uqshrnb_h,
7084 .vece = MO_16 },
7085 { .fniv = gen_uqshrnb_vec,
7086 .opt_opc = uqshrnb_vec_list,
7087 .fno = gen_helper_sve2_uqshrnb_s,
7088 .vece = MO_32 },
7089 { .fniv = gen_uqshrnb_vec,
7090 .opt_opc = uqshrnb_vec_list,
7091 .fno = gen_helper_sve2_uqshrnb_d,
7092 .vece = MO_64 },
7093 };
7094 TRANS_FEAT(UQSHRNB, aa64_sve2, do_shr_narrow, a, uqshrnb_ops)
7095
7096 static void gen_uqshrnt_vec(unsigned vece, TCGv_vec d,
7097 TCGv_vec n, int64_t shr)
7098 {
7099 TCGv_vec t = tcg_temp_new_vec_matching(d);
7100 int halfbits = 4 << vece;
7101
7102 tcg_gen_shri_vec(vece, n, n, shr);
7103 tcg_gen_dupi_vec(vece, t, MAKE_64BIT_MASK(0, halfbits));
7104 tcg_gen_umin_vec(vece, n, n, t);
7105 tcg_gen_shli_vec(vece, n, n, halfbits);
7106 tcg_gen_bitsel_vec(vece, d, t, d, n);
7107 tcg_temp_free_vec(t);
7108 }
7109
7110 static const TCGOpcode uqshrnt_vec_list[] = {
7111 INDEX_op_shli_vec, INDEX_op_shri_vec, INDEX_op_umin_vec, 0
7112 };
7113 static const GVecGen2i uqshrnt_ops[3] = {
7114 { .fniv = gen_uqshrnt_vec,
7115 .opt_opc = uqshrnt_vec_list,
7116 .load_dest = true,
7117 .fno = gen_helper_sve2_uqshrnt_h,
7118 .vece = MO_16 },
7119 { .fniv = gen_uqshrnt_vec,
7120 .opt_opc = uqshrnt_vec_list,
7121 .load_dest = true,
7122 .fno = gen_helper_sve2_uqshrnt_s,
7123 .vece = MO_32 },
7124 { .fniv = gen_uqshrnt_vec,
7125 .opt_opc = uqshrnt_vec_list,
7126 .load_dest = true,
7127 .fno = gen_helper_sve2_uqshrnt_d,
7128 .vece = MO_64 },
7129 };
7130 TRANS_FEAT(UQSHRNT, aa64_sve2, do_shr_narrow, a, uqshrnt_ops)
7131
7132 static const GVecGen2i uqrshrnb_ops[3] = {
7133 { .fno = gen_helper_sve2_uqrshrnb_h },
7134 { .fno = gen_helper_sve2_uqrshrnb_s },
7135 { .fno = gen_helper_sve2_uqrshrnb_d },
7136 };
7137 TRANS_FEAT(UQRSHRNB, aa64_sve2, do_shr_narrow, a, uqrshrnb_ops)
7138
7139 static const GVecGen2i uqrshrnt_ops[3] = {
7140 { .fno = gen_helper_sve2_uqrshrnt_h },
7141 { .fno = gen_helper_sve2_uqrshrnt_s },
7142 { .fno = gen_helper_sve2_uqrshrnt_d },
7143 };
7144 TRANS_FEAT(UQRSHRNT, aa64_sve2, do_shr_narrow, a, uqrshrnt_ops)
7145
7146 #define DO_SVE2_ZZZ_NARROW(NAME, name) \
7147 static gen_helper_gvec_3 * const name##_fns[4] = { \
7148 NULL, gen_helper_sve2_##name##_h, \
7149 gen_helper_sve2_##name##_s, gen_helper_sve2_##name##_d, \
7150 }; \
7151 TRANS_FEAT(NAME, aa64_sve2, gen_gvec_ool_arg_zzz, \
7152 name##_fns[a->esz], a, 0)
7153
7154 DO_SVE2_ZZZ_NARROW(ADDHNB, addhnb)
7155 DO_SVE2_ZZZ_NARROW(ADDHNT, addhnt)
7156 DO_SVE2_ZZZ_NARROW(RADDHNB, raddhnb)
