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1 17 khays
/* Table of opcodes for the Texas Instruments TMS320C[34]X family.
2
 
3
   Copyright (C) 2002, 2003, 2010 Free Software Foundation.
4
 
5
   Contributed by Michael P. Hayes (m.hayes@elec.canterbury.ac.nz)
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 of the License, or
10
   (at your option) 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, write to the Free Software
19
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
20
   MA 02110-1301, USA.  */
21
 
22
#define IS_CPU_TIC3X(v) ((v) == 30 || (v) == 31 || (v) == 32 || (v) == 33)
23
#define IS_CPU_TIC4X(v) ((v) ==  0 || (v) == 40 || (v) == 44)
24
 
25
/* Define some bitfield extraction/insertion macros.  */
26
#define EXTR(inst, m, l)          ((inst) << (31 - (m)) >> (31 - ((m) - (l)))) 
27
#define EXTRU(inst, m, l)         EXTR ((unsigned long)(inst), (m), (l))
28
#define EXTRS(inst, m, l)         EXTR ((long)(inst), (m), (l))
29
#define INSERTU(inst, val, m, l)  (inst |= ((val) << (l))) 
30
#define INSERTS(inst, val, m, l)  INSERTU (inst, ((val) & ((1 << ((m) - (l) + 1)) - 1)), m, l)
31
 
32
/* Define register numbers.  */
33
typedef enum
34
  {
35
    REG_R0, REG_R1, REG_R2, REG_R3,
36
    REG_R4, REG_R5, REG_R6, REG_R7,
37
    REG_AR0, REG_AR1, REG_AR2, REG_AR3,
38
    REG_AR4, REG_AR5, REG_AR6, REG_AR7,
39
    REG_DP, REG_IR0, REG_IR1, REG_BK,
40
    REG_SP, REG_ST, REG_DIE, REG_IIE,
41
    REG_IIF, REG_RS, REG_RE, REG_RC,
42
    REG_R8, REG_R9, REG_R10, REG_R11,
43
    REG_IVTP, REG_TVTP
44
  }
45
c4x_reg_t;
46
 
47
/* Note that the actual register numbers for IVTP is 0 and TVTP is 1.  */
48
 
49
#define REG_IE REG_DIE          /* C3x only */
50
#define REG_IF REG_IIE          /* C3x only */
51
#define REG_IOF REG_IIF         /* C3x only */
52
 
53
#define TIC3X_REG_MAX REG_RC
54
#define TIC4X_REG_MAX REG_TVTP
55
 
56
/* Register table size including C4x expansion regs.  */
57
#define REG_TABLE_SIZE (TIC4X_REG_MAX + 1)
58
 
59
struct tic4x_register
60
{
61
  char *        name;
62
  unsigned long regno;
63
};
64
 
65
typedef struct tic4x_register tic4x_register_t;
66
 
67
/* We could store register synonyms here.  */
68
static const tic4x_register_t tic3x_registers[] =
69
{
70
  {"f0",  REG_R0},
71
  {"r0",  REG_R0},
72
  {"f1",  REG_R1},
73
  {"r1",  REG_R1},
74
  {"f2",  REG_R2},
75
  {"r2",  REG_R2},
76
  {"f3",  REG_R3},
77
  {"r3",  REG_R3},
78
  {"f4",  REG_R4},
79
  {"r4",  REG_R4},
80
  {"f5",  REG_R5},
81
  {"r5",  REG_R5},
82
  {"f6",  REG_R6},
83
  {"r6",  REG_R6},
84
  {"f7",  REG_R7},
85
  {"r7",  REG_R7},
86
  {"ar0", REG_AR0},
87
  {"ar1", REG_AR1},
88
  {"ar2", REG_AR2},
89
  {"ar3", REG_AR3},
90
  {"ar4", REG_AR4},
91
  {"ar5", REG_AR5},
92
  {"ar6", REG_AR6},
93
  {"ar7", REG_AR7},
94
  {"dp",  REG_DP},
95
  {"ir0", REG_IR0},
96
  {"ir1", REG_IR1},
97
  {"bk",  REG_BK},
98
  {"sp",  REG_SP},
99
  {"st",  REG_ST},
100
  {"ie",  REG_IE},
101
  {"if",  REG_IF},
102
  {"iof", REG_IOF},
103
  {"rs",  REG_RS},
104
  {"re",  REG_RE},
105
  {"rc",  REG_RC},
106
  {"", 0}
107
};
108
 
109
const unsigned int tic3x_num_registers = (((sizeof tic3x_registers) / (sizeof tic3x_registers[0])) - 1);
110
 
111
/* Define C4x registers in addition to C3x registers.  */
112
static const tic4x_register_t tic4x_registers[] =
113
{
114
  {"die", REG_DIE},             /* Clobbers C3x REG_IE */
115
  {"iie", REG_IIE},             /* Clobbers C3x REG_IF */
116
  {"iif", REG_IIF},             /* Clobbers C3x REG_IOF */
117
  {"f8",  REG_R8},
118
  {"r8",  REG_R8},
119
  {"f9",  REG_R9},
120
  {"r9",  REG_R9},
121
  {"f10", REG_R10},
122
  {"r10", REG_R10},
123
  {"f11", REG_R11},
124
  {"r11", REG_R11},
125
  {"ivtp", REG_IVTP},
126
  {"tvtp", REG_TVTP},
127
  {"", 0}
128
};
129
 
130
const unsigned int tic4x_num_registers = (((sizeof tic4x_registers) / (sizeof tic4x_registers[0])) - 1);
131
 
132
struct tic4x_cond
133
{
134
  char *        name;
135
  unsigned long cond;
136
};
137
 
138
typedef struct tic4x_cond tic4x_cond_t;
139
 
140
/* Define conditional branch/load suffixes.  Put desired form for
141
   disassembler last.  */
142
static const tic4x_cond_t tic4x_conds[] =
143
{
144
  { "u",    0x00 },
145
  { "c",    0x01 }, { "lo",  0x01 },
146
  { "ls",   0x02 },
147
  { "hi",   0x03 },
148
  { "nc",   0x04 }, { "hs",  0x04 },
149
  { "z",    0x05 }, { "eq",  0x05 },
150
  { "nz",   0x06 }, { "ne",  0x06 },
151
  { "n",    0x07 }, { "l",   0x07 }, { "lt",  0x07 },
152
  { "le",   0x08 },
153
  { "p",    0x09 }, { "gt",  0x09 },
154
  { "nn",   0x0a }, { "ge",  0x0a },
155
  { "nv",   0x0c },
156
  { "v",    0x0d },
157
  { "nuf",  0x0e },
158
  { "uf",   0x0f },
159
  { "nlv",  0x10 },
160
  { "lv",   0x11 },
161
  { "nluf", 0x12 },
162
  { "luf",  0x13 },
163
  { "zuf",  0x14 },
164
  /* Dummy entry, not included in num_conds.  This
165
     lets code examine entry i+1 without checking
166
     if we've run off the end of the table.  */
167
  { "",      0x0}
168
};
169
 
170
const unsigned int tic4x_num_conds = (((sizeof tic4x_conds) / (sizeof tic4x_conds[0])) - 1);
171
 
172
struct tic4x_indirect
173
{
174
  char *        name;
175
  unsigned long modn;
176
};
177
 
178
typedef struct tic4x_indirect tic4x_indirect_t;
179
 
180
/* Define indirect addressing modes where:
181
   d displacement (signed)
182
   y ir0
183
   z ir1  */
184
 
185
static const tic4x_indirect_t tic4x_indirects[] =
186
{
187
  { "*+a(d)",   0x00 },
188
  { "*-a(d)",   0x01 },
189
  { "*++a(d)",  0x02 },
190
  { "*--a(d)",  0x03 },
191
  { "*a++(d)",  0x04 },
192
  { "*a--(d)",  0x05 },
193
  { "*a++(d)%", 0x06 },
194
  { "*a--(d)%", 0x07 },
195
  { "*+a(y)",   0x08 },
196
  { "*-a(y)",   0x09 },
197
  { "*++a(y)",  0x0a },
198
  { "*--a(y)",  0x0b },
199
  { "*a++(y)",  0x0c },
200
  { "*a--(y)",  0x0d },
201
  { "*a++(y)%", 0x0e },
202
  { "*a--(y)%", 0x0f },
203
  { "*+a(z)",   0x10 },
204
  { "*-a(z)",   0x11 },
205
  { "*++a(z)",  0x12 },
206
  { "*--a(z)",  0x13 },
207
  { "*a++(z)",  0x14 },
208
  { "*a--(z)",  0x15 },
209
  { "*a++(z)%", 0x16 },
210
  { "*a--(z)%", 0x17 },
211
  { "*a",       0x18 },
212
  { "*a++(y)b", 0x19 },
213
  /* Dummy entry, not included in num_indirects.  This
214
     lets code examine entry i+1 without checking
215
     if we've run off the end of the table.  */
216
  { "",      0x0}
217
};
218
 
219
#define TIC3X_MODN_MAX 0x19
220
 
221
const unsigned int tic4x_num_indirects = (((sizeof tic4x_indirects) / (sizeof tic4x_indirects[0])) - 1);
222
 
223
/* Instruction template.  */
224
struct tic4x_inst
225
{
226
  char *        name;
227
  unsigned long opcode;
228
  unsigned long opmask;
229
  char *        args;
230
  unsigned long oplevel;
231
};
232
 
