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Issue 2719953002:
Add Int32x4 Wasm Simd Binops, compare ops, select (Closed)
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| 1 // Copyright 2014 the V8 project authors. All rights reserved. | 1 // Copyright 2014 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 #include <algorithm> | 5 #include <algorithm> |
| 6 | 6 |
| 7 #include "src/base/adapters.h" | 7 #include "src/base/adapters.h" |
| 8 #include "src/compiler/instruction-selector-impl.h" | 8 #include "src/compiler/instruction-selector-impl.h" |
| 9 #include "src/compiler/node-matchers.h" | 9 #include "src/compiler/node-matchers.h" |
| 10 #include "src/compiler/node-properties.h" | 10 #include "src/compiler/node-properties.h" |
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| 2267 addressing_mode = kMode_MRI; | 2267 addressing_mode = kMode_MRI; |
| 2268 } else { | 2268 } else { |
| 2269 inputs[input_count++] = g.UseUniqueRegister(index); | 2269 inputs[input_count++] = g.UseUniqueRegister(index); |
| 2270 addressing_mode = kMode_MR1; | 2270 addressing_mode = kMode_MR1; |
| 2271 } | 2271 } |
| 2272 inputs[input_count++] = g.UseUniqueRegister(value); | 2272 inputs[input_count++] = g.UseUniqueRegister(value); |
| 2273 InstructionCode code = opcode | AddressingModeField::encode(addressing_mode); | 2273 InstructionCode code = opcode | AddressingModeField::encode(addressing_mode); |
| 2274 Emit(code, 0, static_cast<InstructionOperand*>(nullptr), input_count, inputs); | 2274 Emit(code, 0, static_cast<InstructionOperand*>(nullptr), input_count, inputs); |
| 2275 } | 2275 } |
| 2276 | 2276 |
| 2277 void InstructionSelector::VisitInt32x4Splat(Node* node) { | 2277 #define SIMD_TYPES(V) V(Int32x4) |
| 2278 | |
| 2279 #define SIMD_BINOP_LIST(V) \ | |
| 2280 V(Int32x4Add) \ | |
| 2281 V(Int32x4Sub) \ | |
| 2282 V(Int32x4Mul) \ | |
| 2283 V(Int32x4Min) \ | |
| 2284 V(Int32x4Max) \ | |
| 2285 V(Int32x4Equal) \ | |
| 2286 V(Int32x4NotEqual) \ | |
| 2287 V(Uint32x4Min) \ | |
| 2288 V(Uint32x4Max) | |
| 2289 | |
| 2290 #define SIMD_SHIFT_OPCODES(V) \ | |
| 2291 V(Int32x4ShiftLeftByScalar) \ | |
| 2292 V(Int32x4ShiftRightByScalar) \ | |
| 2293 V(Uint32x4ShiftRightByScalar) | |
| 2294 | |
| 2295 #define VISIT_SIMD_BINOP(Opcode) \ | |
|
bbudge
2017/02/28 19:34:39
nit: Elsewhere, we follow the general ordering:
Ty
gdeepti
2017/03/13 20:37:52
Done.
| |
| 2296 void InstructionSelector::Visit##Opcode(Node* node) { \ | |
| 2297 X64OperandGenerator g(this); \ | |
| 2298 Emit(kX64##Opcode, g.DefineSameAsFirst(node), \ | |
| 2299 g.UseRegister(node->InputAt(0)), g.UseRegister(node->InputAt(1))); \ | |
| 2300 } | |
| 2301 SIMD_BINOP_LIST(VISIT_SIMD_BINOP) | |
| 2302 #undef VISIT_SIMD_BINOP | |
| 2303 | |
| 2304 #define VISIT_SIMD_SHIFT(Opcode) \ | |
| 2305 void InstructionSelector::Visit##Opcode(Node* node) { \ | |
| 2306 X64OperandGenerator g(this); \ | |
| 2307 int32_t value = OpParameter<int32_t>(node); \ | |
| 2308 Emit(kX64##Opcode, g.DefineSameAsFirst(node), \ | |
| 2309 g.UseRegister(node->InputAt(0)), g.UseImmediate(value)); \ | |
| 2310 } | |
| 2311 SIMD_SHIFT_OPCODES(VISIT_SIMD_SHIFT) | |
| 2312 #undef VISIT_SIMD_SHIFT | |
| 2313 | |
| 2314 #define VISIT_SIMD_SPLAT(Type) \ | |
| 2315 void InstructionSelector::Visit##Type##Splat(Node* node) { \ | |
| 2316 X64OperandGenerator g(this); \ | |
| 2317 Emit(kX64##Type##Splat, g.DefineAsRegister(node), \ | |
| 2318 g.Use(node->InputAt(0))); \ | |
| 2319 } | |
| 2320 SIMD_TYPES(VISIT_SIMD_SPLAT) | |
| 2321 #undef VISIT_SIMD_SPLAT | |
| 2322 | |
| 2323 #define VISIT_SIMD_EXTRACT_LANE(Type) \ | |
| 2324 void InstructionSelector::Visit##Type##ExtractLane(Node* node) { \ | |
| 2325 X64OperandGenerator g(this); \ | |
| 2326 int32_t lane = OpParameter<int32_t>(node); \ | |
| 2327 Emit(kX64##Type##ExtractLane, g.DefineAsRegister(node), \ | |
