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Issue 2622643005: ARM64: Add NEON support (Closed)
Patch Set: Fix Math.abs properly Created 3 years, 8 months ago
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1 // Copyright 2016 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4
5 // This file holds inputs for the instructions tested by test-simulator-a64.
6 //
7 #include <stdint.h>
8
9 // This header should only be used by test-simulator-arm64.cc, so it
10 // doesn't need the usual header guard.
11 #ifdef V8_TEST_SIMULATOR_INPUTS_ARM64_H_
12 #error This header should be included only once.
13 #endif
14 #define V8_TEST_SIMULATOR_INPUTS_ARM64_H_
15
16 // clang-format off
17
18 // Double values, stored as uint64_t representations. This ensures exact bit
19 // representation, and avoids the loss of NaNs and suchlike through C++ casts.
20 #define INPUT_DOUBLE_BASIC \
21 /* Simple values. */ \
22 /* 0.0 */ \
23 0x0000000000000000, \
24 /* The smallest normal value. */ \
25 0x0010000000000000, \
26 /* The value just below 0.5. */ \
27 0x3fdfffffffffffff, \
28 /* 0.5 */ \
29 0x3fe0000000000000, \
30 /* The value just above 0.5. */ \
31 0x3fe0000000000001, \
32 /* The value just below 1.0. */ \
33 0x3fefffffffffffff, \
34 /* 1.0 */ \
35 0x3ff0000000000000, \
36 /* The value just above 1.0. */ \
37 0x3ff0000000000001, \
38 /* 1.5 */ \
39 0x3ff8000000000000, \
40 /* 10 */ \
41 0x4024000000000000, \
42 /* The largest finite value. */ \
43 0x7fefffffffffffff, \
44 \
45 /* Infinity. */ \
46 0x7ff0000000000000, \
47 \
48 /* NaNs. */ \
49 /* - Quiet NaNs */ \
50 0x7ff923456789abcd, \
51 0x7ff8000000000000, \
52 /* - Signalling NaNs */ \
53 0x7ff123456789abcd, \
54 0x7ff0000000000000, \
55 \
56 /* Subnormals. */ \
57 /* - A recognisable bit pattern. */ \
58 0x000123456789abcd, \
59 /* - The largest subnormal value. */ \
60 0x000fffffffffffff, \
61 /* - The smallest subnormal value. */ \
62 0x0000000000000001, \
63 \
64 /* The same values again, but negated. */ \
65 0x8000000000000000, \
66 0x8010000000000000, \
67 0xbfdfffffffffffff, \
68 0xbfe0000000000000, \
69 0xbfe0000000000001, \
70 0xbfefffffffffffff, \
71 0xbff0000000000000, \
72 0xbff0000000000001, \
73 0xbff8000000000000, \
74 0xc024000000000000, \
75 0xffefffffffffffff, \
76 0xfff0000000000000, \
77 0xfff923456789abcd, \
78 0xfff8000000000000, \
79 0xfff123456789abcd, \
80 0xfff0000000000000, \
81 0x800123456789abcd, \
82 0x800fffffffffffff, \
83 0x8000000000000001,
84
85
86 // Extra inputs. Passing these to 3- or 2-op instructions makes the trace file
87 // very large, so these should only be used with 1-op instructions.
88 #define INPUT_DOUBLE_CONVERSIONS \
89 /* Values relevant for conversions to single-precision floats. */ \
90 0x47efffff00000000, \
91 /* - The smallest normalized float. */ \
92 0x3810000000000000, \
93 /* - Normal floats that need (ties-to-even) rounding. */ \
94 /* For normalized numbers, bit 29 (0x0000000020000000) is the */ \
95 /* lowest-order bit which will fit in the float's mantissa. */ \
96 0x3ff0000000000000, \
97 0x3ff0000000000001, \
98 0x3ff0000010000000, \
99 0x3ff0000010000001, \
100 0x3ff0000020000000, \
101 0x3ff0000020000001, \
102 0x3ff0000030000000, \
103 0x3ff0000030000001, \
104 0x3ff0000040000000, \
105 0x3ff0000040000001, \
106 0x3ff0000050000000, \
107 0x3ff0000050000001, \
108 0x3ff0000060000000, \
109 /* - A mantissa that overflows into the exponent during rounding. */ \
110 0x3feffffff0000000, \
111 /* - The largest double that rounds to a normal float. */ \
112 0x47efffffefffffff, \
113 /* - The smallest exponent that's too big for a float. */ \
114 0x47f0000000000000, \
115 /* - This exponent is in range, but the value rounds to infinity. */ \
116 0x47effffff0000000, \
117 /* - The largest double which is too small for a subnormal float. */ \
118 0x3690000000000000, \
119 /* - The largest subnormal float. */ \
120 0x380fffffc0000000, \
