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[binutils.git] / opcodes / alpha-opc.c
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1 /* alpha-opc.c -- Alpha AXP opcode list
2 Copyright 1996, 1997, 1998, 1999, 2000, 2003 Free Software Foundation, Inc.
3 Contributed by Richard Henderson <rth@cygnus.com>,
4 patterned after the PPC opcode handling written by Ian Lance Taylor.
6 This file is part of GDB, GAS, and the GNU binutils.
8 GDB, GAS, and the GNU binutils are free software; you can redistribute
9 them and/or modify them under the terms of the GNU General Public
10 License as published by the Free Software Foundation; either version
11 2, or (at your option) any later version.
13 GDB, GAS, and the GNU binutils are distributed in the hope that they
14 will be useful, but WITHOUT ANY WARRANTY; without even the implied
15 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
16 the GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this file; see the file COPYING. If not, write to the
20 Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA
21 02111-1307, USA. */
23 #include <stdio.h>
24 #include "sysdep.h"
25 #include "opcode/alpha.h"
26 #include "bfd.h"
27 #include "opintl.h"
29 /* This file holds the Alpha AXP opcode table. The opcode table includes
30 almost all of the extended instruction mnemonics. This permits the
31 disassembler to use them, and simplifies the assembler logic, at the
32 cost of increasing the table size. The table is strictly constant
33 data, so the compiler should be able to put it in the text segment.
35 This file also holds the operand table. All knowledge about inserting
36 and extracting operands from instructions is kept in this file.
38 The information for the base instruction set was compiled from the
39 _Alpha Architecture Handbook_, Digital Order Number EC-QD2KB-TE,
40 version 2.
42 The information for the post-ev5 architecture extensions BWX, CIX and
43 MAX came from version 3 of this same document, which is also available
44 on-line at http://ftp.digital.com/pub/Digital/info/semiconductor
45 /literature/alphahb2.pdf
47 The information for the EV4 PALcode instructions was compiled from
48 _DECchip 21064 and DECchip 21064A Alpha AXP Microprocessors Hardware
49 Reference Manual_, Digital Order Number EC-Q9ZUA-TE, preliminary
50 revision dated June 1994.
52 The information for the EV5 PALcode instructions was compiled from
53 _Alpha 21164 Microprocessor Hardware Reference Manual_, Digital
54 Order Number EC-QAEQB-TE, preliminary revision dated April 1995. */
56 /* Local insertion and extraction functions */
58 static unsigned insert_rba PARAMS((unsigned, int, const char **));
59 static unsigned insert_rca PARAMS((unsigned, int, const char **));
60 static unsigned insert_za PARAMS((unsigned, int, const char **));
61 static unsigned insert_zb PARAMS((unsigned, int, const char **));
62 static unsigned insert_zc PARAMS((unsigned, int, const char **));
63 static unsigned insert_bdisp PARAMS((unsigned, int, const char **));
64 static unsigned insert_jhint PARAMS((unsigned, int, const char **));
65 static unsigned insert_ev6hwjhint PARAMS((unsigned, int, const char **));
67 static int extract_rba PARAMS((unsigned, int *));
68 static int extract_rca PARAMS((unsigned, int *));
69 static int extract_za PARAMS((unsigned, int *));
70 static int extract_zb PARAMS((unsigned, int *));
71 static int extract_zc PARAMS((unsigned, int *));
72 static int extract_bdisp PARAMS((unsigned, int *));
73 static int extract_jhint PARAMS((unsigned, int *));
74 static int extract_ev6hwjhint PARAMS((unsigned, int *));
77 /* The operands table */
79 const struct alpha_operand alpha_operands[] =
81 /* The fields are bits, shift, insert, extract, flags */
82 /* The zero index is used to indicate end-of-list */
83 #define UNUSED 0
84 { 0, 0, 0, 0, 0, 0 },
86 /* The plain integer register fields */
87 #define RA (UNUSED + 1)
88 { 5, 21, 0, AXP_OPERAND_IR, 0, 0 },
89 #define RB (RA + 1)
90 { 5, 16, 0, AXP_OPERAND_IR, 0, 0 },
91 #define RC (RB + 1)
92 { 5, 0, 0, AXP_OPERAND_IR, 0, 0 },
94 /* The plain fp register fields */
95 #define FA (RC + 1)
96 { 5, 21, 0, AXP_OPERAND_FPR, 0, 0 },
97 #define FB (FA + 1)
98 { 5, 16, 0, AXP_OPERAND_FPR, 0, 0 },
99 #define FC (FB + 1)
100 { 5, 0, 0, AXP_OPERAND_FPR, 0, 0 },
102 /* The integer registers when they are ZERO */
103 #define ZA (FC + 1)
104 { 5, 21, 0, AXP_OPERAND_FAKE, insert_za, extract_za },
105 #define ZB (ZA + 1)
106 { 5, 16, 0, AXP_OPERAND_FAKE, insert_zb, extract_zb },
107 #define ZC (ZB + 1)
108 { 5, 0, 0, AXP_OPERAND_FAKE, insert_zc, extract_zc },
110 /* The RB field when it needs parentheses */
111 #define PRB (ZC + 1)
112 { 5, 16, 0, AXP_OPERAND_IR|AXP_OPERAND_PARENS, 0, 0 },
114 /* The RB field when it needs parentheses _and_ a preceding comma */
115 #define CPRB (PRB + 1)
116 { 5, 16, 0,
117 AXP_OPERAND_IR|AXP_OPERAND_PARENS|AXP_OPERAND_COMMA, 0, 0 },
119 /* The RB field when it must be the same as the RA field */
120 #define RBA (CPRB + 1)
121 { 5, 16, 0, AXP_OPERAND_FAKE, insert_rba, extract_rba },
123 /* The RC field when it must be the same as the RB field */
124 #define RCA (RBA + 1)
125 { 5, 0, 0, AXP_OPERAND_FAKE, insert_rca, extract_rca },
127 /* The RC field when it can *default* to RA */
128 #define DRC1 (RCA + 1)
129 { 5, 0, 0,
130 AXP_OPERAND_IR|AXP_OPERAND_DEFAULT_FIRST, 0, 0 },
132 /* The RC field when it can *default* to RB */
133 #define DRC2 (DRC1 + 1)
134 { 5, 0, 0,
135 AXP_OPERAND_IR|AXP_OPERAND_DEFAULT_SECOND, 0, 0 },
137 /* The FC field when it can *default* to RA */
138 #define DFC1 (DRC2 + 1)
139 { 5, 0, 0,
140 AXP_OPERAND_FPR|AXP_OPERAND_DEFAULT_FIRST, 0, 0 },
142 /* The FC field when it can *default* to RB */
143 #define DFC2 (DFC1 + 1)
144 { 5, 0, 0,
145 AXP_OPERAND_FPR|AXP_OPERAND_DEFAULT_SECOND, 0, 0 },
147 /* The unsigned 8-bit literal of Operate format insns */
148 #define LIT (DFC2 + 1)
149 { 8, 13, -LIT, AXP_OPERAND_UNSIGNED, 0, 0 },
151 /* The signed 16-bit displacement of Memory format insns. From here
152 we can't tell what relocation should be used, so don't use a default. */
153 #define MDISP (LIT + 1)
154 { 16, 0, -MDISP, AXP_OPERAND_SIGNED, 0, 0 },
156 /* The signed "23-bit" aligned displacement of Branch format insns */
157 #define BDISP (MDISP + 1)
158 { 21, 0, BFD_RELOC_23_PCREL_S2,
159 AXP_OPERAND_RELATIVE, insert_bdisp, extract_bdisp },
161 /* The 26-bit PALcode function */
162 #define PALFN (BDISP + 1)
163 { 26, 0, -PALFN, AXP_OPERAND_UNSIGNED, 0, 0 },
165 /* The optional signed "16-bit" aligned displacement of the JMP/JSR hint */
166 #define JMPHINT (PALFN + 1)
167 { 14, 0, BFD_RELOC_ALPHA_HINT,
168 AXP_OPERAND_RELATIVE|AXP_OPERAND_DEFAULT_ZERO|AXP_OPERAND_NOOVERFLOW,
169 insert_jhint, extract_jhint },
171 /* The optional hint to RET/JSR_COROUTINE */
172 #define RETHINT (JMPHINT + 1)
173 { 14, 0, -RETHINT,
174 AXP_OPERAND_UNSIGNED|AXP_OPERAND_DEFAULT_ZERO, 0, 0 },
176 /* The 12-bit displacement for the ev[46] hw_{ld,st} (pal1b/pal1f) insns */
177 #define EV4HWDISP (RETHINT + 1)
178 #define EV6HWDISP (EV4HWDISP)
179 { 12, 0, -EV4HWDISP, AXP_OPERAND_SIGNED, 0, 0 },
181 /* The 5-bit index for the ev4 hw_m[ft]pr (pal19/pal1d) insns */
182 #define EV4HWINDEX (EV4HWDISP + 1)
183 { 5, 0, -EV4HWINDEX, AXP_OPERAND_UNSIGNED, 0, 0 },
185 /* The 8-bit index for the oddly unqualified hw_m[tf]pr insns
186 that occur in DEC PALcode. */
187 #define EV4EXTHWINDEX (EV4HWINDEX + 1)
188 { 8, 0, -EV4EXTHWINDEX, AXP_OPERAND_UNSIGNED, 0, 0 },
190 /* The 10-bit displacement for the ev5 hw_{ld,st} (pal1b/pal1f) insns */
191 #define EV5HWDISP (EV4EXTHWINDEX + 1)
192 { 10, 0, -EV5HWDISP, AXP_OPERAND_SIGNED, 0, 0 },
194 /* The 16-bit index for the ev5 hw_m[ft]pr (pal19/pal1d) insns */
195 #define EV5HWINDEX (EV5HWDISP + 1)
196 { 16, 0, -EV5HWINDEX, AXP_OPERAND_UNSIGNED, 0, 0 },
198 /* The 16-bit combined index/scoreboard mask for the ev6
199 hw_m[ft]pr (pal19/pal1d) insns */
200 #define EV6HWINDEX (EV5HWINDEX + 1)
201 { 16, 0, -EV6HWINDEX, AXP_OPERAND_UNSIGNED, 0, 0 },
203 /* The 13-bit branch hint for the ev6 hw_jmp/jsr (pal1e) insn */
204 #define EV6HWJMPHINT (EV6HWINDEX+ 1)
205 { 8, 0, -EV6HWJMPHINT,
206 AXP_OPERAND_RELATIVE|AXP_OPERAND_DEFAULT_ZERO|AXP_OPERAND_NOOVERFLOW,
207 insert_ev6hwjhint, extract_ev6hwjhint }
210 const unsigned alpha_num_operands = sizeof(alpha_operands)/sizeof(*alpha_operands);
212 /* The RB field when it is the same as the RA field in the same insn.
213 This operand is marked fake. The insertion function just copies
214 the RA field into the RB field, and the extraction function just
215 checks that the fields are the same. */
217 static unsigned
218 insert_rba(insn, value, errmsg)
219 unsigned insn;
220 int value ATTRIBUTE_UNUSED;
221 const char **errmsg ATTRIBUTE_UNUSED;
223 return insn | (((insn >> 21) & 0x1f) << 16);
226 static int
227 extract_rba(insn, invalid)
228 unsigned insn;
229 int *invalid;
231 if (invalid != (int *) NULL
232 && ((insn >> 21) & 0x1f) != ((insn >> 16) & 0x1f))
