1 /* Imagination Technologies Meta opcode table. 2 Copyright (C) 2013-2016 Free Software Foundation, Inc. 3 Contributed by Imagination Technologies Ltd. 4 5 This file is part of GDB and GAS. 6 7 GDB and GAS are free software; you can redistribute it and/or 8 modify it under the terms of the GNU General Public License as 9 published by the Free Software Foundation; either version 3, or (at 10 your option) any later version. 11 12 GDB and GAS are distributed in the hope that it will be useful, but 13 WITHOUT ANY WARRANTY; without even the implied warranty of 14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 15 General Public License for more details. 16 17 You should have received a copy of the GNU General Public License 18 along with GDB or GAS; see the file COPYING3. If not, write to the 19 Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston, 20 MA 02110-1301, USA. */ 21 22 #ifdef __cplusplus 23 extern "C" { 24 #endif 25 26 enum metag_unit 27 { 28 UNIT_CT, 29 UNIT_D0, 30 UNIT_D1, 31 UNIT_A0, 32 UNIT_A1, 33 UNIT_PC, 34 UNIT_RD, 35 UNIT_TR, 36 UNIT_TT, 37 UNIT_FX, 38 UNIT_DT, /* DSP Template Table */ 39 UNIT_ACC_D0, 40 UNIT_ACC_D1, 41 UNIT_RAM_D0, 42 UNIT_RAM_D1, 43 }; 44 45 typedef struct 46 { 47 const char * name; 48 enum metag_unit unit; 49 unsigned int no; 50 } metag_reg; 51 52 static const metag_reg metag_regtab[] = 53 { 54 { "TXENABLE", UNIT_CT, 0 }, 55 { "CT.0", UNIT_CT, 0 }, 56 { "TXMODE", UNIT_CT, 1 }, 57 { "CT.1", UNIT_CT, 1 }, 58 { "TXSTATUS", UNIT_CT, 2 }, 59 { "CT.2", UNIT_CT, 2 }, 60 { "TXRPT", UNIT_CT, 3 }, 61 { "CT.3", UNIT_CT, 3 }, 62 { "TXTIMER", UNIT_CT, 4 }, 63 { "CT.4", UNIT_CT, 4 }, 64 { "TXL1START", UNIT_CT, 5 }, 65 { "CT.5", UNIT_CT, 5 }, 66 { "TXL1END", UNIT_CT, 6 }, 67 { "CT.6", UNIT_CT, 6 }, 68 { "TXL1COUNT", UNIT_CT, 7 }, 69 { "CT.7", UNIT_CT, 7 }, 70 { "TXL2START", UNIT_CT, 8 }, 71 { "CT.8", UNIT_CT, 8 }, 72 { "TXL2END", UNIT_CT, 9 }, 73 { "CT.9", UNIT_CT, 9 }, 74 { "TXL2COUNT", UNIT_CT, 10 }, 75 { "CT.10", UNIT_CT, 10 }, 76 { "TXBPOBITS", UNIT_CT, 11 }, 77 { "CT.11", UNIT_CT, 11 }, 78 { "TXMRSIZE", UNIT_CT, 12 }, 79 { "CT.12", UNIT_CT, 12 }, 80 { "TXTIMERI", UNIT_CT, 13 }, 81 { "CT.13", UNIT_CT, 13 }, 82 { "TXDRCTRL", UNIT_CT, 14 }, 83 { "CT.14", UNIT_CT, 14 }, 84 { "TXDRSIZE", UNIT_CT, 15 }, 85 { "CT.15", UNIT_CT, 15 }, 86 { "TXCATCH0", UNIT_CT, 16 }, 87 { "CT.16", UNIT_CT, 16 }, 88 { "TXCATCH1", UNIT_CT, 17 }, 89 { "CT.17", UNIT_CT, 17 }, 90 { "TXCATCH2", UNIT_CT, 18 }, 91 { "CT.18", UNIT_CT, 18 }, 92 { "TXCATCH3", UNIT_CT, 19 }, 93 { "CT.19", UNIT_CT, 19 }, 94 { "TXDEFR", UNIT_CT, 20 }, 95 { "CT.20", UNIT_CT, 20 }, 96 { "TXCPRS", UNIT_CT, 21 }, 97 { "CT.21", UNIT_CT, 21 }, 98 { "TXCLKCTRL", UNIT_CT, 22 }, 99 { "CT.22", UNIT_CT, 22 }, 100 { "TXINTERN0", UNIT_CT, 23 }, 101 { "TXSTATE", UNIT_CT, 23 }, 102 { "CT.23", UNIT_CT, 23 }, 103 { "TXAMAREG0", UNIT_CT, 24 }, 104 { "CT.24", UNIT_CT, 24 }, 105 { "TXAMAREG1", UNIT_CT, 25 }, 106 { "CT.25", UNIT_CT, 25 }, 107 { "TXAMAREG2", UNIT_CT, 26 }, 108 { "CT.26", UNIT_CT, 26 }, 109 { "TXAMAREG3", UNIT_CT, 27 }, 110 { "CT.27", UNIT_CT, 27 }, 111 { "TXDIVTIME", UNIT_CT, 28 }, 112 { "CT.28", UNIT_CT, 28 }, 113 { "TXPRIVEXT", UNIT_CT, 29 }, 114 { "CT.29", UNIT_CT, 29 }, 115 { "TXTACTCYC", UNIT_CT, 30 }, 116 { "TXACTCYC", UNIT_CT, 30 }, 117 { "CT.30", UNIT_CT, 30 }, 118 { "TXIDLECYC", UNIT_CT, 31 }, 119 { "CT.31", UNIT_CT, 31 }, 120 121 { "D0Re0", UNIT_D0, 0 }, 122 { "D0.0", UNIT_D0, 0 }, 123 { "D0Ar6", UNIT_D0, 1 }, 124 { "D0.1", UNIT_D0, 1 }, 125 { "D0Ar4", UNIT_D0, 2 }, 126 { "D0.2", UNIT_D0, 2 }, 127 { "D0Ar2", UNIT_D0, 3 }, 128 { "D0.3", UNIT_D0, 3 }, 129 { "D0FrT", UNIT_D0, 4 }, 130 { "D0.4", UNIT_D0, 4 }, 131 { "D0.5", UNIT_D0, 5 }, 132 { "D0.6", UNIT_D0, 6 }, 133 { "D0.7", UNIT_D0, 7 }, 134 { "D0.8", UNIT_D0, 8 }, 135 { "D0.9", UNIT_D0, 9 }, 136 { "D0.10", UNIT_D0, 10 }, 137 { "D0.11", UNIT_D0, 11 }, 138 { "D0.12", UNIT_D0, 12 }, 139 { "D0.13", UNIT_D0, 13 }, 140 { "D0.14", UNIT_D0, 14 }, 141 { "D0.15", UNIT_D0, 15 }, 142 { "D0.16", UNIT_D0, 16 }, 143 { "D0.17", UNIT_D0, 17 }, 144 { "D0.18", UNIT_D0, 18 }, 145 { "D0.19", UNIT_D0, 19 }, 146 { "D0.20", UNIT_D0, 20 }, 147 { "D0.21", UNIT_D0, 21 }, 148 { "D0.22", UNIT_D0, 22 }, 149 { "D0.23", UNIT_D0, 23 }, 150 { "D0.24", UNIT_D0, 24 }, 151 { "D0.25", UNIT_D0, 25 }, 152 { "D0.26", UNIT_D0, 26 }, 153 { "D0.27", UNIT_D0, 27 }, 154 { "D0.28", UNIT_D0, 28 }, 155 { "D0.29", UNIT_D0, 29 }, 156 { "D0.30", UNIT_D0, 30 }, 157 { "D0.31", UNIT_D0, 31 }, 158 159 { "D1Re0", UNIT_D1, 0 }, 160 { "D1.0", UNIT_D1, 0 }, 161 { "D1Ar5", UNIT_D1, 1 }, 162 { "D1.1", UNIT_D1, 1 }, 163 { "D1Ar3", UNIT_D1, 2 }, 164 { "D1.2", UNIT_D1, 2 }, 165 { "D1Ar1", UNIT_D1, 3 }, 166 { "D1.3", UNIT_D1, 3 }, 167 { "D1RtP", UNIT_D1, 4 }, 168 { "D1.4", UNIT_D1, 4 }, 169 { "D1.5", UNIT_D1, 5 }, 170 { "D1.6", UNIT_D1, 6 }, 171 { "D1.7", UNIT_D1, 7 }, 172 { "D1.8", UNIT_D1, 8 }, 173 { "D1.9", UNIT_D1, 9 }, 174 { "D1.10", UNIT_D1, 10 }, 175 { "D1.11", UNIT_D1, 11 }, 176 { "D1.12", UNIT_D1, 12 }, 177 { "D1.13", UNIT_D1, 13 }, 178 { "D1.14", UNIT_D1, 14 }, 179 { "D1.15", UNIT_D1, 15 }, 180 { "D1.16", UNIT_D1, 16 }, 181 { "D1.17", UNIT_D1, 17 }, 182 { "D1.18", UNIT_D1, 18 }, 183 { "D1.19", UNIT_D1, 19 }, 184 { "D1.20", UNIT_D1, 20 }, 185 { "D1.21", UNIT_D1, 21 }, 186 { "D1.22", UNIT_D1, 22 }, 187 { "D1.23", UNIT_D1, 23 }, 188 { "D1.24", UNIT_D1, 24 }, 189 { "D1.25", UNIT_D1, 25 }, 190 { "D1.26", UNIT_D1, 26 }, 191 { "D1.27", UNIT_D1, 27 }, 192 { "D1.28", UNIT_D1, 28 }, 193 { "D1.29", UNIT_D1, 29 }, 194 { "D1.30", UNIT_D1, 30 }, 195 { "D1.31", UNIT_D1, 31 }, 196 197 { "A0StP", UNIT_A0, 0 }, 198 { "A0.0", UNIT_A0, 0 }, 199 { "A0FrP", UNIT_A0, 1 }, 200 { "A0.1", UNIT_A0, 1 }, 201 { "A0.2", UNIT_A0, 2 }, 202 { "A0.3", UNIT_A0, 3 }, 203 { "A0.4", UNIT_A0, 4 }, 204 { "A0.5", UNIT_A0, 5 }, 205 { "A0.6", UNIT_A0, 6 }, 206 { "A0.7", UNIT_A0, 7 }, 207 { "A0.8", UNIT_A0, 8 }, 208 { "A0.9", UNIT_A0, 9 }, 209 { "A0.10", UNIT_A0, 10 }, 210 { "A0.11", UNIT_A0, 11 }, 211 { "A0.12", UNIT_A0, 12 }, 212 { "A0.13", UNIT_A0, 13 }, 213 { "A0.14", UNIT_A0, 14 }, 214 { "A0.15", UNIT_A0, 15 }, 215 { "CPC0", UNIT_A0, 16 }, 216 217 { "A1GbP", UNIT_A1, 0 }, 218 { "A1.0", UNIT_A1, 0 }, 219 { "A1LbP", UNIT_A1, 1 }, 220 { "A1.1", UNIT_A1, 1 }, 221 { "A1.2", UNIT_A1, 2 }, 222 { "A1.3", UNIT_A1, 3 }, 223 { "A1.4", UNIT_A1, 4 }, 224 { "A1.5", UNIT_A1, 5 }, 225 { "A1.6", UNIT_A1, 6 }, 226 { "A1.7", UNIT_A1, 7 }, 227 { "A1.8", UNIT_A1, 8 }, 228 { "A1.9", UNIT_A1, 9 }, 229 { "A1.10", UNIT_A1, 10 }, 230 { "A1.11", UNIT_A1, 11 }, 231 { "A1.12", UNIT_A1, 12 }, 232 { "A1.13", UNIT_A1, 13 }, 233 { "A1.14", UNIT_A1, 14 }, 234 { "A1.15", UNIT_A1, 15 }, 235 { "CPC1", UNIT_A1, 16 }, 236 237 { "PC", UNIT_PC, 0 }, 238 { "PCX", UNIT_PC, 1 }, 239 240 { "RD", UNIT_RD, 0 }, 241 { "RA", UNIT_RD, 16 }, 242 { "RD", UNIT_RD, 16 }, 243 { "RAPF", UNIT_RD, 17 }, 244 { "RAM8X32", UNIT_RD, 22 }, 245 { "RAM8X", UNIT_RD, 23 }, 246 { "RABZ", UNIT_RD, 24 }, 247 { "RAWZ", UNIT_RD, 25 }, 248 { "RADZ", UNIT_RD, 26 }, 249 { "RABX", UNIT_RD, 28 }, 250 { "RAWX", UNIT_RD, 29 }, 251 { "RADX", UNIT_RD, 30 }, 252 { "RAMX", UNIT_RD, 31 }, 253 { "RAM16X", UNIT_RD, 31 }, 254 255 { "TXSTAT", UNIT_TR, 0 }, 256 { "TR.0", UNIT_TR, 0 }, 257 { "TXMASK", UNIT_TR, 1 }, 258 { "TR.1", UNIT_TR, 1 }, 259 { "TXSTATI", UNIT_TR, 2 }, 260 { "TR.2", UNIT_TR, 2 }, 261 { "TXMASKI", UNIT_TR, 3 }, 262 { "TR.3", UNIT_TR, 3 }, 263 { "TXPOLL", UNIT_TR, 4 }, 264 { "TR.4", UNIT_TR, 4 }, 265 { "TXGPIOI", UNIT_TR, 5 }, 266 { "TR.5", UNIT_TR, 5 }, 267 { "TXPOLLI", UNIT_TR, 6 }, 268 { "TR.6", UNIT_TR, 6 }, 269 { "TXGPIOO", UNIT_TR, 7 }, 270 { "TR.7", UNIT_TR, 7 }, 271 272 { "TTEXEC", UNIT_TT, 0 }, 273 { "TT.0", UNIT_TT, 0 }, 274 { "TTCTRL", UNIT_TT, 1 }, 275 { "TT.1", UNIT_TT, 1 }, 276 { "TTMARK", UNIT_TT, 2 }, 277 { "TT.2", UNIT_TT, 2 }, 278 { "TTREC", UNIT_TT, 3 }, 279 { "TT.3", UNIT_TT, 3 }, 280 { "GTEXEC", UNIT_TT, 4 }, 281 { "TT.4", UNIT_TT, 4 }, 282 283 { "FX.0", UNIT_FX, 0 }, 284 { "FX.1", UNIT_FX, 1 }, 285 { "FX.2", UNIT_FX, 2 }, 286 { "FX.3", UNIT_FX, 3 }, 287 { "FX.4", UNIT_FX, 4 }, 288 { "FX.5", UNIT_FX, 5 }, 289 { "FX.6", UNIT_FX, 6 }, 290 { "FX.7", UNIT_FX, 7 }, 291 { "FX.8", UNIT_FX, 8 }, 292 { "FX.9", UNIT_FX, 9 }, 293 { "FX.10", UNIT_FX, 10 }, 294 { "FX.11", UNIT_FX, 11 }, 295 { "FX.12", UNIT_FX, 12 }, 296 { "FX.13", UNIT_FX, 13 }, 297 { "FX.14", UNIT_FX, 14 }, 298 { "FX.15", UNIT_FX, 15 }, 299 }; 300 301 static const metag_reg metag_dsp_regtab[] = 302 { 303 { "D0AR.0", UNIT_RAM_D0, 0 }, 304 { "D0AR.1", UNIT_RAM_D0, 1 }, 305 { "D0AW.0", UNIT_RAM_D0, 2 }, 306 { "D0AW.1", UNIT_RAM_D0, 3 }, 307 { "D0BR.0", UNIT_RAM_D0, 4 }, 308 { "D0BR.1", UNIT_RAM_D0, 5 }, 309 { "D0BW.0", UNIT_RAM_D0, 6 }, 310 { "D0BW.1", UNIT_RAM_D0, 7 }, 311 { "D0ARI.0", UNIT_RAM_D0, 8 }, 312 { "D0ARI.1", UNIT_RAM_D0, 9 }, 313 { "D0AWI.0", UNIT_RAM_D0, 10 }, 314 { "D0AWI.1", UNIT_RAM_D0, 11 }, 315 { "D0BRI.0", UNIT_RAM_D0, 12 }, 316 { "D0BRI.1", UNIT_RAM_D0, 13 }, 317 { "D0BWI.0", UNIT_RAM_D0, 14 }, 318 { "D0BWI.1", UNIT_RAM_D0, 15 }, 319 320 { "AC0.0", UNIT_ACC_D0, 16 }, 321 { "AC0.1", UNIT_ACC_D0, 17 }, 322 { "AC0.2", UNIT_ACC_D0, 18 }, 323 { "AC0.3", UNIT_ACC_D0, 19 }, 324 325 { "D1AR.0", UNIT_RAM_D1, 0 }, 326 { "D1AR.1", UNIT_RAM_D1, 1 }, 327 { "D1AW.0", UNIT_RAM_D1, 2 }, 328 { "D1AW.1", UNIT_RAM_D1, 3 }, 329 { "D1BR.0", UNIT_RAM_D1, 4 }, 330 { "D1BR.1", UNIT_RAM_D1, 5 }, 331 { "D1BW.0", UNIT_RAM_D1, 6 }, 332 { "D1BW.1", UNIT_RAM_D1, 7 }, 333 { "D1ARI.0", UNIT_RAM_D1, 8 }, 334 { "D1ARI.1", UNIT_RAM_D1, 9 }, 335 { "D1AWI.0", UNIT_RAM_D1, 10 }, 336 { "D1AWI.1", UNIT_RAM_D1, 11 }, 337 { "D1BRI.0", UNIT_RAM_D1, 12 }, 338 { "D1BRI.1", UNIT_RAM_D1, 13 }, 339 { "D1BWI.0", UNIT_RAM_D1, 14 }, 340 { "D1BWI.1", UNIT_RAM_D1, 15 }, 341 342 { "AC1.0", UNIT_ACC_D1, 16 }, 343 { "AC1.1", UNIT_ACC_D1, 17 }, 344 { "AC1.2", UNIT_ACC_D1, 18 }, 345 { "AC1.3", UNIT_ACC_D1, 19 }, 346 347 { "T0", UNIT_DT, 0 }, 348 { "T1", UNIT_DT, 1 }, 349 { "T2", UNIT_DT, 2 }, 350 { "T3", UNIT_DT, 3 }, 351 { "T4", UNIT_DT, 4 }, 352 { "T5", UNIT_DT, 5 }, 353 { "T6", UNIT_DT, 6 }, 354 { "T7", UNIT_DT, 7 }, 355 { "T8", UNIT_DT, 8 }, 356 { "T9", UNIT_DT, 9 }, 357 { "TA", UNIT_DT, 10 }, 358 { "TB", UNIT_DT, 11 }, 359 { "TC", UNIT_DT, 12 }, 360 { "TD", UNIT_DT, 13 }, 361 { "TE", UNIT_DT, 14 }, 362 { "TF", UNIT_DT, 15 }, 363 }; 364 365 /* This table differs from 'metag_dsp_regtab' in that the number 366 fields in this table are suitable for insertion into DSPRAM 367 template definition instruction encodings. 368 369 The table is indexed by "load". The main benefit of this is that we 370 can implicitly check that the correct DSPRAM register has been used 371 when parsing, e.g. the read pointer only appears in the load table 372 and the write pointer only exists in the store table. 