1 /* ppc-dis.c -- Disassemble PowerPC instructions
2 Copyright 1994, 1995, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007
3 Free Software Foundation, Inc.
4 Written by Ian Lance Taylor, Cygnus Support
5
6 This file is part of GDB, GAS, and the GNU binutils.
7
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.
12
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.
17
18 You should have received a copy of the GNU General Public License
19 along with this file; see the file COPYING. If not,
20 see <http://www.gnu.org/licenses/>. */
21 #include "dis-asm.h"
22 #define BFD_DEFAULT_TARGET_SIZE 64
23
24 /* ppc.h -- Header file for PowerPC opcode table
25 Copyright 1994, 1995, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006,
26 2007 Free Software Foundation, Inc.
27 Written by Ian Lance Taylor, Cygnus Support
28
29 This file is part of GDB, GAS, and the GNU binutils.
30
31 GDB, GAS, and the GNU binutils are free software; you can redistribute
32 them and/or modify them under the terms of the GNU General Public
33 License as published by the Free Software Foundation; either version
34 1, or (at your option) any later version.
35
36 GDB, GAS, and the GNU binutils are distributed in the hope that they
37 will be useful, but WITHOUT ANY WARRANTY; without even the implied
38 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
39 the GNU General Public License for more details.
40
41 You should have received a copy of the GNU General Public License
42 along with this file; see the file COPYING. If not,
43 see <http://www.gnu.org/licenses/>. */
44
45 /* The opcode table is an array of struct powerpc_opcode. */
46
47 struct powerpc_opcode
48 {
49 /* The opcode name. */
50 const char *name;
51
52 /* The opcode itself. Those bits which will be filled in with
53 operands are zeroes. */
54 unsigned long opcode;
55
56 /* The opcode mask. This is used by the disassembler. This is a
57 mask containing ones indicating those bits which must match the
58 opcode field, and zeroes indicating those bits which need not
59 match (and are presumably filled in by operands). */
60 unsigned long mask;
61
62 /* One bit flags for the opcode. These are used to indicate which
63 specific processors support the instructions. The defined values
64 are listed below. */
65 unsigned long flags;
66
67 /* An array of operand codes. Each code is an index into the
68 operand table. They appear in the order which the operands must
69 appear in assembly code, and are terminated by a zero. */
70 unsigned char operands[8];
71 };
72
73 /* The table itself is sorted by major opcode number, and is otherwise
74 in the order in which the disassembler should consider
75 instructions. */
76 extern const struct powerpc_opcode powerpc_opcodes[];
77 extern const int powerpc_num_opcodes;
78
79 /* Values defined for the flags field of a struct powerpc_opcode. */
80
81 /* Opcode is defined for the PowerPC architecture. */
82 #define PPC_OPCODE_PPC 1
83
84 /* Opcode is defined for the POWER (RS/6000) architecture. */
85 #define PPC_OPCODE_POWER 2
86
87 /* Opcode is defined for the POWER2 (Rios 2) architecture. */
88 #define PPC_OPCODE_POWER2 4
89
90 /* Opcode is only defined on 32 bit architectures. */
91 #define PPC_OPCODE_32 8
92
93 /* Opcode is only defined on 64 bit architectures. */
94 #define PPC_OPCODE_64 0x10
95
96 /* Opcode is supported by the Motorola PowerPC 601 processor. The 601
97 is assumed to support all PowerPC (PPC_OPCODE_PPC) instructions,
98 but it also supports many additional POWER instructions. */
99 #define PPC_OPCODE_601 0x20
100
101 /* Opcode is supported in both the Power and PowerPC architectures
102 (ie, compiler's -mcpu=common or assembler's -mcom). */
103 #define PPC_OPCODE_COMMON 0x40
104
105 /* Opcode is supported for any Power or PowerPC platform (this is
106 for the assembler's -many option, and it eliminates duplicates). */
107 #define PPC_OPCODE_ANY 0x80
108
109 /* Opcode is supported as part of the 64-bit bridge. */
110 #define PPC_OPCODE_64_BRIDGE 0x100
111
112 /* Opcode is supported by Altivec Vector Unit */
113 #define PPC_OPCODE_ALTIVEC 0x200
114
115 /* Opcode is supported by PowerPC 403 processor. */
116 #define PPC_OPCODE_403 0x400
117
118 /* Opcode is supported by PowerPC BookE processor. */
119 #define PPC_OPCODE_BOOKE 0x800
120
121 /* Opcode is only supported by 64-bit PowerPC BookE processor. */
122 #define PPC_OPCODE_BOOKE64 0x1000
123
124 /* Opcode is supported by PowerPC 440 processor. */
125 #define PPC_OPCODE_440 0x2000
126
127 /* Opcode is only supported by Power4 architecture. */
128 #define PPC_OPCODE_POWER4 0x4000
129
130 /* Opcode isn't supported by Power4 architecture. */
131 #define PPC_OPCODE_NOPOWER4 0x8000
132
133 /* Opcode is only supported by POWERPC Classic architecture. */
134 #define PPC_OPCODE_CLASSIC 0x10000
135
136 /* Opcode is only supported by e500x2 Core. */
137 #define PPC_OPCODE_SPE 0x20000
138
139 /* Opcode is supported by e500x2 Integer select APU. */
140 #define PPC_OPCODE_ISEL 0x40000
141
142 /* Opcode is an e500 SPE floating point instruction. */
143 #define PPC_OPCODE_EFS 0x80000
144
145 /* Opcode is supported by branch locking APU. */
146 #define PPC_OPCODE_BRLOCK 0x100000
147
148 /* Opcode is supported by performance monitor APU. */
149 #define PPC_OPCODE_PMR 0x200000
150
151 /* Opcode is supported by cache locking APU. */
152 #define PPC_OPCODE_CACHELCK 0x400000
153
154 /* Opcode is supported by machine check APU. */
155 #define PPC_OPCODE_RFMCI 0x800000
156
157 /* Opcode is only supported by Power5 architecture. */
158 #define PPC_OPCODE_POWER5 0x1000000
159
160 /* Opcode is supported by PowerPC e300 family. */
161 #define PPC_OPCODE_E300 0x2000000
162
163 /* Opcode is only supported by Power6 architecture. */
164 #define PPC_OPCODE_POWER6 0x4000000
165
166 /* Opcode is only supported by PowerPC Cell family. */
167 #define PPC_OPCODE_CELL 0x8000000
168
169 /* A macro to extract the major opcode from an instruction. */
170 #define PPC_OP(i) (((i) >> 26) & 0x3f)
171
172 /* The operands table is an array of struct powerpc_operand. */
173
174 struct powerpc_operand
175 {
176 /* A bitmask of bits in the operand. */
177 unsigned int bitm;
178
179 /* How far the operand is left shifted in the instruction.
180 -1 to indicate that BITM and SHIFT cannot be used to determine
181 where the operand goes in the insn. */
182 int shift;
183
184 /* Insertion function. This is used by the assembler. To insert an
185 operand value into an instruction, check this field.
186
187 If it is NULL, execute
188 i |= (op & o->bitm) << o->shift;
189 (i is the instruction which we are filling in, o is a pointer to
190 this structure, and op is the operand value).
191
192 If this field is not NULL, then simply call it with the
193 instruction and the operand value. It will return the new value
194 of the instruction. If the ERRMSG argument is not NULL, then if
195 the operand value is illegal, *ERRMSG will be set to a warning
196 string (the operand will be inserted in any case). If the
197 operand value is legal, *ERRMSG will be unchanged (most operands
198 can accept any value). */
199 unsigned long (*insert)
200 (unsigned long instruction, long op, int dialect, const char **errmsg);
201
202 /* Extraction function. This is used by the disassembler. To
203 extract this operand type from an instruction, check this field.
204
205 If it is NULL, compute
206 op = (i >> o->shift) & o->bitm;
207 if ((o->flags & PPC_OPERAND_SIGNED) != 0)
208 sign_extend (op);
209 (i is the instruction, o is a pointer to this structure, and op
210 is the result).
211
212 If this field is not NULL, then simply call it with the
213 instruction value. It will return the value of the operand. If
214 the INVALID argument is not NULL, *INVALID will be set to
215 non-zero if this operand type can not actually be extracted from
216 this operand (i.e., the instruction does not match). If the
217 operand is valid, *INVALID will not be changed. */
218 long (*extract) (unsigned long instruction, int dialect, int *invalid);
219
220 /* One bit syntax flags. */
221 unsigned long flags;
222 };
223
224 /* Elements in the table are retrieved by indexing with values from
225 the operands field of the powerpc_opcodes table. */
226
227 extern const struct powerpc_operand powerpc_operands[];
228 extern const unsigned int num_powerpc_operands;
229
230 /* Values defined for the flags field of a struct powerpc_operand. */
231
232 /* This operand takes signed values. */
233 #define PPC_OPERAND_SIGNED (0x1)
234
235 /* This operand takes signed values, but also accepts a full positive
236 range of values when running in 32 bit mode. That is, if bits is
237 16, it takes any value from -0x8000 to 0xffff. In 64 bit mode,
238 this flag is ignored. */
239 #define PPC_OPERAND_SIGNOPT (0x2)
240
241 /* This operand does not actually exist in the assembler input. This
242 is used to support extended mnemonics such as mr, for which two
243 operands fields are identical. The assembler should call the
244 insert function with any op value. The disassembler should call
245 the extract function, ignore the return value, and check the value
246 placed in the valid argument. */
247 #define PPC_OPERAND_FAKE (0x4)
248
249 /* The next operand should be wrapped in parentheses rather than
250 separated from this one by a comma. This is used for the load and
251 store instructions which want their operands to look like
252 reg,displacement(reg)
253 */
254 #define PPC_OPERAND_PARENS (0x8)
255
256 /* This operand may use the symbolic names for the CR fields, which
257 are
258 lt 0 gt 1 eq 2 so 3 un 3
259 cr0 0 cr1 1 cr2 2 cr3 3
260 cr4 4 cr5 5 cr6 6 cr7 7
261 These may be combined arithmetically, as in cr2*4+gt. These are
262 only supported on the PowerPC, not the POWER. */
263 #define PPC_OPERAND_CR (0x10)
264
265 /* This operand names a register. The disassembler uses this to print
266 register names with a leading 'r'. */
267 #define PPC_OPERAND_GPR (0x20)
268
269 /* Like PPC_OPERAND_GPR, but don't print a leading 'r' for r0. */
270 #define PPC_OPERAND_GPR_0 (0x40)
271
272 /* This operand names a floating point register. The disassembler
273 prints these with a leading 'f'. */
274 #define PPC_OPERAND_FPR (0x80)
275
276 /* This operand is a relative branch displacement. The disassembler
277 prints these symbolically if possible. */
278 #define PPC_OPERAND_RELATIVE (0x100)
279
280 /* This operand is an absolute branch address. The disassembler
281 prints these symbolically if possible. */
282 #define PPC_OPERAND_ABSOLUTE (0x200)
283
284 /* This operand is optional, and is zero if omitted. This is used for
285 example, in the optional BF field in the comparison instructions. The
286 assembler must count the number of operands remaining on the line,
287 and the number of operands remaining for the opcode, and decide
288 whether this operand is present or not. The disassembler should
289 print this operand out only if it is not zero. */
290 #define PPC_OPERAND_OPTIONAL (0x400)
291
292 /* This flag is only used with PPC_OPERAND_OPTIONAL. If this operand
293 is omitted, then for the next operand use this operand value plus
294 1, ignoring the next operand field for the opcode. This wretched
295 hack is needed because the Power rotate instructions can take
296 either 4 or 5 operands. The disassembler should print this operand
297 out regardless of the PPC_OPERAND_OPTIONAL field. */
298 #define PPC_OPERAND_NEXT (0x800)
299
300 /* This operand should be regarded as a negative number for the
301 purposes of overflow checking (i.e., the normal most negative
302 number is disallowed and one more than the normal most positive
303 number is allowed). This flag will only be set for a signed
304 operand. */
305 #define PPC_OPERAND_NEGATIVE (0x1000)
306
307 /* This operand names a vector unit register. The disassembler
308 prints these with a leading 'v'. */
309 #define PPC_OPERAND_VR (0x2000)
310
311 /* This operand is for the DS field in a DS form instruction. */
312 #define PPC_OPERAND_DS (0x4000)
313
314 /* This operand is for the DQ field in a DQ form instruction. */
315 #define PPC_OPERAND_DQ (0x8000)
316
317 /* Valid range of operand is 0..n rather than 0..n-1. */
318 #define PPC_OPERAND_PLUS1 (0x10000)
319
320 /* The POWER and PowerPC assemblers use a few macros. We keep them
321 with the operands table for simplicity. The macro table is an
322 array of struct powerpc_macro. */
323
324 struct powerpc_macro
325 {
326 /* The macro name. */
327 const char *name;
328
329 /* The number of operands the macro takes. */
330 unsigned int operands;
331
332 /* One bit flags for the opcode. These are used to indicate which
333 specific processors support the instructions. The values are the
334 same as those for the struct powerpc_opcode flags field. */
335 unsigned long flags;
336
337 /* A format string to turn the macro into a normal instruction.
338 Each %N in the string is replaced with operand number N (zero
339 based). */
340 const char *format;
341 };
342
343 extern const struct powerpc_macro powerpc_macros[];
344 extern const int powerpc_num_macros;
345
346 /* ppc-opc.c -- PowerPC opcode list
347 Copyright 1994, 1995, 1996, 1997, 1998, 2000, 2001, 2002, 2003, 2004,
348 2005, 2006, 2007 Free Software Foundation, Inc.
349 Written by Ian Lance Taylor, Cygnus Support
350
351 This file is part of GDB, GAS, and the GNU binutils.
352
353 GDB, GAS, and the GNU binutils are free software; you can redistribute
354 them and/or modify them under the terms of the GNU General Public
355 License as published by the Free Software Foundation; either version
356 2, or (at your option) any later version.
357
358 GDB, GAS, and the GNU binutils are distributed in the hope that they
359 will be useful, but WITHOUT ANY WARRANTY; without even the implied
360 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
361 the GNU General Public License for more details.
362
363 You should have received a copy of the GNU General Public License
364 along with this file; see the file COPYING.
365 If not, see <http://www.gnu.org/licenses/>. */
366
367 /* This file holds the PowerPC opcode table. The opcode table
368 includes almost all of the extended instruction mnemonics. This
369 permits the disassembler to use them, and simplifies the assembler
370 logic, at the cost of increasing the table size. The table is
371 strictly constant data, so the compiler should be able to put it in
372 the .text section.
373
374 This file also holds the operand table. All knowledge about
375 inserting operands into instructions and vice-versa is kept in this
376 file. */
377
378 /* Local insertion and extraction functions. */
379
380 static unsigned long insert_bat (unsigned long, long, int, const char **);
381 static long extract_bat (unsigned long, int, int *);
382 static unsigned long insert_bba (unsigned long, long, int, const char **);
383 static long extract_bba (unsigned long, int, int *);
384 static unsigned long insert_bdm (unsigned long, long, int, const char **);
385 static long extract_bdm (unsigned long, int, int *);
386 static unsigned long insert_bdp (unsigned long, long, int, const char **);
387 static long extract_bdp (unsigned long, int, int *);
388 static unsigned long insert_bo (unsigned long, long, int, const char **);
389 static long extract_bo (unsigned long, int, int *);
390 static unsigned long insert_boe (unsigned long, long, int, const char **);
391 static long extract_boe (unsigned long, int, int *);
392 static unsigned long insert_fxm (unsigned long, long, int, const char **);
393 static long extract_fxm (unsigned long, int, int *);
394 static unsigned long insert_mbe (unsigned long, long, int, const char **);
395 static long extract_mbe (unsigned long, int, int *);
396 static unsigned long insert_mb6 (unsigned long, long, int, const char **);
397 static long extract_mb6 (unsigned long, int, int *);
398 static long extract_nb (unsigned long, int, int *);
399 static unsigned long insert_nsi (unsigned long, long, int, const char **);
400 static long extract_nsi (unsigned long, int, int *);
401 static unsigned long insert_ral (unsigned long, long, int, const char **);
402 static unsigned long insert_ram (unsigned long, long, int, const char **);
403 static unsigned long insert_raq (unsigned long, long, int, const char **);
404 static unsigned long insert_ras (unsigned long, long, int, const char **);
405 static unsigned long insert_rbs (unsigned long, long, int, const char **);
406 static long extract_rbs (unsigned long, int, int *);
407 static unsigned long insert_sh6 (unsigned long, long, int, const char **);
408 static long extract_sh6 (unsigned long, int, int *);
409 static unsigned long insert_spr (unsigned long, long, int, const char **);
410 static long extract_spr (unsigned long, int, int *);
411 static unsigned long insert_sprg (unsigned long, long, int, const char **);
412 static long extract_sprg (unsigned long, int, int *);
413 static unsigned long insert_tbr (unsigned long, long, int, const char **);
414 static long extract_tbr (unsigned long, int, int *);
415
416 /* The operands table.
417
418 The fields are bitm, shift, insert, extract, flags.
419
420 We used to put parens around the various additions, like the one
421 for BA just below. However, that caused trouble with feeble
422 compilers with a limit on depth of a parenthesized expression, like
423 (reportedly) the compiler in Microsoft Developer Studio 5. So we
424 omit the parens, since the macros are never used in a context where
425 the addition will be ambiguous. */
426
427 const struct powerpc_operand powerpc_operands[] =
428 {
429 /* The zero index is used to indicate the end of the list of
430 operands. */
431 #define UNUSED 0
432 { 0, 0, NULL, NULL, 0 },
433
434 /* The BA field in an XL form instruction. */
435 #define BA UNUSED + 1
436 /* The BI field in a B form or XL form instruction. */
437 #define BI BA
438 #define BI_MASK (0x1f << 16)
439 { 0x1f, 16, NULL, NULL, PPC_OPERAND_CR },
440
441 /* The BA field in an XL form instruction when it must be the same
442 as the BT field in the same instruction. */
443 #define BAT BA + 1
444 { 0x1f, 16, insert_bat, extract_bat, PPC_OPERAND_FAKE },
445
446 /* The BB field in an XL form instruction. */
447 #define BB BAT + 1
448 #define BB_MASK (0x1f << 11)
449 { 0x1f, 11, NULL, NULL, PPC_OPERAND_CR },
450
451 /* The BB field in an XL form instruction when it must be the same
452 as the BA field in the same instruction. */
453 #define BBA BB + 1
454 { 0x1f, 11, insert_bba, extract_bba, PPC_OPERAND_FAKE },
455
456 /* The BD field in a B form instruction. The lower two bits are
457 forced to zero. */
458 #define BD BBA + 1
459 { 0xfffc, 0, NULL, NULL, PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
460
461 /* The BD field in a B form instruction when absolute addressing is
462 used. */
463 #define BDA BD + 1
464 { 0xfffc, 0, NULL, NULL, PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
465
466 /* The BD field in a B form instruction when the - modifier is used.
467 This sets the y bit of the BO field appropriately. */
468 #define BDM BDA + 1
469 { 0xfffc, 0, insert_bdm, extract_bdm,
470 PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
471
472 /* The BD field in a B form instruction when the - modifier is used
473 and absolute address is used. */
474 #define BDMA BDM + 1
475 { 0xfffc, 0, insert_bdm, extract_bdm,
476 PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
477
478 /* The BD field in a B form instruction when the + modifier is used.
479 This sets the y bit of the BO field appropriately. */
480 #define BDP BDMA + 1
481 { 0xfffc, 0, insert_bdp, extract_bdp,
482 PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
483
484 /* The BD field in a B form instruction when the + modifier is used
485 and absolute addressing is used. */
486 #define BDPA BDP + 1
487 { 0xfffc, 0, insert_bdp, extract_bdp,
488 PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
489
490 /* The BF field in an X or XL form instruction. */
491 #define BF BDPA + 1
492 /* The CRFD field in an X form instruction. */
493 #define CRFD BF
494 { 0x7, 23, NULL, NULL, PPC_OPERAND_CR },
495
496 /* The BF field in an X or XL form instruction. */
497 #define BFF BF + 1
498 { 0x7, 23, NULL, NULL, 0 },
499
500 /* An optional BF field. This is used for comparison instructions,
501 in which an omitted BF field is taken as zero. */
502 #define OBF BFF + 1
503 { 0x7, 23, NULL, NULL, PPC_OPERAND_CR | PPC_OPERAND_OPTIONAL },
504
505 /* The BFA field in an X or XL form instruction. */
506 #define BFA OBF + 1
507 { 0x7, 18, NULL, NULL, PPC_OPERAND_CR },
508
509 /* The BO field in a B form instruction. Certain values are
510 illegal. */
511 #define BO BFA + 1
512 #define BO_MASK (0x1f << 21)
513 { 0x1f, 21, insert_bo, extract_bo, 0 },
514
515 /* The BO field in a B form instruction when the + or - modifier is
516 used. This is like the BO field, but it must be even. */
517 #define BOE BO + 1
518 { 0x1e, 21, insert_boe, extract_boe, 0 },
519
520 #define BH BOE + 1
521 { 0x3, 11, NULL, NULL, PPC_OPERAND_OPTIONAL },
522
523 /* The BT field in an X or XL form instruction. */
524 #define BT BH + 1
525 { 0x1f, 21, NULL, NULL, PPC_OPERAND_CR },
526
527 /* The condition register number portion of the BI field in a B form
528 or XL form instruction. This is used for the extended
529 conditional branch mnemonics, which set the lower two bits of the
530 BI field. This field is optional. */
531 #define CR BT + 1
532 { 0x7, 18, NULL, NULL, PPC_OPERAND_CR | PPC_OPERAND_OPTIONAL },
533
534 /* The CRB field in an X form instruction. */
535 #define CRB CR + 1
536 /* The MB field in an M form instruction. */
537 #define MB CRB
538 #define MB_MASK (0x1f << 6)
539 { 0x1f, 6, NULL, NULL, 0 },
540
541 /* The CRFS field in an X form instruction. */
542 #define CRFS CRB + 1
543 { 0x7, 0, NULL, NULL, PPC_OPERAND_CR },
544
545 /* The CT field in an X form instruction. */
546 #define CT CRFS + 1
547 /* The MO field in an mbar instruction. */
548 #define MO CT
549 { 0x1f, 21, NULL, NULL, PPC_OPERAND_OPTIONAL },
550
551 /* The D field in a D form instruction. This is a displacement off
552 a register, and implies that the next operand is a register in
553 parentheses. */
554 #define D CT + 1
555 { 0xffff, 0, NULL, NULL, PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED },
556
557 /* The DE field in a DE form instruction. This is like D, but is 12
558 bits only. */
559 #define DE D + 1
560 { 0xfff, 4, NULL, NULL, PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED },
561
562 /* The DES field in a DES form instruction. This is like DS, but is 14
563 bits only (12 stored.) */
564 #define DES DE + 1
565 { 0x3ffc, 2, NULL, NULL, PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED },
566
567 /* The DQ field in a DQ form instruction. This is like D, but the
568 lower four bits are forced to zero. */
569 #define DQ DES + 1
570 { 0xfff0, 0, NULL, NULL,
571 PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED | PPC_OPERAND_DQ },
572
573 /* The DS field in a DS form instruction. This is like D, but the
574 lower two bits are forced to zero. */
575 #undef DS
576 #define DS DQ + 1
577 { 0xfffc, 0, NULL, NULL,
578 PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED | PPC_OPERAND_DS },
579
580 /* The E field in a wrteei instruction. */
581 #define E DS + 1
582 { 0x1, 15, NULL, NULL, 0 },
583
584 /* The FL1 field in a POWER SC form instruction. */
585 #define FL1 E + 1
586 /* The U field in an X form instruction. */
587 #define U FL1
588 { 0xf, 12, NULL, NULL, 0 },
589
590 /* The FL2 field in a POWER SC form instruction. */
591 #define FL2 FL1 + 1
592 { 0x7, 2, NULL, NULL, 0 },
593
594 /* The FLM field in an XFL form instruction. */
595 #define FLM FL2 + 1
596 { 0xff, 17, NULL, NULL, 0 },
597
598 /* The FRA field in an X or A form instruction. */
599 #define FRA FLM + 1
600 #define FRA_MASK (0x1f << 16)
601 { 0x1f, 16, NULL, NULL, PPC_OPERAND_FPR },
602
603 /* The FRB field in an X or A form instruction. */
604 #define FRB FRA + 1
605 #define FRB_MASK (0x1f << 11)
606 { 0x1f, 11, NULL, NULL, PPC_OPERAND_FPR },
607
608 /* The FRC field in an A form instruction. */
609 #define FRC FRB + 1
610 #define FRC_MASK (0x1f << 6)
611 { 0x1f, 6, NULL, NULL, PPC_OPERAND_FPR },
612
613 /* The FRS field in an X form instruction or the FRT field in a D, X
614 or A form instruction. */
615 #define FRS FRC + 1
616 #define FRT FRS
617 { 0x1f, 21, NULL, NULL, PPC_OPERAND_FPR },
618
619 /* The FXM field in an XFX instruction. */
620 #define FXM FRS + 1
621 { 0xff, 12, insert_fxm, extract_fxm, 0 },
622
623 /* Power4 version for mfcr. */
624 #define FXM4 FXM + 1
625 { 0xff, 12, insert_fxm, extract_fxm, PPC_OPERAND_OPTIONAL },
626
627 /* The L field in a D or X form instruction. */
628 #define L FXM4 + 1
629 { 0x1, 21, NULL, NULL, PPC_OPERAND_OPTIONAL },
630
631 /* The LEV field in a POWER SVC form instruction. */
632 #define SVC_LEV L + 1
633 { 0x7f, 5, NULL, NULL, 0 },
634
635 /* The LEV field in an SC form instruction. */
636 #define LEV SVC_LEV + 1
637 { 0x7f, 5, NULL, NULL, PPC_OPERAND_OPTIONAL },
638
639 /* The LI field in an I form instruction. The lower two bits are
640 forced to zero. */
641 #define LI LEV + 1
642 { 0x3fffffc, 0, NULL, NULL, PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
643
644 /* The LI field in an I form instruction when used as an absolute
645 address. */
646 #define LIA LI + 1
647 { 0x3fffffc, 0, NULL, NULL, PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
648
649 /* The LS field in an X (sync) form instruction. */
650 #define LS LIA + 1
651 { 0x3, 21, NULL, NULL, PPC_OPERAND_OPTIONAL },
652
653 /* The ME field in an M form instruction. */
654 #define ME LS + 1
655 #define ME_MASK (0x1f << 1)
656 { 0x1f, 1, NULL, NULL, 0 },
657
658 /* The MB and ME fields in an M form instruction expressed a single
659 operand which is a bitmask indicating which bits to select. This
660 is a two operand form using PPC_OPERAND_NEXT. See the
661 description in opcode/ppc.h for what this means. */
662 #define MBE ME + 1
663 { 0x1f, 6, NULL, NULL, PPC_OPERAND_OPTIONAL | PPC_OPERAND_NEXT },
664 { -1, 0, insert_mbe, extract_mbe, 0 },
665
666 /* The MB or ME field in an MD or MDS form instruction. The high
667 bit is wrapped to the low end. */
668 #define MB6 MBE + 2
669 #define ME6 MB6
670 #define MB6_MASK (0x3f << 5)
671 { 0x3f, 5, insert_mb6, extract_mb6, 0 },
672
673 /* The NB field in an X form instruction. The value 32 is stored as
674 0. */
675 #define NB MB6 + 1
676 { 0x1f, 11, NULL, extract_nb, PPC_OPERAND_PLUS1 },
677
678 /* The NSI field in a D form instruction. This is the same as the
679 SI field, only negated. */
680 #define NSI NB + 1
681 { 0xffff, 0, insert_nsi, extract_nsi,
682 PPC_OPERAND_NEGATIVE | PPC_OPERAND_SIGNED },
683
684 /* The RA field in an D, DS, DQ, X, XO, M, or MDS form instruction. */
685 #define RA NSI + 1
686 #define RA_MASK (0x1f << 16)
687 { 0x1f, 16, NULL, NULL, PPC_OPERAND_GPR },
688
689 /* As above, but 0 in the RA field means zero, not r0. */
690 #define RA0 RA + 1
691 { 0x1f, 16, NULL, NULL, PPC_OPERAND_GPR_0 },
692
693 /* The RA field in the DQ form lq instruction, which has special
694 value restrictions. */
695 #define RAQ RA0 + 1
696 { 0x1f, 16, insert_raq, NULL, PPC_OPERAND_GPR_0 },
697
698 /* The RA field in a D or X form instruction which is an updating
699 load, which means that the RA field may not be zero and may not
700 equal the RT field. */
701 #define RAL RAQ + 1
702 { 0x1f, 16, insert_ral, NULL, PPC_OPERAND_GPR_0 },
703
704 /* The RA field in an lmw instruction, which has special value
705 restrictions. */
706 #define RAM RAL + 1
707 { 0x1f, 16, insert_ram, NULL, PPC_OPERAND_GPR_0 },
708
709 /* The RA field in a D or X form instruction which is an updating
710 store or an updating floating point load, which means that the RA
711 field may not be zero. */
712 #define RAS RAM + 1
713 { 0x1f, 16, insert_ras, NULL, PPC_OPERAND_GPR_0 },
714
715 /* The RA field of the tlbwe instruction, which is optional. */
716 #define RAOPT RAS + 1
717 { 0x1f, 16, NULL, NULL, PPC_OPERAND_GPR | PPC_OPERAND_OPTIONAL },
718
719 /* The RB field in an X, XO, M, or MDS form instruction. */
720 #define RB RAOPT + 1
721 #define RB_MASK (0x1f << 11)
722 { 0x1f, 11, NULL, NULL, PPC_OPERAND_GPR },
723
724 /* The RB field in an X form instruction when it must be the same as
725 the RS field in the instruction. This is used for extended
726 mnemonics like mr. */
727 #define RBS RB + 1
728 { 0x1f, 11, insert_rbs, extract_rbs, PPC_OPERAND_FAKE },
729
730 /* The RS field in a D, DS, X, XFX, XS, M, MD or MDS form
731 instruction or the RT field in a D, DS, X, XFX or XO form
732 instruction. */
733 #define RS RBS + 1
734 #define RT RS
735 #define RT_MASK (0x1f << 21)
736 { 0x1f, 21, NULL, NULL, PPC_OPERAND_GPR },
737
738 /* The RS and RT fields of the DS form stq instruction, which have
739 special value restrictions. */
740 #define RSQ RS + 1
741 #define RTQ RSQ
742 { 0x1e, 21, NULL, NULL, PPC_OPERAND_GPR_0 },
743
744 /* The RS field of the tlbwe instruction, which is optional. */
745 #define RSO RSQ + 1
746 #define RTO RSO
747 { 0x1f, 21, NULL, NULL, PPC_OPERAND_GPR | PPC_OPERAND_OPTIONAL },
748
749 /* The SH field in an X or M form instruction. */
750 #define SH RSO + 1
751 #define SH_MASK (0x1f << 11)
752 /* The other UIMM field in a EVX form instruction. */
753 #define EVUIMM SH
754 { 0x1f, 11, NULL, NULL, 0 },
755
756 /* The SH field in an MD form instruction. This is split. */
757 #define SH6 SH + 1
758 #define SH6_MASK ((0x1f << 11) | (1 << 1))
759 { 0x3f, -1, insert_sh6, extract_sh6, 0 },
760
761 /* The SH field of the tlbwe instruction, which is optional. */
762 #define SHO SH6 + 1
763 { 0x1f, 11, NULL, NULL, PPC_OPERAND_OPTIONAL },
764
765 /* The SI field in a D form instruction. */
766 #define SI SHO + 1
767 { 0xffff, 0, NULL, NULL, PPC_OPERAND_SIGNED },
768
769 /* The SI field in a D form instruction when we accept a wide range
770 of positive values. */
771 #define SISIGNOPT SI + 1
772 { 0xffff, 0, NULL, NULL, PPC_OPERAND_SIGNED | PPC_OPERAND_SIGNOPT },
773
774 /* The SPR field in an XFX form instruction. This is flipped--the
775 lower 5 bits are stored in the upper 5 and vice- versa. */
776 #define SPR SISIGNOPT + 1
777 #define PMR SPR
778 #define SPR_MASK (0x3ff << 11)
779 { 0x3ff, 11, insert_spr, extract_spr, 0 },
780
781 /* The BAT index number in an XFX form m[ft]ibat[lu] instruction. */
782 #define SPRBAT SPR + 1
783 #define SPRBAT_MASK (0x3 << 17)
784 { 0x3, 17, NULL, NULL, 0 },
785
786 /* The SPRG register number in an XFX form m[ft]sprg instruction. */
787 #define SPRG SPRBAT + 1
788 { 0x1f, 16, insert_sprg, extract_sprg, 0 },
789
790 /* The SR field in an X form instruction. */
791 #define SR SPRG + 1
792 { 0xf, 16, NULL, NULL, 0 },
793
794 /* The STRM field in an X AltiVec form instruction. */
795 #define STRM SR + 1
796 { 0x3, 21, NULL, NULL, 0 },
797
798 /* The SV field in a POWER SC form instruction. */
799 #define SV STRM + 1
800 { 0x3fff, 2, NULL, NULL, 0 },
801
802 /* The TBR field in an XFX form instruction. This is like the SPR
803 field, but it is optional. */
804 #define TBR SV + 1
805 { 0x3ff, 11, insert_tbr, extract_tbr, PPC_OPERAND_OPTIONAL },
806
807 /* The TO field in a D or X form instruction. */
808 #define TO TBR + 1
809 #define TO_MASK (0x1f << 21)
810 { 0x1f, 21, NULL, NULL, 0 },
811
812 /* The UI field in a D form instruction. */
813 #define UI TO + 1
814 { 0xffff, 0, NULL, NULL, 0 },
815
816 /* The VA field in a VA, VX or VXR form instruction. */
817 #define VA UI + 1
818 { 0x1f, 16, NULL, NULL, PPC_OPERAND_VR },
819
820 /* The VB field in a VA, VX or VXR form instruction. */
821 #define VB VA + 1
822 { 0x1f, 11, NULL, NULL, PPC_OPERAND_VR },
823
824 /* The VC field in a VA form instruction. */
825 #define VC VB + 1
826 { 0x1f, 6, NULL, NULL, PPC_OPERAND_VR },
827
828 /* The VD or VS field in a VA, VX, VXR or X form instruction. */
829 #define VD VC + 1
830 #define VS VD
831 { 0x1f, 21, NULL, NULL, PPC_OPERAND_VR },
832
833 /* The SIMM field in a VX form instruction. */
834 #define SIMM VD + 1
835 { 0x1f, 16, NULL, NULL, PPC_OPERAND_SIGNED},
836
837 /* The UIMM field in a VX form instruction, and TE in Z form. */
838 #define UIMM SIMM + 1
839 #define TE UIMM
840 { 0x1f, 16, NULL, NULL, 0 },
841
842 /* The SHB field in a VA form instruction. */
843 #define SHB UIMM + 1
844 { 0xf, 6, NULL, NULL, 0 },
845
846 /* The other UIMM field in a half word EVX form instruction. */
847 #define EVUIMM_2 SHB + 1
848 { 0x3e, 10, NULL, NULL, PPC_OPERAND_PARENS },
849
850 /* The other UIMM field in a word EVX form instruction. */
851 #define EVUIMM_4 EVUIMM_2 + 1
852 { 0x7c, 9, NULL, NULL, PPC_OPERAND_PARENS },
853
854 /* The other UIMM field in a double EVX form instruction. */
855 #define EVUIMM_8 EVUIMM_4 + 1
856 { 0xf8, 8, NULL, NULL, PPC_OPERAND_PARENS },
857
858 /* The WS field. */
859 #define WS EVUIMM_8 + 1
860 { 0x7, 11, NULL, NULL, 0 },
861
862 /* The L field in an mtmsrd or A form instruction or W in an X form. */
863 #define A_L WS + 1
864 #define W A_L
865 { 0x1, 16, NULL, NULL, PPC_OPERAND_OPTIONAL },
866
867 #define RMC A_L + 1
868 { 0x3, 9, NULL, NULL, 0 },
869
870 #define R RMC + 1
871 { 0x1, 16, NULL, NULL, 0 },
872
873 #define SP R + 1
874 { 0x3, 19, NULL, NULL, 0 },
875
876 #define S SP + 1
877 { 0x1, 20, NULL, NULL, 0 },
878
879 /* SH field starting at bit position 16. */
880 #define SH16 S + 1
881 /* The DCM and DGM fields in a Z form instruction. */
882 #define DCM SH16
883 #define DGM DCM
884 { 0x3f, 10, NULL, NULL, 0 },
885
886 /* The EH field in larx instruction. */
887 #define EH SH16 + 1
888 { 0x1, 0, NULL, NULL, PPC_OPERAND_OPTIONAL },
889
890 /* The L field in an mtfsf or XFL form instruction. */
891 #define XFL_L EH + 1
892 { 0x1, 25, NULL, NULL, PPC_OPERAND_OPTIONAL},
893 };
894
895 const unsigned int num_powerpc_operands = (sizeof (powerpc_operands)
896 / sizeof (powerpc_operands[0]));
897
898 /* The functions used to insert and extract complicated operands. */
899
900 /* The BA field in an XL form instruction when it must be the same as
901 the BT field in the same instruction. This operand is marked FAKE.
902 The insertion function just copies the BT field into the BA field,
903 and the extraction function just checks that the fields are the
904 same. */
905
906 static unsigned long
insert_bat(unsigned long insn,long value ATTRIBUTE_UNUSED,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)907 insert_bat (unsigned long insn,
908 long value ATTRIBUTE_UNUSED,
909 int dialect ATTRIBUTE_UNUSED,
910 const char **errmsg ATTRIBUTE_UNUSED)
911 {
912 return insn | (((insn >> 21) & 0x1f) << 16);
913 }
914
915 static long
extract_bat(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid)916 extract_bat (unsigned long insn,
917 int dialect ATTRIBUTE_UNUSED,
918 int *invalid)
919 {
920 if (((insn >> 21) & 0x1f) != ((insn >> 16) & 0x1f))
921 *invalid = 1;
922 return 0;
923 }
924
925 /* The BB field in an XL form instruction when it must be the same as
926 the BA field in the same instruction. This operand is marked FAKE.
927 The insertion function just copies the BA field into the BB field,
928 and the extraction function just checks that the fields are the
929 same. */
930
931 static unsigned long
insert_bba(unsigned long insn,long value ATTRIBUTE_UNUSED,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)932 insert_bba (unsigned long insn,
933 long value ATTRIBUTE_UNUSED,
934 int dialect ATTRIBUTE_UNUSED,
935 const char **errmsg ATTRIBUTE_UNUSED)
936 {
937 return insn | (((insn >> 16) & 0x1f) << 11);
938 }
939
940 static long
extract_bba(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid)941 extract_bba (unsigned long insn,
942 int dialect ATTRIBUTE_UNUSED,
943 int *invalid)
944 {
945 if (((insn >> 16) & 0x1f) != ((insn >> 11) & 0x1f))
946 *invalid = 1;
947 return 0;
948 }
949
950 /* The BD field in a B form instruction when the - modifier is used.
951 This modifier means that the branch is not expected to be taken.
952 For chips built to versions of the architecture prior to version 2
953 (ie. not Power4 compatible), we set the y bit of the BO field to 1
954 if the offset is negative. When extracting, we require that the y
955 bit be 1 and that the offset be positive, since if the y bit is 0
956 we just want to print the normal form of the instruction.
957 Power4 compatible targets use two bits, "a", and "t", instead of
958 the "y" bit. "at" == 00 => no hint, "at" == 01 => unpredictable,
959 "at" == 10 => not taken, "at" == 11 => taken. The "t" bit is 00001
960 in BO field, the "a" bit is 00010 for branch on CR(BI) and 01000
961 for branch on CTR. We only handle the taken/not-taken hint here.
962 Note that we don't relax the conditions tested here when
963 disassembling with -Many because insns using extract_bdm and
964 extract_bdp always occur in pairs. One or the other will always
965 be valid. */
966
967 static unsigned long
insert_bdm(unsigned long insn,long value,int dialect,const char ** errmsg ATTRIBUTE_UNUSED)968 insert_bdm (unsigned long insn,
969 long value,
970 int dialect,
971 const char **errmsg ATTRIBUTE_UNUSED)
972 {
973 if ((dialect & PPC_OPCODE_POWER4) == 0)
974 {
975 if ((value & 0x8000) != 0)
976 insn |= 1 << 21;
977 }
978 else
979 {
980 if ((insn & (0x14 << 21)) == (0x04 << 21))
981 insn |= 0x02 << 21;
982 else if ((insn & (0x14 << 21)) == (0x10 << 21))
983 insn |= 0x08 << 21;
984 }
985 return insn | (value & 0xfffc);
986 }
987
988 static long
extract_bdm(unsigned long insn,int dialect,int * invalid)989 extract_bdm (unsigned long insn,
990 int dialect,
991 int *invalid)
992 {
993 if ((dialect & PPC_OPCODE_POWER4) == 0)
994 {
995 if (((insn & (1 << 21)) == 0) != ((insn & (1 << 15)) == 0))
996 *invalid = 1;
997 }
998 else
999 {
1000 if ((insn & (0x17 << 21)) != (0x06 << 21)
1001 && (insn & (0x1d << 21)) != (0x18 << 21))
1002 *invalid = 1;
1003 }
1004
1005 return ((insn & 0xfffc) ^ 0x8000) - 0x8000;
1006 }
1007
1008 /* The BD field in a B form instruction when the + modifier is used.
1009 This is like BDM, above, except that the branch is expected to be
1010 taken. */
1011
1012 static unsigned long
insert_bdp(unsigned long insn,long value,int dialect,const char ** errmsg ATTRIBUTE_UNUSED)1013 insert_bdp (unsigned long insn,
1014 long value,
1015 int dialect,
1016 const char **errmsg ATTRIBUTE_UNUSED)
1017 {
1018 if ((dialect & PPC_OPCODE_POWER4) == 0)
1019 {
1020 if ((value & 0x8000) == 0)
1021 insn |= 1 << 21;
1022 }
1023 else
1024 {
1025 if ((insn & (0x14 << 21)) == (0x04 << 21))
1026 insn |= 0x03 << 21;
1027 else if ((insn & (0x14 << 21)) == (0x10 << 21))
1028 insn |= 0x09 << 21;
1029 }
1030 return insn | (value & 0xfffc);
1031 }
1032
1033 static long
extract_bdp(unsigned long insn,int dialect,int * invalid)1034 extract_bdp (unsigned long insn,
1035 int dialect,
1036 int *invalid)
1037 {
1038 if ((dialect & PPC_OPCODE_POWER4) == 0)
1039 {
1040 if (((insn & (1 << 21)) == 0) == ((insn & (1 << 15)) == 0))
1041 *invalid = 1;
1042 }
1043 else
1044 {
1045 if ((insn & (0x17 << 21)) != (0x07 << 21)
1046 && (insn & (0x1d << 21)) != (0x19 << 21))
1047 *invalid = 1;
1048 }
1049
1050 return ((insn & 0xfffc) ^ 0x8000) - 0x8000;
1051 }
1052
1053 /* Check for legal values of a BO field. */
1054
1055 static int
valid_bo(long value,int dialect,int extract)1056 valid_bo (long value, int dialect, int extract)
1057 {
1058 if ((dialect & PPC_OPCODE_POWER4) == 0)
1059 {
1060 int valid;
1061 /* Certain encodings have bits that are required to be zero.
