1 /* d30v-opc.c -- D30V opcode list
2 Copyright (C) 1997-2017 Free Software Foundation, Inc.
3 Written by Martin Hunt, Cygnus Support
5 This file is part of the GNU opcodes library.
7 This library is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
12 It is distributed in the hope that it will be useful, but WITHOUT
13 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
14 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
15 License for more details.
17 You should have received a copy of the GNU General Public License
18 along with this file; see the file COPYING. If not, write to the Free
19 Software Foundation, 51 Franklin Street - Fifth Floor, Boston,
20 MA 02110-1301, USA. */
24 #include "opcode/d30v.h"
26 /* This table is sorted.
27 If you add anything, it MUST be in alphabetical order.
28 The first field is the name the assembler uses when looking
29 up orcodes. The second field is the name the disassembler will use.
30 This allows the assembler to assemble references to r63 (for example)
31 or "sp". The disassembler will always use the preferred form (sp). */
32 const struct pd_reg pre_defined_registers[] =
34 { "a0", NULL, OPERAND_ACC + 0 },
35 { "a1", NULL, OPERAND_ACC + 1 },
36 { "bpc", NULL, OPERAND_CONTROL + 3 },
37 { "bpsw", NULL, OPERAND_CONTROL + 1 },
38 { "c", "c", OPERAND_FLAG + 7 },
39 { "cr0", "psw", OPERAND_CONTROL },
40 { "cr1", "bpsw", OPERAND_CONTROL + 1 },
41 { "cr10", "mod_s", OPERAND_CONTROL + 10 },
42 { "cr11", "mod_e", OPERAND_CONTROL + 11 },
43 { "cr12", NULL, OPERAND_CONTROL + 12 },
44 { "cr13", NULL, OPERAND_CONTROL + 13 },
45 { "cr14", "iba", OPERAND_CONTROL + 14 },
46 { "cr15", "eit_vb", OPERAND_CONTROL + 15 },
47 { "cr16", "int_s", OPERAND_CONTROL + 16 },
48 { "cr17", "int_m", OPERAND_CONTROL + 17 },
49 { "cr18", NULL, OPERAND_CONTROL + 18 },
50 { "cr19", NULL, OPERAND_CONTROL + 19 },
51 { "cr2", "pc", OPERAND_CONTROL + 2 },
52 { "cr20", NULL, OPERAND_CONTROL + 20 },
53 { "cr21", NULL, OPERAND_CONTROL + 21 },
54 { "cr22", NULL, OPERAND_CONTROL + 22 },
55 { "cr23", NULL, OPERAND_CONTROL + 23 },
56 { "cr24", NULL, OPERAND_CONTROL + 24 },
57 { "cr25", NULL, OPERAND_CONTROL + 25 },
58 { "cr26", NULL, OPERAND_CONTROL + 26 },
59 { "cr27", NULL, OPERAND_CONTROL + 27 },
60 { "cr28", NULL, OPERAND_CONTROL + 28 },
61 { "cr29", NULL, OPERAND_CONTROL + 29 },
62 { "cr3", "bpc", OPERAND_CONTROL + 3 },
63 { "cr30", NULL, OPERAND_CONTROL + 30 },
64 { "cr31", NULL, OPERAND_CONTROL + 31 },
65 { "cr32", NULL, OPERAND_CONTROL + 32 },
66 { "cr33", NULL, OPERAND_CONTROL + 33 },
67 { "cr34", NULL, OPERAND_CONTROL + 34 },
68 { "cr35", NULL, OPERAND_CONTROL + 35 },
69 { "cr36", NULL, OPERAND_CONTROL + 36 },
70 { "cr37", NULL, OPERAND_CONTROL + 37 },
71 { "cr38", NULL, OPERAND_CONTROL + 38 },
72 { "cr39", NULL, OPERAND_CONTROL + 39 },
73 { "cr4", "dpsw", OPERAND_CONTROL + 4 },
74 { "cr40", NULL, OPERAND_CONTROL + 40 },
75 { "cr41", NULL, OPERAND_CONTROL + 41 },
76 { "cr42", NULL, OPERAND_CONTROL + 42 },
77 { "cr43", NULL, OPERAND_CONTROL + 43 },
