Convert ram_load() to the memory API
[qemu/opensuse.git] / sparc-dis.c
blobcdd337a73861eefd2ba4eb9c85491618dded3277
1 /*
2 * These files from binutils are concatenated:
3 * include/opcode/sparc.h, opcodes/sparc-opc.c, opcodes/sparc-dis.c
4 */
6 /* include/opcode/sparc.h */
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.
12 This file is part of GAS, the GNU Assembler, GDB, the GNU debugger, and
13 the GNU Binutils.
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.
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.
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/>. */
29 #include <stdlib.h>
30 #include "dis-asm.h"
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. */
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. */
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. */
47 enum sparc_opcode_arch_val
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. */
61 /* The highest architecture in the table. */
62 #define SPARC_OPCODE_ARCH_MAX (SPARC_OPCODE_ARCH_BAD - 1)
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))
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)
71 /* Table of cpu variants. */
73 typedef struct sparc_opcode_arch
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;
83 static const struct sparc_opcode_arch sparc_opcode_archs[];
85 /* Return the bitmask of supported architectures for ARCH. */
86 #define SPARC_OPCODE_SUPPORTED(ARCH) (sparc_opcode_archs[ARCH].supported)
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)))
96 /* Structure of an opcode table entry. */
98 typedef struct sparc_opcode
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;
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. */
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.
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.
124 The args component is a string containing one character for each operand of the
125 instruction.
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)
195 The following chars are unused: (note: ,[] are used as punctuation)
196 [45]. */
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. */
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)
225 static const struct sparc_opcode sparc_opcodes[];
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);
233 /* Local Variables:
234 fill-column: 131
235 comment-column: 0
236 End: */
238 /* opcodes/sparc-opc.c */
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.
245 This file is part of the BFD library.
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.
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.
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/>. */
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. */
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)
275 /* Bit masks of architectures supporting the insn. */
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)
304 /* Table of opcode architectures.
305 The order is defined in opcode/sparc.h. */
307 static const struct sparc_opcode_arch sparc_opcode_archs[] =
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 }
323 /* Branch condition field. */
324 #define COND(x) (((x) & 0xf) << 25)
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 */
329 /* v9: Move register (MOVRcc and FMOVRcc) condition field. */
330 #define RCOND(x) (((x) & 0x7) << 10) /* v9 */
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))
349 #define CONDNZ CONDNE
350 #define CONDZ CONDE
351 #define CONDGEU CONDCC
352 #define CONDLU CONDCS
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))
371 #define FCONDNZ FCONDNE
372 #define FCONDZ FCONDE
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 */
379 /* The order of the opcodes in the table is significant:
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.
384 * The disassembler should not care about the order of the opcodes. */
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 }
393 static const struct sparc_opcode sparc_opcodes[] = {
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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] */
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 */
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 */
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 */
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 */
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 },
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 */
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 },
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 },
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 },
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 },
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 },
943 { "flushw", F3(2, 0x2b, 0), F3(~2, ~0x2b, ~0)|RD_G0|RS1_G0|ASI_RS2(~0), "", 0, v9 },
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 },
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 */
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 },
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 },
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 },
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 },
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 },
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 },
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] */
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] */
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] */
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] */
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 },
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 },
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 },
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 */
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 },
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 */
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 },
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 },
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 */
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 */
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 },
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 },
1178 { "subx", F3(2, 0x0c, 0), F3(~2, ~0x0c, ~0)|ASI(~0), "1,2,d", 0, v6notv9 },
1179 { "subx", F3(2, 0x0c, 1), F3(~2, ~0x0c, ~1), "1,i,d", 0, v6notv9 },
1180 { "subc", F3(2, 0x0c, 0), F3(~2, ~0x0c, ~0)|ASI(~0), "1,2,d", 0, v9 },
1181 { "subc", F3(2, 0x0c, 1), F3(~2, ~0x0c, ~1), "1,i,d", 0, v9 },
1183 { "subxcc", F3(2, 0x1c, 0), F3(~2, ~0x1c, ~0)|ASI(~0), "1,2,d", 0, v6notv9 },
1184 { "subxcc", F3(2, 0x1c, 1), F3(~2, ~0x1c, ~1), "1,i,d", 0, v6notv9 },
1185 { "subccc", F3(2, 0x1c, 0), F3(~2, ~0x1c, ~0)|ASI(~0), "1,2,d", 0, v9 },
1186 { "subccc", F3(2, 0x1c, 1), F3(~2, ~0x1c, ~1), "1,i,d", 0, v9 },
1188 { "and", F3(2, 0x01, 0), F3(~2, ~0x01, ~0)|ASI(~0), "1,2,d", 0, v6 },
1189 { "and", F3(2, 0x01, 1), F3(~2, ~0x01, ~1), "1,i,d", 0, v6 },
1190 { "and", F3(2, 0x01, 1), F3(~2, ~0x01, ~1), "i,1,d", 0, v6 },
1192 { "andcc", F3(2, 0x11, 0), F3(~2, ~0x11, ~0)|ASI(~0), "1,2,d", 0, v6 },
1193 { "andcc", F3(2, 0x11, 1), F3(~2, ~0x11, ~1), "1,i,d", 0, v6 },
1194 { "andcc", F3(2, 0x11, 1), F3(~2, ~0x11, ~1), "i,1,d", 0, v6 },
1196 { "dec", F3(2, 0x04, 1)|SIMM13(0x1), F3(~2, ~0x04, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 }, /* sub rd,1,rd */
1197 { "dec", F3(2, 0x04, 1), F3(~2, ~0x04, ~1), "i,r", F_ALIAS, v8 }, /* sub rd,imm,rd */
1198 { "deccc", F3(2, 0x14, 1)|SIMM13(0x1), F3(~2, ~0x14, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 }, /* subcc rd,1,rd */
1199 { "deccc", F3(2, 0x14, 1), F3(~2, ~0x14, ~1), "i,r", F_ALIAS, v8 }, /* subcc rd,imm,rd */
1200 { "inc", F3(2, 0x00, 1)|SIMM13(0x1), F3(~2, ~0x00, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 }, /* add rd,1,rd */
1201 { "inc", F3(2, 0x00, 1), F3(~2, ~0x00, ~1), "i,r", F_ALIAS, v8 }, /* add rd,imm,rd */
1202 { "inccc", F3(2, 0x10, 1)|SIMM13(0x1), F3(~2, ~0x10, ~1)|SIMM13(~0x0001), "r", F_ALIAS, v6 }, /* addcc rd,1,rd */
1203 { "inccc", F3(2, 0x10, 1), F3(~2, ~0x10, ~1), "i,r", F_ALIAS, v8 }, /* addcc rd,imm,rd */
1205 { "btst", F3(2, 0x11, 0), F3(~2, ~0x11, ~0)|RD_G0|ASI(~0), "1,2", F_ALIAS, v6 }, /* andcc rs1,rs2,%g0 */
1206 { "btst", F3(2, 0x11, 1), F3(~2, ~0x11, ~1)|RD_G0, "i,1", F_ALIAS, v6 }, /* andcc rs1,i,%g0 */
1208 { "neg", F3(2, 0x04, 0), F3(~2, ~0x04, ~0)|RS1_G0|ASI(~0), "2,d", F_ALIAS, v6 }, /* sub %g0,rs2,rd */
1209 { "neg", F3(2, 0x04, 0), F3(~2, ~0x04, ~0)|RS1_G0|ASI(~0), "O", F_ALIAS, v6 }, /* sub %g0,rd,rd */
1211 { "add", F3(2, 0x00, 0), F3(~2, ~0x00, ~0)|ASI(~0), "1,2,d", 0, v6 },
1212 { "add", F3(2, 0x00, 1), F3(~2, ~0x00, ~1), "1,i,d", 0, v6 },
1213 { "add", F3(2, 0x00, 1), F3(~2, ~0x00, ~1), "i,1,d", 0, v6 },
1214 { "addcc", F3(2, 0x10, 0), F3(~2, ~0x10, ~0)|ASI(~0), "1,2,d", 0, v6 },
1215 { "addcc", F3(2, 0x10, 1), F3(~2, ~0x10, ~1), "1,i,d", 0, v6 },
1216 { "addcc", F3(2, 0x10, 1), F3(~2, ~0x10, ~1), "i,1,d", 0, v6 },
1218 { "addx", F3(2, 0x08, 0), F3(~2, ~0x08, ~0)|ASI(~0), "1,2,d", 0, v6notv9 },
1219 { "addx", F3(2, 0x08, 1), F3(~2, ~0x08, ~1), "1,i,d", 0, v6notv9 },
1220 { "addx", F3(2, 0x08, 1), F3(~2, ~0x08, ~1), "i,1,d", 0, v6notv9 },
1221 { "addc", F3(2, 0x08, 0), F3(~2, ~0x08, ~0)|ASI(~0), "1,2,d", 0, v9 },
1222 { "addc", F3(2, 0x08, 1), F3(~2, ~0x08, ~1), "1,i,d", 0, v9 },
1223 { "addc", F3(2, 0x08, 1), F3(~2, ~0x08, ~1), "i,1,d", 0, v9 },
1225 { "addxcc", F3(2, 0x18, 0), F3(~2, ~0x18, ~0)|ASI(~0), "1,2,d", 0, v6notv9 },
1226 { "addxcc", F3(2, 0x18, 1), F3(~2, ~0x18, ~1), "1,i,d", 0, v6notv9 },
1227 { "addxcc", F3(2, 0x18, 1), F3(~2, ~0x18, ~1), "i,1,d", 0, v6notv9 },
1228 { "addccc", F3(2, 0x18, 0), F3(~2, ~0x18, ~0)|ASI(~0), "1,2,d", 0, v9 },
1229 { "addccc", F3(2, 0x18, 1), F3(~2, ~0x18, ~1), "1,i,d", 0, v9 },
1230 { "addccc", F3(2, 0x18, 1), F3(~2, ~0x18, ~1), "i,1,d", 0, v9 },
1232 { "smul", F3(2, 0x0b, 0), F3(~2, ~0x0b, ~0)|ASI(~0), "1,2,d", 0, v8 },
1233 { "smul", F3(2, 0x0b, 1), F3(~2, ~0x0b, ~1), "1,i,d", 0, v8 },
1234 { "smul", F3(2, 0x0b, 1), F3(~2, ~0x0b, ~1), "i,1,d", 0, v8 },
1235 { "smulcc", F3(2, 0x1b, 0), F3(~2, ~0x1b, ~0)|ASI(~0), "1,2,d", 0, v8 },
1236 { "smulcc", F3(2, 0x1b, 1), F3(~2, ~0x1b, ~1), "1,i,d", 0, v8 },
1237 { "smulcc", F3(2, 0x1b, 1), F3(~2, ~0x1b, ~1), "i,1,d", 0, v8 },
1238 { "umul", F3(2, 0x0a, 0), F3(~2, ~0x0a, ~0)|ASI(~0), "1,2,d", 0, v8 },
1239 { "umul", F3(2, 0x0a, 1), F3(~2, ~0x0a, ~1), "1,i,d", 0, v8 },
1240 { "umul", F3(2, 0x0a, 1), F3(~2, ~0x0a, ~1), "i,1,d", 0, v8 },
1241 { "umulcc", F3(2, 0x1a, 0), F3(~2, ~0x1a, ~0)|ASI(~0), "1,2,d", 0, v8 },
1242 { "umulcc", F3(2, 0x1a, 1), F3(~2, ~0x1a, ~1), "1,i,d", 0, v8 },
1243 { "umulcc", F3(2, 0x1a, 1), F3(~2, ~0x1a, ~1), "i,1,d", 0, v8 },
1244 { "sdiv", F3(2, 0x0f, 0), F3(~2, ~0x0f, ~0)|ASI(~0), "1,2,d", 0, v8 },
1245 { "sdiv", F3(2, 0x0f, 1), F3(~2, ~0x0f, ~1), "1,i,d", 0, v8 },
1246 { "sdiv", F3(2, 0x0f, 1), F3(~2, ~0x0f, ~1), "i,1,d", 0, v8 },
1247 { "sdivcc", F3(2, 0x1f, 0), F3(~2, ~0x1f, ~0)|ASI(~0), "1,2,d", 0, v8 },
1248 { "sdivcc", F3(2, 0x1f, 1), F3(~2, ~0x1f, ~1), "1,i,d", 0, v8 },
1249 { "sdivcc", F3(2, 0x1f, 1), F3(~2, ~0x1f, ~1), "i,1,d", 0, v8 },
1250 { "udiv", F3(2, 0x0e, 0), F3(~2, ~0x0e, ~0)|ASI(~0), "1,2,d", 0, v8 },
1251 { "udiv", F3(2, 0x0e, 1), F3(~2, ~0x0e, ~1), "1,i,d", 0, v8 },
1252 { "udiv", F3(2, 0x0e, 1), F3(~2, ~0x0e, ~1), "i,1,d", 0, v8 },
1253 { "udivcc", F3(2, 0x1e, 0), F3(~2, ~0x1e, ~0)|ASI(~0), "1,2,d", 0, v8 },
1254 { "udivcc", F3(2, 0x1e, 1), F3(~2, ~0x1e, ~1), "1,i,d", 0, v8 },
1255 { "udivcc", F3(2, 0x1e, 1), F3(~2, ~0x1e, ~1), "i,1,d", 0, v8 },
1257 { "mulx", F3(2, 0x09, 0), F3(~2, ~0x09, ~0)|ASI(~0), "1,2,d", 0, v9 },
1258 { "mulx", F3(2, 0x09, 1), F3(~2, ~0x09, ~1), "1,i,d", 0, v9 },
1259 { "sdivx", F3(2, 0x2d, 0), F3(~2, ~0x2d, ~0)|ASI(~0), "1,2,d", 0, v9 },
1260 { "sdivx", F3(2, 0x2d, 1), F3(~2, ~0x2d, ~1), "1,i,d", 0, v9 },
1261 { "udivx", F3(2, 0x0d, 0), F3(~2, ~0x0d, ~0)|ASI(~0), "1,2,d", 0, v9 },
1262 { "udivx", F3(2, 0x0d, 1), F3(~2, ~0x0d, ~1), "1,i,d", 0, v9 },
1264 { "call", F1(0x1), F1(~0x1), "L", F_JSR|F_DELAYED, v6 },
1265 { "call", F1(0x1), F1(~0x1), "L,#", F_JSR|F_DELAYED, v6 },
1267 { "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 */
1268 { "call", F3(2, 0x38, 0)|RD(0xf), F3(~2, ~0x38, ~0)|RD(~0xf)|ASI(~0), "1+2,#", F_JSR|F_DELAYED, v6 },
1269 { "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 */
1270 { "call", F3(2, 0x38, 0)|RD(0xf), F3(~2, ~0x38, ~0)|RD(~0xf)|ASI_RS2(~0), "1,#", F_JSR|F_DELAYED, v6 },
1271 { "call", F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf), "1+i", F_JSR|F_DELAYED, v6 }, /* jmpl rs1+i,%o7 */
1272 { "call", F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf), "1+i,#", F_JSR|F_DELAYED, v6 },
1273 { "call", F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf), "i+1", F_JSR|F_DELAYED, v6 }, /* jmpl i+rs1,%o7 */
1274 { "call", F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf), "i+1,#", F_JSR|F_DELAYED, v6 },
1275 { "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 */
1276 { "call", F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf)|RS1_G0, "i,#", F_JSR|F_DELAYED, v6 },
1277 { "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 */
1278 { "call", F3(2, 0x38, 1)|RD(0xf), F3(~2, ~0x38, ~1)|RD(~0xf)|SIMM13(~0), "1,#", F_JSR|F_DELAYED, v6 },
1281 /* Conditional instructions.
