projects / deliverable / binutils-gdb.git / blob
? search:
summary | shortlog | log | commit | commitdiff | tree
blame | history | raw | HEAD
More portability patches. Include sysdep.h everywhere.
[deliverable/binutils-gdb.git] / opcodes / i370-opc.c
1 /* i370-opc.c -- Instruction 370 (ESA/390) architecture opcode list
2 Copyright 1994, 1999, 2000 Free Software Foundation, Inc.
3 PowerPC version written by Ian Lance Taylor, Cygnus Support
4 Rewritten for i370 ESA/390 support by Linas Vepstas <linas@linas.org> 1998, 1999
5
6 This file is part of GDB, GAS, and the GNU binutils.
7
8 GDB, GAS, and the GNU binutils are free software; you can redistribute
9 them and/or modify them under the terms of the GNU General Public
10 License as published by the Free Software Foundation; either version
11 2, or (at your option) any later version.
12
13 GDB, GAS, and the GNU binutils are distributed in the hope that they
14 will be useful, but WITHOUT ANY WARRANTY; without even the implied
15 warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
16 the GNU General Public License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with this file; see the file COPYING. If not, write to the Free
20 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
21 02111-1307, USA. */
22
23 #include <stdio.h>
24 #include "sysdep.h"
25 #include "opcode/i370.h"
26
27 /* This file holds the i370 opcode table. The opcode table
28 includes almost all of the extended instruction mnemonics. This
29 permits the disassembler to use them, and simplifies the assembler
30 logic, at the cost of increasing the table size. The table is
31 strictly constant data, so the compiler should be able to put it in
32 the .text section.
33
34 This file also holds the operand table. All knowledge about
35 inserting operands into instructions and vice-versa is kept in this
36 file. */
37 \f
38 /* Local insertion and extraction functions. */
39 static i370_insn_t insert_ss_b2 PARAMS (( i370_insn_t, long, const char **));
40 static i370_insn_t insert_ss_d2 PARAMS (( i370_insn_t, long, const char **));
41 static i370_insn_t insert_rxf_r3 PARAMS (( i370_insn_t, long, const char **));
42 static long extract_ss_b2 PARAMS (( i370_insn_t, int *));
43 static long extract_ss_d2 PARAMS (( i370_insn_t, int *));
44 static long extract_rxf_r3 PARAMS (( i370_insn_t, int *));
45
46 \f
47 /* The operands table.
48 The fields are bits, shift, insert, extract, flags, name.
49 The types:
50 I370_OPERAND_GPR register, must name a register, must be present
51 I370_OPERAND_RELATIVE displacement or legnth field, must be present
52 I370_OPERAND_BASE base register; if present, must name a register
53 if absent, should take value of zero
54 I370_OPERAND_INDEX index register; if present, must name a register
55 if absent, should take value of zero
56 I370_OPERAND_OPTIONAL other optional operand (usuall reg?)
57 */
58
59 const struct i370_operand i370_operands[] =
60 {
61 /* The zero index is used to indicate the end of the list of
62 operands. */
63 #define UNUSED 0
64 { 0, 0, 0, 0, 0, "unused" },
65
66 /* The R1 register field in an RR form instruction. */
67 #define RR_R1 (UNUSED + 1)
68 #define RR_R1_MASK (0xf << 4)
69 { 4, 4, 0, 0, I370_OPERAND_GPR, "RR R1" },
70
71 /* The R2 register field in an RR form instruction. */
72 #define RR_R2 (RR_R1 + 1)
73 #define RR_R2_MASK (0xf)
74 { 4, 0, 0, 0, I370_OPERAND_GPR, "RR R2" },
75
76 /* The I field in an RR form SVC-style instruction. */
77 #define RR_I (RR_R2 + 1)
78 #define RR_I_MASK (0xff)
79 { 8, 0, 0, 0, I370_OPERAND_RELATIVE, "RR I (svc)" },
80
81 /* The R1 register field in an RRE form instruction. */
82 #define RRE_R1 (RR_I + 1)
83 #define RRE_R1_MASK (0xf << 4)
84 { 4, 4, 0, 0, I370_OPERAND_GPR, "RRE R1" },
85
86 /* The R2 register field in an RRE form instruction. */
87 #define RRE_R2 (RRE_R1 + 1)
88 #define RRE_R2_MASK (0xf)
89 { 4, 0, 0, 0, I370_OPERAND_GPR, "RRE R2" },
90
91 /* The R1 register field in an RRF form instruction. */
92 #define RRF_R1 (RRE_R2 + 1)
93 #define RRF_R1_MASK (0xf << 4)
94 { 4, 4, 0, 0, I370_OPERAND_GPR, "RRF R1" },
95
96 /* The R2 register field in an RRF form instruction. */
97 #define RRF_R2 (RRF_R1 + 1)
98 #define RRF_R2_MASK (0xf)
99 { 4, 0, 0, 0, I370_OPERAND_GPR, "RRF R2" },
100
101 /* The R3 register field in an RRF form instruction. */
102 #define RRF_R3 (RRF_R2 + 1)
103 #define RRF_R3_MASK (0xf << 12)
104 { 4, 12, 0, 0, I370_OPERAND_GPR, "RRF R3" },
105
106 /* The R1 register field in an RX or RS form instruction. */
107 #define RX_R1 (RRF_R3 + 1)
108 #define RX_R1_MASK (0xf << 20)
109 { 4, 20, 0, 0, I370_OPERAND_GPR, "RX R1" },
110
111 /* The X2 index field in an RX form instruction. */
112 #define RX_X2 (RX_R1 + 1)
113 #define RX_X2_MASK (0xf << 16)
114 { 4, 16, 0, 0, I370_OPERAND_GPR | I370_OPERAND_INDEX, "RX X2"},
115
116 /* The B2 base field in an RX form instruction. */
117 #define RX_B2 (RX_X2 + 1)
118 #define RX_B2_MASK (0xf << 12)
119 { 4, 12, 0, 0, I370_OPERAND_GPR | I370_OPERAND_BASE, "RX B2"},
120
121 /* The D2 displacement field in an RX form instruction. */
122 #define RX_D2 (RX_B2 + 1)
123 #define RX_D2_MASK (0xfff)
124 { 12, 0, 0, 0, I370_OPERAND_RELATIVE, "RX D2"},
125
126 /* The R3 register field in an RXF form instruction. */
