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

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-old/] [binutils-2.18.50/] [gas/] [testsuite/] [gas/] [mn10300/] [am33-2.c] - Blame information for rev 856

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

Line No. Rev Author Line
1 38 julius
/* Copyright (C) 2000, 2002, 2007 Free Software Foundation
2
   Contributed by Alexandre Oliva <aoliva@redhat.com>
3
 
4
   This file is free software; you can redistribute it and/or modify it
5
   under the terms of the GNU General Public License as published by
6
   the Free Software Foundation; either version 3 of the License, or
7
   (at your option) any later version.
8
 
9
   This program is distributed in the hope that it will be useful, but
10
   WITHOUT ANY WARRANTY; without even the implied warranty of
11
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
12
   General Public License for more details.
13
 
14
   You should have received a copy of the GNU General Public License
15
   along with this program; if not, write to the Free Software
16
   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
17
   MA 02110-1301, USA.  */
18
 
19
/* Generator of tests for insns introduced in AM33 2.0.  */
20
 
21
#define INSN_REPEAT 11
22
 
23
/* See the following file for usage and documentation.  */
24
#include "../all/test-gen.c"
25
 
26
/* These are the AM33 registers.  */
27
const char *am33_regs[] = {
28
  /* These are the canonical names, i.e., those printed by the
29
   * disassembler.  */
30
  "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7",
31
  "a0", "a1", "a2", "a3", "d0", "d1", "d2", "d3",
32
  /* These are aliases that the assembler should also recognize.  */
33
  "e0", "e1", "e2", "e3", "e4", "e5", "e6", "e7",
34
  "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15"
35
};
36
 
37
/* Signed constants of the given sizes.  */
38
#define  d8(shift) signed_constant( 8, shift, 1)
39
#define d16(shift) signed_constant(16, shift, 1)
40
#define d24(shift) signed_constant(24, shift, 1)
41
#define d32(shift) signed_constant(32, shift, 1)
42
#define  u8(shift) unsigned_constant( 8, shift, 1)
43
#define u24(shift) unsigned_constant(24, shift, 1)
44
#define a16(shift) absolute_address(16, shift, 1)
45
 
46
/* Emit an AM33 register shifted by these many words. */
47
#define amreg(shift) reg_r (am33_regs, shift, 15, mk_get_bits (5u))
48
#define spreg literal ("sp")
49
#define fcreg literal ("fpcr")
50
 
51
/* Emit an AM33-2 FP single-precision register, with the 4 least
52
 * significant bits shifted by shiftlow and the most significant bit
53
 * shifted by shifthigh.  */
54
int
55
freg (func_arg *arg, insn_data *data)
56
#define freg(shiftlow, shifthigh) { freg, { i1: shiftlow, i2: shifthigh } }
57
{
58
  unsigned val = get_bits (5u);
59
 
60
  data->as_in = data->dis_out = (char*)malloc (3 + ulen (val, 10));
61
  sprintf (data->as_in, "fs%u", val);
62
  data->bits = val;
63
  data->bits = ((data->bits & 15) << arg->i1) | ((data->bits >> 4) << arg->i2);
64
 
65
  return 0;
66
}
67
 
68
/* Emit an AM33-2 FP single-precision register in the ``accumulator''
69
 * range, with the 2 least significant bits shifted by shiftlow and
70
 * the most significant bit shifted by shifthigh. */
71
int
72
areg (func_arg *arg, insn_data *data)
73
#define areg(shiftlow, shifthigh) { areg, { i1: shiftlow, i2: shifthigh } }
74
{
75
  unsigned val = get_bits (3u);
76
 
77
  data->as_in = data->dis_out = (char*)malloc (4);
78
  sprintf (data->as_in, "fs%u", val);
79
  data->bits = val;
80
  data->bits = ((data->bits & 3) << arg->i1) | ((data->bits >> 2) << arg->i2);
81
 
82
  return 0;
83
}
84
 
85
/* Emit an AM33-2 FP double-precision register, with the 4 least
86
 * significant bits shifted by shiftlow and the most significant bit
87
 * shifted by shifthigh. */
88
int
89
dreg (func_arg *arg, insn_data *data)
90
#define dreg(shiftlow, shifthigh) { dreg, { i1: shiftlow, i2: shifthigh } }
91
{
92
  unsigned val = 2 * get_bits (4u);
93
 
94
  data->as_in = data->dis_out = (char*)malloc (3 + ulen (val, 10));
95
  sprintf (data->as_in, "fd%u", val);
96
  data->bits = val;
97
  data->bits = ((data->bits & 15) << arg->i1) | ((data->bits >> 4) << arg->i2);
98
 
99
  return 0;
100
}
101
 
102
/* Emit a signed 8-bit PC-relative offset from the current insn to the
103
 * last emitted label.  */
104
int
105
d8pcoff (func_arg *arg, insn_data *data)
106
#define  d8pcoff(shift) { d8pcoff, { p1: shift } }
107
{
108
  int diff = insn_size - arg->i1/8 - 1;
109
  int displacement = current_offset - last_label_offset;
110
  char *current_address = malloc (strlen (last_label_name) + 4
111
                                  + ulen (displacement, 16) + 1);
112
 
