src/wasm/wasm-opcodes.h - Issue 2919203002: [WASM] Eliminate SIMD boolean vector types.

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Issue 2919203002: [WASM] Eliminate SIMD boolean vector types. (Closed)

Patch Set: Restore DCHECKs in AssembleMove/Swap now that we're back to 1 SIMD representation. Created 3 years, 6 months ago

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1 // Copyright 2015 the V8 project authors. All rights reserved.	1 // Copyright 2015 the V8 project authors. All rights reserved.

2 // Use of this source code is governed by a BSD-style license that can be	2 // Use of this source code is governed by a BSD-style license that can be

3 // found in the LICENSE file.	3 // found in the LICENSE file.

4	4

5 #ifndef V8_WASM_OPCODES_H_	5 #ifndef V8_WASM_OPCODES_H_

6 #define V8_WASM_OPCODES_H_	6 #define V8_WASM_OPCODES_H_

7	7

8 #include "src/globals.h"	8 #include "src/globals.h"

9 #include "src/machine-type.h"	9 #include "src/machine-type.h"

10 #include "src/runtime/runtime.h"	10 #include "src/runtime/runtime.h"

11 #include "src/signature.h"	11 #include "src/signature.h"

12	12

13 namespace v8 {	13 namespace v8 {

14 namespace internal {	14 namespace internal {

15 namespace wasm {	15 namespace wasm {

16	16

17 // Binary encoding of local types.	17 // Binary encoding of local types.

18 enum ValueTypeCode {	18 enum ValueTypeCode {

19 kLocalVoid = 0x40,	19 kLocalVoid = 0x40,

20 kLocalI32 = 0x7f,	20 kLocalI32 = 0x7f,

21 kLocalI64 = 0x7e,	21 kLocalI64 = 0x7e,

22 kLocalF32 = 0x7d,	22 kLocalF32 = 0x7d,

23 kLocalF64 = 0x7c,	23 kLocalF64 = 0x7c,

24 kLocalS128 = 0x7b,	24 kLocalS128 = 0x7b

25 kLocalS1x4 = 0x7a,

26 kLocalS1x8 = 0x79,

27 kLocalS1x16 = 0x78

28 };	25 };

29	26

30 // Type code for multi-value block types.	27 // Type code for multi-value block types.

31 static const uint8_t kMultivalBlock = 0x41;	28 static const uint8_t kMultivalBlock = 0x41;

32	29

33 // We reuse the internal machine type to represent WebAssembly types.	30 // We reuse the internal machine type to represent WebAssembly types.

34 // A typedef improves readability without adding a whole new type system.	31 // A typedef improves readability without adding a whole new type system.

35 using ValueType = MachineRepresentation;	32 using ValueType = MachineRepresentation;

36 constexpr ValueType kWasmStmt = MachineRepresentation::kNone;	33 constexpr ValueType kWasmStmt = MachineRepresentation::kNone;

37 constexpr ValueType kWasmI32 = MachineRepresentation::kWord32;	34 constexpr ValueType kWasmI32 = MachineRepresentation::kWord32;

38 constexpr ValueType kWasmI64 = MachineRepresentation::kWord64;	35 constexpr ValueType kWasmI64 = MachineRepresentation::kWord64;

39 constexpr ValueType kWasmF32 = MachineRepresentation::kFloat32;	36 constexpr ValueType kWasmF32 = MachineRepresentation::kFloat32;

40 constexpr ValueType kWasmF64 = MachineRepresentation::kFloat64;	37 constexpr ValueType kWasmF64 = MachineRepresentation::kFloat64;

41 constexpr ValueType kWasmS128 = MachineRepresentation::kSimd128;	38 constexpr ValueType kWasmS128 = MachineRepresentation::kSimd128;

42 constexpr ValueType kWasmS1x4 = MachineRepresentation::kSimd1x4;

43 constexpr ValueType kWasmS1x8 = MachineRepresentation::kSimd1x8;

44 constexpr ValueType kWasmS1x16 = MachineRepresentation::kSimd1x16;

45 constexpr ValueType kWasmVar = MachineRepresentation::kTagged;	39 constexpr ValueType kWasmVar = MachineRepresentation::kTagged;