373 374 The ordering of the table entries might look a bit weird but it is 375 based on matching the longest register string. */ 376 static const metag_reg metag_dsp_tmpl_regtab[2][56] = 377 { 378 { 379 { "D0AW.0+D0AWI.0++", UNIT_RAM_D0, 18 }, 380 { "D0AW.0+D0AWI.0", UNIT_RAM_D0, 18 }, 381 { "D0AW.0+D0AWI.1++", UNIT_RAM_D0, 19 }, 382 { "D0AW.0+D0AWI.1", UNIT_RAM_D0, 19 }, 383 { "D0AW.0++", UNIT_RAM_D0, 17 }, 384 { "D0AW.0", UNIT_RAM_D0, 16 }, 385 { "D0AWI.0", UNIT_RAM_D0, 18 }, 386 { "D0AWI.1", UNIT_RAM_D0, 19 }, 387 { "D0AW.1+D0AWI.0++", UNIT_RAM_D0, 22 }, 388 { "D0AW.1+D0AWI.0", UNIT_RAM_D0, 22 }, 389 { "D0AW.1+D0AWI.1++", UNIT_RAM_D0, 23 }, 390 { "D0AW.1+D0AWI.1", UNIT_RAM_D0, 23 }, 391 { "D0AW.1++", UNIT_RAM_D0, 21 }, 392 { "D0AW.1", UNIT_RAM_D0, 20 }, 393 { "D0BW.0+D0BWI.0++", UNIT_RAM_D0, 26 }, 394 { "D0BW.0+D0BWI.0", UNIT_RAM_D0, 26 }, 395 { "D0BW.0+D0BWI.1++", UNIT_RAM_D0, 27 }, 396 { "D0BW.0+D0BWI.1", UNIT_RAM_D0, 27 }, 397 { "D0BW.0++", UNIT_RAM_D0, 25 }, 398 { "D0BW.0", UNIT_RAM_D0, 24 }, 399 { "D0BWI.0", UNIT_RAM_D0, 18 }, 400 { "D0BWI.1", UNIT_RAM_D0, 19 }, 401 { "D0BW.1+D0BWI.0++", UNIT_RAM_D0, 30 }, 402 { "D0BW.1+D0BWI.0", UNIT_RAM_D0, 30 }, 403 { "D0BW.1+D0BWI.1++", UNIT_RAM_D0, 31 }, 404 { "D0BW.1+D0BWI.1", UNIT_RAM_D0, 31 }, 405 { "D0BW.1++", UNIT_RAM_D0, 29 }, 406 { "D0BW.1", UNIT_RAM_D0, 28 }, 407 408 { "D1AW.0+D1AWI.0++", UNIT_RAM_D1, 18 }, 409 { "D1AW.0+D1AWI.0", UNIT_RAM_D1, 18 }, 410 { "D1AW.0+D1AWI.1++", UNIT_RAM_D1, 19 }, 411 { "D1AW.0+D1AWI.1", UNIT_RAM_D1, 19 }, 412 { "D1AW.0++", UNIT_RAM_D1, 17 }, 413 { "D1AW.0", UNIT_RAM_D1, 16 }, 414 { "D1AWI.0", UNIT_RAM_D1, 18 }, 415 { "D1AWI.1", UNIT_RAM_D1, 19 }, 416 { "D1AW.1+D1AWI.0++", UNIT_RAM_D1, 22 }, 417 { "D1AW.1+D1AWI.0", UNIT_RAM_D1, 22 }, 418 { "D1AW.1+D1AWI.1++", UNIT_RAM_D1, 23 }, 419 { "D1AW.1+D1AWI.1", UNIT_RAM_D1, 23 }, 420 { "D1AW.1++", UNIT_RAM_D1, 21 }, 421 { "D1AW.1", UNIT_RAM_D1, 20 }, 422 { "D1BW.0+D1BWI.0++", UNIT_RAM_D1, 26 }, 423 { "D1BW.0+D1BWI.0", UNIT_RAM_D1, 26 }, 424 { "D1BW.0+D1BWI.1++", UNIT_RAM_D1, 27 }, 425 { "D1BW.0+D1BWI.1", UNIT_RAM_D1, 27 }, 426 { "D1BW.0++", UNIT_RAM_D1, 25 }, 427 { "D1BW.0", UNIT_RAM_D1, 24 }, 428 { "D1BWI.0", UNIT_RAM_D1, 18 }, 429 { "D1BWI.1", UNIT_RAM_D1, 19 }, 430 { "D1BW.1+D1BWI.0++", UNIT_RAM_D1, 30 }, 431 { "D1BW.1+D1BWI.0", UNIT_RAM_D1, 30 }, 432 { "D1BW.1+D1BWI.1++", UNIT_RAM_D1, 31 }, 433 { "D1BW.1+D1BWI.1", UNIT_RAM_D1, 31 }, 434 { "D1BW.1++", UNIT_RAM_D1, 29 }, 435 { "D1BW.1", UNIT_RAM_D1, 28 }, 436 }, 437 438 { 439 { "D0AR.0+D0ARI.0++", UNIT_RAM_D0, 18 }, 440 { "D0AR.0+D0ARI.0", UNIT_RAM_D0, 18 }, 441 { "D0AR.0+D0ARI.1++", UNIT_RAM_D0, 19 }, 442 { "D0AR.0+D0ARI.1", UNIT_RAM_D0, 19 }, 443 { "D0AR.0++", UNIT_RAM_D0, 17 }, 444 { "D0AR.0", UNIT_RAM_D0, 16 }, 445 { "D0ARI.0", UNIT_RAM_D0, 18 }, 446 { "D0ARI.1", UNIT_RAM_D0, 19 }, 447 { "D0AR.1+D0ARI.0++", UNIT_RAM_D0, 22 }, 448 { "D0AR.1+D0ARI.0", UNIT_RAM_D0, 22 }, 449 { "D0AR.1+D0ARI.1++", UNIT_RAM_D0, 23 }, 450 { "D0AR.1+D0ARI.1", UNIT_RAM_D0, 23 }, 451 { "D0AR.1++", UNIT_RAM_D0, 21 }, 452 { "D0AR.1", UNIT_RAM_D0, 20 }, 453 { "D0BR.0+D0BRI.0++", UNIT_RAM_D0, 26 }, 454 { "D0BR.0+D0BRI.0", UNIT_RAM_D0, 26 }, 455 { "D0BR.0+D0BRI.1++", UNIT_RAM_D0, 27 }, 456 { "D0BR.0+D0BRI.1", UNIT_RAM_D0, 27 }, 457 { "D0BR.0++", UNIT_RAM_D0, 25 }, 458 { "D0BR.0", UNIT_RAM_D0, 24 }, 459 { "D0BRI.0", UNIT_RAM_D0, 18 }, 460 { "D0BRI.1", UNIT_RAM_D0, 19 }, 461 { "D0BR.1+D0BRI.0++", UNIT_RAM_D0, 30 }, 462 { "D0BR.1+D0BRI.0", UNIT_RAM_D0, 30 }, 463 { "D0BR.1+D0BRI.1++", UNIT_RAM_D0, 31 }, 464 { "D0BR.1+D0BRI.1", UNIT_RAM_D0, 31 }, 465 { "D0BR.1++", UNIT_RAM_D0, 29 }, 466 { "D0BR.1", UNIT_RAM_D0, 28 }, 467 468 { "D1AR.0+D1ARI.0++", UNIT_RAM_D1, 18 }, 469 { "D1AR.0+D1ARI.0", UNIT_RAM_D1, 18 }, 470 { "D1AR.0+D1ARI.1++", UNIT_RAM_D1, 19 }, 471 { "D1AR.0+D1ARI.1", UNIT_RAM_D1, 19 }, 472 { "D1AR.0++", UNIT_RAM_D1, 17 }, 473 { "D1AR.0", UNIT_RAM_D1, 16 }, 474 { "D1ARI.0", UNIT_RAM_D1, 18 }, 475 { "D1ARI.1", UNIT_RAM_D1, 19 }, 476 { "D1AR.1+D1ARI.0++", UNIT_RAM_D1, 22 }, 477 { "D1AR.1+D1ARI.0", UNIT_RAM_D1, 22 }, 478 { "D1AR.1+D1ARI.1++", UNIT_RAM_D1, 23 }, 479 { "D1AR.1+D1ARI.1", UNIT_RAM_D1, 23 }, 480 { "D1AR.1++", UNIT_RAM_D1, 21 }, 481 { "D1AR.1", UNIT_RAM_D1, 20 }, 482 { "D1BR.0+D1BRI.0++", UNIT_RAM_D1, 26 }, 483 { "D1BR.0+D1BRI.0", UNIT_RAM_D1, 26 }, 484 { "D1BR.0+D1BRI.1++", UNIT_RAM_D1, 27 }, 485 { "D1BR.0+D1BRI.1", UNIT_RAM_D1, 27 }, 486 { "D1BR.0++", UNIT_RAM_D1, 25 }, 487 { "D1BR.0", UNIT_RAM_D1, 24 }, 488 { "D1BR.1+D1BRI.0++", UNIT_RAM_D1, 30 }, 489 { "D1BR.1+D1BRI.0", UNIT_RAM_D1, 30 }, 490 { "D1BR.1+D1BRI.1++", UNIT_RAM_D1, 31 }, 491 { "D1BR.1+D1BRI.1", UNIT_RAM_D1, 31 }, 492 { "D1BR.1++", UNIT_RAM_D1, 29 }, 493 { "D1BR.1", UNIT_RAM_D1, 28 }, 494 { "D1BRI.0", UNIT_RAM_D1, 18 }, 495 { "D1BRI.1", UNIT_RAM_D1, 19 }, 496 }, 497 }; 498 499 typedef struct 500 { 501 const char * name; 502 unsigned int part; 503 } metag_acf; 504 505 static const metag_acf metag_acftab[] = 506 { 507 { "ACF.0", 0}, 508 { "ACF.1", 1}, 509 { "ACF.2", 2}, 510 { "ACF.3", 3}, 511 }; 512 513 enum insn_encoding 514 { 515 ENC_NONE, 516 ENC_MOV_U2U, 517 ENC_MOV_PORT, 518 ENC_MMOV, 519 ENC_MDRD, 520 ENC_MOVL_TTREC, 521 ENC_GET_SET, 522 ENC_GET_SET_EXT, 523 ENC_MGET_MSET, 524 ENC_COND_SET, 525 ENC_XFR, 526 ENC_MOV_CT, 527 ENC_SWAP, 528 ENC_JUMP, 529 ENC_CALLR, 530 ENC_ALU, 531 ENC_SHIFT, 532 ENC_MIN_MAX, 533 ENC_BITOP, 534 ENC_CMP, 535 ENC_BRANCH, 536 ENC_KICK, 537 ENC_SWITCH, 538 ENC_CACHER, 539 ENC_CACHEW, 540 ENC_ICACHE, 541 ENC_LNKGET, 542 ENC_FMOV, 543 ENC_FMMOV, 544 ENC_FMOV_DATA, 545 ENC_FMOV_I, 546 ENC_FPACK, 547 ENC_FSWAP, 548 ENC_FCMP, 549 ENC_FMINMAX, 550 ENC_FCONV, 551 ENC_FCONVX, 552 ENC_FBARITH, 553 ENC_FEARITH, 554 ENC_FREC, 555 ENC_FSIMD, 556 ENC_FGET_SET_ACF, 557 ENC_DGET_SET, 558 ENC_DTEMPLATE, 559 ENC_DALU, 560 ENC_MAX, 561 }; 562 563 enum insn_type 564 { 565 INSN_GP, 566 INSN_FPU, 567 INSN_DSP, 568 INSN_DSP_FPU, 569 }; 570 571 typedef struct 572 { 573 const char *name; 574 575 unsigned int core_flags; 576 #define CoreMeta11 0x1 /* The earliest Meta core we support */ 577 #define CoreMeta12 0x2 578 #define CoreMeta21 0x4 579 580 #define FpuMeta21 0x21 581 582 #define DspMeta21 0x100 583 584 unsigned int meta_opcode; 585 unsigned int meta_mask; 586 587 enum insn_type insn_type; 588 589 enum insn_encoding encoding; 590 591 #define DSP_ARGS_1 0x0000001 /* De.r,Dx.r,De.r (3 register operands) */ 592 #define DSP_ARGS_ACC2 0x0000002 /* Accumulator source operand 2 */ 593 #define DSP_ARGS_QR 0x0000004 /* QUICKRoT */ 594 #define DSP_ARGS_XACC 0x0000008 /* Cross-unit accumulator op */ 595 #define DSP_ARGS_DACC 0x0000010 /* Target accumulator as destination */ 596 #define DSP_ARGS_SRD 0x0000020 /* Source the RD port */ 597 #define DSP_ARGS_2 0x0000040 /* De.r,Dx.r (2 register operands) */ 598 #define DSP_ARGS_DSP_SRC1 0x0000080 /* Source a DSP register */ 599 #define DSP_ARGS_DSP_SRC2 0x0000100 /* Source a DSP register */ 600 #define DSP_ARGS_IMM 0x0000200 /* Immediate value for src 2 */ 601 #define DSP_ARGS_SPLIT8 0x0000400 /* Data unit split 8 operations */ 602 #define DSP_ARGS_12 0x0000800 /* De.r,Dx.r */ 603 #define DSP_ARGS_13 0x0001000 /* Dx.r,Rx.r */ 604 #define DSP_ARGS_14 0x0002000 /* DSPe.r,Dx.r */ 605 #define DSP_ARGS_15 0x0004000 /* DSPx.r,#I16 */ 606 #define DSP_ARGS_16 0x0008000 /* De.r,DSPx.r */ 607 #define DSP_ARGS_17 0x0010000 /* De.r|ACe.r,Dx.r,Rx.r|RD */ 608 #define DSP_ARGS_18 0x0020000 /* De.r,Dx.r|ACx.r */ 609 #define DSP_ARGS_20 0x0080000 /* De.r,Dx.r|ACx.r,De.r */ 610 #define DSP_ARGS_21 0x0100000 /* De.r,Dx.r|ACx.r,#I5 */ 611 #define DSP_ARGS_22 0x0200000 /* De.r,Dx.r|ACx.r,De.r|#I5 */ 612 #define DSP_ARGS_23 0x0400000 /* Ux.r,Dx.r|ACx.r,De.r|#I5 */ 613 #define GP_ARGS_QR 0x0000001 /* QUICKRoT */ 614 unsigned int arg_type; 615 } insn_template; 616 617 enum major_opcode 618 { 619 OPC_ADD, 620 OPC_SUB, 621 OPC_AND, 622 OPC_OR, 623 OPC_XOR, 624 OPC_SHIFT, 625 OPC_MUL, 626 OPC_CMP, 627 OPC_ADDR, 628 OPC_9, 629 OPC_MISC, 630 OPC_SET, 631 OPC_GET, 632 OPC_XFR, 633 OPC_CPR, 634 OPC_FPU, 635 }; 636 637 #define GET_EXT_MINOR 0x7 638 #define MOV_EXT_MINOR 0x6 639 #define MOVL_MINOR 0x2 640 641 #define MAJOR_OPCODE(opcode) (((opcode) >> 28) & 0xf) 642 #define MINOR_OPCODE(opcode) (((opcode) >> 24) & 0xf) 643 644 enum cond_code 645 { 646 COND_A, 647 COND_EQ, 648 COND_NE, 649 COND_CS, 650 COND_CC, 651 COND_MI, 652 COND_PL, 653 COND_VS, 654 COND_VC, 655 COND_HI, 656 COND_LS, 657 COND_GE, 658 COND_LT, 659 COND_GT, 660 COND_LE, 661 COND_NV, 662 }; 663 664 enum scond_code 665 { 666 SCOND_A, 667 SCOND_LEQ, 668 SCOND_LNE, 669 SCOND_LLO, 670 SCOND_LHS, 671 SCOND_HEQ, 672 SCOND_HNE, 673 SCOND_HLO, 674 SCOND_HHS, 675 SCOND_LGR, 676 SCOND_LLE, 677 SCOND_HGR, 678 SCOND_HLE, 679 SCOND_EEQ, 680 SCOND_ELO, 681 SCOND_NV, 682 }; 683 684 typedef struct 685 { 686 const char *name; 687 enum scond_code code; 688 } split_condition; 689 690 static const split_condition metag_scondtab[] ATTRIBUTE_UNUSED = 691 { 692 { "LEQ", SCOND_LEQ }, 693 { "LEZ", SCOND_LEQ }, 694 { "LNE", SCOND_LNE }, 695 { "LNZ", SCOND_LNE }, 696 { "LLO", SCOND_LLO }, 697 { "LCS", SCOND_LLO }, 698 { "LHS", SCOND_LHS }, 699 { "LCC", SCOND_LHS }, 700 { "HEQ", SCOND_HEQ }, 701 { "HEZ", SCOND_HEQ }, 702 { "HNE", SCOND_HNE }, 703 { "HNZ", SCOND_HNE }, 704 { "HLO", SCOND_HLO }, 705 { "HCS", SCOND_HLO }, 706 { "HHS", SCOND_HHS }, 707 { "HCC", SCOND_HHS }, 708 { "LGR", SCOND_LGR }, 709 { "LHI", SCOND_LGR }, 710 { "LLE", SCOND_LLE }, 711 { "LLS", SCOND_LLE }, 712 { "HGR", SCOND_HGR }, 713 { "HHI", SCOND_HGR }, 714 { "HLE", SCOND_HLE }, 715 { "HLS", SCOND_HLE }, 716 { "EEQ", SCOND_EEQ }, 717 { "EEZ", SCOND_EEQ }, 718 { "ELO", SCOND_ELO }, 719 { "ECS", SCOND_ELO }, 720 }; 721 722 static const split_condition metag_dsp_scondtab[] = 723 { 724 { "LEQ", SCOND_LEQ }, 725 { "LEZ", SCOND_LEQ }, 726 { "LNE", SCOND_LNE }, 727 { "LNZ", SCOND_LNE }, 728 { "LCS", SCOND_LLO }, 729 { "LLO", SCOND_LLO }, 730 { "LCC", SCOND_LHS }, 731 { "LHS", SCOND_LHS }, 732 { "HEQ", SCOND_HEQ }, 733 { "HEZ", SCOND_HEQ }, 734 { "HNE", SCOND_HNE }, 735 { "HNZ", SCOND_HNE }, 736 { "HCS", SCOND_HLO }, 737 { "HLO", SCOND_HLO }, 738 { "HCC", SCOND_HHS }, 739 { "HHS", SCOND_HHS }, 740 { "LHI", SCOND_LGR }, 741 { "LGR", SCOND_LGR }, 742 { "LLS", SCOND_LLE }, 743 { "LLE", SCOND_LLE }, 744 { "HHI", SCOND_HGR }, 745 { "HGR", SCOND_HGR }, 746 { "HLS", SCOND_HLE }, 747 { "HLE", SCOND_HLE }, 748 { "EEQ", SCOND_EEQ }, 749 { "EEZ", SCOND_EEQ }, 750 { "ECS", SCOND_ELO }, 751 { "ELO", SCOND_ELO }, 752 }; 753 754 static const split_condition metag_fpu_scondtab[] = 755 { 756 { "LEQ", SCOND_LEQ }, 757 { "LEZ", SCOND_LEQ }, 758 { "LNE", SCOND_LNE }, 759 { "LNZ", SCOND_LNE }, 760 { "LLO", SCOND_LLO }, 761 { "LCS", SCOND_LLO }, 762 { "LHS", SCOND_LHS }, 763 { "LCC", SCOND_LHS }, 764 { "HEQ", SCOND_HEQ }, 765 { "HEZ", SCOND_HEQ }, 766 { "HNE", SCOND_HNE }, 767 { "HNZ", SCOND_HNE }, 768 { "HLO", SCOND_HLO }, 769 { "HCS", SCOND_HLO }, 770 { "HHS", SCOND_HHS }, 771 { "HCC", SCOND_HHS }, 772 { "LGR", SCOND_LGR }, 773 { "LHI", SCOND_LGR }, 774 { "LLE", SCOND_LLE }, 775 { "LLS", SCOND_LLE }, 776 { "HGR", SCOND_HGR }, 777 { "HHI", SCOND_HGR }, 778 { "HLE", SCOND_HLE }, 779 { "HLS", SCOND_HLE }, 780 { "EEQ", SCOND_EEQ }, 781 { "EEZ", SCOND_EEQ }, 782 { "ELO", SCOND_ELO }, 783 { "ECS", SCOND_ELO }, 784 }; 785 786 enum fcond_code 787 { 788 FCOND_A, 789 FCOND_FEQ, 790 FCOND_UNE, 791 FCOND_FLT, 792 FCOND_UGE, 793 794 FCOND_UVS = 7, 795 FCOND_FVC, 796 FCOND_UGT, 797 