1283 Because this part of the table was such a mess earlier, I have
1284 macrofied it so that all the branches and traps are generated from
1285 a single-line description of each condition value. John Gilmore. */
1287 /* Define branches -- one annulled, one without, etc. */
1288 #define br(opcode, mask, lose, flags) \
1289 { opcode, (mask)|ANNUL, (lose), ",a l", (flags), v6 }, \
1290 { opcode, (mask) , (lose)|ANNUL, "l", (flags), v6 }
1292 #define brx(opcode, mask, lose, flags) /* v9 */ \
1293 { opcode, (mask)|(2<<20)|BPRED, ANNUL|(lose), "Z,G", (flags), v9 }, \
1294 { opcode, (mask)|(2<<20)|BPRED, ANNUL|(lose), ",T Z,G", (flags), v9 }, \
1295 { opcode, (mask)|(2<<20)|BPRED|ANNUL, (lose), ",a Z,G", (flags), v9 }, \
1296 { opcode, (mask)|(2<<20)|BPRED|ANNUL, (lose), ",a,T Z,G", (flags), v9 }, \
1297 { opcode, (mask)|(2<<20), ANNUL|BPRED|(lose), ",N Z,G", (flags), v9 }, \
1298 { opcode, (mask)|(2<<20)|ANNUL, BPRED|(lose), ",a,N Z,G", (flags), v9 }, \
1299 { opcode, (mask)|BPRED, ANNUL|(lose)|(2<<20), "z,G", (flags), v9 }, \
1300 { opcode, (mask)|BPRED, ANNUL|(lose)|(2<<20), ",T z,G", (flags), v9 }, \
1301 { opcode, (mask)|BPRED|ANNUL, (lose)|(2<<20), ",a z,G", (flags), v9 }, \
1302 { opcode, (mask)|BPRED|ANNUL, (lose)|(2<<20), ",a,T z,G", (flags), v9 }, \
1303 { opcode, (mask), ANNUL|BPRED|(lose)|(2<<20), ",N z,G", (flags), v9 }, \
1304 { opcode, (mask)|ANNUL, BPRED|(lose)|(2<<20), ",a,N z,G", (flags), v9 }
1306 /* Define four traps: reg+reg, reg + immediate, immediate alone, reg alone. */
1307 #define tr(opcode, mask, lose, flags) \
1308 { opcode, (mask)|(2<<11)|IMMED, (lose)|RS1_G0, "Z,i", (flags), v9 }, /* %g0 + imm */ \
1309 { opcode, (mask)|(2<<11)|IMMED, (lose), "Z,1+i", (flags), v9 }, /* rs1 + imm */ \
1310 { opcode, (mask)|(2<<11), IMMED|(lose), "Z,1+2", (flags), v9 }, /* rs1 + rs2 */ \
1311 { opcode, (mask)|(2<<11), IMMED|(lose)|RS2_G0, "Z,1", (flags), v9 }, /* rs1 + %g0 */ \
1312 { opcode, (mask)|IMMED, (lose)|RS1_G0, "z,i", (flags)|F_ALIAS, v9 }, /* %g0 + imm */ \
1313 { opcode, (mask)|IMMED, (lose), "z,1+i", (flags)|F_ALIAS, v9 }, /* rs1 + imm */ \
1314 { opcode, (mask), IMMED|(lose), "z,1+2", (flags)|F_ALIAS, v9 }, /* rs1 + rs2 */ \
1315 { opcode, (mask), IMMED|(lose)|RS2_G0, "z,1", (flags)|F_ALIAS, v9 }, /* rs1 + %g0 */ \
1316 { opcode, (mask)|IMMED, (lose)|RS1_G0, "i", (flags), v6 }, /* %g0 + imm */ \
1317 { opcode, (mask)|IMMED, (lose), "1+i", (flags), v6 }, /* rs1 + imm */ \
1318 { opcode, (mask), IMMED|(lose), "1+2", (flags), v6 }, /* rs1 + rs2 */ \
1319 { opcode, (mask), IMMED|(lose)|RS2_G0, "1", (flags), v6 } /* rs1 + %g0 */
1321 /* v9: We must put `brx' before `br', to ensure that we never match something
1322 v9: against an expression unless it is an expression. Otherwise, we end
1323 v9: up with undefined symbol tables entries, because they get added, but
1324 v9: are not deleted if the pattern fails to match. */
1326 /* Define both branches and traps based on condition mask */
1327 #define cond(bop, top, mask, flags) \
1328 brx(bop, F2(0, 1)|(mask), F2(~0, ~1)|((~mask)&COND(~0)), F_DELAYED|(flags)), /* v9 */ \
1329 br(bop, F2(0, 2)|(mask), F2(~0, ~2)|((~mask)&COND(~0)), F_DELAYED|(flags)), \
1330 tr(top, F3(2, 0x3a, 0)|(mask), F3(~2, ~0x3a, 0)|((~mask)&COND(~0)), ((flags) & ~(F_UNBR|F_CONDBR)))
1332 /* Define all the conditions, all the branches, all the traps. */
1334 /* Standard branch, trap mnemonics */
1335 cond ("b", "ta", CONDA, F_UNBR),
1336 /* Alternative form (just for assembly, not for disassembly) */
1337 cond ("ba", "t", CONDA, F_UNBR|F_ALIAS),
1339 cond ("bcc", "tcc", CONDCC, F_CONDBR),
1340 cond ("bcs", "tcs", CONDCS, F_CONDBR),
1341 cond ("be", "te", CONDE, F_CONDBR),
1342 cond ("beq", "teq", CONDE, F_CONDBR|F_ALIAS),
1343 cond ("bg", "tg", CONDG, F_CONDBR),
1344 cond ("bgt", "tgt", CONDG, F_CONDBR|F_ALIAS),
1345 cond ("bge", "tge", CONDGE, F_CONDBR),
1346 cond ("bgeu", "tgeu", CONDGEU, F_CONDBR|F_ALIAS), /* for cc */
1347 cond ("bgu", "tgu", CONDGU, F_CONDBR),
1348 cond ("bl", "tl", CONDL, F_CONDBR),
1349 cond ("blt", "tlt", CONDL, F_CONDBR|F_ALIAS),
1350 cond ("ble", "tle", CONDLE, F_CONDBR),
1351 cond ("bleu", "tleu", CONDLEU, F_CONDBR),
1352 cond ("blu", "tlu", CONDLU, F_CONDBR|F_ALIAS), /* for cs */
1353 cond ("bn", "tn", CONDN, F_CONDBR),
1354 cond ("bne", "tne", CONDNE, F_CONDBR),
1355 cond ("bneg", "tneg", CONDNEG, F_CONDBR),
1356 cond ("bnz", "tnz", CONDNZ, F_CONDBR|F_ALIAS), /* for ne */
1357 cond ("bpos", "tpos", CONDPOS, F_CONDBR),
1358 cond ("bvc", "tvc", CONDVC, F_CONDBR),
1359 cond ("bvs", "tvs", CONDVS, F_CONDBR),
1360 cond ("bz", "tz", CONDZ, F_CONDBR|F_ALIAS), /* for e */
1362 #undef cond
1363 #undef br
1364 #undef brr /* v9 */
1365 #undef tr
1367 #define brr(opcode, mask, lose, flags) /* v9 */ \
1368 { opcode, (mask)|BPRED, ANNUL|(lose), "1,k", F_DELAYED|(flags), v9 }, \
1369 { opcode, (mask)|BPRED, ANNUL|(lose), ",T 1,k", F_DELAYED|(flags), v9 }, \
1370 { opcode, (mask)|BPRED|ANNUL, (lose), ",a 1,k", F_DELAYED|(flags), v9 }, \
1371 { opcode, (mask)|BPRED|ANNUL, (lose), ",a,T 1,k", F_DELAYED|(flags), v9 }, \
1372 { opcode, (mask), ANNUL|BPRED|(lose), ",N 1,k", F_DELAYED|(flags), v9 }, \
1373 { opcode, (mask)|ANNUL, BPRED|(lose), ",a,N 1,k", F_DELAYED|(flags), v9 }
1375 #define condr(bop, mask, flags) /* v9 */ \
1376 brr(bop, F2(0, 3)|COND(mask), F2(~0, ~3)|COND(~(mask)), (flags)) /* v9 */
1378 /* v9 */ condr("brnz", 0x5, F_CONDBR),
1379 /* v9 */ condr("brz", 0x1, F_CONDBR),
1380 /* v9 */ condr("brgez", 0x7, F_CONDBR),
1381 /* v9 */ condr("brlz", 0x3, F_CONDBR),
1382 /* v9 */ condr("brlez", 0x2, F_CONDBR),
1383 /* v9 */ condr("brgz", 0x6, F_CONDBR),
1385 #undef condr /* v9 */
1386 #undef brr /* v9 */
1388 #define movr(opcode, mask, flags) /* v9 */ \
1389 { opcode, F3(2, 0x2f, 0)|RCOND(mask), F3(~2, ~0x2f, ~0)|RCOND(~(mask)), "1,2,d", (flags), v9 }, \
1390 { opcode, F3(2, 0x2f, 1)|RCOND(mask), F3(~2, ~0x2f, ~1)|RCOND(~(mask)), "1,j,d", (flags), v9 }
1392 #define fmrrs(opcode, mask, lose, flags) /* v9 */ \
1393 { opcode, (mask), (lose), "1,f,g", (flags) | F_FLOAT, v9 }
1394 #define fmrrd(opcode, mask, lose, flags) /* v9 */ \
1395 { opcode, (mask), (lose), "1,B,H", (flags) | F_FLOAT, v9 }
1396 #define fmrrq(opcode, mask, lose, flags) /* v9 */ \
1397 { opcode, (mask), (lose), "1,R,J", (flags) | F_FLOAT, v9 }
1399 #define fmovrs(mop, mask, flags) /* v9 */ \
1400 fmrrs(mop, F3(2, 0x35, 0)|OPF_LOW5(5)|RCOND(mask), F3(~2, ~0x35, 0)|OPF_LOW5(~5)|RCOND(~(mask)), (flags)) /* v9 */
1401 #define fmovrd(mop, mask, flags) /* v9 */ \
1402 fmrrd(mop, F3(2, 0x35, 0)|OPF_LOW5(6)|RCOND(mask), F3(~2, ~0x35, 0)|OPF_LOW5(~6)|RCOND(~(mask)), (flags)) /* v9 */
1403 #define fmovrq(mop, mask, flags) /* v9 */ \
1404 fmrrq(mop, F3(2, 0x35, 0)|OPF_LOW5(7)|RCOND(mask), F3(~2, ~0x35, 0)|OPF_LOW5(~7)|RCOND(~(mask)), (flags)) /* v9 */
1406 /* v9 */ movr("movrne", 0x5, 0),
1407 /* v9 */ movr("movre", 0x1, 0),
1408 /* v9 */ movr("movrgez", 0x7, 0),
1409 /* v9 */ movr("movrlz", 0x3, 0),
1410 /* v9 */ movr("movrlez", 0x2, 0),
1411 /* v9 */ movr("movrgz", 0x6, 0),
1412 /* v9 */ movr("movrnz", 0x5, F_ALIAS),
1413 /* v9 */ movr("movrz", 0x1, F_ALIAS),
1415 /* v9 */ fmovrs("fmovrsne", 0x5, 0),
1416 /* v9 */ fmovrs("fmovrse", 0x1, 0),
1417 /* v9 */ fmovrs("fmovrsgez", 0x7, 0),
1418 /* v9 */ fmovrs("fmovrslz", 0x3, 0),
1419 /* v9 */ fmovrs("fmovrslez", 0x2, 0),
1420 /* v9 */ fmovrs("fmovrsgz", 0x6, 0),
1421 /* v9 */ fmovrs("fmovrsnz", 0x5, F_ALIAS),
1422 /* v9 */ fmovrs("fmovrsz", 0x1, F_ALIAS),
1424 /* v9 */ fmovrd("fmovrdne", 0x5, 0),
1425 /* v9 */ fmovrd("fmovrde", 0x1, 0),
1426 /* v9 */ fmovrd("fmovrdgez", 0x7, 0),
1427 /* v9 */ fmovrd("fmovrdlz", 0x3, 0),
1428 /* v9 */ fmovrd("fmovrdlez", 0x2, 0),
1429 /* v9 */ fmovrd("fmovrdgz", 0x6, 0),
1430 /* v9 */ fmovrd("fmovrdnz", 0x5, F_ALIAS),
1431 /* v9 */ fmovrd("fmovrdz", 0x1, F_ALIAS),
1433 /* v9 */ fmovrq("fmovrqne", 0x5, 0),
1434 /* v9 */ fmovrq("fmovrqe", 0x1, 0),
1435 /* v9 */ fmovrq("fmovrqgez", 0x7, 0),
1436 /* v9 */ fmovrq("fmovrqlz", 0x3, 0),
1437 /* v9 */ fmovrq("fmovrqlez", 0x2, 0),
1438 /* v9 */ fmovrq("fmovrqgz", 0x6, 0),
1439 /* v9 */ fmovrq("fmovrqnz", 0x5, F_ALIAS),
1440 /* v9 */ fmovrq("fmovrqz", 0x1, F_ALIAS),
1442 #undef movr /* v9 */
1443 #undef fmovr /* v9 */
1444 #undef fmrr /* v9 */
1446 #define movicc(opcode, cond, flags) /* v9 */ \
1447 { opcode, F3(2, 0x2c, 0)|MCOND(cond,1)|ICC, F3(~2, ~0x2c, ~0)|MCOND(~cond,~1)|XCC|(1<<11), "z,2,d", flags, v9 }, \
1448 { opcode, F3(2, 0x2c, 1)|MCOND(cond,1)|ICC, F3(~2, ~0x2c, ~1)|MCOND(~cond,~1)|XCC|(1<<11), "z,I,d", flags, v9 }, \
1449 { opcode, F3(2, 0x2c, 0)|MCOND(cond,1)|XCC, F3(~2, ~0x2c, ~0)|MCOND(~cond,~1)|(1<<11), "Z,2,d", flags, v9 }, \
1450 { opcode, F3(2, 0x2c, 1)|MCOND(cond,1)|XCC, F3(~2, ~0x2c, ~1)|MCOND(~cond,~1)|(1<<11), "Z,I,d", flags, v9 }
1452 #define movfcc(opcode, fcond, flags) /* v9 */ \
1453 { opcode, F3(2, 0x2c, 0)|FCC(0)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~0)|F3(~2, ~0x2c, ~0), "6,2,d", flags, v9 }, \
1454 { opcode, F3(2, 0x2c, 1)|FCC(0)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~0)|F3(~2, ~0x2c, ~1), "6,I,d", flags, v9 }, \
1455 { opcode, F3(2, 0x2c, 0)|FCC(1)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~1)|F3(~2, ~0x2c, ~0), "7,2,d", flags, v9 }, \
1456 { opcode, F3(2, 0x2c, 1)|FCC(1)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~1)|F3(~2, ~0x2c, ~1), "7,I,d", flags, v9 }, \
1457 { opcode, F3(2, 0x2c, 0)|FCC(2)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~2)|F3(~2, ~0x2c, ~0), "8,2,d", flags, v9 }, \
1458 { opcode, F3(2, 0x2c, 1)|FCC(2)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~2)|F3(~2, ~0x2c, ~1), "8,I,d", flags, v9 }, \
1459 { opcode, F3(2, 0x2c, 0)|FCC(3)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~3)|F3(~2, ~0x2c, ~0), "9,2,d", flags, v9 }, \
1460 { opcode, F3(2, 0x2c, 1)|FCC(3)|MCOND(fcond,0), MCOND(~fcond,~0)|FCC(~3)|F3(~2, ~0x2c, ~1), "9,I,d", flags, v9 }
1462 #define movcc(opcode, cond, fcond, flags) /* v9 */ \
1463 movfcc (opcode, fcond, flags), /* v9 */ \
1464 movicc (opcode, cond, flags) /* v9 */
1466 /* v9 */ movcc ("mova", CONDA, FCONDA, 0),
1467 /* v9 */ movicc ("movcc", CONDCC, 0),
1468 /* v9 */ movicc ("movgeu", CONDGEU, F_ALIAS),
1469 /* v9 */ movicc ("movcs", CONDCS, 0),
1470 /* v9 */ movicc ("movlu", CONDLU, F_ALIAS),
1471 /* v9 */ movcc ("move", CONDE, FCONDE, 0),
1472 /* v9 */ movcc ("movg", CONDG, FCONDG, 0),
1473 /* v9 */ movcc ("movge", CONDGE, FCONDGE, 0),
1474 /* v9 */ movicc ("movgu", CONDGU, 0),
1475 /* v9 */ movcc ("movl", CONDL, FCONDL, 0),
