[wasm-simd][arm64] Optimize load extends to remove add

For load extends, we can use Ldr, which does not require us to manually calculate address - ld1r uses post-index, so we have to add the index ourselves. By checking the operation in the instruction-selector, we can set the addressing mode for load extends to be MRR, then use Ldr in the codegen. Bug: v8:9886 Change-Id: Ibcd22fa719cd6dafd2fd06e68066960db249b57a Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2207656Reviewed-by: Deepti Gandluri <gdeepti@chromium.org> Commit-Queue: Zhi An Ng <zhin@chromium.org> Cr-Commit-Position: refs/heads/master@{#67912}

[wasm-simd][arm64] Optimize load extends to remove add
For load extends, we can use Ldr, which does not require us to manually calculate address - ld1r uses post-index, so we have to add the index ourselves. By checking the operation in the instruction-selector, we can set the addressing mode for load extends to be MRR, then use Ldr in the codegen. Bug: v8:9886 Change-Id: Ibcd22fa719cd6dafd2fd06e68066960db249b57a Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2207656Reviewed-by: Deepti Gandluri <gdeepti@chromium.org> Commit-Queue: Zhi An Ng <zhin@chromium.org> Cr-Commit-Position: refs/heads/master@{#67912}
fde3691b · Ng Zhi An · Commit Bot · f920ad11 · fde3691b · fde3691b
Commit fde3691b authored May 18, 2020 by Ng Zhi An Committed by Commit Bot May 19, 2020
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code-generator-arm64.cc src/compiler/backend/arm64/code-generator-arm64.cc +6 -6

instruction-selector-arm64.cc src/compiler/backend/arm64/instruction-selector-arm64.cc +16 -7

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--- a/src/compiler/backend/arm64/code-generator-arm64.cc
+++ b/src/compiler/backend/arm64/code-generator-arm64.cc
@@ -2550,32 +2550,32 @@ CodeGenerator::CodeGenResult CodeGenerator::AssembleArchInstruction(
      break;
    }
    case kArm64I16x8Load8x8S: {
-      __ ld1(i.OutputSimd128Register().V8B(), i.MemoryOperand(0));
+      __ Ldr(i.OutputSimd128Register().V8B(), i.MemoryOperand(0));
      __ Sxtl(i.OutputSimd128Register().V8H(), i.OutputSimd128Register().V8B());
      break;
    }
    case kArm64I16x8Load8x8U: {
-      __ ld1(i.OutputSimd128Register().V8B(), i.MemoryOperand(0));
+      __ Ldr(i.OutputSimd128Register().V8B(), i.MemoryOperand(0));
      __ Uxtl(i.OutputSimd128Register().V8H(), i.OutputSimd128Register().V8B());
      break;
    }
    case kArm64I32x4Load16x4S: {
-      __ ld1(i.OutputSimd128Register().V4H(), i.MemoryOperand(0));
+      __ Ldr(i.OutputSimd128Register().V4H(), i.MemoryOperand(0));
      __ Sxtl(i.OutputSimd128Register().V4S(), i.OutputSimd128Register().V4H());
      break;
    }
    case kArm64I32x4Load16x4U: {
-      __ ld1(i.OutputSimd128Register().V4H(), i.MemoryOperand(0));
+      __ Ldr(i.OutputSimd128Register().V4H(), i.MemoryOperand(0));
      __ Uxtl(i.OutputSimd128Register().V4S(), i.OutputSimd128Register().V4H());
      break;
    }
    case kArm64I64x2Load32x2S: {
-      __ ld1(i.OutputSimd128Register().V2S(), i.MemoryOperand(0));
+      __ Ldr(i.OutputSimd128Register().V2S(), i.MemoryOperand(0));
      __ Sxtl(i.OutputSimd128Register().V2D(), i.OutputSimd128Register().V2S());
      break;
    }
    case kArm64I64x2Load32x2U: {
-      __ ld1(i.OutputSimd128Register().V2S(), i.MemoryOperand(0));
+      __ Ldr(i.OutputSimd128Register().V2S(), i.MemoryOperand(0));
      __ Uxtl(i.OutputSimd128Register().V2D(), i.OutputSimd128Register().V2S());
      break;
    }

--- a/src/compiler/backend/arm64/instruction-selector-arm64.cc
+++ b/src/compiler/backend/arm64/instruction-selector-arm64.cc
@@ -608,18 +608,23 @@ void EmitLoad(InstructionSelector* selector, Node* node, InstructionCode opcode,
 void InstructionSelector::VisitLoadTransform(Node* node) {
  LoadTransformParameters params = LoadTransformParametersOf(node->op());
  InstructionCode opcode = kArchNop;
+  bool require_add = false;
  switch (params.transformation) {
    case LoadTransformation::kS8x16LoadSplat:
      opcode = kArm64S8x16LoadSplat;
+      require_add = true;
      break;
    case LoadTransformation::kS16x8LoadSplat:
      opcode = kArm64S16x8LoadSplat;
+      require_add = true;
      break;
    case LoadTransformation::kS32x4LoadSplat:
      opcode = kArm64S32x4LoadSplat;
+      require_add = true;
      break;
    case LoadTransformation::kS64x2LoadSplat:
      opcode = kArm64S64x2LoadSplat;
+      require_add = true;
      break;
    case LoadTransformation::kI16x8Load8x8S:
      opcode = kArm64I16x8Load8x8S;
@@ -655,13 +660,17 @@ void InstructionSelector::VisitLoadTransform(Node* node) {
  inputs[1] = g.UseRegister(index);
  outputs[0] = g.DefineAsRegister(node);

-  // ld1r uses post-index, so construct address first.
-  // TODO(v8:9886) If index can be immediate, use vldr without this add.
-  InstructionOperand addr = g.TempRegister();
-  Emit(kArm64Add, 1, &addr, 2, inputs);
-  inputs[0] = addr;
-  inputs[1] = g.TempImmediate(0);
-  opcode |= AddressingModeField::encode(kMode_MRI);
+  if (require_add) {
+    // ld1r uses post-index, so construct address first.
+    // TODO(v8:9886) If index can be immediate, use vldr without this add.
+    InstructionOperand addr = g.TempRegister();
+    Emit(kArm64Add, 1, &addr, 2, inputs);
+    inputs[0] = addr;
+    inputs[1] = g.TempImmediate(0);
+    opcode |= AddressingModeField::encode(kMode_MRI);
+  } else {
+    opcode |= AddressingModeField::encode(kMode_MRR);
+  }
  Emit(opcode, 1, outputs, 2, inputs);
 }