insn-modes.h revision 1.5
1/* This file is automatically generated. DO NOT EDIT! */ 2/* Generated from: NetBSD: mknative-gcc,v 1.108 2020/09/05 10:58:08 mrg Exp */ 3/* Generated from: NetBSD: mknative.common,v 1.16 2018/04/15 15:13:37 christos Exp */ 4 5/* Generated automatically from machmode.def and config/rs6000/rs6000-modes.def 6 by genmodes. */ 7 8#ifndef GCC_INSN_MODES_H 9#define GCC_INSN_MODES_H 10 11enum machine_mode 12{ 13 E_VOIDmode, /* machmode.def:189 */ 14#define HAVE_VOIDmode 15#ifdef USE_ENUM_MODES 16#define VOIDmode E_VOIDmode 17#else 18#define VOIDmode ((void) 0, E_VOIDmode) 19#endif 20 E_BLKmode, /* machmode.def:193 */ 21#define HAVE_BLKmode 22#ifdef USE_ENUM_MODES 23#define BLKmode E_BLKmode 24#else 25#define BLKmode ((void) 0, E_BLKmode) 26#endif 27 E_CCmode, /* machmode.def:231 */ 28#define HAVE_CCmode 29#ifdef USE_ENUM_MODES 30#define CCmode E_CCmode 31#else 32#define CCmode ((void) 0, E_CCmode) 33#endif 34 E_CCUNSmode, /* config/rs6000/rs6000-modes.def:62 */ 35#define HAVE_CCUNSmode 36#ifdef USE_ENUM_MODES 37#define CCUNSmode E_CCUNSmode 38#else 39#define CCUNSmode ((void) 0, E_CCUNSmode) 40#endif 41 E_CCFPmode, /* config/rs6000/rs6000-modes.def:63 */ 42#define HAVE_CCFPmode 43#ifdef USE_ENUM_MODES 44#define CCFPmode E_CCFPmode 45#else 46#define CCFPmode ((void) 0, E_CCFPmode) 47#endif 48 E_CCEQmode, /* config/rs6000/rs6000-modes.def:64 */ 49#define HAVE_CCEQmode 50#ifdef USE_ENUM_MODES 51#define CCEQmode E_CCEQmode 52#else 53#define CCEQmode ((void) 0, E_CCEQmode) 54#endif 55 E_BImode, /* machmode.def:196 */ 56#define HAVE_BImode 57#ifdef USE_ENUM_MODES 58#define BImode E_BImode 59#else 60#define BImode (scalar_int_mode ((scalar_int_mode::from_int) E_BImode)) 61#endif 62 E_QImode, /* machmode.def:204 */ 63#define HAVE_QImode 64#ifdef USE_ENUM_MODES 65#define QImode E_QImode 66#else 67#define QImode (scalar_int_mode ((scalar_int_mode::from_int) E_QImode)) 68#endif 69 E_HImode, /* machmode.def:205 */ 70#define HAVE_HImode 71#ifdef USE_ENUM_MODES 72#define HImode E_HImode 73#else 74#define HImode (scalar_int_mode ((scalar_int_mode::from_int) E_HImode)) 75#endif 76 E_SImode, /* machmode.def:206 */ 77#define HAVE_SImode 78#ifdef USE_ENUM_MODES 79#define SImode E_SImode 80#else 81#define SImode (scalar_int_mode ((scalar_int_mode::from_int) E_SImode)) 82#endif 83 E_DImode, /* machmode.def:207 */ 84#define HAVE_DImode 85#ifdef USE_ENUM_MODES 86#define DImode E_DImode 87#else 88#define DImode (scalar_int_mode ((scalar_int_mode::from_int) E_DImode)) 89#endif 90 E_TImode, /* machmode.def:208 */ 91#define HAVE_TImode 92#ifdef USE_ENUM_MODES 93#define TImode E_TImode 94#else 95#define TImode (scalar_int_mode ((scalar_int_mode::from_int) E_TImode)) 96#endif 97 E_PTImode, /* config/rs6000/rs6000-modes.def:80 */ 98#define HAVE_PTImode 99#ifdef USE_ENUM_MODES 100#define PTImode E_PTImode 101#else 102#define PTImode (scalar_int_mode ((scalar_int_mode::from_int) E_PTImode)) 103#endif 104 E_QQmode, /* machmode.def:234 */ 105#define HAVE_QQmode 106#ifdef USE_ENUM_MODES 107#define QQmode E_QQmode 108#else 109#define QQmode (scalar_mode ((scalar_mode::from_int) E_QQmode)) 110#endif 111 E_HQmode, /* machmode.def:235 */ 112#define HAVE_HQmode 113#ifdef USE_ENUM_MODES 114#define HQmode E_HQmode 115#else 116#define HQmode (scalar_mode ((scalar_mode::from_int) E_HQmode)) 117#endif 118 E_SQmode, /* machmode.def:236 */ 119#define HAVE_SQmode 120#ifdef USE_ENUM_MODES 121#define SQmode E_SQmode 122#else 123#define SQmode (scalar_mode ((scalar_mode::from_int) E_SQmode)) 124#endif 125 E_DQmode, /* machmode.def:237 */ 126#define HAVE_DQmode 127#ifdef USE_ENUM_MODES 128#define DQmode E_DQmode 129#else 130#define DQmode (scalar_mode ((scalar_mode::from_int) E_DQmode)) 131#endif 132 E_TQmode, /* machmode.def:238 */ 133#define HAVE_TQmode 134#ifdef USE_ENUM_MODES 135#define TQmode E_TQmode 136#else 137#define TQmode (scalar_mode ((scalar_mode::from_int) E_TQmode)) 138#endif 139 E_UQQmode, /* machmode.def:240 */ 140#define HAVE_UQQmode 141#ifdef USE_ENUM_MODES 142#define UQQmode E_UQQmode 143#else 144#define UQQmode (scalar_mode ((scalar_mode::from_int) E_UQQmode)) 145#endif 146 E_UHQmode, /* machmode.def:241 */ 147#define HAVE_UHQmode 148#ifdef USE_ENUM_MODES 149#define UHQmode E_UHQmode 150#else 151#define UHQmode (scalar_mode ((scalar_mode::from_int) E_UHQmode)) 152#endif 153 E_USQmode, /* machmode.def:242 */ 154#define HAVE_USQmode 155#ifdef USE_ENUM_MODES 156#define USQmode E_USQmode 157#else 158#define USQmode (scalar_mode ((scalar_mode::from_int) E_USQmode)) 159#endif 160 E_UDQmode, /* machmode.def:243 */ 161#define HAVE_UDQmode 162#ifdef USE_ENUM_MODES 163#define UDQmode E_UDQmode 164#else 165#define UDQmode (scalar_mode ((scalar_mode::from_int) E_UDQmode)) 166#endif 167 E_UTQmode, /* machmode.def:244 */ 168#define HAVE_UTQmode 169#ifdef USE_ENUM_MODES 170#define UTQmode E_UTQmode 171#else 172#define UTQmode (scalar_mode ((scalar_mode::from_int) E_UTQmode)) 173#endif 174 E_HAmode, /* machmode.def:246 */ 175#define HAVE_HAmode 176#ifdef USE_ENUM_MODES 177#define HAmode E_HAmode 178#else 179#define HAmode (scalar_mode ((scalar_mode::from_int) E_HAmode)) 180#endif 181 E_SAmode, /* machmode.def:247 */ 182#define HAVE_SAmode 183#ifdef USE_ENUM_MODES 184#define SAmode E_SAmode 185#else 186#define SAmode (scalar_mode ((scalar_mode::from_int) E_SAmode)) 187#endif 188 E_DAmode, /* machmode.def:248 */ 189#define HAVE_DAmode 190#ifdef USE_ENUM_MODES 191#define DAmode E_DAmode 192#else 193#define DAmode (scalar_mode ((scalar_mode::from_int) E_DAmode)) 194#endif 195 E_TAmode, /* machmode.def:249 */ 196#define HAVE_TAmode 197#ifdef USE_ENUM_MODES 198#define TAmode E_TAmode 199#else 200#define TAmode (scalar_mode ((scalar_mode::from_int) E_TAmode)) 201#endif 202 E_UHAmode, /* machmode.def:251 */ 203#define HAVE_UHAmode 204#ifdef USE_ENUM_MODES 205#define UHAmode E_UHAmode 206#else 207#define UHAmode (scalar_mode ((scalar_mode::from_int) E_UHAmode)) 208#endif 209 E_USAmode, /* machmode.def:252 */ 210#define HAVE_USAmode 211#ifdef USE_ENUM_MODES 212#define USAmode E_USAmode 213#else 214#define USAmode (scalar_mode ((scalar_mode::from_int) E_USAmode)) 215#endif 216 E_UDAmode, /* machmode.def:253 */ 217#define HAVE_UDAmode 218#ifdef USE_ENUM_MODES 219#define UDAmode E_UDAmode 220#else 221#define UDAmode (scalar_mode ((scalar_mode::from_int) E_UDAmode)) 222#endif 223 E_UTAmode, /* machmode.def:254 */ 224#define HAVE_UTAmode 225#ifdef USE_ENUM_MODES 226#define UTAmode E_UTAmode 227#else 228#define UTAmode (scalar_mode ((scalar_mode::from_int) E_UTAmode)) 229#endif 230 E_SFmode, /* machmode.def:226 */ 231#define HAVE_SFmode 232#ifdef USE_ENUM_MODES 233#define SFmode E_SFmode 234#else 235#define SFmode (scalar_float_mode ((scalar_float_mode::from_int) E_SFmode)) 236#endif 237 E_DFmode, /* machmode.def:227 */ 238#define HAVE_DFmode 239#ifdef USE_ENUM_MODES 240#define DFmode E_DFmode 241#else 242#define DFmode (scalar_float_mode ((scalar_float_mode::from_int) E_DFmode)) 243#endif 244 E_KFmode, /* config/rs6000/rs6000-modes.def:48 */ 245#define HAVE_KFmode 246#ifdef USE_ENUM_MODES 247#define KFmode E_KFmode 248#else 249#define KFmode (scalar_float_mode ((scalar_float_mode::from_int) E_KFmode)) 250#endif 251 E_TFmode, /* config/rs6000/rs6000-modes.def:53 */ 252#define HAVE_TFmode 253#ifdef USE_ENUM_MODES 254#define TFmode E_TFmode 255#else 256#define TFmode (scalar_float_mode ((scalar_float_mode::from_int) E_TFmode)) 257#endif 258 E_IFmode, /* config/rs6000/rs6000-modes.def:45 */ 259#define HAVE_IFmode 260#ifdef USE_ENUM_MODES 261#define IFmode E_IFmode 262#else 263#define IFmode (scalar_float_mode ((scalar_float_mode::from_int) E_IFmode)) 264#endif 265 E_SDmode, /* machmode.def:267 */ 266#define HAVE_SDmode 267#ifdef USE_ENUM_MODES 268#define SDmode E_SDmode 269#else 270#define SDmode (scalar_float_mode ((scalar_float_mode::from_int) E_SDmode)) 271#endif 272 E_DDmode, /* machmode.def:268 */ 273#define HAVE_DDmode 274#ifdef USE_ENUM_MODES 275#define DDmode