xref: /openbmc/qemu/disas/sparc.c (revision 228aa992)
1 /*
2  * These files from binutils are concatenated:
3  * include/opcode/sparc.h, opcodes/sparc-opc.c, opcodes/sparc-dis.c
4  */
5 
6 /* include/opcode/sparc.h */
7 
8 /* Definitions for opcode table for the sparc.
9    Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 2000, 2002,
10    2003, 2005 Free Software Foundation, Inc.
11 
12    This file is part of GAS, the GNU Assembler, GDB, the GNU debugger, and
13    the GNU Binutils.
14 
15    GAS/GDB is free software; you can redistribute it and/or modify
16    it under the terms of the GNU General Public License as published by
17    the Free Software Foundation; either version 2, or (at your option)
18    any later version.
19 
20    GAS/GDB is distributed in the hope that it will be useful,
21    but WITHOUT ANY WARRANTY; without even the implied warranty of
22    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
23    GNU General Public License for more details.
24 
25    You should have received a copy of the GNU General Public License
26    along with GAS or GDB; see the file COPYING. If not,
27    see <http://www.gnu.org/licenses/>.  */
28 
29 #include <stdlib.h>
30 #include "disas/bfd.h"
31 
32 /* The SPARC opcode table (and other related data) is defined in
33    the opcodes library in sparc-opc.c.  If you change anything here, make
34    sure you fix up that file, and vice versa.  */
35 
36  /* FIXME-someday: perhaps the ,a's and such should be embedded in the
37     instruction's name rather than the args.  This would make gas faster, pinsn
38     slower, but would mess up some macros a bit.  xoxorich. */
39 
40 /* List of instruction sets variations.
41    These values are such that each element is either a superset of a
42    preceding each one or they conflict in which case SPARC_OPCODE_CONFLICT_P
43    returns non-zero.
44    The values are indices into `sparc_opcode_archs' defined in sparc-opc.c.
45    Don't change this without updating sparc-opc.c.  */
46 
47 enum sparc_opcode_arch_val
48 {
49   SPARC_OPCODE_ARCH_V6 = 0,
50   SPARC_OPCODE_ARCH_V7,
51   SPARC_OPCODE_ARCH_V8,
52   SPARC_OPCODE_ARCH_SPARCLET,
53   SPARC_OPCODE_ARCH_SPARCLITE,
54   /* V9 variants must appear last.  */
55   SPARC_OPCODE_ARCH_V9,
56   SPARC_OPCODE_ARCH_V9A, /* V9 with ultrasparc additions.  */
57   SPARC_OPCODE_ARCH_V9B, /* V9 with ultrasparc and cheetah additions.  */
58   SPARC_OPCODE_ARCH_BAD  /* Error return from sparc_opcode_lookup_arch.  */
59 };
60 
61 /* The highest architecture in the table.  */
62 #define SPARC_OPCODE_ARCH_MAX (SPARC_OPCODE_ARCH_BAD - 1)
63 
64 /* Given an enum sparc_opcode_arch_val, return the bitmask to use in
65    insn encoding/decoding.  */
66 #define SPARC_OPCODE_ARCH_MASK(arch) (1 << (arch))
67 
68 /* Given a valid sparc_opcode_arch_val, return non-zero if it's v9.  */
69 #define SPARC_OPCODE_ARCH_V9_P(arch) ((arch) >= SPARC_OPCODE_ARCH_V9)
70 
71 /* Table of cpu variants.  */
72 
73 typedef struct sparc_opcode_arch
74 {
75   const char *name;
76   /* Mask of sparc_opcode_arch_val's supported.
77      EG: For v7 this would be
78      (SPARC_OPCODE_ARCH_MASK (..._V6) | SPARC_OPCODE_ARCH_MASK (..._V7)).
79      These are short's because sparc_opcode.architecture is.  */
80   short supported;
81 } sparc_opcode_arch;
82 
83 static const struct sparc_opcode_arch sparc_opcode_archs[];
84 
85 /* Return the bitmask of supported architectures for ARCH.  */
86 #define SPARC_OPCODE_SUPPORTED(ARCH) (sparc_opcode_archs[ARCH].supported)
87 
88 /* Non-zero if ARCH1 conflicts with ARCH2.
89    IE: ARCH1 as a supported bit set that ARCH2 doesn't, and vice versa.  */
90 #define SPARC_OPCODE_CONFLICT_P(ARCH1, ARCH2) \
91  (((SPARC_OPCODE_SUPPORTED (ARCH1) & SPARC_OPCODE_SUPPORTED (ARCH2)) \
92    != SPARC_OPCODE_SUPPORTED (ARCH1)) \
93   && ((SPARC_OPCODE_SUPPORTED (ARCH1) & SPARC_OPCODE_SUPPORTED (ARCH2)) \
94      != SPARC_OPCODE_SUPPORTED (ARCH2)))
95 
96 /* Structure of an opcode table entry.  */
97 
98 typedef struct sparc_opcode
99 {
100   const char *name;
101   unsigned long match;  /* Bits that must be set.  */
102   unsigned long lose;   /* Bits that must not be set.  */
103   const char *args;
104   /* This was called "delayed" in versions before the flags.  */
105   char flags;
106   short architecture;   /* Bitmask of sparc_opcode_arch_val's.  */
107 } sparc_opcode;
108 
109 #define F_DELAYED       1       /* Delayed branch.  */
110 #define F_ALIAS         2       /* Alias for a "real" instruction.  */
111 #define F_UNBR          4       /* Unconditional branch.  */
112 #define F_CONDBR        8       /* Conditional branch.  */
113 #define F_JSR           16      /* Subroutine call.  */
114 #define F_FLOAT         32      /* Floating point instruction (not a branch).  */
115 #define F_FBR           64      /* Floating point branch.  */
116 /* FIXME: Add F_ANACHRONISTIC flag for v9.  */
117 
118 /* All sparc opcodes are 32 bits, except for the `set' instruction (really a
119    macro), which is 64 bits. It is handled as a special case.
120 
121    The match component is a mask saying which bits must match a particular
122    opcode in order for an instruction to be an instance of that opcode.
123 
124    The args component is a string containing one character for each operand of the
125    instruction.
126 
127    Kinds of operands:
128         #       Number used by optimizer.       It is ignored.
129         1       rs1 register.
130         2       rs2 register.
131         d       rd register.
132         e       frs1 floating point register.
133         v       frs1 floating point register (double/even).
134         V       frs1 floating point register (quad/multiple of 4).
135         f       frs2 floating point register.
136         B       frs2 floating point register (double/even).
137         R       frs2 floating point register (quad/multiple of 4).
138         g       frsd floating point register.
139         H       frsd floating point register (double/even).
140         J       frsd floating point register (quad/multiple of 4).
141         b       crs1 coprocessor register
142         c       crs2 coprocessor register
143         D       crsd coprocessor register
144         m       alternate space register (asr) in rd
145         M       alternate space register (asr) in rs1
146         h       22 high bits.
147         X       5 bit unsigned immediate
148         Y       6 bit unsigned immediate
149         3       SIAM mode (3 bits). (v9b)
150         K       MEMBAR mask (7 bits). (v9)
151         j       10 bit Immediate. (v9)
152         I       11 bit Immediate. (v9)
153         i       13 bit Immediate.
154         n       22 bit immediate.
155         k       2+14 bit PC relative immediate. (v9)
156         G       19 bit PC relative immediate. (v9)
157         l       22 bit PC relative immediate.
158         L       30 bit PC relative immediate.
159         a       Annul.  The annul bit is set.
160         A       Alternate address space. Stored as 8 bits.
161         C       Coprocessor state register.
162         F       floating point state register.
163         p       Processor state register.
164         N       Branch predict clear ",pn" (v9)
165         T       Branch predict set ",pt" (v9)
166         z       %icc. (v9)
167         Z       %xcc. (v9)
168         q       Floating point queue.
169         r       Single register that is both rs1 and rd.
170         O       Single register that is both rs2 and rd.
171         Q       Coprocessor queue.
172         S       Special case.
173         t       Trap base register.
174         w       Window invalid mask register.
175         y       Y register.
176         u       sparclet coprocessor registers in rd position
177         U       sparclet coprocessor registers in rs1 position
178         E       %ccr. (v9)
179         s       %fprs. (v9)
180         P       %pc.  (v9)
181         W       %tick.  (v9)
182         o       %asi. (v9)
183         6       %fcc0. (v9)
184         7       %fcc1. (v9)
185         8       %fcc2. (v9)
186         9       %fcc3. (v9)
187         !       Privileged Register in rd (v9)
188         ?       Privileged Register in rs1 (v9)
189         *       Prefetch function constant. (v9)
190         x       OPF field (v9 impdep).
191         0       32/64 bit immediate for set or setx (v9) insns
192         _       Ancillary state register in rd (v9a)
193         /       Ancillary state register in rs1 (v9a)
194 
195   The following chars are unused: (note: ,[] are used as punctuation)
196   [45].  */
197 
198 #define OP2(x)          (((x) & 0x7) << 22)  /* Op2 field of format2 insns.  */
199 #define OP3(x)          (((x) & 0x3f) << 19) /* Op3 field of format3 insns.  */
200 #define OP(x)           ((unsigned) ((x) & 0x3) << 30) /* Op field of all insns.  */
201 #define OPF(x)          (((x) & 0x1ff) << 5) /* Opf field of float insns.  */
202 #define OPF_LOW5(x)     OPF ((x) & 0x1f)     /* V9.  */
203 #define F3F(x, y, z)    (OP (x) | OP3 (y) | OPF (z)) /* Format3 float insns.  */
204 #define F3I(x)          (((x) & 0x1) << 13)  /* Immediate field of format 3 insns.  */
205 #define F2(x, y)        (OP (x) | OP2(y))    /* Format 2 insns.  */
206 #define F3(x, y, z)     (OP (x) | OP3(y) | F3I(z)) /* Format3 insns.  */
207 #define F1(x)           (OP (x))
208 #define DISP30(x)       ((x) & 0x3fffffff)
209 #define ASI(x)          (((x) & 0xff) << 5)  /* Asi field of format3 insns.  */
210 #define RS2(x)          ((x) & 0x1f)         /* Rs2 field.  */
211 #define SIMM13(x)       ((x) & 0x1fff)       /* Simm13 field.  */
212 #define RD(x)           (((x) & 0x1f) << 25) /* Destination register field.  */
213 #define RS1(x)          (((x) & 0x1f) << 14) /* Rs1 field.  */
214 #define ASI_RS2(x)      (SIMM13 (x))
215 #define MEMBAR(x)       ((x) & 0x7f)
216 #define SLCPOP(x)       (((x) & 0x7f) << 6)  /* Sparclet cpop.  */
217 
218 #define ANNUL   (1 << 29)
219 #define BPRED   (1 << 19)       /* V9.  */
220 #define IMMED   F3I (1)
221 #define RD_G0   RD (~0)
222 #define RS1_G0  RS1 (~0)
223 #define RS2_G0  RS2 (~0)
224 
225 static const struct sparc_opcode sparc_opcodes[];
226 
227 static const char *sparc_decode_asi_v8 (int);
228 static const char *sparc_decode_asi_v9 (int);
229 static const char *sparc_decode_membar (int);
230 static const char *sparc_decode_prefetch (int);
231 static const char *sparc_decode_sparclet_cpreg (int);
232 
233 /* Local Variables:
234    fill-column: 131
235    comment-column: 0
236    End: */
237 
238 /* opcodes/sparc-opc.c */
239 
240 /* Table of opcodes for the sparc.
241    Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
242    2000, 2002, 2004, 2005
243    Free Software Foundation, Inc.
244 
245    This file is part of the BFD library.
246 
247    BFD is free software; you can redistribute it and/or modify it under
248    the terms of the GNU General Public License as published by the Free
249    Software Foundation; either version 2, or (at your option) any later
250    version.
251 
252    BFD is distributed in the hope that it will be useful, but WITHOUT ANY
253    WARRANTY; without even the implied warranty of MERCHANTABILITY or
254    FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
255    for more details.
256 
257    You should have received a copy of the GNU General Public License
258    along with this software; see the file COPYING.  If not,
259    see <http://www.gnu.org/licenses/>.  */
260 
261 /* FIXME-someday: perhaps the ,a's and such should be embedded in the
262    instruction's name rather than the args.  This would make gas faster, pinsn
263    slower, but would mess up some macros a bit.  xoxorich. */
264 
265 /* Some defines to make life easy.  */
266 #define MASK_V6         SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V6)
267 #define MASK_V7         SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V7)
268 #define MASK_V8         SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V8)
269 #define MASK_SPARCLET   SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_SPARCLET)
270 #define MASK_SPARCLITE  SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_SPARCLITE)
271 #define MASK_V9         SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9)
272 #define MASK_V9A        SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9A)
273 #define MASK_V9B        SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9B)
274 
275 /* Bit masks of architectures supporting the insn.  */
276 
277 #define v6              (MASK_V6 | MASK_V7 | MASK_V8 | MASK_SPARCLET \
278                          | MASK_SPARCLITE | MASK_V9 | MASK_V9A | MASK_V9B)
279 /* v6 insns not supported on the sparclet.  */
280 #define v6notlet        (MASK_V6 | MASK_V7 | MASK_V8 \
281                          | MASK_SPARCLITE | MASK_V9 | MASK_V9A | MASK_V9B)
282 #define v7              (MASK_V7 | MASK_V8 | MASK_SPARCLET \
283                          | MASK_SPARCLITE | MASK_V9 | MASK_V9A | MASK_V9B)
284 /* Although not all insns are implemented in hardware, sparclite is defined
285    to be a superset of v8.  Unimplemented insns trap and are then theoretically
286    implemented in software.
287    It's not clear that the same is true for sparclet, although the docs
288    suggest it is.  Rather than complicating things, the sparclet assembler
289    recognizes all v8 insns.  */
290 #define v8              (MASK_V8 | MASK_SPARCLET | MASK_SPARCLITE \
291                          | MASK_V9 | MASK_V9A | MASK_V9B)
292 #define sparclet        (MASK_SPARCLET)
293 #define sparclite       (MASK_SPARCLITE)
294 #define v9              (MASK_V9 | MASK_V9A | MASK_V9B)
295 #define v9a             (MASK_V9A | MASK_V9B)
296 #define v9b             (MASK_V9B)
297 /* v6 insns not supported by v9.  */
298 #define v6notv9         (MASK_V6 | MASK_V7 | MASK_V8 \
299                          | MASK_SPARCLET | MASK_SPARCLITE)
300 /* v9a instructions which would appear to be aliases to v9's impdep's
301    otherwise.  */
302 #define v9notv9a        (MASK_V9)
303 
304 /* Table of opcode architectures.
305    The order is defined in opcode/sparc.h.  */
306 
307 static const struct sparc_opcode_arch sparc_opcode_archs[] =
308 {
309   { "v6", MASK_V6 },
310   { "v7", MASK_V6 | MASK_V7 },
311   { "v8", MASK_V6 | MASK_V7 | MASK_V8 },
312   { "sparclet", MASK_V6 | MASK_V7 | MASK_V8 | MASK_SPARCLET },
313   { "sparclite", MASK_V6 | MASK_V7 | MASK_V8 | MASK_SPARCLITE },
314   /* ??? Don't some v8 privileged insns conflict with v9?  */
315   { "v9", MASK_V6 | MASK_V7 | MASK_V8 | MASK_V9 },
316   /* v9 with ultrasparc additions */
317   { "v9a", MASK_V6 | MASK_V7 | MASK_V8 | MASK_V9 | MASK_V9A },
318   /* v9 with cheetah additions */
319   { "v9b", MASK_V6 | MASK_V7 | MASK_V8 | MASK_V9 | MASK_V9A | MASK_V9B },
320   { NULL, 0 }
321 };
322 
323 /* Branch condition field.  */
324 #define COND(x)         (((x) & 0xf) << 25)
325 
326 /* v9: Move (MOVcc and FMOVcc) condition field.  */
327 #define MCOND(x,i_or_f) ((((i_or_f) & 1) << 18) | (((x) >> 11) & (0xf << 14))) /* v9 */
328 
329 /* v9: Move register (MOVRcc and FMOVRcc) condition field.  */
330 #define RCOND(x)        (((x) & 0x7) << 10)     /* v9 */
331 
332 #define CONDA   (COND (0x8))
333 #define CONDCC  (COND (0xd))
334 #define CONDCS  (COND (0x5))
335 #define CONDE   (COND (0x1))
336 #define CONDG   (COND (0xa))
337 #define CONDGE  (COND (0xb))
338 #define CONDGU  (COND (0xc))
339 #define CONDL   (COND (0x3))
340 #define CONDLE  (COND (0x2))
341 #define CONDLEU (COND (0x4))
342 #define CONDN   (COND (0x0))
343 #define CONDNE  (COND (0x9))
344 #define CONDNEG (COND (0x6))
345 #define CONDPOS (COND (0xe))
346 #define CONDVC  (COND (0xf))
347 #define CONDVS  (COND (0x7))
348 
349 #define CONDNZ  CONDNE
350 #define CONDZ   CONDE
351 #define CONDGEU CONDCC
352 #define CONDLU  CONDCS
353 
354 #define FCONDA          (COND (0x8))
355 #define FCONDE          (COND (0x9))
356 #define FCONDG          (COND (0x6))
357 #define FCONDGE         (COND (0xb))
358 #define FCONDL          (COND (0x4))
359 #define FCONDLE         (COND (0xd))
360 #define FCONDLG         (COND (0x2))
361 #define FCONDN          (COND (0x0))
362 #define FCONDNE         (COND (0x1))
363 #define FCONDO          (COND (0xf))
364 #define FCONDU          (COND (0x7))
365 #define FCONDUE         (COND (0xa))
366 #define FCONDUG         (COND (0x5))
367 #define FCONDUGE        (COND (0xc))
368 #define FCONDUL         (COND (0x3))
369 #define FCONDULE        (COND (0xe))
370 
371 #define FCONDNZ FCONDNE
372 #define FCONDZ  FCONDE
373 
374 #define ICC             (0)     /* v9 */
375 #define XCC             (1 << 12) /* v9 */
376 #define FCC(x)          (((x) & 0x3) << 11) /* v9 */
377 #define FBFCC(x)        (((x) & 0x3) << 20)     /* v9 */
378 
379 /* The order of the opcodes in the table is significant:
380 
381         * The assembler requires that all instances of the same mnemonic must
382         be consecutive. If they aren't, the assembler will bomb at runtime.
383 
384         * The disassembler should not care about the order of the opcodes.  */
385 
386 /* Entries for commutative arithmetic operations.  */
387 /* ??? More entries can make use of this.  */
388 #define COMMUTEOP(opcode, op3, arch_mask) \
389 { opcode,       F3(2, op3, 0), F3(~2, ~op3, ~0)|ASI(~0),        "1,2,d", 0, arch_mask }, \
390 { opcode,       F3(2, op3, 1), F3(~2, ~op3, ~1),                "1,i,d", 0, arch_mask }, \
391 { opcode,       F3(2, op3, 1), F3(~2, ~op3, ~1),                "i,1,d", 0, arch_mask }
392 
393 static const struct sparc_opcode sparc_opcodes[] = {
394 
395 { "ld", F3(3, 0x00, 0), F3(~3, ~0x00, ~0),              "[1+2],d", 0, v6 },
396 { "ld", F3(3, 0x00, 0), F3(~3, ~0x00, ~0)|RS2_G0,       "[1],d", 0, v6 }, /* ld [rs1+%g0],d */
397 { "ld", F3(3, 0x00, 1), F3(~3, ~0x00, ~1),              "[1+i],d", 0, v6 },
398 { "ld", F3(3, 0x00, 1), F3(~3, ~0x00, ~1),              "[i+1],d", 0, v6 },
399 { "ld", F3(3, 0x00, 1), F3(~3, ~0x00, ~1)|RS1_G0,       "[i],d", 0, v6 },
400 { "ld", F3(3, 0x00, 1), F3(~3, ~0x00, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* ld [rs1+0],d */
401 { "ld", F3(3, 0x20, 0), F3(~3, ~0x20, ~0),              "[1+2],g", 0, v6 },
402 { "ld", F3(3, 0x20, 0), F3(~3, ~0x20, ~0)|RS2_G0,       "[1],g", 0, v6 }, /* ld [rs1+%g0],d */
403 { "ld", F3(3, 0x20, 1), F3(~3, ~0x20, ~1),              "[1+i],g", 0, v6 },
404 { "ld", F3(3, 0x20, 1), F3(~3, ~0x20, ~1),              "[i+1],g", 0, v6 },
405 { "ld", F3(3, 0x20, 1), F3(~3, ~0x20, ~1)|RS1_G0,       "[i],g", 0, v6 },
406 { "ld", F3(3, 0x20, 1), F3(~3, ~0x20, ~1)|SIMM13(~0),   "[1],g", 0, v6 }, /* ld [rs1+0],d */
407 
408 { "ld", F3(3, 0x21, 0), F3(~3, ~0x21, ~0)|RD(~0),       "[1+2],F", 0, v6 },
409 { "ld", F3(3, 0x21, 0), F3(~3, ~0x21, ~0)|RS2_G0|RD(~0),"[1],F", 0, v6 }, /* ld [rs1+%g0],d */
410 { "ld", F3(3, 0x21, 1), F3(~3, ~0x21, ~1)|RD(~0),       "[1+i],F", 0, v6 },
411 { "ld", F3(3, 0x21, 1), F3(~3, ~0x21, ~1)|RD(~0),       "[i+1],F", 0, v6 },
412 { "ld", F3(3, 0x21, 1), F3(~3, ~0x21, ~1)|RS1_G0|RD(~0),"[i],F", 0, v6 },
413 { "ld", F3(3, 0x21, 1), F3(~3, ~0x21, ~1)|SIMM13(~0)|RD(~0),"[1],F", 0, v6 }, /* ld [rs1+0],d */
414 
415 { "ld", F3(3, 0x30, 0), F3(~3, ~0x30, ~0),              "[1+2],D", 0, v6notv9 },
416 { "ld", F3(3, 0x30, 0), F3(~3, ~0x30, ~0)|RS2_G0,       "[1],D", 0, v6notv9 }, /* ld [rs1+%g0],d */
417 { "ld", F3(3, 0x30, 1), F3(~3, ~0x30, ~1),              "[1+i],D", 0, v6notv9 },
418 { "ld", F3(3, 0x30, 1), F3(~3, ~0x30, ~1),              "[i+1],D", 0, v6notv9 },
419 { "ld", F3(3, 0x30, 1), F3(~3, ~0x30, ~1)|RS1_G0,       "[i],D", 0, v6notv9 },
420 { "ld", F3(3, 0x30, 1), F3(~3, ~0x30, ~1)|SIMM13(~0),   "[1],D", 0, v6notv9 }, /* ld [rs1+0],d */
421 { "ld", F3(3, 0x31, 0), F3(~3, ~0x31, ~0),              "[1+2],C", 0, v6notv9 },
422 { "ld", F3(3, 0x31, 0), F3(~3, ~0x31, ~0)|RS2_G0,       "[1],C", 0, v6notv9 }, /* ld [rs1+%g0],d */
423 { "ld", F3(3, 0x31, 1), F3(~3, ~0x31, ~1),              "[1+i],C", 0, v6notv9 },
424 { "ld", F3(3, 0x31, 1), F3(~3, ~0x31, ~1),              "[i+1],C", 0, v6notv9 },
425 { "ld", F3(3, 0x31, 1), F3(~3, ~0x31, ~1)|RS1_G0,       "[i],C", 0, v6notv9 },
426 { "ld", F3(3, 0x31, 1), F3(~3, ~0x31, ~1)|SIMM13(~0),   "[1],C", 0, v6notv9 }, /* ld [rs1+0],d */
427 
428 /* The v9 LDUW is the same as the old 'ld' opcode, it is not the same as the
429    'ld' pseudo-op in v9.  */
430 { "lduw",       F3(3, 0x00, 0), F3(~3, ~0x00, ~0),              "[1+2],d", F_ALIAS, v9 },
431 { "lduw",       F3(3, 0x00, 0), F3(~3, ~0x00, ~0)|RS2_G0,       "[1],d", F_ALIAS, v9 }, /* ld [rs1+%g0],d */
432 { "lduw",       F3(3, 0x00, 1), F3(~3, ~0x00, ~1),              "[1+i],d", F_ALIAS, v9 },
433 { "lduw",       F3(3, 0x00, 1), F3(~3, ~0x00, ~1),              "[i+1],d", F_ALIAS, v9 },
434 { "lduw",       F3(3, 0x00, 1), F3(~3, ~0x00, ~1)|RS1_G0,       "[i],d", F_ALIAS, v9 },
435 { "lduw",       F3(3, 0x00, 1), F3(~3, ~0x00, ~1)|SIMM13(~0),   "[1],d", F_ALIAS, v9 }, /* ld [rs1+0],d */
436 
437 { "ldd",        F3(3, 0x03, 0), F3(~3, ~0x03, ~0)|ASI(~0),      "[1+2],d", 0, v6 },
438 { "ldd",        F3(3, 0x03, 0), F3(~3, ~0x03, ~0)|ASI_RS2(~0),  "[1],d", 0, v6 }, /* ldd [rs1+%g0],d */
439 { "ldd",        F3(3, 0x03, 1), F3(~3, ~0x03, ~1),              "[1+i],d", 0, v6 },
440 { "ldd",        F3(3, 0x03, 1), F3(~3, ~0x03, ~1),              "[i+1],d", 0, v6 },
441 { "ldd",        F3(3, 0x03, 1), F3(~3, ~0x03, ~1)|RS1_G0,       "[i],d", 0, v6 },
442 { "ldd",        F3(3, 0x03, 1), F3(~3, ~0x03, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* ldd [rs1+0],d */
443 { "ldd",        F3(3, 0x23, 0), F3(~3, ~0x23, ~0)|ASI(~0),      "[1+2],H", 0, v6 },
444 { "ldd",        F3(3, 0x23, 0), F3(~3, ~0x23, ~0)|ASI_RS2(~0),  "[1],H", 0, v6 }, /* ldd [rs1+%g0],d */
445 { "ldd",        F3(3, 0x23, 1), F3(~3, ~0x23, ~1),              "[1+i],H", 0, v6 },
446 { "ldd",        F3(3, 0x23, 1), F3(~3, ~0x23, ~1),              "[i+1],H", 0, v6 },
447 { "ldd",        F3(3, 0x23, 1), F3(~3, ~0x23, ~1)|RS1_G0,       "[i],H", 0, v6 },
448 { "ldd",        F3(3, 0x23, 1), F3(~3, ~0x23, ~1)|SIMM13(~0),   "[1],H", 0, v6 }, /* ldd [rs1+0],d */
449 
450 { "ldd",        F3(3, 0x33, 0), F3(~3, ~0x33, ~0)|ASI(~0),      "[1+2],D", 0, v6notv9 },
451 { "ldd",        F3(3, 0x33, 0), F3(~3, ~0x33, ~0)|ASI_RS2(~0),  "[1],D", 0, v6notv9 }, /* ldd [rs1+%g0],d */
452 { "ldd",        F3(3, 0x33, 1), F3(~3, ~0x33, ~1),              "[1+i],D", 0, v6notv9 },
453 { "ldd",        F3(3, 0x33, 1), F3(~3, ~0x33, ~1),              "[i+1],D", 0, v6notv9 },
454 { "ldd",        F3(3, 0x33, 1), F3(~3, ~0x33, ~1)|RS1_G0,       "[i],D", 0, v6notv9 },
455 { "ldd",        F3(3, 0x33, 1), F3(~3, ~0x33, ~1)|SIMM13(~0),   "[1],D", 0, v6notv9 }, /* ldd [rs1+0],d */
456 
457 { "ldq",        F3(3, 0x22, 0), F3(~3, ~0x22, ~0)|ASI(~0),      "[1+2],J", 0, v9 },
458 { "ldq",        F3(3, 0x22, 0), F3(~3, ~0x22, ~0)|ASI_RS2(~0),  "[1],J", 0, v9 }, /* ldd [rs1+%g0],d */
459 { "ldq",        F3(3, 0x22, 1), F3(~3, ~0x22, ~1),              "[1+i],J", 0, v9 },
460 { "ldq",        F3(3, 0x22, 1), F3(~3, ~0x22, ~1),              "[i+1],J", 0, v9 },
461 { "ldq",        F3(3, 0x22, 1), F3(~3, ~0x22, ~1)|RS1_G0,       "[i],J", 0, v9 },
462 { "ldq",        F3(3, 0x22, 1), F3(~3, ~0x22, ~1)|SIMM13(~0),   "[1],J", 0, v9 }, /* ldd [rs1+0],d */
463 
464 { "ldsb",       F3(3, 0x09, 0), F3(~3, ~0x09, ~0)|ASI(~0),      "[1+2],d", 0, v6 },
465 { "ldsb",       F3(3, 0x09, 0), F3(~3, ~0x09, ~0)|ASI_RS2(~0),  "[1],d", 0, v6 }, /* ldsb [rs1+%g0],d */
466 { "ldsb",       F3(3, 0x09, 1), F3(~3, ~0x09, ~1),              "[1+i],d", 0, v6 },
467 { "ldsb",       F3(3, 0x09, 1), F3(~3, ~0x09, ~1),              "[i+1],d", 0, v6 },
468 { "ldsb",       F3(3, 0x09, 1), F3(~3, ~0x09, ~1)|RS1_G0,       "[i],d", 0, v6 },
469 { "ldsb",       F3(3, 0x09, 1), F3(~3, ~0x09, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* ldsb [rs1+0],d */
470 