113
  /* Make sure we're not too far from the target.  */
114
  if (displacement > 128)
115
    abort ();
116
 
117
  data->as_in = strdup (last_label_name);
118
 
119
  /* Calculate the address that will be printed by the disassembler as
120
     the target of the jump.  Since it won't take relocations into
121
     account, it will be the insn's own address.  */
122
  if (current_offset == last_label_offset)
123
    strcpy (current_address, last_label_name);
124
  else
125
    sprintf (current_address, "%s\\+0x%x", last_label_name, displacement);
126
 
127
  /* Compute the complete label, including the relocation message
128
     printed as an additional message.  The relocation will point us
129
     to the intended target label plus an offset equal to the offset
130
     of the displacement within the current insn.  We do not account
131
     for the case in which this displacement is zero, since it doesn't
132
     come up on this platform. */
133
  data->dis_out = malloc (8 + 2 + strlen (current_address) + 2
134
                          + 3 + ulen (current_offset + diff, 16) + 19
135
                          + strlen (last_label_name) + 4
136
                          + ulen (diff, 16) + 1);
137
  sprintf (data->dis_out, "0*%x <%s>\n"
138
           "\t\t\t%x: R_MN10300_PCREL8\t%s\\+0x%x",
139
           current_offset, current_address,
140
           current_offset + diff, last_label_name, diff);
141
 
142
  free (current_address);
143
 
144
  return 0;
145
}
146
 
147
/* Emit a signed 8-bit PC-relative offset from the current insn to the
148
 * current section.  */
149
int
150
d8pcsec (func_arg *arg, insn_data *data)
151
#define  d8pcsec(shift) { d8pcsec, { p1: shift } }
152
{
153
  int diff = insn_size - arg->i1/8 - 1;
154
  int displacement = current_offset - last_label_offset;
155
  char *current_address = malloc (strlen (last_label_name) + 4
156
                                  + ulen (displacement, 16) + 1);
157
 
158
  /* Make sure we're not too far from the target.  */
159
  if (displacement > 128)
160
    abort ();
161
 
162
  data->as_in = strdup (last_label_name);
163
 
164
  /* Calculate the address that will be printed by the disassembler as
165
     the target of the jump.  Since it won't take relocations into
166
     account, it will be the insn's own address.  */
167
 
168
  if (current_offset == last_label_offset)
169
    strcpy (current_address, last_label_name);
170
  else
171
    sprintf (current_address, "%s\\+0x%x", last_label_name, displacement);
172
 
173
 
174
  /* Compute the complete label, including the relocation message
175
     printed as an additional message.  The relocation will point us
176
     to the intended target label plus an offset equal to the offset
177
     of the displacement within the current insn.  We do not account
178
     for the case in which this displacement is zero, since it doesn't
179
     come up on this platform. */
180
  data->dis_out = malloc (8 + 2 + strlen (current_address) + 2
181
                          + 3 + ulen (current_offset + diff, 16) + 33);
182
  sprintf (data->dis_out, "0*%x <%s>\n"
183
           "\t\t\t%x: R_MN10300_PCREL8\tcondjmp\\+0x2",
184
           current_offset, current_address,
185
           current_offset + diff);
186
 
187
  free (current_address);
188
 
189
  return 0;
190
}
191
 
192
/* Convenience wrapper to define_insn.  */
193
#define def_am_insn(insname, variant, size, word, funcs...) \
194
  define_insn(insname ## _ ## variant, \
195
              insn_size_bits (insname, size, \
196
                              ((unsigned long long)word) << 8*(size-2)), \
197
              tab, \
198
              ## funcs)
199
#define am_insn(insname, variant) insn (insname ## _ ## variant)
200
 
201
#define def_bit_insn(insname, word) \
202
  def_am_insn (insname, i8a16, 5, word, \
203
               u8(0), comma, lparen, a16 (8), rparen, tick_random);
204
#define bit_insn(insname) insn (insname ## _ ## i8a16)
205
 
206
/* Data cache pre-fetch insns.  */
207
def_am_insn (dcpf, r,    3, 0xf9a6, lparen, amreg (4), rparen);
208
def_am_insn (dcpf, sp,   3, 0xf9a7, lparen, spreg, rparen);
209
def_am_insn (dcpf, rr,   4, 0xfba6,
210
             lparen, amreg(12), comma, amreg (8), rparen, tick_random);
211
def_am_insn (dcpf, d8r,  4, 0xfba7,
212
             lparen, d8 (0), comma, amreg (12), rparen, tick_random);
213
def_am_insn (dcpf, d24r, 6, 0xfda7,
214
             lparen, d24(0), comma, amreg (28), rparen, tick_random);
215
def_am_insn (dcpf, d32r, 7, 0xfe46,
216
             lparen, d32(0), comma, amreg (36), rparen, tick_random);
217
 
