1 /*-
2  * This code is derived from software copyrighted by the Free Software
3  * Foundation.
4  *
5  * Modified 1991 by Donn Seeley at UUNET Technologies, Inc.
6  *
7  *	@(#)i386-opcode.h	6.3 (Berkeley) 05/08/91
8  */
9 
10 /* i386-opcode.h -- Intel 80386 opcode table
11    Copyright (C) 1989, Free Software Foundation.
12 
13 This file is part of GAS, the GNU Assembler.
14 
15 GAS 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 1, or (at your option)
18 any later version.
19 
20 GAS is distributed in the hope that it will be useful,
21 but WITHOUT ANY WARRANTY; without even the implied warranty of
22 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
23 GNU General Public License for more details.
24 
25 You should have received a copy of the GNU General Public License
26 along with GAS; see the file COPYING.  If not, write to
27 the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.  */
28 
29 template i386_optab[] = {
30 
31 #define _ None
32 /* move instructions */
33 { "mov", 2, 0xa0, _, DW|NoModrm, Disp32, Acc, 0 },
34 { "mov", 2, 0x88, _, DW|Modrm, Reg, Reg|Mem, 0 },
35 { "mov", 2, 0xb0, _, ShortFormW, Imm, Reg, 0 },
36 { "mov", 2, 0xc6, _,  W|Modrm,  Imm, Reg|Mem, 0 },
37 { "mov", 2, 0x8c, _, D|Modrm,  SReg3|SReg2, Reg16|Mem16, 0 },
38 /* move to/from control debug registers */
39 { "mov", 2, 0x0f20, _, D|Modrm, Control, Reg32, 0},
40 { "mov", 2, 0x0f21, _, D|Modrm, Debug, Reg32, 0},
41 { "mov", 2, 0x0f24, _, D|Modrm, Test, Reg32, 0},
42 
43 /* move with sign extend */
44 /* "movsbl" & "movsbw" must not be unified into "movsb" to avoid
45    conflict with the "movs" string move instruction.  Thus,
46    {"movsb", 2, 0x0fbe, _, ReverseRegRegmem|Modrm, Reg8|Mem,  Reg16|Reg32, 0},
47    is not kosher; we must seperate the two instructions. */
48 {"movsbl", 2, 0x0fbe, _, ReverseRegRegmem|Modrm, Reg8|Mem,  Reg32, 0},
49 {"movsbw", 2, 0x660fbe, _, ReverseRegRegmem|Modrm, Reg8|Mem,  Reg16, 0},
50 {"movswl", 2, 0x0fbf, _, ReverseRegRegmem|Modrm, Reg16|Mem, Reg32, 0},
51 
52 /* move with zero extend */
53 {"movzb", 2, 0x0fb6, _, ReverseRegRegmem|Modrm, Reg8|Mem, Reg16|Reg32, 0},
54 {"movzwl", 2, 0x0fb7, _, ReverseRegRegmem|Modrm, Reg16|Mem, Reg32, 0},
55 
56 /* push instructions */
57 {"push", 1, 0x50, _, ShortForm, WordReg,0,0 },
58 {"push", 1, 0xff, 0x6,  Modrm, WordReg|WordMem, 0, 0 },
59 {"push", 1, 0x6a, _, NoModrm, Imm8S, 0, 0},
60 {"push", 1, 0x68, _, NoModrm, Imm32, 0, 0},
61 {"push", 1, 0x06, _,  Seg2ShortForm, SReg2,0,0 },
62 {"push", 1, 0x0fa0, _, Seg3ShortForm, SReg3,0,0 },
63 /* push all */
64 {"pusha", 0, 0x60, _, NoModrm, 0, 0, 0 },
65 
66 /* pop instructions */
67 {"pop", 1, 0x58, _, ShortForm, WordReg,0,0 },
68 {"pop", 1, 0x8f, 0x0,  Modrm, WordReg|WordMem, 0, 0 },
69 #define POP_SEG_SHORT 0x7
70 {"pop", 1, 0x07, _,  Seg2ShortForm, SReg2,0,0 },
71 {"pop", 1, 0x0fa1, _, Seg3ShortForm, SReg3,0,0 },
72 /* pop all */
73 {"popa", 0, 0x61, _, NoModrm, 0, 0, 0 },
74 
75 /* xchg exchange instructions
76    xchg commutes:  we allow both operand orders */
77 {"xchg", 2, 0x90, _, ShortForm, WordReg, Acc, 0 },
78 {"xchg", 2, 0x90, _, ShortForm, Acc, WordReg, 0 },
79 {"xchg", 2, 0x86, _, W|Modrm, Reg, Reg|Mem, 0 },
80 {"xchg", 2, 0x86, _, W|Modrm, Reg|Mem, Reg, 0 },
81 
82 /* in/out from ports */
83 {"in", 2, 0xe4, _, W|NoModrm, Imm8, Acc, 0 },
84 {"in", 2, 0xec, _, W|NoModrm, InOutPortReg, Acc, 0 },
85 {"out", 2, 0xe6, _, W|NoModrm, Acc, Imm8, 0 },
86 {"out", 2, 0xee, _, W|NoModrm, Acc, InOutPortReg, 0 },
87 
88 /* load effective address */
89 {"lea", 2, 0x8d, _, Modrm, WordMem, WordReg, 0 },
90 
91 /* load segment registers from memory */
92 {"lds", 2, 0xc5, _, Modrm, Mem, Reg32, 0},
93 {"les", 2, 0xc4, _, Modrm, Mem, Reg32, 0},
94 {"lfs", 2, 0x0fb4, _, Modrm, Mem, Reg32, 0},
95 {"lgs", 2, 0x0fb5, _, Modrm, Mem, Reg32, 0},
96 {"lss", 2, 0x0fb2, _, Modrm, Mem, Reg32, 0},
97 
98 /* flags register instructions */
99 {"clc", 0, 0xf8, _, NoModrm, 0, 0, 0},
100 {"cld", 0, 0xfc, _, NoModrm, 0, 0, 0},