121 /* - The smallest subnormal float. */ \
122 0x36a0000000000000, \
123 /* - Subnormal floats that need (ties-to-even) rounding. */ \
124 /* For these subnormals, bit 34 (0x0000000400000000) is the */ \
125 /* lowest-order bit which will fit in the float's mantissa. */ \
126 0x37c159e000000000, \
127 0x37c159e000000001, \
128 0x37c159e200000000, \
129 0x37c159e200000001, \
130 0x37c159e400000000, \
131 0x37c159e400000001, \
132 0x37c159e600000000, \
133 0x37c159e600000001, \
134 0x37c159e800000000, \
135 0x37c159e800000001, \
136 0x37c159ea00000000, \
137 0x37c159ea00000001, \
138 0x37c159ec00000000, \
139 /* - The smallest double which rounds up to become a subnormal float. */ \
140 0x3690000000000001, \
141 \
142 /* The same values again, but negated. */ \
143 0xc7efffff00000000, \
144 0xb810000000000000, \
145 0xbff0000000000000, \
146 0xbff0000000000001, \
147 0xbff0000010000000, \
148 0xbff0000010000001, \
149 0xbff0000020000000, \
150 0xbff0000020000001, \
151 0xbff0000030000000, \
152 0xbff0000030000001, \
153 0xbff0000040000000, \
154 0xbff0000040000001, \
155 0xbff0000050000000, \
156 0xbff0000050000001, \
157 0xbff0000060000000, \
158 0xbfeffffff0000000, \
159 0xc7efffffefffffff, \
160 0xc7f0000000000000, \
161 0xc7effffff0000000, \
162 0xb690000000000000, \
163 0xb80fffffc0000000, \
164 0xb6a0000000000000, \
165 0xb7c159e000000000, \
166 0xb7c159e000000001, \
167 0xb7c159e200000000, \
168 0xb7c159e200000001, \
169 0xb7c159e400000000, \
170 0xb7c159e400000001, \
171 0xb7c159e600000000, \
172 0xb7c159e600000001, \
173 0xb7c159e800000000, \
174 0xb7c159e800000001, \
175 0xb7c159ea00000000, \
176 0xb7c159ea00000001, \
177 0xb7c159ec00000000, \
178 0xb690000000000001, \
179 \
180 /* Values relevant for conversions to integers (frint). */ \
181 \
182 /* - The lowest-order mantissa bit has value 1. */ \
183 0x4330000000000000, \
184 0x4330000000000001, \
185 0x4330000000000002, \
186 0x4330000000000003, \
187 0x433fedcba9876543, \
188 0x433ffffffffffffc, \
189 0x433ffffffffffffd, \
190 0x433ffffffffffffe, \
191 0x433fffffffffffff, \
192 /* - The lowest-order mantissa bit has value 0.5. */ \
193 0x4320000000000000, \
194 0x4320000000000001, \
195 0x4320000000000002, \
196 0x4320000000000003, \
197 0x432fedcba9876543, \
198 0x432ffffffffffffc, \
199 0x432ffffffffffffd, \
200 0x432ffffffffffffe, \
201 0x432fffffffffffff, \
202 /* - The lowest-order mantissa bit has value 0.25. */ \
203 0x4310000000000000, \
204 0x4310000000000001, \
205 0x4310000000000002, \
206 0x4310000000000003, \
207 0x431fedcba9876543, \
208 0x431ffffffffffffc, \
209 0x431ffffffffffffd, \
210 0x431ffffffffffffe, \
211 0x431fffffffffffff, \
212 \
213 /* The same values again, but negated. */ \
214 0xc330000000000000, \
215 0xc330000000000001, \
216 0xc330000000000002, \
217 0xc330000000000003, \
218 0xc33fedcba9876543, \
219 0xc33ffffffffffffc, \
220 0xc33ffffffffffffd, \
221 0xc33ffffffffffffe, \
222 0xc33fffffffffffff, \
223 0xc320000000000000, \
224 0xc320000000000001, \
225 0xc320000000000002, \
226 0xc320000000000003, \
227 0xc32fedcba9876543, \
228 0xc32ffffffffffffc, \
229 0xc32ffffffffffffd, \
230 0xc32ffffffffffffe, \
231 0xc32fffffffffffff, \
232 0xc310000000000000, \
233 0xc310000000000001, \
234 0xc310000000000002, \
235 0xc310000000000003, \
236 0xc31fedcba9876543, \
237 0xc31ffffffffffffc, \
238 0xc31ffffffffffffd, \
239 0xc31ffffffffffffe, \
240 0xc31fffffffffffff, \
241 \
242 /* Values relevant for conversions to integers (fcvt). */ \
243 0xc3e0000000000001, /* The value just below INT64_MIN. */ \
244 0xc3e0000000000000, /* INT64_MIN */ \
245 0xc3dfffffffffffff, /* The value just above INT64_MIN. */ \
246 0x43dfffffffffffff, /* The value just below INT64_MAX. */ \
247 /* INT64_MAX is not representable. */ \
248 0x43e0000000000000, /* The value just above INT64_MAX. */ \
249 \
250 0x43efffffffffffff, /* The value just below UINT64_MAX. */ \
251 /* UINT64_MAX is not representable. */ \