46	40

47 using FunctionSig = Signature<ValueType>;	41 using FunctionSig = Signature<ValueType>;

48 std::ostream& operator<<(std::ostream& os, const FunctionSig& function);	42 std::ostream& operator<<(std::ostream& os, const FunctionSig& function);

49 bool IsJSCompatibleSignature(const FunctionSig* sig);	43 bool IsJSCompatibleSignature(const FunctionSig* sig);

50	44

51 using WasmName = Vector<const char>;	45 using WasmName = Vector<const char>;

52	46

53 using WasmCodePosition = int;	47 using WasmCodePosition = int;

54 constexpr WasmCodePosition kNoCodePosition = -1;	48 constexpr WasmCodePosition kNoCodePosition = -1;

(...skipping 232 matching lines...) Expand 10 before \| Expand all \| Expand 10 after Loading...
287 V(F32x4Abs, 0xe503, s_s) \	281 V(F32x4Abs, 0xe503, s_s) \

288 V(F32x4Neg, 0xe504, s_s) \	282 V(F32x4Neg, 0xe504, s_s) \

289 V(F32x4RecipApprox, 0xe506, s_s) \	283 V(F32x4RecipApprox, 0xe506, s_s) \

290 V(F32x4RecipSqrtApprox, 0xe507, s_s) \	284 V(F32x4RecipSqrtApprox, 0xe507, s_s) \

291 V(F32x4Add, 0xe508, s_ss) \	285 V(F32x4Add, 0xe508, s_ss) \

292 V(F32x4AddHoriz, 0xe5b9, s_ss) \	286 V(F32x4AddHoriz, 0xe5b9, s_ss) \

293 V(F32x4Sub, 0xe509, s_ss) \	287 V(F32x4Sub, 0xe509, s_ss) \

294 V(F32x4Mul, 0xe50a, s_ss) \	288 V(F32x4Mul, 0xe50a, s_ss) \

295 V(F32x4Min, 0xe50c, s_ss) \	289 V(F32x4Min, 0xe50c, s_ss) \

296 V(F32x4Max, 0xe50d, s_ss) \	290 V(F32x4Max, 0xe50d, s_ss) \

297 V(F32x4Eq, 0xe510, s1x4_ss) \	291 V(F32x4Eq, 0xe510, s_ss) \

298 V(F32x4Ne, 0xe511, s1x4_ss) \	292 V(F32x4Ne, 0xe511, s_ss) \

299 V(F32x4Lt, 0xe512, s1x4_ss) \	293 V(F32x4Lt, 0xe512, s_ss) \

300 V(F32x4Le, 0xe513, s1x4_ss) \	294 V(F32x4Le, 0xe513, s_ss) \

301 V(F32x4Gt, 0xe514, s1x4_ss) \	295 V(F32x4Gt, 0xe514, s_ss) \

302 V(F32x4Ge, 0xe515, s1x4_ss) \	296 V(F32x4Ge, 0xe515, s_ss) \

303 V(F32x4SConvertI32x4, 0xe519, s_s) \	297 V(F32x4SConvertI32x4, 0xe519, s_s) \

304 V(F32x4UConvertI32x4, 0xe51a, s_s) \	298 V(F32x4UConvertI32x4, 0xe51a, s_s) \

305 V(I32x4Splat, 0xe51b, s_i) \	299 V(I32x4Splat, 0xe51b, s_i) \

306 V(I32x4Neg, 0xe51e, s_s) \	300 V(I32x4Neg, 0xe51e, s_s) \

307 V(I32x4Add, 0xe51f, s_ss) \	301 V(I32x4Add, 0xe51f, s_ss) \

308 V(I32x4AddHoriz, 0xe5ba, s_ss) \	302 V(I32x4AddHoriz, 0xe5ba, s_ss) \

309 V(I32x4Sub, 0xe520, s_ss) \	303 V(I32x4Sub, 0xe520, s_ss) \

310 V(I32x4Mul, 0xe521, s_ss) \	304 V(I32x4Mul, 0xe521, s_ss) \

311 V(I32x4MinS, 0xe522, s_ss) \	305 V(I32x4MinS, 0xe522, s_ss) \

312 V(I32x4MaxS, 0xe523, s_ss) \	306 V(I32x4MaxS, 0xe523, s_ss) \

