Power10 string operations
[deliverable/binutils-gdb.git] / opcodes / rl78-decode.opc
1 /* -*- c -*- */
2 /* Copyright (C) 2012-2020 Free Software Foundation, Inc.
3 Contributed by Red Hat.
4 Written by DJ Delorie.
5
6 This file is part of the GNU opcodes library.
7
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)
11 any later version.
12
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.
17
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
21 MA 02110-1301, USA. */
22
23 #include "sysdep.h"
24 #include <stdio.h>
25 #include <stdlib.h>
26 #include <string.h>
27 #include "bfd.h"
28 #include "opintl.h"
29 #include "opcode/rl78.h"
30
31 static int trace = 0;
32
33 typedef struct
34 {
35 RL78_Opcode_Decoded * rl78;
36 int (* getbyte)(void *);
37 void * ptr;
38 unsigned char * op;
39 } LocalData;
40
41 #define ID(x) rl78->id = RLO_##x, rl78->lineno = __LINE__
42 #define OP(n,t,r,a) (rl78->op[n].type = t, \
43 rl78->op[n].reg = r, \
44 rl78->op[n].addend = a )
45 #define OPX(n,t,r1,r2,a) \
46 (rl78->op[n].type = t, \
47 rl78->op[n].reg = r1, \
48 rl78->op[n].reg2 = r2, \
49 rl78->op[n].addend = a )
50
51 #define W() rl78->size = RL78_Word
52
53 #define AU ATTRIBUTE_UNUSED
54
55 #define OP_BUF_LEN 20
56 #define GETBYTE() (ld->rl78->n_bytes < (OP_BUF_LEN - 1) ? ld->op [ld->rl78->n_bytes++] = ld->getbyte (ld->ptr): 0)
57 #define B ((unsigned long) GETBYTE())
58
59 #define SYNTAX(x) rl78->syntax = x
60
61 #define UNSUPPORTED() \
62 rl78->syntax = "*unknown*"
63
64 #define RB(x) ((x)+RL78_Reg_X)
65 #define RW(x) ((x)+RL78_Reg_AX)
66
67 #define Fz rl78->flags = RL78_PSW_Z
68 #define Fza rl78->flags = RL78_PSW_Z | RL78_PSW_AC
69 #define Fzc rl78->flags = RL78_PSW_Z | RL78_PSW_CY
70 #define Fzac rl78->flags = RL78_PSW_Z | RL78_PSW_AC | RL78_PSW_CY
71 #define Fa rl78->flags = RL78_PSW_AC
72 #define Fc rl78->flags = RL78_PSW_CY
73 #define Fac rl78->flags = RL78_PSW_AC | RL78_PSW_CY
74
75 #define IMMU(bytes) immediate (bytes, 0, ld)
76 #define IMMS(bytes) immediate (bytes, 1, ld)
77
78 static int
79 immediate (int bytes, int sign_extend, LocalData * ld)
80 {
81 unsigned long i = 0;
82
83 switch (bytes)
84 {
85 case 1:
86 i |= B;
87 if (sign_extend && (i & 0x80))
88 i -= 0x100;
89 break;
90 case 2:
91 i |= B;
92 i |= B << 8;
93 if (sign_extend && (i & 0x8000))
94 i -= 0x10000;
95 break;
96 case 3:
97 i |= B;
98 i |= B << 8;
99 i |= B << 16;
100 if (sign_extend && (i & 0x800000))
101 i -= 0x1000000;
102 break;
103 default:
104 opcodes_error_handler
105 /* xgettext:c-format */
106 (_("internal error: immediate() called with invalid byte count %d"),
107 bytes);
108 abort();
109 }
110 return i;
111 }
112
113 #define DC(c) OP (0, RL78_Operand_Immediate, 0, c)
114 #define DR(r) OP (0, RL78_Operand_Register, RL78_Reg_##r, 0)
115 #define DRB(r) OP (0, RL78_Operand_Register, RB(r), 0)
116 #define DRW(r) OP (0, RL78_Operand_Register, RW(r), 0)
117 #define DM(r,a) OP (0, RL78_Operand_Indirect, RL78_Reg_##r, a)
118 #define DM2(r1,r2,a) OPX (0, RL78_Operand_Indirect, RL78_Reg_##r1, RL78_Reg_##r2, a)
119 #define DE() rl78->op[0].use_es = 1
120 #define DB(b) set_bit (rl78->op, b)
121 #define DCY() DR(PSW); DB(0)
122 #define DPUSH() OP (0, RL78_Operand_PreDec, RL78_Reg_SP, 0);
123
124 #define SC(c) OP (1, RL78_Operand_Immediate, 0, c)
125 #define SR(r) OP (1, RL78_Operand_Register, RL78_Reg_##r, 0)
126 #define SRB(r) OP (1, RL78_Operand_Register, RB(r), 0)
127 #define SRW(r) OP (1, RL78_Operand_Register, RW(r), 0)
128 #define SM(r,a) OP (1, RL78_Operand_Indirect, RL78_Reg_##r, a)
129 #define SM2(r1,r2,a) OPX (1, RL78_Operand_Indirect, RL78_Reg_##r1, RL78_Reg_##r2, a)
130 #define SE() rl78->op[1].use_es = 1
131 #define SB(b) set_bit (rl78->op+1, b)
132 #define SCY() SR(PSW); SB(0)
133 #define COND(c) rl78->op[1].condition = RL78_Condition_##c
134 #define SPOP() OP (1, RL78_Operand_PostInc, RL78_Reg_SP, 0);
135
136 static void
137 set_bit (RL78_Opcode_Operand *op, int bit)
138 {
139 op->bit_number = bit;
140 switch (op->type) {
141 case RL78_Operand_Register:
142 op->type = RL78_Operand_Bit;
143 break;
144 case RL78_Operand_Indirect:
145 op->type = RL78_Operand_BitIndirect;
146 break;
147 default:
148 break;
149 }
150 }
151
152 static int
153 saddr (int x)
154 {
155 if (x < 0x20)
156 return 0xfff00 + x;
157 return 0xffe00 + x;
158 }
159
160 static int
161 sfr (int x)
162 {
163 return 0xfff00 + x;
164 }
165
166 #define SADDR saddr (IMMU (1))
167 #define SFR sfr (IMMU (1))
168
169 int
170 rl78_decode_opcode (unsigned long pc AU,
171 RL78_Opcode_Decoded * rl78,
172 int (* getbyte)(void *),
