OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [sim/] [cr16/] [simops.c] - Blame information for rev 857

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 227 jeremybenn
/* Simulation code for the CR16 processor.
2
   Copyright (C) 2008, 2009, 2010 Free Software Foundation, Inc.
3
   Contributed by M Ranga Swami Reddy <MR.Swami.Reddy@nsc.com>
4
 
5
   This file is part of GDB, the GNU debugger.
6
 
7
   This program 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.
11
 
12
   This program is distributed in the hope that it will be useful,
13
   but WITHOUT ANY WARRANTY; without even the implied warranty of
14
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15
   GNU General Public License for more details.
16
 
17
   You should have received a copy of the GNU General Public License
18
   along with this program. If not, see <http://www.gnu.org/licenses/>.  */
19
 
20
 
21
#include "config.h"
22
 
23
#include <signal.h>
24
#include <errno.h>
25
#include <sys/types.h>
26
#include <sys/stat.h>
27
#ifdef HAVE_UNISTD_H
28
#include <unistd.h>
29
#endif
30
#ifdef HAVE_STRING_H
31
#include <string.h>
32
#endif
33
 
34
#include "cr16_sim.h"
35
#include "simops.h"
36
#include "targ-vals.h"
37
 
38
extern char *strrchr ();
39
 
40
enum op_types {
41
  OP_VOID,
42
  OP_CONSTANT3,
43
  OP_UCONSTANT3,
44
  OP_CONSTANT4,
45
  OP_CONSTANT4_1,
46
  OP_CONSTANT5,
47
  OP_CONSTANT6,
48
  OP_CONSTANT16,
49
  OP_UCONSTANT16,
50
  OP_CONSTANT20,
51
  OP_UCONSTANT20,
52
  OP_CONSTANT32,
53
  OP_UCONSTANT32,
54
  OP_MEMREF,
55
  OP_MEMREF2,
56
  OP_MEMREF3,
57
 
58
  OP_DISP5,
59
  OP_DISP17,
60
  OP_DISP25,
61
  OP_DISPE9,
62
  //OP_ABS20,
63
  OP_ABS20_OUTPUT,
64
  //OP_ABS24,
65
  OP_ABS24_OUTPUT,
66
 
67
  OP_R_BASE_DISPS16,
68
  OP_R_BASE_DISP20,
69
  OP_R_BASE_DISPS20,
70
  OP_R_BASE_DISPE20,
71
 
72
  OP_RP_BASE_DISPE0,
73
  OP_RP_BASE_DISP4,
74
  OP_RP_BASE_DISPE4,
75
  OP_RP_BASE_DISP14,
76
  OP_RP_BASE_DISP16,
77
  OP_RP_BASE_DISP20,
78
  OP_RP_BASE_DISPS20,
79
  OP_RP_BASE_DISPE20,
80
 
81
  OP_R_INDEX7_ABS20,
82
  OP_R_INDEX8_ABS20,
83
 
84
  OP_RP_INDEX_DISP0,
85
  OP_RP_INDEX_DISP14,
86
  OP_RP_INDEX_DISP20,
87
  OP_RP_INDEX_DISPS20,
88
 
89
  OP_REG,
90
  OP_REGP,
91
  OP_PROC_REG,
92
  OP_PROC_REGP,
93
  OP_COND,
94
  OP_RA
95
};
96
 
97
 
98
enum {
99
  PSR_MASK = (PSR_I_BIT
100
              | PSR_P_BIT
101
              | PSR_E_BIT
102
              | PSR_N_BIT
103
              | PSR_Z_BIT
104
              | PSR_F_BIT
105
              | PSR_U_BIT
106
              | PSR_L_BIT
107
              | PSR_T_BIT
108
              | PSR_C_BIT),
109
  /* The following bits in the PSR _can't_ be set by instructions such
110
     as mvtc.  */
111
  PSR_HW_MASK = (PSR_MASK)
112
};
113
 
114
/* cond    Code Condition            True State
115
 * EQ      Equal                     Z flag is 1
116
 * NE      Not Equal                 Z flag is 0
117
 * CS      Carry Set                 C flag is 1
118
 * CC      Carry Clear               C flag is 0
119
 * HI      Higher                    L flag is 1
120
 * LS      Lower or Same             L flag is 0
121
 * GT      Greater Than              N flag is 1
122
 * LE      Less Than or Equal To     N flag is 0
123
 * FS      Flag Set                  F flag is 1
124
 * FC      Flag Clear                F flag is 0
125
 * LO      Lower                     Z and L flags are 0
126
 * HS      Higher or Same            Z or L flag is 1
127
 * LT      Less Than                 Z and N flags are 0
128
 * GE      Greater Than or Equal To  Z or N flag is 1.  */
129
 
130
int cond_stat(int cc)
131
{
132
  switch (cc)
133
    {
134
      case 0: return  PSR_Z; break;
135
      case 1: return !PSR_Z; break;
136
      case 2: return  PSR_C; break;
137
      case 3: return !PSR_C; break;
138
      case 4: return  PSR_L; break;
139
      case 5: return !PSR_L; break;
140
      case 6: return  PSR_N; break;
141
      case 7: return !PSR_N; break;
142
      case 8: return  PSR_F; break;
143
      case 9: return !PSR_F; break;
144
      case 10: return !PSR_Z && !PSR_L; break;
145
      case 11: return  PSR_Z ||  PSR_L; break;
146
      case 12: return !PSR_Z && !PSR_N; break;
147
      case 13: return  PSR_Z ||  PSR_N; break;
148
      case 14: return 1; break; /*ALWAYS.  */
149
      default:
150
     // case NEVER:  return false; break;
151
      //case NO_COND_CODE:
152
      //panic("Shouldn't have NO_COND_CODE in an actual instruction!");
153
      return 0; break;
154
     }
155
   return 0;
156
}
157
 
158
 
159
creg_t
160
move_to_cr (int cr, creg_t mask, creg_t val, int psw_hw_p)
161
{
162
  /* A MASK bit is set when the corresponding bit in the CR should
163
     be left alone.  */
164
  /* This assumes that (VAL & MASK) == 0.  */
165
  switch (cr)
166
    {
167
    case PSR_CR:
168
      if (psw_hw_p)
169
        val &= PSR_HW_MASK;
170
#if 0
171
      else
172
        val &= PSR_MASK;
173
              (*cr16_callback->printf_filtered)
174
                (cr16_callback,
175
                 "ERROR at PC 0x%x: ST can only be set when FX is set.\n", PC);
176
              State.exception = SIGILL;
177
#endif
178
      /* keep an up-to-date psw around for tracing.  */
179
      State.trace.psw = (State.trace.psw & mask) | val;
180
      break;
181
    default:
182
      break;
183
    }
184
  /* only issue an update if the register is being changed.  */
185
  if ((State.cregs[cr] & ~mask) != val)
186
   SLOT_PEND_MASK (State.cregs[cr], mask, val);
187
 
188
  return val;
189
}
190
 
191
#ifdef DEBUG
192
static void trace_input_func PARAMS ((char *name,
193
                                      enum op_types in1,
194
                                      enum op_types in2,
195
                                      enum op_types in3));
196
 
197
#define trace_input(name, in1, in2, in3) do { if (cr16_debug) trace_input_func (name, in1, in2, in3); } while (0)
198
 
199
#ifndef SIZE_INSTRUCTION
200
#define SIZE_INSTRUCTION 8
201
#endif
202
 
203
#ifndef SIZE_OPERANDS
204
#define SIZE_OPERANDS 18
205
#endif
206
 
207
#ifndef SIZE_VALUES
208
#define SIZE_VALUES 13
209
#endif
210
 
211
#ifndef SIZE_LOCATION
212
#define SIZE_LOCATION 20
213
#endif
214
 
215
#ifndef SIZE_PC
216
#define SIZE_PC 4
217
#endif
218
 
219
#ifndef SIZE_LINE_NUMBER
220
#define SIZE_LINE_NUMBER 2
221
#endif
222
 
223
static void
224
trace_input_func (name, in1, in2, in3)
225
     char *name;
226
     enum op_types in1;
227
     enum op_types in2;
228
     enum op_types in3;
229
{
230
  char *comma;
231
  enum op_types in[3];
232
  int i;
233
  char buf[1024];
234
  char *p;
235
  long tmp;
236
  char *type;
237
  const char *filename;
238
  const char *functionname;
239
  unsigned int linenumber;
240
  bfd_vma byte_pc;
241
 
242
  if ((cr16_debug & DEBUG_TRACE) == 0)
243
    return;
244
 
245
  switch (State.ins_type)
246
    {
247
    default:
248
    case INS_UNKNOWN:           type = " ?"; break;
249
    }
250
 
251
  if ((cr16_debug & DEBUG_LINE_NUMBER) == 0)
252
    (*cr16_callback->printf_filtered) (cr16_callback,
253
                                       "0x%.*x %s: %-*s ",
254
                                       SIZE_PC, (unsigned)PC,
255
                                       type,
256
                                       SIZE_INSTRUCTION, name);
257
 
258
  else
259
    {
260
      buf[0] = '\0';
261
      byte_pc = decode_pc ();
262
      if (text && byte_pc >= text_start && byte_pc < text_end)
263
        {
264
          filename = (const char *)0;
265
          functionname = (const char *)0;
266
          linenumber = 0;
267
          if (bfd_find_nearest_line (prog_bfd, text, (struct bfd_symbol **)0, byte_pc - text_start,
268
                                     &filename, &functionname, &linenumber))
269
            {
270
              p = buf;
271
              if (linenumber)
272
                {
273
                  sprintf (p, "#%-*d ", SIZE_LINE_NUMBER, linenumber);
274
                  p += strlen (p);
275
                }
276
              else
277
                {
278
                  sprintf (p, "%-*s ", SIZE_LINE_NUMBER+1, "---");
279
                  p += SIZE_LINE_NUMBER+2;
280
                }
281
 
282
              if (functionname)
283
                {
284
                  sprintf (p, "%s ", functionname);
285
                  p += strlen (p);
286
                }
287
              else if (filename)
288
                {
289
                  char *q = strrchr (filename, '/');
290
                  sprintf (p, "%s ", (q) ? q+1 : filename);
291
                  p += strlen (p);
292
                }
293
 
294
              if (*p == ' ')
295
                *p = '\0';
296
            }
297
        }
298
 
299
      (*cr16_callback->printf_filtered) (cr16_callback,
300
                                         "0x%.*x %s: %-*.*s %-*s ",
301
                                         SIZE_PC, (unsigned)PC,
302
                                         type,
303
                                         SIZE_LOCATION, SIZE_LOCATION, buf,
304
                                         SIZE_INSTRUCTION, name);
305
    }
306
 
307
  in[0] = in1;
308
  in[1] = in2;
309
  in[2] = in3;
310
  comma = "";
311
  p = buf;
312
  for (i = 0; i < 3; i++)
313
    {
314
      switch (in[i])
315
        {
316
        case OP_VOID:
317
          break;
318
 
319
        case OP_REG:
320
        case OP_REGP:
321
          sprintf (p, "%sr%d", comma, OP[i]);
322
          p += strlen (p);
323
          comma = ",";
324
          break;
325
 
326
        case OP_PROC_REG:
327
          sprintf (p, "%scr%d", comma, OP[i]);
328
          p += strlen (p);
329
          comma = ",";
330
          break;
331
 
332
        case OP_CONSTANT16:
333
          sprintf (p, "%s%d", comma, OP[i]);
334
          p += strlen (p);
335
          comma = ",";
336
          break;
337
 
338
        case OP_CONSTANT4:
339
          sprintf (p, "%s%d", comma, SEXT4(OP[i]));
340
          p += strlen (p);
341
          comma = ",";
342
          break;
343
 
344
        case OP_CONSTANT3:
345
          sprintf (p, "%s%d", comma, SEXT3(OP[i]));
346
          p += strlen (p);
347
          comma = ",";
348
          break;
349
 
350
        case OP_MEMREF:
351
          sprintf (p, "%s@r%d", comma, OP[i]);
352
          p += strlen (p);
353
          comma = ",";
354
          break;
355
 
356
        case OP_MEMREF2:
357
          sprintf (p, "%s@(%d,r%d)", comma, (int16)OP[i], OP[i+1]);
358
          p += strlen (p);
359
          comma = ",";
360
          break;
361
 
362
        case OP_MEMREF3:
363
          sprintf (p, "%s@%d", comma, OP[i]);
364
          p += strlen (p);
365
          comma = ",";
366
          break;
367
        }
368
    }
369
 
370
  if ((cr16_debug & DEBUG_VALUES) == 0)
371
    {
372
      *p++ = '\n';
373
      *p = '\0';
374
      (*cr16_callback->printf_filtered) (cr16_callback, "%s", buf);
375
    }
376
  else
377
    {
378
      *p = '\0';
379
      (*cr16_callback->printf_filtered) (cr16_callback, "%-*s", SIZE_OPERANDS, buf);
380
 
381
      p = buf;
382
      for (i = 0; i < 3; i++)
383
        {
384
          buf[0] = '\0';
385
          switch (in[i])
386
            {
387
            case OP_VOID:
388
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s", SIZE_VALUES, "");
389
              break;
390
 
391
            case OP_REG:
392
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
393
                                                 (uint16) GPR (OP[i]));
394
              break;
395
 
396
            case OP_REGP:
397
              tmp = (long)((((uint32) GPR (OP[i])) << 16) | ((uint32) GPR (OP[i] + 1)));
398
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.8lx", SIZE_VALUES-10, "", tmp);
399
              break;
400
 
401
            case OP_PROC_REG:
402
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
403
                                                 (uint16) CREG (OP[i]));
404
              break;
405
 
406
            case OP_CONSTANT16:
407
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
408
                                                 (uint16)OP[i]);
409
              break;
410
 
411
            case OP_CONSTANT4:
412
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
413
                                                 (uint16)SEXT4(OP[i]));
414
              break;
415
 
416
            case OP_CONSTANT3:
417
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
418
                                                 (uint16)SEXT3(OP[i]));
419
              break;
420
 
421
            case OP_MEMREF2:
422
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
423
                                                 (uint16)OP[i]);
424
              (*cr16_callback->printf_filtered) (cr16_callback, "%*s0x%.4x", SIZE_VALUES-6, "",
425
                                                 (uint16)GPR (OP[i + 1]));
426
              i++;
427
              break;
428
            }
429
        }
430
    }
431
 
432
  (*cr16_callback->flush_stdout) (cr16_callback);
433
}
434
 
435
static void
436
do_trace_output_flush (void)
437
{
438
  (*cr16_callback->flush_stdout) (cr16_callback);
439
}
440
 
441
static void
442
do_trace_output_finish (void)
443
{
444
  (*cr16_callback->printf_filtered) (cr16_callback,
445
                                     " F0=%d F1=%d C=%d\n",
446
                                     (State.trace.psw & PSR_F_BIT) != 0,
447
                                     (State.trace.psw & PSR_F_BIT) != 0,
448
                                     (State.trace.psw & PSR_C_BIT) != 0);
449
  (*cr16_callback->flush_stdout) (cr16_callback);
450
}
451
 
452
static void
453
trace_output_40 (uint64 val)
454
{
455
  if ((cr16_debug & (DEBUG_TRACE | DEBUG_VALUES)) == (DEBUG_TRACE | DEBUG_VALUES))
456
    {
457
      (*cr16_callback->printf_filtered) (cr16_callback,
458
                                         " :: %*s0x%.2x%.8lx",
459
                                         SIZE_VALUES - 12,
460
                                         "",
461
                                         ((int)(val >> 32) & 0xff),
462
                                         ((unsigned long) val) & 0xffffffff);
463
      do_trace_output_finish ();
464
    }
465
}
466
 
467
static void
468
trace_output_32 (uint32 val)
469
{
470
  if ((cr16_debug & (DEBUG_TRACE | DEBUG_VALUES)) == (DEBUG_TRACE | DEBUG_VALUES))
471
    {
472
      (*cr16_callback->printf_filtered) (cr16_callback,
473
                                         " :: %*s0x%.8x",
474
                                         SIZE_VALUES - 10,
475
                                         "",
476
                                         (int) val);
477
      do_trace_output_finish ();
478
    }
479
}
480
 
481
static void
482
trace_output_16 (uint16 val)
483
{
484
  if ((cr16_debug & (DEBUG_TRACE | DEBUG_VALUES)) == (DEBUG_TRACE | DEBUG_VALUES))
485
    {
486
      (*cr16_callback->printf_filtered) (cr16_callback,
487
                                         " :: %*s0x%.4x",
488
                                         SIZE_VALUES - 6,
489
                                         "",
490
                                         (int) val);
491
      do_trace_output_finish ();
492
    }
493
}
494
 
495
static void
496
trace_output_void ()
497
{
498
  if ((cr16_debug & (DEBUG_TRACE | DEBUG_VALUES)) == (DEBUG_TRACE | DEBUG_VALUES))
499
    {
500
      (*cr16_callback->printf_filtered) (cr16_callback, "\n");
501
      do_trace_output_flush ();
502
    }
503
}
504
 
505
static void
506
trace_output_flag ()
507
{
508
  if ((cr16_debug & (DEBUG_TRACE | DEBUG_VALUES)) == (DEBUG_TRACE | DEBUG_VALUES))
509
    {
510
      (*cr16_callback->printf_filtered) (cr16_callback,
511
                                         " :: %*s",
512
                                         SIZE_VALUES,
513
                                         "");
514
      do_trace_output_finish ();
515
    }
516
}
517
 
518
 
519
 
520
 
521
#else
522
#define trace_input(NAME, IN1, IN2, IN3)
523
#define trace_output(RESULT)
524
#endif
525
 
526
/* addub.  */
527
void
528
OP_2C_8 ()
529
{
530
  uint8 tmp;
531
  uint8 a = OP[0] & 0xff;
532
  uint16 b = (GPR (OP[1])) & 0xff;
533
  trace_input ("addub", OP_CONSTANT4_1, OP_REG, OP_VOID);
534
  tmp = (a + b) & 0xff;
535
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
536
  trace_output_16 (tmp);
537
}
538
 
539
/* addub.  */
540
void
541
OP_2CB_C ()
542
{
543
  uint16 tmp;
544
  uint8 a = ((OP[0]) & 0xff), b = (GPR (OP[1])) & 0xff;
545
  trace_input ("addub", OP_CONSTANT16, OP_REG, OP_VOID);
546
  tmp = (a + b) & 0xff;
547
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
548
  trace_output_16 (tmp);
549
}
550
 
551
/* addub.  */
552
void
553
OP_2D_8 ()
554
{
555
  uint8 a = (GPR (OP[0])) & 0xff;
556
  uint8 b = (GPR (OP[1])) & 0xff;
557
  uint16 tmp = (a + b) & 0xff;
558
  trace_input ("addub", OP_REG, OP_REG, OP_VOID);
559
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
560
  trace_output_16 (tmp);
561
}
562
 
563
/* adduw.  */
564
void
565
OP_2E_8 ()
566
{
567
  uint16 a = OP[0];
568
  uint16 b = GPR (OP[1]);
569
  uint16 tmp = (a + b);
570
  trace_input ("adduw", OP_CONSTANT4_1, OP_REG, OP_VOID);
571
  SET_GPR (OP[1], tmp);
572
  trace_output_16 (tmp);
573
}
574
 
575
/* adduw.  */
576
void
577
OP_2EB_C ()
578
{
579
  uint16 a = OP[0];
580
  uint16 b = GPR (OP[1]);
581
  uint16 tmp = (a + b);
582
  trace_input ("adduw", OP_CONSTANT16, OP_REG, OP_VOID);
583
  SET_GPR (OP[1], tmp);
584
  trace_output_16 (tmp);
585
}
586
 
587
/* adduw.  */
588
void
589
OP_2F_8 ()
590
{
591
  uint16 a = GPR (OP[0]);
592
  uint16 b = GPR (OP[1]);
593
  uint16 tmp = (a + b);
594
  trace_input ("adduw", OP_REG, OP_REG, OP_VOID);
595
  SET_GPR (OP[1], tmp);
596
  trace_output_16 (tmp);
597
}
598
 
599
/* addb.  */
600
void
601
OP_30_8 ()
602
{
603
  uint8 a = OP[0];
604
  uint8 b = (GPR (OP[1]) & 0xff);
605
  trace_input ("addb", OP_CONSTANT4_1, OP_REG, OP_VOID);
606
  uint16 tmp = (a + b) & 0xff;
607
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
608
  SET_PSR_C (tmp > 0xFF);
609
  SET_PSR_F (((a & 0x80) == (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
610
  trace_output_16 (tmp);
611
}
612
 
613
/* addb.  */
614
void
615
OP_30B_C ()
616
{
617
  uint8 a = (OP[0]) & 0xff;
618
  uint8 b = (GPR (OP[1]) & 0xff);
619
  trace_input ("addb", OP_CONSTANT16, OP_REG, OP_VOID);
620
  uint16 tmp = (a + b) & 0xff;
621
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
622
  SET_PSR_C (tmp > 0xFF);
623
  SET_PSR_F (((a & 0x80) == (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
624
  trace_output_16 (tmp);
625
}
626
 
627
/* addb.  */
628
void
629
OP_31_8 ()
630
{
631
  uint8 a = (GPR (OP[0]) & 0xff);
632
  uint8 b = (GPR (OP[1]) & 0xff);
633
  trace_input ("addb", OP_REG, OP_REG, OP_VOID);
634
  uint16 tmp = (a + b) & 0xff;
635
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
636
  SET_PSR_C (tmp > 0xFF);
637
  SET_PSR_F (((a & 0x80) == (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
638
  trace_output_16 (tmp);
639
}
640
 
641
/* addw.  */
642
void
643
OP_32_8 ()
644
{
645
  int16 a = OP[0];
646
  uint16 tmp, b = GPR (OP[1]);
647
  trace_input ("addw", OP_CONSTANT4_1, OP_REG, OP_VOID);
648
  tmp = (a + b);
649
  SET_GPR (OP[1], tmp);
650
  SET_PSR_C (tmp > 0xFFFF);
651
  SET_PSR_F (((a & 0x8000) == (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
652
  trace_output_16 (tmp);
653
}
654
 
655
/* addw.  */
656
void
657
OP_32B_C ()
658
{
659
  int16 a = OP[0];
660
  uint16 tmp, b = GPR (OP[1]);
661
  tmp = (a + b);
662
  trace_input ("addw", OP_CONSTANT16, OP_REG, OP_VOID);
663
  SET_GPR (OP[1], tmp);
664
  SET_PSR_C (tmp > 0xFFFF);
665
  SET_PSR_F (((a & 0x8000) == (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
666
  trace_output_16 (tmp);
667
}
668
 
669
/* addw.  */
670
void
671
OP_33_8 ()
672
{
673
  uint16 tmp, a = (GPR (OP[0])), b = (GPR (OP[1]));
674
  trace_input ("addw", OP_REG, OP_REG, OP_VOID);
675
  tmp = (a + b);
676
  SET_GPR (OP[1], tmp);
677
  SET_PSR_C (tmp > 0xFFFF);
678
  SET_PSR_F (((a & 0x8000) == (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
679
  trace_output_16 (tmp);
680
}
681
 
682
/* addcb.  */
683
void
684
OP_34_8 ()
685
{
686
  uint8 tmp, a = OP[0] & 0xff, b = (GPR (OP[1])) & 0xff;
687
  trace_input ("addcb", OP_CONSTANT4_1, OP_REG, OP_REG);
688
  tmp = (a + b + PSR_C) & 0xff;
689
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
690
  SET_PSR_C (tmp > 0xFF);
691
  SET_PSR_F (((a & 0x80) == (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
692
  trace_output_16 (tmp);
693
}
694
 
695
/* addcb.  */
696
void
697
OP_34B_C ()
698
{
699
  int8 a = OP[0] & 0xff;
700
  uint8 b = (GPR (OP[1])) & 0xff;
701
  trace_input ("addcb", OP_CONSTANT16, OP_REG, OP_VOID);
702
  uint8 tmp = (a + b + PSR_C) & 0xff;
703
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
704
  SET_PSR_C (tmp > 0xFF);
705
  SET_PSR_F (((a & 0x80) == (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
706
  trace_output_16 (tmp);
707
}
708
 
709
/* addcb.  */
710
void
711
OP_35_8 ()
712
{
713
  uint8 a = (GPR (OP[0])) & 0xff;
714
  uint8 b = (GPR (OP[1])) & 0xff;
715
  trace_input ("addcb", OP_REG, OP_REG, OP_VOID);
716
  uint8 tmp = (a + b + PSR_C) & 0xff;
717
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
718
  SET_PSR_C (tmp > 0xFF);
719
  SET_PSR_F (((a & 0x80) == (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
720
  trace_output_16 (tmp);
721
}
722
 
723
/* addcw.  */
724
void
725
OP_36_8 ()
726
{
727
  uint16 a = OP[0];
728
  uint16 b = GPR (OP[1]);
729
  trace_input ("addcw", OP_CONSTANT4_1, OP_REG, OP_VOID);
730
  uint16 tmp = (a + b + PSR_C);
731
  SET_GPR (OP[1], tmp);
732
  SET_PSR_C (tmp > 0xFFFF);
733
  SET_PSR_F (((a & 0x8000) == (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
734
  trace_output_16 (tmp);
735
}
736
 
737
/* addcw.  */
738
void
739
OP_36B_C ()
740
{
741
  int16 a = OP[0];
742
  uint16 b = GPR (OP[1]);
743
  trace_input ("addcw", OP_CONSTANT16, OP_REG, OP_VOID);
744
  uint16 tmp = (a + b + PSR_C);
745
  SET_GPR (OP[1], tmp);
746
  SET_PSR_C (tmp > 0xFFFF);
747
  SET_PSR_F (((a & 0x8000) == (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
748
  trace_output_16 (tmp);
749
}
750
 
751
/* addcw.  */
752
void
753
OP_37_8 ()
754
{
755
  uint16 a = GPR (OP[1]);
756
  uint16 b = GPR (OP[1]);
757
  trace_input ("addcw", OP_REG, OP_REG, OP_VOID);
758
  uint16 tmp = (a + b + PSR_C);
759
  SET_GPR (OP[1], tmp);
760
  SET_PSR_C (tmp > 0xFFFF);
761
  SET_PSR_F (((a & 0x8000) == (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
762
  trace_output_16 (tmp);
763
}
764
 
