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1 709 jeremybenn
;; Predicate definitions for DEC Alpha.
2
;; Copyright (C) 2004, 2005, 2006, 2007, 2008, 2010
3
;; Free Software Foundation, Inc.
4
;;
5
;; This file is part of GCC.
6
;;
7
;; GCC is free software; you can redistribute it and/or modify
8
;; it under the terms of the GNU General Public License as published by
9
;; the Free Software Foundation; either version 3, or (at your option)
10
;; any later version.
11
;;
12
;; GCC 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 GCC; see the file COPYING3.  If not see
19
;; .
20
 
21
;; Return 1 if OP is the zero constant for MODE.
22
(define_predicate "const0_operand"
23
  (and (match_code "const_int,const_double,const_vector")
24
       (match_test "op == CONST0_RTX (mode)")))
25
 
26
;; Returns true if OP is either the constant zero or a register.
27
(define_predicate "reg_or_0_operand"
28
  (ior (match_operand 0 "register_operand")
29
       (match_operand 0 "const0_operand")))
30
 
31
;; Return 1 if OP is a constant in the range of 0-63 (for a shift) or
32
;; any register.
33
(define_predicate "reg_or_6bit_operand"
34
  (if_then_else (match_code "const_int")
35
    (match_test "INTVAL (op) >= 0 && INTVAL (op) < 64")
36
    (match_operand 0 "register_operand")))
37
 
38
;; Return 1 if OP is an 8-bit constant.
39
(define_predicate "cint8_operand"
40
  (and (match_code "const_int")
41
       (match_test "INTVAL (op) >= 0 && INTVAL (op) < 256")))
42
 
43
;; Return 1 if OP is an 8-bit constant or any register.
44
(define_predicate "reg_or_8bit_operand"
45
  (if_then_else (match_code "const_int")
46
    (match_test "INTVAL (op) >= 0 && INTVAL (op) < 256")
47
    (match_operand 0 "register_operand")))
48
 
49
;; Return 1 if OP is a constant or any register.
50
(define_predicate "reg_or_cint_operand"
51
  (ior (match_operand 0 "register_operand")
52
       (match_operand 0 "const_int_operand")))
53
 
54
;; Return 1 if the operand is a valid second operand to an add insn.
55
(define_predicate "add_operand"
56
  (if_then_else (match_code "const_int")
57
    (match_test "satisfies_constraint_K (op) || satisfies_constraint_L (op)")
58
    (match_operand 0 "register_operand")))
59
 
60
;; Return 1 if the operand is a valid second operand to a
61
;; sign-extending add insn.
62
(define_predicate "sext_add_operand"
63
  (if_then_else (match_code "const_int")
64
    (match_test "satisfies_constraint_I (op) || satisfies_constraint_O (op)")
65
    (match_operand 0 "register_operand")))
66
 
67
;; Return 1 if the operand is a non-symbolic constant operand that
68
;; does not satisfy add_operand.
69
(define_predicate "non_add_const_operand"
70
  (and (match_code "const_int,const_double,const_vector")
71
       (not (match_operand 0 "add_operand"))))
72
 
73
;; Return 1 if the operand is a non-symbolic, nonzero constant operand.
74
(define_predicate "non_zero_const_operand"
75
  (and (match_code "const_int,const_double,const_vector")
76
       (match_test "op != CONST0_RTX (mode)")))
77
 
78
;; Return 1 if OP is the constant 4 or 8.
79
(define_predicate "const48_operand"
80
  (and (match_code "const_int")
81
       (match_test "INTVAL (op) == 4 || INTVAL (op) == 8")))
82
 