1062 These are (z must be zero, y may be anything):
1063 001zy
1064 011zy
1065 1z00y
1066 1z01y
1067 1z1zz
1068 */
1069 switch (value & 0x14)
1070 {
1071 default:
1072 case 0:
1073 valid = 1;
1074 break;
1075 case 0x4:
1076 valid = (value & 0x2) == 0;
1077 break;
1078 case 0x10:
1079 valid = (value & 0x8) == 0;
1080 break;
1081 case 0x14:
1082 valid = value == 0x14;
1083 break;
1084 }
1085 /* When disassembling with -Many, accept power4 encodings too. */
1086 if (valid
1087 || (dialect & PPC_OPCODE_ANY) == 0
1088 || !extract)
1089 return valid;
1090 }
1091
1092 /* Certain encodings have bits that are required to be zero.
1093 These are (z must be zero, a & t may be anything):
1094 0000z
1095 0001z
1096 0100z
1097 0101z
1098 001at
1099 011at
1100 1a00t
1101 1a01t
1102 1z1zz
1103 */
1104 if ((value & 0x14) == 0)
1105 return (value & 0x1) == 0;
1106 else if ((value & 0x14) == 0x14)
1107 return value == 0x14;
1108 else
1109 return 1;
1110 }
1111
1112 /* The BO field in a B form instruction. Warn about attempts to set
1113 the field to an illegal value. */
1114
1115 static unsigned long
insert_bo(unsigned long insn,long value,int dialect,const char ** errmsg)1116 insert_bo (unsigned long insn,
1117 long value,
1118 int dialect,
1119 const char **errmsg)
1120 {
1121 if (!valid_bo (value, dialect, 0))
1122 *errmsg = _("invalid conditional option");
1123 return insn | ((value & 0x1f) << 21);
1124 }
1125
1126 static long
extract_bo(unsigned long insn,int dialect,int * invalid)1127 extract_bo (unsigned long insn,
1128 int dialect,
1129 int *invalid)
1130 {
1131 long value;
1132
1133 value = (insn >> 21) & 0x1f;
1134 if (!valid_bo (value, dialect, 1))
1135 *invalid = 1;
1136 return value;
1137 }
1138
1139 /* The BO field in a B form instruction when the + or - modifier is
1140 used. This is like the BO field, but it must be even. When
1141 extracting it, we force it to be even. */
1142
1143 static unsigned long
insert_boe(unsigned long insn,long value,int dialect,const char ** errmsg)1144 insert_boe (unsigned long insn,
1145 long value,
1146 int dialect,
1147 const char **errmsg)
1148 {
1149 if (!valid_bo (value, dialect, 0))
1150 *errmsg = _("invalid conditional option");
1151 else if ((value & 1) != 0)
1152 *errmsg = _("attempt to set y bit when using + or - modifier");
1153
1154 return insn | ((value & 0x1f) << 21);
1155 }
1156
1157 static long
extract_boe(unsigned long insn,int dialect,int * invalid)1158 extract_boe (unsigned long insn,
1159 int dialect,
1160 int *invalid)
1161 {
1162 long value;
1163
1164 value = (insn >> 21) & 0x1f;
1165 if (!valid_bo (value, dialect, 1))
1166 *invalid = 1;
1167 return value & 0x1e;
1168 }
1169
1170 /* FXM mask in mfcr and mtcrf instructions. */
1171
1172 static unsigned long
insert_fxm(unsigned long insn,long value,int dialect,const char ** errmsg)1173 insert_fxm (unsigned long insn,
1174 long value,
1175 int dialect,
1176 const char **errmsg)
1177 {
1178 /* If we're handling the mfocrf and mtocrf insns ensure that exactly
1179 one bit of the mask field is set. */
1180 if ((insn & (1 << 20)) != 0)
1181 {
1182 if (value == 0 || (value & -value) != value)
1183 {
1184 *errmsg = _("invalid mask field");
1185 value = 0;
1186 }
1187 }
1188
1189 /* If the optional field on mfcr is missing that means we want to use
1190 the old form of the instruction that moves the whole cr. In that
1191 case we'll have VALUE zero. There doesn't seem to be a way to
1192 distinguish this from the case where someone writes mfcr %r3,0. */
1193 else if (value == 0)
1194 ;
1195
1196 /* If only one bit of the FXM field is set, we can use the new form
1197 of the instruction, which is faster. Unlike the Power4 branch hint
1198 encoding, this is not backward compatible. Do not generate the
1199 new form unless -mpower4 has been given, or -many and the two
1200 operand form of mfcr was used. */
1201 else if ((value & -value) == value
1202 && ((dialect & PPC_OPCODE_POWER4) != 0
1203 || ((dialect & PPC_OPCODE_ANY) != 0
1204 && (insn & (0x3ff << 1)) == 19 << 1)))
1205 insn |= 1 << 20;
1206
1207 /* Any other value on mfcr is an error. */
1208 else if ((insn & (0x3ff << 1)) == 19 << 1)
1209 {
1210 *errmsg = _("ignoring invalid mfcr mask");
1211 value = 0;
1212 }
1213
1214 return insn | ((value & 0xff) << 12);
1215 }
1216
1217 static long
extract_fxm(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid)1218 extract_fxm (unsigned long insn,
1219 int dialect ATTRIBUTE_UNUSED,
1220 int *invalid)
1221 {
1222 long mask = (insn >> 12) & 0xff;
1223
1224 /* Is this a Power4 insn? */
1225 if ((insn & (1 << 20)) != 0)
1226 {
1227 /* Exactly one bit of MASK should be set. */
1228 if (mask == 0 || (mask & -mask) != mask)
1229 *invalid = 1;
1230 }
1231
1232 /* Check that non-power4 form of mfcr has a zero MASK. */
1233 else if ((insn & (0x3ff << 1)) == 19 << 1)
1234 {
1235 if (mask != 0)
1236 *invalid = 1;
1237 }
1238
1239 return mask;
1240 }
1241
1242 /* The MB and ME fields in an M form instruction expressed as a single
1243 operand which is itself a bitmask. The extraction function always
1244 marks it as invalid, since we never want to recognize an
1245 instruction which uses a field of this type. */
1246
1247 static unsigned long
insert_mbe(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg)1248 insert_mbe (unsigned long insn,
1249 long value,
1250 int dialect ATTRIBUTE_UNUSED,
1251 const char **errmsg)
1252 {
1253 unsigned long uval, mask;
1254 int mb, me, mx, count, last;
1255
1256 uval = value;
1257
1258 if (uval == 0)
1259 {
1260 *errmsg = _("illegal bitmask");
1261 return insn;
1262 }
1263
1264 mb = 0;
1265 me = 32;
1266 if ((uval & 1) != 0)
1267 last = 1;
1268 else
1269 last = 0;
1270 count = 0;
1271
1272 /* mb: location of last 0->1 transition */
1273 /* me: location of last 1->0 transition */
1274 /* count: # transitions */
1275
1276 for (mx = 0, mask = 1L << 31; mx < 32; ++mx, mask >>= 1)
1277 {
1278 if ((uval & mask) && !last)
1279 {
1280 ++count;
1281 mb = mx;
1282 last = 1;
1283 }
1284 else if (!(uval & mask) && last)
1285 {
1286 ++count;
1287 me = mx;
1288 last = 0;
1289 }
1290 }
1291 if (me == 0)
1292 me = 32;
1293
1294 if (count != 2 && (count != 0 || ! last))
1295 *errmsg = _("illegal bitmask");
1296
1297 return insn | (mb << 6) | ((me - 1) << 1);
1298 }
1299
1300 static long
extract_mbe(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid)1301 extract_mbe (unsigned long insn,
1302 int dialect ATTRIBUTE_UNUSED,
1303 int *invalid)
1304 {
1305 long ret;
1306 int mb, me;
1307 int i;
1308
1309 *invalid = 1;
1310
1311 mb = (insn >> 6) & 0x1f;
1312 me = (insn >> 1) & 0x1f;
1313 if (mb < me + 1)
1314 {
1315 ret = 0;
1316 for (i = mb; i <= me; i++)
1317 ret |= 1L << (31 - i);
1318 }
1319 else if (mb == me + 1)
1320 ret = ~0;
1321 else /* (mb > me + 1) */
1322 {
1323 ret = ~0;
1324 for (i = me + 1; i < mb; i++)
1325 ret &= ~(1L << (31 - i));
1326 }
1327 return ret;
1328 }
1329
1330 /* The MB or ME field in an MD or MDS form instruction. The high bit
1331 is wrapped to the low end. */
1332
1333 static unsigned long
insert_mb6(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)1334 insert_mb6 (unsigned long insn,
1335 long value,
1336 int dialect ATTRIBUTE_UNUSED,
1337 const char **errmsg ATTRIBUTE_UNUSED)
1338 {
1339 return insn | ((value & 0x1f) << 6) | (value & 0x20);
1340 }
1341
1342 static long
extract_mb6(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid ATTRIBUTE_UNUSED)1343 extract_mb6 (unsigned long insn,
1344 int dialect ATTRIBUTE_UNUSED,
1345 int *invalid ATTRIBUTE_UNUSED)
1346 {
1347 return ((insn >> 6) & 0x1f) | (insn & 0x20);
1348 }
1349
1350 /* The NB field in an X form instruction. The value 32 is stored as
1351 0. */
1352
1353 static long
extract_nb(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid ATTRIBUTE_UNUSED)1354 extract_nb (unsigned long insn,
1355 int dialect ATTRIBUTE_UNUSED,
1356 int *invalid ATTRIBUTE_UNUSED)
1357 {
1358 long ret;
1359
1360 ret = (insn >> 11) & 0x1f;
1361 if (ret == 0)
1362 ret = 32;
1363 return ret;
1364 }
1365
1366 /* The NSI field in a D form instruction. This is the same as the SI
1367 field, only negated. The extraction function always marks it as
1368 invalid, since we never want to recognize an instruction which uses
1369 a field of this type. */
1370
1371 static unsigned long
insert_nsi(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)1372 insert_nsi (unsigned long insn,
1373 long value,
1374 int dialect ATTRIBUTE_UNUSED,
1375 const char **errmsg ATTRIBUTE_UNUSED)
1376 {
1377 return insn | (-value & 0xffff);
1378 }
1379
1380 static long
extract_nsi(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid)1381 extract_nsi (unsigned long insn,
1382 int dialect ATTRIBUTE_UNUSED,
1383 int *invalid)
1384 {
1385 *invalid = 1;
1386 return -(((insn & 0xffff) ^ 0x8000) - 0x8000);
1387 }
1388
1389 /* The RA field in a D or X form instruction which is an updating
1390 load, which means that the RA field may not be zero and may not
1391 equal the RT field. */
1392
1393 static unsigned long
insert_ral(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg)1394 insert_ral (unsigned long insn,
1395 long value,
1396 int dialect ATTRIBUTE_UNUSED,
1397 const char **errmsg)
1398 {
1399 if (value == 0
1400 || (unsigned long) value == ((insn >> 21) & 0x1f))
1401 *errmsg = "invalid register operand when updating";
1402 return insn | ((value & 0x1f) << 16);
1403 }
1404
1405 /* The RA field in an lmw instruction, which has special value
1406 restrictions. */
1407
1408 static unsigned long
insert_ram(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg)1409 insert_ram (unsigned long insn,
1410 long value,
1411 int dialect ATTRIBUTE_UNUSED,
1412 const char **errmsg)
1413 {
1414 if ((unsigned long) value >= ((insn >> 21) & 0x1f))
1415 *errmsg = _("index register in load range");
1416 return insn | ((value & 0x1f) << 16);
1417 }
1418
1419 /* The RA field in the DQ form lq instruction, which has special
1420 value restrictions. */
1421
1422 static unsigned long
insert_raq(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg)1423 insert_raq (unsigned long insn,
1424 long value,
1425 int dialect ATTRIBUTE_UNUSED,
1426 const char **errmsg)
1427 {
1428 long rtvalue = (insn & RT_MASK) >> 21;
1429
1430 if (value == rtvalue)
1431 *errmsg = _("source and target register operands must be different");
1432 return insn | ((value & 0x1f) << 16);
1433 }
1434
1435 /* The RA field in a D or X form instruction which is an updating
1436 store or an updating floating point load, which means that the RA
1437 field may not be zero. */
1438
1439 static unsigned long
insert_ras(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg)1440 insert_ras (unsigned long insn,
1441 long value,
1442 int dialect ATTRIBUTE_UNUSED,
1443 const char **errmsg)
1444 {
1445 if (value == 0)
1446 *errmsg = _("invalid register operand when updating");
1447 return insn | ((value & 0x1f) << 16);
1448 }
1449
1450 /* The RB field in an X form instruction when it must be the same as
1451 the RS field in the instruction. This is used for extended
1452 mnemonics like mr. This operand is marked FAKE. The insertion
1453 function just copies the BT field into the BA field, and the
1454 extraction function just checks that the fields are the same. */
1455
1456 static unsigned long
insert_rbs(unsigned long insn,long value ATTRIBUTE_UNUSED,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)1457 insert_rbs (unsigned long insn,
1458 long value ATTRIBUTE_UNUSED,
1459 int dialect ATTRIBUTE_UNUSED,
1460 const char **errmsg ATTRIBUTE_UNUSED)
1461 {
1462 return insn | (((insn >> 21) & 0x1f) << 11);
1463 }
1464
1465 static long
extract_rbs(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid)1466 extract_rbs (unsigned long insn,
1467 int dialect ATTRIBUTE_UNUSED,
1468 int *invalid)
1469 {
1470 if (((insn >> 21) & 0x1f) != ((insn >> 11) & 0x1f))
1471 *invalid = 1;
1472 return 0;
1473 }
1474
1475 /* The SH field in an MD form instruction. This is split. */
1476
1477 static unsigned long
insert_sh6(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)1478 insert_sh6 (unsigned long insn,
1479 long value,
1480 int dialect ATTRIBUTE_UNUSED,
1481 const char **errmsg ATTRIBUTE_UNUSED)
1482 {
1483 return insn | ((value & 0x1f) << 11) | ((value & 0x20) >> 4);
1484 }
1485
1486 static long
extract_sh6(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid ATTRIBUTE_UNUSED)1487 extract_sh6 (unsigned long insn,
1488 int dialect ATTRIBUTE_UNUSED,
1489 int *invalid ATTRIBUTE_UNUSED)
1490 {
1491 return ((insn >> 11) & 0x1f) | ((insn << 4) & 0x20);
1492 }
1493
1494 /* The SPR field in an XFX form instruction. This is flipped--the
1495 lower 5 bits are stored in the upper 5 and vice- versa. */
1496
1497 static unsigned long
insert_spr(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)1498 insert_spr (unsigned long insn,
1499 long value,
1500 int dialect ATTRIBUTE_UNUSED,
1501 const char **errmsg ATTRIBUTE_UNUSED)
1502 {
1503 return insn | ((value & 0x1f) << 16) | ((value & 0x3e0) << 6);
1504 }
1505
1506 static long
extract_spr(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid ATTRIBUTE_UNUSED)1507 extract_spr (unsigned long insn,
1508 int dialect ATTRIBUTE_UNUSED,
1509 int *invalid ATTRIBUTE_UNUSED)
1510 {
1511 return ((insn >> 16) & 0x1f) | ((insn >> 6) & 0x3e0);
1512 }
1513
1514 /* Some dialects have 8 SPRG registers instead of the standard 4. */
1515
1516 static unsigned long
insert_sprg(unsigned long insn,long value,int dialect,const char ** errmsg)1517 insert_sprg (unsigned long insn,
1518 long value,
1519 int dialect,
1520 const char **errmsg)
1521 {
1522 /* This check uses PPC_OPCODE_403 because PPC405 is later defined
1523 as a synonym. If ever a 405 specific dialect is added this
1524 check should use that instead. */
1525 if (value > 7
1526 || (value > 3
1527 && (dialect & (PPC_OPCODE_BOOKE | PPC_OPCODE_403)) == 0))
1528 *errmsg = _("invalid sprg number");
1529
1530 /* If this is mfsprg4..7 then use spr 260..263 which can be read in
1531 user mode. Anything else must use spr 272..279. */
1532 if (value <= 3 || (insn & 0x100) != 0)
1533 value |= 0x10;
1534
1535 return insn | ((value & 0x17) << 16);
1536 }
1537
1538 static long
extract_sprg(unsigned long insn,int dialect,int * invalid)1539 extract_sprg (unsigned long insn,
1540 int dialect,
1541 int *invalid)
1542 {
1543 unsigned long val = (insn >> 16) & 0x1f;
1544
1545 /* mfsprg can use 260..263 and 272..279. mtsprg only uses spr 272..279
1546 If not BOOKE or 405, then both use only 272..275. */
1547 if (val <= 3
1548 || (val < 0x10 && (insn & 0x100) != 0)
1549 || (val - 0x10 > 3
1550 && (dialect & (PPC_OPCODE_BOOKE | PPC_OPCODE_403)) == 0))
1551 *invalid = 1;
1552 return val & 7;
1553 }
1554
1555 /* The TBR field in an XFX instruction. This is just like SPR, but it
1556 is optional. When TBR is omitted, it must be inserted as 268 (the
1557 magic number of the TB register). These functions treat 0
1558 (indicating an omitted optional operand) as 268. This means that
1559 ``mftb 4,0'' is not handled correctly. This does not matter very
1560 much, since the architecture manual does not define mftb as
1561 accepting any values other than 268 or 269. */
1562
1563 #define TB (268)
1564
1565 static unsigned long
insert_tbr(unsigned long insn,long value,int dialect ATTRIBUTE_UNUSED,const char ** errmsg ATTRIBUTE_UNUSED)1566 insert_tbr (unsigned long insn,
1567 long value,
1568 int dialect ATTRIBUTE_UNUSED,
1569 const char **errmsg ATTRIBUTE_UNUSED)
1570 {
1571 if (value == 0)
1572 value = TB;
1573 return insn | ((value & 0x1f) << 16) | ((value & 0x3e0) << 6);
1574 }
1575
1576 static long
extract_tbr(unsigned long insn,int dialect ATTRIBUTE_UNUSED,int * invalid ATTRIBUTE_UNUSED)1577 extract_tbr (unsigned long insn,
1578 int dialect ATTRIBUTE_UNUSED,
1579 int *invalid ATTRIBUTE_UNUSED)
1580 {
1581 long ret;
1582
1583 ret = ((insn >> 16) & 0x1f) | ((insn >> 6) & 0x3e0);
1584 if (ret == TB)
1585 ret = 0;
1586 return ret;
1587 }
1588
1589 /* Macros used to form opcodes. */
1590
1591 /* The main opcode. */
1592 #define OP(x) ((((unsigned long)(x)) & 0x3f) << 26)
1593 #define OP_MASK OP (0x3f)
1594
1595 /* The main opcode combined with a trap code in the TO field of a D
1596 form instruction. Used for extended mnemonics for the trap
1597 instructions. */
1598 #define OPTO(x,to) (OP (x) | ((((unsigned long)(to)) & 0x1f) << 21))
1599 #define OPTO_MASK (OP_MASK | TO_MASK)
1600
1601 /* The main opcode combined with a comparison size bit in the L field
1602 of a D form or X form instruction. Used for extended mnemonics for
1603 the comparison instructions. */
1604 #define OPL(x,l) (OP (x) | ((((unsigned long)(l)) & 1) << 21))
1605 #define OPL_MASK OPL (0x3f,1)
1606
1607 /* An A form instruction. */
1608 #define A(op, xop, rc) (OP (op) | ((((unsigned long)(xop)) & 0x1f) << 1) | (((unsigned long)(rc)) & 1))
1609 #define A_MASK A (0x3f, 0x1f, 1)
1610
1611 /* An A_MASK with the FRB field fixed. */
1612 #define AFRB_MASK (A_MASK | FRB_MASK)
1613
1614 /* An A_MASK with the FRC field fixed. */
1615 #define AFRC_MASK (A_MASK | FRC_MASK)
1616
1617 /* An A_MASK with the FRA and FRC fields fixed. */
1618 #define AFRAFRC_MASK (A_MASK | FRA_MASK | FRC_MASK)
1619
1620 /* An AFRAFRC_MASK, but with L bit clear. */
1621 #define AFRALFRC_MASK (AFRAFRC_MASK & ~((unsigned long) 1 << 16))
1622
1623 /* A B form instruction. */
1624 #define B(op, aa, lk) (OP (op) | ((((unsigned long)(aa)) & 1) << 1) | ((lk) & 1))
1625 #define B_MASK B (0x3f, 1, 1)
1626
1627 /* A B form instruction setting the BO field. */
1628 #define BBO(op, bo, aa, lk) (B ((op), (aa), (lk)) | ((((unsigned long)(bo)) & 0x1f) << 21))
1629 #define BBO_MASK BBO (0x3f, 0x1f, 1, 1)
1630
1631 /* A BBO_MASK with the y bit of the BO field removed. This permits
1632 matching a conditional branch regardless of the setting of the y
1633 bit. Similarly for the 'at' bits used for power4 branch hints. */
1634 #define Y_MASK (((unsigned long) 1) << 21)
1635 #define AT1_MASK (((unsigned long) 3) << 21)
1636 #define AT2_MASK (((unsigned long) 9) << 21)
1637 #define BBOY_MASK (BBO_MASK &~ Y_MASK)
1638 #define BBOAT_MASK (BBO_MASK &~ AT1_MASK)
1639
1640 /* A B form instruction setting the BO field and the condition bits of
1641 the BI field. */
1642 #define BBOCB(op, bo, cb, aa, lk) \
1643 (BBO ((op), (bo), (aa), (lk)) | ((((unsigned long)(cb)) & 0x3) << 16))
1644 #define BBOCB_MASK BBOCB (0x3f, 0x1f, 0x3, 1, 1)
1645
1646 /* A BBOCB_MASK with the y bit of the BO field removed. */
1647 #define BBOYCB_MASK (BBOCB_MASK &~ Y_MASK)
1648 #define BBOATCB_MASK (BBOCB_MASK &~ AT1_MASK)
1649 #define BBOAT2CB_MASK (BBOCB_MASK &~ AT2_MASK)
1650
1651 /* A BBOYCB_MASK in which the BI field is fixed. */
1652 #define BBOYBI_MASK (BBOYCB_MASK | BI_MASK)
1653 #define BBOATBI_MASK (BBOAT2CB_MASK | BI_MASK)
1654
1655 /* An Context form instruction. */
1656 #define CTX(op, xop) (OP (op) | (((unsigned long)(xop)) & 0x7))
1657 #define CTX_MASK CTX(0x3f, 0x7)
1658
1659 /* An User Context form instruction. */
1660 #define UCTX(op, xop) (OP (op) | (((unsigned long)(xop)) & 0x1f))
1661 #define UCTX_MASK UCTX(0x3f, 0x1f)
1662
1663 /* The main opcode mask with the RA field clear. */
1664 #define DRA_MASK (OP_MASK | RA_MASK)
1665
1666 /* A DS form instruction. */
1667 #define DSO(op, xop) (OP (op) | ((xop) & 0x3))
1668 #define DS_MASK DSO (0x3f, 3)
1669
1670 /* A DE form instruction. */
1671 #define DEO(op, xop) (OP (op) | ((xop) & 0xf))
1672 #define DE_MASK DEO (0x3e, 0xf)
1673
1674 /* An EVSEL form instruction. */
1675 #define EVSEL(op, xop) (OP (op) | (((unsigned long)(xop)) & 0xff) << 3)
1676 #define EVSEL_MASK EVSEL(0x3f, 0xff)
1677
1678 /* An M form instruction. */
1679 #define M(op, rc) (OP (op) | ((rc) & 1))
1680 #define M_MASK M (0x3f, 1)
1681
1682 /* An M form instruction with the ME field specified. */
1683 #define MME(op, me, rc) (M ((op), (rc)) | ((((unsigned long)(me)) & 0x1f) << 1))
1684
1685 /* An M_MASK with the MB and ME fields fixed. */
1686 #define MMBME_MASK (M_MASK | MB_MASK | ME_MASK)
1687
1688 /* An M_MASK with the SH and ME fields fixed. */
1689 #define MSHME_MASK (M_MASK | SH_MASK | ME_MASK)
1690
1691 /* An MD form instruction. */
1692 #define MD(op, xop, rc) (OP (op) | ((((unsigned long)(xop)) & 0x7) << 2) | ((rc) & 1))
1693 #define MD_MASK MD (0x3f, 0x7, 1)
1694
1695 /* An MD_MASK with the MB field fixed. */
1696 #define MDMB_MASK (MD_MASK | MB6_MASK)
1697
1698 /* An MD_MASK with the SH field fixed. */
1699 #define MDSH_MASK (MD_MASK | SH6_MASK)
1700
1701 /* An MDS form instruction. */
1702 #define MDS(op, xop, rc) (OP (op) | ((((unsigned long)(xop)) & 0xf) << 1) | ((rc) & 1))
1703 #define MDS_MASK MDS (0x3f, 0xf, 1)
1704
1705 /* An MDS_MASK with the MB field fixed. */
1706 #define MDSMB_MASK (MDS_MASK | MB6_MASK)
1707
1708 /* An SC form instruction. */
1709 #define SC(op, sa, lk) (OP (op) | ((((unsigned long)(sa)) & 1) << 1) | ((lk) & 1))
1710 #define SC_MASK (OP_MASK | (((unsigned long)0x3ff) << 16) | (((unsigned long)1) << 1) | 1)
1711
1712 /* An VX form instruction. */
1713 #define VX(op, xop) (OP (op) | (((unsigned long)(xop)) & 0x7ff))
1714
1715 /* The mask for an VX form instruction. */
1716 #define VX_MASK VX(0x3f, 0x7ff)
1717
1718 /* An VA form instruction. */
1719 #define VXA(op, xop) (OP (op) | (((unsigned long)(xop)) & 0x03f))
1720
1721 /* The mask for an VA form instruction. */
1722 #define VXA_MASK VXA(0x3f, 0x3f)
1723
1724 /* An VXR form instruction. */
1725 #define VXR(op, xop, rc) (OP (op) | (((rc) & 1) << 10) | (((unsigned long)(xop)) & 0x3ff))
1726
1727 /* The mask for a VXR form instruction. */
1728 #define VXR_MASK VXR(0x3f, 0x3ff, 1)
1729
1730 /* An X form instruction. */
1731 #define X(op, xop) (OP (op) | ((((unsigned long)(xop)) & 0x3ff) << 1))
1732
1733 /* A Z form instruction. */
1734 #define Z(op, xop) (OP (op) | ((((unsigned long)(xop)) & 0x1ff) << 1))
1735
1736 /* An X form instruction with the RC bit specified. */
1737 #define XRC(op, xop, rc) (X ((op), (xop)) | ((rc) & 1))
1738
1739 /* A Z form instruction with the RC bit specified. */
1740 #define ZRC(op, xop, rc) (Z ((op), (xop)) | ((rc) & 1))
1741
1742 /* The mask for an X form instruction. */
1743 #define X_MASK XRC (0x3f, 0x3ff, 1)
1744
1745 /* The mask for a Z form instruction. */
1746 #define Z_MASK ZRC (0x3f, 0x1ff, 1)
1747 #define Z2_MASK ZRC (0x3f, 0xff, 1)
1748
1749 /* An X_MASK with the RA field fixed. */
1750 #define XRA_MASK (X_MASK | RA_MASK)
1751
1752 /* An XRA_MASK with the W field clear. */
1753 #define XWRA_MASK (XRA_MASK & ~((unsigned long) 1 << 16))
1754
1755 /* An X_MASK with the RB field fixed. */
1756 #define XRB_MASK (X_MASK | RB_MASK)
1757
1758 /* An X_MASK with the RT field fixed. */
1759 #define XRT_MASK (X_MASK | RT_MASK)
1760
1761 /* An XRT_MASK mask with the L bits clear. */
1762 #define XLRT_MASK (XRT_MASK & ~((unsigned long) 0x3 << 21))
1763
1764 /* An X_MASK with the RA and RB fields fixed. */
1765 #define XRARB_MASK (X_MASK | RA_MASK | RB_MASK)
1766
1767 /* An XRARB_MASK, but with the L bit clear. */
1768 #define XRLARB_MASK (XRARB_MASK & ~((unsigned long) 1 << 16))
1769
1770 /* An X_MASK with the RT and RA fields fixed. */
1771 #define XRTRA_MASK (X_MASK | RT_MASK | RA_MASK)
1772
1773 /* An XRTRA_MASK, but with L bit clear. */
1774 #define XRTLRA_MASK (XRTRA_MASK & ~((unsigned long) 1 << 21))
1775
1776 /* An X form instruction with the L bit specified. */
1777 #define XOPL(op, xop, l) (X ((op), (xop)) | ((((unsigned long)(l)) & 1) << 21))
1778
1779 /* The mask for an X form comparison instruction. */
1780 #define XCMP_MASK (X_MASK | (((unsigned long)1) << 22))
1781
1782 /* The mask for an X form comparison instruction with the L field
1783 fixed. */
1784 #define XCMPL_MASK (XCMP_MASK | (((unsigned long)1) << 21))
1785
1786 /* An X form trap instruction with the TO field specified. */
1787 #define XTO(op, xop, to) (X ((op), (xop)) | ((((unsigned long)(to)) & 0x1f) << 21))
1788 #define XTO_MASK (X_MASK | TO_MASK)
1789
1790 /* An X form tlb instruction with the SH field specified. */
1791 #define XTLB(op, xop, sh) (X ((op), (xop)) | ((((unsigned long)(sh)) & 0x1f) << 11))
1792 #define XTLB_MASK (X_MASK | SH_MASK)
1793
1794 /* An X form sync instruction. */
1795 #define XSYNC(op, xop, l) (X ((op), (xop)) | ((((unsigned long)(l)) & 3) << 21))
1796
1797 /* An X form sync instruction with everything filled in except the LS field. */
1798 #define XSYNC_MASK (0xff9fffff)
1799
1800 /* An X_MASK, but with the EH bit clear. */
1801 #define XEH_MASK (X_MASK & ~((unsigned long )1))
1802
1803 /* An X form AltiVec dss instruction. */
1804 #define XDSS(op, xop, a) (X ((op), (xop)) | ((((unsigned long)(a)) & 1) << 25))
1805 #define XDSS_MASK XDSS(0x3f, 0x3ff, 1)
1806
1807 /* An XFL form instruction. */
1808 #define XFL(op, xop, rc) (OP (op) | ((((unsigned long)(xop)) & 0x3ff) << 1) | (((unsigned long)(rc)) & 1))
1809 #define XFL_MASK XFL (0x3f, 0x3ff, 1)
1810
1811 /* An X form isel instruction. */
1812 #define XISEL(op, xop) (OP (op) | ((((unsigned long)(xop)) & 0x1f) << 1))
1813 #define XISEL_MASK XISEL(0x3f, 0x1f)
1814
1815 /* An XL form instruction with the LK field set to 0. */
1816 #define XL(op, xop) (OP (op) | ((((unsigned long)(xop)) & 0x3ff) << 1))
1817
1818 /* An XL form instruction which uses the LK field. */
1819 #define XLLK(op, xop, lk) (XL ((op), (xop)) | ((lk) & 1))
1820
1821 /* The mask for an XL form instruction. */
1822 #define XL_MASK XLLK (0x3f, 0x3ff, 1)
1823
1824 /* An XL form instruction which explicitly sets the BO field. */
1825 #define XLO(op, bo, xop, lk) \
1826 (XLLK ((op), (xop), (lk)) | ((((unsigned long)(bo)) & 0x1f) << 21))
1827 #define XLO_MASK (XL_MASK | BO_MASK)
1828
1829 /* An XL form instruction which explicitly sets the y bit of the BO
1830 field. */
1831 #define XLYLK(op, xop, y, lk) (XLLK ((op), (xop), (lk)) | ((((unsigned long)(y)) & 1) << 21))
1832 #define XLYLK_MASK (XL_MASK | Y_MASK)
1833
1834 /* An XL form instruction which sets the BO field and the condition
1835 bits of the BI field. */
1836 #define XLOCB(op, bo, cb, xop, lk) \
1837 (XLO ((op), (bo), (xop), (lk)) | ((((unsigned long)(cb)) & 3) << 16))
1838 #define XLOCB_MASK XLOCB (0x3f, 0x1f, 0x3, 0x3ff, 1)
1839
1840 /* An XL_MASK or XLYLK_MASK or XLOCB_MASK with the BB field fixed. */
1841 #define XLBB_MASK (XL_MASK | BB_MASK)
1842 #define XLYBB_MASK (XLYLK_MASK | BB_MASK)
1843 #define XLBOCBBB_MASK (XLOCB_MASK | BB_MASK)
1844
1845 /* A mask for branch instructions using the BH field. */
1846 #define XLBH_MASK (XL_MASK | (0x1c << 11))
1847
1848 /* An XL_MASK with the BO and BB fields fixed. */
1849 #define XLBOBB_MASK (XL_MASK | BO_MASK | BB_MASK)
1850
1851 /* An XL_MASK with the BO, BI and BB fields fixed. */
1852 #define XLBOBIBB_MASK (XL_MASK | BO_MASK | BI_MASK | BB_MASK)
1853
1854 /* An XO form instruction. */
1855 #define XO(op, xop, oe, rc) \
1856 (OP (op) | ((((unsigned long)(xop)) & 0x1ff) << 1) | ((((unsigned long)(oe)) & 1) << 10) | (((unsigned long)(rc)) & 1))
1857 #define XO_MASK XO (0x3f, 0x1ff, 1, 1)
1858
1859 /* An XO_MASK with the RB field fixed. */
1860 #define XORB_MASK (XO_MASK | RB_MASK)
1861
1862 /* An XS form instruction. */
1863 #define XS(op, xop, rc) (OP (op) | ((((unsigned long)(xop)) & 0x1ff) << 2) | (((unsigned long)(rc)) & 1))
1864 #define XS_MASK XS (0x3f, 0x1ff, 1)
1865
1866 /* A mask for the FXM version of an XFX form instruction. */
1867 #define XFXFXM_MASK (X_MASK | (1 << 11) | (1 << 20))
1868
1869 /* An XFX form instruction with the FXM field filled in. */
1870 #define XFXM(op, xop, fxm, p4) \
1871 (X ((op), (xop)) | ((((unsigned long)(fxm)) & 0xff) << 12) \
1872 | ((unsigned long)(p4) << 20))
1873
1874 /* An XFX form instruction with the SPR field filled in. */
1875 #define XSPR(op, xop, spr) \
1876 (X ((op), (xop)) | ((((unsigned long)(spr)) & 0x1f) << 16) | ((((unsigned long)(spr)) & 0x3e0) << 6))
1877 #define XSPR_MASK (X_MASK | SPR_MASK)
1878
1879 /* An XFX form instruction with the SPR field filled in except for the
1880 SPRBAT field. */
1881 #define XSPRBAT_MASK (XSPR_MASK &~ SPRBAT_MASK)
1882
1883 /* An XFX form instruction with the SPR field filled in except for the
1884 SPRG field. */
1885 #define XSPRG_MASK (XSPR_MASK & ~(0x1f << 16))
1886
1887 /* An X form instruction with everything filled in except the E field. */
1888 #define XE_MASK (0xffff7fff)
1889
1890 /* An X form user context instruction. */
1891 #define XUC(op, xop) (OP (op) | (((unsigned long)(xop)) & 0x1f))
1892 #define XUC_MASK XUC(0x3f, 0x1f)
1893
1894 /* The BO encodings used in extended conditional branch mnemonics. */
1895 #define BODNZF (0x0)
1896 #define BODNZFP (0x1)
1897 #define BODZF (0x2)
1898 #define BODZFP (0x3)
1899 #define BODNZT (0x8)
1900 #define BODNZTP (0x9)
1901 #define BODZT (0xa)
1902 #define BODZTP (0xb)
1903
1904 #define BOF (0x4)
1905 #define BOFP (0x5)
1906 #define BOFM4 (0x6)
1907 #define BOFP4 (0x7)
1908 #define BOT (0xc)
1909 #define BOTP (0xd)
1910 #define BOTM4 (0xe)
1911 #define BOTP4 (0xf)
1912
1913 #define BODNZ (0x10)
1914 #define BODNZP (0x11)
1915 #define BODZ (0x12)
1916 #define BODZP (0x13)
1917 #define BODNZM4 (0x18)
1918 #define BODNZP4 (0x19)
1919 #define BODZM4 (0x1a)
1920 #define BODZP4 (0x1b)
1921
1922 #define BOU (0x14)
1923
1924 /* The BI condition bit encodings used in extended conditional branch
1925 mnemonics. */
1926 #define CBLT (0)
1927 #define CBGT (1)
1928 #define CBEQ (2)
1929 #define CBSO (3)
1930
1931 /* The TO encodings used in extended trap mnemonics. */
1932 #define TOLGT (0x1)
1933 #define TOLLT (0x2)
1934 #define TOEQ (0x4)
1935 #define TOLGE (0x5)
1936 #define TOLNL (0x5)
1937 #define TOLLE (0x6)
1938 #define TOLNG (0x6)
1939 #define TOGT (0x8)
1940 #define TOGE (0xc)
1941 #define TONL (0xc)
1942 #define TOLT (0x10)
1943 #define TOLE (0x14)
1944 #define TONG (0x14)
1945 #define TONE (0x18)
1946 #define TOU (0x1f)
1947
1948 /* Smaller names for the flags so each entry in the opcodes table will
1949 fit on a single line. */
1950 #undef PPC
1951 #define PPC PPC_OPCODE_PPC
1952 #define PPCCOM PPC_OPCODE_PPC | PPC_OPCODE_COMMON
1953 #define NOPOWER4 PPC_OPCODE_NOPOWER4 | PPCCOM
1954 #define POWER4 PPC_OPCODE_POWER4
1955 #define POWER5 PPC_OPCODE_POWER5
1956 #define POWER6 PPC_OPCODE_POWER6
1957 #define CELL PPC_OPCODE_CELL
1958 #define PPC32 PPC_OPCODE_32 | PPC_OPCODE_PPC
1959 #define PPC64 PPC_OPCODE_64 | PPC_OPCODE_PPC
1960 #define PPC403 PPC_OPCODE_403
1961 #define PPC405 PPC403
1962 #define PPC440 PPC_OPCODE_440
1963 #define PPC750 PPC
1964 #define PPC860 PPC
1965 #define PPCVEC PPC_OPCODE_ALTIVEC
1966 #define POWER PPC_OPCODE_POWER
1967 #define POWER2 PPC_OPCODE_POWER | PPC_OPCODE_POWER2
1968 #define PPCPWR2 PPC_OPCODE_PPC | PPC_OPCODE_POWER | PPC_OPCODE_POWER2
1969 #define POWER32 PPC_OPCODE_POWER | PPC_OPCODE_32
1970 #define COM PPC_OPCODE_POWER | PPC_OPCODE_PPC | PPC_OPCODE_COMMON
1971 #define COM32 PPC_OPCODE_POWER | PPC_OPCODE_PPC | PPC_OPCODE_COMMON | PPC_OPCODE_32
1972 #define M601 PPC_OPCODE_POWER | PPC_OPCODE_601
1973 #define PWRCOM PPC_OPCODE_POWER | PPC_OPCODE_601 | PPC_OPCODE_COMMON
1974 #define MFDEC1 PPC_OPCODE_POWER
1975 #define MFDEC2 PPC_OPCODE_PPC | PPC_OPCODE_601 | PPC_OPCODE_BOOKE
1976 #define BOOKE PPC_OPCODE_BOOKE
1977 #define BOOKE64 PPC_OPCODE_BOOKE64
1978 #define CLASSIC PPC_OPCODE_CLASSIC
1979 #define PPCE300 PPC_OPCODE_E300
1980 #define PPCSPE PPC_OPCODE_SPE
1981 #define PPCISEL PPC_OPCODE_ISEL
1982 #define PPCEFS PPC_OPCODE_EFS
1983 #define PPCBRLK PPC_OPCODE_BRLOCK
1984 #define PPCPMR PPC_OPCODE_PMR
1985 #define PPCCHLK PPC_OPCODE_CACHELCK
1986 #define PPCCHLK64 PPC_OPCODE_CACHELCK | PPC_OPCODE_BOOKE64
1987 #define PPCRFMCI PPC_OPCODE_RFMCI
1988
1989 /* The opcode table.
1990
1991 The format of the opcode table is:
1992
1993 NAME OPCODE MASK FLAGS { OPERANDS }
1994
1995 NAME is the name of the instruction.
1996 OPCODE is the instruction opcode.
1997 MASK is the opcode mask; this is used to tell the disassembler
1998 which bits in the actual opcode must match OPCODE.