173 void * ptr,
174 RL78_Dis_Isa isa)
175 {
176 LocalData lds, * ld = &lds;
177 unsigned char op_buf[OP_BUF_LEN] = {0};
178 unsigned char *op = op_buf;
179 int op0, op1;
180
181 lds.rl78 = rl78;
182 lds.getbyte = getbyte;
183 lds.ptr = ptr;
184 lds.op = op;
185
186 memset (rl78, 0, sizeof (*rl78));
187
188 start_again:
189
190 /* Byte registers, not including A. */
191 /** VARY rba 000 010 011 100 101 110 111 */
192 /* Word registers, not including AX. */
193 /** VARY ra 01 10 11 */
194
195 /*----------------------------------------------------------------------*/
196 /* ES: prefix */
197
198 /** 0001 0001 es: */
199 DE(); SE();
200 op ++;
201 pc ++;
202 goto start_again;
203
204 /*----------------------------------------------------------------------*/
205
206 /** 0000 1111 add %0, %e!1 */
207 ID(add); DR(A); SM(None, IMMU(2)); Fzac;
208
209 /** 0000 1101 add %0, %e1 */
210 ID(add); DR(A); SM(HL, 0); Fzac;
211
212 /** 0110 0001 1000 000 add %0, %e1 */
213 ID(add); DR(A); SM2(HL, B, 0); Fzac;
214
215 /** 0000 1110 add %0, %ea1 */
216 ID(add); DR(A); SM(HL, IMMU(1)); Fzac;
217
218 /** 0110 0001 1000 0010 add %0, %e1 */
219 ID(add); DR(A); SM2(HL, C, 0); Fzac;
220
221 /** 0000 1100 add %0, #%1 */
222 ID(add); DR(A); SC(IMMU(1)); Fzac;
223
224 /** 0110 0001 0000 1rba add %0, %1 */
225 ID(add); DR(A); SRB(rba); Fzac;
226
227 /** 0000 1011 add %0, %1 */
228 ID(add); DR(A); SM(None, SADDR); Fzac;
229
230 /** 0110 0001 0000 0reg add %0, %1 */
231 ID(add); DRB(reg); SR(A); Fzac;
232
233 /** 0000 1010 add %0, #%1 */
234 ID(add); DM(None, SADDR); SC(IMMU(1)); Fzac;
235
236 /*----------------------------------------------------------------------*/
237
238 /** 0001 1111 addc %0, %e!1 */
239 ID(addc); DR(A); SM(None, IMMU(2)); Fzac;
240
241 /** 0001 1101 addc %0, %e1 */
242 ID(addc); DR(A); SM(HL, 0); Fzac;
243
244 /** 0110 0001 1001 0000 addc %0, %e1 */
245 ID(addc); DR(A); SM2(HL, B, 0); Fzac;
246
247 /** 0110 0001 1001 0010 addc %0, %e1 */
248 ID(addc); DR(A); SM2(HL, C, 0); Fzac;
249
250 /** 0001 1110 addc %0, %ea1 */
251 ID(addc); DR(A); SM(HL, IMMU(1)); Fzac;
252
253 /** 0001 1100 addc %0, #%1 */
254 ID(addc); DR(A); SC(IMMU(1)); Fzac;
255
256 /** 0110 0001 0001 1rba addc %0, %1 */
257 ID(addc); DR(A); SRB(rba); Fzac;
258
259 /** 0110 0001 0001 0reg addc %0, %1 */
260 ID(addc); DRB(reg); SR(A); Fzac;
261
262 /** 0001 1011 addc %0, %1 */
263 ID(addc); DR(A); SM(None, SADDR); Fzac;
264
265 /** 0001 1010 addc %0, #%1 */
266 ID(addc); DM(None, SADDR); SC(IMMU(1)); Fzac;
267
268 /*----------------------------------------------------------------------*/
269
270 /** 0000 0010 addw %0, %e!1 */
271 ID(add); W(); DR(AX); SM(None, IMMU(2)); Fzac;
272
273 /** 0110 0001 0000 1001 addw %0, %ea1 */
274 ID(add); W(); DR(AX); SM(HL, IMMU(1)); Fzac;
275
276 /** 0000 0100 addw %0, #%1 */
277 ID(add); W(); DR(AX); SC(IMMU(2)); Fzac;
278
279 /** 0000 0rw1 addw %0, %1 */
280 ID(add); W(); DR(AX); SRW(rw); Fzac;
281
282 /** 0000 0110 addw %0, %1 */
283 ID(add); W(); DR(AX); SM(None, SADDR); Fzac;
284
285 /** 0001 0000 addw %0, #%1 */
286 ID(add); W(); DR(SP); SC(IMMU(1)); Fzac;
287
288 /*----------------------------------------------------------------------*/
289
290 /** 0101 1111 and %0, %e!1 */
291 ID(and); DR(A); SM(None, IMMU(2)); Fz;
292
293 /** 0101 1101 and %0, %e1 */
294 ID(and); DR(A); SM(HL, 0); Fz;
295
296 /** 0110 0001 1101 0000 and %0, %e1 */
297 ID(and); DR(A); SM2(HL, B, 0); Fz;
298
299 /** 0101 1110 and %0, %ea1 */
300 ID(and); DR(A); SM(HL, IMMU(1)); Fz;
301
302 /** 0110 0001 1101 0010 and %0, %e1 */
303 ID(and); DR(A); SM2(HL, C, 0); Fz;
304
305 /** 0101 1100 and %0, #%1 */
306 ID(and); DR(A); SC(IMMU(1)); Fz;
307
308 /** 0110 0001 0101 1rba and %0, %1 */
309 ID(and); DR(A); SRB(rba); Fz;
310
311 /** 0110 0001 0101 0reg and %0, %1 */
312 ID(and); DRB(reg); SR(A); Fz;
313
314 /** 0101 1011 and %0, %1 */
315 ID(and); DR(A); SM(None, SADDR); Fz;
316
317 /** 0101 1010 and %0, #%1 */
318 ID(and); DM(None, SADDR); SC(IMMU(1)); Fz;
319
320 /*----------------------------------------------------------------------*/
321
322 /** 0111 0001 1bit 0101 and1 cy, %e1 */
323 ID(and); DCY(); SM(HL, 0); SB(bit);
324
325 /** 0111 0001 1bit 1101 and1 cy, %1 */
326 ID(and); DCY(); SR(A); SB(bit);
327
328 /** 0111 0001 0bit 1101 and1 cy, %s1 */
329 ID(and); DCY(); SM(None, SFR); SB(bit);
330
331 /** 0111 0001 0bit 0101 and1 cy, %s1 */
332 ID(and); DCY(); SM(None, SADDR); SB(bit);
333
334 /*----------------------------------------------------------------------*/
335