233 *invalid = 1;
234 return 0;
238 /* The same for the RC field */
240 static unsigned
241 insert_rca(insn, value, errmsg)
242 unsigned insn;
243 int value ATTRIBUTE_UNUSED;
244 const char **errmsg ATTRIBUTE_UNUSED;
246 return insn | ((insn >> 21) & 0x1f);
249 static int
250 extract_rca(insn, invalid)
251 unsigned insn;
252 int *invalid;
254 if (invalid != (int *) NULL
255 && ((insn >> 21) & 0x1f) != (insn & 0x1f))
256 *invalid = 1;
257 return 0;
261 /* Fake arguments in which the registers must be set to ZERO */
263 static unsigned
264 insert_za(insn, value, errmsg)
265 unsigned insn;
266 int value ATTRIBUTE_UNUSED;
267 const char **errmsg ATTRIBUTE_UNUSED;
269 return insn | (31 << 21);
272 static int
273 extract_za(insn, invalid)
274 unsigned insn;
275 int *invalid;
277 if (invalid != (int *) NULL && ((insn >> 21) & 0x1f) != 31)
278 *invalid = 1;
279 return 0;
282 static unsigned
283 insert_zb(insn, value, errmsg)
284 unsigned insn;
285 int value ATTRIBUTE_UNUSED;
286 const char **errmsg ATTRIBUTE_UNUSED;
288 return insn | (31 << 16);
291 static int
292 extract_zb(insn, invalid)
293 unsigned insn;
294 int *invalid;
296 if (invalid != (int *) NULL && ((insn >> 16) & 0x1f) != 31)
297 *invalid = 1;
298 return 0;
301 static unsigned
302 insert_zc(insn, value, errmsg)
303 unsigned insn;
304 int value ATTRIBUTE_UNUSED;
305 const char **errmsg ATTRIBUTE_UNUSED;
307 return insn | 31;
310 static int
311 extract_zc(insn, invalid)
312 unsigned insn;
313 int *invalid;
315 if (invalid != (int *) NULL && (insn & 0x1f) != 31)
316 *invalid = 1;
317 return 0;
321 /* The displacement field of a Branch format insn. */
323 static unsigned
324 insert_bdisp(insn, value, errmsg)
325 unsigned insn;
326 int value;
327 const char **errmsg;
329 if (errmsg != (const char **)NULL && (value & 3))
330 *errmsg = _("branch operand unaligned");
331 return insn | ((value / 4) & 0x1FFFFF);
334 static int
335 extract_bdisp(insn, invalid)
336 unsigned insn;
337 int *invalid ATTRIBUTE_UNUSED;
339 return 4 * (((insn & 0x1FFFFF) ^ 0x100000) - 0x100000);
343 /* The hint field of a JMP/JSR insn. */
345 static unsigned
346 insert_jhint(insn, value, errmsg)
347 unsigned insn;
348 int value;
349 const char **errmsg;
351 if (errmsg != (const char **)NULL && (value & 3))
352 *errmsg = _("jump hint unaligned");
353 return insn | ((value / 4) & 0x3FFF);
356 static int
357 extract_jhint(insn, invalid)
358 unsigned insn;
359 int *invalid ATTRIBUTE_UNUSED;
361 return 4 * (((insn & 0x3FFF) ^ 0x2000) - 0x2000);
364 /* The hint field of an EV6 HW_JMP/JSR insn. */
366 static unsigned
367 insert_ev6hwjhint(insn, value, errmsg)
368 unsigned insn;
369 int value;
370 const char **errmsg;
372 if (errmsg != (const char **)NULL && (value & 3))
373 *errmsg = _("jump hint unaligned");
374 return insn | ((value / 4) & 0x1FFF);
377 static int
378 extract_ev6hwjhint(insn, invalid)
379 unsigned insn;
380 int *invalid ATTRIBUTE_UNUSED;
382 return 4 * (((insn & 0x1FFF) ^ 0x1000) - 0x1000);
386 /* Macros used to form opcodes */
388 /* The main opcode */
389 #define OP(x) (((x) & 0x3F) << 26)
390 #define OP_MASK 0xFC000000
392 /* Branch format instructions */
393 #define BRA_(oo) OP(oo)
394 #define BRA_MASK OP_MASK
395 #define BRA(oo) BRA_(oo), BRA_MASK
397 /* Floating point format instructions */
398 #define FP_(oo,fff) (OP(oo) | (((fff) & 0x7FF) << 5))
399 #define FP_MASK (OP_MASK | 0xFFE0)
400 #define FP(oo,fff) FP_(oo,fff), FP_MASK
402 /* Memory format instructions */
403 #define MEM_(oo) OP(oo)
404 #define MEM_MASK OP_MASK
405 #define MEM(oo) MEM_(oo), MEM_MASK
407 /* Memory/Func Code format instructions */
408 #define MFC_(oo,ffff) (OP(oo) | ((ffff) & 0xFFFF))
409 #define MFC_MASK (OP_MASK | 0xFFFF)
410 #define MFC(oo,ffff) MFC_(oo,ffff), MFC_MASK
412 /* Memory/Branch format instructions */
413 #define MBR_(oo,h) (OP(oo) | (((h) & 3) << 14))
414 #define MBR_MASK (OP_MASK | 0xC000)
415 #define MBR(oo,h) MBR_(oo,h), MBR_MASK
417 /* Operate format instructions. The OPRL variant specifies a
418 literal second argument. */
419 #define OPR_(oo,ff) (OP(oo) | (((ff) & 0x7F) << 5))
420 #define OPRL_(oo,ff) (OPR_((oo),(ff)) | 0x1000)
421 #define OPR_MASK (OP_MASK | 0x1FE0)
422 #define OPR(oo,ff) OPR_(oo,ff), OPR_MASK
423 #define OPRL(oo,ff) OPRL_(oo,ff), OPR_MASK
425 /* Generic PALcode format instructions */
426 #define PCD_(oo) OP(oo)
427 #define PCD_MASK OP_MASK
428 #define PCD(oo) PCD_(oo), PCD_MASK
430 /* Specific PALcode instructions */
431 #define SPCD_(oo,ffff) (OP(oo) | ((ffff) & 0x3FFFFFF))
432 #define SPCD_MASK 0xFFFFFFFF
433 #define SPCD(oo,ffff) SPCD_(oo,ffff), SPCD_MASK
435 /* Hardware memory (hw_{ld,st}) instructions */
436 #define EV4HWMEM_(oo,f) (OP(oo) | (((f) & 0xF) << 12))
437 #define EV4HWMEM_MASK (OP_MASK | 0xF000)
438 #define EV4HWMEM(oo,f) EV4HWMEM_(oo,f), EV4HWMEM_MASK
440 #define EV5HWMEM_(oo,f) (OP(oo) | (((f) & 0x3F) << 10))
441 #define EV5HWMEM_MASK (OP_MASK | 0xF800)
442 #define EV5HWMEM(oo,f) EV5HWMEM_(oo,f), EV5HWMEM_MASK
444 #define EV6HWMEM_(oo,f) (OP(oo) | (((f) & 0xF) << 12))
445 #define EV6HWMEM_MASK (OP_MASK | 0xF000)
446 #define EV6HWMEM(oo,f) EV6HWMEM_(oo,f), EV6HWMEM_MASK
448 #define EV6HWMBR_(oo,h) (OP(oo) | (((h) & 7) << 13))
449 #define EV6HWMBR_MASK (OP_MASK | 0xE000)
450 #define EV6HWMBR(oo,h) EV6HWMBR_(oo,h), EV6HWMBR_MASK
452 /* Abbreviations for instruction subsets. */
453 #define BASE AXP_OPCODE_BASE
454 #define EV4 AXP_OPCODE_EV4
455 #define EV5 AXP_OPCODE_EV5
456 #define EV6 AXP_OPCODE_EV6
457 #define BWX AXP_OPCODE_BWX
458 #define CIX AXP_OPCODE_CIX
459 #define MAX AXP_OPCODE_MAX
461 /* Common combinations of arguments */
462 #define ARG_NONE { 0 }
463 #define ARG_BRA { RA, BDISP }
464 #define ARG_FBRA { FA, BDISP }
465 #define ARG_FP { FA, FB, DFC1 }
466 #define ARG_FPZ1 { ZA, FB, DFC1 }
467 #define ARG_MEM { RA, MDISP, PRB }
468 #define ARG_FMEM { FA, MDISP, PRB }
469 #define ARG_OPR { RA, RB, DRC1 }
470 #define ARG_OPRL { RA, LIT, DRC1 }
471 #define ARG_OPRZ1 { ZA, RB, DRC1 }
472 #define ARG_OPRLZ1 { ZA, LIT, RC }
473 #define ARG_PCD { PALFN }
474 #define ARG_EV4HWMEM { RA, EV4HWDISP, PRB }
475 #define ARG_EV4HWMPR { RA, RBA, EV4HWINDEX }
476 #define ARG_EV5HWMEM { RA, EV5HWDISP, PRB }
477 #define ARG_EV6HWMEM { RA, EV6HWDISP, PRB }
479 /* The opcode table.
481 The format of the opcode table is:
483 NAME OPCODE MASK { OPERANDS }
485 NAME is the name of the instruction.
487 OPCODE is the instruction opcode.
489 MASK is the opcode mask; this is used to tell the disassembler
490 which bits in the actual opcode must match OPCODE.
492 OPERANDS is the list of operands.
494 The preceding macros merge the text of the OPCODE and MASK fields.
496 The disassembler reads the table in order and prints the first
497 instruction which matches, so this table is sorted to put more
498 specific instructions before more general instructions.
500 Otherwise, it is sorted by major opcode and minor function code.
502 There are three classes of not-really-instructions in this table:
504 ALIAS is another name for another instruction. Some of
505 these come from the Architecture Handbook, some
506 come from the original gas opcode tables. In all
507 cases, the functionality of the opcode is unchanged.
509 PSEUDO a stylized code form endorsed by Chapter A.4 of the
510 Architecture Handbook.
512 EXTRA a stylized code form found in the original gas tables.
514 And two annotations:
516 EV56 BUT opcodes that are officially introduced as of the ev56,
517 but with defined results on previous implementations.
519 EV56 UNA opcodes that were introduced as of the ev56 with
520 presumably undefined results on previous implementations
521 that were not assigned to a particular extension.
524 const struct alpha_opcode alpha_opcodes[] = {
525 { "halt", SPCD(0x00,0x0000), BASE, ARG_NONE },
526 { "draina", SPCD(0x00,0x0002), BASE, ARG_NONE },
527 { "bpt", SPCD(0x00,0x0080), BASE, ARG_NONE },
528 { "bugchk", SPCD(0x00,0x0081), BASE, ARG_NONE },
529 { "callsys", SPCD(0x00,0x0083), BASE, ARG_NONE },
530 { "chmk", SPCD(0x00,0x0083), BASE, ARG_NONE },
531 { "imb", SPCD(0x00,0x0086), BASE, ARG_NONE },
532 { "rduniq", SPCD(0x00,0x009e), BASE, ARG_NONE },
533 { "wruniq", SPCD(0x00,0x009f), BASE, ARG_NONE },
534 { "gentrap", SPCD(0x00,0x00aa), BASE, ARG_NONE },
535 { "call_pal", PCD(0x00), BASE, ARG_PCD },
536 { "pal", PCD(0x00), BASE, ARG_PCD }, /* alias */
538 { "lda", MEM(0x08), BASE, { RA, MDISP, ZB } }, /* pseudo */
539 { "lda", MEM(0x08), BASE, ARG_MEM },
540 { "ldah", MEM(0x09), BASE, { RA, MDISP, ZB } }, /* pseudo */
541 { "ldah", MEM(0x09), BASE, ARG_MEM },
542 { "ldbu", MEM(0x0A), BWX, ARG_MEM },
543 { "unop", MEM_(0x0B) | (30 << 16),
544 MEM_MASK, BASE, { ZA } }, /* pseudo */
545 { "ldq_u", MEM(0x0B), BASE, ARG_MEM },
546 { "ldwu", MEM(0x0C), BWX, ARG_MEM },
547 { "stw", MEM(0x0D), BWX, ARG_MEM },
548 { "stb", MEM(0x0E), BWX, ARG_MEM },
549 { "stq_u", MEM(0x0F), BASE, ARG_MEM },
551 { "sextl", OPR(0x10,0x00), BASE, ARG_OPRZ1 }, /* pseudo */