252 0x43f0000000000000, /* The value just above UINT64_MAX. */ \
253 \
254 0xc1e0000000200001, /* The value just below INT32_MIN - 1.0. */ \
255 0xc1e0000000200000, /* INT32_MIN - 1.0 */ \
256 0xc1e00000001fffff, /* The value just above INT32_MIN - 1.0. */ \
257 0xc1e0000000100001, /* The value just below INT32_MIN - 0.5. */ \
258 0xc1e0000000100000, /* INT32_MIN - 0.5 */ \
259 0xc1e00000000fffff, /* The value just above INT32_MIN - 0.5. */ \
260 0xc1e0000000000001, /* The value just below INT32_MIN. */ \
261 0xc1e0000000000000, /* INT32_MIN */ \
262 0xc1dfffffffffffff, /* The value just above INT32_MIN. */ \
263 0xc1dfffffffe00001, /* The value just below INT32_MIN + 0.5. */ \
264 0xc1dfffffffe00000, /* INT32_MIN + 0.5 */ \
265 0xc1dfffffffdfffff, /* The value just above INT32_MIN + 0.5. */ \
266 \
267 0x41dfffffff7fffff, /* The value just below INT32_MAX - 1.0. */ \
268 0x41dfffffff800000, /* INT32_MAX - 1.0 */ \
269 0x41dfffffff800001, /* The value just above INT32_MAX - 1.0. */ \
270 0x41dfffffff9fffff, /* The value just below INT32_MAX - 0.5. */ \
271 0x41dfffffffa00000, /* INT32_MAX - 0.5 */ \
272 0x41dfffffffa00001, /* The value just above INT32_MAX - 0.5. */ \
273 0x41dfffffffbfffff, /* The value just below INT32_MAX. */ \
274 0x41dfffffffc00000, /* INT32_MAX */ \
275 0x41dfffffffc00001, /* The value just above INT32_MAX. */ \
276 0x41dfffffffdfffff, /* The value just below INT32_MAX + 0.5. */ \
277 0x41dfffffffe00000, /* INT32_MAX + 0.5 */ \
278 0x41dfffffffe00001, /* The value just above INT32_MAX + 0.5. */ \
279 \
280 0x41efffffffbfffff, /* The value just below UINT32_MAX - 1.0. */ \
281 0x41efffffffc00000, /* UINT32_MAX - 1.0 */ \
282 0x41efffffffc00001, /* The value just above UINT32_MAX - 1.0. */ \
283 0x41efffffffcfffff, /* The value just below UINT32_MAX - 0.5. */ \
284 0x41efffffffd00000, /* UINT32_MAX - 0.5 */ \
285 0x41efffffffd00001, /* The value just above UINT32_MAX - 0.5. */ \
286 0x41efffffffdfffff, /* The value just below UINT32_MAX. */ \
287 0x41efffffffe00000, /* UINT32_MAX */ \
288 0x41efffffffe00001, /* The value just above UINT32_MAX. */ \
289 0x41efffffffefffff, /* The value just below UINT32_MAX + 0.5. */ \
290 0x41effffffff00000, /* UINT32_MAX + 0.5 */ \
291 0x41effffffff00001, /* The value just above UINT32_MAX + 0.5. */
292
293
294 // Float values, stored as uint32_t representations. This ensures exact bit
295 // representation, and avoids the loss of NaNs and suchlike through C++ casts.
296 #define INPUT_FLOAT_BASIC \
297 /* Simple values. */ \
298 0x00000000, /* 0.0 */ \
299 0x00800000, /* The smallest normal value. */ \
300 0x3effffff, /* The value just below 0.5. */ \
301 0x3f000000, /* 0.5 */ \
302 0x3f000001, /* The value just above 0.5. */ \
303 0x3f7fffff, /* The value just below 1.0. */ \
304 0x3f800000, /* 1.0 */ \
305 0x3f800001, /* The value just above 1.0. */ \
306 0x3fc00000, /* 1.5 */ \
307 0x41200000, /* 10 */ \
308 0x7f8fffff, /* The largest finite value. */ \
309 \
310 /* Infinity. */ \
311 0x7f800000, \
312 \
313 /* NaNs. */ \
314 /* - Quiet NaNs */ \
315 0x7fd23456, \
316 0x7fc00000, \
317 /* - Signalling NaNs */ \
318 0x7f923456, \
319 0x7f800001, \
320 \
321 /* Subnormals. */ \
322 /* - A recognisable bit pattern. */ \
323 0x00123456, \
324 /* - The largest subnormal value. */ \
325 0x007fffff, \
326 /* - The smallest subnormal value. */ \
327 0x00000001, \
328 \
329 /* The same values again, but negated. */ \
330 0x80000000, \
331 0x80800000, \
332 0xbeffffff, \
333 0xbf000000, \
334 0xbf000001, \
335 0xbf7fffff, \
336 0xbf800000, \
337 0xbf800001, \
338 0xbfc00000, \
339 0xc1200000, \
340 0xff8fffff, \
341 0xff800000, \
342 0xffd23456, \
343 0xffc00000, \
344 0xff923456, \
345 0xff800001, \
346 0x80123456, \
347 0x807fffff, \
348 0x80000001,
349
350
351 // Extra inputs. Passing these to 3- or 2-op instructions makes the trace file
352 // very large, so these should only be used with 1-op instructions.