78 { "cr44", NULL, OPERAND_CONTROL + 44 },
79 { "cr45", NULL, OPERAND_CONTROL + 45 },
80 { "cr46", NULL, OPERAND_CONTROL + 46 },
81 { "cr47", NULL, OPERAND_CONTROL + 47 },
82 { "cr48", NULL, OPERAND_CONTROL + 48 },
83 { "cr49", NULL, OPERAND_CONTROL + 49 },
84 { "cr5","dpc", OPERAND_CONTROL + 5 },
85 { "cr50", NULL, OPERAND_CONTROL + 50 },
86 { "cr51", NULL, OPERAND_CONTROL + 51 },
87 { "cr52", NULL, OPERAND_CONTROL + 52 },
88 { "cr53", NULL, OPERAND_CONTROL + 53 },
89 { "cr54", NULL, OPERAND_CONTROL + 54 },
90 { "cr55", NULL, OPERAND_CONTROL + 55 },
91 { "cr56", NULL, OPERAND_CONTROL + 56 },
92 { "cr57", NULL, OPERAND_CONTROL + 57 },
93 { "cr58", NULL, OPERAND_CONTROL + 58 },
94 { "cr59", NULL, OPERAND_CONTROL + 59 },
95 { "cr6", NULL, OPERAND_CONTROL + 6 },
96 { "cr60", NULL, OPERAND_CONTROL + 60 },
97 { "cr61", NULL, OPERAND_CONTROL + 61 },
98 { "cr62", NULL, OPERAND_CONTROL + 62 },
99 { "cr63", NULL, OPERAND_CONTROL + 63 },
100 { "cr7", "rpt_c", OPERAND_CONTROL + 7 },
101 { "cr8", "rpt_s", OPERAND_CONTROL + 8 },
102 { "cr9", "rpt_e", OPERAND_CONTROL + 9 },
103 { "dpc", NULL, OPERAND_CONTROL + 5 },
104 { "dpsw", NULL, OPERAND_CONTROL + 4 },
105 { "eit_vb", NULL, OPERAND_CONTROL + 15 },
106 { "f0", NULL, OPERAND_FLAG + 0 },
107 { "f1", NULL, OPERAND_FLAG + 1 },
108 { "f2", NULL, OPERAND_FLAG + 2 },
109 { "f3", NULL, OPERAND_FLAG + 3 },
110 { "f4", "s", OPERAND_FLAG + 4 },
111 { "f5", "v", OPERAND_FLAG + 5 },
112 { "f6", "va", OPERAND_FLAG + 6 },
113 { "f7", "c", OPERAND_FLAG + 7 },
114 { "iba", NULL, OPERAND_CONTROL + 14 },
115 { "int_m", NULL, OPERAND_CONTROL + 17 },
116 { "int_s", NULL, OPERAND_CONTROL + 16 },
117 { "link", "r62", 62 },
118 { "mod_e", NULL, OPERAND_CONTROL + 11 },
119 { "mod_s", NULL, OPERAND_CONTROL + 10 },
120 { "pc", NULL, OPERAND_CONTROL + 2 },
121 { "psw", NULL, OPERAND_CONTROL },
122 { "pswh", NULL, OPERAND_CONTROL + MAX_CONTROL_REG + 2 },
123 { "pswl", NULL, OPERAND_CONTROL + MAX_CONTROL_REG + 1 },
183 { "r62", "link", 62 },
188 { "rpt_c", NULL, OPERAND_CONTROL + 7 },
189 { "rpt_e", NULL, OPERAND_CONTROL + 9 },
190 { "rpt_s", NULL, OPERAND_CONTROL + 8 },
191 { "s", NULL, OPERAND_FLAG + 4 },
193 { "v", NULL, OPERAND_FLAG + 5 },
194 { "va", NULL, OPERAND_FLAG + 6 },
200 return sizeof (pre_defined_registers) / sizeof (struct pd_reg);
204 The format of this table is defined in opcode/d30v.h. */
206 const struct d30v_opcode d30v_opcode_table[] =
208 { "abs", IALU1, 0x8, { SHORT_U }, EITHER, 0, 0, 0 },
209 { "add", IALU1, 0x0, { SHORT_A, LONG}, EITHER, 0, FLAG_CVVA, 0 },
210 { "add2h", IALU1, 0x1, { SHORT_A, LONG}, EITHER, 0, 0, 0 },
211 { "addc", IALU1, 0x4, { SHORT_A, LONG }, EITHER, FLAG_C, FLAG_CVVA, 0 },
212 { "addhlll", IALU1, 0x10, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
213 { "addhllh", IALU1, 0x11, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
214 { "addhlhl", IALU1, 0x12, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
215 { "addhlhh", IALU1, 0x13, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
216 { "addhhll", IALU1, 0x14, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
