1 /* mips16-opc.c. Mips16 opcode table.
2 Copyright 1996, 1997, 1998, 2000, 2005, 2006, 2007, 2012
3 Free Software Foundation, Inc.
4 Contributed by Ian Lance Taylor, Cygnus Support
6 This file is part of the GNU opcodes library.
8 This library is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
13 It is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
16 License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this file; see the file COPYING. If not, write to the
20 Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston,
21 MA 02110-1301, USA. */
25 #include "opcode/mips.h"
26 #include "mips-formats.h"
28 static unsigned char reg_0_map[] = { 0 };
29 static unsigned char reg_29_map[] = { 29 };
30 static unsigned char reg_31_map[] = { 31 };
31 static unsigned char reg_m16_map[] = { 16, 17, 2, 3, 4, 5, 6, 7 };
32 static unsigned char reg32r_map[] = {
43 /* Return the meaning of operand character TYPE, or null if it isn't
44 recognized. If the operand is affected by the EXTEND instruction,
45 EXTENDED_P selects between the extended and unextended forms.
46 The extended forms all have an lsb of 0. */
48 const struct mips_operand *
49 decode_mips16_operand (char type, bfd_boolean extended_p)
53 case '0': MAPPED_REG (0, 0, GP, reg_0_map);
55 case 'L': SPECIAL (6, 5, ENTRY_EXIT_LIST);
56 case 'M': SPECIAL (7, 0, SAVE_RESTORE_LIST);
57 case 'P': SPECIAL (0, 0, PC);
58 case 'R': MAPPED_REG (0, 0, GP, reg_31_map);
59 case 'S': MAPPED_REG (0, 0, GP, reg_29_map);
60 case 'X': REG (5, 0, GP);
61 case 'Y': MAPPED_REG (5, 3, GP, reg32r_map);
62 case 'Z': MAPPED_REG (3, 0, GP, reg_m16_map);
64 case 'a': JUMP (26, 0, 2);
65 case 'e': UINT (11, 0);
66 case 'i': JALX (26, 0, 2);
67 case 'l': SPECIAL (6, 5, ENTRY_EXIT_LIST);
68 case 'm': SPECIAL (7, 0, SAVE_RESTORE_LIST);
69 case 'v': MAPPED_REG (3, 8, GP, reg_m16_map);
70 case 'w': MAPPED_REG (3, 5, GP, reg_m16_map);
71 case 'x': MAPPED_REG (3, 8, GP, reg_m16_map);
72 case 'y': MAPPED_REG (3, 5, GP, reg_m16_map);
73 case 'z': MAPPED_REG (3, 2, GP, reg_m16_map);
79 case '<': UINT (5, 0);
80 case '>': UINT (5, 0);
81 case '[': UINT (6, 0);
82 case ']': UINT (6, 0);
84 case '4': SINT (15, 0);
85 case '5': SINT (16, 0);
86 case '6': SINT (16, 0);
87 case '8': SINT (16, 0);
89 case 'A': PCREL (16, 0, 2, 0, TRUE, FALSE, FALSE);
90 case 'B': PCREL (16, 0, 3, 0, TRUE, FALSE, FALSE);
91 case 'C': SINT (16, 0);
92 case 'D': SINT (16, 0);
93 case 'E': PCREL (16, 0, 2, 0, TRUE, FALSE, FALSE);
94 case 'H': SINT (16, 0);
95 case 'K': SINT (16, 0);
96 case 'U': UINT (16, 0);
97 case 'V': SINT (16, 0);
98 case 'W': SINT (16, 0);
100 case 'j': SINT (16, 0);
101 case 'k': SINT (16, 0);
102 case 'p': BRANCH (16, 0, 1);
103 case 'q': BRANCH (16, 0, 1);
108 case '<': INT_ADJ (3, 2, 8, 0, FALSE);
109 case '>': INT_ADJ (3, 8, 8, 0, FALSE);
110 case '[': INT_ADJ (3, 2, 8, 0, FALSE);
111 case ']': INT_ADJ (3, 8, 8, 0, FALSE);
113 case '4': SINT (4, 0);
114 case '5': UINT (5, 0);
115 case '6': UINT (6, 5);
116 case '8': UINT (8, 0);
118 case 'A': PCREL (8, 0, 2, 2, FALSE, FALSE, FALSE);
119 case 'B': PCREL (5, 0, 3, 3, FALSE, FALSE, FALSE);
120 case 'C': INT_ADJ (8, 0, 255, 3, FALSE); /* (0 .. 255) << 3 */
121 case 'D': INT_ADJ (5, 0, 31, 3, FALSE); /* (0 .. 31) << 3 */
122 case 'E': PCREL (5, 0, 2, 2, FALSE, FALSE, FALSE);
123 case 'H': INT_ADJ (5, 0, 31, 1, FALSE); /* (0 .. 31) << 1 */
124 case 'K': INT_ADJ (8, 0, 127, 3, FALSE); /* (-128 .. 127) << 3 */
125 case 'U': UINT (8, 0);
126 case 'V': INT_ADJ (8, 0, 255, 2, FALSE); /* (0 .. 255) << 2 */
127 case 'W': INT_ADJ (5, 0, 31, 2, FALSE); /* (0 .. 31) << 2 */
129 case 'j': SINT (5, 0);
130 case 'k': SINT (8, 0);
131 case 'p': BRANCH (8, 0, 1);
132 case 'q': BRANCH (11, 0, 1);
137 /* This is the opcodes table for the mips16 processor. The format of
138 this table is intentionally identical to the one in mips-opc.c.
