Update the address and phone number of the FSF organization in the GPL notices
[deliverable/binutils-gdb.git] / bfd / cpu-ia64-opc.c
1 /* Copyright 1998, 1999, 2000, 2001, 2002, 2003
2 Free Software Foundation, Inc.
3 Contributed by David Mosberger-Tang <davidm@hpl.hp.com>
4
5 This file is part of BFD, the Binary File Descriptor library.
6
7 This program is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2 of the License, or
10 (at your option) any later version.
11
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
16
17 You should have received a copy of the GNU General Public License
18 along with this program; if not, write to the Free Software
19 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */
20
21 /* Logically, this code should be part of libopcode but since some of
22 the operand insertion/extraction functions help bfd to implement
23 relocations, this code is included as part of cpu-ia64.c. This
24 avoids circular dependencies between libopcode and libbfd and also
25 obviates the need for applications to link in libopcode when all
26 they really want is libbfd.
27
28 --davidm Mon Apr 13 22:14:02 1998 */
29
30 #include "../opcodes/ia64-opc.h"
31
32 #define NELEMS(a) ((int) (sizeof (a) / sizeof ((a)[0])))
33
34 static const char*
35 ins_rsvd (const struct ia64_operand *self ATTRIBUTE_UNUSED,
36 ia64_insn value ATTRIBUTE_UNUSED, ia64_insn *code ATTRIBUTE_UNUSED)
37 {
38 return "internal error---this shouldn't happen";
39 }
40
41 static const char*
42 ext_rsvd (const struct ia64_operand *self ATTRIBUTE_UNUSED,
43 ia64_insn code ATTRIBUTE_UNUSED, ia64_insn *valuep ATTRIBUTE_UNUSED)
44 {
45 return "internal error---this shouldn't happen";
46 }
47
48 static const char*
49 ins_const (const struct ia64_operand *self ATTRIBUTE_UNUSED,
50 ia64_insn value ATTRIBUTE_UNUSED, ia64_insn *code ATTRIBUTE_UNUSED)
51 {
52 return 0;
53 }
54
55 static const char*
56 ext_const (const struct ia64_operand *self ATTRIBUTE_UNUSED,
57 ia64_insn code ATTRIBUTE_UNUSED, ia64_insn *valuep ATTRIBUTE_UNUSED)
58 {
59 return 0;
60 }
61
62 static const char*
63 ins_reg (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
64 {
65 if (value >= 1u << self->field[0].bits)
66 return "register number out of range";
67
68 *code |= value << self->field[0].shift;
69 return 0;
70 }
71
72 static const char*
73 ext_reg (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
74 {
75 *valuep = ((code >> self->field[0].shift)
76 & ((1u << self->field[0].bits) - 1));
77 return 0;
78 }
79
80 static const char*
81 ins_immu (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
82 {
83 ia64_insn new = 0;
84 int i;
85
86 for (i = 0; i < NELEMS (self->field) && self->field[i].bits; ++i)
87 {
88 new |= ((value & ((((ia64_insn) 1) << self->field[i].bits) - 1))
89 << self->field[i].shift);
90 value >>= self->field[i].bits;
91 }
92 if (value)
93 return "integer operand out of range";
94
95 *code |= new;
96 return 0;
97 }
98
99 static const char*
100 ext_immu (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
101 {
102 BFD_HOST_U_64_BIT value = 0;
103 int i, bits = 0, total = 0;
104
105 for (i = 0; i < NELEMS (self->field) && self->field[i].bits; ++i)
