Automatic date update in version.in
[deliverable/binutils-gdb.git] / opcodes / cr16-opc.c
CommitLineData
3d3d428f 1/* cr16-opc.c -- Table of opcodes for the CR16 processor.
b90efa5b 2 Copyright (C) 2007-2015 Free Software Foundation, Inc.
3d3d428f
NC
3 Contributed by M R Swami Reddy (MR.Swami.Reddy@nsc.com)
4
9b201bb5 5 This file is part of the GNU opcodes library.
3d3d428f 6
9b201bb5
NC
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)
10 any later version.
3d3d428f 11
9b201bb5
NC
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.
3d3d428f
NC
16
17 You should have received a copy of the GNU General Public License
18 along with this program; if not, write to the Free Software Foundation,
19 Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */
20
21#include <stdio.h>
22#include "libiberty.h"
23#include "symcat.h"
24#include "opcode/cr16.h"
25
26const inst cr16_instruction[] =
27{
28/* Create an arithmetic instruction - INST[bw]. */
29#define ARITH_BYTE_INST(NAME, OPC, OP1) \
30 /* opc8 imm4 r */ \
31 {NAME, 1, OPC, 24, ARITH_BYTE_INS, {{uimm4_1,20}, {regr,16}}}, \
32 /* opc8 imm16 r */ \
33 {NAME, 2, (OPC<<4)+0xB, 20, ARITH_BYTE_INS, {{OP1,0}, {regr,16}}}, \
34 /* opc8 r r */ \
35 {NAME, 1, OPC+0x1, 24, ARITH_BYTE_INS, {{regr,20}, {regr,16}}}
36
accf4463 37/* For Logical operations, allow unsigned imm16 also. */
3d3d428f
NC
38#define ARITH1_BYTE_INST(NAME, OPC, OP1) \
39 /* opc8 imm16 r */ \
40 {NAME, 2, (OPC<<4)+0xB, 20, ARITH_BYTE_INS, {{OP1,0}, {regr,16}}}
41
42
43 ARITH_BYTE_INST ("andb", 0x20, uimm16),
44 ARITH1_BYTE_INST ("andb", 0x20, imm16),
45 ARITH_BYTE_INST ("andw", 0x22, uimm16),
46 ARITH1_BYTE_INST ("andw", 0x22, imm16),
47
48 ARITH_BYTE_INST ("orb", 0x24, uimm16),
49 ARITH1_BYTE_INST ("orb", 0x24, imm16),
50 ARITH_BYTE_INST ("orw", 0x26, uimm16),
51 ARITH1_BYTE_INST ("orw", 0x26, imm16),
52
53 ARITH_BYTE_INST ("xorb", 0x28, uimm16),
54 ARITH1_BYTE_INST ("xorb", 0x28, imm16),
55 ARITH_BYTE_INST ("xorw", 0x2A, uimm16),
56 ARITH1_BYTE_INST ("xorw", 0x2A, imm16),
57
58 ARITH_BYTE_INST ("addub", 0x2C, imm16),
59 ARITH_BYTE_INST ("adduw", 0x2E, imm16),
60 ARITH_BYTE_INST ("addb", 0x30, imm16),
61 ARITH_BYTE_INST ("addw", 0x32, imm16),
62 ARITH_BYTE_INST ("addcb", 0x34, imm16),
63 ARITH_BYTE_INST ("addcw", 0x36, imm16),
64
65 ARITH_BYTE_INST ("subb", 0x38, imm16),
66 ARITH_BYTE_INST ("subw", 0x3A, imm16),
67 ARITH_BYTE_INST ("subcb", 0x3C, imm16),
68 ARITH_BYTE_INST ("subcw", 0x3E, imm16),
69
70 ARITH_BYTE_INST ("cmpb", 0x50, imm16),
71 ARITH_BYTE_INST ("cmpw", 0x52, imm16),
72
73 ARITH_BYTE_INST ("movb", 0x58, imm16),
74 ARITH_BYTE_INST ("movw", 0x5A, imm16),
75
76 ARITH_BYTE_INST ("mulb", 0x64, imm16),
77 ARITH_BYTE_INST ("mulw", 0x66, imm16),
78
79#define ARITH_BYTE_INST1(NAME, OPC) \
80 /* opc8 r r */ \
81 {NAME, 1, OPC, 24, ARITH_BYTE_INS, {{regr,20}, {regr,16}}}
82
83 ARITH_BYTE_INST1 ("movxb", 0x5C),
84 ARITH_BYTE_INST1 ("movzb", 0x5D),
85 ARITH_BYTE_INST1 ("mulsb", 0x0B),
86
87#define ARITH_BYTE_INST2(NAME, OPC) \
88 /* opc8 r rp */ \
89 {NAME, 1, OPC, 24, ARITH_BYTE_INS, {{regr,20}, {regp,16}}}