765
/* addd.  */
766
void
767
OP_60_8 ()
768
{
769
  int16 a = (OP[0]);
770
  uint32 b = GPR32 (OP[1]);
771
  trace_input ("addd", OP_CONSTANT4_1, OP_REGP, OP_VOID);
772
  uint32 tmp = (a + b);
773
  SET_GPR32 (OP[1], tmp);
774
  SET_PSR_C (tmp > 0xFFFFFFFF);
775
  SET_PSR_F (((a & 0x80000000) == (b & 0x80000000)) && ((b & 0x80000000) != (tmp & 0x80000000)));
776
  trace_output_32 (tmp);
777
}
778
 
779
/* addd.  */
780
void
781
OP_60B_C ()
782
{
783
  int32 a = (SEXT16(OP[0]));
784
  uint32 b = GPR32 (OP[1]);
785
  trace_input ("addd", OP_CONSTANT16, OP_REGP, OP_VOID);
786
  uint32 tmp = (a + b);
787
  SET_GPR32 (OP[1], tmp);
788
  SET_PSR_C (tmp > 0xFFFFFFFF);
789
  SET_PSR_F (((a & 0x80000000) == (b & 0x80000000)) && ((b & 0x80000000) != (tmp & 0x80000000)));
790
  trace_output_32 (tmp);
791
}
792
 
793
/* addd.  */
794
void
795
OP_61_8 ()
796
{
797
  uint32 a = GPR32 (OP[0]);
798
  uint32 b = GPR32 (OP[1]);
799
  trace_input ("addd", OP_REGP, OP_REGP, OP_VOID);
800
  uint32 tmp = (a + b);
801
  SET_GPR32 (OP[1], tmp);
802
  trace_output_32 (tmp);
803
  SET_PSR_C (tmp > 0xFFFFFFFF);
804
  SET_PSR_F (((a & 0x80000000) == (b & 0x80000000)) && ((b & 0x80000000) != (tmp & 0x80000000)));
805
}
806
 
807
/* addd.  */
808
void
809
OP_4_8 ()
810
{
811
  uint32 a = OP[0];
812
  uint32 b = GPR32 (OP[1]);
813
  uint32 tmp;
814
  trace_input ("addd", OP_CONSTANT20, OP_REGP, OP_VOID);
815
  tmp = (a + b);
816
  SET_GPR32 (OP[1], tmp);
817
  SET_PSR_C (tmp > 0xFFFFFFFF);
818
  SET_PSR_F (((a & 0x80000000) == (b & 0x80000000)) && ((b & 0x80000000) != (tmp & 0x80000000)));
819
  trace_output_32 (tmp);
820
}
821
 
822
/* addd.  */
823
void
824
OP_2_C ()
825
{
826
  int32 a = OP[0];
827
  uint32 b = GPR32 (OP[1]);
828
  uint32 tmp;
829
  trace_input ("addd", OP_CONSTANT32, OP_REGP, OP_VOID);
830
  tmp = (a + b);
831
  SET_GPR32 (OP[1], tmp);
832
  SET_PSR_C (tmp > 0xFFFFFFFF);
833
  SET_PSR_F (((a & 0x80000000) == (b & 0x80000000)) && ((b & 0x80000000) != (tmp & 0x80000000)));
834
  trace_output_32 (tmp);
835
}
836
 
837
/* andb.  */
838
void
839
OP_20_8 ()
840
{
841
  uint8 tmp, a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
842
  trace_input ("andb", OP_CONSTANT4, OP_REG, OP_VOID);
843
  tmp = a & b;
844
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
845
  trace_output_16 (tmp);
846
}
847
 
848
/* andb.  */
849
void
850
OP_20B_C ()
851
{
852
  uint8 tmp, a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
853
  trace_input ("andb", OP_CONSTANT16, OP_REG, OP_VOID);
854
  tmp = a & b;
855
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
856
  trace_output_16 (tmp);
857
}
858
 
859
/* andb.  */
860
void
861
OP_21_8 ()
862
{
863
  uint8 tmp, a = (GPR (OP[0])) & 0xff, b = (GPR (OP[1])) & 0xff;
864
  trace_input ("andb", OP_REG, OP_REG, OP_VOID);
865
  tmp = a & b;
866
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
867
  trace_output_16 (tmp);
868
}
869
 
870
/* andw.  */
871
void
872
OP_22_8 ()
873
{
874
  uint16 tmp, a = OP[0], b = GPR (OP[1]);
875
  trace_input ("andw", OP_CONSTANT4, OP_REG, OP_VOID);
876
  tmp = a & b;
877
  SET_GPR (OP[1], tmp);
878
  trace_output_16 (tmp);
879
}
880
 
881
/* andw.  */
882
void
883
OP_22B_C ()
884
{
885
  uint16 tmp, a = OP[0], b = GPR (OP[1]);
886
  trace_input ("andw", OP_CONSTANT16, OP_REG, OP_VOID);
887
  tmp = a & b;
888
  SET_GPR (OP[1], tmp);
889
  trace_output_16 (tmp);
890
}
891
 
892
/* andw.  */
893
void
894
OP_23_8 ()
895
{
896
  uint16 tmp, a = GPR (OP[0]), b = GPR (OP[1]);
897
  trace_input ("andw", OP_REG, OP_REG, OP_VOID);
898
  tmp = a & b;
899
  SET_GPR (OP[1], tmp);
900
  trace_output_16 (tmp);
901
}
902
 
903
/* andd.  */
904
void
905
OP_4_C ()
906
{
907
  uint32 tmp, a = OP[0],  b = GPR32 (OP[1]);
908
  trace_input ("andd", OP_CONSTANT32, OP_REGP, OP_VOID);
909
  tmp = a & b;
910
  SET_GPR32 (OP[1], tmp);
911
  trace_output_32 (tmp);
912
}
913
 
914
/* andd.  */
915
void
916
OP_14B_14 ()
917
{
918
  uint32 tmp, a = (GPR32 (OP[0])), b = (GPR32 (OP[1]));
919
  trace_input ("andd", OP_REGP, OP_REGP, OP_VOID);
920
  tmp = a & b;
921
  SET_GPR32 (OP[1], tmp);
922
  trace_output_32 (tmp);
923
}
924
 
925
/* ord.  */
926
void
927
OP_5_C ()
928
{
929
  uint32 tmp, a = (OP[0]), b = GPR32 (OP[1]);
930
  trace_input ("ord", OP_CONSTANT32, OP_REG, OP_VOID);
931
  tmp = a | b;
932
  SET_GPR32 (OP[1], tmp);
933
  trace_output_32 (tmp);
934
}
935
 
936
/* ord.  */
937
void
938
OP_149_14 ()
939
{
940
  uint32 tmp, a = GPR32 (OP[0]), b = GPR32 (OP[1]);
941
  trace_input ("ord", OP_REGP, OP_REGP, OP_VOID);
942
  tmp = a | b;
943
  SET_GPR32 (OP[1], tmp);
944
  trace_output_32 (tmp);
945
}
946
 
947
/* xord.  */
948
void
949
OP_6_C ()
950
{
951
  uint32 tmp, a = (OP[0]), b = GPR32 (OP[1]);
952
  trace_input ("xord", OP_CONSTANT32, OP_REG, OP_VOID);
953
  tmp = a ^ b;
954
  SET_GPR32 (OP[1], tmp);
955
  trace_output_32 (tmp);
956
}
957
 
958
/* xord.  */
959
void
960
OP_14A_14 ()
961
{
962
  uint32 tmp, a = GPR32 (OP[0]), b = GPR32 (OP[1]);
963
  trace_input ("xord", OP_REGP, OP_REGP, OP_VOID);
964
  tmp = a ^ b;
965
  SET_GPR32 (OP[1], tmp);
966
  trace_output_32 (tmp);
967
}
968
 
969
 
970
/* b.  */
971
void
972
OP_1_4 ()
973
{
974
  uint32 tmp, cc = cond_stat (OP[0]);
975
  trace_input ("b", OP_CONSTANT4, OP_DISPE9, OP_VOID);
976
  if  (cc)
977
    {
978
      if (sign_flag)
979
        tmp =  (PC - (OP[1]));
980
      else
981
        tmp =  (PC + (OP[1]));
982
      /* If the resulting PC value is less than 0x00_0000 or greater
983
         than 0xFF_FFFF, this instruction causes an IAD trap.*/
984
 
985
      if ((tmp < 0x000000) || (tmp > 0xFFFFFF))
986
        {
987
          State.exception = SIG_CR16_BUS;
988
          State.pc_changed = 1; /* Don't increment the PC. */
989
          trace_output_void ();
990
          return;
991
        }
992
      else
993
        JMP (tmp);
994
    }
995
  sign_flag = 0; /* Reset sign_flag.  */
996
  trace_output_32 (tmp);
997
}
998
 
999
/* b.  */
1000
void
1001
OP_18_8 ()
1002
{
1003
  uint32 tmp, cc = cond_stat (OP[0]);
1004
  trace_input ("b", OP_CONSTANT4, OP_DISP17, OP_VOID);
1005
  if (cc)
1006
    {
1007
      if (sign_flag)
1008
        tmp =  (PC - OP[1]);
1009
      else
1010
        tmp =  (PC + OP[1]);
1011
      /* If the resulting PC value is less than 0x00_0000 or greater
1012
         than 0xFF_FFFF, this instruction causes an IAD trap.*/
1013
 
1014
      if ((tmp < 0x000000) || (tmp > 0xFFFFFF))
1015
        {
1016
          State.exception = SIG_CR16_BUS;
1017
          State.pc_changed = 1; /* Don't increment the PC. */
1018
          trace_output_void ();
1019
          return;
1020
        }
1021
      else
1022
        JMP (tmp);
1023
    }
1024
  sign_flag = 0; /* Reset sign_flag.  */
1025
  trace_output_32 (tmp);
1026
}
1027
 
1028
/* b.  */
1029
void
1030
OP_10_10 ()
1031
{
1032
  uint32 tmp, cc = cond_stat (OP[0]);
1033
  trace_input ("b", OP_CONSTANT4, OP_DISP25, OP_VOID);
1034
  if (cc)
1035
    {
1036
      if (sign_flag)
1037
        tmp =  (PC - (OP[1]));
1038
      else
1039
        tmp =  (PC + (OP[1]));
1040
      /* If the resulting PC value is less than 0x00_0000 or greater
1041
         than 0xFF_FFFF, this instruction causes an IAD trap.*/
1042
 
1043
      if ((tmp < 0x000000) || (tmp > 0xFFFFFF))
1044
        {
1045
          State.exception = SIG_CR16_BUS;
1046
          State.pc_changed = 1; /* Don't increment the PC. */
1047
          trace_output_void ();
1048
          return;
1049
        }
1050
      else
1051
        JMP (tmp);
1052
    }
1053
  sign_flag = 0; /* Reset sign_flag.  */
1054
  trace_output_32 (tmp);
1055
}
1056
 
1057
/* bal.  */
1058
void
1059
OP_C0_8 ()
1060
{
1061
  uint32 tmp;
1062
  trace_input ("bal", OP_REG, OP_DISP17, OP_VOID);
1063
  tmp =  ((PC + 4) >> 1); /* Store PC in RA register. */
1064
  SET_GPR32 (14, tmp);
1065
  if (sign_flag)
1066
    tmp =  (PC - (OP[1]));
1067
  else
1068
    tmp =  (PC + (OP[1]));
1069
 
1070
  /* If the resulting PC value is less than 0x00_0000 or greater
1071
     than 0xFF_FFFF, this instruction causes an IAD trap.  */
1072
 
1073
  if ((tmp < 0x000000) || (tmp > 0xFFFFFF))
1074
    {
1075
      State.exception = SIG_CR16_BUS;
1076
      State.pc_changed = 1; /* Don't increment the PC. */
1077
      trace_output_void ();
1078
      return;
1079
    }
1080
  else
1081
    JMP (tmp);
1082
  sign_flag = 0; /* Reset sign_flag.  */
1083
  trace_output_32 (tmp);
1084
}
1085
 
1086
 
1087
/* bal.  */
1088
void
1089
OP_102_14 ()
1090
{
1091
  uint32 tmp;
1092
  trace_input ("bal", OP_REGP, OP_DISP25, OP_VOID);
1093
  tmp = (((PC) + 4) >> 1); /* Store PC in reg pair.  */
1094
  SET_GPR32 (OP[0], tmp);
1095
  if (sign_flag)
1096
    tmp =  ((PC) - (OP[1]));
1097
  else
1098
    tmp =  ((PC) + (OP[1]));
1099
  /* If the resulting PC value is less than 0x00_0000 or greater
1100
     than 0xFF_FFFF, this instruction causes an IAD trap.*/
1101
 
1102
  if ((tmp < 0x000000) || (tmp > 0xFFFFFF))
1103
    {
1104
      State.exception = SIG_CR16_BUS;
1105
      State.pc_changed = 1; /* Don't increment the PC. */
1106
      trace_output_void ();
1107
      return;
1108
    }
1109
  else
1110
    JMP (tmp);
1111
  sign_flag = 0; /* Reset sign_flag.  */
1112
  trace_output_32 (tmp);
1113
}
1114
 
1115
/* jal.  */
1116
void
1117
OP_148_14 ()
1118
{
1119
  uint32 tmp;
1120
  trace_input ("jal", OP_REGP, OP_REGP, OP_VOID);
1121
  SET_GPR32 (OP[0], (((PC) + 4) >> 1)); /* Store next PC in RA */
1122
  tmp = GPR32 (OP[1]);
1123
  tmp = SEXT24(tmp << 1);
1124
  /* If the resulting PC value is less than 0x00_0000 or greater
1125
     than 0xFF_FFFF, this instruction causes an IAD trap.*/
1126
 
1127
  if ((tmp < 0x0) || (tmp > 0xFFFFFF))
1128
    {
1129
      State.exception = SIG_CR16_BUS;
1130
      State.pc_changed = 1; /* Don't increment the PC. */
1131
      trace_output_void ();
1132
      return;
1133
    }
1134
  else
1135
    JMP (tmp);
1136
 
1137
  trace_output_32 (tmp);
1138
}
1139
 
1140
 
1141
/* jal.  */
1142
void
1143
OP_D_C ()
1144
{
1145
  uint32 tmp;
1146
  trace_input ("jal", OP_REGP, OP_VOID, OP_VOID);
1147
  SET_GPR32 (14, (((PC) + 2) >> 1)); /* Store next PC in RA */
1148
  tmp = GPR32 (OP[0]);
1149
  tmp = SEXT24(tmp << 1);
1150
  /* If the resulting PC value is less than 0x00_0000 or greater
1151
     than 0xFF_FFFF, this instruction causes an IAD trap.*/
1152
 
1153
  if ((tmp < 0x0) || (tmp > 0xFFFFFF))
1154
    {
1155
      State.exception = SIG_CR16_BUS;
1156
      State.pc_changed = 1; /* Don't increment the PC. */
1157
      trace_output_void ();
1158
      return;
1159
    }
1160
  else
1161
    JMP (tmp);
1162
 
1163
  trace_output_32 (tmp);
1164
}
1165
 
1166
 
1167
/* beq0b.  */
1168
void
1169
OP_C_8 ()
1170
{
1171
  uint32 addr;
1172
  uint8 a = (GPR (OP[0]) & 0xFF);
1173
  trace_input ("beq0b", OP_REG, OP_DISP5, OP_VOID);
1174
  addr = OP[1];
1175
  if (a == 0)
1176
  {
1177
    if (sign_flag)
1178
      addr = (PC - OP[1]);
1179
    else
1180
      addr = (PC + OP[1]);
1181
 
1182
    JMP (addr);
1183
  }
1184
  sign_flag = 0; /* Reset sign_flag.  */
1185
  trace_output_void ();
1186
}
1187
 
1188
/* bne0b.  */
1189
void
1190
OP_D_8 ()
1191
{
1192
  uint32 addr;
1193
  uint8 a = (GPR (OP[0]) & 0xFF);
1194
  trace_input ("bne0b", OP_REG, OP_DISP5, OP_VOID);
1195
  addr = OP[1];
1196
  if (a != 0)
1197
  {
1198
    if (sign_flag)
1199
      addr = (PC - OP[1]);
1200
    else
1201
      addr = (PC + OP[1]);
1202
 
1203
    JMP (addr);
1204
  }
1205
  sign_flag = 0; /* Reset sign_flag.  */
1206
  trace_output_void ();
1207
}
1208
 
1209
/* beq0w.  */
1210
void
1211
OP_E_8()
1212
{
1213
  uint32 addr;
1214
  uint16 a = GPR (OP[0]);
1215
  trace_input ("beq0w", OP_REG, OP_DISP5, OP_VOID);
1216
  addr = OP[1];
1217
  if (a == 0)
1218
  {
1219
    if (sign_flag)
1220
      addr = (PC - OP[1]);
1221
    else
1222
      addr = (PC + OP[1]);
1223
 
1224
    JMP (addr);
1225
  }
1226
  sign_flag = 0; /* Reset sign_flag.  */
1227
  trace_output_void ();
1228
}
1229
 
1230
/* bne0w.  */
1231
void
1232
OP_F_8 ()
1233
{
1234
  uint32 addr;
1235
  uint16 a = GPR (OP[0]);
1236
  trace_input ("bne0w", OP_REG, OP_DISP5, OP_VOID);
1237
  addr = OP[1];
1238
  if (a != 0)
1239
  {
1240
    if (sign_flag)
1241
      addr = (PC - OP[1]);
1242
    else
1243
      addr = (PC + OP[1]);
1244
 
1245
    JMP (addr);
1246
  }
1247
  sign_flag = 0; /* Reset sign_flag.  */
1248
  trace_output_void ();
1249
}
1250
 
1251
 
1252
/* jeq.  */
1253
void
1254
OP_A0_C ()
1255
{
1256
  uint32 tmp;
1257
  trace_input ("jeq", OP_REGP, OP_VOID, OP_VOID);
1258
  if ((PSR_Z) == 1)
1259
  {
1260
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits.  */
1261
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit. */
1262
  }
1263
  trace_output_32 (tmp);
1264
}
1265
 
1266
/* jne.  */
1267
void
1268
OP_A1_C ()
1269
{
1270
  uint32 tmp;
1271
  trace_input ("jne", OP_REGP, OP_VOID, OP_VOID);
1272
  if ((PSR_Z) == 0)
1273
  {
1274
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits.  */
1275
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit. */
1276
  }
1277
  trace_output_32 (tmp);
1278
}
1279
 
1280
/* jcs.  */
1281
void
1282
OP_A2_C ()
1283
{
1284
  uint32 tmp;
1285
  trace_input ("jcs", OP_REGP, OP_VOID, OP_VOID);
1286
  if ((PSR_C) == 1)
1287
  {
1288
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1289
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1290
  }
1291
  trace_output_32 (tmp);
1292
}
1293
 
1294
/* jcc.  */
1295
void
1296
OP_A3_C ()
1297
{
1298
  uint32 tmp;
1299
  trace_input ("jcc", OP_REGP, OP_VOID, OP_VOID);
1300
  if ((PSR_C) == 0)
1301
  {
1302
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1303
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1304
  }
1305
  trace_output_32 (tmp);
1306
}
1307
 
1308
/* jhi.  */
1309
void
1310
OP_A4_C ()
1311
{
1312
  uint32 tmp;
1313
  trace_input ("jhi", OP_REGP, OP_VOID, OP_VOID);
1314
  if ((PSR_L) == 1)
1315
  {
1316
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1317
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1318
  }
1319
  trace_output_32 (tmp);
1320
}
1321
 
1322
/* jls.  */
1323
void
1324
OP_A5_C ()
1325
{
1326
  uint32 tmp;
1327
  trace_input ("jls", OP_REGP, OP_VOID, OP_VOID);
1328
  if ((PSR_L) == 0)
1329
  {
1330
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1331
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1332
  }
1333
  trace_output_32 (tmp);
1334
}
1335
 
1336
/* jgt.  */
1337
void
1338
OP_A6_C ()
1339
{
1340
  uint32 tmp;
1341
  trace_input ("jgt", OP_REGP, OP_VOID, OP_VOID);
1342
  if ((PSR_N) == 1)
1343
  {
1344
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1345
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1346
  }
1347
  trace_output_32 (tmp);
1348
}
1349
 
1350
/* jle.  */
1351
void
1352
OP_A7_C ()
1353
{
1354
  uint32 tmp;
1355
  trace_input ("jle", OP_REGP, OP_VOID, OP_VOID);
1356
  if ((PSR_N) == 0)
1357
  {
1358
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1359
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1360
  }
1361
  trace_output_32 (tmp);
1362
}
1363
 
1364
 
1365
/* jfs.  */
1366
void
1367
OP_A8_C ()
1368
{
1369
  uint32 tmp;
1370
  trace_input ("jfs", OP_REGP, OP_VOID, OP_VOID);
1371
  if ((PSR_F) == 1)
1372
  {
1373
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1374
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1375
  }
1376
  trace_output_32 (tmp);
1377
}
1378
 
1379
/* jfc.  */
1380
void
1381
OP_A9_C ()
1382
{
1383
  uint32 tmp;
1384
  trace_input ("jfc", OP_REGP, OP_VOID, OP_VOID);
1385
  if ((PSR_F) == 0)
1386
  {
1387
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1388
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1389
  }
1390
  trace_output_32 (tmp);
1391
}
1392
 
1393
/* jlo.  */
1394
void
1395
OP_AA_C ()
1396
{
1397
  uint32 tmp;
1398
  trace_input ("jlo", OP_REGP, OP_VOID, OP_VOID);
1399
  if (((PSR_Z) == 0) & ((PSR_L) == 0))
1400
  {
1401
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1402
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1403
  }
1404
  trace_output_32 (tmp);
1405
}
1406
 
1407
/* jhs.  */
1408
void
1409
OP_AB_C ()
1410
{
1411
  uint32 tmp;
1412
  trace_input ("jhs", OP_REGP, OP_VOID, OP_VOID);
1413
  if (((PSR_Z) == 1) | ((PSR_L) == 1))
1414
  {
1415
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1416
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1417
  }
1418
  trace_output_32 (tmp);
1419
}
1420
 
1421
/* jlt.  */
1422
void
1423
OP_AC_C ()
1424
{
1425
  uint32 tmp;
1426
  trace_input ("jlt", OP_REGP, OP_VOID, OP_VOID);
1427
  if (((PSR_Z) == 0) & ((PSR_N) == 0))
1428
  {
1429
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1430
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1431
  }
1432
  trace_output_32 (tmp);
1433
}
1434
 
1435
/* jge.  */
1436
void
1437
OP_AD_C ()
1438
{
1439
  uint32 tmp;
1440
  trace_input ("jge", OP_REGP, OP_VOID, OP_VOID);
1441
  if (((PSR_Z) == 1) | ((PSR_N) == 1))
1442
  {
1443
     tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1444
     JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1445
  }
1446
  trace_output_32 (tmp);
1447
}
1448
 
1449
/* jump.  */
1450
void
1451
OP_AE_C ()
1452
{
1453
  uint32 tmp;
1454
  trace_input ("jump", OP_REGP, OP_VOID, OP_VOID);
1455
  tmp = GPR32 (OP[0]) /*& 0x3fffff*/; /* Use only 0 - 22 bits */
1456
  JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1457
  trace_output_32 (tmp);
1458
}
1459
 
1460
/* jusr.  */
1461
void
1462
OP_AF_C ()
1463
{
1464
  uint32 tmp;
1465
  trace_input ("jusr", OP_REGP, OP_VOID, OP_VOID);
1466
  tmp = (GPR32 (OP[0])) & 0x3fffff; /* Use only 0 - 22 bits */
1467
  JMP (tmp << 1); /* Set PC's 1 - 23 bits and clear 0th bit*/
1468
  SET_PSR_U(1);
1469
  trace_output_32 (tmp);
1470
}
1471
 
1472
/* seq.  */
1473
void
1474
OP_80_C ()
1475
{
1476
  trace_input ("seq", OP_REG, OP_VOID, OP_VOID);
1477
  if ((PSR_Z) == 1)
1478
     SET_GPR (OP[0], 1);
1479
  else
1480
     SET_GPR (OP[0], 0);
1481
  trace_output_void ();
1482
}
1483
/* sne.  */
1484
void
1485
OP_81_C ()
1486
{
1487
  trace_input ("sne", OP_REG, OP_VOID, OP_VOID);
1488
  if ((PSR_Z) == 0)
1489
     SET_GPR (OP[0], 1);
1490
  else
1491
     SET_GPR (OP[0], 0);
1492
  trace_output_void ();
1493
}
1494
 
1495
/* scs.  */
1496
void
1497
OP_82_C ()
1498
{
1499
  trace_input ("scs", OP_REG, OP_VOID, OP_VOID);
1500
  if ((PSR_C) == 1)
1501
     SET_GPR (OP[0], 1);
1502
  else
1503
     SET_GPR (OP[0], 0);
1504
  trace_output_void ();
1505
}
1506
 
1507
/* scc.  */
1508
void
1509
OP_83_C ()
1510
{
1511
  trace_input ("scc", OP_REG, OP_VOID, OP_VOID);
1512
  if ((PSR_C) == 0)
1513
     SET_GPR (OP[0], 1);
1514
  else
1515
     SET_GPR (OP[0], 0);
1516
  trace_output_void ();
1517
}
1518
 
1519
/* shi.  */
1520
void
1521
OP_84_C ()
1522
{
1523
  trace_input ("shi", OP_REG, OP_VOID, OP_VOID);
1524
  if ((PSR_L) == 1)
1525
     SET_GPR (OP[0], 1);
1526
  else
1527
     SET_GPR (OP[0], 0);
1528
  trace_output_void ();
1529
}
1530
 
1531
/* sls.  */
1532
void
1533
OP_85_C ()
1534
{
1535
  trace_input ("sls", OP_REG, OP_VOID, OP_VOID);
1536
  if ((PSR_L) == 0)
1537
     SET_GPR (OP[0], 1);
1538
  else
1539
     SET_GPR (OP[0], 0);
1540
  trace_output_void ();
1541
}
1542
 
1543
/* sgt.  */
1544
void
1545
OP_86_C ()
1546
{
1547
  trace_input ("sgt", OP_REG, OP_VOID, OP_VOID);
1548
  if ((PSR_N) == 1)
1549
     SET_GPR (OP[0], 1);
1550
  else
1551
     SET_GPR (OP[0], 0);
1552
  trace_output_void ();
1553
}
1554
 