106 {
107 bits = self->field[i].bits;
108 value |= ((code >> self->field[i].shift)
109 & ((((BFD_HOST_U_64_BIT) 1) << bits) - 1)) << total;
110 total += bits;
111 }
112 *valuep = value;
113 return 0;
114 }
115
116 static const char*
117 ins_immus8 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
118 {
119 if (value & 0x7)
120 return "value not an integer multiple of 8";
121 return ins_immu (self, value >> 3, code);
122 }
123
124 static const char*
125 ext_immus8 (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
126 {
127 const char *result;
128
129 result = ext_immu (self, code, valuep);
130 if (result)
131 return result;
132
133 *valuep = *valuep << 3;
134 return 0;
135 }
136
137 static const char*
138 ins_imms_scaled (const struct ia64_operand *self, ia64_insn value,
139 ia64_insn *code, int scale)
140 {
141 BFD_HOST_64_BIT svalue = value, sign_bit = 0;
142 ia64_insn new = 0;
143 int i;
144
145 svalue >>= scale;
146
147 for (i = 0; i < NELEMS (self->field) && self->field[i].bits; ++i)
148 {
149 new |= ((svalue & ((((ia64_insn) 1) << self->field[i].bits) - 1))
150 << self->field[i].shift);
151 sign_bit = (svalue >> (self->field[i].bits - 1)) & 1;
152 svalue >>= self->field[i].bits;
153 }
154 if ((!sign_bit && svalue != 0) || (sign_bit && svalue != -1))
155 return "integer operand out of range";
156
157 *code |= new;
158 return 0;
159 }
160
161 static const char*
162 ext_imms_scaled (const struct ia64_operand *self, ia64_insn code,
163 ia64_insn *valuep, int scale)
164 {
165 int i, bits = 0, total = 0;
166 BFD_HOST_64_BIT val = 0, sign;
167
168 for (i = 0; i < NELEMS (self->field) && self->field[i].bits; ++i)
169 {
170 bits = self->field[i].bits;
171 val |= ((code >> self->field[i].shift)
172 & ((((BFD_HOST_U_64_BIT) 1) << bits) - 1)) << total;
173 total += bits;
174 }
175 /* sign extend: */
176 sign = (BFD_HOST_64_BIT) 1 << (total - 1);
177 val = (val ^ sign) - sign;
178
179 *valuep = (val << scale);
180 return 0;
181 }
182
183 static const char*
184 ins_imms (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
185 {
186 return ins_imms_scaled (self, value, code, 0);
187 }
188
189 static const char*
190 ins_immsu4 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
191 {
192 value = ((value & 0xffffffff) ^ 0x80000000) - 0x80000000;
193
194 return ins_imms_scaled (self, value, code, 0);
195 }
196
197 static const char*
198 ext_imms (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
199 {
200 return ext_imms_scaled (self, code, valuep, 0);
201 }
202
203 static const char*
204 ins_immsm1 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
205 {
206 --value;
207 return ins_imms_scaled (self, value, code, 0);
208 }
209
210 static const char*
211 ins_immsm1u4 (const struct ia64_operand *self, ia64_insn value,
212 ia64_insn *code)
213 {
214 value = ((value & 0xffffffff) ^ 0x80000000) - 0x80000000;
215
216 --value;
217 return ins_imms_scaled (self, value, code, 0);
218 }
219
220 static const char*
221 ext_immsm1 (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
222 {
223 const char *res = ext_imms_scaled (self, code, valuep, 0);
224
225 ++*valuep;
226 return res;
227 }
228
229 static const char*