552 { "sextl", OPRL(0x10,0x00), BASE, ARG_OPRLZ1 }, /* pseudo */
553 { "addl", OPR(0x10,0x00), BASE, ARG_OPR },
554 { "addl", OPRL(0x10,0x00), BASE, ARG_OPRL },
555 { "s4addl", OPR(0x10,0x02), BASE, ARG_OPR },
556 { "s4addl", OPRL(0x10,0x02), BASE, ARG_OPRL },
557 { "negl", OPR(0x10,0x09), BASE, ARG_OPRZ1 }, /* pseudo */
558 { "negl", OPRL(0x10,0x09), BASE, ARG_OPRLZ1 }, /* pseudo */
559 { "subl", OPR(0x10,0x09), BASE, ARG_OPR },
560 { "subl", OPRL(0x10,0x09), BASE, ARG_OPRL },
561 { "s4subl", OPR(0x10,0x0B), BASE, ARG_OPR },
562 { "s4subl", OPRL(0x10,0x0B), BASE, ARG_OPRL },
563 { "cmpbge", OPR(0x10,0x0F), BASE, ARG_OPR },
564 { "cmpbge", OPRL(0x10,0x0F), BASE, ARG_OPRL },
565 { "s8addl", OPR(0x10,0x12), BASE, ARG_OPR },
566 { "s8addl", OPRL(0x10,0x12), BASE, ARG_OPRL },
567 { "s8subl", OPR(0x10,0x1B), BASE, ARG_OPR },
568 { "s8subl", OPRL(0x10,0x1B), BASE, ARG_OPRL },
569 { "cmpult", OPR(0x10,0x1D), BASE, ARG_OPR },
570 { "cmpult", OPRL(0x10,0x1D), BASE, ARG_OPRL },
571 { "addq", OPR(0x10,0x20), BASE, ARG_OPR },
572 { "addq", OPRL(0x10,0x20), BASE, ARG_OPRL },
573 { "s4addq", OPR(0x10,0x22), BASE, ARG_OPR },
574 { "s4addq", OPRL(0x10,0x22), BASE, ARG_OPRL },
575 { "negq", OPR(0x10,0x29), BASE, ARG_OPRZ1 }, /* pseudo */
576 { "negq", OPRL(0x10,0x29), BASE, ARG_OPRLZ1 }, /* pseudo */
577 { "subq", OPR(0x10,0x29), BASE, ARG_OPR },
578 { "subq", OPRL(0x10,0x29), BASE, ARG_OPRL },
579 { "s4subq", OPR(0x10,0x2B), BASE, ARG_OPR },
580 { "s4subq", OPRL(0x10,0x2B), BASE, ARG_OPRL },
581 { "cmpeq", OPR(0x10,0x2D), BASE, ARG_OPR },
582 { "cmpeq", OPRL(0x10,0x2D), BASE, ARG_OPRL },
583 { "s8addq", OPR(0x10,0x32), BASE, ARG_OPR },
584 { "s8addq", OPRL(0x10,0x32), BASE, ARG_OPRL },
585 { "s8subq", OPR(0x10,0x3B), BASE, ARG_OPR },
586 { "s8subq", OPRL(0x10,0x3B), BASE, ARG_OPRL },
587 { "cmpule", OPR(0x10,0x3D), BASE, ARG_OPR },
588 { "cmpule", OPRL(0x10,0x3D), BASE, ARG_OPRL },
589 { "addl/v", OPR(0x10,0x40), BASE, ARG_OPR },
590 { "addl/v", OPRL(0x10,0x40), BASE, ARG_OPRL },
591 { "negl/v", OPR(0x10,0x49), BASE, ARG_OPRZ1 }, /* pseudo */
592 { "negl/v", OPRL(0x10,0x49), BASE, ARG_OPRLZ1 }, /* pseudo */
593 { "subl/v", OPR(0x10,0x49), BASE, ARG_OPR },
594 { "subl/v", OPRL(0x10,0x49), BASE, ARG_OPRL },
595 { "cmplt", OPR(0x10,0x4D), BASE, ARG_OPR },
596 { "cmplt", OPRL(0x10,0x4D), BASE, ARG_OPRL },
597 { "addq/v", OPR(0x10,0x60), BASE, ARG_OPR },
598 { "addq/v", OPRL(0x10,0x60), BASE, ARG_OPRL },
599 { "negq/v", OPR(0x10,0x69), BASE, ARG_OPRZ1 }, /* pseudo */
600 { "negq/v", OPRL(0x10,0x69), BASE, ARG_OPRLZ1 }, /* pseudo */
601 { "subq/v", OPR(0x10,0x69), BASE, ARG_OPR },
602 { "subq/v", OPRL(0x10,0x69), BASE, ARG_OPRL },
603 { "cmple", OPR(0x10,0x6D), BASE, ARG_OPR },
604 { "cmple", OPRL(0x10,0x6D), BASE, ARG_OPRL },
606 { "and", OPR(0x11,0x00), BASE, ARG_OPR },
607 { "and", OPRL(0x11,0x00), BASE, ARG_OPRL },
608 { "andnot", OPR(0x11,0x08), BASE, ARG_OPR }, /* alias */
609 { "andnot", OPRL(0x11,0x08), BASE, ARG_OPRL }, /* alias */
610 { "bic", OPR(0x11,0x08), BASE, ARG_OPR },
611 { "bic", OPRL(0x11,0x08), BASE, ARG_OPRL },
612 { "cmovlbs", OPR(0x11,0x14), BASE, ARG_OPR },
613 { "cmovlbs", OPRL(0x11,0x14), BASE, ARG_OPRL },
614 { "cmovlbc", OPR(0x11,0x16), BASE, ARG_OPR },
615 { "cmovlbc", OPRL(0x11,0x16), BASE, ARG_OPRL },
616 { "nop", OPR(0x11,0x20), BASE, { ZA, ZB, ZC } }, /* pseudo */
617 { "clr", OPR(0x11,0x20), BASE, { ZA, ZB, RC } }, /* pseudo */
618 { "mov", OPR(0x11,0x20), BASE, { ZA, RB, RC } }, /* pseudo */
619 { "mov", OPR(0x11,0x20), BASE, { RA, RBA, RC } }, /* pseudo */
620 { "mov", OPRL(0x11,0x20), BASE, { ZA, LIT, RC } }, /* pseudo */
621 { "or", OPR(0x11,0x20), BASE, ARG_OPR }, /* alias */
622 { "or", OPRL(0x11,0x20), BASE, ARG_OPRL }, /* alias */
623 { "bis", OPR(0x11,0x20), BASE, ARG_OPR },
624 { "bis", OPRL(0x11,0x20), BASE, ARG_OPRL },
625 { "cmoveq", OPR(0x11,0x24), BASE, ARG_OPR },
626 { "cmoveq", OPRL(0x11,0x24), BASE, ARG_OPRL },
627 { "cmovne", OPR(0x11,0x26), BASE, ARG_OPR },
628 { "cmovne", OPRL(0x11,0x26), BASE, ARG_OPRL },
629 { "not", OPR(0x11,0x28), BASE, ARG_OPRZ1 }, /* pseudo */
630 { "not", OPRL(0x11,0x28), BASE, ARG_OPRLZ1 }, /* pseudo */
631 { "ornot", OPR(0x11,0x28), BASE, ARG_OPR },
632 { "ornot", OPRL(0x11,0x28), BASE, ARG_OPRL },
633 { "xor", OPR(0x11,0x40), BASE, ARG_OPR },
634 { "xor", OPRL(0x11,0x40), BASE, ARG_OPRL },
635 { "cmovlt", OPR(0x11,0x44), BASE, ARG_OPR },
636 { "cmovlt", OPRL(0x11,0x44), BASE, ARG_OPRL },
637 { "cmovge", OPR(0x11,0x46), BASE, ARG_OPR },
638 { "cmovge", OPRL(0x11,0x46), BASE, ARG_OPRL },
639 { "eqv", OPR(0x11,0x48), BASE, ARG_OPR },
640 { "eqv", OPRL(0x11,0x48), BASE, ARG_OPRL },
641 { "xornot", OPR(0x11,0x48), BASE, ARG_OPR }, /* alias */
642 { "xornot", OPRL(0x11,0x48), BASE, ARG_OPRL }, /* alias */
643 { "amask", OPR(0x11,0x61), BASE, ARG_OPRZ1 }, /* ev56 but */
644 { "amask", OPRL(0x11,0x61), BASE, ARG_OPRLZ1 }, /* ev56 but */
645 { "cmovle", OPR(0x11,0x64), BASE, ARG_OPR },
646 { "cmovle", OPRL(0x11,0x64), BASE, ARG_OPRL },
647 { "cmovgt", OPR(0x11,0x66), BASE, ARG_OPR },
648 { "cmovgt", OPRL(0x11,0x66), BASE, ARG_OPRL },
649 { "implver", OPRL_(0x11,0x6C)|(31<<21)|(1<<13),
650 0xFFFFFFE0, BASE, { RC } }, /* ev56 but */
652 { "mskbl", OPR(0x12,0x02), BASE, ARG_OPR },
653 { "mskbl", OPRL(0x12,0x02), BASE, ARG_OPRL },
654 { "extbl", OPR(0x12,0x06), BASE, ARG_OPR },
655 { "extbl", OPRL(0x12,0x06), BASE, ARG_OPRL },
656 { "insbl", OPR(0x12,0x0B), BASE, ARG_OPR },
657 { "insbl", OPRL(0x12,0x0B), BASE, ARG_OPRL },
658 { "mskwl", OPR(0x12,0x12), BASE, ARG_OPR },
659 { "mskwl", OPRL(0x12,0x12), BASE, ARG_OPRL },
660 { "extwl", OPR(0x12,0x16), BASE, ARG_OPR },
661 { "extwl", OPRL(0x12,0x16), BASE, ARG_OPRL },
662 { "inswl", OPR(0x12,0x1B), BASE, ARG_OPR },
663 { "inswl", OPRL(0x12,0x1B), BASE, ARG_OPRL },
664 { "mskll", OPR(0x12,0x22), BASE, ARG_OPR },
665 { "mskll", OPRL(0x12,0x22), BASE, ARG_OPRL },
666 { "extll", OPR(0x12,0x26), BASE, ARG_OPR },
667 { "extll", OPRL(0x12,0x26), BASE, ARG_OPRL },
668 { "insll", OPR(0x12,0x2B), BASE, ARG_OPR },
669 { "insll", OPRL(0x12,0x2B), BASE, ARG_OPRL },
670 { "zap", OPR(0x12,0x30), BASE, ARG_OPR },
671 { "zap", OPRL(0x12,0x30), BASE, ARG_OPRL },
672 { "zapnot", OPR(0x12,0x31), BASE, ARG_OPR },
673 { "zapnot", OPRL(0x12,0x31), BASE, ARG_OPRL },
674 { "mskql", OPR(0x12,0x32), BASE, ARG_OPR },
675 { "mskql", OPRL(0x12,0x32), BASE, ARG_OPRL },
676 { "srl", OPR(0x12,0x34), BASE, ARG_OPR },
677 { "srl", OPRL(0x12,0x34), BASE, ARG_OPRL },
678 { "extql", OPR(0x12,0x36), BASE, ARG_OPR },
679 { "extql", OPRL(0x12,0x36), BASE, ARG_OPRL },
680 { "sll", OPR(0x12,0x39), BASE, ARG_OPR },
681 { "sll", OPRL(0x12,0x39), BASE, ARG_OPRL },
682 { "insql", OPR(0x12,0x3B), BASE, ARG_OPR },
683 { "insql", OPRL(0x12,0x3B), BASE, ARG_OPRL },
684 { "sra", OPR(0x12,0x3C), BASE, ARG_OPR },
685 { "sra", OPRL(0x12,0x3C), BASE, ARG_OPRL },
686 { "mskwh", OPR(0x12,0x52), BASE, ARG_OPR },
687 { "mskwh", OPRL(0x12,0x52), BASE, ARG_OPRL },
688 { "inswh", OPR(0x12,0x57), BASE, ARG_OPR },
689 { "inswh", OPRL(0x12,0x57), BASE, ARG_OPRL },
690 { "extwh", OPR(0x12,0x5A), BASE, ARG_OPR },
691 { "extwh", OPRL(0x12,0x5A), BASE, ARG_OPRL },
692 { "msklh", OPR(0x12,0x62), BASE, ARG_OPR },
693 { "msklh", OPRL(0x12,0x62), BASE, ARG_OPRL },
694 { "inslh", OPR(0x12,0x67), BASE, ARG_OPR },
695 { "inslh", OPRL(0x12,0x67), BASE, ARG_OPRL },
696 { "extlh", OPR(0x12,0x6A), BASE, ARG_OPR },
697 { "extlh", OPRL(0x12,0x6A), BASE, ARG_OPRL },
698 { "mskqh", OPR(0x12,0x72), BASE, ARG_OPR },
699 { "mskqh", OPRL(0x12,0x72), BASE, ARG_OPRL },
700 { "insqh", OPR(0x12,0x77), BASE, ARG_OPR },
701 { "insqh", OPRL(0x12,0x77), BASE, ARG_OPRL },
702 { "extqh", OPR(0x12,0x7A), BASE, ARG_OPR },
703 { "extqh", OPRL(0x12,0x7A), BASE, ARG_OPRL },
705 { "mull", OPR(0x13,0x00), BASE, ARG_OPR },
706 { "mull", OPRL(0x13,0x00), BASE, ARG_OPRL },
707 { "mulq", OPR(0x13,0x20), BASE, ARG_OPR },
708 { "mulq", OPRL(0x13,0x20), BASE, ARG_OPRL },
709 { "umulh", OPR(0x13,0x30), BASE, ARG_OPR },
710 { "umulh", OPRL(0x13,0x30), BASE, ARG_OPRL },
711 { "mull/v", OPR(0x13,0x40), BASE, ARG_OPR },
712 { "mull/v", OPRL(0x13,0x40), BASE, ARG_OPRL },
713 { "mulq/v", OPR(0x13,0x60), BASE, ARG_OPR },
714 { "mulq/v", OPRL(0x13,0x60), BASE, ARG_OPRL },
716 { "itofs", FP(0x14,0x004), CIX, { RA, ZB, FC } },
717 { "sqrtf/c", FP(0x14,0x00A), CIX, ARG_FPZ1 },
718 { "sqrts/c", FP(0x14,0x00B), CIX, ARG_FPZ1 },
719 { "itoff", FP(0x14,0x014), CIX, { RA, ZB, FC } },
720 { "itoft", FP(0x14,0x024), CIX, { RA, ZB, FC } },
721 { "sqrtg/c", FP(0x14,0x02A), CIX, ARG_FPZ1 },
722 { "sqrtt/c", FP(0x14,0x02B), CIX, ARG_FPZ1 },
723 { "sqrts/m", FP(0x14,0x04B), CIX, ARG_FPZ1 },
724 { "sqrtt/m", FP(0x14,0x06B), CIX, ARG_FPZ1 },
725 { "sqrtf", FP(0x14,0x08A), CIX, ARG_FPZ1 },
726 { "sqrts", FP(0x14,0x08B), CIX, ARG_FPZ1 },
727 { "sqrtg", FP(0x14,0x0AA), CIX, ARG_FPZ1 },
728 { "sqrtt", FP(0x14,0x0AB), CIX, ARG_FPZ1 },
729 { "sqrts/d", FP(0x14,0x0CB), CIX, ARG_FPZ1 },
730 { "sqrtt/d", FP(0x14,0x0EB), CIX, ARG_FPZ1 },