83
;; Return 1 if OP is a valid first operand to an AND insn.
84
(define_predicate "and_operand"
85
  (if_then_else (match_code "const_int")
86
    (match_test "(unsigned HOST_WIDE_INT) INTVAL (op) < 0x100
87
                 || (unsigned HOST_WIDE_INT) ~ INTVAL (op) < 0x100
88
                 || zap_mask (INTVAL (op))")
89
    (if_then_else (match_code "const_double")
90
      (match_test "GET_MODE (op) == VOIDmode
91
                   && zap_mask (CONST_DOUBLE_LOW (op))
92
                   && zap_mask (CONST_DOUBLE_HIGH (op))")
93
      (match_operand 0 "register_operand"))))
94
 
95
;; Return 1 if OP is a valid first operand to an IOR or XOR insn.
96
(define_predicate "or_operand"
97
  (if_then_else (match_code "const_int")
98
    (match_test "(unsigned HOST_WIDE_INT) INTVAL (op) < 0x100
99
                 || (unsigned HOST_WIDE_INT) ~ INTVAL (op) < 0x100")
100
    (match_operand 0 "register_operand")))
101
 
102
;; Return 1 if OP is a constant that is the width, in bits, of an integral
103
;; mode not larger than DImode.
104
(define_predicate "mode_width_operand"
105
  (match_code "const_int")
106
{
107
  HOST_WIDE_INT i = INTVAL (op);
108
  return i == 8 || i == 16 || i == 32 || i == 64;
109
})
110
 
111
;; Return 1 if OP is a constant that is a mask of ones of width of an
112
;; integral machine mode not larger than DImode.
113
(define_predicate "mode_mask_operand"
114
  (match_code "const_int,const_double")
115
{
116
  if (CONST_INT_P (op))
117
    {
118
      HOST_WIDE_INT value = INTVAL (op);
119
 
120
      if (value == 0xff)
121
        return 1;
122
      if (value == 0xffff)
123
        return 1;
124
      if (value == 0xffffffff)
125
        return 1;
126
      if (value == -1)
127
        return 1;
128
    }
129
  else if (HOST_BITS_PER_WIDE_INT == 32 && GET_CODE (op) == CONST_DOUBLE)
130
    {
131
      if (CONST_DOUBLE_LOW (op) == 0xffffffff && CONST_DOUBLE_HIGH (op) == 0)
132
        return 1;
133
    }
134
  return 0;
135
})
136
 
137
;; Return 1 if OP is a multiple of 8 less than 64.
138
(define_predicate "mul8_operand"
139
  (match_code "const_int")
140
{
141
  unsigned HOST_WIDE_INT i = INTVAL (op);
142
  return i < 64 && i % 8 == 0;
143
})
144
 
145
;; Return 1 if OP is a hard floating-point register.
146
(define_predicate "hard_fp_register_operand"
147
  (match_operand 0 "register_operand")
148
{
149
  if (GET_CODE (op) == SUBREG)
150
    op = SUBREG_REG (op);
151
  return REGNO_REG_CLASS (REGNO (op)) == FLOAT_REGS;
152
})
153
 
154
;; Return 1 if OP is a hard general register.
155
(define_predicate "hard_int_register_operand"
156
  (match_operand 0 "register_operand")
157
{
158
  if (GET_CODE (op) == SUBREG)
159
    op = SUBREG_REG (op);
160
  return REGNO_REG_CLASS (REGNO (op)) == GENERAL_REGS;
161
})
162
 
163
;; Return 1 if OP is something that can be reloaded into a register;
164
;; if it is a MEM, it need not be valid.
165
(define_predicate "some_operand"
166
  (ior (match_code "reg,mem,const_int,const_double,const_vector,
167
                    label_ref,symbol_ref,const,high")
168
       (and (match_code "subreg")
169
            (match_test "some_operand (SUBREG_REG (op), VOIDmode)"))))
170
 
171
;; Likewise, but don't accept constants.
172
(define_predicate "some_ni_operand"
173
  (ior (match_code "reg,mem")
174
       (and (match_code "subreg")
175
            (match_test "some_ni_operand (SUBREG_REG (op), VOIDmode)"))))
176
 