471 { "ldsh",       F3(3, 0x0a, 0), F3(~3, ~0x0a, ~0)|ASI_RS2(~0),  "[1],d", 0, v6 }, /* ldsh [rs1+%g0],d */
472 { "ldsh",       F3(3, 0x0a, 0), F3(~3, ~0x0a, ~0)|ASI(~0),      "[1+2],d", 0, v6 },
473 { "ldsh",       F3(3, 0x0a, 1), F3(~3, ~0x0a, ~1),              "[1+i],d", 0, v6 },
474 { "ldsh",       F3(3, 0x0a, 1), F3(~3, ~0x0a, ~1),              "[i+1],d", 0, v6 },
475 { "ldsh",       F3(3, 0x0a, 1), F3(~3, ~0x0a, ~1)|RS1_G0,       "[i],d", 0, v6 },
476 { "ldsh",       F3(3, 0x0a, 1), F3(~3, ~0x0a, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* ldsh [rs1+0],d */
477 
478 { "ldstub",     F3(3, 0x0d, 0), F3(~3, ~0x0d, ~0)|ASI(~0),      "[1+2],d", 0, v6 },
479 { "ldstub",     F3(3, 0x0d, 0), F3(~3, ~0x0d, ~0)|ASI_RS2(~0),  "[1],d", 0, v6 }, /* ldstub [rs1+%g0],d */
480 { "ldstub",     F3(3, 0x0d, 1), F3(~3, ~0x0d, ~1),              "[1+i],d", 0, v6 },
481 { "ldstub",     F3(3, 0x0d, 1), F3(~3, ~0x0d, ~1),              "[i+1],d", 0, v6 },
482 { "ldstub",     F3(3, 0x0d, 1), F3(~3, ~0x0d, ~1)|RS1_G0,       "[i],d", 0, v6 },
483 { "ldstub",     F3(3, 0x0d, 1), F3(~3, ~0x0d, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* ldstub [rs1+0],d */
484 
485 { "ldsw",       F3(3, 0x08, 0), F3(~3, ~0x08, ~0)|ASI(~0),      "[1+2],d", 0, v9 },
486 { "ldsw",       F3(3, 0x08, 0), F3(~3, ~0x08, ~0)|ASI_RS2(~0),  "[1],d", 0, v9 }, /* ldsw [rs1+%g0],d */
487 { "ldsw",       F3(3, 0x08, 1), F3(~3, ~0x08, ~1),              "[1+i],d", 0, v9 },
488 { "ldsw",       F3(3, 0x08, 1), F3(~3, ~0x08, ~1),              "[i+1],d", 0, v9 },
489 { "ldsw",       F3(3, 0x08, 1), F3(~3, ~0x08, ~1)|RS1_G0,       "[i],d", 0, v9 },
490 { "ldsw",       F3(3, 0x08, 1), F3(~3, ~0x08, ~1)|SIMM13(~0),   "[1],d", 0, v9 }, /* ldsw [rs1+0],d */
491 
492 { "ldub",       F3(3, 0x01, 0), F3(~3, ~0x01, ~0)|ASI(~0),      "[1+2],d", 0, v6 },
493 { "ldub",       F3(3, 0x01, 0), F3(~3, ~0x01, ~0)|ASI_RS2(~0),  "[1],d", 0, v6 }, /* ldub [rs1+%g0],d */
494 { "ldub",       F3(3, 0x01, 1), F3(~3, ~0x01, ~1),              "[1+i],d", 0, v6 },
495 { "ldub",       F3(3, 0x01, 1), F3(~3, ~0x01, ~1),              "[i+1],d", 0, v6 },
496 { "ldub",       F3(3, 0x01, 1), F3(~3, ~0x01, ~1)|RS1_G0,       "[i],d", 0, v6 },
497 { "ldub",       F3(3, 0x01, 1), F3(~3, ~0x01, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* ldub [rs1+0],d */
498 
499 { "lduh",       F3(3, 0x02, 0), F3(~3, ~0x02, ~0)|ASI(~0),      "[1+2],d", 0, v6 },
500 { "lduh",       F3(3, 0x02, 0), F3(~3, ~0x02, ~0)|ASI_RS2(~0),  "[1],d", 0, v6 }, /* lduh [rs1+%g0],d */
501 { "lduh",       F3(3, 0x02, 1), F3(~3, ~0x02, ~1),              "[1+i],d", 0, v6 },
502 { "lduh",       F3(3, 0x02, 1), F3(~3, ~0x02, ~1),              "[i+1],d", 0, v6 },
503 { "lduh",       F3(3, 0x02, 1), F3(~3, ~0x02, ~1)|RS1_G0,       "[i],d", 0, v6 },
504 { "lduh",       F3(3, 0x02, 1), F3(~3, ~0x02, ~1)|SIMM13(~0),   "[1],d", 0, v6 }, /* lduh [rs1+0],d */
505 
506 { "ldx",        F3(3, 0x0b, 0), F3(~3, ~0x0b, ~0)|ASI(~0),      "[1+2],d", 0, v9 },
507 { "ldx",        F3(3, 0x0b, 0), F3(~3, ~0x0b, ~0)|ASI_RS2(~0),  "[1],d", 0, v9 }, /* ldx [rs1+%g0],d */
508 { "ldx",        F3(3, 0x0b, 1), F3(~3, ~0x0b, ~1),              "[1+i],d", 0, v9 },
509 { "ldx",        F3(3, 0x0b, 1), F3(~3, ~0x0b, ~1),              "[i+1],d", 0, v9 },
510 { "ldx",        F3(3, 0x0b, 1), F3(~3, ~0x0b, ~1)|RS1_G0,       "[i],d", 0, v9 },
511 { "ldx",        F3(3, 0x0b, 1), F3(~3, ~0x0b, ~1)|SIMM13(~0),   "[1],d", 0, v9 }, /* ldx [rs1+0],d */
512 
513 { "ldx",        F3(3, 0x21, 0)|RD(1), F3(~3, ~0x21, ~0)|RD(~1), "[1+2],F", 0, v9 },
514 { "ldx",        F3(3, 0x21, 0)|RD(1), F3(~3, ~0x21, ~0)|RS2_G0|RD(~1),  "[1],F", 0, v9 }, /* ld [rs1+%g0],d */
515 { "ldx",        F3(3, 0x21, 1)|RD(1), F3(~3, ~0x21, ~1)|RD(~1), "[1+i],F", 0, v9 },
516 { "ldx",        F3(3, 0x21, 1)|RD(1), F3(~3, ~0x21, ~1)|RD(~1), "[i+1],F", 0, v9 },
517 { "ldx",        F3(3, 0x21, 1)|RD(1), F3(~3, ~0x21, ~1)|RS1_G0|RD(~1),  "[i],F", 0, v9 },
518 { "ldx",        F3(3, 0x21, 1)|RD(1), F3(~3, ~0x21, ~1)|SIMM13(~0)|RD(~1),"[1],F", 0, v9 }, /* ld [rs1+0],d */
519 
520 { "lda",        F3(3, 0x10, 0), F3(~3, ~0x10, ~0),              "[1+2]A,d", 0, v6 },
521 { "lda",        F3(3, 0x10, 0), F3(~3, ~0x10, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* lda [rs1+%g0],d */
522 { "lda",        F3(3, 0x10, 1), F3(~3, ~0x10, ~1),              "[1+i]o,d", 0, v9 },
523 { "lda",        F3(3, 0x10, 1), F3(~3, ~0x10, ~1),              "[i+1]o,d", 0, v9 },
524 { "lda",        F3(3, 0x10, 1), F3(~3, ~0x10, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
525 { "lda",        F3(3, 0x10, 1), F3(~3, ~0x10, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
526 { "lda",        F3(3, 0x30, 0), F3(~3, ~0x30, ~0),              "[1+2]A,g", 0, v9 },
527 { "lda",        F3(3, 0x30, 0), F3(~3, ~0x30, ~0)|RS2_G0,       "[1]A,g", 0, v9 }, /* lda [rs1+%g0],d */
528 { "lda",        F3(3, 0x30, 1), F3(~3, ~0x30, ~1),              "[1+i]o,g", 0, v9 },
529 { "lda",        F3(3, 0x30, 1), F3(~3, ~0x30, ~1),              "[i+1]o,g", 0, v9 },
530 { "lda",        F3(3, 0x30, 1), F3(~3, ~0x30, ~1)|RS1_G0,       "[i]o,g", 0, v9 },
531 { "lda",        F3(3, 0x30, 1), F3(~3, ~0x30, ~1)|SIMM13(~0),   "[1]o,g", 0, v9 }, /* ld [rs1+0],d */
532 
533 { "ldda",       F3(3, 0x13, 0), F3(~3, ~0x13, ~0),              "[1+2]A,d", 0, v6 },
534 { "ldda",       F3(3, 0x13, 0), F3(~3, ~0x13, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* ldda [rs1+%g0],d */
535 { "ldda",       F3(3, 0x13, 1), F3(~3, ~0x13, ~1),              "[1+i]o,d", 0, v9 },
536 { "ldda",       F3(3, 0x13, 1), F3(~3, ~0x13, ~1),              "[i+1]o,d", 0, v9 },
537 { "ldda",       F3(3, 0x13, 1), F3(~3, ~0x13, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
538 { "ldda",       F3(3, 0x13, 1), F3(~3, ~0x13, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
539 
540 { "ldda",       F3(3, 0x33, 0), F3(~3, ~0x33, ~0),              "[1+2]A,H", 0, v9 },
541 { "ldda",       F3(3, 0x33, 0), F3(~3, ~0x33, ~0)|RS2_G0,       "[1]A,H", 0, v9 }, /* ldda [rs1+%g0],d */
542 { "ldda",       F3(3, 0x33, 1), F3(~3, ~0x33, ~1),              "[1+i]o,H", 0, v9 },
543 { "ldda",       F3(3, 0x33, 1), F3(~3, ~0x33, ~1),              "[i+1]o,H", 0, v9 },
544 { "ldda",       F3(3, 0x33, 1), F3(~3, ~0x33, ~1)|RS1_G0,       "[i]o,H", 0, v9 },
545 { "ldda",       F3(3, 0x33, 1), F3(~3, ~0x33, ~1)|SIMM13(~0),   "[1]o,H", 0, v9 }, /* ld [rs1+0],d */
546 
547 { "ldqa",       F3(3, 0x32, 0), F3(~3, ~0x32, ~0),              "[1+2]A,J", 0, v9 },
548 { "ldqa",       F3(3, 0x32, 0), F3(~3, ~0x32, ~0)|RS2_G0,       "[1]A,J", 0, v9 }, /* ldd [rs1+%g0],d */
549 { "ldqa",       F3(3, 0x32, 1), F3(~3, ~0x32, ~1),              "[1+i]o,J", 0, v9 },
550 { "ldqa",       F3(3, 0x32, 1), F3(~3, ~0x32, ~1),              "[i+1]o,J", 0, v9 },
551 { "ldqa",       F3(3, 0x32, 1), F3(~3, ~0x32, ~1)|RS1_G0,       "[i]o,J", 0, v9 },
552 { "ldqa",       F3(3, 0x32, 1), F3(~3, ~0x32, ~1)|SIMM13(~0),   "[1]o,J", 0, v9 }, /* ldd [rs1+0],d */
553 
554 { "ldsba",      F3(3, 0x19, 0), F3(~3, ~0x19, ~0),              "[1+2]A,d", 0, v6 },
555 { "ldsba",      F3(3, 0x19, 0), F3(~3, ~0x19, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* ldsba [rs1+%g0],d */
556 { "ldsba",      F3(3, 0x19, 1), F3(~3, ~0x19, ~1),              "[1+i]o,d", 0, v9 },
557 { "ldsba",      F3(3, 0x19, 1), F3(~3, ~0x19, ~1),              "[i+1]o,d", 0, v9 },
558 { "ldsba",      F3(3, 0x19, 1), F3(~3, ~0x19, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
559 { "ldsba",      F3(3, 0x19, 1), F3(~3, ~0x19, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
560 
561 { "ldsha",      F3(3, 0x1a, 0), F3(~3, ~0x1a, ~0),              "[1+2]A,d", 0, v6 },
562 { "ldsha",      F3(3, 0x1a, 0), F3(~3, ~0x1a, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* ldsha [rs1+%g0],d */
563 { "ldsha",      F3(3, 0x1a, 1), F3(~3, ~0x1a, ~1),              "[1+i]o,d", 0, v9 },
564 { "ldsha",      F3(3, 0x1a, 1), F3(~3, ~0x1a, ~1),              "[i+1]o,d", 0, v9 },
565 { "ldsha",      F3(3, 0x1a, 1), F3(~3, ~0x1a, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
566 { "ldsha",      F3(3, 0x1a, 1), F3(~3, ~0x1a, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
567 
568 { "ldstuba",    F3(3, 0x1d, 0), F3(~3, ~0x1d, ~0),              "[1+2]A,d", 0, v6 },
569 { "ldstuba",    F3(3, 0x1d, 0), F3(~3, ~0x1d, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* ldstuba [rs1+%g0],d */
570 { "ldstuba",    F3(3, 0x1d, 1), F3(~3, ~0x1d, ~1),              "[1+i]o,d", 0, v9 },
571 { "ldstuba",    F3(3, 0x1d, 1), F3(~3, ~0x1d, ~1),              "[i+1]o,d", 0, v9 },
572 { "ldstuba",    F3(3, 0x1d, 1), F3(~3, ~0x1d, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
573 { "ldstuba",    F3(3, 0x1d, 1), F3(~3, ~0x1d, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
574 
575 { "ldswa",      F3(3, 0x18, 0), F3(~3, ~0x18, ~0),              "[1+2]A,d", 0, v9 },
576 { "ldswa",      F3(3, 0x18, 0), F3(~3, ~0x18, ~0)|RS2_G0,       "[1]A,d", 0, v9 }, /* lda [rs1+%g0],d */
577 { "ldswa",      F3(3, 0x18, 1), F3(~3, ~0x18, ~1),              "[1+i]o,d", 0, v9 },
578 { "ldswa",      F3(3, 0x18, 1), F3(~3, ~0x18, ~1),              "[i+1]o,d", 0, v9 },
579 { "ldswa",      F3(3, 0x18, 1), F3(~3, ~0x18, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
580 { "ldswa",      F3(3, 0x18, 1), F3(~3, ~0x18, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
581 
582 { "lduba",      F3(3, 0x11, 0), F3(~3, ~0x11, ~0),              "[1+2]A,d", 0, v6 },
583 { "lduba",      F3(3, 0x11, 0), F3(~3, ~0x11, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* lduba [rs1+%g0],d */
584 { "lduba",      F3(3, 0x11, 1), F3(~3, ~0x11, ~1),              "[1+i]o,d", 0, v9 },
585 { "lduba",      F3(3, 0x11, 1), F3(~3, ~0x11, ~1),              "[i+1]o,d", 0, v9 },
586 { "lduba",      F3(3, 0x11, 1), F3(~3, ~0x11, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
587 { "lduba",      F3(3, 0x11, 1), F3(~3, ~0x11, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
588 
589 { "lduha",      F3(3, 0x12, 0), F3(~3, ~0x12, ~0),              "[1+2]A,d", 0, v6 },
590 { "lduha",      F3(3, 0x12, 0), F3(~3, ~0x12, ~0)|RS2_G0,       "[1]A,d", 0, v6 }, /* lduha [rs1+%g0],d */
591 { "lduha",      F3(3, 0x12, 1), F3(~3, ~0x12, ~1),              "[1+i]o,d", 0, v9 },
592 { "lduha",      F3(3, 0x12, 1), F3(~3, ~0x12, ~1),              "[i+1]o,d", 0, v9 },
593 { "lduha",      F3(3, 0x12, 1), F3(~3, ~0x12, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
594 { "lduha",      F3(3, 0x12, 1), F3(~3, ~0x12, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
595 
596 { "lduwa",      F3(3, 0x10, 0), F3(~3, ~0x10, ~0),              "[1+2]A,d", F_ALIAS, v9 }, /* lduwa === lda */
597 { "lduwa",      F3(3, 0x10, 0), F3(~3, ~0x10, ~0)|RS2_G0,       "[1]A,d", F_ALIAS, v9 }, /* lda [rs1+%g0],d */
598 { "lduwa",      F3(3, 0x10, 1), F3(~3, ~0x10, ~1),              "[1+i]o,d", F_ALIAS, v9 },
599 { "lduwa",      F3(3, 0x10, 1), F3(~3, ~0x10, ~1),              "[i+1]o,d", F_ALIAS, v9 },
600 { "lduwa",      F3(3, 0x10, 1), F3(~3, ~0x10, ~1)|RS1_G0,       "[i]o,d", F_ALIAS, v9 },
601 { "lduwa",      F3(3, 0x10, 1), F3(~3, ~0x10, ~1)|SIMM13(~0),   "[1]o,d", F_ALIAS, v9 }, /* ld [rs1+0],d */
602 
603 { "ldxa",       F3(3, 0x1b, 0), F3(~3, ~0x1b, ~0),              "[1+2]A,d", 0, v9 },
604 { "ldxa",       F3(3, 0x1b, 0), F3(~3, ~0x1b, ~0)|RS2_G0,       "[1]A,d", 0, v9 }, /* lda [rs1+%g0],d */
605 { "ldxa",       F3(3, 0x1b, 1), F3(~3, ~0x1b, ~1),              "[1+i]o,d", 0, v9 },
606 { "ldxa",       F3(3, 0x1b, 1), F3(~3, ~0x1b, ~1),              "[i+1]o,d", 0, v9 },
607 { "ldxa",       F3(3, 0x1b, 1), F3(~3, ~0x1b, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
608 { "ldxa",       F3(3, 0x1b, 1), F3(~3, ~0x1b, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* ld [rs1+0],d */
609 
610 { "st", F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI(~0),              "d,[1+2]", 0, v6 },
611 { "st", F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI_RS2(~0),          "d,[1]", 0, v6 }, /* st d,[rs1+%g0] */
612 { "st", F3(3, 0x04, 1), F3(~3, ~0x04, ~1),                      "d,[1+i]", 0, v6 },
613 { "st", F3(3, 0x04, 1), F3(~3, ~0x04, ~1),                      "d,[i+1]", 0, v6 },
614 { "st", F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RS1_G0,               "d,[i]", 0, v6 },
615 { "st", F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|SIMM13(~0),           "d,[1]", 0, v6 }, /* st d,[rs1+0] */
616 { "st", F3(3, 0x24, 0), F3(~3, ~0x24, ~0)|ASI(~0),              "g,[1+2]", 0, v6 },
617 { "st", F3(3, 0x24, 0), F3(~3, ~0x24, ~0)|ASI_RS2(~0),          "g,[1]", 0, v6 }, /* st d[rs1+%g0] */
618 { "st", F3(3, 0x24, 1), F3(~3, ~0x24, ~1),                      "g,[1+i]", 0, v6 },
619 { "st", F3(3, 0x24, 1), F3(~3, ~0x24, ~1),                      "g,[i+1]", 0, v6 },
620 { "st", F3(3, 0x24, 1), F3(~3, ~0x24, ~1)|RS1_G0,               "g,[i]", 0, v6 },
621 { "st", F3(3, 0x24, 1), F3(~3, ~0x24, ~1)|SIMM13(~0),           "g,[1]", 0, v6 }, /* st d,[rs1+0] */
622 
623 { "st", F3(3, 0x34, 0), F3(~3, ~0x34, ~0)|ASI(~0),              "D,[1+2]", 0, v6notv9 },
624 { "st", F3(3, 0x34, 0), F3(~3, ~0x34, ~0)|ASI_RS2(~0),          "D,[1]", 0, v6notv9 }, /* st d,[rs1+%g0] */
625 { "st", F3(3, 0x34, 1), F3(~3, ~0x34, ~1),                      "D,[1+i]", 0, v6notv9 },
626 { "st", F3(3, 0x34, 1), F3(~3, ~0x34, ~1),                      "D,[i+1]", 0, v6notv9 },
627 { "st", F3(3, 0x34, 1), F3(~3, ~0x34, ~1)|RS1_G0,               "D,[i]", 0, v6notv9 },
628 { "st", F3(3, 0x34, 1), F3(~3, ~0x34, ~1)|SIMM13(~0),           "D,[1]", 0, v6notv9 }, /* st d,[rs1+0] */
629 { "st", F3(3, 0x35, 0), F3(~3, ~0x35, ~0)|ASI(~0),              "C,[1+2]", 0, v6notv9 },
630 { "st", F3(3, 0x35, 0), F3(~3, ~0x35, ~0)|ASI_RS2(~0),          "C,[1]", 0, v6notv9 }, /* st d,[rs1+%g0] */
631 { "st", F3(3, 0x35, 1), F3(~3, ~0x35, ~1),                      "C,[1+i]", 0, v6notv9 },
632 { "st", F3(3, 0x35, 1), F3(~3, ~0x35, ~1),                      "C,[i+1]", 0, v6notv9 },
633 { "st", F3(3, 0x35, 1), F3(~3, ~0x35, ~1)|RS1_G0,               "C,[i]", 0, v6notv9 },
634 { "st", F3(3, 0x35, 1), F3(~3, ~0x35, ~1)|SIMM13(~0),           "C,[1]", 0, v6notv9 }, /* st d,[rs1+0] */
635 
636 { "st", F3(3, 0x25, 0), F3(~3, ~0x25, ~0)|RD_G0|ASI(~0),        "F,[1+2]", 0, v6 },
637 { "st", F3(3, 0x25, 0), F3(~3, ~0x25, ~0)|RD_G0|ASI_RS2(~0),    "F,[1]", 0, v6 }, /* st d,[rs1+%g0] */
638 { "st", F3(3, 0x25, 1), F3(~3, ~0x25, ~1)|RD_G0,                "F,[1+i]", 0, v6 },
639 { "st", F3(3, 0x25, 1), F3(~3, ~0x25, ~1)|RD_G0,                "F,[i+1]", 0, v6 },
640 { "st", F3(3, 0x25, 1), F3(~3, ~0x25, ~1)|RD_G0|RS1_G0,         "F,[i]", 0, v6 },
641 { "st", F3(3, 0x25, 1), F3(~3, ~0x25, ~1)|RD_G0|SIMM13(~0),     "F,[1]", 0, v6 }, /* st d,[rs1+0] */
642 
643 { "stw",        F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v9 },
644 { "stw",        F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v9 }, /* st d,[rs1+%g0] */
645 { "stw",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[1+i]", F_ALIAS, v9 },
646 { "stw",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[i+1]", F_ALIAS, v9 },
647 { "stw",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v9 },
648 { "stw",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v9 }, /* st d,[rs1+0] */
649 { "stsw",       F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v9 },
650 { "stsw",       F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v9 }, /* st d,[rs1+%g0] */
651 { "stsw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[1+i]", F_ALIAS, v9 },
652 { "stsw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[i+1]", F_ALIAS, v9 },
653 { "stsw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v9 },
654 { "stsw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v9 }, /* st d,[rs1+0] */
655 { "stuw",       F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v9 },
656 { "stuw",       F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v9 }, /* st d,[rs1+%g0] */
657 { "stuw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[1+i]", F_ALIAS, v9 },
658 { "stuw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[i+1]", F_ALIAS, v9 },
659 { "stuw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v9 },
660 { "stuw",       F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v9 }, /* st d,[rs1+0] */
661 
662 { "spill",      F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v6 },
663 { "spill",      F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v6 }, /* st d,[rs1+%g0] */
664 { "spill",      F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[1+i]", F_ALIAS, v6 },
665 { "spill",      F3(3, 0x04, 1), F3(~3, ~0x04, ~1),              "d,[i+1]", F_ALIAS, v6 },
666 { "spill",      F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v6 },
667 { "spill",      F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v6 }, /* st d,[rs1+0] */
668 
669 { "sta",        F3(3, 0x14, 0), F3(~3, ~0x14, ~0),              "d,[1+2]A", 0, v6 },
670 { "sta",        F3(3, 0x14, 0), F3(~3, ~0x14, ~0)|RS2(~0),      "d,[1]A", 0, v6 }, /* sta d,[rs1+%g0] */
671 { "sta",        F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[1+i]o", 0, v9 },
672 { "sta",        F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[i+1]o", 0, v9 },
673 { "sta",        F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|RS1_G0,       "d,[i]o", 0, v9 },
674 { "sta",        F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|SIMM13(~0),   "d,[1]o", 0, v9 }, /* st d,[rs1+0] */
675 
676 { "sta",        F3(3, 0x34, 0), F3(~3, ~0x34, ~0),              "g,[1+2]A", 0, v9 },
677 { "sta",        F3(3, 0x34, 0), F3(~3, ~0x34, ~0)|RS2(~0),      "g,[1]A", 0, v9 }, /* sta d,[rs1+%g0] */
678 { "sta",        F3(3, 0x34, 1), F3(~3, ~0x34, ~1),              "g,[1+i]o", 0, v9 },
679 { "sta",        F3(3, 0x34, 1), F3(~3, ~0x34, ~1),              "g,[i+1]o", 0, v9 },
680 { "sta",        F3(3, 0x34, 1), F3(~3, ~0x34, ~1)|RS1_G0,       "g,[i]o", 0, v9 },
681 { "sta",        F3(3, 0x34, 1), F3(~3, ~0x34, ~1)|SIMM13(~0),   "g,[1]o", 0, v9 }, /* st d,[rs1+0] */
682 
683 { "stwa",       F3(3, 0x14, 0), F3(~3, ~0x14, ~0),              "d,[1+2]A", F_ALIAS, v9 },
684 { "stwa",       F3(3, 0x14, 0), F3(~3, ~0x14, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v9 }, /* sta d,[rs1+%g0] */
685 { "stwa",       F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[1+i]o", F_ALIAS, v9 },
686 { "stwa",       F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[i+1]o", F_ALIAS, v9 },
687 { "stwa",       F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
688 { "stwa",       F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* st d,[rs1+0] */
689 { "stswa",      F3(3, 0x14, 0), F3(~3, ~0x14, ~0),              "d,[1+2]A", F_ALIAS, v9 },
690 { "stswa",      F3(3, 0x14, 0), F3(~3, ~0x14, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v9 }, /* sta d,[rs1+%g0] */
691 { "stswa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[1+i]o", F_ALIAS, v9 },
692 { "stswa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[i+1]o", F_ALIAS, v9 },
693 { "stswa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
694 { "stswa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* st d,[rs1+0] */
695 { "stuwa",      F3(3, 0x14, 0), F3(~3, ~0x14, ~0),              "d,[1+2]A", F_ALIAS, v9 },
696 { "stuwa",      F3(3, 0x14, 0), F3(~3, ~0x14, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v9 }, /* sta d,[rs1+%g0] */
697 { "stuwa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[1+i]o", F_ALIAS, v9 },
698 { "stuwa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1),              "d,[i+1]o", F_ALIAS, v9 },
699 { "stuwa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
700 { "stuwa",      F3(3, 0x14, 1), F3(~3, ~0x14, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* st d,[rs1+0] */
701 
702 { "stb",        F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|ASI(~0),      "d,[1+2]", 0, v6 },
703 { "stb",        F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|ASI_RS2(~0),  "d,[1]", 0, v6 }, /* stb d,[rs1+%g0] */
704 { "stb",        F3(3, 0x05, 1), F3(~3, ~0x05, ~1),              "d,[1+i]", 0, v6 },
705 { "stb",        F3(3, 0x05, 1), F3(~3, ~0x05, ~1),              "d,[i+1]", 0, v6 },
706 { "stb",        F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RS1_G0,       "d,[i]", 0, v6 },
707 { "stb",        F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|SIMM13(~0),   "d,[1]", 0, v6 }, /* stb d,[rs1+0] */
708 
709 { "stsb",       F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v6 },
710 { "stsb",       F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v6 }, /* stb d,[rs1+%g0] */
711 { "stsb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1),              "d,[1+i]", F_ALIAS, v6 },
712 { "stsb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1),              "d,[i+1]", F_ALIAS, v6 },
713 { "stsb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v6 },
714 { "stsb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v6 }, /* stb d,[rs1+0] */
715 { "stub",       F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v6 },
716 { "stub",       F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v6 }, /* stb d,[rs1+%g0] */
717 { "stub",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1),              "d,[1+i]", F_ALIAS, v6 },
718 { "stub",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1),              "d,[i+1]", F_ALIAS, v6 },
719 { "stub",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v6 },
720 { "stub",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v6 }, /* stb d,[rs1+0] */
721 
722 { "stba",       F3(3, 0x15, 0), F3(~3, ~0x15, ~0),              "d,[1+2]A", 0, v6 },
723 { "stba",       F3(3, 0x15, 0), F3(~3, ~0x15, ~0)|RS2(~0),      "d,[1]A", 0, v6 }, /* stba d,[rs1+%g0] */
724 { "stba",       F3(3, 0x15, 1), F3(~3, ~0x15, ~1),              "d,[1+i]o", 0, v9 },
725 { "stba",       F3(3, 0x15, 1), F3(~3, ~0x15, ~1),              "d,[i+1]o", 0, v9 },
726 { "stba",       F3(3, 0x15, 1), F3(~3, ~0x15, ~1)|RS1_G0,       "d,[i]o", 0, v9 },
727 { "stba",       F3(3, 0x15, 1), F3(~3, ~0x15, ~1)|SIMM13(~0),   "d,[1]o", 0, v9 }, /* stb d,[rs1+0] */
728 
729 { "stsba",      F3(3, 0x15, 0), F3(~3, ~0x15, ~0),              "d,[1+2]A", F_ALIAS, v6 },
730 { "stsba",      F3(3, 0x15, 0), F3(~3, ~0x15, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v6 }, /* stba d,[rs1+%g0] */
731 { "stsba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1),              "d,[1+i]o", F_ALIAS, v9 },
732 { "stsba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1),              "d,[i+1]o", F_ALIAS, v9 },
733 { "stsba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
734 { "stsba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* stb d,[rs1+0] */
735 { "stuba",      F3(3, 0x15, 0), F3(~3, ~0x15, ~0),              "d,[1+2]A", F_ALIAS, v6 },
736 { "stuba",      F3(3, 0x15, 0), F3(~3, ~0x15, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v6 }, /* stba d,[rs1+%g0] */
737 { "stuba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1),              "d,[1+i]o", F_ALIAS, v9 },
738 { "stuba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1),              "d,[i+1]o", F_ALIAS, v9 },
739 { "stuba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
740 { "stuba",      F3(3, 0x15, 1), F3(~3, ~0x15, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* stb d,[rs1+0] */
741 
742 { "std",        F3(3, 0x07, 0), F3(~3, ~0x07, ~0)|ASI(~0),      "d,[1+2]", 0, v6 },
743 { "std",        F3(3, 0x07, 0), F3(~3, ~0x07, ~0)|ASI_RS2(~0),  "d,[1]", 0, v6 }, /* std d,[rs1+%g0] */
744 { "std",        F3(3, 0x07, 1), F3(~3, ~0x07, ~1),              "d,[1+i]", 0, v6 },
745 { "std",        F3(3, 0x07, 1), F3(~3, ~0x07, ~1),              "d,[i+1]", 0, v6 },
746 { "std",        F3(3, 0x07, 1), F3(~3, ~0x07, ~1)|RS1_G0,       "d,[i]", 0, v6 },
747 { "std",        F3(3, 0x07, 1), F3(~3, ~0x07, ~1)|SIMM13(~0),   "d,[1]", 0, v6 }, /* std d,[rs1+0] */
748 
