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Fix ICE in tree-chkp-opt.c (PR tree-optimization/79631).
[thirdparty/gcc.git] / gcc / config / aarch64 / iterators.md
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43e9d192 1;; Machine description for AArch64 architecture.
cbe34bb5 2;; Copyright (C) 2009-2017 Free Software Foundation, Inc.
43e9d192
IB		 3;; Contributed by ARM Ltd.
4;;
5;; This file is part of GCC.
6;;
7;; GCC is free software; you can redistribute it and/or modify it
8;; 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, but
13;; WITHOUT ANY WARRANTY; without even the implied warranty of
14;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15;; 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;; -------------------------------------------------------------------
22;; Mode Iterators
23;; -------------------------------------------------------------------
24
25
26;; Iterator for General Purpose Integer registers (32- and 64-bit modes)
27(define_mode_iterator GPI [SI DI])
28
d7f33f07
JW		 29;; Iterator for HI, SI, DI, some instructions can only work on these modes.
30(define_mode_iterator GPI_I16 [(HI "AARCH64_ISA_F16") SI DI])
31
43e9d192
IB		 32;; Iterator for QI and HI modes
33(define_mode_iterator SHORT [QI HI])
34
35;; Iterator for all integer modes (up to 64-bit)
36(define_mode_iterator ALLI [QI HI SI DI])
37
43e9d192
IB		 38;; Iterator for all integer modes that can be extended (up to 64-bit)
39(define_mode_iterator ALLX [QI HI SI])
40
41;; Iterator for General Purpose Floating-point registers (32- and 64-bit modes)
42(define_mode_iterator GPF [SF DF])
43
d7f33f07
JW		 44;; Iterator for all scalar floating point modes (HF, SF, DF)
45(define_mode_iterator GPF_F16 [(HF "AARCH64_ISA_F16") SF DF])
46
09fcd8e1
RR		 47;; Iterator for all scalar floating point modes (HF, SF, DF and TF)
48(define_mode_iterator GPF_TF_F16 [HF SF DF TF])
c2ec330c 49
922f9c25
AL		 50;; Double vector modes.
51(define_mode_iterator VDF [V2SF V4HF])
52
b4f50fd4
RR		 53;; Iterator for all scalar floating point modes (SF, DF and TF)
54(define_mode_iterator GPF_TF [SF DF TF])
55
43e9d192
IB		 56;; Integer vector modes.
57(define_mode_iterator VDQ_I [V8QI V16QI V4HI V8HI V2SI V4SI V2DI])
58
59;; vector and scalar, 64 & 128-bit container, all integer modes
60(define_mode_iterator VSDQ_I [V8QI V16QI V4HI V8HI V2SI V4SI V2DI QI HI SI DI])
61
62;; vector and scalar, 64 & 128-bit container: all vector integer modes;
63;; 64-bit scalar integer mode
64(define_mode_iterator VSDQ_I_DI [V8QI V16QI V4HI V8HI V2SI V4SI V2DI DI])
65
66;; Double vector modes.
71a11456 67(define_mode_iterator VD [V8QI V4HI V4HF V2SI V2SF])
43e9d192
IB		 68
69;; vector, 64-bit container, all integer modes
70(define_mode_iterator VD_BHSI [V8QI V4HI V2SI])
71
72;; 128 and 64-bit container; 8, 16, 32-bit vector integer modes
73(define_mode_iterator VDQ_BHSI [V8QI V16QI V4HI V8HI V2SI V4SI])
74
75;; Quad vector modes.
71a11456 76(define_mode_iterator VQ [V16QI V8HI V4SI V2DI V8HF V4SF V2DF])
43e9d192 77
51437269 78;; VQ without 2 element modes.
71a11456 79(define_mode_iterator VQ_NO2E [V16QI V8HI V4SI V8HF V4SF])
51437269
GW		 80
81;; Quad vector with only 2 element modes.
82(define_mode_iterator VQ_2E [V2DI V2DF])
83
28514dda
YZ		 84;; This mode iterator allows :P to be used for patterns that operate on
85;; addresses in different modes. In LP64, only DI will match, while in
86;; ILP32, either can match.
87(define_mode_iterator P [(SI "ptr_mode == SImode || Pmode == SImode")
88 (DI "ptr_mode == DImode || Pmode == DImode")])
89
43e9d192
IB		 90;; This mode iterator allows :PTR to be used for patterns that operate on
91;; pointer-sized quantities. Exactly one of the two alternatives will match.
28514dda 92(define_mode_iterator PTR [(SI "ptr_mode == SImode") (DI "ptr_mode == DImode")])
43e9d192 93
862abc04
AL		 94;; Vector Float modes suitable for moving, loading and storing.
95(define_mode_iterator VDQF_F16 [V4HF V8HF V2SF V4SF V2DF])
96
daef0a8c 97;; Vector Float modes.
43e9d192 98(define_mode_iterator VDQF [V2SF V4SF V2DF])
daef0a8c
JW		 99(define_mode_iterator VHSDF [(V4HF "TARGET_SIMD_F16INST")
100 (V8HF "TARGET_SIMD_F16INST")
101 V2SF V4SF V2DF])
43e9d192 102
f421c516
JG		 103;; Vector Float modes, and DF.
104(define_mode_iterator VDQF_DF [V2SF V4SF V2DF DF])
daef0a8c
JW		 105(define_mode_iterator VHSDF_DF [(V4HF "TARGET_SIMD_F16INST")
106 (V8HF "TARGET_SIMD_F16INST")
107 V2SF V4SF V2DF DF])
d7f33f07
JW		 108(define_mode_iterator VHSDF_HSDF [(V4HF "TARGET_SIMD_F16INST")
109 (V8HF "TARGET_SIMD_F16INST")
110 V2SF V4SF V2DF
111 (HF "TARGET_SIMD_F16INST")
112 SF DF])
f421c516 113
828e70c1
JG		 114;; Vector single Float modes.
115(define_mode_iterator VDQSF [V2SF V4SF])
116
03873eb9
AL		 117;; Quad vector Float modes with half/single elements.
118(define_mode_iterator VQ_HSF [V8HF V4SF])
119
fc21784d
JG		 120;; Modes suitable to use as the return type of a vcond expression.
121(define_mode_iterator VDQF_COND [V2SF V2SI V4SF V4SI V2DF V2DI])
122
889b9412
JG		 123;; All Float modes.
124(define_mode_iterator VALLF [V2SF V4SF V2DF SF DF])
125
43e9d192
IB		 126;; Vector Float modes with 2 elements.
127(define_mode_iterator V2F [V2SF V2DF])
128
71a11456 129;; All vector modes on which we support any arithmetic operations.
43e9d192
IB		 130(define_mode_iterator VALL [V8QI V16QI V4HI V8HI V2SI V4SI V2DI V2SF V4SF V2DF])
131
71a11456
AL		 132;; All vector modes suitable for moving, loading, and storing.
133(define_mode_iterator VALL_F16 [V8QI V16QI V4HI V8HI V2SI V4SI V2DI
134 V4HF V8HF V2SF V4SF V2DF])
135
136;; All vector modes barring HF modes, plus DI.
a50344cb
TB		 137(define_mode_iterator VALLDI [V8QI V16QI V4HI V8HI V2SI V4SI V2DI V2SF V4SF V2DF DI])
138
71a11456
AL		 139;; All vector modes and DI.
140(define_mode_iterator VALLDI_F16 [V8QI V16QI V4HI V8HI V2SI V4SI V2DI
141 V4HF V8HF V2SF V4SF V2DF DI])
142
7c369485 143;; All vector modes, plus DI and DF.
46e778c4 144(define_mode_iterator VALLDIF [V8QI V16QI V4HI V8HI V2SI V4SI
7c369485 145 V2DI V4HF V8HF V2SF V4SF V2DF DI DF])
46e778c4 146
43e9d192 147;; Vector modes for Integer reduction across lanes.
92835317
TB		 148(define_mode_iterator VDQV [V8QI V16QI V4HI V8HI V4SI V2DI])
149
150;; Vector modes(except V2DI) for Integer reduction across lanes.
151(define_mode_iterator VDQV_S [V8QI V16QI V4HI V8HI V4SI])
43e9d192
IB		 152
153;; All double integer narrow-able modes.
154(define_mode_iterator VDN [V4HI V2SI DI])
155
156;; All quad integer narrow-able modes.
157(define_mode_iterator VQN [V8HI V4SI V2DI])
158
43e9d192
IB		 159;; Vector and scalar 128-bit container: narrowable 16, 32, 64-bit integer modes
160(define_mode_iterator VSQN_HSDI [V8HI V4SI V2DI HI SI DI])
161
162;; All quad integer widen-able modes.
163(define_mode_iterator VQW [V16QI V8HI V4SI])
164
165;; Double vector modes for combines.
7c369485 166(define_mode_iterator VDC [V8QI V4HI V4HF V2SI V2SF DI DF])
43e9d192 167
43e9d192
IB		 168;; Vector modes except double int.
169(define_mode_iterator VDQIF [V8QI V16QI V4HI V8HI V2SI V4SI V2SF V4SF V2DF])
703bbcdf
JW		 170(define_mode_iterator VDQIF_F16 [V8QI V16QI V4HI V8HI V2SI V4SI
171 V4HF V8HF V2SF V4SF V2DF])
43e9d192 172
58a3bd25
FY		 173;; Vector modes for S type.