1555
/* sle.  */
1556
void
1557
OP_87_C ()
1558
{
1559
  trace_input ("sle", OP_REG, OP_VOID, OP_VOID);
1560
  if ((PSR_N) == 0)
1561
     SET_GPR (OP[0], 1);
1562
  else
1563
     SET_GPR (OP[0], 0);
1564
  trace_output_void ();
1565
}
1566
 
1567
/* sfs.  */
1568
void
1569
OP_88_C ()
1570
{
1571
  trace_input ("sfs", OP_REG, OP_VOID, OP_VOID);
1572
  if ((PSR_F) == 1)
1573
     SET_GPR (OP[0], 1);
1574
  else
1575
     SET_GPR (OP[0], 0);
1576
  trace_output_void ();
1577
}
1578
 
1579
/* sfc.  */
1580
void
1581
OP_89_C ()
1582
{
1583
  trace_input ("sfc", OP_REG, OP_VOID, OP_VOID);
1584
  if ((PSR_F) == 0)
1585
     SET_GPR (OP[0], 1);
1586
  else
1587
     SET_GPR (OP[0], 0);
1588
  trace_output_void ();
1589
}
1590
 
1591
 
1592
/* slo.  */
1593
void
1594
OP_8A_C ()
1595
{
1596
  trace_input ("slo", OP_REG, OP_VOID, OP_VOID);
1597
  if (((PSR_Z) == 0) & ((PSR_L) == 0))
1598
     SET_GPR (OP[0], 1);
1599
  else
1600
     SET_GPR (OP[0], 0);
1601
  trace_output_void ();
1602
}
1603
 
1604
/* shs.  */
1605
void
1606
OP_8B_C ()
1607
{
1608
  trace_input ("shs", OP_REG, OP_VOID, OP_VOID);
1609
  if ( ((PSR_Z) == 1) | ((PSR_L) == 1))
1610
     SET_GPR (OP[0], 1);
1611
  else
1612
     SET_GPR (OP[0], 0);
1613
  trace_output_void ();
1614
}
1615
 
1616
/* slt.  */
1617
void
1618
OP_8C_C ()
1619
{
1620
  trace_input ("slt", OP_REG, OP_VOID, OP_VOID);
1621
  if (((PSR_Z) == 0) & ((PSR_N) == 0))
1622
     SET_GPR (OP[0], 1);
1623
  else
1624
     SET_GPR (OP[0], 0);
1625
  trace_output_void ();
1626
}
1627
 
1628
/* sge.  */
1629
void
1630
OP_8D_C ()
1631
{
1632
  trace_input ("sge", OP_REG, OP_VOID, OP_VOID);
1633
  if (((PSR_Z) == 1) | ((PSR_N) == 1))
1634
     SET_GPR (OP[0], 1);
1635
  else
1636
     SET_GPR (OP[0], 0);
1637
  trace_output_void ();
1638
}
1639
 
1640
/* cbitb.  */
1641
void
1642
OP_D7_9 ()
1643
{
1644
  uint8 a = OP[0] & 0xff;
1645
  uint32 addr = OP[1], tmp;
1646
  trace_input ("cbitb", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
1647
  tmp = RB (addr);
1648
  SET_PSR_F (tmp & (1 << a));
1649
  tmp = tmp & ~(1 << a);
1650
  SB (addr, tmp);
1651
  trace_output_32 (tmp);
1652
}
1653
 
1654
/* cbitb.  */
1655
void
1656
OP_107_14 ()
1657
{
1658
  uint8 a = OP[0] & 0xff;
1659
  uint32 addr = OP[1], tmp;
1660
  trace_input ("cbitb", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
1661
  tmp = RB (addr);
1662
  SET_PSR_F (tmp & (1 << a));
1663
  tmp = tmp & ~(1 << a);
1664
  SB (addr, tmp);
1665
  trace_output_32 (tmp);
1666
}
1667
 
1668
/* cbitb.  */
1669
void
1670
OP_68_8 ()
1671
{
1672
  uint8 a = (OP[0]) & 0xff;
1673
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
1674
  trace_input ("cbitb", OP_CONSTANT4, OP_R_INDEX7_ABS20, OP_VOID);
1675
  tmp = RB (addr);
1676
  SET_PSR_F (tmp & (1 << a));
1677
  tmp = tmp & ~(1 << a);
1678
  SB (addr, tmp);
1679
  trace_output_32 (addr);
1680
}
1681
 
1682
/* cbitb.  */
1683
void
1684
OP_1AA_A ()
1685
{
1686
  uint8 a = (OP[0]) & 0xff;
1687
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1688
  trace_input ("cbitb", OP_CONSTANT4, OP_RP_INDEX_DISP14, OP_VOID);
1689
  tmp = RB (addr);
1690
  SET_PSR_F (tmp & (1 << a));
1691
  tmp = tmp & ~(1 << a);
1692
  SB (addr, tmp);
1693
  trace_output_32 (addr);
1694
}
1695
 
1696
/* cbitb.  */
1697
void
1698
OP_104_14 ()
1699
{
1700
  uint8 a = (OP[0]) & 0xff;
1701
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
1702
  trace_input ("cbitb", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
1703
  tmp = RB (addr);
1704
  SET_PSR_F (tmp & (1 << a));
1705
  tmp = tmp & ~(1 << a);
1706
  SB (addr, tmp);
1707
  trace_output_32 (addr);
1708
}
1709
 
1710
/* cbitb.  */
1711
void
1712
OP_D4_9 ()
1713
{
1714
  uint8 a = (OP[0]) & 0xff;
1715
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1716
  trace_input ("cbitb", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
1717
  tmp = RB (addr);
1718
  SET_PSR_F (tmp & (1 << a));
1719
  tmp = tmp & ~(1 << a);
1720
  SB (addr, tmp);
1721
  trace_output_32 (addr);
1722
}
1723
 
1724
/* cbitb.  */
1725
void
1726
OP_D6_9 ()
1727
{
1728
  uint8 a = (OP[0]) & 0xff;
1729
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1730
  trace_input ("cbitb", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
1731
  tmp = RB (addr);
1732
  SET_PSR_F (tmp & (1 << a));
1733
  tmp = tmp & ~(1 << a);
1734
  SB (addr, tmp);
1735
  trace_output_32 (addr);
1736
 
1737
}
1738
 
1739
/* cbitb.  */
1740
void
1741
OP_105_14 ()
1742
{
1743
  uint8 a = (OP[0]) & 0xff;
1744
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1745
  trace_input ("cbitb", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
1746
  tmp = RB (addr);
1747
  SET_PSR_F (tmp & (1 << a));
1748
  tmp = tmp & ~(1 << a);
1749
  SB (addr, tmp);
1750
  trace_output_32 (addr);
1751
}
1752
 
1753
/* cbitb.  */
1754
void
1755
OP_106_14 ()
1756
{
1757
  uint8 a = (OP[0]) & 0xff;
1758
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1759
  trace_input ("cbitb", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
1760
  tmp = RB (addr);
1761
  SET_PSR_F (tmp & (1 << a));
1762
  tmp = tmp & ~(1 << a);
1763
  SB (addr, tmp);
1764
  trace_output_32 (addr);
1765
}
1766
 
1767
 
1768
/* cbitw.  */
1769
void
1770
OP_6F_8 ()
1771
{
1772
  uint16 a = OP[0];
1773
  uint32 addr = OP[1], tmp;
1774
  trace_input ("cbitw", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
1775
  tmp = RW (addr);
1776
  SET_PSR_F (tmp & (1 << a));
1777
  tmp = tmp & ~(1 << a);
1778
  SW (addr, tmp);
1779
  trace_output_32 (tmp);
1780
}
1781
 
1782
/* cbitw.  */
1783
void
1784
OP_117_14 ()
1785
{
1786
  uint16 a = OP[0];
1787
  uint32 addr = OP[1], tmp;
1788
  trace_input ("cbitw", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
1789
  tmp = RW (addr);
1790
  SET_PSR_F (tmp & (1 << a));
1791
  tmp = tmp & ~(1 << a);
1792
  SW (addr, tmp);
1793
  trace_output_32 (tmp);
1794
}
1795
 
1796
/* cbitw.  */
1797
void
1798
OP_36_7 ()
1799
{
1800
  uint32 addr;
1801
  uint16 a = (OP[0]), tmp;
1802
  trace_input ("cbitw", OP_CONSTANT4, OP_R_INDEX8_ABS20, OP_VOID);
1803
 
1804
  if (OP[1] == 0)
1805
     addr = (GPR32 (12)) + OP[2];
1806
  else
1807
     addr = (GPR32 (13)) + OP[2];
1808
 
1809
  tmp = RW (addr);
1810
  SET_PSR_F (tmp & (1 << a));
1811
  tmp = tmp & ~(1 << a);
1812
  SW (addr, tmp);
1813
  trace_output_32 (addr);
1814
 
1815
}
1816
 
1817
/* cbitw.  */
1818
void
1819
OP_1AB_A ()
1820
{
1821
  uint16 a = (OP[0]);
1822
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1823
  trace_input ("cbitw", OP_CONSTANT4, OP_RP_INDEX_DISP14, OP_VOID);
1824
  tmp = RW (addr);
1825
  SET_PSR_F (tmp & (1 << a));
1826
  tmp = tmp & ~(1 << a);
1827
  SW (addr, tmp);
1828
  trace_output_32 (addr);
1829
}
1830
 
1831
/* cbitw.  */
1832
void
1833
OP_114_14 ()
1834
{
1835
  uint16 a = (OP[0]);
1836
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
1837
  trace_input ("cbitw", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
1838
  tmp = RW (addr);
1839
  SET_PSR_F (tmp & (1 << a));
1840
  tmp = tmp & ~(1 << a);
1841
  SW (addr, tmp);
1842
  trace_output_32 (addr);
1843
}
1844
 
1845
 
1846
/* cbitw.  */
1847
void
1848
OP_6E_8 ()
1849
{
1850
  uint16 a = (OP[0]);
1851
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1852
  trace_input ("cbitw", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
1853
  tmp = RW (addr);
1854
  SET_PSR_F (tmp & (1 << a));
1855
  tmp = tmp & ~(1 << a);
1856
  SW (addr, tmp);
1857
  trace_output_32 (addr);
1858
}
1859
 
1860
/* cbitw.  */
1861
void
1862
OP_69_8 ()
1863
{
1864
  uint16 a = (OP[0]);
1865
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1866
  trace_input ("cbitw", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
1867
  tmp = RW (addr);
1868
  SET_PSR_F (tmp & (1 << a));
1869
  tmp = tmp & ~(1 << a);
1870
  SW (addr, tmp);
1871
  trace_output_32 (addr);
1872
}
1873
 
1874
 
1875
/* cbitw.  */
1876
void
1877
OP_115_14 ()
1878
{
1879
  uint16 a = (OP[0]);
1880
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1881
  trace_input ("cbitw", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
1882
  tmp = RW (addr);
1883
  SET_PSR_F (tmp & (1 << a));
1884
  tmp = tmp & ~(1 << a);
1885
  SW (addr, tmp);
1886
  trace_output_32 (addr);
1887
}
1888
 
1889
/* cbitw.  */
1890
void
1891
OP_116_14 ()
1892
{
1893
  uint16 a = (OP[0]);
1894
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1895
  trace_input ("cbitw", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
1896
  tmp = RW (addr);
1897
  SET_PSR_F (tmp & (1 << a));
1898
  tmp = tmp & ~(1 << a);
1899
  SW (addr, tmp);
1900
  trace_output_32 (addr);
1901
}
1902
 
1903
/* sbitb.  */
1904
void
1905
OP_E7_9 ()
1906
{
1907
  uint8 a = OP[0] & 0xff;
1908
  uint32 addr = OP[1], tmp;
1909
  trace_input ("sbitb", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
1910
  tmp = RB (addr);
1911
  SET_PSR_F (tmp & (1 << a));
1912
  tmp = tmp | (1 << a);
1913
  SB (addr, tmp);
1914
  trace_output_32 (tmp);
1915
}
1916
 
1917
/* sbitb.  */
1918
void
1919
OP_10B_14 ()
1920
{
1921
  uint8 a = OP[0] & 0xff;
1922
  uint32 addr = OP[1], tmp;
1923
  trace_input ("sbitb", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
1924
  tmp = RB (addr);
1925
  SET_PSR_F (tmp & (1 << a));
1926
  tmp = tmp | (1 << a);
1927
  SB (addr, tmp);
1928
  trace_output_32 (tmp);
1929
}
1930
 
1931
/* sbitb.  */
1932
void
1933
OP_70_8 ()
1934
{
1935
  uint8 a = OP[0] & 0xff;
1936
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
1937
  trace_input ("sbitb", OP_CONSTANT4, OP_R_INDEX7_ABS20, OP_VOID);
1938
  tmp = RB (addr);
1939
  SET_PSR_F (tmp & (1 << a));
1940
  tmp = tmp | (1 << a);
1941
  SB (addr, tmp);
1942
  trace_output_32 (tmp);
1943
}
1944
 
1945
/* sbitb.  */
1946
void
1947
OP_1CA_A ()
1948
{
1949
  uint8 a = OP[0] & 0xff;
1950
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1951
  trace_input ("sbitb", OP_CONSTANT4, OP_RP_INDEX_DISP14, OP_VOID);
1952
  tmp = RB (addr);
1953
  SET_PSR_F (tmp & (1 << a));
1954
  tmp = tmp | (1 << a);
1955
  SB (addr, tmp);
1956
  trace_output_32 (tmp);
1957
}
1958
 
1959
/* sbitb.  */
1960
void
1961
OP_108_14 ()
1962
{
1963
  uint8 a = OP[0] & 0xff;
1964
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
1965
  trace_input ("sbitb", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
1966
  tmp = RB (addr);
1967
  SET_PSR_F (tmp & (1 << a));
1968
  tmp = tmp | (1 << a);
1969
  SB (addr, tmp);
1970
  trace_output_32 (tmp);
1971
}
1972
 
1973
 
1974
/* sbitb.  */
1975
void
1976
OP_E4_9 ()
1977
{
1978
  uint8 a = OP[0] & 0xff;
1979
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1980
  trace_input ("sbitb", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
1981
  tmp = RB (addr);
1982
  SET_PSR_F (tmp & (1 << a));
1983
  tmp = tmp | (1 << a);
1984
  SB (addr, tmp);
1985
  trace_output_32 (tmp);
1986
}
1987
 
1988
/* sbitb.  */
1989
void
1990
OP_E6_9 ()
1991
{
1992
  uint8 a = OP[0] & 0xff;
1993
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
1994
  trace_input ("sbitb", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
1995
  tmp = RB (addr);
1996
  SET_PSR_F (tmp & (1 << a));
1997
  tmp = tmp | (1 << a);
1998
  SB (addr, tmp);
1999
  trace_output_32 (tmp);
2000
}
2001
 
2002
 
2003
/* sbitb.  */
2004
void
2005
OP_109_14 ()
2006
{
2007
  uint8 a = OP[0] & 0xff;
2008
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2009
  trace_input ("sbitb", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
2010
  tmp = RB (addr);
2011
  SET_PSR_F (tmp & (1 << a));
2012
  tmp = tmp | (1 << a);
2013
  SB (addr, tmp);
2014
  trace_output_32 (tmp);
2015
}
2016
 
2017
 
2018
/* sbitb.  */
2019
void
2020
OP_10A_14 ()
2021
{
2022
  uint8 a = OP[0] & 0xff;
2023
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2024
  trace_input ("sbitb", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
2025
  tmp = RB (addr);
2026
  SET_PSR_F (tmp & (1 << a));
2027
  tmp = tmp | (1 << a);
2028
  SB (addr, tmp);
2029
  trace_output_32 (tmp);
2030
}
2031
 
2032
 
2033
/* sbitw.  */
2034
void
2035
OP_77_8 ()
2036
{
2037
  uint16 a = OP[0];
2038
  uint32 addr = OP[1], tmp;
2039
  trace_input ("sbitw", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
2040
  tmp = RW (addr);
2041
  SET_PSR_F (tmp & (1 << a));
2042
  tmp = tmp | (1 << a);
2043
  SW (addr, tmp);
2044
  trace_output_32 (tmp);
2045
}
2046
 
2047
/* sbitw.  */
2048
void
2049
OP_11B_14 ()
2050
{
2051
  uint16 a = OP[0];
2052
  uint32 addr = OP[1], tmp;
2053
  trace_input ("sbitw", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
2054
  tmp = RW (addr);
2055
  SET_PSR_F (tmp & (1 << a));
2056
  tmp = tmp | (1 << a);
2057
  SW (addr, tmp);
2058
  trace_output_32 (tmp);
2059
}
2060
 
2061
/* sbitw.  */
2062
void
2063
OP_3A_7 ()
2064
{
2065
  uint32 addr;
2066
  uint16 a = (OP[0]), tmp;
2067
  trace_input ("sbitw", OP_CONSTANT4, OP_R_INDEX8_ABS20, OP_VOID);
2068
 
2069
  if (OP[1] == 0)
2070
     addr = (GPR32 (12)) + OP[2];
2071
  else
2072
     addr = (GPR32 (13)) + OP[2];
2073
 
2074
  tmp = RW (addr);
2075
  SET_PSR_F (tmp & (1 << a));
2076
  tmp = tmp | (1 << a);
2077
  SW (addr, tmp);
2078
  trace_output_32 (addr);
2079
}
2080
 
2081
/* sbitw.  */
2082
void
2083
OP_1CB_A ()
2084
{
2085
  uint16 a = (OP[0]);
2086
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2087
  trace_input ("sbitw", OP_CONSTANT4, OP_RP_INDEX_DISP14, OP_VOID);
2088
  tmp = RW (addr);
2089
  SET_PSR_F (tmp & (1 << a));
2090
  tmp = tmp | (1 << a);
2091
  SW (addr, tmp);
2092
  trace_output_32 (addr);
2093
}
2094
 
2095
/* sbitw.  */
2096
void
2097
OP_118_14 ()
2098
{
2099
  uint16 a = (OP[0]);
2100
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
2101
  trace_input ("sbitw", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
2102
  tmp = RW (addr);
2103
  SET_PSR_F (tmp & (1 << a));
2104
  tmp = tmp | (1 << a);
2105
  SW (addr, tmp);
2106
  trace_output_32 (addr);
2107
}
2108
 
2109
/* sbitw.  */
2110
void
2111
OP_76_8 ()
2112
{
2113
  uint16 a = (OP[0]);
2114
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2115
  trace_input ("sbitw", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
2116
  tmp = RW (addr);
2117
  SET_PSR_F (tmp & (1 << a));
2118
  tmp = tmp | (1 << a);
2119
  SW (addr, tmp);
2120
  trace_output_32 (addr);
2121
}
2122
 
2123
/* sbitw.  */
2124
void
2125
OP_71_8 ()
2126
{
2127
  uint16 a = (OP[0]);
2128
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2129
  trace_input ("sbitw", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
2130
  tmp = RW (addr);
2131
  SET_PSR_F (tmp & (1 << a));
2132
  tmp = tmp | (1 << a);
2133
  SW (addr, tmp);
2134
  trace_output_32 (addr);
2135
}
2136
 
2137
/* sbitw.  */
2138
void
2139
OP_119_14 ()
2140
{
2141
  uint16 a = (OP[0]);
2142
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2143
  trace_input ("sbitw", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
2144
  tmp = RW (addr);
2145
  SET_PSR_F (tmp & (1 << a));
2146
  tmp = tmp | (1 << a);
2147
  SW (addr, tmp);
2148
  trace_output_32 (addr);
2149
}
2150
 
2151
/* sbitw.  */
2152
void
2153
OP_11A_14 ()
2154
{
2155
  uint16 a = (OP[0]);
2156
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2157
  trace_input ("sbitw", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
2158
  tmp = RW (addr);
2159
  SET_PSR_F (tmp & (1 << a));
2160
  tmp = tmp | (1 << a);
2161
  SW (addr, tmp);
2162
  trace_output_32 (addr);
2163
}
2164
 
2165
 
2166
/* tbitb.  */
2167
void
2168
OP_F7_9 ()
2169
{
2170
  uint8 a = OP[0] & 0xff;
2171
  uint32 addr = OP[1], tmp;
2172
  trace_input ("tbitb", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
2173
  tmp = RB (addr);
2174
  SET_PSR_F (tmp & (1 << a));
2175
  trace_output_32 (tmp);
2176
}
2177
 
2178
/* tbitb.  */
2179
void
2180
OP_10F_14 ()
2181
{
2182
  uint8 a = OP[0] & 0xff;
2183
  uint32 addr = OP[1], tmp;
2184
  trace_input ("tbitb", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
2185
  tmp = RB (addr);
2186
  SET_PSR_F (tmp & (1 << a));
2187
  trace_output_32 (tmp);
2188
}
2189
 
2190
/* tbitb.  */
2191
void
2192
OP_78_8 ()
2193
{
2194
  uint8 a = (OP[0]) & 0xff;
2195
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
2196
  trace_input ("tbitb", OP_CONSTANT4, OP_R_INDEX7_ABS20, OP_VOID);
2197
  tmp = RB (addr);
2198
  SET_PSR_F (tmp & (1 << a));
2199
  trace_output_32 (addr);
2200
}
2201
 
2202
/* tbitb.  */
2203
void
2204
OP_1EA_A ()
2205
{
2206
  uint8 a = (OP[0]) & 0xff;
2207
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2208
  trace_input ("tbitb", OP_CONSTANT4, OP_RP_INDEX_DISP14, OP_VOID);
2209
  tmp = RB (addr);
2210
  SET_PSR_F (tmp & (1 << a));
2211
  trace_output_32 (addr);
2212
}
2213
 
2214
/* tbitb.  */
2215
void
2216
OP_10C_14 ()
2217
{
2218
  uint8 a = (OP[0]) & 0xff;
2219
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
2220
  trace_input ("tbitb", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
2221
  tmp = RB (addr);
2222
  SET_PSR_F (tmp & (1 << a));
2223
  trace_output_32 (addr);
2224
}
2225
 
2226
/* tbitb.  */
2227
void
2228
OP_F4_9 ()
2229
{
2230
  uint8 a = (OP[0]) & 0xff;
2231
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2232
  trace_input ("tbitb", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
2233
  tmp = RB (addr);
2234
  SET_PSR_F (tmp & (1 << a));
2235
  trace_output_32 (addr);
2236
}
2237
 
2238
/* tbitb.  */
2239
void
2240
OP_F6_9 ()
2241
{
2242
  uint8 a = (OP[0]) & 0xff;
2243
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2244
  trace_input ("tbitb", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
2245
  tmp = RB (addr);
2246
  SET_PSR_F (tmp & (1 << a));
2247
  trace_output_32 (addr);
2248
}
2249
 
2250
/* tbitb.  */
2251
void
2252
OP_10D_14 ()
2253
{
2254
  uint8 a = (OP[0]) & 0xff;
2255
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2256
  trace_input ("tbitb", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
2257
  tmp = RB (addr);
2258
  SET_PSR_F (tmp & (1 << a));
2259
  trace_output_32 (addr);
2260
}
2261
 
2262
/* tbitb.  */
2263
void
2264
OP_10E_14 ()
2265
{
2266
  uint8 a = (OP[0]) & 0xff;
2267
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2268
  trace_input ("tbitb", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
2269
  tmp = RB (addr);
2270
  SET_PSR_F (tmp & (1 << a));
2271
  trace_output_32 (addr);
2272
}
2273
 
2274
 
2275
/* tbitw.  */
2276
void
2277
OP_7F_8 ()
2278
{
2279
  uint16 a = OP[0];
2280
  uint32 addr = OP[1], tmp;
2281
  trace_input ("tbitw", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
2282
  tmp = RW (addr);
2283
  SET_PSR_F (tmp & (1 << a));
2284
  trace_output_32 (tmp);
2285
}
2286
 
2287
/* tbitw.  */
2288
void
2289
OP_11F_14 ()
2290
{
2291
  uint16 a = OP[0];
2292
  uint32 addr = OP[1], tmp;
2293
  trace_input ("tbitw", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
2294
  tmp = RW (addr);
2295
  SET_PSR_F (tmp & (1 << a));
2296
  trace_output_32 (tmp);
2297
}
2298
 
2299
 
2300
/* tbitw.  */
2301
void
2302
OP_3E_7 ()
2303
{
2304
  uint32 addr;
2305
  uint16 a = (OP[0]), tmp;
2306
  trace_input ("tbitw", OP_CONSTANT4, OP_R_INDEX8_ABS20, OP_VOID);
2307
 
2308
  if (OP[1] == 0)
2309
     addr = (GPR32 (12)) + OP[2];
2310
  else
2311
     addr = (GPR32 (13)) + OP[2];
2312
 
2313
  tmp = RW (addr);
2314
  SET_PSR_F (tmp & (1 << a));
2315
  trace_output_32 (addr);
2316
}
2317
 
2318
/* tbitw.  */
2319
void
2320
OP_1EB_A ()
2321
{
2322
  uint16 a = (OP[0]);
2323
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2324
  trace_input ("tbitw", OP_CONSTANT4, OP_RP_INDEX_DISP14, OP_VOID);
2325
  tmp = RW (addr);
2326
  SET_PSR_F (tmp & (1 << a));
2327
  trace_output_32 (addr);
2328
}
2329
 
2330
/* tbitw.  */
2331
void
2332
OP_11C_14 ()
2333
{
2334
  uint16 a = (OP[0]);
2335
  uint32 addr = (GPR (OP[2])) + OP[1], tmp;
2336
  trace_input ("tbitw", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
2337
  tmp = RW (addr);
2338
  SET_PSR_F (tmp & (1 << a));
2339
  trace_output_32 (addr);
2340
}
2341
 
2342
/* tbitw.  */
2343
void
2344
OP_7E_8 ()
2345
{
2346
  uint16 a = (OP[0]);
2347
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2348
  trace_input ("tbitw", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
2349
  tmp = RW (addr);
2350
  SET_PSR_F (tmp & (1 << a));
2351
  trace_output_32 (addr);
2352
}
2353
 
2354
/* tbitw.  */
2355
void
2356
OP_79_8 ()
2357
{
2358
  uint16 a = (OP[0]);
2359
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2360
  trace_input ("tbitw", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
2361
  tmp = RW (addr);
2362
  SET_PSR_F (tmp & (1 << a));
2363
  trace_output_32 (addr);
2364
}
2365
 
2366
/* tbitw.  */
2367
void
2368
OP_11D_14 ()
2369
{
2370
  uint16 a = (OP[0]);
2371
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2372
  trace_input ("tbitw", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
2373
  tmp = RW (addr);
2374
  SET_PSR_F (tmp & (1 << a));
2375
  trace_output_32 (addr);
2376
}
2377
 