749 { "std",        F3(3, 0x26, 0), F3(~3, ~0x26, ~0)|ASI(~0),      "q,[1+2]", 0, v6notv9 },
750 { "std",        F3(3, 0x26, 0), F3(~3, ~0x26, ~0)|ASI_RS2(~0),  "q,[1]", 0, v6notv9 }, /* std d,[rs1+%g0] */
751 { "std",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1),              "q,[1+i]", 0, v6notv9 },
752 { "std",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1),              "q,[i+1]", 0, v6notv9 },
753 { "std",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1)|RS1_G0,       "q,[i]", 0, v6notv9 },
754 { "std",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1)|SIMM13(~0),   "q,[1]", 0, v6notv9 }, /* std d,[rs1+0] */
755 { "std",        F3(3, 0x27, 0), F3(~3, ~0x27, ~0)|ASI(~0),      "H,[1+2]", 0, v6 },
756 { "std",        F3(3, 0x27, 0), F3(~3, ~0x27, ~0)|ASI_RS2(~0),  "H,[1]", 0, v6 }, /* std d,[rs1+%g0] */
757 { "std",        F3(3, 0x27, 1), F3(~3, ~0x27, ~1),              "H,[1+i]", 0, v6 },
758 { "std",        F3(3, 0x27, 1), F3(~3, ~0x27, ~1),              "H,[i+1]", 0, v6 },
759 { "std",        F3(3, 0x27, 1), F3(~3, ~0x27, ~1)|RS1_G0,       "H,[i]", 0, v6 },
760 { "std",        F3(3, 0x27, 1), F3(~3, ~0x27, ~1)|SIMM13(~0),   "H,[1]", 0, v6 }, /* std d,[rs1+0] */
761 
762 { "std",        F3(3, 0x36, 0), F3(~3, ~0x36, ~0)|ASI(~0),      "Q,[1+2]", 0, v6notv9 },
763 { "std",        F3(3, 0x36, 0), F3(~3, ~0x36, ~0)|ASI_RS2(~0),  "Q,[1]", 0, v6notv9 }, /* std d,[rs1+%g0] */
764 { "std",        F3(3, 0x36, 1), F3(~3, ~0x36, ~1),              "Q,[1+i]", 0, v6notv9 },
765 { "std",        F3(3, 0x36, 1), F3(~3, ~0x36, ~1),              "Q,[i+1]", 0, v6notv9 },
766 { "std",        F3(3, 0x36, 1), F3(~3, ~0x36, ~1)|RS1_G0,       "Q,[i]", 0, v6notv9 },
767 { "std",        F3(3, 0x36, 1), F3(~3, ~0x36, ~1)|SIMM13(~0),   "Q,[1]", 0, v6notv9 }, /* std d,[rs1+0] */
768 { "std",        F3(3, 0x37, 0), F3(~3, ~0x37, ~0)|ASI(~0),      "D,[1+2]", 0, v6notv9 },
769 { "std",        F3(3, 0x37, 0), F3(~3, ~0x37, ~0)|ASI_RS2(~0),  "D,[1]", 0, v6notv9 }, /* std d,[rs1+%g0] */
770 { "std",        F3(3, 0x37, 1), F3(~3, ~0x37, ~1),              "D,[1+i]", 0, v6notv9 },
771 { "std",        F3(3, 0x37, 1), F3(~3, ~0x37, ~1),              "D,[i+1]", 0, v6notv9 },
772 { "std",        F3(3, 0x37, 1), F3(~3, ~0x37, ~1)|RS1_G0,       "D,[i]", 0, v6notv9 },
773 { "std",        F3(3, 0x37, 1), F3(~3, ~0x37, ~1)|SIMM13(~0),   "D,[1]", 0, v6notv9 }, /* std d,[rs1+0] */
774 
775 { "spilld",     F3(3, 0x07, 0), F3(~3, ~0x07, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v6 },
776 { "spilld",     F3(3, 0x07, 0), F3(~3, ~0x07, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v6 }, /* std d,[rs1+%g0] */
777 { "spilld",     F3(3, 0x07, 1), F3(~3, ~0x07, ~1),              "d,[1+i]", F_ALIAS, v6 },
778 { "spilld",     F3(3, 0x07, 1), F3(~3, ~0x07, ~1),              "d,[i+1]", F_ALIAS, v6 },
779 { "spilld",     F3(3, 0x07, 1), F3(~3, ~0x07, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v6 },
780 { "spilld",     F3(3, 0x07, 1), F3(~3, ~0x07, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v6 }, /* std d,[rs1+0] */
781 
782 { "stda",       F3(3, 0x17, 0), F3(~3, ~0x17, ~0),              "d,[1+2]A", 0, v6 },
783 { "stda",       F3(3, 0x17, 0), F3(~3, ~0x17, ~0)|RS2(~0),      "d,[1]A", 0, v6 }, /* stda d,[rs1+%g0] */
784 { "stda",       F3(3, 0x17, 1), F3(~3, ~0x17, ~1),              "d,[1+i]o", 0, v9 },
785 { "stda",       F3(3, 0x17, 1), F3(~3, ~0x17, ~1),              "d,[i+1]o", 0, v9 },
786 { "stda",       F3(3, 0x17, 1), F3(~3, ~0x17, ~1)|RS1_G0,       "d,[i]o", 0, v9 },
787 { "stda",       F3(3, 0x17, 1), F3(~3, ~0x17, ~1)|SIMM13(~0),   "d,[1]o", 0, v9 }, /* std d,[rs1+0] */
788 { "stda",       F3(3, 0x37, 0), F3(~3, ~0x37, ~0),              "H,[1+2]A", 0, v9 },
789 { "stda",       F3(3, 0x37, 0), F3(~3, ~0x37, ~0)|RS2(~0),      "H,[1]A", 0, v9 }, /* stda d,[rs1+%g0] */
790 { "stda",       F3(3, 0x37, 1), F3(~3, ~0x37, ~1),              "H,[1+i]o", 0, v9 },
791 { "stda",       F3(3, 0x37, 1), F3(~3, ~0x37, ~1),              "H,[i+1]o", 0, v9 },
792 { "stda",       F3(3, 0x37, 1), F3(~3, ~0x37, ~1)|RS1_G0,       "H,[i]o", 0, v9 },
793 { "stda",       F3(3, 0x37, 1), F3(~3, ~0x37, ~1)|SIMM13(~0),   "H,[1]o", 0, v9 }, /* std d,[rs1+0] */
794 
795 { "sth",        F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|ASI(~0),      "d,[1+2]", 0, v6 },
796 { "sth",        F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|ASI_RS2(~0),  "d,[1]", 0, v6 }, /* sth d,[rs1+%g0] */
797 { "sth",        F3(3, 0x06, 1), F3(~3, ~0x06, ~1),              "d,[1+i]", 0, v6 },
798 { "sth",        F3(3, 0x06, 1), F3(~3, ~0x06, ~1),              "d,[i+1]", 0, v6 },
799 { "sth",        F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RS1_G0,       "d,[i]", 0, v6 },
800 { "sth",        F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|SIMM13(~0),   "d,[1]", 0, v6 }, /* sth d,[rs1+0] */
801 
802 { "stsh",       F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v6 },
803 { "stsh",       F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v6 }, /* sth d,[rs1+%g0] */
804 { "stsh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1),              "d,[1+i]", F_ALIAS, v6 },
805 { "stsh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1),              "d,[i+1]", F_ALIAS, v6 },
806 { "stsh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v6 },
807 { "stsh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v6 }, /* sth d,[rs1+0] */
808 { "stuh",       F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|ASI(~0),      "d,[1+2]", F_ALIAS, v6 },
809 { "stuh",       F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|ASI_RS2(~0),  "d,[1]", F_ALIAS, v6 }, /* sth d,[rs1+%g0] */
810 { "stuh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1),              "d,[1+i]", F_ALIAS, v6 },
811 { "stuh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1),              "d,[i+1]", F_ALIAS, v6 },
812 { "stuh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RS1_G0,       "d,[i]", F_ALIAS, v6 },
813 { "stuh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|SIMM13(~0),   "d,[1]", F_ALIAS, v6 }, /* sth d,[rs1+0] */
814 
815 { "stha",       F3(3, 0x16, 0), F3(~3, ~0x16, ~0),              "d,[1+2]A", 0, v6 },
816 { "stha",       F3(3, 0x16, 0), F3(~3, ~0x16, ~0)|RS2(~0),      "d,[1]A", 0, v6 }, /* stha ,[rs1+%g0] */
817 { "stha",       F3(3, 0x16, 1), F3(~3, ~0x16, ~1),              "d,[1+i]o", 0, v9 },
818 { "stha",       F3(3, 0x16, 1), F3(~3, ~0x16, ~1),              "d,[i+1]o", 0, v9 },
819 { "stha",       F3(3, 0x16, 1), F3(~3, ~0x16, ~1)|RS1_G0,       "d,[i]o", 0, v9 },
820 { "stha",       F3(3, 0x16, 1), F3(~3, ~0x16, ~1)|SIMM13(~0),   "d,[1]o", 0, v9 }, /* sth d,[rs1+0] */
821 
822 { "stsha",      F3(3, 0x16, 0), F3(~3, ~0x16, ~0),              "d,[1+2]A", F_ALIAS, v6 },
823 { "stsha",      F3(3, 0x16, 0), F3(~3, ~0x16, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v6 }, /* stha ,[rs1+%g0] */
824 { "stsha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1),              "d,[1+i]o", F_ALIAS, v9 },
825 { "stsha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1),              "d,[i+1]o", F_ALIAS, v9 },
826 { "stsha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
827 { "stsha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* sth d,[rs1+0] */
828 { "stuha",      F3(3, 0x16, 0), F3(~3, ~0x16, ~0),              "d,[1+2]A", F_ALIAS, v6 },
829 { "stuha",      F3(3, 0x16, 0), F3(~3, ~0x16, ~0)|RS2(~0),      "d,[1]A", F_ALIAS, v6 }, /* stha ,[rs1+%g0] */
830 { "stuha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1),              "d,[1+i]o", F_ALIAS, v9 },
831 { "stuha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1),              "d,[i+1]o", F_ALIAS, v9 },
832 { "stuha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1)|RS1_G0,       "d,[i]o", F_ALIAS, v9 },
833 { "stuha",      F3(3, 0x16, 1), F3(~3, ~0x16, ~1)|SIMM13(~0),   "d,[1]o", F_ALIAS, v9 }, /* sth d,[rs1+0] */
834 
835 { "stx",        F3(3, 0x0e, 0), F3(~3, ~0x0e, ~0)|ASI(~0),      "d,[1+2]", 0, v9 },
836 { "stx",        F3(3, 0x0e, 0), F3(~3, ~0x0e, ~0)|ASI_RS2(~0),  "d,[1]", 0, v9 }, /* stx d,[rs1+%g0] */
837 { "stx",        F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1),              "d,[1+i]", 0, v9 },
838 { "stx",        F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1),              "d,[i+1]", 0, v9 },
839 { "stx",        F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1)|RS1_G0,       "d,[i]", 0, v9 },
840 { "stx",        F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1)|SIMM13(~0),   "d,[1]", 0, v9 }, /* stx d,[rs1+0] */
841 
842 { "stx",        F3(3, 0x25, 0)|RD(1), F3(~3, ~0x25, ~0)|ASI(~0)|RD(~1), "F,[1+2]", 0, v9 },
843 { "stx",        F3(3, 0x25, 0)|RD(1), F3(~3, ~0x25, ~0)|ASI_RS2(~0)|RD(~1),"F,[1]", 0, v9 }, /* stx d,[rs1+%g0] */
844 { "stx",        F3(3, 0x25, 1)|RD(1), F3(~3, ~0x25, ~1)|RD(~1),         "F,[1+i]", 0, v9 },
845 { "stx",        F3(3, 0x25, 1)|RD(1), F3(~3, ~0x25, ~1)|RD(~1),         "F,[i+1]", 0, v9 },
846 { "stx",        F3(3, 0x25, 1)|RD(1), F3(~3, ~0x25, ~1)|RS1_G0|RD(~1),  "F,[i]", 0, v9 },
847 { "stx",        F3(3, 0x25, 1)|RD(1), F3(~3, ~0x25, ~1)|SIMM13(~0)|RD(~1),"F,[1]", 0, v9 }, /* stx d,[rs1+0] */
848 
849 { "stxa",       F3(3, 0x1e, 0), F3(~3, ~0x1e, ~0),              "d,[1+2]A", 0, v9 },
850 { "stxa",       F3(3, 0x1e, 0), F3(~3, ~0x1e, ~0)|RS2(~0),      "d,[1]A", 0, v9 }, /* stxa d,[rs1+%g0] */
851 { "stxa",       F3(3, 0x1e, 1), F3(~3, ~0x1e, ~1),              "d,[1+i]o", 0, v9 },
852 { "stxa",       F3(3, 0x1e, 1), F3(~3, ~0x1e, ~1),              "d,[i+1]o", 0, v9 },
853 { "stxa",       F3(3, 0x1e, 1), F3(~3, ~0x1e, ~1)|RS1_G0,       "d,[i]o", 0, v9 },
854 { "stxa",       F3(3, 0x1e, 1), F3(~3, ~0x1e, ~1)|SIMM13(~0),   "d,[1]o", 0, v9 }, /* stx d,[rs1+0] */
855 
856 { "stq",        F3(3, 0x26, 0), F3(~3, ~0x26, ~0)|ASI(~0),      "J,[1+2]", 0, v9 },
857 { "stq",        F3(3, 0x26, 0), F3(~3, ~0x26, ~0)|ASI_RS2(~0),  "J,[1]", 0, v9 }, /* stq [rs1+%g0] */
858 { "stq",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1),              "J,[1+i]", 0, v9 },
859 { "stq",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1),              "J,[i+1]", 0, v9 },
860 { "stq",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1)|RS1_G0,       "J,[i]", 0, v9 },
861 { "stq",        F3(3, 0x26, 1), F3(~3, ~0x26, ~1)|SIMM13(~0),   "J,[1]", 0, v9 }, /* stq [rs1+0] */
862 
863 { "stqa",       F3(3, 0x36, 0), F3(~3, ~0x36, ~0)|ASI(~0),      "J,[1+2]A", 0, v9 },
864 { "stqa",       F3(3, 0x36, 0), F3(~3, ~0x36, ~0)|ASI_RS2(~0),  "J,[1]A", 0, v9 }, /* stqa [rs1+%g0] */
865 { "stqa",       F3(3, 0x36, 1), F3(~3, ~0x36, ~1),              "J,[1+i]o", 0, v9 },
866 { "stqa",       F3(3, 0x36, 1), F3(~3, ~0x36, ~1),              "J,[i+1]o", 0, v9 },
867 { "stqa",       F3(3, 0x36, 1), F3(~3, ~0x36, ~1)|RS1_G0,       "J,[i]o", 0, v9 },
868 { "stqa",       F3(3, 0x36, 1), F3(~3, ~0x36, ~1)|SIMM13(~0),   "J,[1]o", 0, v9 }, /* stqa [rs1+0] */
869 
870 { "swap",       F3(3, 0x0f, 0), F3(~3, ~0x0f, ~0)|ASI(~0),      "[1+2],d", 0, v7 },
871 { "swap",       F3(3, 0x0f, 0), F3(~3, ~0x0f, ~0)|ASI_RS2(~0),  "[1],d", 0, v7 }, /* swap [rs1+%g0],d */
872 { "swap",       F3(3, 0x0f, 1), F3(~3, ~0x0f, ~1),              "[1+i],d", 0, v7 },
873 { "swap",       F3(3, 0x0f, 1), F3(~3, ~0x0f, ~1),              "[i+1],d", 0, v7 },
874 { "swap",       F3(3, 0x0f, 1), F3(~3, ~0x0f, ~1)|RS1_G0,       "[i],d", 0, v7 },
875 { "swap",       F3(3, 0x0f, 1), F3(~3, ~0x0f, ~1)|SIMM13(~0),   "[1],d", 0, v7 }, /* swap [rs1+0],d */
876 
877 { "swapa",      F3(3, 0x1f, 0), F3(~3, ~0x1f, ~0),              "[1+2]A,d", 0, v7 },
878 { "swapa",      F3(3, 0x1f, 0), F3(~3, ~0x1f, ~0)|RS2(~0),      "[1]A,d", 0, v7 }, /* swapa [rs1+%g0],d */
879 { "swapa",      F3(3, 0x1f, 1), F3(~3, ~0x1f, ~1),              "[1+i]o,d", 0, v9 },
880 { "swapa",      F3(3, 0x1f, 1), F3(~3, ~0x1f, ~1),              "[i+1]o,d", 0, v9 },
881 { "swapa",      F3(3, 0x1f, 1), F3(~3, ~0x1f, ~1)|RS1_G0,       "[i]o,d", 0, v9 },
882 { "swapa",      F3(3, 0x1f, 1), F3(~3, ~0x1f, ~1)|SIMM13(~0),   "[1]o,d", 0, v9 }, /* swap [rs1+0],d */
883 
884 { "restore",    F3(2, 0x3d, 0), F3(~2, ~0x3d, ~0)|ASI(~0),                      "1,2,d", 0, v6 },
885 { "restore",    F3(2, 0x3d, 0), F3(~2, ~0x3d, ~0)|RD_G0|RS1_G0|ASI_RS2(~0),     "", 0, v6 }, /* restore %g0,%g0,%g0 */
886 { "restore",    F3(2, 0x3d, 1), F3(~2, ~0x3d, ~1),                              "1,i,d", 0, v6 },
887 { "restore",    F3(2, 0x3d, 1), F3(~2, ~0x3d, ~1)|RD_G0|RS1_G0|SIMM13(~0),      "", 0, v6 }, /* restore %g0,0,%g0 */
888 
889 { "rett",       F3(2, 0x39, 0), F3(~2, ~0x39, ~0)|RD_G0|ASI(~0),        "1+2", F_UNBR|F_DELAYED, v6 }, /* rett rs1+rs2 */
890 { "rett",       F3(2, 0x39, 0), F3(~2, ~0x39, ~0)|RD_G0|ASI_RS2(~0),    "1", F_UNBR|F_DELAYED, v6 },    /* rett rs1,%g0 */
891 { "rett",       F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|RD_G0,                "1+i", F_UNBR|F_DELAYED, v6 }, /* rett rs1+X */
892 { "rett",       F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|RD_G0,                "i+1", F_UNBR|F_DELAYED, v6 }, /* rett X+rs1 */
893 { "rett",       F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|RD_G0|RS1_G0,         "i", F_UNBR|F_DELAYED, v6 }, /* rett X+rs1 */
894 { "rett",       F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|RD_G0|RS1_G0,         "i", F_UNBR|F_DELAYED, v6 },    /* rett X */
895 { "rett",       F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|RD_G0|SIMM13(~0),     "1", F_UNBR|F_DELAYED, v6 },    /* rett rs1+0 */
896 
897 { "save",       F3(2, 0x3c, 0), F3(~2, ~0x3c, ~0)|ASI(~0),      "1,2,d", 0, v6 },
898 { "save",       F3(2, 0x3c, 1), F3(~2, ~0x3c, ~1),              "1,i,d", 0, v6 },
899 { "save",       0x81e00000,     ~0x81e00000,                    "", F_ALIAS, v6 },
900 
901 { "ret",  F3(2, 0x38, 1)|RS1(0x1f)|SIMM13(8), F3(~2, ~0x38, ~1)|SIMM13(~8),            "", F_UNBR|F_DELAYED, v6 }, /* jmpl %i7+8,%g0 */
902 { "retl", F3(2, 0x38, 1)|RS1(0x0f)|SIMM13(8), F3(~2, ~0x38, ~1)|RS1(~0x0f)|SIMM13(~8), "", F_UNBR|F_DELAYED, v6 }, /* jmpl %o7+8,%g0 */
903 
904 { "jmpl",       F3(2, 0x38, 0), F3(~2, ~0x38, ~0)|ASI(~0),      "1+2,d", F_JSR|F_DELAYED, v6 },
905 { "jmpl",       F3(2, 0x38, 0), F3(~2, ~0x38, ~0)|ASI_RS2(~0),  "1,d", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+%g0,d */
906 { "jmpl",       F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|SIMM13(~0),   "1,d", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+0,d */
907 { "jmpl",       F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RS1_G0,       "i,d", F_JSR|F_DELAYED, v6 }, /* jmpl %g0+i,d */
908 { "jmpl",       F3(2, 0x38, 1), F3(~2, ~0x38, ~1),              "1+i,d", F_JSR|F_DELAYED, v6 },
909 { "jmpl",       F3(2, 0x38, 1), F3(~2, ~0x38, ~1),              "i+1,d", F_JSR|F_DELAYED, v6 },
910 
911 { "done",       F3(2, 0x3e, 0)|RD(0), F3(~2, ~0x3e, ~0)|RD(~0)|RS1_G0|SIMM13(~0),       "", 0, v9 },
912 { "retry",      F3(2, 0x3e, 0)|RD(1), F3(~2, ~0x3e, ~0)|RD(~1)|RS1_G0|SIMM13(~0),       "", 0, v9 },
913 { "saved",      F3(2, 0x31, 0)|RD(0), F3(~2, ~0x31, ~0)|RD(~0)|RS1_G0|SIMM13(~0),       "", 0, v9 },
914 { "restored",   F3(2, 0x31, 0)|RD(1), F3(~2, ~0x31, ~0)|RD(~1)|RS1_G0|SIMM13(~0),       "", 0, v9 },
915 { "allclean",   F3(2, 0x31, 0)|RD(2), F3(~2, ~0x31, ~0)|RD(~2)|RS1_G0|SIMM13(~0),       "", 0, v9 },
916 { "otherw",     F3(2, 0x31, 0)|RD(3), F3(~2, ~0x31, ~0)|RD(~3)|RS1_G0|SIMM13(~0),       "", 0, v9 },
917 { "normalw",    F3(2, 0x31, 0)|RD(4), F3(~2, ~0x31, ~0)|RD(~4)|RS1_G0|SIMM13(~0),       "", 0, v9 },
918 { "invalw",     F3(2, 0x31, 0)|RD(5), F3(~2, ~0x31, ~0)|RD(~5)|RS1_G0|SIMM13(~0),       "", 0, v9 },
919 { "sir",        F3(2, 0x30, 1)|RD(0xf), F3(~2, ~0x30, ~1)|RD(~0xf)|RS1_G0,              "i", 0, v9 },
920 
921 { "flush",      F3(2, 0x3b, 0), F3(~2, ~0x3b, ~0)|ASI(~0),      "1+2", 0, v8 },
922 { "flush",      F3(2, 0x3b, 0), F3(~2, ~0x3b, ~0)|ASI_RS2(~0),  "1", 0, v8 }, /* flush rs1+%g0 */
923 { "flush",      F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1)|SIMM13(~0),   "1", 0, v8 }, /* flush rs1+0 */
924 { "flush",      F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1)|RS1_G0,       "i", 0, v8 }, /* flush %g0+i */
925 { "flush",      F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1),              "1+i", 0, v8 },
926 { "flush",      F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1),              "i+1", 0, v8 },
927 
928 /* IFLUSH was renamed to FLUSH in v8.  */
929 { "iflush",     F3(2, 0x3b, 0), F3(~2, ~0x3b, ~0)|ASI(~0),      "1+2", F_ALIAS, v6 },
930 { "iflush",     F3(2, 0x3b, 0), F3(~2, ~0x3b, ~0)|ASI_RS2(~0),  "1", F_ALIAS, v6 }, /* flush rs1+%g0 */
931 { "iflush",     F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1)|SIMM13(~0),   "1", F_ALIAS, v6 }, /* flush rs1+0 */
932 { "iflush",     F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1)|RS1_G0,       "i", F_ALIAS, v6 },
933 { "iflush",     F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1),              "1+i", F_ALIAS, v6 },
934 { "iflush",     F3(2, 0x3b, 1), F3(~2, ~0x3b, ~1),              "i+1", F_ALIAS, v6 },
935 
936 { "return",     F3(2, 0x39, 0), F3(~2, ~0x39, ~0)|ASI(~0),      "1+2", 0, v9 },
937 { "return",     F3(2, 0x39, 0), F3(~2, ~0x39, ~0)|ASI_RS2(~0),  "1", 0, v9 }, /* return rs1+%g0 */
938 { "return",     F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|SIMM13(~0),   "1", 0, v9 }, /* return rs1+0 */
939 { "return",     F3(2, 0x39, 1), F3(~2, ~0x39, ~1)|RS1_G0,       "i", 0, v9 }, /* return %g0+i */
940 { "return",     F3(2, 0x39, 1), F3(~2, ~0x39, ~1),              "1+i", 0, v9 },
941 { "return",     F3(2, 0x39, 1), F3(~2, ~0x39, ~1),              "i+1", 0, v9 },
942 
943 { "flushw",     F3(2, 0x2b, 0), F3(~2, ~0x2b, ~0)|RD_G0|RS1_G0|ASI_RS2(~0),     "", 0, v9 },
944 
945 { "membar",     F3(2, 0x28, 1)|RS1(0xf), F3(~2, ~0x28, ~1)|RD_G0|RS1(~0xf)|SIMM13(~127), "K", 0, v9 },
946 { "stbar",      F3(2, 0x28, 0)|RS1(0xf), F3(~2, ~0x28, ~0)|RD_G0|RS1(~0xf)|SIMM13(~0), "", 0, v8 },
947 
948 { "prefetch",   F3(3, 0x2d, 0), F3(~3, ~0x2d, ~0),              "[1+2],*", 0, v9 },
949 { "prefetch",   F3(3, 0x2d, 0), F3(~3, ~0x2d, ~0)|RS2_G0,       "[1],*", 0, v9 }, /* prefetch [rs1+%g0],prefetch_fcn */
950 { "prefetch",   F3(3, 0x2d, 1), F3(~3, ~0x2d, ~1),              "[1+i],*", 0, v9 },
951 { "prefetch",   F3(3, 0x2d, 1), F3(~3, ~0x2d, ~1),              "[i+1],*", 0, v9 },
952 { "prefetch",   F3(3, 0x2d, 1), F3(~3, ~0x2d, ~1)|RS1_G0,       "[i],*", 0, v9 },
953 { "prefetch",   F3(3, 0x2d, 1), F3(~3, ~0x2d, ~1)|SIMM13(~0),   "[1],*", 0, v9 }, /* prefetch [rs1+0],prefetch_fcn */
954 { "prefetcha",  F3(3, 0x3d, 0), F3(~3, ~0x3d, ~0),              "[1+2]A,*", 0, v9 },
955 { "prefetcha",  F3(3, 0x3d, 0), F3(~3, ~0x3d, ~0)|RS2_G0,       "[1]A,*", 0, v9 }, /* prefetcha [rs1+%g0],prefetch_fcn */
956 { "prefetcha",  F3(3, 0x3d, 1), F3(~3, ~0x3d, ~1),              "[1+i]o,*", 0, v9 },
957 { "prefetcha",  F3(3, 0x3d, 1), F3(~3, ~0x3d, ~1),              "[i+1]o,*", 0, v9 },
958 { "prefetcha",  F3(3, 0x3d, 1), F3(~3, ~0x3d, ~1)|RS1_G0,       "[i]o,*", 0, v9 },
959 { "prefetcha",  F3(3, 0x3d, 1), F3(~3, ~0x3d, ~1)|SIMM13(~0),   "[1]o,*", 0, v9 }, /* prefetcha [rs1+0],d */
960 
961 { "sll",        F3(2, 0x25, 0), F3(~2, ~0x25, ~0)|(1<<12)|(0x7f<<5),    "1,2,d", 0, v6 },
962 { "sll",        F3(2, 0x25, 1), F3(~2, ~0x25, ~1)|(1<<12)|(0x7f<<5),    "1,X,d", 0, v6 },
963 { "sra",        F3(2, 0x27, 0), F3(~2, ~0x27, ~0)|(1<<12)|(0x7f<<5),    "1,2,d", 0, v6 },
964 { "sra",        F3(2, 0x27, 1), F3(~2, ~0x27, ~1)|(1<<12)|(0x7f<<5),    "1,X,d", 0, v6 },
965 { "srl",        F3(2, 0x26, 0), F3(~2, ~0x26, ~0)|(1<<12)|(0x7f<<5),    "1,2,d", 0, v6 },
966 { "srl",        F3(2, 0x26, 1), F3(~2, ~0x26, ~1)|(1<<12)|(0x7f<<5),    "1,X,d", 0, v6 },
967 
968 { "sllx",       F3(2, 0x25, 0)|(1<<12), F3(~2, ~0x25, ~0)|(0x7f<<5),    "1,2,d", 0, v9 },
969 { "sllx",       F3(2, 0x25, 1)|(1<<12), F3(~2, ~0x25, ~1)|(0x3f<<6),    "1,Y,d", 0, v9 },
970 { "srax",       F3(2, 0x27, 0)|(1<<12), F3(~2, ~0x27, ~0)|(0x7f<<5),    "1,2,d", 0, v9 },
971 { "srax",       F3(2, 0x27, 1)|(1<<12), F3(~2, ~0x27, ~1)|(0x3f<<6),    "1,Y,d", 0, v9 },
972 { "srlx",       F3(2, 0x26, 0)|(1<<12), F3(~2, ~0x26, ~0)|(0x7f<<5),    "1,2,d", 0, v9 },
973 { "srlx",       F3(2, 0x26, 1)|(1<<12), F3(~2, ~0x26, ~1)|(0x3f<<6),    "1,Y,d", 0, v9 },
974 
975 { "mulscc",     F3(2, 0x24, 0), F3(~2, ~0x24, ~0)|ASI(~0),      "1,2,d", 0, v6 },
976 { "mulscc",     F3(2, 0x24, 1), F3(~2, ~0x24, ~1),              "1,i,d", 0, v6 },
977 
978 { "divscc",     F3(2, 0x1d, 0), F3(~2, ~0x1d, ~0)|ASI(~0),      "1,2,d", 0, sparclite },
979 { "divscc",     F3(2, 0x1d, 1), F3(~2, ~0x1d, ~1),              "1,i,d", 0, sparclite },
980 
981 { "scan",       F3(2, 0x2c, 0), F3(~2, ~0x2c, ~0)|ASI(~0),      "1,2,d", 0, sparclet|sparclite },
982 { "scan",       F3(2, 0x2c, 1), F3(~2, ~0x2c, ~1),              "1,i,d", 0, sparclet|sparclite },
983 
984 { "popc",       F3(2, 0x2e, 0), F3(~2, ~0x2e, ~0)|RS1_G0|ASI(~0),"2,d", 0, v9 },
985 { "popc",       F3(2, 0x2e, 1), F3(~2, ~0x2e, ~1)|RS1_G0,       "i,d", 0, v9 },
986 
987 { "clr",        F3(2, 0x02, 0), F3(~2, ~0x02, ~0)|RD_G0|RS1_G0|ASI_RS2(~0),     "d", F_ALIAS, v6 }, /* or %g0,%g0,d */
988 { "clr",        F3(2, 0x02, 1), F3(~2, ~0x02, ~1)|RS1_G0|SIMM13(~0),            "d", F_ALIAS, v6 }, /* or %g0,0,d       */
989 { "clr",        F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|RD_G0|ASI(~0),                "[1+2]", F_ALIAS, v6 },
990 { "clr",        F3(3, 0x04, 0), F3(~3, ~0x04, ~0)|RD_G0|ASI_RS2(~0),            "[1]", F_ALIAS, v6 }, /* st %g0,[rs1+%g0] */
991 { "clr",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RD_G0,                        "[1+i]", F_ALIAS, v6 },
992 { "clr",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RD_G0,                        "[i+1]", F_ALIAS, v6 },
993 { "clr",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RD_G0|RS1_G0,                 "[i]", F_ALIAS, v6 },
994 { "clr",        F3(3, 0x04, 1), F3(~3, ~0x04, ~1)|RD_G0|SIMM13(~0),             "[1]", F_ALIAS, v6 }, /* st %g0,[rs1+0] */
995 
996 { "clrb",       F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|RD_G0|ASI(~0),        "[1+2]", F_ALIAS, v6 },
997 { "clrb",       F3(3, 0x05, 0), F3(~3, ~0x05, ~0)|RD_G0|ASI_RS2(~0),    "[1]", F_ALIAS, v6 }, /* stb %g0,[rs1+%g0] */
998 { "clrb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RD_G0,                "[1+i]", F_ALIAS, v6 },
999 { "clrb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RD_G0,                "[i+1]", F_ALIAS, v6 },
1000 { "clrb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RD_G0|RS1_G0,         "[i]", F_ALIAS, v6 },
1001 { "clrb",       F3(3, 0x05, 1), F3(~3, ~0x05, ~1)|RD_G0|SIMM13(~0),     "[1]", F_ALIAS, v6 }, /* stb %g0,[rs1+0] */
1002 
1003 { "clrh",       F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|RD_G0|ASI(~0),        "[1+2]", F_ALIAS, v6 },
1004 { "clrh",       F3(3, 0x06, 0), F3(~3, ~0x06, ~0)|RD_G0|ASI_RS2(~0),    "[1]", F_ALIAS, v6 }, /* sth %g0,[rs1+%g0] */
1005 { "clrh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RD_G0,                "[1+i]", F_ALIAS, v6 },
1006 { "clrh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RD_G0,                "[i+1]", F_ALIAS, v6 },
1007 { "clrh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RD_G0|RS1_G0,         "[i]", F_ALIAS, v6 },
1008 { "clrh",       F3(3, 0x06, 1), F3(~3, ~0x06, ~1)|RD_G0|SIMM13(~0),     "[1]", F_ALIAS, v6 }, /* sth %g0,[rs1+0] */
1009 
1010 { "clrx",       F3(3, 0x0e, 0), F3(~3, ~0x0e, ~0)|RD_G0|ASI(~0),        "[1+2]", F_ALIAS, v9 },
1011 { "clrx",       F3(3, 0x0e, 0), F3(~3, ~0x0e, ~0)|RD_G0|ASI_RS2(~0),    "[1]", F_ALIAS, v9 }, /* stx %g0,[rs1+%g0] */
1012 { "clrx",       F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1)|RD_G0,                "[1+i]", F_ALIAS, v9 },
1013 { "clrx",       F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1)|RD_G0,                "[i+1]", F_ALIAS, v9 },