1476 /* v9 */ movcc ("movle", CONDLE, FCONDLE, 0),
1477 /* v9 */ movicc ("movleu", CONDLEU, 0),
1478 /* v9 */ movfcc ("movlg", FCONDLG, 0),
1479 /* v9 */ movcc ("movn", CONDN, FCONDN, 0),
1480 /* v9 */ movcc ("movne", CONDNE, FCONDNE, 0),
1481 /* v9 */ movicc ("movneg", CONDNEG, 0),
1482 /* v9 */ movcc ("movnz", CONDNZ, FCONDNZ, F_ALIAS),
1483 /* v9 */ movfcc ("movo", FCONDO, 0),
1484 /* v9 */ movicc ("movpos", CONDPOS, 0),
1485 /* v9 */ movfcc ("movu", FCONDU, 0),
1486 /* v9 */ movfcc ("movue", FCONDUE, 0),
1487 /* v9 */ movfcc ("movug", FCONDUG, 0),
1488 /* v9 */ movfcc ("movuge", FCONDUGE, 0),
1489 /* v9 */ movfcc ("movul", FCONDUL, 0),
1490 /* v9 */ movfcc ("movule", FCONDULE, 0),
1491 /* v9 */ movicc ("movvc", CONDVC, 0),
1492 /* v9 */ movicc ("movvs", CONDVS, 0),
1493 /* v9 */ movcc ("movz", CONDZ, FCONDZ, F_ALIAS),
1495 #undef movicc /* v9 */
1496 #undef movfcc /* v9 */
1497 #undef movcc /* v9 */
1499 #define FM_SF 1 /* v9 - values for fpsize */
1500 #define FM_DF 2 /* v9 */
1501 #define FM_QF 3 /* v9 */
1503 #define fmoviccx(opcode, fpsize, args, cond, flags) /* v9 */ \
1504 { opcode, F3F(2, 0x35, 0x100+fpsize)|MCOND(cond,0), F3F(~2, ~0x35, ~(0x100+fpsize))|MCOND(~cond,~0), "z," args, flags, v9 }, \
1505 { opcode, F3F(2, 0x35, 0x180+fpsize)|MCOND(cond,0), F3F(~2, ~0x35, ~(0x180+fpsize))|MCOND(~cond,~0), "Z," args, flags, v9 }
1507 #define fmovfccx(opcode, fpsize, args, fcond, flags) /* v9 */ \
1508 { opcode, F3F(2, 0x35, 0x000+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x000+fpsize))|MCOND(~fcond,~0), "6," args, flags, v9 }, \
1509 { opcode, F3F(2, 0x35, 0x040+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x040+fpsize))|MCOND(~fcond,~0), "7," args, flags, v9 }, \
1510 { opcode, F3F(2, 0x35, 0x080+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x080+fpsize))|MCOND(~fcond,~0), "8," args, flags, v9 }, \
1511 { opcode, F3F(2, 0x35, 0x0c0+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x0c0+fpsize))|MCOND(~fcond,~0), "9," args, flags, v9 }
1513 /* FIXME: use fmovicc/fmovfcc? */ /* v9 */
1514 #define fmovccx(opcode, fpsize, args, cond, fcond, flags) /* v9 */ \
1515 { opcode, F3F(2, 0x35, 0x100+fpsize)|MCOND(cond,0), F3F(~2, ~0x35, ~(0x100+fpsize))|MCOND(~cond,~0), "z," args, flags | F_FLOAT, v9 }, \
1516 { opcode, F3F(2, 0x35, 0x000+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x000+fpsize))|MCOND(~fcond,~0), "6," args, flags | F_FLOAT, v9 }, \
1517 { opcode, F3F(2, 0x35, 0x180+fpsize)|MCOND(cond,0), F3F(~2, ~0x35, ~(0x180+fpsize))|MCOND(~cond,~0), "Z," args, flags | F_FLOAT, v9 }, \
1518 { opcode, F3F(2, 0x35, 0x040+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x040+fpsize))|MCOND(~fcond,~0), "7," args, flags | F_FLOAT, v9 }, \
1519 { opcode, F3F(2, 0x35, 0x080+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x080+fpsize))|MCOND(~fcond,~0), "8," args, flags | F_FLOAT, v9 }, \
1520 { opcode, F3F(2, 0x35, 0x0c0+fpsize)|MCOND(fcond,0), F3F(~2, ~0x35, ~(0x0c0+fpsize))|MCOND(~fcond,~0), "9," args, flags | F_FLOAT, v9 }
1522 #define fmovicc(suffix, cond, flags) /* v9 */ \
1523 fmoviccx("fmovd" suffix, FM_DF, "B,H", cond, flags), \
1524 fmoviccx("fmovq" suffix, FM_QF, "R,J", cond, flags), \
1525 fmoviccx("fmovs" suffix, FM_SF, "f,g", cond, flags)
1527 #define fmovfcc(suffix, fcond, flags) /* v9 */ \
1528 fmovfccx("fmovd" suffix, FM_DF, "B,H", fcond, flags), \
1529 fmovfccx("fmovq" suffix, FM_QF, "R,J", fcond, flags), \
1530 fmovfccx("fmovs" suffix, FM_SF, "f,g", fcond, flags)
1532 #define fmovcc(suffix, cond, fcond, flags) /* v9 */ \
1533 fmovccx("fmovd" suffix, FM_DF, "B,H", cond, fcond, flags), \
1534 fmovccx("fmovq" suffix, FM_QF, "R,J", cond, fcond, flags), \
1535 fmovccx("fmovs" suffix, FM_SF, "f,g", cond, fcond, flags)
1537 /* v9 */ fmovcc ("a", CONDA, FCONDA, 0),
1538 /* v9 */ fmovicc ("cc", CONDCC, 0),
1539 /* v9 */ fmovicc ("cs", CONDCS, 0),
1540 /* v9 */ fmovcc ("e", CONDE, FCONDE, 0),
1541 /* v9 */ fmovcc ("g", CONDG, FCONDG, 0),
1542 /* v9 */ fmovcc ("ge", CONDGE, FCONDGE, 0),
1543 /* v9 */ fmovicc ("geu", CONDGEU, F_ALIAS),
1544 /* v9 */ fmovicc ("gu", CONDGU, 0),
1545 /* v9 */ fmovcc ("l", CONDL, FCONDL, 0),
1546 /* v9 */ fmovcc ("le", CONDLE, FCONDLE, 0),
1547 /* v9 */ fmovicc ("leu", CONDLEU, 0),
1548 /* v9 */ fmovfcc ("lg", FCONDLG, 0),
1549 /* v9 */ fmovicc ("lu", CONDLU, F_ALIAS),
1550 /* v9 */ fmovcc ("n", CONDN, FCONDN, 0),
1551 /* v9 */ fmovcc ("ne", CONDNE, FCONDNE, 0),
1552 /* v9 */ fmovicc ("neg", CONDNEG, 0),
1553 /* v9 */ fmovcc ("nz", CONDNZ, FCONDNZ, F_ALIAS),
1554 /* v9 */ fmovfcc ("o", FCONDO, 0),
1555 /* v9 */ fmovicc ("pos", CONDPOS, 0),
1556 /* v9 */ fmovfcc ("u", FCONDU, 0),
1557 /* v9 */ fmovfcc ("ue", FCONDUE, 0),
1558 /* v9 */ fmovfcc ("ug", FCONDUG, 0),
1559 /* v9 */ fmovfcc ("uge", FCONDUGE, 0),
1560 /* v9 */ fmovfcc ("ul", FCONDUL, 0),
1561 /* v9 */ fmovfcc ("ule", FCONDULE, 0),
1562 /* v9 */ fmovicc ("vc", CONDVC, 0),
1563 /* v9 */ fmovicc ("vs", CONDVS, 0),
1564 /* v9 */ fmovcc ("z", CONDZ, FCONDZ, F_ALIAS),
1566 #undef fmoviccx /* v9 */
1567 #undef fmovfccx /* v9 */
1568 #undef fmovccx /* v9 */
1569 #undef fmovicc /* v9 */
1570 #undef fmovfcc /* v9 */
1571 #undef fmovcc /* v9 */
1572 #undef FM_DF /* v9 */
1573 #undef FM_QF /* v9 */
1574 #undef FM_SF /* v9 */
1576 /* Coprocessor branches. */
1577 #define CBR(opcode, mask, lose, flags, arch) \
1578 { opcode, (mask), ANNUL | (lose), "l", flags | F_DELAYED, arch }, \
1579 { opcode, (mask) | ANNUL, (lose), ",a l", flags | F_DELAYED, arch }
1581 /* Floating point branches. */
1582 #define FBR(opcode, mask, lose, flags) \
1583 { opcode, (mask), ANNUL | (lose), "l", flags | F_DELAYED | F_FBR, v6 }, \
1584 { opcode, (mask) | ANNUL, (lose), ",a l", flags | F_DELAYED | F_FBR, v6 }
1586 /* V9 extended floating point branches. */
1587 #define FBRX(opcode, mask, lose, flags) /* v9 */ \
1588 { opcode, FBFCC(0)|(mask)|BPRED, ANNUL|FBFCC(~0)|(lose), "6,G", flags|F_DELAYED|F_FBR, v9 }, \
1589 { opcode, FBFCC(0)|(mask)|BPRED, ANNUL|FBFCC(~0)|(lose), ",T 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1590 { opcode, FBFCC(0)|(mask)|BPRED|ANNUL, FBFCC(~0)|(lose), ",a 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1591 { opcode, FBFCC(0)|(mask)|BPRED|ANNUL, FBFCC(~0)|(lose), ",a,T 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1592 { opcode, FBFCC(0)|(mask), ANNUL|BPRED|FBFCC(~0)|(lose), ",N 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1593 { opcode, FBFCC(0)|(mask)|ANNUL, BPRED|FBFCC(~0)|(lose), ",a,N 6,G", flags|F_DELAYED|F_FBR, v9 }, \
1594 { opcode, FBFCC(1)|(mask)|BPRED, ANNUL|FBFCC(~1)|(lose), "7,G", flags|F_DELAYED|F_FBR, v9 }, \
1595 { opcode, FBFCC(1)|(mask)|BPRED, ANNUL|FBFCC(~1)|(lose), ",T 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1596 { opcode, FBFCC(1)|(mask)|BPRED|ANNUL, FBFCC(~1)|(lose), ",a 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1597 { opcode, FBFCC(1)|(mask)|BPRED|ANNUL, FBFCC(~1)|(lose), ",a,T 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1598 { opcode, FBFCC(1)|(mask), ANNUL|BPRED|FBFCC(~1)|(lose), ",N 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1599 { opcode, FBFCC(1)|(mask)|ANNUL, BPRED|FBFCC(~1)|(lose), ",a,N 7,G", flags|F_DELAYED|F_FBR, v9 }, \
1600 { opcode, FBFCC(2)|(mask)|BPRED, ANNUL|FBFCC(~2)|(lose), "8,G", flags|F_DELAYED|F_FBR, v9 }, \
1601 { opcode, FBFCC(2)|(mask)|BPRED, ANNUL|FBFCC(~2)|(lose), ",T 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1602 { opcode, FBFCC(2)|(mask)|BPRED|ANNUL, FBFCC(~2)|(lose), ",a 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1603 { opcode, FBFCC(2)|(mask)|BPRED|ANNUL, FBFCC(~2)|(lose), ",a,T 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1604 { opcode, FBFCC(2)|(mask), ANNUL|BPRED|FBFCC(~2)|(lose), ",N 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1605 { opcode, FBFCC(2)|(mask)|ANNUL, BPRED|FBFCC(~2)|(lose), ",a,N 8,G", flags|F_DELAYED|F_FBR, v9 }, \
1606 { opcode, FBFCC(3)|(mask)|BPRED, ANNUL|FBFCC(~3)|(lose), "9,G", flags|F_DELAYED|F_FBR, v9 }, \
1607 { opcode, FBFCC(3)|(mask)|BPRED, ANNUL|FBFCC(~3)|(lose), ",T 9,G", flags|F_DELAYED|F_FBR, v9 }, \
1608 { opcode, FBFCC(3)|(mask)|BPRED|ANNUL, FBFCC(~3)|(lose), ",a 9,G", flags|F_DELAYED|F_FBR, v9 }, \
1609 { opcode, FBFCC(3)|(mask)|BPRED|ANNUL, FBFCC(~3)|(lose), ",a,T 9,G", flags|F_DELAYED|F_FBR, v9 }, \
1610 { opcode, FBFCC(3)|(mask), ANNUL|BPRED|FBFCC(~3)|(lose), ",N 9,G", flags|F_DELAYED|F_FBR, v9 }, \
1611 { opcode, FBFCC(3)|(mask)|ANNUL, BPRED|FBFCC(~3)|(lose), ",a,N 9,G", flags|F_DELAYED|F_FBR, v9 }
1613 /* v9: We must put `FBRX' before `FBR', to ensure that we never match
1614 v9: something against an expression unless it is an expression. Otherwise,
1615 v9: we end up with undefined symbol tables entries, because they get added,
1616 v9: but are not deleted if the pattern fails to match. */
1618 #define CONDFC(fop, cop, 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 CBR(cop, F2(0, 7)|COND(mask), F2(~0, ~7)|COND(~(mask)), flags, v6notlet)
1623 #define CONDFCL(fop, cop, mask, flags) \
1624 FBRX(fop, F2(0, 5)|COND(mask), F2(~0, ~5)|COND(~(mask)), flags), /* v9 */ \
1625 FBR(fop, F2(0, 6)|COND(mask), F2(~0, ~6)|COND(~(mask)), flags), \
1626 CBR(cop, F2(0, 7)|COND(mask), F2(~0, ~7)|COND(~(mask)), flags, v6)
1628 #define CONDF(fop, mask, flags) \
1629 FBRX(fop, F2(0, 5)|COND(mask), F2(~0, ~5)|COND(~(mask)), flags), /* v9 */ \
1630 FBR(fop, F2(0, 6)|COND(mask), F2(~0, ~6)|COND(~(mask)), flags)
1632 CONDFC ("fb", "cb", 0x8, F_UNBR),
1633 CONDFCL ("fba", "cba", 0x8, F_UNBR|F_ALIAS),
1634 CONDFC ("fbe", "cb0", 0x9, F_CONDBR),
1635 CONDF ("fbz", 0x9, F_CONDBR|F_ALIAS),
1636 CONDFC ("fbg", "cb2", 0x6, F_CONDBR),
1637 CONDFC ("fbge", "cb02", 0xb, F_CONDBR),
1638 CONDFC ("fbl", "cb1", 0x4, F_CONDBR),
1639 CONDFC ("fble", "cb01", 0xd, F_CONDBR),
1640 CONDFC ("fblg", "cb12", 0x2, F_CONDBR),
1641 CONDFCL ("fbn", "cbn", 0x0, F_UNBR),
1642 CONDFC ("fbne", "cb123", 0x1, F_CONDBR),
1643 CONDF ("fbnz", 0x1, F_CONDBR|F_ALIAS),
1644 CONDFC ("fbo", "cb012", 0xf, F_CONDBR),
1645 CONDFC ("fbu", "cb3", 0x7, F_CONDBR),
1646 CONDFC ("fbue", "cb03", 0xa, F_CONDBR),
1647 CONDFC ("fbug", "cb23", 0x5, F_CONDBR),
1648 CONDFC ("fbuge", "cb023", 0xc, F_CONDBR),
1649 CONDFC ("fbul", "cb13", 0x3, F_CONDBR),
1650 CONDFC ("fbule", "cb013", 0xe, F_CONDBR),
1652 #undef CONDFC
1653 #undef CONDFCL
1654 #undef CONDF
1655 #undef CBR
1656 #undef FBR
1657 #undef FBRX /* v9 */
1659 { "jmp", F3(2, 0x38, 0), F3(~2, ~0x38, ~0)|RD_G0|ASI(~0), "1+2", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+rs2,%g0 */
