1 /* $NetBSD: disasm_extract.c,v 1.3 2016/08/05 16:45:50 scole Exp $ */ 2 3 /*- 4 * Copyright (c) 2000-2006 Marcel Moolenaar 5 * All rights reserved. 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in the 15 * documentation and/or other materials provided with the distribution. 16 * 17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 18 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 19 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 20 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 21 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 22 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 23 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 24 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 25 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 26 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 */ 28 29 #include <sys/cdefs.h> 30 /* __FBSDID("$FreeBSD: releng/10.1/sys/ia64/disasm/disasm_extract.c 159916 2006-06-24 19:21:11Z marcel $"); */ 31 32 #include <sys/param.h> 33 #include <sys/systm.h> 34 35 #include <ia64/disasm/disasm_int.h> 36 #include <ia64/disasm/disasm.h> 37 38 #define FRAG(o,l) ((int)((o << 8) | (l & 0xff))) 39 #define FRAG_OFS(f) (f >> 8) 40 #define FRAG_LEN(f) (f & 0xff) 41 42 /* 43 * Support functions. 44 */ 45 static void 46 asm_cmpltr_add(struct asm_inst *i, enum asm_cmpltr_class c, 47 enum asm_cmpltr_type t) 48 { 49 50 i->i_cmpltr[i->i_ncmpltrs].c_class = c; 51 i->i_cmpltr[i->i_ncmpltrs].c_type = t; 52 i->i_ncmpltrs++; 53 KASSERT(i->i_ncmpltrs < 6); 54 } 55 56 static void 57 asm_hint(struct asm_inst *i, enum asm_cmpltr_class c) 58 { 59 60 switch (FIELD(i->i_bits, 28, 2)) { /* hint */ 61 case 0: 62 asm_cmpltr_add(i, c, ASM_CT_NONE); 63 break; 64 case 1: 65 asm_cmpltr_add(i, c, ASM_CT_NT1); 66 break; 67 case 2: 68 asm_cmpltr_add(i, c, ASM_CT_NT2); 69 break; 70 case 3: 71 asm_cmpltr_add(i, c, ASM_CT_NTA); 72 break; 73 } 74 } 75 76 static void 77 asm_sf(struct asm_inst *i) 78 { 79 80 switch (FIELD(i->i_bits, 34, 2)) { 81 case 0: 82 asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S0); 83 break; 84 case 1: 85 asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S1); 86 break; 87 case 2: 88 asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S2); 89 break; 90 case 3: 91 asm_cmpltr_add(i, ASM_CC_SF, ASM_CT_S3); 92 break; 93 } 94 } 95 96 static void 97 asm_brhint(struct asm_inst *i) 98 { 99 uint64_t bits = i->i_bits; 100 101 switch (FIELD(bits, 33, 2)) { /* bwh */ 102 case 0: 103 asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_SPTK); 104 break; 105 case 1: 106 asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_SPNT); 107 break; 108 case 2: 109 asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_DPTK); 110 break; 111 case 3: 112 asm_cmpltr_add(i, ASM_CC_BWH, ASM_CT_DPNT); 113 break; 114 } 115 116 if (FIELD(bits, 12, 1)) /* ph */ 117 asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_MANY); 118 else 119 asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_FEW); 120 121 if (FIELD(bits, 35, 1)) /* dh */ 122 asm_cmpltr_add(i, ASM_CC_DH, ASM_CT_CLR); 123 else 124 asm_cmpltr_add(i, ASM_CC_DH, ASM_CT_NONE); 125 } 126 127 static void 128 asm_brphint(struct asm_inst *i) 129 { 130 uint64_t bits = i->i_bits; 131 132 switch (FIELD(bits, 3, 2)) { /* ipwh, indwh */ 133 case 0: 134 asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_SPTK); 135 break; 136 case 1: 137 asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_LOOP); 138 break; 139 case 2: 140 asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_DPTK); 141 break; 142 case 3: 143 asm_cmpltr_add(i, ASM_CC_IPWH, ASM_CT_EXIT); 144 break; 145 } 146 147 if (FIELD(bits, 5, 1)) /* ph */ 148 asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_MANY); 149 else 150 asm_cmpltr_add(i, ASM_CC_PH, ASM_CT_FEW); 151 152 switch (FIELD(bits, 0, 3)) { /* pvec */ 153 case 0: 154 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_DC_DC); 155 break; 156 case 1: 157 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_DC_NT); 158 break; 159 case 2: 160 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_TK_DC); 161 break; 162 case 3: 163 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_TK_TK); 164 break; 165 case 4: 166 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_TK_NT); 167 break; 168 case 5: 169 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_NT_DC); 170 break; 171 case 6: 172 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_NT_TK); 173 break; 174 case 7: 175 asm_cmpltr_add(i, ASM_CC_PVEC, ASM_CT_NT_NT); 176 break; 177 } 178 179 if (FIELD(bits, 35, 1)) /* ih */ 180 asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_IMP); 181 else 182 asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_NONE); 183 } 184 185 static enum asm_oper_type 186 asm_normalize(struct asm_inst *i, enum asm_op op) 187 { 188 enum asm_oper_type ot = ASM_OPER_NONE; 189 190 switch (op) { 191 case ASM_OP_BR_CALL: 192 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CALL); 193 op = ASM_OP_BR; 194 break; 195 case ASM_OP_BR_CEXIT: 196 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CEXIT); 197 op = ASM_OP_BR; 198 break; 199 case ASM_OP_BR_CLOOP: 200 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CLOOP); 201 op = ASM_OP_BR; 202 break; 203 case ASM_OP_BR_COND: 204 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_COND); 205 op = ASM_OP_BR; 206 break; 207 case ASM_OP_BR_CTOP: 208 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CTOP); 209 op = ASM_OP_BR; 210 break; 211 case ASM_OP_BR_IA: 212 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_IA); 213 op = ASM_OP_BR; 214 break; 215 case ASM_OP_BR_RET: 216 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_RET); 217 op = ASM_OP_BR; 218 break; 219 case ASM_OP_BR_WEXIT: 220 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_WEXIT); 221 op = ASM_OP_BR; 222 break; 223 case ASM_OP_BR_WTOP: 224 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_WTOP); 225 op = ASM_OP_BR; 226 break; 227 case ASM_OP_BREAK_B: 228 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_B); 229 op = ASM_OP_BREAK; 230 break; 231 case ASM_OP_BREAK_F: 232 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_F); 233 op = ASM_OP_BREAK; 234 break; 235 case ASM_OP_BREAK_I: 236 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); 237 op = ASM_OP_BREAK; 238 break; 239 case ASM_OP_BREAK_M: 240 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); 241 op = ASM_OP_BREAK; 242 break; 243 case ASM_OP_BREAK_X: 244 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_X); 245 op = ASM_OP_BREAK; 246 break; 247 case ASM_OP_BRL_COND: 248 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_COND); 249 op = ASM_OP_BRL; 250 break; 251 case ASM_OP_BRL_CALL: 252 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_CALL); 253 op = ASM_OP_BRL; 254 break; 255 case ASM_OP_BRP_: 256 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_NONE); 257 op = ASM_OP_BRP; 258 break; 259 case ASM_OP_BRP_RET: 260 asm_cmpltr_add(i, ASM_CC_BTYPE, ASM_CT_RET); 261 op = ASM_OP_BRP; 262 break; 263 case ASM_OP_BSW_0: 264 asm_cmpltr_add(i, ASM_CC_BSW, ASM_CT_0); 265 op = ASM_OP_BSW; 266 break; 267 case ASM_OP_BSW_1: 268 asm_cmpltr_add(i, ASM_CC_BSW, ASM_CT_1); 269 op = ASM_OP_BSW; 270 break; 271 case ASM_OP_CHK_A_CLR: 272 asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_A); 273 asm_cmpltr_add(i, ASM_CC_ACLR, ASM_CT_CLR); 274 op = ASM_OP_CHK; 275 break; 276 case ASM_OP_CHK_A_NC: 277 asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_A); 278 asm_cmpltr_add(i, ASM_CC_ACLR, ASM_CT_NC); 279 op = ASM_OP_CHK; 280 break; 281 case ASM_OP_CHK_S: 282 asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_S); 283 op = ASM_OP_CHK; 284 break; 285 case ASM_OP_CHK_S_I: 286 asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_S); 287 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); 288 op = ASM_OP_CHK; 289 break; 290 case ASM_OP_CHK_S_M: 291 asm_cmpltr_add(i, ASM_CC_CHK, ASM_CT_S); 292 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); 293 op = ASM_OP_CHK; 294 break; 295 case ASM_OP_CLRRRB_: 296 asm_cmpltr_add(i, ASM_CC_CLRRRB, ASM_CT_NONE); 297 op = ASM_OP_CLRRRB; 298 break; 299 case ASM_OP_CLRRRB_PR: 300 asm_cmpltr_add(i, ASM_CC_CLRRRB, ASM_CT_PR); 301 op = ASM_OP_CLRRRB; 302 break; 303 case ASM_OP_CMP_EQ: 304 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 305 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 306 op = ASM_OP_CMP; 307 break; 308 case ASM_OP_CMP_EQ_AND: 309 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 310 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 311 op = ASM_OP_CMP; 312 break; 313 case ASM_OP_CMP_EQ_OR: 314 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 315 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 316 op = ASM_OP_CMP; 317 break; 318 case ASM_OP_CMP_EQ_OR_ANDCM: 319 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 320 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 321 op = ASM_OP_CMP; 322 break; 323 case ASM_OP_CMP_EQ_UNC: 324 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 325 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 326 op = ASM_OP_CMP; 327 break; 328 case ASM_OP_CMP_GE_AND: 329 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); 330 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 331 op = ASM_OP_CMP; 332 break; 333 case ASM_OP_CMP_GE_OR: 334 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); 335 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 336 op = ASM_OP_CMP; 337 break; 338 case ASM_OP_CMP_GE_OR_ANDCM: 339 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); 340 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 341 op = ASM_OP_CMP; 342 break; 343 case ASM_OP_CMP_GT_AND: 344 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); 345 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 346 op = ASM_OP_CMP; 347 break; 348 case ASM_OP_CMP_GT_OR: 349 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); 350 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 351 op = ASM_OP_CMP; 352 break; 353 case ASM_OP_CMP_GT_OR_ANDCM: 354 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); 355 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 356 op = ASM_OP_CMP; 357 break; 358 case ASM_OP_CMP_LE_AND: 359 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); 