2378
 
2379
/* tbitw.  */
2380
void
2381
OP_11E_14 ()
2382
{
2383
  uint16 a = (OP[0]);
2384
  uint32 addr = (GPR32 (OP[2])) + OP[1], tmp;
2385
  trace_input ("tbitw", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
2386
  tmp = RW (addr);
2387
  SET_PSR_F (tmp & (1 << a));
2388
  trace_output_32 (addr);
2389
}
2390
 
2391
 
2392
/* tbit.  */
2393
void
2394
OP_6_8 ()
2395
{
2396
  uint16 a = OP[0];
2397
  uint16 b = (GPR (OP[1]));
2398
  trace_input ("tbit", OP_CONSTANT4, OP_REG, OP_VOID);
2399
  SET_PSR_F (b & (1 << a));
2400
  trace_output_16 (b);
2401
}
2402
 
2403
/* tbit.  */
2404
void
2405
OP_7_8 ()
2406
{
2407
  uint16 a = GPR (OP[0]);
2408
  uint16 b = (GPR (OP[1]));
2409
  trace_input ("tbit", OP_REG, OP_REG, OP_VOID);
2410
  SET_PSR_F (b & (1 << a));
2411
  trace_output_16 (b);
2412
}
2413
 
2414
 
2415
/* cmpb.  */
2416
void
2417
OP_50_8 ()
2418
{
2419
  uint8 a = (OP[0]) & 0xFF;
2420
  uint8 b = (GPR (OP[1])) & 0xFF;
2421
  trace_input ("cmpb", OP_CONSTANT4, OP_REG, OP_VOID);
2422
  SET_PSR_Z (a == b);
2423
  SET_PSR_N ((int8)a > (int8)b);
2424
  SET_PSR_L (a > b);
2425
  trace_output_flag ();
2426
}
2427
 
2428
/* cmpb.  */
2429
void
2430
OP_50B_C ()
2431
{
2432
  uint8 a = (OP[0]) & 0xFF;
2433
  uint8 b = (GPR (OP[1])) & 0xFF;
2434
  trace_input ("cmpb", OP_CONSTANT16, OP_REG, OP_VOID);
2435
  SET_PSR_Z (a == b);
2436
  SET_PSR_N ((int8)a > (int8)b);
2437
  SET_PSR_L (a > b);
2438
  trace_output_flag ();
2439
}
2440
 
2441
/* cmpb.  */
2442
void
2443
OP_51_8 ()
2444
{
2445
  uint8 a = (GPR (OP[0])) & 0xFF;
2446
  uint8 b = (GPR (OP[1])) & 0xFF;
2447
  trace_input ("cmpb", OP_REG, OP_REG, OP_VOID);
2448
  SET_PSR_Z (a == b);
2449
  SET_PSR_N ((int8)a > (int8)b);
2450
  SET_PSR_L (a > b);
2451
  trace_output_flag ();
2452
}
2453
 
2454
/* cmpw.  */
2455
void
2456
OP_52_8 ()
2457
{
2458
  uint16 a = (OP[0]);
2459
  uint16 b = GPR (OP[1]);
2460
  trace_input ("cmpw", OP_CONSTANT4, OP_REG, OP_VOID);
2461
  SET_PSR_Z (a == b);
2462
  SET_PSR_N ((int16)a > (int16)b);
2463
  SET_PSR_L (a > b);
2464
  trace_output_flag ();
2465
}
2466
 
2467
/* cmpw.  */
2468
void
2469
OP_52B_C ()
2470
{
2471
  uint16 a = (OP[0]);
2472
  uint16 b = GPR (OP[1]);
2473
  trace_input ("cmpw", OP_CONSTANT16, OP_REG, OP_VOID);
2474
  SET_PSR_Z (a == b);
2475
  SET_PSR_N ((int16)a > (int16)b);
2476
  SET_PSR_L (a > b);
2477
  trace_output_flag ();
2478
}
2479
 
2480
/* cmpw.  */
2481
void
2482
OP_53_8 ()
2483
{
2484
  uint16 a = GPR (OP[0]) ;
2485
  uint16 b = GPR (OP[1]) ;
2486
  trace_input ("cmpw", OP_REG, OP_REG, OP_VOID);
2487
  SET_PSR_Z (a == b);
2488
  SET_PSR_N ((int16)a > (int16)b);
2489
  SET_PSR_L (a > b);
2490
  trace_output_flag ();
2491
}
2492
 
2493
/* cmpd.  */
2494
void
2495
OP_56_8 ()
2496
{
2497
  uint32 a = (OP[0]);
2498
  uint32 b = GPR32 (OP[1]);
2499
  trace_input ("cmpd", OP_CONSTANT4, OP_REGP, OP_VOID);
2500
  SET_PSR_Z (a == b);
2501
  SET_PSR_N ((int32)a > (int32)b);
2502
  SET_PSR_L (a > b);
2503
  trace_output_flag ();
2504
}
2505
 
2506
/* cmpd.  */
2507
void
2508
OP_56B_C ()
2509
{
2510
  uint32 a = (SEXT16(OP[0]));
2511
  uint32 b = GPR32 (OP[1]);
2512
  trace_input ("cmpd", OP_CONSTANT16, OP_REGP, OP_VOID);
2513
  SET_PSR_Z (a == b);
2514
  SET_PSR_N ((int32)a > (int32)b);
2515
  SET_PSR_L (a > b);
2516
  trace_output_flag ();
2517
}
2518
 
2519
/* cmpd.  */
2520
void
2521
OP_57_8 ()
2522
{
2523
  uint32 a = GPR32 (OP[0]) ;
2524
  uint32 b = GPR32 (OP[1]) ;
2525
  trace_input ("cmpd", OP_REGP, OP_REGP, OP_VOID);
2526
  SET_PSR_Z (a == b);
2527
  SET_PSR_N ((int32)a > (int32)b);
2528
  SET_PSR_L (a > b);
2529
  trace_output_flag ();
2530
}
2531
 
2532
/* cmpd.  */
2533
void
2534
OP_9_C()
2535
{
2536
  uint32 a = (OP[0]);
2537
  uint32 b = GPR32 (OP[1]);
2538
  trace_input ("cmpd", OP_CONSTANT32, OP_REGP, OP_VOID);
2539
  SET_PSR_Z (a == b);
2540
  SET_PSR_N ((int32)a > (int32)b);
2541
  SET_PSR_L (a > b);
2542
  trace_output_flag ();
2543
}
2544
 
2545
 
2546
/* movb.  */
2547
void
2548
OP_58_8 ()
2549
{
2550
  uint8 tmp = OP[0] & 0xFF;
2551
  trace_input ("movb", OP_CONSTANT4, OP_REG, OP_VOID);
2552
  uint16 a = (GPR (OP[1])) & 0xFF00;
2553
  SET_GPR (OP[1], (a | tmp));
2554
  trace_output_16 (tmp);
2555
}
2556
 
2557
/* movb.  */
2558
void
2559
OP_58B_C ()
2560
{
2561
  uint8 tmp = OP[0] & 0xFF;
2562
  trace_input ("movb", OP_CONSTANT16, OP_REG, OP_VOID);
2563
  uint16 a = (GPR (OP[1])) & 0xFF00;
2564
  SET_GPR (OP[1], (a | tmp));
2565
  trace_output_16 (tmp);
2566
}
2567
 
2568
/* movb.  */
2569
void
2570
OP_59_8 ()
2571
{
2572
  uint8 tmp = (GPR (OP[0])) & 0xFF;
2573
  trace_input ("movb", OP_REG, OP_REG, OP_VOID);
2574
  uint16 a = (GPR (OP[1])) & 0xFF00;
2575
  SET_GPR (OP[1], (a | tmp));
2576
  trace_output_16 (tmp);
2577
}
2578
 
2579
/* movw.  */
2580
void
2581
OP_5A_8 ()
2582
{
2583
  uint16 tmp = OP[0];
2584
  trace_input ("movw", OP_CONSTANT4_1, OP_REG, OP_VOID);
2585
  SET_GPR (OP[1], (tmp & 0xffff));
2586
  trace_output_16 (tmp);
2587
}
2588
 
2589
/* movw.  */
2590
void
2591
OP_5AB_C ()
2592
{
2593
  int16 tmp = OP[0];
2594
  trace_input ("movw", OP_CONSTANT16, OP_REG, OP_VOID);
2595
  SET_GPR (OP[1], (tmp & 0xffff));
2596
  trace_output_16 (tmp);
2597
}
2598
 
2599
/* movw.  */
2600
void
2601
OP_5B_8 ()
2602
{
2603
  uint16 tmp = GPR (OP[0]);
2604
  trace_input ("movw", OP_REG, OP_REGP, OP_VOID);
2605
  uint32 a = GPR32 (OP[1]);
2606
  a = (a & 0xffff0000) | tmp;
2607
  SET_GPR32 (OP[1], a);
2608
  trace_output_16 (tmp);
2609
}
2610
 
2611
/* movxb.  */
2612
void
2613
OP_5C_8 ()
2614
{
2615
  uint8 tmp = (GPR (OP[0])) & 0xFF;
2616
  trace_input ("movxb", OP_REG, OP_REG, OP_VOID);
2617
  SET_GPR (OP[1], ((SEXT8(tmp)) & 0xffff));
2618
  trace_output_16 (tmp);
2619
}
2620
 
2621
/* movzb.  */
2622
void
2623
OP_5D_8 ()
2624
{
2625
  uint8 tmp = (GPR (OP[0])) & 0xFF;
2626
  trace_input ("movzb", OP_REG, OP_REG, OP_VOID);
2627
  SET_GPR (OP[1],  tmp);
2628
  trace_output_16 (tmp);
2629
}
2630
 
2631
/* movxw.  */
2632
void
2633
OP_5E_8 ()
2634
{
2635
  uint16 tmp = GPR (OP[0]);
2636
  trace_input ("movxw", OP_REG, OP_REGP, OP_VOID);
2637
  SET_GPR32 (OP[1], SEXT16(tmp));
2638
  trace_output_16 (tmp);
2639
}
2640
 
2641
/* movzw.  */
2642
void
2643
OP_5F_8 ()
2644
{
2645
  uint16 tmp = GPR (OP[0]);
2646
  trace_input ("movzw", OP_REG, OP_REGP, OP_VOID);
2647
  SET_GPR32 (OP[1], (tmp & 0x0000FFFF));
2648
  trace_output_16 (tmp);
2649
}
2650
 
2651
/* movd.  */
2652
void
2653
OP_54_8 ()
2654
{
2655
  int32 tmp = OP[0];
2656
  trace_input ("movd", OP_CONSTANT4, OP_REGP, OP_VOID);
2657
  SET_GPR32 (OP[1], tmp);
2658
  trace_output_32 (tmp);
2659
}
2660
 
2661
/* movd.  */
2662
void
2663
OP_54B_C ()
2664
{
2665
  int32 tmp = SEXT16(OP[0]);
2666
  trace_input ("movd", OP_CONSTANT16, OP_REGP, OP_VOID);
2667
  SET_GPR32 (OP[1], tmp);
2668
  trace_output_32 (tmp);
2669
}
2670
 
2671
/* movd.  */
2672
void
2673
OP_55_8 ()
2674
{
2675
  uint32 tmp = GPR32 (OP[0]);
2676
  trace_input ("movd", OP_REGP, OP_REGP, OP_VOID);
2677
  SET_GPR32 (OP[1], tmp);
2678
  trace_output_32 (tmp);
2679
}
2680
 
2681
/* movd.  */
2682
void
2683
OP_5_8 ()
2684
{
2685
  uint32 tmp = OP[0];
2686
  trace_input ("movd", OP_CONSTANT20, OP_REGP, OP_VOID);
2687
  SET_GPR32 (OP[1], tmp);
2688
  trace_output_32 (tmp);
2689
}
2690
 
2691
/* movd.  */
2692
void
2693
OP_7_C ()
2694
{
2695
  int32 tmp = OP[0];
2696
  trace_input ("movd", OP_CONSTANT32, OP_REGP, OP_VOID);
2697
  SET_GPR32 (OP[1], tmp);
2698
  trace_output_32 (tmp);
2699
}
2700
 
2701
/* loadm.  */
2702
void
2703
OP_14_D ()
2704
{
2705
  uint32 addr = GPR (0);
2706
  uint16 count = OP[0], reg = 2, tmp;
2707
  trace_input ("loadm", OP_CONSTANT4, OP_VOID, OP_VOID);
2708
  if ((addr & 1))
2709
    {
2710
      State.exception = SIG_CR16_BUS;
2711
      State.pc_changed = 1; /* Don't increment the PC. */
2712
      trace_output_void ();
2713
      return;
2714
    }
2715
 
2716
  while (count)
2717
    {
2718
      tmp = RW (addr);
2719
      SET_GPR (reg, tmp);
2720
      addr +=2;
2721
      --count;
2722
      reg++;
2723
      if (reg == 6) reg = 8;
2724
    };
2725
 
2726
  SET_GPR (0, addr);
2727
  trace_output_void ();
2728
}
2729
 
2730
 
2731
/* loadmp.  */
2732
void
2733
OP_15_D ()
2734
{
2735
  uint32 addr = GPR32 (0);
2736
  uint16 count = OP[0], reg = 2, tmp;
2737
  trace_input ("loadm", OP_CONSTANT4, OP_VOID, OP_VOID);
2738
  if ((addr & 1))
2739
    {
2740
      State.exception = SIG_CR16_BUS;
2741
      State.pc_changed = 1; /* Don't increment the PC. */
2742
      trace_output_void ();
2743
      return;
2744
    }
2745
 
2746
  while (count)
2747
    {
2748
      tmp = RW (addr);
2749
      SET_GPR (reg, tmp);
2750
      addr +=2;
2751
      --count;
2752
      reg++;
2753
      if (reg == 6) reg = 8;
2754
    };
2755
 
2756
  SET_GPR32 (0, addr);
2757
  trace_output_void ();
2758
}
2759
 
2760
 
2761
/* loadb.  */
2762
void
2763
OP_88_8 ()
2764
{
2765
  /* loadb ABS20, REG
2766
   * ADDR = zext24(abs20) | remap (ie 0xF00000)
2767
   * REG  = [ADDR]
2768
   * NOTE: remap is
2769
   * If (abs20 > 0xEFFFF) the resulting address is logically ORed
2770
   * with 0xF00000 i.e. addresses from 1M-64k to 1M are re-mapped
2771
   * by the core to 16M-64k to 16M. */
2772
 
2773
  uint16 tmp, a = (GPR (OP[1])) & 0xFF00;
2774
  uint32 addr = OP[0];
2775
  trace_input ("loadb", OP_ABS20, OP_REG, OP_VOID);
2776
  if (addr > 0xEFFFF) addr |= 0xF00000;
2777
  tmp = (RB (addr));
2778
  SET_GPR (OP[1], (a | tmp));
2779
  trace_output_16 (tmp);
2780
}
2781
 
2782
/* loadb.  */
2783
void
2784
OP_127_14 ()
2785
{
2786
  /* loadb ABS24, REG
2787
   * ADDR = abs24
2788
   * REGR = [ADDR].   */
2789
 
2790
  uint16 tmp, a = (GPR (OP[1])) & 0xFF00;
2791
  uint32 addr = OP[0];
2792
  trace_input ("loadb", OP_ABS24, OP_REG, OP_VOID);
2793
  tmp = (RB (addr));
2794
  SET_GPR (OP[1], (a | tmp));
2795
  trace_output_16 (tmp);
2796
}
2797
 
2798
/* loadb.  */
2799
void
2800
OP_45_7 ()
2801
{
2802
  /* loadb [Rindex]ABS20   REG
2803
   * ADDR = Rindex + zext24(disp20)
2804
   * REGR = [ADDR].   */
2805
 
2806
  uint32 addr;
2807
  uint16 tmp, a = (GPR (OP[2])) & 0xFF00;
2808
  trace_input ("loadb", OP_R_INDEX8_ABS20, OP_REG, OP_VOID);
2809
 
2810
  if (OP[0] == 0)
2811
     addr = (GPR32 (12)) + OP[1];
2812
  else
2813
     addr = (GPR32 (13)) + OP[1];
2814
 
2815
  tmp = (RB (addr));
2816
  SET_GPR (OP[2], (a | tmp));
2817
  trace_output_16 (tmp);
2818
}
2819
 
2820
 
2821
/* loadb.  */
2822
void
2823
OP_B_4 ()
2824
{
2825
  /* loadb DIPS4(REGP)   REG
2826
   * ADDR = RPBASE + zext24(DISP4)
2827
   * REG = [ADDR].  */
2828
  uint16 tmp, a = (GPR (OP[2])) & 0xFF00;
2829
  uint32 addr = (GPR32 (OP[1])) + OP[0];
2830
  trace_input ("loadb", OP_RP_BASE_DISP4, OP_REG, OP_VOID);
2831
  tmp = (RB (addr));
2832
  SET_GPR (OP[2], (a | tmp));
2833
  trace_output_16 (tmp);
2834
}
2835
 
2836
/* loadb.  */
2837
void
2838
OP_BE_8 ()
2839
{
2840
  /* loadb [Rindex]disp0(RPbasex) REG
2841
   * ADDR = Rpbasex + Rindex
2842
   * REGR = [ADDR]   */
2843
 
2844
  uint32 addr;
2845
  uint16 tmp, a = (GPR (OP[3])) & 0xFF00;
2846
  trace_input ("loadb", OP_RP_INDEX_DISP0, OP_REG, OP_VOID);
2847
 
2848
  addr =  (GPR32 (OP[2])) + OP[1];
2849
 
2850
  if (OP[0] == 0)
2851
     addr = (GPR32 (12)) + addr;
2852
  else
2853
     addr = (GPR32 (13)) + addr;
2854
 
2855
  tmp = (RB (addr));
2856
  SET_GPR (OP[3], (a | tmp));
2857
  trace_output_16 (tmp);
2858
}
2859
 
2860
/* loadb.  */
2861
void
2862
OP_219_A ()
2863
{
2864
  /* loadb [Rindex]disp14(RPbasex) REG
2865
   * ADDR = Rpbasex + Rindex + zext24(disp14)
2866
   * REGR = [ADDR]   */
2867
 
2868
  uint32 addr;
2869
  uint16 tmp, a = (GPR (OP[3])) & 0xFF00;
2870
 
2871
  addr =  (GPR32 (OP[2])) + OP[1];
2872
 
2873
  if (OP[0] == 0)
2874
     addr = (GPR32 (12)) + addr;
2875
  else
2876
     addr = (GPR32 (13)) + addr;
2877
 
2878
  trace_input ("loadb", OP_RP_INDEX_DISP14, OP_REG, OP_VOID);
2879
  tmp = (RB (addr));
2880
  SET_GPR (OP[3], (a | tmp));
2881
  trace_output_16 (tmp);
2882
}
2883
 
2884
 
2885
/* loadb.  */
2886
void
2887
OP_184_14 ()
2888
{
2889
  /* loadb DISPE20(REG)   REG
2890
   * zext24(Rbase) + zext24(dispe20)
2891
   * REG = [ADDR]   */
2892
 
2893
  uint16 tmp,a = (GPR (OP[2])) & 0xFF00;
2894
  uint32 addr = OP[0] + (GPR (OP[1]));
2895
  trace_input ("loadb", OP_R_BASE_DISPE20, OP_REG, OP_VOID);
2896
  tmp = (RB (addr));
2897
  SET_GPR (OP[2], (a | tmp));
2898
  trace_output_16 (tmp);
2899
}
2900
 
2901
/* loadb.  */
2902
void
2903
OP_124_14 ()
2904
{
2905
  /* loadb DISP20(REG)   REG
2906
   * ADDR = zext24(Rbase) + zext24(disp20)
2907
   * REG = [ADDR]                          */
2908
 
2909
  uint16 tmp,a = (GPR (OP[2])) & 0xFF00;
2910
  uint32 addr = OP[0] + (GPR (OP[1]));
2911
  trace_input ("loadb", OP_R_BASE_DISP20, OP_REG, OP_VOID);
2912
  tmp = (RB (addr));
2913
  SET_GPR (OP[2], (a | tmp));
2914
  trace_output_16 (tmp);
2915
}
2916
 
2917
/* loadb.  */
2918
void
2919
OP_BF_8 ()
2920
{
2921
  /* loadb disp16(REGP)   REG
2922
   * ADDR = RPbase + zext24(disp16)
2923
   * REGR = [ADDR]   */
2924
 
2925
  uint16 tmp,a = (GPR (OP[2])) & 0xFF00;
2926
  uint32 addr = (GPR32 (OP[1])) + OP[0];
2927
  trace_input ("loadb", OP_RP_BASE_DISP16, OP_REG, OP_VOID);
2928
  tmp = (RB (addr));
2929
  SET_GPR (OP[2], (a | tmp));
2930
  trace_output_16 (tmp);
2931
}
2932
 
2933
/* loadb.  */
2934
void
2935
OP_125_14 ()
2936
{
2937
  /* loadb disp20(REGP)   REG
2938
   * ADDR = RPbase + zext24(disp20)
2939
   * REGR = [ADDR]   */
2940
  uint16 tmp,a = (GPR (OP[2])) & 0xFF00;
2941
  uint32 addr =  (GPR32 (OP[1])) + OP[0];
2942
  trace_input ("loadb", OP_RP_BASE_DISP20, OP_REG, OP_VOID);
2943
  tmp = (RB (addr));
2944
  SET_GPR (OP[2], (a | tmp));
2945
  trace_output_16 (tmp);
2946
}
2947
 
2948
 
2949
/* loadb.  */
2950
void
2951
OP_185_14 ()
2952
{
2953
  /* loadb -disp20(REGP)   REG
2954
   * ADDR = RPbase + zext24(-disp20)
2955
   * REGR = [ADDR]   */
2956
  uint16 tmp,a = (GPR (OP[2])) & 0xFF00;
2957
  uint32 addr =  (GPR32 (OP[1])) + OP[1];
2958
  trace_input ("loadb", OP_RP_BASE_DISPE20, OP_REG, OP_VOID);
2959
  tmp = (RB (addr));
2960
  SET_GPR (OP[2], (a | tmp));
2961
  trace_output_16 (tmp);
2962
}
2963
 
2964
/* loadb.  */
2965
void
2966
OP_126_14 ()
2967
{
2968
  /* loadb [Rindex]disp20(RPbasexb) REG
2969
   * ADDR = RPbasex + Rindex + zext24(disp20)
2970
   * REGR = [ADDR]   */
2971
 
2972
  uint32 addr;
2973
  uint16 tmp, a = (GPR (OP[3])) & 0xFF00;
2974
  trace_input ("loadb", OP_RP_INDEX_DISP20, OP_REG, OP_VOID);
2975
 
2976
  addr = (GPR32 (OP[2])) + OP[1];
2977
 
2978
  if (OP[0] == 0)
2979
     addr = (GPR32 (12)) + addr;
2980
  else
2981
     addr = (GPR32 (13)) + addr;
2982
 
2983
  tmp = (RB (addr));
2984
  SET_GPR (OP[3], (a | tmp));
2985
  trace_output_16 (tmp);
2986
}
2987
 
2988
 
2989
/* loadw.  */
2990
void
2991
OP_89_8 ()
2992
{
2993
  /* loadw ABS20, REG
2994
   * ADDR = zext24(abs20) | remap
2995
   * REGR = [ADDR]
2996
   * NOTE: remap is
2997
   * If (abs20 > 0xEFFFF) the resulting address is logically ORed
2998
   * with 0xF00000 i.e. addresses from 1M-64k to 1M are re-mapped
2999
   * by the core to 16M-64k to 16M. */
3000
 
3001
  uint16 tmp;
3002
  uint32 addr = OP[0];
3003
  trace_input ("loadw", OP_ABS20, OP_REG, OP_VOID);
3004
  if (addr > 0xEFFFF) addr |= 0xF00000;
3005
  tmp = (RW (addr));
3006
  SET_GPR (OP[1], tmp);
3007
  trace_output_16 (tmp);
3008
}
3009
 
3010
 
3011
/* loadw.  */
3012
void
3013
OP_12F_14 ()
3014
{
3015
  /* loadw ABS24, REG
3016
   * ADDR = abs24
3017
   * REGR = [ADDR]  */
3018
  uint16 tmp;
3019
  uint32 addr = OP[0];
3020
  trace_input ("loadw", OP_ABS24, OP_REG, OP_VOID);
3021
  tmp = (RW (addr));
3022
  SET_GPR (OP[1], tmp);
3023
  trace_output_16 (tmp);
3024
}
3025
 
3026
/* loadw.  */
3027
void
3028
OP_47_7 ()
3029
{
3030
  /* loadw [Rindex]ABS20   REG
3031
   * ADDR = Rindex + zext24(disp20)
3032
   * REGR = [ADDR]  */
3033
 
3034
  uint32 addr;
3035
  uint16 tmp;
3036
  trace_input ("loadw", OP_R_INDEX8_ABS20, OP_REG, OP_VOID);
3037
 
3038
  if (OP[0] == 0)
3039
     addr = (GPR32 (12)) + OP[1];
3040
  else
3041
     addr = (GPR32 (13)) + OP[1];
3042
 
3043
  tmp = (RW (addr));
3044
  SET_GPR (OP[2], tmp);
3045
  trace_output_16 (tmp);
3046
}
3047
 
3048
 
3049
/* loadw.  */
3050
void
3051
OP_9_4 ()
3052
{
3053
  /* loadw DIPS4(REGP)   REGP
3054
   * ADDR = RPBASE + zext24(DISP4)
3055
   * REGP = [ADDR].  */
3056
  uint16 tmp;
3057
  uint32 addr, a;
3058
  trace_input ("loadw", OP_RP_BASE_DISP4, OP_REG, OP_VOID);
3059
  addr = (GPR32 (OP[1])) + OP[0];
3060
  tmp =  (RW (addr));
3061
  if (OP[2] > 11)
3062
   {
3063
    a = (GPR32 (OP[2])) & 0xffff0000;
3064
    SET_GPR32 (OP[2], (a | tmp));
3065
   }
3066
  else
3067
    SET_GPR (OP[2], tmp);
3068
 
3069
  trace_output_16 (tmp);
3070
}
3071
 
3072
 
3073
/* loadw.  */
3074
void
3075
OP_9E_8 ()
3076
{
3077
  /* loadw [Rindex]disp0(RPbasex) REG
3078
   * ADDR = Rpbasex + Rindex
3079
   * REGR = [ADDR]   */
3080
 