90
91 ARITH_BYTE_INST2 ("movxw", 0x5E),
92 ARITH_BYTE_INST2 ("movzw", 0x5F),
93 ARITH_BYTE_INST2 ("mulsw", 0x62),
94 ARITH_BYTE_INST2 ("muluw", 0x63),
95
96/* Create an arithmetic instruction - INST[d]- with 3 types. */
97#define ARITH_INST_D(NAME, OPC) \
98 /* opc8 imm4 rp */ \
99 {NAME, 1, OPC, 24, ARITH_INS, {{uimm4_1,20}, {regp,16}}}, \
100 /* opc8 imm16 rp */ \
101 {NAME, 2, (OPC<<4)+0xB, 20, ARITH_INS, {{imm16,0}, {regp,16}}}, \
102 /* opc8 rp rp */ \
103 {NAME, 1, OPC+1, 24, ARITH_INS, {{regp,20}, {regp,16}}}
104
105/* Create an arithmetic instruction - INST[d]-20 bit types. */
106#define ARITH_INST20(NAME, OPC) \
107 /* opc8 uimm20 rp */ \
108 {NAME, 2, OPC, 24, ARITH_INS, {{uimm20,0}, {regp,20}}}
109
110/* Create an arithmetic instruction - INST[d]-32 bit types. */
111#define ARITH_INST32(NAME, OPC, OP1) \
112 /* opc12 imm32 rp */ \
113 {NAME, 3, OPC, 20, ARITH_INS, {{OP1,0}, {regp,16}}}
114
115/* Create an arithmetic instruction - INST[d]-32bit types(reg pairs).*/
116#define ARITH_INST32RP(NAME, OPC) \
117 /* opc24 rp rp */ \
118 {NAME, 2, OPC, 12, ARITH_INS, {{regp,4}, {regp,0}}}
119
120 ARITH_INST_D ("movd", 0x54),
121 ARITH_INST20 ("movd", 0x05),
122 ARITH_INST32 ("movd", 0x007, imm32),
123 ARITH_INST_D ("addd", 0x60),
124 ARITH_INST20 ("addd", 0x04),
125 ARITH_INST32 ("addd", 0x002, imm32),
126 ARITH_INST32 ("subd", 0x003, imm32),
127 ARITH_INST32RP ("subd", 0x0014C),
128 ARITH_INST_D ("cmpd", 0x56),
129 ARITH_INST32 ("cmpd", 0x009, imm32),
130 ARITH_INST32 ("andd", 0x004, uimm32),
131 ARITH_INST32RP ("andd", 0x0014B),
132 ARITH_INST32 ("ord", 0x005, uimm32),
133 ARITH_INST32RP ("ord", 0x00149),
134 ARITH_INST32 ("xord", 0x006, uimm32),
135 ARITH_INST32RP ("xord", 0x0014A),
136
137/* Create a shift instruction. */
138#define SHIFT_INST_A(NAME, OPC1, OPC2, SHIFT, OP1, OP2) \
139 /* opc imm r */ \
140 {NAME, 1, OPC1, SHIFT, SHIFT_INS, {{OP1,20}, {OP2,16}}}, \
141 /* opc imm r */ \
142 {NAME, 1, OPC1+1, SHIFT, SHIFT_INS, {{OP1,20}, {OP2,16}}},\
143 /* opc r r */ \
144 {NAME, 1, OPC2, 24, SHIFT_INS, {{regr,20}, {OP2,16}}}
145
146 SHIFT_INST_A("ashub", 0x80, 0x41, 23, imm4, regr),
147 SHIFT_INST_A("ashud", 0x26, 0x48, 25, imm6, regp),
148 SHIFT_INST_A("ashuw", 0x42, 0x45, 24, imm5, regr),
149
150#define SHIFT_INST_L(NAME, OPC1, OPC2, SHIFT, OP1, OP2) \
151 /* opc imm r */ \
152 {NAME, 1, OPC1, SHIFT, SHIFT_INS, {{OP1,20}, {OP2,16}}}, \
153 /* opc r r */ \
154 {NAME, 1, OPC2, 24, SHIFT_INS, {{regr,20}, {OP2,16}}}
155
156 SHIFT_INST_L("lshb", 0x13, 0x44, 23, imm4, regr),
157 SHIFT_INST_L("lshd", 0x25, 0x47, 25, imm6, regp),
158 SHIFT_INST_L("lshw", 0x49, 0x46, 24, imm5, regr),
159
160/* Create a conditional branch instruction. */
161#define BRANCH_INST(NAME, OPC) \
162 /* opc4 c4 dispe9 */ \
7fac7ff4 163 {NAME, 1, OPC, 28, BRANCH_INS | RELAXABLE, {{cc,20}, {dispe9,16}}},\
3d3d428f 164 /* opc4 c4 disps17 */ \
7fac7ff4 165 {NAME, 2, ((OPC<<4)+0x8), 24, BRANCH_INS | RELAXABLE, {{cc,20}, {disps17,0}}},\
3d3d428f 166 /* opc4 c4 disps25 */ \