217 { "addhhlh", IALU1, 0x15, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
218 { "addhhhl", IALU1, 0x16, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
219 { "addhhhh", IALU1, 0x17, { SHORT_A, LONG }, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
220 { "adds", IALU1, 0x6, { SHORT_A, LONG }, EITHER, 0, FLAG_CVVA, 0 },
221 { "adds2h", IALU1, 0x7, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
222 { "and", LOGIC, 0x18, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
223 { "andfg", LOGIC, 0x8, { SHORT_F }, EITHER, 0, 0, 0 },
224 { "avg", IALU1, 0xa, { SHORT_A, LONG}, EITHER, 0, 0, 0 },
225 { "avg2h", IALU1, 0xb, { SHORT_A, LONG}, EITHER, 0, 0, 0 },
226 { "bclr", LOGIC, 0x3, { SHORT_A }, EITHER_BUT_PREFER_MU, 0, 0, 0 },
227 { "bnot", LOGIC, 0x1, { SHORT_A }, EITHER_BUT_PREFER_MU, 0, 0, 0 },
228 { "bra", BRA, 0, { SHORT_B1, SHORT_B2r, LONG_Ur }, MU, FLAG_JMP, 0, RELOC_PCREL },
229 { "bratnz", BRA, 0x4, { SHORT_B3br, LONG_2br }, MU, FLAG_JMP, 0, RELOC_PCREL },
230 { "bratzr", BRA, 0x4, { SHORT_B3r, LONG_2r }, MU, FLAG_JMP, 0, RELOC_PCREL },
231 { "bset", LOGIC, 0x2, { SHORT_A }, EITHER_BUT_PREFER_MU, 0, 0, 0 },
232 { "bsr", BRA, 0x2, { SHORT_B1, SHORT_B2r, LONG_Ur }, MU, FLAG_JSR, 0, RELOC_PCREL },
233 { "bsrtnz", BRA, 0x6, { SHORT_B3br, LONG_2br }, MU, FLAG_JSR, 0, RELOC_PCREL },
234 { "bsrtzr", BRA, 0x6, { SHORT_B3r, LONG_2r }, MU, FLAG_JSR, 0, RELOC_PCREL },
235 { "btst", LOGIC, 0, { SHORT_AF }, EITHER_BUT_PREFER_MU, 0, 0, 0 },
236 { "cmp", LOGIC, 0xC, { SHORT_CMP, LONG_CMP }, EITHER, 0, 0, 0 },
237 { "cmpu", LOGIC, 0xD, { SHORT_CMPU, LONG_CMP }, EITHER, 0, 0, 0 },
238 { "dbra", BRA, 0x10, { SHORT_B3r, LONG_2r }, MU, FLAG_JMP | FLAG_DELAY, FLAG_RP, RELOC_PCREL },
239 { "dbrai", BRA, 0x14, { SHORT_D2r, LONG_Dr }, MU, FLAG_JMP | FLAG_DELAY, FLAG_RP, RELOC_PCREL },
240 { "dbsr", BRA, 0x12, { SHORT_B3r, LONG_2r }, MU, FLAG_JSR | FLAG_DELAY, FLAG_RP, RELOC_PCREL },
241 { "dbsri", BRA, 0x16, { SHORT_D2r, LONG_Dr }, MU, FLAG_JSR | FLAG_DELAY, FLAG_RP, RELOC_PCREL },
242 { "dbt", BRA, 0xb, { SHORT_NONE }, MU, FLAG_JSR, FLAG_LKR, 0 },
243 { "djmp", BRA, 0x11, { SHORT_B3, LONG_2 }, MU, FLAG_JMP | FLAG_DELAY, FLAG_RP, RELOC_ABS },
244 { "djmpi", BRA, 0x15, { SHORT_D2, LONG_D }, MU, FLAG_JMP | FLAG_DELAY, FLAG_RP, RELOC_ABS },
245 { "djsr", BRA, 0x13, { SHORT_B3, LONG_2 }, MU, FLAG_JSR | FLAG_DELAY, FLAG_RP, RELOC_ABS },
246 { "djsri", BRA, 0x17, { SHORT_D2, LONG_D }, MU, FLAG_JSR | FLAG_DELAY, FLAG_RP, RELOC_ABS },
247 { "jmp", BRA, 0x1, { SHORT_B1, SHORT_B2, LONG_U }, MU, FLAG_JMP, 0, RELOC_ABS },
248 { "jmptnz", BRA, 0x5, { SHORT_B3b, LONG_2b }, MU, FLAG_JMP, 0, RELOC_ABS },
249 { "jmptzr", BRA, 0x5, { SHORT_B3, LONG_2 }, MU, FLAG_JMP, 0, RELOC_ABS },
250 { "joinll", IALU1, 0xC, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
251 { "joinlh", IALU1, 0xD, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
252 { "joinhl", IALU1, 0xE, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