174(define_mode_iterator VDQ_SI [V2SI V4SI])
175
2644d4d9
JW		 176;; Vector modes for S and D
177(define_mode_iterator VDQ_SDI [V2SI V4SI V2DI])
178
33d72b63
JW		 179;; Vector modes for H, S and D
180(define_mode_iterator VDQ_HSDI [(V4HI "TARGET_SIMD_F16INST")
181 (V8HI "TARGET_SIMD_F16INST")
182 V2SI V4SI V2DI])
183
2644d4d9
JW		 184;; Scalar and Vector modes for S and D
185(define_mode_iterator VSDQ_SDI [V2SI V4SI V2DI SI DI])
186
33d72b63
JW		 187;; Scalar and Vector modes for S and D, Vector modes for H.
188(define_mode_iterator VSDQ_HSDI [(V4HI "TARGET_SIMD_F16INST")
189 (V8HI "TARGET_SIMD_F16INST")
68ad28c3
JW		 190 V2SI V4SI V2DI
191 (HI "TARGET_SIMD_F16INST")
192 SI DI])
33d72b63 193
66adb8eb
JG		 194;; Vector modes for Q and H types.
195(define_mode_iterator VDQQH [V8QI V16QI V4HI V8HI])
196
43e9d192
IB		 197;; Vector modes for H and S types.
198(define_mode_iterator VDQHS [V4HI V8HI V2SI V4SI])
199
c7f28cd5
KT		 200;; Vector modes for H, S and D types.
201(define_mode_iterator VDQHSD [V4HI V8HI V2SI V4SI V2DI])
202
43e9d192
IB		 203;; Vector and scalar integer modes for H and S
204(define_mode_iterator VSDQ_HSI [V4HI V8HI V2SI V4SI HI SI])
205
206;; Vector and scalar 64-bit container: 16, 32-bit integer modes
207(define_mode_iterator VSD_HSI [V4HI V2SI HI SI])
208
209;; Vector 64-bit container: 16, 32-bit integer modes
210(define_mode_iterator VD_HSI [V4HI V2SI])
211
212;; Scalar 64-bit container: 16, 32-bit integer modes
213(define_mode_iterator SD_HSI [HI SI])
214
215;; Vector 64-bit container: 16, 32-bit integer modes
216(define_mode_iterator VQ_HSI [V8HI V4SI])
217
218;; All byte modes.
219(define_mode_iterator VB [V8QI V16QI])
220
5e32e83b
JW		 221;; 2 and 4 lane SI modes.
222(define_mode_iterator VS [V2SI V4SI])
223
43e9d192
IB		 224(define_mode_iterator TX [TI TF])
225
226;; Opaque structure modes.
227(define_mode_iterator VSTRUCT [OI CI XI])
228
229;; Double scalar modes
230(define_mode_iterator DX [DI DF])
231
779aea46 232;; Modes available for <f>mul lane operations.
ab2e8f01
JW		 233(define_mode_iterator VMUL [V4HI V8HI V2SI V4SI
234 (V4HF "TARGET_SIMD_F16INST")
235 (V8HF "TARGET_SIMD_F16INST")
236 V2SF V4SF V2DF])
779aea46
JG		 237
238;; Modes available for <f>mul lane operations changing lane count.
239(define_mode_iterator VMUL_CHANGE_NLANES [V4HI V8HI V2SI V4SI V2SF V4SF])
240
43e9d192
IB		 241;; ------------------------------------------------------------------
242;; Unspec enumerations for Advance SIMD. These could well go into
243;; aarch64.md but for their use in int_iterators here.
244;; ------------------------------------------------------------------
245
246(define_c_enum "unspec"
247 [
248 UNSPEC_ASHIFT_SIGNED ; Used in aarch-simd.md.
249 UNSPEC_ASHIFT_UNSIGNED ; Used in aarch64-simd.md.
285398d2 250 UNSPEC_ABS ; Used in aarch64-simd.md.
998eaf97
JG		 251 UNSPEC_FMAX ; Used in aarch64-simd.md.
252 UNSPEC_FMAXNMV ; Used in aarch64-simd.md.
43e9d192 253 UNSPEC_FMAXV ; Used in aarch64-simd.md.
998eaf97
JG		 254 UNSPEC_FMIN ; Used in aarch64-simd.md.
255 UNSPEC_FMINNMV ; Used in aarch64-simd.md.
43e9d192
IB		 256 UNSPEC_FMINV ; Used in aarch64-simd.md.
257 UNSPEC_FADDV ; Used in aarch64-simd.md.
f5156c3e 258 UNSPEC_ADDV ; Used in aarch64-simd.md.
43e9d192
IB		 259 UNSPEC_SMAXV ; Used in aarch64-simd.md.
260 UNSPEC_SMINV ; Used in aarch64-simd.md.
261 UNSPEC_UMAXV ; Used in aarch64-simd.md.
262 UNSPEC_UMINV ; Used in aarch64-simd.md.
263 UNSPEC_SHADD ; Used in aarch64-simd.md.
264 UNSPEC_UHADD ; Used in aarch64-simd.md.
265 UNSPEC_SRHADD ; Used in aarch64-simd.md.
266 UNSPEC_URHADD ; Used in aarch64-simd.md.
267 UNSPEC_SHSUB ; Used in aarch64-simd.md.
268 UNSPEC_UHSUB ; Used in aarch64-simd.md.
269 UNSPEC_SRHSUB ; Used in aarch64-simd.md.
270 UNSPEC_URHSUB ; Used in aarch64-simd.md.
271 UNSPEC_ADDHN ; Used in aarch64-simd.md.
272 UNSPEC_RADDHN ; Used in aarch64-simd.md.
273 UNSPEC_SUBHN ; Used in aarch64-simd.md.
274 UNSPEC_RSUBHN ; Used in aarch64-simd.md.
275 UNSPEC_ADDHN2 ; Used in aarch64-simd.md.
276 UNSPEC_RADDHN2 ; Used in aarch64-simd.md.
277 UNSPEC_SUBHN2 ; Used in aarch64-simd.md.
278 UNSPEC_RSUBHN2 ; Used in aarch64-simd.md.
279 UNSPEC_SQDMULH ; Used in aarch64-simd.md.
280 UNSPEC_SQRDMULH ; Used in aarch64-simd.md.
281 UNSPEC_PMUL ; Used in aarch64-simd.md.
496ea87d 282 UNSPEC_FMULX ; Used in aarch64-simd.md.
43e9d192
IB		 283 UNSPEC_USQADD ; Used in aarch64-simd.md.
284 UNSPEC_SUQADD ; Used in aarch64-simd.md.
285 UNSPEC_SQXTUN ; Used in aarch64-simd.md.
286 UNSPEC_SQXTN ; Used in aarch64-simd.md.
287 UNSPEC_UQXTN ; Used in aarch64-simd.md.
288 UNSPEC_SSRA ; Used in aarch64-simd.md.
289 UNSPEC_USRA ; Used in aarch64-simd.md.
290 UNSPEC_SRSRA ; Used in aarch64-simd.md.
291 UNSPEC_URSRA ; Used in aarch64-simd.md.
292 UNSPEC_SRSHR ; Used in aarch64-simd.md.
293 UNSPEC_URSHR ; Used in aarch64-simd.md.
294 UNSPEC_SQSHLU ; Used in aarch64-simd.md.
295 UNSPEC_SQSHL ; Used in aarch64-simd.md.
296 UNSPEC_UQSHL ; Used in aarch64-simd.md.
297 UNSPEC_SQSHRUN ; Used in aarch64-simd.md.
298 UNSPEC_SQRSHRUN ; Used in aarch64-simd.md.
299 UNSPEC_SQSHRN ; Used in aarch64-simd.md.
300 UNSPEC_UQSHRN ; Used in aarch64-simd.md.
301 UNSPEC_SQRSHRN ; Used in aarch64-simd.md.
302 UNSPEC_UQRSHRN ; Used in aarch64-simd.md.
303 UNSPEC_SSHL ; Used in aarch64-simd.md.
304 UNSPEC_USHL ; Used in aarch64-simd.md.
305 UNSPEC_SRSHL ; Used in aarch64-simd.md.
306 UNSPEC_URSHL ; Used in aarch64-simd.md.
307 UNSPEC_SQRSHL ; Used in aarch64-simd.md.
308 UNSPEC_UQRSHL ; Used in aarch64-simd.md.
43e9d192
IB		 309 UNSPEC_SSLI ; Used in aarch64-simd.md.
310 UNSPEC_USLI ; Used in aarch64-simd.md.
311 UNSPEC_SSRI ; Used in aarch64-simd.md.
312 UNSPEC_USRI ; Used in aarch64-simd.md.
313 UNSPEC_SSHLL ; Used in aarch64-simd.md.
314 UNSPEC_USHLL ; Used in aarch64-simd.md.
315 UNSPEC_ADDP ; Used in aarch64-simd.md.
88b08073 316 UNSPEC_TBL ; Used in vector permute patterns.
9371aecc 317 UNSPEC_TBX ; Used in vector permute patterns.
88b08073 318 UNSPEC_CONCAT ; Used in vector permute patterns.
cc4d934f
JG		 319 UNSPEC_ZIP1 ; Used in vector permute patterns.
