Merge branch 'master' of git://repo.or.cz/qemu
[qemu/hppa.git] / ppc-dis.c
blobf9ae53e1d1a661aa13517dd9c10089158c7b0abb
1 /* ppc-dis.c -- Disassemble PowerPC instructions
2 Copyright 1994 Free Software Foundation, Inc.
3 Written by Ian Lance Taylor, Cygnus Support
5 This file is part of GDB, GAS, and the GNU binutils.
7 GDB, GAS, and the GNU binutils are free software; you can redistribute
8 them and/or modify them under the terms of the GNU General Public
9 License as published by the Free Software Foundation; either version
10 2, or (at your option) any later version.
12 GDB, GAS, and the GNU binutils are distributed in the hope that they
13 will be useful, but WITHOUT ANY WARRANTY; without even the implied
14 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
15 the GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with this file; see the file COPYING. If not, write to the Free
19 Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
20 #include "dis-asm.h"
22 /* ppc.h -- Header file for PowerPC opcode table
23 Copyright 1994 Free Software Foundation, Inc.
24 Written by Ian Lance Taylor, Cygnus Support
26 This file is part of GDB, GAS, and the GNU binutils.
28 GDB, GAS, and the GNU binutils are free software; you can redistribute
29 them and/or modify them under the terms of the GNU General Public
30 License as published by the Free Software Foundation; either version
31 1, or (at your option) any later version.
33 GDB, GAS, and the GNU binutils are distributed in the hope that they
34 will be useful, but WITHOUT ANY WARRANTY; without even the implied
35 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
36 the GNU General Public License for more details.
38 You should have received a copy of the GNU General Public License
39 along with this file; see the file COPYING. If not, write to the Free
40 Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
42 /* The opcode table is an array of struct powerpc_opcode. */
44 struct powerpc_opcode
46 /* The opcode name. */
47 const char *name;
49 /* The opcode itself. Those bits which will be filled in with
50 operands are zeroes. */
51 uint32_t opcode;
53 /* The opcode mask. This is used by the disassembler. This is a
54 mask containing ones indicating those bits which must match the
55 opcode field, and zeroes indicating those bits which need not
56 match (and are presumably filled in by operands). */
57 uint32_t mask;
59 /* One bit flags for the opcode. These are used to indicate which
60 specific processors support the instructions. The defined values
61 are listed below. */
62 uint32_t flags;
64 /* An array of operand codes. Each code is an index into the
65 operand table. They appear in the order which the operands must
66 appear in assembly code, and are terminated by a zero. */
67 unsigned char operands[8];
70 /* The table itself is sorted by major opcode number, and is otherwise
71 in the order in which the disassembler should consider
72 instructions. */
73 extern const struct powerpc_opcode powerpc_opcodes[];
74 extern const int powerpc_num_opcodes;
76 /* Values defined for the flags field of a struct powerpc_opcode. */
78 /* Opcode is defined for the PowerPC architecture. */
79 #define PPC_OPCODE_PPC (01)
81 /* Opcode is defined for the POWER (RS/6000) architecture. */
82 #define PPC_OPCODE_POWER (02)
84 /* Opcode is defined for the POWER2 (Rios 2) architecture. */
85 #define PPC_OPCODE_POWER2 (04)
87 /* Opcode is only defined on 32 bit architectures. */
88 #define PPC_OPCODE_32 (010)
90 /* Opcode is only defined on 64 bit architectures. */
91 #define PPC_OPCODE_64 (020)
93 /* Opcode is supported by the Motorola PowerPC 601 processor. The 601
94 is assumed to support all PowerPC (PPC_OPCODE_PPC) instructions,
95 but it also supports many additional POWER instructions. */
96 #define PPC_OPCODE_601 (040)
98 /* A macro to extract the major opcode from an instruction. */
99 #define PPC_OP(i) (((i) >> 26) & 0x3f)
101 /* The operands table is an array of struct powerpc_operand. */
103 struct powerpc_operand
105 /* The number of bits in the operand. */
106 int bits;
108 /* How far the operand is left shifted in the instruction. */
109 int shift;
111 /* Insertion function. This is used by the assembler. To insert an
112 operand value into an instruction, check this field.
114 If it is NULL, execute
115 i |= (op & ((1 << o->bits) - 1)) << o->shift;
116 (i is the instruction which we are filling in, o is a pointer to
117 this structure, and op is the opcode value; this assumes twos
118 complement arithmetic).
120 If this field is not NULL, then simply call it with the
121 instruction and the operand value. It will return the new value
122 of the instruction. If the ERRMSG argument is not NULL, then if
123 the operand value is illegal, *ERRMSG will be set to a warning
124 string (the operand will be inserted in any case). If the
125 operand value is legal, *ERRMSG will be unchanged (most operands
126 can accept any value). */
127 unsigned long (*insert)(uint32_t instruction, int32_t op,
128 const char **errmsg);
130 /* Extraction function. This is used by the disassembler. To
131 extract this operand type from an instruction, check this field.
133 If it is NULL, compute
134 op = ((i) >> o->shift) & ((1 << o->bits) - 1);
135 if ((o->flags & PPC_OPERAND_SIGNED) != 0
136 && (op & (1 << (o->bits - 1))) != 0)
137 op -= 1 << o->bits;
138 (i is the instruction, o is a pointer to this structure, and op
139 is the result; this assumes twos complement arithmetic).
141 If this field is not NULL, then simply call it with the
142 instruction value. It will return the value of the operand. If
143 the INVALID argument is not NULL, *INVALID will be set to
144 non-zero if this operand type can not actually be extracted from
145 this operand (i.e., the instruction does not match). If the
146 operand is valid, *INVALID will not be changed. */
147 long (*extract) (uint32_t instruction, int *invalid);
149 /* One bit syntax flags. */
150 uint32_t flags;
153 /* Elements in the table are retrieved by indexing with values from
154 the operands field of the powerpc_opcodes table. */
156 extern const struct powerpc_operand powerpc_operands[];
158 /* Values defined for the flags field of a struct powerpc_operand. */
160 /* This operand takes signed values. */
161 #define PPC_OPERAND_SIGNED (01)
163 /* This operand takes signed values, but also accepts a full positive
164 range of values when running in 32 bit mode. That is, if bits is
165 16, it takes any value from -0x8000 to 0xffff. In 64 bit mode,
166 this flag is ignored. */
167 #define PPC_OPERAND_SIGNOPT (02)
169 /* This operand does not actually exist in the assembler input. This
170 is used to support extended mnemonics such as mr, for which two
171 operands fields are identical. The assembler should call the
172 insert function with any op value. The disassembler should call
173 the extract function, ignore the return value, and check the value
174 placed in the valid argument. */
175 #define PPC_OPERAND_FAKE (04)
177 /* The next operand should be wrapped in parentheses rather than
178 separated from this one by a comma. This is used for the load and
179 store instructions which want their operands to look like
180 reg,displacement(reg)
182 #define PPC_OPERAND_PARENS (010)
184 /* This operand may use the symbolic names for the CR fields, which
186 lt 0 gt 1 eq 2 so 3 un 3
187 cr0 0 cr1 1 cr2 2 cr3 3
188 cr4 4 cr5 5 cr6 6 cr7 7
189 These may be combined arithmetically, as in cr2*4+gt. These are
190 only supported on the PowerPC, not the POWER. */
191 #define PPC_OPERAND_CR (020)
193 /* This operand names a register. The disassembler uses this to print
194 register names with a leading 'r'. */
195 #define PPC_OPERAND_GPR (040)
197 /* This operand names a floating point register. The disassembler
198 prints these with a leading 'f'. */
199 #define PPC_OPERAND_FPR (0100)
201 /* This operand is a relative branch displacement. The disassembler
202 prints these symbolically if possible. */
203 #define PPC_OPERAND_RELATIVE (0200)
205 /* This operand is an absolute branch address. The disassembler
206 prints these symbolically if possible. */
207 #define PPC_OPERAND_ABSOLUTE (0400)
209 /* This operand is optional, and is zero if omitted. This is used for
210 the optional BF and L fields in the comparison instructions. The
211 assembler must count the number of operands remaining on the line,
212 and the number of operands remaining for the opcode, and decide
213 whether this operand is present or not. The disassembler should
214 print this operand out only if it is not zero. */
215 #define PPC_OPERAND_OPTIONAL (01000)
217 /* This flag is only used with PPC_OPERAND_OPTIONAL. If this operand
218 is omitted, then for the next operand use this operand value plus
219 1, ignoring the next operand field for the opcode. This wretched
220 hack is needed because the Power rotate instructions can take
221 either 4 or 5 operands. The disassembler should print this operand
222 out regardless of the PPC_OPERAND_OPTIONAL field. */
223 #define PPC_OPERAND_NEXT (02000)
225 /* This operand should be regarded as a negative number for the
226 purposes of overflow checking (i.e., the normal most negative
227 number is disallowed and one more than the normal most positive
228 number is allowed). This flag will only be set for a signed
229 operand. */
230 #define PPC_OPERAND_NEGATIVE (04000)
232 /* The POWER and PowerPC assemblers use a few macros. We keep them
233 with the operands table for simplicity. The macro table is an
234 array of struct powerpc_macro. */
236 struct powerpc_macro
238 /* The macro name. */
239 const char *name;
241 /* The number of operands the macro takes. */
242 unsigned int operands;
244 /* One bit flags for the opcode. These are used to indicate which
245 specific processors support the instructions. The values are the
246 same as those for the struct powerpc_opcode flags field. */
247 uint32_t flags;
249 /* A format string to turn the macro into a normal instruction.
250 Each %N in the string is replaced with operand number N (zero
251 based). */
252 const char *format;
255 extern const struct powerpc_macro powerpc_macros[];
256 extern const int powerpc_num_macros;
258 /* ppc-opc.c -- PowerPC opcode list
259 Copyright 1994 Free Software Foundation, Inc.
260 Written by Ian Lance Taylor, Cygnus Support
262 This file is part of GDB, GAS, and the GNU binutils.
264 GDB, GAS, and the GNU binutils are free software; you can redistribute
265 them and/or modify them under the terms of the GNU General Public
266 License as published by the Free Software Foundation; either version
267 2, or (at your option) any later version.
269 GDB, GAS, and the GNU binutils are distributed in the hope that they
270 will be useful, but WITHOUT ANY WARRANTY; without even the implied
271 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
272 the GNU General Public License for more details.
274 You should have received a copy of the GNU General Public License
275 along with this file; see the file COPYING. If not, write to the Free
276 Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
278 /* This file holds the PowerPC opcode table. The opcode table
279 includes almost all of the extended instruction mnemonics. This
280 permits the disassembler to use them, and simplifies the assembler
281 logic, at the cost of increasing the table size. The table is
282 strictly constant data, so the compiler should be able to put it in
283 the .text section.
285 This file also holds the operand table. All knowledge about
286 inserting operands into instructions and vice-versa is kept in this
287 file. */
289 /* Local insertion and extraction functions. */
291 static unsigned long insert_bat (uint32_t, int32_t, const char **);
292 static long extract_bat(uint32_t, int *);
293 static unsigned long insert_bba(uint32_t, int32_t, const char **);
294 static long extract_bba(uint32_t, int *);
295 static unsigned long insert_bd(uint32_t, int32_t, const char **);
296 static long extract_bd(uint32_t, int *);
297 static unsigned long insert_bdm(uint32_t, int32_t, const char **);
298 static long extract_bdm(uint32_t, int *);
299 static unsigned long insert_bdp(uint32_t, int32_t, const char **);
300 static long extract_bdp(uint32_t, int *);
301 static unsigned long insert_bo(uint32_t, int32_t, const char **);
302 static long extract_bo(uint32_t, int *);
303 static unsigned long insert_boe(uint32_t, int32_t, const char **);
304 static long extract_boe(uint32_t, int *);
305 static unsigned long insert_ds(uint32_t, int32_t, const char **);
306 static long extract_ds(uint32_t, int *);
307 static unsigned long insert_li(uint32_t, int32_t, const char **);
308 static long extract_li(uint32_t, int *);
309 static unsigned long insert_mbe(uint32_t, int32_t, const char **);
310 static long extract_mbe(uint32_t, int *);
311 static unsigned long insert_mb6(uint32_t, int32_t, const char **);
312 static long extract_mb6(uint32_t, int *);
313 static unsigned long insert_nb(uint32_t, int32_t, const char **);
314 static long extract_nb(uint32_t, int *);
315 static unsigned long insert_nsi(uint32_t, int32_t, const char **);
316 static long extract_nsi(uint32_t, int *);
317 static unsigned long insert_ral(uint32_t, int32_t, const char **);
318 static unsigned long insert_ram(uint32_t, int32_t, const char **);
319 static unsigned long insert_ras(uint32_t, int32_t, const char **);
320 static unsigned long insert_rbs(uint32_t, int32_t, const char **);
321 static long extract_rbs(uint32_t, int *);
322 static unsigned long insert_sh6(uint32_t, int32_t, const char **);
323 static long extract_sh6(uint32_t, int *);
324 static unsigned long insert_spr(uint32_t, int32_t, const char **);
325 static long extract_spr(uint32_t, int *);
326 static unsigned long insert_tbr(uint32_t, int32_t, const char **);
327 static long extract_tbr(uint32_t, int *);
329 /* The operands table.
331 The fields are bits, shift, signed, insert, extract, flags. */
333 const struct powerpc_operand powerpc_operands[] =
335 /* The zero index is used to indicate the end of the list of
336 operands. */
337 #define UNUSED (0)
338 { 0, 0, 0, 0, 0 },
340 /* The BA field in an XL form instruction. */
341 #define BA (1)
342 #define BA_MASK (0x1f << 16)
343 { 5, 16, 0, 0, PPC_OPERAND_CR },
345 /* The BA field in an XL form instruction when it must be the same
346 as the BT field in the same instruction. */
347 #define BAT (2)
348 { 5, 16, insert_bat, extract_bat, PPC_OPERAND_FAKE },
350 /* The BB field in an XL form instruction. */
351 #define BB (3)
352 #define BB_MASK (0x1f << 11)
353 { 5, 11, 0, 0, PPC_OPERAND_CR },
355 /* The BB field in an XL form instruction when it must be the same
356 as the BA field in the same instruction. */
357 #define BBA (4)
358 { 5, 11, insert_bba, extract_bba, PPC_OPERAND_FAKE },
360 /* The BD field in a B form instruction. The lower two bits are
361 forced to zero. */
362 #define BD (5)
363 { 16, 0, insert_bd, extract_bd, PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
365 /* The BD field in a B form instruction when absolute addressing is
366 used. */
367 #define BDA (6)
368 { 16, 0, insert_bd, extract_bd, PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
370 /* The BD field in a B form instruction when the - modifier is used.
371 This sets the y bit of the BO field appropriately. */
372 #define BDM (7)
373 { 16, 0, insert_bdm, extract_bdm,
374 PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
376 /* The BD field in a B form instruction when the - modifier is used
377 and absolute address is used. */
378 #define BDMA (8)
379 { 16, 0, insert_bdm, extract_bdm,
380 PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
382 /* The BD field in a B form instruction when the + modifier is used.
383 This sets the y bit of the BO field appropriately. */
384 #define BDP (9)
385 { 16, 0, insert_bdp, extract_bdp,
386 PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
388 /* The BD field in a B form instruction when the + modifier is used
389 and absolute addressing is used. */
390 #define BDPA (10)
391 { 16, 0, insert_bdp, extract_bdp,
392 PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
394 /* The BF field in an X or XL form instruction. */
395 #define BF (11)
396 { 3, 23, 0, 0, PPC_OPERAND_CR },
398 /* An optional BF field. This is used for comparison instructions,
399 in which an omitted BF field is taken as zero. */
400 #define OBF (12)
401 { 3, 23, 0, 0, PPC_OPERAND_CR | PPC_OPERAND_OPTIONAL },
403 /* The BFA field in an X or XL form instruction. */
404 #define BFA (13)
405 { 3, 18, 0, 0, PPC_OPERAND_CR },
407 /* The BI field in a B form or XL form instruction. */
408 #define BI (14)
409 #define BI_MASK (0x1f << 16)
410 { 5, 16, 0, 0, PPC_OPERAND_CR },
412 /* The BO field in a B form instruction. Certain values are
413 illegal. */
414 #define BO (15)
415 #define BO_MASK (0x1f << 21)
416 { 5, 21, insert_bo, extract_bo, 0 },
418 /* The BO field in a B form instruction when the + or - modifier is
419 used. This is like the BO field, but it must be even. */
420 #define BOE (16)
421 { 5, 21, insert_boe, extract_boe, 0 },
423 /* The BT field in an X or XL form instruction. */
424 #define BT (17)
425 { 5, 21, 0, 0, PPC_OPERAND_CR },
427 /* The condition register number portion of the BI field in a B form
428 or XL form instruction. This is used for the extended
429 conditional branch mnemonics, which set the lower two bits of the
430 BI field. This field is optional. */
431 #define CR (18)
432 { 3, 18, 0, 0, PPC_OPERAND_CR | PPC_OPERAND_OPTIONAL },
434 /* The D field in a D form instruction. This is a displacement off
435 a register, and implies that the next operand is a register in
436 parentheses. */
437 #define D (19)
438 { 16, 0, 0, 0, PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED },
440 /* The DS field in a DS form instruction. This is like D, but the
441 lower two bits are forced to zero. */
442 #define DS (20)
443 { 16, 0, insert_ds, extract_ds, PPC_OPERAND_PARENS | PPC_OPERAND_SIGNED },
445 /* The FL1 field in a POWER SC form instruction. */
446 #define FL1 (21)
447 { 4, 12, 0, 0, 0 },
449 /* The FL2 field in a POWER SC form instruction. */
450 #define FL2 (22)
451 { 3, 2, 0, 0, 0 },
453 /* The FLM field in an XFL form instruction. */
454 #define FLM (23)
455 { 8, 17, 0, 0, 0 },
457 /* The FRA field in an X or A form instruction. */
458 #define FRA (24)
459 #define FRA_MASK (0x1f << 16)
460 { 5, 16, 0, 0, PPC_OPERAND_FPR },
462 /* The FRB field in an X or A form instruction. */
463 #define FRB (25)
464 #define FRB_MASK (0x1f << 11)
465 { 5, 11, 0, 0, PPC_OPERAND_FPR },
467 /* The FRC field in an A form instruction. */
468 #define FRC (26)
469 #define FRC_MASK (0x1f << 6)
470 { 5, 6, 0, 0, PPC_OPERAND_FPR },
472 /* The FRS field in an X form instruction or the FRT field in a D, X
473 or A form instruction. */
474 #define FRS (27)
475 #define FRT (FRS)
476 { 5, 21, 0, 0, PPC_OPERAND_FPR },
478 /* The FXM field in an XFX instruction. */
479 #define FXM (28)
480 #define FXM_MASK (0xff << 12)
481 { 8, 12, 0, 0, 0 },
483 /* The L field in a D or X form instruction. */
484 #define L (29)
485 { 1, 21, 0, 0, PPC_OPERAND_OPTIONAL },
487 /* The LEV field in a POWER SC form instruction. */
488 #define LEV (30)
489 { 7, 5, 0, 0, 0 },
491 /* The LI field in an I form instruction. The lower two bits are
492 forced to zero. */
493 #define LI (31)
494 { 26, 0, insert_li, extract_li, PPC_OPERAND_RELATIVE | PPC_OPERAND_SIGNED },
496 /* The LI field in an I form instruction when used as an absolute
497 address. */
498 #define LIA (32)
499 { 26, 0, insert_li, extract_li, PPC_OPERAND_ABSOLUTE | PPC_OPERAND_SIGNED },
501 /* The MB field in an M form instruction. */
502 #define MB (33)
503 #define MB_MASK (0x1f << 6)
504 { 5, 6, 0, 0, 0 },
506 /* The ME field in an M form instruction. */
507 #define ME (34)
508 #define ME_MASK (0x1f << 1)
509 { 5, 1, 0, 0, 0 },
511 /* The MB and ME fields in an M form instruction expressed a single
512 operand which is a bitmask indicating which bits to select. This
513 is a two operand form using PPC_OPERAND_NEXT. See the
514 description in opcode/ppc.h for what this means. */
515 #define MBE (35)
516 { 5, 6, 0, 0, PPC_OPERAND_OPTIONAL | PPC_OPERAND_NEXT },
517 { 32, 0, insert_mbe, extract_mbe, 0 },
519 /* The MB or ME field in an MD or MDS form instruction. The high
520 bit is wrapped to the low end. */
521 #define MB6 (37)
522 #define ME6 (MB6)
523 #define MB6_MASK (0x3f << 5)
524 { 6, 5, insert_mb6, extract_mb6, 0 },
526 /* The NB field in an X form instruction. The value 32 is stored as
527 0. */
528 #define NB (38)
529 { 6, 11, insert_nb, extract_nb, 0 },
531 /* The NSI field in a D form instruction. This is the same as the
532 SI field, only negated. */
533 #define NSI (39)
534 { 16, 0, insert_nsi, extract_nsi,
535 PPC_OPERAND_NEGATIVE | PPC_OPERAND_SIGNED },
537 /* The RA field in an D, DS, X, XO, M, or MDS form instruction. */
538 #define RA (40)
539 #define RA_MASK (0x1f << 16)
540 { 5, 16, 0, 0, PPC_OPERAND_GPR },
542 /* The RA field in a D or X form instruction which is an updating
543 load, which means that the RA field may not be zero and may not
544 equal the RT field. */
545 #define RAL (41)
546 { 5, 16, insert_ral, 0, PPC_OPERAND_GPR },
548 /* The RA field in an lmw instruction, which has special value
549 restrictions. */
550 #define RAM (42)
551 { 5, 16, insert_ram, 0, PPC_OPERAND_GPR },
553 /* The RA field in a D or X form instruction which is an updating
554 store or an updating floating point load, which means that the RA
555 field may not be zero. */
556 #define RAS (43)
557 { 5, 16, insert_ras, 0, PPC_OPERAND_GPR },
559 /* The RB field in an X, XO, M, or MDS form instruction. */
560 #define RB (44)
561 #define RB_MASK (0x1f << 11)
562 { 5, 11, 0, 0, PPC_OPERAND_GPR },
564 /* The RB field in an X form instruction when it must be the same as
565 the RS field in the instruction. This is used for extended
566 mnemonics like mr. */
567 #define RBS (45)
568 { 5, 1, insert_rbs, extract_rbs, PPC_OPERAND_FAKE },
570 /* The RS field in a D, DS, X, XFX, XS, M, MD or MDS form
571 instruction or the RT field in a D, DS, X, XFX or XO form
572 instruction. */
573 #define RS (46)
574 #define RT (RS)
575 #define RT_MASK (0x1f << 21)
576 { 5, 21, 0, 0, PPC_OPERAND_GPR },
578 /* The SH field in an X or M form instruction. */
579 #define SH (47)
580 #define SH_MASK (0x1f << 11)
581 { 5, 11, 0, 0, 0 },
583 /* The SH field in an MD form instruction. This is split. */
584 #define SH6 (48)
585 #define SH6_MASK ((0x1f << 11) | (1 << 1))
586 { 6, 1, insert_sh6, extract_sh6, 0 },
588 /* The SI field in a D form instruction. */
589 #define SI (49)
590 { 16, 0, 0, 0, PPC_OPERAND_SIGNED },
592 /* The SI field in a D form instruction when we accept a wide range
593 of positive values. */
594 #define SISIGNOPT (50)
595 { 16, 0, 0, 0, PPC_OPERAND_SIGNED | PPC_OPERAND_SIGNOPT },
597 /* The SPR field in an XFX form instruction. This is flipped--the
598 lower 5 bits are stored in the upper 5 and vice- versa. */
599 #define SPR (51)
600 #define SPR_MASK (0x3ff << 11)
601 { 10, 11, insert_spr, extract_spr, 0 },
603 /* The BAT index number in an XFX form m[ft]ibat[lu] instruction. */
604 #define SPRBAT (52)
605 #define SPRBAT_MASK (0x3 << 17)
606 { 2, 17, 0, 0, 0 },
608 /* The SPRG register number in an XFX form m[ft]sprg instruction. */
609 #define SPRG (53)
610 #define SPRG_MASK (0x3 << 16)
611 { 2, 16, 0, 0, 0 },
613 /* The SR field in an X form instruction. */
614 #define SR (54)
615 { 4, 16, 0, 0, 0 },
617 /* The SV field in a POWER SC form instruction. */
618 #define SV (55)
619 { 14, 2, 0, 0, 0 },
621 /* The TBR field in an XFX form instruction. This is like the SPR
622 field, but it is optional. */
623 #define TBR (56)
624 { 10, 11, insert_tbr, extract_tbr, PPC_OPERAND_OPTIONAL },
626 /* The TO field in a D or X form instruction. */
627 #define TO (57)
628 #define TO_MASK (0x1f << 21)
629 { 5, 21, 0, 0, 0 },
631 /* The U field in an X form instruction. */
632 #define U (58)
633 { 4, 12, 0, 0, 0 },
635 /* The UI field in a D form instruction. */
636 #define UI (59)
637 { 16, 0, 0, 0, 0 },
640 /* The functions used to insert and extract complicated operands. */
642 /* The BA field in an XL form instruction when it must be the same as
643 the BT field in the same instruction. This operand is marked FAKE.