233
typedef struct tic4x_inst tic4x_inst_t;
234
 
235
/* Opcode infix
236
   B  condition              16--20   U,C,Z,LO,HI, etc.
237
   C  condition              23--27   U,C,Z,LO,HI, etc.
238
 
239
   Arguments
240
   ,  required arg follows
241
   ;  optional arg follows
242
 
243
   Argument types             bits    [classes] - example
244
   -----------------------------------------------------------
245
   *  indirect (all)          0--15   [A,AB,AU,AF,A2,A3,A6,A7,AY,B,BA,BB,BI,B6,B7] - *+AR0(5), *++AR0(IR0)
246
   #  direct (for LDP)        0--15   [Z] - @start, start
247
   @  direct                  0--15   [A,AB,AU,AF,A3,A6,A7,AY,B,BA,BB,BI,B6,B7] - @start, start
248
   A  address register       22--24   [D] - AR0, AR7
249
   B  unsigned integer        0--23   [I,I2] - @start, start  (absolute on C3x, relative on C4x)
250
   C  indirect (disp - C4x)   0--7    [S,SC,S2,T,TC,T2,T2C] - *+AR0(5)
251
   E  register (all)          0--7    [T,TC,T2,T2C] - R0, R7, R11, AR0, DP
252
   e  register (0-11)         0--7    [S,SC,S2] - R0, R7, R11
253
   F  short float immediate   0--15   [AF,B,BA,BB] - 3.5, 0e-3.5e-1
254
   G  register (all)          8--15   [T,TC,T2,T2C] - R0, R7, R11, AR0, DP
255
   g  register (0-11)         0--7    [S,SC,S2] - R0, R7, R11
256
   H  register (0-7)         18--16   [LS,M,P,Q] - R0, R7
257
   I  indirect (no disp)      0--7    [S,SC,S2,T,TC,T2,T2C] - *+AR0(1), *+AR0(IR0)
258
   i  indirect (enhanced)     0--7    [LL,LS,M,P,Q,QC] - *+AR0(1), R5
259
   J  indirect (no disp)      8--15   [LL,LS,P,Q,QC,S,SC,S2,T,TC,T2,T2C] - *+AR0(1), *+AR0(IR0)
260
   j  indirect (enhanced)     8--15   [M] - *+AR0(1), R5
261
   K  register               19--21   [LL,M,Q,QC] - R0, R7
262
   L  register               22--24   [LL,LS,P,Q,QC] - R0, R7
263
   M  register (R2,R3)       22--22   [M] R2, R3
264
   N  register (R0,R1)       23--23   [M] R0, R1
265
   O  indirect(disp - C4x)    8--15   [S,SC,S2,T,TC,T2] - *+AR0(5)
266
   P  displacement (PC Rel)   0--15   [D,J,JS] - @start, start
267
   Q  register (all)          0--15   [A,AB,AU,A2,A3,AY,BA,BI,D,I2,J,JS] - R0, AR0, DP, SP
268
   q  register (0-11)         0--15   [AF,B,BB] - R0, R7, R11
269
   R  register (all)         16--20   [A,AB,AU,AF,A6,A7,R,T,TC] - R0, AR0, DP, SP
270
   r  register (0-11)        16--20   [B,BA,BB,BI,B6,B7,RF,S,SC] - R0, R1, R11
271
   S  short int immediate     0--15   [A,AB,AY,BI] - -5, 5
272
   T  integer (C4x)          16--20   [Z] - -5, 12
273
   U  unsigned integer        0--15   [AU,A3] - 0, 65535
274
   V  vector (C4x: 0--8)      0--4    [Z] - 25, 7
275
   W  short int (C4x)         0--7    [T,TC,T2,T2C] - -3, 5
276
   X  expansion reg (C4x)     0--4    [Z] - IVTP, TVTP
277
   Y  address reg (C4x)      16--20   [Z] - AR0, DP, SP, IR0
278
   Z  expansion reg (C4x)    16--20   [Z] - IVTP, TVTP
279
*/
280
 
281
#define TIC4X_OPERANDS_MAX 7    /* Max number of operands for an inst.  */
282
#define TIC4X_NAME_MAX 16       /* Max number of chars in parallel name.  */
283
 
284
/* Define the instruction level */
285
#define OP_C3X   0x1   /* C30 support - supported by all */
286
#define OP_C4X   0x2   /* C40 support - C40, C44 */
287
#define OP_ENH   0x4   /* Class LL,LS,M,P,Q,QC enhancements. Argument type
288
                          I and J is enhanced in these classes - C31>=6.0,
289
                          C32>=2.0, C33 */
290
#define OP_LPWR  0x8   /* Low power support (LOPOWER, MAXSPEED) - C30>=7.0,
291
                          LC31, C31>=5.0, C32 */
292
#define OP_IDLE2 0x10  /* Idle2 support (IDLE2) - C30>=7.0, LC31, C31>=5.0,
293
                          C32, C33, C40>=5.0, C44 */
294
 
295
/* The following class definition is a classification scheme for
296
   putting instructions with similar type of arguments together. It
297
   simplifies the op-code definitions significantly, as we then only
298
   need to use the class macroes for 95% of the DSP's opcodes.
299
*/
300
 
301
/* A: General 2-operand integer operations
302
   Syntax: <i> src, dst
303
      src = Register (Q), Direct (@), Indirect (*), Signed immediate (S)
304
      dst = Register (R)
305
   Instr: 15/8 - ABSI, ADDC, ADDI, ASH, CMPI, LDI, LSH, MPYI, NEGB, NEGI,
306
                SUBB, SUBC, SUBI, SUBRB, SUBRI, C4x: LBn, LHn, LWLn, LWRn,
307
                MBn, MHn, MPYSHI, MPYUHI
308
*/
309
#define A_CLASS_INSN(name, opcode, level) \
310
  { name, opcode|0x00000000, 0xffe00000, "Q;R", level }, \
311
  { name, opcode|0x00200000, 0xffe00000, "@,R", level }, \
312
  { name, opcode|0x00400000, 0xffe00000, "*,R", level }, \
313
  { name, opcode|0x00600000, 0xffe00000, "S,R", level }
314
 
315
/* AB: General 2-operand integer operation with condition
316
   Syntax: <i>c src, dst
317
       c   = Condition
318
       src = Register (Q), Direct (@), Indirect (*), Signed immediate (S)
319
       dst = Register (R)
320
   Instr: 1/0 - LDIc
321
*/
322
#define AB_CLASS_INSN(name, opcode, level) \
323
  { name, opcode|0x40000000, 0xf0600000, "Q;R", level }, \
324
  { name, opcode|0x40200000, 0xf0600000, "@,R", level }, \
325
  { name, opcode|0x40400000, 0xf0600000, "*,R", level }, \
326
  { name, opcode|0x40600000, 0xf0600000, "S,R", level }
327
 
328
/* AU: General 2-operand unsigned integer operation
329
   Syntax: <i> src, dst
330
        src = Register (Q), Direct (@), Indirect (*), Unsigned immediate (U)
331
        dst = Register (R)
332
   Instr: 6/2 - AND, ANDN, NOT, OR, TSTB, XOR, C4x: LBUn, LHUn
333
*/
334
#define AU_CLASS_INSN(name, opcode, level) \
335
  { name, opcode|0x00000000, 0xffe00000, "Q;R", level }, \
336
  { name, opcode|0x00200000, 0xffe00000, "@,R", level }, \
337
  { name, opcode|0x00400000, 0xffe00000, "*,R", level }, \
338
  { name, opcode|0x00600000, 0xffe00000, "U,R", level }
339
 
340
/* AF: General 2-operand float to integer operation
341
   Syntax: <i> src, dst
342
        src = Register 0-11 (q), Direct (@), Indirect (*), Float immediate (F)
343
        dst = Register (R)
344
   Instr: 1/0 - FIX
345
*/
346
#define AF_CLASS_INSN(name, opcode, level) \
347
  { name, opcode|0x00000000, 0xffe00000, "q;R", level }, \
348
  { name, opcode|0x00200000, 0xffe00000, "@,R", level }, \
349
  { name, opcode|0x00400000, 0xffe00000, "*,R", level }, \
350
  { name, opcode|0x00600000, 0xffe00000, "F,R", level }
351
 
352
/* A2: Limited 1-operand (integer) operation
353
   Syntax: <i> src
354
       src = Register (Q), Indirect (*), None
355
   Instr: 1/0 - NOP
356
*/
357
#define A2_CLASS_INSN(name, opcode, level) \
358
  { name, opcode|0x00000000, 0xffe00000, "Q", level }, \
359
  { name, opcode|0x00400000, 0xffe00000, "*", level }, \
360
  { name, opcode|0x00000000, 0xffe00000, "" , level }
361
 
362
/* A3: General 1-operand unsigned integer operation
363
   Syntax: <i> src
364
        src = Register (Q), Direct (@), Indirect (*), Unsigned immediate (U)
365
   Instr: 1/0 - RPTS
366
*/
367
#define A3_CLASS_INSN(name, opcode, level) \
368
  { name, opcode|0x00000000, 0xffff0000, "Q", level }, \
369
  { name, opcode|0x00200000, 0xffff0000, "@", level }, \
370
  { name, opcode|0x00400000, 0xffff0000, "*", level }, \
371
  { name, opcode|0x00600000, 0xffff0000, "U", level }
372
 