7fac7ff4 167 {NAME, 3, (OPC<<4), 16 , BRANCH_INS | RELAXABLE, {{cc,4}, {disps25,16}}}
3d3d428f
NC
168
169 BRANCH_INST ("b", 0x1),
170
171/* Create a 'Branch if Equal to 0' instruction. */
172#define BRANCH_NEQ_INST(NAME, OPC) \
173 /* opc8 disps5 r */ \
174 {NAME, 1, OPC, 24, BRANCH_NEQ_INS, {{regr,16}, {disps5,20}}}
175
176 BRANCH_NEQ_INST ("beq0b", 0x0C),
177 BRANCH_NEQ_INST ("bne0b", 0x0D),
178 BRANCH_NEQ_INST ("beq0w", 0x0E),
179 BRANCH_NEQ_INST ("bne0w", 0x0F),
180
181
182/* Create an instruction using a single register operand. */
183#define REG1_INST(NAME, OPC) \
184 /* opc8 c4 r */ \
185 {NAME, 1, OPC, 20, NO_TYPE_INS, {{regr,16}}}
186
187#define REGP1_INST(NAME, OPC) \
188 /* opc8 c4 r */ \
189 {NAME, 1, OPC, 20, NO_TYPE_INS, {{regp,16}}}
190
191/* Same as REG1_INST, with additional FLAGS. */
192#define REG1_FLAG_INST(NAME, OPC, FLAGS) \
193 /* opc8 c4 r */ \
194 {NAME, 1, OPC, 20, NO_TYPE_INS | FLAGS, {{regp,16}}}
195
196 /* JCond instructions */
197 REGP1_INST ("jeq", 0x0A0),
198 REGP1_INST ("jne", 0x0A1),
199 REGP1_INST ("jcs", 0x0A2),
200 REGP1_INST ("jcc", 0x0A3),
201 REGP1_INST ("jhi", 0x0A4),
202 REGP1_INST ("jls", 0x0A5),
203 REGP1_INST ("jgt", 0x0A6),
204 REGP1_INST ("jle", 0x0A7),
205 REGP1_INST ("jfs", 0x0A8),
206 REGP1_INST ("jfc", 0x0A9),
207 REGP1_INST ("jlo", 0x0AA),
208 REGP1_INST ("jhs", 0x0AB),
209 REGP1_INST ("jlt", 0x0AC),
210 REGP1_INST ("jge", 0x0AD),
211 REGP1_INST ("jump", 0x0AE),
212 REGP1_INST ("jusr", 0x0AF),
213
214 /* SCond instructions */
215 REG1_INST ("seq", 0x080),
216 REG1_INST ("sne", 0x081),
217 REG1_INST ("scs", 0x082),
218 REG1_INST ("scc", 0x083),
219 REG1_INST ("shi", 0x084),
220 REG1_INST ("sls", 0x085),
221 REG1_INST ("sgt", 0x086),
222 REG1_INST ("sle", 0x087),
223 REG1_INST ("sfs", 0x088),
224 REG1_INST ("sfc", 0x089),
225 REG1_INST ("slo", 0x08A),
226 REG1_INST ("shs", 0x08B),
227 REG1_INST ("slt", 0x08C),
228 REG1_INST ("sge", 0x08D),
229
230
231/* Create an instruction using two register operands. */
232#define REG3_INST(NAME, OPC) \
233 /* opc24 r r rp */ \
234 {NAME, 2, OPC, 12, NO_TYPE_INS, {{regr,4}, {regr,0}, {regp,8}}}
235
236 /* MULTIPLY INSTRUCTIONS */
237 REG3_INST ("macqw", 0x0014d),
238 REG3_INST ("macuw", 0x0014e),
239 REG3_INST ("macsw", 0x0014f),
240
241/* Create a branch instruction. */
242#define BR_INST(NAME, OPC) \
243 /* opc12 ra disps25 */ \
244 {NAME, 2, OPC, 24, NO_TYPE_INS, {{rra,0}, {disps25,0}}}
245
246#define BR_INST_RP(NAME, OPC) \
247 /* opc8 rp disps25 */ \
248 {NAME, 3, OPC, 12, NO_TYPE_INS, {{regp,4}, {disps25,16}}}
249
250 BR_INST ("bal", 0xC0),
251 BR_INST_RP ("bal", 0x00102),
252
253#define REGPP2_INST(NAME, OPC) \
254 /* opc16 rp rp */ \
255 {NAME, 2, OPC, 12, NO_TYPE_INS, {{regp,0}, {regp,4}}}
256 /* Jump and link instructions. */
257 REGP1_INST ("jal",0x00D),
258 REGPP2_INST ("jal",0x00148),
259
260
261/* Instructions including a register list (opcode is represented as a mask). */
262#define REGLIST_INST(NAME, OPC, TYPE) \
263 /* opc7 r count3 RA */ \
264 {NAME,1, (OPC<<1)+1, 23, TYPE, {{uimm3_1,20},{regr,16},{regr,0}}}, \
265 /* opc8 r count3 */ \