336 /* Note that the branch insns need to be listed before the shift
337 ones, as "shift count of zero" means "branch insn" */
338
339 /** 1101 1100 bc $%a0 */
340 ID(branch_cond); DC(pc+IMMS(1)+2); SR(None); COND(C);
341
342 /** 1101 1110 bnc $%a0 */
343 ID(branch_cond); DC(pc+IMMS(1)+2); SR(None); COND(NC);
344
345 /** 0110 0001 1100 0011 bh $%a0 */
346 ID(branch_cond); DC(pc+IMMS(1)+3); SR(None); COND(H);
347
348 /** 0110 0001 1101 0011 bnh $%a0 */
349 ID(branch_cond); DC(pc+IMMS(1)+3); SR(None); COND(NH);
350
351 /** 1101 1101 bz $%a0 */
352 ID(branch_cond); DC(pc+IMMS(1)+2); SR(None); COND(Z);
353
354 /** 1101 1111 bnz $%a0 */
355 ID(branch_cond); DC(pc+IMMS(1)+2); SR(None); COND(NZ);
356
357 /*----------------------------------------------------------------------*/
358
359 /** 0011 0001 1bit 0101 bf %e1, $%a0 */
360 ID(branch_cond); DC(pc+IMMS(1)+3); SM(HL,0); SB(bit); COND(F);
361
362 /** 0011 0001 0bit 0101 bf %1, $%a0 */
363 ID(branch_cond); DC(pc+IMMS(1)+3); SR(A); SB(bit); COND(F);
364
365 /** 0011 0001 1bit 0100 bf %s1, $%a0 */
366 ID(branch_cond); SM(None, SFR); SB(bit); DC(pc+IMMS(1)+4); COND(F);
367
368 /** 0011 0001 0bit 0100 bf %s1, $%a0 */
369 ID(branch_cond); SM(None, SADDR); SB(bit); DC(pc+IMMS(1)+4); COND(F);
370
371 /*----------------------------------------------------------------------*/
372
373 /** 1110 1100 br !%!a0 */
374 ID(branch); DC(IMMU(3));
375
376 /** 1110 1101 br %!a0 */
377 ID(branch); DC(IMMU(2));
378
379 /** 1110 1110 br $%!a0 */
380 ID(branch); DC(pc+IMMS(2)+3);
381
382 /** 1110 1111 br $%a0 */
383 ID(branch); DC(pc+IMMS(1)+2);
384
385 /** 0110 0001 1100 1011 br ax */
386 ID(branch); DR(AX);
387
388 /*----------------------------------------------------------------------*/
389
390 /** 1111 1111 brk1 */
391 ID(break);
392
393 /** 0110 0001 1100 1100 brk */
394 ID(break);
395
396 /*----------------------------------------------------------------------*/
397
398 /** 0011 0001 1bit 0011 bt %e1, $%a0 */
399 ID(branch_cond); DC(pc+IMMS(1)+3); SM(HL,0); SB(bit); COND(T);
400
401 /** 0011 0001 0bit 0011 bt %1, $%a0 */
402 ID(branch_cond); DC(pc+IMMS(1)+3); SR(A); SB(bit); COND(T);
403
404 /** 0011 0001 1bit 0010 bt %s1, $%a0 */
405 ID(branch_cond); SM(None, SFR); SB(bit); DC(pc+IMMS(1)+4); COND(T);
406
407 /** 0011 0001 0bit 0010 bt %s1, $%a0 */
408 ID(branch_cond); SM(None, SADDR); SB(bit); DC(pc+IMMS(1)+4); COND(T);
409
410 /*----------------------------------------------------------------------*/
411
412 /** 0011 0001 1bit 0001 btclr %e1, $%a0 */
413 ID(branch_cond_clear); DC(pc+IMMS(1)+3); SM(HL,0); SB(bit); COND(T);
414
415 /** 0011 0001 0bit 0001 btclr %1, $%a0 */
416 ID(branch_cond_clear); DC(pc+IMMS(1)+3); SR(A); SB(bit); COND(T);
417
418 /** 0011 0001 1bit 0000 btclr %s1, $%a0 */
419 ID(branch_cond_clear); SM(None, SFR); SB(bit); DC(pc+IMMS(1)+4); COND(T);
420
421 /** 0011 0001 0bit 0000 btclr %s1, $%a0 */
422 ID(branch_cond_clear); SM(None, SADDR); SB(bit); DC(pc+IMMS(1)+4); COND(T);
423
424 /*----------------------------------------------------------------------*/
425
426 /** 1111 1100 call !%!a0 */
427 ID(call); DC(IMMU(3));
428
429 /** 1111 1101 call %!a0 */
430 ID(call); DC(IMMU(2));
431
432 /** 1111 1110 call $%!a0 */
433 ID(call); DC(pc+IMMS(2)+3);
434
435 /** 0110 0001 11rg 1010 call %0 */
436 ID(call); DRW(rg);
437
438 /** 0110 0001 1nnn 01mm callt [%x0] */
439 ID(call); DM(None, 0x80 + mm*16 + nnn*2);
440
441 /*----------------------------------------------------------------------*/
442
443 /** 0111 0001 0bit 1000 clr1 %e!0 */
444 ID(mov); DM(None, IMMU(2)); DB(bit); SC(0);
445
446 /** 0111 0001 1bit 0011 clr1 %e0 */
447 ID(mov); DM(HL, 0); DB(bit); SC(0);
448
449 /** 0111 0001 1bit 1011 clr1 %0 */
450 ID(mov); DR(A); DB(bit); SC(0);
451
452 /** 0111 0001 1000 1000 clr1 cy */
453 ID(mov); DCY(); SC(0);
454
455 /** 0111 0001 0bit 1011 clr1 %s0 */
456 op0 = SFR;
457 ID(mov); DM(None, op0); DB(bit); SC(0);
458 if (op0 == RL78_SFR_PSW && bit == 7)
459 rl78->syntax = "di";
460
461 /** 0111 0001 0bit 0011 clr1 %0 */
462 ID(mov); DM(None, SADDR); DB(bit); SC(0);
463
464 /*----------------------------------------------------------------------*/
465
466 /** 1111 0101 clrb %e!0 */
467 ID(mov); DM(None, IMMU(2)); SC(0);
468
469 /** 1111 00rg clrb %0 */
470 ID(mov); DRB(rg); SC(0);
471
472 /** 1111 0100 clrb %0 */
473 ID(mov); DM(None, SADDR); SC(0);
474
475 /*----------------------------------------------------------------------*/
476
477 /** 1111 0110 clrw %0 */
478 ID(mov); DR(AX); SC(0);
479
480 /** 1111 0111 clrw %0 */