320 UNSPEC_ZIP2 ; Used in vector permute patterns.
321 UNSPEC_UZP1 ; Used in vector permute patterns.
322 UNSPEC_UZP2 ; Used in vector permute patterns.
323 UNSPEC_TRN1 ; Used in vector permute patterns.
324 UNSPEC_TRN2 ; Used in vector permute patterns.
ae0533da 325 UNSPEC_EXT ; Used in aarch64-simd.md.
923fcec3
AL		 326 UNSPEC_REV64 ; Used in vector reverse patterns (permute).
327 UNSPEC_REV32 ; Used in vector reverse patterns (permute).
328 UNSPEC_REV16 ; Used in vector reverse patterns (permute).
5a7a4e80
TB		 329 UNSPEC_AESE ; Used in aarch64-simd.md.
330 UNSPEC_AESD ; Used in aarch64-simd.md.
331 UNSPEC_AESMC ; Used in aarch64-simd.md.
332 UNSPEC_AESIMC ; Used in aarch64-simd.md.
30442682
TB		 333 UNSPEC_SHA1C ; Used in aarch64-simd.md.
334 UNSPEC_SHA1M ; Used in aarch64-simd.md.
335 UNSPEC_SHA1P ; Used in aarch64-simd.md.
336 UNSPEC_SHA1H ; Used in aarch64-simd.md.
337 UNSPEC_SHA1SU0 ; Used in aarch64-simd.md.
338 UNSPEC_SHA1SU1 ; Used in aarch64-simd.md.
b9cb0a44
TB		 339 UNSPEC_SHA256H ; Used in aarch64-simd.md.
340 UNSPEC_SHA256H2 ; Used in aarch64-simd.md.
341 UNSPEC_SHA256SU0 ; Used in aarch64-simd.md.
342 UNSPEC_SHA256SU1 ; Used in aarch64-simd.md.
7baa225d
TB		 343 UNSPEC_PMULL ; Used in aarch64-simd.md.
344 UNSPEC_PMULL2 ; Used in aarch64-simd.md.
668046d1 345 UNSPEC_REV_REGLIST ; Used in aarch64-simd.md.
9c004c58 346 UNSPEC_VEC_SHR ; Used in aarch64-simd.md.
57b26d65
MW		 347 UNSPEC_SQRDMLAH ; Used in aarch64-simd.md.
348 UNSPEC_SQRDMLSH ; Used in aarch64-simd.md.
202d0c11
DS		 349 UNSPEC_FMAXNM ; Used in aarch64-simd.md.
350 UNSPEC_FMINNM ; Used in aarch64-simd.md.
43e9d192
IB		 351])
352
d81cb613
MW		 353;; ------------------------------------------------------------------
354;; Unspec enumerations for Atomics. They are here so that they can be
355;; used in the int_iterators for atomic operations.
356;; ------------------------------------------------------------------
357
358(define_c_enum "unspecv"
359 [
360 UNSPECV_LX ; Represent a load-exclusive.
361 UNSPECV_SX ; Represent a store-exclusive.
362 UNSPECV_LDA ; Represent an atomic load or load-acquire.
363 UNSPECV_STL ; Represent an atomic store or store-release.
364 UNSPECV_ATOMIC_CMPSW ; Represent an atomic compare swap.
365 UNSPECV_ATOMIC_EXCHG ; Represent an atomic exchange.
366 UNSPECV_ATOMIC_CAS ; Represent an atomic CAS.
367 UNSPECV_ATOMIC_SWP ; Represent an atomic SWP.
368 UNSPECV_ATOMIC_OP ; Represent an atomic operation.
369 UNSPECV_ATOMIC_LDOP ; Represent an atomic load-operation
370 UNSPECV_ATOMIC_LDOP_OR ; Represent an atomic load-or
371 UNSPECV_ATOMIC_LDOP_BIC ; Represent an atomic load-bic
372 UNSPECV_ATOMIC_LDOP_XOR ; Represent an atomic load-xor
373 UNSPECV_ATOMIC_LDOP_PLUS ; Represent an atomic load-add
374])
375
43e9d192
IB		 376;; -------------------------------------------------------------------
377;; Mode attributes
378;; -------------------------------------------------------------------
379
380;; In GPI templates, a string like "%<w>0" will expand to "%w0" in the
381;; 32-bit version and "%x0" in the 64-bit version.
382(define_mode_attr w [(QI "w") (HI "w") (SI "w") (DI "x") (SF "s") (DF "d")])
383
0d35c5c2 384;; For inequal width int to float conversion
d7f33f07
JW		 385(define_mode_attr w1 [(HF "w") (SF "w") (DF "x")])
386(define_mode_attr w2 [(HF "x") (SF "x") (DF "w")])
0d35c5c2 387
2b8568fe
KT		 388(define_mode_attr short_mask [(HI "65535") (QI "255")])
389
051d0e2f
SN		 390;; For constraints used in scalar immediate vector moves
391(define_mode_attr hq [(HI "h") (QI "q")])
392
ef22810a
RH		 393;; For doubling width of an integer mode
394(define_mode_attr DWI [(QI "HI") (HI "SI") (SI "DI") (DI "TI")])
395
43e9d192
IB		 396;; For scalar usage of vector/FP registers
397(define_mode_attr v [(QI "b") (HI "h") (SI "s") (DI "d")
d7f33f07 398 (HF "h") (SF "s") (DF "d")
43e9d192
IB		 399 (V8QI "") (V16QI "")
400 (V4HI "") (V8HI "")
401 (V2SI "") (V4SI "")
402 (V2DI "") (V2SF "")
daef0a8c
JW		 403 (V4SF "") (V4HF "")
404 (V8HF "") (V2DF "")])
43e9d192
IB		 405
406;; For scalar usage of vector/FP registers, narrowing
407(define_mode_attr vn2 [(QI "") (HI "b") (SI "h") (DI "s")
408 (V8QI "") (V16QI "")
409 (V4HI "") (V8HI "")
410 (V2SI "") (V4SI "")
411 (V2DI "") (V2SF "")
412 (V4SF "") (V2DF "")])
413
414;; For scalar usage of vector/FP registers, widening
415(define_mode_attr vw2 [(DI "") (QI "h") (HI "s") (SI "d")
416 (V8QI "") (V16QI "")
417 (V4HI "") (V8HI "")
418 (V2SI "") (V4SI "")
419 (V2DI "") (V2SF "")
420 (V4SF "") (V2DF "")])
421
89fdc743
IB		 422;; Register Type Name and Vector Arrangement Specifier for when
423;; we are doing scalar for DI and SIMD for SI (ignoring all but
424;; lane 0).
425(define_mode_attr rtn [(DI "d") (SI "")])
426(define_mode_attr vas [(DI "") (SI ".2s")])
427
43e9d192 428;; Map a floating point mode to the appropriate register name prefix
d7f33f07 429(define_mode_attr s [(HF "h") (SF "s") (DF "d")])
43e9d192
IB		 430
431;; Give the length suffix letter for a sign- or zero-extension.
432(define_mode_attr size [(QI "b") (HI "h") (SI "w")])
433
434;; Give the number of bits in the mode
435(define_mode_attr sizen [(QI "8") (HI "16") (SI "32") (DI "64")])
436
437;; Give the ordinal of the MSB in the mode
438(define_mode_attr sizem1 [(QI "#7") (HI "#15") (SI "#31") (DI "#63")])
439
440;; Attribute to describe constants acceptable in logical operations
441(define_mode_attr lconst [(SI "K") (DI "L")])
442
43fd192f
MC		 443;; Attribute to describe constants acceptable in logical and operations
444(define_mode_attr lconst2 [(SI "UsO") (DI "UsP")])
445
43e9d192
IB		 446;; Map a mode to a specific constraint character.
447(define_mode_attr cmode [(QI "q") (HI "h") (SI "s") (DI "d")])
448
449(define_mode_attr Vtype [(V8QI "8b") (V16QI "16b")
450 (V4HI "4h") (V8HI "8h")
451 (V2SI "2s") (V4SI "4s")
452 (DI "1d") (DF "1d")
453 (V2DI "2d") (V2SF "2s")
7c369485
AL		 454 (V4SF "4s") (V2DF "2d")
455 (V4HF "4h") (V8HF "8h")])
43e9d192 456
c7f28cd5
KT		 457(define_mode_attr Vrevsuff [(V4HI "16") (V8HI "16") (V2SI "32")
458 (V4SI "32") (V2DI "64")])
459
43e9d192
IB		 460(define_mode_attr Vmtype [(V8QI ".8b") (V16QI ".16b")
461 (V4HI ".4h") (V8HI ".8h")
462 (V2SI ".2s") (V4SI ".4s")
71a11456
AL		 463 (V2DI ".2d") (V4HF ".4h")
464 (V8HF ".8h") (V2SF ".2s")
43e9d192
IB		 465 (V4SF ".4s") (V2DF ".2d")
466 (DI "") (SI "")
467 (HI "") (QI "")
d7f33f07
JW		 468 (TI "") (HF "")
469 (SF "") (DF "")])
43e9d192
IB		 470
471;; Register suffix narrowed modes for VQN.
472(define_mode_attr Vmntype [(V8HI ".8b") (V4SI ".4h")
473 (V2DI ".2s")
474 (DI "") (SI "")
475 (HI "")])
476
477;; Mode-to-individual element type mapping.