266 {NAME, 1, OPC, 24, TYPE, {{uimm3_1,20}, {regr,16}}}, \
267 /* opc12 RA */ \
268 {NAME, 1, (OPC<<8)+0x1E, 16, TYPE, {{regr,0}}}
269
270 REGLIST_INST ("push", 0x01, (NO_TYPE_INS | REG_LIST)),
271 REGLIST_INST ("pop", 0x02, (NO_TYPE_INS | REG_LIST)),
272 REGLIST_INST ("popret", 0x03, (NO_TYPE_INS | REG_LIST)),
273
274 {"loadm", 1, 0x14, 19, NO_TYPE_INS | REG_LIST, {{uimm3_1,16}}},
275 {"loadmp", 1, 0x15, 19, NO_TYPE_INS | REG_LIST, {{uimm3_1,16}}},
276 {"storm", 1, 0x16, 19, NO_TYPE_INS | REG_LIST, {{uimm3_1,16}}},
277 {"stormp", 1, 0x17, 19, NO_TYPE_INS | REG_LIST, {{uimm3_1,16}}},
278
279 /* Processor Regsiter Manipulation instructions */
280 /* opc16 reg, preg */
281 {"lpr", 2, 0x00140, 12, NO_TYPE_INS, {{regr,0}, {pregr,4}}},
282 /* opc16 regp, pregp */
283 {"lprd", 2, 0x00141, 12, NO_TYPE_INS, {{regp,0}, {pregrp,4}}},
284 /* opc16 preg, reg */
285 {"spr", 2, 0x00142, 12, NO_TYPE_INS, {{pregr,4}, {regr,0}}},
286 /* opc16 pregp, regp */
287 {"sprd", 2, 0x00143, 12, NO_TYPE_INS, {{pregrp,4}, {regp,0}}},
288
289 /* Miscellaneous. */
290 /* opc12 ui4 */
291 {"excp", 1, 0x00C, 20, NO_TYPE_INS, {{uimm4,16}}},
292
293/* Create a bit-b instruction. */
294#define CSTBIT_INST_B(NAME, OP, OPC1, OPC2, OPC3, OPC4) \
295 /* opcNN iN abs20 */ \
296 {NAME, 2, (OPC3+1), 23, CSTBIT_INS, {{OP,20},{abs20,0}}}, \
297 /* opcNN iN abs24 */ \
298 {NAME, 3, (OPC2+3), 12, CSTBIT_INS, {{OP,4},{abs24,16}}}, \
299 /* opcNN iN (Rindex)abs20 */ \
300 {NAME, 2, OPC1, 24, CSTBIT_INS, {{OP,20}, {rindex7_abs20,0}}}, \
301 /* opcNN iN (prp) disps14(RPbase) */ \
302 {NAME, 2, OPC4, 22, CSTBIT_INS, {{OP,4},{rpindex_disps14,0}}}, \
303 /* opcNN iN disps20(Rbase) */ \
304 {NAME, 3, OPC2, 12, CSTBIT_INS, {{OP,4}, {rbase_disps20,16}}}, \
305 /* opcNN iN (rp) disps0(RPbase) */ \
306 {NAME, 1, OPC3-2, 23, CSTBIT_INS, {{OP,20}, {rpbase_disps0,16}}}, \
307 /* opcNN iN (rp) disps16(RPBase) */ \
308 {NAME, 2, OPC3, 23, CSTBIT_INS, {{OP,20}, {rpbase_disps16,0}}}, \
309 /* opcNN iN (rp) disps20(RPBase) */ \
310 {NAME, 3, (OPC2+1), 12, CSTBIT_INS, {{OP,4}, {rpbase_disps20,16}}}, \
311 /* opcNN iN rrp (Rindex)disps20(RPbase) */ \
312 {NAME, 3, (OPC2+2), 12, CSTBIT_INS, {{OP,4}, {rpindex_disps20,16}}}
313
314 CSTBIT_INST_B ("cbitb", uimm3, 0x68, 0x00104, 0xD6, 0x1AA),
315 CSTBIT_INST_B ("sbitb", uimm3, 0x70, 0x00108, 0xE6, 0x1CA),
316 CSTBIT_INST_B ("tbitb", uimm3, 0x78, 0x0010C, 0xF6, 0x1EA),
317
318/* Create a bit-w instruction. */
319#define CSTBIT_INST_W(NAME, OP, OPC1, OPC2, OPC3, OPC4) \
320 /* opcNN iN abs20 */ \
321 {NAME, 2, OPC1+6, 24, CSTBIT_INS, {{OP,20},{abs20,0}}}, \
322 /* opcNN iN abs24 */ \
323 {NAME, 3, OPC2+3, 12, CSTBIT_INS, {{OP,4},{abs24,16}}}, \
324 /* opcNN iN (Rindex)abs20 */ \
325 {NAME, 2, OPC3, 25, CSTBIT_INS, {{OP,20}, {rindex8_abs20,0}}}, \
326 /* opcNN iN (prp) disps14(RPbase) */ \
327 {NAME, 2, OPC4, 22, CSTBIT_INS, {{OP,4},{rpindex_disps14,0}}}, \
328 /* opcNN iN disps20(Rbase) */ \
329 {NAME, 3, OPC2, 12, CSTBIT_INS, {{OP,4}, {rbase_disps20,16}}}, \
330 /* opcNN iN (rp) disps0(RPbase) */ \