139 However, the special letters that appear in the argument string are
140 different, and the table uses some different flags. */
142 /* Use some short hand macros to keep down the length of the lines in
143 the opcodes table. */
145 #define UBD INSN_UNCOND_BRANCH_DELAY
146 #define UBR MIPS16_INSN_UNCOND_BRANCH
147 #define CBR MIPS16_INSN_COND_BRANCH
149 #define WR_x MIPS16_INSN_WRITE_X
150 #define WR_y MIPS16_INSN_WRITE_Y
151 #define WR_z MIPS16_INSN_WRITE_Z
152 #define WR_T MIPS16_INSN_WRITE_T
153 #define WR_SP MIPS16_INSN_WRITE_SP
154 #define WR_31 MIPS16_INSN_WRITE_31
155 #define WR_Y MIPS16_INSN_WRITE_GPR_Y
157 #define RD_x MIPS16_INSN_READ_X
158 #define RD_y MIPS16_INSN_READ_Y
159 #define RD_Z MIPS16_INSN_READ_Z
160 #define RD_T MIPS16_INSN_READ_T
161 #define RD_SP MIPS16_INSN_READ_SP
162 #define RD_31 MIPS16_INSN_READ_31
163 #define RD_PC MIPS16_INSN_READ_PC
164 #define RD_X MIPS16_INSN_READ_GPR_X
166 #define WR_HI INSN_WRITE_HI
167 #define WR_LO INSN_WRITE_LO
168 #define RD_HI INSN_READ_HI
169 #define RD_LO INSN_READ_LO
171 #define NODS INSN_NO_DELAY_SLOT
172 #define TRAP INSN_NO_DELAY_SLOT
176 #define I32 INSN_ISA32
177 #define I64 INSN_ISA64
180 const struct mips_opcode mips16_opcodes[] =
182 /* name, args, match, mask, pinfo, pinfo2, membership */
183 {"nop", "", 0x6500, 0xffff, RD_Z, 0, I1 }, /* move $0,$Z */
184 {"la", "x,A", 0x0800, 0xf800, WR_x|RD_PC, 0, I1 },
185 {"abs", "x,w", 0, (int) M_ABS, INSN_MACRO, 0, I1 },
186 {"addiu", "y,x,4", 0x4000, 0xf810, WR_y|RD_x, 0, I1 },
187 {"addiu", "x,k", 0x4800, 0xf800, WR_x|RD_x, 0, I1 },
188 {"addiu", "S,K", 0x6300, 0xff00, WR_SP|RD_SP, 0, I1 },
189 {"addiu", "S,S,K", 0x6300, 0xff00, WR_SP|RD_SP, 0, I1 },
190 {"addiu", "x,P,V", 0x0800, 0xf800, WR_x|RD_PC, 0, I1 },
191 {"addiu", "x,S,V", 0x0000, 0xf800, WR_x|RD_SP, 0, I1 },
192 {"addu", "z,v,y", 0xe001, 0xf803, WR_z|RD_x|RD_y, 0, I1 },
193 {"addu", "y,x,4", 0x4000, 0xf810, WR_y|RD_x, 0, I1 },
194 {"addu", "x,k", 0x4800, 0xf800, WR_x|RD_x, 0, I1 },
195 {"addu", "S,K", 0x6300, 0xff00, WR_SP|RD_SP, 0, I1 },
196 {"addu", "S,S,K", 0x6300, 0xff00, WR_SP|RD_SP, 0, I1 },
197 {"addu", "x,P,V", 0x0800, 0xf800, WR_x|RD_PC, 0, I1 },
198 {"addu", "x,S,V", 0x0000, 0xf800, WR_x|RD_SP, 0, I1 },
199 {"and", "x,y", 0xe80c, 0xf81f, WR_x|RD_x|RD_y, 0, I1 },
200 {"b", "q", 0x1000, 0xf800, UBR, 0, I1 },
201 {"beq", "x,y,p", 0, (int) M_BEQ, INSN_MACRO, 0, I1 },