373
/* A6: Limited 2-operand integer operation
374
   Syntax: <i> src, dst
375
       src = Direct (@), Indirect (*)
376
       dst = Register (R)
377
   Instr: 1/1 - LDII, C4x: SIGI
378
*/
379
#define A6_CLASS_INSN(name, opcode, level) \
380
  { name, opcode|0x00200000, 0xffe00000, "@,R", level }, \
381
  { name, opcode|0x00400000, 0xffe00000, "*,R", level }
382
 
383
/* A7: Limited 2-operand integer store operation
384
   Syntax: <i> src, dst
385
       src = Register (R)
386
       dst = Direct (@), Indirect (*)
387
   Instr: 2/0 - STI, STII
388
*/
389
#define A7_CLASS_INSN(name, opcode, level) \
390
  { name, opcode|0x00200000, 0xffe00000, "R,@", level }, \
391
  { name, opcode|0x00400000, 0xffe00000, "R,*", level }
392
 
393
/* AY: General 2-operand signed address load operation
394
   Syntax: <i> src, dst
395
        src = Register (Q), Direct (@), Indirect (*), Signed immediate (S)
396
        dst = Address register - ARx, IRx, DP, BK, SP (Y)
397
   Instr: 0/1 - C4x: LDA
398
   Note: Q and Y should *never* be the same register
399
*/
400
#define AY_CLASS_INSN(name, opcode, level) \
401
  { name, opcode|0x00000000, 0xffe00000, "Q,Y", level }, \
402
  { name, opcode|0x00200000, 0xffe00000, "@,Y", level }, \
403
  { name, opcode|0x00400000, 0xffe00000, "*,Y", level }, \
404
  { name, opcode|0x00600000, 0xffe00000, "S,Y", level }
405
 
406
/* B: General 2-operand float operation
407
   Syntax: <i> src, dst
408
       src = Register 0-11 (q), Direct (@), Indirect (*), Float immediate (F)
409
       dst = Register 0-11 (r)
410
   Instr: 12/2 - ABSF, ADDF, CMPF, LDE, LDF, LDM, MPYF, NEGF, NORM, RND,
411
                 SUBF, SUBRF, C4x: RSQRF, TOIEEE
412
*/
413
#define B_CLASS_INSN(name, opcode, level) \
414
  { name, opcode|0x00000000, 0xffe00000, "q;r", level }, \
415
  { name, opcode|0x00200000, 0xffe00000, "@,r", level }, \
416
  { name, opcode|0x00400000, 0xffe00000, "*,r", level }, \
417
  { name, opcode|0x00600000, 0xffe00000, "F,r", level }
418
 
419
/* BA: General 2-operand integer to float operation
420
   Syntax: <i> src, dst
421
       src = Register (Q), Direct (@), Indirect (*), Float immediate (F)
422
       dst = Register 0-11 (r)
423
   Instr: 0/1 - C4x: CRCPF
424
*/
425
#define BA_CLASS_INSN(name, opcode, level) \
426
  { name, opcode|0x00000000, 0xffe00000, "Q;r", level }, \
427
  { name, opcode|0x00200000, 0xffe00000, "@,r", level }, \
428
  { name, opcode|0x00400000, 0xffe00000, "*,r", level }, \
429
  { name, opcode|0x00600000, 0xffe00000, "F,r", level }
430
 
431
/* BB: General 2-operand conditional float operation
432
   Syntax: <i>c src, dst
433
       c   = Condition
434
       src = Register 0-11 (q), Direct (@), Indirect (*), Float immediate (F)
435
       dst = Register 0-11 (r)
436
   Instr: 1/0 - LDFc
437
*/
438
#define BB_CLASS_INSN(name, opcode, level) \
439
  { name, opcode|0x40000000, 0xf0600000, "q;r", level }, \
440
  { name, opcode|0x40200000, 0xf0600000, "@,r", level }, \
441
  { name, opcode|0x40400000, 0xf0600000, "*,r", level }, \
442
  { name, opcode|0x40600000, 0xf0600000, "F,r", level }
443
 
444
/* BI: General 2-operand integer to float operation (yet different to BA)
445
   Syntax: <i> src, dst
446
       src = Register (Q), Direct (@), Indirect (*), Signed immediate (S)
447
       dst = Register 0-11 (r)
448
   Instr: 1/0 - FLOAT
449
*/
450
#define BI_CLASS_INSN(name, opcode, level) \
451
  { name, opcode|0x00000000, 0xffe00000, "Q;r", level }, \
452
  { name, opcode|0x00200000, 0xffe00000, "@,r", level }, \
453
  { name, opcode|0x00400000, 0xffe00000, "*,r", level }, \
454
  { name, opcode|0x00600000, 0xffe00000, "S,r", level }
455
 
456
/* B6: Limited 2-operand float operation
457
   Syntax: <i> src, dst
458
       src = Direct (@), Indirect (*)
459
       dst = Register 0-11 (r)
460
   Instr: 1/1 - LDFI, C4x: FRIEEE
461
*/
462
#define B6_CLASS_INSN(name, opcode, level) \
463
  { name, opcode|0x00200000, 0xffe00000, "@,r", level }, \
464
  { name, opcode|0x00400000, 0xffe00000, "*,r", level }
465
 
466
/* B7: Limited 2-operand float store operation
467
   Syntax: <i> src, dst
468
       src = Register 0-11 (r)
469
       dst = Direct (@), Indirect (*)
470
   Instr: 2/0 - STF, STFI
471
*/
472
#define B7_CLASS_INSN(name, opcode, level) \
473
  { name, opcode|0x00200000, 0xffe00000, "r,@", level }, \
474
  { name, opcode|0x00400000, 0xffe00000, "r,*", level }
475
 
476
/* D: Decrement and brach operations
477
   Syntax: <i>c ARn, dst
478
       c   = condition
479
       ARn = AR register 0-7 (A)
480
       dst = Register (Q), PC-relative (P)
481
   Instr: 2/0 - DBc, DBcD
482
   Alias: <name1> <name2>
483
*/
484
#define D_CLASS_INSN(name1, name2, opcode, level) \
485
  { name1, opcode|0x00000000, 0xfe200000, "A,Q", level }, \
486
  { name1, opcode|0x02000000, 0xfe200000, "A,P", level }, \
487
  { name2, opcode|0x00000000, 0xfe200000, "A,Q", level }, \
488
  { name2, opcode|0x02000000, 0xfe200000, "A,P", level }
489
 
490
/* I: General branch operations
491
   Syntax: <i> dst
492
       dst = Address (B)
493
   Instr: 3/1 - BR, BRD, CALL, C4x: LAJ
494
*/
495
 
496
/* I2: General branch operations (C4x addition)
497
   Syntax: <i> dst
498
       dst = Address (B), C4x: Register (Q)
499
   Instr: 2/0 - RPTB, RPTBD
500
*/
501
 
502
/* J: General conditional branch operations
503
   Syntax: <i>c dst
504
       c   = Condition
505
       dst = Register (Q), PC-relative (P)
506
   Instr: 2/3 - Bc, BcD, C4x: BcAF, BcAT, LAJc
507
   Alias: <name1> <name2>
508
*/
509
#define J_CLASS_INSN(name1, name2, opcode, level) \
510
  { name1, opcode|0x00000000, 0xffe00000, "Q", level }, \
511
  { name1, opcode|0x02000000, 0xffe00000, "P", level }, \
512
  { name2, opcode|0x00000000, 0xffe00000, "Q", level }, \
513
  { name2, opcode|0x02000000, 0xffe00000, "P", level }
514
 
515
/* JS: General conditional branch operations
516
   Syntax: <i>c dst
517
       c   = Condition
518
       dst = Register (Q), PC-relative (P)
519
   Instr: 1/1 - CALLc, C4X: LAJc
520
*/
521
 
522
/* LL: Load-load parallell operation
523
   Syntax: <i> src2, dst2 || <i> src1, dst1
524
       src1 = Indirect 0,1,IR0,IR1 (J)
525
       dst1 = Register 0-7 (K)
526
       src2 = Indirect 0,1,IR0,IR1, ENH: Register (i)
527
       dst2 = Register 0-7 (L)
528
   Instr: 2/0 - LDF||LDF, LDI||LDI
529
   Alias: i||i, i1||i2, i2||i1
530
*/
531
#define LL_CLASS_INSN(name, opcode, level) \
532
  { name "_"  name    , opcode, 0xfe000000, "i;L|J,K", level }, \
533
  { name "2_" name "1", opcode, 0xfe000000, "i;L|J,K", level }, \
534
  { name "1_" name "2", opcode, 0xfe000000, "J,K|i;L", level }
535
 
536
/* LS: Store-store parallell operation
537
   Syntax: <i> src2, dst2 || <i> src1, dst1
538
       src1 = Register 0-7 (H)
539
       dst1 = Indirect 0,1,IR0,IR1 (J)
540
       src2 = Register 0-7 (L)
541
       dst2 = Indirect 0,1,IR0,IR1, ENH: register (i)
542
   Instr: 2/0 - STF||STF, STI||STI
543
   Alias: i||i, i1||i2, i2||i1.
544
*/
545
#define LS_CLASS_INSN(name, opcode, level) \
546
  { name "_"  name    , opcode, 0xfe000000, "L;i|H,J", level }, \
547
  { name "2_" name "1", opcode, 0xfe000000, "L;i|H,J", level }, \
548
  { name "1_" name "2", opcode, 0xfe000000, "H,J|L;i", level }
549
 