177
;; Return 1 if OP is a valid operand for the source of a move insn.
178
(define_predicate "input_operand"
179
  (match_code "label_ref,symbol_ref,const,high,reg,subreg,mem,
180
               const_double,const_vector,const_int")
181
{
182
  switch (GET_CODE (op))
183
    {
184
    case LABEL_REF:
185
    case SYMBOL_REF:
186
    case CONST:
187
      if (TARGET_EXPLICIT_RELOCS)
188
        {
189
          /* We don't split symbolic operands into something unintelligable
190
             until after reload, but we do not wish non-small, non-global
191
             symbolic operands to be reconstructed from their high/lo_sum
192
             form.  */
193
          return (small_symbolic_operand (op, mode)
194
                  || global_symbolic_operand (op, mode)
195
                  || gotdtp_symbolic_operand (op, mode)
196
                  || gottp_symbolic_operand (op, mode));
197
        }
198
      /* VMS still has a 32-bit mode.  */
199
      return mode == ptr_mode || mode == Pmode;
200
 
201
    case HIGH:
202
      return (TARGET_EXPLICIT_RELOCS
203
              && local_symbolic_operand (XEXP (op, 0), mode));
204
 
205
    case REG:
206
      return 1;
207
 
208
    case SUBREG:
209
      if (register_operand (op, mode))
210
        return 1;
211
      /* ... fall through ...  */
212
    case MEM:
213
      return ((TARGET_BWX || (mode != HImode && mode != QImode))
214
              && general_operand (op, mode));
215
 
216
    case CONST_DOUBLE:
217
      return op == CONST0_RTX (mode);
218
 
219
    case CONST_VECTOR:
220
      if (reload_in_progress || reload_completed)
221
        return alpha_legitimate_constant_p (mode, op);
222
      return op == CONST0_RTX (mode);
223
 
224
    case CONST_INT:
225
      if (mode == QImode || mode == HImode)
226
        return true;
227
      if (reload_in_progress || reload_completed)
228
        return alpha_legitimate_constant_p (mode, op);
229
      return add_operand (op, mode);
230
 
231
    default:
232
      gcc_unreachable ();
233
    }
234
  return 0;
235
})
236
 
237
;; Return 1 if OP is a SYMBOL_REF for a function known to be in this
238
;; file, and in the same section as the current function.
239
 
240
(define_predicate "samegp_function_operand"
241
  (match_code "symbol_ref")
242
{
243
  /* Easy test for recursion.  */
244
  if (op == XEXP (DECL_RTL (current_function_decl), 0))
245
    return true;
246
 
247
  /* Functions that are not local can be overridden, and thus may
248
     not share the same gp.  */
249
  if (! SYMBOL_REF_LOCAL_P (op))
250
    return false;
251
 
252
  /* If -msmall-data is in effect, assume that there is only one GP
253
     for the module, and so any local symbol has this property.  We
254
     need explicit relocations to be able to enforce this for symbols
255
     not defined in this unit of translation, however.  */
256
  if (TARGET_EXPLICIT_RELOCS && TARGET_SMALL_DATA)
257
    return true;
258
 
259
  /* Functions that are not external are defined in this UoT,
260
     and thus must share the same gp.  */
261
  return ! SYMBOL_REF_EXTERNAL_P (op);
262
})
263
 
264
;; Return 1 if OP is a SYMBOL_REF for which we can make a call via bsr.
265
(define_predicate "direct_call_operand"
266
  (match_operand 0 "samegp_function_operand")
267
{
268
  /* If profiling is implemented via linker tricks, we can't jump
269
     to the nogp alternate entry point.  Note that crtl->profile
270
     would not be correct, since that doesn't indicate if the target
271
     function uses profiling.  */
272
  /* ??? TARGET_PROFILING_NEEDS_GP isn't really the right test,
273
     but is approximately correct for the OSF ABIs.  Don't know
274
     what to do for VMS, NT, or UMK.  */
275
  if (!TARGET_PROFILING_NEEDS_GP && profile_flag)
276
    return false;
277
 
