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[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [sim/] [common/] [cgen-ops.h] - Blame information for rev 816

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1 330 jeremybenn
/* Semantics ops support for CGEN-based simulators.
2
   Copyright (C) 1996, 1997, 1998, 1999, 2002, 2007, 2008, 2009, 2010
3
   Free Software Foundation, Inc.
4
   Contributed by Cygnus Solutions.
5
 
6
This file is part of the GNU Simulators.
7
 
8
This program is free software; you can redistribute it and/or modify
9
it under the terms of the GNU General Public License as published by
10
the Free Software Foundation; either version 3 of the License, or
11
(at your option) any later version.
12
 
13
This program is distributed in the hope that it will be useful,
14
but WITHOUT ANY WARRANTY; without even the implied warranty of
15
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16
GNU General Public License for more details.
17
 
18
You should have received a copy of the GNU General Public License
19
along with this program.  If not, see <http://www.gnu.org/licenses/>.
20
 
21
*/
22
 
23
#ifndef CGEN_SEM_OPS_H
24
#define CGEN_SEM_OPS_H
25
 
26
#include <assert.h>
27
 
28
#if defined (__GNUC__) && ! defined (SEMOPS_DEFINE_INLINE)
29
#define SEMOPS_DEFINE_INLINE
30
#define SEMOPS_INLINE extern inline
31
#else
32
#define SEMOPS_INLINE
33
#endif
34
 
35
/* Semantic operations.
36
   At one point this file was machine generated.  Maybe it will be again.  */
37
 
38
/* TODO: Lazy encoding/decoding of fp values.  */
39
 
40
/* These don't really have a mode.  */
41
#define ANDIF(x, y) ((x) && (y))
42
#define ORIF(x, y) ((x) || (y))
43
 
44
#define SUBBI(x, y) ((x) - (y))
45
#define ANDBI(x, y) ((x) & (y))
46
#define ORBI(x, y) ((x) | (y))
47
#define XORBI(x, y) ((x) ^ (y))
48
#define NEGBI(x) (- (x))
49
#define NOTBI(x) (! (BI) (x))
50
#define INVBI(x) (~ (x))
51
#define EQBI(x, y) ((BI) (x) == (BI) (y))
52
#define NEBI(x, y) ((BI) (x) != (BI) (y))
53
#define LTBI(x, y) ((BI) (x) < (BI) (y))
54
#define LEBI(x, y) ((BI) (x) <= (BI) (y))
55
#define GTBI(x, y) ((BI) (x) > (BI) (y))
56
#define GEBI(x, y) ((BI) (x) >= (BI) (y))
57
#define LTUBI(x, y) ((BI) (x) < (BI) (y))
58
#define LEUBI(x, y) ((BI) (x) <= (BI) (y))
59
#define GTUBI(x, y) ((BI) (x) > (BI) (y))
60
#define GEUBI(x, y) ((BI) (x) >= (BI) (y))
61
 
62
#define ADDQI(x, y) ((QI) ((UQI) (x) + (UQI) (y)))
63
#define SUBQI(x, y) ((QI) ((UQI) (x) - (UQI) (y)))
64
#define MULQI(x, y) ((QI) ((UQI) (x) * (UQI) (y)))
65
#define DIVQI(x, y) ((QI) (x) / (QI) (y))
66
#define UDIVQI(x, y) ((UQI) (x) / (UQI) (y))
67
#define MODQI(x, y) ((QI) (x) % (QI) (y))
68
#define UMODQI(x, y) ((UQI) (x) % (UQI) (y))
69
#define SRAQI(x, y) ((QI) (x) >> (y))
70
#define SRLQI(x, y) ((UQI) (x) >> (y))
71
#define SLLQI(x, y) ((UQI) (x) << (y))
72
extern QI RORQI (QI, int);
73
extern QI ROLQI (QI, int);
74
#define ANDQI(x, y) ((x) & (y))
75
#define ORQI(x, y) ((x) | (y))
76
#define XORQI(x, y) ((x) ^ (y))
77
#define NEGQI(x) ((QI) (- (UQI) (x)))
78
#define NOTQI(x) (! (QI) (x))
79
#define INVQI(x) (~ (x))
80
#define ABSQI(x) ((QI) ((QI) (x) < 0 ? -(UQI) (x) : (UQI) (x)))
81
#define EQQI(x, y) ((QI) (x) == (QI) (y))
82
#define NEQI(x, y) ((QI) (x) != (QI) (y))
83
#define LTQI(x, y) ((QI) (x) < (QI) (y))
84
#define LEQI(x, y) ((QI) (x) <= (QI) (y))
85
#define GTQI(x, y) ((QI) (x) > (QI) (y))
86
#define GEQI(x, y) ((QI) (x) >= (QI) (y))
87
#define LTUQI(x, y) ((UQI) (x) < (UQI) (y))
88
#define LEUQI(x, y) ((UQI) (x) <= (UQI) (y))
89
#define GTUQI(x, y) ((UQI) (x) > (UQI) (y))
90
#define GEUQI(x, y) ((UQI) (x) >= (UQI) (y))
91
 