7157 DO_SVE2_ZZZ_NARROW(RADDHNT, raddhnt)
7158
7159 DO_SVE2_ZZZ_NARROW(SUBHNB, subhnb)
7160 DO_SVE2_ZZZ_NARROW(SUBHNT, subhnt)
7161 DO_SVE2_ZZZ_NARROW(RSUBHNB, rsubhnb)
7162 DO_SVE2_ZZZ_NARROW(RSUBHNT, rsubhnt)
7163
7164 static gen_helper_gvec_flags_4 * const match_fns[4] = {
7165 gen_helper_sve2_match_ppzz_b, gen_helper_sve2_match_ppzz_h, NULL, NULL
7166 };
7167 TRANS_FEAT_NONSTREAMING(MATCH, aa64_sve2, do_ppzz_flags, a, match_fns[a->esz])
7168
7169 static gen_helper_gvec_flags_4 * const nmatch_fns[4] = {
7170 gen_helper_sve2_nmatch_ppzz_b, gen_helper_sve2_nmatch_ppzz_h, NULL, NULL
7171 };
7172 TRANS_FEAT_NONSTREAMING(NMATCH, aa64_sve2, do_ppzz_flags, a, nmatch_fns[a->esz])
7173
7174 static gen_helper_gvec_4 * const histcnt_fns[4] = {
7175 NULL, NULL, gen_helper_sve2_histcnt_s, gen_helper_sve2_histcnt_d
7176 };
7177 TRANS_FEAT_NONSTREAMING(HISTCNT, aa64_sve2, gen_gvec_ool_arg_zpzz,
7178 histcnt_fns[a->esz], a, 0)
7179
7180 TRANS_FEAT_NONSTREAMING(HISTSEG, aa64_sve2, gen_gvec_ool_arg_zzz,
7181 a->esz == 0 ? gen_helper_sve2_histseg : NULL, a, 0)
7182
7183 DO_ZPZZ_FP(FADDP, aa64_sve2, sve2_faddp_zpzz)
7184 DO_ZPZZ_FP(FMAXNMP, aa64_sve2, sve2_fmaxnmp_zpzz)
7185 DO_ZPZZ_FP(FMINNMP, aa64_sve2, sve2_fminnmp_zpzz)
7186 DO_ZPZZ_FP(FMAXP, aa64_sve2, sve2_fmaxp_zpzz)
7187 DO_ZPZZ_FP(FMINP, aa64_sve2, sve2_fminp_zpzz)
7188
7189 /*
7190 * SVE Integer Multiply-Add (unpredicated)
7191 */
7192
7193 TRANS_FEAT_NONSTREAMING(FMMLA_s, aa64_sve_f32mm, gen_gvec_fpst_zzzz,
7194 gen_helper_fmmla_s, a->rd, a->rn, a->rm, a->ra,
7195 0, FPST_FPCR)
7196 TRANS_FEAT_NONSTREAMING(FMMLA_d, aa64_sve_f64mm, gen_gvec_fpst_zzzz,
7197 gen_helper_fmmla_d, a->rd, a->rn, a->rm, a->ra,
7198 0, FPST_FPCR)
7199
7200 static gen_helper_gvec_4 * const sqdmlal_zzzw_fns[] = {
7201 NULL, gen_helper_sve2_sqdmlal_zzzw_h,
7202 gen_helper_sve2_sqdmlal_zzzw_s, gen_helper_sve2_sqdmlal_zzzw_d,
7203 };
7204 TRANS_FEAT(SQDMLALB_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7205 sqdmlal_zzzw_fns[a->esz], a, 0)
7206 TRANS_FEAT(SQDMLALT_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7207 sqdmlal_zzzw_fns[a->esz], a, 3)
7208 TRANS_FEAT(SQDMLALBT, aa64_sve2, gen_gvec_ool_arg_zzzz,
7209 sqdmlal_zzzw_fns[a->esz], a, 2)
7210
7211 static gen_helper_gvec_4 * const sqdmlsl_zzzw_fns[] = {
7212 NULL, gen_helper_sve2_sqdmlsl_zzzw_h,
7213 gen_helper_sve2_sqdmlsl_zzzw_s, gen_helper_sve2_sqdmlsl_zzzw_d,
7214 };
7215 TRANS_FEAT(SQDMLSLB_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7216 sqdmlsl_zzzw_fns[a->esz], a, 0)