101 {"cli", 0, 0xfa, _, NoModrm, 0, 0, 0},
102 {"clts", 0, 0x0f06, _, NoModrm, 0, 0, 0},
103 {"cmc", 0, 0xf5, _, NoModrm, 0, 0, 0},
104 {"lahf", 0, 0x9f, _, NoModrm, 0, 0, 0},
105 {"sahf", 0, 0x9e, _, NoModrm, 0, 0, 0},
106 {"pushf", 0, 0x9c, _, NoModrm, 0, 0, 0},
107 {"popf", 0, 0x9d, _, NoModrm, 0, 0, 0},
108 {"stc", 0, 0xf9, _, NoModrm, 0, 0, 0},
109 {"std", 0, 0xfd, _, NoModrm, 0, 0, 0},
110 {"sti", 0, 0xfb, _, NoModrm, 0, 0, 0},
111 
112 {"add", 2, 0x0,  _, DW|Modrm, Reg, Reg|Mem, 0},
113 {"add", 2, 0x83, 0,  Modrm, Imm8S, WordReg|WordMem, 0},
114 {"add", 2, 0x4,  _,  W|NoModrm, Imm,  Acc,    0},
115 {"add", 2, 0x80, 0, W|Modrm, Imm, Reg|Mem, 0},
116 
117 {"inc", 1, 0x40, _, ShortForm, WordReg, 0, 0},
118 {"inc", 1, 0xfe, 0, W|Modrm, Reg|Mem, 0, 0},
119 
120 {"sub", 2, 0x28,  _, DW|Modrm, Reg, Reg|Mem, 0},
121 {"sub", 2, 0x83, 5,  Modrm, Imm8S, WordReg|WordMem, 0},
122 {"sub", 2, 0x2c,  _,  W|NoModrm, Imm,  Acc,    0},
123 {"sub", 2, 0x80, 5,  W|Modrm, Imm, Reg|Mem, 0},
124 
125 {"dec", 1, 0x48, _, ShortForm, WordReg, 0, 0},
126 {"dec", 1, 0xfe, 1, W|Modrm, Reg|Mem, 0, 0},
127 
128 {"sbb", 2, 0x18,  _, DW|Modrm, Reg, Reg|Mem, 0},
129 {"sbb", 2, 0x83, 3,  Modrm, Imm8S, WordReg|WordMem, 0},
130 {"sbb", 2, 0x1c,  _,  W|NoModrm, Imm,  Acc,    0},
131 {"sbb", 2, 0x80, 3,  W|Modrm, Imm, Reg|Mem, 0},
132 
133 {"cmp", 2, 0x38,  _, DW|Modrm, Reg, Reg|Mem, 0},
134 {"cmp", 2, 0x83, 7,  Modrm, Imm8S, WordReg|WordMem, 0},
135 {"cmp", 2, 0x3c,  _,  W|NoModrm, Imm,  Acc,    0},
136 {"cmp", 2, 0x80, 7,  W|Modrm, Imm, Reg|Mem, 0},
137 
138 {"test", 2, 0x84, _, W|Modrm, Reg|Mem, Reg, 0},
139 {"test", 2, 0x84, _, W|Modrm, Reg, Reg|Mem, 0},
140 {"test", 2, 0xa8, _, W|NoModrm, Imm, Acc, 0},
141 {"test", 2, 0xf6, 0, W|Modrm, Imm, Reg|Mem, 0},
142 
143 {"and", 2, 0x20,  _, DW|Modrm, Reg, Reg|Mem, 0},
144 {"and", 2, 0x83, 4,  Modrm, Imm8S, WordReg|WordMem, 0},
145 {"and", 2, 0x24,  _,  W|NoModrm, Imm,  Acc,    0},
146 {"and", 2, 0x80, 4,  W|Modrm, Imm, Reg|Mem, 0},
147 
148 {"or", 2, 0x08,  _, DW|Modrm, Reg, Reg|Mem, 0},
149 {"or", 2, 0x83, 1,  Modrm, Imm8S, WordReg|WordMem, 0},
150 {"or", 2, 0x0c,  _,  W|NoModrm, Imm,  Acc,    0},
151 {"or", 2, 0x80, 1,  W|Modrm, Imm, Reg|Mem, 0},
152 
153 {"xor", 2, 0x30,  _, DW|Modrm, Reg, Reg|Mem, 0},
154 {"xor", 2, 0x83, 6,  Modrm, Imm8S, WordReg|WordMem, 0},
155 {"xor", 2, 0x34,  _,  W|NoModrm, Imm,  Acc,    0},
156 {"xor", 2, 0x80, 6,  W|Modrm, Imm, Reg|Mem, 0},
157 
158 {"adc", 2, 0x10,  _, DW|Modrm, Reg, Reg|Mem, 0},
159 {"adc", 2, 0x83, 2,  Modrm, Imm8S, WordReg|WordMem, 0},
160 {"adc", 2, 0x14,  _,  W|NoModrm, Imm,  Acc,    0},
161 {"adc", 2, 0x80, 2,  W|Modrm, Imm, Reg|Mem, 0},
162 
163 {"neg", 1, 0xf6, 3, W|Modrm, Reg|Mem, 0, 0},
164 {"not", 1, 0xf6, 2, W|Modrm, Reg|Mem, 0, 0},
165 
166 {"aaa", 0, 0x37, _, NoModrm, 0, 0, 0},
167 {"aas", 0, 0x3f, _, NoModrm, 0, 0, 0},
168 {"daa", 0, 0x27, _, NoModrm, 0, 0, 0},
169 {"das", 0, 0x2f, _, NoModrm, 0, 0, 0},
170 {"aad", 0, 0xd50a, _, NoModrm, 0, 0, 0},
171 {"aam", 0, 0xd40a, _, NoModrm, 0, 0, 0},
172 
173 /* conversion insns */
174 /* conversion:  intel naming */
175 {"cbw", 0, 0x6698, _, NoModrm, 0, 0, 0},
176 {"cwd", 0, 0x6699, _, NoModrm, 0, 0, 0},
177 {"cwde", 0, 0x98, _, NoModrm, 0, 0, 0},
178 {"cdq", 0, 0x99, _, NoModrm, 0, 0, 0},
179 /*  att naming */
180 {"cbtw", 0, 0x6698, _, NoModrm, 0, 0, 0},
181 {"cwtl", 0, 0x98, _, NoModrm, 0, 0, 0},
182 {"cwtd", 0, 0x6699, _, NoModrm, 0, 0, 0},
183 {"cltd", 0, 0x99, _, NoModrm, 0, 0, 0},
184 
185 /* Warning! the mul/imul (opcode 0xf6) must only have 1 operand!  They are
186    expanding 64-bit multiplies, and *cannot* be selected to accomplish
187    'imul %ebx, %eax' (opcode 0x0faf must be used in this case)
188    These multiplies can only be selected with single opearnd forms. */
189 {"mul",  1, 0xf6, 4, W|Modrm, Reg|Mem, 0, 0},
190 {"imul", 1, 0xf6, 5, W|Modrm, Reg|Mem, 0, 0},
191 
192 
193 
194 
195 /* imulKludge here is needed to reverse the i.rm.reg & i.rm.regmem fields.