92
#define ADDHI(x, y) ((HI) ((UHI) (x) + (UHI) (y)))
93
#define SUBHI(x, y) ((HI) ((UHI) (x) - (UHI) (y)))
94
#define MULHI(x, y) ((HI) ((UHI) (x) * (UHI) (y)))
95
#define DIVHI(x, y) ((HI) (x) / (HI) (y))
96
#define UDIVHI(x, y) ((UHI) (x) / (UHI) (y))
97
#define MODHI(x, y) ((HI) (x) % (HI) (y))
98
#define UMODHI(x, y) ((UHI) (x) % (UHI) (y))
99
#define SRAHI(x, y) ((HI) (x) >> (y))
100
#define SRLHI(x, y) ((UHI) (x) >> (y))
101
#define SLLHI(x, y) ((UHI) (x) << (y))
102
extern HI RORHI (HI, int);
103
extern HI ROLHI (HI, int);
104
#define ANDHI(x, y) ((x) & (y))
105
#define ORHI(x, y) ((x) | (y))
106
#define XORHI(x, y) ((x) ^ (y))
107
#define NEGHI(x) ((HI) (- (UHI) (x)))
108
#define NOTHI(x) (! (HI) (x))
109
#define INVHI(x) (~ (x))
110
#define ABSHI(x) ((HI) ((HI) (x) < 0 ? -(UHI) (x) : (UHI) (x)))
111
#define EQHI(x, y) ((HI) (x) == (HI) (y))
112
#define NEHI(x, y) ((HI) (x) != (HI) (y))
113
#define LTHI(x, y) ((HI) (x) < (HI) (y))
114
#define LEHI(x, y) ((HI) (x) <= (HI) (y))
115
#define GTHI(x, y) ((HI) (x) > (HI) (y))
116
#define GEHI(x, y) ((HI) (x) >= (HI) (y))
117
#define LTUHI(x, y) ((UHI) (x) < (UHI) (y))
118
#define LEUHI(x, y) ((UHI) (x) <= (UHI) (y))
119
#define GTUHI(x, y) ((UHI) (x) > (UHI) (y))
120
#define GEUHI(x, y) ((UHI) (x) >= (UHI) (y))
121
 
122
#define ADDSI(x, y) ((SI) ((USI) (x) + (USI) (y)))
123
#define SUBSI(x, y) ((SI) ((USI) (x) - (USI) (y)))
124
#define MULSI(x, y) ((SI) ((USI) (x) * (USI) (y)))
125
#define DIVSI(x, y) ((SI) (x) / (SI) (y))
126
#define UDIVSI(x, y) ((USI) (x) / (USI) (y))
127
#define MODSI(x, y) ((SI) (x) % (SI) (y))
128
#define UMODSI(x, y) ((USI) (x) % (USI) (y))
129
#define SRASI(x, y) ((SI) (x) >> (y))
130
#define SRLSI(x, y) ((USI) (x) >> (y))
131
#define SLLSI(x, y) ((USI) (x) << (y))
132
extern SI RORSI (SI, int);
133
extern SI ROLSI (SI, int);
134
#define ANDSI(x, y) ((x) & (y))
135
#define ORSI(x, y) ((x) | (y))
136
#define XORSI(x, y) ((x) ^ (y))
137
#define NEGSI(x) ((SI) (- (USI) (x)))
138
#define NOTSI(x) (! (SI) (x))
139
#define INVSI(x) (~ (x))
140
#define ABSSI(x) ((SI) ((SI) (x) < 0 ? -(USI) (x) : (USI) (x)))
141
#define EQSI(x, y) ((SI) (x) == (SI) (y))
142
#define NESI(x, y) ((SI) (x) != (SI) (y))
143
#define LTSI(x, y) ((SI) (x) < (SI) (y))
144
#define LESI(x, y) ((SI) (x) <= (SI) (y))
145
#define GTSI(x, y) ((SI) (x) > (SI) (y))
146
#define GESI(x, y) ((SI) (x) >= (SI) (y))
147
#define LTUSI(x, y) ((USI) (x) < (USI) (y))
148
#define LEUSI(x, y) ((USI) (x) <= (USI) (y))
149
#define GTUSI(x, y) ((USI) (x) > (USI) (y))
150
#define GEUSI(x, y) ((USI) (x) >= (USI) (y))
151
 
