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1 280 jeremybenn
/* Definitions for code generation pass of GNU compiler.
2
   Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009
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
<http://www.gnu.org/licenses/>.  */
20
 
21
#ifndef GCC_OPTABS_H
22
#define GCC_OPTABS_H
23
 
24
#include "insn-codes.h"
25
 
26
/* Optabs are tables saying how to generate insn bodies
27
   for various machine modes and numbers of operands.
28
   Each optab applies to one operation.
29
 
30
   For example, add_optab applies to addition.
31
 
32
   The insn_code slot is the enum insn_code that says how to
33
   generate an insn for this operation on a particular machine mode.
34
   It is CODE_FOR_nothing if there is no such insn on the target machine.
35
 
36
   The `lib_call' slot is the name of the library function that
37
   can be used to perform the operation.
38
 
39
   A few optabs, such as move_optab, are used by special code.  */
40
 
41
struct optab_handlers
42
{
43
  enum insn_code insn_code;
44
};
45
 
46
struct optab_d
47
{
48
  enum rtx_code code;
49
  const char *libcall_basename;
50
  char libcall_suffix;
51
  void (*libcall_gen)(struct optab_d *, const char *name, char suffix,
52
                      enum machine_mode);
53
  struct optab_handlers handlers[NUM_MACHINE_MODES];
54
};
55
typedef struct optab_d * optab;
56
 
57
/* A convert_optab is for some sort of conversion operation between
58
   modes.  The first array index is the destination mode, the second
59
   is the source mode.  */
60
struct convert_optab_d
61
{
62
  enum rtx_code code;
63
  const char *libcall_basename;
64
  void (*libcall_gen)(struct convert_optab_d *, const char *name,
65
                      enum machine_mode,
66
                      enum machine_mode);
67
  struct optab_handlers handlers[NUM_MACHINE_MODES][NUM_MACHINE_MODES];
68
};
69
typedef struct convert_optab_d *convert_optab;
70
 
71
/* Given an enum insn_code, access the function to construct
72
   the body of that kind of insn.  */
73
#define GEN_FCN(CODE) (insn_data[CODE].genfun)
74
 
75
/* Enumeration of valid indexes into optab_table.  */
76
enum optab_index
77
{
78
  /* Fixed-point operators with signed/unsigned saturation */
79
  OTI_ssadd,
80
  OTI_usadd,
81
  OTI_sssub,
82
  OTI_ussub,
83
  OTI_ssmul,
84
  OTI_usmul,
85
  OTI_ssdiv,
86
  OTI_usdiv,
87
  OTI_ssneg,
88
  OTI_usneg,
89
  OTI_ssashl,
90
  OTI_usashl,
91
 
92
  OTI_add,
93
  OTI_addv,
94
  OTI_sub,
95
  OTI_subv,
96
 
97
  /* Signed and fp multiply */
98
  OTI_smul,
99
  OTI_smulv,
100
  /* Signed multiply, return high word */
101
  OTI_smul_highpart,
102
  OTI_umul_highpart,
103
  /* Signed multiply with result one machine mode wider than args */
104
  OTI_smul_widen,
105
  OTI_umul_widen,
106
  /* Widening multiply of one unsigned and one signed operand.  */
107
  OTI_usmul_widen,
108
  /* Signed multiply and add with the result and addend one machine mode
109
     wider than the multiplicand and multiplier.  */
110
  OTI_smadd_widen,
111
  /* Unsigned multiply and add with the result and addend one machine mode
112
     wider than the multiplicand and multiplier.  */
113
  OTI_umadd_widen,
114
  /* Signed multiply and add with the result and addend one machine mode
115
     wider than the multiplicand and multiplier.
116
     All involved operations are saturating.  */
117
  OTI_ssmadd_widen,
118
  /* Unsigned multiply and add with the result and addend one machine mode
119
     wider than the multiplicand and multiplier.
120
     All involved operations are saturating.  */
121
  OTI_usmadd_widen,
122
  /* Signed multiply and subtract the result and minuend one machine mode
123
     wider than the multiplicand and multiplier.  */
124
  OTI_smsub_widen,
125
  /* Unsigned multiply and subtract the result and minuend one machine mode
126
     wider than the multiplicand and multiplier.  */
127
  OTI_umsub_widen,
128
  /* Signed multiply and subtract the result and minuend one machine mode
129
     wider than the multiplicand and multiplier.
130
     All involved operations are saturating.  */
131
  OTI_ssmsub_widen,
132
  /* Unsigned multiply and subtract the result and minuend one machine mode
133
     wider than the multiplicand and multiplier.
134
     All involved operations are saturating.  */
135
  OTI_usmsub_widen,
136
 