196    These instructions are exceptions:  'imul $2, %eax, %ecx' would put
197    '%eax' in the reg field and '%ecx' in the regmem field if we did not
198    switch them. */
199 {"imul", 2, 0x0faf, _, Modrm|ReverseRegRegmem, WordReg|Mem, WordReg, 0},
200 {"imul", 3, 0x6b, _, Modrm|ReverseRegRegmem, Imm8S, WordReg|Mem, WordReg},
201 {"imul", 3, 0x69, _, Modrm|ReverseRegRegmem, Imm16|Imm32, WordReg|Mem, WordReg},
202 /*
203   imul with 2 operands mimicks imul with 3 by puting register both
204   in i.rm.reg & i.rm.regmem fields
205 */
206 {"imul", 2, 0x6b, _, Modrm|imulKludge, Imm8S, WordReg, 0},
207 {"imul", 2, 0x69, _, Modrm|imulKludge, Imm16|Imm32, WordReg, 0},
208 {"div", 1, 0xf6, 6, W|Modrm, Reg|Mem, 0, 0},
209 {"div", 2, 0xf6, 6, W|Modrm, Reg|Mem, Acc, 0},
210 {"idiv", 1, 0xf6, 7, W|Modrm, Reg|Mem, 0, 0},
211 {"idiv", 2, 0xf6, 7, W|Modrm, Reg|Mem, Acc, 0},
212 
213 {"rol", 2, 0xd0, 0, W|Modrm, Imm1, Reg|Mem, 0},
214 {"rol", 2, 0xc0, 0, W|Modrm, Imm8, Reg|Mem, 0},
215 {"rol", 2, 0xd2, 0, W|Modrm, ShiftCount, Reg|Mem, 0},
216 {"rol", 1, 0xd0, 0, W|Modrm, Reg|Mem, 0, 0},
217 
218 {"ror", 2, 0xd0, 1, W|Modrm, Imm1, Reg|Mem, 0},
219 {"ror", 2, 0xc0, 1, W|Modrm, Imm8, Reg|Mem, 0},
220 {"ror", 2, 0xd2, 1, W|Modrm, ShiftCount, Reg|Mem, 0},
221 {"ror", 1, 0xd0, 1, W|Modrm, Reg|Mem, 0, 0},
222 
223 {"rcl", 2, 0xd0, 2, W|Modrm, Imm1, Reg|Mem, 0},
224 {"rcl", 2, 0xc0, 2, W|Modrm, Imm8, Reg|Mem, 0},
225 {"rcl", 2, 0xd2, 2, W|Modrm, ShiftCount, Reg|Mem, 0},
226 {"rcl", 1, 0xd0, 2, W|Modrm, Reg|Mem, 0, 0},
227 
228 {"rcr", 2, 0xd0, 3, W|Modrm, Imm1, Reg|Mem, 0},
229 {"rcr", 2, 0xc0, 3, W|Modrm, Imm8, Reg|Mem, 0},
230 {"rcr", 2, 0xd2, 3, W|Modrm, ShiftCount, Reg|Mem, 0},
231 {"rcr", 1, 0xd0, 3, W|Modrm, Reg|Mem, 0, 0},
232 
233 {"sal", 2, 0xd0, 4, W|Modrm, Imm1, Reg|Mem, 0},
234 {"sal", 2, 0xc0, 4, W|Modrm, Imm8, Reg|Mem, 0},
235 {"sal", 2, 0xd2, 4, W|Modrm, ShiftCount, Reg|Mem, 0},
236 {"sal", 1, 0xd0, 4, W|Modrm, Reg|Mem, 0, 0},
237 {"shl", 2, 0xd0, 4, W|Modrm, Imm1, Reg|Mem, 0},
238 {"shl", 2, 0xc0, 4, W|Modrm, Imm8, Reg|Mem, 0},
239 {"shl", 2, 0xd2, 4, W|Modrm, ShiftCount, Reg|Mem, 0},
240 {"shl", 1, 0xd0, 4, W|Modrm, Reg|Mem, 0, 0},
241 
242 {"shld", 3, 0x0fa4, _, Modrm, Imm8, WordReg, WordReg|Mem},
243 {"shld", 3, 0x0fa5, _, Modrm, ShiftCount, WordReg, WordReg|Mem},
244 
245 {"shr", 2, 0xd0, 5, W|Modrm, Imm1, Reg|Mem, 0},
246 {"shr", 2, 0xc0, 5, W|Modrm, Imm8, Reg|Mem, 0},
247 {"shr", 2, 0xd2, 5, W|Modrm, ShiftCount, Reg|Mem, 0},
248 {"shr", 1, 0xd0, 5, W|Modrm, Reg|Mem, 0, 0},
249 
250 {"shrd", 3, 0x0fac, _, Modrm, Imm8, WordReg, WordReg|Mem},
251 {"shrd", 3, 0x0fad, _, Modrm, ShiftCount, WordReg, WordReg|Mem},
252 
253 {"sar", 2, 0xd0, 7, W|Modrm, Imm1, Reg|Mem, 0},
254 {"sar", 2, 0xc0, 7, W|Modrm, Imm8, Reg|Mem, 0},
255 {"sar", 2, 0xd2, 7, W|Modrm, ShiftCount, Reg|Mem, 0},
256 {"sar", 1, 0xd0, 7, W|Modrm, Reg|Mem, 0, 0},
257 
258 /* control transfer instructions */
259 #define CALL_PC_RELATIVE 0xe8
260 {"call", 1, 0xe8, _, JumpDword, Disp32, 0, 0},
261 {"call", 1, 0xff, 2, Modrm, Reg|Mem|JumpAbsolute, 0, 0},
262 #define CALL_FAR_IMMEDIATE 0x9a
263 {"lcall", 2, 0x9a, _, JumpInterSegment, Imm16, Imm32, 0},
264 {"lcall", 1, 0xff, 3, Modrm, Mem, 0, 0},
265 
266 #define JUMP_PC_RELATIVE 0xeb
267 {"jmp", 1, 0xeb, _, Jump, Disp, 0, 0},
268 {"jmp", 1, 0xff, 4, Modrm, Reg32|Mem|JumpAbsolute, 0, 0},
269 #define JUMP_FAR_IMMEDIATE 0xea
270 {"ljmp", 2, 0xea, _, JumpInterSegment, Imm16, Imm32, 0},
271 {"ljmp", 1, 0xff, 5, Modrm, Mem, 0, 0},
272 
273 {"ret", 0, 0xc3, _, NoModrm, 0, 0, 0},
274 {"ret", 1, 0xc2, _, NoModrm, Imm16, 0, 0},
275 {"lret", 0, 0xcb, _, NoModrm, 0, 0, 0},
276 {"lret", 1, 0xca, _, NoModrm, Imm16, 0, 0},
277 {"enter", 2, 0xc8, _, NoModrm, Imm16, Imm8, 0},
278 {"leave", 0, 0xc9, _, NoModrm, 0, 0, 0},
279 
280 /* conditional jumps */
281 {"jo", 1, 0x70, _, Jump, Disp, 0, 0},
282 
283 {"jno", 1, 0x71, _, Jump, Disp, 0, 0},
284 
285 {"jb", 1, 0x72, _, Jump, Disp, 0, 0},
286 {"jc", 1, 0x72, _, Jump, Disp, 0, 0},
287 {"jnae", 1, 0x72, _, Jump, Disp, 0, 0},
288 
289 {"jnb", 1, 0x73, _, Jump, Disp, 0, 0},
290 {"jnc", 1, 0x73, _, Jump, Disp, 0, 0},
291 {"jae", 1, 0x73, _, Jump, Disp, 0, 0},