278
  /* Must be a function.  In some cases folks create thunks in static
279
     data structures and then make calls to them.  If we allow the
280
     direct call, we'll get an error from the linker about !samegp reloc
281
     against a symbol without a .prologue directive.  */
282
  if (!SYMBOL_REF_FUNCTION_P (op))
283
    return false;
284
 
285
  /* Must be "near" so that the branch is assumed to reach.  With
286
     -msmall-text, this is assumed true of all local symbols.  Since
287
     we've already checked samegp, locality is already assured.  */
288
  if (TARGET_SMALL_TEXT)
289
    return true;
290
 
291
  return false;
292
})
293
 
294
;; Return 1 if OP is a valid operand for the MEM of a CALL insn.
295
;;
296
;; For TARGET_ABI_OSF, we want to restrict to R27 or a pseudo.
297
 
298
(define_predicate "call_operand"
299
  (ior (match_code "symbol_ref")
300
       (and (match_code "reg")
301
            (ior (match_test "!TARGET_ABI_OSF")
302
                 (match_test "!HARD_REGISTER_P (op)")
303
                 (match_test "REGNO (op) == R27_REG")))))
304
 
305
;; Return true if OP is a LABEL_REF, or SYMBOL_REF or CONST referencing
306
;; a (non-tls) variable known to be defined in this file.
307
(define_predicate "local_symbolic_operand"
308
  (match_code "label_ref,const,symbol_ref")
309
{
310
  if (GET_CODE (op) == CONST
311
      && GET_CODE (XEXP (op, 0)) == PLUS
312
      && CONST_INT_P (XEXP (XEXP (op, 0), 1)))
313
    op = XEXP (XEXP (op, 0), 0);
314
 
315
  if (GET_CODE (op) == LABEL_REF)
316
    return 1;
317
 
318
  if (GET_CODE (op) != SYMBOL_REF)
319
    return 0;
320
 
321
  return (SYMBOL_REF_LOCAL_P (op)
322
          && !SYMBOL_REF_WEAK (op)
323
          && !SYMBOL_REF_TLS_MODEL (op));
324
})
325
 
326
;; Return true if OP is a SYMBOL_REF or CONST referencing a variable
327
;; known to be defined in this file in the small data area.
328
(define_predicate "small_symbolic_operand"
329
  (match_code "const,symbol_ref")
330
{
331
  if (! TARGET_SMALL_DATA)
332
    return 0;
333
 
334
  if (GET_CODE (op) == CONST
335
      && GET_CODE (XEXP (op, 0)) == PLUS
336
      && CONST_INT_P (XEXP (XEXP (op, 0), 1)))
337
    op = XEXP (XEXP (op, 0), 0);
338
 
339
  if (GET_CODE (op) != SYMBOL_REF)
340
    return 0;
341
 
342
  /* ??? There's no encode_section_info equivalent for the rtl
343
     constant pool, so SYMBOL_FLAG_SMALL never gets set.  */
344
  if (CONSTANT_POOL_ADDRESS_P (op))
345
    return GET_MODE_SIZE (get_pool_mode (op)) <= g_switch_value;
346
 
347
  return (SYMBOL_REF_LOCAL_P (op)
348
          && SYMBOL_REF_SMALL_P (op)
349
          && !SYMBOL_REF_WEAK (op)
350
          && !SYMBOL_REF_TLS_MODEL (op));
351
})
352
 
353
;; Return true if OP is a SYMBOL_REF or CONST referencing a variable
354
;; not known (or known not) to be defined in this file.
355
(define_predicate "global_symbolic_operand"
356
  (match_code "const,symbol_ref")
357
{
358
  if (GET_CODE (op) == CONST
359
      && GET_CODE (XEXP (op, 0)) == PLUS
360
      && CONST_INT_P (XEXP (XEXP (op, 0), 1)))
361
    op = XEXP (XEXP (op, 0), 0);
362
 