218
/* Define the group of data cache pre-fetch insns.  */
219
func *dcpf_insns[] = {
220
  am_insn (dcpf, r),
221
  am_insn (dcpf, sp),
222
  am_insn (dcpf, rr),
223
  am_insn (dcpf, d8r),
224
  am_insn (dcpf, d24r),
225
  am_insn (dcpf, d32r),
226
 
227
};
228
 
229
/* Bit operations.  */
230
def_bit_insn (bset, 0xfe80);
231
def_bit_insn (bclr, 0xfe81);
232
def_bit_insn (btst, 0xfe82);
233
 
234
/* Define the group of bit insns.  */
235
func *bit_insns[] = {
236
  bit_insn (bset),
237
  bit_insn (bclr),
238
  bit_insn (btst),
239
 
240
};
241
 
242
/* Define the single-precision FP move insns.  */
243
def_am_insn (fmov, irfs, 3, 0xf920,
244
             lparen, amreg (4), rparen, comma,
245
             freg (0, 8), tick_random);
246
def_am_insn (fmov, rpfs, 3, 0xf922,
247
             lparen, amreg (4), plus, rparen, comma,
248
             freg (0, 8), tick_random);
249
def_am_insn (fmov, spfs, 3, 0xf924,
250
             lparen, spreg, rparen, comma, freg (0, 8));
251
def_am_insn (fmov, vrfs, 3, 0xf926,
252
             amreg (4), comma, freg (0, 8), tick_random);
253
def_am_insn (fmov, fsir, 3, 0xf930,
254
             freg (4, 9), comma, lparen, amreg (0), rparen, tick_random);
255
def_am_insn (fmov, fsrp, 3, 0xf931,
256
             freg (4, 9), comma, lparen, amreg (0), plus, rparen, tick_random);
257
def_am_insn (fmov, fssp, 3, 0xf934,
258
             freg (4, 9), comma, lparen, spreg, rparen);
259
def_am_insn (fmov, fsvr, 3, 0xf935,
260
             freg (4, 9), comma, amreg (0), tick_random);
261
def_am_insn (fmov, fsfs, 3, 0xf940,
262
             freg (4, 9), comma, freg (0, 8), tick_random);
263
def_am_insn (fmov, d8rfs, 4, 0xfb20,
264
             lparen, d8 (0), comma, amreg (12), rparen, comma,
265
             freg (8, 16));
266
def_am_insn (fmov, rpi8fs, 4, 0xfb22,
267
             lparen, amreg (12), plus, comma, d8 (0), rparen, comma,
268
             freg (8, 16));
269
def_am_insn (fmov, d8spfs, 4, 0xfb24,
270
             lparen, u8 (0), comma, spreg, rparen, comma, freg (8, 16),
271
             tick_random);
272
def_am_insn (fmov, irrfs, 4, 0xfb27,
273
             lparen, amreg (12), comma, amreg (8), rparen, comma,
274
             freg (4, 1));
275
def_am_insn (fmov, fsd8r, 4, 0xfb30,
276
             freg (12, 17), comma, lparen, d8 (0), comma, amreg (8), rparen);
277
def_am_insn (fmov, fsrpi8, 4, 0xfb31,
278
             freg (12, 17), comma,
279
             lparen, amreg (8), plus, comma, d8 (0), rparen);
280
def_am_insn (fmov, fsd8sp, 4, 0xfb34,
281
             freg (12, 17), comma,
282
             lparen, u8 (0), comma, spreg, rparen, tick_random);
283
def_am_insn (fmov, fsirr, 4, 0xfb37,
284
             freg (4, 1), comma,
285
             lparen, amreg (12), comma, amreg (8), rparen);
286
def_am_insn (fmov, d24rfs, 6, 0xfd20,
287
             lparen, d24 (0), comma, amreg (28), rparen, comma, freg (24, 32));
288
def_am_insn (fmov, rpi24fs, 6, 0xfd22,
289
             lparen, amreg (28), plus, comma, d24 (0), rparen, comma,
290
             freg (24, 32));
291
def_am_insn (fmov, d24spfs, 6, 0xfd24,
292
             lparen, u24 (0), comma, spreg, rparen, comma,
293
             freg (24, 32), tick_random);
294
def_am_insn (fmov, fsd24r, 6, 0xfd30,
295
             freg (28, 33), comma, lparen, d24 (0), comma, amreg (24), rparen);
296
def_am_insn (fmov, fsrpi24, 6, 0xfd31,
297
             freg (28, 33), comma,
298
             lparen, amreg (24), plus, comma, d24 (0), rparen);
299
def_am_insn (fmov, fsd24sp, 6, 0xfd34,
300
             freg (28, 33), comma,
301
             lparen, u24 (0), comma, spreg, rparen, tick_random);
302
def_am_insn (fmov, d32rfs, 7, 0xfe20,
303
             lparen, d32 (0), comma, amreg (36), rparen, comma, freg (32, 40));
304
def_am_insn (fmov, rpi32fs, 7, 0xfe22,
305
             lparen, amreg (36), plus, comma, d32 (0), rparen, comma,
306
             freg (32, 40));
307
def_am_insn (fmov, d32spfs, 7, 0xfe24,
308
             lparen, d32 (0), comma, spreg, rparen, comma,
309
             freg (32, 40), tick_random);
310
def_am_insn (fmov, i32fs, 7, 0xfe26,
311
             d32 (0), comma, freg (32, 40), tick_random);
312
def_am_insn (fmov, fsd32r, 7, 0xfe30,
313
             freg (36, 41), comma, lparen, d32 (0), comma, amreg (32), rparen);
314
def_am_insn (fmov, fsrpi32, 7, 0xfe31,
315
             freg (36, 41), comma,
316
             lparen, amreg (32), plus, comma, d32 (0), rparen);
317
def_am_insn (fmov, fsd32sp, 7, 0xfe34,
318
             freg (36, 41), comma,
319
             lparen, d32 (0), comma, spreg, rparen, tick_random);
320
 