292 
293 {"je", 1, 0x74, _, Jump, Disp, 0, 0},
294 {"jz", 1, 0x74, _, Jump, Disp, 0, 0},
295 
296 {"jne", 1, 0x75, _, Jump, Disp, 0, 0},
297 {"jnz", 1, 0x75, _, Jump, Disp, 0, 0},
298 
299 {"jbe", 1, 0x76, _, Jump, Disp, 0, 0},
300 {"jna", 1, 0x76, _, Jump, Disp, 0, 0},
301 
302 {"jnbe", 1, 0x77, _, Jump, Disp, 0, 0},
303 {"ja", 1, 0x77, _, Jump, Disp, 0, 0},
304 
305 {"js", 1, 0x78, _, Jump, Disp, 0, 0},
306 
307 {"jns", 1, 0x79, _, Jump, Disp, 0, 0},
308 
309 {"jp", 1, 0x7a, _, Jump, Disp, 0, 0},
310 {"jpe", 1, 0x7a, _, Jump, Disp, 0, 0},
311 
312 {"jnp", 1, 0x7b, _, Jump, Disp, 0, 0},
313 {"jpo", 1, 0x7b, _, Jump, Disp, 0, 0},
314 
315 {"jl", 1, 0x7c, _, Jump, Disp, 0, 0},
316 {"jnge", 1, 0x7c, _, Jump, Disp, 0, 0},
317 
318 {"jnl", 1, 0x7d, _, Jump, Disp, 0, 0},
319 {"jge", 1, 0x7d, _, Jump, Disp, 0, 0},
320 
321 {"jle", 1, 0x7e, _, Jump, Disp, 0, 0},
322 {"jng", 1, 0x7e, _, Jump, Disp, 0, 0},
323 
324 {"jnle", 1, 0x7f, _, Jump, Disp, 0, 0},
325 {"jg", 1, 0x7f, _, Jump, Disp, 0, 0},
326 
327 /* these turn into pseudo operations when disp is larger than 8 bits */
328 #define IS_JUMP_ON_CX_ZERO(o) \
329   (o == 0x67e3)
330 #define IS_JUMP_ON_ECX_ZERO(o) \
331   (o == 0xe3)
332 
333 {"jcxz", 1, 0x67e3, _, JumpByte, Disp, 0, 0},
334 {"jecxz", 1, 0xe3, _, JumpByte, Disp, 0, 0},
335 
336 #define IS_LOOP_ECX_TIMES(o) \
337   (o == 0xe2 || o == 0xe1 || o == 0xe0)
338 
339 {"loop", 1, 0xe2, _, JumpByte, Disp, 0, 0},
340 
341 {"loopz", 1, 0xe1, _, JumpByte, Disp, 0, 0},
342 {"loope", 1, 0xe1, _, JumpByte, Disp, 0, 0},
343 
344 {"loopnz", 1, 0xe0, _, JumpByte, Disp, 0, 0},
345 {"loopne", 1, 0xe0, _, JumpByte, Disp, 0, 0},
346 
347 /* set byte on flag instructions */
348 {"seto", 1, 0x0f90, 0, Modrm, Reg8|Mem, 0, 0},
349 
350 {"setno", 1, 0x0f91, 0, Modrm, Reg8|Mem, 0, 0},
351 
352 {"setb", 1, 0x0f92, 0, Modrm, Reg8|Mem, 0, 0},
353 {"setnae", 1, 0x0f92, 0, Modrm, Reg8|Mem, 0, 0},
354 
355 {"setnb", 1, 0x0f93, 0, Modrm, Reg8|Mem, 0, 0},
356 {"setae", 1, 0x0f93, 0, Modrm, Reg8|Mem, 0, 0},
357 
358 {"sete", 1, 0x0f94, 0, Modrm, Reg8|Mem, 0, 0},
359 {"setz", 1, 0x0f94, 0, Modrm, Reg8|Mem, 0, 0},
360 
361 {"setne", 1, 0x0f95, 0, Modrm, Reg8|Mem, 0, 0},
362 {"setnz", 1, 0x0f95, 0, Modrm, Reg8|Mem, 0, 0},
363 
364 {"setbe", 1, 0x0f96, 0, Modrm, Reg8|Mem, 0, 0},
365 {"setna", 1, 0x0f96, 0, Modrm, Reg8|Mem, 0, 0},
366 
367 {"setnbe", 1, 0x0f97, 0, Modrm, Reg8|Mem, 0, 0},
368 {"seta", 1, 0x0f97, 0, Modrm, Reg8|Mem, 0, 0},
369 
370 {"sets", 1, 0x0f98, 0, Modrm, Reg8|Mem, 0, 0},
371 
372 {"setns", 1, 0x0f99, 0, Modrm, Reg8|Mem, 0, 0},
373 
374 {"setp", 1, 0x0f9a, 0, Modrm, Reg8|Mem, 0, 0},
375 {"setpe", 1, 0x0f9a, 0, Modrm, Reg8|Mem, 0, 0},
376 
377 {"setnp", 1, 0x0f9b, 0, Modrm, Reg8|Mem, 0, 0},
378 {"setpo", 1, 0x0f9b, 0, Modrm, Reg8|Mem, 0, 0},
379 
380 {"setl", 1, 0x0f9c, 0, Modrm, Reg8|Mem, 0, 0},
381 {"setnge", 1, 0x0f9c, 0, Modrm, Reg8|Mem, 0, 0},
382 
383 {"setnl", 1, 0x0f9d, 0, Modrm, Reg8|Mem, 0, 0},
384 {"setge", 1, 0x0f9d, 0, Modrm, Reg8|Mem, 0, 0},
385 
386 {"setle", 1, 0x0f9e, 0, Modrm, Reg8|Mem, 0, 0},
387 {"setng", 1, 0x0f9e, 0, Modrm, Reg8|Mem, 0, 0},
388 
389 {"setnle", 1, 0x0f9f, 0, Modrm, Reg8|Mem, 0, 0},
390 {"setg", 1, 0x0f9f, 0, Modrm, Reg8|Mem, 0, 0},
391 
392 #define IS_STRING_INSTRUCTION(o) \
393   ((o) == 0xa6 || (o) == 0x6c || (o) == 0x6e || (o) == 0x6e || \
394    (o) == 0xac || (o) == 0xa4 || (o) == 0xae || (o) == 0xaa || \
395    (o) == 0xd7)
396 
397 /* string manipulation */
398 {"cmps", 0, 0xa6, _, W|NoModrm, 0, 0, 0},
399 {"ins", 0, 0x6c, _, W|NoModrm, 0, 0, 0},
400 {"outs", 0, 0x6e, _, W|NoModrm, 0, 0, 0},
401 {"lods", 0, 0xac, _, W|NoModrm, 0, 0, 0},
402 {"movs", 0, 0xa4, _, W|NoModrm, 0, 0, 0},
403 {"scas", 0, 0xae, _, W|NoModrm, 0, 0, 0},
404 {"stos", 0, 0xaa, _, W|NoModrm, 0, 0, 0},
405 {"xlat", 0, 0xd7, _, NoModrm, 0, 0, 0},
406 
407 /* bit manipulation */
408 {"bsf", 2, 0x0fbc, _, Modrm|ReverseRegRegmem, Reg|Mem, Reg, 0},
409 {"bsr", 2, 0x0fbd, _, Modrm|ReverseRegRegmem, Reg|Mem, Reg, 0},
410 {"bt", 2, 0x0fa3, _, Modrm, Reg, Reg|Mem, 0},
411 {"bt", 2, 0x0fba, 4, Modrm, Imm8, Reg|Mem, 0},
412 {"btc", 2, 0x0fbb, _, Modrm, Reg, Reg|Mem, 0},