331 {NAME, 1, OPC1+5, 24, CSTBIT_INS, {{OP,20}, {rpbase_disps0,16}}}, \
332 /* opcNN iN (rp) disps16(RPBase) */ \
333 {NAME, 2, OPC1, 24, CSTBIT_INS, {{OP,20}, {rpbase_disps16,0}}}, \
334 /* opcNN iN (rp) disps20(RPBase) */ \
335 {NAME, 3, OPC2+1, 12, CSTBIT_INS, {{OP,4}, {rpbase_disps20,16}}}, \
336 /* opcNN iN rrp (Rindex)disps20(RPbase) */ \
337 {NAME, 3, OPC2+2, 12, CSTBIT_INS, {{OP,4}, {rpindex_disps20,16}}}
338
339 CSTBIT_INST_W ("cbitw", uimm4, 0x69, 0x00114, 0x36, 0x1AB),
340 CSTBIT_INST_W ("sbitw", uimm4, 0x71, 0x00118, 0x3A, 0x1CB),
341 CSTBIT_INST_W ("tbitw", uimm4, 0x79, 0x0011C, 0x3E, 0x1EB),
342
343 /* tbit cnt */
344 {"tbit", 1, 0x06, 24, CSTBIT_INS, {{uimm4,20}, {regr,16}}},
345 /* tbit reg reg */
346 {"tbit", 1, 0x07, 24, CSTBIT_INS, {{regr,20}, {regr,16}}},
347
348
349/* Load instructions (from memory to register). */
350#define LD_REG_INST(NAME, OPC1, OPC2, OPC3, OPC4, OPC5, OP_S, OP_D) \
351 /* opc8 reg abs20 */ \
352 {NAME, 2, OPC3, 24, LD_STOR_INS, {{abs20,0}, {OP_D,20}}}, \
353 /* opc20 reg abs24 */ \
354 {NAME, 3, OPC1+3, 12, LD_STOR_INS, {{abs24,16}, {OP_D,4}}}, \
355 /* opc7 reg rindex8_abs20 */ \
356 {NAME, 2, OPC5, 25, LD_STOR_INS, {{rindex8_abs20,0}, {OP_D,20}}}, \
357 /* opc4 reg disps4(RPbase) */ \
358 {NAME, 1, (OPC2>>4), 28, LD_STOR_INS, {{OP_S,24}, {OP_D,20}}}, \
359 /* opcNN reg disps0(RPbase) */ \
360 {NAME, 1, OPC2, 24, LD_STOR_INS, {{rpindex_disps0,0}, {OP_D,20}}}, \
361 /* opc reg disps14(RPbase) */ \
362 {NAME, 2, OPC4, 22, LD_STOR_INS, {{rpindex_disps14,0}, {OP_D,20}}}, \
363 /* opc reg -disps20(Rbase) */ \
364 {NAME, 3, OPC1+0x60, 12, LD_STOR_INS, {{rbase_dispe20,16}, {OP_D,4}}}, \
365 /* opc reg disps20(Rbase) */ \
366 {NAME, 3, OPC1, 12, LD_STOR_INS, {{rbase_disps20,16}, {OP_D,4}}}, \
367 /* opc reg (rp) disps16(RPbase) */ \
368 {NAME, 2, OPC2+1, 24, LD_STOR_INS, {{rpbase_disps16,0}, {OP_D,20}}}, \
369 /* opc16 reg (rp) disps20(RPbase) */ \
370 {NAME, 3, OPC1+1, 12, LD_STOR_INS, {{rpbase_disps20,16}, {OP_D,4}}}, \
371 /* op reg (rp) -disps20(RPbase) */ \
372 {NAME, 3, OPC1+0x61, 12, LD_STOR_INS, {{rpbase_dispe20,16}, {OP_D,4}}}, \
373 /* opc reg rrp (Rindex)disps20(RPbase) */ \
374 {NAME, 3, (OPC1+2), 12, LD_STOR_INS, {{rpindex_disps20,16}, {OP_D,4}}}
375
376 LD_REG_INST ("loadb", 0x00124, 0xBE, 0x88, 0x219, 0x45, rpbase_disps4, regr),
377 LD_REG_INST ("loadd", 0x00128, 0xAE, 0x87, 0x21A, 0x46, rpbase_dispe4, regp),
378 LD_REG_INST ("loadw", 0x0012C, 0x9E, 0x89, 0x21B, 0x47, rpbase_dispe4, regr),
379
380/* Store instructions (from reg to memory). */
381#define ST_REG_INST(NAME, OPC1, OPC2, OPC3, OPC4, OPC5, OP_D, OP_S) \
382 /* opc8 reg abs20 */ \
383 {NAME, 2, OPC3, 24, LD_STOR_INS, {{OP_S,20}, {abs20,0}}}, \
384 /* opc20 reg abs24 */ \
385 {NAME, 3, OPC1+3, 12, LD_STOR_INS, {{OP_S,4}, {abs24,16}}}, \
386 /* opc7 reg rindex8_abs20 */ \
387 {NAME, 2, OPC5, 25, LD_STOR_INS, {{OP_S,20}, {rindex8_abs20,0}}}, \
388 /* opc4 reg disps4(RPbase) */ \
389 {NAME, 1, (OPC2>>4), 28, LD_STOR_INS, {{OP_S,20}, {OP_D,24}}}, \
390 /* opcNN reg disps0(RPbase) */ \