127 #define RXF_R3 (RX_D2 + 1)
128 #define RXF_R3_MASK (0xf << 12)
129 { 4, 12, insert_rxf_r3, extract_rxf_r3, I370_OPERAND_GPR, "RXF R3" },
130
131 /* The D2 displacement field in an RS form instruction. */
132 #define RS_D2 (RXF_R3 + 1)
133 #define RS_D2_MASK (0xfff)
134 { 12, 0, 0, 0, I370_OPERAND_RELATIVE, "RS D2"},
135
136 /* The R3 register field in an RS form instruction. */
137 #define RS_R3 (RS_D2 + 1)
138 #define RS_R3_MASK (0xf << 16)
139 { 4, 16, 0, 0, I370_OPERAND_GPR, "RS R3" },
140
141 /* The B2 base field in an RS form instruction. */
142 #define RS_B2 (RS_R3 + 1)
143 #define RS_B2_MASK (0xf << 12)
144 { 4, 12, 0, 0, I370_OPERAND_GPR | I370_OPERAND_BASE | I370_OPERAND_SBASE, "RS B2"},
145
146 /* The optional B2 base field in an RS form instruction. */
147 /* Note that this field will almost always be absent */
148 #define RS_B2_OPT (RS_B2 + 1)
149 #define RS_B2_OPT_MASK (0xf << 12)
150 { 4, 12, 0, 0, I370_OPERAND_GPR | I370_OPERAND_OPTIONAL, "RS B2 OPT"},
151
152 /* The R1 register field in an RSI form instruction. */
153 #define RSI_R1 (RS_B2_OPT + 1)
154 #define RSI_R1_MASK (0xf << 20)
155 { 4, 20, 0, 0, I370_OPERAND_GPR, "RSI R1" },
156
157 /* The R3 register field in an RSI form instruction. */
158 #define RSI_R3 (RSI_R1 + 1)
159 #define RSI_R3_MASK (0xf << 16)
160 { 4, 16, 0, 0, I370_OPERAND_GPR, "RSI R3" },
161
162 /* The I2 immediate field in an RSI form instruction. */
163 #define RSI_I2 (RSI_R3 + 1)
164 #define RSI_I2_MASK (0xffff)
165 { 16, 0, 0, 0, I370_OPERAND_RELATIVE, "RSI I2" },
166
167 /* The R1 register field in an RI form instruction. */
168 #define RI_R1 (RSI_I2 + 1)
169 #define RI_R1_MASK (0xf << 20)
170 { 4, 20, 0, 0, I370_OPERAND_GPR, "RI R1" },
171
172 /* The I2 immediate field in an RI form instruction. */
173 #define RI_I2 (RI_R1 + 1)
174 #define RI_I2_MASK (0xffff)
175 { 16, 0, 0, 0, I370_OPERAND_RELATIVE, "RI I2" },
176
177 /* The I2 index field in an SI form instruction. */
178 #define SI_I2 (RI_I2 + 1)
179 #define SI_I2_MASK (0xff << 16)
180 { 8, 16, 0, 0, I370_OPERAND_RELATIVE, "SI I2"},
181
182 /* The B1 base register field in an SI form instruction. */
183 #define SI_B1 (SI_I2 + 1)
184 #define SI_B1_MASK (0xf << 12)
185 { 4, 12, 0, 0, I370_OPERAND_GPR, "SI B1" },
186
187 /* The D1 displacement field in an SI form instruction. */
188 #define SI_D1 (SI_B1 + 1)
189 #define SI_D1_MASK (0xfff)
190 { 12, 0, 0, 0, I370_OPERAND_RELATIVE, "SI D1" },
191
192 /* The B2 base register field in an S form instruction. */
193 #define S_B2 (SI_D1 + 1)
194 #define S_B2_MASK (0xf << 12)
195 { 4, 12, 0, 0, I370_OPERAND_GPR | I370_OPERAND_BASE | I370_OPERAND_SBASE, "S B2" },
196
197 /* The D2 displacement field in an S form instruction. */
198 #define S_D2 (S_B2 + 1)
199 #define S_D2_MASK (0xfff)
200 { 12, 0, 0, 0, I370_OPERAND_RELATIVE, "S D2" },
201
202 /* The L length field in an SS form instruction. */
203 #define SS_L (S_D2 + 1)
204 #define SS_L_MASK (0xffff<<16)
205 { 8, 16, 0, 0, I370_OPERAND_RELATIVE | I370_OPERAND_LENGTH, "SS L" },
206
207 /* The B1 base register field in an SS form instruction. */
208 #define SS_B1 (SS_L + 1)
209 #define SS_B1_MASK (0xf << 12)
210 { 4, 12, 0, 0, I370_OPERAND_GPR, "SS B1" },
211
212 /* The D1 displacement field in an SS form instruction. */
213 #define SS_D1 (SS_B1 + 1)
214 #define SS_D1_MASK (0xfff)
215 { 12, 0, 0, 0, I370_OPERAND_RELATIVE, "SS D1" },
216
217 /* The B2 base register field in an SS form instruction. */
218 #define SS_B2 (SS_D1 + 1)
219 #define SS_B2_MASK (0xf << 12)
220 { 4, 12, insert_ss_b2, extract_ss_b2, I370_OPERAND_GPR | I370_OPERAND_BASE | I370_OPERAND_SBASE, "SS B2" },
221
222 /* The D2 displacement field in an SS form instruction. */
223 #define SS_D2 (SS_B2 + 1)
224 #define SS_D2_MASK (0xfff)
225 { 12, 0, insert_ss_d2, extract_ss_d2, I370_OPERAND_RELATIVE, "SS D2" },
226
227
228 };
229
230 /* The functions used to insert and extract complicated operands. */
231
232 /*ARGSUSED*/
233 static i370_insn_t
234 insert_ss_b2 (insn, value, errmsg)
235 i370_insn_t insn;
236 long value;
237 const char **errmsg;
238 {
239 insn.i[1] |= (value & 0xf) << 28;
240 return insn;
241 }
242
243 static i370_insn_t
244 insert_ss_d2 (insn, value, errmsg)
245 i370_insn_t insn;
246 long value;
247 const char **errmsg;
248 {
249 insn.i[1] |= (value & 0xfff) << 16;
250 return insn;
251 }
252
253 static i370_insn_t
254 insert_rxf_r3 (insn, value, errmsg)
255 i370_insn_t insn;
256 long value;
257 const char **errmsg;
258 {
259 insn.i[1] |= (value & 0xf) << 28;
260 return insn;
261 }
262
263 static long
264 extract_ss_b2 (insn, invalid)
265 i370_insn_t insn;
266 int *invalid;
267 {
268 return (insn.i[1] >>28) & 0xf;
269 }
270
271 static long
272 extract_ss_d2 (insn, invalid)
273 i370_insn_t insn;
274 int *invalid;
275 {
276 return (insn.i[1] >>16) & 0xfff;
277 }
278
279 static long
280 extract_rxf_r3 (insn, invalid)
281 i370_insn_t insn;
282 int *invalid;
283 {
284 return (insn.i[1] >>28) & 0xf;
285 }
286
287 \f
288 /* Macros used to form opcodes. */
289
290 /* The short-instruction opcode. */
291 #define OPS(x) ((((unsigned short)(x)) & 0xff) << 8)
292 #define OPS_MASK OPS (0xff)
293
294 /* the extended instruction opcode */