230 ins_imms1 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
231 {
232 return ins_imms_scaled (self, value, code, 1);
233 }
234
235 static const char*
236 ext_imms1 (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
237 {
238 return ext_imms_scaled (self, code, valuep, 1);
239 }
240
241 static const char*
242 ins_imms4 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
243 {
244 return ins_imms_scaled (self, value, code, 4);
245 }
246
247 static const char*
248 ext_imms4 (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
249 {
250 return ext_imms_scaled (self, code, valuep, 4);
251 }
252
253 static const char*
254 ins_imms16 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
255 {
256 return ins_imms_scaled (self, value, code, 16);
257 }
258
259 static const char*
260 ext_imms16 (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
261 {
262 return ext_imms_scaled (self, code, valuep, 16);
263 }
264
265 static const char*
266 ins_cimmu (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
267 {
268 ia64_insn mask = (((ia64_insn) 1) << self->field[0].bits) - 1;
269 return ins_immu (self, value ^ mask, code);
270 }
271
272 static const char*
273 ext_cimmu (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
274 {
275 const char *result;
276 ia64_insn mask;
277
278 mask = (((ia64_insn) 1) << self->field[0].bits) - 1;
279 result = ext_immu (self, code, valuep);
280 if (!result)
281 {
282 mask = (((ia64_insn) 1) << self->field[0].bits) - 1;
283 *valuep ^= mask;
284 }
285 return result;
286 }
287
288 static const char*
289 ins_cnt (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
290 {
291 --value;
292 if (value >= ((BFD_HOST_U_64_BIT) 1) << self->field[0].bits)
293 return "count out of range";
294
295 *code |= value << self->field[0].shift;
296 return 0;
297 }
298
299 static const char*
300 ext_cnt (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
301 {
302 *valuep = ((code >> self->field[0].shift)
303 & ((((BFD_HOST_U_64_BIT) 1) << self->field[0].bits) - 1)) + 1;
304 return 0;
305 }
306
307 static const char*
308 ins_cnt2b (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
309 {
310 --value;
311
312 if (value > 2)
313 return "count must be in range 1..3";
314
315 *code |= value << self->field[0].shift;
316 return 0;
317 }
318
319 static const char*
320 ext_cnt2b (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
321 {
322 *valuep = ((code >> self->field[0].shift) & 0x3) + 1;
323 return 0;
324 }
325
326 static const char*
327 ins_cnt2c (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
328 {
329 switch (value)
330 {
331 case 0: value = 0; break;
332 case 7: value = 1; break;
333 case 15: value = 2; break;
334 case 16: value = 3; break;
335 default: return "count must be 0, 7, 15, or 16";
336 }
337 *code |= value << self->field[0].shift;
338 return 0;
339 }
340
341 static const char*
342 ext_cnt2c (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
343 {
344 ia64_insn value;
345
346 value = (code >> self->field[0].shift) & 0x3;
347 switch (value)
348 {
349 case 0: value = 0; break;
350 case 1: value = 7; break;
351 case 2: value = 15; break;
352 case 3: value = 16; break;