550
/* M: General multiply and add/sub operations
551
   Syntax: <ia> src3,src4,dst1 || <ib> src2,src1,dst2 [00] - Manual
552
           <ia> src3,src1,dst1 || <ib> src2,src4,dst2 [01] - Manual
553
           <ia> src1,src3,dst1 || <ib> src2,src4,dst2 [01]
554
           <ia> src1,src2,dst1 || <ib> src4,src3,dst2 [02] - Manual
555
           <ia> src3,src1,dst1 || <ib> src4,src2,dst2 [03] - Manual
556
           <ia> src1,src3,dst1 || <ib> src4,src2,dst2 [03]
557
       src1 = Register 0-7 (K)
558
       src2 = Register 0-7 (H)
559
       src3 = Indirect 0,1,IR0,IR1, ENH: register (j)
560
       src4 = Indirect 0,1,IR0,IR1, ENH: register (i)
561
       dst1 = Register 0-1 (N)
562
       dst2 = Register 2-3 (M)
563
   Instr: 4/0 - MPYF3||ADDF3, MPYF3||SUBF3, MPYI3||ADDI3, MPYI3||SUBI3
564
   Alias: a||b, a3||n, a||b3, a3||b3, b||a, b3||a, b||a3, b3||a3
565
*/
566
#define M_CLASS_INSN(namea, nameb, opcode, level) \
567
  { namea "_" nameb, opcode|0x00000000, 0xff000000, "i;j;N|H;K;M", level }, \
568
  { namea "_" nameb, opcode|0x01000000, 0xff000000, "j;K;N|H;i;M", level }, \
569
  { namea "_" nameb, opcode|0x01000000, 0xff000000, "K;j;N|H;i;M", level }, \
570
  { namea "_" nameb, opcode|0x02000000, 0xff000000, "H;K;N|i;j;M", level }, \
571
  { namea "_" nameb, opcode|0x03000000, 0xff000000, "j;K;N|i;H;M", level }, \
572
  { namea "_" nameb, opcode|0x03000000, 0xff000000, "K;j;N|i;H;M", level }, \
573
  { namea "3_" nameb, opcode|0x00000000, 0xff000000, "i;j;N|H;K;M", level }, \
574
  { namea "3_" nameb, opcode|0x01000000, 0xff000000, "j;K;N|H;i;M", level }, \
575
  { namea "3_" nameb, opcode|0x01000000, 0xff000000, "K;j;N|H;i;M", level }, \
576
  { namea "3_" nameb, opcode|0x02000000, 0xff000000, "H;K;N|i;j;M", level }, \
577
  { namea "3_" nameb, opcode|0x03000000, 0xff000000, "j;K;N|i;H;M", level }, \
578
  { namea "3_" nameb, opcode|0x03000000, 0xff000000, "K;j;N|i;H;M", level }, \
579
  { namea "_" nameb "3", opcode|0x00000000, 0xff000000, "i;j;N|H;K;M", level }, \
580
  { namea "_" nameb "3", opcode|0x01000000, 0xff000000, "j;K;N|H;i;M", level }, \
581
  { namea "_" nameb "3", opcode|0x01000000, 0xff000000, "K;j;N|H;i;M", level }, \
582
  { namea "_" nameb "3", opcode|0x02000000, 0xff000000, "H;K;N|i;j;M", level }, \
583
  { namea "_" nameb "3", opcode|0x03000000, 0xff000000, "j;K;N|i;H;M", level }, \
584
  { namea "_" nameb "3", opcode|0x03000000, 0xff000000, "K;j;N|i;H;M", level }, \
585
  { namea "3_" nameb "3", opcode|0x00000000, 0xff000000, "i;j;N|H;K;M", level }, \
586
  { namea "3_" nameb "3", opcode|0x01000000, 0xff000000, "j;K;N|H;i;M", level }, \
587
  { namea "3_" nameb "3", opcode|0x01000000, 0xff000000, "K;j;N|H;i;M", level }, \
588
  { namea "3_" nameb "3", opcode|0x02000000, 0xff000000, "H;K;N|i;j;M", level }, \
589
  { namea "3_" nameb "3", opcode|0x03000000, 0xff000000, "j;K;N|i;H;M", level }, \
590
  { namea "3_" nameb "3", opcode|0x03000000, 0xff000000, "K;j;N|i;H;M", level }, \
591
  { nameb "_" namea, opcode|0x00000000, 0xff000000, "H;K;M|i;j;N", level }, \
592
  { nameb "_" namea, opcode|0x01000000, 0xff000000, "H;i;M|j;K;N", level }, \
593
  { nameb "_" namea, opcode|0x01000000, 0xff000000, "H;i;M|K;j;N", level }, \
594
  { nameb "_" namea, opcode|0x02000000, 0xff000000, "i;j;M|H;K;N", level }, \
595
  { nameb "_" namea, opcode|0x03000000, 0xff000000, "i;H;M|j;K;N", level }, \
596
  { nameb "_" namea, opcode|0x03000000, 0xff000000, "i;H;M|K;j;N", level }, \
597
  { nameb "3_" namea, opcode|0x00000000, 0xff000000, "H;K;M|i;j;N", level }, \
598
  { nameb "3_" namea, opcode|0x01000000, 0xff000000, "H;i;M|j;K;N", level }, \
599
  { nameb "3_" namea, opcode|0x01000000, 0xff000000, "H;i;M|K;j;N", level }, \
600
  { nameb "3_" namea, opcode|0x02000000, 0xff000000, "i;j;M|H;K;N", level }, \
601
  { nameb "3_" namea, opcode|0x03000000, 0xff000000, "i;H;M|j;K;N", level }, \
602
  { nameb "3_" namea, opcode|0x03000000, 0xff000000, "i;H;M|K;j;N", level }, \
603
  { nameb "_" namea "3", opcode|0x00000000, 0xff000000, "H;K;M|i;j;N", level }, \
604
  { nameb "_" namea "3", opcode|0x01000000, 0xff000000, "H;i;M|j;K;N", level }, \
605
  { nameb "_" namea "3", opcode|0x01000000, 0xff000000, "H;i;M|K;j;N", level }, \
606
  { nameb "_" namea "3", opcode|0x02000000, 0xff000000, "i;j;M|H;K;N", level }, \
607
  { nameb "_" namea "3", opcode|0x03000000, 0xff000000, "i;H;M|j;K;N", level }, \
608
  { nameb "_" namea "3", opcode|0x03000000, 0xff000000, "i;H;M|K;j;N", level }, \
609
  { nameb "3_" namea "3", opcode|0x00000000, 0xff000000, "H;K;M|i;j;N", level }, \
610
  { nameb "3_" namea "3", opcode|0x01000000, 0xff000000, "H;i;M|j;K;N", level }, \
611
  { nameb "3_" namea "3", opcode|0x01000000, 0xff000000, "H;i;M|K;j;N", level }, \
612
  { nameb "3_" namea "3", opcode|0x02000000, 0xff000000, "i;j;M|H;K;N", level }, \
613
  { nameb "3_" namea "3", opcode|0x03000000, 0xff000000, "i;H;M|j;K;N", level }, \
614
  { nameb "3_" namea "3", opcode|0x03000000, 0xff000000, "i;H;M|K;j;N", level }
615
 
616
/* P: General 2-operand operation with parallell store
617
   Syntax: <ia> src2, dst1 || <ib> src3, dst2
618
       src2 = Indirect 0,1,IR0,IR1, ENH: register (i)
619
       dst1 = Register 0-7 (L)
620
       src3 = Register 0-7 (H)
621
       dst2 = Indirect 0,1,IR0,IR1 (J)
622
   Instr: 9/2 - ABSF||STF, ABSI||STI, FIX||STI, FLOAT||STF, LDF||STF,
623
                LDI||STI, NEGF||STF, NEGI||STI, NOT||STI, C4x: FRIEEE||STF,
624
                TOIEEE||STF
625
   Alias: a||b, b||a
626
*/
627
#define P_CLASS_INSN(namea, nameb, opcode, level) \
628
  { namea "_" nameb, opcode, 0xfe000000, "i;L|H,J", level }, \
629
  { nameb "_" namea, opcode, 0xfe000000, "H,J|i;L", level }
630
 
631
/* Q: General 3-operand operation with parallell store
632
   Syntax: <ia> src1, src2, dst1 || <ib> src3, dst2
633
       src1 = Register 0-7 (K)
634
       src2 = Indirect 0,1,IR0,IR1, ENH: register (i)
635
       dst1 = Register 0-7 (L)
636
       src3 = Register 0-7 (H)
637
       dst2 = Indirect 0,1,IR0,IR1 (J)
638
   Instr: 4/0 - ASH3||STI, LSH3||STI, SUBF3||STF, SUBI3||STI
639
   Alias: a||b, b||a, a3||b, b||a3
640
*/
641
#define Q_CLASS_INSN(namea, nameb, opcode, level) \
642
  { namea "_"  nameb    , opcode, 0xfe000000, "K,i;L|H,J", level }, \
643
  { nameb "_"  namea    , opcode, 0xfe000000, "H,J|K,i;L", level }, \
644
  { namea "3_" nameb    , opcode, 0xfe000000, "K,i;L|H,J", level }, \
645
  { nameb "_"  namea "3", opcode, 0xfe000000, "H,J|K,i;L", level }
646
 