202 {"beq", "x,I,p", 0, (int) M_BEQ_I, INSN_MACRO, 0, I1 },
203 {"beqz", "x,p", 0x2000, 0xf800, CBR|RD_x, 0, I1 },
204 {"bge", "x,y,p", 0, (int) M_BGE, INSN_MACRO, 0, I1 },
205 {"bge", "x,I,p", 0, (int) M_BGE_I, INSN_MACRO, 0, I1 },
206 {"bgeu", "x,y,p", 0, (int) M_BGEU, INSN_MACRO, 0, I1 },
207 {"bgeu", "x,I,p", 0, (int) M_BGEU_I, INSN_MACRO, 0, I1 },
208 {"bgt", "x,y,p", 0, (int) M_BGT, INSN_MACRO, 0, I1 },
209 {"bgt", "x,I,p", 0, (int) M_BGT_I, INSN_MACRO, 0, I1 },
210 {"bgtu", "x,y,p", 0, (int) M_BGTU, INSN_MACRO, 0, I1 },
211 {"bgtu", "x,I,p", 0, (int) M_BGTU_I, INSN_MACRO, 0, I1 },
212 {"ble", "x,y,p", 0, (int) M_BLE, INSN_MACRO, 0, I1 },
213 {"ble", "x,I,p", 0, (int) M_BLE_I, INSN_MACRO, 0, I1 },
214 {"bleu", "x,y,p", 0, (int) M_BLEU, INSN_MACRO, 0, I1 },
215 {"bleu", "x,I,p", 0, (int) M_BLEU_I, INSN_MACRO, 0, I1 },
216 {"blt", "x,y,p", 0, (int) M_BLT, INSN_MACRO, 0, I1 },
217 {"blt", "x,I,p", 0, (int) M_BLT_I, INSN_MACRO, 0, I1 },
218 {"bltu", "x,y,p", 0, (int) M_BLTU, INSN_MACRO, 0, I1 },
219 {"bltu", "x,I,p", 0, (int) M_BLTU_I, INSN_MACRO, 0, I1 },
220 {"bne", "x,y,p", 0, (int) M_BNE, INSN_MACRO, 0, I1 },
221 {"bne", "x,I,p", 0, (int) M_BNE_I, INSN_MACRO, 0, I1 },
222 {"bnez", "x,p", 0x2800, 0xf800, CBR|RD_x, 0, I1 },
223 {"break", "6", 0xe805, 0xf81f, TRAP, 0, I1 },
224 {"bteqz", "p", 0x6000, 0xff00, CBR|RD_T, 0, I1 },
225 {"btnez", "p", 0x6100, 0xff00, CBR|RD_T, 0, I1 },
226 {"cmpi", "x,U", 0x7000, 0xf800, WR_T|RD_x, 0, I1 },
227 {"cmp", "x,y", 0xe80a, 0xf81f, WR_T|RD_x|RD_y, 0, I1 },
228 {"cmp", "x,U", 0x7000, 0xf800, WR_T|RD_x, 0, I1 },
229 {"dla", "y,E", 0xfe00, 0xff00, WR_y|RD_PC, 0, I3 },
230 {"daddiu", "y,x,4", 0x4010, 0xf810, WR_y|RD_x, 0, I3 },
231 {"daddiu", "y,j", 0xfd00, 0xff00, WR_y|RD_y, 0, I3 },
232 {"daddiu", "S,K", 0xfb00, 0xff00, WR_SP|RD_SP, 0, I3 },
233 {"daddiu", "S,S,K", 0xfb00, 0xff00, WR_SP|RD_SP, 0, I3 },
234 {"daddiu", "y,P,W", 0xfe00, 0xff00, WR_y|RD_PC, 0, I3 },
235 {"daddiu", "y,S,W", 0xff00, 0xff00, WR_y|RD_SP, 0, I3 },
236 {"daddu", "z,v,y", 0xe000, 0xf803, WR_z|RD_x|RD_y, 0, I3 },
237 {"daddu", "y,x,4", 0x4010, 0xf810, WR_y|RD_x, 0, I3 },
238 {"daddu", "y,j", 0xfd00, 0xff00, WR_y|RD_y, 0, I3 },
239 {"daddu", "S,K", 0xfb00, 0xff00, WR_SP|RD_SP, 0, I3 },
240 {"daddu", "S,S,K", 0xfb00, 0xff00, WR_SP|RD_SP, 0, I3 },
241 {"daddu", "y,P,W", 0xfe00, 0xff00, WR_y|RD_PC, 0, I3 },
242 {"daddu", "y,S,W", 0xff00, 0xff00, WR_y|RD_SP, 0, I3 },