1660 { "jmp", F3(2, 0x38, 0), F3(~2, ~0x38, ~0)|RD_G0|ASI_RS2(~0), "1", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+%g0,%g0 */
1661 { "jmp", F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0, "1+i", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+i,%g0 */
1662 { "jmp", F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0, "i+1", F_UNBR|F_DELAYED, v6 }, /* jmpl i+rs1,%g0 */
1663 { "jmp", F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0|RS1_G0, "i", F_UNBR|F_DELAYED, v6 }, /* jmpl %g0+i,%g0 */
1664 { "jmp", F3(2, 0x38, 1), F3(~2, ~0x38, ~1)|RD_G0|SIMM13(~0), "1", F_UNBR|F_DELAYED, v6 }, /* jmpl rs1+0,%g0 */
1666 { "nop", F2(0, 4), 0xfeffffff, "", 0, v6 }, /* sethi 0, %g0 */
1668 { "set", F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,d", F_ALIAS, v6 },
1669 { "setuw", F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,d", F_ALIAS, v9 },
1670 { "setsw", F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,d", F_ALIAS, v9 },
1671 { "setx", F2(0x0, 0x4), F2(~0x0, ~0x4), "S0,1,d", F_ALIAS, v9 },
1673 { "sethi", F2(0x0, 0x4), F2(~0x0, ~0x4), "h,d", 0, v6 },
1675 { "taddcc", F3(2, 0x20, 0), F3(~2, ~0x20, ~0)|ASI(~0), "1,2,d", 0, v6 },
1676 { "taddcc", F3(2, 0x20, 1), F3(~2, ~0x20, ~1), "1,i,d", 0, v6 },
1677 { "taddcc", F3(2, 0x20, 1), F3(~2, ~0x20, ~1), "i,1,d", 0, v6 },
1678 { "taddcctv", F3(2, 0x22, 0), F3(~2, ~0x22, ~0)|ASI(~0), "1,2,d", 0, v6 },
1679 { "taddcctv", F3(2, 0x22, 1), F3(~2, ~0x22, ~1), "1,i,d", 0, v6 },
1680 { "taddcctv", F3(2, 0x22, 1), F3(~2, ~0x22, ~1), "i,1,d", 0, v6 },
1682 { "tsubcc", F3(2, 0x21, 0), F3(~2, ~0x21, ~0)|ASI(~0), "1,2,d", 0, v6 },
1683 { "tsubcc", F3(2, 0x21, 1), F3(~2, ~0x21, ~1), "1,i,d", 0, v6 },
1684 { "tsubcctv", F3(2, 0x23, 0), F3(~2, ~0x23, ~0)|ASI(~0), "1,2,d", 0, v6 },
1685 { "tsubcctv", F3(2, 0x23, 1), F3(~2, ~0x23, ~1), "1,i,d", 0, v6 },
1687 { "unimp", F2(0x0, 0x0), 0xffc00000, "n", 0, v6notv9 },
1688 { "illtrap", F2(0, 0), F2(~0, ~0)|RD_G0, "n", 0, v9 },
1690 /* This *is* a commutative instruction. */
1691 { "xnor", F3(2, 0x07, 0), F3(~2, ~0x07, ~0)|ASI(~0), "1,2,d", 0, v6 },
1692 { "xnor", F3(2, 0x07, 1), F3(~2, ~0x07, ~1), "1,i,d", 0, v6 },
1693 { "xnor", F3(2, 0x07, 1), F3(~2, ~0x07, ~1), "i,1,d", 0, v6 },
1694 /* This *is* a commutative instruction. */
1695 { "xnorcc", F3(2, 0x17, 0), F3(~2, ~0x17, ~0)|ASI(~0), "1,2,d", 0, v6 },
1696 { "xnorcc", F3(2, 0x17, 1), F3(~2, ~0x17, ~1), "1,i,d", 0, v6 },
1697 { "xnorcc", F3(2, 0x17, 1), F3(~2, ~0x17, ~1), "i,1,d", 0, v6 },
1698 { "xor", F3(2, 0x03, 0), F3(~2, ~0x03, ~0)|ASI(~0), "1,2,d", 0, v6 },
1699 { "xor", F3(2, 0x03, 1), F3(~2, ~0x03, ~1), "1,i,d", 0, v6 },
1700 { "xor", F3(2, 0x03, 1), F3(~2, ~0x03, ~1), "i,1,d", 0, v6 },
1701 { "xorcc", F3(2, 0x13, 0), F3(~2, ~0x13, ~0)|ASI(~0), "1,2,d", 0, v6 },
1702 { "xorcc", F3(2, 0x13, 1), F3(~2, ~0x13, ~1), "1,i,d", 0, v6 },
1703 { "xorcc", F3(2, 0x13, 1), F3(~2, ~0x13, ~1), "i,1,d", 0, v6 },
1705 { "not", F3(2, 0x07, 0), F3(~2, ~0x07, ~0)|ASI(~0), "1,d", F_ALIAS, v6 }, /* xnor rs1,%0,rd */
1706 { "not", F3(2, 0x07, 0), F3(~2, ~0x07, ~0)|ASI(~0), "r", F_ALIAS, v6 }, /* xnor rd,%0,rd */
1708 { "btog", F3(2, 0x03, 0), F3(~2, ~0x03, ~0)|ASI(~0), "2,r", F_ALIAS, v6 }, /* xor rd,rs2,rd */
1709 { "btog", F3(2, 0x03, 1), F3(~2, ~0x03, ~1), "i,r", F_ALIAS, v6 }, /* xor rd,i,rd */
1711 /* FPop1 and FPop2 are not instructions. Don't accept them. */
1713 { "fdtoi", F3F(2, 0x34, 0x0d2), F3F(~2, ~0x34, ~0x0d2)|RS1_G0, "B,g", F_FLOAT, v6 },
1714 { "fstoi", F3F(2, 0x34, 0x0d1), F3F(~2, ~0x34, ~0x0d1)|RS1_G0, "f,g", F_FLOAT, v6 },
1715 { "fqtoi", F3F(2, 0x34, 0x0d3), F3F(~2, ~0x34, ~0x0d3)|RS1_G0, "R,g", F_FLOAT, v8 },
1717 { "fdtox", F3F(2, 0x34, 0x082), F3F(~2, ~0x34, ~0x082)|RS1_G0, "B,H", F_FLOAT, v9 },
1718 { "fstox", F3F(2, 0x34, 0x081), F3F(~2, ~0x34, ~0x081)|RS1_G0, "f,H", F_FLOAT, v9 },
1719 { "fqtox", F3F(2, 0x34, 0x083), F3F(~2, ~0x34, ~0x083)|RS1_G0, "R,H", F_FLOAT, v9 },
1721 { "fitod", F3F(2, 0x34, 0x0c8), F3F(~2, ~0x34, ~0x0c8)|RS1_G0, "f,H", F_FLOAT, v6 },
1722 { "fitos", F3F(2, 0x34, 0x0c4), F3F(~2, ~0x34, ~0x0c4)|RS1_G0, "f,g", F_FLOAT, v6 },
1723 { "fitoq", F3F(2, 0x34, 0x0cc), F3F(~2, ~0x34, ~0x0cc)|RS1_G0, "f,J", F_FLOAT, v8 },
1725 { "fxtod", F3F(2, 0x34, 0x088), F3F(~2, ~0x34, ~0x088)|RS1_G0, "B,H", F_FLOAT, v9 },
1726 { "fxtos", F3F(2, 0x34, 0x084), F3F(~2, ~0x34, ~0x084)|RS1_G0, "B,g", F_FLOAT, v9 },
1727 { "fxtoq", F3F(2, 0x34, 0x08c), F3F(~2, ~0x34, ~0x08c)|RS1_G0, "B,J", F_FLOAT, v9 },
1729 { "fdtoq", F3F(2, 0x34, 0x0ce), F3F(~2, ~0x34, ~0x0ce)|RS1_G0, "B,J", F_FLOAT, v8 },
1730 { "fdtos", F3F(2, 0x34, 0x0c6), F3F(~2, ~0x34, ~0x0c6)|RS1_G0, "B,g", F_FLOAT, v6 },
1731 { "fqtod", F3F(2, 0x34, 0x0cb), F3F(~2, ~0x34, ~0x0cb)|RS1_G0, "R,H", F_FLOAT, v8 },
1732 { "fqtos", F3F(2, 0x34, 0x0c7), F3F(~2, ~0x34, ~0x0c7)|RS1_G0, "R,g", F_FLOAT, v8 },
1733 { "fstod", F3F(2, 0x34, 0x0c9), F3F(~2, ~0x34, ~0x0c9)|RS1_G0, "f,H", F_FLOAT, v6 },
1734 { "fstoq", F3F(2, 0x34, 0x0cd), F3F(~2, ~0x34, ~0x0cd)|RS1_G0, "f,J", F_FLOAT, v8 },
1736 { "fdivd", F3F(2, 0x34, 0x04e), F3F(~2, ~0x34, ~0x04e), "v,B,H", F_FLOAT, v6 },
1737 { "fdivq", F3F(2, 0x34, 0x04f), F3F(~2, ~0x34, ~0x04f), "V,R,J", F_FLOAT, v8 },
1738 { "fdivx", F3F(2, 0x34, 0x04f), F3F(~2, ~0x34, ~0x04f), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1739 { "fdivs", F3F(2, 0x34, 0x04d), F3F(~2, ~0x34, ~0x04d), "e,f,g", F_FLOAT, v6 },
1740 { "fmuld", F3F(2, 0x34, 0x04a), F3F(~2, ~0x34, ~0x04a), "v,B,H", F_FLOAT, v6 },
1741 { "fmulq", F3F(2, 0x34, 0x04b), F3F(~2, ~0x34, ~0x04b), "V,R,J", F_FLOAT, v8 },
1742 { "fmulx", F3F(2, 0x34, 0x04b), F3F(~2, ~0x34, ~0x04b), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1743 { "fmuls", F3F(2, 0x34, 0x049), F3F(~2, ~0x34, ~0x049), "e,f,g", F_FLOAT, v6 },
1745 { "fdmulq", F3F(2, 0x34, 0x06e), F3F(~2, ~0x34, ~0x06e), "v,B,J", F_FLOAT, v8 },
1746 { "fdmulx", F3F(2, 0x34, 0x06e), F3F(~2, ~0x34, ~0x06e), "v,B,J", F_FLOAT|F_ALIAS, v8 },
1747 { "fsmuld", F3F(2, 0x34, 0x069), F3F(~2, ~0x34, ~0x069), "e,f,H", F_FLOAT, v8 },
1749 { "fsqrtd", F3F(2, 0x34, 0x02a), F3F(~2, ~0x34, ~0x02a)|RS1_G0, "B,H", F_FLOAT, v7 },
1750 { "fsqrtq", F3F(2, 0x34, 0x02b), F3F(~2, ~0x34, ~0x02b)|RS1_G0, "R,J", F_FLOAT, v8 },
1751 { "fsqrtx", F3F(2, 0x34, 0x02b), F3F(~2, ~0x34, ~0x02b)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v8 },
1752 { "fsqrts", F3F(2, 0x34, 0x029), F3F(~2, ~0x34, ~0x029)|RS1_G0, "f,g", F_FLOAT, v7 },
1754 { "fabsd", F3F(2, 0x34, 0x00a), F3F(~2, ~0x34, ~0x00a)|RS1_G0, "B,H", F_FLOAT, v9 },
1755 { "fabsq", F3F(2, 0x34, 0x00b), F3F(~2, ~0x34, ~0x00b)|RS1_G0, "R,J", F_FLOAT, v9 },
1756 { "fabsx", F3F(2, 0x34, 0x00b), F3F(~2, ~0x34, ~0x00b)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v9 },
1757 { "fabss", F3F(2, 0x34, 0x009), F3F(~2, ~0x34, ~0x009)|RS1_G0, "f,g", F_FLOAT, v6 },
1758 { "fmovd", F3F(2, 0x34, 0x002), F3F(~2, ~0x34, ~0x002)|RS1_G0, "B,H", F_FLOAT, v9 },
1759 { "fmovq", F3F(2, 0x34, 0x003), F3F(~2, ~0x34, ~0x003)|RS1_G0, "R,J", F_FLOAT, v9 },
1760 { "fmovx", F3F(2, 0x34, 0x003), F3F(~2, ~0x34, ~0x003)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v9 },
1761 { "fmovs", F3F(2, 0x34, 0x001), F3F(~2, ~0x34, ~0x001)|RS1_G0, "f,g", F_FLOAT, v6 },
1762 { "fnegd", F3F(2, 0x34, 0x006), F3F(~2, ~0x34, ~0x006)|RS1_G0, "B,H", F_FLOAT, v9 },
1763 { "fnegq", F3F(2, 0x34, 0x007), F3F(~2, ~0x34, ~0x007)|RS1_G0, "R,J", F_FLOAT, v9 },
1764 { "fnegx", F3F(2, 0x34, 0x007), F3F(~2, ~0x34, ~0x007)|RS1_G0, "R,J", F_FLOAT|F_ALIAS, v9 },
1765 { "fnegs", F3F(2, 0x34, 0x005), F3F(~2, ~0x34, ~0x005)|RS1_G0, "f,g", F_FLOAT, v6 },
1767 { "faddd", F3F(2, 0x34, 0x042), F3F(~2, ~0x34, ~0x042), "v,B,H", F_FLOAT, v6 },
1768 { "faddq", F3F(2, 0x34, 0x043), F3F(~2, ~0x34, ~0x043), "V,R,J", F_FLOAT, v8 },
1769 { "faddx", F3F(2, 0x34, 0x043), F3F(~2, ~0x34, ~0x043), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1770 { "fadds", F3F(2, 0x34, 0x041), F3F(~2, ~0x34, ~0x041), "e,f,g", F_FLOAT, v6 },
1771 { "fsubd", F3F(2, 0x34, 0x046), F3F(~2, ~0x34, ~0x046), "v,B,H", F_FLOAT, v6 },
1772 { "fsubq", F3F(2, 0x34, 0x047), F3F(~2, ~0x34, ~0x047), "V,R,J", F_FLOAT, v8 },
1773 { "fsubx", F3F(2, 0x34, 0x047), F3F(~2, ~0x34, ~0x047), "V,R,J", F_FLOAT|F_ALIAS, v8 },
1774 { "fsubs", F3F(2, 0x34, 0x045), F3F(~2, ~0x34, ~0x045), "e,f,g", F_FLOAT, v6 },
1776 #define CMPFCC(x) (((x)&0x3)<<25)
1778 { "fcmpd", F3F(2, 0x35, 0x052), F3F(~2, ~0x35, ~0x052)|RD_G0, "v,B", F_FLOAT, v6 },
1779 { "fcmpd", CMPFCC(0)|F3F(2, 0x35, 0x052), CMPFCC(~0)|F3F(~2, ~0x35, ~0x052), "6,v,B", F_FLOAT, v9 },
1780 { "fcmpd", CMPFCC(1)|F3F(2, 0x35, 0x052), CMPFCC(~1)|F3F(~2, ~0x35, ~0x052), "7,v,B", F_FLOAT, v9 },
1781 { "fcmpd", CMPFCC(2)|F3F(2, 0x35, 0x052), CMPFCC(~2)|F3F(~2, ~0x35, ~0x052), "8,v,B", F_FLOAT, v9 },
1782 { "fcmpd", CMPFCC(3)|F3F(2, 0x35, 0x052), CMPFCC(~3)|F3F(~2, ~0x35, ~0x052), "9,v,B", F_FLOAT, v9 },
1783 { "fcmped", F3F(2, 0x35, 0x056), F3F(~2, ~0x35, ~0x056)|RD_G0, "v,B", F_FLOAT, v6 },
1784 { "fcmped", CMPFCC(0)|F3F(2, 0x35, 0x056), CMPFCC(~0)|F3F(~2, ~0x35, ~0x056), "6,v,B", F_FLOAT, v9 },
1785 { "fcmped", CMPFCC(1)|F3F(2, 0x35, 0x056), CMPFCC(~1)|F3F(~2, ~0x35, ~0x056), "7,v,B", F_FLOAT, v9 },
1786 { "fcmped", CMPFCC(2)|F3F(2, 0x35, 0x056), CMPFCC(~2)|F3F(~2, ~0x35, ~0x056), "8,v,B", F_FLOAT, v9 },
1787 { "fcmped", CMPFCC(3)|F3F(2, 0x35, 0x056), CMPFCC(~3)|F3F(~2, ~0x35, ~0x056), "9,v,B", F_FLOAT, v9 },
1788 { "fcmpq", F3F(2, 0x35, 0x053), F3F(~2, ~0x35, ~0x053)|RD_G0, "V,R", F_FLOAT, v8 },
1789 { "fcmpq", CMPFCC(0)|F3F(2, 0x35, 0x053), CMPFCC(~0)|F3F(~2, ~0x35, ~0x053), "6,V,R", F_FLOAT, v9 },
1790 { "fcmpq", CMPFCC(1)|F3F(2, 0x35, 0x053), CMPFCC(~1)|F3F(~2, ~0x35, ~0x053), "7,V,R", F_FLOAT, v9 },
1791 { "fcmpq", CMPFCC(2)|F3F(2, 0x35, 0x053), CMPFCC(~2)|F3F(~2, ~0x35, ~0x053), "8,V,R", F_FLOAT, v9 },
1792 { "fcmpq", CMPFCC(3)|F3F(2, 0x35, 0x053), CMPFCC(~3)|F3F(~2, ~0x35, ~0x053), "9,V,R", F_FLOAT, v9 },
1793 { "fcmpeq", F3F(2, 0x35, 0x057), F3F(~2, ~0x35, ~0x057)|RD_G0, "V,R", F_FLOAT, v8 },
1794 { "fcmpeq", CMPFCC(0)|F3F(2, 0x35, 0x057), CMPFCC(~0)|F3F(~2, ~0x35, ~0x057), "6,V,R", F_FLOAT, v9 },
1795 { "fcmpeq", CMPFCC(1)|F3F(2, 0x35, 0x057), CMPFCC(~1)|F3F(~2, ~0x35, ~0x057), "7,V,R", F_FLOAT, v9 },
1796 { "fcmpeq", CMPFCC(2)|F3F(2, 0x35, 0x057), CMPFCC(~2)|F3F(~2, ~0x35, ~0x057), "8,V,R", F_FLOAT, v9 },
1797 { "fcmpeq", CMPFCC(3)|F3F(2, 0x35, 0x057), CMPFCC(~3)|F3F(~2, ~0x35, ~0x057), "9,V,R", F_FLOAT, v9 },
1798 { "fcmpx", F3F(2, 0x35, 0x053), F3F(~2, ~0x35, ~0x053)|RD_G0, "V,R", F_FLOAT|F_ALIAS, v8 },
1799 { "fcmpx", CMPFCC(0)|F3F(2, 0x35, 0x053), CMPFCC(~0)|F3F(~2, ~0x35, ~0x053), "6,V,R", F_FLOAT|F_ALIAS, v9 },