7217 TRANS_FEAT(SQDMLSLT_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7218 sqdmlsl_zzzw_fns[a->esz], a, 3)
7219 TRANS_FEAT(SQDMLSLBT, aa64_sve2, gen_gvec_ool_arg_zzzz,
7220 sqdmlsl_zzzw_fns[a->esz], a, 2)
7221
7222 static gen_helper_gvec_4 * const sqrdmlah_fns[] = {
7223 gen_helper_sve2_sqrdmlah_b, gen_helper_sve2_sqrdmlah_h,
7224 gen_helper_sve2_sqrdmlah_s, gen_helper_sve2_sqrdmlah_d,
7225 };
7226 TRANS_FEAT(SQRDMLAH_zzzz, aa64_sve2, gen_gvec_ool_arg_zzzz,
7227 sqrdmlah_fns[a->esz], a, 0)
7228
7229 static gen_helper_gvec_4 * const sqrdmlsh_fns[] = {
7230 gen_helper_sve2_sqrdmlsh_b, gen_helper_sve2_sqrdmlsh_h,
7231 gen_helper_sve2_sqrdmlsh_s, gen_helper_sve2_sqrdmlsh_d,
7232 };
7233 TRANS_FEAT(SQRDMLSH_zzzz, aa64_sve2, gen_gvec_ool_arg_zzzz,
7234 sqrdmlsh_fns[a->esz], a, 0)
7235
7236 static gen_helper_gvec_4 * const smlal_zzzw_fns[] = {
7237 NULL, gen_helper_sve2_smlal_zzzw_h,
7238 gen_helper_sve2_smlal_zzzw_s, gen_helper_sve2_smlal_zzzw_d,
7239 };
7240 TRANS_FEAT(SMLALB_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7241 smlal_zzzw_fns[a->esz], a, 0)
7242 TRANS_FEAT(SMLALT_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7243 smlal_zzzw_fns[a->esz], a, 1)
7244
7245 static gen_helper_gvec_4 * const umlal_zzzw_fns[] = {
7246 NULL, gen_helper_sve2_umlal_zzzw_h,
7247 gen_helper_sve2_umlal_zzzw_s, gen_helper_sve2_umlal_zzzw_d,
7248 };
7249 TRANS_FEAT(UMLALB_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7250 umlal_zzzw_fns[a->esz], a, 0)
7251 TRANS_FEAT(UMLALT_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7252 umlal_zzzw_fns[a->esz], a, 1)
7253
7254 static gen_helper_gvec_4 * const smlsl_zzzw_fns[] = {
7255 NULL, gen_helper_sve2_smlsl_zzzw_h,
7256 gen_helper_sve2_smlsl_zzzw_s, gen_helper_sve2_smlsl_zzzw_d,
7257 };
7258 TRANS_FEAT(SMLSLB_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7259 smlsl_zzzw_fns[a->esz], a, 0)
7260 TRANS_FEAT(SMLSLT_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7261 smlsl_zzzw_fns[a->esz], a, 1)
7262
7263 static gen_helper_gvec_4 * const umlsl_zzzw_fns[] = {
7264 NULL, gen_helper_sve2_umlsl_zzzw_h,
7265 gen_helper_sve2_umlsl_zzzw_s, gen_helper_sve2_umlsl_zzzw_d,
7266 };
7267 TRANS_FEAT(UMLSLB_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7268 umlsl_zzzw_fns[a->esz], a, 0)
7269 TRANS_FEAT(UMLSLT_zzzw, aa64_sve2, gen_gvec_ool_arg_zzzz,
7270 umlsl_zzzw_fns[a->esz], a, 1)
7271
7272 static gen_helper_gvec_4 * const cmla_fns[] = {