391 {NAME, 1, OPC2, 24, LD_STOR_INS, {{OP_S,20}, {rpindex_disps0,0}}}, \
392 /* opc reg disps14(RPbase) */ \
393 {NAME, 2, OPC4, 22, LD_STOR_INS, {{OP_S,20}, {rpindex_disps14,0}}}, \
394 /* opc reg -disps20(Rbase) */ \
395 {NAME, 3, OPC1+0x60, 12, LD_STOR_INS, {{OP_S,4}, {rbase_dispe20,16}}}, \
396 /* opc reg disps20(Rbase) */ \
397 {NAME, 3, OPC1, 12, LD_STOR_INS, {{OP_S,4}, {rbase_disps20,16}}}, \
398 /* opc reg disps16(RPbase) */ \
399 {NAME, 2, OPC2+1, 24, LD_STOR_INS, {{OP_S,20}, {rpbase_disps16,0}}}, \
400 /* opc16 reg disps20(RPbase) */ \
401 {NAME, 3, OPC1+1, 12, LD_STOR_INS, {{OP_S,4}, {rpbase_disps20,16}}}, \
402 /* op reg (rp) -disps20(RPbase) */ \
403 {NAME, 3, OPC1+0x61, 12, LD_STOR_INS, {{OP_S,4}, {rpbase_dispe20,16}}}, \
404 /* opc reg rrp (Rindex)disps20(RPbase) */ \
405 {NAME, 3, OPC1+2, 12, LD_STOR_INS, {{OP_S,4}, {rpindex_disps20,16}}}
406
407
408/* Store instructions (from imm to memory). */
409#define ST_IMM_INST(NAME, OPC1, OPC2, OPC3, OPC4) \
410 /* opcNN iN abs20 */ \
411 {NAME, 2, OPC1, 24, LD_STOR_INS, {{uimm4,20},{abs20,0}}}, \
412 /* opcNN iN abs24 */ \
413 {NAME, 3, OPC2+3, 12, LD_STOR_INS, {{uimm4,4},{abs24,16}}}, \
414 /* opcNN iN (Rindex)abs20 */ \
415 {NAME, 2, OPC3, 25, LD_STOR_INS, {{uimm4,20}, {rindex8_abs20,0}}}, \
416 /* opcNN iN (prp) disps14(RPbase) */ \
417 {NAME, 2, OPC4, 22, LD_STOR_INS, {{uimm4,4},{rpindex_disps14,0}}}, \
418 /* opcNN iN (rp) disps0(RPbase) */ \
419 {NAME, 1, OPC1+1, 24, LD_STOR_INS, {{uimm4,20}, {rpbase_disps0,16}}}, \
420 /* opcNN iN disps20(Rbase) */ \
421 {NAME, 3, OPC2, 12, LD_STOR_INS, {{uimm4,4}, {rbase_disps20,16}}}, \
422 /* opcNN iN (rp) disps16(RPBase) */ \
423 {NAME, 2, OPC1+2, 24, LD_STOR_INS, {{uimm4,20}, {rpbase_disps16,0}}}, \
424 /* opcNN iN (rp) disps20(RPBase) */ \
425 {NAME, 3, OPC2+1, 12, LD_STOR_INS, {{uimm4,4}, {rpbase_disps20,16}}}, \
426 /* opcNN iN rrp (Rindex)disps20(RPbase) */ \
427 {NAME, 3, OPC2+2, 12, LD_STOR_INS, {{uimm4,4}, {rpindex_disps20,16}}}
428
429 ST_REG_INST ("storb", 0x00134, 0xFE, 0xC8, 0x319, 0x65, rpbase_disps4, regr),
430 ST_IMM_INST ("storb", 0x81, 0x00120, 0x42, 0x218),
431 ST_REG_INST ("stord", 0x00138, 0xEE, 0xC7, 0x31A, 0x66, rpbase_dispe4, regp),
432 ST_REG_INST ("storw", 0x0013C, 0xDE, 0xC9, 0x31B, 0x67, rpbase_dispe4, regr),
433 ST_IMM_INST ("storw", 0xC1, 0x00130, 0x62, 0x318),
434
435/* Create instruction with no operands. */
436#define NO_OP_INST(NAME, OPC) \
437 /* opc16 */ \
438 {NAME, 1, OPC, 16, 0, {{0, 0}}}
439
440 NO_OP_INST ("cinv[i]", 0x000A),
441 NO_OP_INST ("cinv[i,u]", 0x000B),
442 NO_OP_INST ("cinv[d]", 0x000C),
443 NO_OP_INST ("cinv[d,u]", 0x000D),
444 NO_OP_INST ("cinv[d,i]", 0x000E),
445 NO_OP_INST ("cinv[d,i,u]", 0x000F),
446 NO_OP_INST ("nop", 0x2C00),
447 NO_OP_INST ("retx", 0x0003),
448 NO_OP_INST ("di", 0x0004),
449 NO_OP_INST ("ei", 0x0005),
450 NO_OP_INST ("wait", 0x0006),
451 NO_OP_INST ("eiwait", 0x0007),
452
453 {NULL, 0, 0, 0, 0, {{0, 0}}}
454};
455
456const unsigned int cr16_num_opcodes = ARRAY_SIZE (cr16_instruction);
457
458/* Macro to build a reg_entry, which have an opcode image :
