83849da70f
BUG=v8:5294 Change-Id: If45f25aae8de526027b7851cb4efe0ccf4a7c4b1 Reviewed-on: https://chromium-review.googlesource.com/444226 Commit-Queue: Marja Hölttä <marja@chromium.org> Reviewed-by: Benedikt Meurer <bmeurer@chromium.org> Reviewed-by: Andreas Haas <ahaas@chromium.org> Reviewed-by: Yang Guo <yangguo@chromium.org> Reviewed-by: Michael Starzinger <mstarzinger@chromium.org> Cr-Commit-Position: refs/heads/master@{#43388}
433 lines
14 KiB
C++
433 lines
14 KiB
C++
// Copyright 2014 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/compiler/move-optimizer.h"
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#include "src/compiler/pipeline.h"
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#include "src/ostreams.h"
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#include "test/unittests/compiler/instruction-sequence-unittest.h"
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namespace v8 {
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namespace internal {
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namespace compiler {
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class MoveOptimizerTest : public InstructionSequenceTest {
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public:
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// FP register indices which don't interfere under simple or complex aliasing.
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static const int kF64_1 = 0;
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static const int kF64_2 = 1;
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static const int kF32_1 = 4;
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static const int kF32_2 = 5;
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static const int kS128_1 = 2;
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static const int kS128_2 = 3;
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Instruction* LastInstruction() { return sequence()->instructions().back(); }
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void AddMove(Instruction* instr, TestOperand from, TestOperand to,
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Instruction::GapPosition pos = Instruction::START) {
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auto parallel_move = instr->GetOrCreateParallelMove(pos, zone());
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parallel_move->AddMove(ConvertMoveArg(from), ConvertMoveArg(to));
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}
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int NonRedundantSize(ParallelMove* moves) {
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int i = 0;
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for (auto move : *moves) {
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if (move->IsRedundant()) continue;
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i++;
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}
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return i;
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}
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bool Contains(ParallelMove* moves, TestOperand from_op, TestOperand to_op) {
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auto from = ConvertMoveArg(from_op);
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auto to = ConvertMoveArg(to_op);
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for (auto move : *moves) {
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if (move->IsRedundant()) continue;
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if (move->source().Equals(from) && move->destination().Equals(to)) {
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return true;
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}
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}
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return false;
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}
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// TODO(dcarney): add a verifier.
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void Optimize() {
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WireBlocks();
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if (FLAG_trace_turbo) {
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OFStream os(stdout);
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PrintableInstructionSequence printable = {config(), sequence()};
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os << "----- Instruction sequence before move optimization -----\n"
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<< printable;
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}
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MoveOptimizer move_optimizer(zone(), sequence());
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move_optimizer.Run();
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if (FLAG_trace_turbo) {
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OFStream os(stdout);
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PrintableInstructionSequence printable = {config(), sequence()};
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os << "----- Instruction sequence after move optimization -----\n"
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<< printable;
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}
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}
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private:
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bool DoesRegisterAllocation() const override { return false; }
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InstructionOperand ConvertMoveArg(TestOperand op) {
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CHECK_EQ(kNoValue, op.vreg_.value_);
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CHECK_NE(kNoValue, op.value_);
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switch (op.type_) {
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case kConstant:
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return ConstantOperand(op.value_);
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case kFixedSlot:
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return AllocatedOperand(LocationOperand::STACK_SLOT,
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MachineRepresentation::kWord32, op.value_);
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case kFixedRegister: {
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MachineRepresentation rep = GetCanonicalRep(op);
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CHECK(0 <= op.value_ && op.value_ < GetNumRegs(rep));
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return AllocatedOperand(LocationOperand::REGISTER, rep, op.value_);
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}
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case kExplicit: {
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MachineRepresentation rep = GetCanonicalRep(op);
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CHECK(0 <= op.value_ && op.value_ < GetNumRegs(rep));
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return ExplicitOperand(LocationOperand::REGISTER, rep, op.value_);
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}
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default:
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break;
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}
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CHECK(false);
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return InstructionOperand();
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}
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};
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TEST_F(MoveOptimizerTest, RemovesRedundant) {
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StartBlock();
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auto first_instr = EmitNop();
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auto last_instr = EmitNop();
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AddMove(first_instr, Reg(0), Reg(1));