1014 { "clrx",       F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1)|RD_G0|RS1_G0,         "[i]", F_ALIAS, v9 },
1015 { "clrx",       F3(3, 0x0e, 1), F3(~3, ~0x0e, ~1)|RD_G0|SIMM13(~0),     "[1]", F_ALIAS, v9 }, /* stx %g0,[rs1+0] */
1016 
1017 { "orcc",       F3(2, 0x12, 0), F3(~2, ~0x12, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1018 { "orcc",       F3(2, 0x12, 1), F3(~2, ~0x12, ~1),              "1,i,d", 0, v6 },
1019 { "orcc",       F3(2, 0x12, 1), F3(~2, ~0x12, ~1),              "i,1,d", 0, v6 },
1020 
1021 /* This is not a commutative instruction.  */
1022 { "orncc",      F3(2, 0x16, 0), F3(~2, ~0x16, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1023 { "orncc",      F3(2, 0x16, 1), F3(~2, ~0x16, ~1),              "1,i,d", 0, v6 },
1024 
1025 /* This is not a commutative instruction.  */
1026 { "orn",        F3(2, 0x06, 0), F3(~2, ~0x06, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1027 { "orn",        F3(2, 0x06, 1), F3(~2, ~0x06, ~1),              "1,i,d", 0, v6 },
1028 
1029 { "tst",        F3(2, 0x12, 0), F3(~2, ~0x12, ~0)|RD_G0|ASI_RS2(~0),    "1", 0, v6 }, /* orcc rs1, %g0, %g0 */
1030 { "tst",        F3(2, 0x12, 0), F3(~2, ~0x12, ~0)|RD_G0|RS1_G0|ASI(~0), "2", 0, v6 }, /* orcc %g0, rs2, %g0 */
1031 { "tst",        F3(2, 0x12, 1), F3(~2, ~0x12, ~1)|RD_G0|SIMM13(~0),     "1", 0, v6 }, /* orcc rs1, 0, %g0 */
1032 
1033 { "wr", F3(2, 0x30, 0),         F3(~2, ~0x30, ~0)|ASI(~0),              "1,2,m", 0, v8 }, /* wr r,r,%asrX */
1034 { "wr", F3(2, 0x30, 1),         F3(~2, ~0x30, ~1),                      "1,i,m", 0, v8 }, /* wr r,i,%asrX */
1035 { "wr", F3(2, 0x30, 0),         F3(~2, ~0x30, ~0)|ASI_RS2(~0),          "1,m", F_ALIAS, v8 }, /* wr rs1,%g0,%asrX */
1036 { "wr", F3(2, 0x30, 0),         F3(~2, ~0x30, ~0)|RD_G0|ASI(~0),        "1,2,y", 0, v6 }, /* wr r,r,%y */
1037 { "wr", F3(2, 0x30, 1),         F3(~2, ~0x30, ~1)|RD_G0,                "1,i,y", 0, v6 }, /* wr r,i,%y */
1038 { "wr", F3(2, 0x30, 0),         F3(~2, ~0x30, ~0)|RD_G0|ASI_RS2(~0),    "1,y", F_ALIAS, v6 }, /* wr rs1,%g0,%y */
1039 { "wr", F3(2, 0x31, 0),         F3(~2, ~0x31, ~0)|RD_G0|ASI(~0),        "1,2,p", 0, v6notv9 }, /* wr r,r,%psr */
1040 { "wr", F3(2, 0x31, 1),         F3(~2, ~0x31, ~1)|RD_G0,                "1,i,p", 0, v6notv9 }, /* wr r,i,%psr */
1041 { "wr", F3(2, 0x31, 0),         F3(~2, ~0x31, ~0)|RD_G0|ASI_RS2(~0),    "1,p", F_ALIAS, v6notv9 }, /* wr rs1,%g0,%psr */
1042 { "wr", F3(2, 0x32, 0),         F3(~2, ~0x32, ~0)|RD_G0|ASI(~0),        "1,2,w", 0, v6notv9 }, /* wr r,r,%wim */
1043 { "wr", F3(2, 0x32, 1),         F3(~2, ~0x32, ~1)|RD_G0,                "1,i,w", 0, v6notv9 }, /* wr r,i,%wim */
1044 { "wr", F3(2, 0x32, 0),         F3(~2, ~0x32, ~0)|RD_G0|ASI_RS2(~0),    "1,w", F_ALIAS, v6notv9 }, /* wr rs1,%g0,%wim */
1045 { "wr", F3(2, 0x33, 0),         F3(~2, ~0x33, ~0)|RD_G0|ASI(~0),        "1,2,t", 0, v6notv9 }, /* wr r,r,%tbr */
1046 { "wr", F3(2, 0x33, 1),         F3(~2, ~0x33, ~1)|RD_G0,                "1,i,t", 0, v6notv9 }, /* wr r,i,%tbr */
1047 { "wr", F3(2, 0x33, 0),         F3(~2, ~0x33, ~0)|RD_G0|ASI_RS2(~0),    "1,t", F_ALIAS, v6notv9 }, /* wr rs1,%g0,%tbr */
1048 
1049 { "wr", F3(2, 0x30, 0)|RD(2),   F3(~2, ~0x30, ~0)|RD(~2)|ASI(~0),       "1,2,E", 0, v9 }, /* wr r,r,%ccr */
1050 { "wr", F3(2, 0x30, 1)|RD(2),   F3(~2, ~0x30, ~1)|RD(~2),               "1,i,E", 0, v9 }, /* wr r,i,%ccr */
1051 { "wr", F3(2, 0x30, 0)|RD(3),   F3(~2, ~0x30, ~0)|RD(~3)|ASI(~0),       "1,2,o", 0, v9 }, /* wr r,r,%asi */
1052 { "wr", F3(2, 0x30, 1)|RD(3),   F3(~2, ~0x30, ~1)|RD(~3),               "1,i,o", 0, v9 }, /* wr r,i,%asi */
1053 { "wr", F3(2, 0x30, 0)|RD(6),   F3(~2, ~0x30, ~0)|RD(~6)|ASI(~0),       "1,2,s", 0, v9 }, /* wr r,r,%fprs */
1054 { "wr", F3(2, 0x30, 1)|RD(6),   F3(~2, ~0x30, ~1)|RD(~6),               "1,i,s", 0, v9 }, /* wr r,i,%fprs */
1055 
1056 { "wr", F3(2, 0x30, 0)|RD(16),  F3(~2, ~0x30, ~0)|RD(~16)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%pcr */
1057 { "wr", F3(2, 0x30, 1)|RD(16),  F3(~2, ~0x30, ~1)|RD(~16),              "1,i,_", 0, v9a }, /* wr r,i,%pcr */
1058 { "wr", F3(2, 0x30, 0)|RD(17),  F3(~2, ~0x30, ~0)|RD(~17)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%pic */
1059 { "wr", F3(2, 0x30, 1)|RD(17),  F3(~2, ~0x30, ~1)|RD(~17),              "1,i,_", 0, v9a }, /* wr r,i,%pic */
1060 { "wr", F3(2, 0x30, 0)|RD(18),  F3(~2, ~0x30, ~0)|RD(~18)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%dcr */
1061 { "wr", F3(2, 0x30, 1)|RD(18),  F3(~2, ~0x30, ~1)|RD(~18),              "1,i,_", 0, v9a }, /* wr r,i,%dcr */
1062 { "wr", F3(2, 0x30, 0)|RD(19),  F3(~2, ~0x30, ~0)|RD(~19)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%gsr */
1063 { "wr", F3(2, 0x30, 1)|RD(19),  F3(~2, ~0x30, ~1)|RD(~19),              "1,i,_", 0, v9a }, /* wr r,i,%gsr */
1064 { "wr", F3(2, 0x30, 0)|RD(20),  F3(~2, ~0x30, ~0)|RD(~20)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%set_softint */
1065 { "wr", F3(2, 0x30, 1)|RD(20),  F3(~2, ~0x30, ~1)|RD(~20),              "1,i,_", 0, v9a }, /* wr r,i,%set_softint */
1066 { "wr", F3(2, 0x30, 0)|RD(21),  F3(~2, ~0x30, ~0)|RD(~21)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%clear_softint */
1067 { "wr", F3(2, 0x30, 1)|RD(21),  F3(~2, ~0x30, ~1)|RD(~21),              "1,i,_", 0, v9a }, /* wr r,i,%clear_softint */
1068 { "wr", F3(2, 0x30, 0)|RD(22),  F3(~2, ~0x30, ~0)|RD(~22)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%softint */
1069 { "wr", F3(2, 0x30, 1)|RD(22),  F3(~2, ~0x30, ~1)|RD(~22),              "1,i,_", 0, v9a }, /* wr r,i,%softint */
1070 { "wr", F3(2, 0x30, 0)|RD(23),  F3(~2, ~0x30, ~0)|RD(~23)|ASI(~0),      "1,2,_", 0, v9a }, /* wr r,r,%tick_cmpr */
1071 { "wr", F3(2, 0x30, 1)|RD(23),  F3(~2, ~0x30, ~1)|RD(~23),              "1,i,_", 0, v9a }, /* wr r,i,%tick_cmpr */
1072 { "wr", F3(2, 0x30, 0)|RD(24),  F3(~2, ~0x30, ~0)|RD(~24)|ASI(~0),      "1,2,_", 0, v9b }, /* wr r,r,%sys_tick */
1073 { "wr", F3(2, 0x30, 1)|RD(24),  F3(~2, ~0x30, ~1)|RD(~24),              "1,i,_", 0, v9b }, /* wr r,i,%sys_tick */
1074 { "wr", F3(2, 0x30, 0)|RD(25),  F3(~2, ~0x30, ~0)|RD(~25)|ASI(~0),      "1,2,_", 0, v9b }, /* wr r,r,%sys_tick_cmpr */
1075 { "wr", F3(2, 0x30, 1)|RD(25),  F3(~2, ~0x30, ~1)|RD(~25),              "1,i,_", 0, v9b }, /* wr r,i,%sys_tick_cmpr */
1076 
1077 { "rd", F3(2, 0x28, 0),                 F3(~2, ~0x28, ~0)|SIMM13(~0),           "M,d", 0, v8 }, /* rd %asrX,r */
1078 { "rd", F3(2, 0x28, 0),                 F3(~2, ~0x28, ~0)|RS1_G0|SIMM13(~0),    "y,d", 0, v6 }, /* rd %y,r */
1079 { "rd", F3(2, 0x29, 0),                 F3(~2, ~0x29, ~0)|RS1_G0|SIMM13(~0),    "p,d", 0, v6notv9 }, /* rd %psr,r */
1080 { "rd", F3(2, 0x2a, 0),                 F3(~2, ~0x2a, ~0)|RS1_G0|SIMM13(~0),    "w,d", 0, v6notv9 }, /* rd %wim,r */
1081 { "rd", F3(2, 0x2b, 0),                 F3(~2, ~0x2b, ~0)|RS1_G0|SIMM13(~0),    "t,d", 0, v6notv9 }, /* rd %tbr,r */
1082 
1083 { "rd", F3(2, 0x28, 0)|RS1(2),          F3(~2, ~0x28, ~0)|RS1(~2)|SIMM13(~0),   "E,d", 0, v9 }, /* rd %ccr,r */
1084 { "rd", F3(2, 0x28, 0)|RS1(3),          F3(~2, ~0x28, ~0)|RS1(~3)|SIMM13(~0),   "o,d", 0, v9 }, /* rd %asi,r */
1085 { "rd", F3(2, 0x28, 0)|RS1(4),          F3(~2, ~0x28, ~0)|RS1(~4)|SIMM13(~0),   "W,d", 0, v9 }, /* rd %tick,r */
1086 { "rd", F3(2, 0x28, 0)|RS1(5),          F3(~2, ~0x28, ~0)|RS1(~5)|SIMM13(~0),   "P,d", 0, v9 }, /* rd %pc,r */
1087 { "rd", F3(2, 0x28, 0)|RS1(6),          F3(~2, ~0x28, ~0)|RS1(~6)|SIMM13(~0),   "s,d", 0, v9 }, /* rd %fprs,r */
1088 
1089 { "rd", F3(2, 0x28, 0)|RS1(16),         F3(~2, ~0x28, ~0)|RS1(~16)|SIMM13(~0),  "/,d", 0, v9a }, /* rd %pcr,r */
1090 { "rd", F3(2, 0x28, 0)|RS1(17),         F3(~2, ~0x28, ~0)|RS1(~17)|SIMM13(~0),  "/,d", 0, v9a }, /* rd %pic,r */
1091 { "rd", F3(2, 0x28, 0)|RS1(18),         F3(~2, ~0x28, ~0)|RS1(~18)|SIMM13(~0),  "/,d", 0, v9a }, /* rd %dcr,r */
1092 { "rd", F3(2, 0x28, 0)|RS1(19),         F3(~2, ~0x28, ~0)|RS1(~19)|SIMM13(~0),  "/,d", 0, v9a }, /* rd %gsr,r */
1093 { "rd", F3(2, 0x28, 0)|RS1(22),         F3(~2, ~0x28, ~0)|RS1(~22)|SIMM13(~0),  "/,d", 0, v9a }, /* rd %softint,r */
1094 { "rd", F3(2, 0x28, 0)|RS1(23),         F3(~2, ~0x28, ~0)|RS1(~23)|SIMM13(~0),  "/,d", 0, v9a }, /* rd %tick_cmpr,r */
1095 { "rd", F3(2, 0x28, 0)|RS1(24),         F3(~2, ~0x28, ~0)|RS1(~24)|SIMM13(~0),  "/,d", 0, v9b }, /* rd %sys_tick,r */
1096 { "rd", F3(2, 0x28, 0)|RS1(25),         F3(~2, ~0x28, ~0)|RS1(~25)|SIMM13(~0),  "/,d", 0, v9b }, /* rd %sys_tick_cmpr,r */
1097 
1098 { "rdpr",       F3(2, 0x2a, 0),         F3(~2, ~0x2a, ~0)|SIMM13(~0),   "?,d", 0, v9 },   /* rdpr %priv,r */
1099 { "wrpr",       F3(2, 0x32, 0),         F3(~2, ~0x32, ~0),              "1,2,!", 0, v9 }, /* wrpr r1,r2,%priv */
1100 { "wrpr",       F3(2, 0x32, 0),         F3(~2, ~0x32, ~0)|SIMM13(~0),   "1,!", 0, v9 },   /* wrpr r1,%priv */
1101 { "wrpr",       F3(2, 0x32, 1),         F3(~2, ~0x32, ~1),              "1,i,!", 0, v9 }, /* wrpr r1,i,%priv */
1102 { "wrpr",       F3(2, 0x32, 1),         F3(~2, ~0x32, ~1),              "i,1,!", F_ALIAS, v9 }, /* wrpr i,r1,%priv */
1103 { "wrpr",       F3(2, 0x32, 1),         F3(~2, ~0x32, ~1)|RS1(~0),      "i,!", 0, v9 },   /* wrpr i,%priv */
1104 
1105 { "rdhpr",      F3(2, 0x29, 0),         F3(~2, ~0x29, ~0)|SIMM13(~0),   "$,d", 0, v9 },   /* rdhpr %hpriv,r */
1106 { "wrhpr",      F3(2, 0x33, 0),         F3(~2, ~0x33, ~0),              "1,2,%", 0, v9 }, /* wrhpr r1,r2,%hpriv */
1107 { "wrhpr",      F3(2, 0x33, 0),         F3(~2, ~0x33, ~0)|SIMM13(~0),   "1,%", 0, v9 },   /* wrhpr r1,%hpriv */
1108 { "wrhpr",      F3(2, 0x33, 1),         F3(~2, ~0x33, ~1),              "1,i,%", 0, v9 }, /* wrhpr r1,i,%hpriv */
1109 { "wrhpr",      F3(2, 0x33, 1),         F3(~2, ~0x33, ~1),              "i,1,%", F_ALIAS, v9 }, /* wrhpr i,r1,%hpriv */
1110 { "wrhpr",      F3(2, 0x33, 1),         F3(~2, ~0x33, ~1)|RS1(~0),      "i,%", 0, v9 },   /* wrhpr i,%hpriv */
1111 
1112 /* ??? This group seems wrong.  A three operand move?  */
1113 { "mov",        F3(2, 0x30, 0), F3(~2, ~0x30, ~0)|ASI(~0),              "1,2,m", F_ALIAS, v8 }, /* wr r,r,%asrX */
1114 { "mov",        F3(2, 0x30, 1), F3(~2, ~0x30, ~1),                      "1,i,m", F_ALIAS, v8 }, /* wr r,i,%asrX */
1115 { "mov",        F3(2, 0x30, 0), F3(~2, ~0x30, ~0)|RD_G0|ASI(~0),        "1,2,y", F_ALIAS, v6 }, /* wr r,r,%y */
1116 { "mov",        F3(2, 0x30, 1), F3(~2, ~0x30, ~1)|RD_G0,                "1,i,y", F_ALIAS, v6 }, /* wr r,i,%y */
1117 { "mov",        F3(2, 0x31, 0), F3(~2, ~0x31, ~0)|RD_G0|ASI(~0),        "1,2,p", F_ALIAS, v6notv9 }, /* wr r,r,%psr */
1118 { "mov",        F3(2, 0x31, 1), F3(~2, ~0x31, ~1)|RD_G0,                "1,i,p", F_ALIAS, v6notv9 }, /* wr r,i,%psr */
1119 { "mov",        F3(2, 0x32, 0), F3(~2, ~0x32, ~0)|RD_G0|ASI(~0),        "1,2,w", F_ALIAS, v6notv9 }, /* wr r,r,%wim */
1120 { "mov",        F3(2, 0x32, 1), F3(~2, ~0x32, ~1)|RD_G0,                "1,i,w", F_ALIAS, v6notv9 }, /* wr r,i,%wim */
1121 { "mov",        F3(2, 0x33, 0), F3(~2, ~0x33, ~0)|RD_G0|ASI(~0),        "1,2,t", F_ALIAS, v6notv9 }, /* wr r,r,%tbr */
1122 { "mov",        F3(2, 0x33, 1), F3(~2, ~0x33, ~1)|RD_G0,                "1,i,t", F_ALIAS, v6notv9 }, /* wr r,i,%tbr */
1123 
1124 { "mov",        F3(2, 0x28, 0), F3(~2, ~0x28, ~0)|SIMM13(~0),           "M,d", F_ALIAS, v8 }, /* rd %asr1,r */
1125 { "mov",        F3(2, 0x28, 0), F3(~2, ~0x28, ~0)|RS1_G0|SIMM13(~0),    "y,d", F_ALIAS, v6 }, /* rd %y,r */
1126 { "mov",        F3(2, 0x29, 0), F3(~2, ~0x29, ~0)|RS1_G0|SIMM13(~0),    "p,d", F_ALIAS, v6notv9 }, /* rd %psr,r */
1127 { "mov",        F3(2, 0x2a, 0), F3(~2, ~0x2a, ~0)|RS1_G0|SIMM13(~0),    "w,d", F_ALIAS, v6notv9 }, /* rd %wim,r */
1128 { "mov",        F3(2, 0x2b, 0), F3(~2, ~0x2b, ~0)|RS1_G0|SIMM13(~0),    "t,d", F_ALIAS, v6notv9 }, /* rd %tbr,r */
1129 
1130 { "mov",        F3(2, 0x30, 0), F3(~2, ~0x30, ~0)|ASI_RS2(~0),          "1,m", F_ALIAS, v8 }, /* wr rs1,%g0,%asrX */
1131 { "mov",        F3(2, 0x30, 1), F3(~2, ~0x30, ~1),                      "i,m", F_ALIAS, v8 }, /* wr %g0,i,%asrX */
1132 { "mov",        F3(2, 0x30, 1), F3(~2, ~0x30, ~1)|SIMM13(~0),           "1,m", F_ALIAS, v8 }, /* wr rs1,0,%asrX */
1133 { "mov",        F3(2, 0x30, 0), F3(~2, ~0x30, ~0)|RD_G0|ASI_RS2(~0),    "1,y", F_ALIAS, v6 }, /* wr rs1,%g0,%y */
1134 { "mov",        F3(2, 0x30, 1), F3(~2, ~0x30, ~1)|RD_G0,                "i,y", F_ALIAS, v6 }, /* wr %g0,i,%y */
1135 { "mov",        F3(2, 0x30, 1), F3(~2, ~0x30, ~1)|RD_G0|SIMM13(~0),     "1,y", F_ALIAS, v6 }, /* wr rs1,0,%y */
1136 { "mov",        F3(2, 0x31, 0), F3(~2, ~0x31, ~0)|RD_G0|ASI_RS2(~0),    "1,p", F_ALIAS, v6notv9 }, /* wr rs1,%g0,%psr */
1137 { "mov",        F3(2, 0x31, 1), F3(~2, ~0x31, ~1)|RD_G0,                "i,p", F_ALIAS, v6notv9 }, /* wr %g0,i,%psr */
1138 { "mov",        F3(2, 0x31, 1), F3(~2, ~0x31, ~1)|RD_G0|SIMM13(~0),     "1,p", F_ALIAS, v6notv9 }, /* wr rs1,0,%psr */
1139 { "mov",        F3(2, 0x32, 0), F3(~2, ~0x32, ~0)|RD_G0|ASI_RS2(~0),    "1,w", F_ALIAS, v6notv9 }, /* wr rs1,%g0,%wim */
1140 { "mov",        F3(2, 0x32, 1), F3(~2, ~0x32, ~1)|RD_G0,                "i,w", F_ALIAS, v6notv9 }, /* wr %g0,i,%wim */
1141 { "mov",        F3(2, 0x32, 1), F3(~2, ~0x32, ~1)|RD_G0|SIMM13(~0),     "1,w", F_ALIAS, v6notv9 }, /* wr rs1,0,%wim */
1142 { "mov",        F3(2, 0x33, 0), F3(~2, ~0x33, ~0)|RD_G0|ASI_RS2(~0),    "1,t", F_ALIAS, v6notv9 }, /* wr rs1,%g0,%tbr */
1143 { "mov",        F3(2, 0x33, 1), F3(~2, ~0x33, ~1)|RD_G0,                "i,t", F_ALIAS, v6notv9 }, /* wr %g0,i,%tbr */
1144 { "mov",        F3(2, 0x33, 1), F3(~2, ~0x33, ~1)|RD_G0|SIMM13(~0),     "1,t", F_ALIAS, v6notv9 }, /* wr rs1,0,%tbr */
1145 
1146 { "mov",        F3(2, 0x02, 0), F3(~2, ~0x02, ~0)|RS1_G0|ASI(~0),       "2,d", 0, v6 }, /* or %g0,rs2,d */
1147 { "mov",        F3(2, 0x02, 1), F3(~2, ~0x02, ~1)|RS1_G0,               "i,d", 0, v6 }, /* or %g0,i,d   */
1148 { "mov",        F3(2, 0x02, 0), F3(~2, ~0x02, ~0)|ASI_RS2(~0),          "1,d", 0, v6 }, /* or rs1,%g0,d   */
1149 { "mov",        F3(2, 0x02, 1), F3(~2, ~0x02, ~1)|SIMM13(~0),           "1,d", 0, v6 }, /* or rs1,0,d */
1150 
1151 { "or", F3(2, 0x02, 0), F3(~2, ~0x02, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1152 { "or", F3(2, 0x02, 1), F3(~2, ~0x02, ~1),              "1,i,d", 0, v6 },
1153 { "or", F3(2, 0x02, 1), F3(~2, ~0x02, ~1),              "i,1,d", 0, v6 },
1154 
1155 { "bset",       F3(2, 0x02, 0), F3(~2, ~0x02, ~0)|ASI(~0),      "2,r", F_ALIAS, v6 },   /* or rd,rs2,rd */
1156 { "bset",       F3(2, 0x02, 1), F3(~2, ~0x02, ~1),              "i,r", F_ALIAS, v6 },   /* or rd,i,rd */
1157 
1158 /* This is not a commutative instruction.  */
1159 { "andn",       F3(2, 0x05, 0), F3(~2, ~0x05, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1160 { "andn",       F3(2, 0x05, 1), F3(~2, ~0x05, ~1),              "1,i,d", 0, v6 },
1161 
1162 /* This is not a commutative instruction.  */
1163 { "andncc",     F3(2, 0x15, 0), F3(~2, ~0x15, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1164 { "andncc",     F3(2, 0x15, 1), F3(~2, ~0x15, ~1),              "1,i,d", 0, v6 },
1165 
1166 { "bclr",       F3(2, 0x05, 0), F3(~2, ~0x05, ~0)|ASI(~0),      "2,r", F_ALIAS, v6 },   /* andn rd,rs2,rd */
1167 { "bclr",       F3(2, 0x05, 1), F3(~2, ~0x05, ~1),              "i,r", F_ALIAS, v6 },   /* andn rd,i,rd */
1168 
1169 { "cmp",        F3(2, 0x14, 0), F3(~2, ~0x14, ~0)|RD_G0|ASI(~0),        "1,2", 0, v6 }, /* subcc rs1,rs2,%g0 */
1170 { "cmp",        F3(2, 0x14, 1), F3(~2, ~0x14, ~1)|RD_G0,                "1,i", 0, v6 }, /* subcc rs1,i,%g0 */
1171 
1172 { "sub",        F3(2, 0x04, 0), F3(~2, ~0x04, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1173 { "sub",        F3(2, 0x04, 1), F3(~2, ~0x04, ~1),              "1,i,d", 0, v6 },
1174 
1175 { "subcc",      F3(2, 0x14, 0), F3(~2, ~0x14, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1176 { "subcc",      F3(2, 0x14, 1), F3(~2, ~0x14, ~1),              "1,i,d", 0, v6 },
1177 
1178 { "subc",       F3(2, 0x0c, 0), F3(~2, ~0x0c, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1179 { "subc",       F3(2, 0x0c, 1), F3(~2, ~0x0c, ~1),              "1,i,d", 0, v6 },
1180 
1181 { "subccc",     F3(2, 0x1c, 0), F3(~2, ~0x1c, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1182 { "subccc",     F3(2, 0x1c, 1), F3(~2, ~0x1c, ~1),              "1,i,d", 0, v6 },
1183 
1184 { "and",        F3(2, 0x01, 0), F3(~2, ~0x01, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1185 { "and",        F3(2, 0x01, 1), F3(~2, ~0x01, ~1),              "1,i,d", 0, v6 },
1186 { "and",        F3(2, 0x01, 1), F3(~2, ~0x01, ~1),              "i,1,d", 0, v6 },
1187 
1188 { "andcc",      F3(2, 0x11, 0), F3(~2, ~0x11, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1189 { "andcc",      F3(2, 0x11, 1), F3(~2, ~0x11, ~1),              "1,i,d", 0, v6 },
1190 { "andcc",      F3(2, 0x11, 1), F3(~2, ~0x11, ~1),              "i,1,d", 0, v6 },
1191 
1192 { "dec",        F3(2, 0x04, 1)|SIMM13(0x1), F3(~2, ~0x04, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 },      /* sub rd,1,rd */
1193 { "dec",        F3(2, 0x04, 1),             F3(~2, ~0x04, ~1),                 "i,r", F_ALIAS, v8 },    /* sub rd,imm,rd */
1194 { "deccc",      F3(2, 0x14, 1)|SIMM13(0x1), F3(~2, ~0x14, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 },      /* subcc rd,1,rd */
1195 { "deccc",      F3(2, 0x14, 1),             F3(~2, ~0x14, ~1),                 "i,r", F_ALIAS, v8 },    /* subcc rd,imm,rd */
1196 { "inc",        F3(2, 0x00, 1)|SIMM13(0x1), F3(~2, ~0x00, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 },      /* add rd,1,rd */
1197 { "inc",        F3(2, 0x00, 1),             F3(~2, ~0x00, ~1),                 "i,r", F_ALIAS, v8 },    /* add rd,imm,rd */
1198 { "inccc",      F3(2, 0x10, 1)|SIMM13(0x1), F3(~2, ~0x10, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 },      /* addcc rd,1,rd */
1199 { "inccc",      F3(2, 0x10, 1),             F3(~2, ~0x10, ~1),                 "i,r", F_ALIAS, v8 },    /* addcc rd,imm,rd */
1200 
1201 { "btst",       F3(2, 0x11, 0), F3(~2, ~0x11, ~0)|RD_G0|ASI(~0), "1,2", F_ALIAS, v6 },  /* andcc rs1,rs2,%g0 */
1202 { "btst",       F3(2, 0x11, 1), F3(~2, ~0x11, ~1)|RD_G0, "i,1", F_ALIAS, v6 },  /* andcc rs1,i,%g0 */
1203 
1204 { "neg",        F3(2, 0x04, 0), F3(~2, ~0x04, ~0)|RS1_G0|ASI(~0), "2,d", F_ALIAS, v6 }, /* sub %g0,rs2,rd */
1205 { "neg",        F3(2, 0x04, 0), F3(~2, ~0x04, ~0)|RS1_G0|ASI(~0), "O", F_ALIAS, v6 }, /* sub %g0,rd,rd */
1206 
1207 { "add",        F3(2, 0x00, 0), F3(~2, ~0x00, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1208 { "add",        F3(2, 0x00, 1), F3(~2, ~0x00, ~1),              "1,i,d", 0, v6 },
1209 { "add",        F3(2, 0x00, 1), F3(~2, ~0x00, ~1),              "i,1,d", 0, v6 },
1210 { "addcc",      F3(2, 0x10, 0), F3(~2, ~0x10, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1211 { "addcc",      F3(2, 0x10, 1), F3(~2, ~0x10, ~1),              "1,i,d", 0, v6 },
1212 { "addcc",      F3(2, 0x10, 1), F3(~2, ~0x10, ~1),              "i,1,d", 0, v6 },
1213 
1214 { "addc",       F3(2, 0x08, 0), F3(~2, ~0x08, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1215 { "addc",       F3(2, 0x08, 1), F3(~2, ~0x08, ~1),              "1,i,d", 0, v6 },
1216 { "addc",       F3(2, 0x08, 1), F3(~2, ~0x08, ~1),              "i,1,d", 0, v6 },
1217 
1218 { "addccc",     F3(2, 0x18, 0), F3(~2, ~0x18, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1219 { "addccc",     F3(2, 0x18, 1), F3(~2, ~0x18, ~1),              "1,i,d", 0, v6 },
1220 { "addccc",     F3(2, 0x18, 1), F3(~2, ~0x18, ~1),              "i,1,d", 0, v6 },
1221 
1222 { "smul",       F3(2, 0x0b, 0), F3(~2, ~0x0b, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1223 { "smul",       F3(2, 0x0b, 1), F3(~2, ~0x0b, ~1),              "1,i,d", 0, v8 },
1224 { "smul",       F3(2, 0x0b, 1), F3(~2, ~0x0b, ~1),              "i,1,d", 0, v8 },
1225 { "smulcc",     F3(2, 0x1b, 0), F3(~2, ~0x1b, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1226 { "smulcc",     F3(2, 0x1b, 1), F3(~2, ~0x1b, ~1),              "1,i,d", 0, v8 },
1227 { "smulcc",     F3(2, 0x1b, 1), F3(~2, ~0x1b, ~1),              "i,1,d", 0, v8 },
1228 { "umul",       F3(2, 0x0a, 0), F3(~2, ~0x0a, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1229 { "umul",       F3(2, 0x0a, 1), F3(~2, ~0x0a, ~1),              "1,i,d", 0, v8 },
1230 { "umul",       F3(2, 0x0a, 1), F3(~2, ~0x0a, ~1),              "i,1,d", 0, v8 },
1231 { "umulcc",     F3(2, 0x1a, 0), F3(~2, ~0x1a, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1232 { "umulcc",     F3(2, 0x1a, 1), F3(~2, ~0x1a, ~1),              "1,i,d", 0, v8 },
1233 { "umulcc",     F3(2, 0x1a, 1), F3(~2, ~0x1a, ~1),              "i,1,d", 0, v8 },
1234 { "sdiv",       F3(2, 0x0f, 0), F3(~2, ~0x0f, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1235 { "sdiv",       F3(2, 0x0f, 1), F3(~2, ~0x0f, ~1),              "1,i,d", 0, v8 },
1236 { "sdiv",       F3(2, 0x0f, 1), F3(~2, ~0x0f, ~1),              "i,1,d", 0, v8 },
1237 { "sdivcc",     F3(2, 0x1f, 0), F3(~2, ~0x1f, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1238 { "sdivcc",     F3(2, 0x1f, 1), F3(~2, ~0x1f, ~1),              "1,i,d", 0, v8 },
1239 { "sdivcc",     F3(2, 0x1f, 1), F3(~2, ~0x1f, ~1),              "i,1,d", 0, v8 },
1240 { "udiv",       F3(2, 0x0e, 0), F3(~2, ~0x0e, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1241 { "udiv",       F3(2, 0x0e, 1), F3(~2, ~0x0e, ~1),              "1,i,d", 0, v8 },
1242 { "udiv",       F3(2, 0x0e, 1), F3(~2, ~0x0e, ~1),              "i,1,d", 0, v8 },
1243 { "udivcc",     F3(2, 0x1e, 0), F3(~2, ~0x1e, ~0)|ASI(~0),      "1,2,d", 0, v8 },
1244 { "udivcc",     F3(2, 0x1e, 1), F3(~2, ~0x1e, ~1),              "1,i,d", 0, v8 },
1245 { "udivcc",     F3(2, 0x1e, 1), F3(~2, ~0x1e, ~1),              "i,1,d", 0, v8 },
1246 
1247 { "mulx",       F3(2, 0x09, 0), F3(~2, ~0x09, ~0)|ASI(~0),      "1,2,d", 0, v9 },
1248 { "mulx",       F3(2, 0x09, 1), F3(~2, ~0x09, ~1),              "1,i,d", 0, v9 },
1249 { "sdivx",      F3(2, 0x2d, 0), F3(~2, ~0x2d, ~0)|ASI(~0),      "1,2,d", 0, v9 },
1250 { "sdivx",      F3(2, 0x2d, 1), F3(~2, ~0x2d, ~1),              "1,i,d", 0, v9 },
1251 { "udivx",      F3(2, 0x0d, 0), F3(~2, ~0x0d, ~0)|ASI(~0),      "1,2,d", 0, v9 },
1252 { "udivx",      F3(2, 0x0d, 1), F3(~2, ~0x0d, ~1),              "1,i,d", 0, v9 },
1253 
1254 { "call",       F1(0x1), F1(~0x1), "L", F_JSR|F_DELAYED, v6 },
1255 { "call",       F1(0x1), F1(~0x1), "L,#", F_JSR|F_DELAYED, v6 },
1256 
1257 { "call",       F3(2, 0x38, 0)|RD(0xf), F3(~2, ~0x38, ~0)|RD(~0xf)|ASI(~0),     "1+2", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+rs2,%o7 */
1258 { "call",       F3(2, 0x38, 0)|RD(0xf), F3(~2, ~0x38, ~0)|RD(~0xf)|ASI(~0),     "1+2,#", F_JSR|F_DELAYED, v6 },
1259 { "call",       F3(2, 0x38, 0)|RD(0xf), F3(~2, ~0x38, ~0)|RD(~0xf)|ASI_RS2(~0), "1", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+%g0,%o7 */
1260 { "call",       F3(2, 0x38, 0)|RD(0xf), F3(~2, ~0x38, ~0)|RD(~0xf)|ASI_RS2(~0), "1,#", F_JSR|F_DELAYED, v6 },
1261 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf),             "1+i", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+i,%o7 */
1262 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf),             "1+i,#", F_JSR|F_DELAYED, v6 },
1263 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf),             "i+1", F_JSR|F_DELAYED, v6 }, /* jmpl i+rs1,%o7 */
1264 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf),             "i+1,#", F_JSR|F_DELAYED, v6 },
1265 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf)|RS1_G0,      "i", F_JSR|F_DELAYED, v6 }, /* jmpl %g0+i,%o7 */
1266 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf)|RS1_G0,      "i,#", F_JSR|F_DELAYED, v6 },
1267 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf)|SIMM13(~0),  "1", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+0,%o7 */
1268 { "call",       F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf)|SIMM13(~0),  "1,#", F_JSR|F_DELAYED, v6 },
1269 
1270 
1271 /* Conditional instructions.