644 The insertion function just copies the BT field into the BA field,
645 and the extraction function just checks that the fields are the
646 same. */
648 /*ARGSUSED*/
649 static unsigned long
650 insert_bat (insn, value, errmsg)
651 uint32_t insn;
652 int32_t value;
653 const char **errmsg;
655 return insn | (((insn >> 21) & 0x1f) << 16);
658 static long
659 extract_bat (insn, invalid)
660 uint32_t insn;
661 int *invalid;
663 if (invalid != (int *) NULL
664 && ((insn >> 21) & 0x1f) != ((insn >> 16) & 0x1f))
665 *invalid = 1;
666 return 0;
669 /* The BB field in an XL form instruction when it must be the same as
670 the BA field in the same instruction. This operand is marked FAKE.
671 The insertion function just copies the BA field into the BB field,
672 and the extraction function just checks that the fields are the
673 same. */
675 /*ARGSUSED*/
676 static unsigned long
677 insert_bba (insn, value, errmsg)
678 uint32_t insn;
679 int32_t value;
680 const char **errmsg;
682 return insn | (((insn >> 16) & 0x1f) << 11);
685 static long
686 extract_bba (insn, invalid)
687 uint32_t insn;
688 int *invalid;
690 if (invalid != (int *) NULL
691 && ((insn >> 16) & 0x1f) != ((insn >> 11) & 0x1f))
692 *invalid = 1;
693 return 0;
696 /* The BD field in a B form instruction. The lower two bits are
697 forced to zero. */
699 /*ARGSUSED*/
700 static unsigned long
701 insert_bd (insn, value, errmsg)
702 uint32_t insn;
703 int32_t value;
704 const char **errmsg;
706 return insn | (value & 0xfffc);
709 /*ARGSUSED*/
710 static long
711 extract_bd (insn, invalid)
712 uint32_t insn;
713 int *invalid;
715 if ((insn & 0x8000) != 0)
716 return (insn & 0xfffc) - 0x10000;
717 else
718 return insn & 0xfffc;
721 /* The BD field in a B form instruction when the - modifier is used.
722 This modifier means that the branch is not expected to be taken.
723 We must set the y bit of the BO field to 1 if the offset is
724 negative. When extracting, we require that the y bit be 1 and that
725 the offset be positive, since if the y bit is 0 we just want to
726 print the normal form of the instruction. */
728 /*ARGSUSED*/
729 static unsigned long
730 insert_bdm (insn, value, errmsg)
731 uint32_t insn;
732 int32_t value;
733 const char **errmsg;
735 if ((value & 0x8000) != 0)
736 insn |= 1 << 21;
737 return insn | (value & 0xfffc);
740 static long
741 extract_bdm (insn, invalid)
742 uint32_t insn;
743 int *invalid;
745 if (invalid != (int *) NULL
746 && ((insn & (1 << 21)) == 0
747 || (insn & (1 << 15)) == 0))
748 *invalid = 1;
749 if ((insn & 0x8000) != 0)
750 return (insn & 0xfffc) - 0x10000;
751 else
752 return insn & 0xfffc;
755 /* The BD field in a B form instruction when the + modifier is used.
756 This is like BDM, above, except that the branch is expected to be
757 taken. */
759 /*ARGSUSED*/
760 static unsigned long
761 insert_bdp (insn, value, errmsg)
762 uint32_t insn;
763 int32_t value;
764 const char **errmsg;
766 if ((value & 0x8000) == 0)
767 insn |= 1 << 21;
768 return insn | (value & 0xfffc);
771 static long
772 extract_bdp (insn, invalid)
773 uint32_t insn;
774 int *invalid;
776 if (invalid != (int *) NULL
777 && ((insn & (1 << 21)) == 0
778 || (insn & (1 << 15)) != 0))
779 *invalid = 1;
780 if ((insn & 0x8000) != 0)
781 return (insn & 0xfffc) - 0x10000;
782 else
783 return insn & 0xfffc;
786 /* Check for legal values of a BO field. */
788 static int
789 valid_bo (int32_t value)
791 /* Certain encodings have bits that are required to be zero. These
792 are (z must be zero, y may be anything):
793 001zy
794 011zy
795 1z00y
796 1z01y
797 1z1zz
799 switch (value & 0x14)
801 default:
802 case 0:
803 return 1;
804 case 0x4:
805 return (value & 0x2) == 0;
806 case 0x10:
807 return (value & 0x8) == 0;
808 case 0x14:
809 return value == 0x14;
813 /* The BO field in a B form instruction. Warn about attempts to set
814 the field to an illegal value. */
816 static unsigned long
817 insert_bo (insn, value, errmsg)
818 uint32_t insn;
819 int32_t value;
820 const char **errmsg;
822 if (errmsg != (const char **) NULL
823 && ! valid_bo (value))
824 *errmsg = "invalid conditional option";
825 return insn | ((value & 0x1f) << 21);
828 static long
829 extract_bo (insn, invalid)
830 uint32_t insn;
831 int *invalid;
833 int32_t value;
835 value = (insn >> 21) & 0x1f;
836 if (invalid != (int *) NULL
837 && ! valid_bo (value))
838 *invalid = 1;
839 return value;
842 /* The BO field in a B form instruction when the + or - modifier is
843 used. This is like the BO field, but it must be even. When
844 extracting it, we force it to be even. */
846 static unsigned long
847 insert_boe (insn, value, errmsg)
848 uint32_t insn;
849 int32_t value;
850 const char **errmsg;
852 if (errmsg != (const char **) NULL)
854 if (! valid_bo (value))
855 *errmsg = "invalid conditional option";
856 else if ((value & 1) != 0)
857 *errmsg = "attempt to set y bit when using + or - modifier";
859 return insn | ((value & 0x1f) << 21);
862 static long
863 extract_boe (insn, invalid)
864 uint32_t insn;
865 int *invalid;
867 int32_t value;
869 value = (insn >> 21) & 0x1f;
870 if (invalid != (int *) NULL
871 && ! valid_bo (value))
872 *invalid = 1;
873 return value & 0x1e;
876 /* The DS field in a DS form instruction. This is like D, but the
877 lower two bits are forced to zero. */
879 /*ARGSUSED*/
880 static unsigned long
881 insert_ds (insn, value, errmsg)
882 uint32_t insn;
883 int32_t value;
884 const char **errmsg;
886 return insn | (value & 0xfffc);
889 /*ARGSUSED*/
890 static long
891 extract_ds (insn, invalid)
892 uint32_t insn;
893 int *invalid;
895 if ((insn & 0x8000) != 0)
896 return (insn & 0xfffc) - 0x10000;
897 else
898 return insn & 0xfffc;
901 /* The LI field in an I form instruction. The lower two bits are
902 forced to zero. */
904 /*ARGSUSED*/
905 static unsigned long
906 insert_li (insn, value, errmsg)
907 uint32_t insn;
908 int32_t value;
909 const char **errmsg;
911 return insn | (value & 0x3fffffc);
914 /*ARGSUSED*/
915 static long
916 extract_li (insn, invalid)
917 uint32_t insn;
918 int *invalid;
920 if ((insn & 0x2000000) != 0)
921 return (insn & 0x3fffffc) - 0x4000000;
922 else
923 return insn & 0x3fffffc;
926 /* The MB and ME fields in an M form instruction expressed as a single
927 operand which is itself a bitmask. The extraction function always
928 marks it as invalid, since we never want to recognize an
929 instruction which uses a field of this type. */
931 static unsigned long
932 insert_mbe (insn, value, errmsg)
933 uint32_t insn;
934 int32_t value;
935 const char **errmsg;
937 uint32_t uval;
938 int mb, me;
940 uval = value;
942 if (uval == 0)
944 if (errmsg != (const char **) NULL)
945 *errmsg = "illegal bitmask";
946 return insn;
949 me = 31;
950 while ((uval & 1) == 0)
952 uval >>= 1;
953 --me;
956 mb = me;
957 uval >>= 1;
958 while ((uval & 1) != 0)
960 uval >>= 1;
961 --mb;
964 if (uval != 0)
966 if (errmsg != (const char **) NULL)
967 *errmsg = "illegal bitmask";
970 return insn | (mb << 6) | (me << 1);
973 static long
974 extract_mbe (insn, invalid)
975 uint32_t insn;
976 int *invalid;
978 long ret;
979 int mb, me;
980 int i;
982 if (invalid != (int *) NULL)
983 *invalid = 1;
985 ret = 0;
986 mb = (insn >> 6) & 0x1f;
987 me = (insn >> 1) & 0x1f;
988 for (i = mb; i < me; i++)
989 ret |= 1 << (31 - i);
990 return ret;
993 /* The MB or ME field in an MD or MDS form instruction. The high bit
994 is wrapped to the low end. */
996 /*ARGSUSED*/
997 static unsigned long
998 insert_mb6 (insn, value, errmsg)
999 uint32_t insn;
1000 int32_t value;
1001 const char **errmsg;
1003 return insn | ((value & 0x1f) << 6) | (value & 0x20);
1006 /*ARGSUSED*/
1007 static long
1008 extract_mb6 (insn, invalid)
1009 uint32_t insn;
1010 int *invalid;
1012 return ((insn >> 6) & 0x1f) | (insn & 0x20);
1015 /* The NB field in an X form instruction. The value 32 is stored as
1016 0. */
1018 static unsigned long
1019 insert_nb (insn, value, errmsg)
1020 uint32_t insn;
1021 int32_t value;
1022 const char **errmsg;
1024 if (value < 0 || value > 32)
1025 *errmsg = "value out of range";
1026 if (value == 32)
1027 value = 0;
1028 return insn | ((value & 0x1f) << 11);
1031 /*ARGSUSED*/
1032 static long
1033 extract_nb (insn, invalid)
1034 uint32_t insn;
1035 int *invalid;
1037 long ret;
1039 ret = (insn >> 11) & 0x1f;
1040 if (ret == 0)
1041 ret = 32;
1042 return ret;
1045 /* The NSI field in a D form instruction. This is the same as the SI
1046 field, only negated. The extraction function always marks it as
1047 invalid, since we never want to recognize an instruction which uses
1048 a field of this type. */
1050 /*ARGSUSED*/
1051 static unsigned long
1052 insert_nsi (insn, value, errmsg)
1053 uint32_t insn;
1054 int32_t value;
1055 const char **errmsg;
1057 return insn | ((- value) & 0xffff);
1060 static long
1061 extract_nsi (insn, invalid)
1062 uint32_t insn;
1063 int *invalid;
1065 if (invalid != (int *) NULL)
1066 *invalid = 1;
1067 if ((insn & 0x8000) != 0)
1068 return - ((insn & 0xffff) - 0x10000);
1069 else
1070 return - (insn & 0xffff);
1073 /* The RA field in a D or X form instruction which is an updating
1074 load, which means that the RA field may not be zero and may not
1075 equal the RT field. */
1077 static unsigned long
1078 insert_ral (insn, value, errmsg)
1079 uint32_t insn;
1080 int32_t value;
1081 const char **errmsg;
1083 if (value == 0
1084 || value == ((insn >> 21) & 0x1f))
1085 *errmsg = "invalid register operand when updating";
1086 return insn | ((value & 0x1f) << 16);
1089 /* The RA field in an lmw instruction, which has special value
1090 restrictions. */
1092 static unsigned long
1093 insert_ram (insn, value, errmsg)
1094 uint32_t insn;
1095 int32_t value;
1096 const char **errmsg;
1098 if (value >= ((insn >> 21) & 0x1f))
1099 *errmsg = "index register in load range";
1100 return insn | ((value & 0x1f) << 16);
1103 /* The RA field in a D or X form instruction which is an updating
1104 store or an updating floating point load, which means that the RA
1105 field may not be zero. */
1107 static unsigned long
1108 insert_ras (insn, value, errmsg)
1109 uint32_t insn;
1110 int32_t value;
1111 const char **errmsg;
1113 if (value == 0)
1114 *errmsg = "invalid register operand when updating";
1115 return insn | ((value & 0x1f) << 16);
1118 /* The RB field in an X form instruction when it must be the same as
1119 the RS field in the instruction. This is used for extended
1120 mnemonics like mr. This operand is marked FAKE. The insertion
1121 function just copies the BT field into the BA field, and the
1122 extraction function just checks that the fields are the same. */
1124 /*ARGSUSED*/
1125 static unsigned long
1126 insert_rbs (insn, value, errmsg)
1127 uint32_t insn;
1128 int32_t value;
1129 const char **errmsg;
1131 return insn | (((insn >> 21) & 0x1f) << 11);
1134 static long
1135 extract_rbs (insn, invalid)
1136 uint32_t insn;
1137 int *invalid;
1139 if (invalid != (int *) NULL
1140 && ((insn >> 21) & 0x1f) != ((insn >> 11) & 0x1f))
1141 *invalid = 1;
1142 return 0;
1145 /* The SH field in an MD form instruction. This is split. */
1147 /*ARGSUSED*/
1148 static unsigned long
1149 insert_sh6 (insn, value, errmsg)
1150 uint32_t insn;
1151 int32_t value;
1152 const char **errmsg;
1154 return insn | ((value & 0x1f) << 11) | ((value & 0x20) >> 4);
1157 /*ARGSUSED*/
1158 static long
1159 extract_sh6 (insn, invalid)
1160 uint32_t insn;
1161 int *invalid;
1163 return ((insn >> 11) & 0x1f) | ((insn << 4) & 0x20);
1166 /* The SPR field in an XFX form instruction. This is flipped--the
1167 lower 5 bits are stored in the upper 5 and vice- versa. */
1169 static unsigned long
1170 insert_spr (insn, value, errmsg)
1171 uint32_t insn;
1172 int32_t value;
1173 const char **errmsg;
1175 return insn | ((value & 0x1f) << 16) | ((value & 0x3e0) << 6);
1178 static long
1179 extract_spr (insn, invalid)
1180 uint32_t insn;
1181 int *invalid;
1183 return ((insn >> 16) & 0x1f) | ((insn >> 6) & 0x3e0);
1186 /* The TBR field in an XFX instruction. This is just like SPR, but it
1187 is optional. When TBR is omitted, it must be inserted as 268 (the
1188 magic number of the TB register). These functions treat 0
1189 (indicating an omitted optional operand) as 268. This means that
1190 ``mftb 4,0'' is not handled correctly. This does not matter very
1191 much, since the architecture manual does not define mftb as
1192 accepting any values other than 268 or 269. */
1194 #define TB (268)
1196 static unsigned long
1197 insert_tbr (insn, value, errmsg)
1198 uint32_t insn;
1199 int32_t value;
1200 const char **errmsg;
1202 if (value == 0)
1203 value = TB;
1204 return insn | ((value & 0x1f) << 16) | ((value & 0x3e0) << 6);
1207 static long
1208 extract_tbr (insn, invalid)
1209 uint32_t insn;
1210 int *invalid;
1212 long ret;
1214 ret = ((insn >> 16) & 0x1f) | ((insn >> 6) & 0x3e0);
1215 if (ret == TB)
1216 ret = 0;
1217 return ret;
1220 /* Macros used to form opcodes. */
1222 /* The main opcode. */
1223 #define OP(x) (((x) & 0x3f) << 26)
1224 #define OP_MASK OP (0x3f)
1226 /* The main opcode combined with a trap code in the TO field of a D
1227 form instruction. Used for extended mnemonics for the trap
1228 instructions. */
1229 #define OPTO(x,to) (OP (x) | (((to) & 0x1f) << 21))
1230 #define OPTO_MASK (OP_MASK | TO_MASK)
1232 /* The main opcode combined with a comparison size bit in the L field
1233 of a D form or X form instruction. Used for extended mnemonics for
1234 the comparison instructions. */
1235 #define OPL(x,l) (OP (x) | (((l) & 1) << 21))
1236 #define OPL_MASK OPL (0x3f,1)
1238 /* An A form instruction. */
1239 #define A(op, xop, rc) (OP (op) | (((xop) & 0x1f) << 1) | ((rc) & 1))
1240 #define A_MASK A (0x3f, 0x1f, 1)
1242 /* An A_MASK with the FRB field fixed. */
1243 #define AFRB_MASK (A_MASK | FRB_MASK)
1245 /* An A_MASK with the FRC field fixed. */
1246 #define AFRC_MASK (A_MASK | FRC_MASK)
1248 /* An A_MASK with the FRA and FRC fields fixed. */
1249 #define AFRAFRC_MASK (A_MASK | FRA_MASK | FRC_MASK)
1251 /* A B form instruction. */
1252 #define B(op, aa, lk) (OP (op) | (((aa) & 1) << 1) | ((lk) & 1))
1253 #define B_MASK B (0x3f, 1, 1)
1255 /* A B form instruction setting the BO field. */
1256 #define BBO(op, bo, aa, lk) (B ((op), (aa), (lk)) | (((bo) & 0x1f) << 21))
1257 #define BBO_MASK BBO (0x3f, 0x1f, 1, 1)
1259 /* A BBO_MASK with the y bit of the BO field removed. This permits
1260 matching a conditional branch regardless of the setting of the y
1261 bit. */
1262 #define Y_MASK (1 << 21)
1263 #define BBOY_MASK (BBO_MASK &~ Y_MASK)
1265 /* A B form instruction setting the BO field and the condition bits of
1266 the BI field. */
1267 #define BBOCB(op, bo, cb, aa, lk) \
1268 (BBO ((op), (bo), (aa), (lk)) | (((cb) & 0x3) << 16))
1269 #define BBOCB_MASK BBOCB (0x3f, 0x1f, 0x3, 1, 1)
1271 /* A BBOCB_MASK with the y bit of the BO field removed. */
1272 #define BBOYCB_MASK (BBOCB_MASK &~ Y_MASK)
1274 /* A BBOYCB_MASK in which the BI field is fixed. */
1275 #define BBOYBI_MASK (BBOYCB_MASK | BI_MASK)
1277 /* The main opcode mask with the RA field clear. */
1278 #define DRA_MASK (OP_MASK | RA_MASK)
1280 /* A DS form instruction. */
1281 #define DSO(op, xop) (OP (op) | ((xop) & 0x3))
1282 #define DS_MASK DSO (0x3f, 3)
1284 /* An M form instruction. */
1285 #define M(op, rc) (OP (op) | ((rc) & 1))
1286 #define M_MASK M (0x3f, 1)
1288 /* An M form instruction with the ME field specified. */
1289 #define MME(op, me, rc) (M ((op), (rc)) | (((me) & 0x1f) << 1))
1291 /* An M_MASK with the MB and ME fields fixed. */
1292 #define MMBME_MASK (M_MASK | MB_MASK | ME_MASK)
1294 /* An M_MASK with the SH and ME fields fixed. */
1295 #define MSHME_MASK (M_MASK | SH_MASK | ME_MASK)
1297 /* An MD form instruction. */
1298 #define MD(op, xop, rc) (OP (op) | (((xop) & 0x7) << 2) | ((rc) & 1))
1299 #define MD_MASK MD (0x3f, 0x7, 1)
1301 /* An MD_MASK with the MB field fixed. */
1302 #define MDMB_MASK (MD_MASK | MB6_MASK)
1304 /* An MD_MASK with the SH field fixed. */
1305 #define MDSH_MASK (MD_MASK | SH6_MASK)
1307 /* An MDS form instruction. */
1308 #define MDS(op, xop, rc) (OP (op) | (((xop) & 0xf) << 1) | ((rc) & 1))
1309 #define MDS_MASK MDS (0x3f, 0xf, 1)
1311 /* An MDS_MASK with the MB field fixed. */
1312 #define MDSMB_MASK (MDS_MASK | MB6_MASK)
1314 /* An SC form instruction. */
1315 #define SC(op, sa, lk) (OP (op) | (((sa) & 1) << 1) | ((lk) & 1))
1316 #define SC_MASK (OP_MASK | (0x3ff << 16) | (1 << 1) | 1)
1318 /* An X form instruction. */
1319 #define X(op, xop) (OP (op) | (((xop) & 0x3ff) << 1))
1321 /* An X form instruction with the RC bit specified. */