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AddMove(last_instr, Reg(1), Reg(0));
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AddMove(first_instr, FPReg(kS128_1, kSimd128), FPReg(kS128_2, kSimd128));
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AddMove(last_instr, FPReg(kS128_2, kSimd128), FPReg(kS128_1, kSimd128));
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AddMove(first_instr, FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64));
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AddMove(last_instr, FPReg(kF64_2, kFloat64), FPReg(kF64_1, kFloat64));
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AddMove(first_instr, FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32));
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AddMove(last_instr, FPReg(kF32_2, kFloat32), FPReg(kF32_1, kFloat32));
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EndBlock(Last());
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Optimize();
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CHECK_EQ(0, NonRedundantSize(first_instr->parallel_moves()[0]));
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auto move = last_instr->parallel_moves()[0];
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CHECK_EQ(4, NonRedundantSize(move));
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CHECK(Contains(move, Reg(0), Reg(1)));
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CHECK(Contains(move, FPReg(kS128_1, kSimd128), FPReg(kS128_2, kSimd128)));
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CHECK(Contains(move, FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64)));
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CHECK(Contains(move, FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32)));
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}
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TEST_F(MoveOptimizerTest, RemovesRedundantExplicit) {
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int index1 = GetAllocatableCode(0);
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int index2 = GetAllocatableCode(1);
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int s128_1 = GetAllocatableCode(kS128_1, kSimd128);
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int s128_2 = GetAllocatableCode(kS128_2, kSimd128);
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int f64_1 = GetAllocatableCode(kF64_1, kFloat64);
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int f64_2 = GetAllocatableCode(kF64_2, kFloat64);
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int f32_1 = GetAllocatableCode(kF32_1, kFloat32);
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int f32_2 = GetAllocatableCode(kF32_2, kFloat32);
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StartBlock();
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auto first_instr = EmitNop();
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auto last_instr = EmitNop();
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AddMove(first_instr, Reg(index1), ExplicitReg(index2));
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AddMove(last_instr, Reg(index2), Reg(index1));
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AddMove(first_instr, FPReg(s128_1, kSimd128),
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ExplicitFPReg(s128_2, kSimd128));
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AddMove(last_instr, FPReg(s128_2, kSimd128), FPReg(s128_1, kSimd128));
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AddMove(first_instr, FPReg(f64_1, kFloat64), ExplicitFPReg(f64_2, kFloat64));
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AddMove(last_instr, FPReg(f64_2, kFloat64), FPReg(f64_1, kFloat64));
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AddMove(first_instr, FPReg(f32_1, kFloat32), ExplicitFPReg(f32_2, kFloat32));
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AddMove(last_instr, FPReg(f32_2, kFloat32), FPReg(f32_1, kFloat32));
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EndBlock(Last());
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Optimize();
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CHECK_EQ(0, NonRedundantSize(first_instr->parallel_moves()[0]));
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auto move = last_instr->parallel_moves()[0];
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CHECK_EQ(4, NonRedundantSize(move));
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CHECK(Contains(move, Reg(index1), ExplicitReg(index2)));
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CHECK(
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Contains(move, FPReg(s128_1, kSimd128), ExplicitFPReg(s128_2, kSimd128)));
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CHECK(Contains(move, FPReg(f64_1, kFloat64), ExplicitFPReg(f64_2, kFloat64)));
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CHECK(Contains(move, FPReg(f32_1, kFloat32), ExplicitFPReg(f32_2, kFloat32)));
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}
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TEST_F(MoveOptimizerTest, SplitsConstants) {
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StartBlock();
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EndBlock(Last());
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auto gap = LastInstruction();
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AddMove(gap, Const(1), Slot(0));
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AddMove(gap, Const(1), Slot(1));
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AddMove(gap, Const(1), Reg(0));
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AddMove(gap, Const(1), Slot(2));
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Optimize();
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auto move = gap->parallel_moves()[0];
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CHECK_EQ(1, NonRedundantSize(move));
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CHECK(Contains(move, Const(1), Reg(0)));
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move = gap->parallel_moves()[1];
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CHECK_EQ(3, NonRedundantSize(move));
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CHECK(Contains(move, Reg(0), Slot(0)));
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CHECK(Contains(move, Reg(0), Slot(1)));
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CHECK(Contains(move, Reg(0), Slot(2)));
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}
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TEST_F(MoveOptimizerTest, SimpleMerge) {
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StartBlock();
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EndBlock(Branch(Imm(), 1, 2));
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StartBlock();
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EndBlock(Jump(2));
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AddMove(LastInstruction(), Reg(0), Reg(1));
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AddMove(LastInstruction(), FPReg(kS128_1, kSimd128),
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FPReg(kS128_2, kSimd128));
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AddMove(LastInstruction(), FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64));
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AddMove(LastInstruction(), FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32));
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StartBlock();
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EndBlock(Jump(1));
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AddMove(LastInstruction(), Reg(0), Reg(1));
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AddMove(LastInstruction(), FPReg(kS128_1, kSimd128),
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FPReg(kS128_2, kSimd128));
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AddMove(LastInstruction(), FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64));
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AddMove(LastInstruction(), FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32));