243 {"ddiv", "0,x,y", 0xe81e, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I3 },
244 {"ddiv", "z,v,y", 0, (int) M_DDIV_3, INSN_MACRO, 0, I1 },
245 {"ddivu", "0,x,y", 0xe81f, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I3 },
246 {"ddivu", "z,v,y", 0, (int) M_DDIVU_3, INSN_MACRO, 0, I1 },
247 {"div", "0,x,y", 0xe81a, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I1 },
248 {"div", "z,v,y", 0, (int) M_DIV_3, INSN_MACRO, 0, I1 },
249 {"divu", "0,x,y", 0xe81b, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I1 },
250 {"divu", "z,v,y", 0, (int) M_DIVU_3, INSN_MACRO, 0, I1 },
251 {"dmul", "z,v,y", 0, (int) M_DMUL, INSN_MACRO, 0, I3 },
252 {"dmult", "x,y", 0xe81c, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I3 },
253 {"dmultu", "x,y", 0xe81d, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I3 },
254 {"drem", "0,x,y", 0xe81e, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I3 },
255 {"drem", "z,v,y", 0, (int) M_DREM_3, INSN_MACRO, 0, I1 },
256 {"dremu", "0,x,y", 0xe81f, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I3 },
257 {"dremu", "z,v,y", 0, (int) M_DREMU_3, INSN_MACRO, 0, I1 },
258 {"dsllv", "y,x", 0xe814, 0xf81f, WR_y|RD_y|RD_x, 0, I3 },
259 {"dsll", "x,w,[", 0x3001, 0xf803, WR_x|RD_y, 0, I3 },
260 {"dsll", "y,x", 0xe814, 0xf81f, WR_y|RD_y|RD_x, 0, I3 },
261 {"dsrav", "y,x", 0xe817, 0xf81f, WR_y|RD_y|RD_x, 0, I3 },
262 {"dsra", "y,]", 0xe813, 0xf81f, WR_y|RD_y, 0, I3 },
263 {"dsra", "y,x", 0xe817, 0xf81f, WR_y|RD_y|RD_x, 0, I3 },
264 {"dsrlv", "y,x", 0xe816, 0xf81f, WR_y|RD_y|RD_x, 0, I3 },
265 {"dsrl", "y,]", 0xe808, 0xf81f, WR_y|RD_y, 0, I3 },
266 {"dsrl", "y,x", 0xe816, 0xf81f, WR_y|RD_y|RD_x, 0, I3 },
267 {"dsubu", "z,v,y", 0xe002, 0xf803, WR_z|RD_x|RD_y, 0, I3 },
268 {"dsubu", "y,x,I", 0, (int) M_DSUBU_I, INSN_MACRO, 0, I1 },
269 {"dsubu", "y,I", 0, (int) M_DSUBU_I_2, INSN_MACRO, 0, I1 },
270 {"exit", "L", 0xed09, 0xff1f, TRAP, 0, I1 },
271 {"exit", "L", 0xee09, 0xff1f, TRAP, 0, I1 },
272 {"exit", "", 0xef09, 0xffff, TRAP, 0, I1 },
273 {"exit", "L", 0xef09, 0xff1f, TRAP, 0, I1 },
274 {"entry", "", 0xe809, 0xffff, TRAP, 0, I1 },
275 {"entry", "l", 0xe809, 0xf81f, TRAP, 0, I1 },
276 {"extend", "e", 0xf000, 0xf800, 0, 0, I1 },
277 {"jalr", "x", 0xe840, 0xf8ff, UBD|WR_31|RD_x, 0, I1 },
278 {"jalr", "R,x", 0xe840, 0xf8ff, UBD|WR_31|RD_x, 0, I1 },