313 V(I32x4Eq, 0xe526, s1x4_ss) \	307 V(I32x4Eq, 0xe526, s_ss) \

314 V(I32x4Ne, 0xe527, s1x4_ss) \	308 V(I32x4Ne, 0xe527, s_ss) \

315 V(I32x4LtS, 0xe528, s1x4_ss) \	309 V(I32x4LtS, 0xe528, s_ss) \

316 V(I32x4LeS, 0xe529, s1x4_ss) \	310 V(I32x4LeS, 0xe529, s_ss) \

317 V(I32x4GtS, 0xe52a, s1x4_ss) \	311 V(I32x4GtS, 0xe52a, s_ss) \

318 V(I32x4GeS, 0xe52b, s1x4_ss) \	312 V(I32x4GeS, 0xe52b, s_ss) \

319 V(I32x4SConvertF32x4, 0xe52f, s_s) \	313 V(I32x4SConvertF32x4, 0xe52f, s_s) \

320 V(I32x4UConvertF32x4, 0xe537, s_s) \	314 V(I32x4UConvertF32x4, 0xe537, s_s) \

321 V(I32x4SConvertI16x8Low, 0xe594, s_s) \	315 V(I32x4SConvertI16x8Low, 0xe594, s_s) \

322 V(I32x4SConvertI16x8High, 0xe595, s_s) \	316 V(I32x4SConvertI16x8High, 0xe595, s_s) \

323 V(I32x4UConvertI16x8Low, 0xe596, s_s) \	317 V(I32x4UConvertI16x8Low, 0xe596, s_s) \

324 V(I32x4UConvertI16x8High, 0xe597, s_s) \	318 V(I32x4UConvertI16x8High, 0xe597, s_s) \

325 V(I32x4MinU, 0xe530, s_ss) \	319 V(I32x4MinU, 0xe530, s_ss) \

326 V(I32x4MaxU, 0xe531, s_ss) \	320 V(I32x4MaxU, 0xe531, s_ss) \

327 V(I32x4LtU, 0xe533, s1x4_ss) \	321 V(I32x4LtU, 0xe533, s_ss) \

328 V(I32x4LeU, 0xe534, s1x4_ss) \	322 V(I32x4LeU, 0xe534, s_ss) \

329 V(I32x4GtU, 0xe535, s1x4_ss) \	323 V(I32x4GtU, 0xe535, s_ss) \

330 V(I32x4GeU, 0xe536, s1x4_ss) \	324 V(I32x4GeU, 0xe536, s_ss) \

331 V(I16x8Splat, 0xe538, s_i) \	325 V(I16x8Splat, 0xe538, s_i) \

332 V(I16x8Neg, 0xe53b, s_s) \	326 V(I16x8Neg, 0xe53b, s_s) \

333 V(I16x8Add, 0xe53c, s_ss) \	327 V(I16x8Add, 0xe53c, s_ss) \

334 V(I16x8AddSaturateS, 0xe53d, s_ss) \	328 V(I16x8AddSaturateS, 0xe53d, s_ss) \

335 V(I16x8AddHoriz, 0xe5bb, s_ss) \	329 V(I16x8AddHoriz, 0xe5bb, s_ss) \

336 V(I16x8Sub, 0xe53e, s_ss) \	330 V(I16x8Sub, 0xe53e, s_ss) \

337 V(I16x8SubSaturateS, 0xe53f, s_ss) \	331 V(I16x8SubSaturateS, 0xe53f, s_ss) \

338 V(I16x8Mul, 0xe540, s_ss) \	332 V(I16x8Mul, 0xe540, s_ss) \

339 V(I16x8MinS, 0xe541, s_ss) \	333 V(I16x8MinS, 0xe541, s_ss) \

340 V(I16x8MaxS, 0xe542, s_ss) \	334 V(I16x8MaxS, 0xe542, s_ss) \

341 V(I16x8Eq, 0xe545, s1x8_ss) \	335 V(I16x8Eq, 0xe545, s_ss) \

342 V(I16x8Ne, 0xe546, s1x8_ss) \	336 V(I16x8Ne, 0xe546, s_ss) \

343 V(I16x8LtS, 0xe547, s1x8_ss) \	337 V(I16x8LtS, 0xe547, s_ss) \

344 V(I16x8LeS, 0xe548, s1x8_ss) \	338 V(I16x8LeS, 0xe548, s_ss) \

345 V(I16x8GtS, 0xe549, s1x8_ss) \	339 V(I16x8GtS, 0xe549, s_ss) \

346 V(I16x8GeS, 0xe54a, s1x8_ss) \	340 V(I16x8GeS, 0xe54a, s_ss) \