137
  /* Signed divide */
138
  OTI_sdiv,
139
  OTI_sdivv,
140
  /* Signed divide-and-remainder in one */
141
  OTI_sdivmod,
142
  OTI_udiv,
143
  OTI_udivmod,
144
  /* Signed remainder */
145
  OTI_smod,
146
  OTI_umod,
147
  /* Floating point remainder functions */
148
  OTI_fmod,
149
  OTI_remainder,
150
  /* Convert float to integer in float fmt */
151
  OTI_ftrunc,
152
 
153
  /* Logical and */
154
  OTI_and,
155
  /* Logical or */
156
  OTI_ior,
157
  /* Logical xor */
158
  OTI_xor,
159
 
160
  /* Arithmetic shift left */
161
  OTI_ashl,
162
  /* Logical shift right */
163
  OTI_lshr,
164
  /* Arithmetic shift right */
165
  OTI_ashr,
166
  /* Rotate left */
167
  OTI_rotl,
168
  /* Rotate right */
169
  OTI_rotr,
170
 
171
  /* Arithmetic shift left of vector by vector */
172
  OTI_vashl,
173
  /* Logical shift right of vector by vector */
174
  OTI_vlshr,
175
  /* Arithmetic shift right of vector by vector */
176
  OTI_vashr,
177
  /* Rotate left of vector by vector */
178
  OTI_vrotl,
179
  /* Rotate right of vector by vector */
180
  OTI_vrotr,
181
 
182
  /* Signed and floating-point minimum value */
183
  OTI_smin,
184
  /* Signed and floating-point maximum value */
185
  OTI_smax,
186
  /* Unsigned minimum value */
187
  OTI_umin,
188
  /* Unsigned maximum value */
189
  OTI_umax,
190
  /* Power */
191
  OTI_pow,
192
  /* Arc tangent of y/x */
193
  OTI_atan2,
194
 
195
  /* Move instruction.  */
196
  OTI_mov,
197
  /* Move, preserving high part of register.  */
198
  OTI_movstrict,
199
  /* Move, with a misaligned memory.  */
200
  OTI_movmisalign,
201
  /* Nontemporal store.  */
202
  OTI_storent,
203
 
204
  /* Unary operations */
205
  /* Negation */
206
  OTI_neg,
207
  OTI_negv,
208
  /* Abs value */
209
  OTI_abs,
210
  OTI_absv,
211
  /* Byteswap */
212
  OTI_bswap,
213
  /* Bitwise not */
214
  OTI_one_cmpl,
215
  /* Bit scanning and counting */
216
  OTI_ffs,
217
  OTI_clz,
218
  OTI_ctz,
219
  OTI_popcount,
220
  OTI_parity,
221
  /* Square root */
222
  OTI_sqrt,
223
  /* Sine-Cosine */
224
  OTI_sincos,
225
  /* Sine */
226
  OTI_sin,
227
  /* Inverse sine */
228
  OTI_asin,
229
  /* Cosine */
230
  OTI_cos,
231
  /* Inverse cosine */
232
  OTI_acos,
233
  /* Exponential */
234
  OTI_exp,
235
  /* Base-10 Exponential */
236
  OTI_exp10,
237
  /* Base-2 Exponential */
238
  OTI_exp2,
239
  /* Exponential - 1*/
240
  OTI_expm1,
241
  /* Load exponent of a floating point number */
242
  OTI_ldexp,
243
  /* Multiply floating-point number by integral power of radix */
244
  OTI_scalb,
245
  /* Mantissa of a floating-point number */
246
  OTI_significand,
247
  /* Radix-independent exponent */
248
  OTI_logb,
249
  OTI_ilogb,
250
  /* Natural Logarithm */
251
  OTI_log,
252
  /* Base-10 Logarithm */
253
  OTI_log10,
254
  /* Base-2 Logarithm */
255
  OTI_log2,
256
  /* logarithm of 1 plus argument */
257
  OTI_log1p,
258
  /* Rounding functions */
259
  OTI_floor,
260
  OTI_ceil,
261
  OTI_btrunc,
262
  OTI_round,
263
  OTI_nearbyint,
264
  OTI_rint,
265
  /* Tangent */
266
  OTI_tan,
267
  /* Inverse tangent */
268
  OTI_atan,
269
  /* Copy sign */
270
  OTI_copysign,
271
  /* Signbit */
272
  OTI_signbit,
273
  /* Test for infinite value */
274
  OTI_isinf,
275
 