E_DDmode 276#else 277#define DDmode (scalar_float_mode ((scalar_float_mode::from_int) E_DDmode)) 278#endif 279 E_TDmode, /* machmode.def:269 */ 280#define HAVE_TDmode 281#ifdef USE_ENUM_MODES 282#define TDmode E_TDmode 283#else 284#define TDmode (scalar_float_mode ((scalar_float_mode::from_int) E_TDmode)) 285#endif 286 E_CQImode, /* machmode.def:262 */ 287#define HAVE_CQImode 288#ifdef USE_ENUM_MODES 289#define CQImode E_CQImode 290#else 291#define CQImode (complex_mode ((complex_mode::from_int) E_CQImode)) 292#endif 293 E_CHImode, /* machmode.def:262 */ 294#define HAVE_CHImode 295#ifdef USE_ENUM_MODES 296#define CHImode E_CHImode 297#else 298#define CHImode (complex_mode ((complex_mode::from_int) E_CHImode)) 299#endif 300 E_CSImode, /* machmode.def:262 */ 301#define HAVE_CSImode 302#ifdef USE_ENUM_MODES 303#define CSImode E_CSImode 304#else 305#define CSImode (complex_mode ((complex_mode::from_int) E_CSImode)) 306#endif 307 E_CDImode, /* machmode.def:262 */ 308#define HAVE_CDImode 309#ifdef USE_ENUM_MODES 310#define CDImode E_CDImode 311#else 312#define CDImode (complex_mode ((complex_mode::from_int) E_CDImode)) 313#endif 314 E_CPTImode, /* machmode.def:263 */ 315#define HAVE_CPTImode 316#ifdef USE_ENUM_MODES 317#define CPTImode E_CPTImode 318#else 319#define CPTImode (complex_mode ((complex_mode::from_int) E_CPTImode)) 320#endif 321 E_CTImode, /* machmode.def:262 */ 322#define HAVE_CTImode 323#ifdef USE_ENUM_MODES 324#define CTImode E_CTImode 325#else 326#define CTImode (complex_mode ((complex_mode::from_int) E_CTImode)) 327#endif 328 E_SCmode, /* machmode.def:264 */ 329#define HAVE_SCmode 330#ifdef USE_ENUM_MODES 331#define SCmode E_SCmode 332#else 333#define SCmode (complex_mode ((complex_mode::from_int) E_SCmode)) 334#endif 335 E_DCmode, /* machmode.def:264 */ 336#define HAVE_DCmode 337#ifdef USE_ENUM_MODES 338#define DCmode E_DCmode 339#else 340#define DCmode (complex_mode ((complex_mode::from_int) E_DCmode)) 341#endif 342 E_KCmode, /* machmode.def:264 */ 343#define HAVE_KCmode 344#ifdef USE_ENUM_MODES 345#define KCmode E_KCmode 346#else 347#define KCmode (complex_mode ((complex_mode::from_int) E_KCmode)) 348#endif 349 E_TCmode, /* machmode.def:264 */ 350#define HAVE_TCmode 351#ifdef USE_ENUM_MODES 352#define TCmode E_TCmode 353#else 354#define TCmode (complex_mode ((complex_mode::from_int) E_TCmode)) 355#endif 356 E_ICmode, /* machmode.def:264 */ 357#define HAVE_ICmode 358#ifdef USE_ENUM_MODES 359#define ICmode E_ICmode 360#else 361#define ICmode (complex_mode ((complex_mode::from_int) E_ICmode)) 362#endif 363 E_V16QImode, /* config/rs6000/rs6000-modes.def:69 */ 364#define HAVE_V16QImode 365#ifdef