7273 gen_helper_sve2_cmla_zzzz_b, gen_helper_sve2_cmla_zzzz_h,
7274 gen_helper_sve2_cmla_zzzz_s, gen_helper_sve2_cmla_zzzz_d,
7275 };
7276 TRANS_FEAT(CMLA_zzzz, aa64_sve2, gen_gvec_ool_zzzz,
7277 cmla_fns[a->esz], a->rd, a->rn, a->rm, a->ra, a->rot)
7278
7279 static gen_helper_gvec_4 * const cdot_fns[] = {
7280 NULL, NULL, gen_helper_sve2_cdot_zzzz_s, gen_helper_sve2_cdot_zzzz_d
7281 };
7282 TRANS_FEAT(CDOT_zzzz, aa64_sve2, gen_gvec_ool_zzzz,
7283 cdot_fns[a->esz], a->rd, a->rn, a->rm, a->ra, a->rot)
7284
7285 static gen_helper_gvec_4 * const sqrdcmlah_fns[] = {
7286 gen_helper_sve2_sqrdcmlah_zzzz_b, gen_helper_sve2_sqrdcmlah_zzzz_h,
7287 gen_helper_sve2_sqrdcmlah_zzzz_s, gen_helper_sve2_sqrdcmlah_zzzz_d,
7288 };
7289 TRANS_FEAT(SQRDCMLAH_zzzz, aa64_sve2, gen_gvec_ool_zzzz,
7290 sqrdcmlah_fns[a->esz], a->rd, a->rn, a->rm, a->ra, a->rot)
7291
7292 TRANS_FEAT(USDOT_zzzz, aa64_sve_i8mm, gen_gvec_ool_arg_zzzz,
7293 a->esz == 2 ? gen_helper_gvec_usdot_b : NULL, a, 0)
7294
7295 TRANS_FEAT_NONSTREAMING(AESMC, aa64_sve2_aes, gen_gvec_ool_zz,
7296 gen_helper_crypto_aesmc, a->rd, a->rd, a->decrypt)
7297
7298 TRANS_FEAT_NONSTREAMING(AESE, aa64_sve2_aes, gen_gvec_ool_arg_zzz,
7299 gen_helper_crypto_aese, a, false)
7300 TRANS_FEAT_NONSTREAMING(AESD, aa64_sve2_aes, gen_gvec_ool_arg_zzz,
7301 gen_helper_crypto_aese, a, true)
7302
7303 TRANS_FEAT_NONSTREAMING(SM4E, aa64_sve2_sm4, gen_gvec_ool_arg_zzz,
7304 gen_helper_crypto_sm4e, a, 0)
7305 TRANS_FEAT_NONSTREAMING(SM4EKEY, aa64_sve2_sm4, gen_gvec_ool_arg_zzz,
7306 gen_helper_crypto_sm4ekey, a, 0)
7307
7308 TRANS_FEAT_NONSTREAMING(RAX1, aa64_sve2_sha3, gen_gvec_fn_arg_zzz,
7309 gen_gvec_rax1, a)
7310
7311 TRANS_FEAT(FCVTNT_sh, aa64_sve2, gen_gvec_fpst_arg_zpz,
7312 gen_helper_sve2_fcvtnt_sh, a, 0, FPST_FPCR)
7313 TRANS_FEAT(FCVTNT_ds, aa64_sve2, gen_gvec_fpst_arg_zpz,
7314 gen_helper_sve2_fcvtnt_ds, a, 0, FPST_FPCR)
7315
7316 TRANS_FEAT(BFCVTNT, aa64_sve_bf16, gen_gvec_fpst_arg_zpz,
7317 gen_helper_sve_bfcvtnt, a, 0, FPST_FPCR)
7318
7319 TRANS_FEAT(FCVTLT_hs, aa64_sve2, gen_gvec_fpst_arg_zpz,
7320 gen_helper_sve2_fcvtlt_hs, a, 0, FPST_FPCR)
7321 TRANS_FEAT(FCVTLT_sd, aa64_sve2, gen_gvec_fpst_arg_zpz,
7322 gen_helper_sve2_fcvtlt_sd, a, 0, FPST_FPCR)
7323
7324 TRANS_FEAT(FCVTX_ds, aa64_sve2, do_frint_mode, a,
7325 float_round_to_odd, gen_helper_sve_fcvt_ds)
7326 TRANS_FEAT(FCVTXNT_ds, aa64_sve2, do_frint_mode, a,
7327 float_round_to_odd, gen_helper_sve2_fcvtnt_ds)
7328
7329 static gen_helper_gvec_3_ptr * const flogb_fns[] = {