152
#ifdef DI_FN_SUPPORT
153
extern DI ADDDI (DI, DI);
154
extern DI SUBDI (DI, DI);
155
extern DI MULDI (DI, DI);
156
extern DI DIVDI (DI, DI);
157
extern DI UDIVDI (DI, DI);
158
extern DI MODDI (DI, DI);
159
extern DI UMODDI (DI, DI);
160
extern DI SRADI (DI, int);
161
extern UDI SRLDI (UDI, int);
162
extern UDI SLLDI (UDI, int);
163
extern DI RORDI (DI, int);
164
extern DI ROLDI (DI, int);
165
extern DI ANDDI (DI, DI);
166
extern DI ORDI (DI, DI);
167
extern DI XORDI (DI, DI);
168
extern DI NEGDI (DI);
169
extern int NOTDI (DI);
170
extern DI INVDI (DI);
171
extern int EQDI (DI, DI);
172
extern int NEDI (DI, DI);
173
extern int LTDI (DI, DI);
174
extern int LEDI (DI, DI);
175
extern int GTDI (DI, DI);
176
extern int GEDI (DI, DI);
177
extern int LTUDI (UDI, UDI);
178
extern int LEUDI (UDI, UDI);
179
extern int GTUDI (UDI, UDI);
180
extern int GEUDI (UDI, UDI);
181
#else /* ! DI_FN_SUPPORT */
182
#define ADDDI(x, y) ((DI) ((UDI) (x) + (UDI) (y)))
183
#define SUBDI(x, y) ((DI) ((UDI) (x) - (UDI) (y)))
184
#define MULDI(x, y) ((DI) ((UDI) (x) * (UDI) (y)))
185
#define DIVDI(x, y) ((DI) (x) / (DI) (y))
186
#define UDIVDI(x, y) ((UDI) (x) / (UDI) (y))
187
#define MODDI(x, y) ((DI) (x) % (DI) (y))
188
#define UMODDI(x, y) ((UDI) (x) % (UDI) (y))
189
#define SRADI(x, y) ((DI) (x) >> (y))
190
#define SRLDI(x, y) ((UDI) (x) >> (y))
191
#define SLLDI(x, y) ((UDI) (x) << (y))
192
extern DI RORDI (DI, int);
193
extern DI ROLDI (DI, int);
194
#define ANDDI(x, y) ((x) & (y))
195
#define ORDI(x, y) ((x) | (y))
196
#define XORDI(x, y) ((x) ^ (y))
197
#define NEGDI(x) ((DI) (- (UDI) (x)))
198
#define NOTDI(x) (! (DI) (x))
199
#define INVDI(x) (~ (x))
200
#define ABSDI(x) ((DI) ((DI) (x) < 0 ? -(UDI) (x) : (UDI) (x)))
201
#define EQDI(x, y) ((DI) (x) == (DI) (y))
202
#define NEDI(x, y) ((DI) (x) != (DI) (y))
203
#define LTDI(x, y) ((DI) (x) < (DI) (y))
204
#define LEDI(x, y) ((DI) (x) <= (DI) (y))
205
#define GTDI(x, y) ((DI) (x) > (DI) (y))
206
#define GEDI(x, y) ((DI) (x) >= (DI) (y))
207
#define LTUDI(x, y) ((UDI) (x) < (UDI) (y))
208
#define LEUDI(x, y) ((UDI) (x) <= (UDI) (y))
209
#define GTUDI(x, y) ((UDI) (x) > (UDI) (y))
210
#define GEUDI(x, y) ((UDI) (x) >= (UDI) (y))
211
#endif /* DI_FN_SUPPORT */
212
 
