1 /* aarch64-tbl.h -- AArch64 opcode description table and instruction 2 operand description table. 3 Copyright (C) 2012-2014 Free Software Foundation, Inc. 4 5 This file is part of the GNU opcodes library. 6 7 This library is free software; you can redistribute it and/or modify 8 it under the terms of the GNU General Public License as published by 9 the Free Software Foundation; either version 3, or (at your option) 10 any later version. 11 12 It is distributed in the hope that it will be useful, but WITHOUT 13 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY 14 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public 15 License for more details. 16 17 You should have received a copy of the GNU General Public License 18 along with this file; see the file COPYING. If not, write to the 19 Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston, 20 MA 02110-1301, USA. */ 21 22 #include "aarch64-opc.h" 23 24 /* Operand type. */ 25 26 #define OPND(x) AARCH64_OPND_##x 27 #define OP0() {} 28 #define OP1(a) {OPND(a)} 29 #define OP2(a,b) {OPND(a), OPND(b)} 30 #define OP3(a,b,c) {OPND(a), OPND(b), OPND(c)} 31 #define OP4(a,b,c,d) {OPND(a), OPND(b), OPND(c), OPND(d)} 32 #define OP5(a,b,c,d,e) {OPND(a), OPND(b), OPND(c), OPND(d), OPND(e)} 33 34 #define QLF(x) AARCH64_OPND_QLF_##x 35 #define QLF1(a) {QLF(a)} 36 #define QLF2(a,b) {QLF(a), QLF(b)} 37 #define QLF3(a,b,c) {QLF(a), QLF(b), QLF(c)} 38 #define QLF4(a,b,c,d) {QLF(a), QLF(b), QLF(c), QLF(d)} 39 #define QLF5(a,b,c,d,e) {QLF(a), QLF(b), QLF(c), QLF(d), QLF(e)} 40 41 /* Qualifiers list. */ 42 43 /* e.g. MSR <systemreg>, <Xt>. */ 44 #define QL_SRC_X \ 45 { \ 46 QLF2(NIL,X), \ 47 } 48 49 /* e.g. MRS <Xt>, <systemreg>. */ 50 #define QL_DST_X \ 51 { \ 52 QLF2(X,NIL), \ 53 } 54 55 /* e.g. SYS #<op1>, <Cn>, <Cm>, #<op2>{, <Xt>}. */ 56 #define QL_SYS \ 57 { \ 58 QLF5(NIL,NIL,NIL,NIL,X), \ 59 } 60 61 /* e.g. SYSL <Xt>, #<op1>, <Cn>, <Cm>, #<op2>. */ 62 #define QL_SYSL \ 63 { \ 64 QLF5(X,NIL,NIL,NIL,NIL), \ 65 } 66 67 /* e.g. ADRP <Xd>, <label>. */ 68 #define QL_ADRP \ 69 { \ 70 QLF2(X,NIL), \ 71 } 72 73 /* e.g. B.<cond> <label>. */ 74 #define QL_PCREL_NIL \ 75 { \ 76 QLF1(NIL), \ 77 } 78 79 /* e.g. TBZ <Xt>, #<imm>, <label>. */ 80 #define QL_PCREL_14 \ 81 { \ 82 QLF3(X,imm_0_63,NIL), \ 83 } 84 85 /* e.g. BL <label>. */ 86 #define QL_PCREL_26 \ 87 { \ 88 QLF1(NIL), \ 89 } 90 91 /* e.g. LDRSW <Xt>, <label>. */ 92 #define QL_X_PCREL \ 93 { \ 94 QLF2(X,NIL), \ 95 } 96 97 /* e.g. LDR <Wt>, <label>. */ 98 #define QL_R_PCREL \ 99 { \ 100 QLF2(W,NIL), \ 101 QLF2(X,NIL), \ 102 } 103 104 /* e.g. LDR <Dt>, <label>. */ 105 #define QL_FP_PCREL \ 106 { \ 107 QLF2(S_S,NIL), \ 108 QLF2(S_D,NIL), \ 109 QLF2(S_Q,NIL), \ 110 } 111 112 /* e.g. PRFM <prfop>, <label>. */ 113 #define QL_PRFM_PCREL \ 114 { \ 115 QLF2(NIL,NIL), \ 116 } 117 118 /* e.g. BR <Xn>. */ 119 #define QL_I1X \ 120 { \ 121 QLF1(X), \ 122 } 123 124 /* e.g. RBIT <Wd>, <Wn>. */ 125 #define QL_I2SAME \ 126 { \ 127 QLF2(W,W), \ 128 QLF2(X,X), \ 129 } 130 131 /* e.g. CMN <Wn|WSP>, <Wm>{, <extend> {#<amount>}}. */ 132 #define QL_I2_EXT \ 133 { \ 134 QLF2(W,W), \ 135 QLF2(X,W), \ 136 QLF2(X,X), \ 137 } 138 139 /* e.g. MOV <Wd|WSP>, <Wn|WSP>, at least one SP. */ 140 #define QL_I2SP \ 141 { \ 142 QLF2(WSP,W), \ 143 QLF2(W,WSP), \ 144 QLF2(SP,X), \ 145 QLF2(X,SP), \ 146 } 147 148 /* e.g. REV <Wd>, <Wn>. */ 149 #define QL_I2SAMEW \ 150 { \ 151 QLF2(W,W), \ 152 } 153 154 /* e.g. REV32 <Xd>, <Xn>. */ 155 #define QL_I2SAMEX \ 156 { \ 157 QLF2(X,X), \ 158 } 159 160 #define QL_I2SAMER \ 161 { \ 162 QLF2(W,W), \ 163 QLF2(X,X), \ 164 } 165 166 /* e.g. CRC32B <Wd>, <Wn>, <Wm>. */ 167 #define QL_I3SAMEW \ 168 { \ 169 QLF3(W,W,W), \ 170 } 171 172 /* e.g. SMULH <Xd>, <Xn>, <Xm>. */ 173 #define QL_I3SAMEX \ 174 { \ 175 QLF3(X,X,X), \ 176 } 177 178 /* e.g. CRC32X <Wd>, <Wn>, <Xm>. */ 179 #define QL_I3WWX \ 180 { \ 181 QLF3(W,W,X), \ 182 } 183 184 /* e.g. UDIV <Xd>, <Xn>, <Xm>. */ 185 #define QL_I3SAMER \ 186 { \ 187 QLF3(W,W,W), \ 188 QLF3(X,X,X), \ 189 } 190 191 /* e.g. ADDS <Xd>, <Xn|SP>, <R><m>{, <extend> {#<amount>}}. */ 192 #define QL_I3_EXT \ 193 { \ 194 QLF3(W,W,W), \ 195 QLF3(X,X,W), \ 196 QLF3(X,X,X), \ 197 } 198 199 /* e.g. MADD <Xd>, <Xn>, <Xm>, <Xa>. */ 200 #define QL_I4SAMER \ 201 { \ 202 QLF4(W,W,W,W), \ 203 QLF4(X,X,X,X), \ 204 } 205 206 /* e.g. SMADDL <Xd>, <Wn>, <Wm>, <Xa>. */ 207 #define QL_I3SAMEL \ 208 { \ 209 QLF3(X,W,W), \ 210 } 211 212 /* e.g. SMADDL <Xd>, <Wn>, <Wm>, <Xa>. */ 213 #define QL_I4SAMEL \ 214 { \ 215 QLF4(X,W,W,X), \ 216 } 217 218 /* e.g. CSINC <Xd>, <Xn>, <Xm>, <cond>. */ 219 #define QL_CSEL \ 220 { \ 221 QLF4(W, W, W, NIL), \ 222 QLF4(X, X, X, NIL), \ 223 } 224 225 /* e.g. CSET <Wd>, <cond>. */ 226 #define QL_DST_R \ 227 { \ 228 QLF2(W, NIL), \ 229 QLF2(X, NIL), \ 230 } 231 232 /* e.g. BFM <Wd>, <Wn>, #<immr>, #<imms>. */ 233 #define QL_BF \ 234 { \ 235 QLF4(W,W,imm_0_31,imm_0_31), \ 236 QLF4(X,X,imm_0_63,imm_0_63), \ 237 } 238 239 /* e.g. UBFIZ <Wd>, <Wn>, #<lsb>, #<width>. */ 240 #define QL_BF2 \ 241 { \ 242 QLF4(W,W,imm_0_31,imm_1_32), \ 243 QLF4(X,X,imm_0_63,imm_1_64), \ 244 } 245 246 /* e.g. SCVTF <Sd>, <Xn>, #<fbits>. */ 247 #define QL_FIX2FP \ 248 { \ 249 QLF3(S_D,W,imm_1_32), \ 250 QLF3(S_S,W,imm_1_32), \ 251 QLF3(S_D,X,imm_1_64), \ 252 QLF3(S_S,X,imm_1_64), \ 253 } 254 255 /* e.g. FCVTZS <Wd>, <Dn>, #<fbits>. */ 256 #define QL_FP2FIX \ 257 { \ 258 QLF3(W,S_D,imm_1_32), \ 259 QLF3(W,S_S,imm_1_32), \ 260 QLF3(X,S_D,imm_1_64), \ 261 QLF3(X,S_S,imm_1_64), \ 262 } 263 264 /* e.g. SCVTF <Dd>, <Wn>. */ 265 #define QL_INT2FP \ 266 { \ 267 QLF2(S_D,W), \ 268 QLF2(S_S,W), \ 269 QLF2(S_D,X), \ 270 QLF2(S_S,X), \ 271 } 272 273 /* e.g. FCVTNS <Xd>, <Dn>. */ 274 #define QL_FP2INT \ 275 { \ 276 QLF2(W,S_D), \ 277 QLF2(W,S_S), \ 278 QLF2(X,S_D), \ 279 QLF2(X,S_S), \ 280 } 281 282 /* e.g. FMOV <Xd>, <Vn>.D[1]. */ 283 #define QL_XVD1 \ 284 { \ 285 QLF2(X,S_D), \ 286 } 287 288 /* e.g. FMOV <Vd>.D[1], <Xn>. */ 289 #define QL_VD1X \ 290 { \ 291 QLF2(S_D,X), \ 292 } 293 294 /* e.g. EXTR <Xd>, <Xn>, <Xm>, #<lsb>. */ 295 #define QL_EXTR \ 296 { \ 297 QLF4(W,W,W,imm_0_31), \ 298 QLF4(X,X,X,imm_0_63), \ 299 } 300 301 /* e.g. LSL <Wd>, <Wn>, #<uimm>. */ 302 #define QL_SHIFT \ 303 { \ 304 QLF3(W,W,imm_0_31), \ 305 QLF3(X,X,imm_0_63), \ 306 } 307 308 /* e.g. UXTH <Xd>, <Wn>. */ 309 #define QL_EXT \ 310 { \ 311 QLF2(W,W), \ 312 QLF2(X,W), \ 313 } 314 315 /* e.g. UXTW <Xd>, <Wn>. */ 316 #define QL_EXT_W \ 317 { \ 318 QLF2(X,W), \ 319 } 320 321 /* e.g. SQSHL <V><d>, <V><n>, #<shift>. */ 322 #define QL_SSHIFT \ 323 { \ 324 QLF3(S_B , S_B , S_B ), \ 325 QLF3(S_H , S_H , S_H ), \ 326 QLF3(S_S , S_S , S_S ), \ 327 QLF3(S_D , S_D , S_D ) \ 328 } 329 330 /* e.g. SSHR <V><d>, <V><n>, #<shift>. */ 331 #define QL_SSHIFT_D \ 332 { \ 333 QLF3(S_D , S_D , S_D ) \ 334 } 335 336 /* e.g. UCVTF <Vd>.<T>, <Vn>.<T>, #<fbits>. */ 337 #define QL_SSHIFT_SD \ 338 { \ 339 QLF3(S_S , S_S , S_S ), \ 340 QLF3(S_D , S_D , S_D ) \ 341 } 342 343 /* e.g. SQSHRUN <Vb><d>, <Va><n>, #<shift>. */ 344 #define QL_SSHIFTN \ 345 { \ 346 QLF3(S_B , S_H , S_B ), \ 347 QLF3(S_H , S_S , S_H ), \ 348 QLF3(S_S , S_D , S_S ), \ 349 } 350 351 /* e.g. SSHR <Vd>.<T>, <Vn>.<T>, #<shift>. 352 The register operand variant qualifiers are deliberately used for the 353 immediate operand to ease the operand encoding/decoding and qualifier 354 sequence matching. */ 355 #define QL_VSHIFT \ 356 { \ 357 QLF3(V_8B , V_8B , V_8B ), \ 358 QLF3(V_16B, V_16B, V_16B), \ 359 QLF3(V_4H , V_4H , V_4H ), \ 360 QLF3(V_8H , V_8H , V_8H ), \ 361 QLF3(V_2S , V_2S , V_2S ), \ 362 QLF3(V_4S , V_4S , V_4S ), \ 363 QLF3(V_2D , V_2D , V_2D ) \ 364 } 365 366 /* e.g. SCVTF <Vd>.<T>, <Vn>.<T>, #<fbits>. */ 367 #define QL_VSHIFT_SD \ 368 { \ 369 QLF3(V_2S , V_2S , V_2S ), \ 370 QLF3(V_4S , V_4S , V_4S ), \ 371 QLF3(V_2D , V_2D , V_2D ) \ 372 } 373 374 /* e.g. SHRN<Q> <Vd>.<Tb>, <Vn>.<Ta>, #<shift>. */ 375 #define QL_VSHIFTN \ 376 { \ 377 QLF3(V_8B , V_8H , V_8B ), \ 378 QLF3(V_4H , V_4S , V_4H ), \ 379 QLF3(V_2S , V_2D , V_2S ), \ 380 } 381 382 /* e.g. SHRN<Q> <Vd>.<Tb>, <Vn>.<Ta>, #<shift>. */ 383 #define QL_VSHIFTN2 \ 384 { \ 385 QLF3(V_16B, V_8H, V_16B), \ 386 QLF3(V_8H , V_4S , V_8H ), \ 387 QLF3(V_4S , V_2D , V_4S ), \ 388 } 389 390 /* e.g. SSHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. 391 the 3rd qualifier is used to help the encoding. */ 392 #define QL_VSHIFTL \ 393 { \ 394 QLF3(V_8H , V_8B , V_8B ), \ 395 QLF3(V_4S , V_4H , V_4H ), \ 396 QLF3(V_2D , V_2S , V_2S ), \ 397 } 398 399 /* e.g. SSHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. */ 400 #define QL_VSHIFTL2 \ 401 { \ 402 QLF3(V_8H , V_16B, V_16B), \ 403 QLF3(V_4S , V_8H , V_8H ), \ 404 QLF3(V_2D , V_4S , V_4S ), \ 405 } 406 407 /* e.g. TBL. */ 408 #define QL_TABLE \ 409 { \ 410 QLF3(V_8B , V_16B, V_8B ), \ 411 QLF3(V_16B, V_16B, V_16B), \ 412 } 413 414 /* e.g. SHA1H. */ 415 #define QL_2SAMES \ 416 { \ 417 QLF2(S_S, S_S), \ 418 } 419 420 /* e.g. ABS <V><d>, <V><n>. */ 421 #define QL_2SAMED \ 422 { \ 423 QLF2(S_D, S_D), \ 424 } 425 426 /* e.g. CMGT <V><d>, <V><n>, #0. */ 427 #define QL_SISD_CMP_0 \ 428 { \ 429 QLF3(S_D, S_D, NIL), \ 430 } 431 432 /* e.g. FCMEQ <V><d>, <V><n>, #0. */ 433 #define QL_SISD_FCMP_0 \ 434 { \ 435 QLF3(S_S, S_S, NIL), \ 436 QLF3(S_D, S_D, NIL), \ 437 } 438 439 /* e.g. FMAXNMP <V><d>, <Vn>.<T>. */ 440 #define QL_SISD_PAIR \ 441 { \ 442 QLF2(S_S, V_2S), \ 443 QLF2(S_D, V_2D), \ 444 } 445 446 /* e.g. ADDP <V><d>, <Vn>.<T>. */ 447 #define QL_SISD_PAIR_D \ 448 { \ 449 QLF2(S_D, V_2D), \ 450 } 451 452 /* e.g. DUP <V><d>, <Vn>.<T>[<index>]. */ 453 #define QL_S_2SAME \ 454 { \ 455 QLF2(S_B, S_B), \ 456 QLF2(S_H, S_H), \ 457 QLF2(S_S, S_S), \ 458 QLF2(S_D, S_D), \ 459 } 460 461 /* e.g. FCVTNS <V><d>, <V><n>. */ 462 #define QL_S_2SAMESD \ 463 { \ 464 QLF2(S_S, S_S), \ 465 QLF2(S_D, S_D), \ 466 } 467 468 /* e.g. SQXTN <Vb><d>, <Va><n>. */ 469 #define QL_SISD_NARROW \ 470 { \ 471 QLF2(S_B, S_H), \ 472 QLF2(S_H, S_S), \ 473 QLF2(S_S, S_D), \ 474 } 475 476 /* e.g. FCVTXN <Vb><d>, <Va><n>. */ 477 #define QL_SISD_NARROW_S \ 478 { \ 479 QLF2(S_S, S_D), \ 480 } 481 482 /* e.g. FCVT. */ 483 #define QL_FCVT \ 484 { \ 485 QLF2(S_S, S_H), \ 486 QLF2(S_S, S_D), \ 487 QLF2(S_D, S_H), \ 488 QLF2(S_D, S_S), \ 489 QLF2(S_H, S_S), \ 490 QLF2(S_H, S_D), \ 491 } 492 493 /* FMOV <Dd>, <Dn>. */ 494 #define QL_FP2 \ 495 { \ 496 QLF2(S_S, S_S), \ 497 QLF2(S_D, S_D), \ 498 } 499 500 /* e.g. SQADD <V><d>, <V><n>, <V><m>. */ 501 #define QL_S_3SAME \ 502 { \ 503 QLF3(S_B, S_B, S_B), \ 504 QLF3(S_H, S_H, S_H), \ 505 QLF3(S_S, S_S, S_S), \ 506 QLF3(S_D, S_D, S_D), \ 507 } 508 509 /* e.g. CMGE <V><d>, <V><n>, <V><m>. */ 510 #define QL_S_3SAMED \ 511 { \ 512 QLF3(S_D, S_D, S_D), \ 513 } 514 515 /* e.g. SQDMULH <V><d>, <V><n>, <V><m>. */ 516 #define QL_SISD_HS \ 517 { \ 518 QLF3(S_H, S_H, S_H), \ 519 QLF3(S_S, S_S, S_S), \ 520 } 521 522 /* e.g. SQDMLAL <Va><d>, <Vb><n>, <Vb><m>. */ 523 #define QL_SISDL_HS \ 524 { \ 525 QLF3(S_S, S_H, S_H), \ 526 QLF3(S_D, S_S, S_S), \ 527 } 528 529 /* FMUL <Sd>, <Sn>, <Sm>. */ 530 #define QL_FP3 \ 531 { \ 532 QLF3(S_S, S_S, S_S), \ 533 QLF3(S_D, S_D, S_D), \ 534 } 535 536 /* FMADD <Dd>, <Dn>, <Dm>, <Da>. */ 537 #define QL_FP4 \ 538 { \ 539 QLF4(S_S, S_S, S_S, S_S), \ 540 QLF4(S_D, S_D, S_D, S_D), \ 541 } 542 543 /* e.g. FCMP <Dn>, #0.0. */ 544 #define QL_DST_SD \ 545 { \ 546 QLF2(S_S, NIL), \ 547 QLF2(S_D, NIL), \ 548 } 549 550 /* FCSEL <Sd>, <Sn>, <Sm>, <cond>. */ 551 #define QL_FP_COND \ 552 { \ 553 QLF4(S_S, S_S, S_S, NIL), \ 554 QLF4(S_D, S_D, S_D, NIL), \ 555 } 556 557 /* e.g. CCMN <Xn>, <Xm>, #<nzcv>, <cond>. */ 558 #define QL_CCMP \ 559 { \ 560 QLF4(W, W, NIL, NIL), \ 561 QLF4(X, X, NIL, NIL), \ 562 } 563 564 /* e.g. CCMN <Xn>, #<imm>, #<nzcv>, <cond>, */ 565 #define QL_CCMP_IMM \ 566 { \ 567 QLF4(W, NIL, NIL, NIL), \ 568 QLF4(X, NIL, NIL, NIL), \ 569 } 570 571 /* e.g. FCCMP <Sn>, <Sm>, #<nzcv>, <cond>. */ 572 #define QL_FCCMP \ 573 { \ 574 QLF4(S_S, S_S, NIL, NIL), \ 575 QLF4(S_D, S_D, NIL, NIL), \ 576 } 577 578 /* e.g. DUP <Vd>.<T>, <Vn>.<Ts>[<index>]. */ 579 #define QL_DUP_VX \ 580 { \ 581 QLF2(V_8B , S_B ), \ 582 QLF2(V_16B, S_B ), \ 583 QLF2(V_4H , S_H ), \ 584 QLF2(V_8H , S_H ), \ 585 QLF2(V_2S , S_S ), \ 586 QLF2(V_4S , S_S ), \ 587 QLF2(V_2D , S_D ), \ 588 } 589 590 /* e.g. DUP <Vd>.<T>, <Wn>. */ 591 #define QL_DUP_VR \ 592 { \ 593 QLF2(V_8B , W ), \ 594 QLF2(V_16B, W ), \ 595 QLF2(V_4H , W ), \ 596 QLF2(V_8H , W ), \ 597 QLF2(V_2S , W ), \ 598 QLF2(V_4S , W ), \ 599 QLF2(V_2D , X ), \ 600 } 601 602 /* e.g. INS <Vd>.<Ts>[<index>], <Wn>. */ 603 #define QL_INS_XR \ 604 { \ 605 QLF2(S_H , W ), \ 606 QLF2(S_S , W ), \ 607 QLF2(S_D , X ), \ 608 QLF2(S_B , W ), \ 609 } 610 611 /* e.g. SMOV <Wd>, <Vn>.<Ts>[<index>]. */ 612 #define QL_SMOV \ 613 { \ 614 QLF2(W , S_H), \ 615 QLF2(X , S_H), \ 616 QLF2(X , S_S), \ 617 QLF2(W , S_B), \ 618 QLF2(X , S_B), \ 619 } 620 621 /* e.g. UMOV <Wd>, <Vn>.<Ts>[<index>]. */ 622 #define QL_UMOV \ 623 { \ 624 QLF2(W , S_H), \ 625 QLF2(W , S_S), \ 626 QLF2(X , S_D), \ 627 QLF2(W , S_B), \ 628 } 629 630 /* e.g. MOV <Wd>, <Vn>.<Ts>[<index>]. */ 631 #define QL_MOV \ 632 { \ 633 QLF2(W , S_S), \ 634 QLF2(X , S_D), \ 635 } 636 637 /* e.g. SUQADD <Vd>.<T>, <Vn>.<T>. */ 638 #define QL_V2SAME \ 639 { \ 640 QLF2(V_8B , V_8B ), \ 641 QLF2(V_16B, V_16B), \ 642 QLF2(V_4H , V_4H ), \ 643 QLF2(V_8H , V_8H ), \ 644 QLF2(V_2S , V_2S ), \ 645 QLF2(V_4S , V_4S ), \ 646 QLF2(V_2D , V_2D ), \ 647 } 648 649 /* e.g. URSQRTE <Vd>.<T>, <Vn>.<T>. */ 650 #define QL_V2SAMES \ 651 { \ 652 QLF2(V_2S , V_2S ), \ 653 QLF2(V_4S , V_4S ), \ 654 } 655 656 /* e.g. REV32 <Vd>.<T>, <Vn>.<T>. */ 657 #define QL_V2SAMEBH \ 658 { \ 659 QLF2(V_8B , V_8B ), \ 660 QLF2(V_16B, V_16B), \ 661 QLF2(V_4H , V_4H ), \ 662 QLF2(V_8H , V_8H ), \ 663 } 664 665 /* e.g. FRINTN <Vd>.<T>, <Vn>.<T>. */ 666 #define QL_V2SAMESD \ 667 { \ 668 QLF2(V_2S , V_2S ), \ 669 QLF2(V_4S , V_4S ), \ 670 QLF2(V_2D , V_2D ), \ 671 } 672 673 /* e.g. REV64 <Vd>.<T>, <Vn>.<T>. */ 674 #define QL_V2SAMEBHS \ 675 { \ 676 QLF2(V_8B , V_8B ), \ 677 QLF2(V_16B, V_16B), \ 678 QLF2(V_4H , V_4H ), \ 679 QLF2(V_8H , V_8H ), \ 680 QLF2(V_2S , V_2S ), \ 681 QLF2(V_4S , V_4S ), \ 682 } 683 684 /* e.g. REV16 <Vd>.<T>, <Vn>.<T>. */ 685 #define QL_V2SAMEB \ 686 { \ 687 QLF2(V_8B , V_8B ), \ 688 QLF2(V_16B, V_16B), \ 689 } 690 691 /* e.g. SADDLP <Vd>.<Ta>, <Vn>.<Tb>. */ 692 #define QL_V2PAIRWISELONGBHS \ 693 { \ 694 QLF2(V_4H , V_8B ), \ 695 QLF2(V_8H , V_16B), \ 696 QLF2(V_2S , V_4H ), \ 697 QLF2(V_4S , V_8H ), \ 698 QLF2(V_1D , V_2S ), \ 699 QLF2(V_2D , V_4S ), \ 700 } 701 702 /* e.g. SHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. */ 703 #define QL_V2LONGBHS \ 704 { \ 705 QLF2(V_8H , V_8B ), \ 706 QLF2(V_4S , V_4H ), \ 707 QLF2(V_2D , V_2S ), \ 708 } 709 710 /* e.g. SHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. */ 711 #define QL_V2LONGBHS2 \ 712 { \ 713 QLF2(V_8H , V_16B), \ 714 QLF2(V_4S , V_8H ), \ 715 QLF2(V_2D , V_4S ), \ 716 } 717 718 /* */ 719 #define QL_V3SAME \ 720 { \ 721 QLF3(V_8B , V_8B , V_8B ), \ 722 QLF3(V_16B, V_16B, V_16B), \ 723 QLF3(V_4H , V_4H , V_4H ), \ 724 QLF3(V_8H , V_8H , V_8H ), \ 725 QLF3(V_2S , V_2S , V_2S ), \ 726 QLF3(V_4S , V_4S , V_4S ), \ 727 QLF3(V_2D , V_2D , V_2D ) \ 728 } 729 730 /* e.g. SHADD. */ 731 #define QL_V3SAMEBHS \ 732 { \ 733 QLF3(V_8B , V_8B , V_8B ), \ 734 QLF3(V_16B, V_16B, V_16B), \ 735 QLF3(V_4H , V_4H , V_4H ), \ 736 QLF3(V_8H , V_8H , V_8H ), \ 737 QLF3(V_2S , V_2S , V_2S ), \ 738 QLF3(V_4S , V_4S , V_4S ), \ 739 } 740 741 /* e.g. FCVTXN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */ 742 #define QL_V2NARRS \ 743 { \ 744 QLF2(V_2S , V_2D ), \ 745 } 746 747 /* e.g. FCVTXN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */ 748 #define QL_V2NARRS2 \ 749 { \ 750 QLF2(V_4S , V_2D ), \ 751 } 752 753 /* e.g. FCVTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */ 754 #define QL_V2NARRHS \ 755 { \ 756 QLF2(V_4H , V_4S ), \ 757 QLF2(V_2S , V_2D ), \ 758 } 759 760 /* e.g. FCVTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */ 761 #define QL_V2NARRHS2 \ 762 { \ 763 QLF2(V_8H , V_4S ), \ 764 QLF2(V_4S , V_2D ), \ 765 } 766 767 /* e.g. FCVTL<Q> <Vd>.