647
/* QC: General commutative 3-operand operation with parallell store
648
   Syntax: <ia> src2, src1, dst1 || <ib> src3, dst2
649
           <ia> src1, src2, dst1 || <ib> src3, dst2 - Manual
650
       src1 = Register 0-7 (K)
651
       src2 = Indirect 0,1,IR0,IR1, ENH: register (i)
652
       dst1 = Register 0-7 (L)
653
       src3 = Register 0-7 (H)
654
       dst2 = Indirect 0,1,IR0,IR1 (J)
655
   Instr: 7/0 - ADDF3||STF, ADDI3||STI, AND3||STI, MPYF3||STF, MPYI3||STI,
656
                OR3||STI, XOR3||STI
657
   Alias: a||b, b||a, a3||b, b||a3
658
*/
659
#define QC_CLASS_INSN(namea, nameb, opcode, level) \
660
  { namea "_"  nameb    , opcode, 0xfe000000, "i;K;L|H,J", level }, \
661
  { namea "_"  nameb    , opcode, 0xfe000000, "K;i;L|H,J", level }, \
662
  { nameb "_"  namea    , opcode, 0xfe000000, "H,J|i;K;L", level }, \
663
  { nameb "_"  namea    , opcode, 0xfe000000, "H,J|K;i;L", level }, \
664
  { namea "3_" nameb    , opcode, 0xfe000000, "i;K;L|H,J", level }, \
665
  { namea "3_" nameb    , opcode, 0xfe000000, "K;i;L|H,J", level }, \
666
  { nameb "_"  namea "3", opcode, 0xfe000000, "H,J|i;K;L", level }, \
667
  { nameb "_"  namea "3", opcode, 0xfe000000, "H,J|K;i;L", level }
668
 
669
/* R: General register integer operation
670
   Syntax: <i> dst
671
       dst = Register (R)
672
   Instr: 6/0 - POP, PUSH, ROL, ROLC, ROR, RORC
673
*/
674
#define R_CLASS_INSN(name, opcode, level) \
675
  { name, opcode, 0xffe0ffff, "R", level }
676
 
677
/* RF: General register float operation
678
   Syntax: <i> dst
679
       dst = Register 0-11 (r)
680
   Instr: 2/0 - POPF, PUSHF
681
*/
682
#define RF_CLASS_INSN(name, opcode, level) \
683
  { name, opcode, 0xffe0ffff, "r", level }
684
 
685
/* S: General 3-operand float operation
686
   Syntax: <i> src2, src1, dst
687
       src2 = Register 0-11 (e), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C)
688
       src1 = Register 0-11 (g), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (O)
689
       dst  = Register 0-11 (r)
690
   Instr: 1/0 - SUBF3
691
   Alias: i, i3
692
*/
693
#define S_CLASS_INSN(name, opcode, level) \
694
  { name, opcode|0x20000000, 0xffe00000, "e,g;r", level  }, \
695
  { name, opcode|0x20200000, 0xffe00000, "e,J,r", level  }, \
696
  { name, opcode|0x20400000, 0xffe00000, "I,g;r", level  }, \
697
  { name, opcode|0x20600000, 0xffe00000, "I,J,r", level  }, \
698
  { name, opcode|0x30200000, 0xffe00000, "C,g;r", OP_C4X }, \
699
  { name, opcode|0x30600000, 0xffe00000, "C,O,r", OP_C4X }, \
700
  { name "3", opcode|0x20000000, 0xffe00000, "e,g;r", level  }, \
701
  { name "3", opcode|0x20200000, 0xffe00000, "e,J,r", level  }, \
702
  { name "3", opcode|0x20400000, 0xffe00000, "I,g;r", level  }, \
703
  { name "3", opcode|0x20600000, 0xffe00000, "I,J,r", level  }, \
704
  { name "3", opcode|0x30200000, 0xffe00000, "C,g;r", OP_C4X }, \
705
  { name "3", opcode|0x30600000, 0xffe00000, "C,O,r", OP_C4X }
706
 
707
/* SC: General commutative 3-operand float operation
708
   Syntax: <i> src2, src1, dst - Manual
709
           <i> src1, src2, dst
710
       src2 = Register 0-11 (e), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C)
711
       src1 = Register 0-11 (g), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (O)
712
       dst  = Register 0-11 (r)
713
   Instr: 2/0 - ADDF3, MPYF3
714
   Alias: i, i3
715
*/
716
#define SC_CLASS_INSN(name, opcode, level) \
717
  { name, opcode|0x20000000, 0xffe00000, "e,g;r", level  }, \
718
  { name, opcode|0x20200000, 0xffe00000, "e,J,r", level  }, \
719
  { name, opcode|0x20400000, 0xffe00000, "I,g;r", level  }, \
720
  { name, opcode|0x20600000, 0xffe00000, "I,J,r", level  }, \
721
  { name, opcode|0x30200000, 0xffe00000, "C,g;r", OP_C4X }, \
722
  { name, opcode|0x30200000, 0xffe00000, "g,C,r", OP_C4X }, \
723
  { name, opcode|0x30600000, 0xffe00000, "C,O,r", OP_C4X }, \
724
  { name "3", opcode|0x20000000, 0xffe00000, "e,g;r", level  }, \
725
  { name "3", opcode|0x20200000, 0xffe00000, "e,J,r", level  }, \
726
  { name "3", opcode|0x20400000, 0xffe00000, "I,g;r", level  }, \
727
  { name "3", opcode|0x20600000, 0xffe00000, "I,J,r", level  }, \
728
  { name "3", opcode|0x30200000, 0xffe00000, "g,C,r", OP_C4X }, \
729
  { name "3", opcode|0x30200000, 0xffe00000, "C,g;r", OP_C4X }, \
730
  { name "3", opcode|0x30600000, 0xffe00000, "C,O,r", OP_C4X }
731
 
732
/* S2: General 3-operand float operation with 2 args
733
   Syntax: <i> src2, src1
734
       src2 = Register 0-11 (e), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C)
735
       src1 = Register 0-11 (g), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (O)
736
   Instr: 1/0 - CMPF3
737
   Alias: i, i3
738
*/
739
#define S2_CLASS_INSN(name, opcode, level) \
740
  { name, opcode|0x20000000, 0xffe00000, "e,g", level  }, \
741
  { name, opcode|0x20200000, 0xffe00000, "e,J", level  }, \
742
  { name, opcode|0x20400000, 0xffe00000, "I,g", level  }, \
743
  { name, opcode|0x20600000, 0xffe00000, "I,J", level  }, \
744
  { name, opcode|0x30200000, 0xffe00000, "C,g", OP_C4X }, \
745
  { name, opcode|0x30600000, 0xffe00000, "C,O", OP_C4X }, \
746
  { name "3", opcode|0x20000000, 0xffe00000, "e,g", level  }, \
747
  { name "3", opcode|0x20200000, 0xffe00000, "e,J", level  }, \
748
  { name "3", opcode|0x20400000, 0xffe00000, "I,g", level  }, \
749
  { name "3", opcode|0x20600000, 0xffe00000, "I,J", level  }, \
750
  { name "3", opcode|0x30200000, 0xffe00000, "C,g", OP_C4X }, \
751
  { name "3", opcode|0x30600000, 0xffe00000, "C,O", OP_C4X }
752
 
753
/* T: General 3-operand integer operand
754
   Syntax: <i> src2, src1, dst
755
       src2 = Register (E), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C), Immediate (W)
756
       src1 = Register (G), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (O)
757
       dst  = Register (R)
758
   Instr: 5/0 - ANDN3, ASH3, LSH3, SUBB3, SUBI3
759
   Alias: i, i3
760
*/
761
#define T_CLASS_INSN(name, opcode, level) \
762
  { name, opcode|0x20000000, 0xffe00000, "E,G;R", level  }, \
763
  { name, opcode|0x20200000, 0xffe00000, "E,J,R", level  }, \
764
  { name, opcode|0x20400000, 0xffe00000, "I,G;R", level  }, \
765
  { name, opcode|0x20600000, 0xffe00000, "I,J,R", level  }, \
766
  { name, opcode|0x30000000, 0xffe00000, "W,G;R", OP_C4X }, \
767
  { name, opcode|0x30200000, 0xffe00000, "C,G;R", OP_C4X }, \
768
  { name, opcode|0x30400000, 0xffe00000, "W,O,R", OP_C4X }, \
769
  { name, opcode|0x30600000, 0xffe00000, "C,O,R", OP_C4X }, \
770
  { name "3", opcode|0x20000000, 0xffe00000, "E,G;R", level  }, \
771
  { name "3", opcode|0x20200000, 0xffe00000, "E,J,R", level  }, \
772
  { name "3", opcode|0x20400000, 0xffe00000, "I,G;R", level  }, \
773
  { name "3", opcode|0x20600000, 0xffe00000, "I,J,R", level  }, \
774
  { name "3", opcode|0x30000000, 0xffe00000, "W,G;R", OP_C4X }, \
775
  { name "3", opcode|0x30200000, 0xffe00000, "C,G;R", OP_C4X }, \
776
  { name "3", opcode|0x30400000, 0xffe00000, "W,O,R", OP_C4X }, \
777
  { name "3", opcode|0x30600000, 0xffe00000, "C,O,R", OP_C4X }
778
 