1999 FLAGS are flags indicated what processors support the instruction.
2000 OPERANDS is the list of operands.
2001
2002 The disassembler reads the table in order and prints the first
2003 instruction which matches, so this table is sorted to put more
2004 specific instructions before more general instructions. It is also
2005 sorted by major opcode. */
2006
2007 const struct powerpc_opcode powerpc_opcodes[] = {
2008 { "attn", X(0,256), X_MASK, POWER4, { 0 } },
2009 { "tdlgti", OPTO(2,TOLGT), OPTO_MASK, PPC64, { RA, SI } },
2010 { "tdllti", OPTO(2,TOLLT), OPTO_MASK, PPC64, { RA, SI } },
2011 { "tdeqi", OPTO(2,TOEQ), OPTO_MASK, PPC64, { RA, SI } },
2012 { "tdlgei", OPTO(2,TOLGE), OPTO_MASK, PPC64, { RA, SI } },
2013 { "tdlnli", OPTO(2,TOLNL), OPTO_MASK, PPC64, { RA, SI } },
2014 { "tdllei", OPTO(2,TOLLE), OPTO_MASK, PPC64, { RA, SI } },
2015 { "tdlngi", OPTO(2,TOLNG), OPTO_MASK, PPC64, { RA, SI } },
2016 { "tdgti", OPTO(2,TOGT), OPTO_MASK, PPC64, { RA, SI } },
2017 { "tdgei", OPTO(2,TOGE), OPTO_MASK, PPC64, { RA, SI } },
2018 { "tdnli", OPTO(2,TONL), OPTO_MASK, PPC64, { RA, SI } },
2019 { "tdlti", OPTO(2,TOLT), OPTO_MASK, PPC64, { RA, SI } },
2020 { "tdlei", OPTO(2,TOLE), OPTO_MASK, PPC64, { RA, SI } },
2021 { "tdngi", OPTO(2,TONG), OPTO_MASK, PPC64, { RA, SI } },
2022 { "tdnei", OPTO(2,TONE), OPTO_MASK, PPC64, { RA, SI } },
2023 { "tdi", OP(2), OP_MASK, PPC64, { TO, RA, SI } },
2024
2025 { "twlgti", OPTO(3,TOLGT), OPTO_MASK, PPCCOM, { RA, SI } },
2026 { "tlgti", OPTO(3,TOLGT), OPTO_MASK, PWRCOM, { RA, SI } },
2027 { "twllti", OPTO(3,TOLLT), OPTO_MASK, PPCCOM, { RA, SI } },
2028 { "tllti", OPTO(3,TOLLT), OPTO_MASK, PWRCOM, { RA, SI } },
2029 { "tweqi", OPTO(3,TOEQ), OPTO_MASK, PPCCOM, { RA, SI } },
2030 { "teqi", OPTO(3,TOEQ), OPTO_MASK, PWRCOM, { RA, SI } },
2031 { "twlgei", OPTO(3,TOLGE), OPTO_MASK, PPCCOM, { RA, SI } },
2032 { "tlgei", OPTO(3,TOLGE), OPTO_MASK, PWRCOM, { RA, SI } },
2033 { "twlnli", OPTO(3,TOLNL), OPTO_MASK, PPCCOM, { RA, SI } },
2034 { "tlnli", OPTO(3,TOLNL), OPTO_MASK, PWRCOM, { RA, SI } },
2035 { "twllei", OPTO(3,TOLLE), OPTO_MASK, PPCCOM, { RA, SI } },
2036 { "tllei", OPTO(3,TOLLE), OPTO_MASK, PWRCOM, { RA, SI } },
2037 { "twlngi", OPTO(3,TOLNG), OPTO_MASK, PPCCOM, { RA, SI } },
2038 { "tlngi", OPTO(3,TOLNG), OPTO_MASK, PWRCOM, { RA, SI } },
2039 { "twgti", OPTO(3,TOGT), OPTO_MASK, PPCCOM, { RA, SI } },
2040 { "tgti", OPTO(3,TOGT), OPTO_MASK, PWRCOM, { RA, SI } },
2041 { "twgei", OPTO(3,TOGE), OPTO_MASK, PPCCOM, { RA, SI } },
2042 { "tgei", OPTO(3,TOGE), OPTO_MASK, PWRCOM, { RA, SI } },
2043 { "twnli", OPTO(3,TONL), OPTO_MASK, PPCCOM, { RA, SI } },
2044 { "tnli", OPTO(3,TONL), OPTO_MASK, PWRCOM, { RA, SI } },
2045 { "twlti", OPTO(3,TOLT), OPTO_MASK, PPCCOM, { RA, SI } },
2046 { "tlti", OPTO(3,TOLT), OPTO_MASK, PWRCOM, { RA, SI } },
2047 { "twlei", OPTO(3,TOLE), OPTO_MASK, PPCCOM, { RA, SI } },
2048 { "tlei", OPTO(3,TOLE), OPTO_MASK, PWRCOM, { RA, SI } },
2049 { "twngi", OPTO(3,TONG), OPTO_MASK, PPCCOM, { RA, SI } },
2050 { "tngi", OPTO(3,TONG), OPTO_MASK, PWRCOM, { RA, SI } },
2051 { "twnei", OPTO(3,TONE), OPTO_MASK, PPCCOM, { RA, SI } },
2052 { "tnei", OPTO(3,TONE), OPTO_MASK, PWRCOM, { RA, SI } },
2053 { "twi", OP(3), OP_MASK, PPCCOM, { TO, RA, SI } },
2054 { "ti", OP(3), OP_MASK, PWRCOM, { TO, RA, SI } },
2055
2056 { "macchw", XO(4,172,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2057 { "macchw.", XO(4,172,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2058 { "macchwo", XO(4,172,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2059 { "macchwo.", XO(4,172,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2060 { "macchws", XO(4,236,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2061 { "macchws.", XO(4,236,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2062 { "macchwso", XO(4,236,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2063 { "macchwso.", XO(4,236,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2064 { "macchwsu", XO(4,204,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2065 { "macchwsu.", XO(4,204,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2066 { "macchwsuo", XO(4,204,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2067 { "macchwsuo.", XO(4,204,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2068 { "macchwu", XO(4,140,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2069 { "macchwu.", XO(4,140,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2070 { "macchwuo", XO(4,140,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2071 { "macchwuo.", XO(4,140,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2072 { "machhw", XO(4,44,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2073 { "machhw.", XO(4,44,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2074 { "machhwo", XO(4,44,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2075 { "machhwo.", XO(4,44,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2076 { "machhws", XO(4,108,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2077 { "machhws.", XO(4,108,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2078 { "machhwso", XO(4,108,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2079 { "machhwso.", XO(4,108,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2080 { "machhwsu", XO(4,76,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2081 { "machhwsu.", XO(4,76,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2082 { "machhwsuo", XO(4,76,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2083 { "machhwsuo.", XO(4,76,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2084 { "machhwu", XO(4,12,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2085 { "machhwu.", XO(4,12,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2086 { "machhwuo", XO(4,12,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2087 { "machhwuo.", XO(4,12,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2088 { "maclhw", XO(4,428,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2089 { "maclhw.", XO(4,428,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2090 { "maclhwo", XO(4,428,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2091 { "maclhwo.", XO(4,428,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2092 { "maclhws", XO(4,492,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2093 { "maclhws.", XO(4,492,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2094 { "maclhwso", XO(4,492,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2095 { "maclhwso.", XO(4,492,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2096 { "maclhwsu", XO(4,460,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2097 { "maclhwsu.", XO(4,460,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2098 { "maclhwsuo", XO(4,460,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2099 { "maclhwsuo.", XO(4,460,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2100 { "maclhwu", XO(4,396,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2101 { "maclhwu.", XO(4,396,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2102 { "maclhwuo", XO(4,396,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2103 { "maclhwuo.", XO(4,396,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2104 { "mulchw", XRC(4,168,0), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2105 { "mulchw.", XRC(4,168,1), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2106 { "mulchwu", XRC(4,136,0), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2107 { "mulchwu.", XRC(4,136,1), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2108 { "mulhhw", XRC(4,40,0), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2109 { "mulhhw.", XRC(4,40,1), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2110 { "mulhhwu", XRC(4,8,0), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2111 { "mulhhwu.", XRC(4,8,1), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2112 { "mullhw", XRC(4,424,0), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2113 { "mullhw.", XRC(4,424,1), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2114 { "mullhwu", XRC(4,392,0), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2115 { "mullhwu.", XRC(4,392,1), X_MASK, PPC405|PPC440, { RT, RA, RB } },
2116 { "nmacchw", XO(4,174,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2117 { "nmacchw.", XO(4,174,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2118 { "nmacchwo", XO(4,174,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2119 { "nmacchwo.", XO(4,174,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2120 { "nmacchws", XO(4,238,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2121 { "nmacchws.", XO(4,238,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2122 { "nmacchwso", XO(4,238,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2123 { "nmacchwso.", XO(4,238,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2124 { "nmachhw", XO(4,46,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2125 { "nmachhw.", XO(4,46,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2126 { "nmachhwo", XO(4,46,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2127 { "nmachhwo.", XO(4,46,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2128 { "nmachhws", XO(4,110,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2129 { "nmachhws.", XO(4,110,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2130 { "nmachhwso", XO(4,110,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2131 { "nmachhwso.", XO(4,110,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2132 { "nmaclhw", XO(4,430,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2133 { "nmaclhw.", XO(4,430,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2134 { "nmaclhwo", XO(4,430,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2135 { "nmaclhwo.", XO(4,430,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2136 { "nmaclhws", XO(4,494,0,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2137 { "nmaclhws.", XO(4,494,0,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2138 { "nmaclhwso", XO(4,494,1,0), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2139 { "nmaclhwso.", XO(4,494,1,1), XO_MASK, PPC405|PPC440, { RT, RA, RB } },
2140 { "mfvscr", VX(4, 1540), VX_MASK, PPCVEC, { VD } },
2141 { "mtvscr", VX(4, 1604), VX_MASK, PPCVEC, { VB } },
2142
2143 /* Double-precision opcodes. */
2144 /* Some of these conflict with AltiVec, so move them before, since
2145 PPCVEC includes the PPC_OPCODE_PPC set. */
2146 { "efscfd", VX(4, 719), VX_MASK, PPCEFS, { RS, RB } },
2147 { "efdabs", VX(4, 740), VX_MASK, PPCEFS, { RS, RA } },
2148 { "efdnabs", VX(4, 741), VX_MASK, PPCEFS, { RS, RA } },
2149 { "efdneg", VX(4, 742), VX_MASK, PPCEFS, { RS, RA } },
2150 { "efdadd", VX(4, 736), VX_MASK, PPCEFS, { RS, RA, RB } },
2151 { "efdsub", VX(4, 737), VX_MASK, PPCEFS, { RS, RA, RB } },
2152 { "efdmul", VX(4, 744), VX_MASK, PPCEFS, { RS, RA, RB } },
2153 { "efddiv", VX(4, 745), VX_MASK, PPCEFS, { RS, RA, RB } },
2154 { "efdcmpgt", VX(4, 748), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2155 { "efdcmplt", VX(4, 749), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2156 { "efdcmpeq", VX(4, 750), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2157 { "efdtstgt", VX(4, 764), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2158 { "efdtstlt", VX(4, 765), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2159 { "efdtsteq", VX(4, 766), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2160 { "efdcfsi", VX(4, 753), VX_MASK, PPCEFS, { RS, RB } },
2161 { "efdcfsid", VX(4, 739), VX_MASK, PPCEFS, { RS, RB } },
2162 { "efdcfui", VX(4, 752), VX_MASK, PPCEFS, { RS, RB } },
2163 { "efdcfuid", VX(4, 738), VX_MASK, PPCEFS, { RS, RB } },
2164 { "efdcfsf", VX(4, 755), VX_MASK, PPCEFS, { RS, RB } },
2165 { "efdcfuf", VX(4, 754), VX_MASK, PPCEFS, { RS, RB } },
2166 { "efdctsi", VX(4, 757), VX_MASK, PPCEFS, { RS, RB } },
2167 { "efdctsidz",VX(4, 747), VX_MASK, PPCEFS, { RS, RB } },
2168 { "efdctsiz", VX(4, 762), VX_MASK, PPCEFS, { RS, RB } },
2169 { "efdctui", VX(4, 756), VX_MASK, PPCEFS, { RS, RB } },
2170 { "efdctuidz",VX(4, 746), VX_MASK, PPCEFS, { RS, RB } },
2171 { "efdctuiz", VX(4, 760), VX_MASK, PPCEFS, { RS, RB } },
2172 { "efdctsf", VX(4, 759), VX_MASK, PPCEFS, { RS, RB } },
2173 { "efdctuf", VX(4, 758), VX_MASK, PPCEFS, { RS, RB } },
2174 { "efdcfs", VX(4, 751), VX_MASK, PPCEFS, { RS, RB } },
2175 /* End of double-precision opcodes. */
2176
2177 { "vaddcuw", VX(4, 384), VX_MASK, PPCVEC, { VD, VA, VB } },
2178 { "vaddfp", VX(4, 10), VX_MASK, PPCVEC, { VD, VA, VB } },
2179 { "vaddsbs", VX(4, 768), VX_MASK, PPCVEC, { VD, VA, VB } },
2180 { "vaddshs", VX(4, 832), VX_MASK, PPCVEC, { VD, VA, VB } },
2181 { "vaddsws", VX(4, 896), VX_MASK, PPCVEC, { VD, VA, VB } },
2182 { "vaddubm", VX(4, 0), VX_MASK, PPCVEC, { VD, VA, VB } },
2183 { "vaddubs", VX(4, 512), VX_MASK, PPCVEC, { VD, VA, VB } },
2184 { "vadduhm", VX(4, 64), VX_MASK, PPCVEC, { VD, VA, VB } },
2185 { "vadduhs", VX(4, 576), VX_MASK, PPCVEC, { VD, VA, VB } },
2186 { "vadduwm", VX(4, 128), VX_MASK, PPCVEC, { VD, VA, VB } },
2187 { "vadduws", VX(4, 640), VX_MASK, PPCVEC, { VD, VA, VB } },
2188 { "vand", VX(4, 1028), VX_MASK, PPCVEC, { VD, VA, VB } },
2189 { "vandc", VX(4, 1092), VX_MASK, PPCVEC, { VD, VA, VB } },
2190 { "vavgsb", VX(4, 1282), VX_MASK, PPCVEC, { VD, VA, VB } },
2191 { "vavgsh", VX(4, 1346), VX_MASK, PPCVEC, { VD, VA, VB } },
2192 { "vavgsw", VX(4, 1410), VX_MASK, PPCVEC, { VD, VA, VB } },
2193 { "vavgub", VX(4, 1026), VX_MASK, PPCVEC, { VD, VA, VB } },
2194 { "vavguh", VX(4, 1090), VX_MASK, PPCVEC, { VD, VA, VB } },
2195 { "vavguw", VX(4, 1154), VX_MASK, PPCVEC, { VD, VA, VB } },
2196 { "vcfsx", VX(4, 842), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2197 { "vcfux", VX(4, 778), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2198 { "vcmpbfp", VXR(4, 966, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2199 { "vcmpbfp.", VXR(4, 966, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2200 { "vcmpeqfp", VXR(4, 198, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2201 { "vcmpeqfp.", VXR(4, 198, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2202 { "vcmpequb", VXR(4, 6, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2203 { "vcmpequb.", VXR(4, 6, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2204 { "vcmpequh", VXR(4, 70, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2205 { "vcmpequh.", VXR(4, 70, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2206 { "vcmpequw", VXR(4, 134, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2207 { "vcmpequw.", VXR(4, 134, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2208 { "vcmpgefp", VXR(4, 454, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2209 { "vcmpgefp.", VXR(4, 454, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2210 { "vcmpgtfp", VXR(4, 710, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2211 { "vcmpgtfp.", VXR(4, 710, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2212 { "vcmpgtsb", VXR(4, 774, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2213 { "vcmpgtsb.", VXR(4, 774, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2214 { "vcmpgtsh", VXR(4, 838, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2215 { "vcmpgtsh.", VXR(4, 838, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2216 { "vcmpgtsw", VXR(4, 902, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2217 { "vcmpgtsw.", VXR(4, 902, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2218 { "vcmpgtub", VXR(4, 518, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2219 { "vcmpgtub.", VXR(4, 518, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2220 { "vcmpgtuh", VXR(4, 582, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2221 { "vcmpgtuh.", VXR(4, 582, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2222 { "vcmpgtuw", VXR(4, 646, 0), VXR_MASK, PPCVEC, { VD, VA, VB } },
2223 { "vcmpgtuw.", VXR(4, 646, 1), VXR_MASK, PPCVEC, { VD, VA, VB } },
2224 { "vctsxs", VX(4, 970), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2225 { "vctuxs", VX(4, 906), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2226 { "vexptefp", VX(4, 394), VX_MASK, PPCVEC, { VD, VB } },
2227 { "vlogefp", VX(4, 458), VX_MASK, PPCVEC, { VD, VB } },
2228 { "vmaddfp", VXA(4, 46), VXA_MASK, PPCVEC, { VD, VA, VC, VB } },
2229 { "vmaxfp", VX(4, 1034), VX_MASK, PPCVEC, { VD, VA, VB } },
2230 { "vmaxsb", VX(4, 258), VX_MASK, PPCVEC, { VD, VA, VB } },
2231 { "vmaxsh", VX(4, 322), VX_MASK, PPCVEC, { VD, VA, VB } },
2232 { "vmaxsw", VX(4, 386), VX_MASK, PPCVEC, { VD, VA, VB } },
2233 { "vmaxub", VX(4, 2), VX_MASK, PPCVEC, { VD, VA, VB } },
2234 { "vmaxuh", VX(4, 66), VX_MASK, PPCVEC, { VD, VA, VB } },
2235 { "vmaxuw", VX(4, 130), VX_MASK, PPCVEC, { VD, VA, VB } },
2236 { "vmhaddshs", VXA(4, 32), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2237 { "vmhraddshs", VXA(4, 33), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2238 { "vminfp", VX(4, 1098), VX_MASK, PPCVEC, { VD, VA, VB } },
2239 { "vminsb", VX(4, 770), VX_MASK, PPCVEC, { VD, VA, VB } },
2240 { "vminsh", VX(4, 834), VX_MASK, PPCVEC, { VD, VA, VB } },
2241 { "vminsw", VX(4, 898), VX_MASK, PPCVEC, { VD, VA, VB } },
2242 { "vminub", VX(4, 514), VX_MASK, PPCVEC, { VD, VA, VB } },
2243 { "vminuh", VX(4, 578), VX_MASK, PPCVEC, { VD, VA, VB } },
2244 { "vminuw", VX(4, 642), VX_MASK, PPCVEC, { VD, VA, VB } },
2245 { "vmladduhm", VXA(4, 34), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2246 { "vmrghb", VX(4, 12), VX_MASK, PPCVEC, { VD, VA, VB } },
2247 { "vmrghh", VX(4, 76), VX_MASK, PPCVEC, { VD, VA, VB } },
2248 { "vmrghw", VX(4, 140), VX_MASK, PPCVEC, { VD, VA, VB } },
2249 { "vmrglb", VX(4, 268), VX_MASK, PPCVEC, { VD, VA, VB } },
2250 { "vmrglh", VX(4, 332), VX_MASK, PPCVEC, { VD, VA, VB } },
2251 { "vmrglw", VX(4, 396), VX_MASK, PPCVEC, { VD, VA, VB } },
2252 { "vmsummbm", VXA(4, 37), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2253 { "vmsumshm", VXA(4, 40), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2254 { "vmsumshs", VXA(4, 41), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2255 { "vmsumubm", VXA(4, 36), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2256 { "vmsumuhm", VXA(4, 38), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2257 { "vmsumuhs", VXA(4, 39), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2258 { "vmulesb", VX(4, 776), VX_MASK, PPCVEC, { VD, VA, VB } },
2259 { "vmulesh", VX(4, 840), VX_MASK, PPCVEC, { VD, VA, VB } },
2260 { "vmuleub", VX(4, 520), VX_MASK, PPCVEC, { VD, VA, VB } },
2261 { "vmuleuh", VX(4, 584), VX_MASK, PPCVEC, { VD, VA, VB } },
2262 { "vmulosb", VX(4, 264), VX_MASK, PPCVEC, { VD, VA, VB } },
2263 { "vmulosh", VX(4, 328), VX_MASK, PPCVEC, { VD, VA, VB } },
2264 { "vmuloub", VX(4, 8), VX_MASK, PPCVEC, { VD, VA, VB } },
2265 { "vmulouh", VX(4, 72), VX_MASK, PPCVEC, { VD, VA, VB } },
2266 { "vnmsubfp", VXA(4, 47), VXA_MASK, PPCVEC, { VD, VA, VC, VB } },
2267 { "vnor", VX(4, 1284), VX_MASK, PPCVEC, { VD, VA, VB } },
2268 { "vor", VX(4, 1156), VX_MASK, PPCVEC, { VD, VA, VB } },
2269 { "vperm", VXA(4, 43), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2270 { "vpkpx", VX(4, 782), VX_MASK, PPCVEC, { VD, VA, VB } },
2271 { "vpkshss", VX(4, 398), VX_MASK, PPCVEC, { VD, VA, VB } },
2272 { "vpkshus", VX(4, 270), VX_MASK, PPCVEC, { VD, VA, VB } },
2273 { "vpkswss", VX(4, 462), VX_MASK, PPCVEC, { VD, VA, VB } },
2274 { "vpkswus", VX(4, 334), VX_MASK, PPCVEC, { VD, VA, VB } },
2275 { "vpkuhum", VX(4, 14), VX_MASK, PPCVEC, { VD, VA, VB } },
2276 { "vpkuhus", VX(4, 142), VX_MASK, PPCVEC, { VD, VA, VB } },
2277 { "vpkuwum", VX(4, 78), VX_MASK, PPCVEC, { VD, VA, VB } },
2278 { "vpkuwus", VX(4, 206), VX_MASK, PPCVEC, { VD, VA, VB } },
2279 { "vrefp", VX(4, 266), VX_MASK, PPCVEC, { VD, VB } },
2280 { "vrfim", VX(4, 714), VX_MASK, PPCVEC, { VD, VB } },
2281 { "vrfin", VX(4, 522), VX_MASK, PPCVEC, { VD, VB } },
2282 { "vrfip", VX(4, 650), VX_MASK, PPCVEC, { VD, VB } },
2283 { "vrfiz", VX(4, 586), VX_MASK, PPCVEC, { VD, VB } },
2284 { "vrlb", VX(4, 4), VX_MASK, PPCVEC, { VD, VA, VB } },
2285 { "vrlh", VX(4, 68), VX_MASK, PPCVEC, { VD, VA, VB } },
2286 { "vrlw", VX(4, 132), VX_MASK, PPCVEC, { VD, VA, VB } },
2287 { "vrsqrtefp", VX(4, 330), VX_MASK, PPCVEC, { VD, VB } },
2288 { "vsel", VXA(4, 42), VXA_MASK, PPCVEC, { VD, VA, VB, VC } },
2289 { "vsl", VX(4, 452), VX_MASK, PPCVEC, { VD, VA, VB } },
2290 { "vslb", VX(4, 260), VX_MASK, PPCVEC, { VD, VA, VB } },
2291 { "vsldoi", VXA(4, 44), VXA_MASK, PPCVEC, { VD, VA, VB, SHB } },
2292 { "vslh", VX(4, 324), VX_MASK, PPCVEC, { VD, VA, VB } },
2293 { "vslo", VX(4, 1036), VX_MASK, PPCVEC, { VD, VA, VB } },
2294 { "vslw", VX(4, 388), VX_MASK, PPCVEC, { VD, VA, VB } },
2295 { "vspltb", VX(4, 524), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2296 { "vsplth", VX(4, 588), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2297 { "vspltisb", VX(4, 780), VX_MASK, PPCVEC, { VD, SIMM } },
2298 { "vspltish", VX(4, 844), VX_MASK, PPCVEC, { VD, SIMM } },
2299 { "vspltisw", VX(4, 908), VX_MASK, PPCVEC, { VD, SIMM } },
2300 { "vspltw", VX(4, 652), VX_MASK, PPCVEC, { VD, VB, UIMM } },
2301 { "vsr", VX(4, 708), VX_MASK, PPCVEC, { VD, VA, VB } },
2302 { "vsrab", VX(4, 772), VX_MASK, PPCVEC, { VD, VA, VB } },
2303 { "vsrah", VX(4, 836), VX_MASK, PPCVEC, { VD, VA, VB } },
2304 { "vsraw", VX(4, 900), VX_MASK, PPCVEC, { VD, VA, VB } },
2305 { "vsrb", VX(4, 516), VX_MASK, PPCVEC, { VD, VA, VB } },
2306 { "vsrh", VX(4, 580), VX_MASK, PPCVEC, { VD, VA, VB } },
2307 { "vsro", VX(4, 1100), VX_MASK, PPCVEC, { VD, VA, VB } },
2308 { "vsrw", VX(4, 644), VX_MASK, PPCVEC, { VD, VA, VB } },
2309 { "vsubcuw", VX(4, 1408), VX_MASK, PPCVEC, { VD, VA, VB } },
2310 { "vsubfp", VX(4, 74), VX_MASK, PPCVEC, { VD, VA, VB } },
2311 { "vsubsbs", VX(4, 1792), VX_MASK, PPCVEC, { VD, VA, VB } },
2312 { "vsubshs", VX(4, 1856), VX_MASK, PPCVEC, { VD, VA, VB } },
2313 { "vsubsws", VX(4, 1920), VX_MASK, PPCVEC, { VD, VA, VB } },
2314 { "vsububm", VX(4, 1024), VX_MASK, PPCVEC, { VD, VA, VB } },
2315 { "vsububs", VX(4, 1536), VX_MASK, PPCVEC, { VD, VA, VB } },
2316 { "vsubuhm", VX(4, 1088), VX_MASK, PPCVEC, { VD, VA, VB } },
2317 { "vsubuhs", VX(4, 1600), VX_MASK, PPCVEC, { VD, VA, VB } },
2318 { "vsubuwm", VX(4, 1152), VX_MASK, PPCVEC, { VD, VA, VB } },
2319 { "vsubuws", VX(4, 1664), VX_MASK, PPCVEC, { VD, VA, VB } },
2320 { "vsumsws", VX(4, 1928), VX_MASK, PPCVEC, { VD, VA, VB } },
2321 { "vsum2sws", VX(4, 1672), VX_MASK, PPCVEC, { VD, VA, VB } },
2322 { "vsum4sbs", VX(4, 1800), VX_MASK, PPCVEC, { VD, VA, VB } },
2323 { "vsum4shs", VX(4, 1608), VX_MASK, PPCVEC, { VD, VA, VB } },
2324 { "vsum4ubs", VX(4, 1544), VX_MASK, PPCVEC, { VD, VA, VB } },
2325 { "vupkhpx", VX(4, 846), VX_MASK, PPCVEC, { VD, VB } },
2326 { "vupkhsb", VX(4, 526), VX_MASK, PPCVEC, { VD, VB } },
2327 { "vupkhsh", VX(4, 590), VX_MASK, PPCVEC, { VD, VB } },
2328 { "vupklpx", VX(4, 974), VX_MASK, PPCVEC, { VD, VB } },
2329 { "vupklsb", VX(4, 654), VX_MASK, PPCVEC, { VD, VB } },
2330 { "vupklsh", VX(4, 718), VX_MASK, PPCVEC, { VD, VB } },
2331 { "vxor", VX(4, 1220), VX_MASK, PPCVEC, { VD, VA, VB } },
2332
2333 { "evaddw", VX(4, 512), VX_MASK, PPCSPE, { RS, RA, RB } },
2334 { "evaddiw", VX(4, 514), VX_MASK, PPCSPE, { RS, RB, UIMM } },
2335 { "evsubfw", VX(4, 516), VX_MASK, PPCSPE, { RS, RA, RB } },
2336 { "evsubw", VX(4, 516), VX_MASK, PPCSPE, { RS, RB, RA } },
2337 { "evsubifw", VX(4, 518), VX_MASK, PPCSPE, { RS, UIMM, RB } },
2338 { "evsubiw", VX(4, 518), VX_MASK, PPCSPE, { RS, RB, UIMM } },
2339 { "evabs", VX(4, 520), VX_MASK, PPCSPE, { RS, RA } },
2340 { "evneg", VX(4, 521), VX_MASK, PPCSPE, { RS, RA } },
2341 { "evextsb", VX(4, 522), VX_MASK, PPCSPE, { RS, RA } },
2342 { "evextsh", VX(4, 523), VX_MASK, PPCSPE, { RS, RA } },
2343 { "evrndw", VX(4, 524), VX_MASK, PPCSPE, { RS, RA } },
2344 { "evcntlzw", VX(4, 525), VX_MASK, PPCSPE, { RS, RA } },
2345 { "evcntlsw", VX(4, 526), VX_MASK, PPCSPE, { RS, RA } },
2346
2347 { "brinc", VX(4, 527), VX_MASK, PPCSPE, { RS, RA, RB } },
2348
2349 { "evand", VX(4, 529), VX_MASK, PPCSPE, { RS, RA, RB } },
2350 { "evandc", VX(4, 530), VX_MASK, PPCSPE, { RS, RA, RB } },
2351 { "evmr", VX(4, 535), VX_MASK, PPCSPE, { RS, RA, BBA } },
2352 { "evor", VX(4, 535), VX_MASK, PPCSPE, { RS, RA, RB } },
2353 { "evorc", VX(4, 539), VX_MASK, PPCSPE, { RS, RA, RB } },
2354 { "evxor", VX(4, 534), VX_MASK, PPCSPE, { RS, RA, RB } },
2355 { "eveqv", VX(4, 537), VX_MASK, PPCSPE, { RS, RA, RB } },
2356 { "evnand", VX(4, 542), VX_MASK, PPCSPE, { RS, RA, RB } },
2357 { "evnot", VX(4, 536), VX_MASK, PPCSPE, { RS, RA, BBA } },
2358 { "evnor", VX(4, 536), VX_MASK, PPCSPE, { RS, RA, RB } },
2359
2360 { "evrlw", VX(4, 552), VX_MASK, PPCSPE, { RS, RA, RB } },
2361 { "evrlwi", VX(4, 554), VX_MASK, PPCSPE, { RS, RA, EVUIMM } },
2362 { "evslw", VX(4, 548), VX_MASK, PPCSPE, { RS, RA, RB } },
2363 { "evslwi", VX(4, 550), VX_MASK, PPCSPE, { RS, RA, EVUIMM } },
2364 { "evsrws", VX(4, 545), VX_MASK, PPCSPE, { RS, RA, RB } },
2365 { "evsrwu", VX(4, 544), VX_MASK, PPCSPE, { RS, RA, RB } },
2366 { "evsrwis", VX(4, 547), VX_MASK, PPCSPE, { RS, RA, EVUIMM } },
2367 { "evsrwiu", VX(4, 546), VX_MASK, PPCSPE, { RS, RA, EVUIMM } },
2368 { "evsplati", VX(4, 553), VX_MASK, PPCSPE, { RS, SIMM } },
2369 { "evsplatfi", VX(4, 555), VX_MASK, PPCSPE, { RS, SIMM } },
2370 { "evmergehi", VX(4, 556), VX_MASK, PPCSPE, { RS, RA, RB } },
2371 { "evmergelo", VX(4, 557), VX_MASK, PPCSPE, { RS, RA, RB } },
2372 { "evmergehilo",VX(4,558), VX_MASK, PPCSPE, { RS, RA, RB } },
2373 { "evmergelohi",VX(4,559), VX_MASK, PPCSPE, { RS, RA, RB } },
2374
2375 { "evcmpgts", VX(4, 561), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2376 { "evcmpgtu", VX(4, 560), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2377 { "evcmplts", VX(4, 563), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2378 { "evcmpltu", VX(4, 562), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2379 { "evcmpeq", VX(4, 564), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2380 { "evsel", EVSEL(4,79),EVSEL_MASK, PPCSPE, { RS, RA, RB, CRFS } },
2381
2382 { "evldd", VX(4, 769), VX_MASK, PPCSPE, { RS, EVUIMM_8, RA } },
2383 { "evlddx", VX(4, 768), VX_MASK, PPCSPE, { RS, RA, RB } },
2384 { "evldw", VX(4, 771), VX_MASK, PPCSPE, { RS, EVUIMM_8, RA } },
2385 { "evldwx", VX(4, 770), VX_MASK, PPCSPE, { RS, RA, RB } },
2386 { "evldh", VX(4, 773), VX_MASK, PPCSPE, { RS, EVUIMM_8, RA } },
2387 { "evldhx", VX(4, 772), VX_MASK, PPCSPE, { RS, RA, RB } },
2388 { "evlwhe", VX(4, 785), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2389 { "evlwhex", VX(4, 784), VX_MASK, PPCSPE, { RS, RA, RB } },
2390 { "evlwhou", VX(4, 789), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2391 { "evlwhoux", VX(4, 788), VX_MASK, PPCSPE, { RS, RA, RB } },
2392 { "evlwhos", VX(4, 791), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2393 { "evlwhosx", VX(4, 790), VX_MASK, PPCSPE, { RS, RA, RB } },
2394 { "evlwwsplat",VX(4, 793), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2395 { "evlwwsplatx",VX(4, 792), VX_MASK, PPCSPE, { RS, RA, RB } },
2396 { "evlwhsplat",VX(4, 797), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2397 { "evlwhsplatx",VX(4, 796), VX_MASK, PPCSPE, { RS, RA, RB } },
2398 { "evlhhesplat",VX(4, 777), VX_MASK, PPCSPE, { RS, EVUIMM_2, RA } },
2399 { "evlhhesplatx",VX(4, 776), VX_MASK, PPCSPE, { RS, RA, RB } },
2400 { "evlhhousplat",VX(4, 781), VX_MASK, PPCSPE, { RS, EVUIMM_2, RA } },
2401 { "evlhhousplatx",VX(4, 780), VX_MASK, PPCSPE, { RS, RA, RB } },
2402 { "evlhhossplat",VX(4, 783), VX_MASK, PPCSPE, { RS, EVUIMM_2, RA } },
2403 { "evlhhossplatx",VX(4, 782), VX_MASK, PPCSPE, { RS, RA, RB } },
2404
2405 { "evstdd", VX(4, 801), VX_MASK, PPCSPE, { RS, EVUIMM_8, RA } },
2406 { "evstddx", VX(4, 800), VX_MASK, PPCSPE, { RS, RA, RB } },
2407 { "evstdw", VX(4, 803), VX_MASK, PPCSPE, { RS, EVUIMM_8, RA } },
2408 { "evstdwx", VX(4, 802), VX_MASK, PPCSPE, { RS, RA, RB } },
2409 { "evstdh", VX(4, 805), VX_MASK, PPCSPE, { RS, EVUIMM_8, RA } },
2410 { "evstdhx", VX(4, 804), VX_MASK, PPCSPE, { RS, RA, RB } },
2411 { "evstwwe", VX(4, 825), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2412 { "evstwwex", VX(4, 824), VX_MASK, PPCSPE, { RS, RA, RB } },
2413 { "evstwwo", VX(4, 829), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2414 { "evstwwox", VX(4, 828), VX_MASK, PPCSPE, { RS, RA, RB } },
2415 { "evstwhe", VX(4, 817), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2416 { "evstwhex", VX(4, 816), VX_MASK, PPCSPE, { RS, RA, RB } },
2417 { "evstwho", VX(4, 821), VX_MASK, PPCSPE, { RS, EVUIMM_4, RA } },
2418 { "evstwhox", VX(4, 820), VX_MASK, PPCSPE, { RS, RA, RB } },
2419
2420 { "evfsabs", VX(4, 644), VX_MASK, PPCSPE, { RS, RA } },
2421 { "evfsnabs", VX(4, 645), VX_MASK, PPCSPE, { RS, RA } },
2422 { "evfsneg", VX(4, 646), VX_MASK, PPCSPE, { RS, RA } },
2423 { "evfsadd", VX(4, 640), VX_MASK, PPCSPE, { RS, RA, RB } },
2424 { "evfssub", VX(4, 641), VX_MASK, PPCSPE, { RS, RA, RB } },
2425 { "evfsmul", VX(4, 648), VX_MASK, PPCSPE, { RS, RA, RB } },
2426 { "evfsdiv", VX(4, 649), VX_MASK, PPCSPE, { RS, RA, RB } },
2427 { "evfscmpgt", VX(4, 652), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2428 { "evfscmplt", VX(4, 653), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2429 { "evfscmpeq", VX(4, 654), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2430 { "evfststgt", VX(4, 668), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2431 { "evfststlt", VX(4, 669), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2432 { "evfststeq", VX(4, 670), VX_MASK, PPCSPE, { CRFD, RA, RB } },
2433 { "evfscfui", VX(4, 656), VX_MASK, PPCSPE, { RS, RB } },
2434 { "evfsctuiz", VX(4, 664), VX_MASK, PPCSPE, { RS, RB } },
2435 { "evfscfsi", VX(4, 657), VX_MASK, PPCSPE, { RS, RB } },
2436 { "evfscfuf", VX(4, 658), VX_MASK, PPCSPE, { RS, RB } },
2437 { "evfscfsf", VX(4, 659), VX_MASK, PPCSPE, { RS, RB } },
2438 { "evfsctui", VX(4, 660), VX_MASK, PPCSPE, { RS, RB } },
2439 { "evfsctsi", VX(4, 661), VX_MASK, PPCSPE, { RS, RB } },
2440 { "evfsctsiz", VX(4, 666), VX_MASK, PPCSPE, { RS, RB } },
2441 { "evfsctuf", VX(4, 662), VX_MASK, PPCSPE, { RS, RB } },
2442 { "evfsctsf", VX(4, 663), VX_MASK, PPCSPE, { RS, RB } },
2443
2444 { "efsabs", VX(4, 708), VX_MASK, PPCEFS, { RS, RA } },
2445 { "efsnabs", VX(4, 709), VX_MASK, PPCEFS, { RS, RA } },
2446 { "efsneg", VX(4, 710), VX_MASK, PPCEFS, { RS, RA } },
2447 { "efsadd", VX(4, 704), VX_MASK, PPCEFS, { RS, RA, RB } },
2448 { "efssub", VX(4, 705), VX_MASK, PPCEFS, { RS, RA, RB } },
2449 { "efsmul", VX(4, 712), VX_MASK, PPCEFS, { RS, RA, RB } },
2450 { "efsdiv", VX(4, 713), VX_MASK, PPCEFS, { RS, RA, RB } },
2451 { "efscmpgt", VX(4, 716), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2452 { "efscmplt", VX(4, 717), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2453 { "efscmpeq", VX(4, 718), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2454 { "efststgt", VX(4, 732), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2455 { "efststlt", VX(4, 733), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2456 { "efststeq", VX(4, 734), VX_MASK, PPCEFS, { CRFD, RA, RB } },
2457 { "efscfui", VX(4, 720), VX_MASK, PPCEFS, { RS, RB } },
2458 { "efsctuiz", VX(4, 728), VX_MASK, PPCEFS, { RS, RB } },
2459 { "efscfsi", VX(4, 721), VX_MASK, PPCEFS, { RS, RB } },
2460 { "efscfuf", VX(4, 722), VX_MASK, PPCEFS, { RS, RB } },
2461 { "efscfsf", VX(4, 723), VX_MASK, PPCEFS, { RS, RB } },
2462 { "efsctui", VX(4, 724), VX_MASK, PPCEFS, { RS, RB } },
2463 { "efsctsi", VX(4, 725), VX_MASK, PPCEFS, { RS, RB } },
2464 { "efsctsiz", VX(4, 730), VX_MASK, PPCEFS, { RS, RB } },
2465 { "efsctuf", VX(4, 726), VX_MASK, PPCEFS, { RS, RB } },
2466 { "efsctsf", VX(4, 727), VX_MASK, PPCEFS, { RS, RB } },
2467
2468 { "evmhossf", VX(4, 1031), VX_MASK, PPCSPE, { RS, RA, RB } },
2469 { "evmhossfa", VX(4, 1063), VX_MASK, PPCSPE, { RS, RA, RB } },
2470 { "evmhosmf", VX(4, 1039), VX_MASK, PPCSPE, { RS, RA, RB } },
2471 { "evmhosmfa", VX(4, 1071), VX_MASK, PPCSPE, { RS, RA, RB } },
2472 { "evmhosmi", VX(4, 1037), VX_MASK, PPCSPE, { RS, RA, RB } },
2473 { "evmhosmia", VX(4, 1069), VX_MASK, PPCSPE, { RS, RA, RB } },
2474 { "evmhoumi", VX(4, 1036), VX_MASK, PPCSPE, { RS, RA, RB } },
2475 { "evmhoumia", VX(4, 1068), VX_MASK, PPCSPE, { RS, RA, RB } },