1800 { "fcmpx", CMPFCC(1)|F3F(2, 0x35, 0x053), CMPFCC(~1)|F3F(~2, ~0x35, ~0x053), "7,V,R", F_FLOAT|F_ALIAS, v9 },
1801 { "fcmpx", CMPFCC(2)|F3F(2, 0x35, 0x053), CMPFCC(~2)|F3F(~2, ~0x35, ~0x053), "8,V,R", F_FLOAT|F_ALIAS, v9 },
1802 { "fcmpx", CMPFCC(3)|F3F(2, 0x35, 0x053), CMPFCC(~3)|F3F(~2, ~0x35, ~0x053), "9,V,R", F_FLOAT|F_ALIAS, v9 },
1803 { "fcmpex", F3F(2, 0x35, 0x057), F3F(~2, ~0x35, ~0x057)|RD_G0, "V,R", F_FLOAT|F_ALIAS, v8 },
1804 { "fcmpex", CMPFCC(0)|F3F(2, 0x35, 0x057), CMPFCC(~0)|F3F(~2, ~0x35, ~0x057), "6,V,R", F_FLOAT|F_ALIAS, v9 },
1805 { "fcmpex", CMPFCC(1)|F3F(2, 0x35, 0x057), CMPFCC(~1)|F3F(~2, ~0x35, ~0x057), "7,V,R", F_FLOAT|F_ALIAS, v9 },
1806 { "fcmpex", CMPFCC(2)|F3F(2, 0x35, 0x057), CMPFCC(~2)|F3F(~2, ~0x35, ~0x057), "8,V,R", F_FLOAT|F_ALIAS, v9 },
1807 { "fcmpex", CMPFCC(3)|F3F(2, 0x35, 0x057), CMPFCC(~3)|F3F(~2, ~0x35, ~0x057), "9,V,R", F_FLOAT|F_ALIAS, v9 },
1808 { "fcmps", F3F(2, 0x35, 0x051), F3F(~2, ~0x35, ~0x051)|RD_G0, "e,f", F_FLOAT, v6 },
1809 { "fcmps", CMPFCC(0)|F3F(2, 0x35, 0x051), CMPFCC(~0)|F3F(~2, ~0x35, ~0x051), "6,e,f", F_FLOAT, v9 },
1810 { "fcmps", CMPFCC(1)|F3F(2, 0x35, 0x051), CMPFCC(~1)|F3F(~2, ~0x35, ~0x051), "7,e,f", F_FLOAT, v9 },
1811 { "fcmps", CMPFCC(2)|F3F(2, 0x35, 0x051), CMPFCC(~2)|F3F(~2, ~0x35, ~0x051), "8,e,f", F_FLOAT, v9 },
1812 { "fcmps", CMPFCC(3)|F3F(2, 0x35, 0x051), CMPFCC(~3)|F3F(~2, ~0x35, ~0x051), "9,e,f", F_FLOAT, v9 },
1813 { "fcmpes", F3F(2, 0x35, 0x055), F3F(~2, ~0x35, ~0x055)|RD_G0, "e,f", F_FLOAT, v6 },
1814 { "fcmpes", CMPFCC(0)|F3F(2, 0x35, 0x055), CMPFCC(~0)|F3F(~2, ~0x35, ~0x055), "6,e,f", F_FLOAT, v9 },
1815 { "fcmpes", CMPFCC(1)|F3F(2, 0x35, 0x055), CMPFCC(~1)|F3F(~2, ~0x35, ~0x055), "7,e,f", F_FLOAT, v9 },
1816 { "fcmpes", CMPFCC(2)|F3F(2, 0x35, 0x055), CMPFCC(~2)|F3F(~2, ~0x35, ~0x055), "8,e,f", F_FLOAT, v9 },
1817 { "fcmpes", CMPFCC(3)|F3F(2, 0x35, 0x055), CMPFCC(~3)|F3F(~2, ~0x35, ~0x055), "9,e,f", F_FLOAT, v9 },
1819 /* These Extended FPop (FIFO) instructions are new in the Fujitsu
1820 MB86934, replacing the CPop instructions from v6 and later
1821 processors. */
1823 #define EFPOP1_2(name, op, args) { name, F3F(2, 0x36, op), F3F(~2, ~0x36, ~op)|RS1_G0, args, 0, sparclite }
1824 #define EFPOP1_3(name, op, args) { name, F3F(2, 0x36, op), F3F(~2, ~0x36, ~op), args, 0, sparclite }
1825 #define EFPOP2_2(name, op, args) { name, F3F(2, 0x37, op), F3F(~2, ~0x37, ~op)|RD_G0, args, 0, sparclite }
1827 EFPOP1_2 ("efitod", 0x0c8, "f,H"),
1828 EFPOP1_2 ("efitos", 0x0c4, "f,g"),
1829 EFPOP1_2 ("efdtoi", 0x0d2, "B,g"),
1830 EFPOP1_2 ("efstoi", 0x0d1, "f,g"),
1831 EFPOP1_2 ("efstod", 0x0c9, "f,H"),
1832 EFPOP1_2 ("efdtos", 0x0c6, "B,g"),
1833 EFPOP1_2 ("efmovs", 0x001, "f,g"),
1834 EFPOP1_2 ("efnegs", 0x005, "f,g"),
1835 EFPOP1_2 ("efabss", 0x009, "f,g"),
1836 EFPOP1_2 ("efsqrtd", 0x02a, "B,H"),
1837 EFPOP1_2 ("efsqrts", 0x029, "f,g"),
1838 EFPOP1_3 ("efaddd", 0x042, "v,B,H"),
1839 EFPOP1_3 ("efadds", 0x041, "e,f,g"),
1840 EFPOP1_3 ("efsubd", 0x046, "v,B,H"),
1841 EFPOP1_3 ("efsubs", 0x045, "e,f,g"),
1842 EFPOP1_3 ("efdivd", 0x04e, "v,B,H"),
1843 EFPOP1_3 ("efdivs", 0x04d, "e,f,g"),
1844 EFPOP1_3 ("efmuld", 0x04a, "v,B,H"),
1845 EFPOP1_3 ("efmuls", 0x049, "e,f,g"),
1846 EFPOP1_3 ("efsmuld", 0x069, "e,f,H"),
1847 EFPOP2_2 ("efcmpd", 0x052, "v,B"),
1848 EFPOP2_2 ("efcmped", 0x056, "v,B"),
1849 EFPOP2_2 ("efcmps", 0x051, "e,f"),
1850 EFPOP2_2 ("efcmpes", 0x055, "e,f"),
1852 #undef EFPOP1_2
1853 #undef EFPOP1_3
1854 #undef EFPOP2_2
1856 /* These are marked F_ALIAS, so that they won't conflict with sparclite insns
1857 present. Otherwise, the F_ALIAS flag is ignored. */
1858 { "cpop1", F3(2, 0x36, 0), F3(~2, ~0x36, ~1), "[1+2],d", F_ALIAS, v6notv9 },
1859 { "cpop2", F3(2, 0x37, 0), F3(~2, ~0x37, ~1), "[1+2],d", F_ALIAS, v6notv9 },
1861 /* sparclet specific insns */
1863 COMMUTEOP ("umac", 0x3e, sparclet),
1864 COMMUTEOP ("smac", 0x3f, sparclet),
1865 COMMUTEOP ("umacd", 0x2e, sparclet),
1866 COMMUTEOP ("smacd", 0x2f, sparclet),
1867 COMMUTEOP ("umuld", 0x09, sparclet),
1868 COMMUTEOP ("smuld", 0x0d, sparclet),
1870 { "shuffle", F3(2, 0x2d, 0), F3(~2, ~0x2d, ~0)|ASI(~0), "1,2,d", 0, sparclet },
1871 { "shuffle", F3(2, 0x2d, 1), F3(~2, ~0x2d, ~1), "1,i,d", 0, sparclet },
1873 /* The manual isn't completely accurate on these insns. The `rs2' field is
1874 treated as being 6 bits to account for 6 bit immediates to cpush. It is
1875 assumed that it is intended that bit 5 is 0 when rs2 contains a reg. */
1876 #define BIT5 (1<<5)
1877 { "crdcxt", F3(2, 0x36, 0)|SLCPOP(4), F3(~2, ~0x36, ~0)|SLCPOP(~4)|BIT5|RS2(~0), "U,d", 0, sparclet },
1878 { "cwrcxt", F3(2, 0x36, 0)|SLCPOP(3), F3(~2, ~0x36, ~0)|SLCPOP(~3)|BIT5|RS2(~0), "1,u", 0, sparclet },
1879 { "cpush", F3(2, 0x36, 0)|SLCPOP(0), F3(~2, ~0x36, ~0)|SLCPOP(~0)|BIT5|RD(~0), "1,2", 0, sparclet },
1880 { "cpush", F3(2, 0x36, 1)|SLCPOP(0), F3(~2, ~0x36, ~1)|SLCPOP(~0)|RD(~0), "1,Y", 0, sparclet },
1881 { "cpusha", F3(2, 0x36, 0)|SLCPOP(1), F3(~2, ~0x36, ~0)|SLCPOP(~1)|BIT5|RD(~0), "1,2", 0, sparclet },
1882 { "cpusha", F3(2, 0x36, 1)|SLCPOP(1), F3(~2, ~0x36, ~1)|SLCPOP(~1)|RD(~0), "1,Y", 0, sparclet },
1883 { "cpull", F3(2, 0x36, 0)|SLCPOP(2), F3(~2, ~0x36, ~0)|SLCPOP(~2)|BIT5|RS1(~0)|RS2(~0), "d", 0, sparclet },
1884 #undef BIT5
1886 /* sparclet coprocessor branch insns */
1887 #define SLCBCC2(opcode, mask, lose) \
1888 { opcode, (mask), ANNUL|(lose), "l", F_DELAYED|F_CONDBR, sparclet }, \
1889 { opcode, (mask)|ANNUL, (lose), ",a l", F_DELAYED|F_CONDBR, sparclet }
1890 #define SLCBCC(opcode, mask) \
1891 SLCBCC2(opcode, F2(0, 7)|COND(mask), F2(~0, ~7)|COND(~(mask)))
1893 /* cbn,cba can't be defined here because they're defined elsewhere and GAS
1894 requires all mnemonics of the same name to be consecutive. */
1895 /*SLCBCC("cbn", 0), - already defined */
1896 SLCBCC("cbe", 1),
1897 SLCBCC("cbf", 2),
1898 SLCBCC("cbef", 3),
1899 SLCBCC("cbr", 4),
1900 SLCBCC("cber", 5),
1901 SLCBCC("cbfr", 6),
1902 SLCBCC("cbefr", 7),
1903 /*SLCBCC("cba", 8), - already defined */
1904 SLCBCC("cbne", 9),
1905 SLCBCC("cbnf", 10),
1906 SLCBCC("cbnef", 11),
1907 SLCBCC("cbnr", 12),
1908 SLCBCC("cbner", 13),
1909 SLCBCC("cbnfr", 14),
1910 SLCBCC("cbnefr", 15),
1912 #undef SLCBCC2
1913 #undef SLCBCC
1915 { "casa", F3(3, 0x3c, 0), F3(~3, ~0x3c, ~0), "[1]A,2,d", 0, v9 },
1916 { "casa", F3(3, 0x3c, 1), F3(~3, ~0x3c, ~1), "[1]o,2,d", 0, v9 },
1917 { "casxa", F3(3, 0x3e, 0), F3(~3, ~0x3e, ~0), "[1]A,2,d", 0, v9 },
1918 { "casxa", F3(3, 0x3e, 1), F3(~3, ~0x3e, ~1), "[1]o,2,d", 0, v9 },
1920 /* v9 synthetic insns */
1921 { "iprefetch", F2(0, 1)|(2<<20)|BPRED, F2(~0, ~1)|(1<<20)|ANNUL|COND(~0), "G", 0, v9 }, /* bn,a,pt %xcc,label */
1922 { "signx", F3(2, 0x27, 0), F3(~2, ~0x27, ~0)|(1<<12)|ASI(~0)|RS2_G0, "1,d", F_ALIAS, v9 }, /* sra rs1,%g0,rd */
1923 { "signx", F3(2, 0x27, 0), F3(~2, ~0x27, ~0)|(1<<12)|ASI(~0)|RS2_G0, "r", F_ALIAS, v9 }, /* sra rd,%g0,rd */
1924 { "clruw", F3(2, 0x26, 0), F3(~2, ~0x26, ~0)|(1<<12)|ASI(~0)|RS2_G0, "1,d", F_ALIAS, v9 }, /* srl rs1,%g0,rd */
1925 { "clruw", F3(2, 0x26, 0), F3(~2, ~0x26, ~0)|(1<<12)|ASI(~0)|RS2_G0, "r", F_ALIAS, v9 }, /* srl rd,%g0,rd */
1926 { "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 */
1927 { "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 */
1928 { "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 */
1929 { "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 */
1931 /* Ultrasparc extensions */
1932 { "shutdown", F3F(2, 0x36, 0x080), F3F(~2, ~0x36, ~0x080)|RD_G0|RS1_G0|RS2_G0, "", 0, v9a },
1934 /* FIXME: Do we want to mark these as F_FLOAT, or something similar? */
1935 { "fpadd16", F3F(2, 0x36, 0x050), F3F(~2, ~0x36, ~0x050), "v,B,H", 0, v9a },
1936 { "fpadd16s", F3F(2, 0x36, 0x051), F3F(~2, ~0x36, ~0x051), "e,f,g", 0, v9a },
1937 { "fpadd32", F3F(2, 0x36, 0x052), F3F(~2, ~0x36, ~0x052), "v,B,H", 0, v9a },
1938 { "fpadd32s", F3F(2, 0x36, 0x053), F3F(~2, ~0x36, ~0x053), "e,f,g", 0, v9a },
1939 { "fpsub16", F3F(2, 0x36, 0x054), F3F(~2, ~0x36, ~0x054), "v,B,H", 0, v9a },
1940 { "fpsub16s", F3F(2, 0x36, 0x055), F3F(~2, ~0x36, ~0x055), "e,f,g", 0, v9a },
1941 { "fpsub32", F3F(2, 0x36, 0x056), F3F(~2, ~0x36, ~0x056), "v,B,H", 0, v9a },
1942 { "fpsub32s", F3F(2, 0x36, 0x057), F3F(~2, ~0x36, ~0x057), "e,f,g", 0, v9a },
1944 { "fpack32", F3F(2, 0x36, 0x03a), F3F(~2, ~0x36, ~0x03a), "v,B,H", 0, v9a },
1945 { "fpack16", F3F(2, 0x36, 0x03b), F3F(~2, ~0x36, ~0x03b)|RS1_G0, "B,g", 0, v9a },
1946 { "fpackfix", F3F(2, 0x36, 0x03d), F3F(~2, ~0x36, ~0x03d)|RS1_G0, "B,g", 0, v9a },
1947 { "fexpand", F3F(2, 0x36, 0x04d), F3F(~2, ~0x36, ~0x04d)|RS1_G0, "f,H", 0, v9a },
1948 { "fpmerge", F3F(2, 0x36, 0x04b), F3F(~2, ~0x36, ~0x04b), "e,f,H", 0, v9a },
1950 /* Note that the mixing of 32/64 bit regs is intentional. */
1951 { "fmul8x16", F3F(2, 0x36, 0x031), F3F(~2, ~0x36, ~0x031), "e,B,H", 0, v9a },
1952 { "fmul8x16au", F3F(2, 0x36, 0x033), F3F(~2, ~0x36, ~0x033), "e,f,H", 0, v9a },
1953 { "fmul8x16al", F3F(2, 0x36, 0x035), F3F(~2, ~0x36, ~0x035), "e,f,H", 0, v9a },
1954 { "fmul8sux16", F3F(2, 0x36, 0x036), F3F(~2, ~0x36, ~0x036), "v,B,H", 0, v9a },
1955 { "fmul8ulx16", F3F(2, 0x36, 0x037), F3F(~2, ~0x36, ~0x037), "v,B,H", 0, v9a },
1956 { "fmuld8sux16", F3F(2, 0x36, 0x038), F3F(~2, ~0x36, ~0x038), "e,f,H", 0, v9a },
1957 { "fmuld8ulx16", F3F(2, 0x36, 0x039), F3F(~2, ~0x36, ~0x039), "e,f,H", 0, v9a },
1959 { "alignaddr", F3F(2, 0x36, 0x018), F3F(~2, ~0x36, ~0x018), "1,2,d", 0, v9a },
1960 { "alignaddrl", F3F(2, 0x36, 0x01a), F3F(~2, ~0x36, ~0x01a), "1,2,d", 0, v9a },
1961 { "faligndata", F3F(2, 0x36, 0x048), F3F(~2, ~0x36, ~0x048), "v,B,H", 0, v9a },
1963 { "fzero", F3F(2, 0x36, 0x060), F3F(~2, ~0x36, ~0x060), "H", 0, v9a },
1964 { "fzeros", F3F(2, 0x36, 0x061), F3F(~2, ~0x36, ~0x061), "g", 0, v9a },
1965 { "fone", F3F(2, 0x36, 0x07e), F3F(~2, ~0x36, ~0x07e), "H", 0, v9a },
1966 { "fones", F3F(2, 0x36, 0x07f), F3F(~2, ~0x36, ~0x07f), "g", 0, v9a },
1967 { "fsrc1", F3F(2, 0x36, 0x074), F3F(~2, ~0x36, ~0x074), "v,H", 0, v9a },
1968 { "fsrc1s", F3F(2, 0x36, 0x075), F3F(~2, ~0x36, ~0x075), "e,g", 0, v9a },
1969 { "fsrc2", F3F(2, 0x36, 0x078), F3F(~2, ~0x36, ~0x078), "B,H", 0, v9a },
1970 { "fsrc2s", F3F(2, 0x36, 0x079), F3F(~2, ~0x36, ~0x079), "f,g", 0, v9a },
1971 { "fnot1", F3F(2, 0x36, 0x06a), F3F(~2, ~0x36, ~0x06a), "v,H", 0, v9a },
1972 { "fnot1s", F3F(2, 0x36, 0x06b), F3F(~2, ~0x36, ~0x06b), "e,g", 0, v9a },
1973 { "fnot2", F3F(2, 0x36, 0x066), F3F(~2, ~0x36, ~0x066), "B,H", 0, v9a },