295 #define XOPS(x) ((((unsigned short)(x)) & 0xff) << 24)
296 #define XOPS_MASK XOPS (0xff)
297
298 /* the S instruction opcode */
299 #define SOPS(x) ((((unsigned short)(x)) & 0xffff) << 16)
300 #define SOPS_MASK SOPS (0xffff)
301
302 /* the E instruction opcode */
303 #define EOPS(x) (((unsigned short)(x)) & 0xffff)
304 #define EOPS_MASK EOPS (0xffff)
305
306 /* the RI instruction opcode */
307 #define ROPS(x) (((((unsigned short)(x)) & 0xff0) << 20) | \
308 ((((unsigned short)(x)) & 0x00f) << 16))
309 #define ROPS_MASK ROPS (0xfff)
310
311 /* --------------------------------------------------------- */
312 /* An E form instruction. */
313 #define E(op) (EOPS (op))
314 #define E_MASK E (0xffff)
315
316 /* An RR form instruction. */
317 #define RR(op, r1, r2) \
318 (OPS (op) | ((((unsigned short)(r1)) & 0xf) << 4) | \
319 ((((unsigned short)(r2)) & 0xf) ))
320
321 #define RR_MASK RR (0xff, 0x0, 0x0)
322
323 /* An SVC-style instruction. */
324 #define SVC(op, i) \
325 (OPS (op) | (((unsigned short)(i)) & 0xff))
326
327 #define SVC_MASK SVC (0xff, 0x0)
328
329 /* An RRE form instruction. */
330 #define RRE(op, r1, r2) \
331 (SOPS (op) | ((((unsigned short)(r1)) & 0xf) << 4) | \
332 ((((unsigned short)(r2)) & 0xf) ))
333
334 #define RRE_MASK RRE (0xffff, 0x0, 0x0)
335
336 /* An RRF form instruction. */
337 #define RRF(op, r3, r1, r2) \
338 (SOPS (op) | ((((unsigned short)(r3)) & 0xf) << 12) | \
339 ((((unsigned short)(r1)) & 0xf) << 4) | \
340 ((((unsigned short)(r2)) & 0xf) ))
341
342 #define RRF_MASK RRF (0xffff, 0x0, 0x0, 0x0)
343
344 /* An RX form instruction. */
345 #define RX(op, r1, x2, b2, d2) \
346 (XOPS(op) | ((((unsigned short)(r1)) & 0xf) << 20) | \
347 ((((unsigned short)(x2)) & 0xf) << 16) | \
348 ((((unsigned short)(b2)) & 0xf) << 12) | \
349 ((((unsigned short)(d2)) & 0xfff)))
350
351 #define RX_MASK RX (0xff, 0x0, 0x0, 0x0, 0x0)
352
353 /* An RXE form instruction high word. */
354 #define RXEH(op, r1, x2, b2, d2) \
355 (XOPS(op) | ((((unsigned short)(r1)) & 0xf) << 20) | \
356 ((((unsigned short)(x2)) & 0xf) << 16) | \
357 ((((unsigned short)(b2)) & 0xf) << 12) | \
358 ((((unsigned short)(d2)) & 0xfff)))
359
360 #define RXEH_MASK RXEH (0xff, 0, 0, 0, 0)
361
362 /* An RXE form instruction low word. */
363 #define RXEL(op) \
364 ((((unsigned short)(op)) & 0xff) << 16 )
365
366 #define RXEL_MASK RXEL (0xff)
367
368 /* An RXF form instruction high word. */
369 #define RXFH(op, r1, x2, b2, d2) \
370 (XOPS(op) | ((((unsigned short)(r1)) & 0xf) << 20) | \
371 ((((unsigned short)(x2)) & 0xf) << 16) | \
372 ((((unsigned short)(b2)) & 0xf) << 12) | \
373 ((((unsigned short)(d2)) & 0xfff)))
374
375 #define RXFH_MASK RXFH (0xff, 0, 0, 0, 0)
376
377 /* An RXF form instruction low word. */
378 #define RXFL(op, r3) \
379 (((((unsigned short)(r3)) & 0xf) << 28 ) | \
380 ((((unsigned short)(op)) & 0xff) << 16 ))
381
382 #define RXFL_MASK RXFL (0xff, 0)
383
384 /* An RS form instruction. */
385 #define RS(op, r1, b3, b2, d2) \
386 (XOPS(op) | ((((unsigned short)(r1)) & 0xf) << 20) | \
387 ((((unsigned short)(b3)) & 0xf) << 16) | \
388 ((((unsigned short)(b2)) & 0xf) << 12) | \
389 ((((unsigned short)(d2)) & 0xfff)))
390
391 #define RS_MASK RS (0xff, 0x0, 0x0, 0x0, 0x0)
392
393 /* An RSI form instruction. */
394 #define RSI(op, r1, r3, i2) \
395 (XOPS(op) | ((((unsigned short)(r1)) & 0xf) << 20) | \
396 ((((unsigned short)(r3)) & 0xf) << 16) | \
397 ((((unsigned short)(i2)) & 0xffff)))
398
399 #define RSI_MASK RSI (0xff, 0x0, 0x0, 0x0)
400
401 /* An RI form instruction. */
402 #define RI(op, r1, i2) \
403 (ROPS(op) | ((((unsigned short)(r1)) & 0xf) << 20) | \
404 ((((unsigned short)(i2)) & 0xffff)))
405
406 #define RI_MASK RI (0xfff, 0x0, 0x0)
407
408 /* An SI form instruction. */
409 #define SI(op, i2, b1, d1) \
410 (XOPS(op) | ((((unsigned short)(i2)) & 0xff) << 16) | \
411 ((((unsigned short)(b1)) & 0xf) << 12) | \
412 ((((unsigned short)(d1)) & 0xfff)))
413
414 #define SI_MASK SI (0xff, 0x0, 0x0, 0x0)
415
416 /* An S form instruction. */
417 #define S(op, b2, d2) \
418 (SOPS(op) | ((((unsigned short)(b2)) & 0xf) << 12) | \
419 ((((unsigned short)(d2)) & 0xfff)))
420
421 #define S_MASK S (0xffff, 0x0, 0x0)
422
423 /* An SS form instruction high word. */
424 #define SSH(op, l, b1, d1) \
425 (XOPS(op) | ((((unsigned short)(l)) & 0xff) << 16) | \
426 ((((unsigned short)(b1)) & 0xf) << 12) | \
427 ((((unsigned short)(d1)) & 0xfff)))
428
429 /* An SS form instruction low word. */
430 #define SSL(b2, d2) \
431 ( ((((unsigned short)(b1)) & 0xf) << 28) | \
432 ((((unsigned short)(d1)) & 0xfff) << 16 ))
433
434 #define SS_MASK SSH (0xff, 0x0, 0x0, 0x0)
435
436 /* An SSE form instruction high word. */
437 #define SSEH(op, b1, d1) \
438 (SOPS(op) | ((((unsigned short)(b1)) & 0xf) << 12) | \
439 ((((unsigned short)(d1)) & 0xfff)))
440
441 /* An SSE form instruction low word. */
442 #define SSEL(b2, d2) \
443 ( ((((unsigned short)(b1)) & 0xf) << 28) | \
444 ((((unsigned short)(d1)) & 0xfff) << 16 ))
445
446 #define SSE_MASK SSEH (0xffff, 0x0, 0x0)
447
448 \f
449 /* Smaller names for the flags so each entry in the opcodes table will
450 fit on a single line. These flags are set up so that e.g. IXA means
451 the insn is supported on the 370/XA or newer architecture.