253 { "joinhh", IALU1, 0xF, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
254 { "jsr", BRA, 0x3, { SHORT_B1, SHORT_B2, LONG_U }, MU, FLAG_JSR, 0, RELOC_ABS },
255 { "jsrtnz", BRA, 0x7, { SHORT_B3b, LONG_2b }, MU, FLAG_JSR, 0, RELOC_ABS },
256 { "jsrtzr", BRA, 0x7, { SHORT_B3, LONG_2 }, MU, FLAG_JSR, 0, RELOC_ABS },
257 { "ld2h", IMEM, 0x3, { SHORT_M2, LONG_M2 }, MU, FLAG_MEM, 0, 0 },
258 { "ld2w", IMEM, 0x6, { SHORT_M2, LONG_M2 }, MU, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0, 0 },
259 { "ld4bh", IMEM, 0x5, { SHORT_M2, LONG_M2 }, MU, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0, 0 },
260 { "ld4bhu", IMEM, 0xd, { SHORT_M2, LONG_M2 }, MU, FLAG_MEM, 0, 0 },
261 { "ldb", IMEM, 0, { SHORT_M, LONG_M }, MU, FLAG_MEM, 0, 0 },
262 { "ldbu", IMEM, 0x9, { SHORT_M, LONG_M }, MU, FLAG_MEM, 0, 0 },
263 { "ldh", IMEM, 0x2, { SHORT_M, LONG_M }, MU, FLAG_MEM, 0, 0 },
264 { "ldhh", IMEM, 0x1, { SHORT_M, LONG_M }, MU, FLAG_MEM, 0, 0 },
265 { "ldhu", IMEM, 0xa, { SHORT_M, LONG_M }, MU, FLAG_MEM, 0, 0 },
266 { "ldw", IMEM, 0x4, { SHORT_M, LONG_M }, MU, FLAG_MEM, 0, 0 },
267 { "mac0", IALU2, 0x14, { SHORT_A }, IU, FLAG_MUL32, 0, 0 },
268 { "mac1", IALU2, 0x14, { SHORT_A1 }, IU, FLAG_MUL32, 0, 0 },
269 { "macs0", IALU2, 0x15, { SHORT_A }, IU, FLAG_MUL32, 0, 0 },
270 { "macs1", IALU2, 0x15, { SHORT_A1 }, IU, FLAG_MUL32, 0, 0 },
271 { "moddec", IMEM, 0x7, { SHORT_MODDEC }, MU, 0, 0, 0 },
272 { "modinc", IMEM, 0x7, { SHORT_MODINC }, MU, 0, 0, 0 },
273 { "msub0", IALU2, 0x16, { SHORT_A }, IU, FLAG_MUL32, 0, 0 },
274 { "msub1", IALU2, 0x16, { SHORT_A1 }, IU, FLAG_MUL32, 0, 0 },
275 { "msubs0", IALU2, 0x17, { SHORT_A }, IU, FLAG_MUL32, 0, 0 },
276 { "msubs1", IALU2, 0x17, { SHORT_A1 }, IU, FLAG_MUL32, 0, 0 },
277 { "mul", IALU2, 0x10, { SHORT_A }, IU, FLAG_MUL32, 0, 0 },
278 { "mul2h", IALU2, 0, { SHORT_A }, IU, FLAG_MUL16, 0, 0 },
279 { "mulhxll", IALU2, 0x4, { SHORT_A }, IU, FLAG_MUL16, 0, 0 },
280 { "mulhxlh", IALU2, 0x5, { SHORT_A }, IU, FLAG_MUL16, 0, 0 },
281 { "mulhxhl", IALU2, 0x6, { SHORT_A }, IU, FLAG_MUL16, 0, 0 },
282 { "mulhxhh", IALU2, 0x7, { SHORT_A }, IU, FLAG_MUL16, 0, 0 },
283 { "mulx", IALU2, 0x18, { SHORT_AA }, IU, FLAG_MUL32, 0, 0 },
284 { "mulx2h", IALU2, 0x1, { SHORT_A2 }, IU, FLAG_MUL16, 0, 0 },
285 { "mulxs", IALU2, 0x19, { SHORT_AA }, IU, FLAG_MUL32, 0, 0 },
286 { "mvfacc", IALU2, 0x1f, { SHORT_RA }, IU, 0, 0, 0 },
287 { "mvfsys", BRA, 0x1e, { SHORT_C1 }, MU, FLAG_ALL, FLAG_ALL, 0 },
288 { "mvtacc", IALU2, 0xf, { SHORT_AR }, IU, 0, 0, 0 },
289 { "mvtsys", BRA, 0xe, { SHORT_C2 }, MU, FLAG_ALL, FLAG_ALL, 0 },
290 { "nop", BRA, 0xF, { SHORT_NONE }, EITHER, 0, 0, 0 },
291 { "not", LOGIC, 0x19, { SHORT_U }, EITHER, 0, 0, 0 },
292 { "notfg", LOGIC, 0x9, { SHORT_UF }, EITHER, 0, 0, 0 },
293 { "or", LOGIC, 0x1a, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
294 { "orfg", LOGIC, 0xa, { SHORT_F }, EITHER, 0, 0, 0 },
295 { "reit", BRA, 0x8, { SHORT_NONE }, MU, FLAG_SM | FLAG_JMP, FLAG_SM | FLAG_LKR, 0 },
296 { "repeat", BRA, 0x18, { SHORT_D1r, LONG_2r }, MU, FLAG_RP, FLAG_RP, RELOC_PCREL },