1272 
1273    Because this part of the table was such a mess earlier, I have
1274    macrofied it so that all the branches and traps are generated from
1275    a single-line description of each condition value.  John Gilmore. */
1276 
1277 /* Define branches -- one annulled, one without, etc. */
1278 #define br(opcode, mask, lose, flags) \
1279  { opcode, (mask)|ANNUL, (lose),       ",a l",   (flags), v6 }, \
1280  { opcode, (mask)      , (lose)|ANNUL, "l",     (flags), v6 }
1281 
1282 #define brx(opcode, mask, lose, flags) /* v9 */ \
1283  { opcode, (mask)|(2<<20)|BPRED, ANNUL|(lose), "Z,G",      (flags), v9 }, \
1284  { opcode, (mask)|(2<<20)|BPRED, ANNUL|(lose), ",T Z,G",   (flags), v9 }, \
1285  { opcode, (mask)|(2<<20)|BPRED|ANNUL, (lose), ",a Z,G",   (flags), v9 }, \
1286  { opcode, (mask)|(2<<20)|BPRED|ANNUL, (lose), ",a,T Z,G", (flags), v9 }, \
1287  { opcode, (mask)|(2<<20), ANNUL|BPRED|(lose), ",N Z,G",   (flags), v9 }, \
1288  { opcode, (mask)|(2<<20)|ANNUL, BPRED|(lose), ",a,N Z,G", (flags), v9 }, \
1289  { opcode, (mask)|BPRED, ANNUL|(lose)|(2<<20), "z,G",      (flags), v9 }, \
1290  { opcode, (mask)|BPRED, ANNUL|(lose)|(2<<20), ",T z,G",   (flags), v9 }, \
1291  { opcode, (mask)|BPRED|ANNUL, (lose)|(2<<20), ",a z,G",   (flags), v9 }, \
1292  { opcode, (mask)|BPRED|ANNUL, (lose)|(2<<20), ",a,T z,G", (flags), v9 }, \
1293  { opcode, (mask), ANNUL|BPRED|(lose)|(2<<20), ",N z,G",   (flags), v9 }, \
1294  { opcode, (mask)|ANNUL, BPRED|(lose)|(2<<20), ",a,N z,G", (flags), v9 }
1295 
1296 /* Define four traps: reg+reg, reg + immediate, immediate alone, reg alone. */
1297 #define tr(opcode, mask, lose, flags) \
1298  { opcode, (mask)|(2<<11)|IMMED, (lose)|RS1_G0, "Z,i",   (flags), v9 }, /* %g0 + imm */ \
1299  { opcode, (mask)|(2<<11)|IMMED, (lose),        "Z,1+i", (flags), v9 }, /* rs1 + imm */ \
1300  { opcode, (mask)|(2<<11), IMMED|(lose),        "Z,1+2", (flags), v9 }, /* rs1 + rs2 */ \
1301  { opcode, (mask)|(2<<11), IMMED|(lose)|RS2_G0, "Z,1",   (flags), v9 }, /* rs1 + %g0 */ \
1302  { opcode, (mask)|IMMED, (lose)|RS1_G0, "z,i",   (flags)|F_ALIAS, v9 }, /* %g0 + imm */ \
1303  { opcode, (mask)|IMMED, (lose),        "z,1+i", (flags)|F_ALIAS, v9 }, /* rs1 + imm */ \
1304  { opcode, (mask), IMMED|(lose),        "z,1+2", (flags)|F_ALIAS, v9 }, /* rs1 + rs2 */ \
1305  { opcode, (mask), IMMED|(lose)|RS2_G0, "z,1",   (flags)|F_ALIAS, v9 }, /* rs1 + %g0 */ \
1306  { opcode, (mask)|IMMED, (lose)|RS1_G0,         "i",     (flags), v6 }, /* %g0 + imm */ \
1307  { opcode, (mask)|IMMED, (lose),                "1+i",   (flags), v6 }, /* rs1 + imm */ \
1308  { opcode, (mask), IMMED|(lose),                "1+2",   (flags), v6 }, /* rs1 + rs2 */ \
1309  { opcode, (mask), IMMED|(lose)|RS2_G0,         "1",     (flags), v6 } /* rs1 + %g0 */
1310 
1311 /* v9: We must put `brx' before `br', to ensure that we never match something
1312    v9: against an expression unless it is an expression.  Otherwise, we end
1313    v9: up with undefined symbol tables entries, because they get added, but
1314    v9: are not deleted if the pattern fails to match.  */
1315 
1316 /* Define both branches and traps based on condition mask */
1317 #define cond(bop, top, mask, flags) \
1318   brx(bop, F2(0, 1)|(mask), F2(~0, ~1)|((~mask)&COND(~0)), F_DELAYED|(flags)), /* v9 */ \
1319   br(bop,  F2(0, 2)|(mask), F2(~0, ~2)|((~mask)&COND(~0)), F_DELAYED|(flags)), \
1320   tr(top,  F3(2, 0x3a, 0)|(mask), F3(~2, ~0x3a, 0)|((~mask)&COND(~0)), ((flags) & ~(F_UNBR|F_CONDBR)))
1321 
1322 /* Define all the conditions, all the branches, all the traps.  */
1323 
1324 /* Standard branch, trap mnemonics */
1325 cond ("b",      "ta",   CONDA, F_UNBR),
1326 /* Alternative form (just for assembly, not for disassembly) */
1327 cond ("ba",     "t",    CONDA, F_UNBR|F_ALIAS),
1328 
1329 cond ("bcc",    "tcc",  CONDCC, F_CONDBR),
1330 cond ("bcs",    "tcs",  CONDCS, F_CONDBR),
1331 cond ("be",     "te",   CONDE, F_CONDBR),
1332 cond ("beq",    "teq",  CONDE, F_CONDBR|F_ALIAS),
1333 cond ("bg",     "tg",   CONDG, F_CONDBR),
1334 cond ("bgt",    "tgt",  CONDG, F_CONDBR|F_ALIAS),
1335 cond ("bge",    "tge",  CONDGE, F_CONDBR),
1336 cond ("bgeu",   "tgeu", CONDGEU, F_CONDBR|F_ALIAS), /* for cc */
1337 cond ("bgu",    "tgu",  CONDGU, F_CONDBR),
1338 cond ("bl",     "tl",   CONDL, F_CONDBR),
1339 cond ("blt",    "tlt",  CONDL, F_CONDBR|F_ALIAS),
1340 cond ("ble",    "tle",  CONDLE, F_CONDBR),
1341 cond ("bleu",   "tleu", CONDLEU, F_CONDBR),
1342 cond ("blu",    "tlu",  CONDLU, F_CONDBR|F_ALIAS), /* for cs */
1343 cond ("bn",     "tn",   CONDN, F_CONDBR),
1344 cond ("bne",    "tne",  CONDNE, F_CONDBR),
1345 cond ("bneg",   "tneg", CONDNEG, F_CONDBR),
1346 cond ("bnz",    "tnz",  CONDNZ, F_CONDBR|F_ALIAS), /* for ne */
1347 cond ("bpos",   "tpos", CONDPOS, F_CONDBR),
1348 cond ("bvc",    "tvc",  CONDVC, F_CONDBR),
1349 cond ("bvs",    "tvs",  CONDVS, F_CONDBR),
1350 cond ("bz",     "tz",   CONDZ, F_CONDBR|F_ALIAS), /* for e */
1351 
1352 #undef cond
1353 #undef br
1354 #undef brr /* v9 */
1355 #undef tr
1356 
1357 #define brr(opcode, mask, lose, flags) /* v9 */ \
1358  { opcode, (mask)|BPRED, ANNUL|(lose), "1,k",      F_DELAYED|(flags), v9 }, \
1359  { opcode, (mask)|BPRED, ANNUL|(lose), ",T 1,k",   F_DELAYED|(flags), v9 }, \
1360  { opcode, (mask)|BPRED|ANNUL, (lose), ",a 1,k",   F_DELAYED|(flags), v9 }, \
1361  { opcode, (mask)|BPRED|ANNUL, (lose), ",a,T 1,k", F_DELAYED|(flags), v9 }, \
1362  { opcode, (mask), ANNUL|BPRED|(lose), ",N 1,k",   F_DELAYED|(flags), v9 }, \
1363  { opcode, (mask)|ANNUL, BPRED|(lose), ",a,N 1,k", F_DELAYED|(flags), v9 }
1364 
1365 #define condr(bop, mask, flags) /* v9 */ \
1366   brr(bop, F2(0, 3)|COND(mask), F2(~0, ~3)|COND(~(mask)), (flags)) /* v9 */
1367 
1368 /* v9 */ condr("brnz", 0x5, F_CONDBR),
1369 /* v9 */ condr("brz", 0x1, F_CONDBR),
1370 /* v9 */ condr("brgez", 0x7, F_CONDBR),
1371 /* v9 */ condr("brlz", 0x3, F_CONDBR),
1372 /* v9 */ condr("brlez", 0x2, F_CONDBR),
1373 /* v9 */ condr("brgz", 0x6, F_CONDBR),
1374 
1375 #undef condr /* v9 */
1376 #undef brr /* v9 */
1377 
1378 #define movr(opcode, mask, flags) /* v9 */ \
1379  { opcode, F3(2, 0x2f, 0)|RCOND(mask), F3(~2, ~0x2f, ~0)|RCOND(~(mask)), "1,2,d", (flags), v9 }, \
1380  { opcode, F3(2, 0x2f, 1)|RCOND(mask), F3(~2, ~0x2f, ~1)|RCOND(~(mask)), "1,j,d", (flags), v9 }
1381 
1382 #define fmrrs(opcode, mask, lose, flags) /* v9 */ \
1383  { opcode, (mask), (lose), "1,f,g", (flags) | F_FLOAT, v9 }
1384 #define fmrrd(opcode, mask, lose, flags) /* v9 */ \
1385  { opcode, (mask), (lose), "1,B,H", (flags) | F_FLOAT, v9 }
1386 #define fmrrq(opcode, mask, lose, flags) /* v9 */ \
1387  { opcode, (mask), (lose), "1,R,J", (flags) | F_FLOAT, v9 }
1388 
1389 #define fmovrs(mop, mask, flags) /* v9 */ \
1390   fmrrs(mop, F3(2, 0x35, 0)|OPF_LOW5(5)|RCOND(mask), F3(~2, ~0x35, 0)|OPF_LOW5(~5)|RCOND(~(mask)), (flags)) /* v9 */
1391 #define fmovrd(mop, mask, flags) /* v9 */ \
1392   fmrrd(mop, F3(2, 0x35, 0)|OPF_LOW5(6)|RCOND(mask), F3(~2, ~0x35, 0)|OPF_LOW5(~6)|RCOND(~(mask)), (flags)) /* v9 */
1393 #define fmovrq(mop, mask, flags) /* v9 */ \
1394   fmrrq(mop, F3(2, 0x35, 0)|OPF_LOW5(7)|RCOND(mask), F3(~2, ~0x35, 0)|OPF_LOW5(~7)|RCOND(~(mask)), (flags)) /* v9 */
1395 
1396 /* v9 */ movr("movrne", 0x5, 0),
1397 /* v9 */ movr("movre", 0x1, 0),
1398 /* v9 */ movr("movrgez", 0x7, 0),
1399 /* v9 */ movr("movrlz", 0x3, 0),
1400 /* v9 */ movr("movrlez", 0x2, 0),
1401 /* v9 */ movr("movrgz", 0x6, 0),
1402 /* v9 */ movr("movrnz", 0x5, F_ALIAS),
1403 /* v9 */ movr("movrz", 0x1, F_ALIAS),
1404 
1405 /* v9 */ fmovrs("fmovrsne", 0x5, 0),
1406 /* v9 */ fmovrs("fmovrse", 0x1, 0),
1407 /* v9 */ fmovrs("fmovrsgez", 0x7, 0),
1408 /* v9 */ fmovrs("fmovrslz", 0x3, 0),
1409 /* v9 */ fmovrs("fmovrslez", 0x2, 0),
1410 /* v9 */ fmovrs("fmovrsgz", 0x6, 0),
1411 /* v9 */ fmovrs("fmovrsnz", 0x5, F_ALIAS),
1412 /* v9 */ fmovrs("fmovrsz", 0x1, F_ALIAS),
1413 
1414 /* v9 */ fmovrd("fmovrdne", 0x5, 0),
1415 /* v9 */ fmovrd("fmovrde", 0x1, 0),
1416 /* v9 */ fmovrd("fmovrdgez", 0x7, 0),
1417 /* v9 */ fmovrd("fmovrdlz", 0x3, 0),
1418 /* v9 */ fmovrd("fmovrdlez", 0x2, 0),
1419 /* v9 */ fmovrd("fmovrdgz", 0x6, 0),
1420 /* v9 */ fmovrd("fmovrdnz", 0x5, F_ALIAS),
1421 /* v9 */ fmovrd("fmovrdz", 0x1, F_ALIAS),
1422 
1423 /* v9 */ fmovrq("fmovrqne", 0x5, 0),
1424 /* v9 */ fmovrq("fmovrqe", 0x1, 0),
1425 /* v9 */ fmovrq("fmovrqgez", 0x7, 0),
1426 /* v9 */ fmovrq("fmovrqlz", 0x3, 0),
1427 /* v9 */ fmovrq("fmovrqlez", 0x2, 0),
1428 /* v9 */ fmovrq("fmovrqgz", 0x6, 0),
1429 /* v9 */ fmovrq("fmovrqnz", 0x5, F_ALIAS),
1430 /* v9 */ fmovrq("fmovrqz", 0x1, F_ALIAS),
1431 
1432 #undef movr /* v9 */
1433 #undef fmovr /* v9 */
1434 #undef fmrr /* v9 */
1435 
1436 #define movicc(opcode, cond, flags) /* v9 */ \
1437   { opcode, F3(2, 0x2c, 0)|MCOND(cond,1)|ICC, F3(~2, ~0x2c, ~0)|MCOND(~cond,~1)|XCC|(1<<11), "z,2,d", flags, v9 }, \
1438   { opcode, F3(2, 0x2c, 1)|MCOND(cond,1)|ICC, F3(~2, ~0x2c, ~1)|MCOND(~cond,~1)|XCC|(1<<11), "z,I,d", flags, v9 }, \
1439   { opcode, F3(2, 0x2c, 0)|MCOND(cond,1)|XCC, F3(~2, ~0x2c, ~0)|MCOND(~cond,~1)|(1<<11),     "Z,2,d", flags, v9 }, \
1440   { opcode, F3(2, 0x2c, 1)|MCOND(cond,1)|XCC, F3(~2, ~0x2c, ~1)|MCOND(~cond,~1)|(1<<11),     "Z,I,d", flags, v9 }
1441 
1442 #define movfcc(opcode, fcond, flags) /* v9 */ \
1443   { opcode, F3(2, 0x2c, 0)|FCC(0)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~0)|F3(~2, ~0x2c, ~0), "6,2,d", flags, v9 }, \
1444   { opcode, F3(2, 0x2c, 1)|FCC(0)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~0)|F3(~2, ~0x2c, ~1), "6,I,d", flags, v9 }, \
1445   { opcode, F3(2, 0x2c, 0)|FCC(1)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~1)|F3(~2, ~0x2c, ~0), "7,2,d", flags, v9 }, \
1446   { opcode, F3(2, 0x2c, 1)|FCC(1)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~1)|F3(~2, ~0x2c, ~1), "7,I,d", flags, v9 }, \
1447   { opcode, F3(2, 0x2c, 0)|FCC(2)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~2)|F3(~2, ~0x2c, ~0), "8,2,d", flags, v9 }, \
1448   { opcode, F3(2, 0x2c, 1)|FCC(2)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~2)|F3(~2, ~0x2c, ~1), "8,I,d", flags, v9 }, \
1449   { opcode, F3(2, 0x2c, 0)|FCC(3)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~3)|F3(~2, ~0x2c, ~0), "9,2,d", flags, v9 }, \
1450   { opcode, F3(2, 0x2c, 1)|FCC(3)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~3)|F3(~2, ~0x2c, ~1), "9,I,d", flags, v9 }
1451 
1452 #define movcc(opcode, cond, fcond, flags) /* v9 */ \
1453   movfcc (opcode, fcond, flags), /* v9 */ \
1454   movicc (opcode, cond, flags) /* v9 */
1455 
1456 /* v9 */ movcc  ("mova",        CONDA, FCONDA, 0),
1457 /* v9 */ movicc ("movcc",       CONDCC, 0),
1458 /* v9 */ movicc ("movgeu",      CONDGEU, F_ALIAS),
1459 /* v9 */ movicc ("movcs",       CONDCS, 0),
1460 /* v9 */ movicc ("movlu",       CONDLU, F_ALIAS),
1461 /* v9 */ movcc  ("move",        CONDE, FCONDE, 0),
1462 /* v9 */ movcc  ("movg",        CONDG, FCONDG, 0),
1463 /* v9 */ movcc  ("movge",       CONDGE, FCONDGE, 0),
1464 /* v9 */ movicc ("movgu",       CONDGU, 0),
1465 /* v9 */ movcc  ("movl",        CONDL, FCONDL, 0),
1466 /* v9 */ movcc  ("movle",       CONDLE, FCONDLE, 0),
1467 /* v9 */ movicc ("movleu",      CONDLEU, 0),
1468 /* v9 */ movfcc ("movlg",       FCONDLG, 0),
1469 /* v9 */ movcc  ("movn",        CONDN, FCONDN, 0),
1470 /* v9 */ movcc  ("movne",       CONDNE, FCONDNE, 0),
1471 /* v9 */ movicc ("movneg",      CONDNEG, 0),
1472 /* v9 */ movcc  ("movnz",       CONDNZ, FCONDNZ, F_ALIAS),
1473 /* v9 */ movfcc ("movo",        FCONDO, 0),
1474 /* v9 */ movicc ("movpos",      CONDPOS, 0),
1475 /* v9 */ movfcc ("movu",        FCONDU, 0),
1476 /* v9 */ movfcc ("movue",       FCONDUE, 0),
1477 /* v9 */ movfcc ("movug",       FCONDUG, 0),
1478 /* v9 */ movfcc ("movuge",      FCONDUGE, 0),
1479 /* v9 */ movfcc ("movul",       FCONDUL, 0),
1480 /* v9 */ movfcc ("movule",      FCONDULE, 0),
1481 /* v9 */ movicc ("movvc",       CONDVC, 0),
1482 /* v9 */ movicc ("movvs",       CONDVS, 0),
1483 /* v9 */ movcc  ("movz",        CONDZ, FCONDZ, F_ALIAS),
1484 
1485 #undef movicc /* v9 */
1486 #undef movfcc /* v9 */
1487 #undef movcc /* v9 */
1488 
1489 #define FM_SF 1         /* v9 - values for fpsize */
1490 #define FM_DF 2         /* v9 */
1491 #define FM_QF 3         /* v9 */
1492 
1493 #define fmoviccx(opcode, fpsize, args, cond, flags) /* v9 */ \
1494 { opcode, F3F(2, 0x35, 0x100+fpsize)|MCOND(cond,0),  F3F(~2, ~0x35, ~(0x100+fpsize))|MCOND(~cond,~0),  "z," args, flags, v9 }, \
1495 { opcode, F3F(2, 0x35, 0x180+fpsize)|MCOND(cond,0),  F3F(~2, ~0x35, ~(0x180+fpsize))|MCOND(~cond,~0),  "Z," args, flags, v9 }
1496 
1497 #define fmovfccx(opcode, fpsize, args, fcond, flags) /* v9 */ \
1498 { opcode, F3F(2, 0x35, 0x000+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x000+fpsize))|MCOND(~fcond,~0), "6," args, flags, v9 }, \
1499 { opcode, F3F(2, 0x35, 0x040+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x040+fpsize))|MCOND(~fcond,~0), "7," args, flags, v9 }, \
1500 { opcode, F3F(2, 0x35, 0x080+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x080+fpsize))|MCOND(~fcond,~0), "8," args, flags, v9 }, \
1501 { opcode, F3F(2, 0x35, 0x0c0+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x0c0+fpsize))|MCOND(~fcond,~0), "9," args, flags, v9 }
1502 
1503 /* FIXME: use fmovicc/fmovfcc? */ /* v9 */
1504 #define fmovccx(opcode, fpsize, args, cond, fcond, flags) /* v9 */ \
1505 { opcode, F3F(2, 0x35, 0x100+fpsize)|MCOND(cond,0),  F3F(~2, ~0x35, ~(0x100+fpsize))|MCOND(~cond,~0),  "z," args, flags | F_FLOAT, v9 }, \
1506 { opcode, F3F(2, 0x35, 0x000+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x000+fpsize))|MCOND(~fcond,~0), "6," args, flags | F_FLOAT, v9 }, \
1507 { opcode, F3F(2, 0x35, 0x180+fpsize)|MCOND(cond,0),  F3F(~2, ~0x35, ~(0x180+fpsize))|MCOND(~cond,~0),  "Z," args, flags | F_FLOAT, v9 }, \
1508 { opcode, F3F(2, 0x35, 0x040+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x040+fpsize))|MCOND(~fcond,~0), "7," args, flags | F_FLOAT, v9 }, \
1509 { opcode, F3F(2, 0x35, 0x080+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x080+fpsize))|MCOND(~fcond,~0), "8," args, flags | F_FLOAT, v9 }, \
1510 { opcode, F3F(2, 0x35, 0x0c0+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x0c0+fpsize))|MCOND(~fcond,~0), "9," args, flags | F_FLOAT, v9 }
1511 
1512 #define fmovicc(suffix, cond, flags) /* v9 */ \
1513 fmoviccx("fmovd" suffix, FM_DF, "B,H", cond, flags),            \
1514 fmoviccx("fmovq" suffix, FM_QF, "R,J", cond, flags),            \
1515 fmoviccx("fmovs" suffix, FM_SF, "f,g", cond, flags)
1516 
1517 #define fmovfcc(suffix, fcond, flags) /* v9 */ \
1518 fmovfccx("fmovd" suffix, FM_DF, "B,H", fcond, flags),           \
1519 fmovfccx("fmovq" suffix, FM_QF, "R,J", fcond, flags),           \
1520 fmovfccx("fmovs" suffix, FM_SF, "f,g", fcond, flags)
1521 
1522 #define fmovcc(suffix, cond, fcond, flags) /* v9 */ \
1523 fmovccx("fmovd" suffix, FM_DF, "B,H", cond, fcond, flags),      \
1524 fmovccx("fmovq" suffix, FM_QF, "R,J", cond, fcond, flags),      \
1525 fmovccx("fmovs" suffix, FM_SF, "f,g", cond, fcond, flags)
1526 
1527 /* v9 */ fmovcc  ("a", CONDA, FCONDA, 0),
1528 /* v9 */ fmovicc ("cc", CONDCC, 0),
1529 /* v9 */ fmovicc ("cs", CONDCS, 0),
1530 /* v9 */ fmovcc  ("e", CONDE, FCONDE, 0),
1531 /* v9 */ fmovcc  ("g", CONDG, FCONDG, 0),
1532 /* v9 */ fmovcc  ("ge", CONDGE, FCONDGE, 0),
1533 /* v9 */ fmovicc ("geu", CONDGEU, F_ALIAS),
1534 /* v9 */ fmovicc ("gu", CONDGU, 0),
1535 /* v9 */ fmovcc  ("l", CONDL, FCONDL, 0),
1536 /* v9 */ fmovcc  ("le", CONDLE, FCONDLE, 0),
1537 /* v9 */ fmovicc ("leu", CONDLEU, 0),
1538 /* v9 */ fmovfcc ("lg", FCONDLG, 0),
1539 /* v9 */ fmovicc ("lu", CONDLU, F_ALIAS),
1540 /* v9 */ fmovcc  ("n", CONDN, FCONDN, 0),
1541 /* v9 */ fmovcc  ("ne", CONDNE, FCONDNE, 0),
1542 /* v9 */ fmovicc ("neg", CONDNEG, 0),
1543 /* v9 */ fmovcc  ("nz", CONDNZ, FCONDNZ, F_ALIAS),
1544 /* v9 */ fmovfcc ("o", FCONDO, 0),
1545 /* v9 */ fmovicc ("pos", CONDPOS, 0),
1546 /* v9 */ fmovfcc ("u", FCONDU, 0),
1547 /* v9 */ fmovfcc ("ue", FCONDUE, 0),
1548 /* v9 */ fmovfcc ("ug", FCONDUG, 0),
1549 /* v9 */ fmovfcc ("uge", FCONDUGE, 0),
1550 /* v9 */ fmovfcc ("ul", FCONDUL, 0),
1551 /* v9 */ fmovfcc ("ule", FCONDULE, 0),
1552 /* v9 */ fmovicc ("vc", CONDVC, 0),
1553 /* v9 */ fmovicc ("vs", CONDVS, 0),
1554 /* v9 */ fmovcc  ("z", CONDZ, FCONDZ, F_ALIAS),
1555 
1556 #undef fmoviccx /* v9 */
1557 #undef fmovfccx /* v9 */
1558 #undef fmovccx /* v9 */
1559 #undef fmovicc /* v9 */
1560 #undef fmovfcc /* v9 */
1561 #undef fmovcc /* v9 */
1562 #undef FM_DF /* v9 */
1563 #undef FM_QF /* v9 */
1564 #undef FM_SF /* v9 */
1565 
1566 /* Coprocessor branches.  */
1567 #define CBR(opcode, mask, lose, flags, arch) \
1568  { opcode, (mask), ANNUL | (lose), "l",    flags | F_DELAYED, arch }, \
1569  { opcode, (mask) | ANNUL, (lose), ",a l", flags | F_DELAYED, arch }
1570 
1571 /* Floating point branches.  */
1572 #define FBR(opcode, mask, lose, flags) \
1573  { opcode, (mask), ANNUL | (lose), "l",    flags | F_DELAYED | F_FBR, v6 }, \
1574  { opcode, (mask) | ANNUL, (lose), ",a l", flags | F_DELAYED | F_FBR, v6 }
1575 
1576 /* V9 extended floating point branches.  */
1577 #define FBRX(opcode, mask, lose, flags) /* v9 */ \
1578  { opcode, FBFCC(0)|(mask)|BPRED, ANNUL|FBFCC(~0)|(lose), "6,G",      flags|F_DELAYED|F_FBR, v9 }, \
1579  { opcode, FBFCC(0)|(mask)|BPRED, ANNUL|FBFCC(~0)|(lose), ",T 6,G",   flags|F_DELAYED|F_FBR, v9 }, \
1580  { opcode, FBFCC(0)|(mask)|BPRED|ANNUL, FBFCC(~0)|(lose), ",a 6,G",   flags|F_DELAYED|F_FBR, v9 }, \
1581  { opcode, FBFCC(0)|(mask)|BPRED|ANNUL, FBFCC(~0)|(lose), ",a,T 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1582  { opcode, FBFCC(0)|(mask), ANNUL|BPRED|FBFCC(~0)|(lose), ",N 6,G",   flags|F_DELAYED|F_FBR, v9 }, \
1583  { opcode, FBFCC(0)|(mask)|ANNUL, BPRED|FBFCC(~0)|(lose), ",a,N 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1584  { opcode, FBFCC(1)|(mask)|BPRED, ANNUL|FBFCC(~1)|(lose), "7,G",      flags|F_DELAYED|F_FBR, v9 }, \
1585  { opcode, FBFCC(1)|(mask)|BPRED, ANNUL|FBFCC(~1)|(lose), ",T 7,G",   flags|F_DELAYED|F_FBR, v9 }, \
1586  { opcode, FBFCC(1)|(mask)|BPRED|ANNUL, FBFCC(~1)|(lose), ",a 7,G",   flags|F_DELAYED|F_FBR, v9 }, \
1587  { opcode, FBFCC(1)|(mask)|BPRED|ANNUL, FBFCC(~1)|(lose), ",a,T 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1588  { opcode, FBFCC(1)|(mask), ANNUL|BPRED|FBFCC(~1)|(lose), ",N 7,G",   flags|F_DELAYED|F_FBR, v9 }, \
1589  { opcode, FBFCC(1)|(mask)|ANNUL, BPRED|FBFCC(~1)|(lose), ",a,N 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1590  { opcode, FBFCC(2)|(mask)|BPRED, ANNUL|FBFCC(~2)|(lose), "8,G",      flags|F_DELAYED|F_FBR, v9 }, \
1591  { opcode, FBFCC(2)|(mask)|BPRED, ANNUL|FBFCC(~2)|(lose), ",T 8,G",   flags|F_DELAYED|F_FBR, v9 }, \
1592  { opcode, FBFCC(2)|(mask)|BPRED|ANNUL, FBFCC(~2)|(lose), ",a 8,G",   flags|F_DELAYED|F_FBR, v9 }, \
1593  { opcode, FBFCC(2)|(mask)|BPRED|ANNUL, FBFCC(~2)|(lose), ",a,T 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1594  { opcode, FBFCC(2)|(mask), ANNUL|BPRED|FBFCC(~2)|(lose), ",N 8,G",   flags|F_DELAYED|F_FBR, v9 }, \
1595  { opcode, FBFCC(2)|(mask)|ANNUL, BPRED|FBFCC(~2)|(lose), ",a,N 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1596  { opcode, FBFCC(3)|(mask)|BPRED, ANNUL|FBFCC(~3)|(lose), "9,G",      flags|F_DELAYED|F_FBR, v9 }, \
1597  { opcode, FBFCC(3)|(mask)|BPRED, ANNUL|FBFCC(~3)|(lose), ",T 9,G",   flags|F_DELAYED|F_FBR, v9 }, \
1598  { opcode, FBFCC(3)|(mask)|BPRED|ANNUL, FBFCC(~3)|(lose), ",a 9,G",   flags|F_DELAYED|F_FBR, v9 }, \
1599  { opcode, FBFCC(3)|(mask)|BPRED|ANNUL, FBFCC(~3)|(lose), ",a,T 9,G", flags|F_DELAYED|F_FBR, v9 }, \
1600  { opcode, FBFCC(3)|(mask), ANNUL|BPRED|FBFCC(~3)|(lose), ",N 9,G",   flags|F_DELAYED|F_FBR, v9 }, \
1601  { opcode, FBFCC(3)|(mask)|ANNUL, BPRED|FBFCC(~3)|(lose), ",a,N 9,G", flags|F_DELAYED|F_FBR, v9 }
1602 
1603 /* v9: We must put `FBRX' before `FBR', to ensure that we never match
1604    v9: something against an expression unless it is an expression.  Otherwise,
1605    v9: we end up with undefined symbol tables entries, because they get added,
1606    v9: but are not deleted if the pattern fails to match.  */
1607 
1608 #define CONDFC(fop, cop, mask, flags) \
1609   FBRX(fop, F2(0, 5)|COND(mask), F2(~0, ~5)|COND(~(mask)), flags), /* v9 */ \
1610   FBR(fop, F2(0, 6)|COND(mask), F2(~0, ~6)|COND(~(mask)), flags), \
1611   CBR(cop, F2(0, 7)|COND(mask), F2(~0, ~7)|COND(~(mask)), flags, v6notlet)
1612 
1613 #define CONDFCL(fop, cop, mask, flags) \
1614   FBRX(fop, F2(0, 5)|COND(mask), F2(~0, ~5)|COND(~(mask)), flags), /* v9 */ \
1615   FBR(fop, F2(0, 6)|COND(mask), F2(~0, ~6)|COND(~(mask)), flags), \
1616   CBR(cop, F2(0, 7)|COND(mask), F2(~0, ~7)|COND(~(mask)), flags, v6)
1617 
1618 #define CONDF(fop, mask, flags) \
1619   FBRX(fop, F2(0, 5)|COND(mask), F2(~0, ~5)|COND(~(mask)), flags), /* v9 */ \
1620   FBR(fop, F2(0, 6)|COND(mask), F2(~0, ~6)|COND(~(mask)), flags)