1974 { "fnot2s", F3F(2, 0x36, 0x067), F3F(~2, ~0x36, ~0x067), "f,g", 0, v9a },
1975 { "for", F3F(2, 0x36, 0x07c), F3F(~2, ~0x36, ~0x07c), "v,B,H", 0, v9a },
1976 { "fors", F3F(2, 0x36, 0x07d), F3F(~2, ~0x36, ~0x07d), "e,f,g", 0, v9a },
1977 { "fnor", F3F(2, 0x36, 0x062), F3F(~2, ~0x36, ~0x062), "v,B,H", 0, v9a },
1978 { "fnors", F3F(2, 0x36, 0x063), F3F(~2, ~0x36, ~0x063), "e,f,g", 0, v9a },
1979 { "fand", F3F(2, 0x36, 0x070), F3F(~2, ~0x36, ~0x070), "v,B,H", 0, v9a },
1980 { "fands", F3F(2, 0x36, 0x071), F3F(~2, ~0x36, ~0x071), "e,f,g", 0, v9a },
1981 { "fnand", F3F(2, 0x36, 0x06e), F3F(~2, ~0x36, ~0x06e), "v,B,H", 0, v9a },
1982 { "fnands", F3F(2, 0x36, 0x06f), F3F(~2, ~0x36, ~0x06f), "e,f,g", 0, v9a },
1983 { "fxor", F3F(2, 0x36, 0x06c), F3F(~2, ~0x36, ~0x06c), "v,B,H", 0, v9a },
1984 { "fxors", F3F(2, 0x36, 0x06d), F3F(~2, ~0x36, ~0x06d), "e,f,g", 0, v9a },
1985 { "fxnor", F3F(2, 0x36, 0x072), F3F(~2, ~0x36, ~0x072), "v,B,H", 0, v9a },
1986 { "fxnors", F3F(2, 0x36, 0x073), F3F(~2, ~0x36, ~0x073), "e,f,g", 0, v9a },
1987 { "fornot1", F3F(2, 0x36, 0x07a), F3F(~2, ~0x36, ~0x07a), "v,B,H", 0, v9a },
1988 { "fornot1s", F3F(2, 0x36, 0x07b), F3F(~2, ~0x36, ~0x07b), "e,f,g", 0, v9a },
1989 { "fornot2", F3F(2, 0x36, 0x076), F3F(~2, ~0x36, ~0x076), "v,B,H", 0, v9a },
1990 { "fornot2s", F3F(2, 0x36, 0x077), F3F(~2, ~0x36, ~0x077), "e,f,g", 0, v9a },
1991 { "fandnot1", F3F(2, 0x36, 0x068), F3F(~2, ~0x36, ~0x068), "v,B,H", 0, v9a },
1992 { "fandnot1s", F3F(2, 0x36, 0x069), F3F(~2, ~0x36, ~0x069), "e,f,g", 0, v9a },
1993 { "fandnot2", F3F(2, 0x36, 0x064), F3F(~2, ~0x36, ~0x064), "v,B,H", 0, v9a },
1994 { "fandnot2s", F3F(2, 0x36, 0x065), F3F(~2, ~0x36, ~0x065), "e,f,g", 0, v9a },
1996 { "fcmpgt16", F3F(2, 0x36, 0x028), F3F(~2, ~0x36, ~0x028), "v,B,d", 0, v9a },
1997 { "fcmpgt32", F3F(2, 0x36, 0x02c), F3F(~2, ~0x36, ~0x02c), "v,B,d", 0, v9a },
1998 { "fcmple16", F3F(2, 0x36, 0x020), F3F(~2, ~0x36, ~0x020), "v,B,d", 0, v9a },
1999 { "fcmple32", F3F(2, 0x36, 0x024), F3F(~2, ~0x36, ~0x024), "v,B,d", 0, v9a },
2000 { "fcmpne16", F3F(2, 0x36, 0x022), F3F(~2, ~0x36, ~0x022), "v,B,d", 0, v9a },
2001 { "fcmpne32", F3F(2, 0x36, 0x026), F3F(~2, ~0x36, ~0x026), "v,B,d", 0, v9a },
2002 { "fcmpeq16", F3F(2, 0x36, 0x02a), F3F(~2, ~0x36, ~0x02a), "v,B,d", 0, v9a },
2003 { "fcmpeq32", F3F(2, 0x36, 0x02e), F3F(~2, ~0x36, ~0x02e), "v,B,d", 0, v9a },
2005 { "edge8", F3F(2, 0x36, 0x000), F3F(~2, ~0x36, ~0x000), "1,2,d", 0, v9a },
2006 { "edge8l", F3F(2, 0x36, 0x002), F3F(~2, ~0x36, ~0x002), "1,2,d", 0, v9a },
2007 { "edge16", F3F(2, 0x36, 0x004), F3F(~2, ~0x36, ~0x004), "1,2,d", 0, v9a },
2008 { "edge16l", F3F(2, 0x36, 0x006), F3F(~2, ~0x36, ~0x006), "1,2,d", 0, v9a },
2009 { "edge32", F3F(2, 0x36, 0x008), F3F(~2, ~0x36, ~0x008), "1,2,d", 0, v9a },
2010 { "edge32l", F3F(2, 0x36, 0x00a), F3F(~2, ~0x36, ~0x00a), "1,2,d", 0, v9a },
2012 { "pdist", F3F(2, 0x36, 0x03e), F3F(~2, ~0x36, ~0x03e), "v,B,H", 0, v9a },
2014 { "array8", F3F(2, 0x36, 0x010), F3F(~2, ~0x36, ~0x010), "1,2,d", 0, v9a },
2015 { "array16", F3F(2, 0x36, 0x012), F3F(~2, ~0x36, ~0x012), "1,2,d", 0, v9a },
2016 { "array32", F3F(2, 0x36, 0x014), F3F(~2, ~0x36, ~0x014), "1,2,d", 0, v9a },
2018 /* Cheetah instructions */
2019 { "edge8n", F3F(2, 0x36, 0x001), F3F(~2, ~0x36, ~0x001), "1,2,d", 0, v9b },
2020 { "edge8ln", F3F(2, 0x36, 0x003), F3F(~2, ~0x36, ~0x003), "1,2,d", 0, v9b },
2021 { "edge16n", F3F(2, 0x36, 0x005), F3F(~2, ~0x36, ~0x005), "1,2,d", 0, v9b },
2022 { "edge16ln", F3F(2, 0x36, 0x007), F3F(~2, ~0x36, ~0x007), "1,2,d", 0, v9b },
2023 { "edge32n", F3F(2, 0x36, 0x009), F3F(~2, ~0x36, ~0x009), "1,2,d", 0, v9b },
2024 { "edge32ln", F3F(2, 0x36, 0x00b), F3F(~2, ~0x36, ~0x00b), "1,2,d", 0, v9b },
2026 { "bmask", F3F(2, 0x36, 0x019), F3F(~2, ~0x36, ~0x019), "1,2,d", 0, v9b },
2027 { "bshuffle", F3F(2, 0x36, 0x04c), F3F(~2, ~0x36, ~0x04c), "v,B,H", 0, v9b },
2029 { "siam", F3F(2, 0x36, 0x081), F3F(~2, ~0x36, ~0x081)|RD_G0|RS1_G0|RS2(~7), "3", 0, v9b },
2031 /* More v9 specific insns, these need to come last so they do not clash
2032 with v9a instructions such as "edge8" which looks like impdep1. */
2034 #define IMPDEP(name, code) \
2035 { name, F3(2, code, 0), F3(~2, ~code, ~0)|ASI(~0), "1,2,d", 0, v9notv9a }, \
2036 { name, F3(2, code, 1), F3(~2, ~code, ~1), "1,i,d", 0, v9notv9a }, \
2037 { name, F3(2, code, 0), F3(~2, ~code, ~0), "x,1,2,d", 0, v9notv9a }, \
2038 { name, F3(2, code, 0), F3(~2, ~code, ~0), "x,e,f,g", 0, v9notv9a }
2040 IMPDEP ("impdep1", 0x36),
2041 IMPDEP ("impdep2", 0x37),
2043 #undef IMPDEP
2047 static const int sparc_num_opcodes = ((sizeof sparc_opcodes)/(sizeof sparc_opcodes[0]));
2049 /* Utilities for argument parsing. */
2051 typedef struct
2053 int value;
2054 const char *name;
2055 } arg;
2057 /* Look up VALUE in TABLE. */
2059 static const char *
2060 lookup_value (const arg *table, int value)
2062 const arg *p;
2064 for (p = table; p->name; ++p)
2065 if (value == p->value)
2066 return p->name;
2068 return NULL;
2071 /* Handle ASI's. */
2073 static const arg asi_table_v8[] =
2075 { 0x00, "#ASI_M_RES00" },
2076 { 0x01, "#ASI_M_UNA01" },
2077 { 0x02, "#ASI_M_MXCC" },
2078 { 0x03, "#ASI_M_FLUSH_PROBE" },
2079 { 0x04, "#ASI_M_MMUREGS" },
2080 { 0x05, "#ASI_M_TLBDIAG" },
2081 { 0x06, "#ASI_M_DIAGS" },
2082 { 0x07, "#ASI_M_IODIAG" },
2083 { 0x08, "#ASI_M_USERTXT" },
2084 { 0x09, "#ASI_M_KERNELTXT" },
2085 { 0x0A, "#ASI_M_USERDATA" },
2086 { 0x0B, "#ASI_M_KERNELDATA" },
2087 { 0x0C, "#ASI_M_TXTC_TAG" },
2088 { 0x0D, "#ASI_M_TXTC_DATA" },
2089 { 0x0E, "#ASI_M_DATAC_TAG" },
2090 { 0x0F, "#ASI_M_DATAC_DATA" },
2091 { 0x10, "#ASI_M_FLUSH_PAGE" },
2092 { 0x11, "#ASI_M_FLUSH_SEG" },
2093 { 0x12, "#ASI_M_FLUSH_REGION" },
2094 { 0x13, "#ASI_M_FLUSH_CTX" },
2095 { 0x14, "#ASI_M_FLUSH_USER" },
2096 { 0x17, "#ASI_M_BCOPY" },
2097 { 0x18, "#ASI_M_IFLUSH_PAGE" },
2098 { 0x19, "#ASI_M_IFLUSH_SEG" },
2099 { 0x1A, "#ASI_M_IFLUSH_REGION" },
2100 { 0x1B, "#ASI_M_IFLUSH_CTX" },
2101 { 0x1C, "#ASI_M_IFLUSH_USER" },
2102 { 0x1F, "#ASI_M_BFILL" },
2103 { 0x20, "#ASI_M_BYPASS" },
2104 { 0x29, "#ASI_M_FBMEM" },
2105 { 0x2A, "#ASI_M_VMEUS" },
2106 { 0x2B, "#ASI_M_VMEPS" },
2107 { 0x2C, "#ASI_M_VMEUT" },
2108 { 0x2D, "#ASI_M_VMEPT" },
2109 { 0x2E, "#ASI_M_SBUS" },
2110 { 0x2F, "#ASI_M_CTL" },
2111 { 0x31, "#ASI_M_FLUSH_IWHOLE" },
2112 { 0x36, "#ASI_M_IC_FLCLEAR" },
2113 { 0x37, "#ASI_M_DC_FLCLEAR" },
2114 { 0x39, "#ASI_M_DCDR" },
2115 { 0x40, "#ASI_M_VIKING_TMP1" },
2116 { 0x41, "#ASI_M_VIKING_TMP2" },
2117 { 0x4c, "#ASI_M_ACTION" },
2118 { 0, NULL }
2121 static const arg asi_table_v9[] =
2123 /* These are in the v9 architecture manual. */
2124 /* The shorter versions appear first, they're here because Sun's as has them.
2125 Sun's as uses #ASI_P_L instead of #ASI_PL (which appears in the
2126 UltraSPARC architecture manual). */
2127 { 0x04, "#ASI_N" },
2128 { 0x0c, "#ASI_N_L" },
2129 { 0x10, "#ASI_AIUP" },
2130 { 0x11, "#ASI_AIUS" },
2131 { 0x18, "#ASI_AIUP_L" },
2132 { 0x19, "#ASI_AIUS_L" },
2133 { 0x80, "#ASI_P" },
2134 { 0x81, "#ASI_S" },
2135 { 0x82, "#ASI_PNF" },
2136 { 0x83, "#ASI_SNF" },
2137 { 0x88, "#ASI_P_L" },
2138 { 0x89, "#ASI_S_L" },
2139 { 0x8a, "#ASI_PNF_L" },
2140 { 0x8b, "#ASI_SNF_L" },
2141 { 0x04, "#ASI_NUCLEUS" },
2142 { 0x0c, "#ASI_NUCLEUS_LITTLE" },
2143 { 0x10, "#ASI_AS_IF_USER_PRIMARY" },
2144 { 0x11, "#ASI_AS_IF_USER_SECONDARY" },
2145 { 0x18, "#ASI_AS_IF_USER_PRIMARY_LITTLE" },
2146 { 0x19, "#ASI_AS_IF_USER_SECONDARY_LITTLE" },
2147 { 0x80, "#ASI_PRIMARY" },
2148 { 0x81, "#ASI_SECONDARY" },
2149 { 0x82, "#ASI_PRIMARY_NOFAULT" },
2150 { 0x83, "#ASI_SECONDARY_NOFAULT" },
2151 { 0x88, "#ASI_PRIMARY_LITTLE" },
2152 { 0x89, "#ASI_SECONDARY_LITTLE" },
2153 { 0x8a, "#ASI_PRIMARY_NOFAULT_LITTLE" },
2154 { 0x8b, "#ASI_SECONDARY_NOFAULT_LITTLE" },
2155 /* These are UltraSPARC extensions. */
2156 { 0x14, "#ASI_PHYS_USE_EC"},
2157 { 0x15, "#ASI_PHYS_BYPASS_EC_WITH_EBIT"},
2158 { 0x45, "#ASI_LSU_CONTROL_REG"},
2159 { 0x47, "#ASI_DCACHE_TAG"},
2160 { 0x4a, "#ASI_UPA_CONFIG_REG"},
2161 { 0x50, "#ASI_IMMU" },
2162 { 0x51, "#ASI_IMMU_TSB_8KB_PTR_REG" },
2163 { 0x52, "#ASI_IMMU_TSB_64KB_PTR_REG" },
2164 /*{ 0x53, "#reserved?" },*/
2165 { 0x54, "#ASI_ITLB_DATA_IN_REG" },
2166 { 0x55, "#ASI_ITLB_DATA_ACCESS_REG" },
2167 { 0x56, "#ASI_ITLB_TAG_READ_REG" },
2168 { 0x57, "#ASI_IMMU_DEMAP" },
2169 { 0x58, "#ASI_DMMU" },
2170 { 0x59, "#ASI_DMMU_TSB_8KB_PTR_REG" },
2171 { 0x5a, "#ASI_DMMU_TSB_64KB_PTR_REG" },
2172 { 0x5b, "#ASI_DMMU_TSB_DIRECT_PTR_REG" },
2173 { 0x5c, "#ASI_DTLB_DATA_IN_REG" },
2174 { 0x5d, "#ASI_DTLB_DATA_ACCESS_REG" },
2175 { 0x5e, "#ASI_DTLB_TAG_READ_REG" },
2176 { 0x5f, "#ASI_DMMU_DEMAP" },
2177 { 0x67, "#ASI_IC_TAG"},
2178 /* FIXME: There are dozens of them. Not sure we want them all.
2179 Most are for kernel building but some are for vis type stuff. */
2180 { 0, NULL }
2183 /* Return the name for ASI value VALUE or NULL if not found. */
2185 static const char *
2186 sparc_decode_asi_v9 (int value)
2188 return lookup_value (asi_table_v9, value);
2191 static const char *
2192 sparc_decode_asi_v8 (int value)
2194 return lookup_value (asi_table_v8, value);
2197 /* Handle membar masks. */
2199 static const arg membar_table[] =
2201 { 0x40, "#Sync" },
2202 { 0x20, "#MemIssue" },
2203 { 0x10, "#Lookaside" },
2204 { 0x08, "#StoreStore" },
2205 { 0x04, "#LoadStore" },
2206 { 0x02, "#StoreLoad" },
2207 { 0x01, "#LoadLoad" },
2208 { 0, NULL }
2211 /* Return the name for membar value VALUE or NULL if not found. */
2213 static const char *
2214 sparc_decode_membar (int value)
2216 return lookup_value (membar_table, value);
2219 /* Handle prefetch args. */
2221 static const arg prefetch_table[] =
2223 { 0, "#n_reads" },
2224 { 1, "#one_read" },
2225 { 2, "#n_writes" },
2226 { 3, "#one_write" },
2227 { 4, "#page" },
2228 { 16, "#invalidate" },
2229 { 0, NULL }
2232 /* Return the name for prefetch value VALUE or NULL if not found. */
2234 static const char *
2235 sparc_decode_prefetch (int value)
2237 return lookup_value (prefetch_table, value);
2240 /* Handle sparclet coprocessor registers. */
2242 static const arg sparclet_cpreg_table[] =
2244 { 0, "%ccsr" },
2245 { 1, "%ccfr" },
2246 { 2, "%cccrcr" },
2247 { 3, "%ccpr" },
2248 { 4, "%ccsr2" },
2249 { 5, "%cccrr" },
2250 { 6, "%ccrstr" },
2251 { 0, NULL }
2254 /* Return the name for sparclet cpreg value VALUE or NULL if not found. */
2256 static const char *
2257 sparc_decode_sparclet_cpreg (int value)
2259 return lookup_value (sparclet_cpreg_table, value);
2262 #undef MASK_V9
2264 /* opcodes/sparc-dis.c */
2266 /* Print SPARC instructions.