7330 NULL, gen_helper_flogb_h,
7331 gen_helper_flogb_s, gen_helper_flogb_d
7332 };
7333 TRANS_FEAT(FLOGB, aa64_sve2, gen_gvec_fpst_arg_zpz, flogb_fns[a->esz],
7334 a, 0, a->esz == MO_16 ? FPST_FPCR_F16 : FPST_FPCR)
7335
7336 static bool do_FMLAL_zzzw(DisasContext *s, arg_rrrr_esz *a, bool sub, bool sel)
7337 {
7338 return gen_gvec_ptr_zzzz(s, gen_helper_sve2_fmlal_zzzw_s,
7339 a->rd, a->rn, a->rm, a->ra,
7340 (sel << 1) | sub, cpu_env);
7341 }
7342
7343 TRANS_FEAT(FMLALB_zzzw, aa64_sve2, do_FMLAL_zzzw, a, false, false)
7344 TRANS_FEAT(FMLALT_zzzw, aa64_sve2, do_FMLAL_zzzw, a, false, true)
7345 TRANS_FEAT(FMLSLB_zzzw, aa64_sve2, do_FMLAL_zzzw, a, true, false)
7346 TRANS_FEAT(FMLSLT_zzzw, aa64_sve2, do_FMLAL_zzzw, a, true, true)
7347
7348 static bool do_FMLAL_zzxw(DisasContext *s, arg_rrxr_esz *a, bool sub, bool sel)
7349 {
7350 return gen_gvec_ptr_zzzz(s, gen_helper_sve2_fmlal_zzxw_s,
7351 a->rd, a->rn, a->rm, a->ra,
7352 (a->index << 2) | (sel << 1) | sub, cpu_env);
7353 }
7354
7355 TRANS_FEAT(FMLALB_zzxw, aa64_sve2, do_FMLAL_zzxw, a, false, false)
7356 TRANS_FEAT(FMLALT_zzxw, aa64_sve2, do_FMLAL_zzxw, a, false, true)
7357 TRANS_FEAT(FMLSLB_zzxw, aa64_sve2, do_FMLAL_zzxw, a, true, false)
7358 TRANS_FEAT(FMLSLT_zzxw, aa64_sve2, do_FMLAL_zzxw, a, true, true)
7359
7360 TRANS_FEAT_NONSTREAMING(SMMLA, aa64_sve_i8mm, gen_gvec_ool_arg_zzzz,
7361 gen_helper_gvec_smmla_b, a, 0)
7362 TRANS_FEAT_NONSTREAMING(USMMLA, aa64_sve_i8mm, gen_gvec_ool_arg_zzzz,
7363 gen_helper_gvec_usmmla_b, a, 0)
7364 TRANS_FEAT_NONSTREAMING(UMMLA, aa64_sve_i8mm, gen_gvec_ool_arg_zzzz,
7365 gen_helper_gvec_ummla_b, a, 0)
7366
7367 TRANS_FEAT(BFDOT_zzzz, aa64_sve_bf16, gen_gvec_ool_arg_zzzz,
7368 gen_helper_gvec_bfdot, a, 0)
7369 TRANS_FEAT(BFDOT_zzxz, aa64_sve_bf16, gen_gvec_ool_arg_zzxz,
7370 gen_helper_gvec_bfdot_idx, a)
7371
7372 TRANS_FEAT_NONSTREAMING(BFMMLA, aa64_sve_bf16, gen_gvec_ool_arg_zzzz,
7373 gen_helper_gvec_bfmmla, a, 0)
7374
7375 static bool do_BFMLAL_zzzw(DisasContext *s, arg_rrrr_esz *a, bool sel)
7376 {
7377 return gen_gvec_fpst_zzzz(s, gen_helper_gvec_bfmlal,
7378 a->rd, a->rn, a->rm, a->ra, sel, FPST_FPCR);
7379 }
7380
7381 TRANS_FEAT(BFMLALB_zzzw, aa64_sve_bf16, do_BFMLAL_zzzw, a, false)
7382 TRANS_FEAT(BFMLALT_zzzw, aa64_sve_bf16, do_BFMLAL_zzzw, a, true)
7383
7384 static bool do_BFMLAL_zzxw(DisasContext *s, arg_rrxr_esz *a, bool sel)
7385 {
7386 return gen_gvec_fpst_zzzz(s, gen_helper_gvec_bfmlal_idx,
7387 a->rd, a->rn, a->rm, a->ra,