276
  /* Compare insn; two operands.  Used only for libcalls.  */
277
  OTI_cmp,
278
  OTI_ucmp,
279
 
280
  /* Floating point comparison optabs - used primarily for libfuncs */
281
  OTI_eq,
282
  OTI_ne,
283
  OTI_gt,
284
  OTI_ge,
285
  OTI_lt,
286
  OTI_le,
287
  OTI_unord,
288
 
289
  /* String length */
290
  OTI_strlen,
291
 
292
  /* Combined compare & jump/move/store flags/trap operations.  */
293
  OTI_cbranch,
294
  OTI_cmov,
295
  OTI_cstore,
296
  OTI_ctrap,
297
 
298
  /* Push instruction.  */
299
  OTI_push,
300
 
301
  /* Conditional add instruction.  */
302
  OTI_addcc,
303
 
304
  /* Reduction operations on a vector operand.  */
305
  OTI_reduc_smax,
306
  OTI_reduc_umax,
307
  OTI_reduc_smin,
308
  OTI_reduc_umin,
309
  OTI_reduc_splus,
310
  OTI_reduc_uplus,
311
 
312
  /* Summation, with result machine mode one or more wider than args.  */
313
  OTI_ssum_widen,
314
  OTI_usum_widen,
315
 
316
  /* Dot product, with result machine mode one or more wider than args.  */
317
  OTI_sdot_prod,
318
  OTI_udot_prod,
319
 
320
  /* Set specified field of vector operand.  */
321
  OTI_vec_set,
322
  /* Extract specified field of vector operand.  */
323
  OTI_vec_extract,
324
  /* Extract even/odd fields of vector operands.  */
325
  OTI_vec_extract_even,
326
  OTI_vec_extract_odd,
327
  /* Interleave fields of vector operands.  */
328
  OTI_vec_interleave_high,
329
  OTI_vec_interleave_low,
330
  /* Initialize vector operand.  */
331
  OTI_vec_init,
332
  /* Whole vector shift. The shift amount is in bits.  */
333
  OTI_vec_shl,
334
  OTI_vec_shr,
335
  /* Extract specified elements from vectors, for vector load.  */
336
  OTI_vec_realign_load,
337
  /* Widening multiplication.
338
     The high/low part of the resulting vector of products is returned.  */
339
  OTI_vec_widen_umult_hi,
340
  OTI_vec_widen_umult_lo,
341
  OTI_vec_widen_smult_hi,
342
  OTI_vec_widen_smult_lo,
343
  /* Extract and widen the high/low part of a vector of signed or
344
     floating point elements.  */
345
  OTI_vec_unpacks_hi,
346
  OTI_vec_unpacks_lo,
347
  /* Extract and widen the high/low part of a vector of unsigned
348
     elements.  */
349
  OTI_vec_unpacku_hi,
350
  OTI_vec_unpacku_lo,
351
 
352
  /* Extract, convert to floating point and widen the high/low part of
353
     a vector of signed or unsigned integer elements.  */
354
  OTI_vec_unpacks_float_hi,
355
  OTI_vec_unpacks_float_lo,
356
  OTI_vec_unpacku_float_hi,
357
  OTI_vec_unpacku_float_lo,
358
 
359
  /* Narrow (demote) and merge the elements of two vectors.  */
360
  OTI_vec_pack_trunc,
361
  OTI_vec_pack_usat,
362
  OTI_vec_pack_ssat,
363
 
364
  /* Convert to signed/unsigned integer, narrow and merge elements
365
     of two vectors of floating point elements.  */
366
  OTI_vec_pack_sfix_trunc,
367
  OTI_vec_pack_ufix_trunc,
368
 
369
  /* Perform a raise to the power of integer.  */
370
  OTI_powi,
371
 
372
  OTI_MAX
373
};
374
 
375
extern struct optab_d optab_table[OTI_MAX];
376
 
377
#define ssadd_optab (&optab_table[OTI_ssadd])
378
#define usadd_optab (&optab_table[OTI_usadd])
379
#define sssub_optab (&optab_table[OTI_sssub])
380
#define ussub_optab (&optab_table[OTI_ussub])
381
#define ssmul_optab (&optab_table[OTI_ssmul])
382
#define usmul_optab (&optab_table[OTI_usmul])
383
#define ssdiv_optab (&optab_table[OTI_ssdiv])
384
#define usdiv_optab (&optab_table[OTI_usdiv])
385
#define ssneg_optab (&optab_table[OTI_ssneg])
386
#define usneg_optab (&optab_table[OTI_usneg])
387
#define ssashl_optab (&optab_table[OTI_ssashl])
388
#define usashl_optab (&optab_table[OTI_usashl])
389
 