481 ID(mov); DR(BC); SC(0);
482
483 /*----------------------------------------------------------------------*/
484
485 /** 0100 0000 cmp %e!0, #%1 */
486 ID(cmp); DM(None, IMMU(2)); SC(IMMU(1)); Fzac;
487
488 /** 0100 1010 cmp %0, #%1 */
489 ID(cmp); DM(None, SADDR); SC(IMMU(1)); Fzac;
490
491 /** 0100 1111 cmp %0, %e!1 */
492 ID(cmp); DR(A); SM(None, IMMU(2)); Fzac;
493
494 /** 0100 1101 cmp %0, %e1 */
495 ID(cmp); DR(A); SM(HL, 0); Fzac;
496
497 /** 0110 0001 1100 0000 cmp %0, %e1 */
498 ID(cmp); DR(A); SM2(HL, B, 0); Fzac;
499
500 /** 0110 0001 1100 0010 cmp %0, %e1 */
501 ID(cmp); DR(A); SM2(HL, C, 0); Fzac;
502
503 /** 0100 1110 cmp %0, %ea1 */
504 ID(cmp); DR(A); SM(HL, IMMU(1)); Fzac;
505
506 /** 0100 1100 cmp %0, #%1 */
507 ID(cmp); DR(A); SC(IMMU(1)); Fzac;
508
509 /** 0110 0001 0100 1rba cmp %0, %1 */
510 ID(cmp); DR(A); SRB(rba); Fzac;
511
512 /** 0110 0001 0100 0reg cmp %0, %1 */
513 ID(cmp); DRB(reg); SR(A); Fzac;
514
515 /** 0100 1011 cmp %0, %1 */
516 ID(cmp); DR(A); SM(None, SADDR); Fzac;
517
518 /*----------------------------------------------------------------------*/
519
520 /** 1101 0101 cmp0 %e!0 */
521 ID(cmp); DM(None, IMMU(2)); SC(0); Fzac;
522
523 /** 1101 00rg cmp0 %0 */
524 ID(cmp); DRB(rg); SC(0); Fzac;
525
526 /** 1101 0100 cmp0 %0 */
527 ID(cmp); DM(None, SADDR); SC(0); Fzac;
528
529 /*----------------------------------------------------------------------*/
530
531 /** 0110 0001 1101 1110 cmps %0, %ea1 */
532 ID(cmp); DR(X); SM(HL, IMMU(1)); Fzac;
533
534 /*----------------------------------------------------------------------*/
535
536 /** 0100 0010 cmpw %0, %e!1 */
537 ID(cmp); W(); DR(AX); SM(None, IMMU(2)); Fzac;
538
539 /** 0110 0001 0100 1001 cmpw %0, %ea1 */
540 ID(cmp); W(); DR(AX); SM(HL, IMMU(1)); Fzac;
541
542 /** 0100 0100 cmpw %0, #%1 */
543 ID(cmp); W(); DR(AX); SC(IMMU(2)); Fzac;
544
545 /** 0100 0ra1 cmpw %0, %1 */
546 ID(cmp); W(); DR(AX); SRW(ra); Fzac;
547
548 /** 0100 0110 cmpw %0, %1 */
549 ID(cmp); W(); DR(AX); SM(None, SADDR); Fzac;
550
551 /*----------------------------------------------------------------------*/
552
553 /** 1011 0000 dec %e!0 */
554 ID(sub); DM(None, IMMU(2)); SC(1); Fza;
555
556 /** 0110 0001 0110 1001 dec %ea0 */
557 ID(sub); DM(HL, IMMU(1)); SC(1); Fza;
558
559 /** 1001 0reg dec %0 */
560 ID(sub); DRB(reg); SC(1); Fza;
561
562 /** 1011 0100 dec %0 */
563 ID(sub); DM(None, SADDR); SC(1); Fza;
564
565 /*----------------------------------------------------------------------*/
566
567 /** 1011 0010 decw %e!0 */
568 ID(sub); W(); DM(None, IMMU(2)); SC(1);
569
570 /** 0110 0001 1000 1001 decw %ea0 */
571 ID(sub); W(); DM(HL, IMMU(1)); SC(1);
572
573 /** 1011 0rg1 decw %0 */
574 ID(sub); W(); DRW(rg); SC(1);
575
576 /** 1011 0110 decw %0 */
577 ID(sub); W(); DM(None, SADDR); SC(1);
578
579 /*----------------------------------------------------------------------*/
580
581 /** 0110 0001 1110 1101 halt */
582 ID(halt);
583
584 /*----------------------------------------------------------------------*/
585
586 /** 1010 0000 inc %e!0 */
587 ID(add); DM(None, IMMU(2)); SC(1); Fza;
588
589 /** 0110 0001 0101 1001 inc %ea0 */
590 ID(add); DM(HL, IMMU(1)); SC(1); Fza;
591
592 /** 1000 0reg inc %0 */
593 ID(add); DRB(reg); SC(1); Fza;
594
595 /** 1010 0100 inc %0 */
596 ID(add); DM(None, SADDR); SC(1); Fza;
597
598 /*----------------------------------------------------------------------*/
599
600 /** 1010 0010 incw %e!0 */
601 ID(add); W(); DM(None, IMMU(2)); SC(1);
602
603 /** 0110 0001 0111 1001 incw %ea0 */
604 ID(add); W(); DM(HL, IMMU(1)); SC(1);
605
606 /** 1010 0rg1 incw %0 */
607 ID(add); W(); DRW(rg); SC(1);
608
609 /** 1010 0110 incw %0 */
610 ID(add); W(); DM(None, SADDR); SC(1);
611
612 /*----------------------------------------------------------------------*/
613
614 /** 1100 1111 mov %e!0, #%1 */
615 ID(mov); DM(None, IMMU(2)); SC(IMMU(1));
616
617 /** 1001 1111 mov %e!0, %1 */
618 ID(mov); DM(None, IMMU(2)); SR(A);
619
620 /** 1001 1001 mov %e0, %1 */
621 ID(mov); DM(DE, 0); SR(A);
622
623 /** 1100 1010 mov %ea0, #%1 */
624 ID(mov); DM(DE, IMMU(1)); SC(IMMU(1));
625
626 /** 1001 1010 mov %ea0, %1 */
627 ID(mov); DM(DE, IMMU(1)); SR(A);
628
629 /** 1001 1011 mov %e0, %1 */
630 ID(mov); DM(HL, 0); SR(A);
631
632 /** 0110 0001 1101 1001 mov %e0, %1 */
633 ID(mov); DM2(HL, B, 0); SR(A);
634
635 /** 1100 1100 mov %ea0, #%1 */
636 ID(mov); DM(HL, IMMU(1)); SC(IMMU(1));
637
638 /** 1001 1100 mov %ea0, %1 */
639 ID(mov); DM(HL, IMMU(1)); SR(A);
640
641 /** 0110 0001 1111 1001 mov %e0, %1 */