363
  if (GET_CODE (op) != SYMBOL_REF)
364
    return 0;
365
 
366
  return ((!SYMBOL_REF_LOCAL_P (op) || SYMBOL_REF_WEAK (op))
367
          && !SYMBOL_REF_TLS_MODEL (op));
368
})
369
 
370
;; Returns 1 if OP is a symbolic operand, i.e. a symbol_ref or a label_ref,
371
;; possibly with an offset.
372
(define_predicate "symbolic_operand"
373
  (ior (match_code "symbol_ref,label_ref")
374
       (and (match_code "const")
375
            (match_test "GET_CODE (XEXP (op,0)) == PLUS
376
                         && (GET_CODE (XEXP (XEXP (op,0), 0)) == SYMBOL_REF
377
                             || GET_CODE (XEXP (XEXP (op,0), 0)) == LABEL_REF)
378
                         && CONST_INT_P (XEXP (XEXP (op,0), 1))"))))
379
 
380
;; Return true if OP is valid for 16-bit DTP relative relocations.
381
(define_predicate "dtp16_symbolic_operand"
382
  (and (match_code "const")
383
       (match_test "tls_symbolic_operand_1 (op, 16, UNSPEC_DTPREL)")))
384
 
385
;; Return true if OP is valid for 32-bit DTP relative relocations.
386
(define_predicate "dtp32_symbolic_operand"
387
  (and (match_code "const")
388
       (match_test "tls_symbolic_operand_1 (op, 32, UNSPEC_DTPREL)")))
389
 
390
;; Return true if OP is valid for 64-bit DTP relative relocations.
391
(define_predicate "gotdtp_symbolic_operand"
392
  (and (match_code "const")
393
       (match_test "tls_symbolic_operand_1 (op, 64, UNSPEC_DTPREL)")))
394
 
395
;; Return true if OP is valid for 16-bit TP relative relocations.
396
(define_predicate "tp16_symbolic_operand"
397
  (and (match_code "const")
398
       (match_test "tls_symbolic_operand_1 (op, 16, UNSPEC_TPREL)")))
399
 
400
;; Return true if OP is valid for 32-bit TP relative relocations.
401
(define_predicate "tp32_symbolic_operand"
402
  (and (match_code "const")
403
       (match_test "tls_symbolic_operand_1 (op, 32, UNSPEC_TPREL)")))
404
 
405
;; Return true if OP is valid for 64-bit TP relative relocations.
406
(define_predicate "gottp_symbolic_operand"
407
  (and (match_code "const")
408
       (match_test "tls_symbolic_operand_1 (op, 64, UNSPEC_TPREL)")))
409
 
410
;; Return 1 if this memory address is a known aligned register plus
411
;; a constant.  It must be a valid address.  This means that we can do
412
;; this as an aligned reference plus some offset.
413
;;
414
;; Take into account what reload will do.  Oh god this is awful.
415
;; The horrible comma-operator construct below is to prevent genrecog
416
;; from thinking that this predicate accepts REG and SUBREG.  We don't
417
;; use recog during reload, so pretending these codes are accepted
418
;; pessimizes things a tad.
419
 
420
(define_special_predicate "aligned_memory_operand"
421
  (ior (match_test "op = resolve_reload_operand (op), 0")
422
       (match_code "mem"))
423
{
424
  rtx base;
425
  int offset;
426
 