390
#define add_optab (&optab_table[OTI_add])
391
#define sub_optab (&optab_table[OTI_sub])
392
#define smul_optab (&optab_table[OTI_smul])
393
#define addv_optab (&optab_table[OTI_addv])
394
#define subv_optab (&optab_table[OTI_subv])
395
#define smul_highpart_optab (&optab_table[OTI_smul_highpart])
396
#define umul_highpart_optab (&optab_table[OTI_umul_highpart])
397
#define smul_widen_optab (&optab_table[OTI_smul_widen])
398
#define umul_widen_optab (&optab_table[OTI_umul_widen])
399
#define usmul_widen_optab (&optab_table[OTI_usmul_widen])
400
#define smadd_widen_optab (&optab_table[OTI_smadd_widen])
401
#define umadd_widen_optab (&optab_table[OTI_umadd_widen])
402
#define ssmadd_widen_optab (&optab_table[OTI_ssmadd_widen])
403
#define usmadd_widen_optab (&optab_table[OTI_usmadd_widen])
404
#define smsub_widen_optab (&optab_table[OTI_smsub_widen])
405
#define umsub_widen_optab (&optab_table[OTI_umsub_widen])
406
#define ssmsub_widen_optab (&optab_table[OTI_ssmsub_widen])
407
#define usmsub_widen_optab (&optab_table[OTI_usmsub_widen])
408
#define sdiv_optab (&optab_table[OTI_sdiv])
409
#define smulv_optab (&optab_table[OTI_smulv])
410
#define sdivv_optab (&optab_table[OTI_sdivv])
411
#define sdivmod_optab (&optab_table[OTI_sdivmod])
412
#define udiv_optab (&optab_table[OTI_udiv])
413
#define udivmod_optab (&optab_table[OTI_udivmod])
414
#define smod_optab (&optab_table[OTI_smod])
415
#define umod_optab (&optab_table[OTI_umod])
416
#define fmod_optab (&optab_table[OTI_fmod])
417
#define remainder_optab (&optab_table[OTI_remainder])
418
#define ftrunc_optab (&optab_table[OTI_ftrunc])
419
#define and_optab (&optab_table[OTI_and])
420
#define ior_optab (&optab_table[OTI_ior])
421
#define xor_optab (&optab_table[OTI_xor])
422
#define ashl_optab (&optab_table[OTI_ashl])
423
#define lshr_optab (&optab_table[OTI_lshr])
424
#define ashr_optab (&optab_table[OTI_ashr])
425
#define rotl_optab (&optab_table[OTI_rotl])
426
#define rotr_optab (&optab_table[OTI_rotr])
427
#define vashl_optab (&optab_table[OTI_vashl])
428
#define vlshr_optab (&optab_table[OTI_vlshr])
429
#define vashr_optab (&optab_table[OTI_vashr])
430
#define vrotl_optab (&optab_table[OTI_vrotl])
431
#define vrotr_optab (&optab_table[OTI_vrotr])
432
#define smin_optab (&optab_table[OTI_smin])
433
#define smax_optab (&optab_table[OTI_smax])
434
#define umin_optab (&optab_table[OTI_umin])
435
#define umax_optab (&optab_table[OTI_umax])
436
#define pow_optab (&optab_table[OTI_pow])
437
#define atan2_optab (&optab_table[OTI_atan2])
438
 
439
#define mov_optab (&optab_table[OTI_mov])
440
#define movstrict_optab (&optab_table[OTI_movstrict])
441
#define movmisalign_optab (&optab_table[OTI_movmisalign])
442
#define storent_optab (&optab_table[OTI_storent])
443
 