731 { "sqrtf/uc", FP(0x14,0x10A), CIX, ARG_FPZ1 },
732 { "sqrts/uc", FP(0x14,0x10B), CIX, ARG_FPZ1 },
733 { "sqrtg/uc", FP(0x14,0x12A), CIX, ARG_FPZ1 },
734 { "sqrtt/uc", FP(0x14,0x12B), CIX, ARG_FPZ1 },
735 { "sqrts/um", FP(0x14,0x14B), CIX, ARG_FPZ1 },
736 { "sqrtt/um", FP(0x14,0x16B), CIX, ARG_FPZ1 },
737 { "sqrtf/u", FP(0x14,0x18A), CIX, ARG_FPZ1 },
738 { "sqrts/u", FP(0x14,0x18B), CIX, ARG_FPZ1 },
739 { "sqrtg/u", FP(0x14,0x1AA), CIX, ARG_FPZ1 },
740 { "sqrtt/u", FP(0x14,0x1AB), CIX, ARG_FPZ1 },
741 { "sqrts/ud", FP(0x14,0x1CB), CIX, ARG_FPZ1 },
742 { "sqrtt/ud", FP(0x14,0x1EB), CIX, ARG_FPZ1 },
743 { "sqrtf/sc", FP(0x14,0x40A), CIX, ARG_FPZ1 },
744 { "sqrtg/sc", FP(0x14,0x42A), CIX, ARG_FPZ1 },
745 { "sqrtf/s", FP(0x14,0x48A), CIX, ARG_FPZ1 },
746 { "sqrtg/s", FP(0x14,0x4AA), CIX, ARG_FPZ1 },
747 { "sqrtf/suc", FP(0x14,0x50A), CIX, ARG_FPZ1 },
748 { "sqrts/suc", FP(0x14,0x50B), CIX, ARG_FPZ1 },
749 { "sqrtg/suc", FP(0x14,0x52A), CIX, ARG_FPZ1 },
750 { "sqrtt/suc", FP(0x14,0x52B), CIX, ARG_FPZ1 },
751 { "sqrts/sum", FP(0x14,0x54B), CIX, ARG_FPZ1 },
752 { "sqrtt/sum", FP(0x14,0x56B), CIX, ARG_FPZ1 },
753 { "sqrtf/su", FP(0x14,0x58A), CIX, ARG_FPZ1 },
754 { "sqrts/su", FP(0x14,0x58B), CIX, ARG_FPZ1 },
755 { "sqrtg/su", FP(0x14,0x5AA), CIX, ARG_FPZ1 },
756 { "sqrtt/su", FP(0x14,0x5AB), CIX, ARG_FPZ1 },
757 { "sqrts/sud", FP(0x14,0x5CB), CIX, ARG_FPZ1 },
758 { "sqrtt/sud", FP(0x14,0x5EB), CIX, ARG_FPZ1 },
759 { "sqrts/suic", FP(0x14,0x70B), CIX, ARG_FPZ1 },
760 { "sqrtt/suic", FP(0x14,0x72B), CIX, ARG_FPZ1 },
761 { "sqrts/suim", FP(0x14,0x74B), CIX, ARG_FPZ1 },
762 { "sqrtt/suim", FP(0x14,0x76B), CIX, ARG_FPZ1 },
763 { "sqrts/sui", FP(0x14,0x78B), CIX, ARG_FPZ1 },
764 { "sqrtt/sui", FP(0x14,0x7AB), CIX, ARG_FPZ1 },
765 { "sqrts/suid", FP(0x14,0x7CB), CIX, ARG_FPZ1 },
766 { "sqrtt/suid", FP(0x14,0x7EB), CIX, ARG_FPZ1 },
768 { "addf/c", FP(0x15,0x000), BASE, ARG_FP },
769 { "subf/c", FP(0x15,0x001), BASE, ARG_FP },
770 { "mulf/c", FP(0x15,0x002), BASE, ARG_FP },
771 { "divf/c", FP(0x15,0x003), BASE, ARG_FP },
772 { "cvtdg/c", FP(0x15,0x01E), BASE, ARG_FPZ1 },
773 { "addg/c", FP(0x15,0x020), BASE, ARG_FP },
774 { "subg/c", FP(0x15,0x021), BASE, ARG_FP },
775 { "mulg/c", FP(0x15,0x022), BASE, ARG_FP },
776 { "divg/c", FP(0x15,0x023), BASE, ARG_FP },
777 { "cvtgf/c", FP(0x15,0x02C), BASE, ARG_FPZ1 },
778 { "cvtgd/c", FP(0x15,0x02D), BASE, ARG_FPZ1 },
779 { "cvtgq/c", FP(0x15,0x02F), BASE, ARG_FPZ1 },
780 { "cvtqf/c", FP(0x15,0x03C), BASE, ARG_FPZ1 },
781 { "cvtqg/c", FP(0x15,0x03E), BASE, ARG_FPZ1 },
782 { "addf", FP(0x15,0x080), BASE, ARG_FP },
783 { "negf", FP(0x15,0x081), BASE, ARG_FPZ1 }, /* pseudo */
784 { "subf", FP(0x15,0x081), BASE, ARG_FP },
785 { "mulf", FP(0x15,0x082), BASE, ARG_FP },
786 { "divf", FP(0x15,0x083), BASE, ARG_FP },
787 { "cvtdg", FP(0x15,0x09E), BASE, ARG_FPZ1 },
788 { "addg", FP(0x15,0x0A0), BASE, ARG_FP },
789 { "negg", FP(0x15,0x0A1), BASE, ARG_FPZ1 }, /* pseudo */
790 { "subg", FP(0x15,0x0A1), BASE, ARG_FP },
791 { "mulg", FP(0x15,0x0A2), BASE, ARG_FP },
792 { "divg", FP(0x15,0x0A3), BASE, ARG_FP },
793 { "cmpgeq", FP(0x15,0x0A5), BASE, ARG_FP },
794 { "cmpglt", FP(0x15,0x0A6), BASE, ARG_FP },
795 { "cmpgle", FP(0x15,0x0A7), BASE, ARG_FP },
796 { "cvtgf", FP(0x15,0x0AC), BASE, ARG_FPZ1 },
797 { "cvtgd", FP(0x15,0x0AD), BASE, ARG_FPZ1 },
798 { "cvtgq", FP(0x15,0x0AF), BASE, ARG_FPZ1 },
799 { "cvtqf", FP(0x15,0x0BC), BASE, ARG_FPZ1 },
800 { "cvtqg", FP(0x15,0x0BE), BASE, ARG_FPZ1 },
801 { "addf/uc", FP(0x15,0x100), BASE, ARG_FP },
802 { "subf/uc", FP(0x15,0x101), BASE, ARG_FP },
803 { "mulf/uc", FP(0x15,0x102), BASE, ARG_FP },
804 { "divf/uc", FP(0x15,0x103), BASE, ARG_FP },
805 { "cvtdg/uc", FP(0x15,0x11E), BASE, ARG_FPZ1 },
806 { "addg/uc", FP(0x15,0x120), BASE, ARG_FP },
807 { "subg/uc", FP(0x15,0x121), BASE, ARG_FP },
808 { "mulg/uc", FP(0x15,0x122), BASE, ARG_FP },
809 { "divg/uc", FP(0x15,0x123), BASE, ARG_FP },
810 { "cvtgf/uc", FP(0x15,0x12C), BASE, ARG_FPZ1 },
811 { "cvtgd/uc", FP(0x15,0x12D), BASE, ARG_FPZ1 },
812 { "cvtgq/vc", FP(0x15,0x12F), BASE, ARG_FPZ1 },
813 { "addf/u", FP(0x15,0x180), BASE, ARG_FP },
814 { "subf/u", FP(0x15,0x181), BASE, ARG_FP },
815 { "mulf/u", FP(0x15,0x182), BASE, ARG_FP },
816 { "divf/u", FP(0x15,0x183), BASE, ARG_FP },
817 { "cvtdg/u", FP(0x15,0x19E), BASE, ARG_FPZ1 },
818 { "addg/u", FP(0x15,0x1A0), BASE, ARG_FP },
819 { "subg/u", FP(0x15,0x1A1), BASE, ARG_FP },
820 { "mulg/u", FP(0x15,0x1A2), BASE, ARG_FP },
821 { "divg/u", FP(0x15,0x1A3), BASE, ARG_FP },
822 { "cvtgf/u", FP(0x15,0x1AC), BASE, ARG_FPZ1 },
823 { "cvtgd/u", FP(0x15,0x1AD), BASE, ARG_FPZ1 },
824 { "cvtgq/v", FP(0x15,0x1AF), BASE, ARG_FPZ1 },
825 { "addf/sc", FP(0x15,0x400), BASE, ARG_FP },
826 { "subf/sc", FP(0x15,0x401), BASE, ARG_FP },
827 { "mulf/sc", FP(0x15,0x402), BASE, ARG_FP },
828 { "divf/sc", FP(0x15,0x403), BASE, ARG_FP },
829 { "cvtdg/sc", FP(0x15,0x41E), BASE, ARG_FPZ1 },
830 { "addg/sc", FP(0x15,0x420), BASE, ARG_FP },
831 { "subg/sc", FP(0x15,0x421), BASE, ARG_FP },
832 { "mulg/sc", FP(0x15,0x422), BASE, ARG_FP },
833 { "divg/sc", FP(0x15,0x423), BASE, ARG_FP },
834 { "cvtgf/sc", FP(0x15,0x42C), BASE, ARG_FPZ1 },
835 { "cvtgd/sc", FP(0x15,0x42D), BASE, ARG_FPZ1 },
836 { "cvtgq/sc", FP(0x15,0x42F), BASE, ARG_FPZ1 },
837 { "addf/s", FP(0x15,0x480), BASE, ARG_FP },
838 { "negf/s", FP(0x15,0x481), BASE, ARG_FPZ1 }, /* pseudo */
839 { "subf/s", FP(0x15,0x481), BASE, ARG_FP },
840 { "mulf/s", FP(0x15,0x482), BASE, ARG_FP },
841 { "divf/s", FP(0x15,0x483), BASE, ARG_FP },
842 { "cvtdg/s", FP(0x15,0x49E), BASE, ARG_FPZ1 },
843 { "addg/s", FP(0x15,0x4A0), BASE, ARG_FP },
844 { "negg/s", FP(0x15,0x4A1), BASE, ARG_FPZ1 }, /* pseudo */
845 { "subg/s", FP(0x15,0x4A1), BASE, ARG_FP },
846 { "mulg/s", FP(0x15,0x4A2), BASE, ARG_FP },
847 { "divg/s", FP(0x15,0x4A3), BASE, ARG_FP },
848 { "cmpgeq/s", FP(0x15,0x4A5), BASE, ARG_FP },
849 { "cmpglt/s", FP(0x15,0x4A6), BASE, ARG_FP },
850 { "cmpgle/s", FP(0x15,0x4A7), BASE, ARG_FP },
851 { "cvtgf/s", FP(0x15,0x4AC), BASE, ARG_FPZ1 },
852 { "cvtgd/s", FP(0x15,0x4AD), BASE, ARG_FPZ1 },
853 { "cvtgq/s", FP(0x15,0x4AF), BASE, ARG_FPZ1 },
854 { "addf/suc", FP(0x15,0x500), BASE, ARG_FP },
855 { "subf/suc", FP(0x15,0x501), BASE, ARG_FP },
856 { "mulf/suc", FP(0x15,0x502), BASE, ARG_FP },
857 { "divf/suc", FP(0x15,0x503), BASE, ARG_FP },
858 { "cvtdg/suc", FP(0x15,0x51E), BASE, ARG_FPZ1 },
859 { "addg/suc", FP(0x15,0x520), BASE, ARG_FP },
860 { "subg/suc", FP(0x15,0x521), BASE, ARG_FP },
861 { "mulg/suc", FP(0x15,0x522), BASE, ARG_FP },
862 { "divg/suc", FP(0x15,0x523), BASE, ARG_FP },
863 { "cvtgf/suc", FP(0x15,0x52C), BASE, ARG_FPZ1 },
864 { "cvtgd/suc", FP(0x15,0x52D), BASE, ARG_FPZ1 },
865 { "cvtgq/svc", FP(0x15,0x52F), BASE, ARG_FPZ1 },
866 { "addf/su", FP(0x15,0x580), BASE, ARG_FP },
867 { "subf/su", FP(0x15,0x581), BASE, ARG_FP },
868 { "mulf/su", FP(0x15,0x582), BASE, ARG_FP },
869 { "divf/su", FP(0x15,0x583), BASE, ARG_FP },
870 { "cvtdg/su", FP(0x15,0x59E), BASE, ARG_FPZ1 },
871 { "addg/su", FP(0x15,0x5A0), BASE, ARG_FP },
872 { "subg/su", FP(0x15,0x5A1), BASE, ARG_FP },
873 { "mulg/su", FP(0x15,0x5A2), BASE, ARG_FP },
874 { "divg/su", FP(0x15,0x5A3), BASE, ARG_FP },
875 { "cvtgf/su", FP(0x15,0x5AC), BASE, ARG_FPZ1 },
876 { "cvtgd/su", FP(0x15,0x5AD), BASE, ARG_FPZ1 },
877 { "cvtgq/sv", FP(0x15,0x5AF), BASE, ARG_FPZ1 },
879 { "adds/c", FP(0x16,0x000), BASE, ARG_FP },
880 { "subs/c", FP(0x16,0x001), BASE, ARG_FP },
881 { "muls/c", FP(0x16,0x002), BASE, ARG_FP },
882 { "divs/c", FP(0x16,0x003), BASE, ARG_FP },
883 { "addt/c", FP(0x16,0x020), BASE, ARG_FP },
884 { "subt/c", FP(0x16,0x021), BASE, ARG_FP },
885 { "mult/c", FP(0x16,0x022), BASE, ARG_FP },
886 { "divt/c", FP(0x16,0x023), BASE, ARG_FP },
887 { "cvtts/c", FP(0x16,0x02C), BASE, ARG_FPZ1 },
888 { "cvttq/c", FP(0x16,0x02F), BASE, ARG_FPZ1 },
889 { "cvtqs/c", FP(0x16,0x03C), BASE, ARG_FPZ1 },
890 { "cvtqt/c", FP(0x16,0x03E), BASE, ARG_FPZ1 },
891 { "adds/m", FP(0x16,0x040), BASE, ARG_FP },
892 { "subs/m", FP(0x16,0x041), BASE, ARG_FP },
893 { "muls/m", FP(0x16,0x042), BASE, ARG_FP },
894 { "divs/m", FP(0x16,0x043), BASE, ARG_FP },
895 { "addt/m", FP(0x16,0x060), BASE, ARG_FP },
896 { "subt/m", FP(0x16,0x061), BASE, ARG_FP },
897 { "mult/m", FP(0x16,0x062), BASE, ARG_FP },
898 { "divt/m", FP(0x16,0x063), BASE, ARG_FP },
899 { "cvtts/m", FP(0x16,0x06C), BASE, ARG_FPZ1 },
900 { "cvttq/m", FP(0x16,0x06F), BASE, ARG_FPZ1 },
901 { "cvtqs/m", FP(0x16,0x07C), BASE, ARG_FPZ1 },
902 { "cvtqt/m", FP(0x16,0x07E), BASE, ARG_FPZ1 },
903 { "adds", FP(0x16,0x080), BASE, ARG_FP },
904 { "negs", FP(0x16,0x081), BASE, ARG_FPZ1 }, /* pseudo */
905 { "subs", FP(0x16,0x081), BASE, ARG_FP },
906 { "muls", FP(0x16,0x082), BASE, ARG_FP },
907 { "divs", FP(0x16,0x083), BASE, ARG_FP },
908 { "addt", FP(0x16,0x0A0), BASE, ARG_FP },
909 { "negt", FP(0x16,0x0A1), BASE, ARG_FPZ1 }, /* pseudo */
910 { "subt", FP(0x16,0x0A1), BASE, ARG_FP },
911 { "mult", FP(0x16,0x0A2), BASE, ARG_FP },