2267 Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
2268 2000, 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
2270 This program is free software; you can redistribute it and/or modify
2271 it under the terms of the GNU General Public License as published by
2272 the Free Software Foundation; either version 2 of the License, or
2273 (at your option) any later version.
2275 This program is distributed in the hope that it will be useful,
2276 but WITHOUT ANY WARRANTY; without even the implied warranty of
2277 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
2278 GNU General Public License for more details.
2280 You should have received a copy of the GNU General Public License
2281 along with this program; if not, see <http://www.gnu.org/licenses/>. */
2283 /* Bitmask of v9 architectures. */
2284 #define MASK_V9 ((1 << SPARC_OPCODE_ARCH_V9) \
2285 | (1 << SPARC_OPCODE_ARCH_V9A) \
2286 | (1 << SPARC_OPCODE_ARCH_V9B))
2287 /* 1 if INSN is for v9 only. */
2288 #define V9_ONLY_P(insn) (! ((insn)->architecture & ~MASK_V9))
2289 /* 1 if INSN is for v9. */
2290 #define V9_P(insn) (((insn)->architecture & MASK_V9) != 0)
2292 /* The sorted opcode table. */
2293 static const sparc_opcode **sorted_opcodes;
2295 /* For faster lookup, after insns are sorted they are hashed. */
2296 /* ??? I think there is room for even more improvement. */
2298 #define HASH_SIZE 256
2299 /* It is important that we only look at insn code bits as that is how the
2300 opcode table is hashed. OPCODE_BITS is a table of valid bits for each
2301 of the main types (0,1,2,3). */
2302 static const int opcode_bits[4] = { 0x01c00000, 0x0, 0x01f80000, 0x01f80000 };
2303 #define HASH_INSN(INSN) \
2304 ((((INSN) >> 24) & 0xc0) | (((INSN) & opcode_bits[((INSN) >> 30) & 3]) >> 19))
2305 typedef struct sparc_opcode_hash
2307 struct sparc_opcode_hash *next;
2308 const sparc_opcode *opcode;
2309 } sparc_opcode_hash;
2311 static sparc_opcode_hash *opcode_hash_table[HASH_SIZE];
2313 /* Sign-extend a value which is N bits long. */
2314 #define SEX(value, bits) \
2315 ((((int)(value)) << ((8 * sizeof (int)) - bits)) \
2316 >> ((8 * sizeof (int)) - bits) )
2318 static const char * const reg_names[] =
2319 { "g0", "g1", "g2", "g3", "g4", "g5", "g6", "g7",
2320 "o0", "o1", "o2", "o3", "o4", "o5", "sp", "o7",
2321 "l0", "l1", "l2", "l3", "l4", "l5", "l6", "l7",
2322 "i0", "i1", "i2", "i3", "i4", "i5", "fp", "i7",
2323 "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7",
2324 "f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15",
2325 "f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",
2326 "f24", "f25", "f26", "f27", "f28", "f29", "f30", "f31",
2327 "f32", "f33", "f34", "f35", "f36", "f37", "f38", "f39",
2328 "f40", "f41", "f42", "f43", "f44", "f45", "f46", "f47",
2329 "f48", "f49", "f50", "f51", "f52", "f53", "f54", "f55",
2330 "f56", "f57", "f58", "f59", "f60", "f61", "f62", "f63",
2331 /* psr, wim, tbr, fpsr, cpsr are v8 only. */
2332 "y", "psr", "wim", "tbr", "pc", "npc", "fpsr", "cpsr"
2335 #define freg_names (&reg_names[4 * 8])
2337 /* These are ordered according to there register number in
2338 rdpr and wrpr insns. */
2339 static const char * const v9_priv_reg_names[] =
2341 "tpc", "tnpc", "tstate", "tt", "tick", "tba", "pstate", "tl",
2342 "pil", "cwp", "cansave", "canrestore", "cleanwin", "otherwin",
2343 "wstate", "fq", "gl"
2344 /* "ver" - special cased */
2347 /* These are ordered according to there register number in
2348 rdhpr and wrhpr insns. */
2349 static const char * const v9_hpriv_reg_names[] =
2351 "hpstate", "htstate", "resv2", "hintp", "resv4", "htba", "hver",
2352 "resv7", "resv8", "resv9", "resv10", "resv11", "resv12", "resv13",
2353 "resv14", "resv15", "resv16", "resv17", "resv18", "resv19", "resv20",
2354 "resv21", "resv22", "resv23", "resv24", "resv25", "resv26", "resv27",
2355 "resv28", "resv29", "resv30", "hstick_cmpr"
2358 /* These are ordered according to there register number in
2359 rd and wr insns (-16). */
2360 static const char * const v9a_asr_reg_names[] =
2362 "pcr", "pic", "dcr", "gsr", "set_softint", "clear_softint",
2363 "softint", "tick_cmpr", "sys_tick", "sys_tick_cmpr"
2366 /* Macros used to extract instruction fields. Not all fields have
2367 macros defined here, only those which are actually used. */
2369 #define X_RD(i) (((i) >> 25) & 0x1f)
2370 #define X_RS1(i) (((i) >> 14) & 0x1f)
2371 #define X_LDST_I(i) (((i) >> 13) & 1)
2372 #define X_ASI(i) (((i) >> 5) & 0xff)
2373 #define X_RS2(i) (((i) >> 0) & 0x1f)
2374 #define X_IMM(i,n) (((i) >> 0) & ((1 << (n)) - 1))
2375 #define X_SIMM(i,n) SEX (X_IMM ((i), (n)), (n))
2376 #define X_DISP22(i) (((i) >> 0) & 0x3fffff)
2377 #define X_IMM22(i) X_DISP22 (i)
2378 #define X_DISP30(i) (((i) >> 0) & 0x3fffffff)
2380 /* These are for v9. */
2381 #define X_DISP16(i) (((((i) >> 20) & 3) << 14) | (((i) >> 0) & 0x3fff))
2382 #define X_DISP19(i) (((i) >> 0) & 0x7ffff)
2383 #define X_MEMBAR(i) ((i) & 0x7f)
2385 /* Here is the union which was used to extract instruction fields
2386 before the shift and mask macros were written.
2388 union sparc_insn
2390 unsigned long int code;
2391 struct
2393 unsigned int anop:2;
2394 #define op ldst.anop
2395 unsigned int anrd:5;
2396 #define rd ldst.anrd
2397 unsigned int op3:6;
2398 unsigned int anrs1:5;
2399 #define rs1 ldst.anrs1
2400 unsigned int i:1;
2401 unsigned int anasi:8;
2402 #define asi ldst.anasi
2403 unsigned int anrs2:5;
2404 #define rs2 ldst.anrs2
2405 #define shcnt rs2
2406 } ldst;
2407 struct
2409 unsigned int anop:2, anrd:5, op3:6, anrs1:5, i:1;
2410 unsigned int IMM13:13;
2411 #define imm13 IMM13.IMM13
2412 } IMM13;
2413 struct
2415 unsigned int anop:2;
2416 unsigned int a:1;
2417 unsigned int cond:4;
2418 unsigned int op2:3;
2419 unsigned int DISP22:22;
2420 #define disp22 branch.DISP22
2421 #define imm22 disp22
2422 } branch;
2423 struct
2425 unsigned int anop:2;
2426 unsigned int a:1;
2427 unsigned int z:1;
2428 unsigned int rcond:3;
2429 unsigned int op2:3;
2430 unsigned int DISP16HI:2;
2431 unsigned int p:1;
2432 unsigned int _rs1:5;
2433 unsigned int DISP16LO:14;
2434 } branch16;
2435 struct
2437 unsigned int anop:2;
2438 unsigned int adisp30:30;
2439 #define disp30 call.adisp30
2440 } call;
2441 }; */
2443 /* Nonzero if INSN is the opcode for a delayed branch. */
2445 static int
2446 is_delayed_branch (unsigned long insn)
2448 sparc_opcode_hash *op;
2450 for (op = opcode_hash_table[HASH_INSN (insn)]; op; op = op->next)
2452 const sparc_opcode *opcode = op->opcode;
2454 if ((opcode->match & insn) == opcode->match
2455 && (opcode->lose & insn) == 0)
2456 return opcode->flags & F_DELAYED;
2458 return 0;
2461 /* extern void qsort (); */
2463 /* Records current mask of SPARC_OPCODE_ARCH_FOO values, used to pass value
2464 to compare_opcodes. */
2465 static unsigned int current_arch_mask;
2467 /* Given BFD mach number, return a mask of SPARC_OPCODE_ARCH_FOO values. */
2469 static int
2470 compute_arch_mask (unsigned long mach)
2472 switch (mach)
2474 case 0 :
2475 case bfd_mach_sparc :
2476 return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V8);
2477 case bfd_mach_sparc_sparclet :
2478 return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_SPARCLET);
2479 case bfd_mach_sparc_sparclite :
2480 case bfd_mach_sparc_sparclite_le :
2481 /* sparclites insns are recognized by default (because that's how
2482 they've always been treated, for better or worse). Kludge this by
2483 indicating generic v8 is also selected. */
2484 return (SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_SPARCLITE)
2485 | SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V8));
2486 case bfd_mach_sparc_v8plus :
2487 case bfd_mach_sparc_v9 :
2488 return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9);
2489 case bfd_mach_sparc_v8plusa :
2490 case bfd_mach_sparc_v9a :
2491 return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9A);
2492 case bfd_mach_sparc_v8plusb :
2493 case bfd_mach_sparc_v9b :
2494 return SPARC_OPCODE_ARCH_MASK (SPARC_OPCODE_ARCH_V9B);
2496 abort ();
2499 /* Compare opcodes A and B. */
2501 static int
2502 compare_opcodes (const void * a, const void * b)
2504 sparc_opcode *op0 = * (sparc_opcode **) a;
2505 sparc_opcode *op1 = * (sparc_opcode **) b;
2506 unsigned long int match0 = op0->match, match1 = op1->match;
2507 unsigned long int lose0 = op0->lose, lose1 = op1->lose;
2508 register unsigned int i;
2510 /* If one (and only one) insn isn't supported by the current architecture,
2511 prefer the one that is. If neither are supported, but they're both for
2512 the same architecture, continue processing. Otherwise (both unsupported
2513 and for different architectures), prefer lower numbered arch's (fudged
2514 by comparing the bitmasks). */
2515 if (op0->architecture & current_arch_mask)
2517 if (! (op1->architecture & current_arch_mask))
2518 return -1;
2520 else
2522 if (op1->architecture & current_arch_mask)
2523 return 1;
2524 else if (op0->architecture != op1->architecture)
2525 return op0->architecture - op1->architecture;
2528 /* If a bit is set in both match and lose, there is something
2529 wrong with the opcode table. */
2530 if (match0 & lose0)
2532 fprintf
2533 (stderr,
2534 /* xgettext:c-format */
2535 _("Internal error: bad sparc-opcode.h: \"%s\", %#.8lx, %#.8lx\n"),
2536 op0->name, match0, lose0);
2537 op0->lose &= ~op0->match;
2538 lose0 = op0->lose;
2541 if (match1 & lose1)
2543 fprintf
2544 (stderr,
2545 /* xgettext:c-format */
2546 _("Internal error: bad sparc-opcode.h: \"%s\", %#.8lx, %#.8lx\n"),
2547 op1->name, match1, lose1);
2548 op1->lose &= ~op1->match;
2549 lose1 = op1->lose;
2552 /* Because the bits that are variable in one opcode are constant in
2553 another, it is important to order the opcodes in the right order. */
2554 for (i = 0; i < 32; ++i)
2556 unsigned long int x = 1 << i;
2557 int x0 = (match0 & x) != 0;
2558 int x1 = (match1 & x) != 0;
2560 if (x0 != x1)
2561 return x1 - x0;
2564 for (i = 0; i < 32; ++i)
2566 unsigned long int x = 1 << i;
2567 int x0 = (lose0 & x) != 0;
2568 int x1 = (lose1 & x) != 0;
2570 if (x0 != x1)
2571 return x1 - x0;
2574 /* They are functionally equal. So as long as the opcode table is
2575 valid, we can put whichever one first we want, on aesthetic grounds. */
2577 /* Our first aesthetic ground is that aliases defer to real insns. */
2579 int alias_diff = (op0->flags & F_ALIAS) - (op1->flags & F_ALIAS);
2581 if (alias_diff != 0)
2582 /* Put the one that isn't an alias first. */
2583 return alias_diff;
2586 /* Except for aliases, two "identical" instructions had
2587 better have the same opcode. This is a sanity check on the table. */
2588 i = strcmp (op0->name, op1->name);
2589 if (i)
2591 if (op0->flags & F_ALIAS) /* If they're both aliases, be arbitrary. */
2592 return i;
2593 else
2594 fprintf (stderr,
2595 /* xgettext:c-format */
2596 _("Internal error: bad sparc-opcode.h: \"%s\" == \"%s\"\n"),
2597 op0->name, op1->name);
2600 /* Fewer arguments are preferred. */
2602 int length_diff = strlen (op0->args) - strlen (op1->args);
2604 if (length_diff != 0)
2605 /* Put the one with fewer arguments first. */
2606 return length_diff;
2609 /* Put 1+i before i+1. */
2611 char *p0 = (char *) strchr (op0->args, '+');
2612 char *p1 = (char *) strchr (op1->args, '+');
2614 if (p0 && p1)
2616 /* There is a plus in both operands. Note that a plus
2617 sign cannot be the first character in args,
2618 so the following [-1]'s are valid. */
2619 if (p0[-1] == 'i' && p1[1] == 'i')
2620 /* op0 is i+1 and op1 is 1+i, so op1 goes first. */
2621 return 1;
2622 if (p0[1] == 'i' && p1[-1] == 'i')
2623 /* op0 is 1+i and op1 is i+1, so op0 goes first. */
2624 return -1;
2628 /* Put 1,i before i,1. */
2630 int i0 = strncmp (op0->args, "i,1", 3) == 0;
2631 int i1 = strncmp (op1->args, "i,1", 3) == 0;
2633 if (i0 ^ i1)
2634 return i0 - i1;
2637 /* They are, as far as we can tell, identical.
2638 Since qsort may have rearranged the table partially, there is
2639 no way to tell which one was first in the opcode table as
2640 written, so just say there are equal. */
2641 /* ??? This is no longer true now that we sort a vector of pointers,
2642 not the table itself. */
2643 return 0;
2646 /* Build a hash table from the opcode table.
2647 OPCODE_TABLE is a sorted list of pointers into the opcode table. */
2649 static void
2650 build_hash_table (const sparc_opcode **opcode_table,
2651 sparc_opcode_hash **hash_table,
2652 int num_opcodes)
2654 int i;
2655 int hash_count[HASH_SIZE];
2656 static sparc_opcode_hash *hash_buf = NULL;
2658 /* Start at the end of the table and work backwards so that each
2659 chain is sorted. */
2661 memset (hash_table, 0, HASH_SIZE * sizeof (hash_table[0]));
2662 memset (hash_count, 0, HASH_SIZE * sizeof (hash_count[0]));
2663 if (hash_buf != NULL)
2664 free (hash_buf);
2665 hash_buf = malloc (sizeof (* hash_buf) * num_opcodes);
2666 for (i = num_opcodes - 1; i >= 0; --i)
2668 int hash = HASH_INSN (opcode_table[i]->match);
2669 sparc_opcode_hash *h = &hash_buf[i];
2671 h->next = hash_table[hash];
2672 h->opcode = opcode_table[i];
2673 hash_table[hash] = h;
2674 ++hash_count[hash];
2677 #if 0 /* for debugging */
2679 int min_count = num_opcodes, max_count = 0;
2680 int total;
2682 for (i = 0; i < HASH_SIZE; ++i)
2684 if (hash_count[i] < min_count)
2685 min_count = hash_count[i];
2686 if (hash_count[i] > max_count)
2687 max_count = hash_count[i];
2688 total += hash_count[i];
2691 printf ("Opcode hash table stats: min %d, max %d, ave %f\n",
2692 min_count, max_count, (double) total / HASH_SIZE);
2694 #endif
2697 /* Print one instruction from MEMADDR on INFO->STREAM.