347 V(I16x8AddSaturateU, 0xe54e, s_ss) \	341 V(I16x8AddSaturateU, 0xe54e, s_ss) \

348 V(I16x8SubSaturateU, 0xe54f, s_ss) \	342 V(I16x8SubSaturateU, 0xe54f, s_ss) \

349 V(I16x8MinU, 0xe550, s_ss) \	343 V(I16x8MinU, 0xe550, s_ss) \

350 V(I16x8MaxU, 0xe551, s_ss) \	344 V(I16x8MaxU, 0xe551, s_ss) \

351 V(I16x8LtU, 0xe553, s1x8_ss) \	345 V(I16x8LtU, 0xe553, s_ss) \

352 V(I16x8LeU, 0xe554, s1x8_ss) \	346 V(I16x8LeU, 0xe554, s_ss) \

353 V(I16x8GtU, 0xe555, s1x8_ss) \	347 V(I16x8GtU, 0xe555, s_ss) \

354 V(I16x8GeU, 0xe556, s1x8_ss) \	348 V(I16x8GeU, 0xe556, s_ss) \

355 V(I16x8SConvertI32x4, 0xe598, s_ss) \	349 V(I16x8SConvertI32x4, 0xe598, s_ss) \

356 V(I16x8UConvertI32x4, 0xe599, s_ss) \	350 V(I16x8UConvertI32x4, 0xe599, s_ss) \

357 V(I16x8SConvertI8x16Low, 0xe59a, s_s) \	351 V(I16x8SConvertI8x16Low, 0xe59a, s_s) \

358 V(I16x8SConvertI8x16High, 0xe59b, s_s) \	352 V(I16x8SConvertI8x16High, 0xe59b, s_s) \

359 V(I16x8UConvertI8x16Low, 0xe59c, s_s) \	353 V(I16x8UConvertI8x16Low, 0xe59c, s_s) \

360 V(I16x8UConvertI8x16High, 0xe59d, s_s) \	354 V(I16x8UConvertI8x16High, 0xe59d, s_s) \

361 V(I8x16Splat, 0xe557, s_i) \	355 V(I8x16Splat, 0xe557, s_i) \

362 V(I8x16Neg, 0xe55a, s_s) \	356 V(I8x16Neg, 0xe55a, s_s) \

363 V(I8x16Add, 0xe55b, s_ss) \	357 V(I8x16Add, 0xe55b, s_ss) \

364 V(I8x16AddSaturateS, 0xe55c, s_ss) \	358 V(I8x16AddSaturateS, 0xe55c, s_ss) \

365 V(I8x16Sub, 0xe55d, s_ss) \	359 V(I8x16Sub, 0xe55d, s_ss) \

366 V(I8x16SubSaturateS, 0xe55e, s_ss) \	360 V(I8x16SubSaturateS, 0xe55e, s_ss) \

367 V(I8x16Mul, 0xe55f, s_ss) \	361 V(I8x16Mul, 0xe55f, s_ss) \

368 V(I8x16MinS, 0xe560, s_ss) \	362 V(I8x16MinS, 0xe560, s_ss) \

369 V(I8x16MaxS, 0xe561, s_ss) \	363 V(I8x16MaxS, 0xe561, s_ss) \

370 V(I8x16Eq, 0xe564, s1x16_ss) \	364 V(I8x16Eq, 0xe564, s_ss) \

371 V(I8x16Ne, 0xe565, s1x16_ss) \	365 V(I8x16Ne, 0xe565, s_ss) \

372 V(I8x16LtS, 0xe566, s1x16_ss) \	366 V(I8x16LtS, 0xe566, s_ss) \

373 V(I8x16LeS, 0xe567, s1x16_ss) \	367 V(I8x16LeS, 0xe567, s_ss) \

374 V(I8x16GtS, 0xe568, s1x16_ss) \	368 V(I8x16GtS, 0xe568, s_ss) \

375 V(I8x16GeS, 0xe569, s1x16_ss) \	369 V(I8x16GeS, 0xe569, s_ss) \

376 V(I8x16AddSaturateU, 0xe56d, s_ss) \	370 V(I8x16AddSaturateU, 0xe56d, s_ss) \

377 V(I8x16SubSaturateU, 0xe56e, s_ss) \	371 V(I8x16SubSaturateU, 0xe56e, s_ss) \

378 V(I8x16MinU, 0xe56f, s_ss) \	372 V(I8x16MinU, 0xe56f, s_ss) \

379 V(I8x16MaxU, 0xe570, s_ss) \	373 V(I8x16MaxU, 0xe570, s_ss) \

380 V(I8x16LtU, 0xe572, s1x16_ss) \	374 V(I8x16LtU, 0xe572, s_ss) \