FCOND_FLE, 798 FCOND_FGE, 799 FCOND_ULT, 800 FCOND_FGT, 801 FCOND_ULE, 802 FCOND_NV, 803 }; 804 805 #define COND_INSN(mnemonic, suffix, field_shift, flags, meta_opcode, \ 806 meta_mask, insn_type, encoding, args) \ 807 { mnemonic suffix, flags, meta_opcode, meta_mask, \ 808 insn_type, encoding, args }, \ 809 { mnemonic "A" suffix, flags, meta_opcode, meta_mask, \ 810 insn_type, encoding, args }, \ 811 { mnemonic "EQ" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ 812 meta_mask, insn_type, encoding, args }, \ 813 { mnemonic "Z" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ 814 meta_mask, insn_type, encoding, args }, \ 815 { mnemonic "NE" suffix, flags, meta_opcode | (COND_NE << field_shift), \ 816 meta_mask, insn_type, encoding, args }, \ 817 { mnemonic "NZ" suffix, flags, meta_opcode | (COND_NE << field_shift), \ 818 meta_mask, insn_type, encoding, args }, \ 819 { mnemonic "CS" suffix, flags, meta_opcode | (COND_CS << field_shift), \ 820 meta_mask, insn_type, encoding, args }, \ 821 { mnemonic "LO" suffix, flags, meta_opcode | (COND_CS << field_shift), \ 822 meta_mask, insn_type, encoding, args }, \ 823 { mnemonic "CC" suffix, flags, meta_opcode | (COND_CC << field_shift), \ 824 meta_mask, insn_type, encoding, args }, \ 825 { mnemonic "HS" suffix, flags, meta_opcode | (COND_CC << field_shift), \ 826 meta_mask, insn_type, encoding, args }, \ 827 { mnemonic "MI" suffix, flags, meta_opcode | (COND_MI << field_shift), \ 828 meta_mask, insn_type, encoding, args }, \ 829 { mnemonic "N" suffix, flags, meta_opcode | (COND_MI << field_shift), \ 830 meta_mask, insn_type, encoding, args }, \ 831 { mnemonic "PL" suffix, flags, meta_opcode | (COND_PL << field_shift), \ 832 meta_mask, insn_type, encoding, args }, \ 833 { mnemonic "NC" suffix, flags, meta_opcode | (COND_PL << field_shift), \ 834 meta_mask, insn_type, encoding, args }, \ 835 { mnemonic "VS" suffix, flags, meta_opcode | (COND_VS << field_shift), \ 836 meta_mask, insn_type, encoding, args }, \ 837 { mnemonic "VC" suffix, flags, meta_opcode | (COND_VC << field_shift), \ 838 meta_mask, insn_type, encoding, args }, \ 839 { mnemonic "HI" suffix, flags, meta_opcode | (COND_HI << field_shift), \ 840 meta_mask, insn_type, encoding, args }, \ 841 { mnemonic "LS" suffix, flags, meta_opcode | (COND_LS << field_shift), \ 842 meta_mask, insn_type, encoding, args }, \ 843 { mnemonic "GE" suffix, flags, meta_opcode | (COND_GE << field_shift), \ 844 meta_mask, insn_type, encoding, args }, \ 845 { mnemonic "LT" suffix, flags, meta_opcode | (COND_LT << field_shift), \ 846 meta_mask, insn_type, encoding, args }, \ 847 { mnemonic "GT" suffix, flags, meta_opcode | (COND_GT << field_shift), \ 848 meta_mask, insn_type, encoding, args }, \ 849 { mnemonic "LE" suffix, flags, meta_opcode | (COND_LE << field_shift), \ 850 meta_mask, insn_type, encoding, args }, \ 851 { mnemonic "NV" suffix, flags, meta_opcode | (COND_NV << field_shift), \ 852 meta_mask, insn_type, encoding, args }, \ 853 { mnemonic "FEQ" suffix, flags, meta_opcode | \ 854 (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 855 { mnemonic "FZ" suffix, flags, meta_opcode | \ 856 (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 857 { mnemonic "UNE" suffix, flags, meta_opcode | \ 858 (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 859 { mnemonic "UNZ" suffix, flags, meta_opcode | \ 860 (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 861 { mnemonic "FLT" suffix, flags, meta_opcode | \ 862 (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 863 { mnemonic "FLO" suffix, flags, meta_opcode | \ 864 (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 865 { mnemonic "UGE" suffix, flags, meta_opcode | \ 866 (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 867 { mnemonic "UHS" suffix, flags, meta_opcode | \ 868 (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 869 { mnemonic "UVS" suffix, flags, meta_opcode | \ 870 (FCOND_UVS << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 871 { mnemonic "FVC" suffix, flags, meta_opcode | \ 872 (FCOND_FVC << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 873 { mnemonic "UGT" suffix, flags, meta_opcode | \ 874 (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 875 { mnemonic "UHI" suffix, flags, meta_opcode | \ 876 (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 877 { mnemonic "FLE" suffix, flags, meta_opcode | \ 878 (FCOND_FLE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 879 { mnemonic "FGE" suffix, flags, meta_opcode | \ 880 (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 881 { mnemonic "FHS" suffix, flags, meta_opcode | \ 882 (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 883 { mnemonic "ULT" suffix, flags, meta_opcode | \ 884 (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 885 { mnemonic "ULO" suffix, flags, meta_opcode | \ 886 (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 887 { mnemonic "FGT" suffix, flags, meta_opcode | \ 888 (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 889 { mnemonic "FHI" suffix, flags, meta_opcode | \ 890 (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 891 { mnemonic "ULE" suffix, flags, meta_opcode | \ 892 (FCOND_ULE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 893 { mnemonic "NV" suffix, flags, meta_opcode | \ 894 (FCOND_NV << field_shift), meta_mask, INSN_FPU, encoding, args } 895 896 #define FCOND_INSN(mnemonic, suffix, field_shift, flags, meta_opcode, \ 897 meta_mask, insn_type, encoding, args) \ 898 { mnemonic suffix, flags, meta_opcode, meta_mask, \ 899 insn_type, encoding, args }, \ 900 { mnemonic "A" suffix, flags, meta_opcode, meta_mask, \ 901 insn_type, encoding, args }, \ 902 { mnemonic "FEQ" suffix, flags, meta_opcode | \ 903 (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 904 { mnemonic "FZ" suffix, flags, meta_opcode | \ 905 (FCOND_FEQ << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 906 { mnemonic "UNE" suffix, flags, meta_opcode | \ 907 (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 908 { mnemonic "UNZ" suffix, flags, meta_opcode | \ 909 (FCOND_UNE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 910 { mnemonic "FLO" suffix, flags, meta_opcode | \ 911 (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 912 { mnemonic "FLT" suffix, flags, meta_opcode | \ 913 (FCOND_FLT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 914 { mnemonic "UHS" suffix, flags, meta_opcode | \ 915 (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 916 { mnemonic "UGE" suffix, flags, meta_opcode | \ 917 (FCOND_UGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 918 { mnemonic "UVS" suffix, flags, meta_opcode | \ 919 (FCOND_UVS << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 920 { mnemonic "FVC" suffix, flags, meta_opcode | \ 921 (FCOND_FVC << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 922 { mnemonic "UHI" suffix, flags, meta_opcode | \ 923 (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 924 { mnemonic "UGT" suffix, flags, meta_opcode | \ 925 (FCOND_UGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 926 { mnemonic "FLE" suffix, flags, meta_opcode | \ 927 (FCOND_FLE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 928 { mnemonic "FGE" suffix, flags, meta_opcode | \ 929 (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 930 { mnemonic "FHS" suffix, flags, meta_opcode | \ 931 (FCOND_FGE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 932 { mnemonic "ULT" suffix, flags, meta_opcode | \ 933 (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 934 { mnemonic "ULO" suffix, flags, meta_opcode | \ 935 (FCOND_ULT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 936 { mnemonic "FGT" suffix, flags, meta_opcode | \ 937 (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 938 { mnemonic "FHI" suffix, flags, meta_opcode | \ 939 (FCOND_FGT << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 940 { mnemonic "ULE" suffix, flags, meta_opcode | \ 941 (FCOND_ULE << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 942 { mnemonic "NV" suffix, flags, meta_opcode | \ 943 (FCOND_NV << field_shift), meta_mask, INSN_FPU, encoding, args }, \ 944 { mnemonic "EQ" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ 945 meta_mask, insn_type, encoding, args }, \ 946 { mnemonic "Z" suffix, flags, meta_opcode | (COND_EQ << field_shift), \ 947 meta_mask, insn_type, encoding, args }, \ 948 { mnemonic "NE" suffix, flags, meta_opcode | (COND_NE << field_shift), \ 949 meta_mask, insn_type, encoding, args }, \ 950 { mnemonic "NZ" suffix, flags, meta_opcode | (COND_NE << field_shift), \ 951 meta_mask, insn_type, encoding, args }, \ 952 { mnemonic "CS" suffix, flags, meta_opcode | (COND_CS << field_shift), \ 953 meta_mask, insn_type, encoding, args }, \ 954 { mnemonic "LO" suffix, flags, meta_opcode | (COND_CS << field_shift), \ 955 meta_mask, insn_type, encoding, args }, \ 956 { mnemonic "CC" suffix, flags, meta_opcode | (COND_CC << field_shift), \ 957 meta_mask, insn_type, encoding, args }, \ 958 { mnemonic "HS" suffix, flags, meta_opcode | (COND_CC << field_shift), \ 959 meta_mask, insn_type, encoding, args }, \ 960 { mnemonic "MI" suffix, flags, meta_opcode | (COND_MI << field_shift), \ 961 meta_mask, insn_type, encoding, args }, \ 962 { mnemonic "N" suffix, flags, meta_opcode | (COND_MI << field_shift), \ 963 meta_mask, insn_type, encoding, args }, \ 964 { mnemonic "PL" suffix, flags, meta_opcode | (COND_PL << field_shift), \ 965 meta_mask, insn_type, encoding, args }, \ 966 { mnemonic "NC" suffix, flags, meta_opcode | (COND_PL << field_shift), \ 967 meta_mask, insn_type, encoding, args }, \ 968 { mnemonic "VS" suffix, flags, meta_opcode | (COND_VS << field_shift), \ 969 meta_mask, insn_type, encoding, args }, \ 970 { mnemonic "VC" suffix, flags, meta_opcode | (COND_VC << field_shift), \ 971 meta_mask, insn_type, encoding, args }, \ 972 { mnemonic "HI" suffix, flags, meta_opcode | (COND_HI << field_shift), \ 973 meta_mask, insn_type, encoding, args }, \ 974 { mnemonic "LS" suffix, flags, meta_opcode | (COND_LS << field_shift), \ 975 meta_mask, insn_type, encoding, args }, \ 976 { mnemonic "GE" suffix, flags, meta_opcode | (COND_GE << field_shift), \ 977 meta_mask, insn_type, encoding, args }, \ 978 { mnemonic "LT" suffix, flags, meta_opcode | (COND_LT << field_shift), \ 979 meta_mask, insn_type, encoding, args }, \ 980 { mnemonic "GT" suffix, flags, meta_opcode | (COND_GT << field_shift), \ 981 meta_mask, insn_type, encoding, args }, \ 982 { mnemonic "LE" suffix, flags, meta_opcode | (COND_LE << field_shift), \ 983 meta_mask, insn_type, encoding, args }, \ 984 { mnemonic "NV" suffix, flags, meta_opcode | (COND_NV << field_shift), \ 985 meta_mask, insn_type, encoding, args } 986 987 #define TEMPLATE_INSN(flags, meta_opcode, meta_mask, insn_type) \ 988 { "T0", flags, meta_opcode | 0x0, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 989 { "T1", flags, meta_opcode | 0x1, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 990 { "T2", flags, meta_opcode | 0x2, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 991 { "T3", flags, meta_opcode | 0x3, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 992 { "T4", flags, meta_opcode | 0x4, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 993 { "T5", flags, meta_opcode | 0x5, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 994 { "T6", flags, meta_opcode | 0x6, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 995 { "T7", flags, meta_opcode | 0x7, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 996 { "T8", flags, meta_opcode | 0x8, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 997 { "T9", flags, meta_opcode | 0x9, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 998 { "TA", flags, meta_opcode | 0xa, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 999 { "TB", flags, meta_opcode | 0xb, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 1000 { "TC", flags, meta_opcode | 0xc, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 1001 { "TD", flags, meta_opcode | 0xd, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 1002 { "TE", flags, meta_opcode | 0xe, meta_mask, insn_type, ENC_DTEMPLATE, 0 }, \ 1003 { "TF", flags, meta_opcode | 0xf, meta_mask, insn_type, ENC_DTEMPLATE, 0 } 1004 1005 1006 /* Unimplemented GP instructions: 1007 CPR - coprocessor read 1008 CPW - coprocessor write 1009 MORT - morton order operation 1010 VPACK, VADD, VSUB - vector instructions 1011 1012 The order of the entries in this table is extremely important. DO 1013 NOT modify it unless you know what you're doing. If you do modify 1014 it, be sure to run the entire testsuite to make sure you haven't 1015 caused a regression. */ 1016 1017 static const insn_template metag_optab[] = 1018 { 1019 /* Port-to-unit MOV */ 1020 COND_INSN ("MOVB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1021 0xa1800000, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0), 1022 COND_INSN ("MOVW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1023 0xa1800001, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0), 1024 COND_INSN ("MOVD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1025 0xa1800200, 0xfff83e1f, INSN_GP, ENC_MOV_PORT, 0), 1026 COND_INSN ("MOVL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1027 0xa2800000, 0xfff8019f, INSN_GP, ENC_MOV_PORT, 0), 1028 1029 /* Read pipeline prime/drain */ 1030 { "MMOVD", CoreMeta11|CoreMeta12|CoreMeta21, 1031 0xca000000, 0xff00001f, INSN_GP, ENC_MMOV, 0 }, 1032 { "MMOVL", CoreMeta11|CoreMeta12|CoreMeta21, 1033 0xcb000000, 0xff00001f, INSN_GP, ENC_MMOV, 0 }, 1034 { "MMOVD", CoreMeta11|CoreMeta12|CoreMeta21, 1035 0xcc000000, 0xff07c067, INSN_GP, ENC_MMOV, 0 }, 1036 { "MMOVL", CoreMeta11|CoreMeta12|CoreMeta21, 1037 0xcd000000, 0xff07c067, INSN_GP, ENC_MMOV, 0 }, 1038 1039 /* Read pipeline flush */ 1040 { "MDRD", CoreMeta11|CoreMeta12|CoreMeta21, 1041 0xcc000002, 0xffffc07f, INSN_GP, ENC_MDRD, 0 }, 1042 1043 /* Unit-to-TTREC MOVL */ 1044 COND_INSN ("MOVL", "", 1, CoreMeta12|CoreMeta21, 1045 0xa2002001, 0xff003e7f, INSN_GP, ENC_MOVL_TTREC, 0), 1046 1047 /* MOV to RA (extended) */ 1048 { "MOVB", CoreMeta11|CoreMeta12|CoreMeta21, 1049 0xa6000000, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, 1050 { "MOVW", CoreMeta11|CoreMeta12|CoreMeta21, 1051 0xa6000002, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, 1052 { "MOVD", CoreMeta11|CoreMeta12|CoreMeta21, 1053 0xa6000004, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, 1054 { "MOVL", CoreMeta11|CoreMeta12|CoreMeta21, 1055 0xa6000006, 0xff00001e, INSN_GP, ENC_GET_SET_EXT, 0 }, 1056 1057 /* Extended GET */ 1058 { "GETB", CoreMeta11|CoreMeta12|CoreMeta21, 1059 0xa7000000, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1060 { "GETW", CoreMeta11|CoreMeta12|CoreMeta21, 1061 0xa7000002, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1062 { "GETD", CoreMeta11|CoreMeta12|CoreMeta21, 1063 0xa7000004, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1064 { "GETL", CoreMeta11|CoreMeta12|CoreMeta21, 1065 0xa7000006, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1066 1067 /* Extended SET */ 1068 { "SETB", CoreMeta11|CoreMeta12|CoreMeta21, 1069 0xa5000000, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1070 { "SETW", CoreMeta11|CoreMeta12|CoreMeta21, 1071 0xa5000002, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1072 { "SETD", CoreMeta11|CoreMeta12|CoreMeta21, 1073 0xa5000004, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1074 { "SETL", CoreMeta11|CoreMeta12|CoreMeta21, 1075 0xa5000006, 0xff000006, INSN_GP, ENC_GET_SET_EXT, 0 }, 1076 1077 /* MOV to RA */ 1078 { "MOVB", CoreMeta11|CoreMeta12|CoreMeta21, 1079 0xc000000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, 1080 { "MOVW", CoreMeta11|CoreMeta12|CoreMeta21, 1081 0xc100000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, 1082 { "MOVD", CoreMeta11|CoreMeta12|CoreMeta21, 1083 0xc400000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, 1084 { "MOVL", CoreMeta11|CoreMeta12|CoreMeta21, 1085 0xc500000c, 0xfd00001e, INSN_GP, ENC_GET_SET, 0 }, 1086 1087 /* Standard GET */ 1088 { "GETB", CoreMeta11|CoreMeta12|CoreMeta21, 1089 0xc0000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1090 { "GETW", CoreMeta11|CoreMeta12|CoreMeta21, 1091 0xc1000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1092 { "GETD", CoreMeta11|CoreMeta12|CoreMeta21, 1093 0xc4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1094 /* GET is a synonym for GETD. */ 1095 { "GET", CoreMeta11|CoreMeta12|CoreMeta21, 1096 0xc4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1097 { "GETL", CoreMeta11|CoreMeta12|CoreMeta21, 1098 0xc5000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1099 1100 /* Standard SET */ 1101 { "SETB", CoreMeta11|CoreMeta12|CoreMeta21, 1102 0xb0000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1103 { "SETW", CoreMeta11|CoreMeta12|CoreMeta21, 1104 0xb1000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1105 { "SETD", CoreMeta11|CoreMeta12|CoreMeta21, 1106 0xb4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1107 /* SET is a synonym for SETD. */ 1108 { "SET", CoreMeta11|CoreMeta12|CoreMeta21, 1109 0xb4000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1110 { "SETL", CoreMeta11|CoreMeta12|CoreMeta21, 1111 0xb5000000, 0xfd000000, INSN_GP, ENC_GET_SET, 0 }, 1112 1113 /* Multiple GET */ 1114 { "MGETD", CoreMeta11|CoreMeta12|CoreMeta21, 1115 0xc8000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, 1116 { "MGETL", CoreMeta11|CoreMeta12|CoreMeta21, 1117 0xc9000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, 1118 1119 /* Multiple SET */ 1120 { "MSETD", CoreMeta11|CoreMeta12|CoreMeta21, 1121 0xb8000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, 1122 { "MSETL", CoreMeta11|CoreMeta12|CoreMeta21, 1123 0xb9000000, 0xff000007, INSN_GP, ENC_MGET_MSET, 0 }, 1124 1125 /* Conditional SET */ 1126 COND_INSN ("SETB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1127 0xa4000000, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1128 COND_INSN ("SETW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1129 0xa4000001, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1130 COND_INSN ("SETD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1131 0xa4000200, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1132 COND_INSN ("SETL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1133 0xa4000201, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1134 { "XFRD", CoreMeta11|CoreMeta12|CoreMeta21, 1135 0xd0000000, 0xf2000000, INSN_GP, ENC_XFR, 0 }, 1136 { "XFRL", CoreMeta11|CoreMeta12|CoreMeta21, 1137 0xd2000000, 0xf2000000, INSN_GP, ENC_XFR, 0 }, 1138 1139 /* Fast control register setup */ 1140 { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, 1141 0xa9000000, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, 1142 { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, 1143 0xa9000001, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, 1144 { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, 1145 0xa9000004, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, 1146 { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, 1147 0xa9000005, 0xff000005, INSN_GP, ENC_MOV_CT, 0 }, 1148 1149 /* Internal transfer operations */ 1150 { "JUMP", CoreMeta11|CoreMeta12|CoreMeta21, 1151 0xac000000, 0xff000004, INSN_GP, ENC_JUMP, 0 }, 1152 { "CALL", CoreMeta11|CoreMeta12|CoreMeta21, 1153 0xac000004, 0xff000004, INSN_GP, ENC_JUMP, 0 }, 1154 { "CALLR", CoreMeta11|CoreMeta12|CoreMeta21, 1155 0xab000000, 0xff000000, INSN_GP, ENC_CALLR, 0 }, 1156 1157 /* Address unit ALU operations */ 1158 { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, 1159 0x80000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1160 { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, 1161 0x82000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1162 { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, 1163 0x82000005, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1164 { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, 1165 0x80000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1166 { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, 1167 0x82000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1168 { "ADDT", CoreMeta11|CoreMeta12|CoreMeta21, 1169 0x82000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1170 { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, 1171 0x86000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1172 COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1173 0x84000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1174 COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1175 0x86000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1176 { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, 1177 0x88000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1178 { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, 1179 0x8a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1180 { "NEGT", CoreMeta11|CoreMeta12|CoreMeta21, 1181 0x8a000005, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1182 { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, 1183 0x88000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1184 { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, 1185 0x8a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1186 { "SUBT", CoreMeta11|CoreMeta12|CoreMeta21, 1187 0x8a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1188 { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, 1189 0x8e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1190 COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1191 0x8c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1192 COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1193 0x8e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1194 1195 /* Data unit ALU operations */ 1196 { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, 1197 0x00000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1198 { "MOVS", CoreMeta11|CoreMeta12|CoreMeta21, 1199 0x08000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1200 { "MOV", CoreMeta11|CoreMeta12|CoreMeta21, 1201 