3081
  uint32 addr;
3082
  uint16 tmp;
3083
  trace_input ("loadw", OP_RP_INDEX_DISP0, OP_REG, OP_VOID);
3084
 
3085
  addr = (GPR32 (OP[2])) + OP[1];
3086
 
3087
  if (OP[0] == 0)
3088
    addr = (GPR32 (12)) + addr;
3089
  else
3090
    addr = (GPR32 (13)) + addr;
3091
 
3092
  tmp = RW (addr);
3093
  SET_GPR (OP[3], tmp);
3094
  trace_output_16 (tmp);
3095
}
3096
 
3097
 
3098
/* loadw.  */
3099
void
3100
OP_21B_A ()
3101
{
3102
  /* loadw [Rindex]disp14(RPbasex) REG
3103
   * ADDR = Rpbasex + Rindex + zext24(disp14)
3104
   * REGR = [ADDR]   */
3105
 
3106
  uint32 addr;
3107
  uint16 tmp;
3108
  trace_input ("loadw", OP_RP_INDEX_DISP14, OP_REG, OP_VOID);
3109
  addr =  (GPR32 (OP[2])) + OP[1];
3110
 
3111
  if (OP[0] == 0)
3112
     addr = (GPR32 (12)) + addr;
3113
  else
3114
     addr = (GPR32 (13)) + addr;
3115
 
3116
  tmp = (RW (addr));
3117
  SET_GPR (OP[3], tmp);
3118
  trace_output_16 (tmp);
3119
}
3120
 
3121
/* loadw.  */
3122
void
3123
OP_18C_14 ()
3124
{
3125
  /* loadw dispe20(REG)   REGP
3126
   * REGP = [DISPE20+[REG]]   */
3127
 
3128
  uint16 tmp;
3129
  uint32 addr, a;
3130
  trace_input ("loadw", OP_R_BASE_DISPE20, OP_REGP, OP_VOID);
3131
  addr = OP[0] + (GPR (OP[1]));
3132
  tmp = (RW (addr));
3133
  if (OP[2] > 11)
3134
   {
3135
    a = (GPR32 (OP[2])) & 0xffff0000;
3136
    SET_GPR32 (OP[2], (a | tmp));
3137
   }
3138
  else
3139
    SET_GPR (OP[2], tmp);
3140
 
3141
  trace_output_16 (tmp);
3142
}
3143
 
3144
 
3145
/* loadw.  */
3146
void
3147
OP_12C_14 ()
3148
{
3149
  /* loadw DISP20(REG)   REGP
3150
   * ADDR = zext24(Rbase) + zext24(disp20)
3151
   * REGP = [ADDR]                          */
3152
 
3153
  uint16 tmp;
3154
  uint32 addr, a;
3155
  trace_input ("loadw", OP_R_BASE_DISP20, OP_REGP, OP_VOID);
3156
  addr = OP[0] + (GPR (OP[1]));
3157
  tmp = (RW (addr));
3158
  if (OP[2] > 11)
3159
   {
3160
    a = (GPR32 (OP[2])) & 0xffff0000;
3161
    SET_GPR32 (OP[2], (a | tmp));
3162
   }
3163
  else
3164
    SET_GPR (OP[2], tmp);
3165
 
3166
  trace_output_16 (tmp);
3167
}
3168
 
3169
/* loadw.  */
3170
void
3171
OP_9F_8 ()
3172
{
3173
  /* loadw disp16(REGP)   REGP
3174
   * ADDR = RPbase + zext24(disp16)
3175
   * REGP = [ADDR]   */
3176
  uint16 tmp;
3177
  uint32 addr, a;
3178
  trace_input ("loadw", OP_RP_BASE_DISP16, OP_REGP, OP_VOID);
3179
  addr = (GPR32 (OP[1])) + OP[0];
3180
  tmp = (RW (addr));
3181
  if (OP[2] > 11)
3182
   {
3183
    a = (GPR32 (OP[2])) & 0xffff0000;
3184
    SET_GPR32 (OP[2], (a | tmp));
3185
   }
3186
  else
3187
    SET_GPR (OP[2], tmp);
3188
 
3189
  trace_output_16 (tmp);
3190
}
3191
 
3192
/* loadw.  */
3193
void
3194
OP_12D_14 ()
3195
{
3196
  /* loadw disp20(REGP)   REGP
3197
   * ADDR = RPbase + zext24(disp20)
3198
   * REGP = [ADDR]   */
3199
  uint16 tmp;
3200
  uint32 addr, a;
3201
  trace_input ("loadw", OP_RP_BASE_DISP20, OP_REG, OP_VOID);
3202
  addr = (GPR32 (OP[1])) + OP[0];
3203
  tmp = (RW (addr));
3204
  if (OP[2] > 11)
3205
   {
3206
    a = (GPR32 (OP[2])) & 0xffff0000;
3207
    SET_GPR32 (OP[2], (a | tmp));
3208
   }
3209
  else
3210
    SET_GPR (OP[2], tmp);
3211
 
3212
  trace_output_16 (tmp);
3213
}
3214
 
3215
/* loadw.  */
3216
void
3217
OP_18D_14 ()
3218
{
3219
  /* loadw -disp20(REGP)   REG
3220
   * ADDR = RPbase + zext24(-disp20)
3221
   * REGR = [ADDR]   */
3222
 
3223
  uint16 tmp;
3224
  uint32 addr, a;
3225
  trace_input ("loadw", OP_RP_BASE_DISPE20, OP_REG, OP_VOID);
3226
  addr = (GPR32 (OP[1])) + OP[0];
3227
  tmp = (RB (addr));
3228
  if (OP[2] > 11)
3229
   {
3230
    a = (GPR32 (OP[2])) & 0xffff0000;
3231
    SET_GPR32 (OP[2], (a | tmp));
3232
   }
3233
  else
3234
    SET_GPR (OP[2], tmp);
3235
 
3236
  trace_output_16 (tmp);
3237
}
3238
 
3239
 
3240
/* loadw.  */
3241
void
3242
OP_12E_14 ()
3243
{
3244
  /* loadw [Rindex]disp20(RPbasexb) REG
3245
   * ADDR = RPbasex + Rindex + zext24(disp20)
3246
   * REGR = [ADDR]   */
3247
 
3248
  uint32 addr;
3249
  uint16 tmp;
3250
  trace_input ("loadw", OP_RP_INDEX_DISP20, OP_REG, OP_VOID);
3251
 
3252
  if (OP[0] == 0)
3253
     addr = (GPR32 (12)) + OP[1] + (GPR32 (OP[2]));
3254
  else
3255
     addr = (GPR32 (13)) + OP[1] + (GPR32 (OP[2]));
3256
 
3257
  tmp = (RW (addr));
3258
  SET_GPR (OP[3], tmp);
3259
  trace_output_16 (tmp);
3260
}
3261
 
3262
 
3263
/* loadd.  */
3264
void
3265
OP_87_8 ()
3266
{
3267
  /* loadd ABS20, REGP
3268
   * ADDR = zext24(abs20) | remap
3269
   * REGP = [ADDR]
3270
   * NOTE: remap is
3271
   * If (abs20 > 0xEFFFF) the resulting address is logically ORed
3272
   * with 0xF00000 i.e. addresses from 1M-64k to 1M are re-mapped
3273
   * by the core to 16M-64k to 16M. */
3274
 
3275
  uint32 addr, tmp;
3276
  addr = OP[0];
3277
  trace_input ("loadd", OP_ABS20, OP_REGP, OP_VOID);
3278
  if (addr > 0xEFFFF) addr |= 0xF00000;
3279
  tmp = RLW (addr);
3280
  tmp = ((tmp << 16) & 0xffff)| ((tmp >> 16) & 0xffff);
3281
  SET_GPR32 (OP[1], tmp);
3282
  trace_output_32 (tmp);
3283
}
3284
 
3285
/* loadd.  */
3286
void
3287
OP_12B_14 ()
3288
{
3289
  /* loadd ABS24, REGP
3290
   * ADDR = abs24
3291
   * REGP = [ADDR]  */
3292
 
3293
  uint32 addr = OP[0];
3294
  uint32 tmp;
3295
  trace_input ("loadd", OP_ABS24, OP_REGP, OP_VOID);
3296
  tmp = RLW (addr);
3297
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3298
  SET_GPR32 (OP[1],tmp);
3299
  trace_output_32 (tmp);
3300
}
3301
 
3302
 
3303
/* loadd.  */
3304
void
3305
OP_46_7 ()
3306
{
3307
  /* loadd [Rindex]ABS20   REGP
3308
   * ADDR = Rindex + zext24(disp20)
3309
   * REGP = [ADDR]  */
3310
 
3311
  uint32 addr, tmp;
3312
  trace_input ("loadd", OP_R_INDEX8_ABS20, OP_REGP, OP_VOID);
3313
 
3314
  if (OP[0] == 0)
3315
     addr = (GPR32 (12)) + OP[1];
3316
  else
3317
     addr = (GPR32 (13)) + OP[1];
3318
 
3319
  tmp = RLW (addr);
3320
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3321
  SET_GPR32 (OP[2], tmp);
3322
  trace_output_32 (tmp);
3323
}
3324
 
3325
 
3326
/* loadd.  */
3327
void
3328
OP_A_4 ()
3329
{
3330
  /* loadd dips4(regp)   REGP
3331
   * ADDR = Rpbase + zext24(disp4)
3332
   * REGP = [ADDR] */
3333
 
3334
  uint32 tmp, addr = (GPR32 (OP[1])) + OP[0];
3335
  trace_input ("loadd", OP_RP_BASE_DISP4, OP_REGP, OP_VOID);
3336
  tmp = RLW (addr);
3337
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3338
  SET_GPR32 (OP[2], tmp);
3339
  trace_output_32 (tmp);
3340
}
3341
 
3342
 
3343
/* loadd.  */
3344
void
3345
OP_AE_8 ()
3346
{
3347
  /* loadd [Rindex]disp0(RPbasex) REGP
3348
   * ADDR = Rpbasex + Rindex
3349
   * REGP = [ADDR]   */
3350
 
3351
  uint32 addr, tmp;
3352
  trace_input ("loadd", OP_RP_INDEX_DISP0, OP_REGP, OP_VOID);
3353
 
3354
  if (OP[0] == 0)
3355
     addr = (GPR32 (12)) + (GPR32 (OP[2])) + OP[1];
3356
  else
3357
     addr = (GPR32 (13)) + (GPR32 (OP[2])) + OP[1];
3358
 
3359
  tmp = RLW (addr);
3360
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3361
  SET_GPR32 (OP[3], tmp);
3362
  trace_output_32 (tmp);
3363
}
3364
 
3365
 
3366
/* loadd.  */
3367
void
3368
OP_21A_A ()
3369
{
3370
  /* loadd [Rindex]disp14(RPbasex) REGP
3371
   * ADDR = Rpbasex + Rindex + zext24(disp14)
3372
   * REGR = [ADDR]   */
3373
 
3374
  uint32 addr, tmp;
3375
  trace_input ("loadd", OP_RP_INDEX_DISP14, OP_REGP, OP_VOID);
3376
 
3377
  if (OP[0] == 0)
3378
     addr = (GPR32 (12)) + OP[1] + (GPR32 (OP[2]));
3379
  else
3380
     addr = (GPR32 (13)) + OP[1] + (GPR32 (OP[2]));
3381
 
3382
  tmp = RLW (addr);
3383
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3384
  SET_GPR (OP[3],tmp);
3385
  trace_output_32 (tmp);
3386
}
3387
 
3388
 
3389
/* loadd.  */
3390
void
3391
OP_188_14 ()
3392
{
3393
  /* loadd dispe20(REG)   REG
3394
   * zext24(Rbase) + zext24(dispe20)
3395
   * REG = [ADDR]   */
3396
 
3397
  uint32 tmp, addr = OP[0] + (GPR (OP[1]));
3398
  trace_input ("loadd", OP_R_BASE_DISPE20, OP_REGP, OP_VOID);
3399
  tmp = RLW (addr);
3400
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3401
  SET_GPR32 (OP[2], tmp);
3402
  trace_output_32 (tmp);
3403
}
3404
 
3405
 
3406
/* loadd.  */
3407
void
3408
OP_128_14 ()
3409
{
3410
  /* loadd DISP20(REG)   REG
3411
   * ADDR = zext24(Rbase) + zext24(disp20)
3412
   * REG = [ADDR]                          */
3413
 
3414
  uint32 tmp, addr = OP[0] + (GPR (OP[1]));
3415
  trace_input ("loadd", OP_R_BASE_DISP20, OP_REGP, OP_VOID);
3416
  tmp = RLW (addr);
3417
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3418
  SET_GPR32 (OP[2], tmp);
3419
  trace_output_32 (tmp);
3420
}
3421
 
3422
/* loadd.  */
3423
void
3424
OP_AF_8 ()
3425
{
3426
  /* loadd disp16(REGP)   REGP
3427
   * ADDR = RPbase + zext24(disp16)
3428
   * REGR = [ADDR]   */
3429
  uint32 tmp, addr = OP[0] + (GPR32 (OP[1]));
3430
  trace_input ("loadd", OP_RP_BASE_DISP16, OP_REGP, OP_VOID);
3431
  tmp = RLW (addr);
3432
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3433
  SET_GPR32 (OP[2], tmp);
3434
  trace_output_32 (tmp);
3435
}
3436
 
3437
 
3438
/* loadd.  */
3439
void
3440
OP_129_14 ()
3441
{
3442
  /* loadd disp20(REGP)   REGP
3443
   * ADDR = RPbase + zext24(disp20)
3444
   * REGP = [ADDR]   */
3445
  uint32 tmp, addr = OP[0] + (GPR32 (OP[1]));
3446
  trace_input ("loadd", OP_RP_BASE_DISP20, OP_REGP, OP_VOID);
3447
  tmp = RLW (addr);
3448
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3449
  SET_GPR32 (OP[2], tmp);
3450
  trace_output_32 (tmp);
3451
}
3452
 
3453
/* loadd.  */
3454
void
3455
OP_189_14 ()
3456
{
3457
  /* loadd -disp20(REGP)   REGP
3458
   * ADDR = RPbase + zext24(-disp20)
3459
   * REGP = [ADDR]   */
3460
 
3461
  uint32 tmp, addr = OP[0] + (GPR32 (OP[1]));
3462
  trace_input ("loadd", OP_RP_BASE_DISPE20, OP_REGP, OP_VOID);
3463
  tmp = RLW (addr);
3464
  tmp = ((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff);
3465
  SET_GPR32 (OP[2], tmp);
3466
  trace_output_32 (tmp);
3467
}
3468
 
3469
/* loadd.  */
3470
void
3471
OP_12A_14 ()
3472
{
3473
  /* loadd [Rindex]disp20(RPbasexb) REGP
3474
   * ADDR = RPbasex + Rindex + zext24(disp20)
3475
   * REGP = [ADDR]   */
3476
 
3477
  uint32 addr, tmp;
3478
  trace_input ("loadd", OP_RP_INDEX_DISP20, OP_REGP, OP_VOID);
3479
 
3480
  if (OP[0] == 0)
3481
     addr = (GPR32 (12)) + OP[1] + (GPR32 (OP[2]));
3482
  else
3483
     addr = (GPR32 (13)) + OP[1] + (GPR32 (OP[2]));
3484
 
3485
  tmp = RLW (addr);
3486
  tmp = ((tmp << 16) & 0xffff)| ((tmp >> 16) & 0xffff);
3487
  SET_GPR32 (OP[3], tmp);
3488
  trace_output_32 (tmp);
3489
}
3490
 
3491
 
3492
/* storb.  */
3493
void
3494
OP_C8_8 ()
3495
{
3496
  /* storb REG, ABS20
3497
   * ADDR = zext24(abs20) | remap
3498
   * [ADDR] = REGR
3499
   * NOTE: remap is
3500
   * If (abs20 > 0xEFFFF) the resulting address is logically ORed
3501
   * with 0xF00000 i.e. addresses from 1M-64k to 1M are re-mapped
3502
   * by the core to 16M-64k to 16M. */
3503
 
3504
  uint8 a = ((GPR (OP[0])) & 0xff);
3505
  uint32 addr =  OP[1];
3506
  trace_input ("storb", OP_REG, OP_ABS20_OUTPUT, OP_VOID);
3507
  SB (addr, a);
3508
  trace_output_32 (addr);
3509
}
3510
 
3511
/* storb.  */
3512
void
3513
OP_137_14 ()
3514
{
3515
  /* storb REG, ABS24
3516
   * ADDR = abs24
3517
   * [ADDR] = REGR.  */
3518
 
3519
  uint8 a = ((GPR (OP[0])) & 0xff);
3520
  uint32 addr =  OP[1];
3521
  trace_input ("storb", OP_REG, OP_ABS24_OUTPUT, OP_VOID);
3522
  SB (addr, a);
3523
  trace_output_32 (addr);
3524
}
3525
 
3526
/* storb.  */
3527
void
3528
OP_65_7 ()
3529
{
3530
  /* storb REG, [Rindex]ABS20
3531
   * ADDR = Rindex + zext24(disp20)
3532
   * [ADDR] = REGR  */
3533
 
3534
  uint32 addr;
3535
  uint8 a = ((GPR (OP[0])) & 0xff);
3536
  trace_input ("storb", OP_REG, OP_R_INDEX8_ABS20, OP_VOID);
3537
 
3538
  if (OP[1] == 0)
3539
     addr = (GPR32 (12)) + OP[2];
3540
  else
3541
     addr = (GPR32 (13)) + OP[2];
3542
 
3543
  SB (addr, a);
3544
  trace_output_32 (addr);
3545
}
3546
 
3547
/* storb.  */
3548
void
3549
OP_F_4 ()
3550
{
3551
  /* storb REG, DIPS4(REGP)
3552
   * ADDR = RPBASE + zext24(DISP4)
3553
   * [ADDR]  = REG.  */
3554
 
3555
  uint16 a = ((GPR (OP[0])) & 0xff);
3556
  trace_input ("storb", OP_REG, OP_RP_BASE_DISPE4, OP_VOID);
3557
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3558
  SB (addr, a);
3559
  trace_output_32 (addr);
3560
}
3561
 
3562
/* storb.  */
3563
void
3564
OP_FE_8 ()
3565
{
3566
  /* storb [Rindex]disp0(RPbasex) REG
3567
   * ADDR = Rpbasex + Rindex
3568
   * [ADDR] = REGR   */
3569
 
3570
  uint32 addr;
3571
  uint8 a = ((GPR (OP[0])) & 0xff);
3572
  trace_input ("storb", OP_REG, OP_RP_INDEX_DISP0, OP_VOID);
3573
 
3574
  if (OP[1] == 0)
3575
     addr = (GPR32 (12)) + (GPR32 (OP[3])) + OP[2];
3576
  else
3577
     addr = (GPR32 (13)) + (GPR32 (OP[3])) + OP[2];
3578
 
3579
  SB (addr, a);
3580
  trace_output_32 (addr);
3581
}
3582
 
3583
/* storb.  */
3584
void
3585
OP_319_A ()
3586
{
3587
  /* storb REG, [Rindex]disp14(RPbasex)
3588
   * ADDR = Rpbasex + Rindex + zext24(disp14)
3589
   * [ADDR] = REGR  */
3590
 
3591
  uint8 a = ((GPR (OP[0])) & 0xff);
3592
  trace_input ("storb", OP_REG, OP_RP_INDEX_DISP14, OP_VOID);
3593
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3594
  SB (addr, a);
3595
  trace_output_32 (addr);
3596
}
3597
 
3598
/* storb.  */
3599
void
3600
OP_194_14 ()
3601
{
3602
  /* storb REG, DISPE20(REG)
3603
   * zext24(Rbase) + zext24(dispe20)
3604
   * [ADDR] = REG  */
3605
 
3606
  uint8 a = ((GPR (OP[0])) & 0xff);
3607
  trace_input ("storb", OP_REG, OP_R_BASE_DISPE20, OP_VOID);
3608
  uint32 addr = OP[1] + (GPR (OP[2]));
3609
  SB (addr, a);
3610
  trace_output_32 (addr);
3611
}
3612
 
3613
/* storb.  */
3614
void
3615
OP_134_14 ()
3616
{
3617
  /* storb REG, DISP20(REG)
3618
   * ADDR = zext24(Rbase) + zext24(disp20)
3619
   * [ADDR] = REG                          */
3620
 
3621
  uint8 a = (GPR (OP[0]) & 0xff);
3622
  trace_input ("storb", OP_REG, OP_R_BASE_DISPS20, OP_VOID);
3623
  uint32 addr =  OP[1] + (GPR (OP[2]));
3624
  SB (addr, a);
3625
  trace_output_32 (addr);
3626
}
3627
 
3628
/* storb.  */
3629
void
3630
OP_FF_8 ()
3631
{
3632
  /* storb REG, disp16(REGP)
3633
   * ADDR = RPbase + zext24(disp16)
3634
   * [ADDR] = REGP   */
3635
 
3636
  uint8 a = ((GPR (OP[0])) & 0xff);
3637
  trace_input ("storb", OP_REG, OP_RP_BASE_DISP16, OP_VOID);
3638
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3639
  SB (addr, a);
3640
  trace_output_32 (addr);
3641
}
3642
 
3643
/* storb.  */
3644
void
3645
OP_135_14 ()
3646
{
3647
  /* storb REG, disp20(REGP)
3648
   * ADDR = RPbase + zext24(disp20)
3649
   * [ADDR] = REGP   */
3650
 
3651
  uint8 a = ((GPR (OP[0])) & 0xff);
3652
  trace_input ("storb", OP_REG, OP_RP_BASE_DISPS20, OP_VOID);
3653
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3654
  SB (addr, a);
3655
  trace_output_32 (addr);
3656
}
3657
 
3658
/* storb.  */
3659
void
3660
OP_195_14 ()
3661
{
3662
  /* storb REG, -disp20(REGP)
3663
   * ADDR = RPbase + zext24(-disp20)
3664
   * [ADDR] = REGP  */
3665
 
3666
  uint8 a = (GPR (OP[0]) & 0xff);
3667
  trace_input ("storb", OP_REG, OP_RP_BASE_DISPE20, OP_VOID);
3668
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3669
  SB (addr, a);
3670
  trace_output_32 (addr);
3671
}
3672
 
3673
/* storb.  */
3674
void
3675
OP_136_14 ()
3676
{
3677
  /* storb REG, [Rindex]disp20(RPbase)
3678
   * ADDR = RPbasex + Rindex + zext24(disp20)
3679
   * [ADDR] = REGP   */
3680
 
3681
  uint8 a = (GPR (OP[0])) & 0xff;
3682
  trace_input ("storb", OP_REG, OP_RP_INDEX_DISPS20, OP_VOID);
3683
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3684
  SB (addr, a);
3685
  trace_output_32 (addr);
3686
}
3687
 
3688
/* STR_IMM instructions.  */
3689
/* storb . */
3690
void
3691
OP_81_8 ()
3692
{
3693
  uint8 a = (OP[0]) & 0xff;
3694
  trace_input ("storb", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
3695
  uint32 addr = OP[1];
3696
  SB (addr, a);
3697
  trace_output_32 (addr);
3698
}
3699
 
3700
/* storb.  */
3701
void
3702
OP_123_14 ()
3703
{
3704
  uint8 a = (OP[0]) & 0xff;
3705
  trace_input ("storb", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
3706
  uint32 addr = OP[1];
3707
  SB (addr, a);
3708
  trace_output_32 (addr);
3709
}
3710
 
3711
/* storb.  */
3712
void
3713
OP_42_7 ()
3714
{
3715
  uint32 addr;
3716
  uint8 a = (OP[0]) & 0xff;
3717
  trace_input ("storb", OP_CONSTANT4, OP_R_INDEX8_ABS20, OP_VOID);
3718
 
3719
  if (OP[1] == 0)
3720
     addr = (GPR32 (12)) + OP[2];
3721
  else
3722
     addr = (GPR32 (13)) + OP[2];
3723
 
3724
  SB (addr, a);
3725
  trace_output_32 (addr);
3726
}
3727
 
3728
/* storb.  */
3729
void
3730
OP_218_A ()
3731
{
3732
  uint8 a = (OP[0]) & 0xff;
3733
  trace_input ("storb", OP_CONSTANT4, OP_RP_BASE_DISP14, OP_VOID);
3734
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3735
  SB (addr, a);
3736
  trace_output_32 (addr);
3737
}
3738
 
3739
/* storb.  */
3740
void
3741
OP_82_8 ()
3742
{
3743
  uint8 a = (OP[0]) & 0xff;
3744
  trace_input ("storb", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
3745
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3746
  SB (addr, a);
3747
  trace_output_32 (addr);
3748
}
3749
 
3750
/* storb.  */
3751
void
3752
OP_120_14 ()
3753
{
3754
  uint8 a = (OP[0]) & 0xff;
3755
  trace_input ("storb", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
3756
  uint32 addr = (GPR (OP[2])) + OP[1];
3757
  SB (addr, a);
3758
  trace_output_32 (addr);
3759
}
3760
 
3761
/* storb.  */
3762
void
3763
OP_83_8 ()
3764
{
3765
  uint8 a = (OP[0]) & 0xff;
3766
  trace_input ("storb", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
3767
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3768
  SB (addr, a);
3769
  trace_output_32 (addr);
3770
}
3771
 
3772
/* storb.  */
3773
void
3774
OP_121_14 ()
3775
{
3776
  uint8 a = (OP[0]) & 0xff;
3777
  trace_input ("storb", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
3778
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3779
  SB (addr, a);
3780
  trace_output_32 (addr);
3781
}
3782
 
3783
/* storb.  */
3784
void
3785
OP_122_14 ()
3786
{
3787
  uint8 a = (OP[0]) & 0xff;
3788
  trace_input ("storb", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
3789
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3790
  SB (addr, a);
3791
  trace_output_32 (addr);
3792
}
3793
/* endif for STR_IMM.  */
3794
 
3795
/* storw . */
3796
void
3797
OP_C9_8 ()
3798
{
3799
  uint16 a = GPR (OP[0]);
3800
  trace_input ("storw", OP_REG, OP_ABS20_OUTPUT, OP_VOID);
3801
  uint32 addr =  OP[1];
3802
  SW (addr, a);
3803
  trace_output_32 (addr);
3804
}
3805
 