321
/* Define the group of single-precision FP move insns.  */
322
func *fmovs_insns[] = {
323
  am_insn (fmov, irfs),
324
  am_insn (fmov, rpfs),
325
  am_insn (fmov, spfs),
326
  am_insn (fmov, vrfs),
327
  am_insn (fmov, fsir),
328
  am_insn (fmov, fsrp),
329
  am_insn (fmov, fssp),
330
  am_insn (fmov, fsvr),
331
  am_insn (fmov, fsfs),
332
  am_insn (fmov, d8rfs),
333
  am_insn (fmov, rpi8fs),
334
  am_insn (fmov, d8spfs),
335
  am_insn (fmov, irrfs),
336
  am_insn (fmov, fsd8r),
337
  am_insn (fmov, fsrpi8),
338
  am_insn (fmov, fsd8sp),
339
  am_insn (fmov, fsirr),
340
  am_insn (fmov, d24rfs),
341
  am_insn (fmov, rpi24fs),
342
  am_insn (fmov, d24spfs),
343
  am_insn (fmov, fsd24r),
344
  am_insn (fmov, fsrpi24),
345
  am_insn (fmov, fsd24sp),
346
  am_insn (fmov, d32rfs),
347
  am_insn (fmov, rpi32fs),
348
  am_insn (fmov, d32spfs),
349
  am_insn (fmov, i32fs),
350
  am_insn (fmov, fsd32r),
351
  am_insn (fmov, fsrpi32),
352
  am_insn (fmov, fsd32sp),
353
 