1322 #define XRC(op, xop, rc) (X ((op), (xop)) | ((rc) & 1))
1324 /* The mask for an X form instruction. */
1325 #define X_MASK XRC (0x3f, 0x3ff, 1)
1327 /* An X_MASK with the RA field fixed. */
1328 #define XRA_MASK (X_MASK | RA_MASK)
1330 /* An X_MASK with the RB field fixed. */
1331 #define XRB_MASK (X_MASK | RB_MASK)
1333 /* An X_MASK with the RT field fixed. */
1334 #define XRT_MASK (X_MASK | RT_MASK)
1336 /* An X_MASK with the RA and RB fields fixed. */
1337 #define XRARB_MASK (X_MASK | RA_MASK | RB_MASK)
1339 /* An X_MASK with the RT and RA fields fixed. */
1340 #define XRTRA_MASK (X_MASK | RT_MASK | RA_MASK)
1342 /* An X form comparison instruction. */
1343 #define XCMPL(op, xop, l) (X ((op), (xop)) | (((l) & 1) << 21))
1345 /* The mask for an X form comparison instruction. */
1346 #define XCMP_MASK (X_MASK | (1 << 22))
1348 /* The mask for an X form comparison instruction with the L field
1349 fixed. */
1350 #define XCMPL_MASK (XCMP_MASK | (1 << 21))
1352 /* An X form trap instruction with the TO field specified. */
1353 #define XTO(op, xop, to) (X ((op), (xop)) | (((to) & 0x1f) << 21))
1354 #define XTO_MASK (X_MASK | TO_MASK)
1356 /* An XFL form instruction. */
1357 #define XFL(op, xop, rc) (OP (op) | (((xop) & 0x3ff) << 1) | ((rc) & 1))
1358 #define XFL_MASK (XFL (0x3f, 0x3ff, 1) | (1 << 25) | (1 << 16))
1360 /* An XL form instruction with the LK field set to 0. */
1361 #define XL(op, xop) (OP (op) | (((xop) & 0x3ff) << 1))
1363 /* An XL form instruction which uses the LK field. */
1364 #define XLLK(op, xop, lk) (XL ((op), (xop)) | ((lk) & 1))
1366 /* The mask for an XL form instruction. */
1367 #define XL_MASK XLLK (0x3f, 0x3ff, 1)
1369 /* An XL form instruction which explicitly sets the BO field. */
1370 #define XLO(op, bo, xop, lk) \
1371 (XLLK ((op), (xop), (lk)) | (((bo) & 0x1f) << 21))
1372 #define XLO_MASK (XL_MASK | BO_MASK)
1374 /* An XL form instruction which explicitly sets the y bit of the BO
1375 field. */
1376 #define XLYLK(op, xop, y, lk) (XLLK ((op), (xop), (lk)) | (((y) & 1) << 21))
1377 #define XLYLK_MASK (XL_MASK | Y_MASK)
1379 /* An XL form instruction which sets the BO field and the condition
1380 bits of the BI field. */
1381 #define XLOCB(op, bo, cb, xop, lk) \
1382 (XLO ((op), (bo), (xop), (lk)) | (((cb) & 3) << 16))
1383 #define XLOCB_MASK XLOCB (0x3f, 0x1f, 0x3, 0x3ff, 1)
1385 /* An XL_MASK or XLYLK_MASK or XLOCB_MASK with the BB field fixed. */
1386 #define XLBB_MASK (XL_MASK | BB_MASK)
1387 #define XLYBB_MASK (XLYLK_MASK | BB_MASK)
1388 #define XLBOCBBB_MASK (XLOCB_MASK | BB_MASK)
1390 /* An XL_MASK with the BO and BB fields fixed. */
1391 #define XLBOBB_MASK (XL_MASK | BO_MASK | BB_MASK)
1393 /* An XL_MASK with the BO, BI and BB fields fixed. */
1394 #define XLBOBIBB_MASK (XL_MASK | BO_MASK | BI_MASK | BB_MASK)
1396 /* An XO form instruction. */
1397 #define XO(op, xop, oe, rc) \
1398 (OP (op) | (((xop) & 0x1ff) << 1) | (((oe) & 1) << 10) | ((rc) & 1))
1399 #define XO_MASK XO (0x3f, 0x1ff, 1, 1)
1401 /* An XO_MASK with the RB field fixed. */
1402 #define XORB_MASK (XO_MASK | RB_MASK)
1404 /* An XS form instruction. */
1405 #define XS(op, xop, rc) (OP (op) | (((xop) & 0x1ff) << 2) | ((rc) & 1))
1406 #define XS_MASK XS (0x3f, 0x1ff, 1)
1408 /* A mask for the FXM version of an XFX form instruction. */
1409 #define XFXFXM_MASK (X_MASK | (1 << 20) | (1 << 11))
1411 /* An XFX form instruction with the FXM field filled in. */
1412 #define XFXM(op, xop, fxm) \
1413 (X ((op), (xop)) | (((fxm) & 0xff) << 12))
1415 /* An XFX form instruction with the SPR field filled in. */
1416 #define XSPR(op, xop, spr) \
1417 (X ((op), (xop)) | (((spr) & 0x1f) << 16) | (((spr) & 0x3e0) << 6))
1418 #define XSPR_MASK (X_MASK | SPR_MASK)
1420 /* An XFX form instruction with the SPR field filled in except for the
1421 SPRBAT field. */
1422 #define XSPRBAT_MASK (XSPR_MASK &~ SPRBAT_MASK)
1424 /* An XFX form instruction with the SPR field filled in except for the
1425 SPRG field. */
1426 #define XSPRG_MASK (XSPR_MASK &~ SPRG_MASK)
1428 /* The BO encodings used in extended conditional branch mnemonics. */
1429 #define BODNZF (0x0)
1430 #define BODNZFP (0x1)
1431 #define BODZF (0x2)
1432 #define BODZFP (0x3)
1433 #define BOF (0x4)
1434 #define BOFP (0x5)
1435 #define BODNZT (0x8)
1436 #define BODNZTP (0x9)
1437 #define BODZT (0xa)
1438 #define BODZTP (0xb)
1439 #define BOT (0xc)
1440 #define BOTP (0xd)
1441 #define BODNZ (0x10)
1442 #define BODNZP (0x11)
1443 #define BODZ (0x12)
1444 #define BODZP (0x13)
1445 #define BOU (0x14)
1447 /* The BI condition bit encodings used in extended conditional branch
1448 mnemonics. */
1449 #define CBLT (0)
1450 #define CBGT (1)
1451 #define CBEQ (2)
1452 #define CBSO (3)
1454 /* The TO encodings used in extended trap mnemonics. */
1455 #define TOLGT (0x1)
1456 #define TOLLT (0x2)
1457 #define TOEQ (0x4)
1458 #define TOLGE (0x5)
1459 #define TOLNL (0x5)
1460 #define TOLLE (0x6)
1461 #define TOLNG (0x6)
1462 #define TOGT (0x8)
1463 #define TOGE (0xc)
1464 #define TONL (0xc)
1465 #define TOLT (0x10)
1466 #define TOLE (0x14)
1467 #define TONG (0x14)
1468 #define TONE (0x18)
1469 #define TOU (0x1f)
1471 /* Smaller names for the flags so each entry in the opcodes table will
1472 fit on a single line. */
1473 #undef PPC
1474 #define PPC PPC_OPCODE_PPC
1475 #define POWER PPC_OPCODE_POWER
1476 #define POWER2 PPC_OPCODE_POWER2
1477 #define B32 PPC_OPCODE_32
1478 #define B64 PPC_OPCODE_64
1479 #define M601 PPC_OPCODE_601
1481 /* The opcode table.
1483 The format of the opcode table is:
1485 NAME OPCODE MASK FLAGS { OPERANDS }
1487 NAME is the name of the instruction.
1488 OPCODE is the instruction opcode.
1489 MASK is the opcode mask; this is used to tell the disassembler
1490 which bits in the actual opcode must match OPCODE.
1491 FLAGS are flags indicated what processors support the instruction.
1492 OPERANDS is the list of operands.
1494 The disassembler reads the table in order and prints the first
1495 instruction which matches, so this table is sorted to put more
1496 specific instructions before more general instructions. It is also
1497 sorted by major opcode. */
1499 const struct powerpc_opcode powerpc_opcodes[] = {
1500 { "tdlgti", OPTO(2,TOLGT), OPTO_MASK, PPC|B64, { RA, SI } },
1501 { "tdllti", OPTO(2,TOLLT), OPTO_MASK, PPC|B64, { RA, SI } },
1502 { "tdeqi", OPTO(2,TOEQ), OPTO_MASK, PPC|B64, { RA, SI } },
1503 { "tdlgei", OPTO(2,TOLGE), OPTO_MASK, PPC|B64, { RA, SI } },
1504 { "tdlnli", OPTO(2,TOLNL), OPTO_MASK, PPC|B64, { RA, SI } },
1505 { "tdllei", OPTO(2,TOLLE), OPTO_MASK, PPC|B64, { RA, SI } },
1506 { "tdlngi", OPTO(2,TOLNG), OPTO_MASK, PPC|B64, { RA, SI } },
1507 { "tdgti", OPTO(2,TOGT), OPTO_MASK, PPC|B64, { RA, SI } },
1508 { "tdgei", OPTO(2,TOGE), OPTO_MASK, PPC|B64, { RA, SI } },
1509 { "tdnli", OPTO(2,TONL), OPTO_MASK, PPC|B64, { RA, SI } },
1510 { "tdlti", OPTO(2,TOLT), OPTO_MASK, PPC|B64, { RA, SI } },
1511 { "tdlei", OPTO(2,TOLE), OPTO_MASK, PPC|B64, { RA, SI } },
1512 { "tdngi", OPTO(2,TONG), OPTO_MASK, PPC|B64, { RA, SI } },
1513 { "tdnei", OPTO(2,TONE), OPTO_MASK, PPC|B64, { RA, SI } },
1514 { "tdi", OP(2), OP_MASK, PPC|B64, { TO, RA, SI } },
1516 { "twlgti", OPTO(3,TOLGT), OPTO_MASK, PPC, { RA, SI } },
1517 { "tlgti", OPTO(3,TOLGT), OPTO_MASK, POWER, { RA, SI } },
1518 { "twllti", OPTO(3,TOLLT), OPTO_MASK, PPC, { RA, SI } },
1519 { "tllti", OPTO(3,TOLLT), OPTO_MASK, POWER, { RA, SI } },
1520 { "tweqi", OPTO(3,TOEQ), OPTO_MASK, PPC, { RA, SI } },
1521 { "teqi", OPTO(3,TOEQ), OPTO_MASK, POWER, { RA, SI } },
1522 { "twlgei", OPTO(3,TOLGE), OPTO_MASK, PPC, { RA, SI } },
1523 { "tlgei", OPTO(3,TOLGE), OPTO_MASK, POWER, { RA, SI } },
1524 { "twlnli", OPTO(3,TOLNL), OPTO_MASK, PPC, { RA, SI } },
1525 { "tlnli", OPTO(3,TOLNL), OPTO_MASK, POWER, { RA, SI } },
1526 { "twllei", OPTO(3,TOLLE), OPTO_MASK, PPC, { RA, SI } },
1527 { "tllei", OPTO(3,TOLLE), OPTO_MASK, POWER, { RA, SI } },
1528 { "twlngi", OPTO(3,TOLNG), OPTO_MASK, PPC, { RA, SI } },
1529 { "tlngi", OPTO(3,TOLNG), OPTO_MASK, POWER, { RA, SI } },
1530 { "twgti", OPTO(3,TOGT), OPTO_MASK, PPC, { RA, SI } },
1531 { "tgti", OPTO(3,TOGT), OPTO_MASK, POWER, { RA, SI } },
1532 { "twgei", OPTO(3,TOGE), OPTO_MASK, PPC, { RA, SI } },
1533 { "tgei", OPTO(3,TOGE), OPTO_MASK, POWER, { RA, SI } },
1534 { "twnli", OPTO(3,TONL), OPTO_MASK, PPC, { RA, SI } },
1535 { "tnli", OPTO(3,TONL), OPTO_MASK, POWER, { RA, SI } },
1536 { "twlti", OPTO(3,TOLT), OPTO_MASK, PPC, { RA, SI } },
1537 { "tlti", OPTO(3,TOLT), OPTO_MASK, POWER, { RA, SI } },
1538 { "twlei", OPTO(3,TOLE), OPTO_MASK, PPC, { RA, SI } },
1539 { "tlei", OPTO(3,TOLE), OPTO_MASK, POWER, { RA, SI } },
1540 { "twngi", OPTO(3,TONG), OPTO_MASK, PPC, { RA, SI } },
1541 { "tngi", OPTO(3,TONG), OPTO_MASK, POWER, { RA, SI } },
1542 { "twnei", OPTO(3,TONE), OPTO_MASK, PPC, { RA, SI } },
1543 { "tnei", OPTO(3,TONE), OPTO_MASK, POWER, { RA, SI } },
1544 { "twi", OP(3), OP_MASK, PPC, { TO, RA, SI } },
1545 { "ti", OP(3), OP_MASK, POWER, { TO, RA, SI } },
1547 { "mulli", OP(7), OP_MASK, PPC, { RT, RA, SI } },
1548 { "muli", OP(7), OP_MASK, POWER, { RT, RA, SI } },
1550 { "subfic", OP(8), OP_MASK, PPC, { RT, RA, SI } },
1551 { "sfi", OP(8), OP_MASK, POWER, { RT, RA, SI } },
1553 { "dozi", OP(9), OP_MASK, POWER|M601, { RT, RA, SI } },
1555 { "cmplwi", OPL(10,0), OPL_MASK, PPC, { OBF, RA, UI } },
1556 { "cmpldi", OPL(10,1), OPL_MASK, PPC|B64, { OBF, RA, UI } },
1557 { "cmpli", OP(10), OP_MASK, PPC, { BF, L, RA, UI } },
1558 { "cmpli", OP(10), OP_MASK, POWER, { BF, RA, UI } },
1560 { "cmpwi", OPL(11,0), OPL_MASK, PPC, { OBF, RA, SI } },
1561 { "cmpdi", OPL(11,1), OPL_MASK, PPC|B64, { OBF, RA, SI } },
1562 { "cmpi", OP(11), OP_MASK, PPC, { BF, L, RA, SI } },
1563 { "cmpi", OP(11), OP_MASK, POWER, { BF, RA, SI } },
1565 { "addic", OP(12), OP_MASK, PPC, { RT, RA, SI } },
1566 { "ai", OP(12), OP_MASK, POWER, { RT, RA, SI } },
1567 { "subic", OP(12), OP_MASK, PPC, { RT, RA, NSI } },
1569 { "addic.", OP(13), OP_MASK, PPC, { RT, RA, SI } },
1570 { "ai.", OP(13), OP_MASK, POWER, { RT, RA, SI } },
1571 { "subic.", OP(13), OP_MASK, PPC, { RT, RA, NSI } },
1573 { "li", OP(14), DRA_MASK, PPC, { RT, SI } },
1574 { "lil", OP(14), DRA_MASK, POWER, { RT, SI } },
1575 { "addi", OP(14), OP_MASK, PPC, { RT, RA, SI } },
1576 { "cal", OP(14), OP_MASK, POWER, { RT, D, RA } },
1577 { "subi", OP(14), OP_MASK, PPC, { RT, RA, NSI } },
1578 { "la", OP(14), OP_MASK, PPC, { RT, D, RA } },
1580 { "lis", OP(15), DRA_MASK, PPC, { RT, SISIGNOPT } },
1581 { "liu", OP(15), DRA_MASK, POWER, { RT, SISIGNOPT } },
1582 { "addis", OP(15), OP_MASK, PPC, { RT,RA,SISIGNOPT } },
1583 { "cau", OP(15), OP_MASK, POWER, { RT,RA,SISIGNOPT } },
1584 { "subis", OP(15), OP_MASK, PPC, { RT, RA, NSI } },
1586 { "bdnz-", BBO(16,BODNZ,0,0), BBOYBI_MASK, PPC, { BDM } },
1587 { "bdnz+", BBO(16,BODNZ,0,0), BBOYBI_MASK, PPC, { BDP } },
1588 { "bdnz", BBO(16,BODNZ,0,0), BBOYBI_MASK, PPC, { BD } },
1589 { "bdn", BBO(16,BODNZ,0,0), BBOYBI_MASK, POWER, { BD } },
1590 { "bdnzl-", BBO(16,BODNZ,0,1), BBOYBI_MASK, PPC, { BDM } },
1591 { "bdnzl+", BBO(16,BODNZ,0,1), BBOYBI_MASK, PPC, { BDP } },
1592 { "bdnzl", BBO(16,BODNZ,0,1), BBOYBI_MASK, PPC, { BD } },
1593 { "bdnl", BBO(16,BODNZ,0,1), BBOYBI_MASK, POWER, { BD } },
1594 { "bdnza-", BBO(16,BODNZ,1,0), BBOYBI_MASK, PPC, { BDMA } },
1595 { "bdnza+", BBO(16,BODNZ,1,0), BBOYBI_MASK, PPC, { BDPA } },
1596 { "bdnza", BBO(16,BODNZ,1,0), BBOYBI_MASK, PPC, { BDA } },
1597 { "bdna", BBO(16,BODNZ,1,0), BBOYBI_MASK, POWER, { BDA } },
1598 { "bdnzla-", BBO(16,BODNZ,1,1), BBOYBI_MASK, PPC, { BDMA } },
1599 { "bdnzla+", BBO(16,BODNZ,1,1), BBOYBI_MASK, PPC, { BDPA } },
1600 { "bdnzla", BBO(16,BODNZ,1,1), BBOYBI_MASK, PPC, { BDA } },
1601 { "bdnla", BBO(16,BODNZ,1,1), BBOYBI_MASK, POWER, { BDA } },
1602 { "bdz-", BBO(16,BODZ,0,0), BBOYBI_MASK, PPC, { BDM } },
1603 { "bdz+", BBO(16,BODZ,0,0), BBOYBI_MASK, PPC, { BDP } },
1604 { "bdz", BBO(16,BODZ,0,0), BBOYBI_MASK, PPC|POWER, { BD } },
1605 { "bdzl-", BBO(16,BODZ,0,1), BBOYBI_MASK, PPC, { BDM } },
1606 { "bdzl+", BBO(16,BODZ,0,1), BBOYBI_MASK, PPC, { BDP } },
1607 { "bdzl", BBO(16,BODZ,0,1), BBOYBI_MASK, PPC|POWER, { BD } },
1608 { "bdza-", BBO(16,BODZ,1,0), BBOYBI_MASK, PPC, { BDMA } },
1609 { "bdza+", BBO(16,BODZ,1,0), BBOYBI_MASK, PPC, { BDPA } },
1610 { "bdza", BBO(16,BODZ,1,0), BBOYBI_MASK, PPC|POWER, { BDA } },
1611 { "bdzla-", BBO(16,BODZ,1,1), BBOYBI_MASK, PPC, { BDMA } },
1612 { "bdzla+", BBO(16,BODZ,1,1), BBOYBI_MASK, PPC, { BDPA } },
1613 { "bdzla", BBO(16,BODZ,1,1), BBOYBI_MASK, PPC|POWER, { BDA } },
1614 { "blt-", BBOCB(16,BOT,CBLT,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1615 { "blt+", BBOCB(16,BOT,CBLT,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1616 { "blt", BBOCB(16,BOT,CBLT,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1617 { "bltl-", BBOCB(16,BOT,CBLT,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1618 { "bltl+", BBOCB(16,BOT,CBLT,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1619 { "bltl", BBOCB(16,BOT,CBLT,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1620 { "blta-", BBOCB(16,BOT,CBLT,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1621 { "blta+", BBOCB(16,BOT,CBLT,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1622 { "blta", BBOCB(16,BOT,CBLT,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1623 { "bltla-", BBOCB(16,BOT,CBLT,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1624 { "bltla+", BBOCB(16,BOT,CBLT,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1625 { "bltla", BBOCB(16,BOT,CBLT,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1626 { "bgt-", BBOCB(16,BOT,CBGT,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1627 { "bgt+", BBOCB(16,BOT,CBGT,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1628 { "bgt", BBOCB(16,BOT,CBGT,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1629 { "bgtl-", BBOCB(16,BOT,CBGT,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1630 { "bgtl+", BBOCB(16,BOT,CBGT,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1631 { "bgtl", BBOCB(16,BOT,CBGT,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1632 { "bgta-", BBOCB(16,BOT,CBGT,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1633 { "bgta+", BBOCB(16,BOT,CBGT,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1634 { "bgta", BBOCB(16,BOT,CBGT,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1635 { "bgtla-", BBOCB(16,BOT,CBGT,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1636 { "bgtla+", BBOCB(16,BOT,CBGT,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1637 { "bgtla", BBOCB(16,BOT,CBGT,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1638 { "beq-", BBOCB(16,BOT,CBEQ,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1639 { "beq+", BBOCB(16,BOT,CBEQ,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1640 { "beq", BBOCB(16,BOT,CBEQ,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1641 { "beql-", BBOCB(16,BOT,CBEQ,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1642 { "beql+", BBOCB(16,BOT,CBEQ,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1643 { "beql", BBOCB(16,BOT,CBEQ,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1644 { "beqa-", BBOCB(16,BOT,CBEQ,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1645 { "beqa+", BBOCB(16,BOT,CBEQ,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1646 { "beqa", BBOCB(16,BOT,CBEQ,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1647 { "beqla-", BBOCB(16,BOT,CBEQ,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1648 { "beqla+", BBOCB(16,BOT,CBEQ,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1649 { "beqla", BBOCB(16,BOT,CBEQ,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1650 { "bso-", BBOCB(16,BOT,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1651 { "bso+", BBOCB(16,BOT,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1652 { "bso", BBOCB(16,BOT,CBSO,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1653 { "bsol-", BBOCB(16,BOT,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1654 { "bsol+", BBOCB(16,BOT,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1655 { "bsol", BBOCB(16,BOT,CBSO,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1656 { "bsoa-", BBOCB(16,BOT,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1657 { "bsoa+", BBOCB(16,BOT,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1658 { "bsoa", BBOCB(16,BOT,CBSO,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1659 { "bsola-", BBOCB(16,BOT,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1660 { "bsola+", BBOCB(16,BOT,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1661 { "bsola", BBOCB(16,BOT,CBSO,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1662 { "bun-", BBOCB(16,BOT,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1663 { "bun+", BBOCB(16,BOT,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1664 { "bun", BBOCB(16,BOT,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BD } },