427
  if (MEM_ALIGN (op) >= 32)
428
    return 1;
429
 
430
  op = XEXP (op, 0);
431
 
432
  /* LEGITIMIZE_RELOAD_ADDRESS creates (plus (plus reg const_hi) const_lo)
433
     sorts of constructs.  Dig for the real base register.  */
434
  if (reload_in_progress
435
      && GET_CODE (op) == PLUS
436
      && GET_CODE (XEXP (op, 0)) == PLUS)
437
    {
438
      base = XEXP (XEXP (op, 0), 0);
439
      offset = INTVAL (XEXP (op, 1));
440
    }
441
  else
442
    {
443
      if (! memory_address_p (mode, op))
444
        return 0;
445
      if (GET_CODE (op) == PLUS)
446
        {
447
          base = XEXP (op, 0);
448
          offset = INTVAL (XEXP (op, 1));
449
        }
450
      else
451
        {
452
          base = op;
453
          offset = 0;
454
        }
455
    }
456
 
457
  if (offset % GET_MODE_SIZE (mode))
458
    return 0;
459
 
460
  return (REG_P (base) && REGNO_POINTER_ALIGN (REGNO (base)) >= 32);
461
})
462
 
463
;; Similar, but return 1 if OP is a MEM which is not alignable.
464
 
465
(define_special_predicate "unaligned_memory_operand"
466
  (ior (match_test "op = resolve_reload_operand (op), 0")
467
       (match_code "mem"))
468
{
469
  rtx base;
470
  int offset;
471
 
472
  if (MEM_ALIGN (op) >= 32)
473
    return 0;
474
 
475
  op = XEXP (op, 0);
476
 
477
  /* LEGITIMIZE_RELOAD_ADDRESS creates (plus (plus reg const_hi) const_lo)
478
     sorts of constructs.  Dig for the real base register.  */
479
  if (reload_in_progress
480
      && GET_CODE (op) == PLUS
481
      && GET_CODE (XEXP (op, 0)) == PLUS)
482
    {
483
      base = XEXP (XEXP (op, 0), 0);
484
      offset = INTVAL (XEXP (op, 1));
485
    }
486
  else
487
    {
488
      if (! memory_address_p (mode, op))
489
        return 0;
490
      if (GET_CODE (op) == PLUS)
491
        {
492
          base = XEXP (op, 0);
493
          offset = INTVAL (XEXP (op, 1));
494
        }
495
      else
496
        {
497
          base = op;
498
          offset = 0;
499
        }
500
    }
501
 
502
  if (offset % GET_MODE_SIZE (mode))
503
    return 1;
504
 
505
  return (REG_P (base) && REGNO_POINTER_ALIGN (REGNO (base)) < 32);
506
})
507
 
508
;; Return 1 if OP is any memory location.  During reload a pseudo matches.
509
(define_special_predicate "any_memory_operand"
510
  (match_code "mem,reg,subreg")
511
{
512
  if (GET_CODE (op) == SUBREG)
513
    op = SUBREG_REG (op);
514
 
515
  if (MEM_P (op))
516
    return true;
517
  if (reload_in_progress && REG_P (op))
518
    {
519
      unsigned regno = REGNO (op);
520
      if (HARD_REGISTER_NUM_P (regno))
521
        return false;
522
      else
523
        return reg_renumber[regno] < 0;
524
    }
525
 
526
  return false;
527
})
528
 
529
;; Return 1 is OP is a memory location that is not a reference
530
;; (using an AND) to an unaligned location.  Take into account
531
;; what reload will do.
532
(define_special_predicate "normal_memory_operand"
533
  (ior (match_test "op = resolve_reload_operand (op), 0")
534
       (and (match_code "mem")
535
            (match_test "GET_CODE (XEXP (op, 0)) != AND"))))
536
 
537
;; Returns 1 if OP is not an eliminable register.
538
;;
539
;; This exists to cure a pathological failure in the s8addq (et al) patterns,
540
;;
541
;;      long foo () { long t; bar(); return (long) &t * 26107; }
542
;;
543
;; which run afoul of a hack in reload to cure a (presumably) similar
544
;; problem with lea-type instructions on other targets.  But there is
545
;; one of us and many of them, so work around the problem by selectively
546
;; preventing combine from making the optimization.
547
 