642 ID(mov); DM2(HL, C, 0); SR(A);
643
644 /** 1100 1000 mov %a0, #%1 */
645 ID(mov); DM(SP, IMMU(1)); SC(IMMU(1));
646
647 /** 1001 1000 mov %a0, %1 */
648 ID(mov); DM(SP, IMMU(1)); SR(A);
649
650 /** 1000 1111 mov %0, %e!1 */
651 ID(mov); DR(A); SM(None, IMMU(2));
652
653 /** 1000 1001 mov %0, %e1 */
654 ID(mov); DR(A); SM(DE, 0);
655
656 /** 1000 1010 mov %0, %ea1 */
657 ID(mov); DR(A); SM(DE, IMMU(1));
658
659 /** 1000 1011 mov %0, %e1 */
660 ID(mov); DR(A); SM(HL, 0);
661
662 /** 1000 1100 mov %0, %ea1 */
663 ID(mov); DR(A); SM(HL, IMMU(1));
664
665 /** 0110 0001 1100 1001 mov %0, %e1 */
666 ID(mov); DR(A); SM2(HL, B, 0);
667
668 /** 0110 0001 1110 1001 mov %0, %e1 */
669 ID(mov); DR(A); SM2(HL, C, 0);
670
671 /** 1000 1000 mov %0, %ea1 */
672 ID(mov); DR(A); SM(SP, IMMU(1));
673
674 /** 0101 0reg mov %0, #%1 */
675 ID(mov); DRB(reg); SC(IMMU(1));
676
677 /** 0110 0rba mov %0, %1 */
678 ID(mov); DR(A); SRB(rba);
679
680 /** 1000 1110 1111 1101 mov %0, %1 */
681 ID(mov); DR(A); SR(ES);
682
683 /** 0000 1001 mov %0, %e1 */
684 ID(mov); DR(A); SM(B, IMMU(2));
685
686 /** 0100 1001 mov %0, %e1 */
687 ID(mov); DR(A); SM(BC, IMMU(2));
688
689 /** 0010 1001 mov %0, %e1 */
690 ID(mov); DR(A); SM(C, IMMU(2));
691
692 /** 1000 1110 mov %0, %s1 */
693 ID(mov); DR(A); SM(None, SFR);
694
695 /** 1000 1101 mov %0, %1 */
696 ID(mov); DR(A); SM(None, SADDR);
697
698 /** 1110 1001 mov %0, %e!1 */
699 ID(mov); DR(B); SM(None, IMMU(2));
700
701 /** 0111 0rba mov %0, %1 */
702 ID(mov); DRB(rba); SR(A);
703
704 /** 1110 1000 mov %0, %1 */
705 ID(mov); DR(B); SM(None, SADDR);
706
707 /** 1111 1001 mov %0, %e!1 */
708 ID(mov); DR(C); SM(None, IMMU(2));
709
710 /** 1111 1000 mov %0, %1 */
711 ID(mov); DR(C); SM(None, SADDR);
712
713 /** 1101 1001 mov %0, %e!1 */
714 ID(mov); DR(X); SM(None, IMMU(2));
715
716 /** 1101 1000 mov %0, %1 */
717 ID(mov); DR(X); SM(None, SADDR);
718
719 /** 1001 1110 1111 1100 mov %0, %1 */
720 ID(mov); DR(CS); SR(A);
721
722 /** 0100 0001 mov %0, #%1 */
723 ID(mov); DR(ES); SC(IMMU(1));
724
725 /** 1001 1110 1111 1101 mov %0, %1 */
726 ID(mov); DR(ES); SR(A);
727
728 /** 0110 0001 1011 1000 mov %0, %1 */
729 ID(mov); DR(ES); SM(None, SADDR);
730
731 /** 0001 1001 mov %e0, #%1 */
732 ID(mov); DM(B, IMMU(2)); SC(IMMU(1));
733
734 /** 0001 1000 mov %e0, %1 */
735 ID(mov); DM(B, IMMU(2)); SR(A);
736
737 /** 0011 1001 mov %e0, #%1 */
738 ID(mov); DM(BC, IMMU(2)); SC(IMMU(1));
739
740 /** 0100 1000 mov %e0, %1 */
741 ID(mov); DM(BC, IMMU(2)); SR(A);
742
743 /** 0011 1000 mov %e0, #%1 */
744 ID(mov); DM(C, IMMU(2)); SC(IMMU(1));
745
746 /** 0010 1000 mov %e0, %1 */
747 ID(mov); DM(C, IMMU(2)); SR(A);
748
749 /** 1100 1101 mov %0, #%1 */
750 ID(mov); DM(None, SADDR); SC(IMMU(1));
751
752 /** 1001 1101 mov %0, %1 */
753 ID(mov); DM(None, SADDR); SR(A);
754
755 /** 1100 1110 mov %s0, #%1 */
756 op0 = SFR;
757 op1 = IMMU(1);
758 ID(mov); DM(None, op0); SC(op1);
759 if (op0 == 0xffffb && isa == RL78_ISA_G14)
760 switch (op1)
761 {
762 case 0x01:
763 rl78->syntax = "mulhu"; ID(mulhu);
764 break;
765 case 0x02:
766 rl78->syntax = "mulh"; ID(mulh);
767 break;
768 case 0x03:
769 rl78->syntax = "divhu"; ID(divhu);
770 break;
771 case 0x04:
772 rl78->syntax = "divwu <old-encoding>"; ID(divwu);
773 break;
774 case 0x05:
775 rl78->syntax = "machu"; ID(machu);
776 break;
777 case 0x06:
778 rl78->syntax = "mach"; ID(mach);
779 break;
780 case 0x0b:
781 rl78->syntax = "divwu"; ID(divwu);
782 break;
783 }
784
785 /** 1001 1110 mov %s0, %1 */
786 ID(mov); DM(None, SFR); SR(A);
787
788 /*----------------------------------------------------------------------*/
789
790 /** 0111 0001 1bit 0001 mov1 %e0, cy */
791 ID(mov); DM(HL, 0); DB(bit); SCY();
792
793 /** 0111 0001 1bit 1001 mov1 %e0, cy */
794 ID(mov); DR(A); DB(bit); SCY();
795
796 /** 0111 0001 1bit 0100 mov1 cy, %e1 */
797 ID(mov); DCY(); SM(HL, 0); SB(bit);
798
799 /** 0111 0001 1bit 1100 mov1 cy, %e1 */
800 ID(mov); DCY(); SR(A); SB(bit);
801
802 /** 0111 0001 0bit 0100 mov1 cy, %1 */
803 ID(mov); DCY(); SM(None, SADDR); SB(bit);
804
805 /** 0111 0001 0bit 1100 mov1 cy, %s1 */
806 ID(mov); DCY(); SM(None, SFR); SB(bit);
807
808 /** 0111 0001 0bit 0001 mov1 %0, cy */
809 ID(mov); DM(None, SADDR); DB(bit); SCY();
810
811 /** 0111 0001 0bit 1001 mov1 %s0, cy */
812 ID(mov); DM(None, SFR); DB(bit); SCY();
813
814 /*----------------------------------------------------------------------*/
815
816 /** 0110 0001 1100 1110 movs %ea0, %1 */
817 ID(mov); DM(HL, IMMU(1)); SR(X); Fzc;
818
819 /*----------------------------------------------------------------------*/