478(define_mode_attr Vetype [(V8QI "b") (V16QI "b")
479 (V4HI "h") (V8HI "h")
480 (V2SI "s") (V4SI "s")
7c369485
AL		 481 (V2DI "d") (V4HF "h")
482 (V8HF "h") (V2SF "s")
43e9d192 483 (V4SF "s") (V2DF "d")
d7f33f07 484 (HF "h")
0f686aa9 485 (SF "s") (DF "d")
43e9d192
IB		 486 (QI "b") (HI "h")
487 (SI "s") (DI "d")])
488
daef0a8c
JW		 489;; Vetype is used everywhere in scheduling type and assembly output,
490;; sometimes they are not the same, for example HF modes on some
491;; instructions. stype is defined to represent scheduling type
492;; more accurately.
493(define_mode_attr stype [(V8QI "b") (V16QI "b") (V4HI "s") (V8HI "s")
494 (V2SI "s") (V4SI "s") (V2DI "d") (V4HF "s")
495 (V8HF "s") (V2SF "s") (V4SF "s") (V2DF "d")
496 (HF "s") (SF "s") (DF "d") (QI "b") (HI "s")
497 (SI "s") (DI "d")])
498
43e9d192
IB		 499;; Mode-to-bitwise operation type mapping.
500(define_mode_attr Vbtype [(V8QI "8b") (V16QI "16b")
501 (V4HI "8b") (V8HI "16b")
502 (V2SI "8b") (V4SI "16b")
7c369485
AL		 503 (V2DI "16b") (V4HF "8b")
504 (V8HF "16b") (V2SF "8b")
46e778c4 505 (V4SF "16b") (V2DF "16b")
fe82d1f2
AL		 506 (DI "8b") (DF "8b")
507 (SI "8b")])
43e9d192
IB		 508
509;; Define element mode for each vector mode.
510(define_mode_attr VEL [(V8QI "QI") (V16QI "QI")
511 (V4HI "HI") (V8HI "HI")
512 (V2SI "SI") (V4SI "SI")
513 (DI "DI") (V2DI "DI")
71a11456 514 (V4HF "HF") (V8HF "HF")
43e9d192 515 (V2SF "SF") (V4SF "SF")
779aea46 516 (V2DF "DF") (DF "DF")
43e9d192
IB		 517 (SI "SI") (HI "HI")
518 (QI "QI")])
519
278821f2
KT		 520;; 64-bit container modes the inner or scalar source mode.
521(define_mode_attr VCOND [(HI "V4HI") (SI "V2SI")
522 (V4HI "V4HI") (V8HI "V4HI")
b7d7d917
TB		 523 (V2SI "V2SI") (V4SI "V2SI")
524 (DI "DI") (V2DI "DI")
525 (V2SF "V2SF") (V4SF "V2SF")
526 (V2DF "DF")])
527
278821f2 528;; 128-bit container modes the inner or scalar source mode.
b7d7d917
TB		 529(define_mode_attr VCONQ [(V8QI "V16QI") (V16QI "V16QI")
530 (V4HI "V8HI") (V8HI "V8HI")
531 (V2SI "V4SI") (V4SI "V4SI")
532 (DI "V2DI") (V2DI "V2DI")
71a11456 533 (V4HF "V8HF") (V8HF "V8HF")
b7d7d917
TB		 534 (V2SF "V2SF") (V4SF "V4SF")
535 (V2DF "V2DF") (SI "V4SI")
536 (HI "V8HI") (QI "V16QI")])
537
43e9d192
IB		 538;; Half modes of all vector modes.
539(define_mode_attr VHALF [(V8QI "V4QI") (V16QI "V8QI")
540 (V4HI "V2HI") (V8HI "V4HI")
541 (V2SI "SI") (V4SI "V2SI")
542 (V2DI "DI") (V2SF "SF")
71a11456
AL		 543 (V4SF "V2SF") (V4HF "V2HF")
544 (V8HF "V4HF") (V2DF "DF")])
43e9d192 545
b1b49824
MC		 546;; Half modes of all vector modes, in lower-case.
547(define_mode_attr Vhalf [(V8QI "v4qi") (V16QI "v8qi")
548 (V4HI "v2hi") (V8HI "v4hi")
549 (V2SI "si") (V4SI "v2si")
550 (V2DI "di") (V2SF "sf")
551 (V4SF "v2sf") (V2DF "df")])
552
43e9d192
IB		 553;; Double modes of vector modes.
554(define_mode_attr VDBL [(V8QI "V16QI") (V4HI "V8HI")
71a11456 555 (V4HF "V8HF")
43e9d192
IB		 556 (V2SI "V4SI") (V2SF "V4SF")
557 (SI "V2SI") (DI "V2DI")
558 (DF "V2DF")])
559
922f9c25
AL		 560;; Register suffix for double-length mode.
561(define_mode_attr Vdtype [(V4HF "8h") (V2SF "4s")])
562
43e9d192
IB		 563;; Double modes of vector modes (lower case).
564(define_mode_attr Vdbl [(V8QI "v16qi") (V4HI "v8hi")
7c369485 565 (V4HF "v8hf")
43e9d192 566 (V2SI "v4si") (V2SF "v4sf")
8b033a8a
SN		 567 (SI "v2si") (DI "v2di")
568 (DF "v2df")])
43e9d192 569
b1b49824
MC		 570;; Modes with double-width elements.
571(define_mode_attr VDBLW [(V8QI "V4HI") (V16QI "V8HI")
572 (V4HI "V2SI") (V8HI "V4SI")
573 (V2SI "DI") (V4SI "V2DI")])
574
43e9d192
IB		 575;; Narrowed modes for VDN.
576(define_mode_attr VNARROWD [(V4HI "V8QI") (V2SI "V4HI")
577 (DI "V2SI")])
578
579;; Narrowed double-modes for VQN (Used for XTN).
580(define_mode_attr VNARROWQ [(V8HI "V8QI") (V4SI "V4HI")
581 (V2DI "V2SI")
582 (DI "SI") (SI "HI")
583 (HI "QI")])
584
585;; Narrowed quad-modes for VQN (Used for XTN2).
586(define_mode_attr VNARROWQ2 [(V8HI "V16QI") (V4SI "V8HI")
587 (V2DI "V4SI")])
588
589;; Register suffix narrowed modes for VQN.
590(define_mode_attr Vntype [(V8HI "8b") (V4SI "4h")
591 (V2DI "2s")])
592
593;; Register suffix narrowed modes for VQN.
594(define_mode_attr V2ntype [(V8HI "16b") (V4SI "8h")
595 (V2DI "4s")])
596
597;; Widened modes of vector modes.
598(define_mode_attr VWIDE [(V8QI "V8HI") (V4HI "V4SI")
599 (V2SI "V2DI") (V16QI "V8HI")
600 (V8HI "V4SI") (V4SI "V2DI")
922f9c25 601 (HI "SI") (SI "DI")
03873eb9 602 (V8HF "V4SF") (V4SF "V2DF")
922f9c25 603 (V4HF "V4SF") (V2SF "V2DF")]
43e9d192
IB		 604)
605
03873eb9
AL		 606;; Widened modes of vector modes, lowercase
607(define_mode_attr Vwide [(V2SF "v2df") (V4HF "v4sf")])
608
609;; Widened mode register suffixes for VD_BHSI/VQW/VQ_HSF.
43e9d192
IB		 610(define_mode_attr Vwtype [(V8QI "8h") (V4HI "4s")
611 (V2SI "2d") (V16QI "8h")
03873eb9
AL		 612 (V8HI "4s") (V4SI "2d")
613 (V8HF "4s") (V4SF "2d")])
43e9d192
IB		 614
615;; Widened mode register suffixes for VDW/VQW.
616(define_mode_attr Vmwtype [(V8QI ".8h") (V4HI ".4s")
617 (V2SI ".2d") (V16QI ".8h")
618 (V8HI ".4s") (V4SI ".2d")
922f9c25 619 (V4HF ".4s") (V2SF ".2d")
43e9d192
IB		 620 (SI "") (HI "")])
621
03873eb9 622;; Lower part register suffixes for VQW/VQ_HSF.
43e9d192 623(define_mode_attr Vhalftype [(V16QI "8b") (V8HI "4h")
03873eb9
AL		 624 (V4SI "2s") (V8HF "4h")
625 (V4SF "2s")])
43e9d192
IB		 626
627;; Define corresponding core/FP element mode for each vector mode.
628(define_mode_attr vw [(V8QI "w") (V16QI "w")
629 (V4HI "w") (V8HI "w")
630 (V2SI "w") (V4SI "w")
631 (DI "x") (V2DI "x")
632 (V2SF "s") (V4SF "s")
633 (V2DF "d")])
634
66adb8eb
JG		 635;; Corresponding core element mode for each vector mode. This is a
636;; variation on <vw> mapping FP modes to GP regs.
637(define_mode_attr vwcore [(V8QI "w") (V16QI "w")
638 (V4HI "w") (V8HI "w")
639 (V2SI "w") (V4SI "w")
640 (DI "x") (V2DI "x")
64e9a944 641 (V4HF "w") (V8HF "w")
66adb8eb
JG		 642 (V2SF "w") (V4SF "w")
643 (V2DF "x")])
644
43e9d192
IB		 645;; Double vector types for ALLX.
646(define_mode_attr Vallxd [(QI "8b") (HI "4h") (SI "2s")])
647
648;; Mode of result of comparison operations.