360 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 361 op = ASM_OP_CMP; 362 break; 363 case ASM_OP_CMP_LE_OR: 364 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); 365 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 366 op = ASM_OP_CMP; 367 break; 368 case ASM_OP_CMP_LE_OR_ANDCM: 369 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); 370 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 371 op = ASM_OP_CMP; 372 break; 373 case ASM_OP_CMP_LT: 374 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 375 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 376 op = ASM_OP_CMP; 377 break; 378 case ASM_OP_CMP_LT_AND: 379 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 380 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 381 op = ASM_OP_CMP; 382 break; 383 case ASM_OP_CMP_LT_OR: 384 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 385 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 386 op = ASM_OP_CMP; 387 break; 388 case ASM_OP_CMP_LT_OR_ANDCM: 389 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 390 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 391 op = ASM_OP_CMP; 392 break; 393 case ASM_OP_CMP_LT_UNC: 394 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 395 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 396 op = ASM_OP_CMP; 397 break; 398 case ASM_OP_CMP_LTU: 399 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); 400 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 401 op = ASM_OP_CMP; 402 break; 403 case ASM_OP_CMP_LTU_UNC: 404 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); 405 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 406 op = ASM_OP_CMP; 407 break; 408 case ASM_OP_CMP_NE_AND: 409 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); 410 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 411 op = ASM_OP_CMP; 412 break; 413 case ASM_OP_CMP_NE_OR: 414 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); 415 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 416 op = ASM_OP_CMP; 417 break; 418 case ASM_OP_CMP_NE_OR_ANDCM: 419 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); 420 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 421 op = ASM_OP_CMP; 422 break; 423 case ASM_OP_CMP4_EQ: 424 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 425 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 426 op = ASM_OP_CMP4; 427 break; 428 case ASM_OP_CMP4_EQ_AND: 429 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 430 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 431 op = ASM_OP_CMP4; 432 break; 433 case ASM_OP_CMP4_EQ_OR: 434 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 435 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 436 op = ASM_OP_CMP4; 437 break; 438 case ASM_OP_CMP4_EQ_OR_ANDCM: 439 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 440 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 441 op = ASM_OP_CMP4; 442 break; 443 case ASM_OP_CMP4_EQ_UNC: 444 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_EQ); 445 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 446 op = ASM_OP_CMP4; 447 break; 448 case ASM_OP_CMP4_GE_AND: 449 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); 450 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 451 op = ASM_OP_CMP4; 452 break; 453 case ASM_OP_CMP4_GE_OR: 454 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); 455 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 456 op = ASM_OP_CMP4; 457 break; 458 case ASM_OP_CMP4_GE_OR_ANDCM: 459 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GE); 460 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 461 op = ASM_OP_CMP4; 462 break; 463 case ASM_OP_CMP4_GT_AND: 464 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); 465 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 466 op = ASM_OP_CMP4; 467 break; 468 case ASM_OP_CMP4_GT_OR: 469 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); 470 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 471 op = ASM_OP_CMP4; 472 break; 473 case ASM_OP_CMP4_GT_OR_ANDCM: 474 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_GT); 475 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 476 op = ASM_OP_CMP4; 477 break; 478 case ASM_OP_CMP4_LE_AND: 479 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); 480 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 481 op = ASM_OP_CMP4; 482 break; 483 case ASM_OP_CMP4_LE_OR: 484 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); 485 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 486 op = ASM_OP_CMP4; 487 break; 488 case ASM_OP_CMP4_LE_OR_ANDCM: 489 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LE); 490 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 491 op = ASM_OP_CMP4; 492 break; 493 case ASM_OP_CMP4_LT: 494 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 495 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 496 op = ASM_OP_CMP4; 497 break; 498 case ASM_OP_CMP4_LT_AND: 499 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 500 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 501 op = ASM_OP_CMP4; 502 break; 503 case ASM_OP_CMP4_LT_OR: 504 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 505 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 506 op = ASM_OP_CMP4; 507 break; 508 case ASM_OP_CMP4_LT_OR_ANDCM: 509 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 510 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 511 op = ASM_OP_CMP4; 512 break; 513 case ASM_OP_CMP4_LT_UNC: 514 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LT); 515 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 516 op = ASM_OP_CMP4; 517 break; 518 case ASM_OP_CMP4_LTU: 519 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); 520 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 521 op = ASM_OP_CMP4; 522 break; 523 case ASM_OP_CMP4_LTU_UNC: 524 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_LTU); 525 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 526 op = ASM_OP_CMP4; 527 break; 528 case ASM_OP_CMP4_NE_AND: 529 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); 530 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 531 op = ASM_OP_CMP4; 532 break; 533 case ASM_OP_CMP4_NE_OR: 534 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); 535 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 536 op = ASM_OP_CMP4; 537 break; 538 case ASM_OP_CMP4_NE_OR_ANDCM: 539 asm_cmpltr_add(i, ASM_CC_CREL, ASM_CT_NE); 540 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 541 op = ASM_OP_CMP4; 542 break; 543 case ASM_OP_CMP8XCHG16_ACQ: 544 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 545 op = ASM_OP_CMP8XCHG16; 546 break; 547 case ASM_OP_CMP8XCHG16_REL: 548 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 549 op = ASM_OP_CMP8XCHG16; 550 break; 551 case ASM_OP_CMPXCHG1_ACQ: 552 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 553 op = ASM_OP_CMPXCHG1; 554 break; 555 case ASM_OP_CMPXCHG1_REL: 556 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 557 op = ASM_OP_CMPXCHG1; 558 break; 559 case ASM_OP_CMPXCHG2_ACQ: 560 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 561 op = ASM_OP_CMPXCHG2; 562 break; 563 case ASM_OP_CMPXCHG2_REL: 564 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 565 op = ASM_OP_CMPXCHG2; 566 break; 567 case ASM_OP_CMPXCHG4_ACQ: 568 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 569 op = ASM_OP_CMPXCHG4; 570 break; 571 case ASM_OP_CMPXCHG4_REL: 572 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 573 op = ASM_OP_CMPXCHG4; 574 break; 575 case ASM_OP_CMPXCHG8_ACQ: 576 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 577 op = ASM_OP_CMPXCHG8; 578 break; 579 case ASM_OP_CMPXCHG8_REL: 580 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 581 op = ASM_OP_CMPXCHG8; 582 break; 583 case ASM_OP_CZX1_L: 584 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 585 op = ASM_OP_CZX1; 586 break; 587 case ASM_OP_CZX1_R: 588 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 589 op = ASM_OP_CZX1; 590 break; 591 case ASM_OP_CZX2_L: 592 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 593 op = ASM_OP_CZX2; 594 break; 595 case ASM_OP_CZX2_R: 596 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 597 op = ASM_OP_CZX2; 598 break; 599 case ASM_OP_DEP_: 600 asm_cmpltr_add(i, ASM_CC_DEP, ASM_CT_NONE); 601 op = ASM_OP_DEP; 602 break; 603 case ASM_OP_DEP_Z: 604 asm_cmpltr_add(i, ASM_CC_DEP, ASM_CT_Z); 605 op = ASM_OP_DEP; 606 break; 607 case ASM_OP_FC_: 608 asm_cmpltr_add(i, ASM_CC_FC, ASM_CT_NONE); 609 op = ASM_OP_FC; 610 break; 611 case ASM_OP_FC_I: 612 asm_cmpltr_add(i, ASM_CC_FC, ASM_CT_I); 613 op = ASM_OP_FC; 614 break; 615 case ASM_OP_FCLASS_M: 616 asm_cmpltr_add(i, ASM_CC_FCREL, ASM_CT_M); 617 op = ASM_OP_FCLASS; 618 break; 619 case ASM_OP_FCVT_FX: 620 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); 621 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); 622 op = ASM_OP_FCVT; 623 break; 624 case ASM_OP_FCVT_FX_TRUNC: 625 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); 626 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); 627 op = ASM_OP_FCVT; 628 break; 629 case ASM_OP_FCVT_FXU: 630 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); 631 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); 632 op = ASM_OP_FCVT; 633 break; 634 case ASM_OP_FCVT_FXU_TRUNC: 635 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); 636 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); 637 op = ASM_OP_FCVT; 638 break; 639 case ASM_OP_FCVT_XF: 640 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_XF); 641 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); 642 op = ASM_OP_FCVT; 643 break; 644 case ASM_OP_FETCHADD4_ACQ: 645 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 646 op = ASM_OP_FETCHADD4; 647 break; 648 case ASM_OP_FETCHADD4_REL: 649 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 650 op = ASM_OP_FETCHADD4; 651 break; 652 case ASM_OP_FETCHADD8_ACQ: 653 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_ACQ); 654 op = ASM_OP_FETCHADD8; 655 break; 656 case ASM_OP_FETCHADD8_REL: 657 asm_cmpltr_add(i, ASM_CC_SEM, ASM_CT_REL); 658 op = ASM_OP_FETCHADD8; 659 break; 660 case ASM_OP_FMA_: 661 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_NONE); 662 op = ASM_OP_FMA; 663 break; 664 case