353 #define INPUT_FLOAT_CONVERSIONS \
354 /* Values relevant for conversions to integers (frint). */ \
355 /* - The lowest-order mantissa bit has value 1. */ \
356 0x4b000000, \
357 0x4b000001, \
358 0x4b000002, \
359 0x4b000003, \
360 0x4b765432, \
361 0x4b7ffffc, \
362 0x4b7ffffd, \
363 0x4b7ffffe, \
364 0x4b7fffff, \
365 /* - The lowest-order mantissa bit has value 0.5. */ \
366 0x4a800000, \
367 0x4a800001, \
368 0x4a800002, \
369 0x4a800003, \
370 0x4af65432, \
371 0x4afffffc, \
372 0x4afffffd, \
373 0x4afffffe, \
374 0x4affffff, \
375 /* - The lowest-order mantissa bit has value 0.25. */ \
376 0x4a000000, \
377 0x4a000001, \
378 0x4a000002, \
379 0x4a000003, \
380 0x4a765432, \
381 0x4a7ffffc, \
382 0x4a7ffffd, \
383 0x4a7ffffe, \
384 0x4a7fffff, \
385 \
386 /* The same values again, but negated. */ \
387 0xcb000000, \
388 0xcb000001, \
389 0xcb000002, \
390 0xcb000003, \
391 0xcb765432, \
392 0xcb7ffffc, \
393 0xcb7ffffd, \
394 0xcb7ffffe, \
395 0xcb7fffff, \
396 0xca800000, \
397 0xca800001, \
398 0xca800002, \
399 0xca800003, \
400 0xcaf65432, \
401 0xcafffffc, \
402 0xcafffffd, \
403 0xcafffffe, \
404 0xcaffffff, \
405 0xca000000, \
406 0xca000001, \
407 0xca000002, \
408 0xca000003, \
409 0xca765432, \
410 0xca7ffffc, \
411 0xca7ffffd, \
412 0xca7ffffe, \
413 0xca7fffff, \
414 \
415 /* Values relevant for conversions to integers (fcvt). */ \
416 0xdf000001, /* The value just below INT64_MIN. */ \
417 0xdf000000, /* INT64_MIN */ \
418 0xdeffffff, /* The value just above INT64_MIN. */ \
419 0x5effffff, /* The value just below INT64_MAX. */ \
420 /* INT64_MAX is not representable. */ \
421 0x5f000000, /* The value just above INT64_MAX. */ \
422 \
423 0x5f7fffff, /* The value just below UINT64_MAX. */ \
424 /* UINT64_MAX is not representable. */ \
425 0x5f800000, /* The value just above UINT64_MAX. */ \
426 \
427 0xcf000001, /* The value just below INT32_MIN. */ \
428 0xcf000000, /* INT32_MIN */ \
429 0xceffffff, /* The value just above INT32_MIN. */ \
430 0x4effffff, /* The value just below INT32_MAX. */ \
431 /* INT32_MAX is not representable. */ \
432 0x4f000000, /* The value just above INT32_MAX. */
433
434
435 #define INPUT_32BITS_FIXEDPOINT_CONVERSIONS \
436 0x00000000, \
437 0x00000001, \
438 0x00800000, \
439 0x00800001, \
440 0x00876543, \
441 0x01000000, \
442 0x01000001, \
443 0x01800000, \
444 0x01800001, \
445 0x02000000, \
446 0x02000001, \
447 0x02800000, \
448 0x02800001, \
449 0x03000000, \
450 0x40000000, \
451 0x7fffff80, \
452 0x7fffffc0, \
453 0x7fffffff, \
454 0x80000000, \
455 0x80000100, \
456 0xffffff00, \
457 0xffffff80, \
458 0xffffffff, \
459 0xffffffff
460
461 #define INPUT_64BITS_FIXEDPOINT_CONVERSIONS \
462 0x0000000000000000, \
463 0x0000000000000001, \
464 0x0000000040000000, \
465 0x0000000100000000, \
466 0x4000000000000000, \
467 0x4000000000000400, \
468 0x000000007fffffff, \
469 0x00000000ffffffff, \
470 0x0000000080000000, \
471 0x0000000080000001, \
472 0x7ffffffffffffc00, \
473 0x0123456789abcde0, \
474 0x0000000012345678, \
475 0xffffffffc0000000, \
476 0xffffffff00000000, \
477 0xc000000000000000, \
478 0x1000000000000000, \
479 0x1000000000000001, \
480 0x1000000000000080, \
481 0x1000000000000081, \
482 0x1000000000000100, \
483 0x1000000000000101, \
484 0x1000000000000180, \
485 0x1000000000000181, \
486 0x1000000000000200, \
487 0x1000000000000201, \
488 0x1000000000000280, \
489 0x1000000000000281, \
490 0x1000000000000300, \
491 0x8000000000000000, \
492 0x8000000000000001, \
493 0x8000000000000200, \
494 0x8000000000000201, \
495 0x8000000000000400, \
496 0x8000000000000401, \
497 0x8000000000000600, \
498 0x8000000000000601, \
499 0x8000000000000800, \
500 0x8000000000000801, \
501 0x8000000000000a00, \
502 0x8000000000000a01, \
503 0x8000000000000c00, \
504 0x7ffffffffffffe00, \
505 0x7fffffffffffffff, \
506 0xfffffffffffffc00, \
507 0xffffffffffffffff
508
509 // Float16 - Basic test values.