0x02000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1202 { "MOVS", CoreMeta11|CoreMeta12|CoreMeta21, 1203 0x0a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1204 { "MOVT", CoreMeta11|CoreMeta12|CoreMeta21, 1205 0x02000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1206 { "MOVST", CoreMeta11|CoreMeta12|CoreMeta21, 1207 0x0a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1208 { "ADD", DspMeta21, 1209 0x00000100, 0xfe000104, INSN_DSP, ENC_DALU, 1210 DSP_ARGS_1|DSP_ARGS_ACC2|DSP_ARGS_XACC|DSP_ARGS_IMM }, 1211 { "ADD", DspMeta21, 1212 0x02000003, 0xfe000003, INSN_DSP, ENC_DALU, 1213 DSP_ARGS_1|DSP_ARGS_IMM }, 1214 COND_INSN ("ADD", "", 1, DspMeta21, 1215 0x040001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), 1216 { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, 1217 0x00000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1218 { "ADDS", DspMeta21, 1219 0x08000100, 0xfe000104, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_ACC2 }, 1220 { "ADDS", DspMeta21, 1221 0x0a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1222 { "ADDS", CoreMeta11|CoreMeta12|CoreMeta21, 1223 0x08000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1224 { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, 1225 0x02000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1226 { "ADDS", CoreMeta11|CoreMeta12|CoreMeta21, 1227 0x0a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1228 { "ADDT", CoreMeta11|CoreMeta12|CoreMeta21, 1229 0x02000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1230 { "ADDST", CoreMeta11|CoreMeta12|CoreMeta21, 1231 0x0a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1232 { "ADD", CoreMeta11|CoreMeta12|CoreMeta21, 1233 0x06000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1234 COND_INSN ("ADDS", "", 1, DspMeta21, 1235 0x0c0001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), 1236 { "ADDS", CoreMeta11|CoreMeta12|CoreMeta21, 1237 0x0e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1238 COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1239 0x04000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1240 COND_INSN ("ADDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1241 0x0c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1242 COND_INSN ("ADD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1243 0x06000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1244 COND_INSN ("ADDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1245 0x0e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1246 { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, 1247 0x10000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1248 { "NEGS", CoreMeta11|CoreMeta12|CoreMeta21, 1249 0x18000004, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1250 { "NEG", CoreMeta11|CoreMeta12|CoreMeta21, 1251 0x12000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1252 { "NEGS", CoreMeta11|CoreMeta12|CoreMeta21, 1253 0x1a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1254 { "NEGT", CoreMeta11|CoreMeta12|CoreMeta21, 1255 0x12000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1256 { "NEGST", CoreMeta11|CoreMeta12|CoreMeta21, 1257 0x1a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1258 { "SUB", DspMeta21, 1259 0x10000100, 0xfe000104, INSN_DSP, ENC_DALU, 1260 DSP_ARGS_1|DSP_ARGS_ACC2|DSP_ARGS_XACC }, 1261 { "SUB", DspMeta21, 1262 0x12000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1263 { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, 1264 0x10000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1265 { "SUBS", CoreMeta11|CoreMeta12|CoreMeta21, 1266 0x18000000, 0xfe0001fc, INSN_GP, ENC_ALU, 0 }, 1267 { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, 1268 0x12000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1269 { "SUBS", CoreMeta11|CoreMeta12|CoreMeta21, 1270 0x1a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1271 { "SUBT", CoreMeta11|CoreMeta12|CoreMeta21, 1272 0x12000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1273 { "SUBS", DspMeta21, 1274 0x18000100, 0xfe000104, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_ACC2 }, 1275 { "SUBS", DspMeta21, 1276 0x1a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1277 { "SUBST", CoreMeta11|CoreMeta12|CoreMeta21, 1278 0x1a000001, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1279 { "SUB", CoreMeta11|CoreMeta12|CoreMeta21, 1280 0x16000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1281 { "SUBS", CoreMeta11|CoreMeta12|CoreMeta21, 1282 0x1e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1283 COND_INSN ("SUBS", "", 1, DspMeta21, 1284 0x1c0001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), 1285 COND_INSN ("SUB", "", 1, DspMeta21, 1286 0x140001e0, 0xfe0001fe, INSN_DSP, ENC_DALU, DSP_ARGS_1), 1287 COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1288 0x14000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1289 COND_INSN ("SUBS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1290 0x1c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1291 COND_INSN ("SUB", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1292 0x16000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1293 COND_INSN ("SUBS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1294 0x1e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1295 { "AND", CoreMeta11|CoreMeta12|CoreMeta21, 1296 0x20000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1297 { "ANDS", CoreMeta11|CoreMeta12|CoreMeta21, 1298 0x28000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1299 { "ANDQ", CoreMeta11|CoreMeta12|CoreMeta21, 1300 0x20000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1301 { "ANDSQ", CoreMeta11|CoreMeta12|CoreMeta21, 1302 0x28000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1303 { "AND", CoreMeta11|CoreMeta12|CoreMeta21, 1304 0x22000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1305 { "ANDMB", CoreMeta11|CoreMeta12|CoreMeta21, 1306 0x22000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1307 { "ANDS", CoreMeta11|CoreMeta12|CoreMeta21, 1308 0x2a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1309 { "ANDSMB", CoreMeta11|CoreMeta12|CoreMeta21, 1310 0x2a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1311 { "ANDT", CoreMeta11|CoreMeta12|CoreMeta21, 1312 0x22000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1313 { "ANDMT", CoreMeta11|CoreMeta12|CoreMeta21, 1314 0x22000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1315 { "ANDST", CoreMeta11|CoreMeta12|CoreMeta21, 1316 0x2a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1317 { "ANDSMT", CoreMeta11|CoreMeta12|CoreMeta21, 1318 0x2a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1319 { "AND", DspMeta21, 1320 0x20000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1321 { "AND", CoreMeta11|CoreMeta12|CoreMeta21, 1322 0x26000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1323 { "ANDS", CoreMeta11|CoreMeta12|CoreMeta21, 1324 0x2e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1325 { "ANDQ", CoreMeta11|CoreMeta12|CoreMeta21, 1326 0x26000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1327 { "ANDSQ", CoreMeta11|CoreMeta12|CoreMeta21, 1328 0x2e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1329 { "ANDQ", DspMeta21, 1330 0x20000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, 1331 COND_INSN ("ANDQ", "", 1, DspMeta21, 1332 0x240001c0, 0xfe0001de, INSN_DSP, ENC_DALU, 1333 DSP_ARGS_1|DSP_ARGS_QR), 1334 COND_INSN ("AND", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1335 0x24000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1336 { "ANDSQ", DspMeta21, 1337 0x28000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, 1338 COND_INSN ("ANDSQ", "", 1, DspMeta21, 1339 0x2c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU, 1340 DSP_ARGS_1|DSP_ARGS_QR), 1341 COND_INSN ("ANDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1342 0x2c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1343 COND_INSN ("AND", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1344 0x26000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1345 COND_INSN ("ANDS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1346 0x2e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1347 COND_INSN ("ANDQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1348 0x26000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), 1349 COND_INSN ("ANDSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1350 0x2e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), 1351 { "OR", CoreMeta11|CoreMeta12|CoreMeta21, 1352 0x30000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1353 { "ORS", CoreMeta11|CoreMeta12|CoreMeta21, 1354 0x38000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1355 { "ORQ", CoreMeta11|CoreMeta12|CoreMeta21, 1356 0x30000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1357 { "ORSQ", CoreMeta11|CoreMeta12|CoreMeta21, 1358 0x38000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1359 { "OR", CoreMeta11|CoreMeta12|CoreMeta21, 1360 0x32000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1361 { "ORMB", CoreMeta11|CoreMeta12|CoreMeta21, 1362 0x32000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1363 { "ORS", CoreMeta11|CoreMeta12|CoreMeta21, 1364 0x3a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1365 { "ORSMB", CoreMeta11|CoreMeta12|CoreMeta21, 1366 0x3a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1367 { "ORT", CoreMeta11|CoreMeta12|CoreMeta21, 1368 0x32000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1369 { "ORMT", CoreMeta11|CoreMeta12|CoreMeta21, 1370 0x32000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1371 { "ORST", CoreMeta11|CoreMeta12|CoreMeta21, 1372 0x3a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1373 { "ORSMT", CoreMeta11|CoreMeta12|CoreMeta21, 1374 0x3a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1375 { "OR", CoreMeta11|CoreMeta12|CoreMeta21, 1376 0x36000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1377 { "ORS", CoreMeta11|CoreMeta12|CoreMeta21, 1378 0x3e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1379 { "ORQ", CoreMeta11|CoreMeta12|CoreMeta21, 1380 0x36000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1381 { "ORSQ", CoreMeta11|CoreMeta12|CoreMeta21, 1382 0x3e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1383 { "ORQ", DspMeta21, 1384 0x30000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, 1385 COND_INSN ("ORQ", "", 1, DspMeta21, 1386 0x340001c0, 0xfe0001de, INSN_DSP, ENC_DALU, 1387 DSP_ARGS_1|DSP_ARGS_QR), 1388 COND_INSN ("OR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1389 0x34000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1390 { "ORSQ", DspMeta21, 1391 0x38000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, 1392 COND_INSN ("ORSQ", "", 1, DspMeta21, 1393 0x3c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU, 1394 DSP_ARGS_1|DSP_ARGS_QR), 1395 COND_INSN ("ORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1396 0x3c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1397 COND_INSN ("OR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1398 