2476 { "evmhessf", VX(4, 1027), VX_MASK, PPCSPE, { RS, RA, RB } },
2477 { "evmhessfa", VX(4, 1059), VX_MASK, PPCSPE, { RS, RA, RB } },
2478 { "evmhesmf", VX(4, 1035), VX_MASK, PPCSPE, { RS, RA, RB } },
2479 { "evmhesmfa", VX(4, 1067), VX_MASK, PPCSPE, { RS, RA, RB } },
2480 { "evmhesmi", VX(4, 1033), VX_MASK, PPCSPE, { RS, RA, RB } },
2481 { "evmhesmia", VX(4, 1065), VX_MASK, PPCSPE, { RS, RA, RB } },
2482 { "evmheumi", VX(4, 1032), VX_MASK, PPCSPE, { RS, RA, RB } },
2483 { "evmheumia", VX(4, 1064), VX_MASK, PPCSPE, { RS, RA, RB } },
2484
2485 { "evmhossfaaw",VX(4, 1287), VX_MASK, PPCSPE, { RS, RA, RB } },
2486 { "evmhossiaaw",VX(4, 1285), VX_MASK, PPCSPE, { RS, RA, RB } },
2487 { "evmhosmfaaw",VX(4, 1295), VX_MASK, PPCSPE, { RS, RA, RB } },
2488 { "evmhosmiaaw",VX(4, 1293), VX_MASK, PPCSPE, { RS, RA, RB } },
2489 { "evmhousiaaw",VX(4, 1284), VX_MASK, PPCSPE, { RS, RA, RB } },
2490 { "evmhoumiaaw",VX(4, 1292), VX_MASK, PPCSPE, { RS, RA, RB } },
2491 { "evmhessfaaw",VX(4, 1283), VX_MASK, PPCSPE, { RS, RA, RB } },
2492 { "evmhessiaaw",VX(4, 1281), VX_MASK, PPCSPE, { RS, RA, RB } },
2493 { "evmhesmfaaw",VX(4, 1291), VX_MASK, PPCSPE, { RS, RA, RB } },
2494 { "evmhesmiaaw",VX(4, 1289), VX_MASK, PPCSPE, { RS, RA, RB } },
2495 { "evmheusiaaw",VX(4, 1280), VX_MASK, PPCSPE, { RS, RA, RB } },
2496 { "evmheumiaaw",VX(4, 1288), VX_MASK, PPCSPE, { RS, RA, RB } },
2497
2498 { "evmhossfanw",VX(4, 1415), VX_MASK, PPCSPE, { RS, RA, RB } },
2499 { "evmhossianw",VX(4, 1413), VX_MASK, PPCSPE, { RS, RA, RB } },
2500 { "evmhosmfanw",VX(4, 1423), VX_MASK, PPCSPE, { RS, RA, RB } },
2501 { "evmhosmianw",VX(4, 1421), VX_MASK, PPCSPE, { RS, RA, RB } },
2502 { "evmhousianw",VX(4, 1412), VX_MASK, PPCSPE, { RS, RA, RB } },
2503 { "evmhoumianw",VX(4, 1420), VX_MASK, PPCSPE, { RS, RA, RB } },
2504 { "evmhessfanw",VX(4, 1411), VX_MASK, PPCSPE, { RS, RA, RB } },
2505 { "evmhessianw",VX(4, 1409), VX_MASK, PPCSPE, { RS, RA, RB } },
2506 { "evmhesmfanw",VX(4, 1419), VX_MASK, PPCSPE, { RS, RA, RB } },
2507 { "evmhesmianw",VX(4, 1417), VX_MASK, PPCSPE, { RS, RA, RB } },
2508 { "evmheusianw",VX(4, 1408), VX_MASK, PPCSPE, { RS, RA, RB } },
2509 { "evmheumianw",VX(4, 1416), VX_MASK, PPCSPE, { RS, RA, RB } },
2510
2511 { "evmhogsmfaa",VX(4, 1327), VX_MASK, PPCSPE, { RS, RA, RB } },
2512 { "evmhogsmiaa",VX(4, 1325), VX_MASK, PPCSPE, { RS, RA, RB } },
2513 { "evmhogumiaa",VX(4, 1324), VX_MASK, PPCSPE, { RS, RA, RB } },
2514 { "evmhegsmfaa",VX(4, 1323), VX_MASK, PPCSPE, { RS, RA, RB } },
2515 { "evmhegsmiaa",VX(4, 1321), VX_MASK, PPCSPE, { RS, RA, RB } },
2516 { "evmhegumiaa",VX(4, 1320), VX_MASK, PPCSPE, { RS, RA, RB } },
2517
2518 { "evmhogsmfan",VX(4, 1455), VX_MASK, PPCSPE, { RS, RA, RB } },
2519 { "evmhogsmian",VX(4, 1453), VX_MASK, PPCSPE, { RS, RA, RB } },
2520 { "evmhogumian",VX(4, 1452), VX_MASK, PPCSPE, { RS, RA, RB } },
2521 { "evmhegsmfan",VX(4, 1451), VX_MASK, PPCSPE, { RS, RA, RB } },
2522 { "evmhegsmian",VX(4, 1449), VX_MASK, PPCSPE, { RS, RA, RB } },
2523 { "evmhegumian",VX(4, 1448), VX_MASK, PPCSPE, { RS, RA, RB } },
2524
2525 { "evmwhssf", VX(4, 1095), VX_MASK, PPCSPE, { RS, RA, RB } },
2526 { "evmwhssfa", VX(4, 1127), VX_MASK, PPCSPE, { RS, RA, RB } },
2527 { "evmwhsmf", VX(4, 1103), VX_MASK, PPCSPE, { RS, RA, RB } },
2528 { "evmwhsmfa", VX(4, 1135), VX_MASK, PPCSPE, { RS, RA, RB } },
2529 { "evmwhsmi", VX(4, 1101), VX_MASK, PPCSPE, { RS, RA, RB } },
2530 { "evmwhsmia", VX(4, 1133), VX_MASK, PPCSPE, { RS, RA, RB } },
2531 { "evmwhumi", VX(4, 1100), VX_MASK, PPCSPE, { RS, RA, RB } },
2532 { "evmwhumia", VX(4, 1132), VX_MASK, PPCSPE, { RS, RA, RB } },
2533
2534 { "evmwlumi", VX(4, 1096), VX_MASK, PPCSPE, { RS, RA, RB } },
2535 { "evmwlumia", VX(4, 1128), VX_MASK, PPCSPE, { RS, RA, RB } },
2536
2537 { "evmwlssiaaw",VX(4, 1345), VX_MASK, PPCSPE, { RS, RA, RB } },
2538 { "evmwlsmiaaw",VX(4, 1353), VX_MASK, PPCSPE, { RS, RA, RB } },
2539 { "evmwlusiaaw",VX(4, 1344), VX_MASK, PPCSPE, { RS, RA, RB } },
2540 { "evmwlumiaaw",VX(4, 1352), VX_MASK, PPCSPE, { RS, RA, RB } },
2541
2542 { "evmwlssianw",VX(4, 1473), VX_MASK, PPCSPE, { RS, RA, RB } },
2543 { "evmwlsmianw",VX(4, 1481), VX_MASK, PPCSPE, { RS, RA, RB } },
2544 { "evmwlusianw",VX(4, 1472), VX_MASK, PPCSPE, { RS, RA, RB } },
2545 { "evmwlumianw",VX(4, 1480), VX_MASK, PPCSPE, { RS, RA, RB } },
2546
2547 { "evmwssf", VX(4, 1107), VX_MASK, PPCSPE, { RS, RA, RB } },
2548 { "evmwssfa", VX(4, 1139), VX_MASK, PPCSPE, { RS, RA, RB } },
2549 { "evmwsmf", VX(4, 1115), VX_MASK, PPCSPE, { RS, RA, RB } },
2550 { "evmwsmfa", VX(4, 1147), VX_MASK, PPCSPE, { RS, RA, RB } },
2551 { "evmwsmi", VX(4, 1113), VX_MASK, PPCSPE, { RS, RA, RB } },
2552 { "evmwsmia", VX(4, 1145), VX_MASK, PPCSPE, { RS, RA, RB } },
2553 { "evmwumi", VX(4, 1112), VX_MASK, PPCSPE, { RS, RA, RB } },
2554 { "evmwumia", VX(4, 1144), VX_MASK, PPCSPE, { RS, RA, RB } },
2555
2556 { "evmwssfaa", VX(4, 1363), VX_MASK, PPCSPE, { RS, RA, RB } },
2557 { "evmwsmfaa", VX(4, 1371), VX_MASK, PPCSPE, { RS, RA, RB } },
2558 { "evmwsmiaa", VX(4, 1369), VX_MASK, PPCSPE, { RS, RA, RB } },
2559 { "evmwumiaa", VX(4, 1368), VX_MASK, PPCSPE, { RS, RA, RB } },
2560
2561 { "evmwssfan", VX(4, 1491), VX_MASK, PPCSPE, { RS, RA, RB } },
2562 { "evmwsmfan", VX(4, 1499), VX_MASK, PPCSPE, { RS, RA, RB } },
2563 { "evmwsmian", VX(4, 1497), VX_MASK, PPCSPE, { RS, RA, RB } },
2564 { "evmwumian", VX(4, 1496), VX_MASK, PPCSPE, { RS, RA, RB } },
2565
2566 { "evaddssiaaw",VX(4, 1217), VX_MASK, PPCSPE, { RS, RA } },
2567 { "evaddsmiaaw",VX(4, 1225), VX_MASK, PPCSPE, { RS, RA } },
2568 { "evaddusiaaw",VX(4, 1216), VX_MASK, PPCSPE, { RS, RA } },
2569 { "evaddumiaaw",VX(4, 1224), VX_MASK, PPCSPE, { RS, RA } },
2570
2571 { "evsubfssiaaw",VX(4, 1219), VX_MASK, PPCSPE, { RS, RA } },
2572 { "evsubfsmiaaw",VX(4, 1227), VX_MASK, PPCSPE, { RS, RA } },
2573 { "evsubfusiaaw",VX(4, 1218), VX_MASK, PPCSPE, { RS, RA } },
2574 { "evsubfumiaaw",VX(4, 1226), VX_MASK, PPCSPE, { RS, RA } },
2575
2576 { "evmra", VX(4, 1220), VX_MASK, PPCSPE, { RS, RA } },
2577
2578 { "evdivws", VX(4, 1222), VX_MASK, PPCSPE, { RS, RA, RB } },
2579 { "evdivwu", VX(4, 1223), VX_MASK, PPCSPE, { RS, RA, RB } },
2580
2581 { "mulli", OP(7), OP_MASK, PPCCOM, { RT, RA, SI } },
2582 { "muli", OP(7), OP_MASK, PWRCOM, { RT, RA, SI } },
2583
2584 { "subfic", OP(8), OP_MASK, PPCCOM, { RT, RA, SI } },
2585 { "sfi", OP(8), OP_MASK, PWRCOM, { RT, RA, SI } },
2586
2587 { "dozi", OP(9), OP_MASK, M601, { RT, RA, SI } },
2588
2589 { "bce", B(9,0,0), B_MASK, BOOKE64, { BO, BI, BD } },
2590 { "bcel", B(9,0,1), B_MASK, BOOKE64, { BO, BI, BD } },
2591 { "bcea", B(9,1,0), B_MASK, BOOKE64, { BO, BI, BDA } },
2592 { "bcela", B(9,1,1), B_MASK, BOOKE64, { BO, BI, BDA } },
2593
2594 { "cmplwi", OPL(10,0), OPL_MASK, PPCCOM, { OBF, RA, UI } },
2595 { "cmpldi", OPL(10,1), OPL_MASK, PPC64, { OBF, RA, UI } },
2596 { "cmpli", OP(10), OP_MASK, PPC, { BF, L, RA, UI } },
2597 { "cmpli", OP(10), OP_MASK, PWRCOM, { BF, RA, UI } },
2598
2599 { "cmpwi", OPL(11,0), OPL_MASK, PPCCOM, { OBF, RA, SI } },
2600 { "cmpdi", OPL(11,1), OPL_MASK, PPC64, { OBF, RA, SI } },
2601 { "cmpi", OP(11), OP_MASK, PPC, { BF, L, RA, SI } },
2602 { "cmpi", OP(11), OP_MASK, PWRCOM, { BF, RA, SI } },
2603
2604 { "addic", OP(12), OP_MASK, PPCCOM, { RT, RA, SI } },
2605 { "ai", OP(12), OP_MASK, PWRCOM, { RT, RA, SI } },
2606 { "subic", OP(12), OP_MASK, PPCCOM, { RT, RA, NSI } },
2607
2608 { "addic.", OP(13), OP_MASK, PPCCOM, { RT, RA, SI } },
2609 { "ai.", OP(13), OP_MASK, PWRCOM, { RT, RA, SI } },
2610 { "subic.", OP(13), OP_MASK, PPCCOM, { RT, RA, NSI } },
2611
2612 { "li", OP(14), DRA_MASK, PPCCOM, { RT, SI } },
2613 { "lil", OP(14), DRA_MASK, PWRCOM, { RT, SI } },
2614 { "addi", OP(14), OP_MASK, PPCCOM, { RT, RA0, SI } },
2615 { "cal", OP(14), OP_MASK, PWRCOM, { RT, D, RA0 } },
2616 { "subi", OP(14), OP_MASK, PPCCOM, { RT, RA0, NSI } },
2617 { "la", OP(14), OP_MASK, PPCCOM, { RT, D, RA0 } },
2618
2619 { "lis", OP(15), DRA_MASK, PPCCOM, { RT, SISIGNOPT } },
2620 { "liu", OP(15), DRA_MASK, PWRCOM, { RT, SISIGNOPT } },
2621 { "addis", OP(15), OP_MASK, PPCCOM, { RT,RA0,SISIGNOPT } },
2622 { "cau", OP(15), OP_MASK, PWRCOM, { RT,RA0,SISIGNOPT } },
2623 { "subis", OP(15), OP_MASK, PPCCOM, { RT, RA0, NSI } },
2624
2625 { "bdnz-", BBO(16,BODNZ,0,0), BBOATBI_MASK, PPCCOM, { BDM } },
2626 { "bdnz+", BBO(16,BODNZ,0,0), BBOATBI_MASK, PPCCOM, { BDP } },
2627 { "bdnz", BBO(16,BODNZ,0,0), BBOATBI_MASK, PPCCOM, { BD } },
2628 { "bdn", BBO(16,BODNZ,0,0), BBOATBI_MASK, PWRCOM, { BD } },
2629 { "bdnzl-", BBO(16,BODNZ,0,1), BBOATBI_MASK, PPCCOM, { BDM } },
2630 { "bdnzl+", BBO(16,BODNZ,0,1), BBOATBI_MASK, PPCCOM, { BDP } },
2631 { "bdnzl", BBO(16,BODNZ,0,1), BBOATBI_MASK, PPCCOM, { BD } },
2632 { "bdnl", BBO(16,BODNZ,0,1), BBOATBI_MASK, PWRCOM, { BD } },
2633 { "bdnza-", BBO(16,BODNZ,1,0), BBOATBI_MASK, PPCCOM, { BDMA } },
2634 { "bdnza+", BBO(16,BODNZ,1,0), BBOATBI_MASK, PPCCOM, { BDPA } },
2635 { "bdnza", BBO(16,BODNZ,1,0), BBOATBI_MASK, PPCCOM, { BDA } },
2636 { "bdna", BBO(16,BODNZ,1,0), BBOATBI_MASK, PWRCOM, { BDA } },
2637 { "bdnzla-", BBO(16,BODNZ,1,1), BBOATBI_MASK, PPCCOM, { BDMA } },
2638 { "bdnzla+", BBO(16,BODNZ,1,1), BBOATBI_MASK, PPCCOM, { BDPA } },
2639 { "bdnzla", BBO(16,BODNZ,1,1), BBOATBI_MASK, PPCCOM, { BDA } },
2640 { "bdnla", BBO(16,BODNZ,1,1), BBOATBI_MASK, PWRCOM, { BDA } },
2641 { "bdz-", BBO(16,BODZ,0,0), BBOATBI_MASK, PPCCOM, { BDM } },
2642 { "bdz+", BBO(16,BODZ,0,0), BBOATBI_MASK, PPCCOM, { BDP } },
2643 { "bdz", BBO(16,BODZ,0,0), BBOATBI_MASK, COM, { BD } },
2644 { "bdzl-", BBO(16,BODZ,0,1), BBOATBI_MASK, PPCCOM, { BDM } },
2645 { "bdzl+", BBO(16,BODZ,0,1), BBOATBI_MASK, PPCCOM, { BDP } },
2646 { "bdzl", BBO(16,BODZ,0,1), BBOATBI_MASK, COM, { BD } },
2647 { "bdza-", BBO(16,BODZ,1,0), BBOATBI_MASK, PPCCOM, { BDMA } },
2648 { "bdza+", BBO(16,BODZ,1,0), BBOATBI_MASK, PPCCOM, { BDPA } },
2649 { "bdza", BBO(16,BODZ,1,0), BBOATBI_MASK, COM, { BDA } },
2650 { "bdzla-", BBO(16,BODZ,1,1), BBOATBI_MASK, PPCCOM, { BDMA } },
2651 { "bdzla+", BBO(16,BODZ,1,1), BBOATBI_MASK, PPCCOM, { BDPA } },
2652 { "bdzla", BBO(16,BODZ,1,1), BBOATBI_MASK, COM, { BDA } },
2653 { "blt-", BBOCB(16,BOT,CBLT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2654 { "blt+", BBOCB(16,BOT,CBLT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2655 { "blt", BBOCB(16,BOT,CBLT,0,0), BBOATCB_MASK, COM, { CR, BD } },
2656 { "bltl-", BBOCB(16,BOT,CBLT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2657 { "bltl+", BBOCB(16,BOT,CBLT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2658 { "bltl", BBOCB(16,BOT,CBLT,0,1), BBOATCB_MASK, COM, { CR, BD } },
2659 { "blta-", BBOCB(16,BOT,CBLT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2660 { "blta+", BBOCB(16,BOT,CBLT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2661 { "blta", BBOCB(16,BOT,CBLT,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2662 { "bltla-", BBOCB(16,BOT,CBLT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2663 { "bltla+", BBOCB(16,BOT,CBLT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2664 { "bltla", BBOCB(16,BOT,CBLT,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2665 { "bgt-", BBOCB(16,BOT,CBGT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2666 { "bgt+", BBOCB(16,BOT,CBGT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2667 { "bgt", BBOCB(16,BOT,CBGT,0,0), BBOATCB_MASK, COM, { CR, BD } },
2668 { "bgtl-", BBOCB(16,BOT,CBGT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2669 { "bgtl+", BBOCB(16,BOT,CBGT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2670 { "bgtl", BBOCB(16,BOT,CBGT,0,1), BBOATCB_MASK, COM, { CR, BD } },
2671 { "bgta-", BBOCB(16,BOT,CBGT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2672 { "bgta+", BBOCB(16,BOT,CBGT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2673 { "bgta", BBOCB(16,BOT,CBGT,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2674 { "bgtla-", BBOCB(16,BOT,CBGT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2675 { "bgtla+", BBOCB(16,BOT,CBGT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2676 { "bgtla", BBOCB(16,BOT,CBGT,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2677 { "beq-", BBOCB(16,BOT,CBEQ,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2678 { "beq+", BBOCB(16,BOT,CBEQ,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2679 { "beq", BBOCB(16,BOT,CBEQ,0,0), BBOATCB_MASK, COM, { CR, BD } },
2680 { "beql-", BBOCB(16,BOT,CBEQ,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2681 { "beql+", BBOCB(16,BOT,CBEQ,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2682 { "beql", BBOCB(16,BOT,CBEQ,0,1), BBOATCB_MASK, COM, { CR, BD } },
2683 { "beqa-", BBOCB(16,BOT,CBEQ,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2684 { "beqa+", BBOCB(16,BOT,CBEQ,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2685 { "beqa", BBOCB(16,BOT,CBEQ,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2686 { "beqla-", BBOCB(16,BOT,CBEQ,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2687 { "beqla+", BBOCB(16,BOT,CBEQ,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2688 { "beqla", BBOCB(16,BOT,CBEQ,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2689 { "bso-", BBOCB(16,BOT,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2690 { "bso+", BBOCB(16,BOT,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2691 { "bso", BBOCB(16,BOT,CBSO,0,0), BBOATCB_MASK, COM, { CR, BD } },
2692 { "bsol-", BBOCB(16,BOT,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2693 { "bsol+", BBOCB(16,BOT,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2694 { "bsol", BBOCB(16,BOT,CBSO,0,1), BBOATCB_MASK, COM, { CR, BD } },
2695 { "bsoa-", BBOCB(16,BOT,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2696 { "bsoa+", BBOCB(16,BOT,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2697 { "bsoa", BBOCB(16,BOT,CBSO,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2698 { "bsola-", BBOCB(16,BOT,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2699 { "bsola+", BBOCB(16,BOT,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2700 { "bsola", BBOCB(16,BOT,CBSO,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2701 { "bun-", BBOCB(16,BOT,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2702 { "bun+", BBOCB(16,BOT,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2703 { "bun", BBOCB(16,BOT,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BD } },
2704 { "bunl-", BBOCB(16,BOT,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2705 { "bunl+", BBOCB(16,BOT,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2706 { "bunl", BBOCB(16,BOT,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BD } },
2707 { "buna-", BBOCB(16,BOT,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2708 { "buna+", BBOCB(16,BOT,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2709 { "buna", BBOCB(16,BOT,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDA } },
2710 { "bunla-", BBOCB(16,BOT,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2711 { "bunla+", BBOCB(16,BOT,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2712 { "bunla", BBOCB(16,BOT,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDA } },
2713 { "bge-", BBOCB(16,BOF,CBLT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2714 { "bge+", BBOCB(16,BOF,CBLT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2715 { "bge", BBOCB(16,BOF,CBLT,0,0), BBOATCB_MASK, COM, { CR, BD } },
2716 { "bgel-", BBOCB(16,BOF,CBLT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2717 { "bgel+", BBOCB(16,BOF,CBLT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2718 { "bgel", BBOCB(16,BOF,CBLT,0,1), BBOATCB_MASK, COM, { CR, BD } },
2719 { "bgea-", BBOCB(16,BOF,CBLT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2720 { "bgea+", BBOCB(16,BOF,CBLT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2721 { "bgea", BBOCB(16,BOF,CBLT,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2722 { "bgela-", BBOCB(16,BOF,CBLT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2723 { "bgela+", BBOCB(16,BOF,CBLT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2724 { "bgela", BBOCB(16,BOF,CBLT,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2725 { "bnl-", BBOCB(16,BOF,CBLT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2726 { "bnl+", BBOCB(16,BOF,CBLT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2727 { "bnl", BBOCB(16,BOF,CBLT,0,0), BBOATCB_MASK, COM, { CR, BD } },
2728 { "bnll-", BBOCB(16,BOF,CBLT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2729 { "bnll+", BBOCB(16,BOF,CBLT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2730 { "bnll", BBOCB(16,BOF,CBLT,0,1), BBOATCB_MASK, COM, { CR, BD } },
2731 { "bnla-", BBOCB(16,BOF,CBLT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2732 { "bnla+", BBOCB(16,BOF,CBLT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2733 { "bnla", BBOCB(16,BOF,CBLT,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2734 { "bnlla-", BBOCB(16,BOF,CBLT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2735 { "bnlla+", BBOCB(16,BOF,CBLT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2736 { "bnlla", BBOCB(16,BOF,CBLT,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2737 { "ble-", BBOCB(16,BOF,CBGT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2738 { "ble+", BBOCB(16,BOF,CBGT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2739 { "ble", BBOCB(16,BOF,CBGT,0,0), BBOATCB_MASK, COM, { CR, BD } },
2740 { "blel-", BBOCB(16,BOF,CBGT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2741 { "blel+", BBOCB(16,BOF,CBGT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2742 { "blel", BBOCB(16,BOF,CBGT,0,1), BBOATCB_MASK, COM, { CR, BD } },
2743 { "blea-", BBOCB(16,BOF,CBGT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2744 { "blea+", BBOCB(16,BOF,CBGT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2745 { "blea", BBOCB(16,BOF,CBGT,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2746 { "blela-", BBOCB(16,BOF,CBGT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2747 { "blela+", BBOCB(16,BOF,CBGT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2748 { "blela", BBOCB(16,BOF,CBGT,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2749 { "bng-", BBOCB(16,BOF,CBGT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2750 { "bng+", BBOCB(16,BOF,CBGT,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2751 { "bng", BBOCB(16,BOF,CBGT,0,0), BBOATCB_MASK, COM, { CR, BD } },
2752 { "bngl-", BBOCB(16,BOF,CBGT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2753 { "bngl+", BBOCB(16,BOF,CBGT,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2754 { "bngl", BBOCB(16,BOF,CBGT,0,1), BBOATCB_MASK, COM, { CR, BD } },
2755 { "bnga-", BBOCB(16,BOF,CBGT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2756 { "bnga+", BBOCB(16,BOF,CBGT,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2757 { "bnga", BBOCB(16,BOF,CBGT,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2758 { "bngla-", BBOCB(16,BOF,CBGT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2759 { "bngla+", BBOCB(16,BOF,CBGT,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2760 { "bngla", BBOCB(16,BOF,CBGT,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2761 { "bne-", BBOCB(16,BOF,CBEQ,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2762 { "bne+", BBOCB(16,BOF,CBEQ,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2763 { "bne", BBOCB(16,BOF,CBEQ,0,0), BBOATCB_MASK, COM, { CR, BD } },
2764 { "bnel-", BBOCB(16,BOF,CBEQ,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2765 { "bnel+", BBOCB(16,BOF,CBEQ,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2766 { "bnel", BBOCB(16,BOF,CBEQ,0,1), BBOATCB_MASK, COM, { CR, BD } },
2767 { "bnea-", BBOCB(16,BOF,CBEQ,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2768 { "bnea+", BBOCB(16,BOF,CBEQ,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2769 { "bnea", BBOCB(16,BOF,CBEQ,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2770 { "bnela-", BBOCB(16,BOF,CBEQ,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2771 { "bnela+", BBOCB(16,BOF,CBEQ,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2772 { "bnela", BBOCB(16,BOF,CBEQ,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2773 { "bns-", BBOCB(16,BOF,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2774 { "bns+", BBOCB(16,BOF,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2775 { "bns", BBOCB(16,BOF,CBSO,0,0), BBOATCB_MASK, COM, { CR, BD } },
2776 { "bnsl-", BBOCB(16,BOF,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2777 { "bnsl+", BBOCB(16,BOF,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2778 { "bnsl", BBOCB(16,BOF,CBSO,0,1), BBOATCB_MASK, COM, { CR, BD } },
2779 { "bnsa-", BBOCB(16,BOF,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2780 { "bnsa+", BBOCB(16,BOF,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2781 { "bnsa", BBOCB(16,BOF,CBSO,1,0), BBOATCB_MASK, COM, { CR, BDA } },
2782 { "bnsla-", BBOCB(16,BOF,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2783 { "bnsla+", BBOCB(16,BOF,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2784 { "bnsla", BBOCB(16,BOF,CBSO,1,1), BBOATCB_MASK, COM, { CR, BDA } },
2785 { "bnu-", BBOCB(16,BOF,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2786 { "bnu+", BBOCB(16,BOF,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2787 { "bnu", BBOCB(16,BOF,CBSO,0,0), BBOATCB_MASK, PPCCOM, { CR, BD } },
2788 { "bnul-", BBOCB(16,BOF,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDM } },
2789 { "bnul+", BBOCB(16,BOF,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BDP } },
2790 { "bnul", BBOCB(16,BOF,CBSO,0,1), BBOATCB_MASK, PPCCOM, { CR, BD } },
2791 { "bnua-", BBOCB(16,BOF,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2792 { "bnua+", BBOCB(16,BOF,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2793 { "bnua", BBOCB(16,BOF,CBSO,1,0), BBOATCB_MASK, PPCCOM, { CR, BDA } },
2794 { "bnula-", BBOCB(16,BOF,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDMA } },
2795 { "bnula+", BBOCB(16,BOF,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDPA } },
2796 { "bnula", BBOCB(16,BOF,CBSO,1,1), BBOATCB_MASK, PPCCOM, { CR, BDA } },
2797 { "bdnzt-", BBO(16,BODNZT,0,0), BBOY_MASK, NOPOWER4, { BI, BDM } },
2798 { "bdnzt+", BBO(16,BODNZT,0,0), BBOY_MASK, NOPOWER4, { BI, BDP } },
2799 { "bdnzt", BBO(16,BODNZT,0,0), BBOY_MASK, PPCCOM, { BI, BD } },
2800 { "bdnztl-", BBO(16,BODNZT,0,1), BBOY_MASK, NOPOWER4, { BI, BDM } },
2801 { "bdnztl+", BBO(16,BODNZT,0,1), BBOY_MASK, NOPOWER4, { BI, BDP } },
2802 { "bdnztl", BBO(16,BODNZT,0,1), BBOY_MASK, PPCCOM, { BI, BD } },
2803 { "bdnzta-", BBO(16,BODNZT,1,0), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2804 { "bdnzta+", BBO(16,BODNZT,1,0), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2805 { "bdnzta", BBO(16,BODNZT,1,0), BBOY_MASK, PPCCOM, { BI, BDA } },
2806 { "bdnztla-",BBO(16,BODNZT,1,1), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2807 { "bdnztla+",BBO(16,BODNZT,1,1), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2808 { "bdnztla", BBO(16,BODNZT,1,1), BBOY_MASK, PPCCOM, { BI, BDA } },
2809 { "bdnzf-", BBO(16,BODNZF,0,0), BBOY_MASK, NOPOWER4, { BI, BDM } },
2810 { "bdnzf+", BBO(16,BODNZF,0,0), BBOY_MASK, NOPOWER4, { BI, BDP } },
2811 { "bdnzf", BBO(16,BODNZF,0,0), BBOY_MASK, PPCCOM, { BI, BD } },
2812 { "bdnzfl-", BBO(16,BODNZF,0,1), BBOY_MASK, NOPOWER4, { BI, BDM } },
2813 { "bdnzfl+", BBO(16,BODNZF,0,1), BBOY_MASK, NOPOWER4, { BI, BDP } },
2814 { "bdnzfl", BBO(16,BODNZF,0,1), BBOY_MASK, PPCCOM, { BI, BD } },
2815 { "bdnzfa-", BBO(16,BODNZF,1,0), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2816 { "bdnzfa+", BBO(16,BODNZF,1,0), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2817 { "bdnzfa", BBO(16,BODNZF,1,0), BBOY_MASK, PPCCOM, { BI, BDA } },
2818 { "bdnzfla-",BBO(16,BODNZF,1,1), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2819 { "bdnzfla+",BBO(16,BODNZF,1,1), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2820 { "bdnzfla", BBO(16,BODNZF,1,1), BBOY_MASK, PPCCOM, { BI, BDA } },
2821 { "bt-", BBO(16,BOT,0,0), BBOAT_MASK, PPCCOM, { BI, BDM } },
2822 { "bt+", BBO(16,BOT,0,0), BBOAT_MASK, PPCCOM, { BI, BDP } },
2823 { "bt", BBO(16,BOT,0,0), BBOAT_MASK, PPCCOM, { BI, BD } },
2824 { "bbt", BBO(16,BOT,0,0), BBOAT_MASK, PWRCOM, { BI, BD } },
2825 { "btl-", BBO(16,BOT,0,1), BBOAT_MASK, PPCCOM, { BI, BDM } },
2826 { "btl+", BBO(16,BOT,0,1), BBOAT_MASK, PPCCOM, { BI, BDP } },
2827 { "btl", BBO(16,BOT,0,1), BBOAT_MASK, PPCCOM, { BI, BD } },
2828 { "bbtl", BBO(16,BOT,0,1), BBOAT_MASK, PWRCOM, { BI, BD } },
2829 { "bta-", BBO(16,BOT,1,0), BBOAT_MASK, PPCCOM, { BI, BDMA } },
2830 { "bta+", BBO(16,BOT,1,0), BBOAT_MASK, PPCCOM, { BI, BDPA } },
2831 { "bta", BBO(16,BOT,1,0), BBOAT_MASK, PPCCOM, { BI, BDA } },
2832 { "bbta", BBO(16,BOT,1,0), BBOAT_MASK, PWRCOM, { BI, BDA } },
2833 { "btla-", BBO(16,BOT,1,1), BBOAT_MASK, PPCCOM, { BI, BDMA } },
2834 { "btla+", BBO(16,BOT,1,1), BBOAT_MASK, PPCCOM, { BI, BDPA } },
2835 { "btla", BBO(16,BOT,1,1), BBOAT_MASK, PPCCOM, { BI, BDA } },
2836 { "bbtla", BBO(16,BOT,1,1), BBOAT_MASK, PWRCOM, { BI, BDA } },
2837 { "bf-", BBO(16,BOF,0,0), BBOAT_MASK, PPCCOM, { BI, BDM } },
2838 { "bf+", BBO(16,BOF,0,0), BBOAT_MASK, PPCCOM, { BI, BDP } },
2839 { "bf", BBO(16,BOF,0,0), BBOAT_MASK, PPCCOM, { BI, BD } },
2840 { "bbf", BBO(16,BOF,0,0), BBOAT_MASK, PWRCOM, { BI, BD } },
2841 { "bfl-", BBO(16,BOF,0,1), BBOAT_MASK, PPCCOM, { BI, BDM } },
2842 { "bfl+", BBO(16,BOF,0,1), BBOAT_MASK, PPCCOM, { BI, BDP } },
2843 { "bfl", BBO(16,BOF,0,1), BBOAT_MASK, PPCCOM, { BI, BD } },
2844 { "bbfl", BBO(16,BOF,0,1), BBOAT_MASK, PWRCOM, { BI, BD } },
2845 { "bfa-", BBO(16,BOF,1,0), BBOAT_MASK, PPCCOM, { BI, BDMA } },
2846 { "bfa+", BBO(16,BOF,1,0), BBOAT_MASK, PPCCOM, { BI, BDPA } },
2847 { "bfa", BBO(16,BOF,1,0), BBOAT_MASK, PPCCOM, { BI, BDA } },
2848 { "bbfa", BBO(16,BOF,1,0), BBOAT_MASK, PWRCOM, { BI, BDA } },
2849 { "bfla-", BBO(16,BOF,1,1), BBOAT_MASK, PPCCOM, { BI, BDMA } },
2850 { "bfla+", BBO(16,BOF,1,1), BBOAT_MASK, PPCCOM, { BI, BDPA } },
2851 { "bfla", BBO(16,BOF,1,1), BBOAT_MASK, PPCCOM, { BI, BDA } },
2852 { "bbfla", BBO(16,BOF,1,1), BBOAT_MASK, PWRCOM, { BI, BDA } },
2853 { "bdzt-", BBO(16,BODZT,0,0), BBOY_MASK, NOPOWER4, { BI, BDM } },
2854 { "bdzt+", BBO(16,BODZT,0,0), BBOY_MASK, NOPOWER4, { BI, BDP } },
2855 { "bdzt", BBO(16,BODZT,0,0), BBOY_MASK, PPCCOM, { BI, BD } },
2856 { "bdztl-", BBO(16,BODZT,0,1), BBOY_MASK, NOPOWER4, { BI, BDM } },
2857 { "bdztl+", BBO(16,BODZT,0,1), BBOY_MASK, NOPOWER4, { BI, BDP } },
2858 { "bdztl", BBO(16,BODZT,0,1), BBOY_MASK, PPCCOM, { BI, BD } },
2859 { "bdzta-", BBO(16,BODZT,1,0), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2860 { "bdzta+", BBO(16,BODZT,1,0), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2861 { "bdzta", BBO(16,BODZT,1,0), BBOY_MASK, PPCCOM, { BI, BDA } },
2862 { "bdztla-", BBO(16,BODZT,1,1), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2863 { "bdztla+", BBO(16,BODZT,1,1), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2864 { "bdztla", BBO(16,BODZT,1,1), BBOY_MASK, PPCCOM, { BI, BDA } },
2865 { "bdzf-", BBO(16,BODZF,0,0), BBOY_MASK, NOPOWER4, { BI, BDM } },
2866 { "bdzf+", BBO(16,BODZF,0,0), BBOY_MASK, NOPOWER4, { BI, BDP } },
2867 { "bdzf", BBO(16,BODZF,0,0), BBOY_MASK, PPCCOM, { BI, BD } },
2868 { "bdzfl-", BBO(16,BODZF,0,1), BBOY_MASK, NOPOWER4, { BI, BDM } },
2869 { "bdzfl+", BBO(16,BODZF,0,1), BBOY_MASK, NOPOWER4, { BI, BDP } },
2870 { "bdzfl", BBO(16,BODZF,0,1), BBOY_MASK, PPCCOM, { BI, BD } },
2871 { "bdzfa-", BBO(16,BODZF,1,0), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2872 { "bdzfa+", BBO(16,BODZF,1,0), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2873 { "bdzfa", BBO(16,BODZF,1,0), BBOY_MASK, PPCCOM, { BI, BDA } },
2874 { "bdzfla-", BBO(16,BODZF,1,1), BBOY_MASK, NOPOWER4, { BI, BDMA } },
2875 { "bdzfla+", BBO(16,BODZF,1,1), BBOY_MASK, NOPOWER4, { BI, BDPA } },
2876 { "bdzfla", BBO(16,BODZF,1,1), BBOY_MASK, PPCCOM, { BI, BDA } },
2877 { "bc-", B(16,0,0), B_MASK, PPCCOM, { BOE, BI, BDM } },
2878 { "bc+", B(16,0,0), B_MASK, PPCCOM, { BOE, BI, BDP } },
2879 { "bc", B(16,0,0), B_MASK, COM, { BO, BI, BD } },
2880 { "bcl-", B(16,0,1), B_MASK, PPCCOM, { BOE, BI, BDM } },
2881 { "bcl+", B(16,0,1), B_MASK, PPCCOM, { BOE, BI, BDP } },
2882 { "bcl", B(16,0,1), B_MASK, COM, { BO, BI, BD } },
2883 { "bca-", B(16,1,0), B_MASK, PPCCOM, { BOE, BI, BDMA } },
2884 { "bca+", B(16,1,0), B_MASK, PPCCOM, { BOE, BI, BDPA } },
2885 { "bca", B(16,1,0), B_MASK, COM, { BO, BI, BDA } },
2886 { "bcla-", B(16,1,1), B_MASK, PPCCOM, { BOE, BI, BDMA } },
2887 { "bcla+", B(16,1,1), B_MASK, PPCCOM, { BOE, BI, BDPA } },
2888 { "bcla", B(16,1,1), B_MASK, COM, { BO, BI, BDA } },
2889
2890 { "sc", SC(17,1,0), SC_MASK, PPC, { LEV } },
2891 { "svc", SC(17,0,0), SC_MASK, POWER, { SVC_LEV, FL1, FL2 } },
2892 { "svcl", SC(17,0,1), SC_MASK, POWER, { SVC_LEV, FL1, FL2 } },
2893 { "svca", SC(17,1,0), SC_MASK, PWRCOM, { SV } },
2894 { "svcla", SC(17,1,1), SC_MASK, POWER, { SV } },
2895
2896 { "b", B(18,0,0), B_MASK, COM, { LI } },
2897 { "bl", B(18,0,1), B_MASK, COM, { LI } },
2898 { "ba", B(18,1,0), B_MASK, COM, { LIA } },
2899 { "bla", B(18,1,1), B_MASK, COM, { LIA } },
2900
2901 { "mcrf", XL(19,0), XLBB_MASK|(3 << 21)|(3 << 16), COM, { BF, BFA } },
2902
2903 { "blr", XLO(19,BOU,16,0), XLBOBIBB_MASK, PPCCOM, { 0 } },
2904 { "br", XLO(19,BOU,16,0), XLBOBIBB_MASK, PWRCOM, { 0 } },
2905 { "blrl", XLO(19,BOU,16,1), XLBOBIBB_MASK, PPCCOM, { 0 } },
2906 { "brl", XLO(19,BOU,16,1), XLBOBIBB_MASK, PWRCOM, { 0 } },
2907 { "bdnzlr", XLO(19,BODNZ,16,0), XLBOBIBB_MASK, PPCCOM, { 0 } },
2908 { "bdnzlr-", XLO(19,BODNZ,16,0), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2909 { "bdnzlr-", XLO(19,BODNZM4,16,0), XLBOBIBB_MASK, POWER4, { 0 } },
2910 { "bdnzlr+", XLO(19,BODNZP,16,0), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2911 { "bdnzlr+", XLO(19,BODNZP4,16,0), XLBOBIBB_MASK, POWER4, { 0 } },
2912 { "bdnzlrl", XLO(19,BODNZ,16,1), XLBOBIBB_MASK, PPCCOM, { 0 } },
2913 { "bdnzlrl-",XLO(19,BODNZ,16,1), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2914 { "bdnzlrl-",XLO(19,BODNZM4,16,1), XLBOBIBB_MASK, POWER4, { 0 } },
2915 { "bdnzlrl+",XLO(19,BODNZP,16,1), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2916 { "bdnzlrl+",XLO(19,BODNZP4,16,1), XLBOBIBB_MASK, POWER4, { 0 } },
2917 { "bdzlr", XLO(19,BODZ,16,0), XLBOBIBB_MASK, PPCCOM, { 0 } },
2918 { "bdzlr-", XLO(19,BODZ,16,0), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2919 { "bdzlr-", XLO(19,BODZM4,16,0), XLBOBIBB_MASK, POWER4, { 0 } },
2920 { "bdzlr+", XLO(19,BODZP,16,0), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2921 { "bdzlr+", XLO(19,BODZP4,16,0), XLBOBIBB_MASK, POWER4, { 0 } },
2922 { "bdzlrl", XLO(19,BODZ,16,1), XLBOBIBB_MASK, PPCCOM, { 0 } },
2923 { "bdzlrl-", XLO(19,BODZ,16,1), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2924 { "bdzlrl-", XLO(19,BODZM4,16,1), XLBOBIBB_MASK, POWER4, { 0 } },
2925 { "bdzlrl+", XLO(19,BODZP,16,1), XLBOBIBB_MASK, NOPOWER4, { 0 } },
2926 { "bdzlrl+", XLO(19,BODZP4,16,1), XLBOBIBB_MASK, POWER4, { 0 } },
2927 { "bltlr", XLOCB(19,BOT,CBLT,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2928 { "bltlr-", XLOCB(19,BOT,CBLT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2929 { "bltlr-", XLOCB(19,BOTM4,CBLT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2930 { "bltlr+", XLOCB(19,BOTP,CBLT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2931 { "bltlr+", XLOCB(19,BOTP4,CBLT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2932 { "bltr", XLOCB(19,BOT,CBLT,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
2933 { "bltlrl", XLOCB(19,BOT,CBLT,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
2934 { "bltlrl-", XLOCB(19,BOT,CBLT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2935 { "bltlrl-", XLOCB(19,BOTM4,CBLT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2936 { "bltlrl+", XLOCB(19,BOTP,CBLT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2937 { "bltlrl+", XLOCB(19,BOTP4,CBLT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2938 { "bltrl", XLOCB(19,BOT,CBLT,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