297 { "repeati", BRA, 0x1a, { SHORT_D2Br, LONG_Dbr }, MU, FLAG_RP, FLAG_RP, RELOC_PCREL },
298 { "rot", LOGIC, 0x14, { SHORT_A }, EITHER, 0, 0, 0 },
299 { "rot2h", LOGIC, 0x15, { SHORT_A }, EITHER, 0, 0, 0 },
300 { "rtd", BRA, 0xa, { SHORT_NONE }, MU, FLAG_JMP, FLAG_LKR, 0 },
301 { "sat", IALU2, 0x8, { SHORT_A5 }, IU, 0, 0, 0 },
302 { "sat2h", IALU2, 0x9, { SHORT_A5 }, IU, 0, 0, 0 },
303 { "sathl", IALU2, 0x1c, { SHORT_A5 }, IU, FLAG_ADDSUBppp, 0, 0 },
304 { "sathh", IALU2, 0x1d, { SHORT_A5 }, IU, FLAG_ADDSUBppp, 0, 0 },
305 { "satz", IALU2, 0xa, { SHORT_A5 }, IU, 0, 0, 0 },
306 { "satz2h", IALU2, 0xb, { SHORT_A5 }, IU, 0, 0, 0 },
307 { "sra", LOGIC, 0x10, { SHORT_A }, EITHER, 0, 0, 0 },
308 { "sra2h", LOGIC, 0x11, { SHORT_A }, EITHER, 0, 0, 0 },
309 { "srahh", LOGIC, 0x5, { SHORT_A }, EITHER, 0, 0, 0 },
310 { "srahl", LOGIC, 0x4, { SHORT_A }, EITHER, 0, 0, 0 },
311 { "src", LOGIC, 0x16, { SHORT_A }, EITHER, FLAG_ADDSUBppp, 0, 0 },
312 { "srl", LOGIC, 0x12, { SHORT_A }, EITHER, 0, 0, 0 },
313 { "srl2h", LOGIC, 0x13, { SHORT_A }, EITHER, 0, 0, 0 },
314 { "srlhh", LOGIC, 0x7, { SHORT_A }, EITHER, 0, 0, 0 },
315 { "srlhl", LOGIC, 0x6, { SHORT_A }, EITHER, 0, 0, 0 },
316 { "st2h", IMEM, 0x13, { SHORT_M2, LONG_M2 }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
317 { "st2w", IMEM, 0x16, { SHORT_M2, LONG_M2 }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
318 { "st4hb", IMEM, 0x15, { SHORT_M2, LONG_M2 }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
319 { "stb", IMEM, 0x10, { SHORT_M, LONG_M }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
320 { "sth", IMEM, 0x12, { SHORT_M, LONG_M }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
321 { "sthh", IMEM, 0x11, { SHORT_M, LONG_M }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
322 { "stw", IMEM, 0x14, { SHORT_M, LONG_M }, MU, 0, FLAG_MEM | FLAG_NOT_WITH_ADDSUBppp, 0 },
323 { "sub", IALU1, 0x2, { SHORT_A, LONG}, EITHER, 0, FLAG_CVVA, 0 },
324 { "sub2h", IALU1, 0x3, { SHORT_A, LONG}, EITHER, 0, 0, 0 },
325 { "subb", IALU1, 0x5, { SHORT_A, LONG}, EITHER, FLAG_C, FLAG_CVVA, 0 },
326 { "subhlll", IALU1, 0x18, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
327 { "subhllh", IALU1, 0x19, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
328 { "subhlhl", IALU1, 0x1a, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
329 { "subhlhh", IALU1, 0x1b, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
330 { "subhhll", IALU1, 0x1c, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
331 { "subhhlh", IALU1, 0x1d, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
332 { "subhhhl", IALU1, 0x1e, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
333 { "subhhhh", IALU1, 0x1f, { SHORT_A, LONG}, EITHER, FLAG_ADDSUBppp, FLAG_CVVA, 0 },
334 { "trap", BRA, 0x9, { SHORT_B1, SHORT_T}, MU, FLAG_JSR, FLAG_SM | FLAG_LKR, 0 },
335 { "xor", LOGIC, 0x1b, { SHORT_A, LONG }, EITHER, 0, 0, 0 },
336 { "xorfg", LOGIC, 0xb, { SHORT_F }, EITHER, 0, 0, 0 },
337 { NULL, 0, 0, { 0 }, 0, 0, 0, 0 },
341 /* Now define the operand types.