649(define_mode_attr V_cmp_result [(V8QI "V8QI") (V16QI "V16QI")
650 (V4HI "V4HI") (V8HI "V8HI")
651 (V2SI "V2SI") (V4SI "V4SI")
88b08073 652 (DI "DI") (V2DI "V2DI")
7c369485 653 (V4HF "V4HI") (V8HF "V8HI")
43e9d192 654 (V2SF "V2SI") (V4SF "V4SI")
889b9412 655 (V2DF "V2DI") (DF "DI")
d7f33f07 656 (SF "SI") (HF "HI")])
43e9d192 657
70c67693
JG		 658;; Lower case mode of results of comparison operations.
659(define_mode_attr v_cmp_result [(V8QI "v8qi") (V16QI "v16qi")
660 (V4HI "v4hi") (V8HI "v8hi")
661 (V2SI "v2si") (V4SI "v4si")
662 (DI "di") (V2DI "v2di")
7c369485 663 (V4HF "v4hi") (V8HF "v8hi")
70c67693 664 (V2SF "v2si") (V4SF "v4si")
889b9412
JG		 665 (V2DF "v2di") (DF "di")
666 (SF "si")])
70c67693 667
6c553b76
BC		 668;; Mode for vector conditional operations where the comparison has
669;; different type from the lhs.
670(define_mode_attr V_cmp_mixed [(V2SI "V2SF") (V4SI "V4SF")
671 (V2DI "V2DF") (V2SF "V2SI")
672 (V4SF "V4SI") (V2DF "V2DI")])
673
674(define_mode_attr v_cmp_mixed [(V2SI "v2sf") (V4SI "v4sf")
675 (V2DI "v2df") (V2SF "v2si")
676 (V4SF "v4si") (V2DF "v2di")])
677
cb23a30c
JG		 678;; Lower case element modes (as used in shift immediate patterns).
679(define_mode_attr ve_mode [(V8QI "qi") (V16QI "qi")
680 (V4HI "hi") (V8HI "hi")
681 (V2SI "si") (V4SI "si")
682 (DI "di") (V2DI "di")
683 (QI "qi") (HI "hi")
684 (SI "si")])
685
43e9d192
IB		 686;; Vm for lane instructions is restricted to FP_LO_REGS.
687(define_mode_attr vwx [(V4HI "x") (V8HI "x") (HI "x")
688 (V2SI "w") (V4SI "w") (SI "w")])
689
690(define_mode_attr Vendreg [(OI "T") (CI "U") (XI "V")])
691
97755701
AL		 692;; This is both the number of Q-Registers needed to hold the corresponding
693;; opaque large integer mode, and the number of elements touched by the
694;; ld..._lane and st..._lane operations.
43e9d192
IB		 695(define_mode_attr nregs [(OI "2") (CI "3") (XI "4")])
696
697(define_mode_attr VRL2 [(V8QI "V32QI") (V4HI "V16HI")
71a11456 698 (V4HF "V16HF")
43e9d192 699 (V2SI "V8SI") (V2SF "V8SF")
110d61da 700 (DI "V4DI") (DF "V4DF")])
43e9d192
IB		 701
702(define_mode_attr VRL3 [(V8QI "V48QI") (V4HI "V24HI")
71a11456 703 (V4HF "V24HF")
43e9d192 704 (V2SI "V12SI") (V2SF "V12SF")
110d61da 705 (DI "V6DI") (DF "V6DF")])
43e9d192
IB		 706
707(define_mode_attr VRL4 [(V8QI "V64QI") (V4HI "V32HI")
71a11456 708 (V4HF "V32HF")
43e9d192 709 (V2SI "V16SI") (V2SF "V16SF")
110d61da 710 (DI "V8DI") (DF "V8DF")])
43e9d192 711
0462169c
SN		 712;; Mode for atomic operation suffixes
713(define_mode_attr atomic_sfx
714 [(QI "b") (HI "h") (SI "") (DI "")])
715
3f598afe 716(define_mode_attr fcvt_target [(V2DF "v2di") (V4SF "v4si") (V2SF "v2si")
2644d4d9 717 (V2DI "v2df") (V4SI "v4sf") (V2SI "v2sf")
daef0a8c
JW		 718 (SF "si") (DF "di") (SI "sf") (DI "df")
719 (V4HF "v4hi") (V8HF "v8hi") (V4HI "v4hf")
68ad28c3 720 (V8HI "v8hf") (HF "hi") (HI "hf")])
3f598afe 721(define_mode_attr FCVT_TARGET [(V2DF "V2DI") (V4SF "V4SI") (V2SF "V2SI")
2644d4d9 722 (V2DI "V2DF") (V4SI "V4SF") (V2SI "V2SF")
daef0a8c
JW		 723 (SF "SI") (DF "DI") (SI "SF") (DI "DF")
724 (V4HF "V4HI") (V8HF "V8HI") (V4HI "V4HF")
68ad28c3 725 (V8HI "V8HF") (HF "HI") (HI "HF")])
3f598afe 726
0d35c5c2
VP		 727
728;; for the inequal width integer to fp conversions
d7f33f07
JW		 729(define_mode_attr fcvt_iesize [(HF "di") (SF "di") (DF "si")])
730(define_mode_attr FCVT_IESIZE [(HF "DI") (SF "DI") (DF "SI")])
42fc9a7f 731
91bd4114
JG		 732(define_mode_attr VSWAP_WIDTH [(V8QI "V16QI") (V16QI "V8QI")
733 (V4HI "V8HI") (V8HI "V4HI")
734 (V2SI "V4SI") (V4SI "V2SI")
735 (DI "V2DI") (V2DI "DI")
736 (V2SF "V4SF") (V4SF "V2SF")
862abc04 737 (V4HF "V8HF") (V8HF "V4HF")
91bd4114
JG		 738 (DF "V2DF") (V2DF "DF")])
739
740(define_mode_attr vswap_width_name [(V8QI "to_128") (V16QI "to_64")
741 (V4HI "to_128") (V8HI "to_64")
742 (V2SI "to_128") (V4SI "to_64")
743 (DI "to_128") (V2DI "to_64")
862abc04 744 (V4HF "to_128") (V8HF "to_64")
91bd4114
JG		 745 (V2SF "to_128") (V4SF "to_64")
746 (DF "to_128") (V2DF "to_64")])
747
779aea46
JG		 748;; For certain vector-by-element multiplication instructions we must
749;; constrain the HI cases to use only V0-V15. This is covered by
750;; the 'x' constraint. All other modes may use the 'w' constraint.
751(define_mode_attr h_con [(V2SI "w") (V4SI "w")
752 (V4HI "x") (V8HI "x")
daef0a8c 753 (V4HF "w") (V8HF "w")
779aea46
JG		 754 (V2SF "w") (V4SF "w")
755 (V2DF "w") (DF "w")])
756
757;; Defined to 'f' for types whose element type is a float type.
758(define_mode_attr f [(V8QI "") (V16QI "")
759 (V4HI "") (V8HI "")
760 (V2SI "") (V4SI "")
761 (DI "") (V2DI "")
ab2e8f01 762 (V4HF "f") (V8HF "f")
779aea46
JG		 763 (V2SF "f") (V4SF "f")
764 (V2DF "f") (DF "f")])
765
0f686aa9
JG		 766;; Defined to '_fp' for types whose element type is a float type.
767(define_mode_attr fp [(V8QI "") (V16QI "")
768 (V4HI "") (V8HI "")
769 (V2SI "") (V4SI "")
770 (DI "") (V2DI "")
ab2e8f01 771 (V4HF "_fp") (V8HF "_fp")
0f686aa9
JG		 772 (V2SF "_fp") (V4SF "_fp")
773 (V2DF "_fp") (DF "_fp")
774 (SF "_fp")])
775
a9e66678
JG		 776;; Defined to '_q' for 128-bit types.
777(define_mode_attr q [(V8QI "") (V16QI "_q")
0f686aa9
JG		 778 (V4HI "") (V8HI "_q")
779 (V2SI "") (V4SI "_q")
780 (DI "") (V2DI "_q")
71a11456 781 (V4HF "") (V8HF "_q")
0f686aa9
JG		 782 (V2SF "") (V4SF "_q")
783 (V2DF "_q")
d7f33f07 784 (QI "") (HI "") (SI "") (DI "") (HF "") (SF "") (DF "")])
a9e66678 785
92835317
TB		 786(define_mode_attr vp [(V8QI "v") (V16QI "v")
787 (V4HI "v") (V8HI "v")
788 (V2SI "p") (V4SI "v")
703bbcdf
JW		 789 (V2DI "p") (V2DF "p")
790 (V2SF "p") (V4SF "v")
791 (V4HF "v") (V8HF "v")])
92835317 792
5e32e83b
JW		 793(define_mode_attr vsi2qi [(V2SI "v8qi") (V4SI "v16qi")])
794(define_mode_attr VSI2QI [(V2SI "V8QI") (V4SI "V16QI")])
795
cd78b3dd 796;; Sum of lengths of instructions needed to move vector registers of a mode.
668046d1
DS		 797(define_mode_attr insn_count [(OI "8") (CI "12") (XI "16")])
798
1b1e81f8
JW		 799;; -fpic small model GOT reloc modifers: gotpage_lo15/lo14 for ILP64/32.