279 {"jal", "x", 0xe840, 0xf8ff, UBD|WR_31|RD_x, 0, I1 },
280 {"jal", "R,x", 0xe840, 0xf8ff, UBD|WR_31|RD_x, 0, I1 },
281 {"jal", "a", 0x1800, 0xfc00, UBD|WR_31, 0, I1 },
282 {"jalx", "i", 0x1c00, 0xfc00, UBD|WR_31, 0, I1 },
283 {"jr", "x", 0xe800, 0xf8ff, UBD|RD_x, 0, I1 },
284 {"jr", "R", 0xe820, 0xffff, UBD|RD_31, 0, I1 },
285 {"j", "x", 0xe800, 0xf8ff, UBD|RD_x, 0, I1 },
286 {"j", "R", 0xe820, 0xffff, UBD|RD_31, 0, I1 },
287 /* MIPS16e compact branches. We keep them near the ordinary branches
288 so that we easily find them when converting a normal branch to a
290 {"jalrc", "x", 0xe8c0, 0xf8ff, UBR|WR_31|RD_x|NODS, 0, I32 },
291 {"jalrc", "R,x", 0xe8c0, 0xf8ff, UBR|WR_31|RD_x|NODS, 0, I32 },
292 {"jrc", "x", 0xe880, 0xf8ff, UBR|RD_x|NODS, 0, I32 },
293 {"jrc", "R", 0xe8a0, 0xffff, UBR|RD_31|NODS, 0, I32 },
294 {"lb", "y,5(x)", 0x8000, 0xf800, WR_y|RD_x, 0, I1 },
295 {"lbu", "y,5(x)", 0xa000, 0xf800, WR_y|RD_x, 0, I1 },
296 {"ld", "y,D(x)", 0x3800, 0xf800, WR_y|RD_x, 0, I3 },
297 {"ld", "y,B", 0xfc00, 0xff00, WR_y|RD_PC, 0, I3 },
298 {"ld", "y,D(P)", 0xfc00, 0xff00, WR_y|RD_PC, 0, I3 },
299 {"ld", "y,D(S)", 0xf800, 0xff00, WR_y|RD_SP, 0, I3 },
300 {"lh", "y,H(x)", 0x8800, 0xf800, WR_y|RD_x, 0, I1 },
301 {"lhu", "y,H(x)", 0xa800, 0xf800, WR_y|RD_x, 0, I1 },
302 {"li", "x,U", 0x6800, 0xf800, WR_x, 0, I1 },
303 {"lw", "y,W(x)", 0x9800, 0xf800, WR_y|RD_x, 0, I1 },
304 {"lw", "x,A", 0xb000, 0xf800, WR_x|RD_PC, 0, I1 },
305 {"lw", "x,V(P)", 0xb000, 0xf800, WR_x|RD_PC, 0, I1 },
306 {"lw", "x,V(S)", 0x9000, 0xf800, WR_x|RD_SP, 0, I1 },
307 {"lwu", "y,W(x)", 0xb800, 0xf800, WR_y|RD_x, 0, I3 },
308 {"mfhi", "x", 0xe810, 0xf8ff, WR_x|RD_HI, 0, I1 },
309 {"mflo", "x", 0xe812, 0xf8ff, WR_x|RD_LO, 0, I1 },
310 {"move", "y,X", 0x6700, 0xff00, WR_y|RD_X, 0, I1 },
311 {"move", "Y,Z", 0x6500, 0xff00, WR_Y|RD_Z, 0, I1 },
312 {"mul", "z,v,y", 0, (int) M_MUL, INSN_MACRO, 0, I1 },
313 {"mult", "x,y", 0xe818, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I1 },
314 {"multu", "x,y", 0xe819, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I1 },
315 {"neg", "x,w", 0xe80b, 0xf81f, WR_x|RD_y, 0, I1 },
316 {"not", "x,w", 0xe80f, 0xf81f, WR_x|RD_y, 0, I1 },
317 {"or", "x,y", 0xe80d, 0xf81f, WR_x|RD_x|RD_y, 0, I1 },
318 {"rem", "0,x,y", 0xe81a, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I1 },
319 {"rem", "z,v,y", 0, (int) M_REM_3, INSN_MACRO, 0, I1 },