820
821 /** 1011 1111 movw %e!0, %1 */
822 ID(mov); W(); DM(None, IMMU(2)); SR(AX);
823
824 /** 1011 1001 movw %e0, %1 */
825 ID(mov); W(); DM(DE, 0); SR(AX);
826
827 /** 1011 1010 movw %ea0, %1 */
828 ID(mov); W(); DM(DE, IMMU(1)); SR(AX);
829
830 /** 1011 1011 movw %e0, %1 */
831 ID(mov); W(); DM(HL, 0); SR(AX);
832
833 /** 1011 1100 movw %ea0, %1 */
834 ID(mov); W(); DM(HL, IMMU(1)); SR(AX);
835
836 /** 1011 1000 movw %a0, %1 */
837 ID(mov); W(); DM(SP, IMMU(1)); SR(AX);
838
839 /** 1010 1111 movw %0, %e!1 */
840 ID(mov); W(); DR(AX); SM(None, IMMU(2));
841
842
843 /** 1010 1001 movw %0, %e1 */
844 ID(mov); W(); DR(AX); SM(DE, 0);
845
846 /** 1010 1010 movw %0, %ea1 */
847 ID(mov); W(); DR(AX); SM(DE, IMMU(1));
848
849 /** 1010 1011 movw %0, %e1 */
850 ID(mov); W(); DR(AX); SM(HL, 0);
851
852 /** 1010 1100 movw %0, %ea1 */
853 ID(mov); W(); DR(AX); SM(HL, IMMU(1));
854
855 /** 1010 1000 movw %0, %a1 */
856 ID(mov); W(); DR(AX); SM(SP, IMMU(1));
857
858 /** 0011 0rg0 movw %0, #%1 */
859 ID(mov); W(); DRW(rg); SC(IMMU(2));
860
861 /** 0001 0ra1 movw %0, %1 */
862 ID(mov); W(); DR(AX); SRW(ra);
863
864 /** 0001 0ra0 movw %0, %1 */
865 ID(mov); W(); DRW(ra); SR(AX);
866
867 /** 0101 1001 movw %0, %e1 */
868 ID(mov); W(); DR(AX); SM(B, IMMU(2));
869
870 /** 0110 1001 movw %0, %e1 */
871 ID(mov); W(); DR(AX); SM(C, IMMU(2));
872
873 /** 0111 1001 movw %0, %e1 */
874 ID(mov); W(); DR(AX); SM(BC, IMMU(2));
875
876 /** 0101 1000 movw %e0, %1 */
877 ID(mov); W(); DM(B, IMMU(2)); SR(AX);
878
879 /** 0110 1000 movw %e0, %1 */
880 ID(mov); W(); DM(C, IMMU(2)); SR(AX);
881
882 /** 0111 1000 movw %e0, %1 */
883 ID(mov); W(); DM(BC, IMMU(2)); SR(AX);
884
885 /** 1010 1101 movw %0, %1 */
886 ID(mov); W(); DR(AX); SM(None, SADDR);
887
888 /** 1010 1110 movw %0, %s1 */
889 ID(mov); W(); DR(AX); SM(None, SFR);
890
891 /** 11ra 1011 movw %0, %es!1 */
892 ID(mov); W(); DRW(ra); SM(None, IMMU(2));
893
894 /** 11ra 1010 movw %0, %1 */
895 ID(mov); W(); DRW(ra); SM(None, SADDR);
896
897 /** 1100 1001 movw %0, #%1 */
898 ID(mov); W(); DM(None, SADDR); SC(IMMU(2));
899
900 /** 1011 1101 movw %0, %1 */
901 ID(mov); W(); DM(None, SADDR); SR(AX);
902
903 /** 1100 1011 movw %s0, #%1 */
904 ID(mov); W(); DM(None, SFR); SC(IMMU(2));
905
906 /** 1011 1110 movw %s0, %1 */
907 ID(mov); W(); DM(None, SFR); SR(AX);
908
909 /*----------------------------------------------------------------------*/
910
911 /** 1101 0110 mulu x */
912 ID(mulu);
913
914 /*----------------------------------------------------------------------*/
915
916 /** 0000 0000 nop */
917 ID(nop);
918
919 /*----------------------------------------------------------------------*/
920
921 /** 0111 0001 1100 0000 not1 cy */
922 ID(xor); DCY(); SC(1);
923
924 /*----------------------------------------------------------------------*/
925
926 /** 1110 0101 oneb %e!0 */
927 ID(mov); DM(None, IMMU(2)); SC(1);
928
929 /** 1110 00rg oneb %0 */
930 ID(mov); DRB(rg); SC(1);
931
932 /** 1110 0100 oneb %0 */
933 ID(mov); DM(None, SADDR); SC(1);
934
935 /*----------------------------------------------------------------------*/
936
937 /** 1110 0110 onew %0 */
938 ID(mov); DR(AX); SC(1);
939
940 /** 1110 0111 onew %0 */
941 ID(mov); DR(BC); SC(1);
942
943 /*----------------------------------------------------------------------*/
944
945 /** 0110 1111 or %0, %e!1 */
946 ID(or); DR(A); SM(None, IMMU(2)); Fz;
947
948 /** 0110 1101 or %0, %e1 */
949 ID(or); DR(A); SM(HL, 0); Fz;
950
951 /** 0110 0001 1110 0000 or %0, %e1 */
952 ID(or); DR(A); SM2(HL, B, 0); Fz;
953
954 /** 0110 1110 or %0, %ea1 */
955 ID(or); DR(A); SM(HL, IMMU(1)); Fz;
956
957 /** 0110 0001 1110 0010 or %0, %e1 */
958 ID(or); DR(A); SM2(HL, C, 0); Fz;
959
960 /** 0110 1100 or %0, #%1 */
961 ID(or); DR(A); SC(IMMU(1)); Fz;
962
963 /** 0110 0001 0110 1rba or %0, %1 */
964 ID(or); DR(A); SRB(rba); Fz;
965
966 /** 0110 0001 0110 0reg or %0, %1 */
967 ID(or); DRB(reg); SR(A); Fz;
968
969 /** 0110 1011 or %0, %1 */
970 ID(or); DR(A); SM(None, SADDR); Fz;
971
972 /** 0110 1010 or %0, #%1 */
973 ID(or); DM(None, SADDR); SC(IMMU(1)); Fz;
974
975 /*----------------------------------------------------------------------*/
976
977 /** 0111 0001 1bit 0110 or1 cy, %e1 */
978 ID(or); DCY(); SM(HL, 0); SB(bit);
979
980 /** 0111 0001 1bit 1110 or1 cy, %1 */
981 ID(or); DCY(); SR(A); SB(bit);
982
983 /** 0111 0001 0bit 1110 or1 cy, %s1 */
984 ID(or); DCY(); SM(None, SFR); SB(bit);
985
986 /** 0111 0001 0bit 0110 or1 cy, %s1 */
987 ID(or); DCY(); SM(None, SADDR); SB(bit);