413 {"btc", 2, 0x0fba, 7, Modrm, Imm8, Reg|Mem, 0},
414 {"btr", 2, 0x0fb3, _, Modrm, Reg, Reg|Mem, 0},
415 {"btr", 2, 0x0fba, 6, Modrm, Imm8, Reg|Mem, 0},
416 {"bts", 2, 0x0fab, _, Modrm, Reg, Reg|Mem, 0},
417 {"bts", 2, 0x0fba, 5, Modrm, Imm8, Reg|Mem, 0},
418 
419 /* interrupts & op. sys insns */
420 /* See i386.c for conversion of 'int $3' into the special int 3 insn. */
421 #define INT_OPCODE 0xcd
422 #define INT3_OPCODE 0xcc
423 {"int", 1, 0xcd, _, NoModrm, Imm8, 0, 0},
424 {"int3", 0, 0xcc, _, NoModrm, 0, 0, 0},
425 {"into", 0, 0xce, _, NoModrm, 0, 0, 0},
426 {"iret", 0, 0xcf, _, NoModrm, 0, 0, 0},
427 
428 {"boundl", 2, 0x62, _, Modrm, Reg32, Mem, 0},
429 {"boundw", 2, 0x6662, _, Modrm, Reg16, Mem, 0},
430 
431 {"hlt", 0, 0xf4, _, NoModrm, 0, 0, 0},
432 {"wait", 0, 0x9b, _, NoModrm, 0, 0, 0},
433 /* nop is actually 'xchgl %eax, %eax' */
434 {"nop", 0, 0x90, _, NoModrm, 0, 0, 0},
435 
436 /* protection control */
437 {"arpl", 2, 0x63, _, Modrm, Reg16, Reg16|Mem, 0},
438 {"lar", 2, 0x0f02, _, Modrm|ReverseRegRegmem, WordReg|Mem, WordReg, 0},
439 {"lgdt", 1, 0x0f01, 2, Modrm, Mem, 0, 0},
440 {"lidt", 1, 0x0f01, 3, Modrm, Mem, 0, 0},
441 {"lldt", 1, 0x0f00, 2, Modrm, WordReg|Mem, 0, 0},
442 {"lmsw", 1, 0x0f01, 6, Modrm, WordReg|Mem, 0, 0},
443 {"lsl", 2, 0x0f03, _, Modrm|ReverseRegRegmem, WordReg|Mem, WordReg, 0},
444 {"ltr", 1, 0x0f00, 3, Modrm, WordReg|Mem, 0, 0},
445 
446 {"sgdt", 1, 0x0f01, 0, Modrm, Mem, 0, 0},
447 {"sidt", 1, 0x0f01, 1, Modrm, Mem, 0, 0},
448 {"sldt", 1, 0x0f00, 0, Modrm, WordReg|Mem, 0, 0},
449 {"smsw", 1, 0x0f01, 4, Modrm, WordReg|Mem, 0, 0},
450 {"str", 1, 0x0f00, 1, Modrm, Reg16|Mem, 0, 0},
451 
452 {"verr", 1, 0x0f00, 4, Modrm, WordReg|Mem, 0, 0},
453 {"verw", 1, 0x0f00, 5, Modrm, WordReg|Mem, 0, 0},
454 
455 /* floating point instructions */
456 
457 /* load */
458 {"fld", 1, 0xd9c0, _, ShortForm, FloatReg, 0, 0}, /* register */
459 {"flds", 1, 0xd9, 0, Modrm, Mem, 0, 0},           /* %st0 <-- mem float */
460 {"fildl", 1, 0xdb, 0, Modrm, Mem, 0, 0},           /* %st0 <-- mem word */
461 {"fldl", 1, 0xdd, 0, Modrm, Mem, 0, 0},           /* %st0 <-- mem double */
462 {"fldl", 1, 0xd9c0, _, ShortForm, FloatReg, 0, 0}, /* register */
463 {"filds", 1, 0xdf, 0, Modrm, Mem, 0, 0},           /* %st0 <-- mem dword */
464 {"fildq", 1, 0xdf, 5, Modrm, Mem, 0, 0},           /* %st0 <-- mem qword */
465 {"fldt", 1, 0xdb, 5, Modrm, Mem, 0, 0},           /* %st0 <-- mem efloat */
466 {"fbld", 1, 0xdf, 4, Modrm, Mem, 0, 0},           /* %st0 <-- mem bcd */
467 
468 /* store (no pop) */
469 {"fst", 1, 0xddd0, _, ShortForm, FloatReg, 0, 0}, /* register */
470 {"fsts", 1, 0xd9, 2, Modrm, Mem, 0, 0},           /* %st0 --> mem float */
471 {"fistl", 1, 0xdb, 2, Modrm, Mem, 0, 0},           /* %st0 --> mem dword */
472 {"fstl", 1, 0xdd, 2, Modrm, Mem, 0, 0},           /* %st0 --> mem double */
473 {"fstl", 1, 0xddd0, _, ShortForm, FloatReg, 0, 0}, /* register */
474 {"fists", 1, 0xdf, 2, Modrm, Mem, 0, 0},           /* %st0 --> mem word */
475 
476 /* store (with pop) */
477 {"fstp", 1, 0xddd8, _, ShortForm, FloatReg, 0, 0}, /* register */
478 {"fstps", 1, 0xd9, 3, Modrm, Mem, 0, 0},           /* %st0 --> mem float */
479 {"fistpl", 1, 0xdb, 3, Modrm, Mem, 0, 0},           /* %st0 --> mem word */
480 {"fstpl", 1, 0xdd, 3, Modrm, Mem, 0, 0},           /* %st0 --> mem double */
481 {"fstpl", 1, 0xddd8, _, ShortForm, FloatReg, 0, 0}, /* register */
482 {"fistps", 1, 0xdf, 3, Modrm, Mem, 0, 0},           /* %st0 --> mem dword */
483 {"fistpq", 1, 0xdf, 7, Modrm, Mem, 0, 0},           /* %st0 --> mem qword */
484 {"fstpt", 1, 0xdb, 7, Modrm, Mem, 0, 0},           /* %st0 --> mem efloat */
485 {"fbstp", 1, 0xdf, 6, Modrm, Mem, 0, 0},           /* %st0 --> mem bcd */
486 
487 /* exchange %st<n> with %st0 */
488 {"fxch", 1, 0xd9c8, _, ShortForm, FloatReg, 0, 0},
489 
490 /* comparison (without pop) */
491 {"fcom", 1, 0xd8d0, _, ShortForm, FloatReg, 0, 0},
492 {"fcoms", 1, 0xd8, 2, Modrm, Mem, 0, 0}, /* compare %st0, mem float  */
493 {"ficoml", 1, 0xda, 2, Modrm, Mem, 0, 0}, /* compare %st0, mem word  */
494 {"fcoml", 1, 0xdc, 2, Modrm, Mem, 0, 0}, /* compare %st0, mem double  */