320 {"remu", "0,x,y", 0xe81b, 0xf81f, RD_x|RD_y|WR_HI|WR_LO, 0, I1 },
321 {"remu", "z,v,y", 0, (int) M_REMU_3, INSN_MACRO, 0, I1 },
322 {"sb", "y,5(x)", 0xc000, 0xf800, RD_y|RD_x, 0, I1 },
323 {"sd", "y,D(x)", 0x7800, 0xf800, RD_y|RD_x, 0, I3 },
324 {"sd", "y,D(S)", 0xf900, 0xff00, RD_y|RD_PC, 0, I3 },
325 {"sd", "R,C(S)", 0xfa00, 0xff00, RD_31|RD_PC, 0, I1 },
326 {"sh", "y,H(x)", 0xc800, 0xf800, RD_y|RD_x, 0, I1 },
327 {"sllv", "y,x", 0xe804, 0xf81f, WR_y|RD_y|RD_x, 0, I1 },
328 {"sll", "x,w,<", 0x3000, 0xf803, WR_x|RD_y, 0, I1 },
329 {"sll", "y,x", 0xe804, 0xf81f, WR_y|RD_y|RD_x, 0, I1 },
330 {"slti", "x,8", 0x5000, 0xf800, WR_T|RD_x, 0, I1 },
331 {"slt", "x,y", 0xe802, 0xf81f, WR_T|RD_x|RD_y, 0, I1 },
332 {"slt", "x,8", 0x5000, 0xf800, WR_T|RD_x, 0, I1 },
333 {"sltiu", "x,8", 0x5800, 0xf800, WR_T|RD_x, 0, I1 },
334 {"sltu", "x,y", 0xe803, 0xf81f, WR_T|RD_x|RD_y, 0, I1 },
335 {"sltu", "x,8", 0x5800, 0xf800, WR_T|RD_x, 0, I1 },
336 {"srav", "y,x", 0xe807, 0xf81f, WR_y|RD_y|RD_x, 0, I1 },
337 {"sra", "x,w,<", 0x3003, 0xf803, WR_x|RD_y, 0, I1 },
338 {"sra", "y,x", 0xe807, 0xf81f, WR_y|RD_y|RD_x, 0, I1 },
339 {"srlv", "y,x", 0xe806, 0xf81f, WR_y|RD_y|RD_x, 0, I1 },
340 {"srl", "x,w,<", 0x3002, 0xf803, WR_x|RD_y, 0, I1 },
341 {"srl", "y,x", 0xe806, 0xf81f, WR_y|RD_y|RD_x, 0, I1 },
342 {"subu", "z,v,y", 0xe003, 0xf803, WR_z|RD_x|RD_y, 0, I1 },
343 {"subu", "y,x,I", 0, (int) M_SUBU_I, INSN_MACRO, 0, I1 },
344 {"subu", "x,I", 0, (int) M_SUBU_I_2, INSN_MACRO,0, I1 },
345 {"sw", "y,W(x)", 0xd800, 0xf800, RD_y|RD_x, 0, I1 },
346 {"sw", "x,V(S)", 0xd000, 0xf800, RD_x|RD_SP, 0, I1 },
347 {"sw", "R,V(S)", 0x6200, 0xff00, RD_31|RD_SP, 0, I1 },
348 {"xor", "x,y", 0xe80e, 0xf81f, WR_x|RD_x|RD_y, 0, I1 },
349 /* MIPS16e additions */
350 {"restore", "M", 0x6400, 0xff80, WR_31|RD_SP|WR_SP|NODS, 0, I32 },
351 {"save", "m", 0x6480, 0xff80, RD_31|RD_SP|WR_SP|NODS, 0, I32 },
352 {"sdbbp", "6", 0xe801, 0xf81f, TRAP, 0, I32 },
353 {"seb", "x", 0xe891, 0xf8ff, WR_x|RD_x, 0, I32 },
354 {"seh", "x", 0xe8b1, 0xf8ff, WR_x|RD_x, 0, I32 },
355 {"sew", "x", 0xe8d1, 0xf8ff, WR_x|RD_x, 0, I64 },
356 {"zeb", "x", 0xe811, 0xf8ff, WR_x|RD_x, 0, I32 },
357 {"zeh", "x", 0xe831, 0xf8ff, WR_x|RD_x, 0, I32 },
358 {"zew", "x", 0xe851, 0xf8ff, WR_x|RD_x, 0, I64 },
361 const int bfd_mips16_num_opcodes =
362 ((sizeof mips16_opcodes) / (sizeof (mips16_opcodes[0])));
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