2939 { "bgtlr", XLOCB(19,BOT,CBGT,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2940 { "bgtlr-", XLOCB(19,BOT,CBGT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2941 { "bgtlr-", XLOCB(19,BOTM4,CBGT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2942 { "bgtlr+", XLOCB(19,BOTP,CBGT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2943 { "bgtlr+", XLOCB(19,BOTP4,CBGT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2944 { "bgtr", XLOCB(19,BOT,CBGT,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
2945 { "bgtlrl", XLOCB(19,BOT,CBGT,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
2946 { "bgtlrl-", XLOCB(19,BOT,CBGT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2947 { "bgtlrl-", XLOCB(19,BOTM4,CBGT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2948 { "bgtlrl+", XLOCB(19,BOTP,CBGT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2949 { "bgtlrl+", XLOCB(19,BOTP4,CBGT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2950 { "bgtrl", XLOCB(19,BOT,CBGT,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
2951 { "beqlr", XLOCB(19,BOT,CBEQ,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2952 { "beqlr-", XLOCB(19,BOT,CBEQ,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2953 { "beqlr-", XLOCB(19,BOTM4,CBEQ,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2954 { "beqlr+", XLOCB(19,BOTP,CBEQ,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2955 { "beqlr+", XLOCB(19,BOTP4,CBEQ,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2956 { "beqr", XLOCB(19,BOT,CBEQ,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
2957 { "beqlrl", XLOCB(19,BOT,CBEQ,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
2958 { "beqlrl-", XLOCB(19,BOT,CBEQ,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2959 { "beqlrl-", XLOCB(19,BOTM4,CBEQ,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2960 { "beqlrl+", XLOCB(19,BOTP,CBEQ,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2961 { "beqlrl+", XLOCB(19,BOTP4,CBEQ,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2962 { "beqrl", XLOCB(19,BOT,CBEQ,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
2963 { "bsolr", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2964 { "bsolr-", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2965 { "bsolr-", XLOCB(19,BOTM4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2966 { "bsolr+", XLOCB(19,BOTP,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2967 { "bsolr+", XLOCB(19,BOTP4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2968 { "bsor", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
2969 { "bsolrl", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
2970 { "bsolrl-", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2971 { "bsolrl-", XLOCB(19,BOTM4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2972 { "bsolrl+", XLOCB(19,BOTP,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2973 { "bsolrl+", XLOCB(19,BOTP4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2974 { "bsorl", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
2975 { "bunlr", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2976 { "bunlr-", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2977 { "bunlr-", XLOCB(19,BOTM4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2978 { "bunlr+", XLOCB(19,BOTP,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2979 { "bunlr+", XLOCB(19,BOTP4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2980 { "bunlrl", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
2981 { "bunlrl-", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2982 { "bunlrl-", XLOCB(19,BOTM4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2983 { "bunlrl+", XLOCB(19,BOTP,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2984 { "bunlrl+", XLOCB(19,BOTP4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2985 { "bgelr", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2986 { "bgelr-", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2987 { "bgelr-", XLOCB(19,BOFM4,CBLT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2988 { "bgelr+", XLOCB(19,BOFP,CBLT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2989 { "bgelr+", XLOCB(19,BOFP4,CBLT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
2990 { "bger", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
2991 { "bgelrl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
2992 { "bgelrl-", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2993 { "bgelrl-", XLOCB(19,BOFM4,CBLT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2994 { "bgelrl+", XLOCB(19,BOFP,CBLT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
2995 { "bgelrl+", XLOCB(19,BOFP4,CBLT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
2996 { "bgerl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
2997 { "bnllr", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
2998 { "bnllr-", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
2999 { "bnllr-", XLOCB(19,BOFM4,CBLT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3000 { "bnllr+", XLOCB(19,BOFP,CBLT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3001 { "bnllr+", XLOCB(19,BOFP4,CBLT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3002 { "bnlr", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
3003 { "bnllrl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3004 { "bnllrl-", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3005 { "bnllrl-", XLOCB(19,BOFM4,CBLT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3006 { "bnllrl+", XLOCB(19,BOFP,CBLT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3007 { "bnllrl+", XLOCB(19,BOFP4,CBLT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3008 { "bnlrl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
3009 { "blelr", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3010 { "blelr-", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3011 { "blelr-", XLOCB(19,BOFM4,CBGT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3012 { "blelr+", XLOCB(19,BOFP,CBGT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3013 { "blelr+", XLOCB(19,BOFP4,CBGT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3014 { "bler", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
3015 { "blelrl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3016 { "blelrl-", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3017 { "blelrl-", XLOCB(19,BOFM4,CBGT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3018 { "blelrl+", XLOCB(19,BOFP,CBGT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3019 { "blelrl+", XLOCB(19,BOFP4,CBGT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3020 { "blerl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
3021 { "bnglr", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3022 { "bnglr-", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3023 { "bnglr-", XLOCB(19,BOFM4,CBGT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3024 { "bnglr+", XLOCB(19,BOFP,CBGT,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3025 { "bnglr+", XLOCB(19,BOFP4,CBGT,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3026 { "bngr", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
3027 { "bnglrl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3028 { "bnglrl-", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3029 { "bnglrl-", XLOCB(19,BOFM4,CBGT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3030 { "bnglrl+", XLOCB(19,BOFP,CBGT,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3031 { "bnglrl+", XLOCB(19,BOFP4,CBGT,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3032 { "bngrl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
3033 { "bnelr", XLOCB(19,BOF,CBEQ,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3034 { "bnelr-", XLOCB(19,BOF,CBEQ,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3035 { "bnelr-", XLOCB(19,BOFM4,CBEQ,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3036 { "bnelr+", XLOCB(19,BOFP,CBEQ,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3037 { "bnelr+", XLOCB(19,BOFP4,CBEQ,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3038 { "bner", XLOCB(19,BOF,CBEQ,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
3039 { "bnelrl", XLOCB(19,BOF,CBEQ,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3040 { "bnelrl-", XLOCB(19,BOF,CBEQ,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3041 { "bnelrl-", XLOCB(19,BOFM4,CBEQ,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3042 { "bnelrl+", XLOCB(19,BOFP,CBEQ,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3043 { "bnelrl+", XLOCB(19,BOFP4,CBEQ,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3044 { "bnerl", XLOCB(19,BOF,CBEQ,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
3045 { "bnslr", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3046 { "bnslr-", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3047 { "bnslr-", XLOCB(19,BOFM4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3048 { "bnslr+", XLOCB(19,BOFP,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3049 { "bnslr+", XLOCB(19,BOFP4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3050 { "bnsr", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PWRCOM, { CR } },
3051 { "bnslrl", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3052 { "bnslrl-", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3053 { "bnslrl-", XLOCB(19,BOFM4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3054 { "bnslrl+", XLOCB(19,BOFP,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3055 { "bnslrl+", XLOCB(19,BOFP4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3056 { "bnsrl", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PWRCOM, { CR } },
3057 { "bnulr", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3058 { "bnulr-", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3059 { "bnulr-", XLOCB(19,BOFM4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3060 { "bnulr+", XLOCB(19,BOFP,CBSO,16,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3061 { "bnulr+", XLOCB(19,BOFP4,CBSO,16,0), XLBOCBBB_MASK, POWER4, { CR } },
3062 { "bnulrl", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3063 { "bnulrl-", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3064 { "bnulrl-", XLOCB(19,BOFM4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3065 { "bnulrl+", XLOCB(19,BOFP,CBSO,16,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3066 { "bnulrl+", XLOCB(19,BOFP4,CBSO,16,1), XLBOCBBB_MASK, POWER4, { CR } },
3067 { "btlr", XLO(19,BOT,16,0), XLBOBB_MASK, PPCCOM, { BI } },
3068 { "btlr-", XLO(19,BOT,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3069 { "btlr-", XLO(19,BOTM4,16,0), XLBOBB_MASK, POWER4, { BI } },
3070 { "btlr+", XLO(19,BOTP,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3071 { "btlr+", XLO(19,BOTP4,16,0), XLBOBB_MASK, POWER4, { BI } },
3072 { "bbtr", XLO(19,BOT,16,0), XLBOBB_MASK, PWRCOM, { BI } },
3073 { "btlrl", XLO(19,BOT,16,1), XLBOBB_MASK, PPCCOM, { BI } },
3074 { "btlrl-", XLO(19,BOT,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3075 { "btlrl-", XLO(19,BOTM4,16,1), XLBOBB_MASK, POWER4, { BI } },
3076 { "btlrl+", XLO(19,BOTP,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3077 { "btlrl+", XLO(19,BOTP4,16,1), XLBOBB_MASK, POWER4, { BI } },
3078 { "bbtrl", XLO(19,BOT,16,1), XLBOBB_MASK, PWRCOM, { BI } },
3079 { "bflr", XLO(19,BOF,16,0), XLBOBB_MASK, PPCCOM, { BI } },
3080 { "bflr-", XLO(19,BOF,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3081 { "bflr-", XLO(19,BOFM4,16,0), XLBOBB_MASK, POWER4, { BI } },
3082 { "bflr+", XLO(19,BOFP,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3083 { "bflr+", XLO(19,BOFP4,16,0), XLBOBB_MASK, POWER4, { BI } },
3084 { "bbfr", XLO(19,BOF,16,0), XLBOBB_MASK, PWRCOM, { BI } },
3085 { "bflrl", XLO(19,BOF,16,1), XLBOBB_MASK, PPCCOM, { BI } },
3086 { "bflrl-", XLO(19,BOF,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3087 { "bflrl-", XLO(19,BOFM4,16,1), XLBOBB_MASK, POWER4, { BI } },
3088 { "bflrl+", XLO(19,BOFP,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3089 { "bflrl+", XLO(19,BOFP4,16,1), XLBOBB_MASK, POWER4, { BI } },
3090 { "bbfrl", XLO(19,BOF,16,1), XLBOBB_MASK, PWRCOM, { BI } },
3091 { "bdnztlr", XLO(19,BODNZT,16,0), XLBOBB_MASK, PPCCOM, { BI } },
3092 { "bdnztlr-",XLO(19,BODNZT,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3093 { "bdnztlr+",XLO(19,BODNZTP,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3094 { "bdnztlrl",XLO(19,BODNZT,16,1), XLBOBB_MASK, PPCCOM, { BI } },
3095 { "bdnztlrl-",XLO(19,BODNZT,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3096 { "bdnztlrl+",XLO(19,BODNZTP,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3097 { "bdnzflr", XLO(19,BODNZF,16,0), XLBOBB_MASK, PPCCOM, { BI } },
3098 { "bdnzflr-",XLO(19,BODNZF,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3099 { "bdnzflr+",XLO(19,BODNZFP,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3100 { "bdnzflrl",XLO(19,BODNZF,16,1), XLBOBB_MASK, PPCCOM, { BI } },
3101 { "bdnzflrl-",XLO(19,BODNZF,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3102 { "bdnzflrl+",XLO(19,BODNZFP,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3103 { "bdztlr", XLO(19,BODZT,16,0), XLBOBB_MASK, PPCCOM, { BI } },
3104 { "bdztlr-", XLO(19,BODZT,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3105 { "bdztlr+", XLO(19,BODZTP,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3106 { "bdztlrl", XLO(19,BODZT,16,1), XLBOBB_MASK, PPCCOM, { BI } },
3107 { "bdztlrl-",XLO(19,BODZT,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3108 { "bdztlrl+",XLO(19,BODZTP,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3109 { "bdzflr", XLO(19,BODZF,16,0), XLBOBB_MASK, PPCCOM, { BI } },
3110 { "bdzflr-", XLO(19,BODZF,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3111 { "bdzflr+", XLO(19,BODZFP,16,0), XLBOBB_MASK, NOPOWER4, { BI } },
3112 { "bdzflrl", XLO(19,BODZF,16,1), XLBOBB_MASK, PPCCOM, { BI } },
3113 { "bdzflrl-",XLO(19,BODZF,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3114 { "bdzflrl+",XLO(19,BODZFP,16,1), XLBOBB_MASK, NOPOWER4, { BI } },
3115 { "bclr+", XLYLK(19,16,1,0), XLYBB_MASK, PPCCOM, { BOE, BI } },
3116 { "bclrl+", XLYLK(19,16,1,1), XLYBB_MASK, PPCCOM, { BOE, BI } },
3117 { "bclr-", XLYLK(19,16,0,0), XLYBB_MASK, PPCCOM, { BOE, BI } },
3118 { "bclrl-", XLYLK(19,16,0,1), XLYBB_MASK, PPCCOM, { BOE, BI } },
3119 { "bclr", XLLK(19,16,0), XLBH_MASK, PPCCOM, { BO, BI, BH } },
3120 { "bclrl", XLLK(19,16,1), XLBH_MASK, PPCCOM, { BO, BI, BH } },
3121 { "bcr", XLLK(19,16,0), XLBB_MASK, PWRCOM, { BO, BI } },
3122 { "bcrl", XLLK(19,16,1), XLBB_MASK, PWRCOM, { BO, BI } },
3123 { "bclre", XLLK(19,17,0), XLBB_MASK, BOOKE64, { BO, BI } },
3124 { "bclrel", XLLK(19,17,1), XLBB_MASK, BOOKE64, { BO, BI } },
3125
3126 { "rfid", XL(19,18), 0xffffffff, PPC64, { 0 } },
3127
3128 { "crnot", XL(19,33), XL_MASK, PPCCOM, { BT, BA, BBA } },
3129 { "crnor", XL(19,33), XL_MASK, COM, { BT, BA, BB } },
3130 { "rfmci", X(19,38), 0xffffffff, PPCRFMCI, { 0 } },
3131
3132 { "rfi", XL(19,50), 0xffffffff, COM, { 0 } },
3133 { "rfci", XL(19,51), 0xffffffff, PPC403 | BOOKE, { 0 } },
3134
3135 { "rfsvc", XL(19,82), 0xffffffff, POWER, { 0 } },
3136
3137 { "crandc", XL(19,129), XL_MASK, COM, { BT, BA, BB } },
3138
3139 { "isync", XL(19,150), 0xffffffff, PPCCOM, { 0 } },
3140 { "ics", XL(19,150), 0xffffffff, PWRCOM, { 0 } },
3141
3142 { "crclr", XL(19,193), XL_MASK, PPCCOM, { BT, BAT, BBA } },
3143 { "crxor", XL(19,193), XL_MASK, COM, { BT, BA, BB } },
3144
3145 { "crnand", XL(19,225), XL_MASK, COM, { BT, BA, BB } },
3146
3147 { "crand", XL(19,257), XL_MASK, COM, { BT, BA, BB } },
3148
3149 { "hrfid", XL(19,274), 0xffffffff, POWER5 | CELL, { 0 } },
3150
3151 { "crset", XL(19,289), XL_MASK, PPCCOM, { BT, BAT, BBA } },
3152 { "creqv", XL(19,289), XL_MASK, COM, { BT, BA, BB } },
3153
3154 { "doze", XL(19,402), 0xffffffff, POWER6, { 0 } },
3155
3156 { "crorc", XL(19,417), XL_MASK, COM, { BT, BA, BB } },
3157
3158 { "nap", XL(19,434), 0xffffffff, POWER6, { 0 } },
3159
3160 { "crmove", XL(19,449), XL_MASK, PPCCOM, { BT, BA, BBA } },
3161 { "cror", XL(19,449), XL_MASK, COM, { BT, BA, BB } },
3162
3163 { "sleep", XL(19,466), 0xffffffff, POWER6, { 0 } },
3164 { "rvwinkle", XL(19,498), 0xffffffff, POWER6, { 0 } },
3165
3166 { "bctr", XLO(19,BOU,528,0), XLBOBIBB_MASK, COM, { 0 } },
3167 { "bctrl", XLO(19,BOU,528,1), XLBOBIBB_MASK, COM, { 0 } },
3168 { "bltctr", XLOCB(19,BOT,CBLT,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3169 { "bltctr-", XLOCB(19,BOT,CBLT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3170 { "bltctr-", XLOCB(19,BOTM4,CBLT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3171 { "bltctr+", XLOCB(19,BOTP,CBLT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3172 { "bltctr+", XLOCB(19,BOTP4,CBLT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3173 { "bltctrl", XLOCB(19,BOT,CBLT,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3174 { "bltctrl-",XLOCB(19,BOT,CBLT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3175 { "bltctrl-",XLOCB(19,BOTM4,CBLT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3176 { "bltctrl+",XLOCB(19,BOTP,CBLT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3177 { "bltctrl+",XLOCB(19,BOTP4,CBLT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3178 { "bgtctr", XLOCB(19,BOT,CBGT,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3179 { "bgtctr-", XLOCB(19,BOT,CBGT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3180 { "bgtctr-", XLOCB(19,BOTM4,CBGT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3181 { "bgtctr+", XLOCB(19,BOTP,CBGT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3182 { "bgtctr+", XLOCB(19,BOTP4,CBGT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3183 { "bgtctrl", XLOCB(19,BOT,CBGT,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3184 { "bgtctrl-",XLOCB(19,BOT,CBGT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3185 { "bgtctrl-",XLOCB(19,BOTM4,CBGT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3186 { "bgtctrl+",XLOCB(19,BOTP,CBGT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3187 { "bgtctrl+",XLOCB(19,BOTP4,CBGT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3188 { "beqctr", XLOCB(19,BOT,CBEQ,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3189 { "beqctr-", XLOCB(19,BOT,CBEQ,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3190 { "beqctr-", XLOCB(19,BOTM4,CBEQ,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3191 { "beqctr+", XLOCB(19,BOTP,CBEQ,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3192 { "beqctr+", XLOCB(19,BOTP4,CBEQ,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3193 { "beqctrl", XLOCB(19,BOT,CBEQ,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3194 { "beqctrl-",XLOCB(19,BOT,CBEQ,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3195 { "beqctrl-",XLOCB(19,BOTM4,CBEQ,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3196 { "beqctrl+",XLOCB(19,BOTP,CBEQ,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3197 { "beqctrl+",XLOCB(19,BOTP4,CBEQ,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3198 { "bsoctr", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3199 { "bsoctr-", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3200 { "bsoctr-", XLOCB(19,BOTM4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3201 { "bsoctr+", XLOCB(19,BOTP,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3202 { "bsoctr+", XLOCB(19,BOTP4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3203 { "bsoctrl", XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3204 { "bsoctrl-",XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3205 { "bsoctrl-",XLOCB(19,BOTM4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3206 { "bsoctrl+",XLOCB(19,BOTP,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3207 { "bsoctrl+",XLOCB(19,BOTP4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3208 { "bunctr", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3209 { "bunctr-", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3210 { "bunctr-", XLOCB(19,BOTM4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3211 { "bunctr+", XLOCB(19,BOTP,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3212 { "bunctr+", XLOCB(19,BOTP4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3213 { "bunctrl", XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3214 { "bunctrl-",XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3215 { "bunctrl-",XLOCB(19,BOTM4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3216 { "bunctrl+",XLOCB(19,BOTP,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3217 { "bunctrl+",XLOCB(19,BOTP4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3218 { "bgectr", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3219 { "bgectr-", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3220 { "bgectr-", XLOCB(19,BOFM4,CBLT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3221 { "bgectr+", XLOCB(19,BOFP,CBLT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3222 { "bgectr+", XLOCB(19,BOFP4,CBLT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3223 { "bgectrl", XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3224 { "bgectrl-",XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3225 { "bgectrl-",XLOCB(19,BOFM4,CBLT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3226 { "bgectrl+",XLOCB(19,BOFP,CBLT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3227 { "bgectrl+",XLOCB(19,BOFP4,CBLT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3228 { "bnlctr", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3229 { "bnlctr-", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3230 { "bnlctr-", XLOCB(19,BOFM4,CBLT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3231 { "bnlctr+", XLOCB(19,BOFP,CBLT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3232 { "bnlctr+", XLOCB(19,BOFP4,CBLT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3233 { "bnlctrl", XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3234 { "bnlctrl-",XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3235 { "bnlctrl-",XLOCB(19,BOFM4,CBLT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3236 { "bnlctrl+",XLOCB(19,BOFP,CBLT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3237 { "bnlctrl+",XLOCB(19,BOFP4,CBLT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3238 { "blectr", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3239 { "blectr-", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3240 { "blectr-", XLOCB(19,BOFM4,CBGT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3241 { "blectr+", XLOCB(19,BOFP,CBGT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3242 { "blectr+", XLOCB(19,BOFP4,CBGT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3243 { "blectrl", XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3244 { "blectrl-",XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3245 { "blectrl-",XLOCB(19,BOFM4,CBGT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3246 { "blectrl+",XLOCB(19,BOFP,CBGT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3247 { "blectrl+",XLOCB(19,BOFP4,CBGT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3248 { "bngctr", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3249 { "bngctr-", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3250 { "bngctr-", XLOCB(19,BOFM4,CBGT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3251 { "bngctr+", XLOCB(19,BOFP,CBGT,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3252 { "bngctr+", XLOCB(19,BOFP4,CBGT,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3253 { "bngctrl", XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3254 { "bngctrl-",XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3255 { "bngctrl-",XLOCB(19,BOFM4,CBGT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3256 { "bngctrl+",XLOCB(19,BOFP,CBGT,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3257 { "bngctrl+",XLOCB(19,BOFP4,CBGT,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3258 { "bnectr", XLOCB(19,BOF,CBEQ,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3259 { "bnectr-", XLOCB(19,BOF,CBEQ,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3260 { "bnectr-", XLOCB(19,BOFM4,CBEQ,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3261 { "bnectr+", XLOCB(19,BOFP,CBEQ,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3262 { "bnectr+", XLOCB(19,BOFP4,CBEQ,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3263 { "bnectrl", XLOCB(19,BOF,CBEQ,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3264 { "bnectrl-",XLOCB(19,BOF,CBEQ,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3265 { "bnectrl-",XLOCB(19,BOFM4,CBEQ,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3266 { "bnectrl+",XLOCB(19,BOFP,CBEQ,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3267 { "bnectrl+",XLOCB(19,BOFP4,CBEQ,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3268 { "bnsctr", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3269 { "bnsctr-", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3270 { "bnsctr-", XLOCB(19,BOFM4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3271 { "bnsctr+", XLOCB(19,BOFP,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3272 { "bnsctr+", XLOCB(19,BOFP4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3273 { "bnsctrl", XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3274 { "bnsctrl-",XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3275 { "bnsctrl-",XLOCB(19,BOFM4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3276 { "bnsctrl+",XLOCB(19,BOFP,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3277 { "bnsctrl+",XLOCB(19,BOFP4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3278 { "bnuctr", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, PPCCOM, { CR } },
3279 { "bnuctr-", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3280 { "bnuctr-", XLOCB(19,BOFM4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3281 { "bnuctr+", XLOCB(19,BOFP,CBSO,528,0), XLBOCBBB_MASK, NOPOWER4, { CR } },
3282 { "bnuctr+", XLOCB(19,BOFP4,CBSO,528,0), XLBOCBBB_MASK, POWER4, { CR } },
3283 { "bnuctrl", XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, PPCCOM, { CR } },
3284 { "bnuctrl-",XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3285 { "bnuctrl-",XLOCB(19,BOFM4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3286 { "bnuctrl+",XLOCB(19,BOFP,CBSO,528,1), XLBOCBBB_MASK, NOPOWER4, { CR } },
3287 { "bnuctrl+",XLOCB(19,BOFP4,CBSO,528,1), XLBOCBBB_MASK, POWER4, { CR } },
3288 { "btctr", XLO(19,BOT,528,0), XLBOBB_MASK, PPCCOM, { BI } },
3289 { "btctr-", XLO(19,BOT,528,0), XLBOBB_MASK, NOPOWER4, { BI } },
3290 { "btctr-", XLO(19,BOTM4,528,0), XLBOBB_MASK, POWER4, { BI } },
3291 { "btctr+", XLO(19,BOTP,528,0), XLBOBB_MASK, NOPOWER4, { BI } },
3292 { "btctr+", XLO(19,BOTP4,528,0), XLBOBB_MASK, POWER4, { BI } },
3293 { "btctrl", XLO(19,BOT,528,1), XLBOBB_MASK, PPCCOM, { BI } },
3294 { "btctrl-", XLO(19,BOT,528,1), XLBOBB_MASK, NOPOWER4, { BI } },
3295 { "btctrl-", XLO(19,BOTM4,528,1), XLBOBB_MASK, POWER4, { BI } },
3296 { "btctrl+", XLO(19,BOTP,528,1), XLBOBB_MASK, NOPOWER4, { BI } },
3297 { "btctrl+", XLO(19,BOTP4,528,1), XLBOBB_MASK, POWER4, { BI } },
3298 { "bfctr", XLO(19,BOF,528,0), XLBOBB_MASK, PPCCOM, { BI } },
3299 { "bfctr-", XLO(19,BOF,528,0), XLBOBB_MASK, NOPOWER4, { BI } },
3300 { "bfctr-", XLO(19,BOFM4,528,0), XLBOBB_MASK, POWER4, { BI } },
3301 { "bfctr+", XLO(19,BOFP,528,0), XLBOBB_MASK, NOPOWER4, { BI } },
3302 { "bfctr+", XLO(19,BOFP4,528,0), XLBOBB_MASK, POWER4, { BI } },
3303 { "bfctrl", XLO(19,BOF,528,1), XLBOBB_MASK, PPCCOM, { BI } },
3304 { "bfctrl-", XLO(19,BOF,528,1), XLBOBB_MASK, NOPOWER4, { BI } },
3305 { "bfctrl-", XLO(19,BOFM4,528,1), XLBOBB_MASK, POWER4, { BI } },
3306 { "bfctrl+", XLO(19,BOFP,528,1), XLBOBB_MASK, NOPOWER4, { BI } },
3307 { "bfctrl+", XLO(19,BOFP4,528,1), XLBOBB_MASK, POWER4, { BI } },
3308 { "bcctr-", XLYLK(19,528,0,0), XLYBB_MASK, PPCCOM, { BOE, BI } },
3309 { "bcctr+", XLYLK(19,528,1,0), XLYBB_MASK, PPCCOM, { BOE, BI } },
3310 { "bcctrl-", XLYLK(19,528,0,1), XLYBB_MASK, PPCCOM, { BOE, BI } },
3311 { "bcctrl+", XLYLK(19,528,1,1), XLYBB_MASK, PPCCOM, { BOE, BI } },
3312 { "bcctr", XLLK(19,528,0), XLBH_MASK, PPCCOM, { BO, BI, BH } },
3313 { "bcctrl", XLLK(19,528,1), XLBH_MASK, PPCCOM, { BO, BI, BH } },
3314 { "bcc", XLLK(19,528,0), XLBB_MASK, PWRCOM, { BO, BI } },
3315 { "bccl", XLLK(19,528,1), XLBB_MASK, PWRCOM, { BO, BI } },
3316 { "bcctre", XLLK(19,529,0), XLBB_MASK, BOOKE64, { BO, BI } },
3317 { "bcctrel", XLLK(19,529,1), XLBB_MASK, BOOKE64, { BO, BI } },
3318
3319 { "rlwimi", M(20,0), M_MASK, PPCCOM, { RA,RS,SH,MBE,ME } },
3320 { "rlimi", M(20,0), M_MASK, PWRCOM, { RA,RS,SH,MBE,ME } },
3321
3322 { "rlwimi.", M(20,1), M_MASK, PPCCOM, { RA,RS,SH,MBE,ME } },
3323 { "rlimi.", M(20,1), M_MASK, PWRCOM, { RA,RS,SH,MBE,ME } },
3324
3325 { "rotlwi", MME(21,31,0), MMBME_MASK, PPCCOM, { RA, RS, SH } },
3326 { "clrlwi", MME(21,31,0), MSHME_MASK, PPCCOM, { RA, RS, MB } },
3327 { "rlwinm", M(21,0), M_MASK, PPCCOM, { RA,RS,SH,MBE,ME } },
3328 { "rlinm", M(21,0), M_MASK, PWRCOM, { RA,RS,SH,MBE,ME } },
3329 { "rotlwi.", MME(21,31,1), MMBME_MASK, PPCCOM, { RA,RS,SH } },
3330 { "clrlwi.", MME(21,31,1), MSHME_MASK, PPCCOM, { RA, RS, MB } },
3331 { "rlwinm.", M(21,1), M_MASK, PPCCOM, { RA,RS,SH,MBE,ME } },
3332 { "rlinm.", M(21,1), M_MASK, PWRCOM, { RA,RS,SH,MBE,ME } },
3333
3334 { "rlmi", M(22,0), M_MASK, M601, { RA,RS,RB,MBE,ME } },
3335 { "rlmi.", M(22,1), M_MASK, M601, { RA,RS,RB,MBE,ME } },
3336
3337 { "be", B(22,0,0), B_MASK, BOOKE64, { LI } },
3338 { "bel", B(22,0,1), B_MASK, BOOKE64, { LI } },
3339 { "bea", B(22,1,0), B_MASK, BOOKE64, { LIA } },
3340 { "bela", B(22,1,1), B_MASK, BOOKE64, { LIA } },
3341
3342 { "rotlw", MME(23,31,0), MMBME_MASK, PPCCOM, { RA, RS, RB } },
3343 { "rlwnm", M(23,0), M_MASK, PPCCOM, { RA,RS,RB,MBE,ME } },
3344 { "rlnm", M(23,0), M_MASK, PWRCOM, { RA,RS,RB,MBE,ME } },
3345 { "rotlw.", MME(23,31,1), MMBME_MASK, PPCCOM, { RA, RS, RB } },
3346 { "rlwnm.", M(23,1), M_MASK, PPCCOM, { RA,RS,RB,MBE,ME } },
3347 { "rlnm.", M(23,1), M_MASK, PWRCOM, { RA,RS,RB,MBE,ME } },
3348
3349 { "nop", OP(24), 0xffffffff, PPCCOM, { 0 } },
3350 { "ori", OP(24), OP_MASK, PPCCOM, { RA, RS, UI } },
3351 { "oril", OP(24), OP_MASK, PWRCOM, { RA, RS, UI } },
3352
3353 { "oris", OP(25), OP_MASK, PPCCOM, { RA, RS, UI } },
3354 { "oriu", OP(25), OP_MASK, PWRCOM, { RA, RS, UI } },
3355
3356 { "xori", OP(26), OP_MASK, PPCCOM, { RA, RS, UI } },
3357 { "xoril", OP(26), OP_MASK, PWRCOM, { RA, RS, UI } },
3358
3359 { "xoris", OP(27), OP_MASK, PPCCOM, { RA, RS, UI } },
3360 { "xoriu", OP(27), OP_MASK, PWRCOM, { RA, RS, UI } },
3361
3362 { "andi.", OP(28), OP_MASK, PPCCOM, { RA, RS, UI } },
3363 { "andil.", OP(28), OP_MASK, PWRCOM, { RA, RS, UI } },
3364
3365 { "andis.", OP(29), OP_MASK, PPCCOM, { RA, RS, UI } },
3366 { "andiu.", OP(29), OP_MASK, PWRCOM, { RA, RS, UI } },
3367
3368 { "rotldi", MD(30,0,0), MDMB_MASK, PPC64, { RA, RS, SH6 } },
3369 { "clrldi", MD(30,0,0), MDSH_MASK, PPC64, { RA, RS, MB6 } },
3370 { "rldicl", MD(30,0,0), MD_MASK, PPC64, { RA, RS, SH6, MB6 } },
3371 { "rotldi.", MD(30,0,1), MDMB_MASK, PPC64, { RA, RS, SH6 } },
3372 { "clrldi.", MD(30,0,1), MDSH_MASK, PPC64, { RA, RS, MB6 } },
3373 { "rldicl.", MD(30,0,1), MD_MASK, PPC64, { RA, RS, SH6, MB6 } },
3374
3375 { "rldicr", MD(30,1,0), MD_MASK, PPC64, { RA, RS, SH6, ME6 } },
3376 { "rldicr.", MD(30,1,1), MD_MASK, PPC64, { RA, RS, SH6, ME6 } },
3377
3378 { "rldic", MD(30,2,0), MD_MASK, PPC64, { RA, RS, SH6, MB6 } },
3379 { "rldic.", MD(30,2,1), MD_MASK, PPC64, { RA, RS, SH6, MB6 } },
3380
3381 { "rldimi", MD(30,3,0), MD_MASK, PPC64, { RA, RS, SH6, MB6 } },
3382 { "rldimi.", MD(30,3,1), MD_MASK, PPC64, { RA, RS, SH6, MB6 } },
3383
3384 { "rotld", MDS(30,8,0), MDSMB_MASK, PPC64, { RA, RS, RB } },
3385 { "rldcl", MDS(30,8,0), MDS_MASK, PPC64, { RA, RS, RB, MB6 } },
3386 { "rotld.", MDS(30,8,1), MDSMB_MASK, PPC64, { RA, RS, RB } },
3387 { "rldcl.", MDS(30,8,1), MDS_MASK, PPC64, { RA, RS, RB, MB6 } },
3388
3389 { "rldcr", MDS(30,9,0), MDS_MASK, PPC64, { RA, RS, RB, ME6 } },
3390 { "rldcr.", MDS(30,9,1), MDS_MASK, PPC64, { RA, RS, RB, ME6 } },
3391
3392 { "cmpw", XOPL(31,0,0), XCMPL_MASK, PPCCOM, { OBF, RA, RB } },
3393 { "cmpd", XOPL(31,0,1), XCMPL_MASK, PPC64, { OBF, RA, RB } },
3394 { "cmp", X(31,0), XCMP_MASK, PPC, { BF, L, RA, RB } },
3395 { "cmp", X(31,0), XCMPL_MASK, PWRCOM, { BF, RA, RB } },
3396
3397 { "twlgt", XTO(31,4,TOLGT), XTO_MASK, PPCCOM, { RA, RB } },
3398 { "tlgt", XTO(31,4,TOLGT), XTO_MASK, PWRCOM, { RA, RB } },