800;; No need of iterator for -fPIC as it use got_lo12 for both modes.
801(define_mode_attr got_modifier [(SI "gotpage_lo14") (DI "gotpage_lo15")])
802
43e9d192
IB		 803;; -------------------------------------------------------------------
804;; Code Iterators
805;; -------------------------------------------------------------------
806
807;; This code iterator allows the various shifts supported on the core
808(define_code_iterator SHIFT [ashift ashiftrt lshiftrt rotatert])
809
810;; This code iterator allows the shifts supported in arithmetic instructions
811(define_code_iterator ASHIFT [ashift ashiftrt lshiftrt])
812
813;; Code iterator for logical operations
814(define_code_iterator LOGICAL [and ior xor])
815
84be6032
AL		 816;; Code iterator for logical operations whose :nlogical works on SIMD registers.
817(define_code_iterator NLOGICAL [and ior])
818
3204ac98
KT		 819;; Code iterator for unary negate and bitwise complement.
820(define_code_iterator NEG_NOT [neg not])
821
43e9d192
IB		 822;; Code iterator for sign/zero extension
823(define_code_iterator ANY_EXTEND [sign_extend zero_extend])
824
825;; All division operations (signed/unsigned)
826(define_code_iterator ANY_DIV [div udiv])
827
828;; Code iterator for sign/zero extraction
829(define_code_iterator ANY_EXTRACT [sign_extract zero_extract])
830
831;; Code iterator for equality comparisons
832(define_code_iterator EQL [eq ne])
833
834;; Code iterator for less-than and greater/equal-to
835(define_code_iterator LTGE [lt ge])
836
837;; Iterator for __sync_<op> operations that where the operation can be
838;; represented directly RTL. This is all of the sync operations bar
839;; nand.
0462169c 840(define_code_iterator atomic_op [plus minus ior xor and])
43e9d192
IB		 841
842;; Iterator for integer conversions
843(define_code_iterator FIXUORS [fix unsigned_fix])
844
1709ff9b
JG		 845;; Iterator for float conversions
846(define_code_iterator FLOATUORS [float unsigned_float])
847
43e9d192
IB		 848;; Code iterator for variants of vector max and min.
849(define_code_iterator MAXMIN [smax smin umax umin])
850
998eaf97
JG		 851(define_code_iterator FMAXMIN [smax smin])
852
43e9d192
IB		 853;; Code iterator for variants of vector max and min.
854(define_code_iterator ADDSUB [plus minus])
855
856;; Code iterator for variants of vector saturating binary ops.
857(define_code_iterator BINQOPS [ss_plus us_plus ss_minus us_minus])
858
859;; Code iterator for variants of vector saturating unary ops.
860(define_code_iterator UNQOPS [ss_neg ss_abs])
861
862;; Code iterator for signed variants of vector saturating binary ops.
863(define_code_iterator SBINQOPS [ss_plus ss_minus])
864
889b9412
JG		 865;; Comparison operators for <F>CM.
866(define_code_iterator COMPARISONS [lt le eq ge gt])
867
868;; Unsigned comparison operators.
869(define_code_iterator UCOMPARISONS [ltu leu geu gtu])
870
75dd5ace
JG		 871;; Unsigned comparison operators.
872(define_code_iterator FAC_COMPARISONS [lt le ge gt])
873
43e9d192
IB		 874;; -------------------------------------------------------------------
875;; Code Attributes
876;; -------------------------------------------------------------------
877;; Map rtl objects to optab names
878(define_code_attr optab [(ashift "ashl")
879 (ashiftrt "ashr")
880 (lshiftrt "lshr")
881 (rotatert "rotr")
882 (sign_extend "extend")
883 (zero_extend "zero_extend")
884 (sign_extract "extv")
885 (zero_extract "extzv")
384be29f
JG		 886 (fix "fix")
887 (unsigned_fix "fixuns")
1709ff9b
JG		 888 (float "float")
889 (unsigned_float "floatuns")
43e9d192
IB		 890 (and "and")
891 (ior "ior")
892 (xor "xor")
893 (not "one_cmpl")
894 (neg "neg")
895 (plus "add")
896 (minus "sub")
897 (ss_plus "qadd")
898 (us_plus "qadd")
899 (ss_minus "qsub")
900 (us_minus "qsub")
901 (ss_neg "qneg")
902 (ss_abs "qabs")
903 (eq "eq")
904 (ne "ne")
905 (lt "lt")
889b9412
JG		 906 (ge "ge")
907 (le "le")
908 (gt "gt")
909 (ltu "ltu")
910 (leu "leu")
911 (geu "geu")
912 (gtu "gtu")])
913
914;; For comparison operators we use the FCM* and CM* instructions.
915;; As there are no CMLE or CMLT instructions which act on 3 vector
916;; operands, we must use CMGE or CMGT and swap the order of the
917;; source operands.
918
919(define_code_attr n_optab [(lt "gt") (le "ge") (eq "eq") (ge "ge") (gt "gt")
920 (ltu "hi") (leu "hs") (geu "hs") (gtu "hi")])
921(define_code_attr cmp_1 [(lt "2") (le "2") (eq "1") (ge "1") (gt "1")
922 (ltu "2") (leu "2") (geu "1") (gtu "1")])
923(define_code_attr cmp_2 [(lt "1") (le "1") (eq "2") (ge "2") (gt "2")
924 (ltu "1") (leu "1") (geu "2") (gtu "2")])
925
926(define_code_attr CMP [(lt "LT") (le "LE") (eq "EQ") (ge "GE") (gt "GT")
714e1b3b
KT		 927 (ltu "LTU") (leu "LEU") (ne "NE") (geu "GEU")
928 (gtu "GTU")])
43e9d192 929
384be29f
JG		 930(define_code_attr fix_trunc_optab [(fix "fix_trunc")
931 (unsigned_fix "fixuns_trunc")])
932
43e9d192
IB		 933;; Optab prefix for sign/zero-extending operations
934(define_code_attr su_optab [(sign_extend "") (zero_extend "u")
935 (div "") (udiv "u")
936 (fix "") (unsigned_fix "u")
1709ff9b 937 (float "s") (unsigned_float "u")
43e9d192
IB		 938 (ss_plus "s") (us_plus "u")
939 (ss_minus "s") (us_minus "u")])
940
941;; Similar for the instruction mnemonics
942(define_code_attr shift [(ashift "lsl") (ashiftrt "asr")
943 (lshiftrt "lsr") (rotatert "ror")])
944
945;; Map shift operators onto underlying bit-field instructions
946(define_code_attr bfshift [(ashift "ubfiz") (ashiftrt "sbfx")
947 (lshiftrt "ubfx") (rotatert "extr")])
948
949;; Logical operator instruction mnemonics
950(define_code_attr logical [(and "and") (ior "orr") (xor "eor")])
951
3204ac98
KT		 952;; Operation names for negate and bitwise complement.
953(define_code_attr neg_not_op [(neg "neg") (not "not")])
954
43e9d192
IB		 955;; Similar, but when not(op)
956(define_code_attr nlogical [(and "bic") (ior "orn") (xor "eon")])
957
43e9d192
IB		 958;; Sign- or zero-extending data-op
959(define_code_attr su [(sign_extend "s") (zero_extend "u")
960 (sign_extract "s") (zero_extract "u")
961 (fix "s") (unsigned_fix "u")
998eaf97
JG		 962 (div "s") (udiv "u")
963 (smax "s") (umax "u")
964 (smin "s") (umin "u")])
43e9d192 965
096e8448
JW		 966;; Emit conditional branch instructions.
967(define_code_attr bcond [(eq "beq") (ne "bne") (lt "bne") (ge "beq")])
968
43e9d192
IB		 969;; Emit cbz/cbnz depending on comparison type.
970(define_code_attr cbz [(eq "cbz") (ne "cbnz") (lt "cbnz") (ge "cbz")])
971
973d2e01
TP		 972;; Emit inverted cbz/cbnz depending on comparison type.
973(define_code_attr inv_cb [(eq "cbnz") (ne "cbz") (lt "cbz") (ge "cbnz")])
974
43e9d192
IB		 975;; Emit tbz/tbnz depending on comparison type.
976(define_code_attr tbz [(eq "tbz") (ne "tbnz") (lt "tbnz") (ge "tbz")])
977
973d2e01
TP		 978;; Emit inverted tbz/tbnz depending on comparison type.
979(define_code_attr inv_tb [(eq "tbnz") (ne "tbz") (lt "tbz") (ge "tbnz")])
980
43e9d192 981;; Max/min attributes.
998eaf97
JG		 982(define_code_attr maxmin [(smax "max")
983 (smin "min")
984 (umax "max")
985 (umin "min")])
43e9d192
IB		 986
987;; MLA/MLS attributes.
988(define_code_attr as [(ss_plus "a") (ss_minus "s")])
989
0462169c
SN		 990;; Atomic operations
991(define_code_attr atomic_optab
992 [(ior "or") (xor "xor") (and "and") (plus "add") (minus "sub")])
993
994(define_code_attr atomic_op_operand
995 [(ior "aarch64_logical_operand")
996 (xor "aarch64_logical_operand")
997 (and "aarch64_logical_operand")
998 (plus "aarch64_plus_operand")
999 (minus "aarch64_plus_operand")])
43e9d192 1000
356c32e2
MW		 1001;; Constants acceptable for atomic operations.