3806
/* storw.  */
3807
void
3808
OP_13F_14 ()
3809
{
3810
  uint16 a = GPR (OP[0]);
3811
  trace_input ("storw", OP_REG, OP_ABS24_OUTPUT, OP_VOID);
3812
  uint32 addr =  OP[1];
3813
  SW (addr, a);
3814
  trace_output_32 (addr);
3815
}
3816
 
3817
/* storw.  */
3818
void
3819
OP_67_7 ()
3820
{
3821
  uint32 addr;
3822
  uint16 a = GPR (OP[0]);
3823
  trace_input ("storw", OP_REG, OP_R_INDEX8_ABS20, OP_VOID);
3824
 
3825
  if (OP[1] == 0)
3826
     addr = (GPR32 (12)) + OP[2];
3827
  else
3828
     addr = (GPR32 (13)) + OP[2];
3829
 
3830
  SW (addr, a);
3831
  trace_output_32 (addr);
3832
}
3833
 
3834
 
3835
/* storw.  */
3836
void
3837
OP_D_4 ()
3838
{
3839
  uint16 a = (GPR (OP[0]));
3840
  trace_input ("storw", OP_REGP, OP_RP_BASE_DISPE4, OP_VOID);
3841
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3842
  SW (addr, a);
3843
  trace_output_32 (addr);
3844
}
3845
 
3846
/* storw.  */
3847
void
3848
OP_DE_8 ()
3849
{
3850
  uint16 a = GPR (OP[0]);
3851
  trace_input ("storw", OP_REG, OP_RP_INDEX_DISP0, OP_VOID);
3852
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3853
  SW (addr, a);
3854
  trace_output_32 (addr);
3855
}
3856
 
3857
/* storw.  */
3858
void
3859
OP_31B_A ()
3860
{
3861
  uint16 a = GPR (OP[0]);
3862
  trace_input ("storw", OP_REG, OP_RP_INDEX_DISP14, OP_VOID);
3863
  uint32 addr = (GPR32 (OP[2])) + OP[1];
3864
  SW (addr, a);
3865
  trace_output_32 (addr);
3866
}
3867
 
3868
/* storw.  */
3869
void
3870
OP_19C_14 ()
3871
{
3872
  uint16 a = (GPR (OP[0]));
3873
  trace_input ("storw", OP_REGP, OP_RP_BASE_DISPE20, OP_VOID);
3874
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3875
  SW (addr, a);
3876
  trace_output_32 (addr);
3877
}
3878
 
3879
/* storw.  */
3880
void
3881
OP_13C_14 ()
3882
{
3883
  uint16 a = (GPR (OP[0]));
3884
  trace_input ("storw", OP_REG, OP_R_BASE_DISPS20, OP_VOID);
3885
  uint32 addr =  (GPR (OP[2])) + OP[1];
3886
  SW (addr, a);
3887
  trace_output_32 (addr);
3888
}
3889
 
3890
/* storw.  */
3891
void
3892
OP_DF_8 ()
3893
{
3894
  uint16 a = (GPR (OP[0]));
3895
  trace_input ("storw", OP_REG, OP_RP_BASE_DISP16, OP_VOID);
3896
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3897
  SW (addr, a);
3898
  trace_output_32 (addr);
3899
}
3900
 
3901
/* storw.  */
3902
void
3903
OP_13D_14 ()
3904
{
3905
  uint16 a = (GPR (OP[0]));
3906
  trace_input ("storw", OP_REG, OP_RP_BASE_DISPS20, OP_VOID);
3907
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3908
  SW (addr, a);
3909
  trace_output_32 (addr);
3910
}
3911
 
3912
/* storw.  */
3913
void
3914
OP_19D_14 ()
3915
{
3916
  uint16 a = (GPR (OP[0]));
3917
  trace_input ("storw", OP_REG, OP_RP_BASE_DISPE20, OP_VOID);
3918
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3919
  SW (addr, a);
3920
  trace_output_32 (addr);
3921
}
3922
 
3923
/* storw.  */
3924
void
3925
OP_13E_14 ()
3926
{
3927
  uint16 a = (GPR (OP[0]));
3928
  trace_input ("storw", OP_REG, OP_RP_INDEX_DISPS20, OP_VOID);
3929
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3930
  SW (addr, a);
3931
  trace_output_32 (addr);
3932
}
3933
 
3934
/* STORE-w IMM instruction *****/
3935
/* storw . */
3936
void
3937
OP_C1_8 ()
3938
{
3939
  uint16 a = OP[0];
3940
  trace_input ("storw", OP_CONSTANT4, OP_ABS20_OUTPUT, OP_VOID);
3941
  uint32 addr =  OP[1];
3942
  SW (addr, a);
3943
  trace_output_32 (addr);
3944
}
3945
 
3946
/* storw.  */
3947
void
3948
OP_133_14 ()
3949
{
3950
  uint16 a = OP[0];
3951
  trace_input ("storw", OP_CONSTANT4, OP_ABS24_OUTPUT, OP_VOID);
3952
  uint32 addr =  OP[1];
3953
  SW (addr, a);
3954
  trace_output_32 (addr);
3955
}
3956
 
3957
/* storw.  */
3958
void
3959
OP_62_7 ()
3960
{
3961
  uint32 addr;
3962
  uint16 a = OP[0];
3963
  trace_input ("storw", OP_CONSTANT4, OP_R_INDEX8_ABS20, OP_VOID);
3964
 
3965
  if (OP[1] == 0)
3966
     addr = (GPR32 (12)) + OP[2];
3967
  else
3968
     addr = (GPR32 (13)) + OP[2];
3969
 
3970
  SW (addr, a);
3971
  trace_output_32 (addr);
3972
}
3973
 
3974
/* storw.  */
3975
void
3976
OP_318_A ()
3977
{
3978
  uint16 a = OP[0];
3979
  trace_input ("storw", OP_CONSTANT4, OP_RP_BASE_DISP14, OP_VOID);
3980
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3981
  SW (addr, a);
3982
  trace_output_32 (addr);
3983
}
3984
 
3985
/* storw.  */
3986
void
3987
OP_C2_8 ()
3988
{
3989
  uint16 a = OP[0];
3990
  trace_input ("storw", OP_CONSTANT4, OP_RP_INDEX_DISP0, OP_VOID);
3991
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
3992
  SW (addr, a);
3993
  trace_output_32 (addr);
3994
}
3995
 
3996
/* storw.  */
3997
void
3998
OP_130_14 ()
3999
{
4000
  uint16 a = OP[0];
4001
  trace_input ("storw", OP_CONSTANT4, OP_R_BASE_DISPS20, OP_VOID);
4002
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4003
  SW (addr, a);
4004
  trace_output_32 (addr);
4005
}
4006
 
4007
/* storw.  */
4008
void
4009
OP_C3_8 ()
4010
{
4011
  uint16 a = OP[0];
4012
  trace_input ("storw", OP_CONSTANT4, OP_RP_BASE_DISP16, OP_VOID);
4013
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4014
  SW (addr, a);
4015
  trace_output_32 (addr);
4016
}
4017
 
4018
 
4019
/* storw.  */
4020
void
4021
OP_131_14 ()
4022
{
4023
  uint16 a = OP[0];
4024
  trace_input ("storw", OP_CONSTANT4, OP_RP_BASE_DISPS20, OP_VOID);
4025
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4026
  SW (addr, a);
4027
  trace_output_32 (addr);
4028
}
4029
 
4030
/* storw.  */
4031
void
4032
OP_132_14 ()
4033
{
4034
  uint16 a = OP[0];
4035
  trace_input ("storw", OP_CONSTANT4, OP_RP_INDEX_DISPS20, OP_VOID);
4036
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4037
  SW (addr, a);
4038
  trace_output_32 (addr);
4039
}
4040
 
4041
 
4042
/* stord.  */
4043
void
4044
OP_C7_8 ()
4045
{
4046
  uint32 a = GPR32 (OP[0]);
4047
  trace_input ("stord", OP_REGP, OP_ABS20_OUTPUT, OP_VOID);
4048
  uint32 addr =  OP[1];
4049
  SLW (addr, a);
4050
  trace_output_32 (addr);
4051
}
4052
 
4053
/* stord.  */
4054
void
4055
OP_13B_14 ()
4056
{
4057
  uint32 a = GPR32 (OP[0]);
4058
  trace_input ("stord", OP_REGP, OP_ABS24_OUTPUT, OP_VOID);
4059
  uint32 addr =  OP[1];
4060
  SLW (addr, a);
4061
  trace_output_32 (addr);
4062
}
4063
 
4064
/* stord.  */
4065
void
4066
OP_66_7 ()
4067
{
4068
  uint32 addr, a = GPR32 (OP[0]);
4069
  trace_input ("stord", OP_REGP, OP_R_INDEX8_ABS20, OP_VOID);
4070
 
4071
  if (OP[1] == 0)
4072
     addr = (GPR32 (12)) + OP[2];
4073
  else
4074
     addr = (GPR32 (13)) + OP[2];
4075
 
4076
  SLW (addr, a);
4077
  trace_output_32 (addr);
4078
}
4079
 
4080
/* stord.  */
4081
void
4082
OP_E_4 ()
4083
{
4084
  uint32 a = GPR32 (OP[0]);
4085
  trace_input ("stord", OP_REGP, OP_RP_BASE_DISPE4, OP_VOID);
4086
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4087
  SLW (addr, a);
4088
  trace_output_32 (addr);
4089
}
4090
 
4091
/* stord.  */
4092
void
4093
OP_EE_8 ()
4094
{
4095
  uint32 a = GPR32 (OP[0]);
4096
  trace_input ("stord", OP_REGP, OP_RP_INDEX_DISP0, OP_VOID);
4097
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4098
  SLW (addr, a);
4099
  trace_output_32 (addr);
4100
}
4101
 
4102
/* stord.  */
4103
void
4104
OP_31A_A ()
4105
{
4106
  uint32 a = GPR32 (OP[0]);
4107
  trace_input ("stord", OP_REGP, OP_RP_INDEX_DISP14, OP_VOID);
4108
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4109
  SLW (addr, a);
4110
  trace_output_32 (addr);
4111
}
4112
 
4113
/* stord.  */
4114
void
4115
OP_198_14 ()
4116
{
4117
  uint32 a = GPR32 (OP[0]);
4118
  trace_input ("stord", OP_REGP, OP_R_BASE_DISPE20, OP_VOID);
4119
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4120
  SLW (addr, a);
4121
  trace_output_32 (addr);
4122
}
4123
 
4124
/* stord.  */
4125
void
4126
OP_138_14 ()
4127
{
4128
  uint32 a = GPR32 (OP[0]);
4129
  trace_input ("stord", OP_REGP, OP_R_BASE_DISPS20, OP_VOID);
4130
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4131
  SLW (addr, a);
4132
  trace_output_32 (addr);
4133
}
4134
 
4135
/* stord.  */
4136
void
4137
OP_EF_8 ()
4138
{
4139
  uint32 a = GPR32 (OP[0]);
4140
  trace_input ("stord", OP_REGP, OP_RP_BASE_DISP16, OP_VOID);
4141
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4142
  SLW (addr, a);
4143
  trace_output_32 (addr);
4144
}
4145
 
4146
/* stord.  */
4147
void
4148
OP_139_14 ()
4149
{
4150
  uint32 a = GPR32 (OP[0]);
4151
  trace_input ("stord", OP_REGP, OP_RP_BASE_DISPS20, OP_VOID);
4152
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4153
  SLW (addr, a);
4154
  trace_output_32 (addr);
4155
}
4156
 
4157
/* stord.  */
4158
void
4159
OP_199_14 ()
4160
{
4161
  uint32 a = GPR32 (OP[0]);
4162
  trace_input ("stord", OP_REGP, OP_RP_BASE_DISPE20, OP_VOID);
4163
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4164
  SLW (addr, a);
4165
  trace_output_32 (addr);
4166
}
4167
 
4168
/* stord.  */
4169
void
4170
OP_13A_14 ()
4171
{
4172
  uint32 a = GPR32 (OP[0]);
4173
  trace_input ("stord", OP_REGP, OP_RP_INDEX_DISPS20, OP_VOID);
4174
  uint32 addr =  (GPR32 (OP[2])) + OP[1];
4175
  SLW (addr, a);
4176
  trace_output_32 (addr);
4177
}
4178
 
4179
/* macqu.  */
4180
void
4181
OP_14D_14 ()
4182
{
4183
  int32 tmp;
4184
  int16 src1, src2;
4185
  trace_input ("macuw", OP_REG, OP_REG, OP_REGP);
4186
  src1 = GPR (OP[0]);
4187
  src2 = GPR (OP[1]);
4188
  tmp = src1 * src2;
4189
  /*REVISIT FOR SATURATION and Q FORMAT. */
4190
  SET_GPR32 (OP[2], tmp);
4191
  trace_output_32 (tmp);
4192
}
4193
 
4194
/* macuw.  */
4195
void
4196
OP_14E_14 ()
4197
{
4198
  uint32 tmp;
4199
  uint16 src1, src2;
4200
  trace_input ("macuw", OP_REG, OP_REG, OP_REGP);
4201
  src1 = GPR (OP[0]);
4202
  src2 = GPR (OP[1]);
4203
  tmp = src1 * src2;
4204
  /*REVISIT FOR SATURATION. */
4205
  SET_GPR32 (OP[2], tmp);
4206
  trace_output_32 (tmp);
4207
}
4208
 
4209
/* macsw.  */
4210
void
4211
OP_14F_14 ()
4212
{
4213
  int32 tmp;
4214
  int16 src1, src2;
4215
  trace_input ("macsw", OP_REG, OP_REG, OP_REGP);
4216
  src1 = GPR (OP[0]);
4217
  src2 = GPR (OP[1]);
4218
  tmp = src1 * src2;
4219
  /*REVISIT FOR SATURATION. */
4220
  SET_GPR32 (OP[2], tmp);
4221
  trace_output_32 (tmp);
4222
}
4223
 
4224
 
4225
/* mulb.  */
4226
void
4227
OP_64_8 ()
4228
{
4229
  int16 tmp;
4230
  int8 a = (OP[0]) & 0xff;
4231
  int8 b = (GPR (OP[1])) & 0xff;
4232
  trace_input ("mulb", OP_CONSTANT4_1, OP_REG, OP_VOID);
4233
  tmp = (a * b) & 0xff;
4234
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
4235
  trace_output_16 (tmp);
4236
}
4237
 
4238
/* mulb.  */
4239
void
4240
OP_64B_C ()
4241
{
4242
  int16 tmp;
4243
  int8 a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
4244
  trace_input ("mulb", OP_CONSTANT4, OP_REG, OP_VOID);
4245
  tmp = (a * b) & 0xff;
4246
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
4247
  trace_output_16 (tmp);
4248
}
4249
 
4250
 
4251
/* mulb.  */
4252
void
4253
OP_65_8 ()
4254
{
4255
  int16 tmp;
4256
  int8 a = (GPR (OP[0])) & 0xff, b = (GPR (OP[1])) & 0xff;
4257
  trace_input ("mulb", OP_REG, OP_REG, OP_VOID);
4258
  tmp = (a * b) & 0xff;
4259
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
4260
  trace_output_16 (tmp);
4261
}
4262
 
4263
 
4264
/* mulw.  */
4265
void
4266
OP_66_8 ()
4267
{
4268
  int32 tmp;
4269
  uint16 a = OP[0];
4270
  int16 b = (GPR (OP[1]));
4271
  trace_input ("mulw", OP_CONSTANT4_1, OP_REG, OP_VOID);
4272
  tmp = (a * b) & 0xffff;
4273
  SET_GPR (OP[1], tmp);
4274
  trace_output_32 (tmp);
4275
}
4276
 
4277
/* mulw.  */
4278
void
4279
OP_66B_C ()
4280
{
4281
  int32 tmp;
4282
  int16 a = OP[0], b = (GPR (OP[1]));
4283
  trace_input ("mulw", OP_CONSTANT4, OP_REG, OP_VOID);
4284
  tmp = (a * b) & 0xffff;
4285
  SET_GPR (OP[1], tmp);
4286
  trace_output_32 (tmp);
4287
}
4288
 
4289
 
4290
/* mulw.  */
4291
void
4292
OP_67_8 ()
4293
{
4294
  int32 tmp;
4295
  int16 a = (GPR (OP[0])), b = (GPR (OP[1]));
4296
  trace_input ("mulw", OP_REG, OP_REG, OP_VOID);
4297
  tmp = (a * b) & 0xffff;
4298
  SET_GPR (OP[1], tmp);
4299
  trace_output_32 (tmp);
4300
}
4301
 
4302
 
4303
/* mulsb.  */
4304
void
4305
OP_B_8 ()
4306
{
4307
  int16 tmp;
4308
  int8 a = (GPR (OP[0])) & 0xff, b = (GPR (OP[1])) & 0xff;
4309
  trace_input ("mulsb", OP_REG, OP_REG, OP_VOID);
4310
  tmp = a * b;
4311
  SET_GPR (OP[1], tmp);
4312
  trace_output_32 (tmp);
4313
}
4314
 
4315
/* mulsw.  */
4316
void
4317
OP_62_8 ()
4318
{
4319
  int32 tmp;
4320
  int16 a = (GPR (OP[0])), b = (GPR (OP[1]));
4321
  trace_input ("mulsw", OP_REG, OP_REGP, OP_VOID);
4322
  tmp = a * b;
4323
  SET_GPR32 (OP[1], tmp);
4324
  trace_output_32 (tmp);
4325
}
4326
 
4327
/* muluw.  */
4328
void
4329
OP_63_8 ()
4330
{
4331
  uint32 tmp;
4332
  uint16 a = (GPR (OP[0])), b = (GPR (OP[1]));
4333
  trace_input ("muluw", OP_REG, OP_REGP, OP_VOID);
4334
  tmp = a * b;
4335
  SET_GPR32 (OP[1], tmp);
4336
  trace_output_32 (tmp);
4337
}
4338
 
4339
 
4340
/* nop.  */
4341
void
4342
OP_2C00_10 ()
4343
{
4344
  trace_input ("nop", OP_VOID, OP_VOID, OP_VOID);
4345
 
4346
#if 0
4347
  State.exception = SIGTRAP;
4348
  ins_type_counters[ (int)State.ins_type ]--;   /* don't count nops as normal instructions */
4349
  switch (State.ins_type)
4350
    {
4351
    default:
4352
      ins_type_counters[ (int)INS_UNKNOWN ]++;
4353
      break;
4354
 
4355
    }
4356
 
4357
#endif
4358
  trace_output_void ();
4359
}
4360
 
4361
 
4362
/* orb.  */
4363
void
4364
OP_24_8 ()
4365
{
4366
  uint8 tmp, a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
4367
  trace_input ("orb", OP_CONSTANT4, OP_REG, OP_VOID);
4368
  tmp = a | b;
4369
  SET_GPR (OP[1], ((GPR (OP[1]) | tmp)));
4370
  trace_output_16 (tmp);
4371
}
4372
 
4373
/* orb.  */
4374
void
4375
OP_24B_C ()
4376
{
4377
  uint8 tmp, a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
4378
  trace_input ("orb", OP_CONSTANT16, OP_REG, OP_VOID);
4379
  tmp = a | b;
4380
  SET_GPR (OP[1], ((GPR (OP[1]) | tmp)));
4381
  trace_output_16 (tmp);
4382
}
4383
 
4384
/* orb.  */
4385
void
4386
OP_25_8 ()
4387
{
4388
  uint8 tmp, a = (GPR (OP[0])) & 0xff, b = (GPR (OP[1])) & 0xff;
4389
  trace_input ("orb", OP_REG, OP_REG, OP_VOID);
4390
  tmp = a | b;
4391
  SET_GPR (OP[1], ((GPR (OP[1]) | tmp)));
4392
  trace_output_16 (tmp);
4393
}
4394
 
4395
/* orw.  */
4396
void
4397
OP_26_8 ()
4398
{
4399
  uint16 tmp, a = (OP[0]), b = (GPR (OP[1]));
4400
  trace_input ("orw", OP_CONSTANT4, OP_REG, OP_VOID);
4401
  tmp = a | b;
4402
  SET_GPR (OP[1], tmp);
4403
  trace_output_16 (tmp);
4404
}
4405
 
4406
 
4407
/* orw.  */
4408
void
4409
OP_26B_C ()
4410
{
4411
  uint16 tmp, a = (OP[0]), b = (GPR (OP[1]));
4412
  trace_input ("orw", OP_CONSTANT16, OP_REG, OP_VOID);
4413
  tmp = a | b;
4414
  SET_GPR (OP[1], tmp);
4415
  trace_output_16 (tmp);
4416
}
4417
 
4418
/* orw.  */
4419
void
4420
OP_27_8 ()
4421
{
4422
  uint16 tmp, a = (GPR (OP[0])), b = (GPR (OP[1]));
4423
  trace_input ("orw", OP_REG, OP_REG, OP_VOID);
4424
  tmp = a | b;
4425
  SET_GPR (OP[1], tmp);
4426
  trace_output_16 (tmp);
4427
}
4428
 
4429
 
4430
/* lshb.  */
4431
void
4432
OP_13_9 ()
4433
{
4434
  uint16 a = OP[0];
4435
  uint16 tmp, b = (GPR (OP[1])) & 0xFF;
4436
  trace_input ("lshb", OP_CONSTANT4, OP_REG, OP_VOID);
4437
  /* A positive count specifies a shift to the left;
4438
   * A negative count specifies a shift to the right. */
4439
  if (sign_flag)
4440
    tmp = b >> a;
4441
  else
4442
    tmp = b << a;
4443
 
4444
  sign_flag = 0; /* Reset sign_flag.  */
4445
 
4446
  SET_GPR (OP[1], ((tmp & 0xFF) | ((GPR (OP[1])) & 0xFF00)));
4447
  trace_output_16 (tmp);
4448
}
4449
 
4450
/* lshb.  */
4451
void
4452
OP_44_8 ()
4453
{
4454
  uint16 a = (GPR (OP[0])) & 0xff;
4455
  uint16 tmp, b = (GPR (OP[1])) & 0xFF;
4456
  trace_input ("lshb", OP_REG, OP_REG, OP_VOID);
4457
  if (a & ((long)1 << 3))
4458
    {
4459
      sign_flag = 1;
4460
      a = ~(a) + 1;
4461
    }
4462
  a = (unsigned int) (a & 0x7);
4463
 
4464
  /* A positive count specifies a shift to the left;
4465
   * A negative count specifies a shift to the right. */
4466
  if (sign_flag)
4467
    tmp = b >> a;
4468
  else
4469
    tmp = b << a;
4470
 
4471
  sign_flag = 0; /* Reset sign_flag.  */
4472
  SET_GPR (OP[1], ((tmp & 0xFF) | ((GPR (OP[1])) & 0xFF00)));
4473
  trace_output_16 (tmp);
4474
}
4475
 
4476
/* lshw.  */
4477
void
4478
OP_46_8 ()
4479
{
4480
  uint16 tmp, b = GPR (OP[1]);
4481
  int16 a = GPR (OP[0]);
4482
  trace_input ("lshw", OP_REG, OP_REG, OP_VOID);
4483
  if (a & ((long)1 << 4))
4484
    {
4485
      sign_flag = 1;
4486
      a = ~(a) + 1;
4487
    }
4488
  a = (unsigned int) (a & 0xf);
4489
 
4490
  /* A positive count specifies a shift to the left;
4491
   * A negative count specifies a shift to the right. */
4492
  if (sign_flag)
4493
    tmp = b >> a;
4494
  else
4495
    tmp = b << a;
4496
 
4497
  sign_flag = 0; /* Reset sign_flag.  */
4498
  SET_GPR (OP[1], (tmp & 0xffff));
4499
  trace_output_16 (tmp);
4500
}
4501
 
4502
/* lshw.  */
4503
void
4504
OP_49_8 ()
4505
{
4506
  uint16 tmp, b = GPR (OP[1]);
4507
  uint16 a = OP[0];
4508
  trace_input ("lshw", OP_CONSTANT5, OP_REG, OP_VOID);
4509
  /* A positive count specifies a shift to the left;
4510
   * A negative count specifies a shift to the right. */
4511
  if (sign_flag)
4512
    tmp = b >> a;
4513
  else
4514
    tmp = b << a;
4515
 
4516
  sign_flag = 0; /* Reset sign_flag.  */
4517
  SET_GPR (OP[1], (tmp & 0xffff));
4518
  trace_output_16 (tmp);
4519
}
4520
 
4521
/* lshd.  */
4522
void
4523
OP_25_7 ()
4524
{
4525
  uint32 tmp, b = GPR32 (OP[1]);
4526
  uint16 a = OP[0];
4527
  trace_input ("lshd", OP_CONSTANT6, OP_REGP, OP_VOID);
4528
  /* A positive count specifies a shift to the left;
4529
   * A negative count specifies a shift to the right. */
4530
  if (sign_flag)
4531
    tmp = b >> a;
4532
  else
4533
    tmp = b << a;
4534
 
4535
  sign_flag = 0; /* Reset sign flag.  */
4536
 
4537
  SET_GPR32 (OP[1], tmp);
4538
  trace_output_32 (tmp);
4539
}
4540
 
4541
/* lshd.  */
4542
void
4543
OP_47_8 ()
4544
{
4545
  uint32 tmp, b = GPR32 (OP[1]);
4546
  uint16 a = GPR (OP[0]);
4547
  trace_input ("lshd", OP_REG, OP_REGP, OP_VOID);
4548
  if (a & ((long)1 << 5))
4549
    {
4550
      sign_flag = 1;
4551
      a = ~(a) + 1;
4552
    }
4553
  a = (unsigned int) (a & 0x1f);
4554
  /* A positive count specifies a shift to the left;
4555
   * A negative count specifies a shift to the right. */
4556
  if (sign_flag)
4557
    tmp = b >> a;
4558
  else
4559
    tmp = b << a;
4560
 
4561
  sign_flag = 0; /* Reset sign flag.  */
4562
 
4563
  SET_GPR32 (OP[1], tmp);
4564
  trace_output_32 (tmp);
4565
}
4566
 
4567
/* ashub.  */
4568
void
4569
OP_80_9 ()
4570
{
4571
  uint16 a = OP[0];
4572
  int8 tmp, b = (GPR (OP[1])) & 0xFF;
4573
  trace_input ("ashub", OP_CONSTANT4, OP_REG, OP_VOID);
4574
  /* A positive count specifies a shift to the left;
4575
   * A negative count specifies a shift to the right. */
4576
  if (sign_flag)
4577
    tmp = b >> a;
4578
  else
4579
    tmp = b << a;
4580
 