1621 
1622 CONDFC  ("fb",    "cb",    0x8, F_UNBR),
1623 CONDFCL ("fba",   "cba",   0x8, F_UNBR|F_ALIAS),
1624 CONDFC  ("fbe",   "cb0",   0x9, F_CONDBR),
1625 CONDF   ("fbz",            0x9, F_CONDBR|F_ALIAS),
1626 CONDFC  ("fbg",   "cb2",   0x6, F_CONDBR),
1627 CONDFC  ("fbge",  "cb02",  0xb, F_CONDBR),
1628 CONDFC  ("fbl",   "cb1",   0x4, F_CONDBR),
1629 CONDFC  ("fble",  "cb01",  0xd, F_CONDBR),
1630 CONDFC  ("fblg",  "cb12",  0x2, F_CONDBR),
1631 CONDFCL ("fbn",   "cbn",   0x0, F_UNBR),
1632 CONDFC  ("fbne",  "cb123", 0x1, F_CONDBR),
1633 CONDF   ("fbnz",           0x1, F_CONDBR|F_ALIAS),
1634 CONDFC  ("fbo",   "cb012", 0xf, F_CONDBR),
1635 CONDFC  ("fbu",   "cb3",   0x7, F_CONDBR),
1636 CONDFC  ("fbue",  "cb03",  0xa, F_CONDBR),
1637 CONDFC  ("fbug",  "cb23",  0x5, F_CONDBR),
1638 CONDFC  ("fbuge", "cb023", 0xc, F_CONDBR),
1639 CONDFC  ("fbul",  "cb13",  0x3, F_CONDBR),
1640 CONDFC  ("fbule", "cb013", 0xe, F_CONDBR),
1641 
1642 #undef CONDFC
1643 #undef CONDFCL
1644 #undef CONDF
1645 #undef CBR
1646 #undef FBR
1647 #undef FBRX     /* v9 */
1648 
1649 { "jmp",        F3(2, 0x38, 0), F3(~2, ~0x38, ~0)|RD_G0|ASI(~0),        "1+2", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+rs2,%g0 */
1650 { "jmp",        F3(2, 0x38, 0), F3(~2, ~0x38, ~0)|RD_G0|ASI_RS2(~0),    "1", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+%g0,%g0 */
1651 { "jmp",        F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0,                "1+i", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+i,%g0 */
1652 { "jmp",        F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0,                "i+1", F_UNBR|F_DELAYED, v6 }, /* jmpl i+rs1,%g0 */
1653 { "jmp",        F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0|RS1_G0,         "i", F_UNBR|F_DELAYED, v6 }, /* jmpl %g0+i,%g0 */
1654 { "jmp",        F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0|SIMM13(~0),     "1", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+0,%g0 */
1655 
1656 { "nop",        F2(0, 4), 0xfeffffff, "", 0, v6 }, /* sethi 0, %g0 */
1657 
1658 { "set",        F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,d", F_ALIAS, v6 },
1659 { "setuw",      F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,d", F_ALIAS, v9 },
1660 { "setsw",      F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,d", F_ALIAS, v9 },
1661 { "setx",       F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,1,d", F_ALIAS, v9 },
1662 
1663 { "sethi",      F2(0x0, 0x4), F2(~0x0, ~0x4), "h,d", 0, v6 },
1664 
1665 { "taddcc",     F3(2, 0x20, 0), F3(~2, ~0x20, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1666 { "taddcc",     F3(2, 0x20, 1), F3(~2, ~0x20, ~1),              "1,i,d", 0, v6 },
1667 { "taddcc",     F3(2, 0x20, 1), F3(~2, ~0x20, ~1),              "i,1,d", 0, v6 },
1668 { "taddcctv",   F3(2, 0x22, 0), F3(~2, ~0x22, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1669 { "taddcctv",   F3(2, 0x22, 1), F3(~2, ~0x22, ~1),              "1,i,d", 0, v6 },
1670 { "taddcctv",   F3(2, 0x22, 1), F3(~2, ~0x22, ~1),              "i,1,d", 0, v6 },
1671 
1672 { "tsubcc",     F3(2, 0x21, 0), F3(~2, ~0x21, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1673 { "tsubcc",     F3(2, 0x21, 1), F3(~2, ~0x21, ~1),              "1,i,d", 0, v6 },
1674 { "tsubcctv",   F3(2, 0x23, 0), F3(~2, ~0x23, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1675 { "tsubcctv",   F3(2, 0x23, 1), F3(~2, ~0x23, ~1),              "1,i,d", 0, v6 },
1676 
1677 { "unimp",      F2(0x0, 0x0), 0xffc00000, "n", 0, v6notv9 },
1678 { "illtrap",    F2(0, 0), F2(~0, ~0)|RD_G0, "n", 0, v9 },
1679 
1680 /* This *is* a commutative instruction.  */
1681 { "xnor",       F3(2, 0x07, 0), F3(~2, ~0x07, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1682 { "xnor",       F3(2, 0x07, 1), F3(~2, ~0x07, ~1),              "1,i,d", 0, v6 },
1683 { "xnor",       F3(2, 0x07, 1), F3(~2, ~0x07, ~1),              "i,1,d", 0, v6 },
1684 /* This *is* a commutative instruction.  */
1685 { "xnorcc",     F3(2, 0x17, 0), F3(~2, ~0x17, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1686 { "xnorcc",     F3(2, 0x17, 1), F3(~2, ~0x17, ~1),              "1,i,d", 0, v6 },
1687 { "xnorcc",     F3(2, 0x17, 1), F3(~2, ~0x17, ~1),              "i,1,d", 0, v6 },
1688 { "xor",        F3(2, 0x03, 0), F3(~2, ~0x03, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1689 { "xor",        F3(2, 0x03, 1), F3(~2, ~0x03, ~1),              "1,i,d", 0, v6 },
1690 { "xor",        F3(2, 0x03, 1), F3(~2, ~0x03, ~1),              "i,1,d", 0, v6 },
1691 { "xorcc",      F3(2, 0x13, 0), F3(~2, ~0x13, ~0)|ASI(~0),      "1,2,d", 0, v6 },
1692 { "xorcc",      F3(2, 0x13, 1), F3(~2, ~0x13, ~1),              "1,i,d", 0, v6 },
1693 { "xorcc",      F3(2, 0x13, 1), F3(~2, ~0x13, ~1),              "i,1,d", 0, v6 },
1694 
1695 { "not",        F3(2, 0x07, 0), F3(~2, ~0x07, ~0)|ASI(~0), "1,d", F_ALIAS, v6 }, /* xnor rs1,%0,rd */
1696 { "not",        F3(2, 0x07, 0), F3(~2, ~0x07, ~0)|ASI(~0), "r", F_ALIAS, v6 }, /* xnor rd,%0,rd */
1697 
1698 { "btog",       F3(2, 0x03, 0), F3(~2, ~0x03, ~0)|ASI(~0),      "2,r", F_ALIAS, v6 }, /* xor rd,rs2,rd */
1699 { "btog",       F3(2, 0x03, 1), F3(~2, ~0x03, ~1),              "i,r", F_ALIAS, v6 }, /* xor rd,i,rd */
1700 
1701 /* FPop1 and FPop2 are not instructions.  Don't accept them.  */
1702 
1703 { "fdtoi",      F3F(2, 0x34, 0x0d2), F3F(~2, ~0x34, ~0x0d2)|RS1_G0, "B,g", F_FLOAT, v6 },
1704 { "fstoi",      F3F(2, 0x34, 0x0d1), F3F(~2, ~0x34, ~0x0d1)|RS1_G0, "f,g", F_FLOAT, v6 },
1705 { "fqtoi",      F3F(2, 0x34, 0x0d3), F3F(~2, ~0x34, ~0x0d3)|RS1_G0, "R,g", F_FLOAT, v8 },
1706 
1707 { "fdtox",      F3F(2, 0x34, 0x082), F3F(~2, ~0x34, ~0x082)|RS1_G0, "B,H", F_FLOAT, v9 },
1708 { "fstox",      F3F(2, 0x34, 0x081), F3F(~2, ~0x34, ~0x081)|RS1_G0, "f,H", F_FLOAT, v9 },
1709 { "fqtox",      F3F(2, 0x34, 0x083), F3F(~2, ~0x34, ~0x083)|RS1_G0, "R,H", F_FLOAT, v9 },
1710 
1711 { "fitod",      F3F(2, 0x34, 0x0c8), F3F(~2, ~0x34, ~0x0c8)|RS1_G0, "f,H", F_FLOAT, v6 },
1712 { "fitos",      F3F(2, 0x34, 0x0c4), F3F(~2, ~0x34, ~0x0c4)|RS1_G0, "f,g", F_FLOAT, v6 },
1713 { "fitoq",      F3F(2, 0x34, 0x0cc), F3F(~2, ~0x34, ~0x0cc)|RS1_G0, "f,J", F_FLOAT, v8 },
1714 
1715 { "fxtod",      F3F(2, 0x34, 0x088), F3F(~2, ~0x34, ~0x088)|RS1_G0, "B,H", F_FLOAT, v9 },
1716 { "fxtos",      F3F(2, 0x34, 0x084), F3F(~2, ~0x34, ~0x084)|RS1_G0, "B,g", F_FLOAT, v9 },
1717 { "fxtoq",      F3F(2, 0x34, 0x08c), F3F(~2, ~0x34, ~0x08c)|RS1_G0, "B,J", F_FLOAT, v9 },
1718 
1719 { "fdtoq",      F3F(2, 0x34, 0x0ce), F3F(~2, ~0x34, ~0x0ce)|RS1_G0, "B,J", F_FLOAT, v8 },
1720 { "fdtos",      F3F(2, 0x34, 0x0c6), F3F(~2, ~0x34, ~0x0c6)|RS1_G0, "B,g", F_FLOAT, v6 },
1721 { "fqtod",      F3F(2, 0x34, 0x0cb), F3F(~2, ~0x34, ~0x0cb)|RS1_G0, "R,H", F_FLOAT, v8 },
1722 { "fqtos",      F3F(2, 0x34, 0x0c7), F3F(~2, ~0x34, ~0x0c7)|RS1_G0, "R,g", F_FLOAT, v8 },
1723 { "fstod",      F3F(2, 0x34, 0x0c9), F3F(~2, ~0x34, ~0x0c9)|RS1_G0, "f,H", F_FLOAT, v6 },
1724 { "fstoq",      F3F(2, 0x34, 0x0cd), F3F(~2, ~0x34, ~0x0cd)|RS1_G0, "f,J", F_FLOAT, v8 },
1725 
1726 { "fdivd",      F3F(2, 0x34, 0x04e), F3F(~2, ~0x34, ~0x04e), "v,B,H", F_FLOAT, v6 },
1727 { "fdivq",      F3F(2, 0x34, 0x04f), F3F(~2, ~0x34, ~0x04f), "V,R,J", F_FLOAT, v8 },
1728 { "fdivx",      F3F(2, 0x34, 0x04f), F3F(~2, ~0x34, ~0x04f), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1729 { "fdivs",      F3F(2, 0x34, 0x04d), F3F(~2, ~0x34, ~0x04d), "e,f,g", F_FLOAT, v6 },
1730 { "fmuld",      F3F(2, 0x34, 0x04a), F3F(~2, ~0x34, ~0x04a), "v,B,H", F_FLOAT, v6 },
1731 { "fmulq",      F3F(2, 0x34, 0x04b), F3F(~2, ~0x34, ~0x04b), "V,R,J", F_FLOAT, v8 },
1732 { "fmulx",      F3F(2, 0x34, 0x04b), F3F(~2, ~0x34, ~0x04b), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1733 { "fmuls",      F3F(2, 0x34, 0x049), F3F(~2, ~0x34, ~0x049), "e,f,g", F_FLOAT, v6 },
1734 
1735 { "fdmulq",     F3F(2, 0x34, 0x06e), F3F(~2, ~0x34, ~0x06e), "v,B,J", F_FLOAT, v8 },
1736 { "fdmulx",     F3F(2, 0x34, 0x06e), F3F(~2, ~0x34, ~0x06e), "v,B,J", F_FLOAT|F_ALIAS, v8 },
1737 { "fsmuld",     F3F(2, 0x34, 0x069), F3F(~2, ~0x34, ~0x069), "e,f,H", F_FLOAT, v8 },
1738 
1739 { "fsqrtd",     F3F(2, 0x34, 0x02a), F3F(~2, ~0x34, ~0x02a)|RS1_G0, "B,H", F_FLOAT, v7 },
1740 { "fsqrtq",     F3F(2, 0x34, 0x02b), F3F(~2, ~0x34, ~0x02b)|RS1_G0, "R,J", F_FLOAT, v8 },
1741 { "fsqrtx",     F3F(2, 0x34, 0x02b), F3F(~2, ~0x34, ~0x02b)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v8 },
1742 { "fsqrts",     F3F(2, 0x34, 0x029), F3F(~2, ~0x34, ~0x029)|RS1_G0, "f,g", F_FLOAT, v7 },
1743 
1744 { "fabsd",      F3F(2, 0x34, 0x00a), F3F(~2, ~0x34, ~0x00a)|RS1_G0, "B,H", F_FLOAT, v9 },
1745 { "fabsq",      F3F(2, 0x34, 0x00b), F3F(~2, ~0x34, ~0x00b)|RS1_G0, "R,J", F_FLOAT, v9 },
1746 { "fabsx",      F3F(2, 0x34, 0x00b), F3F(~2, ~0x34, ~0x00b)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v9 },
1747 { "fabss",      F3F(2, 0x34, 0x009), F3F(~2, ~0x34, ~0x009)|RS1_G0, "f,g", F_FLOAT, v6 },
1748 { "fmovd",      F3F(2, 0x34, 0x002), F3F(~2, ~0x34, ~0x002)|RS1_G0, "B,H", F_FLOAT, v9 },
1749 { "fmovq",      F3F(2, 0x34, 0x003), F3F(~2, ~0x34, ~0x003)|RS1_G0, "R,J", F_FLOAT, v9 },
1750 { "fmovx",      F3F(2, 0x34, 0x003), F3F(~2, ~0x34, ~0x003)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v9 },
1751 { "fmovs",      F3F(2, 0x34, 0x001), F3F(~2, ~0x34, ~0x001)|RS1_G0, "f,g", F_FLOAT, v6 },
1752 { "fnegd",      F3F(2, 0x34, 0x006), F3F(~2, ~0x34, ~0x006)|RS1_G0, "B,H", F_FLOAT, v9 },
1753 { "fnegq",      F3F(2, 0x34, 0x007), F3F(~2, ~0x34, ~0x007)|RS1_G0, "R,J", F_FLOAT, v9 },
1754 { "fnegx",      F3F(2, 0x34, 0x007), F3F(~2, ~0x34, ~0x007)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v9 },
1755 { "fnegs",      F3F(2, 0x34, 0x005), F3F(~2, ~0x34, ~0x005)|RS1_G0, "f,g", F_FLOAT, v6 },
1756 
1757 { "faddd",      F3F(2, 0x34, 0x042), F3F(~2, ~0x34, ~0x042), "v,B,H", F_FLOAT, v6 },
1758 { "faddq",      F3F(2, 0x34, 0x043), F3F(~2, ~0x34, ~0x043), "V,R,J", F_FLOAT, v8 },
1759 { "faddx",      F3F(2, 0x34, 0x043), F3F(~2, ~0x34, ~0x043), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1760 { "fadds",      F3F(2, 0x34, 0x041), F3F(~2, ~0x34, ~0x041), "e,f,g", F_FLOAT, v6 },
1761 { "fsubd",      F3F(2, 0x34, 0x046), F3F(~2, ~0x34, ~0x046), "v,B,H", F_FLOAT, v6 },
1762 { "fsubq",      F3F(2, 0x34, 0x047), F3F(~2, ~0x34, ~0x047), "V,R,J", F_FLOAT, v8 },
1763 { "fsubx",      F3F(2, 0x34, 0x047), F3F(~2, ~0x34, ~0x047), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1764 { "fsubs",      F3F(2, 0x34, 0x045), F3F(~2, ~0x34, ~0x045), "e,f,g", F_FLOAT, v6 },
1765 
1766 #define CMPFCC(x)       (((x)&0x3)<<25)
1767 
1768 { "fcmpd",                F3F(2, 0x35, 0x052),            F3F(~2, ~0x35, ~0x052)|RD_G0,  "v,B",   F_FLOAT, v6 },
1769 { "fcmpd",      CMPFCC(0)|F3F(2, 0x35, 0x052), CMPFCC(~0)|F3F(~2, ~0x35, ~0x052),        "6,v,B", F_FLOAT, v9 },
1770 { "fcmpd",      CMPFCC(1)|F3F(2, 0x35, 0x052), CMPFCC(~1)|F3F(~2, ~0x35, ~0x052),        "7,v,B", F_FLOAT, v9 },
1771 { "fcmpd",      CMPFCC(2)|F3F(2, 0x35, 0x052), CMPFCC(~2)|F3F(~2, ~0x35, ~0x052),        "8,v,B", F_FLOAT, v9 },
1772 { "fcmpd",      CMPFCC(3)|F3F(2, 0x35, 0x052), CMPFCC(~3)|F3F(~2, ~0x35, ~0x052),        "9,v,B", F_FLOAT, v9 },
1773 { "fcmped",               F3F(2, 0x35, 0x056),            F3F(~2, ~0x35, ~0x056)|RD_G0,  "v,B",   F_FLOAT, v6 },
1774 { "fcmped",     CMPFCC(0)|F3F(2, 0x35, 0x056), CMPFCC(~0)|F3F(~2, ~0x35, ~0x056),        "6,v,B", F_FLOAT, v9 },
1775 { "fcmped",     CMPFCC(1)|F3F(2, 0x35, 0x056), CMPFCC(~1)|F3F(~2, ~0x35, ~0x056),        "7,v,B", F_FLOAT, v9 },
1776 { "fcmped",     CMPFCC(2)|F3F(2, 0x35, 0x056), CMPFCC(~2)|F3F(~2, ~0x35, ~0x056),        "8,v,B", F_FLOAT, v9 },
1777 { "fcmped",     CMPFCC(3)|F3F(2, 0x35, 0x056), CMPFCC(~3)|F3F(~2, ~0x35, ~0x056),        "9,v,B", F_FLOAT, v9 },
1778 { "fcmpq",                F3F(2, 0x35, 0x053),            F3F(~2, ~0x35, ~0x053)|RD_G0,  "V,R", F_FLOAT, v8 },
1779 { "fcmpq",      CMPFCC(0)|F3F(2, 0x35, 0x053), CMPFCC(~0)|F3F(~2, ~0x35, ~0x053),        "6,V,R", F_FLOAT, v9 },
1780 { "fcmpq",      CMPFCC(1)|F3F(2, 0x35, 0x053), CMPFCC(~1)|F3F(~2, ~0x35, ~0x053),        "7,V,R", F_FLOAT, v9 },
1781 { "fcmpq",      CMPFCC(2)|F3F(2, 0x35, 0x053), CMPFCC(~2)|F3F(~2, ~0x35, ~0x053),        "8,V,R", F_FLOAT, v9 },
1782 { "fcmpq",      CMPFCC(3)|F3F(2, 0x35, 0x053), CMPFCC(~3)|F3F(~2, ~0x35, ~0x053),        "9,V,R", F_FLOAT, v9 },
1783 { "fcmpeq",               F3F(2, 0x35, 0x057),            F3F(~2, ~0x35, ~0x057)|RD_G0,  "V,R", F_FLOAT, v8 },
1784 { "fcmpeq",     CMPFCC(0)|F3F(2, 0x35, 0x057), CMPFCC(~0)|F3F(~2, ~0x35, ~0x057),        "6,V,R", F_FLOAT, v9 },
1785 { "fcmpeq",     CMPFCC(1)|F3F(2, 0x35, 0x057), CMPFCC(~1)|F3F(~2, ~0x35, ~0x057),        "7,V,R", F_FLOAT, v9 },
1786 { "fcmpeq",     CMPFCC(2)|F3F(2, 0x35, 0x057), CMPFCC(~2)|F3F(~2, ~0x35, ~0x057),        "8,V,R", F_FLOAT, v9 },
1787 { "fcmpeq",     CMPFCC(3)|F3F(2, 0x35, 0x057), CMPFCC(~3)|F3F(~2, ~0x35, ~0x057),        "9,V,R", F_FLOAT, v9 },
1788 { "fcmpx",                F3F(2, 0x35, 0x053),            F3F(~2, ~0x35, ~0x053)|RD_G0,  "V,R", F_FLOAT|F_ALIAS, v8 },
1789 { "fcmpx",      CMPFCC(0)|F3F(2, 0x35, 0x053), CMPFCC(~0)|F3F(~2, ~0x35, ~0x053),        "6,V,R", F_FLOAT|F_ALIAS, v9 },
1790 { "fcmpx",      CMPFCC(1)|F3F(2, 0x35, 0x053), CMPFCC(~1)|F3F(~2, ~0x35, ~0x053),        "7,V,R", F_FLOAT|F_ALIAS, v9 },
1791 { "fcmpx",      CMPFCC(2)|F3F(2, 0x35, 0x053), CMPFCC(~2)|F3F(~2, ~0x35, ~0x053),        "8,V,R", F_FLOAT|F_ALIAS, v9 },
1792 { "fcmpx",      CMPFCC(3)|F3F(2, 0x35, 0x053), CMPFCC(~3)|F3F(~2, ~0x35, ~0x053),        "9,V,R", F_FLOAT|F_ALIAS, v9 },
1793 { "fcmpex",               F3F(2, 0x35, 0x057),            F3F(~2, ~0x35, ~0x057)|RD_G0,  "V,R", F_FLOAT|F_ALIAS, v8 },
1794 { "fcmpex",     CMPFCC(0)|F3F(2, 0x35, 0x057), CMPFCC(~0)|F3F(~2, ~0x35, ~0x057),        "6,V,R", F_FLOAT|F_ALIAS, v9 },
1795 { "fcmpex",     CMPFCC(1)|F3F(2, 0x35, 0x057), CMPFCC(~1)|F3F(~2, ~0x35, ~0x057),        "7,V,R", F_FLOAT|F_ALIAS, v9 },
1796 { "fcmpex",     CMPFCC(2)|F3F(2, 0x35, 0x057), CMPFCC(~2)|F3F(~2, ~0x35, ~0x057),        "8,V,R", F_FLOAT|F_ALIAS, v9 },
1797 { "fcmpex",     CMPFCC(3)|F3F(2, 0x35, 0x057), CMPFCC(~3)|F3F(~2, ~0x35, ~0x057),        "9,V,R", F_FLOAT|F_ALIAS, v9 },
1798 { "fcmps",                F3F(2, 0x35, 0x051),            F3F(~2, ~0x35, ~0x051)|RD_G0, "e,f",   F_FLOAT, v6 },
1799 { "fcmps",      CMPFCC(0)|F3F(2, 0x35, 0x051), CMPFCC(~0)|F3F(~2, ~0x35, ~0x051),        "6,e,f", F_FLOAT, v9 },
1800 { "fcmps",      CMPFCC(1)|F3F(2, 0x35, 0x051), CMPFCC(~1)|F3F(~2, ~0x35, ~0x051),        "7,e,f", F_FLOAT, v9 },
1801 { "fcmps",      CMPFCC(2)|F3F(2, 0x35, 0x051), CMPFCC(~2)|F3F(~2, ~0x35, ~0x051),        "8,e,f", F_FLOAT, v9 },
1802 { "fcmps",      CMPFCC(3)|F3F(2, 0x35, 0x051), CMPFCC(~3)|F3F(~2, ~0x35, ~0x051),        "9,e,f", F_FLOAT, v9 },
1803 { "fcmpes",               F3F(2, 0x35, 0x055),            F3F(~2, ~0x35, ~0x055)|RD_G0, "e,f",   F_FLOAT, v6 },
1804 { "fcmpes",     CMPFCC(0)|F3F(2, 0x35, 0x055), CMPFCC(~0)|F3F(~2, ~0x35, ~0x055),        "6,e,f", F_FLOAT, v9 },
1805 { "fcmpes",     CMPFCC(1)|F3F(2, 0x35, 0x055), CMPFCC(~1)|F3F(~2, ~0x35, ~0x055),        "7,e,f", F_FLOAT, v9 },
1806 { "fcmpes",     CMPFCC(2)|F3F(2, 0x35, 0x055), CMPFCC(~2)|F3F(~2, ~0x35, ~0x055),        "8,e,f", F_FLOAT, v9 },
1807 { "fcmpes",     CMPFCC(3)|F3F(2, 0x35, 0x055), CMPFCC(~3)|F3F(~2, ~0x35, ~0x055),        "9,e,f", F_FLOAT, v9 },
1808 
1809 /* These Extended FPop (FIFO) instructions are new in the Fujitsu
1810    MB86934, replacing the CPop instructions from v6 and later
1811    processors.  */
1812 
1813 #define EFPOP1_2(name, op, args) { name, F3F(2, 0x36, op), F3F(~2, ~0x36, ~op)|RS1_G0, args, 0, sparclite }
1814 #define EFPOP1_3(name, op, args) { name, F3F(2, 0x36, op), F3F(~2, ~0x36, ~op),        args, 0, sparclite }
1815 #define EFPOP2_2(name, op, args) { name, F3F(2, 0x37, op), F3F(~2, ~0x37, ~op)|RD_G0,  args, 0, sparclite }
1816 
1817 EFPOP1_2 ("efitod",     0x0c8, "f,H"),
1818 EFPOP1_2 ("efitos",     0x0c4, "f,g"),
1819 EFPOP1_2 ("efdtoi",     0x0d2, "B,g"),
1820 EFPOP1_2 ("efstoi",     0x0d1, "f,g"),
1821 EFPOP1_2 ("efstod",     0x0c9, "f,H"),
1822 EFPOP1_2 ("efdtos",     0x0c6, "B,g"),
1823 EFPOP1_2 ("efmovs",     0x001, "f,g"),
1824 EFPOP1_2 ("efnegs",     0x005, "f,g"),
1825 EFPOP1_2 ("efabss",     0x009, "f,g"),
1826 EFPOP1_2 ("efsqrtd",    0x02a, "B,H"),
1827 EFPOP1_2 ("efsqrts",    0x029, "f,g"),
1828 EFPOP1_3 ("efaddd",     0x042, "v,B,H"),
1829 EFPOP1_3 ("efadds",     0x041, "e,f,g"),
1830 EFPOP1_3 ("efsubd",     0x046, "v,B,H"),
1831 EFPOP1_3 ("efsubs",     0x045, "e,f,g"),
1832 EFPOP1_3 ("efdivd",     0x04e, "v,B,H"),
1833 EFPOP1_3 ("efdivs",     0x04d, "e,f,g"),
1834 EFPOP1_3 ("efmuld",     0x04a, "v,B,H"),
1835 EFPOP1_3 ("efmuls",     0x049, "e,f,g"),
1836 EFPOP1_3 ("efsmuld",    0x069, "e,f,H"),
1837 EFPOP2_2 ("efcmpd",     0x052, "v,B"),
1838 EFPOP2_2 ("efcmped",    0x056, "v,B"),
1839 EFPOP2_2 ("efcmps",     0x051, "e,f"),
1840 EFPOP2_2 ("efcmpes",    0x055, "e,f"),
1841 
1842 #undef EFPOP1_2
1843 #undef EFPOP1_3
1844 #undef EFPOP2_2
1845 
1846 /* These are marked F_ALIAS, so that they won't conflict with sparclite insns
1847    present.  Otherwise, the F_ALIAS flag is ignored.  */
1848 { "cpop1",      F3(2, 0x36, 0), F3(~2, ~0x36, ~1), "[1+2],d", F_ALIAS, v6notv9 },
1849 { "cpop2",      F3(2, 0x37, 0), F3(~2, ~0x37, ~1), "[1+2],d", F_ALIAS, v6notv9 },
1850 
1851 /* sparclet specific insns */
1852 
1853 COMMUTEOP ("umac", 0x3e, sparclet),
1854 COMMUTEOP ("smac", 0x3f, sparclet),
1855 COMMUTEOP ("umacd", 0x2e, sparclet),
1856 COMMUTEOP ("smacd", 0x2f, sparclet),
1857 COMMUTEOP ("umuld", 0x09, sparclet),
1858 COMMUTEOP ("smuld", 0x0d, sparclet),
1859 
1860 { "shuffle",    F3(2, 0x2d, 0), F3(~2, ~0x2d, ~0)|ASI(~0),      "1,2,d", 0, sparclet },
1861 { "shuffle",    F3(2, 0x2d, 1), F3(~2, ~0x2d, ~1),              "1,i,d", 0, sparclet },
1862 
1863 /* The manual isn't completely accurate on these insns.  The `rs2' field is
1864    treated as being 6 bits to account for 6 bit immediates to cpush.  It is
1865    assumed that it is intended that bit 5 is 0 when rs2 contains a reg.  */
1866 #define BIT5 (1<<5)
1867 { "crdcxt",     F3(2, 0x36, 0)|SLCPOP(4), F3(~2, ~0x36, ~0)|SLCPOP(~4)|BIT5|RS2(~0),    "U,d", 0, sparclet },
1868 { "cwrcxt",     F3(2, 0x36, 0)|SLCPOP(3), F3(~2, ~0x36, ~0)|SLCPOP(~3)|BIT5|RS2(~0),    "1,u", 0, sparclet },
1869 { "cpush",      F3(2, 0x36, 0)|SLCPOP(0), F3(~2, ~0x36, ~0)|SLCPOP(~0)|BIT5|RD(~0),     "1,2", 0, sparclet },
1870 { "cpush",      F3(2, 0x36, 1)|SLCPOP(0), F3(~2, ~0x36, ~1)|SLCPOP(~0)|RD(~0),          "1,Y", 0, sparclet },
1871 { "cpusha",     F3(2, 0x36, 0)|SLCPOP(1), F3(~2, ~0x36, ~0)|SLCPOP(~1)|BIT5|RD(~0),     "1,2", 0, sparclet },
1872 { "cpusha",     F3(2, 0x36, 1)|SLCPOP(1), F3(~2, ~0x36, ~1)|SLCPOP(~1)|RD(~0),          "1,Y", 0, sparclet },
1873 { "cpull",      F3(2, 0x36, 0)|SLCPOP(2), F3(~2, ~0x36, ~0)|SLCPOP(~2)|BIT5|RS1(~0)|RS2(~0), "d", 0, sparclet },
1874 #undef BIT5
1875 
1876 /* sparclet coprocessor branch insns */
1877 #define SLCBCC2(opcode, mask, lose) \
1878  { opcode, (mask), ANNUL|(lose), "l",    F_DELAYED|F_CONDBR, sparclet }, \
1879  { opcode, (mask)|ANNUL, (lose), ",a l", F_DELAYED|F_CONDBR, sparclet }
1880 #define SLCBCC(opcode, mask) \
1881   SLCBCC2(opcode, F2(0, 7)|COND(mask), F2(~0, ~7)|COND(~(mask)))
1882 
1883 /* cbn,cba can't be defined here because they're defined elsewhere and GAS
1884    requires all mnemonics of the same name to be consecutive.  */
1885 /*SLCBCC("cbn", 0), - already defined */
1886 SLCBCC("cbe", 1),
1887 SLCBCC("cbf", 2),
1888 SLCBCC("cbef", 3),
1889 SLCBCC("cbr", 4),
1890 SLCBCC("cber", 5),
1891 SLCBCC("cbfr", 6),
1892 SLCBCC("cbefr", 7),
1893 /*SLCBCC("cba", 8), - already defined */
1894 SLCBCC("cbne", 9),
1895 SLCBCC("cbnf", 10),
1896 SLCBCC("cbnef", 11),
1897 SLCBCC("cbnr", 12),
1898 SLCBCC("cbner", 13),
1899 SLCBCC("cbnfr", 14),
1900 SLCBCC("cbnefr", 15),
1901 
1902 #undef SLCBCC2
1903 #undef SLCBCC
1904 
1905 { "casa",       F3(3, 0x3c, 0), F3(~3, ~0x3c, ~0), "[1]A,2,d", 0, v9 },
1906 { "casa",       F3(3, 0x3c, 1), F3(~3, ~0x3c, ~1), "[1]o,2,d", 0, v9 },
1907 { "casxa",      F3(3, 0x3e, 0), F3(~3, ~0x3e, ~0), "[1]A,2,d", 0, v9 },
1908 { "casxa",      F3(3, 0x3e, 1), F3(~3, ~0x3e, ~1), "[1]o,2,d", 0, v9 },
1909 
1910 /* v9 synthetic insns */
1911 { "iprefetch",  F2(0, 1)|(2<<20)|BPRED, F2(~0, ~1)|(1<<20)|ANNUL|COND(~0), "G", 0, v9 }, /* bn,a,pt %xcc,label */
1912 { "signx",      F3(2, 0x27, 0), F3(~2, ~0x27, ~0)|(1<<12)|ASI(~0)|RS2_G0, "1,d", F_ALIAS, v9 }, /* sra rs1,%g0,rd */
1913 { "signx",      F3(2, 0x27, 0), F3(~2, ~0x27, ~0)|(1<<12)|ASI(~0)|RS2_G0, "r", F_ALIAS, v9 }, /* sra rd,%g0,rd */
1914 { "clruw",      F3(2, 0x26, 0), F3(~2, ~0x26, ~0)|(1<<12)|ASI(~0)|RS2_G0, "1,d", F_ALIAS, v9 }, /* srl rs1,%g0,rd */
1915 { "clruw",      F3(2, 0x26, 0), F3(~2, ~0x26, ~0)|(1<<12)|ASI(~0)|RS2_G0, "r", F_ALIAS, v9 }, /* srl rd,%g0,rd */