1002;; This definition must appear in this file before the iterators it refers to.
1003(define_code_attr const_atomic
1004 [(plus "IJ") (minus "IJ")
1005 (xor "<lconst_atomic>") (ior "<lconst_atomic>")
1006 (and "<lconst_atomic>")])
1007
1008;; Attribute to describe constants acceptable in atomic logical operations
1009(define_mode_attr lconst_atomic [(QI "K") (HI "K") (SI "K") (DI "L")])
1010
43e9d192
IB		 1011;; -------------------------------------------------------------------
1012;; Int Iterators.
1013;; -------------------------------------------------------------------
1014(define_int_iterator MAXMINV [UNSPEC_UMAXV UNSPEC_UMINV
1015 UNSPEC_SMAXV UNSPEC_SMINV])
1016
998eaf97
JG		 1017(define_int_iterator FMAXMINV [UNSPEC_FMAXV UNSPEC_FMINV
1018 UNSPEC_FMAXNMV UNSPEC_FMINNMV])
43e9d192
IB		 1019
1020(define_int_iterator HADDSUB [UNSPEC_SHADD UNSPEC_UHADD
1021 UNSPEC_SRHADD UNSPEC_URHADD
1022 UNSPEC_SHSUB UNSPEC_UHSUB
1023 UNSPEC_SRHSUB UNSPEC_URHSUB])
1024
1025
1026(define_int_iterator ADDSUBHN [UNSPEC_ADDHN UNSPEC_RADDHN
1027 UNSPEC_SUBHN UNSPEC_RSUBHN])
1028
1029(define_int_iterator ADDSUBHN2 [UNSPEC_ADDHN2 UNSPEC_RADDHN2
1030 UNSPEC_SUBHN2 UNSPEC_RSUBHN2])
1031
1efafef3
TC		 1032(define_int_iterator FMAXMIN_UNS [UNSPEC_FMAX UNSPEC_FMIN
1033 UNSPEC_FMAXNM UNSPEC_FMINNM])
202d0c11 1034
db58fd89
JW		 1035(define_int_iterator PAUTH_LR_SP [UNSPEC_PACISP UNSPEC_AUTISP])
1036
1037(define_int_iterator PAUTH_17_16 [UNSPEC_PACI1716 UNSPEC_AUTI1716])
1038
43e9d192
IB		 1039(define_int_iterator VQDMULH [UNSPEC_SQDMULH UNSPEC_SQRDMULH])
1040
1041(define_int_iterator USSUQADD [UNSPEC_SUQADD UNSPEC_USQADD])
1042
1043(define_int_iterator SUQMOVN [UNSPEC_SQXTN UNSPEC_UQXTN])
1044
1045(define_int_iterator VSHL [UNSPEC_SSHL UNSPEC_USHL
1046 UNSPEC_SRSHL UNSPEC_URSHL])
1047
1048(define_int_iterator VSHLL [UNSPEC_SSHLL UNSPEC_USHLL])
1049
1050(define_int_iterator VQSHL [UNSPEC_SQSHL UNSPEC_UQSHL
1051 UNSPEC_SQRSHL UNSPEC_UQRSHL])
1052
1053(define_int_iterator VSRA [UNSPEC_SSRA UNSPEC_USRA
1054 UNSPEC_SRSRA UNSPEC_URSRA])
1055
1056(define_int_iterator VSLRI [UNSPEC_SSLI UNSPEC_USLI
1057 UNSPEC_SSRI UNSPEC_USRI])
1058
1059
1060(define_int_iterator VRSHR_N [UNSPEC_SRSHR UNSPEC_URSHR])
1061
1062(define_int_iterator VQSHL_N [UNSPEC_SQSHLU UNSPEC_SQSHL UNSPEC_UQSHL])
1063
1064(define_int_iterator VQSHRN_N [UNSPEC_SQSHRUN UNSPEC_SQRSHRUN
1065 UNSPEC_SQSHRN UNSPEC_UQSHRN
1066 UNSPEC_SQRSHRN UNSPEC_UQRSHRN])
1067
57b26d65
MW		 1068(define_int_iterator SQRDMLH_AS [UNSPEC_SQRDMLAH UNSPEC_SQRDMLSH])
1069
cc4d934f
JG		 1070(define_int_iterator PERMUTE [UNSPEC_ZIP1 UNSPEC_ZIP2
1071 UNSPEC_TRN1 UNSPEC_TRN2
1072 UNSPEC_UZP1 UNSPEC_UZP2])
43e9d192 1073
923fcec3
AL		 1074(define_int_iterator REVERSE [UNSPEC_REV64 UNSPEC_REV32 UNSPEC_REV16])
1075
42fc9a7f 1076(define_int_iterator FRINT [UNSPEC_FRINTZ UNSPEC_FRINTP UNSPEC_FRINTM
0659ce6f
JG		 1077 UNSPEC_FRINTN UNSPEC_FRINTI UNSPEC_FRINTX
1078 UNSPEC_FRINTA])
42fc9a7f
JG		 1079
1080(define_int_iterator FCVT [UNSPEC_FRINTZ UNSPEC_FRINTP UNSPEC_FRINTM
ce966824 1081 UNSPEC_FRINTA UNSPEC_FRINTN])
42fc9a7f 1082
3f598afe
JW		 1083(define_int_iterator FCVT_F2FIXED [UNSPEC_FCVTZS UNSPEC_FCVTZU])
1084(define_int_iterator FCVT_FIXED2F [UNSPEC_SCVTF UNSPEC_UCVTF])
1085
0050faf8
JG		 1086(define_int_iterator FRECP [UNSPEC_FRECPE UNSPEC_FRECPX])
1087
5d357f26
KT		 1088(define_int_iterator CRC [UNSPEC_CRC32B UNSPEC_CRC32H UNSPEC_CRC32W
1089 UNSPEC_CRC32X UNSPEC_CRC32CB UNSPEC_CRC32CH
1090 UNSPEC_CRC32CW UNSPEC_CRC32CX])
1091
5a7a4e80
TB		 1092(define_int_iterator CRYPTO_AES [UNSPEC_AESE UNSPEC_AESD])
1093(define_int_iterator CRYPTO_AESMC [UNSPEC_AESMC UNSPEC_AESIMC])
1094
30442682
TB		 1095(define_int_iterator CRYPTO_SHA1 [UNSPEC_SHA1C UNSPEC_SHA1M UNSPEC_SHA1P])
1096
b9cb0a44
TB		 1097(define_int_iterator CRYPTO_SHA256 [UNSPEC_SHA256H UNSPEC_SHA256H2])
1098
d81cb613
MW		 1099;; Iterators for atomic operations.
1100
1101(define_int_iterator ATOMIC_LDOP
1102 [UNSPECV_ATOMIC_LDOP_OR UNSPECV_ATOMIC_LDOP_BIC
1103 UNSPECV_ATOMIC_LDOP_XOR UNSPECV_ATOMIC_LDOP_PLUS])
1104
1105(define_int_attr atomic_ldop
1106 [(UNSPECV_ATOMIC_LDOP_OR "set") (UNSPECV_ATOMIC_LDOP_BIC "clr")
1107 (UNSPECV_ATOMIC_LDOP_XOR "eor") (UNSPECV_ATOMIC_LDOP_PLUS "add")])
1108
43e9d192
IB		 1109;; -------------------------------------------------------------------
1110;; Int Iterators Attributes.