USE_ENUM_MODES 366#define V16QImode E_V16QImode 367#else 368#define V16QImode ((void) 0, E_V16QImode) 369#endif 370 E_V8HImode, /* config/rs6000/rs6000-modes.def:69 */ 371#define HAVE_V8HImode 372#ifdef USE_ENUM_MODES 373#define V8HImode E_V8HImode 374#else 375#define V8HImode ((void) 0, E_V8HImode) 376#endif 377 E_V4SImode, /* config/rs6000/rs6000-modes.def:69 */ 378#define HAVE_V4SImode 379#ifdef USE_ENUM_MODES 380#define V4SImode E_V4SImode 381#else 382#define V4SImode ((void) 0, E_V4SImode) 383#endif 384 E_V2DImode, /* config/rs6000/rs6000-modes.def:69 */ 385#define HAVE_V2DImode 386#ifdef USE_ENUM_MODES 387#define V2DImode E_V2DImode 388#else 389#define V2DImode ((void) 0, E_V2DImode) 390#endif 391 E_V1TImode, /* config/rs6000/rs6000-modes.def:70 */ 392#define HAVE_V1TImode 393#ifdef USE_ENUM_MODES 394#define V1TImode E_V1TImode 395#else 396#define V1TImode ((void) 0, E_V1TImode) 397#endif 398 E_V32QImode, /* config/rs6000/rs6000-modes.def:74 */ 399#define HAVE_V32QImode 400#ifdef USE_ENUM_MODES 401#define V32QImode E_V32QImode 402#else 403#define V32QImode ((void) 0, E_V32QImode) 404#endif 405 E_V16HImode, /* config/rs6000/rs6000-modes.def:74 */ 406#define HAVE_V16HImode 407#ifdef USE_ENUM_MODES 408#define V16HImode E_V16HImode 409#else 410#define V16HImode ((void) 0, E_V16HImode) 411#endif 412 E_V8SImode, /* config/rs6000/rs6000-modes.def:74 */ 413#define HAVE_V8SImode 414#ifdef USE_ENUM_MODES 415#define V8SImode E_V8SImode 416#else 417#define V8SImode ((void) 0, E_V8SImode) 418#endif 419 E_V4DImode, /* config/rs6000/rs6000-modes.def:74 */ 420#define HAVE_V4DImode 421#ifdef USE_ENUM_MODES 422#define V4DImode E_V4DImode 423#else 424#define V4DImode ((void) 0, E_V4DImode) 425#endif 426 E_V2TImode, /* config/rs6000/rs6000-modes.def:74 */ 427#define HAVE_V2TImode 428#ifdef USE_ENUM_MODES 429#define V2TImode E_V2TImode 430#else 431#define V2TImode ((void) 0, E_V2TImode) 432#endif 433 E_V4SFmode, /* config/rs6000/rs6000-modes.def:71 */ 434#define HAVE_V4SFmode 435#ifdef USE_ENUM_MODES 436#define V4SFmode E_V4SFmode 437#else 438#define V4SFmode ((void) 0, E_V4SFmode) 439#endif 440 E_V2DFmode, /* config/rs6000/rs6000-modes.def:71 */ 441#define HAVE_V2DFmode 442#ifdef USE_ENUM_MODES 443#define V2DFmode E_V2DFmode 444#else 445#define V2DFmode ((void) 0, E_V2DFmode) 446#endif 447 E_V2KFmode, /* config/rs6000/rs6000-modes.def:75 */ 448#define HAVE_V2KFmode 449#ifdef USE_ENUM_MODES 450#define V2KFmode E_V2KFmode 451#else 452#define V2KFmode ((void) 0, E_V2KFmode) 453#endif 454 E_V2TFmode, /* config/rs6000/rs6000-modes.def:75 */ 455#define HAVE_V2TFmode 456#ifdef USE_ENUM_MODES 457#define V2TFmode E_V2TFmode 458#else 