548
(define_predicate "reg_not_elim_operand"
549
  (match_operand 0 "register_operand")
550
{
551
  if (GET_CODE (op) == SUBREG)
552
    op = SUBREG_REG (op);
553
  return op != frame_pointer_rtx && op != arg_pointer_rtx;
554
})
555
 
556
;; Accept a register, but not a subreg of any kind.  This allows us to
557
;; avoid pathological cases in reload wrt data movement common in
558
;; int->fp conversion.  */
559
(define_predicate "reg_no_subreg_operand"
560
  (and (match_code "reg")
561
       (match_operand 0 "register_operand")))
562
 
563
;; Return 1 if OP is a valid Alpha comparison operator for "cbranch"
564
;; instructions.
565
(define_predicate "alpha_cbranch_operator"
566
  (ior (match_operand 0 "ordered_comparison_operator")
567
       (match_code "ordered,unordered")))
568
 
569
;; Return 1 if OP is a valid Alpha comparison operator for "cmp" style
570
;; instructions.
571
(define_predicate "alpha_comparison_operator"
572
  (match_code "eq,le,lt,leu,ltu"))
573
 
574
;; Similarly, but with swapped operands.
575
(define_predicate "alpha_swapped_comparison_operator"
576
  (match_code "eq,ge,gt,gtu"))
577
 
578
;; Return 1 if OP is a valid Alpha comparison operator against zero
579
;; for "bcc" style instructions.
580
(define_predicate "alpha_zero_comparison_operator"
581
  (match_code "eq,ne,le,lt,leu,ltu"))
582
 
583
;; Return 1 if OP is a signed comparison operation.
584
(define_predicate "signed_comparison_operator"
585
  (match_code "eq,ne,le,lt,ge,gt"))
586
 
587
;; Return 1 if OP is a valid Alpha floating point comparison operator.
588
(define_predicate "alpha_fp_comparison_operator"
589
  (match_code "eq,le,lt,unordered"))
590
 
591
;; Return 1 if this is a divide or modulus operator.
592
(define_predicate "divmod_operator"
593
  (match_code "div,mod,udiv,umod"))
594
 
595
;; Return 1 if this is a float->int conversion operator.
596
(define_predicate "fix_operator"
597
  (match_code "fix,unsigned_fix"))
598
 
599
;; Recognize an addition operation that includes a constant.  Used to
600
;; convince reload to canonize (plus (plus reg c1) c2) during register
601
;; elimination.
602
 
603
(define_predicate "addition_operation"
604
  (and (match_code "plus")
605
       (match_test "register_operand (XEXP (op, 0), mode)
606
                    && satisfies_constraint_K (XEXP (op, 1))")))
607
 
608
;; For TARGET_EXPLICIT_RELOCS, we don't obfuscate a SYMBOL_REF to a
609
;; small symbolic operand until after reload.  At which point we need
610
;; to replace (mem (symbol_ref)) with (mem (lo_sum $29 symbol_ref))
611
;; so that sched2 has the proper dependency information.  */
612
(define_predicate "some_small_symbolic_operand"
613
  (match_code "set,parallel,prefetch,unspec,unspec_volatile")
614
{
615
  /* Avoid search unless necessary.  */
616
  if (!TARGET_EXPLICIT_RELOCS || !reload_completed)
617
    return false;
618
  return for_each_rtx (&op, some_small_symbolic_operand_int, NULL);
619
})
620
 
621
;; Accept a register, or a memory if BWX is enabled.
622
(define_predicate "reg_or_bwx_memory_operand"
623
  (ior (match_operand 0 "register_operand")
624
       (and (match_test "TARGET_BWX")
625
            (match_operand 0 "memory_operand"))))
626
 
627
;; Accept a memory whose address is only a register.
628
(define_predicate "mem_noofs_operand"
629
  (and (match_code "mem")
630
       (match_code "reg" "0")))

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