779
/* TC: General commutative 3-operand integer operation
780
   Syntax: <i> src2, src1, dst
781
           <i> src1, src2, dst
782
       src2 = Register (E), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C), Immediate (W)
783
       src1 = Register (G), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (O)
784
       dst  = Register (R)
785
   Instr: 6/2 - ADDC3, ADDI3, AND3, MPYI3, OR3, XOR3, C4x: MPYSHI, MPYUHI
786
   Alias: i, i3
787
*/
788
#define TC_CLASS_INSN(name, opcode, level) \
789
  { name, opcode|0x20000000, 0xffe00000, "E,G;R", level  }, \
790
  { name, opcode|0x20200000, 0xffe00000, "E,J,R", level  }, \
791
  { name, opcode|0x20400000, 0xffe00000, "I,G;R", level  }, \
792
  { name, opcode|0x20600000, 0xffe00000, "I,J,R", level  }, \
793
  { name, opcode|0x30000000, 0xffe00000, "W,G;R", OP_C4X }, \
794
  { name, opcode|0x30000000, 0xffe00000, "G,W,R", OP_C4X }, \
795
  { name, opcode|0x30200000, 0xffe00000, "C,G;R", OP_C4X }, \
796
  { name, opcode|0x30200000, 0xffe00000, "G,C,R", OP_C4X }, \
797
  { name, opcode|0x30400000, 0xffe00000, "W,O,R", OP_C4X }, \
798
  { name, opcode|0x30400000, 0xffe00000, "O,W,R", OP_C4X }, \
799
  { name, opcode|0x30600000, 0xffe00000, "C,O,R", OP_C4X }, \
800
  { name "3", opcode|0x20000000, 0xffe00000, "E,G;R", level  }, \
801
  { name "3", opcode|0x20200000, 0xffe00000, "E,J,R", level  }, \
802
  { name "3", opcode|0x20400000, 0xffe00000, "I,G;R", level  }, \
803
  { name "3", opcode|0x20600000, 0xffe00000, "I,J,R", level  }, \
804
  { name "3", opcode|0x30000000, 0xffe00000, "W,G;R", OP_C4X }, \
805
  { name "3", opcode|0x30000000, 0xffe00000, "G,W,R", OP_C4X }, \
806
  { name "3", opcode|0x30200000, 0xffe00000, "C,G;R", OP_C4X }, \
807
  { name "3", opcode|0x30200000, 0xffe00000, "G,C,R", OP_C4X }, \
808
  { name "3", opcode|0x30400000, 0xffe00000, "W,O,R", OP_C4X }, \
809
  { name "3", opcode|0x30400000, 0xffe00000, "O,W,R", OP_C4X }, \
810
  { name "3", opcode|0x30600000, 0xffe00000, "C,O,R", OP_C4X }
811
 
812
/* T2: General 3-operand integer operation with 2 args
813
   Syntax: <i> src2, src1
814
       src2 = Register (E), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C), Immediate (W)
815
       src1 = Register (G), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (O)
816
   Instr: 1/0 - CMPI3
817
   Alias: i, i3
818
*/
819
#define T2_CLASS_INSN(name, opcode, level) \
820
  { name, opcode|0x20000000, 0xffe00000, "E,G", level  }, \
821
  { name, opcode|0x20200000, 0xffe00000, "E,J", level  }, \
822
  { name, opcode|0x20400000, 0xffe00000, "I,G", level  }, \
823
  { name, opcode|0x20600000, 0xffe00000, "I,J", level  }, \
824
  { name, opcode|0x30000000, 0xffe00000, "W,G", OP_C4X }, \
825
  { name, opcode|0x30200000, 0xffe00000, "C,G", OP_C4X }, \
826
  { name, opcode|0x30400000, 0xffe00000, "W,O", OP_C4X }, \
827
  { name, opcode|0x30600000, 0xffe00000, "C,O", OP_C4X }, \
828
  { name "3", opcode|0x20000000, 0xffe00000, "E,G", level  }, \
829
  { name "3", opcode|0x20200000, 0xffe00000, "E,J", level  }, \
830
  { name "3", opcode|0x20400000, 0xffe00000, "I,G", level  }, \
831
  { name "3", opcode|0x20600000, 0xffe00000, "I,J", level  }, \
832
  { name "3", opcode|0x30000000, 0xffe00000, "W,G", OP_C4X }, \
833
  { name "3", opcode|0x30200000, 0xffe00000, "C,G", OP_C4X }, \
834
  { name "3", opcode|0x30400000, 0xffe00000, "W,O", OP_C4X }, \
835
  { name "3", opcode|0x30600000, 0xffe00000, "C,O", OP_C4X }
836
 
837
/* T2C: General commutative 3-operand integer operation with 2 args
838
   Syntax: <i> src2, src1 - Manual
839
           <i> src1, src2
840
       src2 = Register (E), Indirect 0,1,IR0,IR1 (I), C4x T2: Indirect (C), Immediate (W)
841
       src1 = Register (G), Indirect 0,1,IR0,IR1 (J), C4x T2: Indirect (0)
842
   Instr: 1/0 - TSTB3
843
   Alias: i, i3
844
*/
845
#define T2C_CLASS_INSN(name, opcode, level) \
846
  { name, opcode|0x20000000, 0xffe00000, "E,G", level  }, \
847
  { name, opcode|0x20200000, 0xffe00000, "E,J", level  }, \
848
  { name, opcode|0x20400000, 0xffe00000, "I,G", level  }, \
849
  { name, opcode|0x20600000, 0xffe00000, "I,J", level  }, \
850
  { name, opcode|0x30000000, 0xffe00000, "W,G", OP_C4X }, \
851
  { name, opcode|0x30000000, 0xffe00000, "G,W", OP_C4X }, \
852
  { name, opcode|0x30200000, 0xffe00000, "C,G", OP_C4X }, \
853
  { name, opcode|0x30200000, 0xffe00000, "G,C", OP_C4X }, \
854
  { name, opcode|0x30400000, 0xffe00000, "W,O", OP_C4X }, \
855
  { name, opcode|0x30400000, 0xffe00000, "O,W", OP_C4X }, \
856
  { name, opcode|0x30600000, 0xffe00000, "C,O", OP_C4X }, \
857
  { name "3", opcode|0x20000000, 0xffe00000, "E,G", level  }, \
858
  { name "3", opcode|0x20200000, 0xffe00000, "E,J", level  }, \
859
  { name "3", opcode|0x20400000, 0xffe00000, "I,G", level  }, \
860
  { name "3", opcode|0x20600000, 0xffe00000, "I,J", level  }, \
861
  { name "3", opcode|0x30000000, 0xffe00000, "W,G", OP_C4X }, \
862
  { name "3", opcode|0x30000000, 0xffe00000, "G,W", OP_C4X }, \
863
  { name "3", opcode|0x30200000, 0xffe00000, "C,G", OP_C4X }, \
864
  { name "3", opcode|0x30200000, 0xffe00000, "G,C", OP_C4X }, \
865
  { name "3", opcode|0x30400000, 0xffe00000, "W,O", OP_C4X }, \
866
  { name "3", opcode|0x30400000, 0xffe00000, "O,W", OP_C4X }, \
867
  { name "3", opcode|0x30600000, 0xffe00000, "C,O", OP_C4X }
868
 
869
/* Z: Misc operations with or without arguments
870
   Syntax: <i> <arg1>,...
871
   Instr: 16 - RETIc, RETSc, SIGI(c3X), SWI, IDLE, IDLE2, RETIcD,
872
               TRAPc, LATc, LDEP, LDEHI, LDEPE, LDPK, STIK, LDP, IACK
873
*/
874
 