495 {"fcoml", 1, 0xd8d0, _, ShortForm, FloatReg, 0, 0},
496 {"ficoms", 1, 0xde, 2, Modrm, Mem, 0, 0}, /* compare %st0, mem dword */
497 
498 /* comparison (with pop) */
499 {"fcomp", 1, 0xd8d8, _, ShortForm, FloatReg, 0, 0},
500 {"fcomps", 1, 0xd8, 3, Modrm, Mem, 0, 0}, /* compare %st0, mem float  */
501 {"ficompl", 1, 0xda, 3, Modrm, Mem, 0, 0}, /* compare %st0, mem word  */
502 {"fcompl", 1, 0xdc, 3, Modrm, Mem, 0, 0}, /* compare %st0, mem double  */
503 {"fcompl", 1, 0xd8d8, _, ShortForm, FloatReg, 0, 0},
504 {"ficomps", 1, 0xde, 3, Modrm, Mem, 0, 0}, /* compare %st0, mem dword */
505 {"fcompp", 0, 0xded9, _, NoModrm, 0, 0, 0}, /* compare %st0, %st1 & pop twice */
506 
507 /* unordered comparison (with pop) */
508 {"fucom", 1, 0xdde0, _, ShortForm, FloatReg, 0, 0},
509 {"fucomp", 1, 0xdde8, _, ShortForm, FloatReg, 0, 0},
510 {"fucompp", 0, 0xdae9, _, NoModrm, 0, 0, 0}, /* ucompare %st0, %st1 & pop twice */
511 
512 {"ftst", 0, 0xd9e4, _, NoModrm, 0, 0, 0},   /* test %st0 */
513 {"fxam", 0, 0xd9e5, _, NoModrm, 0, 0, 0},   /* examine %st0 */
514 
515 /* load constants into %st0 */
516 {"fld1", 0, 0xd9e8, _, NoModrm, 0, 0, 0},   /* %st0 <-- 1.0 */
517 {"fldl2t", 0, 0xd9e9, _, NoModrm, 0, 0, 0},   /* %st0 <-- log2(10) */
518 {"fldl2e", 0, 0xd9ea, _, NoModrm, 0, 0, 0},   /* %st0 <-- log2(e) */
519 {"fldpi", 0, 0xd9eb, _, NoModrm, 0, 0, 0},   /* %st0 <-- pi */
520 {"fldlg2", 0, 0xd9ec, _, NoModrm, 0, 0, 0},   /* %st0 <-- log10(2) */
521 {"fldln2", 0, 0xd9ed, _, NoModrm, 0, 0, 0},   /* %st0 <-- ln(2) */
522 {"fldz", 0, 0xd9ee, _, NoModrm, 0, 0, 0},   /* %st0 <-- 0.0 */
523 
524 /* arithmetic */
525 
526 /* add */
527 {"fadd", 1, 0xd8c0, _, ShortForm, FloatReg, 0, 0},
528 {"fadd", 2, 0xd8c0, _, ShortForm|FloatD, FloatReg, FloatAcc, 0},
529 {"fadd", 0, 0xdcc1, _, NoModrm, 0, 0, 0}, /* alias for fadd %st, %st(1) */
530 {"faddp", 1, 0xdac0, _, ShortForm, FloatReg, 0, 0},
531 {"faddp", 2, 0xdac0, _, ShortForm|FloatD, FloatReg, FloatAcc, 0},
532 {"faddp", 0, 0xdec1, _, NoModrm, 0, 0, 0}, /* alias for faddp %st, %st(1) */
533 {"fadds", 1, 0xd8, 0, Modrm, Mem, 0, 0},
534 {"fiaddl", 1, 0xda, 0, Modrm, Mem, 0, 0},
535 {"faddl", 1, 0xdc, 0, Modrm, Mem, 0, 0},
536 {"fiadds", 1, 0xde, 0, Modrm, Mem, 0, 0},
537 
538 /* sub */
539 /* Note:  intel has decided that certain of these operations are reversed
540    in assembler syntax. */
541 {"fsub", 1, 0xd8e0, _, ShortForm, FloatReg, 0, 0},
542 {"fsub", 2, 0xd8e0, _, ShortForm, FloatReg, FloatAcc, 0},
543 #ifdef NON_BROKEN_OPCODES
544 {"fsub", 2, 0xdce8, _, ShortForm, FloatAcc, FloatReg, 0},
545 #else
546 {"fsub", 2, 0xdce0, _, ShortForm, FloatAcc, FloatReg, 0},
547 #endif
548 {"fsub", 0, 0xdce1, _, NoModrm, 0, 0, 0},
549 {"fsubp", 1, 0xdae0, _, ShortForm, FloatReg, 0, 0},
550 {"fsubp", 2, 0xdae0, _, ShortForm, FloatReg, FloatAcc, 0},
551 #ifdef NON_BROKEN_OPCODES
552 {"fsubp", 2, 0xdee8, _, ShortForm, FloatAcc, FloatReg, 0},
553 #else
554 {"fsubp", 2, 0xdee0, _, ShortForm, FloatAcc, FloatReg, 0},
555 #endif
556 {"fsubp", 0, 0xdee1, _, NoModrm, 0, 0, 0},
557 {"fsubs", 1, 0xd8, 4, Modrm, Mem, 0, 0},
558 {"fisubl", 1, 0xda, 4, Modrm, Mem, 0, 0},
559 {"fsubl", 1, 0xdc, 4, Modrm, Mem, 0, 0},
560 {"fisubs", 1, 0xde, 4, Modrm, Mem, 0, 0},
561 
562 /* sub reverse */
563 {"fsubr", 1, 0xd8e8, _, ShortForm, FloatReg, 0, 0},
564 {"fsubr", 2, 0xd8e8, _, ShortForm, FloatReg, FloatAcc, 0},
565 #ifdef NON_BROKEN_OPCODES
566 {"fsubr", 2, 0xdce0, _, ShortForm, FloatAcc, FloatReg, 0},
567 #else
568 {"fsubr", 2, 0xdce8, _, ShortForm, FloatAcc, FloatReg, 0},
569 #endif
570 {"fsubr", 0, 0xdce9, _, NoModrm, 0, 0, 0},
571 {"fsubrp", 1, 0xdae8, _, ShortForm, FloatReg, 0, 0},
572 {"fsubrp", 2, 0xdae8, _, ShortForm, FloatReg, FloatAcc, 0},
573 #ifdef NON_BROKEN_OPCODES
574 {"fsubrp", 2, 0xdee0, _, ShortForm, FloatAcc, FloatReg, 0},
575 #else
576 {"fsubrp", 2, 0xdee8, _, ShortForm, FloatAcc, FloatReg, 0},
577 #endif
578 {"fsubrp", 0, 0xdee9, _, NoModrm, 0, 0, 0},
579 {"fsubrs", 1, 0xd8, 5, Modrm, Mem, 0, 0},
580 {"fisubrl", 1, 0xda, 5, Modrm, Mem, 0, 0},
581 {"fsubrl", 1, 0xdc, 5, Modrm, Mem, 0, 0},
582 {"fisubrs", 1, 0xde, 5, Modrm, Mem, 0, 0},