342 Format is length, bits, position, flags. */
344 const struct d30v_operand d30v_operand_table[] =
348 #define Ra (UNUSED + 1)
349 { 6, 6, 0, OPERAND_REG | OPERAND_DEST },
351 { 6, 6, 0, OPERAND_REG | OPERAND_DEST | OPERAND_2REG },
352 #define Ra3 (Ra2 + 1)
353 { 6, 6, 0, OPERAND_REG },
355 { 6, 6, 6, OPERAND_REG },
357 { 6, 6, 6, OPERAND_REG | OPERAND_DEST },
359 { 6, 6, 12, OPERAND_REG },
361 { 6, 1, 0, OPERAND_ACC | OPERAND_REG | OPERAND_DEST },
363 { 6, 1, 6, OPERAND_ACC | OPERAND_REG },
364 #define IMM5 (Ab + 1)
365 { 6, 5, 12, OPERAND_NUM },
366 #define IMM5U (IMM5 + 1)
367 { 6, 5, 12, OPERAND_NUM | OPERAND_SIGNED }, /* Not used. */
368 #define IMM5S3 (IMM5U + 1)
369 { 6, 5, 12, OPERAND_NUM | OPERAND_SIGNED }, /* Not used. */
370 #define IMM6 (IMM5S3 + 1)
371 { 6, 6, 12, OPERAND_NUM | OPERAND_SIGNED },
372 #define IMM6U (IMM6 + 1)
373 { 6, 6, 0, OPERAND_NUM },
374 #define IMM6U2 (IMM6U + 1)
375 { 6, 6, 12, OPERAND_NUM },
376 #define REL6S3 (IMM6U2 + 1)
377 { 6, 6, 0, OPERAND_NUM | OPERAND_SHIFT | OPERAND_PCREL },
378 #define REL12S3 (REL6S3 + 1)
379 { 12, 12, 12, OPERAND_NUM | OPERAND_SIGNED | OPERAND_SHIFT | OPERAND_PCREL },
380 #define IMM12S3 (REL12S3 + 1)
381 { 12, 12, 12, OPERAND_NUM | OPERAND_SIGNED | OPERAND_SHIFT },
382 #define REL18S3 (IMM12S3 + 1)
383 { 18, 18, 12, OPERAND_NUM | OPERAND_SIGNED | OPERAND_SHIFT | OPERAND_PCREL },
384 #define IMM18S3 (REL18S3 + 1)
385 { 18, 18, 12, OPERAND_NUM | OPERAND_SIGNED | OPERAND_SHIFT },
386 #define REL32 (IMM18S3 + 1)
387 { 32, 32, 0, OPERAND_NUM | OPERAND_PCREL },
388 #define IMM32 (REL32 + 1)
389 { 32, 32, 0, OPERAND_NUM },
390 #define Fa (IMM32 + 1)
391 { 6, 3, 0, OPERAND_REG | OPERAND_FLAG | OPERAND_DEST },
393 { 6, 3, 6, OPERAND_REG | OPERAND_FLAG },
395 { 6, 3, 12, OPERAND_REG | OPERAND_FLAG },
396 #define ATSIGN (Fc + 1)
397 { 0, 0, 0, OPERAND_ATSIGN},
398 #define ATPAR (ATSIGN + 1) /* "@(" */
399 { 0, 0, 0, OPERAND_ATPAR},
400 #define PLUS (ATPAR + 1) /* Postincrement. */
401 { 0, 0, 0, OPERAND_PLUS},
402 #define MINUS (PLUS + 1) /* Postdecrement. */
403 { 0, 0, 0, OPERAND_MINUS},
404 #define ATMINUS (MINUS + 1) /* Predecrement. */
405 { 0, 0, 0, OPERAND_ATMINUS},
406 #define Ca (ATMINUS + 1) /* Control register. */
407 { 6, 6, 0, OPERAND_REG | OPERAND_CONTROL | OPERAND_DEST},