0x36000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1399 COND_INSN ("ORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1400 0x3e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1401 COND_INSN ("ORQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1402 0x36000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), 1403 COND_INSN ("ORSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1404 0x3e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), 1405 { "XOR", CoreMeta11|CoreMeta12|CoreMeta21, 1406 0x40000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1407 { "XORS", CoreMeta11|CoreMeta12|CoreMeta21, 1408 0x48000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1409 { "XORQ", CoreMeta11|CoreMeta12|CoreMeta21, 1410 0x40000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1411 { "XORSQ", CoreMeta11|CoreMeta12|CoreMeta21, 1412 0x48000040, 0xfe00017e, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1413 { "XOR", CoreMeta11|CoreMeta12|CoreMeta21, 1414 0x42000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1415 { "XORMB", CoreMeta11|CoreMeta12|CoreMeta21, 1416 0x42000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1417 { "XORS", CoreMeta11|CoreMeta12|CoreMeta21, 1418 0x4a000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1419 { "XORSMB", CoreMeta11|CoreMeta12|CoreMeta21, 1420 0x4a000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1421 { "XORT", CoreMeta11|CoreMeta12|CoreMeta21, 1422 0x42000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1423 { "XORMT", CoreMeta11|CoreMeta12|CoreMeta21, 1424 0x42000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1425 { "XORST", CoreMeta11|CoreMeta12|CoreMeta21, 1426 0x4a000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1427 { "XORSMT", CoreMeta11|CoreMeta12|CoreMeta21, 1428 0x4a000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1429 { "XOR", CoreMeta11|CoreMeta12|CoreMeta21, 1430 0x46000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1431 { "XORS", CoreMeta11|CoreMeta12|CoreMeta21, 1432 0x4e000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1433 { "XORQ", CoreMeta11|CoreMeta12|CoreMeta21, 1434 0x46000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1435 { "XORSQ", CoreMeta11|CoreMeta12|CoreMeta21, 1436 0x4e000021, 0xfe000021, INSN_GP, ENC_ALU, GP_ARGS_QR }, 1437 { "XORQ", DspMeta21, 1438 0x40000140, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, 1439 COND_INSN ("XORQ", "", 1, DspMeta21, 1440 0x440001c0, 0xfe0001de, INSN_DSP, ENC_DALU, 1441 DSP_ARGS_1|DSP_ARGS_QR), 1442 COND_INSN ("XOR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1443 0x44000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1444 { "XORSQ", DspMeta21, 1445 0x48000140, 0xfe000140, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_QR }, 1446 COND_INSN ("XORSQ", "", 1, DspMeta21, 1447 0x4c0001c0, 0xfe0001de, INSN_DSP, ENC_DALU, 1448 DSP_ARGS_1|DSP_ARGS_QR), 1449 COND_INSN ("XORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1450 0x4c000000, 0xfe00001e, INSN_GP, ENC_ALU, 0), 1451 COND_INSN ("XOR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1452 0x46000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1453 COND_INSN ("XORS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1454 0x4e000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1455 COND_INSN ("XORQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1456 0x46000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), 1457 COND_INSN ("XORSQ", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1458 0x4e000001, 0xfe00003f, INSN_GP, ENC_ALU, GP_ARGS_QR), 1459 { "LSL", CoreMeta11|CoreMeta12|CoreMeta21, 1460 0x50000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1461 { "LSL", CoreMeta11|CoreMeta12|CoreMeta21, 1462 0x54000020, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1463 COND_INSN ("LSL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1464 0x54000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1465 { "LSLS", CoreMeta11|CoreMeta12|CoreMeta21, 1466 0x58000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1467 { "LSLS", CoreMeta11|CoreMeta12|CoreMeta21, 1468 0x5c000020, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1469 COND_INSN ("LSLS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1470 0x5c000000, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1471 { "LSR", CoreMeta11|CoreMeta12|CoreMeta21, 1472 0x50000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1473 { "LSR", CoreMeta11|CoreMeta12|CoreMeta21, 1474 0x54000060, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1475 COND_INSN ("LSR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1476 0x54000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1477 { "LSRS", CoreMeta11|CoreMeta12|CoreMeta21, 1478 0x58000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1479 { "LSRS", CoreMeta11|CoreMeta12|CoreMeta21, 1480 0x5c000060, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1481 COND_INSN ("LSRS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1482 0x5c000040, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1483 { "ASL", CoreMeta11|CoreMeta12|CoreMeta21, 1484 0x50000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1485 { "ASL", CoreMeta11|CoreMeta12|CoreMeta21, 1486 0x540000a0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1487 COND_INSN ("ASL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1488 0x54000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1489 { "ASLS", CoreMeta11|CoreMeta12|CoreMeta21, 1490 0x58000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1491 { "ASLS", CoreMeta11|CoreMeta12|CoreMeta21, 1492 0x5c0000a0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1493 COND_INSN ("ASLS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1494 0x5c000080, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1495 { "ASR", CoreMeta11|CoreMeta12|CoreMeta21, 1496 0x500000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1497 { "ASR", CoreMeta11|CoreMeta12|CoreMeta21, 1498 0x540000e0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1499 COND_INSN ("ASR", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1500 0x540000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1501 { "ASRS", CoreMeta11|CoreMeta12|CoreMeta21, 1502 0x580000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0 }, 1503 { "ASRS", CoreMeta11|CoreMeta12|CoreMeta21, 1504 0x5c0000e0, 0xfc0001e0, INSN_GP, ENC_SHIFT, 0 }, 1505 COND_INSN ("ASRS", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1506 0x5c0000c0, 0xfc0001ff, INSN_GP, ENC_SHIFT, 0), 1507 { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, 1508 0x60000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1509 { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, 1510 0x60000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1511 /* MUL is a synonym from MULD. */ 1512 { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, 1513 0x60000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0 }, 1514 { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, 1515 0x62000000, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1516 { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, 1517 0x62000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1518 { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, 1519 0x62000004, 0xfe000005, INSN_GP, ENC_ALU, 0 }, 1520 { "MULWT", CoreMeta11|CoreMeta12|CoreMeta21, 1521 0x62000001, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1522 { "MULDT", CoreMeta11|CoreMeta12|CoreMeta21, 1523 0x62000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1524 { "MULT", CoreMeta11|CoreMeta12|CoreMeta21, 1525 0x62000005, 0xfe000007, INSN_GP, ENC_ALU, 0 }, 1526 { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, 1527 0x64000020, 0xfe0001e0, INSN_GP, ENC_ALU, 0 }, 1528 { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, 1529 0x64000060, 0xfe0001e0, INSN_GP, ENC_ALU, 0 }, 1530 { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, 1531 0x64000060, 0xfe0001e0, INSN_GP, ENC_ALU, 0 }, 1532 { "MULW", CoreMeta11|CoreMeta12|CoreMeta21, 1533 0x66000020, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1534 { "MULD", CoreMeta11|CoreMeta12|CoreMeta21, 1535 0x66000021, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1536 { "MUL", CoreMeta11|CoreMeta12|CoreMeta21, 1537 0x66000021, 0xfe000021, INSN_GP, ENC_ALU, 0 }, 1538 COND_INSN ("MULW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1539 0x64000000, 0xfe0001fe, INSN_GP, ENC_ALU, 0), 1540 COND_INSN ("MULD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1541 0x64000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0), 1542 COND_INSN ("MUL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1543 0x64000040, 0xfe0001fe, INSN_GP, ENC_ALU, 0), 1544 COND_INSN ("MULW", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1545 0x66000000, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1546 COND_INSN ("MULD", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1547 0x66000001, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1548 COND_INSN ("MUL", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1549 0x66000001, 0xfe00003f, INSN_GP, ENC_ALU, 0), 1550 { "MIN", CoreMeta11|CoreMeta12|CoreMeta21, 1551 0x70000020, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 }, 1552 { "MAX", CoreMeta11|CoreMeta12|CoreMeta21, 1553 0x70000024, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 }, 1554 { "FFB", CoreMeta11|CoreMeta12|CoreMeta21, 1555 0x70000004, 0xfe003fff, INSN_GP, ENC_BITOP, 0 }, 1556 { "NORM", CoreMeta11|CoreMeta12|CoreMeta21, 1557 0x70000008, 0xfe003fff, INSN_GP, ENC_BITOP, 0 }, 1558 { "ABS", CoreMeta11|CoreMeta12|CoreMeta21, 1559 0x70000028, 0xfe003fff, INSN_GP, ENC_BITOP, 0 }, 1560 { "XSDB", CoreMeta11|CoreMeta12|CoreMeta21, 1561 0xaa000000, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1562 { "XSDSB", CoreMeta11|CoreMeta12|CoreMeta21, 1563 0xaa000008, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1564 { "XSDW", CoreMeta11|CoreMeta12|CoreMeta21, 1565 0xaa000002, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1566 { "XSDSW", CoreMeta11|CoreMeta12|CoreMeta21, 1567 0xaa00000a, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1568 { "RTDW", CoreMeta11|CoreMeta12|CoreMeta21, 1569 0xaa000006, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1570 { "RTDSW", CoreMeta11|CoreMeta12|CoreMeta21, 1571 0xaa00000e, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1572 { "NMIN", CoreMeta11|CoreMeta12|CoreMeta21, 1573 0x7000002c, 0xfe0001ff, INSN_GP, ENC_MIN_MAX, 0 }, 1574 1575 /* Condition setting operations */ 1576 { "CMP", CoreMeta11|CoreMeta12|CoreMeta21, 1577 0x70000000, 0xfef801fe, INSN_GP, ENC_CMP, 0 }, 1578 { "TST", CoreMeta11|CoreMeta12|CoreMeta21, 1579 0x78000000, 0xfef801fe, INSN_GP, ENC_CMP, 0 }, 1580 { "CMP", CoreMeta11|CoreMeta12|CoreMeta21, 1581 0x72000000, 0xfe000005, INSN_GP, ENC_CMP, 0 }, 1582 { "CMPMB", CoreMeta11|CoreMeta12|CoreMeta21, 1583 0x72000004, 0xfe000005, INSN_GP, ENC_CMP, 0 }, 1584 { "TST", CoreMeta11|CoreMeta12|CoreMeta21, 1585 0x7a000000, 0xfe000005, INSN_GP, ENC_CMP, 