1111;; -------------------------------------------------------------------
998eaf97
JG		 1112(define_int_attr maxmin_uns [(UNSPEC_UMAXV "umax")
1113 (UNSPEC_UMINV "umin")
1114 (UNSPEC_SMAXV "smax")
1115 (UNSPEC_SMINV "smin")
1116 (UNSPEC_FMAX "smax_nan")
1117 (UNSPEC_FMAXNMV "smax")
1118 (UNSPEC_FMAXV "smax_nan")
1119 (UNSPEC_FMIN "smin_nan")
1120 (UNSPEC_FMINNMV "smin")
1efafef3
TC		 1121 (UNSPEC_FMINV "smin_nan")
1122 (UNSPEC_FMAXNM "fmax")
1123 (UNSPEC_FMINNM "fmin")])
998eaf97
JG		 1124
1125(define_int_attr maxmin_uns_op [(UNSPEC_UMAXV "umax")
1126 (UNSPEC_UMINV "umin")
1127 (UNSPEC_SMAXV "smax")
1128 (UNSPEC_SMINV "smin")
1129 (UNSPEC_FMAX "fmax")
1130 (UNSPEC_FMAXNMV "fmaxnm")
1131 (UNSPEC_FMAXV "fmax")
1132 (UNSPEC_FMIN "fmin")
1133 (UNSPEC_FMINNMV "fminnm")
1efafef3
TC		 1134 (UNSPEC_FMINV "fmin")
1135 (UNSPEC_FMAXNM "fmaxnm")
1136 (UNSPEC_FMINNM "fminnm")])
202d0c11 1137
43e9d192
IB		 1138(define_int_attr sur [(UNSPEC_SHADD "s") (UNSPEC_UHADD "u")
1139 (UNSPEC_SRHADD "sr") (UNSPEC_URHADD "ur")
1140 (UNSPEC_SHSUB "s") (UNSPEC_UHSUB "u")
1141 (UNSPEC_SRHSUB "sr") (UNSPEC_URHSUB "ur")
1142 (UNSPEC_ADDHN "") (UNSPEC_RADDHN "r")
1143 (UNSPEC_SUBHN "") (UNSPEC_RSUBHN "r")
1144 (UNSPEC_ADDHN2 "") (UNSPEC_RADDHN2 "r")
1145 (UNSPEC_SUBHN2 "") (UNSPEC_RSUBHN2 "r")
1146 (UNSPEC_SQXTN "s") (UNSPEC_UQXTN "u")
1147 (UNSPEC_USQADD "us") (UNSPEC_SUQADD "su")
1148 (UNSPEC_SSLI "s") (UNSPEC_USLI "u")
1149 (UNSPEC_SSRI "s") (UNSPEC_USRI "u")
1150 (UNSPEC_USRA "u") (UNSPEC_SSRA "s")
1151 (UNSPEC_URSRA "ur") (UNSPEC_SRSRA "sr")
1152 (UNSPEC_URSHR "ur") (UNSPEC_SRSHR "sr")
1153 (UNSPEC_SQSHLU "s") (UNSPEC_SQSHL "s")
1154 (UNSPEC_UQSHL "u")
1155 (UNSPEC_SQSHRUN "s") (UNSPEC_SQRSHRUN "s")
1156 (UNSPEC_SQSHRN "s") (UNSPEC_UQSHRN "u")
1157 (UNSPEC_SQRSHRN "s") (UNSPEC_UQRSHRN "u")
1158 (UNSPEC_USHL "u") (UNSPEC_SSHL "s")
1159 (UNSPEC_USHLL "u") (UNSPEC_SSHLL "s")
1160 (UNSPEC_URSHL "ur") (UNSPEC_SRSHL "sr")
1161 (UNSPEC_UQRSHL "u") (UNSPEC_SQRSHL "s")
1162])
1163
1164(define_int_attr r [(UNSPEC_SQDMULH "") (UNSPEC_SQRDMULH "r")
1165 (UNSPEC_SQSHRUN "") (UNSPEC_SQRSHRUN "r")
1166 (UNSPEC_SQSHRN "") (UNSPEC_UQSHRN "")
1167 (UNSPEC_SQRSHRN "r") (UNSPEC_UQRSHRN "r")
1168 (UNSPEC_SQSHL "") (UNSPEC_UQSHL "")
1169 (UNSPEC_SQRSHL "r")(UNSPEC_UQRSHL "r")
1170])
1171
1172(define_int_attr lr [(UNSPEC_SSLI "l") (UNSPEC_USLI "l")
1173 (UNSPEC_SSRI "r") (UNSPEC_USRI "r")])
1174
1175(define_int_attr u [(UNSPEC_SQSHLU "u") (UNSPEC_SQSHL "") (UNSPEC_UQSHL "")
1176 (UNSPEC_SQSHRUN "u") (UNSPEC_SQRSHRUN "u")
1177 (UNSPEC_SQSHRN "") (UNSPEC_UQSHRN "")
1178 (UNSPEC_SQRSHRN "") (UNSPEC_UQRSHRN "")])
1179
1180(define_int_attr addsub [(UNSPEC_SHADD "add")
1181 (UNSPEC_UHADD "add")
1182 (UNSPEC_SRHADD "add")
1183 (UNSPEC_URHADD "add")
1184 (UNSPEC_SHSUB "sub")
1185 (UNSPEC_UHSUB "sub")
1186 (UNSPEC_SRHSUB "sub")
1187 (UNSPEC_URHSUB "sub")
1188 (UNSPEC_ADDHN "add")
1189 (UNSPEC_SUBHN "sub")
1190 (UNSPEC_RADDHN "add")
1191 (UNSPEC_RSUBHN "sub")
1192 (UNSPEC_ADDHN2 "add")
1193 (UNSPEC_SUBHN2 "sub")
1194 (UNSPEC_RADDHN2 "add")
1195 (UNSPEC_RSUBHN2 "sub")])
1196
cb23a30c
JG		 1197(define_int_attr offsetlr [(UNSPEC_SSLI "") (UNSPEC_USLI "")
1198 (UNSPEC_SSRI "offset_")
1199 (UNSPEC_USRI "offset_")])
43e9d192 1200
42fc9a7f
JG		 1201;; Standard pattern names for floating-point rounding instructions.
1202(define_int_attr frint_pattern [(UNSPEC_FRINTZ "btrunc")
1203 (UNSPEC_FRINTP "ceil")
1204 (UNSPEC_FRINTM "floor")
1205 (UNSPEC_FRINTI "nearbyint")
1206 (UNSPEC_FRINTX "rint")
0659ce6f
JG		 1207 (UNSPEC_FRINTA "round")
1208 (UNSPEC_FRINTN "frintn")])
42fc9a7f
JG		 1209
1210;; frint suffix for floating-point rounding instructions.
1211(define_int_attr frint_suffix [(UNSPEC_FRINTZ "z") (UNSPEC_FRINTP "p")
1212 (UNSPEC_FRINTM "m") (UNSPEC_FRINTI "i")
0659ce6f
JG		 1213 (UNSPEC_FRINTX "x") (UNSPEC_FRINTA "a")
1214 (UNSPEC_FRINTN "n")])
42fc9a7f
JG		 1215
1216(define_int_attr fcvt_pattern [(UNSPEC_FRINTZ "btrunc") (UNSPEC_FRINTA "round")
ce966824
JG		 1217 (UNSPEC_FRINTP "ceil") (UNSPEC_FRINTM "floor")
1218 (UNSPEC_FRINTN "frintn")])
42fc9a7f 1219
3f598afe
JW		 1220(define_int_attr fcvt_fixed_insn [(UNSPEC_SCVTF "scvtf")
1221 (UNSPEC_UCVTF "ucvtf")
1222 (UNSPEC_FCVTZS "fcvtzs")
1223 (UNSPEC_FCVTZU "fcvtzu")])
1224
db58fd89
JW		 1225;; Pointer authentication mnemonic prefix.
1226(define_int_attr pauth_mnem_prefix [(UNSPEC_PACISP "paci")
1227 (UNSPEC_AUTISP "auti")
1228 (UNSPEC_PACI1716 "paci")
1229 (UNSPEC_AUTI1716 "auti")])
1230
1231;; Pointer authentication HINT number for NOP space instructions using A Key.
1232(define_int_attr pauth_hint_num_a [(UNSPEC_PACISP "25")
1233 (UNSPEC_AUTISP "29")
1234 (UNSPEC_PACI1716 "8")
1235 (UNSPEC_AUTI1716 "12")])
1236
cc4d934f
JG		 1237(define_int_attr perm_insn [(UNSPEC_ZIP1 "zip") (UNSPEC_ZIP2 "zip")
1238 (UNSPEC_TRN1 "trn") (UNSPEC_TRN2 "trn")
1239 (UNSPEC_UZP1 "uzp") (UNSPEC_UZP2 "uzp")])
1240
923fcec3
AL		 1241; op code for REV instructions (size within which elements are reversed).
1242(define_int_attr rev_op [(UNSPEC_REV64 "64") (UNSPEC_REV32 "32")
1243 (UNSPEC_REV16 "16")])
1244
cc4d934f
JG		 1245(define_int_attr perm_hilo [(UNSPEC_ZIP1 "1") (UNSPEC_ZIP2 "2")
1246 (UNSPEC_TRN1 "1") (UNSPEC_TRN2 "2")
1247 (UNSPEC_UZP1 "1") (UNSPEC_UZP2 "2")])
0050faf8
JG		 1248
1249(define_int_attr frecp_suffix [(UNSPEC_FRECPE "e") (UNSPEC_FRECPX "x")])
5a7a4e80 1250
5d357f26
KT		 1251(define_int_attr crc_variant [(UNSPEC_CRC32B "crc32b") (UNSPEC_CRC32H "crc32h")
1252 (UNSPEC_CRC32W "crc32w") (UNSPEC_CRC32X "crc32x")
1253 (UNSPEC_CRC32CB "crc32cb") (UNSPEC_CRC32CH "crc32ch")
1254 (UNSPEC_CRC32CW "crc32cw") (UNSPEC_CRC32CX "crc32cx")])
1255
1256(define_int_attr crc_mode [(UNSPEC_CRC32B "QI") (UNSPEC_CRC32H "HI")
1257 (UNSPEC_CRC32W "SI") (UNSPEC_CRC32X "DI")
1258 (UNSPEC_CRC32CB "QI") (UNSPEC_CRC32CH "HI")
1259 (UNSPEC_CRC32CW "SI") (UNSPEC_CRC32CX "DI")])
1260
5a7a4e80
TB		 1261(define_int_attr aes_op [(UNSPEC_AESE "e") (UNSPEC_AESD "d")])
1262(define_int_attr aesmc_op [(UNSPEC_AESMC "mc") (UNSPEC_AESIMC "imc")])
30442682
TB		 1263
1264(define_int_attr sha1_op [(UNSPEC_SHA1C "c") (UNSPEC_SHA1P "p")
1265 (UNSPEC_SHA1M "m")])
b9cb0a44
TB		 1266
1267(define_int_attr sha256_op [(UNSPEC_SHA256H "") (UNSPEC_SHA256H2 "2")])
57b26d65
MW		 1268
1269(define_int_attr rdma_as [(UNSPEC_SQRDMLAH "a") (UNSPEC_SQRDMLSH "s")])
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