381 V(I8x16LeU, 0xe573, s1x16_ss) \	375 V(I8x16LeU, 0xe573, s_ss) \

382 V(I8x16GtU, 0xe574, s1x16_ss) \	376 V(I8x16GtU, 0xe574, s_ss) \

383 V(I8x16GeU, 0xe575, s1x16_ss) \	377 V(I8x16GeU, 0xe575, s_ss) \

384 V(I8x16SConvertI16x8, 0xe59e, s_ss) \	378 V(I8x16SConvertI16x8, 0xe59e, s_ss) \

385 V(I8x16UConvertI16x8, 0xe59f, s_ss) \	379 V(I8x16UConvertI16x8, 0xe59f, s_ss) \

386 V(S128And, 0xe576, s_ss) \	380 V(S128And, 0xe576, s_ss) \

387 V(S128Or, 0xe577, s_ss) \	381 V(S128Or, 0xe577, s_ss) \

388 V(S128Xor, 0xe578, s_ss) \	382 V(S128Xor, 0xe578, s_ss) \

389 V(S128Not, 0xe579, s_s) \	383 V(S128Not, 0xe579, s_s) \

390 V(S32x4Select, 0xe52c, s_s1x4ss) \	384 V(S128Select, 0xe52c, s_sss) \

391 V(S16x8Select, 0xe54b, s_s1x8ss) \	385 V(S1x4AnyTrue, 0xe584, i_s) \

392 V(S8x16Select, 0xe56a, s_s1x16ss) \	386 V(S1x4AllTrue, 0xe585, i_s) \

393 V(S1x4And, 0xe580, s1x4_s1x4s1x4) \	387 V(S1x8AnyTrue, 0xe58a, i_s) \

394 V(S1x4Or, 0xe581, s1x4_s1x4s1x4) \	388 V(S1x8AllTrue, 0xe58b, i_s) \

395 V(S1x4Xor, 0xe582, s1x4_s1x4s1x4) \	389 V(S1x16AnyTrue, 0xe590, i_s) \

396 V(S1x4Not, 0xe583, s1x4_s1x4) \	390 V(S1x16AllTrue, 0xe591, i_s)

397 V(S1x4AnyTrue, 0xe584, i_s1x4) \

398 V(S1x4AllTrue, 0xe585, i_s1x4) \

399 V(S1x8And, 0xe586, s1x8_s1x8s1x8) \

400 V(S1x8Or, 0xe587, s1x8_s1x8s1x8) \

401 V(S1x8Xor, 0xe588, s1x8_s1x8s1x8) \

402 V(S1x8Not, 0xe589, s1x8_s1x8) \

403 V(S1x8AnyTrue, 0xe58a, i_s1x8) \

404 V(S1x8AllTrue, 0xe58b, i_s1x8) \

405 V(S1x16And, 0xe58c, s1x16_s1x16s1x16) \

406 V(S1x16Or, 0xe58d, s1x16_s1x16s1x16) \

407 V(S1x16Xor, 0xe58e, s1x16_s1x16s1x16) \

408 V(S1x16Not, 0xe58f, s1x16_s1x16) \

409 V(S1x16AnyTrue, 0xe590, i_s1x16) \

410 V(S1x16AllTrue, 0xe591, i_s1x16)

411	391

412 #define FOREACH_SIMD_1_OPERAND_OPCODE(V) \	392 #define FOREACH_SIMD_1_OPERAND_OPCODE(V) \

413 V(F32x4ExtractLane, 0xe501, _) \	393 V(F32x4ExtractLane, 0xe501, _) \

414 V(F32x4ReplaceLane, 0xe502, _) \	394 V(F32x4ReplaceLane, 0xe502, _) \

415 V(I32x4ExtractLane, 0xe51c, _) \	395 V(I32x4ExtractLane, 0xe51c, _) \

416 V(I32x4ReplaceLane, 0xe51d, _) \	396 V(I32x4ReplaceLane, 0xe51d, _) \

417 V(I32x4Shl, 0xe524, _) \	397 V(I32x4Shl, 0xe524, _) \

418 V(I32x4ShrS, 0xe525, _) \	398 V(I32x4ShrS, 0xe525, _) \

419 V(I32x4ShrU, 0xe532, _) \	399 V(I32x4ShrU, 0xe532, _) \

420 V(I16x8ExtractLane, 0xe539, _) \	400 V(I16x8ExtractLane, 0xe539, _) \

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508 V(f_l, kWasmF32, kWasmI64) \	488 V(f_l, kWasmF32, kWasmI64) \