| 2328 g.UseRegister(node->InputAt(0)), g.UseImmediate(lane)); \ | |
| 2329 } | |
| 2330 SIMD_TYPES(VISIT_SIMD_EXTRACT_LANE) | |
| 2331 #undef VISIT_SIMD_EXTRACT_LANE | |
| 2332 | |
| 2333 #define VISIT_SIMD_REPLACE_LANE(Type) \ | |
| 2334 void InstructionSelector::Visit##Type##ReplaceLane(Node* node) { \ | |
| 2335 X64OperandGenerator g(this); \ | |
| 2336 int32_t lane = OpParameter<int32_t>(node); \ | |
| 2337 Emit(kX64##Type##ReplaceLane, g.DefineSameAsFirst(node), \ | |
| 2338 g.UseRegister(node->InputAt(0)), g.UseImmediate(lane), \ | |
| 2339 g.Use(node->InputAt(1))); \ | |
| 2340 } | |
| 2341 SIMD_TYPES(VISIT_SIMD_REPLACE_LANE) | |
| 2342 #undef VISIT_SIMD_REPLACE_LANE | |
| 2343 | |
| 2344 void InstructionSelector::VisitSimd32x4Select(Node* node) { | |
| 2278 X64OperandGenerator g(this); | 2345 X64OperandGenerator g(this); |
| 2279 Emit(kX64Int32x4Splat, g.DefineAsRegister(node), g.Use(node->InputAt(0))); | 2346 Emit(kX64Simd32x4Select, g.DefineSameAsFirst(node), |
| 2280 } | 2347 g.UseRegister(node->InputAt(0)), g.UseRegister(node->InputAt(1)), |
| 2281 | 2348 g.UseRegister(node->InputAt(2))); |
| 2282 void InstructionSelector::VisitInt32x4ExtractLane(Node* node) { | |
| 2283 X64OperandGenerator g(this); | |
| 2284 int32_t lane = OpParameter<int32_t>(node); | |
| 2285 Emit(kX64Int32x4ExtractLane, g.DefineAsRegister(node), | |
| 2286 g.UseRegister(node->InputAt(0)), g.UseImmediate(lane)); | |
| 2287 } | |
| 2288 | |
| 2289 void InstructionSelector::VisitInt32x4ReplaceLane(Node* node) { | |
| 2290 X64OperandGenerator g(this); | |
| 2291 int32_t lane = OpParameter<int32_t>(node); | |
| 2292 Emit(kX64Int32x4ReplaceLane, g.DefineSameAsFirst(node), | |
| 2293 g.UseRegister(node->InputAt(0)), g.UseImmediate(lane), | |
| 2294 g.Use(node->InputAt(1))); | |
| 2295 } | |
| 2296 | |
| 2297 void InstructionSelector::VisitInt32x4Add(Node* node) { | |
| 2298 X64OperandGenerator g(this); | |
| 2299 Emit(kX64Int32x4Add, g.DefineSameAsFirst(node), | |
| 2300 g.UseRegister(node->InputAt(0)), g.UseRegister(node->InputAt(1))); | |
| 2301 } | |
| 2302 | |
| 2303 void InstructionSelector::VisitInt32x4Sub(Node* node) { | |
| 2304 X64OperandGenerator g(this); | |
| 2305 Emit(kX64Int32x4Sub, g.DefineSameAsFirst(node), | |
| 2306 g.UseRegister(node->InputAt(0)), g.UseRegister(node->InputAt(1))); | |
| 2307 } | 2349 } |
| 2308 | 2350 |
| 2309 void InstructionSelector::VisitSimd128Zero(Node* node) { | 2351 void InstructionSelector::VisitSimd128Zero(Node* node) { |
| 2310 X64OperandGenerator g(this); | 2352 X64OperandGenerator g(this); |
| 2311 Emit(kX64Simd128Zero, g.DefineSameAsFirst(node)); | 2353 Emit(kX64Simd128Zero, g.DefineSameAsFirst(node)); |
| 2312 } | 2354 } |
| 2313 | 2355 |
| 2314 void InstructionSelector::VisitSimd1x4Zero(Node* node) { | 2356 void InstructionSelector::VisitSimd1x4Zero(Node* node) { |
| 2315 X64OperandGenerator g(this); | 2357 X64OperandGenerator g(this); |
| 2316 Emit(kX64Simd128Zero, g.DefineSameAsFirst(node)); | 2358 Emit(kX64Simd128Zero, g.DefineSameAsFirst(node)); |
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| 2352 // static | 2394 // static |
| 2353 MachineOperatorBuilder::AlignmentRequirements | 2395 MachineOperatorBuilder::AlignmentRequirements |
| 2354 InstructionSelector::AlignmentRequirements() { | 2396 InstructionSelector::AlignmentRequirements() { |
| 2355 return MachineOperatorBuilder::AlignmentRequirements:: | 2397 return MachineOperatorBuilder::AlignmentRequirements:: |
| 2356 FullUnalignedAccessSupport(); | 2398 FullUnalignedAccessSupport(); |
| 2357 } | 2399 } |
| 2358 | 2400 |
| 2359 } // namespace compiler | 2401 } // namespace compiler |
| 2360 } // namespace internal | 2402 } // namespace internal |
| 2361 } // namespace v8 | 2403 } // namespace v8 |
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