510 #define INPUT_FLOAT16_BASIC \
511 0x3c00, /* 1 0 01111 0000000000 */ \
512 0x3c01, /* Next smallest float after 1. 0 01111 0000000001 */ \
513 0xc000, /* -2 1 10000 0000000000 */ \
514 0x7bff, /* Maximum in half precision. 0 11110 1111111111 */ \
515 0x0400, /* Minimum positive normal. 0 00001 0000000000 */ \
516 0x03ff, /* Maximum subnormal. 0 00000 1111111111 */ \
517 0x0001, /* Minimum positive subnormal. 0 00000 0000000001 */ \
518 0x0000, /* 0 0 00000 0000000000 */ \
519 0x8000, /* -0 1 00000 0000000000 */ \
520 0x7c00, /* inf 0 11111 0000000000 */ \
521 0xfc00, /* -inf 1 11111 0000000000 */ \
522 0x3555, /* 1/3 0 01101 0101010101 */ \
523 0x3e00, /* 1.5 0 01111 1000000000 */ \
524 0x4900, /* 10 0 10010 0100000000 */ \
525 0xbe00, /* -1.5 1 01111 1000000000 */ \
526 0xc900, /* -10 1 10010 0100000000 */ \
527
528 // Float16 - Conversion test values.
529 // Note the second column in the comments shows what the value might
530 // look like if represented in single precision (32 bit) floating point format.
531 #define INPUT_FLOAT16_CONVERSIONS \
532 0x37ff, /* 0.4999999701976776 0x3effffff f16: 0 01101 1111111111 */ \
533 0x3800, /* 0.4999999701976776 0x3effffff f16: 0 01110 0000000000 */ \
534 0x3801, /* 0.5000000596046448 0x3f000001 f16: 0 01110 0000000001 */ \
535 0x3bff, /* 0.9999999403953552 0x3f7fffff f16: 0 01110 1111111111 */ \
536 0x7c7f, /* nan 0x7f8fffff f16: 0 11111 0001111111 */ \
537 0x7e91, /* nan 0x7fd23456 f16: 0 11111 1010010001 */ \
538 0x7e00, /* nan 0x7fc00000 f16: 0 11111 1000000000 */ \
539 0x7c91, /* nan 0x7f923456 f16: 0 11111 0010010001 */ \
540 0x8001, /* -1.175494350822288e-38 0x80800000 f16: 1 00000 0000000001 */ \
541 0xb7ff, /* -0.4999999701976776 0xbeffffff f16: 1 01101 1111111111 */ \
542 0xb800, /* -0.4999999701976776 0xbeffffff f16: 1 01110 0000000000 */ \
543 0xb801, /* -0.5000000596046448 0xbf000001 f16: 1 01110 0000000001 */ \
544 0xbbff, /* -0.9999999403953552 0xbf7fffff f16: 1 01110 1111111111 */ \
545 0xbc00, /* -0.9999999403953552 0xbf7fffff f16: 1 01111 0000000000 */ \
546 0xbc01, /* -1.00000011920929 0xbf800001 f16: 1 01111 0000000001 */ \
547 0xfc7f, /* -nan 0xff8fffff f16: 1 11111 0001111111 */ \
548 0xfe91, /* -nan 0xffd23456 f16: 1 11111 1010010001 */ \
549 0xfe00, /* -nan 0xffc00000 f16: 1 11111 1000000000 */ \
550 0xfc91, /* -nan 0xff923456 f16: 1 11111 0010010001 */ \
551 0xfbff, /* -8388608 0xcb000000 f16: 1 11110 1111111111 */ \
552 0x0002, /* 1.192092895507812e-07 0x00000002 f16: 0 00000 0000000010 */ \
553 0x8002, /* -1.192092895507812e-07 0x80000002 f16: 1 00000 0000000010 */ \
554 0x8fff, /* -0.0004880428314208984 0x8fffffff f16: 1 00011 1111111111 */ \
555 0xffff, /* -nan 0xffffffff f16: 1 11111 1111111111 */ \
556
557 // Some useful sets of values for testing vector SIMD operations.