509 V(d_dd, kWasmF64, kWasmF64, kWasmF64) \	489 V(d_dd, kWasmF64, kWasmF64, kWasmF64) \

510 V(d_d, kWasmF64, kWasmF64) \	490 V(d_d, kWasmF64, kWasmF64) \

511 V(d_f, kWasmF64, kWasmF32) \	491 V(d_f, kWasmF64, kWasmF32) \

512 V(d_i, kWasmF64, kWasmI32) \	492 V(d_i, kWasmF64, kWasmI32) \

513 V(d_l, kWasmF64, kWasmI64) \	493 V(d_l, kWasmF64, kWasmI64) \

514 V(d_id, kWasmF64, kWasmI32, kWasmF64) \	494 V(d_id, kWasmF64, kWasmI32, kWasmF64) \

515 V(f_if, kWasmF32, kWasmI32, kWasmF32) \	495 V(f_if, kWasmF32, kWasmI32, kWasmF32) \

516 V(l_il, kWasmI64, kWasmI32, kWasmI64)	496 V(l_il, kWasmI64, kWasmI32, kWasmI64)

517	497

518 #define FOREACH_SIMD_SIGNATURE(V) \	498 #define FOREACH_SIMD_SIGNATURE(V) \

519 V(s_s, kWasmS128, kWasmS128) \	499 V(s_s, kWasmS128, kWasmS128) \

520 V(s_f, kWasmS128, kWasmF32) \	500 V(s_f, kWasmS128, kWasmF32) \

521 V(s_ss, kWasmS128, kWasmS128, kWasmS128) \	501 V(s_ss, kWasmS128, kWasmS128, kWasmS128) \

522 V(s1x4_ss, kWasmS1x4, kWasmS128, kWasmS128) \	502 V(s_i, kWasmS128, kWasmI32) \

523 V(s1x8_ss, kWasmS1x8, kWasmS128, kWasmS128) \	503 V(s_si, kWasmS128, kWasmS128, kWasmI32) \

524 V(s1x16_ss, kWasmS1x16, kWasmS128, kWasmS128) \	504 V(i_s, kWasmI32, kWasmS128) \

525 V(s_i, kWasmS128, kWasmI32) \	505 V(s_sss, kWasmS128, kWasmS128, kWasmS128, kWasmS128)

526 V(s_si, kWasmS128, kWasmS128, kWasmI32) \

527 V(i_s, kWasmI32, kWasmS128) \

528 V(i_s1x4, kWasmI32, kWasmS1x4) \

529 V(i_s1x8, kWasmI32, kWasmS1x8) \

530 V(i_s1x16, kWasmI32, kWasmS1x16) \

531 V(s_s1x4ss, kWasmS128, kWasmS1x4, kWasmS128, kWasmS128) \

532 V(s_s1x8ss, kWasmS128, kWasmS1x8, kWasmS128, kWasmS128) \

533 V(s_s1x16ss, kWasmS128, kWasmS1x16, kWasmS128, kWasmS128) \

534 V(s1x4_s1x4, kWasmS1x4, kWasmS1x4) \

535 V(s1x4_s1x4s1x4, kWasmS1x4, kWasmS1x4, kWasmS1x4) \

536 V(s1x8_s1x8, kWasmS1x8, kWasmS1x8) \

537 V(s1x8_s1x8s1x8, kWasmS1x8, kWasmS1x8, kWasmS1x8) \

538 V(s1x16_s1x16, kWasmS1x16, kWasmS1x16) \

539 V(s1x16_s1x16s1x16, kWasmS1x16, kWasmS1x16, kWasmS1x16)

540	506

541 #define FOREACH_PREFIX(V) \	507 #define FOREACH_PREFIX(V) \

542 V(Simd, 0xe5) \	508 V(Simd, 0xe5) \

543 V(Atomic, 0xe6)	509 V(Atomic, 0xe6)