ASM_OP_FMA_D: 665 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_D); 666 op = ASM_OP_FMA; 667 break; 668 case ASM_OP_FMA_S: 669 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_S); 670 op = ASM_OP_FMA; 671 break; 672 case ASM_OP_FMERGE_NS: 673 asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_NS); 674 op = ASM_OP_FMERGE; 675 break; 676 case ASM_OP_FMERGE_S: 677 asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_S); 678 op = ASM_OP_FMERGE; 679 break; 680 case ASM_OP_FMERGE_SE: 681 asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_SE); 682 op = ASM_OP_FMERGE; 683 break; 684 case ASM_OP_FMIX_L: 685 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 686 op = ASM_OP_FMIX; 687 break; 688 case ASM_OP_FMIX_LR: 689 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_LR); 690 op = ASM_OP_FMIX; 691 break; 692 case ASM_OP_FMIX_R: 693 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 694 op = ASM_OP_FMIX; 695 break; 696 case ASM_OP_FMS_: 697 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_NONE); 698 op = ASM_OP_FMS; 699 break; 700 case ASM_OP_FMS_D: 701 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_D); 702 op = ASM_OP_FMS; 703 break; 704 case ASM_OP_FMS_S: 705 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_S); 706 op = ASM_OP_FMS; 707 break; 708 case ASM_OP_FNMA_: 709 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_NONE); 710 op = ASM_OP_FNMA; 711 break; 712 case ASM_OP_FNMA_D: 713 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_D); 714 op = ASM_OP_FNMA; 715 break; 716 case ASM_OP_FNMA_S: 717 asm_cmpltr_add(i, ASM_CC_PC, ASM_CT_S); 718 op = ASM_OP_FNMA; 719 break; 720 case ASM_OP_FPCMP_EQ: 721 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_EQ); 722 op = ASM_OP_FPCMP; 723 break; 724 case ASM_OP_FPCMP_LE: 725 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LE); 726 op = ASM_OP_FPCMP; 727 break; 728 case ASM_OP_FPCMP_LT: 729 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LT); 730 op = ASM_OP_FPCMP; 731 break; 732 case ASM_OP_FPCMP_NEQ: 733 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_NEQ); 734 op = ASM_OP_FPCMP; 735 break; 736 case ASM_OP_FPCMP_NLE: 737 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_NLE); 738 op = ASM_OP_FPCMP; 739 break; 740 case ASM_OP_FPCMP_NLT: 741 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_NLT); 742 op = ASM_OP_FPCMP; 743 break; 744 case ASM_OP_FPCMP_ORD: 745 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_ORD); 746 op = ASM_OP_FPCMP; 747 break; 748 case ASM_OP_FPCMP_UNORD: 749 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_UNORD); 750 op = ASM_OP_FPCMP; 751 break; 752 case ASM_OP_FPCVT_FX: 753 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); 754 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); 755 op = ASM_OP_FPCVT; 756 break; 757 case ASM_OP_FPCVT_FX_TRUNC: 758 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FX); 759 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); 760 op = ASM_OP_FPCVT; 761 break; 762 case ASM_OP_FPCVT_FXU: 763 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); 764 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_NONE); 765 op = ASM_OP_FPCVT; 766 break; 767 case ASM_OP_FPCVT_FXU_TRUNC: 768 asm_cmpltr_add(i, ASM_CC_FCVT, ASM_CT_FXU); 769 asm_cmpltr_add(i, ASM_CC_TRUNC, ASM_CT_TRUNC); 770 op = ASM_OP_FPCVT; 771 break; 772 case ASM_OP_FPMERGE_NS: 773 asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_NS); 774 op = ASM_OP_FPMERGE; 775 break; 776 case ASM_OP_FPMERGE_S: 777 asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_S); 778 op = ASM_OP_FPMERGE; 779 break; 780 case ASM_OP_FPMERGE_SE: 781 asm_cmpltr_add(i, ASM_CC_FMERGE, ASM_CT_SE); 782 op = ASM_OP_FPMERGE; 783 break; 784 case ASM_OP_FSWAP_: 785 asm_cmpltr_add(i, ASM_CC_FSWAP, ASM_CT_NONE); 786 op = ASM_OP_FSWAP; 787 break; 788 case ASM_OP_FSWAP_NL: 789 asm_cmpltr_add(i, ASM_CC_FSWAP, ASM_CT_NL); 790 op = ASM_OP_FSWAP; 791 break; 792 case ASM_OP_FSWAP_NR: 793 asm_cmpltr_add(i, ASM_CC_FSWAP, ASM_CT_NR); 794 op = ASM_OP_FSWAP; 795 break; 796 case ASM_OP_FSXT_L: 797 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 798 op = ASM_OP_FSXT; 799 break; 800 case ASM_OP_FSXT_R: 801 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 802 op = ASM_OP_FSXT; 803 break; 804 case ASM_OP_GETF_D: 805 asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_D); 806 op = ASM_OP_GETF; 807 break; 808 case ASM_OP_GETF_EXP: 809 asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_EXP); 810 op = ASM_OP_GETF; 811 break; 812 case ASM_OP_GETF_S: 813 asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_S); 814 op = ASM_OP_GETF; 815 break; 816 case ASM_OP_GETF_SIG: 817 asm_cmpltr_add(i, ASM_CC_GETF, ASM_CT_SIG); 818 op = ASM_OP_GETF; 819 break; 820 case ASM_OP_HINT_B: 821 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_B); 822 op = ASM_OP_HINT; 823 break; 824 case ASM_OP_HINT_F: 825 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_F); 826 op = ASM_OP_HINT; 827 break; 828 case ASM_OP_HINT_I: 829 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); 830 op = ASM_OP_HINT; 831 break; 832 case ASM_OP_HINT_M: 833 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); 834 op = ASM_OP_HINT; 835 break; 836 case ASM_OP_HINT_X: 837 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_X); 838 op = ASM_OP_HINT; 839 break; 840 case ASM_OP_INVALA_: 841 asm_cmpltr_add(i, ASM_CC_INVALA, ASM_CT_NONE); 842 op = ASM_OP_INVALA; 843 break; 844 case ASM_OP_INVALA_E: 845 asm_cmpltr_add(i, ASM_CC_INVALA, ASM_CT_E); 846 op = ASM_OP_INVALA; 847 break; 848 case ASM_OP_ITC_D: 849 asm_cmpltr_add(i, ASM_CC_ITC, ASM_CT_D); 850 op = ASM_OP_ITC; 851 break; 852 case ASM_OP_ITC_I: 853 asm_cmpltr_add(i, ASM_CC_ITC, ASM_CT_I); 854 op = ASM_OP_ITC; 855 break; 856 case ASM_OP_ITR_D: 857 asm_cmpltr_add(i, ASM_CC_ITR, ASM_CT_D); 858 ot = ASM_OPER_DTR; 859 op = ASM_OP_ITR; 860 break; 861 case ASM_OP_ITR_I: 862 asm_cmpltr_add(i, ASM_CC_ITR, ASM_CT_I); 863 ot = ASM_OPER_ITR; 864 op = ASM_OP_ITR; 865 break; 866 case ASM_OP_LD1_: 867 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); 868 op = ASM_OP_LD1; 869 break; 870 case ASM_OP_LD1_A: 871 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); 872 op = ASM_OP_LD1; 873 break; 874 case ASM_OP_LD1_ACQ: 875 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); 876 op = ASM_OP_LD1; 877 break; 878 case ASM_OP_LD1_BIAS: 879 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); 880 op = ASM_OP_LD1; 881 break; 882 case ASM_OP_LD1_C_CLR: 883 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); 884 op = ASM_OP_LD1; 885 break; 886 case ASM_OP_LD1_C_CLR_ACQ: 887 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); 888 op = ASM_OP_LD1; 889 break; 890 case ASM_OP_LD1_C_NC: 891 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); 892 op = ASM_OP_LD1; 893 break; 894 case ASM_OP_LD1_S: 895 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); 896 op = ASM_OP_LD1; 897 break; 898 case ASM_OP_LD1_SA: 899 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); 900 op = ASM_OP_LD1; 901 break; 902 case ASM_OP_LD16_: 903 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); 904 op = ASM_OP_LD16; 905 break; 906 case ASM_OP_LD16_ACQ: 907 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); 908 op = ASM_OP_LD16; 909 break; 910 case ASM_OP_LD2_: 911 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); 912 op = ASM_OP_LD2; 913 break; 914 case ASM_OP_LD2_A: 915 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); 916 op = ASM_OP_LD2; 917 break; 918 case ASM_OP_LD2_ACQ: 919 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); 920 op = ASM_OP_LD2; 921 break; 922 case ASM_OP_LD2_BIAS: 923 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); 924 op = ASM_OP_LD2; 925 break; 926 case ASM_OP_LD2_C_CLR: 927 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); 928 op = ASM_OP_LD2; 929 break; 930 case ASM_OP_LD2_C_CLR_ACQ: 931 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); 932 op = ASM_OP_LD2; 933 break; 934 case ASM_OP_LD2_C_NC: 935 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); 936 op = ASM_OP_LD2; 937 break; 938 case ASM_OP_LD2_S: 939 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); 940 op = ASM_OP_LD2; 941 break; 942 case ASM_OP_LD2_SA: 943 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); 944 op = ASM_OP_LD2; 945 break; 946 case ASM_OP_LD4_: 947 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); 948 op = ASM_OP_LD4; 949 break; 950 case ASM_OP_LD4_A: 951 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); 952 op = ASM_OP_LD4; 953 break; 954 case ASM_OP_LD4_ACQ: 955 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); 956 op = ASM_OP_LD4; 957 break; 958 case ASM_OP_LD4_BIAS: 959 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); 960 op = ASM_OP_LD4; 961 break; 962 case ASM_OP_LD4_C_CLR: 963 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); 964 op = ASM_OP_LD4; 965 break; 966 case ASM_OP_LD4_C_CLR_ACQ: 967 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); 968 op = ASM_OP_LD4; 969 break; 970 case ASM_OP_LD4_C_NC: 971 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); 972 op = ASM_OP_LD4; 973 break; 974 case ASM_OP_LD4_S: 975 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); 976 op = ASM_OP_LD4; 977 break; 978 case ASM_OP_LD4_SA: 979 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); 980 op = ASM_OP_LD4; 981 break; 982 case ASM_OP_LD8_: 983 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_NONE); 984 op = ASM_OP_LD8; 985 break; 986 case ASM_OP_LD8_A: 987 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_A); 988 op = ASM_OP_LD8; 989 break; 990 case ASM_OP_LD8_ACQ: 991 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_ACQ); 992 op = ASM_OP_LD8; 993 break; 994 case ASM_OP_LD8_BIAS: 995 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_BIAS); 996 op = ASM_OP_LD8; 997 break; 998 case ASM_OP_LD8_C_CLR: 999 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR); 1000 op = ASM_OP_LD8; 1001 break; 1002 case ASM_OP_LD8_C_CLR_ACQ: 1003 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_CLR_ACQ); 1004 op = ASM_OP_LD8; 1005 break; 1006 case ASM_OP_LD8_C_NC: 1007 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_C_NC); 1008 op = ASM_OP_LD8; 1009 break; 1010 case ASM_OP_LD8_FILL: 1011 