444
#define neg_optab (&optab_table[OTI_neg])
445
#define negv_optab (&optab_table[OTI_negv])
446
#define abs_optab (&optab_table[OTI_abs])
447
#define absv_optab (&optab_table[OTI_absv])
448
#define one_cmpl_optab (&optab_table[OTI_one_cmpl])
449
#define bswap_optab (&optab_table[OTI_bswap])
450
#define ffs_optab (&optab_table[OTI_ffs])
451
#define clz_optab (&optab_table[OTI_clz])
452
#define ctz_optab (&optab_table[OTI_ctz])
453
#define popcount_optab (&optab_table[OTI_popcount])
454
#define parity_optab (&optab_table[OTI_parity])
455
#define sqrt_optab (&optab_table[OTI_sqrt])
456
#define sincos_optab (&optab_table[OTI_sincos])
457
#define sin_optab (&optab_table[OTI_sin])
458
#define asin_optab (&optab_table[OTI_asin])
459
#define cos_optab (&optab_table[OTI_cos])
460
#define acos_optab (&optab_table[OTI_acos])
461
#define exp_optab (&optab_table[OTI_exp])
462
#define exp10_optab (&optab_table[OTI_exp10])
463
#define exp2_optab (&optab_table[OTI_exp2])
464
#define expm1_optab (&optab_table[OTI_expm1])
465
#define ldexp_optab (&optab_table[OTI_ldexp])
466
#define scalb_optab (&optab_table[OTI_scalb])
467
#define significand_optab (&optab_table[OTI_significand])
468
#define logb_optab (&optab_table[OTI_logb])
469
#define ilogb_optab (&optab_table[OTI_ilogb])
470
#define log_optab (&optab_table[OTI_log])
471
#define log10_optab (&optab_table[OTI_log10])
472
#define log2_optab (&optab_table[OTI_log2])
473
#define log1p_optab (&optab_table[OTI_log1p])
474
#define floor_optab (&optab_table[OTI_floor])
475
#define ceil_optab (&optab_table[OTI_ceil])
476
#define btrunc_optab (&optab_table[OTI_btrunc])
477
#define round_optab (&optab_table[OTI_round])
478
#define nearbyint_optab (&optab_table[OTI_nearbyint])
479
#define rint_optab (&optab_table[OTI_rint])
480
#define tan_optab (&optab_table[OTI_tan])
481
#define atan_optab (&optab_table[OTI_atan])
482
#define copysign_optab (&optab_table[OTI_copysign])
483
#define signbit_optab (&optab_table[OTI_signbit])
484
#define isinf_optab (&optab_table[OTI_isinf])
485
 
486
#define cmp_optab (&optab_table[OTI_cmp])
487
#define ucmp_optab (&optab_table[OTI_ucmp])
488
 
489
#define eq_optab (&optab_table[OTI_eq])
490
#define ne_optab (&optab_table[OTI_ne])
491
#define gt_optab (&optab_table[OTI_gt])
492
#define ge_optab (&optab_table[OTI_ge])
493
#define lt_optab (&optab_table[OTI_lt])
494
#define le_optab (&optab_table[OTI_le])
495
#define unord_optab (&optab_table[OTI_unord])
496
 
497
#define strlen_optab (&optab_table[OTI_strlen])
498
 
499
#define cbranch_optab (&optab_table[OTI_cbranch])
500
#define cmov_optab (&optab_table[OTI_cmov])
501
#define cstore_optab (&optab_table[OTI_cstore])
502
#define ctrap_optab (&optab_table[OTI_ctrap])
503
 
504
#define push_optab (&optab_table[OTI_push])
505
#define addcc_optab (&optab_table[OTI_addcc])
506
 
507
#define reduc_smax_optab (&optab_table[OTI_reduc_smax])
508
#define reduc_umax_optab (&optab_table[OTI_reduc_umax])
509
#define reduc_smin_optab (&optab_table[OTI_reduc_smin])
510
#define reduc_umin_optab (&optab_table[OTI_reduc_umin])
511
#define reduc_splus_optab (&optab_table[OTI_reduc_splus])
512
#define reduc_uplus_optab (&optab_table[OTI_reduc_uplus])
513
 
514
#define ssum_widen_optab (&optab_table[OTI_ssum_widen])
515
#define usum_widen_optab (&optab_table[OTI_usum_widen])
516
#define sdot_prod_optab (&optab_table[OTI_sdot_prod])
517
#define udot_prod_optab (&optab_table[OTI_udot_prod])
518
 