1665 { "bunl-", BBOCB(16,BOT,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1666 { "bunl+", BBOCB(16,BOT,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1667 { "bunl", BBOCB(16,BOT,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BD } },
1668 { "buna-", BBOCB(16,BOT,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1669 { "buna+", BBOCB(16,BOT,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1670 { "buna", BBOCB(16,BOT,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDA } },
1671 { "bunla-", BBOCB(16,BOT,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1672 { "bunla+", BBOCB(16,BOT,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1673 { "bunla", BBOCB(16,BOT,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDA } },
1674 { "bge-", BBOCB(16,BOF,CBLT,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1675 { "bge+", BBOCB(16,BOF,CBLT,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1676 { "bge", BBOCB(16,BOF,CBLT,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1677 { "bgel-", BBOCB(16,BOF,CBLT,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1678 { "bgel+", BBOCB(16,BOF,CBLT,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1679 { "bgel", BBOCB(16,BOF,CBLT,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1680 { "bgea-", BBOCB(16,BOF,CBLT,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1681 { "bgea+", BBOCB(16,BOF,CBLT,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1682 { "bgea", BBOCB(16,BOF,CBLT,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1683 { "bgela-", BBOCB(16,BOF,CBLT,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1684 { "bgela+", BBOCB(16,BOF,CBLT,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1685 { "bgela", BBOCB(16,BOF,CBLT,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1686 { "bnl-", BBOCB(16,BOF,CBLT,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1687 { "bnl+", BBOCB(16,BOF,CBLT,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1688 { "bnl", BBOCB(16,BOF,CBLT,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1689 { "bnll-", BBOCB(16,BOF,CBLT,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1690 { "bnll+", BBOCB(16,BOF,CBLT,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1691 { "bnll", BBOCB(16,BOF,CBLT,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1692 { "bnla-", BBOCB(16,BOF,CBLT,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1693 { "bnla+", BBOCB(16,BOF,CBLT,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1694 { "bnla", BBOCB(16,BOF,CBLT,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1695 { "bnlla-", BBOCB(16,BOF,CBLT,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1696 { "bnlla+", BBOCB(16,BOF,CBLT,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1697 { "bnlla", BBOCB(16,BOF,CBLT,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1698 { "ble-", BBOCB(16,BOF,CBGT,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1699 { "ble+", BBOCB(16,BOF,CBGT,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1700 { "ble", BBOCB(16,BOF,CBGT,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1701 { "blel-", BBOCB(16,BOF,CBGT,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1702 { "blel+", BBOCB(16,BOF,CBGT,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1703 { "blel", BBOCB(16,BOF,CBGT,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1704 { "blea-", BBOCB(16,BOF,CBGT,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1705 { "blea+", BBOCB(16,BOF,CBGT,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1706 { "blea", BBOCB(16,BOF,CBGT,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1707 { "blela-", BBOCB(16,BOF,CBGT,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1708 { "blela+", BBOCB(16,BOF,CBGT,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1709 { "blela", BBOCB(16,BOF,CBGT,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1710 { "bng-", BBOCB(16,BOF,CBGT,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1711 { "bng+", BBOCB(16,BOF,CBGT,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1712 { "bng", BBOCB(16,BOF,CBGT,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1713 { "bngl-", BBOCB(16,BOF,CBGT,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1714 { "bngl+", BBOCB(16,BOF,CBGT,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1715 { "bngl", BBOCB(16,BOF,CBGT,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1716 { "bnga-", BBOCB(16,BOF,CBGT,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1717 { "bnga+", BBOCB(16,BOF,CBGT,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1718 { "bnga", BBOCB(16,BOF,CBGT,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1719 { "bngla-", BBOCB(16,BOF,CBGT,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1720 { "bngla+", BBOCB(16,BOF,CBGT,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1721 { "bngla", BBOCB(16,BOF,CBGT,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1722 { "bne-", BBOCB(16,BOF,CBEQ,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1723 { "bne+", BBOCB(16,BOF,CBEQ,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1724 { "bne", BBOCB(16,BOF,CBEQ,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1725 { "bnel-", BBOCB(16,BOF,CBEQ,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1726 { "bnel+", BBOCB(16,BOF,CBEQ,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1727 { "bnel", BBOCB(16,BOF,CBEQ,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1728 { "bnea-", BBOCB(16,BOF,CBEQ,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1729 { "bnea+", BBOCB(16,BOF,CBEQ,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1730 { "bnea", BBOCB(16,BOF,CBEQ,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1731 { "bnela-", BBOCB(16,BOF,CBEQ,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1732 { "bnela+", BBOCB(16,BOF,CBEQ,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1733 { "bnela", BBOCB(16,BOF,CBEQ,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1734 { "bns-", BBOCB(16,BOF,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1735 { "bns+", BBOCB(16,BOF,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1736 { "bns", BBOCB(16,BOF,CBSO,0,0), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1737 { "bnsl-", BBOCB(16,BOF,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1738 { "bnsl+", BBOCB(16,BOF,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1739 { "bnsl", BBOCB(16,BOF,CBSO,0,1), BBOYCB_MASK, PPC|POWER, { CR, BD } },
1740 { "bnsa-", BBOCB(16,BOF,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1741 { "bnsa+", BBOCB(16,BOF,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1742 { "bnsa", BBOCB(16,BOF,CBSO,1,0), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1743 { "bnsla-", BBOCB(16,BOF,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1744 { "bnsla+", BBOCB(16,BOF,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1745 { "bnsla", BBOCB(16,BOF,CBSO,1,1), BBOYCB_MASK, PPC|POWER, { CR, BDA } },
1746 { "bnu-", BBOCB(16,BOF,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDM } },
1747 { "bnu+", BBOCB(16,BOF,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BDP } },
1748 { "bnu", BBOCB(16,BOF,CBSO,0,0), BBOYCB_MASK, PPC, { CR, BD } },
1749 { "bnul-", BBOCB(16,BOF,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDM } },
1750 { "bnul+", BBOCB(16,BOF,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BDP } },
1751 { "bnul", BBOCB(16,BOF,CBSO,0,1), BBOYCB_MASK, PPC, { CR, BD } },
1752 { "bnua-", BBOCB(16,BOF,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDMA } },
1753 { "bnua+", BBOCB(16,BOF,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDPA } },
1754 { "bnua", BBOCB(16,BOF,CBSO,1,0), BBOYCB_MASK, PPC, { CR, BDA } },
1755 { "bnula-", BBOCB(16,BOF,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDMA } },
1756 { "bnula+", BBOCB(16,BOF,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDPA } },
1757 { "bnula", BBOCB(16,BOF,CBSO,1,1), BBOYCB_MASK, PPC, { CR, BDA } },
1758 { "bdnzt-", BBO(16,BODNZT,0,0), BBOY_MASK, PPC, { BI, BDM } },
1759 { "bdnzt+", BBO(16,BODNZT,0,0), BBOY_MASK, PPC, { BI, BDP } },
1760 { "bdnzt", BBO(16,BODNZT,0,0), BBOY_MASK, PPC, { BI, BD } },
1761 { "bdnztl-", BBO(16,BODNZT,0,1), BBOY_MASK, PPC, { BI, BDM } },
1762 { "bdnztl+", BBO(16,BODNZT,0,1), BBOY_MASK, PPC, { BI, BDP } },
1763 { "bdnztl", BBO(16,BODNZT,0,1), BBOY_MASK, PPC, { BI, BD } },
1764 { "bdnzta-", BBO(16,BODNZT,1,0), BBOY_MASK, PPC, { BI, BDMA } },
1765 { "bdnzta+", BBO(16,BODNZT,1,0), BBOY_MASK, PPC, { BI, BDPA } },
1766 { "bdnzta", BBO(16,BODNZT,1,0), BBOY_MASK, PPC, { BI, BDA } },
1767 { "bdnztla-",BBO(16,BODNZT,1,1), BBOY_MASK, PPC, { BI, BDMA } },
1768 { "bdnztla+",BBO(16,BODNZT,1,1), BBOY_MASK, PPC, { BI, BDPA } },
1769 { "bdnztla", BBO(16,BODNZT,1,1), BBOY_MASK, PPC, { BI, BDA } },
1770 { "bdnzf-", BBO(16,BODNZF,0,0), BBOY_MASK, PPC, { BI, BDM } },
1771 { "bdnzf+", BBO(16,BODNZF,0,0), BBOY_MASK, PPC, { BI, BDP } },
1772 { "bdnzf", BBO(16,BODNZF,0,0), BBOY_MASK, PPC, { BI, BD } },
1773 { "bdnzfl-", BBO(16,BODNZF,0,1), BBOY_MASK, PPC, { BI, BDM } },
1774 { "bdnzfl+", BBO(16,BODNZF,0,1), BBOY_MASK, PPC, { BI, BDP } },
1775 { "bdnzfl", BBO(16,BODNZF,0,1), BBOY_MASK, PPC, { BI, BD } },
1776 { "bdnzfa-", BBO(16,BODNZF,1,0), BBOY_MASK, PPC, { BI, BDMA } },
1777 { "bdnzfa+", BBO(16,BODNZF,1,0), BBOY_MASK, PPC, { BI, BDPA } },
1778 { "bdnzfa", BBO(16,BODNZF,1,0), BBOY_MASK, PPC, { BI, BDA } },
1779 { "bdnzfla-",BBO(16,BODNZF,1,1), BBOY_MASK, PPC, { BI, BDMA } },
1780 { "bdnzfla+",BBO(16,BODNZF,1,1), BBOY_MASK, PPC, { BI, BDPA } },
1781 { "bdnzfla", BBO(16,BODNZF,1,1), BBOY_MASK, PPC, { BI, BDA } },
1782 { "bt-", BBO(16,BOT,0,0), BBOY_MASK, PPC, { BI, BDM } },
1783 { "bt+", BBO(16,BOT,0,0), BBOY_MASK, PPC, { BI, BDP } },
1784 { "bt", BBO(16,BOT,0,0), BBOY_MASK, PPC, { BI, BD } },
1785 { "bbt", BBO(16,BOT,0,0), BBOY_MASK, POWER, { BI, BD } },
1786 { "btl-", BBO(16,BOT,0,1), BBOY_MASK, PPC, { BI, BDM } },
1787 { "btl+", BBO(16,BOT,0,1), BBOY_MASK, PPC, { BI, BDP } },
1788 { "btl", BBO(16,BOT,0,1), BBOY_MASK, PPC, { BI, BD } },
1789 { "bbtl", BBO(16,BOT,0,1), BBOY_MASK, POWER, { BI, BD } },
1790 { "bta-", BBO(16,BOT,1,0), BBOY_MASK, PPC, { BI, BDMA } },
1791 { "bta+", BBO(16,BOT,1,0), BBOY_MASK, PPC, { BI, BDPA } },
1792 { "bta", BBO(16,BOT,1,0), BBOY_MASK, PPC, { BI, BDA } },
1793 { "bbta", BBO(16,BOT,1,0), BBOY_MASK, POWER, { BI, BDA } },
1794 { "btla-", BBO(16,BOT,1,1), BBOY_MASK, PPC, { BI, BDMA } },
1795 { "btla+", BBO(16,BOT,1,1), BBOY_MASK, PPC, { BI, BDPA } },
1796 { "btla", BBO(16,BOT,1,1), BBOY_MASK, PPC, { BI, BDA } },
1797 { "bbtla", BBO(16,BOT,1,1), BBOY_MASK, POWER, { BI, BDA } },
1798 { "bf-", BBO(16,BOF,0,0), BBOY_MASK, PPC, { BI, BDM } },
1799 { "bf+", BBO(16,BOF,0,0), BBOY_MASK, PPC, { BI, BDP } },
1800 { "bf", BBO(16,BOF,0,0), BBOY_MASK, PPC, { BI, BD } },
1801 { "bbf", BBO(16,BOF,0,0), BBOY_MASK, POWER, { BI, BD } },
1802 { "bfl-", BBO(16,BOF,0,1), BBOY_MASK, PPC, { BI, BDM } },
1803 { "bfl+", BBO(16,BOF,0,1), BBOY_MASK, PPC, { BI, BDP } },
1804 { "bfl", BBO(16,BOF,0,1), BBOY_MASK, PPC, { BI, BD } },
1805 { "bbfl", BBO(16,BOF,0,1), BBOY_MASK, POWER, { BI, BD } },
1806 { "bfa-", BBO(16,BOF,1,0), BBOY_MASK, PPC, { BI, BDMA } },
1807 { "bfa+", BBO(16,BOF,1,0), BBOY_MASK, PPC, { BI, BDPA } },
1808 { "bfa", BBO(16,BOF,1,0), BBOY_MASK, PPC, { BI, BDA } },
1809 { "bbfa", BBO(16,BOF,1,0), BBOY_MASK, POWER, { BI, BDA } },
1810 { "bfla-", BBO(16,BOF,1,1), BBOY_MASK, PPC, { BI, BDMA } },
1811 { "bfla+", BBO(16,BOF,1,1), BBOY_MASK, PPC, { BI, BDPA } },
1812 { "bfla", BBO(16,BOF,1,1), BBOY_MASK, PPC, { BI, BDA } },
1813 { "bbfla", BBO(16,BOF,1,1), BBOY_MASK, POWER, { BI, BDA } },
1814 { "bdzt-", BBO(16,BODZT,0,0), BBOY_MASK, PPC, { BI, BDM } },
1815 { "bdzt+", BBO(16,BODZT,0,0), BBOY_MASK, PPC, { BI, BDP } },
1816 { "bdzt", BBO(16,BODZT,0,0), BBOY_MASK, PPC, { BI, BD } },
1817 { "bdztl-", BBO(16,BODZT,0,1), BBOY_MASK, PPC, { BI, BDM } },
1818 { "bdztl+", BBO(16,BODZT,0,1), BBOY_MASK, PPC, { BI, BDP } },
1819 { "bdztl", BBO(16,BODZT,0,1), BBOY_MASK, PPC, { BI, BD } },
1820 { "bdzta-", BBO(16,BODZT,1,0), BBOY_MASK, PPC, { BI, BDMA } },
1821 { "bdzta+", BBO(16,BODZT,1,0), BBOY_MASK, PPC, { BI, BDPA } },
1822 { "bdzta", BBO(16,BODZT,1,0), BBOY_MASK, PPC, { BI, BDA } },
1823 { "bdztla-", BBO(16,BODZT,1,1), BBOY_MASK, PPC, { BI, BDMA } },
1824 { "bdztla+", BBO(16,BODZT,1,1), BBOY_MASK, PPC, { BI, BDPA } },
1825 { "bdztla", BBO(16,BODZT,1,1), BBOY_MASK, PPC, { BI, BDA } },
1826 { "bdzf-", BBO(16,BODZF,0,0), BBOY_MASK, PPC, { BI, BDM } },
1827 { "bdzf+", BBO(16,BODZF,0,0), BBOY_MASK, PPC, { BI, BDP } },
1828 { "bdzf", BBO(16,BODZF,0,0), BBOY_MASK, PPC, { BI, BD } },
1829 { "bdzfl-", BBO(16,BODZF,0,1), BBOY_MASK, PPC, { BI, BDM } },
1830 { "bdzfl+", BBO(16,BODZF,0,1), BBOY_MASK, PPC, { BI, BDP } },
1831 { "bdzfl", BBO(16,BODZF,0,1), BBOY_MASK, PPC, { BI, BD } },
1832 { "bdzfa-", BBO(16,BODZF,1,0), BBOY_MASK, PPC, { BI, BDMA } },
1833 { "bdzfa+", BBO(16,BODZF,1,0), BBOY_MASK, PPC, { BI, BDPA } },
1834 { "bdzfa", BBO(16,BODZF,1,0), BBOY_MASK, PPC, { BI, BDA } },
1835 { "bdzfla-", BBO(16,BODZF,1,1), BBOY_MASK, PPC, { BI, BDMA } },
1836 { "bdzfla+", BBO(16,BODZF,1,1), BBOY_MASK, PPC, { BI, BDPA } },
1837 { "bdzfla", BBO(16,BODZF,1,1), BBOY_MASK, PPC, { BI, BDA } },
1838 { "bc-", B(16,0,0), B_MASK, PPC, { BOE, BI, BDM } },
1839 { "bc+", B(16,0,0), B_MASK, PPC, { BOE, BI, BDP } },
1840 { "bc", B(16,0,0), B_MASK, PPC|POWER, { BO, BI, BD } },
1841 { "bcl-", B(16,0,1), B_MASK, PPC, { BOE, BI, BDM } },
1842 { "bcl+", B(16,0,1), B_MASK, PPC, { BOE, BI, BDP } },
1843 { "bcl", B(16,0,1), B_MASK, PPC|POWER, { BO, BI, BD } },
1844 { "bca-", B(16,1,0), B_MASK, PPC, { BOE, BI, BDMA } },
1845 { "bca+", B(16,1,0), B_MASK, PPC, { BOE, BI, BDPA } },
1846 { "bca", B(16,1,0), B_MASK, PPC|POWER, { BO, BI, BDA } },
1847 { "bcla-", B(16,1,1), B_MASK, PPC, { BOE, BI, BDMA } },
1848 { "bcla+", B(16,1,1), B_MASK, PPC, { BOE, BI, BDPA } },
1849 { "bcla", B(16,1,1), B_MASK, PPC|POWER, { BO, BI, BDA } },
1851 { "sc", SC(17,1,0), 0xffffffff, PPC, { 0 } },
1852 { "svc", SC(17,0,0), SC_MASK, POWER, { LEV, FL1, FL2 } },
1853 { "svcl", SC(17,0,1), SC_MASK, POWER, { LEV, FL1, FL2 } },
1854 { "svca", SC(17,1,0), SC_MASK, POWER, { SV } },
1855 { "svcla", SC(17,1,1), SC_MASK, POWER, { SV } },
1857 { "b", B(18,0,0), B_MASK, PPC|POWER, { LI } },
1858 { "bl", B(18,0,1), B_MASK, PPC|POWER, { LI } },
1859 { "ba", B(18,1,0), B_MASK, PPC|POWER, { LIA } },
1860 { "bla", B(18,1,1), B_MASK, PPC|POWER, { LIA } },
1862 { "mcrf", XL(19,0), XLBB_MASK|(3<<21)|(3<<16), PPC|POWER, { BF, BFA } },
1864 { "blr", XLO(19,BOU,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1865 { "br", XLO(19,BOU,16,0), XLBOBIBB_MASK, POWER, { 0 } },
1866 { "blrl", XLO(19,BOU,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1867 { "brl", XLO(19,BOU,16,1), XLBOBIBB_MASK, POWER, { 0 } },
1868 { "bdnzlr", XLO(19,BODNZ,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1869 { "bdnzlr-", XLO(19,BODNZ,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1870 { "bdnzlr+", XLO(19,BODNZP,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1871 { "bdnzlrl", XLO(19,BODNZ,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1872 { "bdnzlrl-",XLO(19,BODNZ,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1873 { "bdnzlrl+",XLO(19,BODNZP,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1874 { "bdzlr", XLO(19,BODZ,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1875 { "bdzlr-", XLO(19,BODZ,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1876 { "bdzlr+", XLO(19,BODZP,16,0), XLBOBIBB_MASK, PPC, { 0 } },
1877 { "bdzlrl", XLO(19,BODZ,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1878 { "bdzlrl-", XLO(19,BODZ,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1879 { "bdzlrl+", XLO(19,BODZP,16,1), XLBOBIBB_MASK, PPC, { 0 } },
1880 { "bltlr", XLOCB(19,BOT,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1881 { "bltlr-", XLOCB(19,BOT,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1882 { "bltlr+", XLOCB(19,BOTP,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1883 { "bltr", XLOCB(19,BOT,CBLT,16,0), XLBOCBBB_MASK, POWER, { CR } },
1884 { "bltlrl", XLOCB(19,BOT,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1885 { "bltlrl-", XLOCB(19,BOT,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1886 { "bltlrl+", XLOCB(19,BOTP,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1887 { "bltrl", XLOCB(19,BOT,CBLT,16,1), XLBOCBBB_MASK, POWER, { CR } },