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_FILL); 1012 op = ASM_OP_LD8; 1013 break; 1014 case ASM_OP_LD8_S: 1015 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_S); 1016 op = ASM_OP_LD8; 1017 break; 1018 case ASM_OP_LD8_SA: 1019 asm_cmpltr_add(i, ASM_CC_LDTYPE, ASM_CT_SA); 1020 op = ASM_OP_LD8; 1021 break; 1022 case ASM_OP_LDF_FILL: 1023 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_FILL); 1024 op = ASM_OP_LDF; 1025 break; 1026 case ASM_OP_LDF8_: 1027 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1028 op = ASM_OP_LDF8; 1029 break; 1030 case ASM_OP_LDF8_A: 1031 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1032 op = ASM_OP_LDF8; 1033 break; 1034 case ASM_OP_LDF8_C_CLR: 1035 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1036 op = ASM_OP_LDF8; 1037 break; 1038 case ASM_OP_LDF8_C_NC: 1039 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1040 op = ASM_OP_LDF8; 1041 break; 1042 case ASM_OP_LDF8_S: 1043 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1044 op = ASM_OP_LDF8; 1045 break; 1046 case ASM_OP_LDF8_SA: 1047 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1048 op = ASM_OP_LDF8; 1049 break; 1050 case ASM_OP_LDFD_: 1051 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1052 op = ASM_OP_LDFD; 1053 break; 1054 case ASM_OP_LDFD_A: 1055 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1056 op = ASM_OP_LDFD; 1057 break; 1058 case ASM_OP_LDFD_C_CLR: 1059 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1060 op = ASM_OP_LDFD; 1061 break; 1062 case ASM_OP_LDFD_C_NC: 1063 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1064 op = ASM_OP_LDFD; 1065 break; 1066 case ASM_OP_LDFD_S: 1067 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1068 op = ASM_OP_LDFD; 1069 break; 1070 case ASM_OP_LDFD_SA: 1071 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1072 op = ASM_OP_LDFD; 1073 break; 1074 case ASM_OP_LDFE_: 1075 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1076 op = ASM_OP_LDFE; 1077 break; 1078 case ASM_OP_LDFE_A: 1079 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1080 op = ASM_OP_LDFE; 1081 break; 1082 case ASM_OP_LDFE_C_CLR: 1083 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1084 op = ASM_OP_LDFE; 1085 break; 1086 case ASM_OP_LDFE_C_NC: 1087 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1088 op = ASM_OP_LDFE; 1089 break; 1090 case ASM_OP_LDFE_S: 1091 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1092 op = ASM_OP_LDFE; 1093 break; 1094 case ASM_OP_LDFE_SA: 1095 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1096 op = ASM_OP_LDFE; 1097 break; 1098 case ASM_OP_LDFP8_: 1099 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1100 op = ASM_OP_LDFP8; 1101 break; 1102 case ASM_OP_LDFP8_A: 1103 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1104 op = ASM_OP_LDFP8; 1105 break; 1106 case ASM_OP_LDFP8_C_CLR: 1107 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1108 op = ASM_OP_LDFP8; 1109 break; 1110 case ASM_OP_LDFP8_C_NC: 1111 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1112 op = ASM_OP_LDFP8; 1113 break; 1114 case ASM_OP_LDFP8_S: 1115 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1116 op = ASM_OP_LDFP8; 1117 break; 1118 case ASM_OP_LDFP8_SA: 1119 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1120 op = ASM_OP_LDFP8; 1121 break; 1122 case ASM_OP_LDFPD_: 1123 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1124 op = ASM_OP_LDFPD; 1125 break; 1126 case ASM_OP_LDFPD_A: 1127 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1128 op = ASM_OP_LDFPD; 1129 break; 1130 case ASM_OP_LDFPD_C_CLR: 1131 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1132 op = ASM_OP_LDFPD; 1133 break; 1134 case ASM_OP_LDFPD_C_NC: 1135 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1136 op = ASM_OP_LDFPD; 1137 break; 1138 case ASM_OP_LDFPD_S: 1139 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1140 op = ASM_OP_LDFPD; 1141 break; 1142 case ASM_OP_LDFPD_SA: 1143 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1144 op = ASM_OP_LDFPD; 1145 break; 1146 case ASM_OP_LDFPS_: 1147 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1148 op = ASM_OP_LDFPS; 1149 break; 1150 case ASM_OP_LDFPS_A: 1151 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1152 op = ASM_OP_LDFPS; 1153 break; 1154 case ASM_OP_LDFPS_C_CLR: 1155 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1156 op = ASM_OP_LDFPS; 1157 break; 1158 case ASM_OP_LDFPS_C_NC: 1159 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1160 op = ASM_OP_LDFPS; 1161 break; 1162 case ASM_OP_LDFPS_S: 1163 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1164 op = ASM_OP_LDFPS; 1165 break; 1166 case ASM_OP_LDFPS_SA: 1167 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1168 op = ASM_OP_LDFPS; 1169 break; 1170 case ASM_OP_LDFS_: 1171 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_NONE); 1172 op = ASM_OP_LDFS; 1173 break; 1174 case ASM_OP_LDFS_A: 1175 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_A); 1176 op = ASM_OP_LDFS; 1177 break; 1178 case ASM_OP_LDFS_C_CLR: 1179 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_CLR); 1180 op = ASM_OP_LDFS; 1181 break; 1182 case ASM_OP_LDFS_C_NC: 1183 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_C_NC); 1184 op = ASM_OP_LDFS; 1185 break; 1186 case ASM_OP_LDFS_S: 1187 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_S); 1188 op = ASM_OP_LDFS; 1189 break; 1190 case ASM_OP_LDFS_SA: 1191 asm_cmpltr_add(i, ASM_CC_FLDTYPE, ASM_CT_SA); 1192 op = ASM_OP_LDFS; 1193 break; 1194 case ASM_OP_LFETCH_: 1195 asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_NONE); 1196 asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_NONE); 1197 op = ASM_OP_LFETCH; 1198 break; 1199 case ASM_OP_LFETCH_EXCL: 1200 asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_NONE); 1201 asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_EXCL); 1202 op = ASM_OP_LFETCH; 1203 break; 1204 case ASM_OP_LFETCH_FAULT: 1205 asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_FAULT); 1206 asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_NONE); 1207 op = ASM_OP_LFETCH; 1208 break; 1209 case ASM_OP_LFETCH_FAULT_EXCL: 1210 asm_cmpltr_add(i, ASM_CC_LFTYPE, ASM_CT_FAULT); 1211 asm_cmpltr_add(i, ASM_CC_LFETCH, ASM_CT_EXCL); 1212 op = ASM_OP_LFETCH; 1213 break; 1214 case ASM_OP_MF_: 1215 asm_cmpltr_add(i, ASM_CC_MF, ASM_CT_NONE); 1216 op = ASM_OP_MF; 1217 break; 1218 case ASM_OP_MF_A: 1219 asm_cmpltr_add(i, ASM_CC_MF, ASM_CT_A); 1220 op = ASM_OP_MF; 1221 break; 1222 case ASM_OP_MIX1_L: 1223 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 1224 op = ASM_OP_MIX1; 1225 break; 1226 case ASM_OP_MIX1_R: 1227 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 1228 op = ASM_OP_MIX1; 1229 break; 1230 case ASM_OP_MIX2_L: 1231 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 1232 op = ASM_OP_MIX2; 1233 break; 1234 case ASM_OP_MIX2_R: 1235 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 1236 op = ASM_OP_MIX2; 1237 break; 1238 case ASM_OP_MIX4_L: 1239 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 1240 op = ASM_OP_MIX4; 1241 break; 1242 case ASM_OP_MIX4_R: 1243 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 1244 op = ASM_OP_MIX4; 1245 break; 1246 case ASM_OP_MOV_: 1247 asm_cmpltr_add(i, ASM_CC_MOV, ASM_CT_NONE); 1248 op = ASM_OP_MOV; 1249 break; 1250 case ASM_OP_MOV_I: 1251 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); 1252 op = ASM_OP_MOV; 1253 break; 1254 case ASM_OP_MOV_M: 1255 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); 1256 op = ASM_OP_MOV; 1257 break; 1258 case ASM_OP_MOV_RET: 1259 asm_cmpltr_add(i, ASM_CC_MOV, ASM_CT_RET); 1260 op = ASM_OP_MOV; 1261 break; 1262 case ASM_OP_MOV_CPUID: 1263 ot = ASM_OPER_CPUID; 1264 op = ASM_OP_MOV; 1265 break; 1266 case ASM_OP_MOV_DBR: 1267 ot = ASM_OPER_DBR; 1268 op = ASM_OP_MOV; 1269 break; 1270 case ASM_OP_MOV_IBR: 1271 ot = ASM_OPER_IBR; 1272 op = ASM_OP_MOV; 1273 break; 1274 case ASM_OP_MOV_IP: 1275 ot = ASM_OPER_IP; 1276 op = ASM_OP_MOV; 1277 break; 1278 case ASM_OP_MOV_MSR: 1279 ot = ASM_OPER_MSR; 1280 op = ASM_OP_MOV; 1281 break; 1282 case ASM_OP_MOV_PKR: 1283 ot = ASM_OPER_PKR; 1284 op = ASM_OP_MOV; 1285 break; 1286 case ASM_OP_MOV_PMC: 1287 ot = ASM_OPER_PMC; 1288 op = ASM_OP_MOV; 1289 break; 1290 case ASM_OP_MOV_PMD: 1291 ot = ASM_OPER_PMD; 1292 op = ASM_OP_MOV; 1293 break; 1294 case ASM_OP_MOV_PR: 1295 ot = ASM_OPER_PR; 1296 op = ASM_OP_MOV; 1297 break; 1298 case ASM_OP_MOV_PSR: 1299 ot = ASM_OPER_PSR; 1300 op = ASM_OP_MOV; 1301 break; 1302 case ASM_OP_MOV_PSR_L: 1303 ot = ASM_OPER_PSR_L; 1304 op = ASM_OP_MOV; 1305 break; 1306 case ASM_OP_MOV_PSR_UM: 1307 ot = ASM_OPER_PSR_UM; 1308 op = ASM_OP_MOV; 1309 break; 1310 case ASM_OP_MOV_RR: 1311 ot = ASM_OPER_RR; 1312 op = ASM_OP_MOV; 1313 break; 1314 case ASM_OP_NOP_B: 1315 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_B); 1316 op = ASM_OP_NOP; 1317 break; 1318 case ASM_OP_NOP_F: 1319 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_F); 1320 op = ASM_OP_NOP; 1321 break; 1322 case ASM_OP_NOP_I: 1323 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_I); 1324 op = ASM_OP_NOP; 1325 break; 1326 case ASM_OP_NOP_M: 1327 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_M); 1328 op = ASM_OP_NOP; 1329 break; 1330 case ASM_OP_NOP_X: 1331 asm_cmpltr_add(i, ASM_CC_UNIT, ASM_CT_X); 1332 op = ASM_OP_NOP; 1333 break; 1334 case ASM_OP_PACK2_SSS: 1335 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); 1336 op = ASM_OP_PACK2; 1337 break; 1338 case ASM_OP_PACK2_USS: 1339 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_USS); 1340 op = ASM_OP_PACK2; 1341 break; 1342 case ASM_OP_PACK4_SSS: 1343 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); 1344 op = ASM_OP_PACK4; 1345 break; 1346 case ASM_OP_PADD1_: 1347 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); 1348 op = ASM_OP_PADD1; 1349 break; 1350 case ASM_OP_PADD1_SSS: 1351 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); 1352 op = ASM_OP_PADD1; 1353 break; 1354 case ASM_OP_PADD1_UUS: 1355 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); 1356 op = ASM_OP_PADD1; 1357 break; 1358 case ASM_OP_PADD1_UUU: 1359 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); 1360 op = ASM_OP_PADD1; 1361 break; 1362 case ASM_OP_PADD2_: 1363 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); 1364 op = ASM_OP_PADD2; 