452 Note that 370 or older obsolete insn's are not supported ...
453 */
454 #define IBF I370_OPCODE_ESA390_BF
455 #define IBS I370_OPCODE_ESA390_BS
456 #define ICK I370_OPCODE_ESA390_CK
457 #define ICM I370_OPCODE_ESA390_CM
458 #define IFX I370_OPCODE_ESA390_FX
459 #define IHX I370_OPCODE_ESA390_HX
460 #define IIR I370_OPCODE_ESA390_IR
461 #define IMI I370_OPCODE_ESA390_MI
462 #define IPC I370_OPCODE_ESA390_PC
463 #define IPL I370_OPCODE_ESA390_PL
464 #define IQR I370_OPCODE_ESA390_QR
465 #define IRP I370_OPCODE_ESA390_RP
466 #define ISA I370_OPCODE_ESA390_SA
467 #define ISG I370_OPCODE_ESA390_SG
468 #define ISR I370_OPCODE_ESA390_SR
469 #define ITR I370_OPCODE_ESA390_SR
470 #define I390 IBF | IBS | ICK | ICM | IIR | IFX | IHX | IMI | IPC | IPL | IQR | IRP | ISA | ISG | ISR | ITR | I370_OPCODE_ESA390
471 #define IESA I390 | I370_OPCODE_ESA370
472 #define IXA IESA | I370_OPCODE_370_XA
473 #define I370 IXA | I370_OPCODE_370
474 #define I360 I370 | I370_OPCODE_360
475
476 \f
477 /* The opcode table.
478
479 The format of the opcode table is:
480
481 NAME LEN OPCODE_HI OPCODE_LO MASK_HI MASK_LO FLAGS { OPERANDS }
482
483 NAME is the name of the instruction.
484 OPCODE is the instruction opcode.
485 MASK is the opcode mask; this is used to tell the disassembler
486 which bits in the actual opcode must match OPCODE.
487 FLAGS are flags indicated what processors support the instruction.
488 OPERANDS is the list of operands.
489
490 The disassembler reads the table in order and prints the first
491 instruction which matches, so this table is sorted to put more
492 specific instructions before more general instructions. It is also
493 sorted by major opcode. */
494
495 const struct i370_opcode i370_opcodes[] = {
496
497 /* E form instructions */
498 { "pr", 2, {E(0x0101), 0}, {E_MASK, 0}, IESA, {0} },
499
500 { "trap2", 2, {E(0x01FF), 0}, {E_MASK, 0}, ITR, {0} },
501 { "upt", 2, {E(0x0102), 0}, {E_MASK, 0}, IXA, {0} },
502
503 /* RR form instructions */
504 { "ar", 2, {RR(0x1a,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
505 { "adr", 2, {RR(0x2a,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
506 { "aer", 2, {RR(0x3a,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
507 { "alr", 2, {RR(0x1e,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
508 { "aur", 2, {RR(0x2e,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
509 { "awr", 2, {RR(0x3e,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
510 { "axr", 2, {RR(0x36,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
511 { "balr", 2, {RR(0x05,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
512 { "basr", 2, {RR(0x0d,0,0), 0}, {RR_MASK, 0}, IXA, {RR_R1, RR_R2} },
513 { "bassm", 2, {RR(0x0c,0,0), 0}, {RR_MASK, 0}, IXA, {RR_R1, RR_R2} },
514 { "bsm", 2, {RR(0x0b,0,0), 0}, {RR_MASK, 0}, IXA, {RR_R1, RR_R2} },
515 { "bcr", 2, {RR(0x07,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
516 { "bctr", 2, {RR(0x06,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
517 { "cdr", 2, {RR(0x29,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
518 { "cer", 2, {RR(0x39,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
519 { "clr", 2, {RR(0x15,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
520 { "clcl", 2, {RR(0x0f,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
521 { "cr", 2, {RR(0x19,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
522 { "ddr", 2, {RR(0x2d,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
523 { "der", 2, {RR(0x3d,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
524 { "dr", 2, {RR(0x1d,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
525 { "hdr", 2, {RR(0x24,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
526 { "her", 2, {RR(0x34,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
527 { "lcdr", 2, {RR(0x23,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
528 { "lcer", 2, {RR(0x33,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
529 { "lcr", 2, {RR(0x13,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
530 { "ldr", 2, {RR(0x28,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
531 { "ler", 2, {RR(0x38,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
532 { "lndr", 2, {RR(0x21,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
533 { "lner", 2, {RR(0x31,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
534 { "lnr", 2, {RR(0x11,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
535 { "lpdr", 2, {RR(0x20,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
536 { "lper", 2, {RR(0x30,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
537 { "lpr", 2, {RR(0x10,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
538 { "lr", 2, {RR(0x18,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
539 { "lrdr", 2, {RR(0x25,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
540 { "lrer", 2, {RR(0x35,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
541 { "ltdr", 2, {RR(0x22,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
542 { "lter", 2, {RR(0x32,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
543 { "ltr", 2, {RR(0x12,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
544 { "mdr", 2, {RR(0x2c,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
545 { "mer", 2, {RR(0x3c,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
546 { "mr", 2, {RR(0x1c,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
547 { "mvcl", 2, {RR(0x0e,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
548 { "mxdr", 2, {RR(0x27,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
549 { "mxr", 2, {RR(0x26,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
550 { "nr", 2, {RR(0x14,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
551 { "or", 2, {RR(0x16,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
552 { "sdr", 2, {RR(0x2b,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
553 { "ser", 2, {RR(0x3b,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
554 { "slr", 2, {RR(0x1f,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
555 { "spm", 2, {RR(0x04,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1} },
556 { "sr", 2, {RR(0x1b,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
557 { "sur", 2, {RR(0x3f,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
558 { "swr", 2, {RR(0x2f,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
559 { "sxr", 2, {RR(0x37,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
560 { "xr", 2, {RR(0x17,0,0), 0}, {RR_MASK, 0}, I370, {RR_R1, RR_R2} },
561
562 /* unusual RR formats */
563 { "svc", 2, {SVC(0x0a,0), 0}, {SVC_MASK, 0}, I370, {RR_I} },
564
565 /* RRE form instructions */
566 { "adbr", 4, {RRE(0xb31a,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
567 { "aebr", 4, {RRE(0xb30a,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
568 { "axbr", 4, {RRE(0xb34a,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
569 { "bakr", 4, {RRE(0xb240,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
570 { "bsa", 4, {RRE(0xb25a,0,0), 0}, {RRE_MASK, 0}, IBS, {RRE_R1, RRE_R2} },
571 { "bsg", 4, {RRE(0xb258,0,0), 0}, {RRE_MASK, 0}, ISG, {RRE_R1, RRE_R2} },