408 #define Cb (Ca + 1) /* Control register. */
409 { 6, 6, 6, OPERAND_REG | OPERAND_CONTROL},
410 #define CC (Cb + 1) /* Condition code (CMPcc and CMPUcc). */
411 { 3, 3, -3, OPERAND_NAME},
412 #define Fa2 (CC + 1) /* Flag register (CMPcc and CMPUcc). */
413 { 3, 3, 0, OPERAND_REG | OPERAND_FLAG | OPERAND_DEST},
414 #define Fake (Fa2 + 1) /* Place holder for "id" field in mvfsys and mvtsys. */
415 { 6, 2, 12, OPERAND_SPECIAL},
418 /* Now we need to define the instruction formats. */
420 const struct d30v_format d30v_format_table[] =
423 { SHORT_M, 0, { Ra, ATPAR, Rb, Rc } }, /* Ra,@(Rb,Rc) */
424 { SHORT_M, 1, { Ra, ATPAR, Rb, PLUS, Rc } }, /* Ra,@(Rb+,Rc) */
425 { SHORT_M, 2, { Ra, ATPAR, Rb, IMM6 } }, /* Ra,@(Rb,imm6) */
426 { SHORT_M, 3, { Ra, ATPAR, Rb, MINUS, Rc } }, /* Ra,@(Rb-,Rc) */
427 { SHORT_M2, 0, { Ra2, ATPAR, Rb, Rc } }, /* Ra,@(Rb,Rc) */
428 { SHORT_M2, 1, { Ra2, ATPAR, Rb, PLUS, Rc } },/* Ra,@(Rb+,Rc) */
429 { SHORT_M2, 2, { Ra2, ATPAR, Rb, IMM6 } }, /* Ra,@(Rb,imm6) */
430 { SHORT_M2, 3, { Ra2, ATPAR, Rb, MINUS, Rc } },/* Ra,@(Rb-,Rc) */
431 { SHORT_A, 0, { Ra, Rb, Rc } }, /* Ra,Rb,Rc */
432 { SHORT_A, 2, { Ra, Rb, IMM6 } }, /* Ra,Rb,imm6 */
433 { SHORT_B1, 0, { Rc } }, /* Rc */
434 { SHORT_B2, 2, { IMM18S3 } }, /* imm18 */
435 { SHORT_B2r, 2, { REL18S3 } }, /* rel18 */
436 { SHORT_B3, 0, { Ra3, Rc } }, /* Ra,Rc */
437 { SHORT_B3, 2, { Ra3, IMM12S3 } }, /* Ra,imm12 */
438 { SHORT_B3r, 0, { Ra3, Rc } }, /* Ra,Rc */
439 { SHORT_B3r, 2, { Ra3, REL12S3 } }, /* Ra,rel12 */
440 { SHORT_B3b, 1, { Ra3, Rc } }, /* Ra,Rc */
441 { SHORT_B3b, 3, { Ra3, IMM12S3 } }, /* Ra,imm12 */
442 { SHORT_B3br, 1, { Ra3, Rc } }, /* Ra,Rc */
443 { SHORT_B3br, 3, { Ra3, REL12S3 } }, /* Ra,rel12 */
444 { SHORT_D1r, 0, { Ra, Rc } }, /* Ra,Rc */
445 { SHORT_D1r, 2, { Ra, REL12S3 } }, /* Ra,rel12s3 */
446 { SHORT_D2, 0, { REL6S3, Rc } }, /* rel6s3,Rc */
447 { SHORT_D2, 2, { REL6S3, IMM12S3 } }, /* rel6s3,imm12s3 */
448 { SHORT_D2r, 0, { REL6S3, Rc } }, /* rel6s3,Rc */
449 { SHORT_D2r, 2, { REL6S3, REL12S3 } }, /* rel6s3,rel12s3 */
450 { SHORT_D2Br, 0, { IMM6U, Rc } }, /* imm6u,Rc */
451 { SHORT_D2Br, 2, { IMM6U, REL12S3 } }, /* imm6u,rel12s3 */
452 { SHORT_U, 0, { Ra, Rb } }, /* Ra,Rb */
453 { SHORT_F, 0, { Fa, Fb, Fc } }, /* Fa,Fb,Fc (orfg, xorfg) */