1365 break; 1366 case ASM_OP_PADD2_SSS: 1367 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); 1368 op = ASM_OP_PADD2; 1369 break; 1370 case ASM_OP_PADD2_UUS: 1371 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); 1372 op = ASM_OP_PADD2; 1373 break; 1374 case ASM_OP_PADD2_UUU: 1375 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); 1376 op = ASM_OP_PADD2; 1377 break; 1378 case ASM_OP_PAVG1_: 1379 asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_NONE); 1380 op = ASM_OP_PAVG1; 1381 break; 1382 case ASM_OP_PAVG1_RAZ: 1383 asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_RAZ); 1384 op = ASM_OP_PAVG1; 1385 break; 1386 case ASM_OP_PAVG2_: 1387 asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_NONE); 1388 op = ASM_OP_PAVG2; 1389 break; 1390 case ASM_OP_PAVG2_RAZ: 1391 asm_cmpltr_add(i, ASM_CC_PAVG, ASM_CT_RAZ); 1392 op = ASM_OP_PAVG2; 1393 break; 1394 case ASM_OP_PCMP1_EQ: 1395 asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_EQ); 1396 op = ASM_OP_PCMP1; 1397 break; 1398 case ASM_OP_PCMP1_GT: 1399 asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_GT); 1400 op = ASM_OP_PCMP1; 1401 break; 1402 case ASM_OP_PCMP2_EQ: 1403 asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_EQ); 1404 op = ASM_OP_PCMP2; 1405 break; 1406 case ASM_OP_PCMP2_GT: 1407 asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_GT); 1408 op = ASM_OP_PCMP2; 1409 break; 1410 case ASM_OP_PCMP4_EQ: 1411 asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_EQ); 1412 op = ASM_OP_PCMP4; 1413 break; 1414 case ASM_OP_PCMP4_GT: 1415 asm_cmpltr_add(i, ASM_CC_PREL, ASM_CT_GT); 1416 op = ASM_OP_PCMP4; 1417 break; 1418 case ASM_OP_PMAX1_U: 1419 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); 1420 op = ASM_OP_PMAX1; 1421 break; 1422 case ASM_OP_PMIN1_U: 1423 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); 1424 op = ASM_OP_PMIN1; 1425 break; 1426 case ASM_OP_PMPY2_L: 1427 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_L); 1428 op = ASM_OP_PMPY2; 1429 break; 1430 case ASM_OP_PMPY2_R: 1431 asm_cmpltr_add(i, ASM_CC_LR, ASM_CT_R); 1432 op = ASM_OP_PMPY2; 1433 break; 1434 case ASM_OP_PMPYSHR2_: 1435 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); 1436 op = ASM_OP_PMPYSHR2; 1437 break; 1438 case ASM_OP_PMPYSHR2_U: 1439 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); 1440 op = ASM_OP_PMPYSHR2; 1441 break; 1442 case ASM_OP_PROBE_R: 1443 asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_R); 1444 asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_NONE); 1445 op = ASM_OP_PROBE; 1446 break; 1447 case ASM_OP_PROBE_R_FAULT: 1448 asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_R); 1449 asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_FAULT); 1450 op = ASM_OP_PROBE; 1451 break; 1452 case ASM_OP_PROBE_RW_FAULT: 1453 asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_RW); 1454 asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_FAULT); 1455 op = ASM_OP_PROBE; 1456 break; 1457 case ASM_OP_PROBE_W: 1458 asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_W); 1459 asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_NONE); 1460 op = ASM_OP_PROBE; 1461 break; 1462 case ASM_OP_PROBE_W_FAULT: 1463 asm_cmpltr_add(i, ASM_CC_RW, ASM_CT_W); 1464 asm_cmpltr_add(i, ASM_CC_PRTYPE, ASM_CT_FAULT); 1465 op = ASM_OP_PROBE; 1466 break; 1467 case ASM_OP_PSHR2_: 1468 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); 1469 op = ASM_OP_PSHR2; 1470 break; 1471 case ASM_OP_PSHR2_U: 1472 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); 1473 op = ASM_OP_PSHR2; 1474 break; 1475 case ASM_OP_PSHR4_: 1476 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); 1477 op = ASM_OP_PSHR4; 1478 break; 1479 case ASM_OP_PSHR4_U: 1480 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); 1481 op = ASM_OP_PSHR4; 1482 break; 1483 case ASM_OP_PSUB1_: 1484 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); 1485 op = ASM_OP_PSUB1; 1486 break; 1487 case ASM_OP_PSUB1_SSS: 1488 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); 1489 op = ASM_OP_PSUB1; 1490 break; 1491 case ASM_OP_PSUB1_UUS: 1492 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); 1493 op = ASM_OP_PSUB1; 1494 break; 1495 case ASM_OP_PSUB1_UUU: 1496 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); 1497 op = ASM_OP_PSUB1; 1498 break; 1499 case ASM_OP_PSUB2_: 1500 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_NONE); 1501 op = ASM_OP_PSUB2; 1502 break; 1503 case ASM_OP_PSUB2_SSS: 1504 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_SSS); 1505 op = ASM_OP_PSUB2; 1506 break; 1507 case ASM_OP_PSUB2_UUS: 1508 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUS); 1509 op = ASM_OP_PSUB2; 1510 break; 1511 case ASM_OP_PSUB2_UUU: 1512 asm_cmpltr_add(i, ASM_CC_SAT, ASM_CT_UUU); 1513 op = ASM_OP_PSUB2; 1514 break; 1515 case ASM_OP_PTC_E: 1516 asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_E); 1517 op = ASM_OP_PTC; 1518 break; 1519 case ASM_OP_PTC_G: 1520 asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_G); 1521 op = ASM_OP_PTC; 1522 break; 1523 case ASM_OP_PTC_GA: 1524 asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_GA); 1525 op = ASM_OP_PTC; 1526 break; 1527 case ASM_OP_PTC_L: 1528 asm_cmpltr_add(i, ASM_CC_PTC, ASM_CT_L); 1529 op = ASM_OP_PTC; 1530 break; 1531 case ASM_OP_PTR_D: 1532 asm_cmpltr_add(i, ASM_CC_PTR, ASM_CT_D); 1533 op = ASM_OP_PTR; 1534 break; 1535 case ASM_OP_PTR_I: 1536 asm_cmpltr_add(i, ASM_CC_PTR, ASM_CT_I); 1537 op = ASM_OP_PTR; 1538 break; 1539 case ASM_OP_SETF_D: 1540 asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_D); 1541 op = ASM_OP_SETF; 1542 break; 1543 case ASM_OP_SETF_EXP: 1544 asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_EXP); 1545 op = ASM_OP_SETF; 1546 break; 1547 case ASM_OP_SETF_S: 1548 asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_S); 1549 op = ASM_OP_SETF; 1550 break; 1551 case ASM_OP_SETF_SIG: 1552 asm_cmpltr_add(i, ASM_CC_SETF, ASM_CT_SIG); 1553 op = ASM_OP_SETF; 1554 break; 1555 case ASM_OP_SHR_: 1556 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_NONE); 1557 op = ASM_OP_SHR; 1558 break; 1559 case ASM_OP_SHR_U: 1560 asm_cmpltr_add(i, ASM_CC_UNS, ASM_CT_U); 1561 op = ASM_OP_SHR; 1562 break; 1563 case ASM_OP_SRLZ_D: 1564 asm_cmpltr_add(i, ASM_CC_SRLZ, ASM_CT_D); 1565 op = ASM_OP_SRLZ; 1566 break; 1567 case ASM_OP_SRLZ_I: 1568 asm_cmpltr_add(i, ASM_CC_SRLZ, ASM_CT_I); 1569 op = ASM_OP_SRLZ; 1570 break; 1571 case ASM_OP_ST1_: 1572 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); 1573 op = ASM_OP_ST1; 1574 break; 1575 case ASM_OP_ST1_REL: 1576 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); 1577 op = ASM_OP_ST1; 1578 break; 1579 case ASM_OP_ST16_: 1580 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); 1581 op = ASM_OP_ST16; 1582 break; 1583 case ASM_OP_ST16_REL: 1584 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); 1585 op = ASM_OP_ST16; 1586 break; 1587 case ASM_OP_ST2_: 1588 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); 1589 op = ASM_OP_ST2; 1590 break; 1591 case ASM_OP_ST2_REL: 1592 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); 1593 op = ASM_OP_ST2; 1594 break; 1595 case ASM_OP_ST4_: 1596 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); 1597 op = ASM_OP_ST4; 1598 break; 1599 case ASM_OP_ST4_REL: 1600 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); 1601 op = ASM_OP_ST4; 1602 break; 1603 case ASM_OP_ST8_: 1604 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_NONE); 1605 op = ASM_OP_ST8; 1606 break; 1607 case ASM_OP_ST8_REL: 1608 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_REL); 1609 op = ASM_OP_ST8; 1610 break; 1611 case ASM_OP_ST8_SPILL: 1612 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_SPILL); 1613 op = ASM_OP_ST8; 1614 break; 1615 case ASM_OP_STF_SPILL: 1616 asm_cmpltr_add(i, ASM_CC_STTYPE, ASM_CT_SPILL); 1617 op = ASM_OP_STF; 1618 break; 1619 case ASM_OP_SYNC_I: 1620 asm_cmpltr_add(i, ASM_CC_SYNC, ASM_CT_I); 1621 op = ASM_OP_SYNC; 1622 break; 1623 case ASM_OP_TBIT_NZ_AND: 1624 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1625 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 1626 op = ASM_OP_TBIT; 1627 break; 1628 case ASM_OP_TBIT_NZ_OR: 1629 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1630 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 1631 op = ASM_OP_TBIT; 1632 break; 1633 case ASM_OP_TBIT_NZ_OR_ANDCM: 1634 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1635 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 1636 op = ASM_OP_TBIT; 1637 break; 1638 case ASM_OP_TBIT_Z: 1639 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1640 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 1641 op = ASM_OP_TBIT; 1642 break; 1643 case ASM_OP_TBIT_Z_AND: 1644 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1645 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 1646 op = ASM_OP_TBIT; 1647 break; 1648 case ASM_OP_TBIT_Z_OR: 1649 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1650 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 1651 op = ASM_OP_TBIT; 1652 break; 1653 case ASM_OP_TBIT_Z_OR_ANDCM: 1654 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1655 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 1656 op = ASM_OP_TBIT; 1657 break; 1658 case ASM_OP_TBIT_Z_UNC: 1659 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1660 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 1661 op = ASM_OP_TBIT; 1662 break; 1663 case ASM_OP_TF_NZ_AND: 1664 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1665 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 1666 op = ASM_OP_TF; 1667 break; 1668 case ASM_OP_TF_NZ_OR: 1669 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1670 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 1671 op = ASM_OP_TF; 1672 break; 1673 case ASM_OP_TF_NZ_OR_ANDCM: 1674 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1675 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 1676 op = ASM_OP_TF; 1677 break; 1678 case ASM_OP_TF_Z: 1679 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1680 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 1681 op = ASM_OP_TF; 1682 break; 1683 case ASM_OP_TF_Z_AND: 1684 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1685 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 1686 op = ASM_OP_TF; 1687 break; 1688 case ASM_OP_TF_Z_OR: 1689 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1690 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 1691 op = ASM_OP_TF; 1692 break; 1693 case ASM_OP_TF_Z_OR_ANDCM: 1694 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1695 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 1696 op = ASM_OP_TF; 1697 break; 1698 case ASM_OP_TF_Z_UNC: 1699 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1700 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 1701 op = ASM_OP_TF; 1702 break; 1703 case ASM_OP_TNAT_NZ_AND: 1704 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1705 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 1706 op = ASM_OP_TNAT; 1707 break; 1708 case ASM_OP_TNAT_NZ_OR: 1709 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1710 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 1711 op = ASM_OP_TNAT; 1712 break; 1713 case ASM_OP_TNAT_NZ_OR_ANDCM: 1714 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_NZ); 1715 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 1716 op = ASM_OP_TNAT; 1717 break; 1718 case ASM_OP_TNAT_Z: 1719 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1720 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_NONE); 1721 op = ASM_OP_TNAT; 1722 break; 1723 case ASM_OP_TNAT_Z_AND: 1724 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1725 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_AND); 1726 op = ASM_OP_TNAT; 1727 break; 1728 case ASM_OP_TNAT_Z_OR: 1729 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1730 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR); 1731 op = ASM_OP_TNAT; 1732 break; 1733 case ASM_OP_TNAT_Z_OR_ANDCM: 1734 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1735 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_OR_ANDCM); 1736 op = ASM_OP_TNAT; 1737 break; 1738 case ASM_OP_TNAT_Z_UNC: 1739 asm_cmpltr_add(i, ASM_CC_TREL, ASM_CT_Z); 1740 asm_cmpltr_add(i, ASM_CC_CTYPE, ASM_CT_UNC); 1741 op = ASM_OP_TNAT; 1742 break; 1743 case ASM_OP_UNPACK1_H: 1744 asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_H); 1745 op = ASM_OP_UNPACK1; 1746 break; 1747 case ASM_OP_UNPACK1_L: 1748 asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_L); 1749 op = ASM_OP_UNPACK1; 1750 break; 1751 case ASM_OP_UNPACK2_H: 1752 asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_H); 1753 op = ASM_OP_UNPACK2; 1754 break; 1755 case ASM_OP_UNPACK2_L: 1756 asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_L); 1757 op = ASM_OP_UNPACK2; 1758 break; 1759 case ASM_OP_UNPACK4_H: 1760 asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_H); 1761 op = ASM_OP_UNPACK4; 1762 break; 1763 case ASM_OP_UNPACK4_L: 1764 asm_cmpltr_add(i, ASM_CC_UNPACK, ASM_CT_L); 1765 op = ASM_OP_UNPACK4; 1766 break; 1767 case ASM_OP_VMSW_0: 1768 asm_cmpltr_add(i, ASM_CC_VMSW, ASM_CT_0); 1769 op = ASM_OP_VMSW; 1770 break; 1771 case ASM_OP_VMSW_1: 1772 asm_cmpltr_add(i, ASM_CC_VMSW, ASM_CT_1); 1773 op = ASM_OP_VMSW; 1774 break; 1775 case ASM_OP_XMA_H: 1776 asm_cmpltr_add(i, ASM_CC_XMA, ASM_CT_H); 1777 op = ASM_OP_XMA; 1778 break; 1779 case ASM_OP_XMA_HU: 1780 asm_cmpltr_add(i, ASM_CC_XMA, ASM_CT_HU); 1781 op = ASM_OP_XMA; 1782 break; 1783 case ASM_OP_XMA_L: 1784 asm_cmpltr_add(i, ASM_CC_XMA, ASM_CT_L); 1785 op = ASM_OP_XMA; 1786 break; 1787 default: 1788 KASSERT(op < ASM_OP_NUMBER_OF_OPCODES); 1789 break; 1790 } 1791 i->i_op = op; 1792 return (ot); 1793 } 1794 1795 static __inline void 1796 op_imm(struct asm_inst *i, int op, uint64_t val) 1797 { 1798 i->i_oper[op].o_type = ASM_OPER_IMM; 1799 i->i_oper[op].o_value = val; 1800 } 1801 1802 static __inline void 1803 op_type(struct asm_inst *i, int op, enum asm_oper_type ot) 1804 { 1805 i->i_oper[op].o_type = ot; 1806 } 1807 1808 static __inline void 1809 op_value(struct asm_inst *i, int op, uint64_t val) 1810 { 1811 i->i_oper[op].o_value = val; 1812 } 1813 1814 static __inline void 1815 operand(struct asm_inst *i, int op, enum asm_oper_type ot, uint64_t bits, 1816 int o, int l) 1817 { 1818 i->i_oper[op].o_type = ot; 1819 i->i_oper[op].o_value = FIELD(bits, o, l); 1820 } 1821 1822 static uint64_t 1823 imm(uint64_t bits, int sign, int o, int l) 1824 { 1825 uint64_t val = FIELD(bits, o, l); 1826 1827 if (sign && (val & (1LL << (l - 1))) != 0) 1828 val |= -1LL << l; 1829 return (val); 1830 } 1831 1832 static void 1833 s_imm(struct asm_inst *i, int op, uint64_t bits, int o, int l) 1834 { 1835 i->i_oper[op].o_type = ASM_OPER_IMM; 1836 i->i_oper[op].o_value = imm(bits, 1, o, l); 1837 } 1838 1839 static void 1840 u_imm(struct asm_inst *i, int op, uint64_t bits, int o, int l) 1841 { 1842 i->i_oper[op].o_type = ASM_OPER_IMM; 1843 i->i_oper[op].o_value = imm(bits, 0, o, l); 1844 } 1845 1846 static uint64_t 1847 vimm(uint64_t bits, int sign, va_list ap) 1848 { 1849 uint64_t val = 0; 1850 int len = 0; 1851 int frag; 1852 1853 while ((frag = va_arg(ap, int)) != 0) { 1854 val |= (uint64_t)FIELD(bits, FRAG_OFS(frag), FRAG_LEN(frag)) 1855 << len; 1856 len += FRAG_LEN(frag); 1857 } 1858 if (sign && (val & (1LL << (len - 1))) != 0) 1859 val |= -1LL << len; 1860 return (val); 1861 } 1862 1863 static void 1864 s_immf(struct asm_inst *i, int op, uint64_t bits, ...) 1865 { 1866 va_list ap; 1867 va_start(ap, bits); 1868 i->i_oper[op].o_type = ASM_OPER_IMM; 1869 i->i_oper[op].o_value = vimm(bits, 1, ap); 1870 va_end(ap); 1871 } 1872 1873 static void 1874 u_immf(struct asm_inst *i, int op, uint64_t bits, ...) 1875 { 1876 va_list ap; 1877 va_start(ap, bits); 1878 i->i_oper[op].o_type = ASM_OPER_IMM; 1879 i->i_oper[op].o_value = vimm(bits, 0, ap); 1880 va_end(ap); 1881 } 1882 1883 static void 1884 disp(struct asm_inst *i, int op, uint64_t bits, ...) 1885 { 1886 va_list ap; 1887 va_start(ap, bits); 1888 i->i_oper[op].o_type = ASM_OPER_DISP; 1889 i->i_oper[op].o_value = vimm(bits, 1, ap) << 4; 1890 va_end(ap); 1891 } 1892 1893 static __inline void 1894 combine(uint64_t *dst, int dl, uint64_t src, int sl, int so) 1895 { 1896 *dst = (*dst & ((1LL << dl) - 1LL)) | 1897 ((uint64_t)_FLD64(src, so, sl) << dl); 1898 } 1899 1900 int 1901 asm_extract(enum asm_op op, enum asm_fmt fmt, uint64_t bits, 1902 struct asm_bundle *b, int slot) 1903 { 1904 struct asm_inst *i = b->b_inst + slot; 1905 enum asm_oper_type ot; 1906 1907 KASSERT(op != ASM_OP_NONE); 1908 i->i_bits = bits; 1909 i->i_format = fmt; 1910 i->i_srcidx = 2; 1911 1912 ot = asm_normalize(i, op); 1913 1914 if (fmt != ASM_FMT_B6 && fmt != ASM_FMT_B7) 1915 operand(i, 0, ASM_OPER_PREG, bits, 0, 6); 1916 1917 switch (fmt) { 1918 case ASM_FMT_A1: 1919 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1920 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 1921 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 1922 if ((op == ASM_OP_ADD && FIELD(bits, 27, 2) == 1) || 1923 (op == ASM_OP_SUB && FIELD(bits, 27, 2) == 0)) 1924 op_imm(i, 4, 1LL); 1925 break; 1926 case ASM_FMT_A2: 1927 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1928 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 1929 op_imm(i, 3, 1LL + FIELD(bits, 27, 2)); 1930 operand(i, 4, ASM_OPER_GREG, bits, 20, 7); 1931 break; 1932 case ASM_FMT_A3: 1933 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1934 s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); 1935 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 1936 break; 1937 case ASM_FMT_A4: 1938 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1939 s_immf(i, 2, bits, FRAG(13,7), FRAG(27,6), FRAG(36,1), 0); 1940 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 1941 break; 1942 case ASM_FMT_A5: 1943 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1944 s_immf(i, 2, bits, FRAG(13,7), FRAG(27,9), FRAG(22,5), 1945 FRAG(36,1), 0); 1946 operand(i, 3, ASM_OPER_GREG, bits, 20, 2); 1947 break; 1948 case ASM_FMT_A6: /* 2 dst */ 1949 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 1950 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 1951 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 1952 operand(i, 4, ASM_OPER_GREG, bits, 20, 7); 1953 i->i_srcidx++; 1954 break; 1955 case ASM_FMT_A7: /* 2 dst */ 1956 if (FIELD(bits, 13, 7) != 0) 1957 return (0); 1958 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 1959 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 1960 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 1961 operand(i, 4, ASM_OPER_GREG, bits, 20, 7); 1962 i->i_srcidx++; 1963 break; 1964 case ASM_FMT_A8: /* 2 dst */ 1965 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 1966 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 1967 s_immf(i, 3, bits, FRAG(13,7), FRAG(36,1), 0); 1968 operand(i, 4, ASM_OPER_GREG, bits, 20, 7); 1969 i->i_srcidx++; 1970 break; 1971 case ASM_FMT_A9: 1972 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1973 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 1974 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 1975 break; 1976 case ASM_FMT_A10: 1977 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 1978 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 1979 op_imm(i, 3, 1LL + FIELD(bits, 27, 2)); 1980 operand(i, 4, ASM_OPER_GREG, bits, 20, 7); 1981 break; 1982 case ASM_FMT_B1: /* 0 dst */ 1983 asm_brhint(i); 1984 disp(i, 1, bits, FRAG(13,20), FRAG(36,1), 0); 1985 break; 1986 case ASM_FMT_B2: /* 0 dst */ 1987 if (FIELD(bits, 0, 6) != 0) 1988 return (0); 1989 asm_brhint(i); 1990 disp(i, 1, bits, FRAG(13,20), FRAG(36,1), 0); 1991 break; 1992 case ASM_FMT_B3: 1993 asm_brhint(i); 1994 operand(i, 1, ASM_OPER_BREG, bits, 6, 3); 1995 disp(i, 2, bits, FRAG(13,20), FRAG(36,1), 0); 1996 break; 1997 case ASM_FMT_B4: /* 0 dst */ 1998 asm_brhint(i); 1999 operand(i, 1, ASM_OPER_BREG, bits, 13, 3); 2000 break; 2001 case ASM_FMT_B5: 2002 #if 0 2003 if (FIELD(bits, 32, 1) == 0) 2004 return (0); 2005 #endif 2006 asm_brhint(i); 2007 operand(i, 1, ASM_OPER_BREG, bits, 6, 3); 2008 operand(i, 2, ASM_OPER_BREG, bits, 13, 3); 2009 break; 2010 case ASM_FMT_B6: /* 0 dst */ 2011 asm_brphint(i); 2012 disp(i, 1, bits, FRAG(13,20), FRAG(36,1), 0); 2013 disp(i, 2, bits, FRAG(6,7), FRAG(33,2), 0); 2014 i->i_srcidx--; 2015 break; 2016 case ASM_FMT_B7: /* 0 dst */ 2017 asm_brphint(i); 2018 operand(i, 1, ASM_OPER_BREG, bits, 13, 3); 2019 disp(i, 2, bits, FRAG(6,7), FRAG(33,2), 0); 2020 i->i_srcidx--; 2021 break; 2022 case ASM_FMT_B8: 2023 /* no operands */ 2024 break; 2025 case ASM_FMT_B9: /* 0 dst */ 2026 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2027 break; 2028 case ASM_FMT_F1: 2029 asm_sf(i); 2030 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2031 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2032 operand(i, 3, ASM_OPER_FREG, bits, 20, 7); 2033 operand(i, 4, ASM_OPER_FREG, bits, 27, 7); 2034 break; 2035 case ASM_FMT_F2: 2036 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2037 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2038 operand(i, 3, ASM_OPER_FREG, bits, 20, 7); 2039 operand(i, 4, ASM_OPER_FREG, bits, 27, 7); 2040 break; 2041 case ASM_FMT_F3: 2042 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2043 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2044 operand(i, 3, ASM_OPER_FREG, bits, 20, 7); 2045 operand(i, 4, ASM_OPER_FREG, bits, 27, 7); 2046 break; 2047 case ASM_FMT_F4: /* 2 dst */ 2048 if (FIELD(bits, 33, 1)) { /* ra */ 2049 if (FIELD(bits, 36, 1)) /* rb */ 2050 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_UNORD); 2051 else 2052 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LE); 2053 } else { 2054 if (FIELD(bits, 36, 1)) /* rb */ 2055 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_LT); 2056 else 2057 asm_cmpltr_add(i, ASM_CC_FREL, ASM_CT_EQ); 2058 } 2059 if (FIELD(bits, 12, 1)) /* ta */ 2060 asm_cmpltr_add(i, ASM_CC_FCTYPE, ASM_CT_UNC); 2061 else 2062 asm_cmpltr_add(i, ASM_CC_FCTYPE, ASM_CT_NONE); 2063 asm_sf(i); 2064 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 2065 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2066 operand(i, 3, ASM_OPER_FREG, bits, 13, 7); 2067 operand(i, 4, ASM_OPER_FREG, bits, 20, 7); 2068 i->i_srcidx++; 2069 break; 2070 case ASM_FMT_F5: /* 2 dst */ 2071 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 2072 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2073 operand(i, 3, ASM_OPER_FREG, bits, 13, 7); 2074 u_immf(i, 4, bits, FRAG(33,2), FRAG(20,7), 0); 2075 i->i_srcidx++; 2076 break; 2077 case ASM_FMT_F6: /* 2 dst */ 2078 asm_sf(i); 2079 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2080 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2081 operand(i, 3, ASM_OPER_FREG, bits, 13, 7); 2082 operand(i, 4, ASM_OPER_FREG, bits, 20, 7); 2083 i->i_srcidx++; 2084 break; 2085 case ASM_FMT_F7: /* 2 dst */ 2086 asm_sf(i); 2087 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2088 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2089 operand(i, 3, ASM_OPER_FREG, bits, 20, 7); 2090 i->i_srcidx++; 2091 break; 2092 case ASM_FMT_F8: 2093 asm_sf(i); 2094 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2095 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2096 operand(i, 3, ASM_OPER_FREG, bits, 20, 7); 2097 break; 2098 case ASM_FMT_F9: 2099 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2100 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2101 operand(i, 3, ASM_OPER_FREG, bits, 20, 7); 2102 break; 2103 case ASM_FMT_F10: 2104 asm_sf(i); 2105 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2106 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2107 break; 2108 case ASM_FMT_F11: 2109 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2110 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2111 break; 2112 case ASM_FMT_F12: /* 0 dst */ 2113 asm_sf(i); 2114 u_imm(i, 1, bits, 13, 7); 2115 u_imm(i, 2, bits, 20, 7); 2116 i->i_srcidx--; 2117 break; 2118 case ASM_FMT_F13: 2119 asm_sf(i); 2120 /* no operands */ 2121 break; 2122 case ASM_FMT_F14: /* 0 dst */ 2123 asm_sf(i); 2124 disp(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2125 break; 2126 case ASM_FMT_F15: /* 0 dst */ 2127 u_imm(i, 1, bits, 6, 20); 2128 break; 2129 case ASM_FMT_F16: /* 0 dst */ 2130 u_imm(i, 1, bits, 6, 20); 2131 break; 2132 case ASM_FMT_I1: 2133 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2134 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2135 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2136 switch (FIELD(bits, 30, 2)) { 2137 case 0: op_imm(i, 4, 0LL); break; 2138 case 1: op_imm(i, 4, 7LL); break; 2139 case 2: op_imm(i, 4, 15LL); break; 2140 case 3: op_imm(i, 4, 16LL); break; 2141 } 2142 break; 2143 case ASM_FMT_I2: 2144 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2145 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2146 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2147 break; 2148 case ASM_FMT_I3: 2149 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2150 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2151 u_imm(i, 3, bits, 20, 4); 2152 break; 2153 case ASM_FMT_I4: 2154 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2155 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2156 u_imm(i, 3, bits, 20, 8); 2157 break; 2158 case ASM_FMT_I5: 2159 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2160 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2161 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 2162 break; 2163 case ASM_FMT_I6: 2164 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2165 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2166 u_imm(i, 3, bits, 14, 5); 2167 break; 2168 case ASM_FMT_I7: 2169 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2170 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2171 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2172 break; 2173 case ASM_FMT_I8: 2174 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2175 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2176 op_imm(i, 3, 31LL - FIELD(bits, 20, 5)); 2177 break; 2178 case ASM_FMT_I9: 2179 if (FIELD(bits, 13, 7) != 0) 2180 return (0); 2181 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2182 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2183 break; 2184 case ASM_FMT_I10: 2185 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2186 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2187 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2188 u_imm(i, 4, bits, 27, 6); 2189 break; 2190 case ASM_FMT_I11: 2191 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2192 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2193 u_imm(i, 3, bits, 14, 6); 2194 op_imm(i, 4, 1LL + FIELD(bits, 27, 6)); 2195 break; 2196 case ASM_FMT_I12: 2197 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2198 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2199 op_imm(i, 3, 63LL - FIELD(bits, 20, 6)); 2200 op_imm(i, 4, 1LL + FIELD(bits, 27, 6)); 2201 break; 2202 case ASM_FMT_I13: 2203 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2204 s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); 2205 op_imm(i, 3, 63LL - FIELD(bits, 20, 6)); 2206 op_imm(i, 4, 1LL + FIELD(bits, 27, 6)); 2207 break; 2208 case ASM_FMT_I14: 2209 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2210 s_imm(i, 2, bits, 36, 1); 2211 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2212 op_imm(i, 4, 63LL - FIELD(bits, 14, 6)); 2213 op_imm(i, 5, 1LL + FIELD(bits, 27, 6)); 2214 break; 2215 case ASM_FMT_I15: 2216 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2217 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2218 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2219 op_imm(i, 4, 63LL - FIELD(bits, 31, 6)); 2220 op_imm(i, 5, 1LL + FIELD(bits, 27, 4)); 2221 break; 2222 case ASM_FMT_I16: /* 2 dst */ 2223 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 2224 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2225 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2226 u_imm(i, 4, bits, 14, 6); 2227 i->i_srcidx++; 2228 break; 2229 case ASM_FMT_I17: /* 2 dst */ 2230 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 2231 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2232 operand(i, 3, ASM_OPER_GREG, bits, 20, 7); 2233 i->i_srcidx++; 2234 break; 2235 case ASM_FMT_I18: 2236 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2237 break; 2238 case ASM_FMT_I19: 2239 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2240 break; 2241 case ASM_FMT_I20: /* 0 dst */ 2242 operand(i, 1, ASM_OPER_GREG, bits, 13, 7); 2243 disp(i, 2, bits, FRAG(6,7), FRAG(20,13), FRAG(36,1), 0); 2244 i->i_srcidx--; 2245 break; 2246 case ASM_FMT_I21: 2247 switch (FIELD(bits, 20, 2)) { /* wh */ 2248 case 0: asm_cmpltr_add(i, ASM_CC_MWH, ASM_CT_SPTK); break; 2249 case 1: asm_cmpltr_add(i, ASM_CC_MWH, ASM_CT_NONE); break; 2250 case 2: asm_cmpltr_add(i, ASM_CC_MWH, ASM_CT_DPTK); break; 2251 case 3: return (0); 2252 } 2253 if (FIELD(bits, 23, 1)) /* ih */ 2254 asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_IMP); 2255 else 2256 asm_cmpltr_add(i, ASM_CC_IH, ASM_CT_NONE); 2257 operand(i, 1, ASM_OPER_BREG, bits, 6, 3); 2258 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2259 disp(i, 3, bits, FRAG(24,9), 0); 2260 break; 2261 case ASM_FMT_I22: 2262 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2263 operand(i, 2, ASM_OPER_BREG, bits, 13, 3); 2264 break; 2265 case ASM_FMT_I23: 2266 op_type(i, 1, ASM_OPER_PR); 2267 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2268 u_immf(i, 3, bits, FRAG(6,7), FRAG(24,8), FRAG(36,1), 0); 2269 i->i_oper[3].o_value <<= 1; 2270 break; 2271 case ASM_FMT_I24: 2272 op_type(i, 1, ASM_OPER_PR_ROT); 2273 s_immf(i, 2, bits, FRAG(6,27), FRAG(36,1), 0); 2274 break; 2275 case ASM_FMT_I25: 2276 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2277 op_type(i, 2, ot); 2278 break; 2279 case ASM_FMT_I26: 2280 operand(i, 1, ASM_OPER_AREG, bits, 20, 7); 2281 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2282 break; 2283 case ASM_FMT_I27: 2284 operand(i, 1, ASM_OPER_AREG, bits, 20, 7); 2285 s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); 2286 break; 2287 case ASM_FMT_I28: 2288 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2289 operand(i, 2, ASM_OPER_AREG, bits, 20, 7); 2290 break; 2291 case ASM_FMT_I29: 2292 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2293 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2294 break; 2295 case ASM_FMT_I30: /* 2 dst */ 2296 operand(i, 1, ASM_OPER_PREG, bits, 6, 6); 2297 operand(i, 2, ASM_OPER_PREG, bits, 27, 6); 2298 op_imm(i, 3, 32LL + FIELD(bits, 14, 5)); 2299 i->i_srcidx++; 2300 break; 2301 case ASM_FMT_M1: 2302 asm_hint(i, ASM_CC_LDHINT); 2303 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2304 if (i->i_op == ASM_OP_LD16) { 2305 op_type(i, 2, ASM_OPER_AREG); 