213
#define EXTBIQI(x) ((QI) (BI) (x))
214
#define EXTBIHI(x) ((HI) (BI) (x))
215
#define EXTBISI(x) ((SI) (BI) (x))
216
#if defined (DI_FN_SUPPORT)
217
extern DI EXTBIDI (BI);
218
#else
219
#define EXTBIDI(x) ((DI) (BI) (x))
220
#endif
221
#define EXTQIHI(x) ((HI) (QI) (x))
222
#define EXTQISI(x) ((SI) (QI) (x))
223
#if defined (DI_FN_SUPPORT)
224
extern DI EXTQIDI (QI);
225
#else
226
#define EXTQIDI(x) ((DI) (QI) (x))
227
#endif
228
#define EXTHIHI(x) ((HI) (HI) (x))
229
#define EXTHISI(x) ((SI) (HI) (x))
230
#define EXTSISI(x) ((SI) (SI) (x))
231
#if defined (DI_FN_SUPPORT)
232
extern DI EXTHIDI (HI);
233
#else
234
#define EXTHIDI(x) ((DI) (HI) (x))
235
#endif
236
#if defined (DI_FN_SUPPORT)
237
extern DI EXTSIDI (SI);
238
#else
239
#define EXTSIDI(x) ((DI) (SI) (x))
240
#endif
241
 
242
#define ZEXTBIQI(x) ((QI) (BI) (x))
243
#define ZEXTBIHI(x) ((HI) (BI) (x))
244
#define ZEXTBISI(x) ((SI) (BI) (x))
245
#if defined (DI_FN_SUPPORT)
246
extern DI ZEXTBIDI (BI);
247
#else
248
#define ZEXTBIDI(x) ((DI) (BI) (x))
249
#endif
250
#define ZEXTQIHI(x) ((HI) (UQI) (x))
251
#define ZEXTQISI(x) ((SI) (UQI) (x))
252
#if defined (DI_FN_SUPPORT)
253
extern DI ZEXTQIDI (QI);
254
#else
255
#define ZEXTQIDI(x) ((DI) (UQI) (x))
256
#endif
257
#define ZEXTHISI(x) ((SI) (UHI) (x))
258
#define ZEXTHIHI(x) ((HI) (UHI) (x))
259
#define ZEXTSISI(x) ((SI) (USI) (x))
260
#if defined (DI_FN_SUPPORT)
261
extern DI ZEXTHIDI (HI);
262
#else
263
#define ZEXTHIDI(x) ((DI) (UHI) (x))
264
#endif
265
#if defined (DI_FN_SUPPORT)
266
extern DI ZEXTSIDI (SI);
267
#else
268
#define ZEXTSIDI(x) ((DI) (USI) (x))
269
#endif
270
 
271
#define TRUNCQIBI(x) ((BI) (QI) (x))
272
#define TRUNCHIBI(x) ((BI) (HI) (x))
273
#define TRUNCHIQI(x) ((QI) (HI) (x))
274
#define TRUNCSIBI(x) ((BI) (SI) (x))
275
#define TRUNCSIQI(x) ((QI) (SI) (x))
276
#define TRUNCSIHI(x) ((HI) (SI) (x))
277
#define TRUNCSISI(x) ((SI) (SI) (x))
278
#if defined (DI_FN_SUPPORT)
279
extern BI TRUNCDIBI (DI);
280
#else
281
#define TRUNCDIBI(x) ((BI) (DI) (x))
282
#endif
283
#if defined (DI_FN_SUPPORT)
284
extern QI TRUNCDIQI (DI);
285
#else
286
#define TRUNCDIQI(x) ((QI) (DI) (x))
287
#endif
288
#if defined (DI_FN_SUPPORT)
289
extern HI TRUNCDIHI (DI);
290
#else
291
#define TRUNCDIHI(x) ((HI) (DI) (x))
292
#endif
293
#if defined (DI_FN_SUPPORT)
294
extern SI TRUNCDISI (DI);
295
#else
296
#define TRUNCDISI(x) ((SI) (DI) (x))
297
#endif
298
 