875
 
876
/* Define tic4x opcodes for assembler and disassembler.  */
877
static const tic4x_inst_t tic4x_insts[] =
878
{
879
  /* Put synonyms after the desired forms in table so that they get
880
     overwritten in the lookup table.  The disassembler will thus
881
     print the `proper' mnemonics.  Note that the disassembler
882
     only decodes the 11 MSBs, so instructions like ldp @0x500 will
883
     be printed as ldiu 5, dp.  Note that with parallel instructions,
884
     the second part is executed before the first part, unless
885
     the sti1||sti2 form is used.  We also allow sti2||sti1
886
     which is equivalent to the default sti||sti form.
887
  */
888
  B_CLASS_INSN(  "absf",          0x00000000, OP_C3X   ),
889
  P_CLASS_INSN(  "absf",  "stf",  0xc8000000, OP_C3X   ),
890
  A_CLASS_INSN(  "absi",          0x00800000, OP_C3X   ),
891
  P_CLASS_INSN(  "absi",  "sti",  0xca000000, OP_C3X   ),
892
  A_CLASS_INSN(  "addc",          0x01000000, OP_C3X   ),
893
  TC_CLASS_INSN( "addc",          0x00000000, OP_C3X   ),
894
  B_CLASS_INSN(  "addf",          0x01800000, OP_C3X   ),
895
  SC_CLASS_INSN( "addf",          0x00800000, OP_C3X   ),
896
  QC_CLASS_INSN( "addf",  "stf",  0xcc000000, OP_C3X   ),
897
  A_CLASS_INSN(  "addi",          0x02000000, OP_C3X   ),
898
  TC_CLASS_INSN( "addi",          0x01000000, OP_C3X   ),
899
  QC_CLASS_INSN( "addi",  "sti",  0xce000000, OP_C3X   ),
900
  AU_CLASS_INSN( "and",           0x02800000, OP_C3X   ),
901
  TC_CLASS_INSN( "and",           0x01800000, OP_C3X   ),
902
  QC_CLASS_INSN( "and",   "sti",  0xd0000000, OP_C3X   ),
903
  AU_CLASS_INSN( "andn",          0x03000000, OP_C3X   ),
904
  T_CLASS_INSN(  "andn",          0x02000000, OP_C3X   ),
905
  A_CLASS_INSN(  "ash",           0x03800000, OP_C3X   ),
906
  T_CLASS_INSN(  "ash",           0x02800000, OP_C3X   ),
907
  Q_CLASS_INSN(  "ash",   "sti",  0xd2000000, OP_C3X   ),
908
  J_CLASS_INSN(  "bB",    "b",    0x68000000, OP_C3X   ),
909
  J_CLASS_INSN(  "bBd",   "bd",   0x68200000, OP_C3X   ),
910
  J_CLASS_INSN(  "bBaf",  "baf",  0x68a00000, OP_C4X   ),
911
  J_CLASS_INSN(  "bBat",  "bat",  0x68600000, OP_C4X   ),
912
  { "br",     0x60000000, 0xff000000, "B"   , OP_C3X   },  /* I_CLASS */
913
  { "brd",    0x61000000, 0xff000000, "B"   , OP_C3X   },  /* I_CLASS */
914
  { "call",   0x62000000, 0xff000000, "B"   , OP_C3X   },  /* I_CLASS */
915
  { "callB",  0x70000000, 0xffe00000, "Q"   , OP_C3X   },  /* JS_CLASS */
916
  { "callB",  0x72000000, 0xffe00000, "P"   , OP_C3X   },  /* JS_CLASS */
917
  B_CLASS_INSN(  "cmpf",          0x04000000, OP_C3X   ),
918
  S2_CLASS_INSN( "cmpf",          0x03000000, OP_C3X   ),
919
  A_CLASS_INSN(  "cmpi",          0x04800000, OP_C3X   ),
920
  T2_CLASS_INSN( "cmpi",          0x03800000, OP_C3X   ),
921
  D_CLASS_INSN(  "dbB",   "db",   0x6c000000, OP_C3X   ),
922
  D_CLASS_INSN(  "dbBd",  "dbd",  0x6c200000, OP_C3X   ),
923
  AF_CLASS_INSN( "fix",           0x05000000, OP_C3X   ),
924
  P_CLASS_INSN(  "fix",   "sti",  0xd4000000, OP_C3X   ),
925
  BI_CLASS_INSN( "float",         0x05800000, OP_C3X   ),
926
  P_CLASS_INSN(  "float", "stf",  0xd6000000, OP_C3X   ),
927
  B6_CLASS_INSN( "frieee",        0x1c000000, OP_C4X   ),
928
  P_CLASS_INSN(  "frieee","stf",  0xf2000000, OP_C4X   ),
929
  { "iack",   0x1b200000, 0xffe00000, "@"   , OP_C3X   },  /* Z_CLASS */
930
  { "iack",   0x1b400000, 0xffe00000, "*"   , OP_C3X   },  /* Z_CLASS */
931
  { "idle",   0x06000000, 0xffffffff, ""    , OP_C3X   },  /* Z_CLASS */
932
  { "idlez",  0x06000000, 0xffffffff, ""    , OP_C3X   },  /* Z_CLASS */
933
  { "idle2",  0x06000001, 0xffffffff, ""    , OP_IDLE2 },  /* Z_CLASS */
934
  { "laj",    0x63000000, 0xff000000, "B"   , OP_C4X   },  /* I_CLASS */
935
  { "lajB",   0x70200000, 0xffe00000, "Q"   , OP_C4X   },  /* JS_CLASS */
936
  { "lajB",   0x72200000, 0xffe00000, "P"   , OP_C4X   },  /* JS_CLASS */
937
  { "latB",   0x74800000, 0xffe00000, "V"   , OP_C4X   },  /* Z_CLASS */
938
  A_CLASS_INSN(  "lb0",           0xb0000000, OP_C4X   ),
939
  A_CLASS_INSN(  "lb1",           0xb0800000, OP_C4X   ),
940
  A_CLASS_INSN(  "lb2",           0xb1000000, OP_C4X   ),
941
  A_CLASS_INSN(  "lb3",           0xb1800000, OP_C4X   ),
942
  AU_CLASS_INSN( "lbu0",          0xb2000000, OP_C4X   ),
943
  AU_CLASS_INSN( "lbu1",          0xb2800000, OP_C4X   ),
944
  AU_CLASS_INSN( "lbu2",          0xb3000000, OP_C4X   ),
945
  AU_CLASS_INSN( "lbu3",          0xb3800000, OP_C4X   ),
946
  AY_CLASS_INSN( "lda",           0x1e800000, OP_C4X   ),
947
  B_CLASS_INSN(  "lde",           0x06800000, OP_C3X   ),
948
  { "ldep",   0x76000000, 0xffe00000, "X,R" , OP_C4X   },  /* Z_CLASS */
949
  B_CLASS_INSN(  "ldf",           0x07000000, OP_C3X   ),
950
  LL_CLASS_INSN( "ldf",           0xc4000000, OP_C3X   ),
951
  P_CLASS_INSN(  "ldf",   "stf",  0xd8000000, OP_C3X   ),
952
  BB_CLASS_INSN( "ldfC",          0x00000000, OP_C3X   ),
953
  B6_CLASS_INSN( "ldfi",          0x07800000, OP_C3X   ),
954
  { "ldhi",   0x1fe00000, 0xffe00000, "U,R" , OP_C4X   },  /* Z_CLASS */
955
  { "ldhi",   0x1fe00000, 0xffe00000, "#,R" , OP_C4X   },  /* Z_CLASS */
956
  A_CLASS_INSN(  "ldi",           0x08000000, OP_C3X   ),
957
  LL_CLASS_INSN( "ldi",           0xc6000000, OP_C3X   ),
958
  P_CLASS_INSN(  "ldi",   "sti",  0xda000000, OP_C3X   ),
959
  AB_CLASS_INSN( "ldiC",          0x10000000, OP_C3X   ),
960
  A6_CLASS_INSN( "ldii",          0x08800000, OP_C3X   ),
961
  { "ldp",    0x50700000, 0xffff0000, "#"   , OP_C3X   },  /* Z_CLASS - synonym for ldiu #,dp */
962
  B_CLASS_INSN(  "ldm",           0x09000000, OP_C3X   ),
963
  { "ldpe",   0x76800000, 0xffe00000, "Q,Z" , OP_C4X   },  /* Z_CLASS */
964
  { "ldpk",   0x1F700000, 0xffff0000, "#"   , OP_C4X   },  /* Z_CLASS */
965
  A_CLASS_INSN(  "lh0",           0xba000000, OP_C4X   ),
966
  A_CLASS_INSN(  "lh1",           0xba800000, OP_C4X   ),
967
  AU_CLASS_INSN( "lhu0",          0xbb000000, OP_C4X   ),
968
  AU_CLASS_INSN( "lhu1",          0xbb800000, OP_C4X   ),
969
  { "lopower", 0x10800001,0xffffffff, ""    , OP_LPWR  },  /* Z_CLASS */
970
  A_CLASS_INSN(  "lsh",           0x09800000, OP_C3X   ),
971
  T_CLASS_INSN(  "lsh",           0x04000000, OP_C3X   ),
972
  Q_CLASS_INSN(  "lsh",   "sti",  0xdc000000, OP_C3X   ),
973
  A_CLASS_INSN(  "lwl0",          0xb4000000, OP_C4X   ),
974
  A_CLASS_INSN(  "lwl1",          0xb4800000, OP_C4X   ),
975
  A_CLASS_INSN(  "lwl2",          0xb5000000, OP_C4X   ),
976
  A_CLASS_INSN(  "lwl3",          0xb5800000, OP_C4X   ),
977
  A_CLASS_INSN(  "lwr0",          0xb6000000, OP_C4X   ),
978
  A_CLASS_INSN(  "lwr1",          0xb6800000, OP_C4X   ),