<Ta>, <Vn>.<Tb>. */ 768 #define QL_V2LONGHS \ 769 { \ 770 QLF2(V_4S , V_4H ), \ 771 QLF2(V_2D , V_2S ), \ 772 } 773 774 /* e.g. FCVTL<Q> <Vd>.<Ta>, <Vn>.<Tb>. */ 775 #define QL_V2LONGHS2 \ 776 { \ 777 QLF2(V_4S , V_8H ), \ 778 QLF2(V_2D , V_4S ), \ 779 } 780 781 /* e.g. XTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */ 782 #define QL_V2NARRBHS \ 783 { \ 784 QLF2(V_8B , V_8H ), \ 785 QLF2(V_4H , V_4S ), \ 786 QLF2(V_2S , V_2D ), \ 787 } 788 789 /* e.g. XTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */ 790 #define QL_V2NARRBHS2 \ 791 { \ 792 QLF2(V_16B, V_8H ), \ 793 QLF2(V_8H , V_4S ), \ 794 QLF2(V_4S , V_2D ), \ 795 } 796 797 /* e.g. ORR. */ 798 #define QL_V2SAMEB \ 799 { \ 800 QLF2(V_8B , V_8B ), \ 801 QLF2(V_16B, V_16B), \ 802 } 803 804 /* e.g. AESE. */ 805 #define QL_V2SAME16B \ 806 { \ 807 QLF2(V_16B, V_16B), \ 808 } 809 810 /* e.g. SHA1SU1. */ 811 #define QL_V2SAME4S \ 812 { \ 813 QLF2(V_4S, V_4S), \ 814 } 815 816 /* e.g. SHA1SU0. */ 817 #define QL_V3SAME4S \ 818 { \ 819 QLF3(V_4S, V_4S, V_4S), \ 820 } 821 822 /* e.g. SHADD. */ 823 #define QL_V3SAMEB \ 824 { \ 825 QLF3(V_8B , V_8B , V_8B ), \ 826 QLF3(V_16B, V_16B, V_16B), \ 827 } 828 829 /* e.g. EXT <Vd>.<T>, <Vn>.<T>, <Vm>.<T>, #<index>. */ 830 #define QL_VEXT \ 831 { \ 832 QLF4(V_8B , V_8B , V_8B , imm_0_7), \ 833 QLF4(V_16B, V_16B, V_16B, imm_0_15), \ 834 } 835 836 /* e.g. . */ 837 #define QL_V3SAMEHS \ 838 { \ 839 QLF3(V_4H , V_4H , V_4H ), \ 840 QLF3(V_8H , V_8H , V_8H ), \ 841 QLF3(V_2S , V_2S , V_2S ), \ 842 QLF3(V_4S , V_4S , V_4S ), \ 843 } 844 845 /* */ 846 #define QL_V3SAMESD \ 847 { \ 848 QLF3(V_2S , V_2S , V_2S ), \ 849 QLF3(V_4S , V_4S , V_4S ), \ 850 QLF3(V_2D , V_2D , V_2D ) \ 851 } 852 853 /* e.g. SQDMLAL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */ 854 #define QL_V3LONGHS \ 855 { \ 856 QLF3(V_4S , V_4H , V_4H ), \ 857 QLF3(V_2D , V_2S , V_2S ), \ 858 } 859 860 /* e.g. SQDMLAL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */ 861 #define QL_V3LONGHS2 \ 862 { \ 863 QLF3(V_4S , V_8H , V_8H ), \ 864 QLF3(V_2D , V_4S , V_4S ), \ 865 } 866 867 /* e.g. SADDL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */ 868 #define QL_V3LONGBHS \ 869 { \ 870 QLF3(V_8H , V_8B , V_8B ), \ 871 QLF3(V_4S , V_4H , V_4H ), \ 872 QLF3(V_2D , V_2S , V_2S ), \ 873 } 874 875 /* e.g. SADDL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */ 876 #define QL_V3LONGBHS2 \ 877 { \ 878 QLF3(V_8H , V_16B , V_16B ), \ 879 QLF3(V_4S , V_8H , V_8H ), \ 880 QLF3(V_2D , V_4S , V_4S ), \ 881 } 882 883 /* e.g. SADDW<Q> <Vd>.<Ta>, <Vn>.<Ta>, <Vm>.<Tb>. */ 884 #define QL_V3WIDEBHS \ 885 { \ 886 QLF3(V_8H , V_8H , V_8B ), \ 887 QLF3(V_4S , V_4S , V_4H ), \ 888 QLF3(V_2D , V_2D , V_2S ), \ 889 } 890 891 /* e.g. SADDW<Q> <Vd>.<Ta>, <Vn>.<Ta>, <Vm>.<Tb>. */ 892 #define QL_V3WIDEBHS2 \ 893 { \ 894 QLF3(V_8H , V_8H , V_16B ), \ 895 QLF3(V_4S , V_4S , V_8H ), \ 896 QLF3(V_2D , V_2D , V_4S ), \ 897 } 898 899 /* e.g. ADDHN<Q> <Vd>.<Tb>, <Vn>.<Ta>, <Vm>.<Ta>. */ 900 #define QL_V3NARRBHS \ 901 { \ 902 QLF3(V_8B , V_8H , V_8H ), \ 903 QLF3(V_4H , V_4S , V_4S ), \ 904 QLF3(V_2S , V_2D , V_2D ), \ 905 } 906 907 /* e.g. ADDHN<Q> <Vd>.<Tb>, <Vn>.<Ta>, <Vm>.<Ta>. */ 908 #define QL_V3NARRBHS2 \ 909 { \ 910 QLF3(V_16B , V_8H , V_8H ), \ 911 QLF3(V_8H , V_4S , V_4S ), \ 912 QLF3(V_4S , V_2D , V_2D ), \ 913 } 914 915 /* e.g. PMULL. */ 916 #define QL_V3LONGB \ 917 { \ 918 QLF3(V_8H , V_8B , V_8B ), \ 919 } 920 921 /* e.g. PMULL crypto. */ 922 #define QL_V3LONGD \ 923 { \ 924 QLF3(V_1Q , V_1D , V_1D ), \ 925 } 926 927 /* e.g. PMULL2. */ 928 #define QL_V3LONGB2 \ 929 { \ 930 QLF3(V_8H , V_16B, V_16B), \ 931 } 932 933 /* e.g. PMULL2 crypto. */ 934 #define QL_V3LONGD2 \ 935 { \ 936 QLF3(V_1Q , V_2D , V_2D ), \ 937 } 938 939 /* e.g. SHA1C. */ 940 #define QL_SHAUPT \ 941 { \ 942 QLF3(S_Q, S_S, V_4S), \ 943 } 944 945 /* e.g. SHA256H2. */ 946 #define QL_SHA256UPT \ 947 { \ 948 QLF3(S_Q, S_Q, V_4S), \ 949 } 950 951 /* e.g. LDXRB <Wt>, [<Xn|SP>{,#0}]. */ 952 #define QL_W1_LDST_EXC \ 953 { \ 954 QLF2(W, NIL), \ 955 } 956 957 /* e.g. LDXR <Xt>, [<Xn|SP>{,#0}]. */ 958 #define QL_R1NIL \ 959 { \ 960 QLF2(W, NIL), \ 961 QLF2(X, NIL), \ 962 } 963 964 /* e.g. STXRB <Ws>, <Wt>, [<Xn|SP>{,#0}]. */ 965 #define QL_W2_LDST_EXC \ 966 { \ 967 QLF3(W, W, NIL), \ 968 } 969 970 /* e.g. STXR <Ws>, <Xt>, [<Xn|SP>{,#0}]. */ 971 #define QL_R2_LDST_EXC \ 972 { \ 973 QLF3(W, W, NIL), \ 974 QLF3(W, X, NIL), \ 975 } 976 977 /* e.g. LDXP <Xt1>, <Xt2>, [<Xn|SP>{,#0}]. */ 978 #define QL_R2NIL \ 979 { \ 980 QLF3(W, W, NIL), \ 981 QLF3(X, X, NIL), \ 982 } 983 984 /* e.g. CASP <Xt1>, <Xt1+1>, <Xt2>, <Xt2+1>, [<Xn|SP>{,#0}]. */ 985 #define QL_R4NIL \ 986 { \ 987 QLF5(W, W, W, W, NIL), \ 988 QLF5(X, X, X, X, NIL), \ 989 } 990 991 /* e.g. STXP <Ws>, <Xt1>, <Xt2>, [<Xn|SP>{,#0}]. */ 992 #define QL_R3_LDST_EXC \ 993 { \ 994 QLF4(W, W, W, NIL), \ 995 QLF4(W, X, X, NIL), \ 996 } 997 998 /* e.g. STR <Qt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 999 #define QL_LDST_FP \ 1000 { \ 1001 QLF2(S_B, S_B), \ 1002 QLF2(S_H, S_H), \ 1003 QLF2(S_S, S_S), \ 1004 QLF2(S_D, S_D), \ 1005 QLF2(S_Q, S_Q), \ 1006 } 1007 1008 /* e.g. STR <Xt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1009 #define QL_LDST_R \ 1010 { \ 1011 QLF2(W, S_S), \ 1012 QLF2(X, S_D), \ 1013 } 1014 1015 /* e.g. STRB <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1016 #define QL_LDST_W8 \ 1017 { \ 1018 QLF2(W, S_B), \ 1019 } 1020 1021 /* e.g. LDRSB <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1022 #define QL_LDST_R8 \ 1023 { \ 1024 QLF2(W, S_B), \ 1025 QLF2(X, S_B), \ 1026 } 1027 1028 /* e.g. STRH <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1029 #define QL_LDST_W16 \ 1030 { \ 1031 QLF2(W, S_H), \ 1032 } 1033 1034 /* e.g. LDRSW <Xt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1035 #define QL_LDST_X32 \ 1036 { \ 1037 QLF2(X, S_S), \ 1038 } 1039 1040 /* e.g. LDRSH <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1041 #define QL_LDST_R16 \ 1042 { \ 1043 QLF2(W, S_H), \ 1044 QLF2(X, S_H), \ 1045 } 1046 1047 /* e.g. PRFM <prfop>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ 1048 #define QL_LDST_PRFM \ 1049 { \ 1050 QLF2(NIL, S_D), \ 1051 } 1052 1053 /* e.g. LDPSW <Xt1>, <Xt2>, [<Xn|SP>{, #<imm>}]. */ 1054 #define QL_LDST_PAIR_X32 \ 1055 { \ 1056 QLF3(X, X, S_S), \ 1057 } 1058 1059 /* e.g. STP <Wt1>, <Wt2>, [<Xn|SP>, #<imm>]!. */ 1060 #define QL_LDST_PAIR_R \ 1061 { \ 1062 QLF3(W, W, S_S), \ 1063 QLF3(X, X, S_D), \ 1064 } 1065 1066 /* e.g. STNP <Qt1>, <Qt2>, [<Xn|SP>{, #<imm>}]. */ 1067 #define QL_LDST_PAIR_FP \ 1068 { \ 1069 QLF3(S_S, S_S, S_S), \ 1070 QLF3(S_D, S_D, S_D), \ 1071 QLF3(S_Q, S_Q, S_Q), \ 1072 } 1073 1074 /* e.g. LD3 {<Vt>.<T>, <Vt2>.<T>, <Vt3>.<T>}, [<Xn|SP>]. */ 1075 #define QL_SIMD_LDST \ 1076 { \ 1077 QLF2(V_8B, NIL), \ 1078 QLF2(V_16B, NIL), \ 1079 QLF2(V_4H, NIL), \ 1080 QLF2(V_8H, NIL), \ 1081 QLF2(V_2S, NIL), \ 1082 QLF2(V_4S, NIL), \ 1083 QLF2(V_2D, NIL), \ 1084 } 1085 1086 /* e.g. LD1 {<Vt>.<T>, <Vt2>.<T>, <Vt3>.<T>}, [<Xn|SP>]. */ 1087 #define QL_SIMD_LDST_ANY \ 1088 { \ 1089 QLF2(V_8B, NIL), \ 1090 QLF2(V_16B, NIL), \ 1091 QLF2(V_4H, NIL), \ 1092 QLF2(V_8H, NIL), \ 1093 QLF2(V_2S, NIL), \ 1094 QLF2(V_4S, NIL), \ 1095 QLF2(V_1D, NIL), \ 1096 QLF2(V_2D, NIL), \ 1097 } 1098 1099 /* e.g. LD4 {<Vt>.<T>, <Vt2a>.<T>, <Vt3a>.<T>, <Vt4a>.<T>}[<index>], [<Xn|SP>]. */ 1100 #define QL_SIMD_LDSTONE \ 1101 { \ 1102 QLF2(S_B, NIL), \ 1103 QLF2(S_H, NIL), \ 1104 QLF2(S_S, NIL), \ 1105 QLF2(S_D, NIL), \ 1106 } 1107 1108 /* e.g. ADDV <V><d>, <Vn>.<T>. */ 1109 #define QL_XLANES \ 1110 { \ 1111 QLF2(S_B, V_8B), \ 1112 QLF2(S_B, V_16B), \ 1113 QLF2(S_H, V_4H), \ 1114 QLF2(S_H, V_8H), \ 1115 QLF2(S_S, V_4S), \ 1116 } 1117 1118 /* e.g. FMINV <V><d>, <Vn>.<T>. */ 1119 #define QL_XLANES_FP \ 1120 { \ 1121 QLF2(S_S, V_4S), \ 1122 } 1123 1124 /* e.g. SADDLV <V><d>, <Vn>.<T>. */ 1125 #define QL_XLANES_L \ 1126 { \ 1127 QLF2(S_H, V_8B), \ 1128 QLF2(S_H, V_16B), \ 1129 QLF2(S_S, V_4H), \ 1130 QLF2(S_S, V_8H), \ 1131 QLF2(S_D, V_4S), \ 1132 } 1133 1134 /* e.g. MUL <Vd>.<T>, <Vn>.<T>, <Vm>.<Ts>[<index>]. */ 1135 #define QL_ELEMENT \ 1136 { \ 1137 QLF3(V_4H, V_4H, S_H), \ 1138 QLF3(V_8H, V_8H, S_H), \ 1139 QLF3(V_2S, V_2S, S_S), \ 1140 QLF3(V_4S, V_4S, S_S), \ 1141 } 1142 1143 /* e.g. SMLAL <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Ts>[<index>]. */ 1144 #define QL_ELEMENT_L \ 1145 { \ 1146 QLF3(V_4S, V_4H, S_H), \ 1147 QLF3(V_2D, V_2S, S_S), \ 1148 } 1149 1150 /* e.g. SMLAL2 <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Ts>[<index>]. */ 1151 #define QL_ELEMENT_L2 \ 1152 { \ 1153 QLF3(V_4S, V_8H, S_H), \ 1154 QLF3(V_2D, V_4S, S_S), \ 1155 } 1156 1157 /* e.g. FMLA <V><d>, <V><n>, <Vm>.<Ts>[<index>]. */ 1158 #define QL_ELEMENT_FP \ 1159 { \ 1160 QLF3(V_2S, V_2S, S_S), \ 1161 QLF3(V_4S, V_4S, S_S), \ 1162 QLF3(V_2D, V_2D, S_D), \ 1163 } 1164 1165 /* e.g. MOVI <Vd>.4S, #<imm8> {, LSL #<amount>}. */ 1166 #define QL_SIMD_IMM_S0W \ 1167 { \ 1168 QLF2(V_2S, LSL), \ 1169 QLF2(V_4S, LSL), \ 1170 } 1171 1172 /* e.g. MOVI <Vd>.4S, #<imm8>, MSL #<amount>. */ 1173 #define QL_SIMD_IMM_S1W \ 1174 { \ 1175 QLF2(V_2S, MSL), \ 1176 QLF2(V_4S, MSL), \ 1177 } 1178 1179 /* e.g. MOVI <Vd>.4H, #<imm8> {, LSL #<amount>}. */ 1180 #define QL_SIMD_IMM_S0H \ 1181 { \ 1182 QLF2(V_4H, LSL), \ 1183 QLF2(V_8H, LSL), \ 1184 } 1185 1186 /* e.g. FMOV <Vd>.<T>, #<imm>. */ 1187 #define QL_SIMD_IMM_S \ 1188 { \ 1189 QLF2(V_2S, NIL), \ 1190 QLF2(V_4S, NIL), \ 1191 } 1192 1193 /* e.g. MOVI <Vd>.8B, #<imm8> {, LSL #<amount>}. */ 1194 #define QL_SIMD_IMM_B \ 1195 { \ 1196 QLF2(V_8B, LSL), \ 1197 QLF2(V_16B, LSL), \ 1198 } 1199 /* e.g. MOVI <Dd>, #<imm>. */ 1200 #define QL_SIMD_IMM_D \ 1201 { \ 1202 QLF2(S_D, NIL), \ 1203 } 1204 1205 /* e.g. MOVI <Vd>.2D, #<imm>. */ 1206 #define QL_SIMD_IMM_V2D \ 1207 { \ 1208 QLF2(V_2D, NIL), \ 1209 } 1210 1211 /* Opcode table. */ 1213 1214 static const aarch64_feature_set aarch64_feature_v8 = 1215 AARCH64_FEATURE (AARCH64_FEATURE_V8, 0); 1216 static const aarch64_feature_set aarch64_feature_fp = 1217 AARCH64_FEATURE (AARCH64_FEATURE_FP, 0); 1218 static const aarch64_feature_set aarch64_feature_simd = 1219 AARCH64_FEATURE (AARCH64_FEATURE_SIMD, 0); 1220 static const aarch64_feature_set aarch64_feature_crypto = 1221 AARCH64_FEATURE (AARCH64_FEATURE_CRYPTO, 0); 1222 static const aarch64_feature_set aarch64_feature_crc = 1223 AARCH64_FEATURE (AARCH64_FEATURE_CRC, 0); 1224 static const aarch64_feature_set aarch64_feature_lse = 1225 AARCH64_FEATURE (AARCH64_FEATURE_LSE, 0); 1226 1227 #define CORE &aarch64_feature_v8 1228 #define FP &aarch64_feature_fp 1229 #define SIMD &aarch64_feature_simd 1230 #define CRYPTO &aarch64_feature_crypto 1231 #define CRC &aarch64_feature_crc 1232 #define LSE &aarch64_feature_lse 1233 1234 struct aarch64_opcode aarch64_opcode_table[] = 1235 { 1236 /* Add/subtract (with carry). */ 1237 {"adc", 0x1a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF}, 1238 {"adcs", 0x3a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF}, 1239 {"sbc", 0x5a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 1240 {"ngc", 0x5a0003e0, 0x7fe0ffe0, addsub_carry, 0, CORE, OP2 (Rd, Rm), QL_I2SAME, F_ALIAS | F_SF}, 1241 {"sbcs", 0x7a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 1242 {"ngcs", 0x7a0003e0, 0x7fe0ffe0, addsub_carry, 0, CORE, OP2 (Rd, Rm), QL_I2SAME, F_ALIAS | F_SF}, 1243 /* Add/subtract (extended register). */ 1244 {"add", 0x0b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd_SP, Rn_SP, Rm_EXT), QL_I3_EXT, F_SF}, 1245 {"adds", 0x2b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd, Rn_SP, Rm_EXT), QL_I3_EXT, F_HAS_ALIAS | F_SF}, 1246 {"cmn", 0x2b20001f, 0x7fe0001f, addsub_ext, 0, CORE, OP2 (Rn_SP, Rm_EXT), QL_I2_EXT, F_ALIAS | F_SF}, 1247 {"sub", 0x4b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd_SP, Rn_SP, Rm_EXT), QL_I3_EXT, F_SF}, 1248 {"subs", 0x6b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd, Rn_SP, Rm_EXT), QL_I3_EXT, F_HAS_ALIAS | F_SF}, 1249 {"cmp", 0x6b20001f, 0x7fe0001f, addsub_ext, 0, CORE, OP2 (Rn_SP, Rm_EXT), QL_I2_EXT, F_ALIAS | F_SF}, 1250 /* Add/subtract (immediate). */ 1251 {"add", 0x11000000, 0x7f000000, addsub_imm, OP_ADD, CORE, OP3 (Rd_SP, Rn_SP, AIMM), QL_R2NIL, F_HAS_ALIAS | F_SF}, 1252 {"mov", 0x11000000, 0x7ffffc00, addsub_imm, 0, CORE, OP2 (Rd_SP, Rn_SP), QL_I2SP, F_ALIAS | F_SF}, 1253 {"adds", 0x31000000, 0x7f000000, addsub_imm, 0, CORE, OP3 (Rd, Rn_SP, AIMM), QL_R2NIL, F_HAS_ALIAS | F_SF}, 1254 {"cmn", 0x3100001f, 0x7f00001f, addsub_imm, 0, CORE, OP2 (Rn_SP, AIMM), QL_R1NIL, F_ALIAS | F_SF}, 1255 {"sub", 0x51000000, 0x7f000000, addsub_imm, 0, CORE, OP3 (Rd_SP, Rn_SP, AIMM), QL_R2NIL, F_SF}, 1256 {"subs", 0x71000000, 0x7f000000, addsub_imm, 0, CORE, OP3 (Rd, Rn_SP, AIMM), QL_R2NIL, F_HAS_ALIAS | F_SF}, 1257 {"cmp", 0x7100001f, 0x7f00001f, addsub_imm, 0, CORE, OP2 (Rn_SP, AIMM), QL_R1NIL, F_ALIAS | F_SF}, 1258 /* Add/subtract (shifted register). */ 1259 {"add", 0xb000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF}, 1260 {"adds", 0x2b000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 1261 {"cmn", 0x2b00001f, 0x7f20001f, addsub_shift, 0, CORE, OP2 (Rn, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF}, 1262 {"sub", 0x4b000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 1263 {"neg", 0x4b0003e0, 0x7f2003e0, addsub_shift, 0, CORE, OP2 (Rd, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF}, 1264 {"subs", 0x6b000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 1265 {"cmp", 0x6b00001f, 0x7f20001f, addsub_shift, 0, CORE, OP2 (Rn, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF}, 1266 {"negs", 0x6b0003e0, 0x7f2003e0, addsub_shift, 0, CORE, OP2 (Rd, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF}, 1267 /* AdvSIMD across lanes. */ 1268 {"saddlv", 0xe303800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_L, F_SIZEQ}, 1269 {"smaxv", 0xe30a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ}, 1270 {"sminv", 0xe31a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ}, 1271 {"addv", 0xe31b800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ}, 1272 {"uaddlv", 0x2e303800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_L, F_SIZEQ}, 1273 {"umaxv", 0x2e30a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ}, 1274 {"uminv", 0x2e31a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ}, 1275 {"fmaxnmv", 0x2e30c800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ}, 1276 {"fmaxv", 0x2e30f800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ}, 1277 {"fminnmv", 0x2eb0c800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ}, 1278 {"fminv", 0x2eb0f800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ}, 1279 /* AdvSIMD three different. */ 1280 {"saddl", 0x0e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1281 {"saddl2", 0x4e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1282 {"saddw", 0x0e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ}, 1283 {"saddw2", 