299
/* Composing/decomposing the various types.
300
   Word ordering is endian-independent.  Words are specified most to least
301
   significant and word number 0 is the most significant word.
302
   ??? May also wish an endian-dependent version.  Later.  */
303
 
304
#ifdef SEMOPS_DEFINE_INLINE
305
 
306
SEMOPS_INLINE SF
307
SUBWORDSISF (SI in)
308
{
309
  union { SI in; SF out; } x;
310
  x.in = in;
311
  return x.out;
312
}
313
 
314
SEMOPS_INLINE DF
315
SUBWORDDIDF (DI in)
316
{
317
  union { DI in; DF out; } x;
318
  x.in = in;
319
  return x.out;
320
}
321
 
322
SEMOPS_INLINE QI
323
SUBWORDSIQI (SI in, int byte)
324
{
325
  assert (byte >= 0 && byte <= 3);
326
  return (UQI) (in >> (8 * (3 - byte))) & 0xFF;
327
}
328
 
329
SEMOPS_INLINE UQI
330
SUBWORDSIUQI (SI in, int byte)
331
{
332
  assert (byte >= 0 && byte <= 3);
333
  return (UQI) (in >> (8 * (3 - byte))) & 0xFF;
334
}
335
 
336
SEMOPS_INLINE QI
337
SUBWORDDIQI (DI in, int byte)
338
{
339
  assert (byte >= 0 && byte <= 7);
340
  return (UQI) (in >> (8 * (7 - byte))) & 0xFF;
341
}
342
 
343
SEMOPS_INLINE HI
344
SUBWORDDIHI (DI in, int word)
345
{
346
  assert (word >= 0 && word <= 3);
347
  return (UHI) (in >> (16 * (3 - word))) & 0xFFFF;
348
}
349
 
350
SEMOPS_INLINE HI
351
SUBWORDSIHI (SI in, int word)
352
{
353
  if (word == 0)
354
    return (USI) in >> 16;
355
  else
356
    return in;
357
}
358
 
359
SEMOPS_INLINE SI
360
SUBWORDSFSI (SF in)
361
{
362
  union { SF in; SI out; } x;
363
  x.in = in;
364
  return x.out;
365
}
366
 
367
SEMOPS_INLINE DI
368
SUBWORDDFDI (DF in)
369
{
370
  union { DF in; DI out; } x;
371
  x.in = in;
372
  return x.out;
373
}
374
 
375
SEMOPS_INLINE UQI
376
SUBWORDDIUQI (DI in, int byte)
377
{
378
  assert (byte >= 0 && byte <= 7);
379
  return (UQI) (in >> (8 * (7 - byte)));
380
}
381
 
382
SEMOPS_INLINE SI
383
SUBWORDDISI (DI in, int word)
384
{
385
  if (word == 0)
386
    return (UDI) in >> 32;
387
  else
388
    return in;
389
}
390
 
391
SEMOPS_INLINE SI
392
SUBWORDDFSI (DF in, int word)
393
{
394
  /* Note: typedef UDI DF; */
395
  if (word == 0)
396
    return (UDI) in >> 32;
397
  else
398
    return in;
399
}
400
 
401
SEMOPS_INLINE SI
402
SUBWORDXFSI (XF in, int word)
403
{
404
  /* Note: typedef struct { SI parts[3]; } XF; */
405
  union { XF in; SI out[3]; } x;
406
  x.in = in;
407
  if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN)
408
    return x.out[word];
409
  else
410
    return x.out[2 - word];
411
}
412
 
413
SEMOPS_INLINE SI
414
SUBWORDTFSI (TF in, int word)
415
{
416
  /* Note: typedef struct { SI parts[4]; } TF; */
417
  union { TF in; SI out[4]; } x;
418
  x.in = in;
419
  if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN)
420
    return x.out[word];
421
  else
422
    return x.out[3 - word];
423
}
424
 