912 { "divt", FP(0x16,0x0A3), BASE, ARG_FP },
913 { "cmptun", FP(0x16,0x0A4), BASE, ARG_FP },
914 { "cmpteq", FP(0x16,0x0A5), BASE, ARG_FP },
915 { "cmptlt", FP(0x16,0x0A6), BASE, ARG_FP },
916 { "cmptle", FP(0x16,0x0A7), BASE, ARG_FP },
917 { "cvtts", FP(0x16,0x0AC), BASE, ARG_FPZ1 },
918 { "cvttq", FP(0x16,0x0AF), BASE, ARG_FPZ1 },
919 { "cvtqs", FP(0x16,0x0BC), BASE, ARG_FPZ1 },
920 { "cvtqt", FP(0x16,0x0BE), BASE, ARG_FPZ1 },
921 { "adds/d", FP(0x16,0x0C0), BASE, ARG_FP },
922 { "subs/d", FP(0x16,0x0C1), BASE, ARG_FP },
923 { "muls/d", FP(0x16,0x0C2), BASE, ARG_FP },
924 { "divs/d", FP(0x16,0x0C3), BASE, ARG_FP },
925 { "addt/d", FP(0x16,0x0E0), BASE, ARG_FP },
926 { "subt/d", FP(0x16,0x0E1), BASE, ARG_FP },
927 { "mult/d", FP(0x16,0x0E2), BASE, ARG_FP },
928 { "divt/d", FP(0x16,0x0E3), BASE, ARG_FP },
929 { "cvtts/d", FP(0x16,0x0EC), BASE, ARG_FPZ1 },
930 { "cvttq/d", FP(0x16,0x0EF), BASE, ARG_FPZ1 },
931 { "cvtqs/d", FP(0x16,0x0FC), BASE, ARG_FPZ1 },
932 { "cvtqt/d", FP(0x16,0x0FE), BASE, ARG_FPZ1 },
933 { "adds/uc", FP(0x16,0x100), BASE, ARG_FP },
934 { "subs/uc", FP(0x16,0x101), BASE, ARG_FP },
935 { "muls/uc", FP(0x16,0x102), BASE, ARG_FP },
936 { "divs/uc", FP(0x16,0x103), BASE, ARG_FP },
937 { "addt/uc", FP(0x16,0x120), BASE, ARG_FP },
938 { "subt/uc", FP(0x16,0x121), BASE, ARG_FP },
939 { "mult/uc", FP(0x16,0x122), BASE, ARG_FP },
940 { "divt/uc", FP(0x16,0x123), BASE, ARG_FP },
941 { "cvtts/uc", FP(0x16,0x12C), BASE, ARG_FPZ1 },
942 { "cvttq/vc", FP(0x16,0x12F), BASE, ARG_FPZ1 },
943 { "adds/um", FP(0x16,0x140), BASE, ARG_FP },
944 { "subs/um", FP(0x16,0x141), BASE, ARG_FP },
945 { "muls/um", FP(0x16,0x142), BASE, ARG_FP },
946 { "divs/um", FP(0x16,0x143), BASE, ARG_FP },
947 { "addt/um", FP(0x16,0x160), BASE, ARG_FP },
948 { "subt/um", FP(0x16,0x161), BASE, ARG_FP },
949 { "mult/um", FP(0x16,0x162), BASE, ARG_FP },
950 { "divt/um", FP(0x16,0x163), BASE, ARG_FP },
951 { "cvtts/um", FP(0x16,0x16C), BASE, ARG_FPZ1 },
952 { "cvttq/vm", FP(0x16,0x16F), BASE, ARG_FPZ1 },
953 { "adds/u", FP(0x16,0x180), BASE, ARG_FP },
954 { "subs/u", FP(0x16,0x181), BASE, ARG_FP },
955 { "muls/u", FP(0x16,0x182), BASE, ARG_FP },
956 { "divs/u", FP(0x16,0x183), BASE, ARG_FP },
957 { "addt/u", FP(0x16,0x1A0), BASE, ARG_FP },
958 { "subt/u", FP(0x16,0x1A1), BASE, ARG_FP },
959 { "mult/u", FP(0x16,0x1A2), BASE, ARG_FP },
960 { "divt/u", FP(0x16,0x1A3), BASE, ARG_FP },
961 { "cvtts/u", FP(0x16,0x1AC), BASE, ARG_FPZ1 },
962 { "cvttq/v", FP(0x16,0x1AF), BASE, ARG_FPZ1 },
963 { "adds/ud", FP(0x16,0x1C0), BASE, ARG_FP },
964 { "subs/ud", FP(0x16,0x1C1), BASE, ARG_FP },
965 { "muls/ud", FP(0x16,0x1C2), BASE, ARG_FP },
966 { "divs/ud", FP(0x16,0x1C3), BASE, ARG_FP },
967 { "addt/ud", FP(0x16,0x1E0), BASE, ARG_FP },
968 { "subt/ud", FP(0x16,0x1E1), BASE, ARG_FP },
969 { "mult/ud", FP(0x16,0x1E2), BASE, ARG_FP },
970 { "divt/ud", FP(0x16,0x1E3), BASE, ARG_FP },
971 { "cvtts/ud", FP(0x16,0x1EC), BASE, ARG_FPZ1 },
972 { "cvttq/vd", FP(0x16,0x1EF), BASE, ARG_FPZ1 },
973 { "cvtst", FP(0x16,0x2AC), BASE, ARG_FPZ1 },
974 { "adds/suc", FP(0x16,0x500), BASE, ARG_FP },
975 { "subs/suc", FP(0x16,0x501), BASE, ARG_FP },
976 { "muls/suc", FP(0x16,0x502), BASE, ARG_FP },
977 { "divs/suc", FP(0x16,0x503), BASE, ARG_FP },
978 { "addt/suc", FP(0x16,0x520), BASE, ARG_FP },
979 { "subt/suc", FP(0x16,0x521), BASE, ARG_FP },
980 { "mult/suc", FP(0x16,0x522), BASE, ARG_FP },
981 { "divt/suc", FP(0x16,0x523), BASE, ARG_FP },
982 { "cvtts/suc", FP(0x16,0x52C), BASE, ARG_FPZ1 },
983 { "cvttq/svc", FP(0x16,0x52F), BASE, ARG_FPZ1 },
984 { "adds/sum", FP(0x16,0x540), BASE, ARG_FP },
985 { "subs/sum", FP(0x16,0x541), BASE, ARG_FP },
986 { "muls/sum", FP(0x16,0x542), BASE, ARG_FP },
987 { "divs/sum", FP(0x16,0x543), BASE, ARG_FP },
988 { "addt/sum", FP(0x16,0x560), BASE, ARG_FP },
989 { "subt/sum", FP(0x16,0x561), BASE, ARG_FP },
990 { "mult/sum", FP(0x16,0x562), BASE, ARG_FP },
991 { "divt/sum", FP(0x16,0x563), BASE, ARG_FP },
992 { "cvtts/sum", FP(0x16,0x56C), BASE, ARG_FPZ1 },
993 { "cvttq/svm", FP(0x16,0x56F), BASE, ARG_FPZ1 },
994 { "adds/su", FP(0x16,0x580), BASE, ARG_FP },
995 { "negs/su", FP(0x16,0x581), BASE, ARG_FPZ1 }, /* pseudo */
996 { "subs/su", FP(0x16,0x581), BASE, ARG_FP },
997 { "muls/su", FP(0x16,0x582), BASE, ARG_FP },
998 { "divs/su", FP(0x16,0x583), BASE, ARG_FP },
999 { "addt/su", FP(0x16,0x5A0), BASE, ARG_FP },
1000 { "negt/su", FP(0x16,0x5A1), BASE, ARG_FPZ1 }, /* pseudo */
1001 { "subt/su", FP(0x16,0x5A1), BASE, ARG_FP },
1002 { "mult/su", FP(0x16,0x5A2), BASE, ARG_FP },
1003 { "divt/su", FP(0x16,0x5A3), BASE, ARG_FP },
1004 { "cmptun/su", FP(0x16,0x5A4), BASE, ARG_FP },
1005 { "cmpteq/su", FP(0x16,0x5A5), BASE, ARG_FP },
1006 { "cmptlt/su", FP(0x16,0x5A6), BASE, ARG_FP },
1007 { "cmptle/su", FP(0x16,0x5A7), BASE, ARG_FP },
1008 { "cvtts/su", FP(0x16,0x5AC), BASE, ARG_FPZ1 },
1009 { "cvttq/sv", FP(0x16,0x5AF), BASE, ARG_FPZ1 },
1010 { "adds/sud", FP(0x16,0x5C0), BASE, ARG_FP },
1011 { "subs/sud", FP(0x16,0x5C1), BASE, ARG_FP },
1012 { "muls/sud", FP(0x16,0x5C2), BASE, ARG_FP },
1013 { "divs/sud", FP(0x16,0x5C3), BASE, ARG_FP },
1014 { "addt/sud", FP(0x16,0x5E0), BASE, ARG_FP },
1015 { "subt/sud", FP(0x16,0x5E1), BASE, ARG_FP },
1016 { "mult/sud", FP(0x16,0x5E2), BASE, ARG_FP },
1017 { "divt/sud", FP(0x16,0x5E3), BASE, ARG_FP },
1018 { "cvtts/sud", FP(0x16,0x5EC), BASE, ARG_FPZ1 },
1019 { "cvttq/svd", FP(0x16,0x5EF), BASE, ARG_FPZ1 },
1020 { "cvtst/s", FP(0x16,0x6AC), BASE, ARG_FPZ1 },
1021 { "adds/suic", FP(0x16,0x700), BASE, ARG_FP },
1022 { "subs/suic", FP(0x16,0x701), BASE, ARG_FP },
1023 { "muls/suic", FP(0x16,0x702), BASE, ARG_FP },
1024 { "divs/suic", FP(0x16,0x703), BASE, ARG_FP },
1025 { "addt/suic", FP(0x16,0x720), BASE, ARG_FP },
1026 { "subt/suic", FP(0x16,0x721), BASE, ARG_FP },
1027 { "mult/suic", FP(0x16,0x722), BASE, ARG_FP },
1028 { "divt/suic", FP(0x16,0x723), BASE, ARG_FP },
1029 { "cvtts/suic", FP(0x16,0x72C), BASE, ARG_FPZ1 },
1030 { "cvttq/svic", FP(0x16,0x72F), BASE, ARG_FPZ1 },
1031 { "cvtqs/suic", FP(0x16,0x73C), BASE, ARG_FPZ1 },
1032 { "cvtqt/suic", FP(0x16,0x73E), BASE, ARG_FPZ1 },
1033 { "adds/suim", FP(0x16,0x740), BASE, ARG_FP },
1034 { "subs/suim", FP(0x16,0x741), BASE, ARG_FP },
1035 { "muls/suim", FP(0x16,0x742), BASE, ARG_FP },
1036 { "divs/suim", FP(0x16,0x743), BASE, ARG_FP },
1037 { "addt/suim", FP(0x16,0x760), BASE, ARG_FP },
1038 { "subt/suim", FP(0x16,0x761), BASE, ARG_FP },
1039 { "mult/suim", FP(0x16,0x762), BASE, ARG_FP },
1040 { "divt/suim", FP(0x16,0x763), BASE, ARG_FP },
1041 { "cvtts/suim", FP(0x16,0x76C), BASE, ARG_FPZ1 },
1042 { "cvttq/svim", FP(0x16,0x76F), BASE, ARG_FPZ1 },
1043 { "cvtqs/suim", FP(0x16,0x77C), BASE, ARG_FPZ1 },
1044 { "cvtqt/suim", FP(0x16,0x77E), BASE, ARG_FPZ1 },
1045 { "adds/sui", FP(0x16,0x780), BASE, ARG_FP },
1046 { "negs/sui", FP(0x16,0x781), BASE, ARG_FPZ1 }, /* pseudo */
1047 { "subs/sui", FP(0x16,0x781), BASE, ARG_FP },
1048 { "muls/sui", FP(0x16,0x782), BASE, ARG_FP },
1049 { "divs/sui", FP(0x16,0x783), BASE, ARG_FP },
1050 { "addt/sui", FP(0x16,0x7A0), BASE, ARG_FP },
1051 { "negt/sui", FP(0x16,0x7A1), BASE, ARG_FPZ1 }, /* pseudo */
1052 { "subt/sui", FP(0x16,0x7A1), BASE, ARG_FP },
1053 { "mult/sui", FP(0x16,0x7A2), BASE, ARG_FP },
1054 { "divt/sui", FP(0x16,0x7A3), BASE, ARG_FP },
1055 { "cvtts/sui", FP(0x16,0x7AC), BASE, ARG_FPZ1 },
1056 { "cvttq/svi", FP(0x16,0x7AF), BASE, ARG_FPZ1 },
1057 { "cvtqs/sui", FP(0x16,0x7BC), BASE, ARG_FPZ1 },
1058 { "cvtqt/sui", FP(0x16,0x7BE), BASE, ARG_FPZ1 },
1059 { "adds/suid", FP(0x16,0x7C0), BASE, ARG_FP },
1060 { "subs/suid", FP(0x16,0x7C1), BASE, ARG_FP },
1061 { "muls/suid", FP(0x16,0x7C2), BASE, ARG_FP },
1062 { "divs/suid", FP(0x16,0x7C3), BASE, ARG_FP },
1063 { "addt/suid", FP(0x16,0x7E0), BASE, ARG_FP },
1064 { "subt/suid", FP(0x16,0x7E1), BASE, ARG_FP },
1065 { "mult/suid", FP(0x16,0x7E2), BASE, ARG_FP },
1066 { "divt/suid", FP(0x16,0x7E3), BASE, ARG_FP },
1067 { "cvtts/suid", FP(0x16,0x7EC), BASE, ARG_FPZ1 },
1068 { "cvttq/svid", FP(0x16,0x7EF), BASE, ARG_FPZ1 },
1069 { "cvtqs/suid", FP(0x16,0x7FC), BASE, ARG_FPZ1 },
1070 { "cvtqt/suid", FP(0x16,0x7FE), BASE, ARG_FPZ1 },
1072 { "cvtlq", FP(0x17,0x010), BASE, ARG_FPZ1 },
1073 { "fnop", FP(0x17,0x020), BASE, { ZA, ZB, ZC } }, /* pseudo */
1074 { "fclr", FP(0x17,0x020), BASE, { ZA, ZB, FC } }, /* pseudo */
1075 { "fabs", FP(0x17,0x020), BASE, ARG_FPZ1 }, /* pseudo */
1076 { "fmov", FP(0x17,0x020), BASE, { FA, RBA, FC } }, /* pseudo */
1077 { "cpys", FP(0x17,0x020), BASE, ARG_FP },
1078 { "fneg", FP(0x17,0x021), BASE, { FA, RBA, FC } }, /* pseudo */
1079 { "cpysn", FP(0x17,0x021), BASE, ARG_FP },
1080 { "cpyse", FP(0x17,0x022), BASE, ARG_FP },
1081 { "mt_fpcr", FP(0x17,0x024), BASE, { FA, RBA, RCA } },
1082 { "mf_fpcr", FP(0x17,0x025), BASE, { FA, RBA, RCA } },
1083 { "fcmoveq", FP(0x17,0x02A), BASE, ARG_FP },
1084 { "fcmovne", FP(0x17,0x02B), BASE, ARG_FP },
1085 { "fcmovlt", FP(0x17,0x02C), BASE, ARG_FP },
1086 { "fcmovge", FP(0x17,0x02D), BASE, ARG_FP },