558 #define INPUT_8BITS_IMM_LANECOUNT_FROMZERO \
559 0x00, \
560 0x01, \
561 0x02, \
562 0x03, \
563 0x04, \
564 0x05, \
565 0x06, \
566 0x07, \
567 0x08, \
568 0x09, \
569 0x0a, \
570 0x0b, \
571 0x0c, \
572 0x0d, \
573 0x0e, \
574 0x0f
575
576 #define INPUT_16BITS_IMM_LANECOUNT_FROMZERO \
577 0x00, \
578 0x01, \
579 0x02, \
580 0x03, \
581 0x04, \
582 0x05, \
583 0x06, \
584 0x07
585
586 #define INPUT_32BITS_IMM_LANECOUNT_FROMZERO \
587 0x00, \
588 0x01, \
589 0x02, \
590 0x03
591
592 #define INPUT_64BITS_IMM_LANECOUNT_FROMZERO \
593 0x00, \
594 0x01
595
596 #define INPUT_8BITS_IMM_TYPEWIDTH_BASE \
597 0x01, \
598 0x02, \
599 0x03, \
600 0x04, \
601 0x05, \
602 0x06, \
603 0x07
604
605 #define INPUT_16BITS_IMM_TYPEWIDTH_BASE \
606 INPUT_8BITS_IMM_TYPEWIDTH_BASE, \
607 0x08, \
608 0x09, \
609 0x0a, \
610 0x0b, \
611 0x0c, \
612 0x0d, \
613 0x0e, \
614 0x0f
615
616 #define INPUT_32BITS_IMM_TYPEWIDTH_BASE \
617 INPUT_16BITS_IMM_TYPEWIDTH_BASE, \
618 0x10, \
619 0x11, \
620 0x12, \
621 0x13, \
622 0x14, \
623 0x15, \
624 0x16, \
625 0x17, \
626 0x18, \
627 0x19, \
628 0x1a, \
629 0x1b, \
630 0x1c, \
631 0x1d, \
632 0x1e, \
633 0x1f
634
635 #define INPUT_64BITS_IMM_TYPEWIDTH_BASE \
636 INPUT_32BITS_IMM_TYPEWIDTH_BASE, \
637 0x20, \
638 0x21, \
639 0x22, \
640 0x23, \
641 0x24, \
642 0x25, \
643 0x26, \
644 0x27, \
645 0x28, \
646 0x29, \
647 0x2a, \
648 0x2b, \
649 0x2c, \
650 0x2d, \
651 0x2e, \
652 0x2f, \
653 0x30, \
654 0x31, \
655 0x32, \
656 0x33, \
657 0x34, \
658 0x35, \
659 0x36, \
660 0x37, \
661 0x38, \
662 0x39, \
663 0x3a, \
664 0x3b, \
665 0x3c, \
666 0x3d, \
667 0x3e, \
668 0x3f
669
670 #define INPUT_8BITS_IMM_TYPEWIDTH \
671 INPUT_8BITS_IMM_TYPEWIDTH_BASE, \
672 0x08
673
674 #define INPUT_16BITS_IMM_TYPEWIDTH \
675 INPUT_16BITS_IMM_TYPEWIDTH_BASE, \
676 0x10
677
678 #define INPUT_32BITS_IMM_TYPEWIDTH \
679 INPUT_32BITS_IMM_TYPEWIDTH_BASE, \
680 0x20
681
682 #define INPUT_64BITS_IMM_TYPEWIDTH \
683 INPUT_64BITS_IMM_TYPEWIDTH_BASE, \
684 0x40
685
686 #define INPUT_8BITS_IMM_TYPEWIDTH_FROMZERO \
687 0x00, \
688 INPUT_8BITS_IMM_TYPEWIDTH_BASE
689
690 #define INPUT_16BITS_IMM_TYPEWIDTH_FROMZERO \
691 0x00, \
692 INPUT_16BITS_IMM_TYPEWIDTH_BASE
693
694 #define INPUT_32BITS_IMM_TYPEWIDTH_FROMZERO \
695 0x00, \
696 INPUT_32BITS_IMM_TYPEWIDTH_BASE
697
698 #define INPUT_64BITS_IMM_TYPEWIDTH_FROMZERO \
699 0x00, \
700 INPUT_64BITS_IMM_TYPEWIDTH_BASE
701
702 #define INPUT_32BITS_IMM_TYPEWIDTH_FROMZERO_TOWIDTH \
703 0x00, \
704 INPUT_32BITS_IMM_TYPEWIDTH_BASE, \
705 0x20
706
707 #define INPUT_64BITS_IMM_TYPEWIDTH_FROMZERO_TOWIDTH \
708 0x00, \
709 INPUT_64BITS_IMM_TYPEWIDTH_BASE, \
710 0x40
711
712 #define INPUT_8BITS_BASIC \
713 0x00, \
714 0x01, \
715 0x02, \
716 0x08, \
717 0x33, \
718 0x55, \
719 0x7d, \
720 0x7e, \
721 0x7f, \
722 0x80, \
723 0x81, \
724 0x82, \
725 0x83, \
726 0xaa, \
727 0xcc, \
728 0xf8, \
729 0xfd, \
730 0xfe, \
731 0xff
732
733 // Basic values for vector SIMD operations of types 4H or 8H.