988
989 /*----------------------------------------------------------------------*/
990
991 /** 1100 0rg0 pop %0 */
992 ID(mov); W(); DRW(rg); SPOP();
993
994 /** 0110 0001 1100 1101 pop %s0 */
995 ID(mov); W(); DR(PSW); SPOP();
996
997 /*----------------------------------------------------------------------*/
998
999 /** 1100 0rg1 push %1 */
1000 ID(mov); W(); DPUSH(); SRW(rg);
1001
1002 /** 0110 0001 1101 1101 push %s1 */
1003 ID(mov); W(); DPUSH(); SR(PSW);
1004
1005 /*----------------------------------------------------------------------*/
1006
1007 /** 1101 0111 ret */
1008 ID(ret);
1009
1010 /** 0110 0001 1111 1100 reti */
1011 ID(reti);
1012
1013 /** 0110 0001 1110 1100 retb */
1014 ID(reti);
1015
1016 /*----------------------------------------------------------------------*/
1017
1018 /** 0110 0001 1110 1011 rol %0, %1 */
1019 ID(rol); DR(A); SC(1);
1020
1021 /** 0110 0001 1101 1100 rolc %0, %1 */
1022 ID(rolc); DR(A); SC(1);
1023
1024 /** 0110 0001 111r 1110 rolwc %0, %1 */
1025 ID(rolc); W(); DRW(r); SC(1);
1026
1027 /** 0110 0001 1101 1011 ror %0, %1 */
1028 ID(ror); DR(A); SC(1);
1029
1030 /** 0110 0001 1111 1011 rorc %0, %1 */
1031 ID(rorc); DR(A); SC(1);
1032
1033 /*----------------------------------------------------------------------*/
1034
1035 /* Note that the branch insns need to be listed before the shift
1036 ones, as "shift count of zero" means "branch insn" */
1037
1038 /** 0011 0001 0cnt 1011 sar %0, %1 */
1039 ID(sar); DR(A); SC(cnt);
1040
1041 /** 0011 0001 wcnt 1111 sarw %0, %1 */
1042 ID(sar); W(); DR(AX); SC(wcnt);
1043
1044 /*----------------------------------------------------------------------*/
1045
1046 /** 0110 0001 11rb 1111 sel rb%1 */
1047 ID(sel); SC(rb);
1048
1049 /*----------------------------------------------------------------------*/
1050
1051 /** 0111 0001 0bit 0000 set1 %e!0 */
1052 ID(mov); DM(None, IMMU(2)); DB(bit); SC(1);
1053
1054 /** 0111 0001 1bit 0010 set1 %e0 */
1055 ID(mov); DM(HL, 0); DB(bit); SC(1);
1056
1057 /** 0111 0001 1bit 1010 set1 %0 */
1058 ID(mov); DR(A); DB(bit); SC(1);
1059
1060 /** 0111 0001 1000 0000 set1 cy */
1061 ID(mov); DCY(); SC(1);
1062
1063 /** 0111 0001 0bit 1010 set1 %s0 */
1064 op0 = SFR;
1065 ID(mov); DM(None, op0); DB(bit); SC(1);
1066 if (op0 == RL78_SFR_PSW && bit == 7)
1067 rl78->syntax = "ei";
1068
1069 /** 0111 0001 0bit 0010 set1 %0 */
1070 ID(mov); DM(None, SADDR); DB(bit); SC(1);
1071
1072 /*----------------------------------------------------------------------*/
1073
1074 /** 0011 0001 0cnt 1001 shl %0, %1 */
1075 ID(shl); DR(A); SC(cnt);
1076
1077 /** 0011 0001 0cnt 1000 shl %0, %1 */
1078 ID(shl); DR(B); SC(cnt);
1079
1080 /** 0011 0001 0cnt 0111 shl %0, %1 */
1081 ID(shl); DR(C); SC(cnt);
1082
1083 /** 0011 0001 wcnt 1101 shlw %0, %1 */
1084 ID(shl); W(); DR(AX); SC(wcnt);
1085
1086 /** 0011 0001 wcnt 1100 shlw %0, %1 */
1087 ID(shl); W(); DR(BC); SC(wcnt);
1088
1089 /*----------------------------------------------------------------------*/
1090
1091 /** 0011 0001 0cnt 1010 shr %0, %1 */
1092 ID(shr); DR(A); SC(cnt);
1093
1094 /** 0011 0001 wcnt 1110 shrw %0, %1 */
1095 ID(shr); W(); DR(AX); SC(wcnt);
1096
1097 /*----------------------------------------------------------------------*/
1098
1099 /** 0110 0001 1100 1000 sk%c1 */
1100 ID(skip); COND(C);
1101
1102 /** 0110 0001 1110 0011 sk%c1 */
1103 ID(skip); COND(H);
1104
1105 /** 0110 0001 1101 1000 sk%c1 */
1106 ID(skip); COND(NC);
1107
1108 /** 0110 0001 1111 0011 sk%c1 */
1109 ID(skip); COND(NH);
1110
1111 /** 0110 0001 1111 1000 sk%c1 */
1112 ID(skip); COND(NZ);
1113
1114 /** 0110 0001 1110 1000 sk%c1 */
1115 ID(skip); COND(Z);
1116
1117 /*----------------------------------------------------------------------*/
1118
1119 /** 0110 0001 1111 1101 stop */
1120 ID(stop);
1121
1122 /*----------------------------------------------------------------------*/
1123
1124 /** 0010 1111 sub %0, %e!1 */
1125 ID(sub); DR(A); SM(None, IMMU(2)); Fzac;
1126
1127 /** 0010 1101 sub %0, %e1 */
1128 ID(sub); DR(A); SM(HL, 0); Fzac;
1129
1130 /** 0110 0001 1010 000 sub %0, %e1 */
1131 ID(sub); DR(A); SM2(HL, B, 0); Fzac;
1132
1133 /** 0010 1110 sub %0, %ea1 */
1134 ID(sub); DR(A); SM(HL, IMMU(1)); Fzac;
1135
1136 /** 0110 0001 1010 0010 sub %0, %e1 */
1137 ID(sub); DR(A); SM2(HL, C, 0); Fzac;
1138
1139 /** 0010 1100 sub %0, #%1 */
1140 ID(sub); DR(A); SC(IMMU(1)); Fzac;
1141
1142 /** 0110 0001 0010 1rba sub %0, %1 */
1143 ID(sub); DR(A); SRB(rba); Fzac;
1144
1145 /** 0010 1011 sub %0, %1 */
1146 ID(sub); DR(A); SM(None, SADDR); Fzac;