459#define V2TFmode ((void) 0, E_V2TFmode) 460#endif 461 E_V2IFmode, /* config/rs6000/rs6000-modes.def:75 */ 462#define HAVE_V2IFmode 463#ifdef USE_ENUM_MODES 464#define V2IFmode E_V2IFmode 465#else 466#define V2IFmode ((void) 0, E_V2IFmode) 467#endif 468 E_V8SFmode, /* config/rs6000/rs6000-modes.def:75 */ 469#define HAVE_V8SFmode 470#ifdef USE_ENUM_MODES 471#define V8SFmode E_V8SFmode 472#else 473#define V8SFmode ((void) 0, E_V8SFmode) 474#endif 475 E_V4DFmode, /* config/rs6000/rs6000-modes.def:75 */ 476#define HAVE_V4DFmode 477#ifdef USE_ENUM_MODES 478#define V4DFmode E_V4DFmode 479#else 480#define V4DFmode ((void) 0, E_V4DFmode) 481#endif 482 MAX_MACHINE_MODE, 483 484 MIN_MODE_RANDOM = E_VOIDmode, 485 MAX_MODE_RANDOM = E_BLKmode, 486 487 MIN_MODE_CC = E_CCmode, 488 MAX_MODE_CC = E_CCEQmode, 489 490 MIN_MODE_INT = E_QImode, 491 MAX_MODE_INT = E_TImode, 492 493 MIN_MODE_PARTIAL_INT = E_PTImode, 494 MAX_MODE_PARTIAL_INT = E_PTImode, 495 496 MIN_MODE_FRACT = E_QQmode, 497 MAX_MODE_FRACT = E_TQmode, 498 499 MIN_MODE_UFRACT = E_UQQmode, 500 MAX_MODE_UFRACT = E_UTQmode, 501 502 MIN_MODE_ACCUM = E_HAmode, 503 MAX_MODE_ACCUM = E_TAmode, 504 505 MIN_MODE_UACCUM = E_UHAmode, 506 MAX_MODE_UACCUM = E_UTAmode, 507 508 MIN_MODE_FLOAT = E_SFmode, 509 MAX_MODE_FLOAT = E_IFmode, 510 511 MIN_MODE_DECIMAL_FLOAT = E_SDmode, 512 MAX_MODE_DECIMAL_FLOAT = E_TDmode, 513 514 MIN_MODE_COMPLEX_INT = E_CQImode, 515 MAX_MODE_COMPLEX_INT = E_CTImode, 516 517 MIN_MODE_COMPLEX_FLOAT = E_SCmode, 518 MAX_MODE_COMPLEX_FLOAT = E_ICmode, 519 520 MIN_MODE_VECTOR_BOOL = E_VOIDmode, 521 MAX_MODE_VECTOR_BOOL = E_VOIDmode, 522 523 MIN_MODE_VECTOR_INT = E_V16QImode, 524 MAX_MODE_VECTOR_INT = E_V2TImode, 525 526 MIN_MODE_VECTOR_FRACT = E_VOIDmode, 527 MAX_MODE_VECTOR_FRACT = E_VOIDmode, 528 529 MIN_MODE_VECTOR_UFRACT = E_VOIDmode, 530 MAX_MODE_VECTOR_UFRACT = E_VOIDmode, 531 532 MIN_MODE_VECTOR_ACCUM = E_VOIDmode, 533 MAX_MODE_VECTOR_ACCUM = E_VOIDmode, 534 535 MIN_MODE_VECTOR_UACCUM = E_VOIDmode, 536 MAX_MODE_VECTOR_UACCUM = E_VOIDmode, 537 538 MIN_MODE_VECTOR_FLOAT = E_V4SFmode, 539 MAX_MODE_VECTOR_FLOAT = E_V4DFmode, 540 541 NUM_MACHINE_MODES = MAX_MACHINE_MODE 542}; 543 544#define CONST_MODE_NUNITS const 545#define CONST_MODE_PRECISION const 546#define CONST_MODE_SIZE const 547#define CONST_MODE_UNIT_SIZE const 548#define CONST_MODE_BASE_ALIGN const 549#define CONST_MODE_IBIT const 550#define CONST_MODE_FBIT const 551 552#define BITS_PER_UNIT (8) 553#define MAX_BITSIZE_MODE_ANY_INT (16*BITS_PER_UNIT) 554#define MAX_BITSIZE_MODE_ANY_MODE (32*BITS_PER_UNIT) 555#define NUM_INT_N_ENTS 1 556#define NUM_POLY_INT_COEFFS 1 557 558#endif /* insn-modes.h */ 559