0x4e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ}, 1284 {"ssubl", 0x0e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1285 {"ssubl2", 0x4e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1286 {"ssubw", 0x0e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ}, 1287 {"ssubw2", 0x4e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ}, 1288 {"addhn", 0x0e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ}, 1289 {"addhn2", 0x4e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ}, 1290 {"sabal", 0x0e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1291 {"sabal2", 0x4e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1292 {"subhn", 0x0e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ}, 1293 {"subhn2", 0x4e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ}, 1294 {"sabdl", 0x0e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1295 {"sabdl2", 0x4e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1296 {"smlal", 0x0e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1297 {"smlal2", 0x4e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1298 {"sqdmlal", 0x0e209000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS, F_SIZEQ}, 1299 {"sqdmlal2", 0x4e209000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS2, F_SIZEQ}, 1300 {"smlsl", 0x0e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1301 {"smlsl2", 0x4e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1302 {"sqdmlsl", 0x0e20b000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS, F_SIZEQ}, 1303 {"sqdmlsl2", 0x4e20b000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS2, F_SIZEQ}, 1304 {"smull", 0x0e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1305 {"smull2", 0x4e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1306 {"sqdmull", 0x0e20d000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS, F_SIZEQ}, 1307 {"sqdmull2", 0x4e20d000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS2, F_SIZEQ}, 1308 {"pmull", 0x0e20e000, 0xffe0fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGB, 0}, 1309 {"pmull", 0x0ee0e000, 0xffe0fc00, asimddiff, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3LONGD, 0}, 1310 {"pmull2", 0x4e20e000, 0xffe0fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGB2, 0}, 1311 {"pmull2", 0x4ee0e000, 0xffe0fc00, asimddiff, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3LONGD2, 0}, 1312 {"uaddl", 0x2e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1313 {"uaddl2", 0x6e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1314 {"uaddw", 0x2e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ}, 1315 {"uaddw2", 0x6e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ}, 1316 {"usubl", 0x2e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1317 {"usubl2", 0x6e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1318 {"usubw", 0x2e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ}, 1319 {"usubw2", 0x6e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ}, 1320 {"raddhn", 0x2e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ}, 1321 {"raddhn2", 0x6e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ}, 1322 {"uabal", 0x2e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1323 {"uabal2", 0x6e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1324 {"rsubhn", 0x2e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ}, 1325 {"rsubhn2", 0x6e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ}, 1326 {"uabdl", 0x2e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1327 {"uabdl2", 0x6e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1328 {"umlal", 0x2e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1329 {"umlal2", 0x6e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1330 {"umlsl", 0x2e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1331 {"umlsl2", 0x6e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1332 {"umull", 0x2e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ}, 1333 {"umull2", 0x6e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ}, 1334 /* AdvSIMD vector x indexed element. */ 1335 {"smlal", 0x0f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1336 {"smlal2", 0x4f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1337 {"sqdmlal", 0x0f003000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1338 {"sqdmlal2", 0x4f003000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1339 {"smlsl", 0x0f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1340 {"smlsl2", 0x4f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1341 {"sqdmlsl", 0x0f007000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1342 {"sqdmlsl2", 0x4f007000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1343 {"mul", 0xf008000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ}, 1344 {"smull", 0x0f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1345 {"smull2", 0x4f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1346 {"sqdmull", 0x0f00b000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1347 {"sqdmull2", 0x4f00b000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1348 {"sqdmulh", 0xf00c000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ}, 1349 {"sqrdmulh", 0xf00d000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ}, 1350 {"fmla", 0xf801000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ}, 1351 {"fmls", 0xf805000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ}, 1352 {"fmul", 0xf809000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ}, 1353 {"mla", 0x2f000000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ}, 1354 {"umlal", 0x2f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1355 {"umlal2", 0x6f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1356 {"mls", 0x2f004000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ}, 1357 {"umlsl", 0x2f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1358 {"umlsl2", 0x6f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1359 {"umull", 0x2f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ}, 1360 {"umull2", 0x6f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ}, 1361 {"fmulx", 0x2f809000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ}, 1362 /* AdvSIMD EXT. */ 1363 {"ext", 0x2e000000, 0xbfe0c400, asimdext, 0, SIMD, OP4 (Vd, Vn, Vm, IDX), QL_VEXT, F_SIZEQ}, 1364 /* AdvSIMD modified immediate. */ 1365 {"movi", 0xf000400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ}, 1366 {"orr", 0xf001400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ}, 1367 {"movi", 0xf008400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ}, 1368 {"orr", 0xf009400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ}, 1369 {"movi", 0xf00c400, 0xbff8ec00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S1W, F_SIZEQ}, 1370 {"movi", 0xf00e400, 0xbff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_B, F_SIZEQ}, 1371 {"fmov", 0xf00f400, 0xbff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_FPIMM), QL_SIMD_IMM_S, F_SIZEQ}, 1372 {"mvni", 0x2f000400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ}, 1373 {"bic", 0x2f001400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ}, 1374 {"mvni", 0x2f008400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ}, 1375 {"bic", 0x2f009400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ}, 1376 {"mvni", 0x2f00c400, 0xbff8ec00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S1W, F_SIZEQ}, 1377 {"movi", 0x2f00e400, 0xfff8fc00, asimdimm, 0, SIMD, OP2 (Sd, SIMD_IMM), QL_SIMD_IMM_D, F_SIZEQ}, 1378 {"movi", 0x6f00e400, 0xfff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM), QL_SIMD_IMM_V2D, F_SIZEQ}, 1379 {"fmov", 0x6f00f400, 0xfff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_FPIMM), QL_SIMD_IMM_V2D, F_SIZEQ}, 1380 /* AdvSIMD copy. */ 1381 {"dup", 0xe000400, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Vd, En), QL_DUP_VX, F_T}, 1382 {"dup", 0xe000c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Vd, Rn), QL_DUP_VR, F_T}, 1383 {"smov", 0xe002c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Rd, En), QL_SMOV, F_GPRSIZE_IN_Q}, 1384 {"umov", 0xe003c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Rd, En), QL_UMOV, F_HAS_ALIAS | F_GPRSIZE_IN_Q}, 1385 {"mov", 0xe003c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Rd, En), QL_MOV, F_ALIAS | F_GPRSIZE_IN_Q}, 1386 {"ins", 0x4e001c00, 0xffe0fc00, asimdins, 0, SIMD, OP2 (Ed, Rn), QL_INS_XR, F_HAS_ALIAS}, 1387 {"mov", 0x4e001c00, 0xffe0fc00, asimdins, 0, SIMD, OP2 (Ed, Rn), QL_INS_XR, F_ALIAS}, 1388 {"ins", 0x6e000400, 0xffe08400, asimdins, 0, SIMD, OP2 (Ed, En), QL_S_2SAME, F_HAS_ALIAS}, 1389 {"mov", 0x6e000400, 0xffe08400, asimdins, 0, SIMD, OP2 (Ed, En), QL_S_2SAME, F_ALIAS}, 1390 /* AdvSIMD two-reg misc. */ 1391 {"rev64", 0xe200800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBHS, F_SIZEQ}, 1392 {"rev16", 0xe201800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ}, 1393 {"saddlp", 0xe202800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ}, 1394 {"suqadd", 0xe203800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ}, 1395 {"cls", 0xe204800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBHS, F_SIZEQ}, 1396 {"cnt", 0xe205800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ}, 1397 {"sadalp", 0xe206800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ}, 1398 {"sqabs", 0xe207800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ}, 1399 {"cmgt", 0xe208800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ}, 1400 {"cmeq", 0xe209800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ}, 1401 {"cmlt", 0xe20a800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ}, 1402 {"abs", 0xe20b800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ}, 1403 {"xtn", 0xe212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ}, 1404 {"xtn2", 0x4e212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ}, 1405 {"sqxtn", 0xe214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ}, 1406 {"sqxtn2", 0x4e214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ}, 1407 {"fcvtn", 0xe216800, 0xffbffc00, asimdmisc, OP_FCVTN, SIMD, OP2 (Vd, Vn), QL_V2NARRHS, F_MISC}, 1408 {"fcvtn2", 0x4e216800, 0xffbffc00, asimdmisc, OP_FCVTN2, SIMD, OP2 (Vd, Vn), QL_V2NARRHS2, F_MISC}, 1409 {"fcvtl", 0xe217800, 0xffbffc00, asimdmisc, OP_FCVTL, SIMD, OP2 (Vd, Vn), QL_V2LONGHS, F_MISC}, 1410 {"fcvtl2", 0x4e217800, 0xffbffc00, asimdmisc, OP_FCVTL2, SIMD, OP2 (Vd, Vn), QL_V2LONGHS2, F_MISC}, 1411 {"frintn", 0xe218800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1412 {"frintm", 0xe219800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1413 {"fcvtns", 0xe21a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1414 {"fcvtms", 0xe21b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1415 {"fcvtas", 0xe21c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1416 {"scvtf", 0xe21d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1417 {"fcmgt", 0xea0c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, FPIMM0), QL_V2SAMESD, F_SIZEQ}, 1418 {"fcmeq", 0xea0d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, FPIMM0), QL_V2SAMESD, F_SIZEQ}, 1419 {"fcmlt", 0xea0e800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, FPIMM0), QL_V2SAMESD, F_SIZEQ}, 1420 {"fabs", 0xea0f800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1421 {"frintp", 0xea18800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1422 {"frintz", 0xea19800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1423 {"fcvtps", 0xea1a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1424 {"fcvtzs", 0xea1b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1425 {"urecpe", 0xea1c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMES, F_SIZEQ}, 1426 {"frecpe", 0xea1d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1427 {"rev32", 0x2e200800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBH, F_SIZEQ}, 1428 {"uaddlp", 0x2e202800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ}, 1429 {"usqadd", 0x2e203800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ}, 1430 {"clz", 0x2e204800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBHS, F_SIZEQ}, 1431 {"uadalp", 0x2e206800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ}, 1432 {"sqneg", 0x2e207800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ}, 1433 {"cmge", 0x2e208800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ}, 1434 {"cmle", 0x2e209800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ}, 1435 {"neg", 0x2e20b800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ}, 1436 {"sqxtun", 0x2e212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ}, 1437 {"sqxtun2", 0x6e212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ}, 1438 {"shll", 0x2e213800, 0xff3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, SHLL_IMM), QL_V2LONGBHS, F_SIZEQ}, 1439 {"shll2", 0x6e213800, 0xff3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, SHLL_IMM), QL_V2LONGBHS2, F_SIZEQ}, 1440 {"uqxtn", 0x2e214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ}, 1441 {"uqxtn2", 0x6e214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ}, 1442 {"fcvtxn", 0x2e616800, 0xfffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRS, 0}, 1443 {"fcvtxn2", 0x6e616800, 0xfffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRS2, 0}, 1444 {"frinta", 0x2e218800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1445 {"frintx", 0x2e219800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1446 {"fcvtnu", 0x2e21a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1447 {"fcvtmu", 0x2e21b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1448 {"fcvtau", 0x2e21c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1449 {"ucvtf", 0x2e21d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1450 {"not", 0x2e205800, 0xbffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ | F_HAS_ALIAS}, 1451 {"mvn", 0x2e205800, 0xbffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ | F_ALIAS}, 1452 {"rbit", 0x2e605800, 0xbffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ}, 1453 {"fcmge", 0x2ea0c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, FPIMM0), QL_V2SAMESD, F_SIZEQ}, 1454 {"fcmle", 0x2ea0d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, FPIMM0), QL_V2SAMESD, F_SIZEQ}, 1455 {"fneg", 0x2ea0f800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1456 {"frinti", 0x2ea19800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1457 {"fcvtpu", 0x2ea1a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1458 {"fcvtzu", 0x2ea1b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1459 {"ursqrte", 0x2ea1c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMES, F_SIZEQ}, 1460 {"frsqrte", 0x2ea1d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1461 {"fsqrt", 0x2ea1f800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ}, 1462 /* AdvSIMD ZIP/UZP/TRN. */ 1463 {"uzp1", 0xe001800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1464 {"trn1", 0xe002800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1465 {"zip1", 0xe003800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1466 {"uzp2", 0xe005800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1467 {"trn2", 0xe006800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1468 {"zip2", 0xe007800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1469 /* AdvSIMD three same. */ 1470 {"shadd", 0xe200400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1471 {"sqadd", 0xe200c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1472 {"srhadd", 0xe201400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1473 {"shsub", 0xe202400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1474 {"sqsub", 0xe202c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1475 {"cmgt", 0xe203400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1476 {"cmge", 0xe203c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1477 {"sshl", 0xe204400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1478 {"sqshl", 0xe204c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1479 {"srshl", 0xe205400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1480 {"sqrshl", 0xe205c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1481 {"smax", 0xe206400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1482 {"smin", 0xe206c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1483 {"sabd", 0xe207400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1484 {"saba", 0xe207c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1485 {"add", 0xe208400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1486 {"cmtst", 0xe208c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1487 {"mla", 0xe209400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1488 {"mul", 0xe209c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1489 {"smaxp", 0xe20a400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1490 {"sminp", 0xe20ac00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1491 {"sqdmulh", 0xe20b400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEHS, F_SIZEQ}, 1492 {"addp", 0xe20bc00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1493 {"fmaxnm", 0xe20c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1494 {"fmla", 0xe20cc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1495 {"fadd", 0xe20d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1496 {"fmulx", 0xe20dc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1497 {"fcmeq", 0xe20e400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1498 {"fmax", 0xe20f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1499 {"frecps", 0xe20fc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1500 {"and", 0xe201c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1501 {"bic", 0xe601c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1502 {"fminnm", 0xea0c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1503 {"fmls", 0xea0cc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1504 {"fsub", 0xea0d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1505 {"fmin", 0xea0f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1506 {"frsqrts", 0xea0fc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1507 {"orr", 0xea01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_HAS_ALIAS | F_SIZEQ}, 1508 {"mov", 0xea01c00, 0xbfe0fc00, asimdsame, OP_MOV_V, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_ALIAS | F_CONV}, 1509 {"orn", 0xee01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1510 {"uhadd", 0x2e200400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1511 {"uqadd", 0x2e200c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1512 {"urhadd", 0x2e201400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1513 {"uhsub", 0x2e202400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1514 {"uqsub", 0x2e202c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1515 {"cmhi", 0x2e203400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1516 {"cmhs", 0x2e203c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1517 {"ushl", 0x2e204400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1518 {"uqshl", 0x2e204c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1519 {"urshl", 0x2e205400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1520 {"uqrshl", 0x2e205c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1521 {"umax", 0x2e206400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1522 {"umin", 0x2e206c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1523 {"uabd", 0x2e207400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1524 {"uaba", 0x2e207c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1525 {"sub", 0x2e208400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1526 {"cmeq", 0x2e208c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ}, 1527 {"mls", 0x2e209400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1528 {"pmul", 0x2e209c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1529 {"umaxp", 0x2e20a400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1530 {"uminp", 0x2e20ac00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ}, 1531 {"sqrdmulh", 0x2e20b400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEHS, F_SIZEQ}, 1532 {"fmaxnmp", 0x2e20c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1533 {"faddp", 0x2e20d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1534 {"fmul", 0x2e20dc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1535 {"fcmge", 0x2e20e400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1536 {"facge", 0x2e20ec00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1537 {"fmaxp", 0x2e20f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1538 {"fdiv", 0x2e20fc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1539 {"eor", 0x2e201c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1540 {"bsl", 0x2e601c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1541 {"fminnmp", 0x2ea0c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1542 {"fabd", 0x2ea0d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1543 {"fcmgt", 0x2ea0e400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1544 {"facgt", 0x2ea0ec00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1545 {"fminp", 0x2ea0f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ}, 1546 {"bit", 0x2ea01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1547 {"bif", 0x2ee01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ}, 1548 /* AdvSIMD shift by immediate. */ 1549 {"sshr", 0xf000400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1550 {"ssra", 0xf001400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1551 {"srshr", 0xf002400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1552 {"srsra", 0xf003400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1553 {"shl", 0xf005400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0}, 1554 {"sqshl", 0xf007400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0}, 1555 {"shrn", 0xf008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1556 {"shrn2", 0x4f008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1557 {"rshrn", 0xf008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1558 {"rshrn2", 0x4f008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1559 {"sqshrn", 0xf009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1560 {"sqshrn2", 0x4f009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1561 {"sqrshrn", 0xf009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1562 {"sqrshrn2", 0x4f009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1563 {"sshll", 0xf00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL, F_HAS_ALIAS}, 1564 {"sxtl", 0xf00a400, 0xff87fc00, asimdshf, OP_SXTL, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS, F_ALIAS | F_CONV}, 1565 {"sshll2", 0x4f00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL2, F_HAS_ALIAS}, 1566 {"sxtl2", 0x4f00a400, 0xff87fc00, asimdshf, OP_SXTL2, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS2, F_ALIAS | F_CONV}, 1567 {"scvtf", 0xf00e400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0}, 1568 {"fcvtzs", 0xf00fc00, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0}, 1569 {"ushr", 0x2f000400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1570 {"usra", 0x2f001400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1571 {"urshr", 0x2f002400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1572 {"ursra", 0x2f003400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1573 {"sri", 0x2f004400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0}, 1574 {"sli", 0x2f005400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0}, 1575 {"sqshlu", 0x2f006400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0}, 1576 {"uqshl", 0x2f007400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0}, 1577 {"sqshrun", 0x2f008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1578 {"sqshrun2", 0x6f008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1579 {"sqrshrun", 0x2f008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1580 {"sqrshrun2", 0x6f008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1581 {"uqshrn", 0x2f009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1582 {"uqshrn2", 0x6f009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1583 {"uqrshrn", 0x2f009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0}, 1584 {"uqrshrn2", 0x6f009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0}, 1585 {"ushll", 0x2f00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL, F_HAS_ALIAS}, 1586 {"uxtl", 0x2f00a400, 0xff87fc00, asimdshf, OP_UXTL, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS, F_ALIAS | F_CONV}, 1587 {"ushll2", 0x6f00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL2, F_HAS_ALIAS}, 1588 {"uxtl2", 0x6f00a400, 0xff87fc00, asimdshf, OP_UXTL2, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS2, F_ALIAS | F_CONV}, 1589 {"ucvtf", 0x2f00e400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0}, 1590 {"fcvtzu", 0x2f00fc00, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0}, 1591 /* AdvSIMD TBL/TBX. */ 1592 {"tbl", 0xe000000, 0xbfe09c00, asimdtbl, 0, SIMD, OP3 (Vd, LVn, Vm), QL_TABLE, F_SIZEQ}, 1593 {"tbx", 0xe001000, 0xbfe09c00, asimdtbl, 0, SIMD, OP3 (Vd, LVn, Vm), QL_TABLE, F_SIZEQ}, 1594 /* AdvSIMD scalar three different. */ 1595 {"sqdmlal", 0x5e209000, 0xff20fc00, asisddiff, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISDL_HS, F_SSIZE}, 1596 {"sqdmlsl", 0x5e20b000, 0xff20fc00, asisddiff, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISDL_HS, F_SSIZE}, 1597 {"sqdmull", 0x5e20d000, 0xff20fc00, asisddiff, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISDL_HS, F_SSIZE}, 1598 /* AdvSIMD scalar x indexed element. */ 1599 {"sqdmlal", 0x5f003000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISDL_HS, F_SSIZE}, 1600 {"sqdmlsl", 0x5f007000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISDL_HS, F_SSIZE}, 1601 {"sqdmull", 0x5f00b000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISDL_HS, F_SSIZE}, 1602 {"sqdmulh", 0x5f00c000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISD_HS, F_SSIZE}, 1603 {"sqrdmulh", 0x5f00d000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISD_HS, F_SSIZE}, 1604 {"fmla", 0x5f801000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE}, 1605 {"fmls", 0x5f805000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE}, 1606 {"fmul", 0x5f809000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE}, 1607 {"fmulx", 0x7f809000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE}, 1608 /* AdvSIMD load/store multiple structures. */ 1609 {"st4", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(4)}, 1610 {"st1", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)}, 1611 {"st2", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(2)}, 1612 {"st3", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(3)}, 1613 {"ld4", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(4)}, 1614 {"ld1", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)}, 1615 {"ld2", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(2)}, 1616 {"ld3", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(3)}, 1617 /* AdvSIMD load/store multiple structures (post-indexed). */ 1618 {"st4", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(4)}, 1619 {"st1", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)}, 1620 {"st2", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(2)}, 1621 {"st3", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(3)}, 1622 {"ld4", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(4)}, 1623 {"ld1", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)}, 1624 {"ld2", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(2)}, 1625 {"ld3", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(3)}, 1626 /* AdvSIMD load/store single structure. */ 1627 {"st1", 0xd000000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(1)}, 1628 {"st3", 0xd002000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(3)}, 1629 {"st2", 0xd200000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(2)}, 1630 {"st4", 0xd202000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(4)}, 1631 {"ld1", 0xd400000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(1)}, 1632 {"ld3", 0xd402000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(3)}, 1633 {"ld1r", 0xd40c000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)}, 1634 {"ld3r", 0xd40e000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(3)}, 1635 {"ld2", 0xd600000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(2)}, 1636 {"ld4", 0xd602000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(4)}, 1637 {"ld2r", 0xd60c000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(2)}, 1638 {"ld4r", 0xd60e000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(4)}, 1639 /* AdvSIMD load/store single structure (post-indexed). */ 1640 {"st1", 0xd800000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(1)}, 1641 {"st3", 0xd802000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(3)}, 1642 {"st2", 0xda00000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(2)}, 1643 {"st4", 0xda02000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(4)}, 1644 {"ld1", 0xdc00000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(1)}, 1645 {"ld3", 0xdc02000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(3)}, 1646 {"ld1r", 0xdc0c000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)}, 1647 {"ld3r", 0xdc0e000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(3)}, 1648 {"ld2", 0xde00000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(2)}, 1649 {"ld4", 0xde02000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(4)}, 1650 {"ld2r", 0xde0c000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(2)}, 1651 {"ld4r", 0xde0e000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(4)}, 1652 /* AdvSIMD scalar two-reg misc. */ 1653 {"suqadd", 0x5e203800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE}, 1654 {"sqabs", 0x5e207800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE}, 1655 {"cmgt", 0x5e208800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE}, 1656 {"cmeq", 0x5e209800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE}, 1657 {"cmlt", 0x5e20a800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE}, 1658 {"abs", 0x5e20b800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_2SAMED, F_SSIZE}, 1659 {"sqxtn", 0x5e214800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW, F_SSIZE}, 1660 {"fcvtns", 0x5e21a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1661 {"fcvtms", 0x5e21b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1662 {"fcvtas", 0x5e21c800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1663 {"scvtf", 0x5e21d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1664 {"fcmgt", 0x5ea0c800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, FPIMM0), QL_SISD_FCMP_0, F_SSIZE}, 1665 {"fcmeq", 0x5ea0d800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, FPIMM0), QL_SISD_FCMP_0, F_SSIZE}, 1666 {"fcmlt", 0x5ea0e800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, FPIMM0), QL_SISD_FCMP_0, F_SSIZE}, 1667 {"fcvtps", 0x5ea1a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1668 {"fcvtzs", 