1147
1148 /** 0110 0001 0010 0reg sub %0, %1 */
1149 ID(sub); DRB(reg); SR(A); Fzac;
1150
1151 /** 0010 1010 sub %0, #%1 */
1152 ID(sub); DM(None, SADDR); SC(IMMU(1)); Fzac;
1153
1154 /*----------------------------------------------------------------------*/
1155
1156 /** 0011 1111 subc %0, %e!1 */
1157 ID(subc); DR(A); SM(None, IMMU(2)); Fzac;
1158
1159 /** 0011 1101 subc %0, %e1 */
1160 ID(subc); DR(A); SM(HL, 0); Fzac;
1161
1162 /** 0110 0001 1011 0000 subc %0, %e1 */
1163 ID(subc); DR(A); SM2(HL, B, 0); Fzac;
1164
1165 /** 0110 0001 1011 0010 subc %0, %e1 */
1166 ID(subc); DR(A); SM2(HL, C, 0); Fzac;
1167
1168 /** 0011 1110 subc %0, %ea1 */
1169 ID(subc); DR(A); SM(HL, IMMU(1)); Fzac;
1170
1171 /** 0011 1100 subc %0, #%1 */
1172 ID(subc); DR(A); SC(IMMU(1)); Fzac;
1173
1174 /** 0110 0001 0011 1rba subc %0, %1 */
1175 ID(subc); DR(A); SRB(rba); Fzac;
1176
1177 /** 0110 0001 0011 0reg subc %0, %1 */
1178 ID(subc); DRB(reg); SR(A); Fzac;
1179
1180 /** 0011 1011 subc %0, %1 */
1181 ID(subc); DR(A); SM(None, SADDR); Fzac;
1182
1183 /** 0011 1010 subc %0, #%1 */
1184 ID(subc); DM(None, SADDR); SC(IMMU(1)); Fzac;
1185
1186 /*----------------------------------------------------------------------*/
1187
1188 /** 0010 0010 subw %0, %e!1 */
1189 ID(sub); W(); DR(AX); SM(None, IMMU(2)); Fzac;
1190
1191 /** 0110 0001 0010 1001 subw %0, %ea1 */
1192 ID(sub); W(); DR(AX); SM(HL, IMMU(1)); Fzac;
1193
1194 /** 0010 0100 subw %0, #%1 */
1195 ID(sub); W(); DR(AX); SC(IMMU(2)); Fzac;
1196
1197 /** 0010 0rw1 subw %0, %1 */
1198 ID(sub); W(); DR(AX); SRW(rw); Fzac;
1199
1200 /** 0010 0110 subw %0, %1 */
1201 ID(sub); W(); DR(AX); SM(None, SADDR); Fzac;
1202
1203 /** 0010 0000 subw %0, #%1 */
1204 ID(sub); W(); DR(SP); SC(IMMU(1)); Fzac;
1205
1206 /*----------------------------------------------------------------------*/
1207
1208 /** 0110 0001 1010 1010 xch %0, %e!1 */
1209 ID(xch); DR(A); SM(None, IMMU(2));
1210
1211 /** 0110 0001 1010 1110 xch %0, %e1 */
1212 ID(xch); DR(A); SM(DE, 0);
1213
1214 /** 0110 0001 1010 1111 xch %0, %ea1 */
1215 ID(xch); DR(A); SM(DE, IMMU(1));
1216
1217 /** 0110 0001 1010 1100 xch %0, %e1 */
1218 ID(xch); DR(A); SM(HL, 0);
1219
1220 /** 0110 0001 1011 1001 xch %0, %e1 */
1221 ID(xch); DR(A); SM2(HL, B, 0);
1222
1223 /** 0110 0001 1010 1101 xch %0, %ea1 */
1224 ID(xch); DR(A); SM(HL, IMMU(1));
1225
1226 /** 0110 0001 1010 1001 xch %0, %e1 */
1227 ID(xch); DR(A); SM2(HL, C, 0);
1228
1229 /** 0110 0001 1000 1reg xch %0, %1 */
1230 /* Note: DECW uses reg == X, so this must follow DECW */
1231 ID(xch); DR(A); SRB(reg);
1232
1233 /** 0110 0001 1010 1000 xch %0, %1 */
1234 ID(xch); DR(A); SM(None, SADDR);
1235
1236 /** 0110 0001 1010 1011 xch %0, %s1 */
1237 ID(xch); DR(A); SM(None, SFR);
1238
1239 /** 0000 1000 xch a, x */
1240 ID(xch); DR(A); SR(X);
1241
1242 /*----------------------------------------------------------------------*/
1243
1244 /** 0011 0ra1 xchw %0, %1 */
1245 ID(xch); W(); DR(AX); SRW(ra);
1246
1247 /*----------------------------------------------------------------------*/
1248
1249 /** 0111 1111 xor %0, %e!1 */
1250 ID(xor); DR(A); SM(None, IMMU(2)); Fz;
1251
1252 /** 0111 1101 xor %0, %e1 */
1253 ID(xor); DR(A); SM(HL, 0); Fz;
1254
1255 /** 0110 0001 1111 0000 xor %0, %e1 */
1256 ID(xor); DR(A); SM2(HL, B, 0); Fz;
1257
1258 /** 0111 1110 xor %0, %ea1 */
1259 ID(xor); DR(A); SM(HL, IMMU(1)); Fz;
1260
1261 /** 0110 0001 1111 0010 xor %0, %e1 */
1262 ID(xor); DR(A); SM2(HL, C, 0); Fz;
1263
1264 /** 0111 1100 xor %0, #%1 */
1265 ID(xor); DR(A); SC(IMMU(1)); Fz;
1266
1267 /** 0110 0001 0111 1rba xor %0, %1 */
1268 ID(xor); DR(A); SRB(rba); Fz;
1269
1270 /** 0110 0001 0111 0reg xor %0, %1 */
1271 ID(xor); DRB(reg); SR(A); Fz;
1272
1273 /** 0111 1011 xor %0, %1 */
1274 ID(xor); DR(A); SM(None, SADDR); Fz;
1275
1276 /** 0111 1010 xor %0, #%1 */
1277 ID(xor); DM(None, SADDR); SC(IMMU(1)); Fz;
1278
1279 /*----------------------------------------------------------------------*/
1280
1281 /** 0111 0001 1bit 0111 xor1 cy, %e1 */
1282 ID(xor); DCY(); SM(HL, 0); SB(bit);
1283
1284 /** 0111 0001 1bit 1111 xor1 cy, %1 */
1285 ID(xor); DCY(); SR(A); SB(bit);
1286
1287 /** 0111 0001 0bit 1111 xor1 cy, %s1 */
1288 ID(xor); DCY(); SM(None, SFR); SB(bit);
1289
1290 /** 0111 0001 0bit 0111 xor1 cy, %s1 */
1291 ID(xor); DCY(); SM(None, SADDR); SB(bit);
1292
1293 /*----------------------------------------------------------------------*/
1294
1295 /** */
1296
1297 return rl78->n_bytes;
1298 }
This page took 0.057277 seconds and 4 git commands to generate.