734 #define INPUT_16BITS_BASIC \
735 0x0000, \
736 0x0001, \
737 0x0002, \
738 0x0010, \
739 0x007d, \
740 0x007e, \
741 0x007f, \
742 0x3333, \
743 0x5555, \
744 0x7ffd, \
745 0x7ffe, \
746 0x7fff, \
747 0x8000, \
748 0x8001, \
749 0xaaaa, \
750 0xcccc, \
751 0xff80, \
752 0xff81, \
753 0xff82, \
754 0xff83, \
755 0xfff0, \
756 0xfffd, \
757 0xfffe, \
758 0xffff
759
760 // Basic values for vector SIMD operations of types 2S or 4S.
761 #define INPUT_32BITS_BASIC \
762 0x00000000, \
763 0x00000001, \
764 0x00000002, \
765 0x00000020, \
766 0x0000007d, \
767 0x0000007e, \
768 0x0000007f, \
769 0x00007ffd, \
770 0x00007ffe, \
771 0x00007fff, \
772 0x33333333, \
773 0x55555555, \
774 0x7ffffffd, \
775 0x7ffffffe, \
776 0x7fffffff, \
777 0x80000000, \
778 0x80000001, \
779 0xaaaaaaaa, \
780 0xcccccccc, \
781 0xffff8000, \
782 0xffff8001, \
783 0xffff8002, \
784 0xffff8003, \
785 0xffffff80, \
786 0xffffff81, \
787 0xffffff82, \
788 0xffffff83, \
789 0xffffffe0, \
790 0xfffffffd, \
791 0xfffffffe, \
792 0xffffffff
793
794 // Basic values for vector SIMD operations of type 2D
795 #define INPUT_64BITS_BASIC \
796 0x0000000000000000, \
797 0x0000000000000001, \
798 0x0000000000000002, \
799 0x0000000000000040, \
800 0x000000000000007d, \
801 0x000000000000007e, \
802 0x000000000000007f, \
803 0x0000000000007ffd, \
804 0x0000000000007ffe, \
805 0x0000000000007fff, \
806 0x000000007ffffffd, \
807 0x000000007ffffffe, \
808 0x000000007fffffff, \
809 0x3333333333333333, \
810 0x5555555555555555, \
811 0x7ffffffffffffffd, \
812 0x7ffffffffffffffe, \
813 0x7fffffffffffffff, \
814 0x8000000000000000, \
815 0x8000000000000001, \
816 0x8000000000000002, \
817 0x8000000000000003, \
818 0xaaaaaaaaaaaaaaaa, \
819 0xcccccccccccccccc, \
820 0xffffffff80000000, \
821 0xffffffff80000001, \
822 0xffffffff80000002, \
823 0xffffffff80000003, \
824 0xffffffffffff8000, \
825 0xffffffffffff8001, \
826 0xffffffffffff8002, \
827 0xffffffffffff8003, \
828 0xffffffffffffff80, \
829 0xffffffffffffff81, \
830 0xffffffffffffff82, \
831 0xffffffffffffff83, \
832 0xffffffffffffffc0, \
833 0xfffffffffffffffd, \
834 0xfffffffffffffffe, \
835 0xffffffffffffffff
836
837 // clang-format on
838
839 // For most 2- and 3-op instructions, use only basic inputs. Because every
840 // combination is tested, the length of the output trace is very sensitive to
841 // the length of this list.
842 static const uint64_t kInputDoubleBasic[] = {INPUT_DOUBLE_BASIC};
843 static const uint32_t kInputFloatBasic[] = {INPUT_FLOAT_BASIC};
844
845 #define INPUT_DOUBLE_ACC_DESTINATION INPUT_DOUBLE_BASIC
846 #define INPUT_FLOAT_ACC_DESTINATION INPUT_FLOAT_BASIC
847
848 static const uint64_t kInputDoubleAccDestination[] = {
849 INPUT_DOUBLE_ACC_DESTINATION};
850
851 static const uint32_t kInputFloatAccDestination[] = {
852 INPUT_FLOAT_ACC_DESTINATION};
853
854 // For conversions, include several extra inputs.