572 { "cdbr", 4, {RRE(0xb319,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
573 { "cdfbr", 4, {RRE(0xb395,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
574 { "cdfr", 4, {RRE(0xb3b5,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
575 { "cebr", 4, {RRE(0xb309,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
576 { "cefbr", 4, {RRE(0xb394,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
577 { "cefr", 4, {RRE(0xb3b4,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
578 { "cksm", 4, {RRE(0xb241,0,0), 0}, {RRE_MASK, 0}, ICK, {RRE_R1, RRE_R2} },
579 { "clst", 4, {RRE(0xb25d,0,0), 0}, {RRE_MASK, 0}, ISR, {RRE_R1, RRE_R2} },
580 { "cpya", 4, {RRE(0xb24d,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
581 { "cuse", 4, {RRE(0xb257,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
582 { "cxbr", 4, {RRE(0xb349,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
583 { "cxfbr", 4, {RRE(0xb396,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
584 { "cxfr", 4, {RRE(0xb3b6,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
585 { "cxr", 4, {RRE(0xb369,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
586 { "ddbr", 4, {RRE(0xb31d,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
587 { "debr", 4, {RRE(0xb30d,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
588 { "dxbr", 4, {RRE(0xb34d,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
589 { "dxr", 4, {RRE(0xb22d,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
590 { "ear", 4, {RRE(0xb24f,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
591 { "efpc", 4, {RRE(0xb38c,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
592 { "epar", 4, {RRE(0xb226,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1} },
593 { "ereg", 4, {RRE(0xb249,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
594 { "esar", 4, {RRE(0xb227,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1} },
595 { "esta", 4, {RRE(0xb24a,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
596 { "fidr", 4, {RRE(0xb37f,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
597 { "fier", 4, {RRE(0xb377,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
598 { "fixr", 4, {RRE(0xb367,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
599 { "iac", 4, {RRE(0xb224,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1} },
600 { "ipm", 4, {RRE(0xb222,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1} },
601 { "ipte", 4, {RRE(0xb221,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
602 { "iske", 4, {RRE(0xb229,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
603 { "ivsk", 4, {RRE(0xb223,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
604 { "kdbr", 4, {RRE(0xb318,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
605 { "kebr", 4, {RRE(0xb308,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
606 { "kxbr", 4, {RRE(0xb348,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
607 { "lcdbr", 4, {RRE(0xb313,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
608 { "lcebr", 4, {RRE(0xb303,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
609 { "lcxbr", 4, {RRE(0xb343,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
610 { "lcxr", 4, {RRE(0xb363,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
611 { "lder", 4, {RRE(0xb324,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
612 { "ldxbr", 4, {RRE(0xb345,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
613 { "ledbr", 4, {RRE(0xb344,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
614 { "lexbr", 4, {RRE(0xb346,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
615 { "lexr", 4, {RRE(0xb366,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
616 { "lndbr", 4, {RRE(0xb311,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
617 { "lnebr", 4, {RRE(0xb301,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
618 { "lnxbr", 4, {RRE(0xb341,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
619 { "lnxr", 4, {RRE(0xb361,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
620 { "lpdbr", 4, {RRE(0xb310,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
621 { "lpebr", 4, {RRE(0xb300,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
622 { "lpxbr", 4, {RRE(0xb340,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
623 { "lpxr", 4, {RRE(0xb360,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
624 { "ltdbr", 4, {RRE(0xb312,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
625 { "ltebr", 4, {RRE(0xb302,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
626 { "ltxbr", 4, {RRE(0xb342,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
627 { "ltxr", 4, {RRE(0xb362,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
628 { "lura", 4, {RRE(0xb24b,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
629 { "lxdr", 4, {RRE(0xb325,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
630 { "lxer", 4, {RRE(0xb326,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
631 { "lxr", 4, {RRE(0xb365,0,0), 0}, {RRE_MASK, 0}, IFX, {RRE_R1, RRE_R2} },
632 { "lzdr", 4, {RRE(0xb375,0,0), 0}, {RRE_MASK, 0}, IFX, {RRE_R1, RRE_R2} },
633 { "lzer", 4, {RRE(0xb374,0,0), 0}, {RRE_MASK, 0}, IFX, {RRE_R1, RRE_R2} },
634 { "lzxr", 4, {RRE(0xb376,0,0), 0}, {RRE_MASK, 0}, IFX, {RRE_R1, RRE_R2} },
635 { "mdbr", 4, {RRE(0xb31c,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
636 { "mdebr", 4, {RRE(0xb30c,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
637 { "meebr", 4, {RRE(0xb317,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
638 { "meer", 4, {RRE(0xb337,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
639 { "msr", 4, {RRE(0xb252,0,0), 0}, {RRE_MASK, 0}, IIR, {RRE_R1, RRE_R2} },
640 { "msta", 4, {RRE(0xb247,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1} },
641 { "mvpg", 4, {RRE(0xb254,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
642 { "mvst", 4, {RRE(0xb255,0,0), 0}, {RRE_MASK, 0}, ISR, {RRE_R1, RRE_R2} },
643 { "mxbr", 4, {RRE(0xb34c,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
644 { "mxdbr", 4, {RRE(0xb307,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
645 { "palb", 4, {RRE(0xb248,0,0), 0}, {RRE_MASK, 0}, IESA, {0} },
646 { "prbe", 4, {RRE(0xb22a,0,0), 0}, {RRE_MASK, 0}, I370, {RRE_R1, RRE_R2} },
647 { "pt", 4, {RRE(0xb228,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
648 { "rrbe", 4, {RRE(0xb22a,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
649 { "sar", 4, {RRE(0xb24e,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
650 { "sdbr", 4, {RRE(0xb31b,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
651 { "sebr", 4, {RRE(0xb30b,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
652 { "servc", 4, {RRE(0xb220,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
653 { "sfpc", 4, {RRE(0xb384,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
654 { "sqdbr", 4, {RRE(0xb315,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
655 { "sqdr", 4, {RRE(0xb244,0,0), 0}, {RRE_MASK, 0}, IQR, {RRE_R1, RRE_R2} },
656 { "sqebr", 4, {RRE(0xb314,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
657 { "sqer", 4, {RRE(0xb245,0,0), 0}, {RRE_MASK, 0}, IQR, {RRE_R1, RRE_R2} },