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StartBlock();
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EndBlock(Last());
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auto last = LastInstruction();
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Optimize();
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auto move = last->parallel_moves()[0];
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CHECK_EQ(4, NonRedundantSize(move));
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CHECK(Contains(move, Reg(0), Reg(1)));
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CHECK(Contains(move, FPReg(kS128_1, kSimd128), FPReg(kS128_2, kSimd128)));
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CHECK(Contains(move, FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64)));
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CHECK(Contains(move, FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32)));
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}
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TEST_F(MoveOptimizerTest, SimpleMergeCycle) {
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StartBlock();
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EndBlock(Branch(Imm(), 1, 2));
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StartBlock();
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EndBlock(Jump(2));
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auto gap_0 = LastInstruction();
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AddMove(gap_0, Reg(0), Reg(1));
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AddMove(LastInstruction(), Reg(1), Reg(0));
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AddMove(gap_0, FPReg(kS128_1, kSimd128), FPReg(kS128_2, kSimd128));
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AddMove(LastInstruction(), FPReg(kS128_2, kSimd128),
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FPReg(kS128_1, kSimd128));
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AddMove(gap_0, FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64));
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AddMove(LastInstruction(), FPReg(kF64_2, kFloat64), FPReg(kF64_1, kFloat64));
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AddMove(gap_0, FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32));
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AddMove(LastInstruction(), FPReg(kF32_2, kFloat32), FPReg(kF32_1, kFloat32));
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StartBlock();
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EndBlock(Jump(1));
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auto gap_1 = LastInstruction();
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AddMove(gap_1, Reg(0), Reg(1));
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AddMove(gap_1, Reg(1), Reg(0));
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AddMove(gap_1, FPReg(kS128_1, kSimd128), FPReg(kS128_2, kSimd128));
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AddMove(gap_1, FPReg(kS128_2, kSimd128), FPReg(kS128_1, kSimd128));
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AddMove(gap_1, FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64));
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AddMove(gap_1, FPReg(kF64_2, kFloat64), FPReg(kF64_1, kFloat64));
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AddMove(gap_1, FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32));
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AddMove(gap_1, FPReg(kF32_2, kFloat32), FPReg(kF32_1, kFloat32));
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StartBlock();
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EndBlock(Last());
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auto last = LastInstruction();
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Optimize();
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CHECK(gap_0->AreMovesRedundant());
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CHECK(gap_1->AreMovesRedundant());
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auto move = last->parallel_moves()[0];
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CHECK_EQ(8, NonRedundantSize(move));
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CHECK(Contains(move, Reg(0), Reg(1)));
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CHECK(Contains(move, Reg(1), Reg(0)));
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CHECK(Contains(move, FPReg(kS128_1, kSimd128), FPReg(kS128_2, kSimd128)));
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CHECK(Contains(move, FPReg(kS128_2, kSimd128), FPReg(kS128_1, kSimd128)));
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CHECK(Contains(move, FPReg(kF64_1, kFloat64), FPReg(kF64_2, kFloat64)));
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CHECK(Contains(move, FPReg(kF64_2, kFloat64), FPReg(kF64_1, kFloat64)));
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CHECK(Contains(move, FPReg(kF32_1, kFloat32), FPReg(kF32_2, kFloat32)));
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CHECK(Contains(move, FPReg(kF32_2, kFloat32), FPReg(kF32_1, kFloat32)));
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}
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TEST_F(MoveOptimizerTest, GapsCanMoveOverInstruction) {
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StartBlock();
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int const_index = 1;
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DefineConstant(const_index);
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Instruction* ctant_def = LastInstruction();
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AddMove(ctant_def, Reg(1), Reg(0));
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Instruction* last = EmitNop();
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AddMove(last, Const(const_index), Reg(0));
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AddMove(last, Reg(0), Reg(1));
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EndBlock(Last());
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Optimize();
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ParallelMove* inst1_start =
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ctant_def->GetParallelMove(Instruction::GapPosition::START);
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ParallelMove* inst1_end =
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ctant_def->GetParallelMove(Instruction::GapPosition::END);
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ParallelMove* last_start =
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last->GetParallelMove(Instruction::GapPosition::START);
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CHECK(inst1_start == nullptr || NonRedundantSize(inst1_start) == 0);
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CHECK(inst1_end == nullptr || NonRedundantSize(inst1_end) == 0);
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CHECK(last_start->size() == 2);
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int redundants = 0;
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int assignment = 0;
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for (MoveOperands* move : *last_start) {
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if (move->IsRedundant()) {
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++redundants;
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} else {
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++assignment;
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CHECK(move->destination().IsRegister());
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CHECK(move->source().IsConstant());
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}
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}
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CHECK_EQ(1, redundants);
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CHECK_EQ(1, assignment);
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}
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TEST_F(MoveOptimizerTest, SubsetMovesMerge) {
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StartBlock();