425
SEMOPS_INLINE DI
426
JOINSIDI (SI x0, SI x1)
427
{
428
  return MAKEDI (x0, x1);
429
}
430
 
431
SEMOPS_INLINE DF
432
JOINSIDF (SI x0, SI x1)
433
{
434
  union { SI in[2]; DF out; } x;
435
  if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN)
436
    x.in[0] = x0, x.in[1] = x1;
437
  else
438
    x.in[1] = x0, x.in[0] = x1;
439
  return x.out;
440
}
441
 
442
SEMOPS_INLINE XF
443
JOINSIXF (SI x0, SI x1, SI x2)
444
{
445
  union { SI in[3]; XF out; } x;
446
  if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN)
447
    x.in[0] = x0, x.in[1] = x1, x.in[2] = x2;
448
  else
449
    x.in[2] = x0, x.in[1] = x1, x.in[0] = x2;
450
  return x.out;
451
}
452
 
453
SEMOPS_INLINE TF
454
JOINSITF (SI x0, SI x1, SI x2, SI x3)
455
{
456
  union { SI in[4]; TF out; } x;
457
  if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN)
458
    x.in[0] = x0, x.in[1] = x1, x.in[2] = x2, x.in[3] = x3;
459
  else
460
    x.in[3] = x0, x.in[2] = x1, x.in[1] = x2, x.in[0] = x3;
461
  return x.out;
462
}
463
 
464
#else
465
 
466
QI SUBWORDSIQI (SI);
467
HI SUBWORDSIHI (HI);
468
SI SUBWORDSFSI (SF);
469
SF SUBWORDSISF (SI);
470
DI SUBWORDDFDI (DF);
471
DF SUBWORDDIDF (DI);
472
QI SUBWORDDIQI (DI, int);
473
HI SUBWORDDIHI (DI, int);
474
SI SUBWORDDISI (DI, int);
475
SI SUBWORDDFSI (DF, int);
476
SI SUBWORDXFSI (XF, int);
477
SI SUBWORDTFSI (TF, int);
478
 
479
UQI SUBWORDSIUQI (SI);
480
UQI SUBWORDDIUQI (DI);
481
 
482
DI JOINSIDI (SI, SI);
483
DF JOINSIDF (SI, SI);
484
XF JOINSIXF (SI, SI, SI);
485
TF JOINSITF (SI, SI, SI, SI);
486
 
487
#endif /* SUBWORD,JOIN */
488
 
489
/* Semantic support utilities.  */
490
 
491
#ifdef SEMOPS_DEFINE_INLINE
492
 
493
SEMOPS_INLINE SI
494
ADDCSI (SI a, SI b, BI c)
495
{
496
  SI res = ADDSI (a, ADDSI (b, c));
497
  return res;
498
}
499
 
500
SEMOPS_INLINE BI
501
ADDCFSI (SI a, SI b, BI c)
502
{
503
  SI tmp = ADDSI (a, ADDSI (b, c));
504
  BI res = ((USI) tmp < (USI) a) || (c && tmp == a);
505
  return res;
506
}
507
 
508
SEMOPS_INLINE BI
509
ADDOFSI (SI a, SI b, BI c)
510
{
511
  SI tmp = ADDSI (a, ADDSI (b, c));
512
  BI res = (((a < 0) == (b < 0))
513
            && ((a < 0) != (tmp < 0)));
514
  return res;
515
}
516
 
517
SEMOPS_INLINE SI
518
SUBCSI (SI a, SI b, BI c)
519
{
520
  SI res = SUBSI (a, ADDSI (b, c));
521
  return res;
522
}
523
 
524
SEMOPS_INLINE BI
525
SUBCFSI (SI a, SI b, BI c)
526
{
527
  BI res = ((USI) a < (USI) b) || (c && a == b);
528
  return res;
529
}
530
 
531
SEMOPS_INLINE BI
532
SUBOFSI (SI a, SI b, BI c)
533
{
534
  SI tmp = SUBSI (a, ADDSI (b, c));
535
  BI res = (((a < 0) != (b < 0))
536
            && ((a < 0) != (tmp < 0)));
537
  return res;
538
}
539
 
540
SEMOPS_INLINE HI
541
ADDCHI (HI a, HI b, BI c)
542
{
543
  HI res = ADDHI (a, ADDHI (b, c));
544
  return res;
545
}
546
 