658 { "sqxbr", 4, {RRE(0xb316,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
659 { "sqxr", 4, {RRE(0xb336,0,0), 0}, {RRE_MASK, 0}, IHX, {RRE_R1, RRE_R2} },
660 { "srst", 4, {RRE(0xb25e,0,0), 0}, {RRE_MASK, 0}, ISR, {RRE_R1, RRE_R2} },
661 { "ssar", 4, {RRE(0xb225,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1} },
662 { "sske", 4, {RRE(0xb22b,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
663 { "stura", 4, {RRE(0xb246,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
664 { "sxbr", 4, {RRE(0xb34b,0,0), 0}, {RRE_MASK, 0}, IBF, {RRE_R1, RRE_R2} },
665 { "tar", 4, {RRE(0xb24c,0,0), 0}, {RRE_MASK, 0}, IESA, {RRE_R1, RRE_R2} },
666 { "tb", 4, {RRE(0xb22c,0,0), 0}, {RRE_MASK, 0}, IXA, {RRE_R1, RRE_R2} },
667 { "thdr", 4, {RRE(0xb359,0,0), 0}, {RRE_MASK, 0}, IFX, {RRE_R1, RRE_R2} },
668 { "thder", 4, {RRE(0xb359,0,0), 0}, {RRE_MASK, 0}, IFX, {RRE_R1, RRE_R2} },
669
670 /* RRF form instructions */
671 { "cfdbr", 4, {RRF(0xb399,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
672 { "cfdr", 4, {RRF(0xb3b9,0,0,0), 0}, {RRF_MASK, 0}, IHX, {RRF_R1, RRF_R3, RRF_R2} },
673 { "cfebr", 4, {RRF(0xb398,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
674 { "cfer", 4, {RRF(0xb3b8,0,0,0), 0}, {RRF_MASK, 0}, IHX, {RRF_R1, RRF_R3, RRF_R2} },
675 { "cfxbr", 4, {RRF(0xb39a,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
676 { "cfxr", 4, {RRF(0xb3ba,0,0,0), 0}, {RRF_MASK, 0}, IHX, {RRF_R1, RRF_R3, RRF_R2} },
677 { "didbr", 4, {RRF(0xb35b,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
678 { "diebr", 4, {RRF(0xb353,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
679 { "fidbr", 4, {RRF(0xb35f,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
680 { "fiebr", 4, {RRF(0xb357,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
681 { "fixbr", 4, {RRF(0xb347,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
682 { "madbr", 4, {RRF(0xb31e,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
683 { "maebr", 4, {RRF(0xb30e,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
684 { "msdbr", 4, {RRF(0xb31f,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
685 { "msebr", 4, {RRF(0xb30f,0,0,0), 0}, {RRF_MASK, 0}, IBF, {RRF_R1, RRF_R3, RRF_R2} },
686 { "tbdr", 4, {RRF(0xb351,0,0,0), 0}, {RRF_MASK, 0}, IFX, {RRF_R1, RRF_R3, RRF_R2} },
687 { "tbedr", 4, {RRF(0xb350,0,0,0), 0}, {RRF_MASK, 0}, IFX, {RRF_R1, RRF_R3, RRF_R2} },
688
689 /* RX form instructions */
690 { "a", 4, {RX(0x5a,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
691 { "ad", 4, {RX(0x6a,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
692 { "ae", 4, {RX(0x7a,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
693 { "ah", 4, {RX(0x4a,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
694 { "al", 4, {RX(0x5e,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
695 { "au", 4, {RX(0x7e,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
696 { "aw", 4, {RX(0x6e,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
697 { "bal", 4, {RX(0x45,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
698 { "bas", 4, {RX(0x4d,0,0,0,0), 0}, {RX_MASK, 0}, IXA, {RX_R1, RX_D2, RX_X2, RX_B2} },
699 { "bc", 4, {RX(0x47,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
700 { "bct", 4, {RX(0x46,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
701 { "c", 4, {RX(0x59,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
702 { "cd", 4, {RX(0x69,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
703 { "ce", 4, {RX(0x79,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
704 { "ch", 4, {RX(0x49,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
705 { "cl", 4, {RX(0x55,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
706 { "cvb", 4, {RX(0x4f,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
707 { "cvd", 4, {RX(0x4e,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
708 { "d", 4, {RX(0x5d,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
709 { "dd", 4, {RX(0x6d,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
710 { "de", 4, {RX(0x7d,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
711 { "ex", 4, {RX(0x44,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
712 { "ic", 4, {RX(0x43,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
713 { "l", 4, {RX(0x58,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
714 { "la", 4, {RX(0x41,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
715 { "lae", 4, {RX(0x51,0,0,0,0), 0}, {RX_MASK, 0}, IESA, {RX_R1, RX_D2, RX_X2, RX_B2} },
716 { "ld", 4, {RX(0x68,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
717 { "le", 4, {RX(0x78,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
718 { "lh", 4, {RX(0x48,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
719 { "lra", 4, {RX(0xb1,0,0,0,0), 0}, {RX_MASK, 0}, IXA, {RX_R1, RX_D2, RX_X2, RX_B2} },
720 { "m", 4, {RX(0x5c,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
721 { "md", 4, {RX(0x6c,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
722 { "me", 4, {RX(0x7c,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
723 { "mh", 4, {RX(0x4c,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
724 { "ms", 4, {RX(0x71,0,0,0,0), 0}, {RX_MASK, 0}, IIR, {RX_R1, RX_D2, RX_X2, RX_B2} },
725 { "mxd", 4, {RX(0x67,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
726 { "n", 4, {RX(0x54,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
727 { "o", 4, {RX(0x56,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
728 { "s", 4, {RX(0x5b,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
729 { "sd", 4, {RX(0x6b,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
730 { "se", 4, {RX(0x7b,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
731 { "sh", 4, {RX(0x4b,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
732 { "sl", 4, {RX(0x5f,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
733 { "st", 4, {RX(0x50,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
734 { "stc", 4, {RX(0x42,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
735 { "std", 4, {RX(0x60,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
736 { "ste", 4, {RX(0x70,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
737 { "sth", 4, {RX(0x40,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
738 { "su", 4, {RX(0x7f,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
739 { "sw", 4, {RX(0x6f,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
740 { "x", 4, {RX(0x57,0,0,0,0), 0}, {RX_MASK, 0}, I370, {RX_R1, RX_D2, RX_X2, RX_B2} },
741
742 /* RXE form instructions */
743 { "adb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x1a)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
744 { "aeb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x0a)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
745 { "cdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x19)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
746 { "ceb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x09)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
747 { "ddb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x1d)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