459 For example :
460 REG(u4, 0x84, CR16_U_REGTYPE)
461 is interpreted as :
2b4e983c
RM
462 {"u4", u4, 0x84, CR16_U_REGTYPE}
463 The union initializer (second member) always refers to the first
464 member of the union, so cast NAME to that type to avoid possible
465 compiler warnings when used for CR16_P_REGTYPE cases. */
466#define REG(NAME, N, TYPE) {STRINGX(NAME), {(reg) NAME}, N, TYPE}
3d3d428f
NC
467
468#define REGP(NAME, BNAME, N, TYPE) {STRINGX(NAME), {BNAME}, N, TYPE}
469
470const reg_entry cr16_regtab[] =
471{ /* Build a general purpose register r<N>. */
472#define REG_R(N) REG(CONCAT2(r,N), N, CR16_R_REGTYPE)
473
474 REG_R(0), REG_R(1), REG_R(2), REG_R(3),
475 REG_R(4), REG_R(5), REG_R(6), REG_R(7),
476 REG_R(8), REG_R(9), REG_R(10), REG_R(11),
477 REG_R(12), REG_R(13), REG_R(14), REG_R(15),
478 REG(r12_L, 12, CR16_R_REGTYPE),
479 REG(r13_L, 13, CR16_R_REGTYPE),
480 REG(ra, 0xe, CR16_R_REGTYPE),
481 REG(sp, 0xf, CR16_R_REGTYPE),
482 REG(sp_L, 0xf, CR16_R_REGTYPE),
483 REG(RA, 0xe, CR16_R_REGTYPE),
484};
485
486const reg_entry cr16_regptab[] =
487{ /* Build a general purpose register r<N>. */
488
489#define REG_RP(M,N) REGP((CONCAT2(r,M),CONCAT2(r,N)), CONCAT2(r,N), N, CR16_RP_REGTYPE)
490
491 REG_RP(1,0), REG_RP(2,1), REG_RP(3,2), REG_RP(4,3),
492 REG_RP(5,4), REG_RP(6,5), REG_RP(7,6), REG_RP(8,7),
493 REG_RP(9,8), REG_RP(10,9), REG_RP(11,10), REG_RP(12,11),
494 REG((r12), 0xc, CR16_RP_REGTYPE),
495 REG((r13), 0xd, CR16_RP_REGTYPE),
496 //REG((r14), 0xe, CR16_RP_REGTYPE),
497 REG((ra), 0xe, CR16_RP_REGTYPE),
498 REG((sp), 0xf, CR16_RP_REGTYPE),
499};
500
501
502const unsigned int cr16_num_regs = ARRAY_SIZE (cr16_regtab) ;
503const unsigned int cr16_num_regps = ARRAY_SIZE (cr16_regptab) ;
504
505const reg_entry cr16_pregtab[] =
506{
507/* Build a processor register. */
508 REG(dbs, 0x0, CR16_P_REGTYPE),
509 REG(dsr, 0x1, CR16_P_REGTYPE),
510 REG(dcrl, 0x2, CR16_P_REGTYPE),
511 REG(dcrh, 0x3, CR16_P_REGTYPE),
512 REG(car0l, 0x4, CR16_P_REGTYPE),
513 REG(car0h, 0x5, CR16_P_REGTYPE),
514 REG(car1l, 0x6, CR16_P_REGTYPE),
515 REG(car1h, 0x7, CR16_P_REGTYPE),
516 REG(cfg, 0x8, CR16_P_REGTYPE),
517 REG(psr, 0x9, CR16_P_REGTYPE),
518 REG(intbasel, 0xa, CR16_P_REGTYPE),
519 REG(intbaseh, 0xb, CR16_P_REGTYPE),
520 REG(ispl, 0xc, CR16_P_REGTYPE),
521 REG(isph, 0xd, CR16_P_REGTYPE),
522 REG(uspl, 0xe, CR16_P_REGTYPE),
523 REG(usph, 0xf, CR16_P_REGTYPE),
524};
525
526const reg_entry cr16_pregptab[] =
527{
528 REG(dbs, 0, CR16_P_REGTYPE),
529 REG(dsr, 1, CR16_P_REGTYPE),
530 REG(dcr, 2, CR16_P_REGTYPE),
531 REG(car0, 4, CR16_P_REGTYPE),
532 REG(car1, 6, CR16_P_REGTYPE),
533 REG(cfg, 8, CR16_P_REGTYPE),
534 REG(psr, 9, CR16_P_REGTYPE),
535 REG(intbase, 10, CR16_P_REGTYPE),
536 REG(isp, 12, CR16_P_REGTYPE),
537 REG(usp, 14, CR16_P_REGTYPE),
538};
539
540const unsigned int cr16_num_pregs = ARRAY_SIZE (cr16_pregtab);
541const unsigned int cr16_num_pregps = ARRAY_SIZE (cr16_pregptab);
542
543const char *cr16_b_cond_tab[]=
544{
545 "eq","ne","cs","cc","hi","ls","gt","le","fs","fc",
546 "lo","hs","lt","ge","r", "???"