519
#define vec_set_optab (&optab_table[OTI_vec_set])
520
#define vec_extract_optab (&optab_table[OTI_vec_extract])
521
#define vec_extract_even_optab (&optab_table[OTI_vec_extract_even])
522
#define vec_extract_odd_optab (&optab_table[OTI_vec_extract_odd])
523
#define vec_interleave_high_optab (&optab_table[OTI_vec_interleave_high])
524
#define vec_interleave_low_optab (&optab_table[OTI_vec_interleave_low])
525
#define vec_init_optab (&optab_table[OTI_vec_init])
526
#define vec_shl_optab (&optab_table[OTI_vec_shl])
527
#define vec_shr_optab (&optab_table[OTI_vec_shr])
528
#define vec_realign_load_optab (&optab_table[OTI_vec_realign_load])
529
#define vec_widen_umult_hi_optab (&optab_table[OTI_vec_widen_umult_hi])
530
#define vec_widen_umult_lo_optab (&optab_table[OTI_vec_widen_umult_lo])
531
#define vec_widen_smult_hi_optab (&optab_table[OTI_vec_widen_smult_hi])
532
#define vec_widen_smult_lo_optab (&optab_table[OTI_vec_widen_smult_lo])
533
#define vec_unpacks_hi_optab (&optab_table[OTI_vec_unpacks_hi])
534
#define vec_unpacks_lo_optab (&optab_table[OTI_vec_unpacks_lo])
535
#define vec_unpacku_hi_optab (&optab_table[OTI_vec_unpacku_hi])
536
#define vec_unpacku_lo_optab (&optab_table[OTI_vec_unpacku_lo])
537
#define vec_unpacks_float_hi_optab (&optab_table[OTI_vec_unpacks_float_hi])
538
#define vec_unpacks_float_lo_optab (&optab_table[OTI_vec_unpacks_float_lo])
539
#define vec_unpacku_float_hi_optab (&optab_table[OTI_vec_unpacku_float_hi])
540
#define vec_unpacku_float_lo_optab (&optab_table[OTI_vec_unpacku_float_lo])
541
#define vec_pack_trunc_optab (&optab_table[OTI_vec_pack_trunc])
542
#define vec_pack_ssat_optab (&optab_table[OTI_vec_pack_ssat])
543
#define vec_pack_usat_optab (&optab_table[OTI_vec_pack_usat])
544
#define vec_pack_sfix_trunc_optab (&optab_table[OTI_vec_pack_sfix_trunc])
545
#define vec_pack_ufix_trunc_optab (&optab_table[OTI_vec_pack_ufix_trunc])
546
 
547
#define powi_optab (&optab_table[OTI_powi])
548
 
549
/* Conversion optabs have their own table and indexes.  */
550
enum convert_optab_index
551
{
552
  COI_sext,
553
  COI_zext,
554
  COI_trunc,
555
 
556
  COI_sfix,
557
  COI_ufix,
558
 
559
  COI_sfixtrunc,
560
  COI_ufixtrunc,
561
 
562
  COI_sfloat,
563
  COI_ufloat,
564
 
565
  COI_lrint,
566
  COI_lround,
567
  COI_lfloor,
568
  COI_lceil,
569
 
570
  COI_fract,
571
  COI_fractuns,
572
  COI_satfract,
573
  COI_satfractuns,
574
 
575
  COI_MAX
576
};
577
 
578
extern struct convert_optab_d convert_optab_table[COI_MAX];
579
 
580
#define sext_optab (&convert_optab_table[COI_sext])
581
#define zext_optab (&convert_optab_table[COI_zext])
582
#define trunc_optab (&convert_optab_table[COI_trunc])
583
#define sfix_optab (&convert_optab_table[COI_sfix])
584
#define ufix_optab (&convert_optab_table[COI_ufix])
585
#define sfixtrunc_optab (&convert_optab_table[COI_sfixtrunc])
586
#define ufixtrunc_optab (&convert_optab_table[COI_ufixtrunc])
587
#define sfloat_optab (&convert_optab_table[COI_sfloat])
588
#define ufloat_optab (&convert_optab_table[COI_ufloat])
589
#define lrint_optab (&convert_optab_table[COI_lrint])
590
#define lround_optab (&convert_optab_table[COI_lround])
591
#define lfloor_optab (&convert_optab_table[COI_lfloor])
592
#define lceil_optab (&convert_optab_table[COI_lceil])
593
#define fract_optab (&convert_optab_table[COI_fract])
594
#define fractuns_optab (&convert_optab_table[COI_fractuns])
595
#define satfract_optab (&convert_optab_table[COI_satfract])
596
#define satfractuns_optab (&convert_optab_table[COI_satfractuns])
597
 
598
/* These arrays record the insn_code of insns that may be needed to
599
   perform input and output reloads of special objects.  They provide a
600
   place to pass a scratch register.  */
601
extern enum insn_code reload_in_optab[NUM_MACHINE_MODES];
602
extern enum insn_code reload_out_optab[NUM_MACHINE_MODES];
603
 
604
/* Contains the optab used for each rtx code.  */
605
extern optab code_to_optab[NUM_RTX_CODE + 1];
606
 
607
 
608
typedef rtx (*rtxfun) (rtx);
609
 
610
#ifdef HAVE_conditional_move
611
/* Indexed by the machine mode, gives the insn code to make a conditional
612
   move insn.  */
613
 
614
extern enum insn_code movcc_gen_code[NUM_MACHINE_MODES];
615
#endif
616
 
617
/* Indexed by the machine mode, gives the insn code for vector conditional
618
   operation.  */
619
 