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EndBlock(Branch(Imm(), 1, 2));
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StartBlock();
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EndBlock(Jump(2));
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Instruction* last_move_b1 = LastInstruction();
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AddMove(last_move_b1, Reg(0), Reg(1));
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AddMove(last_move_b1, Reg(2), Reg(3));
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StartBlock();
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EndBlock(Jump(1));
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Instruction* last_move_b2 = LastInstruction();
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AddMove(last_move_b2, Reg(0), Reg(1));
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AddMove(last_move_b2, Reg(4), Reg(5));
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StartBlock();
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EndBlock(Last());
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Instruction* last = LastInstruction();
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Optimize();
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ParallelMove* last_move = last->parallel_moves()[0];
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CHECK_EQ(1, NonRedundantSize(last_move));
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CHECK(Contains(last_move, Reg(0), Reg(1)));
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ParallelMove* b1_move = last_move_b1->parallel_moves()[0];
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CHECK_EQ(1, NonRedundantSize(b1_move));
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CHECK(Contains(b1_move, Reg(2), Reg(3)));
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ParallelMove* b2_move = last_move_b2->parallel_moves()[0];
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CHECK_EQ(1, NonRedundantSize(b2_move));
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CHECK(Contains(b2_move, Reg(4), Reg(5)));
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}
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TEST_F(MoveOptimizerTest, GapConflictSubsetMovesDoNotMerge) {
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StartBlock();
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EndBlock(Branch(Imm(), 1, 2));
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StartBlock();
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EndBlock(Jump(2));
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Instruction* last_move_b1 = LastInstruction();
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AddMove(last_move_b1, Reg(0), Reg(1));
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AddMove(last_move_b1, Reg(2), Reg(0));
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AddMove(last_move_b1, Reg(4), Reg(5));
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StartBlock();
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EndBlock(Jump(1));
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Instruction* last_move_b2 = LastInstruction();
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AddMove(last_move_b2, Reg(0), Reg(1));
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AddMove(last_move_b2, Reg(4), Reg(5));
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StartBlock();
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EndBlock(Last());
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Instruction* last = LastInstruction();
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Optimize();
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ParallelMove* last_move = last->parallel_moves()[0];
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CHECK_EQ(1, NonRedundantSize(last_move));
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CHECK(Contains(last_move, Reg(4), Reg(5)));
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ParallelMove* b1_move = last_move_b1->parallel_moves()[0];
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CHECK_EQ(2, NonRedundantSize(b1_move));
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CHECK(Contains(b1_move, Reg(0), Reg(1)));
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CHECK(Contains(b1_move, Reg(2), Reg(0)));
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ParallelMove* b2_move = last_move_b2->parallel_moves()[0];
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CHECK_EQ(1, NonRedundantSize(b2_move));
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CHECK(Contains(b1_move, Reg(0), Reg(1)));
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}
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TEST_F(MoveOptimizerTest, ClobberedDestinationsAreEliminated) {
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StartBlock();
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EmitNop();
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Instruction* first_instr = LastInstruction();
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AddMove(first_instr, Reg(0), Reg(1));
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EmitOI(Reg(1), 0, nullptr);
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Instruction* last_instr = LastInstruction();
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EndBlock();
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Optimize();
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ParallelMove* first_move = first_instr->parallel_moves()[0];
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CHECK_EQ(0, NonRedundantSize(first_move));
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ParallelMove* last_move = last_instr->parallel_moves()[0];
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CHECK_EQ(0, NonRedundantSize(last_move));
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}
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TEST_F(MoveOptimizerTest, ClobberedFPDestinationsAreEliminated) {
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StartBlock();
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EmitNop();
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Instruction* first_instr = LastInstruction();
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AddMove(first_instr, FPReg(4, kFloat64), FPReg(1, kFloat64));
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if (!kSimpleFPAliasing) {
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// We clobber q0 below. This is aliased by d0, d1, s0, s1, s2, and s3.
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// Add moves to registers s2 and s3.
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AddMove(first_instr, FPReg(10, kFloat32), FPReg(0, kFloat32));
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AddMove(first_instr, FPReg(11, kFloat32), FPReg(1, kFloat32));
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}
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// Clobbers output register 0.
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EmitOI(FPReg(0, kSimd128), 0, nullptr);
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Instruction* last_instr = LastInstruction();
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|
EndBlock();
|
|
Optimize();
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|
|
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ParallelMove* first_move = first_instr->parallel_moves()[0];
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CHECK_EQ(0, NonRedundantSize(first_move));
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|
|
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ParallelMove* last_move = last_instr->parallel_moves()[0];
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CHECK_EQ(0, NonRedundantSize(last_move));
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|
}
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} // namespace compiler
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} // namespace internal
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} // namespace v8
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