3399 { "twllt", XTO(31,4,TOLLT), XTO_MASK, PPCCOM, { RA, RB } },
3400 { "tllt", XTO(31,4,TOLLT), XTO_MASK, PWRCOM, { RA, RB } },
3401 { "tweq", XTO(31,4,TOEQ), XTO_MASK, PPCCOM, { RA, RB } },
3402 { "teq", XTO(31,4,TOEQ), XTO_MASK, PWRCOM, { RA, RB } },
3403 { "twlge", XTO(31,4,TOLGE), XTO_MASK, PPCCOM, { RA, RB } },
3404 { "tlge", XTO(31,4,TOLGE), XTO_MASK, PWRCOM, { RA, RB } },
3405 { "twlnl", XTO(31,4,TOLNL), XTO_MASK, PPCCOM, { RA, RB } },
3406 { "tlnl", XTO(31,4,TOLNL), XTO_MASK, PWRCOM, { RA, RB } },
3407 { "twlle", XTO(31,4,TOLLE), XTO_MASK, PPCCOM, { RA, RB } },
3408 { "tlle", XTO(31,4,TOLLE), XTO_MASK, PWRCOM, { RA, RB } },
3409 { "twlng", XTO(31,4,TOLNG), XTO_MASK, PPCCOM, { RA, RB } },
3410 { "tlng", XTO(31,4,TOLNG), XTO_MASK, PWRCOM, { RA, RB } },
3411 { "twgt", XTO(31,4,TOGT), XTO_MASK, PPCCOM, { RA, RB } },
3412 { "tgt", XTO(31,4,TOGT), XTO_MASK, PWRCOM, { RA, RB } },
3413 { "twge", XTO(31,4,TOGE), XTO_MASK, PPCCOM, { RA, RB } },
3414 { "tge", XTO(31,4,TOGE), XTO_MASK, PWRCOM, { RA, RB } },
3415 { "twnl", XTO(31,4,TONL), XTO_MASK, PPCCOM, { RA, RB } },
3416 { "tnl", XTO(31,4,TONL), XTO_MASK, PWRCOM, { RA, RB } },
3417 { "twlt", XTO(31,4,TOLT), XTO_MASK, PPCCOM, { RA, RB } },
3418 { "tlt", XTO(31,4,TOLT), XTO_MASK, PWRCOM, { RA, RB } },
3419 { "twle", XTO(31,4,TOLE), XTO_MASK, PPCCOM, { RA, RB } },
3420 { "tle", XTO(31,4,TOLE), XTO_MASK, PWRCOM, { RA, RB } },
3421 { "twng", XTO(31,4,TONG), XTO_MASK, PPCCOM, { RA, RB } },
3422 { "tng", XTO(31,4,TONG), XTO_MASK, PWRCOM, { RA, RB } },
3423 { "twne", XTO(31,4,TONE), XTO_MASK, PPCCOM, { RA, RB } },
3424 { "tne", XTO(31,4,TONE), XTO_MASK, PWRCOM, { RA, RB } },
3425 { "trap", XTO(31,4,TOU), 0xffffffff, PPCCOM, { 0 } },
3426 { "tw", X(31,4), X_MASK, PPCCOM, { TO, RA, RB } },
3427 { "t", X(31,4), X_MASK, PWRCOM, { TO, RA, RB } },
3428
3429 { "subfc", XO(31,8,0,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3430 { "sf", XO(31,8,0,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3431 { "subc", XO(31,8,0,0), XO_MASK, PPC, { RT, RB, RA } },
3432 { "subfc.", XO(31,8,0,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3433 { "sf.", XO(31,8,0,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3434 { "subc.", XO(31,8,0,1), XO_MASK, PPCCOM, { RT, RB, RA } },
3435 { "subfco", XO(31,8,1,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3436 { "sfo", XO(31,8,1,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3437 { "subco", XO(31,8,1,0), XO_MASK, PPC, { RT, RB, RA } },
3438 { "subfco.", XO(31,8,1,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3439 { "sfo.", XO(31,8,1,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3440 { "subco.", XO(31,8,1,1), XO_MASK, PPC, { RT, RB, RA } },
3441
3442 { "mulhdu", XO(31,9,0,0), XO_MASK, PPC64, { RT, RA, RB } },
3443 { "mulhdu.", XO(31,9,0,1), XO_MASK, PPC64, { RT, RA, RB } },
3444
3445 { "addc", XO(31,10,0,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3446 { "a", XO(31,10,0,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3447 { "addc.", XO(31,10,0,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3448 { "a.", XO(31,10,0,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3449 { "addco", XO(31,10,1,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3450 { "ao", XO(31,10,1,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3451 { "addco.", XO(31,10,1,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3452 { "ao.", XO(31,10,1,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3453
3454 { "mulhwu", XO(31,11,0,0), XO_MASK, PPC, { RT, RA, RB } },
3455 { "mulhwu.", XO(31,11,0,1), XO_MASK, PPC, { RT, RA, RB } },
3456
3457 { "isellt", X(31,15), X_MASK, PPCISEL, { RT, RA, RB } },
3458 { "iselgt", X(31,47), X_MASK, PPCISEL, { RT, RA, RB } },
3459 { "iseleq", X(31,79), X_MASK, PPCISEL, { RT, RA, RB } },
3460 { "isel", XISEL(31,15), XISEL_MASK, PPCISEL, { RT, RA, RB, CRB } },
3461
3462 { "mfocrf", XFXM(31,19,0,1), XFXFXM_MASK, COM, { RT, FXM } },
3463 { "mfcr", X(31,19), XRARB_MASK, NOPOWER4 | COM, { RT } },
3464 { "mfcr", X(31,19), XFXFXM_MASK, POWER4, { RT, FXM4 } },
3465
3466 { "lwarx", X(31,20), XEH_MASK, PPC, { RT, RA0, RB, EH } },
3467
3468 { "ldx", X(31,21), X_MASK, PPC64, { RT, RA0, RB } },
3469
3470 { "icbt", X(31,22), X_MASK, BOOKE|PPCE300, { CT, RA, RB } },
3471 { "icbt", X(31,262), XRT_MASK, PPC403, { RA, RB } },
3472
3473 { "lwzx", X(31,23), X_MASK, PPCCOM, { RT, RA0, RB } },
3474 { "lx", X(31,23), X_MASK, PWRCOM, { RT, RA, RB } },
3475
3476 { "slw", XRC(31,24,0), X_MASK, PPCCOM, { RA, RS, RB } },
3477 { "sl", XRC(31,24,0), X_MASK, PWRCOM, { RA, RS, RB } },
3478 { "slw.", XRC(31,24,1), X_MASK, PPCCOM, { RA, RS, RB } },
3479 { "sl.", XRC(31,24,1), X_MASK, PWRCOM, { RA, RS, RB } },
3480
3481 { "cntlzw", XRC(31,26,0), XRB_MASK, PPCCOM, { RA, RS } },
3482 { "cntlz", XRC(31,26,0), XRB_MASK, PWRCOM, { RA, RS } },
3483 { "cntlzw.", XRC(31,26,1), XRB_MASK, PPCCOM, { RA, RS } },
3484 { "cntlz.", XRC(31,26,1), XRB_MASK, PWRCOM, { RA, RS } },
3485
3486 { "sld", XRC(31,27,0), X_MASK, PPC64, { RA, RS, RB } },
3487 { "sld.", XRC(31,27,1), X_MASK, PPC64, { RA, RS, RB } },
3488
3489 { "and", XRC(31,28,0), X_MASK, COM, { RA, RS, RB } },
3490 { "and.", XRC(31,28,1), X_MASK, COM, { RA, RS, RB } },
3491
3492 { "maskg", XRC(31,29,0), X_MASK, M601, { RA, RS, RB } },
3493 { "maskg.", XRC(31,29,1), X_MASK, M601, { RA, RS, RB } },
3494
3495 { "icbte", X(31,30), X_MASK, BOOKE64, { CT, RA, RB } },
3496
3497 { "lwzxe", X(31,31), X_MASK, BOOKE64, { RT, RA0, RB } },
3498
3499 { "cmplw", XOPL(31,32,0), XCMPL_MASK, PPCCOM, { OBF, RA, RB } },
3500 { "cmpld", XOPL(31,32,1), XCMPL_MASK, PPC64, { OBF, RA, RB } },
3501 { "cmpl", X(31,32), XCMP_MASK, PPC, { BF, L, RA, RB } },
3502 { "cmpl", X(31,32), XCMPL_MASK, PWRCOM, { BF, RA, RB } },
3503
3504 { "subf", XO(31,40,0,0), XO_MASK, PPC, { RT, RA, RB } },
3505 { "sub", XO(31,40,0,0), XO_MASK, PPC, { RT, RB, RA } },
3506 { "subf.", XO(31,40,0,1), XO_MASK, PPC, { RT, RA, RB } },
3507 { "sub.", XO(31,40,0,1), XO_MASK, PPC, { RT, RB, RA } },
3508 { "subfo", XO(31,40,1,0), XO_MASK, PPC, { RT, RA, RB } },
3509 { "subo", XO(31,40,1,0), XO_MASK, PPC, { RT, RB, RA } },
3510 { "subfo.", XO(31,40,1,1), XO_MASK, PPC, { RT, RA, RB } },
3511 { "subo.", XO(31,40,1,1), XO_MASK, PPC, { RT, RB, RA } },
3512
3513 { "ldux", X(31,53), X_MASK, PPC64, { RT, RAL, RB } },
3514
3515 { "dcbst", X(31,54), XRT_MASK, PPC, { RA, RB } },
3516
3517 { "lwzux", X(31,55), X_MASK, PPCCOM, { RT, RAL, RB } },
3518 { "lux", X(31,55), X_MASK, PWRCOM, { RT, RA, RB } },
3519
3520 { "dcbste", X(31,62), XRT_MASK, BOOKE64, { RA, RB } },
3521
3522 { "lwzuxe", X(31,63), X_MASK, BOOKE64, { RT, RAL, RB } },
3523
3524 { "cntlzd", XRC(31,58,0), XRB_MASK, PPC64, { RA, RS } },
3525 { "cntlzd.", XRC(31,58,1), XRB_MASK, PPC64, { RA, RS } },
3526
3527 { "andc", XRC(31,60,0), X_MASK, COM, { RA, RS, RB } },
3528 { "andc.", XRC(31,60,1), X_MASK, COM, { RA, RS, RB } },
3529
3530 { "tdlgt", XTO(31,68,TOLGT), XTO_MASK, PPC64, { RA, RB } },
3531 { "tdllt", XTO(31,68,TOLLT), XTO_MASK, PPC64, { RA, RB } },
3532 { "tdeq", XTO(31,68,TOEQ), XTO_MASK, PPC64, { RA, RB } },
3533 { "tdlge", XTO(31,68,TOLGE), XTO_MASK, PPC64, { RA, RB } },
3534 { "tdlnl", XTO(31,68,TOLNL), XTO_MASK, PPC64, { RA, RB } },
3535 { "tdlle", XTO(31,68,TOLLE), XTO_MASK, PPC64, { RA, RB } },
3536 { "tdlng", XTO(31,68,TOLNG), XTO_MASK, PPC64, { RA, RB } },
3537 { "tdgt", XTO(31,68,TOGT), XTO_MASK, PPC64, { RA, RB } },
3538 { "tdge", XTO(31,68,TOGE), XTO_MASK, PPC64, { RA, RB } },
3539 { "tdnl", XTO(31,68,TONL), XTO_MASK, PPC64, { RA, RB } },
3540 { "tdlt", XTO(31,68,TOLT), XTO_MASK, PPC64, { RA, RB } },
3541 { "tdle", XTO(31,68,TOLE), XTO_MASK, PPC64, { RA, RB } },
3542 { "tdng", XTO(31,68,TONG), XTO_MASK, PPC64, { RA, RB } },
3543 { "tdne", XTO(31,68,TONE), XTO_MASK, PPC64, { RA, RB } },
3544 { "td", X(31,68), X_MASK, PPC64, { TO, RA, RB } },
3545
3546 { "mulhd", XO(31,73,0,0), XO_MASK, PPC64, { RT, RA, RB } },
3547 { "mulhd.", XO(31,73,0,1), XO_MASK, PPC64, { RT, RA, RB } },
3548
3549 { "mulhw", XO(31,75,0,0), XO_MASK, PPC, { RT, RA, RB } },
3550 { "mulhw.", XO(31,75,0,1), XO_MASK, PPC, { RT, RA, RB } },
3551
3552 { "dlmzb", XRC(31,78,0), X_MASK, PPC403|PPC440, { RA, RS, RB } },
3553 { "dlmzb.", XRC(31,78,1), X_MASK, PPC403|PPC440, { RA, RS, RB } },
3554
3555 { "mtsrd", X(31,82), XRB_MASK|(1<<20), PPC64, { SR, RS } },
3556
3557 { "mfmsr", X(31,83), XRARB_MASK, COM, { RT } },
3558
3559 { "ldarx", X(31,84), XEH_MASK, PPC64, { RT, RA0, RB, EH } },
3560
3561 { "dcbfl", XOPL(31,86,1), XRT_MASK, POWER5, { RA, RB } },
3562 { "dcbf", X(31,86), XLRT_MASK, PPC, { RA, RB, L } },
3563
3564 { "lbzx", X(31,87), X_MASK, COM, { RT, RA0, RB } },
3565
3566 { "dcbfe", X(31,94), XRT_MASK, BOOKE64, { RA, RB } },
3567
3568 { "lbzxe", X(31,95), X_MASK, BOOKE64, { RT, RA0, RB } },
3569
3570 { "neg", XO(31,104,0,0), XORB_MASK, COM, { RT, RA } },
3571 { "neg.", XO(31,104,0,1), XORB_MASK, COM, { RT, RA } },
3572 { "nego", XO(31,104,1,0), XORB_MASK, COM, { RT, RA } },
3573 { "nego.", XO(31,104,1,1), XORB_MASK, COM, { RT, RA } },
3574
3575 { "mul", XO(31,107,0,0), XO_MASK, M601, { RT, RA, RB } },
3576 { "mul.", XO(31,107,0,1), XO_MASK, M601, { RT, RA, RB } },
3577 { "mulo", XO(31,107,1,0), XO_MASK, M601, { RT, RA, RB } },
3578 { "mulo.", XO(31,107,1,1), XO_MASK, M601, { RT, RA, RB } },
3579
3580 { "mtsrdin", X(31,114), XRA_MASK, PPC64, { RS, RB } },
3581
3582 { "clf", X(31,118), XTO_MASK, POWER, { RA, RB } },
3583
3584 { "lbzux", X(31,119), X_MASK, COM, { RT, RAL, RB } },
3585
3586 { "popcntb", X(31,122), XRB_MASK, POWER5, { RA, RS } },
3587
3588 { "not", XRC(31,124,0), X_MASK, COM, { RA, RS, RBS } },
3589 { "nor", XRC(31,124,0), X_MASK, COM, { RA, RS, RB } },
3590 { "not.", XRC(31,124,1), X_MASK, COM, { RA, RS, RBS } },
3591 { "nor.", XRC(31,124,1), X_MASK, COM, { RA, RS, RB } },
3592
3593 { "lwarxe", X(31,126), X_MASK, BOOKE64, { RT, RA0, RB } },
3594
3595 { "lbzuxe", X(31,127), X_MASK, BOOKE64, { RT, RAL, RB } },
3596
3597 { "wrtee", X(31,131), XRARB_MASK, PPC403 | BOOKE, { RS } },
3598
3599 { "dcbtstls",X(31,134), X_MASK, PPCCHLK, { CT, RA, RB }},
3600
3601 { "subfe", XO(31,136,0,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3602 { "sfe", XO(31,136,0,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3603 { "subfe.", XO(31,136,0,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3604 { "sfe.", XO(31,136,0,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3605 { "subfeo", XO(31,136,1,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3606 { "sfeo", XO(31,136,1,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3607 { "subfeo.", XO(31,136,1,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3608 { "sfeo.", XO(31,136,1,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3609
3610 { "adde", XO(31,138,0,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3611 { "ae", XO(31,138,0,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3612 { "adde.", XO(31,138,0,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3613 { "ae.", XO(31,138,0,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3614 { "addeo", XO(31,138,1,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3615 { "aeo", XO(31,138,1,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3616 { "addeo.", XO(31,138,1,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3617 { "aeo.", XO(31,138,1,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3618
3619 { "dcbtstlse",X(31,142),X_MASK, PPCCHLK64, { CT, RA, RB }},
3620
3621 { "mtocrf", XFXM(31,144,0,1), XFXFXM_MASK, COM, { FXM, RS } },
3622 { "mtcr", XFXM(31,144,0xff,0), XRARB_MASK, COM, { RS }},
3623 { "mtcrf", X(31,144), XFXFXM_MASK, COM, { FXM, RS } },
3624
3625 { "mtmsr", X(31,146), XRARB_MASK, COM, { RS } },
3626
3627 { "stdx", X(31,149), X_MASK, PPC64, { RS, RA0, RB } },
3628
3629 { "stwcx.", XRC(31,150,1), X_MASK, PPC, { RS, RA0, RB } },
3630
3631 { "stwx", X(31,151), X_MASK, PPCCOM, { RS, RA0, RB } },
3632 { "stx", X(31,151), X_MASK, PWRCOM, { RS, RA, RB } },
3633
3634 { "stwcxe.", XRC(31,158,1), X_MASK, BOOKE64, { RS, RA0, RB } },
3635
3636 { "stwxe", X(31,159), X_MASK, BOOKE64, { RS, RA0, RB } },
3637
3638 { "slq", XRC(31,152,0), X_MASK, M601, { RA, RS, RB } },
3639 { "slq.", XRC(31,152,1), X_MASK, M601, { RA, RS, RB } },
3640
3641 { "sle", XRC(31,153,0), X_MASK, M601, { RA, RS, RB } },
3642 { "sle.", XRC(31,153,1), X_MASK, M601, { RA, RS, RB } },
3643
3644 { "prtyw", X(31,154), XRB_MASK, POWER6, { RA, RS } },
3645
3646 { "wrteei", X(31,163), XE_MASK, PPC403 | BOOKE, { E } },
3647
3648 { "dcbtls", X(31,166), X_MASK, PPCCHLK, { CT, RA, RB }},
3649 { "dcbtlse", X(31,174), X_MASK, PPCCHLK64, { CT, RA, RB }},
3650
3651 { "mtmsrd", X(31,178), XRLARB_MASK, PPC64, { RS, A_L } },
3652
3653 { "stdux", X(31,181), X_MASK, PPC64, { RS, RAS, RB } },
3654
3655 { "stwux", X(31,183), X_MASK, PPCCOM, { RS, RAS, RB } },
3656 { "stux", X(31,183), X_MASK, PWRCOM, { RS, RA0, RB } },
3657
3658 { "sliq", XRC(31,184,0), X_MASK, M601, { RA, RS, SH } },
3659 { "sliq.", XRC(31,184,1), X_MASK, M601, { RA, RS, SH } },
3660
3661 { "prtyd", X(31,186), XRB_MASK, POWER6, { RA, RS } },
3662
3663 { "stwuxe", X(31,191), X_MASK, BOOKE64, { RS, RAS, RB } },
3664
3665 { "subfze", XO(31,200,0,0), XORB_MASK, PPCCOM, { RT, RA } },
3666 { "sfze", XO(31,200,0,0), XORB_MASK, PWRCOM, { RT, RA } },
3667 { "subfze.", XO(31,200,0,1), XORB_MASK, PPCCOM, { RT, RA } },
3668 { "sfze.", XO(31,200,0,1), XORB_MASK, PWRCOM, { RT, RA } },
3669 { "subfzeo", XO(31,200,1,0), XORB_MASK, PPCCOM, { RT, RA } },
3670 { "sfzeo", XO(31,200,1,0), XORB_MASK, PWRCOM, { RT, RA } },
3671 { "subfzeo.",XO(31,200,1,1), XORB_MASK, PPCCOM, { RT, RA } },
3672 { "sfzeo.", XO(31,200,1,1), XORB_MASK, PWRCOM, { RT, RA } },
3673
3674 { "addze", XO(31,202,0,0), XORB_MASK, PPCCOM, { RT, RA } },
3675 { "aze", XO(31,202,0,0), XORB_MASK, PWRCOM, { RT, RA } },
3676 { "addze.", XO(31,202,0,1), XORB_MASK, PPCCOM, { RT, RA } },
3677 { "aze.", XO(31,202,0,1), XORB_MASK, PWRCOM, { RT, RA } },
3678 { "addzeo", XO(31,202,1,0), XORB_MASK, PPCCOM, { RT, RA } },
3679 { "azeo", XO(31,202,1,0), XORB_MASK, PWRCOM, { RT, RA } },
3680 { "addzeo.", XO(31,202,1,1), XORB_MASK, PPCCOM, { RT, RA } },
3681 { "azeo.", XO(31,202,1,1), XORB_MASK, PWRCOM, { RT, RA } },
3682
3683 { "mtsr", X(31,210), XRB_MASK|(1<<20), COM32, { SR, RS } },
3684
3685 { "stdcx.", XRC(31,214,1), X_MASK, PPC64, { RS, RA0, RB } },
3686
3687 { "stbx", X(31,215), X_MASK, COM, { RS, RA0, RB } },
3688
3689 { "sllq", XRC(31,216,0), X_MASK, M601, { RA, RS, RB } },
3690 { "sllq.", XRC(31,216,1), X_MASK, M601, { RA, RS, RB } },
3691
3692 { "sleq", XRC(31,217,0), X_MASK, M601, { RA, RS, RB } },
3693 { "sleq.", XRC(31,217,1), X_MASK, M601, { RA, RS, RB } },
3694
3695 { "stbxe", X(31,223), X_MASK, BOOKE64, { RS, RA0, RB } },
3696
3697 { "icblc", X(31,230), X_MASK, PPCCHLK, { CT, RA, RB }},
3698
3699 { "subfme", XO(31,232,0,0), XORB_MASK, PPCCOM, { RT, RA } },
3700 { "sfme", XO(31,232,0,0), XORB_MASK, PWRCOM, { RT, RA } },
3701 { "subfme.", XO(31,232,0,1), XORB_MASK, PPCCOM, { RT, RA } },
3702 { "sfme.", XO(31,232,0,1), XORB_MASK, PWRCOM, { RT, RA } },
3703 { "subfmeo", XO(31,232,1,0), XORB_MASK, PPCCOM, { RT, RA } },
3704 { "sfmeo", XO(31,232,1,0), XORB_MASK, PWRCOM, { RT, RA } },
3705 { "subfmeo.",XO(31,232,1,1), XORB_MASK, PPCCOM, { RT, RA } },
3706 { "sfmeo.", XO(31,232,1,1), XORB_MASK, PWRCOM, { RT, RA } },
3707
3708 { "mulld", XO(31,233,0,0), XO_MASK, PPC64, { RT, RA, RB } },
3709 { "mulld.", XO(31,233,0,1), XO_MASK, PPC64, { RT, RA, RB } },
3710 { "mulldo", XO(31,233,1,0), XO_MASK, PPC64, { RT, RA, RB } },
3711 { "mulldo.", XO(31,233,1,1), XO_MASK, PPC64, { RT, RA, RB } },
3712
3713 { "addme", XO(31,234,0,0), XORB_MASK, PPCCOM, { RT, RA } },
3714 { "ame", XO(31,234,0,0), XORB_MASK, PWRCOM, { RT, RA } },
3715 { "addme.", XO(31,234,0,1), XORB_MASK, PPCCOM, { RT, RA } },
3716 { "ame.", XO(31,234,0,1), XORB_MASK, PWRCOM, { RT, RA } },
3717 { "addmeo", XO(31,234,1,0), XORB_MASK, PPCCOM, { RT, RA } },
3718 { "ameo", XO(31,234,1,0), XORB_MASK, PWRCOM, { RT, RA } },
3719 { "addmeo.", XO(31,234,1,1), XORB_MASK, PPCCOM, { RT, RA } },
3720 { "ameo.", XO(31,234,1,1), XORB_MASK, PWRCOM, { RT, RA } },
3721
3722 { "mullw", XO(31,235,0,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3723 { "muls", XO(31,235,0,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3724 { "mullw.", XO(31,235,0,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3725 { "muls.", XO(31,235,0,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3726 { "mullwo", XO(31,235,1,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3727 { "mulso", XO(31,235,1,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3728 { "mullwo.", XO(31,235,1,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3729 { "mulso.", XO(31,235,1,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3730
3731 { "icblce", X(31,238), X_MASK, PPCCHLK64, { CT, RA, RB }},
3732 { "mtsrin", X(31,242), XRA_MASK, PPC32, { RS, RB } },
3733 { "mtsri", X(31,242), XRA_MASK, POWER32, { RS, RB } },
3734
3735 { "dcbtst", X(31,246), X_MASK, PPC, { CT, RA, RB } },
3736
3737 { "stbux", X(31,247), X_MASK, COM, { RS, RAS, RB } },
3738
3739 { "slliq", XRC(31,248,0), X_MASK, M601, { RA, RS, SH } },
3740 { "slliq.", XRC(31,248,1), X_MASK, M601, { RA, RS, SH } },
3741
3742 { "dcbtste", X(31,253), X_MASK, BOOKE64, { CT, RA, RB } },
3743
3744 { "stbuxe", X(31,255), X_MASK, BOOKE64, { RS, RAS, RB } },
3745
3746 { "mfdcrx", X(31,259), X_MASK, BOOKE, { RS, RA } },
3747
3748 { "doz", XO(31,264,0,0), XO_MASK, M601, { RT, RA, RB } },
3749 { "doz.", XO(31,264,0,1), XO_MASK, M601, { RT, RA, RB } },
3750 { "dozo", XO(31,264,1,0), XO_MASK, M601, { RT, RA, RB } },
3751 { "dozo.", XO(31,264,1,1), XO_MASK, M601, { RT, RA, RB } },
3752
3753 { "add", XO(31,266,0,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3754 { "cax", XO(31,266,0,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3755 { "add.", XO(31,266,0,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3756 { "cax.", XO(31,266,0,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3757 { "addo", XO(31,266,1,0), XO_MASK, PPCCOM, { RT, RA, RB } },
3758 { "caxo", XO(31,266,1,0), XO_MASK, PWRCOM, { RT, RA, RB } },
3759 { "addo.", XO(31,266,1,1), XO_MASK, PPCCOM, { RT, RA, RB } },
3760 { "caxo.", XO(31,266,1,1), XO_MASK, PWRCOM, { RT, RA, RB } },
3761
3762 { "tlbiel", X(31,274), XRTLRA_MASK, POWER4, { RB, L } },
3763
3764 { "mfapidi", X(31,275), X_MASK, BOOKE, { RT, RA } },
3765
3766 { "lscbx", XRC(31,277,0), X_MASK, M601, { RT, RA, RB } },
3767 { "lscbx.", XRC(31,277,1), X_MASK, M601, { RT, RA, RB } },
3768
3769 { "dcbt", X(31,278), X_MASK, PPC, { CT, RA, RB } },
3770
3771 { "lhzx", X(31,279), X_MASK, COM, { RT, RA0, RB } },
3772
3773 { "eqv", XRC(31,284,0), X_MASK, COM, { RA, RS, RB } },
3774 { "eqv.", XRC(31,284,1), X_MASK, COM, { RA, RS, RB } },
3775
3776 { "dcbte", X(31,286), X_MASK, BOOKE64, { CT, RA, RB } },
3777
3778 { "lhzxe", X(31,287), X_MASK, BOOKE64, { RT, RA0, RB } },
3779
3780 { "tlbie", X(31,306), XRTLRA_MASK, PPC, { RB, L } },
3781 { "tlbi", X(31,306), XRT_MASK, POWER, { RA0, RB } },
3782
3783 { "eciwx", X(31,310), X_MASK, PPC, { RT, RA, RB } },
3784
3785 { "lhzux", X(31,311), X_MASK, COM, { RT, RAL, RB } },
3786
3787 { "xor", XRC(31,316,0), X_MASK, COM, { RA, RS, RB } },
3788 { "xor.", XRC(31,316,1), X_MASK, COM, { RA, RS, RB } },
3789
3790 { "lhzuxe", X(31,319), X_MASK, BOOKE64, { RT, RAL, RB } },
3791
3792 { "mfexisr", XSPR(31,323,64), XSPR_MASK, PPC403, { RT } },
3793 { "mfexier", XSPR(31,323,66), XSPR_MASK, PPC403, { RT } },
3794 { "mfbr0", XSPR(31,323,128), XSPR_MASK, PPC403, { RT } },
3795 { "mfbr1", XSPR(31,323,129), XSPR_MASK, PPC403, { RT } },
3796 { "mfbr2", XSPR(31,323,130), XSPR_MASK, PPC403, { RT } },
3797 { "mfbr3", XSPR(31,323,131), XSPR_MASK, PPC403, { RT } },
3798 { "mfbr4", XSPR(31,323,132), XSPR_MASK, PPC403, { RT } },
3799 { "mfbr5", XSPR(31,323,133), XSPR_MASK, PPC403, { RT } },
3800 { "mfbr6", XSPR(31,323,134), XSPR_MASK, PPC403, { RT } },
3801 { "mfbr7", XSPR(31,323,135), XSPR_MASK, PPC403, { RT } },
3802 { "mfbear", XSPR(31,323,144), XSPR_MASK, PPC403, { RT } },
3803 { "mfbesr", XSPR(31,323,145), XSPR_MASK, PPC403, { RT } },
3804 { "mfiocr", XSPR(31,323,160), XSPR_MASK, PPC403, { RT } },
3805 { "mfdmacr0", XSPR(31,323,192), XSPR_MASK, PPC403, { RT } },
3806 { "mfdmact0", XSPR(31,323,193), XSPR_MASK, PPC403, { RT } },
3807 { "mfdmada0", XSPR(31,323,194), XSPR_MASK, PPC403, { RT } },
3808 { "mfdmasa0", XSPR(31,323,195), XSPR_MASK, PPC403, { RT } },
3809 { "mfdmacc0", XSPR(31,323,196), XSPR_MASK, PPC403, { RT } },
3810 { "mfdmacr1", XSPR(31,323,200), XSPR_MASK, PPC403, { RT } },
3811 { "mfdmact1", XSPR(31,323,201), XSPR_MASK, PPC403, { RT } },
3812 { "mfdmada1", XSPR(31,323,202), XSPR_MASK, PPC403, { RT } },
3813 { "mfdmasa1", XSPR(31,323,203), XSPR_MASK, PPC403, { RT } },
3814 { "mfdmacc1", XSPR(31,323,204), XSPR_MASK, PPC403, { RT } },
3815 { "mfdmacr2", XSPR(31,323,208), XSPR_MASK, PPC403, { RT } },
3816 { "mfdmact2", XSPR(31,323,209), XSPR_MASK, PPC403, { RT } },
3817 { "mfdmada2", XSPR(31,323,210), XSPR_MASK, PPC403, { RT } },
3818 { "mfdmasa2", XSPR(31,323,211), XSPR_MASK, PPC403, { RT } },
3819 { "mfdmacc2", XSPR(31,323,212), XSPR_MASK, PPC403, { RT } },
3820 { "mfdmacr3", XSPR(31,323,216), XSPR_MASK, PPC403, { RT } },
3821 { "mfdmact3", XSPR(31,323,217), XSPR_MASK, PPC403, { RT } },
3822 { "mfdmada3", XSPR(31,323,218), XSPR_MASK, PPC403, { RT } },
3823 { "mfdmasa3", XSPR(31,323,219), XSPR_MASK, PPC403, { RT } },
3824 { "mfdmacc3", XSPR(31,323,220), XSPR_MASK, PPC403, { RT } },
3825 { "mfdmasr", XSPR(31,323,224), XSPR_MASK, PPC403, { RT } },
3826 { "mfdcr", X(31,323), X_MASK, PPC403 | BOOKE, { RT, SPR } },
3827
3828 { "div", XO(31,331,0,0), XO_MASK, M601, { RT, RA, RB } },
3829 { "div.", XO(31,331,0,1), XO_MASK, M601, { RT, RA, RB } },
3830 { "divo", XO(31,331,1,0), XO_MASK, M601, { RT, RA, RB } },
3831 { "divo.", XO(31,331,1,1), XO_MASK, M601, { RT, RA, RB } },
3832
3833 { "mfpmr", X(31,334), X_MASK, PPCPMR, { RT, PMR }},
3834
3835 { "mfmq", XSPR(31,339,0), XSPR_MASK, M601, { RT } },
3836 { "mfxer", XSPR(31,339,1), XSPR_MASK, COM, { RT } },
3837 { "mfrtcu", XSPR(31,339,4), XSPR_MASK, COM, { RT } },
3838 { "mfrtcl", XSPR(31,339,5), XSPR_MASK, COM, { RT } },
3839 { "mfdec", XSPR(31,339,6), XSPR_MASK, MFDEC1, { RT } },
3840 { "mfdec", XSPR(31,339,22), XSPR_MASK, MFDEC2, { RT } },
3841 { "mflr", XSPR(31,339,8), XSPR_MASK, COM, { RT } },
3842 { "mfctr", XSPR(31,339,9), XSPR_MASK, COM, { RT } },
3843 { "mftid", XSPR(31,339,17), XSPR_MASK, POWER, { RT } },
3844 { "mfdsisr", XSPR(31,339,18), XSPR_MASK, COM, { RT } },
3845 { "mfdar", XSPR(31,339,19), XSPR_MASK, COM, { RT } },
3846 { "mfsdr0", XSPR(31,339,24), XSPR_MASK, POWER, { RT } },
3847 { "mfsdr1", XSPR(31,339,25), XSPR_MASK, COM, { RT } },
3848 { "mfsrr0", XSPR(31,339,26), XSPR_MASK, COM, { RT } },
3849 { "mfsrr1", XSPR(31,339,27), XSPR_MASK, COM, { RT } },
3850 { "mfcfar", XSPR(31,339,28), XSPR_MASK, POWER6, { RT } },
3851 { "mfpid", XSPR(31,339,48), XSPR_MASK, BOOKE, { RT } },
3852 { "mfpid", XSPR(31,339,945), XSPR_MASK, PPC403, { RT } },
3853 { "mfcsrr0", XSPR(31,339,58), XSPR_MASK, BOOKE, { RT } },
3854 { "mfcsrr1", XSPR(31,339,59), XSPR_MASK, BOOKE, { RT } },
3855 { "mfdear", XSPR(31,339,61), XSPR_MASK, BOOKE, { RT } },
3856 { "mfdear", XSPR(31,339,981), XSPR_MASK, PPC403, { RT } },
3857 { "mfesr", XSPR(31,339,62), XSPR_MASK, BOOKE, { RT } },
3858 { "mfesr", XSPR(31,339,980), XSPR_MASK, PPC403, { RT } },
3859 { "mfivpr", XSPR(31,339,63), XSPR_MASK, BOOKE, { RT } },
3860 { "mfcmpa", XSPR(31,339,144), XSPR_MASK, PPC860, { RT } },
3861 { "mfcmpb", XSPR(31,339,145), XSPR_MASK, PPC860, { RT } },
3862 { "mfcmpc", XSPR(31,339,146), XSPR_MASK, PPC860, { RT } },
3863 { "mfcmpd", XSPR(31,339,147), XSPR_MASK, PPC860, { RT } },
3864 { "mficr", XSPR(31,339,148), XSPR_MASK, PPC860, { RT } },
3865 { "mfder", XSPR(31,339,149), XSPR_MASK, PPC860, { RT } },
3866 { "mfcounta", XSPR(31,339,150), XSPR_MASK, PPC860, { RT } },
3867 { "mfcountb", XSPR(31,339,151), XSPR_MASK, PPC860, { RT } },
3868 { "mfcmpe", XSPR(31,339,152), XSPR_MASK, PPC860, { RT } },
3869 { "mfcmpf", XSPR(31,339,153), XSPR_MASK, PPC860, { RT } },
3870 { "mfcmpg", XSPR(31,339,154), XSPR_MASK, PPC860, { RT } },
3871 { "mfcmph", XSPR(31,339,155), XSPR_MASK, PPC860, { RT } },
3872 { "mflctrl1", XSPR(31,339,156), XSPR_MASK, PPC860, { RT } },
3873 { "mflctrl2", XSPR(31,339,157), XSPR_MASK, PPC860, { RT } },
3874 { "mfictrl", XSPR(31,339,158), XSPR_MASK, PPC860, { RT } },
3875 { "mfbar", XSPR(31,339,159), XSPR_MASK, PPC860, { RT } },
3876 { "mfvrsave", XSPR(31,339,256), XSPR_MASK, PPCVEC, { RT } },
3877 { "mfusprg0", XSPR(31,339,256), XSPR_MASK, BOOKE, { RT } },
3878 { "mftb", X(31,371), X_MASK, CLASSIC, { RT, TBR } },
3879 { "mftb", XSPR(31,339,268), XSPR_MASK, BOOKE, { RT } },
3880 { "mftbl", XSPR(31,371,268), XSPR_MASK, CLASSIC, { RT } },
3881 { "mftbl", XSPR(31,339,268), XSPR_MASK, BOOKE, { RT } },
3882 { "mftbu", XSPR(31,371,269), XSPR_MASK, CLASSIC, { RT } },
3883 { "mftbu", XSPR(31,339,269), XSPR_MASK, BOOKE, { RT } },
3884 { "mfsprg", XSPR(31,339,256), XSPRG_MASK, PPC, { RT, SPRG } },
3885 { "mfsprg0", XSPR(31,339,272), XSPR_MASK, PPC, { RT } },
3886 { "mfsprg1", XSPR(31,339,273), XSPR_MASK, PPC, { RT } },
3887 { "mfsprg2", XSPR(31,339,274), XSPR_MASK, PPC, { RT } },
3888 { "mfsprg3", XSPR(31,339,275), XSPR_MASK, PPC, { RT } },
3889 { "mfsprg4", XSPR(31,339,260), XSPR_MASK, PPC405 | BOOKE, { RT } },
3890 { "mfsprg5", XSPR(31,339,261), XSPR_MASK, PPC405 | BOOKE, { RT } },
3891 { "mfsprg6", XSPR(31,339,262), XSPR_MASK, PPC405 | BOOKE, { RT } },
3892 { "mfsprg7", XSPR(31,339,263), XSPR_MASK, PPC405 | BOOKE, { RT } },
3893 { "mfasr", XSPR(31,339,280), XSPR_MASK, PPC64, { RT } },
3894 { "mfear", XSPR(31,339,282), XSPR_MASK, PPC, { RT } },
3895 { "mfpir", XSPR(31,339,286), XSPR_MASK, BOOKE, { RT } },
3896 { "mfpvr", XSPR(31,339,287), XSPR_MASK, PPC, { RT } },
3897 { "mfdbsr", XSPR(31,339,304), XSPR_MASK, BOOKE, { RT } },
3898 { "mfdbsr", XSPR(31,339,1008), XSPR_MASK, PPC403, { RT } },
3899 { "mfdbcr0", XSPR(31,339,308), XSPR_MASK, BOOKE, { RT } },
3900 { "mfdbcr0", XSPR(31,339,1010), XSPR_MASK, PPC405, { RT } },
3901 { "mfdbcr1", XSPR(31,339,309), XSPR_MASK, BOOKE, { RT } },
3902 { "mfdbcr1", XSPR(31,339,957), XSPR_MASK, PPC405, { RT } },
3903 { "mfdbcr2", XSPR(31,339,310), XSPR_MASK, BOOKE, { RT } },
3904 { "mfiac1", XSPR(31,339,312), XSPR_MASK, BOOKE, { RT } },
3905 { "mfiac1", XSPR(31,339,1012), XSPR_MASK, PPC403, { RT } },
3906 { "mfiac2", XSPR(31,339,313), XSPR_MASK, BOOKE, { RT } },
3907 { "mfiac2", XSPR(31,339,1013), XSPR_MASK, PPC403, { RT } },
3908 { "mfiac3", XSPR(31,339,314), XSPR_MASK, BOOKE, { RT } },
3909 { "mfiac3", XSPR(31,339,948), XSPR_MASK, PPC405, { RT } },
3910 { "mfiac4", XSPR(31,339,315), XSPR_MASK, BOOKE, { RT } },
3911 { "mfiac4", XSPR(31,339,949), XSPR_MASK, PPC405, { RT } },
3912 { "mfdac1", XSPR(31,339,316), XSPR_MASK, BOOKE, { RT } },
3913 { "mfdac1", XSPR(31,339,1014), XSPR_MASK, PPC403, { RT } },
3914 { "mfdac2", XSPR(31,339,317), XSPR_MASK, BOOKE, { RT } },
3915 { "mfdac2", XSPR(31,339,1015), XSPR_MASK, PPC403, { RT } },
3916 { "mfdvc1", XSPR(31,339,318), XSPR_MASK, BOOKE, { RT } },
3917 { "mfdvc1", XSPR(31,339,950), XSPR_MASK, PPC405, { RT } },
3918 { "mfdvc2", XSPR(31,339,319), XSPR_MASK, BOOKE, { RT } },
3919 { "mfdvc2", XSPR(31,339,951), XSPR_MASK, PPC405, { RT } },
3920 { "mftsr", XSPR(31,339,336), XSPR_MASK, BOOKE, { RT } },
3921 { "mftsr", XSPR(31,339,984), XSPR_MASK, PPC403, { RT } },
3922 { "mftcr", XSPR(31,339,340), XSPR_MASK, BOOKE, { RT } },
3923 { "mftcr", XSPR(31,339,986), XSPR_MASK, PPC403, { RT } },
3924 { "mfivor0", XSPR(31,339,400), XSPR_MASK, BOOKE, { RT } },
3925 { "mfivor1", XSPR(31,339,401), XSPR_MASK, BOOKE, { RT } },
3926 { "mfivor2", XSPR(31,339,402), XSPR_MASK, BOOKE, { RT } },
3927 { "mfivor3", XSPR(31,339,403), XSPR_MASK, BOOKE, { RT } },
3928 { "mfivor4", XSPR(31,339,404), XSPR_MASK, BOOKE, { RT } },
3929 { "mfivor5", XSPR(31,339,405), XSPR_MASK, BOOKE, { RT } },
3930 { "mfivor6", XSPR(31,339,406), XSPR_MASK, BOOKE, { RT } },
3931 { "mfivor7", XSPR(31,339,407), XSPR_MASK, BOOKE, { RT } },
3932 { "mfivor8", XSPR(31,339,408), XSPR_MASK, BOOKE, { RT } },
3933 { "mfivor9", XSPR(31,339,409), XSPR_MASK, BOOKE, { RT } },
3934 { "mfivor10", XSPR(31,339,410), XSPR_MASK, BOOKE, { RT } },
3935 { "mfivor11", XSPR(31,339,411), XSPR_MASK, BOOKE, { RT } },
3936 { "mfivor12", XSPR(31,339,412), XSPR_MASK, BOOKE, { RT } },
3937 { "mfivor13", XSPR(31,339,413), XSPR_MASK, BOOKE, { RT } },
3938 { "mfivor14", XSPR(31,339,414), XSPR_MASK, BOOKE, { RT } },
3939 { "mfivor15", XSPR(31,339,415), XSPR_MASK, BOOKE, { RT } },
3940 { "mfspefscr", XSPR(31,339,512), XSPR_MASK, PPCSPE, { RT } },
3941 { "mfbbear", XSPR(31,339,513), XSPR_MASK, PPCBRLK, { RT } },
3942 { "mfbbtar", XSPR(31,339,514), XSPR_MASK, PPCBRLK, { RT } },
3943 { "mfivor32", XSPR(31,339,528), XSPR_MASK, PPCSPE, { RT } },
3944 { "mfivor33", XSPR(31,339,529), XSPR_MASK, PPCSPE, { RT } },
3945 { "mfivor34", XSPR(31,339,530), XSPR_MASK, PPCSPE, { RT } },
3946 { "mfivor35", XSPR(31,339,531), XSPR_MASK, PPCPMR, { RT } },
3947 { "mfibatu", XSPR(31,339,528), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
3948 { "mfibatl", XSPR(31,339,529), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
3949 { "mfdbatu", XSPR(31,339,536), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
3950 { "mfdbatl", XSPR(31,339,537), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
3951 { "mfic_cst", XSPR(31,339,560), XSPR_MASK, PPC860, { RT } },
3952 { "mfic_adr", XSPR(31,339,561), XSPR_MASK, PPC860, { RT } },
3953 { "mfic_dat", XSPR(31,339,562), XSPR_MASK, PPC860, { RT } },
3954 { "mfdc_cst", XSPR(31,339,568), XSPR_MASK, PPC860, { RT } },
3955 { "mfdc_adr", XSPR(31,339,569), XSPR_MASK, PPC860, { RT } },
3956 { "mfmcsrr0", XSPR(31,339,570), XSPR_MASK, PPCRFMCI, { RT } },
3957 { "mfdc_dat", XSPR(31,339,570), XSPR_MASK, PPC860, { RT } },
3958 { "mfmcsrr1", XSPR(31,339,571), XSPR_MASK, PPCRFMCI, { RT } },
3959 { "mfmcsr", XSPR(31,339,572), XSPR_MASK, PPCRFMCI, { RT } },
3960 { "mfmcar", XSPR(31,339,573), XSPR_MASK, PPCRFMCI, { RT } },
3961 { "mfdpdr", XSPR(31,339,630), XSPR_MASK, PPC860, { RT } },
3962 { "mfdpir", XSPR(31,339,631), XSPR_MASK, PPC860, { RT } },
3963 { "mfimmr", XSPR(31,339,638), XSPR_MASK, PPC860, { RT } },
3964 { "mfmi_ctr", XSPR(31,339,784), XSPR_MASK, PPC860, { RT } },
3965 { "mfmi_ap", XSPR(31,339,786), XSPR_MASK, PPC860, { RT } },
3966 { "mfmi_epn", XSPR(31,339,787), XSPR_MASK, PPC860, { RT } },
3967 { "mfmi_twc", XSPR(31,339,789), XSPR_MASK, PPC860, { RT } },
3968 { "mfmi_rpn", XSPR(31,339,790), XSPR_MASK, PPC860, { RT } },
3969 { "mfmd_ctr", XSPR(31,339,792), XSPR_MASK, PPC860, { RT } },
3970 { "mfm_casid", XSPR(31,339,793), XSPR_MASK, PPC860, { RT } },
3971 { "mfmd_ap", XSPR(31,339,794), XSPR_MASK, PPC860, { RT } },
3972 { "mfmd_epn", XSPR(31,339,795), XSPR_MASK, PPC860, { RT } },
3973 { "mfmd_twb", XSPR(31,339,796), XSPR_MASK, PPC860, { RT } },
3974 { "mfmd_twc", XSPR(31,339,797), XSPR_MASK, PPC860, { RT } },
3975 { "mfmd_rpn", XSPR(31,339,798), XSPR_MASK, PPC860, { RT } },
3976 { "mfm_tw", XSPR(31,339,799), XSPR_MASK, PPC860, { RT } },
3977 { "mfmi_dbcam", XSPR(31,339,816), XSPR_MASK, PPC860, { RT } },
3978 { "mfmi_dbram0",XSPR(31,339,817), XSPR_MASK, PPC860, { RT } },
3979 { "mfmi_dbram1",XSPR(31,339,818), XSPR_MASK, PPC860, { RT } },
3980 { "mfmd_dbcam", XSPR(31,339,824), XSPR_MASK, PPC860, { RT } },
3981 { "mfmd_dbram0",XSPR(31,339,825), XSPR_MASK, PPC860, { RT } },
3982 { "mfmd_dbram1",XSPR(31,339,826), XSPR_MASK, PPC860, { RT } },
3983 { "mfummcr0", XSPR(31,339,936), XSPR_MASK, PPC750, { RT } },
3984 { "mfupmc1", XSPR(31,339,937), XSPR_MASK, PPC750, { RT } },
3985 { "mfupmc2", XSPR(31,339,938), XSPR_MASK, PPC750, { RT } },
3986 { "mfusia", XSPR(31,339,939), XSPR_MASK, PPC750, { RT } },
3987 { "mfummcr1", XSPR(31,339,940), XSPR_MASK, PPC750, { RT } },
3988 { "mfupmc3", XSPR(31,339,941), XSPR_MASK, PPC750, { RT } },
3989 { "mfupmc4", XSPR(31,339,942), XSPR_MASK, PPC750, { RT } },
3990 { "mfzpr", XSPR(31,339,944), XSPR_MASK, PPC403, { RT } },
3991 { "mfccr0", XSPR(31,339,947), XSPR_MASK, PPC405, { RT } },
3992 { "mfmmcr0", XSPR(31,339,952), XSPR_MASK, PPC750, { RT } },
3993 { "mfpmc1", XSPR(31,339,953), XSPR_MASK, PPC750, { RT } },