620
extern enum insn_code vcond_gen_code[NUM_MACHINE_MODES];
621
extern enum insn_code vcondu_gen_code[NUM_MACHINE_MODES];
622
 
623
/* This array records the insn_code of insns to perform block moves.  */
624
extern enum insn_code movmem_optab[NUM_MACHINE_MODES];
625
 
626
/* This array records the insn_code of insns to perform block sets.  */
627
extern enum insn_code setmem_optab[NUM_MACHINE_MODES];
628
 
629
/* These arrays record the insn_code of two different kinds of insns
630
   to perform block compares.  */
631
extern enum insn_code cmpstr_optab[NUM_MACHINE_MODES];
632
extern enum insn_code cmpstrn_optab[NUM_MACHINE_MODES];
633
extern enum insn_code cmpmem_optab[NUM_MACHINE_MODES];
634
 
635
/* Synchronization primitives.  This first set is atomic operation for
636
   which we don't care about the resulting value.  */
637
extern enum insn_code sync_add_optab[NUM_MACHINE_MODES];
638
extern enum insn_code sync_sub_optab[NUM_MACHINE_MODES];
639
extern enum insn_code sync_ior_optab[NUM_MACHINE_MODES];
640
extern enum insn_code sync_and_optab[NUM_MACHINE_MODES];
641
extern enum insn_code sync_xor_optab[NUM_MACHINE_MODES];
642
extern enum insn_code sync_nand_optab[NUM_MACHINE_MODES];
643
 
644
/* This second set is atomic operations in which we return the value
645
   that existed in memory before the operation.  */
646
extern enum insn_code sync_old_add_optab[NUM_MACHINE_MODES];
647
extern enum insn_code sync_old_sub_optab[NUM_MACHINE_MODES];
648
extern enum insn_code sync_old_ior_optab[NUM_MACHINE_MODES];
649
extern enum insn_code sync_old_and_optab[NUM_MACHINE_MODES];
650
extern enum insn_code sync_old_xor_optab[NUM_MACHINE_MODES];
651
extern enum insn_code sync_old_nand_optab[NUM_MACHINE_MODES];
652
 
653
/* This third set is atomic operations in which we return the value
654
   that resulted after performing the operation.  */
655
extern enum insn_code sync_new_add_optab[NUM_MACHINE_MODES];
656
extern enum insn_code sync_new_sub_optab[NUM_MACHINE_MODES];
657
extern enum insn_code sync_new_ior_optab[NUM_MACHINE_MODES];
658
extern enum insn_code sync_new_and_optab[NUM_MACHINE_MODES];
659
extern enum insn_code sync_new_xor_optab[NUM_MACHINE_MODES];
660
extern enum insn_code sync_new_nand_optab[NUM_MACHINE_MODES];
661
 
662
/* Atomic compare and swap.  */
663
extern enum insn_code sync_compare_and_swap[NUM_MACHINE_MODES];
664
 
665
/* Atomic exchange with acquire semantics.  */
666
extern enum insn_code sync_lock_test_and_set[NUM_MACHINE_MODES];
667
 
668
/* Atomic clear with release semantics.  */
669
extern enum insn_code sync_lock_release[NUM_MACHINE_MODES];
670
 
671
/* Define functions given in optabs.c.  */
672
 
673
extern rtx expand_widen_pattern_expr (sepops ops, rtx op0, rtx op1, rtx wide_op,
674
                                      rtx target, int unsignedp);
675
 
676
extern rtx expand_ternary_op (enum machine_mode mode, optab ternary_optab,
677
                              rtx op0, rtx op1, rtx op2, rtx target,
678
                              int unsignedp);
679
 
680
/* Expand a binary operation given optab and rtx operands.  */
681
extern rtx expand_binop (enum machine_mode, optab, rtx, rtx, rtx, int,
682
                         enum optab_methods);
683
 
684
extern bool force_expand_binop (enum machine_mode, optab, rtx, rtx, rtx, int,
685
                                enum optab_methods);
686
 
687
/* Expand a binary operation with both signed and unsigned forms.  */
688
extern rtx sign_expand_binop (enum machine_mode, optab, optab, rtx, rtx,
689
                              rtx, int, enum optab_methods);
690
 
691
/* Generate code to perform an operation on one operand with two results.  */
692
extern int expand_twoval_unop (optab, rtx, rtx, rtx, int);
693
 
694
/* Generate code to perform an operation on two operands with two results.  */
695
extern int expand_twoval_binop (optab, rtx, rtx, rtx, rtx, int);
696
 