0x5ea1b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1669 {"frecpe", 0x5ea1d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1670 {"frecpx", 0x5ea1f800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1671 {"usqadd", 0x7e203800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE}, 1672 {"sqneg", 0x7e207800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE}, 1673 {"cmge", 0x7e208800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE}, 1674 {"cmle", 0x7e209800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE}, 1675 {"neg", 0x7e20b800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_2SAMED, F_SSIZE}, 1676 {"sqxtun", 0x7e212800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW, F_SSIZE}, 1677 {"uqxtn", 0x7e214800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW, F_SSIZE}, 1678 {"fcvtxn", 0x7e216800, 0xffbffc00, asisdmisc, OP_FCVTXN_S, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW_S, F_MISC}, 1679 {"fcvtnu", 0x7e21a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1680 {"fcvtmu", 0x7e21b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1681 {"fcvtau", 0x7e21c800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1682 {"ucvtf", 0x7e21d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1683 {"fcmge", 0x7ea0c800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, FPIMM0), QL_SISD_FCMP_0, F_SSIZE}, 1684 {"fcmle", 0x7ea0d800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, FPIMM0), QL_SISD_FCMP_0, F_SSIZE}, 1685 {"fcvtpu", 0x7ea1a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1686 {"fcvtzu", 0x7ea1b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1687 {"frsqrte", 0x7ea1d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE}, 1688 /* AdvSIMD scalar copy. */ 1689 {"dup", 0x5e000400, 0xffe0fc00, asisdone, 0, SIMD, OP2 (Sd, En), QL_S_2SAME, F_HAS_ALIAS}, 1690 {"mov", 0x5e000400, 0xffe0fc00, asisdone, 0, SIMD, OP2 (Sd, En), QL_S_2SAME, F_ALIAS}, 1691 /* AdvSIMD scalar pairwise. */ 1692 {"addp", 0x5e31b800, 0xff3ffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR_D, F_SIZEQ}, 1693 {"fmaxnmp", 0x7e30c800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ}, 1694 {"faddp", 0x7e30d800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ}, 1695 {"fmaxp", 0x7e30f800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ}, 1696 {"fminnmp", 0x7eb0c800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ}, 1697 {"fminp", 0x7eb0f800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ}, 1698 /* AdvSIMD scalar three same. */ 1699 {"sqadd", 0x5e200c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1700 {"sqsub", 0x5e202c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1701 {"sqshl", 0x5e204c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1702 {"sqrshl", 0x5e205c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1703 {"sqdmulh", 0x5e20b400, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISD_HS, F_SSIZE}, 1704 {"fmulx", 0x5e20dc00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1705 {"fcmeq", 0x5e20e400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1706 {"frecps", 0x5e20fc00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1707 {"frsqrts", 0x5ea0fc00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1708 {"cmgt", 0x5ee03400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1709 {"cmge", 0x5ee03c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1710 {"sshl", 0x5ee04400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1711 {"srshl", 0x5ee05400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1712 {"add", 0x5ee08400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1713 {"cmtst", 0x5ee08c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1714 {"uqadd", 0x7e200c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1715 {"uqsub", 0x7e202c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1716 {"uqshl", 0x7e204c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1717 {"uqrshl", 0x7e205c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE}, 1718 {"sqrdmulh", 0x7e20b400, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISD_HS, F_SSIZE}, 1719 {"fcmge", 0x7e20e400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1720 {"facge", 0x7e20ec00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1721 {"fabd", 0x7ea0d400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1722 {"fcmgt", 0x7ea0e400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1723 {"facgt", 0x7ea0ec00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE}, 1724 {"cmhi", 0x7ee03400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1725 {"cmhs", 0x7ee03c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1726 {"ushl", 0x7ee04400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1727 {"urshl", 0x7ee05400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1728 {"sub", 0x7ee08400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1729 {"cmeq", 0x7ee08c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE}, 1730 /* AdvSIMD scalar shift by immediate. */ 1731 {"sshr", 0x5f000400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1732 {"ssra", 0x5f001400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1733 {"srshr", 0x5f002400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1734 {"srsra", 0x5f003400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1735 {"shl", 0x5f005400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT_D, 0}, 1736 {"sqshl", 0x5f007400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT, 0}, 1737 {"sqshrn", 0x5f009400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0}, 1738 {"sqrshrn", 0x5f009c00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0}, 1739 {"scvtf", 0x5f00e400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0}, 1740 {"fcvtzs", 0x5f00fc00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0}, 1741 {"ushr", 0x7f000400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1742 {"usra", 0x7f001400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1743 {"urshr", 0x7f002400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1744 {"ursra", 0x7f003400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1745 {"sri", 0x7f004400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0}, 1746 {"sli", 0x7f005400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT_D, 0}, 1747 {"sqshlu", 0x7f006400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT, 0}, 1748 {"uqshl", 0x7f007400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT, 0}, 1749 {"sqshrun", 0x7f008400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0}, 1750 {"sqrshrun", 0x7f008c00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0}, 1751 {"uqshrn", 0x7f009400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0}, 1752 {"uqrshrn", 0x7f009c00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0}, 1753 {"ucvtf", 0x7f00e400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0}, 1754 {"fcvtzu", 0x7f00fc00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0}, 1755 /* Bitfield. */ 1756 {"sbfm", 0x13000000, 0x7f800000, bitfield, 0, CORE, OP4 (Rd, Rn, IMMR, IMMS), QL_BF, F_HAS_ALIAS | F_SF | F_N}, 1757 {"sbfiz", 0x13000000, 0x7f800000, bitfield, OP_SBFIZ, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV}, 1758 {"sbfx", 0x13000000, 0x7f800000, bitfield, OP_SBFX, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV}, 1759 {"sxtb", 0x13001c00, 0x7fbffc00, bitfield, 0, CORE, OP2 (Rd, Rn), QL_EXT, F_ALIAS | F_P3 | F_SF | F_N}, 1760 {"sxth", 0x13003c00, 0x7fbffc00, bitfield, 0, CORE, OP2 (Rd, Rn), QL_EXT, F_ALIAS | F_P3 | F_SF | F_N}, 1761 {"sxtw", 0x93407c00, 0xfffffc00, bitfield, 0, CORE, OP2 (Rd, Rn), QL_EXT_W, F_ALIAS | F_P3}, 1762 {"asr", 0x13000000, 0x7f800000, bitfield, OP_ASR_IMM, CORE, OP3 (Rd, Rn, IMM), QL_SHIFT, F_ALIAS | F_P2 | F_CONV}, 1763 {"bfm", 0x33000000, 0x7f800000, bitfield, 0, CORE, OP4 (Rd, Rn, IMMR, IMMS), QL_BF, F_HAS_ALIAS | F_SF | F_N}, 1764 {"bfi", 0x33000000, 0x7f800000, bitfield, OP_BFI, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV}, 1765 {"bfxil", 0x33000000, 0x7f800000, bitfield, OP_BFXIL, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV}, 1766 {"ubfm", 0x53000000, 0x7f800000, bitfield, 0, CORE, OP4 (Rd, Rn, IMMR, IMMS), QL_BF, F_HAS_ALIAS | F_SF | F_N}, 1767 {"ubfiz", 0x53000000, 0x7f800000, bitfield, OP_UBFIZ, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV}, 1768 {"ubfx", 0x53000000, 0x7f800000, bitfield, OP_UBFX, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV}, 1769 {"uxtb", 0x53001c00, 0xfffffc00, bitfield, OP_UXTB, CORE, OP2 (Rd, Rn), QL_I2SAMEW, F_ALIAS | F_P3}, 1770 {"uxth", 0x53003c00, 0xfffffc00, bitfield, OP_UXTH, CORE, OP2 (Rd, Rn), QL_I2SAMEW, F_ALIAS | F_P3}, 1771 {"lsl", 0x53000000, 0x7f800000, bitfield, OP_LSL_IMM, CORE, OP3 (Rd, Rn, IMM), QL_SHIFT, F_ALIAS | F_P2 | F_CONV}, 1772 {"lsr", 0x53000000, 0x7f800000, bitfield, OP_LSR_IMM, CORE, OP3 (Rd, Rn, IMM), QL_SHIFT, F_ALIAS | F_P2 | F_CONV}, 1773 /* Unconditional branch (immediate). */ 1774 {"b", 0x14000000, 0xfc000000, branch_imm, OP_B, CORE, OP1 (ADDR_PCREL26), QL_PCREL_26, 0}, 1775 {"bl", 0x94000000, 0xfc000000, branch_imm, OP_BL, CORE, OP1 (ADDR_PCREL26), QL_PCREL_26, 0}, 1776 /* Unconditional branch (register). */ 1777 {"br", 0xd61f0000, 0xfffffc1f, branch_reg, 0, CORE, OP1 (Rn), QL_I1X, 0}, 1778 {"blr", 0xd63f0000, 0xfffffc1f, branch_reg, 0, CORE, OP1 (Rn), QL_I1X, 0}, 1779 {"ret", 0xd65f0000, 0xfffffc1f, branch_reg, 0, CORE, OP1 (Rn), QL_I1X, F_OPD0_OPT | F_DEFAULT (30)}, 1780 {"eret", 0xd69f03e0, 0xffffffff, branch_reg, 0, CORE, OP0 (), {}, 0}, 1781 {"drps", 0xd6bf03e0, 0xffffffff, branch_reg, 0, CORE, OP0 (), {}, 0}, 1782 /* Compare & branch (immediate). */ 1783 {"cbz", 0x34000000, 0x7f000000, compbranch, 0, CORE, OP2 (Rt, ADDR_PCREL19), QL_R_PCREL, F_SF}, 1784 {"cbnz", 0x35000000, 0x7f000000, compbranch, 0, CORE, OP2 (Rt, ADDR_PCREL19), QL_R_PCREL, F_SF}, 1785 /* Conditional branch (immediate). */ 1786 {"b.c", 0x54000000, 0xff000010, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_COND}, 1787 /* Conditional compare (immediate). */ 1788 {"ccmn", 0x3a400800, 0x7fe00c10, condcmp_imm, 0, CORE, OP4 (Rn, CCMP_IMM, NZCV, COND), QL_CCMP_IMM, F_SF}, 1789 {"ccmp", 0x7a400800, 0x7fe00c10, condcmp_imm, 0, CORE, OP4 (Rn, CCMP_IMM, NZCV, COND), QL_CCMP_IMM, F_SF}, 1790 /* Conditional compare (register). */ 1791 {"ccmn", 0x3a400000, 0x7fe00c10, condcmp_reg, 0, CORE, OP4 (Rn, Rm, NZCV, COND), QL_CCMP, F_SF}, 1792 {"ccmp", 0x7a400000, 0x7fe00c10, condcmp_reg, 0, CORE, OP4 (Rn, Rm, NZCV, COND), QL_CCMP, F_SF}, 1793 /* Conditional select. */ 1794 {"csel", 0x1a800000, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_SF}, 1795 {"csinc", 0x1a800400, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_HAS_ALIAS | F_SF}, 1796 {"cinc", 0x1a800400, 0x7fe00c00, condsel, OP_CINC, CORE, OP3 (Rd, Rn, COND1), QL_CSEL, F_ALIAS | F_SF | F_CONV}, 1797 {"cset", 0x1a9f07e0, 0x7fff0fe0, condsel, OP_CSET, CORE, OP2 (Rd, COND1), QL_DST_R, F_ALIAS | F_P1 | F_SF | F_CONV}, 1798 {"csinv", 0x5a800000, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_HAS_ALIAS | F_SF}, 1799 {"cinv", 0x5a800000, 0x7fe00c00, condsel, OP_CINV, CORE, OP3 (Rd, Rn, COND1), QL_CSEL, F_ALIAS | F_SF | F_CONV}, 1800 {"csetm", 0x5a9f03e0, 0x7fff0fe0, condsel, OP_CSETM, CORE, OP2 (Rd, COND1), QL_DST_R, F_ALIAS | F_P1 | F_SF | F_CONV}, 1801 {"csneg", 0x5a800400, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_HAS_ALIAS | F_SF}, 1802 {"cneg", 0x5a800400, 0x7fe00c00, condsel, OP_CNEG, CORE, OP3 (Rd, Rn, COND1), QL_CSEL, F_ALIAS | F_SF | F_CONV}, 1803 /* Crypto AES. */ 1804 {"aese", 0x4e284800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0}, 1805 {"aesd", 0x4e285800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0}, 1806 {"aesmc", 0x4e286800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0}, 1807 {"aesimc", 0x4e287800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0}, 1808 /* Crypto two-reg SHA. */ 1809 {"sha1h", 0x5e280800, 0xfffffc00, cryptosha2, 0, CRYPTO, OP2 (Fd, Fn), QL_2SAMES, 0}, 1810 {"sha1su1", 0x5e281800, 0xfffffc00, cryptosha2, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME4S, 0}, 1811 {"sha256su0", 0x5e282800, 0xfffffc00, cryptosha2, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME4S, 0}, 1812 /* Crypto three-reg SHA. */ 1813 {"sha1c", 0x5e000000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHAUPT, 0}, 1814 {"sha1p", 0x5e001000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHAUPT, 0}, 1815 {"sha1m", 0x5e002000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHAUPT, 0}, 1816 {"sha1su0", 0x5e003000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3SAME4S, 0}, 1817 {"sha256h", 0x5e004000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHA256UPT, 0}, 1818 {"sha256h2", 0x5e005000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHA256UPT, 0}, 1819 {"sha256su1", 0x5e006000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3SAME4S, 0}, 1820 /* Data-processing (1 source). */ 1821 {"rbit", 0x5ac00000, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF}, 1822 {"rev16", 0x5ac00400, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF}, 1823 {"rev", 0x5ac00800, 0xfffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAMEW, 0}, 1824 {"rev", 0xdac00c00, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAMEX, 0}, 1825 {"clz", 0x5ac01000, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF}, 1826 {"cls", 0x5ac01400, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF}, 1827 {"rev32", 0xdac00800, 0xfffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAMEX, 0}, 1828 /* Data-processing (2 source). */ 1829 {"udiv", 0x1ac00800, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF}, 1830 {"sdiv", 0x1ac00c00, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF}, 1831 {"lslv", 0x1ac02000, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS}, 1832 {"lsl", 0x1ac02000, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS}, 1833 {"lsrv", 0x1ac02400, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS}, 1834 {"lsr", 0x1ac02400, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS}, 1835 {"asrv", 0x1ac02800, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS}, 1836 {"asr", 0x1ac02800, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS}, 1837 {"rorv", 0x1ac02c00, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS}, 1838 {"ror", 0x1ac02c00, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS}, 1839 /* CRC instructions. */ 1840 {"crc32b", 0x1ac04000, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0}, 1841 {"crc32h", 0x1ac04400, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0}, 1842 {"crc32w", 0x1ac04800, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0}, 1843 {"crc32x", 0x9ac04c00, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3WWX, 0}, 1844 {"crc32cb", 0x1ac05000, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0}, 1845 {"crc32ch", 0x1ac05400, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0}, 1846 {"crc32cw", 0x1ac05800, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0}, 1847 {"crc32cx", 0x9ac05c00, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3WWX, 0}, 1848 /* Data-processing (3 source). */ 1849 {"madd", 0x1b000000, 0x7fe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMER, F_HAS_ALIAS | F_SF}, 1850 {"mul", 0x1b007c00, 0x7fe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_ALIAS | F_SF}, 1851 {"msub", 0x1b008000, 0x7fe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMER, F_HAS_ALIAS | F_SF}, 1852 {"mneg", 0x1b00fc00, 