1087 { "fcmovle", FP(0x17,0x02E), BASE, ARG_FP },
1088 { "fcmovgt", FP(0x17,0x02F), BASE, ARG_FP },
1089 { "cvtql", FP(0x17,0x030), BASE, ARG_FPZ1 },
1090 { "cvtql/v", FP(0x17,0x130), BASE, ARG_FPZ1 },
1091 { "cvtql/sv", FP(0x17,0x530), BASE, ARG_FPZ1 },
1093 { "trapb", MFC(0x18,0x0000), BASE, ARG_NONE },
1094 { "draint", MFC(0x18,0x0000), BASE, ARG_NONE }, /* alias */
1095 { "excb", MFC(0x18,0x0400), BASE, ARG_NONE },
1096 { "mb", MFC(0x18,0x4000), BASE, ARG_NONE },
1097 { "wmb", MFC(0x18,0x4400), BASE, ARG_NONE },
1098 { "fetch", MFC(0x18,0x8000), BASE, { ZA, PRB } },
1099 { "fetch_m", MFC(0x18,0xA000), BASE, { ZA, PRB } },
1100 { "rpcc", MFC(0x18,0xC000), BASE, { RA, ZB } },
1101 { "rpcc", MFC(0x18,0xC000), BASE, { RA, RB } }, /* ev6 una */
1102 { "rc", MFC(0x18,0xE000), BASE, { RA } },
1103 { "ecb", MFC(0x18,0xE800), BASE, { ZA, PRB } }, /* ev56 una */
1104 { "rs", MFC(0x18,0xF000), BASE, { RA } },
1105 { "wh64", MFC(0x18,0xF800), BASE, { ZA, PRB } }, /* ev56 una */
1106 { "wh64en", MFC(0x18,0xFC00), BASE, { ZA, PRB } }, /* ev7 una */
1108 { "hw_mfpr", OPR(0x19,0x00), EV4, { RA, RBA, EV4EXTHWINDEX } },
1109 { "hw_mfpr", OP(0x19), OP_MASK, EV5, { RA, RBA, EV5HWINDEX } },
1110 { "hw_mfpr", OP(0x19), OP_MASK, EV6, { RA, ZB, EV6HWINDEX } },
1111 { "hw_mfpr/i", OPR(0x19,0x01), EV4, ARG_EV4HWMPR },
1112 { "hw_mfpr/a", OPR(0x19,0x02), EV4, ARG_EV4HWMPR },
1113 { "hw_mfpr/ai", OPR(0x19,0x03), EV4, ARG_EV4HWMPR },
1114 { "hw_mfpr/p", OPR(0x19,0x04), EV4, ARG_EV4HWMPR },
1115 { "hw_mfpr/pi", OPR(0x19,0x05), EV4, ARG_EV4HWMPR },
1116 { "hw_mfpr/pa", OPR(0x19,0x06), EV4, ARG_EV4HWMPR },
1117 { "hw_mfpr/pai", OPR(0x19,0x07), EV4, ARG_EV4HWMPR },
1118 { "pal19", PCD(0x19), BASE, ARG_PCD },
1120 { "jmp", MBR_(0x1A,0), MBR_MASK | 0x3FFF, /* pseudo */
1121 BASE, { ZA, CPRB } },
1122 { "jmp", MBR(0x1A,0), BASE, { RA, CPRB, JMPHINT } },
1123 { "jsr", MBR(0x1A,1), BASE, { RA, CPRB, JMPHINT } },
1124 { "ret", MBR_(0x1A,2) | (31 << 21) | (26 << 16) | 1,/* pseudo */
1125 0xFFFFFFFF, BASE, { 0 } },
1126 { "ret", MBR(0x1A,2), BASE, { RA, CPRB, RETHINT } },
1127 { "jcr", MBR(0x1A,3), BASE, { RA, CPRB, RETHINT } }, /* alias */
1128 { "jsr_coroutine", MBR(0x1A,3), BASE, { RA, CPRB, RETHINT } },
1130 { "hw_ldl", EV4HWMEM(0x1B,0x0), EV4, ARG_EV4HWMEM },
1131 { "hw_ldl", EV5HWMEM(0x1B,0x00), EV5, ARG_EV5HWMEM },
1132 { "hw_ldl", EV6HWMEM(0x1B,0x8), EV6, ARG_EV6HWMEM },
1133 { "hw_ldl/a", EV4HWMEM(0x1B,0x4), EV4, ARG_EV4HWMEM },
1134 { "hw_ldl/a", EV5HWMEM(0x1B,0x10), EV5, ARG_EV5HWMEM },
1135 { "hw_ldl/a", EV6HWMEM(0x1B,0xC), EV6, ARG_EV6HWMEM },
1136 { "hw_ldl/al", EV5HWMEM(0x1B,0x11), EV5, ARG_EV5HWMEM },
1137 { "hw_ldl/ar", EV4HWMEM(0x1B,0x6), EV4, ARG_EV4HWMEM },
1138 { "hw_ldl/av", EV5HWMEM(0x1B,0x12), EV5, ARG_EV5HWMEM },
1139 { "hw_ldl/avl", EV5HWMEM(0x1B,0x13), EV5, ARG_EV5HWMEM },
1140 { "hw_ldl/aw", EV5HWMEM(0x1B,0x18), EV5, ARG_EV5HWMEM },
1141 { "hw_ldl/awl", EV5HWMEM(0x1B,0x19), EV5, ARG_EV5HWMEM },
1142 { "hw_ldl/awv", EV5HWMEM(0x1B,0x1a), EV5, ARG_EV5HWMEM },
1143 { "hw_ldl/awvl", EV5HWMEM(0x1B,0x1b), EV5, ARG_EV5HWMEM },
1144 { "hw_ldl/l", EV5HWMEM(0x1B,0x01), EV5, ARG_EV5HWMEM },
1145 { "hw_ldl/p", EV4HWMEM(0x1B,0x8), EV4, ARG_EV4HWMEM },
1146 { "hw_ldl/p", EV5HWMEM(0x1B,0x20), EV5, ARG_EV5HWMEM },
1147 { "hw_ldl/p", EV6HWMEM(0x1B,0x0), EV6, ARG_EV6HWMEM },
1148 { "hw_ldl/pa", EV4HWMEM(0x1B,0xC), EV4, ARG_EV4HWMEM },
1149 { "hw_ldl/pa", EV5HWMEM(0x1B,0x30), EV5, ARG_EV5HWMEM },
1150 { "hw_ldl/pal", EV5HWMEM(0x1B,0x31), EV5, ARG_EV5HWMEM },
1151 { "hw_ldl/par", EV4HWMEM(0x1B,0xE), EV4, ARG_EV4HWMEM },
1152 { "hw_ldl/pav", EV5HWMEM(0x1B,0x32), EV5, ARG_EV5HWMEM },
1153 { "hw_ldl/pavl", EV5HWMEM(0x1B,0x33), EV5, ARG_EV5HWMEM },
1154 { "hw_ldl/paw", EV5HWMEM(0x1B,0x38), EV5, ARG_EV5HWMEM },
1155 { "hw_ldl/pawl", EV5HWMEM(0x1B,0x39), EV5, ARG_EV5HWMEM },
1156 { "hw_ldl/pawv", EV5HWMEM(0x1B,0x3a), EV5, ARG_EV5HWMEM },
1157 { "hw_ldl/pawvl", EV5HWMEM(0x1B,0x3b), EV5, ARG_EV5HWMEM },
1158 { "hw_ldl/pl", EV5HWMEM(0x1B,0x21), EV5, ARG_EV5HWMEM },
1159 { "hw_ldl/pr", EV4HWMEM(0x1B,0xA), EV4, ARG_EV4HWMEM },
1160 { "hw_ldl/pv", EV5HWMEM(0x1B,0x22), EV5, ARG_EV5HWMEM },
1161 { "hw_ldl/pvl", EV5HWMEM(0x1B,0x23), EV5, ARG_EV5HWMEM },
1162 { "hw_ldl/pw", EV5HWMEM(0x1B,0x28), EV5, ARG_EV5HWMEM },
1163 { "hw_ldl/pwl", EV5HWMEM(0x1B,0x29), EV5, ARG_EV5HWMEM },
1164 { "hw_ldl/pwv", EV5HWMEM(0x1B,0x2a), EV5, ARG_EV5HWMEM },
1165 { "hw_ldl/pwvl", EV5HWMEM(0x1B,0x2b), EV5, ARG_EV5HWMEM },
1166 { "hw_ldl/r", EV4HWMEM(0x1B,0x2), EV4, ARG_EV4HWMEM },
1167 { "hw_ldl/v", EV5HWMEM(0x1B,0x02), EV5, ARG_EV5HWMEM },
1168 { "hw_ldl/v", EV6HWMEM(0x1B,0x4), EV6, ARG_EV6HWMEM },
1169 { "hw_ldl/vl", EV5HWMEM(0x1B,0x03), EV5, ARG_EV5HWMEM },
1170 { "hw_ldl/w", EV5HWMEM(0x1B,0x08), EV5, ARG_EV5HWMEM },
1171 { "hw_ldl/w", EV6HWMEM(0x1B,0xA), EV6, ARG_EV6HWMEM },
1172 { "hw_ldl/wa", EV6HWMEM(0x1B,0xE), EV6, ARG_EV6HWMEM },
1173 { "hw_ldl/wl", EV5HWMEM(0x1B,0x09), EV5, ARG_EV5HWMEM },
1174 { "hw_ldl/wv", EV5HWMEM(0x1B,0x0a), EV5, ARG_EV5HWMEM },
1175 { "hw_ldl/wvl", EV5HWMEM(0x1B,0x0b), EV5, ARG_EV5HWMEM },
1176 { "hw_ldl_l", EV5HWMEM(0x1B,0x01), EV5, ARG_EV5HWMEM },
1177 { "hw_ldl_l/a", EV5HWMEM(0x1B,0x11), EV5, ARG_EV5HWMEM },
1178 { "hw_ldl_l/av", EV5HWMEM(0x1B,0x13), EV5, ARG_EV5HWMEM },
1179 { "hw_ldl_l/aw", EV5HWMEM(0x1B,0x19), EV5, ARG_EV5HWMEM },
1180 { "hw_ldl_l/awv", EV5HWMEM(0x1B,0x1b), EV5, ARG_EV5HWMEM },
1181 { "hw_ldl_l/p", EV5HWMEM(0x1B,0x21), EV5, ARG_EV5HWMEM },
1182 { "hw_ldl_l/p", EV6HWMEM(0x1B,0x2), EV6, ARG_EV6HWMEM },
1183 { "hw_ldl_l/pa", EV5HWMEM(0x1B,0x31), EV5, ARG_EV5HWMEM },
1184 { "hw_ldl_l/pav", EV5HWMEM(0x1B,0x33), EV5, ARG_EV5HWMEM },
1185 { "hw_ldl_l/paw", EV5HWMEM(0x1B,0x39), EV5, ARG_EV5HWMEM },
1186 { "hw_ldl_l/pawv", EV5HWMEM(0x1B,0x3b), EV5, ARG_EV5HWMEM },
1187 { "hw_ldl_l/pv", EV5HWMEM(0x1B,0x23), EV5, ARG_EV5HWMEM },
1188 { "hw_ldl_l/pw", EV5HWMEM(0x1B,0x29), EV5, ARG_EV5HWMEM },
1189 { "hw_ldl_l/pwv", EV5HWMEM(0x1B,0x2b), EV5, ARG_EV5HWMEM },
1190 { "hw_ldl_l/v", EV5HWMEM(0x1B,0x03), EV5, ARG_EV5HWMEM },
1191 { "hw_ldl_l/w", EV5HWMEM(0x1B,0x09), EV5, ARG_EV5HWMEM },
1192 { "hw_ldl_l/wv", EV5HWMEM(0x1B,0x0b), EV5, ARG_EV5HWMEM },
1193 { "hw_ldq", EV4HWMEM(0x1B,0x1), EV4, ARG_EV4HWMEM },
1194 { "hw_ldq", EV5HWMEM(0x1B,0x04), EV5, ARG_EV5HWMEM },
1195 { "hw_ldq", EV6HWMEM(0x1B,0x9), EV6, ARG_EV6HWMEM },
1196 { "hw_ldq/a", EV4HWMEM(0x1B,0x5), EV4, ARG_EV4HWMEM },
1197 { "hw_ldq/a", EV5HWMEM(0x1B,0x14), EV5, ARG_EV5HWMEM },
1198 { "hw_ldq/a", EV6HWMEM(0x1B,0xD), EV6, ARG_EV6HWMEM },
1199 { "hw_ldq/al", EV5HWMEM(0x1B,0x15), EV5, ARG_EV5HWMEM },
1200 { "hw_ldq/ar", EV4HWMEM(0x1B,0x7), EV4, ARG_EV4HWMEM },
1201 { "hw_ldq/av", EV5HWMEM(0x1B,0x16), EV5, ARG_EV5HWMEM },
1202 { "hw_ldq/avl", EV5HWMEM(0x1B,0x17), EV5, ARG_EV5HWMEM },
1203 { "hw_ldq/aw", EV5HWMEM(0x1B,0x1c), EV5, ARG_EV5HWMEM },
1204 { "hw_ldq/awl", EV5HWMEM(0x1B,0x1d), EV5, ARG_EV5HWMEM },
1205 { "hw_ldq/awv", EV5HWMEM(0x1B,0x1e), EV5, ARG_EV5HWMEM },
1206 { "hw_ldq/awvl", EV5HWMEM(0x1B,0x1f), EV5, ARG_EV5HWMEM },
1207 { "hw_ldq/l", EV5HWMEM(0x1B,0x05), EV5, ARG_EV5HWMEM },
1208 { "hw_ldq/p", EV4HWMEM(0x1B,0x9), EV4, ARG_EV4HWMEM },
1209 { "hw_ldq/p", EV5HWMEM(0x1B,0x24), EV5, ARG_EV5HWMEM },
1210 { "hw_ldq/p", EV6HWMEM(0x1B,0x1), EV6, ARG_EV6HWMEM },
1211 { "hw_ldq/pa", EV4HWMEM(0x1B,0xD), EV4, ARG_EV4HWMEM },
1212 { "hw_ldq/pa", EV5HWMEM(0x1B,0x34), EV5, ARG_EV5HWMEM },
1213 { "hw_ldq/pal", EV5HWMEM(0x1B,0x35), EV5, ARG_EV5HWMEM },
1214 { "hw_ldq/par", EV4HWMEM(0x1B,0xF), EV4, ARG_EV4HWMEM },
1215 { "hw_ldq/pav", EV5HWMEM(0x1B,0x36), EV5, ARG_EV5HWMEM },
1216 { "hw_ldq/pavl", EV5HWMEM(0x1B,0x37), EV5, ARG_EV5HWMEM },
1217 { "hw_ldq/paw", EV5HWMEM(0x1B,0x3c), EV5, ARG_EV5HWMEM },
1218 { "hw_ldq/pawl", EV5HWMEM(0x1B,0x3d), EV5, ARG_EV5HWMEM },
1219 { "hw_ldq/pawv", EV5HWMEM(0x1B,0x3e), EV5, ARG_EV5HWMEM },
1220 { "hw_ldq/pawvl", EV5HWMEM(0x1B,0x3f), EV5, ARG_EV5HWMEM },
1221 { "hw_ldq/pl", EV5HWMEM(0x1B,0x25), EV5, ARG_EV5HWMEM },
1222 { "hw_ldq/pr", EV4HWMEM(0x1B,0xB), EV4, ARG_EV4HWMEM },
1223 { "hw_ldq/pv", EV5HWMEM(0x1B,0x26), EV5, ARG_EV5HWMEM },
1224 { "hw_ldq/pvl", EV5HWMEM(0x1B,0x27), EV5, ARG_EV5HWMEM },
1225 { "hw_ldq/pw", EV5HWMEM(0x1B,0x2c), EV5, ARG_EV5HWMEM },
1226 { "hw_ldq/pwl", EV5HWMEM(0x1B,0x2d), EV5, ARG_EV5HWMEM },
1227 { "hw_ldq/pwv", EV5HWMEM(0x1B,0x2e), EV5, ARG_EV5HWMEM },
1228 { "hw_ldq/pwvl", EV5HWMEM(0x1B,0x2f), EV5, ARG_EV5HWMEM },
1229 { "hw_ldq/r", EV4HWMEM(0x1B,0x3), EV4, ARG_EV4HWMEM },
1230 { "hw_ldq/v", EV5HWMEM(0x1B,0x06), EV5, ARG_EV5HWMEM },
1231 { "hw_ldq/v", EV6HWMEM(0x1B,0x5), EV6, ARG_EV6HWMEM },
1232 { "hw_ldq/vl", EV5HWMEM(0x1B,0x07), EV5, ARG_EV5HWMEM },
1233 { "hw_ldq/w", EV5HWMEM(0x1B,0x0c), EV5, ARG_EV5HWMEM },
1234 { "hw_ldq/w", EV6HWMEM(0x1B,0xB), EV6, ARG_EV6HWMEM },
1235 { "hw_ldq/wa", EV6HWMEM(0x1B,0xF), EV6, ARG_EV6HWMEM },
1236 { "hw_ldq/wl", EV5HWMEM(0x1B,0x0d), EV5, ARG_EV5HWMEM },
1237 { "hw_ldq/wv", EV5HWMEM(0x1B,0x0e), EV5, ARG_EV5HWMEM },
1238 { "hw_ldq/wvl", EV5HWMEM(0x1B,0x0f), EV5, ARG_EV5HWMEM },