4581
  sign_flag = 0; /* Reset sign flag.  */
4582
 
4583
  SET_GPR (OP[1], ((tmp & 0xFF) | ((GPR (OP[1])) & 0xff00)));
4584
  trace_output_16 (tmp);
4585
}
4586
 
4587
/* ashub.  */
4588
void
4589
OP_81_9 ()
4590
{
4591
  uint16 a = OP[0];
4592
  int8 tmp, b = (GPR (OP[1])) & 0xFF;
4593
  trace_input ("ashub", OP_CONSTANT4, OP_REG, OP_VOID);
4594
  /* A positive count specifies a shift to the left;
4595
   * A negative count specifies a shift to the right. */
4596
  if (sign_flag)
4597
    tmp = b >> a;
4598
  else
4599
    tmp = b << a;
4600
 
4601
  sign_flag = 0; /* Reset sign flag.  */
4602
 
4603
  SET_GPR (OP[1], ((tmp & 0xFF) | ((GPR (OP[1])) & 0xFF00)));
4604
  trace_output_16 (tmp);
4605
}
4606
 
4607
 
4608
/* ashub.  */
4609
void
4610
OP_41_8 ()
4611
{
4612
  int16 a = (GPR (OP[0]));
4613
  int8 tmp, b = (GPR (OP[1])) & 0xFF;
4614
  trace_input ("ashub", OP_REG, OP_REG, OP_VOID);
4615
 
4616
  if (a & ((long)1 << 3))
4617
    {
4618
      sign_flag = 1;
4619
      a = ~(a) + 1;
4620
    }
4621
  a = (unsigned int) (a & 0x7);
4622
 
4623
  /* A positive count specifies a shift to the left;
4624
   * A negative count specifies a shift to the right. */
4625
  if (sign_flag)
4626
    tmp = b >> a;
4627
  else
4628
    tmp = b << a;
4629
 
4630
  sign_flag = 0; /* Reset sign flag.  */
4631
 
4632
  SET_GPR (OP[1], ((tmp & 0xFF) | ((GPR (OP[1])) & 0xFF00)));
4633
  trace_output_16 (tmp);
4634
}
4635
 
4636
 
4637
/* ashuw.  */
4638
void
4639
OP_42_8 ()
4640
{
4641
  int16 tmp, b = GPR (OP[1]);
4642
  uint16 a = OP[0];
4643
  trace_input ("ashuw", OP_CONSTANT5, OP_REG, OP_VOID);
4644
  /* A positive count specifies a shift to the left;
4645
   * A negative count specifies a shift to the right. */
4646
  if (sign_flag)
4647
    tmp = b >> a;
4648
  else
4649
    tmp = b << a;
4650
 
4651
  sign_flag = 0; /* Reset sign flag.  */
4652
 
4653
  SET_GPR (OP[1], (tmp & 0xffff));
4654
  trace_output_16 (tmp);
4655
}
4656
 
4657
/* ashuw.  */
4658
void
4659
OP_43_8 ()
4660
{
4661
  int16 tmp, b = GPR (OP[1]);
4662
  uint16 a = OP[0];
4663
  trace_input ("ashuw", OP_CONSTANT5, OP_REG, OP_VOID);
4664
  /* A positive count specifies a shift to the left;
4665
   * A negative count specifies a shift to the right. */
4666
  if (sign_flag)
4667
    tmp = b >> a;
4668
  else
4669
    tmp = b << a;
4670
 
4671
  sign_flag = 0; /* Reset sign flag.  */
4672
  SET_GPR (OP[1], (tmp & 0xffff));
4673
  trace_output_16 (tmp);
4674
}
4675
 
4676
/* ashuw.  */
4677
void
4678
OP_45_8 ()
4679
{
4680
  int16 tmp;
4681
  int16 a = GPR (OP[0]), b = GPR (OP[1]);
4682
  trace_input ("ashuw", OP_REG, OP_REG, OP_VOID);
4683
 
4684
  if (a & ((long)1 << 4))
4685
    {
4686
      sign_flag = 1;
4687
      a = ~(a) + 1;
4688
    }
4689
  a = (unsigned int) (a & 0xf);
4690
  /* A positive count specifies a shift to the left;
4691
   * A negative count specifies a shift to the right. */
4692
 
4693
  if (sign_flag)
4694
    tmp = b >> a;
4695
  else
4696
    tmp = b << a;
4697
 
4698
  sign_flag = 0; /* Reset sign flag.  */
4699
  SET_GPR (OP[1], (tmp & 0xffff));
4700
  trace_output_16 (tmp);
4701
}
4702
 
4703
/* ashud.  */
4704
void
4705
OP_26_7 ()
4706
{
4707
  int32 tmp,b = GPR32 (OP[1]);
4708
  uint32 a = OP[0];
4709
  trace_input ("ashud", OP_CONSTANT6, OP_REGP, OP_VOID);
4710
  /* A positive count specifies a shift to the left;
4711
   * A negative count specifies a shift to the right. */
4712
  if (sign_flag)
4713
    tmp = b >> a;
4714
  else
4715
    tmp = b << a;
4716
 
4717
  sign_flag = 0; /* Reset sign flag.  */
4718
  SET_GPR32 (OP[1], tmp);
4719
  trace_output_32 (tmp);
4720
}
4721
 
4722
/* ashud.  */
4723
void
4724
OP_27_7 ()
4725
{
4726
  int32 tmp;
4727
  int32 a = OP[0], b = GPR32 (OP[1]);
4728
  trace_input ("ashud", OP_CONSTANT6, OP_REGP, OP_VOID);
4729
  /* A positive count specifies a shift to the left;
4730
   * A negative count specifies a shift to the right. */
4731
  if (sign_flag)
4732
    tmp = b >> a;
4733
  else
4734
    tmp = b << a;
4735
 
4736
  sign_flag = 0; /* Reset sign flag.  */
4737
  SET_GPR32 (OP[1], tmp);
4738
  trace_output_32 (tmp);
4739
}
4740
 
4741
/* ashud.  */
4742
void
4743
OP_48_8 ()
4744
{
4745
  int32 tmp;
4746
  int32 a = GPR32 (OP[0]), b = GPR32 (OP[1]);
4747
  trace_input ("ashud", OP_REGP, OP_REGP, OP_VOID);
4748
 
4749
  if (a & ((long)1 << 5))
4750
    {
4751
      sign_flag = 1;
4752
      a = ~(a) + 1;
4753
    }
4754
  a = (unsigned int) (a & 0x1f);
4755
  /* A positive count specifies a shift to the left;
4756
   * A negative count specifies a shift to the right. */
4757
  if (sign_flag)
4758
    tmp = b >> a;
4759
  else
4760
    tmp = b << a;
4761
 
4762
  sign_flag = 0; /* Reset sign flag.  */
4763
  SET_GPR32 (OP[1], tmp);
4764
  trace_output_32 (tmp);
4765
}
4766
 
4767
 
4768
/* storm.  */
4769
void
4770
OP_16_D ()
4771
{
4772
  uint32 addr = GPR (1);
4773
  uint16 count = OP[0], reg = 2;
4774
  trace_input ("storm", OP_CONSTANT4, OP_VOID, OP_VOID);
4775
  if ((addr & 1))
4776
    {
4777
      State.exception = SIG_CR16_BUS;
4778
      State.pc_changed = 1; /* Don't increment the PC. */
4779
      trace_output_void ();
4780
      return;
4781
    }
4782
 
4783
  while (count)
4784
    {
4785
      SW (addr, (GPR (reg)));
4786
      addr +=2;
4787
      --count;
4788
      reg++;
4789
      if (reg == 6) reg = 8;
4790
    };
4791
 
4792
  SET_GPR (1, addr);
4793
 
4794
  trace_output_void ();
4795
}
4796
 
4797
 
4798
/* stormp.  */
4799
void
4800
OP_17_D ()
4801
{
4802
  uint32 addr = GPR32 (6);
4803
  uint16 count = OP[0], reg = 2;
4804
  trace_input ("stormp", OP_CONSTANT4, OP_VOID, OP_VOID);
4805
  if ((addr & 1))
4806
    {
4807
      State.exception = SIG_CR16_BUS;
4808
      State.pc_changed = 1; /* Don't increment the PC. */
4809
      trace_output_void ();
4810
      return;
4811
    }
4812
 
4813
  while (count)
4814
    {
4815
      SW (addr, (GPR (reg)));
4816
      addr +=2;
4817
      --count;
4818
      reg++;
4819
      if (reg == 6) reg = 8;
4820
    };
4821
 
4822
  SET_GPR32 (6, addr);
4823
  trace_output_void ();
4824
}
4825
 
4826
/* subb.  */
4827
void
4828
OP_38_8 ()
4829
{
4830
  uint8 a = OP[0];
4831
  uint8 b = (GPR (OP[1])) & 0xff;
4832
  uint16 tmp = (~a + 1 + b) & 0xff;
4833
  trace_input ("subb", OP_CONSTANT4, OP_REG, OP_VOID);
4834
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4835
     compute the carry/overflow bits. */
4836
  SET_PSR_C (tmp > 0xff);
4837
  SET_PSR_F (((a & 0x80) != (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
4838
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
4839
  trace_output_16 (tmp);
4840
}
4841
 
4842
/* subb.  */
4843
void
4844
OP_38B_C ()
4845
{
4846
  uint8 a = OP[0] & 0xFF;
4847
  uint8 b = (GPR (OP[1])) & 0xFF;
4848
  uint16 tmp = (~a + 1 + b) & 0xFF;
4849
  trace_input ("subb", OP_CONSTANT16, OP_REG, OP_VOID);
4850
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4851
     compute the carry/overflow bits. */
4852
  SET_PSR_C (tmp > 0xff);
4853
  SET_PSR_F (((a & 0x80) != (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
4854
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
4855
  trace_output_16 (tmp);
4856
}
4857
 
4858
/* subb.  */
4859
void
4860
OP_39_8 ()
4861
{
4862
  uint8 a = (GPR (OP[0])) & 0xFF;
4863
  uint8 b = (GPR (OP[1])) & 0xFF;
4864
  uint16 tmp = (~a + 1 + b) & 0xff;
4865
  trace_input ("subb", OP_REG, OP_REG, OP_VOID);
4866
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4867
     compute the carry/overflow bits. */
4868
  SET_PSR_C (tmp > 0xff);
4869
  SET_PSR_F (((a & 0x80) != (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
4870
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
4871
  trace_output_16 (tmp);
4872
}
4873
 
4874
/* subw.  */
4875
void
4876
OP_3A_8 ()
4877
{
4878
  uint16 a = OP[0];
4879
  uint16 b = GPR (OP[1]);
4880
  uint16 tmp = (~a + 1 + b);
4881
  trace_input ("subw", OP_CONSTANT4, OP_REG, OP_VOID);
4882
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4883
     compute the carry/overflow bits. */
4884
  SET_PSR_C (tmp > 0xffff);
4885
  SET_PSR_F (((a & 0x8000) != (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
4886
  SET_GPR (OP[1], tmp);
4887
  trace_output_16 (tmp);
4888
}
4889
 
4890
/* subw.  */
4891
void
4892
OP_3AB_C ()
4893
{
4894
  uint16 a = OP[0];
4895
  uint16 b = GPR (OP[1]);
4896
  uint32 tmp = (~a + 1 + b);
4897
  trace_input ("subw", OP_CONSTANT16, OP_REG, OP_VOID);
4898
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4899
     compute the carry/overflow bits. */
4900
  SET_PSR_C (tmp > 0xffff);
4901
  SET_PSR_F (((a & 0x8000) != (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
4902
  SET_GPR (OP[1], tmp & 0xffff);
4903
  trace_output_16 (tmp);
4904
}
4905
 
4906
/* subw.  */
4907
void
4908
OP_3B_8 ()
4909
{
4910
  uint16 a = GPR (OP[0]);
4911
  uint16 b = GPR (OP[1]);
4912
  uint32 tmp = (~a + 1 + b);
4913
  trace_input ("subw", OP_REG, OP_REG, OP_VOID);
4914
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4915
     compute the carry/overflow bits. */
4916
  SET_PSR_C (tmp > 0xffff);
4917
  SET_PSR_F (((a & 0x8000) != (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
4918
  SET_GPR (OP[1], tmp & 0xffff);
4919
  trace_output_16 (tmp);
4920
}
4921
 
4922
/* subcb.  */
4923
void
4924
OP_3C_8 ()
4925
{
4926
  uint8 a = OP[0];
4927
  uint8 b = (GPR (OP[1])) & 0xff;
4928
  //uint16 tmp1 = a + 1;
4929
  uint16 tmp1 = a + (PSR_C);
4930
  uint16 tmp = (~tmp1 + 1 + b);
4931
  trace_input ("subcb", OP_CONSTANT4, OP_REG, OP_VOID);
4932
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4933
     compute the carry/overflow bits. */
4934
  SET_PSR_C (tmp > 0xff);
4935
  SET_PSR_F (((a & 0x80) != (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
4936
  SET_GPR (OP[1], tmp);
4937
  trace_output_16 (tmp);
4938
}
4939
 
4940
/* subcb.  */
4941
void
4942
OP_3CB_C ()
4943
{
4944
  uint16 a = OP[0];
4945
  uint16 b = (GPR (OP[1])) & 0xff;
4946
  //uint16 tmp1 = a + 1;
4947
  uint16 tmp1 = a + (PSR_C);
4948
  uint16 tmp = (~tmp1 + 1 + b);
4949
  trace_input ("subcb", OP_CONSTANT16, OP_REG, OP_VOID);
4950
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4951
     compute the carry/overflow bits. */
4952
  SET_PSR_C (tmp > 0xff);
4953
  SET_PSR_F (((a & 0x80) != (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
4954
  SET_GPR (OP[1], tmp);
4955
  trace_output_16 (tmp);
4956
}
4957
 
4958
/* subcb.  */
4959
void
4960
OP_3D_8 ()
4961
{
4962
  uint16 a = (GPR (OP[0])) & 0xff;
4963
  uint16 b = (GPR (OP[1])) & 0xff;
4964
  uint16 tmp1 = a + (PSR_C);
4965
  uint16 tmp = (~tmp1 + 1 + b);
4966
  trace_input ("subcb", OP_REG, OP_REG, OP_VOID);
4967
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4968
     compute the carry/overflow bits. */
4969
  SET_PSR_C (tmp > 0xff);
4970
  SET_PSR_F (((a & 0x80) != (b & 0x80)) && ((b & 0x80) != (tmp & 0x80)));
4971
  SET_GPR (OP[1], tmp);
4972
  trace_output_16 (tmp);
4973
}
4974
 
4975
/* subcw.  */
4976
void
4977
OP_3E_8 ()
4978
{
4979
  uint16 a = OP[0], b = (GPR (OP[1]));
4980
  uint16 tmp1 = a + (PSR_C);
4981
  uint16 tmp = (~tmp1 + 1  + b);
4982
  trace_input ("subcw", OP_CONSTANT4, OP_REG, OP_VOID);
4983
  /* see ../common/sim-alu.h for a more extensive discussion on how to
4984
     compute the carry/overflow bits. */
4985
  SET_PSR_C (tmp > 0xffff);
4986
  SET_PSR_F (((a & 0x8000) != (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
4987
  SET_GPR (OP[1], tmp);
4988
  trace_output_16 (tmp);
4989
}
4990
 
4991
/* subcw.  */
4992
void
4993
OP_3EB_C ()
4994
{
4995
  int16 a = OP[0];
4996
  uint16 b = GPR (OP[1]);
4997
  uint16 tmp1 = a + (PSR_C);
4998
  uint16 tmp = (~tmp1 + 1  + b);
4999
  trace_input ("subcw", OP_CONSTANT16, OP_REG, OP_VOID);
5000
  /* see ../common/sim-alu.h for a more extensive discussion on how to
5001
     compute the carry/overflow bits. */
5002
  SET_PSR_C (tmp > 0xffff);
5003
  SET_PSR_F (((a & 0x8000) != (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
5004
  SET_GPR (OP[1], tmp);
5005
  trace_output_16 (tmp);
5006
}
5007
 
5008
/* subcw.  */
5009
void
5010
OP_3F_8 ()
5011
{
5012
  uint16 a = (GPR (OP[0])), b = (GPR (OP[1]));
5013
  uint16 tmp1 = a + (PSR_C);
5014
  uint16 tmp = (~tmp1 + 1  + b);
5015
  trace_input ("subcw", OP_REG, OP_REG, OP_VOID);
5016
  /* see ../common/sim-alu.h for a more extensive discussion on how to
5017
     compute the carry/overflow bits. */
5018
  SET_PSR_C (tmp > 0xffff);
5019
  SET_PSR_F (((a & 0x8000) != (b & 0x8000)) && ((b & 0x8000) != (tmp & 0x8000)));
5020
  SET_GPR (OP[1], tmp);
5021
  trace_output_16 (tmp);
5022
}
5023
 
5024
/* subd.  */
5025
void
5026
OP_3_C ()
5027
{
5028
  int32 a = OP[0];
5029
  uint32 b = GPR32 (OP[1]);
5030
  uint32 tmp = (~a + 1 + b);
5031
  trace_input ("subd", OP_CONSTANT32, OP_REGP, OP_VOID);
5032
  /* see ../common/sim-alu.h for a more extensive discussion on how to
5033
     compute the carry/overflow bits. */
5034
  SET_PSR_C (tmp > 0xffffffff);
5035
  SET_PSR_F (((a & 0x80000000) != (b & 0x80000000)) &&
5036
             ((b & 0x80000000) != (tmp & 0x80000000)));
5037
  SET_GPR32 (OP[1], tmp);
5038
  trace_output_32 (tmp);
5039
}
5040
 
5041
/* subd.  */
5042
void
5043
OP_14C_14 ()
5044
{
5045
  uint32 a = GPR32 (OP[0]);
5046
  uint32 b = GPR32 (OP[1]);
5047
  uint32 tmp = (~a + 1 + b);
5048
  trace_input ("subd", OP_REGP, OP_REGP, OP_VOID);
5049
  /* see ../common/sim-alu.h for a more extensive discussion on how to
5050
     compute the carry/overflow bits. */
5051
  SET_PSR_C (tmp > 0xffffffff);
5052
  SET_PSR_F (((a & 0x80000000) != (b & 0x80000000)) &&
5053
             ((b & 0x80000000) != (tmp & 0x80000000)));
5054
  SET_GPR32 (OP[1], tmp);
5055
  trace_output_32 (tmp);
5056
}
5057
 
5058
/* excp.  */
5059
void
5060
OP_C_C ()
5061
{
5062
  trace_input ("excp", OP_CONSTANT4, OP_VOID, OP_VOID);
5063
  switch (OP[0])
5064
    {
5065
    default:
5066
#if (DEBUG & DEBUG_TRAP) == 0
5067
      {
5068
#if 0
5069
        uint16 vec = OP[0] + TRAP_VECTOR_START;
5070
        SET_BPC (PC + 1);
5071
        SET_BPSR (PSR);
5072
        SET_PSR (PSR & PSR_SM_BIT);
5073
        JMP (vec);
5074
        break;
5075
#endif
5076
      }
5077
#else                   /* if debugging use trap to print registers */
5078
      {
5079
        int i;
5080
        static int first_time = 1;
5081
 
5082
        if (first_time)
5083
          {
5084
            first_time = 0;
5085
            (*cr16_callback->printf_filtered) (cr16_callback, "Trap  #     PC ");
5086
            for (i = 0; i < 16; i++)
5087
              (*cr16_callback->printf_filtered) (cr16_callback, "  %sr%d", (i > 9) ? "" : " ", i);
5088
            (*cr16_callback->printf_filtered) (cr16_callback, "         a0         a1 f0 f1 c\n");
5089
          }
5090
 
5091
        (*cr16_callback->printf_filtered) (cr16_callback, "Trap %2d 0x%.4x:", (int)OP[0], (int)PC);
5092
 
5093
        for (i = 0; i < 16; i++)
5094
          (*cr16_callback->printf_filtered) (cr16_callback, " %.4x", (int) GPR (i));
5095
 
5096
        for (i = 0; i < 2; i++)
5097
          (*cr16_callback->printf_filtered) (cr16_callback, " %.2x%.8lx",
5098
                                             ((int)(ACC (i) >> 32) & 0xff),
5099
                                             ((unsigned long) ACC (i)) & 0xffffffff);
5100
 
5101
        (*cr16_callback->printf_filtered) (cr16_callback, "  %d  %d %d\n",
5102
                                           PSR_F != 0, PSR_F != 0, PSR_C != 0);
5103
        (*cr16_callback->flush_stdout) (cr16_callback);
5104
        break;
5105
      }
5106
#endif
5107
    case 8:                     /* new system call trap */
5108
      /* Trap 8 is used for simulating low-level I/O */
5109
      {
5110
        unsigned32 result = 0;
5111
        errno = 0;
5112
 
5113
/* Registers passed to trap 0.  */
5114
 
5115
#define FUNC   GPR (0)  /* function number.  */
5116
#define PARM1  GPR (2)  /* optional parm 1.  */
5117
#define PARM2  GPR (3)  /* optional parm 2.  */
5118
#define PARM3  GPR (4)  /* optional parm 3.  */
5119
#define PARM4  GPR (5)  /* optional parm 4.  */
5120
 
5121
/* Registers set by trap 0 */
5122
 
5123
#define RETVAL(X)   do { result = (0xffff & (X));SET_GPR (0, result);} while (0)
5124
#define RETVAL32(X) do { result = (X); SET_GPR32 (0, result);} while (0)
5125
#define RETERR(X) SET_GPR (4, (X))              /* return error code.  */
5126
 
5127
/* Turn a pointer in a register into a pointer into real memory. */
5128
 
5129
#define MEMPTR(x) ((char *)(dmem_addr(x)))
5130
 
5131
        switch (FUNC)
5132
          {
5133
#if !defined(__GO32__) && !defined(_WIN32)
5134
          case TARGET_SYS_fork:
5135
            trace_input ("<fork>", OP_VOID, OP_VOID, OP_VOID);
5136
            RETVAL (fork ());
5137
            trace_output_16 (result);
5138
            break;
5139
 
5140
#define getpid() 47
5141
          case TARGET_SYS_getpid:
5142
            trace_input ("<getpid>", OP_VOID, OP_VOID, OP_VOID);
5143
            RETVAL (getpid ());
5144
            trace_output_16 (result);
5145
            break;
5146
 
5147
          case TARGET_SYS_kill:
5148
            trace_input ("<kill>", OP_REG, OP_REG, OP_VOID);
5149
            if (PARM1 == getpid ())
5150
              {
5151
                trace_output_void ();
5152
                State.exception = PARM2;
5153
              }
5154
            else
5155
              {
5156
                int os_sig = -1;
5157
                switch (PARM2)
5158
                  {
5159
#ifdef SIGHUP
5160
                  case 1: os_sig = SIGHUP;      break;
5161
#endif
5162
#ifdef SIGINT
5163
                  case 2: os_sig = SIGINT;      break;
5164
#endif
5165
#ifdef SIGQUIT
5166
                  case 3: os_sig = SIGQUIT;     break;
5167
#endif
5168
#ifdef SIGILL
5169
                  case 4: os_sig = SIGILL;      break;
5170
#endif
5171
#ifdef SIGTRAP
5172
                  case 5: os_sig = SIGTRAP;     break;
5173
#endif
5174
#ifdef SIGABRT
5175
                  case 6: os_sig = SIGABRT;     break;
5176
#elif defined(SIGIOT)
5177
                  case 6: os_sig = SIGIOT;      break;
5178
#endif
5179
#ifdef SIGEMT
5180
                  case 7: os_sig = SIGEMT;      break;
5181
#endif
5182
#ifdef SIGFPE
5183
                  case 8: os_sig = SIGFPE;      break;
5184
#endif
5185
#ifdef SIGKILL
5186
                  case 9: os_sig = SIGKILL;     break;
5187
#endif
5188
#ifdef SIGBUS
5189
                  case 10: os_sig = SIGBUS;     break;
5190
#endif
5191
#ifdef SIGSEGV
5192
                  case 11: os_sig = SIGSEGV;    break;
5193
#endif
5194
#ifdef SIGSYS
5195
                  case 12: os_sig = SIGSYS;     break;
5196
#endif
5197
#ifdef SIGPIPE
5198
                  case 13: os_sig = SIGPIPE;    break;
5199
#endif
5200
#ifdef SIGALRM
5201
                  case 14: os_sig = SIGALRM;    break;
5202
#endif
5203
#ifdef SIGTERM
5204
                  case 15: os_sig = SIGTERM;    break;
5205
#endif
5206
#ifdef SIGURG
5207
                  case 16: os_sig = SIGURG;     break;
5208
#endif
5209
#ifdef SIGSTOP
5210
                  case 17: os_sig = SIGSTOP;    break;
5211
#endif
5212
#ifdef SIGTSTP
5213
                  case 18: os_sig = SIGTSTP;    break;
5214
#endif
5215
#ifdef SIGCONT
5216
                  case 19: os_sig = SIGCONT;    break;
5217
#endif
5218
#ifdef SIGCHLD
5219
                  case 20: os_sig = SIGCHLD;    break;
5220
#elif defined(SIGCLD)
5221
                  case 20: os_sig = SIGCLD;     break;
5222
#endif
5223
#ifdef SIGTTIN
5224
                  case 21: os_sig = SIGTTIN;    break;
5225
#endif
5226
#ifdef SIGTTOU
5227
                  case 22: os_sig = SIGTTOU;    break;
5228
#endif
5229
#ifdef SIGIO
5230
                  case 23: os_sig = SIGIO;      break;
5231
#elif defined (SIGPOLL)
5232
                  case 23: os_sig = SIGPOLL;    break;
5233
#endif
5234
#ifdef SIGXCPU
5235
                  case 24: os_sig = SIGXCPU;    break;
5236
#endif
5237
#ifdef SIGXFSZ
5238
                  case 25: os_sig = SIGXFSZ;    break;
5239
#endif
5240
#ifdef SIGVTALRM
5241
                  case 26: os_sig = SIGVTALRM;  break;
5242
#endif
5243
#ifdef SIGPROF
5244
                  case 27: os_sig = SIGPROF;    break;
5245
#endif
5246
#ifdef SIGWINCH
5247
                  case 28: os_sig = SIGWINCH;   break;
5248
#endif
5249
#ifdef SIGLOST
5250
                  case 29: os_sig = SIGLOST;    break;
5251
#endif
5252
#ifdef SIGUSR1
5253
                  case 30: os_sig = SIGUSR1;    break;
5254
#endif
5255
#ifdef SIGUSR2
5256
                  case 31: os_sig = SIGUSR2;    break;
5257
#endif
5258
                  }
5259
 