353 }
354 *valuep = value;
355 return 0;
356 }
357
358 static const char*
359 ins_inc3 (const struct ia64_operand *self, ia64_insn value, ia64_insn *code)
360 {
361 BFD_HOST_64_BIT val = value;
362 BFD_HOST_U_64_BIT sign = 0;
363
364 if (val < 0)
365 {
366 sign = 0x4;
367 value = -value;
368 }
369 switch (value)
370 {
371 case 1: value = 3; break;
372 case 4: value = 2; break;
373 case 8: value = 1; break;
374 case 16: value = 0; break;
375 default: return "count must be +/- 1, 4, 8, or 16";
376 }
377 *code |= (sign | value) << self->field[0].shift;
378 return 0;
379 }
380
381 static const char*
382 ext_inc3 (const struct ia64_operand *self, ia64_insn code, ia64_insn *valuep)
383 {
384 BFD_HOST_64_BIT val;
385 int negate;
386
387 val = (code >> self->field[0].shift) & 0x7;
388 negate = val & 0x4;
389 switch (val & 0x3)
390 {
391 case 0: val = 16; break;
392 case 1: val = 8; break;
393 case 2: val = 4; break;
394 case 3: val = 1; break;
395 }
396 if (negate)
397 val = -val;
398
399 *valuep = val;
400 return 0;
401 }
402
403 #define CST IA64_OPND_CLASS_CST
404 #define REG IA64_OPND_CLASS_REG
405 #define IND IA64_OPND_CLASS_IND
406 #define ABS IA64_OPND_CLASS_ABS
407 #define REL IA64_OPND_CLASS_REL
408
409 #define SDEC IA64_OPND_FLAG_DECIMAL_SIGNED
410 #define UDEC IA64_OPND_FLAG_DECIMAL_UNSIGNED
411
412 const struct ia64_operand elf64_ia64_operands[IA64_OPND_COUNT] =
413 {
414 /* constants: */
415 { CST, ins_const, ext_const, "NIL", {{ 0, 0}}, 0, "<none>" },
416 { CST, ins_const, ext_const, "ar.csd", {{ 0, 0}}, 0, "ar.csd" },
417 { CST, ins_const, ext_const, "ar.ccv", {{ 0, 0}}, 0, "ar.ccv" },
418 { CST, ins_const, ext_const, "ar.pfs", {{ 0, 0}}, 0, "ar.pfs" },
419 { CST, ins_const, ext_const, "1", {{ 0, 0}}, 0, "1" },
420 { CST, ins_const, ext_const, "8", {{ 0, 0}}, 0, "8" },
421 { CST, ins_const, ext_const, "16", {{ 0, 0}}, 0, "16" },
422 { CST, ins_const, ext_const, "r0", {{ 0, 0}}, 0, "r0" },
423 { CST, ins_const, ext_const, "ip", {{ 0, 0}}, 0, "ip" },
424 { CST, ins_const, ext_const, "pr", {{ 0, 0}}, 0, "pr" },
425 { CST, ins_const, ext_const, "pr.rot", {{ 0, 0}}, 0, "pr.rot" },
426 { CST, ins_const, ext_const, "psr", {{ 0, 0}}, 0, "psr" },
427 { CST, ins_const, ext_const, "psr.l", {{ 0, 0}}, 0, "psr.l" },
428 { CST, ins_const, ext_const, "psr.um", {{ 0, 0}}, 0, "psr.um" },
429
430 /* register operands: */
431 { REG, ins_reg, ext_reg, "ar", {{ 7, 20}}, 0, /* AR3 */
432 "an application register" },
433 { REG, ins_reg, ext_reg, "b", {{ 3, 6}}, 0, /* B1 */
434 "a branch register" },
435 { REG, ins_reg, ext_reg, "b", {{ 3, 13}}, 0, /* B2 */
436 "a branch register"},
437 { REG, ins_reg, ext_reg, "cr", {{ 7, 20}}, 0, /* CR */
438 "a control register"},
439 { REG, ins_reg, ext_reg, "f", {{ 7, 6}}, 0, /* F1 */
440 "a floating-point register" },
441 { REG, ins_reg, ext_reg, "f", {{ 7, 13}}, 0, /* F2 */
442 "a floating-point register" },
443 { REG, ins_reg, ext_reg, "f", {{ 7, 20}}, 0, /* F3 */
444 "a floating-point register" },
445 { REG, ins_reg, ext_reg, "f", {{ 7, 27}}, 0, /* F4 */
446 "a floating-point register" },
447 { REG, ins_reg, ext_reg, "p", {{ 6, 6}}, 0, /* P1 */
448 "a predicate register" },