0 }, 1586 { "TSTMB", CoreMeta11|CoreMeta12|CoreMeta21, 1587 0x7a000004, 0xfe000005, INSN_GP, ENC_CMP, 0 }, 1588 { "CMPT", CoreMeta11|CoreMeta12|CoreMeta21, 1589 0x72000001, 0xfe000007, INSN_GP, ENC_CMP, 0 }, 1590 { "CMPMT", CoreMeta11|CoreMeta12|CoreMeta21, 1591 0x72000005, 0xfe000007, INSN_GP, ENC_CMP, 0 }, 1592 { "TSTT", CoreMeta11|CoreMeta12|CoreMeta21, 1593 0x7a000001, 0xfe000007, INSN_GP, ENC_CMP, 0 }, 1594 { "TSTMT", CoreMeta11|CoreMeta12|CoreMeta21, 1595 0x7a000005, 0xfe000007, INSN_GP, ENC_CMP, 0 }, 1596 COND_INSN ("CMP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1597 0x74000000, 0xfef801fe, INSN_GP, ENC_CMP, 0), 1598 COND_INSN ("TST", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1599 0x7c000000, 0xfef801fe, INSN_GP, ENC_CMP, 0), 1600 COND_INSN ("CMP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1601 0x76000000, 0xfef8003e, INSN_GP, ENC_CMP, 0), 1602 COND_INSN ("TST", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1603 0x7e000000, 0xfef8003e, INSN_GP, ENC_CMP, 0), 1604 1605 /* No-op (BNV) */ 1606 { "NOP", CoreMeta11|CoreMeta12|CoreMeta21, 1607 0xa0fffffe, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1608 1609 /* Branch */ 1610 COND_INSN ("B", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1611 0xa0000000, 0xff00001f, INSN_GP, ENC_BRANCH, 0), 1612 COND_INSN ("B", "R", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1613 0xa0000001, 0xff00001f, INSN_GP, ENC_BRANCH, 0), 1614 1615 /* System operations */ 1616 { "LOCK0", CoreMeta11|CoreMeta12|CoreMeta21, 1617 0xa8000000, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1618 { "LOCK1", CoreMeta11|CoreMeta12|CoreMeta21, 1619 0xa8000001, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1620 { "LOCK2", CoreMeta11|CoreMeta12|CoreMeta21, 1621 0xa8000003, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1622 { "RTI", CoreMeta11|CoreMeta12|CoreMeta21, 1623 0xa3ffffff, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1624 { "RTH", CoreMeta11|CoreMeta12|CoreMeta21, 1625 0xa37fffff, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1626 COND_INSN ("KICK", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1627 0xa3000001, 0xff003e1f, INSN_GP, ENC_KICK, 0), 1628 { "SWITCH", CoreMeta11|CoreMeta12|CoreMeta21, 1629 0xaf000000, 0xff000000, INSN_GP, ENC_SWITCH, 0 }, 1630 { "DCACHE", CoreMeta11|CoreMeta12|CoreMeta21, 1631 0xad000000, 0xff000087, INSN_GP, ENC_CACHEW, 0 }, 1632 { "ICACHEEXIT", CoreMeta12|CoreMeta21, 1633 0xae000000, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1634 { "ICACHEEXITR", CoreMeta12|CoreMeta21, 1635 0xae000001, 0xffffffff, INSN_GP, ENC_NONE, 0 }, 1636 { "ICACHE", CoreMeta12|CoreMeta21, 1637 0xae000000, 0xff0001e1, INSN_GP, ENC_ICACHE, 0 }, 1638 { "ICACHER", CoreMeta12|CoreMeta21, 1639 0xae000001, 0xff0001e1, INSN_GP, ENC_ICACHE, 0 }, 1640 1641 /* Meta 2 instructions */ 1642 { "CACHERD", CoreMeta21, 1643 0xad000081, 0xff000087, INSN_GP, ENC_CACHER, 0 }, 1644 { "CACHERL", CoreMeta21, 1645 0xad000083, 0xff000087, INSN_GP, ENC_CACHER, 0 }, 1646 { "CACHEWD", CoreMeta21, 1647 0xad000001, 0xff000087, INSN_GP, ENC_CACHEW, 0 }, 1648 { "CACHEWL", CoreMeta21, 1649 0xad000003, 0xff000087, INSN_GP, ENC_CACHEW, 0 }, 1650 COND_INSN ("DEFR", "", 1, CoreMeta21, 1651 0xa3002001, 0xff003e1f, INSN_GP, ENC_KICK, 0), 1652 { "BEXD", CoreMeta21, 1653 0xaa000004, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1654 { "BEXSD", CoreMeta21, 1655 0xaa00000c, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1656 { "BEXL", CoreMeta21, 1657 0xaa000014, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1658 { "BEXSL", CoreMeta21, 1659 0xaa00001c, 0xff003ffe, INSN_GP, ENC_BITOP, 0 }, 1660 { "LNKGETB", CoreMeta21, 1661 0xad000080, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, 1662 { "LNKGETW", CoreMeta21, 1663 0xad000082, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, 1664 { "LNKGETD", CoreMeta21, 1665 0xad000084, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, 1666 { "LNKGETL", CoreMeta21, 1667 0xad000086, 0xff000087, INSN_GP, ENC_LNKGET, 0 }, 1668 COND_INSN ("LNKSETB", "", 1, CoreMeta21, 1669 0xa4000080, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1670 COND_INSN ("LNKSETW", "", 1, CoreMeta21, 1671 0xa4000081, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1672 COND_INSN ("LNKSETD", "", 1, CoreMeta21, 1673 0xa4000280, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1674 COND_INSN ("LNKSETL", "", 1, CoreMeta21, 1675 0xa4000281, 0xff00039f, INSN_GP, ENC_COND_SET, 0), 1676 1677 /* Meta 2 FPU instructions */ 1678 1679 /* Port-to-unit MOV */ 1680 COND_INSN ("MOVL", "", 1, FpuMeta21, 1681 0xa1800201, 0xfff83e1f, INSN_FPU, ENC_MOV_PORT, 0), 1682 1683 /* Read pipeline drain */ 1684 { "MMOVD", FpuMeta21, 1685 0xce000006, 0xfffc007f, INSN_FPU, ENC_MMOV, 0 }, 1686 { "MMOVL", FpuMeta21, 1687 0xcf000006, 0xfffc007f, INSN_FPU, ENC_MMOV, 0 }, 1688 1689 /* FP data movement instructions */ 1690 FCOND_INSN ("ABS", "", 1, FpuMeta21, 1691 0xf0000080, 0xff843f9f, INSN_FPU, ENC_FMOV, 0), 1692 { "MMOVD", FpuMeta21, 1693 0xbe000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, 1694 { "MMOVL", FpuMeta21, 1695 0xbf000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, 1696 { "MMOVD", FpuMeta21, 1697 0xce000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, 1698 { "MMOVL", FpuMeta21, 1699 0xcf000002, 0xff84007e, INSN_FPU, ENC_FMMOV, 0 }, 1700 { "MOVD", FpuMeta21, 1701 0x08000144, 0xfe03e1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, 1702 { "MOVD", FpuMeta21, 1703 0x080001c4, 0xfe83c1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, 1704 { "MOVL", FpuMeta21, 1705 0x08000154, 0xfe03e1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, 1706 { "MOVL", FpuMeta21, 1707 0x080001d4, 0xfe83c1ff, INSN_FPU, ENC_FMOV_DATA, 0 }, 1708 FCOND_INSN ("MOV", "", 1, FpuMeta21, 1709 0xf0000000, 0xff843f9f, INSN_FPU, ENC_FMOV, 0), 1710 { "MOV", FpuMeta21, 1711 0xf0000001, 0xff800001, INSN_FPU, ENC_FMOV_I, 0 }, 1712 FCOND_INSN ("NEG", "", 1, FpuMeta21, 1713 0xf0000100, 0xff843f9f, INSN_FPU, ENC_FMOV, 0), 1714 { "PACK", FpuMeta21, 1715 0xf0000180, 0xff8c21ff, INSN_FPU, ENC_FPACK, 0 }, 1716 { "SWAP", FpuMeta21, 1717 0xf00001c0, 0xff8c7fff, INSN_FPU, ENC_FSWAP, 0 }, 1718 1719 /* FP comparison instructions */ 1720 FCOND_INSN ("CMP", "", 1, FpuMeta21, 1721 0xf3000000, 0xfff4201f, INSN_FPU, ENC_FCMP, 0), 1722 FCOND_INSN ("MAX", "", 1, FpuMeta21, 1723 0xf3000081, 0xff84219f, INSN_FPU, ENC_FMINMAX, 0), 1724 FCOND_INSN ("MIN", "", 1, FpuMeta21, 1725 0xf3000001, 0xff84219f, INSN_FPU, ENC_FMINMAX, 0), 1726 1727 /* FP data conversion instructions */ 1728 FCOND_INSN ("DTOF", "", 1, FpuMeta21, 1729 0xf2000121, 0xff843fff, INSN_FPU, ENC_FCONV, 0), 1730 FCOND_INSN ("FTOD", "", 1, FpuMeta21, 1731 0xf2000101, 0xff843fff, INSN_FPU, ENC_FCONV, 0), 1732 FCOND_INSN ("DTOH", "", 1, FpuMeta21, 1733 0xf2000320, 0xff843fff, INSN_FPU, ENC_FCONV, 0), 1734 FCOND_INSN ("FTOH", "", 1, FpuMeta21, 1735 0xf2000300, 0xff843fbf, INSN_FPU, ENC_FCONV, 0), 1736 FCOND_INSN ("DTOI", "", 1, FpuMeta21, 1737 0xf2002120, 0xff842fff, INSN_FPU, ENC_FCONV, 0), 1738 FCOND_INSN ("FTOI", "", 1, FpuMeta21, 1739 0xf2002100, 0xff842fbf, INSN_FPU, ENC_FCONV, 0), 1740 FCOND_INSN ("DTOL", "", 1, FpuMeta21, 1741 0xf2002320, 0xff8c6fff, INSN_FPU, ENC_FCONV, 0), 1742 1743 FCOND_INSN ("DTOX", "", 1, FpuMeta21, 1744 0xf2000020, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), 1745 FCOND_INSN ("FTOX", "", 1, FpuMeta21, 1746 0xf2000000, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), 1747 FCOND_INSN ("DTOXL", "", 1, FpuMeta21, 1748 0xf20000a0, 0xff8c40ff, INSN_FPU, ENC_FCONVX, 0), 1749 1750 FCOND_INSN ("HTOD", "", 1, FpuMeta21, 1751 0xf2000321, 0xff843fff, INSN_FPU, ENC_FCONV, 0), 1752 FCOND_INSN ("HTOF", "", 1, FpuMeta21, 1753 0xf2000301, 0xff843fbf, INSN_FPU, ENC_FCONV, 0), 1754 FCOND_INSN ("ITOD", "", 1, FpuMeta21, 1755 0xf2002121, 0xff843fff, INSN_FPU, ENC_FCONV, 0), 1756 FCOND_INSN ("ITOF", "", 1, FpuMeta21, 1757 0xf2002101, 0xff843fbf, INSN_FPU, ENC_FCONV, 0), 1758 FCOND_INSN ("LTOD", "", 1, FpuMeta21, 1759 0xf2002321, 0xff8c7fff, INSN_FPU, ENC_FCONV, 0), 1760 1761 FCOND_INSN ("XTOD", "", 1, FpuMeta21, 1762 0xf2000021, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), 1763 FCOND_INSN ("XTOF", "", 1, FpuMeta21, 1764 0xf2000001, 0xff8401bf, INSN_FPU, ENC_FCONVX, 0), 1765 FCOND_INSN ("XLTOD", "", 1, FpuMeta21, 1766 0xf20000a1, 0xff8c40ff, INSN_FPU, ENC_FCONVX, 0), 1767 1768 /* FP basic arithmetic instructions */ 1769 FCOND_INSN ("ADD", "", 1, FpuMeta21, 1770 0xf1000001, 0xff84211f, INSN_FPU, ENC_FBARITH, 0), 1771 FCOND_INSN ("MUL", "", 1, FpuMeta21, 1772 0xf1000100, 0xff84211f, INSN_FPU, ENC_FBARITH, 0), 1773 FCOND_INSN ("SUB", "", 1, FpuMeta21, 1774 0xf1000101, 0xff84211f, INSN_FPU, ENC_FBARITH, 0), 1775 1776 /* FP extended arithmetic instructions */ 1777 { "MAC", FpuMeta21, 1778 0xf6000000, 0xfffc219f, INSN_FPU, ENC_FEARITH, 0 }, 1779 { "MACS", FpuMeta21, 1780 0xf6000100, 0xfffc219f, INSN_FPU, ENC_FEARITH, 0 }, 1781 1782 { "MAR", FpuMeta21, 1783 0xf6000004, 0xff84211f, INSN_FPU, ENC_FEARITH, 0 }, 1784 { "MARS", FpuMeta21, 1785 0xf6000104, 0xff84211f, INSN_FPU, ENC_FEARITH, 0 }, 1786 1787 { "MAW", FpuMeta21, 1788 0xf6000008, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, 1789 { "MAWS", FpuMeta21, 1790 0xf6000108, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, 1791 { "MAW1", FpuMeta21, 1792 0xf6000009, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, 1793 { "MAWS1", FpuMeta21, 1794 0xf6000109, 0xff84219f, INSN_FPU, ENC_FEARITH, 0 }, 1795 1796 FCOND_INSN ("MXA", "", 1, FpuMeta21, 1797 0xf5000000, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), 1798 FCOND_INSN ("MXAS", "", 1, FpuMeta21, 1799 0xf5000100, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), 1800 FCOND_INSN ("MXA1", "", 1, FpuMeta21, 1801 0xf5000001, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), 1802 FCOND_INSN ("MXAS1", "", 1, FpuMeta21, 1803 0xf5000101, 0xff84211f, INSN_FPU, ENC_FEARITH, 0), 1804 1805 { "MUZ", FpuMeta21, 1806 0xf6000010, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, 1807 { "MUZS", FpuMeta21, 1808 0xf6000110, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, 1809 { "MUZ1", FpuMeta21, 1810 0xf6000011, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, 1811 { "MUZS1", FpuMeta21, 1812 0xf6000111, 0xff84211d, INSN_FPU, ENC_FEARITH, 0 }, 1813 1814 { "RCP", FpuMeta21, 1815 0xf7000000, 0xff84391f, INSN_FPU, ENC_FREC, 0 }, 1816 { "RSQ", FpuMeta21, 1817 0xf7000100, 0xff84391f, INSN_FPU, ENC_FREC, 0 }, 1818 1819 /* FP SIMD arithmetic instructions */ 1820 { "ADDRE", FpuMeta21, 1821 0xf4000000, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 }, 1822 { "MULRE", FpuMeta21, 1823 0xf4000001, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 }, 1824 { "SUBRE", FpuMeta21, 1825 0xf4000100, 0xff8c637f, INSN_FPU, ENC_FSIMD, 0 }, 1826 1827 /* FP memory instructions */ 1828 { "MGETD", FpuMeta21, 1829 0xce000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, 1830 { "MGET", FpuMeta21, 1831 0xce000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, 