354
};
355
 
356
/* Define the double-precision FP move insns.  */
357
def_am_insn (fmov, irfd, 3, 0xf9a0,
358
             lparen, amreg (4), rparen, comma, dreg (0, 8), tick_random);
359
def_am_insn (fmov, rpfd, 3, 0xf9a2,
360
             lparen, amreg (4), plus, rparen, comma, dreg (0, 8), tick_random);
361
def_am_insn (fmov, spfd, 3, 0xf9a4,
362
             lparen, spreg, rparen, comma, dreg (0, 8));
363
def_am_insn (fmov, fdir, 3, 0xf9b0,
364
             dreg (4, 9), comma, lparen, amreg (0), rparen, tick_random);
365
def_am_insn (fmov, fdrp, 3, 0xf9b1,
366
             dreg (4, 9), comma, lparen, amreg (0), plus, rparen, tick_random);
367
def_am_insn (fmov, fdsp, 3, 0xf9b4,
368
             dreg (4, 9), comma, lparen, spreg, rparen);
369
def_am_insn (fmov, fdfd, 3, 0xf9c0,
370
             dreg (4, 9), comma, dreg (0, 8), tick_random);
371
def_am_insn (fmov, irrfd, 4, 0xfb47,
372
             lparen, amreg (12), comma, amreg (8), rparen, comma, dreg (4, 1));
373
def_am_insn (fmov, fdirr, 4, 0xfb57,
374
             dreg (4, 1), comma, lparen, amreg (12), comma, amreg (8), rparen);
375
def_am_insn (fmov, d8rfd, 4, 0xfba0,
376
             lparen, d8 (0), comma, amreg (12), rparen, comma, dreg (8, 16));
377
def_am_insn (fmov, rpi8fd, 4, 0xfba2,
378
             lparen, amreg (12), plus, comma, d8 (0), rparen, comma,
379
             dreg (8, 16));
380
def_am_insn (fmov, d8spfd, 4, 0xfba4,
381
             lparen, u8 (0), comma, spreg, rparen, comma,
382
             dreg (8, 16), tick_random);
383
def_am_insn (fmov, fdd8r, 4, 0xfbb0,
384
             dreg (12, 17), comma, lparen, d8 (0), comma, amreg (8), rparen);
385
def_am_insn (fmov, fdrpi8, 4, 0xfbb1,
386
             dreg (12, 17), comma,
387
             lparen, amreg (8), plus, comma, d8 (0), rparen);
388
def_am_insn (fmov, fdi8sp, 4, 0xfbb4,
389
             dreg (12, 17), comma,
390
             lparen, u8 (0), comma, spreg, rparen, tick_random);
391
def_am_insn (fmov, d24rfd, 6, 0xfda0,
392
             lparen, d24 (0), comma, amreg (28), rparen, comma, dreg (24, 32));
393
def_am_insn (fmov, rpi24fd, 6, 0xfda2,
394
             lparen, amreg (28), plus, comma, d24 (0), rparen, comma,
395
             dreg (24, 32));
396
def_am_insn (fmov, d24spfd, 6, 0xfda4,
397
             lparen, u24 (0), comma, spreg, rparen, comma,
398
             dreg (24, 32), tick_random);
399
def_am_insn (fmov, fdd24r, 6, 0xfdb0,
400
             dreg (28, 33), comma,
401
             lparen, d24 (0), comma, amreg (24), rparen);
402
def_am_insn (fmov, fdrpi24, 6, 0xfdb1,
403
             dreg (28, 33), comma,
404
             lparen, amreg (24), plus, comma, d24 (0), rparen);
405
def_am_insn (fmov, fdd24sp, 6, 0xfdb4,
406
             dreg (28, 33), comma,
407
             lparen, u24 (0), comma, spreg, rparen, tick_random);
408
def_am_insn (fmov, d32rfd, 7, 0xfe40,
409
             lparen, d32 (0), comma, amreg (36), rparen, comma, dreg (32, 40));
410
def_am_insn (fmov, rpi32fd, 7, 0xfe42,
411
             lparen, amreg (36), plus, comma, d32 (0), rparen, comma,
412
             dreg (32, 40));
413
def_am_insn (fmov, d32spfd, 7, 0xfe44,
414
             lparen, d32 (0), comma, spreg, rparen, comma,
415
             dreg (32, 40), tick_random);
416
def_am_insn (fmov, fdd32r, 7, 0xfe50,
417
             dreg (36, 41), comma,
418
             lparen, d32 (0), comma, amreg (32), rparen);
419
def_am_insn (fmov, fdrpi32, 7, 0xfe51,
420
             dreg (36, 41), comma,
421
             lparen, amreg (32), plus, comma, d32 (0), rparen);
422
def_am_insn (fmov, fdd32sp, 7, 0xfe54,
423
             dreg (36, 41), comma,
424
             lparen, d32 (0), comma, spreg, rparen, tick_random);
425
 
426
/* Define the group of double-precision FP move insns.  */
427
func *fmovd_insns[] = {
428
  am_insn (fmov, irfd),
429
  am_insn (fmov, rpfd),
430
  am_insn (fmov, spfd),
431
  am_insn (fmov, fdir),
432
  am_insn (fmov, fdrp),
433
  am_insn (fmov, fdsp),
434
  am_insn (fmov, fdfd),
435
  am_insn (fmov, irrfd),
436
  am_insn (fmov, fdirr),
437
  am_insn (fmov, d8rfd),
438
  am_insn (fmov, rpi8fd),
439
  am_insn (fmov, d8spfd),
440
  am_insn (fmov, fdd8r),
441
  am_insn (fmov, fdrpi8),
442
  am_insn (fmov, fdi8sp),
443
  am_insn (fmov, d24rfd),
444
  am_insn (fmov, rpi24fd),
445
  am_insn (fmov, d24spfd),
446
  am_insn (fmov, fdd24r),
447
  am_insn (fmov, fdrpi24),
448
  am_insn (fmov, fdd24sp),
449
  am_insn (fmov, d32rfd),
450
  am_insn (fmov, rpi32fd),
451
  am_insn (fmov, d32spfd),
452
  am_insn (fmov, fdd32r),
453
  am_insn (fmov, fdrpi32),
454
  am_insn (fmov, fdd32sp),
455
 
456
};
457
 
458
/* Define fmov FPCR insns.  */
459
def_am_insn (fmov, vrfc, 3, 0xf9b5,
460
             amreg (4), comma, fcreg);
461
def_am_insn (fmov, fcvr, 3, 0xf9b7,
462
             fcreg, comma, amreg (0));
463
def_am_insn (fmov, i32fc, 6, 0xfdb5,
464
             d32 (0), comma, fcreg);
465
 
466
/* Define the group of FPCR move insns.  */
467
func *fmovc_insns[] = {
468
  am_insn (fmov, vrfc),
469
  am_insn (fmov, fcvr),
470
  am_insn (fmov, i32fc),
471
 