544	510

545 enum WasmOpcode {	511 enum WasmOpcode {

546 // Declare expression opcodes.	512 // Declare expression opcodes.

547 #define DECLARE_NAMED_ENUM(name, opcode, sig) kExpr##name = opcode,	513 #define DECLARE_NAMED_ENUM(name, opcode, sig) kExpr##name = opcode,

548 FOREACH_OPCODE(DECLARE_NAMED_ENUM)	514 FOREACH_OPCODE(DECLARE_NAMED_ENUM)

549 #undef DECLARE_NAMED_ENUM	515 #undef DECLARE_NAMED_ENUM

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597 case kWasmI32:	563 case kWasmI32:

598 return kLocalI32;	564 return kLocalI32;

599 case kWasmI64:	565 case kWasmI64:

600 return kLocalI64;	566 return kLocalI64;

601 case kWasmF32:	567 case kWasmF32:

602 return kLocalF32;	568 return kLocalF32;

603 case kWasmF64:	569 case kWasmF64:

604 return kLocalF64;	570 return kLocalF64;

605 case kWasmS128:	571 case kWasmS128:

606 return kLocalS128;	572 return kLocalS128;

607 case kWasmS1x4:

608 return kLocalS1x4;

609 case kWasmS1x8:

610 return kLocalS1x8;

611 case kWasmS1x16:

612 return kLocalS1x16;

613 case kWasmStmt:	573 case kWasmStmt:

614 return kLocalVoid;	574 return kLocalVoid;

615 default:	575 default:

616 UNREACHABLE();	576 UNREACHABLE();

617 }	577 }

618 }	578 }

619	579

620 static MachineType MachineTypeFor(ValueType type) {	580 static MachineType MachineTypeFor(ValueType type) {

621 switch (type) {	581 switch (type) {

622 case kWasmI32:	582 case kWasmI32:

623 return MachineType::Int32();	583 return MachineType::Int32();

624 case kWasmI64:	584 case kWasmI64:

625 return MachineType::Int64();	585 return MachineType::Int64();

626 case kWasmF32:	586 case kWasmF32:

627 return MachineType::Float32();	587 return MachineType::Float32();

628 case kWasmF64:	588 case kWasmF64:

629 return MachineType::Float64();	589 return MachineType::Float64();

630 case kWasmS128:	590 case kWasmS128:

631 return MachineType::Simd128();	591 return MachineType::Simd128();

632 case kWasmS1x4:

633 return MachineType::Simd1x4();

634 case kWasmS1x8:

635 return MachineType::Simd1x8();

636 case kWasmS1x16:

637 return MachineType::Simd1x16();

638 case kWasmStmt:	592 case kWasmStmt:

639 return MachineType::None();	593 return MachineType::None();

640 default:	594 default:

641 UNREACHABLE();	595 UNREACHABLE();

642 }	596 }

643 }	597 }

644	598

645 static ValueType ValueTypeFor(MachineType type) {	599 static ValueType ValueTypeFor(MachineType type) {

646 switch (type.representation()) {	600 switch (type.representation()) {

647 case MachineRepresentation::kWord8:	601 case MachineRepresentation::kWord8:

648 case MachineRepresentation::kWord16:	602 case MachineRepresentation::kWord16:

649 case MachineRepresentation::kWord32:	603 case MachineRepresentation::kWord32:

650 return kWasmI32;	604 return kWasmI32;

651 case MachineRepresentation::kWord64:	605 case MachineRepresentation::kWord64:

652 return kWasmI64;	606 return kWasmI64;

653 case MachineRepresentation::kFloat32:	607 case MachineRepresentation::kFloat32:

654 return kWasmF32;	608 return kWasmF32;

655 case MachineRepresentation::kFloat64:	609 case MachineRepresentation::kFloat64:

656 return kWasmF64;	610 return kWasmF64;

657 case MachineRepresentation::kSimd128:	611 case MachineRepresentation::kSimd128:

658 return kWasmS128;	612 return kWasmS128;

659 case MachineRepresentation::kSimd1x4:

660 return kWasmS1x4;

661 case MachineRepresentation::kSimd1x8:

662 return kWasmS1x8;

663 case MachineRepresentation::kSimd1x16:

664 return kWasmS1x16;

665 default:	613 default:

666 UNREACHABLE();	614 UNREACHABLE();

667 }	615 }

668 }	616 }

669	617

670 static char ShortNameOf(ValueType type) {	618 static char ShortNameOf(ValueType type) {

671 switch (type) {	619 switch (type) {

672 case kWasmI32:	620 case kWasmI32:

673 return 'i';	621 return 'i';

674 case kWasmI64:	622 case kWasmI64:

675 return 'l';	623 return 'l';

676 case kWasmF32:	624 case kWasmF32:

677 return 'f';	625 return 'f';

678 case kWasmF64:	626 case kWasmF64:

679 return 'd';	627 return 'd';

680 case kWasmS128:	628 case kWasmS128:

681 case kWasmS1x4:

682 case kWasmS1x8:

683 case kWasmS1x16:

684 return 's';	629 return 's';

685 case kWasmStmt:	630 case kWasmStmt:

686 return 'v';	631 return 'v';

687 case kWasmVar:	632 case kWasmVar:

688 return '*';	633 return '*';

689 default:	634 default:

690 return '?';	635 return '?';

691 }	636 }

692 }	637 }

693	638

694 static const char* TypeName(ValueType type) {	639 static const char* TypeName(ValueType type) {

695 switch (type) {	640 switch (type) {

696 case kWasmI32:	641 case kWasmI32:

697 return "i32";	642 return "i32";

698 case kWasmI64:	643 case kWasmI64:

699 return "i64";	644 return "i64";

700 case kWasmF32:	645 case kWasmF32:

701 return "f32";	646 return "f32";

702 case kWasmF64:	647 case kWasmF64:

703 return "f64";	648 return "f64";

704 case kWasmS128:	649 case kWasmS128:

705 return "s128";	650 return "s128";

706 case kWasmS1x4:

707 return "s1x4";

708 case kWasmS1x8:

709 return "s1x8";

710 case kWasmS1x16:

711 return "s1x16";

712 case kWasmStmt:	651 case kWasmStmt:

713 return "<stmt>";	652 return "<stmt>";

714 case kWasmVar:	653 case kWasmVar:

715 return "<var>";	654 return "<var>";

716 default:	655 default:

717 return "<unknown>";	656 return "<unknown>";

718 }	657 }

719 }	658 }

720 };	659 };

721 } // namespace wasm	660 } // namespace wasm

722 } // namespace internal	661 } // namespace internal

723 } // namespace v8	662 } // namespace v8

724	663

725 #endif // V8_WASM_OPCODES_H_	664 #endif // V8_WASM_OPCODES_H_

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