583 
584 /* mul */
585 {"fmul", 1, 0xd8c8, _, ShortForm, FloatReg, 0, 0},
586 {"fmul", 2, 0xd8c8, _, ShortForm|FloatD, FloatReg, FloatAcc, 0},
587 {"fmul", 0, 0xdcc9, _, NoModrm, 0, 0, 0},
588 {"fmulp", 1, 0xdac8, _, ShortForm, FloatReg, 0, 0},
589 {"fmulp", 2, 0xdac8, _, ShortForm|FloatD, FloatReg, FloatAcc, 0},
590 {"fmulp", 0, 0xdec9, _, NoModrm, 0, 0, 0},
591 {"fmuls", 1, 0xd8, 1, Modrm, Mem, 0, 0},
592 {"fimull", 1, 0xda, 1, Modrm, Mem, 0, 0},
593 {"fmull", 1, 0xdc, 1, Modrm, Mem, 0, 0},
594 {"fimuls", 1, 0xde, 1, Modrm, Mem, 0, 0},
595 
596 /* div */
597 /* Note:  intel has decided that certain of these operations are reversed
598    in assembler syntax. */
599 {"fdiv", 1, 0xd8f0, _, ShortForm, FloatReg, 0, 0},
600 {"fdiv", 2, 0xd8f0, _, ShortForm, FloatReg, FloatAcc, 0},
601 #ifdef NON_BROKEN_OPCODES
602 {"fdiv", 2, 0xdcf8, _, ShortForm, FloatAcc, FloatReg, 0},
603 #else
604 {"fdiv", 2, 0xdcf0, _, ShortForm, FloatAcc, FloatReg, 0},
605 #endif
606 {"fdiv", 0, 0xdcf1, _, NoModrm, 0, 0, 0},
607 {"fdivp", 1, 0xdaf0, _, ShortForm, FloatReg, 0, 0},
608 {"fdivp", 2, 0xdaf0, _, ShortForm, FloatReg, FloatAcc, 0},
609 #ifdef NON_BROKEN_OPCODES
610 {"fdivp", 2, 0xdef8, _, ShortForm, FloatAcc, FloatReg, 0},
611 #else
612 {"fdivp", 2, 0xdef0, _, ShortForm, FloatAcc, FloatReg, 0},
613 #endif
614 {"fdivp", 0, 0xdef1, _, NoModrm, 0, 0, 0},
615 {"fdivs", 1, 0xd8, 6, Modrm, Mem, 0, 0},
616 {"fidivl", 1, 0xda, 6, Modrm, Mem, 0, 0},
617 {"fdivl", 1, 0xdc, 6, Modrm, Mem, 0, 0},
618 {"fidivs", 1, 0xde, 6, Modrm, Mem, 0, 0},
619 
620 /* div reverse */
621 {"fdivr", 1, 0xd8f8, _, ShortForm, FloatReg, 0, 0},
622 {"fdivr", 2, 0xd8f8, _, ShortForm, FloatReg, FloatAcc, 0},
623 #ifdef NON_BROKEN_OPCODES
624 {"fdivr", 2, 0xdcf0, _, ShortForm, FloatAcc, FloatReg, 0},
625 #else
626 {"fdivr", 2, 0xdcf8, _, ShortForm, FloatAcc, FloatReg, 0},
627 #endif
628 {"fdivr", 0, 0xdcf9, _, NoModrm, 0, 0, 0},
629 {"fdivrp", 1, 0xdaf8, _, ShortForm, FloatReg, 0, 0},
630 {"fdivrp", 2, 0xdaf8, _, ShortForm, FloatReg, FloatAcc, 0},
631 #ifdef NON_BROKEN_OPCODES
632 {"fdivrp", 2, 0xdef0, _, ShortForm, FloatAcc, FloatReg, 0},
633 #else
634 {"fdivrp", 2, 0xdef8, _, ShortForm, FloatAcc, FloatReg, 0},
635 #endif
636 {"fdivrp", 0, 0xdef9, _, NoModrm, 0, 0, 0},
637 {"fdivrs", 1, 0xd8, 7, Modrm, Mem, 0, 0},
638 {"fidivrl", 1, 0xda, 7, Modrm, Mem, 0, 0},
639 {"fdivrl", 1, 0xdc, 7, Modrm, Mem, 0, 0},
640 {"fidivrs", 1, 0xde, 7, Modrm, Mem, 0, 0},
641 
642 {"f2xm1", 0,   0xd9f0, _, NoModrm, 0, 0, 0},
643 {"fyl2x", 0,   0xd9f1, _, NoModrm, 0, 0, 0},
644 {"fptan", 0,   0xd9f2, _, NoModrm, 0, 0, 0},
645 {"fpatan", 0,  0xd9f3, _, NoModrm, 0, 0, 0},
646 {"fxtract", 0, 0xd9f4, _, NoModrm, 0, 0, 0},
647 {"fprem1", 0,  0xd9f5, _, NoModrm, 0, 0, 0},
648 {"fdecstp", 0,  0xd9f6, _, NoModrm, 0, 0, 0},
649 {"fincstp", 0,  0xd9f7, _, NoModrm, 0, 0, 0},
650 {"fprem", 0,   0xd9f8, _, NoModrm, 0, 0, 0},
651 {"fyl2xp1", 0, 0xd9f9, _, NoModrm, 0, 0, 0},
652 {"fsqrt", 0,   0xd9fa, _, NoModrm, 0, 0, 0},
653 {"fsincos", 0, 0xd9fb, _, NoModrm, 0, 0, 0},
654 {"frndint", 0, 0xd9fc, _, NoModrm, 0, 0, 0},
655 {"fscale", 0,  0xd9fd, _, NoModrm, 0, 0, 0},
656 {"fsin", 0,    0xd9fe, _, NoModrm, 0, 0, 0},
657 {"fcos", 0,    0xd9ff, _, NoModrm, 0, 0, 0},
658 
659 {"fchs", 0, 0xd9e0, _, NoModrm, 0, 0, 0},
660 {"fabs", 0, 0xd9e1, _, NoModrm, 0, 0, 0},
661 
662 /* processor control */
663 {"fninit", 0, 0xdbe3, _, NoModrm, 0, 0, 0},
664 {"finit", 0, 0xdbe3, _, NoModrm, 0, 0, 0},
665 {"fldcw", 1, 0xd9, 5, Modrm, Mem, 0, 0},
666 {"fnstcw", 1, 0xd9, 7, Modrm, Mem, 0, 0},
667 {"fstcw", 1, 0xd9, 7, Modrm, Mem, 0, 0},
668 {"fnstsw", 1, 0xdfe0, _, NoModrm, Acc, 0, 0},
669 {"fnstsw", 1, 0xdd, 7, Modrm, Mem, 0, 0},
670 {"fnstsw", 0, 0xdfe0, _, NoModrm, 0, 0, 0},
671 {"fstsw", 1, 0xdfe0, _, NoModrm, Acc, 0, 0},
672 {"fstsw", 1, 0xdd, 7, Modrm, Mem, 0, 0},
673 {"fstsw", 0, 0xdfe0, _, NoModrm, 0, 0, 0},
674 {"fnclex", 0, 0xdbe2, _, NoModrm, 0, 0, 0},
675 {"fclex", 0, 0xdbe2, _, NoModrm, 0, 0, 0},
676 /*
677  We ignore the short format (287) versions of fstenv/fldenv & fsave/frstor
678  instructions;  i'm not sure how to add them or how they are different.