697
/* Generate code to perform an operation on two operands with two
698
   results, using a library function.  */
699
extern bool expand_twoval_binop_libfunc (optab, rtx, rtx, rtx, rtx,
700
                                         enum rtx_code);
701
 
702
/* Expand a unary arithmetic operation given optab rtx operand.  */
703
extern rtx expand_unop (enum machine_mode, optab, rtx, rtx, int);
704
 
705
/* Expand the absolute value operation.  */
706
extern rtx expand_abs_nojump (enum machine_mode, rtx, rtx, int);
707
extern rtx expand_abs (enum machine_mode, rtx, rtx, int, int);
708
 
709
/* Expand the one's complement absolute value operation.  */
710
extern rtx expand_one_cmpl_abs_nojump (enum machine_mode, rtx, rtx);
711
 
712
/* Expand the copysign operation.  */
713
extern rtx expand_copysign (rtx, rtx, rtx);
714
 
715
/* Generate an instruction with a given INSN_CODE with an output and
716
   an input.  */
717
extern void emit_unop_insn (int, rtx, rtx, enum rtx_code);
718
extern bool maybe_emit_unop_insn (int, rtx, rtx, enum rtx_code);
719
 
720
/* An extra flag to control optab_for_tree_code's behavior.  This is needed to
721
   distinguish between machines with a vector shift that takes a scalar for the
722
   shift amount vs. machines that take a vector for the shift amount.  */
723
enum optab_subtype
724
{
725
  optab_default,
726
  optab_scalar,
727
  optab_vector
728
};
729
 
730
/* Return the optab used for computing the given operation on the type given by
731
   the second argument.  The third argument distinguishes between the types of
732
   vector shifts and rotates */
733
extern optab optab_for_tree_code (enum tree_code, const_tree, enum optab_subtype);
734
 
735
/* The various uses that a comparison can have; used by can_compare_p:
736
   jumps, conditional moves, store flag operations.  */
737
enum can_compare_purpose
738
{
739
  ccp_jump,
740
  ccp_cmov,
741
  ccp_store_flag
742
};
743
 
744
/* Nonzero if a compare of mode MODE can be done straightforwardly
745
   (without splitting it into pieces).  */
746
extern int can_compare_p (enum rtx_code, enum machine_mode,
747
                          enum can_compare_purpose);
748
 
749
/* Return the INSN_CODE to use for an extend operation.  */
750
extern enum insn_code can_extend_p (enum machine_mode, enum machine_mode, int);
751
 
752
/* Generate the body of an insn to extend Y (with mode MFROM)
753
   into X (with mode MTO).  Do zero-extension if UNSIGNEDP is nonzero.  */
754
extern rtx gen_extend_insn (rtx, rtx, enum machine_mode,
755
                            enum machine_mode, int);
756
 
757
/* Call this to reset the function entry for one optab.  */
758
extern void set_optab_libfunc (optab, enum machine_mode, const char *);
759
extern void set_conv_libfunc (convert_optab, enum machine_mode,
760
                              enum machine_mode, const char *);
761
 
762
/* Generate code for a FIXED_CONVERT_EXPR.  */
763
extern void expand_fixed_convert (rtx, rtx, int, int);
764
 
765
/* Generate code for a FLOAT_EXPR.  */
766
extern void expand_float (rtx, rtx, int);
767
 
768
/* Generate code for a FIX_EXPR.  */
769
extern void expand_fix (rtx, rtx, int);
770
 
771
/* Generate code for float to integral conversion.  */
772
extern bool expand_sfix_optab (rtx, rtx, convert_optab);
773
 
774
/* Return tree if target supports vector operations for COND_EXPR.  */
775
bool expand_vec_cond_expr_p (tree, enum machine_mode);
776
 
777
/* Generate code for VEC_COND_EXPR.  */
778
extern rtx expand_vec_cond_expr (tree, tree, tree, tree, rtx);
779
/* Generate code for VEC_LSHIFT_EXPR and VEC_RSHIFT_EXPR.  */
780
extern rtx expand_vec_shift_expr (sepops, rtx);
781
 
782
#define optab_handler(optab,mode) (&(optab)->handlers[(int) (mode)])
783
#define convert_optab_handler(optab,mode,mode2) \
784
        (&(optab)->handlers[(int) (mode)][(int) (mode2)])
785
 
786
extern rtx optab_libfunc (optab optab, enum machine_mode mode);
787
extern rtx convert_optab_libfunc (convert_optab optab, enum machine_mode mode1,
788
                                  enum machine_mode mode2);
789
#endif /* GCC_OPTABS_H */

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