1888 { "bgtlr", XLOCB(19,BOT,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1889 { "bgtlr-", XLOCB(19,BOT,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1890 { "bgtlr+", XLOCB(19,BOTP,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1891 { "bgtr", XLOCB(19,BOT,CBGT,16,0), XLBOCBBB_MASK, POWER, { CR } },
1892 { "bgtlrl", XLOCB(19,BOT,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1893 { "bgtlrl-", XLOCB(19,BOT,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1894 { "bgtlrl+", XLOCB(19,BOTP,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1895 { "bgtrl", XLOCB(19,BOT,CBGT,16,1), XLBOCBBB_MASK, POWER, { CR } },
1896 { "beqlr", XLOCB(19,BOT,CBEQ,16,0), XLBOCBBB_MASK, PPC, { CR } },
1897 { "beqlr-", XLOCB(19,BOT,CBEQ,16,0), XLBOCBBB_MASK, PPC, { CR } },
1898 { "beqlr+", XLOCB(19,BOTP,CBEQ,16,0), XLBOCBBB_MASK, PPC, { CR } },
1899 { "beqr", XLOCB(19,BOT,CBEQ,16,0), XLBOCBBB_MASK, POWER, { CR } },
1900 { "beqlrl", XLOCB(19,BOT,CBEQ,16,1), XLBOCBBB_MASK, PPC, { CR } },
1901 { "beqlrl-", XLOCB(19,BOT,CBEQ,16,1), XLBOCBBB_MASK, PPC, { CR } },
1902 { "beqlrl+", XLOCB(19,BOTP,CBEQ,16,1), XLBOCBBB_MASK, PPC, { CR } },
1903 { "beqrl", XLOCB(19,BOT,CBEQ,16,1), XLBOCBBB_MASK, POWER, { CR } },
1904 { "bsolr", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1905 { "bsolr-", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1906 { "bsolr+", XLOCB(19,BOTP,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1907 { "bsor", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, POWER, { CR } },
1908 { "bsolrl", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1909 { "bsolrl-", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1910 { "bsolrl+", XLOCB(19,BOTP,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1911 { "bsorl", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, POWER, { CR } },
1912 { "bunlr", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1913 { "bunlr-", XLOCB(19,BOT,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1914 { "bunlr+", XLOCB(19,BOTP,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1915 { "bunlrl", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1916 { "bunlrl-", XLOCB(19,BOT,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1917 { "bunlrl+", XLOCB(19,BOTP,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1918 { "bgelr", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1919 { "bgelr-", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1920 { "bgelr+", XLOCB(19,BOFP,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1921 { "bger", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, POWER, { CR } },
1922 { "bgelrl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1923 { "bgelrl-", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1924 { "bgelrl+", XLOCB(19,BOFP,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1925 { "bgerl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, POWER, { CR } },
1926 { "bnllr", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1927 { "bnllr-", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1928 { "bnllr+", XLOCB(19,BOFP,CBLT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1929 { "bnlr", XLOCB(19,BOF,CBLT,16,0), XLBOCBBB_MASK, POWER, { CR } },
1930 { "bnllrl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1931 { "bnllrl-", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1932 { "bnllrl+", XLOCB(19,BOFP,CBLT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1933 { "bnlrl", XLOCB(19,BOF,CBLT,16,1), XLBOCBBB_MASK, POWER, { CR } },
1934 { "blelr", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1935 { "blelr-", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1936 { "blelr+", XLOCB(19,BOFP,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1937 { "bler", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, POWER, { CR } },
1938 { "blelrl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1939 { "blelrl-", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1940 { "blelrl+", XLOCB(19,BOFP,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1941 { "blerl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, POWER, { CR } },
1942 { "bnglr", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1943 { "bnglr-", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1944 { "bnglr+", XLOCB(19,BOFP,CBGT,16,0), XLBOCBBB_MASK, PPC, { CR } },
1945 { "bngr", XLOCB(19,BOF,CBGT,16,0), XLBOCBBB_MASK, POWER, { CR } },
1946 { "bnglrl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1947 { "bnglrl-", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1948 { "bnglrl+", XLOCB(19,BOFP,CBGT,16,1), XLBOCBBB_MASK, PPC, { CR } },
1949 { "bngrl", XLOCB(19,BOF,CBGT,16,1), XLBOCBBB_MASK, POWER, { CR } },
1950 { "bnelr", XLOCB(19,BOF,CBEQ,16,0), XLBOCBBB_MASK, PPC, { CR } },
1951 { "bnelr-", XLOCB(19,BOF,CBEQ,16,0), XLBOCBBB_MASK, PPC, { CR } },
1952 { "bnelr+", XLOCB(19,BOFP,CBEQ,16,0), XLBOCBBB_MASK, PPC, { CR } },
1953 { "bner", XLOCB(19,BOF,CBEQ,16,0), XLBOCBBB_MASK, POWER, { CR } },
1954 { "bnelrl", XLOCB(19,BOF,CBEQ,16,1), XLBOCBBB_MASK, PPC, { CR } },
1955 { "bnelrl-", XLOCB(19,BOF,CBEQ,16,1), XLBOCBBB_MASK, PPC, { CR } },
1956 { "bnelrl+", XLOCB(19,BOFP,CBEQ,16,1), XLBOCBBB_MASK, PPC, { CR } },
1957 { "bnerl", XLOCB(19,BOF,CBEQ,16,1), XLBOCBBB_MASK, POWER, { CR } },
1958 { "bnslr", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1959 { "bnslr-", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1960 { "bnslr+", XLOCB(19,BOFP,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1961 { "bnsr", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, POWER, { CR } },
1962 { "bnslrl", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1963 { "bnslrl-", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1964 { "bnslrl+", XLOCB(19,BOFP,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1965 { "bnsrl", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, POWER, { CR } },
1966 { "bnulr", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1967 { "bnulr-", XLOCB(19,BOF,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1968 { "bnulr+", XLOCB(19,BOFP,CBSO,16,0), XLBOCBBB_MASK, PPC, { CR } },
1969 { "bnulrl", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1970 { "bnulrl-", XLOCB(19,BOF,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1971 { "bnulrl+", XLOCB(19,BOFP,CBSO,16,1), XLBOCBBB_MASK, PPC, { CR } },
1972 { "btlr", XLO(19,BOT,16,0), XLBOBB_MASK, PPC, { BI } },
1973 { "btlr-", XLO(19,BOT,16,0), XLBOBB_MASK, PPC, { BI } },
1974 { "btlr+", XLO(19,BOTP,16,0), XLBOBB_MASK, PPC, { BI } },
1975 { "bbtr", XLO(19,BOT,16,0), XLBOBB_MASK, POWER, { BI } },
1976 { "btlrl", XLO(19,BOT,16,1), XLBOBB_MASK, PPC, { BI } },
1977 { "btlrl-", XLO(19,BOT,16,1), XLBOBB_MASK, PPC, { BI } },
1978 { "btlrl+", XLO(19,BOTP,16,1), XLBOBB_MASK, PPC, { BI } },
1979 { "bbtrl", XLO(19,BOT,16,1), XLBOBB_MASK, POWER, { BI } },
1980 { "bflr", XLO(19,BOF,16,0), XLBOBB_MASK, PPC, { BI } },
1981 { "bflr-", XLO(19,BOF,16,0), XLBOBB_MASK, PPC, { BI } },
1982 { "bflr+", XLO(19,BOFP,16,0), XLBOBB_MASK, PPC, { BI } },
1983 { "bbfr", XLO(19,BOF,16,0), XLBOBB_MASK, POWER, { BI } },
1984 { "bflrl", XLO(19,BOF,16,1), XLBOBB_MASK, PPC, { BI } },
1985 { "bflrl-", XLO(19,BOF,16,1), XLBOBB_MASK, PPC, { BI } },
1986 { "bflrl+", XLO(19,BOFP,16,1), XLBOBB_MASK, PPC, { BI } },
1987 { "bbfrl", XLO(19,BOF,16,1), XLBOBB_MASK, POWER, { BI } },
1988 { "bdnztlr", XLO(19,BODNZT,16,0), XLBOBB_MASK, PPC, { BI } },
1989 { "bdnztlr-",XLO(19,BODNZT,16,0), XLBOBB_MASK, PPC, { BI } },
1990 { "bdnztlr+",XLO(19,BODNZTP,16,0), XLBOBB_MASK, PPC, { BI } },
1991 { "bdnztlrl",XLO(19,BODNZT,16,1), XLBOBB_MASK, PPC, { BI } },
1992 { "bdnztlrl-",XLO(19,BODNZT,16,1), XLBOBB_MASK, PPC, { BI } },
1993 { "bdnztlrl+",XLO(19,BODNZTP,16,1), XLBOBB_MASK, PPC, { BI } },
1994 { "bdnzflr", XLO(19,BODNZF,16,0), XLBOBB_MASK, PPC, { BI } },
1995 { "bdnzflr-",XLO(19,BODNZF,16,0), XLBOBB_MASK, PPC, { BI } },
1996 { "bdnzflr+",XLO(19,BODNZFP,16,0), XLBOBB_MASK, PPC, { BI } },
1997 { "bdnzflrl",XLO(19,BODNZF,16,1), XLBOBB_MASK, PPC, { BI } },
1998 { "bdnzflrl-",XLO(19,BODNZF,16,1), XLBOBB_MASK, PPC, { BI } },
1999 { "bdnzflrl+",XLO(19,BODNZFP,16,1), XLBOBB_MASK, PPC, { BI } },
2000 { "bdztlr", XLO(19,BODZT,16,0), XLBOBB_MASK, PPC, { BI } },
2001 { "bdztlr-", XLO(19,BODZT,16,0), XLBOBB_MASK, PPC, { BI } },
2002 { "bdztlr+", XLO(19,BODZTP,16,0), XLBOBB_MASK, PPC, { BI } },
2003 { "bdztlrl", XLO(19,BODZT,16,1), XLBOBB_MASK, PPC, { BI } },
2004 { "bdztlrl-",XLO(19,BODZT,16,1), XLBOBB_MASK, PPC, { BI } },
2005 { "bdztlrl+",XLO(19,BODZTP,16,1), XLBOBB_MASK, PPC, { BI } },
2006 { "bdzflr", XLO(19,BODZF,16,0), XLBOBB_MASK, PPC, { BI } },
2007 { "bdzflr-", XLO(19,BODZF,16,0), XLBOBB_MASK, PPC, { BI } },
2008 { "bdzflr+", XLO(19,BODZFP,16,0), XLBOBB_MASK, PPC, { BI } },
2009 { "bdzflrl", XLO(19,BODZF,16,1), XLBOBB_MASK, PPC, { BI } },
2010 { "bdzflrl-",XLO(19,BODZF,16,1), XLBOBB_MASK, PPC, { BI } },
2011 { "bdzflrl+",XLO(19,BODZFP,16,1), XLBOBB_MASK, PPC, { BI } },
2012 { "bclr", XLLK(19,16,0), XLYBB_MASK, PPC, { BO, BI } },
2013 { "bclrl", XLLK(19,16,1), XLYBB_MASK, PPC, { BO, BI } },
2014 { "bclr+", XLYLK(19,16,1,0), XLYBB_MASK, PPC, { BOE, BI } },
2015 { "bclrl+", XLYLK(19,16,1,1), XLYBB_MASK, PPC, { BOE, BI } },
2016 { "bclr-", XLYLK(19,16,0,0), XLYBB_MASK, PPC, { BOE, BI } },
2017 { "bclrl-", XLYLK(19,16,0,1), XLYBB_MASK, PPC, { BOE, BI } },
2018 { "bcr", XLLK(19,16,0), XLBB_MASK, POWER, { BO, BI } },
2019 { "bcrl", XLLK(19,16,1), XLBB_MASK, POWER, { BO, BI } },
2021 { "crnot", XL(19,33), XL_MASK, PPC, { BT, BA, BBA } },
2022 { "crnor", XL(19,33), XL_MASK, PPC|POWER, { BT, BA, BB } },
2024 { "rfi", XL(19,50), 0xffffffff, PPC|POWER, { 0 } },
2025 { "rfci", XL(19,51), 0xffffffff, PPC, { 0 } },
2027 { "rfsvc", XL(19,82), 0xffffffff, POWER, { 0 } },
2029 { "crandc", XL(19,129), XL_MASK, PPC|POWER, { BT, BA, BB } },
2031 { "isync", XL(19,150), 0xffffffff, PPC, { 0 } },
2032 { "ics", XL(19,150), 0xffffffff, POWER, { 0 } },
2034 { "crclr", XL(19,193), XL_MASK, PPC, { BT, BAT, BBA } },
2035 { "crxor", XL(19,193), XL_MASK, PPC|POWER, { BT, BA, BB } },
2037 { "crnand", XL(19,225), XL_MASK, PPC|POWER, { BT, BA, BB } },
2039 { "crand", XL(19,257), XL_MASK, PPC|POWER, { BT, BA, BB } },
2041 { "crset", XL(19,289), XL_MASK, PPC, { BT, BAT, BBA } },
2042 { "creqv", XL(19,289), XL_MASK, PPC|POWER, { BT, BA, BB } },
2044 { "crorc", XL(19,417), XL_MASK, PPC|POWER, { BT, BA, BB } },
2046 { "crmove", XL(19,449), XL_MASK, PPC, { BT, BA, BBA } },
2047 { "cror", XL(19,449), XL_MASK, PPC|POWER, { BT, BA, BB } },
2049 { "bctr", XLO(19,BOU,528,0), XLBOBIBB_MASK, PPC|POWER, { 0 } },
2050 { "bctrl", XLO(19,BOU,528,1), XLBOBIBB_MASK, PPC|POWER, { 0 } },
2051 { "bltctr", XLOCB(19,BOT,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2052 { "bltctr-", XLOCB(19,BOT,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2053 { "bltctr+", XLOCB(19,BOTP,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2054 { "bltctrl", XLOCB(19,BOT,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2055 { "bltctrl-",XLOCB(19,BOT,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2056 { "bltctrl+",XLOCB(19,BOTP,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2057 { "bgtctr", XLOCB(19,BOT,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2058 { "bgtctr-", XLOCB(19,BOT,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2059 { "bgtctr+", XLOCB(19,BOTP,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2060 { "bgtctrl", XLOCB(19,BOT,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2061 { "bgtctrl-",XLOCB(19,BOT,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2062 { "bgtctrl+",XLOCB(19,BOTP,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2063 { "beqctr", XLOCB(19,BOT,CBEQ,528,0), XLBOCBBB_MASK, PPC, { CR } },
2064 { "beqctr-", XLOCB(19,BOT,CBEQ,528,0), XLBOCBBB_MASK, PPC, { CR } },
2065 { "beqctr+", XLOCB(19,BOTP,CBEQ,528,0), XLBOCBBB_MASK, PPC, { CR } },
2066 { "beqctrl", XLOCB(19,BOT,CBEQ,528,1), XLBOCBBB_MASK, PPC, { CR } },
2067 { "beqctrl-",XLOCB(19,BOT,CBEQ,528,1), XLBOCBBB_MASK, PPC, { CR } },
2068 { "beqctrl+",XLOCB(19,BOTP,CBEQ,528,1), XLBOCBBB_MASK, PPC, { CR } },
2069 { "bsoctr", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2070 { "bsoctr-", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2071 { "bsoctr+", XLOCB(19,BOTP,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2072 { "bsoctrl", XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2073 { "bsoctrl-",XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2074 { "bsoctrl+",XLOCB(19,BOTP,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2075 { "bunctr", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2076 { "bunctr-", XLOCB(19,BOT,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2077 { "bunctr+", XLOCB(19,BOTP,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2078 { "bunctrl", XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2079 { "bunctrl-",XLOCB(19,BOT,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2080 { "bunctrl+",XLOCB(19,BOTP,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2081 { "bgectr", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2082 { "bgectr-", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2083 { "bgectr+", XLOCB(19,BOFP,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2084 { "bgectrl", XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2085 { "bgectrl-",XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2086 { "bgectrl+",XLOCB(19,BOFP,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2087 { "bnlctr", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2088 { "bnlctr-", XLOCB(19,BOF,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2089 { "bnlctr+", XLOCB(19,BOFP,CBLT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2090 { "bnlctrl", XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2091 { "bnlctrl-",XLOCB(19,BOF,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2092 { "bnlctrl+",XLOCB(19,BOFP,CBLT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2093 { "blectr", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2094 { "blectr-", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2095 { "blectr+", XLOCB(19,BOFP,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2096 { "blectrl", XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2097 { "blectrl-",XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2098 { "blectrl+",XLOCB(19,BOFP,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2099 { "bngctr", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2100 { "bngctr-", XLOCB(19,BOF,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2101 { "bngctr+", XLOCB(19,BOFP,CBGT,528,0), XLBOCBBB_MASK, PPC, { CR } },
2102 { "bngctrl", XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2103 { "bngctrl-",XLOCB(19,BOF,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2104 { "bngctrl+",XLOCB(19,BOFP,CBGT,528,1), XLBOCBBB_MASK, PPC, { CR } },
2105 { "bnectr", XLOCB(19,BOF,CBEQ,528,0), XLBOCBBB_MASK, PPC, { CR } },
2106 { "bnectr-", XLOCB(19,BOF,CBEQ,528,0), XLBOCBBB_MASK, PPC, { CR } },
2107 { "bnectr+", XLOCB(19,BOFP,CBEQ,528,0), XLBOCBBB_MASK, PPC, { CR } },
2108 { "bnectrl", XLOCB(19,BOF,CBEQ,528,1), XLBOCBBB_MASK, PPC, { CR } },
2109 { "bnectrl-",XLOCB(19,BOF,CBEQ,528,1), XLBOCBBB_MASK, PPC, { CR } },
2110 { "bnectrl+",XLOCB(19,BOFP,CBEQ,528,1), XLBOCBBB_MASK, PPC, { CR } },
2111 { "bnsctr", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2112 { "bnsctr-", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2113 { "bnsctr+", XLOCB(19,BOFP,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2114 { "bnsctrl", XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2115 { "bnsctrl-",XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2116 { "bnsctrl+",XLOCB(19,BOFP,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2117 { "bnuctr", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2118 { "bnuctr-", XLOCB(19,BOF,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2119 { "bnuctr+", XLOCB(19,BOFP,CBSO,528,0), XLBOCBBB_MASK, PPC, { CR } },
2120 { "bnuctrl", XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2121 { "bnuctrl-",XLOCB(19,BOF,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2122 { "bnuctrl+",XLOCB(19,BOFP,CBSO,528,1), XLBOCBBB_MASK, PPC, { CR } },
2123 { "btctr", XLO(19,BOT,528,0), XLBOBB_MASK, PPC, { BI } },
2124 { "btctr-", XLO(19,BOT,528,0), XLBOBB_MASK, PPC, { BI } },
2125 { "btctr+", XLO(19,BOTP,528,0), XLBOBB_MASK, PPC, { BI } },
2126 { "btctrl", XLO(19,BOT,528,1), XLBOBB_MASK, PPC, { BI } },