0x7fe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_ALIAS | F_SF}, 1853 {"smaddl", 0x9b200000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS}, 1854 {"smull", 0x9b207c00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS}, 1855 {"smsubl", 0x9b208000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS}, 1856 {"smnegl", 0x9b20fc00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS}, 1857 {"smulh", 0x9b407c00, 0xffe08000, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEX, 0}, 1858 {"umaddl", 0x9ba00000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS}, 1859 {"umull", 0x9ba07c00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS}, 1860 {"umsubl", 0x9ba08000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS}, 1861 {"umnegl", 0x9ba0fc00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS}, 1862 {"umulh", 0x9bc07c00, 0xffe08000, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEX, 0}, 1863 /* Excep'n generation. */ 1864 {"svc", 0xd4000001, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0}, 1865 {"hvc", 0xd4000002, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0}, 1866 {"smc", 0xd4000003, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0}, 1867 {"brk", 0xd4200000, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0}, 1868 {"hlt", 0xd4400000, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0}, 1869 {"dcps1", 0xd4a00001, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, F_OPD0_OPT | F_DEFAULT (0)}, 1870 {"dcps2", 0xd4a00002, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, F_OPD0_OPT | F_DEFAULT (0)}, 1871 {"dcps3", 0xd4a00003, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, F_OPD0_OPT | F_DEFAULT (0)}, 1872 /* Extract. */ 1873 {"extr", 0x13800000, 0x7fa00000, extract, 0, CORE, OP4 (Rd, Rn, Rm, IMMS), QL_EXTR, F_HAS_ALIAS | F_SF | F_N}, 1874 {"ror", 0x13800000, 0x7fa00000, extract, OP_ROR_IMM, CORE, OP3 (Rd, Rm, IMMS), QL_SHIFT, F_ALIAS | F_CONV}, 1875 /* Floating-point<->fixed-point conversions. */ 1876 {"scvtf", 0x1e020000, 0x7f3f0000, float2fix, 0, FP, OP3 (Fd, Rn, FBITS), QL_FIX2FP, F_FPTYPE | F_SF}, 1877 {"ucvtf", 0x1e030000, 0x7f3f0000, float2fix, 0, FP, OP3 (Fd, Rn, FBITS), QL_FIX2FP, F_FPTYPE | F_SF}, 1878 {"fcvtzs", 0x1e180000, 0x7f3f0000, float2fix, 0, FP, OP3 (Rd, Fn, FBITS), QL_FP2FIX, F_FPTYPE | F_SF}, 1879 {"fcvtzu", 0x1e190000, 0x7f3f0000, float2fix, 0, FP, OP3 (Rd, Fn, FBITS), QL_FP2FIX, F_FPTYPE | F_SF}, 1880 /* Floating-point<->integer conversions. */ 1881 {"fcvtns", 0x1e200000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1882 {"fcvtnu", 0x1e210000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1883 {"scvtf", 0x1e220000, 0x7f3ffc00, float2int, 0, FP, OP2 (Fd, Rn), QL_INT2FP, F_FPTYPE | F_SF}, 1884 {"ucvtf", 0x1e230000, 0x7f3ffc00, float2int, 0, FP, OP2 (Fd, Rn), QL_INT2FP, F_FPTYPE | F_SF}, 1885 {"fcvtas", 0x1e240000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1886 {"fcvtau", 0x1e250000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1887 {"fmov", 0x1e260000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1888 {"fmov", 0x1e270000, 0x7f3ffc00, float2int, 0, FP, OP2 (Fd, Rn), QL_INT2FP, F_FPTYPE | F_SF}, 1889 {"fcvtps", 0x1e280000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1890 {"fcvtpu", 0x1e290000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1891 {"fcvtms", 0x1e300000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1892 {"fcvtmu", 0x1e310000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1893 {"fcvtzs", 0x1e380000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1894 {"fcvtzu", 0x1e390000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF}, 1895 {"fmov", 0x9eae0000, 0xfffffc00, float2int, 0, FP, OP2 (Rd, VnD1), QL_XVD1, 0}, 1896 {"fmov", 0x9eaf0000, 0xfffffc00, float2int, 0, FP, OP2 (VdD1, Rn), QL_VD1X, 0}, 1897 /* Floating-point conditional compare. */ 1898 {"fccmp", 0x1e200400, 0xff200c10, floatccmp, 0, FP, OP4 (Fn, Fm, NZCV, COND), QL_FCCMP, F_FPTYPE}, 1899 {"fccmpe", 0x1e200410, 0xff200c10, floatccmp, 0, FP, OP4 (Fn, Fm, NZCV, COND), QL_FCCMP, F_FPTYPE}, 1900 /* Floating-point compare. */ 1901 {"fcmp", 0x1e202000, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, Fm), QL_FP2, F_FPTYPE}, 1902 {"fcmpe", 0x1e202010, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, Fm), QL_FP2, F_FPTYPE}, 1903 {"fcmp", 0x1e202008, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, FPIMM0), QL_DST_SD, F_FPTYPE}, 1904 {"fcmpe", 0x1e202018, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, FPIMM0), QL_DST_SD, F_FPTYPE}, 1905 /* Floating-point data-processing (1 source). */ 1906 {"fmov", 0x1e204000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1907 {"fabs", 0x1e20c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1908 {"fneg", 0x1e214000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1909 {"fsqrt", 0x1e21c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1910 {"fcvt", 0x1e224000, 0xff3e7c00, floatdp1, OP_FCVT, FP, OP2 (Fd, Fn), QL_FCVT, F_FPTYPE | F_MISC}, 1911 {"frintn", 0x1e244000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1912 {"frintp", 0x1e24c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1913 {"frintm", 0x1e254000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1914 {"frintz", 0x1e25c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1915 {"frinta", 0x1e264000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1916 {"frintx", 0x1e274000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1917 {"frinti", 0x1e27c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE}, 1918 /* Floating-point data-processing (2 source). */ 1919 {"fmul", 0x1e200800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1920 {"fdiv", 0x1e201800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1921 {"fadd", 0x1e202800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1922 {"fsub", 0x1e203800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1923 {"fmax", 0x1e204800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1924 {"fmin", 0x1e205800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1925 {"fmaxnm", 0x1e206800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1926 {"fminnm", 0x1e207800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1927 {"fnmul", 0x1e208800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE}, 1928 /* Floating-point data-processing (3 source). */ 1929 {"fmadd", 0x1f000000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE}, 1930 {"fmsub", 0x1f008000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE}, 1931 {"fnmadd", 0x1f200000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE}, 1932 {"fnmsub", 0x1f208000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE}, 1933 /* Floating-point immediate. */ 1934 {"fmov", 0x1e201000, 0xff201fe0, floatimm, 0, FP, OP2 (Fd, FPIMM), QL_DST_SD, F_FPTYPE}, 1935 /* Floating-point conditional select. */ 1936 {"fcsel", 0x1e200c00, 0xff200c00, floatsel, 0, FP, OP4 (Fd, Fn, Fm, COND), QL_FP_COND, F_FPTYPE}, 1937 /* Load/store register (immediate indexed). */ 1938 {"strb", 0x38000400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0}, 1939 {"ldrb", 0x38400400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0}, 1940 {"ldrsb", 0x38800400, 0xffa00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R8, F_LDS_SIZE}, 1941 {"str", 0x3c000400, 0x3f600400, ldst_imm9, 0, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, 0}, 1942 {"ldr", 0x3c400400, 0x3f600400, ldst_imm9, 0, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, 0}, 1943 {"strh", 0x78000400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0}, 1944 {"ldrh", 0x78400400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0}, 1945 {"ldrsh", 0x78800400, 0xffa00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R16, F_LDS_SIZE}, 1946 {"str", 0xb8000400, 0xbfe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q}, 1947 {"ldr", 0xb8400400, 0xbfe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q}, 1948 {"ldrsw", 0xb8800400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_X32, 0}, 1949 /* Load/store register (unsigned immediate). */ 1950 {"strb", 0x39000000, 0xffc00000, ldst_pos, OP_STRB_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W8, 0}, 1951 {"ldrb", 0x39400000, 0xffc00000, ldst_pos, OP_LDRB_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W8, 0}, 1952 {"ldrsb", 0x39800000, 0xff800000, ldst_pos, OP_LDRSB_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R8, F_LDS_SIZE}, 1953 {"str", 0x3d000000, 0x3f400000, ldst_pos, OP_STRF_POS, CORE, OP2 (Ft, ADDR_UIMM12), QL_LDST_FP, 0}, 1954 {"ldr", 0x3d400000, 0x3f400000, ldst_pos, OP_LDRF_POS, CORE, OP2 (Ft, ADDR_UIMM12), QL_LDST_FP, 0}, 1955 {"strh", 0x79000000, 0xffc00000, ldst_pos, OP_STRH_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W16, 0}, 1956 {"ldrh", 0x79400000, 0xffc00000, ldst_pos, OP_LDRH_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W16, 0}, 1957 {"ldrsh", 0x79800000, 0xff800000, ldst_pos, OP_LDRSH_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R16, F_LDS_SIZE}, 1958 {"str", 0xb9000000, 0xbfc00000, ldst_pos, OP_STR_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R, F_GPRSIZE_IN_Q}, 1959 {"ldr", 0xb9400000, 0xbfc00000, ldst_pos, OP_LDR_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R, F_GPRSIZE_IN_Q}, 1960 {"ldrsw", 0xb9800000, 0xffc00000, ldst_pos, OP_LDRSW_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_X32, 0}, 1961 {"prfm", 0xf9800000, 0xffc00000, ldst_pos, OP_PRFM_POS, CORE, OP2 (PRFOP, ADDR_UIMM12), QL_LDST_PRFM, 0}, 1962 /* Load/store register (register offset). */ 1963 {"strb", 0x38200800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W8, 0}, 1964 {"ldrb", 0x38600800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W8, 0}, 1965 {"ldrsb", 0x38a00800, 0xffa00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R8, F_LDS_SIZE}, 1966 {"str", 0x3c200800, 0x3f600c00, ldst_regoff, 0, CORE, OP2 (Ft, ADDR_REGOFF), QL_LDST_FP, 0}, 1967 {"ldr", 0x3c600800, 0x3f600c00, ldst_regoff, 0, CORE, OP2 (Ft, ADDR_REGOFF), QL_LDST_FP, 0}, 1968 {"strh", 0x78200800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W16, 0}, 1969 {"ldrh", 0x78600800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W16, 0}, 1970 {"ldrsh", 0x78a00800, 0xffa00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R16, F_LDS_SIZE}, 1971 {"str", 0xb8200800, 0xbfe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R, F_GPRSIZE_IN_Q}, 1972 {"ldr", 0xb8600800, 0xbfe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R, F_GPRSIZE_IN_Q}, 1973 {"ldrsw", 0xb8a00800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_X32, 0}, 1974 {"prfm", 0xf8a00800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (PRFOP, ADDR_REGOFF), QL_LDST_PRFM, 0}, 1975 /* Load/store register (unprivileged). */ 1976 {"sttrb", 0x38000800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0}, 1977 {"ldtrb", 0x38400800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0}, 1978 {"ldtrsb", 0x38800800, 0xffa00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R8, F_LDS_SIZE}, 1979 {"sttrh", 0x78000800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0}, 1980 {"ldtrh", 0x78400800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0}, 1981 {"ldtrsh", 0x78800800, 0xffa00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R16, F_LDS_SIZE}, 1982 {"sttr", 0xb8000800, 0xbfe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q}, 1983 {"ldtr", 0xb8400800, 0xbfe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q}, 1984 {"ldtrsw", 0xb8800800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_X32, 0}, 1985 /* Load/store register (unscaled immediate). */ 1986 {"sturb", 0x38000000, 0xffe00c00, ldst_unscaled, OP_STURB, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0}, 1987 {"ldurb", 0x38400000, 0xffe00c00, ldst_unscaled, OP_LDURB, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0}, 1988 {"ldursb", 0x38800000, 0xffa00c00, ldst_unscaled, OP_LDURSB, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R8, F_LDS_SIZE}, 1989 {"stur", 0x3c000000, 0x3f600c00, ldst_unscaled, OP_STURV, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, 0}, 1990 {"ldur", 0x3c400000, 0x3f600c00, ldst_unscaled, OP_LDURV, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, 0}, 1991 {"sturh", 0x78000000, 0xffe00c00, ldst_unscaled, OP_STURH, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0}, 1992 {"ldurh", 0x78400000, 0xffe00c00, ldst_unscaled, OP_LDURH, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0}, 1993 {"ldursh", 0x78800000, 0xffa00c00, ldst_unscaled, OP_LDURSH, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R16, F_LDS_SIZE}, 1994 {"stur", 0xb8000000, 0xbfe00c00, ldst_unscaled, OP_STUR, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q}, 1995 {"ldur", 0xb8400000, 0xbfe00c00, ldst_unscaled, OP_LDUR, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q}, 1996 {"ldursw", 0xb8800000, 0xffe00c00, ldst_unscaled, OP_LDURSW, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_X32, 0}, 1997 {"prfum", 0xf8800000, 0xffe00c00, ldst_unscaled, OP_PRFUM, CORE, OP2 (PRFOP, ADDR_SIMM9), QL_LDST_PRFM, 0}, 1998 /* Load/store exclusive. */ 1999 {"stxrb", 0x8007c00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2000 {"stlxrb", 0x800fc00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2001 {"ldxrb", 0x85f7c00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2002 {"ldaxrb", 0x85ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2003 {"stlrb", 0x89ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2004 {"ldarb", 0x8dffc00, 0xffeffc00, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2005 {"stxrh", 0x48007c00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2006 {"stlxrh", 0x4800fc00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2007 {"ldxrh", 0x485f7c00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2008 {"ldaxrh", 0x485ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2009 {"stlrh", 0x489ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2010 {"ldarh", 0x48dffc00, 0xffeffc00, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0}, 2011 {"stxr", 0x88007c00, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2_LDST_EXC, F_GPRSIZE_IN_Q}, 2012 {"stlxr", 0x8800fc00, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2_LDST_EXC, F_GPRSIZE_IN_Q}, 2013 {"stxp", 0x88200000, 0xbfe08000, ldstexcl, 0, CORE, OP4 (Rs, Rt, Rt2, ADDR_SIMPLE), QL_R3_LDST_EXC, F_GPRSIZE_IN_Q}, 2014 {"stlxp", 0x88208000, 0xbfe08000, ldstexcl, 0, CORE, OP4 (Rs, Rt, Rt2, ADDR_SIMPLE), QL_R3_LDST_EXC, F_GPRSIZE_IN_Q}, 2015 {"ldxr", 0x885f7c00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q}, 2016 {"ldaxr", 0x885ffc00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q}, 2017 {"ldxp", 0x887f0000, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMPLE), QL_R2NIL, F_GPRSIZE_IN_Q}, 2018 {"ldaxp", 0x887f8000, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMPLE), QL_R2NIL, F_GPRSIZE_IN_Q}, 2019 {"stlr", 0x889ffc00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q}, 2020 {"ldar", 0x88dffc00, 0xbfeffc00, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q}, 2021 /* Load/store no-allocate pair (offset). */ 2022 {"stnp", 0x28000000, 0x7fc00000, ldstnapair_offs, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF}, 2023 {"ldnp", 0x28400000, 0x7fc00000, ldstnapair_offs, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF}, 2024 {"stnp", 0x2c000000, 0x3fc00000, ldstnapair_offs, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0}, 2025 {"ldnp", 0x2c400000, 