1916 { "cas",        F3(3, 0x3c, 0)|ASI(0x80), F3(~3, ~0x3c, ~0)|ASI(~0x80), "[1],2,d", F_ALIAS, v9 }, /* casa [rs1]ASI_P,rs2,rd */
1917 { "casl",       F3(3, 0x3c, 0)|ASI(0x88), F3(~3, ~0x3c, ~0)|ASI(~0x88), "[1],2,d", F_ALIAS, v9 }, /* casa [rs1]ASI_P_L,rs2,rd */
1918 { "casx",       F3(3, 0x3e, 0)|ASI(0x80), F3(~3, ~0x3e, ~0)|ASI(~0x80), "[1],2,d", F_ALIAS, v9 }, /* casxa [rs1]ASI_P,rs2,rd */
1919 { "casxl",      F3(3, 0x3e, 0)|ASI(0x88), F3(~3, ~0x3e, ~0)|ASI(~0x88), "[1],2,d", F_ALIAS, v9 }, /* casxa [rs1]ASI_P_L,rs2,rd */
1920 
1921 /* Ultrasparc extensions */
1922 { "shutdown",   F3F(2, 0x36, 0x080), F3F(~2, ~0x36, ~0x080)|RD_G0|RS1_G0|RS2_G0, "", 0, v9a },
1923 
1924 /* FIXME: Do we want to mark these as F_FLOAT, or something similar?  */
1925 { "fpadd16",    F3F(2, 0x36, 0x050), F3F(~2, ~0x36, ~0x050), "v,B,H", 0, v9a },
1926 { "fpadd16s",   F3F(2, 0x36, 0x051), F3F(~2, ~0x36, ~0x051), "e,f,g", 0, v9a },
1927 { "fpadd32",    F3F(2, 0x36, 0x052), F3F(~2, ~0x36, ~0x052), "v,B,H", 0, v9a },
1928 { "fpadd32s",   F3F(2, 0x36, 0x053), F3F(~2, ~0x36, ~0x053), "e,f,g", 0, v9a },
1929 { "fpsub16",    F3F(2, 0x36, 0x054), F3F(~2, ~0x36, ~0x054), "v,B,H", 0, v9a },
1930 { "fpsub16s",   F3F(2, 0x36, 0x055), F3F(~2, ~0x36, ~0x055), "e,f,g", 0, v9a },
1931 { "fpsub32",    F3F(2, 0x36, 0x056), F3F(~2, ~0x36, ~0x056), "v,B,H", 0, v9a },
1932 { "fpsub32s",   F3F(2, 0x36, 0x057), F3F(~2, ~0x36, ~0x057), "e,f,g", 0, v9a },
1933 
1934 { "fpack32",    F3F(2, 0x36, 0x03a), F3F(~2, ~0x36, ~0x03a), "v,B,H", 0, v9a },
1935 { "fpack16",    F3F(2, 0x36, 0x03b), F3F(~2, ~0x36, ~0x03b)|RS1_G0, "B,g", 0, v9a },
1936 { "fpackfix",   F3F(2, 0x36, 0x03d), F3F(~2, ~0x36, ~0x03d)|RS1_G0, "B,g", 0, v9a },
1937 { "fexpand",    F3F(2, 0x36, 0x04d), F3F(~2, ~0x36, ~0x04d)|RS1_G0, "f,H", 0, v9a },
1938 { "fpmerge",    F3F(2, 0x36, 0x04b), F3F(~2, ~0x36, ~0x04b), "e,f,H", 0, v9a },
1939 
1940 /* Note that the mixing of 32/64 bit regs is intentional.  */
1941 { "fmul8x16",           F3F(2, 0x36, 0x031), F3F(~2, ~0x36, ~0x031), "e,B,H", 0, v9a },
1942 { "fmul8x16au",         F3F(2, 0x36, 0x033), F3F(~2, ~0x36, ~0x033), "e,f,H", 0, v9a },
1943 { "fmul8x16al",         F3F(2, 0x36, 0x035), F3F(~2, ~0x36, ~0x035), "e,f,H", 0, v9a },
1944 { "fmul8sux16",         F3F(2, 0x36, 0x036), F3F(~2, ~0x36, ~0x036), "v,B,H", 0, v9a },
1945 { "fmul8ulx16",         F3F(2, 0x36, 0x037), F3F(~2, ~0x36, ~0x037), "v,B,H", 0, v9a },
1946 { "fmuld8sux16",        F3F(2, 0x36, 0x038), F3F(~2, ~0x36, ~0x038), "e,f,H", 0, v9a },
1947 { "fmuld8ulx16",        F3F(2, 0x36, 0x039), F3F(~2, ~0x36, ~0x039), "e,f,H", 0, v9a },
1948 
1949 { "alignaddr",  F3F(2, 0x36, 0x018), F3F(~2, ~0x36, ~0x018), "1,2,d", 0, v9a },
1950 { "alignaddrl", F3F(2, 0x36, 0x01a), F3F(~2, ~0x36, ~0x01a), "1,2,d", 0, v9a },
1951 { "faligndata", F3F(2, 0x36, 0x048), F3F(~2, ~0x36, ~0x048), "v,B,H", 0, v9a },
1952 
1953 { "fzero",      F3F(2, 0x36, 0x060), F3F(~2, ~0x36, ~0x060), "H", 0, v9a },
1954 { "fzeros",     F3F(2, 0x36, 0x061), F3F(~2, ~0x36, ~0x061), "g", 0, v9a },
1955 { "fone",       F3F(2, 0x36, 0x07e), F3F(~2, ~0x36, ~0x07e), "H", 0, v9a },
1956 { "fones",      F3F(2, 0x36, 0x07f), F3F(~2, ~0x36, ~0x07f), "g", 0, v9a },
1957 { "fsrc1",      F3F(2, 0x36, 0x074), F3F(~2, ~0x36, ~0x074), "v,H", 0, v9a },
1958 { "fsrc1s",     F3F(2, 0x36, 0x075), F3F(~2, ~0x36, ~0x075), "e,g", 0, v9a },
1959 { "fsrc2",      F3F(2, 0x36, 0x078), F3F(~2, ~0x36, ~0x078), "B,H", 0, v9a },
1960 { "fsrc2s",     F3F(2, 0x36, 0x079), F3F(~2, ~0x36, ~0x079), "f,g", 0, v9a },
1961 { "fnot1",      F3F(2, 0x36, 0x06a), F3F(~2, ~0x36, ~0x06a), "v,H", 0, v9a },
1962 { "fnot1s",     F3F(2, 0x36, 0x06b), F3F(~2, ~0x36, ~0x06b), "e,g", 0, v9a },
1963 { "fnot2",      F3F(2, 0x36, 0x066), F3F(~2, ~0x36, ~0x066), "B,H", 0, v9a },
1964 { "fnot2s",     F3F(2, 0x36, 0x067), F3F(~2, ~0x36, ~0x067), "f,g", 0, v9a },
1965 { "for",        F3F(2, 0x36, 0x07c), F3F(~2, ~0x36, ~0x07c), "v,B,H", 0, v9a },
1966 { "fors",       F3F(2, 0x36, 0x07d), F3F(~2, ~0x36, ~0x07d), "e,f,g", 0, v9a },
1967 { "fnor",       F3F(2, 0x36, 0x062), F3F(~2, ~0x36, ~0x062), "v,B,H", 0, v9a },
1968 { "fnors",      F3F(2, 0x36, 0x063), F3F(~2, ~0x36, ~0x063), "e,f,g", 0, v9a },
1969 { "fand",       F3F(2, 0x36, 0x070), F3F(~2, ~0x36, ~0x070), "v,B,H", 0, v9a },
1970 { "fands",      F3F(2, 0x36, 0x071), F3F(~2, ~0x36, ~0x071), "e,f,g", 0, v9a },
1971 { "fnand",      F3F(2, 0x36, 0x06e), F3F(~2, ~0x36, ~0x06e), "v,B,H", 0, v9a },
1972 { "fnands",     F3F(2, 0x36, 0x06f), F3F(~2, ~0x36, ~0x06f), "e,f,g", 0, v9a },
1973 { "fxor",       F3F(2, 0x36, 0x06c), F3F(~2, ~0x36, ~0x06c), "v,B,H", 0, v9a },
1974 { "fxors",      F3F(2, 0x36, 0x06d), F3F(~2, ~0x36, ~0x06d), "e,f,g", 0, v9a },
1975 { "fxnor",      F3F(2, 0x36, 0x072), F3F(~2, ~0x36, ~0x072), "v,B,H", 0, v9a },
1976 { "fxnors",     F3F(2, 0x36, 0x073), F3F(~2, ~0x36, ~0x073), "e,f,g", 0, v9a },
1977 { "fornot1",    F3F(2, 0x36, 0x07a), F3F(~2, ~0x36, ~0x07a), "v,B,H", 0, v9a },
1978 { "fornot1s",   F3F(2, 0x36, 0x07b), F3F(~2, ~0x36, ~0x07b), "e,f,g", 0, v9a },
1979 { "fornot2",    F3F(2, 0x36, 0x076), F3F(~2, ~0x36, ~0x076), "v,B,H", 0, v9a },
1980 { "fornot2s",   F3F(2, 0x36, 0x077), F3F(~2, ~0x36, ~0x077), "e,f,g", 0, v9a },
1981 { "fandnot1",   F3F(2, 0x36, 0x068), F3F(~2, ~0x36, ~0x068), "v,B,H", 0, v9a },
1982 { "fandnot1s",  F3F(2, 0x36, 0x069), F3F(~2, ~0x36, ~0x069), "e,f,g", 0, v9a },
1983 { "fandnot2",   F3F(2, 0x36, 0x064), F3F(~2, ~0x36, ~0x064), "v,B,H", 0, v9a },
1984 { "fandnot2s",  F3F(2, 0x36, 0x065), F3F(~2, ~0x36, ~0x065), "e,f,g", 0, v9a },
1985 
1986 { "fcmpgt16",   F3F(2, 0x36, 0x028), F3F(~2, ~0x36, ~0x028), "v,B,d", 0, v9a },
1987 { "fcmpgt32",   F3F(2, 0x36, 0x02c), F3F(~2, ~0x36, ~0x02c), "v,B,d", 0, v9a },
1988 { "fcmple16",   F3F(2, 0x36, 0x020), F3F(~2, ~0x36, ~0x020), "v,B,d", 0, v9a },
1989 { "fcmple32",   F3F(2, 0x36, 0x024), F3F(~2, ~0x36, ~0x024), "v,B,d", 0, v9a },
1990 { "fcmpne16",   F3F(2, 0x36, 0x022), F3F(~2, ~0x36, ~0x022), "v,B,d", 0, v9a },
1991 { "fcmpne32",   F3F(2, 0x36, 0x026), F3F(~2, ~0x36, ~0x026), "v,B,d", 0, v9a },
1992 { "fcmpeq16",   F3F(2, 0x36, 0x02a), F3F(~2, ~0x36, ~0x02a), "v,B,d", 0, v9a },
1993 { "fcmpeq32",   F3F(2, 0x36, 0x02e), F3F(~2, ~0x36, ~0x02e), "v,B,d", 0, v9a },
1994 
1995 { "edge8",      F3F(2, 0x36, 0x000), F3F(~2, ~0x36, ~0x000), "1,2,d", 0, v9a },
1996 { "edge8l",     F3F(2, 0x36, 0x002), F3F(~2, ~0x36, ~0x002), "1,2,d", 0, v9a },
1997 { "edge16",     F3F(2, 0x36, 0x004), F3F(~2, ~0x36, ~0x004), "1,2,d", 0, v9a },
1998 { "edge16l",    F3F(2, 0x36, 0x006), F3F(~2, ~0x36, ~0x006), "1,2,d", 0, v9a },
1999 { "edge32",     F3F(2, 0x36, 0x008), F3F(~2, ~0x36, ~0x008), "1,2,d", 0, v9a },
2000 { "edge32l",    F3F(2, 0x36, 0x00a), F3F(~2, ~0x36, ~0x00a), "1,2,d", 0, v9a },
2001 
2002 { "pdist",      F3F(2, 0x36, 0x03e), F3F(~2, ~0x36, ~0x03e), "v,B,H", 0, v9a },
2003 
2004 { "array8",     F3F(2, 0x36, 0x010), F3F(~2, ~0x36, ~0x010), "1,2,d", 0, v9a },
2005 { "array16",    F3F(2, 0x36, 0x012), F3F(~2, ~0x36, ~0x012), "1,2,d", 0, v9a },
2006 { "array32",    F3F(2, 0x36, 0x014), F3F(~2, ~0x36, ~0x014), "1,2,d", 0, v9a },
2007 
2008 /* Cheetah instructions */
2009 { "edge8n",    F3F(2, 0x36, 0x001), F3F(~2, ~0x36, ~0x001), "1,2,d", 0, v9b },
2010 { "edge8ln",   F3F(2, 0x36, 0x003), F3F(~2, ~0x36, ~0x003), "1,2,d", 0, v9b },
2011 { "edge16n",   F3F(2, 0x36, 0x005), F3F(~2, ~0x36, ~0x005), "1,2,d", 0, v9b },
2012 { "edge16ln",  F3F(2, 0x36, 0x007), F3F(~2, ~0x36, ~0x007), "1,2,d", 0, v9b },
2013 { "edge32n",   F3F(2, 0x36, 0x009), F3F(~2, ~0x36, ~0x009), "1,2,d", 0, v9b },
2014 { "edge32ln",  F3F(2, 0x36, 0x00b), F3F(~2, ~0x36, ~0x00b), "1,2,d", 0, v9b },
2015 
2016 { "bmask",     F3F(2, 0x36, 0x019), F3F(~2, ~0x36, ~0x019), "1,2,d", 0, v9b },
2017 { "bshuffle",  F3F(2, 0x36, 0x04c), F3F(~2, ~0x36, ~0x04c), "v,B,H", 0, v9b },
2018 
2019 { "siam",      F3F(2, 0x36, 0x081), F3F(~2, ~0x36, ~0x081)|RD_G0|RS1_G0|RS2(~7), "3", 0, v9b },
2020 
2021 /* More v9 specific insns, these need to come last so they do not clash
2022    with v9a instructions such as "edge8" which looks like impdep1. */
2023 
2024 #define IMPDEP(name, code) \
2025 { name, F3(2, code, 0), F3(~2, ~code, ~0)|ASI(~0), "1,2,d", 0, v9notv9a }, \
2026 { name, F3(2, code, 1), F3(~2, ~code, ~1),         "1,i,d", 0, v9notv9a }, \
2027 { name, F3(2, code, 0), F3(~2, ~code, ~0),         "x,1,2,d", 0, v9notv9a }, \
2028 { name, F3(2, code, 0), F3(~2, ~code, ~0),         "x,e,f,g", 0, v9notv9a }
2029 
2030 IMPDEP ("impdep1", 0x36),
2031 IMPDEP ("impdep2", 0x37),
2032 
2033 #undef IMPDEP
2034 
2035 { "addxc", F3F(2, 0x36, 0x011), F3F(~2, ~0x36, ~0x011), "1,2,d", 0, v9b },
2036 { "addxccc", F3F(2, 0x36, 0x013), F3F(~2, ~0x36, ~0x013), "1,2,d", 0, v9b },
2037 { "umulxhi", F3F(2, 0x36, 0x016), F3F(~2, ~0x36, ~0x016), "1,2,d", 0, v9b },
2038 
2039 };
2040 
2041 static const int sparc_num_opcodes = ((sizeof sparc_opcodes)/(sizeof sparc_opcodes[0]));
2042 
2043 /* Utilities for argument parsing.  */
2044 
2045 typedef struct
2046 {
2047   int value;
2048   const char *name;
2049 } arg;
2050 
2051 /* Look up VALUE in TABLE.  */
2052 
2053 static const char *
2054 lookup_value (const arg *table, int value)
2055 {
2056   const arg *p;
2057 
2058   for (p = table; p->name; ++p)
2059     if (value == p->value)
2060       return p->name;
2061 
2062   return NULL;
2063 }
2064 
2065 /* Handle ASI's.  */
2066 
2067 static const arg asi_table_v8[] =
2068 {
2069   { 0x00, "#ASI_M_RES00" },
2070   { 0x01, "#ASI_M_UNA01" },
2071   { 0x02, "#ASI_M_MXCC" },
2072   { 0x03, "#ASI_M_FLUSH_PROBE" },
2073   { 0x04, "#ASI_M_MMUREGS" },
2074   { 0x05, "#ASI_M_TLBDIAG" },
2075   { 0x06, "#ASI_M_DIAGS" },
2076   { 0x07, "#ASI_M_IODIAG" },
2077   { 0x08, "#ASI_M_USERTXT" },
2078   { 0x09, "#ASI_M_KERNELTXT" },
2079   { 0x0A, "#ASI_M_USERDATA" },
2080   { 0x0B, "#ASI_M_KERNELDATA" },
2081   { 0x0C, "#ASI_M_TXTC_TAG" },
2082   { 0x0D, "#ASI_M_TXTC_DATA" },
2083   { 0x0E, "#ASI_M_DATAC_TAG" },
2084   { 0x0F, "#ASI_M_DATAC_DATA" },
2085   { 0x10, "#ASI_M_FLUSH_PAGE" },
2086   { 0x11, "#ASI_M_FLUSH_SEG" },
2087   { 0x12, "#ASI_M_FLUSH_REGION" },
2088   { 0x13, "#ASI_M_FLUSH_CTX" },
2089   { 0x14, "#ASI_M_FLUSH_USER" },
2090   { 0x17, "#ASI_M_BCOPY" },
2091   { 0x18, "#ASI_M_IFLUSH_PAGE" },
2092   { 0x19, "#ASI_M_IFLUSH_SEG" },
2093   { 0x1A, "#ASI_M_IFLUSH_REGION" },
2094   { 0x1B, "#ASI_M_IFLUSH_CTX" },
2095   { 0x1C, "#ASI_M_IFLUSH_USER" },
2096   { 0x1F, "#ASI_M_BFILL" },
2097   { 0x20, "#ASI_M_BYPASS" },
2098   { 0x29, "#ASI_M_FBMEM" },
2099   { 0x2A, "#ASI_M_VMEUS" },
2100   { 0x2B, "#ASI_M_VMEPS" },
2101   { 0x2C, "#ASI_M_VMEUT" },
2102   { 0x2D, "#ASI_M_VMEPT" },
2103   { 0x2E, "#ASI_M_SBUS" },
2104   { 0x2F, "#ASI_M_CTL" },
2105   { 0x31, "#ASI_M_FLUSH_IWHOLE" },
2106   { 0x36, "#ASI_M_IC_FLCLEAR" },
2107   { 0x37, "#ASI_M_DC_FLCLEAR" },
2108   { 0x39, "#ASI_M_DCDR" },
2109   { 0x40, "#ASI_M_VIKING_TMP1" },
2110   { 0x41, "#ASI_M_VIKING_TMP2" },
2111   { 0x4c, "#ASI_M_ACTION" },
2112   { 0, NULL }
2113 };
2114 
2115 static const arg asi_table_v9[] =
2116 {
2117   /* These are in the v9 architecture manual.  */
2118   /* The shorter versions appear first, they're here because Sun's as has them.
2119      Sun's as uses #ASI_P_L instead of #ASI_PL (which appears in the
2120      UltraSPARC architecture manual).  */
2121   { 0x04, "#ASI_N" },
2122   { 0x0c, "#ASI_N_L" },
2123   { 0x10, "#ASI_AIUP" },
2124   { 0x11, "#ASI_AIUS" },
2125   { 0x18, "#ASI_AIUP_L" },
2126   { 0x19, "#ASI_AIUS_L" },
2127   { 0x80, "#ASI_P" },
2128   { 0x81, "#ASI_S" },
2129   { 0x82, "#ASI_PNF" },
2130   { 0x83, "#ASI_SNF" },
2131   { 0x88, "#ASI_P_L" },
2132   { 0x89, "#ASI_S_L" },
2133   { 0x8a, "#ASI_PNF_L" },
2134   { 0x8b, "#ASI_SNF_L" },
2135   { 0x04, "#ASI_NUCLEUS" },
2136   { 0x0c, "#ASI_NUCLEUS_LITTLE" },
2137   { 0x10, "#ASI_AS_IF_USER_PRIMARY" },
2138   { 0x11, "#ASI_AS_IF_USER_SECONDARY" },
2139   { 0x18, "#ASI_AS_IF_USER_PRIMARY_LITTLE" },
2140   { 0x19, "#ASI_AS_IF_USER_SECONDARY_LITTLE" },
2141   { 0x80, "#ASI_PRIMARY" },
2142   { 0x81, "#ASI_SECONDARY" },
2143   { 0x82, "#ASI_PRIMARY_NOFAULT" },
2144   { 0x83, "#ASI_SECONDARY_NOFAULT" },
2145   { 0x88, "#ASI_PRIMARY_LITTLE" },
2146   { 0x89, "#ASI_SECONDARY_LITTLE" },
2147   { 0x8a, "#ASI_PRIMARY_NOFAULT_LITTLE" },
2148   { 0x8b, "#ASI_SECONDARY_NOFAULT_LITTLE" },
2149   /* These are UltraSPARC extensions.  */
2150   { 0x14, "#ASI_PHYS_USE_EC"},
2151   { 0x15, "#ASI_PHYS_BYPASS_EC_WITH_EBIT"},
2152   { 0x45, "#ASI_LSU_CONTROL_REG"},
2153   { 0x47, "#ASI_DCACHE_TAG"},
2154   { 0x4a, "#ASI_UPA_CONFIG_REG"},
2155   { 0x50, "#ASI_IMMU" },
2156   { 0x51, "#ASI_IMMU_TSB_8KB_PTR_REG" },
2157   { 0x52, "#ASI_IMMU_TSB_64KB_PTR_REG" },
2158   /*{ 0x53, "#reserved?" },*/
2159   { 0x54, "#ASI_ITLB_DATA_IN_REG" },
2160   { 0x55, "#ASI_ITLB_DATA_ACCESS_REG" },
2161   { 0x56, "#ASI_ITLB_TAG_READ_REG" },
2162   { 0x57, "#ASI_IMMU_DEMAP" },
2163   { 0x58, "#ASI_DMMU" },
2164   { 0x59, "#ASI_DMMU_TSB_8KB_PTR_REG" },
2165   { 0x5a, "#ASI_DMMU_TSB_64KB_PTR_REG" },
2166   { 0x5b, "#ASI_DMMU_TSB_DIRECT_PTR_REG" },
2167   { 0x5c, "#ASI_DTLB_DATA_IN_REG" },
2168   { 0x5d, "#ASI_DTLB_DATA_ACCESS_REG" },
2169   { 0x5e, "#ASI_DTLB_TAG_READ_REG" },
2170   { 0x5f, "#ASI_DMMU_DEMAP" },
2171   { 0x67, "#ASI_IC_TAG"},
2172   /* FIXME: There are dozens of them.  Not sure we want them all.
2173      Most are for kernel building but some are for vis type stuff.  */
2174   { 0, NULL }
2175 };
2176 
2177 /* Return the name for ASI value VALUE or NULL if not found.  */
2178 
2179 static const char *
2180 sparc_decode_asi_v9 (int value)
2181 {
2182   return lookup_value (asi_table_v9, value);
2183 }
2184 
2185 static const char *
2186 sparc_decode_asi_v8 (int value)
2187 {
2188   return lookup_value (asi_table_v8, value);
2189 }
2190 
2191 /* Handle membar masks.  */
2192 
2193 static const arg membar_table[] =
2194 {
2195   { 0x40, "#Sync" },
2196   { 0x20, "#MemIssue" },
2197   { 0x10, "#Lookaside" },
2198   { 0x08, "#StoreStore" },
2199   { 0x04, "#LoadStore" },
2200   { 0x02, "#StoreLoad" },
2201   { 0x01, "#LoadLoad" },
2202   { 0, NULL }
2203 };
2204 
2205 /* Return the name for membar value VALUE or NULL if not found.  */
2206 
2207 static const char *
2208 sparc_decode_membar (int value)
2209 {
2210   return lookup_value (membar_table, value);
2211 }
2212 
2213 /* Handle prefetch args.  */
2214 
2215 static const arg prefetch_table[] =
2216 {
2217   { 0, "#n_reads" },
2218   { 1, "#one_read" },
2219   { 2, "#n_writes" },
2220   { 3, "#one_write" },
2221   { 4, "#page" },
2222   { 16, "#invalidate" },
2223   { 0, NULL }
2224 };
2225 
2226 /* Return the name for prefetch value VALUE or NULL if not found.  */
2227 
2228 static const char *
2229 sparc_decode_prefetch (int value)
2230 {
2231   return lookup_value (prefetch_table, value);
2232 }
2233 
2234 /* Handle sparclet coprocessor registers.  */
2235 
2236 static const arg sparclet_cpreg_table[] =
2237 {
2238   { 0, "%ccsr" },
2239   { 1, "%ccfr" },
2240   { 2, "%cccrcr" },
2241   { 3, "%ccpr" },
2242   { 4, "%ccsr2" },
2243   { 5, "%cccrr" },
2244   { 6, "%ccrstr" },
2245   { 0, NULL }
2246 };
2247 
2248 /* Return the name for sparclet cpreg value VALUE or NULL if not found.  */
2249 
2250 static const char *
2251 sparc_decode_sparclet_cpreg (int value)
2252 {
2253   return lookup_value (sparclet_cpreg_table, value);
2254 }
2255 
2256 #undef MASK_V9
2257 
2258 /* opcodes/sparc-dis.c */
2259 
2260 /* Print SPARC instructions.
2261    Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
2262    2000, 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
2263 
2264    This program is free software; you can redistribute it and/or modify
2265    it under the terms of the GNU General Public License as published by
2266    the Free Software Foundation; either version 2 of the License, or
2267    (at your option) any later version.
2268 
2269    This program is distributed in the hope that it will be useful,
2270    but WITHOUT ANY WARRANTY; without even the implied warranty of
2271    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
2272    GNU General Public License for more details.
2273 
2274    You should have received a copy of the GNU General Public License
2275    along with this program; if not, see <http://www.gnu.org/licenses/>.  */
2276 
2277 /* Bitmask of v9 architectures.  */
2278 #define MASK_V9 ((1 << SPARC_OPCODE_ARCH_V9) \
2279                  | (1 << SPARC_OPCODE_ARCH_V9A) \
2280                  | (1 << SPARC_OPCODE_ARCH_V9B))
2281 /* 1 if INSN is for v9 only.  */
2282 #define V9_ONLY_P(insn) (! ((insn)->architecture & ~MASK_V9))
2283 /* 1 if INSN is for v9.  */
2284 #define V9_P(insn) (((insn)->architecture & MASK_V9) != 0)
2285 
2286 /* The sorted opcode table.  */
2287 static const sparc_opcode **sorted_opcodes;
2288 
2289 /* For faster lookup, after insns are sorted they are hashed.  */
2290 /* ??? I think there is room for even more improvement.  */
2291 
2292 #define HASH_SIZE 256
2293 /* It is important that we only look at insn code bits as that is how the
2294    opcode table is hashed.  OPCODE_BITS is a table of valid bits for each
2295    of the main types (0,1,2,3).  */
2296 static const int opcode_bits[4] = { 0x01c00000, 0x0, 0x01f80000, 0x01f80000 };
2297 #define HASH_INSN(INSN) \
2298   ((((INSN) >> 24) & 0xc0) | (((INSN) & opcode_bits[((INSN) >> 30) & 3]) >> 19))
2299 typedef struct sparc_opcode_hash
2300 {
2301   struct sparc_opcode_hash *next;
2302   const sparc_opcode *opcode;
2303 } sparc_opcode_hash;
2304 
2305 static sparc_opcode_hash *opcode_hash_table[HASH_SIZE];
2306 
2307 /* Sign-extend a value which is N bits long.  */
2308 #define SEX(value, bits) \
2309         ((((int)(value)) << ((8 * sizeof (int)) - bits))        \
2310                          >> ((8 * sizeof (int)) - bits) )
2311 
2312 static const char * const reg_names[] =
2313 { "g0", "g1", "g2", "g3", "g4", "g5", "g6", "g7",
2314   "o0", "o1", "o2", "o3", "o4", "o5", "sp", "o7",
2315   "l0", "l1", "l2", "l3", "l4", "l5", "l6", "l7",
2316   "i0", "i1", "i2", "i3", "i4", "i5", "fp", "i7",
2317   "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7",
2318   "f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15",
2319   "f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",
2320   "f24", "f25", "f26", "f27", "f28", "f29", "f30", "f31",
2321   "f32", "f33", "f34", "f35", "f36", "f37", "f38", "f39",
2322   "f40", "f41", "f42", "f43", "f44", "f45", "f46", "f47",
2323   "f48", "f49", "f50", "f51", "f52", "f53", "f54", "f55",
2324   "f56", "f57", "f58", "f59", "f60", "f61", "f62", "f63",
2325 /* psr, wim, tbr, fpsr, cpsr are v8 only.  */
2326   "y", "psr", "wim", "tbr", "pc", "npc", "fpsr", "cpsr"
2327 };
2328 
2329 #define freg_names      (&reg_names[4 * 8])
2330 
2331 /* These are ordered according to there register number in
2332    rdpr and wrpr insns.  */
2333 static const char * const v9_priv_reg_names[] =
2334 {
2335   "tpc", "tnpc", "tstate", "tt", "tick", "tba", "pstate", "tl",
2336   "pil", "cwp", "cansave", "canrestore", "cleanwin", "otherwin",
2337   "wstate", "fq", "gl"
2338   /* "ver" - special cased */
2339 };
2340 
2341 /* These are ordered according to there register number in
2342    rdhpr and wrhpr insns.  */
2343 static const char * const v9_hpriv_reg_names[] =
2344 {
2345   "hpstate", "htstate", "resv2", "hintp", "resv4", "htba", "hver",
2346   "resv7", "resv8", "resv9", "resv10", "resv11", "resv12", "resv13",
2347   "resv14", "resv15", "resv16", "resv17", "resv18", "resv19", "resv20",
2348   "resv21", "resv22", "resv23", "resv24", "resv25", "resv26", "resv27",
2349   "resv28", "resv29", "resv30", "hstick_cmpr"
2350 };
2351 
2352 /* These are ordered according to there register number in
2353    rd and wr insns (-16).  */
2354 static const char * const v9a_asr_reg_names[] =
2355 {
2356   "pcr", "pic", "dcr", "gsr", "set_softint", "clear_softint",
2357   "softint", "tick_cmpr", "sys_tick", "sys_tick_cmpr"
2358 };
2359 
2360 /* Macros used to extract instruction fields.  Not all fields have
2361    macros defined here, only those which are actually used.  */
2362 
2363 #define X_RD(i)      (((i) >> 25) & 0x1f)
2364 #define X_RS1(i)     (((i) >> 14) & 0x1f)
2365 #define X_LDST_I(i)  (((i) >> 13) & 1)
2366 #define X_ASI(i)     (((i) >> 5) & 0xff)
2367 #define X_RS2(i)     (((i) >> 0) & 0x1f)
2368 #define X_IMM(i,n)   (((i) >> 0) & ((1 << (n)) - 1))
2369 #define X_SIMM(i,n)  SEX (X_IMM ((i), (n)), (n))
2370 #define X_DISP22(i)  (((i) >> 0) & 0x3fffff)
2371 #define X_IMM22(i)   X_DISP22 (i)
2372 #define X_DISP30(i)  (((i) >> 0) & 0x3fffffff)
2373 
2374 /* These are for v9.  */
2375 #define X_DISP16(i)  (((((i) >> 20) & 3) << 14) | (((i) >> 0) & 0x3fff))
2376 #define X_DISP19(i)  (((i) >> 0) & 0x7ffff)
2377 #define X_MEMBAR(i)  ((i) & 0x7f)
2378 
2379 /* Here is the union which was used to extract instruction fields
2380    before the shift and mask macros were written.