855 static const uint64_t kInputDoubleConversions[] = {
856 INPUT_DOUBLE_BASIC INPUT_DOUBLE_CONVERSIONS};
857
858 static const uint32_t kInputFloatConversions[] = {
859 INPUT_FLOAT_BASIC INPUT_FLOAT_CONVERSIONS};
860
861 static const uint64_t kInput64bitsFixedPointConversions[] = {
862 INPUT_64BITS_BASIC, INPUT_64BITS_FIXEDPOINT_CONVERSIONS};
863
864 static const uint32_t kInput32bitsFixedPointConversions[] = {
865 INPUT_32BITS_BASIC, INPUT_32BITS_FIXEDPOINT_CONVERSIONS};
866
867 static const uint16_t kInputFloat16Conversions[] = {
868 INPUT_FLOAT16_BASIC INPUT_FLOAT16_CONVERSIONS};
869
870 static const uint8_t kInput8bitsBasic[] = {INPUT_8BITS_BASIC};
871
872 static const uint16_t kInput16bitsBasic[] = {INPUT_16BITS_BASIC};
873
874 static const uint32_t kInput32bitsBasic[] = {INPUT_32BITS_BASIC};
875
876 static const uint64_t kInput64bitsBasic[] = {INPUT_64BITS_BASIC};
877
878 static const int kInput8bitsImmTypeWidth[] = {INPUT_8BITS_IMM_TYPEWIDTH};
879
880 static const int kInput16bitsImmTypeWidth[] = {INPUT_16BITS_IMM_TYPEWIDTH};
881
882 static const int kInput32bitsImmTypeWidth[] = {INPUT_32BITS_IMM_TYPEWIDTH};
883
884 static const int kInput64bitsImmTypeWidth[] = {INPUT_64BITS_IMM_TYPEWIDTH};
885
886 static const int kInput8bitsImmTypeWidthFromZero[] = {
887 INPUT_8BITS_IMM_TYPEWIDTH_FROMZERO};
888
889 static const int kInput16bitsImmTypeWidthFromZero[] = {
890 INPUT_16BITS_IMM_TYPEWIDTH_FROMZERO};
891
892 static const int kInput32bitsImmTypeWidthFromZero[] = {
893 INPUT_32BITS_IMM_TYPEWIDTH_FROMZERO};
894
895 static const int kInput64bitsImmTypeWidthFromZero[] = {
896 INPUT_64BITS_IMM_TYPEWIDTH_FROMZERO};
897
898 static const int kInput32bitsImmTypeWidthFromZeroToWidth[] = {
899 INPUT_32BITS_IMM_TYPEWIDTH_FROMZERO_TOWIDTH};
900
901 static const int kInput64bitsImmTypeWidthFromZeroToWidth[] = {
902 INPUT_64BITS_IMM_TYPEWIDTH_FROMZERO_TOWIDTH};
903
904 // These immediate values are used only in 'shll{2}' tests.
905 static const int kInput8bitsImmSHLL[] = {8};
906 static const int kInput16bitsImmSHLL[] = {16};
907 static const int kInput32bitsImmSHLL[] = {32};
908
909 static const double kInputDoubleImmZero[] = {0.0};
910
911 static const int kInput8bitsImmZero[] = {0};
912
913 static const int kInput16bitsImmZero[] = {0};
914
915 static const int kInput32bitsImmZero[] = {0};
916
917 static const int kInput64bitsImmZero[] = {0};
918
919 static const int kInput8bitsImmLaneCountFromZero[] = {
920 INPUT_8BITS_IMM_LANECOUNT_FROMZERO};
921
922 static const int kInput16bitsImmLaneCountFromZero[] = {
923 INPUT_16BITS_IMM_LANECOUNT_FROMZERO};
924
925 static const int kInput32bitsImmLaneCountFromZero[] = {
926 INPUT_32BITS_IMM_LANECOUNT_FROMZERO};
927
928 static const int kInput64bitsImmLaneCountFromZero[] = {
929 INPUT_64BITS_IMM_LANECOUNT_FROMZERO};
930
931 #define INPUT_8BITS_ACC_DESTINATION INPUT_8BITS_BASIC
932 #define INPUT_16BITS_ACC_DESTINATION INPUT_16BITS_BASIC
933 #define INPUT_32BITS_ACC_DESTINATION INPUT_32BITS_BASIC
934 #define INPUT_64BITS_ACC_DESTINATION INPUT_64BITS_BASIC
935
936 static const uint8_t kInput8bitsAccDestination[] = {
937 INPUT_8BITS_ACC_DESTINATION};
938
939 static const uint16_t kInput16bitsAccDestination[] = {
940 INPUT_16BITS_ACC_DESTINATION};
941
942 static const uint32_t kInput32bitsAccDestination[] = {
943 INPUT_32BITS_ACC_DESTINATION};
944
945 static const uint64_t kInput64bitsAccDestination[] = {
946 INPUT_64BITS_ACC_DESTINATION};
947
948 static const int kInputHIndices[] = {0, 1, 2, 3, 4, 5, 6, 7};
949
950 static const int kInputSIndices[] = {0, 1, 2, 3};
951
952 static const int kInputDIndices[] = {0, 1};
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