449 { REG, ins_reg, ext_reg, "p", {{ 6, 27}}, 0, /* P2 */
450 "a predicate register" },
451 { REG, ins_reg, ext_reg, "r", {{ 7, 6}}, 0, /* R1 */
452 "a general register" },
453 { REG, ins_reg, ext_reg, "r", {{ 7, 13}}, 0, /* R2 */
454 "a general register" },
455 { REG, ins_reg, ext_reg, "r", {{ 7, 20}}, 0, /* R3 */
456 "a general register" },
457 { REG, ins_reg, ext_reg, "r", {{ 2, 20}}, 0, /* R3_2 */
458 "a general register r0-r3" },
459
460 /* indirect operands: */
461 { IND, ins_reg, ext_reg, "cpuid", {{7, 20}}, 0, /* CPUID_R3 */
462 "a cpuid register" },
463 { IND, ins_reg, ext_reg, "dbr", {{7, 20}}, 0, /* DBR_R3 */
464 "a dbr register" },
465 { IND, ins_reg, ext_reg, "dtr", {{7, 20}}, 0, /* DTR_R3 */
466 "a dtr register" },
467 { IND, ins_reg, ext_reg, "itr", {{7, 20}}, 0, /* ITR_R3 */
468 "an itr register" },
469 { IND, ins_reg, ext_reg, "ibr", {{7, 20}}, 0, /* IBR_R3 */
470 "an ibr register" },
471 { IND, ins_reg, ext_reg, "", {{7, 20}}, 0, /* MR3 */
472 "an indirect memory address" },
473 { IND, ins_reg, ext_reg, "msr", {{7, 20}}, 0, /* MSR_R3 */
474 "an msr register" },
475 { IND, ins_reg, ext_reg, "pkr", {{7, 20}}, 0, /* PKR_R3 */
476 "a pkr register" },
477 { IND, ins_reg, ext_reg, "pmc", {{7, 20}}, 0, /* PMC_R3 */
478 "a pmc register" },
479 { IND, ins_reg, ext_reg, "pmd", {{7, 20}}, 0, /* PMD_R3 */
480 "a pmd register" },
481 { IND, ins_reg, ext_reg, "rr", {{7, 20}}, 0, /* RR_R3 */
482 "an rr register" },
483
484 /* immediate operands: */
485 { ABS, ins_cimmu, ext_cimmu, 0, {{ 5, 20 }}, UDEC, /* CCNT5 */
486 "a 5-bit count (0-31)" },
487 { ABS, ins_cnt, ext_cnt, 0, {{ 2, 27 }}, UDEC, /* CNT2a */
488 "a 2-bit count (1-4)" },
489 { ABS, ins_cnt2b, ext_cnt2b, 0, {{ 2, 27 }}, UDEC, /* CNT2b */
490 "a 2-bit count (1-3)" },
491 { ABS, ins_cnt2c, ext_cnt2c, 0, {{ 2, 30 }}, UDEC, /* CNT2c */
492 "a count (0, 7, 15, or 16)" },
493 { ABS, ins_immu, ext_immu, 0, {{ 5, 14}}, UDEC, /* CNT5 */
494 "a 5-bit count (0-31)" },
495 { ABS, ins_immu, ext_immu, 0, {{ 6, 27}}, UDEC, /* CNT6 */
496 "a 6-bit count (0-63)" },
497 { ABS, ins_cimmu, ext_cimmu, 0, {{ 6, 20}}, UDEC, /* CPOS6a */
498 "a 6-bit bit pos (0-63)" },
499 { ABS, ins_cimmu, ext_cimmu, 0, {{ 6, 14}}, UDEC, /* CPOS6b */
500 "a 6-bit bit pos (0-63)" },
501 { ABS, ins_cimmu, ext_cimmu, 0, {{ 6, 31}}, UDEC, /* CPOS6c */
502 "a 6-bit bit pos (0-63)" },
503 { ABS, ins_imms, ext_imms, 0, {{ 1, 36}}, SDEC, /* IMM1 */
504 "a 1-bit integer (-1, 0)" },
505 { ABS, ins_immu, ext_immu, 0, {{ 2, 13}}, UDEC, /* IMMU2 */
506 "a 2-bit unsigned (0-3)" },
507 { ABS, ins_immu, ext_immu, 0, {{ 7, 13}}, 0, /* IMMU7a */
508 "a 7-bit unsigned (0-127)" },
509 { ABS, ins_immu, ext_immu, 0, {{ 7, 20}}, 0, /* IMMU7b */
510 "a 7-bit unsigned (0-127)" },
511 { ABS, ins_immu, ext_immu, 0, {{ 7, 13}}, UDEC, /* SOF */
512 "a frame size (register count)" },
513 { ABS, ins_immu, ext_immu, 0, {{ 7, 20}}, UDEC, /* SOL */
514 "a local register count" },
515 { ABS, ins_immus8,ext_immus8,0, {{ 4, 27}}, UDEC, /* SOR */
516 "a rotating register count (integer multiple of 8)" },
517 { ABS, ins_imms, ext_imms, 0, /* IMM8 */
518 {{ 7, 13}, { 1, 36}}, SDEC,
519 "an 8-bit integer (-128-127)" },