7388 (a->index << 1) | sel, FPST_FPCR);
7389 }
7390
7391 TRANS_FEAT(BFMLALB_zzxw, aa64_sve_bf16, do_BFMLAL_zzxw, a, false)
7392 TRANS_FEAT(BFMLALT_zzxw, aa64_sve_bf16, do_BFMLAL_zzxw, a, true)
7393
7394 static bool trans_PSEL(DisasContext *s, arg_psel *a)
7395 {
7396 int vl = vec_full_reg_size(s);
7397 int pl = pred_gvec_reg_size(s);
7398 int elements = vl >> a->esz;
7399 TCGv_i64 tmp, didx, dbit;
7400 TCGv_ptr ptr;
7401
7402 if (!dc_isar_feature(aa64_sme, s)) {
7403 return false;
7404 }
7405 if (!sve_access_check(s)) {
7406 return true;
7407 }
7408
7409 tmp = tcg_temp_new_i64();
7410 dbit = tcg_temp_new_i64();
7411 didx = tcg_temp_new_i64();
7412 ptr = tcg_temp_new_ptr();
7413
7414 /* Compute the predicate element. */
7415 tcg_gen_addi_i64(tmp, cpu_reg(s, a->rv), a->imm);
7416 if (is_power_of_2(elements)) {
7417 tcg_gen_andi_i64(tmp, tmp, elements - 1);
7418 } else {
7419 tcg_gen_remu_i64(tmp, tmp, tcg_constant_i64(elements));
7420 }
7421
7422 /* Extract the predicate byte and bit indices. */
7423 tcg_gen_shli_i64(tmp, tmp, a->esz);
7424 tcg_gen_andi_i64(dbit, tmp, 7);
7425 tcg_gen_shri_i64(didx, tmp, 3);
7426 if (HOST_BIG_ENDIAN) {
7427 tcg_gen_xori_i64(didx, didx, 7);
7428 }
7429
7430 /* Load the predicate word. */
7431 tcg_gen_trunc_i64_ptr(ptr, didx);
7432 tcg_gen_add_ptr(ptr, ptr, cpu_env);
7433 tcg_gen_ld8u_i64(tmp, ptr, pred_full_reg_offset(s, a->pm));
7434
7435 /* Extract the predicate bit and replicate to MO_64. */
7436 tcg_gen_shr_i64(tmp, tmp, dbit);
7437 tcg_gen_andi_i64(tmp, tmp, 1);
7438 tcg_gen_neg_i64(tmp, tmp);
7439
7440 /* Apply to either copy the source, or write zeros. */
7441 tcg_gen_gvec_ands(MO_64, pred_full_reg_offset(s, a->pd),
7442 pred_full_reg_offset(s, a->pn), tmp, pl, pl);
7443
7444 tcg_temp_free_i64(tmp);
7445 tcg_temp_free_i64(dbit);
7446 tcg_temp_free_i64(didx);
7447 tcg_temp_free_ptr(ptr);
7448 return true;
7449 }
7450
7451 static void gen_sclamp_i32(TCGv_i32 d, TCGv_i32 n, TCGv_i32 m, TCGv_i32 a)
7452 {
7453 tcg_gen_smax_i32(d, a, n);
7454 tcg_gen_smin_i32(d, d, m);
7455 }
7456
7457 static void gen_sclamp_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 a)
7458 {
7459 tcg_gen_smax_i64(d, a, n);
7460 tcg_gen_smin_i64(d, d, m);
7461 }
7462
7463 static void gen_sclamp_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
7464 TCGv_vec m, TCGv_vec a)
7465 {
7466 tcg_gen_smax_vec(vece, d, a, n);
7467 tcg_gen_smin_vec(vece, d, d, m);
7468 }
7469
7470 static void gen_sclamp(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