472
};
473
 
474
/* Define single-precision floating-point arithmetic insns.  */
475
def_am_insn (fabs, fs, 3, 0xf944, freg (0, 8));
476
def_am_insn (fabs, fsfs, 4, 0xfb44,
477
             freg (12, 3), comma, freg (4, 1), tick_random);
478
def_am_insn (fneg, fs, 3, 0xf946, freg (0, 8));
479
def_am_insn (fneg, fsfs, 4, 0xfb46,
480
             freg (12, 3), comma, freg (4, 1), tick_random);
481
def_am_insn (frsqrt, fs, 3, 0xf950, freg (0, 8));
482
def_am_insn (frsqrt, fsfs, 4, 0xfb50,
483
             freg (12, 3), comma, freg (4, 1), tick_random);
484
def_am_insn (fsqrt, fs, 3, 0xf952, freg (0, 8));
485
def_am_insn (fsqrt, fsfs, 4, 0xfb54,
486
             freg (12, 3), comma, freg (4, 1), tick_random);
487
def_am_insn (fcmp, fsfs, 3, 0xf954,
488
             freg (4, 9), comma, freg (0, 8), tick_random);
489
def_am_insn (fcmp, i32fs, 7, 0xfe35,
490
             d32 (0), comma, freg (36, 41), tick_random);
491
def_am_insn (fadd, fsfs, 3, 0xf960,
492
             freg (4, 9), comma, freg (0, 8), tick_random);
493
def_am_insn (fadd, fsfsfs, 4, 0xfb60,
494
             freg (12, 3), comma, freg (8, 2), comma, freg (4, 1));
495
def_am_insn (fadd, i32fsfs, 7, 0xfe60,
496
             d32 (0), comma, freg (36, 41), comma, freg (32, 40));
497
def_am_insn (fsub, fsfs, 3, 0xf964,
498
             freg (4, 9), comma, freg (0, 8), tick_random);
499
def_am_insn (fsub, fsfsfs, 4, 0xfb64,
500
             freg (12, 3), comma, freg (8, 2), comma, freg (4, 1));
501
def_am_insn (fsub, i32fsfs, 7, 0xfe64,
502
             d32 (0), comma, freg (36, 41), comma, freg (32, 40));
503
def_am_insn (fmul, fsfs, 3, 0xf970,
504
             freg (4, 9), comma, freg (0, 8), tick_random);
505
def_am_insn (fmul, fsfsfs, 4, 0xfb70,
506
             freg (12, 3), comma, freg (8, 2), comma, freg (4, 1));
507
def_am_insn (fmul, i32fsfs, 7, 0xfe70,
508
             d32 (0), comma, freg (36, 41), comma, freg (32, 40));
509
def_am_insn (fdiv, fsfs, 3, 0xf974,
510
             freg (4, 9), comma, freg (0, 8), tick_random);
511
def_am_insn (fdiv, fsfsfs, 4, 0xfb74,
512
             freg (12, 3), comma, freg (8, 2), comma, freg (4, 1));
513
def_am_insn (fdiv, i32fsfs, 7, 0xfe74,
514
             d32 (0), comma, freg (36, 41), comma, freg (32, 40));
515
 
516
/* Define the group of single-precision floating-point arithmetic insns.  */
517
func *sfparith_insns[] = {
518
  am_insn (fabs, fs),
519
  am_insn (fabs, fsfs),
520
  am_insn (fneg, fs),
521
  am_insn (fneg, fsfs),
522
  am_insn (frsqrt, fs),
523
  am_insn (frsqrt, fsfs),
524
  am_insn (fsqrt, fs),
525
  am_insn (fsqrt, fsfs),
526
  am_insn (fcmp, fsfs),
527
  am_insn (fcmp, i32fs),
528
  am_insn (fadd, fsfs),
529
  am_insn (fadd, fsfsfs),
530
  am_insn (fadd, i32fsfs),
531
  am_insn (fsub, fsfs),
532
  am_insn (fsub, fsfsfs),
533
  am_insn (fsub, i32fsfs),
534
  am_insn (fmul, fsfs),
535
  am_insn (fmul, fsfsfs),
536
  am_insn (fmul, i32fsfs),
537
  am_insn (fdiv, fsfs),
538
  am_insn (fdiv, fsfsfs),
539
  am_insn (fdiv, i32fsfs),
540
 
541
};
542
 
543
/* Define floating-point accumulator arithmetic insns.  */
544
def_am_insn (fmadd, , 4, 0xfb80,
545
             freg (12, 3), comma, freg (8, 2), comma,
546
             freg (4, 1), comma, areg (16, 0), tick_random);
547
def_am_insn (fmsub, , 4, 0xfb84,
548
             freg (12, 3), comma, freg (8, 2), comma,
549
             freg (4, 1), comma, areg (16, 0), tick_random);
550
def_am_insn (fnmadd, , 4, 0xfb90,
551
             freg (12, 3), comma, freg (8, 2), comma,
552
             freg (4, 1), comma, areg (16, 0), tick_random);
553
def_am_insn (fnmsub, , 4, 0xfb94,
554
             freg (12, 3), comma, freg (8, 2), comma,
555
             freg (4, 1), comma, areg (16, 0), tick_random);
556
 