748 { "deb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x0d)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
749 { "kdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x18)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
750 { "keb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x08)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
751 { "lde", 6, {RXEH(0xed,0,0,0,0), RXEL(0x24)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
752 { "ldeb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x04)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
753 { "lxd", 6, {RXEH(0xed,0,0,0,0), RXEL(0x25)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
754 { "lxdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x05)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
755 { "lxe", 6, {RXEH(0xed,0,0,0,0), RXEL(0x26)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
756 { "lxeb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x06)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
757 { "mdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x1c)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
758 { "mdeb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x0c)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
759 { "mee", 6, {RXEH(0xed,0,0,0,0), RXEL(0x37)}, {RXEH_MASK, RXEL_MASK}, IHX, {RX_R1, RX_D2, RX_X2, RX_B2} },
760 { "meeb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x17)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
761 { "mxdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x07)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
762 { "sqd", 6, {RXEH(0xed,0,0,0,0), RXEL(0x35)}, {RXEH_MASK, RXEL_MASK}, IHX, {RX_R1, RX_D2, RX_X2, RX_B2} },
763 { "sqdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x15)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
764 { "sqe", 6, {RXEH(0xed,0,0,0,0), RXEL(0x34)}, {RXEH_MASK, RXEL_MASK}, IHX, {RX_R1, RX_D2, RX_X2, RX_B2} },
765 { "sqeb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x14)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
766 { "sdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x1b)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
767 { "seb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x0b)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
768 { "tcdb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x11)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
769 { "tceb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x10)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
770 { "tcxb", 6, {RXEH(0xed,0,0,0,0), RXEL(0x12)}, {RXEH_MASK, RXEL_MASK}, IBF, {RX_R1, RX_D2, RX_X2, RX_B2} },
771
772 /* RXF form instructions */
773 { "madb", 6, {RXFH(0xed,0,0,0,0), RXFL(0x1e,0)}, {RXFH_MASK, RXFL_MASK}, IBF, {RX_R1, RXF_R3, RX_D2, RX_X2, RX_B2} },
774 { "maeb", 6, {RXFH(0xed,0,0,0,0), RXFL(0x0e,0)}, {RXFH_MASK, RXFL_MASK}, IBF, {RX_R1, RXF_R3, RX_D2, RX_X2, RX_B2} },
775 { "msdb", 6, {RXFH(0xed,0,0,0,0), RXFL(0x1f,0)}, {RXFH_MASK, RXFL_MASK}, IBF, {RX_R1, RXF_R3, RX_D2, RX_X2, RX_B2} },
776 { "mseb", 6, {RXFH(0xed,0,0,0,0), RXFL(0x0f,0)}, {RXFH_MASK, RXFL_MASK}, IBF, {RX_R1, RXF_R3, RX_D2, RX_X2, RX_B2} },
777
778 /* RS form instructions */
779 { "bxh", 4, {RS(0x86,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
780 { "bxle", 4, {RS(0x87,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
781 { "cds", 4, {RS(0xbb,0,0,0,0), 0}, {RS_MASK, 0}, IXA, {RX_R1, RS_R3, RS_D2, RS_B2} },
782 { "clcle", 4, {RS(0xa9,0,0,0,0), 0}, {RS_MASK, 0}, ICM, {RX_R1, RS_R3, RS_D2, RS_B2} },
783 { "clm", 4, {RS(0xbd,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
784 { "cs", 4, {RS(0xba,0,0,0,0), 0}, {RS_MASK, 0}, IXA, {RX_R1, RS_R3, RS_D2, RS_B2} },
785 { "icm", 4, {RS(0xbf,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
786 { "lam", 4, {RS(0x9a,0,0,0,0), 0}, {RS_MASK, 0}, IESA, {RX_R1, RS_R3, RS_D2, RS_B2} },
787 { "lctl", 4, {RS(0xb7,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
788 { "lm", 4, {RS(0x98,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
789 { "mvcle", 4, {RS(0xa8,0,0,0,0), 0}, {RS_MASK, 0}, ICM, {RX_R1, RS_R3, RS_D2, RS_B2} },
790 { "sigp", 4, {RS(0xae,0,0,0,0), 0}, {RS_MASK, 0}, IXA, {RX_R1, RS_R3, RS_D2, RS_B2} },
791 { "stam", 4, {RS(0x9b,0,0,0,0), 0}, {RS_MASK, 0}, IESA, {RX_R1, RS_R3, RS_D2, RS_B2} },
792 { "stcm", 4, {RS(0xbe,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
793 { "stctl", 4, {RS(0xb6,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
794 { "stm", 4, {RS(0x90,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_R3, RS_D2, RS_B2} },
795 { "trace", 4, {RS(0x99,0,0,0,0), 0}, {RS_MASK, 0}, IXA, {RX_R1, RS_R3, RS_D2, RS_B2} },
796
797 /* RS form instructions with blank R3 and optional B2 (shift left/right) */
798 { "sla", 4, {RS(0x8b,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
799 { "slda", 4, {RS(0x8f,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
800 { "sldl", 4, {RS(0x8d,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
801 { "sll", 4, {RS(0x89,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
802 { "sra", 4, {RS(0x8a,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
803 { "srda", 4, {RS(0x8e,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
804 { "srdl", 4, {RS(0x8c,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
805 { "srl", 4, {RS(0x88,0,0,0,0), 0}, {RS_MASK, 0}, I370, {RX_R1, RS_D2, RS_B2_OPT} },
806
807 /* RSI form instructions */
808 { "brxh", 4, {RSI(0x84,0,0,0), 0}, {RSI_MASK, 0}, IIR, {RSI_R1, RSI_R3, RSI_I2} },
809 { "brxle", 4, {RSI(0x85,0,0,0), 0}, {RSI_MASK, 0}, IIR, {RSI_R1, RSI_R3, RSI_I2} },
810
811 /* RI form instructions */
812 { "ahi", 4, {RI(0xa7a,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
813 { "bras", 4, {RI(0xa75,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
814 { "brc", 4, {RI(0xa74,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
815 { "brct", 4, {RI(0xa76,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
816 { "chi", 4, {RI(0xa7e,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
817 { "lhi", 4, {RI(0xa78,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
818 { "mhi", 4, {RI(0xa7c,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
819 { "tmh", 4, {RI(0xa70,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
820 { "tml", 4, {RI(0xa71,0,0), 0}, {RI_MASK, 0}, IIR, {RI_R1, RI_I2} },
821
822 /* SI form instructions */
823 { "cli", 4, {SI(0x95,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
824 { "mc", 4, {SI(0xaf,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
825 { "mvi", 4, {SI(0x92,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
826 { "ni", 4, {SI(0x94,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
827 { "oi", 4, {SI(0x96,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
828 { "stnsm", 4, {SI(0xac,0,0,0), 0}, {SI_MASK, 0}, IXA, {SI_D1, SI_B1, SI_I2} },
829 { "stosm", 4, {SI(0xad,0,0,0), 0}, {SI_MASK, 0}, IXA, {SI_D1, SI_B1, SI_I2} },
830 { "tm", 4, {SI(0x91,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
831 { "xi", 4, {SI(0x97,0,0,0), 0}, {SI_MASK, 0}, I370, {SI_D1, SI_B1, SI_I2} },
832