2306 op_value(i, 2, AR_CSD); 2307 i->i_srcidx++; 2308 } 2309 operand(i, i->i_srcidx, ASM_OPER_MEM, bits, 20, 7); 2310 break; 2311 case ASM_FMT_M2: 2312 asm_hint(i, ASM_CC_LDHINT); 2313 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2314 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2315 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 2316 break; 2317 case ASM_FMT_M3: 2318 asm_hint(i, ASM_CC_LDHINT); 2319 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2320 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2321 s_immf(i, 3, bits, FRAG(13,7), FRAG(27,1), FRAG(36,1), 0); 2322 break; 2323 case ASM_FMT_M4: 2324 asm_hint(i, ASM_CC_STHINT); 2325 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2326 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2327 if (i->i_op == ASM_OP_ST16) { 2328 op_type(i, 3, ASM_OPER_AREG); 2329 op_value(i, 3, AR_CSD); 2330 } 2331 break; 2332 case ASM_FMT_M5: 2333 asm_hint(i, ASM_CC_STHINT); 2334 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2335 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2336 s_immf(i, 3, bits, FRAG(6,7), FRAG(27,1), FRAG(36,1), 0); 2337 break; 2338 case ASM_FMT_M6: 2339 asm_hint(i, ASM_CC_LDHINT); 2340 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2341 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2342 break; 2343 case ASM_FMT_M7: 2344 asm_hint(i, ASM_CC_LDHINT); 2345 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2346 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2347 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 2348 break; 2349 case ASM_FMT_M8: 2350 asm_hint(i, ASM_CC_LDHINT); 2351 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2352 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2353 s_immf(i, 3, bits, FRAG(13,7), FRAG(27,1), FRAG(36,1), 0); 2354 break; 2355 case ASM_FMT_M9: 2356 asm_hint(i, ASM_CC_STHINT); 2357 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2358 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2359 break; 2360 case ASM_FMT_M10: 2361 asm_hint(i, ASM_CC_STHINT); 2362 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2363 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2364 s_immf(i, 3, bits, FRAG(6,7), FRAG(27,1), FRAG(36,1), 0); 2365 break; 2366 case ASM_FMT_M11: /* 2 dst */ 2367 asm_hint(i, ASM_CC_LDHINT); 2368 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2369 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2370 operand(i, 3, ASM_OPER_MEM, bits, 20, 7); 2371 i->i_srcidx++; 2372 break; 2373 case ASM_FMT_M12: /* 2 dst */ 2374 asm_hint(i, ASM_CC_LDHINT); 2375 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2376 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2377 operand(i, 3, ASM_OPER_MEM, bits, 20, 7); 2378 op_imm(i, 4, 8LL << FIELD(bits, 30, 1)); 2379 i->i_srcidx++; 2380 break; 2381 case ASM_FMT_M13: 2382 asm_hint(i, ASM_CC_LFHINT); 2383 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2384 break; 2385 case ASM_FMT_M14: /* 0 dst */ 2386 asm_hint(i, ASM_CC_LFHINT); 2387 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2388 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2389 i->i_srcidx--; 2390 break; 2391 case ASM_FMT_M15: /* 0 dst */ 2392 asm_hint(i, ASM_CC_LFHINT); 2393 operand(i, 1, ASM_OPER_MEM, bits, 20, 7); 2394 s_immf(i, 2, bits, FRAG(13,7), FRAG(27,1), FRAG(36,1), 0); 2395 i->i_srcidx--; 2396 break; 2397 case ASM_FMT_M16: 2398 asm_hint(i, ASM_CC_LDHINT); 2399 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2400 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2401 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 2402 if (i->i_op == ASM_OP_CMP8XCHG16) { 2403 op_type(i, 4, ASM_OPER_AREG); 2404 op_value(i, 4, AR_CSD); 2405 op_type(i, 5, ASM_OPER_AREG); 2406 op_value(i, 5, AR_CCV); 2407 } else { 2408 if (FIELD(bits, 30, 6) < 8) { 2409 op_type(i, 4, ASM_OPER_AREG); 2410 op_value(i, 4, AR_CCV); 2411 } 2412 } 2413 break; 2414 case ASM_FMT_M17: 2415 asm_hint(i, ASM_CC_LDHINT); 2416 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2417 operand(i, 2, ASM_OPER_MEM, bits, 20, 7); 2418 switch (FIELD(bits, 13, 2)) { 2419 case 0: op_imm(i, 3, 1LL << 4); break; 2420 case 1: op_imm(i, 3, 1LL << 3); break; 2421 case 2: op_imm(i, 3, 1LL << 2); break; 2422 case 3: op_imm(i, 3, 1LL); break; 2423 } 2424 if (FIELD(bits, 15, 1)) 2425 i->i_oper[3].o_value *= -1LL; 2426 break; 2427 case ASM_FMT_M18: 2428 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2429 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2430 break; 2431 case ASM_FMT_M19: 2432 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2433 operand(i, 2, ASM_OPER_FREG, bits, 13, 7); 2434 break; 2435 case ASM_FMT_M20: /* 0 dst */ 2436 operand(i, 1, ASM_OPER_GREG, bits, 13, 7); 2437 disp(i, 2, bits, FRAG(6,7), FRAG(20,13), FRAG(36,1), 0); 2438 i->i_srcidx--; 2439 break; 2440 case ASM_FMT_M21: /* 0 dst */ 2441 operand(i, 1, ASM_OPER_FREG, bits, 13, 7); 2442 disp(i, 2, bits, FRAG(6,7), FRAG(20,13), FRAG(36,1), 0); 2443 i->i_srcidx--; 2444 break; 2445 case ASM_FMT_M22: /* 0 dst */ 2446 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2447 disp(i, 2, bits, FRAG(13,20), FRAG(36,1), 0); 2448 i->i_srcidx--; 2449 break; 2450 case ASM_FMT_M23: /* 0 dst */ 2451 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2452 disp(i, 2, bits, FRAG(13,20), FRAG(36,1), 0); 2453 i->i_srcidx--; 2454 break; 2455 case ASM_FMT_M24: 2456 /* no operands */ 2457 break; 2458 case ASM_FMT_M25: 2459 if (FIELD(bits, 0, 6) != 0) 2460 return (0); 2461 /* no operands */ 2462 break; 2463 case ASM_FMT_M26: 2464 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2465 break; 2466 case ASM_FMT_M27: 2467 operand(i, 1, ASM_OPER_FREG, bits, 6, 7); 2468 break; 2469 case ASM_FMT_M28: 2470 operand(i, 1, ASM_OPER_GREG, bits, 20, 7); 2471 break; 2472 case ASM_FMT_M29: 2473 operand(i, 1, ASM_OPER_AREG, bits, 20, 7); 2474 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2475 break; 2476 case ASM_FMT_M30: 2477 operand(i, 1, ASM_OPER_AREG, bits, 20, 7); 2478 s_immf(i, 2, bits, FRAG(13,7), FRAG(36,1), 0); 2479 break; 2480 case ASM_FMT_M31: 2481 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2482 operand(i, 2, ASM_OPER_AREG, bits, 20, 7); 2483 break; 2484 case ASM_FMT_M32: 2485 operand(i, 1, ASM_OPER_CREG, bits, 20, 7); 2486 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2487 break; 2488 case ASM_FMT_M33: 2489 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2490 operand(i, 2, ASM_OPER_CREG, bits, 20, 7); 2491 break; 2492 case ASM_FMT_M34: { 2493 uint64_t loc, out; 2494 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2495 op_type(i, 2, ASM_OPER_AREG); 2496 op_value(i, 2, AR_PFS); 2497 loc = FIELD(bits, 20, 7); 2498 out = FIELD(bits, 13, 7) - loc; 2499 op_imm(i, 3, 0); 2500 op_imm(i, 4, loc); 2501 op_imm(i, 5, out); 2502 op_imm(i, 6, (uint64_t)FIELD(bits, 27, 4) << 3); 2503 break; 2504 } 2505 case ASM_FMT_M35: 2506 if (FIELD(bits, 27, 6) == 0x2D) 2507 op_type(i, 1, ASM_OPER_PSR_L); 2508 else 2509 op_type(i, 1, ASM_OPER_PSR_UM); 2510 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2511 break; 2512 case ASM_FMT_M36: 2513 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2514 if (FIELD(bits, 27, 6) == 0x25) 2515 op_type(i, 2, ASM_OPER_PSR); 2516 else 2517 op_type(i, 2, ASM_OPER_PSR_UM); 2518 break; 2519 case ASM_FMT_M37: 2520 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2521 break; 2522 case ASM_FMT_M38: 2523 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2524 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2525 operand(i, 3, ASM_OPER_GREG, bits, 13, 7); 2526 break; 2527 case ASM_FMT_M39: 2528 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2529 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2530 u_imm(i, 3, bits, 13, 2); 2531 break; 2532 case ASM_FMT_M40: /* 0 dst */ 2533 operand(i, 1, ASM_OPER_GREG, bits, 20, 7); 2534 u_imm(i, 2, bits, 13, 2); 2535 i->i_srcidx--; 2536 break; 2537 case ASM_FMT_M41: 2538 operand(i, 1, ASM_OPER_GREG, bits, 13, 7); 2539 break; 2540 case ASM_FMT_M42: 2541 operand(i, 1, ot, bits, 20, 7); 2542 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2543 break; 2544 case ASM_FMT_M43: 2545 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2546 operand(i, 2, ot, bits, 20, 7); 2547 break; 2548 case ASM_FMT_M44: 2549 u_immf(i, 1, bits, FRAG(6,21), FRAG(31,2), FRAG(36,1), 0); 2550 break; 2551 case ASM_FMT_M45: /* 0 dst */ 2552 operand(i, 1, ASM_OPER_GREG, bits, 20, 7); 2553 operand(i, 2, ASM_OPER_GREG, bits, 13, 7); 2554 i->i_srcidx--; 2555 break; 2556 case ASM_FMT_M46: 2557 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2558 operand(i, 2, ASM_OPER_GREG, bits, 20, 7); 2559 break; 2560 case ASM_FMT_M47: 2561 operand(i, 1, ASM_OPER_GREG, bits, 20, 7); 2562 break; 2563 case ASM_FMT_M48: 2564 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2565 break; 2566 case ASM_FMT_X1: 2567 KASSERT(slot == 2); 2568 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2569 combine(&i->i_oper[1].o_value, 21, b->b_inst[1].i_bits, 41, 0); 2570 break; 2571 case ASM_FMT_X2: 2572 KASSERT(slot == 2); 2573 operand(i, 1, ASM_OPER_GREG, bits, 6, 7); 2574 u_immf(i, 2, bits, FRAG(13,7), FRAG(27,9), FRAG(22,5), 2575 FRAG(21,1), 0); 2576 combine(&i->i_oper[2].o_value, 22, b->b_inst[1].i_bits, 41, 0); 2577 combine(&i->i_oper[2].o_value, 63, bits, 1, 36); 2578 break; 2579 case ASM_FMT_X3: 2580 KASSERT(slot == 2); 2581 asm_brhint(i); 2582 u_imm(i, 1, bits, 13, 20); 2583 combine(&i->i_oper[1].o_value, 20, b->b_inst[1].i_bits, 39, 2); 2584 combine(&i->i_oper[1].o_value, 59, bits, 1, 36); 2585 i->i_oper[1].o_value <<= 4; 2586 i->i_oper[1].o_type = ASM_OPER_DISP; 2587 break; 2588 case ASM_FMT_X4: 2589 KASSERT(slot == 2); 2590 asm_brhint(i); 2591 operand(i, 1, ASM_OPER_BREG, bits, 6, 3); 2592 u_imm(i, 2, bits, 13, 20); 2593 combine(&i->i_oper[2].o_value, 20, b->b_inst[1].i_bits, 39, 2); 2594 combine(&i->i_oper[2].o_value, 59, bits, 1, 36); 2595 i->i_oper[2].o_value <<= 4; 2596 i->i_oper[2].o_type = ASM_OPER_DISP; 2597 break; 2598 case ASM_FMT_X5: 2599 KASSERT(slot == 2); 2600 u_immf(i, 1, bits, FRAG(6,20), FRAG(36,1), 0); 2601 combine(&i->i_oper[1].o_value, 21, b->b_inst[1].i_bits, 41, 0); 2602 break; 2603 default: 2604 KASSERT(fmt == ASM_FMT_NONE); 2605 return (0); 2606 } 2607 2608 return (1); 2609 } 2610
Indexes created Sat Sep 20 22:09:52 GMT 2025