454 { SHORT_F, 2, { Fa, Fb, IMM6 } }, /* Fa,Fb,imm6 */
455 { SHORT_AF, 0, { Fa, Rb, Rc } }, /* Fa,Rb,Rc */
456 { SHORT_AF, 2, { Fa, Rb, IMM6 } }, /* Fa,Rb,imm6 */
457 { SHORT_T, 2, { IMM5 } }, /* imm5s3 (trap) */
458 { SHORT_A5, 0, { Ra, Rb, Rc } }, /* Ra,Rb,Rc */
459 { SHORT_A5, 2, { Ra, Rb, IMM5 } }, /* Ra,Rb,imm5 (sat*) */
460 { SHORT_CMP, 0, { CC, Fa2, Rb, Rc} }, /* CC Fa2,Rb,Rc */
461 { SHORT_CMP, 2, { CC, Fa2, Rb, IMM6} }, /* CC Fa2,Rb,imm6 */
462 { SHORT_CMPU, 0, { CC, Fa2, Rb, Rc} }, /* CC Fa2,Rb,Rc */
463 { SHORT_CMPU, 2, { CC, Fa2, Rb, IMM6U2} }, /* CC Fa2,Rb,imm6 */
464 { SHORT_A1, 1, { Ra, Rb, Rc } }, /* Ra,Rb,Rc for MAC where a=1 */
465 { SHORT_A1, 3, { Ra, Rb, IMM6 } }, /* Ra,Rb,imm6 for MAC where a=1 */
466 { SHORT_AA, 0, { Aa, Rb, Rc } }, /* Aa,Rb,Rc */
467 { SHORT_AA, 2, { Aa, Rb, IMM6 } }, /* Aa,Rb,imm6 */
468 { SHORT_RA, 0, { Ra, Ab, Rc } }, /* Ra,Ab,Rc */
469 { SHORT_RA, 2, { Ra, Ab, IMM6U2 } }, /* Ra,Ab,imm6u */
470 { SHORT_MODINC, 1, { Rb2, IMM5 } }, /* Rb2,imm5 (modinc) */
471 { SHORT_MODDEC, 3, { Rb2, IMM5 } }, /* Rb2,imm5 (moddec) */
472 { SHORT_C1, 0, { Ra, Cb, Fake } }, /* Ra,Cb (mvfsys) */
473 { SHORT_C2, 0, { Ca, Rb, Fake } }, /* Ca,Rb (mvtsys) */
474 { SHORT_UF, 0, { Fa, Fb } }, /* Fa,Fb (notfg) */
475 { SHORT_A2, 0, { Ra2, Rb, Rc } }, /* Ra2,Rb,Rc */
476 { SHORT_A2, 2, { Ra2, Rb, IMM6 } }, /* Ra2,Rb,imm6 */
477 { SHORT_NONE, 0, { 0 } }, /* no operands (nop, reit) */
478 { SHORT_AR, 0, { Aa, Rb, Rc } }, /* Aa,Rb,Rc */
479 { LONG, 2, { Ra, Rb, IMM32 } }, /* Ra,Rb,imm32 */
480 { LONG_U, 2, { IMM32 } }, /* imm32 */
481 { LONG_Ur, 2, { REL32 } }, /* rel32 */
482 { LONG_CMP, 2, { CC, Fa2, Rb, IMM32} }, /* CC Fa2,Rb,imm32 */
483 { LONG_M, 2, { Ra, ATPAR, Rb, IMM32 } }, /* Ra,@(Rb,imm32) */
484 { LONG_M2, 2, { Ra2, ATPAR, Rb, IMM32 } }, /* Ra,@(Rb,imm32) */
485 { LONG_2, 2, { Ra3, IMM32 } }, /* Ra,imm32 */
486 { LONG_2r, 2, { Ra3, REL32 } }, /* Ra,rel32 */
487 { LONG_2b, 3, { Ra3, IMM32 } }, /* Ra,imm32 */
488 { LONG_2br, 3, { Ra3, REL32 } }, /* Ra,rel32 */
489 { LONG_D, 2, { REL6S3, IMM32 } }, /* rel6s3,imm32 */
490 { LONG_Dr, 2, { REL6S3, REL32 } }, /* rel6s3,rel32 */
491 { LONG_Dbr, 2, { IMM6U, REL32 } }, /* imm6,rel32 */
495 const char *d30v_ecc_names[] =
507 const char *d30v_cc_names[] =