2699 We suffix the instruction with a comment that gives the absolute
2700 address involved, as well as its symbolic form, if the instruction
2701 is preceded by a findable `sethi' and it either adds an immediate
2702 displacement to that register, or it is an `add' or `or' instruction
2703 on that register. */
2706 print_insn_sparc (bfd_vma memaddr, disassemble_info *info)
2708 FILE *stream = info->stream;
2709 bfd_byte buffer[4];
2710 unsigned long insn;
2711 sparc_opcode_hash *op;
2712 /* Nonzero of opcode table has been initialized. */
2713 static int opcodes_initialized = 0;
2714 /* bfd mach number of last call. */
2715 static unsigned long current_mach = 0;
2716 bfd_vma (*getword) (const unsigned char *);
2718 if (!opcodes_initialized
2719 || info->mach != current_mach)
2721 int i;
2723 current_arch_mask = compute_arch_mask (info->mach);
2725 if (!opcodes_initialized)
2726 sorted_opcodes =
2727 malloc (sparc_num_opcodes * sizeof (sparc_opcode *));
2728 /* Reset the sorted table so we can resort it. */
2729 for (i = 0; i < sparc_num_opcodes; ++i)
2730 sorted_opcodes[i] = &sparc_opcodes[i];
2731 qsort ((char *) sorted_opcodes, sparc_num_opcodes,
2732 sizeof (sorted_opcodes[0]), compare_opcodes);
2734 build_hash_table (sorted_opcodes, opcode_hash_table, sparc_num_opcodes);
2735 current_mach = info->mach;
2736 opcodes_initialized = 1;
2740 int status =
2741 (*info->read_memory_func) (memaddr, buffer, sizeof (buffer), info);
2743 if (status != 0)
2745 (*info->memory_error_func) (status, memaddr, info);
2746 return -1;
2750 /* On SPARClite variants such as DANlite (sparc86x), instructions
2751 are always big-endian even when the machine is in little-endian mode. */
2752 if (info->endian == BFD_ENDIAN_BIG || info->mach == bfd_mach_sparc_sparclite)
2753 getword = bfd_getb32;
2754 else
2755 getword = bfd_getl32;
2757 insn = getword (buffer);
2759 info->insn_info_valid = 1; /* We do return this info. */
2760 info->insn_type = dis_nonbranch; /* Assume non branch insn. */
2761 info->branch_delay_insns = 0; /* Assume no delay. */
2762 info->target = 0; /* Assume no target known. */
2764 for (op = opcode_hash_table[HASH_INSN (insn)]; op; op = op->next)
2766 const sparc_opcode *opcode = op->opcode;
2768 /* If the insn isn't supported by the current architecture, skip it. */
2769 if (! (opcode->architecture & current_arch_mask))
2770 continue;
2772 if ((opcode->match & insn) == opcode->match
2773 && (opcode->lose & insn) == 0)
2775 /* Nonzero means that we have found an instruction which has
2776 the effect of adding or or'ing the imm13 field to rs1. */
2777 int imm_added_to_rs1 = 0;
2778 int imm_ored_to_rs1 = 0;
2780 /* Nonzero means that we have found a plus sign in the args
2781 field of the opcode table. */
2782 int found_plus = 0;
2784 /* Nonzero means we have an annulled branch. */
2785 /* int is_annulled = 0; */ /* see FIXME below */
2787 /* Do we have an `add' or `or' instruction combining an
2788 immediate with rs1? */
2789 if (opcode->match == 0x80102000) /* or */
2790 imm_ored_to_rs1 = 1;
2791 if (opcode->match == 0x80002000) /* add */
2792 imm_added_to_rs1 = 1;
2794 if (X_RS1 (insn) != X_RD (insn)
2795 && strchr (opcode->args, 'r') != NULL)
2796 /* Can't do simple format if source and dest are different. */
2797 continue;
2798 if (X_RS2 (insn) != X_RD (insn)
2799 && strchr (opcode->args, 'O') != NULL)
2800 /* Can't do simple format if source and dest are different. */
2801 continue;
2803 (*info->fprintf_func) (stream, "%s", opcode->name);
2806 const char *s;
2808 if (opcode->args[0] != ',')
2809 (*info->fprintf_func) (stream, " ");
2811 for (s = opcode->args; *s != '\0'; ++s)
2813 while (*s == ',')
2815 (*info->fprintf_func) (stream, ",");
2816 ++s;
2817 switch (*s)
2819 case 'a':
2820 (*info->fprintf_func) (stream, "a");
2821 /* is_annulled = 1; */ /* see FIXME below */
2822 ++s;
2823 continue;
2824 case 'N':
2825 (*info->fprintf_func) (stream, "pn");
2826 ++s;
2827 continue;
2829 case 'T':
2830 (*info->fprintf_func) (stream, "pt");
2831 ++s;
2832 continue;
2834 default:
2835 break;
2839 (*info->fprintf_func) (stream, " ");
2841 switch (*s)
2843 case '+':
2844 found_plus = 1;
2845 /* Fall through. */
2847 default:
2848 (*info->fprintf_func) (stream, "%c", *s);
2849 break;
2851 case '#':
2852 (*info->fprintf_func) (stream, "0");
2853 break;
2855 #define reg(n) (*info->fprintf_func) (stream, "%%%s", reg_names[n])
2856 case '1':
2857 case 'r':
2858 reg (X_RS1 (insn));
2859 break;
2861 case '2':
2862 case 'O':
2863 reg (X_RS2 (insn));
2864 break;
2866 case 'd':
2867 reg (X_RD (insn));
2868 break;
2869 #undef reg
2871 #define freg(n) (*info->fprintf_func) (stream, "%%%s", freg_names[n])
2872 #define fregx(n) (*info->fprintf_func) (stream, "%%%s", freg_names[((n) & ~1) | (((n) & 1) << 5)])
2873 case 'e':
2874 freg (X_RS1 (insn));
2875 break;
2876 case 'v': /* Double/even. */
2877 case 'V': /* Quad/multiple of 4. */
2878 fregx (X_RS1 (insn));
2879 break;
2881 case 'f':
2882 freg (X_RS2 (insn));
2883 break;
2884 case 'B': /* Double/even. */
2885 case 'R': /* Quad/multiple of 4. */
2886 fregx (X_RS2 (insn));
2887 break;
2889 case 'g':
2890 freg (X_RD (insn));
2891 break;
2892 case 'H': /* Double/even. */
2893 case 'J': /* Quad/multiple of 4. */
2894 fregx (X_RD (insn));
2895 break;
2896 #undef freg
2897 #undef fregx
2899 #define creg(n) (*info->fprintf_func) (stream, "%%c%u", (unsigned int) (n))
2900 case 'b':
2901 creg (X_RS1 (insn));
2902 break;
2904 case 'c':
2905 creg (X_RS2 (insn));
2906 break;
2908 case 'D':
2909 creg (X_RD (insn));
2910 break;
2911 #undef creg
2913 case 'h':
2914 (*info->fprintf_func) (stream, "%%hi(%#x)",
2915 ((unsigned) 0xFFFFFFFF
2916 & ((int) X_IMM22 (insn) << 10)));
2917 break;
2919 case 'i': /* 13 bit immediate. */
2920 case 'I': /* 11 bit immediate. */
2921 case 'j': /* 10 bit immediate. */
2923 int imm;
2925 if (*s == 'i')
2926 imm = X_SIMM (insn, 13);
2927 else if (*s == 'I')
2928 imm = X_SIMM (insn, 11);
2929 else
2930 imm = X_SIMM (insn, 10);
2932 /* Check to see whether we have a 1+i, and take
2933 note of that fact.
2935 Note: because of the way we sort the table,
2936 we will be matching 1+i rather than i+1,
2937 so it is OK to assume that i is after +,
2938 not before it. */
2939 if (found_plus)
2940 imm_added_to_rs1 = 1;
2942 if (imm <= 9)
2943 (*info->fprintf_func) (stream, "%d", imm);
2944 else
2945 (*info->fprintf_func) (stream, "%#x", imm);
2947 break;
2949 case 'X': /* 5 bit unsigned immediate. */
2950 case 'Y': /* 6 bit unsigned immediate. */
2952 int imm = X_IMM (insn, *s == 'X' ? 5 : 6);
2954 if (imm <= 9)
2955 (info->fprintf_func) (stream, "%d", imm);
2956 else
2957 (info->fprintf_func) (stream, "%#x", (unsigned) imm);
2959 break;
2961 case '3':
2962 (info->fprintf_func) (stream, "%ld", X_IMM (insn, 3));
2963 break;
2965 case 'K':
2967 int mask = X_MEMBAR (insn);
2968 int bit = 0x40, printed_one = 0;
2969 const char *name;
2971 if (mask == 0)
2972 (info->fprintf_func) (stream, "0");
2973 else
2974 while (bit)
2976 if (mask & bit)
2978 if (printed_one)
2979 (info->fprintf_func) (stream, "|");
2980 name = sparc_decode_membar (bit);
2981 (info->fprintf_func) (stream, "%s", name);
2982 printed_one = 1;
2984 bit >>= 1;
2986 break;
2989 case 'k':
2990 info->target = memaddr + SEX (X_DISP16 (insn), 16) * 4;
2991 (*info->print_address_func) (info->target, info);
2992 break;
2994 case 'G':
2995 info->target = memaddr + SEX (X_DISP19 (insn), 19) * 4;
2996 (*info->print_address_func) (info->target, info);
2997 break;
2999 case '6':
3000 case '7':
3001 case '8':
3002 case '9':
3003 (*info->fprintf_func) (stream, "%%fcc%c", *s - '6' + '0');
3004 break;
3006 case 'z':
3007 (*info->fprintf_func) (stream, "%%icc");
3008 break;
3010 case 'Z':
3011 (*info->fprintf_func) (stream, "%%xcc");
3012 break;
3014 case 'E':
3015 (*info->fprintf_func) (stream, "%%ccr");
3016 break;
3018 case 's':
3019 (*info->fprintf_func) (stream, "%%fprs");
3020 break;
3022 case 'o':
3023 (*info->fprintf_func) (stream, "%%asi");
3024 break;
3026 case 'W':
3027 (*info->fprintf_func) (stream, "%%tick");
3028 break;
3030 case 'P':
3031 (*info->fprintf_func) (stream, "%%pc");
3032 break;
3034 case '?':
3035 if (X_RS1 (insn) == 31)
3036 (*info->fprintf_func) (stream, "%%ver");
3037 else if ((unsigned) X_RS1 (insn) < 17)
3038 (*info->fprintf_func) (stream, "%%%s",
3039 v9_priv_reg_names[X_RS1 (insn)]);
3040 else
3041 (*info->fprintf_func) (stream, "%%reserved");
3042 break;
3044 case '!':
3045 if ((unsigned) X_RD (insn) < 17)
3046 (*info->fprintf_func) (stream, "%%%s",
3047 v9_priv_reg_names[X_RD (insn)]);
3048 else
3049 (*info->fprintf_func) (stream, "%%reserved");
3050 break;
3052 case '$':
3053 if ((unsigned) X_RS1 (insn) < 32)
3054 (*info->fprintf_func) (stream, "%%%s",
3055 v9_hpriv_reg_names[X_RS1 (insn)]);
3056 else
3057 (*info->fprintf_func) (stream, "%%reserved");
3058 break;
3060 case '%':
3061 if ((unsigned) X_RD (insn) < 32)
3062 (*info->fprintf_func) (stream, "%%%s",
3063 v9_hpriv_reg_names[X_RD (insn)]);
3064 else
3065 (*info->fprintf_func) (stream, "%%reserved");
3066 break;
3068 case '/':
3069 if (X_RS1 (insn) < 16 || X_RS1 (insn) > 25)
3070 (*info->fprintf_func) (stream, "%%reserved");
3071 else
3072 (*info->fprintf_func) (stream, "%%%s",
3073 v9a_asr_reg_names[X_RS1 (insn)-16]);
3074 break;
3076 case '_':
3077 if (X_RD (insn) < 16 || X_RD (insn) > 25)
3078 (*info->fprintf_func) (stream, "%%reserved");
3079 else
3080 (*info->fprintf_func) (stream, "%%%s",
3081 v9a_asr_reg_names[X_RD (insn)-16]);
3082 break;
3084 case '*':
3086 const char *name = sparc_decode_prefetch (X_RD (insn));
3088 if (name)
3089 (*info->fprintf_func) (stream, "%s", name);
3090 else
3091 (*info->fprintf_func) (stream, "%ld", X_RD (insn));
3092 break;
3095 case 'M':
3096 (*info->fprintf_func) (stream, "%%asr%ld", X_RS1 (insn));
3097 break;
3099 case 'm':
3100 (*info->fprintf_func) (stream, "%%asr%ld", X_RD (insn));
3101 break;
3103 case 'L':
3104 info->target = memaddr + SEX (X_DISP30 (insn), 30) * 4;
3105 (*info->print_address_func) (info->target, info);
3106 break;
3108 case 'n':
3109 (*info->fprintf_func)
3110 (stream, "%#x", SEX (X_DISP22 (insn), 22));
3111 break;
3113 case 'l':
3114 info->target = memaddr + SEX (X_DISP22 (insn), 22) * 4;
3115 (*info->print_address_func) (info->target, info);
3116 break;
3118 case 'A':
3120 const char *name;
3122 if ((info->mach == bfd_mach_sparc_v8plusa) ||
3123 ((info->mach >= bfd_mach_sparc_v9) &&
3124 (info->mach <= bfd_mach_sparc_v9b)))
3125 name = sparc_decode_asi_v9 (X_ASI (insn));
3126 else
3127 name = sparc_decode_asi_v8 (X_ASI (insn));
3129 if (name)
3130 (*info->fprintf_func) (stream, "%s", name);
3131 else
3132 (*info->fprintf_func) (stream, "(%ld)", X_ASI (insn));
3133 break;
3136 case 'C':
3137 (*info->fprintf_func) (stream, "%%csr");
3138 break;
3140 case 'F':
3141 (*info->fprintf_func) (stream, "%%fsr");
3142 break;
3144 case 'p':
3145 (*info->fprintf_func) (stream, "%%psr");
3146 break;
3148 case 'q':
3149 (*info->fprintf_func) (stream, "%%fq");
3150 break;
3152 case 'Q':
3153 (*info->fprintf_func) (stream, "%%cq");
3154 break;
3156 case 't':
3157 (*info->fprintf_func) (stream, "%%tbr");
3158 break;
3160 case 'w':
3161 (*info->fprintf_func) (stream, "%%wim");
3162 break;
3164 case 'x':
3165 (*info->fprintf_func) (stream, "%ld",
3166 ((X_LDST_I (insn) << 8)
3167 + X_ASI (insn)));
3168 break;
3170 case 'y':
3171 (*info->fprintf_func) (stream, "%%y");
3172 break;
3174 case 'u':
3175 case 'U':
3177 int val = *s == 'U' ? X_RS1 (insn) : X_RD (insn);
3178 const char *name = sparc_decode_sparclet_cpreg (val);
3180 if (name)
3181 (*info->fprintf_func) (stream, "%s", name);
3182 else
3183 (*info->fprintf_func) (stream, "%%cpreg(%d)", val);
3184 break;
3190 /* If we are adding or or'ing something to rs1, then
3191 check to see whether the previous instruction was
3192 a sethi to the same register as in the sethi.
3193 If so, attempt to print the result of the add or
3194 or (in this context add and or do the same thing)
3195 and its symbolic value. */
3196 if (imm_ored_to_rs1 || imm_added_to_rs1)
3198 unsigned long prev_insn;
3199 int errcode;
3201 if (memaddr >= 4)
3202 errcode =
3203 (*info->read_memory_func)
3204 (memaddr - 4, buffer, sizeof (buffer), info);
3205 else
3206 errcode = 1;
3208 prev_insn = getword (buffer);
3210 if (errcode == 0)
3212 /* If it is a delayed branch, we need to look at the
3213 instruction before the delayed branch. This handles
3214 sequences such as:
3216 sethi %o1, %hi(_foo), %o1
3217 call _printf
3218 or %o1, %lo(_foo), %o1 */
3220 if (is_delayed_branch (prev_insn))
3222 if (memaddr >= 8)
3223 errcode = (*info->read_memory_func)
3224 (memaddr - 8, buffer, sizeof (buffer), info);
3225 else
3226 errcode = 1;
3228 prev_insn = getword (buffer);
3232 /* If there was a problem reading memory, then assume
3233 the previous instruction was not sethi. */
3234 if (errcode == 0)
3236 /* Is it sethi to the same register? */
3237 if ((prev_insn & 0xc1c00000) == 0x01000000
3238 && X_RD (prev_insn) == X_RS1 (insn))
3240 (*info->fprintf_func) (stream, "\t! ");
3241 info->target =
3242 ((unsigned) 0xFFFFFFFF
3243 & ((int) X_IMM22 (prev_insn) << 10));
3244 if (imm_added_to_rs1)
3245 info->target += X_SIMM (insn, 13);
3246 else
3247 info->target |= X_SIMM (insn, 13);
3248 (*info->print_address_func) (info->target, info);
3249 info->insn_type = dis_dref;
3250 info->data_size = 4; /* FIXME!!! */
3255 if (opcode->flags & (F_UNBR|F_CONDBR|F_JSR))
3257 /* FIXME -- check is_annulled flag. */
3258 if (opcode->flags & F_UNBR)
3259 info->insn_type = dis_branch;
3260 if (opcode->flags & F_CONDBR)
3261 info->insn_type = dis_condbranch;
3262 if (opcode->flags & F_JSR)
3263 info->insn_type = dis_jsr;
3264 if (opcode->flags & F_DELAYED)
3265 info->branch_delay_insns = 1;
3268 return sizeof (buffer);
3272 info->insn_type = dis_noninsn; /* Mark as non-valid instruction. */
3273 (*info->fprintf_func) (stream, _("unknown"));
3274 return sizeof (buffer);