833 /* S form instructions */
834 { "cfc", 4, {S(0xb21a,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
835 { "csch", 4, {S(0xb230,0,0), 0}, {S_MASK, 0}, IXA, {0} },
836 { "hsch", 4, {S(0xb231,0,0), 0}, {S_MASK, 0}, IXA, {0} },
837 { "ipk", 4, {S(0xb20b,0,0), 0}, {S_MASK, 0}, IXA, {0} },
838 { "lfpc", 4, {S(0xb29d,0,0), 0}, {S_MASK, 0}, IBF, {S_D2, S_B2} },
839 { "lpsw", 4, {S(0x8200,0,0), 0}, {S_MASK, 0}, I370, {S_D2, S_B2} },
840 { "msch", 4, {S(0xb232,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
841 { "pc", 4, {S(0xb218,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
842 { "pcf", 4, {S(0xb218,0,0), 0}, {S_MASK, 0}, IPC, {S_D2, S_B2} },
843 { "ptlb", 4, {S(0xb20d,0,0), 0}, {S_MASK, 0}, IXA, {0} },
844 { "rchp", 4, {S(0xb23b,0,0), 0}, {S_MASK, 0}, IXA, {0} },
845 { "rp", 4, {S(0xb277,0,0), 0}, {S_MASK, 0}, IRP, {0} },
846 { "rsch", 4, {S(0xb238,0,0), 0}, {S_MASK, 0}, IXA, {0} },
847 { "sac", 4, {S(0xb219,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
848 { "sacf", 4, {S(0xb279,0,0), 0}, {S_MASK, 0}, ISA, {S_D2, S_B2} },
849 { "sal", 4, {S(0xb237,0,0), 0}, {S_MASK, 0}, IXA, {0} },
850 { "schm", 4, {S(0xb23c,0,0), 0}, {S_MASK, 0}, IXA, {0} },
851 { "sck", 4, {S(0xb204,0,0), 0}, {S_MASK, 0}, I370, {S_D2, S_B2} },
852 { "sckc", 4, {S(0xb206,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
853 { "spka", 4, {S(0xb20a,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
854 { "spt", 4, {S(0xb208,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
855 { "spx", 4, {S(0xb210,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
856 { "srnm", 4, {S(0xb299,0,0), 0}, {S_MASK, 0}, IBF, {S_D2, S_B2} },
857 { "ssch", 4, {S(0xb233,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
858 { "ssm", 4, {S(0x8000,0,0), 0}, {S_MASK, 0}, I370, {S_D2, S_B2} },
859 { "stap", 4, {S(0xb212,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
860 { "stck", 4, {S(0xb205,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
861 { "stckc", 4, {S(0xb207,0,0), 0}, {S_MASK, 0}, I370, {S_D2, S_B2} },
862 { "stcps", 4, {S(0xb23a,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
863 { "stcrw", 4, {S(0xb239,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
864 { "stfpc", 4, {S(0xb29c,0,0), 0}, {S_MASK, 0}, IBF, {S_D2, S_B2} },
865 { "stidp", 4, {S(0xb202,0,0), 0}, {S_MASK, 0}, I370, {S_D2, S_B2} },
866 { "stpt", 4, {S(0xb209,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
867 { "stpx", 4, {S(0xb211,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
868 { "stsch", 4, {S(0xb234,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
869 { "tpi", 4, {S(0xb236,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
870 { "trap4", 4, {S(0xb2ff,0,0), 0}, {S_MASK, 0}, ITR, {S_D2, S_B2} },
871 { "ts", 4, {S(0x9300,0,0), 0}, {S_MASK, 0}, I370, {S_D2, S_B2} },
872 { "tsch", 4, {S(0xb235,0,0), 0}, {S_MASK, 0}, IXA, {S_D2, S_B2} },
873
874 /* SS form instructions */
875 { "ap", 6, {SSH(0xfa,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
876 { "clc", 6, {SSH(0xd5,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
877 { "cp", 6, {SSH(0xf9,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
878 { "dp", 6, {SSH(0xfd,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
879 { "ed", 6, {SSH(0xde,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
880 { "edmk", 6, {SSH(0xdf,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
881 { "mvc", 6, {SSH(0xd2,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
882 { "mvcin", 6, {SSH(0xe8,0,0,0), 0}, {SS_MASK, 0}, IMI, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
883 { "mvck", 6, {SSH(0xd9,0,0,0), 0}, {SS_MASK, 0}, IXA, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
884 { "mvcp", 6, {SSH(0xda,0,0,0), 0}, {SS_MASK, 0}, IXA, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
885 { "mvcs", 6, {SSH(0xdb,0,0,0), 0}, {SS_MASK, 0}, IXA, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
886 { "mvn", 6, {SSH(0xd1,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
887 { "mvo", 6, {SSH(0xf1,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
888 { "mvz", 6, {SSH(0xd3,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
889 { "nc", 6, {SSH(0xd4,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
890 { "oc", 6, {SSH(0xd6,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
891 { "pack", 6, {SSH(0xf2,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
892 { "plo", 6, {SSH(0xee,0,0,0), 0}, {SS_MASK, 0}, IPL, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
893 { "sp", 6, {SSH(0xfb,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
894 { "srp", 6, {SSH(0xf0,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
895 { "tr", 6, {SSH(0xdc,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
896 { "trt", 6, {SSH(0xdd,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
897 { "unpk", 6, {SSH(0xf3,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
898 { "xc", 6, {SSH(0xd7,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
899 { "zap", 6, {SSH(0xf8,0,0,0), 0}, {SS_MASK, 0}, I370, {SS_D1,SS_L,SS_B1,SS_D2,SS_B2} },
900
901 /* SSE form instructions */
902 { "lasp", 6, {SSEH(0xe500,0,0), 0}, {SSE_MASK, 0}, IXA, {SS_D1, SS_B1, SS_D2, SS_B2} },
903 { "mvcdk", 6, {SSEH(0xe50f,0,0), 0}, {SSE_MASK, 0}, IESA, {SS_D1, SS_B1, SS_D2, SS_B2} },
904 { "mvcsk", 6, {SSEH(0xe50e,0,0), 0}, {SSE_MASK, 0}, IESA, {SS_D1, SS_B1, SS_D2, SS_B2} },
905 { "tprot", 6, {SSEH(0xe501,0,0), 0}, {SSE_MASK, 0}, IXA, {SS_D1, SS_B1, SS_D2, SS_B2} },
906
907 /* */
908 };
909
910 const int i370_num_opcodes =
911 sizeof (i370_opcodes) / sizeof (i370_opcodes[0]);
912 \f
913 /* The macro table. This is only used by the assembler. */
914
915 const struct i370_macro i370_macros[] = {
916 { "b", 1, I370, "bc 15,%0" },
917 { "br", 1, I370, "bcr 15,%0" },
918
919 { "nop", 1, I370, "bc 0,%0" },
920 { "nopr", 1, I370, "bcr 0,%0" },
921
922 { "bh", 1, I370, "bc 2,%0" },
923 { "bhr", 1, I370, "bcr 2,%0" },
924 { "bl", 1, I370, "bc 4,%0" },
925 { "blr", 1, I370, "bcr 4,%0" },
926 { "be", 1, I370, "bc 8,%0" },
927 { "ber", 1, I370, "bcr 8,%0" },
928
929 { "bnh", 1, I370, "bc 13,%0" },
930 { "bnhr", 1, I370, "bcr 13,%0" },
931 { "bnl", 1, I370, "bc 11,%0" },
932 { "bnlr", 1, I370, "bcr 11,%0" },
933 { "bne", 1, I370, "bc 7,%0" },
934 { "bner", 1, I370, "bcr 7,%0" },
935
936 { "bp", 1, I370, "bc 2,%0" },
937 { "bpr", 1, I370, "bcr 2,%0" },
938 { "bm", 1, I370, "bc 4,%0" },
939 { "bmr", 1, I370, "bcr 4,%0" },
940 { "bz", 1, I370, "bc 8,%0" },
941 { "bzr", 1, I370, "bcr 8,%0" },
942 { "bo", 1, I370, "bc 1,%0" },
943 { "bor", 1, I370, "bcr 1,%0" },
944
945 { "bnp", 1, I370, "bc 13,%0" },
946 { "bnpr", 1, I370, "bcr 13,%0" },
947 { "bnm", 1, I370, "bc 11,%0" },
948 { "bnmr", 1, I370, "bcr 11,%0" },
949 { "bnz", 1, I370, "bc 7,%0" },
950 { "bnzr", 1, I370, "bcr 7,%0" },
951 { "bno", 1, I370, "bc 14,%0" },
952 { "bnor", 1, I370, "bcr 14,%0" },
953
954 { "sync", 0, I370, "bcr 15,0" },
955
956 };
957
958 const int i370_num_macros =
959 sizeof (i370_macros) / sizeof (i370_macros[0]);
GDB Binutils - Deliverables
This page took 0.100215 seconds and 4 git commands to generate.