679  My 386/387 book offers no details about this.
680 */
681 {"fnstenv", 1, 0xd9, 6, Modrm, Mem, 0, 0},
682 {"fstenv", 1, 0xd9, 6, Modrm, Mem, 0, 0},
683 {"fldenv", 1, 0xd9, 4, Modrm, Mem, 0, 0},
684 {"fnsave", 1, 0xdd, 6, Modrm, Mem, 0, 0},
685 {"fsave", 1, 0xdd, 6, Modrm, Mem, 0, 0},
686 {"frstor", 1, 0xdd, 4, Modrm, Mem, 0, 0},
687 
688 {"ffree", 1, 0xddc0, _, ShortForm, FloatReg, 0, 0},
689 {"fnop", 0, 0xd9d0, _, NoModrm, 0, 0, 0},
690 {"fwait", 0, 0x9b, _, NoModrm, 0, 0, 0},
691 
692 /*
693   opcode prefixes; we allow them as seperate insns too
694   (see prefix table below)
695 */
696 {"aword", 0, 0x67, _, NoModrm, 0, 0, 0},
697 {"word", 0, 0x66, _, NoModrm, 0, 0, 0},
698 {"lock", 0, 0xf0, _, NoModrm, 0, 0, 0},
699 {"cs", 0, 0x2e, _, NoModrm, 0, 0, 0},
700 {"ds", 0, 0x3e, _, NoModrm, 0, 0, 0},
701 {"es", 0, 0x26, _, NoModrm, 0, 0, 0},
702 {"fs", 0, 0x64, _, NoModrm, 0, 0, 0},
703 {"gs", 0, 0x65, _, NoModrm, 0, 0, 0},
704 {"ss", 0, 0x36, _, NoModrm, 0, 0, 0},
705 {"rep", 0, 0xf3, _, NoModrm, 0, 0, 0},
706 {"repe", 0, 0xf3, _, NoModrm, 0, 0, 0},
707 { "repne", 0, 0xf2, _, NoModrm, 0, 0, 0},
708 
709 {"", 0, 0, 0, 0, 0, 0, 0}	/* sentinal */
710 };
711 #undef _
712 
713 template *i386_optab_end
714   = i386_optab + sizeof (i386_optab)/sizeof(i386_optab[0]);
715 
716 /* 386 register table */
717 
718 reg_entry i386_regtab[] = {
719   /* 8 bit regs */
720   {"al", Reg8|Acc, 0}, {"cl", Reg8|ShiftCount, 1}, {"dl", Reg8, 2},
721   {"bl", Reg8, 3},
722   {"ah", Reg8, 4}, {"ch", Reg8, 5}, {"dh", Reg8, 6}, {"bh", Reg8, 7},
723   /* 16 bit regs */
724   {"ax", Reg16|Acc, 0}, {"cx", Reg16, 1}, {"dx", Reg16|InOutPortReg, 2}, {"bx", Reg16, 3},
725   {"sp", Reg16, 4}, {"bp", Reg16, 5}, {"si", Reg16, 6}, {"di", Reg16, 7},
726   /* 32 bit regs */
727   {"eax", Reg32|Acc, 0}, {"ecx", Reg32, 1}, {"edx", Reg32, 2}, {"ebx", Reg32, 3},
728   {"esp", Reg32, 4}, {"ebp", Reg32, 5}, {"esi", Reg32, 6}, {"edi", Reg32, 7},
729   /* segment registers */
730   {"es", SReg2, 0}, {"cs", SReg2, 1}, {"ss", SReg2, 2},
731   {"ds", SReg2, 3}, {"fs", SReg3, 4}, {"gs", SReg3, 5},
732   /* control registers */
733   {"cr0", Control, 0},   {"cr2", Control, 2},   {"cr3", Control, 3},
734   /* debug registers */
735   {"db0", Debug, 0},   {"db1", Debug, 1},   {"db2", Debug, 2},
736   {"db3", Debug, 3},   {"db6", Debug, 6},   {"db7", Debug, 7},
737   /* test registers */
738   {"tr6", Test, 6}, {"tr7", Test, 7},
739   /* float registers */
740   {"st(0)", FloatReg|FloatAcc, 0},
741   {"st", FloatReg|FloatAcc, 0},
742   {"st(1)", FloatReg, 1}, {"st(2)", FloatReg, 2},
743   {"st(3)", FloatReg, 3}, {"st(4)", FloatReg, 4}, {"st(5)", FloatReg, 5},
744   {"st(6)", FloatReg, 6}, {"st(7)", FloatReg, 7}
745 };
746 
747 #define MAX_REG_NAME_SIZE 8	/* for parsing register names from input */
748 
749 reg_entry *i386_regtab_end
750   = i386_regtab + sizeof(i386_regtab)/sizeof(i386_regtab[0]);
751 
752 /* segment stuff */
753 seg_entry cs = { "cs", 0x2e };
754 seg_entry ds = { "ds", 0x3e };
755 seg_entry ss = { "ss", 0x36 };
756 seg_entry es = { "es", 0x26 };
757 seg_entry fs = { "fs", 0x64 };
758 seg_entry gs = { "gs", 0x65 };
759 seg_entry null = { "", 0x0 };
760 
761 /*
762   This table is used to store the default segment register implied by all
763   possible memory addressing modes.
764   It is indexed by the mode & modrm entries of the modrm byte as follows:
765       index = (mode<<3) | modrm;
766 */
767 seg_entry *one_byte_segment_defaults[] = {
768   /* mode 0 */
769   &ds, &ds, &ds, &ds, &null, &ds, &ds, &ds,
770   /* mode 1 */
771   &ds, &ds, &ds, &ds, &null, &ss, &ds, &ds,
772   /* mode 2 */
773   &ds, &ds, &ds, &ds, &null, &ss, &ds, &ds,
774   /* mode 3 --- not a memory reference; never referenced */
775 };
776 
777 seg_entry *two_byte_segment_defaults[] = {
778   /* mode 0 */
779   &ds, &ds, &ds, &ds, &ss, &ds, &ds, &ds,
780   /* mode 1 */
781   &ds, &ds, &ds, &ds, &ss, &ds, &ds, &ds,
782   /* mode 2 */
783   &ds, &ds, &ds, &ds, &ss, &ds, &ds, &ds,
784   /* mode 3 --- not a memory reference; never referenced */
785 };
786 
787 prefix_entry i386_prefixtab[] = {
788   { "addr16", 0x67 },		/* address size prefix ==> 16bit addressing
789 				 * (How is this useful?) */
790 #define WORD_PREFIX_OPCODE 0x66
791   { "data16", 0x66 },		/* operand size prefix */
792   { "lock", 0xf0 },		/* bus lock prefix */
793   { "wait", 0x9b },		/* wait for coprocessor */
794   { "cs", 0x2e }, { "ds", 0x3e }, /* segment overrides ... */
795   { "es", 0x26 }, { "fs", 0x64 },
796   { "gs", 0x65 }, { "ss", 0x36 },
797 /* REPE & REPNE used to detect rep/repne with a non-string instruction */
798 #define REPNE 0xf2
799 #define REPE  0xf3
800   { "rep", 0xf3 }, { "repe", 0xf3 }, /* repeat string instructions */
801   { "repne", 0xf2 }
802 };
803 
804 prefix_entry *i386_prefixtab_end
805   = i386_prefixtab + sizeof(i386_prefixtab)/sizeof(i386_prefixtab[0]);
806 
807