2127 { "btctrl-", XLO(19,BOT,528,1), XLBOBB_MASK, PPC, { BI } },
2128 { "btctrl+", XLO(19,BOTP,528,1), XLBOBB_MASK, PPC, { BI } },
2129 { "bfctr", XLO(19,BOF,528,0), XLBOBB_MASK, PPC, { BI } },
2130 { "bfctr-", XLO(19,BOF,528,0), XLBOBB_MASK, PPC, { BI } },
2131 { "bfctr+", XLO(19,BOFP,528,0), XLBOBB_MASK, PPC, { BI } },
2132 { "bfctrl", XLO(19,BOF,528,1), XLBOBB_MASK, PPC, { BI } },
2133 { "bfctrl-", XLO(19,BOF,528,1), XLBOBB_MASK, PPC, { BI } },
2134 { "bfctrl+", XLO(19,BOFP,528,1), XLBOBB_MASK, PPC, { BI } },
2135 { "bcctr", XLLK(19,528,0), XLYBB_MASK, PPC, { BO, BI } },
2136 { "bcctr-", XLYLK(19,528,0,0), XLYBB_MASK, PPC, { BOE, BI } },
2137 { "bcctr+", XLYLK(19,528,1,0), XLYBB_MASK, PPC, { BOE, BI } },
2138 { "bcctrl", XLLK(19,528,1), XLYBB_MASK, PPC, { BO, BI } },
2139 { "bcctrl-", XLYLK(19,528,0,1), XLYBB_MASK, PPC, { BOE, BI } },
2140 { "bcctrl+", XLYLK(19,528,1,1), XLYBB_MASK, PPC, { BOE, BI } },
2141 { "bcc", XLLK(19,528,0), XLBB_MASK, POWER, { BO, BI } },
2142 { "bccl", XLLK(19,528,1), XLBB_MASK, POWER, { BO, BI } },
2144 { "rlwimi", M(20,0), M_MASK, PPC, { RA,RS,SH,MBE,ME } },
2145 { "rlimi", M(20,0), M_MASK, POWER, { RA,RS,SH,MBE,ME } },
2147 { "rlwimi.", M(20,1), M_MASK, PPC, { RA,RS,SH,MBE,ME } },
2148 { "rlimi.", M(20,1), M_MASK, POWER, { RA,RS,SH,MBE,ME } },
2150 { "rotlwi", MME(21,31,0), MMBME_MASK, PPC, { RA, RS, SH } },
2151 { "clrlwi", MME(21,31,0), MSHME_MASK, PPC, { RA, RS, MB } },
2152 { "rlwinm", M(21,0), M_MASK, PPC, { RA,RS,SH,MBE,ME } },
2153 { "rlinm", M(21,0), M_MASK, POWER, { RA,RS,SH,MBE,ME } },
2154 { "rotlwi.", MME(21,31,1), MMBME_MASK, PPC, { RA,RS,SH } },
2155 { "clrlwi.", MME(21,31,1), MSHME_MASK, PPC, { RA, RS, MB } },
2156 { "rlwinm.", M(21,1), M_MASK, PPC, { RA,RS,SH,MBE,ME } },
2157 { "rlinm.", M(21,1), M_MASK, POWER, { RA,RS,SH,MBE,ME } },
2159 { "rlmi", M(22,0), M_MASK, POWER|M601, { RA,RS,RB,MBE,ME } },
2160 { "rlmi.", M(22,1), M_MASK, POWER|M601, { RA,RS,RB,MBE,ME } },
2162 { "rotlw", MME(23,31,0), MMBME_MASK, PPC, { RA, RS, RB } },
2163 { "rlwnm", M(23,0), M_MASK, PPC, { RA,RS,RB,MBE,ME } },
2164 { "rlnm", M(23,0), M_MASK, POWER, { RA,RS,RB,MBE,ME } },
2165 { "rotlw.", MME(23,31,1), MMBME_MASK, PPC, { RA, RS, RB } },
2166 { "rlwnm.", M(23,1), M_MASK, PPC, { RA,RS,RB,MBE,ME } },
2167 { "rlnm.", M(23,1), M_MASK, POWER, { RA,RS,RB,MBE,ME } },
2169 { "nop", OP(24), 0xffffffff, PPC, { 0 } },
2170 { "ori", OP(24), OP_MASK, PPC, { RA, RS, UI } },
2171 { "oril", OP(24), OP_MASK, POWER, { RA, RS, UI } },
2173 { "oris", OP(25), OP_MASK, PPC, { RA, RS, UI } },
2174 { "oriu", OP(25), OP_MASK, POWER, { RA, RS, UI } },
2176 { "xori", OP(26), OP_MASK, PPC, { RA, RS, UI } },
2177 { "xoril", OP(26), OP_MASK, POWER, { RA, RS, UI } },
2179 { "xoris", OP(27), OP_MASK, PPC, { RA, RS, UI } },
2180 { "xoriu", OP(27), OP_MASK, POWER, { RA, RS, UI } },
2182 { "andi.", OP(28), OP_MASK, PPC, { RA, RS, UI } },
2183 { "andil.", OP(28), OP_MASK, POWER, { RA, RS, UI } },
2185 { "andis.", OP(29), OP_MASK, PPC, { RA, RS, UI } },
2186 { "andiu.", OP(29), OP_MASK, POWER, { RA, RS, UI } },
2188 { "rotldi", MD(30,0,0), MDMB_MASK, PPC|B64, { RA, RS, SH6 } },
2189 { "clrldi", MD(30,0,0), MDSH_MASK, PPC|B64, { RA, RS, MB6 } },
2190 { "rldicl", MD(30,0,0), MD_MASK, PPC|B64, { RA, RS, SH6, MB6 } },
2191 { "rotldi.", MD(30,0,1), MDMB_MASK, PPC|B64, { RA, RS, SH6 } },
2192 { "clrldi.", MD(30,0,1), MDSH_MASK, PPC|B64, { RA, RS, MB6 } },
2193 { "rldicl.", MD(30,0,1), MD_MASK, PPC|B64, { RA, RS, SH6, MB6 } },
2195 { "rldicr", MD(30,1,0), MD_MASK, PPC|B64, { RA, RS, SH6, ME6 } },
2196 { "rldicr.", MD(30,1,1), MD_MASK, PPC|B64, { RA, RS, SH6, ME6 } },
2198 { "rldic", MD(30,2,0), MD_MASK, PPC|B64, { RA, RS, SH6, MB6 } },
2199 { "rldic.", MD(30,2,1), MD_MASK, PPC|B64, { RA, RS, SH6, MB6 } },
2201 { "rldimi", MD(30,3,0), MD_MASK, PPC|B64, { RA, RS, SH6, MB6 } },
2202 { "rldimi.", MD(30,3,1), MD_MASK, PPC|B64, { RA, RS, SH6, MB6 } },
2204 { "rotld", MDS(30,8,0), MDSMB_MASK, PPC|B64, { RA, RS, RB } },
2205 { "rldcl", MDS(30,8,0), MDS_MASK, PPC|B64, { RA, RS, RB, MB6 } },
2206 { "rotld.", MDS(30,8,1), MDSMB_MASK, PPC|B64, { RA, RS, RB } },
2207 { "rldcl.", MDS(30,8,1), MDS_MASK, PPC|B64, { RA, RS, RB, MB6 } },
2209 { "rldcr", MDS(30,9,0), MDS_MASK, PPC|B64, { RA, RS, RB, ME6 } },
2210 { "rldcr.", MDS(30,9,1), MDS_MASK, PPC|B64, { RA, RS, RB, ME6 } },
2212 { "cmpw", XCMPL(31,0,0), XCMPL_MASK, PPC, { OBF, RA, RB } },
2213 { "cmpd", XCMPL(31,0,1), XCMPL_MASK, PPC|B64, { OBF, RA, RB } },
2214 { "cmp", X(31,0), XCMP_MASK, PPC, { BF, L, RA, RB } },
2215 { "cmp", X(31,0), XCMPL_MASK, POWER, { BF, RA, RB } },
2217 { "twlgt", XTO(31,4,TOLGT), XTO_MASK, PPC, { RA, RB } },
2218 { "tlgt", XTO(31,4,TOLGT), XTO_MASK, POWER, { RA, RB } },
2219 { "twllt", XTO(31,4,TOLLT), XTO_MASK, PPC, { RA, RB } },
2220 { "tllt", XTO(31,4,TOLLT), XTO_MASK, POWER, { RA, RB } },
2221 { "tweq", XTO(31,4,TOEQ), XTO_MASK, PPC, { RA, RB } },
2222 { "teq", XTO(31,4,TOEQ), XTO_MASK, POWER, { RA, RB } },
2223 { "twlge", XTO(31,4,TOLGE), XTO_MASK, PPC, { RA, RB } },
2224 { "tlge", XTO(31,4,TOLGE), XTO_MASK, POWER, { RA, RB } },
2225 { "twlnl", XTO(31,4,TOLNL), XTO_MASK, PPC, { RA, RB } },
2226 { "tlnl", XTO(31,4,TOLNL), XTO_MASK, POWER, { RA, RB } },
2227 { "twlle", XTO(31,4,TOLLE), XTO_MASK, PPC, { RA, RB } },
2228 { "tlle", XTO(31,4,TOLLE), XTO_MASK, POWER, { RA, RB } },
2229 { "twlng", XTO(31,4,TOLNG), XTO_MASK, PPC, { RA, RB } },
2230 { "tlng", XTO(31,4,TOLNG), XTO_MASK, POWER, { RA, RB } },
2231 { "twgt", XTO(31,4,TOGT), XTO_MASK, PPC, { RA, RB } },
2232 { "tgt", XTO(31,4,TOGT), XTO_MASK, POWER, { RA, RB } },
2233 { "twge", XTO(31,4,TOGE), XTO_MASK, PPC, { RA, RB } },
2234 { "tge", XTO(31,4,TOGE), XTO_MASK, POWER, { RA, RB } },
2235 { "twnl", XTO(31,4,TONL), XTO_MASK, PPC, { RA, RB } },
2236 { "tnl", XTO(31,4,TONL), XTO_MASK, POWER, { RA, RB } },
2237 { "twlt", XTO(31,4,TOLT), XTO_MASK, PPC, { RA, RB } },
2238 { "tlt", XTO(31,4,TOLT), XTO_MASK, POWER, { RA, RB } },
2239 { "twle", XTO(31,4,TOLE), XTO_MASK, PPC, { RA, RB } },
2240 { "tle", XTO(31,4,TOLE), XTO_MASK, POWER, { RA, RB } },
2241 { "twng", XTO(31,4,TONG), XTO_MASK, PPC, { RA, RB } },
2242 { "tng", XTO(31,4,TONG), XTO_MASK, POWER, { RA, RB } },
2243 { "twne", XTO(31,4,TONE), XTO_MASK, PPC, { RA, RB } },
2244 { "tne", XTO(31,4,TONE), XTO_MASK, POWER, { RA, RB } },
2245 { "trap", XTO(31,4,TOU), 0xffffffff, PPC, { 0 } },
2246 { "tw", X(31,4), X_MASK, PPC, { TO, RA, RB } },
2247 { "t", X(31,4), X_MASK, POWER, { TO, RA, RB } },
2249 { "subfc", XO(31,8,0,0), XO_MASK, PPC, { RT, RA, RB } },
2250 { "sf", XO(31,8,0,0), XO_MASK, POWER, { RT, RA, RB } },
2251 { "subc", XO(31,8,0,0), XO_MASK, PPC, { RT, RB, RA } },
2252 { "subfc.", XO(31,8,0,1), XO_MASK, PPC, { RT, RA, RB } },
2253 { "sf.", XO(31,8,0,1), XO_MASK, POWER, { RT, RA, RB } },
2254 { "subc.", XO(31,8,0,1), XO_MASK, PPC, { RT, RB, RA } },
2255 { "subfco", XO(31,8,1,0), XO_MASK, PPC, { RT, RA, RB } },
2256 { "sfo", XO(31,8,1,0), XO_MASK, POWER, { RT, RA, RB } },
2257 { "subco", XO(31,8,1,0), XO_MASK, PPC, { RT, RB, RA } },
2258 { "subfco.", XO(31,8,1,1), XO_MASK, PPC, { RT, RA, RB } },
2259 { "sfo.", XO(31,8,1,1), XO_MASK, POWER, { RT, RA, RB } },
2260 { "subco.", XO(31,8,1,1), XO_MASK, PPC, { RT, RB, RA } },
2262 { "mulhdu", XO(31,9,0,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2263 { "mulhdu.", XO(31,9,0,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2265 { "addc", XO(31,10,0,0), XO_MASK, PPC, { RT, RA, RB } },
2266 { "a", XO(31,10,0,0), XO_MASK, POWER, { RT, RA, RB } },
2267 { "addc.", XO(31,10,0,1), XO_MASK, PPC, { RT, RA, RB } },
2268 { "a.", XO(31,10,0,1), XO_MASK, POWER, { RT, RA, RB } },
2269 { "addco", XO(31,10,1,0), XO_MASK, PPC, { RT, RA, RB } },
2270 { "ao", XO(31,10,1,0), XO_MASK, POWER, { RT, RA, RB } },
2271 { "addco.", XO(31,10,1,1), XO_MASK, PPC, { RT, RA, RB } },
2272 { "ao.", XO(31,10,1,1), XO_MASK, POWER, { RT, RA, RB } },
2274 { "mulhwu", XO(31,11,0,0), XO_MASK, PPC, { RT, RA, RB } },
2275 { "mulhwu.", XO(31,11,0,1), XO_MASK, PPC, { RT, RA, RB } },
2277 { "mfcr", X(31,19), XRARB_MASK, POWER|PPC, { RT } },
2279 { "lwarx", X(31,20), X_MASK, PPC, { RT, RA, RB } },
2281 { "ldx", X(31,21), X_MASK, PPC|B64, { RT, RA, RB } },
2283 { "lwzx", X(31,23), X_MASK, PPC, { RT, RA, RB } },
2284 { "lx", X(31,23), X_MASK, POWER, { RT, RA, RB } },
2286 { "slw", XRC(31,24,0), X_MASK, PPC, { RA, RS, RB } },
2287 { "sl", XRC(31,24,0), X_MASK, POWER, { RA, RS, RB } },
2288 { "slw.", XRC(31,24,1), X_MASK, PPC, { RA, RS, RB } },
2289 { "sl.", XRC(31,24,1), X_MASK, POWER, { RA, RS, RB } },
2291 { "cntlzw", XRC(31,26,0), XRB_MASK, PPC, { RA, RS } },
2292 { "cntlz", XRC(31,26,0), XRB_MASK, POWER, { RA, RS } },
2293 { "cntlzw.", XRC(31,26,1), XRB_MASK, PPC, { RA, RS } },
2294 { "cntlz.", XRC(31,26,1), XRB_MASK, POWER, { RA, RS } },
2296 { "sld", XRC(31,27,0), X_MASK, PPC|B64, { RA, RS, RB } },
2297 { "sld.", XRC(31,27,1), X_MASK, PPC|B64, { RA, RS, RB } },
2299 { "and", XRC(31,28,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2300 { "and.", XRC(31,28,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2302 { "maskg", XRC(31,29,0), X_MASK, POWER|M601, { RA, RS, RB } },
2303 { "maskg.", XRC(31,29,1), X_MASK, POWER|M601, { RA, RS, RB } },
2305 { "cmplw", XCMPL(31,32,0), XCMPL_MASK, PPC, { OBF, RA, RB } },
2306 { "cmpld", XCMPL(31,32,1), XCMPL_MASK, PPC|B64, { OBF, RA, RB } },
2307 { "cmpl", X(31,32), XCMP_MASK, PPC, { BF, L, RA, RB } },
2308 { "cmpl", X(31,32), XCMPL_MASK, POWER, { BF, RA, RB } },
2310 { "subf", XO(31,40,0,0), XO_MASK, PPC, { RT, RA, RB } },
2311 { "sub", XO(31,40,0,0), XO_MASK, PPC, { RT, RB, RA } },
2312 { "subf.", XO(31,40,0,1), XO_MASK, PPC, { RT, RA, RB } },
2313 { "sub.", XO(31,40,0,1), XO_MASK, PPC, { RT, RB, RA } },
2314 { "subfo", XO(31,40,1,0), XO_MASK, PPC, { RT, RA, RB } },
2315 { "subo", XO(31,40,1,0), XO_MASK, PPC, { RT, RB, RA } },
2316 { "subfo.", XO(31,40,1,1), XO_MASK, PPC, { RT, RA, RB } },
2317 { "subo.", XO(31,40,1,1), XO_MASK, PPC, { RT, RB, RA } },
2319 { "ldux", X(31,53), X_MASK, PPC|B64, { RT, RAL, RB } },
2321 { "dcbst", X(31,54), XRT_MASK, PPC, { RA, RB } },
2323 { "lwzux", X(31,55), X_MASK, PPC, { RT, RAL, RB } },
2324 { "lux", X(31,55), X_MASK, POWER, { RT, RA, RB } },
2326 { "cntlzd", XRC(31,58,0), XRB_MASK, PPC|B64, { RA, RS } },
2327 { "cntlzd.", XRC(31,58,1), XRB_MASK, PPC|B64, { RA, RS } },
2329 { "andc", XRC(31,60,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2330 { "andc.", XRC(31,60,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2332 { "tdlgt", XTO(31,68,TOLGT), XTO_MASK, PPC|B64, { RA, RB } },
2333 { "tdllt", XTO(31,68,TOLLT), XTO_MASK, PPC|B64, { RA, RB } },
2334 { "tdeq", XTO(31,68,TOEQ), XTO_MASK, PPC|B64, { RA, RB } },
2335 { "tdlge", XTO(31,68,TOLGE), XTO_MASK, PPC|B64, { RA, RB } },
2336 { "tdlnl", XTO(31,68,TOLNL), XTO_MASK, PPC|B64, { RA, RB } },
2337 { "tdlle", XTO(31,68,TOLLE), XTO_MASK, PPC|B64, { RA, RB } },
2338 { "tdlng", XTO(31,68,TOLNG), XTO_MASK, PPC|B64, { RA, RB } },
2339 { "tdgt", XTO(31,68,TOGT), XTO_MASK, PPC|B64, { RA, RB } },
2340 { "tdge", XTO(31,68,TOGE), XTO_MASK, PPC|B64, { RA, RB } },
2341 { "tdnl", XTO(31,68,TONL), XTO_MASK, PPC|B64, { RA, RB } },
2342 { "tdlt", XTO(31,68,TOLT), XTO_MASK, PPC|B64, { RA, RB } },
2343 { "tdle", XTO(31,68,TOLE), XTO_MASK, PPC|B64, { RA, RB } },
2344 { "tdng", XTO(31,68,TONG), XTO_MASK, PPC|B64, { RA, RB } },
2345 { "tdne", XTO(31,68,TONE), XTO_MASK, PPC|B64, { RA, RB } },
2346 { "td", X(31,68), X_MASK, PPC|B64, { TO, RA, RB } },
2348 { "mulhd", XO(31,73,0,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2349 { "mulhd.", XO(31,73,0,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2351 { "mulhw", XO(31,75,0,0), XO_MASK, PPC, { RT, RA, RB } },
2352 { "mulhw.", XO(31,75,0,1), XO_MASK, PPC, { RT, RA, RB } },
2354 { "mfmsr", X(31,83), XRARB_MASK, PPC|POWER, { RT } },
2356 { "ldarx", X(31,84), X_MASK, PPC|B64, { RT, RA, RB } },
2358 { "dcbf", X(31,86), XRT_MASK, PPC, { RA, RB } },
2360 { "lbzx", X(31,87), X_MASK, PPC|POWER, { RT, RA, RB } },
2362 { "neg", XO(31,104,0,0), XORB_MASK, PPC|POWER, { RT, RA } },
2363 { "neg.", XO(31,104,0,1), XORB_MASK, PPC|POWER, { RT, RA } },
2364 { "nego", XO(31,104,1,0), XORB_MASK, PPC|POWER, { RT, RA } },
2365 { "nego.", XO(31,104,1,1), XORB_MASK, PPC|POWER, { RT, RA } },
2367 { "mul", XO(31,107,0,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2368 { "mul.", XO(31,107,0,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2369 { "mulo", XO(31,107,1,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2370 { "mulo.", XO(31,107,1,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2372 { "clf", X(31,118), XRB_MASK, POWER, { RT, RA } },
2374 { "lbzux", X(31,119), X_MASK, PPC|POWER, { RT, RAL, RB } },
2376 { "not", XRC(31,124,0), X_MASK, PPC|POWER, { RA, RS, RBS } },
2377 { "nor", XRC(31,124,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2378 { "not.", XRC(31,124,1), X_MASK, PPC|POWER, { RA, RS, RBS } },
2379 { "nor.", XRC(31,124,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2381 { "subfe", XO(31,136,0,0), XO_MASK, PPC, { RT, RA, RB } },
2382 { "sfe", XO(31,136,0,0), XO_MASK, POWER, { RT, RA, RB } },
2383 { "subfe.", XO(31,136,0,1), XO_MASK, PPC, { RT, RA, RB } },
2384 { "sfe.", XO(31,136,0,1), XO_MASK, POWER, { RT, RA, RB } },
2385 { "subfeo", XO(31,136,1,0), XO_MASK, PPC, { RT, RA, RB } },
2386 { "sfeo", XO(31,136,1,0), XO_MASK, POWER, { RT, RA, RB } },
2387 { "subfeo.", XO(31,136,1,1), XO_MASK, PPC, { RT, RA, RB } },
2388 { "sfeo.", XO(31,136,1,1), XO_MASK, POWER, { RT, RA, RB } },
2390 { "adde", XO(31,138,0,0), XO_MASK, PPC, { RT, RA, RB } },
2391 { "ae", XO(31,138,0,0), XO_MASK, POWER, { RT, RA, RB } },
2392 { "adde.", XO(31,138,0,1), XO_MASK, PPC, { RT, RA, RB } },
2393 { "ae.", XO(31,138,0,1), XO_MASK, POWER, { RT, RA, RB } },
2394 { "addeo", XO(31,138,1,0), XO_MASK, PPC, { RT, RA, RB } },
2395 { "aeo", XO(31,138,1,0), XO_MASK, POWER, { RT, RA, RB } },
2396 { "addeo.", XO(31,138,1,1), XO_MASK, PPC, { RT, RA, RB } },
2397 { "aeo.", XO(31,138,1,1), XO_MASK, POWER, { RT, RA, RB } },
2399 { "mtcr", XFXM(31,144,0xff), XFXFXM_MASK|FXM_MASK, PPC|POWER, { RS }},
2400 { "mtcrf", X(31,144), XFXFXM_MASK, PPC|POWER, { FXM, RS } },
2402 { "mtmsr", X(31,146), XRARB_MASK, PPC|POWER, { RS } },
2404 { "stdx", X(31,149), X_MASK, PPC|B64, { RS, RA, RB } },
2406 { "stwcx.", XRC(31,150,1), X_MASK, PPC, { RS, RA, RB } },
2408 { "stwx", X(31,151), X_MASK, PPC, { RS, RA, RB } },
2409 { "stx", X(31,151), X_MASK, POWER, { RS, RA, RB } },
2411 { "slq", XRC(31,152,0), X_MASK, POWER|M601, { RA, RS, RB } },
2412 { "slq.", XRC(31,152,1), X_MASK, POWER|M601, { RA, RS, RB } },
2414 { "sle", XRC(31,153,0), X_MASK, POWER|M601, { RA, RS, RB } },
2415 { "sle.", XRC(31,153,1), X_MASK, POWER|M601, { RA, RS, RB } },
2417 { "stdux", X(31,181), X_MASK, PPC|B64, { RS, RAS, RB } },
2419 { "stwux", X(31,183), X_MASK, PPC, { RS, RAS, RB } },
2420 { "stux", X(31,183), X_MASK, POWER, { RS, RA, RB } },
2422 { "sliq", XRC(31,184,0), X_MASK, POWER|M601, { RA, RS, SH } },
2423 { "sliq.", XRC(31,184,1), X_MASK, POWER|M601, { RA, RS, SH } },
2425 { "subfze", XO(31,200,0,0), XORB_MASK, PPC, { RT, RA } },
2426 { "sfze", XO(31,200,0,0), XORB_MASK, POWER, { RT, RA } },
2427 { "subfze.", XO(31,200,0,1), XORB_MASK, PPC, { RT, RA } },
2428 { "sfze.", XO(31,200,0,1), XORB_MASK, POWER, { RT, RA } },
2429 { "subfzeo", XO(31,200,1,0), XORB_MASK, PPC, { RT, RA } },
2430 { "sfzeo", XO(31,200,1,0), XORB_MASK, POWER, { RT, RA } },
2431 { "subfzeo.",XO(31,200,1,1), XORB_MASK, PPC, { RT, RA } },
2432 { "sfzeo.", XO(31,200,1,1), XORB_MASK, POWER, { RT, RA } },
2434 { "addze", XO(31,202,0,0), XORB_MASK, PPC, { RT, RA } },
2435 { "aze", XO(31,202,0,0), XORB_MASK, POWER, { RT, RA } },
2436 { "addze.", XO(31,202,0,1), XORB_MASK, PPC, { RT, RA } },
2437 { "aze.", XO(31,202,0,1), XORB_MASK, POWER, { RT, RA } },
2438 { "addzeo", XO(31,202,1,0), XORB_MASK, PPC, { RT, RA } },
2439 { "azeo", XO(31,202,1,0), XORB_MASK, POWER, { RT, RA } },
2440 { "addzeo.", XO(31,202,1,1), XORB_MASK, PPC, { RT, RA } },
2441 { "azeo.", XO(31,202,1,1), XORB_MASK, POWER, { RT, RA } },
2443 { "mtsr", X(31,210), XRB_MASK|(1<<20), PPC|POWER|B32, { SR, RS } },
2445 { "stdcx.", XRC(31,214,1), X_MASK, PPC|B64, { RS, RA, RB } },
2447 { "stbx", X(31,215), X_MASK, PPC|POWER, { RS, RA, RB } },
2449 { "sllq", XRC(31,216,0), X_MASK, POWER|M601, { RA, RS, RB } },
2450 { "sllq.", XRC(31,216,1), X_MASK, POWER|M601, { RA, RS, RB } },
2452 { "sleq", XRC(31,217,0), X_MASK, POWER|M601, { RA, RS, RB } },
2453 { "sleq.", XRC(31,217,1), X_MASK, POWER|M601, { RA, RS, RB } },
2455 { "subfme", XO(31,232,0,0), XORB_MASK, PPC, { RT, RA } },