520 { ABS, ins_immsu4, ext_imms, 0, /* IMM8U4 */
521 {{ 7, 13}, { 1, 36}}, SDEC,
522 "an 8-bit signed integer for 32-bit unsigned compare (-128-127)" },
523 { ABS, ins_immsm1, ext_immsm1, 0, /* IMM8M1 */
524 {{ 7, 13}, { 1, 36}}, SDEC,
525 "an 8-bit integer (-127-128)" },
526 { ABS, ins_immsm1u4, ext_immsm1, 0, /* IMM8M1U4 */
527 {{ 7, 13}, { 1, 36}}, SDEC,
528 "an 8-bit integer for 32-bit unsigned compare (-127-(-1),1-128,0x100000000)" },
529 { ABS, ins_immsm1, ext_immsm1, 0, /* IMM8M1U8 */
530 {{ 7, 13}, { 1, 36}}, SDEC,
531 "an 8-bit integer for 64-bit unsigned compare (-127-(-1),1-128,0x10000000000000000)" },
532 { ABS, ins_immu, ext_immu, 0, {{ 2, 33}, { 7, 20}}, 0, /* IMMU9 */
533 "a 9-bit unsigned (0-511)" },
534 { ABS, ins_imms, ext_imms, 0, /* IMM9a */
535 {{ 7, 6}, { 1, 27}, { 1, 36}}, SDEC,
536 "a 9-bit integer (-256-255)" },
537 { ABS, ins_imms, ext_imms, 0, /* IMM9b */
538 {{ 7, 13}, { 1, 27}, { 1, 36}}, SDEC,
539 "a 9-bit integer (-256-255)" },
540 { ABS, ins_imms, ext_imms, 0, /* IMM14 */
541 {{ 7, 13}, { 6, 27}, { 1, 36}}, SDEC,
542 "a 14-bit integer (-8192-8191)" },
543 { ABS, ins_imms1, ext_imms1, 0, /* IMM17 */
544 {{ 7, 6}, { 8, 24}, { 1, 36}}, 0,
545 "a 17-bit integer (-65536-65535)" },
546 { ABS, ins_immu, ext_immu, 0, {{20, 6}, { 1, 36}}, 0, /* IMMU21 */
547 "a 21-bit unsigned" },
548 { ABS, ins_imms, ext_imms, 0, /* IMM22 */
549 {{ 7, 13}, { 9, 27}, { 5, 22}, { 1, 36}}, SDEC,
550 "a 22-bit signed integer" },
551 { ABS, ins_immu, ext_immu, 0, /* IMMU24 */
552 {{21, 6}, { 2, 31}, { 1, 36}}, 0,
553 "a 24-bit unsigned" },
554 { ABS, ins_imms16,ext_imms16,0, {{27, 6}, { 1, 36}}, 0, /* IMM44 */
555 "a 44-bit unsigned (least 16 bits ignored/zeroes)" },
556 { ABS, ins_rsvd, ext_rsvd, 0, {{0, 0}}, 0, /* IMMU62 */
557 "a 62-bit unsigned" },
558 { ABS, ins_rsvd, ext_rsvd, 0, {{0, 0}}, 0, /* IMMU64 */
559 "a 64-bit unsigned" },
560 { ABS, ins_inc3, ext_inc3, 0, {{ 3, 13}}, SDEC, /* INC3 */
561 "an increment (+/- 1, 4, 8, or 16)" },
562 { ABS, ins_cnt, ext_cnt, 0, {{ 4, 27}}, UDEC, /* LEN4 */
563 "a 4-bit length (1-16)" },
564 { ABS, ins_cnt, ext_cnt, 0, {{ 6, 27}}, UDEC, /* LEN6 */
565 "a 6-bit length (1-64)" },
566 { ABS, ins_immu, ext_immu, 0, {{ 4, 20}}, 0, /* MBTYPE4 */
567 "a mix type (@rev, @mix, @shuf, @alt, or @brcst)" },
568 { ABS, ins_immu, ext_immu, 0, {{ 8, 20}}, 0, /* MBTYPE8 */
569 "an 8-bit mix type" },
570 { ABS, ins_immu, ext_immu, 0, {{ 6, 14}}, UDEC, /* POS6 */
571 "a 6-bit bit pos (0-63)" },
572 { REL, ins_imms4, ext_imms4, 0, {{ 7, 6}, { 2, 33}}, 0, /* TAG13 */
573 "a branch tag" },
574 { REL, ins_imms4, ext_imms4, 0, {{ 9, 24}}, 0, /* TAG13b */
575 "a branch tag" },
576 { REL, ins_imms4, ext_imms4, 0, {{20, 6}, { 1, 36}}, 0, /* TGT25 */
577 "a branch target" },
578 { REL, ins_imms4, ext_imms4, 0, /* TGT25b */
579 {{ 7, 6}, {13, 20}, { 1, 36}}, 0,
580 "a branch target" },
581 { REL, ins_imms4, ext_imms4, 0, {{20, 13}, { 1, 36}}, 0, /* TGT25c */
582 "a branch target" },
583 { REL, ins_rsvd, ext_rsvd, 0, {{0, 0}}, 0, /* TGT64 */
584 "a branch target" },
585
586 { ABS, ins_const, ext_const, 0, {{0, 0}}, 0, /* LDXMOV */
587 "ldxmov target" },
588 };
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