557
/* Define the group of floating-point accumulator arithmetic insns.  */
558
func *fpacc_insns[] = {
559
  am_insn (fmadd, ),
560
  am_insn (fmsub, ),
561
  am_insn (fnmadd, ),
562
  am_insn (fnmsub, ),
563
 
564
};
565
 
566
/* Define double-precision floating-point arithmetic insns.  */
567
def_am_insn (fabs, fd, 3, 0xf9c4, dreg (0, 8));
568
def_am_insn (fabs, fdfd, 4, 0xfbc4,
569
             dreg (12, 3), comma, dreg (4, 1), tick_random);
570
def_am_insn (fneg, fd, 3, 0xf9c6, dreg (0, 8));
571
def_am_insn (fneg, fdfd, 4, 0xfbc6,
572
             dreg (12, 3), comma, dreg (4, 1), tick_random);
573
def_am_insn (frsqrt, fd, 3, 0xf9d0, dreg (0, 8));
574
def_am_insn (frsqrt, fdfd, 4, 0xfbd0,
575
             dreg (12, 3), comma, dreg (4, 1), tick_random);
576
def_am_insn (fsqrt, fd, 3, 0xf9d2, dreg (0, 8));
577
def_am_insn (fsqrt, fdfd, 4, 0xfbd4,
578
             dreg (12, 3), comma, dreg (4, 1), tick_random);
579
def_am_insn (fcmp, fdfd, 3, 0xf9d4,
580
             dreg (4, 9), comma, dreg (0, 8), tick_random);
581
def_am_insn (fadd, fdfd, 3, 0xf9e0,
582
             dreg (4, 9), comma, dreg (0, 8), tick_random);
583
def_am_insn (fadd, fdfdfd, 4, 0xfbe0,
584
             dreg (12, 3), comma, dreg (8, 2), comma, dreg (4, 1));
585
def_am_insn (fsub, fdfd, 3, 0xf9e4,
586
             dreg (4, 9), comma, dreg (0, 8), tick_random);
587
def_am_insn (fsub, fdfdfd, 4, 0xfbe4,
588
             dreg (12, 3), comma, dreg (8, 2), comma, dreg (4, 1));
589
def_am_insn (fmul, fdfd, 3, 0xf9f0,
590
             dreg (4, 9), comma, dreg (0, 8), tick_random);
591
def_am_insn (fmul, fdfdfd, 4, 0xfbf0,
592
             dreg (12, 3), comma, dreg (8, 2), comma, dreg (4, 1));
593
def_am_insn (fdiv, fdfd, 3, 0xf9f4,
594
             dreg (4, 9), comma, dreg (0, 8), tick_random);
595
def_am_insn (fdiv, fdfdfd, 4, 0xfbf4,
596
             dreg (12, 3), comma, dreg (8, 2), comma, dreg (4, 1));
597
 
598
/* Define the group of double-precision floating-point arithmetic insns.  */
599
func *dfparith_insns[] = {
600
  am_insn (fabs, fd),
601
  am_insn (fabs, fdfd),
602
  am_insn (fneg, fd),
603
  am_insn (fneg, fdfd),
604
  am_insn (frsqrt, fd),
605
  am_insn (frsqrt, fdfd),
606
  am_insn (fsqrt, fd),
607
  am_insn (fsqrt, fdfd),
608
  am_insn (fcmp, fdfd),
609
  am_insn (fadd, fdfd),
610
  am_insn (fadd, fdfdfd),
611
  am_insn (fsub, fdfd),
612
  am_insn (fsub, fdfdfd),
613
  am_insn (fmul, fdfd),
614
  am_insn (fmul, fdfdfd),
615
  am_insn (fdiv, fdfd),
616
  am_insn (fdiv, fdfdfd),
617
 
618
};
619
 
620
/* Define floating-point conversion insns.  */
621
def_am_insn (ftoi, fsfs, 4, 0xfb40,
622
             freg (12, 3), comma, freg (4, 1), tick_random);
623
def_am_insn (itof, fsfs, 4, 0xfb42,
624
             freg (12, 3), comma, freg (4, 1), tick_random);
625
def_am_insn (ftod, fsfd, 4, 0xfb52,
626
             freg (12, 3), comma, dreg (4, 1), tick_random);
627
def_am_insn (dtof, fdfs, 4, 0xfb56,
628
             dreg (12, 3), comma, freg (4, 1), tick_random);
629
 
630
/* Define the group of floating-point conversion insns.  */
631
func *fpconv_insns[] = {
632
  am_insn (ftoi, fsfs),
633
  am_insn (itof, fsfs),
634
  am_insn (ftod, fsfd),
635
  am_insn (dtof, fdfs),
636
 