2456 { "sfme", XO(31,232,0,0), XORB_MASK, POWER, { RT, RA } },
2457 { "subfme.", XO(31,232,0,1), XORB_MASK, PPC, { RT, RA } },
2458 { "sfme.", XO(31,232,0,1), XORB_MASK, POWER, { RT, RA } },
2459 { "subfmeo", XO(31,232,1,0), XORB_MASK, PPC, { RT, RA } },
2460 { "sfmeo", XO(31,232,1,0), XORB_MASK, POWER, { RT, RA } },
2461 { "subfmeo.",XO(31,232,1,1), XORB_MASK, PPC, { RT, RA } },
2462 { "sfmeo.", XO(31,232,1,1), XORB_MASK, POWER, { RT, RA } },
2464 { "mulld", XO(31,233,0,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2465 { "mulld.", XO(31,233,0,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2466 { "mulldo", XO(31,233,1,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2467 { "mulldo.", XO(31,233,1,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2469 { "addme", XO(31,234,0,0), XORB_MASK, PPC, { RT, RA } },
2470 { "ame", XO(31,234,0,0), XORB_MASK, POWER, { RT, RA } },
2471 { "addme.", XO(31,234,0,1), XORB_MASK, PPC, { RT, RA } },
2472 { "ame.", XO(31,234,0,1), XORB_MASK, POWER, { RT, RA } },
2473 { "addmeo", XO(31,234,1,0), XORB_MASK, PPC, { RT, RA } },
2474 { "ameo", XO(31,234,1,0), XORB_MASK, POWER, { RT, RA } },
2475 { "addmeo.", XO(31,234,1,1), XORB_MASK, PPC, { RT, RA } },
2476 { "ameo.", XO(31,234,1,1), XORB_MASK, POWER, { RT, RA } },
2478 { "mullw", XO(31,235,0,0), XO_MASK, PPC, { RT, RA, RB } },
2479 { "muls", XO(31,235,0,0), XO_MASK, POWER, { RT, RA, RB } },
2480 { "mullw.", XO(31,235,0,1), XO_MASK, PPC, { RT, RA, RB } },
2481 { "muls.", XO(31,235,0,1), XO_MASK, POWER, { RT, RA, RB } },
2482 { "mullwo", XO(31,235,1,0), XO_MASK, PPC, { RT, RA, RB } },
2483 { "mulso", XO(31,235,1,0), XO_MASK, POWER, { RT, RA, RB } },
2484 { "mullwo.", XO(31,235,1,1), XO_MASK, PPC, { RT, RA, RB } },
2485 { "mulso.", XO(31,235,1,1), XO_MASK, POWER, { RT, RA, RB } },
2487 { "mtsrin", X(31,242), XRA_MASK, PPC|B32, { RS, RB } },
2488 { "mtsri", X(31,242), XRA_MASK, POWER|B32, { RS, RB } },
2490 { "dcbtst", X(31,246), XRT_MASK, PPC, { RA, RB } },
2492 { "stbux", X(31,247), X_MASK, PPC|POWER, { RS, RAS, RB } },
2494 { "slliq", XRC(31,248,0), X_MASK, POWER|M601, { RA, RS, SH } },
2495 { "slliq.", XRC(31,248,1), X_MASK, POWER|M601, { RA, RS, SH } },
2497 { "doz", XO(31,264,0,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2498 { "doz.", XO(31,264,0,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2499 { "dozo", XO(31,264,1,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2500 { "dozo.", XO(31,264,1,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2502 { "add", XO(31,266,0,0), XO_MASK, PPC, { RT, RA, RB } },
2503 { "cax", XO(31,266,0,0), XO_MASK, POWER, { RT, RA, RB } },
2504 { "add.", XO(31,266,0,1), XO_MASK, PPC, { RT, RA, RB } },
2505 { "cax.", XO(31,266,0,1), XO_MASK, POWER, { RT, RA, RB } },
2506 { "addo", XO(31,266,1,0), XO_MASK, PPC, { RT, RA, RB } },
2507 { "caxo", XO(31,266,1,0), XO_MASK, POWER, { RT, RA, RB } },
2508 { "addo.", XO(31,266,1,1), XO_MASK, PPC, { RT, RA, RB } },
2509 { "caxo.", XO(31,266,1,1), XO_MASK, POWER, { RT, RA, RB } },
2511 { "lscbx", XRC(31,277,0), X_MASK, POWER|M601, { RT, RA, RB } },
2512 { "lscbx.", XRC(31,277,1), X_MASK, POWER|M601, { RT, RA, RB } },
2514 { "dcbt", X(31,278), XRT_MASK, PPC, { RA, RB } },
2516 { "lhzx", X(31,279), X_MASK, PPC|POWER, { RT, RA, RB } },
2518 { "icbt", X(31,262), XRT_MASK, PPC, { RA, RB } },
2520 { "eqv", XRC(31,284,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2521 { "eqv.", XRC(31,284,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2523 { "tlbie", X(31,306), XRTRA_MASK, PPC, { RB } },
2524 { "tlbi", X(31,306), XRTRA_MASK, POWER, { RB } },
2526 { "eciwx", X(31,310), X_MASK, PPC, { RT, RA, RB } },
2528 { "lhzux", X(31,311), X_MASK, PPC|POWER, { RT, RAL, RB } },
2530 { "xor", XRC(31,316,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2531 { "xor.", XRC(31,316,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2533 { "mfdcr", X(31,323), X_MASK, PPC, { RT, SPR } },
2535 { "div", XO(31,331,0,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2536 { "div.", XO(31,331,0,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2537 { "divo", XO(31,331,1,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2538 { "divo.", XO(31,331,1,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2540 { "mfmq", XSPR(31,339,0), XSPR_MASK, POWER|M601, { RT } },
2541 { "mfxer", XSPR(31,339,1), XSPR_MASK, PPC|POWER, { RT } },
2542 { "mfrtcu", XSPR(31,339,4), XSPR_MASK, PPC|POWER, { RT } },
2543 { "mfrtcl", XSPR(31,339,5), XSPR_MASK, PPC|POWER, { RT } },
2544 { "mfdec", XSPR(31,339,6), XSPR_MASK, POWER|M601, { RT } },
2545 { "mflr", XSPR(31,339,8), XSPR_MASK, PPC|POWER, { RT } },
2546 { "mfctr", XSPR(31,339,9), XSPR_MASK, PPC|POWER, { RT } },
2547 { "mftid", XSPR(31,339,17), XSPR_MASK, POWER, { RT } },
2548 { "mfdsisr", XSPR(31,339,18), XSPR_MASK, PPC|POWER, { RT } },
2549 { "mfdar", XSPR(31,339,19), XSPR_MASK, PPC|POWER, { RT } },
2550 { "mfdec", XSPR(31,339,22), XSPR_MASK, PPC, { RT } },
2551 { "mfsdr0", XSPR(31,339,24), XSPR_MASK, POWER, { RT } },
2552 { "mfsdr1", XSPR(31,339,25), XSPR_MASK, PPC|POWER, { RT } },
2553 { "mfsrr0", XSPR(31,339,26), XSPR_MASK, PPC|POWER, { RT } },
2554 { "mfsrr1", XSPR(31,339,27), XSPR_MASK, PPC|POWER, { RT } },
2555 { "mfsprg", XSPR(31,339,272), XSPRG_MASK, PPC, { RT, SPRG } },
2556 { "mfasr", XSPR(31,339,280), XSPR_MASK, PPC|B64, { RT } },
2557 { "mfear", XSPR(31,339,282), XSPR_MASK, PPC, { RT } },
2558 { "mfpvr", XSPR(31,339,287), XSPR_MASK, PPC, { RT } },
2559 { "mfibatu", XSPR(31,339,528), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
2560 { "mfibatl", XSPR(31,339,529), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
2561 { "mfdbatu", XSPR(31,339,536), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
2562 { "mfdbatl", XSPR(31,339,537), XSPRBAT_MASK, PPC, { RT, SPRBAT } },
2563 { "mfspr", X(31,339), X_MASK, PPC|POWER, { RT, SPR } },
2565 { "lwax", X(31,341), X_MASK, PPC|B64, { RT, RA, RB } },
2567 { "lhax", X(31,343), X_MASK, PPC|POWER, { RT, RA, RB } },
2569 { "dccci", X(31,454), XRT_MASK, PPC, { RA, RB } },
2571 { "abs", XO(31,360,0,0), XORB_MASK, POWER|M601, { RT, RA } },
2572 { "abs.", XO(31,360,0,1), XORB_MASK, POWER|M601, { RT, RA } },
2573 { "abso", XO(31,360,1,0), XORB_MASK, POWER|M601, { RT, RA } },
2574 { "abso.", XO(31,360,1,1), XORB_MASK, POWER|M601, { RT, RA } },
2576 { "divs", XO(31,363,0,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2577 { "divs.", XO(31,363,0,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2578 { "divso", XO(31,363,1,0), XO_MASK, POWER|M601, { RT, RA, RB } },
2579 { "divso.", XO(31,363,1,1), XO_MASK, POWER|M601, { RT, RA, RB } },
2581 { "tlbia", X(31,370), 0xffffffff, PPC, { 0 } },
2583 { "mftbu", XSPR(31,371,269), XSPR_MASK, PPC, { RT } },
2584 { "mftb", X(31,371), X_MASK, PPC, { RT, TBR } },
2586 { "lwaux", X(31,373), X_MASK, PPC|B64, { RT, RAL, RB } },
2588 { "lhaux", X(31,375), X_MASK, PPC|POWER, { RT, RAL, RB } },
2590 { "sthx", X(31,407), X_MASK, PPC|POWER, { RS, RA, RB } },
2592 { "lfqx", X(31,791), X_MASK, POWER2, { FRT, RA, RB } },
2594 { "lfqux", X(31,823), X_MASK, POWER2, { FRT, RA, RB } },
2596 { "stfqx", X(31,919), X_MASK, POWER2, { FRS, RA, RB } },
2598 { "stfqux", X(31,951), X_MASK, POWER2, { FRS, RA, RB } },
2600 { "orc", XRC(31,412,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2601 { "orc.", XRC(31,412,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2603 { "sradi", XS(31,413,0), XS_MASK, PPC|B64, { RA, RS, SH6 } },
2604 { "sradi.", XS(31,413,1), XS_MASK, PPC|B64, { RA, RS, SH6 } },
2606 { "slbie", X(31,434), XRTRA_MASK, PPC|B64, { RB } },
2608 { "ecowx", X(31,438), X_MASK, PPC, { RT, RA, RB } },
2610 { "sthux", X(31,439), X_MASK, PPC|POWER, { RS, RAS, RB } },
2612 { "mr", XRC(31,444,0), X_MASK, PPC|POWER, { RA, RS, RBS } },
2613 { "or", XRC(31,444,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2614 { "mr.", XRC(31,444,1), X_MASK, PPC|POWER, { RA, RS, RBS } },
2615 { "or.", XRC(31,444,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2617 { "mtdcr", X(31,451), X_MASK, PPC, { SPR, RS } },
2619 { "divdu", XO(31,457,0,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2620 { "divdu.", XO(31,457,0,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2621 { "divduo", XO(31,457,1,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2622 { "divduo.", XO(31,457,1,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2624 { "divwu", XO(31,459,0,0), XO_MASK, PPC, { RT, RA, RB } },
2625 { "divwu.", XO(31,459,0,1), XO_MASK, PPC, { RT, RA, RB } },
2626 { "divwuo", XO(31,459,1,0), XO_MASK, PPC, { RT, RA, RB } },
2627 { "divwuo.", XO(31,459,1,1), XO_MASK, PPC, { RT, RA, RB } },
2629 { "mtmq", XSPR(31,467,0), XSPR_MASK, POWER|M601, { RS } },
2630 { "mtxer", XSPR(31,467,1), XSPR_MASK, PPC|POWER, { RS } },
2631 { "mtlr", XSPR(31,467,8), XSPR_MASK, PPC|POWER, { RS } },
2632 { "mtctr", XSPR(31,467,9), XSPR_MASK, PPC|POWER, { RS } },
2633 { "mttid", XSPR(31,467,17), XSPR_MASK, POWER, { RS } },
2634 { "mtdsisr", XSPR(31,467,18), XSPR_MASK, PPC|POWER, { RS } },
2635 { "mtdar", XSPR(31,467,19), XSPR_MASK, PPC|POWER, { RS } },
2636 { "mtrtcu", XSPR(31,467,20), XSPR_MASK, PPC|POWER, { RS } },
2637 { "mtrtcl", XSPR(31,467,21), XSPR_MASK, PPC|POWER, { RS } },
2638 { "mtdec", XSPR(31,467,22), XSPR_MASK, PPC|POWER, { RS } },
2639 { "mtsdr0", XSPR(31,467,24), XSPR_MASK, POWER, { RS } },
2640 { "mtsdr1", XSPR(31,467,25), XSPR_MASK, PPC|POWER, { RS } },
2641 { "mtsrr0", XSPR(31,467,26), XSPR_MASK, PPC|POWER, { RS } },
2642 { "mtsrr1", XSPR(31,467,27), XSPR_MASK, PPC|POWER, { RS } },
2643 { "mtsprg", XSPR(31,467,272), XSPRG_MASK, PPC, { SPRG, RS } },
2644 { "mtasr", XSPR(31,467,280), XSPR_MASK, PPC|B64, { RS } },
2645 { "mtear", XSPR(31,467,282), XSPR_MASK, PPC, { RS } },
2646 { "mttbl", XSPR(31,467,284), XSPR_MASK, PPC, { RS } },
2647 { "mttbu", XSPR(31,467,285), XSPR_MASK, PPC, { RS } },
2648 { "mtibatu", XSPR(31,467,528), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
2649 { "mtibatl", XSPR(31,467,529), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
2650 { "mtdbatu", XSPR(31,467,536), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
2651 { "mtdbatl", XSPR(31,467,537), XSPRBAT_MASK, PPC, { SPRBAT, RS } },
2652 { "mtspr", X(31,467), X_MASK, PPC|POWER, { SPR, RS } },
2654 { "dcbi", X(31,470), XRT_MASK, PPC, { RA, RB } },
2656 { "nand", XRC(31,476,0), X_MASK, PPC|POWER, { RA, RS, RB } },
2657 { "nand.", XRC(31,476,1), X_MASK, PPC|POWER, { RA, RS, RB } },
2659 { "nabs", XO(31,488,0,0), XORB_MASK, POWER|M601, { RT, RA } },
2660 { "nabs.", XO(31,488,0,1), XORB_MASK, POWER|M601, { RT, RA } },
2661 { "nabso", XO(31,488,1,0), XORB_MASK, POWER|M601, { RT, RA } },
2662 { "nabso.", XO(31,488,1,1), XORB_MASK, POWER|M601, { RT, RA } },
2664 { "divd", XO(31,489,0,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2665 { "divd.", XO(31,489,0,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2666 { "divdo", XO(31,489,1,0), XO_MASK, PPC|B64, { RT, RA, RB } },
2667 { "divdo.", XO(31,489,1,1), XO_MASK, PPC|B64, { RT, RA, RB } },
2669 { "divw", XO(31,491,0,0), XO_MASK, PPC, { RT, RA, RB } },
2670 { "divw.", XO(31,491,0,1), XO_MASK, PPC, { RT, RA, RB } },
2671 { "divwo", XO(31,491,1,0), XO_MASK, PPC, { RT, RA, RB } },
2672 { "divwo.", XO(31,491,1,1), XO_MASK, PPC, { RT, RA, RB } },
2674 { "slbia", X(31,498), 0xffffffff, PPC|B64, { 0 } },
2676 { "cli", X(31,502), XRB_MASK, POWER, { RT, RA } },
2678 { "mcrxr", X(31,512), XRARB_MASK|(3<<21), PPC|POWER, { BF } },
2680 { "clcs", X(31,531), XRB_MASK, POWER|M601, { RT, RA } },
2682 { "lswx", X(31,533), X_MASK, PPC, { RT, RA, RB } },
2683 { "lsx", X(31,533), X_MASK, POWER, { RT, RA, RB } },
2685 { "lwbrx", X(31,534), X_MASK, PPC, { RT, RA, RB } },
2686 { "lbrx", X(31,534), X_MASK, POWER, { RT, RA, RB } },
2688 { "lfsx", X(31,535), X_MASK, PPC|POWER, { FRT, RA, RB } },
2690 { "srw", XRC(31,536,0), X_MASK, PPC, { RA, RS, RB } },
2691 { "sr", XRC(31,536,0), X_MASK, POWER, { RA, RS, RB } },
2692 { "srw.", XRC(31,536,1), X_MASK, PPC, { RA, RS, RB } },
2693 { "sr.", XRC(31,536,1), X_MASK, POWER, { RA, RS, RB } },
2695 { "rrib", XRC(31,537,0), X_MASK, POWER|M601, { RA, RS, RB } },
2696 { "rrib.", XRC(31,537,1), X_MASK, POWER|M601, { RA, RS, RB } },
2698 { "srd", XRC(31,539,0), X_MASK, PPC|B64, { RA, RS, RB } },
2699 { "srd.", XRC(31,539,1), X_MASK, PPC|B64, { RA, RS, RB } },
2701 { "maskir", XRC(31,541,0), X_MASK, POWER|M601, { RA, RS, RB } },
2702 { "maskir.", XRC(31,541,1), X_MASK, POWER|M601, { RA, RS, RB } },
2704 { "tlbsync", X(31,566), 0xffffffff, PPC, { 0 } },
2706 { "lfsux", X(31,567), X_MASK, PPC|POWER, { FRT, RAS, RB } },
2708 { "mfsr", X(31,595), XRB_MASK|(1<<20), PPC|POWER|B32, { RT, SR } },
2710 { "lswi", X(31,597), X_MASK, PPC, { RT, RA, NB } },
2711 { "lsi", X(31,597), X_MASK, POWER, { RT, RA, NB } },
2713 { "sync", X(31,598), 0xffffffff, PPC, { 0 } },
2714 { "dcs", X(31,598), 0xffffffff, POWER, { 0 } },
2716 { "lfdx", X(31,599), X_MASK, PPC|POWER, { FRT, RA, RB } },
2718 { "mfsri", X(31,627), X_MASK, POWER, { RT, RA, RB } },
2720 { "dclst", X(31,630), XRB_MASK, POWER, { RS, RA } },
2722 { "lfdux", X(31,631), X_MASK, PPC|POWER, { FRT, RAS, RB } },
2724 { "mfsrin", X(31,659), XRA_MASK, PPC|B32, { RT, RB } },
2726 { "stswx", X(31,661), X_MASK, PPC, { RS, RA, RB } },
2727 { "stsx", X(31,661), X_MASK, POWER, { RS, RA, RB } },
2729 { "stwbrx", X(31,662), X_MASK, PPC, { RS, RA, RB } },
2730 { "stbrx", X(31,662), X_MASK, POWER, { RS, RA, RB } },
2732 { "stfsx", X(31,663), X_MASK, PPC|POWER, { FRS, RA, RB } },
2734 { "srq", XRC(31,664,0), X_MASK, POWER|M601, { RA, RS, RB } },
2735 { "srq.", XRC(31,664,1), X_MASK, POWER|M601, { RA, RS, RB } },
2737 { "sre", XRC(31,665,0), X_MASK, POWER|M601, { RA, RS, RB } },
2738 { "sre.", XRC(31,665,1), X_MASK, POWER|M601, { RA, RS, RB } },
2740 { "stfsux", X(31,695), X_MASK, PPC|POWER, { FRS, RAS, RB } },
2742 { "sriq", XRC(31,696,0), X_MASK, POWER|M601, { RA, RS, SH } },
2743 { "sriq.", XRC(31,696,1), X_MASK, POWER|M601, { RA, RS, SH } },
2745 { "stswi", X(31,725), X_MASK, PPC, { RS, RA, NB } },
2746 { "stsi", X(31,725), X_MASK, POWER, { RS, RA, NB } },
2748 { "stfdx", X(31,727), X_MASK, PPC|POWER, { FRS, RA, RB } },
2750 { "srlq", XRC(31,728,0), X_MASK, POWER|M601, { RA, RS, RB } },
2751 { "srlq.", XRC(31,728,1), X_MASK, POWER|M601, { RA, RS, RB } },
2753 { "sreq", XRC(31,729,0), X_MASK, POWER|M601, { RA, RS, RB } },
2754 { "sreq.", XRC(31,729,1), X_MASK, POWER|M601, { RA, RS, RB } },
2756 { "stfdux", X(31,759), X_MASK, PPC|POWER, { FRS, RAS, RB } },
2758 { "srliq", XRC(31,760,0), X_MASK, POWER|M601, { RA, RS, SH } },
2759 { "srliq.", XRC(31,760,1), X_MASK, POWER|M601, { RA, RS, SH } },
2761 { "lhbrx", X(31,790), X_MASK, PPC|POWER, { RT, RA, RB } },
2763 { "sraw", XRC(31,792,0), X_MASK, PPC, { RA, RS, RB } },
2764 { "sra", XRC(31,792,0), X_MASK, POWER, { RA, RS, RB } },
2765 { "sraw.", XRC(31,792,1), X_MASK, PPC, { RA, RS, RB } },
2766 { "sra.", XRC(31,792,1), X_MASK, POWER, { RA, RS, RB } },
2768 { "srad", XRC(31,794,0), X_MASK, PPC|B64, { RA, RS, RB } },
2769 { "srad.", XRC(31,794,1), X_MASK, PPC|B64, { RA, RS, RB } },
2771 { "rac", X(31,818), X_MASK, POWER, { RT, RA, RB } },
2773 { "srawi", XRC(31,824,0), X_MASK, PPC, { RA, RS, SH } },
2774 { "srai", XRC(31,824,0), X_MASK, POWER, { RA, RS, SH } },
2775 { "srawi.", XRC(31,824,1), X_MASK, PPC, { RA, RS, SH } },
2776 { "srai.", XRC(31,824,1), X_MASK, POWER, { RA, RS, SH } },
2778 { "eieio", X(31,854), 0xffffffff, PPC, { 0 } },
2780 { "sthbrx", X(31,918), X_MASK, PPC|POWER, { RS, RA, RB } },
2782 { "sraq", XRC(31,920,0), X_MASK, POWER|M601, { RA, RS, RB } },
2783 { "sraq.", XRC(31,920,1), X_MASK, POWER|M601, { RA, RS, RB } },
2785 { "srea", XRC(31,921,0), X_MASK, POWER|M601, { RA, RS, RB } },
2786 { "srea.", XRC(31,921,1), X_MASK, POWER|M601, { RA, RS, RB } },
2788 { "extsh", XRC(31,922,0), XRB_MASK, PPC, { RA, RS } },
2789 { "exts", XRC(31,922,0), XRB_MASK, POWER, { RA, RS } },
2790 { "extsh.", XRC(31,922,1), XRB_MASK, PPC, { RA, RS } },
2791 { "exts.", XRC(31,922,1), XRB_MASK, POWER, { RA, RS } },
2793 { "sraiq", XRC(31,952,0), X_MASK, POWER|M601, { RA, RS, SH } },
2794 { "sraiq.", XRC(31,952,1), X_MASK, POWER|M601, { RA, RS, SH } },
2796 { "extsb", XRC(31,954,0), XRB_MASK, PPC, { RA, RS} },
2797 { "extsb.", XRC(31,954,1), XRB_MASK, PPC, { RA, RS} },
2799 { "iccci", X(31,966), XRT_MASK, PPC, { RA, RB } },
2801 { "icbi", X(31,982), XRT_MASK, PPC, { RA, RB } },
2803 { "stfiwx", X(31,983), X_MASK, PPC, { FRS, RA, RB } },
2805 { "extsw", XRC(31,986,0), XRB_MASK, PPC, { RA, RS } },
2806 { "extsw.", XRC(31,986,1), XRB_MASK, PPC, { RA, RS } },
2808 { "dcbz", X(31,1014), XRT_MASK, PPC, { RA, RB } },