547
SEMOPS_INLINE BI
548
ADDCFHI (HI a, HI b, BI c)
549
{
550
  HI tmp = ADDHI (a, ADDHI (b, c));
551
  BI res = ((UHI) tmp < (UHI) a) || (c && tmp == a);
552
  return res;
553
}
554
 
555
SEMOPS_INLINE BI
556
ADDOFHI (HI a, HI b, BI c)
557
{
558
  HI tmp = ADDHI (a, ADDHI (b, c));
559
  BI res = (((a < 0) == (b < 0))
560
            && ((a < 0) != (tmp < 0)));
561
  return res;
562
}
563
 
564
SEMOPS_INLINE HI
565
SUBCHI (HI a, HI b, BI c)
566
{
567
  HI res = SUBHI (a, ADDHI (b, c));
568
  return res;
569
}
570
 
571
SEMOPS_INLINE BI
572
SUBCFHI (HI a, HI b, BI c)
573
{
574
  BI res = ((UHI) a < (UHI) b) || (c && a == b);
575
  return res;
576
}
577
 
578
SEMOPS_INLINE BI
579
SUBOFHI (HI a, HI b, BI c)
580
{
581
  HI tmp = SUBHI (a, ADDHI (b, c));
582
  BI res = (((a < 0) != (b < 0))
583
            && ((a < 0) != (tmp < 0)));
584
  return res;
585
}
586
 
587
SEMOPS_INLINE QI
588
ADDCQI (QI a, QI b, BI c)
589
{
590
  QI res = ADDQI (a, ADDQI (b, c));
591
  return res;
592
}
593
 
594
SEMOPS_INLINE BI
595
ADDCFQI (QI a, QI b, BI c)
596
{
597
  QI tmp = ADDQI (a, ADDQI (b, c));
598
  BI res = ((UQI) tmp < (UQI) a) || (c && tmp == a);
599
  return res;
600
}
601
 
602
SEMOPS_INLINE BI
603
ADDOFQI (QI a, QI b, BI c)
604
{
605
  QI tmp = ADDQI (a, ADDQI (b, c));
606
  BI res = (((a < 0) == (b < 0))
607
            && ((a < 0) != (tmp < 0)));
608
  return res;
609
}
610
 
611
SEMOPS_INLINE QI
612
SUBCQI (QI a, QI b, BI c)
613
{
614
  QI res = SUBQI (a, ADDQI (b, c));
615
  return res;
616
}
617
 
618
SEMOPS_INLINE BI
619
SUBCFQI (QI a, QI b, BI c)
620
{
621
  BI res = ((UQI) a < (UQI) b) || (c && a == b);
622
  return res;
623
}
624
 
625
SEMOPS_INLINE BI
626
SUBOFQI (QI a, QI b, BI c)
627
{
628
  QI tmp = SUBQI (a, ADDQI (b, c));
629
  BI res = (((a < 0) != (b < 0))
630
            && ((a < 0) != (tmp < 0)));
631
  return res;
632
}
633
 
634
#else
635
 
636
SI ADDCSI (SI, SI, BI);
637
UBI ADDCFSI (SI, SI, BI);
638
UBI ADDOFSI (SI, SI, BI);
639
SI SUBCSI (SI, SI, BI);
640
UBI SUBCFSI (SI, SI, BI);
641
UBI SUBOFSI (SI, SI, BI);
642
HI ADDCHI (HI, HI, BI);
643
UBI ADDCFHI (HI, HI, BI);
644
UBI ADDOFHI (HI, HI, BI);
645
HI SUBCHI (HI, HI, BI);
646
UBI SUBCFHI (HI, HI, BI);
647
UBI SUBOFHI (HI, HI, BI);
648
QI ADDCQI (QI, QI, BI);
649
UBI ADDCFQI (QI, QI, BI);
650
UBI ADDOFQI (QI, QI, BI);
651
QI SUBCQI (QI, QI, BI);
652
UBI SUBCFQI (QI, QI, BI);
653
UBI SUBOFQI (QI, QI, BI);
654
 
655
#endif
656
 
657
#endif /* CGEN_SEM_OPS_H */

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