2381 
2382    union sparc_insn
2383      {
2384        unsigned long int code;
2385        struct
2386          {
2387            unsigned int anop:2;
2388            #define      op      ldst.anop
2389            unsigned int anrd:5;
2390            #define      rd      ldst.anrd
2391            unsigned int op3:6;
2392            unsigned int anrs1:5;
2393            #define      rs1     ldst.anrs1
2394            unsigned int i:1;
2395            unsigned int anasi:8;
2396            #define      asi     ldst.anasi
2397            unsigned int anrs2:5;
2398            #define      rs2     ldst.anrs2
2399            #define      shcnt   rs2
2400          } ldst;
2401        struct
2402          {
2403            unsigned int anop:2, anrd:5, op3:6, anrs1:5, i:1;
2404            unsigned int IMM13:13;
2405            #define      imm13   IMM13.IMM13
2406          } IMM13;
2407        struct
2408          {
2409            unsigned int anop:2;
2410            unsigned int a:1;
2411            unsigned int cond:4;
2412            unsigned int op2:3;
2413            unsigned int DISP22:22;
2414            #define      disp22  branch.DISP22
2415            #define      imm22   disp22
2416          } branch;
2417        struct
2418          {
2419            unsigned int anop:2;
2420            unsigned int a:1;
2421            unsigned int z:1;
2422            unsigned int rcond:3;
2423            unsigned int op2:3;
2424            unsigned int DISP16HI:2;
2425            unsigned int p:1;
2426            unsigned int _rs1:5;
2427            unsigned int DISP16LO:14;
2428          } branch16;
2429        struct
2430          {
2431            unsigned int anop:2;
2432            unsigned int adisp30:30;
2433            #define      disp30  call.adisp30
2434          } call;
2435      };  */
2436 
2437 /* Nonzero if INSN is the opcode for a delayed branch.  */
2438 
2439 static int
2440 is_delayed_branch (unsigned long insn)
2441 {
2442   sparc_opcode_hash *op;
2443 
2444   for (op = opcode_hash_table[HASH_INSN (insn)]; op; op = op->next)
2445     {
2446       const sparc_opcode *opcode = op->opcode;
2447 
2448       if ((opcode->match & insn) == opcode->match
2449           && (opcode->lose & insn) == 0)
2450         return opcode->flags & F_DELAYED;
2451     }
2452   return 0;
2453 }
2454 
2455 /* extern void qsort (); */
2456 
2457 /* Records current mask of SPARC_OPCODE_ARCH_FOO values, used to pass value
2458    to compare_opcodes.  */
2459 static unsigned int current_arch_mask;
2460 
2461 /* Given BFD mach number, return a mask of SPARC_OPCODE_ARCH_FOO values.  */
2462 
2463 static int
2464 compute_arch_mask (unsigned long mach)
2465 {
2466   switch (mach)
2467     {
2468     case 0 :
2469     case bfd_mach_sparc :
2470       return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V8);
2471     case bfd_mach_sparc_sparclet :
2472       return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_SPARCLET);
2473     case bfd_mach_sparc_sparclite :
2474     case bfd_mach_sparc_sparclite_le :
2475       /* sparclites insns are recognized by default (because that's how
2476          they've always been treated, for better or worse).  Kludge this by
2477          indicating generic v8 is also selected.  */
2478       return (SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_SPARCLITE)
2479               | SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V8));
2480     case bfd_mach_sparc_v8plus :
2481     case bfd_mach_sparc_v9 :
2482       return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9);
2483     case bfd_mach_sparc_v8plusa :
2484     case bfd_mach_sparc_v9a :
2485       return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9A);
2486     case bfd_mach_sparc_v8plusb :
2487     case bfd_mach_sparc_v9b :
2488       return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9B);
2489     }
2490   abort ();
2491 }
2492 
2493 /* Compare opcodes A and B.  */
2494 
2495 static int
2496 compare_opcodes (const void * a, const void * b)
2497 {
2498   sparc_opcode *op0 = * (sparc_opcode **) a;
2499   sparc_opcode *op1 = * (sparc_opcode **) b;
2500   unsigned long int match0 = op0->match, match1 = op1->match;
2501   unsigned long int lose0 = op0->lose, lose1 = op1->lose;
2502   register unsigned int i;
2503 
2504   /* If one (and only one) insn isn't supported by the current architecture,
2505      prefer the one that is.  If neither are supported, but they're both for
2506      the same architecture, continue processing.  Otherwise (both unsupported
2507      and for different architectures), prefer lower numbered arch's (fudged
2508      by comparing the bitmasks).  */
2509   if (op0->architecture & current_arch_mask)
2510     {
2511       if (! (op1->architecture & current_arch_mask))
2512         return -1;
2513     }
2514   else
2515     {
2516       if (op1->architecture & current_arch_mask)
2517         return 1;
2518       else if (op0->architecture != op1->architecture)
2519         return op0->architecture - op1->architecture;
2520     }
2521 
2522   /* If a bit is set in both match and lose, there is something
2523      wrong with the opcode table.  */
2524   if (match0 & lose0)
2525     {
2526       fprintf
2527         (stderr,
2528          /* xgettext:c-format */
2529          _("Internal error:  bad sparc-opcode.h: \"%s\", %#.8lx, %#.8lx\n"),
2530          op0->name, match0, lose0);
2531       op0->lose &= ~op0->match;
2532       lose0 = op0->lose;
2533     }
2534 
2535   if (match1 & lose1)
2536     {
2537       fprintf
2538         (stderr,
2539          /* xgettext:c-format */
2540          _("Internal error: bad sparc-opcode.h: \"%s\", %#.8lx, %#.8lx\n"),
2541          op1->name, match1, lose1);
2542       op1->lose &= ~op1->match;
2543       lose1 = op1->lose;
2544     }
2545 
2546   /* Because the bits that are variable in one opcode are constant in
2547      another, it is important to order the opcodes in the right order.  */
2548   for (i = 0; i < 32; ++i)
2549     {
2550       unsigned long int x = 1 << i;
2551       int x0 = (match0 & x) != 0;
2552       int x1 = (match1 & x) != 0;
2553 
2554       if (x0 != x1)
2555         return x1 - x0;
2556     }
2557 
2558   for (i = 0; i < 32; ++i)
2559     {
2560       unsigned long int x = 1 << i;
2561       int x0 = (lose0 & x) != 0;
2562       int x1 = (lose1 & x) != 0;
2563 
2564       if (x0 != x1)
2565         return x1 - x0;
2566     }
2567 
2568   /* They are functionally equal.  So as long as the opcode table is
2569      valid, we can put whichever one first we want, on aesthetic grounds.  */
2570 
2571   /* Our first aesthetic ground is that aliases defer to real insns.  */
2572   {
2573     int alias_diff = (op0->flags & F_ALIAS) - (op1->flags & F_ALIAS);
2574 
2575     if (alias_diff != 0)
2576       /* Put the one that isn't an alias first.  */
2577       return alias_diff;
2578   }
2579 
2580   /* Except for aliases, two "identical" instructions had
2581      better have the same opcode.  This is a sanity check on the table.  */
2582   i = strcmp (op0->name, op1->name);
2583   if (i)
2584     {
2585       if (op0->flags & F_ALIAS) /* If they're both aliases, be arbitrary.  */
2586         return i;
2587       else
2588         fprintf (stderr,
2589                  /* xgettext:c-format */
2590                  _("Internal error: bad sparc-opcode.h: \"%s\" == \"%s\"\n"),
2591                  op0->name, op1->name);
2592     }
2593 
2594   /* Fewer arguments are preferred.  */
2595   {
2596     int length_diff = strlen (op0->args) - strlen (op1->args);
2597 
2598     if (length_diff != 0)
2599       /* Put the one with fewer arguments first.  */
2600       return length_diff;
2601   }
2602 
2603   /* Put 1+i before i+1.  */
2604   {
2605     char *p0 = (char *) strchr (op0->args, '+');
2606     char *p1 = (char *) strchr (op1->args, '+');
2607 
2608     if (p0 && p1)
2609       {
2610         /* There is a plus in both operands.  Note that a plus
2611            sign cannot be the first character in args,
2612            so the following [-1]'s are valid.  */
2613         if (p0[-1] == 'i' && p1[1] == 'i')
2614           /* op0 is i+1 and op1 is 1+i, so op1 goes first.  */
2615           return 1;
2616         if (p0[1] == 'i' && p1[-1] == 'i')
2617           /* op0 is 1+i and op1 is i+1, so op0 goes first.  */
2618           return -1;
2619       }
2620   }
2621 
2622   /* Put 1,i before i,1.  */
2623   {
2624     int i0 = strncmp (op0->args, "i,1", 3) == 0;
2625     int i1 = strncmp (op1->args, "i,1", 3) == 0;
2626 
2627     if (i0 ^ i1)
2628       return i0 - i1;
2629   }
2630 
2631   /* They are, as far as we can tell, identical.
2632      Since qsort may have rearranged the table partially, there is
2633      no way to tell which one was first in the opcode table as
2634      written, so just say there are equal.  */
2635   /* ??? This is no longer true now that we sort a vector of pointers,
2636      not the table itself.  */
2637   return 0;
2638 }
2639 
2640 /* Build a hash table from the opcode table.
2641    OPCODE_TABLE is a sorted list of pointers into the opcode table.  */
2642 
2643 static void
2644 build_hash_table (const sparc_opcode **opcode_table,
2645                   sparc_opcode_hash **hash_table,
2646                   int num_opcodes)
2647 {
2648   int i;
2649   int hash_count[HASH_SIZE];
2650   static sparc_opcode_hash *hash_buf = NULL;
2651 
2652   /* Start at the end of the table and work backwards so that each
2653      chain is sorted.  */
2654 
2655   memset (hash_table, 0, HASH_SIZE * sizeof (hash_table[0]));
2656   memset (hash_count, 0, HASH_SIZE * sizeof (hash_count[0]));
2657   if (hash_buf != NULL)
2658     free (hash_buf);
2659   hash_buf = malloc (sizeof (* hash_buf) * num_opcodes);
2660   for (i = num_opcodes - 1; i >= 0; --i)
2661     {
2662       int hash = HASH_INSN (opcode_table[i]->match);
2663       sparc_opcode_hash *h = &hash_buf[i];
2664 
2665       h->next = hash_table[hash];
2666       h->opcode = opcode_table[i];
2667       hash_table[hash] = h;
2668       ++hash_count[hash];
2669     }
2670 
2671 #if 0 /* for debugging */
2672   {
2673     int min_count = num_opcodes, max_count = 0;
2674     int total;
2675 
2676     for (i = 0; i < HASH_SIZE; ++i)
2677       {
2678         if (hash_count[i] < min_count)
2679           min_count = hash_count[i];
2680         if (hash_count[i] > max_count)
2681           max_count = hash_count[i];
2682         total += hash_count[i];
2683       }
2684 
2685     printf ("Opcode hash table stats: min %d, max %d, ave %f\n",
2686             min_count, max_count, (double) total / HASH_SIZE);
2687   }
2688 #endif
2689 }
2690 
2691 /* Print one instruction from MEMADDR on INFO->STREAM.
2692 
2693    We suffix the instruction with a comment that gives the absolute
2694    address involved, as well as its symbolic form, if the instruction
2695    is preceded by a findable `sethi' and it either adds an immediate
2696    displacement to that register, or it is an `add' or `or' instruction
2697    on that register.  */
2698 
2699 int
2700 print_insn_sparc (bfd_vma memaddr, disassemble_info *info)
2701 {
2702   FILE *stream = info->stream;
2703   bfd_byte buffer[4];
2704   unsigned long insn;
2705   sparc_opcode_hash *op;
2706   /* Nonzero of opcode table has been initialized.  */
2707   static int opcodes_initialized = 0;
2708   /* bfd mach number of last call.  */
2709   static unsigned long current_mach = 0;
2710   bfd_vma (*getword) (const unsigned char *);
2711 
2712   if (!opcodes_initialized
2713       || info->mach != current_mach)
2714     {
2715       int i;
2716 
2717       current_arch_mask = compute_arch_mask (info->mach);
2718 
2719       if (!opcodes_initialized)
2720         sorted_opcodes =
2721           malloc (sparc_num_opcodes * sizeof (sparc_opcode *));
2722       /* Reset the sorted table so we can resort it.  */
2723       for (i = 0; i < sparc_num_opcodes; ++i)
2724         sorted_opcodes[i] = &sparc_opcodes[i];
2725       qsort ((char *) sorted_opcodes, sparc_num_opcodes,
2726              sizeof (sorted_opcodes[0]), compare_opcodes);
2727 
2728       build_hash_table (sorted_opcodes, opcode_hash_table, sparc_num_opcodes);
2729       current_mach = info->mach;
2730       opcodes_initialized = 1;
2731     }
2732 
2733   {
2734     int status =
2735       (*info->read_memory_func) (memaddr, buffer, sizeof (buffer), info);
2736 
2737     if (status != 0)
2738       {
2739         (*info->memory_error_func) (status, memaddr, info);
2740         return -1;
2741       }
2742   }
2743 
2744   /* On SPARClite variants such as DANlite (sparc86x), instructions
2745      are always big-endian even when the machine is in little-endian mode.  */
2746   if (info->endian == BFD_ENDIAN_BIG || info->mach == bfd_mach_sparc_sparclite)
2747     getword = bfd_getb32;
2748   else
2749     getword = bfd_getl32;
2750 
2751   insn = getword (buffer);
2752 
2753   info->insn_info_valid = 1;                    /* We do return this info.  */
2754   info->insn_type = dis_nonbranch;              /* Assume non branch insn.  */
2755   info->branch_delay_insns = 0;                 /* Assume no delay.  */
2756   info->target = 0;                             /* Assume no target known.  */
2757 
2758   for (op = opcode_hash_table[HASH_INSN (insn)]; op; op = op->next)
2759     {
2760       const sparc_opcode *opcode = op->opcode;
2761 
2762       /* If the insn isn't supported by the current architecture, skip it.  */
2763       if (! (opcode->architecture & current_arch_mask))
2764         continue;
2765 
2766       if ((opcode->match & insn) == opcode->match
2767           && (opcode->lose & insn) == 0)
2768         {
2769           /* Nonzero means that we have found an instruction which has
2770              the effect of adding or or'ing the imm13 field to rs1.  */
2771           int imm_added_to_rs1 = 0;
2772           int imm_ored_to_rs1 = 0;
2773 
2774           /* Nonzero means that we have found a plus sign in the args
2775              field of the opcode table.  */
2776           int found_plus = 0;
2777 
2778           /* Nonzero means we have an annulled branch.  */
2779           /* int is_annulled = 0; */ /* see FIXME below */
2780 
2781           /* Do we have an `add' or `or' instruction combining an
2782              immediate with rs1?  */
2783           if (opcode->match == 0x80102000) /* or */
2784             imm_ored_to_rs1 = 1;
2785           if (opcode->match == 0x80002000) /* add */
2786             imm_added_to_rs1 = 1;
2787 
2788           if (X_RS1 (insn) != X_RD (insn)
2789               && strchr (opcode->args, 'r') != NULL)
2790               /* Can't do simple format if source and dest are different.  */
2791               continue;
2792           if (X_RS2 (insn) != X_RD (insn)
2793               && strchr (opcode->args, 'O') != NULL)
2794               /* Can't do simple format if source and dest are different.  */
2795               continue;
2796 
2797           (*info->fprintf_func) (stream, "%s", opcode->name);
2798 
2799           {
2800             const char *s;
2801 
2802             if (opcode->args[0] != ',')
2803               (*info->fprintf_func) (stream, " ");
2804 
2805             for (s = opcode->args; *s != '\0'; ++s)
2806               {
2807                 while (*s == ',')
2808                   {
2809                     (*info->fprintf_func) (stream, ",");
2810                     ++s;
2811                     switch (*s)
2812                       {
2813                       case 'a':
2814                         (*info->fprintf_func) (stream, "a");
2815                         /* is_annulled = 1; */ /* see FIXME below */
2816                         ++s;
2817                         continue;
2818                       case 'N':
2819                         (*info->fprintf_func) (stream, "pn");
2820                         ++s;
2821                         continue;
2822 
2823                       case 'T':
2824                         (*info->fprintf_func) (stream, "pt");
2825                         ++s;
2826                         continue;
2827 
2828                       default:
2829                         break;
2830                       }
2831                   }
2832 
2833                 (*info->fprintf_func) (stream, " ");
2834 
2835                 switch (*s)
2836                   {
2837                   case '+':
2838                     found_plus = 1;
2839                     /* Fall through.  */
2840 
2841                   default:
2842                     (*info->fprintf_func) (stream, "%c", *s);
2843                     break;
2844 
2845                   case '#':
2846                     (*info->fprintf_func) (stream, "0");
2847                     break;
2848 
2849 #define reg(n)  (*info->fprintf_func) (stream, "%%%s", reg_names[n])
2850                   case '1':
2851                   case 'r':
2852                     reg (X_RS1 (insn));
2853                     break;
2854 
2855                   case '2':
2856                   case 'O':
2857                     reg (X_RS2 (insn));
2858                     break;
2859 
2860                   case 'd':
2861                     reg (X_RD (insn));
2862                     break;
2863 #undef  reg
2864 
2865 #define freg(n)         (*info->fprintf_func) (stream, "%%%s", freg_names[n])
2866 #define fregx(n)        (*info->fprintf_func) (stream, "%%%s", freg_names[((n) & ~1) | (((n) & 1) << 5)])
2867                   case 'e':
2868                     freg (X_RS1 (insn));
2869                     break;
2870                   case 'v':     /* Double/even.  */
2871                   case 'V':     /* Quad/multiple of 4.  */
2872                     fregx (X_RS1 (insn));
2873                     break;
2874 
2875                   case 'f':
2876                     freg (X_RS2 (insn));
2877                     break;
2878                   case 'B':     /* Double/even.  */
2879                   case 'R':     /* Quad/multiple of 4.  */
2880                     fregx (X_RS2 (insn));
2881                     break;
2882 
2883                   case 'g':
2884                     freg (X_RD (insn));
2885                     break;
2886                   case 'H':     /* Double/even.  */
2887                   case 'J':     /* Quad/multiple of 4.  */
2888                     fregx (X_RD (insn));
2889                     break;
2890 #undef  freg
2891 #undef  fregx
2892 
2893 #define creg(n) (*info->fprintf_func) (stream, "%%c%u", (unsigned int) (n))
2894                   case 'b':
2895                     creg (X_RS1 (insn));
2896                     break;
2897 
2898                   case 'c':
2899                     creg (X_RS2 (insn));
2900                     break;
2901 
2902                   case 'D':
2903                     creg (X_RD (insn));
2904                     break;
2905 #undef  creg
2906 
2907                   case 'h':
2908                     (*info->fprintf_func) (stream, "%%hi(%#x)",
2909                                            ((unsigned) 0xFFFFFFFF
2910                                             & ((int) X_IMM22 (insn) << 10)));
2911                     break;
2912 
2913                   case 'i':     /* 13 bit immediate.  */
2914                   case 'I':     /* 11 bit immediate.  */
2915                   case 'j':     /* 10 bit immediate.  */
2916                     {
2917                       int imm;
2918 
2919                       if (*s == 'i')
2920                         imm = X_SIMM (insn, 13);
2921                       else if (*s == 'I')
2922                         imm = X_SIMM (insn, 11);
2923                       else
2924                         imm = X_SIMM (insn, 10);
2925 
2926                       /* Check to see whether we have a 1+i, and take
2927                          note of that fact.
2928 
2929                          Note: because of the way we sort the table,
2930                          we will be matching 1+i rather than i+1,
2931                          so it is OK to assume that i is after +,
2932                          not before it.  */
2933                       if (found_plus)
2934                         imm_added_to_rs1 = 1;
2935 
2936                       if (imm <= 9)
2937                         (*info->fprintf_func) (stream, "%d", imm);
2938                       else
2939                         (*info->fprintf_func) (stream, "%#x", imm);
2940                     }
2941                     break;
2942 
2943                   case 'X':     /* 5 bit unsigned immediate.  */
2944                   case 'Y':     /* 6 bit unsigned immediate.  */
2945                     {
2946                       int imm = X_IMM (insn, *s == 'X' ? 5 : 6);
2947 
2948                       if (imm <= 9)
2949                         (info->fprintf_func) (stream, "%d", imm);
2950                       else
2951                         (info->fprintf_func) (stream, "%#x", (unsigned) imm);
2952                     }
2953                     break;
2954 
2955                   case '3':
2956                     (info->fprintf_func) (stream, "%ld", X_IMM (insn, 3));
2957                     break;
2958 
2959                   case 'K':
2960                     {
2961                       int mask = X_MEMBAR (insn);
2962                       int bit = 0x40, printed_one = 0;
2963                       const char *name;
2964 
2965                       if (mask == 0)
2966                         (info->fprintf_func) (stream, "0");
2967                       else
2968                         while (bit)
2969                           {
2970                             if (mask & bit)
2971                               {
2972                                 if (printed_one)
2973                                   (info->fprintf_func) (stream, "|");
2974                                 name = sparc_decode_membar (bit);
2975                                 (info->fprintf_func) (stream, "%s", name);
2976                                 printed_one = 1;
2977                               }
2978                             bit >>= 1;
2979                           }
2980                       break;
2981                     }
2982 
2983                   case 'k':
2984                     info->target = memaddr + SEX (X_DISP16 (insn), 16) * 4;
2985                     (*info->print_address_func) (info->target, info);
2986                     break;
2987 
2988                   case 'G':
2989                     info->target = memaddr + SEX (X_DISP19 (insn), 19) * 4;
2990                     (*info->print_address_func) (info->target, info);
2991                     break;
2992 
2993                   case '6':
2994                   case '7':
2995                   case '8':
2996                   case '9':
2997                     (*info->fprintf_func) (stream, "%%fcc%c", *s - '6' + '0');
2998                     break;
2999 
3000                   case 'z':
3001                     (*info->fprintf_func) (stream, "%%icc");
3002                     break;
3003 
3004                   case 'Z':
3005                     (*info->fprintf_func) (stream, "%%xcc");
3006                     break;
3007 
3008                   case 'E':
3009                     (*info->fprintf_func) (stream, "%%ccr");
3010                     break;
3011 
3012                   case 's':
3013                     (*info->fprintf_func) (stream, "%%fprs");
3014                     break;
3015 
3016                   case 'o':
3017                     (*info->fprintf_func) (stream, "%%asi");
3018                     break;
3019 
3020                   case 'W':
3021                     (*info->fprintf_func) (stream, "%%tick");
3022                     break;
3023 
3024                   case 'P':
3025                     (*info->fprintf_func) (stream, "%%pc");
3026                     break;
3027 
3028                   case '?':
3029                     if (X_RS1 (insn) == 31)
3030                       (*info->fprintf_func) (stream, "%%ver");
3031                     else if ((unsigned) X_RS1 (insn) < 17)
3032                       (*info->fprintf_func) (stream, "%%%s",
3033                                              v9_priv_reg_names[X_RS1 (insn)]);
3034                     else
3035                       (*info->fprintf_func) (stream, "%%reserved");
3036                     break;
3037 
3038                   case '!':
3039                     if ((unsigned) X_RD (insn) < 17)
3040                       (*info->fprintf_func) (stream, "%%%s",
3041                                              v9_priv_reg_names[X_RD (insn)]);
3042                     else
3043                       (*info->fprintf_func) (stream, "%%reserved");
3044                     break;
3045 
3046                   case '$':
3047                     if ((unsigned) X_RS1 (insn) < 32)
3048                       (*info->fprintf_func) (stream, "%%%s",
3049                                              v9_hpriv_reg_names[X_RS1 (insn)]);
3050                     else
3051                       (*info->fprintf_func) (stream, "%%reserved");
3052                     break;
3053 
3054                   case '%':
3055                     if ((unsigned) X_RD (insn) < 32)
3056                       (*info->fprintf_func) (stream, "%%%s",
3057                                              v9_hpriv_reg_names[X_RD (insn)]);
3058                     else
3059                       (*info->fprintf_func) (stream, "%%reserved");
3060                     break;
3061 
3062                   case '/':
3063                     if (X_RS1 (insn) < 16 || X_RS1 (insn) > 25)
3064                       (*info->fprintf_func) (stream, "%%reserved");
3065                     else
3066                       (*info->fprintf_func) (stream, "%%%s",
3067                                              v9a_asr_reg_names[X_RS1 (insn)-16]);
3068                     break;
3069 
3070                   case '_':
3071                     if (X_RD (insn) < 16 || X_RD (insn) > 25)
3072                       (*info->fprintf_func) (stream, "%%reserved");
3073                     else
3074                       (*info->fprintf_func) (stream, "%%%s",
3075                                              v9a_asr_reg_names[X_RD (insn)-16]);
3076                     break;
3077 
3078                   case '*':
3079                     {
3080                       const char *name = sparc_decode_prefetch (X_RD (insn));
3081 
3082                       if (name)
3083                         (*info->fprintf_func) (stream, "%s", name);
3084                       else
3085                         (*info->fprintf_func) (stream, "%ld", X_RD (insn));
3086                       break;
3087                     }
3088 
3089                   case 'M':
3090                     (*info->fprintf_func) (stream, "%%asr%ld", X_RS1 (insn));
3091                     break;
3092 
3093                   case 'm':
3094                     (*info->fprintf_func) (stream, "%%asr%ld", X_RD (insn));
3095                     break;
3096 
3097                   case 'L':
3098                     info->target = memaddr + SEX (X_DISP30 (insn), 30) * 4;
3099                     (*info->print_address_func) (info->target, info);
3100                     break;
3101 
3102                   case 'n':
3103                     (*info->fprintf_func)
3104                       (stream, "%#x", SEX (X_DISP22 (insn), 22));
3105                     break;
3106 
3107                   case 'l':
3108                     info->target = memaddr + SEX (X_DISP22 (insn), 22) * 4;
3109                     (*info->print_address_func) (info->target, info);
3110                     break;
3111 
3112                   case 'A':
3113                     {
3114                       const char *name;
3115 
3116                       if ((info->mach == bfd_mach_sparc_v8plusa) ||
3117                           ((info->mach >= bfd_mach_sparc_v9) &&
3118                            (info->mach <= bfd_mach_sparc_v9b)))
3119                         name = sparc_decode_asi_v9 (X_ASI (insn));
3120                       else
3121                         name = sparc_decode_asi_v8 (X_ASI (insn));
3122 
3123                       if (name)
3124                         (*info->fprintf_func) (stream, "%s", name);
3125                       else
3126                         (*info->fprintf_func) (stream, "(%ld)", X_ASI (insn));
3127                       break;
3128                     }
3129 
3130                   case 'C':
3131                     (*info->fprintf_func) (stream, "%%csr");
3132                     break;
3133 
3134                   case 'F':
3135                     (*info->fprintf_func) (stream, "%%fsr");
3136                     break;
3137 
3138                   case 'p':
3139                     (*info->fprintf_func) (stream, "%%psr");
3140                     break;
3141 
3142                   case 'q':
3143                     (*info->fprintf_func) (stream, "%%fq");
3144                     break;
3145 
3146                   case 'Q':
3147                     (*info->fprintf_func) (stream, "%%cq");
3148                     break;
3149 
3150                   case 't':
3151                     (*info->fprintf_func) (stream, "%%tbr");
3152                     break;
3153 
3154                   case 'w':
3155                     (*info->fprintf_func) (stream, "%%wim");
3156                     break;
3157 
3158                   case 'x':
3159                     (*info->fprintf_func) (stream, "%ld",
3160                                            ((X_LDST_I (insn) << 8)
3161                                             + X_ASI (insn)));
3162                     break;
3163 
3164                   case 'y':
3165                     (*info->fprintf_func) (stream, "%%y");
3166                     break;
3167 
3168                   case 'u':
3169                   case 'U':
3170                     {
3171                       int val = *s == 'U' ? X_RS1 (insn) : X_RD (insn);
3172                       const char *name = sparc_decode_sparclet_cpreg (val);
3173 
3174                       if (name)
3175                         (*info->fprintf_func) (stream, "%s", name);
3176                       else
3177                         (*info->fprintf_func) (stream, "%%cpreg(%d)", val);
3178                       break;
3179                     }
3180                   }
3181               }
3182           }
3183 
3184           /* If we are adding or or'ing something to rs1, then
3185              check to see whether the previous instruction was
3186              a sethi to the same register as in the sethi.
3187              If so, attempt to print the result of the add or
3188              or (in this context add and or do the same thing)
3189              and its symbolic value.  */
3190           if (imm_ored_to_rs1 || imm_added_to_rs1)
3191             {
3192               unsigned long prev_insn;
3193               int errcode;
3194 
3195               if (memaddr >= 4)
3196                 errcode =
3197                   (*info->read_memory_func)
3198                   (memaddr - 4, buffer, sizeof (buffer), info);
3199               else
3200                 errcode = 1;
3201 
3202               prev_insn = getword (buffer);
3203 
3204               if (errcode == 0)
3205                 {
3206                   /* If it is a delayed branch, we need to look at the
3207                      instruction before the delayed branch.  This handles
3208                      sequences such as:
3209 
3210                      sethi %o1, %hi(_foo), %o1
3211                      call _printf
3212                      or %o1, %lo(_foo), %o1  */
3213 
3214                   if (is_delayed_branch (prev_insn))
3215                     {
3216                       if (memaddr >= 8)
3217                         errcode = (*info->read_memory_func)
3218                           (memaddr - 8, buffer, sizeof (buffer), info);
3219                       else
3220                         errcode = 1;
3221 
3222                       prev_insn = getword (buffer);
3223                     }
3224                 }
3225 
3226               /* If there was a problem reading memory, then assume
3227                  the previous instruction was not sethi.  */
3228               if (errcode == 0)
3229                 {
3230                   /* Is it sethi to the same register?  */
3231                   if ((prev_insn & 0xc1c00000) == 0x01000000
3232                       && X_RD (prev_insn) == X_RS1 (insn))
3233                     {
3234                       (*info->fprintf_func) (stream, "\t! ");
3235                       info->target =
3236                         ((unsigned) 0xFFFFFFFF
3237                          & ((int) X_IMM22 (prev_insn) << 10));
3238                       if (imm_added_to_rs1)
3239                         info->target += X_SIMM (insn, 13);
3240                       else
3241                         info->target |= X_SIMM (insn, 13);
3242                       (*info->print_address_func) (info->target, info);
3243                       info->insn_type = dis_dref;
3244                       info->data_size = 4;  /* FIXME!!! */
3245                     }
3246                 }
3247             }
3248 
3249           if (opcode->flags & (F_UNBR|F_CONDBR|F_JSR))
3250             {
3251                 /* FIXME -- check is_annulled flag.  */
3252               if (opcode->flags & F_UNBR)
3253                 info->insn_type = dis_branch;
3254               if (opcode->flags & F_CONDBR)
3255                 info->insn_type = dis_condbranch;
3256               if (opcode->flags & F_JSR)
3257                 info->insn_type = dis_jsr;
3258               if (opcode->flags & F_DELAYED)
3259                 info->branch_delay_insns = 1;
3260             }
3261 
3262           return sizeof (buffer);
3263         }
3264     }
3265 
3266   info->insn_type = dis_noninsn;        /* Mark as non-valid instruction.  */
3267   (*info->fprintf_func) (stream, ".long %#08lx", insn);
3268   return sizeof (buffer);
3269 }
3270