1239 { "hw_ldq_l", EV5HWMEM(0x1B,0x05), EV5, ARG_EV5HWMEM },
1240 { "hw_ldq_l/a", EV5HWMEM(0x1B,0x15), EV5, ARG_EV5HWMEM },
1241 { "hw_ldq_l/av", EV5HWMEM(0x1B,0x17), EV5, ARG_EV5HWMEM },
1242 { "hw_ldq_l/aw", EV5HWMEM(0x1B,0x1d), EV5, ARG_EV5HWMEM },
1243 { "hw_ldq_l/awv", EV5HWMEM(0x1B,0x1f), EV5, ARG_EV5HWMEM },
1244 { "hw_ldq_l/p", EV5HWMEM(0x1B,0x25), EV5, ARG_EV5HWMEM },
1245 { "hw_ldq_l/p", EV6HWMEM(0x1B,0x3), EV6, ARG_EV6HWMEM },
1246 { "hw_ldq_l/pa", EV5HWMEM(0x1B,0x35), EV5, ARG_EV5HWMEM },
1247 { "hw_ldq_l/pav", EV5HWMEM(0x1B,0x37), EV5, ARG_EV5HWMEM },
1248 { "hw_ldq_l/paw", EV5HWMEM(0x1B,0x3d), EV5, ARG_EV5HWMEM },
1249 { "hw_ldq_l/pawv", EV5HWMEM(0x1B,0x3f), EV5, ARG_EV5HWMEM },
1250 { "hw_ldq_l/pv", EV5HWMEM(0x1B,0x27), EV5, ARG_EV5HWMEM },
1251 { "hw_ldq_l/pw", EV5HWMEM(0x1B,0x2d), EV5, ARG_EV5HWMEM },
1252 { "hw_ldq_l/pwv", EV5HWMEM(0x1B,0x2f), EV5, ARG_EV5HWMEM },
1253 { "hw_ldq_l/v", EV5HWMEM(0x1B,0x07), EV5, ARG_EV5HWMEM },
1254 { "hw_ldq_l/w", EV5HWMEM(0x1B,0x0d), EV5, ARG_EV5HWMEM },
1255 { "hw_ldq_l/wv", EV5HWMEM(0x1B,0x0f), EV5, ARG_EV5HWMEM },
1256 { "hw_ld", EV4HWMEM(0x1B,0x0), EV4, ARG_EV4HWMEM },
1257 { "hw_ld", EV5HWMEM(0x1B,0x00), EV5, ARG_EV5HWMEM },
1258 { "hw_ld/a", EV4HWMEM(0x1B,0x4), EV4, ARG_EV4HWMEM },
1259 { "hw_ld/a", EV5HWMEM(0x1B,0x10), EV5, ARG_EV5HWMEM },
1260 { "hw_ld/al", EV5HWMEM(0x1B,0x11), EV5, ARG_EV5HWMEM },
1261 { "hw_ld/aq", EV4HWMEM(0x1B,0x5), EV4, ARG_EV4HWMEM },
1262 { "hw_ld/aq", EV5HWMEM(0x1B,0x14), EV5, ARG_EV5HWMEM },
1263 { "hw_ld/aql", EV5HWMEM(0x1B,0x15), EV5, ARG_EV5HWMEM },
1264 { "hw_ld/aqv", EV5HWMEM(0x1B,0x16), EV5, ARG_EV5HWMEM },
1265 { "hw_ld/aqvl", EV5HWMEM(0x1B,0x17), EV5, ARG_EV5HWMEM },
1266 { "hw_ld/ar", EV4HWMEM(0x1B,0x6), EV4, ARG_EV4HWMEM },
1267 { "hw_ld/arq", EV4HWMEM(0x1B,0x7), EV4, ARG_EV4HWMEM },
1268 { "hw_ld/av", EV5HWMEM(0x1B,0x12), EV5, ARG_EV5HWMEM },
1269 { "hw_ld/avl", EV5HWMEM(0x1B,0x13), EV5, ARG_EV5HWMEM },
1270 { "hw_ld/aw", EV5HWMEM(0x1B,0x18), EV5, ARG_EV5HWMEM },
1271 { "hw_ld/awl", EV5HWMEM(0x1B,0x19), EV5, ARG_EV5HWMEM },
1272 { "hw_ld/awq", EV5HWMEM(0x1B,0x1c), EV5, ARG_EV5HWMEM },
1273 { "hw_ld/awql", EV5HWMEM(0x1B,0x1d), EV5, ARG_EV5HWMEM },
1274 { "hw_ld/awqv", EV5HWMEM(0x1B,0x1e), EV5, ARG_EV5HWMEM },
1275 { "hw_ld/awqvl", EV5HWMEM(0x1B,0x1f), EV5, ARG_EV5HWMEM },
1276 { "hw_ld/awv", EV5HWMEM(0x1B,0x1a), EV5, ARG_EV5HWMEM },
1277 { "hw_ld/awvl", EV5HWMEM(0x1B,0x1b), EV5, ARG_EV5HWMEM },
1278 { "hw_ld/l", EV5HWMEM(0x1B,0x01), EV5, ARG_EV5HWMEM },
1279 { "hw_ld/p", EV4HWMEM(0x1B,0x8), EV4, ARG_EV4HWMEM },
1280 { "hw_ld/p", EV5HWMEM(0x1B,0x20), EV5, ARG_EV5HWMEM },
1281 { "hw_ld/pa", EV4HWMEM(0x1B,0xC), EV4, ARG_EV4HWMEM },
1282 { "hw_ld/pa", EV5HWMEM(0x1B,0x30), EV5, ARG_EV5HWMEM },
1283 { "hw_ld/pal", EV5HWMEM(0x1B,0x31), EV5, ARG_EV5HWMEM },
1284 { "hw_ld/paq", EV4HWMEM(0x1B,0xD), EV4, ARG_EV4HWMEM },
1285 { "hw_ld/paq", EV5HWMEM(0x1B,0x34), EV5, ARG_EV5HWMEM },
1286 { "hw_ld/paql", EV5HWMEM(0x1B,0x35), EV5, ARG_EV5HWMEM },
1287 { "hw_ld/paqv", EV5HWMEM(0x1B,0x36), EV5, ARG_EV5HWMEM },
1288 { "hw_ld/paqvl", EV5HWMEM(0x1B,0x37), EV5, ARG_EV5HWMEM },
1289 { "hw_ld/par", EV4HWMEM(0x1B,0xE), EV4, ARG_EV4HWMEM },
1290 { "hw_ld/parq", EV4HWMEM(0x1B,0xF), EV4, ARG_EV4HWMEM },
1291 { "hw_ld/pav", EV5HWMEM(0x1B,0x32), EV5, ARG_EV5HWMEM },
1292 { "hw_ld/pavl", EV5HWMEM(0x1B,0x33), EV5, ARG_EV5HWMEM },
1293 { "hw_ld/paw", EV5HWMEM(0x1B,0x38), EV5, ARG_EV5HWMEM },
1294 { "hw_ld/pawl", EV5HWMEM(0x1B,0x39), EV5, ARG_EV5HWMEM },
1295 { "hw_ld/pawq", EV5HWMEM(0x1B,0x3c), EV5, ARG_EV5HWMEM },
1296 { "hw_ld/pawql", EV5HWMEM(0x1B,0x3d), EV5, ARG_EV5HWMEM },
1297 { "hw_ld/pawqv", EV5HWMEM(0x1B,0x3e), EV5, ARG_EV5HWMEM },
1298 { "hw_ld/pawqvl", EV5HWMEM(0x1B,0x3f), EV5, ARG_EV5HWMEM },
1299 { "hw_ld/pawv", EV5HWMEM(0x1B,0x3a), EV5, ARG_EV5HWMEM },
1300 { "hw_ld/pawvl", EV5HWMEM(0x1B,0x3b), EV5, ARG_EV5HWMEM },
1301 { "hw_ld/pl", EV5HWMEM(0x1B,0x21), EV5, ARG_EV5HWMEM },
1302 { "hw_ld/pq", EV4HWMEM(0x1B,0x9), EV4, ARG_EV4HWMEM },
1303 { "hw_ld/pq", EV5HWMEM(0x1B,0x24), EV5, ARG_EV5HWMEM },
1304 { "hw_ld/pql", EV5HWMEM(0x1B,0x25), EV5, ARG_EV5HWMEM },
1305 { "hw_ld/pqv", EV5HWMEM(0x1B,0x26), EV5, ARG_EV5HWMEM },
1306 { "hw_ld/pqvl", EV5HWMEM(0x1B,0x27), EV5, ARG_EV5HWMEM },
1307 { "hw_ld/pr", EV4HWMEM(0x1B,0xA), EV4, ARG_EV4HWMEM },
1308 { "hw_ld/prq", EV4HWMEM(0x1B,0xB), EV4, ARG_EV4HWMEM },
1309 { "hw_ld/pv", EV5HWMEM(0x1B,0x22), EV5, ARG_EV5HWMEM },
1310 { "hw_ld/pvl", EV5HWMEM(0x1B,0x23), EV5, ARG_EV5HWMEM },
1311 { "hw_ld/pw", EV5HWMEM(0x1B,0x28), EV5, ARG_EV5HWMEM },
1312 { "hw_ld/pwl", EV5HWMEM(0x1B,0x29), EV5, ARG_EV5HWMEM },
1313 { "hw_ld/pwq", EV5HWMEM(0x1B,0x2c), EV5, ARG_EV5HWMEM },
1314 { "hw_ld/pwql", EV5HWMEM(0x1B,0x2d), EV5, ARG_EV5HWMEM },
1315 { "hw_ld/pwqv", EV5HWMEM(0x1B,0x2e), EV5, ARG_EV5HWMEM },
1316 { "hw_ld/pwqvl", EV5HWMEM(0x1B,0x2f), EV5, ARG_EV5HWMEM },
1317 { "hw_ld/pwv", EV5HWMEM(0x1B,0x2a), EV5, ARG_EV5HWMEM },
1318 { "hw_ld/pwvl", EV5HWMEM(0x1B,0x2b), EV5, ARG_EV5HWMEM },
1319 { "hw_ld/q", EV4HWMEM(0x1B,0x1), EV4, ARG_EV4HWMEM },
1320 { "hw_ld/q", EV5HWMEM(0x1B,0x04), EV5, ARG_EV5HWMEM },
1321 { "hw_ld/ql", EV5HWMEM(0x1B,0x05), EV5, ARG_EV5HWMEM },
1322 { "hw_ld/qv", EV5HWMEM(0x1B,0x06), EV5, ARG_EV5HWMEM },
1323 { "hw_ld/qvl", EV5HWMEM(0x1B,0x07), EV5, ARG_EV5HWMEM },
1324 { "hw_ld/r", EV4HWMEM(0x1B,0x2), EV4, ARG_EV4HWMEM },
1325 { "hw_ld/rq", EV4HWMEM(0x1B,0x3), EV4, ARG_EV4HWMEM },
1326 { "hw_ld/v", EV5HWMEM(0x1B,0x02), EV5, ARG_EV5HWMEM },
1327 { "hw_ld/vl", EV5HWMEM(0x1B,0x03), EV5, ARG_EV5HWMEM },
1328 { "hw_ld/w", EV5HWMEM(0x1B,0x08), EV5, ARG_EV5HWMEM },
1329 { "hw_ld/wl", EV5HWMEM(0x1B,0x09), EV5, ARG_EV5HWMEM },
1330 { "hw_ld/wq", EV5HWMEM(0x1B,0x0c), EV5, ARG_EV5HWMEM },
1331 { "hw_ld/wql", EV5HWMEM(0x1B,0x0d), EV5, ARG_EV5HWMEM },
1332 { "hw_ld/wqv", EV5HWMEM(0x1B,0x0e), EV5, ARG_EV5HWMEM },
1333 { "hw_ld/wqvl", EV5HWMEM(0x1B,0x0f), EV5, ARG_EV5HWMEM },
1334 { "hw_ld/wv", EV5HWMEM(0x1B,0x0a), EV5, ARG_EV5HWMEM },
1335 { "hw_ld/wvl", EV5HWMEM(0x1B,0x0b), EV5, ARG_EV5HWMEM },
1336 { "pal1b", PCD(0x1B), BASE, ARG_PCD },
1338 { "sextb", OPR(0x1C, 0x00), BWX, ARG_OPRZ1 },
1339 { "sextw", OPR(0x1C, 0x01), BWX, ARG_OPRZ1 },
1340 { "ctpop", OPR(0x1C, 0x30), CIX, ARG_OPRZ1 },
1341 { "perr", OPR(0x1C, 0x31), MAX, ARG_OPR },
1342 { "ctlz", OPR(0x1C, 0x32), CIX, ARG_OPRZ1 },
1343 { "cttz", OPR(0x1C, 0x33), CIX, ARG_OPRZ1 },
1344 { "unpkbw", OPR(0x1C, 0x34), MAX, ARG_OPRZ1 },
1345 { "unpkbl", OPR(0x1C, 0x35), MAX, ARG_OPRZ1 },
1346 { "pkwb", OPR(0x1C, 0x36), MAX, ARG_OPRZ1 },
1347 { "pklb", OPR(0x1C, 0x37), MAX, ARG_OPRZ1 },
1348 { "minsb8", OPR(0x1C, 0x38), MAX, ARG_OPR },
1349 { "minsb8", OPRL(0x1C, 0x38), MAX, ARG_OPRL },
1350 { "minsw4", OPR(0x1C, 0x39), MAX, ARG_OPR },
1351 { "minsw4", OPRL(0x1C, 0x39), MAX, ARG_OPRL },
1352 { "minub8", OPR(0x1C, 0x3A), MAX, ARG_OPR },
1353 { "minub8", OPRL(0x1C, 0x3A), MAX, ARG_OPRL },
1354 { "minuw4", OPR(0x1C, 0x3B), MAX, ARG_OPR },
1355 { "minuw4", OPRL(0x1C, 0x3B), MAX, ARG_OPRL },
1356 { "maxub8", OPR(0x1C, 0x3C), MAX, ARG_OPR },
1357 { "maxub8", OPRL(0x1C, 0x3C), MAX, ARG_OPRL },
1358 { "maxuw4", OPR(0x1C, 0x3D), MAX, ARG_OPR },
1359 { "maxuw4", OPRL(0x1C, 0x3D), MAX, ARG_OPRL },
1360 { "maxsb8", OPR(0x1C, 0x3E), MAX, ARG_OPR },
1361 { "maxsb8", OPRL(0x1C, 0x3E), MAX, ARG_OPRL },
1362 { "maxsw4", OPR(0x1C, 0x3F), MAX, ARG_OPR },
1363 { "maxsw4", OPRL(0x1C, 0x3F), MAX, ARG_OPRL },
1364 { "ftoit", FP(0x1C, 0x70), CIX, { FA, ZB, RC } },
1365 { "ftois", FP(0x1C, 0x78), CIX, { FA, ZB, RC } },
1367 { "hw_mtpr", OPR(0x1D,0x00), EV4, { RA, RBA, EV4EXTHWINDEX } },
1368 { "hw_mtpr", OP(0x1D), OP_MASK, EV5, { RA, RBA, EV5HWINDEX } },
1369 { "hw_mtpr", OP(0x1D), OP_MASK, EV6, { ZA, RB, EV6HWINDEX } },
1370 { "hw_mtpr/i", OPR(0x1D,0x01), EV4, ARG_EV4HWMPR },
1371 { "hw_mtpr/a", OPR(0x1D,0x02), EV4, ARG_EV4HWMPR },
1372 { "hw_mtpr/ai", OPR(0x1D,0x03), EV4, ARG_EV4HWMPR },
1373 { "hw_mtpr/p", OPR(0x1D,0x04), EV4, ARG_EV4HWMPR },
1374 { "hw_mtpr/pi", OPR(0x1D,0x05), EV4, ARG_EV4HWMPR },
1375 { "hw_mtpr/pa", OPR(0x1D,0x06), EV4, ARG_EV4HWMPR },
1376 { "hw_mtpr/pai", OPR(0x1D,0x07), EV4, ARG_EV4HWMPR },
1377 { "pal1d", PCD(0x1D), BASE, ARG_PCD },
1379 { "hw_rei", SPCD(0x1E,0x3FF8000), EV4|EV5, ARG_NONE },
1380 { "hw_rei_stall", SPCD(0x1E,0x3FFC000), EV5, ARG_NONE },
1381 { "hw_jmp", EV6HWMBR(0x1E,0x0), EV6, { ZA, PRB, EV6HWJMPHINT } },
1382 { "hw_jsr", EV6HWMBR(0x1E,0x2), EV6, { ZA, PRB, EV6HWJMPHINT } },
1383 { "hw_ret", EV6HWMBR(0x1E,0x4), EV6, { ZA, PRB } },
1384 { "hw_jcr", EV6HWMBR(0x1E,0x6), EV6, { ZA, PRB } },
1385 { "hw_coroutine", EV6HWMBR(0x1E,0x6), EV6, { ZA, PRB } }, /* alias */
1386 { "hw_jmp/stall", EV6HWMBR(0x1E,0x1), EV6, { ZA, PRB, EV6HWJMPHINT } },
1387 { "hw_jsr/stall", EV6HWMBR(0x1E,0x3), EV6, { ZA, PRB, EV6HWJMPHINT } },
1388 { "hw_ret/stall", EV6HWMBR(0x1E,0x5), EV6, { ZA, PRB } },
1389 { "hw_jcr/stall", EV6HWMBR(0x1E,0x7), EV6, { ZA, PRB } },
1390 { "hw_coroutine/stall", EV6HWMBR(0x1E,0x7), EV6, { ZA, PRB } }, /* alias */