0x3fc00000, ldstnapair_offs, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0}, 2026 /* Load/store register pair (offset). */ 2027 {"stp", 0x29000000, 0x7ec00000, ldstpair_off, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF}, 2028 {"ldp", 0x29400000, 0x7ec00000, ldstpair_off, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF}, 2029 {"stp", 0x2d000000, 0x3fc00000, ldstpair_off, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0}, 2030 {"ldp", 0x2d400000, 0x3fc00000, ldstpair_off, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0}, 2031 {"ldpsw", 0x69400000, 0xffc00000, ldstpair_off, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_X32, 0}, 2032 /* Load/store register pair (indexed). */ 2033 {"stp", 0x28800000, 0x7ec00000, ldstpair_indexed, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF}, 2034 {"ldp", 0x28c00000, 0x7ec00000, ldstpair_indexed, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF}, 2035 {"stp", 0x2c800000, 0x3ec00000, ldstpair_indexed, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0}, 2036 {"ldp", 0x2cc00000, 0x3ec00000, ldstpair_indexed, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0}, 2037 {"ldpsw", 0x68c00000, 0xfec00000, ldstpair_indexed, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_X32, 0}, 2038 /* Load register (literal). */ 2039 {"ldr", 0x18000000, 0xbf000000, loadlit, OP_LDR_LIT, CORE, OP2 (Rt, ADDR_PCREL19), QL_R_PCREL, F_GPRSIZE_IN_Q}, 2040 {"ldr", 0x1c000000, 0x3f000000, loadlit, OP_LDRV_LIT, CORE, OP2 (Ft, ADDR_PCREL19), QL_FP_PCREL, 0}, 2041 {"ldrsw", 0x98000000, 0xff000000, loadlit, OP_LDRSW_LIT, CORE, OP2 (Rt, ADDR_PCREL19), QL_X_PCREL, 0}, 2042 {"prfm", 0xd8000000, 0xff000000, loadlit, OP_PRFM_LIT, CORE, OP2 (PRFOP, ADDR_PCREL19), QL_PRFM_PCREL, 0}, 2043 /* Logical (immediate). */ 2044 {"and", 0x12000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_HAS_ALIAS | F_SF}, 2045 {"bic", 0x12000000, 0x7f800000, log_imm, OP_BIC, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_ALIAS | F_PSEUDO | F_SF}, 2046 {"orr", 0x32000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_HAS_ALIAS | F_SF}, 2047 {"mov", 0x320003e0, 0x7f8003e0, log_imm, OP_MOV_IMM_LOG, CORE, OP2 (Rd_SP, IMM_MOV), QL_R1NIL, F_ALIAS | F_P1 | F_SF | F_CONV}, 2048 {"eor", 0x52000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_SF}, 2049 {"ands", 0x72000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd, Rn, LIMM), QL_R2NIL, F_HAS_ALIAS | F_SF}, 2050 {"tst", 0x7200001f, 0x7f80001f, log_imm, 0, CORE, OP2 (Rn, LIMM), QL_R1NIL, F_ALIAS | F_SF}, 2051 /* Logical (shifted register). */ 2052 {"and", 0xa000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF}, 2053 {"bic", 0xa200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF}, 2054 {"orr", 0x2a000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 2055 {"mov", 0x2a0003e0, 0x7f2003e0, log_shift, 0, CORE, OP2 (Rd, Rm), QL_I2SAMER, F_ALIAS | F_SF}, 2056 {"uxtw", 0x2a0003e0, 0x7f2003e0, log_shift, OP_UXTW, CORE, OP2 (Rd, Rm), QL_I2SAMEW, F_ALIAS | F_PSEUDO}, 2057 {"orn", 0x2a200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 2058 {"mvn", 0x2a2003e0, 0x7f2003e0, log_shift, 0, CORE, OP2 (Rd, Rm_SFT), QL_I2SAMER, F_ALIAS | F_SF}, 2059 {"eor", 0x4a000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF}, 2060 {"eon", 0x4a200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF}, 2061 {"ands", 0x6a000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF}, 2062 {"tst", 0x6a00001f, 0x7f20001f, log_shift, 0, CORE, OP2 (Rn, Rm_SFT), QL_I2SAMER, F_ALIAS | F_SF}, 2063 {"bics", 0x6a200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF}, 2064 /* LSE extension (atomic). */ 2065 {"casb", 0x8a07c00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2066 {"cash", 0x48a07c00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2067 {"cas", 0x88a07c00, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2068 {"casab", 0x8e07c00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2069 {"caslb", 0x8a0fc00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2070 {"casalb", 0x8e0fc00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2071 {"casah", 0x48e07c00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2072 {"caslh", 0x48a0fc00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2073 {"casalh", 0x48e0fc00, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2074 {"casa", 0x88e07c00, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2075 {"casl", 0x88a0fc00, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2076 {"casal", 0x88e0fc00, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2077 {"casp", 0x8207c00, 0xbfe0fc00, lse_atomic, 0, LSE, OP5 (Rs, PAIRREG, Rt, PAIRREG, ADDR_SIMPLE), QL_R4NIL, F_LSE_SZ}, 2078 {"caspa", 0x8607c00, 0xbfe0fc00, lse_atomic, 0, LSE, OP5 (Rs, PAIRREG, Rt, PAIRREG, ADDR_SIMPLE), QL_R4NIL, F_LSE_SZ}, 2079 {"caspl", 0x820fc00, 0xbfe0fc00, lse_atomic, 0, LSE, OP5 (Rs, PAIRREG, Rt, PAIRREG, ADDR_SIMPLE), QL_R4NIL, F_LSE_SZ}, 2080 {"caspal", 0x860fc00, 0xbfe0fc00, lse_atomic, 0, LSE, OP5 (Rs, PAIRREG, Rt, PAIRREG, ADDR_SIMPLE), QL_R4NIL, F_LSE_SZ}, 2081 {"swpb", 0x38208000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2082 {"swph", 0x78208000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2083 {"swp", 0xb8208000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2084 {"swpab", 0x38a08000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2085 {"swplb", 0x38608000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2086 {"swpalb", 0x38e08000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2087 {"swpah", 0x78a08000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2088 {"swplh", 0x78608000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2089 {"swpalh", 0x78e08000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2090 {"swpa", 0xb8a08000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2091 {"swpl", 0xb8608000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2092 {"swpal", 0xb8e08000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2093 {"ldaddb", 0x38200000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2094 {"ldaddh", 0x78200000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2095 {"ldadd", 0xb8200000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2096 {"ldaddab", 0x38a00000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2097 {"ldaddlb", 0x38600000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2098 {"ldaddalb", 0x38e00000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2099 {"ldaddah", 0x78a00000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2100 {"ldaddlh", 0x78600000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2101 {"ldaddalh", 0x78e00000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2102 {"ldadda", 0xb8a00000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2103 {"ldaddl", 0xb8600000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2104 {"ldaddal", 0xb8e00000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2105 {"ldclrb", 0x38201000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2106 {"ldclrh", 0x78201000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2107 {"ldclr", 0xb8201000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2108 {"ldclrab", 0x38a01000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2109 {"ldclrlb", 0x38601000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2110 {"ldclralb", 0x38e01000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2111 {"ldclrah", 0x78a01000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2112 {"ldclrlh", 0x78601000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2113 {"ldclralh", 0x78e01000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2114 {"ldclra", 0xb8a01000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2115 {"ldclrl", 0xb8601000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2116 {"ldclral", 0xb8e01000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2117 {"ldeorb", 0x38202000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2118 {"ldeorh", 0x78202000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2119 {"ldeor", 0xb8202000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2120 {"ldeorab", 0x38a02000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2121 {"ldeorlb", 0x38602000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2122 {"ldeoralb", 0x38e02000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2123 {"ldeorah", 0x78a02000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2124 {"ldeorlh", 0x78602000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2125 {"ldeoralh", 0x78e02000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2126 {"ldeora", 0xb8a02000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2127 {"ldeorl", 0xb8602000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2128 {"ldeoral", 0xb8e02000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2129 {"ldsetb", 0x38203000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2130 {"ldseth", 0x78203000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2131 {"ldset", 0xb8203000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2132 {"ldsetab", 0x38a03000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2133 {"ldsetlb", 0x38603000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2134 {"ldsetalb", 0x38e03000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2135 {"ldsetah", 0x78a03000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2136 {"ldsetlh", 0x78603000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2137 {"ldsetalh", 0x78e03000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2138 {"ldseta", 0xb8a03000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2139 {"ldsetl", 0xb8603000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2140 {"ldsetal", 0xb8e03000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2141 {"ldsmaxb", 0x38204000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2142 {"ldsmaxh", 0x78204000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2143 {"ldsmax", 0xb8204000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2144 {"ldsmaxab", 0x38a04000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2145 {"ldsmaxlb", 0x38604000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2146 {"ldsmaxalb", 0x38e04000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2147 {"ldsmaxah", 0x78a04000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2148 {"ldsmaxlh", 0x78604000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2149 {"ldsmaxalh", 0x78e04000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2150 {"ldsmaxa", 0xb8a04000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2151 {"ldsmaxl", 0xb8604000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2152 {"ldsmaxal", 0xb8e04000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2153 {"ldsminb", 0x38205000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2154 {"ldsminh", 0x78205000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2155 {"ldsmin", 0xb8205000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2156 {"ldsminab", 0x38a05000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2157 {"ldsminlb", 0x38605000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2158 {"ldsminalb", 0x38e05000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2159 {"ldsminah", 0x78a05000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2160 {"ldsminlh", 0x78605000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2161 {"ldsminalh", 0x78e05000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2162 {"ldsmina", 0xb8a05000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2163 {"ldsminl", 0xb8605000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2164 {"ldsminal", 0xb8e05000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2165 {"ldumaxb", 0x38206000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2166 {"ldumaxh", 0x78206000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2167 {"ldumax", 0xb8206000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2168 {"ldumaxab", 0x38a06000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2169 {"ldumaxlb", 0x38606000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2170 {"ldumaxalb", 0x38e06000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2171 {"ldumaxah", 0x78a06000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2172 {"ldumaxlh", 0x78606000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2173 {"ldumaxalh", 0x78e06000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2174 {"ldumaxa", 0xb8a06000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2175 {"ldumaxl", 0xb8606000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2176 {"ldumaxal", 0xb8e06000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2177 {"lduminb", 0x38207000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2178 {"lduminh", 0x78207000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2179 {"ldumin", 0xb8207000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2180 {"lduminab", 0x38a07000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2181 {"lduminlb", 0x38607000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2182 {"lduminalb", 0x38e07000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2183 {"lduminah", 0x78a07000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2184 {"lduminlh", 0x78607000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, F_HAS_ALIAS}, 2185 {"lduminalh", 0x78e07000, 0xffe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0}, 2186 {"ldumina", 0xb8a07000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2187 {"lduminl", 0xb8607000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ | F_HAS_ALIAS}, 2188 {"lduminal", 0xb8e07000, 0xbfe0fc00, lse_atomic, 0, LSE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2NIL, F_LSE_SZ}, 2189 {"staddb", 0x3820001f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2190 {"staddh", 0x7820001f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2191 {"stadd", 0xb820001f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2192 {"staddlb", 0x3860001f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2193 {"staddlh", 0x7860001f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2194 {"staddl", 0xb860001f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2195 {"stclrb", 0x3820101f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2196 {"stclrh", 0x7820101f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2197 {"stclr", 0xb820101f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2198 {"stclrlb", 0x3860101f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2199 {"stclrlh", 0x7860101f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2200 {"stclrl", 0xb860101f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2201 {"steorb", 0x3820201f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2202 {"steorh", 0x7820201f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2203 {"steor", 0xb820201f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2204 {"steorlb", 0x3860201f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2205 {"steorlh", 0x7860201f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2206 {"steorl", 0xb860201f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2207 {"stsetb", 0x3820301f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2208 {"stseth", 0x7820301f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2209 {"stset", 0xb820301f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2210 {"stsetlb", 0x3860301f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2211 {"stsetlh", 0x7860301f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2212 {"stsetl", 0xb860301f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2213 {"stsmaxb", 0x3820401f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2214 {"stsmaxh", 0x7820401f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2215 {"stsmax", 0xb820401f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2216 {"stsmaxlb", 0x3860401f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2217 {"stsmaxlh", 0x7860401f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2218 {"stsmaxl", 0xb860401f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2219 {"stsminb", 0x3820501f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2220 {"stsminh", 0x7820501f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2221 {"stsmin", 0xb820501f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2222 {"stsminlb", 0x3860501f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2223 {"stsminlh", 0x7860501f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2224 {"stsminl", 0xb860501f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2225 {"stumaxb", 0x3820601f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2226 {"stumaxh", 0x7820601f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2227 {"stumax", 0xb820601f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2228 {"stumaxlb", 0x3860601f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2229 {"stumaxlh", 0x7860601f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2230 {"stumaxl", 0xb860601f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2231 {"stuminb", 0x3820701f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2232 {"stuminh", 0x7820701f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2233 {"stumin", 0xb820701f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2234 {"stuminlb", 0x3860701f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2235 {"stuminlh", 0x7860701f, 0xffe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_W1_LDST_EXC, F_ALIAS}, 2236 {"stuminl", 0xb860701f, 0xbfe0fc1f, lse_atomic, 0, LSE, OP2 (Rs, ADDR_SIMPLE), QL_R1NIL, F_LSE_SZ | F_ALIAS}, 2237 /* Move wide (immediate). */ 2238 {"movn", 0x12800000, 0x7f800000, movewide, OP_MOVN, CORE, OP2 (Rd, HALF), QL_DST_R, F_SF | F_HAS_ALIAS}, 2239 {"mov", 0x12800000, 0x7f800000, movewide, OP_MOV_IMM_WIDEN, CORE, OP2 (Rd, IMM_MOV), QL_DST_R, F_SF | F_ALIAS | F_CONV}, 2240 {"movz", 0x52800000, 0x7f800000, movewide, OP_MOVZ, CORE, OP2 (Rd, HALF), QL_DST_R, F_SF | F_HAS_ALIAS}, 2241 {"mov", 0x52800000, 0x7f800000, movewide, OP_MOV_IMM_WIDE, CORE, OP2 (Rd, IMM_MOV), QL_DST_R, F_SF | F_ALIAS | F_CONV}, 2242 {"movk", 0x72800000, 0x7f800000, movewide, OP_MOVK, CORE, OP2 (Rd, HALF), QL_DST_R, F_SF}, 2243 /* PC-rel. addressing. */ 2244 {"adr", 0x10000000, 0x9f000000, pcreladdr, 0, CORE, OP2 (Rd, ADDR_PCREL21), QL_ADRP, 0}, 2245 {"adrp", 0x90000000, 0x9f000000, pcreladdr, 0, CORE, OP2 (Rd, ADDR_ADRP), QL_ADRP, 0}, 2246 /* System. */ 2247 {"msr", 0xd500401f, 0xfff8f01f, ic_system, 0, CORE, OP2 (PSTATEFIELD, UIMM4), {}, 0}, 2248 {"hint", 0xd503201f, 0xfffff01f, ic_system, 0, CORE, OP1 (UIMM7), {}, F_HAS_ALIAS}, 2249 {"nop", 0xd503201f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS}, 2250 {"yield", 0xd503203f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS}, 2251 {"wfe", 0xd503205f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS}, 2252 {"wfi", 0xd503207f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS}, 2253 {"sev", 0xd503209f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS}, 2254 {"sevl", 0xd50320bf, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS}, 2255 {"clrex", 0xd503305f, 0xfffff0ff, ic_system, 0, CORE, OP1 (UIMM4), {}, F_OPD0_OPT | F_DEFAULT (0xF)}, 2256 {"dsb", 0xd503309f, 0xfffff0ff, ic_system, 0, CORE, OP1 (BARRIER), {}, 0}, 2257 {"dmb", 0xd50330bf, 0xfffff0ff, ic_system, 0, CORE, OP1 (BARRIER), {}, 0}, 2258 {"isb", 0xd50330df, 0xfffff0ff, ic_system, 0, CORE, OP1 (BARRIER_ISB), {}, F_OPD0_OPT | F_DEFAULT (0xF)}, 2259 {"sys", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP5 (UIMM3_OP1, Cn, Cm, UIMM3_OP2, Rt), QL_SYS, F_HAS_ALIAS | F_OPD4_OPT | F_DEFAULT (0x1F)}, 2260 {"at", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_AT, Rt), QL_SRC_X, F_ALIAS}, 2261 {"dc", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_DC, Rt), QL_SRC_X, F_ALIAS}, 2262 {"ic", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_IC, Rt_SYS), QL_SRC_X, F_ALIAS | F_OPD1_OPT | F_DEFAULT (0x1F)}, 2263 {"tlbi", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_TLBI, Rt_SYS), QL_SRC_X, F_ALIAS | F_OPD1_OPT | F_DEFAULT (0x1F)}, 2264 {"msr", 0xd5000000, 0xffe00000, ic_system, 0, CORE, OP2 (SYSREG, Rt), QL_SRC_X, 0}, 2265 {"sysl", 0xd5280000, 0xfff80000, ic_system, 0, CORE, OP5 (Rt, UIMM3_OP1, Cn, Cm, UIMM3_OP2), QL_SYSL, 0}, 2266 {"mrs", 0xd5200000, 0xffe00000, ic_system, 0, CORE, OP2 (Rt, SYSREG), QL_DST_X, 0}, 2267 /* Test & branch (immediate). */ 2268 {"tbz", 0x36000000, 0x7f000000, testbranch, 0, CORE, OP3 (Rt, BIT_NUM, ADDR_PCREL14), QL_PCREL_14, 0}, 2269 {"tbnz", 0x37000000, 0x7f000000, testbranch, 0, CORE, OP3 (Rt, BIT_NUM, ADDR_PCREL14), QL_PCREL_14, 0}, 2270 /* The old UAL conditional branch mnemonics (to aid portability). */ 2271 {"beq", 0x54000000, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2272 {"bne", 0x54000001, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2273 {"bcs", 0x54000002, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2274 {"bhs", 0x54000002, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2275 {"bcc", 0x54000003, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2276 {"blo", 0x54000003, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2277 {"bmi", 0x54000004, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2278 {"bpl", 0x54000005, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2279 {"bvs", 0x54000006, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2280 {"bvc", 0x54000007, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2281 {"bhi", 0x54000008, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2282 {"bls", 0x54000009, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2283 {"bge", 0x5400000a, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2284 {"blt", 0x5400000b, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2285 {"bgt", 0x5400000c, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2286 {"ble", 0x5400000d, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO}, 2287 2288 {0, 0, 0, 0, 0, 0, {}, {}, 0}, 2289 }; 2290 2291 #ifdef AARCH64_OPERANDS 2292 #undef AARCH64_OPERANDS 2293 #endif 2294 2295 /* Macro-based operand decription; this will be fed into aarch64-gen for it 2296 to generate the structure aarch64_operands and the function 2297 aarch64_insert_operand and aarch64_extract_operand. 2298 2299 These inserters and extracters in the description execute the conversion 2300 between the aarch64_opnd_info and value in the operand-related instruction 2301 field(s). */ 2302 2303 /* Y expects arguments (left to right) to be operand class, inserter/extractor 2304 name suffix, operand name, flags, related bitfield(s) and description. 2305 X only differs from Y by having the operand inserter and extractor names 2306 listed separately. */ 2307 2308 #define AARCH64_OPERANDS \ 2309 Y(INT_REG, regno, "Rd", 0, F(FLD_Rd), "an integer register") \ 2310 Y(INT_REG, regno, "Rn", 0, F(FLD_Rn), "an integer register") \ 2311 Y(INT_REG, regno, "Rm", 0, F(FLD_Rm), "an integer register") \ 2312 Y(INT_REG, regno, "Rt", 0, F(FLD_Rt), "an integer register") \ 2313 Y(INT_REG, regno, "Rt2", 0, F(FLD_Rt2), "an integer register") \ 2314 Y(INT_REG, regno, "Rs", 0, F(FLD_Rs), "an integer register") \ 2315 Y(INT_REG, regno, "Ra", 0, F(FLD_Ra), "an integer register") \ 2316 X(INT_REG, ins_regno, ext_regrt_sysins, "Rt_SYS", 0, F(FLD_Rt), \ 2317 "an integer register") \ 2318 Y(INT_REG, regno, "Rd_SP", OPD_F_MAYBE_SP, F(FLD_Rd), \ 2319 "an integer or stack pointer register") \ 2320 Y(INT_REG, regno, "Rn_SP", OPD_F_MAYBE_SP, F(FLD_Rn), \ 2321 "an integer or stack pointer register") \ 2322 X(INT_REG, 0, ext_regno_pair, "PAIRREG", 0, F(), \ 2323 "the second reg of a pair") \ 2324 Y(MODIFIED_REG, reg_extended, "Rm_EXT", 0, F(), \ 2325 "an integer register with optional extension") \ 2326 Y(MODIFIED_REG, reg_shifted, "Rm_SFT", 0, F(), \ 2327 "an integer register with optional shift") \ 2328 Y(FP_REG, regno, "Fd", 0, F(FLD_Rd), "a floating-point register") \ 2329 Y(FP_REG, regno, "Fn", 0, F(FLD_Rn), "a floating-point register") \ 2330 Y(FP_REG, regno, "Fm", 0, F(FLD_Rm), "a floating-point register") \ 2331 Y(FP_REG, regno, "Fa", 0, F(FLD_Ra), "a floating-point register") \ 2332 Y(FP_REG, ft, "Ft", 0, F(FLD_Rt), "a floating-point register") \ 2333 Y(FP_REG, regno, "Ft2", 0, F(FLD_Rt2), "a floating-point register") \ 2334 Y(SISD_REG, regno, "Sd", 0, F(FLD_Rd), "a SIMD scalar register") \ 2335 Y(SISD_REG, regno, "Sn", 0, F(FLD_Rn), "a SIMD scalar register") \ 2336 Y(SISD_REG, regno, "Sm", 0, F(FLD_Rm), "a SIMD scalar register") \ 2337 Y(SIMD_REG, regno, "Vd", 0, F(FLD_Rd), "a SIMD vector register") \ 2338 Y(SIMD_REG, regno, "Vn", 0, F(FLD_Rn), "a SIMD vector register") \ 2339 Y(SIMD_REG, regno, "Vm", 0, F(FLD_Rm), "a SIMD vector register") \ 2340 Y(FP_REG, regno, "VdD1", 0, F(FLD_Rd), \ 2341 "the top half of a 128-bit FP/SIMD register") \ 2342 Y(FP_REG, regno, "VnD1", 0, F(FLD_Rn), \ 2343 "the top half of a 128-bit FP/SIMD register") \ 2344 Y(SIMD_ELEMENT, reglane, "Ed", 0, F(FLD_Rd), \ 2345 "a SIMD vector element") \ 2346 Y(SIMD_ELEMENT, reglane, "En", 0, F(FLD_Rn), \ 2347 "a SIMD vector element") \ 2348 Y(SIMD_ELEMENT, reglane, "Em", 0, F(FLD_Rm), \ 2349 "a SIMD vector element") \ 2350 Y(SIMD_REGLIST, reglist, "LVn", 0, F(FLD_Rn), \ 2351 "a SIMD vector register list") \ 2352 Y(SIMD_REGLIST, ldst_reglist, "LVt", 0, F(), \ 2353 "a SIMD vector register list") \ 2354 Y(SIMD_REGLIST, ldst_reglist_r, "LVt_AL", 0, F(), \ 2355 "a SIMD vector register list") \ 2356 Y(SIMD_REGLIST, ldst_elemlist, "LEt", 0, F(), \ 2357 "a SIMD vector element list") \ 2358 Y(CP_REG, regno, "Cn", 0, F(FLD_CRn), \ 2359 "a 4-bit opcode field named for historical reasons C0 - C15") \ 2360 Y(CP_REG, regno, "Cm", 0, F(FLD_CRm), \ 2361 "a 4-bit opcode field named for historical reasons C0 - C15") \ 2362 Y(IMMEDIATE, imm, "IDX", 0, F(FLD_imm4), \ 2363 "an immediate as the index of the least significant byte") \ 2364 Y(IMMEDIATE, advsimd_imm_shift, "IMM_VLSL", 0, F(), \ 2365 "a left shift amount for an AdvSIMD register") \ 2366 Y(IMMEDIATE, advsimd_imm_shift, "IMM_VLSR", 0, F(), \ 2367 "a right shift amount for an AdvSIMD register") \ 2368 Y(IMMEDIATE, advsimd_imm_modified, "SIMD_IMM", 0, F(), \ 2369 "an immediate") \ 2370 Y(IMMEDIATE, advsimd_imm_modified, "SIMD_IMM_SFT", 0, F(), \ 2371 "an 8-bit unsigned immediate with optional shift") \ 2372 Y(IMMEDIATE, advsimd_imm_modified, "SIMD_FPIMM", 0, F(), \ 2373 "an 8-bit floating-point constant") \ 2374 X(IMMEDIATE, 0, ext_shll_imm, "SHLL_IMM", 0, F(), \ 2375 "an immediate shift amount of 8, 16 or 32") \ 2376 X(IMMEDIATE, 0, 0, "IMM0", 0, F(), "0") \ 2377 X(IMMEDIATE, 0, 0, "FPIMM0", 0, F(), "0.0") \ 2378 Y(IMMEDIATE, imm, "FPIMM", 0, F(FLD_imm8), \ 2379 "an 8-bit floating-point constant") \ 2380 Y(IMMEDIATE, imm, "IMMR", 0, F(FLD_immr), \ 2381 "the right rotate amount") \ 2382 Y(IMMEDIATE, imm, "IMMS", 0, F(FLD_imm6), \ 2383 "the leftmost bit number to be moved from the source") \ 2384 Y(IMMEDIATE, imm, "WIDTH", 0, F(FLD_imm6), \ 2385 "the width of the bit-field") \ 2386 Y(IMMEDIATE, imm, "IMM", 0, F(FLD_imm6), "an immediate") \ 2387 Y(IMMEDIATE, imm, "UIMM3_OP1", 0, F(FLD_op1), \ 2388 "a 3-bit unsigned immediate") \ 2389 Y(IMMEDIATE, imm, "UIMM3_OP2", 0, F(FLD_op2), \ 2390 "a 3-bit unsigned immediate") \ 2391 Y(IMMEDIATE, imm, "UIMM4", 0, F(FLD_CRm), \ 2392 "a 4-bit unsigned immediate") \ 2393 Y(IMMEDIATE, imm, "UIMM7", 0, F(FLD_CRm, FLD_op2), \ 2394 "a 7-bit unsigned immediate") \ 2395 Y(IMMEDIATE, imm, "BIT_NUM", 0, F(FLD_b5, FLD_b40), \ 2396 "the bit number to be tested") \ 2397 Y(IMMEDIATE, imm, "EXCEPTION", 0, F(FLD_imm16), \ 2398 "a 16-bit unsigned immediate") \ 2399 Y(IMMEDIATE, imm, "CCMP_IMM", 0, F(FLD_imm5), \ 2400 "a 5-bit unsigned immediate") \ 2401 Y(IMMEDIATE, imm, "NZCV", 0, F(FLD_nzcv), \ 2402 "a flag bit specifier giving an alternative value for each flag") \ 2403 Y(IMMEDIATE, limm, "LIMM", 0, F(FLD_N,FLD_immr,FLD_imms), \ 2404 "Logical immediate") \ 2405 Y(IMMEDIATE, aimm, "AIMM", 0, F(FLD_shift,FLD_imm12), \ 2406 "a 12-bit unsigned immediate with optional left shift of 12 bits")\ 2407 Y(IMMEDIATE, imm_half, "HALF", 0, F(FLD_imm16), \ 2408 "a 16-bit immediate with optional left shift") \ 2409 Y(IMMEDIATE, fbits, "FBITS", 0, F(FLD_scale), \ 2410 "the number of bits after the binary point in the fixed-point value")\ 2411 X(IMMEDIATE, 0, 0, "IMM_MOV", 0, F(), "an immediate") \ 2412 Y(COND, cond, "COND", 0, F(), "a condition") \ 2413 Y(COND, cond, "COND1", 0, F(), \ 2414 "one of the standard conditions, excluding AL and NV.") \ 2415 X(ADDRESS, 0, ext_imm, "ADDR_ADRP", OPD_F_SEXT, F(FLD_immhi, FLD_immlo),\ 2416 "21-bit PC-relative address of a 4KB page") \ 2417 Y(ADDRESS, imm, "ADDR_PCREL14", OPD_F_SEXT | OPD_F_SHIFT_BY_2, \ 2418 F(FLD_imm14), "14-bit PC-relative address") \ 2419 Y(ADDRESS, imm, "ADDR_PCREL19", OPD_F_SEXT | OPD_F_SHIFT_BY_2, \ 2420 F(FLD_imm19), "19-bit PC-relative address") \ 2421 Y(ADDRESS, imm, "ADDR_PCREL21", OPD_F_SEXT, F(FLD_immhi,FLD_immlo), \ 2422 "21-bit PC-relative address") \ 2423 Y(ADDRESS, imm, "ADDR_PCREL26", OPD_F_SEXT | OPD_F_SHIFT_BY_2, \ 2424 F(FLD_imm26), "26-bit PC-relative address") \ 2425 Y(ADDRESS, addr_simple, "ADDR_SIMPLE", 0, F(), \ 2426 "an address with base register (no offset)") \ 2427 Y(ADDRESS, addr_regoff, "ADDR_REGOFF", 0, F(), \ 2428 "an address with register offset") \ 2429 Y(ADDRESS, addr_simm, "ADDR_SIMM7", 0, F(FLD_imm7,FLD_index2), \ 2430 "an address with 7-bit signed immediate offset") \ 2431 Y(ADDRESS, addr_simm, "ADDR_SIMM9", 0, F(FLD_imm9,FLD_index), \ 2432 "an address with 9-bit signed immediate offset") \ 2433 Y(ADDRESS, addr_simm, "ADDR_SIMM9_2", 0, F(FLD_imm9,FLD_index), \ 2434 "an address with 9-bit negative or unaligned immediate offset") \ 2435 Y(ADDRESS, addr_uimm12, "ADDR_UIMM12", 0, F(FLD_Rn,FLD_imm12), \ 2436 "an address with scaled, unsigned immediate offset") \ 2437 Y(ADDRESS, addr_simple, "SIMD_ADDR_SIMPLE", 0, F(), \ 2438 "an address with base register (no offset)") \ 2439 Y(ADDRESS, simd_addr_post, "SIMD_ADDR_POST", 0, F(), \ 2440 "a post-indexed address with immediate or register increment") \ 2441 Y(SYSTEM, sysreg, "SYSREG", 0, F(), "a system register") \ 2442 Y(SYSTEM, pstatefield, "PSTATEFIELD", 0, F(), \ 2443 "a PSTATE field name") \ 2444 Y(SYSTEM, sysins_op, "SYSREG_AT", 0, F(), \ 2445 "an address translation operation specifier") \ 2446 Y(SYSTEM, sysins_op, "SYSREG_DC", 0, F(), \ 2447 "a data cache maintenance operation specifier") \ 2448 Y(SYSTEM, sysins_op, "SYSREG_IC", 0, F(), \ 2449 "an instructin cache maintenance operation specifier") \ 2450 Y(SYSTEM, sysins_op, "SYSREG_TLBI", 0, F(), \ 2451 "a TBL invalidation operation specifier") \ 2452 Y(SYSTEM, barrier, "BARRIER", 0, F(), \ 2453 "a barrier option name") \ 2454 Y(SYSTEM, barrier, "BARRIER_ISB", 0, F(), \ 2455 "the ISB option name SY or an optional 4-bit unsigned immediate") \ 2456 Y(SYSTEM, prfop, "PRFOP", 0, F(), \ 2457 "an prefetch operation specifier") 2458