2809 { "dclz", X(31,1014), XRT_MASK, PPC, { RA, RB } },
2811 { "lwz", OP(32), OP_MASK, PPC, { RT, D, RA } },
2812 { "l", OP(32), OP_MASK, POWER, { RT, D, RA } },
2814 { "lwzu", OP(33), OP_MASK, PPC, { RT, D, RAL } },
2815 { "lu", OP(33), OP_MASK, POWER, { RT, D, RA } },
2817 { "lbz", OP(34), OP_MASK, PPC|POWER, { RT, D, RA } },
2819 { "lbzu", OP(35), OP_MASK, PPC|POWER, { RT, D, RAL } },
2821 { "stw", OP(36), OP_MASK, PPC, { RS, D, RA } },
2822 { "st", OP(36), OP_MASK, POWER, { RS, D, RA } },
2824 { "stwu", OP(37), OP_MASK, PPC, { RS, D, RAS } },
2825 { "stu", OP(37), OP_MASK, POWER, { RS, D, RA } },
2827 { "stb", OP(38), OP_MASK, PPC|POWER, { RS, D, RA } },
2829 { "stbu", OP(39), OP_MASK, PPC|POWER, { RS, D, RAS } },
2831 { "lhz", OP(40), OP_MASK, PPC|POWER, { RT, D, RA } },
2833 { "lhzu", OP(41), OP_MASK, PPC|POWER, { RT, D, RAL } },
2835 { "lha", OP(42), OP_MASK, PPC|POWER, { RT, D, RA } },
2837 { "lhau", OP(43), OP_MASK, PPC|POWER, { RT, D, RAL } },
2839 { "sth", OP(44), OP_MASK, PPC|POWER, { RS, D, RA } },
2841 { "sthu", OP(45), OP_MASK, PPC|POWER, { RS, D, RAS } },
2843 { "lmw", OP(46), OP_MASK, PPC, { RT, D, RAM } },
2844 { "lm", OP(46), OP_MASK, POWER, { RT, D, RA } },
2846 { "stmw", OP(47), OP_MASK, PPC, { RS, D, RA } },
2847 { "stm", OP(47), OP_MASK, POWER, { RS, D, RA } },
2849 { "lfs", OP(48), OP_MASK, PPC|POWER, { FRT, D, RA } },
2851 { "lfsu", OP(49), OP_MASK, PPC|POWER, { FRT, D, RAS } },
2853 { "lfd", OP(50), OP_MASK, PPC|POWER, { FRT, D, RA } },
2855 { "lfdu", OP(51), OP_MASK, PPC|POWER, { FRT, D, RAS } },
2857 { "stfs", OP(52), OP_MASK, PPC|POWER, { FRS, D, RA } },
2859 { "stfsu", OP(53), OP_MASK, PPC|POWER, { FRS, D, RAS } },
2861 { "stfd", OP(54), OP_MASK, PPC|POWER, { FRS, D, RA } },
2863 { "stfdu", OP(55), OP_MASK, PPC|POWER, { FRS, D, RAS } },
2865 { "lfq", OP(56), OP_MASK, POWER2, { FRT, D, RA } },
2867 { "lfqu", OP(57), OP_MASK, POWER2, { FRT, D, RA } },
2869 { "ld", DSO(58,0), DS_MASK, PPC|B64, { RT, DS, RA } },
2871 { "ldu", DSO(58,1), DS_MASK, PPC|B64, { RT, DS, RAL } },
2873 { "lwa", DSO(58,2), DS_MASK, PPC|B64, { RT, DS, RA } },
2875 { "fdivs", A(59,18,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2876 { "fdivs.", A(59,18,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2878 { "fsubs", A(59,20,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2879 { "fsubs.", A(59,20,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2881 { "fadds", A(59,21,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2882 { "fadds.", A(59,21,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2884 { "fsqrts", A(59,22,0), AFRAFRC_MASK, PPC, { FRT, FRB } },
2885 { "fsqrts.", A(59,22,1), AFRAFRC_MASK, PPC, { FRT, FRB } },
2887 { "fres", A(59,24,0), AFRAFRC_MASK, PPC, { FRT, FRB } },
2888 { "fres.", A(59,24,1), AFRAFRC_MASK, PPC, { FRT, FRB } },
2890 { "fmuls", A(59,25,0), AFRB_MASK, PPC, { FRT, FRA, FRC } },
2891 { "fmuls.", A(59,25,1), AFRB_MASK, PPC, { FRT, FRA, FRC } },
2893 { "fmsubs", A(59,28,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2894 { "fmsubs.", A(59,28,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2896 { "fmadds", A(59,29,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2897 { "fmadds.", A(59,29,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2899 { "fnmsubs", A(59,30,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2900 { "fnmsubs.",A(59,30,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2902 { "fnmadds", A(59,31,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2903 { "fnmadds.",A(59,31,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2905 { "stfq", OP(60), OP_MASK, POWER2, { FRS, D, RA } },
2907 { "stfqu", OP(61), OP_MASK, POWER2, { FRS, D, RA } },
2909 { "std", DSO(62,0), DS_MASK, PPC|B64, { RS, DS, RA } },
2911 { "stdu", DSO(62,1), DS_MASK, PPC|B64, { RS, DS, RAS } },
2913 { "fcmpu", X(63,0), X_MASK|(3<<21), PPC|POWER, { BF, FRA, FRB } },
2915 { "frsp", XRC(63,12,0), XRA_MASK, PPC|POWER, { FRT, FRB } },
2916 { "frsp.", XRC(63,12,1), XRA_MASK, PPC|POWER, { FRT, FRB } },
2918 { "fctiw", XRC(63,14,0), XRA_MASK, PPC, { FRT, FRB } },
2919 { "fcir", XRC(63,14,0), XRA_MASK, POWER2, { FRT, FRB } },
2920 { "fctiw.", XRC(63,14,1), XRA_MASK, PPC, { FRT, FRB } },
2921 { "fcir.", XRC(63,14,1), XRA_MASK, POWER2, { FRT, FRB } },
2923 { "fctiwz", XRC(63,15,0), XRA_MASK, PPC, { FRT, FRB } },
2924 { "fcirz", XRC(63,15,0), XRA_MASK, POWER2, { FRT, FRB } },
2925 { "fctiwz.", XRC(63,15,1), XRA_MASK, PPC, { FRT, FRB } },
2926 { "fcirz.", XRC(63,15,1), XRA_MASK, POWER2, { FRT, FRB } },
2928 { "fdiv", A(63,18,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2929 { "fd", A(63,18,0), AFRC_MASK, POWER, { FRT, FRA, FRB } },
2930 { "fdiv.", A(63,18,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2931 { "fd.", A(63,18,1), AFRC_MASK, POWER, { FRT, FRA, FRB } },
2933 { "fsub", A(63,20,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2934 { "fs", A(63,20,0), AFRC_MASK, POWER, { FRT, FRA, FRB } },
2935 { "fsub.", A(63,20,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2936 { "fs.", A(63,20,1), AFRC_MASK, POWER, { FRT, FRA, FRB } },
2938 { "fadd", A(63,21,0), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2939 { "fa", A(63,21,0), AFRC_MASK, POWER, { FRT, FRA, FRB } },
2940 { "fadd.", A(63,21,1), AFRC_MASK, PPC, { FRT, FRA, FRB } },
2941 { "fa.", A(63,21,1), AFRC_MASK, POWER, { FRT, FRA, FRB } },
2943 { "fsqrt", A(63,22,0), AFRAFRC_MASK, PPC|POWER2, { FRT, FRB } },
2944 { "fsqrt.", A(63,22,1), AFRAFRC_MASK, PPC|POWER2, { FRT, FRB } },
2946 { "fsel", A(63,23,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2947 { "fsel.", A(63,23,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2949 { "fmul", A(63,25,0), AFRB_MASK, PPC, { FRT, FRA, FRC } },
2950 { "fm", A(63,25,0), AFRB_MASK, POWER, { FRT, FRA, FRC } },
2951 { "fmul.", A(63,25,1), AFRB_MASK, PPC, { FRT, FRA, FRC } },
2952 { "fm.", A(63,25,1), AFRB_MASK, POWER, { FRT, FRA, FRC } },
2954 { "frsqrte", A(63,26,0), AFRAFRC_MASK, PPC, { FRT, FRB } },
2955 { "frsqrte.",A(63,26,1), AFRAFRC_MASK, PPC, { FRT, FRB } },
2957 { "fmsub", A(63,28,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2958 { "fms", A(63,28,0), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2959 { "fmsub.", A(63,28,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2960 { "fms.", A(63,28,1), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2962 { "fmadd", A(63,29,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2963 { "fma", A(63,29,0), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2964 { "fmadd.", A(63,29,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2965 { "fma.", A(63,29,1), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2967 { "fnmsub", A(63,30,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2968 { "fnms", A(63,30,0), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2969 { "fnmsub.", A(63,30,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2970 { "fnms.", A(63,30,1), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2972 { "fnmadd", A(63,31,0), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2973 { "fnma", A(63,31,0), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2974 { "fnmadd.", A(63,31,1), A_MASK, PPC, { FRT,FRA,FRC,FRB } },
2975 { "fnma.", A(63,31,1), A_MASK, POWER, { FRT,FRA,FRC,FRB } },
2977 { "fcmpo", X(63,30), X_MASK|(3<<21), PPC|POWER, { BF, FRA, FRB } },
2979 { "mtfsb1", XRC(63,38,0), XRARB_MASK, PPC|POWER, { BT } },
2980 { "mtfsb1.", XRC(63,38,1), XRARB_MASK, PPC|POWER, { BT } },
2982 { "fneg", XRC(63,40,0), XRA_MASK, PPC|POWER, { FRT, FRB } },
2983 { "fneg.", XRC(63,40,1), XRA_MASK, PPC|POWER, { FRT, FRB } },
2985 { "mcrfs", X(63,64), XRB_MASK|(3<<21)|(3<<16), PPC|POWER, { BF, BFA } },
2987 { "mtfsb0", XRC(63,70,0), XRARB_MASK, PPC|POWER, { BT } },
2988 { "mtfsb0.", XRC(63,70,1), XRARB_MASK, PPC|POWER, { BT } },
2990 { "fmr", XRC(63,72,0), XRA_MASK, PPC|POWER, { FRT, FRB } },
2991 { "fmr.", XRC(63,72,1), XRA_MASK, PPC|POWER, { FRT, FRB } },
2993 { "mtfsfi", XRC(63,134,0), XRA_MASK|(3<<21)|(1<<11), PPC|POWER, { BF, U } },
2994 { "mtfsfi.", XRC(63,134,1), XRA_MASK|(3<<21)|(1<<11), PPC|POWER, { BF, U } },
2996 { "fnabs", XRC(63,136,0), XRA_MASK, PPC|POWER, { FRT, FRB } },
2997 { "fnabs.", XRC(63,136,1), XRA_MASK, PPC|POWER, { FRT, FRB } },
2999 { "fabs", XRC(63,264,0), XRA_MASK, PPC|POWER, { FRT, FRB } },
3000 { "fabs.", XRC(63,264,1), XRA_MASK, PPC|POWER, { FRT, FRB } },
3002 { "mffs", XRC(63,583,0), XRARB_MASK, PPC|POWER, { FRT } },
3003 { "mffs.", XRC(63,583,1), XRARB_MASK, PPC|POWER, { FRT } },
3005 { "mtfsf", XFL(63,711,0), XFL_MASK, PPC|POWER, { FLM, FRB } },
3006 { "mtfsf.", XFL(63,711,1), XFL_MASK, PPC|POWER, { FLM, FRB } },
3008 { "fctid", XRC(63,814,0), XRA_MASK, PPC|B64, { FRT, FRB } },
3009 { "fctid.", XRC(63,814,1), XRA_MASK, PPC|B64, { FRT, FRB } },
3011 { "fctidz", XRC(63,815,0), XRA_MASK, PPC|B64, { FRT, FRB } },
3012 { "fctidz.", XRC(63,815,1), XRA_MASK, PPC|B64, { FRT, FRB } },
3014 { "fcfid", XRC(63,846,0), XRA_MASK, PPC|B64, { FRT, FRB } },
3015 { "fcfid.", XRC(63,846,1), XRA_MASK, PPC|B64, { FRT, FRB } },
3019 const int powerpc_num_opcodes =
3020 sizeof (powerpc_opcodes) / sizeof (powerpc_opcodes[0]);
3022 /* The macro table. This is only used by the assembler. */
3024 const struct powerpc_macro powerpc_macros[] = {
3025 { "extldi", 4, PPC|B64, "rldicr %0,%1,%3,(%2)-1" },
3026 { "extldi.", 4, PPC|B64, "rldicr. %0,%1,%3,(%2)-1" },
3027 { "extrdi", 4, PPC|B64, "rldicl %0,%1,(%2)+(%3),64-(%2)" },
3028 { "extrdi.", 4, PPC|B64, "rldicl. %0,%1,(%2)+(%3),64-(%2)" },
3029 { "insrdi", 4, PPC|B64, "rldimi %0,%1,64-((%2)+(%3)),%3" },
3030 { "insrdi.", 4, PPC|B64, "rldimi. %0,%1,64-((%2)+(%3)),%3" },
3031 { "rotrdi", 3, PPC|B64, "rldicl %0,%1,64-(%2),0" },
3032 { "rotrdi.", 3, PPC|B64, "rldicl. %0,%1,64-(%2),0" },
3033 { "sldi", 3, PPC|B64, "rldicr %0,%1,%2,63-(%2)" },
3034 { "sldi.", 3, PPC|B64, "rldicr. %0,%1,%2,63-(%2)" },
3035 { "srdi", 3, PPC|B64, "rldicl %0,%1,64-(%2),%2" },
3036 { "srdi.", 3, PPC|B64, "rldicl. %0,%1,64-(%2),%2" },
3037 { "clrrdi", 3, PPC|B64, "rldicr %0,%1,0,63-(%2)" },
3038 { "clrrdi.", 3, PPC|B64, "rldicr. %0,%1,0,63-(%2)" },
3039 { "clrlsldi",4, PPC|B64, "rldic %0,%1,%3,(%2)-(%3)" },
3040 { "clrlsldi.",4, PPC|B64, "rldic. %0,%1,%3,(%2)-(%3)" },
3042 { "extlwi", 4, PPC, "rlwinm %0,%1,%3,0,(%2)-1" },
3043 { "extlwi.", 4, PPC, "rlwinm. %0,%1,%3,0,(%2)-1" },
3044 { "extrwi", 4, PPC, "rlwinm %0,%1,(%2)+(%3),32-(%2),31" },
3045 { "extrwi.", 4, PPC, "rlwinm. %0,%1,(%2)+(%3),32-(%2),31" },
3046 { "inslwi", 4, PPC, "rlwimi %0,%1,32-(%3),%3,(%2)+(%3)-1" },
3047 { "inslwi.", 4, PPC, "rlwimi. %0,%1,32-(%3),%3,(%2)+(%3)-1" },
3048 { "insrwi", 4, PPC, "rlwimi %0,%1,32-((%2)+(%3)),%3,(%2)+(%3)-1" },
3049 { "insrwi.", 4, PPC, "rlwimi. %0,%1,32-((%2)+(%3)),%3,(%2)+(%3)-1"},
3050 { "rotrwi", 3, PPC, "rlwinm %0,%1,32-(%2),0,31" },
3051 { "rotrwi.", 3, PPC, "rlwinm. %0,%1,32-(%2),0,31" },
3052 { "slwi", 3, PPC, "rlwinm %0,%1,%2,0,31-(%2)" },
3053 { "sli", 3, POWER, "rlinm %0,%1,%2,0,31-(%2)" },
3054 { "slwi.", 3, PPC, "rlwinm. %0,%1,%2,0,31-(%2)" },
3055 { "sli.", 3, POWER, "rlinm. %0,%1,%2,0,31-(%2)" },
3056 { "srwi", 3, PPC, "rlwinm %0,%1,32-(%2),%2,31" },
3057 { "sri", 3, POWER, "rlinm %0,%1,32-(%2),%2,31" },
3058 { "srwi.", 3, PPC, "rlwinm. %0,%1,32-(%2),%2,31" },
3059 { "sri.", 3, POWER, "rlinm. %0,%1,32-(%2),%2,31" },
3060 { "clrrwi", 3, PPC, "rlwinm %0,%1,0,0,31-(%2)" },
3061 { "clrrwi.", 3, PPC, "rlwinm. %0,%1,0,0,31-(%2)" },
3062 { "clrlslwi",4, PPC, "rlwinm %0,%1,%3,(%2)-(%3),31-(%3)" },
3063 { "clrlslwi.",4, PPC, "rlwinm. %0,%1,%3,(%2)-(%3),31-(%3)" },
3067 const int powerpc_num_macros =
3068 sizeof (powerpc_macros) / sizeof (powerpc_macros[0]);
3070 static int
3071 print_insn_powerpc (disassemble_info *info, uint32_t insn, unsigned memaddr,
3072 int dialect);
3074 /* Print a big endian PowerPC instruction. For convenience, also
3075 disassemble instructions supported by the Motorola PowerPC 601. */
3077 int print_insn_ppc (bfd_vma pc, disassemble_info *info)
3079 uint32_t opc;
3080 bfd_byte buf[4];
3082 (*info->read_memory_func)(pc, buf, 4, info);
3083 if (info->endian == BFD_ENDIAN_BIG)
3084 opc = bfd_getb32(buf);
3085 else
3086 opc = bfd_getl32(buf);
3087 if (info->mach == bfd_mach_ppc64) {
3088 return print_insn_powerpc (info, opc, pc,
3089 PPC | B64);
3090 } else {
3091 return print_insn_powerpc (info, opc, pc,
3092 PPC | B32 | M601);
3096 /* Print a PowerPC or POWER instruction. */
3098 static int
3099 print_insn_powerpc (disassemble_info *info, uint32_t insn, unsigned memaddr,
3100 int dialect)
3102 const struct powerpc_opcode *opcode;
3103 const struct powerpc_opcode *opcode_end;
3104 uint32_t op;
3106 /* Get the major opcode of the instruction. */
3107 op = PPC_OP (insn);
3109 /* Find the first match in the opcode table. We could speed this up
3110 a bit by doing a binary search on the major opcode. */
3111 opcode_end = powerpc_opcodes + powerpc_num_opcodes;
3112 for (opcode = powerpc_opcodes; opcode < opcode_end; opcode++)
3114 uint32_t table_op;
3115 const unsigned char *opindex;
3116 const struct powerpc_operand *operand;
3117 int invalid;
3118 int need_comma;
3119 int need_paren;
3121 table_op = PPC_OP (opcode->opcode);
3122 if (op < table_op)
3123 break;
3124 if (op > table_op)
3125 continue;
3127 if ((insn & opcode->mask) != opcode->opcode
3128 || (opcode->flags & dialect) == 0)
3129 continue;
3131 /* Make two passes over the operands. First see if any of them
3132 have extraction functions, and, if they do, make sure the
3133 instruction is valid. */
3134 invalid = 0;
3135 for (opindex = opcode->operands; *opindex != 0; opindex++)
3137 operand = powerpc_operands + *opindex;
3138 if (operand->extract)
3139 (*operand->extract) (insn, &invalid);
3141 if (invalid)
3142 continue;
3144 /* The instruction is valid. */
3145 (*info->fprintf_func)(info->stream, "%s", opcode->name);
3146 if (opcode->operands[0] != 0)
3147 (*info->fprintf_func)(info->stream, "\t");
3149 /* Now extract and print the operands. */
3150 need_comma = 0;
3151 need_paren = 0;
3152 for (opindex = opcode->operands; *opindex != 0; opindex++)
3154 int32_t value;
3156 operand = powerpc_operands + *opindex;
3158 /* Operands that are marked FAKE are simply ignored. We
3159 already made sure that the extract function considered
3160 the instruction to be valid. */
3161 if ((operand->flags & PPC_OPERAND_FAKE) != 0)
3162 continue;
3164 /* Extract the value from the instruction. */
3165 if (operand->extract)
3166 value = (*operand->extract) (insn, (int *) 0);
3167 else
3169 value = (insn >> operand->shift) & ((1 << operand->bits) - 1);
3170 if ((operand->flags & PPC_OPERAND_SIGNED) != 0
3171 && (value & (1 << (operand->bits - 1))) != 0)
3172 value -= 1 << operand->bits;
3175 /* If the operand is optional, and the value is zero, don't
3176 print anything. */
3177 if ((operand->flags & PPC_OPERAND_OPTIONAL) != 0
3178 && (operand->flags & PPC_OPERAND_NEXT) == 0
3179 && value == 0)
3180 continue;
3182 if (need_comma)
3184 (*info->fprintf_func)(info->stream, ",");
3185 need_comma = 0;
3188 /* Print the operand as directed by the flags. */
3189 if ((operand->flags & PPC_OPERAND_GPR) != 0)
3190 (*info->fprintf_func)(info->stream, "r%d", value);
3191 else if ((operand->flags & PPC_OPERAND_FPR) != 0)
3192 (*info->fprintf_func)(info->stream, "f%d", value);
3193 else if ((operand->flags & PPC_OPERAND_RELATIVE) != 0)
3194 (*info->fprintf_func)(info->stream, "%08X", memaddr + value);
3195 else if ((operand->flags & PPC_OPERAND_ABSOLUTE) != 0)
3196 (*info->fprintf_func)(info->stream, "%08X", value & 0xffffffff);
3197 else if ((operand->flags & PPC_OPERAND_CR) == 0
3198 || (dialect & PPC_OPCODE_PPC) == 0)
3199 (*info->fprintf_func)(info->stream, "%d", value);
3200 else
3202 if (operand->bits == 3)
3203 (*info->fprintf_func)(info->stream, "cr%d", value);
3204 else
3206 static const char *cbnames[4] = { "lt", "gt", "eq", "so" };
3207 int cr;
3208 int cc;
3210 cr = value >> 2;
3211 if (cr != 0)
3212 (*info->fprintf_func)(info->stream, "4*cr%d", cr);
3213 cc = value & 3;
3214 if (cc != 0)
3216 if (cr != 0)
3217 (*info->fprintf_func)(info->stream, "+");
3218 (*info->fprintf_func)(info->stream, "%s", cbnames[cc]);
3223 if (need_paren)
3225 (*info->fprintf_func)(info->stream, ")");
3226 need_paren = 0;
3229 if ((operand->flags & PPC_OPERAND_PARENS) == 0)
3230 need_comma = 1;
3231 else
3233 (*info->fprintf_func)(info->stream, "(");
3234 need_paren = 1;
3238 /* We have found and printed an instruction; return. */
3239 return 4;
3242 /* We could not find a match. */
3243 (*info->fprintf_func)(info->stream, ".long 0x%x", insn);
3245 return 4;