979
  A_CLASS_INSN(  "lwr2",          0xb7000000, OP_C4X   ),
980
  A_CLASS_INSN(  "lwr3",          0xb7800000, OP_C4X   ),
981
  { "maxspeed",0x10800000,0xffffffff, ""    , OP_LPWR  },  /* Z_CLASS */
982
  A_CLASS_INSN(  "mb0",           0xb8000000, OP_C4X   ),
983
  A_CLASS_INSN(  "mb1",           0xb8800000, OP_C4X   ),
984
  A_CLASS_INSN(  "mb2",           0xb9000000, OP_C4X   ),
985
  A_CLASS_INSN(  "mb3",           0xb9800000, OP_C4X   ),
986
  A_CLASS_INSN(  "mh0",           0xbc000000, OP_C4X   ),
987
  A_CLASS_INSN(  "mh1",           0xbc800000, OP_C4X   ),
988
  A_CLASS_INSN(  "mh2",           0xbd000000, OP_C4X   ),
989
  A_CLASS_INSN(  "mh3",           0xbd800000, OP_C4X   ),
990
  B_CLASS_INSN(  "mpyf",          0x0a000000, OP_C3X   ),
991
  SC_CLASS_INSN( "mpyf",          0x04800000, OP_C3X   ),
992
  M_CLASS_INSN(  "mpyf",  "addf", 0x80000000, OP_C3X   ),
993
  QC_CLASS_INSN( "mpyf",  "stf",  0xde000000, OP_C3X   ),
994
  M_CLASS_INSN(  "mpyf",  "subf", 0x84000000, OP_C3X   ),
995
  A_CLASS_INSN(  "mpyi",          0x0a800000, OP_C3X   ),
996
  TC_CLASS_INSN( "mpyi",          0x05000000, OP_C3X   ),
997
  M_CLASS_INSN(  "mpyi",  "addi", 0x88000000, OP_C3X   ),
998
  QC_CLASS_INSN( "mpyi",  "sti",  0xe0000000, OP_C3X   ),
999
  M_CLASS_INSN(  "mpyi",  "subi", 0x8c000000, OP_C3X   ),
1000
  A_CLASS_INSN(  "mpyshi",        0x1d800000, OP_C4X   ),
1001
  TC_CLASS_INSN( "mpyshi",        0x28800000, OP_C4X   ),
1002
  A_CLASS_INSN(  "mpyuhi",        0x1e000000, OP_C4X   ),
1003
  TC_CLASS_INSN( "mpyuhi",        0x29000000, OP_C4X   ),
1004
  A_CLASS_INSN(  "negb",          0x0b000000, OP_C3X   ),
1005
  B_CLASS_INSN(  "negf",          0x0b800000, OP_C3X   ),
1006
  P_CLASS_INSN(  "negf",  "stf",  0xe2000000, OP_C3X   ),
1007
  A_CLASS_INSN(  "negi",          0x0c000000, OP_C3X   ),
1008
  P_CLASS_INSN(  "negi",  "sti",  0xe4000000, OP_C3X   ),
1009
  A2_CLASS_INSN( "nop",           0x0c800000, OP_C3X   ),
1010
  B_CLASS_INSN(  "norm",          0x0d000000, OP_C3X   ),
1011
  AU_CLASS_INSN( "not",           0x0d800000, OP_C3X   ),
1012
  P_CLASS_INSN(  "not",   "sti",  0xe6000000, OP_C3X   ),
1013
  AU_CLASS_INSN( "or",            0x10000000, OP_C3X   ),
1014
  TC_CLASS_INSN( "or",            0x05800000, OP_C3X   ),
1015
  QC_CLASS_INSN( "or",    "sti",  0xe8000000, OP_C3X   ),
1016
  R_CLASS_INSN(  "pop",           0x0e200000, OP_C3X   ),
1017
  RF_CLASS_INSN( "popf",          0x0ea00000, OP_C3X   ),
1018
  R_CLASS_INSN(  "push",          0x0f200000, OP_C3X   ),
1019
  RF_CLASS_INSN( "pushf",         0x0fa00000, OP_C3X   ),
1020
  BA_CLASS_INSN( "rcpf",          0x1d000000, OP_C4X   ),
1021
  { "retiB",  0x78000000, 0xffe00000, ""    , OP_C3X   },  /* Z_CLASS */
1022
  { "reti",   0x78000000, 0xffe00000, ""    , OP_C3X   },  /* Z_CLASS  - Alias for retiu */
1023
  { "retiBd", 0x78200000, 0xffe00000, ""    , OP_C4X   },  /* Z_CLASS */
1024
  { "retid",  0x78200000, 0xffe00000, ""    , OP_C4X   },  /* Z_CLASS - Alias for retiud */
1025
  { "retsB",  0x78800000, 0xffe00000, ""    , OP_C3X   },  /* Z_CLASS */
1026
  { "rets",   0x78800000, 0xffe00000, ""    , OP_C3X   },  /* Z_CLASS  - Alias for retsu */
1027
  B_CLASS_INSN(  "rnd",           0x11000000, OP_C3X   ),
1028
  R_CLASS_INSN(  "rol",           0x11e00001, OP_C3X   ),
1029
  R_CLASS_INSN(  "rolc",          0x12600001, OP_C3X   ),
1030
  R_CLASS_INSN(  "ror",           0x12e0ffff, OP_C3X   ),
1031
  R_CLASS_INSN(  "rorc",          0x1360ffff, OP_C3X   ),
1032
  { "rptb",   0x64000000, 0xff000000, "B"   , OP_C3X   },  /* I2_CLASS */
1033
  { "rptb",   0x79000000, 0xff000000, "Q"   , OP_C4X   },  /* I2_CLASS */
1034
  { "rptbd",  0x65000000, 0xff000000, "B"   , OP_C4X   },  /* I2_CLASS */
1035
  { "rptbd",  0x79800000, 0xff000000, "Q"   , OP_C4X   },  /* I2_CLASS */
1036
  A3_CLASS_INSN( "rpts",          0x139b0000, OP_C3X   ),
1037
  B_CLASS_INSN(  "rsqrf",         0x1c800000, OP_C4X   ),
1038
  { "sigi",   0x16000000, 0xffe00000, ""    , OP_C3X   },  /* Z_CLASS */
1039
  A6_CLASS_INSN( "sigi",          0x16000000, OP_C4X   ),
1040
  B7_CLASS_INSN( "stf",           0x14000000, OP_C3X   ),
1041
  LS_CLASS_INSN( "stf",           0xc0000000, OP_C3X   ),
1042
  B7_CLASS_INSN( "stfi",          0x14800000, OP_C3X   ),
1043
  A7_CLASS_INSN( "sti",           0x15000000, OP_C3X   ),
1044
  { "sti",    0x15000000, 0xffe00000, "T,@" , OP_C4X   },  /* Class A7 - Alias for stik */
1045
  { "sti",    0x15600000, 0xffe00000, "T,*" , OP_C4X   },  /* Class A7 */
1046
  LS_CLASS_INSN( "sti",           0xc2000000, OP_C3X   ),
1047
  A7_CLASS_INSN( "stii",          0x15800000, OP_C3X   ),
1048
  { "stik",   0x15000000, 0xffe00000, "T,@" , OP_C4X   },  /* Z_CLASS */
1049
  { "stik",   0x15600000, 0xffe00000, "T,*" , OP_C4X   },  /* Z_CLASS */
1050
  A_CLASS_INSN(  "subb",          0x16800000, OP_C3X   ),
1051
  T_CLASS_INSN(  "subb",          0x06000000, OP_C3X   ),
1052
  A_CLASS_INSN(  "subc",          0x17000000, OP_C3X   ),
1053
  B_CLASS_INSN(  "subf",          0x17800000, OP_C3X   ),
1054
  S_CLASS_INSN(  "subf",          0x06800000, OP_C3X   ),
1055
  Q_CLASS_INSN(  "subf",  "stf",  0xea000000, OP_C3X   ),
1056
  A_CLASS_INSN(  "subi",          0x18000000, OP_C3X   ),
1057
  T_CLASS_INSN(  "subi",          0x07000000, OP_C3X   ),
1058
  Q_CLASS_INSN(  "subi",  "sti",  0xec000000, OP_C3X   ),
1059
  A_CLASS_INSN(  "subrb",         0x18800000, OP_C3X   ),
1060
  B_CLASS_INSN(  "subrf",         0x19000000, OP_C3X   ),
1061
  A_CLASS_INSN(  "subri",         0x19800000, OP_C3X   ),
1062
  { "swi",    0x66000000, 0xffffffff, ""    , OP_C3X   },  /* Z_CLASS */
1063
  B_CLASS_INSN(  "toieee",        0x1b800000, OP_C4X   ),
1064
  P_CLASS_INSN(  "toieee","stf",  0xf0000000, OP_C4X   ),
1065
  { "trapB",  0x74000000, 0xffe00000, "V"   , OP_C3X   },  /* Z_CLASS */
1066
  { "trap",   0x74000000, 0xffe00000, "V"   , OP_C3X   },  /* Z_CLASS - Alias for trapu */
1067
  AU_CLASS_INSN( "tstb",          0x1a000000, OP_C3X   ),
1068
  T2C_CLASS_INSN("tstb",          0x07800000, OP_C3X   ),
1069
  AU_CLASS_INSN( "xor",           0x1a800000, OP_C3X   ),
1070
  TC_CLASS_INSN( "xor",           0x08000000, OP_C3X   ),
1071
  QC_CLASS_INSN( "xor",   "sti",  0xee000000, OP_C3X   ),
1072
 
1073
  /* Dummy entry, not included in tic4x_num_insts.  This
1074
     lets code examine entry i + 1 without checking
1075
     if we've run off the end of the table.  */
1076
  { "",      0x0, 0x00, "", 0 }
1077
};
1078
 
1079
const unsigned int tic4x_num_insts = (((sizeof tic4x_insts) / (sizeof tic4x_insts[0])) - 1);

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