5260
                if (os_sig == -1)
5261
                  {
5262
                    trace_output_void ();
5263
                    (*cr16_callback->printf_filtered) (cr16_callback, "Unknown signal %d\n", PARM2);
5264
                    (*cr16_callback->flush_stdout) (cr16_callback);
5265
                    State.exception = SIGILL;
5266
                  }
5267
                else
5268
                  {
5269
                    RETVAL (kill (PARM1, PARM2));
5270
                    trace_output_16 (result);
5271
                  }
5272
              }
5273
            break;
5274
 
5275
          case TARGET_SYS_execve:
5276
            trace_input ("<execve>", OP_VOID, OP_VOID, OP_VOID);
5277
            RETVAL (execve (MEMPTR (PARM1), (char **) MEMPTR (PARM2<<16|PARM3),
5278
                             (char **)MEMPTR (PARM4)));
5279
            trace_output_16 (result);
5280
            break;
5281
 
5282
#ifdef TARGET_SYS_execv
5283
          case TARGET_SYS_execv:
5284
            trace_input ("<execv>", OP_VOID, OP_VOID, OP_VOID);
5285
            RETVAL (execve (MEMPTR (PARM1), (char **) MEMPTR (PARM2), NULL));
5286
            trace_output_16 (result);
5287
            break;
5288
#endif
5289
 
5290
          case TARGET_SYS_pipe:
5291
            {
5292
              reg_t buf;
5293
              int host_fd[2];
5294
 
5295
              trace_input ("<pipe>", OP_VOID, OP_VOID, OP_VOID);
5296
              buf = PARM1;
5297
              RETVAL (pipe (host_fd));
5298
              SW (buf, host_fd[0]);
5299
              buf += sizeof(uint16);
5300
              SW (buf, host_fd[1]);
5301
              trace_output_16 (result);
5302
            }
5303
          break;
5304
 
5305
#ifdef TARGET_SYS_wait
5306
          case TARGET_SYS_wait:
5307
            {
5308
              int status;
5309
              trace_input ("<wait>", OP_REG, OP_VOID, OP_VOID);
5310
              RETVAL (wait (&status));
5311
              if (PARM1)
5312
                SW (PARM1, status);
5313
              trace_output_16 (result);
5314
            }
5315
          break;
5316
#endif
5317
#else
5318
          case TARGET_SYS_getpid:
5319
            trace_input ("<getpid>", OP_VOID, OP_VOID, OP_VOID);
5320
            RETVAL (1);
5321
            trace_output_16 (result);
5322
            break;
5323
 
5324
          case TARGET_SYS_kill:
5325
            trace_input ("<kill>", OP_REG, OP_REG, OP_VOID);
5326
            trace_output_void ();
5327
            State.exception = PARM2;
5328
            break;
5329
#endif
5330
 
5331
          case TARGET_SYS_read:
5332
            trace_input ("<read>", OP_REG, OP_MEMREF, OP_REG);
5333
            RETVAL (cr16_callback->read (cr16_callback, PARM1,
5334
                        MEMPTR (((unsigned long)PARM3 << 16)
5335
                                |((unsigned long)PARM2)), PARM4));
5336
            trace_output_16 (result);
5337
            break;
5338
 
5339
          case TARGET_SYS_write:
5340
            trace_input ("<write>", OP_REG, OP_MEMREF, OP_REG);
5341
            RETVAL ((int)cr16_callback->write (cr16_callback, PARM1,
5342
                       MEMPTR (((unsigned long)PARM3 << 16) | PARM2), PARM4));
5343
            trace_output_16 (result);
5344
            break;
5345
 
5346
          case TARGET_SYS_lseek:
5347
            trace_input ("<lseek>", OP_REG, OP_REGP, OP_REG);
5348
            RETVAL32 (cr16_callback->lseek (cr16_callback, PARM1,
5349
                                            ((((long) PARM3) << 16) | PARM2),
5350
                                            PARM4));
5351
            trace_output_32 (result);
5352
            break;
5353
 
5354
          case TARGET_SYS_close:
5355
            trace_input ("<close>", OP_REG, OP_VOID, OP_VOID);
5356
            RETVAL (cr16_callback->close (cr16_callback, PARM1));
5357
            trace_output_16 (result);
5358
            break;
5359
 
5360
          case TARGET_SYS_open:
5361
            trace_input ("<open>", OP_MEMREF, OP_REG, OP_VOID);
5362
            RETVAL32 (cr16_callback->open (cr16_callback,
5363
                                 MEMPTR ((((unsigned long)PARM2)<<16)|PARM1),
5364
                                 PARM3));
5365
            trace_output_32 (result);
5366
            break;
5367
 
5368
          case TARGET_SYS_rename:
5369
            trace_input ("<rename>", OP_MEMREF, OP_MEMREF, OP_VOID);
5370
            RETVAL (cr16_callback->rename (cr16_callback,
5371
                                   MEMPTR ((((unsigned long)PARM2)<<16) |PARM1),
5372
                                   MEMPTR ((((unsigned long)PARM4)<<16) |PARM3)));
5373
            trace_output_16 (result);
5374
            break;
5375
 
5376
          case 0x408: /* REVISIT: Added a dummy getenv call. */
5377
            trace_input ("<getenv>", OP_MEMREF, OP_MEMREF, OP_VOID);
5378
            RETVAL32(NULL);
5379
            trace_output_32 (result);
5380
            break;
5381
 
5382
          case TARGET_SYS_exit:
5383
            trace_input ("<exit>", OP_VOID, OP_VOID, OP_VOID);
5384
            State.exception = SIG_CR16_EXIT;
5385
            trace_output_void ();
5386
            break;
5387
 
5388
          case TARGET_SYS_unlink:
5389
            trace_input ("<unlink>", OP_MEMREF, OP_VOID, OP_VOID);
5390
            RETVAL (cr16_callback->unlink (cr16_callback,
5391
                                 MEMPTR (((unsigned long)PARM2<<16)|PARM1)));
5392
            trace_output_16 (result);
5393
            break;
5394
 
5395
 
5396
#ifdef TARGET_SYS_stat
5397
          case TARGET_SYS_stat:
5398
            trace_input ("<stat>", OP_VOID, OP_VOID, OP_VOID);
5399
            /* stat system call.  */
5400
            {
5401
              struct stat host_stat;
5402
              reg_t buf;
5403
 
5404
              RETVAL (stat (MEMPTR ((((unsigned long)PARM2) << 16)|PARM1), &host_stat));
5405
 
5406
              buf = PARM2;
5407
 
5408
              /* The hard-coded offsets and sizes were determined by using
5409
               * the CR16 compiler on a test program that used struct stat.
5410
               */
5411
              SW  (buf,    host_stat.st_dev);
5412
              SW  (buf+2,  host_stat.st_ino);
5413
              SW  (buf+4,  host_stat.st_mode);
5414
              SW  (buf+6,  host_stat.st_nlink);
5415
              SW  (buf+8,  host_stat.st_uid);
5416
              SW  (buf+10, host_stat.st_gid);
5417
              SW  (buf+12, host_stat.st_rdev);
5418
              SLW (buf+16, host_stat.st_size);
5419
              SLW (buf+20, host_stat.st_atime);
5420
              SLW (buf+28, host_stat.st_mtime);
5421
              SLW (buf+36, host_stat.st_ctime);
5422
            }
5423
            trace_output_16 (result);
5424
            break;
5425
#endif
5426
 
5427
          case TARGET_SYS_chown:
5428
            trace_input ("<chown>", OP_VOID, OP_VOID, OP_VOID);
5429
            RETVAL (chown (MEMPTR (PARM1), PARM2, PARM3));
5430
            trace_output_16 (result);
5431
            break;
5432
 
5433
          case TARGET_SYS_chmod:
5434
            trace_input ("<chmod>", OP_VOID, OP_VOID, OP_VOID);
5435
            RETVAL (chmod (MEMPTR (PARM1), PARM2));
5436
            trace_output_16 (result);
5437
            break;
5438
 
5439
#ifdef TARGET_SYS_utime
5440
          case TARGET_SYS_utime:
5441
            trace_input ("<utime>", OP_REG, OP_REG, OP_REG);
5442
            /* Cast the second argument to void *, to avoid type mismatch
5443
               if a prototype is present.  */
5444
            RETVAL (utime (MEMPTR (PARM1), (void *) MEMPTR (PARM2)));
5445
            trace_output_16 (result);
5446
            break;
5447
#endif
5448
 
5449
#ifdef TARGET_SYS_time
5450
          case TARGET_SYS_time:
5451
            trace_input ("<time>", OP_VOID, OP_VOID, OP_REG);
5452
            RETVAL32 (time (NULL));
5453
            trace_output_32 (result);
5454
            break;
5455
#endif
5456
 
5457
          default:
5458
            cr16_callback->error (cr16_callback, "Unknown syscall %d", FUNC);
5459
          }
5460
 
5461
        if ((uint16) result == (uint16) -1)
5462
          RETERR (cr16_callback->get_errno(cr16_callback));
5463
        else
5464
          RETERR (0);
5465
        break;
5466
      }
5467
    }
5468
}
5469
 
5470
 
5471
/* push.  */
5472
void
5473
OP_3_9 ()
5474
{
5475
  uint16 a = OP[0] + 1, b = OP[1], c = OP[2], i = 0;
5476
  uint32 tmp, sp_addr = (GPR32 (15)) - (a * 2) - 4, is_regp = 0;
5477
  trace_input ("push", OP_CONSTANT3, OP_REG, OP_REG);
5478
 
5479
  for (; i < a; ++i)
5480
    {
5481
      if ((b+i) <= 11)
5482
        {
5483
          SW (sp_addr, (GPR (b+i)));
5484
          sp_addr +=2;
5485
        }
5486
       else
5487
        {
5488
          if (is_regp == 0)
5489
            tmp = (GPR32 (b+i));
5490
          else
5491
            tmp = (GPR32 (b+i-1));
5492
 
5493
          if ((a-i) > 1)
5494
            {
5495
              SLW (sp_addr, tmp);
5496
              sp_addr +=4;
5497
            }
5498
          else
5499
            {
5500
              SW (sp_addr, tmp);
5501
              sp_addr +=2;
5502
            }
5503
          ++i;
5504
          is_regp = 1;
5505
        }
5506
    }
5507
 
5508
  sp_addr +=4;
5509
 
5510
  /* Store RA address.  */
5511
  tmp = (GPR32 (14));
5512
  SLW(sp_addr,tmp);
5513
 
5514
  sp_addr = (GPR32 (15)) - (a * 2) - 4;
5515
  SET_GPR32 (15, sp_addr);     /* Update SP address.  */
5516
 
5517
  trace_output_void ();
5518
}
5519
 
5520
/* push.  */
5521
void
5522
OP_1_8 ()
5523
{
5524
  uint32 sp_addr, tmp, is_regp = 0;
5525
  uint16 a = OP[0] + 1, b = OP[1], c = OP[2], i = 0;
5526
  trace_input ("push", OP_CONSTANT3, OP_REG, OP_VOID);
5527
 
5528
  if (c == 1)
5529
    sp_addr = (GPR32 (15)) - (a * 2) - 4;
5530
  else
5531
    sp_addr = (GPR32 (15)) - (a * 2);
5532
 
5533
  for (; i < a; ++i)
5534
    {
5535
      if ((b+i) <= 11)
5536
        {
5537
          SW (sp_addr, (GPR (b+i)));
5538
          sp_addr +=2;
5539
        }
5540
       else
5541
        {
5542
          if (is_regp == 0)
5543
            tmp = (GPR32 (b+i));
5544
          else
5545
            tmp = (GPR32 (b+i-1));
5546
 
5547
          if ((a-i) > 1)
5548
            {
5549
              SLW (sp_addr, tmp);
5550
              sp_addr +=4;
5551
            }
5552
          else
5553
            {
5554
              SW (sp_addr, tmp);
5555
              sp_addr +=2;
5556
            }
5557
          ++i;
5558
          is_regp = 1;
5559
        }
5560
    }
5561
 
5562
  if (c == 1)
5563
   {
5564
      /* Store RA address.  */
5565
      tmp = (GPR32 (14));
5566
      SLW(sp_addr,tmp);
5567
      sp_addr = (GPR32 (15)) - (a * 2) - 4;
5568
    }
5569
  else
5570
     sp_addr = (GPR32 (15)) - (a * 2);
5571
 
5572
  SET_GPR32 (15, sp_addr);     /* Update SP address.  */
5573
 
5574
  trace_output_void ();
5575
}
5576
 
5577
 
5578
/* push.   */
5579
void
5580
OP_11E_10 ()
5581
{
5582
  uint32 sp_addr = (GPR32 (15)), tmp;
5583
  trace_input ("push", OP_VOID, OP_VOID, OP_VOID);
5584
  tmp = (GPR32 (14));
5585
  SLW(sp_addr-4,tmp);                /* Store RA address.   */
5586
  SET_GPR32 (15, (sp_addr - 4));     /* Update SP address.   */
5587
  trace_output_void ();
5588
}
5589
 
5590
 
5591
/* pop.   */
5592
void
5593
OP_5_9 ()
5594
{
5595
  uint16 a = OP[0] + 1, b = OP[1], c = OP[2], i = 0;
5596
  uint32 tmp, sp_addr = (GPR32 (15)), is_regp = 0;;
5597
  trace_input ("pop", OP_CONSTANT3, OP_REG, OP_REG);
5598
 
5599
  for (; i < a; ++i)
5600
    {
5601
      if ((b+i) <= 11)
5602
        {
5603
          SET_GPR ((b+i), RW(sp_addr));
5604
          sp_addr +=2;
5605
        }
5606
      else
5607
        {
5608
          if ((a-i) > 1)
5609
            {
5610
              tmp =  RLW(sp_addr);
5611
              sp_addr +=4;
5612
            }
5613
          else
5614
            {
5615
              tmp =  RW(sp_addr);
5616
              sp_addr +=2;
5617
 
5618
              if (is_regp == 0)
5619
                tmp = (tmp << 16) | (GPR32 (b+i));
5620
              else
5621
                tmp = (tmp << 16) | (GPR32 (b+i-1));
5622
            }
5623
 
5624
            if (is_regp == 0)
5625
              SET_GPR32 ((b+i), (((tmp & 0xffff) << 16)
5626
                                 | ((tmp >> 16) & 0xffff)));
5627
             else
5628
              SET_GPR32 ((b+i-1), (((tmp & 0xffff) << 16)
5629
                                   | ((tmp >> 16) & 0xffff)));
5630
 
5631
          ++i;
5632
          is_regp = 1;
5633
        }
5634
    }
5635
 
5636
  tmp =  RLW(sp_addr);                /* store RA also.   */
5637
  SET_GPR32 (14, (((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff)));
5638
 
5639
  SET_GPR32 (15, (sp_addr + 4));     /* Update SP address.  */
5640
 
5641
  trace_output_void ();
5642
}
5643
 
5644
/* pop.  */
5645
void
5646
OP_2_8 ()
5647
{
5648
  uint16 a = OP[0] + 1, b = OP[1], c = OP[2], i = 0;
5649
  uint32 tmp, sp_addr = (GPR32 (15)), is_regp = 0;
5650
  trace_input ("pop", OP_CONSTANT3, OP_REG, OP_VOID);
5651
 
5652
  for (; i < a; ++i)
5653
    {
5654
      if ((b+i) <= 11)
5655
        {
5656
          SET_GPR ((b+i), RW(sp_addr));
5657
          sp_addr +=2;
5658
        }
5659
      else
5660
        {
5661
          if ((a-i) > 1)
5662
            {
5663
              tmp =  RLW(sp_addr);
5664
              sp_addr +=4;
5665
            }
5666
          else
5667
            {
5668
              tmp =  RW(sp_addr);
5669
              sp_addr +=2;
5670
 
5671
              if (is_regp == 0)
5672
                tmp = ((tmp << 16) & 0xffffffff) | (GPR32 (b+i));
5673
              else
5674
                tmp = ((tmp << 16) & 0xffffffff) | (GPR32 (b+i-1));
5675
            }
5676
 
5677
          if (is_regp == 0)
5678
          SET_GPR32 ((b+i), (((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff)));
5679
          else
5680
          SET_GPR32 ((b+i-1), (((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff)));
5681
          ++i;
5682
          is_regp = 1;
5683
        }
5684
    }
5685
 
5686
  if (c == 1)
5687
    {
5688
      tmp =  RLW(sp_addr);    /* Store RA Reg.  */
5689
      SET_GPR32 (14, (((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff)));
5690
      sp_addr +=4;
5691
    }
5692
 
5693
  SET_GPR32 (15, sp_addr); /* Update SP address.  */
5694
 
5695
  trace_output_void ();
5696
}
5697
 
5698
/* pop.  */
5699
void
5700
OP_21E_10 ()
5701
{
5702
  uint32 sp_addr = GPR32 (15);
5703
  uint32 tmp;
5704
  trace_input ("pop", OP_VOID, OP_VOID, OP_VOID);
5705
 
5706
  tmp =  RLW(sp_addr);
5707
  SET_GPR32 (14, (((tmp & 0xffff) << 16)| ((tmp >> 16) & 0xffff)));
5708
  SET_GPR32 (15, (sp_addr+4));    /* Update SP address.  */
5709
 
5710
  trace_output_void ();
5711
}
5712
 
5713
/* popret.  */
5714
void
5715
OP_7_9 ()
5716
{
5717
  uint16 a = OP[0], b = OP[1];
5718
  trace_input ("popret", OP_CONSTANT3, OP_REG, OP_REG);
5719
  OP_5_9 ();
5720
  JMP(((GPR32(14)) << 1) & 0xffffff);
5721
 
5722
  trace_output_void ();
5723
}
5724
 
5725
/* popret.  */
5726
void
5727
OP_3_8 ()
5728
{
5729
  uint16 a = OP[0], b = OP[1];
5730
  trace_input ("popret", OP_CONSTANT3, OP_REG, OP_VOID);
5731
  OP_2_8 ();
5732
  JMP(((GPR32(14)) << 1) & 0xffffff);
5733
 
5734
  trace_output_void ();
5735
}
5736
 
5737
/* popret.  */
5738
void
5739
OP_31E_10 ()
5740
{
5741
  uint32 tmp;
5742
  trace_input ("popret", OP_VOID, OP_VOID, OP_VOID);
5743
  OP_21E_10 ();
5744
  tmp = (((GPR32(14)) << 1) & 0xffffff);
5745
  /* If the resulting PC value is less than 0x00_0000 or greater
5746
     than 0xFF_FFFF, this instruction causes an IAD trap.*/
5747
 
5748
  if ((tmp < 0x0) || (tmp > 0xFFFFFF))
5749
    {
5750
      State.exception = SIG_CR16_BUS;
5751
      State.pc_changed = 1; /* Don't increment the PC. */
5752
      trace_output_void ();
5753
      return;
5754
    }
5755
  else
5756
    JMP (tmp);
5757
 
5758
  trace_output_32 (tmp);
5759
}
5760
 
5761
 
5762
/* cinv[i].  */
5763
void
5764
OP_A_10 ()
5765
{
5766
  trace_input ("cinv[i]", OP_VOID, OP_VOID, OP_VOID);
5767
  SET_PSR_I (1);
5768
  trace_output_void ();
5769
}
5770
 
5771
/* cinv[i,u].  */
5772
void
5773
OP_B_10 ()
5774
{
5775
  trace_input ("cinv[i,u]", OP_VOID, OP_VOID, OP_VOID);
5776
  SET_PSR_I (1);
5777
  trace_output_void ();
5778
}
5779
 
5780
/* cinv[d].  */
5781
void
5782
OP_C_10 ()
5783
{
5784
  trace_input ("cinv[d]", OP_VOID, OP_VOID, OP_VOID);
5785
  SET_PSR_I (1);
5786
  trace_output_void ();
5787
}
5788
 
5789
/* cinv[d,u].  */
5790
void
5791
OP_D_10 ()
5792
{
5793
  trace_input ("cinv[i,u]", OP_VOID, OP_VOID, OP_VOID);
5794
  SET_PSR_I (1);
5795
  trace_output_void ();
5796
}
5797
 
5798
/* cinv[d,i].  */
5799
void
5800
OP_E_10 ()
5801
{
5802
  trace_input ("cinv[d,i]", OP_VOID, OP_VOID, OP_VOID);
5803
  SET_PSR_I (1);
5804
  trace_output_void ();
5805
}
5806
 
5807
/* cinv[d,i,u].  */
5808
void
5809
OP_F_10 ()
5810
{
5811
  trace_input ("cinv[d,i,u]", OP_VOID, OP_VOID, OP_VOID);
5812
  SET_PSR_I (1);
5813
  trace_output_void ();
5814
}
5815
 
5816
/* retx.  */
5817
void
5818
OP_3_10 ()
5819
{
5820
  trace_input ("retx", OP_VOID, OP_VOID, OP_VOID);
5821
  SET_PSR_I (1);
5822
  trace_output_void ();
5823
}
5824
 
5825
/* di.  */
5826
void
5827
OP_4_10 ()
5828
{
5829
  trace_input ("di", OP_VOID, OP_VOID, OP_VOID);
5830
  SET_PSR_I (1);
5831
  trace_output_void ();
5832
}
5833
 
5834
/* ei.  */
5835
void
5836
OP_5_10 ()
5837
{
5838
  trace_input ("ei", OP_VOID, OP_VOID, OP_VOID);
5839
  SET_PSR_I (1);
5840
  trace_output_void ();
5841
}
5842
 
5843
/* wait.  */
5844
void
5845
OP_6_10 ()
5846
{
5847
  trace_input ("wait", OP_VOID, OP_VOID, OP_VOID);
5848
  State.exception = SIGTRAP;
5849
  trace_output_void ();
5850
}
5851
 
5852
/* ewait.  */
5853
void
5854
OP_7_10 ()
5855
{
5856
  trace_input ("ewait", OP_VOID, OP_VOID, OP_VOID);
5857
  SET_PSR_I (1);
5858
  trace_output_void ();
5859
}
5860
 
5861
/* xorb. */
5862
void
5863
OP_28_8 ()
5864
{
5865
  uint8 tmp, a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
5866
  trace_input ("xorb", OP_CONSTANT4, OP_REG, OP_VOID);
5867
  tmp = a ^ b;
5868
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
5869
  trace_output_16 (tmp);
5870
}
5871
 
5872
/* xorb.  */
5873
void
5874
OP_28B_C ()
5875
{
5876
  uint8 tmp, a = (OP[0]) & 0xff, b = (GPR (OP[1])) & 0xff;
5877
  trace_input ("xorb", OP_CONSTANT16, OP_REG, OP_VOID);
5878
  tmp = a ^ b;
5879
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
5880
  trace_output_16 (tmp);
5881
}
5882
 
5883
/* xorb.  */
5884
void
5885
OP_29_8 ()
5886
{
5887
  uint8 tmp, a = (GPR (OP[0])) & 0xff, b = (GPR (OP[1])) & 0xff;
5888
  trace_input ("xorb", OP_REG, OP_REG, OP_VOID);
5889
  tmp = a ^ b;
5890
  SET_GPR (OP[1], (tmp | ((GPR (OP[1])) & 0xff00)));
5891
  trace_output_16 (tmp);
5892
}
5893
 
5894
/* xorw.  */
5895
void
5896
OP_2A_8 ()
5897
{
5898
  uint16 tmp, a = (OP[0]), b = (GPR (OP[1]));
5899
  trace_input ("xorw", OP_CONSTANT4, OP_REG, OP_VOID);
5900
  tmp = a ^ b;
5901
  SET_GPR (OP[1], tmp);
5902
  trace_output_16 (tmp);
5903
}
5904
 
5905
/* xorw.  */
5906
void
5907
OP_2AB_C ()
5908
{
5909
  uint16 tmp, a = (OP[0]), b = (GPR (OP[1]));
5910
  trace_input ("xorw", OP_CONSTANT16, OP_REG, OP_VOID);
5911
  tmp = a ^ b;
5912
  SET_GPR (OP[1], tmp);
5913
  trace_output_16 (tmp);
5914
}
5915
 
5916
/* xorw.  */
5917
void
5918
OP_2B_8 ()
5919
{
5920
  uint16 tmp, a = (GPR (OP[0])), b = (GPR (OP[1]));
5921
  trace_input ("xorw", OP_REG, OP_REG, OP_VOID);
5922
  tmp = a ^ b;
5923
  SET_GPR (OP[1], tmp);
5924
  trace_output_16 (tmp);
5925
}
5926
 
5927
/*REVISIT FOR LPR/SPR . */
5928
 
5929
/* lpr.  */
5930
void
5931
OP_140_14 ()
5932
{
5933
  uint16 a = GPR (OP[0]);
5934
  trace_input ("lpr", OP_REG, OP_REG, OP_VOID);
5935
  SET_CREG (OP[1], a);
5936
  trace_output_16 (a);
5937
}
5938
 
5939
/* lprd.  */
5940
void
5941
OP_141_14 ()
5942
{
5943
  uint32 a = GPR32 (OP[0]);
5944
  trace_input ("lprd", OP_REGP, OP_REG, OP_VOID);
5945
  SET_CREG (OP[1], a);
5946
  trace_output_flag ();
5947
}
5948
 
5949
/* spr.  */
5950
void
5951
OP_142_14 ()
5952
{
5953
  uint16 a = CREG (OP[0]);
5954
  trace_input ("spr", OP_REG, OP_REG, OP_VOID);
5955
  SET_GPR (OP[1], a);
5956
  trace_output_16 (a);
5957
}
5958
 
5959
/* sprd.  */
5960
void
5961
OP_143_14 ()
5962
{
5963
  uint32 a = CREG (OP[0]);
5964
  trace_input ("sprd", OP_REGP, OP_REGP, OP_VOID);
5965
  SET_GPR32 (OP[1], a);
5966
  trace_output_32 (a);
5967
}
5968
 
5969
/* null.  */
5970
void
5971
OP_0_20 ()
5972
{
5973
  trace_input ("null", OP_VOID, OP_VOID, OP_VOID);
5974
  State.exception = SIG_CR16_STOP;
5975
}

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.