1832 { "MGETL", FpuMeta21, 1833 0xcf000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, 1834 1835 { "MSETD", FpuMeta21, 1836 0xbe000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, 1837 { "MSET", FpuMeta21, 1838 0xbe000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, 1839 { "MSETL", FpuMeta21, 1840 0xbf000000, 0xff00001f, INSN_FPU, ENC_MGET_MSET, 0 }, 1841 1842 /* FP accumulator memory instructions */ 1843 { "GETL", FpuMeta21, 1844 0xcf000004, 0xffe03f9f, INSN_FPU, ENC_FGET_SET_ACF, 0 }, 1845 { "SETL", FpuMeta21, 1846 0xbf000004, 0xffe03f9f, INSN_FPU, ENC_FGET_SET_ACF, 0 }, 1847 1848 /* DSP FPU data movement */ 1849 { "MOV", DspMeta21|FpuMeta21, 1850 0x08000146, 0xfe0001ee, INSN_DSP_FPU, ENC_DALU, 1851 DSP_ARGS_2|DSP_ARGS_DSP_SRC1 }, 1852 { "MOV", DspMeta21|FpuMeta21, 1853 0x080001c6, 0xfe0001ee, INSN_DSP_FPU, ENC_DALU, 1854 DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, 1855 1856 /* Unit-to-unit MOV */ 1857 COND_INSN ("MOV", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1858 0xa3000000, 0xff00021f, INSN_GP, ENC_MOV_U2U, 0), 1859 COND_INSN ("TTMOV", "", 1, CoreMeta12|CoreMeta21, 1860 0xa3000201, 0xff00021f, INSN_GP, ENC_MOV_U2U, 0), 1861 COND_INSN ("SWAP", "", 1, CoreMeta11|CoreMeta12|CoreMeta21, 1862 0xa3000200, 0xff00021f, INSN_GP, ENC_SWAP, 0), 1863 1864 /* DSP memory instructions */ 1865 { "GETD", DspMeta21, 1866 0x94000100, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, 1867 { "SETD", DspMeta21, 1868 0x94000000, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, 1869 { "GETL", DspMeta21, 1870 0x94000104, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, 1871 { "SETL", DspMeta21, 1872 0x94000004, 0xff0001fc, INSN_DSP, ENC_DGET_SET, 0 }, 1873 1874 /* DSP read pipeline prime/drain */ 1875 { "MMOVD", DspMeta21, 1876 0xca000001, 0xff00001f, INSN_DSP, ENC_MMOV, 0 }, 1877 { "MMOVL", DspMeta21, 1878 0xcb000001, 0xff00001f, INSN_DSP, ENC_MMOV, 0 }, 1879 { "MMOVD", DspMeta21, 1880 0xcc000001, 0xff07c067, INSN_DSP, ENC_MMOV, 0 }, 1881 { "MMOVL", DspMeta21, 1882 0xcd000001, 0xff07c067, INSN_DSP, ENC_MMOV, 0 }, 1883 1884 /* DSP Template instantiation */ 1885 TEMPLATE_INSN (DspMeta21, 0x90000000, 0xff00000f, INSN_DSP), 1886 TEMPLATE_INSN (DspMeta21, 0x93000000, 0xff0001ff, INSN_DSP), 1887 TEMPLATE_INSN (DspMeta21, 0x95000000, 0xff00000f, INSN_DSP), 1888 1889 { "AND", DspMeta21, 1890 0x22000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1891 { "ANDS", DspMeta21, 1892 0x28000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1893 { "ANDS", DspMeta21, 1894 0x2a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1895 { "MAX", DspMeta21, 1896 0x70000124, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1897 { "MIN", DspMeta21, 1898 0x70000120, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1899 { "NMIN", DspMeta21, 1900 0x7000012c, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1901 { "OR", DspMeta21, 1902 0x30000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1903 { "OR", DspMeta21, 1904 0x32000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1905 { "ORS", DspMeta21, 1906 0x38000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1907 { "ORS", DspMeta21, 1908 0x3a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1909 { "XOR", DspMeta21, 1910 0x40000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1911 { "XOR", DspMeta21, 1912 0x42000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1913 { "XORS", DspMeta21, 1914 0x48000100, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1 }, 1915 { "XORS", DspMeta21, 1916 0x4a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1917 { "ADDB8", DspMeta21, 1918 0x20000108, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1919 { "ADDT8", DspMeta21, 1920 0x2000010c, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1921 { "ADDSB8", DspMeta21, 1922 0x28000108, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1923 { "ADDST8", DspMeta21, 1924 0x2800010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1925 { "MULB8", DspMeta21, 1926 0x40000108, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1927 { "MULT8", DspMeta21, 1928 0x4000010c, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1929 { "MULSB8", DspMeta21, 1930 0x48000108, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1931 { "MULST8", DspMeta21, 1932 0x4800010c, 0xfe00012c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1933 { "SUBB8", DspMeta21, 1934 0x30000108, 0xfe00010c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1935 { "SUBT8", DspMeta21, 1936 0x3000010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1937 { "SUBSB8", DspMeta21, 1938 0x38000108, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1939 { "SUBST8", DspMeta21, 1940 0x3800010c, 0xfe00014c, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_SPLIT8 }, 1941 { "MUL", DspMeta21, 1942 0x60000100, 0xfe000100, INSN_DSP, ENC_DALU, 1943 DSP_ARGS_1|DSP_ARGS_DACC }, 1944 { "MUL", DspMeta21, 1945 0x62000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_1|DSP_ARGS_IMM }, 1946 { "ABS", DspMeta21, 1947 0x70000128, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1948 { "FFB", DspMeta21, 1949 0x70000104, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1950 { "NORM", DspMeta21, 1951 0x70000108, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1952 { "CMP", DspMeta21, 1953 0x70000000, 0xfe0000ec, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, 1954 { "CMP", DspMeta21, 1955 0x72000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, 1956 { "TST", DspMeta21, 1957 0x78000100, 0xfe0001ec, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, 1958 { "TST", DspMeta21, 1959 0x7a000003, 0xfe000003, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_IMM }, 1960 { "MOV", DspMeta21, 1961 0x00000104, 0xfe078146, INSN_DSP, ENC_DALU, 1962 DSP_ARGS_2|DSP_ARGS_DSP_SRC1|DSP_ARGS_DSP_SRC2|DSP_ARGS_IMM }, 1963 { "MOVS", DspMeta21, 1964 0x08000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, 1965 { "MOV", DspMeta21, 1966 0x91000000, 0xff000000, INSN_DSP, ENC_DALU, 1967 DSP_ARGS_2|DSP_ARGS_DSP_SRC1|DSP_ARGS_IMM }, 1968 { "MOV", DspMeta21, 1969 0x92000000, 0xff000000, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, 1970 { "NEG", DspMeta21, 1971 0x10000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, 1972 { "NEGS", DspMeta21, 1973 0x18000104, 0xfe000146, INSN_DSP, ENC_DALU, DSP_ARGS_2|DSP_ARGS_DSP_SRC2 }, 1974 { "XSDB", DspMeta21, 1975 0xaa000100, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1976 { "XSD", DspMeta21, 1977 0xaa000100, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1978 { "XSDW", DspMeta21, 1979 0xaa000102, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1980 { "XSDSB", DspMeta21, 1981 0xaa000108, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1982 { "XSDS", DspMeta21, 1983 0xaa000108, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1984 { "XSDSW", DspMeta21, 1985 0xaa00010a, 0xff0001ee, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 1986 { "LSL", DspMeta21, 1987 0x50000100, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 1988 { "LSR", DspMeta21, 1989 0x50000140, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 1990 { "ASL", DspMeta21, 1991 0x50000180, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 1992 { "ASR", DspMeta21, 1993 0x500001c0, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 1994 { "LSL", DspMeta21, 1995 0x54000120, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, 1996 { "LSR", DspMeta21, 1997 0x54000160, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, 1998 { "ASL", DspMeta21, 1999 0x540001a0, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, 2000 { "ASR", DspMeta21, 2001 0x540001e0, 0xfc0001e0, INSN_DSP, ENC_DALU, DSP_ARGS_IMM }, 2002 COND_INSN ("LSL", "", 1, DspMeta21, 2003 0x54000100, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2004 COND_INSN ("LSR", "", 1, DspMeta21, 2005 0x54000140, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2006 COND_INSN ("ASL", "", 1, DspMeta21, 2007 0x54000180, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2008 COND_INSN ("ASR", "", 1, DspMeta21, 2009 0x540001c0, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2010 { "LSLS", DspMeta21, 2011 0x58000100, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 2012 { "LSRS", DspMeta21, 2013 0x58000140, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 2014 { "ASLS", DspMeta21, 2015 0x58000180, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 2016 { "ASRS", DspMeta21, 2017 0x580001c0, 0xfc0001c0, INSN_DSP, ENC_DALU, 0 }, 2018 COND_INSN ("LSLS", "", 1, DspMeta21, 2019 0x5c000100, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2020 COND_INSN ("LSRS", "", 1, DspMeta21, 2021 0x5c000140, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2022 COND_INSN ("ASLS", "", 1, DspMeta21, 2023 0x5c000180, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2024 COND_INSN ("ASRS", "", 1, DspMeta21, 2025 0x5c0001c0, 0xfc0001fe, INSN_DSP, ENC_DALU, 0), 2026 { "LSLS", DspMeta21, 2027 0x5c000120, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, 2028 { "LSRS", DspMeta21, 2029 0x5c000160, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, 2030 { "ASLS", DspMeta21, 2031 0x5c0001a0, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, 2032 { "ASRS", DspMeta21, 2033 0x5c0001e0, 0xfc0001e0, INSN_DSP, ENC_DALU, 0 }, 2034 { "RTDW", DspMeta21, 2035 0xaa000106, 0xff00010e, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 2036 { "RTDSW", DspMeta21, 2037 0xaa00010e, 0xff00010e, INSN_DSP, ENC_DALU, DSP_ARGS_2 }, 2038 }; 2039 2040 #define UNIT_MASK 0xf 2041 #define SHORT_UNIT_MASK 0x3 2042 #define EXT_BASE_REG_MASK 0x1 2043 #define REG_MASK 0x1f 2044 #define CC_MASK 0xf 2045 #define RMASK_MASK 0x7f 2046 #define GET_SET_IMM_MASK 0x3f 2047 #define GET_SET_IMM_BITS 6 2048 #define GET_SET_EXT_IMM_MASK 0xfff 2049 #define GET_SET_EXT_IMM_BITS 12 2050 #define DGET_SET_IMM_MASK 0x3 2051 #define DGET_SET_IMM_BITS 2 2052 #define MGET_MSET_MAX_REGS 8 2053 #define MMOV_MAX_REGS 8 2054 #define IMM16_MASK 0xffff 2055 #define IMM16_BITS 16 2056 #define IMM19_MASK 0x7ffff 2057 #define IMM19_BITS 19 2058 #define IMM8_MASK 0xff 2059 #define IMM8_BITS 8 2060 #define IMM24_MASK 0xffffff 2061 #define IMM24_BITS 24 2062 #define IMM5_MASK 0x1f 2063 #define IMM5_BITS 5 2064 #define IMM6_MASK 0x3f 2065 #define IMM6_BITS 6 2066 #define IMM15_MASK 0x7fff 2067 #define IMM15_BITS 15 2068 #define IMM4_MASK 0x1f 2069 #define IMM4_BITS 4 2070 #define CALLR_REG_MASK 0x7 2071 #define CPC_REG_MASK 0xf 2072 #define O2R_REG_MASK 0x7 2073 #define ACF_PART_MASK 0x3 2074 #define DSP_REG_MASK 0xf 2075 #define DSP_PART_MASK 0x17 2076 #define TEMPLATE_NUM_REGS 4 2077 #define TEMPLATE_REGS_MASK 0xf 2078 2079 #define IS_TEMPLATE_DEF(insn) (insn->dsp_daoppame_flags & DSP_DAOPPAME_TEMP) 2080 2081 unsigned int metag_get_set_size_bytes (unsigned int opcode); 2082 unsigned int metag_get_set_ext_size_bytes (unsigned int opcode); 2083 unsigned int metag_cond_set_size_bytes (unsigned int opcode); 2084 2085 #ifdef __cplusplus 2086 } 2087 #endif 2088