1391 { "pal1e", PCD(0x1E), BASE, ARG_PCD },
1393 { "hw_stl", EV4HWMEM(0x1F,0x0), EV4, ARG_EV4HWMEM },
1394 { "hw_stl", EV5HWMEM(0x1F,0x00), EV5, ARG_EV5HWMEM },
1395 { "hw_stl", EV6HWMEM(0x1F,0x4), EV6, ARG_EV6HWMEM }, /* ??? 8 */
1396 { "hw_stl/a", EV4HWMEM(0x1F,0x4), EV4, ARG_EV4HWMEM },
1397 { "hw_stl/a", EV5HWMEM(0x1F,0x10), EV5, ARG_EV5HWMEM },
1398 { "hw_stl/a", EV6HWMEM(0x1F,0xC), EV6, ARG_EV6HWMEM },
1399 { "hw_stl/ac", EV5HWMEM(0x1F,0x11), EV5, ARG_EV5HWMEM },
1400 { "hw_stl/ar", EV4HWMEM(0x1F,0x6), EV4, ARG_EV4HWMEM },
1401 { "hw_stl/av", EV5HWMEM(0x1F,0x12), EV5, ARG_EV5HWMEM },
1402 { "hw_stl/avc", EV5HWMEM(0x1F,0x13), EV5, ARG_EV5HWMEM },
1403 { "hw_stl/c", EV5HWMEM(0x1F,0x01), EV5, ARG_EV5HWMEM },
1404 { "hw_stl/p", EV4HWMEM(0x1F,0x8), EV4, ARG_EV4HWMEM },
1405 { "hw_stl/p", EV5HWMEM(0x1F,0x20), EV5, ARG_EV5HWMEM },
1406 { "hw_stl/p", EV6HWMEM(0x1F,0x0), EV6, ARG_EV6HWMEM },
1407 { "hw_stl/pa", EV4HWMEM(0x1F,0xC), EV4, ARG_EV4HWMEM },
1408 { "hw_stl/pa", EV5HWMEM(0x1F,0x30), EV5, ARG_EV5HWMEM },
1409 { "hw_stl/pac", EV5HWMEM(0x1F,0x31), EV5, ARG_EV5HWMEM },
1410 { "hw_stl/pav", EV5HWMEM(0x1F,0x32), EV5, ARG_EV5HWMEM },
1411 { "hw_stl/pavc", EV5HWMEM(0x1F,0x33), EV5, ARG_EV5HWMEM },
1412 { "hw_stl/pc", EV5HWMEM(0x1F,0x21), EV5, ARG_EV5HWMEM },
1413 { "hw_stl/pr", EV4HWMEM(0x1F,0xA), EV4, ARG_EV4HWMEM },
1414 { "hw_stl/pv", EV5HWMEM(0x1F,0x22), EV5, ARG_EV5HWMEM },
1415 { "hw_stl/pvc", EV5HWMEM(0x1F,0x23), EV5, ARG_EV5HWMEM },
1416 { "hw_stl/r", EV4HWMEM(0x1F,0x2), EV4, ARG_EV4HWMEM },
1417 { "hw_stl/v", EV5HWMEM(0x1F,0x02), EV5, ARG_EV5HWMEM },
1418 { "hw_stl/vc", EV5HWMEM(0x1F,0x03), EV5, ARG_EV5HWMEM },
1419 { "hw_stl_c", EV5HWMEM(0x1F,0x01), EV5, ARG_EV5HWMEM },
1420 { "hw_stl_c/a", EV5HWMEM(0x1F,0x11), EV5, ARG_EV5HWMEM },
1421 { "hw_stl_c/av", EV5HWMEM(0x1F,0x13), EV5, ARG_EV5HWMEM },
1422 { "hw_stl_c/p", EV5HWMEM(0x1F,0x21), EV5, ARG_EV5HWMEM },
1423 { "hw_stl_c/p", EV6HWMEM(0x1F,0x2), EV6, ARG_EV6HWMEM },
1424 { "hw_stl_c/pa", EV5HWMEM(0x1F,0x31), EV5, ARG_EV5HWMEM },
1425 { "hw_stl_c/pav", EV5HWMEM(0x1F,0x33), EV5, ARG_EV5HWMEM },
1426 { "hw_stl_c/pv", EV5HWMEM(0x1F,0x23), EV5, ARG_EV5HWMEM },
1427 { "hw_stl_c/v", EV5HWMEM(0x1F,0x03), EV5, ARG_EV5HWMEM },
1428 { "hw_stq", EV4HWMEM(0x1F,0x1), EV4, ARG_EV4HWMEM },
1429 { "hw_stq", EV5HWMEM(0x1F,0x04), EV5, ARG_EV5HWMEM },
1430 { "hw_stq", EV6HWMEM(0x1F,0x5), EV6, ARG_EV6HWMEM }, /* ??? 9 */
1431 { "hw_stq/a", EV4HWMEM(0x1F,0x5), EV4, ARG_EV4HWMEM },
1432 { "hw_stq/a", EV5HWMEM(0x1F,0x14), EV5, ARG_EV5HWMEM },
1433 { "hw_stq/a", EV6HWMEM(0x1F,0xD), EV6, ARG_EV6HWMEM },
1434 { "hw_stq/ac", EV5HWMEM(0x1F,0x15), EV5, ARG_EV5HWMEM },
1435 { "hw_stq/ar", EV4HWMEM(0x1F,0x7), EV4, ARG_EV4HWMEM },
1436 { "hw_stq/av", EV5HWMEM(0x1F,0x16), EV5, ARG_EV5HWMEM },
1437 { "hw_stq/avc", EV5HWMEM(0x1F,0x17), EV5, ARG_EV5HWMEM },
1438 { "hw_stq/c", EV5HWMEM(0x1F,0x05), EV5, ARG_EV5HWMEM },
1439 { "hw_stq/p", EV4HWMEM(0x1F,0x9), EV4, ARG_EV4HWMEM },
1440 { "hw_stq/p", EV5HWMEM(0x1F,0x24), EV5, ARG_EV5HWMEM },
1441 { "hw_stq/p", EV6HWMEM(0x1F,0x1), EV6, ARG_EV6HWMEM },
1442 { "hw_stq/pa", EV4HWMEM(0x1F,0xD), EV4, ARG_EV4HWMEM },
1443 { "hw_stq/pa", EV5HWMEM(0x1F,0x34), EV5, ARG_EV5HWMEM },
1444 { "hw_stq/pac", EV5HWMEM(0x1F,0x35), EV5, ARG_EV5HWMEM },
1445 { "hw_stq/par", EV4HWMEM(0x1F,0xE), EV4, ARG_EV4HWMEM },
1446 { "hw_stq/par", EV4HWMEM(0x1F,0xF), EV4, ARG_EV4HWMEM },
1447 { "hw_stq/pav", EV5HWMEM(0x1F,0x36), EV5, ARG_EV5HWMEM },
1448 { "hw_stq/pavc", EV5HWMEM(0x1F,0x37), EV5, ARG_EV5HWMEM },
1449 { "hw_stq/pc", EV5HWMEM(0x1F,0x25), EV5, ARG_EV5HWMEM },
1450 { "hw_stq/pr", EV4HWMEM(0x1F,0xB), EV4, ARG_EV4HWMEM },
1451 { "hw_stq/pv", EV5HWMEM(0x1F,0x26), EV5, ARG_EV5HWMEM },
1452 { "hw_stq/pvc", EV5HWMEM(0x1F,0x27), EV5, ARG_EV5HWMEM },
1453 { "hw_stq/r", EV4HWMEM(0x1F,0x3), EV4, ARG_EV4HWMEM },
1454 { "hw_stq/v", EV5HWMEM(0x1F,0x06), EV5, ARG_EV5HWMEM },
1455 { "hw_stq/vc", EV5HWMEM(0x1F,0x07), EV5, ARG_EV5HWMEM },
1456 { "hw_stq_c", EV5HWMEM(0x1F,0x05), EV5, ARG_EV5HWMEM },
1457 { "hw_stq_c/a", EV5HWMEM(0x1F,0x15), EV5, ARG_EV5HWMEM },
1458 { "hw_stq_c/av", EV5HWMEM(0x1F,0x17), EV5, ARG_EV5HWMEM },
1459 { "hw_stq_c/p", EV5HWMEM(0x1F,0x25), EV5, ARG_EV5HWMEM },
1460 { "hw_stq_c/p", EV6HWMEM(0x1F,0x3), EV6, ARG_EV6HWMEM },
1461 { "hw_stq_c/pa", EV5HWMEM(0x1F,0x35), EV5, ARG_EV5HWMEM },
1462 { "hw_stq_c/pav", EV5HWMEM(0x1F,0x37), EV5, ARG_EV5HWMEM },
1463 { "hw_stq_c/pv", EV5HWMEM(0x1F,0x27), EV5, ARG_EV5HWMEM },
1464 { "hw_stq_c/v", EV5HWMEM(0x1F,0x07), EV5, ARG_EV5HWMEM },
1465 { "hw_st", EV4HWMEM(0x1F,0x0), EV4, ARG_EV4HWMEM },
1466 { "hw_st", EV5HWMEM(0x1F,0x00), EV5, ARG_EV5HWMEM },
1467 { "hw_st/a", EV4HWMEM(0x1F,0x4), EV4, ARG_EV4HWMEM },
1468 { "hw_st/a", EV5HWMEM(0x1F,0x10), EV5, ARG_EV5HWMEM },
1469 { "hw_st/ac", EV5HWMEM(0x1F,0x11), EV5, ARG_EV5HWMEM },
1470 { "hw_st/aq", EV4HWMEM(0x1F,0x5), EV4, ARG_EV4HWMEM },
1471 { "hw_st/aq", EV5HWMEM(0x1F,0x14), EV5, ARG_EV5HWMEM },
1472 { "hw_st/aqc", EV5HWMEM(0x1F,0x15), EV5, ARG_EV5HWMEM },
1473 { "hw_st/aqv", EV5HWMEM(0x1F,0x16), EV5, ARG_EV5HWMEM },
1474 { "hw_st/aqvc", EV5HWMEM(0x1F,0x17), EV5, ARG_EV5HWMEM },
1475 { "hw_st/ar", EV4HWMEM(0x1F,0x6), EV4, ARG_EV4HWMEM },
1476 { "hw_st/arq", EV4HWMEM(0x1F,0x7), EV4, ARG_EV4HWMEM },
1477 { "hw_st/av", EV5HWMEM(0x1F,0x12), EV5, ARG_EV5HWMEM },
1478 { "hw_st/avc", EV5HWMEM(0x1F,0x13), EV5, ARG_EV5HWMEM },
1479 { "hw_st/c", EV5HWMEM(0x1F,0x01), EV5, ARG_EV5HWMEM },
1480 { "hw_st/p", EV4HWMEM(0x1F,0x8), EV4, ARG_EV4HWMEM },
1481 { "hw_st/p", EV5HWMEM(0x1F,0x20), EV5, ARG_EV5HWMEM },
1482 { "hw_st/pa", EV4HWMEM(0x1F,0xC), EV4, ARG_EV4HWMEM },
1483 { "hw_st/pa", EV5HWMEM(0x1F,0x30), EV5, ARG_EV5HWMEM },
1484 { "hw_st/pac", EV5HWMEM(0x1F,0x31), EV5, ARG_EV5HWMEM },
1485 { "hw_st/paq", EV4HWMEM(0x1F,0xD), EV4, ARG_EV4HWMEM },
1486 { "hw_st/paq", EV5HWMEM(0x1F,0x34), EV5, ARG_EV5HWMEM },
1487 { "hw_st/paqc", EV5HWMEM(0x1F,0x35), EV5, ARG_EV5HWMEM },
1488 { "hw_st/paqv", EV5HWMEM(0x1F,0x36), EV5, ARG_EV5HWMEM },
1489 { "hw_st/paqvc", EV5HWMEM(0x1F,0x37), EV5, ARG_EV5HWMEM },
1490 { "hw_st/par", EV4HWMEM(0x1F,0xE), EV4, ARG_EV4HWMEM },
1491 { "hw_st/parq", EV4HWMEM(0x1F,0xF), EV4, ARG_EV4HWMEM },
1492 { "hw_st/pav", EV5HWMEM(0x1F,0x32), EV5, ARG_EV5HWMEM },
1493 { "hw_st/pavc", EV5HWMEM(0x1F,0x33), EV5, ARG_EV5HWMEM },
1494 { "hw_st/pc", EV5HWMEM(0x1F,0x21), EV5, ARG_EV5HWMEM },
1495 { "hw_st/pq", EV4HWMEM(0x1F,0x9), EV4, ARG_EV4HWMEM },
1496 { "hw_st/pq", EV5HWMEM(0x1F,0x24), EV5, ARG_EV5HWMEM },
1497 { "hw_st/pqc", EV5HWMEM(0x1F,0x25), EV5, ARG_EV5HWMEM },
1498 { "hw_st/pqv", EV5HWMEM(0x1F,0x26), EV5, ARG_EV5HWMEM },
1499 { "hw_st/pqvc", EV5HWMEM(0x1F,0x27), EV5, ARG_EV5HWMEM },
1500 { "hw_st/pr", EV4HWMEM(0x1F,0xA), EV4, ARG_EV4HWMEM },
1501 { "hw_st/prq", EV4HWMEM(0x1F,0xB), EV4, ARG_EV4HWMEM },
1502 { "hw_st/pv", EV5HWMEM(0x1F,0x22), EV5, ARG_EV5HWMEM },
1503 { "hw_st/pvc", EV5HWMEM(0x1F,0x23), EV5, ARG_EV5HWMEM },
1504 { "hw_st/q", EV4HWMEM(0x1F,0x1), EV4, ARG_EV4HWMEM },
1505 { "hw_st/q", EV5HWMEM(0x1F,0x04), EV5, ARG_EV5HWMEM },
1506 { "hw_st/qc", EV5HWMEM(0x1F,0x05), EV5, ARG_EV5HWMEM },
1507 { "hw_st/qv", EV5HWMEM(0x1F,0x06), EV5, ARG_EV5HWMEM },
1508 { "hw_st/qvc", EV5HWMEM(0x1F,0x07), EV5, ARG_EV5HWMEM },
1509 { "hw_st/r", EV4HWMEM(0x1F,0x2), EV4, ARG_EV4HWMEM },
1510 { "hw_st/v", EV5HWMEM(0x1F,0x02), EV5, ARG_EV5HWMEM },
1511 { "hw_st/vc", EV5HWMEM(0x1F,0x03), EV5, ARG_EV5HWMEM },
1512 { "pal1f", PCD(0x1F), BASE, ARG_PCD },
1514 { "ldf", MEM(0x20), BASE, ARG_FMEM },
1515 { "ldg", MEM(0x21), BASE, ARG_FMEM },
1516 { "lds", MEM(0x22), BASE, ARG_FMEM },
1517 { "ldt", MEM(0x23), BASE, ARG_FMEM },
1518 { "stf", MEM(0x24), BASE, ARG_FMEM },
1519 { "stg", MEM(0x25), BASE, ARG_FMEM },
1520 { "sts", MEM(0x26), BASE, ARG_FMEM },
1521 { "stt", MEM(0x27), BASE, ARG_FMEM },
1523 { "ldl", MEM(0x28), BASE, ARG_MEM },
1524 { "ldq", MEM(0x29), BASE, ARG_MEM },
1525 { "ldl_l", MEM(0x2A), BASE, ARG_MEM },
1526 { "ldq_l", MEM(0x2B), BASE, ARG_MEM },
1527 { "stl", MEM(0x2C), BASE, ARG_MEM },
1528 { "stq", MEM(0x2D), BASE, ARG_MEM },
1529 { "stl_c", MEM(0x2E), BASE, ARG_MEM },
1530 { "stq_c", MEM(0x2F), BASE, ARG_MEM },
1532 { "br", BRA(0x30), BASE, { ZA, BDISP } }, /* pseudo */
1533 { "br", BRA(0x30), BASE, ARG_BRA },
1534 { "fbeq", BRA(0x31), BASE, ARG_FBRA },
1535 { "fblt", BRA(0x32), BASE, ARG_FBRA },
1536 { "fble", BRA(0x33), BASE, ARG_FBRA },
1537 { "bsr", BRA(0x34), BASE, ARG_BRA },
1538 { "fbne", BRA(0x35), BASE, ARG_FBRA },
1539 { "fbge", BRA(0x36), BASE, ARG_FBRA },
1540 { "fbgt", BRA(0x37), BASE, ARG_FBRA },
1541 { "blbc", BRA(0x38), BASE, ARG_BRA },
1542 { "beq", BRA(0x39), BASE, ARG_BRA },
1543 { "blt", BRA(0x3A), BASE, ARG_BRA },
1544 { "ble", BRA(0x3B), BASE, ARG_BRA },
1545 { "blbs", BRA(0x3C), BASE, ARG_BRA },
1546 { "bne", BRA(0x3D), BASE, ARG_BRA },
1547 { "bge", BRA(0x3E), BASE, ARG_BRA },
1548 { "bgt", BRA(0x3F), BASE, ARG_BRA },
1551 const unsigned alpha_num_opcodes = sizeof(alpha_opcodes)/sizeof(*alpha_opcodes);