547};
548
549const unsigned int cr16_num_cc = ARRAY_SIZE (cr16_b_cond_tab);
550
551/* CR16 operands table. */
552const operand_entry cr16_optab[] =
553{
554 /* Index 0 is dummy, so we can count the instruction's operands. */
555 {0, nullargs, 0}, /* dummy */
556 {3, arg_ic, OP_SIGNED}, /* imm3 */
557 {4, arg_ic, OP_SIGNED}, /* imm4 */
558 {5, arg_ic, OP_SIGNED}, /* imm5 */
559 {6, arg_ic, OP_SIGNED}, /* imm6 */
560 {16, arg_ic, OP_SIGNED}, /* imm16 */
561 {20, arg_ic, OP_SIGNED}, /* imm20 */
562 {32, arg_ic, OP_SIGNED}, /* imm32 */
563 {3, arg_ic, OP_UNSIGNED}, /* uimm3 */
564 {3, arg_ic, OP_UNSIGNED|OP_DEC}, /* uimm3_1 */
565 {4, arg_ic, OP_UNSIGNED}, /* uimm4 */
566 {4, arg_ic, OP_UNSIGNED|OP_ESC}, /* uimm4_1 */
567 {5, arg_ic, OP_UNSIGNED}, /* uimm5 */
568 {16, arg_ic, OP_UNSIGNED}, /* uimm16 */
569 {20, arg_ic, OP_UNSIGNED}, /* uimm20 */
570 {32, arg_ic, OP_UNSIGNED}, /* uimm32 */
571 {5, arg_c, OP_EVEN|OP_SHIFT_DEC|OP_SIGNED}, /* disps5 */
572 {16, arg_c, OP_EVEN|OP_UNSIGNED}, /* disps17 */
573 {24, arg_c, OP_EVEN|OP_UNSIGNED}, /* disps25 */
574 {8, arg_c, OP_EVEN|OP_UNSIGNED}, /* dispe9 */
575 {20, arg_c, OP_UNSIGNED|OP_ABS20}, /* abs20 */
576 {24, arg_c, OP_UNSIGNED|OP_ABS24}, /* abs24 */
577 {4, arg_rp, 0}, /* rra */
578 {4, arg_rbase, 0}, /* rbase */
579 {20, arg_cr, OP_UNSIGNED}, /* rbase_disps20 */
580 {21, arg_cr, OP_NEG}, /* rbase_dispe20 */
581 {0, arg_crp, 0}, /* rpbase_disps0 */
582 {4, arg_crp, OP_EVEN|OP_SHIFT|OP_UNSIGNED|OP_ESC1},/* rpbase_dispe4 */
583 {4, arg_crp, OP_UNSIGNED|OP_ESC1}, /* rpbase_disps4 */
584 {16, arg_crp, OP_UNSIGNED}, /* rpbase_disps16 */
585 {20, arg_crp, OP_UNSIGNED}, /* rpbase_disps20 */
586 {21, arg_crp, OP_NEG}, /* rpbase_dispe20 */
587 {20, arg_idxr, OP_UNSIGNED}, /* rindex7_abs20 */
588 {20, arg_idxr, OP_UNSIGNED}, /* rindex8_abs20 */
589 {0, arg_idxrp, OP_UNSIGNED}, /* rpindex_disps0 */
590 {14, arg_idxrp, OP_UNSIGNED}, /* rpindex_disps14 */
591 {20, arg_idxrp, OP_UNSIGNED}, /* rpindex_disps20 */
592 {4, arg_r, 0}, /* regr */
593 {4, arg_rp, 0}, /* reg pair */
594 {4, arg_pr, 0}, /* proc reg */
595 {4, arg_prp, 0}, /* 32 bit proc reg */
596 {4, arg_cc, OP_UNSIGNED} /* cc - code */
597};
598
796d5313 599const unsigned int cr16_num_optab = ARRAY_SIZE (cr16_optab);
3d3d428f
NC
600
601/* CR16 traps/interrupts. */
602const trap_entry cr16_traps[] =
603{
604 {"svc", 5}, {"dvz", 6}, {"flg", 7}, {"bpt", 8}, {"trc", 9},
605 {"und", 10}, {"iad", 12}, {"dbg",14}, {"ise",15}
606};
607
608const unsigned int cr16_num_traps = ARRAY_SIZE (cr16_traps);
609
610/* CR16 instructions that don't have arguments. */
611const char * cr16_no_op_insn[] =
612{
613 "cinv[i]", "cinv[i,u]", "cinv[d]", "cinv[d,u]", "cinv[d,i]", "cinv[d,i,u]",
614 "di", "ei", "eiwait", "nop", "retx", "wait", NULL
615};
This page took 0.385615 seconds and 4 git commands to generate.