637
};
638
 
639
/* Define conditional jump insns.  */
640
def_am_insn (fbeq, , 3, 0xf8d0, d8pcsec (0));
641
def_am_insn (fbne, , 3, 0xf8d1, d8pcsec (0));
642
def_am_insn (fbgt, , 3, 0xf8d2, d8pcsec (0));
643
def_am_insn (fbge, , 3, 0xf8d3, d8pcsec (0));
644
def_am_insn (fblt, , 3, 0xf8d4, d8pcsec (0));
645
def_am_insn (fble, , 3, 0xf8d5, d8pcsec (0));
646
def_am_insn (fbuo, , 3, 0xf8d6, d8pcsec (0));
647
def_am_insn (fblg, , 3, 0xf8d7, d8pcsec (0));
648
def_am_insn (fbleg,, 3, 0xf8d8, d8pcsec (0));
649
def_am_insn (fbug, , 3, 0xf8d9, d8pcsec (0));
650
def_am_insn (fbuge,, 3, 0xf8da, d8pcsec (0));
651
def_am_insn (fbul, , 3, 0xf8db, d8pcsec (0));
652
def_am_insn (fbule,, 3, 0xf8dc, d8pcsec (0));
653
def_am_insn (fbue, , 3, 0xf8dd, d8pcsec (0));
654
def_am_insn (fleq, , 2, 0xf0d0, nothing);
655
def_am_insn (flne, , 2, 0xf0d1, nothing);
656
def_am_insn (flgt, , 2, 0xf0d2, nothing);
657
def_am_insn (flge, , 2, 0xf0d3, nothing);
658
def_am_insn (fllt, , 2, 0xf0d4, nothing);
659
def_am_insn (flle, , 2, 0xf0d5, nothing);
660
def_am_insn (fluo, , 2, 0xf0d6, nothing);
661
def_am_insn (fllg, , 2, 0xf0d7, nothing);
662
def_am_insn (flleg,, 2, 0xf0d8, nothing);
663
def_am_insn (flug, , 2, 0xf0d9, nothing);
664
def_am_insn (fluge,, 2, 0xf0da, nothing);
665
def_am_insn (flul, , 2, 0xf0db, nothing);
666
def_am_insn (flule,, 2, 0xf0dc, nothing);
667
def_am_insn (flue, , 2, 0xf0dd, nothing);
668
 
669
/* Define the group of conditional jump insns.  */
670
func *condjmp_insns[] = {
671
  am_insn (fbeq, ),
672
  am_insn (fbne, ),
673
  am_insn (fbgt, ),
674
  am_insn (fbge, ),
675
  am_insn (fblt, ),
676
  am_insn (fble, ),
677
  am_insn (fbuo, ),
678
  am_insn (fblg, ),
679
  am_insn (fbleg, ),
680
  am_insn (fbug, ),
681
  am_insn (fbuge, ),
682
  am_insn (fbul, ),
683
  am_insn (fbule, ),
684
  am_insn (fbue, ),
685
  am_insn (fleq, ),
686
  am_insn (flne, ),
687
  am_insn (flgt, ),
688
  am_insn (flge, ),
689
  am_insn (fllt, ),
690
  am_insn (flle, ),
691
  am_insn (fluo, ),
692
  am_insn (fllg, ),
693
  am_insn (flleg, ),
694
  am_insn (flug, ),
695
  am_insn (fluge, ),
696
  am_insn (flul, ),
697
  am_insn (flule, ),
698
  am_insn (flue, ),
699
 
700
};
701
 
702
/* Define the set of all groups.  */
703
group_t
704
groups[] = {
705
  { "dcpf", dcpf_insns },
706
  { "bit", bit_insns },
707
  { "fmovs", fmovs_insns },
708
  { "fmovd", fmovd_insns },
709
  { "fmovc", fmovc_insns },
710
  { "sfparith", sfparith_insns },
711
  { "fpacc", fpacc_insns },
712
  { "dfparith", dfparith_insns },
713
  { "fpconv", fpconv_insns },
714
  { "condjmp", condjmp_insns },
715
  { 0 }
716
};
717
 
718
int
719
main(int argc, char *argv[])
720
{
721
  FILE *as_in = stdout, *dis_out = stderr;
722
 
723
  /* Check whether we're filtering insns.  */
724
  if (argc > 1)
725
    skip_list = argv + 1;
726
 
727
  /* Output assembler header.  */
728
  fputs ("\t.text\n"
729
         "\t.am33_2\n",
730
         as_in);
731
  /* Output comments for the testsuite-driver and the initial
732
   * disassembler output. */
733
  fputs ("#objdump: -dr --prefix-address --show-raw-insn\n"
734
         "#name: AM33/2.0\n"
735
         "\n"
736
         ".*: +file format.*elf32-mn10300.*\n"
737
         "\n"
738
         "Disassembly of section .text:\n",
739
         dis_out);
740
 
741
  /* Now emit all (selected) insns.  */
742
  output_groups (groups, as_in, dis_out);
743
 
744
  exit (0);
745
}

powered by: WebSVN 2.1.0

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