3994 { "mfsgr", XSPR(31,339,953), XSPR_MASK, PPC403, { RT } },
3995 { "mfpmc2", XSPR(31,339,954), XSPR_MASK, PPC750, { RT } },
3996 { "mfdcwr", XSPR(31,339,954), XSPR_MASK, PPC403, { RT } },
3997 { "mfsia", XSPR(31,339,955), XSPR_MASK, PPC750, { RT } },
3998 { "mfsler", XSPR(31,339,955), XSPR_MASK, PPC405, { RT } },
3999 { "mfmmcr1", XSPR(31,339,956), XSPR_MASK, PPC750, { RT } },
4000 { "mfsu0r", XSPR(31,339,956), XSPR_MASK, PPC405, { RT } },
4001 { "mfpmc3", XSPR(31,339,957), XSPR_MASK, PPC750, { RT } },
4002 { "mfpmc4", XSPR(31,339,958), XSPR_MASK, PPC750, { RT } },
4003 { "mficdbdr", XSPR(31,339,979), XSPR_MASK, PPC403, { RT } },
4004 { "mfevpr", XSPR(31,339,982), XSPR_MASK, PPC403, { RT } },
4005 { "mfcdbcr", XSPR(31,339,983), XSPR_MASK, PPC403, { RT } },
4006 { "mfpit", XSPR(31,339,987), XSPR_MASK, PPC403, { RT } },
4007 { "mftbhi", XSPR(31,339,988), XSPR_MASK, PPC403, { RT } },
4008 { "mftblo", XSPR(31,339,989), XSPR_MASK, PPC403, { RT } },
4009 { "mfsrr2", XSPR(31,339,990), XSPR_MASK, PPC403, { RT } },
4010 { "mfsrr3", XSPR(31,339,991), XSPR_MASK, PPC403, { RT } },
4011 { "mfl2cr", XSPR(31,339,1017), XSPR_MASK, PPC750, { RT } },
4012 { "mfdccr", XSPR(31,339,1018), XSPR_MASK, PPC403, { RT } },
4013 { "mficcr", XSPR(31,339,1019), XSPR_MASK, PPC403, { RT } },
4014 { "mfictc", XSPR(31,339,1019), XSPR_MASK, PPC750, { RT } },
4015 { "mfpbl1", XSPR(31,339,1020), XSPR_MASK, PPC403, { RT } },
4016 { "mfthrm1", XSPR(31,339,1020), XSPR_MASK, PPC750, { RT } },
4017 { "mfpbu1", XSPR(31,339,1021), XSPR_MASK, PPC403, { RT } },
4018 { "mfthrm2", XSPR(31,339,1021), XSPR_MASK, PPC750, { RT } },
4019 { "mfpbl2", XSPR(31,339,1022), XSPR_MASK, PPC403, { RT } },
4020 { "mfthrm3", XSPR(31,339,1022), XSPR_MASK, PPC750, { RT } },
4021 { "mfpbu2", XSPR(31,339,1023), XSPR_MASK, PPC403, { RT } },
4022 { "mfspr", X(31,339), X_MASK, COM, { RT, SPR } },
4023
4024 { "lwax", X(31,341), X_MASK, PPC64, { RT, RA0, RB } },
4025
4026 { "dst", XDSS(31,342,0), XDSS_MASK, PPCVEC, { RA, RB, STRM } },
4027 { "dstt", XDSS(31,342,1), XDSS_MASK, PPCVEC, { RA, RB, STRM } },
4028
4029 { "lhax", X(31,343), X_MASK, COM, { RT, RA0, RB } },
4030
4031 { "lhaxe", X(31,351), X_MASK, BOOKE64, { RT, RA0, RB } },
4032
4033 { "dstst", XDSS(31,374,0), XDSS_MASK, PPCVEC, { RA, RB, STRM } },
4034 { "dststt", XDSS(31,374,1), XDSS_MASK, PPCVEC, { RA, RB, STRM } },
4035
4036 { "dccci", X(31,454), XRT_MASK, PPC403|PPC440, { RA, RB } },
4037
4038 { "abs", XO(31,360,0,0), XORB_MASK, M601, { RT, RA } },
4039 { "abs.", XO(31,360,0,1), XORB_MASK, M601, { RT, RA } },
4040 { "abso", XO(31,360,1,0), XORB_MASK, M601, { RT, RA } },
4041 { "abso.", XO(31,360,1,1), XORB_MASK, M601, { RT, RA } },
4042
4043 { "divs", XO(31,363,0,0), XO_MASK, M601, { RT, RA, RB } },
4044 { "divs.", XO(31,363,0,1), XO_MASK, M601, { RT, RA, RB } },
4045 { "divso", XO(31,363,1,0), XO_MASK, M601, { RT, RA, RB } },
4046 { "divso.", XO(31,363,1,1), XO_MASK, M601, { RT, RA, RB } },
4047
4048 { "tlbia", X(31,370), 0xffffffff, PPC, { 0 } },
4049
4050 { "lwaux", X(31,373), X_MASK, PPC64, { RT, RAL, RB } },
4051
4052 { "lhaux", X(31,375), X_MASK, COM, { RT, RAL, RB } },
4053
4054 { "lhauxe", X(31,383), X_MASK, BOOKE64, { RT, RAL, RB } },
4055
4056 { "mtdcrx", X(31,387), X_MASK, BOOKE, { RA, RS } },
4057
4058 { "dcblc", X(31,390), X_MASK, PPCCHLK, { CT, RA, RB }},
4059
4060 { "subfe64", XO(31,392,0,0), XO_MASK, BOOKE64, { RT, RA, RB } },
4061 { "subfe64o",XO(31,392,1,0), XO_MASK, BOOKE64, { RT, RA, RB } },
4062
4063 { "adde64", XO(31,394,0,0), XO_MASK, BOOKE64, { RT, RA, RB } },
4064 { "adde64o", XO(31,394,1,0), XO_MASK, BOOKE64, { RT, RA, RB } },
4065
4066 { "dcblce", X(31,398), X_MASK, PPCCHLK64, { CT, RA, RB }},
4067
4068 { "slbmte", X(31,402), XRA_MASK, PPC64, { RS, RB } },
4069
4070 { "sthx", X(31,407), X_MASK, COM, { RS, RA0, RB } },
4071
4072 { "cmpb", X(31,508), X_MASK, POWER6, { RA, RS, RB } },
4073
4074 { "lfqx", X(31,791), X_MASK, POWER2, { FRT, RA, RB } },
4075
4076 { "lfdpx", X(31,791), X_MASK, POWER6, { FRT, RA, RB } },
4077
4078 { "lfqux", X(31,823), X_MASK, POWER2, { FRT, RA, RB } },
4079
4080 { "stfqx", X(31,919), X_MASK, POWER2, { FRS, RA, RB } },
4081
4082 { "stfdpx", X(31,919), X_MASK, POWER6, { FRS, RA, RB } },
4083
4084 { "stfqux", X(31,951), X_MASK, POWER2, { FRS, RA, RB } },
4085
4086 { "orc", XRC(31,412,0), X_MASK, COM, { RA, RS, RB } },
4087 { "orc.", XRC(31,412,1), X_MASK, COM, { RA, RS, RB } },
4088
4089 { "sradi", XS(31,413,0), XS_MASK, PPC64, { RA, RS, SH6 } },
4090 { "sradi.", XS(31,413,1), XS_MASK, PPC64, { RA, RS, SH6 } },
4091
4092 { "sthxe", X(31,415), X_MASK, BOOKE64, { RS, RA0, RB } },
4093
4094 { "slbie", X(31,434), XRTRA_MASK, PPC64, { RB } },
4095
4096 { "ecowx", X(31,438), X_MASK, PPC, { RT, RA, RB } },
4097
4098 { "sthux", X(31,439), X_MASK, COM, { RS, RAS, RB } },
4099
4100 { "sthuxe", X(31,447), X_MASK, BOOKE64, { RS, RAS, RB } },
4101
4102 { "cctpl", 0x7c210b78, 0xffffffff, CELL, { 0 }},
4103 { "cctpm", 0x7c421378, 0xffffffff, CELL, { 0 }},
4104 { "cctph", 0x7c631b78, 0xffffffff, CELL, { 0 }},
4105 { "db8cyc", 0x7f9ce378, 0xffffffff, CELL, { 0 }},
4106 { "db10cyc", 0x7fbdeb78, 0xffffffff, CELL, { 0 }},
4107 { "db12cyc", 0x7fdef378, 0xffffffff, CELL, { 0 }},
4108 { "db16cyc", 0x7ffffb78, 0xffffffff, CELL, { 0 }},
4109 { "mr", XRC(31,444,0), X_MASK, COM, { RA, RS, RBS } },
4110 { "or", XRC(31,444,0), X_MASK, COM, { RA, RS, RB } },
4111 { "mr.", XRC(31,444,1), X_MASK, COM, { RA, RS, RBS } },
4112 { "or.", XRC(31,444,1), X_MASK, COM, { RA, RS, RB } },
4113
4114 { "mtexisr", XSPR(31,451,64), XSPR_MASK, PPC403, { RS } },
4115 { "mtexier", XSPR(31,451,66), XSPR_MASK, PPC403, { RS } },
4116 { "mtbr0", XSPR(31,451,128), XSPR_MASK, PPC403, { RS } },
4117 { "mtbr1", XSPR(31,451,129), XSPR_MASK, PPC403, { RS } },
4118 { "mtbr2", XSPR(31,451,130), XSPR_MASK, PPC403, { RS } },
4119 { "mtbr3", XSPR(31,451,131), XSPR_MASK, PPC403, { RS } },
4120 { "mtbr4", XSPR(31,451,132), XSPR_MASK, PPC403, { RS } },
4121 { "mtbr5", XSPR(31,451,133), XSPR_MASK, PPC403, { RS } },
4122 { "mtbr6", XSPR(31,451,134), XSPR_MASK, PPC403, { RS } },
4123 { "mtbr7", XSPR(31,451,135), XSPR_MASK, PPC403, { RS } },
4124 { "mtbear", XSPR(31,451,144), XSPR_MASK, PPC403, { RS } },
4125 { "mtbesr", XSPR(31,451,145), XSPR_MASK, PPC403, { RS } },
4126 { "mtiocr", XSPR(31,451,160), XSPR_MASK, PPC403, { RS } },
4127 { "mtdmacr0", XSPR(31,451,192), XSPR_MASK, PPC403, { RS } },
4128 { "mtdmact0", XSPR(31,451,193), XSPR_MASK, PPC403, { RS } },
4129 { "mtdmada0", XSPR(31,451,194), XSPR_MASK, PPC403, { RS } },
4130 { "mtdmasa0", XSPR(31,451,195), XSPR_MASK, PPC403, { RS } },
4131 { "mtdmacc0", XSPR(31,451,196), XSPR_MASK, PPC403, { RS } },
4132 { "mtdmacr1", XSPR(31,451,200), XSPR_MASK, PPC403, { RS } },
4133 { "mtdmact1", XSPR(31,451,201), XSPR_MASK, PPC403, { RS } },
4134 { "mtdmada1", XSPR(31,451,202), XSPR_MASK, PPC403, { RS } },
4135 { "mtdmasa1", XSPR(31,451,203), XSPR_MASK, PPC403, { RS } },
4136 { "mtdmacc1", XSPR(31,451,204), XSPR_MASK, PPC403, { RS } },
4137 { "mtdmacr2", XSPR(31,451,208), XSPR_MASK, PPC403, { RS } },
4138 { "mtdmact2", XSPR(31,451,209), XSPR_MASK, PPC403, { RS } },
4139 { "mtdmada2", XSPR(31,451,210), XSPR_MASK, PPC403, { RS } },
4140 { "mtdmasa2", XSPR(31,451,211), XSPR_MASK, PPC403, { RS } },
4141 { "mtdmacc2", XSPR(31,451,212), XSPR_MASK, PPC403, { RS } },
4142 { "mtdmacr3", XSPR(31,451,216), XSPR_MASK, PPC403, { RS } },
4143 { "mtdmact3", XSPR(31,451,217), XSPR_MASK, PPC403, { RS } },
4144 { "mtdmada3", XSPR(31,451,218), XSPR_MASK, PPC403, { RS } },
4145 { "mtdmasa3", XSPR(31,451,219), XSPR_MASK, PPC403, { RS } },
4146 { "mtdmacc3", XSPR(31,451,220), XSPR_MASK, PPC403, { RS } },
4147 { "mtdmasr", XSPR(31,451,224), XSPR_MASK, PPC403, { RS } },
4148 { "mtdcr", X(31,451), X_MASK, PPC403 | BOOKE, { SPR, RS } },
4149
4150 { "subfze64",XO(31,456,0,0), XORB_MASK, BOOKE64, { RT, RA } },
4151 { "subfze64o",XO(31,456,1,0), XORB_MASK, BOOKE64, { RT, RA } },
4152
4153 { "divdu", XO(31,457,0,0), XO_MASK, PPC64, { RT, RA, RB } },
4154 { "divdu.", XO(31,457,0,1), XO_MASK, PPC64, { RT, RA, RB } },
4155 { "divduo", XO(31,457,1,0), XO_MASK, PPC64, { RT, RA, RB } },
4156 { "divduo.", XO(31,457,1,1), XO_MASK, PPC64, { RT, RA, RB } },
4157
4158 { "addze64", XO(31,458,0,0), XORB_MASK, BOOKE64, { RT, RA } },
4159 { "addze64o",XO(31,458,1,0), XORB_MASK, BOOKE64, { RT, RA } },
4160
4161 { "divwu", XO(31,459,0,0), XO_MASK, PPC, { RT, RA, RB } },
4162 { "divwu.", XO(31,459,0,1), XO_MASK, PPC, { RT, RA, RB } },
4163 { "divwuo", XO(31,459,1,0), XO_MASK, PPC, { RT, RA, RB } },
4164 { "divwuo.", XO(31,459,1,1), XO_MASK, PPC, { RT, RA, RB } },
4165
4166 { "mtmq", XSPR(31,467,0), XSPR_MASK, M601, { RS } },
4167 { "mtxer", XSPR(31,467,1), XSPR_MASK, COM, { RS } },
4168 { "mtlr", XSPR(31,467,8), XSPR_MASK, COM, { RS } },
4169 { "mtctr", XSPR(31,467,9), XSPR_MASK, COM, { RS } },
4170 { "mttid", XSPR(31,467,17), XSPR_MASK, POWER, { RS } },
4171 { "mtdsisr", XSPR(31,467,18), XSPR_MASK, COM, { RS } },
4172 { "mtdar", XSPR(31,467,19), XSPR_MASK, COM, { RS } },
4173 { "mtrtcu", XSPR(31,467,20), XSPR_MASK, COM, { RS } },
4174 { "mtrtcl", XSPR(31,467,21), XSPR_MASK, COM, { RS } },
4175 { "mtdec", XSPR(31,467,22), XSPR_MASK, COM, { RS } },
4176 { "mtsdr0", XSPR(31,467,24), XSPR_MASK, POWER, { RS } },
4177 { "mtsdr1", XSPR(31,467,25), XSPR_MASK, COM, { RS } },
4178 { "mtsrr0", XSPR(31,467,26), XSPR_MASK, COM, { RS } },
4179 { "mtsrr1", XSPR(31,467,27), XSPR_MASK, COM, { RS } },
4180 { "mtcfar", XSPR(31,467,28), XSPR_MASK, POWER6, { RS } },
4181 { "mtpid", XSPR(31,467,48), XSPR_MASK, BOOKE, { RS } },
4182 { "mtpid", XSPR(31,467,945), XSPR_MASK, PPC403, { RS } },
4183 { "mtdecar", XSPR(31,467,54), XSPR_MASK, BOOKE, { RS } },
4184 { "mtcsrr0", XSPR(31,467,58), XSPR_MASK, BOOKE, { RS } },
4185 { "mtcsrr1", XSPR(31,467,59), XSPR_MASK, BOOKE, { RS } },
4186 { "mtdear", XSPR(31,467,61), XSPR_MASK, BOOKE, { RS } },
4187 { "mtdear", XSPR(31,467,981), XSPR_MASK, PPC403, { RS } },
4188 { "mtesr", XSPR(31,467,62), XSPR_MASK, BOOKE, { RS } },
4189 { "mtesr", XSPR(31,467,980), XSPR_MASK, PPC403, { RS } },
4190 { "mtivpr", XSPR(31,467,63), XSPR_MASK, BOOKE, { RS } },
4191 { "mtcmpa", XSPR(31,467,144), XSPR_MASK, PPC860, { RS } },
4192 { "mtcmpb", XSPR(31,467,145), XSPR_MASK, PPC860, { RS } },
4193 { "mtcmpc", XSPR(31,467,146), XSPR_MASK, PPC860, { RS } },
4194 { "mtcmpd", XSPR(31,467,147), XSPR_MASK, PPC860, { RS } },
4195 { "mticr", XSPR(31,467,148), XSPR_MASK, PPC860, { RS } },
4196 { "mtder", XSPR(31,467,149), XSPR_MASK, PPC860, { RS } },
4197 { "mtcounta", XSPR(31,467,150), XSPR_MASK, PPC860, { RS } },
4198 { "mtcountb", XSPR(31,467,151), XSPR_MASK, PPC860, { RS } },
4199 { "mtcmpe", XSPR(31,467,152), XSPR_MASK, PPC860, { RS } },
4200 { "mtcmpf", XSPR(31,467,153), XSPR_MASK, PPC860, { RS } },
4201 { "mtcmpg", XSPR(31,467,154), XSPR_MASK, PPC860, { RS } },
4202 { "mtcmph", XSPR(31,467,155), XSPR_MASK, PPC860, { RS } },
4203 { "mtlctrl1", XSPR(31,467,156), XSPR_MASK, PPC860, { RS } },
4204 { "mtlctrl2", XSPR(31,467,157), XSPR_MASK, PPC860, { RS } },
4205 { "mtictrl", XSPR(31,467,158), XSPR_MASK, PPC860, { RS } },
4206 { "mtbar", XSPR(31,467,159), XSPR_MASK, PPC860, { RS } },
4207 { "mtvrsave", XSPR(31,467,256), XSPR_MASK, PPCVEC, { RS } },
4208 { "mtusprg0", XSPR(31,467,256), XSPR_MASK, BOOKE, { RS } },
4209 { "mtsprg", XSPR(31,467,256), XSPRG_MASK,PPC, { SPRG, RS } },
4210 { "mtsprg0", XSPR(31,467,272), XSPR_MASK, PPC, { RS } },
4211 { "mtsprg1", XSPR(31,467,273), XSPR_MASK, PPC, { RS } },
4212 { "mtsprg2", XSPR(31,467,274), XSPR_MASK, PPC, { RS } },
4213 { "mtsprg3", XSPR(31,467,275), XSPR_MASK, PPC, { RS } },
4214 { "mtsprg4", XSPR(31,467,276), XSPR_MASK, PPC405 | BOOKE, { RS } },
4215 { "mtsprg5", XSPR(31,467,277), XSPR_MASK, PPC405 | BOOKE, { RS } },
4216 { "mtsprg6", XSPR(31,467,278), XSPR_MASK, PPC405 | BOOKE, { RS } },
4217 { "mtsprg7", XSPR(31,467,279), XSPR_MASK, PPC405 | BOOKE, { RS } },
4218 { "mtasr", XSPR(31,467,280), XSPR_MASK, PPC64, { RS } },
4219 { "mtear", XSPR(31,467,282), XSPR_MASK, PPC, { RS } },
4220 { "mttbl", XSPR(31,467,284), XSPR_MASK, PPC, { RS } },
4221 { "mttbu", XSPR(31,467,285), XSPR_MASK, PPC, { RS } },
4222 { "mtdbsr", XSPR(31,467,304), XSPR_MASK, BOOKE, { RS } },
4223 { "mtdbsr", XSPR(31,467,1008), XSPR_MASK, PPC403, { RS } },
4224 { "mtdbcr0", XSPR(31,467,308), XSPR_MASK, BOOKE, { RS } },
4225 { "mtdbcr0", XSPR(31,467,1010), XSPR_MASK, PPC405, { RS } },
4226 { "mtdbcr1", XSPR(31,467,309), XSPR_MASK, BOOKE, { RS } },
4227 { "mtdbcr1", XSPR(31,467,957), XSPR_MASK, PPC405, { RS } },
4228 { "mtdbcr2", XSPR(31,467,310), XSPR_MASK, BOOKE, { RS } },
4229 { "mtiac1", XSPR(31,467,312), XSPR_MASK, BOOKE, { RS } },
4230 { "mtiac1", XSPR(31,467,1012), XSPR_MASK, PPC403, { RS } },
4231 { "mtiac2", XSPR(31,467,313), XSPR_MASK, BOOKE, { RS } },
4232 { "mtiac2", XSPR(31,467,1013), XSPR_MASK, PPC403, { RS } },
4233 { "mtiac3", XSPR(31,467,314), XSPR_MASK, BOOKE, { RS } },
4234 { "mtiac3", XSPR(31,467,948), XSPR_MASK, PPC405, { RS } },
4235 { "mtiac4", XSPR(31,467,315), XSPR_MASK, BOOKE, { RS } },
4236 { "mtiac4", XSPR(31,467,949), XSPR_MASK, PPC405, { RS } },
4237 { "mtdac1", XSPR(31,467,316), XSPR_MASK, BOOKE, { RS } },
4238 { "mtdac1", XSPR(31,467,1014), XSPR_MASK, PPC403, { RS } },
4239 { "mtdac2", XSPR(31,467,317), XSPR_MASK, BOOKE, { RS } },
4240 { "mtdac2", XSPR(31,467,1015), XSPR_MASK, PPC403, { RS } },
4241 { "mtdvc1", XSPR(31,467,318), XSPR_MASK, BOOKE, { RS } },
4242 { "mtdvc1", XSPR(31,467,950), XSPR_MASK, PPC405, { RS } },
4243 { "mtdvc2", XSPR(31,467,319), XSPR_MASK, BOOKE, { RS } },
4244 { "mtdvc2", XSPR(31,467,951), XSPR_MASK, PPC405, { RS } },
4245 { "mttsr", XSPR(31,467,336), XSPR_MASK, BOOKE, { RS } },
4246 { "mttsr", XSPR(31,467,984), XSPR_MASK, PPC403, { RS } },
4247 { "mttcr", XSPR(31,467,340), XSPR_MASK, BOOKE, { RS } },
4248 { "mttcr", XSPR(31,467,986), XSPR_MASK, PPC403, { RS } },
4249 { "mtivor0", XSPR(31,467,400), XSPR_MASK, BOOKE, { RS } },
4250 { "mtivor1", XSPR(31,467,401), XSPR_MASK, BOOKE, { RS } },
4251 { "mtivor2", XSPR(31,467,402), XSPR_MASK, BOOKE, { RS } },
4252 { "mtivor3", XSPR(31,467,403), XSPR_MASK, BOOKE, { RS } },
4253 { "mtivor4", XSPR(31,467,404), XSPR_MASK, BOOKE, { RS } },
4254 { "mtivor5", XSPR(31,467,405), XSPR_MASK, BOOKE, { RS } },
4255 { "mtivor6", XSPR(31,467,406), XSPR_MASK, BOOKE, { RS } },
4256 { "mtivor7", XSPR(31,467,407), XSPR_MASK, BOOKE, { RS } },
4257 { "mtivor8", XSPR(31,467,408), XSPR_MASK, BOOKE, { RS } },
4258 { "mtivor9", XSPR(31,467,409), XSPR_MASK, BOOKE, { RS } },
4259 { "mtivor10", XSPR(31,467,410), XSPR_MASK, BOOKE, { RS } },
4260 { "mtivor11", XSPR(31,467,411), XSPR_MASK, BOOKE, { RS } },
4261 { "mtivor12", XSPR(31,467,412), XSPR_MASK, BOOKE, { RS } },
4262 { "mtivor13", XSPR(31,467,413), XSPR_MASK, BOOKE, { RS } },
4263 { "mtivor14", XSPR(31,467,414), XSPR_MASK, BOOKE, { RS } },
4264 { "mtivor15", XSPR(31,467,415), XSPR_MASK, BOOKE, { RS } },
4265 { "mtspefscr", XSPR(31,467,512), XSPR_MASK, PPCSPE, { RS } },
4266 { "mtbbear", XSPR(31,467,513), XSPR_MASK, PPCBRLK, { RS } },
4267 { "mtbbtar", XSPR(31,467,514), XSPR_MASK, PPCBRLK, { RS } },
4268 { "mtivor32", XSPR(31,467,528), XSPR_MASK, PPCSPE, { RS } },
4269 { "mtivor33", XSPR(31,467,529), XSPR_MASK, PPCSPE, { RS } },
4270 { "mtivor34", XSPR(31,467,530), XSPR_MASK, PPCSPE, { RS } },
4271 { "mtivor35", XSPR(31,467,531), XSPR_MASK, PPCPMR, { RS } },
4272 { "mtibatu", XSPR(31,467,528), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
4273 { "mtibatl", XSPR(31,467,529), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
4274 { "mtdbatu", XSPR(31,467,536), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
4275 { "mtdbatl", XSPR(31,467,537), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
4276 { "mtmcsrr0", XSPR(31,467,570), XSPR_MASK, PPCRFMCI, { RS } },
4277 { "mtmcsrr1", XSPR(31,467,571), XSPR_MASK, PPCRFMCI, { RS } },
4278 { "mtmcsr", XSPR(31,467,572), XSPR_MASK, PPCRFMCI, { RS } },
4279 { "mtummcr0", XSPR(31,467,936), XSPR_MASK, PPC750, { RS } },
4280 { "mtupmc1", XSPR(31,467,937), XSPR_MASK, PPC750, { RS } },
4281 { "mtupmc2", XSPR(31,467,938), XSPR_MASK, PPC750, { RS } },
4282 { "mtusia", XSPR(31,467,939), XSPR_MASK, PPC750, { RS } },
4283 { "mtummcr1", XSPR(31,467,940), XSPR_MASK, PPC750, { RS } },
4284 { "mtupmc3", XSPR(31,467,941), XSPR_MASK, PPC750, { RS } },
4285 { "mtupmc4", XSPR(31,467,942), XSPR_MASK, PPC750, { RS } },
4286 { "mtzpr", XSPR(31,467,944), XSPR_MASK, PPC403, { RS } },
4287 { "mtccr0", XSPR(31,467,947), XSPR_MASK, PPC405, { RS } },
4288 { "mtmmcr0", XSPR(31,467,952), XSPR_MASK, PPC750, { RS } },
4289 { "mtsgr", XSPR(31,467,953), XSPR_MASK, PPC403, { RS } },
4290 { "mtpmc1", XSPR(31,467,953), XSPR_MASK, PPC750, { RS } },
4291 { "mtdcwr", XSPR(31,467,954), XSPR_MASK, PPC403, { RS } },
4292 { "mtpmc2", XSPR(31,467,954), XSPR_MASK, PPC750, { RS } },
4293 { "mtsler", XSPR(31,467,955), XSPR_MASK, PPC405, { RS } },
4294 { "mtsia", XSPR(31,467,955), XSPR_MASK, PPC750, { RS } },
4295 { "mtsu0r", XSPR(31,467,956), XSPR_MASK, PPC405, { RS } },
4296 { "mtmmcr1", XSPR(31,467,956), XSPR_MASK, PPC750, { RS } },
4297 { "mtpmc3", XSPR(31,467,957), XSPR_MASK, PPC750, { RS } },
4298 { "mtpmc4", XSPR(31,467,958), XSPR_MASK, PPC750, { RS } },
4299 { "mticdbdr", XSPR(31,467,979), XSPR_MASK, PPC403, { RS } },
4300 { "mtevpr", XSPR(31,467,982), XSPR_MASK, PPC403, { RS } },
4301 { "mtcdbcr", XSPR(31,467,983), XSPR_MASK, PPC403, { RS } },
4302 { "mtpit", XSPR(31,467,987), XSPR_MASK, PPC403, { RS } },
4303 { "mttbhi", XSPR(31,467,988), XSPR_MASK, PPC403, { RS } },
4304 { "mttblo", XSPR(31,467,989), XSPR_MASK, PPC403, { RS } },
4305 { "mtsrr2", XSPR(31,467,990), XSPR_MASK, PPC403, { RS } },
4306 { "mtsrr3", XSPR(31,467,991), XSPR_MASK, PPC403, { RS } },
4307 { "mtl2cr", XSPR(31,467,1017), XSPR_MASK, PPC750, { RS } },
4308 { "mtdccr", XSPR(31,467,1018), XSPR_MASK, PPC403, { RS } },
4309 { "mticcr", XSPR(31,467,1019), XSPR_MASK, PPC403, { RS } },
4310 { "mtictc", XSPR(31,467,1019), XSPR_MASK, PPC750, { RS } },
4311 { "mtpbl1", XSPR(31,467,1020), XSPR_MASK, PPC403, { RS } },
4312 { "mtthrm1", XSPR(31,467,1020), XSPR_MASK, PPC750, { RS } },
4313 { "mtpbu1", XSPR(31,467,1021), XSPR_MASK, PPC403, { RS } },
4314 { "mtthrm2", XSPR(31,467,1021), XSPR_MASK, PPC750, { RS } },
4315 { "mtpbl2", XSPR(31,467,1022), XSPR_MASK, PPC403, { RS } },
4316 { "mtthrm3", XSPR(31,467,1022), XSPR_MASK, PPC750, { RS } },
4317 { "mtpbu2", XSPR(31,467,1023), XSPR_MASK, PPC403, { RS } },
4318 { "mtspr", X(31,467), X_MASK, COM, { SPR, RS } },
4319
4320 { "dcbi", X(31,470), XRT_MASK, PPC, { RA, RB } },
4321
4322 { "nand", XRC(31,476,0), X_MASK, COM, { RA, RS, RB } },
4323 { "nand.", XRC(31,476,1), X_MASK, COM, { RA, RS, RB } },
4324
4325 { "dcbie", X(31,478), XRT_MASK, BOOKE64, { RA, RB } },
4326
4327 { "dcread", X(31,486), X_MASK, PPC403|PPC440, { RT, RA, RB }},
4328
4329 { "mtpmr", X(31,462), X_MASK, PPCPMR, { PMR, RS }},
4330
4331 { "icbtls", X(31,486), X_MASK, PPCCHLK, { CT, RA, RB }},
4332
4333 { "nabs", XO(31,488,0,0), XORB_MASK, M601, { RT, RA } },
4334 { "subfme64",XO(31,488,0,0), XORB_MASK, BOOKE64, { RT, RA } },
4335 { "nabs.", XO(31,488,0,1), XORB_MASK, M601, { RT, RA } },
4336 { "nabso", XO(31,488,1,0), XORB_MASK, M601, { RT, RA } },
4337 { "subfme64o",XO(31,488,1,0), XORB_MASK, BOOKE64, { RT, RA } },
4338 { "nabso.", XO(31,488,1,1), XORB_MASK, M601, { RT, RA } },
4339
4340 { "divd", XO(31,489,0,0), XO_MASK, PPC64, { RT, RA, RB } },
4341 { "divd.", XO(31,489,0,1), XO_MASK, PPC64, { RT, RA, RB } },
4342 { "divdo", XO(31,489,1,0), XO_MASK, PPC64, { RT, RA, RB } },
4343 { "divdo.", XO(31,489,1,1), XO_MASK, PPC64, { RT, RA, RB } },
4344
4345 { "addme64", XO(31,490,0,0), XORB_MASK, BOOKE64, { RT, RA } },
4346 { "addme64o",XO(31,490,1,0), XORB_MASK, BOOKE64, { RT, RA } },
4347
4348 { "divw", XO(31,491,0,0), XO_MASK, PPC, { RT, RA, RB } },
4349 { "divw.", XO(31,491,0,1), XO_MASK, PPC, { RT, RA, RB } },
4350 { "divwo", XO(31,491,1,0), XO_MASK, PPC, { RT, RA, RB } },
4351 { "divwo.", XO(31,491,1,1), XO_MASK, PPC, { RT, RA, RB } },
4352
4353 { "icbtlse", X(31,494), X_MASK, PPCCHLK64, { CT, RA, RB }},
4354
4355 { "slbia", X(31,498), 0xffffffff, PPC64, { 0 } },
4356
4357 { "cli", X(31,502), XRB_MASK, POWER, { RT, RA } },
4358
4359 { "stdcxe.", XRC(31,511,1), X_MASK, BOOKE64, { RS, RA, RB } },
4360
4361 { "mcrxr", X(31,512), XRARB_MASK|(3<<21), COM, { BF } },
4362
4363 { "bblels", X(31,518), X_MASK, PPCBRLK, { 0 }},
4364 { "mcrxr64", X(31,544), XRARB_MASK|(3<<21), BOOKE64, { BF } },
4365
4366 { "clcs", X(31,531), XRB_MASK, M601, { RT, RA } },
4367
4368 { "ldbrx", X(31,532), X_MASK, CELL, { RT, RA0, RB } },
4369
4370 { "lswx", X(31,533), X_MASK, PPCCOM, { RT, RA0, RB } },
4371 { "lsx", X(31,533), X_MASK, PWRCOM, { RT, RA, RB } },
4372
4373 { "lwbrx", X(31,534), X_MASK, PPCCOM, { RT, RA0, RB } },
4374 { "lbrx", X(31,534), X_MASK, PWRCOM, { RT, RA, RB } },
4375
4376 { "lfsx", X(31,535), X_MASK, COM, { FRT, RA0, RB } },
4377
4378 { "srw", XRC(31,536,0), X_MASK, PPCCOM, { RA, RS, RB } },
4379 { "sr", XRC(31,536,0), X_MASK, PWRCOM, { RA, RS, RB } },
4380 { "srw.", XRC(31,536,1), X_MASK, PPCCOM, { RA, RS, RB } },
4381 { "sr.", XRC(31,536,1), X_MASK, PWRCOM, { RA, RS, RB } },
4382
4383 { "rrib", XRC(31,537,0), X_MASK, M601, { RA, RS, RB } },
4384 { "rrib.", XRC(31,537,1), X_MASK, M601, { RA, RS, RB } },
4385
4386 { "srd", XRC(31,539,0), X_MASK, PPC64, { RA, RS, RB } },
4387 { "srd.", XRC(31,539,1), X_MASK, PPC64, { RA, RS, RB } },
4388
4389 { "maskir", XRC(31,541,0), X_MASK, M601, { RA, RS, RB } },
4390 { "maskir.", XRC(31,541,1), X_MASK, M601, { RA, RS, RB } },
4391
4392 { "lwbrxe", X(31,542), X_MASK, BOOKE64, { RT, RA0, RB } },
4393
4394 { "lfsxe", X(31,543), X_MASK, BOOKE64, { FRT, RA0, RB } },
4395
4396 { "bbelr", X(31,550), X_MASK, PPCBRLK, { 0 }},
4397
4398 { "tlbsync", X(31,566), 0xffffffff, PPC, { 0 } },
4399
4400 { "lfsux", X(31,567), X_MASK, COM, { FRT, RAS, RB } },
4401
4402 { "lfsuxe", X(31,575), X_MASK, BOOKE64, { FRT, RAS, RB } },
4403
4404 { "mfsr", X(31,595), XRB_MASK|(1<<20), COM32, { RT, SR } },
4405
4406 { "lswi", X(31,597), X_MASK, PPCCOM, { RT, RA0, NB } },
4407 { "lsi", X(31,597), X_MASK, PWRCOM, { RT, RA0, NB } },
4408
4409 { "lwsync", XSYNC(31,598,1), 0xffffffff, PPC, { 0 } },
4410 { "ptesync", XSYNC(31,598,2), 0xffffffff, PPC64, { 0 } },
4411 { "msync", X(31,598), 0xffffffff, BOOKE, { 0 } },
4412 { "sync", X(31,598), XSYNC_MASK, PPCCOM, { LS } },
4413 { "dcs", X(31,598), 0xffffffff, PWRCOM, { 0 } },
4414
4415 { "lfdx", X(31,599), X_MASK, COM, { FRT, RA0, RB } },
4416
4417 { "lfdxe", X(31,607), X_MASK, BOOKE64, { FRT, RA0, RB } },
4418
4419 { "mffgpr", XRC(31,607,0), XRA_MASK, POWER6, { FRT, RB } },
4420
4421 { "mfsri", X(31,627), X_MASK, PWRCOM, { RT, RA, RB } },
4422
4423 { "dclst", X(31,630), XRB_MASK, PWRCOM, { RS, RA } },
4424
4425 { "lfdux", X(31,631), X_MASK, COM, { FRT, RAS, RB } },
4426
4427 { "lfduxe", X(31,639), X_MASK, BOOKE64, { FRT, RAS, RB } },
4428
4429 { "mfsrin", X(31,659), XRA_MASK, PPC32, { RT, RB } },
4430
4431 { "stdbrx", X(31,660), X_MASK, CELL, { RS, RA0, RB } },
4432
4433 { "stswx", X(31,661), X_MASK, PPCCOM, { RS, RA0, RB } },
4434 { "stsx", X(31,661), X_MASK, PWRCOM, { RS, RA0, RB } },
4435
4436 { "stwbrx", X(31,662), X_MASK, PPCCOM, { RS, RA0, RB } },
4437 { "stbrx", X(31,662), X_MASK, PWRCOM, { RS, RA0, RB } },
4438
4439 { "stfsx", X(31,663), X_MASK, COM, { FRS, RA0, RB } },
4440
4441 { "srq", XRC(31,664,0), X_MASK, M601, { RA, RS, RB } },
4442 { "srq.", XRC(31,664,1), X_MASK, M601, { RA, RS, RB } },
4443
4444 { "sre", XRC(31,665,0), X_MASK, M601, { RA, RS, RB } },
4445 { "sre.", XRC(31,665,1), X_MASK, M601, { RA, RS, RB } },
4446
4447 { "stwbrxe", X(31,670), X_MASK, BOOKE64, { RS, RA0, RB } },
4448
4449 { "stfsxe", X(31,671), X_MASK, BOOKE64, { FRS, RA0, RB } },
4450
4451 { "stfsux", X(31,695), X_MASK, COM, { FRS, RAS, RB } },
4452
4453 { "sriq", XRC(31,696,0), X_MASK, M601, { RA, RS, SH } },
4454 { "sriq.", XRC(31,696,1), X_MASK, M601, { RA, RS, SH } },
4455
4456 { "stfsuxe", X(31,703), X_MASK, BOOKE64, { FRS, RAS, RB } },
4457
4458 { "stswi", X(31,725), X_MASK, PPCCOM, { RS, RA0, NB } },
4459 { "stsi", X(31,725), X_MASK, PWRCOM, { RS, RA0, NB } },
4460
4461 { "stfdx", X(31,727), X_MASK, COM, { FRS, RA0, RB } },
4462
4463 { "srlq", XRC(31,728,0), X_MASK, M601, { RA, RS, RB } },
4464 { "srlq.", XRC(31,728,1), X_MASK, M601, { RA, RS, RB } },
4465
4466 { "sreq", XRC(31,729,0), X_MASK, M601, { RA, RS, RB } },
4467 { "sreq.", XRC(31,729,1), X_MASK, M601, { RA, RS, RB } },
4468
4469 { "stfdxe", X(31,735), X_MASK, BOOKE64, { FRS, RA0, RB } },
4470
4471 { "mftgpr", XRC(31,735,0), XRA_MASK, POWER6, { RT, FRB } },
4472
4473 { "dcba", X(31,758), XRT_MASK, PPC405 | BOOKE, { RA, RB } },
4474
4475 { "stfdux", X(31,759), X_MASK, COM, { FRS, RAS, RB } },
4476
4477 { "srliq", XRC(31,760,0), X_MASK, M601, { RA, RS, SH } },
4478 { "srliq.", XRC(31,760,1), X_MASK, M601, { RA, RS, SH } },
4479
4480 { "dcbae", X(31,766), XRT_MASK, BOOKE64, { RA, RB } },
4481
4482 { "stfduxe", X(31,767), X_MASK, BOOKE64, { FRS, RAS, RB } },
4483
4484 { "tlbivax", X(31,786), XRT_MASK, BOOKE, { RA, RB } },
4485 { "tlbivaxe",X(31,787), XRT_MASK, BOOKE64, { RA, RB } },
4486
4487 { "lwzcix", X(31,789), X_MASK, POWER6, { RT, RA0, RB } },
4488
4489 { "lhbrx", X(31,790), X_MASK, COM, { RT, RA0, RB } },
4490
4491 { "sraw", XRC(31,792,0), X_MASK, PPCCOM, { RA, RS, RB } },
4492 { "sra", XRC(31,792,0), X_MASK, PWRCOM, { RA, RS, RB } },
4493 { "sraw.", XRC(31,792,1), X_MASK, PPCCOM, { RA, RS, RB } },
4494 { "sra.", XRC(31,792,1), X_MASK, PWRCOM, { RA, RS, RB } },
4495
4496 { "srad", XRC(31,794,0), X_MASK, PPC64, { RA, RS, RB } },
4497 { "srad.", XRC(31,794,1), X_MASK, PPC64, { RA, RS, RB } },
4498
4499 { "lhbrxe", X(31,798), X_MASK, BOOKE64, { RT, RA0, RB } },
4500
4501 { "ldxe", X(31,799), X_MASK, BOOKE64, { RT, RA0, RB } },
4502 { "lduxe", X(31,831), X_MASK, BOOKE64, { RT, RA0, RB } },
4503
4504 { "rac", X(31,818), X_MASK, PWRCOM, { RT, RA, RB } },
4505
4506 { "lhzcix", X(31,821), X_MASK, POWER6, { RT, RA0, RB } },
4507
4508 { "dss", XDSS(31,822,0), XDSS_MASK, PPCVEC, { STRM } },
4509 { "dssall", XDSS(31,822,1), XDSS_MASK, PPCVEC, { 0 } },
4510
4511 { "srawi", XRC(31,824,0), X_MASK, PPCCOM, { RA, RS, SH } },
4512 { "srai", XRC(31,824,0), X_MASK, PWRCOM, { RA, RS, SH } },
4513 { "srawi.", XRC(31,824,1), X_MASK, PPCCOM, { RA, RS, SH } },
4514 { "srai.", XRC(31,824,1), X_MASK, PWRCOM, { RA, RS, SH } },
4515
4516 { "slbmfev", X(31,851), XRA_MASK, PPC64, { RT, RB } },
4517
4518 { "lbzcix", X(31,853), X_MASK, POWER6, { RT, RA0, RB } },
4519
4520 { "mbar", X(31,854), X_MASK, BOOKE, { MO } },
4521 { "eieio", X(31,854), 0xffffffff, PPC, { 0 } },
4522
4523 { "lfiwax", X(31,855), X_MASK, POWER6, { FRT, RA0, RB } },
4524
4525 { "ldcix", X(31,885), X_MASK, POWER6, { RT, RA0, RB } },
4526
4527 { "tlbsx", XRC(31,914,0), X_MASK, PPC403|BOOKE, { RTO, RA, RB } },
4528 { "tlbsx.", XRC(31,914,1), X_MASK, PPC403|BOOKE, { RTO, RA, RB } },
4529 { "tlbsxe", XRC(31,915,0), X_MASK, BOOKE64, { RTO, RA, RB } },
4530 { "tlbsxe.", XRC(31,915,1), X_MASK, BOOKE64, { RTO, RA, RB } },
4531
4532 { "slbmfee", X(31,915), XRA_MASK, PPC64, { RT, RB } },
4533
4534 { "stwcix", X(31,917), X_MASK, POWER6, { RS, RA0, RB } },
4535
4536 { "sthbrx", X(31,918), X_MASK, COM, { RS, RA0, RB } },
4537
4538 { "sraq", XRC(31,920,0), X_MASK, M601, { RA, RS, RB } },
4539 { "sraq.", XRC(31,920,1), X_MASK, M601, { RA, RS, RB } },
4540
4541 { "srea", XRC(31,921,0), X_MASK, M601, { RA, RS, RB } },
4542 { "srea.", XRC(31,921,1), X_MASK, M601, { RA, RS, RB } },
4543
4544 { "extsh", XRC(31,922,0), XRB_MASK, PPCCOM, { RA, RS } },
4545 { "exts", XRC(31,922,0), XRB_MASK, PWRCOM, { RA, RS } },
4546 { "extsh.", XRC(31,922,1), XRB_MASK, PPCCOM, { RA, RS } },
4547 { "exts.", XRC(31,922,1), XRB_MASK, PWRCOM, { RA, RS } },
4548
4549 { "sthbrxe", X(31,926), X_MASK, BOOKE64, { RS, RA0, RB } },
4550
4551 { "stdxe", X(31,927), X_MASK, BOOKE64, { RS, RA0, RB } },
4552
4553 { "tlbrehi", XTLB(31,946,0), XTLB_MASK, PPC403, { RT, RA } },
4554 { "tlbrelo", XTLB(31,946,1), XTLB_MASK, PPC403, { RT, RA } },
4555 { "tlbre", X(31,946), X_MASK, PPC403|BOOKE, { RSO, RAOPT, SHO } },
4556
4557 { "sthcix", X(31,949), X_MASK, POWER6, { RS, RA0, RB } },
4558
4559 { "sraiq", XRC(31,952,0), X_MASK, M601, { RA, RS, SH } },
4560 { "sraiq.", XRC(31,952,1), X_MASK, M601, { RA, RS, SH } },
4561
4562 { "extsb", XRC(31,954,0), XRB_MASK, PPC, { RA, RS} },
4563 { "extsb.", XRC(31,954,1), XRB_MASK, PPC, { RA, RS} },
4564
4565 { "stduxe", X(31,959), X_MASK, BOOKE64, { RS, RAS, RB } },
4566
4567 { "iccci", X(31,966), XRT_MASK, PPC403|PPC440, { RA, RB } },
4568
4569 { "tlbwehi", XTLB(31,978,0), XTLB_MASK, PPC403, { RT, RA } },
4570 { "tlbwelo", XTLB(31,978,1), XTLB_MASK, PPC403, { RT, RA } },
4571 { "tlbwe", X(31,978), X_MASK, PPC403|BOOKE, { RSO, RAOPT, SHO } },
4572 { "tlbld", X(31,978), XRTRA_MASK, PPC, { RB } },
4573
4574 { "stbcix", X(31,981), X_MASK, POWER6, { RS, RA0, RB } },
4575
4576 { "icbi", X(31,982), XRT_MASK, PPC, { RA, RB } },
4577
4578 { "stfiwx", X(31,983), X_MASK, PPC, { FRS, RA0, RB } },
4579
4580 { "extsw", XRC(31,986,0), XRB_MASK, PPC64 | BOOKE64,{ RA, RS } },
4581 { "extsw.", XRC(31,986,1), XRB_MASK, PPC64, { RA, RS } },
4582
4583 { "icread", X(31,998), XRT_MASK, PPC403|PPC440, { RA, RB } },
4584
4585 { "icbie", X(31,990), XRT_MASK, BOOKE64, { RA, RB } },
4586 { "stfiwxe", X(31,991), X_MASK, BOOKE64, { FRS, RA0, RB } },
4587
4588 { "tlbli", X(31,1010), XRTRA_MASK, PPC, { RB } },
4589
4590 { "stdcix", X(31,1013), X_MASK, POWER6, { RS, RA0, RB } },
4591
4592 { "dcbzl", XOPL(31,1014,1), XRT_MASK,POWER4, { RA, RB } },
4593 { "dcbz", X(31,1014), XRT_MASK, PPC, { RA, RB } },
4594 { "dclz", X(31,1014), XRT_MASK, PPC, { RA, RB } },
4595
4596 { "dcbze", X(31,1022), XRT_MASK, BOOKE64, { RA, RB } },
4597
4598 { "lvebx", X(31, 7), X_MASK, PPCVEC, { VD, RA, RB } },
4599 { "lvehx", X(31, 39), X_MASK, PPCVEC, { VD, RA, RB } },
4600 { "lvewx", X(31, 71), X_MASK, PPCVEC, { VD, RA, RB } },
4601 { "lvsl", X(31, 6), X_MASK, PPCVEC, { VD, RA, RB } },
4602 { "lvsr", X(31, 38), X_MASK, PPCVEC, { VD, RA, RB } },
4603 { "lvx", X(31, 103), X_MASK, PPCVEC, { VD, RA, RB } },
4604 { "lvxl", X(31, 359), X_MASK, PPCVEC, { VD, RA, RB } },
4605 { "stvebx", X(31, 135), X_MASK, PPCVEC, { VS, RA, RB } },
4606 { "stvehx", X(31, 167), X_MASK, PPCVEC, { VS, RA, RB } },
4607 { "stvewx", X(31, 199), X_MASK, PPCVEC, { VS, RA, RB } },
4608 { "stvx", X(31, 231), X_MASK, PPCVEC, { VS, RA, RB } },
4609 { "stvxl", X(31, 487), X_MASK, PPCVEC, { VS, RA, RB } },
4610
4611 /* New load/store left/right index vector instructions that are in the Cell only. */
4612 { "lvlx", X(31, 519), X_MASK, CELL, { VD, RA0, RB } },
4613 { "lvlxl", X(31, 775), X_MASK, CELL, { VD, RA0, RB } },
4614 { "lvrx", X(31, 551), X_MASK, CELL, { VD, RA0, RB } },
4615 { "lvrxl", X(31, 807), X_MASK, CELL, { VD, RA0, RB } },
4616 { "stvlx", X(31, 647), X_MASK, CELL, { VS, RA0, RB } },
4617 { "stvlxl", X(31, 903), X_MASK, CELL, { VS, RA0, RB } },
4618 { "stvrx", X(31, 679), X_MASK, CELL, { VS, RA0, RB } },
4619 { "stvrxl", X(31, 935), X_MASK, CELL, { VS, RA0, RB } },
4620
4621 { "lwz", OP(32), OP_MASK, PPCCOM, { RT, D, RA0 } },
4622 { "l", OP(32), OP_MASK, PWRCOM, { RT, D, RA0 } },
4623
4624 { "lwzu", OP(33), OP_MASK, PPCCOM, { RT, D, RAL } },
4625 { "lu", OP(33), OP_MASK, PWRCOM, { RT, D, RA0 } },
4626
4627 { "lbz", OP(34), OP_MASK, COM, { RT, D, RA0 } },
4628
4629 { "lbzu", OP(35), OP_MASK, COM, { RT, D, RAL } },
4630
4631 { "stw", OP(36), OP_MASK, PPCCOM, { RS, D, RA0 } },
4632 { "st", OP(36), OP_MASK, PWRCOM, { RS, D, RA0 } },
4633
4634 { "stwu", OP(37), OP_MASK, PPCCOM, { RS, D, RAS } },
4635 { "stu", OP(37), OP_MASK, PWRCOM, { RS, D, RA0 } },
4636
4637 { "stb", OP(38), OP_MASK, COM, { RS, D, RA0 } },
4638
4639 { "stbu", OP(39), OP_MASK, COM, { RS, D, RAS } },
4640
4641 { "lhz", OP(40), OP_MASK, COM, { RT, D, RA0 } },
4642
4643 { "lhzu", OP(41), OP_MASK, COM, { RT, D, RAL } },
4644
4645 { "lha", OP(42), OP_MASK, COM, { RT, D, RA0 } },
4646
4647 { "lhau", OP(43), OP_MASK, COM, { RT, D, RAL } },
4648
4649 { "sth", OP(44), OP_MASK, COM, { RS, D, RA0 } },
4650
4651 { "sthu", OP(45), OP_MASK, COM, { RS, D, RAS } },
4652
4653 { "lmw", OP(46), OP_MASK, PPCCOM, { RT, D, RAM } },