7471 uint32_t a, uint32_t oprsz, uint32_t maxsz)
7472 {
7473 static const TCGOpcode vecop[] = {
7474 INDEX_op_smin_vec, INDEX_op_smax_vec, 0
7475 };
7476 static const GVecGen4 ops[4] = {
7477 { .fniv = gen_sclamp_vec,
7478 .fno = gen_helper_gvec_sclamp_b,
7479 .opt_opc = vecop,
7480 .vece = MO_8 },
7481 { .fniv = gen_sclamp_vec,
7482 .fno = gen_helper_gvec_sclamp_h,
7483 .opt_opc = vecop,
7484 .vece = MO_16 },
7485 { .fni4 = gen_sclamp_i32,
7486 .fniv = gen_sclamp_vec,
7487 .fno = gen_helper_gvec_sclamp_s,
7488 .opt_opc = vecop,
7489 .vece = MO_32 },
7490 { .fni8 = gen_sclamp_i64,
7491 .fniv = gen_sclamp_vec,
7492 .fno = gen_helper_gvec_sclamp_d,
7493 .opt_opc = vecop,
7494 .vece = MO_64,
7495 .prefer_i64 = TCG_TARGET_REG_BITS == 64 }
7496 };
7497 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &ops[vece]);
7498 }
7499
7500 TRANS_FEAT(SCLAMP, aa64_sme, gen_gvec_fn_arg_zzzz, gen_sclamp, a)
7501
7502 static void gen_uclamp_i32(TCGv_i32 d, TCGv_i32 n, TCGv_i32 m, TCGv_i32 a)
7503 {
7504 tcg_gen_umax_i32(d, a, n);
7505 tcg_gen_umin_i32(d, d, m);
7506 }
7507
7508 static void gen_uclamp_i64(TCGv_i64 d, TCGv_i64 n, TCGv_i64 m, TCGv_i64 a)
7509 {
7510 tcg_gen_umax_i64(d, a, n);
7511 tcg_gen_umin_i64(d, d, m);
7512 }
7513
7514 static void gen_uclamp_vec(unsigned vece, TCGv_vec d, TCGv_vec n,
7515 TCGv_vec m, TCGv_vec a)
7516 {
7517 tcg_gen_umax_vec(vece, d, a, n);
7518 tcg_gen_umin_vec(vece, d, d, m);
7519 }
7520
7521 static void gen_uclamp(unsigned vece, uint32_t d, uint32_t n, uint32_t m,
7522 uint32_t a, uint32_t oprsz, uint32_t maxsz)
7523 {
7524 static const TCGOpcode vecop[] = {
7525 INDEX_op_umin_vec, INDEX_op_umax_vec, 0
7526 };
7527 static const GVecGen4 ops[4] = {
7528 { .fniv = gen_uclamp_vec,
7529 .fno = gen_helper_gvec_uclamp_b,
7530 .opt_opc = vecop,
7531 .vece = MO_8 },
7532 { .fniv = gen_uclamp_vec,
7533 .fno = gen_helper_gvec_uclamp_h,
7534 .opt_opc = vecop,
7535 .vece = MO_16 },
7536 { .fni4 = gen_uclamp_i32,
7537 .fniv = gen_uclamp_vec,
7538 .fno = gen_helper_gvec_uclamp_s,
7539 .opt_opc = vecop,
7540 .vece = MO_32 },
7541 { .fni8 = gen_uclamp_i64,
7542 .fniv = gen_uclamp_vec,
7543 .fno = gen_helper_gvec_uclamp_d,
7544 .opt_opc = vecop,
7545 .vece = MO_64,
7546 .prefer_i64 = TCG_TARGET_REG_BITS == 64 }
7547 };
7548 tcg_gen_gvec_4(d, n, m, a, oprsz, maxsz, &ops[vece]);
7549 }
7550
7551 TRANS_FEAT(UCLAMP, aa64_sme, gen_gvec_fn_arg_zzzz, gen_uclamp, a)
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