4654 { "lm", OP(46), OP_MASK, PWRCOM, { RT, D, RA0 } },
4655
4656 { "stmw", OP(47), OP_MASK, PPCCOM, { RS, D, RA0 } },
4657 { "stm", OP(47), OP_MASK, PWRCOM, { RS, D, RA0 } },
4658
4659 { "lfs", OP(48), OP_MASK, COM, { FRT, D, RA0 } },
4660
4661 { "lfsu", OP(49), OP_MASK, COM, { FRT, D, RAS } },
4662
4663 { "lfd", OP(50), OP_MASK, COM, { FRT, D, RA0 } },
4664
4665 { "lfdu", OP(51), OP_MASK, COM, { FRT, D, RAS } },
4666
4667 { "stfs", OP(52), OP_MASK, COM, { FRS, D, RA0 } },
4668
4669 { "stfsu", OP(53), OP_MASK, COM, { FRS, D, RAS } },
4670
4671 { "stfd", OP(54), OP_MASK, COM, { FRS, D, RA0 } },
4672
4673 { "stfdu", OP(55), OP_MASK, COM, { FRS, D, RAS } },
4674
4675 { "lq", OP(56), OP_MASK, POWER4, { RTQ, DQ, RAQ } },
4676
4677 { "lfq", OP(56), OP_MASK, POWER2, { FRT, D, RA0 } },
4678
4679 { "lfqu", OP(57), OP_MASK, POWER2, { FRT, D, RA0 } },
4680
4681 { "lfdp", OP(57), OP_MASK, POWER6, { FRT, D, RA0 } },
4682
4683 { "lbze", DEO(58,0), DE_MASK, BOOKE64, { RT, DE, RA0 } },
4684 { "lbzue", DEO(58,1), DE_MASK, BOOKE64, { RT, DE, RAL } },
4685 { "lhze", DEO(58,2), DE_MASK, BOOKE64, { RT, DE, RA0 } },
4686 { "lhzue", DEO(58,3), DE_MASK, BOOKE64, { RT, DE, RAL } },
4687 { "lhae", DEO(58,4), DE_MASK, BOOKE64, { RT, DE, RA0 } },
4688 { "lhaue", DEO(58,5), DE_MASK, BOOKE64, { RT, DE, RAL } },
4689 { "lwze", DEO(58,6), DE_MASK, BOOKE64, { RT, DE, RA0 } },
4690 { "lwzue", DEO(58,7), DE_MASK, BOOKE64, { RT, DE, RAL } },
4691 { "stbe", DEO(58,8), DE_MASK, BOOKE64, { RS, DE, RA0 } },
4692 { "stbue", DEO(58,9), DE_MASK, BOOKE64, { RS, DE, RAS } },
4693 { "sthe", DEO(58,10), DE_MASK, BOOKE64, { RS, DE, RA0 } },
4694 { "sthue", DEO(58,11), DE_MASK, BOOKE64, { RS, DE, RAS } },
4695 { "stwe", DEO(58,14), DE_MASK, BOOKE64, { RS, DE, RA0 } },
4696 { "stwue", DEO(58,15), DE_MASK, BOOKE64, { RS, DE, RAS } },
4697
4698 { "ld", DSO(58,0), DS_MASK, PPC64, { RT, DS, RA0 } },
4699
4700 { "ldu", DSO(58,1), DS_MASK, PPC64, { RT, DS, RAL } },
4701
4702 { "lwa", DSO(58,2), DS_MASK, PPC64, { RT, DS, RA0 } },
4703
4704 { "dadd", XRC(59,2,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4705 { "dadd.", XRC(59,2,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4706
4707 { "dqua", ZRC(59,3,0), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4708 { "dqua.", ZRC(59,3,1), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4709
4710 { "fdivs", A(59,18,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
4711 { "fdivs.", A(59,18,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
4712
4713 { "fsubs", A(59,20,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
4714 { "fsubs.", A(59,20,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
4715
4716 { "fadds", A(59,21,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
4717 { "fadds.", A(59,21,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
4718
4719 { "fsqrts", A(59,22,0), AFRAFRC_MASK, PPC, { FRT, FRB } },
4720 { "fsqrts.", A(59,22,1), AFRAFRC_MASK, PPC, { FRT, FRB } },
4721
4722 { "fres", A(59,24,0), AFRALFRC_MASK, PPC, { FRT, FRB, A_L } },
4723 { "fres.", A(59,24,1), AFRALFRC_MASK, PPC, { FRT, FRB, A_L } },
4724
4725 { "fmuls", A(59,25,0), AFRB_MASK, PPC, { FRT, FRA, FRC } },
4726 { "fmuls.", A(59,25,1), AFRB_MASK, PPC, { FRT, FRA, FRC } },
4727
4728 { "frsqrtes", A(59,26,0), AFRALFRC_MASK,POWER5, { FRT, FRB, A_L } },
4729 { "frsqrtes.",A(59,26,1), AFRALFRC_MASK,POWER5, { FRT, FRB, A_L } },
4730
4731 { "fmsubs", A(59,28,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4732 { "fmsubs.", A(59,28,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4733
4734 { "fmadds", A(59,29,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4735 { "fmadds.", A(59,29,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4736
4737 { "fnmsubs", A(59,30,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4738 { "fnmsubs.",A(59,30,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4739
4740 { "fnmadds", A(59,31,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4741 { "fnmadds.",A(59,31,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4742
4743 { "dmul", XRC(59,34,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4744 { "dmul.", XRC(59,34,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4745
4746 { "drrnd", ZRC(59,35,0), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4747 { "drrnd.", ZRC(59,35,1), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4748
4749 { "dscli", ZRC(59,66,0), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4750 { "dscli.", ZRC(59,66,1), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4751
4752 { "dquai", ZRC(59,67,0), Z2_MASK, POWER6, { TE, FRT, FRB, RMC } },
4753 { "dquai.", ZRC(59,67,1), Z2_MASK, POWER6, { TE, FRT, FRB, RMC } },
4754
4755 { "dscri", ZRC(59,98,0), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4756 { "dscri.", ZRC(59,98,1), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4757
4758 { "drintx", ZRC(59,99,0), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4759 { "drintx.", ZRC(59,99,1), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4760
4761 { "dcmpo", X(59,130), X_MASK, POWER6, { BF, FRA, FRB } },
4762
4763 { "dtstex", X(59,162), X_MASK, POWER6, { BF, FRA, FRB } },
4764 { "dtstdc", Z(59,194), Z_MASK, POWER6, { BF, FRA, DCM } },
4765 { "dtstdg", Z(59,226), Z_MASK, POWER6, { BF, FRA, DGM } },
4766
4767 { "drintn", ZRC(59,227,0), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4768 { "drintn.", ZRC(59,227,1), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4769
4770 { "dctdp", XRC(59,258,0), X_MASK, POWER6, { FRT, FRB } },
4771 { "dctdp.", XRC(59,258,1), X_MASK, POWER6, { FRT, FRB } },
4772
4773 { "dctfix", XRC(59,290,0), X_MASK, POWER6, { FRT, FRB } },
4774 { "dctfix.", XRC(59,290,1), X_MASK, POWER6, { FRT, FRB } },
4775
4776 { "ddedpd", XRC(59,322,0), X_MASK, POWER6, { SP, FRT, FRB } },
4777 { "ddedpd.", XRC(59,322,1), X_MASK, POWER6, { SP, FRT, FRB } },
4778
4779 { "dxex", XRC(59,354,0), X_MASK, POWER6, { FRT, FRB } },
4780 { "dxex.", XRC(59,354,1), X_MASK, POWER6, { FRT, FRB } },
4781
4782 { "dsub", XRC(59,514,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4783 { "dsub.", XRC(59,514,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4784
4785 { "ddiv", XRC(59,546,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4786 { "ddiv.", XRC(59,546,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4787
4788 { "dcmpu", X(59,642), X_MASK, POWER6, { BF, FRA, FRB } },
4789
4790 { "dtstsf", X(59,674), X_MASK, POWER6, { BF, FRA, FRB } },
4791
4792 { "drsp", XRC(59,770,0), X_MASK, POWER6, { FRT, FRB } },
4793 { "drsp.", XRC(59,770,1), X_MASK, POWER6, { FRT, FRB } },
4794
4795 { "dcffix", XRC(59,802,0), X_MASK, POWER6, { FRT, FRB } },
4796 { "dcffix.", XRC(59,802,1), X_MASK, POWER6, { FRT, FRB } },
4797
4798 { "denbcd", XRC(59,834,0), X_MASK, POWER6, { S, FRT, FRB } },
4799 { "denbcd.", XRC(59,834,1), X_MASK, POWER6, { S, FRT, FRB } },
4800
4801 { "diex", XRC(59,866,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4802 { "diex.", XRC(59,866,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4803
4804 { "stfq", OP(60), OP_MASK, POWER2, { FRS, D, RA } },
4805
4806 { "stfqu", OP(61), OP_MASK, POWER2, { FRS, D, RA } },
4807
4808 { "stfdp", OP(61), OP_MASK, POWER6, { FRT, D, RA0 } },
4809
4810 { "lde", DEO(62,0), DE_MASK, BOOKE64, { RT, DES, RA0 } },
4811 { "ldue", DEO(62,1), DE_MASK, BOOKE64, { RT, DES, RA0 } },
4812 { "lfse", DEO(62,4), DE_MASK, BOOKE64, { FRT, DES, RA0 } },
4813 { "lfsue", DEO(62,5), DE_MASK, BOOKE64, { FRT, DES, RAS } },
4814 { "lfde", DEO(62,6), DE_MASK, BOOKE64, { FRT, DES, RA0 } },
4815 { "lfdue", DEO(62,7), DE_MASK, BOOKE64, { FRT, DES, RAS } },
4816 { "stde", DEO(62,8), DE_MASK, BOOKE64, { RS, DES, RA0 } },
4817 { "stdue", DEO(62,9), DE_MASK, BOOKE64, { RS, DES, RAS } },
4818 { "stfse", DEO(62,12), DE_MASK, BOOKE64, { FRS, DES, RA0 } },
4819 { "stfsue", DEO(62,13), DE_MASK, BOOKE64, { FRS, DES, RAS } },
4820 { "stfde", DEO(62,14), DE_MASK, BOOKE64, { FRS, DES, RA0 } },
4821 { "stfdue", DEO(62,15), DE_MASK, BOOKE64, { FRS, DES, RAS } },
4822
4823 { "std", DSO(62,0), DS_MASK, PPC64, { RS, DS, RA0 } },
4824
4825 { "stdu", DSO(62,1), DS_MASK, PPC64, { RS, DS, RAS } },
4826
4827 { "stq", DSO(62,2), DS_MASK, POWER4, { RSQ, DS, RA0 } },
4828
4829 { "fcmpu", X(63,0), X_MASK|(3<<21), COM, { BF, FRA, FRB } },
4830
4831 { "daddq", XRC(63,2,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4832 { "daddq.", XRC(63,2,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4833
4834 { "dquaq", ZRC(63,3,0), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4835 { "dquaq.", ZRC(63,3,1), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4836
4837 { "fcpsgn", XRC(63,8,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4838 { "fcpsgn.", XRC(63,8,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4839
4840 { "frsp", XRC(63,12,0), XRA_MASK, COM, { FRT, FRB } },
4841 { "frsp.", XRC(63,12,1), XRA_MASK, COM, { FRT, FRB } },
4842
4843 { "fctiw", XRC(63,14,0), XRA_MASK, PPCCOM, { FRT, FRB } },
4844 { "fcir", XRC(63,14,0), XRA_MASK, POWER2, { FRT, FRB } },
4845 { "fctiw.", XRC(63,14,1), XRA_MASK, PPCCOM, { FRT, FRB } },
4846 { "fcir.", XRC(63,14,1), XRA_MASK, POWER2, { FRT, FRB } },
4847
4848 { "fctiwz", XRC(63,15,0), XRA_MASK, PPCCOM, { FRT, FRB } },
4849 { "fcirz", XRC(63,15,0), XRA_MASK, POWER2, { FRT, FRB } },
4850 { "fctiwz.", XRC(63,15,1), XRA_MASK, PPCCOM, { FRT, FRB } },
4851 { "fcirz.", XRC(63,15,1), XRA_MASK, POWER2, { FRT, FRB } },
4852
4853 { "fdiv", A(63,18,0), AFRC_MASK, PPCCOM, { FRT, FRA, FRB } },
4854 { "fd", A(63,18,0), AFRC_MASK, PWRCOM, { FRT, FRA, FRB } },
4855 { "fdiv.", A(63,18,1), AFRC_MASK, PPCCOM, { FRT, FRA, FRB } },
4856 { "fd.", A(63,18,1), AFRC_MASK, PWRCOM, { FRT, FRA, FRB } },
4857
4858 { "fsub", A(63,20,0), AFRC_MASK, PPCCOM, { FRT, FRA, FRB } },
4859 { "fs", A(63,20,0), AFRC_MASK, PWRCOM, { FRT, FRA, FRB } },
4860 { "fsub.", A(63,20,1), AFRC_MASK, PPCCOM, { FRT, FRA, FRB } },
4861 { "fs.", A(63,20,1), AFRC_MASK, PWRCOM, { FRT, FRA, FRB } },
4862
4863 { "fadd", A(63,21,0), AFRC_MASK, PPCCOM, { FRT, FRA, FRB } },
4864 { "fa", A(63,21,0), AFRC_MASK, PWRCOM, { FRT, FRA, FRB } },
4865 { "fadd.", A(63,21,1), AFRC_MASK, PPCCOM, { FRT, FRA, FRB } },
4866 { "fa.", A(63,21,1), AFRC_MASK, PWRCOM, { FRT, FRA, FRB } },
4867
4868 { "fsqrt", A(63,22,0), AFRAFRC_MASK, PPCPWR2, { FRT, FRB } },
4869 { "fsqrt.", A(63,22,1), AFRAFRC_MASK, PPCPWR2, { FRT, FRB } },
4870
4871 { "fsel", A(63,23,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4872 { "fsel.", A(63,23,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
4873
4874 { "fre", A(63,24,0), AFRALFRC_MASK, POWER5, { FRT, FRB, A_L } },
4875 { "fre.", A(63,24,1), AFRALFRC_MASK, POWER5, { FRT, FRB, A_L } },
4876
4877 { "fmul", A(63,25,0), AFRB_MASK, PPCCOM, { FRT, FRA, FRC } },
4878 { "fm", A(63,25,0), AFRB_MASK, PWRCOM, { FRT, FRA, FRC } },
4879 { "fmul.", A(63,25,1), AFRB_MASK, PPCCOM, { FRT, FRA, FRC } },
4880 { "fm.", A(63,25,1), AFRB_MASK, PWRCOM, { FRT, FRA, FRC } },
4881
4882 { "frsqrte", A(63,26,0), AFRALFRC_MASK, PPC, { FRT, FRB, A_L } },
4883 { "frsqrte.",A(63,26,1), AFRALFRC_MASK, PPC, { FRT, FRB, A_L } },
4884
4885 { "fmsub", A(63,28,0), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4886 { "fms", A(63,28,0), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4887 { "fmsub.", A(63,28,1), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4888 { "fms.", A(63,28,1), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4889
4890 { "fmadd", A(63,29,0), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4891 { "fma", A(63,29,0), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4892 { "fmadd.", A(63,29,1), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4893 { "fma.", A(63,29,1), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4894
4895 { "fnmsub", A(63,30,0), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4896 { "fnms", A(63,30,0), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4897 { "fnmsub.", A(63,30,1), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4898 { "fnms.", A(63,30,1), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4899
4900 { "fnmadd", A(63,31,0), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4901 { "fnma", A(63,31,0), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4902 { "fnmadd.", A(63,31,1), A_MASK, PPCCOM, { FRT,FRA,FRC,FRB } },
4903 { "fnma.", A(63,31,1), A_MASK, PWRCOM, { FRT,FRA,FRC,FRB } },
4904
4905 { "fcmpo", X(63,32), X_MASK|(3<<21), COM, { BF, FRA, FRB } },
4906
4907 { "dmulq", XRC(63,34,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4908 { "dmulq.", XRC(63,34,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4909
4910 { "drrndq", ZRC(63,35,0), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4911 { "drrndq.", ZRC(63,35,1), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4912
4913 { "mtfsb1", XRC(63,38,0), XRARB_MASK, COM, { BT } },
4914 { "mtfsb1.", XRC(63,38,1), XRARB_MASK, COM, { BT } },
4915
4916 { "fneg", XRC(63,40,0), XRA_MASK, COM, { FRT, FRB } },
4917 { "fneg.", XRC(63,40,1), XRA_MASK, COM, { FRT, FRB } },
4918
4919 { "mcrfs", X(63,64), XRB_MASK|(3<<21)|(3<<16), COM, { BF, BFA } },
4920
4921 { "dscliq", ZRC(63,66,0), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4922 { "dscliq.", ZRC(63,66,1), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4923
4924 { "dquaiq", ZRC(63,67,0), Z2_MASK, POWER6, { TE, FRT, FRB, RMC } },
4925 { "dquaiq.", ZRC(63,67,1), Z2_MASK, POWER6, { FRT, FRA, FRB, RMC } },
4926
4927 { "mtfsb0", XRC(63,70,0), XRARB_MASK, COM, { BT } },
4928 { "mtfsb0.", XRC(63,70,1), XRARB_MASK, COM, { BT } },
4929
4930 { "fmr", XRC(63,72,0), XRA_MASK, COM, { FRT, FRB } },
4931 { "fmr.", XRC(63,72,1), XRA_MASK, COM, { FRT, FRB } },
4932
4933 { "dscriq", ZRC(63,98,0), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4934 { "dscriq.", ZRC(63,98,1), Z_MASK, POWER6, { FRT, FRA, SH16 } },
4935
4936 { "drintxq", ZRC(63,99,0), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4937 { "drintxq.",ZRC(63,99,1), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4938
4939 { "dcmpoq", X(63,130), X_MASK, POWER6, { BF, FRA, FRB } },
4940
4941 { "mtfsfi", XRC(63,134,0), XWRA_MASK|(3<<21)|(1<<11), COM, { BFF, U, W } },
4942 { "mtfsfi.", XRC(63,134,1), XWRA_MASK|(3<<21)|(1<<11), COM, { BFF, U, W } },
4943
4944 { "fnabs", XRC(63,136,0), XRA_MASK, COM, { FRT, FRB } },
4945 { "fnabs.", XRC(63,136,1), XRA_MASK, COM, { FRT, FRB } },
4946
4947 { "dtstexq", X(63,162), X_MASK, POWER6, { BF, FRA, FRB } },
4948 { "dtstdcq", Z(63,194), Z_MASK, POWER6, { BF, FRA, DCM } },
4949 { "dtstdgq", Z(63,226), Z_MASK, POWER6, { BF, FRA, DGM } },
4950
4951 { "drintnq", ZRC(63,227,0), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4952 { "drintnq.",ZRC(63,227,1), Z2_MASK, POWER6, { R, FRT, FRB, RMC } },
4953
4954 { "dctqpq", XRC(63,258,0), X_MASK, POWER6, { FRT, FRB } },
4955 { "dctqpq.", XRC(63,258,1), X_MASK, POWER6, { FRT, FRB } },
4956
4957 { "fabs", XRC(63,264,0), XRA_MASK, COM, { FRT, FRB } },
4958 { "fabs.", XRC(63,264,1), XRA_MASK, COM, { FRT, FRB } },
4959
4960 { "dctfixq", XRC(63,290,0), X_MASK, POWER6, { FRT, FRB } },
4961 { "dctfixq.",XRC(63,290,1), X_MASK, POWER6, { FRT, FRB } },
4962
4963 { "ddedpdq", XRC(63,322,0), X_MASK, POWER6, { SP, FRT, FRB } },
4964 { "ddedpdq.",XRC(63,322,1), X_MASK, POWER6, { SP, FRT, FRB } },
4965
4966 { "dxexq", XRC(63,354,0), X_MASK, POWER6, { FRT, FRB } },
4967 { "dxexq.", XRC(63,354,1), X_MASK, POWER6, { FRT, FRB } },
4968
4969 { "frin", XRC(63,392,0), XRA_MASK, POWER5, { FRT, FRB } },
4970 { "frin.", XRC(63,392,1), XRA_MASK, POWER5, { FRT, FRB } },
4971 { "friz", XRC(63,424,0), XRA_MASK, POWER5, { FRT, FRB } },
4972 { "friz.", XRC(63,424,1), XRA_MASK, POWER5, { FRT, FRB } },
4973 { "frip", XRC(63,456,0), XRA_MASK, POWER5, { FRT, FRB } },
4974 { "frip.", XRC(63,456,1), XRA_MASK, POWER5, { FRT, FRB } },
4975 { "frim", XRC(63,488,0), XRA_MASK, POWER5, { FRT, FRB } },
4976 { "frim.", XRC(63,488,1), XRA_MASK, POWER5, { FRT, FRB } },
4977
4978 { "dsubq", XRC(63,514,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4979 { "dsubq.", XRC(63,514,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4980
4981 { "ddivq", XRC(63,546,0), X_MASK, POWER6, { FRT, FRA, FRB } },
4982 { "ddivq.", XRC(63,546,1), X_MASK, POWER6, { FRT, FRA, FRB } },
4983
4984 { "mffs", XRC(63,583,0), XRARB_MASK, COM, { FRT } },
4985 { "mffs.", XRC(63,583,1), XRARB_MASK, COM, { FRT } },
4986
4987 { "dcmpuq", X(63,642), X_MASK, POWER6, { BF, FRA, FRB } },
4988
4989 { "dtstsfq", X(63,674), X_MASK, POWER6, { BF, FRA, FRB } },
4990
4991 { "mtfsf", XFL(63,711,0), XFL_MASK, COM, { FLM, FRB, XFL_L, W } },
4992 { "mtfsf.", XFL(63,711,1), XFL_MASK, COM, { FLM, FRB, XFL_L, W } },
4993
4994 { "drdpq", XRC(63,770,0), X_MASK, POWER6, { FRT, FRB } },
4995 { "drdpq.", XRC(63,770,1), X_MASK, POWER6, { FRT, FRB } },
4996
4997 { "dcffixq", XRC(63,802,0), X_MASK, POWER6, { FRT, FRB } },
4998 { "dcffixq.",XRC(63,802,1), X_MASK, POWER6, { FRT, FRB } },
4999
5000 { "fctid", XRC(63,814,0), XRA_MASK, PPC64, { FRT, FRB } },
5001 { "fctid.", XRC(63,814,1), XRA_MASK, PPC64, { FRT, FRB } },
5002
5003 { "fctidz", XRC(63,815,0), XRA_MASK, PPC64, { FRT, FRB } },
5004 { "fctidz.", XRC(63,815,1), XRA_MASK, PPC64, { FRT, FRB } },
5005
5006 { "denbcdq", XRC(63,834,0), X_MASK, POWER6, { S, FRT, FRB } },
5007 { "denbcdq.",XRC(63,834,1), X_MASK, POWER6, { S, FRT, FRB } },
5008
5009 { "fcfid", XRC(63,846,0), XRA_MASK, PPC64, { FRT, FRB } },
5010 { "fcfid.", XRC(63,846,1), XRA_MASK, PPC64, { FRT, FRB } },
5011
5012 { "diexq", XRC(63,866,0), X_MASK, POWER6, { FRT, FRA, FRB } },
5013 { "diexq.", XRC(63,866,1), X_MASK, POWER6, { FRT, FRA, FRB } },
5014
5015 };
5016
5017 const int powerpc_num_opcodes =
5018 sizeof (powerpc_opcodes) / sizeof (powerpc_opcodes[0]);
5019
5020 /* The macro table. This is only used by the assembler. */
5021
5022 /* The expressions of the form (-x ! 31) & (x | 31) have the value 0
5023 when x=0; 32-x when x is between 1 and 31; are negative if x is
5024 negative; and are 32 or more otherwise. This is what you want
5025 when, for instance, you are emulating a right shift by a
5026 rotate-left-and-mask, because the underlying instructions support
5027 shifts of size 0 but not shifts of size 32. By comparison, when
5028 extracting x bits from some word you want to use just 32-x, because
5029 the underlying instructions don't support extracting 0 bits but do
5030 support extracting the whole word (32 bits in this case). */
5031
5032 const struct powerpc_macro powerpc_macros[] = {
5033 { "extldi", 4, PPC64, "rldicr %0,%1,%3,(%2)-1" },
5034 { "extldi.", 4, PPC64, "rldicr. %0,%1,%3,(%2)-1" },
5035 { "extrdi", 4, PPC64, "rldicl %0,%1,(%2)+(%3),64-(%2)" },
5036 { "extrdi.", 4, PPC64, "rldicl. %0,%1,(%2)+(%3),64-(%2)" },
5037 { "insrdi", 4, PPC64, "rldimi %0,%1,64-((%2)+(%3)),%3" },
5038 { "insrdi.", 4, PPC64, "rldimi. %0,%1,64-((%2)+(%3)),%3" },
5039 { "rotrdi", 3, PPC64, "rldicl %0,%1,(-(%2)!63)&((%2)|63),0" },
5040 { "rotrdi.", 3, PPC64, "rldicl. %0,%1,(-(%2)!63)&((%2)|63),0" },
5041 { "sldi", 3, PPC64, "rldicr %0,%1,%2,63-(%2)" },
5042 { "sldi.", 3, PPC64, "rldicr. %0,%1,%2,63-(%2)" },
5043 { "srdi", 3, PPC64, "rldicl %0,%1,(-(%2)!63)&((%2)|63),%2" },
5044 { "srdi.", 3, PPC64, "rldicl. %0,%1,(-(%2)!63)&((%2)|63),%2" },
5045 { "clrrdi", 3, PPC64, "rldicr %0,%1,0,63-(%2)" },
5046 { "clrrdi.", 3, PPC64, "rldicr. %0,%1,0,63-(%2)" },
5047 { "clrlsldi",4, PPC64, "rldic %0,%1,%3,(%2)-(%3)" },
5048 { "clrlsldi.",4, PPC64, "rldic. %0,%1,%3,(%2)-(%3)" },
5049
5050 { "extlwi", 4, PPCCOM, "rlwinm %0,%1,%3,0,(%2)-1" },
5051 { "extlwi.", 4, PPCCOM, "rlwinm. %0,%1,%3,0,(%2)-1" },
5052 { "extrwi", 4, PPCCOM, "rlwinm %0,%1,((%2)+(%3))&((%2)+(%3)<>32),32-(%2),31" },
5053 { "extrwi.", 4, PPCCOM, "rlwinm. %0,%1,((%2)+(%3))&((%2)+(%3)<>32),32-(%2),31" },
5054 { "inslwi", 4, PPCCOM, "rlwimi %0,%1,(-(%3)!31)&((%3)|31),%3,(%2)+(%3)-1" },
5055 { "inslwi.", 4, PPCCOM, "rlwimi. %0,%1,(-(%3)!31)&((%3)|31),%3,(%2)+(%3)-1"},
5056 { "insrwi", 4, PPCCOM, "rlwimi %0,%1,32-((%2)+(%3)),%3,(%2)+(%3)-1" },
5057 { "insrwi.", 4, PPCCOM, "rlwimi. %0,%1,32-((%2)+(%3)),%3,(%2)+(%3)-1"},
5058 { "rotrwi", 3, PPCCOM, "rlwinm %0,%1,(-(%2)!31)&((%2)|31),0,31" },
5059 { "rotrwi.", 3, PPCCOM, "rlwinm. %0,%1,(-(%2)!31)&((%2)|31),0,31" },
5060 { "slwi", 3, PPCCOM, "rlwinm %0,%1,%2,0,31-(%2)" },
5061 { "sli", 3, PWRCOM, "rlinm %0,%1,%2,0,31-(%2)" },
5062 { "slwi.", 3, PPCCOM, "rlwinm. %0,%1,%2,0,31-(%2)" },
5063 { "sli.", 3, PWRCOM, "rlinm. %0,%1,%2,0,31-(%2)" },
5064 { "srwi", 3, PPCCOM, "rlwinm %0,%1,(-(%2)!31)&((%2)|31),%2,31" },
5065 { "sri", 3, PWRCOM, "rlinm %0,%1,(-(%2)!31)&((%2)|31),%2,31" },
5066 { "srwi.", 3, PPCCOM, "rlwinm. %0,%1,(-(%2)!31)&((%2)|31),%2,31" },
5067 { "sri.", 3, PWRCOM, "rlinm. %0,%1,(-(%2)!31)&((%2)|31),%2,31" },
5068 { "clrrwi", 3, PPCCOM, "rlwinm %0,%1,0,0,31-(%2)" },
5069 { "clrrwi.", 3, PPCCOM, "rlwinm. %0,%1,0,0,31-(%2)" },
5070 { "clrlslwi",4, PPCCOM, "rlwinm %0,%1,%3,(%2)-(%3),31-(%3)" },
5071 { "clrlslwi.",4, PPCCOM, "rlwinm. %0,%1,%3,(%2)-(%3),31-(%3)" },
5072 };
5073
5074 const int powerpc_num_macros =
5075 sizeof (powerpc_macros) / sizeof (powerpc_macros[0]);
5076
5077
5078 /* This file provides several disassembler functions, all of which use
5079 the disassembler interface defined in dis-asm.h. Several functions
5080 are provided because this file handles disassembly for the PowerPC
5081 in both big and little endian mode and also for the POWER (RS/6000)
5082 chip. */
5083
5084 static int print_insn_powerpc (bfd_vma, struct disassemble_info *, int, int);
5085
5086 /* Determine which set of machines to disassemble for. PPC403/601 or
5087 BookE. For convenience, also disassemble instructions supported
5088 by the AltiVec vector unit. */
5089
5090 static int
powerpc_dialect(struct disassemble_info * info)5091 powerpc_dialect (struct disassemble_info *info)
5092 {
5093 int dialect = PPC_OPCODE_PPC;
5094
5095 if (BFD_DEFAULT_TARGET_SIZE == 64)
5096 dialect |= PPC_OPCODE_64;
5097
5098 if (info->disassembler_options
5099 && strstr (info->disassembler_options, "booke") != NULL)
5100 dialect |= PPC_OPCODE_BOOKE | PPC_OPCODE_BOOKE64;
5101 else if ((info->mach == bfd_mach_ppc_e500)
5102 || (info->disassembler_options
5103 && strstr (info->disassembler_options, "e500") != NULL))
5104 dialect |= (PPC_OPCODE_BOOKE
5105 | PPC_OPCODE_SPE | PPC_OPCODE_ISEL
5106 | PPC_OPCODE_EFS | PPC_OPCODE_BRLOCK
5107 | PPC_OPCODE_PMR | PPC_OPCODE_CACHELCK
5108 | PPC_OPCODE_RFMCI);
5109 else if (info->disassembler_options
5110 && strstr (info->disassembler_options, "efs") != NULL)
5111 dialect |= PPC_OPCODE_EFS;
5112 else if (info->disassembler_options
5113 && strstr (info->disassembler_options, "e300") != NULL)
5114 dialect |= PPC_OPCODE_E300 | PPC_OPCODE_CLASSIC | PPC_OPCODE_COMMON;
5115 else if (info->disassembler_options
5116 && strstr (info->disassembler_options, "440") != NULL)
5117 dialect |= PPC_OPCODE_BOOKE | PPC_OPCODE_32
5118 | PPC_OPCODE_440 | PPC_OPCODE_ISEL | PPC_OPCODE_RFMCI;
5119 else
5120 dialect |= (PPC_OPCODE_403 | PPC_OPCODE_601 | PPC_OPCODE_CLASSIC
5121 | PPC_OPCODE_COMMON | PPC_OPCODE_ALTIVEC);
5122
5123 if (info->disassembler_options
5124 && strstr (info->disassembler_options, "power4") != NULL)
5125 dialect |= PPC_OPCODE_POWER4;
5126
5127 if (info->disassembler_options
5128 && strstr (info->disassembler_options, "power5") != NULL)
5129 dialect |= PPC_OPCODE_POWER4 | PPC_OPCODE_POWER5;
5130
5131 if (info->disassembler_options
5132 && strstr (info->disassembler_options, "cell") != NULL)
5133 dialect |= PPC_OPCODE_POWER4 | PPC_OPCODE_CELL | PPC_OPCODE_ALTIVEC;
5134
5135 if (info->disassembler_options
5136 && strstr (info->disassembler_options, "power6") != NULL)
5137 dialect |= PPC_OPCODE_POWER4 | PPC_OPCODE_POWER5 | PPC_OPCODE_POWER6 | PPC_OPCODE_ALTIVEC;
5138
5139 if (info->disassembler_options
5140 && strstr (info->disassembler_options, "any") != NULL)
5141 dialect |= PPC_OPCODE_ANY;
5142
5143 if (info->disassembler_options)
5144 {
5145 if (strstr (info->disassembler_options, "32") != NULL)
5146 dialect &= ~PPC_OPCODE_64;
5147 else if (strstr (info->disassembler_options, "64") != NULL)
5148 dialect |= PPC_OPCODE_64;
5149 }
5150
5151 info->private_data = (char *) 0 + dialect;
5152 return dialect;
5153 }
5154
5155 /* Qemu default */
5156 int
print_insn_ppc(bfd_vma memaddr,struct disassemble_info * info)5157 print_insn_ppc (bfd_vma memaddr, struct disassemble_info *info)
5158 {
5159 int dialect = (char *) info->private_data - (char *) 0;
5160 return print_insn_powerpc (memaddr, info, 1, dialect);
5161 }
5162
5163 /* Print a big endian PowerPC instruction. */
5164
5165 int
print_insn_big_powerpc(bfd_vma memaddr,struct disassemble_info * info)5166 print_insn_big_powerpc (bfd_vma memaddr, struct disassemble_info *info)
5167 {
5168 int dialect = (char *) info->private_data - (char *) 0;
5169 return print_insn_powerpc (memaddr, info, 1, dialect);
5170 }
5171
5172 /* Print a little endian PowerPC instruction. */
5173
5174 int
print_insn_little_powerpc(bfd_vma memaddr,struct disassemble_info * info)5175 print_insn_little_powerpc (bfd_vma memaddr, struct disassemble_info *info)
5176 {
5177 int dialect = (char *) info->private_data - (char *) 0;
5178 return print_insn_powerpc (memaddr, info, 0, dialect);
5179 }
5180
5181 /* Print a POWER (RS/6000) instruction. */
5182
5183 int
print_insn_rs6000(bfd_vma memaddr,struct disassemble_info * info)5184 print_insn_rs6000 (bfd_vma memaddr, struct disassemble_info *info)
5185 {
5186 return print_insn_powerpc (memaddr, info, 1, PPC_OPCODE_POWER);
5187 }
5188
5189 /* Extract the operand value from the PowerPC or POWER instruction. */
5190
5191 static long
operand_value_powerpc(const struct powerpc_operand * operand,unsigned long insn,int dialect)5192 operand_value_powerpc (const struct powerpc_operand *operand,
5193 unsigned long insn, int dialect)
5194 {
5195 long value;
5196 int invalid;
5197 /* Extract the value from the instruction. */
5198 if (operand->extract)
5199 value = (*operand->extract) (insn, dialect, &invalid);
5200 else
5201 {
5202 value = (insn >> operand->shift) & operand->bitm;
5203 if ((operand->flags & PPC_OPERAND_SIGNED) != 0)
5204 {
5205 /* BITM is always some number of zeros followed by some
5206 number of ones, followed by some numer of zeros. */
5207 unsigned long top = operand->bitm;
5208 /* top & -top gives the rightmost 1 bit, so this
5209 fills in any trailing zeros. */
5210 top |= (top & -top) - 1;
5211 top &= ~(top >> 1);
5212 value = (value ^ top) - top;
5213 }
5214 }
5215
5216 return value;
5217 }
5218
5219 /* Determine whether the optional operand(s) should be printed. */
5220
5221 static int
skip_optional_operands(const unsigned char * opindex,unsigned long insn,int dialect)5222 skip_optional_operands (const unsigned char *opindex,
5223 unsigned long insn, int dialect)
5224 {
5225 const struct powerpc_operand *operand;
5226
5227 for (; *opindex != 0; opindex++)
5228 {
5229 operand = &powerpc_operands[*opindex];
5230 if ((operand->flags & PPC_OPERAND_NEXT) != 0
5231 || ((operand->flags & PPC_OPERAND_OPTIONAL) != 0
5232 && operand_value_powerpc (operand, insn, dialect) != 0))
5233 return 0;
5234 }
5235
5236 return 1;
5237 }
5238
5239 /* Print a PowerPC or POWER instruction. */
5240
5241 static int
print_insn_powerpc(bfd_vma memaddr,struct disassemble_info * info,int bigendian,int dialect)5242 print_insn_powerpc (bfd_vma memaddr,
5243 struct disassemble_info *info,
5244 int bigendian,
5245 int dialect)
5246 {
5247 bfd_byte buffer[4];
5248 int status;
5249 unsigned long insn;
5250 const struct powerpc_opcode *opcode;
5251 const struct powerpc_opcode *opcode_end;
5252 unsigned long op;
5253
5254 if (dialect == 0)
5255 dialect = powerpc_dialect (info);
5256
5257 status = (*info->read_memory_func) (memaddr, buffer, 4, info);
5258 if (status != 0)
5259 {
5260 (*info->memory_error_func) (status, memaddr, info);
5261 return -1;
5262 }
5263
5264 if (bigendian)
5265 insn = bfd_getb32 (buffer);
5266 else
5267 insn = bfd_getl32 (buffer);
5268
5269 /* Get the major opcode of the instruction. */
5270 op = PPC_OP (insn);
5271
5272 /* Find the first match in the opcode table. We could speed this up
5273 a bit by doing a binary search on the major opcode. */
5274 opcode_end = powerpc_opcodes + powerpc_num_opcodes;
5275 again:
5276 for (opcode = powerpc_opcodes; opcode < opcode_end; opcode++)
5277 {
5278 unsigned long table_op;
5279 const unsigned char *opindex;
5280 const struct powerpc_operand *operand;
5281 int invalid;
5282 int need_comma;
5283 int need_paren;
5284 int skip_optional;
5285
5286 table_op = PPC_OP (opcode->opcode);
5287 if (op < table_op)
5288 break;
5289 if (op > table_op)
5290 continue;
5291
5292 if ((insn & opcode->mask) != opcode->opcode
5293 || (opcode->flags & dialect) == 0)
5294 continue;
5295
5296 /* Make two passes over the operands. First see if any of them
5297 have extraction functions, and, if they do, make sure the
5298 instruction is valid. */
5299 invalid = 0;
5300 for (opindex = opcode->operands; *opindex != 0; opindex++)
5301 {
5302 operand = powerpc_operands + *opindex;
5303 if (operand->extract)
5304 (*operand->extract) (insn, dialect, &invalid);
5305 }
5306 if (invalid)
5307 continue;
5308
5309 /* The instruction is valid. */
5310 if (opcode->operands[0] != 0)
5311 (*info->fprintf_func) (info->stream, "%-7s ", opcode->name);
5312 else
5313 (*info->fprintf_func) (info->stream, "%s", opcode->name);
5314
5315 /* Now extract and print the operands. */
5316 need_comma = 0;
5317 need_paren = 0;
5318 skip_optional = -1;
5319 for (opindex = opcode->operands; *opindex != 0; opindex++)
5320 {
5321 long value;
5322
5323 operand = powerpc_operands + *opindex;
5324
5325 /* Operands that are marked FAKE are simply ignored. We
5326 already made sure that the extract function considered
5327 the instruction to be valid. */
5328 if ((operand->flags & PPC_OPERAND_FAKE) != 0)
5329 continue;
5330
5331 /* If all of the optional operands have the value zero,
5332 then don't print any of them. */
5333 if ((operand->flags & PPC_OPERAND_OPTIONAL) != 0)
5334 {
5335 if (skip_optional < 0)
5336 skip_optional = skip_optional_operands (opindex, insn,
5337 dialect);
5338 if (skip_optional)
5339 continue;
5340 }
5341
5342 value = operand_value_powerpc (operand, insn, dialect);
5343
5344 if (need_comma)
5345 {
5346 (*info->fprintf_func) (info->stream, ",");
5347 need_comma = 0;
5348 }
5349
5350 /* Print the operand as directed by the flags. */
5351 if ((operand->flags & PPC_OPERAND_GPR) != 0
5352 || ((operand->flags & PPC_OPERAND_GPR_0) != 0 && value != 0))
5353 (*info->fprintf_func) (info->stream, "r%ld", value);
5354 else if ((operand->flags & PPC_OPERAND_FPR) != 0)
5355 (*info->fprintf_func) (info->stream, "f%ld", value);
5356 else if ((operand->flags & PPC_OPERAND_VR) != 0)
5357 (*info->fprintf_func) (info->stream, "v%ld", value);
5358 else if ((operand->flags & PPC_OPERAND_RELATIVE) != 0)
5359 (*info->print_address_func) (memaddr + value, info);
5360 else if ((operand->flags & PPC_OPERAND_ABSOLUTE) != 0)
5361 (*info->print_address_func) ((bfd_vma) value & 0xffffffff, info);
5362 else if ((operand->flags & PPC_OPERAND_CR) == 0
5363 || (dialect & PPC_OPCODE_PPC) == 0)
5364 (*info->fprintf_func) (info->stream, "%ld", value);
5365 else
5366 {
5367 if (operand->bitm == 7)
5368 (*info->fprintf_func) (info->stream, "cr%ld", value);
5369 else
5370 {
5371 static const char *cbnames[4] = { "lt", "gt", "eq", "so" };
5372 int cr;
5373 int cc;
5374
5375 cr = value >> 2;
5376 if (cr != 0)
5377 (*info->fprintf_func) (info->stream, "4*cr%d+", cr);
5378 cc = value & 3;
5379 (*info->fprintf_func) (info->stream, "%s", cbnames[cc]);
5380 }
5381 }
5382
5383 if (need_paren)
5384 {
5385 (*info->fprintf_func) (info->stream, ")");
5386 need_paren = 0;
5387 }
5388
5389 if ((operand->flags & PPC_OPERAND_PARENS) == 0)
5390 need_comma = 1;
5391 else
5392 {
5393 (*info->fprintf_func) (info->stream, "(");
5394 need_paren = 1;
5395 }
5396 }
5397
5398 /* We have found and printed an instruction; return. */
5399 return 4;
5400 }
5401
5402 if ((dialect & PPC_OPCODE_ANY) != 0)
5403 {
5404 dialect = ~PPC_OPCODE_ANY;
5405 goto again;
5406 }
5407
5408 /* We could not find a match. */
5409 (*info->fprintf_func) (info->stream, ".long 0x%lx", insn);
5410
5411 return 4;
5412 }
5413